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{{#Wiki_filter:Pacific Gas and Electric Company April 26, 2017 PG&E Letter DCL-17-030 James M. Welsch Vice President, Nuclear Generation Diablo Canyon Power Plant Mail Code 104/6 P. 0. Box 56 Avila Beach, CA 93424 80 5. 545. 3242 Internal: 691. 3242 Fax: 805. 545.4884 u.s: Nuclear Regulatory Commission A TIN: Document Control Desk Washington, DC 20555-0001 10 CFR 50; Appendix I Docket No. 50-275, OL-DPR-80 Docket No. 50-323, OL-DPR-82 Diablo Canyon Units 1 and 2 2016 Annual Radiological Environmental Operating Report | |||
==Dear Commissioners and Staff:== | |||
In accordance with Diablo Canyon Power Plant, Units 1 and 2, Technical Specification 5.6.2, "Annual Radiological Environmental Operating Report," Pacific Gas and Electric Company hereby submits the 2016 Annual Radiological Environmental Operating Report (AREOR). The AREOR is provided in the enclosure to this letter, which contains material consistent with the objectives of the Offsite Dose Calculation Manual, and 10 CFR 50, Appendix I, Sections IV.B.2, IV.B.3, and IV.C. There are no new or revised regulatory commitments in this report (as defined by NEI 99-04). If you have any questions regarding this submittal, please contact Mr. Martin Wright at (805) 545-3821 . Sincerely, A member of the STARS Alliance Callaway | |||
* Diablo Canyon | |||
* Palo Verde | |||
* Wolf Creek Document Control Desk April 26, 2017 PG&E Letter DCL-17-030 Page2 mem6/4539/64142521 Enclosure cc: Diablo Distribution cc/enc: Larry R. Allen, Air Pollution Control Officer, San Luis Obispo County Air Pollution Control District Dr. Penny E. Borenstein, San Luis Obispo County Health Officer Kriss M. Kennedy, NRG Region IV Administrator John M. Robertson, Executive Officer, CCRWQCB Gonzalo L. Perez, Branch Chief, California Department of Public Health Christopher W. Newport, DCPP NRG Senior Resident Inspector Balwant K. Singal, NRG Senior Project Manager Executive Officer, San Luis Obispo County Air Pollution Control District A member of the STARS Alliance Callaway | |||
* Diablo Canyon | |||
* Palo Verde | |||
* Wolf Creek PG&E Letter DCL-17-030 2016 ANNUAL RADIOLOGICAL ENVIRONMENTAL OPERA TING REPORT 2016 Annual Radiological Environmental Operating Report Diablo Canyon Power Plant January 1, 2016 -December 31, 2016 This page intentionally left blank. L 2016 Diablo Canyon Power Plant ANNUAL RADIOLOGICAL ENVIRONMENTAL OPERATING REPORT (AREOR) Prepared: January 1, 2016 -December 31, 2016 Prepared By Pacific Gas & Electric Company Diablo Canyon Power Plant Date: Martin Wright, DCPP RP Senior Advising Engineer Inde endent Tech Re | |||
* Date: lt '-1 /1 Date: If. 'I 11 Protection Manager PG&E Submittal Letter DCL-17-030 This page intentionally left blank. | |||
, EXECUTIVE SUMMARY This report contains results from the operational Radiological Environmental Monitoring Program (REMP) for Diablo Canyon Power Plant (DCPP) compiled for the period January 1, 2016 through December 31, 2016. The purpose of the REMP was to assess the levels of radiation or radioactivity in the environment and to verify that DCPP was operating within its design parameters. This data was used to assure that plant effluents did not result in a significant radiological dose to offsite individuals. Operation ofDCPP continued to have no detectable offsite radiological impact. Samples analyzed from the offsite sampling stations continued to show no radiological contribution from plant operations. The offsite radiological doses received by the general public from plant operations 'Yere less than one millirem (mr) anmially which is insignificant when compared to the 310 millirem average annual radiation exposure to people in the United States from natural radiation sources (e.g. cosmic, terrestrial, radon, etc). More than 260 environmental samples, 880 air samples, and 1400 thermo luminescent dosimeter (TLD) phosphors were collected over the course of the 2016 REMP monitoring period. Approximately 1782 radionuclide analyses were performed on the environmental samples. The REMP was conducted in accordance with DCPP Program Directive CY2, "Radiological Monitoring and Controls Program," and RPl.IDl l, "Environmental Radiological Monitoring Procedure." This report was submitted per DCPP License Technical Specification 5.6.2. The types of samples (matrix ID) collected for this monitoring period were as follows: Air Particulate (AP) Air Cartridges (AC) for iodide monitoring Carbon-14 (AC14) Direct Radiation (TLD) Milk (MK) Meat (MT) Vegetation (VG) Drinking Water (DW) Ground Water (GW) Monitor Well (GW) Surface Water (SW) Aquatic Vegetation (AV) Fish (FH) Mussels (IM) Sediment (SD) The ambient direct radiation levels in the DCPP offsite environs did not change and were within the operational background range. | |||
The ambient onsite direct radiation levels within the DCPP plant site boundary near the Independent Spent Fuel Storage Installation (ISFSI) were elevated due to dry cask spent fuel storage. The remaining onsite REMP environmental TLD locations were not affected by the ISFSI due to ISFSI topographical elevation and placement within an onsite hillside which provided shielding to the rest of the site. An evaluation of direct radiation measurements and member of public occupancy times within the site boundary indicated all federal criteria for member of public dose limits (10CFR20.1301) were conservatively met. An evaluation of direct radiation measurements indicated all federal EPA 40CFR190 criteria were conservatively met. Groundwater isotopic monitoring was conducted* in accordance with the nuclear industry NEI 07-07 Groundwater Protection Initiative (GPI). Concentrations of tritium were detected in two shallow monitoring wells (stations OWl and DYl) near the power block. This tritium was evaluated and attributed to rain-washout of gaseous tritium exiting the plant vent system (via an approved effluents discharge path). No groundwater tritium was attributed to DCPP system leaks or spills. It should also be noted that studies of the DCPP site groundwater gradient indicated that any groundwater (subsurface) flow beneath the DCPP power block was not used as a source of drinking water. Due to topography and site characteristics, this groundwater gradient flow discharged into the Pacific Ocean which is approximately 100 yards from the power block. An Old Steam Generator Storage Facility (OSGSF) long term storage mausoleum was cons_tructed within the DCPP site boundary in 2007 for storage of eight retired DCPP steam generators and two retired DCPP reactor heads. This OSGSF did not cause any changes to the ambient direct radiation levels within the DCPP environs during 2016. The OSGSF in-building sumps were inspected quarterly by REMP personnel. These OSGSF sumps have remained empty and dry during 2016. The results of the 2016 REMP showed no unusual environmental isotopic findings from DCPP site operations. These results were compared to DCPP preoperational isotopic data and showed no unusual trends. I Diablo Canyon site operations had no significant environmental radiological impact on airborne, surface water, drinking water, marine life, aquatic vegetation, terrestrial vegetation, sediment, milk, or meat radioactivity. | |||
Executive Summary 1.0 Introduction 2.0 Program Design 2.1 Monitoring Zones 2.2 Pathways Monitored TABLE OF CONTENTS 2.3 Descriptions ofREMP Monitoring 2.3.1 Direct Radiation 2.3.2 Airborne Radioactivity 2.3.3 Airborne Carbon-14 2.3.4 Waterborne 2.3.5 Marine Biological, Beach Sand, and Ocean Sediment 2.3.6 Food Crops 2.3.7 Milk 2.3.8 Meat 3.0 Radiological Data Summary of Tables 4.0 Analysis of Environmental Results 4.1 REMP Sampling Variance I Deviations 4.2 Comparison of Achieved LLDs with Requirements 4.3 Comparison of Results against Reporting Levels 4.4 Data Analysis by Media Type 4.4. l Direct Radiation 4.4.2 Airborne Radioactivity 4.4.3 Waterborne 4.4.4 Marine Biological, Beach Sand, and Ocean Sediment 4.4.5 . Food Crops 4.4.6 Milk 4.4.7 Meat 5.0 Groundwater Monitoring 6.0 Old Steam Generator Storage Facility 7.0 Lab Cross Check Program 8.0 DCPP Annual Land Use Census 9.0 DCPP Wind Rose 10.0 References Appendix A Individual Analytical Sample Results Photograph credits: Tom Hook, John Lindsey, and Martin Wright This page intentionally left blank. | |||
LIST OF TABLES Table Title 2.1 Radiological Environmental Monitoring Program 2.2 Distances and Directions to Environmental Monitoring Stations 2.3 Detection Capabilities for Environmental Lower Limit of Detection (LLD) 2.4 Reporting Levels for Radioactivity Concentrations in Environmental Samples 3 .1 Direct Radiation Summary Table 3.2 REMP Airborne Summary Table 3.3 Surface Water Summary Table 3.4 Drinking Water Summary Table 3.5 Mussel Summary Table 3.6 Fish Summary Table 3. 7 Algae Summary Table 3.8 Kelp Summary Table 3 .9 Vegetative Crops Summary Table 3 .10 Milk Summary Table 3.11 Meat Summary Table 3.12 Ocean Sediment Summary Table 3.13 Beach Sand Summary Table 3.14 Groundwater Summary Table 3.15 Monitoring Well Summary Table 8 DCPP Land Use Census Figure 2.1 2.2 2.3 8 LIST OF FIGURES Title Diablo Canyon Off-site REMP Locations Diablo Canyon On-site REMP Locations Diablo Canyon REMP Stations DCPP Land Use Census Map This page intentionally left blank. __ J | |||
==1.0 INTRODUCTION== | |||
Diablo Canyon Power Plant (DCPP) consists of two Westinghouse pressurized water reactors (PWR). Unit 1 began commercial operation on May 7, 1985 and Unit 2 began commercial operation on March 13, 1986. Each unit produces approximately 1, 100 megawatts electrical (MWe). The purpose of the Radiological Environmental Monitoring Program (REMP) is to verify that Diablo Canyon Power Plant (DCPP) is operating within its design parameters and to assure that plant effluents do not result in a significant radiological dose to offsite individuals. Operation ofDCPP continues to have no detectable radiological impact offsite. Samples analyzed from the offsite sampling stations continue to show no radiological contribution from plant operations. The annual radiological doses received by the general public from plant operations were less than one millirem (mr) which is insignificant when compared to the 310 millirem average annual radiation exposure to people in the United States from natural radiation sources (e.g. cosmic, terrestrial, radon, etc). For comparison, this < 1 mr annual exposure is equivalent to approximately I to 2 hours of cosmic exposure during a cross country airline flight. | |||
This Annual Radiological Environmental Operating Report (AREOR) summarized the findings of the REMP conducted by DCPP. The remainder of this AREOR was organized as follows: Section 2: Provided a description of the overall REMP design. Included was a summary of the requirements for REMP sampling and tables listing routine sampling and TLD monitoring locations with distances from the plant. Tables listing Lower Limit of Detection requirements and Reporting Levels (NRC notification if levels exceeded) were also included. Section 3: Consisted of the summarized data as required by the Radiological Environmental Monitoring Program. The summaries were provided similar to that specified by the NRC Branch Technical Position on Environmental Monitoring. Section 4: Provided a summary of the results for the samples collected. The performance of the program in meeting the requirements was discussed, and the data acquired during the monitoring period was analyzed. Also included was environmental TLD data trending. Section 5: Provided a summary of groundwater monitoring in accordance with the nuclear industry NEI 07-07 Groundwater Protection Initiative. This report and previous DCPP AREOR's can be found on the NRC website at: http://www.nrc.gov/reactors/operating/ops-experience/tritium/plant-info.html DCPP REMP sent replicate split samples of stations 7G 1 vegetation (quarterly), 5F2 milk (monthly), 5S2 drinking water (monthly), DWI drinking water (monthly), OUT seawater (monthly\_DCM kelp (quarterly), DCM perch (quarterly), DCM rockfish (quarterly), and DCM ocean sediment (annually) to the California Department of Public Health -Radiologic Health Branch (CDPH-RHB) Laboratory as part of a California State split sampling program. These split samples were independently analyzed by the CD PH-RHB. Other pathways independently monitored by the CDPH-RHB were quarterly direct radiation environmental TLD stations (MTl, lAl, I Cl, 4Dl, 5F3, 5Sl, 7Dl, 7Cl, 7Fl, and 8S2) and weekly air sampling particulate and 1-131 (at stations 5F3 and 7D 1 ). The general public can access these CDPH-RHB split sampling data results via the internet at: http://www.cdph.ca.gov/programs/Pages/RHB-RadReport.aspx L 2.0 PROGRAM DESIGN The Radiological Environmental Monitoring Program (REMP) for the Diab lo Canyon Power Plant (DCPP) was designed with the following specific objectives in mind. These objectives continue to be in force, to varying degrees, throughout facility operation: | |||
* To provide an early indication of the appearance or accumulation of any radioactive material in the environment caused by facility operation. Preoperational data was also used in this comparison. | |||
* To provide assurance to regulatory agencies and the public that the station's environmental impact was known and within anticipated limits. | |||
* To provide standby monitoring capability for rapid assessment of risk to the general public in the event of unanticipated or accidental releases ofradioactive material. The environmental media selected were based on the critical dose pathways of the radionuclides from the environment to man. They included the following: direct radiation, air, water, fish, ocean sediment, and invertebrates. Supplemental samples such as algae, kelp, local agricultural crops, recreational beach sand, groundwater, meat, and milk were also collected. The sampling locations were determined by land use, site meteorology, and local demographics. Guidance for this monitoring program was provided by the Radiological Assessment Branch Technical Position on Radiological Environmental Monitoring, Revision 1, November 1979 (NUREG-1301). Radiological Environmental Monitoring Program (REMP) samples were collected by DCPP REMP personnel and sent to General Engineering Labs (GEL) in Charleston, South Carolina for isotopic analysis. Fish (except market fish) and ocean sediment samples were collected by contract divers of Tenera Environmental and given to DCPP REMP personnel for shipment to GEL. Market fish samples were collected by local commercial fishermen and then purchased by DCPP REMP personnel in one of two local fish markets for shipment to GEL. Environmental direct radiation analyses were conducted by the use of thermo-luminescent dosimeters (TLD). Environmental TLD analysis was conducted by Mirion Technologies in Irvine California. The detailed sampling requirements of the REMP were given in Table 2.1 of this report. Data summary tables ofREMP sampling for the period were shown in section 3 of this report. Any deviations from the REMP sampling schedule I requirements were documented in section 4 of this report. Direct dose (environmental TLD) results were shown in section 4 of this report. Individual REMP sample isotopic analysis results were shown in Appendix A of this report. Isotopic analysis results were classified as "detected" ifthe a-posteriori analysis result was greater than the Minimum Detectable Concentration (MDC) value for that specific analysis. Detected concentrations ( > MDC) of nuclear power plant related isotopes have been highlighted in Appendix A with yellow background for quick identification by the ARBOR audience. Naturally occurring radioactive materials (NORM) were not highlighted (e.g. gross beta, Be-7, K-40, thorium, radium, radon, lead, etc). | |||
\ 2.1 MONITORING ZONES The REMP was designed to allow comparison of levels of radioactivity in samples from the areas possibly influenced by DCPP to levels found in areas not influenced by the facility operations. Areas with the potential to be influenced by facility operations were called "indicator" stations. Areas with sufficient distance from the plant that were not likely to be influenced by facility operations were called "control" stations. The distinction between the two zones was based on distance and relative direction from the plant. Analysis of survey data from the two zones aided in determination of site* environmental influence. Analysis from the two zones assisted in differentiation between radioactive releases and seasonal variations in the natural environmental background radioactivity. 2.2 PATHWAYS MONITORED Direct Radiation Airborne Radioactivity W aterbome Pathways Marine Biological, Beach Sand, and Ocean Sediment Food Crops Milk Meat 2.3 DESCRIPTIONS OF REMP MONITORING 2.3.l Direct Radiation Environmental TLD badge packets were distributed and collected from field stations by DCPP REMP personnel and then shipped to Mirion Technologies for processing on a quarterly basis. Control badges accompanied the field badges during shipment and deployment to measure any non-station dose received during transit time periods. Direct ambient radiation was measured at 32 stations in the vicinity ofDCPP and at 8 stations in the vicinity of the ISFSI using Panasonic UDS 14 TLD badges. The TLD badges had valid element correction factors (ECF), were calibrated using a NIST-traceable caesium-137 source, were annealed prior to placement, and were sealed in watertight packaging. Three TLD badges were placed at each l _ station and each badge contained 3 calcium sulfate phosphors for a total of 9 calcium sulfate phosphors at each station. The 9 phosphors were analyzed and then averaged to provide a single station reading. Transit process exposure was subtracted and that single reading was converted into a microrem per hour (uR/hr) doserate dependent on the in-field exposure time period. Then the uR/hr doserate was converted into millirem (mr) per standard (91 day) quarter. This millirem result was reported as "Standard Quarter TLD Results" for each station in the Section 4.4. l Env TLD Analysis spreadsheets. DCPP Environmental TLD "Standard Quarter TLD Results" were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, made, etc) at each station during the in-field deployment period. These inclusive exposure values were used to create the trend graphs in Section 4.4.1. ANSI/HPS N13.37-2014 methodology was used to report "Quarterly I Annual Investigation Level Dose" as a means to quantify facility related exposure. 2.3.2 Airborne Radioactivity Air particulate and 'radioiodine sampling were performed weekly at six indicator stations: MTI, OS2, lSl, 7Dl, 8Sl and 8S2. Air particulate and radioiodine sampling was performed weekly at one control station: 5Fl. Constant flow air samplers (F&J model DF-1) were used to draw air through paper filters to collect air particulates (station matrix AP= Air Particulate) and / through triethylenediamine (TEDA) impregnated charcoal cartridges to collect radioiodine (station matrix AC =Air Charcoal). The air sampling flow rate was conducted at approximately 2.55 meters per hour. The air sampling collection filters were located approximately seven feet above the ground. The sample volumes were determined by F&J Corporation model DF-1 flow meters (corrected to standard temperature and pressure, STP) which were installed downstream of the sample filters. At the end of the weekly sampling period, the particulate filter and TEDA charcoal cartridge were collected. All necessary data regarding the air volume readings, flow rate, sampler time on I off, date of collection, and sampler station location were recorded and submitted to GEL along with the filter samples for isotopic analysis. | |||
Approximately 72 hours after sampling (to allow for radon and thoron daughter decay), the particulate filter papers collected from the field were placed on individual planchets and counted for gross beta activity in a low background, thin window gas proportional counter. Quarterly gamma spectroscopy isotopic analysis was performed on station composites of the approximate 13 filters to determine the activity concentration of gamma emitting isotopes. The quarterly composite sample time is reported at the midpoint of the quarter monitored. Due to the short half-life of fodine-131, each station weekly TEDA impregnated charcoal cartridge was counted for gamma spectroscopy isotopic analysis to determine the radioiodine concentration. 2.3.3 Airborne Carbon-14 Supplemental air Carbon-14 (station matrix A Cl 4) sampling was performed weekly at stations OS2 (northwest sector), 8Sl (southeast sector), and 5Fl (control station in San Luis Obispo) throughout 2016. General Engineering Labs (GEL) and DCPP REMP worked together to develop a method for sampling environmental airborne inorganic C-14. Inorganic C-14 (as C02) is the primary exposure pathway to man via photosynthesis in plants. A constant flow air sampler was used to draw air through a solid phase carbon sensitive sorbent cartridge. The air sampler was set at a flow rate of 1.0 standard liter per minute. The air sample filter cartridge head was located approximately seven feet above the ground. At the end of the weekly sampling period, the filter cartridge was collected. All necessary data regarding the air volume, flow rate, sampler time on I off, date of collection, and sampler station location were recorded and submitted to GEL along with the sample filter for C-14 analysis. At GEL, a suitable portion of the solid sorbent material was processed through a method utilizing wet oxidation to remove volatile C02 from the media in a closed distillation system. Once removed from the media, C-14 as carbon dioxide was sparged through a dilute acid solution for trapping any tritium water present in the sample. After sparging through dilute acid, the C02 was trapped in a sorbing solution which was added to liquid scintillation cocktail and finally counted in a liquid scintillation counter. It should be noted that C-14 results in Appendix A are reported in microcuries (uCi) per cubic meter. This method met the following specifications: | |||
* Validated to retain 99.9% of inorganic C-14 in air | |||
* Validated at collection rates of approximately 1.0 liter per minute | |||
* Validated for total collection capacity over a 1 week sampling interval | |||
* Accurate analysis of C-14 over a wide range of concentrations | |||
* Methodology free from interference by other radionuclides | |||
* Detection capability of approximately 8E-7 uCi (0.8 pCi) per cubic meter 2.3.4 Waterborne Water samples (drinking water, surface water, monitor wells, and groundwater) were collected at the frequencies shown in Table 2.1 Ocean surface water samples were collected at Diablo Cove (station DCM), Rattlesnake Canyon (station 7C2), and at the plant Outfall (station OUT). Drinking water samples were collected from Diablo Creek Weir (station 5S2), Diablo Creek Outlet (station WN2), Blanchard Spring (station 1A2), and from the DCPP drinking water system (station DWI). San Luis Obispo (SLO) city drinking water was also collected from a control station located at 4325 South Higuera Street, Offsite Emergency Lab (station OEL) in SLO. Supplemental groundwat'er samples were collected from Water Well 02 (WW2) and DCSF96-l (8S3). Supplemental on-site monitoring well samples were collected from french drain systems labeled Observation Well 01 (OWl), Observation Well 02 (OW2), and Drywell 115 (DYl). These shallow French drain well systems were located in close proximity to the facility power block structures and within the protected area. Two new on-site monitoring wells were installed in December 2011 as part of the industry Groundwater Protection Initiative (GPI). Isotopic sampling of these wells was initiated in 2012. These two new onsite wells were downgradient of the power block and located along the west side of the power block. These two new monitoring wells were labeled Groundwater 1 (GWl) and Groundwater 2 (GW2). After collection, the samples were securely sealed and labeled with sample type, station ID, date, time of collection, person performing the collection and sent to GEL for analysis. | |||
2.3.5 Marine Biological, Beach Sand, and Ocean Sediment The REMP required sampling of rockfish (genus Sebastes), perch (family Embiotocidae), mussels (genus Mytilus), and ocean sediment from indicator station DCM and control station 7C2. All other marine samples collected were considered supplemental. These supplemental marine samples included the following: intertidal algae, intertidal mussels, kelp, rockfish, perch, beach sand, and market fish. The intertidal samples were collected by DCPP personnel during low tidal conditions. Kelp was collected quarterly by DCPP personnel from the offshore kelp bed in the vicinity of the site. Quarterly samples of fish and annual samples of ocean sediments were collected from the plant environs by contracted divers (TENERA Environmental). The Tenera divers fillet the fish and leave a small portion of skin for identification. Only edible portions (fish fillets) of the fish were analyzed. Beach sand was collected by DCPP personnel between the high tide and low tide boundaries at nearby recreational beaches. Market Fish caught locally by commercial fishermen were purchased from two local fish markets (Avila Beach Pier-7D3 and Morro Bay-2Fl). All samples were subject to unavailability due to seasonal fluctuations or unfavorable sampling conditions. The above samples were sealed in plastic bags immediately upon collection. In-shell mussels were sent to GEL where GEL personnel removed the meat & internal organs for analysis. The samples were labeled with sample type, station ID, date, time of collection, and the individual who performed collection. The samples were then frozen (to prevent spoilage odor) before they were shipped to GEL for analysis. | |||
2.3.6 Food Crops The REMP required broadleaffood vegetation collected in the nearest off-site locations of the highest calculated annual average ground level D/Q (dispersion parameter) within 5 miles. There was no broad leaf food vegetation available that satisfied this requirement. Because these food products were unavailable, the DCPP REMP conducted additional weekly air sampling in the SE (station 8S2) and NNW (station IS 1) sectors. Additional representative samples of food crops (in season) were collected monthly from supplemental stations: Cal Poly Farm (5F2), Kawaoka Farm in Arroyo Grande (7G I), Mello Farm (7Cl) along the DCPP site access road, and quarterly from local gardens (3Cl, 6Cl, and 7El). The vegetation samples at 5F2, 7G 1, 7Cl, 3Cl, and 7El were collected by DCPP personnel and sealed immediately in plastic bags. The quarterly garden vegetation sample at 6C 1 was provided to DCPP personnel by the land occupant (due to difficulty of property access and occupant requested privacy). The samples were labeled with sample type, station ID, collection date, collection time, and the individual who performed collection. The samples were normally frozen before they were shipped to GEL for analysis (to prevent spoilage odor). | |||
2.3.7 Milk There were no animals within the 5 mile vicinity of the site utilized for milk consumption by humans. However, supplemental samples of cow milk were collected monthly from Cal Poly Fann (5F2) which was approximately 13 miles from DCPP. Two ]-gallon plastic containers of milk were collected each sampling period by DCPP personnel. Forty grams of sodium bisulfite preservative were added to each gallon of milk sample. The containers were sealed and shaken thoroughly to distribute the preservative. The containers were labeled with sample type, station JD, collection date, collection time, and the individual who performed collection. The samples were then express-shipped (due to the short half-life of 1-131) to GEL for analysis. | |||
2.3.8 Meat A rancher routinely grazed (free range, grass fed) cattle within three miles of the site boundary between the northwest to east sectors (clockwise). This livestock meat would then be offered at local farmer's markets and private distribution. Because it was possible for this vendor to provide an individual's sole-source of annual meat consumption, this meat sampling was included i11 the REMP. REMP personnel obtained commercially packaged meat samples directly from the land owner. Gamma spec and total strontium 89/90 analyses were performed on the meat. Control station free range, grass fed meat sampling was conducted of ranches outside the influence ofDCPP. This meat was purchased by REMP personnel from the Whole Foods Market in SLO. The control station meat consisted of Hearst Ranch meat which is located approximately 37 miles north of the DCPP site. This REMP station code was CCM (Control Cow Meat) and provided a control meat sample location far from the site. Property owners could hunt deer and wild pig (in season) within 5 miles of the site boundary. The REMP could not obtain deer meat samples from these property owners (voluntary participation) in 2016. Gamma spec and strontium analyses were performed on the deer meat if provided. The meat was initially packaged by the livestock owners or commercial processes. The meat was purchased at local grocery stores or turned over to REMP personnel by the land owners. The unopened packages were then separated by species and placed into large over-pack zip-lock bags. Each bag was labeled with sample type, station ID, collection date, collection time, and the individual who performed the collection. The samples were then frozen and shipped to GEL for isotopic analysis. _J Exposure Pathway and/or Sample Type 1. Direct Radiation2 ' 2. Airborne Radioiodine TABLE2.1: Radiological Environmental Monitoring Program ) Number of Representative Sampling Collection Frequency Samples and Sample Stations Locations1 Thirty-two routine monitoring stations containing thermo luminescent dosimeters (TLDs) such that at least two (2) -phosphors are present at each station, placed as follows: An inner ring of stations, one in OS1, OS2, Quarterly each terrestrial meteorological WN1, 1S1, sector in the general area of the 2S1, 3S1, 4S1, SITE BOUNDARY; 5S1, 6S1, 7S1, 8S1' 9S1' 8S2, 5S3, and MT1 An outer ring of stations, one in OB1, 1A1, 1C1, Quarterly each terrestrial meteorological 2D1, 3D1, 4C1, sector in the 2.5 to 14 km range 5C1, 6D1, and from the site; and 7C1 One or two areas to serve as 2F2, 4D1, 5F1 Quarterly control stations; and The balance of the stations to 5F3, 7D1, 7D2, Quarterly be placed in special interest 7F1, and 7G2 areas such as population centers, nearby residences, or schools. A minimum of four stations IS1' IS2, IS3, Quarterly around the ISFSI IS4, IS5, IS6, IS7, IS8 Samples from::: 4 stations: Three samples from close to the OS2, 8S1, Continuous sampler three SITE BOUNDARY and MT1 operation with sample locations ( OS2, 8S1, & MT1 ) in collection weekly, or different sectors. more frequently if required by dust loading. One sample from the vicinity of 7D1 Continuous sampler a community having the highest operation with sample calculated annual average collection weekly, or ground level D/Q. more frequently if required by dust loading. If food products are unavailable, 1S1 & 8S2 Continuous sampler additional air sampling will be operation with sample done in the NNW (station 1S1) collection weekly, or and SE (Station 8S2) sectors. more frequently if required by dust loading. One sample from a control 5F1 Continuous sampler location. operation with sample collection weekly, or more frequently if ' required by dust loading. Type of Required or Analysis Supplemental Gamma Dose Required Gamma Dose Required Gamma Dose Required Gamma Dose Required Gamma Dose Required 1-131 analysis Required 1-131 analysis Required 1-131 analysis Required 1-131 analysis Required Table 2.1 (continued) Exposure Pathway Number of Representative Sampling Collection Type of Analysis Required or and/or Sample Type Samples and Sample Stations Frequency Supplemental Locations1 3., Airborne Samples from.'.".. 4.stations: Particulate Three samples from close to the OS2, 8S1, Continuous Weekly gross beta Required three SITE BOUNDARY and MT1 sampler operation radioactivity locations ( OS2, 8S1, & MT1 ) in with sample analysis following different sectors. collection weekly, filter change3. or more frequently Quarterly gamma if required by dust isotopic analysis4 loading. of composite consisting of approx. 12 filters (by location). One sample from the vicinity of 701 Continuous Weekly gross beta Required a community having the highest sampler operation radioactivity calculated annual average with sample analysis following ground level D/Q. collection weekly, filter change3. or more frequently Quarterly gamma if required by dust isotopic analysis4 loading. of composite consisting of approx. 12 filters (by location). lffood products are unavailable, 1S1 & 8S2 Continuous Weekly gross beta Required additional air sampling will be sampler operation radioactivity done in the NNW (station 1S1) with sample analysis following and SE (Station 8S2) sectors. collection weekly, filter change3. or more frequently Quarterly gamma if required by dust isotopic analysis4 loading. ) of composite consisting of approx. 12 filters (by location). One sample from a control 5F1 Continuous Weekly gross beta Required location. sampler operation radioactivity with sample analysis following collection weekly, filter change3. or more frequently Quarterly gamma if required by dust isotopic analysis4 loading. of composite consisting of approx. 12 filters (by location). 4. Airborne Carbon-14 Samples from 3 stations: OS2,8S1 Continuous C-14 analysis Supplemental One sample from each of the 5F1 (control) sampler operation NW and SE sectors close to the with sample site (OS2 and 8S1). collection weekly, or more frequently One sample used as a control if required by dust station (5F1). loading. | |||
Table 2.1 (continued) Exposure Pathway | |||
* Number of Representative Sampling Collection . Type of Analysis Required or and/or Sample Type Samples and Sample Stations Frequency Supplemental Locations1 5. Waterborne a. Surface Ocean One sample from the plant OUT, DCM, Monthly Gamma isotopic4 Required Water Outfall, Diablo Cove, and an and 7C2 (grab sample) and tritium area not influenced by plant analysis. discharge. One sample from the plant OUT, DCM, Quarterly Gross Beta, Supplemental Outfall, Diablo Cove, and an and 7C2 (grab sample) Total Sr 89/90, area not influenced by plant Fe-55, and Ni-63 discharge. b. Drinking Water One sample from the plant DW1and5S2 Monthly Gamma isotopic4, Required drinking water, one sample from OEL (control) (grab sample) 1-131, and tritium Diablo Creek (upstream of analysis. plant), and one control sample. One sample from the plant DW1and5S2 Quarterly Gross Beta, Supplemental drinking water, one sample from OEL (control) (grab sample) Total Sr 89/90, Diablo Creek (upstream of Fe-55, and Ni-63 plant), and one control sample. One sample from Diablo Creek WN2 and 1A2 Quarterly Gamma isotopic4, Supplemental (downstream of plant) and one (grab sample) tritium, 1-131, gross sample from Blanchard Spring. beta, Total Sr 89/90, Fe-55, and Ni-63 c. Groundwater One sample from wells located OW1, OW2, Quarterly Gamma isotopic4, Supplemental under or downgradient from the DY1, GW1, (grab sample, tritium, gross beta, plant power block. and GW2 when available) Total Sr 89/90, Fe-55, and Ni-63 One sample from a well located WW2,8S3 Quarterly Gamma isotopic4, Supplemental outside the plant power block (grab sample, tritium, gross beta, (control sample). when available) Total Sr 89/90, Fe-55, and Ni-63 d. Sediment One sample of offshore ocean DCM and 7C2 Annual Gamma isotopic4 Required sediment from Diablo Cove and (grab sample) Rattlesnake Canyon. One sample of offshore ocean DCM and 7C2 Annual Total Sr 89/90, Supplemental sediment from Diablo Cove and (grab sample) Fe-55, and Ni-63 Rattlesnake Canyon. One sample from each of five AVA, MDO, Semi-Annual Gamma isotopic4, Supplemental local recreational beaches. PMO,CYA, (grab sample) Total Sr 89/90, and CBA Fe-55, and Ni-63 e. Marine Flora One sample of kelp DCM, PON, Quarterly Gamma isotopic4 Supplemental POS, and 7C2 (when available) One sample of intertidal algae DCM and 7.C2 Quarterly Gamma isotopic4 Supplemental (when available) / | |||
Table 2.1 (continued) Exposure Pathway Number of Representative Sampling Collection Type of Required or and/or Sample Type Samples and Sample Locations1 Stations Frequency Analysis Supplemental 6. Ingestion a. Milk Samples from milking animals in 5F2 Semimonthly Gamma isotopic4 Supplemental three locations within 5 km when animals are and 1-131 distance having the highest on pasture; analysis. dose potential. If there are none, monthly at other then one sample from milking times. animals in each of three areas between 5 to 8 km distance where doses are calculated to be greater than 1 mrem per year. One sample from milking animals at a control location 15 to 30 km distant and in the least prevalent wind direction. NOTE: The sample (5F2) should be taken monthly even if there are no indicator samples available. b. Fish and One sample of rock fish (family DCM and 7C2 Quarterly Gamma isotopic4 Required Invertebrates Sebastes) and one sample of (grab sample) analysis on perch (family Embiotocidae) edible portions of each sample. One sample of rock fish PON and POS Quarterly Gamma isotopic4 Supplemental (family Sebastes) and (grab sample) analysis on one sample of perch edible portions (family Embiotocidae) of each sample. One sample of mussel DCM and 7C2 Quarterly Gamma isotopic4 Required (family Mytilus) (grab sample) analysis on edible portions of each sample. One sample of mussel PON Annual Gamma isotopic4 Supplemental (family Mytilus) (grab sample) analysis on edible portions of each sample. One sample of mussel POS Quarterly Gamma isotopic4 Supplemental (family Mytilus) (grab sample) analysis on edible portions of each sample. One sample of locally harvested 7D3 OR 2F1 Quarterly Gamma isotopic4 Supplemental market fish. (should (grab sample) analysis on alternate edible portions between of each sample. locations) | |||
Table 2.1 (continued) Exposure Pathway Number of Representative Sampling Collection Type of Required or and/or Sample Type Samples and Sample Stations Frequency Analysis Supplemental Locations1 c. Broad leaf Three samples of broad leaf Monthly Gamma isotopic4 Required Vegetation5 vegetation grown nearest {when available) analysis (that (see notation #5) off-site locations of highest includes 1-131) calculated annual average on edible ground level D/Q !E milk portion. sampling is not performed. One sample of each of the Monthly Gamma isotopic4 Required similar broadleaf vegetation (when available) analysis (that (see notation #5) grown 15 to 30 km distant in the I includes 1-131) least prevalent wind direction !E on edible milk sampling is not performed. portion. d. Vegetative One sample of broadleaf 5F2, 7C1, Monthly Gamma isotopic4 Supplemental Crops vegetation or vegetables or fruit and 7G1 {when available) analysis on edible portion. One sample cif broadleaf 3C1, 6C1, 7E1 Quarterly Gamma isotopic4 Supplemental vegetation or vegetables or fruit. (as provided by analysis on land owner) edible portion. e. Meat sample One sample of each species BCM, BGM, Quarterly Gamma isotopic4 Supplemental (cow, goat, sheep, deer, or pig) BSM, JDM, (as available and analysis, and of edible meat portion JPM,ACM, provided by land Total Sr 89/90 slaughtered for personal ADM,APM, owners within 8 on edible consumption (not mass market). CCM km of plant site) portion. Table Notations I. Deviations are permitted from the required sampling schedule if specimens are unobtainable due to circumstances such as hazardous conditions, seasonal unavailability, malfunction of automatic sampling equipment and other legitimate reasons. If specimens are unobtainable due to sampling equipment malfunction, effort shall b) made to complete corrective action prior to the end of the next sampling period. All deviations from the sampling schedule shall be documented in the Annual Radiological Environmental Operating Report. It is recognized that, at times, it may not be possible or practicable to continue to obtain samples of the media of choice at the most desired location or time. In these instances, suitable specific alternative media and locations may be chosen for the particular pathway in question and appropriate substitutions made within 30 days in the Radiological Environmental Monitoring Program, and submitted in the next Annual Radioactive Effluent Release Report, including a revised figure(s) and table for the ERMP reflecting the new location(s) with supporting information identifying the cause of the unavailability of samples for that pathway and justifying the section of the new location(s) for obtaining samples. 2. For the purposes of this table, a thermoluminescent dosimeter (TLD) is considered to be one phosphor. There are normally three calcium sulfate phosphors in an environmental TLD BADGE. Film badges shall not be used as dosimeters for measuring direct radiation. 3. Airborne particulate sample filters shall be analyzed for gross beta radioactivity 24 hours or more after sampling to allow for radon and thoron daughter decay. If gross beta activity in air particulate samples is greater than 10 times the yearly mean of control samples, gamma isotopic analysis shall be performed on the individual samples. 4. Gamma isotopic analysis means the identification and quantification of gamma-emitting radionuclides that may be attributable to the effluents from the facility. 5. Ifbroadleafvegetation food products are unavailable, additional air sampling as specified in Table 2.1, Parts 2 & 3 will be done in the NNW (station lSl) and SE (Station 8S2) sectors. 6. The Branch Technical Position (Nov 79) states, "Any location from which milk can no longer be obtained may be dropped from the surveillance program after notifying the NRC in writing that they are no longer obtainable at that location". Although milk sampling performed at 5F2 is outside the 5-mile radius and is supplemental to the REMP, this notification should take place if5F2 milk sampling ceases. | |||
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TABLE2.2 Distances and Directions to Environmental Monitoring Stations Radial Direction** Radial Distance** Station (True Heading) From Plant Code( a) Station Name Degrees km Miles OSI Exclusion Fence-Northwest Comer 320 O.I6 O.I OS2 North Gate 320 0.8 0.5 ISI Wastewater Pond 330 0.64 0.4 2SI Back Road-300 m North of Plant 0 0.32 0.2 3SI Road NW of230 kV Switchyard 23 0.64 0.4 4SI Back Road Between Switchyards 43 0.8 0.5 SSI 500 kV Switchyard 58 0.64 0.4 5S2 Diablo Creek Weir 65 0.96 0.6 5S3 Microwave Tower Road 70 1.02 0.7 6SI Microwave Tower 94 0.8 0.5 7SI Overlook Road 112 0.48 0.3 8SI Target Range I25 0.8 0.5 8S2 Southwest Site Boundary I28 1.76 1.1 8S3 DCSF 96-I (monitor well) I40 0.64 0.4 9SI South Cove I67 0.64 0.4 MTl Meteorological Tower I85 0.32 0.2 DCM Diablo Cove Marine 249 0.44 0.27 WNI Northwest Guard Shack 290 0.32 0.2 WN2 Diablo Creek Outlet 283 0.25 O.IS IAI Crowbar Canyon 327 2.56 1.6 IA2 Blanchard Spring 33I 2.4 1.5 OBI Point Buchon 325 5.76 3.6 ICI Montana de Oro Camn£J:round 336 7.52 4.7 3CI Ranch Vegetation 20 7.I6 4.5 4CI Clark Valley Gravel Pit 45 9.28 5.8 SCI Junction Prefumo/See Canyon Roads | |||
* 64 7.52 4.7 6CI Household Garden ' 98 7.24 4.5 7CI Pecho Creek Ruins (Mello Farm) I20 6.56 4.I 7C2 Rattlesnake Canyon I24 7.52 4.7 2DI Sunnyside School IO I l.04 6.9 3DI Clark Valley 24 9.92 6.2 4DI Los Osos Valley Road 36 I2.I6 7.6 6DI Junction See/Davis Canyon Roads 89 13.4 8.3 7DI Avila Gate 118 I0.56 6.6 7D2 Avila Beach 110 I2.16 7.6 7D3 Avila Pier I20 11.0 6.9 7EI Avila Valley Barn I03 13.94 8.66 2FI Morro Bay (Commercial Landing) 0 I7.44 I0.9 2F2 Morro Bay Power Plant 358 17.9 I 1.2 5FI SLOOEL 79 I6.4I I0.2 5F2 Cal Poly Farm 60 20.16 I2.6 5F3 SLO County Health Department 70 20.32 I2.7 Table 2.2 (continued) Radial Direction** Radial Distance** Station (True Heading) From Plant Code( a) Station Name Degrees km Miles 7Fl Shell Beach 110 17.28 10.8 7Gl Arroyo Grande (Kawaoka Farm) 115 26.88 16.8 7G2 Oceano Substation 118 27.68 17.3 AVA Avila Beach (near pier) 109 11.75 7.3 CBA Cambria Moonstone Beach 330 45.86 28.5 CYA Cayucos Beach (near pier) 350 26.87 16.7 DYl Drywell 115' 77 0.041 0.026 DWI Drinking Water (Plant Potable Water Sys) 161 0.59 0.37 GWl Groundwater Monitoring Well 1 271 0.15 0.09 GW2 Groundwater Monitoring Well 2 195 0.21 0.13 IS1-IS8 ISFSI 59 0.38 0.23 MDO Montana de Oro (Spooners Cove) 336 7.56 4.7 OWl Observation Well 01 336 0.07 0.046 OW2 Observation Well 02 157 0.07 0.045 OEL Offsite Emergency Lab 79 16.41 10.2 OUT Plant Outfall 229 0.15 0.01 PMO Pismo Beach (near pier) 113 20.76 12.9 PON Pacific Ocean North ofDiablo Cove 287 0.56 0.35 POS Pacific Ocean South of Diab lo Cove 176 0.7 0.44 WW2 Water Well 02 70 1.02 0.63 BCM Blanchard (Farm) Cow Meat 320 1.94 1.2 BGM Blanchard (Farm) Goat Meat 320 1.94 1.2 BSM Blanchard (Farm) Sheep Meat 320 1.94 1.2 CCM Control Cow Meat 328 59.5 37 JDM Johe (Property) Deer Meat 21 5.24 3.26 *The reference point used is the dome of Unit I containment. *Station Code CXYZ): X -First number (0-9) represents the radial sector in which the station is located: 0 -Northwest 5 -East-northeast 1 -North-northwest 6 -East 2 -North 7 -East-southeast 3 -North-northeast 8 -Southeast 4 -Northeast 9 -South-southeast Y -Letter (S, A-H) represents the distance from the plant: S -On-site A 2 miles from plant (but off-site) B 4 miles from plant C 6 miles from plant D 8 miles from plant E 10 miles from plant F -10-15 miles from plant G -15-20 miles from plant H -Greater than 20 miles from plant Z -Second number represents the station number within the zone. | |||
Table 2.2 (continued) *Station Codes exceptions: The following stations do not follow the coding system: | |||
* Diablo Cove Marine (DCM) | |||
* Montana de Oro (MDO) | |||
* Meteorological Tower (MTl) | |||
* Pismo Beach (PMO) | |||
* Northwest guard shack (WNl) | |||
* Cayucos Beach (CY A) | |||
* Diablo Creek outlet (WN2) | |||
* Cambria Moonstone Beach (CBA) | |||
* Pacific Ocean North (PON) | |||
* Blanchard Cow Meat (BCM) | |||
* Pacific Ocean Soutl;i (POS) | |||
* Blanchard Goat Meat (BGM) | |||
* Offsite Emergency Lab (OEL) | |||
* Blanchard Sheep Meat (BSM) | |||
* Plant outfall (OUT) | |||
* Control Cow Meat (CCM) | |||
* Drinking water (DWI) | |||
* Johe Deer Meat (JDM) | |||
* Water Well 02 (WW2) | |||
* Johe Pig Meat (JPM) | |||
* Observation. Well 01 (OWi) | |||
* Andre Cow Meat (ACM) | |||
* Observation Well 02 (OW2) | |||
* Andre Deer Meat (ADM) | |||
* Drywell 115 (DYl) | |||
* Andre Pig Meat (APM) | |||
* Avila Beach (A VA) | |||
* ISFSI TLDs (IS I -IS8) | |||
* Groundwater Monitoring Well I (GWI) | |||
* Groundwater Monitoring Well 2 (GW2) | |||
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Analysis Gross beta H-3 Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 I-131 Cs-134 Cs-137 Ba-140 La-140 TABLE2.3: Detection Capabilities for Environmental Sample Analysis (a) Lower Limits of Detection (LLD) (b) Water 4 400c 15 30 15 15 30 30 15 Id 15 18 60 15 Airborne Particulate or 3 Gases (oCi/m ') 0.01 -0.0.7 0.05 0.06 Fish wet) 130 260 130 130 260 130 150 Milk 1 15 18 60 15 Food Products (oCilk!!. wet) 60 60 80 Table Notations \ Soil/Sediment drv)0 150 300 150 150 300 300 150 150 180 600 150 a) The gamma emitters and corresponding LLD values listed are derived from standard ODCM guidance for environmental samples as found in NUREG-1301, Table 4.12-1. This list does not mean that only these nuclides are to be considered. Other peaks that are identifiable, together with those of the above nuclides, are also analyzed and reported in the Annual Radiological Environmental Operating Report. b) The LLD is defined, for purposes of these specifications, as the a-priori analysis "process" that will yield a net count, above system background, that will be detected with 95 percent probability with only 5 percent probability of falsely concluding that a blank observation represents,a "real" signal for the above concentration of radioactive material in a sample. c) If no drinking water pathway exists, a value of 3,000 pCi/L may be used for tritium. All groundwater wells should use the 400 pCi/L tritium value regardless of drinking water use. d) The LLD value of 1 pCi/L for I-131 is applicable only to sources used as drinking water. If no drinking water pathway exists, a value of 15 pCi/L may be used for I-131. e) The gamma emitters LLD values listed for soil/sediment are derived from the Cs-134/137 10:1 ratio established in the environmental LLDs in NUREG-1301, Table 4.12-1. | |||
TABLE 2.3 (Continued) Table Notations For a particular measurement system, which may include radiochemical separation: LLD 4.66sb Where: LLD E v 2.22 y t E x V x 2.22 x Y x exp(-A.t) the "a priori" the lower limit of detection as defined above (as pCi per unit mass or volume) the standard deviation of the background counting rate or of the counting rate of a blank sample as appropriate (as counts per minute) the counting efficiency (as counts per transformation) the sample size (in units of mass or volume) the number of transformations per minute per pico-curie the fractional radiochemical yield (when applicable) the radioactive decay constant for the particular radionuclide the elapsed time between sample collection (or end of the sample collection period) and time of counting The value of Sb used in the calculation of the LLD for a detection system will be based on the actual observed variance of the background counting rate or of the counting rate of the blank samples (as appropriate) rather than on an unverified theoretically predicted variance. In calculating the LLD for a radionuclide determined by gamma-ray spectrometry1 the background will include the typical contributions of other radionuclides normally present in the samples (e.g., potassium-40 in milk samples). Analyses will be performed in such a manner that the stated LLDs will be achieved under routine conditions. Occasionally background fluctuations, unavoidably small sample sizes, the presence of interfering nuclides, or other uncontrollable.circumstances may render these LLDs unachievable. In such cases, the contributing factors will be identified and described in the Annual Environmental Radiological Operating Report. Typical values of E, V, Y and t should be used in the calculation. It should be recognized that the LLD is defined as a-priori (before the fact) limit representing the capability of a measurement system and not as a-posteriori (after the fact) limit for a particular measurement. | |||
TABLE 2.4: Reporting Levels for Radioactivity Concentrations in Environmental Samples Analysis H-3 Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-Nb-95 I-131 Cs-134 Cs-137 Ba-La-140 Water (pCi/L) | |||
* 20,000 1,000 400 1,000 300 300 400 ** 2 30 50 200 Airborne rParticulate or Gases (pCi/m3) 0.9 10 20 Fish (pCi/kg, wet) 30,000 10,000 30,000 10,000 20,000 1,000 2,000 Milk (pCi/L) 3 70 300 _) Food Products wet) 100 1,000 2,000 | |||
* For drinking water samples. This is the 40 CFR 141 value. If no drinking water pathway exists, a value of 30,000 pCi/L may be used. ** If no drinking water pathway exists, a value of 20 pCi/L may be used This page intentionally left blank. | |||
Figure 2.1-Diablo Canyon Off-site Stations This page intentionally left blank. | |||
NW 0 I N I Pacific Ocean 5 Mile Radius 5miles I SE LEGEND .A. Dosimetry Station D Air Particulate Station e Biological Sampling Station | |||
* Diablo Canyon Power Plant Units 1 and 2 Diablo Canyon off-site stations. ( | |||
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Figure 2.2-Diablo Canyon On-site Stations J This page intentionally left blank. | |||
' ' ! I l I J I \ i \ f \ -\\ /DCPP 0Msite REMP\\*$tations \ \ \ *\ \\ \ \, \ \ s LEGEND A. Dosimetry Station D Air Particulate Station | |||
* Biological Station Diablo Creek N I This page intentionally left blank. | |||
Figure 2.3-Diablo Canyon Station Locations This page intentionally left blank. | |||
I N I \N \ \ \ S\ \ \ \ \ \ \ \ \ \ \ \ \ \ \ I I \ \ -__ _.....,-. -,,,"/ / I ,,,,,, / I \ ,,,,,, / I I ,,,,,, / I \ ,,,,,, I I \ ,,,,,, I J I ,,,/ / I \ I I \ I I \ I I \ I I \ I I \ / I \ / I \ / I \ / I \ I I \ I I \ I \ I \ \ 0 REMP Stations C:=J 5 Mile Zone ----Sectors \ \ I \ \ \ \ \ \ \ \ \ \ \ \ '\ '\ SE '\ \ \ '\ '\ '\ \ \ '\ \ '\ \ '\ '\ ' ' ' ' ,, 0 ' ' ' ' Miles l '<,, I I 1 '&, 3 t)"ated By: Rick Trelren_.x6481 DCPP/RP., 10/17/16 ' ' I 4 ' ' ' ' | |||
This page intentionally left blank 3.0 RADIOLOGICAL DATA-SUMMARY OF TABLES This section summarized the analytical results of the environmental samples collected during the monitoring period. The results were presented in a format similar to that prescribed in the NRC's Radiological Assessment Branch Technical Position on Environmental Monitoring, Revision 1, November 1979 (NUREG-1301 ). Each table was nuclide specific and the total numbers of analyses for that radionuclide were provided. Additionally, the number of measurements which exceeded the Reporting Levels (NRC Notification Level) found in Table 2.4 of this report were provided. The first column listed the matrix or pathway sampled during the period. The second column listed the nuclides analyzed and number of samples performed. The third column provided the required a-priori Lower Limit of Detection (LLD) for radionuclides that have detection capability requirements as specified in Table 2.3 of this report. The fourth, fifth, and sixth columns contained the mean and range of results for locations. The seventh column contained the number of reportable occurrences for the location pathway. Occasionally, the required LLD may not be met. An example of this occurrence might be due to hold times between sampling and analysis. Such cases, if any, were addressed in Section 4.2 of this report. The a-posteriori Minimum Detectable Concentration (MDC) listed for each analysis in Appendix C was used as the detection evaluation point for each sample collected. The MDC was calculated by the laboratory with each analysis (a-posteriori) and incorporated conditions observed at the laboratory during the analysis. This MDC value mathematically represents the lowest concentration of activity that could be detected by the laboratory with a 95% confidence level. The MDC was also understood as the concentration where there was only a 5% probability of falsely reporting a positive detection in a true blank sample. Note that the a-posteriori MDC equation used by the environmental lab was the same as the a-priori Lower Limit of Detection (LLD) equation specified in NUREG-1301. For this report, a sample was considered to yield a "detectable. measurement" when the "result" concentration exceeded the associated a-posteriori MDC value for that analysis. Additionally, the tables provided the mean of all sample results analyzed for the specified radionuclide/ media type, the range, and the number of samples that were considered to have detectable activity of all the samples counted: | |||
* The mean value consisted of the average of detectable concentrations | |||
* The lowest and highest detected concentration values were listed as the range | |||
* The number of detectable measurements and the total number of measurements were listed. For example, (4/20) would indicate that 4 of the 20 samples collected (for that sample type and that radionuclide) contained detectable radioactivity ( > MDC). The radionuclides reported in this section represented those that: | |||
* had an LLD requirement in Table 2.3, or a Reporting Level listed in Table 2.4 | |||
* were of specific interest for any other reason The radionuclides routinely analyzed and reported within a gamma spectroscopy analysis were: Ac-228, Ag-108m, Ag-1 lOm, Ba-140, Be-7, Bi-212, Bi-214, Ce-141, Ce-144, Co-57, Co-58, Co-60, Cr-51, Cs-134, Cs-137, Fe-59, I-131, K-40, La-14<f, Mn-54, Nb-95, Pb-210, Pb-212, Pb-214, Ra-224, Ra-226, Ru-103, Ru-106, Sb-124, Sb-125, Th-234, Tl-208, Zn-65, and Zr-95. | |||
Table 3.1 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Name of Facility: Diablo Canyon Power Plant Location of Facility: San Luis Obispo, CA (County, State) Lower Limit Indicator with Medium or Pathway Type and Total of Highest Annual Mean Sampled Number of Detection<Al Name, Distance, and Direction All Indicator Locations All Control Locations (Unit of Measure) Analyses Performed (LLD) Mean< Bl Range< Bl Mean (Bl Range(B) Mean<Bl Range< Bl Direct Radiation ( mR/std quarter) SS I, 0.4 mi, 58° See Table 2.2 2F2, 4DI, SFI IEnv TLD Badges< CJ ( 384) I 6 mR/qtr I* Not Detected (0/12) Not Detected (0/348) Not Detected (0/36) IS4, 0.3 mi, 65° ISl -IS8 lrsFSI TLDi0l ( 96) 6 mR/qtr 85.4 I 79.8 -93. I (12/12) I 35.4 I 11.9 -93. I (60/96) I Table Notation: (A) Sensitivity ofTLD system using ANSI/HPS NB.37-2014 methodology ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (I 0/12) means I 0 samples out of 12 collected showed exposure above historical background and the TLD sensitivity. ( C ) 96 TLD badges are distributed quarterly at 32 locations (29 indicator stations and 3 control stations). Each quarter there are 3 badges exposed per station. ( D ) 24 ISFSI TLD badges are distributed quarterly at 8 locations surrounding the ISFSI protected area and within the site boundary. Each quarter there are 3 badges exposed per station. Number of Reportable Occurrences 0 0 Table 3.2 Environmental Radiological Monitoring Program Summary Report Period: 111116 -12/31/16 Name of Facility: Diablo Canyon Power Plant Location of Facility: San Luis Obispo, CA Lower Limit Indicator with Medium or Pathway Type and Total of Highest Annual Mean Sampled Number of Detection(Al Name, Distance, and Direction All Indicator Locations All Control Locations (Unit of Measure) Analyses Performed (LLD) Mean(Bl Range<Bl Mean (B) Range (Bl Mean (Bl Range (B) Airborne Iodine (371) 7DI, 6.6mi, 118° OS2, lSl, 7Dl, 8Sl, 8S2, MT! 5Fl, 10.2 mi, 79° ( pCi/meter3 ) I-131 0.07 I None Detected ( 0 I 53 ) I None Detected ( 0 I 318 ) I None Detected ( 0 I 53 ) o,;_,:..___.._,_":_ .. Airborne Air Particulates (371) 7Dl, 6.6 mi, 118° OS2, lSl, 7Dl, 8Sl, 8S2, MT! 5Fl, 10.2 mi, 79° ( pCi/meter3 ) I Gross Betal O.Dl I l.99E-2 I 3.66E-3 to 7.1 lE-2 ( 53/53) I l.82E-2 I l.96E-3 to 7.1 IE-2 (316/3 I 8) I 2.49E-2 I 3.78E-3 to 7.09E-2 ( 53/53) Gamma Isotopic< cl ( 28 ) 7Dl, 6.6 mi, 118° OS2, lSl, 7Dl, 8Sl, 8S2, MT! 5Fl, 10.2 mi, 79° Cs-134 0.05 I None Detected ( 0 I 4 ) I None Detected ( 0 I 24 ) I None Detected ( 0 I 4 ) Cs-137 0.06 I None Detected ( 0 I 4 ) I None Detected ( 0 I 24 ) I None Detected ( 0 I 4 ) *:,, .Y Airborne Air Carbon-14 ( 156) 8Sl, 0.5 mi, 125° OS2,8Sl 5Fl, 10.2 mi, 79° ( uCi/meter3 ) Carbon-14 1.00E-06 I None Detected ( 0 I 53) I None Detected ( 0 I 106 ) I None Detected ( 0 I 53 ) Table Notation: (A) Unless specified, all required LLDs were met in accordance with Table 2.3 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g., (10/12) means 10 samples out of 12 collected showed activity. ( C ) These gamma isotopic samples are quarterly composite samples ofall weekly particulate air sample filters. Approximately 13 particulate filters for each REMP location. Plant related radionuclides, not naturally occurring isotopes. (County, State) Number of Reportable Occurrences 0 I 0 0 0 0 Table3.3 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Name of Facility: Diablo Canyon Power Plant Location of Facility: San Luis Obispo, CA Lower Limit Indicator with Highest Medium or Pathway Type and Total of Annual Mean Sampled Number of Detection<AJ Name, Distance, and Direction All Indicator Locations All Control Locations (Unit of Measure) Analyses Performed (LLD) Mean(B) Range< BJ Mean (BJ Range (B) Mean (BJ Range CB) Surface Water DCM, 0.2 mi, 270° DCM, OUT, INTK 7C2, 4.7 mi, 124° ( pCi/Liter ) Gamma Isotopic ( 39 ) Mn-54 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Fe-59 30 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Co-58 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Co-60 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Zn-65 30 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Zr-95 30 none detected ( 0 / 12 ) none detected ( 0 I 27 ) none detected ( 0 / 12 ) Nb-95 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) 1-131 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Cs-134 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Cs-137 18 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Ba-140 60 none detected ( 0 / 12 ) none detected ( 0 I 27 ) none detected ( 0 / 12 ) Lal40 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Additional Analysis Gross Beta ( 39) 4 304 I 166-537 (12/12) 332 I . 143-883 (27 /27) 313 I 162-635 (11/12) Fe-55 ( 39) none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Ni-63 ( 39) none detected ( 0 I 12 ) none detected ( 0 I 27 ) none detected ( 0 I 12 ) Tritium H-3 ( 39) 400 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Total Sr 89/90 ( 39 ) none detected ( 0 / 12 ) none detected ( 0 / 27 ) none. detected ( 0 I f2 ) Table Notation: (A) Unless specified, all required LLDs were met in accordance with Table 2.3 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means I 0 samples out of 12 collected showed activity. (County State) , Number of Reportable Occurrences 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Name ofFacility: Diablo Canyon Power Plant Medium or Pathway Type and Total Sampled Number of (Unit of Measure) Analyses Performed Drinking Water ( pCi/Liter ) Gamma Isotopic ( 48 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 1-131 Cs-134 Cs-137 Ba-140 La 140 Additional Analysis . Gross Beta ( 48) Fe-55 ( 48) Ni-63 ( 48) Tritium H-3 ( 48) Total Sr 89/90 ( 48 ) Table Notation: Lower Limit of Detection<A> (LLD) 15 30 15 15 30 30* 15 1 15 18 60 15 4 400 Table3.4 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 -Indicator with Highest Annual Mean Name, Distance, and Direction All Indicator Locations Mean<B> Range< Bl Mean (B) Range (B) 5S2, 0.6 mi, 65° DWI, 5S2, WN2, 1A2, DSAL none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected. ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 / 13 ) none detected ( 0 / 36 ) none detected ( 0 / 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) 3.6 I 2.20 -7.51 ( 6/13) 4.13 I 2.20 -7.68 ( 9136) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 / 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean (B) (B) Occurrences OEL, 10.2 mi, 79° none detected ( 0-/ 12) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 I 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 I 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity. | |||
Table3.5 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Name of Facility: Diablo Canyon Power Plant Lower Limit Indicator with Medium or Pathway Type and Total of Highest Annual Mean Sampled Number of Detection<AJ Name, Distance, and Direction All Indicator Locations (Unit of Measure) Analyses Performed (LLD) Mean<B> Range<B> Mean (BJ Range<8>. Mussels ( pCi/kg) DCM, 0.2 mi, 270° DCM, PON, POS Gamma Isotopic (14) Mn-54 none detected ( 0 I 4 ) none detected ( 0 110 ) Fe-59 none detected ( 0 I 4 ) none detected ( 0 110 ) Co-58 none detected ( 0 I 4 ) none detected ( 0 110 ) Co-60 none detected ( 0 I 4 ) none detected ( 0 110 ) Zn-65 none detected ( 0 I 4 ) none detected ( 0 I 10 ) Zr-95 none detected ( 0 I 4 ) none detected ( 0 I 10 ) Nb-95 none detected ( 0 I 4 ) none detected ( 0 110 ) I-131 60 none detected ( 0 I 4 ) none detected ( 0 I I 0 ) Cs-134 60 none detected ( 0 I 4 ) none detected ( 0 110 ) Cs-137 80 none detected ( 0 I 4 ) none detected ( 0 110 ) Ba-140 none detected ( 0 I 4 ) none detected ( 0 I 10 ) La-140 none detected ( 0 I 4 ) none detected ( 0 I 10 ) Table Notation: ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean<B> Range<B> Occurrences 7C2, 4.7 mi, 124° none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity. | |||
) Name of Facility: Diablo Canyon Power Plant Lower Limit Medium or Pathway Type and Total of Sampled Number of Detection(AJ (Unit of Measure) Analyses Performed (LLD) Fish ( pCi/kg) Gamma Isotopic ( 37) Mn-54 130 Fe-59 260 Co-58 ' 130 Co-60 130 Zn-65 260 Zr-95 Nb-95 I-131 Cs-134 130 Cs-137 150 Ba-140 La-140 Table Notation: Table3.6 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Indicator with Highest Annual Mean Name, Distance, and Direction All Indicator Locations Mean( BJ RangeCBJ Mean (BJ Range CB> 2Fl, 10.9 mi, 0° DCM, PON, POS, 2Fl, 7D3 none detected ( 0 I 1 ) none detected ( 0 129 ) none detected ( 0 I 1 ) none detected ( 0 I 29 ) none detected ( 0 / 1 ) none detected ( 0 I 29 ) none detected ( 0 / 1 ) none detected ( 0 I 29 ) none detected ( 0 / 1 ) none detected ( 0 129 ) none detected ( 0 I 1 ) none detected ( 0 129 ) none detected ( 0 I 1 ) none detected ( 0 / 29 ) none detected ( 0 I 1 ) | |||
* none detected ( 0 / 29 ) none detected ( 0 I 1 ) none detected ( 0 I 29 ) 3L50 I 31.5 ( 1/1) 15.2 I 6.64-31.5 c 3/29) none detected ( 0 I 1 ) . none detected ( 0 I 29 ) none detected ( 0 I 1 ) none detected ( 0 I 29 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean(BJ Range<BJ Occurrences 7C2,_ 4.7 mi, 124° none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detecfed ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity. | |||
Name of Facility: -Medium or Pathway Sampled (Unit of Measure) Algae* ( pCi/kg) Table Notation: Table 3.7 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Diablo Canyon Power Plant L -Lower Limit Indicator with Type and Total of Highest Annual Mean , Number of DetectionCA> Name, Distance, and Direction Indicator Locations Analyses Performed (LLD) Mean'8> RangdB) Mean (BJ Range( BJ DCM, 0.2 miles, 270° DCM, 0.2 miles, 270° Gamma Isotopic (5) Mn-54 none detected ( 0 I 1 ) none detected ( 0 n ) Fe-59 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Co-58 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Co-60 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Zn-65 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Zr-95 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Nb-95 none detected ( 0 I 1 ) none detected (0 I 1 ) I-131 60 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Cs-134 60* none detected ( 0 I 1 ) none detected ( 0 I 1 ) Cs-137 80 none detected ( 0 I 1 ) detected ( 0 I 1 ) Ba-140 none detected ( 0 I 1 ) none detected ( 0 I 1 ) La-140 none detected ( 0 I 1 ) | |||
* none detected ( 0 I 1 ) (A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Rep,ortable Mean<B> Range<B> Occurrences -7C2, 4.7 miles, .124° none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 | |||
* none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g., (10/12) means 10 samples out of 12 collected showed activity. | |||
* These samples are supplemental samples. | |||
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Kelp* ( pCi/kg) Table Notation: Table3.8 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Diablo Canyon Power Plant Lower Limit Indicator with Type and Total of Highest Annual Mean Number of Analyses Detection<AJ Name, Distance, and Direction All Indicator Locations Performed (LLD) | |||
* Range0> Mean <BJ Range< BJ DCM, 0.2 mi, 270° DCM, PON, POS Gamma Isotopic ( 15) Mn-54 I none detected ( 0 I 3 ) 1_1one detected ( 0 / 11 ) Fe-59 none detected ( 0 I 3 ) none detected ( 0 / 11 ) Co-58 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Co-60 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Zn-65 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Zr-95 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Nb-95 none detected ( 0 I 3 ) none detected ( 0 I 11 ) 1-131 60 .* none detected ( 0 I 3 ) none detected ( 0 I 11 ) Cs-134 60 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Cs-137 80 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Ba-140 none detected ( 0 I 3 ) none detected ( 0 I 11 ) La-140 none detected ( 0 I 3 ) none detected ( 0 I 11 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean (BJ Range< BJ Occurrences 7C2, 4.7 mi, 124° none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 -( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g., (10/12) means 10 samples out of 12 collected showed activity. | |||
* These samples are supplemental samples. | |||
Name of Facility: Diablo Canyon Power Plant Lower Limit Medium or Pathway Type and Total of Sampled Number of DetectionCAJ (Unit of Measure) Analyses Performed (LLD) Vegetative Crops ( pCi/kg) Gamma Isotopic ( 52 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 I-131 60 Cs-134 60 Cs-137 80 Ba-140 La-140 Table Notation: Table3.9 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Indicator with Highest Annual Mean Name, Distance, and Direction All Indicator Locations Mean( BJ Range( BJ Mean (BJ RangeCBJ 6Cl, 4.5 mi, 98° 3Cl, 5F2, 6Cl, 7Cl, 7El None Detected ( 0 I 4) None Detected ( 0 I 40) None Detected ( 0 I 4 ) None Detected (OJ 40) None Detected ( 0 I 4 ) None Detected ( 0 I 40) None Detected ( 0 I 4) None Detected ( 0 I 40) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4) None Detected ( 0 I 40) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean (BJ RangeCBJ Occurrences 7Gl, 16.8 mi, 115° None Detected ( 0 I 12 ) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12 ) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12 ) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (I 0/12) means 10 samp!e"s out of 12 collected showed activity. | |||
Name ofFacility: Medium or Pathway Sampled (Unit of Measure) Milk ( pCi/Liter ) Table Notation: Table 3.10 Environmental Radiological Monitoring Program Summary Report Period: 1/1116 -12/31/16 Diab lo Canyon Power Plant Type and Total Number of Analyses Performed Iodine extraction ( 12 ) I Gamma Isotopic ( 12 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 Cs-134 Cs-137 Ba-140 La-140 I .. Total Sr 89/90 ( 12) I Lower Limit of Detection<AJ (LLD) 1 I 15 18 60 15 Indicator with Highest Annual Mean Name, Distance, and Direction Mean< BJ Rangece J Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable / Not Applicable Not Applicable Indicator Locations MeanCBJ RangecB> Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable (A) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) All Control Locations MeanCBJ | |||
* RangeCBJ 5F2, 12.6 mi, 60° None Detected ( 0 I 12) None Detected ( 0 I 12 ) None Detected ( 0 / 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) -* .. I Number of Reportable Occurrences 0 0 0 0 0 0 0 0 0 0 0 0 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity. | |||
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Meat ( pCi/kg) Table Notation: Diablo Canyon Power Plant Type and Total Number of Analyses Performed Gamma Isotopic ( 8 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 | |||
* I-131 Cs-134 Cs-137 Ba-140 La-140 Total Sr 89/90 ( 8 ) I Lower Limit of DetectionCA> (LLD) 60 60 80 Table3.ll , Environmental Radiological Monitoring Program Summary Report Period: 111116 -12/31/16 Indicator with Highest Annual Mean Name, Distance, and Direction MeanCBJ BCM, 1.5 mi, 331° none detected ( 0 / 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) All Indicator Locations . Mean CB> RangeCBJ BCM, J:5 mi, 331° none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis, e.g. (10/12) means 10 samples out of 12 collected showed activity. Location of Facility: All Control Locations San Luis Obispo, CA (County, State) MeanCBJ RangeCB> Number of Reportable Occurrences CCM, 37 mi, 328° none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected* ( 0 I 4 ) none detected ( 0 I 4 ) I 0 0 0 0 0 0 0 0 0 0 0 0 0 | |||
* 1 Name ofFacility: Medium or Pathway Sampled (Unit of Measure) Ocean Sediment ( pCi/kg dry ) ' -Table Notation: Table 3.12 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Diablo Canyon Power Plant Lower Limit Indicator with Type and Total of Highest Annual Mean -'N'umberof Detection<AJ Name, Distance, and Direction Indicator Locations* Analyses Performed (LLD) Mean( BJ RangtfB) Mean (BJ Range< Bl DCM, 0.2 mi, 270° DCM, 0.2 mi, 270° Gamma Isotopic ( i) Mn-54 150 none detected ( 0 I 1) none detected ( 0 I 1) Fe-59 300 none detected ( 0 I 1) none detected ( 0 I 1) Co-58 150 none detected ( 0 I 1) none detected ( 0 I 1) Co-60 150 none detected ( 0 I 1) none detected ( 0 I 1) Zn-65 300 none detected (0 I 1) none detected ( 0 I 1) Zr-95 300 none detected ( 0 I 1) none detected (.0 / 1) Nb-95 150 none detected ( 0 I 1) none detected ( 0 I 1) 1-131 none detected ( 0 I 1) none detected ( 0 I 1) Cs-134 150 none detected ( 0 I 1) none detected ( 0 I 1) Cs-137 180 none detected ( 0 I 1) none detected ( 0 I 1) Ba-140 600 none detected ( 0 I 1) none detected ( 0 I 1) La-140 150 none detected ( 0 I 1) none detected ( 0 I 1) Fe-55 ( 2) none detected ( 0 I 1) none detected ( 0 I 1) Ni-63 ( 2) none detected ( 0 I 1) none detected ( 0 I 1) Total Sr 89/90 ( 2 ) . none detected ( 0 I 1) none detected ( 0 I 1) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of Control Locations Reportable Mean(B) Range( BJ Occurrences 7C2, 4.7 mi, 124° none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 / 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (I 0/12) means IO samples out of 12 collected showed activity. _ | |||
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Beach Sand ( pCi/kg dry ) Table Notation: Diablo Canyon Power Plant Table 3.13 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Lower Limit Indicator with Highest Type and Total of Annual Mean Number of Analyses Detection<Al Name, Distance, and Direction All Indicator Locations Performed (LLD) Mean< Bl Range<BJ Mean (BJ Range< Bl : -AVA, 7.3 mi, 109° A VA, MDO, PMO, CYA '* Gamma Isotopic ( 11 ) Mn-54 150 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Fe-59 300 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Co-58 150 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Co-60 .150 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Zn-65 300 | |||
* none detected ( 0 I 2 ) none detected ( 0 I 9 ) Zr-95 300 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Nb-95 150 none detected ( 0 I 2 ) none detected (0 I 9) .. I-131 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Cs-134 150 none detected ( 0 I 2) none detected ( 0 I 9 ) Cs-137 180 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Ba-140 600 none detected ( 0 I 2 ) none detected ( 0 I 9 ) La-140 150 none detected ( 0 I 2 ) none detected ( 0 J 9 ) Fe-55 ( 11) none detected ( 0 I 2 ) none detected ( 0 I 9 ) Ni-63 ( 11) none detected ( 0 I 2 ) none detected ( 0 I 9 ) Total Sr 89/90 ( 11 ) none detected ( 0 I 2 ) none detected ( 0 I 9 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA 1 (County, State) Number of All Control Locations Reportable Mean (BJ Range< BJ Occurrences CBA, 28.5 mi, 330° ' none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none.detected ( 0 I 2) | |||
* 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( O*/ 2) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity. | |||
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Groundwater ( pCi/Liter ) r Table Notation: Table3.14 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Diablo Canyon Power Plant . Type and Total Number of Analyses Performed Gamma Isotopic ( 7 ) Mri-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 I-131 Cs-134 Cs-137 Ba-140 La-140 !!ff;¢\'_:]:i ___ ;,A .,,:_oo.> ..* -Gross Beta I 7) Fe-55 ( 7' Ni-63 ( 7) Total Sr 89/90 ( 7 ) Tritium H-3 ( 7 ' Lower Limit of DeteCtion<A! (LLD) 15 30 15 15 30 30 15 15 15 18 60 15 . 4 400 Indicator with Highest Annual Mean Name, Distance, and Direction Mean<BJ Range<BJ 8S3, 0.3 mi, 145° none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( O I 4 ) none detected ( 0 I 4*) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) /it* "'Cit:? :tfu:. i-:*; 9.43 I 5.96-15.6 ( 4/4) none.detected ( 0 I 4) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) All Indicator Locations Mean (BJ Range<BJ 8S3, 0.3 mi, .145° none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detectea ( o I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) --* 9.43 I 5.96-15.6 ( 4/4) none detected ( 0 I 4 ) none detected ( 0 I 4 ) I none detected ( 0 I 4 ) none detected ( 0 I 4 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2 .3 .::. Location of Facility: San Luis Obispo, CA (County, State) All Control Lo-cations Mean<BJ Range<BJ WW2,. 0.6 mi, 70° none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 j _ , Cxe , ;'. 'h:'.':> i::''k;@I -fr 5.3 I 4.93-5.68 (2/3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) Number of Reportable Occurrences 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g., (10/12) means .10 samples out of 12 collected showed activity. | |||
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Monitoring Wells ( pCi/Liter ) Table Notation: Table3.15 Environmental Radiological Monitoring Program Summary / Diablo Canyon Power Plant Type and Total Number of Analyses Performed Gamma Isotopic ( 19 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 I-131 Cs-134 Cs-137 Ba-140 La-140 f.o."J<c :o'Oo ;;,;",,%-"l:''.:f",:.,*'r::."";;; Gross Beta ( 19) Fe-55 ( 19) Ni-63 ( 19 l Total Sr 89/90 ( 19) Tritium H-3 ( 19 Lower Limit of Detection<Al (LLD) 15 30 15 15 30 30 15 15 15 18 60 , 15 . 4 \ 400 Report Period: 111/16 -12/31/16 Indicator with Highest Annual Mean Name, Distance, and Direction Range<Bl DYl, 0.03 mi, 77° none detected ( 0 I 4 ) none detected ( 0 I 4 l none detected ( 0 I 4 l none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 l none detected ( 0 I 4 ) | |||
* none detected ( 0 I 4 ) none detected ( 0 I 4 ) ;;;; :,_ ,,,_,; '> 44.6 I 28.2 to 62. 7 ( 4/4 ) none detected ( 0 I 4 ) I none detected ( 0 I 4 ) none detected ( 0 I 4 ) 4,540 I 3760 to 5190 ( 4/4) All Indicator Locations Mean (Bl DYl, GWl, GW2, OWl, OW2 none detected ( 0 I 16 ) none detected ( 0 I 16 l none detected ( 0 116 ) none detected ( 0 116 ) none detected J 0 I 16 ) none detected ( 0 I 16 ) none detected ( 0 I 16 ) none detected ( 0 I 16 ) none detected ( 0 116 ) none detected ( 0 I 16 ) none detected ( 0 I 16 ) none detected ( 0 I 16 ) h , :: "'' : , b 23.5 . I 6.71to62.7 .( 13/16) none detected ( 0 116 ) none detected ( 0 116 ) none detected ( 0 116 ) 3,070 I 1300 to 5190 ( 8/16) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location ofFacility: San Luis Obispo, CA (County, State) All Control Locations Mean<Bl Range<B> WW2, 0.6* mi, 70° none detected ( 0 I 3 ) none detected ( O I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) ,,.,,,,, -'n""'"'h""1>>i *-;;;,;,,s 5.3 I 4.93 to 5.68 ( 2/3 ) none detected ( 0 I 3 l none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) Number of Reportable Occurrences 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means I 0 samples out of 12 collected showed activity. Note : Monitoring well tritium concentrations due to rain washout of an approved airborne discharge pathway from plant vents. | |||
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4.0 ANALYSIS OF ENVIRONMENTAL RESULTS 4.1 REMP SAMPLING VARIAN CE I DEVIATIONS The DCPP Radiological Environmental Monitoring Program (REMP) allowed for deviations in the REMP sampling schedule "if samples were unobtainable due to hazardous conditions, seasonal unavailability, or malfunction of sampling equipment." Such deviations did not compromise the program's effectiveness and were normally anticipated for any radiological environmental monitoring program. The DCPP REMP included both required and supplemental samples. This section described the variances/deviations with sampling and described some of the supplemental sampling conducted during the year. 4.1.1 DIRECT RADIATION The ISFSI projects team loaded an additional 12 spent fuel dry casks onto the DCPP ISFSI pad from August 8th to November 12th, 2016. This was the sixth ISFSI loading campaign. | |||
4.1.2 AIRBORNE RADIOACTIVITY The 2016 mean percent availability for on-site and off-site particulate and iodine (P&I) air samplers was 99.8 percent. In other words, all P&I air samplers were up and running 99.8 percent of the time. Less than 0.2 percent of run time could be attributed to equipment problems, filter exchange, or calibration processes. Specific 2016 air sampling run time deviations were as follows: | |||
* 12.2 hours of lost run time occurred at station MTl during the week of 4/27/16 due to a shorted power cord on the air sampler equipment Actual 2016 percent availabilities for each station were as follows: OS2 = 99.8 % lSl = 99.8 % 5FI = 100 % 701 = 99.9 % 8S1 = 99.8 % 8S2 = 99.8 % MTl = 99.7 % Airborne C-14 supplemental sampling was performed weekly at stations 8Sl (SE Sector), OS2 (NW Sector), and 5Fl (control station in San Luis Obispo) in 2016. General Engineering Labs (GEL) and DCPP REMP worked together to develop a method for sampling inorganic environmental airborne C-14 (as C02). It should be noted that C-14 lab data was reported in units ofuCi/m3 (not pCi/m3) within Appendix A. GEL has monitored C-14 samples from various locations around the US. In some instances a very slight negative bias has been observed in annual data sets. The bias was not enough to mask any true positive detection of C-14. GEL believes this bias may be the result of the sorbent picking up other chemical species in the field during the week long collection. These chemical species (possibly S02 or N02) could cause some quenching effects in the liquid scintillation analysis and varies by site location. This chemical interference created a net effect where some field cartridges were slightly lower in activity than laboratory blanks. The bias was less than the average two sigma method uncertainty and significantly less than the method average detection limit. | |||
4.1.3 MARINE SAMPLES DCM supplemental quarterly intertidal algae samples were unavailable during first, second, and fourth quarters of 2016. DCM supplemental first quarter kelp sample was unavailable in 2016. All remaining 2016 marine samples were collected as scheduled (including allowable variation). The California Department of Fish and Game issued regulations prohibiting the collection of abalone along the central and southern coast of California. PG&E considers it unlikely that future collection of abalone will be allowed within the DCPP environs. The REMP has therefore ceased routine abalone sampling. Note that the sampling of abalone was previously performed and was supplemental to the REMP. 4.1.4 TERRESTRIAL SAMPLES All 2016 terrestrial samples were collected as scheduled (including allowable variation) with the following exceptions: | |||
* Supplemental Blanchard Sheep Meat (BSM) and Blanchard Goat Meat (BGM) were not available and were not provided by the rancher during all of2016. Blanchard sheep and goats were not within 5 miles of the DCPP site in 2016. The changes in Blanchard ranch operations were due to the ongoing severe drought conditions along the central coast of California. 4.1.5 OCEAN SURFACE WATER, DRINKING WATER, AND GROUNDWATER All 2016 water samples were collected as scheduled (including allowable variation) with the following exceptions: | |||
* Observation Well 02 (OW2) was dry and not collected during all four quarters of2016. | |||
* Water Well 2 (WW2) sample was unavailable during the fourth quarter of2016 due to well pump equipment failure. Two new supplemental sample stations were briefly added to the REMP during 2016 in anticipation that site desalination water product would be provided to SLO county residents via a proposed water supply line. These two new sample stations were DSAL and INTK. With the 2016 announcement of DCPP 2025 closure, this proposed desalination supply line was cancelled and the two sample stations were discontinued. | |||
4.1.6 REPLICATE SAMPLES Replicate sampling was conducted within the REMP for program strength and quality. A replicate sample is an additional sample (same matrix type and station) taken independently from the original scheduled REMP sample. The replicate sample collection is performed by a different person and shipped to GEL to ensure independent analysis result correlation and method consistency. Replicate samples were taken from: | |||
* MDO -Beach Sand (3/ 10/ 16) | |||
* POS -Intertidal Mussels ( 4/14/ 16) | |||
* 5S2 -Drinking Water (12/6/16) The results of the replicate analyses were within expected correlation of routine sampling. | |||
4.2 COMPARISON OF ACHIEVED LLDS WITH REQUIREMENTS For each analysis having an LLD requirement, criteria and process procedures were in place to achieve the calculated "a-priori" (before the fact) LLD. Meeting those process criteria satisfies the "a-priori" LLD requirements. The "a-posteriori" (after the fact) Minimum Detectable Concentration (MDC) for that analysis was also compared with the required "a-priori" (before the fact) LLD. Table 2.3 of this report list the required "a-priori" Lower Limits of Detection (LLDs) for environmental sample analyses required by the DCPP Radiological Environmental Monitoring Program. Occasionally an LLD may have been unachievable due to sampling process situations, such as hold times between sampling and analysis. All analyzed REMP samples met the specified "a-priori" LLD requirements in 2016. 4.3 COMPARISON OF RESULTS AGAINST REMP REPORTING LEVELS NRC notification was required whenever a Reporting Level listed in Table 2.4 of this document was exceeded. Reporting Levels were the environmental concentrations that relate to the ALARA design dose objectives of 10 CFR 50, Appendix I. It should be noted that environmental isotopic concentrations were averaged over the calendar quarter for the purposes of this comparison, and that Reporting Levels applied only to DCPP plant related effluent radioactivity. No REMP Reporting Levels were exceeded during this 2016 monitoring period. | |||
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' ''"*" ;,< 1:: ,..-* '""', .,,:) .. t !"'' .. > '>.( :.J" (;> ** 1 ... J, 'J .-".,1 ** :-t.-.'1. .. i:i\, ,, ;, .. <.;' ... 4.4 DATA ANALYSIS BY MEDIA TYPE The REMP data for each media type is discussed below. A sample was considered to yield a "detectable measurement" when the resultant concentration exceeded the MDC for that analysis. 4.4.1 Direct Radiation (Environmental TLDs) Direct radiation was continuously measured at 32 locations surrounding DCPP using Panasonic UD-814 thermo-luminescent dosimeters (TLDs). These 32 locations were made up of29 indicator stations & 3 control stations. These station TLD dosimeters were distributed and collected every calendar quarter for processing. Methodology from ANSI/HPS NJ 3.37-2014 "Environmental Dosimetry -Criteria for System Design and Implementation" was used to evaluate and report the Env TLD data. Historical background baseline values for each station were established from 2004 to 2014 Env TLD data. DCPP "Standard Quarter TLD Results" were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, and man-made) at each station during the deployment period. Transient and lab storage background dose contributions were subtracted prior to reporting the "Standard Quarter TLD Results". Technically, these TLDs read out in units of milliroentgen. Because gamma radiation has a quality factor of approximately 1 for conversion from milliroentgen to millirem, the environmental TLD unit ofreporting was converted to millirem (mr) for consistency of unit reporting and ease of exposure communications. An evaluation of direct radiation measurements and member of public occupancy times within the site boundary indicated all federal criteria for member of public dose limits (I OCFR20.1301) were conservatively met. An evaluation of direct radiation measurements indicated all federal EPA 40CFR190 criteria were conservatively met. Comparing data from the 2016 DCPP Annual Radiological Effluent Release Report (ARERR), dose to a member of the public resulting from gaseous effluent releases at DCPP was an extremely small fraction of measured Env TLD dose. Therefore, it was concluded that gaseous effluents from DCPP had negligible impact on measured Env TLD values. The following chart reports the 2016 Env "Standard Quarter TLD Results" for each individual station. These individual station results were compared to their "Historical Quarterly Baseline" values which were calculated using individual station data from 2004 to 2014. Chart column reporting methodology was as follows: | |||
* ND = Not Detected | |||
* Quarterly Investigation Level Dose = Standard Quarter TLD result -Historical Quarterly Baseline; If.::: 6, report "ND". If> 6, report value (mrem). | |||
* Annual TLD Result= Qtr I + Qtr 2 + Qtr 3 + Qtr 4 Standard Quarter TLD Results | |||
* Annual Investigation Level Dose= Annual TLD Result -Historical Annual Baseline; If.:S 12, report "ND". If> 12, report value (mrem). If "Quarterly I Annual Investigation Level Dose" was detected, an evaluation of DCPP contribution was conducted and explained within this report. | |||
DCPP Distance Station ID in miles ---*** -----MT! 0.2 WNl 0.2 OSI 0.1 SS! 0.4 6Sl o.s 8Sl o.s 8S2 I. I SS3 0.7 2F2 11.2 2Dl 6.9 4Dl 7.6 SF! 10.2 IA! l.6 702 7.6 7G2 17.3 7Cl 4.1 7Fl 10.8 OBI 3.6 7Dl 6.6 4Cl S.8 OS2 o.s ISi 0.4 2Sl 0.2 3Sl 0.4 4Sl o.s 7Sl 0.3 9Sl 0.4 !Cl 4.7 SCI 4.7 3Dl 6.2 6Dl 8.3 SF3 12.7 ND= Not Detected ____ 20_1 Quarterl)'.' REMP Env TLD Analysis Historical Quarterly Baseline (mrem) '---------21.S 12.7 20.7 23.1 14.0 17.1 21.0 19.2 14.1 12.8 11.9 17.S 12.0 16.6 17.6 18.1 17.1 10.2 11.2 10.6 17.7 17.4 16.8 20.9 19.S 18.S 22.6 13.2 16.4 12.8 14.1 17.2 2016 Standard Quarter TLD Results (mrem) Qtr 1 Qtr2 Qtr3 Qtr4 20.1 17.S 19.6 19.2 12.1 9.4 12.1 12.2 19.S 16.0 19.2 20.0 20.2 21.0 21.7 21.2 12.7 13.4 13.4 13.4 16.1 16.9 16.3 16.4 19.7 19.4 19.S 18.9 16.7 18.7 18.6 17.6 13.3 12.7 12.1 13.6 12.1 12.7 12.1 12.6 10.8 10.2 10.S 10.7 IS.9 IS.7 16.3 lS.S 13.3 10.8 10.6 11.S 14.6 18.1 IS.7 lS.6 17.1 16.4 18.0 17.S 16.4 IS.7 17.0 16.7 16.1 16.2 16.4 16.0 9.9 7.6 9.3 9.9 10.6 10.0 10.6 10.4 10.6 10.S 9.4 10.3 16.0 14.7 16.S 17.0 17.9 17.0 IS.4 15.8 14.9 IS.4 16.1 15.S 17.7 19.0 18.7 18.6 17.6 17.8 18.2 18.6 19.1 19.3 19.3 18.8 20.1 20.1 21.4 20.7 12.6 11.8 12.2 12.9 14.9 16.2 1 S.7 lS.8 11.7 12.4 12.2 12.2 13.0 14.9 14.1 13.1 IS.6 IS.S 16.0 16.2 2016 Quarterly Investigation Level Dose (mrem) Qtr 1 Qtr 2 Qtr 3 Qtr 4 ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND Historical Annual Baseline ,--------86.0 S0.8 82.8 92.4 S6.0 68.4 84.0 76.8 S6.4 Sl.6 47.6 70.0 48.0 66.4 70.4 72.4 68.4 40.8 44.8 42.4 70.8 69.6 67.2 83.6 78.0 74.0 90.4 S2.8 6S.6 Sl.2 S6.4 68.8 2016 Annual TLD Result --------76.4 4S.8 74.7 84.1 S2.9 6S.7 77.S 71.6 S 1.7 49.S 42.2 63.4 46.2 64.0 69.0 6S.8 64.7 36.7 41.6 40.8 64.2 66.1 61.9 74.0 72.2 76.S 82.3 49.S 62.6 48.5 SS.I 63.3 The 2016 AREOR historical baselines have been determined using ANSI/HPS N 13.37-2014 methodology and Env TLD station results from approximately 2004 to 2014. Quarterly Investigation Level Dose= Standard Quarter TLD result -Historical Quarterly Baseline. It:: 6, report "ND". If> 6, report value (mrem). Annual TLD Result= Qtr 1 + Qtr 2 + Qtr 3 + Qtr 4 Standard Quarter TLD Results Annual Investigation Level Dose= Annual TLD Result-Historical Annual Baseline. Ifs 12, report "ND". If> 12, report value (mrem). See DCPP Station ID Maps in Figure 2.1 and Figure 2.2 2016 Annual Investigation Level ------------ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND J This page intentionally left blank. | |||
t The following graph illustrated overall trending of Env TLDs with regard to distance from the DCPP plant site. The Env TLD results were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, and man-made) during the deployment period to allow for trending. Inner ring, outer ring, special interest, and control stations were combined and averaged to obtain a single standard quarter value for each represented plot line. Inner and outer ring TLD averages remained within and trended with pre-operational Env TLD ranges. DCPP operations did not affect Env TLD results. : !: j | |||
* Beginning of Start ISFSI Loact-+ !::: j pi.nt !-Fukushima Event : i 25.0 +-___ ..._ ___________________________ --I -Inner Ring Stations lnter*t Steticna -control Stations -Outer Ring Stations 20.0 IMor llllng *--051, WN1, 052, 1S1. 2S1, 3S1, 4S1, 551, 5S3, 851, 7S1, 851, 852, 9S1, and MT1 115.0 .,.._lnt.natl-*7F1,701, 702, 7G2, end 51'3 ai: E 10.0 5.0+-----+------------------t--+--------1 0.0 ---....... -----------.---...... ------...... ---...... ---OU!er Ring ltalono -1A1, 081, 1C1, 201, 301, 4C1, 5C1, 601. end 7C1 1980 1985 1990 1995 2000 2005 2010 2015 2020 Year t The following graph illustrated averaged Env TLD results from the southeast sector (stations 8S 1, 8S2) and northwest sector (stations OS I, OS2, OB 1 ). The Env TLD results were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, and man-made) during the deployment period to allow for trending. These sectors were chosen for graphical trending due to their historically high averaged wind directions and would therefore indicate the most gaseous effluent impact on environmental TLD results. The southeast and northwest sectors Env TLD averages trended with pre-operational Env TLD ranges. DCPP operations did not affect Env TLD results withln these sectors. Averaged control stations (2F2, 401, 5Fl) were provided for reference. 30.0 -----...... ------------------...--------l .,. Beginning of Start ISFSI Load-+ ;:::, !, plant operation | |||
* r--:* Fukushima Event -SoulheHI Sector Average ! 25.0 .._ ___ ..__ _______________ _.__,,__ ____ ----t -Norlhw*I Sector Average -Control Si.tiona -. .. 11ector-8S1tnd8S2 115.0 Ir:: E 10.0 +-------tHl-------------------,___-------1 5.0 +-----------------------+---------I 0.0 -f-----.-""---.,....----.----..------.-----........ ----.-----! 1980 1985 1990 1995 2000 2005 2010 2015 2020 Yeer Direct Radiation (ISFSI Env TLDs) DCPP was licensed with an exclusion area boundary (i.e. site boundary) as an approximate 880 yard radius from U-1 Containment center. No permanent public access was permitted within the exclusion area. The unrestricted area (outside the site boundary) surrounding DCPP was sparsely inhabited out to five miles from the site (ref 2016 Land Use Census within Section 8). The direct radiation levels withjn a very small area surrounding the onsite ISFSI were elevated due to dry cask spent fuel storage. ISFSI pad TLD stations IS-1 through IS-8 were located adjacent to the ISFSI pad fencing (see map in Figure 2.2 of this report). The remaining onsite areas were not affected due to the ISFSI topographical elevation and placement within an onsite hillside which provided radiation shielding to the rest of the site. | |||
* The first spent fuel dry cask canister was loaded onto the ISFSI pad in June 2009. The small increase in radiation levels at the ISFSI pad prior to the first spent fuel caruster load was due to storage of Radioactive Material (RAM) equipment in seatrains at the ISFSI pad prior to an outage. These seatrains of RAM were removed prior to the first load of spent fuel dry cask canisters. | |||
* Dry cask loading Campaign# 2 occurred in May 2010. | |||
* Dry cask loading Campaign# 3 occurred during the first quarter of2012 and ended on 3/17/2012. | |||
* Dry cask loading Campaign# 4 occurred from August to October of2013. | |||
* Dry cask loading Campaign #5 occurred from 5/1/15 to 7/3/15 with the addition of 8 dry casks onto the onsite ISFSI. | |||
* Dry cask loading Campaign #6 occurred from 8/8/16 to 11/12/16 with the addition of 12 dry casks onto the onsite ISFSI. | |||
The following chart reports the 2016 ISFSI Env "Standard Quarter TLD Results" for each individual station. These individual ISFSI station results were compared to the 2004 to 2014 "Historical Quarterly Baseline" and "Historical Annual Baseline" value at station SS 1. Station 5Sl was used for historical baseline purposes due to 5Sl close proximity to the ISFSI pad and 5S 1 pre-ISFSI historical data. Chart column reporting methodology was as follows: | |||
* ND =Not Detected | |||
* Quarterly Investigation Level Dose= Standard Quarter TLD result -Historical Quarterly Baseline; 6, report "ND". If> 6, report value (mrem). | |||
* Annual TLD Result= Qtr 1 + Qtr 2 + Qtr 3 + Qtr 4 Standard Quarter TLD Results | |||
* Annual Investigation Level Dose= Annual TLD Result -Historical Annual Baseline; 12, report "ND". If> 12, report value (mrem). "Quarterly and Annual Investigation Level Dose" was detected at ISFSI Env TLD stations IS-3 through IS-7 due to DCPP spent fuel dry casks stored on the ISFSI pad. The DCPP ISFSI Pad was located conservatively within the DCPP site boundary and was not located within the unrestricted area. An evaluation of direct radiation measurements outside the site boundary indicated all federal EPA 40CFRI 90 criteria for public dose limits were conservatively met. The DCPP ISFSI Pad was topographically elevated above most of the site and was built into a hillside. These characteristics shjelded onsite locations from ISFSI related radiation. No pennanent public access was permitted within the DCPP site boundary. Access occupancy surrounding the onsite ISFSI was restricted and controlled by DCPP Security. An evaluation of direct radiation measurements and member of public occupancy times within the site boundary indicated all federal criteria for member of public dose limits (1 OCFR20.1301) were conservatively met. The following pages also contain a picture of the ISFSI pad and a trend graph of onsite ISFSI pad averaged TLD results (IS-1 through IS-8). The Env TLD results were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, and man-made) during the deployment period to allow for trending. | |||
DCPP Distance Station ID in miles IS-I 0.3 IS-2 0.3 lS-3 0.3 IS-4 0.3 !S-S 0.3 IS-6 0.3 IS-7 0.3 IS-8 0.3 ND =Not Detected 2016 Historical Quarterly Baseline (mrem) 23.1 23.1 23.I 23.1 23.1 23.1 23.1 23.1 2016 Standard Quarter TLD Results (mrem) Qtr I Qtr 2 Qtr 3 Qtr 4 21.9 22.2 24.3 22.9 23.4 23.S 23.9 24.1 46.0 46.2 48.S S9.6 IOS.2 102.9 109.7 I 16.2 48.3 47.3 50.1 SO.S 44.4 42.4 46.0 44.0 38.2 35.0 40.S 48.0 22.6 18.1 23.6 24.0 2016 Quarterly Investigation Level Dose (mrem) Qtr I Qtr 2 Qtr 3 Qtr 4 ND ND ND ND ND ND ND ND 22.9 23.1 25.4 36.S 82.1 79.8 86.6 93.1 25.2 24.2 27.0 27.4 21.3 19.3 22.9 20.9 IS. I I 1.9 17.4 24.9 ND ND ND ND Historical Annual Baseline (mrem) 92.4 92.4 92.4 92.4 92.4 92.4 92.4 92.4 2016 Annual TLDResult (mrem) 91.3 94.9 200.3 434.0 196.2 176.8 161.7 88.3 2016 Annual Investigation Level Dose(mrem) ND ND 107.9 341.6 103.8 84.4 69.3 ND The 2016 AREOR historical baselines have been determined using ANSI!HPS NI3.37-2014 methodology and Env TLD station SS I results from approximately 2004 to 2014. The historical baseline from REMP Station SS I was used for the JSFSI stations due to it's onsite close proximity to ISFSI. Quarterly Investigation Level Dose= Standard Quarter TLD result-Historical Quarterly Baseline. If_-:: 6, report "ND". If> 6, report value (mrem). Annual TLD Result= Qtr I + Qtr 2 + Qtr 3 + Qtr 4 Standard Quarter TLD Results Annual Investigation Level Dose= Annual TLD Result -Historical Annual Baseline. If_-:: 12, report "ND". If> 12, report value (mrem). See DCPP Station lD Map in Figure 2.2 The Quarterly Investigation Level and Annual Investigation Level doses were due to spent fuel dry casks stored on the ISFSI pad. The DCPP ISFSI Pad is located conservatively within the DCPP site boundary and is not located within the unrestricted area. The DCPP ISFSI Pad is topographically elevated above most of the site and is built into a hillside. These characteristics shield onsite locations from ISFSI related radiation. No permanent public access is permitted onsite within the DCPP site boundary. Access occupancy surrounding the onsite ISFSI is restricted and controlled by DCPP Security. I OCFR20.130 I onsite member of public exposure and 40CFRI 90 unrestricted area exposure were evaluated. Dose limits were not exceeded and were conservatively met. | |||
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55.0 50.0 45.0 40.0 I 135.0 "" E 30.0 25.0 20.0 15.0 2005 Onsite ISFSI Bo.-.dary TlO StatioM " ISFSI Loild Sbort fl . I WVJ1 II /\i , ! : 2010 2015 2020 2025 Year j-rsFSlSta<<>nsl 0netM tlFll ltdeM (AYt) : IS1, IS2, IS3, IS4, IS5,IS8, ts7,& IS6 2030 2035 4.4.2 Airborne Air particulate and radioiodine samples were collected weekly from six indicator stations (MTl, OS2, 1S1, 7D1, 8S 1, and 8S2) in the DCPP environs and at one control station (5Fl ). A total of 364 air particulate filters and 364 iodine cartridges were collected and analyzed as part of the normal REMP. Natural occurring gross beta activity was detected in every weekly air particulate sample collected from all indicator and control stations. Comparison of the data showed that the mean values of gross beta activities for the indicator stations were consistent with those obtained for the control station and historical trending. Normal background gross beta values ranged from 2.0E-3 to 7.lE-2 pCi/m3. Gamma isotopic analyses were performed on quarterly composites of the 13 air particulate filters from each of the REMP air stations. The midpoint date of the quarter was used to label the composite. A total of 364 REMP weekly charcoal cartridges were analyzed for I-131. Appendix A contains the individual air sampling station data results. | |||
4.4.3 Drinking Water and Ocean Surface Water Drinking Water Drinking water samples were collected from indicator stations DWI, 5S2, WN2, 1 A2, and control station OEL. The samples were analyzed for gamma emitters, gross beta, tritium, total strontium 89/90, lron-55, and Nickle-63. No plant related radionuclides were detected in any of the 2016 drinking water samples. The results of the drinking water samples collected from both the indicator and control stations were individually listed in Appendix A. Ocean Surface Water Ocean surface water samples were collected monthly from indicator stations OUT, DCM, and control station 7C2. The samples were analyzed for gamma emitters, gross beta, tritium, total strontium 89/90, lron-55, and Nickle-63. No DCPP related radionuclides were detected in any of the 20 I 6 ocean surface water samples. The results of the surface water samples collected from both the indicator and control stations were individually listed in Appendix A. | |||
4.4.4 Ingestion Marine Biological Samples Mussels were collected quarterly from stations DCM, 7C2, and POS. Mussels were collected annually from station PON (due to small mussel bed/availability at station PON). Fish samples were collected quarterly from stations DCM, PON, POS, 7C2 (control), and a local fish market (7D3 or 2FI ). Market fish samples were locally caught fish. Cs-137 was detected in fish at the following stations, dates, and concentrations: | |||
* 2F 1 Market Fish | |||
* 7D3 Market Fish | |||
* 7D3 Market Fish 5119116 1/12/16 10/26/16 31.5 pCi/kg 6.64 pCi/kg 7.60 pCi/kg Pre-operational (pre-1985) DCPP REMP sampling observed measurable Cs-137 in fish and sediment due to atmospheric nuclear weapons testing fallout from the l 960's and l 970's. Finding Cs-137 in fish or sediment has been historically common in SLO County and the DCPP environs due to atomic weapons testing fallout. The historical fish Cs-137 concentrations have ranged from 3 to 14 pCi/kg. Two of the 2016 concentrations ofCs-137 detected in fish were within this range. This Cs-137 activity was also in agreement with the 1981 California Dept of Health Services Radiological Health Branch report and was considered part of SLO County background radioactivity. The preoperational 1981 ranges of Cs-137 observed in the Diablo cove (DCM) fish were 0 to 26 pCi/kg (decay corrected 0 to 12 pCi/kg in 2016). The 1981 ranges of Cs-137 observed in market fish were 0 to 3 8 pCi/kg (decay corrected 0 to 17 pCi/kg in 2016). The 1981 ranges of Cs-137 observed in ocean sediment were 0 to 93 pCi/kg (decay corrected 0 to 42 pCi/kg in 2016). The 1981 ranges of Cs-137 observed in soil were 0 to 298 pCi/kg (decay corrected 0 to 135 pCi/kg in 2016). Another recent background source of Cs-137 into California environs was due to the March 2011 Fukushima Event and subsequent jet stream isotopic dispersion to the United States. Because Cs-137 has an isotopic half-life of approximately 30 years, this contaminant should be detected in the DCPP environs for the next I 0 to 40 years depending on initial concentration and the detection sensitivity of the REMP analyses. Cs-137 has a longer environmental half-life in coastal seawaters than in open oceans due to input sources like rain watershed runoff and storm condition sediment re-suspension. There were no Cs-134 found in these fish samples. Cs-134 has a shorter isotopic half-life (approximately 2 years), would be indicative of nuclear reactor fission products, and would not be attributed to atomic weapons testing. Because Cs-134 was absent in the REMP fish analyses; fish Cs-137 concentrations were attributed to either pre-1980's nuclear weapons testing or Fukushima related fallout with sediment re-suspension into watershed/storm runoff. All other marine fish and mussel samples did not detect any DCPP related radionuclides in 2016. The results of the marine biological samples collected from both the indicator and control stations were individually listed in Appendix A. | |||
Marine Aquatic Vegetation Supplemental marine aquatic kelp sampling was performed quarterly at REMP sample indicator stations DCM, PON, POS, and 7C2 (control). Supplemental intertidal algae sampling was performed quarterly at REMP sample station 7C2. Each sample was analyzed for gamma emitting radionuclides. No DCPP related isotopes were detected in 2016. The results of the marine aquatic vegetation samples collected from both the indicator and control stations were individually listed in Appendix A. Ocean Sediment and Recreational Beach Sampling Ocean sediment samples were collected annually from stations DCM and 7C2. Supplemental recreational beach sand samples were collected semi-annually from stations Avila Beach (AV A), Montana de Oro Spooner's Cove (MDO), Pismo Beach near pier (PMO), Cayucos Morro Strand State Beach (CY A), and Cambria Moonstone Beach (CBA). Each sample was analyzed for gamma emitting radionuclides, total strontium 89/90, lron-55, and Nickle-63. Only natural occurring isotopes where detected in the ocean sediment and recreational beach sand samples collected for 2016. The results were individually listed in Appendix A. | |||
4.4.5 Vegetation (Food Crops) Samples of broad leaf vegetation were collected monthly (when available) from two indicator stations (7C1and7G1), and one control location (5F2). Supplemental samples were also collected quarterly from residence or commercial gardens at stations 3Cl, 6Cl, and 7E1. The samples were analyzed for gamma emitting radionuclides and for Iodine-131 on edible portions. No DCPP related isotopes were detected in 2016 vegetation. The results of the vegetation samples collected from both the indicator and control stations were individually listed in Appendix A. | |||
4.4.6 Milk There are no milking animals (for human consumption) within 5 miles of the plant site. In substitution, the DCPP REMP required additional air sampling at stations 8S2 and 1S1. Supplemental samples of milk were collected monthly from Cal Poly Farm (station 5F2) due to Cal Poly dairy being the closest milk producer relative to the DCPP site and regardless of the availability of milk stations within 5 miles of the plant. The milk samples were analyzed for gamma emitting radionuclides, Jodine-131, and total strontium 89/90. No DCPP related radionuclides were detected in station 5F2 milk samples during 2016. The results of the milk samples were individually listed in Appendix A. | |||
4.4.7 Meat Products Meat products were collected quarterly when available or provided from landowners. Blanchard cattle were allowed to graze on the northern lands around DCPP during 2016. Blanchard Cow Meat (BCM) was sampled quarterly for gamma emitting radionuclides and total strontium 89/90. Supplemental Blanchard Sheep Meat (BSM) and Blanchard Goat Meat (BGM) were not available and were not provided by the rancher during all of2016. Blanchard sheep and goats were not within 5 miles of the DCPP site in 2016. The changes in Blanchard ranch operations were due to the ongoing severe drought conditions along the central coast of California. Control station, free range, grass fed beef sampling was conducted of ranches outside the influence of DCPP. This meat was purchased by REMP personnel from the Whole Foods Market in SLO. The control station meat consisted of Hearst Ranch beef which is located approximately 37 miles north of the DCPP site. This REMP station code was CCM (Control Cow Meat). No DCPP related isotopes were detected in 2016 meats. The results of the meat samples were individually listed in Appendix A. _J 5.0 GROUND WATER MONITORING Diablo Canyon is committed to improving management of situations involving inadvertent radiological releases that get into onsite groundwater. This commitment reflects the nuclear industry's high standard of public radiation safety and protection of the environment. Trust and confidence on the part of local communities, California State, the NRC, and the general public is paramount to this commitment. Groundwater gradient studies of the DCPP ISFSI site and a general assessment of sub-regional hydro-geologic conditions indicates that groundwater (subsurface) flow beneath the Diablo Canyon power block is west to northwest toward the Pacific Ocean. Any groundwater present beneath the DCPP power block was not used as a source of drinking water. ---, | |||
5.1 NEI 07-07 GROUNDWATER PROTECTION INITIATIVE -REPORTING 5.1.1 NEI 07-07 Objective 2.4 (b), Annual Reporting: "Document in the AREOR all on-site ground water sample results that are included in the REMP as described in the DCPP Offsite Dose Calculation Manual (ODCM)". Onsite groundwater monitoring points are described in the REMP and reported in this 2016 Annual Radiological Environmental Operating Report (AREOR) as follows: Observation Well 01 (OWl), Observation Well 02 (OW2), Drywell 115 (DYi), DCSF96-1 (8S3), Water Well 02 (WW2), Groundwater Well 1 (GWl), Groundwater Well 2 (GW2), and Diablo Creek Outlet (WN2) were used for Groundwater Protection Initiative (GPI) data reporting and were described in 2016 DCPP AREOR Table 2.1. 5.2 GROUNDWATER SAMPLING OVERVIEW: As part of the nuclear industry NEJ 07-07 Groundwater Protection Initiative (GPI), DCPP began sampling various ground water sources in 2006. These sources included onsite monitoring wells (OWl, OW2, DYl, & 8S3), an aquifer well (WW2), Diablo Canyon creek (5S2 & WN2), and a groundwater spring (1 A2). Two additional groundwater monitoring wells (stations GWl and GW2) were installed along the western side of the DCPP site on December 14, 2011. REMP began sampling these two new wells during the first quarter of2012. One groundwater aquifer well (WW2) was available within the plant site boundary. This well was located about 250 feet above and to the east of the power block. WW2 was sampled quarterly for gamma emitters, gross beta, tritium, total strontium 89/90, lron-55, and Nickle-63. No plant related radionuclides were detected in 2016. One shallow (approximately 70 feet deep) subsurface monitoring well (8S3) was located southeast at approximately 0.4 miles from the power block. 8S3 was sampled quarterly for gamma emitters, gross beta, tritium, total strontium 89/90, Iron-55, and Nickle-63. No plant related radionuclides were detected in 2016. Three shallow (approximately 37 to 73 feet deep) French drain system monitoring wells were located within the plant protected area and in close proximity to the containment structures, spent fuel pools, and radiologically controlled area auxiliary building. These French drain systems were labeled Observation Well 01 (OWl), Observation Well 02 (OW2), and Drywell 115 (DYl). | |||
OW2 was not sampled in 2016 due to no water present in the well during the entire 2016 timeframe. There has been an ongoing severe drought in San Luis Obispo County which contributed to this dry well. French drain monitoring wells OWi and DYi contained low levels of tritium throughout 2016 due to rainwater washout of gaseous tritium exiting the plant vent system (via an approved effluents discharge path). These tritium concentrations were evaluated and were not due to a plant system leak or spill. This tritium was evaluated and attributed to the rain-washout of gaseous tritium exiting the plant vent system via an approved effluent discharge path. DCPP conducted rain-washout studies to document this phenomenon. These monitoring wells consisted of French drain systems that discharge into the associated monitoring well (OWl, OW2, or DYl ). Rain communicated with these French drain systems via building structure to ground interfaces. Once rain water entered the monitoring wells, the water remained stagnant until another rain event caused transport. Subsequent quarterly sampling routinely indicated consistent tritium values due to monitoring well stagnation. OWJ was connected to subsurface groundwater flow fissures and routinely trends with rain fall. DYl routinely experienced the highest rain-washout tritium concentrations due to its close proximity to the plant-vent gaseous discharge points. The specific ranges of tritium detected in these power block monitoring wells for 2016 were as follows: | |||
* OWl -Observation Well 01 ( 1,300 to 2,330 pCi/L) 4 of 4 samples collected for tritium analysis. | |||
* OW2 -Observation Well 02 ; no samples collected (well dry) | |||
* DYl -Drywell 115 ( 3,760 to 5, 190 pCi/L) 4 of 4 samples collected for tritium analysis. No other DCPP related isotopes were detected in OWl, OW2, or DYl. As mentioned previously, two down-gradient monitoring wells were added to the REMP in 2012. Groundwater Well 1 (GWJ) was located between the DCPP protected area and the cliff boundary of the Pacific Ocean. This well opening was located at approximately 85' above sea level on the same plane as the power block and was approximately 85' deep. Groundwater Well 2 (GW2) was located between the DCPP protected area and the cliff boundary of the Pacific Ocean. This well opening was located at approximately 85' above sea level on the same plane as the power block and was approximately 85' deep. The specific ranges of tritium detected in GWl/GW2 monitoring wells for 2016 were as follows: | |||
* GWI -Groundwater Well 1 ; none detected | |||
* GW2 -Groundwater Well 2; none detected No other DCPP related isotopes were detected in GWI or GW2 in 2016. All other samples of groundwater at 5S2, IA2, and WN2 did not indicate the presence of tritium or any other DCPP related isotopes (only NORM isotopes were observed) in 2016. The results of groundwater sampling were individually listed in Appendix A. Rain washout of tritium is discussed within NRC Regulatory Issue Summary (RIS) 2008-003, "Return/Re-use of Previously Discharged Radioactive Effluents". | |||
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CJ Approximate Boundary CJ Power Block 150 ** _. Groundwater Elevation Contour (feet above mean sea level) Monitoring Well 0 WaterWell | |||
* French Drain Wells + Surface Water Sampling Location ----Piped Section NOTES: -Layers were digitized using satellite imagery for graphical representation. Locations are approximate -Groundwater elevations and contours from Cardno Entrix (June, 2012) -Satellite imagery taken on 5/10/2010 Reproduced under license with ArcGIS 10.1 250 500 1,000 1,500 P""11!'!!1iiiiil!!!!!!iiiiil!!"!!!!!"!!!!!"!!!!liiiiiiiiiiiiiiiiiiilFeet Figure 2: Site Layout Diablo Canyon Power Plant Avila Beach California Legend | |||
* Surface Water Sampling Location Monitoring Well French Drain Infrastructure: | |||
* French Drain Wells * * * | |||
* Approximate French Drain Location Facility Infrastructure: Spent Fuel Storage Pools Auxiliary Building Sump CJ Deep Foundation I Power Block -Layers were digitized using satellite imagery for graphical representation. Locations are approximate *Satellite imagery taken on 5110/2010 Reproduced under license with ArcG1S 10.1 i'li t 0 25 50 100 150 200 250 Figure 3: Plant Layout Diablo Canyon Power Plant Avila Beach California 6.0 OLD STEAM GENERATOR STORAGE FACILITY MONITORING In accordance with the DCPP Offsite Dose Calculation Manual (ODCM), the Old Steam Generator Storage Facility (OSGSF) in-building sumps were inspected quarterly. lfwater was found in the sump of a vault containing plant equipment, the expectation was to sample that sump water and dispose of the water per plant protocols via an approved discharge pathway. For reference, the following equipment was placed into this OSGSF on the following dates: | |||
* 3/2/08 (outage 2R14), four DCPP Unit Two (U-2) Steam Generators | |||
* 2114109 (outage 1R15), four DCPP Unit One (U-1) Steam Generators | |||
* 11/6/09 (outage 2Rl 5), one DCPP Unit Two (U-2) Reactor (Rx) Head | |||
* 10/23/10 (outage 1R16), one DCPP Unit One (U-1) Rx Head As of 10/23/10, the OSGSF contains eight old Steam Generators and two old Rx Heads. No water was found in any OSGSF sumps during 2016 inspections. | |||
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8.0 DCPP LAND USE CENSUS This page intentionally left blank. ----------_ __J 2016 DCPP Land Use Census Diablo Canyon Power Plant (DCPP) was owned and operated by Pacific Gas & Electric (PG&E) Company. PG&E owned and provided environmental stewardship to approximately 14 miles of Pacific Ocean coastline and approximately 13,000 acres surrounding the 1,000 acre DCPP site boundary. The PG&E property extended roughly from Avila Beach to Montana de Oro State Park. DCPP was located approximately seven miles WNW of Avila Beach and approximately four miles SSE of Montana de Oro State Park. DCPP Radiological Environmental Monitoring Program (REMP) personnel conducted a Land Use Census (LUC) in the vicinity ofDCPP for 2016. The LUC was based on Nuclear Regulatory Commission (NRC) Regulatory Guide 4.8, "Environmental Technical Specifications for Nuclear Power Plants". The LUC also provided compliance with 10 CFR 50 Appendix I Section IV (B)(3); "Identify changes in the use of unrestricted areas (e.g., for agricultural purposes) to permit modifications in monitoring programs for evaluating doses to individuals from principal pathways of exposure". DCPP Program Directive CY2, "Radiological Monitoring and Controls Program" required performance of a LUC. DCPP procedure RP 1.ID 11, "Environmental Radiological Monitoring Procedure", required identification of the nearest milk animal, nearest residence, and the nearest broadleaf producing garden greater than 50 square meters (500 square feet) in each of the landward meteorological sectors within a radial distance of 8 kilometers (5 miles) of the Unit One Containment (CTMT) structure. A LUC was conducted at least once per year during the growing season (between Feb 15 and Dec 1) for the Diablo Canyon environs. The 2016 LUC was conducted via a helicopter over-flight and landowner telephone interviews. The helicopter over-flight was conducted on November 3rd, 2016. Telephone interviews were conducted September 8th through November 30th, 2016. Ten individual landowners or tenants were contacted. Milk: No milk animals were identified within the first 8 kilometers (5 miles) of any sector. Residences: The nearest residence, relative to all sectors, was a small trailer located in the NNW sector about 2.42 kilometers (1.5 miles) from the plant. One ranch worker occupied this BLANCHARD trailer approximately 1 day per week (midweek) during the year. A total of nineteen structures were identified within the 8-kilometer (5-mile) radius of the plant, which were confirmed or appear to have been occupied in 2016. Six abandoned structures were identified during the LUC. The nearest residence in each sector was summarized in Table 8. Gardens: , The LUC identified two household gardens greater than 50 square meters (500 square feet) that produced broadleafvegetation. The READ garden (REMP station 3Cl) was approximately 14 acre and located in the NNE sector at 7.13 kilometers (4.43 miles). The KOONZE garden (REMP station 6Cl) was approximately 500 square feet and located in the E sector at 7.43 kilometers (4.62 miles). | |||
( MELLO managed a farm in the ESE sector along the southern site access road coastal plateau. The farm started at approximately 4.8 km (3 mi) and extended to 7 .8 km ( 4.8 mi) from the site. This commercial farm produced no broadleaf vegetation. The farm area was about 100 acres of land with rotational planting. Commercial crops consisted of about 100% cereal grass (oat hay) and straw grass. Less than 10 farm workers periodically occupied this area during the growing season. Additional Land Use: It should be noted that the term "site-boundary" referred to the area within a radius of approximately 1.2 km (0.74 mi) from the Unit One CTMT structure. The area outside the boundary" was also referred to as the "unrestricted area". Much of the area outside the site-boundary was routinely used for rotational cattle grazing by five separate cattle operations. For purposes of this land use census, the five cattle ranches were called BLANCHARD, SINSHEIMER, READ, ANDRE, and MELLO. BLANCHARD solely allowed cattle to graze within DCPP environs in 2016. BLANCHARD did not graze any goats or sheep within 8 km (5 miles) ofDCPP in 2016 due to extreme drought conditions in San Luis Obispo County. BLANCHARD's livestock were sold under the "Old Creek Ranch" label at local farmer's markets in 2016. "Old Creek Ranch" labeled meats were sampled quarterly by REMP personnel in 2016. The REMP station codes were BCM, BGM, and BSM (if available). SINSHEIMER had about 100 cattle outside the site-boundary in the NNE sector. These cattle were allowed to breed and about 90 calves were sold to mass market in 2016. READ had about 72 adult cattle and 68 calves outside the site-boundary in the NNE sector. About 68 yearling cattle were sold to mass market in 2016. ANDRE had about 45 cattle outside the site-boundary in the ENE sector. About 45 calves were sold to mass market in 2016. ANDRE did not slaughter any cattle in 2016 for personal consumption.* MELLO managed about 800 cattle outside the site-boundary in the E, ESE, and SE sectors. Harris Ranch Beef Corporation owned these cattle and sold all of them to mass market in 2016. MELLO did not slaughter any cattle in 2016 for personal consumption. Two landowners (JOHE and ANDRE) harvested wild game for personal consumption outside the site-boundary in the NNE, NE, and ENE sectors. This wild game consisted of approximately two deer per landowner. _ _J There was a California State Park Ranger Office in the NNW sector at 7.48 kilometers ( 4.65 miles) from the site. Approximately three State Parks staff personnel occupied this office from 1000 to 1500 each day (365 days per year). There was a public campground (Islay Creek Campground) located in the NNW sector at Montana de Oro State Park at 7.36 kilometers (4.57 miles). This campground was near Spooner's Cove. 2016. Approximately 715,000 people visited Montana de Oro State Park via day-use permit. Approximately 22,000 people spent the night at Islay Creek Campground .. There was public access to hiking trails at the north and south ends of the PG&E property in The Point Buchon Trail was located at the north end of PG&E property and had about 18,000 visitors in 2016. The trail traversed about 3 .5 miles of coastline from Coon Creek to Crowbar Canyon. The trail was open to the public for day hikes Thursday thru Monday from approximately 0800-1700. Two to three people from California Land Management occupied the trail head.booth near Coon Creek during operational days from 0700 to 1730. This trail was originally opened to the public on July 13, 2007. The Pecho Coast Trail was located at the south end of PG&E property and had about 3,000 visitors in 2016. The trail was approximately 3. 7 miles long and led from the Avila Beach DCPP entrance gate to the Point San Luis Lighthouse property and up the coastline to Rattlesnake Canyon. Access was controlled (via web-site reservation permission only) and conducted by docents. This trail was just slightly outside the 5 mile radius of the site. Pecho Coast Trail hikes were only available on Wednesdays (about 20 people) and Saturdays (about 40 people). Thirty to forty Port San Luis Lighthouse keepers occupied the lighthouse grounds on Tuesdays, Thursdays, and Saturdays from 0800-1600. Special events were also held at the lighthouse throughout the year (e.g. weddings, fundraisers, reunions, etc). The lighthouse property was owned by the Port San Luis Harbor District. | |||
* Groundwater Protection Initiative (GPI) Review: There were no site construction activities or spills that warranted changes to GPI monitoring frequencies, monitoring locations, contract lab analytical capabilities, or analytical detection thresholds in 2016. There were no changes in on-site or near site groundwater usage. Groundwater beneath the site power block was not used* as a source of drinking water. | |||
Additional On-site Information: The Old Steam Generator Storage Facility (OSGSF) was located within the site-boundary in the ENE sector (68.3 degrees) at 0.99 km (0.61 mi) from Unit One CTMT. . I The following plant equipment was placed into the Old Steam Generator Storage Facility for the duration of the plant operating license on the dates indicated below. Unit One old steam generators ( 4 total) : 2114/2009 Unit Two old steam generators ( 4 total) : 3/2/2008 Unit One old reactor head (1 total) : 10/23/2010. Unit Two old reactor head (1 total) : 11/6/2009 The on-site Independent Spent Fuel Storage Installation (ISFSI) pad was located within the boundary in the ENE sector (58.47 degrees) at 0.36 km (0.22 mi) from Unit One CTMT. DCPP loaded it's first ISFSI dry cask onto the pad on 6/23/2009. The sixth ISFSI (dry cask) loading campaign occurred from August 8th to November 12th, 2016. Twelve dry casks (six from U-1 and six from U-2) were added to the ISFSI pad in*2016. Table 8 summarizes the nearest residence location in each meteorological sector. The Land Use Figure shows the location of the residences and gardens in the vicinity ofDCPP. | |||
Table 8 Land Use Census 2016 Distance in Kilometers (and Miles) from the center point ofU-1 CTMT Nearest Milk Animal, Residence, and Vegetable Garden c 22Yi Degree (a) Nearest Nearest Residence Nearest Radial Sector Milk Animal Residence Azimuth Vegetable km (mi) Degree Garden km (mi) NW None 5.76 (3.58) 325.2 None NNW None 2.42 (1.5) (b) 332.0 None N None None -None NNE None* 5.18 (3.22) 21.5 7.13 (4.4) (c) NE None 7.93 (4.93) 35.33 None ENE None 7.15 (4.45) 63.8 None E None 5.97 (3.71) 89..9 7.43 (4.6)(d) ESE None 5.42 (3.37) 122.0 5.31 (3.3) (e) SE None None -None Table Notation: (a) Sectors not shown contain no land (other than islets not used for the purposes indicated in this table) beyond the site-boundary. (b) BLANCHARD trailer is the residence used for critical receptor calculations. (c) The READ (station 3Cl) vegetable garden is located in the NNE sector and located at the 20.24 azimuth degree. There is also a limited use residence at this location. (d) The KOONZE (station 6Cl) vegetable garden is located in the E sector and located at the 97.52 azimuth degree. There is also a full time residence at this location. (*) The MELLO garden is the commercial farm along the westward side of the site access road; however, it does not produce broadleafvegetation. This farm extends from 4.8 km to'7.8 km (3 to 4.8 miles) from the plant. | |||
NW NNW Pacific Ocean UNITS 1 AND2 DIABLO CANYON SITE D Gardens or Farm * .A Residences 5 Mile Radius J SE N I 0 1 2 3 . 4 5 SCALE IN MILES Units 1 and 2 Diablo Canyon Power Plant Land Use Census. | |||
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27.09 W* 0.1 3.5 u 11.5 18.4 24.2 Joint Frequency Distribution Wind Speed and Wind Direction Diablo Canyon Power Plant 10 Meter Level Year 2016 N 3.71 2.60 2.40 5.13 2.57 8.47 3.26 2.63 5.41 s Calms excluded. Rings drawn at 10% intervals. E Wind Speed ( Miles Per Hour) Wind flow is FROM the directions shown. 3.20% of observations were missing. PERCENT OCCURRENCE: Wind Speed (Miles Per Hour) PERCENT OCCURRENCE: Wind Speed (Miles Per Hour) LOWER BOUND OF CATEGORY LOWER BOUND OF CATEGORY JIB fil u Q.2 ill 18.4 ID JIB fil 3.5 6.9 ill lM m N 0.32 0.34 0.30 0.'09 0.00 0.00 s 1.37 0.89 0.34 0.03 0.00 0.00 NNE 0.64 0.63 0.43 0.16 0.02 0.00 SSW 2.13 1.00 0.11 0.01 0.00 0.00 NE 0.91 1.01 1.02 0.49 0.19 0.08 SW 0.71 1.35 0.51 0.00 0.00 0.00 ENE 0.81 0.61 0.80 0.34 0.03 0.00 WSW 0.92 0.49 1.41 0.46 0.00 0.00 E 1.08 0.75 0.40 0.17 0.00 0.00 w 1.08 1.29 0.39 1.65 0.74 0.09 ESE 1.84 1.65 1.05 0.59 0.00 0.00 WNW 1.18 2.93 4.10 4.22 2.49 1.29 SE 2.05 3.46 2.09 0.75 0.11 0.00 NW 1.32 3.21 5.90 7.79 4.46 4.42 SSE 1.83 2.33 0.89 0.18 0.13 0.05 NNW 0.64 1.61 1.66 1.39 0.39 0.19 TOTAL OBS= 8784 MISSING OBS= 281 CALM OBS= 0 r This page intentionally left blank. | |||
33.04 w 0.1 3.5 1.9 11.5 18.4 24.2 Joint Frequency Distribution Wind Speed and Wind Direction Diablo Canyon Power Plant 10 Meter Level Year 2012-2016 N 3.72 3.01 1.98 4.10 1.59 8.24 1.86 2.35 5.70 s Calms excluded. Rings drawn at 10% intervals. E Wind Speed ( Miles Per Hour) Wind flow is FROM the directions shown. 3590 observations were missing. PERCENT OCCURRENCE: Wind Speed (Miles Per Hour) PERCENT OCCUR RE CE: Wind Speed (Miles Per Hour) LOWER BOUND OF CATEGORY LOWER BOUND OF CATEGORY QIB QJ. u ill lM QIB Q.l u fil lM N 0.71 0.71 0.54 0.18 0.01 0.00 s 1.43 0.74 0.15 0.03 0.00 0.00 NNE 0.89 0.83 0.47 0.07 0.01 0.00 SSW 1.32 0.47 0.06 0.01 0.00 0.00 NE 1.03 1.27 1.06 0.29 0.06 0.02 SW 0.85 0.55 0.18 0.01 0.00 0.00 ENE 1.02 0.80 0.81 0.37 0.01 0.00 WSW 0.81 0.42 0.41 0.12 0.00 0.00 E 1.09 0.56 0.25 0.08 0.00 0.00 w 1.03 1.05 0.33 0.45 0.18 0.02 ESE 1.85 1.10 0.71 0.42 0.03 0.00 WNW 1.64 2.91 3.93 4.88 2.86 1.54 SE 2.61 2.66 2.08 0.75 0.11 0.02 w 1.53 3.60 6.83 10.22 6.40 4.46 SSE 2.08 2.10 1.08 0.25 0.12 0.06 NNW 0.91 1.88 2.35 1.63 0.47 0.15 TOTAL OBS = 40258 MISSING OBS= 3590 CALM OBS= 0 This page intentionally left blank. | |||
10.0 *REFERENCES -1. DCPP Interdepartmental Administrative Procedure (IDAP), RPl.IDl 1, "Environmental Radiological Monitoring Procedure." 2. NRC Radiological Assessment Branch Technical Position on Environmental Monitoring, Revision 1, November 1979 (NUREG-1301) 3. DCPP Program Directive, CY2, "Radiological Monitoring and Controls Program." 4. NEI 07-07, "Industry Ground Water Protection -Final Guidance Document'', August 2007 5. NRC Regulatory Issue Summary 2008-03, "Return/Re-use of Previously Discharged Radioactive Effluents"; February 13, 2008 6. "Groundwater Gradient Analysis", by Entrix Corporation, March 2010 7. "Groundwater Gradient Analysis", by Cardno/Entrix Corporation, June 2012 8. Diablo Canyon Power Plant Site Conceptual Model Report, by ERM July 30, 2014 9. ANSI/RPS N13.37-2014, "Environmental Dosimetry -Criteria for System Design and Implementation" ( r This page intentionally left blank. --- | |||
APPENDIX A ANALYTICAL SAMPLE RESULTS This page intentionally left blank. | |||
2016 DCPP REMP Analysis Results Appendix A OS2 North Gate -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OS2 North Gate(388797012) -AC 2-Jan-16 _ lodine-131 2.19E-03_, I.87E-03 4.51E-03 pCi/m3 OS2 North Gate(389309014) -AC 9-Jan-16 lodine-131 2.33E-04 8.54E-03 5.11 E-03 pCi/m3 OS2 North Gate(389808014) -AC 16-Jan-16 lodine-131 -4.14E-04 | |||
* 8.22E-03 4.86E-03 pCi/m3 OS2 North Gate(390230011) -AC 23-Jan-16 lodine-131 -3.03E-03 1.36E-02 8.38E-03 pCi/m3 OS2 North Gate(390692013) -AC 30-Jan-16 lodine-131 -1.99E-04 1.04E-02 6.30E-03 pCi/m3 OS2 North Gate(391237015) -AC 6-Feb-16 lodine-131 2.64E-03 9.56E-03 5.43E-03 pCi/m3 -OS2 North Gate(391592014) -AC 13-Feb-16 lodine-131 3.59E-03 1.12E-02 6.29E-03 oCi/m3 OS2 North Gate(392027011) -AC 20-Feb-16 lodine-131 3.20E-03 9.39E-03 5.96E-03 pCi/m3 OS2 North Gate(392482011) -AC 27-Feb-16 lodine-131 4.46E-03 1.80E-02 1.04E-02 pCi/m3 OS2 North Gate(392952006) -AC 5-Mar-16 lodine-131 -4.07E-03 1.05E-02 7.14E-03 pCi/m3 OS2 North Gate(393384011) -AC 12-Mar-16 lodine-131 3.95E-05 1.00E-02 5.83E-03 pCi/m3 OS2 North Gate(393781014) -AC 19-Mar-16 lodine-131 -2.12E-03 1.09E-02 7.99E-03 oCi/m3 OS2 North Gate(394076011) -AC 26-Mar-16 . lodine-131 2.66E-03 9.66E-03 5.48E-03 pCi/m3 OS2 North Gate(394752011) -AC 2-Apr-16 lodine-131 -4.87E-03 1.10E-02 7.76E-03 pCi/m3 OS2 North Gate(395261011) -AC 9-Apr-16 lodine-131 -5.21E-03 1.01E-02 8.37E-03 pCi/m3 OS2 North Gate(395795011) -AC 16-Apr-16 lodine-131 7.00E-03 1.38E-02 9.80E-03 pCi/m3 OS2 North Gate(396244011) -AC 23-Aor-16 lodine-131 -2.64E-03 6.60E-03 4.56E-03 pCi/m3 OS2 North Gate(396779011) -AC 30-Apr-16 lodine-131 7.63E-04 9.58E-03 5.83E-03 pCi/m3 OS2 North Gate(397288011) -AC 7-May-16 lodine-131 4.87E-03 1.34E-02 7.67E-03 pCi/m3 OS2 North Gate(397706011) -AC 14-Mav-16 lodine-131 3.75E-03 9.25E-03 5.18E-03 pCi/m3 OS2 North Gate(398215011) -AC 21-May-16 lodine-131 1.62E-03 1.16E-02 6.71 E-03 pCi/m3 OS2 North Gate(398542011) -AC 28-May-16 lodine-131 -5.02E-03 1.65E-02 1.10E-02 pCi/m3 OS2 North Gate(3990160'11) -AC 4-Jun-16 lodine-131 -8.38E-03 1.02E-02 8.38E-03 pCi/m3 OS2 North Gate(399503011) -AC 11-Jun-16 lodine-131 4.12E-03 1.33E-02 7.76E-03 pCi/m3 OS2 North Gate(399964011) -AC 18-Jun-16 lodine-131 1.75E-03 1.07E-02 6.31E-03 pCi/m3 OS2 North Gate(400310011) -AC 25-Jun-16 lodine-131 2.31 E-03 1.20E-02 7.17E-03 -pCi/m3 OS2 North Gate(401018011) -AC 2-Jul-16 lodine-131 -1.78E-04 1.23E-02 7.50E-03 pCi/m3 OS2 North Gate(401598012) -AC 9-Jul-16 lodine-131 -6.09E-04 1.29E-02 7.87E-03 pCi/m3 OS2 North Gate(402089013) -AC 16-Jul-16 lodine-131 2.22E-04 1.69E-02 1.00E-02 pCi/m3 OS2 North Gate(402578011) -AC 23-Jul-16 lodine-131 5.63E-03 9.53E-03 5.28E-03 pCi/m3 OS2 North Gate(403120011) -AC 30-Jul-16 lodine-131 -3.16E-03 1.40E-02 1.04E-02 pCi/m3 OS2 North Gate(40367 4011) -AC 6-Aug-16 lodine-131 -8.76E-04 1.42E-02 8.81E-03 pCi/m3 OS2 North Gate(404132011)-AC 13-Aug-16 lodine-131 7.05E-03 1.76E-02 9.89E*03 pCi/m3 OS2 North Gate(404555013) -AC 20-Aug-16 lodine-131 -6.07E-03 1.43E-02 9.64E-03 pCi/m3 OS2 North Gate(405070013) -AC 27-Aug-16 lodine-131 5.01E-04 1.02E-02 6.04E-03 pCi/m3 OS2 North Gate(405461011) -AC 3-Sep-16 lodine-131 1.54E-06 9.19E-03 5.45E-03 pCi/m3 OS2 North Gate(405943011) -AC 10-Sep-16 lodine-131 9.95E-05 1.02E-02 6.37E-03 pCi/m3 OS2 North Gate(406484011) -AC 17-Sep-16 lodine-131 -6.77E-04 8.08E-03 4.75E-03 pCi/m3 OS2 North Gate(406978011) -AC 24-Sep-16 lodine-131 -5.12E-04 1.35E-02 7.88E-03 pCi/m3 OS2 North Gate(407538011) -AC 1-0ct-16 lodine-131 2.28E-03 1.01 E-02 5.52E-03 pCi/m3_ OS2 North Gate(408013011) -AC 8-0ct-16 lodine-131 5.07E-04 1.03E-02 5.95E-03 pCi/m3 OS2 North Gate(408711011) -AC 15-0ct-16 lodine-131 -3.45E-03 7.23E-03 5.00E-03 pCi/m3 OS2 North Gate(409217011) -AC 22-0ct-16 lodine-131 -2.52E-03 1.07E-02 6.81 E-03 pCi/m3 Page 1 of 92 2016 DCPP REMP Analysis Results Appendix A , OS2 North Gate(409738011) -AC 29-0ct-16 lodine-131 -1.38E-03 9.97E-03 6.24E-03 pCi/m3 OS2 North Gate(410322011) -AC 5-Nov-16 lodine-131 -1.44E-03 1.52E-02 9.03E-03 pCi/m3 OS2 North Gate(410821011)-AC 12-Nov-16 lodine-131 8.01E-05 8.45E-03 4.93E-03 pCi/m3 OS2 North Gate(411348011) -AC 19-Nov-16 lodine-131 5.81E-04 1.15E-02 7.15E-03 oCi/m3 . OS2 North Gate(411620011)-AC 26-Nov-16 lodine-131 3.05E-03 9.06E-03 5.01E-03 pCi/m3 OS2 North Gate( 412193009) -AC 3-Dec-16 lodine-131 -1.74E-03 1.31 E-02 8.16E-03 pCi/m3 OS2 North Gate(412746012) -AC 10-Dec-16 lodine-131 5.35E-03 5.82E-03 1.17E-02 pCi/m3 OS2 North Gate(413294013) -AC 17-Dec-16 lodine-131 -5.14E-03 1.00E-02 7.28E-03 pCi/m3 OS2 North Gate(413412011) -AC 24-Dec-16 lodine-131 4.95E-03 9.14E-03 4.94E-03 oCi/m3 OS2 North Gate(413697013) -AC 31-Dec-16 lodine-131 1.30E-03 6.95E-03 3,95E-03 pCi/m3 OS2 North Gate -Air Carbon 14 Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OS2 North Gate(388797014) -AC14 2-Jan-16 Carbon-14 -2.67E-07 4.95E-07 2.90E-07 uCi/m3 OS2 North Gate(389309017) -AC14 9-Jan-16 Carbon-14 -4.05E-07 5.65E-07 3.30E-07 uCi/m3 OS2 North Gate(389808017) -AC14 16-Jan-16 Carbon-14 1.05E-07 6.08E-07 3.64E-07 | |||
* uCi/m3 OS2 North Gate(390230008) -AC14 23-Jan-16 Carbon-14 -2.28E-07 6.64E-07 3.92E-07 uCi/m3 OS2 North Gate(390692017) -AC14 30-Jan-16 Carbon-14 -2.42E-08 5.50E-07 3.27E-07 uCi/m3 OS2 North Gate(391237009) -AC14 6-Feb-16 Carbon-14 -8.48E-08 5.49E-07 3.25E-07 uCi/m3 OS2 North Gate(391592017)-AC14 13-Feb-16 Carbon-14 1.21E-07 5.45E-07 3.27E-07 uCi/m3 OS2 North Gate(392027008) -AG14 20-Feb-16 Carbon-14 2.94E-07 6.02E-07 3.64E-07 uCi/m3 OS2 North Gate(392482008) -AC14 27-Feb-16 Carbon-14 2.52E-07 5.67E-07 3.42E-07 uCi/m3 OS2 North Gate(392952017) -AC14 5-Mar-16 Carbon-14 -1.88E-07 5.39E-07 3.18E-07 uCi/m3 OS2 North Gate(393384008) -AC14 12-Mar-16 Carbon-14 1.54E-08 5.19E-07 3.09E-07 uCi/m3 OS2 North Gate(393781017)-AC14 19-Mar-16 Carbon-14 -1.82E-07 5.64E-07 3.33E-07 uCi/m3 OS2 North Gate(394076008) -AC14 26-Mar-16 Carbon-14 2.11E-08 5.34E-07 3.18E-07 uCi/m3 OS2 North Gate(394752008) -AC14 2-Aor-16 Carbon-14 3.10E-07 4.92E-07 2.99E-07 uCi/m3 OS2 North Gate(395261008) -AC14 9-Apr-16 Carbon-14 -3.55E-07 5.80E-07 3.39E-07 uCi/m3 OS2 North Gate(395795008) -AC14 16-Apr-16 Carbon-14 -4.09E-07 5.23E-07 3.05E-07 uCi/m3 OS2 North Gate(396244008) -AC14 23-Apr-16 Carbon-14 -5.01E-07 5.78E-07 3.35E-07 uCi/m3 OS2 North Gate(396779008) -AC14 30-Apr-16 Carbon-14 -2.28E-07 5.39E-07 3.17E-07 uCi/m3 OS2 North Gate(397288008) -AC14 7-Mav-16 Carbon-14 -5.58E-08 5.75E-07 3.42E-07 uCi/m3 OS2 North Gate(397706008) -AC14 14-Mav-16 Carbon-14 -2.63E-07 5.77E-07. 3.39E-07 uCi/m3 | |||
* OS2 North Gate(398215008) -AC14 21-May-16 Carbon-14 -2.18E-07 5.11E-07 3.01 E-07 uCi/m3 OS2 North Gate(398542008) -AC14 28-May-16 Carbon-14 -1.69E-07 5.89E-07 3.48E-07 uCi/m3 OS2 North Gate(399016008) -AC14 4-Jun-16 Carbon-14 -2.27E-07 6.08E-07 3.58E-07 uCi/m3 OS2 North Gate(399503008) -AC14 11-Jun-16 Carbon-14 -2.60E-07 5.65E-07 3.32E-07 uCi/m3 OS2 North Gate(399964008) -AC14 18-Jun-16 Carbon-14 1.27E-07 5.33E-07 3.19E-07 uCi/m3 OS2 North Gate(400310008) -AC14 ' 25-Jun-16 Carbon-14 -3.68E-07 6.27E-07 3.67E-07 uCi/m3 OS2 North Gate(401018008)-AC14 2-Jul-16 Carbon-14 -1.62E-07 5.00E-07 2.95E-07 uCi/m3 OS2 North Gate(401598014)-AC14 9-Jul-16 Carbon-14 -7.87E-08 5.57E-07 3.30E-07 uCi/m3 OS2 North Gate(402089015) -AC14 16-Jul-16 Carbon-14 -8.10E-08 5.78E-07 3.43E-07 uCi/m3 OS2 North Gate(402578008) -AC14 23-Jul-16 Carbon-14 -1.19E-07 6.45E-07 3.82E-07 uCi/m3 OS2 North Gate(403120008) -AC14 30-Jul-16 Carbon-14 2.78E-08 6.31E-07 3:77E-07 uCi/m3 OS2 North Gate(403674008) -AC14 6-AUQ-16 Carbon-14 -2.78E-08 5.54E-07 3.30E-07 uCi/m3 Page 2of 92 | |||
------------------------2016 DCPP REMP Analysis Results Appendix A OS2 North Gate(404132008) -AC14 13-Aug-16 Carbon-14 2.51E-07 5.64E-07 3.40E-07 uCi/m3 OS2 North Gate(404555015)-AC14 20-Aug-16 Carbon-14 2.76E-07 5.14E-07 3.11E-07 uCi/m3 OS2 North Gate(405070015) -AC14 27-Aug-16 Carbon-14 1.35E-07 5.46E-07 3.27E-07 uCi/m3 OS2 North Gate(405461008) -AC14 3-Seo-16 Carbon-14 -1.68E-07 5.68E-07 3.36E-07 uCi/m3 OS2 North Gate(405943008) -AC14 10-Sep-16 Carbon-14 -1.90E-08 5.71E-07 3.40E-07 uCi/m3 OS2 North Gate(406484008) -AC14 17-Sep-16 Carbon-14 -2.10E-07 5.93E-07 3.50E-07 uCi/m3 OS2 North Gate(406978008) -AC14 24-Sep-16 Carbon-14 1.52E-07 6.36E-07 3.81E-07 uCi/m3 OS2 North Gate(407538008) -AC14 1-0ct-16 Carbon-14 -1.88E-07 5.52E-07 3.26E-07 uCi/m3 OS2 North Gate(408013008) -AC14 8-0ct-16 Carbon-14 -1.50E-07 5.53E-07 3.27E-07 uCi/m3 OS2 North Gate( 408711008) -AC 14 15-0ct-16 Carbon-14 -2.27E-07 5.37E-07 3.16E-07 uCi/m3 OS2 North Gate(409217008) -AC14 22-0ct-16 Carbon-14 -5.27E-08 5.73E-07 3.40E-07 uCi/m3 OS2 North Gate(409738008) -AC14 29-0ct-16 Carbon-14 2.07E-08 5.70E-07 3.40E-07 uCi/m3 OS2 North Gate(410322008) -AC14 5-Nov-16 Carbon-14 3.01E-07 5.33E-07 3.23E-07 uCi/m3 OS2 North Gate(410821008) -AC14 12-Nov-16 Carbon-14 -5.44E-08 5.55E-07 3.29E-07 uCi/m3 OS2 North Gate(411348008) -AC14 19-Nov-16 ' Carbon-14 1.17E-07 6.42E-07 3 .. 85E-07 uCi/m3 OS2 North Gate(411620008) -AC14 26-Nov-16 Carbon-14 2.24E-07 5.45E-07 3.28E-07 uCi/m3 OS2 North Gate(412193011)-AC14 3-Dec-16 Carbon-14 2.77E-07 5.60E-07 3.38E-07 uCi/m3 OS2 North Gate(412746013)-AC14 10-Dec-16 Carbon-14 1.54E-07 6.19E-07 3.71E-07 uCi/m3 OS2 North Gate(413294015) -AC14 17-Dec-16 Carbon-14 -9.38E-08 5.40E-07 3.20E-07 uCi/m3 OS2 North Gate(413412008)-AC14 24-Dec-16 Carbon-14 -4.40E-07 6.42E-07 3.75E-07 uCi/m3 OS2 North Gate(413697015)-AC14 31-Dec-16 Carbon-14 1.96E-07 5.03E-07 3.03E-07 uCi/m3 OS2 North Gate -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units OS2 North Gate(388797013) -AP 2-Jan-16 BETA 2.91E-02 1.48E-03 7.77E-03 pCi/m3 OS2 North Gate(389309007) -AP 9-Jan-16 BETA 1.76E-02 1.61E-03 8.04E-03 pCi/m3 OS2 North Gate(389808007) -AP 16-Jan-16 BETA 1.09E-02 1.62E-03 7.77E-03 pCi/m3. OS2 North Gate(390230001) -AP 23-Jan-16 BETA 2.60E-02 1.59E-03 9.00E-03 pCi/m3 OS2 North Gate(390692006) -AP 30-Jan-16 BETA 1.95E-02 1.67E-03 8.06E-03 pCi/m3 OS2 North Gate(391237005) -AP 6-Feb-16 BETA 3.66E-02 1.75E-03 8.41E-03 pCi/m3 OS2 North Gate(391592007) -AP 13-Feb-16 BETA 2.96E-02 1.55E-03 9.38E-03 pCi/m3 OS2 North Gate(392027001) -AP 20-Feb-16 BETA 3.11E-02 1.60E-03 8.49E-03 pCi/m3 OS2 North Gate(392482001) -AP 27-Feb-16 BETA 3.09E-02 8.88E-03 pCi/m3 OS2 North Gate(392952013) -AP 5-Mar-16 BETA 1.27E-02 1.66E-03 7.79E-03 pCi/m3 OS2 North Gate(393384001) -AP -12-Mar-16 BETA 1.28E-02 1.52E-03 8.99E-03 pCi/m3 OS2 North Gate(393781007) -AP 19-Mar-16 BETA 1.42E-02 1.59E-03 8.37E-03 pCi/m3 OS2 North Gate(394076001) -AP -26-Mar-16 BETA 8.10E-03 1.59E-03 8.43E-03 pCi/m3 OS2 North Gate(394752001) -AP 2-Apr-16 BETA 2.66E-02 1.77E-03 9.51E-03 pCi/m3 OS2 North Gate(395261001) -AP 9-Apr-16 BETA 2.94E-02 1.72E-03 8.21E-03 pCi/m3 OS2 North Gate(395795001) -AP 16-Apr-16 BETA. 2.48E-02 1.58E-03 8.65E-03 pCi/m3 OS2 North Gate(396244001) -AP 23-Apr-16 BETA 1.14E-02 1.58E-03 9.04E-03 pCi/m3 OS2 North Gate(396779001) -AP 30-Apr-16 BETA 1.14E-02 1.62E-03 9.71 E-03 oCi/m3 OS2 North Gate(397288001) -AP 7-Mav-16 BETA 1.21E-02 1.64E-03 8.24E-03 pCi/m3 OS2 North Gate(397706001) -AP 14-Mav-16 BETA 9.53E-03 1.54E-03 9.40E-03 pCi/m3 OS2 North Gate(398215001) -AP 21-Mav-16 BETA 3.63E-03 1.57E-03 8.98E-03 oCi/m3 Page 3 of92 2016 DCPP REMP Analysis Results Appendix A OS2 North Gate(398542001) -AP 28-May-16 BETA 1.59E-02 1.61E-03 1.02E-02 pCi/m3 OS2 North Gate(399016001) -AP 4-Jun-16 BETA 6.47E-03 1.50E-03 9.45E-03 pCi/m3 OS2 North Gate(399503001) -AP 11-Jun-16 BETA 8.85E-03 1.64E-03 7.69E-03 pCi/m3 OS2 North Gate(399964001) -AP , 18-Jun-16 BETA 9.50E-03 1.66E-03 7.22E-03 pCi/m3 OS2 North Gate(400310001)-AP 25-Jun-16 BETA 1.17E-02 1.90E-03 1.0?E-02 pCi/m3 OS2 North Gate(401018001)-AP 2-Jul-16 BETA 1.23E-02 1.57E-03 8.41E-03 pCi/m3 OS2 North Gate(401598013) -AP 9-Jul-16 BETA -4.86E-04 1.67E-03 .9.56E-03 pCi/m3 OS2 North Gate(402089014) -AP 16-Jul-16 BETA 3.08E-03 1.60E-03. 1.01E-02 pCi/m3 OS2 North Gate(402578001) -AP 23-Jul-16 BETA 1.10E-02 1.64E-03 8.58E-03 pCi/m3 OS2 North Gate(403120001) -AP 30-Jul-16 BETA 3.37E-03 1.63E-03 9.17E-03 pCi/m3 OS2 North Gate(40367 4001) -AP 6-Aug-16 BETA 6.99E-03 1.63E-03 9.31E-03 pCi/m3 OS2 North Gate(404132001) -AP 13-Aug-16 BETA 7.92E-03 1.60E-03 8.58E-03 pCi/m3 OS2 North Gate(404555014) -AP 20-Aug-16 BETA 1.60E-02 1.68E-03 1.0?E-02 pCi/m3 OS2 North Gate(405070014) -AP 27-Aug-16 BETA 1.78E-02 1.61E-03 9.10E-03 pCi/m3 OS2 North Gate(405461001) -AP 3-Sep-16 BETA 1.99E-02 1.60E-03 9.09E-03 pCi/m3 OS2 North Gate( 405943001) -AP 10-Sep-16 BETA 1.86E-03 9.?0E-03 pCi/m3 OS2 North Gate(406484001) -AP 17-Sep-16 BETA 2.49E-02 1.81E-03 8.87E-03 pCi/m3 OS2 North Gate(406978001) -AP 24-Sep-16 BETA 2.47E-02 1.57E-03 8.80E-03 pCi/m3 OS2 North Gate(407538001) -AP 1-0ct-16 BETA 1.82E-02 1.61E-03 8.87E-03 pCi/m3 OS2 North Gate(408013001) -AP 8-0ct-16 BETA 3.31E-02 1.51E-03 9.78E-03 pCi/m3 OS2 North Gate(408711001)-AP 15-0d-16 BETA 1.33E-02 1.66E-03 9.51E-03 pCi/m3 OS2 North Gate(409217001)-AP 22-0ct-16 BETA 2.82E-02 1.68E-03 1.02E-02 pCi/m3 OS2 North Gate(409738001) -AP 29-0ct-16 BETA 8.35E-03 1.80E-03 1.02E-02 pCi/m3 OS2 North Gate(410322001) -AP 5-Nov-16 BETA 2.84E-02 1.71E-03 -3.79E-03 pCi/m3 OS2 North Gate(410821001)-AP 12-Nov-16 *BETA 3.95E-02 1.69E-03 9.28E-03 pCi/m3 OS2 North Gate(411348001) -AP 19-Nov-16 BETA 1.20E-02 2.03E-03 1.10E-02 pCi/m3 OS2 North Gate(411620001)-AP 26-Nov-16 BETA 1.30E-02 1.39E-03 9.04E-03 pCi/m3 OS2 North Gate(412193010)-AP 3-Dec-16 BETA 2.17E-02 1.60E-03 8.80E-03 pCi/m3 OS2,North Gate(412746001)-AP 10-Dec-16 BETA 1.28E-02 1.61E-03 2.62E-03 pCi/m3 OS2 North Gate(413294014)-AP 17-Dec-16 BETA 3.43E-02 1.71 E-03 6.83E-03 pCi/m3 OS2 North Gate(413412002)-AP 24-Dec-16 BETA 3.23E-02 1.96E-03 7.60E-03 pCi/m3 OS2 North Gate(413697014) -AP 31-Dec-16 BETA. 1.92E-02 1.50E-03 7.69E-03 pCi/m3 OS2 North Gate(396298001) -AP 13-Feb-16 Beryllium-? 1.12E-01 9.89E-03 1.87E-02 pCi/m3 OS2 North Gate(396298001 ).-AP 13-Feb-16 Cesium-134 -1.16E-04 5.11E-04 3.31 E-04 pCi/m3 OS2 North Gate(401387001)-AP 14-May-16 Cesium-134 9.28E-06 5.52E-04 3.78E-04 pCi/m3 OS2 North Gate(408429001) 13-Aug-16 Cesium-134 -1.52E-05 6.37E-04 3.82E-04 pCi/m3 OS2 North Gate(414245002) -AP 12-Nov-16 Cesium-134 1.49E-04 6.41E-04 3.53E-04 pCi/m3 OS2 North Gate(396298001) -AP 13-Feb-16 Cesium-137 -2.04E-04 4.51E-04 3.11E-04 pCi/m3 OS2 North Gate(401387001)-AP 14-May-16 Cesium-137 2.28E-04 6.46E-04 3.38E-04 pCi/m3 OS2 North Gate(408429001) -AP 13-Aug-16 Cesium-137 -1.42E-04 3.17E-04 2.43E-04 pCi/m3 OS2 North Gate(414245002) -AP 12-Nov-16 Cesium-137 1.86E-04 5.51 E-04 3.02E-04 pCi/m3 Page 4 of 92 2016 DCPP REMP Analysis Results Appendix A 1A2 Blanchard Spring -Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 BETA -1.39E+OO 3.53E+OO 2.06E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 BETA 3.54E+OO 3.86E+OO 2.48E+OO pCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 BETA 3.73E-01 2.76E+OO 1.67E+OO pCi/l 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 BETA -5.31E-01 2.45E+OO 1.45E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Barium-140 -4.86E-01 9.02E+OO 6.35E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Barium-140 -2.80E+OO 7.61 E+OO 9.46E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Barium-140 -5.82E+OO 9.99E+OO 7.90E+OO pCi/L 1A2 Blanchard Spring(410366002) 8-Nov-16 Barium-140 -1.98E+OO 8.09E+OO 4.98E+OO pCi/l 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Cesium-134 -2.52E-01 2.02E+OO 1.22E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Cesium-134 9.64E-01 1.96E+OO 1.19E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Cesium-134 -2.46E-02 1.89E+OO 1.29E+OO pCi/L 1A2 Blanchard Sprinq(410366002) -DW 8-Nov-16 Cesium-134 -9.38E-02 1.58E+OO 9.70E-01 oCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Cesium-137 -5.55E-01 2.12E+OO 1.29E+OO pCi/l 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Cesium-137 -8.78E-01 1.78E+OO 1.35E+OO pCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Cesium-137 4.78E-01 2.03E+OO 1.18E+OO pCi/l 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 Cesium-137 3.77E-01 1.49E+OO 2.63E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Cobalt-58 -2.32E-01 1.81E+OO 1.09E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Cobalt-58 6.39E-01 1.84E+OO 1.10E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Cobalt-58 -1.73E-01 1.96E+OO 1.20E+OO pCi/L 1A2 Blanchard Sprinq(410366002) -DW . 8-Nov-16 Cobalt-58 -3.87E-01 1.38E+OO 8.93E-01 . pCi/l 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Cobalt-60 1.59E-01 1.93E+OO 1.12E+OO pCi/l 1A2 Blanchard Sorinq(395275003) -DW 12-Apr-16 Cobalt-60 2.37E-01 1.82E+OO 1.05E+OO oCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Cobalt-60 4.65E-01 1.84E+OO 1.06E+OO pCi/L 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 Cobalt-60 8.05E-02 1.48E+OO 8.63E-01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 .lodine-131 2.98E-01 5.12E-01 3.45E-01 pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 lodine-131 1.97E-01 7.19E-01 4.29E-01 pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 lodine-131 2.51E-02 6.55E-01 3.92E-01 pCi/L 1A2 Blanchard Spring(410366002)-DW 8-Nov-16 lodine-131 -3.81 E-01 4.91E-01 4.88E-01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 lron-55 -6.57E-01 4.24E+01 2.83E+01 pCi/L 1A2 Blanchard Sprinq(395275003) -DW 12-Aor-16 lron-55 1.06E+02 1.32E+02 1.03E+02 pCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 lron-55 5.68E+OO 6.78E+01 4.96E+01 pCi/L 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 lron-55 -1.01E+01 7.66E+01 5.60E+01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 lron-59 -4.21 E-01 3.97E+OO 2.45E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 lron-59 -5.78E-01 3.50E+OO 2.10E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 lron-59 -1.26E-01 3.94E+OO 2.39E+OO pCi/l 1A2 Blanchard Spring(410366002)-DW 8-Nov-16 lron-59 2.51E-01 3.01E+OO 1.73E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Lanthanum-140 -1.35E+OO 3.28E+OO 2.18E+OO pCi/L 1A2 Blanchard DW 12-Apr-16 Lanthanum-140 -5.75E-01 2.27E+OO 1.44E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Lanthanum-140 8.45E-01 3.77E+OO 2.20E+OO pCi/L 1A2 Blanchard Sorinq(410366002) -DW 8-Nov-16 Lanthanum-140 -1.21E+OO 2.58E+OO 1.78E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Manganese-54 4.90E-01 1.99E+OO 1.17E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Manganese-54 2.52E-01 1.80E+OO 1.07E+OO pCi/L 1A2 Blanchard Sprinq(403102001) -DW 2-Aug-16 Manqanese-54 -3.02E-01 1.73E+OO 1.05E+OO pCi/L Page 5 of 92 2016 DCPP REMP Analysis Results Appendix A 1A2 Blanchard Spring(410366002)-DW 8-Nov-16 Manganese-54 -1.55E-02 1.43E+OO 8.71E-01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Nickel-63 -3.67E+OO 2.69E+01 1.59E+01 pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Nickel-63 1.85E+01 3.82E+01 2.35E+01 pCi/L 1A2 Blanchard Sorina(403102001) -DW 2-Aug-16 Nickel-63 -2.69E+01 3.38E+01 1.91 E+01 pCi/L 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 , Nickel-63 2.47E+OO 2.92E+01 1.75E+01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Niobium-95 1.72E+OO 2.26E+OO 1.60E+OO pCi/L 1A2 Blanchard SprinQ(395275003) -DW 12-Apr-16 Niobium-95 1.56E+OO 1.92E+OO 1.39E+OO pCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Niobium-95 9.08E-01 2.18E+OO 1.79E+OO pCi/L 1A2 Blanchard Sorina(410366002) -DW 8-Nov-16 Niobium-95 -3.14E-01 1.66E+OO 1.03E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Total Strontium -3.33E-02 1.70E-01 9.95E-02 pCi/L 1A2 Blanchard Sprina(395275003) -DW 12-Apr-16 Total Strontium 3.81 E-02 1.46E-01 8.93E-02 pCi/L 1A2 Blanchard Spring(403102001)-DW 2-Aug-16 Total Strontium -7.88E-02 1.67E-01 9.57E-02 pCi/L 1A2 Blanchard Spring(410366002)-DW 8-Nov-16 Total Strontium 7.69E-02 7.16E-01 4.33E-01 pCi/L 1A2 Blanchard SprinQ(389804003) -DW 19-Jan-16 Tritium 1.63E+01 2.59E+02 1.55E+02 pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Tritium -3.07E+01 2.97E+02 1.76E+02 pCi/L 1A2Blanchard SprinQ(403102001) -DW ' 2-Aug-16 Tritium -1.48E+OO 2.63E+02 1.56E+02 pCi/L 1A2 Blanchard SprinQ(410366002) -DW 8-Nov-16 Tritium 2.83E+01 2.98E+02 1.79E+02. pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Zinc-65 2.98E+OO 4.31 E+OO 3.01E+OO pCi/L 1A2 Blanchard Sorina(395275003) -DW 12-Aor-16 Zinc-65 -2.02E+OO 3.71E+OO 2.88E+OO pCi/L 1A2 Blanchard Sprina(403102001) -DW 2-Aug-16 Zinc-65 2.63E+OO 4.08E+OO 2.84E+OO pCi/L 1A2 Blanchard Sprina(410366002) -DW 8-Nov-16 Zinc-65 1.25E+OO ' 2.55E+OO 2.05E+OO pCi/L 1 A2 Blanchard Sprina(389804003) -DW 19-Jan716 Zirconium-95 -1.65E+OO 2.94E+OO 2.01E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Zirconium-95 1.05E-01 3.18E+OO 1.89E+OO pCi/L 1A2 Blanchard SprinQ(403102001)-DW 2-AUQ-16 Zirconium-95 -1.36E+OO 3.40E+OO 2.30E+OO pCi/L 1A2 Blanchard SprinQ(410366002) -DW 8-Nov-16 Zirconium-95 1.05E+OO 2.85E+OO 1.71E+OO pCi/L 1S1 Wastewater Pond -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 1S1 Wastewater Pond(388797010) -AC 2-Jan-16 lodine-131 6.11E-04 1.05E-02 6.16E-03 pCi/m3 1S1 Wastewater Pond(389309013)-AC 9-Jan-16 lodine-131 -3.28E-03 8.29E-03 5.85E-03 pCi/m3 1 S1 Wastewater Pond(389808013) -AC 16-Jan-16 lodine-131 -8.51E-04 7.68E-03 pCi/m3 1 S1 Wastewater Pond(390230012) -AC 23-Jan-16 lodine-131 -1.13E-03 | |||
* 7.66E-03 5.31E-03 pCi/m3 1S1 Wastewater Pond(390692012)-AC 30-Jan-16 lodine-131 -4.29E-03 9.48E-03 6.36E-03 pCi/m3 1S1 Wastewater Pond(391237014) -AC 6-Feb-16 lodine-131 1.58E-03 9.65E-03 5.42E-03 pCi/m3 1S1 Wastewater Pond(391592013) -AC 13-Feb-16 lodine-131 8.90E-05 1.03E-02 6.21 E-03 pCi/m3 1 S1 Wastewater Pond(392027012) -AC 20-Feb-16 lodine-131 -1.15E-03 1.09E-02 6.70E-03 pCi/m3 1 S1 Wastewater Pond(392482012) -AC 27-Feb-16 lodine-131 5.09E-03 1.02E-02 7.44E-03 pCi/m3 1S1 Wastewater Pond(392952005) -AC ' 5-Mar-16 lodine-131 -2.47E-03 1.04E-02 7.88E-03 pCi/m3 1S1 Wastewater Pond(393384012)-AC ' 12-Mar-16 lodine-131 2.16E-03 9.81E-03 5.67E-03 pCi/m3 1S1 Wastewater Pond(393781013)-AC 19.-Mar-16 lodine-131 9.25E-03 1.43E-02 1.51E-02 pCi/m3 1S1 Wastewater Pond(394076012) -AC 26-Mar-16 lodine-131 6.16E-03 1.43E-02 8.35E-03 pCi/m3 1 S1 Wastewater Pond(394752012) -AC 2-Apr-16 lodine-131 -5.03E-03 1.10E-02 7.49E-03 pCi/m3 1S1 Wastewater Pond(395261012)-AC 9"Apr-16 lodine-131 8.70E-04 8.46E-03 4.86E-03 pCi/m3 1 S1 Wastewater Pond(395795012) -AC 16-Apr-16 lodine-131 1.60E-03 .1.46E-02 8.50E-03 pCi/m3 1S1 Wastewater Pond(396244012) -AC 23-Apr-16 lodine-131 -2.24E-03 7.26E-03 5.46E-03 pCi/m3 Page 6 of92 2016 DCPP REMP Analysis Results Appendix A 1S1 Wastewater Pond(396779012)-AC 30-Apr-16 lodine-131 2.32E-03 1.09E-02 6.10E-03 pCi/m3 181 Wastewater Pond(397288012) -AC 7-May-16 lodine-131 -7.57E-03 1.49E-02 1.25E-02 pCi/m3 1S1 Wastewater Pond(397706012) -AC 14-May-16 lodine-131 9.90E-04 1.05E-02 6.04E-03 pCi/m3 1S1 WastewaterPond(398215012)-AC 21-May-16 lodine-131 -2.42E-04 9.85E-03 5.80E-03 -pCi/m3 1 S1 Wastewater Pond(398542012) -AC 28-May-16 lodine-131 4.31 E-04 1.07E-02 6.42E-03 pCi/m3 1S1 Wastewater Pond(399016012) -AC 4-Jun-16 lodine-131 -4.89E-04 8.97E-03 5.31E-03 pCi/m3 1 S1 Wastewater Pond(399503012) -AC 11-Jun-16 lodine-131 7.80E-04 9.57E-03 5.48E-03 pCi/m3 1 S1 Wastewater Pond(399964012) -AC 18-Jun-16 lodine-131 4.98E-03 1.14E-02 6.47E-03 .. pCi/m3 1S1 Wastewater Pond(400310012)-AC 25-Jun-16 lodine-131 3.74E-03 1.14E-02 6.37E-03 pCi/m3 1S1 Wastewater Pond(401018012) -AC 2-Jul-16 lodine-131 1.74E-03 1.29E-02 7.53E-03 pCi/m3 1S1 Wastewater Pond(401598010) -AC 9-Jul-16 lodine-131 7.82E-04 1.58E-02 9.12E-03 pCi/m3 181 Wastewater Pond(402089011) -AC 16-Jul-16 lodine-131 -3.64E-03 8.22E-03 5.86E-03 pCi/m3 1 S1 Wastewater Pond(402578012) -AC 23-Jul-16 lodine-131 -5.03E-04 9.83E-03 5.94E-03 pCi/m3 181 Wastewater Pond(403120012) -AC 30-Jul-16 lodine-131 -6.07E-04 1.51 E-02 9.00E-03 pCi/m3 181 Wastewater Pond(403674012) -AC 6-Aug-16 lodine-131 4.39E-03 1.47E-02 8.03E-03 pCi/m3 1S1 Wastewater Pond(404132012) -AC 13-Aug-16 lodine-131 -1.78E-03 1.14E-02 7.15E-03 pCi/m3 181 Wastewater Pond(404555011) -AC 20-Aug-16 lodine-131 * -1.68E-03 7.05E-03 4.57E-03 pCi/m3 1 S1 Wastewater Pond(405070011) -AC 27-Aug-16 lodine-131 -9.97E-04 7.42E-03 4.64E-03 pCi/m3 181 Wastewater Pond(405461012) -AC 3-8ep-16 lodine-131 8.52E-04 7.48E-03 4.17E-03 oCi/m3 1 S1 Wastewater Pond(405943012) -AC 10-Sep-16 lodine-131 5.81 E-04 7.58E-03 4.29E-03 pCi/m3 1 S1 Wastewater Pond(406484012) -AC 17-Sep-16 lodine-131 4.07E-04 9.25E-03 5.47E-03 pCi/m3 1 S1 Wastewater Pond(406978012) -AC 24-Sep-16 lodine-131 1.02E-03 8.64E-03 pCi/m3 1S1 Wastewater Pond(407538012) -AC 1-0ct-16 lodine-131 6.25E-03 1.33E-02 7.41E-03 pCi/m3 --1S1 Wastewater Pond(408013012) -AC ' 8-0ct-16 lodine-131 -5.57E-04 1.05E-02 6.37E-03 pCi/m3 1S1 Wastewater Pond(408711012) -AC 15-0ct-16 lodine-131 -2.39E-03 6.84E-03 4.57E-03 pCi/m3 1S1 Wastewater Pond(409217012) -AC 22-0ct-16 lodine-131 5.44E-04 8.80E-03 5.06E-03 pCi/m3 1 S1 Wastewater Pond(409738012) -AC 29-Qct-16 lodine-131 3.72E-03 9.39E-03 5.53E-03 pCi/m3 1S1 Wastewater Pond(410322012) -AC 5-Nov-16 lodine-131 -2.32E-03 1.00E-02 7.26E-03 pCi/m3 1S1 Wastewater Pond(410821012) -AC 12-Nov-16 lodine-131 7.01E-04 7.83E-03 4.39E-03 pCi/m3 1S1 Wastewater Pond( 411348012) -AC 19-Nov-16 lodine-131 2.16E-03 1.34E-02 7.56E-03 pCi/m3 1S1 Wastewater Pond(411620012) -AC 26-Nov-16 lodine-131 1.48E-03 7.18E-03 3.99E-03 pCi/m3 1S1 Wastewater Pond(412193007) -AC 3-Dec-16 lodine-131 -1.84E-04 1.12E-02 6.64E-03 pCi/m3 1 S1 Wastewater Pond(412746014) -AC 10-Dec-16 lodine-131 1.16E-03 8.21 E-03 4.66E-03 pCi/m3 1S1 Wastewater Pond(413294011) -AC 17-Dec-16 lodine-131 -1.03E-03 1.10E-02 6.50E-03 pCi/m3 1S1 Wastewater Pond(413412012) -AC 24-Dec-16 lodine-131 -1.53E-03 7.87E-03 4.83E-03 pCi/m3 1S1 Wastewater Pond(413697011) -AC 31-Dec-16 lodine-131 -1.05E-03 8.05E-03 5.40E-03 pCi/m3 1 S1 Wastewater Pond -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 1 S1 Wastewater Pond(388797011) -AP 2-Jan-16 BETA 3.12E-02 1.45E-03 7.66E-03 pCi/m3 1 S1 Wastewater Pond(389309006) -AP 9-Jan-16 BETA 1.53E-02 1.67E-03 8.26E-03 pCi/m3 1S1 Wastewater Pond(389808006) -AP 16-Jan-16 BETA 1.31E-02 1.63E-03 7.91 E-03 pCi/m3 1S1 Wastewater Pond(390230002) -AP 23-Jan-16 BETA 2.34E-02 1.56E-03 8.78E-03 pCi/m3 1S1 Wastewater Pond(390692005) -AP 30-Jan-16 BETA 1.55E-02 1.67E-03 7.93E-03 pCi/m3 1 S1 Wastewater Pond(391237004) -AP 6-Feb-16 BETA 3.12E-02 1.72E-03 8.12E-03 pCi/m3 Page 7 of92 2016 DCPP REMP Analysis Results Appendix A 181 Wastewater Pond(391592006) -AP 13-Feb-16 BETA 3.99E-02 1.51E-03 9.44E-03 pCi/m3 181 Wastewater Pond(392027002) -AP 20-Feb-16 BETA 2.50E-02 1.64E-03 8.53E-03 pCi/m3 181 Wastewater Pond(392482002) -AP 27-Feb-16 BETA 2.87E-02 1.46E-03 8.61E-03 pCi/m3 181 Wastewater Pond(392952012) -AP 5-Mar-16 BETA 1.18E-02 1.69E-03 7.90E-03 pCi/m3 181 Wastewater Pond(393384002) -AP 12-Mar-16 BETA 1.12E-02 1.48E-03 8.70E-03 pCi/m3 181 Wastewater Pond(393781006) -AP \ 19-Mar-16 BETA 1.49E-02 1.62E-03 8.52E-03 pCi/m3 181 Wastewater Pond(394076002) -AP 26-Mar-16 BETA 1.04E-02 1.69E-03 8.99E-03 pCi/m3 181 Wastewater Pond(394752002) -AP 2-Apr-16 BETA 2.45E-02 1.87E-03 9.97E-03 pCi/m3 181 Wastewater Pond(395261002) -AP 9-Apr-16 BETA 2.69E-02 1.71 E-03 8.09E-03 oCi/m3 181 Wastewater Pond(395795002) -AP 16-Apr-16 BETA 2.04E-02 1.50E-03 8.12E-03 pCi/m3 181 Wastewater Pond(396244002) -AP 23-Apr-16 BETA 1.05E-02 1.58E-03 9.03E-03 pCi/m3 181 Wastewater Pond(396779002) -AP 30-Apr-16 BETA 1.34E-02 1.85E-03 1.11 E-02 pCi/m3 181. Wastewater Pond(397288002) -AP 7-May-16 BETA 1.29E-02 1.63E-03 8.24E-03 pCi/m3 *181 Wastewater Pond(397706002) -AP 14-Mav-16 BETA 1.05E-02 1.59E-03 9.75E-03 pCi/m3 181 Wastewater Pond(398215002)-AP 21-Mav-16 BETA 2.57E-03 1.61E-03 9.22E-03 pCi/m3 181 Wastewater Pond(398542002) -AP 28-Mav-16 BETA 1.17E-02 1.54E-03 9.68E-03 pCi/m3 181 Wastewater Pond(399016002) -AP 4-Jun-16 BETA 6.51E-03 1.51E-03 9.51E-03 pCi/m3 181 Wastewater Pond(399503002) -AP 11-Jun-16 BETA 9.93E-03 | |||
* 1.60E-03 7.57E-03 pCi/m3 181 Wastewater Pond(399964002) -AP 18-Jun-16 BETA 7.38E-03 1.66E-03. 7.15E-03 oCi/m3 181 Wastewater Pond(400310002) -AP 25-Jun-16 BETA 1.38E-02 1.88E-03 1.06E-02 pCi/m3 181 Wastewater Pond(401018002) -AP 2-Jul-16 BETA 1.36E-02 1.54E-03 8.28E-03 pCi/m3 181 Wastewater Pond(401598011) -AP 9-Jul-16 BETA 1.96E-03 1.65E-03 9.49E-03 pCi/m3 181 Wastewater Pond(402089012) -AP 16-Jul-16 BETA 3.77E-03 1.61E-03 1.02E-02 pCi/m3 181 Wastewater Pond(402578002) -AP 23-Jul-16 BETA 9.56E-03 1.62E-03 8.45E-03 pCi/m3 181 Wastewater Pond(403120002) -AP 30-Jul-16 BETA 5.06E-03 1.61E-03 9.15E-03 pCi/m3 181 Wastewater Pond(403674002) -AP 6-Aug-16 BETA 9.36E-03 1.64E-03 9.37E-03 pCi/m3 181 Wastewater Pond(404132002) -AP 13-Aug-16 BETA 7.05E-03 1.64E-03 8.77E-03 pCi/m3 181 Wastewater Pond(404555012)-AP 20-Aug-16 BETA 2.14E-02 1.65E-03 1.06E-02 pCi/m3 181 Wastewater Pond(405070012) -AP 27-Aug-16 BETA 2.23E-02 1.58E-03 9.08E-03 pCi/m3 181 Wastewater Pond(405461002) -AP 3-8ep-16 BETA 2.17E-02 | |||
* 1.59E-03 9.07E-03 pCi/m3 181 Wastewater Pond(405943002) -AP 10-8ep-16 BETA 2.43E-02 1.87E-03 9.79E-03 pCi/m3 181 Wastewater Pond(406484002) -AP 17-8ep-16 BETA 2.77E-02 1.77E-03 8.78E-03 oCi/m3 181 Wastewater Pond(406978002) -AP BETA 2.61E-02 1.55E-03 8.73E-03 pCi/m3 181 Wastewater Pond(407538002) -AP 1-0ct-16 BETA. 1.84E-02 1.59E-03 8.80E-03 pCi/m3 181 Wastewater Pond(408013002) -AP 8-0ct-16 BETA 3.31E-02 1.50E-03 9.66E-03 pCi/m3 181 Wastewater Pond(408711002)-AP 15-0ct-16 BETA 1.75E-02. 1.65E-03 9.55E-03 pCi/m3 181 Wastewater Pond(409217002)-AP 22-0ct-16 BETA 3.03E-02 1.66E-03 1.02E-02 oCi/m3 181 Wastewater Pond(409738002)-AP 29-0ct-16 BETA 1.39E-02 1.78E-03 1.02E-02 pCi/m3 181 Wastewater Pond(410322002) -AP 5-Nov-16 | |||
* BETA 3.55E-02 1.72E-03 4.23E-03 pCi/m3 181 Wastewater Pond(410821002)-AP 12-Nov-16 BETA 4.70E-02 1.67E-03 9.37E-03 pCi/m3 181 Wastewater Pond(411348002) -AP 19-Nov-16 BETA 9.84E-03 2.01E-03 1.08E-02 pCi/m3 181 Wastewater Pond(411620002) -AP 26-Nov-16 BETA 9.05E-03 1.48E-03 8.87E-03 pCi/m3 181 Wastewater Pond(412193008)-AP 3-Dec-16 BETA 2.31 E-02 1.59E-03 -, 8.77E-03 pCi/m3 181 Wastewater Pond(412746015) -AP 10-Dec-16 BETA 3.95E-03 1.57E-03 1.63E-03 pCi/m3 181 Wastewater Pond(413294012)-AP 17-Dec-16 BETA 2.59E-02 1.74E-03 6.65E-03 pCi/m3 Page 8 of 92 2016 DCPP REMP Analysis Results Appendix A 1 S1 Wastewater Pond(413412003) -AP 24-Dec-16 BETA 3.48E-02 1.96E-03 7.68E-03 pCi/m3 1S1 Wastewater Pond(413697012)-AP 31-Dec-16 BETA 1.71E-02 1.50E-03 7.61E-03 pCi/m3 1S1 Wastewater Pond(396298002) -AP 13-Feb-16 Beryllium-? 1.02E-01 1.16E-02 2.03E-02 pCi/m3 1S1 Wastewater Pond(396298002) -AP 13-Feb-16 Cesium-134 3.69E-04 7.82E-04 4.26E-04 pCi/m3 1S1 Wastewater Pond(401387002) -AP 14-May-16 Cesium-134 -1.49E-04 4.22E-04 3.09E-04 pCi/m3 1S1 Wastewater Pond(408429002) -AP 13-Aug-16 Cesium-134 -6.92E-05 4.92E-04 3.24E-04 pCi/m3 1S1 Wastewater Pond(414245003)-AP 12-Nov-16 Cesium-134 6.14E-05 5.48E-04 3.17E-04 pCi/m3 1S1 Wastewater Pond(396298002) -AP 13-Feb-16 Cesium-137 4.92E-05 4.20E-04 2.69E-04 pCi/m3 1S1 Wastewater Pond(401387002) -AP 14-Mav-16 Cesium-137 3.62E-04 3.65E-04 3.40E-04 pCi/m3 1 S1 Wastewater Pond(408429002) -AP 13-Auo-16 | |||
* Cesium-137 1.65E-04 5.17E-04 2.73E-04 pCi/m3 1S1 Wastewater Pond(414245003)-AP 12-Nov-16 Cesium-137 -1.76E-04 3.58E-04 2.86E-04 pCi/m3 2F1 Morro Bay -Market Fish Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units 2F1 Morro Bay(398093002) -FH Market 19-May-16 Cesium-134 3.28E+OO 6.16E+OO 3.84E+OO pCi/kg 2F1 Morro Bav(398093002) -FH Market 19-May-16 Cesium-137 3.15E+01 5.62E+OO 7.77E+OO pCi/kg 2F1 Morro Bay(398093002) -FH Market 19-May-16 Cobalt-58 -1.55E+OO 5.09E+OO 3.29E+OO pCi/kg, 2F1 Morro Bay(398093002) -FH Market 19-Mav-16 Cobalt-60 9.42E-01 6.01E+OO 3.53E+OO pCi/kg 2F1 Morro Bav(398093002) -FH Market 19-Mav-16 lron-59 -1.96E+OO 1.16E+01 7.01E+OO pCi/kg 2F1 Morro Bay(398093002) -FH Market 19-May-16 Manganese-54 -2.55E+OO 5.26E+OO 4.13E+OO pCi/kg 2F1 Morro Bay(398093002) -FH Market 19-Mav-16 Potassium-40 3.40E+03 4.81E+01 3.95E+02 pCi/kg 2F1 Morro Bay(398093002) -FH Market 19-May-16 Zinc-65, -5.68E+OO 1.20E+01 7.94E+OO pCi/kq 3c1 rl h Id G d v t r ouse o ar en -ege a ion Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 Beryllium-? 6.74E+02 8.34E+01 1.16E+02 pCi/kg ' 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 Cesium-134 1.90E+OO 1.18E+01 6.83E+OO pCi/kg 3C 1 Household Garden(397285002) -VG Brdleaf 10-May-16 Cesium-134 -3.02E-01 8.58E+OO 5.15E+OO pCi/kg 3C1 Household Garden(404129001)-VG Brdleaf 16-Aug-16 Cesium-134 3.03E+OO 9.89E+OO 5.80E+OO pCi/kg 3C1 Household Garden(409315001) -VG Brdleaf 25-0ct-16 Cesium-134 -4.76E-01 1.14E+01. 6.96E+OO pCi/kg 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 Cesium-137 3.79E+OO 1.11E+01 6.73E+OO pCi/kg 3C1 Household Garden(397285002) -VG Brdleaf 10-Mav-16 Cesium-137 -1.58E+OO 8.03E+OO 4.91E+OO pCi/kg 3C1 Household Garden(404129001)-VG Brdleaf 16-Aug-16 Cesium-137 -3.21E-01 9.0?E+OO 5.34E+OO pCi/kg 3C1 Household Garden(409315001) -VG Brdleaf 25-0ct-16 Cesium-137 2.57E+OO 1.07E+01 6.08E+OO pCi/kg 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 lodine-131 -3.83E+OO 1.26E+01 7.78E+OO pCi/kg 3C1 Household Ga*rden(397285002) -VG Brdleaf 10-May-16 lodine-131 7.89E-02 1.22E+01 9.47E+OO pCi/kg 3C1 Household Garden(404129001)-VG Brdleaf. 16-Auq-16 lodine-131 -6.47E-01 9.96E+OO 6.07E+OO pCi/kq 3C1 Household Garden(409315001) -VG Brdleaf 25-0ct-16 lodine-131 -1.90E+OO 1.85E+01 1.19E+01 pCi/kg 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 Potassium-40 4.38E+03 1.06E+02 4.90E+02 pCi/kg 3C1 Household Garden(397285002)-VG Brdleaf* 10-May-16 Potassium-40 3.51E+03 8.07E+01 3.71E+D2 pCi/kg Page 9 of 92 2016 DCPP REMP Analysis Results Appendix A 3C1 Household Garden -Fruit Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 3C1 Household Garden Fruit(392454001)-VG Fruit 1-Mar-16 Cesium-134 -2.17E+OO 8.79E+OO 6.19E+OO pCi/kg 3C1 Household Garden Fruit(397285001)-VG Fruit 10-Mav-16 Cesium-134 -1.45E+OO 6.81 E+OO 4.10E+OO oCi/kq 3C1 Household Garden Fruit(404129002) -VG Fruit 16-Aug-16 Cesium-134 -1.12E+OO 5.91E+OO 3.69E+OO pCi/kg 3C1 Household Garden Fruit(409315002) -VG Fruit 25-0ct-16 Cesium-134 1.06E+OO 6.48E+OO 4.18E+OO pCi/kg 3C1 Household Garden Fruit(392454001)-VG Fruit 1-Mar-16 Cesium-137 -9.69E-01 7.76E+OO 4.89E+OO pCi/kg 3C1 Household Garden Fruit(397285001)-VG Fruit 10-May-16 Cesium-137 2.07E+OO 6.58E+OO 3.96E+OO pCi/kg 3C1 Household Garden Fruit(404129002) -VG Fruit 16-AUQ-16 Cesium-137 2.82E+OO 5.91E+OO 3.60E+OO oCi/kQ 3C1 Household Garden Fruit(409315002) -VG Fruit 25-0ct-16 Cesium-137 5.33E+OO 8.43E+OO 5.00E+OO pCi/kg 3C1 Household Garden Fruit(392454001)-VG Fruit 1-Mar-16 lodine-131 6.44E+OO 1.02E+01 6.41E+OO pCi/kg 3C1 Household Garden Fruit(397285001)-VG Fruit 10-May-16 lodine-131 4.24E+OO 1.02E+01 6.09E+OO pCi/kg 3C1 Household Garden Fruit(404129002) -VG Fruit 16-Aug-16 lodine-131 -9.88E-01 6.51E+OO 4.03E+OO pCi/kg 3C1 Household Garden Fruit(409315002) -VG Fruit 25-0ct-16 lodine-131 3.80E+OO 1.37E+01 8.08E+OO pCi/kg 3C1 Household Garden Fruit(392454001)-VG Fruit 1-Mar-16 Potassium-40 1.73E+03 6.21 E+01 2.03E+02 pCi/kg 3C1 Household Garden Fruit(397285001)-VG Fruit 10-May-16 Potassium-40 1.51E+03 4.67E+01 1.75E+02 pCi/kg 5F1 SLO OEL -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units 5F1 SLO OEL(388797002) -AC 2-Jan-16 lodine-131 9.02E-03 1.18E-02 1.34E-02 pCi/m3 5F1 SLO OEL(389309008) -AC 9-Jan-16 lodine-131 8.64E-04 1.11E-02 7.47E-03 pCi/m3 5F1 SLO OEU389808008) -AC .. 16-Jan"16 lodine-131 1.11 E-02 1.53E-02 9.31E-03 oCi/m3 5F1 SLO OEL(390230013) -AC 23-Jan-16 lodine-131 5.65E-03 1.03E-02 5.77E-03 pCi/m3 5F1 SLO OEL(390692008) -AC 30-Jan-16 lodine-131 -9.37E-03 9.89E-03 8.90E-03 pCi/m3 5F1 SLO OEL(391237010) -AC 6-Feb-16 lodine-131 1.45E-04 1.03E-02 6.17E-03 pCi/m3 5F1 SLO OEL(391592008) -AC 13-Feb-16 lodine-131 3.59E-04 1.12E-02 6.55E-03 pCi/m3 5F1 SLO OEL(392027013) -AC 20-Feb-16 16dine-131 2.85E-03 1.32E-02 7.76E-03 pCi/m3 5F1 SLO OEL(3924820'13) -AC 27-Feb-16 lodine-131 6.37E-03 1.14E-02 6.44E-03 pCi/m3 5F1 SLO OEL(392952001) -AC 5-Mar-16 lodine-131 1.15E-03 8.66E-03 5.00E-03 pCi/m3 5F1 SLO OEL(393384013) -AC -12-Mar"16 lodine-131 -4.98E-04 9.75E-03 5.80E-03 pCi/m3 5F1 SLO OEL(393781008) -AC 19-Mar-16 lodine-131 -2.76E-03 1.30E-02 8.61E-03 pCi/m3 5F1 SLO OEL(394076013) -AC 26-Mar-16 lodine-131 -4.52E-03 7.83E-03 5.91E-03 pCi/m3 5F1 SL.O OEL(394752013) -AC 2-Apr-16 lodine-131 2.46E-03 1.14E-02 6.45E-03 pCi/m3 5F1 SLO OEL(395261013) -AC 9-Apr-16 lodine-131 3.77E-04 8.86E-03 | |||
* 5.26E-03 pCi/m3 5F1 SLO OEL(395795013) -AC 16-Apr-16 lodine-131 1.25E-02 1.25E-02 1.13E-02 pCi/m3 5F1 SLO OEL(396244013) -AC 23-Apr-16 lodine-131 . 5.05E-03 5.05E-03 6.99E-03 pCi/m3 5F1 SLO OEL(396779013) -AC 30-Apr-16 lodine-131 5.45E-03 9.20E-03 4.13E-03 pCi/m3 5F1 SLO OEU397288013) -AC 7-May-16 lodine-131. -1.46E-04 8.42E-03 5.13E-03 pCi/m3 5F1 SLO OEL(397706013) -AC 14-May-16 lodine-131 1.76E-03 1.14E-02 6.57E-03 pCi/m3 5F1 SLO OEL(398215013) -AC 21-Mav-16 lodine-131 -3.57E-03 8.25E-03 5.49E-03 pCi/m3 5F1 SLO OEL(398542013) -AC 28-May-16 lodine-131 1.18E-03 1.10E-02 6.54E-03 pCi/m3 5F1 SLO OEL(399016013) -AC 4-Jun-16 lodine-131 -1.39E-03 9.30E-03 5.73E-03 oCi/m3 5F1 SLO OEL(3995030_13) -AC 11-Jun-16 lodine-131 3.33E-03 9.53E-03 5.86E-03 pCi/m3 5F1 SLO OEL(399964013) -AC 18-Jun-16 lodine-131 -5.32E-03 1.11E-02 7.90E-03 pCi/tn3 5F1 SLO OEL(400310013)-AC 25-Jun-16 lodine-131 2.83E-03 1.24E-02 7.26E-03 oCi/m3 Page 10 of 92 2016 DCPP REMP Analysis Results Appendix A 5F1 SLO OEL(401018013) -AC 2-Jul-16 lodine-131 -4.99E-03 8.73E-03 6.50E-03 *pCi/m3 5F1 SLO OEL(401598001) -AC 9-Jul-16 lodine-131 -2.59E-03 1.21E-02 7.75E-03 pCi/m3 5F1 SLO OEL(402089001) -AC 16-Jul-16 lodine-131 1.29E-03 1.10E-02 6.52E-03 pCi/m3 5F1 SLO OEL(402578013) -AC | |||
* 23-Jul-16 lodine-131 -5.62E-03 9.59E-03 7.28E-03 oCi/m3 5F1 SLO OEL(403120013) -AC 30-Jul-16 lodine-131 -1.34E-04 1.51E-02 9.09E-03 pCi/m3 5F1 SLO OEL(403674013) -AC 6-Aug-16 lodine-131 2.41E-04 1.34E-02 7.75E-03 pCi/m3 5F1 SLO OEL(404132013) -AC 13-Aug-16 lodine-131 8.26E-03 1.27E-02 7.54E-03 pCi/m3 5F1 SLO OEL(404555001) -AC 20-Aug-16 lodine-131 1.76E-03 1.57E-02 8.86E-03 pCi/m3 5F1 SLO OEU405070001) -AC 27-Auq-16 lodine-131 2.10E-03 8.10E-03 4.42E-03 oCi/m3 5F1 SLO OEL(405461013) -AC 3-Sep-16 lodine-131 -2.72E-03 1.01E-02 6.57E-03 pCi/m3 5F1 SLO OEL(405943013) -AC 10-Sep-16 lodine-131 .. 2.81E-03 1.72E-02 9.60E-03 pCi/m3 5F1 SLO OEL(406484013) -AC 17-Sep-16 lodine-131 -1.33E-03 7.38E-03 4.66E-03 pCi/m3 5F1 SLO OEL(406978013) -AC 24-Sep-16 lodine-131 1.37E-02 1.37E-02 1.39E-02 pCi/m3 5F1 SLO OEL(407538013) -AC 1-0ct-16 lodine-131 3.05E-03 1.21E-02 6.61E-03 pCi/m3 5F1 SLO OEL(408013013) -AC lodine-131 -3.51E-03 7.91 E-03 5.36E-03 pCi/m3 5F1 SLO OEL(408711013) -AC 15-0ct-16 lodine-131 1.83E-03 1.05E-02 6.19E-03 pCi/m3 5F1 SLO OEL(409217013) -AC 22-0ct-16 lodine-131 2.04E-03 1.31E-02 8.36E-03 pCi/m3 5F1 SLO OEL(409738013) -AC 29-0ct-16 lodine-131 2.89E-03 9.32E-03 5.15E-03 pCi/m3 5F1 SLO OEL(410322013) -AC 5-Nov-16 lodine-131 5.71E-03 5.71 E-03 4.24E-03 pCi/m3 5F1 SLO OEL(410821013) -AC 12-Nov-16 lodine-131 2.24E-03 9.54E-03 5.39E-03 pCi/m3 5F1 SLO OEL(411348013) -AC ' 19-Nov-16 lodine-131 2.79E-03 1.31E-02 7.18E-03 pCi/m3 5F1 SLO OEL(411620013) -AC 26-Nov-16 lodine-131 3.93E-03 9.83E-03 7.44E-03 oCi/m3 5F1 SLO OEL(412193016)-AC 3-Dec-16 lodine-131 3.28E-03 1.34E-02 7.50E-03 pCi/m3 5F1 SLO OEL(412746002)-AC 10-Dec-16 lodine-131 -6.11E-04 7.82E-03 4.72E-03 pCi/m3 5F1 SLO OEL(413294001) -AC 17-Dec-16 lodine-131 -3.85E-03 1.01E-02 6.96E-03 pCi/m3 5F1 SLO OEL(413412013) -AC 24-Dec-16 lodine-131 4.21E-04 8.88E-03 5.12E-03 pCi/m3 5F1 SLO OEL(413697001) -AC 31-Dec-16 lodine-131 1.61E-04 7.58E-03 4.89E-03 pCi/m3 5F1 SLO OEL -Air Carbon 14 Sample Name Date Colle.cted Nuclide Result MDC 2 Sigma TPU Units 5F1 SLO OEL(388797003) -AC14 2-Jan-16 Carbon-14 -9.64E-08 5.27E-07 3.12E-07 uCi/m3 5F1 SLO OEL(389309015) -AC14 9-Jan-16 Carbon-14 -4.39E-07 6.18E-07 3.61E-07 uCi/m3 5F1 SLO OEL(389808015)-AC14 16-Jan-16 Carbon-14 -3.63E-07 6.27E-07 3.68E-07 uCi/m3 5F1 SLO OEL(390230009) -AC14 23-Jan-16 Carbon-14 -3.92E-07 5.74E-07 3.35E-07 uCi/m3 5F1 SLO OEL(390692015) -AC14 30-Jan-16 Carbon-14 -4.10E-07 5.63E-07 3.28E-07 uCi/m3 5F1 SLO OEL(391237007) -AC14 6-Feb-16 Carbon-14 -2.14E-07 5.44E-07 3.21E-07 uCi/m3 5F1 SLO OEU391592015) -AC14 13-Feb-16 Carbon-14 -9.43E-08 6.24E-07 3.70E-07 uCi/m3 5F1 SLO OEL(392027009) -AC14 20-Feb-16 Carbon-14 2.07E-07 5.90E-07 3.55E-07 uCi/m3 5F1 SLO OEL(392482009) -AC14 27-Feb-16 Carbon-14 1.06E-07 5.59E-07 3.35E-07 uCi/m3 5F1 SLO OEL(392952015) -AC14 5-Mar-16 Carbon-14 -1.62E-07 5.76E-07 3.40E-07 uCi/m3 5F1 SLO OEL(393384009) -AC14 12-Mar-16 Carbon-14 -2.49E-07 5.51E-07 3.24E-07 uCi/m3 5F1 SLO OEL(393781015)-AC14 19-Mar-16 Carbon-14 -6.99E-08 5.55E-07 3.29E-07 uCi/m3 5F1 SLO OEL(394076009) -AC14 26-Mar-16 Carbon-14 8.07E-08 5.19E-07 3.11 E-07 uCi/m3 5F1 SLO OEL(394752009)1-AC14 2-Apr-16 Carbon-14 2.41E-07 5.25E-07 3.17E-07 uCi/m3 5F1 SLO OEL(395261009) -AC14 9-Aor-16 Carbon-14 -4.08E-07 5.95E-07 3.47E-07 uCi/m3 Page 11 of92 2016 DCPP REMP Analysis Results Appendix A 5F1 SLO OEL(395795009) -AC14 16-Apr-16 Carbon-14 -3.48E-07 5.51E-07 3.23E-07 uCi/m3 5F1 SLO OEL(396244009) -AC14 23-Apr-16 Carbon-14 -1.91 E-07 5.61E-07 3.31 E-07 uCi/m3 5F1 SLO OEL(396779009) -AC14 30-Apr-16 Carbon-14 -1.57E-07 5.54E-07 3.27E-07 uCi/m3 5F1 SLO OEL(397288009) -AC14 7-Mav-16 Carbon-14 -2.07E-07 5.48E-07 3.23E-07 uCi/m3 5F1 SLO OEL(397706009) -AC14 14-May-16 Carbon-14 -2.55E-07 5.64E-07 3.32E-07 uCi/m3 5F1 SLO OEL(398215009) -AC14 21-May-16 Carbon-14 6.49E-08 4.69E-07 2.81E-07 uCi/m3 5F1 SLO OEL(398542009) -AC14 28-May-16 Carbon-14 -1.33E-07 5.86E-07 3.47E-07 uCi/m3 5F1 SLO OEL(399016009) -AC14 4-Jun-16 Carbon-14 -1.57E-07 5.75E-07 3.40E-07 uCi/m3 5F1 SLO OEL(399503009) -AC14 11-Jun-16 Carbon-14 -5.32E-08 5.48E-07 3.26E-07 uCi/m3 5F1 SLO OEL(399964009) -AC14 18-Jun-16 Carbon-14 -3.47E-07 5.68E-07 3.32E-07 uCi/m3 5F1 SLO OEL(400310009) -AC14 25-Jun-16 Carbon-14 -1.15E-07 6.56E-07 3.89E-07 uCi/m3 5F1 SLO OEL(401018009) -AC14 2-Jul-16 Carbon-14 -7.95E-08 4.83E-07 2.86E-07 uCi/m3 5F1 SLO OEL(401598003) -AC14 9-Jul-16 Carbon-14 8.72E-08 5.53E-07 3.31 E-07 uCi/m3 5F1 SLO OEL(402089003) -AC14 16-Jul-16 Carbon-14 -1.09E-07 5.78E-07 3.42E-07 uCi/m3 5F1 SLO OEL(402578009) -AC14 23-Jul-16 ca*rbon-14 1.87E-08 6.47E-07 3.86E-07 uCi/m3 -5F1 SLO OEL(403120009) -AC14 30-Jul-16 Carbon-14 -7.17E-07 6.01E-07 3.46E-07 uCi/m3 5F1 SLO OEL(403674009) -AC14 6-Aug-16 Carbon-14 -4.26E-08 . 5.38E-07 3.19E-07 uCi/m3 5F1 SLO OEL(404132009)-AC14 13-Aug-16 Carbon-14 2.31E-07 5.36E-07 3.23E-07 uCi/m3 5F1 SLO OEU404555003) -AC14 20-Auq-16 Carbon-14 -1.06E-07 5.64E-07 3.34E-07 uCi/m3 5F1 SLO OEL(405070003) -AC14 27-Aug-16 Carbon-14 2.51E-07 5.18E-07 3.13E-07 uCi/m3 5F1 SLO OEL(405461009) -AC14 3-Sep-16 Carbon-14 -5.45E-07 6.14E-07 3.56E-07 uCi/m3 5F1 SLO OEU405943009) -AC14 10-Seo-16 Carbon-14 -3.19E-07 5.62E-07 3.29E-07 uCi/m3 5F1 SLO OEL(406484009) -AC14 17-Sep-16 Carbon-14 -2.23E-07 6.17E-07 3.64E-07 uCi/m3 5F1 SLO OEL(406978009) -AC14 \ 24-Seo-16 Carbon-14 2.45E-08 5.77E-07 3.44E-07 uCi/m3 5F1 SLO OEL(407538009) -AC14 1-0ct-16 Carbon-14 3.20E-08 5.19E-07 3.10E-07 uCi/m3 5F1 SLO OEL(408013009) -AC14 Carbon-14 -2.83E-07 5.64E-07 3.31E-07 uCi/m3 5F1 SLO OEL(408711009) -AC14 15-0ct-16 Carbon-14 -3.46E-07 5.38E-07 3.15E-07 uCi/m3 5F1 SLO OEL(409217009) -AC14 22-0ct-16 Carbon-14 -3.67E-07 5.76E-07 3.37E-07 uCi/m3 5F1 SLO OEL(409738009) -AC14 29-0ct-16 Carbon-14 -3.26E-07 5.72E-07 3.35E-07 uCi/m3 5F1 SLO OEL(410322009) -AC14 5-Nov-16 Carbon-14 4.78E-08 5.64E-07 3.37E-07 uCi/m3 5F1 SLO OEL(410821009)-AC14 12-Nov-16 Carbon-14 2.66E-07 5.39E-07 3.26E-07 uCi/m3 5F1 SLO OEL(411348009) -AC14 19-Nov-16 Carbon-14. 2.49E-07 5.98E-07 3.60E-07 uCi/m3 5F1 SLO OEL(411620009) -AC14 26-Nov-16 Carbon-14 1.96E-07 4.91E-07 2.96E-07 uCi/m3 5F1 SLO OEL(412193018) -AC14 3-Dec-16 Carbon-14 1.16E-07 5.97E-07 3.57E-07 uCi/m3 5F1 SLO OEL(412746004)-AC14 10-Dec-16 Carbon-14 -4.20E-07 6.22E-07 3.64E-07 uCi/m3 5F1 SLO OEL(413294003)-AC14 17-Dec-16 Carbon-14 -1.11E-08 5.87E-07 3.49E-07 uCi/m3 5F1 SLO OEL(413412009)-AC14 24-Dec-16 Carbon-14 -1.09E-07 6.93E-07 ' 4.11E-07 uCi/m3 5F1 SLO OEL(413697003)-AC1'4 31-Dec-16 Carbon-14 -7.00E-08 5.28E-07 3.14E-07 uCi/m3 Page 12 of92 2016 DCPP REMP Analysis Results Appendix A 5F1 SLO OEL -Air Particulate Sample Name Date Collected Nuclide Result MDC '2 Sigma TPU Units 5F1 SLO OEL(388797001) -AP 2-Jan-16 BETA 4.35E-02 1.50E-03 8.26E-03 pCi/m3 5F1 SLO OEL(389309001) -AP 9-Jan-16 BETA 3.70E-02 1.73E-03 9.13E-03 pCi/m3 5F1 SLO OEL(389808001) -AP 16-Jan-16 BETA 1.64E-02 1.68E-03 8.02E-03 pCi/m3 5F1 SLO OEL(390230003) -AP 23-Jan-16 BETA 5.41 E-02 1.60E-03 9.77E-03 pCi/m3 5F1 SLO OEL(390692001) -AP 30-Jan-16 BETA 4.04E-02 1.64E-03 8.55E-03 pCi/m3 5F1 SLO OEL(391237001) -AP 6-Feb-16 BETA 5.41E-02 1.78E-03 9.01E-03 pCi/m3 5F1 SLO OEL(391592001) -AP 13-Feb-16 BETA 4.12E-02 1.60E-03 1.00E-02 pCi/m3 5F1 SLO OEL(392027003) -AP 20-Feb-16 BETA 7.09E-02 1.52E-03 9.26E-03 pCi/m3 5F1 SLO OEL(392482003) -AP 27-Feb-16 BETA 4.02E-02 1.52E-03 9.25E-03 pCi/m3 5F1 SLO OEL(392952008) -AP 5-Mar-16 BETA 2.14E-02 1.68E-03 8.15E-03 pCi/m3 5F1 SLO OEL(393384003) -AP 12-Mar-16 BETA 1.06E-02 1.53E-03 8.96E-03 pCi/m3 5F1 SLO OEL(393781001) -AP 19-Mar-16 BETA 1.82E-02 1.59E-03 8.44E-03 pCi/m3 5F1 SLO OEL(394076003) -AP 26-Mar-16 BETA 1.04E-02 1.59E-03 8.51E-03 pCi/m3 5F1 SLO OEL(394752003) -AP 2-Apr-16 BETA 3.01E-02 1.71E-03 9.34E-03 pCi/m3 5F1 SLO OEL(395261003) -AP 9-Apr-16 BETA 2.96E-02 1.76E-03 8.37E-03 pCi/m3 5F1 SLO OEL(395795003) -AP* 16-Apr-16 BETA 3.55E-02 1.59E-03 8.97E-03 pCi/m3 5F1 SLO OEU396244003) -_AP 23-Aor-16 BETA 1.26E-02 1.59E-03 9.16E-03 PCi/m3 5F1 SLO OEL(396779003) -AP 30-Apr-16 BETA 1.40E-02 1.60E-03 9.63E-03 pCi/m3 5F1 SLO OEL(397288003) -AP 7-Mav-.16 BETA 1.26E-02 1.63E-03 8.19E-03' pCi/m3 5F1 SLO OEL(397706003) -AP 14-May-16 BETA 9.86E-03 1.52E-03 9.29E-03 pCi/m3 5F1 SLO OEL(398215003) -AP 21-May-16 BETA 5.40E-03 1.59E-03 9.13E-03 pCi/m3 5F1 SLO OEL(398542003) -AP 28-May-16 BETA 2.11E-02 1.58E-03 pCi/m3 5F1 SLO OEL(399016003) -AP 4-Jun-16 BETA 8.00E-03 1.50E-03 9.51E-03 pCi/m3 5F1 SLO OEL(399503003) -AP 11-Jun-16 BETA 1.08E-02 7.63E-03 pCi/m3 5F1 SLO OEU399964003) -AP 18-Jun-16 BETA 9.50E-03 1.62E-03 7.05E-03 oCi/m3 5F1 SLO OEL(400310003) -AP 25-Jun-16 BETA 1.06E-02 1.86E-03 1.04E-02 pCi/m3 5F1 SLO OEL(4Q1018003) -AP 2-Jul-16 BETA 1.20E-02 1.51 E-03 8.06E-03 pCi/m3 5F1 SLO OEL(401598002) -AP 9-Jul-16 BETA 5.08E-03 1.64E*03 9.50E-03 pCi/m3 5F1 SLO OEL(402089002) -AP 16-Jul-16 BETA 6.51 E-03 1.62E-03 1.03E-02 pCi/m3 5F1 SLO OEL(402578003) -AP 23-Jul-16 BETA 1.09E-02 1.58E-03 8.28E-03 oCi/m3 5F1 SLO OEL(403120003) -AP. 30-Jul-16 BETA 3.78E-03 1.61E-03 , 9.07E-03 pCi/m3 5F1 SLO OEL(403674003) -AP 6-Aug-16 BETA 9.73E-03 1.66E-03 9.51E-03-pCi/m3 5F1 SLO OEL(404132003) -AP 13-Aug-16 BETA 9.45E-03 1.60E-03 8.65E-03 pCi/m3 5F1 SLO OEL(404555002) -AP 20-Aug-16 BETA 2.12E-02 1.67E-03 1.07E-02 pCi/m3 5F1 SLO OEL(405070002) -AP 27-AuQ-16 BETA 1.96E-02 1.59E-03 9.03E-03 oCi/m3 5F1 SLO OEL(405461003) -AP 3-Sep-16 BETA 3.48E-02 1.58E-03 9.39E-03 pCi/m3 5F1 SLO OEL(405943003) -AP 10-Sep-16 BETA 2.35E-02 1.82E-03 9.55E-03 pCi/m3 5F1 SLO OEL(406484003) -AP 17-Sep-16 BETA 3.48E-02 1-.82E-03 9.17E-03 pCi/m3 5F1 SLO OEL(406978003) -AP 24-Sep-16 BETA 3.56E-02 1.58E-03 9.12E-03 pCi/m3 5F1 SLO OEL(407538003) -AP 1-0ct-16 BETA 1.65E-02 1.61E-03 8.86E-03 pCi/m3 -5F1 SLO OEL(408013003) -AP BETA 4.44E-02 1.51E-03 1.00E-02 pCi/m3 5F1 SLO OEL(408711003) -AP 15-0ct-16 BETA 1.70E-02 1.68E-03 pCi/m3. 5F1 SLO OEL(409217003) -AP 22-0ct-16 BETA 4.01E-02 1.70E-03 1.06E-02 pCi/m3 Page 13 of 92 2016 DCPP REMP Analysis Results Appendix A 5F1 SLO OEL(409738003) -AP 29-0ct-16 BETA* 1.37E-02 1.73E-03 9.93E-03 pCi/m3 5F1 SLO OEL(410322003) -AP 5-Nov-16 BETA 3.82E-02 1.71E-03 4.38E-03 pCi/m3 5F1 SLO OEL(410821003)-AP 12-Nov-16 BETA 6.76E-02 1.66E-03 9.87E-03 pCi/m3 5F1 SLO OEL(411348003) -AP 19-Nov-16 BETA 1.38E-02 1.99E-03 1.08E-02 pCi/m3 5F1 SLO OEL(411620003)-AP 26-Nov-16 BETA 1.77E-02 9.17E-03 pCi/m3 5F1 SLO OEL(412193017) -AP 3-Dec-16 BETA 2.87E-02 1.57E-03 8.82E-03 pCi/m3 5F1 SLO OEL(4127 46003) -AP 10-Dec-16 BETA 1.90E-02 1.63E-03 3.14E-03 pCi/m3 5F1 SLO OEL(413294002) -AP 17-Dec-16 BETA 3.27E-02 1.68E-03 6.71E-03 pCi/m3 5F1 SLO OEL(413412001)-AP 24-Dec-16 BETA 4.24E-02 1.96E-03 7.97E-03 pCi/m3 5F1 SLO OEL(413697002)-AP 31-Dec-16 BETA 3.11 E-02 1.50E-03 8.01E-03 pCi/m3 5F1 SLO OEL(396298003) -AP 13-Feb-16 Beryllium-? 8.30E-02 1.16E-02 1.79E-02 pCi/m3 | |||
* 5F1 SLO OEL(396298003) -AP 13-Feb-16 Cesium-134 2.72E-04 7.59E-04 4.0?E-04 pCi/m3 5F1 SLO OEL(401387003) -AP 14-May-16 Cesium-134 9.73E-05 7.84E-04 4.67E-04 '" pCi/m3 5F1 SLO OEL(408429003) -AP 13-Auq-16 Cesium-134 1.96E-04 *7.72E-04 4.21E-04 pCi/m3 5F1 SLO OEL(414245001)*-AP 12-Nov-16 Cesium-134 -3.09E-04 4.41E-04 3.86E-04 pCi/m3 5F1 SLO OEL(396298003) -*AP 13-Feb-16 Cesium-137 1.56E-04 -5.97E-04 3.23E-04 pCi/m3 5F1 SLO OEL(401387003) -AP 14-May-16 Cesium-137 4.72E-04 6.34E-04 3.49E-04 pCi/m3 5F1 SLO OEL(408429003) -AP 13-Aug-16 Cesium-137 -1.43E-04 5.50E-04 3.53E-04 pCi/m3 5F1 SLO OEL(414245001) -AP 12-Nov-16 Cesium-137 -3.68E-05 4.68E-04 2.94E-04 oCi/m3 5F2 Cal Poly Farm -Milk Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 Barium-140 3.06E+OO 7.94E+OO 4.73E+OO pCi/L 5F2 Cal Polv Farm(391919004) -MK 22-Feb-16 Barium-140 -1.32E+OO 7.42E+OO 4.56E+OO pCi/L 5F2 Cal Poly Farm(393318001)-MK 14-Mar-16 Barium-140 1.19E+OO 6.94E+OO 4.16E+OO pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Barium-140 -1.0?E+OO 7.83E+OO 4.64E+OO pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 Barium-140 -7.33E-01 8.24E+oo* 5.03E+OO oCi/L 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 Barium-140 -6.67E+OO 1.23E+01 8.47E+OO pCi/L 5F2 Cal Poly Farm(401965001)-MK 18-Jul-16 Barium-140 -3.71E+OO 9.32E+OO 5.90E+OO pCi/L 5F2 Cal Poly Farm(403012001)-MK 1-Aug-16 Barium-140 4.00E+OO 1.26E+01 7.45E+OO pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Sep-16 Barium-140 5.13E+OO 1.12E+01 6.81E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Barium-140 9.83E-01 1.09E+01 6.63E+OO pCi/L 5F2 Cal Poly Farm(410298001)-MK 7-Nov-16 Barium-140 4.51E+OO 1.12E+01 6.90E+OO pCi/L 5F2 Cal Poly Farm(412059004)-MK 5-Dec-16 Barium-140 1.14E+OO 9.86E+OO 5.74E+OO pCi/L 5F2 Cal Poly Farm(390114004)-MK 25-Jan-16 Cesium-134 8.36E-01 2.03E+OO 2.26E+OO pCi/L 5F2 Cal Poly Farm(391919004) -MK 22-Feb-16 Cesium-134 3.35E-01 1.93E+OO 1.15E+OO pCi/L 5F2 Cal Poly Farm(393318001) -MK 14-Mar-16 Cesium-134 3.24E-01 1.92E+OO 1.11E+OO pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Cesium-134 7.09E-01 1.97E+OO 1.19E+OO pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 Cesium-134 1.44E+OO 1.94E+OO 1.79E+OO pCi/L 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 Cesium-134 3.54E-01 2.73E+OO 1.60E+OO pCi/L 5F2 Cal Poly Farm(401965001) -MK 18-Jul-16 Cesium-134 9.86E-02 2.58E+OO 1.56E+OO pCi/L 5F2 Cal Poly Farm(403012001) -MK 1-Aug-16 Cesium-134 -9.88E-03 2.25E+OO 1.35E+OO pCi/L 5F2 Cal Polv Farm(406353004) -MK 19-Sep-16 Cesium-134 4.42E-01 1.95E+OO 1.19E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Cesium-134 1.85E+OO 2.44E+OO 1.57E+OO pCi/L 5F2 Cal Polv Farm(410298001) -MK 7-Nov-16 Cesium-134 1.78E+OO 2.43E+OO 1.55E+OO pCi/L Page 14 of 92 2016 DCPP REMP Analysis Results . Appendix A ,_ 5F2 Cal Poly Farm(412059004)-MK 5-Dec-16 Cesium-134 -2.99E-01 1.68E+OO 1.05E+OO pCi/L 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 Cesium-137 -1.18E+OO 2.35E+OO 2.16E+OO pCi/L 5F2 Cal Poly Farm(391919004) -MK 22-Feb-16 Cesium-137 -5.51E-02 1.92E+OO 1.17E+OO pCi/L 5F2 Cal Poly Farm(393318001) -MK. 14-Mar-16 Cesium-137 7.86E-01 1.83E+OO 1.13E+OO pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Cesium-137 4.98E-01 1.92E+OO 1.26E+OO pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 Cesium-137 -3.98E-01 1.79E+OO 1.13E+OO pCi/L 5F2 Cal Poly Farm(399398004) -MK | |||
* 13-Jun-16 Cesium-137 3.86E-01 2.38E+OO 1.44E+OO pCi/L 5F2 Cal Poly Farm(401965001) -MK 18-Jul-16 Cesium-137 6.95E-01 2.63E+OO 1.80E+OO pCi/L 5F2 Cal Poly Farm(403012001) -MK 1-Auq-16 Cesium-137 -2.27E-01 2.10E+OO 1.26E+OO pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Sep-16 Cesium-137 7.58E-01 1.86E+OO 1.14E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Cesium-137 9.98E-01 2.18E+OO 1.88E+OO pCi/L 5F2 Cal Poly Farm(410298001)-MK 7-Nov-16 Cesium-137 7.08E-01 2.26E+OO 1.31E+OO pCi/L 5F2 Cal Poly Farm(412059004)-MK 5-Dec-16 Cesium-137 7.73E-01 1.73E+OO 1.04E+OO pCi/L 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 . lodine-131 -1.80E-01 8.51E-01 5.22E-01 oCi/L 5F2 Cal Poly Farm(391919004)-MK 22-Feb-16 lodine-131 -6.49E-02 7.45E-01' 4.40E-01 | |||
* pCi/L 5F2 Cal Poly Farm(393318001)-MK 14-Mar-16 lodine-131 1.73E-01 5.96E-01 3.52E-01 pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 lodine-131 1.37E-01 5.84E-01 5.39E-01 pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 lodine-131 2.27E-01 9.73E-01 6.24E-01 pCi/L 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 lodine-131 -2.67E-02 7.63E-01 4.67E-01 pCi/L 5F2 Cal Poly Farm(401965001) -MK 18-Jul-16 lodine-131 -1.11E-01 5.36E-01 . 3.27E-01 pCi/L 5F2 Cal Poly Farm(403012001) -MK 1-Aug-16 lodine-131 3.62E-01 8.83E-01 5.32E-01 pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Seo-16 lodine-131 1.36E-01 5.67E-01 3.41 E-01 pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 lodine-1.31 8.92E-03 5.02E-01 3.02E-01 pCi/L 5F2 Cal Poly Farm(410298001)-MK 7-Nov-16 lodine-131 1.51E-01 6.37E-01 3.65E-01 pCi/L 5F2 Cal Poly Farm(412059004)-MK 5-Dec-16 lodine-131 -1.77E-02 3.65E-01 2.10E-01 pCi/L 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 Lanthanum-140 3.66E-01 2.26E+OO | |||
* 1.56E+OO pCi/L 5F2 Cal Poly Farm(391919004) -MK -'22-Feb-16 Lanthanum-140 -1.20E-01 1.91E+OO 1.32E+OO pCi/L 5F2 Cal Poly Farm(393318001) -MK 14-Mar-16 Lanthanum-140 -8.84E-02 1.94E+OO 1.15E+OO pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Lanthanum-140. -6.27E-01 2.42E+OO . 1.54E+OO pCi/L 5F2 Cal Poly Farm(396603004)-MK Lanthanum-140 -3.66E-01 2.39E+OO 1.45E+OO pCi/L 5F2 Cal Poly Farm(399398004)-MK 13-Jun-16 Lanthanum-140 -3.35E-01 3.82E+OO 2.76E+OO pCi/L 5F2 Cal Poly Farm(401965001) -MK 18-Jul-16 Lanthanum-140 1.93E+OO 3.31E+OO 2.01E+OO pCi/L 5F2 Cal Poly Farm(403012001)-MK 1-Aug-16 Lanthanum-140 -8.83E-01 . 3.66E+OO 2.30E+OO pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Sep-16 Lanthanum-140 1.89E-02 3.11E+OO 1.88E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Lanthanum-140 -4.73E-01 r3.09E+OO 1.86E+OO pCi/L 5F2 Cal Poly Farm(410298001)-MK 7-Nov-16 Lanthanum-140 -8.20E-01 -2.68E+OO 1.96E+OO pCi/L 5F2 Cal Poly Farm(412059004) -MK 5-Dec-16 Lanthanum-140 1.19E+OO 3.24E+OO 2.07E+OO pCi/L 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 Potassium-40 1.38E+03 1.67E+01 1.28E+02 pCi/L 5F2 Cal Poly Farm(391919004)-MK 22-Feb-16 Potassium-40 1.37E+03 1.62E+01 1.28E+02 pCi/L 5F2 Cal Polv Farm(393318001) -MK 14-Mar-16 Potassium-40 1.37E+03 1.61E+01 1.30E+02 pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Potassium-40 1.37E+03 1.62E+01 1.39E+02 pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-Mav-16 Potassium-40 1.34E+03 1.71E+01 1.27E+02 pCi/L 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 Potassium-40 1.34E+03 2.17E+01 1.30E+02 pCi/L 5F2 Cal Polv Farm(390114004) -MK 25-Jan-16 Total Strontium -9.67.E-03 4.48E-01 2.67E-01 pCi/L 5F'2 Cal Polv Farm(391919004)-MK 22-Feb-16 Total Strontium -7.09E-02 1.26E-01 pCi/L Page 15 of 92 2016 DCPP REMP Analysis Results Appendix A 5F2 Cal Poly Farm(393318001) -MK 14-Mar-16 Total Strontium -1.38E-01 3.01E-01 1.71 E-01 pCi/L 5F2 Cal Poly Farm(395137005)-MK 11-Apr-16 Total Strontium -4.72E-01 6.79E-01 3.91E-01 pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 Total Strontium 5.05E-01 6:88E-01 4.41E-01 pCi/L ., 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 Total Strontium 4.60E-01 5:05E-01 3.37E-01 oCi/L 5F2 Cal Poly Farm(401965001)-MK 18-Jul-16 Total Strontium 1.51 E-01 3.60E-01 2.23E-01 pCi/Lr 5F2 Cal Poly Farm(403012001) -MK 1-Aug-16 Total Strontium -2.46E-01 3.12E-01 1.76E-01 pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Sep-16 Total Strontium -7.52E..:01 1.78E+OO 1.00E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Total Strontium 6.64E-01 1.33E+OO 9.13E-01 pCi/L 5F2 Cal Polv Farm(410298001) -MK 7-Nov-16 Total Strontium 7.91 E-01 8.19E-01 _ 5.74E-01 pCi/L 5F2 Cal Poly Farm(412059004) -MK 5-Dec-16 Total Strontium -2.86E-01 9.80E-01 5.56E-01 pCi/L 5F2 Cal Poly Farm -Vegetation Sample Name Date Collected Nuclide* Result MDC 2 Sigma TPU Units 5F2 Cal Polv Farm(390114005) -VG Brdleaf 25-Jan-16 Bervllium-7 6.35E+02 8.24E+01 1.09E+02 pCi/kQ 5F2 Cal Poly Farm(390114005) -VG Brdleaf 25-Jan-16 Cesium-134 4.58E+OO 1.25E+01 7.33E+OO pCi/kg 5F2 Cal' Poly Farm(391919001) -VG Brdleaf 22-Feb-16 Cesium-134 1.35E+OO 1.62E+01 1.09E+01 pCi/kg 5F2 Cal Poly Farm(393318002) -VG Brdleaf 14-Mar-16 Cesium-134 4.10E+OO 1.56E+01 1.24E+01 pCi/kg 5F2 Cal Poly Farm(395137001) -VG Brdleaf 11-Apr-16 Cesium-134 -3.35E+OO 1.24E+01 7.69E+OO pCi/kg 5F2 Cal eoly Farm(396603001) -VG Brdleaf 2-May-16 Cesium-134 -6.37E+OO 1.26E+01 8.26E+OO | |||
* oCi/ka 5F2 Cal Poly Farm(399398001) -VG Brdleaf 13-Jun-16 Cesium-134 8.20E+OO 1.99E+01 1.34E+01 pCi/kg 5F2 Cal Poly Farm(401965002) -VG Brdleaf 18-Jul-16 Cesium-134 8.18E+OO 2.19E+01 2.23E+01 pCi/kg 5F2 Cal Poly Farm(403012002) -VG Brdleaf 1-Aua-16 Cesium-134 4.57E+OO 8.08E+OO 4.98E+OO oCi/ka 5F2 Cal Poly Farm(406353001) -VG Brdleaf 19-Sep-16 Cesium-134 -6.21E+OO 9.36E+OO 6.95E+OO pCi/kg 5F2 Cal Poly Farm(407878001) -VG Brdleaf 10-0ct-16 Cesium-134 2.29E+OO 1.07E+01 6.48E+OO pCi/kQ 5F2 Cal Poly Farm(410298002) -VG Brdleaf 7-Nov-16 Cesium-134 3.39E-01 8.68E+OO 7.64E+OO pCi/kg 5F2 Cal Poly Farm(412059001)-VG Brdleaf 5-Dec-16 Cesium-134 7.71E+OO 7.87E+OO 6.34E+OO pCi/kg 5F2 Cal Polv Farm(390114005) -VG Brdleaf 25-Jan-16 Cesium-137 2.00E+OO 1.12E+01 6.69E+OO pCi/ka 5F2 Cal Poly Farm(391919001)-VG Brdleaf 22-Feb-16 Cesium-137 5.25E+OO 1.58E+01 9.06E+OO pCi/kg 5F2 Cal Poly Farm(393318002) -VG Brdleaf 14-Mar-16 Cesium-137 1.16E+01 1.31E+01 2.01 E+01 pCi/kg 5F2 Cal Poly Farm(395137001) -VG Brdleaf 11-Apr-16 Cesium-137 9.44E-02 1.20E+01 7.32E+OO -pCi/kg 5F2 Cal Poly Farm(396603001) -VG Brdleaf 2-May-16 Cesium-137 ' 1.17E+01 7.15E+OO pCi/kg 5F2 Cal Poly Farm(399398001) -VG Brdleaf 13-Jun-16 Cesium-137 9.39E-01 1.77E+01 1.03E+01 pCi/ka 5F2 Cal Poly Farm(401965002) -VG Brdleaf 18-Jul-16 Cesium-137 4.06E+OO 1.93E+01 1.32E+01 pCi/kg 5F2 Cal Poly Farm(403012002) -VG Brdleaf 1-Aug-16 Cesium-137 3.05E-01 7.25E+OO 4.27E+OO pCi/kg 5F2 Cal Poly Farm(406353001) -VG Brdleaf 19-Sep-16 Cesium-137 1.18E+OO 1.10E+01 6.53E+OO pCi/kg 5F2 Cal Poly Farm(407878001) -VG Brdleaf 10-0ct-16 Cesium-137 -3.74E-01 8.92E+OO 5.47E+OO pCi/kg 5F2 Cal Poly Farm(410298002) -VG Brdleaf 7-Nov-16 Cesium-137 5.89E+OO 7.82E+OO 4.94E+OO pCi/ka 5F2 Cal Poly Farm(412059001) -VG Brdleaf 5-Dec-16 Cesium-137 -2.03E+OO 6.28E+OO 4.09E+OO pCi/kg 5F2 Cal Poly Farm(390114005) -VG Brdleaf ' 25-Jan-16 lodine-131 8.44E+OO 1.40E+01 8.74E+OO pCi/kg 5F2 Cal Poly Farm(391919001) -VG Brdleaf 22-Feb-16 lodine-131 4.28E+OO 1.82E+01 1.08E+01 pCi/kg 5F2 Cal Poly Farm(393318002) -VG Brdleaf 14-Mar-16 lodine-131 -2.93E+OO 1.62E+01 9.64E+OO pCi/kg 5F2 Cal Poly Farm(395137001) -VG Brdleaf 11-Apr-16 lodine-131 -5.03E+OO 1.26E+01 7.88E+OO oCi/ka 5F2 Cal Poly Farm(396603001) -VG Brdleaf 2-May-16 lodine-131 4.51E+OO 1.55E+01 9.12E+OO pCi/kg 5F2 Cal Poly Farm(399398001) -VG Brdleaf. 13-Jun-16 lodine-131 1.02E+OO 2.15E+01 1.26E+01 pCi/ka 5F2 Cal Poly Farm(401965002) -VG Brdleaf 18-Jul-16 lodine-131 -4.60E+OO 2.16E+01 1.31E+01 oCi/ka Page 16 of 92_ | |||
, 2016 DCPP REMP Analysis Results Appendix A 5F2 Cal Poly Farm(403012002) -VG Brdleaf 1-Aug-16 lodine-131 8.94E+OO 1.39E+01 1.10E+01 pCi/kg 5F2 Cal Poly Farm(406353001) -VG Brdleaf 19-Sep-16 lodine-131 1.21 E+OO 1.14E+01 6.55E+OO pCi/kg 5F2 Cal Poly Farm(407878001) -VG Brdleaf 10-0ct-16 lodine-131 4.32E-01 1.10E+01 6.42E+OO pCi/kg 5F2 Cal Poly Farm(410298002) -VG Brdleaf 7-Nov-16 lodine-131 -1.04E+OO 9.96E+OO 6.03E+OO pCi/ka 5F2 Cal Poly Farm(412059001)-VG Brdleaf 5-Dec-16 lodine-131 -3.93E+OO 8.65E+OO 6.14E+OO pCi/kg 5F2 Cal Poly Farm(390114005) -VG Brdleaf 25-Jan-16 Potassium-40 4.38E+03 8.50E+01 4.50E+02 pCi/kg 5F2 Cal Poly Farm(391919001)-VG Brdleaf 22-Feb-16 Potassium-40 2.96E+03 1.38E+02 4.12E+02 pCi/kg 5F2 Cal Poly Farm(393318002)-VG Brdleaf 14-Mar-16 Potassium-40 2.41E+03 1.18E+02 3.05E+02 pCi/kg 5F2 Cal Poly Farm(395137001) -VG Brdleaf 11-Apr-16 Potassium-40 4.68E+03 9.68E+01 5.31E+02 pCi/kg 5F2 Cal Poly Farm(396603001) -VG Brdleaf 2-May-16 Potassium-40 2.69E+03 1.11E+02 3.24E+02 pCi/kg 5F2 Cal Poly Farm(399398001) -VG Brdleaf 13-Jun-16 Potassium-40 3.00E+03 1.68E+.02 4.22E+02 pCi/kg 5S2 Diablo Creek Weir -Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 BETA -8.83E-02 3.57E+OO 2.14E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 BETA 3.76E+OO 2.82E+OO 1.93E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 BETA 1.99E+OO 3.10E+OO 1.95E+OO pCi/L 5S2 Diab lo Creek Weir(395275001) -DW 12-Apr-16 BETA 1.50E+OO 3.11E+OO 1.92E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 BETA 2.36E+OO 2.27E+OO 1.51E+OO pCi/L 5S2 Diablo Creek Weir(399127001).-DW 7-Jun-16 BETA 1.01E+OO 3.09E+OO 1.90E+OO pCi/,k 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 BETA 2.31 E+OO 2.69E+OO 1.73E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aua-16 BETA 2.46E+OO 2.93E+OO 1.86E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 BETA 7.51E+OO 2.56E+OO 2.17E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 BETA 2.20E+OO 2.15E+OO 1.44E+OO pCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 BETA 2.10E+OO 3.02E+OO 1.91E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 BETA 2.67E+OO 1.67E+OO 1.25E+OO pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Barium-140 -4.44E-01 1.06E+01 7.37E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Barium-140 -2.90E+OO 9.69E+OO 6.22E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Barium-140 -2.35E+OO 8.72E+OO 5.32E+OO pCi/L 5S2 Diab lo Creek Weir(395275001) -DW | |||
* 12-Apr-16 Barium-140 3.58E-01 6.88E+OO 4.02E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Barium-140 -4.56E+OO 8.54E+OO 5.65E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Barium-140 -6.67E+OO 1.47E+01 9.61E+OO pCi/L 5S2 Diablo Creek Weir(402080001)-DW 19-Jul-16 Barium-140 _ 4.06E+OO . 1.52E+01 9.08E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Barium-140 -1.33E+OO 1.10E+01 6.51E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Barium-140 7.88E+OO 6.63E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Barium-140 -4.35E+OO 8.09E+OO 5.50E+OO pCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Barium-140 -1.85E+OO 7.65E+OO 4.80E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Barium-140 -4.34E+OO 8.46E+OO 5.55E+00 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Cesium-134 6.39E-01 3.06E+OO 2.02E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Cesium-134 4.37E-01 1.92E+OO 1.22E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Cesium-134 2.11E+OO 2.28E+OO 1.74E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Aor-16 Cesium-134 7.48E-01 1.92E+OO 1.16E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Cesium-134 1.09E+OO --1.97E+OO 1.21E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Cesium-134 -1.03E+OO 2.09E+OO 1.38E+OO pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Cesium-134 6.29E-01 2.08E+OO 1.38E+OO pCi/L \ Page 17 of 92 2016 DCPP REMP Analysis Results Appendix A 582 Diablo Creek Weir(403116001) -DW 2-Aug-16 Cesium-134 -6.55E-01 1.81E+OO 1.35E+OO pCi/L 582 Diablo Creek Weir(405375001) -DW 6-8ep-16 Cesium-134 3.58E-01 1.53E+OO 9.24E-01 pCi/L 582 Diablo Creek Weir(408514001) -DW 17-0ct-16 Cesium-134 -5.60E-01 1.34E+OO pCi/L 582 Diablo Creek Weir(410307001) -DW Cesium-134 -3.31 E-01 1.55E+OO 1.45E+OO oCi/L 582 Diablo Creek Weir(412191003) -DW 6-Dec-16 Cesium-134 -5.67E-01 1.37E+OO 1.01E+OO pCi/L 582 Diablo Creek Weir(389292002) -DW 12-Jan-16 Cesium-137 -1.63E-01 2.81E+OO 1.73E+OO pCi/L 582 Diablo Creek Weir(390519004) -DW 1-Feb-16 Cesium-137 3.21E-01 1.95E+OO 1.13E+OO pCi/L 582 Diablo Creek Weir(393029001) -DW 9-Mar-16 Cesium-137 -5.17E-01 2.06E+OO 1.40E+OO pCi/L 582 Diablo Creek Weir(395275001) -DW 12-Apr-16 Cesium-137 -1.67E+OO 2.04E+OO 2.08E+OO pCi/L 582 Diablo Creek Weir(396784001) -DW 3-May-16 Cesium-137 5.46E-01 1.81E+OO 1.07E+OO pCi/L 582 Diablo Creek Weir(399127001) -DW 7-Jun-16 Cesium-137 -4.61E.:01 2.06E+OO 1.30E+OO pCi/L 582 Diablo Creek Weir(402080001) -DW 19-Jul-16 Cesium-137 -2.35E-02 2.03E+OO 1.23E+OO pCi/L 582 Diablo Creek Weir(403116001) -DW 2-Aug-16 Cesium-137 4.35E-01 1.87E+OO 1.10E+OO pCi/L 582 Diablo Creek Weir(405375001) -DW 6-8eo-16 Cesium-137 3.87E-02 1.45E+OO 8.75E-01 pCi/L 582 Diablo Creek Weir(408514001) -DW 17-0ct-16 Cesium-137 6.53E-01 1.60E+OO 9.81 E-01 pCi/L 582 Diablo Creek Weir(410307001) -DW 8-Nov-16 Cesium-137 5.25E-01 1.46E+OO 8.78E-01 pCi/L 582 Diablo Creek Weir(412191003)-DW 6-Dec-16 Cesium-137 6.95E-01 1.54E+OO 9.25E-01 pCi/L 582 Diablo Creek Weir(389292002) -DW 12-Jan-16 Cobalt-58 9.95E-01 2.50E+OO 2.40E+OO pCi/L 582 Diablo Creek Weir(390519004) -DW 1-Feb-16 Cobalt-58 6.19E-01 1.95E+OO 1.15E+OO pCi/L 582 Diablo Creek Weir(393029001) -DW 9-Mar-16 Cobalt-58 4.80E-02 2.02E+OO 1.24E+OO pCi/L 582 Diablo Creek Weir(395275001) -DW 12-Apr-16 Cobalt-58 -4.35E-01 1.43E+OO , 9.15E-01 pCi/L 582 Diablo Creek Weir(396784001) -DW 3-Mav-16 Cobalt-58 -6.96E-01 1.73E+OO 1.16E+OO pCi/L 582 Diablo Creek Weir(399127001) -DW 7-Jun-16 Cobalt-58 -6.33E-02 2.07E+OO 1.23E+OO pCi/L 582 Diablo Creek Weir(402080001) -DW 19-Jul-16 Cobalt-58 -1.67E-01 2.07E+OO 1.41E+OO pCi/L 582 Diablo Creek Weir(403116001) -DW 2-Aug-16 Cobalt-58 -5.52E-01 1.64E+OO 1.45E+OO pCi/L 582 Diablo Creek Weir(405375001) -DW 6-8ep-16 Cobalt-58 -8.67E-01 1.19E+OO -9.07E-01 pCi/L 582 Diablo Creek Weir(408514001) -DW 17-0ct-16 Cobalt-58 -9.02E-01 1.29E+OO 9.04E-01 pCi/L 582 Diablo Creek Weir(410307001) -DW 8-Nov-16 Cobalt-58 1.16E+OO 1.65E+OO 1.06E+OO pCi/L 582 Diablo Creek Weir(412191003) -DW 6-Dec-16 Cobalt-58 1.03E-01 1.29E+OO 8.57E-01 pCi/L 582 Diablo Creek Weir(389292002) -DW 12-Jan-16 Cobalt-60 ' -2.21E-01 2.79E+OO 1.66E+OO pCi/L 582 Diablo Creek Weir(390519004) -DW 1-Feb-16 Cobalt-60 -5.12E-01 2.06E+oo 1.46E+OO pCi/L 582 Diablo Creek Weir(393029001) -DW 9-Mar-16 Cobalt-60 -2.42E-01 2.01E+OO 1.23E+OO pCi/L 582 Diablo Creek Weir(395275001) -DW 12-Apr-16 Cobalt-60 1.39E+OO 1.64E+OO 1.47E+OO pCi/L 582 Diab lo Creek Weir(396784001) -DW 3-May-16 Cobalt-60 1.11E+OO 1.93E+OO 1.16E+OO pCi/L 582 Diablo Creek Weir(399127001) -DW 7-Jun-16 Cobalt-60 -3.37E-01 2.08E+OO 1.27E+OO pCi/L 582 Diablo Creek Weir(402080001)-DW 19-Jul-16 Cobalt-60 -1.10E+OO 1.96E+OO 1.35E+OO pCi/L 582 Diablo Creek Weir(403116001)-DW 2-Aua-16 Cobalt-60 -5.78E-02 1.85E+OO 1.10E+OO oCi/L 582 Diablo Creek Weir(405375001)-DW 6-8ep-16 Cobalt-60 3.13E-01 1.58E+OO 9.23E-01 pCi/L 582 Diablo Creek Weir(408514001) -DW 17-0ct-16 Cobalt-60 3.06E-02 1.43E+OO 8.56E-01 pCi/L 582 Diablo .Creek Weir(410307001) -DW 8-Nov-16 Cobalt-60 -6.33E-02 1.44E+OO 8.68E-01 pCi/L 582 Diablo Creek Weir(412191003) -DW 6-Dec-16 Cobalt-60 2.92E-01 1.41E+OO 8.54E-01 pCi/L 582 Diablo Creek Weir(389292002) -DW 12-Jan-16 lodine-131 1.68E-01 5.12E-01 3.04E-01 oCi/L 582 Diablo Creek Weir(390519004) -DW 1-Feb-16 lodine-131 4.94E-02 7.71E-01 4.57E-01 pCi/L 582 Diablo Creek Weir(393029001) -DW 9-Mar-16 lodine-131 3.07E-01 6.12E-01 3.76E-01 pCi/L 582 Diablo Creek Weir(395275001) -DW -12-Apr-16 lodine-131 -3.61E-01 5.07E-01 3.51E-01 oCi/L Page 18 of 92 2016 DCPP REMP Analysis Results Appendix A 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 lodine-131 -1.26E-01 6.49E-01 4.55E-01 pCi/L 5S2 Diablo Creek Weir(399127001)-DW 7-Jun-16 lodine-131 6.55E-01 9.30E-01 4.90E-01 pCi/L 5S2 Diablo Creek Weir(402080001)-DW 19-Jul-16 lodine-131 1.28E-02 6.85E-01 4.01 E-01 pCi/L 5S2 Diablo Creek Weir(403116001 -DW 2-Auq-16 lodine-131 -2.15E-01 7.18E-01 4.43E-01 pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 lodine-131 -2.99E-02 4.78E-01 2.80E-01 pCi/L 5S2 Diablo Creek Weir(408514001)-DW 17-0ct-16 lodine-131 -8.31E-02 5.08E-01 3.02E-01 pCi/L 5S2 Diab lo Creek Weir(410307001 -DW 8-Nov-16 lodine-131 -5.01 E-01 5.77E-01 5.68E-01 pCi/L 5S2 Diablo Creek Weir(41-2191003) -DW 6-Dec-16 lodine-131 -1.94E-01 4.96E-01 3.20E-01 pCi/L 5S2 Diablo Creek Weir(389292002 -DW 12-Jan-16 lron-55 -1.14E+OO 6.39E+01 4.28E+01 pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 lron-55 -1.43E+01 4.89E+01 3.61 E+01 pCi/L 5S2 Diablo' Creek Weir(393029001) -DW 9-Mar-16 lron-55 2.00E+01 5.94E+01 4.50E+01 pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 lron-55 7.47E+OO 1.37E+02 1.01E+02 pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 lron-55 1.10E+01 6.55E+01 4.77E+01 pCi/L 5S2 Diablo Creek Weir(399127001 -DW 7-Jun-16 lron-55 6.95E+01 1.79E+02 1.25E+02 pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 lron-55 5.18E+01 7.02E+01 5.30E+01 pCi/L 5S2 Diablo Creek Weir(403116001) DW 2-Aug-16 lron-55 2.79E+01 6.94E+01 5.21E+01 pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 lron-55 8.45E+OO 8.31E+01 5.88E+01 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 lron-55 3.99E+01 8.46E+01 6.60E+01 pCi/L 5S2 Diablo Creek Weir(410307001 -DW 8-Nov-16 lron-55 -2.69E+01 8.85E+01 6.32E+01 pCi/L 5S2 Diablo Creek Weir(412191003)-DW 6-Dec-16 lron-55 1.72E+01 9.86E+01 7.49E+01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 lron-59 1.82E+OO 5.53E+OO 3.28E+OO pCi/L 5S2 Diablo Creek Weir(390519004 -DW 1-Feb-16 lron-59 1.48E+OO 4.02E+OO 2.41 E+OO oCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 lron-59 -4.50E-01 3.93E+OO 2.36E+OO pCi/L 5S2 Diablo Creek Weir(395275001 -DW 12-Aor-16 lron-59 1.80E+OO 3.28E+OO 2.00E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 lron-59 8.86E-01 3.55E+OO 2.34E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 lron-59 2.66E+OO 5.04E+OO 3.13E+OO pCi/L 5S2 Diablo Creek Weir(402080001 -DW 19-Jul-16 | |||
* lron-59 1.99E+OO 4.49E+OO 2.68E+OO oCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 lron-59 1.06E-01 3.73E+OO 2.51E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 lron-59 -9.41 E-01 2.73E+OO 2.29E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 lron-59 -1.83E+OO 2.70E+OO 1.93E+OO pCi/L 5S2 Diablo Creek Weir(410307001 -DW 8-Nov-16 lron-59 -1.29E-02 3.20E+OO 1.89E+OO pCi/L 5S2 Diablo Creek Weir(412191003 -DW 6-Dec-16 lron-59 1.86E-01 2.82E+OO 1.71E+OO pCi/L 5S2 Diablo Creek Weir(389292002 -DW 12-Jan-16 Lanthanum-140 1.44E-01 3.94E+OO 2.33E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Lanthanum-140 -1.30E+OO 3.38E+OO 2.82E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Lanthanum-140 7.69E-02 3.21E+OO 1.94E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Lanthanum-140 -3.73E-01 2.20E+OO 1.38E+OO pCi/L 5S2 Diablo Creek Weir(396784001 -DW 3-May-16 Lanthanum-140 -1.12E+OO 2.98E+OO 1.96E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Lanthanum-140 -6.68E-01 5.08E+OO 3.70E+OO pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Lanthanum-140 5.83E-01 4.99E+OO 2.96E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Lanthanum-140 -1.71E+OO 3.29E+OO 2.27E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Lanthanum-140 -1.23E+OO 2.57E+OO 1.79E+OO pCi/L 5S2 Diablo Creek Weir(408514001 -DW 17-0ct-16 Lanthanum-140 -5.31 E-01 2.56E+OO 1.89E+OO oCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Lanthanum-140 -1.03E+OO 2.15E+OO 1.52E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Lanthanum-140 -2.32E-01 2.61E+OO 1.55E+OO pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Manqanese-54 1.31E+OO 2.81E+OO 1.67E+OO oCi/L Page 19 of 92 2016 DCPP REMP Analysis Results Appendix A 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Manganese-54 -1.16E+OO 1.68E+OO 1.38E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Manganese-54 8.26E-01 2.02E+OO 1.22E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Manganese-54 -8.80E-02 1.60E+OO 9.70E-01 pCi/L 5S2 Diablo Creek Weir(396784001) -DW. 3-May-16 Manganese-54 -1.46E-01 1.75E+OO 1.23E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Manganese-54 -5.14E-01 1.88E+OO 1.17E+OO pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Manganese-54 7.36E-02 1.97E+OO 1.14E+OO pCi/L 5S2 Diablo Creek Weir(403116001)-DW 2-Aug-16 Manganese-54 -5.24E-01 1.71E+OO 1.09E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Manganese-54 2.07E-01 1.53E+OO 9.29E-01 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Manganese-54 1.88E-01 1.32E+OO 7.77E-01 pCi/L 5S2 Diablo Creek Weir(410307001)-DW 8-Nov-16 | |||
* Manganese-54 -4.46E-01 1.35E+OO 8.38E-01 pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Manganese-54 3.40E-01 1.35E+OO 8.00E-01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Nickel-63 -1.59E+01 3.05E+01 1.73E+01 pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Nickel-63 1.03E+01 2.72E+01 1.68E+01 pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Nickel-63 5.84E-01 2.92E+01 1.74E+01 pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Nickel-63 -8.35E+OO 3.58E+01 2.10E+01 pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Nickel-63 1.51E+01 3.72E+01 2.29E+01 pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Nickel-63 -5.38E+OO 3.68E+01 2.18E+01 pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Nickel-63 2.71E+01 1.55E-!:01 pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Nickel-63 8.90E+OO 2.66E+01 1.62E+01 pCi/L 5S2 Diablo Creek Weir(405375001)-DW 6-Sep-16 Nickel-63 3.81E+OO 2.60E+01 1.56E+01 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Nickel-63 -1.03E+01 3.43E+01 2.00E+01 pCi/L 5S2 Diablo Creek Weir(410307001)-DW 8-Nov-16 Nickel-63 -8.88E+OO 2.68E+01 1.57E+01 pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Nickel-63 1.73E+01 2.43E+01 1.53E+01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Niobium-95 1.20E+OO 2.82E+OO 1.86E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Niobium-95 9.65E-01 1.90E+OO 1.15E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Niobium-95 8.12E-01 1.85E+OO 1.52E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Niobium-95 8.69E-01 1.63E+OO 1.01E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Niobium-95 1.39E-01 1.82E+OO 1.11E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Niobium-95 8.66E-01 2.21E+OO 1.31 E+OO pCi/L 5S2*Diablo Creek Weir(402080001) -DW 19-Jul-16 Niobium-95 3.77E"'.01 2.23E+OO 1.34E+OO pCi/L 5S2 Diablo Creek Weir(40311600'.I) -DW 2-Aug-16 Niobium-95 9.36E-01 2.01E+OO 1.69E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Niobium-95 -7.86E-01 1.49E+OO 1.18E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Niobium-95 3.45E-01 1.54E+OO 9.37E-01 pCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Niobium-95 1.34E+OO 1.34E+OO 1.43E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Niobium-95 -2.93E-01 1.48E+OO 9.11 E-01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Total Strontium -1.06E-01 1.75E-01 9.86E"02 pCi/L* 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Total Strontium 1.17E-01 3.70E-01 2.26E-01 pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Total Strontium -7.38E-02 2.16E-01 1.26E-01 pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Total Strontium -1.83E-01 1.91 E-01 1.07E-01 pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Total Strontium -7.96E-02 1.83E-01 1.05E-01 pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Total Strontium 1.83E-02 3.68E-01 2.20E-01 pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Total Strontium 6.64E-02 2.59E-01 1.58E-01 pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Total Strontium -2.15E-01 2.12E-01 1.19E-01 pCi/L 5S2 Diablo Creek Weir(405375001)-DW 6-Sep-16 Total Strontium -3.39E-01 1.19E+OO 6.79E-01 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Total Strontium -6.02E-02 7.96E-01 4.68E-01 pCi/L Page 20 of92 2016 DCPP REMP Analysis Results Appendix A 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Total Strontium -3.66E-01 7.39E-01 4.10E-01 pCi/L 5S2 Diablo Creek Weir(412191003)-DW Total Strontium -5.15E-01 7.82E-01 4.07E-01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Tritium 4.20E+01 2.64E+02 1.59E+02 pCi/L 5S2 Diablo Creek Weir(390519004) -DW . 1-Feb-16 Tritium -8.67E+01 2.81E+o2* 1.63E+02 pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Tritium ..:5.14E+01' 2.41 E+02 1.41E+02 pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Tritium -2.53E+01 2.98E+02 1.76E+02 pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Tritium -9.75E+01 2.80E+02 | |||
* 1.62E+02 pCi/L -5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Tritium 6.25E+01 2.38E+02 1.45E+02 pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Tritium -3.88E+01 3.08E+02 1.81E+02 pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Tritium 5.09E+OO 2.69E+02 1.60E+02 pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Tritium -8.75E+01 2.65E+02 1.54E+02 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Tritium 1.71E+02 2.78E+02 1.76E+02 pCi/L 5S2 Diablo Creek Weir(410307001)-DW 8-Nov-16 . Tritium 1.68E+02 3.05E+02 . 1.92E+02 pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Tritium 9.28E+01 3.10E+02 1.90E+02 pCi/L 5S2 Diablo Creek Weir(389292002) DW 12-Jan-16 Zinc-65 -3.85E+OO 5.55E+OO 4.76E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Zinc-65 9.47E-01 3.96E+OO 2.36E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Zinc-65 -1.41 E+OO 4.31E+OO 3.44E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Zinc-65 2.26E+OO 3.24E+OO 2.24E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-Mav-16 Zinc-65 -2.78E-02 3.54E+OO 2.06E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Zinc-65 -1.61E+OO 3.81E+OO 2.57E+oo* pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Zinc-65 -1.05E+OO 3.97E+OO 2.47E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Zinc-65 -1.19E+OO 3.54E+OO 2.23E+OO pCi/L . 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Zinc-65 -1.83E+OO 2.68E+OO 1.94E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Zinc-65 6.09E-01 2.70E+OO 1.57E+OO pCi/L Diablo Creek Weir(410307001) -DW Zinc-65 -1.03E+OO 2.80E+OO 2.23E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Zinc-65 7.06E-01 2.50E+OO 1.65E+OO pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Zirconium-95 -2.20E+OO 4.30E+OO 2.87E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Zirconium-95 . 3.09E-02 2.93E+OO 1.72E+OO pCi/L | |||
* 5S2 Diab lo Creek Weir(393029001) -DW 9-Mar-16 Zirconium-95 4.30E-01 3.47E+OO 2.05E+OO pCi/L 5S2 Diab lo Creek Weir(395275001) -DW 12-Apr-16 Zirconium-95 -8.04E-01 2.52E+OO ' 1.61E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW ' 3-May-16 Zirconium-95 8.05E-03 3.28E+OO 2.26E+OO pCi/L 5S2 Diab lo Creek Weir(399127001) -DW 7-Jun-16 Zirconium-95 1.36E+OO 4.15E+OO 2.44E+OO pCi/L 5S2 Diablo. Creek Weir(402080001) -DW 19-Jul-16 Zirconium-95 -1.14E+OO 3.70E+OO 2.38E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Zirconium-95 9.04E-01 3.21E+OO 1.90E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Zirconium-95 -1.85E-01 2.52E+OO 1.55E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Zirconium-95 -9.71 E-01 2.71E+OO 1.79E+OO pCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Zirconium-95 -1.29E+OO 2.60E+OO 2.33E+OO 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Zirconium-95 -1.38E+OO 2.30E+OO 1.60E+OO pCi/L 5S2 Diablo Creek Weir-Drinking Water Replicate Sample Name . Date Collected | |||
* Nuclide Result MDC 2 Sigma TPU Units 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 BETA 3.12E+OO 3.03E+OO 1.97E+OO pCi/L 5S2 Diablo CreekWeir-R(412419001) -DW 6-Dec-,16 Barium-140 2.11E+OO 1.34E+o1 | |||
* 8.09E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16. Cesium-134 -6.52E-01 2.18E+OO 1.88E+OO | |||
* pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Cesium-137 -2.69E-01 1.73E+OO 1.03E+OO pCi/L Page 21 of 92 2016 DCPP REMP Analysis Results Appendix A 5S2 Diablo CreekWeir-R(412419001)-DW 6-Dec-16 Cobalt-58 3.16E-01 2.00E+OO 1.15E+OO pCi/L 5S2 Diab lo Creek Weir-R(412419001) -DW 6-Dec-16 Cobalt-60 -2.91E-01 2.08E+OO 1.40E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 lodine-131 -9.22E-02 8.45E-01 5.15E-01 ' pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 lron-55 9.79E+01 1.25E+02 9.76E+01 pCi/L 5S2 Diablo Creek Weir-R(412419001)-DW 6-Dec-16 lron-59 1.0?E+OO 4.24E+OO 2.47E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001)-DW 6-Dec-16 Lanthanum-140 -1.05E+OO 4.60E+OO 2.99E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001)-DW 6-Dec-16 Manganese-54 5.91E-01 1.91E+OO 1.11 E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Nickel-63 -8.97E+OO 2.53E+01 1.48E+01 pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Niobium-95 -2.18E-01 2.02E+OO 1.20E+OO. oCi/L. 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Total Strontium -1.83E-01 6.74E-01 3.83E-01 pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Tritium -9.66E+OO -2.73E+02 1.62E+02 pCi/L 5S2 Diablo Creek Weir-R(412419001) -OW 6-Dec-16 Zinc-65 -9.39E-01 3.88E+OO 2.44E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Zirconium-95 7.89E-01 3.91E+OO 2.25E+OO pCi/L 6C1 Household Garden -Vegetation Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 6C1 Household Garden(389804001) -VG Brdleaf 14-Jan-16 Beryllium-? 6.05E+02 5.37E+01 9.11E+01 pCi/kg 6C1 Household Garden(395137002) -VG Brdleaf 6-Apr-16 Beryllium-? 8.14E+02 7.87E+01 1.18E+02 -pCi/kg 6C1 Household Garden(389804001) -VG Brdleaf 14-Jan-16 Cesium-134 7.53E+OO 7.53E+OO 6.63E+OO pCi/kq 6C1 Household Garden(395137002)-VG Brdleaf 6-Apr-16 Cesium-134 3.69E+OO 1.12E+01 '6.72E+OO pCi/kg 6C1 Household Garden(402576003) -VG Brdleaf 25-Jul-16 Cesium-134 1.06E+OO 1.22E+01 7.0?E+OO pCi/kg 6C1 Household Garden(408794001) -VG Brdleaf 18-0ct-16 Cesium-134 2.45E-01 1.02E+01 6.24E+OO pCi/kg 6C1 _Household Garden(389804001) -VG Brdleaf 14-Jan-16 Cesium-137 4.55E-01 6.85E+OO 3.99E+OO pCi/kg 6C1 Household Garden(395137002) -VG Brdleaf 6-Apr-16 Cesium-137 5.06E+OO 1.05E+01 6.34E+OO pCi/kg 6C1 Household Garden(402576003) -VG Brdleaf 25-Jul-16 Cesium-137 3.31E+OO 1.15E+01 6.93E+OO pCi/kg 6C1 Household Garden(408794001) -VG Brdleaf 18-0ct-16 Cesium-137 5.03E+OO 1.05E+01 6.33E+OO pCi/kg 6C1 Household Garden(389804001) -VG Brdleaf 14-Jan-16 lodine-131 -5.0?E-01 1.26E+01 7.60E+OO oCi/kq 6C1 Household Garden(395137002) -VG Brdleaf 6-Apr-16 lodine-131 -2.0?E+OO 1.80E+01 1.10E+01 pCi/kg 6C1 Household Garden(402576003) -VG Brdleaf 25-Jul-16 -6.86E-01 3.30E+01 1.93E+01 ' pCi/kg 6C1 Household Garden(408794001) -VG Brdleaf 18-0ct-16 lodine-131 -3.12E+OO 1.68E+01 1.01 E+01 pCi/kg 6C1 Household Garden(389804001) -VG Brdleaf 14-Jan-16 Potassium-40 2.69E+03 6.28E+01 2.86E+02 pCi/kg 6C1 Household Garden(395137002) -VG Brdleaf 6-Apr-16 Potassium-40 4.55E+03 8.93E+01 --4.95E+02 pCi/kq 7C1 Pecha Creek Ruins -Vegetation Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 Beryllium-? 1.01E+03 1.38E+02 1.82E+02 pCi/kg 7C1 Pecha Creek Ruins(391919002) -VG Brdleaf 22-Feb-16 Beryllium-? 4.88E+02 9.80E+01 1.12E+02 oCi/kq 7C1 Pecha Creek Ruins(393318004) -VG Brdleaf 14-Mar-16 Beryllium-? 8.23E+02 7.79E+01 1.21 E+02 pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 Beryllium-? 3.91E+02 7.42E+01 9.53E+01 pCi/kg 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 Cesium-134 9.05E+OO -2.05E+01 1 :21-E+01 ' pCi/kg 7C1 Pecha Creek Ruins(391919002) -VG Brdleaf 22-Feb-16 Cesium-134 -4.17E-01 1.35E+01 8.14E+OO pCi/kg 7C1 Pecha Creek Ruins(393318004) -VG Brdleaf 14-Mar-16 Cesium-134 1.09E+OO 9.?0E+OO 6.60E+OO pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 _.Cesium-134 1.38E+OO 1.06E+01 6.30E+OO pCi/kg 7C1 Pecha Creek Ruins(396603002) -VG Brdleaf 2-May-16 Cesium-134 5.51E+OO 1.67E+01 1.04E+01 pCi/kg 7C1 Pecha Creek Ruins(399398002) -VG Brdleaf 13-Jun-16 Cesium-134 1.50E+OO 1.43E+01 9.79E+OO pCi/kg Page 22 of92 2016 DCPP REMP Analysis Results Appendix A 7C1 Pecha Creek Ruins(401965004) -VG Brdleaf 18-Jul-16 Cesium-134 -4.88E+OO 1.05E+01 1.03E+01 pCi/kg 7C1 Pecha Creek Ruins(403012004) -VG Brdleaf 1-Aug-16 Cesium-134 -1.36E+01 1.46E+01 . 1.22E+01 pCi/kg 7C1 Pecha Creek Ruins(406353002) -VG Brdleaf 19-Sep-16 Cesium-134 -9.55E+OO 1.14E+01 1.08E+01 pCi/kg 7C1 Pecha Creek Ruins(407878002) -VG Brdleaf 10-0ct-16 Cesium-134 1.86E+OO 8.29E+OO 5.52E+OO pCi/ka 7C1 Pecha Creek Ruins(410298004) -VG Brdleaf 7-Nov-16 Cesium-134 -1.36E+OO 1.02E+01 9.91E+OO pCi/kg 7C1 Pecha Creek Ruins(412059002) -VG Brdleaf 5-Dec-16 Cesium-134 -3.31 E+OO 1.06E+01 7.02E+OO pCi/kg 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 Cesium-137 -4.17E+OO 1.82E+01 1.31E+01 pCi/kg 7C1 Pecha Creek Ruins(391919002) -VG Brdleaf 22-Feb-16 Cesium-137 -1.23E+OO 1.14E+01 8.02E+OO pCi/kg 7C1 Pecha Creek Ruins(393318004) -VG Brdleaf 14-Mar-16 Cesium-137 -2.69E-01 9.77E+OO 5.80E+OO pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 Cesium-137 6.26E+OO 9.31E+OO 1.34E+01 pCi/kg 7C1 Pecha Creek Ruins(396603002) -VG Brdleaf 2-May-16 Cesium-137 -4.48E+OO 1.35E+01 8.70E+OO pCi/kg 7C1 Pecha Creek Ruins(399398002) -VG Brdleaf 13-Jun-16 Cesium-137 -3.28E+OO 1.16E+01 7.28E+OO pCi/kg 7C1 Pecha Creek Ruins(401965004) -VG Brdleaf 18-Jul-16 Cesium-137 3.27E+OO 1.00E+01 5.96E+OO pCi/kg 7C1 Pecha Creek Ruins(403012004) -VG Brdleaf 1-Aua-16 Cesium-137 4.27E-01 1.48E+01 9.80E+OO pCi/ka 7C1 Pecha Creek Ruins(406353002) -VG Brdleaf 19-Sep-16 Cesium-137 -5.20E-02 1.16E+01 7.01E+OO pCi/kg 7C1 Pecha Creek Ruins(407878002) -VG Brdleaf 10-0ct-16 Cesium-137 -1.66E+OO 8.35E+OO 5.27E+OO pCi/kg 7C1 Pecha Creek Ruins(410298004) -VG Brdleaf 7-Nov-16 Cesium-137 2.52E+OO 9.13E+OO 7.17E+OO pCi/kg 7C1 Pecha Creek Ruins(412059002) -VG Brdleaf 5-Dec-16 Cesium-137 2.35E+OO 9.04E+OO 7.74E+OO pCi/kg 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 lodine-131 -4.03E+OO 2.11E+01 1.28E+01 pCi/kg 7C1 Pecha Creek Ruins(391919002)-VG Brdleaf 22-Feb-16 lodine-131 1.84E+OO 1.30E+01 7.80E+OO pCi/kg 7C1 Pecha Creek Ruins(393318004)-VG Brdleaf 14-Mar-16 lodine-131 -2.21E+OO 1.16E+01 7.25E+OO pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 lodine-131 -1.30E-02 1.16E+01 7.02E+OO pCi/ka 7C 1 Pecha Creek Ruins(396603002) -VG Brdleaf 2-May-16 lodine-131 -6.04E+OO 1.84E+01 1.19E+01 pCi/kg 7C1 Pecha Creek Ruins(399398002) -VG Brdleaf 13-Jun-16 lodine-131 -2.65E+OO 1.43E+01 8.84E+OO pCi/ka 7C1 Pecha Creek Ruins(401965004) -VG Brdleaf 18-Jul-16 lodine-131 -3.14E+OO 1.30E+01 8.15E+OO pCi/kg 7C1 Pecha Creek Ruins(403012004) -VG Brdleaf 1-Aug-16 lodine-131 1.12E+OO 3.15E+01 1.84E+01 pCi/kg 7C1 Pecha Creek Ruins(406353002) -VG Brdleaf 19-Sep-16 lodine-131 -1.59E-01 1.29E+01 7.48E+OO pCi/kg 7C1 Pecha Creek Ruins(407878002) -VG Brdleaf 10-0ct-16 lodine-131 I 6.25E+OO 1.11E+01 6.80E+OO pCi/kg 781 Pecha Creek Ruins(410298004) -VG Brdleaf 7-Nov-16 lodine-131 -4.36E-01 1.13E+01 6.72E+OO pCi/kg 7C1 Pecha Creek Ruins(412059002) -VG Brdleaf 5-Dec-16 lodine-131 4.71E+OO 1.70E+01 9.91E+OO pCi/kg 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 Potassium-40 6.70E+03 1.63E+02 7.63E+02 pCi/kg 7C1 Pecha Creek Ruins(391919002) -VG Brdleaf 22-Feb-16 Potassium-40 6.08E+03 1.08E+02 6.40E+02 pCi/kg 7C1 Pecha Creek Ruins(393318004) -VG Brdleaf 14-Mar-16 Potassium-40 4.17E+03 9.33E+01 4.33E+02 pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 Potassium-40 5.96E+03 8.51E+01 5.93E+02 pCi/kg 7C1 Pecha Creek Ruins(396603002) -VG Brdleaf 2-May-.16 Potassium-40 4.75E+03 1.26E+02 5.50E+02 pCi/kg 7C1 Pecha Creek Ruins(399398002) -VG Brdleaf 13-Jun-16 Potassium-40 2.85E+03 1.17E+02 3.61E+02 pCi/kg 7C2 Rattlesnake Canyon -Aquatic Vegetation Algae Sample Name ' Date Collected Nuclide Result MDC 2 Sigma TPU Units ' 7C2 Rattlesnake Canvon(391919009) -AV Algae 17-Feb-16 Cesium-134 -3.67E-01 1.02E+01 7.10E+OO pCi/kg 7C2 Rattlesnake Canvon(395681002) -AV Algae 14-Apr-16 Cesium-134 4.04E-01 1.23E+01 7.33E+OO pCi/kg 7C2 Rattlesnake Canvon(402571002) -AV Alaae 25-Jul-16 Cesium-134 -4.16E-01 8.99E+OO 5.48E+OO pCi/ka 7C2 Rattlesnake Canyon(409724001)-AV Algae 27-0ct-16 Cesium-134 -6.11E+OO 8.83E+OO 6.49E+OO pCi/kg 7C2 Rattlesnake Canvon(391919009) -AV Algae 17-Feb-16 Cesium-137 -1.05E+OO 8.87E+OO 6.61E+OO pCi/kg 7C2 Rattlesnake Canvon(395681002) -AV Alaae 14-Apr-16 Cesium-137 6.45E+OO 1.20E+01 7.11E+OO pCi/ka Page 23 of92 L 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canvon(402571002) -AV Algae 25-Jul-16 Cesium-137 -3.79E+OO 9.78E+OO 6.95E+OO pCi/kg 7C2 Rattlesnake Canvon(409724001)-AVAlgae 27-0ct-16 Cesium-137 -2.12E+OO 8.56E+OO 5.65E+OO pCi/kg 7C2 Rattlesnake Canyon(391919009) Algae 17-Feb-16 Cobalt-58 -1.79E+OO 9.00E+OO 5.64E+OO pCi/kg 7C2 Rattlesnake Canyon(395681002) -AV Algae 14-Apr-16 Cobalt-58 -4.10E+OO 1.02E+01 6.87E+OO pCi/kg 7C2 Rattlesnake Canyon(402571002)-AV Algae 25-Jul-16 Cobalt-58 -3.74E+OO 8.40E+OO 5.75E+OO pCi/kg 7C2 Rattlesnake Canyon(409724001) -AV Algae 27-0ct-16 Cobalt-58 4.91E+OO 1.05E+01 6.00E+OO pCi/kg 7C2 Rattlesnake Canvon(391919009) -AV Algae 17-Feb-16 Cobalt-60 -6.14E+OO 7.85E+OO 6.25E+OO pCi/kg 7C2 Rattlesnake Canyon(395681002) -AV Algae 14-Apr-16 Cobalt-60 *. 7.76E+OO 1.52E+01 8.85E+OO pCi/kg 7C2 Rattlesnake Canyon(402571002) -AV Algae 25-Jul-16 Cobalt-60 -2.18E+OO 8.72E+OO 5.59E+OO pCi/kg 7C2 Rattlesnake Canyon(409724001) -AV Algae 27-0ct-16 Cobalt-60 2.42E+OO 1.09E+01 6.34E+OO pCi/kg 7C2 Rattlesnake Canyon(391919009) -AV Algae 17-Feb-16 Potassium-40 3.23E+03 6.93E+01 3.68E+02 pCi/kg 7C2 Rattlesnake Canyon(395681002) -AV Algae 14-Apr-16 Potassium-40 3.49E+03 9.31 E+01 4.15E+02 pCi/kg 7C2R I k c attesna e A . V anvon -,quat1c eQetat1on Kl e1p Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canvon(393320001) -AV Kelp 10-Mar-16 Cesium-134 -1.41E+OO 1.63E+01 9.74E+OO pCi/kg 7C2 Rattlesnake Canvon(395790002) -AV Kelp 18-Apr-16 Cesium-134 -7.82E+OO 1.54E+01 1.06E+01 pCi/kg 7C2 Rattlesnake Canyon(401652001)-AV Kelp 11-Jul-16 Cesium-134 -5.93E-01 1.07E+01 6.60E+OO pCi/kg 7C2 Rattlesnake Canyon(408321001) -AV Kelp 11-0ct-16 Cesium-134 1.39E-01 8.98E+OO 5.54E+OO pCi/kg 7C2 Rattlesnake Canyon(393320001) -AV Kelp 10-Mar-16 Cesium-137 5.64E+OO 1.47E+01 8.58E+OO pCi/kg 7C2 Rattlesnake Canyon(395790002) -AV Kelp 18-Apr-16 Cesium-137 5.48E+OO 1.50E+01 8.81 E+OO pCi/kg 7C2 Rattlesnake Canyon(401652Q01) -AV Kelp 11-Jul-16 Cesium-137 1.20E+OO 9.16E+OO 5.36E+OO pCi/kQ 7C2 Rattlesnake Canyon(408321001) -AV Kelp 11-0ct-16 Cesium-137 -3.18E-01 8.03E+OO 4.92E+OO pCi/kg 7C2 Rattlesnake Canyon(393320001) -AV Kelp 10-Mar-16 Cobalt-58 2.49E+OO 1.35E+01 7.84E+OO pCi/kQ 7C2 Rattlesnake Canyon(395790002) -AV Kelp 18-Apr-16 Cobalt-58 -1.11E+OO 1.53E+01 9.32E+OO pCi/kg 7C2 Rattlesnake Canvon(401652001) -AV Kelp 11-Jul-16 Cobalt-58 -4.06E-01 1.02E+01 6.04E+OO pCi/kg 7C2 Rattlesnake Canvon(408321001)-AV Keio 11-0ct-16 Cobalt-58 -3.24E+OO 9.13E+OO 6.81 E+OO pCi/kg 7C2 Rattlesnake Canyon(393320001) -AV Kelp 10-Mar-16 Cobalt-60 2.92E-01 1.80E+01 1.05E+01 pCi/kgJ 7C2 Rattlesnake Canyon(395790002) -AV Kelp 18-Apr-16 Cobalt-60 -1.10E+OO 1.54E+01 9.26E+OO pCi/kg 7C2 Rattlesnake Canyon(401652001) -AV Kelp 11-Jul-16 Cobalt-60 -2.43E+OO 1.06E+01 6.58E+OO pCi/kg 7C2 Rattlesnake Canyon(408321001) -AV Kelp 11-0ct-16 Cobalt-60 4.23E+OO 1.08E+01 6.34E+OO _pCi/kg 7C2 Rattlesnake Canvon(393320001) -AV Kelp 10-Mar-16 Potassium-40 1.54E+04 1.17E+02 1.43E+03 pCi/kg 7C2 Rattlesnake Canyon(395790002) -AV Kelp 18-Apr-16 Potassium-40 1.22E+04 1.14E+02 1.17E+03 pCi/kg 7C2 Rattlesnake Canyon -Fish Perch Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Cesium-134 -3.28E+OO 6.42E+OO 6.17E+OO | |||
* pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Cesium-134 2.26E+OO 6.41E+OO 3.77E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 Cesium-134 -2.23E-01 4.90E+OO 2.85E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Cesium-134 9.92E-01 4.34E+OO 2.59E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Cesium-137 5.70E+OO 6.21E+OO 6.12E+OO pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Cesium-137 3:03E+OO 5.52E+OO 5.54E+OO pCi/kQ 7C2 Rattlesnake Canvon(404224003) -FH Perch 11-Aug-16 Cesium-137 2.34E+OO 4.85E+OO 2.97E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Cesium-137 3.57E+OO 3.57E+OO 5.70E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch ._ 23-Feb-16 Cobalt-58 -2.42E-01 5.57E+OO 3.61E+OO pCi/kg Page 24 of92 L 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Cobalt-58 -4.77E-01 5.82E+OO 3.43E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 Cobalt-58 -7.69E-01 4.67E+OO 2.78E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Cobalt-58 -7.18E-02 3.91E+OO 2.39E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 . Cobalt-60 -5.42E-01 7.42E+OO 5.38E+OO pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Cobalt-60 -3.24E+OO 5.75E+OO 4.64E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 Cobalt-60 8.85E-01 4.98E+OO 2.95E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Cobalt-60 8.18E-01 4.24E+OO 2.44E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 lron-59 7.93E+OO 1.44E+01 1.04E+01 pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 lron-59 4.31E+OO 1.38E+01 8.20E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 lron-59 -1.82E+01 1.17E+01 1.21E+01 pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 lron-59 2.85E+OO 1.06E+01 6.09E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Manganese-54 -2.95E-01 5.94E+OO 3.63E+OO pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Manganese-54 -4.15E-01 5.51E+OO 3.25E+OO pCi/kg 7C2 Rattlesnake Canvon(404224003) -FH Perch 11-Auq-16 Manqanese-54 1.93E-02 4.84E+OO 3.82E+OO pCi/kq 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Manganese-54 2.03E+OO 4.28E+OO 2.62E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Potassium-40 3.38E+03 5.06E+01 3.46E+02 pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Potassium-40 3.59E+03 4.52E+01 3.37E+02 pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Zinc-65 -5.68E+OO 1.46E+01 9.37E+OO pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Zinc-65 -3.30E+OO 1.22E+01 7.64E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 Zinc-65 1.37E+OO 1.20E+01 7.07E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Zinc-65 7.64E+OO 9.52E+OO 8.88E+OO pCi/kg 7C2 Rattlesnake Canyon -Rockfish Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units 7C2 Rattlesnake Canvon(392102001)-FH Rockfsh 23-Feb-16 Cesium-134 4.30E+OO 1.80E+01 1.04E+01 pCi/kg 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 10-May-16 Cesium-134 -3.80E-02 4.78E+OO 3.08E+OO pCi/kg 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 Cesium-134 8.26E-01 5.22E+OO 3.17E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001)-FH Rockfsh 7-0ct-16 Cesium-134 1.79E+OO 5.45E+OO 3.25E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 Cesium-137 1.01 E+01 1.55E+01 1.40E+01 pCi/kg 7C2 Rattlesnake Canvon(397703003) -FH Rockfsh 10-May-16 Cesium-137 3.58E+OO 5.21E+OO 3.36E+OO pCi/kg 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 Cesium-137 4.38E+OO 4.38E+OO 4.77E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 Cesium-137 4.31E+OO 5.24E+OO 3.66E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 Cobalt-58 -6.29E+OO 1.62E+01 1.02E+01 pCi/kg 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 1 O-May-16 Cobalt-58 -1.05E+OO 4.32E+OO 4.60E+OO pCi/kg 7C2 Rattlesnake Canvon(404224007) -FH Rockfsh 11-Aug-16 Cobalt-58 -1.86E-01 5.39E+OO 3.34E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 Cobalt-58 2.23E+OO 5.62E+OO 3.37E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001)-FH Rockfsh 23-Feb-16 Cobalt-60 -8.00E-01 1.38E+01 8.43E+OO pCi/kg 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 10-May-16 Cobalt-60 6.19E-01 5.64E+OO 3.26E+OO pCi/kg 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 Cobalt-60 4.33E-03 5.22E+OO 3.12E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 Cobalt-60 -1.05E+OO 5.12E+OO 3.12E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 lron-59 7.03E+OO 3.27E+01 1.92E+01 pCi/kg 7C2 Rattlesnake Canvon(397703003) -FH Rockfsh 10-May-16 lron-59 -4.99E+OO 1.13E+01 7.59E+OO pCi/kq 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 lron-59 7.14E+OO 1.61 E+01 9.63E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 lron-59 1.22E+OO 1.47E+01 9.00E+OO pCi/kg 7C2 Rattlesnake Canvon(392102001) -FH Rockfsh 23-Feb-16 Manganese-54 -2.62E-01 1.71E+01 1.00E+01 pCi/kq Page 25 of92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 10-May-16 Manganese-54 -4.14E-01 4.71E+OO 3.42E+OO pCi/kg 7C2 Rattlesnake Canvon(404224007) -FH Rockfsh 11-Aug-16 Manganese-54 -2.48E+OO 4.36E+OO 3.15E+OO pCi/kg 7C2 Rattlesnake Canvon(408192001) -FH Rockfsh 7-0ct-16 Manganese-54 3.07E+OO 5.43E+OO 3.35E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 Potassium-40 3.46E+03 1.28E+02 4.07E+02 pCi/kg 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 10-May-16 Potassium-40 3.57E+03 4.20E+01 3.44E+02 pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 Zinc-65 3.95E+OO 3.20E+01 1.88E+01 pCi/kg 7C2 Rattlesnake Canvon(397703003) -FH Rockfsh 10-May-16 Zinc-65 7.70E-01 1.18E+01 8.16E+OO pCi/kg 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 Zinc-65 1.74E+OO 1.27E+01 7.37E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 Zinc-65 -7.43E+OO 1.20E+01 1.09E+01 oCi/ka 7C2 Rattlesnake Canyon -Intertidal Mussel Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canvon(391919008) -IM 17-Feb-16 Cesium-134 -1.56E+OO 5.21E+OO 3.21E+OO pCi/kg 7C2 Rattlesnake Canvon(395681001) -IM 14-Apr-16 Cesium-134 1.34E-01 4.51E+OO 2.70E+OO oCi/kQ 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-16 Cesium-134 -1.51E+OO 4.65E+OO 3.01E+OO pCi/kg 7C2 Rattlesnake Canvon(409724002) -IM 27-0ct-16 Cesium-134 -4.78E-01 5.01E+OO 4.57E+OO pCi/kg 7C2 Rattlesnake Canvon(391919008) -IM 17-Feb-16 Cesium-137 2.68E+OO 5.16E+OO 4.65E+OO pCi/kg 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Cesium-137 2.10E+OO 4.41E+OO 2.67E+OO pCi/kg 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-16 Cesium-137 1.04E+OO 4.87E+OO 2.85E+OO pCi/ka 7C2 Rattlesnake Canyon(409724002) -IM 27-0ct-16 Cesium-137 4.25E+OO 4.25E+OO 4.93E+OO pCi/kg 7C2 Rattlesnake Canyon(391919008)-IM 17-Feb-16 Cobalt-58 -3.49E-01 5.11E+OO 3.01E+OO pCi/kg 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Cobalt-58 7.02E-01 4.18E+OO 2.49E+OO pCi/kg 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-16 Cobalt-58 4.57E-01 5.18E+OO 3.55E+OO pCi/kg 7C2 Rattlesnake Canvon(409724002) -IM 27-0ct-16 Cobalt-58 1.93E-01 4.65E+OO 2.70E+OO pCi/kQ 7C2 Rattlesnake Canvon(391919008) -IM 17-Feb-16 Cobalt-60 -7.51 E-01 4.84E+OO 3.01E+OO pCi/kg 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Cobalt-60 4.97E+OO 4.97E+OO 4.54E+OO pCi/kg 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-16 Cobalt-60 2.73E-01 5.62E+OO 3.33E+OO pCi/ka 7C2 Rattlesnake Canyon(409724002) -IM 27-0ct"16 Cobalt-60 1.08E+OO 4.65E+OO 2.74E+OO pCi/kg 7C2 Rattlesnake Canyon(391919008) -IM 17-Feb-16 lron-59 -1.62E-01 1.02E+01 6.08E+OO pCi/kg 7C2 Rattlesnake Canvon(395681001) -IM 14-Apr-16 lron-59 3.67E+OO 9.99E+OO 5.92E+OO pCi/kg 7C2 Rattlesnake Canvon(402571001) -IM 25-Jul-16 lron-59 3.74E+OO 1.26E+01 8.38E+OO pCi/kg 7C2 Rattlesnake Canvon(409724002) -IM 27-0ct-16 lron-59 -7.27E-02 9.31E+OO 5.55E+OO pCi/ka 7C2 Rattlesnake Canyon(391919008) -IM 17-Feb-16 Manganese-54 2.88E-01 4.92E+OO 2.86E+OO pCi/kg 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Manganese-54 -3.75E+OO 3.86E+OO 3.11E+OO pCi/kg 7C2 Rattlesnake Canvon(402571001) -IM 25-Jul-16 Manganese-54 -1.78E+OO 4.50E+OO 2.98E+OO pCi/kg 7C2 Rattlesnake Canyon(409724002) -IM 27-0ct-16 Manganese-54 1.18E+OO 4.70E+OO 2.72E+OO pCi/kg 7C2 Rattlesnake Canyon(391919008) -IM 17-Feb-16 Potassium-40 1.31E+03 4.43E+01 1.48E+02 pCi/ka 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Potassium-40 1.51E+03 3.77E+01 1.71E+02 pCi/kg 7C2 Rattlesnake Canyon(391919008) -IM 17-Feb-16 Zinc-65 -2.18E-01 9.51E+OO 6.62E+OO pCi/kg 7C2 Rattlesnake Canvon(395681001) -IM 14-Apr-16 Zinc-65 2.14E+OO 9.53E+OO 6.38E+OO pCi/kg 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-1.6 Zinc-65 1.59E+OO 1.21E+01 7.02E+OO pCi/kg 7C2 Rattlesnake Canvon(409724002) -IM 27-0ct-16 Zinc-65 1.30E-01 9.28E+OO 5.52E+OO pCi/kg Page 26 of 92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon -Ocean Sediment Sample Name Date Collected Nuclide-. Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Actinium-228 5.86E+02 1.23E+02 2.17E+02 pCi/kg 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Barium-140 4.44E+01 2.94E+02 1.68E+02 oCi/kq 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Bismuth-214 5.43E+02 1.05E+02 1.48E+02 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Cesium-134 -1.75E+01 5.70E+01 3.65E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Cesium-137 3.33E+01 . 5.92E+01 3.31E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Cobalt-58 -1.02E+01 5.54E+01 3.40E+01 pCi/kg 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Cobalt-60 2.82E+OO 5.77E+01 3.33E+01 pCi/kq 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 lron-55 -3.09E+03 9.66E+03 6.95E+03 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 lron-59 2.27E+01 1.34E+02 7.45E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Lanthanum-140 -3.64E+01 7.09E+01 5.80E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Lead-212 5.16E+02 6.89E+01 1.08E+02 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Lead-214 7.03E+02 7.75E+01 1.48E+02 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Manganese-54 5.61E+OO 5.06E+01 2.88E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Nickel-63 -1.34E+03 2.42E+03 1.41E+03 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Niobium-95 1.52E+01 6.33E+01 3.53E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Potassium-40 1.06E+04 4.34E+02 1.63E+03 pCi/kg 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Thallium-208 2.15E+02 4.84E+01 6.46E+01 oCi/kq 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Total Strontium -1.52E+02 1.31E+03 7.48E+02 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Zinc-65 2.02E+01 1.19E+02 7.51 E+01 pCi/kg 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Zirconium-95 2.91E+01 9.34E+01 5.11E+01 pCi/kq 7C2 R ttl k c a esna e anyon -s eawa er Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 BETA 3.39E+02 2.02E+02 1.41 E+02 pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 BETA 2.05E+02 2.20E+02. 1.43E+02 pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 BETA 2.83E+02 1.43E+02 1.07E+02 pCi/L 7C2 Rattlesnake Canyon(395898001 )-SW 18-Apr-16 BETA 2.05E+02 1.00E+02 7.82E+01 pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 BETA 6.35E+02 -1.34E+02 1.45E+02 pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 *BETA 3.30E+02 1.42E+02 1.11E+02 pCi/L 7C2 Rattlesnake Canvon(401793003) -SW 11-Jul-16 BETA 2.91E+02 1.31E+02 1.00E+02 oCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 BETA 2.44E+02 1.29E+02 . 9.37E+01 pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 BETA 1.62E+02 8.41E+01 6.35E+01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 BETA 4.98E+02 1.53E+02 | |||
* 1.34E+02 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 BETA 2.06E+02 1.25E+02 8.80E+01 pCi/L 7C2 Rattlesnake Canvon(412549002) -SW 7-Dec-16 BETA* 2.47E+02 9.86E+01 8.04E+01 oCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Barium-140 .1.70E+OO 1.16E+01 6.80E+OO pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 Barium-140 4.50E+OO 1.59E+01 9.24E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Barium-140 -1.12E+OO 1.08E+01 6.52E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Barium-140 8.85E-01 1.15E+01 6.79E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-Mav-16 Barium-140 -7.52E-01 9.94E+OO 5.86E+OO pCi/L | |||
* 7C2 Rattlesnake Canyon(39913000.1) -SW 6-Jun-16 Barium-140 3.57E+OO 1.10E+01 6.74E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Barium-140 5.94E-01 1.15E+01 7.03E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Auci-16 Barium-140 1.44E-01 1.21E+01 7.17E+OO oCi/L Page 27 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Barium,,_140 -2.04E+OO 7.23E+OO 5.17E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Barium-140 -6.39E-01 8.66E+OO 5.10E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Barium-140 5.19E+OO 1.12E+01 6.74E+OO pCi/L 7C2 Rattlesnake Canvon(412549002) -SW 7-Dec-16 Barium-140 1.55E+OO 9.43E+OO 5.58E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Cesium-134 4.51E-01 2.36E+OO 1.42E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW \__ 8-Feb-16 Cesium-134 -8.95E-03 2.32E+OO 1.37E+OO pCi/L 7C2 Rattlesnake Canyon(393316002)-SW 10-Mar-16 Cesium-134 1 .. 50E+OO 2.43E+OO 1.73E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Cesium-134 8.65E-03 2.26E+OO 1.32E+OO pCi/L 7C2 Rattlesnake Canvon(397479003) -SW 10-Mav-16 Cesium-134 -3.77E-01 1.83E+OO 1.13E+OO pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Cesium-134 1.68E-01 1.84E+OO 1.09E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Cesium-134 9.66E-01 2.05E+OO 1.25E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Cesium-134 2.45E+OO 2.14E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Cesium-134 -4.71E-01 1.42E+OO 9.48E-01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Cesium-134 -2.07E-01 1.38E+OO 8.45E-01 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Cesium-134 2.44E-01 2.00E+OO 1.20E+OO pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Cesium-134 -1.49E-01 1.77E+OO 1.04E+OO pCi/L 7C2 Rattlesnake Canvon(390114002) -SW 21-Jan-16 Cesium-137 -6.07E-01 ' 2.37E+OO 1.84E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Cesium-137 -1.26E+OO 1.98E+OO 1.37E+OO pCi/L 7C2 Rattlesnake Canvon(393316002) -SW 10-Mar-16 Cesium-137 -1.07E-01 2.13E+OO 1.29E+OO pCi/L 7C2 Rattlesnake Canvon(395898001) -SW 18-Apr-16 Cesium-137 4.05E-01 2.07E+OO 1.67E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Cesium-137 1.16E-01 1.81E+OO 1.07E+OO pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Cesium-137 8.86E-02 1.71E+OO 1.00E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Cesium-137 -1.02E-01 1.76E+OO 1.20E+OO pCi/L 7.C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Cesium-137 -6.56E-02 2.25E+OO 1.36E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Cesium-137 8.35E-01 1.51E+OO 2.14E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 cesium-137 -2.03E-01 1.56E+OO 9,37E-01 I pCi/L 7C2 Rattlesnake Canvon( 411426002) -SW 22-Nov-16 * 'Cesium-137 -1.48E-01 1.89E+OO 1.30E+OO pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Cesium-137 6.23E-01 1.77E+OO 1.07E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Cobalt-58 -1.40E-01 2.23E+OO 1.58E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -*sw 8-Feb-16 Cobalt-58 -2.90E+OO 2.25E+OO 3.97E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Cobalt-58 -5.17E-02 2.02E+OO 1.24E+OO pCi/L 7C2 Rattlesnake Canvon(395898001) -SW 18-Apr-16 Cobalt-58 -3.65E-01 2.00E+OO 1.20E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW i 10-May-16 Cobalt-58 -3.85E-01 , 1.73E+OO 1.08E+OO pCi/L 7C2 Rattlesnake Canyon(399130001)-SW 6-Jun-16 Cobalt-58 7.18E-01 1.93E+OO 1.16E+OO pCi/L 7C2 Rattlesnake Canyon(401793003)-SW 11-Jul-16 Cobalt-58 -2.01 E-01 1.82E+OO 1.10E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Cobalt-58 1.67E-01 ** 2.05E+OO 1.53E+OO pCi/L 7C2 Rattlesnake Canvon(406175002) -SW 12-Sep-16 Cobalt-58 -4.09E-01 1.37E+OO 9.58E-01 pCi/L 7C2 Rattlesnake Canvon(408409001) -SW 11-0ct-16 Cobalt-58 3.41E-02 1.41E+OO 8.42E-01 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Cobalt-58 -2.52E-01 1.93E+OO 1.21E+OO pCi/L' 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Cobalt-58 1.98E-01 1.70E+OO 9.71E-01 pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Cobalt-60 5.24E-02 2.36E+OO 1.42E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Cobalt-60 -3.47E-01 2.38E+OO 1.42E+OO oCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Cobalt-60 8.59E-01 2.19E+OO 1.30E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 | |||
* Cobalt-60 -2.77E-01 2.24E+OO . 1.39E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-Mav-16 Cobalt-60 -8.07E-02 1.72E+OO 1.03E+OO pCi/L Page 28 of 92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 Cobalt-60 1.37E-01 1.82E+OO 1.08E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Cobalt-60 -3.91E-01 1.80E+OO 1.12E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Cobalt-60 1.86E-01 2.26E+OO 1.36E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Cobalt-60 -1.08E+OO 1.44E+OO 1.45E+OO oCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Cobalt-60 -1.24E+OO 1.48E+OO 1.54E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Cobalt-60 -8.53E-01 1.70E+OO 1.16E+OO pCi/L 7C2 Rattlesnake Canvon(412549002)-SW 7-Dec-16 Cobalt-60 5.29E-01 1.85E+OO 1.10E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 lodine-131 -3.68E-01 4.21E+OO 2.96E+OO pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 lodine-131 -5.99E+OO 6.74E+OO 5.14E+OO oCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 lodine-131 -7.28E-01 3.81 E+OO 2.31E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 lodine-131 -3.50E+OO 3.99E+OO 3.06E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 lodine-131 8.23E-01 3.75E+OO 2.26E+OO pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 lodine-131 3.25E+OO 4.53E+OO | |||
* 2.97E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 lodine-131 1..09E+OO 4.71E+OO 2.81E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW -15-Aug-16 lodine-131 2.10E-01 4.58E+OO 2.79E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW / 12-Sep-16 lodine-131 2.45E-01 2.75E+OO 1.62E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW | |||
* 11-0ct-16 lodine-131 -1.02E+OO 3.43E+OO 2.06E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 lodine-131 3.21E-01 3.88E+OO 2.25E+OO pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 lodine-131 -2.66E-01 3.42E+OO 1.99E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 lron-55 -2.63E+OO 4.31E+01 2.87E+01 pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 lron-55 -1.20E+01 5.65E+01 4.06E+01 pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 lron-55 3.54E+01 5.80E+01 4.44E+01 oCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 lron-55 -9.87E+01 1.22E+02 8.37E+01 pCifL 7C2 Rattlesnake Canyon(397 479003) -SW 10-May-16 lron-55 -1.70E+01 1.08E+02 7.36E+01 pCi/L 7C2 Rattlesnake Canyon(399130001) -SW _6-Jun-16 lron-55 2.31E+01 1.48E+02 1.03E+02 pCi/L 7C2 Rattlesnake Canvon(401793003) -SW 11-Jul-16 lron-55 2.31 E+01 7.93E+01 5.48E+01 pCi/L 7C2 Rattlesnake Canvon(404222003) -SW 15-Auo-16 lron-55 3.80E+OO 1.04E+02 7.15E+01 pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 lron-55 3.49E+01 1.09E+02 8.06E+01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 lron-55 -5.53E+01 *8.73E+01 6.42E+01 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 lron-55 4.75E+01 1.19E+02 8.88E+01 pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7"-Dec-16' lron-55 5.23E+01 9.40E+01 7.33E+01 pCi/L 7C2 Rattlesnake Canvon(390114002) -SW 21-Jan-16 lron-59 3.27E+OO 5.06E+OO 3.21E+OO .. pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 lron-59 3.08E+OO 5.38E+OO 5.22E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -.SW 10-Mar-16 lron-59 -8.89E-01 4.44E+OO 2.71E+OO pCi/L 7C2 Rattlesnake Canvon(395898001) -SW 18-Apr-16 lron-59 1.15E+OO 4.63E+OO 2.74E+OO pCi/L 7C2 Rattlesnake Canvon(397479003) -SW 10-May-16 lron-59 7.65E-01 3.75E+OO 2.20E+OO pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 lrori-59 6.42E-01 4.29E+OO 2.49E+OO* pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 lron-59 1.1'2E+OO 4.13E+OO 2.40E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 lron-59 1.19E+OO 4.78E+OO 2.82E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 lron-59 -5.87E-01 2.98E+OO 1.83E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 lron-59 5.11 E-02 2.97E+OO 1.81E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 lron-59 -1.43E-01 3.52E+OO 2.34E+OO pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 lron-59 -1.62E+OO 3.15Et00 2.16E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Lanthanum-140 -5.95E-01 3.72E+OO 2.54E+OO pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 Lanthanum-140 -1.14E+OO 5.08E+OO 3.69E+OO oCi/L Page 29 of92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Lanthanum-140 5.78E-01 3.47E+OO 2.05E+OO *-pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Lanthanum-140 -3.19E-01 3.77E+OO 2.27E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Lanthanum-140 -4.45E-01 2.92E+OO 2.06E+OO pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Juri-16 Lanthanum-140 4.49E-01 3.42E+OO 2.03E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Lanthanum-140 4.41 E-01 3.84E+OO 2.29E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Lanthanum-140 -6.05E-01 3.85E+OO 2.36E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Lanthanum-140 -1.02E+OO 2.09E+OO 1.47E+OO pCi/L 7C2 Rattlesnake Canvon(408409001) -SW 11-0ct-16 Lanthanum-140 -7.19E-01 2.17E+OO 1.39E+OO pCi/L 7C2 Rattlesnake Canvon(411426002)-SW 22-Nov-16 Lanthanum-140 -5.61E-02 3.62E+OO 2.17E+OO pCi/L 7C2 Rattlesnake Canvon(412549002)-SW 7-Dec-16 Lanthanum-140 -6.43E-01 2.98E+OO 1.84E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Manganese-54 -6.70E-04 2.12E+OO 1.29E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Manganese-54 4.44E-01 2.22E+OO 1.31E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Manganese-54 2.57E-01 2.15E+OO 1.25E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Manganese-54 -5.68E-01 2.14E+OO 1.31E+OO oCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Manganese-54 -5.56E-02 1.70E+OO 1.03E+OO pCi/L 7C2 Rattlesnake Canyon(399130001)-SW 6-Jun-16 Manganese-54 1.32E-01 1.76E+OO 1.05E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Manganese-54 -2.86E-01 1.70E+OO 1.04E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Manganese-54 -1.39E+OO 2.03E+OO 1.73E+OO pCi/L 7C2 Rattlesnake Canvon(406175002) -SW 12-Sep-16 Manoanese-54 7.01E-01 1.44E+OO 8.48E-01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Manganese-54 -2.45E-01 1.36E+OO 8.42E-01 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Manganese-54 -4.18E-01 1.70E+OO 1.10E+OO pCi/L 7C2 Rattlesnake Canvon(412549002) -SW 7-Dec-16 Manoanese-54 3.30E-01 1.72E+OO 9.86E-01 pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Nickel-63 -1.64E+01 3.43E+01 1.98E+01 pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Nickel-63 -2.80E+OO 2.92E+01 1.73E+01 oCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Nickel-63 1.78E+OO 2.55E+01 1.53E+01 pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Nickel-63 3.25E-01 3.14E+01 1.87E+01 pCi/L 7C2 Rattlesnake Canvon(397479003) -SW 10-Mav-16 Nickel-63 9.78E+OO 3.13E+01 1.91E+01 pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 Nickel-63 -1.90E+OO 2.89E+01 1.72E+01 pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Nickel-63 6.33E+OO 3.90E+01 2.36E+01 pCi/L 7C2 Rattlesnake Canyon(404222003) -SW Nickel-63 8.34E+OO 1.56E+01 9.71E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Nickel-63 6.73E+OO 3.03E+01 1.83E+01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Nickel-63 1.17E+OO 2.73E+01 1.63E+01 pCi/L 7C2 Rattlesnake Canvon(411426002) -SW 22-Nov-16 Nickel-63 -1.68E+01 3.99E+01 2.33E+01 pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Nickel-63 -1.69E-01 2.13E+01 1.27E+01 pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Niobium-95 5.17E-01 2.23E+OO 2.29E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Niobium-95 -3.94E-01 2.52E+OO 2.42E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Niobium-95 8.12E-01 2.24E+OO 1.36E+OO pCi/L 7C2 Rattlesnake Canvon(395898001) -SW 18-Apr-16 Niobium-95 4.60E-01 2.31E+OO 1.64E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Niobium-95 8.68E-01 1.82E+OO 1.26E+OO pCi/L | |||
* 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Niobium-95 1.14E-01 1.84E+OO 1.09E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW , 11-Jul-16 Niobium-95 7.61E-01 1.91E+OO 1.14E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW Niobium-95 5.75E-02 2.17E+OO 1.57E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Niobium-95 6.82E-01 1.61E+OO 9.42E-01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Niobium-95 2.12E-01 1.60E+OO 9.47E-01 pCi/L 7C2 Rattlesnake Canvon( 411426002) -SW 22-Nov-16 Niobium-95 -1.51 E-01 2.07E+OO 1.27E+OO pCi/L Page 30 of92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Niobium-95 2.83E-01 1.79E+OO 1.09E+OO pCi/l.:. 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Potassium-40 3.28E+02 2.07E+01 5.09E+01 pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Potassium-40 3.28E+02 1.97E+01 4.71E+01 pCi/L 7C2 Rattlesnake Canvon(393316002) -SW 10-Mar-16 Potassium-40 3.81 E+02 1.93E+01 4.91 E+01 pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Potassium-40 3.34E+02 2.04E+01 5.13E+01 pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Potassium-40 3.09E+02 1.67E+01 4.57E+01 pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Potassium-40 3.58E+02 1.80E+01 4.78E+01 pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Total Strontium 1.79E+OO 3.67E+OO 2.28E+OO pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 Total Strontium 2.42E+OO 3.99E+OO 2.53E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Total Strontium -2.03E+OO 2.87E+OO 1.63E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Total Strontium -2.61E+OO 3.75E+OO 2.14E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Total Strontium 2.26E-01 1.69E+OO 1.02E+OO pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Total Strontium -6.89E-01 2.26E+OO 1.32E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Total Strontium -3.65E-01 1.94E+OO 1.14E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Total Strontium -2.10E-01 1.41E+OO 8.31E-01 pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Total Strontium -2.63E-01 1.17E+OO 6.80E-01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Total Strontium -2.19E+OO 3.23E+OO 1.85E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Total Strontium -1.80E+OO 2.55E+OO 1.47E+OO pCi/L 7C2 Rattlesnake Canvon(41.2549002) -SW 7-Dec-16 Total Strontium -1.62E+OO 2.13E+OO 1.21 E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Tritium -7.32E+01 2.76E+02 1.61E+02 pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 Tritium 1.19E+02 2.35E+02 1.49E+02 pCi/L 7C2 Rattlesnake Canvon(393316002) -SW 10-Mar-16 Tritium 4.65E+OO 2.71E+02 1.62E+02 pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Tritium -2.12E+02 3.10E+02 1.76E+02 pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Tritium -7.88E+OO 2.67E+02 1.59E+02 pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Tritium 9.85E+01 2.43E+02 1.50E+02 pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Tritium 1.32E+02 2.60E+02 1.64E+02 pCi/L 7C2 Rattlesnake Canvon(404222003) -SW 15-Aug-16 Tritium 2.98E-01 2.62E+02 1.56E+02 pCi/L 7C2 Rattlesnake Canvon(406175002) -SW 12-Sep-16 Tritium -1.18E+02 2.74E+02 1.58E+02 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Tritium -1.23E+01 2.89E+02 1.72E+02 pCi/L 7C2 Rattlesnake Canyon( 411426002) -SW 22-Nov-16 Tritium 1.13E+02 2.87E+02 1.77E+02 pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Tritium -7.19E+OO 2.90E+02 1.73E+02 pCi/L 7C2 Rattlesnake Canvon(390114002) -SW 21-Jan-16 Zinc-65 1.19E+OO 5.00E+OO 2.95E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Zinc-65 -4.10E-01 4.33E+OO 2.66E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Zinc-65 1.40E+OO 4.64E+OO 2.73E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Zinc-65 2.89E+OO 4.83E+OO 3.36E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Zinc-65 -1.07E+OO 3.74E+OO 2.79E+OO pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 Zinc-65 -1.11E+OO 3.91E+OO 2.42E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Zinc-65 -1.13E+OO 3.89E+OO 2.42E+OO pCi/L 7C2 Rattlesnake Canvon(404222003) -SW 15-Aug-16 Zinc-65 -1.59E+OO 4.29E+OO 2.78E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Zinc-65 8.87E-01 3.21 E+OO 2.11E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Zinc-65 -2.97E+OO 2.72E+OO 3.20E+OO pCi/L 7C2 Rattlesnake Canvon( 411426002) -SW 22-Nov-16 Zinc-65 -6.66E-01 3.76E+OO 2.58E+OO pCi/L 7C2 Rattlesnake Canyon( 412549002) -SW 7-Dec-16 Zinc-65 5.06E-01 3.69E+OO 2.46E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Zirconium-95 7.51E-01 4.11 E+OO 2.46E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Zirconium-95 -1.82E+OO 3.97E+OO 2.99E+OO pCi/L Page 31of92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canvon(393316002) -SW 10-Mar-16 Zirconium-95 -7.78E-01 3.73E+OO 2.34E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Zirconium-95 -6.96E-01 3.61E+OO 2.27E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Zirconium-95 9.45E-01 3.30E+OO 1.98E+OO pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 Zirconium-95 1.25E+OO 3.32E+OO 2.02E+OO oCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Zirconium-95 -1.06E+OO 3.20E+OO 2.03E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Zirconium-95 -1.50E-01 3.92E+OO 2.39E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Zirconium-95 -6.68E-02 2.63E+OO 1.52E+OO pCi/L 7C2 Rattlesnake Canvon(408409001) -SW-11-0ct-16 Zirconium-95 7.50E-01 2.69E+OO 1.59E+OO pCi/L 7C2 Rattlesnake Canvon(411426002) -SW 22-Nov-16 Zirconium-95 -1.46E+OO 3.16E+OO 2.42E+OO oCi/L 7C2 Rattlesnake Canyon(412549002)-SW 7-Dec-16 Zirconium-95 2.72E-01 3.12E+OO 1.91E+OO pCi/L 701 Avila Gate -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 701 Avila Gate(388797004) -AC 2-Jan-16 lodine-131 -9.80E-04 8.76E-03 5.39E-03 pCi/m3 701 Avila Gate(389309009) -AC 9-Jan-16 lodine-131 1.80E-03 1.11 E-02 6.31 E-03 pCi/m3 701 Avila Gate(389808009) -AC 16-Jan-16 lodine-131 -2.18E-03 9.72E-03 . 6.33E-03 pCi/m3 701 Avila Gate(390230014) -AC 23-Jan-16 lodine-131 1.04E-03 1.90E-02 1.29E-02 pCi/m3 701 Avila Gate(390692009) -AC 30-Jan-16 lodine-131 -2.03E-03 9.98E-03 6.41E-03 pCi/m3 701 Avila Gate(391237011) -AC 6-Feb-16 lodine-131 -4.97E-03 9.26E-03 6.80E-03 pCi/m3 701 Avila Gate(391592009) -AC 13-Feb-16 lodine-131 4.57E-03 1.29E-02 7.50E-03 pCi/m3 701 Avila Gate(392027014) -AC 20-Feb-16 lodine-131 4.07E-04 9.77E-03 5.63E-03 pCi/m3 701 Avila Gate(392482014) -AC 27-Feb-16 lodine-131 -1.84E-03 8.95E-03 5.70E-03 pCi/m3 701 Avila Gate(392952002) -AC 5-Mar-16 lodine-131 -3.11 E-03 1.07E-02 6.95E-03 pCi/m3 701 Avila Gate(393384014)-AC 12-Mar-16 lodine-131 1.68E-03 1.05E-02 6.15E-03 pCi/m3 701 Avila Gate(393781009) -AC 19-Mar-16 lodine-131 -6.56E-03 1.09E-02 7.89E-03 pCi/m3 701 Avila Gate(394076014) -AC 26-Mar-16 lodine-131 1.88E-03 1.07E-02 6.14E-03 pCi/m3 701 Avila Gate(394752014) -AC 2-Aor-16 lodine-131 -1.65E-03 9.00E-03 5.70E-03 pCi/m3 701 Avila Gate(395261014) -AC 9-Apr-16 lodine-131 -1.38E-03 8.22E-03 5.20E-03 pCi/m3 701 Avila Gate(395795014) -AC 16-Apr-16 lodine-131 4.11E-03 1.29E-02 8.77E-03 pCi/m3 701 Avila Gate(396244014) -AC 23-Apr-16 lodine-131 3.91E-03 7.87E-03 4.18E-03 pCi/m3 701 Avila Gate(396779014) -AC 30-Apr-16 lodine-131 2.29E-03 9.38E-03 5.32E-03 pCi/m3 701 Avila Gate(397288014) -AC 7-Mav-16 lodine-131 -2.65E-06 1.15E-02 6.92E-03 pCi/m3 . 701 Avila Gate(397706014) -AC 14-Mav-16 lodine-131 1.01E-02 6.45E-03 pCi/m3 701 Avila Gate(398215014) -AC 21-May-16 lodine-131-8.37E-04 9.46E-03 5.60E-03 pCi/m3 701 Avila Gate(398542014)-AC, 28-May-16 lodine-131 4.92E-04 8.42E-03 4.90E-03 pCi/m3 701 Avila Gate(399016014) -AC 4-Jun-16 lodine-131 1.64E-04 1.12E-02 6.61 E-03 pCi/m3 701 Avila Gate(399503014)-AC 11-Jun-16 lodine-131 -2.06E-03 9.67E-03 6.25E-03 oCi/m3 701 Avila Gate(399964014) -AC 18-Jun-16 lodine-131 8.48E-03 1.18E-02 1.03E-02 pCi/m3 701 Avila Gate(400310014) -AC 25-Jun-16 lodine-131 -5.41 E-03 1.76E-02 1.16E-02 pCi/m3 701 Avila Gate(401018014)-AC 2-Jul-16 lodine-131 -3.65E-05 1.02E-02 6.11 E-03 pCi/m3 701 Avila Gate(401598004) -AC -. l 9-Jul-16 lodine-131 7.78E-03 2.53E-02 1.44E-02 pCi/m3 701 Avila Gate(402089004) -AC 16-Jul-16 lodine-131 -5.19E-04 9.88E-03 5.96E-03 oCi/m3 701 Avila Gate(402578014) -AC 23-Jul-16 lodine-131 -1.86E-04 1.34E-02 8.16E-03 pCi/m3 701 Avila Gate(403120014) -AC 30-Jul-16 lodine-131 -2.69E-04 1.90E-02 1.11 E-02 pCi/m3 701 Avila Gate(403674014) -AC 6-Auq-16 lodine-131 2.91 E-03 1.28E-02 7.23E-03 pCi/m3 Page 32 of 92 2016 DCPP REMP Analysis Results Appendix A 7D1 Avila Gate(404132014)-AC 13-Aug-16 lodine-131 2.73E-03 1.06E-02 5.76E-03 pCi/m3 7D1 Avila Gate(404555004) -AC 20-Aug-16 lodine-131 1.38E-03 7.04E-03 4.05E-03 pCi/m3 7D1 Avila Gate(405070004) -AC 27-Aug-16 lodine-131 1.78E-03 1.07E-02 6.28E-03 pCi/m3 7D1 Avila Gate(405461014) -AC ' 3-Seo-16 lodine-131 3.09E-03 9.32E-03 5.21E-03 pCi/m3 7D1 Avila Gate(405943014) -AC 10-Sep-16 lodine-131 7.09E-03 1.20E-02 6.99E-03 pCi/m3 7D1 Avila Gate(406484014) -AC 17-Sep-16 lodine-131 -2.71E-03 6.92E-03 4.58E-03 | |||
* pCi/m3 7D1 Avila Gate(406978014)-AC 24-Sep-16 lodine-131 -3.37E-04 7.86E-03 4.57E-03 pCi/m3 7D1 Avila Gate(407538014) -AC ' 1-0ct-16 lodine-131 -1.07E-03 8.03E-03 5.67E-03 pCi/m3 7D1 Avila Gate(408013014) -AC I 8-0ct-16 *, lodine-131 1.93E-04 1.13E-02 6.73E-03 oCi/m3 7D1 Avila Gate(408711014) -AC 15-0ct-16 lodine-131 -8.91E-04 5.47E-03 3.58E-03 pCi/m3 7D1 Avila Gate(409217014) -AC 22-0ct-16 lodine-131 4.87E-04 7.52E-03 4.24E-03 pCi/m3 7D1 Avila Gate(409738014) -AC 29-0ct-16 lodine-131 1.13E-03-1.13E-02 6.52E-03 pCi/m3 7D1 Avila Gate(410322014)-AC 5-Nov-16 lodine-131 5.86E-03 6.87E-03 9.05E-03 pCi/m3 . 7D1 Avila Gate(410821014)-AC 12-Nov-16 lodine-131 7.71 E-03 4.81 E-03 . oCi/m3 7D1 Avila Gate(411348014)-AC 19-Nov-16 lodine-131 6.68E-03 1.71E-02 9.49E-03 pCi/m3 7D1 Avila Gate(411620014) -AC 26-Nov-16 lodine-131 -1.32E-03 5.37E-03 3.80E-03 pCi/m3 7D1 Avila Gate(412193014)-AC 3-Dec-16 lodine-131 1.94E-03 9.31E-03 5.64E-03 pCi/m3 7D1 Avila Gate(412746005)-AC 10-Dec-16 lodine-131 3.91E-03 8.29E-03 4.59E-03 pCi/m3 7D1 Avila Gate(413294004)-AC 17-Dec-16 lodine-131 -3.45E-03 9.55E-03 6.46E-03 pCi/m3 7D1 Avila Gate(413412014)-AC 24-Dec-16 lodine-131 6.19E-04 8.83E-03 5.20E-03 pCi/m3 7D1 Avila Gate(413697004) -AC 31-Dec-16 lodine-131 -4.64E-03 8.00E-03 6.71 E-03 _pCi/m3 7D1 Avila Gate -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7D1 Avila Gate(388797005) -AP 2-Jan-16 BETA 2.58E-02 1.53E-03 7.88E-03 pCi/m3 7D1 Avila Gate(389309002) -AP 9-Jan-16 BETA 1.88E-02 1.73E-03 8.64E-03 pCi/m3 7D1 Avila Gate(389808002) -AP 16-Jan-16 BETA 1.17E-02 1.65E-03 7.98E-03 . pCi/m3 7D1 Avila Gate(390230004) -AP 23-Jan-16 BETA 2.54E-02 ' 1.62E-03 9.19E-03 pCi/m3 7D1 Avila Gate(390692002) -AP 30-Jan-16-BETA 2.13E-02 1.67E-03 8.11E-03 pCi/m3 7D1 Avila Gate(391237017) -AP 6-Feb-16 BETA 3.32E-02 1.78E-03 8.42E-03 pCi/m3 7D1 Avila Gate(391592002) -AP 13-Feb-16 BETA. 3.99E-02 1.59E-03 9.88E-03 pCi/m3 7D1 Avila Gate(392027004) -AP 20-Feb-16 BETA 2.99E-02 1.49E-03 7.94E-03 oCi/m3 7D1 Avila Gate(392482004) -AP 27-Feb-16 BETA 2.38E-02 1.52E-03 8.80E-03 pCi/m3 7D1 Avila Gate(392952009) -AP 5-Mar-16 BETA 1.48E-02 1.72E-03 8.14E-03 pCi/m3 7D1 Avila Gate(393384004) -AP* 12-Mar-16 BETA 7.73E-03 1.55E-03 9.02E-03 pCi/m3 7D1 Avila Gate(393781002) -AP 19-Mar-16 BETA 1.89E-02 't59E-03 pCi/m3 7D1 Avila Gate(394076004) -AP 26-Mar-16 *BETA 1.01 E-02 1.60E-03 8.54E-03 pCi/m3 7D1 Avila Gate(394752004) -AP 2-Apr-16 BETA 2.83E-02 1.78E-03 9.61E-03 pCi/m3 7D1 Avila Gate(395261004) -AP 9-Apr-16 BETA 3.17E-02 1.73E-03 8.31 E-03 pCi/m3 7D1 Avila Gate(395795004) -AP 16-Apr-16 BETA 2.87E-02 1.58E-03 8.74E-03 pCi/m3 7D1 Avila Gate(396244004) -AP 23-Apr-16 BETA 1.07E-02 1.59E-03 9.12E-03 pCi/m3 7D1 Avila Gate(396779004) -AP 30-Aor-16 BETA 1.09E-02 1.61E-03 9.61E-03 pCi/m3 7D1 Avila Gate(397288004) -AP 7-May-16 BETA 1.06E-02 1.63E-03 8.16E-03 pCi/m3 7D1 Avila Gate(397706004) -AP 14-Mav-16 BETA 1.18E-02 1.56E-03 9.59E-03 pCi/m3 7D1 Avila Gate(398215004) -AP 21-Mav-16 BETA 3.66E-03 1.59E-03 9.09E-03 pCi/m3 Page 33 ot'92 2016 DCPP REMP Analysis Results Appendix A 7D1 Avila Gate(398542004) -AP 28-May"16 BETA 2.17E-02 1.59E-03 1.02E-02 pCi/m3 7D1 Avila Gate(399016004) -AP 4-Jun-16 BETA 9.24E-03 1.54E-03 9.74E-03 pCi/m3 7D1 Avila Gate(399503004) -AP 11-Jun-16 -BETA 1.26E-02 1.62E-03 7.73E-03 pCi/m3 7D1 Avila Gate(399964004) -AP 18-Jun-16 BETA 1.19E-02 1.64E-03 7.21 E-03 pCi/m3 7D1 Avila Gate(400310004) -AP 25-Jun-16 BETA 1.00E-02 1.92E-03 1.08E-02 pCi/m3 7D1 Avila Gate(401018004)-AP 2-Jul-16 BETA 1.84E-02 1.49E-03 8.13E-03 pCi/m3 7D1 Avila Gate(401598005) -AP 9-Jul-16 BETA 4.90E-03 1.66E-03 9.61E-03 pCi/m3 7D1 Avila Gate(402089005) -AP 16-Jul-16 BETA 5.11 E-03 1.70E-03 1.08E-02 pCi/m3 7D1 Avila Gate(402578004) -AP 23-Jul-16 BETA 9.76E-03 1.67E-03 8.71E-03 pCi/m3 7D1 Avila Gate(403120004) -AP 30-Jul-16 BETA 5.20E-03 1.65E-03 9.37E-03 pCi/m3 7D1 Avila Gate(403674004) -AP 6-Aug-16 BETA 9.28E-03 1.64E-03 9.41E-03 pCi/m3 7D1-Avila Gate(404132004)-AP 13-Aug-16 BETA 1.59E-02 1.60E-03 8.79E-03 pCi/m3 7D1 Avila Gate(404555005) -AP 20-Aug-16 BETA 2.40E-02 1.69E-03 1.09E-02 pCi/m3 7D1 Avila Gate(405070005) -AP 27-Aug-16 BETA 1.84E-02 1.62E-03 9.19E-03 pCi/m3 7D1 Avila Gate(405461004) -AP 3-Sep-16 BETA 2.22E-02 1.60E-03 9.17E-03 pCi/m3 7D1 Avila Gate(405943004) -AP 10-Sep-16 BETA 2.26E-02 1.76E-03 9.24E-03 pCi/m3 7D1 Avila Gate(406484004) -AP 17-Sep-16 BETA 2.70E-02 1.81 E-03 8.92E-03 pCi/m3 7D1 Avila Gate(406978004) -AP-24-Sep-16 BETA 2.77E-02 1.55E-03 8.78E-03 pCi/m3 7D1 Avila Gate(407538004) -AP 1-0ct-16 BETA 1.76E-02 1.62E-03 8.95E-03 pCi/m3 7D1 Avila Gate(408013004) -AP 8-0ct-16 BETA 3.55E-02 1.51E-03 9.82E-03 pCi/m3 7D1 Avila Gate(408711004) -AP 15-0ct-16 BETA 1.75E-02 1.68E-03 9.68E-03 pCi/m3 7D1 Avila Gate(409217004) -AP 22-0ct-16 BETA 2.63E-02 1.70E-03 1.03E-02 oCi/m3 7D1 Avila Gate(409738004) -AP 29-0ct-16 BETA 9.55E-03 1.74E-03 9.88E-03 pCi/m3 7D1 Avila Gate(410322004) -AP 5-Nov-16 BETA 3.54E-02 1.72E-03 4.23E-03 pCi/m3 7D1 Avila Gate(410821004) -AP 12-Nov-16 BETA 7.11 E-02 1.72E-03 1.02E-02 pCi/m3 7D1 Avila Gate(411348004) -AP 19-Nov-16 BETA 8.76E-03 1.98E-03 1.07E-02 pCi/m3 7D1 Avila Gate(411620004) -AP 26-Nov-16 BETA 1.18E-02 1.56E-03 9.40E-03 pCi/m3 7D1 Avila Gate(412193015)-AP 3-Dec-16 BETA 2.34E-02 1.58E-03 8.73E-03 pCi/m3 7D1 Avila Gate(412746006) -AP 10-Dec-16 BETA 1.63E-02 1.67E-03 2.98E-03 pCi/m3 7D1 Avila Gate(413294005) -AP 17-Dec-16 BETA 3.17E-02 1.82E-03 7.10E-03 pCi/m3 7D1 Avila Gate(413412004)-AP 24-Dec-16 BETA 3.36E-02 1.98E-03 7.70E-03 pCi/m3 7D1 Avila Gate(413697005)-AP 31-Dec-16 BETA 2.42E-02 1.51E-03 7.88E-03 pCi/m3 7D1 Avila Gate(396298004) -AP 13-Feb-16 Beryllium-7 9.95E-02 9.40E-03 2.02E-02 pCi/m3 7D1 Avila Gate(396298004) -AP 13-Feb-16 Cesium-134 2.12E-04 7.50E-04 4.10E-04 pCi/m3 7D1 Avila Gate(401387004) -AP . 14-May-16 Cesium-134 3.60E-05 6.17E-04 3.59E-04 pCi/m3 7D1 Avila Gate(408429004) -AP 13-Aug-16 Cesium-134 2.99E-05 5.42E-04 3.19E-04 pCi/m3 7D1 Avila Gate(414245004) -AP 12-Nov-'16 Cesium-134 2.36E-04 5.78E-04 2.96E-04 pCi/m3 7D1 Avila Gate(396298004) -AP 13-Feb-16 Cesium-137 4.48E-04 5.78E-04 3.19E-04 pCi/m3 7D1 Avila Gate(401387004) -AP 14-May-16 Cesium-137 -2.35E-04 4.07E-04 3.66E-04 pCi/m3 7D1 Avila Gate(408429004) -AP 13-Aug-16 Cesium-137 1.14E-04 5.86E-04 3.28E-04 pCi/m3 7D1 Avila Gate(414245004)-AP 12-Nov-16 Cesium-137 2.28E-05 4.71 E-04 2.70E-04 pCi/m3 Page 34 of92 L 2016 DCPP REMP Analysis Results Appendix A 7D3 Avila Pier -Market Fish Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Cesium-134 -9.15E-01 4.01E+OO 2.49E+OO pCi/kg 71:)3 Avila Pier(396918002) -FH Market 4-May-16 Cesium-134 3.10E+OO 5.69E+OO 3.47E+OO I pCi/kg 7D3 Avila Pier(403108003) -FH Market 1-Aug-16 Cesium-134 .1.57E+OO 5.97E+OO 3.52E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Cesium-134 3.02E-01 5.62E+OO 3.26E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Cesium-137 6.64E+OO 3.79E+OO 2.94E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Cesium-137 4.69E+OO 5.04E+OO 4.30E+OO pCi/kg 7D3 Avila Pier(403108003)-FH Market -r-Aug-16 Cesium-137 6.26E+OO 6.26E+OO 4.44E+OO pCi/kg 7D3 Avila Pier(409315005)-FH Market 26-0ct-16 Cesium-137 7.60E+OO 4.40E+OO 5.00E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Cobalt-58 -6.67E-02 3.61E+OO 2.17E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Cobalt-58 -3:02E+OO 4.54E+OO 3.57E+OO pCi/kg 7D3 Avila Pier(403108003)-FH Market 1-Aug-16 Cobalt-58 -2.52E+OO 5.01E+OO 3.37E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Cobalt-58 -1.46E+OO 4.66E+OO 2.89E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Cobalt-60 3.44E-01 4.39E+OO 2.60E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Cobalt-60 7.32E-01 5.10E+OO 3.03E+OO pCi/kg 7D3 Avila Pier(403108003) -FH Market 1-Aug-16 Cobalt-60 -1.77E+OO 6.28E+OO 3.98E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Cobalt-60 4.46E-01 4.47E+OO 2.75E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 lron-59 1.03E+OO 8.97E+OO 5.24E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 lron-59 5.72E-01 1.05E+01 6.24E+OO pCi/kg 7D3 Avila Pier(403108003)-FH Market 1-Aug-16 lron-59 2.78E+OO 1.45E+01 9.80E+OO -pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 lron-59 3.51 E+OO U2E+01 6.60E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Manganese-54 7.82E-01 3.83E+OO 2.29E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Manganese-54 5.58E-01 4.76E+OO 2.76E+OO pCi/kg 7D3 Avila Pier(403108003) -FH Market 1-Aug-16 Manganese-54 9.34E-01 5.09E+OO 3.47E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Manganese-54 3.94E-01 4.94E+OO 3.25E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Potassium-40 3.32E+03 3.23E+01 3.30E+02 pCi/kg 7D3 Avila Pier(396918002) -FH Market . ' 4-May-16 Potassium-40 3.34E+03 4.32E+01 3.12E+02 pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Zinc-65 -4.66E+OO 9.26E+OO 6.14E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Zinc-65 -5.41E+OO 1.05E+01 7.07E+oo pCi/kg 7D3 Avila Pier(403108003) -FH Market 1-Aug-16 Zinc-65 5.21E+OO 1.45E+01 8.57E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Zinc-65 -2.57E-01 1.09E+01 7.45E+OO pCi/kg 7E1 Avila Valley Barn -Vegetation Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7E1 Avila Valley Barn(390519006) -VG Brdleaf 28-Jan-16 Cesium-134 3.92E-02 4.80E+OO 2.90E+OO pCi/kg 7E1 Avila Valley Barn(398093001) -VG Brdleaf 19-May-16 Cesium-134 8.97E-01 4.72E+OO 2.73E+OO pCi/kg 7E1 Avila Valley Barn(403108001)-VG Brdleaf 1-Aug-16 Cesium-134 4.63E+OO 9.63E+OO 5.64E+OO pCi/kg 7E1 Avila Valley Barn(409315006) -VG Brdleaf 26-0ct-16 Cesium-134 1.31E+01 1.51E+01 1.40E+01 pCi/kg 7E1 Avila Valley Barn(390519006) -VG Brdleaf 28-Jan-16 Cesium-137 3.94E+OO 5.00E+OO 3.30E+OO pCi/kg 7E1 Avila Valley Barn(398093001) -VG Brdleaf 19-May-16 Cesium-137 -2.09E+OO 4.00E+OO 2.78E+OO pCi/kg 7E1 Avila Valley Barn(403108001) -VG Brdleaf 1-Aug-16 Cesium-137 6.13E-01 8.46E+OO 5.12E+OO pCi/kg 7E1 Avila Valley Barn(409315006) -VG Brdleaf 26-0ct-16 Cesium-137 1.17E+OO 1.31E+01 7.78E+OO pCi/kg 7E1 Avila Valley Barn(390519006) -VG Brdleaf 28-Jan-16 lodine-131 -1.43E+OO 6.93E+OO 4.33E+OO pCi/kg 7E1 Avila Valley Barn(398093001) -VG Brdleaf 19-May-16 lodine-131 1.67E+OO 7.49E+OO 4.34E+OO pCi/kg Page 35 of92 2016 DCPP REMP Analysis Results Appendix A 7E1 Avila Valley Barn(403108001) -VG Brdleaf 1-Aug-16 lodine-131 -5.98E+OO 1.37E+01 8.82E+OO pCi/kg 7E1 Avila Valley Barn(409315006) -VG Brdleaf 26-0ct-16 lodine-131 -2.48E+OO 2.02E+01 1.21E+01 pCi/kg 7E1 Avila Valley Barn(390519006) -VG Brdleaf 28-Jan-16 Potassium-40 1.87E+03 4.11E+01 2.00E+02 pCi/kg 7E1 Avila Valley Barn(398093001) -VG Brdleaf 19-May-16 Potassium-40 2.07E+03 4.11E+01 2.17E+02 pCi/kg 7G1 Arroyo Grande -Vegetation Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7G1 Arroyo Grande(390114006) -VG Brdleaf 25-Jan-16 Cesium-134 1.52E+OO 1.06E+01 6.61E+OO pCi/kg 7G1 Arroyo Grande(391919003)-VG Brdleaf 22-Feb-16 Cesium-134 -6.06E+OO 1.38E+01 9.28E+OO oCi/ka 7G1 Arroyo Grande(393318003) -VG Brdleaf 14-Mar-16 Cesium-134 -3.45E+OO 1.60E+01 1.20E+01 pCi/kg 7G1 Arroyo Grande(395137004) -VG Brdleaf 11-Apr-16 Cesium-134 -4.43E+OO 1.25E+01 8.14E+OO pCi/kg 7G1 Arroyo Grande(396603003) -VG Brdleaf 2-May-16 Cesium-134 -5.45E-01 1.30E+01 8.79E+OO pCi/kg 7G1 Arroyo Grande(399398003) -VG Brdleaf 13-Jun-16 Cesium-134 3.04E+OO 8.81E+OO 5.24E+OO pCi/kg 7G1 Arroyo Grande(401965003) -VG Brdleaf 18-Jul-16 Cesium-134 9.18E-01 8.79E+OO 5.18E+OO pCi/ka 7G1 Arroyo Grande(403012003) -VG Brdleaf 1-Aug-16 Cesium-134 -3.30E-01 1.41E+01 8.22E+OO pCi/kg 7G1 Arroyo Grande(406353003) -VG Brdleaf 19-Sep-16 Cesium-134 1.12E+OO 7.75E+OO 4.58E+OO pCi/kg 7G1 Arroyo Grande(407878003) -VG Brdleaf 10-0ct-16 Cesium-134 O.OOE+OO 1.08E+01 O.OOE+OO pCi/kg 7G1 Arroyo Grande(410298003) -VG Brdleaf 7-Nov-16 Cesium-134 9.69E-01 8.84E+OO 5.96E+OO pCi/kg 7G1 Arroyo Grande(412059003) -VG Brdleaf 5-Dec-16 Cesium-134 2.81E+OO 1.00E+01 5.76E+OO pCi/ka 7G1 Arroyo Grande(390114006) -VG Brdleaf 25-Jan-16 Cesium-137 -4.19E-01 9.98E+OO 5.93E+OO pCi/kg 7G1 Arroyo Grande(391919003) -VG Brdleaf 22-Feb-16 Cesium-137 1.60E+OO 1.33E+01 7.65E+OO pCi/kg 7G1 Arroyo Grande(393318003)-VG Brdleaf 14-Mar-16 Cesium-137 -3.77E+OO 1.44E+01 9.17E+OO pCi/kg 7G1 Arroyo Grande(395137004) -VG Brdleaf 11-Apr-16 Cesium-137 2.74E+OO 1.33E+01 7.91E+OO pCi/kg 7G1 Arroyo Grande(396603003) -VG Brdleaf 2-May-16 Cesium-137 -1.25E+OO 1.15E+01 8.19E+OO pCi/kg 7G1 Arroyo Grande(399398003) -VG Brdleaf 13-Jun-16 Cesium-137 4.92E-01 7.91E+OO 4.65E+OO pCi/kg 7G1 Arroyo Grande(401965003) -VG Brdleaf 18-Jul-16 Cesium-137 2.42E-01 8.65E+OO 5.07E+OO pCi/kg 7G1 Arroyo Grande(403012003) -VG Brdleaf 1-Aug-16 Cesium-137 -9.15E-01 1.38E+01 8.34E+OO pCi/kg 7G1 Arroyo Grande(406353003) -VG Brdleaf 19-Sep-16 Cesium-137 1.32E+OO . 6.81E+OO 3.97E+OO pCi/kg 7G1 Arroyo Grande(407878003) -VG Brdleaf 10-0ct-16 Cesium-137 -2.03E+OO 1.03E+01 9.37E+OO pCi/kg 7G1 Arroyo Grande(410298003) -VG Brdleaf 7-Nov-16 Cesium-137 3.38E+OO 7.54E+OO 4.52E+OO pCi/kg 7G1 Arroyo Grande(412059003) -VG Brdleaf 5-Dec-16 Cesium-137 -9.03E-01 8.30E+OO 5.54E+OO pCi/kg 7G1 Arroyo Grande(390114006) -VG Brdleaf 25-Jan-16 lodine-131 -5.50E+OO 1.11E+01 7.49E+OO oCi/kg 7G1 Arroyo Grande(391919003) -VG Brdleaf 22-Feb-16 lodine-131 , 5.92E+OO 1.63E+01 9.58E+OO pCi/kg 7G1 Arroyo-Grande(393318003) -VG Brdleaf 14-Mar-16 lodine-131 -1.27E+OO 1.70E+01 9.96E+OO pCi/kg 7G1 Arrovo Grande(395137004) -VG Brdleaf -11-Apr-16 lodine-131 1.38E+OO 1.57E+01 9.49E+OO pCi/kg 7G1 Arroyo Grande(396603003) -VG Brdleaf 2-May-16 lodine-131 1.33E+OO 1.52E+01 8.82E+OO pCi/kg 7G1 Arrovo Grande(399398003) -VG Brdleaf 13-Jun-16 lodine-131 1.63E+OO 9.85E+OO 5.93E+OO oCi/ka 7G1 Arroyo Grande(401965003) -VG Brdleaf 18-Jul-16 lodine-131 .1.84E+OO 1.13E+01 6.73E+OO pCi/kg 7G1 Arroyo Grande(403012003) -VG Brdleaf 1-Aug-16 lodine-131 1.23E+01 2.84E+01 1.76E+01 pCi/kg 7G1 Arroyo Grande(406353003) -VG Brdleaf 19-Sep-16 lodine-131 -6.23E-01 7.77E+OO 4.51E+OO pCi/kg 7G1 Arroyo Grande(407878003) -VG Brdleaf 10-0ct-16 lodine-131 -3.52E-01 1.21E+01 7.65E+OO pCi/kg 7G1 Arroyo Grande(410298003) -VG Brdleaf 7-Nov-16 lodine-131 2.06E+OO 9.25E+OO 5.39E+OO pCi/kg 7G1 Arroyo Grande(412059003) -VG Brdleaf 5-Dec-16 lodine-131 -1.52E+OO 9.06E+OO 5.60E+OO pCi/kg 7G1 Arroyo Grande(390114006) -VG Brdleaf 25-Jan-16 Potassium-40 4.24E+03 9.52E+01 4.52E+02 pCi/kg 7G1 Arroyo Grande(391919003) -VG Brdleaf 22-Feb-16 Potassium-40 3.11E+03 1.07E+02 4.23E+02 pCi/kg I Page 36 of92 2016 DCPP REMP Analysis Results Appendix A 7G1 Arroyo Grande(393318003) -VG Brdleaf 14-Mar-16 Potassium-40 2.92E+03 1.50E+02 4.15E+02 pCi/kg 7G1 Arroyo Grande(395137004) -VG Brdleaf 11-Apr-16 Potassium-40 2.16E+03 1.11 E+02 2.96E+02 | |||
* pCi/kg 7G1 Arroyo Grande(396603003) -VG Brdleaf 2-May-16 Potassium-40 4.42E+03 9.96E+01 4.84E+02 pCi/kg 7G1 Arroyo Grande(399398003) -VG Brdleaf 13-Jun-16 Potassium-40 2.59E+03 6.64E+01 2.83E+02 oCi/ka 8S1 Target Range -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S1 Target Range(388797008) -AC 2-Jan-16 lodine-131 -1.82E-03 9.01E-03 5.88E-03 pCi/m3 8S1 Target Range(389309011) -AC 9-Jan-16 lodine-131 1.07E-03 8.67E-03 4.99E-03 pCi/m3 8S1 Target Range(389808011) -AC 16-Jan-16 lodine-131 -4.37E-04 1.23E-02 7.47E-03 pCi/m3 8S1 Target Range(390230015) -AC 23-Jan-16 lodine-131 -5.02E-03 7.61 E-03 7.04E-03 pCi/m3 8S1 Target Range(390692011) -AC 30-Jan-16 lodine-131 -5.38E-03 6.71E-03 5.59E-03 pCi/m3 8S1 Target Range(391237013) -AC 6-Feb-16 lodine-131 3.81E-03 1.31E-02 7.58E-03 pCi/m3 8S1 Taraet Ranae(391592011) -AC 13-Feb-16 lodine-131 -2.86E-04 9.45E-03 5.59E-03 pCi/m3 8S1 Target Range(392027015) -AC 20-Feb-16 lodine-131 -6.61E-04 9.83E-03 5.97E-03 pCi/m3 8S1 Target Range(392482015) -AC 27-Feb-16 lodine-131 6.72E-04 1.06E-02 6.12E-03 pCi/m3 8S1 Target Range(392952004) -AC 5-Mar-16 lodine-131 -2.05E-03 9.98E-03 6.13E-03 pCi/m3 8S1 Target Range(393384015) -AC 12-Mar-16 lodine-131 2.98E-03 1.10E-02 6.25E-03 pCi/m3 8S1 Target Range(393781011) -AC 19-Mar-16 lodine-131 -1.68E-03 2.08E-02 1.24E-02 pCi/m3 8S1 Target Range(394076015) -AC 26-Mar-16 lodine-131 -4.74E-03 8.40E-03 5.85E-03 pCi/m3 8S1 Target Range(394752015) -AC 2-Apr-16 lodine-131 -2.59E-03 1.36E-02 8.31 E-03 pCi/m3 8S1 Target Range(395261015)-AC 9-Apr-16 lodine-131 9.87E-04 1.06E-02 6.31 E-03 pCi/m3 8S1 Target Range(395795015) -AC 16-Apr-16 lodine-131 1.27E-03 1.03E-02 6.00E-03 pCi/m3 8S1 Taraet Ranae(396244015) -AC 23-Apr-16 lodine-131 2.61E-03 1.09E-02 6.25E-03 pCi/m3 8S1 Target Range(396779015) -AC 30-Apr-16 lodine-131 -3.76E-03 8.70E-03 6.04E-03 pCi/m3 8S1 Target Range(397288015) -AC 7-Mav-16 lodine-131 1.67E-03 1.25E-02 7.25E-03 pCi/m3 8S1 Taraet Range(397706015) -AC 14-Mav-16 lodine-131 -4.63E-03 1.38E-02 9.41E-03 pCi/m3 8S1 Target Range(398215015) -AC 21-May-16 lodine-131 -2.16E-03 1.56E-02 1.02E-02 pCi/m3 8S1 Target Range(398542015) -AC 28-May-16 lodine-131 5.50E-03 1.15E-02 4.24E-03. pCi/m3 8S1 Target Range(399016015) -AC 4-Jun-16 lodine-131 -2.27E-03 9.41E-03 6.15E-03 pCi/m3 8S1 Target Range(399503015) -AC lodine-131 -2.74E-03 1.54E-02 9.82E-03 pCi/m3 8S1 Target Range(399964015) -AC 18-Jun-16 lodine-131 -4.53E-03 9.63E-03 6.85E-03 pCi/m3 8S1 Target Range(400310015) -AC 25-Jun-16 lodine-131 2.90E-04 1.23E-02 7.43E-03 pCi/m3 8S1 Target Range(401018015) -AC lodine-131 7.25E-03 1.26E-02 7.25E-03 pCi/m3 8S1 Target Range(401598017) -AC 9-Jul-16 lodine-131 6.04E-03 1.17E-02 6.68E-03 pCi/m3 BS1 Target Range(402089009) -AC 16-Jul-16 lodine-131 -2.85E-03 1.01E-02 6.47E-03 pCi/m3 8S1 Target Range(402578015) -AC ' 23-Jul-16 lodine-131 5.69E-03 6.78E-03 5.01E-03 pCi/m3 8S1 Target Range(403120015) -AC 30-Jul-16 lodine-131 | |||
* 1.82E-03 1.33E-02 7.79E-03 pCi/m3 BS1 Target Range(403674015) -AC 6-Aug-16 lodine-131 2.41E-03 1.12E-02 6.36E-03 pCi/m3 8S1 Target Range(404132015) -AC 13-Aug-16 lodine-131 4.74E-03 1.23E-02 7.09E-03 pCi/m3 8S1 Target Range(404555008) -AC 20-Aug-16 lodine-131 3.60E-03 7.02E-03 5.33E-03 pCi/m3 8S1 Target Ranae(405070008) -AC 27-Aua-16 lodine-131 9.45E-04 8.11E-03 4.55E-03 oCi/m3 8S1 Target Range(405461015)-AC 3-Sep-16 lodine-131 -1.96E-03 1.26E-02 7.70E-03 pCi/m3 8S1 Target Range(405943015) -AC 10-Sep-16 lodine-131 1.60E-03 9.23E-03 5.23E-03 pCi/m3 8S1 Target Ranae(406484015) -AC 17-Seo-16 lodine-131 -1.77E-03 8.80E-03 5.63E-03 oCi/m3 Page 37 of92 2016 DCPP REMP Analysis Results Appendix A 8S1 Target Range(406978015) -AC 24-Sep-16 lodine-131 9.20E-04 1.06E-02 6.21 E-03 pCi/m3 8S1 Target Range(407538015) -AC 1-0ct-16 lodine-131 -1.44E-03 8.48E-03 5.76E-03 pCi/m3 8S1 Target Range(408013016) -AC 8-0ct-16 lodine-131 2.92E-03 9.94E-03 5.41E-03 pCi/m3 8S1 Tarqet Ram:ie(408711015) -AC 15-0ct-16 lodine-131 -9.74E-04 9.60E-03 5.71 E-03 pCi/m3 8S1 Target Range(409217015) -AC 22-0ct-16 lodine-131 3.33E-03 9.26E-03 5.12E-03 pCi/m3 8S1 Target Range(409738015) -AC 29-0ct-16 lodine-131 -1.35E-05 8.79E-03 5.29E-03 pCi/m3 8S1 Target Range(410322015)-AC 5-Nov-16 lodine-131 -2.40E-03 7.96E-03 5.16E-03 pCi/m3 8S1 Target Range(410821015)-AC 12-Nov-16 lodine-131 5.87E-03 9.43E-03 8.50E-03 pCi/m3 8S1 Tarqet Ranqe(411348015) -AC 19-Nov-16 lodine-131 4.46E-03 1.50E-02 8.23E-03 pCi/m3 8S1 Target Range(411620015) -AC 26-Nov-16 lodine-131 2.61 E-03 9.05E-03 5.08E-03 pCi/m3 8S1 Target Range(412193005) -AC 3-Dec-16 lodine-131 4.62E-03 1.02E-02 5.51 E-03 pCi/m3 8S1 Target Range(412746009) -AC 10-Dec-16 lodine-131 -1.91E-03 7.72E-03 5.77E-03 pCi/m3 8S1 Target Range(413294008)-AC 17-Dec-16 lodine-131 -3.20E-03 1.28E-02 8.26E-03 pCi/m3 8S1 Target Ranqe(413412015)-AC '--24-Dec-16 lodine-131 1.63E-03 9.82E-03 5.53E-03 pCi/m3 8S1 Target Range(413697008)-AC 31-Dec-16 lodine-131 1.35E-03 1.44E-02 8.12E-03 pCi/m3 8S1 Target Range -Air Carbon 14 Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 881 Tarqet Ranqe(388797015)-AC14 2-Jan-16 Carbon-14 -1.94E-07 4.93E-07 2.91 E-07 uCi/m3 8S1 Target Range(389309016) -AC14 9-Jan-16 Carbon-14 -3.44E-07 5.84E-07 3.42E-07 uCi/m3 881 Target Range(389808016) -AC14 16-Jan-16 Carbon-14 -3.37E-07 6.46E-07 3.79E-07 uCi/m3 8S1 Tarqet Ranqe(390230010) -AC14 23-Jan-16 Carbon-14 -2.31E-07 5:72E-07 3.37E-07 uCi/m3 881 Target Range(390692016) -AC14 30-Jan-16 Carbon-14 -4.56E-08 5.66E-07 3.36E-07 uCi/m3 881 Target Range(391237008) -AC14 6-Feb-16 Carbon-14 8.48E-09 5.66E-07 3.37E-07 uCi/m3 881 Target Range(391592016) -AC14 13-Feb-16 Carbon-14 4.02E-07 5.86E-07 3.56E-07 uCi/m3 881 Target Range(392027010) -AC14 20-Feb-16 Carbon-14 1.57E-07 5.82E-07 3.49E-07 uCi/m3 881 Tarqet Ranqe(392482010)-AC14 27-Feb-16 Carbon-14 1.78E-07 5.73E-07 3.44E-07 uCi/m3 881 Target Range(392952016) -AC14 5-Mar-16 Carbon-14 -2.05E-08 5.46E-07 3.25E-07 uCi/m3 881 Target Range(393384010) -AC14 12-Mar-16 Carbon-14 -2.52E-07 5.59E-07 3:29E-07 uCi/m3 881 Target Range(393781016) -AC14 19-Mar-16 Carbon-14 1.98E-07 5.82E-07 uCi/m3 881 Target Range(394076010) -AC14 26-Mar-16 Carbon-14 5.41E-07 5.46E-07 3.35E-07 uCi/m3 881 Tarqet Ranqe(394752010) -AC14 2-Apr-16 Carbon-14 4.06E-07 5.32E-07 3.24E-07 | |||
* uCi/m3 881 Target Range(395261010)-AC14 9-Apr-16 Carbon-14 -1.79E-07 6.38E-07 3.77E-07 -uCi/m3 8S1 Target Range(395795010) -AC14 16-Apr-16 Carbon-14 -2.54E-07 5.47E-07 3.22E-07 uCi/m3 881 Target Range(39624401-0) -AC14 23-Apr-16 Carbon-14 2.48E-07 5.47E-07 3.30E-07 uCi/m3 881 Target Range(396779010)-AC14 30-Apr-16 Carbon-14 5.79E-08 5.65E-07 3.37E-07 uCi/m3 881 Target Ranqe(397288010)-AC14 7-May-16 Carbon-14 4.35E-07 5.85E-07 3.56E-07 uCi/m3 8S1 Target Ranqe(397706010) -AC14 14-May-16 Carbon-14 5.56E-07 6.05E-07 3.69E-07 uCi/m3 881 Target Range(398215010) -AC14 21-May-16 Carbon-14 3.38E-07 5.16E-07 3.13E-07 uCi/m3 8S1 Target Range(398542010) -AC14 28-May-16 Carbon-14 4.23E-07 5.66E-07 3.44E-07 uCi/m3, .881 Target Range(399016010) -AC14 4-Jun-16 Carbon-14 -1.30E-08 5.76E-07 3.43E-07 uCi/m3 881 Tarciet Ranqe(39950301Q)-AC14 11-Jun-16 Carbon-14 3.33E-07 5.66E-07 3.43E-07 uCi/m3 8S1 Target Range(399964010) -AC14 18-Jun-16 Carbon-14 2.29E-07 5.54E-07 3.34E-07 uCi/m3 881 Target Range(400310010)-AC14 25-Jun-16 Carbon-14 2.43E-07 6.05E-07 3.65E-07 uCi/m3 881 Tarciet Range(401018010)-AC14 2-Jul-16 Carbon-14 -8.47E-08 4.66E-07 2.76E-07 uCi/m3 Page 38 of92 2016 DCPP REMP Analysis Results Appendix A 8S1 Target Range(401598009) -AC14 9-Jul-16 Carbon-14 4.27E-07 5.85E-07 3.56E-07 uCi/m3 8S1 Target Range(40208901 O) -AC14 16-Jul-16 Carbon-14 1.10E-07 5.52E-07 3.31E-07 uCi/m3 8S1 Target Range(402578010) -AC14 23-Jul-16 Carbon-14 2.35E-07 5.91E-07 3.56E-07 uCi/m3 8S1 Target Range(403120010)-AC14 30-Jul-16 Carbon-14 2.09E-07 6.11 E-07 3.67E-07 uCi/m3 8S1 Target Range(403674010)-AC14 6-Aug-16 Carbon-14 2.93E-07 5.36E-07 3.24E-07 uCi/m3 8S1 Target Range(404132010)-AC14 13-Aug-16 Carbon-14 4.89E-07 3.36E-07 uCi/m3 8S1 Target Range(404555010)-AC14 20-Aug-16 Carbon-14 3.15E-07 5.64E-07 . 3.41E-07 uCi/m3 8S1 Target Range(405070010)-AC14 27-Aug-16 Carbon-14 4.59E-07 5.09E-07 3.11E-07 uCi/m3 8S1 Target Range(405461010) -AC14 Carbon-14 8.37E-08 5.33E-07 3.19E-07 uCi/m3 8S1 Target Range(405943010) -AC14 10-Sep..-16 Carbon-14 -3.56E-09 5.93E-07 3.53E-07 uCi/m3 8S1 Target Range(406484010)-AC14 17-Sep-16 Carbon-14 7.76E-08 6.10E-07 3.65E-07 uCi/m3 8S1 Target Range(406978010) -AC14 I 24-Sep-16 Carbon-14 2.28E-08 5.77E-07 3.44E-07 uCi/m3 8S1 Target Range(407538010)-AC14 1-0ct-16 Carbon.:14 1.74E-07 5.26E-07 3.16E-07 uCi/m3 8S1 Target Range(408013010)-AC14 8-0ct-16 Carbon-14 -2.67E-08 5.54E-07 3.30E-07 uCi/m3 8S1 Target Range(408711010) -AC14 15-0ct-16 Carbon-14 -3.48E-07 5.88E-07 uCi/m3 8S1 Target Range(409217010)-AC14 22-0ct-16 Carbon-14 ' -1.92E-07 5.72E-07 3.37E-07 uCi/m3 8S1 Target Range(409738010)-AC14 29-0ct-16 Carbon-14 4.14E-07 5.86E-07 3.56E-07 uCi/m3 8S1 Target Range(410322010) -AC14 5-Nov-16 Carbon-14 3.71 E-07 5.32E-07 3.23E-07 uCi/m3 8S1 Target Range(410821010) -AC14 12-Nov-16 Carbon-14 1.99E-07 5.04E-07 3.04E-07 uCi/m3 8S1 Target Range(411348010) -AC14 19-Nov-16 Carbon-14 1.69E-07 6.54E-07 3.92E-07 uCi/m3 8S1 Target Range(411620010) -AC14 26-Nov-16 Carbon-14 -1.45E-07 5.08E-07 3.00E-07 uCi/m3 8S1 Target Range(412193006) -AC14 3-Dec-16 Carbon-14 4.39E-08 6.01E-07 3.59E-07 uCi/m3 8S1 Target Range(412746011) -AC14 10-Dec.:16 Carbon-14 1.85E-07 6.05E-07 3.64E-07 uCi/m3 8S1 Target Range(413294010) -AC14 17-Dec-16 Carbon-14 2.87E-07 5.26E-07 3.18E-07 uCi/m3 8S1 Target Range(413412010)-AC14 24-Dec-16 Carbon-14 7.87E-08 6.50E-07 3.89E-07 uCi/m3 8S1 Target Range(413697010)-AC14 31-Dec-16 Carbon-14 -1.12E-07 5.43E-07 3.22E-07 uCi/m3 8S1 Target Range -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S1 Target Range(388797009) -AP 2-Jan-16 BETA 2.92E-02 1.48E-03 7.74E-03 pCi/m3 8S1 Target Range(389309003) -AP 9-Jan-16 BETA 1.75E-02 1.73E-03 8.59E-03 pCi/m3 8S1 Taroet Ranoe(389808004) -AP 16-Jan-16 BETA 9.17E-03 1.67E-03 | |||
* 7.98E-03 pCi/m3 8S1 Target Range(390230005) -AP 23-Jan-16 BETA 2.54E-02 1.61E-03 9.12E-03 pCi/m3 8S1 Target Range(390692004) -AP 30-Jan-:16 BETA 2.03E-02 1.66E-03 8.04E-03 pCi/m3 8S1 Target Range(391237003) -AP 6-Feb-16 BETA 3.19E-02 1.77E-03 8.35E-03 pCi/m3 8S1 Target Range(391592004) -AP 13-Feb-16 BETA 3.38E-02 1.58E-03 9.67E-03 pCi/m3 8S1 Target Range(392027005) -AP 20-Feb-16 BETA 3.34E-02 1.55E-03 . 8.33E-03 pCi/m3 8S1 Target Range(392482005) -AP 27-Feb-16 BETA 3.01E-02 1.52E-03 8.95E-03 pCi/m3 8S1 Target Range(392952011) -AP 5-Mar-16 BETA 1.22E-02 1.66E-03 7.77E-03 pCi/m3 8S1 Target Range(393384005) -AP 12-Mar-16 BETA 1.42E-02 1.54E-03 9.13E-03 pCi/m3 8S1 Target Range(393781004) -AP 19-Mar-16 BETA 2.09E-02 1.60E-03 8.57E-03 pCi/m3 8S1 Target Range(394076005) -AP 26-Mar-16 BETA 9.15E-03 1.59E-03 8.46E-03 oCi/m3 8S1 Target Range(394752005) -AP 2-Apr-16 BETA 2.45E-02 1.74E-03 9.34E-03 pCi/m3 8S1 Target Range(395261005) -AP 9-Apr-16 BETA 3.02E-02 1.73E-03 8.24E-03 pCi/m3 8S1 Target Range(395795005) -AP 16-Apr-16 BETA 2.11E-02 1.58E-03 8.56E-03 oCi/m3 Page 39 of92 2016 DCPP REMP Analysis Results Appendix A 8S1 Target Range(396244005) -AP 23-Apr-16 BETA 1.04E-02 .1.58E-03 9.05E-03 pCi/m3 8S1 Target Range(396779005) -AP 30-Apr-16 BETA 1.20E-02 1.64E-03 9.85E-03 pCi/m3 8S1 Target Range(397288005) -AP 7-May-16 BETA 1.72E-02 1.67E-03 8.54E-03 pCi/m3 8S1 Target Range(397706005) -AP 14-Mav-16 BETA 9.89E-03 1.54E-03 9.42E-03 pCi/m3 8S1 Target Range(398215005) -AP 21-May-16 BETA 5.20E-03 1.59E-03 9.17E-03 pCi/m3 8S1 Target Range(398542005) -AP 28-May-16 BETA 1.01E-02 1.63E-03 1.02E-02 pCi/m3 8S1 Target Range(399016005) -AP 4-Jun-16 BETA 6.45E-03 1.50E-03 9.42E-03 pCi/m3 8S1 Target Range(399503005) -AP 11-Jun-16 BETA 8.60E-03 1.66E-03 7.78E-03 pCi/m3 8S1 Taraet Ranae(399964005) -AP 18-Jun-16 BETA 7.15E-03 1.66E-03 7.14E-03 pCi/m3 8S1 Target Range(400310005) -AP 25-Jun-16 BETA 6.24E-03 1.97E-03 1.09E-02 pCi/m3 8S1 Target Range(401018005) -AP 2-Jul-16 BETA 1.30E-02 1.52E-03 8.15E-03 pCi/m3 8S1 Target Range(401598008) -AP 9-Jul-16 BETA 1.41 E-03 1.68E-03 9.63E-03 pCi/m3 8S1 Target Range(402089008) -AP 16-Jul-16 BETA 5.76E-03 1.61E-03 1.02E-02 pCi/m3 8S1 Taraet Ranae(402578005) -AP 23-Jul-16 BETA 1.23E-02 1.64E-03 8.65E-03 pCi/m3 8S1 Target Range(403120005) -AP 30-Jul-16 BETA 3.23E-03 1.62E-03 9.12E-03 pCi/m3 8S1 Target Range(403674005) -AP 6-Aug-16 BETA. 6.06E-03 1.64E-03 9.29E-03 pCi/m3 8S1 Target Range(404132005)-AP 13-Aug-16 BETA 7.04E-03 1.61E-03 8.61E-03 pCi/m3 8S1 Target Range(404555009) -AP 20-Aug-16 BETA 1.92E-02 1.67E-03 1.06E-02 pCi/m3 8S1 Taraet Ranae(405070009) -AP 27-Aua-16 BETA 1.61E-03 9.24E-03 pCi/m3 8S1 Target Range(405461005) -AP 3-Sep-16 BETA 1.97E-02 1.61E-03 9.13E-03 pCi/m3 8S1 Target Range(405943005) -AP 10-Sep-16 BETA 2.54E-02 *1.89E-03 9.93E-03 pCi/m3 8S1 Target Range(406484005) -AP 17-Sep-16 BETA 2.85E-02 1.78E-03 8.86E-03 pCi/m3 8S1 Target Range(406978005) -AP 24-Sep-16 BETA 3.05E-02 1.58E-03 8.98E-03 pCi/m3 8S1 Taraet Range(407538006) -AP 1-0ct-16 BETA 1.87E-02 1.60E-03 8.87E-03 pCi/m3 8S1 Target Range(408013005) -AP 8-0ct-16 BETA 3.78E-02 1.54E-03 1.00E-02 pCi/m3 BS 1 Target Range( 408711 005) -AP 15-0ct-16 BETA 1.79E-02 1.67E-03 9.68E-03 pCi/m3 8S1 Tarc:iet Ranae(409217005) -AP 22-0ct-16 BETA 2.79E-02 1.69E-03 1.03E-02 pCi/m3 8S1 Target Range(409738005) -AP 29-0ct-16 BETA 7.60E-03 1.79E-03 1.01E-02 pCi/m3 8S1 Target Range(410322005) -AP 5-Nov-16 BETA 3.02E-02 1.74E-03 3.95E-03 pCi/m3 8S1 Target Range(410821005)-AP 12-Nov-16 BETA 5.57E-02 1.71E-03 9.81E-03 pCi/m3 8S1 Target Range(411348005) -AP 19-Nov-16 BETA 1.02E-02 2.05E-03 1.11E-02 pCi/m3 8S1 Target Ranae(411620005) -AP 26-Nov-16 BETA 1.04E-02 1.53E-03 9.21E-03 pCi/m3 8S1 Target Range(412193004) -AP 3-Dec-16 BETA 2.45E-02 1.60E-03 8.83E-03 pCi/m3 8S1 Target Range(412746010) -AP 10-Dec-16 BETA 1.62E-02 1.62E-03 2.92E-03 pCi/m3 8S1 Target Range(413294009) -AP 17-Dec-16 BETA 3.14E-02 1.74E-03 6.86E-03 pCi/m3 8S1 Target Range(413412005) -AP 24-Dec-16 BETA 3.20E-02 1.96E-03 7.59E-03 pCi/m3 8S1 Taraet Ranae(413697009) -AP 31-Dec-16 BETA 2.07E-02 1.50E-03 7.71E-03 pCi/m3 8S1 Target Range(396298005) -AP 13-Feb-16 Bervllium-7 1.14E-01 1.03E-02 1.93E-02 pCi/m3 8S1 Target Range(396298005) -AP 13-Feb-16 Cesium-134 8.33E-05 6.11E-04 3.54E-04 pCi/m3 8S1 Target Range(401387005) -AP 14-May-16 Cesium-134 2.51E-04 6.79E-04 3.70E-04 pCi/m3 8S1 Target Range(408429005) -AP 13-Aug-16 Cesium-134 -3.47E-05 5.28E-04 4.01E-04 pCi/m3 8S1 Target Range(414245005) -AP 12-Nov-16 Cesium-134 5.73E-04 1.14E-03 5.95E-04 pCi/m3 8S1 Target Range(396298005) -AP 13-Feb-16 Cesium-137 3.11 E-04 5.06E-04 4.12E-04 pCi/m3 8S1 Target Range(401387005) -AP 14-May-16 Cesium-137 -1.36E-04 5.32E-04 3.44E-04 pCi/m3 8S1 Target Ranae(408429005) -AP 13-Aua-16 Cesium-137 -4.30E-05 2.99E-04 1.93E-04 oCi/m3 Page 40 of92 I L 2016 DCPP REMP Analysis Results Appendix A l8S1 Target Range(414245005) -AP 12-Nov-16 Cesium-137 -2.03E-04 I | |||
* 5.61 E-04 4.09E-04 pCi/m3 8S2 SW Site Boundary -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S2 SW Site Boundary(388797006) -AC 2-Jan-16 lodine-131 8.25E-04 9.28E-03 5.52E-03 pCi/m3 8S2 SW Site Boundary(389309010) -AC 9-Jan-16 lodine-131 3.20E-03 9.63E-03 5.42E-03 pCi/m3 8S2 SW Site Boundary(389808010) -AC 16-Jan-16 lodine-131 -2.10E-03 1.08E-02 6.88E-03 pCi/m3 8S2 SW Site Boundary(390230016) -AC 23-Jan-16 lodine-131 3.07E-03 9.93E-03 5.67E-03 pCi/m3 8S2 SW Site Boundary(390692010) -AC 30-Jan-16 lodine-131 -1.71E-03 1.29E-02 8.09E-03 pCi/m3 8S2 SW Site Boundary(391237012) -AC 6-Feb-16 lodine-131 -1.82E-03 9.11E-03 5.78E-03 pCi/m3 8S2 SW Site Boundary(391592010) -AC 13-Feb-16 lodine-131 -1.20E-03 9.47E-03 5.89E-03 pCi/m3 8S2 SW Site Boundary(392027016) -AC 20-Feb-16 lodine-131 -1.09E-02 1.05E-02 9.29E-03 pCi/m3 8S2 SW Site Boundary(392482016) -AC 27-Feb-16 lodine-131 -2.51E-03 7.50E-03 5.15E-03 pCi/m3 8S2 SW Site Boundarv(392952003) -AC 5-Mar-16 lodine-131 -4.03E-03 8.36E-03 5.93E-03 oCi/m3 8S2 SW Site Boundary(393384016) -AC 12-Mar-16 lodine-131 4.20E-04 8.99E-03 5.18E-03 pCi/m3 8S2 SW Site Boundary(393781010)-AC 19-Mar-16 lodine-131 -1.66E-03 1.04E-02 6.51E-03 pCi/m3 8S2 SW Site Boundarv(394076016) -AC 26-Mar-16 lodine-131 -2.43E-03 1.60E-02 1.01E-02 pCi/m3 8S2 SW Site Boundary(394752016) -AC . 2-Apr-16 lodine-131 1.49E-04 1.07E-02 6.44E-03 pCi/m3 8S2 SW Site Boundary(395261016) -AC lodine-131 -4.59E-03 8.10E-03 5.82E-03 pCi/m3 8S2 SW Site Boundary(395795016) -AC 16-Apr-16 lodine-131 5.87E-03 1.49E-02 8.57E-03 pCi/m3 8S2 SW Site Boundary(396244016) -AC 23-Apr-16 lodine-131 1.73E-03 1.06E-02 6.23E-03 pCi/m3 8S2 SW Site Boundary(396779016) -AC 30-Apr-16 lodine-131 -1.40E-03 1.01E-02 7.38E-03 pCi/m3 8S2 SW Site Boundary(397288016) -AC 7-May-16 lodine-131 6.73E-03 2.11E-02 1.22E-02 pCi/m3 8S2 SW Site Boundary(397706016) -AC 14-May-16 lodine-131. -1.68E-04 9.75E-03 5.78E-03 oCi/m3 8S2 SW Site Boundarv(398215016) -AC 21-May-16 lodine-131 2.72E-03 1.10E-02 6.35E-03 pCi/m3 8S2 SW Site Boundary(398542016) -AC 28-Mav-16 lodine-131 1.05E-02 1.58E-02 1.45E-02 pCi/m3 8S2 SW Site Boundary(399016016) -AC 4-Jun-16 lodine-131 1.97E-03 1.01E-02 5.85E-03 pCi/m3 8S2 SW Site Boundary(399503016) -AC 11-Jun-16 lodine-131 -3.17E-03 1.09E-02 7.06E-03 'pCi/m3 8S2 SW Site Boundary(399964016) -AC 18-Jun-16 lodine-131 -1.39E-03 8.70E-03 5.45E-03 pCi/m3 8S2 SW Site Boundary(400310016) -AC 25-Jun-16 lodine-131 4.47E-04 1.27E-02 7.52E-03 pCi/m3 8S2 SW Site Boundarv(401018016) -AC 2-Jul-16 lodine-131 3.27E-04 1.90E-02 1.13E-02 pCi/m3 8S2 SW Site Boundarv(401598006) -AC 9-Jul-16 lodine-131 3.98E-03 1.44E-02 8.30E-03 pCi/m3 8S2 SW Site Boundary(402089006) -AC 16-Jul-16 lodine-131 1.91E-03 1.40E-02 7.94E-03 pCi/m3 8S2 SW Site Boundary(402578016) -AC 23-Jul-16 lodine-131 -1.60E-03 1.13E-02 6.81E-03 pCi/m3 8S2 SW Site Boundarv(4031200'16) -AC 30-Jul-16 lodine-131 1.84E-04 --1.34E-02 8.81E-03 pCi/m3 8S2 SW Site Boundary(403674016) -AC 6-Aug-16 lodine-131 -1.20E-03 1.71E-02 1.01E-02 pCi/m3 8S2 SW Site Boundary(404132016) -AC 13-Auq-16 lodine-131 -4.46E-03 1.02E-02 7.21E-03 pCi/m3 8S2 SW Site Boundary(404555006) -AC 20-Aug-16 lodine-131 3.38E-03 1.64E-02 9.12E-03 pCi/m3 8S2 SW Site Boundary(405070006) -AC 27-Aug-16 lodine-131 4.33E-04 6.78E-03 3.85E-03 pCi/m3 8S2 SW Site Boundary(405461016) -AC 3-Sep-16 lodine-131 -3.00E-03 5.94E-03 4.41E-03 pCi/m3 8S2 SW Site Boundary(405943016) -AC 10-Sep-16 lodine-131 -2.26E-03 6.28E-03 4.26E-03 pCi/m3 8S2 SW Site Boundary(406484016) -AC 17-Sep-16 lodine-131 3.24E-04 5.81E-03 3.55E-03 pCi/m3 8S2 SW Site Boundary(406978016) -AC 24-Sep-16 lodine-131 1.32E-04 7.38E-03 4.43E-03 pCi/m3 8S2 SW Site Boundarv(407538016) -AC 1-0ct-16 lodine-131 -9.07E-04 9.58E-03 6.26E-03 pCi/m3 8S2 SW Site Boundary(408013015) -AC 8-0ct-16 lodine-131 -5.26E-04 1.22E-02 7.19E-03 pCi/m3 Page 41 of 92 2016 DCPP REMP Analysis Results Appendix A 8S2 SW Site Boundary(408711016) -AC 15-0ct-16 lodine-131 6.85E-03 7:75E-03 6.61E-03 pCi/m3 8S2 SW Site Boundarv(409217016)-AC 22-0ct-16 lodine-131 3.99E-03 9.48E-03 5.22E-03 pCi/m3 8S2 SW Site Boundarv(409738016) -AC 29-0ct-16 lodine-131 2.33E-03 8.56E-03 4.71E-03 pCi/m3 8S2 SW Site Boundarv(410322016) -AC - Nov-16 lodine-131 -4.28E-04 9.44E-03 5.BBE-03 pCi/m3 8S2 SW Site Boundary(410821016) -AC 12-Nov-16 lodine-131 1.25E-04 7.50E-03 4.38E-03 pCi/m3 8S2 SW Site Boundary(411348016) -AC 19-Nov-16 lodine-131 9.71E-03 2.02E-02 1.16E-02 pCi/m3 8S2 SW Site Boundary(411620016)-AC 26-Nov-16 lodine-131 -2.23E-03 8.36E-03 5.39E-03 pCi/m3 8S2 SW Site Boundary(412193012) -AC 3-Dec-16 lodine-131 -4.12E-04 1.09E-02 6.66E-03 pCi/m3 8S2 SW Site Boundarv(412746007) -AC 10-Dec-16 lodine-131 -2.23E-03 8.02E-03 5.11 E-03 pCi/m3 8S2 SW Site Boundary(413294006) -AC 17-Dec-16 lodine-131 -2.62E-04 1.07E-02 6.47E-03 pCi/m3 8S2 SW Site Boundary(413412016) -AC 24-Dec-16 lodine-131 6.49E-04 1.11 E-02 6.49E-03 pCi/m3 8S2 SW Site Boundary(413697006) -AC 31-Dec-16 lodine-131 -3.02E-03 5.14E-03 3:90E-03 pCi/m3 8S2 SW S"t B d 1e oun ary-A"Prf It Ir a 1cu a e Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S2 SW Site Boundary(388797007) -AP 2-Jan-16 BETA 2.83E-02 1.51E-03 7:86E-03 pCi/m3 8S2 SW Site Boundarv(389309004) -AP 9-Jan-16 BETA 1.26E-02 1.76E-03 8.59E-03 pCi/m3 8S2 SW Site Boundary(389808003) -AP 16-Jan-16 BETA 1.14E-02 1.70E-03 8.19E-03 pCi/m3 8S2 SW Site Boundarv(390230006) -AP 23-Jan-16 BETA 2.38E-02' 1.56E-03 8.82E-03 pCi/m3 8S2 SW Site Boundarv(390692003) -AP 30-Jan-16 BETA 2.04E-02 1.69E-03 8.17E-03 pCi/m3 8S2 SW Site Boundarv(391237002) -AP 6-Feb-16 BETA 3.12E-02 1.BOE-03 8.44E-03 pCi/m3 8S2 SW Site Boundarv(391592003) -AP 13-Feb-16 BETA 3.10E-02 1.56E-03 9.49E-03 pCi/m3 8S2 SW Site Boundary(392027006) -AP 20-Feb-16 BETA 2.66E-02 1.53E-03 8.03E-03 pCi/m3 8S2 SW Site Boundary(392482006) -AP 27-Feb-16 BETA 2.20E-02 1.50E-03 8.66E-03 pCi/m3 8S2 SW Site Boundary(392952010) -AP 5-Mar-16 BETA 1.46E-02 1.65E-03 7.82E-03 pCi/m3 8S2 SW Site Boundary(393384006) -AP 12-Mar-16 BETA 1.23E-02 1.46E-03 8.62E-03 pCi/m3 BS2 SW Site Boundarv(393781003) -AP 19-Mar-16 BETA 1.55E-02 1.60E-03 8.44E-03 pCi/m3 8S2 SW Site Boundarv(394076006) -AP 26-Mar-16 BETA 6.48E-03 1.59E-03 8.38E-03 pCi/m3 8S2 SW Site Boundary(394752006) -AP 2-Apr-16 BETA 2.76E-02 1.74E-03 9.43E-03 pCi/m3 8S2 SW Site Boundary(395261006) -AP 9-Apr-16 BETA 2.60E-02 1.73E-03 8.12E-03 pCi/m3 8S2 SW Site Boundary(395795006) -AP 16-Apr-16 BETA 2.01E-02 1.58E-03 8.55E-03 pCi/m3 8S2 SW Site Boundarv(396244006) -AP 23-Apr-16 BETA 1.24E-02 1.57E-03 9.04E-03 pCi/m3 8S2 SW Site Boundary(396779006) -AP 30-Apr-16 BETA 9.64E-03 1.65E-03 9.82E-03 pCi/m3 8S2 SW Site Boundary(397288006) -AP 7-May-16 BETA 1.33E-02 1.66E-03 8.36E-03 pCi/m3 8S2 SW Site Boundary(397706006) -AP 14-May-16 BETA 1.19E-02 1.52E-03 9.35E-03 pCi/m3 8S2 SW Site Boundary(398215006) -AP 21-May-16 BETA 4.73E-03 1.60E-03 9.18E-03 pCi/m3 8S2 SW Site Boundarv(398542006) -AP 28-May-16 BETA 1.48E-02 1.62E-03 1.02E-02 pCi/m3 8S2 SW Site Boundary(399016006) -AP 4-Jun-16 BETA 7.73E-03 1.50E-03 9.47E-03 pCi/m3 8S2 SW Site Boundary(399503006) -AP 11-Jun-16 BETA 1.17E-02 1.66E-03 7.89E-03 pCi/m3 BS2 SW Site Boundary(399964006) -AP 18-Jun-16 BETA 8.76E-03 1.65E-03 7.17E-03 pCi/m3 8S2 SW Site Boundary(400310006) -AP' 25-Jun-16 BETA 6.50E-03 1.92E-03 1.07E-02 pCi/m3 8S2 SW Site Boundary(401018006) -AP 2-Jul-16 BETA 1.40E-02 1.51E-03 8.14E-03 pCi/m3 8S2 SW Site Boundary(401598007) -AP 9-Jul-16 BETA 3.87E-03 1.67E-03 9.64E-03 pCi/m3 8S2 SW Site Boundary(402089007) -AP 16-Jul-16 BETA 4.46E-03 1.60E-03 1.01E-02 pCi/m3 | |||
* 8S2 SW Site Boundary(402578006) -AP 23-Jul-16 BETA 8.33E-03 1.65E-03 8.57E-03 pCi/m3 Page 42 of92 2016 DCPP REMP Analysis Results Appendix A 8S2 SW Site Boundary(403120006) -AP 30-Jul-16 BETA 2.09E-03 1.64E-03 9.19E-03 pCi/m3 8S2 SW Site Boundary(403674006) -AP 6-Aug-16 BETA 5.60E-03 1.63E-03 9.26E-03 pCi/m3 8S2 SW Site Boundary(404132006) -AP 13-Aug-16 BETA 1.03E-02 1.59E-03 8.59E-03 pCi/m3 8S2 SW Site Boundary(404555007) -AP 20-Auo-16 BETA 1.89E-02 1.69E-03 1.08E-02 oCi/m3 8S2 SW Site Boundary(405070007) -AP 27-Aug-16 BETA 1.81E-02 1.61E-03 9.10E-03 pCi/m3 8S2 SW Site Boundary(405461006) -AP 3-Sep-16 BETA 1.76E-02 9.01 E-03 " pCi/m3 8S2 SW Site Boundarv(405943006) -AP 10-Sep-16 BETA 2.62E-02 1.84E-03 9.?0E-03 pCi/m3 8S2 SW Site Boundary(406484006) -AP 17-Sep-16 BETA 2.64E-02 1.79E-03 8.85E-03 pCi/m3 8S2 SW Site Boundary(406978006) -AP 24-Sep-16 BETA 2.71E-02 1.57E-03 8.85E-03 oCi/m3 8S2 SW Site Boundary(407538005) -AP 1-0ct-16 BETA 1.99E-02 1.60E-03 8.88E-03 pCi/m3 8S2 SW Site Boundary(408013006) -AP 8-0ct-16 BETA 3.26E-02 1.53E-03 9.86E-03 pCi/m3 8S2 SW Site Boundarv(408711006) -AP 15-0ct-16 BETA 1.48E-02 1.67E-03 9.59E-03 pCi/m3 8S2 SW Site Boundarv(409217006) -AP 22-0ct-16 BETA 2.74E-02 1.69E-03 1.02E-02 pCi/m3 8S2 SW Site Boundarv(409738006) -AP . 29-0ct-16 BETA 1.27E-02 1.81E-03 1.03E-02 oCi/m3 8S2 SW Site Boundary(410322006) -AP 5-Nov-16 BEJA 2.44E-02 1.74E-03 3.56E-03 pCi/m3 8S2 SW Site Boundarv(410821006) -AP 12-Nov-16 BETA 4.00E-02 1.72E-03 9.42E-03 pCi/m3 8S2 SW Site Boundary(411348006) -AP 19-Nov-16 BETA 6.18E-03 2.02E-03 1.08E-02 pCi/m3 8S2 SW Site Boundary(411620006) -AP 26-Nov-16 BETA 7.94E-03 1.54E-03 9.18E-03. pCi/m3 8S2 SW Site Boundary(412193013) -AP 3-Dec-16 BETA 2.60E-02 1.62E-03 8.98E-03 oCi/m3 8S2 SW Site Boundary(412746008) -AP 10-Dec-16 BETA 1.43E-02 1.63E-03 2.77E-03 pCi/m3 8S2 SW Site Boundary(413294007) -AP 17-Dec-16 BETA 3.15E-02 1.74E-03 6.85E-03 pCi/m3 8S2 SW Site Boundary( 413412006) -AP 24-Dec-16 BETA 3.40E-02 1.96E-03 7.66E-03 pCi/m3 8S2 SW Site Boundary(413697007) -AP . 31-Dec-16 BETA 2.01E-02 1.51E-03 7.75E-03 pCi/m3 8S2 SW Site Boundarv(396298006) -AP 13-Feb-16 Beryllium-? 1.04E-01 1.16E-02 2.15E-02 pCi/m3 8S2 SW Site Boundarv(396298006) -AP 13-Feb-16 Cesium-134 -2.87E-04 5.57E-04 4.36E-04 pCi/m3 8S2 SW Site Boundary(401387006) -AP 14-May-16 Cesium-134 2.61 E-04 6.21 E-04 3.37E-04 pCi/m3 8S2 SW Site Boundary(408429006) -AP 13-Auq-16 Cesium-134 2.01E-05 5.88E-04 3.51E-04 pCi/m3 8S2 SW Site Boundary(414245006) -AP 12-Nov-16 Cesium-134 2.02E-05 4.11E-04 2.47E-04 pCi/m3 8S2 SW Site Boundary(396298006) -AP 13-Feb-16 Cesium-137 -2.0?E-04 5.09E-04 3.69E-04 pCi/m3 8S2 SW Site Boundarv(401387006) -AP 14-May-16 Cesium-137 2.41E-04 6.55E-04 3.69E-04 pCi/m3 8S2 SW Site Boundary(408429006) -AP 13-Aug-16 Cesium-137 -4.38E-05 5.63E-04 3.50E-04 pCi/m3 8S2 SW Site Boundary(414245006) -AP 12-Nov-16 Cesium-137 2.05E-05 4.36E-04 2.60E-04 pCi/m3 8S3 DCSF96 Groundwater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S3 DCSF96-1(390373002) -GW 26-Jan-16 BETA 1.56E+01 1.30E+OO 2.85E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 BETA 9.01E+OO 1.46E+OO 1.92E+OO oCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 BETA 5.96E+OO 1.74E+OO 1.57E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 BETA 7.22E+OO 1.08E+OO 1.50E+OO pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Barium-140 3.52E+OO 1.42E+01 8.23E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Barium-140 4.17E+OO 1.13E+01 6.64E+OO pCi/L 8S3 DCSF96-1(402877002) -GW 27-Jul-16 Barium-140 1.85E+OO 9.78E+OO 5.85E+OO pCi/L 8S3 DCSF96-1 (411160001) -GW 16-Nov-16 Barium-140 -2.46E+OO 7.74E+OO 4.92E+OO pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Cesium-134 -5.14E-03 2.33E+OO 1.38E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Aor-16 Cesium-134 3.74E-01 2.10E+OO 1.37E+OO oCi/L Page 43 of 92 2016 DCPP REMP Analysis Results Appendix A 8S3 DCSF96-1(402877002) -GW 27-Jul-16 Cesium-134 4.31E-01 1.80E+OO 1.04E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Cesium-134 2.75E-01 1.52E+OO 9.29E-01 pCi/L 8S3 DCSF96-1(390373002) -GW 26-Jan-16 Cesium-137 -4.89E-01 2.06E+OO 1.26E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Cesium-137 9.48E-01 2.11E+OO 1.27E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Cesium-137 2.80E-02 1.65E+OO 1.00E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Cesium-137 -5.57E-01 1.44E+OO 9.52E-01 pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Cobalt-58 1.35E-01 2.13E+OO 1.25E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Cobalt-58 1.-38E+OO 2.17E+OO 1.52E+OO pCi/L 8S3 DCSF96"1(402877002)-GW 27-Jul-16 Cobalt-58 1.29E-01 1.57E+OO , 1.04E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 Cobalt-58 -4.73E-02 1.35E+OO 7.81 E-01 _ pCi/L 8S3 DCSF96-1(390373002) -GW 26-Jan-16 Cobalt-60 1.31 E+OO 2.44E+OO 1.45E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Cobalt-60 -4.23E-01 1.97E+OO 1.23E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Cobalt-60 -6.52E-02 1.80E+OO 1.66E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Cobalt-60 3.71E-01 1.39E+OO 8.15E-01 pCi/L 8S3 DCSF96-1 (390373002).-GW 26-Jan-16 lodine-131 9.76E-01 6.19E+OO 3.70E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 lodine-131 4.80E-02 4.34E+OO 2.60E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 lodine-131 -2.27E-01 3.74E+OO 2.21E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 lodine-131 1.22E-01 3.01E+OO 1.76E+OO pCi/L 8S3 DCSF96-1(390373002) -GW 26-Jan-16 lron-55 -3.71E+OO 5.03E+01 3.73E+01 pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 lron-55 -1.73E+01 6.28E+01 4.50E+01 pCi/L 8S3 DCSF96-1 (402877002) -GW 27-Jul-16 lron-55 1.93E+01 6.75E+01 5.03E+01 pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 lron-55 * -8.18E+OO 8.13E+01 6.22E+01 " pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 lron-59 1.62E+OO 4.48E+OO 3.03E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 lron-59 -1.97E-01 4.10E+OO 2.43E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 lron-59 1.94E-01 3.29E+OO 1.94E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 lron-59 -1.09E+OO 2.74E+OO 1.77E+OO pCi/L 8S3 DCSF96-1(390373002) GW 26-Jan-16 Lanthanum-140 -6.40E+OO 4.78E+OO 6.92E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Lanthanum-140 -8.08E-01 3.69E+OO 2.35E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Lanthanum-140 -2.71E-01 2.76E+OO 1.90E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Lanthanum-140 -7.45E-01 2.45E+OO 1.75E+OO pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Manganese-54 7.58E-02 1.98E+OO 1.17E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Manganese-54 -1.05E+OO 1.89E+OO 1.30E+OO pCi/L 8S3 DCSF96-1(402877002) -GW 27-Jul-16 Manganese-54 -5.85E-01 1.49E+OO 1.08E+OO pCi/L 8S3 DCSF96-1 (411160001) -GW 16-Nov-16 Manganese-54 1.32E-01 1.35E+OO 7.72E-01 pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Nickel-63 -2.20E+OO 2.36E+01 1.39E+01 pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Nickel-63 1.73E+01 3.41E+01 2.13E+01 pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Nickel-63 -1.94E+OO 2.56E+01 1.52E+01 pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Nickel-63 4.93E+OO 3.45E+01 2.07E+01 pCi/L 8S3 DCSF96-1 (390373002) -GW 26-Jan-16 Niobium-95 1.58E+OO 2.39E+OO 1.50E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Niobium-95 -5.22E-01 1.98E+OO 1.24E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Niobium-95 7.25E-01 1.76E+OO 1.04E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Niobium-95 7.70E-02 1.56E+OO 1.08E+OO pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Total Strontium -1.12E-01 4.00E-01 2.35E-01 pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Total Strontium -1.13E-02 2.37E-01 1.41E-01 pCi/L 8S3 DCSF96-1 (402877002) -GW 27-Jul-16 Total Strontium -8.47E-02 1.44E-01 8.21E-02 pCi/L Page 44 of92 2016 DCPP REMP Analysis Results Appendix A 8S3 DCSF96-1 (411160001) -GW 16-Nov-16 Total Strontium 4.83E-02 5.21E-01 3.15E-01 pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan"16 Tritium 1.04E+02 2.73E+02 1.68E+02 pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Tritium -8.72E+01 2.78E+02 1.62E+02 pCi/L 8S3 DCSF96-1(402877002) -GW 27-Jul-16 Tritium 7.02E+01 2.90E+02 1.76E+02 pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Tritium 5.53E+01 2.65E+02 1.61E+02 pCi/L 8S3 DCSF96-1(390373002) -GW 26-Jan-16 Zinc-65 -2.33E+OO 4.32E+OO 3.48E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Zinc-65 2.38E-01 4.32E+OO 2.53E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Zinc-65 3.52E-01 2.84E+OO 1.91 E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 Zinc-65 -4.97E-02 2.94E'i'.OO 1.98E+OO oCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Zirconium-95 2.00E-01 4.02E+OO 2.37E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Zirconium-95 -1.85E+OO 3.70E+OO 2.48E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Zirconium-95 4.97E-01 2.99E+OO 1.72E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 Zirconium-95 1.46E+OO 2.57E+OO 1.76E+OO pCi/L AVA Avila Beach -Beach Sand Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units AVA Avila Beach(393297001) -SD 10-Mar-16 Barium-140 2.57E+02 3.02E+02 1.93E+02 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Barium-140 8.21 E+01 3.27E+02 1.81 E+02 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Cesium-134 5.97E+OO 6.28E+01 3.55E+01 pCi/kq AVA Avila Beach(406060003) -SD , 13-Sep-16 Cesium-134 4.59E+01 7.50E+01 4.02E+01 pCi/kg AVA Avila Beach(393297001)-SD 10-Mar-16 Cesium-137 -3.83E+OO 4.75E+01 2.76E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 Cesium-137 4.69E+01 7.89E+01 4.46E+01 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Cobalt-58 1.96E+01 6.06E+01 3.32E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 Cobalt-58 -4.78E+OO 6.76E+01 3.90E+01 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Cobalt-60 2.83E+OO | |||
* 4.78E+01 2.73E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 Cobalt-60 3.85E+01 7.52E+01 4.34E+01 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 lron-55 -1.86E+03 1.13E+04 8.48E+03 pCi/kq AVA Avila Beach(406060003) -SD 13-Sep-16 lron-55 7.24E+03 1.71E+04 1.24E+04 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 lron-59 6.37E+OO 1.15E+02 7.85E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 lron-59 3.06E+01 1.67E+02 9.26E+01 pCi/kg AVA Avila Beach(393297001)-SD 10-Mar-16 Lanthanum-140 1.63E+01 8.36E+01 4.44E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 Lanthanum-140 4.07E+OO 1.16E+02 6.85E+01 pCi/kq AVA Avila Beach(393297001) -SD 10-Mar-16 Lead-212 3.09E+02 8.87E+01 1.04E+02 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Lead-214 4.72E+02 1.13E+02 1.42E+02 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Manganese-54 2.19E+OO 5.83E+01 3.36E+01 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Manganese-54 -1.06E+01 5.99E+01 4.13E+01 pCi/kg AVA Avila Beach(393297001)-SD 10-Mar-16 Nickel-63 2.98E+02 1.93E+03 1.16E+03 pCi/kq AVA Avila Beach(406060003)-SD 13-Sep-16 Nickel-63 -1.35E+03 2.64E+03 1.52E+03 _pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Niobium-95 -2.84E+01 5.75E+01 4.58E+01 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Niobium-95 -2.28E+01 7.21E+01 5.53E+01 pCi/kg AVA Avila Beach(393297001)-SD 10-Mar-16 Potassium-40 1.26E+04 4.28E+02 1.74E+03 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Total Strontium -9.77E+02 1.67E+03 8.70E+02 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Total Strontium -7.20E+02 1.19E+03 6.28E+02 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Zinc-65 2.90E+01 1.45E+02 9.14E+01 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Zinc-65 -8.31E+01 1.51E+02 1.09E+02 oCi/kq Page 45 of92 2016 DCPP REMP Analysis Results Appendix A AVA Avila Beach(393297001) -SD 10-Mar-16 Zirconium-95 3.57E+01 8.80E+01 5.08E+01 pCi/kg AVA Avila Beach 406060003)-SD 13-Sep-16 Zirconium-95 1.79E+01 1.22E+02 7.03E+01 pCi/kg BCM Blanchard Cow Meat Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Cesium-134 3.99E+OO 5.79E+OO 4.01E+OO pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Cesium-134 -1.99E+OO 3.75E+OO 2.78E+OO pCi/kg BCM Blanchard Cow Meat(404129003) -MT* 16-Aug-16 Cesium-134 -1.16E+OO 5.70E+OO 3.60E+OO pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 Cesium-134 -1.35E+OO 4.74E+OO 2.99E+OO pCi/kq BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Cesium-137 2.05E+OO 5.42E+OO 3.21 E+OO pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Cesium-137 3.52E+OO 3.76E+OO 4.80E+OO pCi/kg BCM Blanchard Cow Meat(404129003)-MT 16-Aug-16 Cesium-137 -1.30E+OO 5.23E+OO 3.28E+OO pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 Cesium-137 2.91E+OO 4.11E+OO 3.13E+OO pCi/kg BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Cobalt-58 3.93E-01 5.06E+OO 3.08E+OO pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Cobalt-58 -5.53E-01 3.52E+OO 2.27E+OO pCi/kg BCM Blanchard Cow Meat(404129003) -MT 16-Aug-16 Cobalt-58 -4.45E-01 4.82E+OO 3.07E+OO pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 Cobalt-58 1.42E+OO 4.59E+OO 2.69E+OO pCi/kg BCM Blanchard Cow Meat(392454003) -MT_ 1-Mar-16 Cobalt-60 1.24E+OO 5.95E+OO 3.44E+OO pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-Mav-16 Cobalt-60 -2.79E-01 3.72E+OO 2.49E+OO oCi/kq BCM Blanchard Cow Meat(404129003) -MT 16-Aug-16 Cobalt-60 -2.64E+OO 5.61E+OO 4.23E+OO pCi/kg BCM Blanchard Cow Meat(409315003)-MT 25-0ct-16 Cobalt-60 -1.84E+OO 4.40E+OO 2.90E+OO pCi/kg BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 lodine-131 1.64E+OO 6.79E+OO 4.67E+OO oCi/ka BCM Blanchard Cow Meat(397285003) -MT 10-May-16 lodine-131 1.51E+OO 5.98E+OO 3.53E+OO pCi/kg BCM Blanchard Cow Meat(404129003) -MT 16-Aug-16 lodine-131 1.35E+OO. 5.69E+OO 3.46E+OO pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 lodine-131 -5.35E+OO 6.73E+OO 5.58E+OO pCi/kg BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Potassium-40 2.91E+03 5.62E+01 2.92E+02 pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Potassium-40 2.58E+03 3.80E+01 2.54E+02 pCi/kq BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Total Strontium 4.36E+OO 5.70E+01 3.41E+01 pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Total Strontium -2.54E+01 3.80E+01 2.14E+01 pCi/kg BCM Blanchard Cow Meat(404129003) -MT 16-Aug-16 Total Strontium -5.63E+01 1.08E+02 6.29E+01 pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 Total Strontium 3.72E+01 6.00E+01 4.33E+01 pCi/kg CBA Cambria Moonstone Beach -Beach Sand Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units CBA Cambria Moonstone Beach(393297002) -SD m-Mar-16 Barium-140 3.14E+01 2.89E+02 1.56E+02 pCi/kg CBA Cambria Moonstone Beach(406060004)-SD 13-Sep-16 Barium-140 -1.19E+01 2.45E+02 1.42E+02 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar.16 Cesium-134 3.29E+01 5.91E+01 3.62E+01 oCi/kq CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Cesium-134 -3.01E+OO 4.18E+01 2.55E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Cesium-137 4.74E+01 4.74E+01 5.38E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD | |||
* 13-Sep-16 Cesium-137 2.71E+01 3.49E+01 2.87E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Cobalt-58 -3.49E+01 3.44E+01 3.20E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Seo-16 Cobalt-58 1.21 E+01 4.36E+01 2.31E+01 pCi/ka CBA Cambria Moonstone Beach(393297002) -SD . 10-Mar-16 Cobalt-60 2.02E+01 5.32E+01 2.76E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Cobalt-60 -1.41 E+01 3.67E+01 2.64E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 lron-55 -4.63E+03 1.14E+04 8.47E+03 oCi/ka Page 46 of 92 2016 DCPP REMP Analysis Results Appendix A CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 lron-55 -2.01E+03 1.63E+04 1.15E+04 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 lron-59 1.13E+02 1.39E+02 1.20E+02 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 lron-59 6.52E-01 9.54E+01 5.75E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Lanthanum-140 1.18E+01 7.40E+01 3.95E+01 pCi/kq CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Lanthanum-140 -1.61 E+01 4.16E+01 3.39E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Lead-212 3.84E+02 8.33E+01 9.53E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Manganese-54 -4.65E+OO 4.54E+01 2.73E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 . Manganese-54 -4.87E+OO 4.16E+01 2.60E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Nickel-63 2.16E+02 2.09E+03 1.25E+03 -pCi/kq CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Nickel-63 -1.26E+03 2.62E+03 1.52E+03 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Niobium-95 -7.36E+OO 5.00E+01 2.96E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Niobium-95 -2.50E+OO 4.37E+01 2.97E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 1 O-Mar-16 Potassium-40 5.75E+03 3.98E+02 1.07E+03 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Total Strontium -2.10E+02 1.62E+03 9.35E+02 -pCi/kg CBA Cambria Moonstone Beach(406060004) -SD , 13-Sep-16 Total Strontium -1.68E+02 9.38E+02 5.32E+02 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Zinc-65 -3.65E+01 1.12E+02 7.25E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Zinc-65 1.05E+01 1.31E+02 7.70E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Zirconium-95 -5.93E+01 6.45E+01 5.64E+01 pCi/kg CBA Cambria Moonstone Beach(406060004)-SD 13-Sep-16 Zirconium-95 3.74E+OO 6.34E+01 3.74E+01 pCi/kq CCM Control Cow Meat Sample Name Date Collected Nuclide Result MDC 2 SiQmaTPU Units CCM Control Cow Meat(389479001) -MT 12-Jan-16 Cesium-134 1.58E+OO 3.79E+OO 2.33E+OO pCi/kg CCM Control Cow Meat(396918001.) -MT 4-Mav-16 Cesium-134 1.02E+OO 3.97E+OO 2.35E+OO pCi/kg CCM Control Cow Meat(403108002)-MT ' 1-Aug-16 Cesium-134 -1.47E+OO 5.84E+OO 3.57E+OO pCi/kg CCM Control Cow Meat(409315004) -MT 26-0ct-16 Cesium-134 1.51E+OO 4.89E+OO 2.94E+OO pCi/kg CCM Control Cow Meat(389479001) -MT 12-Jan-16 Cesium-137 2.44E+OO 3.77E+OO 2.42E+OO pCi/kq CCM Control Cow Meat(396918001) -MT 4-May-16 Cesium-137 2.48E+OO 3.73E+OO 2.65E+OO pCi/kg CCM Control Cow Meat(403108002)-MT 1-Aug-16 Cesium-137 1.41 E+OO 5.99E+OO 3.59E+OO pCi/kg CCM Control Cow Meat( 409315004) -MT 26-0ct-16 Cesium-137 7.79E-02 4.15E+OO 2.50E+OO pCi/kg .CCM Control Cow Meat(389479001) -MT \ 12-Jan-16 Cobalt-58 1.60E+OO 3.55E+OO 2.10E+OO pCi/kg CCM Control Cow Meat(396918001)-MT 4-May-16 Cobalt-58 2.54E+OO 3.30E+OO* 2.70E+OO pCi/kq CCM Control Cow Meat(403108002)-MT 1-Aug-16 Cobalt-58 -6.38E-04 5.60E+OO ./ 3.27E+OO pCi/kg CCM Control Cow Meat(409315004) -MT 26-0ct-16 Cobalt-58 -9.50E-01 4.18E+OO 2.70E+OO pCi/kg CCM Control Cow Meat(389479001) -MT 12-Jan-16 Cobalt-60 -3.80E-01 3.74E+OO 2.92E+OO pCi/kg CCM Control Cow Meat(396918001)-MT 4-May-16 Cobalt-60 -1.00E+OO 3.84E+OO 2.40E+OO pCi/kg CCM Control Cow Meat(403108002)-MT 1-Aug-16 Cobalt-60 -1.32E+OO 5.84E+OO 4.35E+OO pCi/kQ CCM Control Cow Meat(409315004) -MT 26-0ct-16 Cobalt-60 -1.62E+OO 3.70E+OO 2.53E+OO pCi/kg CCM Control Cow Meat(389479001) -MT 12-Jan-16 lodine-131 5.20E-01 5.67E+OO' 3.31E+OO pCi/kg CCM Control Cow Meat(396918001)-MT 4-May-16 lodine-131 3.33E+OO 5.47E+OO 3.50E+OO pCi/kg CCM Control Cow Meat(403108002)-MT 1-Aug-16 lodine-131 2.11E+OO 1.02E+01 5.94E+OO pCi/kg CCM Control Cow Meat(409315004) -MT 26-0ct-16 lodine-131 -3.58E-01 6.26E+OO 4.07E+OO pCi/kq CCM Control Cow Meat(389479001) -MT 12-Jan-16 Potassium-40 2.38E+03 2.74E+01 2.46E+02 pCi/kg CCM Control Cow Meat(396918001) -MT 4-May-16 Potassium-40 2.54E+03 3.26E+01 2.48E+02 pCi/kg CCM Control Cow Meat(389479001) -MT 12-Jan-16 Total Strontium 1.71E+OO 1.35E+02 8.08E+01 pCi/kq _) Page 47 of92 | |||
-l 2016 DCPP REMP Analysis Results Appendix A CCM Control Cow Meat(396918001) -MT 4-May-16 Total Strontium -7.76E+OO 2.95E+01 1.72E+01 pCi/kg CCM Control Cow Meat(403108002) -MT 1-Aug-16 Total Strontium -2.12E+01 4.00E+01 2.30E+01 .pCi/kg CCM Control Cow Meat(409315004) -MT 26-0ct-16 Total Strontium -1.22E+02 1.64E+02 8.41 E+01 pCi/kg CYA Cayucos Beacn -Beach Sand Sample Name I Date Collected Nuclide Result MDC 2 Sigma TPU Units CYA Cayucos Beach(393297003) -SD 10-Mar-16 Barium-140 7.80E+01 | |||
* 2.66E+02 1.58E+02 pCi/kg CYA Cavucos Beach(406060005) -SD 13-Sep-16 Barium-140 6.79E+01 2.70E+02 1,.49E+02 pCi/kg CYA Cavucos Beach(393297003) -SD 10-Mar-16 Bismuth-214 2.86E+02 7.45E+01 9.24E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Cesium-134 3.50E+01 5.20E+01 2.86E+01 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Cesium-134 5.07E+01 6.32E+01 4.93E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Cesium-137 -5.20E+OO 3.48E+01 2.15E+01 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Cesium-137 6.98E+OO 6.61E+01 3.71E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Cobalt-58 -7.63E+OO 4.72E+01 2.81E+01 pCi/kq CYA Cayucos Beach(406060005) -SD 13-Sep-16 Cobalt-58 -2.58E+01 4.78E+01 3.40E+01 pCi/kg .. CYA Cayucos Beach(393297003) -SD 10-Mar"16 Cobalt-60 -5.49E+OO 3.56E+01 2.62E+01 pCi/kg CYA Cavucos Beach(406060005)-SD 13-Sep-16 Cobalt-60 2.00E+01 6.33E+01 3.44E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 lron-55 -3.48E+03 1.13E+04 8.39E+03 pCi/kg CYA Cavucos Beach(406060005) -SD 13-Sep-16 lron-55 2.50E+03 1.55E+04 1.11E+04 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 lron-59 -2.22E+01 8.68E+01 5.70E+01 pCi/kg CYA Cayucos Beach(406060005)-SD 13-Sep-16 lron-59 1.79E+01 1.01E+02 5.58E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Lanthanum-140 7.87E+OO 5.26E+01 2.70E+01 pCi/kq CYA Cayucos Beach(406060005)-SD 13-Sep-16 Lanthanum-140 -2.74E+01 9.62E+01 6.40E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Lead-214 2.81E+02 8.02E+01 1.00E+02 oCi/kq CYA Cayucos Beach(393297003)-SD 10-Mar-16 Manganese-54 1.77E+01 4.73E+01 2.53E+01 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Manganese-54 3.35E+OO 5.64E+01 3.17E+01 pCi/kg CYA Cavucos Beach(393297003) -SD 10-Mar-16 Nickel-63 4.81E+02 2.15E+03 1.30E+03 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Nickel-63 -1.91E+03 2.49E+03 1.42E+03 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Niobium-95 9.50E+OO 4.72E+01 2.53E+01 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Niobium-95 2.49E+01 5.79E+01 3.07E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Potassium-40 7.69E+03 3.65E+02 1.23E+03 pCi/kg CYA Cavucos Beach(393297003) -SD 10-Mar-16 Total Strontium 1.72E+03 1.73E+03 1.33E+03 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Total Strontium -2.06E+02 8.70E+02 4.89E+02 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Zinc-65 -2.73E+01 9.00E+01 5.82E+01 pCi/kg CYA Cavucos Beach(406060005) -SD ' 13-Sep-16 Zinc-65 -3.14E+01 1.31E+02 9.46E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Zirconium-95 8.96E+OO 8.54E+01 4.66E+01 pCi/kg CYA Cavi.Jcos Beach(406060005) -SD 13-Sep-16 Zirconium-95 -5.38E+01 7.44E+01 5.82E+01 pCi/kg Page 48 of 92 L 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine -Aquatic Vegetation Algae | |||
* Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(402576001) -AV Algae 25-Jul-16 Cesium-134 -4.03E-01 5.41E+OO 3.20E+OO pCi/kg DCM Diablo Cove Marine(402576001) -AV Alqae 25-Jul-16 Cesium-137 3.19E-01 5.21E+OO 3.17E+OO pCi/kq DCM Diablo Cove Marine(402576001) -AV Algae 25-Jul-16 Cobalt-58 5.95E-01 5.83E+OO 3.39E+OO pCi/kg DCM Diablo Cove Marine(402576001)-AV Algae-25-Jul-16 Cobalt-60 6.90E+OO 6.90E+OO 6.03E+OO pCi/kg DCM Diablo Cove Marine(402576001)-AV Algae 25-Jul-16 lron-59 -5.11E+OO 1.26E+01 8.32E+OO pCi/kg DCM Diablo Cove Marine(402576001)-AV Algae 25-Jul-16 Manganese-54 2.29E+OO 5.09E+OO 3.72E+OO pCi/kg DCM Diab lo Cove Marine( 402576001) -AV Algae 25-Jul-16 Zinc-65 -6.02E+OO 1.18E+01 9.32E+OO pCi/kg DCM Diablo Cove Marine -Aquatic Vegetation Kelp Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Cesium-134 2.14E+OO 1.38E+01 8.51E+OO pCi/kg DCM Diablo Cove Marine(401652002) -AV Kelp 11-Jul-16 Cesium-134 1.95E+OO 1.51E+01 9.09E+OO pCi/kg DCM Diablo Cove Marine(408321002)-AV Kelp 11-0ct-16 Cesium-134 1.89E+OO 1.13E+01 6.79E+OO pCi/kg DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Cesium-137 5.88E+OO 1.28E+01 8.39E+OO pCi/kg DCM Diablo Cove Marine(401652002)-AV Kelp 11-Jul-16 Cesium-137 4.05E+OO 1.54E+01 9.18E+OO pCi/kg DCM Diablo Cove Marine(408321002)-AV Kelp 11-0ct-16 Cesium-137 2.09E+OO 1.05E+01 6.25E+OO pCi/kg DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Cobalt-58 6.82E+OO 1.37E+01 9.12E+OO pCi/kg DCM Diablo Cove Marine(401652002) -AV Kelp 11-Jul-16 Cobalt-58 6.96E-01 1.65E+01 9.97E+OO pCi/kg DCM Diablo Cove Marine(408321002) -AV Kelp 11-0ct-16 Cobalt-58 1.14E+01 1.14E+01 1.28E+01 pCi/kg DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Cobalt-60 -4.41E-i;OO 1.50E+01 9.55E+OO pCi/kq DCM Diablo Cove Marine(401652002)-AV Kelp 11-Jul-16 Cobalt-60 -1.04E+01 1.45E+01 1.07E+01 _ pCi/kg DCM Diablo Cove Marine(408321002)-AV Kelp 11-0ct-16 Cobalt-60 6.33E-01 1.20E+01 7.02E+OO pCi/ka DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Potassium-40 1.20E+04 9.70E+01 -1.14E+03 pCi/kg DCM Diablo Cove Marine -Fish Perch Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Cesium-134 -1.65E+OO 6.79E+OO 4.17E+OO pCi/kg DCM Diablo Cove Marine(397703008) -FH Perch 13-May-16 Cesium-134 -2.47E+OO 5.25E+OO 3.50E+OO pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Cesium-134 -6.27E+OO 4.75E+OO 5.21E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Cesium-134 2.35E+OO 4.72E+OO 2.90E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Cesium-137 5.00E+OO 6.43E+OO 4.77E+OO pCi/kg DCM Diablo Cove Marine(3"97703008) -FH Perch 13-May-16 Cesium-137 2.14E+OO 5.49E+OO 3.27E+OO pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Cesium-137 4.63E+OO 4.63E+OO 7.57E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Cesium-137 4.06E+OO 4.06E+OO 4.10E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Cobalt-58 6.22E+OO 4.13E+OO pCi/kg DCM Diablo Cove Marine(397703008) -FH Perch 13-May-16 Cobalt-58 -3.03E-01 5.43E+OO 3.27E+OO pCi/kg DCM Diablo Cove Maririe(404224002) -FH Perch 11-Aug-16 Cobalt-58 -1.83E+OO 5.23E+OO 3.45E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Cobalt-58 1.70E+OO 4.42E+OO 2.68E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Cobalt-60 -1.78E+OO 7.46E+OO 4.63E+OO pCi/kg DCM Diablo Cove Marine(397703008) -.FH Perch 13-Mav-16 Cobalt-60 -9.44E-01 5.66E+OO 3.44E+OO pCi/kq DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Cobalt-60 2.32E+OO 5.60E+OO 3.27E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Cobalt-60 8.04E-01 5.10E+OO 6.87E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 lron-59 2.88E+OO 1.57E+01 9.44E+OO pCi/kq Page 49 of 92 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(397703008) -FH Perch 13-May-16 lron-59 1.28E+OO 1.31E+01 7.60E+OO, pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 lron-59 -3.04E+OO 1.32E+01 8.01E+OO pCi/kg DCM Diablo Cove Marine(408192006)-FH Perch 10-0ct-16 lron-59 1.17E+OO 9.91E+OO 5.71E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Manqanese-54 -7.73E-01 6.15E+OO 3.70E+OO pCi/kg DCM Diablo Cove Marine(397703008) -FH Perch 13-May-16 Manganese-54 -1.54E+OO 4.64E+OO 2.98E+OO pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Manganese-54 2.97E+OO 4.95E+OO 3.10E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Manganese-54 1.48E+OO 3.99E+OO 2.42E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Potassium-40 3.95E+03 5.76E+01 4.18E+02 pCi/kg-DCM Diablo Cove Marine(397703008) -FH Perch 13-Mav-16 Pota;;sium-40 3.73E+03 5.12E+01 3.58E+02 oCi/kq DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Zinc-65 -1.61E+OO | |||
* 1.59E+01 9.77E+OO pCi/kg DCM Diablo Cove Marine(397703008) -FH Perch 13-Mav-16 Zinc-65 -1.16E+OO 1.41E+01 8.33E+OO pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Zinc-65 2.02E+OO 1.22E+01 7.00E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Zinc-65 -3.87E-01 1.07E+01 6.25E+OO pCi/kg DCM Diablo Cove Marine -Rockfish Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Cesium-134 -6.12E+OO 1.22E+01 8.21E+OO pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-May-16 Cesium-134 1.87E+OO 4.17E+OO 2.61E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Auq-16 Cesium-134 -2.04E+OO 5.10E+OO 3.56E+OO oCi/kq DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Cesium-134 3.21E+OO 5.03E+OO 3.20E+OO pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Cesium-137 1.70E+OO 1.20E+01 1.04E+01 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Cesium-137 1.96E+OO 4.03E+OO 2.50E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 Cesium-137 1.08E+OO 5.35E+OO 3.83E+OO pCi/kg DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Cesium-137 3.62E+OO 3.62E+OO 3.77E+OO pCi/kQ DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Cobalt-58 5.31E+OO 1.26E+01 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-May-16 Cobalt-58 5.68E-01 3.78E+OO 2.19E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 Cobalt-58 -5.27E-01 5.22E+OO 3.16E+OO oCi/kq DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Cobalt-58 1.12E+OO 4.37E+OO 2.65E+OO pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Cobalt-60 1.06E+OO 1.28E+01 7.53E+OO pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Cobalt-60 2.70E-01 4.89E+OO 4.11E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 Cobalt-60 5.77E-01 5.39E+OO .3.12E+OO pCi/kg DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Cobalt-60 -1.46E+OO 4.39E+OO 2.85E+OO oCi/kq DCM Diablo Cove Marine(392102002)-FH Rockfsh 23-Feb-16 lron-59 -1.40E+01 2.30E+01 1.63E+01 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-May-16 lron-59 3.36E+OO 1.01E+01 6.07E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 lron-59 2.23E+OO 1.38E+01 8.31E+OO pCi/kg DCM Diablo Cove Marine(408192002)-FH Rockfsh 10-0ct-16 lron-59 1.54E+OO 1.03E+01 5.97E+OO pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 ManQanese-54 1.22E+OO 1.23E+01 7.16E+OO pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Manganese-54 -1.75E-01 3.63E+OO 2.13E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 Manganese-54 -4.43E-01 4.79E+OO 2.90E+OO pCi/kg DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Manganese-54 2.63E-01 4.15E+OO 2.38E+OO pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Potassium-40 . 2.84E+03 1.04E+02 3.35E+02 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Potassium-40 3.26E+03 3.92E+01 3.26E+02 pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Zinc-65 -4.45E+OO 2.79E+01 2.02E+01 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Zinc-65 -4.68E+OO 9.67E+OO 6.45E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Auq-16 Zinc-65 6.35E+OO 1.31E+01 8.07E+OO pCi/kg Page 50 of92 IDCM Diablo Cove Marine(408192002) -FH Rockfsh DCM Diablo Cove Marine -Intertidal Mussel Sample Name DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -IM DCM Diablo Cove Marine(402576002) -IM DCM Diablo Cove Marine(409724004) -IM DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -IM DCM Diablo Cove Marine(402576002) -IM DCM Diablo Cove Marine(409724004) -IM DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -IM DCM Diablo Cove Marine(402576002) -IM DCM Diablo Cove Marine(409724004) -IM DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -IM DCM Diablo Cove Marine(402576002) -IM DCM Diablo Cove Marine(409724004) -JM DCM DiabJo Cove Marine(391919005) -JM DCM DiabJo Cove Marine(395681003) -JM DCM DiabJo Cove Marine(409724004) -IM DCM DiabJo Cove Marine(391919005) -JM DCM DiabJo Cove Maririe(395681003)-JM DCM Diablo Cove Marine(409724004) -JM DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -JM DCM Diablo Cove Marine(391919005) -IM . DCM Diablo Cove Marine(395681003) -JM DCM Diablo Cove Marine(409724004) -JM DCM Diablo Cove Marine -Ocean Sediment Sample Name DCM Diablo Cove Marine(392306002) -SD DCM Diablo Cove Marine(392306002) -*SD DCM Diablo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM Diablo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM Diablo Cove Marine(392306002) -SD DCM Diablo Cove Marine(392306002) -SD I L 2016 DCPP REMP Analysis Results Appendix A \ I 10-oct-16 Zinc-65 1.28E+OO Date Collected Nuclide Result 17-Feb-16 Cesium-134 7.55E-01 14-Apr-16 Cesium-134 4.22E-02 25-Jul-16 Cesium-134 8.50E-01 27-0ct-16 -4.30E+OO 17-Feb-16 Cesium-137 2.24E+OO 14-Apr-16 Cesium-137 1.40E+OO 25-Jul-16 Cesium-137 2.09E+OO ' 27-0ct-16 Cesium-137 4.23E+OO 17-Feb-16 Cobalt-58 -1.80E+OO 14-Apr-16 Cobalt-58 1.26E+OO 25-Jul-16 Cobalt-58 -4.44E-01 27-0ct-16 Cobalt-58 1.19E+OO 17-Feb-16 Cobalt-60 9.15E-02 14-Apr-16 Cobalt-60 -8.00E-01 25-Jul-16 Cobalt-60 2.65E+OO 27-0ct-16 CobaJt-60 1.33E+OO 17-Feb-16 lron-59 *-2.12E-01 14-Apr-16 lron-59 6.43E+OO 27-0ct-16 Jron-59 2.44E+OO 17-Feb-16 Manganeise-54 7.63E-01 14-Apr-16* Manganese-54 2.55E+OO 27-0ct-16 Manganese-54 -6.66E-01 17-Feb-16 Potassium-40 1.11 E+03 Potassium-40 1.34E+03 17-Feb-16 Zinc-65 5.08E-01 14-Apr-16 Zinc-65 -1.79E+OO 27-0ct-16 Zinc-65 7.90E+OO Date Collected Nuclide Result 23-Feb-16 Barium-140 -4.53E+01 23-Feb-16 Bismuth-214 6.54E+02 23-Feb-16 Cesium-134 1.84E+01 23-Feb-16 Cesium-137 2.24E+OO 23-Feb-16 CobaJt-58 1.01E+01 23-Feb-16 CobaJt-60 9.97E+OO 23-Feb-16 . lron-55 -3.11E+03 23-Feb-16 Jron-59 1.11E+01 23-Feb-16 Lanthanum-140 3.86E+01 23-Feb-16 Lead-214 7.62E+02 23-Feb-16 Manaanese-54 -2.28E+OO Page 51 of 92 1.10E+01 6.39E+OO ,. I pCi/kg -MDC 2 Sigma TPU Units 4.69E+OO 3.11 E+OO pCi/kg 5.66E+OO 3.55E+OO pCi/kg 7.44E+OO 4.37E+OO pCi/kg 4.87E+OO 5.26E+OO pCi/kg 4.63E+OO 3.12E+OO pCi/ka 5.63E+OO 4.16E+OO pCi/kg 7.14E+OO 4.69E+OO pCi/kg 4.23E+OO 4.50E+OO pCi/kg 4.05E+OO 2.64E+OO pCi/kg 5.40E+OO 3.27E+OO . pCi/ka 7.46E+OO 4.95E+OO ,, pCi/kg 4.90E+OO 2.83E+OO pCi/kg 5.21E+OO 3.65E+OO pCi/kg 5.19E+OO 3.22E+OO pCi/kg 7.63E+OO 4.31E+OO pCi/ka 4.56E+OO 2.69E+OO pCi/kg 9.77E+OO 5.86E+OO pCi/kg 1.16E+01 7.17E+OO pCi/kg 1.03E+01 6.03E+OO pCi/kg. 4.31E+OO 4.50E+OO pCi/ka 5.36E+OO 3.50E+OO pCi/kg 4.64E+OO ' 2.79E+OO pCi/kg 4.42E+01 1.37E+02 pCi/kg 4.51E+01 1.57E+02 pCi/kg 9.96E+OO 6.89E+OO pCi/kg 1.02E+01 6.28E+OO pCi/kg 1.09E+01 7.41 E+OO pCi/kg MDC 2 Sigma TPU Units --2.75E+02 1.97E+02 pCi/kg 1.03E+02 1.37E+02 pCi/kg 5.45E+01 2.98E+01 oCi/ka 5.33E+01 2.99E+01 pCi/kg 5.22E+01 2.90E+01 pCi/kg 5.44E+01 3.02E+01 pCi/kg 1.15E+04 8.33E+03 pCi/kg | |||
* 1.17E+02 6.68E+01 pCi/k!=J 1.16E+02 6.79E+01 pCi/kg 8.86E+01 1.56E+02 pCi/kg 4.82E+01 2.84E+01 pCi/kg 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 _ Nickel-63 2.43E+01 2.73E+03 1.63E+03 pCi/kg DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 Niobium-95 2:15E+OO 5.24E+01 3.44E+01 pCi/kg DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 Potassium-40 8.52E+03 4.57E+02 1.35E+03 pCi/kg DCM Diablo Cove Marine(392306002) -SD \ 23-Feb-16 Total Strontium -2.23E+03 1.50E+03 5.12E+02 pCi/kg DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 Zinc-65 -1.23E+OO 1.04E+02 6.99E+01 pCi/kg DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 Zirconium-95 -1.09E+01 9.41E+01 5.60E+01 pCi/kg DCM Diablo Cove Marine -Seawater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 BETA 2.99E+02 1.36E+02 1.04E+02 pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 BETA 3.22E+02 2.04E+02 1.40E+02 pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 BETA 2.90E+02 1.33E+02 1.02E+02 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 BETA 3.07E+02 1.22E+02 9.88E+01 pCi/L DCM Diab lo Cove Marine(397 479002) -SW 10-May-16 BETA 5.28E+02 1.36E+02 1.32E+02 pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 BETA 2.23E+02 1.99E+02 1.30E+02 pCi/L DCM Diablo Cove Marine(401793004) -SW 11-Jul-16 BETA 5.37E+02 1.53E+02 1.39E+02 pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 -BETA 2.29E+02 1.78E+02 1.19E+02 pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 BETA 1.66E+02 1.12E+02 7.78E+01 pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 BETA 3.62E+02 1.48E+02 1.15E+02 pCi/L DCM Diablo Cove Marine(411426003)-SW 22-Nov-16 BETA 2.01E+02 1.85E+02 1.20E+02 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 BETA 1.85E+02 8.28E+01 6.66E+01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Barium-140 1.73E+OO 8.96E+OO 6.14E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Barium-140 3.48E+OO 1.31E+01 7.69E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW -10-Mar-16 Barium-140 5.93E+OO 9.90E+OO 6.32E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Barium-140 6.48E+OO 1.16E+01 7.23E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Barium-140 2.07E-01 1.18E+01 7.02E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Barium-140 1.51E+01 1.70E+01 U5E+01 pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Barium-140 -2.07E+OO 1.72E+01 1.05E+01 pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Barium-140 6.34E+OO 1.16E+01 7.29E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Barium-140 1.04E+OO 9.75E+OO 5.93E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Barium-140 -4.35E-01 8.77E+OO 5.22E+OO pCi/L DCM Diablo Cove Marine(411426003)-SW 22-Nov-16 Barium-140 2.37E+OO 9.46E+OO 5.70E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Barium-140 2.04E+OO 8.45E+OO 5.05E+OO pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Cesium-134 -4.05E-01 2.08E+OO 1.27E+OO pCi/L DCM Diablo Cove Marine(391320002) -'SW 8-Feb-16 Cesium-134 1.62E+OO 2.06E+OO 1.37E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 Cesium-134 1.73E+OO 1.99E+OO 1.38E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Cesium-134 1.44E-01 2.18E+OO 1.40E+OO pCi/L DCM Diablo Cove Marine(397479002) -SW 10-May-16 Cesium-134 -5.90E-01 2.30E+OO -1.42E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Cesium-134 -3.70E-01 2.08E+OO 1.29E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW -11-Jul-16 Cesium-134 1.54E+OO 3.00E+OO 2.04E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Cesium-134 -8.23E-02 2.11E+OO 1.26E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Cesium-134 -4.88E-02 2.25E+OO . 1.32E+OO pCi/L DCM Diablo Cove Marine(408409002) .-SW 11-0ct-16 Cesium-134 -1.02E+OO 1.61E+OO 1.50E+OO pCi/L DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Cesium-134 1.22E+OO 1.77E+OO 1.61E+OO pCi/L DCM Diablo Cove Marine(412549003) -SW 7-Dec-16 Cesium-134 2.98E-01 1.58E+OO 9.63E-01 pCi/L Page 52 of 92 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Cesium-137 -2.27E-01 1.94E+OO 1.15E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Cesium-137 1.14E+OO 1.75E+OO 1.17E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Cesium-137 -2.24E-02 1.87E+OO 1.09E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Cesium-137 6.04E-01 2.15E+OO 1.29E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-Mav-16 Cesium-137 3.57E-01 2.2qE+OO 2.01E+OO pCi/L DCM Diablo Cove Marine(399130002)-SW 6-Jun-16 Cesium-137 -4.67E-01 1.97E+OO 1.22E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Cesium-137 -2.99E-01 2.90E+OO 1.72E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 Cesium-137 9.07E-01 2.00E+OO 1.19E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Cesium-137 2.76E-01 1.96E+OO 1.12E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Cesium-137 1.62E-01 1.66E+OO 9.84E-01 pCi/L DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Cesium-137 -2.31E+OO 1.95E+OO 2.42E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Cesium-137 -3.45E-01 1.53E+OO 9.65E-01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Cobalt-58 -1.11E+OO 1.73E+OO 1.22E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Cobalt-58 -7.90E-01 1.74E+OO 1.15E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Cobalt-58 -5.54E-01 1.66E+OO 1.06E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Cobalt-58 -3.87E-01 2.12E+OO 1.32E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Cobalt-58 -8.28E-02 2.19E+OO 1.30E+OO pCi/L DCM Diablo Cove Marine(399130002)-SW 6-Jun-16 Cobalt-58 -2.45E-01 2.20E+OO 1.34E+OO pCi/L DCM Diablo Cove Marine(401793004) -SW 11-Jul-16 Cobalt-58 -3.09E-01 2.55E+OO 1.71E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Cobalt-58 -4.23E-01 1.90E+OO 1.18E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Cobalt-58 -8.29E-01 1.86E+OO 1.21E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Cobalt-58 -4.30E-01 1.40E+OO 9.13E-01 pCi/L DCM Diablo Cove Marine( 411426003) -SW 22-Nov-16 Cobalt-58 5.48E-01 1.70E+OO 9.78E-01 pCi/L DCM Diablo Cove Marine(412549003) -SW 7-Dec-16 Cobalt-58 -4.28E-01 1.35E+OO 8.27E-01 oCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Cobalt-60 2.16E+OO 2.16E+OO 2.02E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Cobalt-60 -1.42E-01 1.60E+OO 9.70E-01 pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Cobalt-60 4.03E-01 1.96E+OO 1.14E+OO oCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Cobalt-60 -4.56E-01 2.06E+OO 1.28E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-Mav-16 Cobalt-60 -7.40E-01 2.15E+OO 1.62E+OO pCi/L DCM Diablo Cove Marine(399130002)-SW Cobalt-60 7.88E-01 2.10E+OO 1.12E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Cobalt-60 -4.93E-01 2.99E+OO 1.80E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Cobalt-60 2.72E-01 2.21E+OO 1.29E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Cobalt-60 -2.39E-03 2.00E+OO 1.21 E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Cobalt-60 1.80E+OO 1.80E+OO 1.90E+OO pCi/L DCM Diablo Cove Marine( 411426003) -SW 22-Nov-16 Cobalt-60 7.77E-01 1.95E+OO 1.50E+OO pCi/L DCM Diablo Cove Marine(412549003) -SW 7-Dec-16 Cobalt-60 -5.92E-02 1.36E+OO 8.18E-01 pCi/L DCM Diablo Cove Marine(390114003) -SW . 21-Jan-16 lodine-131 1.46E+OO 3.77E+OO 2.55E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 lodine-131 2.41E+OO 5.83E+OO 3.59E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 lodine-131 6.86E-01 3.47E+OO 2.07E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 lodine-131 -4.04E-01 4.12E+OO 2.46E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 lodine-131 -2.97E+OO 4.29E+OO 2.94E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 lodine-131 3.20E-02 7.75E+OO 5.40E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 lodine-131 2.75E+OO 6.54E+OO 3.97E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 lodine-131 -2.49E-01 4.21E+OO 2.51E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 lodine-131 -8.14E-01 2.95E+OO 1.86E+OO pCi/L Page 53 of92 2016 DCPP Analysis Results Appendix A DCM Diablo Cove. Marine(408409002) -SW 11-0ct-16 lodine-131 1.35E+OO 3.88E+OO 2.26E+OO pCi/L DCM Diablo Cove Marine(411426003)-SW lodine-131 3.06E+OO 3.37E+OO 2.96E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 lodine-131 -3.02E-01 3.03E+OO 1.79E+OO pCi/L DCM Diablo Cove Marine(390114003 -SW 21-Jan-16 lron-55 3.19E+01 4.73E+01 3.39E+01 pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 lron-55 -1.80E+01 5.44E+01 3.91E+01 pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 lron-55 5.79E+OO 6.39E+01 4.67E+01 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 lron-55 7.27E+01 1.14E+02 8.79E+01 pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 lron-55 3.40E+OO 1.22E+02 8.31E+01 pCi/L DCM Diablo Cove Marine(399130002 -SW 6-Jun-16 lron-55 -4.02E+01 1.35E+02 9.22E+01 pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 lron-55 1.01 E+01 8.03E+01 5.40E+01 pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 lron-55 -4.20E+01 9.03E+01 6.04E+01 pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 lron-55 2.19E+01 1.04E+02 7.70E+01 pCi/L DCM Diablo Cove Marine(408409002)-SW 11-0ct-16 lron-55 5.80E+OO 8.80E+01 6.68E+01 pCi/L DCM Diab lo Cove Marine( 411426003 -SW 22-Nov-16 lron-55 5.95E+01 9.65E+01 7.56E+01 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 lron-55 -1.29E+01 9.61E+01 . 7.22E+01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 lron-59 8.58E-02 4.38E+OO 2.65E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW . 8-Feb-16 lron-59 4.94E-01 4.32E+OO 2.58E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 lron-59 8.71E-01 4.09E+OO 2.46E+OO pCi/L DCM Diablo Cove Marine(395898002 -SW 18-Apr-16 lron-59 -9.77E-02 4.66E+OO 2.75E+OO DCi/L DCM Diablo Cove Marine(397479002) -SW 10-May-16 lron-59 3.81E-01 5.08E+OO 3.52E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 lron-59 1.13E+OO 4.85E+OO 2.81E+OO pCi/L DCM Diablo Cove Marine(401793004 -SW 11-Jul-16 lron-59 2.97E+OO 6.34E+OO 3.86E+OO | |||
* pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 lron-59 -1.01E+OO 4.47E+OO 2.72E+OO pCi/L DCM Diablo Cove Marine(406175003 -SW 12-SeD-.16 lron-59 6.79E-02 4.32E+OO 2.57E+OO pCi/L DCM Diablo Cove Marine(408409002)-SW 11-0ct-16 lron-59 6.89E-02 3.10E+OO 1.79E+OO pCi/L DCM Diablo Cove Marine( 411426003) -SW 22-Nov-16 lron-59 -3.48E-02 3.66E+OO 2.15E+OO pCi/L DCM Diablo Cove Marine(412549003 -SW 7-Dec-16 lron-59 -2.86E-01 3.13E+OO 1.87E+OO oCi/L DCM Diablo Cove Marine(390114003 -SW 21-Jan-16 Lanthanum-140 -5.96E-01 3.13E+OO 1.95E+OO pCi/L DCM Diablo Cove Marine(391320002 -SW 8-Feb-16 Lanthanum-140 -2.98E+OO 3.64E+OO 2.82E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 1 O-Mar-16 Lanthanl,Jm-140 -7.76E-01 3.04E+OO 2.26E+OO 1 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Lanthanum-140 -6.67E-01 3.75E+OO '2.33E+OO pCi/L DCM Diablo Cove Marine(397479002 -SW 10-May-16 Lanthanum-140 1.04E-01 4.01E+OO 2.41E+OO pCi/L DCM Diablo Cove Marine(399130002)-SW 6-Jun-16 Lanthanum-140 1.36E+OO 4.80E+OO 3.21E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Lanthanum-140 1.28E+OO 5.54E+OO 3.22E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Lanthanum-140 -1.68E+OO 3.66E+OO 2.50E+OO " pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Lanthanum-140 8.22E-02 2.80E+OO 1.70E+OO pCi/L DCM Diablo Cove Marine(408409002 -SW 11-0ct-16 Lanthanum-140 2.46E-01 3.00E+OO 1.76E+OO pCi/L DCM Diablo Cove Marine(411426003)-SW 22-Nov-16 Lanthanum-140 1.71 E+OO 3.27E+OO 1.94E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Lanthanum-140 -6.51E-01 2.24E+OO 1.47E+OO pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Manganese-54 1.33E-01 2.00E+OO 1.18E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Manganese-54 -3.20E-01 1.74E+OO 1.08E+OO pCi/L DCM Diablo Cove Marine(393316003 -SW 10-Mar-16 Manaanese-54 5.85E-01 1.91E+OO 1.14E+OO . pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Manganese-54 -4.88E-01 1.86E+OO 1.13E+OO pCi/L DCM Diablo Cove Marine(397 479002) -SW 10-May-16 Manganese-54 2.66E-01 2.12E+OO 1.25E+OO pCi/L DCM Diablo Cove Marine(399130002 -SW 6-Jun-16 Manaanese-54 -4.82E-02 2.01E+OO 1.21E+OO pCi/L Page 54 of92 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Manganese-54 3.09E-01 2.94E+OO 1.73E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 Manganese-54 -8.74E-01 1.92E+OO 1.27E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Manganese-54 4.76E-01 1.93E+OO 1.25E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Manaanese-54 -1.14E+OO 1.32E+OO 1.04E+OO pCi/L DCM Diab lo Cove Marine( 411426003) -SW 22-Nov-16 Manganese-54 -2.25E-01 1.59E+OO 9.40E-01 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Manganese-54 -1.18E+OO 1.25E+OO 9.60E-01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Nickel-63 -1.91E+01 3.41E+01 1.95E+01 pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Nickel-63 -1.27E+01 3.99E+01 2.32E+01 pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 Nickel-63 -3.44E+OO 2.41E+01 1.42E+01 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Nickel-63 1.02E+OO 3.42E+01 2.04E+01 pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 , Nickel-63 1.50E+01 2.95E+01 1.84E+01 pCi/L DCM Diablo Cove Marine(399130002)-SW 6-Jun-16 Nickel-63 1.23E+OO 3.25E+01 1.94E+01 pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Nickel-63 3.61E+OO 4.05E+01 2.43E+01 pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Nickel-63 8.21E+OO 2.05E+01 1 .. 26E+01 pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Nickel-63 8.73E+OO 3.14E+01 1.90E+01 pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Nickel-63 -1.11E+01 2.69E+01 1.56E+01 pCi/L DCM Diablo Cove Marine(411426003)-SW 22-Nov-16 Nickel-63 -2.19E-01 2.70E+01 1.61E+01 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Nickel-63 -6.29E+OO 2.24E+01 1.31E+01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Niobium-95 8.92E-01 2.13E+OO 1.43E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Niobium-95 -1.32E+OO 1.84E+OO 1.76E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Niobium-95 -1.21E+OO 1.75E+OO 1.55E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Niobium-95 1.73E+OO 2.34E+OO 1.54E+OO pCi/L DCM Diablo Cove Marine(397479002) -SW 10-May-16 Niobium-95 1.06E+OO 2.28E+OO 1.37E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Niobium-95 6.30E-01 2.32E+OO 1.38E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Niobium-95 3.71E-01 2.93E+OO 1.71E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Niobium-95 -3.64E-01 1.98E+OO 1.21E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Niobium-95 -4.04E-01 2.26E+OO 1.81E+OO pCi/L DCM Diablo Cove Marine(408409002)-SW 11-0ct-16 Niobium-95 4.63E-01 1.79E+OO 1.07E+OO pCi/L DCM Diab lo Cove Marine( 411426003) -SW 22-Nov-16 Niobium-95. 9.75E-01 1.88E+OO 1.11E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Niobium-95 9.38E-01 1.58E+OO 1.01E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Potassium-40 3.27E+02 1.72E+01 4.53E+01 pCi/L DCM Diablo Cove Marine(393316003l -SW 10-Mar-16 Potassium-40 3.71E+02 1.63E+01 4.77E+01 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Potassium-40 3.49E+02 2.11 E+01 4.46E+01 pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Potassium-40 3.33E+02 2.11E+01 4.47E+01 pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Potassium-40 3.36E+02 1.85E+01 5.07E+01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Total Strontium -2.18E+OO 3.25E+OO 1.86E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Total Strontium -1.90E+OO 4.63E+OO 2.69E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Total Strontium -1.39E+OO 3.00E+OO 1.73E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Total Strontium -5.49E+OO 3.25E+OO 1.73E+OO pCi/L DCM Diablo Cove Marine(397 479002) -SW 10-Mav-16 Total Strontium -1.57E-01 1.52E+OO 8.94E-01 pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Total Strontium -9.24E-01 3.20E+OO 1.87E+OO pCi/L DCM Diablo Cove Marine(401793004) -SW 11-Jul-16 Total Strontium -1.04E+OO 3.40E+OO 1.99E+OO | |||
* pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Total Strontium 2.40E-01 1.33E+OO 8.05E-01 pCi/L DCM Diablo Cove Marine(406175003)-SW .12-Sep-16 Total Strontium -1.43E+OO 2.05E+OO 1.14E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Total Strontium -1.09E+OO 3.08E+OO 1.80E+OO pCi/L Page 55 of92 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Total Strontium -7.72E-01 1.55E+OO 8.84E-01 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Total Strontium 4.43E-01 2.01E+OO 1.22E+OO pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Tritium -6.32E+01 2.70E+02 1.58E+02 , pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Tritium 8.24E+01 2.31E+02 1.43E+02 pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 Tritium 2.04E+02 2.70E+02 1.75E+02 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Tritium -1.54E+02 3.11E+02 1.79E+02 pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Tritium 4.35E+01 2.72E+02 1.64E+02 pCi/L DCM Diablo Cove Marine(399130002)-SW ' . 6-Jun-16 Tritium 3.47E+01 2.42E+02 1.46E+02 pCi/L DCM Diablo Cove Marine(401793004) -SW 11-Jul-16 Tritium -1.33E+02 2.66E+02 1.50E+02 pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Tritium -3.79E+01 2.62E+02 1.54E+02 pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Tritium -2.85E+01 2.71E+02 1.60E+02 pCi/L DCM Diablo .Cove Marine(408409002) -SW 11-0cH6 Tritium 6.40E+01 2.99E+02 1.81 E+02 pCi/L DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Tritium 1.01E+02 2.87E+02 1.77E+02 pCi/L DCM Diablo Cove Marine(412549003) -SW 7-Dec-16 Tritium 1.26E+02 2.95E+02 1.83E+02 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Zinc-65 1.05E+OO 4.80E+OO 2.88E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Zinc-65 -5.45E+OO 3.72E+OO 3.96E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW 1 O-Mar-16 Zinc-65 5.23E-01 4.01E+OO 2.79E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Zinc-65 -1.78E+OO 4.20E+OO 2.73E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Zinc-65 -1.18E+OO 4.91E+OO 3.11 E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Zinc-65 -6.76E-01 4.21E+OO 2.53E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Zinc-65 1.15E+OO 6.16E+OO 3.67E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 Zinc-65 -2.38E+OO 4.19E+OO 2.85E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Zinc-65 3.94E+OO 4.53E+OO 3.00E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Zinc-65 -1.35E-01 2.84E+OO 1.88E+OO pCi/L DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Zinc-65 -6.24E-01 3.57E+OO 2.16E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Zinc-65 4.53E-01 3.12E+OO 2.06E+OO pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Zirconium-95 1.74E+OO 3.67E+OO 2.20E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Zirconium-95 2.78E+OO 3.46E+OO 2.52E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 Zirconium-95 2.43E+OO 3.73E+OO 2.35E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Zirconium-95 7.17E-02 3.88E+OO 2.35E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Zirconium-95 1.97E+OO 3.95E+OO 2.39E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Zirconium-95 -1.18E+OO 3.41E+OO 2.20E+OO pCi/L DCM Diablo Cove Marine(401793004) -SW* 11-Jul-16 Zirconium-95 -7.14E-01 5.32E+OO 3.19E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 Zirconium-95 -1.61E+OO 3.28E+OO 2.19E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Zirconium-95 8.60E-01 3.53E+OO 2.03E+OO pCi/L DCM Diablo Cove Marine(408409002)-SW I 11-0ct-16 Zirconium-95 4.90E-01 2.79E+OO 1.66E+OO pCi/L DCM Diablo Cove Marine(411426003)-SW* 22-Nov-16 Zirconium-95 -2.10E+OO 2.95E+OO 2.21E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Zirconium-95 | |||
* 9.29E-01 2.73E+OO 1.67E+OO pCi/L Page 56 of92 2016 DCPP REMP Analysis Results Appendix A DSAL -Desalination Effluent Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DSAL(397410001) -DW 12-May-16 BETA 7.68E+OO 1.42E+OO 1:68E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 BETA 1.08E+OO 1.23E+OO 8.05E-01 pCi/L DSAL(402085002) -DW 19-Jul-16 BETA 2.61E+OO 1.60E+OO 1.14E+OO pCi/L DSAL(397 410001) -DW 12-May-16 Barium-140 4.58E+OO 1.32E+01 7.73E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Barium-140 6.73E+OO 1.91E+01 1.14E+01 pCi/L DSAL(402085002) -DW 19-Jul-16 Barium-140 1.02E+OO 1.16E+01 7.32E+OO pCi/L | |||
* DSAL(397 410001) -DW 12-Mav-16 Cesium-134 -9.58E-02 2.29E+OO 1.36E+OO pCi/L DSAL(399127003)-DW 7-Jun-16 Cesium-134 -3.02E-02 2.71E+OO 1.63E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Cesium-134 1.68E+OO 1.02E+OO pCi/L DSAL(397410001)-DW 12-May-16 Cesium-137 1.09E+OO 2.02E+OO 1.45E+OO pCi/L DSAL(399127003)-DW 7-Jun-16 Cesium-137 -2.87E-01 2.56E+OO 1.59E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Cesium-137 -9.40E-02 1.71E+OO 1.01E+OO pCi/L DSAL(397410001)-DW 12-May-16 Cobalt-58 -2.40E-01 2.04E+OO 1.23E+OO pCi/L DSAL(399127003)-DW 7-Jun-16 Cobalt-58 6.41 E-01 2.92E+OO 1.69E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Cobalt-58 3.85E-01 1.71E+OO 1.01 E+OO pCi/L DSAL(397410001)-DW 12-May-16 Cobalt-60 9.23E-01 2.43E+OO 1.41E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Cobalt-60 4.19E-01 2.83E+OO 1.62E+OO pCi/L DSAL(402085002) -DW / 19-Jul-16 Cobalt-60 1.79E+OO 1.79E+OO 1.35E+OO pCi/L DSAL(397410001)-DW 12-Mav-16 lodine-131 -1.15E-01 7.35E-01 4.54E-01 pCi/L DSAL(399127003) -DW 7-Jun-16 lodine-131 -1.03E-02 8.78E-01 5.15E-01 oCi/L DSAL(402085002) -DW 19-Jul-16 lodine-131 1.02E-01 7.49E-01 pCi/L DSAL(397 410001) -DW 12-May-16 lron-55 2.80E+01 9.70E+01 6.81E+01 pCi/L DSAL(399127003) -DW 7-Jun-16 lron-55 -7.94E+OO 1.40E+02 9.70E+01 pCi/L. DSAL(402085002) -DW 19-Jul-16 lron-55 6.36E+01 6.80E+01 5.26E+01 pCi/L DSAL(397410001) -DW 12-May-16 lron-59 1.97E+OO | |||
* 4.83E+OO 2.91E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 lron-59 -5.04E-01 5.88E+OO 3.60E+OO ,pCi/L DSAL(402085002) -DW 19-Jul-16 lron-59 ' -5.01 E-01 3.46E+OO 2.16E+OO pCi/L DSAL(397410001)-DW 12-May-16 Lanthanum-140 -1.21 E-01 4.45E+OO 2.64E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Lanthanum-140 -5.04E-01 7.06E+OO 4.27E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Lanthanum-140 -4.92E-01 3.64E+OO 2.24E+OO pCi/L DSAL(397410001)-DW 12-Mav-16 Manganese-54 -4.65E-01 1.84E+OO 1.15E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Manganese-54 -1.43E+OO 2.40E+OO 1.66E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Manganese-54 * -2.04E-01 | |||
* 1.56E+OO 9.45E-01 pCi/L DSAL(397410001) -DW 12-May-16 Nickel-63 4.19E+OO 2.44E+01 1.47E+01 pCi/L DSAL(399127003) -DW | |||
* 7-Jun-16 Nickel-63 -5.69E+OO 3.61 E+01 2.14E+01 pCi/L DSAL(402085002) -DW 19-Jul-16 Nickel-63 -1.67E+OO 2.96E+01 1.75E+01 pCi/L DSAL(397410001)-DW 12-Mav-16 Niobium-95 -3.17E-01 2.18E+OO 1.61E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Niobium-95 . 1.00E+OO 2.91E+OO 1.68E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Niobium-95 -4.75E-01 1.85E+OO 1.80E+OO pCi/L DSAL(397410001)-DW . 12-Mav-16 Total Strontium -7.44E-02 1.57E-01 9.02E-02 pCi/L DSAL(399127003) -DW 7-Jun-16 Total Strontium -2.30E-01 3.60E-01 2.05E-01 pCi/L DSAL(402085002) -DW 19-Jul-16 Total Strontium -1.25E-01 2.75E-01 1.60E-01 pCi/L DSAL(397410001)-DW 12-Mav-16 Tritium 1.58E+02 2.70E+02 1.70E+02 pCi/L Page 57 of 92 2016 DCPP REMP Analysis Results Appendix A '\ DSAL(399127003) -DW 7-Jun-16 Tritium -3.30E+01 2.41E+02 1.42E+02 pCi/L DSAL(402085002)-DW 19-Jul-16 Tritium -1.85E+OO 3.21E+02 1.91E+02 pCi/L DSAL(397 410001) -DW 12-May-16 Zinc-65 -6.16E-01 4.35E+OO 3.14E+OO pCi/L DSAU399127003)-DW 7-Jun-16 Zinc-65 -2.19E+OO 5.60E+OO 4.34E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Zinc-65 1.05E+OO ( 3.16E+OO 2.08E+OO pCi/L DSAL(397410001) -DW 12-May-16 Zirconium-95 .-1.55E+OO 3.61E+OO 2.35E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Zirconium-95 7.00E-01 4.86E+OO 2.80E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Zirconium-95 4.58E-01 3.31E+OO 1.95E+OO pCi/L DW1 Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DW1 Drinking Water(389292003) -DW 12-Jan-16 BETA 4.07E-01 1.33E+OO 8.12E-01 pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 BETA 1.94E-01 1.35E+OO 8.17E-01 pCi/L DW1 Drinkina Water(393029002) -DW 9-Mar-16 BETA 7.89E-01 1.56E+OO 9.64E-01 pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 BETA -8.21 E-01 1.79E+OO 1.04E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 BETA 1.21 E-01 1.15E+OO 6.96E-01 pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 BETA -4.06E-01 1.57E+OO 9.22E-01 pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 BETA . 6.10E-01 1.25E+OO 7.79E-01 pCi/L DW1 Drinkina Water(403116002) -DW 2-Aua-16 BETA -5.13E-01 1.12E+OO 6.52E-01 pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 BETA 3.20E-01 1.83E+OO 1.10E+OO pCi/L DW1 Drinking Water(408514002)-DW 17-0ct-16 BETA 6.41 E-01 1.19E+OO 7.44E-01 pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 BETA -3.82E-01 1.87E+OO 1.11E+OO oCi/L DW1 Drinking Water(412191001) -DW 6-Dec-16 BETA 2.00E-01 1.27E+OO 7.67E-01 pCi/L DW1 Drinkina Water(389292003) -DW 12-Jan-16 Barium-140 -1.15E+OO 7.59E+OO 4.73E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Barium-140 4.19E+OO 9.07E+OO 5.94E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Barium-140 -1.98E+OO 9.29E+OO 5.57E+OO pCi/L DW1 Drinkina Water(395275002) -DW 12-Aor-16 Barium-140 -1.81E+OO 6.41E+OO 4.03E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Barium-140 -4.02E+OO 9.72E+OO 6.48E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Barium;140 -4.68E+OO 1.31E+01 8.22E+OO pCi/L DW1 Drinking Water(402080002)-DW 19-Jul-16 Barium-140 6.45E-01 1.19E+01 7.21E+OO pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Barium-140 -1.82E+OO 1.11 E+01 6.91E+OO pCi/L DW1 Drinkina Water(405375002) -DW 6-Sep-16 Barium-140 4.22E+OO 7.80E+OO 4.89E+OO pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 Barium-140 -2.09E+OO 7.84E+OO 4.81E+OO pCi/L DW1 Drinking Water(410307002)-DW ' 8-Nov-16 Barium-140 -3.81E+OO 6.69E+OO 7.33E+OO pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Barium-140 1.60E+OO 8.06E+OO 4.75E+OO *pCi/L DW1 Drinking Water(389292003) -DW 12-Jan-16 Cesium-134 -1.34E-01 1.94E+OO 1.55E+OO pCi/L DW1 Drinkina Water(390519005) -DW 1-Feb-16 Cesium-134 2.85E-01 1.92E+OO 1.12E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Cesium-134 4.36E-01 2.14E+OO 1.25E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Cesium-134 -3.04E-01 1.74E+OO 1.04E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Cesium-134 1.84E+OO 2.08E+OO 3.32E+OO ' pCi/L DW1 Drinking Water(399127002)-DW 7-Jun-16 Cesium-134 1.17E+OO 1.75E+OO 9.98E-01 pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 Cesium-134 7.58E-02 1.82E+OO 1.08E+OO oCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Cesium-134 2.46E-01 1.88E+OO 1.10E+OO pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Cesium-134 1.63E-02 1.62E+OO 9.78E-01 pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 Cesium-134 7.88E-01 1.49E+OO 9.23E-01 pCi/L Page 58 of92 ,/ | |||
2016 DCPP REMP Analysis Results Appendix A DW1 Drinking Water(410307002) -DW 8-Nov-16 Cesium-134 1.19E+OO 1.57E+OO 1.73E+OO pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Cesium-134 3.80E-01 1.45E+OO 8.71E-01 pCi/L DW1 Drinking Water(389292003) -DW 12-Jan-16 Cesium-137 -2.29E-01 1.84E+OO 1.10E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Cesium-137 -8.75E-02 1.93E+OO 1.30E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Cesium-137 -2.02E-01 2.07E+OO 1.50E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Cesium-137 -3.04E-01 1.60E+OO 9.98E-01 pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Cesium-137 -8.58E-01 1.76E+OO 1.16E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Cesium-137 5.80E-01 1.80E+OO 1.21E+OO pCi/L DW1 Drinkina Water(402080002)-DW 19-Jul-16 Cesium-137 5.29E-02 1.86E+OO 1.09E+OO pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Cesium-137 5.97E-01 1.83E+OO 1.07E+OO pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Cesium-137 2.45E-02 1.58E+OO 9.43E-01 pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 \ Cesium-137 1.05E-01 1.44E+OO 8.44E-01 pCi/L DW1 Drinking Water(410307002)-DW Nov-16 Cesium-137 1.05E+OO 1.64E+OO 1.05E+OO pCi/L DW1 DrinkinQ Water(412191001) -DW 6-Dec-16 Cesium-137 -3.79E-01 1.32E+OO 8.39E-01 pCi/L | |||
* DW1 Drinking Water(389292003) -DW 12-Jan-16 Cobalt-58 3.47E-01 1.84E+OO 1.08E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Cobalt-58 3.11 E-01 1.91E+OO 1.12E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Cobalt-58 -3.12E-02 1.93E+OO 1.14E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Cobalt-58 3.08E-01 1.52E+OO 8.78E-01 pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Cobalt-58 2.08E-01 1.87E+OO 1.10E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Cobalt-58 2.05E-01 1.76E+OO 1.04E+OO pCi/L DW1 Drinking Water(402080002)-DW 19-Jul-16 Cobalt-58 5.94E-01 1.60E+OO 1.75E+OO pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 -8.01E-01 1.71E+OO 1.13E+OO oCi/L DW1 Drinking Water(405375002)-DW 6-Sep-16 Cobalt-58 -7.26E-01 1.31E+OO 9.22E-01 | |||
* pCi/L DW1 DrinkinQ Water(408514002) -DW 17-0ct-16 Cobalt-58 -6.56E-01 1.19E+OO 8.62E-01 pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 Cobalt-58 -4.07E-01 1.29E+OO 9.01E-01 pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Cobalt-58 -6.03E-01 1.26E+OO 8.65E-01 pCi/L DW1 Drinkina Water(389292003) -DW 12-Jan-16 Cobalt-60 5.67E-01 2.22E+OO 1.28E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Cobalt-60 6.29E-01 2.22E+OO 1.29E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Cobalt-60 -7.06E-01 2.54E+OO 1.88E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Cobalt-60 -3.98E-01 1.74E+OO 1.55E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Cobalt-60 -3.96E-01 1.82E+OO 1.13E+OO pCi/L DW1 Drinking Water(399127002)-DW 7-Jun-16 Cobalt-60 1.86E-01 1.92E+OO 1.29E+OO pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 Cobalt-60 1.02E-01 1.60E+OO 9.35E-01 pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Cobalt-60 6.48E-01 1.85E+OO .1.07E+OO pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Cobalt-60 5.02E-01 1.54E+OO 8.85E-01 pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 Cobalt-60 9.67E-02 1.30E+OO 7.98E-01 pCi/L DW1 Drinkina Water(410307002)-DW 8-Nov-16 Cobalt-60 1.01E+OO .1.54E+OO 9.52E-01 pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Cobalt-60 4.74E-01 1.41E+OO 8.13E-01 pCi/L DW1 Drinking Water(389292003) -DW 12-Jan-16 lodine-131 9.09E-02 4.88E-01 2.88E-01 pCi/L DW1 Drinking Water(390519005)-DW 1-Feb-16 lodine-131 5.91E-02 5.63E-01 3.29E-01 pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 lodine-131 -1.90E-01 5.29E-01 3.41 E-01 pCi/L DW1 DrinkinQ Water(395275002) -DW 12-Aor-16 lodine-131 -1.17E-01 5.42E-01 3.53E-01 oCi/L DW1 Drinking Water(396784002) -DW 3-Mav-16 lodine-131 -2.54E-01 7.11 E-01 4.57E-01 pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 lodine-131 6.13E-02 5.84E-01 pCi/L DW1 DrinkinQ Water(402080002) -DW 19-Jul-16 lodine-131 1.32E-01 6.37E-01 7.78E-01 pCi/L Page 59 of 92 2016 DCPP REMP Analysis Results Appendix A DW1 Drinking Water 403116002) -DW 2-Aug-16 lodine-131 -2.02E-01 6.77E-01 pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 lodine-131 4.06E-03 4.86E-01 2.78E-01 pCi/L DW1 Drinking Water 408514002)-DW 17-0ct-16 lodine-131 1.90E-02 5.15E-01 2.94E-01 pCi/L DW1 Drinking Water 410307002) -DW 8-Nov-16 lodine-131 -7.23E-01 5.96E-01 6.54E-01 pCi/L DW1 Drinking Water 412191001)-DW 6-Dec-16 lodine-131 -4.96E-02 5.76E-01 3.33E-01 pCi/L DW1 Drinking Water 389292003) -DW 12-Jan-16 lron-55 -1.09E+01 6.42E+01 4.23E+01 pCi/L DW1 Drinking Water 390519005) -DW 1-Feb-16 lron-55 -2.05E+01 5.15E+01 3.78E+01 pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 lron-55 3.65E+01 6.26E+01 4.83E+01 pCi/L DW1 Drinking Water 395275002) -DW 12-Apr-16 lron-55 7.46E+01 1.37E+02 1.05E+02 pCi/L DW1 Drinking Water 396784002) -DW 3-May-16 lron-55 1.09E+01 6.31E+01 4.60E+01 pCi/L DW1 Drinking Water 399127002) -DW 7-Jun-16 lron-55 -9.04E+OO 1.36E+02 9.38E+01 pCi/L DW1 Drinking Water 402080002) -DW 19-Jul-16 lron-55 3.28E+01 8.62E+01 5.99E+01 pCi/L DW1 Drinking Water 403116002) -DW 2-Aug-16 lron-55 -2.18E+01 7.15E+01 5.07E+01 pCi/L DW1 Drinking Water 405375002)-DW 6-Sep-16 lron-55 1.22E+01 8.88E+01 6.20E+01 pCi/L DW1 Drinking Water 408514002) -DW 17-0ct-16 lron-55 -2.45E+01 8.71E+01 6.51E+01 pCi/L DW1 Drinking Water 410307002) -DW 8-Nov-16 lron-55 4.26E+01 8.39E+01 6.42E+01 pCi/L DW1 Drinking Water 412191001)-DW 6-Dec-16 lron-55 5.58E+01 1.02E+02 7.98E+01 pCi/L DW1 Drinking Water 389292003) -DW 12-Jan-16 lron-59 -7.20E-01 3.72E+OO 2.33E+OO pCi/L DW1 Drinking Water 390519005) -DW 1-Feb-16 lron-59 -8.76E-01 3.82E+OO 2.43E+OO pCi/L DW1 Drinking Water 393029002) -DW 9-Mar-16 lron-59 -7.13E-01 3.87E+OO 2.42E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 lron-59 2.16E-01 3.17E+OO 1.87E+OO pCi/L DW1 Drinkino Water 396784002) -DW 3-Mav-16 lron-59 .-2.00E+OO 3.71E+OO 2.51E+OO pCi/L DW1 Drinking Water 399127002) -DW 7-Jun-16 lron-59 1.70E+OO 4.20E+OO 2.47E+OO pCi/L DW1 Drinkina Water 402080002) -DW 19-Jul-16 lron-59 -4.41E-01 3.73E+OO 2.32E+OO pCi/L DW1 Drinking Water 403116002)-DW 2-Aug-16 lron-59 5.50E-01 3.54E+OO 2.11E+OO pCi/L DW1 Drinking Water 405375002) -DW 6-Sep-16 lron-59 -4.39E-01 2.77E+OO 1.65E+OO .pCi/L DW1 Drinking Water 408514002) -DW 17-0ct-16 lron-59 -1.27E+OO 2.44E+OO 1.72E+OO oCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 lron-59 -9.67E-01 2.68E+OO 1.72E+OO pCi/L DW1 Drinking Water 412191001) -DW 6-Dec-16 lron-59 1.53E-01 2.99E+OO 1.73E+OO pCi/L DW1 Drinking Water 389292003) -DW 12-Jan-16 Lanthanum-140 4.75E-02 2.60E+OO 1.54E+OO pCi/L DW1 Drinking Water 390519005) -DW 1-Feb-16 Lanthanum-140 -3.61E-01 3.38E+OO 2.06E+OO pCi/L DW1 Drinking Water 393029002) -DW 9-Mar-16 Lanthanum-140 1.11E+OO 3.64E+OO 2.11E+OO pCi/L DW1 Drinking Water 395275002) -DW 12-Apr-16 Lanthanum-140 5.81E-01 2.22E+OO 1.28E+OO pCi/L DW1 Drinking Water 396784002) -DW 3-Mav-16 Lanthanum-140 6.89E-01 3.72E+OO 2.53E+OO pCi/L DW1 Drinking Water 399127002) -DW 7-Jun-16 Lanthanum-140 2.71 E-02 4.68E+OO 2.79E+OO pCi/L DW1 Drinking Water 402080002) -DW 19-Jul-16 Lanthanum-140 1.17E+OO 4.56E+OO 2.86E+OO . pCi/L DW1 Drinking Water 403116002) -DW 2-Aug-16 Lanthanum-140 -7.76E-01 3.40E+OO 2.18E+OO oCi/L DW1 Drinking Water 405375002) -DW 6-Sep-16 Lanthanum-140 -7.15E-01 2.58E+OO 1.65E+OO pCi/L DW1 Drinking Water 408514002)-DW 17-0ct-16 Lanthanum-140 1.73E-01 2.70E+OO 1.76E+OO pCi/L DW1 Drinking Water 410307002)-DW 8-Nov-16 Lanthanum-140 -2.80E-01 2.27E+OO 1.42E+OO pCi/L DW1 Drinking Water 412191001)-DW 6-Dec-16 Lanthanum-140 -2.82E-01 2.44E+OO 1.72E+OO pCi/L DW1 Drinkino Water 389292003) -DW 12-Jan-16 Manoanese-54 -1.22E+OO 1.71E+OO 1.24E+OO pCi/L DW1 Drinking Water 390519005) -DW 1-Feb-16 Manganese-54 -6.78E-01 1.72E+OO 1.12E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Manganese-54 7.85E-01 2.04E+OO 1.21E+OO pCi/L DW1 Drinkino Water 395275002) -OW 12-Apr-16 Manganese-54 3.89E-01 1.54E+OO 8.94E-01 oCi/L Page 60 of 92 2016 DCPP REMP Analysis Results Appendix A -,, DW1 Drinking Water(396784002) -DW 3-May-16 Manganese-54 3.35E-01 DW1 Drinking Water(399127002)-DW 7-Jun-16 Manganese-54 1.33E-01 DW1 Drinking Water(402080002) -DW 19-Jul-16 Manganese-54 2.55E-01 DW1 DrinkinQ Water(403116002) -DW 2-Aui:i-16 Mani:ianese-54 1.87E-01 DW1 Drinking Water(405375002)-DW 6-Sep-16 Manganese-54 5.03E-01 DW1 Drinking Water(408514002)-DW 17-0ct-16 Manganese-54 -3.56E-01 DW1 Drinking Water(410307002) -DW 8-Nov-16 Manganese-54 -5.76E-01 DW1 Drinking Water(412191001)-DW 6-Dec-16 Manganese-54 -5.46E-01 DW1 DrinkinQ Water(389292003) -DW 12-Jan-16 Nickel-63 -1.81E+01 DW1 Drinking Water(390519005) -DW 1-Feb-16 Nickel-63 7.94E+OO DW1 Drinking Water(393029002) -DW Mar-16 Nickel-63 1.79E+01 DW1 Drinking Water(395275002) -DW 12-Apr-16 Nickel-63 5.82E+OO DW1 Drinking Water(396784002) -DW 3-May-16 Nickel-63 7.35E+OO DW1 Drinkina Water(399127002) -DW 7-Jun-16 Nickel-63 -1.90E+OO DW1 Drinking Water(402080002) -DW 19-Jul-16 Nickel-63 6.90E-01 DW1 Drinking Water(403116002) -DW 2-Aug-16 Nickel-63 1.79E+01 DW1 Drinking Water(405375002) -DW 6-Sep-16 Nickel-63 3.67E-02 DW1 Drinking Water(408514002) -DW 17-0ct-16 Nickel-63 1.26E+OO DW1 Drinking Water(410307002) -DW 8-Nov-16 Nickel-63 -4.24E+OO DW1 Drinking Water(412191001)-DW 6-Dec-16 Nickel-63 1.01 E+01 DW1 Drinking Water(389292003) -DW 12-Jan-16 Niobium-95 1.69E+OO DW1 Drinkini:i Water(390519005) -DW 1-Feb-16 Niobium-95 9.29E-01 DW1 Drinking Water(393029002) -DW 9-Mar-16 Niobium-95 -5.21 E-01 DW1 Drinkina Water(395275002) -DW 12-Apr-16 Niobium-95 2.67.E-01 DW1 Drinking Water(396784002) -DW 3-May-16 Niobium-95 6.50E-02 DW1 Drinking Water(399127002) -DW 7-Jun-16 Niobium-95 7.70E-02 DW1 DrinkinQ Water(402080002) -DW 19-Jul-16 Niobium-95 4.28E-01 DW1 Drinking Water(403116002)-DW 2-Aug-16 Niobium-95 2.17E-01 DW1 Drinking Water(405375002) -DW \ 6-Sep-16 | |||
* Niobium-95 -3.67E-01 DW1 Drinking Water(408514002) -DW 17-0ct-16 Niobium-95 9.53E-02 DW1 Drinking Water(410307002) -DW 8-Nov-16 Niobium-95 5.66E-01 DW1 Drinking Water(412191001)-DW 6-Dec-16 Niobium-95 -4.74E-01 DW1 Drinking Water(389292003) -DW 12-Jan-16 Total Strontium -1.14E-01 DW1 Drinking Water(390519005) -DW 1-Feb-16 Total Strontium -1.86E-01 DW1 Drinking Water(393029002) -DW 9-Mar-16 Total Strontium 4.19E-01 DW1 Drinking Water(395275002) -DW 12-Aor-16 Total Strontium -1.60E-01 DW1 DrinkinQ Water(396784002) -DW 3-May-16 Total Strontium -2.14E-01 DW1 Drinking Water(399127002) -DW 7-Jun-16 Total Strontium -9.78E-02 DW1 Drinking Water(402080002) -DW *. 19-Jul-16 Total Strontium -3.28E-02 DW1 Drinking Water(403116002) -DW 2-Aug-16 Total Strontium -1.41 E-01 DW1 Drinking Water(405375002) -DW 6-Sep-16 Total Strontium -5.07E-01 DW1 Drinkina Water(408514002) -DW 17-0ct-16 Total Strontium -7.07E-01 DW1 Drinking Water(410307002) -DW 8-Nov-16 Total Strontium -4.66E-01 DW1 Drinking Water(412191001) -DW 6-Dec-16 Total Strontium -5.71 E-01 DW1 Drinkina Water(389292003) -DW 12-Jan-16 Tritium 6.85E+01 Page 61 of92 2.006+00 1.75E+OO 1.62E+OO 1.65E+OO . 1.45E+OO 1.18E+OO 1.21E+OO 1.25E+OO 3.03E+01 2.27E+01 3.12E+01 3.55E+01 3.59E+01 3.60E+01 3.02E+01 2.60E+01 2.87E+01 3.42E+01 2.79E+01 . 2.59E+01 1.98E+OO 1.99E+OO 2.25E+OO 1.60E+OO 1.96E+OO 1.94E+OO 1.77E+OO 1.97E+OO 1.75E+OO 1.46E+OO 1.35E+OO 1.40E+OO 2.26E-01 1.78E-01 4.86E-01 2.04E-01 2.90E-01 1.82E-01 2.38E-01 2.45E-01 8.16E-01 9.29E-01 6.86E-01 6.34E-01 2.67E+02 1.18E+OO 1.04E+OO 1.09E+OO 9.71E-01 8.69E-01 7.56E-01 7.84E-01 8.50E-01 1.70E+01 1.40E+01 1.97E+01 2.13E+01 2.18E+01 2.14E+01 1.80E+01 1.64E+01 1.71 E+01 2.04E+01 1.65E+01 1.59E+01 1.32E+OO 1.19E+OO 2.49E+OO 9.22E-01 1.65E+OO 1.15E+OO 1.04E+OO 1.57E+OO 1.73E+OO 8.63E-01 1.25E+OO 1.03E+OO 1.32E-01 9.95E-02 3.15E-01 1.14E-01 1.67E-01 1.04E-01 1.40E-01 1.41E-01 4.21E-01 4.87E-01 3.66E-01 2.98E-01 1.62E+02 pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L ,, I I | |||
,.-2016 DCPP REMP Analysis Results Appendix A DW1 Drinking Water(390519005) -DW 1-Feb-16 Tritium 5.00E+01 2.80E+02 1.69E+02 pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Tritium 4.37E+01 2.40E+02 1.46E+02 pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Tritium -8.83E+01 2.97E+02 1.73E+02 pCi/L DW1 Drinking Water(396784002) -DW 3-Mav-16 Tritium -8.07E+01 2.48E+02 1.44E+02 oCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Tritium 1.76E+02 2.42E+02 1.56E+02 pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 Tritium 2.33E+01* 3.05E+02 1.83E+02 pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Tritium 1.45E+01 2.63E+02 1.57E+02 pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Tritium -3.18E+01 2.70E+02 1.59E+02 pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 Tritium 3.38E+01 2.91E+02 1.75E+02 pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 Tritium 6.65E+OO 3.00E+02 1.79E+02 pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Tritium -1.88E+01 3.02E+02 1.79E+02 pCi/L DW1 Drinking Water(389292003) -DW 12-Jan-16 Zinc-65 6.77E-01 3.83E+OO 2.62E+OO pCi/L DW1 Drinking Water(39Q519005)-DW 1-Feb-16 Zinc-65 9.92E-01 3.80E+OO 2.26E+OO pCi/L DW1 Drinkina Water(393029002) -DW 9-Mar-16 Zinc-65 -1.71E+OO 3.95E+OO 2.66E+OO pCi/L DW1 Drinking Water(395275002) DW 12-Apr-16 Zinc-65 -5.18E+OO 3.09E+OO 3.67E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-Mav-16 Zinc-65 1.93E+OO 3.77E+OO 2.48E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Zinc-65 -5.01E+OO 3.35E+OO 4.04E+OO pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 Zinc-65 -1:88E+OO 3.16E+OO 2.28E+OO pCi/L DW1 Drinking Water(403116002)-DW 2-Aug-16 Zinc-65 -6.97E-01 3.62E+OO 2.27E+OO oCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Zinc-65 -3.08E-01 | |||
* 2.84E+OO 1.68E+OO pCi/L DW1 Drinking Water(408514002) -DW . 17-0ct-16 Zinc-65 . -1.58E+OO 2.34E+OO 1.96E+OO pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 Zinc-65 -8.35E-01 2.81E+OO 2.01E+OO pCi/L | |||
* DW1 Drinking Water(412191001)-DW 6-Dec-16 Zinc-65 -1.01E+OO 2.73E+OO 1.73E+OO pCi/L DW1 Drinkina Water(389292003) -DW 12-Jan-16 Zirconium-95 2.52E-01 3.17E+OO 1.85E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Zirconium-95 8.71E-01 3.47E+OO 2.02E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Zirconium-95 1.71E+OO 3.73E+OO 2.24E+OO pCi/L DW1 Drinkina Water(395275002) -DW 12-Apr-16 Zirconium-95 -1.44E-01 2.55E+OO 1.49E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Zirconium-95 -8.85E-01. 3.17E+OO 1.98E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Zirconium-95 -5.57E-01 3.28E+OO 2.01E+OO pCi/L DW1 Drinking Water(402080002)-DW 19-Jul-16 1.14E+OO 3.15E+OO 1.86E+OO pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Zirconium-95 2:01E+OO 3.47E+OO 2.12E+OO pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Zirconium-95 -3.75E-01 2.52E+OO 1.56E+OO oCi/L DW1 Drinking Water(408514002)-DW . 17-0ct-16 Zirconium-95 -1.28E+OO 2.32E+OO 1.59E+OO pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 Zirconium-95 -2.78E-01 2.40E+OO 1.50E+OO pCi/L DW1 Drinking Water(412191001) -DW 6-Dec-16 Zirconium-95 2.89E-01 2.46E+OO 1.66E+OO pCi/L Page 62 of 92 2016 DCPP REMP Analysis Results Appendix A DY1 Drywell 115 -Monitoring Well Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DY1Drywell115(390519001)-GW 26-Jan-16 BETA 4.13E+01 2.70E+OO 7.54E+OO pCi/L DY1Drywell115(396610005)-GW 26-Apr-16 BETA 2.82E+01 2.75E+OO 5.19E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 BETA 4.63E+01 2.06E+OO 8.05E+OO pCi/L DY1 Drywell 115(410009001)-GW 1-Nov-16 BETA 6.27E+01 1.88E+OO 1.06E+01 pCi/L DY1 Drywell 115(390519001)-GW 26-Jan-16 Barium-140 -4.26E+OO 1.02E+01 6.78E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Barium-140 -5.89E-01 1.19E+01 6.93E+OO pCi/L DY1Drvwell115(403022001)-GW 26-Jul-16 Barium-140 6.66E+OO 1.06E+01 6.80E+OO oCi/L DY1 Drywell 115(410009001) -GW 1-Nov-16 Barium-140 -3.01E+OO 9.97E+OO 1.12E+01 pCi/L DY1 Drywell 115(390519001)-GW 26-Jan-16 Cesium-134 -5.30E-01 1'.89E+OO 1.18E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Cesium-134 1.39E-01 1.75E+OO 1.04E+OO pCi/L DY1 Drywell 115(403022001)-GW 26-Jul-16 Cesium-134 -8.57E-01 1.88E+OO 1.56E+OO pCi/L DY1Drvwell115(410009001)-GW 1-Nov-16 Cesium-134 3.76E-01 1.37E+OO 8.41 E-01 pCi/L DY1 Drywell 115(390519001) -GW 26-Jan-16 Cesium-137 -6.96E-01 1.73E+OO 1.10E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Cesium-137 -9.47E-01 '1.63E+OO 1.56E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Cesium-137 1.78E+OO 1.78E+OO 2.33E+OO pCi/L DY1 Drywell 115(410009001) -GW 1-Nov-16 Cesium-137 1.06E+OO 1.20E+OO 1.43E+OO pCi/L DY1 Drvwell 115(390519001)-GW 26-Jan-16 Cobalt-58 6.69E-01 1.81E+OO 1.06E+OO oCi/L DY1 Drvwell 115(396610005) -GW 26-Apr-16 Cobalt-58 3.21E-02 1.77E+OO 1.06E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Cobalt-58 -9.40E-03 1.80E+OO 1.07E+OO pCi/L DY1 Drvwell 115(410009001) -GW 1-Nov-16 Cobalt-58 5.02E-02 1.24E+OO -7.10E-01 oCi/L DY1 Drywell 115(390519001)-GW 26-Jan-16 Cobalt-60 -3.55E-01 1.83E+OO 1.12E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Cobalt-60 8.61E-01 1.76E+OO 1.05E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Cobalt-60 6.89E-01 1.82E+OO 1.06E+OO pCi/L DY1 Drywell 115(410009001)-GW 1-Nov-16 Cobalt-60 1.18E+OO 1.48E+OO 1.20E+OO pCi/L DY1 Drvwell 115(390519001) -GW 26-Jan-16 lodine-131 1.23E+OO 4.40E+OO 2.62E+OO oCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 lodine-131 7.09E-01 5.91E+OO 3.53E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 lodine-131 1.28E+OO 4.59E+OO 2.74E+OO pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 lodjne-131 -3.67E-01 4.53E+OO 2.67E+OO pCi/L DY1 Drywell 115(390519001) -GW 26-Jan-16 lron-55 1.26E+01 5.74E+01 4.34E+01 pCi/L DY1 Drvwell 115(396610005) -GW 26-Apr-16 lron-55 3.28E+01 7.15E+01 5.31 E+01 oCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 lron-55 1.48E+01 7.27E+01 5.36E+01 pCi/L DY1 Drywell 115(410009001) -GW 1-Nov-16 lron-55 3.09E+01 8.07E+01 6.12E+01 pCi/L DY1 Drywell 115(390519001) -GW 26-Jan-16 lron-59 -1.33E-01 3.91E+OO 2.38E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 lron-59 -2.87E-01 3.52E+OO 2.17E+OO pCi/L DY1Drvwell115(403022001)-GW 26-Jul-16 lron-59 7.22E-01 3.59E+OO 2.14E+OO pCi/L DY1Drvwell115(410009001)-GW 1-Nov-16 lron-59 -1.18E+OO 2.55E+OO 1.67E+OO pCi/L DY1 Drvwell 115(390519001)-GW 26-Jan-16 Lanthanum-140 -6.07E-01 3.40E+OO 2.11 E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Lanthanum-140 9.89E-01 4.25E+OO 2.50E+OO pCi/L DY1 Drywell 115(403022001)-GW -26-Jul-16 Lanthanum-140 -1.57E+OO 3.19E+OO 2.54E+OO pCi/L DY1 Drywell 115(410009001)-GW 1-Nov-16 Lanthanum-140 -2.51E+OO 3.03E+OO 2.36E+OO pCi/L DY1 Drywell 115(390519001) -GW 26-Jan-16 Manganese-54 -4.28E-01 1.69E+OO 1.05E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Manganese-54 1.13E+OO 1.61E+OO 1.05E+OO pCi/L DY1 Drywell 115(403022001)-GW 26-Jul-16 Manaanese-54 1.97E-01 1.84E+OO 1.08E+OO pCi/L Page 63 of 92 2016 DCPP REMP Analysis Results Appendix A DY1Drywell115(410009001)-GW 1-Nov-16 Manganese-54 3.42E-01 1.21E+OO 6.97E-01 pCi/L DY1Drvwell115(390519001)-GW 26-Jan-16 ' Nickel-63 4.02E+OO 2.41E+01 1.46E+01 pCi/L DY1Drywell115(396610005)-GW . 26-Apr-16 Nickel-63 1.09E+01 3.44E+01 2.10E+01 pCi/L DY1Drvwell115(403022001)-GW 26-Jul-16 Nickel-63 2.38E+OO 2.67E+01 1.60E+01 pCi/L DY1 Drywell 115(410009001) -GW 1-Nov-16 Nickel-63 -1.00E+01 2.84E+01 1.66E+01 pCi/L DY1Drywell115(390519001)-GW 26-Jan-16 Niobium-95 3.51E-01 1.86E+OO 1.09E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Niobium-95 4.66E-01 1.75E+OO 1.04E+OO pCi/L DY1Drywell115(403022001)-GW Niobium-95 -6.02E-01 2.00E+OO 1.95E+OO pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 Niobium-95 5.53E-02 1.42E+OO.' 8.76E-01 pCi/L DY1Drywell115(390519001)-GW 26-Jan-16 *-Total Strontium -1.18E-02 2.24E-01 1.33E-01 pCi/L DY1Drywell115(396610005)-GW 26-Apr-16 Total Strontium -3.68E-01 2.00E-01 1.06E-01 pCi/L DY1Drywell115(403022001)-GW 26-Jul-16 Total Strontium -6.19E-02 1.60E-01 9.22E-02 pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 Total Strontium -8.23E-02 5.73E-01 3.32E-01 pCi/L DY1Drvwell115(390519001)-GW 26-Jan-16 Tritium 4.65E+03 2.84E+02 9.54E+02 pCi/L DY1Drywell115(396610005)-GW 26-Apr-16 Tritium 3.76E+03 2.78E+02 7.81E+02 pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Tritium 4.55E+03 2.85E+02 9.34E+02 pCi/L DY1 Drywell 115(410009001)-GW 1-Nov-16 Tritium 5.19E+03 2.64E+02 1.05E+03 pCi/L DY1Drywell115(390519001)-GW 26-Jan-16 Zinc-65 3.73E+OO 3.73E+OO 5.80E+OO pCi/L DY1Drywell115(396610005)-GW 26-Apr-.16 Zinc-65 2.90E+OO 3.43E+OO 2.45E+OO oCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Zinc-65 -1.19E+OO 3.41E+OO 2.23E+OO pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 Zinc-65 -1.43E-01 2.41E+OO 1.55E+OO pCi/L DY1Drywell115(390519001)-GW 26-Jan-16 Zirconium-95 -2.28E-01 3.17E+OO 1.89E+OO pCi/L DY1 Drvwell 115(396610005) -GW 26-Apr-16 Zirconium-95 -1.52E+OO 2.96E+OO 1.97E+OO pCi/L DY1Drvwell115(403022001)-GW 26-Jul-16 Zirconium-95 -1.05E+OO 3.27E+OO 2.05E+OO pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 Zirconium-95 , 7.17E-01 2.29E+OO 1.40E+OO pCi/L GW1 G d. t M 't . W 111 roun wa er oni ormg e Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units GW1 Groundwater Monitoring Well 1 (390519003) -GW 28-Jan-16 BETA 6.15E+OO 7.96E+OO 5.17E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001) -GW 26-Apr-16 BETA -3.52E+OO 2.72E+01 1.62E+01 pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 BETA 1.93E+01 1.33E+01 9.53E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002)-GW 31-0ct-16 BETA. 7.75E+OO 1.34E+01 8.80E+OO oCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Barium-140 6.33E-03 1.20E+01 7.20E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Barium-140 3.42E-01 1.11E+01 1.10E+01 pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 Barium-140 2.57E+OO 1.33E+01 7.76E+OO pCi/L GW1 Groundwater Monitoring Well 1 ( 410011002) -GW 31-0ct-16 Barium-140 -2.54E+OO 1.07E+01 6.64E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Cesium-134 4.66E-01 2.01E+OO 1.17E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Cesium-134 -7.62E-02 2.18E+OO 1.64E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 Cesium-134 -2.65E-01 2.26E+OO 1.37E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Cesium-134 4.91E-01 2.10E+OO 1.20E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Cesium-137 3.37E-01 1.86E+OO 1.28E+OO pCi/L GW1 Groundwater MonitorinQ Well 1(396610001) -GW 26-Apr-16 Cesium-137 5.52E-01 2.27E+OO 1.54E+OO oCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 Cesium-137 5.96E-02 2.16E+OO 1.47E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Cesium-137 -1.23E-01 1.99E+OO 1.37E+OO pCi/L GW1 Groundwater MonitorinQ Well 1 (390519003) -GW 28-Jan-16 Cobalt-58 -1.26E-01 1.85E+OO 1.25E+OO oCi/L Page 64 of92 I l 2016 DCPP REMP Analysis Results Appendix A GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Cobalt-58 -1.13E-01 2.09E+OO 1.46E+OO pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW ' 26-Jul-16 Cobalt-58 2.76E-01 2.17E+OO 1.48E+OO _pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Cobalt-58 -2.52E-01 1.92E+OO 1.28E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Cobalt-60 2.02E+OO 2.02E+OO 2.47E+OO oCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW \ 26-Apr-16 Cobalt-60 -2.11 E-01 2.06E+OO 1.25E+OO pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 Cobalt-60 8.72E-01 2.25E+OO 1.32E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Cobalt-60 3.90E-01 2.0?E+OO 1.24E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 lodine-131 -1.83E+OO 5.19E+OO 3.22E+OO pCi/L GW1 Groundwater Monitorina Well 1(396610001)-GW 26-Apr-16 lodine-131 -2.68E+OO 4.48E+OO 3.04E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 lodine-131 3.97E-01 5.47E+OO 3.31E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 lodine-131 1.44E+OO 4.16E+OO 2.43E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 lron-55 4.86E+OO 5.48E+01 4.11 E+01 pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW lron-55 -7.54E-01 5.78E+01 '4.19E+01 pCi/L GW1 Groundwater Monitorina Well 1(402880002)-GW 26-Jul-16 lron-55 2.54E+01 6.89E+01 5.15E+01 pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 lron-55 5.31E+OO 8.30E+01 6.12E+01 pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 lron-59 -7.95E-01 3.81E+OO 2.35E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 -6.19E-01 4.06E+OO 2.44E+OO pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 lron-59 -4.22E-01 4.50E+OO 2.65E+OO pCi/L GW1 Groundwater Monitorina Well 1(410011002) -GW 31-0ct-16 lron-59 -8.39E-01 4.20E+OO 2.59E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Lanthanum-140 -6.23E-01 3.57E+OO 2.15E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Lanthanum-140 3.25E+OO 3.97E+OO 4.08E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002) -GW 26-Jul-16 Lanthanum-140 1.95E+OO 4.41 E-+;00 2.96E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002)-GW 31-0ct-16 Lanthanum-140 6.44E-01 4.19E+OO 2.76E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Manaanese-54 -1.21E+OO 1.74E+OO 1.60E+OO oCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Manganese-54 -1.39E+OO 1.99E+OO 1.42E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002) -GW 26-Jul-16 Manganese-54 * -1.52E-01 1.95E+OO 1.37E+OO pCi/L GW1 Groundwater Monitorina Well 1(410011002) -GW 31-0ct-16 Manganese-54 -2.81E-03 1.80E+OO 1.18E+OO pCi/L, GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Nickel-63 1.71E+OO 2.33E+01 1.39E+01 pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Nickel-63 1.61E+01 3.34E+01 2.07E+01 pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 Nickel-63 1.20E+OO 2.82E+01 1.69E+01 pCi/L GW1 Groundwater Monitoring Well 1 ( 410011002) -GW 31-0ct-16 Nickel-63 -1.70E+01 2.66E+01 1.53E+01 pCi/L GW1 Groundwater Monitorina Well 1 (390519003) -GW 28-Jan-16 Niobium-95 2.39E+OO 2.39E+OO 1.91E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Niobium-95 2.54E+OO 2.54E+OO 2.38E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 Niobium-95 2.60E+OO 2.60E+OO 2.28E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002)-GW 31-0ct-16 Niobium-95 8.26E-01 *2.25E+OO 1.54E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Total Strontium -7.22E-02 1.73E-01 1.01 E-01 pCi/L GW1 Groundwater Monitorina Well 1(396610001) -GW 26-Apr-16 Total Strontium 3.38E-02 2.21E-01 1.33E-01 pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 Total Strontium -2.01E-02 1.65E-01 9.78E-02 pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Total Strontium -8.93E-02 6.39E-01 3.73E-01 pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Tritium 2.29E+02 2.82E+02 1.84E+02 pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Tritium 8.71E+01 2.80E+02 1.71E+02 pCi/L GW1 Groundwater Monitorina Well 1 (402880002) -GW 26-Jul-16 Tritium 1.64E+02 2.61E+02 1.66E+02 pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Tritium 1.10E+02 2.66E+02 1.65E+02 pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Zine-65 1.05E+OO 3.74E+OO 2.52E+OO pCi/L GW1 Gn:iundwater Monitoring Well 1(396610001) -GW 26-Apr-16 Zinc-65 5.15E-01 4.27E+OO 2.89E+OO pCi/L Page 65 of 92 L i I L GW1 Groundwater Monitoring Well 1(402880002)-GW GW1 Groundwater Monitoring Well 1 ( 410011002) -GW GW1 Groundwater Monitoring Well 1 (390519003) -GW GW1 Groundwater Monitorina Well 1(396610001) -GW GW1 Groundwater Monitoring Well 1 (402880002) -GW GW1 Groundwater Monitoring Well 1(410011002) -GW GW2 Groundwater Monitoring Well 2 Sample Name GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002)-GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2( 410011001) -GW GW2 Groundwater Monitoring Well 2(390519002) -GW GW2 Groundwater Monitoring Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitorina Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitorina Well 2(390519002) -GW GW2 Groundwater Monitoring Well 2(396610002)-GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitorina Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001) -GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001) -GW GW2 Groundwater Monitoring Well 2(410011001)-GW GW2 Groundwater Monitoring.Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002)-GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitorina Well 2(410011001) -GW GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitorina Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002)-GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2-Groundwater Monitorina Well 2( 410011001) -GW 2016 DCPP REMP Analysis Results Appendix A 26-Jul-16 Zinc-65 2.22E+OO 31-0ct-16 Zinc-65 -2.78E+OO 28"Jan-16 Zirconium-95 -2.14E-01 26-Apr-16 Zirconium-95 6.49E-01 26-Jul-16 Zirconium-95 -5.64E-01 31-0ct-16 Zirconium-95 -2.46E+OO Date Collected Nuclide Result BETA 1.67E+01 26-Apr-16 BETA 1.49E+01 -26-Jul-16 BETA 6.71E+OO 31-0ct-16 BETA 9.34E+OO 28-Jan-16 Barium-140 3.76E+OO 26-Apr-16 Barium-140 -4.63E+OO 26-Jul-16 Barium-140 4.55E+OO 31-0ct-16 Barium-140 1.57E+OO 28-Jan-16 Cesium-134 6.31E-01 26-Apr-16 Cesium-134 1.25E+OO 26-Jul-16 Cesium-134 7.75E-01 31-0ct-16 Cesium-134 -5.24E-01 28-Jan-16 Cesium-137 7.12E-01 26-Apr-16 Cesium-137 -6.70E-02 26-Jul-16 Cesium-137 4.67E-01 31-0ct-16 Cesium-137 , 3.15E-01 28-Jan-16 Cobalt-58 -2.31 E-01 26-Apr-16 Cobalt-58 5.06E-01 26-Jul-16 Cobalt-58 -9.33E-02 31-0ct-16 Cobalt-58 -1.55E-01 28-Jan-16 Cobalt-60 -4.26E-01 26-Apr-16 Cobalt-60 1.42E-01 26-Jul-16 Cobalt-60 4.03E-01 31-0ct-16 Cobalt-60 1.23E+OO 28-Jan-16 lodine-131 -3.32E-01 26-Apr-16 lodine-131 4.63E-01 26-Jul-16 Iodine-131 9.16E-01 , 31-0ct-16 lodine-131 7.92E-01 28-Jan-16 Iron-55 2.34E+01 26-Apr-16 lron-55 2.84E+01 26-Jul-16 lron-55 4.31E+OO 31-0ct-16 lron-55 3.19E+01 28-Jan-16 lron-59 8.47E-01 26-Apr-16 lron-59 -7.08E-01 26-Jul-16 lron-59 2.26E+OO 31-0ct-16 lron-59 4.81E-01 Page 66 of 92 4.52E+OO 3.04E+OO pCi/L 3.85E+OO 4.07E+OO pCi/L 3.41E+OO 1.99E+OO pCi/L 3.66E+OO 2.18E+OO oCi/L 3.81E+OO 2.32E+OO pCi/L 3.33E+OO 2.50E+OO pCi/L MDC 2 Siama TPU Units 8.49E+OO 6.27E+OO pCi/L 5.79E+OO 4.74E+OO pCi/L 5.00E+OO 3.64E+OO pCi/L 6.23E+OO 4.38E+OO pCi/L 1.12E+01 6.59E+OO pCi/L 1.44E+01 9.11E+OO pCi/L 9.22E+OO 6.33E+OO pCi/L 8.04E+OO 4.75E+OO pCi/L 1.91E+OO 1.15E+OO pCi/L 2.08E+OO 1.85E+OO pCi/L 1.64E+OO 9.75E-01 pCi/L 1.43E+OO 9.43E-01 pCi/L 1.82E+OO 1.98E+OO oCi/L 2.14E+OO 1.30E+OO pCi/L 1.70E+OO 1.03E+OO pCi/L 1.43E+OO 8.50E-01 pCi/L 1.76E+OO 1.08E+OO pCi/L 2.28E+OO 1.37E+OO pCi/L 1.56E+OO 9.20E-01 pCi/L 1.43E+OO 8.90E-01 pCi/L 1.72E+OO 1.08E+OO pCi/L 1.97E+OO 1.16E+OO pCi/L 1.78E+OO 1.06E+OO pCi/L 1.62E+OO 1.02E+OO pCi/L 4.55E+OO 2.78E+OO pCi/L 6.57E+OO 3.87E+OO pCi/L \ 3.75E+OO 2.21 E+OO pCi/L 3.02E+OO 1.76E+OO oCi/L 5.42E+01 4.16E+01 pCi/L 6.58E+01 4.95E+01 pCi/L 7.01E+01 5.11E+01 pCi/L 8.28E+01 6.26E+01 pCi/L 3.64E+OO 2.13E+OO oCi/L 4.37E+OO 3.09E+OO pCi/L 3.25E+OO 3.02E+OO pCi/L 2.72E+OO 1.56E+OO pCi/L 2016 DCPP REMP Analysis Results Appendix A -GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Lanthanum-140 -4.30E-02 3.55E+OO 2.15E+OO pCi/L GW2 Groundwater Monitoring Well 2(396610002) -GW 26-Apr-16 Lanthanum-140 1.29E+OO 4.82E+OO 2.84E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Lanthanum-140 1.62E+OO 3.49E+OO 2.05E+OO pCi/L GW2 Groundwater MonitorinQ Well 2(410011001) -GW 31-0ct-16 Lanthanum-140 -9.34E-01' 2.24E+OO 1.51E+OO pCi/L GW2 Groundwater Monitoring Well 2(390519002) -GW 28-Jan-16 Manganese-54 * -1.40E-01 1.72E+OO 1.05E+OO pCi/L GW2 Groundwater Monitoring Well 2(396610002) -GW 26-Apr-16 Manganese-54 -3.16E-01 2.07E+OO 1.23E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Manganese-54 -3.05E-01 1.49E+OO 9.02E-01 pCi/L GW2 Groundwater Monitoring Well 2(410011001)-GW 31-0ct-16 Manganese-54 -3.01 E-01 1.22E+OO 8.85E-01 pCi/L GW2 Groundwater Monitoring Well 2(390519002) -GW 28-Jan-16 Nickel-63 1.29E+OO 2.34E+01 1.40E+01 oCi/L GW2 Groundwater Monitoring Well 2(396610002) -GW 26-Apr-16 Nickel-63 3.64E+OO 3.46E+01 2.08E+01 pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Nickel-63 -4.02E+OO 2.83E+01 1.67E+01 pCi/L GW2 Groundwater Monitoring Well 2(410011001) -GW 31-0ct-16 Nickel-63 -7.79E-01 2.56E+01 1.53E+01 pCi/L GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Niobium-95 -4.01E-01 1.82E+OO 1.13E+OO pCi/L GW2 Groundwater MonitorinQ Well 2(396610002) -GW Niobium-95 9.77E-01 2.32E+OO 1.42E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Niobium-95 -1.35E-01 1.67E+OO 9.86E-01 pCi/L GW2 Groundwater Monitoring Well 2(410011001)-GW 31-0ct-16 Niobium-95 5.06E-01 1.48E+OO 9.92E-01 pCi/L GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Total Strontium 7.45E-02 2.26E-01 1.39E-01 pCi/L GW2 Groundwater Monitoring Well 2(396610002)-GW 26-Apr-16 Total Strontium -2.07E-01 2.55E-01 1.44E-01 pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Total Strontium -9.17E-02 1.59E-01 9.12E-02 oCi/L GW2 Groundwater Monitoring Well 2(410011001) -GW 31-0ct-16 Total Strontium -7.81E-02 6.76E-01 3.96E-01 pCi/L GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Tritium -1.74E+01 2.79E+02 1.65E+02 pCi/L GW2 Groundwater MonitorinQ Well 2(396610002) -GW 26-Apr-16 Tritium -6.07E+01 2.49E+02 1.46E+02 pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Tritium 1.04E+01 2.90E+02 1.73E+02 pCi/L GW2 Groundwater MonitorinQ Well 2(410011001) -GW 31-0ct-16 Tritium -8.86E+01 2.66E+02 1.54E+02 pCi/L GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Zinc-65 -1.10E-02 3.66E+OO 2.51E+OO pCi/L GW2 Groundwater Monitoring Well 2(396610002)-GW 26-Apr-16 Zinc-65 1.18E+OO 4.17E+OO 4.33E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001) -GW 26-Jul-16 Zinc-65 1.65E+OO 3.06E+OO 2.07E+OO oCi/L GW2 Groundwater Monitoring Well 2(410011001)-GW 31-0ct-16 Zinc-65 3.72E-01 2.86E+OO 1.86E+OO pCi/L GW2 Groundwater Monitoring Well 2(390519002) -GW 28-Jan-16 Zirconium-95 -3.87E-01 3.14E+OO 1.91E+OO pCi/L GW2 Groundwater Monitoring Well 2(396610002)-GW 26-Apr-16 Zirconium-95 -1.86E+OO 3.72E+OO 2.53E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001) -GW 26-Jul-16 Zirconium-95 5.07E-02 2.90E+OO 1.69E+OO pCi/L GW2 Groundwater Monitoring Well 2(410011001) -GW 31-0ct-16 Zirconium-95 -7.79E-01 2.32E+OO 1.52E+OO pCi/L INTK -Intake Cove Seawater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units INTK(397479004)-SW 10-May-16 BETA 8.83E+02 1.90E+02 1.98E+02 pCi/L INTK(399130003 -SW 6-Jun-16 BETA 2.29E+02 1.85E+02 1.22E+02 oCi/L INTK(401793002)-SW 11-Jul-16 BETA 2.84E+02 1.15E+02 9.22E+01 pCi/L INTK(397479004) -SW 10-May-16 Barium-140 -2.35E+OO 9.45E+OO 5.89E+OO pCi/L INTK(399130003 -SW 6-Jun-16 Barium-140 -3.17E+OO 1.17E+01 7.30E+OO . pCi/L INTK(401793002 -SW 11-Jul-16 Barium-140 4.21E-01 1.10E+01 6.71E+OO pCi/L I NTK(397 4 79004 -SW 10-May-16 Cesium-134 1.34E+OO 1.96E+OO 1.24E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Cesium-134 -1.60E+OO , 2.24E+OO 1.66E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Cesium-134 7.96E-01 1.98E+OO 1.18E+OO pCi/L INTK(397479004 -SW 10-May-16 Cesium-137 1.74E-01 1.78E+OO 1.08E+OO pCi/L Page 67 of92 2016 DCPP REMP Analysis Results Appendix A INTK(399130003)-SW 6-Jun-16 Cesium-137 2.13E-02 2.25E+OO 1.37E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Cesium-137 -3.01 E-01 1.77E+OO 1.06E+OO pCi/L INTK(397479004)-SW 10-May-16 Cobalt-58 -1.47E-01 1.60E+OO 9.42E-01 pCi/L INTK(399130003) -SW 6-Jun-16 Cobalt-58 -7.21E-02 2.20E+OO 1.30E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Cobalt-58 -3.80E-01 1.71E+OO 1.06E+OO pCi/L INTK(397479004)-SW 10-May-16 Cobalt-60 1.80E+OO 1.80E+OO 2.15E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Cobalt-60 -1.15E+OO 2.13E+OO 1.45E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Cobalt-60 -8.59E-02 1.96E+OO 1.17E+OO pCi/L I NTK(397 4 79004) -SW 10-May-16 lodine-131 -8.46E-01 3.88E+OO 2.34E+OO pCi/L INTK(399130003) -SW 6-Jun-16 lodine-131 -6.98E-02 4.74E+OO 2.76E+OO pCi/L INTK(401793002) -SW 11-Jul-16 lodine-131 -8.95E-01 4.51E+OO 2.76E+OO pCi/L INTK(397479004)-SW 10-May-16 lron-55 -7.02E+OO 1.32E+02 8.83E+01 pCi/L INTK(399130003)-SW 6-Jun-16 lron-55 -5.26E+01 1.41E+02 9.50E+01 pCi/L INTK(401793002)-SW 11-Jul-16 lron-55 -3.80E+01 6.82E+01 4.31 E+01 pCi/L INTK(397479004)-SW 10-May-16 lron-59 1.53E+OO 3.95E+OO 2.37E+OO pCi/L INTK(399130003)-SW 6-Jun-16 lron-59 1.25E+OO 4.83E+OO 2.90E+OO pCi/L INTK(401793002)-SW 11-Jul-16 lron-59 -9.27E-01 3.84E+OO 2.45E+OO pCi/L INTK(397479004)-SW 10-May-16 Lanthanum-140 9.90E-02 2.95E+OO 1.99E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Lanthanum-140 1.01 E-01 3.91E+OO 2.35E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Lanthanum-140 -3.82E-01 3.67E+OO 2.24E+OO pCi/L INTK(397479004)-SW 10-May-16 Manganese-54 7.62E-01 1.55E+OO 1.23E+OO pCi/L INTK(399130003) -SW 6-Jun-16 ManQanese-54 -1.11E+OO 2.20E+OO 1.46E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Manganese-54 -6.99E-02 1.71E+OO 1.02E+OO pCi/L I NTK(397 4 79004) -SW 10-Mav-16 Nickel-63 -2.47E+OO 3.05E+01 1.80E+01 pCi/L INTK(399130003) -SW 6-Jun-16 Nickel-63 -2.06E+01 3.37E+01 1.95E+01 pCi/L INTK(401793002)-SW 11-Jul-16 Nickel-63 -3.56E+OO 3.65E+01 2.15E+01 pCi/L INTK(397479004) -SW 10-May-16 Niobium-95 -1.10E-01 1.66E+OO 1.11E+OO pCi/L INTK(399130003) -SW / 6-Jun-16 Niobium-95 1.87E+OO 2.37E+OO 1.56E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Niobium-95 -1.53E-01 1.83E+OO 1.27E+OO pCi/L INTK(397479004)-SW 10-May-16 Potassium-40 3.39E+02 1.65E+01 4.42E+01 pCi/L INTK(399130003) -SW 6-Jun-16 Potassium-40 3.56E+02 2.13E+01 4.99E+01 pCi/L INTK(397479004) -SW 10-May-16 Total Strontium 8.29E-01 1.61E+OO 1.02E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Total Strontium -1.78E+OO 2.20E+OO 1.23E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Total Strontium -2.33E+OO 2.15E+OO 1.19E+OO pCi/L INTK(397479004)-SW 10-May-16 Tritium 8.18E+01 2.73E+02 1.67E+02 pCi/L INTK(399130003)-SW 6-Jun-16 Tritium 3.60E+01 2.44E+02 1A7E+02 pCi/L INTK(401793002) -SW 11-Jul-16 Tritium 6.22E+01 2.76E+02 1.68E+02 pCi/L INTK(397479004)-SW 10-May-16 Zinc-65 9.12E-01 3.16E+OO 3.09E+OO pCi/L INTK(399130003)-SW 6-Jun-16 Zinc-65 1.43E+OO 5.00E+OO 3.01E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Zinc-65 1.46E+OO 4.17E+OO 2.52E+OO pCi/L INTK(397479004)-SW 10-May-16 Zirconium-95 3.16E-01 3.04E+OO ,1.75E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Zirconium-95 1.33E+OO 3.62E+OO 2.43E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Zirconium-95 5.67E-01 3.31E+OO 2.22E+OO pCi/L Page 68 of92 2016 DCPP REMP Analysis Results Appendix A MDO Montana de Oro -Beach Sand Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units MDO Montana de Oro(393297004) -SD 10-Mar-16 Barium-140 6.29E+01 2.84E+02 1.63E+02 pCi/kg MDO Montana de Oro(406060006) -SD 13-Seo-16 Barium-140 4.06E+01 2.36E+02 1.29E+02 pCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Bismuth-214 4.32E+02 6.30E+01 1.14E+02 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Cesium-134 -1.71E+01 3.49E+01 2.52E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Cesium-134 -8.55E+OO 4.81E+01 3.51E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Cesium-137 2.30E+01 5.74E+01 3.24E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Cesium-137 1.65E+01 5.15E+01 2.78E+01 oCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Cobalt-58 -9.48E+OO 2.90E+01 1.96E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Cobalt-58 1.95E+01 1.95Et01 4.44E+01 pCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Cobalt-60 -3.83E+01 5.25E+01 4.23E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Cobalt-60 -9.62E+OO 5.12E+01 3.30E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 lron-55 2.18E+03 1.23E+04 9.38E+03 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 lron-55 2.66E+03 1.49E+04 , 1.06E+04 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 lron-59 -4.83E+01 7.53E+01 6.10E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 lron-59 -1.01 E+01 9.63E+01 5.80E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Lanthanum-140 -4.23E+01 6.84E+01 5.67E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Seo-16 Lanthanum-140 -3.87E+01 5.97E+01 5.48E+01 oCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Lead-212 2.41E+02 6.02E+01 6.99E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Lead-214 4.69E+02 6.86E+01 1.27E+02 pCi/kg MDO Montana de 0ro(393297004) -SD 10-Mar-16 Manqanese-54 -1.30E+OO 4.47E+01 2.59E+01 pCi/kq MDO Montana de Oro(406060006) -SD " 13-Sep-16 Manganese-54 4.76E+OO 5.37E+01 3.13E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Nickel-63 9.87E+02 2.13E+03 1.32E+03 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Nickel-63 -1.00E+03 2.58E+03 1.50E+03 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Niobium-95 3.09E+01 3.75E+01 8.51E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Niobium-95 1.84E+01 5.14E+01 2.99E+01 oCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Potassium-40 3.96E+03 2.93E+02 8.77E+02 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Total Strontium -4.04E+02 1.76E+03 9.98E+02 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Total Strontium -5.41E+02 1.29E+03 7.11E+02 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Zinc-65 1.78E+01 8.95E+01 5.56E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Zinc-65 -1.47E+01 9.74E+01 6.89E+01 pCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Zirconium-95 -5.30E+OO 7.40E+01 4.75E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Zirconium-95 3.10E+01 9.57E+01 5.21 E+01 pCi/kg MDO Montana de Oro -Beach Sand Replicate Sample Name ' Date Collected Nuclide Result MDC 2 Sioma TPU Units MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Barium-140 1.33E+02 3.17E+02 1.73E+02 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Cesium-134 -1.88E+01 3.65E+01 2.81E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Cesium-137 3.27E+01 6.02E+01 6.64E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Cobalt-58 -2.25E+01 4.35E+01 3.10E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 ' Cobalt-60 -1.61 E+01 2.88E+01 2.54E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 lron-55 5.09E+03 1.25E+04 9.65E+03 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 lron-59 5.67E+01 1.53E+02 9.45E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Lanthanum-140 -2.05E+01 6.65E+01 4.94E+01 pCi/kg Page 69 of92 2()16 DCPP REMP Analysis Results Appendix A MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Lead-212 2.33E+02 6.80E+01 7.67E+01 MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Manganese-54 1.70E+01 5.58E+01 3.01E+01 MDO Montana de Oro-R(393297005 -SD 10-Mar-16 Nickel-63 -4.65E+02 2.09E+03 1.23E+03 MDO Montana de Oro-R 393297005 -SD Niobium-95 5.95E+OO 5.92E+01 3.40E+01 MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Potassium-40 4.45E+03 4.67E+02 9.52E+02 MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Total Strontium -8.37E+02 1:61E+03 8.62E+02 MOO.Montana de Oro-R(393297005 -SD 10-Mar-16 Zinc-65 -1.83E+01. 8.88E+01. 6.88E+01 MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Zirconium-95 6.23E+01 1.11E+02 6.12E+01 MT1 Meteorological Tower -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units MT1 Meteorological Tower(388797017) -AC 2-Jan-16 lodine-131 8.51E-03 5.17E-03 pCi/m3 MT1 Meteorological Tower(389309012) -AC 9-Jan-16 lodine-131 5.39E-03 1.26E-02 7.27E-03 pCi/m3 MT1 Meteoroloaical Tower(389808012) -AC 16-Jan-16 lodine-131 2.36E-03 1.10E-02 6.21E-03 oCi/m3 MT1 Meteorological Tower(390230017) -AC * | |||
* 23-Jan-16 lodine-131 2.70E-03 9.47E-03 5.30E-03 pCi/m3 MT1 Meteorological Tower(390692014) -AC 30-Jan-16 lodine-131 -1.18E-03 1.07E-02 6.73E-03 pCi/m3 MT1 Meteorological Tower(391237016) -AC 6-Feb-16 lodine-131 9.11E-04 1.09E-02 6.47E-03 pCi/m3 MT1 Meteorological Tower(391592012) -AC ' 13-Feb-16 lodine-131 -3.29E-03 8.13E-03 5.76E-03 pCi/m3 MT1 Meteorological Tower(392027017) -AC 20-Feb-16 lodine-131 3.97E-04 1.18E-02 6.88E-03 pCi/m3 MT1 Meteorological Tower(392482017) -AC 27-Feb-16 lodine-131 8.34E-05 1.19E-02 7.18E-03 pCi/m3 MT1 Meteorolo'gical Tower(392952007) -AC 5-Mar-16 lodine-131 -4.56E-03 7.86E-03 5.55E-03 pCi/m3 MT1 Meteoroloaical Tower(393384017) -AC 12-Mar-16 lodine-131 5.17E-03 8.96E-03 5.02E-03 pCi/m3 MT1 Meteorological Tower(393781012) -AC 19-Mar-16 lodine-131 -1.95E-04 1.23E-02 7.17E-03 pCi/m3 MT1 Meteoroloaical Tower(394076017) -AC 26-Mar-16 lodine-131 4.34E-03 1.02E-02 5.80E-03 oCi/m3 MT1 Meteorological Tower(394752017) -AC 2-Apr-16 lodine-131 -2.11 E-04 1.07E-02 6.51E-03 pCi/m3 MT1 Meteorological Tower(395261017)-AC 9-Apr-16 lodine-131 -3.54E-03 7.49E-03 5.54E-03 pCi/m3 MT1 Meteorological Tower(395795017) -AC 16-Aor-16 lodine-131 3.23E-03 2.51E-02 1.47E-02 pCi/m3 MT1 Meteorological Tower(396244017) -AC 23-Apr-16 lodine-131 3.19E-03 1.00E-02 6.38E-03 pCi/m3 MT1 Meteorological Tower(396779017) -AC 30-Apr-16 lodine-131 3.46E-03 1.18E-02 5.44E-03 pCi/m3 MT1 Meteorological Tower(397288017) -AC. 7-May-16 lodine-131 -4.38E-03 7.93E-03 5.62E-03 pCi/m3 MT1 Meteorological Tower(397706017) -AC | |||
* 14-Mav-16 lodine-131 -5.66E-03 9.03E-03 6.75E-03 pCi/m3 MT1 Meteorological Tower(398215017) -AC 21-Mav-16 lodine-131 7.15E-04 1.12E-02 6.48E-03 pCi/m3 MT1 Meteorological Tower(398542017) -AC 28-May-16 lodine-131 8.98E-03 1.23E-02 9.08E-03 pCi/m3 MT1 Meteorological Tower(399016017) -AC 4-Jun-16 lodine-131 8.48E-04 1.01E-02 5.83E-03 pCi/m3 MT1 Meteorological Tower(399503017) -AC 11-Jun-16 lodine-131 -8.64E-03 1.37E-02 9.82E-03 pCi/m3 MT1 Meteorological Tower(399964017) -AC 18-Jun-16 lodine-131 2.92E-03 8.20E-03 6.72E-03 pCi/m3 MT1 Meteorological Tower(400310017)-AC 25-Jun-16 lodine-131 -1.08E-03 1.30E-02 7.84E-03 pCi/m3 MT1 Meteorological Tower(401018017) -AC 2-Jul-16 lodine-131 6.90E-04 1.31E-02 7.68E-03 pCi/m3 MT1 Meteorological Tower(401598015)-AC 9-Jul-16 lodine-131 4.28E-03 1.56E-02 1.01E-02 pCi/m3 MT1 Meteorological Tower(402089016) -AC 16-Jul-16 lodine-131 3.42E-04 9.70E-03 5.68E-03 pCi/m3 MT1 Meteorological Tower(402578017) -AC 23-Jul-16 lodine-131 "2.65E-03 1.42E-02 8.67E-03 pCi/m3 MT1 Meteorolooical Tower(403120017) -AC 30-Jul-16 lodine-131 1.65E-03 1.45E-02 8.09E-03 oCi/m3 | |||
* MT1 Meteorological Tower(403674017) -AC 6-Aug-16 lodine-131 7.99E-03 1.73E-02 1.01 E-02 pCi/m3 MT1 Meteorological Tower(404132017)-AC 13-Aug-16 lodine-131 5.85E-04 7.07E-03 4.01E-03 pCi/m3 MT1 Meteorolooical Tower(404555016) -AC 20-Aua-16 lodine-131 -1.78E-03 8.63E-03 8.09E-03 pCi/m3 Page 70 of92 2016 DCPP REMP Analysis Results Appendix A MT1 Meteorological Tower(405070016) -AC 27-Aug-16 lodine-131 -1.03E-03 7.07E-03 4.49E-03 pCi/m3 MT1 Meteorological Tower(405461017)-AC 3-Sep-:16 lodine-131 7.60E-04 7.47E-03 4.18E-03 pCi/m3 MT1 Meteorological Tower(405943017) -AC 10-Sep-16 lodine-131 5.61 E-03 1.19E-02 6.57E-03 pCi/m3 MT1 Meteorological Tower(406484017) -AC 17-Sep-16 lodine-131 -2.78E-03 5.35E-03 3.96E-03 oCi/m3 MT1 Meteorological Tower(406978017) -AC -24-Sep-16 lodine-131 -2.17E-03 7.82E-03 5.10E-03 pCi/m3 MT1 Meteorological Tower(407538017) -AC 1-0ct-16 lodine-131 4.02E-03 1.17E-02 6.72E-03 pCi/m3 MT1 Meteorological Tower(408013017) -AC 8-0ct-16 lodine-131 -5.12E-03 1.09E-02 7.71E-03 pCi/m3 MT1 Meteorological Tower(408711017) -AC 15-0ct-16 lodine-131 -2.62E-03 9.03E-03 5.88E-03 pCi/m3 MT1 Meteorological Tower(409217017) -AC 22-0ct-16 lodine-131 -8.18E-04 1.06E-02 6.90E-03 pCi/m3 MT1 Meteorological Tower(409738017) -AC 29-0ct-16 lodine-131 -2.19E-03 9.05E-03 5.86E-03 pCi/m3 MT1 Meteorological Tower(410322017) -AC 5-Nov-16 lodine-131 1.02E-03 8.48E-03 4.93E-03 pCi/m3 MT1 Meteorological Tower(410821017)-AC 12-Nov-16 lodine-131 -4.41E-04 7.79E-03 4.54E-03 pCi/m3 MT1 Meteorological Tower(411348017) -AC 19-Nov-16 lodine-131 7.38E-04 1.37E-02 8.03E-03 pCi/m3 MT1 Meteorolooical Tower(411620017) -AC 26-Nov-16 lodine-131 -3.74E-04 8.29E-03 4.92E-03 pCi/m3 MT1 Meteorological Tower(412193001)-AC 3-Dec-16 lodine-131 3.08E-03 1.31E-02 7.20E-03 pCi/m3 MT1 Meteorological Tower(412746016) -AC 10-Dec-16 lodine-131 1.79E-03 8.79E-03 4.97E-03 pCi/m3 MT1 Meteorological Tower(413294016) -AC 17-Dec-16 lodine-131 -1.49E-03 1.04E-02 .6.45E-03 pCi/m3 MT1 Meteorological Tower(413412017) -AC 24-Dec-16 lodine-131 -1.77E-03 7.33E-03 5.12E-03 pCi/m3 MT1 Meteorological Tower(413697016) -AC 31-Dec-16 lodine-131 -7.81E-04 7.87E-03 4.73E-03 pCi/m3 MT1 Meteorological Tower -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units MT1 Meteorological Tower(388797016) -AP 2-Jan-16 BETA 2.74E-02 1.49E-03 7.76E-03 pCi/m3 MT1 Meteorolooical Tower(389309005) -AP 9-Jan-16 BETA 1.36E-02 1.79E-03 8.76E-03 pCi/m3 MT1 Meteorological Tower(389808005) -AP 16-Jan-16 BETA 1.15E-02 1.72E-03 8.29E-03 pCi/m3 MT1 Meteorological Tower(390230007) -AP 23-Jan-16 BETA 2.65E-02 1.63E-03 9.26E-03 pCi/m3 MT1 Meteorological Tower(390692007) -AP 30-Jan-16 BETA 1.72E-02 1.72E-03 8.22E-03 oCi/m3 MT1 Meteorological Tower(391237006) -AP 6-Feb-16 BETA 3.14E-02 1.78E-03 8.37E-03 pCi/m3 MT1 Meteorological Tower(391592005) -AP 13-Feb-16 BETA 1.73E-02 1.59E-03 9.33E-03 pCi/m3 MT1 Meteorological Tower(392027007) -AP 20-Feb-16 BETA 2.56E-02* 1.58E-03 8.27E-03 pCi/m3 MT1 Meteorological Tower(392482007) -AP 27-Feb-16 BETA 2.81E-02 1.58E-03 9.24E-03 pCi/m3 MT1 Meteorological Tower(392952014) -AP 5-Mar-16 BETA 9.22E-03 1.69E-03 7.84E-03 oCi/m3 MT1 Meteorological Tower(393384007) -AP 12-Mar-16 BETA 1.48E-02 1.56E-03 9.27E-03 pCi/m3 MT1 Meteorological Tower(393781005) -AP 19-Mar-16 BETA 1.71E-02 1.62E-03 8.60E-03 pCi/m3 MT1 Meteorological Tower(394076007) -AP 26-Mar-16 BETA 9.52E-03 1.65E-03 8.80E-03 pCi/m3 MT1 Meteorological Tower(394752007) -AP | |||
* 2-Apr-16 BETA 2.25E-02 1.79E-03 | |||
* 9.54E-03 pCi/m3" MT1 Meteorological Tower(395261007) -AP 9-Apr-16 BETA 2.63E-02 1.76E-03 8.26E-03 oCi/m3 MT1 Meteorological Tower(395795007) -AP 16-Apr-16 BETA 2.17E-02 1.62E-03 8.75E-03 pCi/m3 MT1 Meteorological Tower(396244007) -AP 23-Apr-16 BETA 1.15E-02 1.58E-03 9.0BE-03 pCi/m3 MT1 Meteorological Tower(396779007) -AP* 30-Apr-16 BETA 1.01 E-02 1.81E-03 1.0BE-02 pCi/m3 MT1 Meteorological Tower(397288007) -AP 7-May-16 BETA 1.54E-02 1.69E-03 8.57E-03 pCi/m3 MT1 Tower(397706007) -AP 14-May-16 BETA 9.03E-03 1.53E-03 9.35E-03 oCi/m3 MT1 Meteorological Tower(398215007) -AP 21-May-16 BETA 6.34E-03 1.62E-03 9.34E-03 pCi/m3 MT1 Meteorological Tower(398542007) -AP 28-May-16 BETA 1.35E-02 1.65E-03 1.04E-02 pCi/m3 MT1 Meteorological Tower(399016007) -AP 4-Jun-16 BETA 5.24E-03 1.55E-03 9.70E-03 oCi/m3 Page 71 of92 2016 DCPP REMP Analysis Results Appendix A MT1 Meteorological Tower(399503007) -AP 11-Jun-16 BETA 1.02E-02 1.73E-03 8.14E-03 pCi/m3 MT1 Meteorological Tower(399964007) -AP 18-Jun-16 BETA 8.83E-03 1.69E-03 7.32E-03 pCi/m3 MT1 Meteorological Tower(400310007) -AP 25-Jun-16 BETA 1.15E-02 1.99E-03 1.12E-02 pCi/m3 MT1 Meteorological Tower(401018007) -AP Jul-16 BETA 1.30E-02 1.55E-03 8.30E-03 pCi/m3 MT1 Meteorological Tower(401598016)-AP 9-Jul-16 BETA 3.31E-03 1.68E-03 9.71E-03 pCi/m3 MT1 Meteorological Tower(402089017) -AP 16-Jul-16 BETA 6.20E-03 1.60E-03 1.02E-02 pCi/m3 MT1 Meteorological Tower(402578007) -AP 23-Jul-16 BETA 9.20E-03 1.66E-03 8.65E-03 pCi/m3 MT1 Meteorological Tower(403120007) -AP 30-Jul-16 BETA 5.10E-03 1.62E-03 9.21 E-03 pCi/m3 MT1 Meteorological Tower(40367 4007) -AP. 6-Aug-16 BETA 1.15E-02 1.69E-03 9.75E-03 pCi/m3 MT1 Meteorological Tower(404132007) -AP 13-Aug-16 BETA 7.51 E-03 1.58E-03 8.50E-03 pCi/m3 MT1 Meteorological Tower(404555017) -AP 20-Aug-16 BETA 1.50E-02 1.67E-03 1.06E-02 pCi/m3 MT1 Meteorological Tower(405070017) -AP 27-Aug-16 BETA 1.85E-02 1.62E-03 9.19E-03 pCi/m3 MT1 Meteorological Tower(405461007) -AP 3-Sep-16 BETA 1.48E-02 1.63E-03 9.13E-03 *pCi/m3 MT1 Meteoroloaical Tower(405943007) -AP 10-Sep-16 BETA 2.67E-02 1.79E-03 9.45E-03 pCi/m3 MT1 Meteorological Tower(406484007) -AP 17-Sep-16 BETA 2.35E-02 1.81 E-03 8.83E-03 pCi/m3 MT1 Meteorological Tower(406978007) -AP 24-Sep-16 BETA 2.51E-02 1.59E-03 8.89E-03 pCi/m3 MT1 Meteorological Tower(407538007) -AP 1-0ct-16 BETA 1.70E-02 1.60E-03 8.79E-03 pCi/m3 MT1 Meteorological Tower(408013007) -AP 8-0ct-16 BETA 3.15E-02 1.55E-03 9.96E-03 pCi/m3 MT1 Meteorological Tower(408711007) -AP 15-0ct-16 BETA 1.57E-02 1.69E-03 9.70E-03 pCi/m3 MT1 Meteorological Tower(409217007) -AP 22-0ct-16 BETA 2.33E-02 1.69E-03 1.02E-02 pCi/m3 MT1 Meteorological Tower(409738007) -AP 29-0ct-16 BETA 9.79E-03 1.72E-03 9.75E-03 pCi/m3 MT1 Meteorological Tower(410322007) -AP 5-Nov-16 BETA 1.62E-02 1.79E-03 3.00E-03 pCi/m3 MT1 Meteorological Tower(410821007)-AP-12-Nov-16 BETA . 3.30E-02 1.74E-03 9.34E-03 pCi/m3 MT1 Meteorological Tower(411348007) -AP 19-Nov-16 BETA 1.20E-02 2.09E-03 1.13E-02 pCi/m3 MT1 Meteorological Tower(411620007) -AP 26-Nov-16 BETA 1.04E-02 1.53E-03 9.22E-03 pCi/m3 MT1 Meteorological Tower(412193002) -AP 3-Dec-16 BETA 1.93E-02 1.61E-03 8.78E-03 pCi/m3 MT1 Meteorological Tower(412746017) -AP 10-Dec-16 BETA 1.58E-02 1.59E-03 2.86E-03 pCi/m3 MT1 Meteorological Tower(413294017)-AP 17-Dec-16 BETA 3.06E-02 1.70E-03 6.67E-03 pCi/m3 MT1 Meteorological Tower(413412007)-AP 24-Dec-16 BETA 3.36E-02 1.96E-03 7.64E-03 pCi/m3 MT1 Meteorological Tower(413697017) -AP -31-Dec-16 BETA 2.12E-02 1.52E-03 7.81E-03 pCi/m3 MT1 Meteorological liower(396298007) -AP 13-Feb-16 Beryllium-7 1.20E-01 9.70E-03 2.07E-02 pCi/m3 MT1 Meteorological Tower(396298007) -AP 13-Feb-16 Cesium-134 -2.05E-04 5.35E-04 3.79E-04 pCi/m3 MT1 Meteorological Tower(401387007) -AP 14-May-16 Cesium-134 -1.66E-04 .5.93E-04 4.02E-04 pCi/m3 MT1 Meteorological Tower(408429007) -AP 13-Aug-16 Cesium-134 -7.43E-05 4.92E-04 3.26E-04 pCi/m3 MT1 Meteorological Tower(414245007) -AP 12-Nov-16 Cesium-134 2.50E-04 9.16E-04 5.15E-04 pCi/m3 MT1 Meteorological Tower(396298007) -AP 13-Feb-16 Cesium-137 -1.78E-05 4.11E-04 2.45E-04 pCi/m3 MT1 Meteorological Tower(401387007) -AP 14-Mav-16 Cesium-137 1.03E-04 6.64E-04 3.78E-04 pCi/m3 MT1 Meteorological Tower(408429007) -AP 13-Aug-16 Cesium-137 4.58E-04 3.31E-04 pCi/m3 MT1 Meteorological Tower(414245007) -AP 12-Nov-16 Cesium-137 7.69E-05 5.33E-04 3.01E-04 pCi/m3 Page 72 of92 2016 DCPP REMP Analysis Results Appendix A OEL Offsite Emergency Lab -Drinking.Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 BETA 6.06E-01 1.75E+OO 1.07E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 BETA 1.14E-01 1.60E+OO 9.67E-01 pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 BETA -5.18E-01 1.98E+OO 1.17E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 BETA 1.31E+OO 2.06E+OO 1.28E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 BETA 9.79E-01 1.61E+OO 1.01E+OO pCi/L OEL Offsite Emergency Lab(399127004)-DW 7-Jun-16 BETA 1.49E+OO 2.15E+OO 1.35E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 BETA 6.68E-01 1.21E+OO 7.68E-01 pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 BETA 6.49E-01 1.60E+OO 9.82E-01 pCi/L OEL Offsite Emergency Lab(405373001)-DW 6-Sep-16 BETA 1.20E+OO 1.80E+OO 1.12E+OO pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 BETA -2.17E-01 2.06E+OO 1.22E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 BETA 1.26E+OO 1.69E+OO 1.06E+OO pCi/L OEL Offsite Emerqency Lab(412191002) -DW 6-Dec-16 BETA 1.56E+OO 1.93E+OO 1.22E+OO pCi/L OEL Offsite Emergency Lab(389292001)-DW 12-Jan-16 Barium-140 9.24E-01 7.49E+OO 4.36E+OO pCi/L OEL Offsite Emergency Lab(390519007)-DW 1-Feb-16 Barium-140 1.76E+OO 9.90E+OO 6.68E+OO . pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Barium-140 -5.93E+OO 8.17E+OO 6.92E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Barium-140 2.80E+OO 6.29E+OO 3.85E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Barium-140 4.16E-01 1.15E+01 6.88E+OO oCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Barium-140 4.98E+OO 1.64E+01 9.75E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 Barium-140 -7.54E-01 1.19E+01 7.37E+OO pCi/L OEL Offsite Emerqency Lab(403105001)-DW 2-Aug-16 Barium-140 -2.04E+OO 9.79E+OO 7.92E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Barium-140 6.96E-01 7.67E+OO 4.50E+OO . pCi/L OEL Offsite Emerqency Lab(408517001)-DW 17-0ct-16 Barium-140 5.91E-01 9.11 E+OO 5.35E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Barium-140 6.30E+OO 9.16E+OO 5.69E+OO pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Barium-140 -2.75E+OO 8.66E+OO 5.51E+OO pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Cesium-134 -6.58E-01 1.83E+OO 1.36E+OO pCi/L OEL Offsite Emergency Lab(390519007)-DW 1-Feb-16 Cesium-134 1.69E+OO 2.48E+OO 1.56E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DIN 9-Mar-16 Cesium-134 5.60E-01 2.07E+OO 1.23E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Cesium-134 4.71E-01 1.78E+OO 1.13E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Cesium-134 1.71E-01 2.33E+OO 1.59E+OO' pCi/L OEL Offsite Emergency Lab(399127004) -DW. 7-Jun-16 Cesium-134 -6.76E-01 2.29E+OO 1.42E+OO pCi/L OEL Offsite Emergency Lab(402085001)-DW 19-Jul-16 Cesium-134 4.54E-01 1.84E+OO 1.12E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Cesium-134 -9.25E-01 1.70E+OO 1.56E+OO pCi/L OEL Offsite Emerqency Lab(405373001 DW 6-Sep-16 Cesium-134 -9.1 OE-01 1.52E+OO 1.10E+OO pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 Cesium-134 -3.30E-01 1.64E+OO 1.03E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Cesium-134 -1.10E+OO 1.53E+OO 1.83E+OO pCi/L OEL Offsite Emergericy Lab(412191002)-DW 6-Dec-16 Cesium-134 -3.84E-01 1.54E+OO 9.99E-01 pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Cesium-137 6.58E-01 1.95E+OO 1.16E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 Cesium-137 7.80E-01 2.18E+OO 1.31 E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Cesium-137 6.82E-01 2.05E+OO 1.38E+OO pCi/L OEL Offsite Emerqency Lab(395275005) -DW 12-Apr-16 Cesium-137 3.72E-01 1.59E+OO 9.65E-01 pCi/L OEL Offsite Emergency Lab(396784003) -DW | |||
* 3-May-16 Cesium-137. -3.80E-01 2.04E+OO 1.49E+OO pCj/L OEL Offsite Emergency Lab(399127004)-DW 7-Jun-16 Cesium-137 -3.16E-01 2.18E+OO 1.35E+OO pCi/L OEL Offsite Emerqency Lab(402085001) -DW 19-Jul-16 Cesium-137 -1.96E-01 1.69E+OO 1.16E+OO . pCi/L Page 73 of 92 2016 DCPP REMP Analysis Results Appendix A OEL Offsite Emergency Lab(403105001) -DW 2-Aug-16 Cesium-137 7.91 E-01 1.78E+OO 8.68E-01 pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Cesium-137 7.46E-01 1.72E+OO 1.03E+OO pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 Cesium-137 3.88E-01 1.49E+OO 8.82E-01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Cesium-137 -3.53E-02 1.44E+OO 8.55E-01 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Cesium-137 -5.09E-01 1.37E+OO 8.99E-01 pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Cobalt-58 -6.98E-01 1.62E+OO 1.07E+OO pCi/L | |||
* OEL Offsite Emeraency Lab(390519007) -DW 1-Feb-16 Cobalt-58 -6.27E-01 1.93E+OO 1.20E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Cobalt-58 -7.70E-02 1.81E+OO 1.10E+OO pCi/L OEL Offsite Emeraency Lab(395275005) -DW 12-Apr-16 Cobalt-58 8.27E-02 | |||
* 1.37E+OO 8.00E-01 pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Cobalt-58 5.04E-01 2.08E+OO 1.22E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Cobalt-58 2.91E-01 2.45E+OO 1.42E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 Cobalt-58 5.63E-01 1.87E+OO 1.14E+OO pCi/L OEL Offsite Emergency Lab(403105001) -DW 2-Aug-16 Cobalt-58 5.15E-01 1.64E+OO 9.82E-01 pCi/L OEL Offsite Emeraency Lab(405373001)-DW 6-Sep-16 Cobalt-58 5.21E-01 1.62E+OO 9.74E-01 pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 Cobalt-58 5.78E-01 1.38E+OO 9.03E-01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Cobalt-58 -3.50E-01 1.37E+OO 9.75E-01 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Cobalt-58 -1.11E+OO 1.38E+OO 1.00E+OO pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Cobalt-60 2.15E-01 1.94E+OO 1.13E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 Cobalt-60 -5.58E-01 2.07E+OO 1.28E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Cobalt-60 4.92E-01 1.72E+OO 1.44E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Cobalt-60 -3.27E-02 1.55E+OO 9.41 E-01 pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Cobalt-60 9.49E-01 2.25E+OO 1.33E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW Jun-16 Cobalt-60 1.48E-01 2.57E+OO 1.54E+OO pCi/L OEL Offsite Emeraency Lab(402085001) -DW 19-Jul-16 Cobalt-60 6.31E-01 1.92E+OO 1.13E+OO pCi/L OEL Offsite Emergency Lab(403105001) -DW 2-Aug-16 Cobalt-60 -1.36E-01 1.71E+OO 1.04E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Cobalt-60 7.18E-01 1.71E+OO 9.88E-01 pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 Cobalt-60 8.90E-01 1.64E+OO 9.66E-01 pCi/L OEL Offsite Emergency Lab(410366001) -DW 8-Nov-16 Cobalt-60 4.04E-01 1.50E+OO 9.50E-01 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Cobalt-60 1.28E+OO 1.64E+OO 1.05E+OO pCi/L OEL Offsite Emeraency Lab(389292001) -DW 12-Jan-16 lodine-131 -2.62E-01 5.60E-01 3.71E-01 pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 lodine-131 2.22E-01 5.76E-01 3.54E-01 pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 lodine-131 -1.63E-02 6.38E-01 3.72E-01 pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 lodine-131 -1.59E-01 5.67E-01 3.58E-01 -pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 lodine-131 1.30E-01 6.70E-01 3.93E-01 pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 lodine-131 -3.24E-01 8.98E-01 5.70E-01 pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 lodine-131 2.66E-01 7.25E-01 4.95E-01 pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aua-16 lodine-131 1.64E-01 7.00E-01 4.13E-01 pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 lodine-131 -7.22E-02 4.60E-01 2.83E-01 pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 lodine-131 1.07E-02 4.94E-01 2.83E-01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 lodine-131 1.64E-01 6.14E-01 3.52E-01 pCi/L OEL Offsite Emeraency Lab(412191002)-DW 6-Dec-16 lodine-131 8.70E-02 5.43E-01 3.09E-01 pCi/L OEL Offsite Emeraency Lab(389292001) -DW 12-Jan-16 lron-55 1.36E+01 5.85E+01 4.04E+01 pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 lron-55 -2.06E+01 4.65E+01 3.42E+01 pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 lron-55 2.55E+01 5.99E+01 4.56E+01 pCi/L OEL Offsite Emeraency Lab(395275005) -DW 12-Apr-16 lron-55 2.96E+01 1.41E+02 1.05E+02 pCi/L Page 74 of 92 2016 DCPP REMP Analysis *Results Appendix A OEL Offsite Emergency Lab(396784003) -DW 3-May-16 lron-55 1.03E+01 7.14E+01 5.17E+01 pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 lron-55 -5.42E+01 1.51E+02 1.01 E+02 pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 lron-55 6.18E+01 6.91E+01 5.37E+01 pCi/L OEL Offsite Emeroency Lab(403105001) -DW 2-Auo-16 lron-55 2.90E+01 6.83E+01 5.14E+01 oCi/L OEL Offsite Emergency Lab(405373001)-DW 6-Sep-16 lron-55 -2.89E+01 8.31E+01 5.62E+01 pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 lron-55 9.63E+OO 9.63E+01 7.29E+01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 lron-55 1.45E+01 8.15E+01 6.04E+01 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 lron-55 8.83E+OO 9.78E+01 7.37E+01 pCi/L OEL Offsite Emeroency Lab(389292001) -DW 12-Jan-16 lron-59 -1.51E+OO 3.46E+OO . 2.59E+OO oCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 lron-59 4.26E+OO 4.52E+OO 3.14E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 lron-59 1.74E+OO 4.00E+OO 2.37E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 lron-59 -1.65E-01 2.84E+OO 1.71E+OO pCi/L OEL Offsite Emergency Lab(396784003) DW 3-May-16 lron-59 -6.01E-01 4.71E+OO 2.91E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 lron-59 -2.19E-01 4.95E+OO 2.97E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 lron-59 1.03E+OO 3.83E+OO 2.22E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 lron-59 7.32E-01 3.52E+OO 2.06E+OO pCi/L OEL Offsite Emergency Lab(405373001)-DW 6-Sep-16 lron-59 3.10E+OO 3.10E+OO 4.03E+OO pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 lron-59 3.14E-03 2.79E+OO 1.95E+OO pCi/L OEL Offsite Emerqency Lab(410366001) -DW 8-Nov-16 lron-59 -9.26E-01 2.99E+OO 1.99E+OO oCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 lron-59 -2.55E-01 2.77E+OO 1.89E+OO pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Lanthanum-140 1.22E-02 2.44E+OO 1.46E+OO pCi/L OEL Offsite Emergency Lab(390519007)-DW 1-Feb-16 Lanthanum-140 -9.12E-01 3.42E+OO 2.15E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Lanthanum-140 6.73E-01 3.04E+OO 1.79E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Lanthanum-140 -1.07E-01 1.93E+OO 1.15E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Lanthanum-140 3.70E-01 4.14E+OO 2.47E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Lanthanum-140 2.99E-01 5.49E+OO 3.73E+OO pCi/L OEL Offsite Emerqency Lab(402085001) -DW 19-Jul-16 Lanthanum-140 -1.39E+OO 3.68E+OO 2.46E+OO oCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Lanthanum-140 2.90E-01 3.34E+OO 1.94E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Lanthanum-140 7.26E-01 2.82E+OO 1.64E+OO pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 Lanthanum-140 4.22E-01 2.66E+OO 1.73E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Lanthanum-140 -3.17E-01 2.64E+OO 1.61E+OO pCi/L OEL Offsite Emerqency Lab(412191002) -DW 6-Dec-16 Lanthanum-140 -9.98E-01 2.85E+OO 1.89E+OO oCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Manganese-54 -2.02E+OO 1.53E+OO 1.42E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 Manganese-54 -3.66E-01 1.88E+OO 1.14E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW | |||
* 9-Mar-16 Manganese-54 -1.67E+OO 1.70E+OO 1.62E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Manganese-54 4.74E-01 1.42E+OO 9.35E-01 pCi/L OEL Offsite Emerqency Lab(396784003) -DW 3-May-16 Manqanese-54 4.51E-01 2.06E+OO 1.21E+OO oCi/L OEL Offsite Emergency Lab(399127004)-DW 7-Jun-16 Manganese-54 -1.16E+OO 2.30E+OO 1.75E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 Manganese-54 -1.13E-01 1.73E+OO 1.04E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Manganese-54 -5.80E-01 1.64E+OO 1.06E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Manganese-54 7.54E-02 | |||
* 1.40E+OO 8.51E-01 pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 Manoanese-54 -5.78E-01 1.49E+OO '9.87E-01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Manganese-54 -8.60E-02 1.33E+OO 8.10E-01 pCi/L OEL Offsite Emergency Lab(412191002) -DW 6-Dec-16 Manganese-54 4.80E-01 1.41E+OO 8.17E-01 pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Nickel-63 -2.03E+01 3.11E+01 1.73E+01 pCi/L Page 75 of92 2016 DCPP REMP Analysis Results Appendix A OEL Offsite Emergency Lab(390519007) -OW 1-Feb-16 Nickel-63 8.90E+OO 2.19E+01 1.36E+01 pCi/L OEL Offsite Emergency Lab(393033001) -OW 9-Mar-16 Nickel-63 2.17E+OO 2.88E+01 1.73E+01 pCi/L OEL Offsite Emergency Lab(395275005) -OW 12-Apr-16 Nickel-63 1.56E+01 3.76E+01 2.30E+01 pCi/L OEL Offsite Emergency Lab(396784003) -OW 3-May-16 Nickel-63 1.13E+01 3.26E+01 2.00E+01 pCi/L OEL Offsite Emergency Lab(399127004) -OW 7-Jun-16 Nickel-63 -2.72E+OO 3.35E+01 1.99E+01 pCi/L OEL Offsite Emergency Lab(402085001)-OW 19-Jul-16 Nickel-63 -9.30E+OO 3.22E+01 1.88E+01 pCi/L OEL Offsite Emergency Lab(403105001)-OW 2-Aug-16 Nickel-63 -1.16E+01 2.72E+01 1.58E+01 pCi/L OEL Offsite Emergency Lab(405373001)-OW 6-Sep-16 Nickel-63 -8.47E+OO 2.81E+01. 1.64E+01 pCi/L OEL Offsite Emergency Lab(408517001)-OW 17-0ct-16 Nickel-63 -2.24E+01 3.41E+01 1.94E+01 \ oCi/L OEL Offsite Emergency Lab(410366001)-OW 8-Nov-16 Nickel-63 -5.09E+OO 2.78E+01 1.64E+01 pCi/L OEL Offsite Emergency Lab(412191002)-OW 6-0ec-16 Nickel-63 4.27E+OO 2.54E+01 1.53E+01 pCi/L OEL Offsite Emergency Lab(389292001) -OW 12-Jan-16 Niobium-95 -2.65E-01 1.69E+OO 1.19E+OO pCi/L OEL Offsite Emergency Lab(390519007) -OW 1-Feb-16 Niobium-95 8.61E-01 2.17E+OO 1.32E+OO pCi/L OEL Offsite Emergency Lab(393033001) -OW 9-Mar-16 Niobium-95 -4.30E-01 2.12E+OO 1.88E+OO pCi/L OEL Offsite Emergency Lab(395275005) -OW 12-Apr-16 Niobium-95 3.31 E-02 1.40E+OO 8.18E-01 pCi/L OEL Offsite Emergency Lab(396784003) -OW 3-May-16 Niobium-95 1.80E+OO 2.33E+OO 1.52E+OO pCi/L OEL Offsite'Emergency Lab(399127004) -OW 7-Jun-16 Niobium-95 5.15E-01 2.59E+OO 1.50E+OO pCi/L OEL Offsite Emergency Lab(402085001) -OW 19-Jul-16 Niobium-95 -4.26E-01 1.92E+OO 1.47E+OO pCi/L OEL Offsite Emergency Lab(403105001) -OW 2-Aug-16 Niobium-95 7.02E-01 1.80E+OO 1.09E+OO oCi/L OEL Offsite Emergency Lab(405373001) -OW 6-Sep-16 Niobium-95 8.22E-01 1.64E+OO 9.98E-01 pCi/L OEL Offsite Emergency Lab(408517001)-OW 17-0ct-16 Niobium-95 1.41E+OO 1.41E+OO 2.31E+OO pCi/L OEL Offsite Emergency Lab(410366001) -OW 8-Nov-16 Niobium-95 1.43E+OO 1.43E+OO 1.41E+OO pCi/L OEL Offsite Emergency Lab(412191002)-OW 6-0ec-16 Niobium-95 1.24E+OO 1.58E+OO 1.56E+OO pCi/L OEL Offsite Emergency Lab(389292001) -OW 12-Jan-16 Total Strontium . 7.90E-02 1.89E-01 1.16E-01 pCi/L OEL Offsite Emergency Lab(390519007) -OW 1-Feb-16 Total Strontium -2.17E-02 1.53E-01 9.06E-02 pCi/L OEL Offsite Emergency Lab(393033001) -OW 9-Mar-16 Total Strontium -8.01E-02 2.88E-01 1.70E-01 pCi/L OEL Offsite Emergency Lab(395275005) -OW 12-Apr-16 Total Strontium 7.77E-02 2.21E-01 1.36E-01 oCi/L OEL Offsite Emergency Lab(396784003) -OW 3-May-16 Total Strontium 2.07E-02 2.39E-01 1.43E-01 pCi/1=-OEL Offsite Emergency Lab(399127004) -OW 7-Jun-16 Total Strontium -1.01 E-01 2.19E-01 1.26E-01 pCi/L OEL Offsite Emergency Lab(402085001) -OW 19-Jul-16 Total Strontium -9.07E-02 1.66E-01 9.46E-02 pCi/L OEL Offsite Emergency Lab(403105001)-OW 2-Aug-16 Total Strontium 2.41E-02 1.70E-01 1.02E-01 pCi/L OEL Offsite Emergency Lab(405373001) -OW 6-Sep-16 Total Strontium -7.65E-01 1.09E+OO 5.81E-01 oCi/L OEL Offsite Emergency Lab(408517001) -OW 17-0ct-16 Total Strontium 3.60E-01 6.22E-01 4.26E-01 pCi/L OEL Offsite Emergency Lab(410366001)-OW 8-Nov-16 Total Strontium 5.39E-01 5.57E-01 4.02E-01 pCi/L OEL Offsite Emergency Lab(412191002)-OW 6-0ec-16 Total Strontium -2.30E-01 6.46E-01 3.55E-01 pCi/L OEL Offsite Emergency Lab(389292001) -OW ' 12-Jan-16 Tritium 6.61E+01 2.65E+02 1.61E+02 pCi/L OEL Offsite Emergency Lab(390519007) -OW 1-Feb-16 Tritium -1.04E+02 2.80E+02 1.62E+02 oCi/L OEL Offsite Emergency Lab(393033001) -OW 9-Mar-16 Tritium 1.47E+01 2.41E+02 1.44E+02 pCi/L OEL Offsite Emergency Lab(395275005) -OW 12-Apr-16 Tritium -5.17E+01 2.96E+02 1.74E+02 pCi/L OEL Offsite Emergency Lab(396784003) -OW 3-May-16 Tritium 8.17E+01 2.79E+02 1.70E+02 pCi/L OEL Offsite Emergency Lab(399127004) -OW 7-Jun-16 Tritium 7.69E+01 2.43E+02 1.49E+02 pCi/L OEL Offsite Emergency Lab(402085001) -OW 19-Jul-16 Tritium -2.07E+OO -3.17E+02 1.89E+02 pCi/L OEL Offsite Emergency Lab(403105001) -OW 2-Aug-16 Tritium 1.03E+02 2.68E+02 1.66E+02 pCi/L OEL Offsite Emergency Lab(405373001) -OW | |||
* 6-Sep-16 Tritium -8.00E+01 2.70E+02 1.57E+02 pCi/L OEL Offsite Emergency Lab(408517001)-OW 17-0ct-16 Tritium -6.85E+OO 2.69E+02 1.60E+02 pCi/L Page 76 of 92 l 2016 DCPP REMP Analysis Results Appendix A OEL Offsite Emergency Lab(410366001) -DW 8-Nov-16 Tritium 2.02E+01 3.06E+02 1.83E+02 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Tritium 1.79E+02 3.09E+02 1.95E+02 pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Zinc-65 1.52E-01 3.52E+OO 2.36E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 Zinc-65 -8.84E-01 4.06E+OO 2.53E+OO pCi/L OEL Offsite Emergency Lab(393033001)-DW 9-Mar-16 Zinc-65 1.03E+OO 3.95E+OO 2.29E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Zinc-65 -3.15E+OO 2.64E+OO 2.96E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Zinc-65 -4.02E+OO 4.37E+OO | |||
* 4.03E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Zinc-65 -1.38E+,OO 4.71E+OO 2.99E+OO pCi/L OEL Offsite Emergency Lab(402085001)-DW 19-Jul-16 Zinc-65 6.78E-01 3.80E+OO 2.53E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Zinc-65 -8.05E-01 3.16E+OO 2.28E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Zinc-65 -7.56E-01 3.38E+OO 2.07E+OO pCi/L OEL Offsite Emergency tab(408517001)-DW 17-0ct-16 Zinc-65 -7.97E+OO 2.91E+OO 6.47E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Zinc-65 1.08E+OO 2.81E+OO 1*.85E+OO pCi/L OEL Offsite Emeraency Lab(412191002) -DW 6-Dec-16 Zinc-65 -1.39E-01 2.82E+OO 1.68E+OO pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Zirconium-95 -1.93E+OO 2.65E+OO 1.93E+OO pCi/L OEL Offsite Emergency Lab(390519007)-DW 1-Feb-16 Zirconium-95 6.58E-01 3.65E+OO 2.19E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Zirconium-95 -1.12E+OO 3.18E+OO 2.05E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Zirconium-95 -5.87E-01 2.30E+OO 1.41E+OO pCi/L OEL Offsite Emeraency Lab(396784003) -DW 3-May-16 Zirconium-95 9.11 E-01 3.76E+OO 2.20E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Zirconium-95 9.01E-01 4.46E+OO 2.68E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 Zirconium-95 -8.58E-01 3.10E+OO 1.94E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Zirconium-95 6.05E-01 3.11E+OO 1.85E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Zirconium-95 1.02E-01 2.54E+OO 1.54E+OO pCi/L OEL Offsite Emeraency Lab(408517001) -DW 17-0ct-16 Zirconium-95 -8.44E-01 2.68E+OO 1.73E+OO pCi/L OEL Qffsite Emergency Lab(410366001) -DW 8-Nov-16 Zirconium-95 -9.63E-01 2.43E+OO 1.60E+OO pCi/L OEL Offsite Emergency Lab(412191002) -DW 6-Dec-16 Zirconium-95 2.86E-01 2.69E+OO 1.64E+OO pCi/L OUT Plant Outfall -Seawater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OUT Plant Outfall(390114001) -SW 21-Jan-16 BETA 3.27E+02 1.12E+02 9.69E+01 pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 BETA 3.97E+02 2.04E+02 1.47E+02 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 BETA 2.25E+02 1.75E+02 1.17E+02 pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 BETA 4.61E+02 1.40E+02 1.26E+02 pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 BETA 4.91E+02 1.25E+02 1.23E+02 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 BETA 2.94E+02 9.74E+01 8.88E+01 pCi/L OUT Plant Outfall(401793001)-SW 11-Jul-16 BETA 3.31E+02 1.84E+02 1.30E+02 pCi/L OUT Plant Outfall(404222001) -SW 15-Aua-16 BETA 1.96E+02 8.19E+01 6.69E+01 pCi/L OUT Plant Outfall(406175001)-SW 12-Sep-16 BETA 1.43E+02 8.83E+01 6.38E+01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 BETA 3.67E+02 1.58E+02 1.20E+02 pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 BETA 2.57E+02 1.05E+02 8.46E+01 pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 BETA . 4.34E+02 1.26E+02 1.15E+02 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Barium-140 6.25E+OO 8.90E+OO 6.78E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Barium-140 1.84E+OO 1.37E+01 7.95E+OO pCi/L OUT Plant Outfall(393316001)-SW 10-Mar-16 Barium-140 4.38E+OO 1.17E+01 7.02E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Barium-140 -5.16E+OO 8.84E+OO 6.21E+OO pCi/L Page 77 of92 2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(397479001) -SW 10-May-16 Barium-140 9.06E-02 9.18E+OO 5.32E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Barium-140 -1.13E+OO 1.11 E+01 6.83E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Barium-140 1.16E+01 1.37E+01 9.28E+OO pCi/L OUT f?lant Outfall(404222001 l -SW -15-Aua-16 Barium-140 4.67E+OO 1.02E+01 6.11E+OO pCi/L OUT Plant Outfa11(406175001) -SW 12-Sep-16 Barium-140 -8.70E+OO 6.99E+OO 7.52E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Barium-140 7.62E-01 1".21E+01 7.39E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 Barium-140 1.88E+OO 1.06E+01 6.05E+OO pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Barium-140 -8.18E-01 7.64E+OO 4.61E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Cesium-134 3.15E-01 1.85E+OO 1.10E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Cesium-134 2.31E-01 1.97E+OO 1.17E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Cesium-134 -1.46E-01 2.67E+OO 1.57E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Cesium-134 7.22E-02 1.98E+OO 1.17E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 Cesium-134 3.21E-01 1.81E+OO 1.22E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Cesium-134, 6.56E-01 2.00E+OO 1.41E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Cesium-134 4.50E-01 2.40E+OO 1.49E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Cesium-134 9.22E-01 1.91E+OO 1.16E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Cesium-134 7.83E-01 1.68E+OO 1.05E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Cesium-134 -4.58E-01 2.15E+OO 1.31E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Cesium-134 2.32E-01 1.92E+OO 1.51E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Cesium-134 1.41E-01 1.44E+OO 8.72E-01 pCi/L , OUT Plant Outfall(390114001) -SW 21-Jan-16 Cesium-137 1.01E+OO 1.88E+OO 1.16E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Cesium-137 -2.32E-02 1.96E+OO 1.51 E+OO oCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Cesium-137 -6.24E-01 2.34E+OO 1.48E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Cesium-137 9.53E-01 2.00E+OO 1.34E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 Cesium-137 1.66E+OO 1.66E+OO 2.00E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Cesium-137 2.48E-01 2.01E+OO 1.17E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Cesium-137 2.27E-03 2.15E+OO 1.30E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Cesium-137 1.29E+OO 1.93E+OO_ 1.22E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Cesium-137 1.08E-01 1.46E+OO 8.85E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Cesium-137 -4.83E-01 1.93E+OO 1.17E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Cesium-137 -1.67E-01 2.06E+OO 1.22E+OO pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Cesium-137 -1.89E-01 1.44E+OO 8.85E-01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Cobalt-58 4.83E-01 1.77E+OO 1.06E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Cobalt-58 -5.06E-01 | |||
* 1.92E+OO' 1.21 E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Cobalt-58 -1.28E+OO 2.20E+OO 1.49E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Cobalt-58 -4.64E-01 1.68E+OO 1.22E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 -Cobalt-58 3.79E-02 1.62E+OO 9.89E-01 pCi/L OUT Plarit Outfall(399130004) -SW 6-Jun-16 Cobalt-58 -1.11E+OO 1.74E+OO 1.21E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Cobalt-58 4.39E-01 2.30E+OO 1.42E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Cobalt-58 1.37E+OO 1.88E+OO 1.21E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Cobalt-58 -4.99E-01 1.36E+OO 8.48E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Cobalt-58 -2.90E-01 1.97E+OO 1.18E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 Cobalt-58 "-4.49E-01 1.65E+OO 1.20E+OO pCi/L OUT Plant Outfall(412549001)-SW *7-Dec-16 Cobalt-58 1.07E-01 1.39E+OO 8.42E-01 pCi/L OUT Plant Outfall(390114001)-SW 21-Jan-16 Cobalt-60 -6.50E-01 1.57E+OO 1.03E+OO pCi/L Page 78 of 92 2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(391320003) -SW 8-Feb-16 Cobalt-60 -1.29E+OO 1.63E+OO 1.23E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Cobalt-60 2.48E+OO 2.48E+OO 5.04E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Cobalt-60 -2.55E-01 1.97E+OO 1.19E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-Mav-16 Cobalt-60 2.83E-01 1.85E+OO 1.08E+OO oCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Cobalt-60 -2.70E-01 1.94E+OO 1.22E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Cobalt-60 -6.51E-02 2.15E+OO 1.29E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Cobalt-60 1.41E+OO 1.92E+OO 1.33E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Cobalt-60 -3.90E-01 1.51E+OO 1.10E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Cobalt-60 1.26E+OO 2.28E+OO 2.12E+OO oCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Cobalt-60 9.29E-01 2.10E+OO 1;22E+OO pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Cobalt-60 6.53E-01 1.51E+OO 9.05E-01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 lodine-131 -3.13E-01 3.25E+OO 1.98E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 lodine-131 -2.56E+OO 6.13E+OO 4.02E+OO pCi/L OUT Plant Outfall(393316001) -SW ( 10-Mar-16 lodine-131 -1.42E+OO 3.57E+OO 2.25E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 lodine-131 2.62E+OO 3.77E+OO 2.45E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 lodine-131 1.45E+OO 3.86E+OO 2.35E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 lodine-131 -4.69E-01 4.40E+OO 2.64E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 lodine-131 2.59E+OO 5.74E+OO 3.50E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 lodine-131 4.27E-01 3.96E+OO 2.36E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 lodine-131 1.59E-01 2.67E+OO 1.63E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 lodine-131 1.28E+OO 4.23E+OO 2.54E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 lodine-131 -2.08E+OO 3.98E+OO 2.89E+OO oCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 lodine-131 -1.71E+OO 2.78E+OO 2.06E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 lron-55 1.61E+OO 4.78E+01 3.17E+01 pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 lron-55 1.04E+01 5.23E+01 3.90E+01 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 lron-55 --1.64E+01 6.60E+01 4.69E+01 pCi/L OUT Plant Outfall(395898003) -SW -18-Apr-16 lron-55 4.31 E+01 1.04E+02 7.83E+01 pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 lron-55 7.24E-01 9.36E+01 . 6.56E+01 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 lron-55 -7.04E+OO 1.34E+02 9.30E+01 pCi/L OUT Plant Outfall(401793001)-SW 11-Jul-16 lron-55 -1.30E+01 7.49E+01 4.89E+01 pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 lron-55 -3.41E+01 9.26E+01 6.24E+01 pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 lron-55 5.68E+01 1.07E+02 8.08E+01 -oCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 lron-55 3.28E+01 9.09E+01 7.00E+01 pCi/L I \ ! OUT Plant Outfall(411426001) -SW 21-Nov-16 lron-55 8.00E+OO 1.08E+02 8.08E+01 pCi/L OUT Plant Outfall(412549001) -SW Dec-16 lron-55 -5.81E+OO 9.48E+01 7.12E+01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 lron-59 1.27E+OO 3.96E+OO 2.34E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 lron-59 1.13E+OO 4.76E+OO 3.39E+OO oCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 lron-59 4.27E-01 5.51E+OO 3.26E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 lron-59 -8.80E-02 3.92E+OO 2.39E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-Mav-16 lron-59 4.72E-01 3.55E+OO 2.14E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 lron-59 2.91E-01 4.02E+OO 2.66E+OO pCi/L. OUT Plant Outfall(401793001) -SW 11-Jul-16 lron-59 1.82E+OO 4.83E+OO 2.87E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 lron-59 -2.01E+OO 3.54E+OO 2.47E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 lron-59 1.25E+OO 3.19E+OO 1.90E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 lron-59 -9.10E-01 4.12E+OO 2.95E+OO oCi/L Page 79 of92 ':". | |||
2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(411426001) -SW 21-Nov-16 lron-59 -1.74E+OO 3.94E+OO 2.69E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 lron-59 1.02E+OO 3.11E+OO 1.80E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Lanthanum-140 -1.48E-01 2.81E+OO 1.71 E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Lanthanum-140 -8.04E-01 4.26E+OO 3.11 E+OO oCi/L OUT Plant Outfall(393316001) -SW . 10-Mar-16 Lanthanum-140 1.22E+OO 3.74E+OO 2.31E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Lanthanum-140 7.04E-01 3.21E+OO 2.16E+OO pCi/L OUT Plant Outfall(397479001)-SW 10-May-16 Lanthanum-140 -2.95E-01 3.10E+OO 1.89E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Lanthanum-140 2.29E-01 3.54E+OO 2.09E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Lanthanum-140 -2.49E+OO 3.91E+OO 2.82E+OO oCi/L OUT Plant Outfall(404222001) -SW ' 15-Aug-16 Lanthanum-140 -2.54E-01 2.90E+OO 2.06E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Lanthanum-140 -2.70E-01 2.57E+OO 1.59E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Lanthanum-140 4.66E-01 3.96E+OO 2.37E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 Lanthanum-140 5.68E-01 3.49E+OO 2.03E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Lanthanum-140 5.89E-01 2.54E+OO 1.48E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Manganese-54 5.77E-01 1.74E+OO 1.05E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Manganese-54 -2.86E-01 1.82E+OO 1.12E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Manganese-54 -9.75E-01 2.11E+OO 1.38E+OO pCi/L OUT Plant Outfa11(395898003) -SW 18-Apr-16 Manganese-54 -1.66E-02 1.76E+OO 1.05E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-Mav-16 Manqanese-54 5.57E-01 1.59E+OO 9.49E-01 oCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Manganese-54 5.80E-01 1.79E+OO 1.06E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Manganese-54 9.57E-01 2.24E+OO 1.33E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Auq-16 Manqanese-54 -1.79E-02 1.70E+OO 1.01 E+OO pCi/L OUT Plant Outfall(406175001)-SW 12-Sep-16 Manganese-54 -1.06E-01 1.42E+OO 8.30E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Manganese-54 -7.55E-01 2.02E+OO 1.29E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Manganese-54 1.08E+OO 2.01E+OO 1.22E+OO pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Manganese-54 -4.44E-02 1.31E+OO 8.04E-01 pCi/L 0 UT PI ant Outfall(390114001 ) -SW 21-Jan-16 Nickel-63 -1.06E+01 1.87E+01 1.07E+01 oCi/L OUT Plant Outfall(391320003) -SW . 8-Feb-16 Nickel-63 1.13E+OO 2.82E+01 1.69E+01 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Nickel-63 7.09E+OO 2.71E+01 1.66E+01 pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Nickel-63 -4.78E+OO 3.15E+01 1.86E+01 pCi/L OUT Plant Outfall(397479001)-SW 10-May-16 Nickel-63 4.76E+OO 2.10E+01 1.28E+01 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Nickel-63 2.64E-02 0 3.10E+01 1.84E+01 pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Nickel-63 -1.19E+01 3.73E+01 2.15E+01 pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Nickel-63 8.57E+OO 3.19E+01 1.94E+01 pCi/L OUT Plant Outfall(406175001)-SW 12-Sep-16 Nickel-63 -2.92E+OO 3.38E+01 2.00E+01 pCi/L OUT Plant Outfa11(408409003) -SW 11-0ct-16 Nickel-63 -2.06E+01 4.39E+01 2.53E+01 pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Nickel-63 -8.51E+OO 2.40E+01 1.40E+01 pCi/L OUT Plant Outfa11(412549001)-SW 7-Dec-16 Nickel-63 6.26E+OO 2.13E+01 1.30E+01* pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Niobium-95 5.79E-01 1.82E+OO 1.09E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Niobium-95 4.29E-01 2.12E+OO 1.44E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Niobium-95 7.69E-01 2.51E+OO 1.46E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Aor-16 Niobium-95 1.31E+OO 2.00E+OO 1.26E+OO pCi/L OUT Plant Outfa11(397479001) -SW 10-May-16 Niobium-95 3.87E-01 1.69E+OO 9.97E-01 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Niobium-95 -3.40E-02 2.03E+OO 1.38E+OO pCi/L OUT Plant Outfall(401793001)-SW 11-Jul-16 Niobium-95 1.30E+OO 2.13E+OO 1.59E+OO pCi/L Page 80 of92 2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(404222001) -SW 15-Aug-16 Niobium-95 5.12E-01 1.85E+OO 1.09E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Niobium-95 7.09E-01 1.52E+OO 9.50E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Niobium-95 7.89E-01 2.35E+OO 1.37E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 Niobium-95 -3.14E-01 1.93E+OO 1.18E+OO oCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Niobium-95 6.66E-01 1.41E+OO 8.63E-01 pCi/L OUT Plant Outfa11(390114001) -SW 21-Jan-16 Potassium-40 3.57E+02 1.58E+01 4.85E+01 pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Potassium-40 3.39E+02 1.77E+01 4.90E+01 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Potassium-40 3.79E+02 1.99E+01 5.04E+01 pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Potassium-40 3.56E+02 1.73E+01 4.98E+01 oCi/L OUT Plant Outfall(397479001)-SW 10-May-16 Potassium-40 3.54E+02 1.51E+01 4.53E+01 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Potassium-40 3.32E+02 1.64E+01 4.02E+01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Total Strontium 1.05E+OO 3.46E+OO 2.11E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Total Strontium -1.29E+OO 3.28E+OO 1.90E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Total Strontium -1.20E+OO 2.95E+OO 1.72E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Total Strontium -4.48E+OO 3.60E+OO 1.99E+OO pCi/L OUT Plant Outfall(397479001) -SW . 10-May-16 Total Strontium -2.29E-01 2.11E+OO 1.24E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Total Strontium -1.94E+OO 2.15E+OO 1.19E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Total Strontium -5.28E-01 1.92E+OO 1.12E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Auq-16 Total Strontium 1.12E+OO 2.47E+OO 1.53E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Total Strontium -1.60E-01 1.60E+OO 9.47E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Total Strontium -2.57E+OO 2.07E+OO 1.13E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Total Strontium -9.11 E-01 1.38E+OO 7.78E-01 pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Total Strontium -2.67E-01 1.67E+OO 9.84E-01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Tritium -1.73E+02 2.78E+02 1.58E+02 pCi/L OUT Plant Outfall(391320003) -SW _ 8-Feb-16 Tritium 2.39E+01 2.34E+02 1.41E+02 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Tritium 1.36E+02 2.70E+02 1.69E+02 pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Tritium -1.12E+02 3.11 E+02 1.81E+02 oCi/L OUT Plant Outfall(397479001) -SW 10-Mav-16 Tritium 2.05E+01 2.71E+02 1.62E+02 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Tritium 6.73E+01 2.42E+02 1.48E+02 pCi/L OUT Plant Outfall(401793001)-11-Jul-16 Tritium -1.46E+01 2.72E+02 1.61E+02 pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Tritium 1.18E+01 2.62E+02 1.56E+02 pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Tritium -1.20E+02 2.66E+02 1.53E+02 oCi/L OUT Plant Outfa11(408409003) -SW 11-0ct:..16 Tritium -5.22E+01 2.98E+02 1.75E+02 pCi/L OUT Plant Outfall(411426001) -SW -21-Nov-16 Tritium 1.71E+02 2.80E+02 1.78E+02 pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Tritium -1.24E+01 2.87E+02 1.70E+02 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Ziric-65 -1.77E+OO 3.40E+OO 2.62E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Zinc-65 1.38E-01 4.13E+OO 2.78E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Zinc-65 1.74E+OO 5.38E+OO 3.19E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Zinc-65 3.30E-01 3.99E+OO 2.41E+OO pCi/L OUT Plant Outfall(397479001)-SW 10-Mav-16 Zinc-65 -6.98E-01 3.46E+OO 2.09E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 . Zinc-65 3.00E+OO 4.10E+OO 2.89E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Zinc-65 -1.98E-01 4.24E+OO 2.52E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Zinc-65 -2.49E+OO 3.66E+OO 2.54E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Zinc-65 4.82E-01 3.22E+OO 2.13E+OO pCi/L -OUT Plant Outfall(408409003) -SW 11-0ct-16 Zinc-65 -2.59E+OO 4.51E+OO 3.15E+OO pCi/L Page 81 of 92 2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(411426001) -SW 21-Nov-16 Zinc-65 -3.31E-02 4.17E+OO 2.55E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Zinc-65 9.73E-02 2.71E+oo 2.44E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Zirconium-95 -4.18E-02 3.08E+OO 1:84E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Zirconium-95 -9.09E-01 3.56E+OO 2.57E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 -3.29E+OO 3.95E+OO 3.04E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Zirconium-95 -9.44E-01 3.10E+OO 2.59E+OO pCi/L OUT Plant Outfall(397 479001) -SW 10-May-16 Zirconium-95 2.99E+OO 1.77E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Zirconium-95 3.79E-01 3.30E+OO 1.92E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Zirconium-95 2.34E-01 3.93E+OO 2.37E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Zirconium-95 4.02E-01 3.02E+OO 1.78E+OO _ pCi/L OUT Plant Outfa11(406175001) -SW 12-Sep-16 Zirconium-95 9.88E-01 2.65E+OO 1.63E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 . Zirconium-95 -2.53E-01 _ 3.62E+OO 2.13E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Zirconium-95 1.99E-01 3.66E+OO 2.16E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Zirconium-95 9.22E-01 2.57E+OO 1.55E+OO oCi/L OW1 Observation Well 01 -Monitoring Well Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OW1 Observation Well 01 (390373001) -GW 26-Jan-16 BETA 2.37E+01 3.85E+OO 5.37E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 BETA 1.02E+01 5.35E+OO 3.99E+OO pCi/L OW1 Observation Well 01 (402877001) -GW 26-Jul-16 BETA 1.46E+01 5.09E+OO 4.29E+OO pCi/L OW1 *Observation Well 01(410011003) -GW 31-0ct-16 BETA 1.13E+01 3.96E+OO 3.53E+OO pCi/L OW1 Observation Well 01(390373001) -GW 26-Jan-16 Barium-140 5.51E+OO 1.27E+01. 7.59E+OO oCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Barium-140 -3.15E-01 1.04E+01 6.09E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Barium-140 1.48E+OO 1.06E+01 6.44E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 | |||
* Barium-140 -1.49E-01 | |||
* 8.08E+OO 4.73E+OO pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Cesium-134 2.67E-01 2.23E+OO 1.34E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Cesium-134 1.36E+OO 2.06E+OO 1.32E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Cesium-134 2.88E-01 1.79E+OO 1.08E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Cesium-134 -1.57E-01 1.59E+OO 1.32E+OO pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Cesium-137 8.65E-02 2.23E+OO 1.54E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Cesium-137 3.45E-01 1.95E+OO 1.14E+OO pCi/L OW1 Observation Well 01(402877001) -GW 26-Jul-16 Cesium-137 -8.84E-01 1.75E+OO 1.15E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Cesium-137 -3.30E-02 1.49E+OO 8.81E-01 pCi/L OW1 Observation Well 01(390373001) -GW 26-Jan-16 Cobalt-58 -1.29E+OO 2.12E+OO 1.45E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Cobalt-58 -6.86E-01 1.80E+OO 1.17E+OO pCi/L OW1 Observation Well 01(402877001) -GW 26-Jul-16 Cobalt-58 1.03E-01 1.71E+OO 1.56E+OO pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Cobalt-58 1.88E-01 1.44E+OO 8.53E-01 pCi/L OW1 Observation Well 01(390373001) -GW 26-Jan-16 Cobalt-60 -6.13E-01 2.21E+OO 1.62E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Cobalt-60 -8.10E-01 1.66E+OO 1.12E+OO pCi/L OW1 Observation Well 01 (402877001) -GW 26-Jul-16 Cobalt-60 4.41E-01 1.91E+OO 1.11E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Cobalt-60 -1.37E-01 1.32E+OO 1.25E+OO pCi/L OW1 Observation Well 01 (390373001) -GW 26-Jan-16 lodine-131 4.83E-01 5.35E+OO 3.67E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr"16 lodine-131 -1.86E+OO 4.11E+OO 2.72E+OO pCi/L OW1 Observation Well 01 (402877001) -GW 26-Jul-16 lodine-131 1.14E+OO 4.21E+OO 2.51E+OO pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 lodine-131 8.86E-01 3.22E+OO 1.85E+OO pCi/L Page 82 of 92 | |||
--------------------------2016 DCPP REMP Analysis Results Appendix A OW1 Observation Well 01 (390373001) -GW 26-Jan-16 lron-55 -2.13E+OO 5.26E+01 3.94E+01 pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 lron-55 2.78E+01 6.89E+01 5.14E+01 pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 lron-55 9.89E+OO 7.52E+01 5.47E+01 pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 lron-55 -3.91E+01 8.31 E+01 5.93E+01 oCi/L OW1 Observation Well 01 (390373001) -GW 26-Jan-16 lron-59 1.43E+OO 4.91E+OO 2.91E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 lron-59 -1.47E+OO 3.92E+OO 2.80E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 lron-59 1.65E-01 3.93E+OO 2.38E+OO pCi/L OW1 Observation Well 01 ( 410011003) -GW 31-0ct-16 lron-59 -5.64E-01 2.54E+OO 1.63E+OO pCi/L OW1 Observation Well 01(390373001) -GW 26-Jan-16 Lanthanum-140 1.72E-02 4.98E+OO 2.97E+OO oCi/L. OW1 Observation Well 01(396610003)-GW 26-Apr-16 Lanthanum-140 -1.72E+OO 3.22E+OO 2.23E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Lanthanum-140 2.22E-01 3.79E+OO 2.25E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Lanthanum-140 3.88E-01 2.49E+OO 2.81E+OO pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Manganese-54 -7.51 E-01 2.04E+OO 1.29E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Manaanese-54 -2.76E-01 1.79E+OO 1.10E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Manganese-54 -3.27E-01 1.70E+OO 1.04E+OO pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Manganese-54 8.81E-01 1.21.E+OO 9.49E-01 pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Nickel-63 -4.50E+OO 2.43E+01 1.43E+01 pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Nickel-63 6.75E+OO 3.45E+01 2.09E+01 pCi/L OW1 Observation Well 01(402877001) -GW 26-Jul-16 Nickel-63 6.47E+OO 2.11E+01 1.28E+01 pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Nickel-63 -1.01E+01 2.71E+01 1.58E+01 pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Niobium-95 2.83E+OO 2.83E+OO 2.39E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Aor-16 Niobium-95 -3.67E-01 1.94E+OO 1.38E+OO oCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Niobium-95 3.28E-01 1.78E+OO 1.04E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Niobium-95 7.20E-02 1.46E+OO 9.70E-01 pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Total Strontium -4.67E-02 2.03E-01 1.18E-01 pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Total Strontium -1.94E-01 2.48E-01 1.41E-01 pCi/L OW1 Observation Well 01(402877001) -GW 26-Jul-16 Total Strontium 1.52E-01 2.47E-01 1.55E-01 pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Total Strontium -1.58E+OO 8.58E-01 4.03E-01 pCi/L OW1 Observation Well 01 (390373001) -GW 26-Jan-16 Tritium 2.33E+03 2.78E+02 5.14E+02 pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Tritium 1.30E+03 2.60E+02 3.24E+02 pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Tritium 1.37E+03 2.78E+02 3.45E+02 pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Tritium* 1.43E+03 2.71E+02 3.51E+02 oCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Zinc-65 2.54E+OO 4.93E+OO 3.39E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Zinc-65 -8.80E-02 3.43E+OO 2.33E+OO pCi/L OW1 Observation Well 01 (402877001) -GW 26-Jul-16 Zinc-65 2.24E-01 3.49E+OO 2.44E+OO pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Zinc-65 1.11E+OO 2.71E+OO 1.79E+OO pCi/L OW1 Observation Well 01 (390373001) -GW 26-Jan-16 Zirconium-95 -7.41E-01 3.50E+OO 2.21E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Zirconium-95 9.15E-01 3.40E+OO 2.30E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Zirconium-95 1.42E+OO 3.22E+OO 1.92E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Zirconium-95 6.12E-01 2.59E+OO 1.52E+OO pCi/L Page 83of92 2016 DCPP REMP Analysis Results Appendix A PMO Pismo Beach -Beach Sand Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units PMO Pismo Beach(393297006) -SD 10-Mar-16 Actinium-228 1.05E+04 1.26E+02 1.40E+03 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Barium-140 5.79E+01 3.54E+02 2.31E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Barium-140 1.41E+01 2.05E+02 1.17E+02 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Bismuth-214 9.18E+03 7.11E+01 7.93E+02 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Cesium-134 5.83E+01 5.83E+01 2.22E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Cesium-134 6.22E+01 6.22E+01 5.56E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Cesium-137 -1.28E+01 4.02E+01 2.78E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Cesium-137 2.23E+01 4.92E+01 2.76E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Cobalt-58 -3.39E+OO 3.89E+01 2.57E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Cobalt-58 1.17E+01 4.92E+01 2.80E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Cobalt-60 1.04E+01 3.63E+01 2.13E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Cobalt-60 -1.25E+OO 4.96E+01 3.45E+01 pCi/ka PMO Pismo Beach(393297006) -SD 10-Mar-16 lron-55 1.03E+04 ,1.47E+04 1.15E+04 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 lron-55 1:31E+03 1.68E+04 1.20E+04 pCi/kg . PMO Pismo Beach(393297006) -SD 10-Mar-16 lron-59 -8.94E+01 8.09E+01 7.30E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 lron-59 -1.43E+01 1.03E+02 6.22E+01 pCi/kg PMO Pismo Beach(393297006l -SD 10-Mar-16 | |||
* Lanthanum-140 1.26E+02 1.26E+02 1.34E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Lanthanum-140 -8.93E+OO 5.49E+01 3.45E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Lead-212 1.22E+04 6.16E+01 | |||
* 1.50E+03 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Lead-214 1.16E+04 7.77E+01 1.01E+03 oCi/kq PMO Pismo Beach(393297006) -SD 10-Mar-16 Manganese-54 3.60E+01 3.60E+01 3.09E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Manganese-54 1.88E+01 5.26E+01 3.02E+01 pCi/ka PMO Pismo Beach(393297006) -SD 10-Mar-16 Nickel-63 6.98E+02 2.45E+03 1.49E+03* pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Nickel-63 -1.26E+03 2.67E+03 1.54E+03 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Niobium-95 6.03E+01 6.03E+01 1.83E+02 pCi/kg PMO Pismo Beach(406060002) -SD . 13-Sep-16 Niobium-95 -2.56E+OO 4.35E+01 2.58E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Potassium-40 1.19E+04 3.37E+02 1.24E+03 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Thallium-208 3.35E+03 3.71E+01 2.92E+02 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Total Strontium * -1.08E+03 1.63E+03 8.34E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Total Strontium 2.83E+02 1.07E+03 6.71E+02 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Zinc-65 8.08E+01 8.08E+01 1.40E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Zinc-65 -1.04E+02 1.02E+02 8.57E+01 pCi/kg | |||
* PMO Pismo Beach(393297006) -SD 10-Mar-16 Zirconium-95 -8.77E+01 8.77E+01 1.15E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Zirconium-95 1.59E+OO 8.18E+01 4.76E+01 pCi/kg PON Pacific Ocean North of Diablo Cove -Aquatic Vegetation Kelp Sample Name Date Collected Nuclide | |||
* Result MDC 2 Sigma TPU Units PON Pacific Ocean North of Diablo Cove(390114009) -AV Kelp 21-Jan-16 Cesium-134, -2.08E+OO 1.41E+01 1.00E+01 pCi/kg PON Pacific Ocean North of Diablo Cove(395790004) -AV Kelp 18-Apr-16 Cesium-134 4.70E+OO 1.46E+01 9.77E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224001)-AV.KelD 15-Aug-16 Cesium-134 5.54E+OO 7.60E+OO 5.84E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(408196001)-AV Kelp 11-0ct-16 Cesium-134 4.91E-02 1.02E+01 5.93E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(390114009) -AV Kelp 21-Jan-16 Cesium-137 -3.38E+OO -1.28E+01 7.96E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(395790004)-AV Keio 18-Apr-16 Cesium-137 -4.72E+OO 1.14E+01 7.64E+OO pCi/ka Page 84 of 92_r L 2016 DCPP REMP Analysis Results Appendix A PON Pacific Ocean North of Diablo Cove(404224001)-AV Kelp 15-Aug-16 Cesium-137 2.23E+OO 6.66E+OO 3.91E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408196001) -AV Kelp 11-0ct-16 Cesium-137 -2.89E+OO | |||
* 9.56E+OO 6.51E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(390114009) -AV Kelp 21-Jan-16 Cobalt-58 5.07E+OO 1.47E+01 8.80E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(395790004) -AV Kelp 18-Apr-16 Cobalt-58 4.93E+OO 1.40E+01 8.20E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(404224001) -AV Kelp 15-Aug-16 Cobalt-58 -1.49E+OO 7.18E+OO 4.51E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408196001) -AV Kelp 11-0ct-16 | |||
* Cobalt-58 -1.80E+OO 1.01E+01 6.11E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(390114009) -AV Kelp 21-Jan-16 Cobalt-60 -1.91E+OO 1.36E+01 8.34E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(395790004)-AV Kelp 18-Apr-16 Cobalt-60 6.05E+OO 1.69E+01 9.93E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224001) -AV Kelp 15-Auq-16 Cobalt-60 4.18E+OO 8.90E+OO 5.17E+OO pCi/kq . PON Pacific Ocean North of Diab lo Cove(408196001) -AV Kelp 11-0ct-16 Cobalt-60 -3.55E+OO 1.13E+01 7.38E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(390114009)-AV Kelp 21-Jan-16 Potassium-40 1.44E+04 1.06E+02 1.42E+03 pCi/kg PON Pacific Ocean North of Diablo Cove(395790004) -AV Kelp 18-Apr-16 Potassium-40 1.08E+04 9.54E+01 1.11 E+03 pCi/kg PON Pacific Ocean North of Diablo Cove -Fish Perch Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units PON Pacific Ocean North of Diablo Cove(392102007) -FH Perch 23-Feb-16 4.89E-01 6.21E+OO 3.71E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Cesium-134 9.29E-01 4.36E+OO 2.58E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Cesium-134 -1.60E+OO 6.57E+OO 4.18E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007)-FH Perch 10-0ct-16 Cesium-134 1.81E+OO 4.71E+OO 2.90E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(392102007)-FH Perch 23-Feb-16 Cesium-137 5.54E+OO 5.54E+OO 5.48E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Cesium-137 -3.90E+OO 4.41E+OO 5.63E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Auq-16 Cesium-137 6.22E+OO 7.51E+OO 4.85E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 Cesium-137 2.89E+OO 4.74E+OO 3.01E+OO. pCi/kg PON Pacific Ocean North of Diablo Cove(392102007)-FH Perch 23-Feb-16 Cobalt-58 -3.75E-01 6.16E+OO 3.73E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Cobalt-58 7.56E-02 4.11E+OO 2.83E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Cobalt-58 -1.27E-01 5.94E+OO 3.60E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 Cobalt-58 -1.24E+OO 4.03E+OO 2.56E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(392102007) -FH Perch 23-Feb-16 Cobalt-60 1.24E-01 6.81E+OO 4.05E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-Mav-16 Cobalt-60 -6.68E-01 4.77E+OO 2.88E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Cobalt-60 2.73E+OO 7.13E+OO 4.03E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007)-FH Perch 10-0ct-16 Cobalt-60 -1.56E+OO 4.70E+OO 3.90E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102007)-FH Perch 23-Feb-16 lron-59 -5.52E+OO 1.36E+01 9.69E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 lron-59 3.00E+OO 1.12E+01 7.47E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 lron-59 5.24E-01 . 1.66E+01 9.52E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 lron-59 -3.13E+OO 9.45E+OO 5.98E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102007) -FH Perch 23-Feb-16 Manganese-54 9.97E-01 5.86E+OO 3.50E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Manaanese-54 3.50E+OO 4.01E+OO 3.31E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Manganese-54 1.31 E+OO 5.65E+OO . 3.31E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 Manganese-54 -1.06E+OO 4.10E+OO 2.82E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102007) -FH Perch 23-Feb-16 Potassium-40 3.84E+03 5.16E+01 3.94E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Potassium-40 3.69E+03 3.38E+01 3.49E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(392102007)-FH Perch 23-Feb-16 ' Zinc-65 -7.46E+OO 1.48E+01 9.82E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Zinc-65 -5.07E-01 1.04E+01 6.11E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Zinc-65 5.77E+OO 1.67E+01 9.49E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 Zinc-65 4.30E+OO 1.03E+01 6.12E+OO pCi/kq Page 85 of92 2016 DCPP REMP Analysis Results Appendix A PON Pacific Ocean North of Diablo Cove -Rockfish Sample Name ) Date Collected Nuclide Result MDC ' 2 Sigma TPU Units PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Cesium-134 1.84E+OO 6.68E+OO 3.89E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Cesium-134 6.22E-01 6.04E+OO 3.66E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Cesium-134 2.27E+OO 5.33E+OO 3.13E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Cesium-134 2.26E+OO 5.19E+OO 3.21E+OO pCi/kg PON Pacific Ocean* North of Diablo Cove(392102003)-FH Rockfsh 23-Feb-16 Cesium-137 3.12E+OO 5.65E+OO 3.72E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Cesium-137 5.37E+OO 5.80E+OO 4.05E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Cesium-137 2.57E+OO 5.43E+OO ' 3.20E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Cesium-137 4.59E-01 5.01E+OO 3.07E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Cobalt-58 -3.71E+OO 5.71E+OO 3.93E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Cobalt-58 -1.92E+OO 5.45E+OO 3.40E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Cobalt-58 -2.06E+OO 5.18E+OO 3.77E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Cobalt-58 -2.80E+OO 4.16E+OO 2.96E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Cobalt-60 3.33E+OO 6.11E+OO 3.83E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Cobalt-60 -2.70E+OO 5.83E+OO 4.53E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Cobalt-60 -3.01E-01 5.13E+OO 3.16E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Cobalt-60 -2.01E+OO 4.72E+OO 3.50E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(392102003)-FH Rockfsh 23-Feb-16 lron-59 6.68E+OO 1.32E+01 9.09E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-Mav-16 lron-59 1.26E+OO 1.21E+01 7.15E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Auq-16 lron-59 -2.19E+OO 1.34E+01 8.23E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(408192003) -FH Rockfsh 10-0ct-16 lron-59 -1.33E+OO 1.10E+01 6.95E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Manoanese-54 8.49E-01 5.96E+OO 3.46E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Manganese-54 -7.58E-02 5.31 E+OO 3.10E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Manganese-54 -1.05E+OO 5.10E+OO 3.10E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003) -FH Rockfsh 10-0ct-16 Manganese-54 1.99E+OO 4.58E+OO 2.67E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Potassium-40 3.92E+03 4.16E+01 3.66E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Potassium-40 3.48E+03 4.14E+01 3.25E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Zinc-65 -7.07E-01 1.32E+01 7.93E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Zinc-65 -6.58E-01 1.28E+01 8.91E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008)-FH Rockfsh 12-Aug-16 Zinc-65 -7.80E+OO 1.19E+01 8.45E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Zinc-65 1.78E-01 1.19E+01 7.11E+OO pCi/kg PON Pacific Ocean North of Diablo Cove -Intertidal Mussel Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 Cesium-134 -7.03E-01 4.17E+OO 2.90E+OO ' oCi/kQ PON Pacific Ocean North of Diablo Cove(391919006) -IM 17-Feb-16 Cesium-137, -1.61E+OO 3.81 E+OO 2.94E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 Cobalt-58 6.17E-01 3.98E+OO 2.30E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 Cobalt-60 5.23E+OO 5.23E+OO 4.89E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 lron-59 -1.63E+OO 8.62E+OO 5.40E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 ManQanese-54 -3.50E-01 3.67E+OO 2.19E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 Potassium-40 1.08E+03 4.33E+01 1.34E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(391919006) -IM 17-Feb-16 Zinc-65 -1.23E+OO 9.94E+OO 6.12E+OO pCi/kg Page 86 of92 2016 DCPP REMP Analysis Results Appendix A POS Pacific Ocean South of Diablo Cove -Aquatic Vegetation Kelp Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units POS Pacific Ocean South of Diablo Cove(390114008) -AV Kelp 21-Jan-16 Cesium-134 -1.09E+01 1.36E+01 1.03E+01 pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Cesium-134 8.64E+OO 1.60E+01 9.71E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(401652003) -AV Kelp 11-Jul-16 Cesium-134 -2.10E+OO 9.32E+OO 6.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408196002) -AV Kelp 11-0ct-16 Cesium-134 -8.80E-01 9.46E+OO 5.87E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(390114008) -AV Kelp 21-Jan-16 Cesium-137 5.96E+OO _ 1.43E+01 8.36E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Cesium-137 9.42E+OO 1.47E+01 9.04E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(401652003) -AV Kelp 11-Jul-16 Cesium-137 -5.41 E-02 8.35E+OO 4.91E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(408196002) -AV Kelp 11-0ct-16 Cesium-137 -2.25E+OO 7.94E+OO 5.08E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(390114008) -AV Kelp 21-Jan-16 Cobalt-58 2.17E+OO 1.52E+01 8.86E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Cobalt-58 -4.23E+OO 1.33E+01 8.52E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(401652003) -AV Kelp 11-Jul-16 Cobalt-58 -3.18E-01 8.86E+OO 5.30E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408196002) -AV Kelp 11-0ct-16 Cobalt-58 3.95E+OO 9.24E+OO 5.56E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(390114008) -AV Kelp 21-Jan-16 Cobalt-60 7.15E+OO 1.89E+01 1.09E+01 pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Cobalt-60 6.81E+OO 1.80E+01 1.06E+01 pCi/kg POS Pacific Ocean South of Diablo Cove(401652003) -AV Kelp 11-Jul-16 Cobalt-60 -2.63E-01 1.07E+01 7.95E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408196002) -AV Kelp 11-0ct-16 Cobalt-60 1.25E+OO 1.02E+01 5.92E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Potassium-40 1.11E+04 1.14E+02 1.06E+03 pCi/kq POS Pacific Ocean South of Diablo Cove -Fish Perch Sample Name | |||
* Date Collected Nuclide Result MDC 2 Siama TPU Units POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Cesium-134 -2.04E+OO 5.76E+OO 3.73E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-Mav-16 Cesium-134 2.48E-01 4.75E+OO 2.82E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004)-FH Perch 12-Aug-16 Cesium-134 1.59E+OO 4.80E+OO 3.08E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192008) -FH Perch 7-0ct-16 Cesium-134 1.43E+OO 3.83E+OO 2.48E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Cesium-137 5.22E+OO 5.63E+OO 5.59E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Cesium-137 3.29E+OO 4.75E+OO 5.77E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 Cesium-137 -1.25E+OO 5.92E+OO 4.22E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192008)-FH Perch 7-0ct-16 Cesium-137 3.04E+OO 3.82E+OO 3.79E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Cobalt-58 1.01E-01 5.92E+OO 3.56E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Cobalt-58 6.23E-01 5.08E+OO 3.01E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(404224004)-FH Perch 12-Aug-16 Cobalt-58 -7.08E-01 4.79E+OO 2.84E+OO -pCi/kg POS Pacific Ocean South of Diablo Cove(408192008) -FH Perch 7-0ct-16 Cobalt-58 -1.44E-01 4.13E+OO 2.48E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16, Cobalt-60 1.01E+OO 6.15E+OO 3.61E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Cobalt-60 2.84E+OO 5.85E+OO 3.47E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 Cobalt-60 2.63E-01 4.63E+OO 2.75E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(408192008) -FH Perch 7-0ct-16 Cobalt-60 -1.85E+OO 4.38E+OO 3.63E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 lron-59 -2.16E+OO 1.40E+01 8.43E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 lron-59 1.39E+OO 1.28E+01 7.41 E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 lron-59 3.04E+OO 1.24E+01 8.15E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192008) -FH Perch 7-0ct-16 lron-59 -1.57E+OO 9.04E+OO 6.43E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Manganese-54 -4.80E-01 5.03E+OO 3.08E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Manganese-54 5.35E-01 4.86E+OO 2.89E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 Manqanese-54 -2.38E+OO 3.88E+OO 2.66E+OO oCi/ka Page 87 of92 L 2016 DCPP REMP Analysis Results Appendix A POS Pacific Ocean South of Diablo Cove(408192008)-FH Perch 7-0ct-16 Manganese-54 8.18E-01 3.84E+OO 2.27E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Potassium-40 4.35E+03 4.92E+01 4.19E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Potassium-40 3.59E+03. 4.00E+01 3.39E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Zinc-65 -1.71E+OO 1.36E+01 8.18E+OO pCi/ka POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Zinc-65 2.18E-01 1.23E+01 7.17E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 Zinc-65 1.77E-01 1.03E+01 6.95E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192008)-FH Perch 7-0ct-16 Zinc-65 8.69E-02 8.67E+OO 5:29E+OO pCi/kg POS Pacific Ocean South of Diablo Cove -Rockfish Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Cesium-134 -1.81E+OO 5.11 E+OO 3.28E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Cesium-134 -7.62E-01 4.32E+OO 2.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Cesium-134 5.95E-01 5.15E+OO 3.14E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004) -FH Rockfsh 7-0ct-16 Cesium-134 5.59E-01 4.51E+OO 2.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004)-FH Rockfsh 22-Feb-16 Cesium-137 4.13E+OO 4.70E+OO 3.93E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Cesium-137 2.79E+OO 4.15E+OO 4.44E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Cesium-137 3.24E+OO 4.04E+OO 4.07E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004) -FH Rockfsh 7-0ct-16 Cesium-137 3.11 E+OO 4.96E+OO 3.06E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Cobalt-58 -2.66E-01 4.56E+OO 2.75E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Cobalt-58 1.44E+OO 4.35E+OO 2.62E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Cobalt-58 -6.96E-01 4.90E+OO 3.11 E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004) -FH Rockfsh 7-0ct-16 Cobalt-58 9.53E-01 4.94E+OO 2.92E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Cobalt-60 -1.49E+OO 5.51 E+OO 3.74E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-Mav-16 Cobalt-60 9.60E-01 4.42E+OO 3.01E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009)-FH Rockfsh 12-Aug-16 Cobalt-60 2.86E+OO 5.29E+OO 3.15E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004)-FH Rockfsh 7-0ct-16 Cobalt-60 8.23E-01 5.18E+OO 2.97E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 lron-59 6.90E-02 1.23E+01 7.19E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Iron-59 -3.78E+OO 9.91E+OO 6.35E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 | |||
* Iron-59 -2.64E+OO 1.31E+01 7.98E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004)-FH Rockfsh 7-0ct-16 | |||
* Iron-59 9.27E+OO 1.25E+01 8.07E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Manganese-54 -1.80E+OO 4.58E+OO 2.98E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Manganese-54 -1.01 E-01 4.36E+OO 2.64E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Manganese-54 .1.27E-01 4.59E+OO 2.64E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004)-FH Rockfsh 7-0ct-16 Manganese-54 7.51E-02 4.32E+OO 2.60E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Potassium-40 4.03E+03 3.78E+01 3.83E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Potassium-40 3.38E+03 3.77E+01 3.40E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Zinc-65 -3.60E+OO 1.16E+01 7.18E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh* 10-May-16 Zinc-65 -7.40E+OO 1.11E+01 7.94E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Zinc-65 -4.90E-01 1.21E+01 7.15E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004) -FH Rockfsh 7-0ct-16 Zinc-65 -5.16E+OO 9.76E+OO 6.95E+OO pCi/kg Page 88 of92 2016 DCPP REMP Analysis Results Appendix A POS Pacific Ocean South of Diablo Cove -Intertidal Mussel Sample Name Date Collected Nuclide Result* MDC 2 Sigma TPU Units POS Pacific Ocean South of Diablo Cove(391919007)-IM 17-Feb-16 Cesium-134 -8.36E-01 4.15E+OO 2.97E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Apr-16 Cesium-134 -3.91E+OO 3.84E+OO 4.03E+OO pCi/ka POS Pacific Ocean South of Diablo Cove(402571003) -IM 25-Jul-16 Cesium-134 5.89E-01 4.45E+OO 2.57E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -IM 27-0ct-16 Cesium-134 -1.57E+OO 4.83E+OO 3.61E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007)-IM 17-Feb-16 Cesium-137 3.24E+OO 3.69E+OO 5.77E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Aor-16 Cesium-137 -1.92E+OO 3.97E+OO 3.52E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -IM 25-Jul-16 Cesium-137 -3.40E-01 3.83E+OO 2.36E+OO pCi/ka POS Pacific Ocean South of Diablo Cove(409724003) -IM 27-0ct-16 Cesium-137 -9.23E-02 4.52E+OO 2.73E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007)-IM 17-Feb-16 Cobalt-58 2.81E-02 3.91E+OO 2.33E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004)-IM -14-Apr-16 Cobalt-58 -1.44E-01 3.91E+OO 2.31E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -JM 25-Jul-16 Cobalt-58 2.22E-01 4.23E+OO 2.46E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -IM 27-0ct-16 Cobalt-58 -6.71E-01 4.06E+OO 2.56E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(391919007)-IM 17-Feb-16 Cobalt-60 9.66E-02 4.49E+OO 2.65E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004)-IM 14-Apr-16 Cobalt-60 2.14E+OO 4.80E+OO 2.78E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -JM 25-Jul-16 Cobalt-60 1.20E-01 4.18E+OO 3.04E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -IM 27-0ct-16 Cobalt-60 -1.01E+OO 4.32E+OO 2.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007) -IM 17-Feb-16 lron-59 -9.11 E-01 8.87E+OO 6.11E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(395681004)-IM 14-Apr-16 lron-59 -2.07E+OO 8.93E+OO 5.65E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -JM 25-Jul-16 lron-59 2.62E+OO 1.06E+01 6.23E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -JM lron-59 3.12E+OO 1.10E+01 6.58E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007) -IM 17-Feb-16 Manganese-54 -1.93E+OO 3.62E+OO 2.48E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Apr-16 Manaanese-54 9.92E-01 4.45E+OO 2.59E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(402571003) -JM 25-Jul-16 Manganese-54 -1.62E+OO 3.47E+OO 2.26E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -JM 27-0ct-16 Manganese-54 -1.14E+OO 4.11E+OO 2.81E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007) -IM 17-Feb-16 Potassium-40 1.23E+03 2.91E+01 1.40E+02 pCi/ka POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Apr-16 Potassium-40 1.46E+03 4.26E+01 1.65E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(391919007) -JM 17-Feb-16 Zinc-65 -3.32E+OO 8.89E+OO 5.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Apr-16 Zinc-65 -3.59E+OO 8.99E+OO 6.01E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -IM 25-Jul-16 Zinc-65 -2.93E+OO , 8.21E+OO 5.28E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -JM 27-0ct-16 Zinc-65 5.55E-01 9.08E+OO 6.23E+OO pCi/ka ( POS Pacific Ocean South of Diablo Cove -Intertidal Mussel Replicate Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units POS Pacific Ocean South of Diablo Cove-R(395681005) -JM 14-Apr-16 Cesium-134 -1.88E+OO 5.70E+OO 4.10E+OO pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005)-IM 14-Aor-16 Cesium-137 1.01 E-01 5.30E+OO 3.82E+OO oCi/ka POS Pacific Ocean South of Diablo Cove-R(395681005)-IM 14-Apr-16 Cobalt-58 7.29E-01 7.14E+OO 4.83E+OO pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005) -JM 14-Apr-16 Cobalt-60 2.56E-02 5.47E+OO 3.30E+OO pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005) -IM 14-Apr-16 lron-59 -2.12E+OO 1.29E+01 7.93E+OO pCi/kg POS Pacific Ocean South of Diab lo Cove-R(395681005) -JM 14-Apr-16 Manganese-54 1.59E+OO 6.10E+OO 3.56E+OO pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005) -JM 14-Apr-16 Potassium-40 1.41E+03 4.29E+01 1.53E+02 pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005) -JM 14-Apr-16 Uranium-238 3.04E+02 2.16E+02 2.29E+02 pCi/kg POS Pacific Ocean South of Diab lo Cove-R(395681005) -JM 14-Apr-16 Zinc-65 3.48E+OO 1.09E+01 7.36E+OO pCi/kg Page 89 of92 L 2016 DCPP REMP Analysis Results Appendix A WN2 Diablo Creek Outlet -Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 BETA 5.26E+OO | |||
* 3.09E+OO 2.18E+OO pCi/L WN2 Diab lo Creek Outlet(395790001) -DW 19-Apr-16 BETA 1.64E+OO 1.91E+OO 1.26E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 BETA -4.85E-02 2.04E+OO 1.23E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 BETA 4.87E-01 2.10E+OO 1.28E+OO pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Barium-140 7.47E-01 9.27E+OO 5.47E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Barium-140 -6.80E-01 9.62E+OO 5.92E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Barium-140 6.35E-02 *1.02E+01 5.99E+OO pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 Barium-140 -4.32E+OO 8.17E+OO 8.70E+OO pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Cesium-134 -1.21E+OO 2.33E+OO 2.65E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Cesium-134 2.98E-01 2.09E+OO 1.23E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Cesium-134 3.82E-01 1.80E+OO 1.24E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Cesium-134 3.53E-01 1.61E+OO 9.86E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Cesium-137 -6.66E-01 1.98E+OO 1.27E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Cesium-137 -1.57E-01 1.92E+OO 1.14E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Cesium-137 1.12E+OO 1.69E+OO 2.31E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Cesium-137 1.85E-01 1.45E+OO 8.76E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Cobalt-58 1.36E-01 1.99E+OO 1.16E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Cobalt-58 7.87E-01 1.98E+OO 1.18E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Cobalt-58 7.02E-01 1.73E+OO 1.07E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Cobalt-58 -3.43E-01 1.40E+OO 8.44E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Cobalt-60 6.41E-01 2.16E+OO 1.24E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Cobalt-60 7.76E-01 1:94E+OO 1.13E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Cobalt-60 2.54E-01 1.78E+OO 1.05E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Cobalt-60 -7.72E-02 1.44E+OO . 8.68E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 lodine-131 -3.66E-02 4.41 E-01 2.70E-01 pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 lodine-131 7.89E-03 6.17E-01 3.69E-01 pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 lodine-131 1.95E-01 6.51E-01 3.85E-01 pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 lodine-131 2.29E-01 5.72E-01 3.34E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 lron-55 3.08E-01 4.64E+01 3.09E+01 pCi/L_ WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 lron-55 -5.35E+OO 1.17E+02 8.55E+01 oCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 lron-55 | |||
* 8.68E+OO 6.65E+01 4.89E+01 pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 lron-55 3.20E+01 8.02E+01 6.07E+01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 lron-59 6.82E-01 4.11E+OO 2.43E+OO pCi/L WN2 Diablo Creek Outlet(395790001)-DW 19-Apr-16 lron-59 1.41E+OO 4.36E+OO 2.88E+OO pCi/L WN2 Diablo Creek Outlet(403105002)-DW 2-Aug-16 lron-59 -3.95E-02 3.54E+OO 2.44E+OO pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 lron-59 -1.47E+OO 2.56E+OO 2.01E+OO pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Lanthanum-140 1.91E+OO 3.83E+OO 2.29E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Lanthanum-140 4.59E-01 3.60E+OO 2.13E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Lanthanum-140 -7.81E-01 3.01E+OO 1.87E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Lanthanum-140 -1.41 E+OO 2.39E+OO 1.73E+OO pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Manganese-54 6.55E-01 2.06E+OO 1.20E+OO pCi/L WN2 Diab lo Creek Outlet(395790001) -DW 19-Apr-16 Manganese-54 -6.61E-01 1.67E+OO 1.09E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Manaanese-54 4.19E-01 1.65E+OO 1.73E+OO pCi/L Page 90 of 92 2016 DCPP REMP Analysis Results Appendix A WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Manganese-54 5.16E-01 1.27E+OO 1.22E+OO pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Nickel-63 -6.28E+OO 2.84E+01 1.67E+01 pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Nickel-63 ' 1.94E-01 3.52E+01 2.10E+01 pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Nickel-63 8.03E+OO 2.77E+01 1.68E+01 pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Nickel-63 -1.70E+01 2.81 E+01 1.62E+01 pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Niobium-95 5.60E-01 2.09E+OO 1.26E+OO | |||
* pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Niobium-95 1.08E+OO 2.00E+OO 1.22E+OO pCi/L WN2 Diablo Creek Outlet(403105002)-DW 2-Aug-16 Niobium-95 -5.91E-01 1.81E+OO 1.46E+OO pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 Niobium-95 -3.26E-01 1.43E+OO 9.20E-01 pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Total Strontium -3.99E-02 1.98E-01 1.16E-01 pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Total Strontium -4.89E-02 2.98E-01 I 1.76E-01 pCi/L WN2 Diablo Creek Outlet(403105002)-DW 2-Aug-16 Total Strontium -6.05E-02 1.89E-01 1.10E-01 pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Total Strontium 2.22E-01 6.47E-01 4.07E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Tritium 8.04E+OO 2.56E+02 1.53E+02 pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Tritium -2.17E+02 3.10E+02 1.76E+02 pCi/L WN2 Diablo Creek Outlet(403105002)-DW 2-Aug-16 Tritium 1.49E+02, 2.68E+02 1.69E+02 pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 Tritium -4.27E+01 3.07E+02 1.81 E+02 pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Zinc-65 -1.23E-03 3.91E+OO 2.73E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Zinc-65 4.70E-01 4.36E+OO 2.52E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Zinc-65 -1.92E+OO 3.10E+OO 2.16E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Zinc-65 4.13E-01 2.61E+OO 1.71E+OO pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Zirconium-95 4.88E-01 3.50E+OO 2.11E+OO oCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Zirconium-95 -9.21E-01 3.28E+OO 2.05E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Auci-16 Zirconium-95 1.80E+OO 3.14E+OO 1.95E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Zirconium-95 -6.03E-01 2.50E+OO 1.61 E+OO pCi/L WW2 Water Well 02 -Groundwater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units WW2 Water Well 02(389804002) -DW 19-Jan-16 BETA 5.68E+OO 4.24E+OO 2.86E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 BETA 4.93E+OO 4.80E+OO 3.11E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 BETA 1.19E+OO 2.10E+OO 1.37E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 | |||
* Barium-140 -3A3E+OO 1.03E+01 6.32E+OO oCi/L WW2 Water Well 02(395275004)-DW 12-Apr-16 Barium-140 8.79E-01 1.12E+01 7.79E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Barium-140 -4.74E-01 9.73E+OO 5.84E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Cesium-134 3.23E-01 2.46E+OO 1.44E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Cesium-134 8.89E-01 2.72E+OO 1.62E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Auci-16 Cesium-134 3.26E-01 1.97E+OO 1.18E+OO oCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Cesium-137 -1.30E+OO 2.25E+OO 1.51E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Cesium-137 -2.65E-01 2.62E+OO 1.80E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Cesium-137 5.24E-01 1.91E+OO 1.26E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Cobalt-58 9.29E-01 2.18E+OO 1.47E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Cobalt-58 -4.26E-01 2.46E+OO 1.76E+OO oCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Cobalt-58 7.74E-01 1.91E+OO 1.15E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Cobalt-60 8.94E-01 2.36E+OO 1.51 E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Cobalt-60 -4.49E-01 2.57E+OO 1.59E+OO oCi/L Page 91 of 92 2016 DCPP REMP Analysis Results Appendix A WW2 Water Well 02(404713001)-DW 24-Aug-16 Cobalt-60 1.60E+OO 2.18E+OO 1.34E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 lodine-131 3.25E-02 6.67E-01 3.96E-01 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 lodine-131 -7.97E-02 5.02E-01 3.10E-01 pCi/L WW2 Water Well 02(404713001) -DW 24-Aua-16 lodine-131 -1.19E-01 6.12E-01 3.64E-01 pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 lron-55 1.41E+01 4.65E+01 3.19E+01 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 lron-55 7.61E+01 1.29E+02 9.94E+01 pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 lron-55 3.03E+OO 7.07E+01 5.04E+01 pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 | |||
* lron-59 5.16E-01 4.26E+OO 2.54E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 lron-59 1.43E-01 4.60E+OO 3.14E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 lron-59 1.26E+OO 3.64E+OO 2.19E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Lanthanum-140 1.25E+OO 3.84E+OO 2.23E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Lanthanum-140 7.77E-01 3.62E+OO 2.10E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Lanthanum-140 -2.16E+OO 3.21E+OO 2.33E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Manaanese-54 -9.43E-02 2.10E+OO 1.25E+OO oCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Manganese-54 -3.69E-01 2.49E+OO 1.64E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Manganese-54 -2.10E+OO 1.71E+OO 2.12E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Nickel-63 -9.74E+OO 2.72E+01 1.58E+01 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Nickel-63 5.00E+OO 3.58E+01 2.15E+01 pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Nickel-63 9.02E-01 3.32E+01 *1.98E+01 pCi/L. WW2 Water Well 02(389804002) -DW 19-Jan-16 Niobium-95 1.10E+OO 2.44E+OO 1.65E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Niobium-95 2.21E+OO 2.86E+OO 2.08E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aua-16 Niobium-95 -1.95E-01 1.77E+OO 1.23E+OO oCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Total Strontium * -1.70E-01 2.57E-01 1.47E-01 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Total Strontium -3.06E-01 2.07E-01 1.11E-01 pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Total Strontium 1.21 E-01 1.57E-01 1.02E-01 pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Tritium 1.45E+01 2.56E+02 1.53E+02 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Tritium -1.25E+02 2.98E+02 1.72E+02 pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Tritium 2.53E+02 2.92E+02 1.94E+02 pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Zinc-65 3.49E+OO 4.93E+OO 4.16E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Zinc-65 -2.11E+OO 4.92E+OO 3.73E+OO pCi/L WW2 Water Well 02(404713001) -DW 24-Aug-16 Zinc-65 8.35E-01 4.14E+OO 2.80E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Zirconium-95 -6.97E-01 3.78E+OO 2.30E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Zirconium-95 -8.54E-01 4.26E+OO 2.60E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Zirconium-95 1.23E+OO 3.48E+OO 2.09E+OO pCi/L Page 92 of 92 L _J | |||
}} | }} |
Revision as of 08:13, 28 April 2018
ML17128A024 | |
Person / Time | |
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Site: | Diablo Canyon |
Issue date: | 04/26/2017 |
From: | Welsch J M Pacific Gas & Electric Co |
To: | Document Control Desk, Office of Nuclear Reactor Regulation |
Shared Package | |
ML17128A018 | List: |
References | |
DCL-17-030 | |
Download: ML17128A024 (217) | |
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Pacific Gas and Electric Company April 26, 2017 PG&E Letter DCL-17-030 James M. Welsch Vice President, Nuclear Generation Diablo Canyon Power Plant Mail Code 104/6 P. 0. Box 56 Avila Beach, CA 93424 80 5. 545. 3242 Internal: 691. 3242 Fax: 805. 545.4884 u.s: Nuclear Regulatory Commission A TIN: Document Control Desk Washington, DC 20555-0001 10 CFR 50; Appendix I Docket No. 50-275, OL-DPR-80 Docket No. 50-323, OL-DPR-82 Diablo Canyon Units 1 and 2 2016 Annual Radiological Environmental Operating Report
Dear Commissioners and Staff:
In accordance with Diablo Canyon Power Plant, Units 1 and 2, Technical Specification 5.6.2, "Annual Radiological Environmental Operating Report," Pacific Gas and Electric Company hereby submits the 2016 Annual Radiological Environmental Operating Report (AREOR). The AREOR is provided in the enclosure to this letter, which contains material consistent with the objectives of the Offsite Dose Calculation Manual, and 10 CFR 50, Appendix I, Sections IV.B.2, IV.B.3, and IV.C. There are no new or revised regulatory commitments in this report (as defined by NEI 99-04). If you have any questions regarding this submittal, please contact Mr. Martin Wright at (805) 545-3821 . Sincerely, A member of the STARS Alliance Callaway
- Diablo Canyon
- Palo Verde
- Wolf Creek Document Control Desk April 26, 2017 PG&E Letter DCL-17-030 Page2 mem6/4539/64142521 Enclosure cc: Diablo Distribution cc/enc: Larry R. Allen, Air Pollution Control Officer, San Luis Obispo County Air Pollution Control District Dr. Penny E. Borenstein, San Luis Obispo County Health Officer Kriss M. Kennedy, NRG Region IV Administrator John M. Robertson, Executive Officer, CCRWQCB Gonzalo L. Perez, Branch Chief, California Department of Public Health Christopher W. Newport, DCPP NRG Senior Resident Inspector Balwant K. Singal, NRG Senior Project Manager Executive Officer, San Luis Obispo County Air Pollution Control District A member of the STARS Alliance Callaway
- Diablo Canyon
- Palo Verde
- Wolf Creek PG&E Letter DCL-17-030 2016 ANNUAL RADIOLOGICAL ENVIRONMENTAL OPERA TING REPORT 2016 Annual Radiological Environmental Operating Report Diablo Canyon Power Plant January 1, 2016 -December 31, 2016 This page intentionally left blank. L 2016 Diablo Canyon Power Plant ANNUAL RADIOLOGICAL ENVIRONMENTAL OPERATING REPORT (AREOR) Prepared: January 1, 2016 -December 31, 2016 Prepared By Pacific Gas & Electric Company Diablo Canyon Power Plant Date: Martin Wright, DCPP RP Senior Advising Engineer Inde endent Tech Re
- Date: lt '-1 /1 Date: If. 'I 11 Protection Manager PG&E Submittal Letter DCL-17-030 This page intentionally left blank.
, EXECUTIVE SUMMARY This report contains results from the operational Radiological Environmental Monitoring Program (REMP) for Diablo Canyon Power Plant (DCPP) compiled for the period January 1, 2016 through December 31, 2016. The purpose of the REMP was to assess the levels of radiation or radioactivity in the environment and to verify that DCPP was operating within its design parameters. This data was used to assure that plant effluents did not result in a significant radiological dose to offsite individuals. Operation ofDCPP continued to have no detectable offsite radiological impact. Samples analyzed from the offsite sampling stations continued to show no radiological contribution from plant operations. The offsite radiological doses received by the general public from plant operations 'Yere less than one millirem (mr) anmially which is insignificant when compared to the 310 millirem average annual radiation exposure to people in the United States from natural radiation sources (e.g. cosmic, terrestrial, radon, etc). More than 260 environmental samples, 880 air samples, and 1400 thermo luminescent dosimeter (TLD) phosphors were collected over the course of the 2016 REMP monitoring period. Approximately 1782 radionuclide analyses were performed on the environmental samples. The REMP was conducted in accordance with DCPP Program Directive CY2, "Radiological Monitoring and Controls Program," and RPl.IDl l, "Environmental Radiological Monitoring Procedure." This report was submitted per DCPP License Technical Specification 5.6.2. The types of samples (matrix ID) collected for this monitoring period were as follows: Air Particulate (AP) Air Cartridges (AC) for iodide monitoring Carbon-14 (AC14) Direct Radiation (TLD) Milk (MK) Meat (MT) Vegetation (VG) Drinking Water (DW) Ground Water (GW) Monitor Well (GW) Surface Water (SW) Aquatic Vegetation (AV) Fish (FH) Mussels (IM) Sediment (SD) The ambient direct radiation levels in the DCPP offsite environs did not change and were within the operational background range.
The ambient onsite direct radiation levels within the DCPP plant site boundary near the Independent Spent Fuel Storage Installation (ISFSI) were elevated due to dry cask spent fuel storage. The remaining onsite REMP environmental TLD locations were not affected by the ISFSI due to ISFSI topographical elevation and placement within an onsite hillside which provided shielding to the rest of the site. An evaluation of direct radiation measurements and member of public occupancy times within the site boundary indicated all federal criteria for member of public dose limits (10CFR20.1301) were conservatively met. An evaluation of direct radiation measurements indicated all federal EPA 40CFR190 criteria were conservatively met. Groundwater isotopic monitoring was conducted* in accordance with the nuclear industry NEI 07-07 Groundwater Protection Initiative (GPI). Concentrations of tritium were detected in two shallow monitoring wells (stations OWl and DYl) near the power block. This tritium was evaluated and attributed to rain-washout of gaseous tritium exiting the plant vent system (via an approved effluents discharge path). No groundwater tritium was attributed to DCPP system leaks or spills. It should also be noted that studies of the DCPP site groundwater gradient indicated that any groundwater (subsurface) flow beneath the DCPP power block was not used as a source of drinking water. Due to topography and site characteristics, this groundwater gradient flow discharged into the Pacific Ocean which is approximately 100 yards from the power block. An Old Steam Generator Storage Facility (OSGSF) long term storage mausoleum was cons_tructed within the DCPP site boundary in 2007 for storage of eight retired DCPP steam generators and two retired DCPP reactor heads. This OSGSF did not cause any changes to the ambient direct radiation levels within the DCPP environs during 2016. The OSGSF in-building sumps were inspected quarterly by REMP personnel. These OSGSF sumps have remained empty and dry during 2016. The results of the 2016 REMP showed no unusual environmental isotopic findings from DCPP site operations. These results were compared to DCPP preoperational isotopic data and showed no unusual trends. I Diablo Canyon site operations had no significant environmental radiological impact on airborne, surface water, drinking water, marine life, aquatic vegetation, terrestrial vegetation, sediment, milk, or meat radioactivity.
Executive Summary 1.0 Introduction 2.0 Program Design 2.1 Monitoring Zones 2.2 Pathways Monitored TABLE OF CONTENTS 2.3 Descriptions ofREMP Monitoring 2.3.1 Direct Radiation 2.3.2 Airborne Radioactivity 2.3.3 Airborne Carbon-14 2.3.4 Waterborne 2.3.5 Marine Biological, Beach Sand, and Ocean Sediment 2.3.6 Food Crops 2.3.7 Milk 2.3.8 Meat 3.0 Radiological Data Summary of Tables 4.0 Analysis of Environmental Results 4.1 REMP Sampling Variance I Deviations 4.2 Comparison of Achieved LLDs with Requirements 4.3 Comparison of Results against Reporting Levels 4.4 Data Analysis by Media Type 4.4. l Direct Radiation 4.4.2 Airborne Radioactivity 4.4.3 Waterborne 4.4.4 Marine Biological, Beach Sand, and Ocean Sediment 4.4.5 . Food Crops 4.4.6 Milk 4.4.7 Meat 5.0 Groundwater Monitoring 6.0 Old Steam Generator Storage Facility 7.0 Lab Cross Check Program 8.0 DCPP Annual Land Use Census 9.0 DCPP Wind Rose 10.0 References Appendix A Individual Analytical Sample Results Photograph credits: Tom Hook, John Lindsey, and Martin Wright This page intentionally left blank.
LIST OF TABLES Table Title 2.1 Radiological Environmental Monitoring Program 2.2 Distances and Directions to Environmental Monitoring Stations 2.3 Detection Capabilities for Environmental Lower Limit of Detection (LLD) 2.4 Reporting Levels for Radioactivity Concentrations in Environmental Samples 3 .1 Direct Radiation Summary Table 3.2 REMP Airborne Summary Table 3.3 Surface Water Summary Table 3.4 Drinking Water Summary Table 3.5 Mussel Summary Table 3.6 Fish Summary Table 3. 7 Algae Summary Table 3.8 Kelp Summary Table 3 .9 Vegetative Crops Summary Table 3 .10 Milk Summary Table 3.11 Meat Summary Table 3.12 Ocean Sediment Summary Table 3.13 Beach Sand Summary Table 3.14 Groundwater Summary Table 3.15 Monitoring Well Summary Table 8 DCPP Land Use Census Figure 2.1 2.2 2.3 8 LIST OF FIGURES Title Diablo Canyon Off-site REMP Locations Diablo Canyon On-site REMP Locations Diablo Canyon REMP Stations DCPP Land Use Census Map This page intentionally left blank. __ J
1.0 INTRODUCTION
Diablo Canyon Power Plant (DCPP) consists of two Westinghouse pressurized water reactors (PWR). Unit 1 began commercial operation on May 7, 1985 and Unit 2 began commercial operation on March 13, 1986. Each unit produces approximately 1, 100 megawatts electrical (MWe). The purpose of the Radiological Environmental Monitoring Program (REMP) is to verify that Diablo Canyon Power Plant (DCPP) is operating within its design parameters and to assure that plant effluents do not result in a significant radiological dose to offsite individuals. Operation ofDCPP continues to have no detectable radiological impact offsite. Samples analyzed from the offsite sampling stations continue to show no radiological contribution from plant operations. The annual radiological doses received by the general public from plant operations were less than one millirem (mr) which is insignificant when compared to the 310 millirem average annual radiation exposure to people in the United States from natural radiation sources (e.g. cosmic, terrestrial, radon, etc). For comparison, this < 1 mr annual exposure is equivalent to approximately I to 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> of cosmic exposure during a cross country airline flight.
This Annual Radiological Environmental Operating Report (AREOR) summarized the findings of the REMP conducted by DCPP. The remainder of this AREOR was organized as follows: Section 2: Provided a description of the overall REMP design. Included was a summary of the requirements for REMP sampling and tables listing routine sampling and TLD monitoring locations with distances from the plant. Tables listing Lower Limit of Detection requirements and Reporting Levels (NRC notification if levels exceeded) were also included. Section 3: Consisted of the summarized data as required by the Radiological Environmental Monitoring Program. The summaries were provided similar to that specified by the NRC Branch Technical Position on Environmental Monitoring. Section 4: Provided a summary of the results for the samples collected. The performance of the program in meeting the requirements was discussed, and the data acquired during the monitoring period was analyzed. Also included was environmental TLD data trending. Section 5: Provided a summary of groundwater monitoring in accordance with the nuclear industry NEI 07-07 Groundwater Protection Initiative. This report and previous DCPP AREOR's can be found on the NRC website at: http://www.nrc.gov/reactors/operating/ops-experience/tritium/plant-info.html DCPP REMP sent replicate split samples of stations 7G 1 vegetation (quarterly), 5F2 milk (monthly), 5S2 drinking water (monthly), DWI drinking water (monthly), OUT seawater (monthly\_DCM kelp (quarterly), DCM perch (quarterly), DCM rockfish (quarterly), and DCM ocean sediment (annually) to the California Department of Public Health -Radiologic Health Branch (CDPH-RHB) Laboratory as part of a California State split sampling program. These split samples were independently analyzed by the CD PH-RHB. Other pathways independently monitored by the CDPH-RHB were quarterly direct radiation environmental TLD stations (MTl, lAl, I Cl, 4Dl, 5F3, 5Sl, 7Dl, 7Cl, 7Fl, and 8S2) and weekly air sampling particulate and 1-131 (at stations 5F3 and 7D 1 ). The general public can access these CDPH-RHB split sampling data results via the internet at: http://www.cdph.ca.gov/programs/Pages/RHB-RadReport.aspx L 2.0 PROGRAM DESIGN The Radiological Environmental Monitoring Program (REMP) for the Diab lo Canyon Power Plant (DCPP) was designed with the following specific objectives in mind. These objectives continue to be in force, to varying degrees, throughout facility operation:
- To provide an early indication of the appearance or accumulation of any radioactive material in the environment caused by facility operation. Preoperational data was also used in this comparison.
- To provide assurance to regulatory agencies and the public that the station's environmental impact was known and within anticipated limits.
- To provide standby monitoring capability for rapid assessment of risk to the general public in the event of unanticipated or accidental releases ofradioactive material. The environmental media selected were based on the critical dose pathways of the radionuclides from the environment to man. They included the following: direct radiation, air, water, fish, ocean sediment, and invertebrates. Supplemental samples such as algae, kelp, local agricultural crops, recreational beach sand, groundwater, meat, and milk were also collected. The sampling locations were determined by land use, site meteorology, and local demographics. Guidance for this monitoring program was provided by the Radiological Assessment Branch Technical Position on Radiological Environmental Monitoring, Revision 1, November 1979 (NUREG-1301). Radiological Environmental Monitoring Program (REMP) samples were collected by DCPP REMP personnel and sent to General Engineering Labs (GEL) in Charleston, South Carolina for isotopic analysis. Fish (except market fish) and ocean sediment samples were collected by contract divers of Tenera Environmental and given to DCPP REMP personnel for shipment to GEL. Market fish samples were collected by local commercial fishermen and then purchased by DCPP REMP personnel in one of two local fish markets for shipment to GEL. Environmental direct radiation analyses were conducted by the use of thermo-luminescent dosimeters (TLD). Environmental TLD analysis was conducted by Mirion Technologies in Irvine California. The detailed sampling requirements of the REMP were given in Table 2.1 of this report. Data summary tables ofREMP sampling for the period were shown in section 3 of this report. Any deviations from the REMP sampling schedule I requirements were documented in section 4 of this report. Direct dose (environmental TLD) results were shown in section 4 of this report. Individual REMP sample isotopic analysis results were shown in Appendix A of this report. Isotopic analysis results were classified as "detected" ifthe a-posteriori analysis result was greater than the Minimum Detectable Concentration (MDC) value for that specific analysis. Detected concentrations ( > MDC) of nuclear power plant related isotopes have been highlighted in Appendix A with yellow background for quick identification by the ARBOR audience. Naturally occurring radioactive materials (NORM) were not highlighted (e.g. gross beta, Be-7, K-40, thorium, radium, radon, lead, etc).
\ 2.1 MONITORING ZONES The REMP was designed to allow comparison of levels of radioactivity in samples from the areas possibly influenced by DCPP to levels found in areas not influenced by the facility operations. Areas with the potential to be influenced by facility operations were called "indicator" stations. Areas with sufficient distance from the plant that were not likely to be influenced by facility operations were called "control" stations. The distinction between the two zones was based on distance and relative direction from the plant. Analysis of survey data from the two zones aided in determination of site* environmental influence. Analysis from the two zones assisted in differentiation between radioactive releases and seasonal variations in the natural environmental background radioactivity. 2.2 PATHWAYS MONITORED Direct Radiation Airborne Radioactivity W aterbome Pathways Marine Biological, Beach Sand, and Ocean Sediment Food Crops Milk Meat 2.3 DESCRIPTIONS OF REMP MONITORING 2.3.l Direct Radiation Environmental TLD badge packets were distributed and collected from field stations by DCPP REMP personnel and then shipped to Mirion Technologies for processing on a quarterly basis. Control badges accompanied the field badges during shipment and deployment to measure any non-station dose received during transit time periods. Direct ambient radiation was measured at 32 stations in the vicinity ofDCPP and at 8 stations in the vicinity of the ISFSI using Panasonic UDS 14 TLD badges. The TLD badges had valid element correction factors (ECF), were calibrated using a NIST-traceable caesium-137 source, were annealed prior to placement, and were sealed in watertight packaging. Three TLD badges were placed at each l _ station and each badge contained 3 calcium sulfate phosphors for a total of 9 calcium sulfate phosphors at each station. The 9 phosphors were analyzed and then averaged to provide a single station reading. Transit process exposure was subtracted and that single reading was converted into a microrem per hour (uR/hr) doserate dependent on the in-field exposure time period. Then the uR/hr doserate was converted into millirem (mr) per standard (91 day) quarter. This millirem result was reported as "Standard Quarter TLD Results" for each station in the Section 4.4. l Env TLD Analysis spreadsheets. DCPP Environmental TLD "Standard Quarter TLD Results" were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, made, etc) at each station during the in-field deployment period. These inclusive exposure values were used to create the trend graphs in Section 4.4.1. ANSI/HPS N13.37-2014 methodology was used to report "Quarterly I Annual Investigation Level Dose" as a means to quantify facility related exposure. 2.3.2 Airborne Radioactivity Air particulate and 'radioiodine sampling were performed weekly at six indicator stations: MTI, OS2, lSl, 7Dl, 8Sl and 8S2. Air particulate and radioiodine sampling was performed weekly at one control station: 5Fl. Constant flow air samplers (F&J model DF-1) were used to draw air through paper filters to collect air particulates (station matrix AP= Air Particulate) and / through triethylenediamine (TEDA) impregnated charcoal cartridges to collect radioiodine (station matrix AC =Air Charcoal). The air sampling flow rate was conducted at approximately 2.55 meters per hour. The air sampling collection filters were located approximately seven feet above the ground. The sample volumes were determined by F&J Corporation model DF-1 flow meters (corrected to standard temperature and pressure, STP) which were installed downstream of the sample filters. At the end of the weekly sampling period, the particulate filter and TEDA charcoal cartridge were collected. All necessary data regarding the air volume readings, flow rate, sampler time on I off, date of collection, and sampler station location were recorded and submitted to GEL along with the filter samples for isotopic analysis.
Approximately 72 hours8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> after sampling (to allow for radon and thoron daughter decay), the particulate filter papers collected from the field were placed on individual planchets and counted for gross beta activity in a low background, thin window gas proportional counter. Quarterly gamma spectroscopy isotopic analysis was performed on station composites of the approximate 13 filters to determine the activity concentration of gamma emitting isotopes. The quarterly composite sample time is reported at the midpoint of the quarter monitored. Due to the short half-life of fodine-131, each station weekly TEDA impregnated charcoal cartridge was counted for gamma spectroscopy isotopic analysis to determine the radioiodine concentration. 2.3.3 Airborne Carbon-14 Supplemental air Carbon-14 (station matrix A Cl 4) sampling was performed weekly at stations OS2 (northwest sector), 8Sl (southeast sector), and 5Fl (control station in San Luis Obispo) throughout 2016. General Engineering Labs (GEL) and DCPP REMP worked together to develop a method for sampling environmental airborne inorganic C-14. Inorganic C-14 (as C02) is the primary exposure pathway to man via photosynthesis in plants. A constant flow air sampler was used to draw air through a solid phase carbon sensitive sorbent cartridge. The air sampler was set at a flow rate of 1.0 standard liter per minute. The air sample filter cartridge head was located approximately seven feet above the ground. At the end of the weekly sampling period, the filter cartridge was collected. All necessary data regarding the air volume, flow rate, sampler time on I off, date of collection, and sampler station location were recorded and submitted to GEL along with the sample filter for C-14 analysis. At GEL, a suitable portion of the solid sorbent material was processed through a method utilizing wet oxidation to remove volatile C02 from the media in a closed distillation system. Once removed from the media, C-14 as carbon dioxide was sparged through a dilute acid solution for trapping any tritium water present in the sample. After sparging through dilute acid, the C02 was trapped in a sorbing solution which was added to liquid scintillation cocktail and finally counted in a liquid scintillation counter. It should be noted that C-14 results in Appendix A are reported in microcuries (uCi) per cubic meter. This method met the following specifications:
- Validated to retain 99.9% of inorganic C-14 in air
- Validated at collection rates of approximately 1.0 liter per minute
- Validated for total collection capacity over a 1 week sampling interval
- Accurate analysis of C-14 over a wide range of concentrations
- Methodology free from interference by other radionuclides
- Detection capability of approximately 8E-7 uCi (0.8 pCi) per cubic meter 2.3.4 Waterborne Water samples (drinking water, surface water, monitor wells, and groundwater) were collected at the frequencies shown in Table 2.1 Ocean surface water samples were collected at Diablo Cove (station DCM), Rattlesnake Canyon (station 7C2), and at the plant Outfall (station OUT). Drinking water samples were collected from Diablo Creek Weir (station 5S2), Diablo Creek Outlet (station WN2), Blanchard Spring (station 1A2), and from the DCPP drinking water system (station DWI). San Luis Obispo (SLO) city drinking water was also collected from a control station located at 4325 South Higuera Street, Offsite Emergency Lab (station OEL) in SLO. Supplemental groundwat'er samples were collected from Water Well 02 (WW2) and DCSF96-l (8S3). Supplemental on-site monitoring well samples were collected from french drain systems labeled Observation Well 01 (OWl), Observation Well 02 (OW2), and Drywell 115 (DYl). These shallow French drain well systems were located in close proximity to the facility power block structures and within the protected area. Two new on-site monitoring wells were installed in December 2011 as part of the industry Groundwater Protection Initiative (GPI). Isotopic sampling of these wells was initiated in 2012. These two new onsite wells were downgradient of the power block and located along the west side of the power block. These two new monitoring wells were labeled Groundwater 1 (GWl) and Groundwater 2 (GW2). After collection, the samples were securely sealed and labeled with sample type, station ID, date, time of collection, person performing the collection and sent to GEL for analysis.
2.3.5 Marine Biological, Beach Sand, and Ocean Sediment The REMP required sampling of rockfish (genus Sebastes), perch (family Embiotocidae), mussels (genus Mytilus), and ocean sediment from indicator station DCM and control station 7C2. All other marine samples collected were considered supplemental. These supplemental marine samples included the following: intertidal algae, intertidal mussels, kelp, rockfish, perch, beach sand, and market fish. The intertidal samples were collected by DCPP personnel during low tidal conditions. Kelp was collected quarterly by DCPP personnel from the offshore kelp bed in the vicinity of the site. Quarterly samples of fish and annual samples of ocean sediments were collected from the plant environs by contracted divers (TENERA Environmental). The Tenera divers fillet the fish and leave a small portion of skin for identification. Only edible portions (fish fillets) of the fish were analyzed. Beach sand was collected by DCPP personnel between the high tide and low tide boundaries at nearby recreational beaches. Market Fish caught locally by commercial fishermen were purchased from two local fish markets (Avila Beach Pier-7D3 and Morro Bay-2Fl). All samples were subject to unavailability due to seasonal fluctuations or unfavorable sampling conditions. The above samples were sealed in plastic bags immediately upon collection. In-shell mussels were sent to GEL where GEL personnel removed the meat & internal organs for analysis. The samples were labeled with sample type, station ID, date, time of collection, and the individual who performed collection. The samples were then frozen (to prevent spoilage odor) before they were shipped to GEL for analysis.
2.3.6 Food Crops The REMP required broadleaffood vegetation collected in the nearest off-site locations of the highest calculated annual average ground level D/Q (dispersion parameter) within 5 miles. There was no broad leaf food vegetation available that satisfied this requirement. Because these food products were unavailable, the DCPP REMP conducted additional weekly air sampling in the SE (station 8S2) and NNW (station IS 1) sectors. Additional representative samples of food crops (in season) were collected monthly from supplemental stations: Cal Poly Farm (5F2), Kawaoka Farm in Arroyo Grande (7G I), Mello Farm (7Cl) along the DCPP site access road, and quarterly from local gardens (3Cl, 6Cl, and 7El). The vegetation samples at 5F2, 7G 1, 7Cl, 3Cl, and 7El were collected by DCPP personnel and sealed immediately in plastic bags. The quarterly garden vegetation sample at 6C 1 was provided to DCPP personnel by the land occupant (due to difficulty of property access and occupant requested privacy). The samples were labeled with sample type, station ID, collection date, collection time, and the individual who performed collection. The samples were normally frozen before they were shipped to GEL for analysis (to prevent spoilage odor).
2.3.7 Milk There were no animals within the 5 mile vicinity of the site utilized for milk consumption by humans. However, supplemental samples of cow milk were collected monthly from Cal Poly Fann (5F2) which was approximately 13 miles from DCPP. Two ]-gallon plastic containers of milk were collected each sampling period by DCPP personnel. Forty grams of sodium bisulfite preservative were added to each gallon of milk sample. The containers were sealed and shaken thoroughly to distribute the preservative. The containers were labeled with sample type, station JD, collection date, collection time, and the individual who performed collection. The samples were then express-shipped (due to the short half-life of 1-131) to GEL for analysis.
2.3.8 Meat A rancher routinely grazed (free range, grass fed) cattle within three miles of the site boundary between the northwest to east sectors (clockwise). This livestock meat would then be offered at local farmer's markets and private distribution. Because it was possible for this vendor to provide an individual's sole-source of annual meat consumption, this meat sampling was included i11 the REMP. REMP personnel obtained commercially packaged meat samples directly from the land owner. Gamma spec and total strontium 89/90 analyses were performed on the meat. Control station free range, grass fed meat sampling was conducted of ranches outside the influence ofDCPP. This meat was purchased by REMP personnel from the Whole Foods Market in SLO. The control station meat consisted of Hearst Ranch meat which is located approximately 37 miles north of the DCPP site. This REMP station code was CCM (Control Cow Meat) and provided a control meat sample location far from the site. Property owners could hunt deer and wild pig (in season) within 5 miles of the site boundary. The REMP could not obtain deer meat samples from these property owners (voluntary participation) in 2016. Gamma spec and strontium analyses were performed on the deer meat if provided. The meat was initially packaged by the livestock owners or commercial processes. The meat was purchased at local grocery stores or turned over to REMP personnel by the land owners. The unopened packages were then separated by species and placed into large over-pack zip-lock bags. Each bag was labeled with sample type, station ID, collection date, collection time, and the individual who performed the collection. The samples were then frozen and shipped to GEL for isotopic analysis. _J Exposure Pathway and/or Sample Type 1. Direct Radiation2 ' 2. Airborne Radioiodine TABLE2.1: Radiological Environmental Monitoring Program ) Number of Representative Sampling Collection Frequency Samples and Sample Stations Locations1 Thirty-two routine monitoring stations containing thermo luminescent dosimeters (TLDs) such that at least two (2) -phosphors are present at each station, placed as follows: An inner ring of stations, one in OS1, OS2, Quarterly each terrestrial meteorological WN1, 1S1, sector in the general area of the 2S1, 3S1, 4S1, SITE BOUNDARY; 5S1, 6S1, 7S1, 8S1' 9S1' 8S2, 5S3, and MT1 An outer ring of stations, one in OB1, 1A1, 1C1, Quarterly each terrestrial meteorological 2D1, 3D1, 4C1, sector in the 2.5 to 14 km range 5C1, 6D1, and from the site; and 7C1 One or two areas to serve as 2F2, 4D1, 5F1 Quarterly control stations; and The balance of the stations to 5F3, 7D1, 7D2, Quarterly be placed in special interest 7F1, and 7G2 areas such as population centers, nearby residences, or schools. A minimum of four stations IS1' IS2, IS3, Quarterly around the ISFSI IS4, IS5, IS6, IS7, IS8 Samples from::: 4 stations: Three samples from close to the OS2, 8S1, Continuous sampler three SITE BOUNDARY and MT1 operation with sample locations ( OS2, 8S1, & MT1 ) in collection weekly, or different sectors. more frequently if required by dust loading. One sample from the vicinity of 7D1 Continuous sampler a community having the highest operation with sample calculated annual average collection weekly, or ground level D/Q. more frequently if required by dust loading. If food products are unavailable, 1S1 & 8S2 Continuous sampler additional air sampling will be operation with sample done in the NNW (station 1S1) collection weekly, or and SE (Station 8S2) sectors. more frequently if required by dust loading. One sample from a control 5F1 Continuous sampler location. operation with sample collection weekly, or more frequently if ' required by dust loading. Type of Required or Analysis Supplemental Gamma Dose Required Gamma Dose Required Gamma Dose Required Gamma Dose Required Gamma Dose Required 1-131 analysis Required 1-131 analysis Required 1-131 analysis Required 1-131 analysis Required Table 2.1 (continued) Exposure Pathway Number of Representative Sampling Collection Type of Analysis Required or and/or Sample Type Samples and Sample Stations Frequency Supplemental Locations1 3., Airborne Samples from.'.".. 4.stations: Particulate Three samples from close to the OS2, 8S1, Continuous Weekly gross beta Required three SITE BOUNDARY and MT1 sampler operation radioactivity locations ( OS2, 8S1, & MT1 ) in with sample analysis following different sectors. collection weekly, filter change3. or more frequently Quarterly gamma if required by dust isotopic analysis4 loading. of composite consisting of approx. 12 filters (by location). One sample from the vicinity of 701 Continuous Weekly gross beta Required a community having the highest sampler operation radioactivity calculated annual average with sample analysis following ground level D/Q. collection weekly, filter change3. or more frequently Quarterly gamma if required by dust isotopic analysis4 loading. of composite consisting of approx. 12 filters (by location). lffood products are unavailable, 1S1 & 8S2 Continuous Weekly gross beta Required additional air sampling will be sampler operation radioactivity done in the NNW (station 1S1) with sample analysis following and SE (Station 8S2) sectors. collection weekly, filter change3. or more frequently Quarterly gamma if required by dust isotopic analysis4 loading. ) of composite consisting of approx. 12 filters (by location). One sample from a control 5F1 Continuous Weekly gross beta Required location. sampler operation radioactivity with sample analysis following collection weekly, filter change3. or more frequently Quarterly gamma if required by dust isotopic analysis4 loading. of composite consisting of approx. 12 filters (by location). 4. Airborne Carbon-14 Samples from 3 stations: OS2,8S1 Continuous C-14 analysis Supplemental One sample from each of the 5F1 (control) sampler operation NW and SE sectors close to the with sample site (OS2 and 8S1). collection weekly, or more frequently One sample used as a control if required by dust station (5F1). loading.
Table 2.1 (continued) Exposure Pathway
- Number of Representative Sampling Collection . Type of Analysis Required or and/or Sample Type Samples and Sample Stations Frequency Supplemental Locations1 5. Waterborne a. Surface Ocean One sample from the plant OUT, DCM, Monthly Gamma isotopic4 Required Water Outfall, Diablo Cove, and an and 7C2 (grab sample) and tritium area not influenced by plant analysis. discharge. One sample from the plant OUT, DCM, Quarterly Gross Beta, Supplemental Outfall, Diablo Cove, and an and 7C2 (grab sample) Total Sr 89/90, area not influenced by plant Fe-55, and Ni-63 discharge. b. Drinking Water One sample from the plant DW1and5S2 Monthly Gamma isotopic4, Required drinking water, one sample from OEL (control) (grab sample) 1-131, and tritium Diablo Creek (upstream of analysis. plant), and one control sample. One sample from the plant DW1and5S2 Quarterly Gross Beta, Supplemental drinking water, one sample from OEL (control) (grab sample) Total Sr 89/90, Diablo Creek (upstream of Fe-55, and Ni-63 plant), and one control sample. One sample from Diablo Creek WN2 and 1A2 Quarterly Gamma isotopic4, Supplemental (downstream of plant) and one (grab sample) tritium, 1-131, gross sample from Blanchard Spring. beta, Total Sr 89/90, Fe-55, and Ni-63 c. Groundwater One sample from wells located OW1, OW2, Quarterly Gamma isotopic4, Supplemental under or downgradient from the DY1, GW1, (grab sample, tritium, gross beta, plant power block. and GW2 when available) Total Sr 89/90, Fe-55, and Ni-63 One sample from a well located WW2,8S3 Quarterly Gamma isotopic4, Supplemental outside the plant power block (grab sample, tritium, gross beta, (control sample). when available) Total Sr 89/90, Fe-55, and Ni-63 d. Sediment One sample of offshore ocean DCM and 7C2 Annual Gamma isotopic4 Required sediment from Diablo Cove and (grab sample) Rattlesnake Canyon. One sample of offshore ocean DCM and 7C2 Annual Total Sr 89/90, Supplemental sediment from Diablo Cove and (grab sample) Fe-55, and Ni-63 Rattlesnake Canyon. One sample from each of five AVA, MDO, Semi-Annual Gamma isotopic4, Supplemental local recreational beaches. PMO,CYA, (grab sample) Total Sr 89/90, and CBA Fe-55, and Ni-63 e. Marine Flora One sample of kelp DCM, PON, Quarterly Gamma isotopic4 Supplemental POS, and 7C2 (when available) One sample of intertidal algae DCM and 7.C2 Quarterly Gamma isotopic4 Supplemental (when available) /
Table 2.1 (continued) Exposure Pathway Number of Representative Sampling Collection Type of Required or and/or Sample Type Samples and Sample Locations1 Stations Frequency Analysis Supplemental 6. Ingestion a. Milk Samples from milking animals in 5F2 Semimonthly Gamma isotopic4 Supplemental three locations within 5 km when animals are and 1-131 distance having the highest on pasture; analysis. dose potential. If there are none, monthly at other then one sample from milking times. animals in each of three areas between 5 to 8 km distance where doses are calculated to be greater than 1 mrem per year. One sample from milking animals at a control location 15 to 30 km distant and in the least prevalent wind direction. NOTE: The sample (5F2) should be taken monthly even if there are no indicator samples available. b. Fish and One sample of rock fish (family DCM and 7C2 Quarterly Gamma isotopic4 Required Invertebrates Sebastes) and one sample of (grab sample) analysis on perch (family Embiotocidae) edible portions of each sample. One sample of rock fish PON and POS Quarterly Gamma isotopic4 Supplemental (family Sebastes) and (grab sample) analysis on one sample of perch edible portions (family Embiotocidae) of each sample. One sample of mussel DCM and 7C2 Quarterly Gamma isotopic4 Required (family Mytilus) (grab sample) analysis on edible portions of each sample. One sample of mussel PON Annual Gamma isotopic4 Supplemental (family Mytilus) (grab sample) analysis on edible portions of each sample. One sample of mussel POS Quarterly Gamma isotopic4 Supplemental (family Mytilus) (grab sample) analysis on edible portions of each sample. One sample of locally harvested 7D3 OR 2F1 Quarterly Gamma isotopic4 Supplemental market fish. (should (grab sample) analysis on alternate edible portions between of each sample. locations)
Table 2.1 (continued) Exposure Pathway Number of Representative Sampling Collection Type of Required or and/or Sample Type Samples and Sample Stations Frequency Analysis Supplemental Locations1 c. Broad leaf Three samples of broad leaf Monthly Gamma isotopic4 Required Vegetation5 vegetation grown nearest {when available) analysis (that (see notation #5) off-site locations of highest includes 1-131) calculated annual average on edible ground level D/Q !E milk portion. sampling is not performed. One sample of each of the Monthly Gamma isotopic4 Required similar broadleaf vegetation (when available) analysis (that (see notation #5) grown 15 to 30 km distant in the I includes 1-131) least prevalent wind direction !E on edible milk sampling is not performed. portion. d. Vegetative One sample of broadleaf 5F2, 7C1, Monthly Gamma isotopic4 Supplemental Crops vegetation or vegetables or fruit and 7G1 {when available) analysis on edible portion. One sample cif broadleaf 3C1, 6C1, 7E1 Quarterly Gamma isotopic4 Supplemental vegetation or vegetables or fruit. (as provided by analysis on land owner) edible portion. e. Meat sample One sample of each species BCM, BGM, Quarterly Gamma isotopic4 Supplemental (cow, goat, sheep, deer, or pig) BSM, JDM, (as available and analysis, and of edible meat portion JPM,ACM, provided by land Total Sr 89/90 slaughtered for personal ADM,APM, owners within 8 on edible consumption (not mass market). CCM km of plant site) portion. Table Notations I. Deviations are permitted from the required sampling schedule if specimens are unobtainable due to circumstances such as hazardous conditions, seasonal unavailability, malfunction of automatic sampling equipment and other legitimate reasons. If specimens are unobtainable due to sampling equipment malfunction, effort shall b) made to complete corrective action prior to the end of the next sampling period. All deviations from the sampling schedule shall be documented in the Annual Radiological Environmental Operating Report. It is recognized that, at times, it may not be possible or practicable to continue to obtain samples of the media of choice at the most desired location or time. In these instances, suitable specific alternative media and locations may be chosen for the particular pathway in question and appropriate substitutions made within 30 days in the Radiological Environmental Monitoring Program, and submitted in the next Annual Radioactive Effluent Release Report, including a revised figure(s) and table for the ERMP reflecting the new location(s) with supporting information identifying the cause of the unavailability of samples for that pathway and justifying the section of the new location(s) for obtaining samples. 2. For the purposes of this table, a thermoluminescent dosimeter (TLD) is considered to be one phosphor. There are normally three calcium sulfate phosphors in an environmental TLD BADGE. Film badges shall not be used as dosimeters for measuring direct radiation. 3. Airborne particulate sample filters shall be analyzed for gross beta radioactivity 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or more after sampling to allow for radon and thoron daughter decay. If gross beta activity in air particulate samples is greater than 10 times the yearly mean of control samples, gamma isotopic analysis shall be performed on the individual samples. 4. Gamma isotopic analysis means the identification and quantification of gamma-emitting radionuclides that may be attributable to the effluents from the facility. 5. Ifbroadleafvegetation food products are unavailable, additional air sampling as specified in Table 2.1, Parts 2 & 3 will be done in the NNW (station lSl) and SE (Station 8S2) sectors. 6. The Branch Technical Position (Nov 79) states, "Any location from which milk can no longer be obtained may be dropped from the surveillance program after notifying the NRC in writing that they are no longer obtainable at that location". Although milk sampling performed at 5F2 is outside the 5-mile radius and is supplemental to the REMP, this notification should take place if5F2 milk sampling ceases.
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TABLE2.2 Distances and Directions to Environmental Monitoring Stations Radial Direction** Radial Distance** Station (True Heading) From Plant Code( a) Station Name Degrees km Miles OSI Exclusion Fence-Northwest Comer 320 O.I6 O.I OS2 North Gate 320 0.8 0.5 ISI Wastewater Pond 330 0.64 0.4 2SI Back Road-300 m North of Plant 0 0.32 0.2 3SI Road NW of230 kV Switchyard 23 0.64 0.4 4SI Back Road Between Switchyards 43 0.8 0.5 SSI 500 kV Switchyard 58 0.64 0.4 5S2 Diablo Creek Weir 65 0.96 0.6 5S3 Microwave Tower Road 70 1.02 0.7 6SI Microwave Tower 94 0.8 0.5 7SI Overlook Road 112 0.48 0.3 8SI Target Range I25 0.8 0.5 8S2 Southwest Site Boundary I28 1.76 1.1 8S3 DCSF 96-I (monitor well) I40 0.64 0.4 9SI South Cove I67 0.64 0.4 MTl Meteorological Tower I85 0.32 0.2 DCM Diablo Cove Marine 249 0.44 0.27 WNI Northwest Guard Shack 290 0.32 0.2 WN2 Diablo Creek Outlet 283 0.25 O.IS IAI Crowbar Canyon 327 2.56 1.6 IA2 Blanchard Spring 33I 2.4 1.5 OBI Point Buchon 325 5.76 3.6 ICI Montana de Oro Camn£J:round 336 7.52 4.7 3CI Ranch Vegetation 20 7.I6 4.5 4CI Clark Valley Gravel Pit 45 9.28 5.8 SCI Junction Prefumo/See Canyon Roads
- 64 7.52 4.7 6CI Household Garden ' 98 7.24 4.5 7CI Pecho Creek Ruins (Mello Farm) I20 6.56 4.I 7C2 Rattlesnake Canyon I24 7.52 4.7 2DI Sunnyside School IO I l.04 6.9 3DI Clark Valley 24 9.92 6.2 4DI Los Osos Valley Road 36 I2.I6 7.6 6DI Junction See/Davis Canyon Roads 89 13.4 8.3 7DI Avila Gate 118 I0.56 6.6 7D2 Avila Beach 110 I2.16 7.6 7D3 Avila Pier I20 11.0 6.9 7EI Avila Valley Barn I03 13.94 8.66 2FI Morro Bay (Commercial Landing) 0 I7.44 I0.9 2F2 Morro Bay Power Plant 358 17.9 I 1.2 5FI SLOOEL 79 I6.4I I0.2 5F2 Cal Poly Farm 60 20.16 I2.6 5F3 SLO County Health Department 70 20.32 I2.7 Table 2.2 (continued) Radial Direction** Radial Distance** Station (True Heading) From Plant Code( a) Station Name Degrees km Miles 7Fl Shell Beach 110 17.28 10.8 7Gl Arroyo Grande (Kawaoka Farm) 115 26.88 16.8 7G2 Oceano Substation 118 27.68 17.3 AVA Avila Beach (near pier) 109 11.75 7.3 CBA Cambria Moonstone Beach 330 45.86 28.5 CYA Cayucos Beach (near pier) 350 26.87 16.7 DYl Drywell 115' 77 0.041 0.026 DWI Drinking Water (Plant Potable Water Sys) 161 0.59 0.37 GWl Groundwater Monitoring Well 1 271 0.15 0.09 GW2 Groundwater Monitoring Well 2 195 0.21 0.13 IS1-IS8 ISFSI 59 0.38 0.23 MDO Montana de Oro (Spooners Cove) 336 7.56 4.7 OWl Observation Well 01 336 0.07 0.046 OW2 Observation Well 02 157 0.07 0.045 OEL Offsite Emergency Lab 79 16.41 10.2 OUT Plant Outfall 229 0.15 0.01 PMO Pismo Beach (near pier) 113 20.76 12.9 PON Pacific Ocean North ofDiablo Cove 287 0.56 0.35 POS Pacific Ocean South of Diab lo Cove 176 0.7 0.44 WW2 Water Well 02 70 1.02 0.63 BCM Blanchard (Farm) Cow Meat 320 1.94 1.2 BGM Blanchard (Farm) Goat Meat 320 1.94 1.2 BSM Blanchard (Farm) Sheep Meat 320 1.94 1.2 CCM Control Cow Meat 328 59.5 37 JDM Johe (Property) Deer Meat 21 5.24 3.26 *The reference point used is the dome of Unit I containment. *Station Code CXYZ): X -First number (0-9) represents the radial sector in which the station is located: 0 -Northwest 5 -East-northeast 1 -North-northwest 6 -East 2 -North 7 -East-southeast 3 -North-northeast 8 -Southeast 4 -Northeast 9 -South-southeast Y -Letter (S, A-H) represents the distance from the plant: S -On-site A 2 miles from plant (but off-site) B 4 miles from plant C 6 miles from plant D 8 miles from plant E 10 miles from plant F -10-15 miles from plant G -15-20 miles from plant H -Greater than 20 miles from plant Z -Second number represents the station number within the zone.
Table 2.2 (continued) *Station Codes exceptions: The following stations do not follow the coding system:
- Diablo Cove Marine (DCM)
- Meteorological Tower (MTl)
- Pismo Beach (PMO)
- Northwest guard shack (WNl)
- Cayucos Beach (CY A)
- Diablo Creek outlet (WN2)
- Cambria Moonstone Beach (CBA)
- Pacific Ocean North (PON)
- Blanchard Cow Meat (BCM)
- Pacific Ocean Soutl;i (POS)
- Blanchard Goat Meat (BGM)
- Offsite Emergency Lab (OEL)
- Blanchard Sheep Meat (BSM)
- Plant outfall (OUT)
- Control Cow Meat (CCM)
- Drinking water (DWI)
- Johe Deer Meat (JDM)
- Water Well 02 (WW2)
- Johe Pig Meat (JPM)
- Observation. Well 01 (OWi)
- Andre Cow Meat (ACM)
- Observation Well 02 (OW2)
- Andre Deer Meat (ADM)
- Drywell 115 (DYl)
- Andre Pig Meat (APM)
- Avila Beach (A VA)
- Groundwater Monitoring Well I (GWI)
- Groundwater Monitoring Well 2 (GW2)
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Analysis Gross beta H-3 Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 I-131 Cs-134 Cs-137 Ba-140 La-140 TABLE2.3: Detection Capabilities for Environmental Sample Analysis (a) Lower Limits of Detection (LLD) (b) Water 4 400c 15 30 15 15 30 30 15 Id 15 18 60 15 Airborne Particulate or 3 Gases (oCi/m ') 0.01 -0.0.7 0.05 0.06 Fish wet) 130 260 130 130 260 130 150 Milk 1 15 18 60 15 Food Products (oCilk!!. wet) 60 60 80 Table Notations \ Soil/Sediment drv)0 150 300 150 150 300 300 150 150 180 600 150 a) The gamma emitters and corresponding LLD values listed are derived from standard ODCM guidance for environmental samples as found in NUREG-1301, Table 4.12-1. This list does not mean that only these nuclides are to be considered. Other peaks that are identifiable, together with those of the above nuclides, are also analyzed and reported in the Annual Radiological Environmental Operating Report. b) The LLD is defined, for purposes of these specifications, as the a-priori analysis "process" that will yield a net count, above system background, that will be detected with 95 percent probability with only 5 percent probability of falsely concluding that a blank observation represents,a "real" signal for the above concentration of radioactive material in a sample. c) If no drinking water pathway exists, a value of 3,000 pCi/L may be used for tritium. All groundwater wells should use the 400 pCi/L tritium value regardless of drinking water use. d) The LLD value of 1 pCi/L for I-131 is applicable only to sources used as drinking water. If no drinking water pathway exists, a value of 15 pCi/L may be used for I-131. e) The gamma emitters LLD values listed for soil/sediment are derived from the Cs-134/137 10:1 ratio established in the environmental LLDs in NUREG-1301, Table 4.12-1.
TABLE 2.3 (Continued) Table Notations For a particular measurement system, which may include radiochemical separation: LLD 4.66sb Where: LLD E v 2.22 y t E x V x 2.22 x Y x exp(-A.t) the "a priori" the lower limit of detection as defined above (as pCi per unit mass or volume) the standard deviation of the background counting rate or of the counting rate of a blank sample as appropriate (as counts per minute) the counting efficiency (as counts per transformation) the sample size (in units of mass or volume) the number of transformations per minute per pico-curie the fractional radiochemical yield (when applicable) the radioactive decay constant for the particular radionuclide the elapsed time between sample collection (or end of the sample collection period) and time of counting The value of Sb used in the calculation of the LLD for a detection system will be based on the actual observed variance of the background counting rate or of the counting rate of the blank samples (as appropriate) rather than on an unverified theoretically predicted variance. In calculating the LLD for a radionuclide determined by gamma-ray spectrometry1 the background will include the typical contributions of other radionuclides normally present in the samples (e.g., potassium-40 in milk samples). Analyses will be performed in such a manner that the stated LLDs will be achieved under routine conditions. Occasionally background fluctuations, unavoidably small sample sizes, the presence of interfering nuclides, or other uncontrollable.circumstances may render these LLDs unachievable. In such cases, the contributing factors will be identified and described in the Annual Environmental Radiological Operating Report. Typical values of E, V, Y and t should be used in the calculation. It should be recognized that the LLD is defined as a-priori (before the fact) limit representing the capability of a measurement system and not as a-posteriori (after the fact) limit for a particular measurement.
TABLE 2.4: Reporting Levels for Radioactivity Concentrations in Environmental Samples Analysis H-3 Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-Nb-95 I-131 Cs-134 Cs-137 Ba-La-140 Water (pCi/L)
- 20,000 1,000 400 1,000 300 300 400 ** 2 30 50 200 Airborne rParticulate or Gases (pCi/m3) 0.9 10 20 Fish (pCi/kg, wet) 30,000 10,000 30,000 10,000 20,000 1,000 2,000 Milk (pCi/L) 3 70 300 _) Food Products wet) 100 1,000 2,000
- For drinking water samples. This is the 40 CFR 141 value. If no drinking water pathway exists, a value of 30,000 pCi/L may be used. ** If no drinking water pathway exists, a value of 20 pCi/L may be used This page intentionally left blank.
Figure 2.1-Diablo Canyon Off-site Stations This page intentionally left blank.
NW 0 I N I Pacific Ocean 5 Mile Radius 5miles I SE LEGEND .A. Dosimetry Station D Air Particulate Station e Biological Sampling Station
- Diablo Canyon Power Plant Units 1 and 2 Diablo Canyon off-site stations. (
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Figure 2.2-Diablo Canyon On-site Stations J This page intentionally left blank.
' ' ! I l I J I \ i \ f \ -\\ /DCPP 0Msite REMP\\*$tations \ \ \ *\ \\ \ \, \ \ s LEGEND A. Dosimetry Station D Air Particulate Station
- Biological Station Diablo Creek N I This page intentionally left blank.
Figure 2.3-Diablo Canyon Station Locations This page intentionally left blank.
I N I \N \ \ \ S\ \ \ \ \ \ \ \ \ \ \ \ \ \ \ I I \ \ -__ _.....,-. -,,,"/ / I ,,,,,, / I \ ,,,,,, / I I ,,,,,, / I \ ,,,,,, I I \ ,,,,,, I J I ,,,/ / I \ I I \ I I \ I I \ I I \ I I \ / I \ / I \ / I \ / I \ I I \ I I \ I \ I \ \ 0 REMP Stations C:=J 5 Mile Zone ----Sectors \ \ I \ \ \ \ \ \ \ \ \ \ \ \ '\ '\ SE '\ \ \ '\ '\ '\ \ \ '\ \ '\ \ '\ '\ ' ' ' ' ,, 0 ' ' ' ' Miles l '<,, I I 1 '&, 3 t)"ated By: Rick Trelren_.x6481 DCPP/RP., 10/17/16 ' ' I 4 ' ' ' '
This page intentionally left blank 3.0 RADIOLOGICAL DATA-SUMMARY OF TABLES This section summarized the analytical results of the environmental samples collected during the monitoring period. The results were presented in a format similar to that prescribed in the NRC's Radiological Assessment Branch Technical Position on Environmental Monitoring, Revision 1, November 1979 (NUREG-1301 ). Each table was nuclide specific and the total numbers of analyses for that radionuclide were provided. Additionally, the number of measurements which exceeded the Reporting Levels (NRC Notification Level) found in Table 2.4 of this report were provided. The first column listed the matrix or pathway sampled during the period. The second column listed the nuclides analyzed and number of samples performed. The third column provided the required a-priori Lower Limit of Detection (LLD) for radionuclides that have detection capability requirements as specified in Table 2.3 of this report. The fourth, fifth, and sixth columns contained the mean and range of results for locations. The seventh column contained the number of reportable occurrences for the location pathway. Occasionally, the required LLD may not be met. An example of this occurrence might be due to hold times between sampling and analysis. Such cases, if any, were addressed in Section 4.2 of this report. The a-posteriori Minimum Detectable Concentration (MDC) listed for each analysis in Appendix C was used as the detection evaluation point for each sample collected. The MDC was calculated by the laboratory with each analysis (a-posteriori) and incorporated conditions observed at the laboratory during the analysis. This MDC value mathematically represents the lowest concentration of activity that could be detected by the laboratory with a 95% confidence level. The MDC was also understood as the concentration where there was only a 5% probability of falsely reporting a positive detection in a true blank sample. Note that the a-posteriori MDC equation used by the environmental lab was the same as the a-priori Lower Limit of Detection (LLD) equation specified in NUREG-1301. For this report, a sample was considered to yield a "detectable. measurement" when the "result" concentration exceeded the associated a-posteriori MDC value for that analysis. Additionally, the tables provided the mean of all sample results analyzed for the specified radionuclide/ media type, the range, and the number of samples that were considered to have detectable activity of all the samples counted:
- The mean value consisted of the average of detectable concentrations
- The lowest and highest detected concentration values were listed as the range
- The number of detectable measurements and the total number of measurements were listed. For example, (4/20) would indicate that 4 of the 20 samples collected (for that sample type and that radionuclide) contained detectable radioactivity ( > MDC). The radionuclides reported in this section represented those that:
- had an LLD requirement in Table 2.3, or a Reporting Level listed in Table 2.4
- were of specific interest for any other reason The radionuclides routinely analyzed and reported within a gamma spectroscopy analysis were: Ac-228, Ag-108m, Ag-1 lOm, Ba-140, Be-7, Bi-212, Bi-214, Ce-141, Ce-144, Co-57, Co-58, Co-60, Cr-51, Cs-134, Cs-137, Fe-59, I-131, K-40, La-14<f, Mn-54, Nb-95, Pb-210, Pb-212, Pb-214, Ra-224, Ra-226, Ru-103, Ru-106, Sb-124, Sb-125, Th-234, Tl-208, Zn-65, and Zr-95.
Table 3.1 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Name of Facility: Diablo Canyon Power Plant Location of Facility: San Luis Obispo, CA (County, State) Lower Limit Indicator with Medium or Pathway Type and Total of Highest Annual Mean Sampled Number of Detection<Al Name, Distance, and Direction All Indicator Locations All Control Locations (Unit of Measure) Analyses Performed (LLD) Mean< Bl Range< Bl Mean (Bl Range(B) Mean<Bl Range< Bl Direct Radiation ( mR/std quarter) SS I, 0.4 mi, 58° See Table 2.2 2F2, 4DI, SFI IEnv TLD Badges< CJ ( 384) I 6 mR/qtr I* Not Detected (0/12) Not Detected (0/348) Not Detected (0/36) IS4, 0.3 mi, 65° ISl -IS8 lrsFSI TLDi0l ( 96) 6 mR/qtr 85.4 I 79.8 -93. I (12/12) I 35.4 I 11.9 -93. I (60/96) I Table Notation: (A) Sensitivity ofTLD system using ANSI/HPS NB.37-2014 methodology ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (I 0/12) means I 0 samples out of 12 collected showed exposure above historical background and the TLD sensitivity. ( C ) 96 TLD badges are distributed quarterly at 32 locations (29 indicator stations and 3 control stations). Each quarter there are 3 badges exposed per station. ( D ) 24 ISFSI TLD badges are distributed quarterly at 8 locations surrounding the ISFSI protected area and within the site boundary. Each quarter there are 3 badges exposed per station. Number of Reportable Occurrences 0 0 Table 3.2 Environmental Radiological Monitoring Program Summary Report Period: 111116 -12/31/16 Name of Facility: Diablo Canyon Power Plant Location of Facility: San Luis Obispo, CA Lower Limit Indicator with Medium or Pathway Type and Total of Highest Annual Mean Sampled Number of Detection(Al Name, Distance, and Direction All Indicator Locations All Control Locations (Unit of Measure) Analyses Performed (LLD) Mean(Bl Range<Bl Mean (B) Range (Bl Mean (Bl Range (B) Airborne Iodine (371) 7DI, 6.6mi, 118° OS2, lSl, 7Dl, 8Sl, 8S2, MT! 5Fl, 10.2 mi, 79° ( pCi/meter3 ) I-131 0.07 I None Detected ( 0 I 53 ) I None Detected ( 0 I 318 ) I None Detected ( 0 I 53 ) o,;_,:..___.._,_":_ .. Airborne Air Particulates (371) 7Dl, 6.6 mi, 118° OS2, lSl, 7Dl, 8Sl, 8S2, MT! 5Fl, 10.2 mi, 79° ( pCi/meter3 ) I Gross Betal O.Dl I l.99E-2 I 3.66E-3 to 7.1 lE-2 ( 53/53) I l.82E-2 I l.96E-3 to 7.1 IE-2 (316/3 I 8) I 2.49E-2 I 3.78E-3 to 7.09E-2 ( 53/53) Gamma Isotopic< cl ( 28 ) 7Dl, 6.6 mi, 118° OS2, lSl, 7Dl, 8Sl, 8S2, MT! 5Fl, 10.2 mi, 79° Cs-134 0.05 I None Detected ( 0 I 4 ) I None Detected ( 0 I 24 ) I None Detected ( 0 I 4 ) Cs-137 0.06 I None Detected ( 0 I 4 ) I None Detected ( 0 I 24 ) I None Detected ( 0 I 4 ) *:,, .Y Airborne Air Carbon-14 ( 156) 8Sl, 0.5 mi, 125° OS2,8Sl 5Fl, 10.2 mi, 79° ( uCi/meter3 ) Carbon-14 1.00E-06 I None Detected ( 0 I 53) I None Detected ( 0 I 106 ) I None Detected ( 0 I 53 ) Table Notation: (A) Unless specified, all required LLDs were met in accordance with Table 2.3 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g., (10/12) means 10 samples out of 12 collected showed activity. ( C ) These gamma isotopic samples are quarterly composite samples ofall weekly particulate air sample filters. Approximately 13 particulate filters for each REMP location. Plant related radionuclides, not naturally occurring isotopes. (County, State) Number of Reportable Occurrences 0 I 0 0 0 0 Table3.3 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Name of Facility: Diablo Canyon Power Plant Location of Facility: San Luis Obispo, CA Lower Limit Indicator with Highest Medium or Pathway Type and Total of Annual Mean Sampled Number of Detection<AJ Name, Distance, and Direction All Indicator Locations All Control Locations (Unit of Measure) Analyses Performed (LLD) Mean(B) Range< BJ Mean (BJ Range (B) Mean (BJ Range CB) Surface Water DCM, 0.2 mi, 270° DCM, OUT, INTK 7C2, 4.7 mi, 124° ( pCi/Liter ) Gamma Isotopic ( 39 ) Mn-54 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Fe-59 30 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Co-58 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Co-60 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Zn-65 30 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Zr-95 30 none detected ( 0 / 12 ) none detected ( 0 I 27 ) none detected ( 0 / 12 ) Nb-95 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) 1-131 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Cs-134 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Cs-137 18 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Ba-140 60 none detected ( 0 / 12 ) none detected ( 0 I 27 ) none detected ( 0 / 12 ) Lal40 15 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Additional Analysis Gross Beta ( 39) 4 304 I 166-537 (12/12) 332 I . 143-883 (27 /27) 313 I 162-635 (11/12) Fe-55 ( 39) none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Ni-63 ( 39) none detected ( 0 I 12 ) none detected ( 0 I 27 ) none detected ( 0 I 12 ) Tritium H-3 ( 39) 400 none detected ( 0 / 12 ) none detected ( 0 / 27 ) none detected ( 0 / 12 ) Total Sr 89/90 ( 39 ) none detected ( 0 / 12 ) none detected ( 0 / 27 ) none. detected ( 0 I f2 ) Table Notation: (A) Unless specified, all required LLDs were met in accordance with Table 2.3 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means I 0 samples out of 12 collected showed activity. (County State) , Number of Reportable Occurrences 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Name ofFacility: Diablo Canyon Power Plant Medium or Pathway Type and Total Sampled Number of (Unit of Measure) Analyses Performed Drinking Water ( pCi/Liter ) Gamma Isotopic ( 48 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 1-131 Cs-134 Cs-137 Ba-140 La 140 Additional Analysis . Gross Beta ( 48) Fe-55 ( 48) Ni-63 ( 48) Tritium H-3 ( 48) Total Sr 89/90 ( 48 ) Table Notation: Lower Limit of Detection<A> (LLD) 15 30 15 15 30 30* 15 1 15 18 60 15 4 400 Table3.4 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 -Indicator with Highest Annual Mean Name, Distance, and Direction All Indicator Locations Mean Range< Bl Mean (B) Range (B) 5S2, 0.6 mi, 65° DWI, 5S2, WN2, 1A2, DSAL none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected. ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 / 13 ) none detected ( 0 / 36 ) none detected ( 0 / 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) 3.6 I 2.20 -7.51 ( 6/13) 4.13 I 2.20 -7.68 ( 9136) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) none detected ( 0 / 13 ) none detected ( 0 / 36 ) none detected ( 0 I 13 ) none detected ( 0 / 36 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean (B) (B) Occurrences OEL, 10.2 mi, 79° none detected ( 0-/ 12) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 I 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 I 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 none detected ( 0 / 12 ) 0 ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity.
Table3.5 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Name of Facility: Diablo Canyon Power Plant Lower Limit Indicator with Medium or Pathway Type and Total of Highest Annual Mean Sampled Number of Detection<AJ Name, Distance, and Direction All Indicator Locations (Unit of Measure) Analyses Performed (LLD) Mean Range Mean (BJ Range<8>. Mussels ( pCi/kg) DCM, 0.2 mi, 270° DCM, PON, POS Gamma Isotopic (14) Mn-54 none detected ( 0 I 4 ) none detected ( 0 110 ) Fe-59 none detected ( 0 I 4 ) none detected ( 0 110 ) Co-58 none detected ( 0 I 4 ) none detected ( 0 110 ) Co-60 none detected ( 0 I 4 ) none detected ( 0 110 ) Zn-65 none detected ( 0 I 4 ) none detected ( 0 I 10 ) Zr-95 none detected ( 0 I 4 ) none detected ( 0 I 10 ) Nb-95 none detected ( 0 I 4 ) none detected ( 0 110 ) I-131 60 none detected ( 0 I 4 ) none detected ( 0 I I 0 ) Cs-134 60 none detected ( 0 I 4 ) none detected ( 0 110 ) Cs-137 80 none detected ( 0 I 4 ) none detected ( 0 110 ) Ba-140 none detected ( 0 I 4 ) none detected ( 0 I 10 ) La-140 none detected ( 0 I 4 ) none detected ( 0 I 10 ) Table Notation: ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean Range Occurrences 7C2, 4.7 mi, 124° none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity.
) Name of Facility: Diablo Canyon Power Plant Lower Limit Medium or Pathway Type and Total of Sampled Number of Detection(AJ (Unit of Measure) Analyses Performed (LLD) Fish ( pCi/kg) Gamma Isotopic ( 37) Mn-54 130 Fe-59 260 Co-58 ' 130 Co-60 130 Zn-65 260 Zr-95 Nb-95 I-131 Cs-134 130 Cs-137 150 Ba-140 La-140 Table Notation: Table3.6 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Indicator with Highest Annual Mean Name, Distance, and Direction All Indicator Locations Mean( BJ RangeCBJ Mean (BJ Range CB> 2Fl, 10.9 mi, 0° DCM, PON, POS, 2Fl, 7D3 none detected ( 0 I 1 ) none detected ( 0 129 ) none detected ( 0 I 1 ) none detected ( 0 I 29 ) none detected ( 0 / 1 ) none detected ( 0 I 29 ) none detected ( 0 / 1 ) none detected ( 0 I 29 ) none detected ( 0 / 1 ) none detected ( 0 129 ) none detected ( 0 I 1 ) none detected ( 0 129 ) none detected ( 0 I 1 ) none detected ( 0 / 29 ) none detected ( 0 I 1 )
- none detected ( 0 / 29 ) none detected ( 0 I 1 ) none detected ( 0 I 29 ) 3L50 I 31.5 ( 1/1) 15.2 I 6.64-31.5 c 3/29) none detected ( 0 I 1 ) . none detected ( 0 I 29 ) none detected ( 0 I 1 ) none detected ( 0 I 29 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean(BJ Range<BJ Occurrences 7C2,_ 4.7 mi, 124° none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 none detecfed ( 0 I 8 ) 0 none detected ( 0 I 8 ) 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity.
Name of Facility: -Medium or Pathway Sampled (Unit of Measure) Algae* ( pCi/kg) Table Notation: Table 3.7 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Diablo Canyon Power Plant L -Lower Limit Indicator with Type and Total of Highest Annual Mean , Number of DetectionCA> Name, Distance, and Direction Indicator Locations Analyses Performed (LLD) Mean'8> RangdB) Mean (BJ Range( BJ DCM, 0.2 miles, 270° DCM, 0.2 miles, 270° Gamma Isotopic (5) Mn-54 none detected ( 0 I 1 ) none detected ( 0 n ) Fe-59 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Co-58 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Co-60 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Zn-65 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Zr-95 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Nb-95 none detected ( 0 I 1 ) none detected (0 I 1 ) I-131 60 none detected ( 0 I 1 ) none detected ( 0 I 1 ) Cs-134 60* none detected ( 0 I 1 ) none detected ( 0 I 1 ) Cs-137 80 none detected ( 0 I 1 ) detected ( 0 I 1 ) Ba-140 none detected ( 0 I 1 ) none detected ( 0 I 1 ) La-140 none detected ( 0 I 1 )
- none detected ( 0 I 1 ) (A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Rep,ortable Mean Range Occurrences -7C2, 4.7 miles, .124° none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0
- none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g., (10/12) means 10 samples out of 12 collected showed activity.
- These samples are supplemental samples.
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Kelp* ( pCi/kg) Table Notation: Table3.8 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Diablo Canyon Power Plant Lower Limit Indicator with Type and Total of Highest Annual Mean Number of Analyses Detection<AJ Name, Distance, and Direction All Indicator Locations Performed (LLD)
- Range0> Mean <BJ Range< BJ DCM, 0.2 mi, 270° DCM, PON, POS Gamma Isotopic ( 15) Mn-54 I none detected ( 0 I 3 ) 1_1one detected ( 0 / 11 ) Fe-59 none detected ( 0 I 3 ) none detected ( 0 / 11 ) Co-58 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Co-60 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Zn-65 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Zr-95 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Nb-95 none detected ( 0 I 3 ) none detected ( 0 I 11 ) 1-131 60 .* none detected ( 0 I 3 ) none detected ( 0 I 11 ) Cs-134 60 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Cs-137 80 none detected ( 0 I 3 ) none detected ( 0 I 11 ) Ba-140 none detected ( 0 I 3 ) none detected ( 0 I 11 ) La-140 none detected ( 0 I 3 ) none detected ( 0 I 11 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean (BJ Range< BJ Occurrences 7C2, 4.7 mi, 124° none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 none detected ( 0 I 4 ) 0 -( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g., (10/12) means 10 samples out of 12 collected showed activity.
- These samples are supplemental samples.
Name of Facility: Diablo Canyon Power Plant Lower Limit Medium or Pathway Type and Total of Sampled Number of DetectionCAJ (Unit of Measure) Analyses Performed (LLD) Vegetative Crops ( pCi/kg) Gamma Isotopic ( 52 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 I-131 60 Cs-134 60 Cs-137 80 Ba-140 La-140 Table Notation: Table3.9 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Indicator with Highest Annual Mean Name, Distance, and Direction All Indicator Locations Mean( BJ Range( BJ Mean (BJ RangeCBJ 6Cl, 4.5 mi, 98° 3Cl, 5F2, 6Cl, 7Cl, 7El None Detected ( 0 I 4) None Detected ( 0 I 40) None Detected ( 0 I 4 ) None Detected (OJ 40) None Detected ( 0 I 4 ) None Detected ( 0 I 40) None Detected ( 0 I 4) None Detected ( 0 I 40) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4) None Detected ( 0 I 40) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40 ) None Detected ( 0 I 4 ) None Detected ( 0 I 40) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of All Control Locations Reportable Mean (BJ RangeCBJ Occurrences 7Gl, 16.8 mi, 115° None Detected ( 0 I 12 ) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12 ) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12 ) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 None Detected ( 0 I 12) 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (I 0/12) means 10 samp!e"s out of 12 collected showed activity.
Name ofFacility: Medium or Pathway Sampled (Unit of Measure) Milk ( pCi/Liter ) Table Notation: Table 3.10 Environmental Radiological Monitoring Program Summary Report Period: 1/1116 -12/31/16 Diab lo Canyon Power Plant Type and Total Number of Analyses Performed Iodine extraction ( 12 ) I Gamma Isotopic ( 12 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 Cs-134 Cs-137 Ba-140 La-140 I .. Total Sr 89/90 ( 12) I Lower Limit of Detection<AJ (LLD) 1 I 15 18 60 15 Indicator with Highest Annual Mean Name, Distance, and Direction Mean< BJ Rangece J Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable / Not Applicable Not Applicable Indicator Locations MeanCBJ RangecB> Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable Not Applicable (A) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) All Control Locations MeanCBJ
- RangeCBJ 5F2, 12.6 mi, 60° None Detected ( 0 I 12) None Detected ( 0 I 12 ) None Detected ( 0 / 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) None Detected ( 0 I 12) -* .. I Number of Reportable Occurrences 0 0 0 0 0 0 0 0 0 0 0 0 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity.
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Meat ( pCi/kg) Table Notation: Diablo Canyon Power Plant Type and Total Number of Analyses Performed Gamma Isotopic ( 8 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95
- I-131 Cs-134 Cs-137 Ba-140 La-140 Total Sr 89/90 ( 8 ) I Lower Limit of DetectionCA> (LLD) 60 60 80 Table3.ll , Environmental Radiological Monitoring Program Summary Report Period: 111116 -12/31/16 Indicator with Highest Annual Mean Name, Distance, and Direction MeanCBJ BCM, 1.5 mi, 331° none detected ( 0 / 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) All Indicator Locations . Mean CB> RangeCBJ BCM, J:5 mi, 331° none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis, e.g. (10/12) means 10 samples out of 12 collected showed activity. Location of Facility: All Control Locations San Luis Obispo, CA (County, State) MeanCBJ RangeCB> Number of Reportable Occurrences CCM, 37 mi, 328° none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected* ( 0 I 4 ) none detected ( 0 I 4 ) I 0 0 0 0 0 0 0 0 0 0 0 0 0
- 1 Name ofFacility: Medium or Pathway Sampled (Unit of Measure) Ocean Sediment ( pCi/kg dry ) ' -Table Notation: Table 3.12 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Diablo Canyon Power Plant Lower Limit Indicator with Type and Total of Highest Annual Mean -'N'umberof Detection<AJ Name, Distance, and Direction Indicator Locations* Analyses Performed (LLD) Mean( BJ RangtfB) Mean (BJ Range< Bl DCM, 0.2 mi, 270° DCM, 0.2 mi, 270° Gamma Isotopic ( i) Mn-54 150 none detected ( 0 I 1) none detected ( 0 I 1) Fe-59 300 none detected ( 0 I 1) none detected ( 0 I 1) Co-58 150 none detected ( 0 I 1) none detected ( 0 I 1) Co-60 150 none detected ( 0 I 1) none detected ( 0 I 1) Zn-65 300 none detected (0 I 1) none detected ( 0 I 1) Zr-95 300 none detected ( 0 I 1) none detected (.0 / 1) Nb-95 150 none detected ( 0 I 1) none detected ( 0 I 1) 1-131 none detected ( 0 I 1) none detected ( 0 I 1) Cs-134 150 none detected ( 0 I 1) none detected ( 0 I 1) Cs-137 180 none detected ( 0 I 1) none detected ( 0 I 1) Ba-140 600 none detected ( 0 I 1) none detected ( 0 I 1) La-140 150 none detected ( 0 I 1) none detected ( 0 I 1) Fe-55 ( 2) none detected ( 0 I 1) none detected ( 0 I 1) Ni-63 ( 2) none detected ( 0 I 1) none detected ( 0 I 1) Total Sr 89/90 ( 2 ) . none detected ( 0 I 1) none detected ( 0 I 1) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA (County, State) Number of Control Locations Reportable Mean(B) Range( BJ Occurrences 7C2, 4.7 mi, 124° none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 / 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 none detected ( 0 I 1) 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (I 0/12) means IO samples out of 12 collected showed activity. _
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Beach Sand ( pCi/kg dry ) Table Notation: Diablo Canyon Power Plant Table 3.13 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Lower Limit Indicator with Highest Type and Total of Annual Mean Number of Analyses Detection<Al Name, Distance, and Direction All Indicator Locations Performed (LLD) Mean< Bl Range<BJ Mean (BJ Range< Bl : -AVA, 7.3 mi, 109° A VA, MDO, PMO, CYA '* Gamma Isotopic ( 11 ) Mn-54 150 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Fe-59 300 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Co-58 150 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Co-60 .150 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Zn-65 300
- none detected ( 0 I 2 ) none detected ( 0 I 9 ) Zr-95 300 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Nb-95 150 none detected ( 0 I 2 ) none detected (0 I 9) .. I-131 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Cs-134 150 none detected ( 0 I 2) none detected ( 0 I 9 ) Cs-137 180 none detected ( 0 I 2 ) none detected ( 0 I 9 ) Ba-140 600 none detected ( 0 I 2 ) none detected ( 0 I 9 ) La-140 150 none detected ( 0 I 2 ) none detected ( 0 J 9 ) Fe-55 ( 11) none detected ( 0 I 2 ) none detected ( 0 I 9 ) Ni-63 ( 11) none detected ( 0 I 2 ) none detected ( 0 I 9 ) Total Sr 89/90 ( 11 ) none detected ( 0 I 2 ) none detected ( 0 I 9 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location of Facility: San Luis Obispo, CA 1 (County, State) Number of All Control Locations Reportable Mean (BJ Range< BJ Occurrences CBA, 28.5 mi, 330° ' none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none.detected ( 0 I 2)
- 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( O*/ 2) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 none detected ( 0 I 2 ) 0 ( B ) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified is indicated in parenthesis e.g. , (10/12) means 10 samples out of 12 collected showed activity.
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Groundwater ( pCi/Liter ) r Table Notation: Table3.14 Environmental Radiological Monitoring Program Summary Report Period: 1/1/16 -12/31/16 Diablo Canyon Power Plant . Type and Total Number of Analyses Performed Gamma Isotopic ( 7 ) Mri-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 I-131 Cs-134 Cs-137 Ba-140 La-140 !!ff;¢\'_:]:i ___ ;,A .,,:_oo.> ..* -Gross Beta I 7) Fe-55 ( 7' Ni-63 ( 7) Total Sr 89/90 ( 7 ) Tritium H-3 ( 7 ' Lower Limit of DeteCtion<A! (LLD) 15 30 15 15 30 30 15 15 15 18 60 15 . 4 400 Indicator with Highest Annual Mean Name, Distance, and Direction Mean<BJ Range<BJ 8S3, 0.3 mi, 145° none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( O I 4 ) none detected ( 0 I 4*) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) /it* "'Cit:? :tfu:. i-:*; 9.43 I 5.96-15.6 ( 4/4) none.detected ( 0 I 4) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) All Indicator Locations Mean (BJ Range<BJ 8S3, 0.3 mi, .145° none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detectea ( o I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) --* 9.43 I 5.96-15.6 ( 4/4) none detected ( 0 I 4 ) none detected ( 0 I 4 ) I none detected ( 0 I 4 ) none detected ( 0 I 4 ) ( A ) Unless specified, all required LLDs were met in accordance with Table 2 .3 .::. Location of Facility: San Luis Obispo, CA (County, State) All Control Lo-cations Mean<BJ Range<BJ WW2,. 0.6 mi, 70° none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 j _ , Cxe , ;'. 'h:'.':> i::k;@I -fr 5.3 I 4.93-5.68 (2/3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) Number of Reportable Occurrences 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g., (10/12) means .10 samples out of 12 collected showed activity.
Name of Facility: Medium or Pathway Sampled (Unit of Measure) Monitoring Wells ( pCi/Liter ) Table Notation: Table3.15 Environmental Radiological Monitoring Program Summary / Diablo Canyon Power Plant Type and Total Number of Analyses Performed Gamma Isotopic ( 19 ) Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 I-131 Cs-134 Cs-137 Ba-140 La-140 f.o."J<c :o'Oo ;;,;",,%-"l:.:f",:.,*'r::."";;; Gross Beta ( 19) Fe-55 ( 19) Ni-63 ( 19 l Total Sr 89/90 ( 19) Tritium H-3 ( 19 Lower Limit of Detection<Al (LLD) 15 30 15 15 30 30 15 15 15 18 60 , 15 . 4 \ 400 Report Period: 111/16 -12/31/16 Indicator with Highest Annual Mean Name, Distance, and Direction Range<Bl DYl, 0.03 mi, 77° none detected ( 0 I 4 ) none detected ( 0 I 4 l none detected ( 0 I 4 l none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 ) none detected ( 0 I 4 l none detected ( 0 I 4 )
- none detected ( 0 I 4 ) none detected ( 0 I 4 ) ;;;; :,_ ,,,_,; '> 44.6 I 28.2 to 62. 7 ( 4/4 ) none detected ( 0 I 4 ) I none detected ( 0 I 4 ) none detected ( 0 I 4 ) 4,540 I 3760 to 5190 ( 4/4) All Indicator Locations Mean (Bl DYl, GWl, GW2, OWl, OW2 none detected ( 0 I 16 ) none detected ( 0 I 16 l none detected ( 0 116 ) none detected ( 0 116 ) none detected J 0 I 16 ) none detected ( 0 I 16 ) none detected ( 0 I 16 ) none detected ( 0 I 16 ) none detected ( 0 116 ) none detected ( 0 I 16 ) none detected ( 0 I 16 ) none detected ( 0 I 16 ) h , :: " : , b 23.5 . I 6.71to62.7 .( 13/16) none detected ( 0 116 ) none detected ( 0 116 ) none detected ( 0 116 ) 3,070 I 1300 to 5190 ( 8/16) ( A ) Unless specified, all required LLDs were met in accordance with Table 2.3 Location ofFacility: San Luis Obispo, CA (County, State) All Control Locations Mean<Bl Range WW2, 0.6* mi, 70° none detected ( 0 I 3 ) none detected ( O I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) ,,.,,,,, -'n""'"'h""1>>i *-;;;,;,,s 5.3 I 4.93 to 5.68 ( 2/3 ) none detected ( 0 I 3 l none detected ( 0 I 3 ) none detected ( 0 I 3 ) none detected ( 0 I 3 ) Number of Reportable Occurrences 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ( B) Mean and range based upon detectable measurements only. Fraction of detectable measurements at specified locations is indicated in parenthesis e.g. , (10/12) means I 0 samples out of 12 collected showed activity. Note : Monitoring well tritium concentrations due to rain washout of an approved airborne discharge pathway from plant vents.
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4.0 ANALYSIS OF ENVIRONMENTAL RESULTS 4.1 REMP SAMPLING VARIAN CE I DEVIATIONS The DCPP Radiological Environmental Monitoring Program (REMP) allowed for deviations in the REMP sampling schedule "if samples were unobtainable due to hazardous conditions, seasonal unavailability, or malfunction of sampling equipment." Such deviations did not compromise the program's effectiveness and were normally anticipated for any radiological environmental monitoring program. The DCPP REMP included both required and supplemental samples. This section described the variances/deviations with sampling and described some of the supplemental sampling conducted during the year. 4.1.1 DIRECT RADIATION The ISFSI projects team loaded an additional 12 spent fuel dry casks onto the DCPP ISFSI pad from August 8th to November 12th, 2016. This was the sixth ISFSI loading campaign.
4.1.2 AIRBORNE RADIOACTIVITY The 2016 mean percent availability for on-site and off-site particulate and iodine (P&I) air samplers was 99.8 percent. In other words, all P&I air samplers were up and running 99.8 percent of the time. Less than 0.2 percent of run time could be attributed to equipment problems, filter exchange, or calibration processes. Specific 2016 air sampling run time deviations were as follows:
- 12.2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> of lost run time occurred at station MTl during the week of 4/27/16 due to a shorted power cord on the air sampler equipment Actual 2016 percent availabilities for each station were as follows: OS2 = 99.8 % lSl = 99.8 % 5FI = 100 % 701 = 99.9 % 8S1 = 99.8 % 8S2 = 99.8 % MTl = 99.7 % Airborne C-14 supplemental sampling was performed weekly at stations 8Sl (SE Sector), OS2 (NW Sector), and 5Fl (control station in San Luis Obispo) in 2016. General Engineering Labs (GEL) and DCPP REMP worked together to develop a method for sampling inorganic environmental airborne C-14 (as C02). It should be noted that C-14 lab data was reported in units ofuCi/m3 (not pCi/m3) within Appendix A. GEL has monitored C-14 samples from various locations around the US. In some instances a very slight negative bias has been observed in annual data sets. The bias was not enough to mask any true positive detection of C-14. GEL believes this bias may be the result of the sorbent picking up other chemical species in the field during the week long collection. These chemical species (possibly S02 or N02) could cause some quenching effects in the liquid scintillation analysis and varies by site location. This chemical interference created a net effect where some field cartridges were slightly lower in activity than laboratory blanks. The bias was less than the average two sigma method uncertainty and significantly less than the method average detection limit.
4.1.3 MARINE SAMPLES DCM supplemental quarterly intertidal algae samples were unavailable during first, second, and fourth quarters of 2016. DCM supplemental first quarter kelp sample was unavailable in 2016. All remaining 2016 marine samples were collected as scheduled (including allowable variation). The California Department of Fish and Game issued regulations prohibiting the collection of abalone along the central and southern coast of California. PG&E considers it unlikely that future collection of abalone will be allowed within the DCPP environs. The REMP has therefore ceased routine abalone sampling. Note that the sampling of abalone was previously performed and was supplemental to the REMP. 4.1.4 TERRESTRIAL SAMPLES All 2016 terrestrial samples were collected as scheduled (including allowable variation) with the following exceptions:
- Supplemental Blanchard Sheep Meat (BSM) and Blanchard Goat Meat (BGM) were not available and were not provided by the rancher during all of2016. Blanchard sheep and goats were not within 5 miles of the DCPP site in 2016. The changes in Blanchard ranch operations were due to the ongoing severe drought conditions along the central coast of California. 4.1.5 OCEAN SURFACE WATER, DRINKING WATER, AND GROUNDWATER All 2016 water samples were collected as scheduled (including allowable variation) with the following exceptions:
- Observation Well 02 (OW2) was dry and not collected during all four quarters of2016.
- Water Well 2 (WW2) sample was unavailable during the fourth quarter of2016 due to well pump equipment failure. Two new supplemental sample stations were briefly added to the REMP during 2016 in anticipation that site desalination water product would be provided to SLO county residents via a proposed water supply line. These two new sample stations were DSAL and INTK. With the 2016 announcement of DCPP 2025 closure, this proposed desalination supply line was cancelled and the two sample stations were discontinued.
4.1.6 REPLICATE SAMPLES Replicate sampling was conducted within the REMP for program strength and quality. A replicate sample is an additional sample (same matrix type and station) taken independently from the original scheduled REMP sample. The replicate sample collection is performed by a different person and shipped to GEL to ensure independent analysis result correlation and method consistency. Replicate samples were taken from:
- MDO -Beach Sand (3/ 10/ 16)
- POS -Intertidal Mussels ( 4/14/ 16)
- 5S2 -Drinking Water (12/6/16) The results of the replicate analyses were within expected correlation of routine sampling.
4.2 COMPARISON OF ACHIEVED LLDS WITH REQUIREMENTS For each analysis having an LLD requirement, criteria and process procedures were in place to achieve the calculated "a-priori" (before the fact) LLD. Meeting those process criteria satisfies the "a-priori" LLD requirements. The "a-posteriori" (after the fact) Minimum Detectable Concentration (MDC) for that analysis was also compared with the required "a-priori" (before the fact) LLD. Table 2.3 of this report list the required "a-priori" Lower Limits of Detection (LLDs) for environmental sample analyses required by the DCPP Radiological Environmental Monitoring Program. Occasionally an LLD may have been unachievable due to sampling process situations, such as hold times between sampling and analysis. All analyzed REMP samples met the specified "a-priori" LLD requirements in 2016. 4.3 COMPARISON OF RESULTS AGAINST REMP REPORTING LEVELS NRC notification was required whenever a Reporting Level listed in Table 2.4 of this document was exceeded. Reporting Levels were the environmental concentrations that relate to the ALARA design dose objectives of 10 CFR 50, Appendix I. It should be noted that environmental isotopic concentrations were averaged over the calendar quarter for the purposes of this comparison, and that Reporting Levels applied only to DCPP plant related effluent radioactivity. No REMP Reporting Levels were exceeded during this 2016 monitoring period.
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' "*" ;,< 1:: ,..-* '""', .,,:) .. t !" .. > '>.( :.J" (;> ** 1 ... J, 'J .-".,1 ** :-t.-.'1. .. i:i\, ,, ;, .. <.;' ... 4.4 DATA ANALYSIS BY MEDIA TYPE The REMP data for each media type is discussed below. A sample was considered to yield a "detectable measurement" when the resultant concentration exceeded the MDC for that analysis. 4.4.1 Direct Radiation (Environmental TLDs) Direct radiation was continuously measured at 32 locations surrounding DCPP using Panasonic UD-814 thermo-luminescent dosimeters (TLDs). These 32 locations were made up of29 indicator stations & 3 control stations. These station TLD dosimeters were distributed and collected every calendar quarter for processing. Methodology from ANSI/HPS NJ 3.37-2014 "Environmental Dosimetry -Criteria for System Design and Implementation" was used to evaluate and report the Env TLD data. Historical background baseline values for each station were established from 2004 to 2014 Env TLD data. DCPP "Standard Quarter TLD Results" were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, and man-made) at each station during the deployment period. Transient and lab storage background dose contributions were subtracted prior to reporting the "Standard Quarter TLD Results". Technically, these TLDs read out in units of milliroentgen. Because gamma radiation has a quality factor of approximately 1 for conversion from milliroentgen to millirem, the environmental TLD unit ofreporting was converted to millirem (mr) for consistency of unit reporting and ease of exposure communications. An evaluation of direct radiation measurements and member of public occupancy times within the site boundary indicated all federal criteria for member of public dose limits (I OCFR20.1301) were conservatively met. An evaluation of direct radiation measurements indicated all federal EPA 40CFR190 criteria were conservatively met. Comparing data from the 2016 DCPP Annual Radiological Effluent Release Report (ARERR), dose to a member of the public resulting from gaseous effluent releases at DCPP was an extremely small fraction of measured Env TLD dose. Therefore, it was concluded that gaseous effluents from DCPP had negligible impact on measured Env TLD values. The following chart reports the 2016 Env "Standard Quarter TLD Results" for each individual station. These individual station results were compared to their "Historical Quarterly Baseline" values which were calculated using individual station data from 2004 to 2014. Chart column reporting methodology was as follows:
- ND = Not Detected
- Quarterly Investigation Level Dose = Standard Quarter TLD result -Historical Quarterly Baseline; If.::: 6, report "ND". If> 6, report value (mrem).
- Annual Investigation Level Dose= Annual TLD Result -Historical Annual Baseline; If.:S 12, report "ND". If> 12, report value (mrem). If "Quarterly I Annual Investigation Level Dose" was detected, an evaluation of DCPP contribution was conducted and explained within this report.
DCPP Distance Station ID in miles ---*** -----MT! 0.2 WNl 0.2 OSI 0.1 SS! 0.4 6Sl o.s 8Sl o.s 8S2 I. I SS3 0.7 2F2 11.2 2Dl 6.9 4Dl 7.6 SF! 10.2 IA! l.6 702 7.6 7G2 17.3 7Cl 4.1 7Fl 10.8 OBI 3.6 7Dl 6.6 4Cl S.8 OS2 o.s ISi 0.4 2Sl 0.2 3Sl 0.4 4Sl o.s 7Sl 0.3 9Sl 0.4 !Cl 4.7 SCI 4.7 3Dl 6.2 6Dl 8.3 SF3 12.7 ND= Not Detected ____ 20_1 Quarterl)'.' REMP Env TLD Analysis Historical Quarterly Baseline (mrem) '---------21.S 12.7 20.7 23.1 14.0 17.1 21.0 19.2 14.1 12.8 11.9 17.S 12.0 16.6 17.6 18.1 17.1 10.2 11.2 10.6 17.7 17.4 16.8 20.9 19.S 18.S 22.6 13.2 16.4 12.8 14.1 17.2 2016 Standard Quarter TLD Results (mrem) Qtr 1 Qtr2 Qtr3 Qtr4 20.1 17.S 19.6 19.2 12.1 9.4 12.1 12.2 19.S 16.0 19.2 20.0 20.2 21.0 21.7 21.2 12.7 13.4 13.4 13.4 16.1 16.9 16.3 16.4 19.7 19.4 19.S 18.9 16.7 18.7 18.6 17.6 13.3 12.7 12.1 13.6 12.1 12.7 12.1 12.6 10.8 10.2 10.S 10.7 IS.9 IS.7 16.3 lS.S 13.3 10.8 10.6 11.S 14.6 18.1 IS.7 lS.6 17.1 16.4 18.0 17.S 16.4 IS.7 17.0 16.7 16.1 16.2 16.4 16.0 9.9 7.6 9.3 9.9 10.6 10.0 10.6 10.4 10.6 10.S 9.4 10.3 16.0 14.7 16.S 17.0 17.9 17.0 IS.4 15.8 14.9 IS.4 16.1 15.S 17.7 19.0 18.7 18.6 17.6 17.8 18.2 18.6 19.1 19.3 19.3 18.8 20.1 20.1 21.4 20.7 12.6 11.8 12.2 12.9 14.9 16.2 1 S.7 lS.8 11.7 12.4 12.2 12.2 13.0 14.9 14.1 13.1 IS.6 IS.S 16.0 16.2 2016 Quarterly Investigation Level Dose (mrem) Qtr 1 Qtr 2 Qtr 3 Qtr 4 ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND Historical Annual Baseline ,--------86.0 S0.8 82.8 92.4 S6.0 68.4 84.0 76.8 S6.4 Sl.6 47.6 70.0 48.0 66.4 70.4 72.4 68.4 40.8 44.8 42.4 70.8 69.6 67.2 83.6 78.0 74.0 90.4 S2.8 6S.6 Sl.2 S6.4 68.8 2016 Annual TLD Result --------76.4 4S.8 74.7 84.1 S2.9 6S.7 77.S 71.6 S 1.7 49.S 42.2 63.4 46.2 64.0 69.0 6S.8 64.7 36.7 41.6 40.8 64.2 66.1 61.9 74.0 72.2 76.S 82.3 49.S 62.6 48.5 SS.I 63.3 The 2016 AREOR historical baselines have been determined using ANSI/HPS N 13.37-2014 methodology and Env TLD station results from approximately 2004 to 2014. Quarterly Investigation Level Dose= Standard Quarter TLD result -Historical Quarterly Baseline. It:: 6, report "ND". If> 6, report value (mrem). Annual TLD Result= Qtr 1 + Qtr 2 + Qtr 3 + Qtr 4 Standard Quarter TLD Results Annual Investigation Level Dose= Annual TLD Result-Historical Annual Baseline. Ifs 12, report "ND". If> 12, report value (mrem). See DCPP Station ID Maps in Figure 2.1 and Figure 2.2 2016 Annual Investigation Level ------------ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND J This page intentionally left blank.
t The following graph illustrated overall trending of Env TLDs with regard to distance from the DCPP plant site. The Env TLD results were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, and man-made) during the deployment period to allow for trending. Inner ring, outer ring, special interest, and control stations were combined and averaged to obtain a single standard quarter value for each represented plot line. Inner and outer ring TLD averages remained within and trended with pre-operational Env TLD ranges. DCPP operations did not affect Env TLD results. : !: j
- Beginning of Start ISFSI Loact-+ !::: j pi.nt !-Fukushima Event : i 25.0 +-___ ..._ ___________________________ --I -Inner Ring Stations lnter*t Steticna -control Stations -Outer Ring Stations 20.0 IMor llllng *--051, WN1, 052, 1S1. 2S1, 3S1, 4S1, 551, 5S3, 851, 7S1, 851, 852, 9S1, and MT1 115.0 .,.._lnt.natl-*7F1,701, 702, 7G2, end 51'3 ai: E 10.0 5.0+-----+------------------t--+--------1 0.0 ---....... -----------.---...... ------...... ---...... ---OU!er Ring ltalono -1A1, 081, 1C1, 201, 301, 4C1, 5C1, 601. end 7C1 1980 1985 1990 1995 2000 2005 2010 2015 2020 Year t The following graph illustrated averaged Env TLD results from the southeast sector (stations 8S 1, 8S2) and northwest sector (stations OS I, OS2, OB 1 ). The Env TLD results were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, and man-made) during the deployment period to allow for trending. These sectors were chosen for graphical trending due to their historically high averaged wind directions and would therefore indicate the most gaseous effluent impact on environmental TLD results. The southeast and northwest sectors Env TLD averages trended with pre-operational Env TLD ranges. DCPP operations did not affect Env TLD results withln these sectors. Averaged control stations (2F2, 401, 5Fl) were provided for reference. 30.0 -----...... ------------------...--------l .,. Beginning of Start ISFSI Load-+ ;:::, !, plant operation
- r--:* Fukushima Event -SoulheHI Sector Average ! 25.0 .._ ___ ..__ _______________ _.__,,__ ____ ----t -Norlhw*I Sector Average -Control Si.tiona -. .. 11ector-8S1tnd8S2 115.0 Ir:: E 10.0 +-------tHl-------------------,___-------1 5.0 +-----------------------+---------I 0.0 -f-----.-""---.,....----.----..------.-----........ ----.-----! 1980 1985 1990 1995 2000 2005 2010 2015 2020 Yeer Direct Radiation (ISFSI Env TLDs) DCPP was licensed with an exclusion area boundary (i.e. site boundary) as an approximate 880 yard radius from U-1 Containment center. No permanent public access was permitted within the exclusion area. The unrestricted area (outside the site boundary) surrounding DCPP was sparsely inhabited out to five miles from the site (ref 2016 Land Use Census within Section 8). The direct radiation levels withjn a very small area surrounding the onsite ISFSI were elevated due to dry cask spent fuel storage. ISFSI pad TLD stations IS-1 through IS-8 were located adjacent to the ISFSI pad fencing (see map in Figure 2.2 of this report). The remaining onsite areas were not affected due to the ISFSI topographical elevation and placement within an onsite hillside which provided radiation shielding to the rest of the site.
- The first spent fuel dry cask canister was loaded onto the ISFSI pad in June 2009. The small increase in radiation levels at the ISFSI pad prior to the first spent fuel caruster load was due to storage of Radioactive Material (RAM) equipment in seatrains at the ISFSI pad prior to an outage. These seatrains of RAM were removed prior to the first load of spent fuel dry cask canisters.
- Dry cask loading Campaign# 2 occurred in May 2010.
- Dry cask loading Campaign# 3 occurred during the first quarter of2012 and ended on 3/17/2012.
- Dry cask loading Campaign# 4 occurred from August to October of2013.
- Dry cask loading Campaign #5 occurred from 5/1/15 to 7/3/15 with the addition of 8 dry casks onto the onsite ISFSI.
- Dry cask loading Campaign #6 occurred from 8/8/16 to 11/12/16 with the addition of 12 dry casks onto the onsite ISFSI.
The following chart reports the 2016 ISFSI Env "Standard Quarter TLD Results" for each individual station. These individual ISFSI station results were compared to the 2004 to 2014 "Historical Quarterly Baseline" and "Historical Annual Baseline" value at station SS 1. Station 5Sl was used for historical baseline purposes due to 5Sl close proximity to the ISFSI pad and 5S 1 pre-ISFSI historical data. Chart column reporting methodology was as follows:
- ND =Not Detected
- Quarterly Investigation Level Dose= Standard Quarter TLD result -Historical Quarterly Baseline; 6, report "ND". If> 6, report value (mrem).
- Annual Investigation Level Dose= Annual TLD Result -Historical Annual Baseline; 12, report "ND". If> 12, report value (mrem). "Quarterly and Annual Investigation Level Dose" was detected at ISFSI Env TLD stations IS-3 through IS-7 due to DCPP spent fuel dry casks stored on the ISFSI pad. The DCPP ISFSI Pad was located conservatively within the DCPP site boundary and was not located within the unrestricted area. An evaluation of direct radiation measurements outside the site boundary indicated all federal EPA 40CFRI 90 criteria for public dose limits were conservatively met. The DCPP ISFSI Pad was topographically elevated above most of the site and was built into a hillside. These characteristics shjelded onsite locations from ISFSI related radiation. No pennanent public access was permitted within the DCPP site boundary. Access occupancy surrounding the onsite ISFSI was restricted and controlled by DCPP Security. An evaluation of direct radiation measurements and member of public occupancy times within the site boundary indicated all federal criteria for member of public dose limits (1 OCFR20.1301) were conservatively met. The following pages also contain a picture of the ISFSI pad and a trend graph of onsite ISFSI pad averaged TLD results (IS-1 through IS-8). The Env TLD results were measurements of all environmental gamma radiation sources (cosmic, terrestrial, radon, and man-made) during the deployment period to allow for trending.
DCPP Distance Station ID in miles IS-I 0.3 IS-2 0.3 lS-3 0.3 IS-4 0.3 !S-S 0.3 IS-6 0.3 IS-7 0.3 IS-8 0.3 ND =Not Detected 2016 Historical Quarterly Baseline (mrem) 23.1 23.1 23.I 23.1 23.1 23.1 23.1 23.1 2016 Standard Quarter TLD Results (mrem) Qtr I Qtr 2 Qtr 3 Qtr 4 21.9 22.2 24.3 22.9 23.4 23.S 23.9 24.1 46.0 46.2 48.S S9.6 IOS.2 102.9 109.7 I 16.2 48.3 47.3 50.1 SO.S 44.4 42.4 46.0 44.0 38.2 35.0 40.S 48.0 22.6 18.1 23.6 24.0 2016 Quarterly Investigation Level Dose (mrem) Qtr I Qtr 2 Qtr 3 Qtr 4 ND ND ND ND ND ND ND ND 22.9 23.1 25.4 36.S 82.1 79.8 86.6 93.1 25.2 24.2 27.0 27.4 21.3 19.3 22.9 20.9 IS. I I 1.9 17.4 24.9 ND ND ND ND Historical Annual Baseline (mrem) 92.4 92.4 92.4 92.4 92.4 92.4 92.4 92.4 2016 Annual TLDResult (mrem) 91.3 94.9 200.3 434.0 196.2 176.8 161.7 88.3 2016 Annual Investigation Level Dose(mrem) ND ND 107.9 341.6 103.8 84.4 69.3 ND The 2016 AREOR historical baselines have been determined using ANSI!HPS NI3.37-2014 methodology and Env TLD station SS I results from approximately 2004 to 2014. The historical baseline from REMP Station SS I was used for the JSFSI stations due to it's onsite close proximity to ISFSI. Quarterly Investigation Level Dose= Standard Quarter TLD result-Historical Quarterly Baseline. If_-:: 6, report "ND". If> 6, report value (mrem). Annual TLD Result= Qtr I + Qtr 2 + Qtr 3 + Qtr 4 Standard Quarter TLD Results Annual Investigation Level Dose= Annual TLD Result -Historical Annual Baseline. If_-:: 12, report "ND". If> 12, report value (mrem). See DCPP Station lD Map in Figure 2.2 The Quarterly Investigation Level and Annual Investigation Level doses were due to spent fuel dry casks stored on the ISFSI pad. The DCPP ISFSI Pad is located conservatively within the DCPP site boundary and is not located within the unrestricted area. The DCPP ISFSI Pad is topographically elevated above most of the site and is built into a hillside. These characteristics shield onsite locations from ISFSI related radiation. No permanent public access is permitted onsite within the DCPP site boundary. Access occupancy surrounding the onsite ISFSI is restricted and controlled by DCPP Security. I OCFR20.130 I onsite member of public exposure and 40CFRI 90 unrestricted area exposure were evaluated. Dose limits were not exceeded and were conservatively met.
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55.0 50.0 45.0 40.0 I 135.0 "" E 30.0 25.0 20.0 15.0 2005 Onsite ISFSI Bo.-.dary TlO StatioM " ISFSI Loild Sbort fl . I WVJ1 II /\i , ! : 2010 2015 2020 2025 Year j-rsFSlSta<<>nsl 0netM tlFll ltdeM (AYt) : IS1, IS2, IS3, IS4, IS5,IS8, ts7,& IS6 2030 2035 4.4.2 Airborne Air particulate and radioiodine samples were collected weekly from six indicator stations (MTl, OS2, 1S1, 7D1, 8S 1, and 8S2) in the DCPP environs and at one control station (5Fl ). A total of 364 air particulate filters and 364 iodine cartridges were collected and analyzed as part of the normal REMP. Natural occurring gross beta activity was detected in every weekly air particulate sample collected from all indicator and control stations. Comparison of the data showed that the mean values of gross beta activities for the indicator stations were consistent with those obtained for the control station and historical trending. Normal background gross beta values ranged from 2.0E-3 to 7.lE-2 pCi/m3. Gamma isotopic analyses were performed on quarterly composites of the 13 air particulate filters from each of the REMP air stations. The midpoint date of the quarter was used to label the composite. A total of 364 REMP weekly charcoal cartridges were analyzed for I-131. Appendix A contains the individual air sampling station data results.
4.4.3 Drinking Water and Ocean Surface Water Drinking Water Drinking water samples were collected from indicator stations DWI, 5S2, WN2, 1 A2, and control station OEL. The samples were analyzed for gamma emitters, gross beta, tritium, total strontium 89/90, lron-55, and Nickle-63. No plant related radionuclides were detected in any of the 2016 drinking water samples. The results of the drinking water samples collected from both the indicator and control stations were individually listed in Appendix A. Ocean Surface Water Ocean surface water samples were collected monthly from indicator stations OUT, DCM, and control station 7C2. The samples were analyzed for gamma emitters, gross beta, tritium, total strontium 89/90, lron-55, and Nickle-63. No DCPP related radionuclides were detected in any of the 20 I 6 ocean surface water samples. The results of the surface water samples collected from both the indicator and control stations were individually listed in Appendix A.
4.4.4 Ingestion Marine Biological Samples Mussels were collected quarterly from stations DCM, 7C2, and POS. Mussels were collected annually from station PON (due to small mussel bed/availability at station PON). Fish samples were collected quarterly from stations DCM, PON, POS, 7C2 (control), and a local fish market (7D3 or 2FI ). Market fish samples were locally caught fish. Cs-137 was detected in fish at the following stations, dates, and concentrations:
- 2F 1 Market Fish
- 7D3 Market Fish
- 7D3 Market Fish 5119116 1/12/16 10/26/16 31.5 pCi/kg 6.64 pCi/kg 7.60 pCi/kg Pre-operational (pre-1985) DCPP REMP sampling observed measurable Cs-137 in fish and sediment due to atmospheric nuclear weapons testing fallout from the l 960's and l 970's. Finding Cs-137 in fish or sediment has been historically common in SLO County and the DCPP environs due to atomic weapons testing fallout. The historical fish Cs-137 concentrations have ranged from 3 to 14 pCi/kg. Two of the 2016 concentrations ofCs-137 detected in fish were within this range. This Cs-137 activity was also in agreement with the 1981 California Dept of Health Services Radiological Health Branch report and was considered part of SLO County background radioactivity. The preoperational 1981 ranges of Cs-137 observed in the Diablo cove (DCM) fish were 0 to 26 pCi/kg (decay corrected 0 to 12 pCi/kg in 2016). The 1981 ranges of Cs-137 observed in market fish were 0 to 3 8 pCi/kg (decay corrected 0 to 17 pCi/kg in 2016). The 1981 ranges of Cs-137 observed in ocean sediment were 0 to 93 pCi/kg (decay corrected 0 to 42 pCi/kg in 2016). The 1981 ranges of Cs-137 observed in soil were 0 to 298 pCi/kg (decay corrected 0 to 135 pCi/kg in 2016). Another recent background source of Cs-137 into California environs was due to the March 2011 Fukushima Event and subsequent jet stream isotopic dispersion to the United States. Because Cs-137 has an isotopic half-life of approximately 30 years, this contaminant should be detected in the DCPP environs for the next I 0 to 40 years depending on initial concentration and the detection sensitivity of the REMP analyses. Cs-137 has a longer environmental half-life in coastal seawaters than in open oceans due to input sources like rain watershed runoff and storm condition sediment re-suspension. There were no Cs-134 found in these fish samples. Cs-134 has a shorter isotopic half-life (approximately 2 years), would be indicative of nuclear reactor fission products, and would not be attributed to atomic weapons testing. Because Cs-134 was absent in the REMP fish analyses; fish Cs-137 concentrations were attributed to either pre-1980's nuclear weapons testing or Fukushima related fallout with sediment re-suspension into watershed/storm runoff. All other marine fish and mussel samples did not detect any DCPP related radionuclides in 2016. The results of the marine biological samples collected from both the indicator and control stations were individually listed in Appendix A.
Marine Aquatic Vegetation Supplemental marine aquatic kelp sampling was performed quarterly at REMP sample indicator stations DCM, PON, POS, and 7C2 (control). Supplemental intertidal algae sampling was performed quarterly at REMP sample station 7C2. Each sample was analyzed for gamma emitting radionuclides. No DCPP related isotopes were detected in 2016. The results of the marine aquatic vegetation samples collected from both the indicator and control stations were individually listed in Appendix A. Ocean Sediment and Recreational Beach Sampling Ocean sediment samples were collected annually from stations DCM and 7C2. Supplemental recreational beach sand samples were collected semi-annually from stations Avila Beach (AV A), Montana de Oro Spooner's Cove (MDO), Pismo Beach near pier (PMO), Cayucos Morro Strand State Beach (CY A), and Cambria Moonstone Beach (CBA). Each sample was analyzed for gamma emitting radionuclides, total strontium 89/90, lron-55, and Nickle-63. Only natural occurring isotopes where detected in the ocean sediment and recreational beach sand samples collected for 2016. The results were individually listed in Appendix A.
4.4.5 Vegetation (Food Crops) Samples of broad leaf vegetation were collected monthly (when available) from two indicator stations (7C1and7G1), and one control location (5F2). Supplemental samples were also collected quarterly from residence or commercial gardens at stations 3Cl, 6Cl, and 7E1. The samples were analyzed for gamma emitting radionuclides and for Iodine-131 on edible portions. No DCPP related isotopes were detected in 2016 vegetation. The results of the vegetation samples collected from both the indicator and control stations were individually listed in Appendix A.
4.4.6 Milk There are no milking animals (for human consumption) within 5 miles of the plant site. In substitution, the DCPP REMP required additional air sampling at stations 8S2 and 1S1. Supplemental samples of milk were collected monthly from Cal Poly Farm (station 5F2) due to Cal Poly dairy being the closest milk producer relative to the DCPP site and regardless of the availability of milk stations within 5 miles of the plant. The milk samples were analyzed for gamma emitting radionuclides, Jodine-131, and total strontium 89/90. No DCPP related radionuclides were detected in station 5F2 milk samples during 2016. The results of the milk samples were individually listed in Appendix A.
4.4.7 Meat Products Meat products were collected quarterly when available or provided from landowners. Blanchard cattle were allowed to graze on the northern lands around DCPP during 2016. Blanchard Cow Meat (BCM) was sampled quarterly for gamma emitting radionuclides and total strontium 89/90. Supplemental Blanchard Sheep Meat (BSM) and Blanchard Goat Meat (BGM) were not available and were not provided by the rancher during all of2016. Blanchard sheep and goats were not within 5 miles of the DCPP site in 2016. The changes in Blanchard ranch operations were due to the ongoing severe drought conditions along the central coast of California. Control station, free range, grass fed beef sampling was conducted of ranches outside the influence of DCPP. This meat was purchased by REMP personnel from the Whole Foods Market in SLO. The control station meat consisted of Hearst Ranch beef which is located approximately 37 miles north of the DCPP site. This REMP station code was CCM (Control Cow Meat). No DCPP related isotopes were detected in 2016 meats. The results of the meat samples were individually listed in Appendix A. _J 5.0 GROUND WATER MONITORING Diablo Canyon is committed to improving management of situations involving inadvertent radiological releases that get into onsite groundwater. This commitment reflects the nuclear industry's high standard of public radiation safety and protection of the environment. Trust and confidence on the part of local communities, California State, the NRC, and the general public is paramount to this commitment. Groundwater gradient studies of the DCPP ISFSI site and a general assessment of sub-regional hydro-geologic conditions indicates that groundwater (subsurface) flow beneath the Diablo Canyon power block is west to northwest toward the Pacific Ocean. Any groundwater present beneath the DCPP power block was not used as a source of drinking water. ---,
5.1 NEI 07-07 GROUNDWATER PROTECTION INITIATIVE -REPORTING 5.1.1 NEI 07-07 Objective 2.4 (b), Annual Reporting: "Document in the AREOR all on-site ground water sample results that are included in the REMP as described in the DCPP Offsite Dose Calculation Manual (ODCM)". Onsite groundwater monitoring points are described in the REMP and reported in this 2016 Annual Radiological Environmental Operating Report (AREOR) as follows: Observation Well 01 (OWl), Observation Well 02 (OW2), Drywell 115 (DYi), DCSF96-1 (8S3), Water Well 02 (WW2), Groundwater Well 1 (GWl), Groundwater Well 2 (GW2), and Diablo Creek Outlet (WN2) were used for Groundwater Protection Initiative (GPI) data reporting and were described in 2016 DCPP AREOR Table 2.1. 5.2 GROUNDWATER SAMPLING OVERVIEW: As part of the nuclear industry NEJ 07-07 Groundwater Protection Initiative (GPI), DCPP began sampling various ground water sources in 2006. These sources included onsite monitoring wells (OWl, OW2, DYl, & 8S3), an aquifer well (WW2), Diablo Canyon creek (5S2 & WN2), and a groundwater spring (1 A2). Two additional groundwater monitoring wells (stations GWl and GW2) were installed along the western side of the DCPP site on December 14, 2011. REMP began sampling these two new wells during the first quarter of2012. One groundwater aquifer well (WW2) was available within the plant site boundary. This well was located about 250 feet above and to the east of the power block. WW2 was sampled quarterly for gamma emitters, gross beta, tritium, total strontium 89/90, lron-55, and Nickle-63. No plant related radionuclides were detected in 2016. One shallow (approximately 70 feet deep) subsurface monitoring well (8S3) was located southeast at approximately 0.4 miles from the power block. 8S3 was sampled quarterly for gamma emitters, gross beta, tritium, total strontium 89/90, Iron-55, and Nickle-63. No plant related radionuclides were detected in 2016. Three shallow (approximately 37 to 73 feet deep) French drain system monitoring wells were located within the plant protected area and in close proximity to the containment structures, spent fuel pools, and radiologically controlled area auxiliary building. These French drain systems were labeled Observation Well 01 (OWl), Observation Well 02 (OW2), and Drywell 115 (DYl).
OW2 was not sampled in 2016 due to no water present in the well during the entire 2016 timeframe. There has been an ongoing severe drought in San Luis Obispo County which contributed to this dry well. French drain monitoring wells OWi and DYi contained low levels of tritium throughout 2016 due to rainwater washout of gaseous tritium exiting the plant vent system (via an approved effluents discharge path). These tritium concentrations were evaluated and were not due to a plant system leak or spill. This tritium was evaluated and attributed to the rain-washout of gaseous tritium exiting the plant vent system via an approved effluent discharge path. DCPP conducted rain-washout studies to document this phenomenon. These monitoring wells consisted of French drain systems that discharge into the associated monitoring well (OWl, OW2, or DYl ). Rain communicated with these French drain systems via building structure to ground interfaces. Once rain water entered the monitoring wells, the water remained stagnant until another rain event caused transport. Subsequent quarterly sampling routinely indicated consistent tritium values due to monitoring well stagnation. OWJ was connected to subsurface groundwater flow fissures and routinely trends with rain fall. DYl routinely experienced the highest rain-washout tritium concentrations due to its close proximity to the plant-vent gaseous discharge points. The specific ranges of tritium detected in these power block monitoring wells for 2016 were as follows:
- OWl -Observation Well 01 ( 1,300 to 2,330 pCi/L) 4 of 4 samples collected for tritium analysis.
- OW2 -Observation Well 02 ; no samples collected (well dry)
- DYl -Drywell 115 ( 3,760 to 5, 190 pCi/L) 4 of 4 samples collected for tritium analysis. No other DCPP related isotopes were detected in OWl, OW2, or DYl. As mentioned previously, two down-gradient monitoring wells were added to the REMP in 2012. Groundwater Well 1 (GWJ) was located between the DCPP protected area and the cliff boundary of the Pacific Ocean. This well opening was located at approximately 85' above sea level on the same plane as the power block and was approximately 85' deep. Groundwater Well 2 (GW2) was located between the DCPP protected area and the cliff boundary of the Pacific Ocean. This well opening was located at approximately 85' above sea level on the same plane as the power block and was approximately 85' deep. The specific ranges of tritium detected in GWl/GW2 monitoring wells for 2016 were as follows:
- GWI -Groundwater Well 1 ; none detected
- GW2 -Groundwater Well 2; none detected No other DCPP related isotopes were detected in GWI or GW2 in 2016. All other samples of groundwater at 5S2, IA2, and WN2 did not indicate the presence of tritium or any other DCPP related isotopes (only NORM isotopes were observed) in 2016. The results of groundwater sampling were individually listed in Appendix A. Rain washout of tritium is discussed within NRC Regulatory Issue Summary (RIS) 2008-003, "Return/Re-use of Previously Discharged Radioactive Effluents".
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CJ Approximate Boundary CJ Power Block 150 ** _. Groundwater Elevation Contour (feet above mean sea level) Monitoring Well 0 WaterWell
- French Drain Wells + Surface Water Sampling Location ----Piped Section NOTES: -Layers were digitized using satellite imagery for graphical representation. Locations are approximate -Groundwater elevations and contours from Cardno Entrix (June, 2012) -Satellite imagery taken on 5/10/2010 Reproduced under license with ArcGIS 10.1 250 500 1,000 1,500 P""11!'!!1iiiiil!!!!!!iiiiil!!"!!!!!"!!!!!"!!!!liiiiiiiiiiiiiiiiiiilFeet Figure 2: Site Layout Diablo Canyon Power Plant Avila Beach California Legend
- Surface Water Sampling Location Monitoring Well French Drain Infrastructure:
- French Drain Wells * * *
- Approximate French Drain Location Facility Infrastructure: Spent Fuel Storage Pools Auxiliary Building Sump CJ Deep Foundation I Power Block -Layers were digitized using satellite imagery for graphical representation. Locations are approximate *Satellite imagery taken on 5110/2010 Reproduced under license with ArcG1S 10.1 i'li t 0 25 50 100 150 200 250 Figure 3: Plant Layout Diablo Canyon Power Plant Avila Beach California 6.0 OLD STEAM GENERATOR STORAGE FACILITY MONITORING In accordance with the DCPP Offsite Dose Calculation Manual (ODCM), the Old Steam Generator Storage Facility (OSGSF) in-building sumps were inspected quarterly. lfwater was found in the sump of a vault containing plant equipment, the expectation was to sample that sump water and dispose of the water per plant protocols via an approved discharge pathway. For reference, the following equipment was placed into this OSGSF on the following dates:
- 3/2/08 (outage 2R14), four DCPP Unit Two (U-2) Steam Generators
- 2114109 (outage 1R15), four DCPP Unit One (U-1) Steam Generators
- 11/6/09 (outage 2Rl 5), one DCPP Unit Two (U-2) Reactor (Rx) Head
- 10/23/10 (outage 1R16), one DCPP Unit One (U-1) Rx Head As of 10/23/10, the OSGSF contains eight old Steam Generators and two old Rx Heads. No water was found in any OSGSF sumps during 2016 inspections.
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7.0 CROSS CHECK PROGRAM , I _ _J This page intentionally left blank.
8.0 DCPP LAND USE CENSUS This page intentionally left blank. ----------_ __J 2016 DCPP Land Use Census Diablo Canyon Power Plant (DCPP) was owned and operated by Pacific Gas & Electric (PG&E) Company. PG&E owned and provided environmental stewardship to approximately 14 miles of Pacific Ocean coastline and approximately 13,000 acres surrounding the 1,000 acre DCPP site boundary. The PG&E property extended roughly from Avila Beach to Montana de Oro State Park. DCPP was located approximately seven miles WNW of Avila Beach and approximately four miles SSE of Montana de Oro State Park. DCPP Radiological Environmental Monitoring Program (REMP) personnel conducted a Land Use Census (LUC) in the vicinity ofDCPP for 2016. The LUC was based on Nuclear Regulatory Commission (NRC) Regulatory Guide 4.8, "Environmental Technical Specifications for Nuclear Power Plants". The LUC also provided compliance with 10 CFR 50 Appendix I Section IV (B)(3); "Identify changes in the use of unrestricted areas (e.g., for agricultural purposes) to permit modifications in monitoring programs for evaluating doses to individuals from principal pathways of exposure". DCPP Program Directive CY2, "Radiological Monitoring and Controls Program" required performance of a LUC. DCPP procedure RP 1.ID 11, "Environmental Radiological Monitoring Procedure", required identification of the nearest milk animal, nearest residence, and the nearest broadleaf producing garden greater than 50 square meters (500 square feet) in each of the landward meteorological sectors within a radial distance of 8 kilometers (5 miles) of the Unit One Containment (CTMT) structure. A LUC was conducted at least once per year during the growing season (between Feb 15 and Dec 1) for the Diablo Canyon environs. The 2016 LUC was conducted via a helicopter over-flight and landowner telephone interviews. The helicopter over-flight was conducted on November 3rd, 2016. Telephone interviews were conducted September 8th through November 30th, 2016. Ten individual landowners or tenants were contacted. Milk: No milk animals were identified within the first 8 kilometers (5 miles) of any sector. Residences: The nearest residence, relative to all sectors, was a small trailer located in the NNW sector about 2.42 kilometers (1.5 miles) from the plant. One ranch worker occupied this BLANCHARD trailer approximately 1 day per week (midweek) during the year. A total of nineteen structures were identified within the 8-kilometer (5-mile) radius of the plant, which were confirmed or appear to have been occupied in 2016. Six abandoned structures were identified during the LUC. The nearest residence in each sector was summarized in Table 8. Gardens: , The LUC identified two household gardens greater than 50 square meters (500 square feet) that produced broadleafvegetation. The READ garden (REMP station 3Cl) was approximately 14 acre and located in the NNE sector at 7.13 kilometers (4.43 miles). The KOONZE garden (REMP station 6Cl) was approximately 500 square feet and located in the E sector at 7.43 kilometers (4.62 miles).
( MELLO managed a farm in the ESE sector along the southern site access road coastal plateau. The farm started at approximately 4.8 km (3 mi) and extended to 7 .8 km ( 4.8 mi) from the site. This commercial farm produced no broadleaf vegetation. The farm area was about 100 acres of land with rotational planting. Commercial crops consisted of about 100% cereal grass (oat hay) and straw grass. Less than 10 farm workers periodically occupied this area during the growing season. Additional Land Use: It should be noted that the term "site-boundary" referred to the area within a radius of approximately 1.2 km (0.74 mi) from the Unit One CTMT structure. The area outside the boundary" was also referred to as the "unrestricted area". Much of the area outside the site-boundary was routinely used for rotational cattle grazing by five separate cattle operations. For purposes of this land use census, the five cattle ranches were called BLANCHARD, SINSHEIMER, READ, ANDRE, and MELLO. BLANCHARD solely allowed cattle to graze within DCPP environs in 2016. BLANCHARD did not graze any goats or sheep within 8 km (5 miles) ofDCPP in 2016 due to extreme drought conditions in San Luis Obispo County. BLANCHARD's livestock were sold under the "Old Creek Ranch" label at local farmer's markets in 2016. "Old Creek Ranch" labeled meats were sampled quarterly by REMP personnel in 2016. The REMP station codes were BCM, BGM, and BSM (if available). SINSHEIMER had about 100 cattle outside the site-boundary in the NNE sector. These cattle were allowed to breed and about 90 calves were sold to mass market in 2016. READ had about 72 adult cattle and 68 calves outside the site-boundary in the NNE sector. About 68 yearling cattle were sold to mass market in 2016. ANDRE had about 45 cattle outside the site-boundary in the ENE sector. About 45 calves were sold to mass market in 2016. ANDRE did not slaughter any cattle in 2016 for personal consumption.* MELLO managed about 800 cattle outside the site-boundary in the E, ESE, and SE sectors. Harris Ranch Beef Corporation owned these cattle and sold all of them to mass market in 2016. MELLO did not slaughter any cattle in 2016 for personal consumption. Two landowners (JOHE and ANDRE) harvested wild game for personal consumption outside the site-boundary in the NNE, NE, and ENE sectors. This wild game consisted of approximately two deer per landowner. _ _J There was a California State Park Ranger Office in the NNW sector at 7.48 kilometers ( 4.65 miles) from the site. Approximately three State Parks staff personnel occupied this office from 1000 to 1500 each day (365 days per year). There was a public campground (Islay Creek Campground) located in the NNW sector at Montana de Oro State Park at 7.36 kilometers (4.57 miles). This campground was near Spooner's Cove. 2016. Approximately 715,000 people visited Montana de Oro State Park via day-use permit. Approximately 22,000 people spent the night at Islay Creek Campground .. There was public access to hiking trails at the north and south ends of the PG&E property in The Point Buchon Trail was located at the north end of PG&E property and had about 18,000 visitors in 2016. The trail traversed about 3 .5 miles of coastline from Coon Creek to Crowbar Canyon. The trail was open to the public for day hikes Thursday thru Monday from approximately 0800-1700. Two to three people from California Land Management occupied the trail head.booth near Coon Creek during operational days from 0700 to 1730. This trail was originally opened to the public on July 13, 2007. The Pecho Coast Trail was located at the south end of PG&E property and had about 3,000 visitors in 2016. The trail was approximately 3. 7 miles long and led from the Avila Beach DCPP entrance gate to the Point San Luis Lighthouse property and up the coastline to Rattlesnake Canyon. Access was controlled (via web-site reservation permission only) and conducted by docents. This trail was just slightly outside the 5 mile radius of the site. Pecho Coast Trail hikes were only available on Wednesdays (about 20 people) and Saturdays (about 40 people). Thirty to forty Port San Luis Lighthouse keepers occupied the lighthouse grounds on Tuesdays, Thursdays, and Saturdays from 0800-1600. Special events were also held at the lighthouse throughout the year (e.g. weddings, fundraisers, reunions, etc). The lighthouse property was owned by the Port San Luis Harbor District.
- Groundwater Protection Initiative (GPI) Review: There were no site construction activities or spills that warranted changes to GPI monitoring frequencies, monitoring locations, contract lab analytical capabilities, or analytical detection thresholds in 2016. There were no changes in on-site or near site groundwater usage. Groundwater beneath the site power block was not used* as a source of drinking water.
Additional On-site Information: The Old Steam Generator Storage Facility (OSGSF) was located within the site-boundary in the ENE sector (68.3 degrees) at 0.99 km (0.61 mi) from Unit One CTMT. . I The following plant equipment was placed into the Old Steam Generator Storage Facility for the duration of the plant operating license on the dates indicated below. Unit One old steam generators ( 4 total) : 2114/2009 Unit Two old steam generators ( 4 total) : 3/2/2008 Unit One old reactor head (1 total) : 10/23/2010. Unit Two old reactor head (1 total) : 11/6/2009 The on-site Independent Spent Fuel Storage Installation (ISFSI) pad was located within the boundary in the ENE sector (58.47 degrees) at 0.36 km (0.22 mi) from Unit One CTMT. DCPP loaded it's first ISFSI dry cask onto the pad on 6/23/2009. The sixth ISFSI (dry cask) loading campaign occurred from August 8th to November 12th, 2016. Twelve dry casks (six from U-1 and six from U-2) were added to the ISFSI pad in*2016. Table 8 summarizes the nearest residence location in each meteorological sector. The Land Use Figure shows the location of the residences and gardens in the vicinity ofDCPP.
Table 8 Land Use Census 2016 Distance in Kilometers (and Miles) from the center point ofU-1 CTMT Nearest Milk Animal, Residence, and Vegetable Garden c 22Yi Degree (a) Nearest Nearest Residence Nearest Radial Sector Milk Animal Residence Azimuth Vegetable km (mi) Degree Garden km (mi) NW None 5.76 (3.58) 325.2 None NNW None 2.42 (1.5) (b) 332.0 None N None None -None NNE None* 5.18 (3.22) 21.5 7.13 (4.4) (c) NE None 7.93 (4.93) 35.33 None ENE None 7.15 (4.45) 63.8 None E None 5.97 (3.71) 89..9 7.43 (4.6)(d) ESE None 5.42 (3.37) 122.0 5.31 (3.3) (e) SE None None -None Table Notation: (a) Sectors not shown contain no land (other than islets not used for the purposes indicated in this table) beyond the site-boundary. (b) BLANCHARD trailer is the residence used for critical receptor calculations. (c) The READ (station 3Cl) vegetable garden is located in the NNE sector and located at the 20.24 azimuth degree. There is also a limited use residence at this location. (d) The KOONZE (station 6Cl) vegetable garden is located in the E sector and located at the 97.52 azimuth degree. There is also a full time residence at this location. (*) The MELLO garden is the commercial farm along the westward side of the site access road; however, it does not produce broadleafvegetation. This farm extends from 4.8 km to'7.8 km (3 to 4.8 miles) from the plant.
NW NNW Pacific Ocean UNITS 1 AND2 DIABLO CANYON SITE D Gardens or Farm * .A Residences 5 Mile Radius J SE N I 0 1 2 3 . 4 5 SCALE IN MILES Units 1 and 2 Diablo Canyon Power Plant Land Use Census.
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27.09 W* 0.1 3.5 u 11.5 18.4 24.2 Joint Frequency Distribution Wind Speed and Wind Direction Diablo Canyon Power Plant 10 Meter Level Year 2016 N 3.71 2.60 2.40 5.13 2.57 8.47 3.26 2.63 5.41 s Calms excluded. Rings drawn at 10% intervals. E Wind Speed ( Miles Per Hour) Wind flow is FROM the directions shown. 3.20% of observations were missing. PERCENT OCCURRENCE: Wind Speed (Miles Per Hour) PERCENT OCCURRENCE: Wind Speed (Miles Per Hour) LOWER BOUND OF CATEGORY LOWER BOUND OF CATEGORY JIB fil u Q.2 ill 18.4 ID JIB fil 3.5 6.9 ill lM m N 0.32 0.34 0.30 0.'09 0.00 0.00 s 1.37 0.89 0.34 0.03 0.00 0.00 NNE 0.64 0.63 0.43 0.16 0.02 0.00 SSW 2.13 1.00 0.11 0.01 0.00 0.00 NE 0.91 1.01 1.02 0.49 0.19 0.08 SW 0.71 1.35 0.51 0.00 0.00 0.00 ENE 0.81 0.61 0.80 0.34 0.03 0.00 WSW 0.92 0.49 1.41 0.46 0.00 0.00 E 1.08 0.75 0.40 0.17 0.00 0.00 w 1.08 1.29 0.39 1.65 0.74 0.09 ESE 1.84 1.65 1.05 0.59 0.00 0.00 WNW 1.18 2.93 4.10 4.22 2.49 1.29 SE 2.05 3.46 2.09 0.75 0.11 0.00 NW 1.32 3.21 5.90 7.79 4.46 4.42 SSE 1.83 2.33 0.89 0.18 0.13 0.05 NNW 0.64 1.61 1.66 1.39 0.39 0.19 TOTAL OBS= 8784 MISSING OBS= 281 CALM OBS= 0 r This page intentionally left blank.
33.04 w 0.1 3.5 1.9 11.5 18.4 24.2 Joint Frequency Distribution Wind Speed and Wind Direction Diablo Canyon Power Plant 10 Meter Level Year 2012-2016 N 3.72 3.01 1.98 4.10 1.59 8.24 1.86 2.35 5.70 s Calms excluded. Rings drawn at 10% intervals. E Wind Speed ( Miles Per Hour) Wind flow is FROM the directions shown. 3590 observations were missing. PERCENT OCCURRENCE: Wind Speed (Miles Per Hour) PERCENT OCCUR RE CE: Wind Speed (Miles Per Hour) LOWER BOUND OF CATEGORY LOWER BOUND OF CATEGORY QIB QJ. u ill lM QIB Q.l u fil lM N 0.71 0.71 0.54 0.18 0.01 0.00 s 1.43 0.74 0.15 0.03 0.00 0.00 NNE 0.89 0.83 0.47 0.07 0.01 0.00 SSW 1.32 0.47 0.06 0.01 0.00 0.00 NE 1.03 1.27 1.06 0.29 0.06 0.02 SW 0.85 0.55 0.18 0.01 0.00 0.00 ENE 1.02 0.80 0.81 0.37 0.01 0.00 WSW 0.81 0.42 0.41 0.12 0.00 0.00 E 1.09 0.56 0.25 0.08 0.00 0.00 w 1.03 1.05 0.33 0.45 0.18 0.02 ESE 1.85 1.10 0.71 0.42 0.03 0.00 WNW 1.64 2.91 3.93 4.88 2.86 1.54 SE 2.61 2.66 2.08 0.75 0.11 0.02 w 1.53 3.60 6.83 10.22 6.40 4.46 SSE 2.08 2.10 1.08 0.25 0.12 0.06 NNW 0.91 1.88 2.35 1.63 0.47 0.15 TOTAL OBS = 40258 MISSING OBS= 3590 CALM OBS= 0 This page intentionally left blank.
10.0 *REFERENCES -1. DCPP Interdepartmental Administrative Procedure (IDAP), RPl.IDl 1, "Environmental Radiological Monitoring Procedure." 2. NRC Radiological Assessment Branch Technical Position on Environmental Monitoring, Revision 1, November 1979 (NUREG-1301) 3. DCPP Program Directive, CY2, "Radiological Monitoring and Controls Program." 4. NEI 07-07, "Industry Ground Water Protection -Final Guidance Document, August 2007 5. NRC Regulatory Issue Summary 2008-03, "Return/Re-use of Previously Discharged Radioactive Effluents"; February 13, 2008 6. "Groundwater Gradient Analysis", by Entrix Corporation, March 2010 7. "Groundwater Gradient Analysis", by Cardno/Entrix Corporation, June 2012 8. Diablo Canyon Power Plant Site Conceptual Model Report, by ERM July 30, 2014 9. ANSI/RPS N13.37-2014, "Environmental Dosimetry -Criteria for System Design and Implementation" ( r This page intentionally left blank. ---
APPENDIX A ANALYTICAL SAMPLE RESULTS This page intentionally left blank.
2016 DCPP REMP Analysis Results Appendix A OS2 North Gate -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OS2 North Gate(388797012) -AC 2-Jan-16 _ lodine-131 2.19E-03_, I.87E-03 4.51E-03 pCi/m3 OS2 North Gate(389309014) -AC 9-Jan-16 lodine-131 2.33E-04 8.54E-03 5.11 E-03 pCi/m3 OS2 North Gate(389808014) -AC 16-Jan-16 lodine-131 -4.14E-04
- 8.22E-03 4.86E-03 pCi/m3 OS2 North Gate(390230011) -AC 23-Jan-16 lodine-131 -3.03E-03 1.36E-02 8.38E-03 pCi/m3 OS2 North Gate(390692013) -AC 30-Jan-16 lodine-131 -1.99E-04 1.04E-02 6.30E-03 pCi/m3 OS2 North Gate(391237015) -AC 6-Feb-16 lodine-131 2.64E-03 9.56E-03 5.43E-03 pCi/m3 -OS2 North Gate(391592014) -AC 13-Feb-16 lodine-131 3.59E-03 1.12E-02 6.29E-03 oCi/m3 OS2 North Gate(392027011) -AC 20-Feb-16 lodine-131 3.20E-03 9.39E-03 5.96E-03 pCi/m3 OS2 North Gate(392482011) -AC 27-Feb-16 lodine-131 4.46E-03 1.80E-02 1.04E-02 pCi/m3 OS2 North Gate(392952006) -AC 5-Mar-16 lodine-131 -4.07E-03 1.05E-02 7.14E-03 pCi/m3 OS2 North Gate(393384011) -AC 12-Mar-16 lodine-131 3.95E-05 1.00E-02 5.83E-03 pCi/m3 OS2 North Gate(393781014) -AC 19-Mar-16 lodine-131 -2.12E-03 1.09E-02 7.99E-03 oCi/m3 OS2 North Gate(394076011) -AC 26-Mar-16 . lodine-131 2.66E-03 9.66E-03 5.48E-03 pCi/m3 OS2 North Gate(394752011) -AC 2-Apr-16 lodine-131 -4.87E-03 1.10E-02 7.76E-03 pCi/m3 OS2 North Gate(395261011) -AC 9-Apr-16 lodine-131 -5.21E-03 1.01E-02 8.37E-03 pCi/m3 OS2 North Gate(395795011) -AC 16-Apr-16 lodine-131 7.00E-03 1.38E-02 9.80E-03 pCi/m3 OS2 North Gate(396244011) -AC 23-Aor-16 lodine-131 -2.64E-03 6.60E-03 4.56E-03 pCi/m3 OS2 North Gate(396779011) -AC 30-Apr-16 lodine-131 7.63E-04 9.58E-03 5.83E-03 pCi/m3 OS2 North Gate(397288011) -AC 7-May-16 lodine-131 4.87E-03 1.34E-02 7.67E-03 pCi/m3 OS2 North Gate(397706011) -AC 14-Mav-16 lodine-131 3.75E-03 9.25E-03 5.18E-03 pCi/m3 OS2 North Gate(398215011) -AC 21-May-16 lodine-131 1.62E-03 1.16E-02 6.71 E-03 pCi/m3 OS2 North Gate(398542011) -AC 28-May-16 lodine-131 -5.02E-03 1.65E-02 1.10E-02 pCi/m3 OS2 North Gate(3990160'11) -AC 4-Jun-16 lodine-131 -8.38E-03 1.02E-02 8.38E-03 pCi/m3 OS2 North Gate(399503011) -AC 11-Jun-16 lodine-131 4.12E-03 1.33E-02 7.76E-03 pCi/m3 OS2 North Gate(399964011) -AC 18-Jun-16 lodine-131 1.75E-03 1.07E-02 6.31E-03 pCi/m3 OS2 North Gate(400310011) -AC 25-Jun-16 lodine-131 2.31 E-03 1.20E-02 7.17E-03 -pCi/m3 OS2 North Gate(401018011) -AC 2-Jul-16 lodine-131 -1.78E-04 1.23E-02 7.50E-03 pCi/m3 OS2 North Gate(401598012) -AC 9-Jul-16 lodine-131 -6.09E-04 1.29E-02 7.87E-03 pCi/m3 OS2 North Gate(402089013) -AC 16-Jul-16 lodine-131 2.22E-04 1.69E-02 1.00E-02 pCi/m3 OS2 North Gate(402578011) -AC 23-Jul-16 lodine-131 5.63E-03 9.53E-03 5.28E-03 pCi/m3 OS2 North Gate(403120011) -AC 30-Jul-16 lodine-131 -3.16E-03 1.40E-02 1.04E-02 pCi/m3 OS2 North Gate(40367 4011) -AC 6-Aug-16 lodine-131 -8.76E-04 1.42E-02 8.81E-03 pCi/m3 OS2 North Gate(404132011)-AC 13-Aug-16 lodine-131 7.05E-03 1.76E-02 9.89E*03 pCi/m3 OS2 North Gate(404555013) -AC 20-Aug-16 lodine-131 -6.07E-03 1.43E-02 9.64E-03 pCi/m3 OS2 North Gate(405070013) -AC 27-Aug-16 lodine-131 5.01E-04 1.02E-02 6.04E-03 pCi/m3 OS2 North Gate(405461011) -AC 3-Sep-16 lodine-131 1.54E-06 9.19E-03 5.45E-03 pCi/m3 OS2 North Gate(405943011) -AC 10-Sep-16 lodine-131 9.95E-05 1.02E-02 6.37E-03 pCi/m3 OS2 North Gate(406484011) -AC 17-Sep-16 lodine-131 -6.77E-04 8.08E-03 4.75E-03 pCi/m3 OS2 North Gate(406978011) -AC 24-Sep-16 lodine-131 -5.12E-04 1.35E-02 7.88E-03 pCi/m3 OS2 North Gate(407538011) -AC 1-0ct-16 lodine-131 2.28E-03 1.01 E-02 5.52E-03 pCi/m3_ OS2 North Gate(408013011) -AC 8-0ct-16 lodine-131 5.07E-04 1.03E-02 5.95E-03 pCi/m3 OS2 North Gate(408711011) -AC 15-0ct-16 lodine-131 -3.45E-03 7.23E-03 5.00E-03 pCi/m3 OS2 North Gate(409217011) -AC 22-0ct-16 lodine-131 -2.52E-03 1.07E-02 6.81 E-03 pCi/m3 Page 1 of 92 2016 DCPP REMP Analysis Results Appendix A , OS2 North Gate(409738011) -AC 29-0ct-16 lodine-131 -1.38E-03 9.97E-03 6.24E-03 pCi/m3 OS2 North Gate(410322011) -AC 5-Nov-16 lodine-131 -1.44E-03 1.52E-02 9.03E-03 pCi/m3 OS2 North Gate(410821011)-AC 12-Nov-16 lodine-131 8.01E-05 8.45E-03 4.93E-03 pCi/m3 OS2 North Gate(411348011) -AC 19-Nov-16 lodine-131 5.81E-04 1.15E-02 7.15E-03 oCi/m3 . OS2 North Gate(411620011)-AC 26-Nov-16 lodine-131 3.05E-03 9.06E-03 5.01E-03 pCi/m3 OS2 North Gate( 412193009) -AC 3-Dec-16 lodine-131 -1.74E-03 1.31 E-02 8.16E-03 pCi/m3 OS2 North Gate(412746012) -AC 10-Dec-16 lodine-131 5.35E-03 5.82E-03 1.17E-02 pCi/m3 OS2 North Gate(413294013) -AC 17-Dec-16 lodine-131 -5.14E-03 1.00E-02 7.28E-03 pCi/m3 OS2 North Gate(413412011) -AC 24-Dec-16 lodine-131 4.95E-03 9.14E-03 4.94E-03 oCi/m3 OS2 North Gate(413697013) -AC 31-Dec-16 lodine-131 1.30E-03 6.95E-03 3,95E-03 pCi/m3 OS2 North Gate -Air Carbon 14 Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OS2 North Gate(388797014) -AC14 2-Jan-16 Carbon-14 -2.67E-07 4.95E-07 2.90E-07 uCi/m3 OS2 North Gate(389309017) -AC14 9-Jan-16 Carbon-14 -4.05E-07 5.65E-07 3.30E-07 uCi/m3 OS2 North Gate(389808017) -AC14 16-Jan-16 Carbon-14 1.05E-07 6.08E-07 3.64E-07
- uCi/m3 OS2 North Gate(390230008) -AC14 23-Jan-16 Carbon-14 -2.28E-07 6.64E-07 3.92E-07 uCi/m3 OS2 North Gate(390692017) -AC14 30-Jan-16 Carbon-14 -2.42E-08 5.50E-07 3.27E-07 uCi/m3 OS2 North Gate(391237009) -AC14 6-Feb-16 Carbon-14 -8.48E-08 5.49E-07 3.25E-07 uCi/m3 OS2 North Gate(391592017)-AC14 13-Feb-16 Carbon-14 1.21E-07 5.45E-07 3.27E-07 uCi/m3 OS2 North Gate(392027008) -AG14 20-Feb-16 Carbon-14 2.94E-07 6.02E-07 3.64E-07 uCi/m3 OS2 North Gate(392482008) -AC14 27-Feb-16 Carbon-14 2.52E-07 5.67E-07 3.42E-07 uCi/m3 OS2 North Gate(392952017) -AC14 5-Mar-16 Carbon-14 -1.88E-07 5.39E-07 3.18E-07 uCi/m3 OS2 North Gate(393384008) -AC14 12-Mar-16 Carbon-14 1.54E-08 5.19E-07 3.09E-07 uCi/m3 OS2 North Gate(393781017)-AC14 19-Mar-16 Carbon-14 -1.82E-07 5.64E-07 3.33E-07 uCi/m3 OS2 North Gate(394076008) -AC14 26-Mar-16 Carbon-14 2.11E-08 5.34E-07 3.18E-07 uCi/m3 OS2 North Gate(394752008) -AC14 2-Aor-16 Carbon-14 3.10E-07 4.92E-07 2.99E-07 uCi/m3 OS2 North Gate(395261008) -AC14 9-Apr-16 Carbon-14 -3.55E-07 5.80E-07 3.39E-07 uCi/m3 OS2 North Gate(395795008) -AC14 16-Apr-16 Carbon-14 -4.09E-07 5.23E-07 3.05E-07 uCi/m3 OS2 North Gate(396244008) -AC14 23-Apr-16 Carbon-14 -5.01E-07 5.78E-07 3.35E-07 uCi/m3 OS2 North Gate(396779008) -AC14 30-Apr-16 Carbon-14 -2.28E-07 5.39E-07 3.17E-07 uCi/m3 OS2 North Gate(397288008) -AC14 7-Mav-16 Carbon-14 -5.58E-08 5.75E-07 3.42E-07 uCi/m3 OS2 North Gate(397706008) -AC14 14-Mav-16 Carbon-14 -2.63E-07 5.77E-07. 3.39E-07 uCi/m3
- OS2 North Gate(398215008) -AC14 21-May-16 Carbon-14 -2.18E-07 5.11E-07 3.01 E-07 uCi/m3 OS2 North Gate(398542008) -AC14 28-May-16 Carbon-14 -1.69E-07 5.89E-07 3.48E-07 uCi/m3 OS2 North Gate(399016008) -AC14 4-Jun-16 Carbon-14 -2.27E-07 6.08E-07 3.58E-07 uCi/m3 OS2 North Gate(399503008) -AC14 11-Jun-16 Carbon-14 -2.60E-07 5.65E-07 3.32E-07 uCi/m3 OS2 North Gate(399964008) -AC14 18-Jun-16 Carbon-14 1.27E-07 5.33E-07 3.19E-07 uCi/m3 OS2 North Gate(400310008) -AC14 ' 25-Jun-16 Carbon-14 -3.68E-07 6.27E-07 3.67E-07 uCi/m3 OS2 North Gate(401018008)-AC14 2-Jul-16 Carbon-14 -1.62E-07 5.00E-07 2.95E-07 uCi/m3 OS2 North Gate(401598014)-AC14 9-Jul-16 Carbon-14 -7.87E-08 5.57E-07 3.30E-07 uCi/m3 OS2 North Gate(402089015) -AC14 16-Jul-16 Carbon-14 -8.10E-08 5.78E-07 3.43E-07 uCi/m3 OS2 North Gate(402578008) -AC14 23-Jul-16 Carbon-14 -1.19E-07 6.45E-07 3.82E-07 uCi/m3 OS2 North Gate(403120008) -AC14 30-Jul-16 Carbon-14 2.78E-08 6.31E-07 3:77E-07 uCi/m3 OS2 North Gate(403674008) -AC14 6-AUQ-16 Carbon-14 -2.78E-08 5.54E-07 3.30E-07 uCi/m3 Page 2of 92
2016 DCPP REMP Analysis Results Appendix A OS2 North Gate(404132008) -AC14 13-Aug-16 Carbon-14 2.51E-07 5.64E-07 3.40E-07 uCi/m3 OS2 North Gate(404555015)-AC14 20-Aug-16 Carbon-14 2.76E-07 5.14E-07 3.11E-07 uCi/m3 OS2 North Gate(405070015) -AC14 27-Aug-16 Carbon-14 1.35E-07 5.46E-07 3.27E-07 uCi/m3 OS2 North Gate(405461008) -AC14 3-Seo-16 Carbon-14 -1.68E-07 5.68E-07 3.36E-07 uCi/m3 OS2 North Gate(405943008) -AC14 10-Sep-16 Carbon-14 -1.90E-08 5.71E-07 3.40E-07 uCi/m3 OS2 North Gate(406484008) -AC14 17-Sep-16 Carbon-14 -2.10E-07 5.93E-07 3.50E-07 uCi/m3 OS2 North Gate(406978008) -AC14 24-Sep-16 Carbon-14 1.52E-07 6.36E-07 3.81E-07 uCi/m3 OS2 North Gate(407538008) -AC14 1-0ct-16 Carbon-14 -1.88E-07 5.52E-07 3.26E-07 uCi/m3 OS2 North Gate(408013008) -AC14 8-0ct-16 Carbon-14 -1.50E-07 5.53E-07 3.27E-07 uCi/m3 OS2 North Gate( 408711008) -AC 14 15-0ct-16 Carbon-14 -2.27E-07 5.37E-07 3.16E-07 uCi/m3 OS2 North Gate(409217008) -AC14 22-0ct-16 Carbon-14 -5.27E-08 5.73E-07 3.40E-07 uCi/m3 OS2 North Gate(409738008) -AC14 29-0ct-16 Carbon-14 2.07E-08 5.70E-07 3.40E-07 uCi/m3 OS2 North Gate(410322008) -AC14 5-Nov-16 Carbon-14 3.01E-07 5.33E-07 3.23E-07 uCi/m3 OS2 North Gate(410821008) -AC14 12-Nov-16 Carbon-14 -5.44E-08 5.55E-07 3.29E-07 uCi/m3 OS2 North Gate(411348008) -AC14 19-Nov-16 ' Carbon-14 1.17E-07 6.42E-07 3 .. 85E-07 uCi/m3 OS2 North Gate(411620008) -AC14 26-Nov-16 Carbon-14 2.24E-07 5.45E-07 3.28E-07 uCi/m3 OS2 North Gate(412193011)-AC14 3-Dec-16 Carbon-14 2.77E-07 5.60E-07 3.38E-07 uCi/m3 OS2 North Gate(412746013)-AC14 10-Dec-16 Carbon-14 1.54E-07 6.19E-07 3.71E-07 uCi/m3 OS2 North Gate(413294015) -AC14 17-Dec-16 Carbon-14 -9.38E-08 5.40E-07 3.20E-07 uCi/m3 OS2 North Gate(413412008)-AC14 24-Dec-16 Carbon-14 -4.40E-07 6.42E-07 3.75E-07 uCi/m3 OS2 North Gate(413697015)-AC14 31-Dec-16 Carbon-14 1.96E-07 5.03E-07 3.03E-07 uCi/m3 OS2 North Gate -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units OS2 North Gate(388797013) -AP 2-Jan-16 BETA 2.91E-02 1.48E-03 7.77E-03 pCi/m3 OS2 North Gate(389309007) -AP 9-Jan-16 BETA 1.76E-02 1.61E-03 8.04E-03 pCi/m3 OS2 North Gate(389808007) -AP 16-Jan-16 BETA 1.09E-02 1.62E-03 7.77E-03 pCi/m3. OS2 North Gate(390230001) -AP 23-Jan-16 BETA 2.60E-02 1.59E-03 9.00E-03 pCi/m3 OS2 North Gate(390692006) -AP 30-Jan-16 BETA 1.95E-02 1.67E-03 8.06E-03 pCi/m3 OS2 North Gate(391237005) -AP 6-Feb-16 BETA 3.66E-02 1.75E-03 8.41E-03 pCi/m3 OS2 North Gate(391592007) -AP 13-Feb-16 BETA 2.96E-02 1.55E-03 9.38E-03 pCi/m3 OS2 North Gate(392027001) -AP 20-Feb-16 BETA 3.11E-02 1.60E-03 8.49E-03 pCi/m3 OS2 North Gate(392482001) -AP 27-Feb-16 BETA 3.09E-02 8.88E-03 pCi/m3 OS2 North Gate(392952013) -AP 5-Mar-16 BETA 1.27E-02 1.66E-03 7.79E-03 pCi/m3 OS2 North Gate(393384001) -AP -12-Mar-16 BETA 1.28E-02 1.52E-03 8.99E-03 pCi/m3 OS2 North Gate(393781007) -AP 19-Mar-16 BETA 1.42E-02 1.59E-03 8.37E-03 pCi/m3 OS2 North Gate(394076001) -AP -26-Mar-16 BETA 8.10E-03 1.59E-03 8.43E-03 pCi/m3 OS2 North Gate(394752001) -AP 2-Apr-16 BETA 2.66E-02 1.77E-03 9.51E-03 pCi/m3 OS2 North Gate(395261001) -AP 9-Apr-16 BETA 2.94E-02 1.72E-03 8.21E-03 pCi/m3 OS2 North Gate(395795001) -AP 16-Apr-16 BETA. 2.48E-02 1.58E-03 8.65E-03 pCi/m3 OS2 North Gate(396244001) -AP 23-Apr-16 BETA 1.14E-02 1.58E-03 9.04E-03 pCi/m3 OS2 North Gate(396779001) -AP 30-Apr-16 BETA 1.14E-02 1.62E-03 9.71 E-03 oCi/m3 OS2 North Gate(397288001) -AP 7-Mav-16 BETA 1.21E-02 1.64E-03 8.24E-03 pCi/m3 OS2 North Gate(397706001) -AP 14-Mav-16 BETA 9.53E-03 1.54E-03 9.40E-03 pCi/m3 OS2 North Gate(398215001) -AP 21-Mav-16 BETA 3.63E-03 1.57E-03 8.98E-03 oCi/m3 Page 3 of92 2016 DCPP REMP Analysis Results Appendix A OS2 North Gate(398542001) -AP 28-May-16 BETA 1.59E-02 1.61E-03 1.02E-02 pCi/m3 OS2 North Gate(399016001) -AP 4-Jun-16 BETA 6.47E-03 1.50E-03 9.45E-03 pCi/m3 OS2 North Gate(399503001) -AP 11-Jun-16 BETA 8.85E-03 1.64E-03 7.69E-03 pCi/m3 OS2 North Gate(399964001) -AP , 18-Jun-16 BETA 9.50E-03 1.66E-03 7.22E-03 pCi/m3 OS2 North Gate(400310001)-AP 25-Jun-16 BETA 1.17E-02 1.90E-03 1.0?E-02 pCi/m3 OS2 North Gate(401018001)-AP 2-Jul-16 BETA 1.23E-02 1.57E-03 8.41E-03 pCi/m3 OS2 North Gate(401598013) -AP 9-Jul-16 BETA -4.86E-04 1.67E-03 .9.56E-03 pCi/m3 OS2 North Gate(402089014) -AP 16-Jul-16 BETA 3.08E-03 1.60E-03. 1.01E-02 pCi/m3 OS2 North Gate(402578001) -AP 23-Jul-16 BETA 1.10E-02 1.64E-03 8.58E-03 pCi/m3 OS2 North Gate(403120001) -AP 30-Jul-16 BETA 3.37E-03 1.63E-03 9.17E-03 pCi/m3 OS2 North Gate(40367 4001) -AP 6-Aug-16 BETA 6.99E-03 1.63E-03 9.31E-03 pCi/m3 OS2 North Gate(404132001) -AP 13-Aug-16 BETA 7.92E-03 1.60E-03 8.58E-03 pCi/m3 OS2 North Gate(404555014) -AP 20-Aug-16 BETA 1.60E-02 1.68E-03 1.0?E-02 pCi/m3 OS2 North Gate(405070014) -AP 27-Aug-16 BETA 1.78E-02 1.61E-03 9.10E-03 pCi/m3 OS2 North Gate(405461001) -AP 3-Sep-16 BETA 1.99E-02 1.60E-03 9.09E-03 pCi/m3 OS2 North Gate( 405943001) -AP 10-Sep-16 BETA 1.86E-03 9.?0E-03 pCi/m3 OS2 North Gate(406484001) -AP 17-Sep-16 BETA 2.49E-02 1.81E-03 8.87E-03 pCi/m3 OS2 North Gate(406978001) -AP 24-Sep-16 BETA 2.47E-02 1.57E-03 8.80E-03 pCi/m3 OS2 North Gate(407538001) -AP 1-0ct-16 BETA 1.82E-02 1.61E-03 8.87E-03 pCi/m3 OS2 North Gate(408013001) -AP 8-0ct-16 BETA 3.31E-02 1.51E-03 9.78E-03 pCi/m3 OS2 North Gate(408711001)-AP 15-0d-16 BETA 1.33E-02 1.66E-03 9.51E-03 pCi/m3 OS2 North Gate(409217001)-AP 22-0ct-16 BETA 2.82E-02 1.68E-03 1.02E-02 pCi/m3 OS2 North Gate(409738001) -AP 29-0ct-16 BETA 8.35E-03 1.80E-03 1.02E-02 pCi/m3 OS2 North Gate(410322001) -AP 5-Nov-16 BETA 2.84E-02 1.71E-03 -3.79E-03 pCi/m3 OS2 North Gate(410821001)-AP 12-Nov-16 *BETA 3.95E-02 1.69E-03 9.28E-03 pCi/m3 OS2 North Gate(411348001) -AP 19-Nov-16 BETA 1.20E-02 2.03E-03 1.10E-02 pCi/m3 OS2 North Gate(411620001)-AP 26-Nov-16 BETA 1.30E-02 1.39E-03 9.04E-03 pCi/m3 OS2 North Gate(412193010)-AP 3-Dec-16 BETA 2.17E-02 1.60E-03 8.80E-03 pCi/m3 OS2,North Gate(412746001)-AP 10-Dec-16 BETA 1.28E-02 1.61E-03 2.62E-03 pCi/m3 OS2 North Gate(413294014)-AP 17-Dec-16 BETA 3.43E-02 1.71 E-03 6.83E-03 pCi/m3 OS2 North Gate(413412002)-AP 24-Dec-16 BETA 3.23E-02 1.96E-03 7.60E-03 pCi/m3 OS2 North Gate(413697014) -AP 31-Dec-16 BETA. 1.92E-02 1.50E-03 7.69E-03 pCi/m3 OS2 North Gate(396298001) -AP 13-Feb-16 Beryllium-? 1.12E-01 9.89E-03 1.87E-02 pCi/m3 OS2 North Gate(396298001 ).-AP 13-Feb-16 Cesium-134 -1.16E-04 5.11E-04 3.31 E-04 pCi/m3 OS2 North Gate(401387001)-AP 14-May-16 Cesium-134 9.28E-06 5.52E-04 3.78E-04 pCi/m3 OS2 North Gate(408429001) 13-Aug-16 Cesium-134 -1.52E-05 6.37E-04 3.82E-04 pCi/m3 OS2 North Gate(414245002) -AP 12-Nov-16 Cesium-134 1.49E-04 6.41E-04 3.53E-04 pCi/m3 OS2 North Gate(396298001) -AP 13-Feb-16 Cesium-137 -2.04E-04 4.51E-04 3.11E-04 pCi/m3 OS2 North Gate(401387001)-AP 14-May-16 Cesium-137 2.28E-04 6.46E-04 3.38E-04 pCi/m3 OS2 North Gate(408429001) -AP 13-Aug-16 Cesium-137 -1.42E-04 3.17E-04 2.43E-04 pCi/m3 OS2 North Gate(414245002) -AP 12-Nov-16 Cesium-137 1.86E-04 5.51 E-04 3.02E-04 pCi/m3 Page 4 of 92 2016 DCPP REMP Analysis Results Appendix A 1A2 Blanchard Spring -Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 BETA -1.39E+OO 3.53E+OO 2.06E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 BETA 3.54E+OO 3.86E+OO 2.48E+OO pCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 BETA 3.73E-01 2.76E+OO 1.67E+OO pCi/l 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 BETA -5.31E-01 2.45E+OO 1.45E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Barium-140 -4.86E-01 9.02E+OO 6.35E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Barium-140 -2.80E+OO 7.61 E+OO 9.46E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Barium-140 -5.82E+OO 9.99E+OO 7.90E+OO pCi/L 1A2 Blanchard Spring(410366002) 8-Nov-16 Barium-140 -1.98E+OO 8.09E+OO 4.98E+OO pCi/l 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Cesium-134 -2.52E-01 2.02E+OO 1.22E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Cesium-134 9.64E-01 1.96E+OO 1.19E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Cesium-134 -2.46E-02 1.89E+OO 1.29E+OO pCi/L 1A2 Blanchard Sprinq(410366002) -DW 8-Nov-16 Cesium-134 -9.38E-02 1.58E+OO 9.70E-01 oCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Cesium-137 -5.55E-01 2.12E+OO 1.29E+OO pCi/l 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Cesium-137 -8.78E-01 1.78E+OO 1.35E+OO pCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Cesium-137 4.78E-01 2.03E+OO 1.18E+OO pCi/l 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 Cesium-137 3.77E-01 1.49E+OO 2.63E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Cobalt-58 -2.32E-01 1.81E+OO 1.09E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Cobalt-58 6.39E-01 1.84E+OO 1.10E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Cobalt-58 -1.73E-01 1.96E+OO 1.20E+OO pCi/L 1A2 Blanchard Sprinq(410366002) -DW . 8-Nov-16 Cobalt-58 -3.87E-01 1.38E+OO 8.93E-01 . pCi/l 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Cobalt-60 1.59E-01 1.93E+OO 1.12E+OO pCi/l 1A2 Blanchard Sorinq(395275003) -DW 12-Apr-16 Cobalt-60 2.37E-01 1.82E+OO 1.05E+OO oCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Cobalt-60 4.65E-01 1.84E+OO 1.06E+OO pCi/L 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 Cobalt-60 8.05E-02 1.48E+OO 8.63E-01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 .lodine-131 2.98E-01 5.12E-01 3.45E-01 pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 lodine-131 1.97E-01 7.19E-01 4.29E-01 pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 lodine-131 2.51E-02 6.55E-01 3.92E-01 pCi/L 1A2 Blanchard Spring(410366002)-DW 8-Nov-16 lodine-131 -3.81 E-01 4.91E-01 4.88E-01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 lron-55 -6.57E-01 4.24E+01 2.83E+01 pCi/L 1A2 Blanchard Sprinq(395275003) -DW 12-Aor-16 lron-55 1.06E+02 1.32E+02 1.03E+02 pCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 lron-55 5.68E+OO 6.78E+01 4.96E+01 pCi/L 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 lron-55 -1.01E+01 7.66E+01 5.60E+01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 lron-59 -4.21 E-01 3.97E+OO 2.45E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 lron-59 -5.78E-01 3.50E+OO 2.10E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 lron-59 -1.26E-01 3.94E+OO 2.39E+OO pCi/l 1A2 Blanchard Spring(410366002)-DW 8-Nov-16 lron-59 2.51E-01 3.01E+OO 1.73E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Lanthanum-140 -1.35E+OO 3.28E+OO 2.18E+OO pCi/L 1A2 Blanchard DW 12-Apr-16 Lanthanum-140 -5.75E-01 2.27E+OO 1.44E+OO pCi/l 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Lanthanum-140 8.45E-01 3.77E+OO 2.20E+OO pCi/L 1A2 Blanchard Sorinq(410366002) -DW 8-Nov-16 Lanthanum-140 -1.21E+OO 2.58E+OO 1.78E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Manganese-54 4.90E-01 1.99E+OO 1.17E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Manganese-54 2.52E-01 1.80E+OO 1.07E+OO pCi/L 1A2 Blanchard Sprinq(403102001) -DW 2-Aug-16 Manqanese-54 -3.02E-01 1.73E+OO 1.05E+OO pCi/L Page 5 of 92 2016 DCPP REMP Analysis Results Appendix A 1A2 Blanchard Spring(410366002)-DW 8-Nov-16 Manganese-54 -1.55E-02 1.43E+OO 8.71E-01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Nickel-63 -3.67E+OO 2.69E+01 1.59E+01 pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Nickel-63 1.85E+01 3.82E+01 2.35E+01 pCi/L 1A2 Blanchard Sorina(403102001) -DW 2-Aug-16 Nickel-63 -2.69E+01 3.38E+01 1.91 E+01 pCi/L 1A2 Blanchard Spring(410366002) -DW 8-Nov-16 , Nickel-63 2.47E+OO 2.92E+01 1.75E+01 pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Niobium-95 1.72E+OO 2.26E+OO 1.60E+OO pCi/L 1A2 Blanchard SprinQ(395275003) -DW 12-Apr-16 Niobium-95 1.56E+OO 1.92E+OO 1.39E+OO pCi/L 1A2 Blanchard Spring(403102001) -DW 2-Aug-16 Niobium-95 9.08E-01 2.18E+OO 1.79E+OO pCi/L 1A2 Blanchard Sorina(410366002) -DW 8-Nov-16 Niobium-95 -3.14E-01 1.66E+OO 1.03E+OO pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Total Strontium -3.33E-02 1.70E-01 9.95E-02 pCi/L 1A2 Blanchard Sprina(395275003) -DW 12-Apr-16 Total Strontium 3.81 E-02 1.46E-01 8.93E-02 pCi/L 1A2 Blanchard Spring(403102001)-DW 2-Aug-16 Total Strontium -7.88E-02 1.67E-01 9.57E-02 pCi/L 1A2 Blanchard Spring(410366002)-DW 8-Nov-16 Total Strontium 7.69E-02 7.16E-01 4.33E-01 pCi/L 1A2 Blanchard SprinQ(389804003) -DW 19-Jan-16 Tritium 1.63E+01 2.59E+02 1.55E+02 pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Tritium -3.07E+01 2.97E+02 1.76E+02 pCi/L 1A2Blanchard SprinQ(403102001) -DW ' 2-Aug-16 Tritium -1.48E+OO 2.63E+02 1.56E+02 pCi/L 1A2 Blanchard SprinQ(410366002) -DW 8-Nov-16 Tritium 2.83E+01 2.98E+02 1.79E+02. pCi/L 1A2 Blanchard Spring(389804003) -DW 19-Jan-16 Zinc-65 2.98E+OO 4.31 E+OO 3.01E+OO pCi/L 1A2 Blanchard Sorina(395275003) -DW 12-Aor-16 Zinc-65 -2.02E+OO 3.71E+OO 2.88E+OO pCi/L 1A2 Blanchard Sprina(403102001) -DW 2-Aug-16 Zinc-65 2.63E+OO 4.08E+OO 2.84E+OO pCi/L 1A2 Blanchard Sprina(410366002) -DW 8-Nov-16 Zinc-65 1.25E+OO ' 2.55E+OO 2.05E+OO pCi/L 1 A2 Blanchard Sprina(389804003) -DW 19-Jan716 Zirconium-95 -1.65E+OO 2.94E+OO 2.01E+OO pCi/L 1A2 Blanchard Spring(395275003) -DW 12-Apr-16 Zirconium-95 1.05E-01 3.18E+OO 1.89E+OO pCi/L 1A2 Blanchard SprinQ(403102001)-DW 2-AUQ-16 Zirconium-95 -1.36E+OO 3.40E+OO 2.30E+OO pCi/L 1A2 Blanchard SprinQ(410366002) -DW 8-Nov-16 Zirconium-95 1.05E+OO 2.85E+OO 1.71E+OO pCi/L 1S1 Wastewater Pond -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 1S1 Wastewater Pond(388797010) -AC 2-Jan-16 lodine-131 6.11E-04 1.05E-02 6.16E-03 pCi/m3 1S1 Wastewater Pond(389309013)-AC 9-Jan-16 lodine-131 -3.28E-03 8.29E-03 5.85E-03 pCi/m3 1 S1 Wastewater Pond(389808013) -AC 16-Jan-16 lodine-131 -8.51E-04 7.68E-03 pCi/m3 1 S1 Wastewater Pond(390230012) -AC 23-Jan-16 lodine-131 -1.13E-03
- 7.66E-03 5.31E-03 pCi/m3 1S1 Wastewater Pond(390692012)-AC 30-Jan-16 lodine-131 -4.29E-03 9.48E-03 6.36E-03 pCi/m3 1S1 Wastewater Pond(391237014) -AC 6-Feb-16 lodine-131 1.58E-03 9.65E-03 5.42E-03 pCi/m3 1S1 Wastewater Pond(391592013) -AC 13-Feb-16 lodine-131 8.90E-05 1.03E-02 6.21 E-03 pCi/m3 1 S1 Wastewater Pond(392027012) -AC 20-Feb-16 lodine-131 -1.15E-03 1.09E-02 6.70E-03 pCi/m3 1 S1 Wastewater Pond(392482012) -AC 27-Feb-16 lodine-131 5.09E-03 1.02E-02 7.44E-03 pCi/m3 1S1 Wastewater Pond(392952005) -AC ' 5-Mar-16 lodine-131 -2.47E-03 1.04E-02 7.88E-03 pCi/m3 1S1 Wastewater Pond(393384012)-AC ' 12-Mar-16 lodine-131 2.16E-03 9.81E-03 5.67E-03 pCi/m3 1S1 Wastewater Pond(393781013)-AC 19.-Mar-16 lodine-131 9.25E-03 1.43E-02 1.51E-02 pCi/m3 1S1 Wastewater Pond(394076012) -AC 26-Mar-16 lodine-131 6.16E-03 1.43E-02 8.35E-03 pCi/m3 1 S1 Wastewater Pond(394752012) -AC 2-Apr-16 lodine-131 -5.03E-03 1.10E-02 7.49E-03 pCi/m3 1S1 Wastewater Pond(395261012)-AC 9"Apr-16 lodine-131 8.70E-04 8.46E-03 4.86E-03 pCi/m3 1 S1 Wastewater Pond(395795012) -AC 16-Apr-16 lodine-131 1.60E-03 .1.46E-02 8.50E-03 pCi/m3 1S1 Wastewater Pond(396244012) -AC 23-Apr-16 lodine-131 -2.24E-03 7.26E-03 5.46E-03 pCi/m3 Page 6 of92 2016 DCPP REMP Analysis Results Appendix A 1S1 Wastewater Pond(396779012)-AC 30-Apr-16 lodine-131 2.32E-03 1.09E-02 6.10E-03 pCi/m3 181 Wastewater Pond(397288012) -AC 7-May-16 lodine-131 -7.57E-03 1.49E-02 1.25E-02 pCi/m3 1S1 Wastewater Pond(397706012) -AC 14-May-16 lodine-131 9.90E-04 1.05E-02 6.04E-03 pCi/m3 1S1 WastewaterPond(398215012)-AC 21-May-16 lodine-131 -2.42E-04 9.85E-03 5.80E-03 -pCi/m3 1 S1 Wastewater Pond(398542012) -AC 28-May-16 lodine-131 4.31 E-04 1.07E-02 6.42E-03 pCi/m3 1S1 Wastewater Pond(399016012) -AC 4-Jun-16 lodine-131 -4.89E-04 8.97E-03 5.31E-03 pCi/m3 1 S1 Wastewater Pond(399503012) -AC 11-Jun-16 lodine-131 7.80E-04 9.57E-03 5.48E-03 pCi/m3 1 S1 Wastewater Pond(399964012) -AC 18-Jun-16 lodine-131 4.98E-03 1.14E-02 6.47E-03 .. pCi/m3 1S1 Wastewater Pond(400310012)-AC 25-Jun-16 lodine-131 3.74E-03 1.14E-02 6.37E-03 pCi/m3 1S1 Wastewater Pond(401018012) -AC 2-Jul-16 lodine-131 1.74E-03 1.29E-02 7.53E-03 pCi/m3 1S1 Wastewater Pond(401598010) -AC 9-Jul-16 lodine-131 7.82E-04 1.58E-02 9.12E-03 pCi/m3 181 Wastewater Pond(402089011) -AC 16-Jul-16 lodine-131 -3.64E-03 8.22E-03 5.86E-03 pCi/m3 1 S1 Wastewater Pond(402578012) -AC 23-Jul-16 lodine-131 -5.03E-04 9.83E-03 5.94E-03 pCi/m3 181 Wastewater Pond(403120012) -AC 30-Jul-16 lodine-131 -6.07E-04 1.51 E-02 9.00E-03 pCi/m3 181 Wastewater Pond(403674012) -AC 6-Aug-16 lodine-131 4.39E-03 1.47E-02 8.03E-03 pCi/m3 1S1 Wastewater Pond(404132012) -AC 13-Aug-16 lodine-131 -1.78E-03 1.14E-02 7.15E-03 pCi/m3 181 Wastewater Pond(404555011) -AC 20-Aug-16 lodine-131 * -1.68E-03 7.05E-03 4.57E-03 pCi/m3 1 S1 Wastewater Pond(405070011) -AC 27-Aug-16 lodine-131 -9.97E-04 7.42E-03 4.64E-03 pCi/m3 181 Wastewater Pond(405461012) -AC 3-8ep-16 lodine-131 8.52E-04 7.48E-03 4.17E-03 oCi/m3 1 S1 Wastewater Pond(405943012) -AC 10-Sep-16 lodine-131 5.81 E-04 7.58E-03 4.29E-03 pCi/m3 1 S1 Wastewater Pond(406484012) -AC 17-Sep-16 lodine-131 4.07E-04 9.25E-03 5.47E-03 pCi/m3 1 S1 Wastewater Pond(406978012) -AC 24-Sep-16 lodine-131 1.02E-03 8.64E-03 pCi/m3 1S1 Wastewater Pond(407538012) -AC 1-0ct-16 lodine-131 6.25E-03 1.33E-02 7.41E-03 pCi/m3 --1S1 Wastewater Pond(408013012) -AC ' 8-0ct-16 lodine-131 -5.57E-04 1.05E-02 6.37E-03 pCi/m3 1S1 Wastewater Pond(408711012) -AC 15-0ct-16 lodine-131 -2.39E-03 6.84E-03 4.57E-03 pCi/m3 1S1 Wastewater Pond(409217012) -AC 22-0ct-16 lodine-131 5.44E-04 8.80E-03 5.06E-03 pCi/m3 1 S1 Wastewater Pond(409738012) -AC 29-Qct-16 lodine-131 3.72E-03 9.39E-03 5.53E-03 pCi/m3 1S1 Wastewater Pond(410322012) -AC 5-Nov-16 lodine-131 -2.32E-03 1.00E-02 7.26E-03 pCi/m3 1S1 Wastewater Pond(410821012) -AC 12-Nov-16 lodine-131 7.01E-04 7.83E-03 4.39E-03 pCi/m3 1S1 Wastewater Pond( 411348012) -AC 19-Nov-16 lodine-131 2.16E-03 1.34E-02 7.56E-03 pCi/m3 1S1 Wastewater Pond(411620012) -AC 26-Nov-16 lodine-131 1.48E-03 7.18E-03 3.99E-03 pCi/m3 1S1 Wastewater Pond(412193007) -AC 3-Dec-16 lodine-131 -1.84E-04 1.12E-02 6.64E-03 pCi/m3 1 S1 Wastewater Pond(412746014) -AC 10-Dec-16 lodine-131 1.16E-03 8.21 E-03 4.66E-03 pCi/m3 1S1 Wastewater Pond(413294011) -AC 17-Dec-16 lodine-131 -1.03E-03 1.10E-02 6.50E-03 pCi/m3 1S1 Wastewater Pond(413412012) -AC 24-Dec-16 lodine-131 -1.53E-03 7.87E-03 4.83E-03 pCi/m3 1S1 Wastewater Pond(413697011) -AC 31-Dec-16 lodine-131 -1.05E-03 8.05E-03 5.40E-03 pCi/m3 1 S1 Wastewater Pond -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 1 S1 Wastewater Pond(388797011) -AP 2-Jan-16 BETA 3.12E-02 1.45E-03 7.66E-03 pCi/m3 1 S1 Wastewater Pond(389309006) -AP 9-Jan-16 BETA 1.53E-02 1.67E-03 8.26E-03 pCi/m3 1S1 Wastewater Pond(389808006) -AP 16-Jan-16 BETA 1.31E-02 1.63E-03 7.91 E-03 pCi/m3 1S1 Wastewater Pond(390230002) -AP 23-Jan-16 BETA 2.34E-02 1.56E-03 8.78E-03 pCi/m3 1S1 Wastewater Pond(390692005) -AP 30-Jan-16 BETA 1.55E-02 1.67E-03 7.93E-03 pCi/m3 1 S1 Wastewater Pond(391237004) -AP 6-Feb-16 BETA 3.12E-02 1.72E-03 8.12E-03 pCi/m3 Page 7 of92 2016 DCPP REMP Analysis Results Appendix A 181 Wastewater Pond(391592006) -AP 13-Feb-16 BETA 3.99E-02 1.51E-03 9.44E-03 pCi/m3 181 Wastewater Pond(392027002) -AP 20-Feb-16 BETA 2.50E-02 1.64E-03 8.53E-03 pCi/m3 181 Wastewater Pond(392482002) -AP 27-Feb-16 BETA 2.87E-02 1.46E-03 8.61E-03 pCi/m3 181 Wastewater Pond(392952012) -AP 5-Mar-16 BETA 1.18E-02 1.69E-03 7.90E-03 pCi/m3 181 Wastewater Pond(393384002) -AP 12-Mar-16 BETA 1.12E-02 1.48E-03 8.70E-03 pCi/m3 181 Wastewater Pond(393781006) -AP \ 19-Mar-16 BETA 1.49E-02 1.62E-03 8.52E-03 pCi/m3 181 Wastewater Pond(394076002) -AP 26-Mar-16 BETA 1.04E-02 1.69E-03 8.99E-03 pCi/m3 181 Wastewater Pond(394752002) -AP 2-Apr-16 BETA 2.45E-02 1.87E-03 9.97E-03 pCi/m3 181 Wastewater Pond(395261002) -AP 9-Apr-16 BETA 2.69E-02 1.71 E-03 8.09E-03 oCi/m3 181 Wastewater Pond(395795002) -AP 16-Apr-16 BETA 2.04E-02 1.50E-03 8.12E-03 pCi/m3 181 Wastewater Pond(396244002) -AP 23-Apr-16 BETA 1.05E-02 1.58E-03 9.03E-03 pCi/m3 181 Wastewater Pond(396779002) -AP 30-Apr-16 BETA 1.34E-02 1.85E-03 1.11 E-02 pCi/m3 181. Wastewater Pond(397288002) -AP 7-May-16 BETA 1.29E-02 1.63E-03 8.24E-03 pCi/m3 *181 Wastewater Pond(397706002) -AP 14-Mav-16 BETA 1.05E-02 1.59E-03 9.75E-03 pCi/m3 181 Wastewater Pond(398215002)-AP 21-Mav-16 BETA 2.57E-03 1.61E-03 9.22E-03 pCi/m3 181 Wastewater Pond(398542002) -AP 28-Mav-16 BETA 1.17E-02 1.54E-03 9.68E-03 pCi/m3 181 Wastewater Pond(399016002) -AP 4-Jun-16 BETA 6.51E-03 1.51E-03 9.51E-03 pCi/m3 181 Wastewater Pond(399503002) -AP 11-Jun-16 BETA 9.93E-03
- 1.60E-03 7.57E-03 pCi/m3 181 Wastewater Pond(399964002) -AP 18-Jun-16 BETA 7.38E-03 1.66E-03. 7.15E-03 oCi/m3 181 Wastewater Pond(400310002) -AP 25-Jun-16 BETA 1.38E-02 1.88E-03 1.06E-02 pCi/m3 181 Wastewater Pond(401018002) -AP 2-Jul-16 BETA 1.36E-02 1.54E-03 8.28E-03 pCi/m3 181 Wastewater Pond(401598011) -AP 9-Jul-16 BETA 1.96E-03 1.65E-03 9.49E-03 pCi/m3 181 Wastewater Pond(402089012) -AP 16-Jul-16 BETA 3.77E-03 1.61E-03 1.02E-02 pCi/m3 181 Wastewater Pond(402578002) -AP 23-Jul-16 BETA 9.56E-03 1.62E-03 8.45E-03 pCi/m3 181 Wastewater Pond(403120002) -AP 30-Jul-16 BETA 5.06E-03 1.61E-03 9.15E-03 pCi/m3 181 Wastewater Pond(403674002) -AP 6-Aug-16 BETA 9.36E-03 1.64E-03 9.37E-03 pCi/m3 181 Wastewater Pond(404132002) -AP 13-Aug-16 BETA 7.05E-03 1.64E-03 8.77E-03 pCi/m3 181 Wastewater Pond(404555012)-AP 20-Aug-16 BETA 2.14E-02 1.65E-03 1.06E-02 pCi/m3 181 Wastewater Pond(405070012) -AP 27-Aug-16 BETA 2.23E-02 1.58E-03 9.08E-03 pCi/m3 181 Wastewater Pond(405461002) -AP 3-8ep-16 BETA 2.17E-02
- 1.59E-03 9.07E-03 pCi/m3 181 Wastewater Pond(405943002) -AP 10-8ep-16 BETA 2.43E-02 1.87E-03 9.79E-03 pCi/m3 181 Wastewater Pond(406484002) -AP 17-8ep-16 BETA 2.77E-02 1.77E-03 8.78E-03 oCi/m3 181 Wastewater Pond(406978002) -AP BETA 2.61E-02 1.55E-03 8.73E-03 pCi/m3 181 Wastewater Pond(407538002) -AP 1-0ct-16 BETA. 1.84E-02 1.59E-03 8.80E-03 pCi/m3 181 Wastewater Pond(408013002) -AP 8-0ct-16 BETA 3.31E-02 1.50E-03 9.66E-03 pCi/m3 181 Wastewater Pond(408711002)-AP 15-0ct-16 BETA 1.75E-02. 1.65E-03 9.55E-03 pCi/m3 181 Wastewater Pond(409217002)-AP 22-0ct-16 BETA 3.03E-02 1.66E-03 1.02E-02 oCi/m3 181 Wastewater Pond(409738002)-AP 29-0ct-16 BETA 1.39E-02 1.78E-03 1.02E-02 pCi/m3 181 Wastewater Pond(410322002) -AP 5-Nov-16
- BETA 3.55E-02 1.72E-03 4.23E-03 pCi/m3 181 Wastewater Pond(410821002)-AP 12-Nov-16 BETA 4.70E-02 1.67E-03 9.37E-03 pCi/m3 181 Wastewater Pond(411348002) -AP 19-Nov-16 BETA 9.84E-03 2.01E-03 1.08E-02 pCi/m3 181 Wastewater Pond(411620002) -AP 26-Nov-16 BETA 9.05E-03 1.48E-03 8.87E-03 pCi/m3 181 Wastewater Pond(412193008)-AP 3-Dec-16 BETA 2.31 E-02 1.59E-03 -, 8.77E-03 pCi/m3 181 Wastewater Pond(412746015) -AP 10-Dec-16 BETA 3.95E-03 1.57E-03 1.63E-03 pCi/m3 181 Wastewater Pond(413294012)-AP 17-Dec-16 BETA 2.59E-02 1.74E-03 6.65E-03 pCi/m3 Page 8 of 92 2016 DCPP REMP Analysis Results Appendix A 1 S1 Wastewater Pond(413412003) -AP 24-Dec-16 BETA 3.48E-02 1.96E-03 7.68E-03 pCi/m3 1S1 Wastewater Pond(413697012)-AP 31-Dec-16 BETA 1.71E-02 1.50E-03 7.61E-03 pCi/m3 1S1 Wastewater Pond(396298002) -AP 13-Feb-16 Beryllium-? 1.02E-01 1.16E-02 2.03E-02 pCi/m3 1S1 Wastewater Pond(396298002) -AP 13-Feb-16 Cesium-134 3.69E-04 7.82E-04 4.26E-04 pCi/m3 1S1 Wastewater Pond(401387002) -AP 14-May-16 Cesium-134 -1.49E-04 4.22E-04 3.09E-04 pCi/m3 1S1 Wastewater Pond(408429002) -AP 13-Aug-16 Cesium-134 -6.92E-05 4.92E-04 3.24E-04 pCi/m3 1S1 Wastewater Pond(414245003)-AP 12-Nov-16 Cesium-134 6.14E-05 5.48E-04 3.17E-04 pCi/m3 1S1 Wastewater Pond(396298002) -AP 13-Feb-16 Cesium-137 4.92E-05 4.20E-04 2.69E-04 pCi/m3 1S1 Wastewater Pond(401387002) -AP 14-Mav-16 Cesium-137 3.62E-04 3.65E-04 3.40E-04 pCi/m3 1 S1 Wastewater Pond(408429002) -AP 13-Auo-16
- Cesium-137 1.65E-04 5.17E-04 2.73E-04 pCi/m3 1S1 Wastewater Pond(414245003)-AP 12-Nov-16 Cesium-137 -1.76E-04 3.58E-04 2.86E-04 pCi/m3 2F1 Morro Bay -Market Fish Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units 2F1 Morro Bay(398093002) -FH Market 19-May-16 Cesium-134 3.28E+OO 6.16E+OO 3.84E+OO pCi/kg 2F1 Morro Bav(398093002) -FH Market 19-May-16 Cesium-137 3.15E+01 5.62E+OO 7.77E+OO pCi/kg 2F1 Morro Bay(398093002) -FH Market 19-May-16 Cobalt-58 -1.55E+OO 5.09E+OO 3.29E+OO pCi/kg, 2F1 Morro Bay(398093002) -FH Market 19-Mav-16 Cobalt-60 9.42E-01 6.01E+OO 3.53E+OO pCi/kg 2F1 Morro Bav(398093002) -FH Market 19-Mav-16 lron-59 -1.96E+OO 1.16E+01 7.01E+OO pCi/kg 2F1 Morro Bay(398093002) -FH Market 19-May-16 Manganese-54 -2.55E+OO 5.26E+OO 4.13E+OO pCi/kg 2F1 Morro Bay(398093002) -FH Market 19-Mav-16 Potassium-40 3.40E+03 4.81E+01 3.95E+02 pCi/kg 2F1 Morro Bay(398093002) -FH Market 19-May-16 Zinc-65, -5.68E+OO 1.20E+01 7.94E+OO pCi/kq 3c1 rl h Id G d v t r ouse o ar en -ege a ion Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 Beryllium-? 6.74E+02 8.34E+01 1.16E+02 pCi/kg ' 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 Cesium-134 1.90E+OO 1.18E+01 6.83E+OO pCi/kg 3C 1 Household Garden(397285002) -VG Brdleaf 10-May-16 Cesium-134 -3.02E-01 8.58E+OO 5.15E+OO pCi/kg 3C1 Household Garden(404129001)-VG Brdleaf 16-Aug-16 Cesium-134 3.03E+OO 9.89E+OO 5.80E+OO pCi/kg 3C1 Household Garden(409315001) -VG Brdleaf 25-0ct-16 Cesium-134 -4.76E-01 1.14E+01. 6.96E+OO pCi/kg 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 Cesium-137 3.79E+OO 1.11E+01 6.73E+OO pCi/kg 3C1 Household Garden(397285002) -VG Brdleaf 10-Mav-16 Cesium-137 -1.58E+OO 8.03E+OO 4.91E+OO pCi/kg 3C1 Household Garden(404129001)-VG Brdleaf 16-Aug-16 Cesium-137 -3.21E-01 9.0?E+OO 5.34E+OO pCi/kg 3C1 Household Garden(409315001) -VG Brdleaf 25-0ct-16 Cesium-137 2.57E+OO 1.07E+01 6.08E+OO pCi/kg 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 lodine-131 -3.83E+OO 1.26E+01 7.78E+OO pCi/kg 3C1 Household Ga*rden(397285002) -VG Brdleaf 10-May-16 lodine-131 7.89E-02 1.22E+01 9.47E+OO pCi/kg 3C1 Household Garden(404129001)-VG Brdleaf. 16-Auq-16 lodine-131 -6.47E-01 9.96E+OO 6.07E+OO pCi/kq 3C1 Household Garden(409315001) -VG Brdleaf 25-0ct-16 lodine-131 -1.90E+OO 1.85E+01 1.19E+01 pCi/kg 3C1 Household Garden(392454002) -VG Brdleaf 1-Mar-16 Potassium-40 4.38E+03 1.06E+02 4.90E+02 pCi/kg 3C1 Household Garden(397285002)-VG Brdleaf* 10-May-16 Potassium-40 3.51E+03 8.07E+01 3.71E+D2 pCi/kg Page 9 of 92 2016 DCPP REMP Analysis Results Appendix A 3C1 Household Garden -Fruit Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 3C1 Household Garden Fruit(392454001)-VG Fruit 1-Mar-16 Cesium-134 -2.17E+OO 8.79E+OO 6.19E+OO pCi/kg 3C1 Household Garden Fruit(397285001)-VG Fruit 10-Mav-16 Cesium-134 -1.45E+OO 6.81 E+OO 4.10E+OO oCi/kq 3C1 Household Garden Fruit(404129002) -VG Fruit 16-Aug-16 Cesium-134 -1.12E+OO 5.91E+OO 3.69E+OO pCi/kg 3C1 Household Garden Fruit(409315002) -VG Fruit 25-0ct-16 Cesium-134 1.06E+OO 6.48E+OO 4.18E+OO pCi/kg 3C1 Household Garden Fruit(392454001)-VG Fruit 1-Mar-16 Cesium-137 -9.69E-01 7.76E+OO 4.89E+OO pCi/kg 3C1 Household Garden Fruit(397285001)-VG Fruit 10-May-16 Cesium-137 2.07E+OO 6.58E+OO 3.96E+OO pCi/kg 3C1 Household Garden Fruit(404129002) -VG Fruit 16-AUQ-16 Cesium-137 2.82E+OO 5.91E+OO 3.60E+OO oCi/kQ 3C1 Household Garden Fruit(409315002) -VG Fruit 25-0ct-16 Cesium-137 5.33E+OO 8.43E+OO 5.00E+OO pCi/kg 3C1 Household Garden Fruit(392454001)-VG Fruit 1-Mar-16 lodine-131 6.44E+OO 1.02E+01 6.41E+OO pCi/kg 3C1 Household Garden Fruit(397285001)-VG Fruit 10-May-16 lodine-131 4.24E+OO 1.02E+01 6.09E+OO pCi/kg 3C1 Household Garden Fruit(404129002) -VG Fruit 16-Aug-16 lodine-131 -9.88E-01 6.51E+OO 4.03E+OO pCi/kg 3C1 Household Garden Fruit(409315002) -VG Fruit 25-0ct-16 lodine-131 3.80E+OO 1.37E+01 8.08E+OO pCi/kg 3C1 Household Garden Fruit(392454001)-VG Fruit 1-Mar-16 Potassium-40 1.73E+03 6.21 E+01 2.03E+02 pCi/kg 3C1 Household Garden Fruit(397285001)-VG Fruit 10-May-16 Potassium-40 1.51E+03 4.67E+01 1.75E+02 pCi/kg 5F1 SLO OEL -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units 5F1 SLO OEL(388797002) -AC 2-Jan-16 lodine-131 9.02E-03 1.18E-02 1.34E-02 pCi/m3 5F1 SLO OEL(389309008) -AC 9-Jan-16 lodine-131 8.64E-04 1.11E-02 7.47E-03 pCi/m3 5F1 SLO OEU389808008) -AC .. 16-Jan"16 lodine-131 1.11 E-02 1.53E-02 9.31E-03 oCi/m3 5F1 SLO OEL(390230013) -AC 23-Jan-16 lodine-131 5.65E-03 1.03E-02 5.77E-03 pCi/m3 5F1 SLO OEL(390692008) -AC 30-Jan-16 lodine-131 -9.37E-03 9.89E-03 8.90E-03 pCi/m3 5F1 SLO OEL(391237010) -AC 6-Feb-16 lodine-131 1.45E-04 1.03E-02 6.17E-03 pCi/m3 5F1 SLO OEL(391592008) -AC 13-Feb-16 lodine-131 3.59E-04 1.12E-02 6.55E-03 pCi/m3 5F1 SLO OEL(392027013) -AC 20-Feb-16 16dine-131 2.85E-03 1.32E-02 7.76E-03 pCi/m3 5F1 SLO OEL(3924820'13) -AC 27-Feb-16 lodine-131 6.37E-03 1.14E-02 6.44E-03 pCi/m3 5F1 SLO OEL(392952001) -AC 5-Mar-16 lodine-131 1.15E-03 8.66E-03 5.00E-03 pCi/m3 5F1 SLO OEL(393384013) -AC -12-Mar"16 lodine-131 -4.98E-04 9.75E-03 5.80E-03 pCi/m3 5F1 SLO OEL(393781008) -AC 19-Mar-16 lodine-131 -2.76E-03 1.30E-02 8.61E-03 pCi/m3 5F1 SLO OEL(394076013) -AC 26-Mar-16 lodine-131 -4.52E-03 7.83E-03 5.91E-03 pCi/m3 5F1 SL.O OEL(394752013) -AC 2-Apr-16 lodine-131 2.46E-03 1.14E-02 6.45E-03 pCi/m3 5F1 SLO OEL(395261013) -AC 9-Apr-16 lodine-131 3.77E-04 8.86E-03
- 5.26E-03 pCi/m3 5F1 SLO OEL(395795013) -AC 16-Apr-16 lodine-131 1.25E-02 1.25E-02 1.13E-02 pCi/m3 5F1 SLO OEL(396244013) -AC 23-Apr-16 lodine-131 . 5.05E-03 5.05E-03 6.99E-03 pCi/m3 5F1 SLO OEL(396779013) -AC 30-Apr-16 lodine-131 5.45E-03 9.20E-03 4.13E-03 pCi/m3 5F1 SLO OEU397288013) -AC 7-May-16 lodine-131. -1.46E-04 8.42E-03 5.13E-03 pCi/m3 5F1 SLO OEL(397706013) -AC 14-May-16 lodine-131 1.76E-03 1.14E-02 6.57E-03 pCi/m3 5F1 SLO OEL(398215013) -AC 21-Mav-16 lodine-131 -3.57E-03 8.25E-03 5.49E-03 pCi/m3 5F1 SLO OEL(398542013) -AC 28-May-16 lodine-131 1.18E-03 1.10E-02 6.54E-03 pCi/m3 5F1 SLO OEL(399016013) -AC 4-Jun-16 lodine-131 -1.39E-03 9.30E-03 5.73E-03 oCi/m3 5F1 SLO OEL(3995030_13) -AC 11-Jun-16 lodine-131 3.33E-03 9.53E-03 5.86E-03 pCi/m3 5F1 SLO OEL(399964013) -AC 18-Jun-16 lodine-131 -5.32E-03 1.11E-02 7.90E-03 pCi/tn3 5F1 SLO OEL(400310013)-AC 25-Jun-16 lodine-131 2.83E-03 1.24E-02 7.26E-03 oCi/m3 Page 10 of 92 2016 DCPP REMP Analysis Results Appendix A 5F1 SLO OEL(401018013) -AC 2-Jul-16 lodine-131 -4.99E-03 8.73E-03 6.50E-03 *pCi/m3 5F1 SLO OEL(401598001) -AC 9-Jul-16 lodine-131 -2.59E-03 1.21E-02 7.75E-03 pCi/m3 5F1 SLO OEL(402089001) -AC 16-Jul-16 lodine-131 1.29E-03 1.10E-02 6.52E-03 pCi/m3 5F1 SLO OEL(402578013) -AC
- 23-Jul-16 lodine-131 -5.62E-03 9.59E-03 7.28E-03 oCi/m3 5F1 SLO OEL(403120013) -AC 30-Jul-16 lodine-131 -1.34E-04 1.51E-02 9.09E-03 pCi/m3 5F1 SLO OEL(403674013) -AC 6-Aug-16 lodine-131 2.41E-04 1.34E-02 7.75E-03 pCi/m3 5F1 SLO OEL(404132013) -AC 13-Aug-16 lodine-131 8.26E-03 1.27E-02 7.54E-03 pCi/m3 5F1 SLO OEL(404555001) -AC 20-Aug-16 lodine-131 1.76E-03 1.57E-02 8.86E-03 pCi/m3 5F1 SLO OEU405070001) -AC 27-Auq-16 lodine-131 2.10E-03 8.10E-03 4.42E-03 oCi/m3 5F1 SLO OEL(405461013) -AC 3-Sep-16 lodine-131 -2.72E-03 1.01E-02 6.57E-03 pCi/m3 5F1 SLO OEL(405943013) -AC 10-Sep-16 lodine-131 .. 2.81E-03 1.72E-02 9.60E-03 pCi/m3 5F1 SLO OEL(406484013) -AC 17-Sep-16 lodine-131 -1.33E-03 7.38E-03 4.66E-03 pCi/m3 5F1 SLO OEL(406978013) -AC 24-Sep-16 lodine-131 1.37E-02 1.37E-02 1.39E-02 pCi/m3 5F1 SLO OEL(407538013) -AC 1-0ct-16 lodine-131 3.05E-03 1.21E-02 6.61E-03 pCi/m3 5F1 SLO OEL(408013013) -AC lodine-131 -3.51E-03 7.91 E-03 5.36E-03 pCi/m3 5F1 SLO OEL(408711013) -AC 15-0ct-16 lodine-131 1.83E-03 1.05E-02 6.19E-03 pCi/m3 5F1 SLO OEL(409217013) -AC 22-0ct-16 lodine-131 2.04E-03 1.31E-02 8.36E-03 pCi/m3 5F1 SLO OEL(409738013) -AC 29-0ct-16 lodine-131 2.89E-03 9.32E-03 5.15E-03 pCi/m3 5F1 SLO OEL(410322013) -AC 5-Nov-16 lodine-131 5.71E-03 5.71 E-03 4.24E-03 pCi/m3 5F1 SLO OEL(410821013) -AC 12-Nov-16 lodine-131 2.24E-03 9.54E-03 5.39E-03 pCi/m3 5F1 SLO OEL(411348013) -AC ' 19-Nov-16 lodine-131 2.79E-03 1.31E-02 7.18E-03 pCi/m3 5F1 SLO OEL(411620013) -AC 26-Nov-16 lodine-131 3.93E-03 9.83E-03 7.44E-03 oCi/m3 5F1 SLO OEL(412193016)-AC 3-Dec-16 lodine-131 3.28E-03 1.34E-02 7.50E-03 pCi/m3 5F1 SLO OEL(412746002)-AC 10-Dec-16 lodine-131 -6.11E-04 7.82E-03 4.72E-03 pCi/m3 5F1 SLO OEL(413294001) -AC 17-Dec-16 lodine-131 -3.85E-03 1.01E-02 6.96E-03 pCi/m3 5F1 SLO OEL(413412013) -AC 24-Dec-16 lodine-131 4.21E-04 8.88E-03 5.12E-03 pCi/m3 5F1 SLO OEL(413697001) -AC 31-Dec-16 lodine-131 1.61E-04 7.58E-03 4.89E-03 pCi/m3 5F1 SLO OEL -Air Carbon 14 Sample Name Date Colle.cted Nuclide Result MDC 2 Sigma TPU Units 5F1 SLO OEL(388797003) -AC14 2-Jan-16 Carbon-14 -9.64E-08 5.27E-07 3.12E-07 uCi/m3 5F1 SLO OEL(389309015) -AC14 9-Jan-16 Carbon-14 -4.39E-07 6.18E-07 3.61E-07 uCi/m3 5F1 SLO OEL(389808015)-AC14 16-Jan-16 Carbon-14 -3.63E-07 6.27E-07 3.68E-07 uCi/m3 5F1 SLO OEL(390230009) -AC14 23-Jan-16 Carbon-14 -3.92E-07 5.74E-07 3.35E-07 uCi/m3 5F1 SLO OEL(390692015) -AC14 30-Jan-16 Carbon-14 -4.10E-07 5.63E-07 3.28E-07 uCi/m3 5F1 SLO OEL(391237007) -AC14 6-Feb-16 Carbon-14 -2.14E-07 5.44E-07 3.21E-07 uCi/m3 5F1 SLO OEU391592015) -AC14 13-Feb-16 Carbon-14 -9.43E-08 6.24E-07 3.70E-07 uCi/m3 5F1 SLO OEL(392027009) -AC14 20-Feb-16 Carbon-14 2.07E-07 5.90E-07 3.55E-07 uCi/m3 5F1 SLO OEL(392482009) -AC14 27-Feb-16 Carbon-14 1.06E-07 5.59E-07 3.35E-07 uCi/m3 5F1 SLO OEL(392952015) -AC14 5-Mar-16 Carbon-14 -1.62E-07 5.76E-07 3.40E-07 uCi/m3 5F1 SLO OEL(393384009) -AC14 12-Mar-16 Carbon-14 -2.49E-07 5.51E-07 3.24E-07 uCi/m3 5F1 SLO OEL(393781015)-AC14 19-Mar-16 Carbon-14 -6.99E-08 5.55E-07 3.29E-07 uCi/m3 5F1 SLO OEL(394076009) -AC14 26-Mar-16 Carbon-14 8.07E-08 5.19E-07 3.11 E-07 uCi/m3 5F1 SLO OEL(394752009)1-AC14 2-Apr-16 Carbon-14 2.41E-07 5.25E-07 3.17E-07 uCi/m3 5F1 SLO OEL(395261009) -AC14 9-Aor-16 Carbon-14 -4.08E-07 5.95E-07 3.47E-07 uCi/m3 Page 11 of92 2016 DCPP REMP Analysis Results Appendix A 5F1 SLO OEL(395795009) -AC14 16-Apr-16 Carbon-14 -3.48E-07 5.51E-07 3.23E-07 uCi/m3 5F1 SLO OEL(396244009) -AC14 23-Apr-16 Carbon-14 -1.91 E-07 5.61E-07 3.31 E-07 uCi/m3 5F1 SLO OEL(396779009) -AC14 30-Apr-16 Carbon-14 -1.57E-07 5.54E-07 3.27E-07 uCi/m3 5F1 SLO OEL(397288009) -AC14 7-Mav-16 Carbon-14 -2.07E-07 5.48E-07 3.23E-07 uCi/m3 5F1 SLO OEL(397706009) -AC14 14-May-16 Carbon-14 -2.55E-07 5.64E-07 3.32E-07 uCi/m3 5F1 SLO OEL(398215009) -AC14 21-May-16 Carbon-14 6.49E-08 4.69E-07 2.81E-07 uCi/m3 5F1 SLO OEL(398542009) -AC14 28-May-16 Carbon-14 -1.33E-07 5.86E-07 3.47E-07 uCi/m3 5F1 SLO OEL(399016009) -AC14 4-Jun-16 Carbon-14 -1.57E-07 5.75E-07 3.40E-07 uCi/m3 5F1 SLO OEL(399503009) -AC14 11-Jun-16 Carbon-14 -5.32E-08 5.48E-07 3.26E-07 uCi/m3 5F1 SLO OEL(399964009) -AC14 18-Jun-16 Carbon-14 -3.47E-07 5.68E-07 3.32E-07 uCi/m3 5F1 SLO OEL(400310009) -AC14 25-Jun-16 Carbon-14 -1.15E-07 6.56E-07 3.89E-07 uCi/m3 5F1 SLO OEL(401018009) -AC14 2-Jul-16 Carbon-14 -7.95E-08 4.83E-07 2.86E-07 uCi/m3 5F1 SLO OEL(401598003) -AC14 9-Jul-16 Carbon-14 8.72E-08 5.53E-07 3.31 E-07 uCi/m3 5F1 SLO OEL(402089003) -AC14 16-Jul-16 Carbon-14 -1.09E-07 5.78E-07 3.42E-07 uCi/m3 5F1 SLO OEL(402578009) -AC14 23-Jul-16 ca*rbon-14 1.87E-08 6.47E-07 3.86E-07 uCi/m3 -5F1 SLO OEL(403120009) -AC14 30-Jul-16 Carbon-14 -7.17E-07 6.01E-07 3.46E-07 uCi/m3 5F1 SLO OEL(403674009) -AC14 6-Aug-16 Carbon-14 -4.26E-08 . 5.38E-07 3.19E-07 uCi/m3 5F1 SLO OEL(404132009)-AC14 13-Aug-16 Carbon-14 2.31E-07 5.36E-07 3.23E-07 uCi/m3 5F1 SLO OEU404555003) -AC14 20-Auq-16 Carbon-14 -1.06E-07 5.64E-07 3.34E-07 uCi/m3 5F1 SLO OEL(405070003) -AC14 27-Aug-16 Carbon-14 2.51E-07 5.18E-07 3.13E-07 uCi/m3 5F1 SLO OEL(405461009) -AC14 3-Sep-16 Carbon-14 -5.45E-07 6.14E-07 3.56E-07 uCi/m3 5F1 SLO OEU405943009) -AC14 10-Seo-16 Carbon-14 -3.19E-07 5.62E-07 3.29E-07 uCi/m3 5F1 SLO OEL(406484009) -AC14 17-Sep-16 Carbon-14 -2.23E-07 6.17E-07 3.64E-07 uCi/m3 5F1 SLO OEL(406978009) -AC14 \ 24-Seo-16 Carbon-14 2.45E-08 5.77E-07 3.44E-07 uCi/m3 5F1 SLO OEL(407538009) -AC14 1-0ct-16 Carbon-14 3.20E-08 5.19E-07 3.10E-07 uCi/m3 5F1 SLO OEL(408013009) -AC14 Carbon-14 -2.83E-07 5.64E-07 3.31E-07 uCi/m3 5F1 SLO OEL(408711009) -AC14 15-0ct-16 Carbon-14 -3.46E-07 5.38E-07 3.15E-07 uCi/m3 5F1 SLO OEL(409217009) -AC14 22-0ct-16 Carbon-14 -3.67E-07 5.76E-07 3.37E-07 uCi/m3 5F1 SLO OEL(409738009) -AC14 29-0ct-16 Carbon-14 -3.26E-07 5.72E-07 3.35E-07 uCi/m3 5F1 SLO OEL(410322009) -AC14 5-Nov-16 Carbon-14 4.78E-08 5.64E-07 3.37E-07 uCi/m3 5F1 SLO OEL(410821009)-AC14 12-Nov-16 Carbon-14 2.66E-07 5.39E-07 3.26E-07 uCi/m3 5F1 SLO OEL(411348009) -AC14 19-Nov-16 Carbon-14. 2.49E-07 5.98E-07 3.60E-07 uCi/m3 5F1 SLO OEL(411620009) -AC14 26-Nov-16 Carbon-14 1.96E-07 4.91E-07 2.96E-07 uCi/m3 5F1 SLO OEL(412193018) -AC14 3-Dec-16 Carbon-14 1.16E-07 5.97E-07 3.57E-07 uCi/m3 5F1 SLO OEL(412746004)-AC14 10-Dec-16 Carbon-14 -4.20E-07 6.22E-07 3.64E-07 uCi/m3 5F1 SLO OEL(413294003)-AC14 17-Dec-16 Carbon-14 -1.11E-08 5.87E-07 3.49E-07 uCi/m3 5F1 SLO OEL(413412009)-AC14 24-Dec-16 Carbon-14 -1.09E-07 6.93E-07 ' 4.11E-07 uCi/m3 5F1 SLO OEL(413697003)-AC1'4 31-Dec-16 Carbon-14 -7.00E-08 5.28E-07 3.14E-07 uCi/m3 Page 12 of92 2016 DCPP REMP Analysis Results Appendix A 5F1 SLO OEL -Air Particulate Sample Name Date Collected Nuclide Result MDC '2 Sigma TPU Units 5F1 SLO OEL(388797001) -AP 2-Jan-16 BETA 4.35E-02 1.50E-03 8.26E-03 pCi/m3 5F1 SLO OEL(389309001) -AP 9-Jan-16 BETA 3.70E-02 1.73E-03 9.13E-03 pCi/m3 5F1 SLO OEL(389808001) -AP 16-Jan-16 BETA 1.64E-02 1.68E-03 8.02E-03 pCi/m3 5F1 SLO OEL(390230003) -AP 23-Jan-16 BETA 5.41 E-02 1.60E-03 9.77E-03 pCi/m3 5F1 SLO OEL(390692001) -AP 30-Jan-16 BETA 4.04E-02 1.64E-03 8.55E-03 pCi/m3 5F1 SLO OEL(391237001) -AP 6-Feb-16 BETA 5.41E-02 1.78E-03 9.01E-03 pCi/m3 5F1 SLO OEL(391592001) -AP 13-Feb-16 BETA 4.12E-02 1.60E-03 1.00E-02 pCi/m3 5F1 SLO OEL(392027003) -AP 20-Feb-16 BETA 7.09E-02 1.52E-03 9.26E-03 pCi/m3 5F1 SLO OEL(392482003) -AP 27-Feb-16 BETA 4.02E-02 1.52E-03 9.25E-03 pCi/m3 5F1 SLO OEL(392952008) -AP 5-Mar-16 BETA 2.14E-02 1.68E-03 8.15E-03 pCi/m3 5F1 SLO OEL(393384003) -AP 12-Mar-16 BETA 1.06E-02 1.53E-03 8.96E-03 pCi/m3 5F1 SLO OEL(393781001) -AP 19-Mar-16 BETA 1.82E-02 1.59E-03 8.44E-03 pCi/m3 5F1 SLO OEL(394076003) -AP 26-Mar-16 BETA 1.04E-02 1.59E-03 8.51E-03 pCi/m3 5F1 SLO OEL(394752003) -AP 2-Apr-16 BETA 3.01E-02 1.71E-03 9.34E-03 pCi/m3 5F1 SLO OEL(395261003) -AP 9-Apr-16 BETA 2.96E-02 1.76E-03 8.37E-03 pCi/m3 5F1 SLO OEL(395795003) -AP* 16-Apr-16 BETA 3.55E-02 1.59E-03 8.97E-03 pCi/m3 5F1 SLO OEU396244003) -_AP 23-Aor-16 BETA 1.26E-02 1.59E-03 9.16E-03 PCi/m3 5F1 SLO OEL(396779003) -AP 30-Apr-16 BETA 1.40E-02 1.60E-03 9.63E-03 pCi/m3 5F1 SLO OEL(397288003) -AP 7-Mav-.16 BETA 1.26E-02 1.63E-03 8.19E-03' pCi/m3 5F1 SLO OEL(397706003) -AP 14-May-16 BETA 9.86E-03 1.52E-03 9.29E-03 pCi/m3 5F1 SLO OEL(398215003) -AP 21-May-16 BETA 5.40E-03 1.59E-03 9.13E-03 pCi/m3 5F1 SLO OEL(398542003) -AP 28-May-16 BETA 2.11E-02 1.58E-03 pCi/m3 5F1 SLO OEL(399016003) -AP 4-Jun-16 BETA 8.00E-03 1.50E-03 9.51E-03 pCi/m3 5F1 SLO OEL(399503003) -AP 11-Jun-16 BETA 1.08E-02 7.63E-03 pCi/m3 5F1 SLO OEU399964003) -AP 18-Jun-16 BETA 9.50E-03 1.62E-03 7.05E-03 oCi/m3 5F1 SLO OEL(400310003) -AP 25-Jun-16 BETA 1.06E-02 1.86E-03 1.04E-02 pCi/m3 5F1 SLO OEL(4Q1018003) -AP 2-Jul-16 BETA 1.20E-02 1.51 E-03 8.06E-03 pCi/m3 5F1 SLO OEL(401598002) -AP 9-Jul-16 BETA 5.08E-03 1.64E*03 9.50E-03 pCi/m3 5F1 SLO OEL(402089002) -AP 16-Jul-16 BETA 6.51 E-03 1.62E-03 1.03E-02 pCi/m3 5F1 SLO OEL(402578003) -AP 23-Jul-16 BETA 1.09E-02 1.58E-03 8.28E-03 oCi/m3 5F1 SLO OEL(403120003) -AP. 30-Jul-16 BETA 3.78E-03 1.61E-03 , 9.07E-03 pCi/m3 5F1 SLO OEL(403674003) -AP 6-Aug-16 BETA 9.73E-03 1.66E-03 9.51E-03-pCi/m3 5F1 SLO OEL(404132003) -AP 13-Aug-16 BETA 9.45E-03 1.60E-03 8.65E-03 pCi/m3 5F1 SLO OEL(404555002) -AP 20-Aug-16 BETA 2.12E-02 1.67E-03 1.07E-02 pCi/m3 5F1 SLO OEL(405070002) -AP 27-AuQ-16 BETA 1.96E-02 1.59E-03 9.03E-03 oCi/m3 5F1 SLO OEL(405461003) -AP 3-Sep-16 BETA 3.48E-02 1.58E-03 9.39E-03 pCi/m3 5F1 SLO OEL(405943003) -AP 10-Sep-16 BETA 2.35E-02 1.82E-03 9.55E-03 pCi/m3 5F1 SLO OEL(406484003) -AP 17-Sep-16 BETA 3.48E-02 1-.82E-03 9.17E-03 pCi/m3 5F1 SLO OEL(406978003) -AP 24-Sep-16 BETA 3.56E-02 1.58E-03 9.12E-03 pCi/m3 5F1 SLO OEL(407538003) -AP 1-0ct-16 BETA 1.65E-02 1.61E-03 8.86E-03 pCi/m3 -5F1 SLO OEL(408013003) -AP BETA 4.44E-02 1.51E-03 1.00E-02 pCi/m3 5F1 SLO OEL(408711003) -AP 15-0ct-16 BETA 1.70E-02 1.68E-03 pCi/m3. 5F1 SLO OEL(409217003) -AP 22-0ct-16 BETA 4.01E-02 1.70E-03 1.06E-02 pCi/m3 Page 13 of 92 2016 DCPP REMP Analysis Results Appendix A 5F1 SLO OEL(409738003) -AP 29-0ct-16 BETA* 1.37E-02 1.73E-03 9.93E-03 pCi/m3 5F1 SLO OEL(410322003) -AP 5-Nov-16 BETA 3.82E-02 1.71E-03 4.38E-03 pCi/m3 5F1 SLO OEL(410821003)-AP 12-Nov-16 BETA 6.76E-02 1.66E-03 9.87E-03 pCi/m3 5F1 SLO OEL(411348003) -AP 19-Nov-16 BETA 1.38E-02 1.99E-03 1.08E-02 pCi/m3 5F1 SLO OEL(411620003)-AP 26-Nov-16 BETA 1.77E-02 9.17E-03 pCi/m3 5F1 SLO OEL(412193017) -AP 3-Dec-16 BETA 2.87E-02 1.57E-03 8.82E-03 pCi/m3 5F1 SLO OEL(4127 46003) -AP 10-Dec-16 BETA 1.90E-02 1.63E-03 3.14E-03 pCi/m3 5F1 SLO OEL(413294002) -AP 17-Dec-16 BETA 3.27E-02 1.68E-03 6.71E-03 pCi/m3 5F1 SLO OEL(413412001)-AP 24-Dec-16 BETA 4.24E-02 1.96E-03 7.97E-03 pCi/m3 5F1 SLO OEL(413697002)-AP 31-Dec-16 BETA 3.11 E-02 1.50E-03 8.01E-03 pCi/m3 5F1 SLO OEL(396298003) -AP 13-Feb-16 Beryllium-? 8.30E-02 1.16E-02 1.79E-02 pCi/m3
- 5F1 SLO OEL(396298003) -AP 13-Feb-16 Cesium-134 2.72E-04 7.59E-04 4.0?E-04 pCi/m3 5F1 SLO OEL(401387003) -AP 14-May-16 Cesium-134 9.73E-05 7.84E-04 4.67E-04 '" pCi/m3 5F1 SLO OEL(408429003) -AP 13-Auq-16 Cesium-134 1.96E-04 *7.72E-04 4.21E-04 pCi/m3 5F1 SLO OEL(414245001)*-AP 12-Nov-16 Cesium-134 -3.09E-04 4.41E-04 3.86E-04 pCi/m3 5F1 SLO OEL(396298003) -*AP 13-Feb-16 Cesium-137 1.56E-04 -5.97E-04 3.23E-04 pCi/m3 5F1 SLO OEL(401387003) -AP 14-May-16 Cesium-137 4.72E-04 6.34E-04 3.49E-04 pCi/m3 5F1 SLO OEL(408429003) -AP 13-Aug-16 Cesium-137 -1.43E-04 5.50E-04 3.53E-04 pCi/m3 5F1 SLO OEL(414245001) -AP 12-Nov-16 Cesium-137 -3.68E-05 4.68E-04 2.94E-04 oCi/m3 5F2 Cal Poly Farm -Milk Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 Barium-140 3.06E+OO 7.94E+OO 4.73E+OO pCi/L 5F2 Cal Polv Farm(391919004) -MK 22-Feb-16 Barium-140 -1.32E+OO 7.42E+OO 4.56E+OO pCi/L 5F2 Cal Poly Farm(393318001)-MK 14-Mar-16 Barium-140 1.19E+OO 6.94E+OO 4.16E+OO pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Barium-140 -1.0?E+OO 7.83E+OO 4.64E+OO pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 Barium-140 -7.33E-01 8.24E+oo* 5.03E+OO oCi/L 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 Barium-140 -6.67E+OO 1.23E+01 8.47E+OO pCi/L 5F2 Cal Poly Farm(401965001)-MK 18-Jul-16 Barium-140 -3.71E+OO 9.32E+OO 5.90E+OO pCi/L 5F2 Cal Poly Farm(403012001)-MK 1-Aug-16 Barium-140 4.00E+OO 1.26E+01 7.45E+OO pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Sep-16 Barium-140 5.13E+OO 1.12E+01 6.81E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Barium-140 9.83E-01 1.09E+01 6.63E+OO pCi/L 5F2 Cal Poly Farm(410298001)-MK 7-Nov-16 Barium-140 4.51E+OO 1.12E+01 6.90E+OO pCi/L 5F2 Cal Poly Farm(412059004)-MK 5-Dec-16 Barium-140 1.14E+OO 9.86E+OO 5.74E+OO pCi/L 5F2 Cal Poly Farm(390114004)-MK 25-Jan-16 Cesium-134 8.36E-01 2.03E+OO 2.26E+OO pCi/L 5F2 Cal Poly Farm(391919004) -MK 22-Feb-16 Cesium-134 3.35E-01 1.93E+OO 1.15E+OO pCi/L 5F2 Cal Poly Farm(393318001) -MK 14-Mar-16 Cesium-134 3.24E-01 1.92E+OO 1.11E+OO pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Cesium-134 7.09E-01 1.97E+OO 1.19E+OO pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 Cesium-134 1.44E+OO 1.94E+OO 1.79E+OO pCi/L 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 Cesium-134 3.54E-01 2.73E+OO 1.60E+OO pCi/L 5F2 Cal Poly Farm(401965001) -MK 18-Jul-16 Cesium-134 9.86E-02 2.58E+OO 1.56E+OO pCi/L 5F2 Cal Poly Farm(403012001) -MK 1-Aug-16 Cesium-134 -9.88E-03 2.25E+OO 1.35E+OO pCi/L 5F2 Cal Polv Farm(406353004) -MK 19-Sep-16 Cesium-134 4.42E-01 1.95E+OO 1.19E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Cesium-134 1.85E+OO 2.44E+OO 1.57E+OO pCi/L 5F2 Cal Polv Farm(410298001) -MK 7-Nov-16 Cesium-134 1.78E+OO 2.43E+OO 1.55E+OO pCi/L Page 14 of 92 2016 DCPP REMP Analysis Results . Appendix A ,_ 5F2 Cal Poly Farm(412059004)-MK 5-Dec-16 Cesium-134 -2.99E-01 1.68E+OO 1.05E+OO pCi/L 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 Cesium-137 -1.18E+OO 2.35E+OO 2.16E+OO pCi/L 5F2 Cal Poly Farm(391919004) -MK 22-Feb-16 Cesium-137 -5.51E-02 1.92E+OO 1.17E+OO pCi/L 5F2 Cal Poly Farm(393318001) -MK. 14-Mar-16 Cesium-137 7.86E-01 1.83E+OO 1.13E+OO pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Cesium-137 4.98E-01 1.92E+OO 1.26E+OO pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 Cesium-137 -3.98E-01 1.79E+OO 1.13E+OO pCi/L 5F2 Cal Poly Farm(399398004) -MK
- 13-Jun-16 Cesium-137 3.86E-01 2.38E+OO 1.44E+OO pCi/L 5F2 Cal Poly Farm(401965001) -MK 18-Jul-16 Cesium-137 6.95E-01 2.63E+OO 1.80E+OO pCi/L 5F2 Cal Poly Farm(403012001) -MK 1-Auq-16 Cesium-137 -2.27E-01 2.10E+OO 1.26E+OO pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Sep-16 Cesium-137 7.58E-01 1.86E+OO 1.14E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Cesium-137 9.98E-01 2.18E+OO 1.88E+OO pCi/L 5F2 Cal Poly Farm(410298001)-MK 7-Nov-16 Cesium-137 7.08E-01 2.26E+OO 1.31E+OO pCi/L 5F2 Cal Poly Farm(412059004)-MK 5-Dec-16 Cesium-137 7.73E-01 1.73E+OO 1.04E+OO pCi/L 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 . lodine-131 -1.80E-01 8.51E-01 5.22E-01 oCi/L 5F2 Cal Poly Farm(391919004)-MK 22-Feb-16 lodine-131 -6.49E-02 7.45E-01' 4.40E-01
- pCi/L 5F2 Cal Poly Farm(393318001)-MK 14-Mar-16 lodine-131 1.73E-01 5.96E-01 3.52E-01 pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 lodine-131 1.37E-01 5.84E-01 5.39E-01 pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 lodine-131 2.27E-01 9.73E-01 6.24E-01 pCi/L 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 lodine-131 -2.67E-02 7.63E-01 4.67E-01 pCi/L 5F2 Cal Poly Farm(401965001) -MK 18-Jul-16 lodine-131 -1.11E-01 5.36E-01 . 3.27E-01 pCi/L 5F2 Cal Poly Farm(403012001) -MK 1-Aug-16 lodine-131 3.62E-01 8.83E-01 5.32E-01 pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Seo-16 lodine-131 1.36E-01 5.67E-01 3.41 E-01 pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 lodine-1.31 8.92E-03 5.02E-01 3.02E-01 pCi/L 5F2 Cal Poly Farm(410298001)-MK 7-Nov-16 lodine-131 1.51E-01 6.37E-01 3.65E-01 pCi/L 5F2 Cal Poly Farm(412059004)-MK 5-Dec-16 lodine-131 -1.77E-02 3.65E-01 2.10E-01 pCi/L 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 Lanthanum-140 3.66E-01 2.26E+OO
- 1.56E+OO pCi/L 5F2 Cal Poly Farm(391919004) -MK -'22-Feb-16 Lanthanum-140 -1.20E-01 1.91E+OO 1.32E+OO pCi/L 5F2 Cal Poly Farm(393318001) -MK 14-Mar-16 Lanthanum-140 -8.84E-02 1.94E+OO 1.15E+OO pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Lanthanum-140. -6.27E-01 2.42E+OO . 1.54E+OO pCi/L 5F2 Cal Poly Farm(396603004)-MK Lanthanum-140 -3.66E-01 2.39E+OO 1.45E+OO pCi/L 5F2 Cal Poly Farm(399398004)-MK 13-Jun-16 Lanthanum-140 -3.35E-01 3.82E+OO 2.76E+OO pCi/L 5F2 Cal Poly Farm(401965001) -MK 18-Jul-16 Lanthanum-140 1.93E+OO 3.31E+OO 2.01E+OO pCi/L 5F2 Cal Poly Farm(403012001)-MK 1-Aug-16 Lanthanum-140 -8.83E-01 . 3.66E+OO 2.30E+OO pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Sep-16 Lanthanum-140 1.89E-02 3.11E+OO 1.88E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Lanthanum-140 -4.73E-01 r3.09E+OO 1.86E+OO pCi/L 5F2 Cal Poly Farm(410298001)-MK 7-Nov-16 Lanthanum-140 -8.20E-01 -2.68E+OO 1.96E+OO pCi/L 5F2 Cal Poly Farm(412059004) -MK 5-Dec-16 Lanthanum-140 1.19E+OO 3.24E+OO 2.07E+OO pCi/L 5F2 Cal Poly Farm(390114004) -MK 25-Jan-16 Potassium-40 1.38E+03 1.67E+01 1.28E+02 pCi/L 5F2 Cal Poly Farm(391919004)-MK 22-Feb-16 Potassium-40 1.37E+03 1.62E+01 1.28E+02 pCi/L 5F2 Cal Polv Farm(393318001) -MK 14-Mar-16 Potassium-40 1.37E+03 1.61E+01 1.30E+02 pCi/L 5F2 Cal Poly Farm(395137005) -MK 11-Apr-16 Potassium-40 1.37E+03 1.62E+01 1.39E+02 pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-Mav-16 Potassium-40 1.34E+03 1.71E+01 1.27E+02 pCi/L 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 Potassium-40 1.34E+03 2.17E+01 1.30E+02 pCi/L 5F2 Cal Polv Farm(390114004) -MK 25-Jan-16 Total Strontium -9.67.E-03 4.48E-01 2.67E-01 pCi/L 5F'2 Cal Polv Farm(391919004)-MK 22-Feb-16 Total Strontium -7.09E-02 1.26E-01 pCi/L Page 15 of 92 2016 DCPP REMP Analysis Results Appendix A 5F2 Cal Poly Farm(393318001) -MK 14-Mar-16 Total Strontium -1.38E-01 3.01E-01 1.71 E-01 pCi/L 5F2 Cal Poly Farm(395137005)-MK 11-Apr-16 Total Strontium -4.72E-01 6.79E-01 3.91E-01 pCi/L 5F2 Cal Poly Farm(396603004) -MK 2-May-16 Total Strontium 5.05E-01 6:88E-01 4.41E-01 pCi/L ., 5F2 Cal Poly Farm(399398004) -MK 13-Jun-16 Total Strontium 4.60E-01 5:05E-01 3.37E-01 oCi/L 5F2 Cal Poly Farm(401965001)-MK 18-Jul-16 Total Strontium 1.51 E-01 3.60E-01 2.23E-01 pCi/Lr 5F2 Cal Poly Farm(403012001) -MK 1-Aug-16 Total Strontium -2.46E-01 3.12E-01 1.76E-01 pCi/L 5F2 Cal Poly Farm(406353004) -MK 19-Sep-16 Total Strontium -7.52E..:01 1.78E+OO 1.00E+OO pCi/L 5F2 Cal Poly Farm(407878004) -MK 10-0ct-16 Total Strontium 6.64E-01 1.33E+OO 9.13E-01 pCi/L 5F2 Cal Polv Farm(410298001) -MK 7-Nov-16 Total Strontium 7.91 E-01 8.19E-01 _ 5.74E-01 pCi/L 5F2 Cal Poly Farm(412059004) -MK 5-Dec-16 Total Strontium -2.86E-01 9.80E-01 5.56E-01 pCi/L 5F2 Cal Poly Farm -Vegetation Sample Name Date Collected Nuclide* Result MDC 2 Sigma TPU Units 5F2 Cal Polv Farm(390114005) -VG Brdleaf 25-Jan-16 Bervllium-7 6.35E+02 8.24E+01 1.09E+02 pCi/kQ 5F2 Cal Poly Farm(390114005) -VG Brdleaf 25-Jan-16 Cesium-134 4.58E+OO 1.25E+01 7.33E+OO pCi/kg 5F2 Cal' Poly Farm(391919001) -VG Brdleaf 22-Feb-16 Cesium-134 1.35E+OO 1.62E+01 1.09E+01 pCi/kg 5F2 Cal Poly Farm(393318002) -VG Brdleaf 14-Mar-16 Cesium-134 4.10E+OO 1.56E+01 1.24E+01 pCi/kg 5F2 Cal Poly Farm(395137001) -VG Brdleaf 11-Apr-16 Cesium-134 -3.35E+OO 1.24E+01 7.69E+OO pCi/kg 5F2 Cal eoly Farm(396603001) -VG Brdleaf 2-May-16 Cesium-134 -6.37E+OO 1.26E+01 8.26E+OO
- oCi/ka 5F2 Cal Poly Farm(399398001) -VG Brdleaf 13-Jun-16 Cesium-134 8.20E+OO 1.99E+01 1.34E+01 pCi/kg 5F2 Cal Poly Farm(401965002) -VG Brdleaf 18-Jul-16 Cesium-134 8.18E+OO 2.19E+01 2.23E+01 pCi/kg 5F2 Cal Poly Farm(403012002) -VG Brdleaf 1-Aua-16 Cesium-134 4.57E+OO 8.08E+OO 4.98E+OO oCi/ka 5F2 Cal Poly Farm(406353001) -VG Brdleaf 19-Sep-16 Cesium-134 -6.21E+OO 9.36E+OO 6.95E+OO pCi/kg 5F2 Cal Poly Farm(407878001) -VG Brdleaf 10-0ct-16 Cesium-134 2.29E+OO 1.07E+01 6.48E+OO pCi/kQ 5F2 Cal Poly Farm(410298002) -VG Brdleaf 7-Nov-16 Cesium-134 3.39E-01 8.68E+OO 7.64E+OO pCi/kg 5F2 Cal Poly Farm(412059001)-VG Brdleaf 5-Dec-16 Cesium-134 7.71E+OO 7.87E+OO 6.34E+OO pCi/kg 5F2 Cal Polv Farm(390114005) -VG Brdleaf 25-Jan-16 Cesium-137 2.00E+OO 1.12E+01 6.69E+OO pCi/ka 5F2 Cal Poly Farm(391919001)-VG Brdleaf 22-Feb-16 Cesium-137 5.25E+OO 1.58E+01 9.06E+OO pCi/kg 5F2 Cal Poly Farm(393318002) -VG Brdleaf 14-Mar-16 Cesium-137 1.16E+01 1.31E+01 2.01 E+01 pCi/kg 5F2 Cal Poly Farm(395137001) -VG Brdleaf 11-Apr-16 Cesium-137 9.44E-02 1.20E+01 7.32E+OO -pCi/kg 5F2 Cal Poly Farm(396603001) -VG Brdleaf 2-May-16 Cesium-137 ' 1.17E+01 7.15E+OO pCi/kg 5F2 Cal Poly Farm(399398001) -VG Brdleaf 13-Jun-16 Cesium-137 9.39E-01 1.77E+01 1.03E+01 pCi/ka 5F2 Cal Poly Farm(401965002) -VG Brdleaf 18-Jul-16 Cesium-137 4.06E+OO 1.93E+01 1.32E+01 pCi/kg 5F2 Cal Poly Farm(403012002) -VG Brdleaf 1-Aug-16 Cesium-137 3.05E-01 7.25E+OO 4.27E+OO pCi/kg 5F2 Cal Poly Farm(406353001) -VG Brdleaf 19-Sep-16 Cesium-137 1.18E+OO 1.10E+01 6.53E+OO pCi/kg 5F2 Cal Poly Farm(407878001) -VG Brdleaf 10-0ct-16 Cesium-137 -3.74E-01 8.92E+OO 5.47E+OO pCi/kg 5F2 Cal Poly Farm(410298002) -VG Brdleaf 7-Nov-16 Cesium-137 5.89E+OO 7.82E+OO 4.94E+OO pCi/ka 5F2 Cal Poly Farm(412059001) -VG Brdleaf 5-Dec-16 Cesium-137 -2.03E+OO 6.28E+OO 4.09E+OO pCi/kg 5F2 Cal Poly Farm(390114005) -VG Brdleaf ' 25-Jan-16 lodine-131 8.44E+OO 1.40E+01 8.74E+OO pCi/kg 5F2 Cal Poly Farm(391919001) -VG Brdleaf 22-Feb-16 lodine-131 4.28E+OO 1.82E+01 1.08E+01 pCi/kg 5F2 Cal Poly Farm(393318002) -VG Brdleaf 14-Mar-16 lodine-131 -2.93E+OO 1.62E+01 9.64E+OO pCi/kg 5F2 Cal Poly Farm(395137001) -VG Brdleaf 11-Apr-16 lodine-131 -5.03E+OO 1.26E+01 7.88E+OO oCi/ka 5F2 Cal Poly Farm(396603001) -VG Brdleaf 2-May-16 lodine-131 4.51E+OO 1.55E+01 9.12E+OO pCi/kg 5F2 Cal Poly Farm(399398001) -VG Brdleaf. 13-Jun-16 lodine-131 1.02E+OO 2.15E+01 1.26E+01 pCi/ka 5F2 Cal Poly Farm(401965002) -VG Brdleaf 18-Jul-16 lodine-131 -4.60E+OO 2.16E+01 1.31E+01 oCi/ka Page 16 of 92_
, 2016 DCPP REMP Analysis Results Appendix A 5F2 Cal Poly Farm(403012002) -VG Brdleaf 1-Aug-16 lodine-131 8.94E+OO 1.39E+01 1.10E+01 pCi/kg 5F2 Cal Poly Farm(406353001) -VG Brdleaf 19-Sep-16 lodine-131 1.21 E+OO 1.14E+01 6.55E+OO pCi/kg 5F2 Cal Poly Farm(407878001) -VG Brdleaf 10-0ct-16 lodine-131 4.32E-01 1.10E+01 6.42E+OO pCi/kg 5F2 Cal Poly Farm(410298002) -VG Brdleaf 7-Nov-16 lodine-131 -1.04E+OO 9.96E+OO 6.03E+OO pCi/ka 5F2 Cal Poly Farm(412059001)-VG Brdleaf 5-Dec-16 lodine-131 -3.93E+OO 8.65E+OO 6.14E+OO pCi/kg 5F2 Cal Poly Farm(390114005) -VG Brdleaf 25-Jan-16 Potassium-40 4.38E+03 8.50E+01 4.50E+02 pCi/kg 5F2 Cal Poly Farm(391919001)-VG Brdleaf 22-Feb-16 Potassium-40 2.96E+03 1.38E+02 4.12E+02 pCi/kg 5F2 Cal Poly Farm(393318002)-VG Brdleaf 14-Mar-16 Potassium-40 2.41E+03 1.18E+02 3.05E+02 pCi/kg 5F2 Cal Poly Farm(395137001) -VG Brdleaf 11-Apr-16 Potassium-40 4.68E+03 9.68E+01 5.31E+02 pCi/kg 5F2 Cal Poly Farm(396603001) -VG Brdleaf 2-May-16 Potassium-40 2.69E+03 1.11E+02 3.24E+02 pCi/kg 5F2 Cal Poly Farm(399398001) -VG Brdleaf 13-Jun-16 Potassium-40 3.00E+03 1.68E+.02 4.22E+02 pCi/kg 5S2 Diablo Creek Weir -Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 BETA -8.83E-02 3.57E+OO 2.14E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 BETA 3.76E+OO 2.82E+OO 1.93E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 BETA 1.99E+OO 3.10E+OO 1.95E+OO pCi/L 5S2 Diab lo Creek Weir(395275001) -DW 12-Apr-16 BETA 1.50E+OO 3.11E+OO 1.92E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 BETA 2.36E+OO 2.27E+OO 1.51E+OO pCi/L 5S2 Diablo Creek Weir(399127001).-DW 7-Jun-16 BETA 1.01E+OO 3.09E+OO 1.90E+OO pCi/,k 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 BETA 2.31 E+OO 2.69E+OO 1.73E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aua-16 BETA 2.46E+OO 2.93E+OO 1.86E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 BETA 7.51E+OO 2.56E+OO 2.17E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 BETA 2.20E+OO 2.15E+OO 1.44E+OO pCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 BETA 2.10E+OO 3.02E+OO 1.91E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 BETA 2.67E+OO 1.67E+OO 1.25E+OO pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Barium-140 -4.44E-01 1.06E+01 7.37E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Barium-140 -2.90E+OO 9.69E+OO 6.22E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Barium-140 -2.35E+OO 8.72E+OO 5.32E+OO pCi/L 5S2 Diab lo Creek Weir(395275001) -DW
- 12-Apr-16 Barium-140 3.58E-01 6.88E+OO 4.02E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Barium-140 -4.56E+OO 8.54E+OO 5.65E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Barium-140 -6.67E+OO 1.47E+01 9.61E+OO pCi/L 5S2 Diablo Creek Weir(402080001)-DW 19-Jul-16 Barium-140 _ 4.06E+OO . 1.52E+01 9.08E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Barium-140 -1.33E+OO 1.10E+01 6.51E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Barium-140 7.88E+OO 6.63E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Barium-140 -4.35E+OO 8.09E+OO 5.50E+OO pCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Barium-140 -1.85E+OO 7.65E+OO 4.80E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Barium-140 -4.34E+OO 8.46E+OO 5.55E+00 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Cesium-134 6.39E-01 3.06E+OO 2.02E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Cesium-134 4.37E-01 1.92E+OO 1.22E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Cesium-134 2.11E+OO 2.28E+OO 1.74E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Aor-16 Cesium-134 7.48E-01 1.92E+OO 1.16E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Cesium-134 1.09E+OO --1.97E+OO 1.21E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Cesium-134 -1.03E+OO 2.09E+OO 1.38E+OO pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Cesium-134 6.29E-01 2.08E+OO 1.38E+OO pCi/L \ Page 17 of 92 2016 DCPP REMP Analysis Results Appendix A 582 Diablo Creek Weir(403116001) -DW 2-Aug-16 Cesium-134 -6.55E-01 1.81E+OO 1.35E+OO pCi/L 582 Diablo Creek Weir(405375001) -DW 6-8ep-16 Cesium-134 3.58E-01 1.53E+OO 9.24E-01 pCi/L 582 Diablo Creek Weir(408514001) -DW 17-0ct-16 Cesium-134 -5.60E-01 1.34E+OO pCi/L 582 Diablo Creek Weir(410307001) -DW Cesium-134 -3.31 E-01 1.55E+OO 1.45E+OO oCi/L 582 Diablo Creek Weir(412191003) -DW 6-Dec-16 Cesium-134 -5.67E-01 1.37E+OO 1.01E+OO pCi/L 582 Diablo Creek Weir(389292002) -DW 12-Jan-16 Cesium-137 -1.63E-01 2.81E+OO 1.73E+OO pCi/L 582 Diablo Creek Weir(390519004) -DW 1-Feb-16 Cesium-137 3.21E-01 1.95E+OO 1.13E+OO pCi/L 582 Diablo Creek Weir(393029001) -DW 9-Mar-16 Cesium-137 -5.17E-01 2.06E+OO 1.40E+OO pCi/L 582 Diablo Creek Weir(395275001) -DW 12-Apr-16 Cesium-137 -1.67E+OO 2.04E+OO 2.08E+OO pCi/L 582 Diablo Creek Weir(396784001) -DW 3-May-16 Cesium-137 5.46E-01 1.81E+OO 1.07E+OO pCi/L 582 Diablo Creek Weir(399127001) -DW 7-Jun-16 Cesium-137 -4.61E.:01 2.06E+OO 1.30E+OO pCi/L 582 Diablo Creek Weir(402080001) -DW 19-Jul-16 Cesium-137 -2.35E-02 2.03E+OO 1.23E+OO pCi/L 582 Diablo Creek Weir(403116001) -DW 2-Aug-16 Cesium-137 4.35E-01 1.87E+OO 1.10E+OO pCi/L 582 Diablo Creek Weir(405375001) -DW 6-8eo-16 Cesium-137 3.87E-02 1.45E+OO 8.75E-01 pCi/L 582 Diablo Creek Weir(408514001) -DW 17-0ct-16 Cesium-137 6.53E-01 1.60E+OO 9.81 E-01 pCi/L 582 Diablo Creek Weir(410307001) -DW 8-Nov-16 Cesium-137 5.25E-01 1.46E+OO 8.78E-01 pCi/L 582 Diablo Creek Weir(412191003)-DW 6-Dec-16 Cesium-137 6.95E-01 1.54E+OO 9.25E-01 pCi/L 582 Diablo Creek Weir(389292002) -DW 12-Jan-16 Cobalt-58 9.95E-01 2.50E+OO 2.40E+OO pCi/L 582 Diablo Creek Weir(390519004) -DW 1-Feb-16 Cobalt-58 6.19E-01 1.95E+OO 1.15E+OO pCi/L 582 Diablo Creek Weir(393029001) -DW 9-Mar-16 Cobalt-58 4.80E-02 2.02E+OO 1.24E+OO pCi/L 582 Diablo Creek Weir(395275001) -DW 12-Apr-16 Cobalt-58 -4.35E-01 1.43E+OO , 9.15E-01 pCi/L 582 Diablo Creek Weir(396784001) -DW 3-Mav-16 Cobalt-58 -6.96E-01 1.73E+OO 1.16E+OO pCi/L 582 Diablo Creek Weir(399127001) -DW 7-Jun-16 Cobalt-58 -6.33E-02 2.07E+OO 1.23E+OO pCi/L 582 Diablo Creek Weir(402080001) -DW 19-Jul-16 Cobalt-58 -1.67E-01 2.07E+OO 1.41E+OO pCi/L 582 Diablo Creek Weir(403116001) -DW 2-Aug-16 Cobalt-58 -5.52E-01 1.64E+OO 1.45E+OO pCi/L 582 Diablo Creek Weir(405375001) -DW 6-8ep-16 Cobalt-58 -8.67E-01 1.19E+OO -9.07E-01 pCi/L 582 Diablo Creek Weir(408514001) -DW 17-0ct-16 Cobalt-58 -9.02E-01 1.29E+OO 9.04E-01 pCi/L 582 Diablo Creek Weir(410307001) -DW 8-Nov-16 Cobalt-58 1.16E+OO 1.65E+OO 1.06E+OO pCi/L 582 Diablo Creek Weir(412191003) -DW 6-Dec-16 Cobalt-58 1.03E-01 1.29E+OO 8.57E-01 pCi/L 582 Diablo Creek Weir(389292002) -DW 12-Jan-16 Cobalt-60 ' -2.21E-01 2.79E+OO 1.66E+OO pCi/L 582 Diablo Creek Weir(390519004) -DW 1-Feb-16 Cobalt-60 -5.12E-01 2.06E+oo 1.46E+OO pCi/L 582 Diablo Creek Weir(393029001) -DW 9-Mar-16 Cobalt-60 -2.42E-01 2.01E+OO 1.23E+OO pCi/L 582 Diablo Creek Weir(395275001) -DW 12-Apr-16 Cobalt-60 1.39E+OO 1.64E+OO 1.47E+OO pCi/L 582 Diab lo Creek Weir(396784001) -DW 3-May-16 Cobalt-60 1.11E+OO 1.93E+OO 1.16E+OO pCi/L 582 Diablo Creek Weir(399127001) -DW 7-Jun-16 Cobalt-60 -3.37E-01 2.08E+OO 1.27E+OO pCi/L 582 Diablo Creek Weir(402080001)-DW 19-Jul-16 Cobalt-60 -1.10E+OO 1.96E+OO 1.35E+OO pCi/L 582 Diablo Creek Weir(403116001)-DW 2-Aua-16 Cobalt-60 -5.78E-02 1.85E+OO 1.10E+OO oCi/L 582 Diablo Creek Weir(405375001)-DW 6-8ep-16 Cobalt-60 3.13E-01 1.58E+OO 9.23E-01 pCi/L 582 Diablo Creek Weir(408514001) -DW 17-0ct-16 Cobalt-60 3.06E-02 1.43E+OO 8.56E-01 pCi/L 582 Diablo .Creek Weir(410307001) -DW 8-Nov-16 Cobalt-60 -6.33E-02 1.44E+OO 8.68E-01 pCi/L 582 Diablo Creek Weir(412191003) -DW 6-Dec-16 Cobalt-60 2.92E-01 1.41E+OO 8.54E-01 pCi/L 582 Diablo Creek Weir(389292002) -DW 12-Jan-16 lodine-131 1.68E-01 5.12E-01 3.04E-01 oCi/L 582 Diablo Creek Weir(390519004) -DW 1-Feb-16 lodine-131 4.94E-02 7.71E-01 4.57E-01 pCi/L 582 Diablo Creek Weir(393029001) -DW 9-Mar-16 lodine-131 3.07E-01 6.12E-01 3.76E-01 pCi/L 582 Diablo Creek Weir(395275001) -DW -12-Apr-16 lodine-131 -3.61E-01 5.07E-01 3.51E-01 oCi/L Page 18 of 92 2016 DCPP REMP Analysis Results Appendix A 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 lodine-131 -1.26E-01 6.49E-01 4.55E-01 pCi/L 5S2 Diablo Creek Weir(399127001)-DW 7-Jun-16 lodine-131 6.55E-01 9.30E-01 4.90E-01 pCi/L 5S2 Diablo Creek Weir(402080001)-DW 19-Jul-16 lodine-131 1.28E-02 6.85E-01 4.01 E-01 pCi/L 5S2 Diablo Creek Weir(403116001 -DW 2-Auq-16 lodine-131 -2.15E-01 7.18E-01 4.43E-01 pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 lodine-131 -2.99E-02 4.78E-01 2.80E-01 pCi/L 5S2 Diablo Creek Weir(408514001)-DW 17-0ct-16 lodine-131 -8.31E-02 5.08E-01 3.02E-01 pCi/L 5S2 Diab lo Creek Weir(410307001 -DW 8-Nov-16 lodine-131 -5.01 E-01 5.77E-01 5.68E-01 pCi/L 5S2 Diablo Creek Weir(41-2191003) -DW 6-Dec-16 lodine-131 -1.94E-01 4.96E-01 3.20E-01 pCi/L 5S2 Diablo Creek Weir(389292002 -DW 12-Jan-16 lron-55 -1.14E+OO 6.39E+01 4.28E+01 pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 lron-55 -1.43E+01 4.89E+01 3.61 E+01 pCi/L 5S2 Diablo' Creek Weir(393029001) -DW 9-Mar-16 lron-55 2.00E+01 5.94E+01 4.50E+01 pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 lron-55 7.47E+OO 1.37E+02 1.01E+02 pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 lron-55 1.10E+01 6.55E+01 4.77E+01 pCi/L 5S2 Diablo Creek Weir(399127001 -DW 7-Jun-16 lron-55 6.95E+01 1.79E+02 1.25E+02 pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 lron-55 5.18E+01 7.02E+01 5.30E+01 pCi/L 5S2 Diablo Creek Weir(403116001) DW 2-Aug-16 lron-55 2.79E+01 6.94E+01 5.21E+01 pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 lron-55 8.45E+OO 8.31E+01 5.88E+01 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 lron-55 3.99E+01 8.46E+01 6.60E+01 pCi/L 5S2 Diablo Creek Weir(410307001 -DW 8-Nov-16 lron-55 -2.69E+01 8.85E+01 6.32E+01 pCi/L 5S2 Diablo Creek Weir(412191003)-DW 6-Dec-16 lron-55 1.72E+01 9.86E+01 7.49E+01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 lron-59 1.82E+OO 5.53E+OO 3.28E+OO pCi/L 5S2 Diablo Creek Weir(390519004 -DW 1-Feb-16 lron-59 1.48E+OO 4.02E+OO 2.41 E+OO oCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 lron-59 -4.50E-01 3.93E+OO 2.36E+OO pCi/L 5S2 Diablo Creek Weir(395275001 -DW 12-Aor-16 lron-59 1.80E+OO 3.28E+OO 2.00E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 lron-59 8.86E-01 3.55E+OO 2.34E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 lron-59 2.66E+OO 5.04E+OO 3.13E+OO pCi/L 5S2 Diablo Creek Weir(402080001 -DW 19-Jul-16
- lron-59 1.99E+OO 4.49E+OO 2.68E+OO oCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 lron-59 1.06E-01 3.73E+OO 2.51E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 lron-59 -9.41 E-01 2.73E+OO 2.29E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 lron-59 -1.83E+OO 2.70E+OO 1.93E+OO pCi/L 5S2 Diablo Creek Weir(410307001 -DW 8-Nov-16 lron-59 -1.29E-02 3.20E+OO 1.89E+OO pCi/L 5S2 Diablo Creek Weir(412191003 -DW 6-Dec-16 lron-59 1.86E-01 2.82E+OO 1.71E+OO pCi/L 5S2 Diablo Creek Weir(389292002 -DW 12-Jan-16 Lanthanum-140 1.44E-01 3.94E+OO 2.33E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Lanthanum-140 -1.30E+OO 3.38E+OO 2.82E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Lanthanum-140 7.69E-02 3.21E+OO 1.94E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Lanthanum-140 -3.73E-01 2.20E+OO 1.38E+OO pCi/L 5S2 Diablo Creek Weir(396784001 -DW 3-May-16 Lanthanum-140 -1.12E+OO 2.98E+OO 1.96E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Lanthanum-140 -6.68E-01 5.08E+OO 3.70E+OO pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Lanthanum-140 5.83E-01 4.99E+OO 2.96E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Lanthanum-140 -1.71E+OO 3.29E+OO 2.27E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Lanthanum-140 -1.23E+OO 2.57E+OO 1.79E+OO pCi/L 5S2 Diablo Creek Weir(408514001 -DW 17-0ct-16 Lanthanum-140 -5.31 E-01 2.56E+OO 1.89E+OO oCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Lanthanum-140 -1.03E+OO 2.15E+OO 1.52E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Lanthanum-140 -2.32E-01 2.61E+OO 1.55E+OO pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Manqanese-54 1.31E+OO 2.81E+OO 1.67E+OO oCi/L Page 19 of 92 2016 DCPP REMP Analysis Results Appendix A 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Manganese-54 -1.16E+OO 1.68E+OO 1.38E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Manganese-54 8.26E-01 2.02E+OO 1.22E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Manganese-54 -8.80E-02 1.60E+OO 9.70E-01 pCi/L 5S2 Diablo Creek Weir(396784001) -DW. 3-May-16 Manganese-54 -1.46E-01 1.75E+OO 1.23E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Manganese-54 -5.14E-01 1.88E+OO 1.17E+OO pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Manganese-54 7.36E-02 1.97E+OO 1.14E+OO pCi/L 5S2 Diablo Creek Weir(403116001)-DW 2-Aug-16 Manganese-54 -5.24E-01 1.71E+OO 1.09E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Manganese-54 2.07E-01 1.53E+OO 9.29E-01 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Manganese-54 1.88E-01 1.32E+OO 7.77E-01 pCi/L 5S2 Diablo Creek Weir(410307001)-DW 8-Nov-16
- Manganese-54 -4.46E-01 1.35E+OO 8.38E-01 pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Manganese-54 3.40E-01 1.35E+OO 8.00E-01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Nickel-63 -1.59E+01 3.05E+01 1.73E+01 pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Nickel-63 1.03E+01 2.72E+01 1.68E+01 pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Nickel-63 5.84E-01 2.92E+01 1.74E+01 pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Nickel-63 -8.35E+OO 3.58E+01 2.10E+01 pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Nickel-63 1.51E+01 3.72E+01 2.29E+01 pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Nickel-63 -5.38E+OO 3.68E+01 2.18E+01 pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Nickel-63 2.71E+01 1.55E-!:01 pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Nickel-63 8.90E+OO 2.66E+01 1.62E+01 pCi/L 5S2 Diablo Creek Weir(405375001)-DW 6-Sep-16 Nickel-63 3.81E+OO 2.60E+01 1.56E+01 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Nickel-63 -1.03E+01 3.43E+01 2.00E+01 pCi/L 5S2 Diablo Creek Weir(410307001)-DW 8-Nov-16 Nickel-63 -8.88E+OO 2.68E+01 1.57E+01 pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Nickel-63 1.73E+01 2.43E+01 1.53E+01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Niobium-95 1.20E+OO 2.82E+OO 1.86E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Niobium-95 9.65E-01 1.90E+OO 1.15E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Niobium-95 8.12E-01 1.85E+OO 1.52E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Niobium-95 8.69E-01 1.63E+OO 1.01E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Niobium-95 1.39E-01 1.82E+OO 1.11E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Niobium-95 8.66E-01 2.21E+OO 1.31 E+OO pCi/L 5S2*Diablo Creek Weir(402080001) -DW 19-Jul-16 Niobium-95 3.77E"'.01 2.23E+OO 1.34E+OO pCi/L 5S2 Diablo Creek Weir(40311600'.I) -DW 2-Aug-16 Niobium-95 9.36E-01 2.01E+OO 1.69E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Niobium-95 -7.86E-01 1.49E+OO 1.18E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Niobium-95 3.45E-01 1.54E+OO 9.37E-01 pCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Niobium-95 1.34E+OO 1.34E+OO 1.43E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Niobium-95 -2.93E-01 1.48E+OO 9.11 E-01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Total Strontium -1.06E-01 1.75E-01 9.86E"02 pCi/L* 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Total Strontium 1.17E-01 3.70E-01 2.26E-01 pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Total Strontium -7.38E-02 2.16E-01 1.26E-01 pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Total Strontium -1.83E-01 1.91 E-01 1.07E-01 pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Total Strontium -7.96E-02 1.83E-01 1.05E-01 pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Total Strontium 1.83E-02 3.68E-01 2.20E-01 pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Total Strontium 6.64E-02 2.59E-01 1.58E-01 pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Total Strontium -2.15E-01 2.12E-01 1.19E-01 pCi/L 5S2 Diablo Creek Weir(405375001)-DW 6-Sep-16 Total Strontium -3.39E-01 1.19E+OO 6.79E-01 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Total Strontium -6.02E-02 7.96E-01 4.68E-01 pCi/L Page 20 of92 2016 DCPP REMP Analysis Results Appendix A 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Total Strontium -3.66E-01 7.39E-01 4.10E-01 pCi/L 5S2 Diablo Creek Weir(412191003)-DW Total Strontium -5.15E-01 7.82E-01 4.07E-01 pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Tritium 4.20E+01 2.64E+02 1.59E+02 pCi/L 5S2 Diablo Creek Weir(390519004) -DW . 1-Feb-16 Tritium -8.67E+01 2.81E+o2* 1.63E+02 pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Tritium ..:5.14E+01' 2.41 E+02 1.41E+02 pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Tritium -2.53E+01 2.98E+02 1.76E+02 pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-May-16 Tritium -9.75E+01 2.80E+02
- 1.62E+02 pCi/L -5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Tritium 6.25E+01 2.38E+02 1.45E+02 pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Tritium -3.88E+01 3.08E+02 1.81E+02 pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Tritium 5.09E+OO 2.69E+02 1.60E+02 pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Tritium -8.75E+01 2.65E+02 1.54E+02 pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Tritium 1.71E+02 2.78E+02 1.76E+02 pCi/L 5S2 Diablo Creek Weir(410307001)-DW 8-Nov-16 . Tritium 1.68E+02 3.05E+02 . 1.92E+02 pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Tritium 9.28E+01 3.10E+02 1.90E+02 pCi/L 5S2 Diablo Creek Weir(389292002) DW 12-Jan-16 Zinc-65 -3.85E+OO 5.55E+OO 4.76E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Zinc-65 9.47E-01 3.96E+OO 2.36E+OO pCi/L 5S2 Diablo Creek Weir(393029001) -DW 9-Mar-16 Zinc-65 -1.41 E+OO 4.31E+OO 3.44E+OO pCi/L 5S2 Diablo Creek Weir(395275001) -DW 12-Apr-16 Zinc-65 2.26E+OO 3.24E+OO 2.24E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW 3-Mav-16 Zinc-65 -2.78E-02 3.54E+OO 2.06E+OO pCi/L 5S2 Diablo Creek Weir(399127001) -DW 7-Jun-16 Zinc-65 -1.61E+OO 3.81E+OO 2.57E+oo* pCi/L 5S2 Diablo Creek Weir(402080001) -DW 19-Jul-16 Zinc-65 -1.05E+OO 3.97E+OO 2.47E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Zinc-65 -1.19E+OO 3.54E+OO 2.23E+OO pCi/L . 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Zinc-65 -1.83E+OO 2.68E+OO 1.94E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Zinc-65 6.09E-01 2.70E+OO 1.57E+OO pCi/L Diablo Creek Weir(410307001) -DW Zinc-65 -1.03E+OO 2.80E+OO 2.23E+OO pCi/L 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Zinc-65 7.06E-01 2.50E+OO 1.65E+OO pCi/L 5S2 Diablo Creek Weir(389292002) -DW 12-Jan-16 Zirconium-95 -2.20E+OO 4.30E+OO 2.87E+OO pCi/L 5S2 Diablo Creek Weir(390519004) -DW 1-Feb-16 Zirconium-95 . 3.09E-02 2.93E+OO 1.72E+OO pCi/L
- 5S2 Diab lo Creek Weir(393029001) -DW 9-Mar-16 Zirconium-95 4.30E-01 3.47E+OO 2.05E+OO pCi/L 5S2 Diab lo Creek Weir(395275001) -DW 12-Apr-16 Zirconium-95 -8.04E-01 2.52E+OO ' 1.61E+OO pCi/L 5S2 Diablo Creek Weir(396784001) -DW ' 3-May-16 Zirconium-95 8.05E-03 3.28E+OO 2.26E+OO pCi/L 5S2 Diab lo Creek Weir(399127001) -DW 7-Jun-16 Zirconium-95 1.36E+OO 4.15E+OO 2.44E+OO pCi/L 5S2 Diablo. Creek Weir(402080001) -DW 19-Jul-16 Zirconium-95 -1.14E+OO 3.70E+OO 2.38E+OO pCi/L 5S2 Diablo Creek Weir(403116001) -DW 2-Aug-16 Zirconium-95 9.04E-01 3.21E+OO 1.90E+OO pCi/L 5S2 Diablo Creek Weir(405375001) -DW 6-Sep-16 Zirconium-95 -1.85E-01 2.52E+OO 1.55E+OO pCi/L 5S2 Diablo Creek Weir(408514001) -DW 17-0ct-16 Zirconium-95 -9.71 E-01 2.71E+OO 1.79E+OO pCi/L 5S2 Diablo Creek Weir(410307001) -DW 8-Nov-16 Zirconium-95 -1.29E+OO 2.60E+OO 2.33E+OO 5S2 Diablo Creek Weir(412191003) -DW 6-Dec-16 Zirconium-95 -1.38E+OO 2.30E+OO 1.60E+OO pCi/L 5S2 Diablo Creek Weir-Drinking Water Replicate Sample Name . Date Collected
- Nuclide Result MDC 2 Sigma TPU Units 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 BETA 3.12E+OO 3.03E+OO 1.97E+OO pCi/L 5S2 Diablo CreekWeir-R(412419001) -DW 6-Dec-,16 Barium-140 2.11E+OO 1.34E+o1
- 8.09E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16. Cesium-134 -6.52E-01 2.18E+OO 1.88E+OO
- pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Cesium-137 -2.69E-01 1.73E+OO 1.03E+OO pCi/L Page 21 of 92 2016 DCPP REMP Analysis Results Appendix A 5S2 Diablo CreekWeir-R(412419001)-DW 6-Dec-16 Cobalt-58 3.16E-01 2.00E+OO 1.15E+OO pCi/L 5S2 Diab lo Creek Weir-R(412419001) -DW 6-Dec-16 Cobalt-60 -2.91E-01 2.08E+OO 1.40E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 lodine-131 -9.22E-02 8.45E-01 5.15E-01 ' pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 lron-55 9.79E+01 1.25E+02 9.76E+01 pCi/L 5S2 Diablo Creek Weir-R(412419001)-DW 6-Dec-16 lron-59 1.0?E+OO 4.24E+OO 2.47E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001)-DW 6-Dec-16 Lanthanum-140 -1.05E+OO 4.60E+OO 2.99E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001)-DW 6-Dec-16 Manganese-54 5.91E-01 1.91E+OO 1.11 E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Nickel-63 -8.97E+OO 2.53E+01 1.48E+01 pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Niobium-95 -2.18E-01 2.02E+OO 1.20E+OO. oCi/L. 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Total Strontium -1.83E-01 6.74E-01 3.83E-01 pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Tritium -9.66E+OO -2.73E+02 1.62E+02 pCi/L 5S2 Diablo Creek Weir-R(412419001) -OW 6-Dec-16 Zinc-65 -9.39E-01 3.88E+OO 2.44E+OO pCi/L 5S2 Diablo Creek Weir-R(412419001) -DW 6-Dec-16 Zirconium-95 7.89E-01 3.91E+OO 2.25E+OO pCi/L 6C1 Household Garden -Vegetation Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 6C1 Household Garden(389804001) -VG Brdleaf 14-Jan-16 Beryllium-? 6.05E+02 5.37E+01 9.11E+01 pCi/kg 6C1 Household Garden(395137002) -VG Brdleaf 6-Apr-16 Beryllium-? 8.14E+02 7.87E+01 1.18E+02 -pCi/kg 6C1 Household Garden(389804001) -VG Brdleaf 14-Jan-16 Cesium-134 7.53E+OO 7.53E+OO 6.63E+OO pCi/kq 6C1 Household Garden(395137002)-VG Brdleaf 6-Apr-16 Cesium-134 3.69E+OO 1.12E+01 '6.72E+OO pCi/kg 6C1 Household Garden(402576003) -VG Brdleaf 25-Jul-16 Cesium-134 1.06E+OO 1.22E+01 7.0?E+OO pCi/kg 6C1 Household Garden(408794001) -VG Brdleaf 18-0ct-16 Cesium-134 2.45E-01 1.02E+01 6.24E+OO pCi/kg 6C1 _Household Garden(389804001) -VG Brdleaf 14-Jan-16 Cesium-137 4.55E-01 6.85E+OO 3.99E+OO pCi/kg 6C1 Household Garden(395137002) -VG Brdleaf 6-Apr-16 Cesium-137 5.06E+OO 1.05E+01 6.34E+OO pCi/kg 6C1 Household Garden(402576003) -VG Brdleaf 25-Jul-16 Cesium-137 3.31E+OO 1.15E+01 6.93E+OO pCi/kg 6C1 Household Garden(408794001) -VG Brdleaf 18-0ct-16 Cesium-137 5.03E+OO 1.05E+01 6.33E+OO pCi/kg 6C1 Household Garden(389804001) -VG Brdleaf 14-Jan-16 lodine-131 -5.0?E-01 1.26E+01 7.60E+OO oCi/kq 6C1 Household Garden(395137002) -VG Brdleaf 6-Apr-16 lodine-131 -2.0?E+OO 1.80E+01 1.10E+01 pCi/kg 6C1 Household Garden(402576003) -VG Brdleaf 25-Jul-16 -6.86E-01 3.30E+01 1.93E+01 ' pCi/kg 6C1 Household Garden(408794001) -VG Brdleaf 18-0ct-16 lodine-131 -3.12E+OO 1.68E+01 1.01 E+01 pCi/kg 6C1 Household Garden(389804001) -VG Brdleaf 14-Jan-16 Potassium-40 2.69E+03 6.28E+01 2.86E+02 pCi/kg 6C1 Household Garden(395137002) -VG Brdleaf 6-Apr-16 Potassium-40 4.55E+03 8.93E+01 --4.95E+02 pCi/kq 7C1 Pecha Creek Ruins -Vegetation Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 Beryllium-? 1.01E+03 1.38E+02 1.82E+02 pCi/kg 7C1 Pecha Creek Ruins(391919002) -VG Brdleaf 22-Feb-16 Beryllium-? 4.88E+02 9.80E+01 1.12E+02 oCi/kq 7C1 Pecha Creek Ruins(393318004) -VG Brdleaf 14-Mar-16 Beryllium-? 8.23E+02 7.79E+01 1.21 E+02 pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 Beryllium-? 3.91E+02 7.42E+01 9.53E+01 pCi/kg 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 Cesium-134 9.05E+OO -2.05E+01 1 :21-E+01 ' pCi/kg 7C1 Pecha Creek Ruins(391919002) -VG Brdleaf 22-Feb-16 Cesium-134 -4.17E-01 1.35E+01 8.14E+OO pCi/kg 7C1 Pecha Creek Ruins(393318004) -VG Brdleaf 14-Mar-16 Cesium-134 1.09E+OO 9.?0E+OO 6.60E+OO pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 _.Cesium-134 1.38E+OO 1.06E+01 6.30E+OO pCi/kg 7C1 Pecha Creek Ruins(396603002) -VG Brdleaf 2-May-16 Cesium-134 5.51E+OO 1.67E+01 1.04E+01 pCi/kg 7C1 Pecha Creek Ruins(399398002) -VG Brdleaf 13-Jun-16 Cesium-134 1.50E+OO 1.43E+01 9.79E+OO pCi/kg Page 22 of92 2016 DCPP REMP Analysis Results Appendix A 7C1 Pecha Creek Ruins(401965004) -VG Brdleaf 18-Jul-16 Cesium-134 -4.88E+OO 1.05E+01 1.03E+01 pCi/kg 7C1 Pecha Creek Ruins(403012004) -VG Brdleaf 1-Aug-16 Cesium-134 -1.36E+01 1.46E+01 . 1.22E+01 pCi/kg 7C1 Pecha Creek Ruins(406353002) -VG Brdleaf 19-Sep-16 Cesium-134 -9.55E+OO 1.14E+01 1.08E+01 pCi/kg 7C1 Pecha Creek Ruins(407878002) -VG Brdleaf 10-0ct-16 Cesium-134 1.86E+OO 8.29E+OO 5.52E+OO pCi/ka 7C1 Pecha Creek Ruins(410298004) -VG Brdleaf 7-Nov-16 Cesium-134 -1.36E+OO 1.02E+01 9.91E+OO pCi/kg 7C1 Pecha Creek Ruins(412059002) -VG Brdleaf 5-Dec-16 Cesium-134 -3.31 E+OO 1.06E+01 7.02E+OO pCi/kg 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 Cesium-137 -4.17E+OO 1.82E+01 1.31E+01 pCi/kg 7C1 Pecha Creek Ruins(391919002) -VG Brdleaf 22-Feb-16 Cesium-137 -1.23E+OO 1.14E+01 8.02E+OO pCi/kg 7C1 Pecha Creek Ruins(393318004) -VG Brdleaf 14-Mar-16 Cesium-137 -2.69E-01 9.77E+OO 5.80E+OO pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 Cesium-137 6.26E+OO 9.31E+OO 1.34E+01 pCi/kg 7C1 Pecha Creek Ruins(396603002) -VG Brdleaf 2-May-16 Cesium-137 -4.48E+OO 1.35E+01 8.70E+OO pCi/kg 7C1 Pecha Creek Ruins(399398002) -VG Brdleaf 13-Jun-16 Cesium-137 -3.28E+OO 1.16E+01 7.28E+OO pCi/kg 7C1 Pecha Creek Ruins(401965004) -VG Brdleaf 18-Jul-16 Cesium-137 3.27E+OO 1.00E+01 5.96E+OO pCi/kg 7C1 Pecha Creek Ruins(403012004) -VG Brdleaf 1-Aua-16 Cesium-137 4.27E-01 1.48E+01 9.80E+OO pCi/ka 7C1 Pecha Creek Ruins(406353002) -VG Brdleaf 19-Sep-16 Cesium-137 -5.20E-02 1.16E+01 7.01E+OO pCi/kg 7C1 Pecha Creek Ruins(407878002) -VG Brdleaf 10-0ct-16 Cesium-137 -1.66E+OO 8.35E+OO 5.27E+OO pCi/kg 7C1 Pecha Creek Ruins(410298004) -VG Brdleaf 7-Nov-16 Cesium-137 2.52E+OO 9.13E+OO 7.17E+OO pCi/kg 7C1 Pecha Creek Ruins(412059002) -VG Brdleaf 5-Dec-16 Cesium-137 2.35E+OO 9.04E+OO 7.74E+OO pCi/kg 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 lodine-131 -4.03E+OO 2.11E+01 1.28E+01 pCi/kg 7C1 Pecha Creek Ruins(391919002)-VG Brdleaf 22-Feb-16 lodine-131 1.84E+OO 1.30E+01 7.80E+OO pCi/kg 7C1 Pecha Creek Ruins(393318004)-VG Brdleaf 14-Mar-16 lodine-131 -2.21E+OO 1.16E+01 7.25E+OO pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 lodine-131 -1.30E-02 1.16E+01 7.02E+OO pCi/ka 7C 1 Pecha Creek Ruins(396603002) -VG Brdleaf 2-May-16 lodine-131 -6.04E+OO 1.84E+01 1.19E+01 pCi/kg 7C1 Pecha Creek Ruins(399398002) -VG Brdleaf 13-Jun-16 lodine-131 -2.65E+OO 1.43E+01 8.84E+OO pCi/ka 7C1 Pecha Creek Ruins(401965004) -VG Brdleaf 18-Jul-16 lodine-131 -3.14E+OO 1.30E+01 8.15E+OO pCi/kg 7C1 Pecha Creek Ruins(403012004) -VG Brdleaf 1-Aug-16 lodine-131 1.12E+OO 3.15E+01 1.84E+01 pCi/kg 7C1 Pecha Creek Ruins(406353002) -VG Brdleaf 19-Sep-16 lodine-131 -1.59E-01 1.29E+01 7.48E+OO pCi/kg 7C1 Pecha Creek Ruins(407878002) -VG Brdleaf 10-0ct-16 lodine-131 I 6.25E+OO 1.11E+01 6.80E+OO pCi/kg 781 Pecha Creek Ruins(410298004) -VG Brdleaf 7-Nov-16 lodine-131 -4.36E-01 1.13E+01 6.72E+OO pCi/kg 7C1 Pecha Creek Ruins(412059002) -VG Brdleaf 5-Dec-16 lodine-131 4.71E+OO 1.70E+01 9.91E+OO pCi/kg 7C1 Pecha Creek Ruins(390114007) -VG Brdleaf 25-Jan-16 Potassium-40 6.70E+03 1.63E+02 7.63E+02 pCi/kg 7C1 Pecha Creek Ruins(391919002) -VG Brdleaf 22-Feb-16 Potassium-40 6.08E+03 1.08E+02 6.40E+02 pCi/kg 7C1 Pecha Creek Ruins(393318004) -VG Brdleaf 14-Mar-16 Potassium-40 4.17E+03 9.33E+01 4.33E+02 pCi/kg 7C1 Pecha Creek Ruins(395137003) -VG Brdleaf 11-Apr-16 Potassium-40 5.96E+03 8.51E+01 5.93E+02 pCi/kg 7C1 Pecha Creek Ruins(396603002) -VG Brdleaf 2-May-.16 Potassium-40 4.75E+03 1.26E+02 5.50E+02 pCi/kg 7C1 Pecha Creek Ruins(399398002) -VG Brdleaf 13-Jun-16 Potassium-40 2.85E+03 1.17E+02 3.61E+02 pCi/kg 7C2 Rattlesnake Canyon -Aquatic Vegetation Algae Sample Name ' Date Collected Nuclide Result MDC 2 Sigma TPU Units ' 7C2 Rattlesnake Canvon(391919009) -AV Algae 17-Feb-16 Cesium-134 -3.67E-01 1.02E+01 7.10E+OO pCi/kg 7C2 Rattlesnake Canvon(395681002) -AV Algae 14-Apr-16 Cesium-134 4.04E-01 1.23E+01 7.33E+OO pCi/kg 7C2 Rattlesnake Canvon(402571002) -AV Alaae 25-Jul-16 Cesium-134 -4.16E-01 8.99E+OO 5.48E+OO pCi/ka 7C2 Rattlesnake Canyon(409724001)-AV Algae 27-0ct-16 Cesium-134 -6.11E+OO 8.83E+OO 6.49E+OO pCi/kg 7C2 Rattlesnake Canvon(391919009) -AV Algae 17-Feb-16 Cesium-137 -1.05E+OO 8.87E+OO 6.61E+OO pCi/kg 7C2 Rattlesnake Canvon(395681002) -AV Alaae 14-Apr-16 Cesium-137 6.45E+OO 1.20E+01 7.11E+OO pCi/ka Page 23 of92 L 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canvon(402571002) -AV Algae 25-Jul-16 Cesium-137 -3.79E+OO 9.78E+OO 6.95E+OO pCi/kg 7C2 Rattlesnake Canvon(409724001)-AVAlgae 27-0ct-16 Cesium-137 -2.12E+OO 8.56E+OO 5.65E+OO pCi/kg 7C2 Rattlesnake Canyon(391919009) Algae 17-Feb-16 Cobalt-58 -1.79E+OO 9.00E+OO 5.64E+OO pCi/kg 7C2 Rattlesnake Canyon(395681002) -AV Algae 14-Apr-16 Cobalt-58 -4.10E+OO 1.02E+01 6.87E+OO pCi/kg 7C2 Rattlesnake Canyon(402571002)-AV Algae 25-Jul-16 Cobalt-58 -3.74E+OO 8.40E+OO 5.75E+OO pCi/kg 7C2 Rattlesnake Canyon(409724001) -AV Algae 27-0ct-16 Cobalt-58 4.91E+OO 1.05E+01 6.00E+OO pCi/kg 7C2 Rattlesnake Canvon(391919009) -AV Algae 17-Feb-16 Cobalt-60 -6.14E+OO 7.85E+OO 6.25E+OO pCi/kg 7C2 Rattlesnake Canyon(395681002) -AV Algae 14-Apr-16 Cobalt-60 *. 7.76E+OO 1.52E+01 8.85E+OO pCi/kg 7C2 Rattlesnake Canyon(402571002) -AV Algae 25-Jul-16 Cobalt-60 -2.18E+OO 8.72E+OO 5.59E+OO pCi/kg 7C2 Rattlesnake Canyon(409724001) -AV Algae 27-0ct-16 Cobalt-60 2.42E+OO 1.09E+01 6.34E+OO pCi/kg 7C2 Rattlesnake Canyon(391919009) -AV Algae 17-Feb-16 Potassium-40 3.23E+03 6.93E+01 3.68E+02 pCi/kg 7C2 Rattlesnake Canyon(395681002) -AV Algae 14-Apr-16 Potassium-40 3.49E+03 9.31 E+01 4.15E+02 pCi/kg 7C2R I k c attesna e A . V anvon -,quat1c eQetat1on Kl e1p Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canvon(393320001) -AV Kelp 10-Mar-16 Cesium-134 -1.41E+OO 1.63E+01 9.74E+OO pCi/kg 7C2 Rattlesnake Canvon(395790002) -AV Kelp 18-Apr-16 Cesium-134 -7.82E+OO 1.54E+01 1.06E+01 pCi/kg 7C2 Rattlesnake Canyon(401652001)-AV Kelp 11-Jul-16 Cesium-134 -5.93E-01 1.07E+01 6.60E+OO pCi/kg 7C2 Rattlesnake Canyon(408321001) -AV Kelp 11-0ct-16 Cesium-134 1.39E-01 8.98E+OO 5.54E+OO pCi/kg 7C2 Rattlesnake Canyon(393320001) -AV Kelp 10-Mar-16 Cesium-137 5.64E+OO 1.47E+01 8.58E+OO pCi/kg 7C2 Rattlesnake Canyon(395790002) -AV Kelp 18-Apr-16 Cesium-137 5.48E+OO 1.50E+01 8.81 E+OO pCi/kg 7C2 Rattlesnake Canyon(401652Q01) -AV Kelp 11-Jul-16 Cesium-137 1.20E+OO 9.16E+OO 5.36E+OO pCi/kQ 7C2 Rattlesnake Canyon(408321001) -AV Kelp 11-0ct-16 Cesium-137 -3.18E-01 8.03E+OO 4.92E+OO pCi/kg 7C2 Rattlesnake Canyon(393320001) -AV Kelp 10-Mar-16 Cobalt-58 2.49E+OO 1.35E+01 7.84E+OO pCi/kQ 7C2 Rattlesnake Canyon(395790002) -AV Kelp 18-Apr-16 Cobalt-58 -1.11E+OO 1.53E+01 9.32E+OO pCi/kg 7C2 Rattlesnake Canvon(401652001) -AV Kelp 11-Jul-16 Cobalt-58 -4.06E-01 1.02E+01 6.04E+OO pCi/kg 7C2 Rattlesnake Canvon(408321001)-AV Keio 11-0ct-16 Cobalt-58 -3.24E+OO 9.13E+OO 6.81 E+OO pCi/kg 7C2 Rattlesnake Canyon(393320001) -AV Kelp 10-Mar-16 Cobalt-60 2.92E-01 1.80E+01 1.05E+01 pCi/kgJ 7C2 Rattlesnake Canyon(395790002) -AV Kelp 18-Apr-16 Cobalt-60 -1.10E+OO 1.54E+01 9.26E+OO pCi/kg 7C2 Rattlesnake Canyon(401652001) -AV Kelp 11-Jul-16 Cobalt-60 -2.43E+OO 1.06E+01 6.58E+OO pCi/kg 7C2 Rattlesnake Canyon(408321001) -AV Kelp 11-0ct-16 Cobalt-60 4.23E+OO 1.08E+01 6.34E+OO _pCi/kg 7C2 Rattlesnake Canvon(393320001) -AV Kelp 10-Mar-16 Potassium-40 1.54E+04 1.17E+02 1.43E+03 pCi/kg 7C2 Rattlesnake Canyon(395790002) -AV Kelp 18-Apr-16 Potassium-40 1.22E+04 1.14E+02 1.17E+03 pCi/kg 7C2 Rattlesnake Canyon -Fish Perch Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Cesium-134 -3.28E+OO 6.42E+OO 6.17E+OO
- pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Cesium-134 2.26E+OO 6.41E+OO 3.77E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 Cesium-134 -2.23E-01 4.90E+OO 2.85E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Cesium-134 9.92E-01 4.34E+OO 2.59E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Cesium-137 5.70E+OO 6.21E+OO 6.12E+OO pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Cesium-137 3:03E+OO 5.52E+OO 5.54E+OO pCi/kQ 7C2 Rattlesnake Canvon(404224003) -FH Perch 11-Aug-16 Cesium-137 2.34E+OO 4.85E+OO 2.97E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Cesium-137 3.57E+OO 3.57E+OO 5.70E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch ._ 23-Feb-16 Cobalt-58 -2.42E-01 5.57E+OO 3.61E+OO pCi/kg Page 24 of92 L 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Cobalt-58 -4.77E-01 5.82E+OO 3.43E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 Cobalt-58 -7.69E-01 4.67E+OO 2.78E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Cobalt-58 -7.18E-02 3.91E+OO 2.39E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 . Cobalt-60 -5.42E-01 7.42E+OO 5.38E+OO pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Cobalt-60 -3.24E+OO 5.75E+OO 4.64E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 Cobalt-60 8.85E-01 4.98E+OO 2.95E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Cobalt-60 8.18E-01 4.24E+OO 2.44E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 lron-59 7.93E+OO 1.44E+01 1.04E+01 pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 lron-59 4.31E+OO 1.38E+01 8.20E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 lron-59 -1.82E+01 1.17E+01 1.21E+01 pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 lron-59 2.85E+OO 1.06E+01 6.09E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Manganese-54 -2.95E-01 5.94E+OO 3.63E+OO pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Manganese-54 -4.15E-01 5.51E+OO 3.25E+OO pCi/kg 7C2 Rattlesnake Canvon(404224003) -FH Perch 11-Auq-16 Manqanese-54 1.93E-02 4.84E+OO 3.82E+OO pCi/kq 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Manganese-54 2.03E+OO 4.28E+OO 2.62E+OO pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Potassium-40 3.38E+03 5.06E+01 3.46E+02 pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Potassium-40 3.59E+03 4.52E+01 3.37E+02 pCi/kg 7C2 Rattlesnake Canyon(392102005) -FH Perch 23-Feb-16 Zinc-65 -5.68E+OO 1.46E+01 9.37E+OO pCi/kg 7C2 Rattlesnake Canyon(397703004) -FH Perch 10-May-16 Zinc-65 -3.30E+OO 1.22E+01 7.64E+OO pCi/kg 7C2 Rattlesnake Canyon(404224003) -FH Perch 11-Aug-16 Zinc-65 1.37E+OO 1.20E+01 7.07E+OO pCi/kg 7C2 Rattlesnake Canyon(408192005) -FH Perch 7-0ct-16 Zinc-65 7.64E+OO 9.52E+OO 8.88E+OO pCi/kg 7C2 Rattlesnake Canyon -Rockfish Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units 7C2 Rattlesnake Canvon(392102001)-FH Rockfsh 23-Feb-16 Cesium-134 4.30E+OO 1.80E+01 1.04E+01 pCi/kg 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 10-May-16 Cesium-134 -3.80E-02 4.78E+OO 3.08E+OO pCi/kg 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 Cesium-134 8.26E-01 5.22E+OO 3.17E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001)-FH Rockfsh 7-0ct-16 Cesium-134 1.79E+OO 5.45E+OO 3.25E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 Cesium-137 1.01 E+01 1.55E+01 1.40E+01 pCi/kg 7C2 Rattlesnake Canvon(397703003) -FH Rockfsh 10-May-16 Cesium-137 3.58E+OO 5.21E+OO 3.36E+OO pCi/kg 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 Cesium-137 4.38E+OO 4.38E+OO 4.77E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 Cesium-137 4.31E+OO 5.24E+OO 3.66E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 Cobalt-58 -6.29E+OO 1.62E+01 1.02E+01 pCi/kg 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 1 O-May-16 Cobalt-58 -1.05E+OO 4.32E+OO 4.60E+OO pCi/kg 7C2 Rattlesnake Canvon(404224007) -FH Rockfsh 11-Aug-16 Cobalt-58 -1.86E-01 5.39E+OO 3.34E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 Cobalt-58 2.23E+OO 5.62E+OO 3.37E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001)-FH Rockfsh 23-Feb-16 Cobalt-60 -8.00E-01 1.38E+01 8.43E+OO pCi/kg 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 10-May-16 Cobalt-60 6.19E-01 5.64E+OO 3.26E+OO pCi/kg 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 Cobalt-60 4.33E-03 5.22E+OO 3.12E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 Cobalt-60 -1.05E+OO 5.12E+OO 3.12E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 lron-59 7.03E+OO 3.27E+01 1.92E+01 pCi/kg 7C2 Rattlesnake Canvon(397703003) -FH Rockfsh 10-May-16 lron-59 -4.99E+OO 1.13E+01 7.59E+OO pCi/kq 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 lron-59 7.14E+OO 1.61 E+01 9.63E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 lron-59 1.22E+OO 1.47E+01 9.00E+OO pCi/kg 7C2 Rattlesnake Canvon(392102001) -FH Rockfsh 23-Feb-16 Manganese-54 -2.62E-01 1.71E+01 1.00E+01 pCi/kq Page 25 of92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 10-May-16 Manganese-54 -4.14E-01 4.71E+OO 3.42E+OO pCi/kg 7C2 Rattlesnake Canvon(404224007) -FH Rockfsh 11-Aug-16 Manganese-54 -2.48E+OO 4.36E+OO 3.15E+OO pCi/kg 7C2 Rattlesnake Canvon(408192001) -FH Rockfsh 7-0ct-16 Manganese-54 3.07E+OO 5.43E+OO 3.35E+OO pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 Potassium-40 3.46E+03 1.28E+02 4.07E+02 pCi/kg 7C2 Rattlesnake Canyon(397703003) -FH Rockfsh 10-May-16 Potassium-40 3.57E+03 4.20E+01 3.44E+02 pCi/kg 7C2 Rattlesnake Canyon(392102001) -FH Rockfsh 23-Feb-16 Zinc-65 3.95E+OO 3.20E+01 1.88E+01 pCi/kg 7C2 Rattlesnake Canvon(397703003) -FH Rockfsh 10-May-16 Zinc-65 7.70E-01 1.18E+01 8.16E+OO pCi/kg 7C2 Rattlesnake Canyon(404224007) -FH Rockfsh 11-Aug-16 Zinc-65 1.74E+OO 1.27E+01 7.37E+OO pCi/kg 7C2 Rattlesnake Canyon(408192001) -FH Rockfsh 7-0ct-16 Zinc-65 -7.43E+OO 1.20E+01 1.09E+01 oCi/ka 7C2 Rattlesnake Canyon -Intertidal Mussel Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canvon(391919008) -IM 17-Feb-16 Cesium-134 -1.56E+OO 5.21E+OO 3.21E+OO pCi/kg 7C2 Rattlesnake Canvon(395681001) -IM 14-Apr-16 Cesium-134 1.34E-01 4.51E+OO 2.70E+OO oCi/kQ 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-16 Cesium-134 -1.51E+OO 4.65E+OO 3.01E+OO pCi/kg 7C2 Rattlesnake Canvon(409724002) -IM 27-0ct-16 Cesium-134 -4.78E-01 5.01E+OO 4.57E+OO pCi/kg 7C2 Rattlesnake Canvon(391919008) -IM 17-Feb-16 Cesium-137 2.68E+OO 5.16E+OO 4.65E+OO pCi/kg 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Cesium-137 2.10E+OO 4.41E+OO 2.67E+OO pCi/kg 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-16 Cesium-137 1.04E+OO 4.87E+OO 2.85E+OO pCi/ka 7C2 Rattlesnake Canyon(409724002) -IM 27-0ct-16 Cesium-137 4.25E+OO 4.25E+OO 4.93E+OO pCi/kg 7C2 Rattlesnake Canyon(391919008)-IM 17-Feb-16 Cobalt-58 -3.49E-01 5.11E+OO 3.01E+OO pCi/kg 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Cobalt-58 7.02E-01 4.18E+OO 2.49E+OO pCi/kg 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-16 Cobalt-58 4.57E-01 5.18E+OO 3.55E+OO pCi/kg 7C2 Rattlesnake Canvon(409724002) -IM 27-0ct-16 Cobalt-58 1.93E-01 4.65E+OO 2.70E+OO pCi/kQ 7C2 Rattlesnake Canvon(391919008) -IM 17-Feb-16 Cobalt-60 -7.51 E-01 4.84E+OO 3.01E+OO pCi/kg 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Cobalt-60 4.97E+OO 4.97E+OO 4.54E+OO pCi/kg 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-16 Cobalt-60 2.73E-01 5.62E+OO 3.33E+OO pCi/ka 7C2 Rattlesnake Canyon(409724002) -IM 27-0ct"16 Cobalt-60 1.08E+OO 4.65E+OO 2.74E+OO pCi/kg 7C2 Rattlesnake Canyon(391919008) -IM 17-Feb-16 lron-59 -1.62E-01 1.02E+01 6.08E+OO pCi/kg 7C2 Rattlesnake Canvon(395681001) -IM 14-Apr-16 lron-59 3.67E+OO 9.99E+OO 5.92E+OO pCi/kg 7C2 Rattlesnake Canvon(402571001) -IM 25-Jul-16 lron-59 3.74E+OO 1.26E+01 8.38E+OO pCi/kg 7C2 Rattlesnake Canvon(409724002) -IM 27-0ct-16 lron-59 -7.27E-02 9.31E+OO 5.55E+OO pCi/ka 7C2 Rattlesnake Canyon(391919008) -IM 17-Feb-16 Manganese-54 2.88E-01 4.92E+OO 2.86E+OO pCi/kg 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Manganese-54 -3.75E+OO 3.86E+OO 3.11E+OO pCi/kg 7C2 Rattlesnake Canvon(402571001) -IM 25-Jul-16 Manganese-54 -1.78E+OO 4.50E+OO 2.98E+OO pCi/kg 7C2 Rattlesnake Canyon(409724002) -IM 27-0ct-16 Manganese-54 1.18E+OO 4.70E+OO 2.72E+OO pCi/kg 7C2 Rattlesnake Canyon(391919008) -IM 17-Feb-16 Potassium-40 1.31E+03 4.43E+01 1.48E+02 pCi/ka 7C2 Rattlesnake Canyon(395681001) -IM 14-Apr-16 Potassium-40 1.51E+03 3.77E+01 1.71E+02 pCi/kg 7C2 Rattlesnake Canyon(391919008) -IM 17-Feb-16 Zinc-65 -2.18E-01 9.51E+OO 6.62E+OO pCi/kg 7C2 Rattlesnake Canvon(395681001) -IM 14-Apr-16 Zinc-65 2.14E+OO 9.53E+OO 6.38E+OO pCi/kg 7C2 Rattlesnake Canyon(402571001) -IM 25-Jul-1.6 Zinc-65 1.59E+OO 1.21E+01 7.02E+OO pCi/kg 7C2 Rattlesnake Canvon(409724002) -IM 27-0ct-16 Zinc-65 1.30E-01 9.28E+OO 5.52E+OO pCi/kg Page 26 of 92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon -Ocean Sediment Sample Name Date Collected Nuclide-. Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Actinium-228 5.86E+02 1.23E+02 2.17E+02 pCi/kg 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Barium-140 4.44E+01 2.94E+02 1.68E+02 oCi/kq 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Bismuth-214 5.43E+02 1.05E+02 1.48E+02 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Cesium-134 -1.75E+01 5.70E+01 3.65E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Cesium-137 3.33E+01 . 5.92E+01 3.31E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Cobalt-58 -1.02E+01 5.54E+01 3.40E+01 pCi/kg 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Cobalt-60 2.82E+OO 5.77E+01 3.33E+01 pCi/kq 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 lron-55 -3.09E+03 9.66E+03 6.95E+03 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 lron-59 2.27E+01 1.34E+02 7.45E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Lanthanum-140 -3.64E+01 7.09E+01 5.80E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Lead-212 5.16E+02 6.89E+01 1.08E+02 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Lead-214 7.03E+02 7.75E+01 1.48E+02 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Manganese-54 5.61E+OO 5.06E+01 2.88E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Nickel-63 -1.34E+03 2.42E+03 1.41E+03 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Niobium-95 1.52E+01 6.33E+01 3.53E+01 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Potassium-40 1.06E+04 4.34E+02 1.63E+03 pCi/kg 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Thallium-208 2.15E+02 4.84E+01 6.46E+01 oCi/kq 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Total Strontium -1.52E+02 1.31E+03 7.48E+02 pCi/kg 7C2 Rattlesnake Canyon(392306001) -SD 23-Feb-16 Zinc-65 2.02E+01 1.19E+02 7.51 E+01 pCi/kg 7C2 Rattlesnake Canvon(392306001) -SD 23-Feb-16 Zirconium-95 2.91E+01 9.34E+01 5.11E+01 pCi/kq 7C2 R ttl k c a esna e anyon -s eawa er Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 BETA 3.39E+02 2.02E+02 1.41 E+02 pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 BETA 2.05E+02 2.20E+02. 1.43E+02 pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 BETA 2.83E+02 1.43E+02 1.07E+02 pCi/L 7C2 Rattlesnake Canyon(395898001 )-SW 18-Apr-16 BETA 2.05E+02 1.00E+02 7.82E+01 pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 BETA 6.35E+02 -1.34E+02 1.45E+02 pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 *BETA 3.30E+02 1.42E+02 1.11E+02 pCi/L 7C2 Rattlesnake Canvon(401793003) -SW 11-Jul-16 BETA 2.91E+02 1.31E+02 1.00E+02 oCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 BETA 2.44E+02 1.29E+02 . 9.37E+01 pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 BETA 1.62E+02 8.41E+01 6.35E+01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 BETA 4.98E+02 1.53E+02
- 1.34E+02 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 BETA 2.06E+02 1.25E+02 8.80E+01 pCi/L 7C2 Rattlesnake Canvon(412549002) -SW 7-Dec-16 BETA* 2.47E+02 9.86E+01 8.04E+01 oCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Barium-140 .1.70E+OO 1.16E+01 6.80E+OO pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 Barium-140 4.50E+OO 1.59E+01 9.24E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Barium-140 -1.12E+OO 1.08E+01 6.52E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Barium-140 8.85E-01 1.15E+01 6.79E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-Mav-16 Barium-140 -7.52E-01 9.94E+OO 5.86E+OO pCi/L
- 7C2 Rattlesnake Canyon(39913000.1) -SW 6-Jun-16 Barium-140 3.57E+OO 1.10E+01 6.74E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Barium-140 5.94E-01 1.15E+01 7.03E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Auci-16 Barium-140 1.44E-01 1.21E+01 7.17E+OO oCi/L Page 27 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Barium,,_140 -2.04E+OO 7.23E+OO 5.17E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Barium-140 -6.39E-01 8.66E+OO 5.10E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Barium-140 5.19E+OO 1.12E+01 6.74E+OO pCi/L 7C2 Rattlesnake Canvon(412549002) -SW 7-Dec-16 Barium-140 1.55E+OO 9.43E+OO 5.58E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Cesium-134 4.51E-01 2.36E+OO 1.42E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW \__ 8-Feb-16 Cesium-134 -8.95E-03 2.32E+OO 1.37E+OO pCi/L 7C2 Rattlesnake Canyon(393316002)-SW 10-Mar-16 Cesium-134 1 .. 50E+OO 2.43E+OO 1.73E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Cesium-134 8.65E-03 2.26E+OO 1.32E+OO pCi/L 7C2 Rattlesnake Canvon(397479003) -SW 10-Mav-16 Cesium-134 -3.77E-01 1.83E+OO 1.13E+OO pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Cesium-134 1.68E-01 1.84E+OO 1.09E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Cesium-134 9.66E-01 2.05E+OO 1.25E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Cesium-134 2.45E+OO 2.14E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Cesium-134 -4.71E-01 1.42E+OO 9.48E-01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Cesium-134 -2.07E-01 1.38E+OO 8.45E-01 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Cesium-134 2.44E-01 2.00E+OO 1.20E+OO pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Cesium-134 -1.49E-01 1.77E+OO 1.04E+OO pCi/L 7C2 Rattlesnake Canvon(390114002) -SW 21-Jan-16 Cesium-137 -6.07E-01 ' 2.37E+OO 1.84E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Cesium-137 -1.26E+OO 1.98E+OO 1.37E+OO pCi/L 7C2 Rattlesnake Canvon(393316002) -SW 10-Mar-16 Cesium-137 -1.07E-01 2.13E+OO 1.29E+OO pCi/L 7C2 Rattlesnake Canvon(395898001) -SW 18-Apr-16 Cesium-137 4.05E-01 2.07E+OO 1.67E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Cesium-137 1.16E-01 1.81E+OO 1.07E+OO pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Cesium-137 8.86E-02 1.71E+OO 1.00E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Cesium-137 -1.02E-01 1.76E+OO 1.20E+OO pCi/L 7.C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Cesium-137 -6.56E-02 2.25E+OO 1.36E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Cesium-137 8.35E-01 1.51E+OO 2.14E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 cesium-137 -2.03E-01 1.56E+OO 9,37E-01 I pCi/L 7C2 Rattlesnake Canvon( 411426002) -SW 22-Nov-16 * 'Cesium-137 -1.48E-01 1.89E+OO 1.30E+OO pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Cesium-137 6.23E-01 1.77E+OO 1.07E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Cobalt-58 -1.40E-01 2.23E+OO 1.58E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -*sw 8-Feb-16 Cobalt-58 -2.90E+OO 2.25E+OO 3.97E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Cobalt-58 -5.17E-02 2.02E+OO 1.24E+OO pCi/L 7C2 Rattlesnake Canvon(395898001) -SW 18-Apr-16 Cobalt-58 -3.65E-01 2.00E+OO 1.20E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW i 10-May-16 Cobalt-58 -3.85E-01 , 1.73E+OO 1.08E+OO pCi/L 7C2 Rattlesnake Canyon(399130001)-SW 6-Jun-16 Cobalt-58 7.18E-01 1.93E+OO 1.16E+OO pCi/L 7C2 Rattlesnake Canyon(401793003)-SW 11-Jul-16 Cobalt-58 -2.01 E-01 1.82E+OO 1.10E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Cobalt-58 1.67E-01 ** 2.05E+OO 1.53E+OO pCi/L 7C2 Rattlesnake Canvon(406175002) -SW 12-Sep-16 Cobalt-58 -4.09E-01 1.37E+OO 9.58E-01 pCi/L 7C2 Rattlesnake Canvon(408409001) -SW 11-0ct-16 Cobalt-58 3.41E-02 1.41E+OO 8.42E-01 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Cobalt-58 -2.52E-01 1.93E+OO 1.21E+OO pCi/L' 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Cobalt-58 1.98E-01 1.70E+OO 9.71E-01 pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Cobalt-60 5.24E-02 2.36E+OO 1.42E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Cobalt-60 -3.47E-01 2.38E+OO 1.42E+OO oCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Cobalt-60 8.59E-01 2.19E+OO 1.30E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16
- Cobalt-60 -2.77E-01 2.24E+OO . 1.39E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-Mav-16 Cobalt-60 -8.07E-02 1.72E+OO 1.03E+OO pCi/L Page 28 of 92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 Cobalt-60 1.37E-01 1.82E+OO 1.08E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Cobalt-60 -3.91E-01 1.80E+OO 1.12E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Cobalt-60 1.86E-01 2.26E+OO 1.36E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Cobalt-60 -1.08E+OO 1.44E+OO 1.45E+OO oCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Cobalt-60 -1.24E+OO 1.48E+OO 1.54E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Cobalt-60 -8.53E-01 1.70E+OO 1.16E+OO pCi/L 7C2 Rattlesnake Canvon(412549002)-SW 7-Dec-16 Cobalt-60 5.29E-01 1.85E+OO 1.10E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 lodine-131 -3.68E-01 4.21E+OO 2.96E+OO pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 lodine-131 -5.99E+OO 6.74E+OO 5.14E+OO oCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 lodine-131 -7.28E-01 3.81 E+OO 2.31E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 lodine-131 -3.50E+OO 3.99E+OO 3.06E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 lodine-131 8.23E-01 3.75E+OO 2.26E+OO pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 lodine-131 3.25E+OO 4.53E+OO
- 2.97E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 lodine-131 1..09E+OO 4.71E+OO 2.81E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW -15-Aug-16 lodine-131 2.10E-01 4.58E+OO 2.79E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW / 12-Sep-16 lodine-131 2.45E-01 2.75E+OO 1.62E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW
- 11-0ct-16 lodine-131 -1.02E+OO 3.43E+OO 2.06E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 lodine-131 3.21E-01 3.88E+OO 2.25E+OO pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 lodine-131 -2.66E-01 3.42E+OO 1.99E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 lron-55 -2.63E+OO 4.31E+01 2.87E+01 pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 lron-55 -1.20E+01 5.65E+01 4.06E+01 pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 lron-55 3.54E+01 5.80E+01 4.44E+01 oCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 lron-55 -9.87E+01 1.22E+02 8.37E+01 pCifL 7C2 Rattlesnake Canyon(397 479003) -SW 10-May-16 lron-55 -1.70E+01 1.08E+02 7.36E+01 pCi/L 7C2 Rattlesnake Canyon(399130001) -SW _6-Jun-16 lron-55 2.31E+01 1.48E+02 1.03E+02 pCi/L 7C2 Rattlesnake Canvon(401793003) -SW 11-Jul-16 lron-55 2.31 E+01 7.93E+01 5.48E+01 pCi/L 7C2 Rattlesnake Canvon(404222003) -SW 15-Auo-16 lron-55 3.80E+OO 1.04E+02 7.15E+01 pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 lron-55 3.49E+01 1.09E+02 8.06E+01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 lron-55 -5.53E+01 *8.73E+01 6.42E+01 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 lron-55 4.75E+01 1.19E+02 8.88E+01 pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7"-Dec-16' lron-55 5.23E+01 9.40E+01 7.33E+01 pCi/L 7C2 Rattlesnake Canvon(390114002) -SW 21-Jan-16 lron-59 3.27E+OO 5.06E+OO 3.21E+OO .. pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 lron-59 3.08E+OO 5.38E+OO 5.22E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -.SW 10-Mar-16 lron-59 -8.89E-01 4.44E+OO 2.71E+OO pCi/L 7C2 Rattlesnake Canvon(395898001) -SW 18-Apr-16 lron-59 1.15E+OO 4.63E+OO 2.74E+OO pCi/L 7C2 Rattlesnake Canvon(397479003) -SW 10-May-16 lron-59 7.65E-01 3.75E+OO 2.20E+OO pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 lrori-59 6.42E-01 4.29E+OO 2.49E+OO* pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 lron-59 1.1'2E+OO 4.13E+OO 2.40E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 lron-59 1.19E+OO 4.78E+OO 2.82E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 lron-59 -5.87E-01 2.98E+OO 1.83E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 lron-59 5.11 E-02 2.97E+OO 1.81E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 lron-59 -1.43E-01 3.52E+OO 2.34E+OO pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 lron-59 -1.62E+OO 3.15Et00 2.16E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Lanthanum-140 -5.95E-01 3.72E+OO 2.54E+OO pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 Lanthanum-140 -1.14E+OO 5.08E+OO 3.69E+OO oCi/L Page 29 of92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Lanthanum-140 5.78E-01 3.47E+OO 2.05E+OO *-pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Lanthanum-140 -3.19E-01 3.77E+OO 2.27E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Lanthanum-140 -4.45E-01 2.92E+OO 2.06E+OO pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Juri-16 Lanthanum-140 4.49E-01 3.42E+OO 2.03E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Lanthanum-140 4.41 E-01 3.84E+OO 2.29E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Lanthanum-140 -6.05E-01 3.85E+OO 2.36E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Lanthanum-140 -1.02E+OO 2.09E+OO 1.47E+OO pCi/L 7C2 Rattlesnake Canvon(408409001) -SW 11-0ct-16 Lanthanum-140 -7.19E-01 2.17E+OO 1.39E+OO pCi/L 7C2 Rattlesnake Canvon(411426002)-SW 22-Nov-16 Lanthanum-140 -5.61E-02 3.62E+OO 2.17E+OO pCi/L 7C2 Rattlesnake Canvon(412549002)-SW 7-Dec-16 Lanthanum-140 -6.43E-01 2.98E+OO 1.84E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Manganese-54 -6.70E-04 2.12E+OO 1.29E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Manganese-54 4.44E-01 2.22E+OO 1.31E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Manganese-54 2.57E-01 2.15E+OO 1.25E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Manganese-54 -5.68E-01 2.14E+OO 1.31E+OO oCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Manganese-54 -5.56E-02 1.70E+OO 1.03E+OO pCi/L 7C2 Rattlesnake Canyon(399130001)-SW 6-Jun-16 Manganese-54 1.32E-01 1.76E+OO 1.05E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Manganese-54 -2.86E-01 1.70E+OO 1.04E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Manganese-54 -1.39E+OO 2.03E+OO 1.73E+OO pCi/L 7C2 Rattlesnake Canvon(406175002) -SW 12-Sep-16 Manoanese-54 7.01E-01 1.44E+OO 8.48E-01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Manganese-54 -2.45E-01 1.36E+OO 8.42E-01 pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Manganese-54 -4.18E-01 1.70E+OO 1.10E+OO pCi/L 7C2 Rattlesnake Canvon(412549002) -SW 7-Dec-16 Manoanese-54 3.30E-01 1.72E+OO 9.86E-01 pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Nickel-63 -1.64E+01 3.43E+01 1.98E+01 pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Nickel-63 -2.80E+OO 2.92E+01 1.73E+01 oCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Nickel-63 1.78E+OO 2.55E+01 1.53E+01 pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Nickel-63 3.25E-01 3.14E+01 1.87E+01 pCi/L 7C2 Rattlesnake Canvon(397479003) -SW 10-Mav-16 Nickel-63 9.78E+OO 3.13E+01 1.91E+01 pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 Nickel-63 -1.90E+OO 2.89E+01 1.72E+01 pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Nickel-63 6.33E+OO 3.90E+01 2.36E+01 pCi/L 7C2 Rattlesnake Canyon(404222003) -SW Nickel-63 8.34E+OO 1.56E+01 9.71E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Nickel-63 6.73E+OO 3.03E+01 1.83E+01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Nickel-63 1.17E+OO 2.73E+01 1.63E+01 pCi/L 7C2 Rattlesnake Canvon(411426002) -SW 22-Nov-16 Nickel-63 -1.68E+01 3.99E+01 2.33E+01 pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Nickel-63 -1.69E-01 2.13E+01 1.27E+01 pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Niobium-95 5.17E-01 2.23E+OO 2.29E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Niobium-95 -3.94E-01 2.52E+OO 2.42E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Niobium-95 8.12E-01 2.24E+OO 1.36E+OO pCi/L 7C2 Rattlesnake Canvon(395898001) -SW 18-Apr-16 Niobium-95 4.60E-01 2.31E+OO 1.64E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Niobium-95 8.68E-01 1.82E+OO 1.26E+OO pCi/L
- 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Niobium-95 1.14E-01 1.84E+OO 1.09E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW , 11-Jul-16 Niobium-95 7.61E-01 1.91E+OO 1.14E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW Niobium-95 5.75E-02 2.17E+OO 1.57E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Niobium-95 6.82E-01 1.61E+OO 9.42E-01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Niobium-95 2.12E-01 1.60E+OO 9.47E-01 pCi/L 7C2 Rattlesnake Canvon( 411426002) -SW 22-Nov-16 Niobium-95 -1.51 E-01 2.07E+OO 1.27E+OO pCi/L Page 30 of92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Niobium-95 2.83E-01 1.79E+OO 1.09E+OO pCi/l.:. 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Potassium-40 3.28E+02 2.07E+01 5.09E+01 pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Potassium-40 3.28E+02 1.97E+01 4.71E+01 pCi/L 7C2 Rattlesnake Canvon(393316002) -SW 10-Mar-16 Potassium-40 3.81 E+02 1.93E+01 4.91 E+01 pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Potassium-40 3.34E+02 2.04E+01 5.13E+01 pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Potassium-40 3.09E+02 1.67E+01 4.57E+01 pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Potassium-40 3.58E+02 1.80E+01 4.78E+01 pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Total Strontium 1.79E+OO 3.67E+OO 2.28E+OO pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 Total Strontium 2.42E+OO 3.99E+OO 2.53E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Total Strontium -2.03E+OO 2.87E+OO 1.63E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Total Strontium -2.61E+OO 3.75E+OO 2.14E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Total Strontium 2.26E-01 1.69E+OO 1.02E+OO pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Total Strontium -6.89E-01 2.26E+OO 1.32E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Total Strontium -3.65E-01 1.94E+OO 1.14E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Total Strontium -2.10E-01 1.41E+OO 8.31E-01 pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Total Strontium -2.63E-01 1.17E+OO 6.80E-01 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Total Strontium -2.19E+OO 3.23E+OO 1.85E+OO pCi/L 7C2 Rattlesnake Canyon(411426002) -SW 22-Nov-16 Total Strontium -1.80E+OO 2.55E+OO 1.47E+OO pCi/L 7C2 Rattlesnake Canvon(41.2549002) -SW 7-Dec-16 Total Strontium -1.62E+OO 2.13E+OO 1.21 E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Tritium -7.32E+01 2.76E+02 1.61E+02 pCi/L 7C2 Rattlesnake Canvon(391320001) -SW 8-Feb-16 Tritium 1.19E+02 2.35E+02 1.49E+02 pCi/L 7C2 Rattlesnake Canvon(393316002) -SW 10-Mar-16 Tritium 4.65E+OO 2.71E+02 1.62E+02 pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Tritium -2.12E+02 3.10E+02 1.76E+02 pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Tritium -7.88E+OO 2.67E+02 1.59E+02 pCi/L 7C2 Rattlesnake Canyon(399130001) -SW 6-Jun-16 Tritium 9.85E+01 2.43E+02 1.50E+02 pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Tritium 1.32E+02 2.60E+02 1.64E+02 pCi/L 7C2 Rattlesnake Canvon(404222003) -SW 15-Aug-16 Tritium 2.98E-01 2.62E+02 1.56E+02 pCi/L 7C2 Rattlesnake Canvon(406175002) -SW 12-Sep-16 Tritium -1.18E+02 2.74E+02 1.58E+02 pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Tritium -1.23E+01 2.89E+02 1.72E+02 pCi/L 7C2 Rattlesnake Canyon( 411426002) -SW 22-Nov-16 Tritium 1.13E+02 2.87E+02 1.77E+02 pCi/L 7C2 Rattlesnake Canyon(412549002) -SW 7-Dec-16 Tritium -7.19E+OO 2.90E+02 1.73E+02 pCi/L 7C2 Rattlesnake Canvon(390114002) -SW 21-Jan-16 Zinc-65 1.19E+OO 5.00E+OO 2.95E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Zinc-65 -4.10E-01 4.33E+OO 2.66E+OO pCi/L 7C2 Rattlesnake Canyon(393316002) -SW 10-Mar-16 Zinc-65 1.40E+OO 4.64E+OO 2.73E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Zinc-65 2.89E+OO 4.83E+OO 3.36E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Zinc-65 -1.07E+OO 3.74E+OO 2.79E+OO pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 Zinc-65 -1.11E+OO 3.91E+OO 2.42E+OO pCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Zinc-65 -1.13E+OO 3.89E+OO 2.42E+OO pCi/L 7C2 Rattlesnake Canvon(404222003) -SW 15-Aug-16 Zinc-65 -1.59E+OO 4.29E+OO 2.78E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Zinc-65 8.87E-01 3.21 E+OO 2.11E+OO pCi/L 7C2 Rattlesnake Canyon(408409001) -SW 11-0ct-16 Zinc-65 -2.97E+OO 2.72E+OO 3.20E+OO pCi/L 7C2 Rattlesnake Canvon( 411426002) -SW 22-Nov-16 Zinc-65 -6.66E-01 3.76E+OO 2.58E+OO pCi/L 7C2 Rattlesnake Canyon( 412549002) -SW 7-Dec-16 Zinc-65 5.06E-01 3.69E+OO 2.46E+OO pCi/L 7C2 Rattlesnake Canyon(390114002) -SW 21-Jan-16 Zirconium-95 7.51E-01 4.11 E+OO 2.46E+OO pCi/L 7C2 Rattlesnake Canyon(391320001) -SW 8-Feb-16 Zirconium-95 -1.82E+OO 3.97E+OO 2.99E+OO pCi/L Page 31of92 2016 DCPP REMP Analysis Results Appendix A 7C2 Rattlesnake Canvon(393316002) -SW 10-Mar-16 Zirconium-95 -7.78E-01 3.73E+OO 2.34E+OO pCi/L 7C2 Rattlesnake Canyon(395898001) -SW 18-Apr-16 Zirconium-95 -6.96E-01 3.61E+OO 2.27E+OO pCi/L 7C2 Rattlesnake Canyon(397479003) -SW 10-May-16 Zirconium-95 9.45E-01 3.30E+OO 1.98E+OO pCi/L 7C2 Rattlesnake Canvon(399130001) -SW 6-Jun-16 Zirconium-95 1.25E+OO 3.32E+OO 2.02E+OO oCi/L 7C2 Rattlesnake Canyon(401793003) -SW 11-Jul-16 Zirconium-95 -1.06E+OO 3.20E+OO 2.03E+OO pCi/L 7C2 Rattlesnake Canyon(404222003) -SW 15-Aug-16 Zirconium-95 -1.50E-01 3.92E+OO 2.39E+OO pCi/L 7C2 Rattlesnake Canyon(406175002) -SW 12-Sep-16 Zirconium-95 -6.68E-02 2.63E+OO 1.52E+OO pCi/L 7C2 Rattlesnake Canvon(408409001) -SW-11-0ct-16 Zirconium-95 7.50E-01 2.69E+OO 1.59E+OO pCi/L 7C2 Rattlesnake Canvon(411426002) -SW 22-Nov-16 Zirconium-95 -1.46E+OO 3.16E+OO 2.42E+OO oCi/L 7C2 Rattlesnake Canyon(412549002)-SW 7-Dec-16 Zirconium-95 2.72E-01 3.12E+OO 1.91E+OO pCi/L 701 Avila Gate -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 701 Avila Gate(388797004) -AC 2-Jan-16 lodine-131 -9.80E-04 8.76E-03 5.39E-03 pCi/m3 701 Avila Gate(389309009) -AC 9-Jan-16 lodine-131 1.80E-03 1.11 E-02 6.31 E-03 pCi/m3 701 Avila Gate(389808009) -AC 16-Jan-16 lodine-131 -2.18E-03 9.72E-03 . 6.33E-03 pCi/m3 701 Avila Gate(390230014) -AC 23-Jan-16 lodine-131 1.04E-03 1.90E-02 1.29E-02 pCi/m3 701 Avila Gate(390692009) -AC 30-Jan-16 lodine-131 -2.03E-03 9.98E-03 6.41E-03 pCi/m3 701 Avila Gate(391237011) -AC 6-Feb-16 lodine-131 -4.97E-03 9.26E-03 6.80E-03 pCi/m3 701 Avila Gate(391592009) -AC 13-Feb-16 lodine-131 4.57E-03 1.29E-02 7.50E-03 pCi/m3 701 Avila Gate(392027014) -AC 20-Feb-16 lodine-131 4.07E-04 9.77E-03 5.63E-03 pCi/m3 701 Avila Gate(392482014) -AC 27-Feb-16 lodine-131 -1.84E-03 8.95E-03 5.70E-03 pCi/m3 701 Avila Gate(392952002) -AC 5-Mar-16 lodine-131 -3.11 E-03 1.07E-02 6.95E-03 pCi/m3 701 Avila Gate(393384014)-AC 12-Mar-16 lodine-131 1.68E-03 1.05E-02 6.15E-03 pCi/m3 701 Avila Gate(393781009) -AC 19-Mar-16 lodine-131 -6.56E-03 1.09E-02 7.89E-03 pCi/m3 701 Avila Gate(394076014) -AC 26-Mar-16 lodine-131 1.88E-03 1.07E-02 6.14E-03 pCi/m3 701 Avila Gate(394752014) -AC 2-Aor-16 lodine-131 -1.65E-03 9.00E-03 5.70E-03 pCi/m3 701 Avila Gate(395261014) -AC 9-Apr-16 lodine-131 -1.38E-03 8.22E-03 5.20E-03 pCi/m3 701 Avila Gate(395795014) -AC 16-Apr-16 lodine-131 4.11E-03 1.29E-02 8.77E-03 pCi/m3 701 Avila Gate(396244014) -AC 23-Apr-16 lodine-131 3.91E-03 7.87E-03 4.18E-03 pCi/m3 701 Avila Gate(396779014) -AC 30-Apr-16 lodine-131 2.29E-03 9.38E-03 5.32E-03 pCi/m3 701 Avila Gate(397288014) -AC 7-Mav-16 lodine-131 -2.65E-06 1.15E-02 6.92E-03 pCi/m3 . 701 Avila Gate(397706014) -AC 14-Mav-16 lodine-131 1.01E-02 6.45E-03 pCi/m3 701 Avila Gate(398215014) -AC 21-May-16 lodine-131-8.37E-04 9.46E-03 5.60E-03 pCi/m3 701 Avila Gate(398542014)-AC, 28-May-16 lodine-131 4.92E-04 8.42E-03 4.90E-03 pCi/m3 701 Avila Gate(399016014) -AC 4-Jun-16 lodine-131 1.64E-04 1.12E-02 6.61 E-03 pCi/m3 701 Avila Gate(399503014)-AC 11-Jun-16 lodine-131 -2.06E-03 9.67E-03 6.25E-03 oCi/m3 701 Avila Gate(399964014) -AC 18-Jun-16 lodine-131 8.48E-03 1.18E-02 1.03E-02 pCi/m3 701 Avila Gate(400310014) -AC 25-Jun-16 lodine-131 -5.41 E-03 1.76E-02 1.16E-02 pCi/m3 701 Avila Gate(401018014)-AC 2-Jul-16 lodine-131 -3.65E-05 1.02E-02 6.11 E-03 pCi/m3 701 Avila Gate(401598004) -AC -. l 9-Jul-16 lodine-131 7.78E-03 2.53E-02 1.44E-02 pCi/m3 701 Avila Gate(402089004) -AC 16-Jul-16 lodine-131 -5.19E-04 9.88E-03 5.96E-03 oCi/m3 701 Avila Gate(402578014) -AC 23-Jul-16 lodine-131 -1.86E-04 1.34E-02 8.16E-03 pCi/m3 701 Avila Gate(403120014) -AC 30-Jul-16 lodine-131 -2.69E-04 1.90E-02 1.11 E-02 pCi/m3 701 Avila Gate(403674014) -AC 6-Auq-16 lodine-131 2.91 E-03 1.28E-02 7.23E-03 pCi/m3 Page 32 of 92 2016 DCPP REMP Analysis Results Appendix A 7D1 Avila Gate(404132014)-AC 13-Aug-16 lodine-131 2.73E-03 1.06E-02 5.76E-03 pCi/m3 7D1 Avila Gate(404555004) -AC 20-Aug-16 lodine-131 1.38E-03 7.04E-03 4.05E-03 pCi/m3 7D1 Avila Gate(405070004) -AC 27-Aug-16 lodine-131 1.78E-03 1.07E-02 6.28E-03 pCi/m3 7D1 Avila Gate(405461014) -AC ' 3-Seo-16 lodine-131 3.09E-03 9.32E-03 5.21E-03 pCi/m3 7D1 Avila Gate(405943014) -AC 10-Sep-16 lodine-131 7.09E-03 1.20E-02 6.99E-03 pCi/m3 7D1 Avila Gate(406484014) -AC 17-Sep-16 lodine-131 -2.71E-03 6.92E-03 4.58E-03
- pCi/m3 7D1 Avila Gate(406978014)-AC 24-Sep-16 lodine-131 -3.37E-04 7.86E-03 4.57E-03 pCi/m3 7D1 Avila Gate(407538014) -AC ' 1-0ct-16 lodine-131 -1.07E-03 8.03E-03 5.67E-03 pCi/m3 7D1 Avila Gate(408013014) -AC I 8-0ct-16 *, lodine-131 1.93E-04 1.13E-02 6.73E-03 oCi/m3 7D1 Avila Gate(408711014) -AC 15-0ct-16 lodine-131 -8.91E-04 5.47E-03 3.58E-03 pCi/m3 7D1 Avila Gate(409217014) -AC 22-0ct-16 lodine-131 4.87E-04 7.52E-03 4.24E-03 pCi/m3 7D1 Avila Gate(409738014) -AC 29-0ct-16 lodine-131 1.13E-03-1.13E-02 6.52E-03 pCi/m3 7D1 Avila Gate(410322014)-AC 5-Nov-16 lodine-131 5.86E-03 6.87E-03 9.05E-03 pCi/m3 . 7D1 Avila Gate(410821014)-AC 12-Nov-16 lodine-131 7.71 E-03 4.81 E-03 . oCi/m3 7D1 Avila Gate(411348014)-AC 19-Nov-16 lodine-131 6.68E-03 1.71E-02 9.49E-03 pCi/m3 7D1 Avila Gate(411620014) -AC 26-Nov-16 lodine-131 -1.32E-03 5.37E-03 3.80E-03 pCi/m3 7D1 Avila Gate(412193014)-AC 3-Dec-16 lodine-131 1.94E-03 9.31E-03 5.64E-03 pCi/m3 7D1 Avila Gate(412746005)-AC 10-Dec-16 lodine-131 3.91E-03 8.29E-03 4.59E-03 pCi/m3 7D1 Avila Gate(413294004)-AC 17-Dec-16 lodine-131 -3.45E-03 9.55E-03 6.46E-03 pCi/m3 7D1 Avila Gate(413412014)-AC 24-Dec-16 lodine-131 6.19E-04 8.83E-03 5.20E-03 pCi/m3 7D1 Avila Gate(413697004) -AC 31-Dec-16 lodine-131 -4.64E-03 8.00E-03 6.71 E-03 _pCi/m3 7D1 Avila Gate -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7D1 Avila Gate(388797005) -AP 2-Jan-16 BETA 2.58E-02 1.53E-03 7.88E-03 pCi/m3 7D1 Avila Gate(389309002) -AP 9-Jan-16 BETA 1.88E-02 1.73E-03 8.64E-03 pCi/m3 7D1 Avila Gate(389808002) -AP 16-Jan-16 BETA 1.17E-02 1.65E-03 7.98E-03 . pCi/m3 7D1 Avila Gate(390230004) -AP 23-Jan-16 BETA 2.54E-02 ' 1.62E-03 9.19E-03 pCi/m3 7D1 Avila Gate(390692002) -AP 30-Jan-16-BETA 2.13E-02 1.67E-03 8.11E-03 pCi/m3 7D1 Avila Gate(391237017) -AP 6-Feb-16 BETA 3.32E-02 1.78E-03 8.42E-03 pCi/m3 7D1 Avila Gate(391592002) -AP 13-Feb-16 BETA. 3.99E-02 1.59E-03 9.88E-03 pCi/m3 7D1 Avila Gate(392027004) -AP 20-Feb-16 BETA 2.99E-02 1.49E-03 7.94E-03 oCi/m3 7D1 Avila Gate(392482004) -AP 27-Feb-16 BETA 2.38E-02 1.52E-03 8.80E-03 pCi/m3 7D1 Avila Gate(392952009) -AP 5-Mar-16 BETA 1.48E-02 1.72E-03 8.14E-03 pCi/m3 7D1 Avila Gate(393384004) -AP* 12-Mar-16 BETA 7.73E-03 1.55E-03 9.02E-03 pCi/m3 7D1 Avila Gate(393781002) -AP 19-Mar-16 BETA 1.89E-02 't59E-03 pCi/m3 7D1 Avila Gate(394076004) -AP 26-Mar-16 *BETA 1.01 E-02 1.60E-03 8.54E-03 pCi/m3 7D1 Avila Gate(394752004) -AP 2-Apr-16 BETA 2.83E-02 1.78E-03 9.61E-03 pCi/m3 7D1 Avila Gate(395261004) -AP 9-Apr-16 BETA 3.17E-02 1.73E-03 8.31 E-03 pCi/m3 7D1 Avila Gate(395795004) -AP 16-Apr-16 BETA 2.87E-02 1.58E-03 8.74E-03 pCi/m3 7D1 Avila Gate(396244004) -AP 23-Apr-16 BETA 1.07E-02 1.59E-03 9.12E-03 pCi/m3 7D1 Avila Gate(396779004) -AP 30-Aor-16 BETA 1.09E-02 1.61E-03 9.61E-03 pCi/m3 7D1 Avila Gate(397288004) -AP 7-May-16 BETA 1.06E-02 1.63E-03 8.16E-03 pCi/m3 7D1 Avila Gate(397706004) -AP 14-Mav-16 BETA 1.18E-02 1.56E-03 9.59E-03 pCi/m3 7D1 Avila Gate(398215004) -AP 21-Mav-16 BETA 3.66E-03 1.59E-03 9.09E-03 pCi/m3 Page 33 ot'92 2016 DCPP REMP Analysis Results Appendix A 7D1 Avila Gate(398542004) -AP 28-May"16 BETA 2.17E-02 1.59E-03 1.02E-02 pCi/m3 7D1 Avila Gate(399016004) -AP 4-Jun-16 BETA 9.24E-03 1.54E-03 9.74E-03 pCi/m3 7D1 Avila Gate(399503004) -AP 11-Jun-16 -BETA 1.26E-02 1.62E-03 7.73E-03 pCi/m3 7D1 Avila Gate(399964004) -AP 18-Jun-16 BETA 1.19E-02 1.64E-03 7.21 E-03 pCi/m3 7D1 Avila Gate(400310004) -AP 25-Jun-16 BETA 1.00E-02 1.92E-03 1.08E-02 pCi/m3 7D1 Avila Gate(401018004)-AP 2-Jul-16 BETA 1.84E-02 1.49E-03 8.13E-03 pCi/m3 7D1 Avila Gate(401598005) -AP 9-Jul-16 BETA 4.90E-03 1.66E-03 9.61E-03 pCi/m3 7D1 Avila Gate(402089005) -AP 16-Jul-16 BETA 5.11 E-03 1.70E-03 1.08E-02 pCi/m3 7D1 Avila Gate(402578004) -AP 23-Jul-16 BETA 9.76E-03 1.67E-03 8.71E-03 pCi/m3 7D1 Avila Gate(403120004) -AP 30-Jul-16 BETA 5.20E-03 1.65E-03 9.37E-03 pCi/m3 7D1 Avila Gate(403674004) -AP 6-Aug-16 BETA 9.28E-03 1.64E-03 9.41E-03 pCi/m3 7D1-Avila Gate(404132004)-AP 13-Aug-16 BETA 1.59E-02 1.60E-03 8.79E-03 pCi/m3 7D1 Avila Gate(404555005) -AP 20-Aug-16 BETA 2.40E-02 1.69E-03 1.09E-02 pCi/m3 7D1 Avila Gate(405070005) -AP 27-Aug-16 BETA 1.84E-02 1.62E-03 9.19E-03 pCi/m3 7D1 Avila Gate(405461004) -AP 3-Sep-16 BETA 2.22E-02 1.60E-03 9.17E-03 pCi/m3 7D1 Avila Gate(405943004) -AP 10-Sep-16 BETA 2.26E-02 1.76E-03 9.24E-03 pCi/m3 7D1 Avila Gate(406484004) -AP 17-Sep-16 BETA 2.70E-02 1.81 E-03 8.92E-03 pCi/m3 7D1 Avila Gate(406978004) -AP-24-Sep-16 BETA 2.77E-02 1.55E-03 8.78E-03 pCi/m3 7D1 Avila Gate(407538004) -AP 1-0ct-16 BETA 1.76E-02 1.62E-03 8.95E-03 pCi/m3 7D1 Avila Gate(408013004) -AP 8-0ct-16 BETA 3.55E-02 1.51E-03 9.82E-03 pCi/m3 7D1 Avila Gate(408711004) -AP 15-0ct-16 BETA 1.75E-02 1.68E-03 9.68E-03 pCi/m3 7D1 Avila Gate(409217004) -AP 22-0ct-16 BETA 2.63E-02 1.70E-03 1.03E-02 oCi/m3 7D1 Avila Gate(409738004) -AP 29-0ct-16 BETA 9.55E-03 1.74E-03 9.88E-03 pCi/m3 7D1 Avila Gate(410322004) -AP 5-Nov-16 BETA 3.54E-02 1.72E-03 4.23E-03 pCi/m3 7D1 Avila Gate(410821004) -AP 12-Nov-16 BETA 7.11 E-02 1.72E-03 1.02E-02 pCi/m3 7D1 Avila Gate(411348004) -AP 19-Nov-16 BETA 8.76E-03 1.98E-03 1.07E-02 pCi/m3 7D1 Avila Gate(411620004) -AP 26-Nov-16 BETA 1.18E-02 1.56E-03 9.40E-03 pCi/m3 7D1 Avila Gate(412193015)-AP 3-Dec-16 BETA 2.34E-02 1.58E-03 8.73E-03 pCi/m3 7D1 Avila Gate(412746006) -AP 10-Dec-16 BETA 1.63E-02 1.67E-03 2.98E-03 pCi/m3 7D1 Avila Gate(413294005) -AP 17-Dec-16 BETA 3.17E-02 1.82E-03 7.10E-03 pCi/m3 7D1 Avila Gate(413412004)-AP 24-Dec-16 BETA 3.36E-02 1.98E-03 7.70E-03 pCi/m3 7D1 Avila Gate(413697005)-AP 31-Dec-16 BETA 2.42E-02 1.51E-03 7.88E-03 pCi/m3 7D1 Avila Gate(396298004) -AP 13-Feb-16 Beryllium-7 9.95E-02 9.40E-03 2.02E-02 pCi/m3 7D1 Avila Gate(396298004) -AP 13-Feb-16 Cesium-134 2.12E-04 7.50E-04 4.10E-04 pCi/m3 7D1 Avila Gate(401387004) -AP . 14-May-16 Cesium-134 3.60E-05 6.17E-04 3.59E-04 pCi/m3 7D1 Avila Gate(408429004) -AP 13-Aug-16 Cesium-134 2.99E-05 5.42E-04 3.19E-04 pCi/m3 7D1 Avila Gate(414245004) -AP 12-Nov-'16 Cesium-134 2.36E-04 5.78E-04 2.96E-04 pCi/m3 7D1 Avila Gate(396298004) -AP 13-Feb-16 Cesium-137 4.48E-04 5.78E-04 3.19E-04 pCi/m3 7D1 Avila Gate(401387004) -AP 14-May-16 Cesium-137 -2.35E-04 4.07E-04 3.66E-04 pCi/m3 7D1 Avila Gate(408429004) -AP 13-Aug-16 Cesium-137 1.14E-04 5.86E-04 3.28E-04 pCi/m3 7D1 Avila Gate(414245004)-AP 12-Nov-16 Cesium-137 2.28E-05 4.71 E-04 2.70E-04 pCi/m3 Page 34 of92 L 2016 DCPP REMP Analysis Results Appendix A 7D3 Avila Pier -Market Fish Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Cesium-134 -9.15E-01 4.01E+OO 2.49E+OO pCi/kg 71:)3 Avila Pier(396918002) -FH Market 4-May-16 Cesium-134 3.10E+OO 5.69E+OO 3.47E+OO I pCi/kg 7D3 Avila Pier(403108003) -FH Market 1-Aug-16 Cesium-134 .1.57E+OO 5.97E+OO 3.52E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Cesium-134 3.02E-01 5.62E+OO 3.26E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Cesium-137 6.64E+OO 3.79E+OO 2.94E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Cesium-137 4.69E+OO 5.04E+OO 4.30E+OO pCi/kg 7D3 Avila Pier(403108003)-FH Market -r-Aug-16 Cesium-137 6.26E+OO 6.26E+OO 4.44E+OO pCi/kg 7D3 Avila Pier(409315005)-FH Market 26-0ct-16 Cesium-137 7.60E+OO 4.40E+OO 5.00E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Cobalt-58 -6.67E-02 3.61E+OO 2.17E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Cobalt-58 -3:02E+OO 4.54E+OO 3.57E+OO pCi/kg 7D3 Avila Pier(403108003)-FH Market 1-Aug-16 Cobalt-58 -2.52E+OO 5.01E+OO 3.37E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Cobalt-58 -1.46E+OO 4.66E+OO 2.89E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Cobalt-60 3.44E-01 4.39E+OO 2.60E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Cobalt-60 7.32E-01 5.10E+OO 3.03E+OO pCi/kg 7D3 Avila Pier(403108003) -FH Market 1-Aug-16 Cobalt-60 -1.77E+OO 6.28E+OO 3.98E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Cobalt-60 4.46E-01 4.47E+OO 2.75E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 lron-59 1.03E+OO 8.97E+OO 5.24E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 lron-59 5.72E-01 1.05E+01 6.24E+OO pCi/kg 7D3 Avila Pier(403108003)-FH Market 1-Aug-16 lron-59 2.78E+OO 1.45E+01 9.80E+OO -pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 lron-59 3.51 E+OO U2E+01 6.60E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Manganese-54 7.82E-01 3.83E+OO 2.29E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Manganese-54 5.58E-01 4.76E+OO 2.76E+OO pCi/kg 7D3 Avila Pier(403108003) -FH Market 1-Aug-16 Manganese-54 9.34E-01 5.09E+OO 3.47E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Manganese-54 3.94E-01 4.94E+OO 3.25E+OO pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Potassium-40 3.32E+03 3.23E+01 3.30E+02 pCi/kg 7D3 Avila Pier(396918002) -FH Market . ' 4-May-16 Potassium-40 3.34E+03 4.32E+01 3.12E+02 pCi/kg 7D3 Avila Pier(389479002) -FH Market 12-Jan-16 Zinc-65 -4.66E+OO 9.26E+OO 6.14E+OO pCi/kg 7D3 Avila Pier(396918002) -FH Market 4-May-16 Zinc-65 -5.41E+OO 1.05E+01 7.07E+oo pCi/kg 7D3 Avila Pier(403108003) -FH Market 1-Aug-16 Zinc-65 5.21E+OO 1.45E+01 8.57E+OO pCi/kg 7D3 Avila Pier(409315005) -FH Market 26-0ct-16 Zinc-65 -2.57E-01 1.09E+01 7.45E+OO pCi/kg 7E1 Avila Valley Barn -Vegetation Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7E1 Avila Valley Barn(390519006) -VG Brdleaf 28-Jan-16 Cesium-134 3.92E-02 4.80E+OO 2.90E+OO pCi/kg 7E1 Avila Valley Barn(398093001) -VG Brdleaf 19-May-16 Cesium-134 8.97E-01 4.72E+OO 2.73E+OO pCi/kg 7E1 Avila Valley Barn(403108001)-VG Brdleaf 1-Aug-16 Cesium-134 4.63E+OO 9.63E+OO 5.64E+OO pCi/kg 7E1 Avila Valley Barn(409315006) -VG Brdleaf 26-0ct-16 Cesium-134 1.31E+01 1.51E+01 1.40E+01 pCi/kg 7E1 Avila Valley Barn(390519006) -VG Brdleaf 28-Jan-16 Cesium-137 3.94E+OO 5.00E+OO 3.30E+OO pCi/kg 7E1 Avila Valley Barn(398093001) -VG Brdleaf 19-May-16 Cesium-137 -2.09E+OO 4.00E+OO 2.78E+OO pCi/kg 7E1 Avila Valley Barn(403108001) -VG Brdleaf 1-Aug-16 Cesium-137 6.13E-01 8.46E+OO 5.12E+OO pCi/kg 7E1 Avila Valley Barn(409315006) -VG Brdleaf 26-0ct-16 Cesium-137 1.17E+OO 1.31E+01 7.78E+OO pCi/kg 7E1 Avila Valley Barn(390519006) -VG Brdleaf 28-Jan-16 lodine-131 -1.43E+OO 6.93E+OO 4.33E+OO pCi/kg 7E1 Avila Valley Barn(398093001) -VG Brdleaf 19-May-16 lodine-131 1.67E+OO 7.49E+OO 4.34E+OO pCi/kg Page 35 of92 2016 DCPP REMP Analysis Results Appendix A 7E1 Avila Valley Barn(403108001) -VG Brdleaf 1-Aug-16 lodine-131 -5.98E+OO 1.37E+01 8.82E+OO pCi/kg 7E1 Avila Valley Barn(409315006) -VG Brdleaf 26-0ct-16 lodine-131 -2.48E+OO 2.02E+01 1.21E+01 pCi/kg 7E1 Avila Valley Barn(390519006) -VG Brdleaf 28-Jan-16 Potassium-40 1.87E+03 4.11E+01 2.00E+02 pCi/kg 7E1 Avila Valley Barn(398093001) -VG Brdleaf 19-May-16 Potassium-40 2.07E+03 4.11E+01 2.17E+02 pCi/kg 7G1 Arroyo Grande -Vegetation Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 7G1 Arroyo Grande(390114006) -VG Brdleaf 25-Jan-16 Cesium-134 1.52E+OO 1.06E+01 6.61E+OO pCi/kg 7G1 Arroyo Grande(391919003)-VG Brdleaf 22-Feb-16 Cesium-134 -6.06E+OO 1.38E+01 9.28E+OO oCi/ka 7G1 Arroyo Grande(393318003) -VG Brdleaf 14-Mar-16 Cesium-134 -3.45E+OO 1.60E+01 1.20E+01 pCi/kg 7G1 Arroyo Grande(395137004) -VG Brdleaf 11-Apr-16 Cesium-134 -4.43E+OO 1.25E+01 8.14E+OO pCi/kg 7G1 Arroyo Grande(396603003) -VG Brdleaf 2-May-16 Cesium-134 -5.45E-01 1.30E+01 8.79E+OO pCi/kg 7G1 Arroyo Grande(399398003) -VG Brdleaf 13-Jun-16 Cesium-134 3.04E+OO 8.81E+OO 5.24E+OO pCi/kg 7G1 Arroyo Grande(401965003) -VG Brdleaf 18-Jul-16 Cesium-134 9.18E-01 8.79E+OO 5.18E+OO pCi/ka 7G1 Arroyo Grande(403012003) -VG Brdleaf 1-Aug-16 Cesium-134 -3.30E-01 1.41E+01 8.22E+OO pCi/kg 7G1 Arroyo Grande(406353003) -VG Brdleaf 19-Sep-16 Cesium-134 1.12E+OO 7.75E+OO 4.58E+OO pCi/kg 7G1 Arroyo Grande(407878003) -VG Brdleaf 10-0ct-16 Cesium-134 O.OOE+OO 1.08E+01 O.OOE+OO pCi/kg 7G1 Arroyo Grande(410298003) -VG Brdleaf 7-Nov-16 Cesium-134 9.69E-01 8.84E+OO 5.96E+OO pCi/kg 7G1 Arroyo Grande(412059003) -VG Brdleaf 5-Dec-16 Cesium-134 2.81E+OO 1.00E+01 5.76E+OO pCi/ka 7G1 Arroyo Grande(390114006) -VG Brdleaf 25-Jan-16 Cesium-137 -4.19E-01 9.98E+OO 5.93E+OO pCi/kg 7G1 Arroyo Grande(391919003) -VG Brdleaf 22-Feb-16 Cesium-137 1.60E+OO 1.33E+01 7.65E+OO pCi/kg 7G1 Arroyo Grande(393318003)-VG Brdleaf 14-Mar-16 Cesium-137 -3.77E+OO 1.44E+01 9.17E+OO pCi/kg 7G1 Arroyo Grande(395137004) -VG Brdleaf 11-Apr-16 Cesium-137 2.74E+OO 1.33E+01 7.91E+OO pCi/kg 7G1 Arroyo Grande(396603003) -VG Brdleaf 2-May-16 Cesium-137 -1.25E+OO 1.15E+01 8.19E+OO pCi/kg 7G1 Arroyo Grande(399398003) -VG Brdleaf 13-Jun-16 Cesium-137 4.92E-01 7.91E+OO 4.65E+OO pCi/kg 7G1 Arroyo Grande(401965003) -VG Brdleaf 18-Jul-16 Cesium-137 2.42E-01 8.65E+OO 5.07E+OO pCi/kg 7G1 Arroyo Grande(403012003) -VG Brdleaf 1-Aug-16 Cesium-137 -9.15E-01 1.38E+01 8.34E+OO pCi/kg 7G1 Arroyo Grande(406353003) -VG Brdleaf 19-Sep-16 Cesium-137 1.32E+OO . 6.81E+OO 3.97E+OO pCi/kg 7G1 Arroyo Grande(407878003) -VG Brdleaf 10-0ct-16 Cesium-137 -2.03E+OO 1.03E+01 9.37E+OO pCi/kg 7G1 Arroyo Grande(410298003) -VG Brdleaf 7-Nov-16 Cesium-137 3.38E+OO 7.54E+OO 4.52E+OO pCi/kg 7G1 Arroyo Grande(412059003) -VG Brdleaf 5-Dec-16 Cesium-137 -9.03E-01 8.30E+OO 5.54E+OO pCi/kg 7G1 Arroyo Grande(390114006) -VG Brdleaf 25-Jan-16 lodine-131 -5.50E+OO 1.11E+01 7.49E+OO oCi/kg 7G1 Arroyo Grande(391919003) -VG Brdleaf 22-Feb-16 lodine-131 , 5.92E+OO 1.63E+01 9.58E+OO pCi/kg 7G1 Arroyo-Grande(393318003) -VG Brdleaf 14-Mar-16 lodine-131 -1.27E+OO 1.70E+01 9.96E+OO pCi/kg 7G1 Arrovo Grande(395137004) -VG Brdleaf -11-Apr-16 lodine-131 1.38E+OO 1.57E+01 9.49E+OO pCi/kg 7G1 Arroyo Grande(396603003) -VG Brdleaf 2-May-16 lodine-131 1.33E+OO 1.52E+01 8.82E+OO pCi/kg 7G1 Arrovo Grande(399398003) -VG Brdleaf 13-Jun-16 lodine-131 1.63E+OO 9.85E+OO 5.93E+OO oCi/ka 7G1 Arroyo Grande(401965003) -VG Brdleaf 18-Jul-16 lodine-131 .1.84E+OO 1.13E+01 6.73E+OO pCi/kg 7G1 Arroyo Grande(403012003) -VG Brdleaf 1-Aug-16 lodine-131 1.23E+01 2.84E+01 1.76E+01 pCi/kg 7G1 Arroyo Grande(406353003) -VG Brdleaf 19-Sep-16 lodine-131 -6.23E-01 7.77E+OO 4.51E+OO pCi/kg 7G1 Arroyo Grande(407878003) -VG Brdleaf 10-0ct-16 lodine-131 -3.52E-01 1.21E+01 7.65E+OO pCi/kg 7G1 Arroyo Grande(410298003) -VG Brdleaf 7-Nov-16 lodine-131 2.06E+OO 9.25E+OO 5.39E+OO pCi/kg 7G1 Arroyo Grande(412059003) -VG Brdleaf 5-Dec-16 lodine-131 -1.52E+OO 9.06E+OO 5.60E+OO pCi/kg 7G1 Arroyo Grande(390114006) -VG Brdleaf 25-Jan-16 Potassium-40 4.24E+03 9.52E+01 4.52E+02 pCi/kg 7G1 Arroyo Grande(391919003) -VG Brdleaf 22-Feb-16 Potassium-40 3.11E+03 1.07E+02 4.23E+02 pCi/kg I Page 36 of92 2016 DCPP REMP Analysis Results Appendix A 7G1 Arroyo Grande(393318003) -VG Brdleaf 14-Mar-16 Potassium-40 2.92E+03 1.50E+02 4.15E+02 pCi/kg 7G1 Arroyo Grande(395137004) -VG Brdleaf 11-Apr-16 Potassium-40 2.16E+03 1.11 E+02 2.96E+02
- pCi/kg 7G1 Arroyo Grande(396603003) -VG Brdleaf 2-May-16 Potassium-40 4.42E+03 9.96E+01 4.84E+02 pCi/kg 7G1 Arroyo Grande(399398003) -VG Brdleaf 13-Jun-16 Potassium-40 2.59E+03 6.64E+01 2.83E+02 oCi/ka 8S1 Target Range -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S1 Target Range(388797008) -AC 2-Jan-16 lodine-131 -1.82E-03 9.01E-03 5.88E-03 pCi/m3 8S1 Target Range(389309011) -AC 9-Jan-16 lodine-131 1.07E-03 8.67E-03 4.99E-03 pCi/m3 8S1 Target Range(389808011) -AC 16-Jan-16 lodine-131 -4.37E-04 1.23E-02 7.47E-03 pCi/m3 8S1 Target Range(390230015) -AC 23-Jan-16 lodine-131 -5.02E-03 7.61 E-03 7.04E-03 pCi/m3 8S1 Target Range(390692011) -AC 30-Jan-16 lodine-131 -5.38E-03 6.71E-03 5.59E-03 pCi/m3 8S1 Target Range(391237013) -AC 6-Feb-16 lodine-131 3.81E-03 1.31E-02 7.58E-03 pCi/m3 8S1 Taraet Ranae(391592011) -AC 13-Feb-16 lodine-131 -2.86E-04 9.45E-03 5.59E-03 pCi/m3 8S1 Target Range(392027015) -AC 20-Feb-16 lodine-131 -6.61E-04 9.83E-03 5.97E-03 pCi/m3 8S1 Target Range(392482015) -AC 27-Feb-16 lodine-131 6.72E-04 1.06E-02 6.12E-03 pCi/m3 8S1 Target Range(392952004) -AC 5-Mar-16 lodine-131 -2.05E-03 9.98E-03 6.13E-03 pCi/m3 8S1 Target Range(393384015) -AC 12-Mar-16 lodine-131 2.98E-03 1.10E-02 6.25E-03 pCi/m3 8S1 Target Range(393781011) -AC 19-Mar-16 lodine-131 -1.68E-03 2.08E-02 1.24E-02 pCi/m3 8S1 Target Range(394076015) -AC 26-Mar-16 lodine-131 -4.74E-03 8.40E-03 5.85E-03 pCi/m3 8S1 Target Range(394752015) -AC 2-Apr-16 lodine-131 -2.59E-03 1.36E-02 8.31 E-03 pCi/m3 8S1 Target Range(395261015)-AC 9-Apr-16 lodine-131 9.87E-04 1.06E-02 6.31 E-03 pCi/m3 8S1 Target Range(395795015) -AC 16-Apr-16 lodine-131 1.27E-03 1.03E-02 6.00E-03 pCi/m3 8S1 Taraet Ranae(396244015) -AC 23-Apr-16 lodine-131 2.61E-03 1.09E-02 6.25E-03 pCi/m3 8S1 Target Range(396779015) -AC 30-Apr-16 lodine-131 -3.76E-03 8.70E-03 6.04E-03 pCi/m3 8S1 Target Range(397288015) -AC 7-Mav-16 lodine-131 1.67E-03 1.25E-02 7.25E-03 pCi/m3 8S1 Taraet Range(397706015) -AC 14-Mav-16 lodine-131 -4.63E-03 1.38E-02 9.41E-03 pCi/m3 8S1 Target Range(398215015) -AC 21-May-16 lodine-131 -2.16E-03 1.56E-02 1.02E-02 pCi/m3 8S1 Target Range(398542015) -AC 28-May-16 lodine-131 5.50E-03 1.15E-02 4.24E-03. pCi/m3 8S1 Target Range(399016015) -AC 4-Jun-16 lodine-131 -2.27E-03 9.41E-03 6.15E-03 pCi/m3 8S1 Target Range(399503015) -AC lodine-131 -2.74E-03 1.54E-02 9.82E-03 pCi/m3 8S1 Target Range(399964015) -AC 18-Jun-16 lodine-131 -4.53E-03 9.63E-03 6.85E-03 pCi/m3 8S1 Target Range(400310015) -AC 25-Jun-16 lodine-131 2.90E-04 1.23E-02 7.43E-03 pCi/m3 8S1 Target Range(401018015) -AC lodine-131 7.25E-03 1.26E-02 7.25E-03 pCi/m3 8S1 Target Range(401598017) -AC 9-Jul-16 lodine-131 6.04E-03 1.17E-02 6.68E-03 pCi/m3 BS1 Target Range(402089009) -AC 16-Jul-16 lodine-131 -2.85E-03 1.01E-02 6.47E-03 pCi/m3 8S1 Target Range(402578015) -AC ' 23-Jul-16 lodine-131 5.69E-03 6.78E-03 5.01E-03 pCi/m3 8S1 Target Range(403120015) -AC 30-Jul-16 lodine-131
- 1.82E-03 1.33E-02 7.79E-03 pCi/m3 BS1 Target Range(403674015) -AC 6-Aug-16 lodine-131 2.41E-03 1.12E-02 6.36E-03 pCi/m3 8S1 Target Range(404132015) -AC 13-Aug-16 lodine-131 4.74E-03 1.23E-02 7.09E-03 pCi/m3 8S1 Target Range(404555008) -AC 20-Aug-16 lodine-131 3.60E-03 7.02E-03 5.33E-03 pCi/m3 8S1 Target Ranae(405070008) -AC 27-Aua-16 lodine-131 9.45E-04 8.11E-03 4.55E-03 oCi/m3 8S1 Target Range(405461015)-AC 3-Sep-16 lodine-131 -1.96E-03 1.26E-02 7.70E-03 pCi/m3 8S1 Target Range(405943015) -AC 10-Sep-16 lodine-131 1.60E-03 9.23E-03 5.23E-03 pCi/m3 8S1 Target Ranae(406484015) -AC 17-Seo-16 lodine-131 -1.77E-03 8.80E-03 5.63E-03 oCi/m3 Page 37 of92 2016 DCPP REMP Analysis Results Appendix A 8S1 Target Range(406978015) -AC 24-Sep-16 lodine-131 9.20E-04 1.06E-02 6.21 E-03 pCi/m3 8S1 Target Range(407538015) -AC 1-0ct-16 lodine-131 -1.44E-03 8.48E-03 5.76E-03 pCi/m3 8S1 Target Range(408013016) -AC 8-0ct-16 lodine-131 2.92E-03 9.94E-03 5.41E-03 pCi/m3 8S1 Tarqet Ram:ie(408711015) -AC 15-0ct-16 lodine-131 -9.74E-04 9.60E-03 5.71 E-03 pCi/m3 8S1 Target Range(409217015) -AC 22-0ct-16 lodine-131 3.33E-03 9.26E-03 5.12E-03 pCi/m3 8S1 Target Range(409738015) -AC 29-0ct-16 lodine-131 -1.35E-05 8.79E-03 5.29E-03 pCi/m3 8S1 Target Range(410322015)-AC 5-Nov-16 lodine-131 -2.40E-03 7.96E-03 5.16E-03 pCi/m3 8S1 Target Range(410821015)-AC 12-Nov-16 lodine-131 5.87E-03 9.43E-03 8.50E-03 pCi/m3 8S1 Tarqet Ranqe(411348015) -AC 19-Nov-16 lodine-131 4.46E-03 1.50E-02 8.23E-03 pCi/m3 8S1 Target Range(411620015) -AC 26-Nov-16 lodine-131 2.61 E-03 9.05E-03 5.08E-03 pCi/m3 8S1 Target Range(412193005) -AC 3-Dec-16 lodine-131 4.62E-03 1.02E-02 5.51 E-03 pCi/m3 8S1 Target Range(412746009) -AC 10-Dec-16 lodine-131 -1.91E-03 7.72E-03 5.77E-03 pCi/m3 8S1 Target Range(413294008)-AC 17-Dec-16 lodine-131 -3.20E-03 1.28E-02 8.26E-03 pCi/m3 8S1 Target Ranqe(413412015)-AC '--24-Dec-16 lodine-131 1.63E-03 9.82E-03 5.53E-03 pCi/m3 8S1 Target Range(413697008)-AC 31-Dec-16 lodine-131 1.35E-03 1.44E-02 8.12E-03 pCi/m3 8S1 Target Range -Air Carbon 14 Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 881 Tarqet Ranqe(388797015)-AC14 2-Jan-16 Carbon-14 -1.94E-07 4.93E-07 2.91 E-07 uCi/m3 8S1 Target Range(389309016) -AC14 9-Jan-16 Carbon-14 -3.44E-07 5.84E-07 3.42E-07 uCi/m3 881 Target Range(389808016) -AC14 16-Jan-16 Carbon-14 -3.37E-07 6.46E-07 3.79E-07 uCi/m3 8S1 Tarqet Ranqe(390230010) -AC14 23-Jan-16 Carbon-14 -2.31E-07 5:72E-07 3.37E-07 uCi/m3 881 Target Range(390692016) -AC14 30-Jan-16 Carbon-14 -4.56E-08 5.66E-07 3.36E-07 uCi/m3 881 Target Range(391237008) -AC14 6-Feb-16 Carbon-14 8.48E-09 5.66E-07 3.37E-07 uCi/m3 881 Target Range(391592016) -AC14 13-Feb-16 Carbon-14 4.02E-07 5.86E-07 3.56E-07 uCi/m3 881 Target Range(392027010) -AC14 20-Feb-16 Carbon-14 1.57E-07 5.82E-07 3.49E-07 uCi/m3 881 Tarqet Ranqe(392482010)-AC14 27-Feb-16 Carbon-14 1.78E-07 5.73E-07 3.44E-07 uCi/m3 881 Target Range(392952016) -AC14 5-Mar-16 Carbon-14 -2.05E-08 5.46E-07 3.25E-07 uCi/m3 881 Target Range(393384010) -AC14 12-Mar-16 Carbon-14 -2.52E-07 5.59E-07 3:29E-07 uCi/m3 881 Target Range(393781016) -AC14 19-Mar-16 Carbon-14 1.98E-07 5.82E-07 uCi/m3 881 Target Range(394076010) -AC14 26-Mar-16 Carbon-14 5.41E-07 5.46E-07 3.35E-07 uCi/m3 881 Tarqet Ranqe(394752010) -AC14 2-Apr-16 Carbon-14 4.06E-07 5.32E-07 3.24E-07
- uCi/m3 881 Target Range(395261010)-AC14 9-Apr-16 Carbon-14 -1.79E-07 6.38E-07 3.77E-07 -uCi/m3 8S1 Target Range(395795010) -AC14 16-Apr-16 Carbon-14 -2.54E-07 5.47E-07 3.22E-07 uCi/m3 881 Target Range(39624401-0) -AC14 23-Apr-16 Carbon-14 2.48E-07 5.47E-07 3.30E-07 uCi/m3 881 Target Range(396779010)-AC14 30-Apr-16 Carbon-14 5.79E-08 5.65E-07 3.37E-07 uCi/m3 881 Target Ranqe(397288010)-AC14 7-May-16 Carbon-14 4.35E-07 5.85E-07 3.56E-07 uCi/m3 8S1 Target Ranqe(397706010) -AC14 14-May-16 Carbon-14 5.56E-07 6.05E-07 3.69E-07 uCi/m3 881 Target Range(398215010) -AC14 21-May-16 Carbon-14 3.38E-07 5.16E-07 3.13E-07 uCi/m3 8S1 Target Range(398542010) -AC14 28-May-16 Carbon-14 4.23E-07 5.66E-07 3.44E-07 uCi/m3, .881 Target Range(399016010) -AC14 4-Jun-16 Carbon-14 -1.30E-08 5.76E-07 3.43E-07 uCi/m3 881 Tarciet Ranqe(39950301Q)-AC14 11-Jun-16 Carbon-14 3.33E-07 5.66E-07 3.43E-07 uCi/m3 8S1 Target Range(399964010) -AC14 18-Jun-16 Carbon-14 2.29E-07 5.54E-07 3.34E-07 uCi/m3 881 Target Range(400310010)-AC14 25-Jun-16 Carbon-14 2.43E-07 6.05E-07 3.65E-07 uCi/m3 881 Tarciet Range(401018010)-AC14 2-Jul-16 Carbon-14 -8.47E-08 4.66E-07 2.76E-07 uCi/m3 Page 38 of92 2016 DCPP REMP Analysis Results Appendix A 8S1 Target Range(401598009) -AC14 9-Jul-16 Carbon-14 4.27E-07 5.85E-07 3.56E-07 uCi/m3 8S1 Target Range(40208901 O) -AC14 16-Jul-16 Carbon-14 1.10E-07 5.52E-07 3.31E-07 uCi/m3 8S1 Target Range(402578010) -AC14 23-Jul-16 Carbon-14 2.35E-07 5.91E-07 3.56E-07 uCi/m3 8S1 Target Range(403120010)-AC14 30-Jul-16 Carbon-14 2.09E-07 6.11 E-07 3.67E-07 uCi/m3 8S1 Target Range(403674010)-AC14 6-Aug-16 Carbon-14 2.93E-07 5.36E-07 3.24E-07 uCi/m3 8S1 Target Range(404132010)-AC14 13-Aug-16 Carbon-14 4.89E-07 3.36E-07 uCi/m3 8S1 Target Range(404555010)-AC14 20-Aug-16 Carbon-14 3.15E-07 5.64E-07 . 3.41E-07 uCi/m3 8S1 Target Range(405070010)-AC14 27-Aug-16 Carbon-14 4.59E-07 5.09E-07 3.11E-07 uCi/m3 8S1 Target Range(405461010) -AC14 Carbon-14 8.37E-08 5.33E-07 3.19E-07 uCi/m3 8S1 Target Range(405943010) -AC14 10-Sep..-16 Carbon-14 -3.56E-09 5.93E-07 3.53E-07 uCi/m3 8S1 Target Range(406484010)-AC14 17-Sep-16 Carbon-14 7.76E-08 6.10E-07 3.65E-07 uCi/m3 8S1 Target Range(406978010) -AC14 I 24-Sep-16 Carbon-14 2.28E-08 5.77E-07 3.44E-07 uCi/m3 8S1 Target Range(407538010)-AC14 1-0ct-16 Carbon.:14 1.74E-07 5.26E-07 3.16E-07 uCi/m3 8S1 Target Range(408013010)-AC14 8-0ct-16 Carbon-14 -2.67E-08 5.54E-07 3.30E-07 uCi/m3 8S1 Target Range(408711010) -AC14 15-0ct-16 Carbon-14 -3.48E-07 5.88E-07 uCi/m3 8S1 Target Range(409217010)-AC14 22-0ct-16 Carbon-14 ' -1.92E-07 5.72E-07 3.37E-07 uCi/m3 8S1 Target Range(409738010)-AC14 29-0ct-16 Carbon-14 4.14E-07 5.86E-07 3.56E-07 uCi/m3 8S1 Target Range(410322010) -AC14 5-Nov-16 Carbon-14 3.71 E-07 5.32E-07 3.23E-07 uCi/m3 8S1 Target Range(410821010) -AC14 12-Nov-16 Carbon-14 1.99E-07 5.04E-07 3.04E-07 uCi/m3 8S1 Target Range(411348010) -AC14 19-Nov-16 Carbon-14 1.69E-07 6.54E-07 3.92E-07 uCi/m3 8S1 Target Range(411620010) -AC14 26-Nov-16 Carbon-14 -1.45E-07 5.08E-07 3.00E-07 uCi/m3 8S1 Target Range(412193006) -AC14 3-Dec-16 Carbon-14 4.39E-08 6.01E-07 3.59E-07 uCi/m3 8S1 Target Range(412746011) -AC14 10-Dec.:16 Carbon-14 1.85E-07 6.05E-07 3.64E-07 uCi/m3 8S1 Target Range(413294010) -AC14 17-Dec-16 Carbon-14 2.87E-07 5.26E-07 3.18E-07 uCi/m3 8S1 Target Range(413412010)-AC14 24-Dec-16 Carbon-14 7.87E-08 6.50E-07 3.89E-07 uCi/m3 8S1 Target Range(413697010)-AC14 31-Dec-16 Carbon-14 -1.12E-07 5.43E-07 3.22E-07 uCi/m3 8S1 Target Range -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S1 Target Range(388797009) -AP 2-Jan-16 BETA 2.92E-02 1.48E-03 7.74E-03 pCi/m3 8S1 Target Range(389309003) -AP 9-Jan-16 BETA 1.75E-02 1.73E-03 8.59E-03 pCi/m3 8S1 Taroet Ranoe(389808004) -AP 16-Jan-16 BETA 9.17E-03 1.67E-03
- 7.98E-03 pCi/m3 8S1 Target Range(390230005) -AP 23-Jan-16 BETA 2.54E-02 1.61E-03 9.12E-03 pCi/m3 8S1 Target Range(390692004) -AP 30-Jan-:16 BETA 2.03E-02 1.66E-03 8.04E-03 pCi/m3 8S1 Target Range(391237003) -AP 6-Feb-16 BETA 3.19E-02 1.77E-03 8.35E-03 pCi/m3 8S1 Target Range(391592004) -AP 13-Feb-16 BETA 3.38E-02 1.58E-03 9.67E-03 pCi/m3 8S1 Target Range(392027005) -AP 20-Feb-16 BETA 3.34E-02 1.55E-03 . 8.33E-03 pCi/m3 8S1 Target Range(392482005) -AP 27-Feb-16 BETA 3.01E-02 1.52E-03 8.95E-03 pCi/m3 8S1 Target Range(392952011) -AP 5-Mar-16 BETA 1.22E-02 1.66E-03 7.77E-03 pCi/m3 8S1 Target Range(393384005) -AP 12-Mar-16 BETA 1.42E-02 1.54E-03 9.13E-03 pCi/m3 8S1 Target Range(393781004) -AP 19-Mar-16 BETA 2.09E-02 1.60E-03 8.57E-03 pCi/m3 8S1 Target Range(394076005) -AP 26-Mar-16 BETA 9.15E-03 1.59E-03 8.46E-03 oCi/m3 8S1 Target Range(394752005) -AP 2-Apr-16 BETA 2.45E-02 1.74E-03 9.34E-03 pCi/m3 8S1 Target Range(395261005) -AP 9-Apr-16 BETA 3.02E-02 1.73E-03 8.24E-03 pCi/m3 8S1 Target Range(395795005) -AP 16-Apr-16 BETA 2.11E-02 1.58E-03 8.56E-03 oCi/m3 Page 39 of92 2016 DCPP REMP Analysis Results Appendix A 8S1 Target Range(396244005) -AP 23-Apr-16 BETA 1.04E-02 .1.58E-03 9.05E-03 pCi/m3 8S1 Target Range(396779005) -AP 30-Apr-16 BETA 1.20E-02 1.64E-03 9.85E-03 pCi/m3 8S1 Target Range(397288005) -AP 7-May-16 BETA 1.72E-02 1.67E-03 8.54E-03 pCi/m3 8S1 Target Range(397706005) -AP 14-Mav-16 BETA 9.89E-03 1.54E-03 9.42E-03 pCi/m3 8S1 Target Range(398215005) -AP 21-May-16 BETA 5.20E-03 1.59E-03 9.17E-03 pCi/m3 8S1 Target Range(398542005) -AP 28-May-16 BETA 1.01E-02 1.63E-03 1.02E-02 pCi/m3 8S1 Target Range(399016005) -AP 4-Jun-16 BETA 6.45E-03 1.50E-03 9.42E-03 pCi/m3 8S1 Target Range(399503005) -AP 11-Jun-16 BETA 8.60E-03 1.66E-03 7.78E-03 pCi/m3 8S1 Taraet Ranae(399964005) -AP 18-Jun-16 BETA 7.15E-03 1.66E-03 7.14E-03 pCi/m3 8S1 Target Range(400310005) -AP 25-Jun-16 BETA 6.24E-03 1.97E-03 1.09E-02 pCi/m3 8S1 Target Range(401018005) -AP 2-Jul-16 BETA 1.30E-02 1.52E-03 8.15E-03 pCi/m3 8S1 Target Range(401598008) -AP 9-Jul-16 BETA 1.41 E-03 1.68E-03 9.63E-03 pCi/m3 8S1 Target Range(402089008) -AP 16-Jul-16 BETA 5.76E-03 1.61E-03 1.02E-02 pCi/m3 8S1 Taraet Ranae(402578005) -AP 23-Jul-16 BETA 1.23E-02 1.64E-03 8.65E-03 pCi/m3 8S1 Target Range(403120005) -AP 30-Jul-16 BETA 3.23E-03 1.62E-03 9.12E-03 pCi/m3 8S1 Target Range(403674005) -AP 6-Aug-16 BETA. 6.06E-03 1.64E-03 9.29E-03 pCi/m3 8S1 Target Range(404132005)-AP 13-Aug-16 BETA 7.04E-03 1.61E-03 8.61E-03 pCi/m3 8S1 Target Range(404555009) -AP 20-Aug-16 BETA 1.92E-02 1.67E-03 1.06E-02 pCi/m3 8S1 Taraet Ranae(405070009) -AP 27-Aua-16 BETA 1.61E-03 9.24E-03 pCi/m3 8S1 Target Range(405461005) -AP 3-Sep-16 BETA 1.97E-02 1.61E-03 9.13E-03 pCi/m3 8S1 Target Range(405943005) -AP 10-Sep-16 BETA 2.54E-02 *1.89E-03 9.93E-03 pCi/m3 8S1 Target Range(406484005) -AP 17-Sep-16 BETA 2.85E-02 1.78E-03 8.86E-03 pCi/m3 8S1 Target Range(406978005) -AP 24-Sep-16 BETA 3.05E-02 1.58E-03 8.98E-03 pCi/m3 8S1 Taraet Range(407538006) -AP 1-0ct-16 BETA 1.87E-02 1.60E-03 8.87E-03 pCi/m3 8S1 Target Range(408013005) -AP 8-0ct-16 BETA 3.78E-02 1.54E-03 1.00E-02 pCi/m3 BS 1 Target Range( 408711 005) -AP 15-0ct-16 BETA 1.79E-02 1.67E-03 9.68E-03 pCi/m3 8S1 Tarc:iet Ranae(409217005) -AP 22-0ct-16 BETA 2.79E-02 1.69E-03 1.03E-02 pCi/m3 8S1 Target Range(409738005) -AP 29-0ct-16 BETA 7.60E-03 1.79E-03 1.01E-02 pCi/m3 8S1 Target Range(410322005) -AP 5-Nov-16 BETA 3.02E-02 1.74E-03 3.95E-03 pCi/m3 8S1 Target Range(410821005)-AP 12-Nov-16 BETA 5.57E-02 1.71E-03 9.81E-03 pCi/m3 8S1 Target Range(411348005) -AP 19-Nov-16 BETA 1.02E-02 2.05E-03 1.11E-02 pCi/m3 8S1 Target Ranae(411620005) -AP 26-Nov-16 BETA 1.04E-02 1.53E-03 9.21E-03 pCi/m3 8S1 Target Range(412193004) -AP 3-Dec-16 BETA 2.45E-02 1.60E-03 8.83E-03 pCi/m3 8S1 Target Range(412746010) -AP 10-Dec-16 BETA 1.62E-02 1.62E-03 2.92E-03 pCi/m3 8S1 Target Range(413294009) -AP 17-Dec-16 BETA 3.14E-02 1.74E-03 6.86E-03 pCi/m3 8S1 Target Range(413412005) -AP 24-Dec-16 BETA 3.20E-02 1.96E-03 7.59E-03 pCi/m3 8S1 Taraet Ranae(413697009) -AP 31-Dec-16 BETA 2.07E-02 1.50E-03 7.71E-03 pCi/m3 8S1 Target Range(396298005) -AP 13-Feb-16 Bervllium-7 1.14E-01 1.03E-02 1.93E-02 pCi/m3 8S1 Target Range(396298005) -AP 13-Feb-16 Cesium-134 8.33E-05 6.11E-04 3.54E-04 pCi/m3 8S1 Target Range(401387005) -AP 14-May-16 Cesium-134 2.51E-04 6.79E-04 3.70E-04 pCi/m3 8S1 Target Range(408429005) -AP 13-Aug-16 Cesium-134 -3.47E-05 5.28E-04 4.01E-04 pCi/m3 8S1 Target Range(414245005) -AP 12-Nov-16 Cesium-134 5.73E-04 1.14E-03 5.95E-04 pCi/m3 8S1 Target Range(396298005) -AP 13-Feb-16 Cesium-137 3.11 E-04 5.06E-04 4.12E-04 pCi/m3 8S1 Target Range(401387005) -AP 14-May-16 Cesium-137 -1.36E-04 5.32E-04 3.44E-04 pCi/m3 8S1 Target Ranae(408429005) -AP 13-Aua-16 Cesium-137 -4.30E-05 2.99E-04 1.93E-04 oCi/m3 Page 40 of92 I L 2016 DCPP REMP Analysis Results Appendix A l8S1 Target Range(414245005) -AP 12-Nov-16 Cesium-137 -2.03E-04 I
- 5.61 E-04 4.09E-04 pCi/m3 8S2 SW Site Boundary -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S2 SW Site Boundary(388797006) -AC 2-Jan-16 lodine-131 8.25E-04 9.28E-03 5.52E-03 pCi/m3 8S2 SW Site Boundary(389309010) -AC 9-Jan-16 lodine-131 3.20E-03 9.63E-03 5.42E-03 pCi/m3 8S2 SW Site Boundary(389808010) -AC 16-Jan-16 lodine-131 -2.10E-03 1.08E-02 6.88E-03 pCi/m3 8S2 SW Site Boundary(390230016) -AC 23-Jan-16 lodine-131 3.07E-03 9.93E-03 5.67E-03 pCi/m3 8S2 SW Site Boundary(390692010) -AC 30-Jan-16 lodine-131 -1.71E-03 1.29E-02 8.09E-03 pCi/m3 8S2 SW Site Boundary(391237012) -AC 6-Feb-16 lodine-131 -1.82E-03 9.11E-03 5.78E-03 pCi/m3 8S2 SW Site Boundary(391592010) -AC 13-Feb-16 lodine-131 -1.20E-03 9.47E-03 5.89E-03 pCi/m3 8S2 SW Site Boundary(392027016) -AC 20-Feb-16 lodine-131 -1.09E-02 1.05E-02 9.29E-03 pCi/m3 8S2 SW Site Boundary(392482016) -AC 27-Feb-16 lodine-131 -2.51E-03 7.50E-03 5.15E-03 pCi/m3 8S2 SW Site Boundarv(392952003) -AC 5-Mar-16 lodine-131 -4.03E-03 8.36E-03 5.93E-03 oCi/m3 8S2 SW Site Boundary(393384016) -AC 12-Mar-16 lodine-131 4.20E-04 8.99E-03 5.18E-03 pCi/m3 8S2 SW Site Boundary(393781010)-AC 19-Mar-16 lodine-131 -1.66E-03 1.04E-02 6.51E-03 pCi/m3 8S2 SW Site Boundarv(394076016) -AC 26-Mar-16 lodine-131 -2.43E-03 1.60E-02 1.01E-02 pCi/m3 8S2 SW Site Boundary(394752016) -AC . 2-Apr-16 lodine-131 1.49E-04 1.07E-02 6.44E-03 pCi/m3 8S2 SW Site Boundary(395261016) -AC lodine-131 -4.59E-03 8.10E-03 5.82E-03 pCi/m3 8S2 SW Site Boundary(395795016) -AC 16-Apr-16 lodine-131 5.87E-03 1.49E-02 8.57E-03 pCi/m3 8S2 SW Site Boundary(396244016) -AC 23-Apr-16 lodine-131 1.73E-03 1.06E-02 6.23E-03 pCi/m3 8S2 SW Site Boundary(396779016) -AC 30-Apr-16 lodine-131 -1.40E-03 1.01E-02 7.38E-03 pCi/m3 8S2 SW Site Boundary(397288016) -AC 7-May-16 lodine-131 6.73E-03 2.11E-02 1.22E-02 pCi/m3 8S2 SW Site Boundary(397706016) -AC 14-May-16 lodine-131. -1.68E-04 9.75E-03 5.78E-03 oCi/m3 8S2 SW Site Boundarv(398215016) -AC 21-May-16 lodine-131 2.72E-03 1.10E-02 6.35E-03 pCi/m3 8S2 SW Site Boundary(398542016) -AC 28-Mav-16 lodine-131 1.05E-02 1.58E-02 1.45E-02 pCi/m3 8S2 SW Site Boundary(399016016) -AC 4-Jun-16 lodine-131 1.97E-03 1.01E-02 5.85E-03 pCi/m3 8S2 SW Site Boundary(399503016) -AC 11-Jun-16 lodine-131 -3.17E-03 1.09E-02 7.06E-03 'pCi/m3 8S2 SW Site Boundary(399964016) -AC 18-Jun-16 lodine-131 -1.39E-03 8.70E-03 5.45E-03 pCi/m3 8S2 SW Site Boundary(400310016) -AC 25-Jun-16 lodine-131 4.47E-04 1.27E-02 7.52E-03 pCi/m3 8S2 SW Site Boundarv(401018016) -AC 2-Jul-16 lodine-131 3.27E-04 1.90E-02 1.13E-02 pCi/m3 8S2 SW Site Boundarv(401598006) -AC 9-Jul-16 lodine-131 3.98E-03 1.44E-02 8.30E-03 pCi/m3 8S2 SW Site Boundary(402089006) -AC 16-Jul-16 lodine-131 1.91E-03 1.40E-02 7.94E-03 pCi/m3 8S2 SW Site Boundary(402578016) -AC 23-Jul-16 lodine-131 -1.60E-03 1.13E-02 6.81E-03 pCi/m3 8S2 SW Site Boundarv(4031200'16) -AC 30-Jul-16 lodine-131 1.84E-04 --1.34E-02 8.81E-03 pCi/m3 8S2 SW Site Boundary(403674016) -AC 6-Aug-16 lodine-131 -1.20E-03 1.71E-02 1.01E-02 pCi/m3 8S2 SW Site Boundary(404132016) -AC 13-Auq-16 lodine-131 -4.46E-03 1.02E-02 7.21E-03 pCi/m3 8S2 SW Site Boundary(404555006) -AC 20-Aug-16 lodine-131 3.38E-03 1.64E-02 9.12E-03 pCi/m3 8S2 SW Site Boundary(405070006) -AC 27-Aug-16 lodine-131 4.33E-04 6.78E-03 3.85E-03 pCi/m3 8S2 SW Site Boundary(405461016) -AC 3-Sep-16 lodine-131 -3.00E-03 5.94E-03 4.41E-03 pCi/m3 8S2 SW Site Boundary(405943016) -AC 10-Sep-16 lodine-131 -2.26E-03 6.28E-03 4.26E-03 pCi/m3 8S2 SW Site Boundary(406484016) -AC 17-Sep-16 lodine-131 3.24E-04 5.81E-03 3.55E-03 pCi/m3 8S2 SW Site Boundary(406978016) -AC 24-Sep-16 lodine-131 1.32E-04 7.38E-03 4.43E-03 pCi/m3 8S2 SW Site Boundarv(407538016) -AC 1-0ct-16 lodine-131 -9.07E-04 9.58E-03 6.26E-03 pCi/m3 8S2 SW Site Boundary(408013015) -AC 8-0ct-16 lodine-131 -5.26E-04 1.22E-02 7.19E-03 pCi/m3 Page 41 of 92 2016 DCPP REMP Analysis Results Appendix A 8S2 SW Site Boundary(408711016) -AC 15-0ct-16 lodine-131 6.85E-03 7:75E-03 6.61E-03 pCi/m3 8S2 SW Site Boundarv(409217016)-AC 22-0ct-16 lodine-131 3.99E-03 9.48E-03 5.22E-03 pCi/m3 8S2 SW Site Boundarv(409738016) -AC 29-0ct-16 lodine-131 2.33E-03 8.56E-03 4.71E-03 pCi/m3 8S2 SW Site Boundarv(410322016) -AC - Nov-16 lodine-131 -4.28E-04 9.44E-03 5.BBE-03 pCi/m3 8S2 SW Site Boundary(410821016) -AC 12-Nov-16 lodine-131 1.25E-04 7.50E-03 4.38E-03 pCi/m3 8S2 SW Site Boundary(411348016) -AC 19-Nov-16 lodine-131 9.71E-03 2.02E-02 1.16E-02 pCi/m3 8S2 SW Site Boundary(411620016)-AC 26-Nov-16 lodine-131 -2.23E-03 8.36E-03 5.39E-03 pCi/m3 8S2 SW Site Boundary(412193012) -AC 3-Dec-16 lodine-131 -4.12E-04 1.09E-02 6.66E-03 pCi/m3 8S2 SW Site Boundarv(412746007) -AC 10-Dec-16 lodine-131 -2.23E-03 8.02E-03 5.11 E-03 pCi/m3 8S2 SW Site Boundary(413294006) -AC 17-Dec-16 lodine-131 -2.62E-04 1.07E-02 6.47E-03 pCi/m3 8S2 SW Site Boundary(413412016) -AC 24-Dec-16 lodine-131 6.49E-04 1.11 E-02 6.49E-03 pCi/m3 8S2 SW Site Boundary(413697006) -AC 31-Dec-16 lodine-131 -3.02E-03 5.14E-03 3:90E-03 pCi/m3 8S2 SW S"t B d 1e oun ary-A"Prf It Ir a 1cu a e Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S2 SW Site Boundary(388797007) -AP 2-Jan-16 BETA 2.83E-02 1.51E-03 7:86E-03 pCi/m3 8S2 SW Site Boundarv(389309004) -AP 9-Jan-16 BETA 1.26E-02 1.76E-03 8.59E-03 pCi/m3 8S2 SW Site Boundary(389808003) -AP 16-Jan-16 BETA 1.14E-02 1.70E-03 8.19E-03 pCi/m3 8S2 SW Site Boundarv(390230006) -AP 23-Jan-16 BETA 2.38E-02' 1.56E-03 8.82E-03 pCi/m3 8S2 SW Site Boundarv(390692003) -AP 30-Jan-16 BETA 2.04E-02 1.69E-03 8.17E-03 pCi/m3 8S2 SW Site Boundarv(391237002) -AP 6-Feb-16 BETA 3.12E-02 1.BOE-03 8.44E-03 pCi/m3 8S2 SW Site Boundarv(391592003) -AP 13-Feb-16 BETA 3.10E-02 1.56E-03 9.49E-03 pCi/m3 8S2 SW Site Boundary(392027006) -AP 20-Feb-16 BETA 2.66E-02 1.53E-03 8.03E-03 pCi/m3 8S2 SW Site Boundary(392482006) -AP 27-Feb-16 BETA 2.20E-02 1.50E-03 8.66E-03 pCi/m3 8S2 SW Site Boundary(392952010) -AP 5-Mar-16 BETA 1.46E-02 1.65E-03 7.82E-03 pCi/m3 8S2 SW Site Boundary(393384006) -AP 12-Mar-16 BETA 1.23E-02 1.46E-03 8.62E-03 pCi/m3 BS2 SW Site Boundarv(393781003) -AP 19-Mar-16 BETA 1.55E-02 1.60E-03 8.44E-03 pCi/m3 8S2 SW Site Boundarv(394076006) -AP 26-Mar-16 BETA 6.48E-03 1.59E-03 8.38E-03 pCi/m3 8S2 SW Site Boundary(394752006) -AP 2-Apr-16 BETA 2.76E-02 1.74E-03 9.43E-03 pCi/m3 8S2 SW Site Boundary(395261006) -AP 9-Apr-16 BETA 2.60E-02 1.73E-03 8.12E-03 pCi/m3 8S2 SW Site Boundary(395795006) -AP 16-Apr-16 BETA 2.01E-02 1.58E-03 8.55E-03 pCi/m3 8S2 SW Site Boundarv(396244006) -AP 23-Apr-16 BETA 1.24E-02 1.57E-03 9.04E-03 pCi/m3 8S2 SW Site Boundary(396779006) -AP 30-Apr-16 BETA 9.64E-03 1.65E-03 9.82E-03 pCi/m3 8S2 SW Site Boundary(397288006) -AP 7-May-16 BETA 1.33E-02 1.66E-03 8.36E-03 pCi/m3 8S2 SW Site Boundary(397706006) -AP 14-May-16 BETA 1.19E-02 1.52E-03 9.35E-03 pCi/m3 8S2 SW Site Boundary(398215006) -AP 21-May-16 BETA 4.73E-03 1.60E-03 9.18E-03 pCi/m3 8S2 SW Site Boundarv(398542006) -AP 28-May-16 BETA 1.48E-02 1.62E-03 1.02E-02 pCi/m3 8S2 SW Site Boundary(399016006) -AP 4-Jun-16 BETA 7.73E-03 1.50E-03 9.47E-03 pCi/m3 8S2 SW Site Boundary(399503006) -AP 11-Jun-16 BETA 1.17E-02 1.66E-03 7.89E-03 pCi/m3 BS2 SW Site Boundary(399964006) -AP 18-Jun-16 BETA 8.76E-03 1.65E-03 7.17E-03 pCi/m3 8S2 SW Site Boundary(400310006) -AP' 25-Jun-16 BETA 6.50E-03 1.92E-03 1.07E-02 pCi/m3 8S2 SW Site Boundary(401018006) -AP 2-Jul-16 BETA 1.40E-02 1.51E-03 8.14E-03 pCi/m3 8S2 SW Site Boundary(401598007) -AP 9-Jul-16 BETA 3.87E-03 1.67E-03 9.64E-03 pCi/m3 8S2 SW Site Boundary(402089007) -AP 16-Jul-16 BETA 4.46E-03 1.60E-03 1.01E-02 pCi/m3
- 8S2 SW Site Boundary(402578006) -AP 23-Jul-16 BETA 8.33E-03 1.65E-03 8.57E-03 pCi/m3 Page 42 of92 2016 DCPP REMP Analysis Results Appendix A 8S2 SW Site Boundary(403120006) -AP 30-Jul-16 BETA 2.09E-03 1.64E-03 9.19E-03 pCi/m3 8S2 SW Site Boundary(403674006) -AP 6-Aug-16 BETA 5.60E-03 1.63E-03 9.26E-03 pCi/m3 8S2 SW Site Boundary(404132006) -AP 13-Aug-16 BETA 1.03E-02 1.59E-03 8.59E-03 pCi/m3 8S2 SW Site Boundary(404555007) -AP 20-Auo-16 BETA 1.89E-02 1.69E-03 1.08E-02 oCi/m3 8S2 SW Site Boundary(405070007) -AP 27-Aug-16 BETA 1.81E-02 1.61E-03 9.10E-03 pCi/m3 8S2 SW Site Boundary(405461006) -AP 3-Sep-16 BETA 1.76E-02 9.01 E-03 " pCi/m3 8S2 SW Site Boundarv(405943006) -AP 10-Sep-16 BETA 2.62E-02 1.84E-03 9.?0E-03 pCi/m3 8S2 SW Site Boundary(406484006) -AP 17-Sep-16 BETA 2.64E-02 1.79E-03 8.85E-03 pCi/m3 8S2 SW Site Boundary(406978006) -AP 24-Sep-16 BETA 2.71E-02 1.57E-03 8.85E-03 oCi/m3 8S2 SW Site Boundary(407538005) -AP 1-0ct-16 BETA 1.99E-02 1.60E-03 8.88E-03 pCi/m3 8S2 SW Site Boundary(408013006) -AP 8-0ct-16 BETA 3.26E-02 1.53E-03 9.86E-03 pCi/m3 8S2 SW Site Boundarv(408711006) -AP 15-0ct-16 BETA 1.48E-02 1.67E-03 9.59E-03 pCi/m3 8S2 SW Site Boundarv(409217006) -AP 22-0ct-16 BETA 2.74E-02 1.69E-03 1.02E-02 pCi/m3 8S2 SW Site Boundarv(409738006) -AP . 29-0ct-16 BETA 1.27E-02 1.81E-03 1.03E-02 oCi/m3 8S2 SW Site Boundary(410322006) -AP 5-Nov-16 BEJA 2.44E-02 1.74E-03 3.56E-03 pCi/m3 8S2 SW Site Boundarv(410821006) -AP 12-Nov-16 BETA 4.00E-02 1.72E-03 9.42E-03 pCi/m3 8S2 SW Site Boundary(411348006) -AP 19-Nov-16 BETA 6.18E-03 2.02E-03 1.08E-02 pCi/m3 8S2 SW Site Boundary(411620006) -AP 26-Nov-16 BETA 7.94E-03 1.54E-03 9.18E-03. pCi/m3 8S2 SW Site Boundary(412193013) -AP 3-Dec-16 BETA 2.60E-02 1.62E-03 8.98E-03 oCi/m3 8S2 SW Site Boundary(412746008) -AP 10-Dec-16 BETA 1.43E-02 1.63E-03 2.77E-03 pCi/m3 8S2 SW Site Boundary(413294007) -AP 17-Dec-16 BETA 3.15E-02 1.74E-03 6.85E-03 pCi/m3 8S2 SW Site Boundary( 413412006) -AP 24-Dec-16 BETA 3.40E-02 1.96E-03 7.66E-03 pCi/m3 8S2 SW Site Boundary(413697007) -AP . 31-Dec-16 BETA 2.01E-02 1.51E-03 7.75E-03 pCi/m3 8S2 SW Site Boundarv(396298006) -AP 13-Feb-16 Beryllium-? 1.04E-01 1.16E-02 2.15E-02 pCi/m3 8S2 SW Site Boundarv(396298006) -AP 13-Feb-16 Cesium-134 -2.87E-04 5.57E-04 4.36E-04 pCi/m3 8S2 SW Site Boundary(401387006) -AP 14-May-16 Cesium-134 2.61 E-04 6.21 E-04 3.37E-04 pCi/m3 8S2 SW Site Boundary(408429006) -AP 13-Auq-16 Cesium-134 2.01E-05 5.88E-04 3.51E-04 pCi/m3 8S2 SW Site Boundary(414245006) -AP 12-Nov-16 Cesium-134 2.02E-05 4.11E-04 2.47E-04 pCi/m3 8S2 SW Site Boundary(396298006) -AP 13-Feb-16 Cesium-137 -2.0?E-04 5.09E-04 3.69E-04 pCi/m3 8S2 SW Site Boundarv(401387006) -AP 14-May-16 Cesium-137 2.41E-04 6.55E-04 3.69E-04 pCi/m3 8S2 SW Site Boundary(408429006) -AP 13-Aug-16 Cesium-137 -4.38E-05 5.63E-04 3.50E-04 pCi/m3 8S2 SW Site Boundary(414245006) -AP 12-Nov-16 Cesium-137 2.05E-05 4.36E-04 2.60E-04 pCi/m3 8S3 DCSF96 Groundwater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units 8S3 DCSF96-1(390373002) -GW 26-Jan-16 BETA 1.56E+01 1.30E+OO 2.85E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 BETA 9.01E+OO 1.46E+OO 1.92E+OO oCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 BETA 5.96E+OO 1.74E+OO 1.57E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 BETA 7.22E+OO 1.08E+OO 1.50E+OO pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Barium-140 3.52E+OO 1.42E+01 8.23E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Barium-140 4.17E+OO 1.13E+01 6.64E+OO pCi/L 8S3 DCSF96-1(402877002) -GW 27-Jul-16 Barium-140 1.85E+OO 9.78E+OO 5.85E+OO pCi/L 8S3 DCSF96-1 (411160001) -GW 16-Nov-16 Barium-140 -2.46E+OO 7.74E+OO 4.92E+OO pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Cesium-134 -5.14E-03 2.33E+OO 1.38E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Aor-16 Cesium-134 3.74E-01 2.10E+OO 1.37E+OO oCi/L Page 43 of 92 2016 DCPP REMP Analysis Results Appendix A 8S3 DCSF96-1(402877002) -GW 27-Jul-16 Cesium-134 4.31E-01 1.80E+OO 1.04E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Cesium-134 2.75E-01 1.52E+OO 9.29E-01 pCi/L 8S3 DCSF96-1(390373002) -GW 26-Jan-16 Cesium-137 -4.89E-01 2.06E+OO 1.26E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Cesium-137 9.48E-01 2.11E+OO 1.27E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Cesium-137 2.80E-02 1.65E+OO 1.00E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Cesium-137 -5.57E-01 1.44E+OO 9.52E-01 pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Cobalt-58 1.35E-01 2.13E+OO 1.25E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Cobalt-58 1.-38E+OO 2.17E+OO 1.52E+OO pCi/L 8S3 DCSF96"1(402877002)-GW 27-Jul-16 Cobalt-58 1.29E-01 1.57E+OO , 1.04E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 Cobalt-58 -4.73E-02 1.35E+OO 7.81 E-01 _ pCi/L 8S3 DCSF96-1(390373002) -GW 26-Jan-16 Cobalt-60 1.31 E+OO 2.44E+OO 1.45E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Cobalt-60 -4.23E-01 1.97E+OO 1.23E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Cobalt-60 -6.52E-02 1.80E+OO 1.66E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Cobalt-60 3.71E-01 1.39E+OO 8.15E-01 pCi/L 8S3 DCSF96-1 (390373002).-GW 26-Jan-16 lodine-131 9.76E-01 6.19E+OO 3.70E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 lodine-131 4.80E-02 4.34E+OO 2.60E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 lodine-131 -2.27E-01 3.74E+OO 2.21E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 lodine-131 1.22E-01 3.01E+OO 1.76E+OO pCi/L 8S3 DCSF96-1(390373002) -GW 26-Jan-16 lron-55 -3.71E+OO 5.03E+01 3.73E+01 pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 lron-55 -1.73E+01 6.28E+01 4.50E+01 pCi/L 8S3 DCSF96-1 (402877002) -GW 27-Jul-16 lron-55 1.93E+01 6.75E+01 5.03E+01 pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 lron-55 * -8.18E+OO 8.13E+01 6.22E+01 " pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 lron-59 1.62E+OO 4.48E+OO 3.03E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 lron-59 -1.97E-01 4.10E+OO 2.43E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 lron-59 1.94E-01 3.29E+OO 1.94E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 lron-59 -1.09E+OO 2.74E+OO 1.77E+OO pCi/L 8S3 DCSF96-1(390373002) GW 26-Jan-16 Lanthanum-140 -6.40E+OO 4.78E+OO 6.92E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Lanthanum-140 -8.08E-01 3.69E+OO 2.35E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Lanthanum-140 -2.71E-01 2.76E+OO 1.90E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Lanthanum-140 -7.45E-01 2.45E+OO 1.75E+OO pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Manganese-54 7.58E-02 1.98E+OO 1.17E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Manganese-54 -1.05E+OO 1.89E+OO 1.30E+OO pCi/L 8S3 DCSF96-1(402877002) -GW 27-Jul-16 Manganese-54 -5.85E-01 1.49E+OO 1.08E+OO pCi/L 8S3 DCSF96-1 (411160001) -GW 16-Nov-16 Manganese-54 1.32E-01 1.35E+OO 7.72E-01 pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Nickel-63 -2.20E+OO 2.36E+01 1.39E+01 pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Nickel-63 1.73E+01 3.41E+01 2.13E+01 pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Nickel-63 -1.94E+OO 2.56E+01 1.52E+01 pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Nickel-63 4.93E+OO 3.45E+01 2.07E+01 pCi/L 8S3 DCSF96-1 (390373002) -GW 26-Jan-16 Niobium-95 1.58E+OO 2.39E+OO 1.50E+OO pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Niobium-95 -5.22E-01 1.98E+OO 1.24E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Niobium-95 7.25E-01 1.76E+OO 1.04E+OO pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Niobium-95 7.70E-02 1.56E+OO 1.08E+OO pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Total Strontium -1.12E-01 4.00E-01 2.35E-01 pCi/L 8S3 DCSF96-1(396610004) -GW 26-Apr-16 Total Strontium -1.13E-02 2.37E-01 1.41E-01 pCi/L 8S3 DCSF96-1 (402877002) -GW 27-Jul-16 Total Strontium -8.47E-02 1.44E-01 8.21E-02 pCi/L Page 44 of92 2016 DCPP REMP Analysis Results Appendix A 8S3 DCSF96-1 (411160001) -GW 16-Nov-16 Total Strontium 4.83E-02 5.21E-01 3.15E-01 pCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan"16 Tritium 1.04E+02 2.73E+02 1.68E+02 pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Tritium -8.72E+01 2.78E+02 1.62E+02 pCi/L 8S3 DCSF96-1(402877002) -GW 27-Jul-16 Tritium 7.02E+01 2.90E+02 1.76E+02 pCi/L 8S3 DCSF96-1(411160001) -GW 16-Nov-16 Tritium 5.53E+01 2.65E+02 1.61E+02 pCi/L 8S3 DCSF96-1(390373002) -GW 26-Jan-16 Zinc-65 -2.33E+OO 4.32E+OO 3.48E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Zinc-65 2.38E-01 4.32E+OO 2.53E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Zinc-65 3.52E-01 2.84E+OO 1.91 E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 Zinc-65 -4.97E-02 2.94E'i'.OO 1.98E+OO oCi/L 8S3 DCSF96-1(390373002)-GW 26-Jan-16 Zirconium-95 2.00E-01 4.02E+OO 2.37E+OO pCi/L 8S3 DCSF96-1(396610004)-GW 26-Apr-16 Zirconium-95 -1.85E+OO 3.70E+OO 2.48E+OO pCi/L 8S3 DCSF96-1(402877002)-GW 27-Jul-16 Zirconium-95 4.97E-01 2.99E+OO 1.72E+OO pCi/L 8S3 DCSF96-1(411160001)-GW 16-Nov-16 Zirconium-95 1.46E+OO 2.57E+OO 1.76E+OO pCi/L AVA Avila Beach -Beach Sand Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units AVA Avila Beach(393297001) -SD 10-Mar-16 Barium-140 2.57E+02 3.02E+02 1.93E+02 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Barium-140 8.21 E+01 3.27E+02 1.81 E+02 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Cesium-134 5.97E+OO 6.28E+01 3.55E+01 pCi/kq AVA Avila Beach(406060003) -SD , 13-Sep-16 Cesium-134 4.59E+01 7.50E+01 4.02E+01 pCi/kg AVA Avila Beach(393297001)-SD 10-Mar-16 Cesium-137 -3.83E+OO 4.75E+01 2.76E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 Cesium-137 4.69E+01 7.89E+01 4.46E+01 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Cobalt-58 1.96E+01 6.06E+01 3.32E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 Cobalt-58 -4.78E+OO 6.76E+01 3.90E+01 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Cobalt-60 2.83E+OO
- 4.78E+01 2.73E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 Cobalt-60 3.85E+01 7.52E+01 4.34E+01 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 lron-55 -1.86E+03 1.13E+04 8.48E+03 pCi/kq AVA Avila Beach(406060003) -SD 13-Sep-16 lron-55 7.24E+03 1.71E+04 1.24E+04 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 lron-59 6.37E+OO 1.15E+02 7.85E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 lron-59 3.06E+01 1.67E+02 9.26E+01 pCi/kg AVA Avila Beach(393297001)-SD 10-Mar-16 Lanthanum-140 1.63E+01 8.36E+01 4.44E+01 pCi/kg AVA Avila Beach(406060003)-SD 13-Sep-16 Lanthanum-140 4.07E+OO 1.16E+02 6.85E+01 pCi/kq AVA Avila Beach(393297001) -SD 10-Mar-16 Lead-212 3.09E+02 8.87E+01 1.04E+02 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Lead-214 4.72E+02 1.13E+02 1.42E+02 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Manganese-54 2.19E+OO 5.83E+01 3.36E+01 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Manganese-54 -1.06E+01 5.99E+01 4.13E+01 pCi/kg AVA Avila Beach(393297001)-SD 10-Mar-16 Nickel-63 2.98E+02 1.93E+03 1.16E+03 pCi/kq AVA Avila Beach(406060003)-SD 13-Sep-16 Nickel-63 -1.35E+03 2.64E+03 1.52E+03 _pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Niobium-95 -2.84E+01 5.75E+01 4.58E+01 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Niobium-95 -2.28E+01 7.21E+01 5.53E+01 pCi/kg AVA Avila Beach(393297001)-SD 10-Mar-16 Potassium-40 1.26E+04 4.28E+02 1.74E+03 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Total Strontium -9.77E+02 1.67E+03 8.70E+02 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Total Strontium -7.20E+02 1.19E+03 6.28E+02 pCi/kg AVA Avila Beach(393297001) -SD 10-Mar-16 Zinc-65 2.90E+01 1.45E+02 9.14E+01 pCi/kg AVA Avila Beach(406060003) -SD 13-Sep-16 Zinc-65 -8.31E+01 1.51E+02 1.09E+02 oCi/kq Page 45 of92 2016 DCPP REMP Analysis Results Appendix A AVA Avila Beach(393297001) -SD 10-Mar-16 Zirconium-95 3.57E+01 8.80E+01 5.08E+01 pCi/kg AVA Avila Beach 406060003)-SD 13-Sep-16 Zirconium-95 1.79E+01 1.22E+02 7.03E+01 pCi/kg BCM Blanchard Cow Meat Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Cesium-134 3.99E+OO 5.79E+OO 4.01E+OO pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Cesium-134 -1.99E+OO 3.75E+OO 2.78E+OO pCi/kg BCM Blanchard Cow Meat(404129003) -MT* 16-Aug-16 Cesium-134 -1.16E+OO 5.70E+OO 3.60E+OO pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 Cesium-134 -1.35E+OO 4.74E+OO 2.99E+OO pCi/kq BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Cesium-137 2.05E+OO 5.42E+OO 3.21 E+OO pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Cesium-137 3.52E+OO 3.76E+OO 4.80E+OO pCi/kg BCM Blanchard Cow Meat(404129003)-MT 16-Aug-16 Cesium-137 -1.30E+OO 5.23E+OO 3.28E+OO pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 Cesium-137 2.91E+OO 4.11E+OO 3.13E+OO pCi/kg BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Cobalt-58 3.93E-01 5.06E+OO 3.08E+OO pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Cobalt-58 -5.53E-01 3.52E+OO 2.27E+OO pCi/kg BCM Blanchard Cow Meat(404129003) -MT 16-Aug-16 Cobalt-58 -4.45E-01 4.82E+OO 3.07E+OO pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 Cobalt-58 1.42E+OO 4.59E+OO 2.69E+OO pCi/kg BCM Blanchard Cow Meat(392454003) -MT_ 1-Mar-16 Cobalt-60 1.24E+OO 5.95E+OO 3.44E+OO pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-Mav-16 Cobalt-60 -2.79E-01 3.72E+OO 2.49E+OO oCi/kq BCM Blanchard Cow Meat(404129003) -MT 16-Aug-16 Cobalt-60 -2.64E+OO 5.61E+OO 4.23E+OO pCi/kg BCM Blanchard Cow Meat(409315003)-MT 25-0ct-16 Cobalt-60 -1.84E+OO 4.40E+OO 2.90E+OO pCi/kg BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 lodine-131 1.64E+OO 6.79E+OO 4.67E+OO oCi/ka BCM Blanchard Cow Meat(397285003) -MT 10-May-16 lodine-131 1.51E+OO 5.98E+OO 3.53E+OO pCi/kg BCM Blanchard Cow Meat(404129003) -MT 16-Aug-16 lodine-131 1.35E+OO. 5.69E+OO 3.46E+OO pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 lodine-131 -5.35E+OO 6.73E+OO 5.58E+OO pCi/kg BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Potassium-40 2.91E+03 5.62E+01 2.92E+02 pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Potassium-40 2.58E+03 3.80E+01 2.54E+02 pCi/kq BCM Blanchard Cow Meat(392454003) -MT 1-Mar-16 Total Strontium 4.36E+OO 5.70E+01 3.41E+01 pCi/kg BCM Blanchard Cow Meat(397285003) -MT 10-May-16 Total Strontium -2.54E+01 3.80E+01 2.14E+01 pCi/kg BCM Blanchard Cow Meat(404129003) -MT 16-Aug-16 Total Strontium -5.63E+01 1.08E+02 6.29E+01 pCi/kg BCM Blanchard Cow Meat(409315003) -MT 25-0ct-16 Total Strontium 3.72E+01 6.00E+01 4.33E+01 pCi/kg CBA Cambria Moonstone Beach -Beach Sand Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units CBA Cambria Moonstone Beach(393297002) -SD m-Mar-16 Barium-140 3.14E+01 2.89E+02 1.56E+02 pCi/kg CBA Cambria Moonstone Beach(406060004)-SD 13-Sep-16 Barium-140 -1.19E+01 2.45E+02 1.42E+02 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar.16 Cesium-134 3.29E+01 5.91E+01 3.62E+01 oCi/kq CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Cesium-134 -3.01E+OO 4.18E+01 2.55E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Cesium-137 4.74E+01 4.74E+01 5.38E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD
- 13-Sep-16 Cesium-137 2.71E+01 3.49E+01 2.87E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Cobalt-58 -3.49E+01 3.44E+01 3.20E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Seo-16 Cobalt-58 1.21 E+01 4.36E+01 2.31E+01 pCi/ka CBA Cambria Moonstone Beach(393297002) -SD . 10-Mar-16 Cobalt-60 2.02E+01 5.32E+01 2.76E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Cobalt-60 -1.41 E+01 3.67E+01 2.64E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 lron-55 -4.63E+03 1.14E+04 8.47E+03 oCi/ka Page 46 of 92 2016 DCPP REMP Analysis Results Appendix A CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 lron-55 -2.01E+03 1.63E+04 1.15E+04 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 lron-59 1.13E+02 1.39E+02 1.20E+02 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 lron-59 6.52E-01 9.54E+01 5.75E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Lanthanum-140 1.18E+01 7.40E+01 3.95E+01 pCi/kq CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Lanthanum-140 -1.61 E+01 4.16E+01 3.39E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Lead-212 3.84E+02 8.33E+01 9.53E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Manganese-54 -4.65E+OO 4.54E+01 2.73E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 . Manganese-54 -4.87E+OO 4.16E+01 2.60E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Nickel-63 2.16E+02 2.09E+03 1.25E+03 -pCi/kq CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Nickel-63 -1.26E+03 2.62E+03 1.52E+03 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Niobium-95 -7.36E+OO 5.00E+01 2.96E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Niobium-95 -2.50E+OO 4.37E+01 2.97E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 1 O-Mar-16 Potassium-40 5.75E+03 3.98E+02 1.07E+03 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Total Strontium -2.10E+02 1.62E+03 9.35E+02 -pCi/kg CBA Cambria Moonstone Beach(406060004) -SD , 13-Sep-16 Total Strontium -1.68E+02 9.38E+02 5.32E+02 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Zinc-65 -3.65E+01 1.12E+02 7.25E+01 pCi/kg CBA Cambria Moonstone Beach(406060004) -SD 13-Sep-16 Zinc-65 1.05E+01 1.31E+02 7.70E+01 pCi/kg CBA Cambria Moonstone Beach(393297002) -SD 10-Mar-16 Zirconium-95 -5.93E+01 6.45E+01 5.64E+01 pCi/kg CBA Cambria Moonstone Beach(406060004)-SD 13-Sep-16 Zirconium-95 3.74E+OO 6.34E+01 3.74E+01 pCi/kq CCM Control Cow Meat Sample Name Date Collected Nuclide Result MDC 2 SiQmaTPU Units CCM Control Cow Meat(389479001) -MT 12-Jan-16 Cesium-134 1.58E+OO 3.79E+OO 2.33E+OO pCi/kg CCM Control Cow Meat(396918001.) -MT 4-Mav-16 Cesium-134 1.02E+OO 3.97E+OO 2.35E+OO pCi/kg CCM Control Cow Meat(403108002)-MT ' 1-Aug-16 Cesium-134 -1.47E+OO 5.84E+OO 3.57E+OO pCi/kg CCM Control Cow Meat(409315004) -MT 26-0ct-16 Cesium-134 1.51E+OO 4.89E+OO 2.94E+OO pCi/kg CCM Control Cow Meat(389479001) -MT 12-Jan-16 Cesium-137 2.44E+OO 3.77E+OO 2.42E+OO pCi/kq CCM Control Cow Meat(396918001) -MT 4-May-16 Cesium-137 2.48E+OO 3.73E+OO 2.65E+OO pCi/kg CCM Control Cow Meat(403108002)-MT 1-Aug-16 Cesium-137 1.41 E+OO 5.99E+OO 3.59E+OO pCi/kg CCM Control Cow Meat( 409315004) -MT 26-0ct-16 Cesium-137 7.79E-02 4.15E+OO 2.50E+OO pCi/kg .CCM Control Cow Meat(389479001) -MT \ 12-Jan-16 Cobalt-58 1.60E+OO 3.55E+OO 2.10E+OO pCi/kg CCM Control Cow Meat(396918001)-MT 4-May-16 Cobalt-58 2.54E+OO 3.30E+OO* 2.70E+OO pCi/kq CCM Control Cow Meat(403108002)-MT 1-Aug-16 Cobalt-58 -6.38E-04 5.60E+OO ./ 3.27E+OO pCi/kg CCM Control Cow Meat(409315004) -MT 26-0ct-16 Cobalt-58 -9.50E-01 4.18E+OO 2.70E+OO pCi/kg CCM Control Cow Meat(389479001) -MT 12-Jan-16 Cobalt-60 -3.80E-01 3.74E+OO 2.92E+OO pCi/kg CCM Control Cow Meat(396918001)-MT 4-May-16 Cobalt-60 -1.00E+OO 3.84E+OO 2.40E+OO pCi/kg CCM Control Cow Meat(403108002)-MT 1-Aug-16 Cobalt-60 -1.32E+OO 5.84E+OO 4.35E+OO pCi/kQ CCM Control Cow Meat(409315004) -MT 26-0ct-16 Cobalt-60 -1.62E+OO 3.70E+OO 2.53E+OO pCi/kg CCM Control Cow Meat(389479001) -MT 12-Jan-16 lodine-131 5.20E-01 5.67E+OO' 3.31E+OO pCi/kg CCM Control Cow Meat(396918001)-MT 4-May-16 lodine-131 3.33E+OO 5.47E+OO 3.50E+OO pCi/kg CCM Control Cow Meat(403108002)-MT 1-Aug-16 lodine-131 2.11E+OO 1.02E+01 5.94E+OO pCi/kg CCM Control Cow Meat(409315004) -MT 26-0ct-16 lodine-131 -3.58E-01 6.26E+OO 4.07E+OO pCi/kq CCM Control Cow Meat(389479001) -MT 12-Jan-16 Potassium-40 2.38E+03 2.74E+01 2.46E+02 pCi/kg CCM Control Cow Meat(396918001) -MT 4-May-16 Potassium-40 2.54E+03 3.26E+01 2.48E+02 pCi/kg CCM Control Cow Meat(389479001) -MT 12-Jan-16 Total Strontium 1.71E+OO 1.35E+02 8.08E+01 pCi/kq _) Page 47 of92
-l 2016 DCPP REMP Analysis Results Appendix A CCM Control Cow Meat(396918001) -MT 4-May-16 Total Strontium -7.76E+OO 2.95E+01 1.72E+01 pCi/kg CCM Control Cow Meat(403108002) -MT 1-Aug-16 Total Strontium -2.12E+01 4.00E+01 2.30E+01 .pCi/kg CCM Control Cow Meat(409315004) -MT 26-0ct-16 Total Strontium -1.22E+02 1.64E+02 8.41 E+01 pCi/kg CYA Cayucos Beacn -Beach Sand Sample Name I Date Collected Nuclide Result MDC 2 Sigma TPU Units CYA Cayucos Beach(393297003) -SD 10-Mar-16 Barium-140 7.80E+01
- 2.66E+02 1.58E+02 pCi/kg CYA Cavucos Beach(406060005) -SD 13-Sep-16 Barium-140 6.79E+01 2.70E+02 1,.49E+02 pCi/kg CYA Cavucos Beach(393297003) -SD 10-Mar-16 Bismuth-214 2.86E+02 7.45E+01 9.24E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Cesium-134 3.50E+01 5.20E+01 2.86E+01 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Cesium-134 5.07E+01 6.32E+01 4.93E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Cesium-137 -5.20E+OO 3.48E+01 2.15E+01 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Cesium-137 6.98E+OO 6.61E+01 3.71E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Cobalt-58 -7.63E+OO 4.72E+01 2.81E+01 pCi/kq CYA Cayucos Beach(406060005) -SD 13-Sep-16 Cobalt-58 -2.58E+01 4.78E+01 3.40E+01 pCi/kg .. CYA Cayucos Beach(393297003) -SD 10-Mar"16 Cobalt-60 -5.49E+OO 3.56E+01 2.62E+01 pCi/kg CYA Cavucos Beach(406060005)-SD 13-Sep-16 Cobalt-60 2.00E+01 6.33E+01 3.44E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 lron-55 -3.48E+03 1.13E+04 8.39E+03 pCi/kg CYA Cavucos Beach(406060005) -SD 13-Sep-16 lron-55 2.50E+03 1.55E+04 1.11E+04 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 lron-59 -2.22E+01 8.68E+01 5.70E+01 pCi/kg CYA Cayucos Beach(406060005)-SD 13-Sep-16 lron-59 1.79E+01 1.01E+02 5.58E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Lanthanum-140 7.87E+OO 5.26E+01 2.70E+01 pCi/kq CYA Cayucos Beach(406060005)-SD 13-Sep-16 Lanthanum-140 -2.74E+01 9.62E+01 6.40E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Lead-214 2.81E+02 8.02E+01 1.00E+02 oCi/kq CYA Cayucos Beach(393297003)-SD 10-Mar-16 Manganese-54 1.77E+01 4.73E+01 2.53E+01 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Manganese-54 3.35E+OO 5.64E+01 3.17E+01 pCi/kg CYA Cavucos Beach(393297003) -SD 10-Mar-16 Nickel-63 4.81E+02 2.15E+03 1.30E+03 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Nickel-63 -1.91E+03 2.49E+03 1.42E+03 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Niobium-95 9.50E+OO 4.72E+01 2.53E+01 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Niobium-95 2.49E+01 5.79E+01 3.07E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Potassium-40 7.69E+03 3.65E+02 1.23E+03 pCi/kg CYA Cavucos Beach(393297003) -SD 10-Mar-16 Total Strontium 1.72E+03 1.73E+03 1.33E+03 pCi/kg CYA Cayucos Beach(406060005) -SD 13-Sep-16 Total Strontium -2.06E+02 8.70E+02 4.89E+02 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Zinc-65 -2.73E+01 9.00E+01 5.82E+01 pCi/kg CYA Cavucos Beach(406060005) -SD ' 13-Sep-16 Zinc-65 -3.14E+01 1.31E+02 9.46E+01 pCi/kg CYA Cayucos Beach(393297003) -SD 10-Mar-16 Zirconium-95 8.96E+OO 8.54E+01 4.66E+01 pCi/kg CYA Cavi.Jcos Beach(406060005) -SD 13-Sep-16 Zirconium-95 -5.38E+01 7.44E+01 5.82E+01 pCi/kg Page 48 of 92 L 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine -Aquatic Vegetation Algae
- Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(402576001) -AV Algae 25-Jul-16 Cesium-134 -4.03E-01 5.41E+OO 3.20E+OO pCi/kg DCM Diablo Cove Marine(402576001) -AV Alqae 25-Jul-16 Cesium-137 3.19E-01 5.21E+OO 3.17E+OO pCi/kq DCM Diablo Cove Marine(402576001) -AV Algae 25-Jul-16 Cobalt-58 5.95E-01 5.83E+OO 3.39E+OO pCi/kg DCM Diablo Cove Marine(402576001)-AV Algae-25-Jul-16 Cobalt-60 6.90E+OO 6.90E+OO 6.03E+OO pCi/kg DCM Diablo Cove Marine(402576001)-AV Algae 25-Jul-16 lron-59 -5.11E+OO 1.26E+01 8.32E+OO pCi/kg DCM Diablo Cove Marine(402576001)-AV Algae 25-Jul-16 Manganese-54 2.29E+OO 5.09E+OO 3.72E+OO pCi/kg DCM Diab lo Cove Marine( 402576001) -AV Algae 25-Jul-16 Zinc-65 -6.02E+OO 1.18E+01 9.32E+OO pCi/kg DCM Diablo Cove Marine -Aquatic Vegetation Kelp Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Cesium-134 2.14E+OO 1.38E+01 8.51E+OO pCi/kg DCM Diablo Cove Marine(401652002) -AV Kelp 11-Jul-16 Cesium-134 1.95E+OO 1.51E+01 9.09E+OO pCi/kg DCM Diablo Cove Marine(408321002)-AV Kelp 11-0ct-16 Cesium-134 1.89E+OO 1.13E+01 6.79E+OO pCi/kg DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Cesium-137 5.88E+OO 1.28E+01 8.39E+OO pCi/kg DCM Diablo Cove Marine(401652002)-AV Kelp 11-Jul-16 Cesium-137 4.05E+OO 1.54E+01 9.18E+OO pCi/kg DCM Diablo Cove Marine(408321002)-AV Kelp 11-0ct-16 Cesium-137 2.09E+OO 1.05E+01 6.25E+OO pCi/kg DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Cobalt-58 6.82E+OO 1.37E+01 9.12E+OO pCi/kg DCM Diablo Cove Marine(401652002) -AV Kelp 11-Jul-16 Cobalt-58 6.96E-01 1.65E+01 9.97E+OO pCi/kg DCM Diablo Cove Marine(408321002) -AV Kelp 11-0ct-16 Cobalt-58 1.14E+01 1.14E+01 1.28E+01 pCi/kg DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Cobalt-60 -4.41E-i;OO 1.50E+01 9.55E+OO pCi/kq DCM Diablo Cove Marine(401652002)-AV Kelp 11-Jul-16 Cobalt-60 -1.04E+01 1.45E+01 1.07E+01 _ pCi/kg DCM Diablo Cove Marine(408321002)-AV Kelp 11-0ct-16 Cobalt-60 6.33E-01 1.20E+01 7.02E+OO pCi/ka DCM Diablo Cove Marine(395790003) -AV Kelp 18-Apr-16 Potassium-40 1.20E+04 9.70E+01 -1.14E+03 pCi/kg DCM Diablo Cove Marine -Fish Perch Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Cesium-134 -1.65E+OO 6.79E+OO 4.17E+OO pCi/kg DCM Diablo Cove Marine(397703008) -FH Perch 13-May-16 Cesium-134 -2.47E+OO 5.25E+OO 3.50E+OO pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Cesium-134 -6.27E+OO 4.75E+OO 5.21E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Cesium-134 2.35E+OO 4.72E+OO 2.90E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Cesium-137 5.00E+OO 6.43E+OO 4.77E+OO pCi/kg DCM Diablo Cove Marine(3"97703008) -FH Perch 13-May-16 Cesium-137 2.14E+OO 5.49E+OO 3.27E+OO pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Cesium-137 4.63E+OO 4.63E+OO 7.57E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Cesium-137 4.06E+OO 4.06E+OO 4.10E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Cobalt-58 6.22E+OO 4.13E+OO pCi/kg DCM Diablo Cove Marine(397703008) -FH Perch 13-May-16 Cobalt-58 -3.03E-01 5.43E+OO 3.27E+OO pCi/kg DCM Diablo Cove Maririe(404224002) -FH Perch 11-Aug-16 Cobalt-58 -1.83E+OO 5.23E+OO 3.45E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Cobalt-58 1.70E+OO 4.42E+OO 2.68E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Cobalt-60 -1.78E+OO 7.46E+OO 4.63E+OO pCi/kg DCM Diablo Cove Marine(397703008) -.FH Perch 13-Mav-16 Cobalt-60 -9.44E-01 5.66E+OO 3.44E+OO pCi/kq DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Cobalt-60 2.32E+OO 5.60E+OO 3.27E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Cobalt-60 8.04E-01 5.10E+OO 6.87E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 lron-59 2.88E+OO 1.57E+01 9.44E+OO pCi/kq Page 49 of 92 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(397703008) -FH Perch 13-May-16 lron-59 1.28E+OO 1.31E+01 7.60E+OO, pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 lron-59 -3.04E+OO 1.32E+01 8.01E+OO pCi/kg DCM Diablo Cove Marine(408192006)-FH Perch 10-0ct-16 lron-59 1.17E+OO 9.91E+OO 5.71E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Manqanese-54 -7.73E-01 6.15E+OO 3.70E+OO pCi/kg DCM Diablo Cove Marine(397703008) -FH Perch 13-May-16 Manganese-54 -1.54E+OO 4.64E+OO 2.98E+OO pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Manganese-54 2.97E+OO 4.95E+OO 3.10E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Manganese-54 1.48E+OO 3.99E+OO 2.42E+OO pCi/kg DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Potassium-40 3.95E+03 5.76E+01 4.18E+02 pCi/kg-DCM Diablo Cove Marine(397703008) -FH Perch 13-Mav-16 Pota;;sium-40 3.73E+03 5.12E+01 3.58E+02 oCi/kq DCM Diablo Cove Marine(392102006) -FH Perch 23-Feb-16 Zinc-65 -1.61E+OO
- 1.59E+01 9.77E+OO pCi/kg DCM Diablo Cove Marine(397703008) -FH Perch 13-Mav-16 Zinc-65 -1.16E+OO 1.41E+01 8.33E+OO pCi/kg DCM Diablo Cove Marine(404224002) -FH Perch 11-Aug-16 Zinc-65 2.02E+OO 1.22E+01 7.00E+OO pCi/kg DCM Diablo Cove Marine(408192006) -FH Perch 10-0ct-16 Zinc-65 -3.87E-01 1.07E+01 6.25E+OO pCi/kg DCM Diablo Cove Marine -Rockfish Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Cesium-134 -6.12E+OO 1.22E+01 8.21E+OO pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-May-16 Cesium-134 1.87E+OO 4.17E+OO 2.61E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Auq-16 Cesium-134 -2.04E+OO 5.10E+OO 3.56E+OO oCi/kq DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Cesium-134 3.21E+OO 5.03E+OO 3.20E+OO pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Cesium-137 1.70E+OO 1.20E+01 1.04E+01 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Cesium-137 1.96E+OO 4.03E+OO 2.50E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 Cesium-137 1.08E+OO 5.35E+OO 3.83E+OO pCi/kg DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Cesium-137 3.62E+OO 3.62E+OO 3.77E+OO pCi/kQ DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Cobalt-58 5.31E+OO 1.26E+01 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-May-16 Cobalt-58 5.68E-01 3.78E+OO 2.19E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 Cobalt-58 -5.27E-01 5.22E+OO 3.16E+OO oCi/kq DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Cobalt-58 1.12E+OO 4.37E+OO 2.65E+OO pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Cobalt-60 1.06E+OO 1.28E+01 7.53E+OO pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Cobalt-60 2.70E-01 4.89E+OO 4.11E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 Cobalt-60 5.77E-01 5.39E+OO .3.12E+OO pCi/kg DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Cobalt-60 -1.46E+OO 4.39E+OO 2.85E+OO oCi/kq DCM Diablo Cove Marine(392102002)-FH Rockfsh 23-Feb-16 lron-59 -1.40E+01 2.30E+01 1.63E+01 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-May-16 lron-59 3.36E+OO 1.01E+01 6.07E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 lron-59 2.23E+OO 1.38E+01 8.31E+OO pCi/kg DCM Diablo Cove Marine(408192002)-FH Rockfsh 10-0ct-16 lron-59 1.54E+OO 1.03E+01 5.97E+OO pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 ManQanese-54 1.22E+OO 1.23E+01 7.16E+OO pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Manganese-54 -1.75E-01 3.63E+OO 2.13E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Aug-16 Manganese-54 -4.43E-01 4.79E+OO 2.90E+OO pCi/kg DCM Diablo Cove Marine(408192002) -FH Rockfsh 10-0ct-16 Manganese-54 2.63E-01 4.15E+OO 2.38E+OO pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Potassium-40 . 2.84E+03 1.04E+02 3.35E+02 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Potassium-40 3.26E+03 3.92E+01 3.26E+02 pCi/kg DCM Diablo Cove Marine(392102002) -FH Rockfsh 23-Feb-16 Zinc-65 -4.45E+OO 2.79E+01 2.02E+01 pCi/kg DCM Diablo Cove Marine(397703007) -FH Rockfsh 13-Mav-16 Zinc-65 -4.68E+OO 9.67E+OO 6.45E+OO pCi/kg DCM Diablo Cove Marine(404224006) -FH Rockfsh 11-Auq-16 Zinc-65 6.35E+OO 1.31E+01 8.07E+OO pCi/kg Page 50 of92 IDCM Diablo Cove Marine(408192002) -FH Rockfsh DCM Diablo Cove Marine -Intertidal Mussel Sample Name DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -IM DCM Diablo Cove Marine(402576002) -IM DCM Diablo Cove Marine(409724004) -IM DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -IM DCM Diablo Cove Marine(402576002) -IM DCM Diablo Cove Marine(409724004) -IM DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -IM DCM Diablo Cove Marine(402576002) -IM DCM Diablo Cove Marine(409724004) -IM DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -IM DCM Diablo Cove Marine(402576002) -IM DCM Diablo Cove Marine(409724004) -JM DCM DiabJo Cove Marine(391919005) -JM DCM DiabJo Cove Marine(395681003) -JM DCM DiabJo Cove Marine(409724004) -IM DCM DiabJo Cove Marine(391919005) -JM DCM DiabJo Cove Maririe(395681003)-JM DCM Diablo Cove Marine(409724004) -JM DCM Diablo Cove Marine(391919005) -IM DCM Diablo Cove Marine(395681003) -JM DCM Diablo Cove Marine(391919005) -IM . DCM Diablo Cove Marine(395681003) -JM DCM Diablo Cove Marine(409724004) -JM DCM Diablo Cove Marine -Ocean Sediment Sample Name DCM Diablo Cove Marine(392306002) -SD DCM Diablo Cove Marine(392306002) -*SD DCM Diablo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM Diablo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM DiabJo Cove Marine(392306002) -SD DCM Diablo Cove Marine(392306002) -SD DCM Diablo Cove Marine(392306002) -SD I L 2016 DCPP REMP Analysis Results Appendix A \ I 10-oct-16 Zinc-65 1.28E+OO Date Collected Nuclide Result 17-Feb-16 Cesium-134 7.55E-01 14-Apr-16 Cesium-134 4.22E-02 25-Jul-16 Cesium-134 8.50E-01 27-0ct-16 -4.30E+OO 17-Feb-16 Cesium-137 2.24E+OO 14-Apr-16 Cesium-137 1.40E+OO 25-Jul-16 Cesium-137 2.09E+OO ' 27-0ct-16 Cesium-137 4.23E+OO 17-Feb-16 Cobalt-58 -1.80E+OO 14-Apr-16 Cobalt-58 1.26E+OO 25-Jul-16 Cobalt-58 -4.44E-01 27-0ct-16 Cobalt-58 1.19E+OO 17-Feb-16 Cobalt-60 9.15E-02 14-Apr-16 Cobalt-60 -8.00E-01 25-Jul-16 Cobalt-60 2.65E+OO 27-0ct-16 CobaJt-60 1.33E+OO 17-Feb-16 lron-59 *-2.12E-01 14-Apr-16 lron-59 6.43E+OO 27-0ct-16 Jron-59 2.44E+OO 17-Feb-16 Manganeise-54 7.63E-01 14-Apr-16* Manganese-54 2.55E+OO 27-0ct-16 Manganese-54 -6.66E-01 17-Feb-16 Potassium-40 1.11 E+03 Potassium-40 1.34E+03 17-Feb-16 Zinc-65 5.08E-01 14-Apr-16 Zinc-65 -1.79E+OO 27-0ct-16 Zinc-65 7.90E+OO Date Collected Nuclide Result 23-Feb-16 Barium-140 -4.53E+01 23-Feb-16 Bismuth-214 6.54E+02 23-Feb-16 Cesium-134 1.84E+01 23-Feb-16 Cesium-137 2.24E+OO 23-Feb-16 CobaJt-58 1.01E+01 23-Feb-16 CobaJt-60 9.97E+OO 23-Feb-16 . lron-55 -3.11E+03 23-Feb-16 Jron-59 1.11E+01 23-Feb-16 Lanthanum-140 3.86E+01 23-Feb-16 Lead-214 7.62E+02 23-Feb-16 Manaanese-54 -2.28E+OO Page 51 of 92 1.10E+01 6.39E+OO ,. I pCi/kg -MDC 2 Sigma TPU Units 4.69E+OO 3.11 E+OO pCi/kg 5.66E+OO 3.55E+OO pCi/kg 7.44E+OO 4.37E+OO pCi/kg 4.87E+OO 5.26E+OO pCi/kg 4.63E+OO 3.12E+OO pCi/ka 5.63E+OO 4.16E+OO pCi/kg 7.14E+OO 4.69E+OO pCi/kg 4.23E+OO 4.50E+OO pCi/kg 4.05E+OO 2.64E+OO pCi/kg 5.40E+OO 3.27E+OO . pCi/ka 7.46E+OO 4.95E+OO ,, pCi/kg 4.90E+OO 2.83E+OO pCi/kg 5.21E+OO 3.65E+OO pCi/kg 5.19E+OO 3.22E+OO pCi/kg 7.63E+OO 4.31E+OO pCi/ka 4.56E+OO 2.69E+OO pCi/kg 9.77E+OO 5.86E+OO pCi/kg 1.16E+01 7.17E+OO pCi/kg 1.03E+01 6.03E+OO pCi/kg. 4.31E+OO 4.50E+OO pCi/ka 5.36E+OO 3.50E+OO pCi/kg 4.64E+OO ' 2.79E+OO pCi/kg 4.42E+01 1.37E+02 pCi/kg 4.51E+01 1.57E+02 pCi/kg 9.96E+OO 6.89E+OO pCi/kg 1.02E+01 6.28E+OO pCi/kg 1.09E+01 7.41 E+OO pCi/kg MDC 2 Sigma TPU Units --2.75E+02 1.97E+02 pCi/kg 1.03E+02 1.37E+02 pCi/kg 5.45E+01 2.98E+01 oCi/ka 5.33E+01 2.99E+01 pCi/kg 5.22E+01 2.90E+01 pCi/kg 5.44E+01 3.02E+01 pCi/kg 1.15E+04 8.33E+03 pCi/kg
- 1.17E+02 6.68E+01 pCi/k!=J 1.16E+02 6.79E+01 pCi/kg 8.86E+01 1.56E+02 pCi/kg 4.82E+01 2.84E+01 pCi/kg 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 _ Nickel-63 2.43E+01 2.73E+03 1.63E+03 pCi/kg DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 Niobium-95 2:15E+OO 5.24E+01 3.44E+01 pCi/kg DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 Potassium-40 8.52E+03 4.57E+02 1.35E+03 pCi/kg DCM Diablo Cove Marine(392306002) -SD \ 23-Feb-16 Total Strontium -2.23E+03 1.50E+03 5.12E+02 pCi/kg DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 Zinc-65 -1.23E+OO 1.04E+02 6.99E+01 pCi/kg DCM Diablo Cove Marine(392306002) -SD 23-Feb-16 Zirconium-95 -1.09E+01 9.41E+01 5.60E+01 pCi/kg DCM Diablo Cove Marine -Seawater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 BETA 2.99E+02 1.36E+02 1.04E+02 pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 BETA 3.22E+02 2.04E+02 1.40E+02 pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 BETA 2.90E+02 1.33E+02 1.02E+02 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 BETA 3.07E+02 1.22E+02 9.88E+01 pCi/L DCM Diab lo Cove Marine(397 479002) -SW 10-May-16 BETA 5.28E+02 1.36E+02 1.32E+02 pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 BETA 2.23E+02 1.99E+02 1.30E+02 pCi/L DCM Diablo Cove Marine(401793004) -SW 11-Jul-16 BETA 5.37E+02 1.53E+02 1.39E+02 pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 -BETA 2.29E+02 1.78E+02 1.19E+02 pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 BETA 1.66E+02 1.12E+02 7.78E+01 pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 BETA 3.62E+02 1.48E+02 1.15E+02 pCi/L DCM Diablo Cove Marine(411426003)-SW 22-Nov-16 BETA 2.01E+02 1.85E+02 1.20E+02 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 BETA 1.85E+02 8.28E+01 6.66E+01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Barium-140 1.73E+OO 8.96E+OO 6.14E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Barium-140 3.48E+OO 1.31E+01 7.69E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW -10-Mar-16 Barium-140 5.93E+OO 9.90E+OO 6.32E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Barium-140 6.48E+OO 1.16E+01 7.23E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Barium-140 2.07E-01 1.18E+01 7.02E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Barium-140 1.51E+01 1.70E+01 U5E+01 pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Barium-140 -2.07E+OO 1.72E+01 1.05E+01 pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Barium-140 6.34E+OO 1.16E+01 7.29E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Barium-140 1.04E+OO 9.75E+OO 5.93E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Barium-140 -4.35E-01 8.77E+OO 5.22E+OO pCi/L DCM Diablo Cove Marine(411426003)-SW 22-Nov-16 Barium-140 2.37E+OO 9.46E+OO 5.70E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Barium-140 2.04E+OO 8.45E+OO 5.05E+OO pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Cesium-134 -4.05E-01 2.08E+OO 1.27E+OO pCi/L DCM Diablo Cove Marine(391320002) -'SW 8-Feb-16 Cesium-134 1.62E+OO 2.06E+OO 1.37E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 Cesium-134 1.73E+OO 1.99E+OO 1.38E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Cesium-134 1.44E-01 2.18E+OO 1.40E+OO pCi/L DCM Diablo Cove Marine(397479002) -SW 10-May-16 Cesium-134 -5.90E-01 2.30E+OO -1.42E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Cesium-134 -3.70E-01 2.08E+OO 1.29E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW -11-Jul-16 Cesium-134 1.54E+OO 3.00E+OO 2.04E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Cesium-134 -8.23E-02 2.11E+OO 1.26E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Cesium-134 -4.88E-02 2.25E+OO . 1.32E+OO pCi/L DCM Diablo Cove Marine(408409002) .-SW 11-0ct-16 Cesium-134 -1.02E+OO 1.61E+OO 1.50E+OO pCi/L DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Cesium-134 1.22E+OO 1.77E+OO 1.61E+OO pCi/L DCM Diablo Cove Marine(412549003) -SW 7-Dec-16 Cesium-134 2.98E-01 1.58E+OO 9.63E-01 pCi/L Page 52 of 92 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Cesium-137 -2.27E-01 1.94E+OO 1.15E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Cesium-137 1.14E+OO 1.75E+OO 1.17E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Cesium-137 -2.24E-02 1.87E+OO 1.09E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Cesium-137 6.04E-01 2.15E+OO 1.29E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-Mav-16 Cesium-137 3.57E-01 2.2qE+OO 2.01E+OO pCi/L DCM Diablo Cove Marine(399130002)-SW 6-Jun-16 Cesium-137 -4.67E-01 1.97E+OO 1.22E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Cesium-137 -2.99E-01 2.90E+OO 1.72E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 Cesium-137 9.07E-01 2.00E+OO 1.19E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Cesium-137 2.76E-01 1.96E+OO 1.12E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Cesium-137 1.62E-01 1.66E+OO 9.84E-01 pCi/L DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Cesium-137 -2.31E+OO 1.95E+OO 2.42E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Cesium-137 -3.45E-01 1.53E+OO 9.65E-01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Cobalt-58 -1.11E+OO 1.73E+OO 1.22E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Cobalt-58 -7.90E-01 1.74E+OO 1.15E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Cobalt-58 -5.54E-01 1.66E+OO 1.06E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Cobalt-58 -3.87E-01 2.12E+OO 1.32E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Cobalt-58 -8.28E-02 2.19E+OO 1.30E+OO pCi/L DCM Diablo Cove Marine(399130002)-SW 6-Jun-16 Cobalt-58 -2.45E-01 2.20E+OO 1.34E+OO pCi/L DCM Diablo Cove Marine(401793004) -SW 11-Jul-16 Cobalt-58 -3.09E-01 2.55E+OO 1.71E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Cobalt-58 -4.23E-01 1.90E+OO 1.18E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Cobalt-58 -8.29E-01 1.86E+OO 1.21E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Cobalt-58 -4.30E-01 1.40E+OO 9.13E-01 pCi/L DCM Diablo Cove Marine( 411426003) -SW 22-Nov-16 Cobalt-58 5.48E-01 1.70E+OO 9.78E-01 pCi/L DCM Diablo Cove Marine(412549003) -SW 7-Dec-16 Cobalt-58 -4.28E-01 1.35E+OO 8.27E-01 oCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Cobalt-60 2.16E+OO 2.16E+OO 2.02E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Cobalt-60 -1.42E-01 1.60E+OO 9.70E-01 pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Cobalt-60 4.03E-01 1.96E+OO 1.14E+OO oCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Cobalt-60 -4.56E-01 2.06E+OO 1.28E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-Mav-16 Cobalt-60 -7.40E-01 2.15E+OO 1.62E+OO pCi/L DCM Diablo Cove Marine(399130002)-SW Cobalt-60 7.88E-01 2.10E+OO 1.12E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Cobalt-60 -4.93E-01 2.99E+OO 1.80E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Cobalt-60 2.72E-01 2.21E+OO 1.29E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Cobalt-60 -2.39E-03 2.00E+OO 1.21 E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Cobalt-60 1.80E+OO 1.80E+OO 1.90E+OO pCi/L DCM Diablo Cove Marine( 411426003) -SW 22-Nov-16 Cobalt-60 7.77E-01 1.95E+OO 1.50E+OO pCi/L DCM Diablo Cove Marine(412549003) -SW 7-Dec-16 Cobalt-60 -5.92E-02 1.36E+OO 8.18E-01 pCi/L DCM Diablo Cove Marine(390114003) -SW . 21-Jan-16 lodine-131 1.46E+OO 3.77E+OO 2.55E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 lodine-131 2.41E+OO 5.83E+OO 3.59E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 lodine-131 6.86E-01 3.47E+OO 2.07E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 lodine-131 -4.04E-01 4.12E+OO 2.46E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 lodine-131 -2.97E+OO 4.29E+OO 2.94E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 lodine-131 3.20E-02 7.75E+OO 5.40E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 lodine-131 2.75E+OO 6.54E+OO 3.97E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 lodine-131 -2.49E-01 4.21E+OO 2.51E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 lodine-131 -8.14E-01 2.95E+OO 1.86E+OO pCi/L Page 53 of92 2016 DCPP Analysis Results Appendix A DCM Diablo Cove. Marine(408409002) -SW 11-0ct-16 lodine-131 1.35E+OO 3.88E+OO 2.26E+OO pCi/L DCM Diablo Cove Marine(411426003)-SW lodine-131 3.06E+OO 3.37E+OO 2.96E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 lodine-131 -3.02E-01 3.03E+OO 1.79E+OO pCi/L DCM Diablo Cove Marine(390114003 -SW 21-Jan-16 lron-55 3.19E+01 4.73E+01 3.39E+01 pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 lron-55 -1.80E+01 5.44E+01 3.91E+01 pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 lron-55 5.79E+OO 6.39E+01 4.67E+01 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 lron-55 7.27E+01 1.14E+02 8.79E+01 pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 lron-55 3.40E+OO 1.22E+02 8.31E+01 pCi/L DCM Diablo Cove Marine(399130002 -SW 6-Jun-16 lron-55 -4.02E+01 1.35E+02 9.22E+01 pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 lron-55 1.01 E+01 8.03E+01 5.40E+01 pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 lron-55 -4.20E+01 9.03E+01 6.04E+01 pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 lron-55 2.19E+01 1.04E+02 7.70E+01 pCi/L DCM Diablo Cove Marine(408409002)-SW 11-0ct-16 lron-55 5.80E+OO 8.80E+01 6.68E+01 pCi/L DCM Diab lo Cove Marine( 411426003 -SW 22-Nov-16 lron-55 5.95E+01 9.65E+01 7.56E+01 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 lron-55 -1.29E+01 9.61E+01 . 7.22E+01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 lron-59 8.58E-02 4.38E+OO 2.65E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW . 8-Feb-16 lron-59 4.94E-01 4.32E+OO 2.58E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 lron-59 8.71E-01 4.09E+OO 2.46E+OO pCi/L DCM Diablo Cove Marine(395898002 -SW 18-Apr-16 lron-59 -9.77E-02 4.66E+OO 2.75E+OO DCi/L DCM Diablo Cove Marine(397479002) -SW 10-May-16 lron-59 3.81E-01 5.08E+OO 3.52E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 lron-59 1.13E+OO 4.85E+OO 2.81E+OO pCi/L DCM Diablo Cove Marine(401793004 -SW 11-Jul-16 lron-59 2.97E+OO 6.34E+OO 3.86E+OO
- pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 lron-59 -1.01E+OO 4.47E+OO 2.72E+OO pCi/L DCM Diablo Cove Marine(406175003 -SW 12-SeD-.16 lron-59 6.79E-02 4.32E+OO 2.57E+OO pCi/L DCM Diablo Cove Marine(408409002)-SW 11-0ct-16 lron-59 6.89E-02 3.10E+OO 1.79E+OO pCi/L DCM Diablo Cove Marine( 411426003) -SW 22-Nov-16 lron-59 -3.48E-02 3.66E+OO 2.15E+OO pCi/L DCM Diablo Cove Marine(412549003 -SW 7-Dec-16 lron-59 -2.86E-01 3.13E+OO 1.87E+OO oCi/L DCM Diablo Cove Marine(390114003 -SW 21-Jan-16 Lanthanum-140 -5.96E-01 3.13E+OO 1.95E+OO pCi/L DCM Diablo Cove Marine(391320002 -SW 8-Feb-16 Lanthanum-140 -2.98E+OO 3.64E+OO 2.82E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 1 O-Mar-16 Lanthanl,Jm-140 -7.76E-01 3.04E+OO 2.26E+OO 1 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Lanthanum-140 -6.67E-01 3.75E+OO '2.33E+OO pCi/L DCM Diablo Cove Marine(397479002 -SW 10-May-16 Lanthanum-140 1.04E-01 4.01E+OO 2.41E+OO pCi/L DCM Diablo Cove Marine(399130002)-SW 6-Jun-16 Lanthanum-140 1.36E+OO 4.80E+OO 3.21E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Lanthanum-140 1.28E+OO 5.54E+OO 3.22E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Lanthanum-140 -1.68E+OO 3.66E+OO 2.50E+OO " pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Lanthanum-140 8.22E-02 2.80E+OO 1.70E+OO pCi/L DCM Diablo Cove Marine(408409002 -SW 11-0ct-16 Lanthanum-140 2.46E-01 3.00E+OO 1.76E+OO pCi/L DCM Diablo Cove Marine(411426003)-SW 22-Nov-16 Lanthanum-140 1.71 E+OO 3.27E+OO 1.94E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Lanthanum-140 -6.51E-01 2.24E+OO 1.47E+OO pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Manganese-54 1.33E-01 2.00E+OO 1.18E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Manganese-54 -3.20E-01 1.74E+OO 1.08E+OO pCi/L DCM Diablo Cove Marine(393316003 -SW 10-Mar-16 Manaanese-54 5.85E-01 1.91E+OO 1.14E+OO . pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Manganese-54 -4.88E-01 1.86E+OO 1.13E+OO pCi/L DCM Diablo Cove Marine(397 479002) -SW 10-May-16 Manganese-54 2.66E-01 2.12E+OO 1.25E+OO pCi/L DCM Diablo Cove Marine(399130002 -SW 6-Jun-16 Manaanese-54 -4.82E-02 2.01E+OO 1.21E+OO pCi/L Page 54 of92 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Manganese-54 3.09E-01 2.94E+OO 1.73E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 Manganese-54 -8.74E-01 1.92E+OO 1.27E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Manganese-54 4.76E-01 1.93E+OO 1.25E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Manaanese-54 -1.14E+OO 1.32E+OO 1.04E+OO pCi/L DCM Diab lo Cove Marine( 411426003) -SW 22-Nov-16 Manganese-54 -2.25E-01 1.59E+OO 9.40E-01 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Manganese-54 -1.18E+OO 1.25E+OO 9.60E-01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Nickel-63 -1.91E+01 3.41E+01 1.95E+01 pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Nickel-63 -1.27E+01 3.99E+01 2.32E+01 pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 Nickel-63 -3.44E+OO 2.41E+01 1.42E+01 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Nickel-63 1.02E+OO 3.42E+01 2.04E+01 pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 , Nickel-63 1.50E+01 2.95E+01 1.84E+01 pCi/L DCM Diablo Cove Marine(399130002)-SW 6-Jun-16 Nickel-63 1.23E+OO 3.25E+01 1.94E+01 pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Nickel-63 3.61E+OO 4.05E+01 2.43E+01 pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Nickel-63 8.21E+OO 2.05E+01 1 .. 26E+01 pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Nickel-63 8.73E+OO 3.14E+01 1.90E+01 pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Nickel-63 -1.11E+01 2.69E+01 1.56E+01 pCi/L DCM Diablo Cove Marine(411426003)-SW 22-Nov-16 Nickel-63 -2.19E-01 2.70E+01 1.61E+01 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Nickel-63 -6.29E+OO 2.24E+01 1.31E+01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Niobium-95 8.92E-01 2.13E+OO 1.43E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Niobium-95 -1.32E+OO 1.84E+OO 1.76E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Niobium-95 -1.21E+OO 1.75E+OO 1.55E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Niobium-95 1.73E+OO 2.34E+OO 1.54E+OO pCi/L DCM Diablo Cove Marine(397479002) -SW 10-May-16 Niobium-95 1.06E+OO 2.28E+OO 1.37E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Niobium-95 6.30E-01 2.32E+OO 1.38E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Niobium-95 3.71E-01 2.93E+OO 1.71E+OO pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Niobium-95 -3.64E-01 1.98E+OO 1.21E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Niobium-95 -4.04E-01 2.26E+OO 1.81E+OO pCi/L DCM Diablo Cove Marine(408409002)-SW 11-0ct-16 Niobium-95 4.63E-01 1.79E+OO 1.07E+OO pCi/L DCM Diab lo Cove Marine( 411426003) -SW 22-Nov-16 Niobium-95. 9.75E-01 1.88E+OO 1.11E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Niobium-95 9.38E-01 1.58E+OO 1.01E+OO pCi/L DCM Diablo Cove Marine(391320002)-SW 8-Feb-16 Potassium-40 3.27E+02 1.72E+01 4.53E+01 pCi/L DCM Diablo Cove Marine(393316003l -SW 10-Mar-16 Potassium-40 3.71E+02 1.63E+01 4.77E+01 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Potassium-40 3.49E+02 2.11 E+01 4.46E+01 pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Potassium-40 3.33E+02 2.11E+01 4.47E+01 pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Potassium-40 3.36E+02 1.85E+01 5.07E+01 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Total Strontium -2.18E+OO 3.25E+OO 1.86E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Total Strontium -1.90E+OO 4.63E+OO 2.69E+OO pCi/L DCM Diablo Cove Marine(393316003)-SW 10-Mar-16 Total Strontium -1.39E+OO 3.00E+OO 1.73E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Total Strontium -5.49E+OO 3.25E+OO 1.73E+OO pCi/L DCM Diablo Cove Marine(397 479002) -SW 10-Mav-16 Total Strontium -1.57E-01 1.52E+OO 8.94E-01 pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Total Strontium -9.24E-01 3.20E+OO 1.87E+OO pCi/L DCM Diablo Cove Marine(401793004) -SW 11-Jul-16 Total Strontium -1.04E+OO 3.40E+OO 1.99E+OO
- pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Total Strontium 2.40E-01 1.33E+OO 8.05E-01 pCi/L DCM Diablo Cove Marine(406175003)-SW .12-Sep-16 Total Strontium -1.43E+OO 2.05E+OO 1.14E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Total Strontium -1.09E+OO 3.08E+OO 1.80E+OO pCi/L Page 55 of92 2016 DCPP REMP Analysis Results Appendix A DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Total Strontium -7.72E-01 1.55E+OO 8.84E-01 pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Total Strontium 4.43E-01 2.01E+OO 1.22E+OO pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Tritium -6.32E+01 2.70E+02 1.58E+02 , pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Tritium 8.24E+01 2.31E+02 1.43E+02 pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 Tritium 2.04E+02 2.70E+02 1.75E+02 pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Tritium -1.54E+02 3.11E+02 1.79E+02 pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Tritium 4.35E+01 2.72E+02 1.64E+02 pCi/L DCM Diablo Cove Marine(399130002)-SW ' . 6-Jun-16 Tritium 3.47E+01 2.42E+02 1.46E+02 pCi/L DCM Diablo Cove Marine(401793004) -SW 11-Jul-16 Tritium -1.33E+02 2.66E+02 1.50E+02 pCi/L DCM Diablo Cove Marine(404222002) -SW 15-Aug-16 Tritium -3.79E+01 2.62E+02 1.54E+02 pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Tritium -2.85E+01 2.71E+02 1.60E+02 pCi/L DCM Diablo .Cove Marine(408409002) -SW 11-0cH6 Tritium 6.40E+01 2.99E+02 1.81 E+02 pCi/L DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Tritium 1.01E+02 2.87E+02 1.77E+02 pCi/L DCM Diablo Cove Marine(412549003) -SW 7-Dec-16 Tritium 1.26E+02 2.95E+02 1.83E+02 pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Zinc-65 1.05E+OO 4.80E+OO 2.88E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Zinc-65 -5.45E+OO 3.72E+OO 3.96E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW 1 O-Mar-16 Zinc-65 5.23E-01 4.01E+OO 2.79E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Zinc-65 -1.78E+OO 4.20E+OO 2.73E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Zinc-65 -1.18E+OO 4.91E+OO 3.11 E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Zinc-65 -6.76E-01 4.21E+OO 2.53E+OO pCi/L DCM Diablo Cove Marine(401793004)-SW 11-Jul-16 Zinc-65 1.15E+OO 6.16E+OO 3.67E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 Zinc-65 -2.38E+OO 4.19E+OO 2.85E+OO pCi/L DCM Diablo Cove Marine(406175003)-SW 12-Sep-16 Zinc-65 3.94E+OO 4.53E+OO 3.00E+OO pCi/L DCM Diablo Cove Marine(408409002) -SW 11-0ct-16 Zinc-65 -1.35E-01 2.84E+OO 1.88E+OO pCi/L DCM Diablo Cove Marine(411426003) -SW 22-Nov-16 Zinc-65 -6.24E-01 3.57E+OO 2.16E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Zinc-65 4.53E-01 3.12E+OO 2.06E+OO pCi/L DCM Diablo Cove Marine(390114003) -SW 21-Jan-16 Zirconium-95 1.74E+OO 3.67E+OO 2.20E+OO pCi/L DCM Diablo Cove Marine(391320002) -SW 8-Feb-16 Zirconium-95 2.78E+OO 3.46E+OO 2.52E+OO pCi/L DCM Diablo Cove Marine(393316003) -SW 10-Mar-16 Zirconium-95 2.43E+OO 3.73E+OO 2.35E+OO pCi/L DCM Diablo Cove Marine(395898002) -SW 18-Apr-16 Zirconium-95 7.17E-02 3.88E+OO 2.35E+OO pCi/L DCM Diablo Cove Marine(397479002)-SW 10-May-16 Zirconium-95 1.97E+OO 3.95E+OO 2.39E+OO pCi/L DCM Diablo Cove Marine(399130002) -SW 6-Jun-16 Zirconium-95 -1.18E+OO 3.41E+OO 2.20E+OO pCi/L DCM Diablo Cove Marine(401793004) -SW* 11-Jul-16 Zirconium-95 -7.14E-01 5.32E+OO 3.19E+OO pCi/L DCM Diablo Cove Marine(404222002)-SW 15-Aug-16 Zirconium-95 -1.61E+OO 3.28E+OO 2.19E+OO pCi/L DCM Diablo Cove Marine(406175003) -SW 12-Sep-16 Zirconium-95 8.60E-01 3.53E+OO 2.03E+OO pCi/L DCM Diablo Cove Marine(408409002)-SW I 11-0ct-16 Zirconium-95 4.90E-01 2.79E+OO 1.66E+OO pCi/L DCM Diablo Cove Marine(411426003)-SW* 22-Nov-16 Zirconium-95 -2.10E+OO 2.95E+OO 2.21E+OO pCi/L DCM Diablo Cove Marine(412549003)-SW 7-Dec-16 Zirconium-95
- 9.29E-01 2.73E+OO 1.67E+OO pCi/L Page 56 of92 2016 DCPP REMP Analysis Results Appendix A DSAL -Desalination Effluent Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DSAL(397410001) -DW 12-May-16 BETA 7.68E+OO 1.42E+OO 1:68E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 BETA 1.08E+OO 1.23E+OO 8.05E-01 pCi/L DSAL(402085002) -DW 19-Jul-16 BETA 2.61E+OO 1.60E+OO 1.14E+OO pCi/L DSAL(397 410001) -DW 12-May-16 Barium-140 4.58E+OO 1.32E+01 7.73E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Barium-140 6.73E+OO 1.91E+01 1.14E+01 pCi/L DSAL(402085002) -DW 19-Jul-16 Barium-140 1.02E+OO 1.16E+01 7.32E+OO pCi/L
- DSAL(397 410001) -DW 12-Mav-16 Cesium-134 -9.58E-02 2.29E+OO 1.36E+OO pCi/L DSAL(399127003)-DW 7-Jun-16 Cesium-134 -3.02E-02 2.71E+OO 1.63E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Cesium-134 1.68E+OO 1.02E+OO pCi/L DSAL(397410001)-DW 12-May-16 Cesium-137 1.09E+OO 2.02E+OO 1.45E+OO pCi/L DSAL(399127003)-DW 7-Jun-16 Cesium-137 -2.87E-01 2.56E+OO 1.59E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Cesium-137 -9.40E-02 1.71E+OO 1.01E+OO pCi/L DSAL(397410001)-DW 12-May-16 Cobalt-58 -2.40E-01 2.04E+OO 1.23E+OO pCi/L DSAL(399127003)-DW 7-Jun-16 Cobalt-58 6.41 E-01 2.92E+OO 1.69E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Cobalt-58 3.85E-01 1.71E+OO 1.01 E+OO pCi/L DSAL(397410001)-DW 12-May-16 Cobalt-60 9.23E-01 2.43E+OO 1.41E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Cobalt-60 4.19E-01 2.83E+OO 1.62E+OO pCi/L DSAL(402085002) -DW / 19-Jul-16 Cobalt-60 1.79E+OO 1.79E+OO 1.35E+OO pCi/L DSAL(397410001)-DW 12-Mav-16 lodine-131 -1.15E-01 7.35E-01 4.54E-01 pCi/L DSAL(399127003) -DW 7-Jun-16 lodine-131 -1.03E-02 8.78E-01 5.15E-01 oCi/L DSAL(402085002) -DW 19-Jul-16 lodine-131 1.02E-01 7.49E-01 pCi/L DSAL(397 410001) -DW 12-May-16 lron-55 2.80E+01 9.70E+01 6.81E+01 pCi/L DSAL(399127003) -DW 7-Jun-16 lron-55 -7.94E+OO 1.40E+02 9.70E+01 pCi/L. DSAL(402085002) -DW 19-Jul-16 lron-55 6.36E+01 6.80E+01 5.26E+01 pCi/L DSAL(397410001) -DW 12-May-16 lron-59 1.97E+OO
- 4.83E+OO 2.91E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 lron-59 -5.04E-01 5.88E+OO 3.60E+OO ,pCi/L DSAL(402085002) -DW 19-Jul-16 lron-59 ' -5.01 E-01 3.46E+OO 2.16E+OO pCi/L DSAL(397410001)-DW 12-May-16 Lanthanum-140 -1.21 E-01 4.45E+OO 2.64E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Lanthanum-140 -5.04E-01 7.06E+OO 4.27E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Lanthanum-140 -4.92E-01 3.64E+OO 2.24E+OO pCi/L DSAL(397410001)-DW 12-Mav-16 Manganese-54 -4.65E-01 1.84E+OO 1.15E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Manganese-54 -1.43E+OO 2.40E+OO 1.66E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Manganese-54 * -2.04E-01
- 1.56E+OO 9.45E-01 pCi/L DSAL(397410001) -DW 12-May-16 Nickel-63 4.19E+OO 2.44E+01 1.47E+01 pCi/L DSAL(399127003) -DW
- 7-Jun-16 Nickel-63 -5.69E+OO 3.61 E+01 2.14E+01 pCi/L DSAL(402085002) -DW 19-Jul-16 Nickel-63 -1.67E+OO 2.96E+01 1.75E+01 pCi/L DSAL(397410001)-DW 12-Mav-16 Niobium-95 -3.17E-01 2.18E+OO 1.61E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Niobium-95 . 1.00E+OO 2.91E+OO 1.68E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Niobium-95 -4.75E-01 1.85E+OO 1.80E+OO pCi/L DSAL(397410001)-DW . 12-Mav-16 Total Strontium -7.44E-02 1.57E-01 9.02E-02 pCi/L DSAL(399127003) -DW 7-Jun-16 Total Strontium -2.30E-01 3.60E-01 2.05E-01 pCi/L DSAL(402085002) -DW 19-Jul-16 Total Strontium -1.25E-01 2.75E-01 1.60E-01 pCi/L DSAL(397410001)-DW 12-Mav-16 Tritium 1.58E+02 2.70E+02 1.70E+02 pCi/L Page 57 of 92 2016 DCPP REMP Analysis Results Appendix A '\ DSAL(399127003) -DW 7-Jun-16 Tritium -3.30E+01 2.41E+02 1.42E+02 pCi/L DSAL(402085002)-DW 19-Jul-16 Tritium -1.85E+OO 3.21E+02 1.91E+02 pCi/L DSAL(397 410001) -DW 12-May-16 Zinc-65 -6.16E-01 4.35E+OO 3.14E+OO pCi/L DSAU399127003)-DW 7-Jun-16 Zinc-65 -2.19E+OO 5.60E+OO 4.34E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Zinc-65 1.05E+OO ( 3.16E+OO 2.08E+OO pCi/L DSAL(397410001) -DW 12-May-16 Zirconium-95 .-1.55E+OO 3.61E+OO 2.35E+OO pCi/L DSAL(399127003) -DW 7-Jun-16 Zirconium-95 7.00E-01 4.86E+OO 2.80E+OO pCi/L DSAL(402085002) -DW 19-Jul-16 Zirconium-95 4.58E-01 3.31E+OO 1.95E+OO pCi/L DW1 Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DW1 Drinking Water(389292003) -DW 12-Jan-16 BETA 4.07E-01 1.33E+OO 8.12E-01 pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 BETA 1.94E-01 1.35E+OO 8.17E-01 pCi/L DW1 Drinkina Water(393029002) -DW 9-Mar-16 BETA 7.89E-01 1.56E+OO 9.64E-01 pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 BETA -8.21 E-01 1.79E+OO 1.04E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 BETA 1.21 E-01 1.15E+OO 6.96E-01 pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 BETA -4.06E-01 1.57E+OO 9.22E-01 pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 BETA . 6.10E-01 1.25E+OO 7.79E-01 pCi/L DW1 Drinkina Water(403116002) -DW 2-Aua-16 BETA -5.13E-01 1.12E+OO 6.52E-01 pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 BETA 3.20E-01 1.83E+OO 1.10E+OO pCi/L DW1 Drinking Water(408514002)-DW 17-0ct-16 BETA 6.41 E-01 1.19E+OO 7.44E-01 pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 BETA -3.82E-01 1.87E+OO 1.11E+OO oCi/L DW1 Drinking Water(412191001) -DW 6-Dec-16 BETA 2.00E-01 1.27E+OO 7.67E-01 pCi/L DW1 Drinkina Water(389292003) -DW 12-Jan-16 Barium-140 -1.15E+OO 7.59E+OO 4.73E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Barium-140 4.19E+OO 9.07E+OO 5.94E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Barium-140 -1.98E+OO 9.29E+OO 5.57E+OO pCi/L DW1 Drinkina Water(395275002) -DW 12-Aor-16 Barium-140 -1.81E+OO 6.41E+OO 4.03E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Barium-140 -4.02E+OO 9.72E+OO 6.48E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Barium;140 -4.68E+OO 1.31E+01 8.22E+OO pCi/L DW1 Drinking Water(402080002)-DW 19-Jul-16 Barium-140 6.45E-01 1.19E+01 7.21E+OO pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Barium-140 -1.82E+OO 1.11 E+01 6.91E+OO pCi/L DW1 Drinkina Water(405375002) -DW 6-Sep-16 Barium-140 4.22E+OO 7.80E+OO 4.89E+OO pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 Barium-140 -2.09E+OO 7.84E+OO 4.81E+OO pCi/L DW1 Drinking Water(410307002)-DW ' 8-Nov-16 Barium-140 -3.81E+OO 6.69E+OO 7.33E+OO pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Barium-140 1.60E+OO 8.06E+OO 4.75E+OO *pCi/L DW1 Drinking Water(389292003) -DW 12-Jan-16 Cesium-134 -1.34E-01 1.94E+OO 1.55E+OO pCi/L DW1 Drinkina Water(390519005) -DW 1-Feb-16 Cesium-134 2.85E-01 1.92E+OO 1.12E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Cesium-134 4.36E-01 2.14E+OO 1.25E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Cesium-134 -3.04E-01 1.74E+OO 1.04E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Cesium-134 1.84E+OO 2.08E+OO 3.32E+OO ' pCi/L DW1 Drinking Water(399127002)-DW 7-Jun-16 Cesium-134 1.17E+OO 1.75E+OO 9.98E-01 pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 Cesium-134 7.58E-02 1.82E+OO 1.08E+OO oCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Cesium-134 2.46E-01 1.88E+OO 1.10E+OO pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Cesium-134 1.63E-02 1.62E+OO 9.78E-01 pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 Cesium-134 7.88E-01 1.49E+OO 9.23E-01 pCi/L Page 58 of92 ,/
2016 DCPP REMP Analysis Results Appendix A DW1 Drinking Water(410307002) -DW 8-Nov-16 Cesium-134 1.19E+OO 1.57E+OO 1.73E+OO pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Cesium-134 3.80E-01 1.45E+OO 8.71E-01 pCi/L DW1 Drinking Water(389292003) -DW 12-Jan-16 Cesium-137 -2.29E-01 1.84E+OO 1.10E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Cesium-137 -8.75E-02 1.93E+OO 1.30E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Cesium-137 -2.02E-01 2.07E+OO 1.50E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Cesium-137 -3.04E-01 1.60E+OO 9.98E-01 pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Cesium-137 -8.58E-01 1.76E+OO 1.16E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Cesium-137 5.80E-01 1.80E+OO 1.21E+OO pCi/L DW1 Drinkina Water(402080002)-DW 19-Jul-16 Cesium-137 5.29E-02 1.86E+OO 1.09E+OO pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Cesium-137 5.97E-01 1.83E+OO 1.07E+OO pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Cesium-137 2.45E-02 1.58E+OO 9.43E-01 pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 \ Cesium-137 1.05E-01 1.44E+OO 8.44E-01 pCi/L DW1 Drinking Water(410307002)-DW Nov-16 Cesium-137 1.05E+OO 1.64E+OO 1.05E+OO pCi/L DW1 DrinkinQ Water(412191001) -DW 6-Dec-16 Cesium-137 -3.79E-01 1.32E+OO 8.39E-01 pCi/L
- DW1 Drinking Water(389292003) -DW 12-Jan-16 Cobalt-58 3.47E-01 1.84E+OO 1.08E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Cobalt-58 3.11 E-01 1.91E+OO 1.12E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Cobalt-58 -3.12E-02 1.93E+OO 1.14E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Cobalt-58 3.08E-01 1.52E+OO 8.78E-01 pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Cobalt-58 2.08E-01 1.87E+OO 1.10E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Cobalt-58 2.05E-01 1.76E+OO 1.04E+OO pCi/L DW1 Drinking Water(402080002)-DW 19-Jul-16 Cobalt-58 5.94E-01 1.60E+OO 1.75E+OO pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 -8.01E-01 1.71E+OO 1.13E+OO oCi/L DW1 Drinking Water(405375002)-DW 6-Sep-16 Cobalt-58 -7.26E-01 1.31E+OO 9.22E-01
- pCi/L DW1 DrinkinQ Water(408514002) -DW 17-0ct-16 Cobalt-58 -6.56E-01 1.19E+OO 8.62E-01 pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 Cobalt-58 -4.07E-01 1.29E+OO 9.01E-01 pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Cobalt-58 -6.03E-01 1.26E+OO 8.65E-01 pCi/L DW1 Drinkina Water(389292003) -DW 12-Jan-16 Cobalt-60 5.67E-01 2.22E+OO 1.28E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Cobalt-60 6.29E-01 2.22E+OO 1.29E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Cobalt-60 -7.06E-01 2.54E+OO 1.88E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Cobalt-60 -3.98E-01 1.74E+OO 1.55E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Cobalt-60 -3.96E-01 1.82E+OO 1.13E+OO pCi/L DW1 Drinking Water(399127002)-DW 7-Jun-16 Cobalt-60 1.86E-01 1.92E+OO 1.29E+OO pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 Cobalt-60 1.02E-01 1.60E+OO 9.35E-01 pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Cobalt-60 6.48E-01 1.85E+OO .1.07E+OO pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Cobalt-60 5.02E-01 1.54E+OO 8.85E-01 pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 Cobalt-60 9.67E-02 1.30E+OO 7.98E-01 pCi/L DW1 Drinkina Water(410307002)-DW 8-Nov-16 Cobalt-60 1.01E+OO .1.54E+OO 9.52E-01 pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Cobalt-60 4.74E-01 1.41E+OO 8.13E-01 pCi/L DW1 Drinking Water(389292003) -DW 12-Jan-16 lodine-131 9.09E-02 4.88E-01 2.88E-01 pCi/L DW1 Drinking Water(390519005)-DW 1-Feb-16 lodine-131 5.91E-02 5.63E-01 3.29E-01 pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 lodine-131 -1.90E-01 5.29E-01 3.41 E-01 pCi/L DW1 DrinkinQ Water(395275002) -DW 12-Aor-16 lodine-131 -1.17E-01 5.42E-01 3.53E-01 oCi/L DW1 Drinking Water(396784002) -DW 3-Mav-16 lodine-131 -2.54E-01 7.11 E-01 4.57E-01 pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 lodine-131 6.13E-02 5.84E-01 pCi/L DW1 DrinkinQ Water(402080002) -DW 19-Jul-16 lodine-131 1.32E-01 6.37E-01 7.78E-01 pCi/L Page 59 of 92 2016 DCPP REMP Analysis Results Appendix A DW1 Drinking Water 403116002) -DW 2-Aug-16 lodine-131 -2.02E-01 6.77E-01 pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 lodine-131 4.06E-03 4.86E-01 2.78E-01 pCi/L DW1 Drinking Water 408514002)-DW 17-0ct-16 lodine-131 1.90E-02 5.15E-01 2.94E-01 pCi/L DW1 Drinking Water 410307002) -DW 8-Nov-16 lodine-131 -7.23E-01 5.96E-01 6.54E-01 pCi/L DW1 Drinking Water 412191001)-DW 6-Dec-16 lodine-131 -4.96E-02 5.76E-01 3.33E-01 pCi/L DW1 Drinking Water 389292003) -DW 12-Jan-16 lron-55 -1.09E+01 6.42E+01 4.23E+01 pCi/L DW1 Drinking Water 390519005) -DW 1-Feb-16 lron-55 -2.05E+01 5.15E+01 3.78E+01 pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 lron-55 3.65E+01 6.26E+01 4.83E+01 pCi/L DW1 Drinking Water 395275002) -DW 12-Apr-16 lron-55 7.46E+01 1.37E+02 1.05E+02 pCi/L DW1 Drinking Water 396784002) -DW 3-May-16 lron-55 1.09E+01 6.31E+01 4.60E+01 pCi/L DW1 Drinking Water 399127002) -DW 7-Jun-16 lron-55 -9.04E+OO 1.36E+02 9.38E+01 pCi/L DW1 Drinking Water 402080002) -DW 19-Jul-16 lron-55 3.28E+01 8.62E+01 5.99E+01 pCi/L DW1 Drinking Water 403116002) -DW 2-Aug-16 lron-55 -2.18E+01 7.15E+01 5.07E+01 pCi/L DW1 Drinking Water 405375002)-DW 6-Sep-16 lron-55 1.22E+01 8.88E+01 6.20E+01 pCi/L DW1 Drinking Water 408514002) -DW 17-0ct-16 lron-55 -2.45E+01 8.71E+01 6.51E+01 pCi/L DW1 Drinking Water 410307002) -DW 8-Nov-16 lron-55 4.26E+01 8.39E+01 6.42E+01 pCi/L DW1 Drinking Water 412191001)-DW 6-Dec-16 lron-55 5.58E+01 1.02E+02 7.98E+01 pCi/L DW1 Drinking Water 389292003) -DW 12-Jan-16 lron-59 -7.20E-01 3.72E+OO 2.33E+OO pCi/L DW1 Drinking Water 390519005) -DW 1-Feb-16 lron-59 -8.76E-01 3.82E+OO 2.43E+OO pCi/L DW1 Drinking Water 393029002) -DW 9-Mar-16 lron-59 -7.13E-01 3.87E+OO 2.42E+OO pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 lron-59 2.16E-01 3.17E+OO 1.87E+OO pCi/L DW1 Drinkino Water 396784002) -DW 3-Mav-16 lron-59 .-2.00E+OO 3.71E+OO 2.51E+OO pCi/L DW1 Drinking Water 399127002) -DW 7-Jun-16 lron-59 1.70E+OO 4.20E+OO 2.47E+OO pCi/L DW1 Drinkina Water 402080002) -DW 19-Jul-16 lron-59 -4.41E-01 3.73E+OO 2.32E+OO pCi/L DW1 Drinking Water 403116002)-DW 2-Aug-16 lron-59 5.50E-01 3.54E+OO 2.11E+OO pCi/L DW1 Drinking Water 405375002) -DW 6-Sep-16 lron-59 -4.39E-01 2.77E+OO 1.65E+OO .pCi/L DW1 Drinking Water 408514002) -DW 17-0ct-16 lron-59 -1.27E+OO 2.44E+OO 1.72E+OO oCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 lron-59 -9.67E-01 2.68E+OO 1.72E+OO pCi/L DW1 Drinking Water 412191001) -DW 6-Dec-16 lron-59 1.53E-01 2.99E+OO 1.73E+OO pCi/L DW1 Drinking Water 389292003) -DW 12-Jan-16 Lanthanum-140 4.75E-02 2.60E+OO 1.54E+OO pCi/L DW1 Drinking Water 390519005) -DW 1-Feb-16 Lanthanum-140 -3.61E-01 3.38E+OO 2.06E+OO pCi/L DW1 Drinking Water 393029002) -DW 9-Mar-16 Lanthanum-140 1.11E+OO 3.64E+OO 2.11E+OO pCi/L DW1 Drinking Water 395275002) -DW 12-Apr-16 Lanthanum-140 5.81E-01 2.22E+OO 1.28E+OO pCi/L DW1 Drinking Water 396784002) -DW 3-Mav-16 Lanthanum-140 6.89E-01 3.72E+OO 2.53E+OO pCi/L DW1 Drinking Water 399127002) -DW 7-Jun-16 Lanthanum-140 2.71 E-02 4.68E+OO 2.79E+OO pCi/L DW1 Drinking Water 402080002) -DW 19-Jul-16 Lanthanum-140 1.17E+OO 4.56E+OO 2.86E+OO . pCi/L DW1 Drinking Water 403116002) -DW 2-Aug-16 Lanthanum-140 -7.76E-01 3.40E+OO 2.18E+OO oCi/L DW1 Drinking Water 405375002) -DW 6-Sep-16 Lanthanum-140 -7.15E-01 2.58E+OO 1.65E+OO pCi/L DW1 Drinking Water 408514002)-DW 17-0ct-16 Lanthanum-140 1.73E-01 2.70E+OO 1.76E+OO pCi/L DW1 Drinking Water 410307002)-DW 8-Nov-16 Lanthanum-140 -2.80E-01 2.27E+OO 1.42E+OO pCi/L DW1 Drinking Water 412191001)-DW 6-Dec-16 Lanthanum-140 -2.82E-01 2.44E+OO 1.72E+OO pCi/L DW1 Drinkino Water 389292003) -DW 12-Jan-16 Manoanese-54 -1.22E+OO 1.71E+OO 1.24E+OO pCi/L DW1 Drinking Water 390519005) -DW 1-Feb-16 Manganese-54 -6.78E-01 1.72E+OO 1.12E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Manganese-54 7.85E-01 2.04E+OO 1.21E+OO pCi/L DW1 Drinkino Water 395275002) -OW 12-Apr-16 Manganese-54 3.89E-01 1.54E+OO 8.94E-01 oCi/L Page 60 of 92 2016 DCPP REMP Analysis Results Appendix A -,, DW1 Drinking Water(396784002) -DW 3-May-16 Manganese-54 3.35E-01 DW1 Drinking Water(399127002)-DW 7-Jun-16 Manganese-54 1.33E-01 DW1 Drinking Water(402080002) -DW 19-Jul-16 Manganese-54 2.55E-01 DW1 DrinkinQ Water(403116002) -DW 2-Aui:i-16 Mani:ianese-54 1.87E-01 DW1 Drinking Water(405375002)-DW 6-Sep-16 Manganese-54 5.03E-01 DW1 Drinking Water(408514002)-DW 17-0ct-16 Manganese-54 -3.56E-01 DW1 Drinking Water(410307002) -DW 8-Nov-16 Manganese-54 -5.76E-01 DW1 Drinking Water(412191001)-DW 6-Dec-16 Manganese-54 -5.46E-01 DW1 DrinkinQ Water(389292003) -DW 12-Jan-16 Nickel-63 -1.81E+01 DW1 Drinking Water(390519005) -DW 1-Feb-16 Nickel-63 7.94E+OO DW1 Drinking Water(393029002) -DW Mar-16 Nickel-63 1.79E+01 DW1 Drinking Water(395275002) -DW 12-Apr-16 Nickel-63 5.82E+OO DW1 Drinking Water(396784002) -DW 3-May-16 Nickel-63 7.35E+OO DW1 Drinkina Water(399127002) -DW 7-Jun-16 Nickel-63 -1.90E+OO DW1 Drinking Water(402080002) -DW 19-Jul-16 Nickel-63 6.90E-01 DW1 Drinking Water(403116002) -DW 2-Aug-16 Nickel-63 1.79E+01 DW1 Drinking Water(405375002) -DW 6-Sep-16 Nickel-63 3.67E-02 DW1 Drinking Water(408514002) -DW 17-0ct-16 Nickel-63 1.26E+OO DW1 Drinking Water(410307002) -DW 8-Nov-16 Nickel-63 -4.24E+OO DW1 Drinking Water(412191001)-DW 6-Dec-16 Nickel-63 1.01 E+01 DW1 Drinking Water(389292003) -DW 12-Jan-16 Niobium-95 1.69E+OO DW1 Drinkini:i Water(390519005) -DW 1-Feb-16 Niobium-95 9.29E-01 DW1 Drinking Water(393029002) -DW 9-Mar-16 Niobium-95 -5.21 E-01 DW1 Drinkina Water(395275002) -DW 12-Apr-16 Niobium-95 2.67.E-01 DW1 Drinking Water(396784002) -DW 3-May-16 Niobium-95 6.50E-02 DW1 Drinking Water(399127002) -DW 7-Jun-16 Niobium-95 7.70E-02 DW1 DrinkinQ Water(402080002) -DW 19-Jul-16 Niobium-95 4.28E-01 DW1 Drinking Water(403116002)-DW 2-Aug-16 Niobium-95 2.17E-01 DW1 Drinking Water(405375002) -DW \ 6-Sep-16
- Niobium-95 -3.67E-01 DW1 Drinking Water(408514002) -DW 17-0ct-16 Niobium-95 9.53E-02 DW1 Drinking Water(410307002) -DW 8-Nov-16 Niobium-95 5.66E-01 DW1 Drinking Water(412191001)-DW 6-Dec-16 Niobium-95 -4.74E-01 DW1 Drinking Water(389292003) -DW 12-Jan-16 Total Strontium -1.14E-01 DW1 Drinking Water(390519005) -DW 1-Feb-16 Total Strontium -1.86E-01 DW1 Drinking Water(393029002) -DW 9-Mar-16 Total Strontium 4.19E-01 DW1 Drinking Water(395275002) -DW 12-Aor-16 Total Strontium -1.60E-01 DW1 DrinkinQ Water(396784002) -DW 3-May-16 Total Strontium -2.14E-01 DW1 Drinking Water(399127002) -DW 7-Jun-16 Total Strontium -9.78E-02 DW1 Drinking Water(402080002) -DW *. 19-Jul-16 Total Strontium -3.28E-02 DW1 Drinking Water(403116002) -DW 2-Aug-16 Total Strontium -1.41 E-01 DW1 Drinking Water(405375002) -DW 6-Sep-16 Total Strontium -5.07E-01 DW1 Drinkina Water(408514002) -DW 17-0ct-16 Total Strontium -7.07E-01 DW1 Drinking Water(410307002) -DW 8-Nov-16 Total Strontium -4.66E-01 DW1 Drinking Water(412191001) -DW 6-Dec-16 Total Strontium -5.71 E-01 DW1 Drinkina Water(389292003) -DW 12-Jan-16 Tritium 6.85E+01 Page 61 of92 2.006+00 1.75E+OO 1.62E+OO 1.65E+OO . 1.45E+OO 1.18E+OO 1.21E+OO 1.25E+OO 3.03E+01 2.27E+01 3.12E+01 3.55E+01 3.59E+01 3.60E+01 3.02E+01 2.60E+01 2.87E+01 3.42E+01 2.79E+01 . 2.59E+01 1.98E+OO 1.99E+OO 2.25E+OO 1.60E+OO 1.96E+OO 1.94E+OO 1.77E+OO 1.97E+OO 1.75E+OO 1.46E+OO 1.35E+OO 1.40E+OO 2.26E-01 1.78E-01 4.86E-01 2.04E-01 2.90E-01 1.82E-01 2.38E-01 2.45E-01 8.16E-01 9.29E-01 6.86E-01 6.34E-01 2.67E+02 1.18E+OO 1.04E+OO 1.09E+OO 9.71E-01 8.69E-01 7.56E-01 7.84E-01 8.50E-01 1.70E+01 1.40E+01 1.97E+01 2.13E+01 2.18E+01 2.14E+01 1.80E+01 1.64E+01 1.71 E+01 2.04E+01 1.65E+01 1.59E+01 1.32E+OO 1.19E+OO 2.49E+OO 9.22E-01 1.65E+OO 1.15E+OO 1.04E+OO 1.57E+OO 1.73E+OO 8.63E-01 1.25E+OO 1.03E+OO 1.32E-01 9.95E-02 3.15E-01 1.14E-01 1.67E-01 1.04E-01 1.40E-01 1.41E-01 4.21E-01 4.87E-01 3.66E-01 2.98E-01 1.62E+02 pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L oCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L pCi/L ,, I I
,.-2016 DCPP REMP Analysis Results Appendix A DW1 Drinking Water(390519005) -DW 1-Feb-16 Tritium 5.00E+01 2.80E+02 1.69E+02 pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Tritium 4.37E+01 2.40E+02 1.46E+02 pCi/L DW1 Drinking Water(395275002) -DW 12-Apr-16 Tritium -8.83E+01 2.97E+02 1.73E+02 pCi/L DW1 Drinking Water(396784002) -DW 3-Mav-16 Tritium -8.07E+01 2.48E+02 1.44E+02 oCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Tritium 1.76E+02 2.42E+02 1.56E+02 pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 Tritium 2.33E+01* 3.05E+02 1.83E+02 pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Tritium 1.45E+01 2.63E+02 1.57E+02 pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Tritium -3.18E+01 2.70E+02 1.59E+02 pCi/L DW1 Drinking Water(408514002) -DW 17-0ct-16 Tritium 3.38E+01 2.91E+02 1.75E+02 pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 Tritium 6.65E+OO 3.00E+02 1.79E+02 pCi/L DW1 Drinking Water(412191001)-DW 6-Dec-16 Tritium -1.88E+01 3.02E+02 1.79E+02 pCi/L DW1 Drinking Water(389292003) -DW 12-Jan-16 Zinc-65 6.77E-01 3.83E+OO 2.62E+OO pCi/L DW1 Drinking Water(39Q519005)-DW 1-Feb-16 Zinc-65 9.92E-01 3.80E+OO 2.26E+OO pCi/L DW1 Drinkina Water(393029002) -DW 9-Mar-16 Zinc-65 -1.71E+OO 3.95E+OO 2.66E+OO pCi/L DW1 Drinking Water(395275002) DW 12-Apr-16 Zinc-65 -5.18E+OO 3.09E+OO 3.67E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-Mav-16 Zinc-65 1.93E+OO 3.77E+OO 2.48E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Zinc-65 -5.01E+OO 3.35E+OO 4.04E+OO pCi/L DW1 Drinking Water(402080002) -DW 19-Jul-16 Zinc-65 -1:88E+OO 3.16E+OO 2.28E+OO pCi/L DW1 Drinking Water(403116002)-DW 2-Aug-16 Zinc-65 -6.97E-01 3.62E+OO 2.27E+OO oCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Zinc-65 -3.08E-01
- 2.84E+OO 1.68E+OO pCi/L DW1 Drinking Water(408514002) -DW . 17-0ct-16 Zinc-65 . -1.58E+OO 2.34E+OO 1.96E+OO pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 Zinc-65 -8.35E-01 2.81E+OO 2.01E+OO pCi/L
- DW1 Drinking Water(412191001)-DW 6-Dec-16 Zinc-65 -1.01E+OO 2.73E+OO 1.73E+OO pCi/L DW1 Drinkina Water(389292003) -DW 12-Jan-16 Zirconium-95 2.52E-01 3.17E+OO 1.85E+OO pCi/L DW1 Drinking Water(390519005) -DW 1-Feb-16 Zirconium-95 8.71E-01 3.47E+OO 2.02E+OO pCi/L DW1 Drinking Water(393029002) -DW 9-Mar-16 Zirconium-95 1.71E+OO 3.73E+OO 2.24E+OO pCi/L DW1 Drinkina Water(395275002) -DW 12-Apr-16 Zirconium-95 -1.44E-01 2.55E+OO 1.49E+OO pCi/L DW1 Drinking Water(396784002) -DW 3-May-16 Zirconium-95 -8.85E-01. 3.17E+OO 1.98E+OO pCi/L DW1 Drinking Water(399127002) -DW 7-Jun-16 Zirconium-95 -5.57E-01 3.28E+OO 2.01E+OO pCi/L DW1 Drinking Water(402080002)-DW 19-Jul-16 1.14E+OO 3.15E+OO 1.86E+OO pCi/L DW1 Drinking Water(403116002) -DW 2-Aug-16 Zirconium-95 2:01E+OO 3.47E+OO 2.12E+OO pCi/L DW1 Drinking Water(405375002) -DW 6-Sep-16 Zirconium-95 -3.75E-01 2.52E+OO 1.56E+OO oCi/L DW1 Drinking Water(408514002)-DW . 17-0ct-16 Zirconium-95 -1.28E+OO 2.32E+OO 1.59E+OO pCi/L DW1 Drinking Water(410307002) -DW 8-Nov-16 Zirconium-95 -2.78E-01 2.40E+OO 1.50E+OO pCi/L DW1 Drinking Water(412191001) -DW 6-Dec-16 Zirconium-95 2.89E-01 2.46E+OO 1.66E+OO pCi/L Page 62 of 92 2016 DCPP REMP Analysis Results Appendix A DY1 Drywell 115 -Monitoring Well Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units DY1Drywell115(390519001)-GW 26-Jan-16 BETA 4.13E+01 2.70E+OO 7.54E+OO pCi/L DY1Drywell115(396610005)-GW 26-Apr-16 BETA 2.82E+01 2.75E+OO 5.19E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 BETA 4.63E+01 2.06E+OO 8.05E+OO pCi/L DY1 Drywell 115(410009001)-GW 1-Nov-16 BETA 6.27E+01 1.88E+OO 1.06E+01 pCi/L DY1 Drywell 115(390519001)-GW 26-Jan-16 Barium-140 -4.26E+OO 1.02E+01 6.78E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Barium-140 -5.89E-01 1.19E+01 6.93E+OO pCi/L DY1Drvwell115(403022001)-GW 26-Jul-16 Barium-140 6.66E+OO 1.06E+01 6.80E+OO oCi/L DY1 Drywell 115(410009001) -GW 1-Nov-16 Barium-140 -3.01E+OO 9.97E+OO 1.12E+01 pCi/L DY1 Drywell 115(390519001)-GW 26-Jan-16 Cesium-134 -5.30E-01 1'.89E+OO 1.18E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Cesium-134 1.39E-01 1.75E+OO 1.04E+OO pCi/L DY1 Drywell 115(403022001)-GW 26-Jul-16 Cesium-134 -8.57E-01 1.88E+OO 1.56E+OO pCi/L DY1Drvwell115(410009001)-GW 1-Nov-16 Cesium-134 3.76E-01 1.37E+OO 8.41 E-01 pCi/L DY1 Drywell 115(390519001) -GW 26-Jan-16 Cesium-137 -6.96E-01 1.73E+OO 1.10E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Cesium-137 -9.47E-01 '1.63E+OO 1.56E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Cesium-137 1.78E+OO 1.78E+OO 2.33E+OO pCi/L DY1 Drywell 115(410009001) -GW 1-Nov-16 Cesium-137 1.06E+OO 1.20E+OO 1.43E+OO pCi/L DY1 Drvwell 115(390519001)-GW 26-Jan-16 Cobalt-58 6.69E-01 1.81E+OO 1.06E+OO oCi/L DY1 Drvwell 115(396610005) -GW 26-Apr-16 Cobalt-58 3.21E-02 1.77E+OO 1.06E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Cobalt-58 -9.40E-03 1.80E+OO 1.07E+OO pCi/L DY1 Drvwell 115(410009001) -GW 1-Nov-16 Cobalt-58 5.02E-02 1.24E+OO -7.10E-01 oCi/L DY1 Drywell 115(390519001)-GW 26-Jan-16 Cobalt-60 -3.55E-01 1.83E+OO 1.12E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Cobalt-60 8.61E-01 1.76E+OO 1.05E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Cobalt-60 6.89E-01 1.82E+OO 1.06E+OO pCi/L DY1 Drywell 115(410009001)-GW 1-Nov-16 Cobalt-60 1.18E+OO 1.48E+OO 1.20E+OO pCi/L DY1 Drvwell 115(390519001) -GW 26-Jan-16 lodine-131 1.23E+OO 4.40E+OO 2.62E+OO oCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 lodine-131 7.09E-01 5.91E+OO 3.53E+OO pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 lodine-131 1.28E+OO 4.59E+OO 2.74E+OO pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 lodjne-131 -3.67E-01 4.53E+OO 2.67E+OO pCi/L DY1 Drywell 115(390519001) -GW 26-Jan-16 lron-55 1.26E+01 5.74E+01 4.34E+01 pCi/L DY1 Drvwell 115(396610005) -GW 26-Apr-16 lron-55 3.28E+01 7.15E+01 5.31 E+01 oCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 lron-55 1.48E+01 7.27E+01 5.36E+01 pCi/L DY1 Drywell 115(410009001) -GW 1-Nov-16 lron-55 3.09E+01 8.07E+01 6.12E+01 pCi/L DY1 Drywell 115(390519001) -GW 26-Jan-16 lron-59 -1.33E-01 3.91E+OO 2.38E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 lron-59 -2.87E-01 3.52E+OO 2.17E+OO pCi/L DY1Drvwell115(403022001)-GW 26-Jul-16 lron-59 7.22E-01 3.59E+OO 2.14E+OO pCi/L DY1Drvwell115(410009001)-GW 1-Nov-16 lron-59 -1.18E+OO 2.55E+OO 1.67E+OO pCi/L DY1 Drvwell 115(390519001)-GW 26-Jan-16 Lanthanum-140 -6.07E-01 3.40E+OO 2.11 E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Lanthanum-140 9.89E-01 4.25E+OO 2.50E+OO pCi/L DY1 Drywell 115(403022001)-GW -26-Jul-16 Lanthanum-140 -1.57E+OO 3.19E+OO 2.54E+OO pCi/L DY1 Drywell 115(410009001)-GW 1-Nov-16 Lanthanum-140 -2.51E+OO 3.03E+OO 2.36E+OO pCi/L DY1 Drywell 115(390519001) -GW 26-Jan-16 Manganese-54 -4.28E-01 1.69E+OO 1.05E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Manganese-54 1.13E+OO 1.61E+OO 1.05E+OO pCi/L DY1 Drywell 115(403022001)-GW 26-Jul-16 Manaanese-54 1.97E-01 1.84E+OO 1.08E+OO pCi/L Page 63 of 92 2016 DCPP REMP Analysis Results Appendix A DY1Drywell115(410009001)-GW 1-Nov-16 Manganese-54 3.42E-01 1.21E+OO 6.97E-01 pCi/L DY1Drvwell115(390519001)-GW 26-Jan-16 ' Nickel-63 4.02E+OO 2.41E+01 1.46E+01 pCi/L DY1Drywell115(396610005)-GW . 26-Apr-16 Nickel-63 1.09E+01 3.44E+01 2.10E+01 pCi/L DY1Drvwell115(403022001)-GW 26-Jul-16 Nickel-63 2.38E+OO 2.67E+01 1.60E+01 pCi/L DY1 Drywell 115(410009001) -GW 1-Nov-16 Nickel-63 -1.00E+01 2.84E+01 1.66E+01 pCi/L DY1Drywell115(390519001)-GW 26-Jan-16 Niobium-95 3.51E-01 1.86E+OO 1.09E+OO pCi/L DY1 Drywell 115(396610005) -GW 26-Apr-16 Niobium-95 4.66E-01 1.75E+OO 1.04E+OO pCi/L DY1Drywell115(403022001)-GW Niobium-95 -6.02E-01 2.00E+OO 1.95E+OO pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 Niobium-95 5.53E-02 1.42E+OO.' 8.76E-01 pCi/L DY1Drywell115(390519001)-GW 26-Jan-16 *-Total Strontium -1.18E-02 2.24E-01 1.33E-01 pCi/L DY1Drywell115(396610005)-GW 26-Apr-16 Total Strontium -3.68E-01 2.00E-01 1.06E-01 pCi/L DY1Drywell115(403022001)-GW 26-Jul-16 Total Strontium -6.19E-02 1.60E-01 9.22E-02 pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 Total Strontium -8.23E-02 5.73E-01 3.32E-01 pCi/L DY1Drvwell115(390519001)-GW 26-Jan-16 Tritium 4.65E+03 2.84E+02 9.54E+02 pCi/L DY1Drywell115(396610005)-GW 26-Apr-16 Tritium 3.76E+03 2.78E+02 7.81E+02 pCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Tritium 4.55E+03 2.85E+02 9.34E+02 pCi/L DY1 Drywell 115(410009001)-GW 1-Nov-16 Tritium 5.19E+03 2.64E+02 1.05E+03 pCi/L DY1Drywell115(390519001)-GW 26-Jan-16 Zinc-65 3.73E+OO 3.73E+OO 5.80E+OO pCi/L DY1Drywell115(396610005)-GW 26-Apr-.16 Zinc-65 2.90E+OO 3.43E+OO 2.45E+OO oCi/L DY1 Drywell 115(403022001) -GW 26-Jul-16 Zinc-65 -1.19E+OO 3.41E+OO 2.23E+OO pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 Zinc-65 -1.43E-01 2.41E+OO 1.55E+OO pCi/L DY1Drywell115(390519001)-GW 26-Jan-16 Zirconium-95 -2.28E-01 3.17E+OO 1.89E+OO pCi/L DY1 Drvwell 115(396610005) -GW 26-Apr-16 Zirconium-95 -1.52E+OO 2.96E+OO 1.97E+OO pCi/L DY1Drvwell115(403022001)-GW 26-Jul-16 Zirconium-95 -1.05E+OO 3.27E+OO 2.05E+OO pCi/L DY1Drywell115(410009001)-GW 1-Nov-16 Zirconium-95 , 7.17E-01 2.29E+OO 1.40E+OO pCi/L GW1 G d. t M 't . W 111 roun wa er oni ormg e Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units GW1 Groundwater Monitoring Well 1 (390519003) -GW 28-Jan-16 BETA 6.15E+OO 7.96E+OO 5.17E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001) -GW 26-Apr-16 BETA -3.52E+OO 2.72E+01 1.62E+01 pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 BETA 1.93E+01 1.33E+01 9.53E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002)-GW 31-0ct-16 BETA. 7.75E+OO 1.34E+01 8.80E+OO oCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Barium-140 6.33E-03 1.20E+01 7.20E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Barium-140 3.42E-01 1.11E+01 1.10E+01 pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 Barium-140 2.57E+OO 1.33E+01 7.76E+OO pCi/L GW1 Groundwater Monitoring Well 1 ( 410011002) -GW 31-0ct-16 Barium-140 -2.54E+OO 1.07E+01 6.64E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Cesium-134 4.66E-01 2.01E+OO 1.17E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Cesium-134 -7.62E-02 2.18E+OO 1.64E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 Cesium-134 -2.65E-01 2.26E+OO 1.37E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Cesium-134 4.91E-01 2.10E+OO 1.20E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Cesium-137 3.37E-01 1.86E+OO 1.28E+OO pCi/L GW1 Groundwater MonitorinQ Well 1(396610001) -GW 26-Apr-16 Cesium-137 5.52E-01 2.27E+OO 1.54E+OO oCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 Cesium-137 5.96E-02 2.16E+OO 1.47E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Cesium-137 -1.23E-01 1.99E+OO 1.37E+OO pCi/L GW1 Groundwater MonitorinQ Well 1 (390519003) -GW 28-Jan-16 Cobalt-58 -1.26E-01 1.85E+OO 1.25E+OO oCi/L Page 64 of92 I l 2016 DCPP REMP Analysis Results Appendix A GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Cobalt-58 -1.13E-01 2.09E+OO 1.46E+OO pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW ' 26-Jul-16 Cobalt-58 2.76E-01 2.17E+OO 1.48E+OO _pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Cobalt-58 -2.52E-01 1.92E+OO 1.28E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Cobalt-60 2.02E+OO 2.02E+OO 2.47E+OO oCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW \ 26-Apr-16 Cobalt-60 -2.11 E-01 2.06E+OO 1.25E+OO pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 Cobalt-60 8.72E-01 2.25E+OO 1.32E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Cobalt-60 3.90E-01 2.0?E+OO 1.24E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 lodine-131 -1.83E+OO 5.19E+OO 3.22E+OO pCi/L GW1 Groundwater Monitorina Well 1(396610001)-GW 26-Apr-16 lodine-131 -2.68E+OO 4.48E+OO 3.04E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 lodine-131 3.97E-01 5.47E+OO 3.31E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 lodine-131 1.44E+OO 4.16E+OO 2.43E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 lron-55 4.86E+OO 5.48E+01 4.11 E+01 pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW lron-55 -7.54E-01 5.78E+01 '4.19E+01 pCi/L GW1 Groundwater Monitorina Well 1(402880002)-GW 26-Jul-16 lron-55 2.54E+01 6.89E+01 5.15E+01 pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 lron-55 5.31E+OO 8.30E+01 6.12E+01 pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 lron-59 -7.95E-01 3.81E+OO 2.35E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 -6.19E-01 4.06E+OO 2.44E+OO pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 lron-59 -4.22E-01 4.50E+OO 2.65E+OO pCi/L GW1 Groundwater Monitorina Well 1(410011002) -GW 31-0ct-16 lron-59 -8.39E-01 4.20E+OO 2.59E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Lanthanum-140 -6.23E-01 3.57E+OO 2.15E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Lanthanum-140 3.25E+OO 3.97E+OO 4.08E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002) -GW 26-Jul-16 Lanthanum-140 1.95E+OO 4.41 E-+;00 2.96E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002)-GW 31-0ct-16 Lanthanum-140 6.44E-01 4.19E+OO 2.76E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Manaanese-54 -1.21E+OO 1.74E+OO 1.60E+OO oCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Manganese-54 -1.39E+OO 1.99E+OO 1.42E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002) -GW 26-Jul-16 Manganese-54 * -1.52E-01 1.95E+OO 1.37E+OO pCi/L GW1 Groundwater Monitorina Well 1(410011002) -GW 31-0ct-16 Manganese-54 -2.81E-03 1.80E+OO 1.18E+OO pCi/L, GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Nickel-63 1.71E+OO 2.33E+01 1.39E+01 pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Nickel-63 1.61E+01 3.34E+01 2.07E+01 pCi/L GW1 Groundwater Monitoring Well 1 (402880002) -GW 26-Jul-16 Nickel-63 1.20E+OO 2.82E+01 1.69E+01 pCi/L GW1 Groundwater Monitoring Well 1 ( 410011002) -GW 31-0ct-16 Nickel-63 -1.70E+01 2.66E+01 1.53E+01 pCi/L GW1 Groundwater Monitorina Well 1 (390519003) -GW 28-Jan-16 Niobium-95 2.39E+OO 2.39E+OO 1.91E+OO pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Niobium-95 2.54E+OO 2.54E+OO 2.38E+OO pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 Niobium-95 2.60E+OO 2.60E+OO 2.28E+OO pCi/L GW1 Groundwater Monitoring Well 1(410011002)-GW 31-0ct-16 Niobium-95 8.26E-01 *2.25E+OO 1.54E+OO pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Total Strontium -7.22E-02 1.73E-01 1.01 E-01 pCi/L GW1 Groundwater Monitorina Well 1(396610001) -GW 26-Apr-16 Total Strontium 3.38E-02 2.21E-01 1.33E-01 pCi/L GW1 Groundwater Monitoring Well 1(402880002)-GW 26-Jul-16 Total Strontium -2.01E-02 1.65E-01 9.78E-02 pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Total Strontium -8.93E-02 6.39E-01 3.73E-01 pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Tritium 2.29E+02 2.82E+02 1.84E+02 pCi/L GW1 Groundwater Monitoring Well 1(396610001)-GW 26-Apr-16 Tritium 8.71E+01 2.80E+02 1.71E+02 pCi/L GW1 Groundwater Monitorina Well 1 (402880002) -GW 26-Jul-16 Tritium 1.64E+02 2.61E+02 1.66E+02 pCi/L GW1 Groundwater Monitoring Well 1(410011002) -GW 31-0ct-16 Tritium 1.10E+02 2.66E+02 1.65E+02 pCi/L GW1 Groundwater Monitoring Well 1(390519003)-GW 28-Jan-16 Zine-65 1.05E+OO 3.74E+OO 2.52E+OO pCi/L GW1 Gn:iundwater Monitoring Well 1(396610001) -GW 26-Apr-16 Zinc-65 5.15E-01 4.27E+OO 2.89E+OO pCi/L Page 65 of 92 L i I L GW1 Groundwater Monitoring Well 1(402880002)-GW GW1 Groundwater Monitoring Well 1 ( 410011002) -GW GW1 Groundwater Monitoring Well 1 (390519003) -GW GW1 Groundwater Monitorina Well 1(396610001) -GW GW1 Groundwater Monitoring Well 1 (402880002) -GW GW1 Groundwater Monitoring Well 1(410011002) -GW GW2 Groundwater Monitoring Well 2 Sample Name GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002)-GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2( 410011001) -GW GW2 Groundwater Monitoring Well 2(390519002) -GW GW2 Groundwater Monitoring Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitorina Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitorina Well 2(390519002) -GW GW2 Groundwater Monitoring Well 2(396610002)-GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitorina Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001) -GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001) -GW GW2 Groundwater Monitoring Well 2(410011001)-GW GW2 Groundwater Monitoring.Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002)-GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitorina Well 2(410011001) -GW GW2 Groundwater Monitoring Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002) -GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2 Groundwater Monitoring Well 2(410011001) -GW GW2 Groundwater Monitorina Well 2(390519002)-GW GW2 Groundwater Monitoring Well 2(396610002)-GW GW2 Groundwater Monitoring Well 2(402880001)-GW GW2-Groundwater Monitorina Well 2( 410011001) -GW 2016 DCPP REMP Analysis Results Appendix A 26-Jul-16 Zinc-65 2.22E+OO 31-0ct-16 Zinc-65 -2.78E+OO 28"Jan-16 Zirconium-95 -2.14E-01 26-Apr-16 Zirconium-95 6.49E-01 26-Jul-16 Zirconium-95 -5.64E-01 31-0ct-16 Zirconium-95 -2.46E+OO Date Collected Nuclide Result BETA 1.67E+01 26-Apr-16 BETA 1.49E+01 -26-Jul-16 BETA 6.71E+OO 31-0ct-16 BETA 9.34E+OO 28-Jan-16 Barium-140 3.76E+OO 26-Apr-16 Barium-140 -4.63E+OO 26-Jul-16 Barium-140 4.55E+OO 31-0ct-16 Barium-140 1.57E+OO 28-Jan-16 Cesium-134 6.31E-01 26-Apr-16 Cesium-134 1.25E+OO 26-Jul-16 Cesium-134 7.75E-01 31-0ct-16 Cesium-134 -5.24E-01 28-Jan-16 Cesium-137 7.12E-01 26-Apr-16 Cesium-137 -6.70E-02 26-Jul-16 Cesium-137 4.67E-01 31-0ct-16 Cesium-137 , 3.15E-01 28-Jan-16 Cobalt-58 -2.31 E-01 26-Apr-16 Cobalt-58 5.06E-01 26-Jul-16 Cobalt-58 -9.33E-02 31-0ct-16 Cobalt-58 -1.55E-01 28-Jan-16 Cobalt-60 -4.26E-01 26-Apr-16 Cobalt-60 1.42E-01 26-Jul-16 Cobalt-60 4.03E-01 31-0ct-16 Cobalt-60 1.23E+OO 28-Jan-16 lodine-131 -3.32E-01 26-Apr-16 lodine-131 4.63E-01 26-Jul-16 Iodine-131 9.16E-01 , 31-0ct-16 lodine-131 7.92E-01 28-Jan-16 Iron-55 2.34E+01 26-Apr-16 lron-55 2.84E+01 26-Jul-16 lron-55 4.31E+OO 31-0ct-16 lron-55 3.19E+01 28-Jan-16 lron-59 8.47E-01 26-Apr-16 lron-59 -7.08E-01 26-Jul-16 lron-59 2.26E+OO 31-0ct-16 lron-59 4.81E-01 Page 66 of 92 4.52E+OO 3.04E+OO pCi/L 3.85E+OO 4.07E+OO pCi/L 3.41E+OO 1.99E+OO pCi/L 3.66E+OO 2.18E+OO oCi/L 3.81E+OO 2.32E+OO pCi/L 3.33E+OO 2.50E+OO pCi/L MDC 2 Siama TPU Units 8.49E+OO 6.27E+OO pCi/L 5.79E+OO 4.74E+OO pCi/L 5.00E+OO 3.64E+OO pCi/L 6.23E+OO 4.38E+OO pCi/L 1.12E+01 6.59E+OO pCi/L 1.44E+01 9.11E+OO pCi/L 9.22E+OO 6.33E+OO pCi/L 8.04E+OO 4.75E+OO pCi/L 1.91E+OO 1.15E+OO pCi/L 2.08E+OO 1.85E+OO pCi/L 1.64E+OO 9.75E-01 pCi/L 1.43E+OO 9.43E-01 pCi/L 1.82E+OO 1.98E+OO oCi/L 2.14E+OO 1.30E+OO pCi/L 1.70E+OO 1.03E+OO pCi/L 1.43E+OO 8.50E-01 pCi/L 1.76E+OO 1.08E+OO pCi/L 2.28E+OO 1.37E+OO pCi/L 1.56E+OO 9.20E-01 pCi/L 1.43E+OO 8.90E-01 pCi/L 1.72E+OO 1.08E+OO pCi/L 1.97E+OO 1.16E+OO pCi/L 1.78E+OO 1.06E+OO pCi/L 1.62E+OO 1.02E+OO pCi/L 4.55E+OO 2.78E+OO pCi/L 6.57E+OO 3.87E+OO pCi/L \ 3.75E+OO 2.21 E+OO pCi/L 3.02E+OO 1.76E+OO oCi/L 5.42E+01 4.16E+01 pCi/L 6.58E+01 4.95E+01 pCi/L 7.01E+01 5.11E+01 pCi/L 8.28E+01 6.26E+01 pCi/L 3.64E+OO 2.13E+OO oCi/L 4.37E+OO 3.09E+OO pCi/L 3.25E+OO 3.02E+OO pCi/L 2.72E+OO 1.56E+OO pCi/L 2016 DCPP REMP Analysis Results Appendix A -GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Lanthanum-140 -4.30E-02 3.55E+OO 2.15E+OO pCi/L GW2 Groundwater Monitoring Well 2(396610002) -GW 26-Apr-16 Lanthanum-140 1.29E+OO 4.82E+OO 2.84E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Lanthanum-140 1.62E+OO 3.49E+OO 2.05E+OO pCi/L GW2 Groundwater MonitorinQ Well 2(410011001) -GW 31-0ct-16 Lanthanum-140 -9.34E-01' 2.24E+OO 1.51E+OO pCi/L GW2 Groundwater Monitoring Well 2(390519002) -GW 28-Jan-16 Manganese-54 * -1.40E-01 1.72E+OO 1.05E+OO pCi/L GW2 Groundwater Monitoring Well 2(396610002) -GW 26-Apr-16 Manganese-54 -3.16E-01 2.07E+OO 1.23E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Manganese-54 -3.05E-01 1.49E+OO 9.02E-01 pCi/L GW2 Groundwater Monitoring Well 2(410011001)-GW 31-0ct-16 Manganese-54 -3.01 E-01 1.22E+OO 8.85E-01 pCi/L GW2 Groundwater Monitoring Well 2(390519002) -GW 28-Jan-16 Nickel-63 1.29E+OO 2.34E+01 1.40E+01 oCi/L GW2 Groundwater Monitoring Well 2(396610002) -GW 26-Apr-16 Nickel-63 3.64E+OO 3.46E+01 2.08E+01 pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Nickel-63 -4.02E+OO 2.83E+01 1.67E+01 pCi/L GW2 Groundwater Monitoring Well 2(410011001) -GW 31-0ct-16 Nickel-63 -7.79E-01 2.56E+01 1.53E+01 pCi/L GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Niobium-95 -4.01E-01 1.82E+OO 1.13E+OO pCi/L GW2 Groundwater MonitorinQ Well 2(396610002) -GW Niobium-95 9.77E-01 2.32E+OO 1.42E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Niobium-95 -1.35E-01 1.67E+OO 9.86E-01 pCi/L GW2 Groundwater Monitoring Well 2(410011001)-GW 31-0ct-16 Niobium-95 5.06E-01 1.48E+OO 9.92E-01 pCi/L GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Total Strontium 7.45E-02 2.26E-01 1.39E-01 pCi/L GW2 Groundwater Monitoring Well 2(396610002)-GW 26-Apr-16 Total Strontium -2.07E-01 2.55E-01 1.44E-01 pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Total Strontium -9.17E-02 1.59E-01 9.12E-02 oCi/L GW2 Groundwater Monitoring Well 2(410011001) -GW 31-0ct-16 Total Strontium -7.81E-02 6.76E-01 3.96E-01 pCi/L GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Tritium -1.74E+01 2.79E+02 1.65E+02 pCi/L GW2 Groundwater MonitorinQ Well 2(396610002) -GW 26-Apr-16 Tritium -6.07E+01 2.49E+02 1.46E+02 pCi/L GW2 Groundwater Monitoring Well 2(402880001)-GW 26-Jul-16 Tritium 1.04E+01 2.90E+02 1.73E+02 pCi/L GW2 Groundwater MonitorinQ Well 2(410011001) -GW 31-0ct-16 Tritium -8.86E+01 2.66E+02 1.54E+02 pCi/L GW2 Groundwater Monitoring Well 2(390519002)-GW 28-Jan-16 Zinc-65 -1.10E-02 3.66E+OO 2.51E+OO pCi/L GW2 Groundwater Monitoring Well 2(396610002)-GW 26-Apr-16 Zinc-65 1.18E+OO 4.17E+OO 4.33E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001) -GW 26-Jul-16 Zinc-65 1.65E+OO 3.06E+OO 2.07E+OO oCi/L GW2 Groundwater Monitoring Well 2(410011001)-GW 31-0ct-16 Zinc-65 3.72E-01 2.86E+OO 1.86E+OO pCi/L GW2 Groundwater Monitoring Well 2(390519002) -GW 28-Jan-16 Zirconium-95 -3.87E-01 3.14E+OO 1.91E+OO pCi/L GW2 Groundwater Monitoring Well 2(396610002)-GW 26-Apr-16 Zirconium-95 -1.86E+OO 3.72E+OO 2.53E+OO pCi/L GW2 Groundwater Monitoring Well 2(402880001) -GW 26-Jul-16 Zirconium-95 5.07E-02 2.90E+OO 1.69E+OO pCi/L GW2 Groundwater Monitoring Well 2(410011001) -GW 31-0ct-16 Zirconium-95 -7.79E-01 2.32E+OO 1.52E+OO pCi/L INTK -Intake Cove Seawater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units INTK(397479004)-SW 10-May-16 BETA 8.83E+02 1.90E+02 1.98E+02 pCi/L INTK(399130003 -SW 6-Jun-16 BETA 2.29E+02 1.85E+02 1.22E+02 oCi/L INTK(401793002)-SW 11-Jul-16 BETA 2.84E+02 1.15E+02 9.22E+01 pCi/L INTK(397479004) -SW 10-May-16 Barium-140 -2.35E+OO 9.45E+OO 5.89E+OO pCi/L INTK(399130003 -SW 6-Jun-16 Barium-140 -3.17E+OO 1.17E+01 7.30E+OO . pCi/L INTK(401793002 -SW 11-Jul-16 Barium-140 4.21E-01 1.10E+01 6.71E+OO pCi/L I NTK(397 4 79004 -SW 10-May-16 Cesium-134 1.34E+OO 1.96E+OO 1.24E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Cesium-134 -1.60E+OO , 2.24E+OO 1.66E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Cesium-134 7.96E-01 1.98E+OO 1.18E+OO pCi/L INTK(397479004 -SW 10-May-16 Cesium-137 1.74E-01 1.78E+OO 1.08E+OO pCi/L Page 67 of92 2016 DCPP REMP Analysis Results Appendix A INTK(399130003)-SW 6-Jun-16 Cesium-137 2.13E-02 2.25E+OO 1.37E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Cesium-137 -3.01 E-01 1.77E+OO 1.06E+OO pCi/L INTK(397479004)-SW 10-May-16 Cobalt-58 -1.47E-01 1.60E+OO 9.42E-01 pCi/L INTK(399130003) -SW 6-Jun-16 Cobalt-58 -7.21E-02 2.20E+OO 1.30E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Cobalt-58 -3.80E-01 1.71E+OO 1.06E+OO pCi/L INTK(397479004)-SW 10-May-16 Cobalt-60 1.80E+OO 1.80E+OO 2.15E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Cobalt-60 -1.15E+OO 2.13E+OO 1.45E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Cobalt-60 -8.59E-02 1.96E+OO 1.17E+OO pCi/L I NTK(397 4 79004) -SW 10-May-16 lodine-131 -8.46E-01 3.88E+OO 2.34E+OO pCi/L INTK(399130003) -SW 6-Jun-16 lodine-131 -6.98E-02 4.74E+OO 2.76E+OO pCi/L INTK(401793002) -SW 11-Jul-16 lodine-131 -8.95E-01 4.51E+OO 2.76E+OO pCi/L INTK(397479004)-SW 10-May-16 lron-55 -7.02E+OO 1.32E+02 8.83E+01 pCi/L INTK(399130003)-SW 6-Jun-16 lron-55 -5.26E+01 1.41E+02 9.50E+01 pCi/L INTK(401793002)-SW 11-Jul-16 lron-55 -3.80E+01 6.82E+01 4.31 E+01 pCi/L INTK(397479004)-SW 10-May-16 lron-59 1.53E+OO 3.95E+OO 2.37E+OO pCi/L INTK(399130003)-SW 6-Jun-16 lron-59 1.25E+OO 4.83E+OO 2.90E+OO pCi/L INTK(401793002)-SW 11-Jul-16 lron-59 -9.27E-01 3.84E+OO 2.45E+OO pCi/L INTK(397479004)-SW 10-May-16 Lanthanum-140 9.90E-02 2.95E+OO 1.99E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Lanthanum-140 1.01 E-01 3.91E+OO 2.35E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Lanthanum-140 -3.82E-01 3.67E+OO 2.24E+OO pCi/L INTK(397479004)-SW 10-May-16 Manganese-54 7.62E-01 1.55E+OO 1.23E+OO pCi/L INTK(399130003) -SW 6-Jun-16 ManQanese-54 -1.11E+OO 2.20E+OO 1.46E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Manganese-54 -6.99E-02 1.71E+OO 1.02E+OO pCi/L I NTK(397 4 79004) -SW 10-Mav-16 Nickel-63 -2.47E+OO 3.05E+01 1.80E+01 pCi/L INTK(399130003) -SW 6-Jun-16 Nickel-63 -2.06E+01 3.37E+01 1.95E+01 pCi/L INTK(401793002)-SW 11-Jul-16 Nickel-63 -3.56E+OO 3.65E+01 2.15E+01 pCi/L INTK(397479004) -SW 10-May-16 Niobium-95 -1.10E-01 1.66E+OO 1.11E+OO pCi/L INTK(399130003) -SW / 6-Jun-16 Niobium-95 1.87E+OO 2.37E+OO 1.56E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Niobium-95 -1.53E-01 1.83E+OO 1.27E+OO pCi/L INTK(397479004)-SW 10-May-16 Potassium-40 3.39E+02 1.65E+01 4.42E+01 pCi/L INTK(399130003) -SW 6-Jun-16 Potassium-40 3.56E+02 2.13E+01 4.99E+01 pCi/L INTK(397479004) -SW 10-May-16 Total Strontium 8.29E-01 1.61E+OO 1.02E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Total Strontium -1.78E+OO 2.20E+OO 1.23E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Total Strontium -2.33E+OO 2.15E+OO 1.19E+OO pCi/L INTK(397479004)-SW 10-May-16 Tritium 8.18E+01 2.73E+02 1.67E+02 pCi/L INTK(399130003)-SW 6-Jun-16 Tritium 3.60E+01 2.44E+02 1A7E+02 pCi/L INTK(401793002) -SW 11-Jul-16 Tritium 6.22E+01 2.76E+02 1.68E+02 pCi/L INTK(397479004)-SW 10-May-16 Zinc-65 9.12E-01 3.16E+OO 3.09E+OO pCi/L INTK(399130003)-SW 6-Jun-16 Zinc-65 1.43E+OO 5.00E+OO 3.01E+OO pCi/L INTK(401793002)-SW 11-Jul-16 Zinc-65 1.46E+OO 4.17E+OO 2.52E+OO pCi/L INTK(397479004)-SW 10-May-16 Zirconium-95 3.16E-01 3.04E+OO ,1.75E+OO pCi/L INTK(399130003) -SW 6-Jun-16 Zirconium-95 1.33E+OO 3.62E+OO 2.43E+OO pCi/L INTK(401793002) -SW 11-Jul-16 Zirconium-95 5.67E-01 3.31E+OO 2.22E+OO pCi/L Page 68 of92 2016 DCPP REMP Analysis Results Appendix A MDO Montana de Oro -Beach Sand Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units MDO Montana de Oro(393297004) -SD 10-Mar-16 Barium-140 6.29E+01 2.84E+02 1.63E+02 pCi/kg MDO Montana de Oro(406060006) -SD 13-Seo-16 Barium-140 4.06E+01 2.36E+02 1.29E+02 pCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Bismuth-214 4.32E+02 6.30E+01 1.14E+02 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Cesium-134 -1.71E+01 3.49E+01 2.52E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Cesium-134 -8.55E+OO 4.81E+01 3.51E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Cesium-137 2.30E+01 5.74E+01 3.24E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Cesium-137 1.65E+01 5.15E+01 2.78E+01 oCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Cobalt-58 -9.48E+OO 2.90E+01 1.96E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Cobalt-58 1.95E+01 1.95Et01 4.44E+01 pCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Cobalt-60 -3.83E+01 5.25E+01 4.23E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Cobalt-60 -9.62E+OO 5.12E+01 3.30E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 lron-55 2.18E+03 1.23E+04 9.38E+03 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 lron-55 2.66E+03 1.49E+04 , 1.06E+04 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 lron-59 -4.83E+01 7.53E+01 6.10E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 lron-59 -1.01 E+01 9.63E+01 5.80E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Lanthanum-140 -4.23E+01 6.84E+01 5.67E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Seo-16 Lanthanum-140 -3.87E+01 5.97E+01 5.48E+01 oCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Lead-212 2.41E+02 6.02E+01 6.99E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Lead-214 4.69E+02 6.86E+01 1.27E+02 pCi/kg MDO Montana de 0ro(393297004) -SD 10-Mar-16 Manqanese-54 -1.30E+OO 4.47E+01 2.59E+01 pCi/kq MDO Montana de Oro(406060006) -SD " 13-Sep-16 Manganese-54 4.76E+OO 5.37E+01 3.13E+01 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Nickel-63 9.87E+02 2.13E+03 1.32E+03 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Nickel-63 -1.00E+03 2.58E+03 1.50E+03 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Niobium-95 3.09E+01 3.75E+01 8.51E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Niobium-95 1.84E+01 5.14E+01 2.99E+01 oCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Potassium-40 3.96E+03 2.93E+02 8.77E+02 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Total Strontium -4.04E+02 1.76E+03 9.98E+02 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Total Strontium -5.41E+02 1.29E+03 7.11E+02 pCi/kg MDO Montana de Oro(393297004) -SD 10-Mar-16 Zinc-65 1.78E+01 8.95E+01 5.56E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Zinc-65 -1.47E+01 9.74E+01 6.89E+01 pCi/kq MDO Montana de Oro(393297004) -SD 10-Mar-16 Zirconium-95 -5.30E+OO 7.40E+01 4.75E+01 pCi/kg MDO Montana de Oro(406060006) -SD 13-Sep-16 Zirconium-95 3.10E+01 9.57E+01 5.21 E+01 pCi/kg MDO Montana de Oro -Beach Sand Replicate Sample Name ' Date Collected Nuclide Result MDC 2 Sioma TPU Units MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Barium-140 1.33E+02 3.17E+02 1.73E+02 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Cesium-134 -1.88E+01 3.65E+01 2.81E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Cesium-137 3.27E+01 6.02E+01 6.64E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Cobalt-58 -2.25E+01 4.35E+01 3.10E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 ' Cobalt-60 -1.61 E+01 2.88E+01 2.54E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 lron-55 5.09E+03 1.25E+04 9.65E+03 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 lron-59 5.67E+01 1.53E+02 9.45E+01 pCi/kg MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Lanthanum-140 -2.05E+01 6.65E+01 4.94E+01 pCi/kg Page 69 of92 2()16 DCPP REMP Analysis Results Appendix A MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Lead-212 2.33E+02 6.80E+01 7.67E+01 MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Manganese-54 1.70E+01 5.58E+01 3.01E+01 MDO Montana de Oro-R(393297005 -SD 10-Mar-16 Nickel-63 -4.65E+02 2.09E+03 1.23E+03 MDO Montana de Oro-R 393297005 -SD Niobium-95 5.95E+OO 5.92E+01 3.40E+01 MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Potassium-40 4.45E+03 4.67E+02 9.52E+02 MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Total Strontium -8.37E+02 1:61E+03 8.62E+02 MOO.Montana de Oro-R(393297005 -SD 10-Mar-16 Zinc-65 -1.83E+01. 8.88E+01. 6.88E+01 MDO Montana de Oro-R(393297005) -SD 10-Mar-16 Zirconium-95 6.23E+01 1.11E+02 6.12E+01 MT1 Meteorological Tower -Air Charcoal Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units MT1 Meteorological Tower(388797017) -AC 2-Jan-16 lodine-131 8.51E-03 5.17E-03 pCi/m3 MT1 Meteorological Tower(389309012) -AC 9-Jan-16 lodine-131 5.39E-03 1.26E-02 7.27E-03 pCi/m3 MT1 Meteoroloaical Tower(389808012) -AC 16-Jan-16 lodine-131 2.36E-03 1.10E-02 6.21E-03 oCi/m3 MT1 Meteorological Tower(390230017) -AC *
- 23-Jan-16 lodine-131 2.70E-03 9.47E-03 5.30E-03 pCi/m3 MT1 Meteorological Tower(390692014) -AC 30-Jan-16 lodine-131 -1.18E-03 1.07E-02 6.73E-03 pCi/m3 MT1 Meteorological Tower(391237016) -AC 6-Feb-16 lodine-131 9.11E-04 1.09E-02 6.47E-03 pCi/m3 MT1 Meteorological Tower(391592012) -AC ' 13-Feb-16 lodine-131 -3.29E-03 8.13E-03 5.76E-03 pCi/m3 MT1 Meteorological Tower(392027017) -AC 20-Feb-16 lodine-131 3.97E-04 1.18E-02 6.88E-03 pCi/m3 MT1 Meteorological Tower(392482017) -AC 27-Feb-16 lodine-131 8.34E-05 1.19E-02 7.18E-03 pCi/m3 MT1 Meteorolo'gical Tower(392952007) -AC 5-Mar-16 lodine-131 -4.56E-03 7.86E-03 5.55E-03 pCi/m3 MT1 Meteoroloaical Tower(393384017) -AC 12-Mar-16 lodine-131 5.17E-03 8.96E-03 5.02E-03 pCi/m3 MT1 Meteorological Tower(393781012) -AC 19-Mar-16 lodine-131 -1.95E-04 1.23E-02 7.17E-03 pCi/m3 MT1 Meteoroloaical Tower(394076017) -AC 26-Mar-16 lodine-131 4.34E-03 1.02E-02 5.80E-03 oCi/m3 MT1 Meteorological Tower(394752017) -AC 2-Apr-16 lodine-131 -2.11 E-04 1.07E-02 6.51E-03 pCi/m3 MT1 Meteorological Tower(395261017)-AC 9-Apr-16 lodine-131 -3.54E-03 7.49E-03 5.54E-03 pCi/m3 MT1 Meteorological Tower(395795017) -AC 16-Aor-16 lodine-131 3.23E-03 2.51E-02 1.47E-02 pCi/m3 MT1 Meteorological Tower(396244017) -AC 23-Apr-16 lodine-131 3.19E-03 1.00E-02 6.38E-03 pCi/m3 MT1 Meteorological Tower(396779017) -AC 30-Apr-16 lodine-131 3.46E-03 1.18E-02 5.44E-03 pCi/m3 MT1 Meteorological Tower(397288017) -AC. 7-May-16 lodine-131 -4.38E-03 7.93E-03 5.62E-03 pCi/m3 MT1 Meteorological Tower(397706017) -AC
- 14-Mav-16 lodine-131 -5.66E-03 9.03E-03 6.75E-03 pCi/m3 MT1 Meteorological Tower(398215017) -AC 21-Mav-16 lodine-131 7.15E-04 1.12E-02 6.48E-03 pCi/m3 MT1 Meteorological Tower(398542017) -AC 28-May-16 lodine-131 8.98E-03 1.23E-02 9.08E-03 pCi/m3 MT1 Meteorological Tower(399016017) -AC 4-Jun-16 lodine-131 8.48E-04 1.01E-02 5.83E-03 pCi/m3 MT1 Meteorological Tower(399503017) -AC 11-Jun-16 lodine-131 -8.64E-03 1.37E-02 9.82E-03 pCi/m3 MT1 Meteorological Tower(399964017) -AC 18-Jun-16 lodine-131 2.92E-03 8.20E-03 6.72E-03 pCi/m3 MT1 Meteorological Tower(400310017)-AC 25-Jun-16 lodine-131 -1.08E-03 1.30E-02 7.84E-03 pCi/m3 MT1 Meteorological Tower(401018017) -AC 2-Jul-16 lodine-131 6.90E-04 1.31E-02 7.68E-03 pCi/m3 MT1 Meteorological Tower(401598015)-AC 9-Jul-16 lodine-131 4.28E-03 1.56E-02 1.01E-02 pCi/m3 MT1 Meteorological Tower(402089016) -AC 16-Jul-16 lodine-131 3.42E-04 9.70E-03 5.68E-03 pCi/m3 MT1 Meteorological Tower(402578017) -AC 23-Jul-16 lodine-131 "2.65E-03 1.42E-02 8.67E-03 pCi/m3 MT1 Meteorolooical Tower(403120017) -AC 30-Jul-16 lodine-131 1.65E-03 1.45E-02 8.09E-03 oCi/m3
- MT1 Meteorological Tower(403674017) -AC 6-Aug-16 lodine-131 7.99E-03 1.73E-02 1.01 E-02 pCi/m3 MT1 Meteorological Tower(404132017)-AC 13-Aug-16 lodine-131 5.85E-04 7.07E-03 4.01E-03 pCi/m3 MT1 Meteorolooical Tower(404555016) -AC 20-Aua-16 lodine-131 -1.78E-03 8.63E-03 8.09E-03 pCi/m3 Page 70 of92 2016 DCPP REMP Analysis Results Appendix A MT1 Meteorological Tower(405070016) -AC 27-Aug-16 lodine-131 -1.03E-03 7.07E-03 4.49E-03 pCi/m3 MT1 Meteorological Tower(405461017)-AC 3-Sep-:16 lodine-131 7.60E-04 7.47E-03 4.18E-03 pCi/m3 MT1 Meteorological Tower(405943017) -AC 10-Sep-16 lodine-131 5.61 E-03 1.19E-02 6.57E-03 pCi/m3 MT1 Meteorological Tower(406484017) -AC 17-Sep-16 lodine-131 -2.78E-03 5.35E-03 3.96E-03 oCi/m3 MT1 Meteorological Tower(406978017) -AC -24-Sep-16 lodine-131 -2.17E-03 7.82E-03 5.10E-03 pCi/m3 MT1 Meteorological Tower(407538017) -AC 1-0ct-16 lodine-131 4.02E-03 1.17E-02 6.72E-03 pCi/m3 MT1 Meteorological Tower(408013017) -AC 8-0ct-16 lodine-131 -5.12E-03 1.09E-02 7.71E-03 pCi/m3 MT1 Meteorological Tower(408711017) -AC 15-0ct-16 lodine-131 -2.62E-03 9.03E-03 5.88E-03 pCi/m3 MT1 Meteorological Tower(409217017) -AC 22-0ct-16 lodine-131 -8.18E-04 1.06E-02 6.90E-03 pCi/m3 MT1 Meteorological Tower(409738017) -AC 29-0ct-16 lodine-131 -2.19E-03 9.05E-03 5.86E-03 pCi/m3 MT1 Meteorological Tower(410322017) -AC 5-Nov-16 lodine-131 1.02E-03 8.48E-03 4.93E-03 pCi/m3 MT1 Meteorological Tower(410821017)-AC 12-Nov-16 lodine-131 -4.41E-04 7.79E-03 4.54E-03 pCi/m3 MT1 Meteorological Tower(411348017) -AC 19-Nov-16 lodine-131 7.38E-04 1.37E-02 8.03E-03 pCi/m3 MT1 Meteorolooical Tower(411620017) -AC 26-Nov-16 lodine-131 -3.74E-04 8.29E-03 4.92E-03 pCi/m3 MT1 Meteorological Tower(412193001)-AC 3-Dec-16 lodine-131 3.08E-03 1.31E-02 7.20E-03 pCi/m3 MT1 Meteorological Tower(412746016) -AC 10-Dec-16 lodine-131 1.79E-03 8.79E-03 4.97E-03 pCi/m3 MT1 Meteorological Tower(413294016) -AC 17-Dec-16 lodine-131 -1.49E-03 1.04E-02 .6.45E-03 pCi/m3 MT1 Meteorological Tower(413412017) -AC 24-Dec-16 lodine-131 -1.77E-03 7.33E-03 5.12E-03 pCi/m3 MT1 Meteorological Tower(413697016) -AC 31-Dec-16 lodine-131 -7.81E-04 7.87E-03 4.73E-03 pCi/m3 MT1 Meteorological Tower -Air Particulate Sample Name Date Collected Nuclide Result MDC 2 Sioma TPU Units MT1 Meteorological Tower(388797016) -AP 2-Jan-16 BETA 2.74E-02 1.49E-03 7.76E-03 pCi/m3 MT1 Meteorolooical Tower(389309005) -AP 9-Jan-16 BETA 1.36E-02 1.79E-03 8.76E-03 pCi/m3 MT1 Meteorological Tower(389808005) -AP 16-Jan-16 BETA 1.15E-02 1.72E-03 8.29E-03 pCi/m3 MT1 Meteorological Tower(390230007) -AP 23-Jan-16 BETA 2.65E-02 1.63E-03 9.26E-03 pCi/m3 MT1 Meteorological Tower(390692007) -AP 30-Jan-16 BETA 1.72E-02 1.72E-03 8.22E-03 oCi/m3 MT1 Meteorological Tower(391237006) -AP 6-Feb-16 BETA 3.14E-02 1.78E-03 8.37E-03 pCi/m3 MT1 Meteorological Tower(391592005) -AP 13-Feb-16 BETA 1.73E-02 1.59E-03 9.33E-03 pCi/m3 MT1 Meteorological Tower(392027007) -AP 20-Feb-16 BETA 2.56E-02* 1.58E-03 8.27E-03 pCi/m3 MT1 Meteorological Tower(392482007) -AP 27-Feb-16 BETA 2.81E-02 1.58E-03 9.24E-03 pCi/m3 MT1 Meteorological Tower(392952014) -AP 5-Mar-16 BETA 9.22E-03 1.69E-03 7.84E-03 oCi/m3 MT1 Meteorological Tower(393384007) -AP 12-Mar-16 BETA 1.48E-02 1.56E-03 9.27E-03 pCi/m3 MT1 Meteorological Tower(393781005) -AP 19-Mar-16 BETA 1.71E-02 1.62E-03 8.60E-03 pCi/m3 MT1 Meteorological Tower(394076007) -AP 26-Mar-16 BETA 9.52E-03 1.65E-03 8.80E-03 pCi/m3 MT1 Meteorological Tower(394752007) -AP
- 2-Apr-16 BETA 2.25E-02 1.79E-03
- 9.54E-03 pCi/m3" MT1 Meteorological Tower(395261007) -AP 9-Apr-16 BETA 2.63E-02 1.76E-03 8.26E-03 oCi/m3 MT1 Meteorological Tower(395795007) -AP 16-Apr-16 BETA 2.17E-02 1.62E-03 8.75E-03 pCi/m3 MT1 Meteorological Tower(396244007) -AP 23-Apr-16 BETA 1.15E-02 1.58E-03 9.0BE-03 pCi/m3 MT1 Meteorological Tower(396779007) -AP* 30-Apr-16 BETA 1.01 E-02 1.81E-03 1.0BE-02 pCi/m3 MT1 Meteorological Tower(397288007) -AP 7-May-16 BETA 1.54E-02 1.69E-03 8.57E-03 pCi/m3 MT1 Tower(397706007) -AP 14-May-16 BETA 9.03E-03 1.53E-03 9.35E-03 oCi/m3 MT1 Meteorological Tower(398215007) -AP 21-May-16 BETA 6.34E-03 1.62E-03 9.34E-03 pCi/m3 MT1 Meteorological Tower(398542007) -AP 28-May-16 BETA 1.35E-02 1.65E-03 1.04E-02 pCi/m3 MT1 Meteorological Tower(399016007) -AP 4-Jun-16 BETA 5.24E-03 1.55E-03 9.70E-03 oCi/m3 Page 71 of92 2016 DCPP REMP Analysis Results Appendix A MT1 Meteorological Tower(399503007) -AP 11-Jun-16 BETA 1.02E-02 1.73E-03 8.14E-03 pCi/m3 MT1 Meteorological Tower(399964007) -AP 18-Jun-16 BETA 8.83E-03 1.69E-03 7.32E-03 pCi/m3 MT1 Meteorological Tower(400310007) -AP 25-Jun-16 BETA 1.15E-02 1.99E-03 1.12E-02 pCi/m3 MT1 Meteorological Tower(401018007) -AP Jul-16 BETA 1.30E-02 1.55E-03 8.30E-03 pCi/m3 MT1 Meteorological Tower(401598016)-AP 9-Jul-16 BETA 3.31E-03 1.68E-03 9.71E-03 pCi/m3 MT1 Meteorological Tower(402089017) -AP 16-Jul-16 BETA 6.20E-03 1.60E-03 1.02E-02 pCi/m3 MT1 Meteorological Tower(402578007) -AP 23-Jul-16 BETA 9.20E-03 1.66E-03 8.65E-03 pCi/m3 MT1 Meteorological Tower(403120007) -AP 30-Jul-16 BETA 5.10E-03 1.62E-03 9.21 E-03 pCi/m3 MT1 Meteorological Tower(40367 4007) -AP. 6-Aug-16 BETA 1.15E-02 1.69E-03 9.75E-03 pCi/m3 MT1 Meteorological Tower(404132007) -AP 13-Aug-16 BETA 7.51 E-03 1.58E-03 8.50E-03 pCi/m3 MT1 Meteorological Tower(404555017) -AP 20-Aug-16 BETA 1.50E-02 1.67E-03 1.06E-02 pCi/m3 MT1 Meteorological Tower(405070017) -AP 27-Aug-16 BETA 1.85E-02 1.62E-03 9.19E-03 pCi/m3 MT1 Meteorological Tower(405461007) -AP 3-Sep-16 BETA 1.48E-02 1.63E-03 9.13E-03 *pCi/m3 MT1 Meteoroloaical Tower(405943007) -AP 10-Sep-16 BETA 2.67E-02 1.79E-03 9.45E-03 pCi/m3 MT1 Meteorological Tower(406484007) -AP 17-Sep-16 BETA 2.35E-02 1.81 E-03 8.83E-03 pCi/m3 MT1 Meteorological Tower(406978007) -AP 24-Sep-16 BETA 2.51E-02 1.59E-03 8.89E-03 pCi/m3 MT1 Meteorological Tower(407538007) -AP 1-0ct-16 BETA 1.70E-02 1.60E-03 8.79E-03 pCi/m3 MT1 Meteorological Tower(408013007) -AP 8-0ct-16 BETA 3.15E-02 1.55E-03 9.96E-03 pCi/m3 MT1 Meteorological Tower(408711007) -AP 15-0ct-16 BETA 1.57E-02 1.69E-03 9.70E-03 pCi/m3 MT1 Meteorological Tower(409217007) -AP 22-0ct-16 BETA 2.33E-02 1.69E-03 1.02E-02 pCi/m3 MT1 Meteorological Tower(409738007) -AP 29-0ct-16 BETA 9.79E-03 1.72E-03 9.75E-03 pCi/m3 MT1 Meteorological Tower(410322007) -AP 5-Nov-16 BETA 1.62E-02 1.79E-03 3.00E-03 pCi/m3 MT1 Meteorological Tower(410821007)-AP-12-Nov-16 BETA . 3.30E-02 1.74E-03 9.34E-03 pCi/m3 MT1 Meteorological Tower(411348007) -AP 19-Nov-16 BETA 1.20E-02 2.09E-03 1.13E-02 pCi/m3 MT1 Meteorological Tower(411620007) -AP 26-Nov-16 BETA 1.04E-02 1.53E-03 9.22E-03 pCi/m3 MT1 Meteorological Tower(412193002) -AP 3-Dec-16 BETA 1.93E-02 1.61E-03 8.78E-03 pCi/m3 MT1 Meteorological Tower(412746017) -AP 10-Dec-16 BETA 1.58E-02 1.59E-03 2.86E-03 pCi/m3 MT1 Meteorological Tower(413294017)-AP 17-Dec-16 BETA 3.06E-02 1.70E-03 6.67E-03 pCi/m3 MT1 Meteorological Tower(413412007)-AP 24-Dec-16 BETA 3.36E-02 1.96E-03 7.64E-03 pCi/m3 MT1 Meteorological Tower(413697017) -AP -31-Dec-16 BETA 2.12E-02 1.52E-03 7.81E-03 pCi/m3 MT1 Meteorological liower(396298007) -AP 13-Feb-16 Beryllium-7 1.20E-01 9.70E-03 2.07E-02 pCi/m3 MT1 Meteorological Tower(396298007) -AP 13-Feb-16 Cesium-134 -2.05E-04 5.35E-04 3.79E-04 pCi/m3 MT1 Meteorological Tower(401387007) -AP 14-May-16 Cesium-134 -1.66E-04 .5.93E-04 4.02E-04 pCi/m3 MT1 Meteorological Tower(408429007) -AP 13-Aug-16 Cesium-134 -7.43E-05 4.92E-04 3.26E-04 pCi/m3 MT1 Meteorological Tower(414245007) -AP 12-Nov-16 Cesium-134 2.50E-04 9.16E-04 5.15E-04 pCi/m3 MT1 Meteorological Tower(396298007) -AP 13-Feb-16 Cesium-137 -1.78E-05 4.11E-04 2.45E-04 pCi/m3 MT1 Meteorological Tower(401387007) -AP 14-Mav-16 Cesium-137 1.03E-04 6.64E-04 3.78E-04 pCi/m3 MT1 Meteorological Tower(408429007) -AP 13-Aug-16 Cesium-137 4.58E-04 3.31E-04 pCi/m3 MT1 Meteorological Tower(414245007) -AP 12-Nov-16 Cesium-137 7.69E-05 5.33E-04 3.01E-04 pCi/m3 Page 72 of92 2016 DCPP REMP Analysis Results Appendix A OEL Offsite Emergency Lab -Drinking.Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 BETA 6.06E-01 1.75E+OO 1.07E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 BETA 1.14E-01 1.60E+OO 9.67E-01 pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 BETA -5.18E-01 1.98E+OO 1.17E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 BETA 1.31E+OO 2.06E+OO 1.28E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 BETA 9.79E-01 1.61E+OO 1.01E+OO pCi/L OEL Offsite Emergency Lab(399127004)-DW 7-Jun-16 BETA 1.49E+OO 2.15E+OO 1.35E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 BETA 6.68E-01 1.21E+OO 7.68E-01 pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 BETA 6.49E-01 1.60E+OO 9.82E-01 pCi/L OEL Offsite Emergency Lab(405373001)-DW 6-Sep-16 BETA 1.20E+OO 1.80E+OO 1.12E+OO pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 BETA -2.17E-01 2.06E+OO 1.22E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 BETA 1.26E+OO 1.69E+OO 1.06E+OO pCi/L OEL Offsite Emerqency Lab(412191002) -DW 6-Dec-16 BETA 1.56E+OO 1.93E+OO 1.22E+OO pCi/L OEL Offsite Emergency Lab(389292001)-DW 12-Jan-16 Barium-140 9.24E-01 7.49E+OO 4.36E+OO pCi/L OEL Offsite Emergency Lab(390519007)-DW 1-Feb-16 Barium-140 1.76E+OO 9.90E+OO 6.68E+OO . pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Barium-140 -5.93E+OO 8.17E+OO 6.92E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Barium-140 2.80E+OO 6.29E+OO 3.85E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Barium-140 4.16E-01 1.15E+01 6.88E+OO oCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Barium-140 4.98E+OO 1.64E+01 9.75E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 Barium-140 -7.54E-01 1.19E+01 7.37E+OO pCi/L OEL Offsite Emerqency Lab(403105001)-DW 2-Aug-16 Barium-140 -2.04E+OO 9.79E+OO 7.92E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Barium-140 6.96E-01 7.67E+OO 4.50E+OO . pCi/L OEL Offsite Emerqency Lab(408517001)-DW 17-0ct-16 Barium-140 5.91E-01 9.11 E+OO 5.35E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Barium-140 6.30E+OO 9.16E+OO 5.69E+OO pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Barium-140 -2.75E+OO 8.66E+OO 5.51E+OO pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Cesium-134 -6.58E-01 1.83E+OO 1.36E+OO pCi/L OEL Offsite Emergency Lab(390519007)-DW 1-Feb-16 Cesium-134 1.69E+OO 2.48E+OO 1.56E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DIN 9-Mar-16 Cesium-134 5.60E-01 2.07E+OO 1.23E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Cesium-134 4.71E-01 1.78E+OO 1.13E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Cesium-134 1.71E-01 2.33E+OO 1.59E+OO' pCi/L OEL Offsite Emergency Lab(399127004) -DW. 7-Jun-16 Cesium-134 -6.76E-01 2.29E+OO 1.42E+OO pCi/L OEL Offsite Emergency Lab(402085001)-DW 19-Jul-16 Cesium-134 4.54E-01 1.84E+OO 1.12E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Cesium-134 -9.25E-01 1.70E+OO 1.56E+OO pCi/L OEL Offsite Emerqency Lab(405373001 DW 6-Sep-16 Cesium-134 -9.1 OE-01 1.52E+OO 1.10E+OO pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 Cesium-134 -3.30E-01 1.64E+OO 1.03E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Cesium-134 -1.10E+OO 1.53E+OO 1.83E+OO pCi/L OEL Offsite Emergericy Lab(412191002)-DW 6-Dec-16 Cesium-134 -3.84E-01 1.54E+OO 9.99E-01 pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Cesium-137 6.58E-01 1.95E+OO 1.16E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 Cesium-137 7.80E-01 2.18E+OO 1.31 E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Cesium-137 6.82E-01 2.05E+OO 1.38E+OO pCi/L OEL Offsite Emerqency Lab(395275005) -DW 12-Apr-16 Cesium-137 3.72E-01 1.59E+OO 9.65E-01 pCi/L OEL Offsite Emergency Lab(396784003) -DW
- 3-May-16 Cesium-137. -3.80E-01 2.04E+OO 1.49E+OO pCj/L OEL Offsite Emergency Lab(399127004)-DW 7-Jun-16 Cesium-137 -3.16E-01 2.18E+OO 1.35E+OO pCi/L OEL Offsite Emerqency Lab(402085001) -DW 19-Jul-16 Cesium-137 -1.96E-01 1.69E+OO 1.16E+OO . pCi/L Page 73 of 92 2016 DCPP REMP Analysis Results Appendix A OEL Offsite Emergency Lab(403105001) -DW 2-Aug-16 Cesium-137 7.91 E-01 1.78E+OO 8.68E-01 pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Cesium-137 7.46E-01 1.72E+OO 1.03E+OO pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 Cesium-137 3.88E-01 1.49E+OO 8.82E-01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Cesium-137 -3.53E-02 1.44E+OO 8.55E-01 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Cesium-137 -5.09E-01 1.37E+OO 8.99E-01 pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Cobalt-58 -6.98E-01 1.62E+OO 1.07E+OO pCi/L
- OEL Offsite Emeraency Lab(390519007) -DW 1-Feb-16 Cobalt-58 -6.27E-01 1.93E+OO 1.20E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Cobalt-58 -7.70E-02 1.81E+OO 1.10E+OO pCi/L OEL Offsite Emeraency Lab(395275005) -DW 12-Apr-16 Cobalt-58 8.27E-02
- 1.37E+OO 8.00E-01 pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Cobalt-58 5.04E-01 2.08E+OO 1.22E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Cobalt-58 2.91E-01 2.45E+OO 1.42E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 Cobalt-58 5.63E-01 1.87E+OO 1.14E+OO pCi/L OEL Offsite Emergency Lab(403105001) -DW 2-Aug-16 Cobalt-58 5.15E-01 1.64E+OO 9.82E-01 pCi/L OEL Offsite Emeraency Lab(405373001)-DW 6-Sep-16 Cobalt-58 5.21E-01 1.62E+OO 9.74E-01 pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 Cobalt-58 5.78E-01 1.38E+OO 9.03E-01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Cobalt-58 -3.50E-01 1.37E+OO 9.75E-01 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Cobalt-58 -1.11E+OO 1.38E+OO 1.00E+OO pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Cobalt-60 2.15E-01 1.94E+OO 1.13E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 Cobalt-60 -5.58E-01 2.07E+OO 1.28E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Cobalt-60 4.92E-01 1.72E+OO 1.44E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Cobalt-60 -3.27E-02 1.55E+OO 9.41 E-01 pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Cobalt-60 9.49E-01 2.25E+OO 1.33E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW Jun-16 Cobalt-60 1.48E-01 2.57E+OO 1.54E+OO pCi/L OEL Offsite Emeraency Lab(402085001) -DW 19-Jul-16 Cobalt-60 6.31E-01 1.92E+OO 1.13E+OO pCi/L OEL Offsite Emergency Lab(403105001) -DW 2-Aug-16 Cobalt-60 -1.36E-01 1.71E+OO 1.04E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Cobalt-60 7.18E-01 1.71E+OO 9.88E-01 pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 Cobalt-60 8.90E-01 1.64E+OO 9.66E-01 pCi/L OEL Offsite Emergency Lab(410366001) -DW 8-Nov-16 Cobalt-60 4.04E-01 1.50E+OO 9.50E-01 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Cobalt-60 1.28E+OO 1.64E+OO 1.05E+OO pCi/L OEL Offsite Emeraency Lab(389292001) -DW 12-Jan-16 lodine-131 -2.62E-01 5.60E-01 3.71E-01 pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 lodine-131 2.22E-01 5.76E-01 3.54E-01 pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 lodine-131 -1.63E-02 6.38E-01 3.72E-01 pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 lodine-131 -1.59E-01 5.67E-01 3.58E-01 -pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 lodine-131 1.30E-01 6.70E-01 3.93E-01 pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 lodine-131 -3.24E-01 8.98E-01 5.70E-01 pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 lodine-131 2.66E-01 7.25E-01 4.95E-01 pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aua-16 lodine-131 1.64E-01 7.00E-01 4.13E-01 pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 lodine-131 -7.22E-02 4.60E-01 2.83E-01 pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 lodine-131 1.07E-02 4.94E-01 2.83E-01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 lodine-131 1.64E-01 6.14E-01 3.52E-01 pCi/L OEL Offsite Emeraency Lab(412191002)-DW 6-Dec-16 lodine-131 8.70E-02 5.43E-01 3.09E-01 pCi/L OEL Offsite Emeraency Lab(389292001) -DW 12-Jan-16 lron-55 1.36E+01 5.85E+01 4.04E+01 pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 lron-55 -2.06E+01 4.65E+01 3.42E+01 pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 lron-55 2.55E+01 5.99E+01 4.56E+01 pCi/L OEL Offsite Emeraency Lab(395275005) -DW 12-Apr-16 lron-55 2.96E+01 1.41E+02 1.05E+02 pCi/L Page 74 of 92 2016 DCPP REMP Analysis *Results Appendix A OEL Offsite Emergency Lab(396784003) -DW 3-May-16 lron-55 1.03E+01 7.14E+01 5.17E+01 pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 lron-55 -5.42E+01 1.51E+02 1.01 E+02 pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 lron-55 6.18E+01 6.91E+01 5.37E+01 pCi/L OEL Offsite Emeroency Lab(403105001) -DW 2-Auo-16 lron-55 2.90E+01 6.83E+01 5.14E+01 oCi/L OEL Offsite Emergency Lab(405373001)-DW 6-Sep-16 lron-55 -2.89E+01 8.31E+01 5.62E+01 pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 lron-55 9.63E+OO 9.63E+01 7.29E+01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 lron-55 1.45E+01 8.15E+01 6.04E+01 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 lron-55 8.83E+OO 9.78E+01 7.37E+01 pCi/L OEL Offsite Emeroency Lab(389292001) -DW 12-Jan-16 lron-59 -1.51E+OO 3.46E+OO . 2.59E+OO oCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 lron-59 4.26E+OO 4.52E+OO 3.14E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 lron-59 1.74E+OO 4.00E+OO 2.37E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 lron-59 -1.65E-01 2.84E+OO 1.71E+OO pCi/L OEL Offsite Emergency Lab(396784003) DW 3-May-16 lron-59 -6.01E-01 4.71E+OO 2.91E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 lron-59 -2.19E-01 4.95E+OO 2.97E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 lron-59 1.03E+OO 3.83E+OO 2.22E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 lron-59 7.32E-01 3.52E+OO 2.06E+OO pCi/L OEL Offsite Emergency Lab(405373001)-DW 6-Sep-16 lron-59 3.10E+OO 3.10E+OO 4.03E+OO pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 lron-59 3.14E-03 2.79E+OO 1.95E+OO pCi/L OEL Offsite Emerqency Lab(410366001) -DW 8-Nov-16 lron-59 -9.26E-01 2.99E+OO 1.99E+OO oCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 lron-59 -2.55E-01 2.77E+OO 1.89E+OO pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Lanthanum-140 1.22E-02 2.44E+OO 1.46E+OO pCi/L OEL Offsite Emergency Lab(390519007)-DW 1-Feb-16 Lanthanum-140 -9.12E-01 3.42E+OO 2.15E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Lanthanum-140 6.73E-01 3.04E+OO 1.79E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Lanthanum-140 -1.07E-01 1.93E+OO 1.15E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Lanthanum-140 3.70E-01 4.14E+OO 2.47E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Lanthanum-140 2.99E-01 5.49E+OO 3.73E+OO pCi/L OEL Offsite Emerqency Lab(402085001) -DW 19-Jul-16 Lanthanum-140 -1.39E+OO 3.68E+OO 2.46E+OO oCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Lanthanum-140 2.90E-01 3.34E+OO 1.94E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Lanthanum-140 7.26E-01 2.82E+OO 1.64E+OO pCi/L OEL Offsite Emergency Lab(408517001)-DW 17-0ct-16 Lanthanum-140 4.22E-01 2.66E+OO 1.73E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Lanthanum-140 -3.17E-01 2.64E+OO 1.61E+OO pCi/L OEL Offsite Emerqency Lab(412191002) -DW 6-Dec-16 Lanthanum-140 -9.98E-01 2.85E+OO 1.89E+OO oCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Manganese-54 -2.02E+OO 1.53E+OO 1.42E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 Manganese-54 -3.66E-01 1.88E+OO 1.14E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW
- 9-Mar-16 Manganese-54 -1.67E+OO 1.70E+OO 1.62E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Manganese-54 4.74E-01 1.42E+OO 9.35E-01 pCi/L OEL Offsite Emerqency Lab(396784003) -DW 3-May-16 Manqanese-54 4.51E-01 2.06E+OO 1.21E+OO oCi/L OEL Offsite Emergency Lab(399127004)-DW 7-Jun-16 Manganese-54 -1.16E+OO 2.30E+OO 1.75E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 Manganese-54 -1.13E-01 1.73E+OO 1.04E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Manganese-54 -5.80E-01 1.64E+OO 1.06E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Manganese-54 7.54E-02
- 1.40E+OO 8.51E-01 pCi/L OEL Offsite Emergency Lab(408517001) -DW 17-0ct-16 Manoanese-54 -5.78E-01 1.49E+OO '9.87E-01 pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Manganese-54 -8.60E-02 1.33E+OO 8.10E-01 pCi/L OEL Offsite Emergency Lab(412191002) -DW 6-Dec-16 Manganese-54 4.80E-01 1.41E+OO 8.17E-01 pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Nickel-63 -2.03E+01 3.11E+01 1.73E+01 pCi/L Page 75 of92 2016 DCPP REMP Analysis Results Appendix A OEL Offsite Emergency Lab(390519007) -OW 1-Feb-16 Nickel-63 8.90E+OO 2.19E+01 1.36E+01 pCi/L OEL Offsite Emergency Lab(393033001) -OW 9-Mar-16 Nickel-63 2.17E+OO 2.88E+01 1.73E+01 pCi/L OEL Offsite Emergency Lab(395275005) -OW 12-Apr-16 Nickel-63 1.56E+01 3.76E+01 2.30E+01 pCi/L OEL Offsite Emergency Lab(396784003) -OW 3-May-16 Nickel-63 1.13E+01 3.26E+01 2.00E+01 pCi/L OEL Offsite Emergency Lab(399127004) -OW 7-Jun-16 Nickel-63 -2.72E+OO 3.35E+01 1.99E+01 pCi/L OEL Offsite Emergency Lab(402085001)-OW 19-Jul-16 Nickel-63 -9.30E+OO 3.22E+01 1.88E+01 pCi/L OEL Offsite Emergency Lab(403105001)-OW 2-Aug-16 Nickel-63 -1.16E+01 2.72E+01 1.58E+01 pCi/L OEL Offsite Emergency Lab(405373001)-OW 6-Sep-16 Nickel-63 -8.47E+OO 2.81E+01. 1.64E+01 pCi/L OEL Offsite Emergency Lab(408517001)-OW 17-0ct-16 Nickel-63 -2.24E+01 3.41E+01 1.94E+01 \ oCi/L OEL Offsite Emergency Lab(410366001)-OW 8-Nov-16 Nickel-63 -5.09E+OO 2.78E+01 1.64E+01 pCi/L OEL Offsite Emergency Lab(412191002)-OW 6-0ec-16 Nickel-63 4.27E+OO 2.54E+01 1.53E+01 pCi/L OEL Offsite Emergency Lab(389292001) -OW 12-Jan-16 Niobium-95 -2.65E-01 1.69E+OO 1.19E+OO pCi/L OEL Offsite Emergency Lab(390519007) -OW 1-Feb-16 Niobium-95 8.61E-01 2.17E+OO 1.32E+OO pCi/L OEL Offsite Emergency Lab(393033001) -OW 9-Mar-16 Niobium-95 -4.30E-01 2.12E+OO 1.88E+OO pCi/L OEL Offsite Emergency Lab(395275005) -OW 12-Apr-16 Niobium-95 3.31 E-02 1.40E+OO 8.18E-01 pCi/L OEL Offsite Emergency Lab(396784003) -OW 3-May-16 Niobium-95 1.80E+OO 2.33E+OO 1.52E+OO pCi/L OEL Offsite'Emergency Lab(399127004) -OW 7-Jun-16 Niobium-95 5.15E-01 2.59E+OO 1.50E+OO pCi/L OEL Offsite Emergency Lab(402085001) -OW 19-Jul-16 Niobium-95 -4.26E-01 1.92E+OO 1.47E+OO pCi/L OEL Offsite Emergency Lab(403105001) -OW 2-Aug-16 Niobium-95 7.02E-01 1.80E+OO 1.09E+OO oCi/L OEL Offsite Emergency Lab(405373001) -OW 6-Sep-16 Niobium-95 8.22E-01 1.64E+OO 9.98E-01 pCi/L OEL Offsite Emergency Lab(408517001)-OW 17-0ct-16 Niobium-95 1.41E+OO 1.41E+OO 2.31E+OO pCi/L OEL Offsite Emergency Lab(410366001) -OW 8-Nov-16 Niobium-95 1.43E+OO 1.43E+OO 1.41E+OO pCi/L OEL Offsite Emergency Lab(412191002)-OW 6-0ec-16 Niobium-95 1.24E+OO 1.58E+OO 1.56E+OO pCi/L OEL Offsite Emergency Lab(389292001) -OW 12-Jan-16 Total Strontium . 7.90E-02 1.89E-01 1.16E-01 pCi/L OEL Offsite Emergency Lab(390519007) -OW 1-Feb-16 Total Strontium -2.17E-02 1.53E-01 9.06E-02 pCi/L OEL Offsite Emergency Lab(393033001) -OW 9-Mar-16 Total Strontium -8.01E-02 2.88E-01 1.70E-01 pCi/L OEL Offsite Emergency Lab(395275005) -OW 12-Apr-16 Total Strontium 7.77E-02 2.21E-01 1.36E-01 oCi/L OEL Offsite Emergency Lab(396784003) -OW 3-May-16 Total Strontium 2.07E-02 2.39E-01 1.43E-01 pCi/1=-OEL Offsite Emergency Lab(399127004) -OW 7-Jun-16 Total Strontium -1.01 E-01 2.19E-01 1.26E-01 pCi/L OEL Offsite Emergency Lab(402085001) -OW 19-Jul-16 Total Strontium -9.07E-02 1.66E-01 9.46E-02 pCi/L OEL Offsite Emergency Lab(403105001)-OW 2-Aug-16 Total Strontium 2.41E-02 1.70E-01 1.02E-01 pCi/L OEL Offsite Emergency Lab(405373001) -OW 6-Sep-16 Total Strontium -7.65E-01 1.09E+OO 5.81E-01 oCi/L OEL Offsite Emergency Lab(408517001) -OW 17-0ct-16 Total Strontium 3.60E-01 6.22E-01 4.26E-01 pCi/L OEL Offsite Emergency Lab(410366001)-OW 8-Nov-16 Total Strontium 5.39E-01 5.57E-01 4.02E-01 pCi/L OEL Offsite Emergency Lab(412191002)-OW 6-0ec-16 Total Strontium -2.30E-01 6.46E-01 3.55E-01 pCi/L OEL Offsite Emergency Lab(389292001) -OW ' 12-Jan-16 Tritium 6.61E+01 2.65E+02 1.61E+02 pCi/L OEL Offsite Emergency Lab(390519007) -OW 1-Feb-16 Tritium -1.04E+02 2.80E+02 1.62E+02 oCi/L OEL Offsite Emergency Lab(393033001) -OW 9-Mar-16 Tritium 1.47E+01 2.41E+02 1.44E+02 pCi/L OEL Offsite Emergency Lab(395275005) -OW 12-Apr-16 Tritium -5.17E+01 2.96E+02 1.74E+02 pCi/L OEL Offsite Emergency Lab(396784003) -OW 3-May-16 Tritium 8.17E+01 2.79E+02 1.70E+02 pCi/L OEL Offsite Emergency Lab(399127004) -OW 7-Jun-16 Tritium 7.69E+01 2.43E+02 1.49E+02 pCi/L OEL Offsite Emergency Lab(402085001) -OW 19-Jul-16 Tritium -2.07E+OO -3.17E+02 1.89E+02 pCi/L OEL Offsite Emergency Lab(403105001) -OW 2-Aug-16 Tritium 1.03E+02 2.68E+02 1.66E+02 pCi/L OEL Offsite Emergency Lab(405373001) -OW
- 6-Sep-16 Tritium -8.00E+01 2.70E+02 1.57E+02 pCi/L OEL Offsite Emergency Lab(408517001)-OW 17-0ct-16 Tritium -6.85E+OO 2.69E+02 1.60E+02 pCi/L Page 76 of 92 l 2016 DCPP REMP Analysis Results Appendix A OEL Offsite Emergency Lab(410366001) -DW 8-Nov-16 Tritium 2.02E+01 3.06E+02 1.83E+02 pCi/L OEL Offsite Emergency Lab(412191002)-DW 6-Dec-16 Tritium 1.79E+02 3.09E+02 1.95E+02 pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Zinc-65 1.52E-01 3.52E+OO 2.36E+OO pCi/L OEL Offsite Emergency Lab(390519007) -DW 1-Feb-16 Zinc-65 -8.84E-01 4.06E+OO 2.53E+OO pCi/L OEL Offsite Emergency Lab(393033001)-DW 9-Mar-16 Zinc-65 1.03E+OO 3.95E+OO 2.29E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Zinc-65 -3.15E+OO 2.64E+OO 2.96E+OO pCi/L OEL Offsite Emergency Lab(396784003) -DW 3-May-16 Zinc-65 -4.02E+OO 4.37E+OO
- 4.03E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Zinc-65 -1.38E+,OO 4.71E+OO 2.99E+OO pCi/L OEL Offsite Emergency Lab(402085001)-DW 19-Jul-16 Zinc-65 6.78E-01 3.80E+OO 2.53E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Zinc-65 -8.05E-01 3.16E+OO 2.28E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Zinc-65 -7.56E-01 3.38E+OO 2.07E+OO pCi/L OEL Offsite Emergency tab(408517001)-DW 17-0ct-16 Zinc-65 -7.97E+OO 2.91E+OO 6.47E+OO pCi/L OEL Offsite Emergency Lab(410366001)-DW 8-Nov-16 Zinc-65 1.08E+OO 2.81E+OO 1*.85E+OO pCi/L OEL Offsite Emeraency Lab(412191002) -DW 6-Dec-16 Zinc-65 -1.39E-01 2.82E+OO 1.68E+OO pCi/L OEL Offsite Emergency Lab(389292001) -DW 12-Jan-16 Zirconium-95 -1.93E+OO 2.65E+OO 1.93E+OO pCi/L OEL Offsite Emergency Lab(390519007)-DW 1-Feb-16 Zirconium-95 6.58E-01 3.65E+OO 2.19E+OO pCi/L OEL Offsite Emergency Lab(393033001) -DW 9-Mar-16 Zirconium-95 -1.12E+OO 3.18E+OO 2.05E+OO pCi/L OEL Offsite Emergency Lab(395275005) -DW 12-Apr-16 Zirconium-95 -5.87E-01 2.30E+OO 1.41E+OO pCi/L OEL Offsite Emeraency Lab(396784003) -DW 3-May-16 Zirconium-95 9.11 E-01 3.76E+OO 2.20E+OO pCi/L OEL Offsite Emergency Lab(399127004) -DW 7-Jun-16 Zirconium-95 9.01E-01 4.46E+OO 2.68E+OO pCi/L OEL Offsite Emergency Lab(402085001) -DW 19-Jul-16 Zirconium-95 -8.58E-01 3.10E+OO 1.94E+OO pCi/L OEL Offsite Emergency Lab(403105001)-DW 2-Aug-16 Zirconium-95 6.05E-01 3.11E+OO 1.85E+OO pCi/L OEL Offsite Emergency Lab(405373001) -DW 6-Sep-16 Zirconium-95 1.02E-01 2.54E+OO 1.54E+OO pCi/L OEL Offsite Emeraency Lab(408517001) -DW 17-0ct-16 Zirconium-95 -8.44E-01 2.68E+OO 1.73E+OO pCi/L OEL Qffsite Emergency Lab(410366001) -DW 8-Nov-16 Zirconium-95 -9.63E-01 2.43E+OO 1.60E+OO pCi/L OEL Offsite Emergency Lab(412191002) -DW 6-Dec-16 Zirconium-95 2.86E-01 2.69E+OO 1.64E+OO pCi/L OUT Plant Outfall -Seawater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OUT Plant Outfall(390114001) -SW 21-Jan-16 BETA 3.27E+02 1.12E+02 9.69E+01 pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 BETA 3.97E+02 2.04E+02 1.47E+02 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 BETA 2.25E+02 1.75E+02 1.17E+02 pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 BETA 4.61E+02 1.40E+02 1.26E+02 pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 BETA 4.91E+02 1.25E+02 1.23E+02 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 BETA 2.94E+02 9.74E+01 8.88E+01 pCi/L OUT Plant Outfall(401793001)-SW 11-Jul-16 BETA 3.31E+02 1.84E+02 1.30E+02 pCi/L OUT Plant Outfall(404222001) -SW 15-Aua-16 BETA 1.96E+02 8.19E+01 6.69E+01 pCi/L OUT Plant Outfall(406175001)-SW 12-Sep-16 BETA 1.43E+02 8.83E+01 6.38E+01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 BETA 3.67E+02 1.58E+02 1.20E+02 pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 BETA 2.57E+02 1.05E+02 8.46E+01 pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 BETA . 4.34E+02 1.26E+02 1.15E+02 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Barium-140 6.25E+OO 8.90E+OO 6.78E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Barium-140 1.84E+OO 1.37E+01 7.95E+OO pCi/L OUT Plant Outfall(393316001)-SW 10-Mar-16 Barium-140 4.38E+OO 1.17E+01 7.02E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Barium-140 -5.16E+OO 8.84E+OO 6.21E+OO pCi/L Page 77 of92 2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(397479001) -SW 10-May-16 Barium-140 9.06E-02 9.18E+OO 5.32E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Barium-140 -1.13E+OO 1.11 E+01 6.83E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Barium-140 1.16E+01 1.37E+01 9.28E+OO pCi/L OUT f?lant Outfall(404222001 l -SW -15-Aua-16 Barium-140 4.67E+OO 1.02E+01 6.11E+OO pCi/L OUT Plant Outfa11(406175001) -SW 12-Sep-16 Barium-140 -8.70E+OO 6.99E+OO 7.52E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Barium-140 7.62E-01 1".21E+01 7.39E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 Barium-140 1.88E+OO 1.06E+01 6.05E+OO pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Barium-140 -8.18E-01 7.64E+OO 4.61E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Cesium-134 3.15E-01 1.85E+OO 1.10E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Cesium-134 2.31E-01 1.97E+OO 1.17E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Cesium-134 -1.46E-01 2.67E+OO 1.57E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Cesium-134 7.22E-02 1.98E+OO 1.17E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 Cesium-134 3.21E-01 1.81E+OO 1.22E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Cesium-134, 6.56E-01 2.00E+OO 1.41E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Cesium-134 4.50E-01 2.40E+OO 1.49E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Cesium-134 9.22E-01 1.91E+OO 1.16E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Cesium-134 7.83E-01 1.68E+OO 1.05E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Cesium-134 -4.58E-01 2.15E+OO 1.31E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Cesium-134 2.32E-01 1.92E+OO 1.51E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Cesium-134 1.41E-01 1.44E+OO 8.72E-01 pCi/L , OUT Plant Outfall(390114001) -SW 21-Jan-16 Cesium-137 1.01E+OO 1.88E+OO 1.16E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Cesium-137 -2.32E-02 1.96E+OO 1.51 E+OO oCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Cesium-137 -6.24E-01 2.34E+OO 1.48E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Cesium-137 9.53E-01 2.00E+OO 1.34E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 Cesium-137 1.66E+OO 1.66E+OO 2.00E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Cesium-137 2.48E-01 2.01E+OO 1.17E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Cesium-137 2.27E-03 2.15E+OO 1.30E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Cesium-137 1.29E+OO 1.93E+OO_ 1.22E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Cesium-137 1.08E-01 1.46E+OO 8.85E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Cesium-137 -4.83E-01 1.93E+OO 1.17E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Cesium-137 -1.67E-01 2.06E+OO 1.22E+OO pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Cesium-137 -1.89E-01 1.44E+OO 8.85E-01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Cobalt-58 4.83E-01 1.77E+OO 1.06E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Cobalt-58 -5.06E-01
- 1.92E+OO' 1.21 E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Cobalt-58 -1.28E+OO 2.20E+OO 1.49E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Cobalt-58 -4.64E-01 1.68E+OO 1.22E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 -Cobalt-58 3.79E-02 1.62E+OO 9.89E-01 pCi/L OUT Plarit Outfall(399130004) -SW 6-Jun-16 Cobalt-58 -1.11E+OO 1.74E+OO 1.21E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Cobalt-58 4.39E-01 2.30E+OO 1.42E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Cobalt-58 1.37E+OO 1.88E+OO 1.21E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Cobalt-58 -4.99E-01 1.36E+OO 8.48E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Cobalt-58 -2.90E-01 1.97E+OO 1.18E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 Cobalt-58 "-4.49E-01 1.65E+OO 1.20E+OO pCi/L OUT Plant Outfall(412549001)-SW *7-Dec-16 Cobalt-58 1.07E-01 1.39E+OO 8.42E-01 pCi/L OUT Plant Outfall(390114001)-SW 21-Jan-16 Cobalt-60 -6.50E-01 1.57E+OO 1.03E+OO pCi/L Page 78 of 92 2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(391320003) -SW 8-Feb-16 Cobalt-60 -1.29E+OO 1.63E+OO 1.23E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Cobalt-60 2.48E+OO 2.48E+OO 5.04E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Cobalt-60 -2.55E-01 1.97E+OO 1.19E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-Mav-16 Cobalt-60 2.83E-01 1.85E+OO 1.08E+OO oCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Cobalt-60 -2.70E-01 1.94E+OO 1.22E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Cobalt-60 -6.51E-02 2.15E+OO 1.29E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Cobalt-60 1.41E+OO 1.92E+OO 1.33E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Cobalt-60 -3.90E-01 1.51E+OO 1.10E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Cobalt-60 1.26E+OO 2.28E+OO 2.12E+OO oCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Cobalt-60 9.29E-01 2.10E+OO 1;22E+OO pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Cobalt-60 6.53E-01 1.51E+OO 9.05E-01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 lodine-131 -3.13E-01 3.25E+OO 1.98E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 lodine-131 -2.56E+OO 6.13E+OO 4.02E+OO pCi/L OUT Plant Outfall(393316001) -SW ( 10-Mar-16 lodine-131 -1.42E+OO 3.57E+OO 2.25E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 lodine-131 2.62E+OO 3.77E+OO 2.45E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 lodine-131 1.45E+OO 3.86E+OO 2.35E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 lodine-131 -4.69E-01 4.40E+OO 2.64E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 lodine-131 2.59E+OO 5.74E+OO 3.50E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 lodine-131 4.27E-01 3.96E+OO 2.36E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 lodine-131 1.59E-01 2.67E+OO 1.63E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 lodine-131 1.28E+OO 4.23E+OO 2.54E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 lodine-131 -2.08E+OO 3.98E+OO 2.89E+OO oCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 lodine-131 -1.71E+OO 2.78E+OO 2.06E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 lron-55 1.61E+OO 4.78E+01 3.17E+01 pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 lron-55 1.04E+01 5.23E+01 3.90E+01 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 lron-55 --1.64E+01 6.60E+01 4.69E+01 pCi/L OUT Plant Outfall(395898003) -SW -18-Apr-16 lron-55 4.31 E+01 1.04E+02 7.83E+01 pCi/L OUT Plant Outfall(397479001) -SW 10-May-16 lron-55 7.24E-01 9.36E+01 . 6.56E+01 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 lron-55 -7.04E+OO 1.34E+02 9.30E+01 pCi/L OUT Plant Outfall(401793001)-SW 11-Jul-16 lron-55 -1.30E+01 7.49E+01 4.89E+01 pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 lron-55 -3.41E+01 9.26E+01 6.24E+01 pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 lron-55 5.68E+01 1.07E+02 8.08E+01 -oCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 lron-55 3.28E+01 9.09E+01 7.00E+01 pCi/L I \ ! OUT Plant Outfall(411426001) -SW 21-Nov-16 lron-55 8.00E+OO 1.08E+02 8.08E+01 pCi/L OUT Plant Outfall(412549001) -SW Dec-16 lron-55 -5.81E+OO 9.48E+01 7.12E+01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 lron-59 1.27E+OO 3.96E+OO 2.34E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 lron-59 1.13E+OO 4.76E+OO 3.39E+OO oCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 lron-59 4.27E-01 5.51E+OO 3.26E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 lron-59 -8.80E-02 3.92E+OO 2.39E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-Mav-16 lron-59 4.72E-01 3.55E+OO 2.14E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 lron-59 2.91E-01 4.02E+OO 2.66E+OO pCi/L. OUT Plant Outfall(401793001) -SW 11-Jul-16 lron-59 1.82E+OO 4.83E+OO 2.87E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 lron-59 -2.01E+OO 3.54E+OO 2.47E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 lron-59 1.25E+OO 3.19E+OO 1.90E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 lron-59 -9.10E-01 4.12E+OO 2.95E+OO oCi/L Page 79 of92 ':".
2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(411426001) -SW 21-Nov-16 lron-59 -1.74E+OO 3.94E+OO 2.69E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 lron-59 1.02E+OO 3.11E+OO 1.80E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Lanthanum-140 -1.48E-01 2.81E+OO 1.71 E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Lanthanum-140 -8.04E-01 4.26E+OO 3.11 E+OO oCi/L OUT Plant Outfall(393316001) -SW . 10-Mar-16 Lanthanum-140 1.22E+OO 3.74E+OO 2.31E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Lanthanum-140 7.04E-01 3.21E+OO 2.16E+OO pCi/L OUT Plant Outfall(397479001)-SW 10-May-16 Lanthanum-140 -2.95E-01 3.10E+OO 1.89E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Lanthanum-140 2.29E-01 3.54E+OO 2.09E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Lanthanum-140 -2.49E+OO 3.91E+OO 2.82E+OO oCi/L OUT Plant Outfall(404222001) -SW ' 15-Aug-16 Lanthanum-140 -2.54E-01 2.90E+OO 2.06E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Lanthanum-140 -2.70E-01 2.57E+OO 1.59E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Lanthanum-140 4.66E-01 3.96E+OO 2.37E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 Lanthanum-140 5.68E-01 3.49E+OO 2.03E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Lanthanum-140 5.89E-01 2.54E+OO 1.48E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Manganese-54 5.77E-01 1.74E+OO 1.05E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Manganese-54 -2.86E-01 1.82E+OO 1.12E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Manganese-54 -9.75E-01 2.11E+OO 1.38E+OO pCi/L OUT Plant Outfa11(395898003) -SW 18-Apr-16 Manganese-54 -1.66E-02 1.76E+OO 1.05E+OO pCi/L OUT Plant Outfall(397479001) -SW 10-Mav-16 Manqanese-54 5.57E-01 1.59E+OO 9.49E-01 oCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Manganese-54 5.80E-01 1.79E+OO 1.06E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Manganese-54 9.57E-01 2.24E+OO 1.33E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Auq-16 Manqanese-54 -1.79E-02 1.70E+OO 1.01 E+OO pCi/L OUT Plant Outfall(406175001)-SW 12-Sep-16 Manganese-54 -1.06E-01 1.42E+OO 8.30E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Manganese-54 -7.55E-01 2.02E+OO 1.29E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Manganese-54 1.08E+OO 2.01E+OO 1.22E+OO pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Manganese-54 -4.44E-02 1.31E+OO 8.04E-01 pCi/L 0 UT PI ant Outfall(390114001 ) -SW 21-Jan-16 Nickel-63 -1.06E+01 1.87E+01 1.07E+01 oCi/L OUT Plant Outfall(391320003) -SW . 8-Feb-16 Nickel-63 1.13E+OO 2.82E+01 1.69E+01 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Nickel-63 7.09E+OO 2.71E+01 1.66E+01 pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Nickel-63 -4.78E+OO 3.15E+01 1.86E+01 pCi/L OUT Plant Outfall(397479001)-SW 10-May-16 Nickel-63 4.76E+OO 2.10E+01 1.28E+01 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Nickel-63 2.64E-02 0 3.10E+01 1.84E+01 pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Nickel-63 -1.19E+01 3.73E+01 2.15E+01 pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Nickel-63 8.57E+OO 3.19E+01 1.94E+01 pCi/L OUT Plant Outfall(406175001)-SW 12-Sep-16 Nickel-63 -2.92E+OO 3.38E+01 2.00E+01 pCi/L OUT Plant Outfa11(408409003) -SW 11-0ct-16 Nickel-63 -2.06E+01 4.39E+01 2.53E+01 pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Nickel-63 -8.51E+OO 2.40E+01 1.40E+01 pCi/L OUT Plant Outfa11(412549001)-SW 7-Dec-16 Nickel-63 6.26E+OO 2.13E+01 1.30E+01* pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Niobium-95 5.79E-01 1.82E+OO 1.09E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Niobium-95 4.29E-01 2.12E+OO 1.44E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Niobium-95 7.69E-01 2.51E+OO 1.46E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Aor-16 Niobium-95 1.31E+OO 2.00E+OO 1.26E+OO pCi/L OUT Plant Outfa11(397479001) -SW 10-May-16 Niobium-95 3.87E-01 1.69E+OO 9.97E-01 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Niobium-95 -3.40E-02 2.03E+OO 1.38E+OO pCi/L OUT Plant Outfall(401793001)-SW 11-Jul-16 Niobium-95 1.30E+OO 2.13E+OO 1.59E+OO pCi/L Page 80 of92 2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(404222001) -SW 15-Aug-16 Niobium-95 5.12E-01 1.85E+OO 1.09E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Niobium-95 7.09E-01 1.52E+OO 9.50E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Niobium-95 7.89E-01 2.35E+OO 1.37E+OO pCi/L OUT Plant Outfall(411426001)-SW 21-Nov-16 Niobium-95 -3.14E-01 1.93E+OO 1.18E+OO oCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Niobium-95 6.66E-01 1.41E+OO 8.63E-01 pCi/L OUT Plant Outfa11(390114001) -SW 21-Jan-16 Potassium-40 3.57E+02 1.58E+01 4.85E+01 pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Potassium-40 3.39E+02 1.77E+01 4.90E+01 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Potassium-40 3.79E+02 1.99E+01 5.04E+01 pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Potassium-40 3.56E+02 1.73E+01 4.98E+01 oCi/L OUT Plant Outfall(397479001)-SW 10-May-16 Potassium-40 3.54E+02 1.51E+01 4.53E+01 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Potassium-40 3.32E+02 1.64E+01 4.02E+01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Total Strontium 1.05E+OO 3.46E+OO 2.11E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Total Strontium -1.29E+OO 3.28E+OO 1.90E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Total Strontium -1.20E+OO 2.95E+OO 1.72E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Total Strontium -4.48E+OO 3.60E+OO 1.99E+OO pCi/L OUT Plant Outfall(397479001) -SW . 10-May-16 Total Strontium -2.29E-01 2.11E+OO 1.24E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Total Strontium -1.94E+OO 2.15E+OO 1.19E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Total Strontium -5.28E-01 1.92E+OO 1.12E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Auq-16 Total Strontium 1.12E+OO 2.47E+OO 1.53E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Total Strontium -1.60E-01 1.60E+OO 9.47E-01 pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 Total Strontium -2.57E+OO 2.07E+OO 1.13E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Total Strontium -9.11 E-01 1.38E+OO 7.78E-01 pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Total Strontium -2.67E-01 1.67E+OO 9.84E-01 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Tritium -1.73E+02 2.78E+02 1.58E+02 pCi/L OUT Plant Outfall(391320003) -SW _ 8-Feb-16 Tritium 2.39E+01 2.34E+02 1.41E+02 pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Tritium 1.36E+02 2.70E+02 1.69E+02 pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Tritium -1.12E+02 3.11 E+02 1.81E+02 oCi/L OUT Plant Outfall(397479001) -SW 10-Mav-16 Tritium 2.05E+01 2.71E+02 1.62E+02 pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Tritium 6.73E+01 2.42E+02 1.48E+02 pCi/L OUT Plant Outfall(401793001)-11-Jul-16 Tritium -1.46E+01 2.72E+02 1.61E+02 pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Tritium 1.18E+01 2.62E+02 1.56E+02 pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Tritium -1.20E+02 2.66E+02 1.53E+02 oCi/L OUT Plant Outfa11(408409003) -SW 11-0ct:..16 Tritium -5.22E+01 2.98E+02 1.75E+02 pCi/L OUT Plant Outfall(411426001) -SW -21-Nov-16 Tritium 1.71E+02 2.80E+02 1.78E+02 pCi/L OUT Plant Outfall(412549001) -SW 7-Dec-16 Tritium -1.24E+01 2.87E+02 1.70E+02 pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Ziric-65 -1.77E+OO 3.40E+OO 2.62E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Zinc-65 1.38E-01 4.13E+OO 2.78E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 Zinc-65 1.74E+OO 5.38E+OO 3.19E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Zinc-65 3.30E-01 3.99E+OO 2.41E+OO pCi/L OUT Plant Outfall(397479001)-SW 10-Mav-16 Zinc-65 -6.98E-01 3.46E+OO 2.09E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 . Zinc-65 3.00E+OO 4.10E+OO 2.89E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Zinc-65 -1.98E-01 4.24E+OO 2.52E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Zinc-65 -2.49E+OO 3.66E+OO 2.54E+OO pCi/L OUT Plant Outfall(406175001) -SW 12-Sep-16 Zinc-65 4.82E-01 3.22E+OO 2.13E+OO pCi/L -OUT Plant Outfall(408409003) -SW 11-0ct-16 Zinc-65 -2.59E+OO 4.51E+OO 3.15E+OO pCi/L Page 81 of 92 2016 DCPP REMP Analysis Results Appendix A OUT Plant Outfall(411426001) -SW 21-Nov-16 Zinc-65 -3.31E-02 4.17E+OO 2.55E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Zinc-65 9.73E-02 2.71E+oo 2.44E+OO pCi/L OUT Plant Outfall(390114001) -SW 21-Jan-16 Zirconium-95 -4.18E-02 3.08E+OO 1:84E+OO pCi/L OUT Plant Outfall(391320003) -SW 8-Feb-16 Zirconium-95 -9.09E-01 3.56E+OO 2.57E+OO pCi/L OUT Plant Outfall(393316001) -SW 10-Mar-16 -3.29E+OO 3.95E+OO 3.04E+OO pCi/L OUT Plant Outfall(395898003) -SW 18-Apr-16 Zirconium-95 -9.44E-01 3.10E+OO 2.59E+OO pCi/L OUT Plant Outfall(397 479001) -SW 10-May-16 Zirconium-95 2.99E+OO 1.77E+OO pCi/L OUT Plant Outfall(399130004) -SW 6-Jun-16 Zirconium-95 3.79E-01 3.30E+OO 1.92E+OO pCi/L OUT Plant Outfall(401793001) -SW 11-Jul-16 Zirconium-95 2.34E-01 3.93E+OO 2.37E+OO pCi/L OUT Plant Outfall(404222001) -SW 15-Aug-16 Zirconium-95 4.02E-01 3.02E+OO 1.78E+OO _ pCi/L OUT Plant Outfa11(406175001) -SW 12-Sep-16 Zirconium-95 9.88E-01 2.65E+OO 1.63E+OO pCi/L OUT Plant Outfall(408409003) -SW 11-0ct-16 . Zirconium-95 -2.53E-01 _ 3.62E+OO 2.13E+OO pCi/L OUT Plant Outfall(411426001) -SW 21-Nov-16 Zirconium-95 1.99E-01 3.66E+OO 2.16E+OO pCi/L OUT Plant Outfall(412549001)-SW 7-Dec-16 Zirconium-95 9.22E-01 2.57E+OO 1.55E+OO oCi/L OW1 Observation Well 01 -Monitoring Well Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units OW1 Observation Well 01 (390373001) -GW 26-Jan-16 BETA 2.37E+01 3.85E+OO 5.37E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 BETA 1.02E+01 5.35E+OO 3.99E+OO pCi/L OW1 Observation Well 01 (402877001) -GW 26-Jul-16 BETA 1.46E+01 5.09E+OO 4.29E+OO pCi/L OW1 *Observation Well 01(410011003) -GW 31-0ct-16 BETA 1.13E+01 3.96E+OO 3.53E+OO pCi/L OW1 Observation Well 01(390373001) -GW 26-Jan-16 Barium-140 5.51E+OO 1.27E+01. 7.59E+OO oCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Barium-140 -3.15E-01 1.04E+01 6.09E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Barium-140 1.48E+OO 1.06E+01 6.44E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16
- Barium-140 -1.49E-01
- 8.08E+OO 4.73E+OO pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Cesium-134 2.67E-01 2.23E+OO 1.34E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Cesium-134 1.36E+OO 2.06E+OO 1.32E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Cesium-134 2.88E-01 1.79E+OO 1.08E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Cesium-134 -1.57E-01 1.59E+OO 1.32E+OO pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Cesium-137 8.65E-02 2.23E+OO 1.54E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Cesium-137 3.45E-01 1.95E+OO 1.14E+OO pCi/L OW1 Observation Well 01(402877001) -GW 26-Jul-16 Cesium-137 -8.84E-01 1.75E+OO 1.15E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Cesium-137 -3.30E-02 1.49E+OO 8.81E-01 pCi/L OW1 Observation Well 01(390373001) -GW 26-Jan-16 Cobalt-58 -1.29E+OO 2.12E+OO 1.45E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Cobalt-58 -6.86E-01 1.80E+OO 1.17E+OO pCi/L OW1 Observation Well 01(402877001) -GW 26-Jul-16 Cobalt-58 1.03E-01 1.71E+OO 1.56E+OO pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Cobalt-58 1.88E-01 1.44E+OO 8.53E-01 pCi/L OW1 Observation Well 01(390373001) -GW 26-Jan-16 Cobalt-60 -6.13E-01 2.21E+OO 1.62E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Cobalt-60 -8.10E-01 1.66E+OO 1.12E+OO pCi/L OW1 Observation Well 01 (402877001) -GW 26-Jul-16 Cobalt-60 4.41E-01 1.91E+OO 1.11E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Cobalt-60 -1.37E-01 1.32E+OO 1.25E+OO pCi/L OW1 Observation Well 01 (390373001) -GW 26-Jan-16 lodine-131 4.83E-01 5.35E+OO 3.67E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr"16 lodine-131 -1.86E+OO 4.11E+OO 2.72E+OO pCi/L OW1 Observation Well 01 (402877001) -GW 26-Jul-16 lodine-131 1.14E+OO 4.21E+OO 2.51E+OO pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 lodine-131 8.86E-01 3.22E+OO 1.85E+OO pCi/L Page 82 of 92
2016 DCPP REMP Analysis Results Appendix A OW1 Observation Well 01 (390373001) -GW 26-Jan-16 lron-55 -2.13E+OO 5.26E+01 3.94E+01 pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 lron-55 2.78E+01 6.89E+01 5.14E+01 pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 lron-55 9.89E+OO 7.52E+01 5.47E+01 pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 lron-55 -3.91E+01 8.31 E+01 5.93E+01 oCi/L OW1 Observation Well 01 (390373001) -GW 26-Jan-16 lron-59 1.43E+OO 4.91E+OO 2.91E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 lron-59 -1.47E+OO 3.92E+OO 2.80E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 lron-59 1.65E-01 3.93E+OO 2.38E+OO pCi/L OW1 Observation Well 01 ( 410011003) -GW 31-0ct-16 lron-59 -5.64E-01 2.54E+OO 1.63E+OO pCi/L OW1 Observation Well 01(390373001) -GW 26-Jan-16 Lanthanum-140 1.72E-02 4.98E+OO 2.97E+OO oCi/L. OW1 Observation Well 01(396610003)-GW 26-Apr-16 Lanthanum-140 -1.72E+OO 3.22E+OO 2.23E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Lanthanum-140 2.22E-01 3.79E+OO 2.25E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Lanthanum-140 3.88E-01 2.49E+OO 2.81E+OO pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Manganese-54 -7.51 E-01 2.04E+OO 1.29E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Manaanese-54 -2.76E-01 1.79E+OO 1.10E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Manganese-54 -3.27E-01 1.70E+OO 1.04E+OO pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Manganese-54 8.81E-01 1.21.E+OO 9.49E-01 pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Nickel-63 -4.50E+OO 2.43E+01 1.43E+01 pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Nickel-63 6.75E+OO 3.45E+01 2.09E+01 pCi/L OW1 Observation Well 01(402877001) -GW 26-Jul-16 Nickel-63 6.47E+OO 2.11E+01 1.28E+01 pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Nickel-63 -1.01E+01 2.71E+01 1.58E+01 pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Niobium-95 2.83E+OO 2.83E+OO 2.39E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Aor-16 Niobium-95 -3.67E-01 1.94E+OO 1.38E+OO oCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Niobium-95 3.28E-01 1.78E+OO 1.04E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Niobium-95 7.20E-02 1.46E+OO 9.70E-01 pCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Total Strontium -4.67E-02 2.03E-01 1.18E-01 pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Total Strontium -1.94E-01 2.48E-01 1.41E-01 pCi/L OW1 Observation Well 01(402877001) -GW 26-Jul-16 Total Strontium 1.52E-01 2.47E-01 1.55E-01 pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Total Strontium -1.58E+OO 8.58E-01 4.03E-01 pCi/L OW1 Observation Well 01 (390373001) -GW 26-Jan-16 Tritium 2.33E+03 2.78E+02 5.14E+02 pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Tritium 1.30E+03 2.60E+02 3.24E+02 pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Tritium 1.37E+03 2.78E+02 3.45E+02 pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Tritium* 1.43E+03 2.71E+02 3.51E+02 oCi/L OW1 Observation Well 01(390373001)-GW 26-Jan-16 Zinc-65 2.54E+OO 4.93E+OO 3.39E+OO pCi/L OW1 Observation Well 01(396610003)-GW 26-Apr-16 Zinc-65 -8.80E-02 3.43E+OO 2.33E+OO pCi/L OW1 Observation Well 01 (402877001) -GW 26-Jul-16 Zinc-65 2.24E-01 3.49E+OO 2.44E+OO pCi/L OW1 Observation Well 01(410011003) -GW 31-0ct-16 Zinc-65 1.11E+OO 2.71E+OO 1.79E+OO pCi/L OW1 Observation Well 01 (390373001) -GW 26-Jan-16 Zirconium-95 -7.41E-01 3.50E+OO 2.21E+OO pCi/L OW1 Observation Well 01(396610003) -GW 26-Apr-16 Zirconium-95 9.15E-01 3.40E+OO 2.30E+OO pCi/L OW1 Observation Well 01(402877001)-GW 26-Jul-16 Zirconium-95 1.42E+OO 3.22E+OO 1.92E+OO pCi/L OW1 Observation Well 01(410011003)-GW 31-0ct-16 Zirconium-95 6.12E-01 2.59E+OO 1.52E+OO pCi/L Page 83of92 2016 DCPP REMP Analysis Results Appendix A PMO Pismo Beach -Beach Sand Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units PMO Pismo Beach(393297006) -SD 10-Mar-16 Actinium-228 1.05E+04 1.26E+02 1.40E+03 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Barium-140 5.79E+01 3.54E+02 2.31E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Barium-140 1.41E+01 2.05E+02 1.17E+02 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Bismuth-214 9.18E+03 7.11E+01 7.93E+02 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Cesium-134 5.83E+01 5.83E+01 2.22E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Cesium-134 6.22E+01 6.22E+01 5.56E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Cesium-137 -1.28E+01 4.02E+01 2.78E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Cesium-137 2.23E+01 4.92E+01 2.76E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Cobalt-58 -3.39E+OO 3.89E+01 2.57E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Cobalt-58 1.17E+01 4.92E+01 2.80E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Cobalt-60 1.04E+01 3.63E+01 2.13E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Cobalt-60 -1.25E+OO 4.96E+01 3.45E+01 pCi/ka PMO Pismo Beach(393297006) -SD 10-Mar-16 lron-55 1.03E+04 ,1.47E+04 1.15E+04 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 lron-55 1:31E+03 1.68E+04 1.20E+04 pCi/kg . PMO Pismo Beach(393297006) -SD 10-Mar-16 lron-59 -8.94E+01 8.09E+01 7.30E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 lron-59 -1.43E+01 1.03E+02 6.22E+01 pCi/kg PMO Pismo Beach(393297006l -SD 10-Mar-16
- Lanthanum-140 1.26E+02 1.26E+02 1.34E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Lanthanum-140 -8.93E+OO 5.49E+01 3.45E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Lead-212 1.22E+04 6.16E+01
- 1.50E+03 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Lead-214 1.16E+04 7.77E+01 1.01E+03 oCi/kq PMO Pismo Beach(393297006) -SD 10-Mar-16 Manganese-54 3.60E+01 3.60E+01 3.09E+01 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Manganese-54 1.88E+01 5.26E+01 3.02E+01 pCi/ka PMO Pismo Beach(393297006) -SD 10-Mar-16 Nickel-63 6.98E+02 2.45E+03 1.49E+03* pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Nickel-63 -1.26E+03 2.67E+03 1.54E+03 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Niobium-95 6.03E+01 6.03E+01 1.83E+02 pCi/kg PMO Pismo Beach(406060002) -SD . 13-Sep-16 Niobium-95 -2.56E+OO 4.35E+01 2.58E+01 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Potassium-40 1.19E+04 3.37E+02 1.24E+03 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Thallium-208 3.35E+03 3.71E+01 2.92E+02 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Total Strontium * -1.08E+03 1.63E+03 8.34E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Total Strontium 2.83E+02 1.07E+03 6.71E+02 pCi/kg PMO Pismo Beach(393297006) -SD 10-Mar-16 Zinc-65 8.08E+01 8.08E+01 1.40E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Zinc-65 -1.04E+02 1.02E+02 8.57E+01 pCi/kg
- PMO Pismo Beach(393297006) -SD 10-Mar-16 Zirconium-95 -8.77E+01 8.77E+01 1.15E+02 pCi/kg PMO Pismo Beach(406060002) -SD 13-Sep-16 Zirconium-95 1.59E+OO 8.18E+01 4.76E+01 pCi/kg PON Pacific Ocean North of Diablo Cove -Aquatic Vegetation Kelp Sample Name Date Collected Nuclide
- Result MDC 2 Sigma TPU Units PON Pacific Ocean North of Diablo Cove(390114009) -AV Kelp 21-Jan-16 Cesium-134, -2.08E+OO 1.41E+01 1.00E+01 pCi/kg PON Pacific Ocean North of Diablo Cove(395790004) -AV Kelp 18-Apr-16 Cesium-134 4.70E+OO 1.46E+01 9.77E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224001)-AV.KelD 15-Aug-16 Cesium-134 5.54E+OO 7.60E+OO 5.84E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(408196001)-AV Kelp 11-0ct-16 Cesium-134 4.91E-02 1.02E+01 5.93E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(390114009) -AV Kelp 21-Jan-16 Cesium-137 -3.38E+OO -1.28E+01 7.96E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(395790004)-AV Keio 18-Apr-16 Cesium-137 -4.72E+OO 1.14E+01 7.64E+OO pCi/ka Page 84 of 92_r L 2016 DCPP REMP Analysis Results Appendix A PON Pacific Ocean North of Diablo Cove(404224001)-AV Kelp 15-Aug-16 Cesium-137 2.23E+OO 6.66E+OO 3.91E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408196001) -AV Kelp 11-0ct-16 Cesium-137 -2.89E+OO
- 9.56E+OO 6.51E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(390114009) -AV Kelp 21-Jan-16 Cobalt-58 5.07E+OO 1.47E+01 8.80E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(395790004) -AV Kelp 18-Apr-16 Cobalt-58 4.93E+OO 1.40E+01 8.20E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(404224001) -AV Kelp 15-Aug-16 Cobalt-58 -1.49E+OO 7.18E+OO 4.51E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408196001) -AV Kelp 11-0ct-16
- Cobalt-58 -1.80E+OO 1.01E+01 6.11E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(390114009) -AV Kelp 21-Jan-16 Cobalt-60 -1.91E+OO 1.36E+01 8.34E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(395790004)-AV Kelp 18-Apr-16 Cobalt-60 6.05E+OO 1.69E+01 9.93E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224001) -AV Kelp 15-Auq-16 Cobalt-60 4.18E+OO 8.90E+OO 5.17E+OO pCi/kq . PON Pacific Ocean North of Diab lo Cove(408196001) -AV Kelp 11-0ct-16 Cobalt-60 -3.55E+OO 1.13E+01 7.38E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(390114009)-AV Kelp 21-Jan-16 Potassium-40 1.44E+04 1.06E+02 1.42E+03 pCi/kg PON Pacific Ocean North of Diablo Cove(395790004) -AV Kelp 18-Apr-16 Potassium-40 1.08E+04 9.54E+01 1.11 E+03 pCi/kg PON Pacific Ocean North of Diablo Cove -Fish Perch Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units PON Pacific Ocean North of Diablo Cove(392102007) -FH Perch 23-Feb-16 4.89E-01 6.21E+OO 3.71E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Cesium-134 9.29E-01 4.36E+OO 2.58E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Cesium-134 -1.60E+OO 6.57E+OO 4.18E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007)-FH Perch 10-0ct-16 Cesium-134 1.81E+OO 4.71E+OO 2.90E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(392102007)-FH Perch 23-Feb-16 Cesium-137 5.54E+OO 5.54E+OO 5.48E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Cesium-137 -3.90E+OO 4.41E+OO 5.63E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Auq-16 Cesium-137 6.22E+OO 7.51E+OO 4.85E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 Cesium-137 2.89E+OO 4.74E+OO 3.01E+OO. pCi/kg PON Pacific Ocean North of Diablo Cove(392102007)-FH Perch 23-Feb-16 Cobalt-58 -3.75E-01 6.16E+OO 3.73E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Cobalt-58 7.56E-02 4.11E+OO 2.83E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Cobalt-58 -1.27E-01 5.94E+OO 3.60E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 Cobalt-58 -1.24E+OO 4.03E+OO 2.56E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(392102007) -FH Perch 23-Feb-16 Cobalt-60 1.24E-01 6.81E+OO 4.05E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-Mav-16 Cobalt-60 -6.68E-01 4.77E+OO 2.88E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Cobalt-60 2.73E+OO 7.13E+OO 4.03E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007)-FH Perch 10-0ct-16 Cobalt-60 -1.56E+OO 4.70E+OO 3.90E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102007)-FH Perch 23-Feb-16 lron-59 -5.52E+OO 1.36E+01 9.69E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 lron-59 3.00E+OO 1.12E+01 7.47E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 lron-59 5.24E-01 . 1.66E+01 9.52E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 lron-59 -3.13E+OO 9.45E+OO 5.98E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102007) -FH Perch 23-Feb-16 Manganese-54 9.97E-01 5.86E+OO 3.50E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Manaanese-54 3.50E+OO 4.01E+OO 3.31E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Manganese-54 1.31 E+OO 5.65E+OO . 3.31E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 Manganese-54 -1.06E+OO 4.10E+OO 2.82E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102007) -FH Perch 23-Feb-16 Potassium-40 3.84E+03 5.16E+01 3.94E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Potassium-40 3.69E+03 3.38E+01 3.49E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(392102007)-FH Perch 23-Feb-16 ' Zinc-65 -7.46E+OO 1.48E+01 9.82E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(397703005) -FH Perch 13-May-16 Zinc-65 -5.07E-01 1.04E+01 6.11E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224005) -FH Perch 12-Aug-16 Zinc-65 5.77E+OO 1.67E+01 9.49E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192007) -FH Perch 10-0ct-16 Zinc-65 4.30E+OO 1.03E+01 6.12E+OO pCi/kq Page 85 of92 2016 DCPP REMP Analysis Results Appendix A PON Pacific Ocean North of Diablo Cove -Rockfish Sample Name ) Date Collected Nuclide Result MDC ' 2 Sigma TPU Units PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Cesium-134 1.84E+OO 6.68E+OO 3.89E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Cesium-134 6.22E-01 6.04E+OO 3.66E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Cesium-134 2.27E+OO 5.33E+OO 3.13E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Cesium-134 2.26E+OO 5.19E+OO 3.21E+OO pCi/kg PON Pacific Ocean* North of Diablo Cove(392102003)-FH Rockfsh 23-Feb-16 Cesium-137 3.12E+OO 5.65E+OO 3.72E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Cesium-137 5.37E+OO 5.80E+OO 4.05E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Cesium-137 2.57E+OO 5.43E+OO ' 3.20E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Cesium-137 4.59E-01 5.01E+OO 3.07E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Cobalt-58 -3.71E+OO 5.71E+OO 3.93E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Cobalt-58 -1.92E+OO 5.45E+OO 3.40E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Cobalt-58 -2.06E+OO 5.18E+OO 3.77E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Cobalt-58 -2.80E+OO 4.16E+OO 2.96E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Cobalt-60 3.33E+OO 6.11E+OO 3.83E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Cobalt-60 -2.70E+OO 5.83E+OO 4.53E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Cobalt-60 -3.01E-01 5.13E+OO 3.16E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Cobalt-60 -2.01E+OO 4.72E+OO 3.50E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(392102003)-FH Rockfsh 23-Feb-16 lron-59 6.68E+OO 1.32E+01 9.09E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-Mav-16 lron-59 1.26E+OO 1.21E+01 7.15E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Auq-16 lron-59 -2.19E+OO 1.34E+01 8.23E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(408192003) -FH Rockfsh 10-0ct-16 lron-59 -1.33E+OO 1.10E+01 6.95E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Manoanese-54 8.49E-01 5.96E+OO 3.46E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Manganese-54 -7.58E-02 5.31 E+OO 3.10E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008) -FH Rockfsh 12-Aug-16 Manganese-54 -1.05E+OO 5.10E+OO 3.10E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(408192003) -FH Rockfsh 10-0ct-16 Manganese-54 1.99E+OO 4.58E+OO 2.67E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Potassium-40 3.92E+03 4.16E+01 3.66E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Potassium-40 3.48E+03 4.14E+01 3.25E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(392102003) -FH Rockfsh 23-Feb-16 Zinc-65 -7.07E-01 1.32E+01 7.93E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(397703006) -FH Rockfsh 13-May-16 Zinc-65 -6.58E-01 1.28E+01 8.91E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(404224008)-FH Rockfsh 12-Aug-16 Zinc-65 -7.80E+OO 1.19E+01 8.45E+OO oCi/kq PON Pacific Ocean North of Diablo Cove(408192003)-FH Rockfsh 10-0ct-16 Zinc-65 1.78E-01 1.19E+01 7.11E+OO pCi/kg PON Pacific Ocean North of Diablo Cove -Intertidal Mussel Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 Cesium-134 -7.03E-01 4.17E+OO 2.90E+OO ' oCi/kQ PON Pacific Ocean North of Diablo Cove(391919006) -IM 17-Feb-16 Cesium-137, -1.61E+OO 3.81 E+OO 2.94E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 Cobalt-58 6.17E-01 3.98E+OO 2.30E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 Cobalt-60 5.23E+OO 5.23E+OO 4.89E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 lron-59 -1.63E+OO 8.62E+OO 5.40E+OO pCi/kg PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 ManQanese-54 -3.50E-01 3.67E+OO 2.19E+OO pCi/kq PON Pacific Ocean North of Diablo Cove(391919006)-IM 17-Feb-16 Potassium-40 1.08E+03 4.33E+01 1.34E+02 pCi/kg PON Pacific Ocean North of Diablo Cove(391919006) -IM 17-Feb-16 Zinc-65 -1.23E+OO 9.94E+OO 6.12E+OO pCi/kg Page 86 of92 2016 DCPP REMP Analysis Results Appendix A POS Pacific Ocean South of Diablo Cove -Aquatic Vegetation Kelp Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units POS Pacific Ocean South of Diablo Cove(390114008) -AV Kelp 21-Jan-16 Cesium-134 -1.09E+01 1.36E+01 1.03E+01 pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Cesium-134 8.64E+OO 1.60E+01 9.71E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(401652003) -AV Kelp 11-Jul-16 Cesium-134 -2.10E+OO 9.32E+OO 6.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408196002) -AV Kelp 11-0ct-16 Cesium-134 -8.80E-01 9.46E+OO 5.87E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(390114008) -AV Kelp 21-Jan-16 Cesium-137 5.96E+OO _ 1.43E+01 8.36E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Cesium-137 9.42E+OO 1.47E+01 9.04E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(401652003) -AV Kelp 11-Jul-16 Cesium-137 -5.41 E-02 8.35E+OO 4.91E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(408196002) -AV Kelp 11-0ct-16 Cesium-137 -2.25E+OO 7.94E+OO 5.08E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(390114008) -AV Kelp 21-Jan-16 Cobalt-58 2.17E+OO 1.52E+01 8.86E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Cobalt-58 -4.23E+OO 1.33E+01 8.52E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(401652003) -AV Kelp 11-Jul-16 Cobalt-58 -3.18E-01 8.86E+OO 5.30E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408196002) -AV Kelp 11-0ct-16 Cobalt-58 3.95E+OO 9.24E+OO 5.56E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(390114008) -AV Kelp 21-Jan-16 Cobalt-60 7.15E+OO 1.89E+01 1.09E+01 pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Cobalt-60 6.81E+OO 1.80E+01 1.06E+01 pCi/kg POS Pacific Ocean South of Diablo Cove(401652003) -AV Kelp 11-Jul-16 Cobalt-60 -2.63E-01 1.07E+01 7.95E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408196002) -AV Kelp 11-0ct-16 Cobalt-60 1.25E+OO 1.02E+01 5.92E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395790005) -AV Kelp 18-Apr-16 Potassium-40 1.11E+04 1.14E+02 1.06E+03 pCi/kq POS Pacific Ocean South of Diablo Cove -Fish Perch Sample Name
- Date Collected Nuclide Result MDC 2 Siama TPU Units POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Cesium-134 -2.04E+OO 5.76E+OO 3.73E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-Mav-16 Cesium-134 2.48E-01 4.75E+OO 2.82E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004)-FH Perch 12-Aug-16 Cesium-134 1.59E+OO 4.80E+OO 3.08E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192008) -FH Perch 7-0ct-16 Cesium-134 1.43E+OO 3.83E+OO 2.48E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Cesium-137 5.22E+OO 5.63E+OO 5.59E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Cesium-137 3.29E+OO 4.75E+OO 5.77E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 Cesium-137 -1.25E+OO 5.92E+OO 4.22E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192008)-FH Perch 7-0ct-16 Cesium-137 3.04E+OO 3.82E+OO 3.79E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Cobalt-58 1.01E-01 5.92E+OO 3.56E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Cobalt-58 6.23E-01 5.08E+OO 3.01E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(404224004)-FH Perch 12-Aug-16 Cobalt-58 -7.08E-01 4.79E+OO 2.84E+OO -pCi/kg POS Pacific Ocean South of Diablo Cove(408192008) -FH Perch 7-0ct-16 Cobalt-58 -1.44E-01 4.13E+OO 2.48E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16, Cobalt-60 1.01E+OO 6.15E+OO 3.61E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Cobalt-60 2.84E+OO 5.85E+OO 3.47E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 Cobalt-60 2.63E-01 4.63E+OO 2.75E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(408192008) -FH Perch 7-0ct-16 Cobalt-60 -1.85E+OO 4.38E+OO 3.63E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 lron-59 -2.16E+OO 1.40E+01 8.43E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 lron-59 1.39E+OO 1.28E+01 7.41 E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 lron-59 3.04E+OO 1.24E+01 8.15E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192008) -FH Perch 7-0ct-16 lron-59 -1.57E+OO 9.04E+OO 6.43E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Manganese-54 -4.80E-01 5.03E+OO 3.08E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Manganese-54 5.35E-01 4.86E+OO 2.89E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 Manqanese-54 -2.38E+OO 3.88E+OO 2.66E+OO oCi/ka Page 87 of92 L 2016 DCPP REMP Analysis Results Appendix A POS Pacific Ocean South of Diablo Cove(408192008)-FH Perch 7-0ct-16 Manganese-54 8.18E-01 3.84E+OO 2.27E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Potassium-40 4.35E+03 4.92E+01 4.19E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Potassium-40 3.59E+03. 4.00E+01 3.39E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(392102008) -FH Perch 22-Feb-16 Zinc-65 -1.71E+OO 1.36E+01 8.18E+OO pCi/ka POS Pacific Ocean South of Diablo Cove(397703002) -FH Perch 10-May-16 Zinc-65 2.18E-01 1.23E+01 7.17E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224004) -FH Perch 12-Aug-16 Zinc-65 1.77E-01 1.03E+01 6.95E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192008)-FH Perch 7-0ct-16 Zinc-65 8.69E-02 8.67E+OO 5:29E+OO pCi/kg POS Pacific Ocean South of Diablo Cove -Rockfish Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Cesium-134 -1.81E+OO 5.11 E+OO 3.28E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Cesium-134 -7.62E-01 4.32E+OO 2.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Cesium-134 5.95E-01 5.15E+OO 3.14E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004) -FH Rockfsh 7-0ct-16 Cesium-134 5.59E-01 4.51E+OO 2.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004)-FH Rockfsh 22-Feb-16 Cesium-137 4.13E+OO 4.70E+OO 3.93E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Cesium-137 2.79E+OO 4.15E+OO 4.44E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Cesium-137 3.24E+OO 4.04E+OO 4.07E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004) -FH Rockfsh 7-0ct-16 Cesium-137 3.11 E+OO 4.96E+OO 3.06E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Cobalt-58 -2.66E-01 4.56E+OO 2.75E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Cobalt-58 1.44E+OO 4.35E+OO 2.62E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Cobalt-58 -6.96E-01 4.90E+OO 3.11 E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004) -FH Rockfsh 7-0ct-16 Cobalt-58 9.53E-01 4.94E+OO 2.92E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Cobalt-60 -1.49E+OO 5.51 E+OO 3.74E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-Mav-16 Cobalt-60 9.60E-01 4.42E+OO 3.01E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009)-FH Rockfsh 12-Aug-16 Cobalt-60 2.86E+OO 5.29E+OO 3.15E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004)-FH Rockfsh 7-0ct-16 Cobalt-60 8.23E-01 5.18E+OO 2.97E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 lron-59 6.90E-02 1.23E+01 7.19E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Iron-59 -3.78E+OO 9.91E+OO 6.35E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16
- Iron-59 -2.64E+OO 1.31E+01 7.98E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004)-FH Rockfsh 7-0ct-16
- Iron-59 9.27E+OO 1.25E+01 8.07E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Manganese-54 -1.80E+OO 4.58E+OO 2.98E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Manganese-54 -1.01 E-01 4.36E+OO 2.64E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Manganese-54 .1.27E-01 4.59E+OO 2.64E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004)-FH Rockfsh 7-0ct-16 Manganese-54 7.51E-02 4.32E+OO 2.60E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Potassium-40 4.03E+03 3.78E+01 3.83E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh 10-May-16 Potassium-40 3.38E+03 3.77E+01 3.40E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(392102004) -FH Rockfsh 22-Feb-16 Zinc-65 -3.60E+OO 1.16E+01 7.18E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(397703001) -FH Rockfsh* 10-May-16 Zinc-65 -7.40E+OO 1.11E+01 7.94E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(404224009) -FH Rockfsh 12-Aug-16 Zinc-65 -4.90E-01 1.21E+01 7.15E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(408192004) -FH Rockfsh 7-0ct-16 Zinc-65 -5.16E+OO 9.76E+OO 6.95E+OO pCi/kg Page 88 of92 2016 DCPP REMP Analysis Results Appendix A POS Pacific Ocean South of Diablo Cove -Intertidal Mussel Sample Name Date Collected Nuclide Result* MDC 2 Sigma TPU Units POS Pacific Ocean South of Diablo Cove(391919007)-IM 17-Feb-16 Cesium-134 -8.36E-01 4.15E+OO 2.97E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Apr-16 Cesium-134 -3.91E+OO 3.84E+OO 4.03E+OO pCi/ka POS Pacific Ocean South of Diablo Cove(402571003) -IM 25-Jul-16 Cesium-134 5.89E-01 4.45E+OO 2.57E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -IM 27-0ct-16 Cesium-134 -1.57E+OO 4.83E+OO 3.61E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007)-IM 17-Feb-16 Cesium-137 3.24E+OO 3.69E+OO 5.77E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Aor-16 Cesium-137 -1.92E+OO 3.97E+OO 3.52E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -IM 25-Jul-16 Cesium-137 -3.40E-01 3.83E+OO 2.36E+OO pCi/ka POS Pacific Ocean South of Diablo Cove(409724003) -IM 27-0ct-16 Cesium-137 -9.23E-02 4.52E+OO 2.73E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007)-IM 17-Feb-16 Cobalt-58 2.81E-02 3.91E+OO 2.33E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004)-IM -14-Apr-16 Cobalt-58 -1.44E-01 3.91E+OO 2.31E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -JM 25-Jul-16 Cobalt-58 2.22E-01 4.23E+OO 2.46E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -IM 27-0ct-16 Cobalt-58 -6.71E-01 4.06E+OO 2.56E+OO pCi/kq POS Pacific Ocean South of Diablo Cove(391919007)-IM 17-Feb-16 Cobalt-60 9.66E-02 4.49E+OO 2.65E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004)-IM 14-Apr-16 Cobalt-60 2.14E+OO 4.80E+OO 2.78E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -JM 25-Jul-16 Cobalt-60 1.20E-01 4.18E+OO 3.04E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -IM 27-0ct-16 Cobalt-60 -1.01E+OO 4.32E+OO 2.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007) -IM 17-Feb-16 lron-59 -9.11 E-01 8.87E+OO 6.11E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(395681004)-IM 14-Apr-16 lron-59 -2.07E+OO 8.93E+OO 5.65E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -JM 25-Jul-16 lron-59 2.62E+OO 1.06E+01 6.23E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -JM lron-59 3.12E+OO 1.10E+01 6.58E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007) -IM 17-Feb-16 Manganese-54 -1.93E+OO 3.62E+OO 2.48E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Apr-16 Manaanese-54 9.92E-01 4.45E+OO 2.59E+OO oCi/ka POS Pacific Ocean South of Diablo Cove(402571003) -JM 25-Jul-16 Manganese-54 -1.62E+OO 3.47E+OO 2.26E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -JM 27-0ct-16 Manganese-54 -1.14E+OO 4.11E+OO 2.81E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(391919007) -IM 17-Feb-16 Potassium-40 1.23E+03 2.91E+01 1.40E+02 pCi/ka POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Apr-16 Potassium-40 1.46E+03 4.26E+01 1.65E+02 pCi/kg POS Pacific Ocean South of Diablo Cove(391919007) -JM 17-Feb-16 Zinc-65 -3.32E+OO 8.89E+OO 5.67E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(395681004) -IM 14-Apr-16 Zinc-65 -3.59E+OO 8.99E+OO 6.01E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(402571003) -IM 25-Jul-16 Zinc-65 -2.93E+OO , 8.21E+OO 5.28E+OO pCi/kg POS Pacific Ocean South of Diablo Cove(409724003) -JM 27-0ct-16 Zinc-65 5.55E-01 9.08E+OO 6.23E+OO pCi/ka ( POS Pacific Ocean South of Diablo Cove -Intertidal Mussel Replicate Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units POS Pacific Ocean South of Diablo Cove-R(395681005) -JM 14-Apr-16 Cesium-134 -1.88E+OO 5.70E+OO 4.10E+OO pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005)-IM 14-Aor-16 Cesium-137 1.01 E-01 5.30E+OO 3.82E+OO oCi/ka POS Pacific Ocean South of Diablo Cove-R(395681005)-IM 14-Apr-16 Cobalt-58 7.29E-01 7.14E+OO 4.83E+OO pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005) -JM 14-Apr-16 Cobalt-60 2.56E-02 5.47E+OO 3.30E+OO pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005) -IM 14-Apr-16 lron-59 -2.12E+OO 1.29E+01 7.93E+OO pCi/kg POS Pacific Ocean South of Diab lo Cove-R(395681005) -JM 14-Apr-16 Manganese-54 1.59E+OO 6.10E+OO 3.56E+OO pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005) -JM 14-Apr-16 Potassium-40 1.41E+03 4.29E+01 1.53E+02 pCi/kg POS Pacific Ocean South of Diablo Cove-R(395681005) -JM 14-Apr-16 Uranium-238 3.04E+02 2.16E+02 2.29E+02 pCi/kg POS Pacific Ocean South of Diab lo Cove-R(395681005) -JM 14-Apr-16 Zinc-65 3.48E+OO 1.09E+01 7.36E+OO pCi/kg Page 89 of92 L 2016 DCPP REMP Analysis Results Appendix A WN2 Diablo Creek Outlet -Drinking Water Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 BETA 5.26E+OO
- 3.09E+OO 2.18E+OO pCi/L WN2 Diab lo Creek Outlet(395790001) -DW 19-Apr-16 BETA 1.64E+OO 1.91E+OO 1.26E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 BETA -4.85E-02 2.04E+OO 1.23E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 BETA 4.87E-01 2.10E+OO 1.28E+OO pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Barium-140 7.47E-01 9.27E+OO 5.47E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Barium-140 -6.80E-01 9.62E+OO 5.92E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Barium-140 6.35E-02 *1.02E+01 5.99E+OO pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 Barium-140 -4.32E+OO 8.17E+OO 8.70E+OO pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Cesium-134 -1.21E+OO 2.33E+OO 2.65E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Cesium-134 2.98E-01 2.09E+OO 1.23E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Cesium-134 3.82E-01 1.80E+OO 1.24E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Cesium-134 3.53E-01 1.61E+OO 9.86E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Cesium-137 -6.66E-01 1.98E+OO 1.27E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Cesium-137 -1.57E-01 1.92E+OO 1.14E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Cesium-137 1.12E+OO 1.69E+OO 2.31E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Cesium-137 1.85E-01 1.45E+OO 8.76E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Cobalt-58 1.36E-01 1.99E+OO 1.16E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Cobalt-58 7.87E-01 1.98E+OO 1.18E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Cobalt-58 7.02E-01 1.73E+OO 1.07E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Cobalt-58 -3.43E-01 1.40E+OO 8.44E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Cobalt-60 6.41E-01 2.16E+OO 1.24E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Cobalt-60 7.76E-01 1:94E+OO 1.13E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Cobalt-60 2.54E-01 1.78E+OO 1.05E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Cobalt-60 -7.72E-02 1.44E+OO . 8.68E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 lodine-131 -3.66E-02 4.41 E-01 2.70E-01 pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 lodine-131 7.89E-03 6.17E-01 3.69E-01 pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 lodine-131 1.95E-01 6.51E-01 3.85E-01 pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 lodine-131 2.29E-01 5.72E-01 3.34E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 lron-55 3.08E-01 4.64E+01 3.09E+01 pCi/L_ WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 lron-55 -5.35E+OO 1.17E+02 8.55E+01 oCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 lron-55
- 8.68E+OO 6.65E+01 4.89E+01 pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 lron-55 3.20E+01 8.02E+01 6.07E+01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 lron-59 6.82E-01 4.11E+OO 2.43E+OO pCi/L WN2 Diablo Creek Outlet(395790001)-DW 19-Apr-16 lron-59 1.41E+OO 4.36E+OO 2.88E+OO pCi/L WN2 Diablo Creek Outlet(403105002)-DW 2-Aug-16 lron-59 -3.95E-02 3.54E+OO 2.44E+OO pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 lron-59 -1.47E+OO 2.56E+OO 2.01E+OO pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Lanthanum-140 1.91E+OO 3.83E+OO 2.29E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Lanthanum-140 4.59E-01 3.60E+OO 2.13E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Lanthanum-140 -7.81E-01 3.01E+OO 1.87E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Lanthanum-140 -1.41 E+OO 2.39E+OO 1.73E+OO pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Manganese-54 6.55E-01 2.06E+OO 1.20E+OO pCi/L WN2 Diab lo Creek Outlet(395790001) -DW 19-Apr-16 Manganese-54 -6.61E-01 1.67E+OO 1.09E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Manaanese-54 4.19E-01 1.65E+OO 1.73E+OO pCi/L Page 90 of 92 2016 DCPP REMP Analysis Results Appendix A WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Manganese-54 5.16E-01 1.27E+OO 1.22E+OO pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Nickel-63 -6.28E+OO 2.84E+01 1.67E+01 pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Nickel-63 ' 1.94E-01 3.52E+01 2.10E+01 pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Nickel-63 8.03E+OO 2.77E+01 1.68E+01 pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Nickel-63 -1.70E+01 2.81 E+01 1.62E+01 pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Niobium-95 5.60E-01 2.09E+OO 1.26E+OO
- pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Niobium-95 1.08E+OO 2.00E+OO 1.22E+OO pCi/L WN2 Diablo Creek Outlet(403105002)-DW 2-Aug-16 Niobium-95 -5.91E-01 1.81E+OO 1.46E+OO pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 Niobium-95 -3.26E-01 1.43E+OO 9.20E-01 pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Total Strontium -3.99E-02 1.98E-01 1.16E-01 pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Total Strontium -4.89E-02 2.98E-01 I 1.76E-01 pCi/L WN2 Diablo Creek Outlet(403105002)-DW 2-Aug-16 Total Strontium -6.05E-02 1.89E-01 1.10E-01 pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Total Strontium 2.22E-01 6.47E-01 4.07E-01 pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Tritium 8.04E+OO 2.56E+02 1.53E+02 pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Tritium -2.17E+02 3.10E+02 1.76E+02 pCi/L WN2 Diablo Creek Outlet(403105002)-DW 2-Aug-16 Tritium 1.49E+02, 2.68E+02 1.69E+02 pCi/L WN2 Diablo Creek Outlet(410366003)-DW 8-Nov-16 Tritium -4.27E+01 3.07E+02 1.81 E+02 pCi/L WN2 Diablo Creek Outlet(389804004)-DW 19-Jan-16 Zinc-65 -1.23E-03 3.91E+OO 2.73E+OO pCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Zinc-65 4.70E-01 4.36E+OO 2.52E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Aug-16 Zinc-65 -1.92E+OO 3.10E+OO 2.16E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Zinc-65 4.13E-01 2.61E+OO 1.71E+OO pCi/L WN2 Diablo Creek Outlet(389804004) -DW 19-Jan-16 Zirconium-95 4.88E-01 3.50E+OO 2.11E+OO oCi/L WN2 Diablo Creek Outlet(395790001) -DW 19-Apr-16 Zirconium-95 -9.21E-01 3.28E+OO 2.05E+OO pCi/L WN2 Diablo Creek Outlet(403105002) -DW 2-Auci-16 Zirconium-95 1.80E+OO 3.14E+OO 1.95E+OO pCi/L WN2 Diablo Creek Outlet(410366003) -DW 8-Nov-16 Zirconium-95 -6.03E-01 2.50E+OO 1.61 E+OO pCi/L WW2 Water Well 02 -Groundwater Sample Name Date Collected Nuclide Result MDC 2 Sigma TPU Units WW2 Water Well 02(389804002) -DW 19-Jan-16 BETA 5.68E+OO 4.24E+OO 2.86E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 BETA 4.93E+OO 4.80E+OO 3.11E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 BETA 1.19E+OO 2.10E+OO 1.37E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16
- Barium-140 -3A3E+OO 1.03E+01 6.32E+OO oCi/L WW2 Water Well 02(395275004)-DW 12-Apr-16 Barium-140 8.79E-01 1.12E+01 7.79E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Barium-140 -4.74E-01 9.73E+OO 5.84E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Cesium-134 3.23E-01 2.46E+OO 1.44E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Cesium-134 8.89E-01 2.72E+OO 1.62E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Auci-16 Cesium-134 3.26E-01 1.97E+OO 1.18E+OO oCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Cesium-137 -1.30E+OO 2.25E+OO 1.51E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Cesium-137 -2.65E-01 2.62E+OO 1.80E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Cesium-137 5.24E-01 1.91E+OO 1.26E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Cobalt-58 9.29E-01 2.18E+OO 1.47E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Cobalt-58 -4.26E-01 2.46E+OO 1.76E+OO oCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Cobalt-58 7.74E-01 1.91E+OO 1.15E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Cobalt-60 8.94E-01 2.36E+OO 1.51 E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Cobalt-60 -4.49E-01 2.57E+OO 1.59E+OO oCi/L Page 91 of 92 2016 DCPP REMP Analysis Results Appendix A WW2 Water Well 02(404713001)-DW 24-Aug-16 Cobalt-60 1.60E+OO 2.18E+OO 1.34E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 lodine-131 3.25E-02 6.67E-01 3.96E-01 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 lodine-131 -7.97E-02 5.02E-01 3.10E-01 pCi/L WW2 Water Well 02(404713001) -DW 24-Aua-16 lodine-131 -1.19E-01 6.12E-01 3.64E-01 pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 lron-55 1.41E+01 4.65E+01 3.19E+01 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 lron-55 7.61E+01 1.29E+02 9.94E+01 pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 lron-55 3.03E+OO 7.07E+01 5.04E+01 pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16
- lron-59 5.16E-01 4.26E+OO 2.54E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 lron-59 1.43E-01 4.60E+OO 3.14E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 lron-59 1.26E+OO 3.64E+OO 2.19E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Lanthanum-140 1.25E+OO 3.84E+OO 2.23E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Lanthanum-140 7.77E-01 3.62E+OO 2.10E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Lanthanum-140 -2.16E+OO 3.21E+OO 2.33E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Manaanese-54 -9.43E-02 2.10E+OO 1.25E+OO oCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Manganese-54 -3.69E-01 2.49E+OO 1.64E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Manganese-54 -2.10E+OO 1.71E+OO 2.12E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Nickel-63 -9.74E+OO 2.72E+01 1.58E+01 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Nickel-63 5.00E+OO 3.58E+01 2.15E+01 pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Nickel-63 9.02E-01 3.32E+01 *1.98E+01 pCi/L. WW2 Water Well 02(389804002) -DW 19-Jan-16 Niobium-95 1.10E+OO 2.44E+OO 1.65E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Niobium-95 2.21E+OO 2.86E+OO 2.08E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aua-16 Niobium-95 -1.95E-01 1.77E+OO 1.23E+OO oCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Total Strontium * -1.70E-01 2.57E-01 1.47E-01 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Total Strontium -3.06E-01 2.07E-01 1.11E-01 pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Total Strontium 1.21 E-01 1.57E-01 1.02E-01 pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Tritium 1.45E+01 2.56E+02 1.53E+02 pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Tritium -1.25E+02 2.98E+02 1.72E+02 pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Tritium 2.53E+02 2.92E+02 1.94E+02 pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Zinc-65 3.49E+OO 4.93E+OO 4.16E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Zinc-65 -2.11E+OO 4.92E+OO 3.73E+OO pCi/L WW2 Water Well 02(404713001) -DW 24-Aug-16 Zinc-65 8.35E-01 4.14E+OO 2.80E+OO pCi/L WW2 Water Well 02(389804002) -DW 19-Jan-16 Zirconium-95 -6.97E-01 3.78E+OO 2.30E+OO pCi/L WW2 Water Well 02(395275004) -DW 12-Apr-16 Zirconium-95 -8.54E-01 4.26E+OO 2.60E+OO pCi/L WW2 Water Well 02(404713001)-DW 24-Aug-16 Zirconium-95 1.23E+OO 3.48E+OO 2.09E+OO pCi/L Page 92 of 92 L _J