ML14147A028
| ML14147A028 | |
| Person / Time | |
|---|---|
| Site: | Beaver Valley |
| Issue date: | 04/16/2014 |
| From: | FirstEnergy Nuclear Operating Co |
| To: | Office of Nuclear Reactor Regulation |
| References | |
| L-14-147, RTL 09.690E | |
| Download: ML14147A028 (98) | |
Text
RTL A9.690E Enclosure 3 Beaver Valley Power Station -Units 1 & 2 2013 Annual Radiological Environmental Operating Report FirstEnergy Nuclear Operating Company FENOC Beaver Valley Power Station -Units 1 & 2 Unit 1 License No. DPR-66 Unit 2 License No. NPF-73 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
SUMMARY
and INDEX Report Preparation and Submittal Requirements:
The Beaver Valley Power Station (BVPS)Annual Radiological Environmental Operating Report (AREOR) was prepared and submitted in I accordance with the requirements contained in the following documents: " BVPS Integrated Technical Specifications, Administrative Control 5.6.1" Offsite Dose Calculation Manual (ODCM) procedure 1/2-ODC-3.03, Attachment T, Control 6.9.2, "Controls for RETS and REMP Programs" I* BVPS procedure 1/2-ENV-01.05, "Compliance with Regulatory Guide 1.21 and Technical Specifications
"" I* BVPS procedure 1/2-ENV-02.01, "Radiological Environmental Monitoring Program"" NUREG-1301, "Offsite Dose Calculation Manual Guidance:
Standard Radiological Effluent Controls for Pressurized Water Reactors, Generic Letter 89-01, Supplement No.1, April 1991"" BVPS Condition Report No. 2013-06015:
REMP Air Station Found Out of Service" BVPS Condition Report No. 2013-10952:
Two REMP Air Stations Found Out of Service" BVPS Condition Report No. 2013-12495:
REMP Air Station Found Out of Service" BVPS Condition Report No. 2013-15774:
2013 3rd Quarter REMP TLDs Missing* BVPS Condition Report No. 2013-03554:
Reduction in REMP Milk Sample Locations* BVPS Condition Report No. 2014-00685:
Reduction in Milk Sample Locations
-Halstead Dairy Closing I* SAP Notification 600804455:
2013 RETS and REMP Report I I I I I I I ii I Beaver Valley Power Station RTL A9.690E Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
SUMMARY
and INDEX Report Overview: The AREOR provides a detailed summary of the BVPS Radiological Environmental Monitoring Program (REMP). During the report period, samples of air, water, shoreline sediment, milk, fish, food crops, feed crops, vegetation, and direct radiation (in the vicinity of the BVPS site)have been measured, analyzed, evaluated, and summarized.
During the report period, the BVPS radioactive effluent releases (as performed in accordance with the Radiological Effluent Technical Specification (RETS) program), did not exceed the limits identified in the BVPS Operating License, Technical Specifications and/or the ODCM. The results of the REMP verify that the effluent releases did not impact the environment with a measurable concentration of radioactive materials and/or levels of radiation that are higher than expected.Description of Pre-operational REMP (1974 -1975): A pre-operational REMP program was performed during the period 1974 through 1975. At that time, samples were collected and analyzed to determine the amount of radioactivity present in the environment prior to BVPS operation.
The resulting values are considered a "baseline" to which current sample analyses can be compared.
A summary of the pre-operational data is summarized in Table 2-3 of this report.Description of Operational REMP (1976 -Present): The operational REMP program was initiated during calendar year 1976 and continued through the report period. During the past thirty seven (37) years, radiation and radioactivity in the environment was monitored within a 10-mile radius of the site. A description of the operational REMP program is outlined in Table 2-1 of this report. In general, two (2) types of samples were collected and compared during the report period, and are described as follows: " Control Samples: These samples are collected from areas that are beyond measurable influence of BVPS operation, and are used as reference data. Normal background radiation levels, or radiation present due to causes other than BVPS operation, can thus be compared to the environment surrounding the BVPS site. During the report period, three hundred sixty seven (367) analyses were performed on samples from the control locations.
In addition, eight (8) analyses were completed for Thermo Luminescent Dosimeters (TLDs) at the control locations.
Results of the analyses from the control locations are summarized in Table 2-2 of this report.* Indicator Samples: Indicator samples are collected to determine the radiological impact of BVPS operation in the environment.
These samples are collected from various locations near the BVPS site. At a minimum, the samples are collected from areas where the BVPS contribution would indicate the most significant radiological impact. During the report period, one thousand nine hundred eighty five (1,985) analyses were performed on samples collected from eighty three (83) indicator locations.
In addition, five hundred eighteen (518) analyses were completed for TLDs at the indicator locations.
Results of the analyses from the indicator locations are also summarized in Table 2-2 of this report.iii Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
SUMMARY
and INDEX Comparisons:
Current analysis results from the indicator samples were compared to both current control sample values and the pre-operational baseline to determine if changes in I radioactivity levels were attributable to BVPS operation.
Determination of Environmental Impact" 2013 Sample Media and Analyses:
Results for drinking water, surface water, precipitation, groundwater, shoreline stream sediment, fish, cow milk, goat milk, feedstuff, foodcrops, air particulate and air radioiodine media remained consistent with previous data. Minor increases and decreases were noted in most sample media, and any positive results attributable to the BVPS operation were consistent with station data of authorized radioactive I discharges, and were within limits permitted by the operating license and the ODCM. Other radioactivity detected was attributable to naturally occurring radionuclides, previous nuclear weapons tests, other man-made sources, and to the normal statistical fluctuation for activities near the Lower Limit of Detection (LLD).* Airborne Exposure Pathway: This ODCM required pathway was evaluated via sampling of I airborne radioiodine and airborne particulates.
The results during this report period were similar to previous years. There was no notable increase in natural products and no detectable fission products or other radionuclides in the airborne particulate media during the year attributed to effluent releases from BVPS." Direct Exposure Pathway: This ODCM required pathway was evaluated via measurement m of environmental radiation doses by use of Thermo Luminescent Dosimeters (TLDs). The results of TLD processing have indicated a stable trend and compare well with previous years." Inaestion Exposure Pathway: This ODCM required pathway was evaluated via sampling of milk, fish, and foodcrops (leafy vegetables).
For milk samples, Strontium-90 (attributable to past atmospheric weapons testing), was detected at levels similar to those of previous years. The gamma spectrometry analyses indicated positive results for naturally occurring Potassium-40 at average environmental levels. I The fish samples indicated below LLD levels in each of the sample analyses.Foodcrop (leafy vegetation) samples indicated naturally occurring Potassium-40 at average environmental levels." Waterborne Exposure Pathway: This ODCM pathway was evaluated via samples of drinking water, ground (well) water, surface (river) water and river sediment.Water samples were analyzed for Tritium and gamma-emitting radionuclides.
Tritium was not identified in any of these water samples. Iodine-131 analysis of drinking water indicated iv l Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
SUMMARY
and INDEX positive analyses, but the values were consistent with Iodine-131 at the upstream surface (river) water control location, and was not due to liquid effluent releases from BVPS.Sediment samples were collected from upstream of the site, at the discharge point of BVPS liquid effluent releases, and downstream of the site. Analysis of samples indicated naturally occurring radionuclides Potassium-40, Thallium-208, Bismuth-214, Lead-212, Lead-214, Radium-226, and Actinium-228 in all results. The analyses also indicated Cesium-137, but the values were consistent with Cesium-137 at the control location, and most likely caused by previous nuclear weapons tests. Cobalt-58 and Cobalt-60 were identified in some of the samples that were obtained at the shorelines of the BVPS Main Outfall Facility.
This is not unusual because the BVPS site discharges Cobalt-58 and Cobalt-60 in liquid waste effluents.
The activity detected at these sample locations are consistent with discharge data of authorized liquid effluent releases, and all liquid effluent releases during the report period did not exceed the release concentration limits set forth in the ODCM.* Other Exposure Pathways:
In addition to the samples collected from the exposure pathways described above, other media (i.e., precipitation and feedstuff) were also collected.
Results were consistent with previous years, with no degrading trends." Offsite Groundwater Monitoring:
A total of four (4) offsite groundwater samples were collected and analyzed for Tritium and by gamma spectrometry during the report period.The samples were collected on a semi-annual basis from two (2) locations within four (4)miles of the site. The locations included one (1) well in Hookstown, PA; and one (1) well in Georgetown, PA. No gamma-emitting radionuclides were detected in the analyses.
All tritium results were less than the pre-operational value.* Supplemental Sample Sites: The REMP program includes supplemental sampling sites in addition to the required sites set forth in the ODCM. The supplemental sites include five (5)air sampling sites, one (1) surface water site, two (2) groundwater sites, three (3)precipitation sites, two (2) sediment sites, and one (1) milk animal feedstuff site." Population Dose vs. Natural
Background:
During the report period, the total calculated 0-50 mile population dose was 212 man-mrem (liquid releases), and 23 man-mrem (gaseous releases).
The average individual population dose from BVPS operation was much less than<1 mrem. For information, the National Academy of Sciences 1990 BEIR Report shows that the typical dose to an individual from background (natural radiation exposure including radon) is an estimated average of 296 mrem per year. The following graph in Figure i-1 illustrates that the average individual population dose was not affected from BVPS operation.
v Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 EXECUTIVE
SUMMARY
and INDEX Figure i-I Graph of Annual Average Population Dose: BVPS Dose and Natural Background Dose 1Average Population Dose 1000.0000000 100.0000000 10.0000000 E 1.0000000 E ooooooo 0.1000000 0 t0 0.0100000 0 0.0010000 0.0001000 0.0000100 1 j I I I I n BVPS Average Population Dose (mRem)-Natural Background Population Dose (296 mRem)I I I I I I I I I I I I I I I I I I I* Summary: During the report period, radioactive effluent releases from the BVPS site did not exceed the limits identified in the BVPS Operating License, Technical Specifications and/or the ODCM. The BVPS operational REMP program was followed throughout the report period. The results demonstrate the adequacy of radioactive effluent control at BVPS, and that BVPS operation did not adversely affect the surrounding environment.
Positive results attributable to BVPS operation were consistent with station data of authorized radioactive discharges and were within limits permitted by the NRC license and the ODCM.Other radioactivity detected was attributable to naturally occurring radionuclides, previous nuclear weapons tests, other man-made sources, and to the normal statistical fluctuation for activities near the Lower Limit of Detection (LLD).vi Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
SUMMARY
and INDEX Inter-laboratory Comparison Programs: " Split Sample Program: BVPS shared split samples with the Pennsylvania Department of Environmental Protection (PADEP) in support of their nuclear power plant monitoring program. The shared media and number of locations were typically comprised of milk (2), surface water (3), river sediment (1), fish (1), foodcrops (2), co-located air particulate/air iodine (4), and TLD (24). The split sample program was coordinated by the state, and the results are not provided with this report.* Spike Sample Program: Spiked samples were provided by an independent laboratory and then analyzed by the REMP contractor laboratory.
The samples were provided throughout the report period and included water samples, milk samples, filter paper samples and charcoal cartridge samples. All one hundred eight (108) analyses performed by the contactor laboratory on the spiked samples met the NRC comparison criteria.Special Reports: SINCE no reporting levels were exceeded during 2013, THEN no Special Reports were required.
For information, a Special Report shall be submitted to the NRC when (1) levels of radioactivity in an environmental sampling medium exceeds the limits specified in ODCM procedure 1/2-ODC-3.03, Attachment Q Table 3.12-2, and when (2) the results of the following calculation are >1.0 (for calculations performed when more than one radionuclide is detected in the sampling medium): Concentration (1) + Concentration (2) + ... > 1.0 Limit Level (1) Limit Level (2)Land Use Census Results: Highlights from the most recent Land Use Census are documented in letter NPD3NRE:0962, dated September 27, 2013 and are summarized as follows:* Nearest Residence:
The location has not changed since the previous census. The nearest inhabited residence is at 209 Ferry Hill Road, Shippingport, PA (0.4 miles, E).* Nearest Garden: The location has changed since the previous census. The closest garden location is at the Pringle Residence, 1221 Virginia Ave., Midland, PA (1.0 miles, in the NW Sector).* Nearest Dairy Cow: The location has not changed since the previous census. The location remains at the Searight Dairy, 948 McCleary Road, RD 1, Hookstown, PA (2.097 miles, SSW)." Nearest Doe Goat: The location has changed since the previous census. The closest location is now the Searight Dairy, 948 McCleary Road, RD 1, Hookstown, PA (2.097 miles, SSW).vii Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
SUMMARY
and INDEX However, goat milk samples were not available from this location, nor from any other location within the 5 mile radius this year.Prevailing Winds: The prevailing wind direction for Ground Releases was identified by showing the highest D/Q in the east sector. The prevailing wind direction for elevated releases was identified by showing the highest D/Q in the ESE sector. The REMP properly monitors the environment with air particulate sampling stations in some sectors and direct radiation TLDs in all Sectors.* 2014 Dairy Cow and Doe Goat Sampling Locations:
The Dairy Cow sampling locations will remain at the same locations used in 2013; Brunton Dairy, 3681 Ridge Road, Aliquippa, PA I (6.158 miles, SE), and Windsheimer Dairy, RD 1 Burgettstown, PA (10.476 miles, SSW).The following dairies have provided notice that they will no longer produce milk commercially and will therefore be removed from the sampling program: Searight Dairy, 948 I McCleary Road, RD1, Hookstown, PA (2.097 miles, SSW), Halstead Dairy, 104 Tellish Drive, Hookstown, PA (5.079 miles, SSW), The Doe Goat sampling location may be at the Searight Dairy, 948 McCleary Road, RD1, Hookstown, PA (2.097 miles, SSW) and the Ferry I Residence, 227 Calhoun Road, Aliquippa, PA (3.320 miles, SE), although it is unknown at this time whether or not goat milk samples will be available from Searight Dairy or the Ferry Residence next season.D/Q for Milch Animal Locations:
None of the 2013 milch animal sampling locations experienced a >20% increase in deposition parameter (D/Q).D/Q for Offsite Dose Determination:
There was no adverse effect on the current ODCM methodology used for offsite dose determination from effluent releases.
Specifically, a linear regression analysis of D/Q did not yield any valid locations where the offsite dose could have increased
>20% more than the offsite dose previously calculated using current ODCM methodology.
D/Q Historical Comparison:
There is no adverse trend in D/Q when comparing 2000 to 2013 data to the ODCM default D/Q values, which validates that there was no adverse effect on the current ODCM methodology used for offsite dose determination from effluent releases.Specifically, the analysis of D/Q did not yield any valid locations where the offsite dose could have increased
>20% more than the offsite dose previously calculated using current ODCM methodology.
Therefore, a change in ODCM receptor location and/or a change to meteorology at the current ODCM receptor location were not required.I I I v"ii I Beaver Valley Power Station RTL A9.690E Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
SUMMARY
and INDEX Deviations, Changes and Adiustments to the Normal Sampling Program" Deviation from Normal Milk Sampling & Analysis Schedule:
There was a deviation from the required milk sampling and analysis schedule for the reporting period. Not enough milk samples are available from locations within the 5 mile radius this year. The unavailability of goat milk caused the REMP to not meet the ODCM sample requirements in 1/2-ODC-2.03 and in 1/2-ODC-3.03, Attachment Q Table 3.12-1 stating that a minimum of four (4) milk locations shall be sampled. This initiated the ODCM requirement for sampling two additional garden locations based upon the highest predicted annual average D/Q when milk locations are not available.
- Deviation from Normal Surface and Drinking Water Sampling and Analysis Schedule: There were no deviations from the required water sampling and analysis schedule during the report period." Deviation from Normal Air Particulate
& Iodine Sampling and Analysis Schedule: There were no deviations from the required water sampling and analysis schedule during the report period." Deviation from Normal Direct Radiation Monitoring:
The direct radiation monitoring by thermoluminescent dosimeters (TLDs) was missing data for a quarterly sampling period on one (1) occasion.
This issue was documented in Condition Reports #2013-15774.
ix Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
SUMMARY
and INDEX EXECUTIVE
SUMMARY
Report Preparation and Subm ittal Requirements
...............................................................
ii I Report Overview ................................................................................................................
iii Description of Pre-operational REM P (1974 -1975) ........................................................
iii Description of Operational REM P (1976 -Present) .........................................................
iii Determ ination of Enviromnental Impact ..........................................................................
iv Inter-laboratory Comparison Program s ..............................................................................
vii Special Reports ...................................................................................................................
vii Land Use Census Results ....................................................................................................
vii Deviations, Changes and Adjustments to the Normal Sampling Program ......................
ix SECTION 1 -INTRODUCTION A. Radiation Fundamentals
..........................................................................................
1-1l B. Radiation and Radioactivity
.......................................................................................
1-1 C. Units of M easurement
................................................................................................
1-4 D. Lower Lim it of Detection
...........................................................................................
1-4 E. Scope and Objectives of the REM P Program .............................................................
1-4 F. Description of the Beaver Valley Site.................................
1-5 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM A. Radiological Environm ental M onitoring Program ....................................................
2-1 1. Program Description
..........................................................................................
2-1 2. Summ ary of Results ...........................................................................................
2-6 3. Quality Control Program ....................................................................................
2-6 4. Program Changes ...............................................................................................
2-6 B. Air M onitoring
...........................................................................................................
2-24 1. Characterization of Air and M eteorology
..........................................................
2-24 2. Air Sampling Program and Analytical Techniques
...........................................
2-24 3. Results and Conclusions
....................................................................................
2-25 C. M onitoring of Shoreline Stream Sedim ent and Soil ..................................................
2-28 1. Characterization of Shoreline Stream Sedim ent and Soil ..................................
2-28 2. Sam pling Program and Analytical Techniques
..................................................
2-28 3. Results and Conclusions
....................................................................................
2-29 D. M onitoring of Feedstuff and Foodcrops
....................................................................
2-34 1. Characterization of Farm Products .....................................................................
2-34 2. Sampling Program and Analytical Techniques
..................................................
2-35 3. Results and Conclusions
....................................................................................
2-36 E. M onitoring of Local Cow and Goat M ilk ..................................................................
2-40 1. Description
-M ilch Anim al Locations
..............................................................
2-40 2. Sampling Program and Analytical Techniques
..................................................
2-40 3. Results and Conclusions
....................................................................................
2-42 F. Enviromnental Radiation M onitoring
........................................................................
2-46 1. Description of Regional Background Radiation and Sources ............................
2-46 2. Locations and Analytical Procedures
.................................................................
2-46 3. Results and Conclusions
....................................................................................
2-46 x I Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
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and INDEX G .M onitoring of F ish .....................................................................................................
2-5 1 1. D escrip tio n .........................................................................................................
2 -5 1 2. Sampling Program and Analytical Techniques
..................................................
2-51 3. R esults and C onclusions
....................................................................................
2-51 H. Monitoring of Surface Water, Drinking Water, Groundwater and Precipitation
...... 2-54 1. D escription of W ater Sources ............................................................................
2-54....... 2. Sam pling and. A nalytical Techniques
.................................................................
2-55 3. R esults and C onclusions
....................................................................................
2-57 I. Estim ates of Radiation D ose to M an .........................................................................
2-64 1. Pathways to Man -Calculational Models ..........................................................
2-64 2. Results of Calculated Population Dose to Man -Liquid Effluent Releases ...... 2-64 3. Results of Calculated Population Dose to Man -Gaseous Effluent Releases...
2-64 4 .C on clu sion s .......................................................................................................
2-65 SECTION 3 -LAND USE CENSUS A .Land U se C ensus O verview ......................................................................................
3-1 B .N earest R esidence ......................................................................................................
3-1 C .N earest G arden > 500 sqft .........................................................................................
3-1 D .N earest D airy C ow ...................................................................................................
3-1 E .N earest D oe G oat .......................................................................................................
3-1 F .N earest B eef C attle ....................................................................................................
3-1 G. Projection for 2014 Dairy Cow Sampling Locations
................................................
3-2 H. Projection for 2014 Doe Goat Sampling Locations
...................................................
3-2 I. D /Q for M ilch A nim al Locations
...............
..............................................................
3-2 J. D /Q for O ffsite D ose D eterm ination .........................................................................
3-2 K .D /Q H istorical C om parison .......................................................................................
3-2 SECTION 4 -SPLIT SAMPLE PROGRAM AND SPIKE SAMPLE INTER-LABORATORY COMPARISON PROGRAM A. Split Sample Program (Inter-Laboratory Comparison, Part 1 of 2) ..........................
4-1 B. Spike Sample Program (Inter-Laboratory Comparison, Part 2 of 2) .........................
4-1 C .C onclu sion s ...............................................................................................................
4 -3 SECTION 5 -CORRECTIONS TO PREVIOUS RADIOLOGICAL ENVIRONMENTAL OPERATING REPORT(S)A. Corrections to Previous Radiological Environmental Operating Report(s)
..............
5-1 xi Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
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and INDEX AREOR TABLES Table 2-1 Operational Radiological Environmental Monitoring Program ...............
2-2 Table 2-2 Radiological Environmental Monitoring Program Summary...............................
2-7 Table 2-3 Pre-Operational Environmental Radiological Monitoring Program Summary ....... 2-21 Table 2-4 Comparison of Natural Radiation Exposure Versus Calculated Population Dose to M an -Liquid Effluent Releases ...........................................................................
2-66 Table 2-5 Comparison of Natural Radiation Exposure Versus Calculated Population Dose to M an -Gaseous Effl uent Releases ........................................................................
2-67 Table 3-1 Location of Nearest Residences, Gardens, Dairy Cows, Doe Goats ....................
3-3 Table 4-1 Inter-Laboratory Comparison Program, Spiked Samples -l" Quarter ....................
4-4 Table 4-2 Inter-Laboratory Comparison Program, Spiked Samples -2 nd Quarter ...................
4-5 Table 4-3 Inter-Laboratory Comparison Program, Spiked Samples -3 rd Quarter ...................
4-6 Table 4-4 Inter-Laboratory Comparison Program, Spiked Samples -4 th Quarter ...................
4-7 I I I I I I I I I I xii I Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 EXECUTIVE
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and INDEX AREOR FIGURES Figure i-I Graph of Annual Average Population Dose: BVPS Dose and Natural B ackground D o se ......................................................................................................
vi Figure 1-1 Geographical Map and Principal Communities in 50-mile Radius of the Beaver V alley P ow er Station .................................................................................................
1-7 Figure 2-1 Environmental Monitoring Locations
-Air Sampling Stations.................................
2-26 Figure 2-2 Graph of Annual Average Concentration:
Gross Beta in Air Particulates
................
2-27 Figure 2-3 Environmental Monitoring Locations
-Shoreline Sediments and Soil .....................
2-31 Figure 2-4 Graph of Annual Average Concentration:
Cesium-137, Cobalt-58
& 60 in Sediment .......................................................................................
2-32 Figure 2-5 Graph of Annual Average Concentration:
Cesium-137 in Soil ................................
2-33 Figure 2-6 Environmental Monitoring Locations
-Feedstuff and Foodcrops
............................
2-38 Figure 2-7 Graph of Annual Average Concentration:
Cesium-137 in Feedstuff and F oo d crop s ..................................................................................................................
2 -3 9 Figure 2-8 Environmental M onitoring Locations
-M ilk ............................................................
2-44 Figure 2-9 Graph of Annual Average Concentration:
Iodine-i131
& Sr-90 in Milk ...................
2-45 Figure 2-10 Environmental Monitoring Locations
-TLDs .........................................................
2-48 Figure 2-11 Graph of Annual Average Exposure:
Direct Radiation in Environment
...................
2-50 Figure 2-12 Environmental M onitoring Locations
-Fish .............................................................
2-52 Figure 2-13 Graph of Annual Average Concentration:
Cesium-137 in Fish ................................
2-53 Figure 2-14 Environmental Monitoring Locations-Ground Water, Surface Water, Drinking W ater and Precipitation
.............................................................................................
2-59 Figure 2-15 Graph of Annual Average Concentration:
Iodine- 131 in Surface Water, and D rink ing W ater ..........................................................................................................
2-60 Figure 2-16 Graph of Annual Average Concentration:
Tritium in Surface Water .......................
2-61 Figure 2-17 Graph of Annual Average Concentration:
Tritium in Ground Water .......................
2-62 Figure 2-18 Graph of Annual Average Concentration:
Tritium in Drinking Water .....................
2-63 xiii Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 )SECTION 1 -INTRODUCTION A. Radiation Fundamentals Radiation is the conveyance of energy through space. For example, heat emanating fiom a stove is a form of radiation, as are light rays, microwaves, and radio waves. All matter consists of atoms, which are comprised of positively charged particles (protons), negatively charged particles (electrons), and non-charged/neutral particles (neutrons).
The relatively large particles (protons and neutrons) are packed tightly together in a cluster at the center of the atom called the nucleus, while the smaller particles (electrons) orbit around the nucleus. In an electrically neutral atom, the negative charges of the electrons are balanced by the positive charges of the protons. Due to their dissimilar charges, the protons and electrons have a strong attraction for each other. This holds the atom together.
Other attractive forces between the protons and neutrons keep the densely packed protons from repelling each other, and prevent the nucleus from breaking apart.B. Radiation and Radioactivity I The following provides an alphabetical glossary of terms associated with radiation, radioactivity, and the radioactive decay process. The terms discussed include Alpha Particles, Beta Particles, Gamma Rays, Genetic Effects, Half-life, Ionization, Isotopes, Neutrons, Radiation, Radioactive Decay, Radionuclides and Somatic Effects.Alpha Particles:
Particulate and electromagnetic radiation each travel through matter differently because of their different properties.
Alpha particles contain 2 protons and 2 neutrons, are relatively large, and carry an electrical charge of +2. Alpha particles are ejected from the nucleus of a radioactive atom at speeds ranging from 2,000 to 20,000 miles per second. However, due to its comparatively large size, an alpha particle usually does not travel very far before it loses most of its energy through collisions and interactions with other atoms. As a result, a sheet of paper or a few centimeters of air can easily stop alpha particles.
Beta Particles:
Beta Particles:
Beta particles are very small, and comparatively fast particles, traveling at speeds near the speed of light (186,000 miles per second). Beta particles have an electrical charge of either +1 or -1. Because they are so small and have a low charge, they do not I collide and interact as often as alpha particles, so they can travel farther. Beta particles can usually travel through several meters of air, but may be stopped by a thin piece of metal or wood.Gamma Rays: Gamma rays are pure energy and travel at the speed of light. They have no measurable charge or mass, and generally travel much farther than alpha or beta particles before being absorbed.
After repeated interactions, the gamma ray loses its energy and vanishes.
The range of a gamma ray in air varies, depending on the ray's energy and interactions.
Very high-energy gamma radiation can travel a considerable distance, where as low energy gamma radiation may travel only a few feet in air. Lead is used as shielding material for gamma radiation because of its density. Several inches of Lead or concrete may be needed to effectively shield gamma rays.Genetic Effects: The effects of ionizing radiation which are observed in the offspring of the exposed individual that could occur as a result of ionizing radiation interacting with the genes in the human cells. I Half-life:
The length of time an atom remains radioactive is defined in terms of half-life, which is the amount of time required for a radioactive substance to lose half of its activity through the process of radioactive decay. Radionuclides that have infrequent emissions have a long half-life, where as, radionuclides that have more frequent emissions have a short half-life.
I 1-1 I Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 1 -INTRODUCTION Ionization:
Through interactions with atoms, alpha, beta, and gamma radiation lose their energy.When these forms of radiation interact with any form of material, the energy they impart may cause atoms in that material to become ions, or charged particles.
Normally, an atom has the same number of protons as electrons, thus, the number of positive and negative charges cancel, in which the atom is electrically neutral. When one or more electrons are removed, an ion is formed. Ionization is one of the processes that may result in damage to biological systems.Isotopes:
A group of identical atoms containing the same number of protons make up an element.In fact, the number of protons an atom contains determines its chemical identity.
For instance, all atoms with one proton are hydrogen atoms, and all atoms with eight protons are oxygen atoms.However, the number of neutrons in the nucleus of an element may vary. Atoms with the same number of protons but different numbers of neutrons are called isotopes.
Different isotopes of the same element have the same chemical properties, and many are stable or non-radioactive.
An unstable or radioactive isotope of an element is called a radioisotope, a radioactive atom, or a radionuclide.
Radionuclides usually contain an excess amount of energy in the nucleus. The excess energy is usually due to a surplus or deficit in the number of neutrons in the nucleus. Radionuclides such as Uranium-238, Beryllium-7 and Potassium-40 occur naturally.
Others are man-made, such as Iodine-13 1, Cesium- 137, and Cobalt-60.
Neutrons:
Neutrons come from several sources, including the interactions of cosmic radiation with the earth's atmosphere and nuclear reactions within operating nuclear power reactors.
However, neutrons are not of environmental concern since the neutron source at nuclear power stations is sealed within the containment building.
Because neutrons have no charge, they are able to pass very close to the nuclei of the material through which they are traveling.
As a result, neutrons may be captured by one of these nuclei or they may be deflected.
When deflected, the neutron loses some of its energy. After a series of these deflections, the neutron has lost most of its energy. At this point, the neutron moves about as slowly as the atoms of the material through which it is traveling, and is called a thermal neutron. In comparison, fast neutrons are much more energetic than thermal neutrons and have greater potential for causing damage to the material through which they travel.Fast neutrons can have from 200 thousand to 200 million times the energy of thermal neutrons.Neutron shielding is designed to slow fast neutrons and absorb thermal neutrons.
Neutron shielding materials commonly used to slow neutrons down are water or polyethylene.
The shield is then completed with a material such as Cadmium, to absorb the now thermal neutrons.
Concrete is also used to form an effective neutron shield because it contains water molecules and can be easily molded around odd shapes.Radiation:
This is the conveyance of energy through space. For instance, heat emanating from a stove is a form of radiation, as are light rays, microwaves, and radio waves. Ionizing radiation is another type of radiation and has similar properties to those of the examples listed above. Ionizing radiation consists of both electromagnetic radiation and particulate radiation.
Electromagnetic radiation is energy with no measurable mass that travels with a wave-like motion through space.Included in this category are gamma rays and X-rays. Particulate radiation consists of tiny, fast moving particles which, if unhindered, travel in a straight line through space. The three types of particulate radiation of concern to us are alpha particles, which are made up of 2 protons and 2 neutrons; beta particles, which are essentially free electrons; and neutrons.
The properties of these types of radiation will be described more fully in the Range and Shielding section.1-2 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 1 -INTRODUCTION Radioactive Decay: Radioactive atoms, over time, will reach a stable, non-radioactive state through a process known as radioactive decay, which is the release of energy from an atom through the emission of ionizing radiation.
Radioactive atoms may decay directly to a stable state or may go through a series of decay stages, called a radioactive decay series, and produce several daughter products that eventually result in a stable atom. The loss of energy through radioactive decay may transform the atom into a chemically different element. For example, when Uranium-238 decays,, it emits an alpha particle and, as a result, the atom loses 2 protons and 2 neutrons.
Since the number of protons in the nucleus of an atom determines its chemical identity, then when the Uranium-238 atom loses the 2 protons and 2 neutrons, it is transformed into an atom of Thorium-234.
Thorium-234 is one of the 14 successive daughter products of Uranium-238.
Radon is another daughter product, and the decay series ends with stable Lead-206.
The following example is part of a known radioactive decay series, called the Uranium series, which begins with Uranium-238 and ends with Lead-206.
The information provided in the upper portion of each block is the isotope name, while the information provided in the lower portion of each block is the half-life.
238U 4.5E+9 Yr 2 3 4 u IV 2.5E+5Yr 2J4 Pa 1___________
J~ 1.2 min 234 Th 24 d 23°Th Y 8.0E+4 Yr 2 2 6 Ra 1600 Yr Ia 3.82 d'I Beta Decay Alpha Decay I I I I I I I I I I I I I I I I I I I 2 1 8 P0 3.05 min 214.P0.' 1.6E-4 s 210OP0 138.4 d: 214Br I '2 10Bi 210 197 min 5. 01 d 214 Pb 26.8 min 21 pb 23 Yr 2 0 6 Pb stable Radionuclides:
See description for "isotopes".
Somatic Effects: The effects of ionizing radiation which develop in the directly exposed individual, including an unborn child. Somatic effects can be divided further into acute and chronic effects.Acute effects develop shortly after exposure to large amount of radiation.
Chronic effects are a result of exposure to radiation over an extended period of time.1-3 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 1 -INTRODUCTION C. Units of Measurement Activity (Curie): This relates the number of atoms in a sample that disintegrate (decay) per unit of time. Each time an atom disintegrates, radiation is emitted. The curie (Ci) is the unit used to describe the activity of a material and indicates the rate at which the atoms of a radioactive substance are decaying.
One curie indicates the disintegration of 37 billion atoms per second. A..... .curie is a unit of activity, nota.quantity of material.
Thus, the amount of material required to produce one curie varies. A smaller unit of the curie is used when discussing the low concentrations of radioactivity detected in environmental samples. For instance, the picocurie (pCi) represents one trillionth of a curie.Absorbed Dose (rad): This is a term used to describe the radiation energy absorbed by any material exposed to ionizing radiation, and can be used for both particulate and electromagnetic radiation.
The rad is the unit used to measure the absorbed dose. It is defined as the energy of ionizing radiation deposited per gram of absorbing material (1 rad = 100 erg/gm). The rate of absorbed dose is usually given in rad/hr. The rad is not used to quantify biological damage caused by ionizing radiation.
Dose Equivalent (rem): Biological damage due to alpha, beta, gamma and neutron radiation may result from ionizing radiation.
Some types of radiation, especially alpha particles which cause dense local ionization, can result in up to 20 times the amount of biological damage for the same energy imparted as do gamma or X-rays. Therefore, a quality factor must be applied to account for the different ionizing capabilities of various types of ionizing radiation.
When the quality factor is multiplied by the absorbed dose (Rad), the result is the dose equivalent, which is an estimate of the possible biological damage resulting from exposure to a particular type of ionizing radiation.
The dose equivalent is measured in rein. An example of this conversion from absorbed dose (rad) to dose equivalent (rem) uses the quality factor for alpha radiation, which is equal to 20. Thus, 1 Rad of alpha radiation
= 20 rem. Since beta and gamma radiation each have a quality factor of 1, then 1 Rad of either beta or gamma radiation
= I rem. Neutrons have a quality factor ranging from 2 to 10.In terms of radiation, the rem is a relatively large unit. Therefore, a smaller unit, the millirem, is often used, where as, one millirem (torerm) is equal to 1/1000 of a rem.D. Lower Limit of Detection The Lower Limit of Detection (LLD) for environmental samples is a calculated value that represents an a-priori (before-the-fact) limit for the smallest concentration (i.e.; pCi per unit mass or volume)of radioactive material in a sample that will be detected with 95% probability, and with 5%probability of falsely concluding that a blank observation represents a real signal. A calculated LLD must consider such analytical variables as standard deviation of the background counting rate, the counting efficiency, the sample size, the fractional radiochemical yield, the radioactive decay constant, and the elapsed time between sample collection and time of counting.E. Scope and Objectives of the REMP Program The environmental program consists of environmental monitoring for radioactivity in the vicinity of BVPS. Environmental sampling and analyses include air, water, milk, vegetation, river sediments, fish, and ambient radiation levels in areas surrounding the site. The results of these media are assessed to determine impacts of the plant operation on the environment.
The Annual Radiological Environmental Operating Report (AREOR) for BVPS summarizes the Radiological Environmental Monitoring Program (REMP) conducted by the FirstEnergy Nuclear Operating Company during the report period.1-4 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 1 -INTRODUCTION n F. Description of the Beaver Valley Site BVPS is located on the south bank of the Ohio River in the Borough of Shippingport, Beaver County, Pennsylvania, on a 453 acre tract of land. The site is approximately one mile from Midland, Pennsylvania; five miles from East Liverpool, Ohio; and twenty-five miles from Pittsburgh, Pennsylvania.
Figure 1-1 shows the site location in relation to the principal population centers.Population density in the immediate vicinity of the site is relatively low. The population within a five mile radius of the plant is approximately 18,000 and the only area within the radius, of I concentrated population is the Borough of Midland, Pennsylvania, with a population of approximately 2,635 as determined from the 2010 U.S. Census.The site lies in a valley along the Ohio River. It extends from the river (elevation 665 feet above sea level) to a ridge along the border south of the Beaver Valley Power Station at a maximum elevation of 1160 feet. Plant grade level is approximately 735 feet above sea level.BVPS is on the Ohio River at river mile 34.8, at a location on the New Cumberland Pool that is 3.1 river miles downstream from Montgomery Lock and Dam, and 19.6 miles upstream from New Cumberland Lock and Dam. The Pennsylvania-Ohio-West Virginia border is located 5.2 river miles downstream from the site. The river flow is regulated by a series of dams and reservoirs on the Beaver, Allegheny, Monongahela and Ohio Rivers and their tributaries.
During the report period, the Ohio River flow (as obtained from the Corps of Engineers
-Water Resources Engineering) at the New Cumberland Dam ranged from 17,100 cubic feet per second (minimum monthly average) to 71,700 cubic feet per second (maximum monthly average).
The mean flow during the report period was approximately 41,883 cubic feet per second.Water temperature of the Ohio River typically varies from 320 Fahrenheit to 80' Fahrenheit.
The minimum temperatures occur in January and/or February and maximum temperatures in July and/or I August. Water quality in the Ohio River at the site location is affected primarily by the water quality of the Allegheny, Monongahela and Beaver rivers.The climate of the area may be classified as humid continental.
The predominant wind direction is typically from the southwest in summer and from the west in winter. The National Climatic Data Center indicates the following data for the Beaver Falls, PA area: I" The total annual precipitation during the report period was 35.18 inches." The average mean temperature during the report period was 52.20' Fahrenheit.
I I I I 1-5 I Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 1 -INTRODUCTION The basic features of the Beaver Valley Power Station Units 1 and 2 are tabulated below: Beaver Valley Unit 1 2900 -megawatts thermal Beaver Valley Unit 2 2900 -megawatts thermal Licensed Power Level Type of Power PWR No. of Reactor Coolant Loops No. of Steam Generators
& Type Steam Used by Main Turbine PWR 3 3 -Vertical Saturated 3 -Vertical Saturated The BVPS units utilize two separate systems (primary and secondary) for transferring heat from the source (the reactor) to the receiving component (turbine-generator).
Because the two systems are isolated friom each other, primaly and secondary waters do not mix; therefore, radioactivity in the primary system water is normally isolated from the secondary system. Reactor coolant in the primary system is pumped through the reactor core and steam generators by means of reactor coolant pumps. Heat is given up from the primary system to the secondary system in the steam generators, where steam is formed and delivered to the main unit turbine, which drives the electrical generator.
The steam is condensed after passing through the turbine, and returned to the steam generators to begin another steam/water cycle.1-6 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 1 -INTRODUCTION Figure 1-1 Geographical Map and Principal Communities in 50-mile Radius of the Beaver Valley Power Station RTL A9.690E Enclosure 3 I.AIVEA I I I I I I I I I I I I 0 20 40 MILES I I 1-7 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM A. Radiological Environmental Monitoring Program 1. Program Description The program consists of monitoring water, air, soil, river bottoms (sediment), feedstuff, vegetation, foodcrops, cow's milk, ambient radiation levels in areas surrounding the site, and aquatic life as summarized in Table 2-1. Further description of each portion of the program (Sampling Methods, Sample Analysis, Discussion and Results) are included in Sections 2-B through 2-I of this report.2-B Air Monitoring 2-C Monitoring of Shoreline Stream Sediment and Soil 2-D Monitoring of Feedstuff and Foodcrops 2-E Monitoring of Local Cow and Goat Milk 2-F Environmental Radiation Monitoring 2-G -Monitoring of Fish 2-H -Monitoring of Surface Water, Drinking Water, Groundwater and Precipitation 2-I -Estimates of Radiation Dose to Man 2-1 Beaver Valley Power Station RTL A9.690E I 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM I Table 2-1 Operational Radiological Environmental Monitoring Program Sample Samamp le Location Sample Sample Preparation
/ Analysis SmType Site No. Frequency Analysis Frequency 1 Air 13 Hookstown, PA (Old Meyer Farm) Continuous Weekly -Air Gross Beta (b)Particulate
& 27 .Aliquippa, PA (Brunton Farm) Sampling with Particulate Radionuclide 28 Sherman Farm Sample Iodine-131 29B Beaver, Pa (Friendship Ridge) Collection at Weekly -Charcoal 30 Shippingport, PA (Cook's Ferry Substation) least weekly Gamma Scan 32 Midland, PA (North Substation)
Quarterly Composite ic)46.1 Industry, PA (McKeel's Service -Rt. 68)47 East Liverpool, OH (Water Department) 48 () Weirton, WV (Water Tower -Collier Way)51 Aliquippa, PA Sheffield Substation) 10 Shippingport, PA (Post Office)2 aDirect 13 Hookstown, PA (Old Meyer Farm) Continuous Quarterly Gamma Dose Radiation 14 Hookstown, PA (LD)15 Georgetown, PA (Post Office)27 Aliquippa, PA (Brunton Farm)28 Sherman Farm 29B Beaver, PA (Friendship Ridge)30 Shippingport, PA (Cook's Ferry Substation) 32 Midland, PA (North Substation) 33-44 BVPS Site Perimeter Locations 45 Raccoon Township, PA (Christian House Baptist Chapel -Rt. 18)45.1 Raccoon Township, PA (Kennedy's Corner)46 Industry, PA (Midway Drive)46.1 Industry, PA (McKeel's Service -Rt. 68)47 East Liverpool, OH (Water Department) 48 () Weirton, WV (Water Tower -Collier Way)51 Aliquippa, PA (Sheffield Substation) 52-56 BVPS Site Perimeter Locations 59 236 Green Hill Road 60 Georgetown, PA (444 Hill Road)70 Industry, PA (236 Engle Road)71 Brighton Township, PA (First Western Bank)72 Ohioview, PA (Lutheran Church -Rear)73 618 Squirrel Run Road 74 Monaca, PA (37 Poplar Avenue -CCBC)75 Aliquippa, PA (117 Holt Road)76 Raccoon Township, PA (Elementary School)77 Aliquippa, PA (3614 Green Garden Road)78 Raccoon Township, PA (Municipal Building)79 106 Rt. 151 -Ted McWilliams Auto Body 80 Raccoon Township, PA (Park Office -Rt. 18)81 Millcreek United Presbyterian, Church 82 2697 Rt. 18 83 735 Mill Creek Road 84 Hancock County, WV (Senior Center)85 2048 Rt. 30 86 East Liverpool, OH (1090 Ohio Avenue)87 50103 Calcutta Smith's Ferry Road 88A Route 168, Midland Heights 89 Ohioville, PA (488 Smith Ferry Road)90 Midland, PA (6286 Tuscarawras Road)91 Pine Grove Road & Doyle Road 92 Georgetown, PA (Georgetown Road Substation) 93 104 Linden -Sunrise Hills 94 Hookstown, PA (McCleary
& Pole Cat Hollow Roads)95 Hookstown, PA (832 McCLeary Road)111-112 BVPS Site Perimeter Locations I I I I I I I I I I I I I I I I 2-2 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-1 (Continued)
RTL A9.690E Enclosure 3 Operational Radiological Environmental Monitoring Program Sample Sample Sample Location Sample Frequency Sample Preparation A Section Type Site No. Analysis Frequency Analysis Weekly Grab 3 Surface 49A Industry, PA (Upstream of Montgomery Sample (h) Weekly Sample from Water (a) Dam) Site49A only Iodine-131
...... ..... .W eekly Intermittent Composite Sample Monthly Composite of 2.1 Midland, PA (ATI Allegheny Ludlum) (h) Weekly Sample W Gamma Scan Daily Grab Sample 5 East Liverpool, OH (Water Department)
Collected Weekly Quarterly Composite i'i (h) Tritium (H-3)4 Groundwater 14A Hookstown, PA (Downstream)
Semi-Annual Semi-Annual Gamma Scan 15B Georgetown, PA (Downstream)
Tritium (H-3)5 Drinking 4 Midland, PA (Water Department)
Weekly Composite of Water 5 East Liverpool, OH (Water Department)
Intermittent (d) Daily sample td) Iodine-131 Sample Collected Monthly Composite (d) Gamma Scan Weekly Quarterly Composite (d) Tritium (H-3)2A BVPS Outfall Vicinity 6 Shoreline 49A(" Industry, PA (Upstream of Montgomery Semi-Annual Semi-Annual Gamma Scan Sediment Dam)50 New Cumberland, WV (Upstream of Dam)7 Milk Weekly (et Weekly Samples from Weekly 25 Hookstown, PA (Searight Farm) Searight only Iodine-131 from Searight only 27 Aliquippa, PA (Brunton Farm)96(a) Burgettstown, PA (Windsheimer Farm) Biweekly (0 When All other samples & Gamma Scan 113 (k) Hookstown, PA (Halstead Farm) animals are on analyses are Biweekly Iodine-1 31 (k) pasture; monthly at during grazing, but Strontium-8g other times Monthly during other Strontium-90 times (k)2A BVPS Outfall Vicinity Gamma Scan 8 Fish 49A(') Industry, PA (Upstream of Montgomery Semi-Annual Composite of edible on edible Dam) parts by species (g) parts 10*0Mn) Shippingport, PA 9 Food Crops 15i( 1(n) Georgetown, PA Annual at Harvest Composite of each Gamma Scan 12 1)(m) Racoon Township, PA if available sample species Iodine-131 on 46.1) (m) Industry, PA green leafy 48*(a)(1(n)
Weirton, WV vegetables
- (i) (M) I 2-3 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Table 2-1 (Continued)
Operational Radiological Environmental Monitoring Program Sample Sample Sample Location Sample Frequency Sample Preparation
/ Analysis Section Type Site No. Analysis Frequency Feedstuff
&10 F ed 25 Hookstown, PA (Searight Farm) Monthly Monthly Gamma Scan Forage 13A Hookstown, PA (Old Meyer Farm)11 Soil 22 South of BVPS, Transmission Lines Every Three (3) 12 Core Samples 3" Gamma Scan 27B Aliquippa, PA (Brunton Farm) Years Deep (2" diameter at 29A Beaver, PA (Nicol Farm) (2009, 2012, 2015) each location approx. 10'30A Shippingport, PA (Cook's Ferry radius)Substation) 32A Midland, PA (North Substation) 46B Industry, PA (Willows Inn -Rt. 68)47A East Liverpool, OH (Water Department) 48(') Weirton WV (Water Tower -Collier Way)51A Aliquippa, PA (Sheffield Substation) 30 Shippingport, PA (Cook's Ferry 12 Precipitation Substation)
Weekly grab Gamma Scan 47 East Liverpool, OH (Water Department) samples when Quarterly Composite M 48 () Weirton WV (Water Tower-Collier available Tritium (H-3)Way)I 1 I I I I I I 2-4 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-1 (Continued)
Operational Radiological Environmental Monitoring Program Notes for Table 2-1 (a) Control Sample Station: These'Locations which are presumed to be outside the influence of o plant effluents.
Particulate Samples are not counted within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after filter change. Perform Gamma (b) isotopic analysis on each sample when gross beta is greater than 10 times the yearly mean of control samples.(c) Long-term composite samples are obtained from short-term composite samples at the specified locations.(d) Composite samples are collected at intervals not exceeding 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />.(e) Weekly milk sample from the Searight Dairy is analyzed for Iodine-131 only.(f) Milk samples are collected bi-weekly when animals are grazing. The milk samples are collected monthly at other times.(g) The fish samples contain whatever species are available.
IF adequate sample size is available, THEN the sample is separated according to species, and compositing will provide one sample of each species.IF adequate sample size is not available, THEN separation by species is not practical.
Therefore edible parts of all fish in the sample are mixed to provide one sample.(h) Composite samples are obtained by collecting an aliquot at intervals not exceeding 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> at location 2.1. The water treatment plant operator at location 5 obtains the weekly grab sample from the daily composite grab samples. For location 49A, the weekly grab sample is obtained by a field technician.(i) Two (2) TLDs are collected quarterly from each monitoring location.(k) ODCM procedure 1/2-ODC-3.03, Attachment Q, Table 3.12-1 requires three (3) dairies to be selected on basis of highest potential thyroid dose using milch census data. See Section 2-E of this report (Monitoring of Local Cows Milk) for specific locations sampled.(I) Three (3) garden locations required by 1/2-OD.C-2.03, Attachment A Table 3.0-1; Sites designated by 1/2-ODC-2.03 Attachment B Figure 3.0-5. Sampling locations may be altered by the REMP Administrator at any time based on availability.(m) When there are not enough milk sample locations available to meet the ODCM requirements, three (3) different types of broad leaf vegetation are to be sampled at each of two (2) indicator locations based on the highest predicted annual average ground D/Q (as determined from the previous year's Land Use Census results), in addition to those samples described in Note (I).Three (3) different types of broad leaf vegetation shall also be sampled at one (1) control location when in this condition.
2-5 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM 2. Summary of Results All results of this monitoring program are summarized in Table 2-2. This table is prepared in I the format specified by the NRC via the Branch Technical Position in NUREG-1301, and in accordance with Beaver Valley Power Station Offsite Dose Calculation Manual. Summaries of results of analysis of each media are discussed in Sections 2-B through 2-H and an assessment I of radiation doses are given in Section 2-4. Table 2-3 summarizes BVPS pre-operational ranges for the various sampling media during the years 1974 and 1975. Comparisons of pre-operational data with operational data indicate the ranges of values are generally in good agreement for both periods of time.Activity detected was attributed to naturally occurring radionuclides, BVPS effluents, previous nuclear weapons tests or to the normal statistical fluctuation for activities near the Lower Limit of Detection (LLD).The conclusion from all program data is that the operation of BVPS has resulted in no m significant changes to the environment.
- 3. Quality Control Program The Quality Control Program implemented by BVPS to assure reliable performance by the contractor and the supporting QC data are presented and discussed in Section 4 of this report. I 4. Program Changes There was one significant change to the sampling program during the report period that will be effective for the 2014 growing season. Available milk sampling stations have been declining within the radius of BVPS (described in more detail in section 2-E of this report.) Searight's Dairy farm stopped producing milk as of December 1 3 th 2013 and has been removed from the sampling program for future growing seasons (see NRC / DEP letter L-13-169 and CR-2013-03554). Halstead Dairy farm gave notice on January 13'h 2014 that the dairy would be closing and no longer be producing milk. The dairy will be removed from the sampling program when milk samples are no longer available (see NRC / DEP letter L-14-079 and CR-2014-00685).
Vegetation sample requirements in the ODCM were increased in to accommodate the decline in dairy farms and remain effective.
I I I I I 2-6 I Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Table 2-2 RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit I and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar Year- 2013 Medium: Air Particulate and Radioiodine Unit of Measurement: (pico Curies / cubic meter)Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)
(t Name Mean (fraction)
() Name Mean (fraction) (b) Reported Performed LLD (') Range (b) Distance and Direction Range N Distance and Direction Range ) Measurements W Gross Beta < 0.002 0.025 ( 468 / 468 No. 13 Old Meyer Farm 0.027 ( 52 /52 No.48 Weirton, WV 0.026 ( 52 /52 0 520 0.009 -0.055 1.5 miles SW 0.011 -0.055 Water Tower 0.010 -0.046 Collier Way 16.3 miles SSW 1-131 <0.04 LLD ( 0 / 468) LLD ( 0 /468 No. 48 Weirton, WV LLD ( 0 /52 0 520 Water Tower Collier Way 16.3 miles SSW Gamma 40 Be-7 NA 0.072 ( 36 / 36 ) No. 32 Midland (North Sub Statioi 0.078 ( 4 / 4 ) No. 48 Weirton, WV 0.074 ( 4 / 4 NA 0.051 -0.100 0.8 miles NW 0.055 -0.960 Water Tower 0.053 -0.094 Collier Way 16.3 miles SSW Co-60 NA LLD( 0 /36 ) LLD( 0 /36 ) LLD( 0 /4 ) NA Cs-134 <0.0005 LLD( 0 /36 ) LLD( 0 /36 ) LLD( 0 /4 ) 0 Cs-137 <0.0005 LLD( 0 /36 ) LLD( 0 /36 ) LLD( 0 /4 ) 0 Ba-La-140 NA LLD( 0 /36 ) LLD( 0 /36 ) LLD( 0 /4 ) NA Nominal Lower Limit of Detection b Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-7 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
I I I I I Name of Facility:
Beaver Valley Power Station Unit 1 and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County. Pennsylvania Reporting Period: Calendar Year -2013 Medium: Drinking Water Unit of Measurement: (pico Curies / liter)Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)(b)
Name Mean (fraction)0)
Name Mean (fraction) (b) Reported Performed LLD () Range n') Distance and Direction Range (b) Distance and Direction Range M Measurements 1-131 < 0.5 0.5 ( 17 / 104 ) No. 5 East Liverpool Water 0.5 ( 8 / 52 ) No. 49A Industry, PA 0.6 ( 29 /52 ) 0 156 0.2 -0.7 4.9 miles WNW 0.3 -0.7 Upstream of 0.2 -1.6 Montgomery Dam 5.0 miles NE H-3 < 200 LLD( 0 /8 ) LLD( 0 /8 ) LLD( 0 /4 ) 0 12 Gamma 36 Mn-54 < 5 LLD( 0 /24 LLD( 0 /24 LLD( 0 /12) 0 Fe-59 < 10 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 / 12) 0 Co-58 < 5 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 /12) 0 Co-60 < 5 LLD( 0 /24 LLD( 0 /24 ) LLD( 0 /12) 0 Zn-65 < 10 LLD( 0 /24 LLD( 0 /24 ) LLD( 0 / 12) 0 Zr-Nb-95 < 5 LLD( 0 /24 LLD( 0 /24 ) LLD( 0 /12 ) 0 Cs-134 < 5 LLD( 0 /24 LLD( 0 /24 ) LLD( 0 /12) 0 Cs-137 < 5 LLD( 0 /24 LLD( 0 /24 ) LLD( 0 /12) 0 Ba-La-140
< 10 LLD( 0 /24 LLD( 0 /24 ) LLD( 0 /12) 0 Nominal Lower Limit of Detection I I I I I I I Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-8 I I I I I I I Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit 1 and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar Year -2013 Medium: Surface Water Unit of Measurement: (pico Curies / liter)RTL A9.690E Enclosure 3 Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)())
Name Mean (fraction) (b) Name Mean (fraction) (b Reported Performed LLD () Range 0') Distance and Direction Range No) Distance and Direction Range (b) Measurements (C)1-131 < 0.5 No. 49A Industry, PA 0.6( 29 /52 ) 0 52 Upstream of 0.2 -1.6 Montgomery Dam 5.0 miles NE H-3 <200 LLD( 0 / 8 LLD( 0 /8 ) LLD( 0 /4 ) 0 12 Gamma 36 Mn-54 < 5 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 /12) 0 Fe-59 < 10 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 /12) 0 Co-58 <5 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 / 12) 0 Co-60 < 5 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 /12) 0 Zn-65 < 10 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 /12) 0 Zr-Nb-95 < 5 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 /12) 0 Cs-134 < 5 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 /12) 0 Cs-137 <5 LLD( 0 /24 ) LLD( 0 /24-) LLD( 0 /12) 0 Ba-La-140
< 10 LLD( 0 /24 ) LLD( 0 /24 ) LLD( 0 /12) 0 Nominal Lower Limit of Detection Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-9 RTL A9.690E Enclosure 3 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit 1 and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County. Pennsylvania Reporting Period: Calendar Year -2013 Medium: Ground Water Unit of Measurement: (pico Curies / liter)Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)(b)
Name Mean (fraction) (b) Name Mean (fraction)(b)
Reported Performed LLD (") Range (b) Distance and Direction Range (b) Distance and Direction Range (b) Measurements (C)H-3 < 200 LLD ( 0 / 4 ) LLD ( 0 /4 ) No. 11 Shippingport, PA 4 Upstream 0.8 miles NE Gamma Note: There is no longer a well available for sampling in Sbippingport 4 Mn-54 < 5 LLD ( 0 /4 ) LLD ( 0 /4 Fe-59 < 10 LLD( 0 /4 ) LLD( 0 /4 Co-58 < 5 LLD ( 0 /4 ) LLD ( 0 /4 Co-60 < 5 LLD ( 0 /4 ) LLD ( 0 /4 Zn-65 < 10 LLD( 0 /4 ) LLD( 0 /4 Zr-Nb-95 < 5 LLD( 0 /4 ) LLD( 0 /4 Cs-134 <l5 LLD 0/4 LLD 0/4 Cs-137 < 5 LLD 0 /4 ) LLD ( 0 /4 Ba-La-140
< 10 LLD( 0 /4 ) LLD( 0 /4 Nominal Lower Limit of Detection b Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)I I I I I I I 2-10 I Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit 1 and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County. Pennsylvania Reporting Period: Calendar Year -2013 Medium: Precipitation Water Unit of Measurement: (pico Curies / liter)Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)cO)
Name Mean (fraction)cO Name Mean (fraction)cO)
Reported Performed LLD (*) Range (b) Distance and Direction Range (b) Distance and Direction Range (b) Measurements H-3 <200 LLD ( 0 /7 LLD ( 0 /7 ) No. 48 Weirton, WV LLD( 0 /4 ) 0 I1 Water Tower Collier Way 16.3 miles SSW Gamma 11 Mn-54 < 5 LLD( 0 /7 ) LLD( 0 /7 ) LLD( 0 /4 ) 0 Fe-59 < 10 LLD( 0 /7 ) LLD( 0 /7 ) LLD( 0 /4 ) 0 Co-58 < 5 LLD( 0 /7 ) LLD( 0 /7 ) LLD( 0 /4 ) 0 Co-60 < 5 LLD( 0 /7 LLD( 0 /7 ) LLD( 0 /4 ) 0 Zn-65 < 10 LLD( 0 /7 ) LLD( 0 /7 LLD( 0 /4 ) 0 Zr-Nb-95 < 5 LLD( 0 /7 ) LLD( 0 /7 ) LLD( 0 /4 ) 0 Cs-134 < 5 LLD( 0 /7 ) LLD( 0 /7 ) LLD( 0 /4 ) 0 Cs-137 < 5 LLD( 0 /7 ) LLD( 0 /7 ) LLD( 0 /4) 0 Ba-La-140
< 10 LLD( 0 /7 ) LLD( 0 /7 ) LLD( 0 /4 ) 0 Nominal Lower Limit of Detection Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
'Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-11 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit I and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar Year -2013 Medium: Milk Unit of Measurement: (pico Curies / liter)Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean _Control Location Nonroutine of Analysis Detection Mean (fraction)(b)
Name Mean (fraction)@)
Name Mean (fraction)(b)
Reported Performed LLD (*) Range (b) Distance and Direction Range (b) Distance and Direction Range N Measurements 1-131 < 0.5 LLD ( 0 /88 LLD( 0 /88 ) No. 96 Burgettstown, PA LLD( 0 /20 ) 0 108 Windsheimer Farm 1 10.4 miles SSW Sr-89 <2.0 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20) NA 80 Sr-90 < 0.7 0.9 ( 34 /60 ) No. 25 Hookstown, PA 1.5 ( 20 /20 ) No. 96 Burgettstown, PA 0.9 ( 18 /20 NA 80 0.4 -2.0 Searight's Dairy 0.9 -2.0 Windsheimer Farm 0.6 -1.5 2.1 miles SSW 10.4 miles SSW Gamma 80 K-40 < 150 1274 ( 60/ 60 ) No. 113 Hookstown, PA 1358( 20 /20 ) No. 96 Burgettstown, PA 1410( 20 /20 NA 960 -1478 Halstead Farm 1267 -1478 WindsheimerFarm 1290 -1533 5.1 miles SSW 10.4 miles SSW Mn-54 < 5 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20 NA Fe-59 < 10 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20 NA Co-58 <5 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20 NA Co-60 <5 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20 NA Zn-65 < 10 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20 NA Zr-Nb-95 < 5 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20 NA Cs-134 < 5 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20 0 Cs-137 <5 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20 0 Ba-La-140
< 10 LLD( 0 /60 ) LLD( 0 /60 ) LLD( 0 /20 0 Nominal Lower Limit of Detection I I I I I I I I I I I Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction) c Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-12 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
RTL A9.690E Enclosure 3 Name of Facility:
Beaver Valley Power Station Unit I and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar Year -2013 Medium: Fish Unit of Measurement: (pico Curies / gram) Wet Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine ofAnalysis Detection Mean (fraction)(b)
Name Mean (fraction)(b)
Name Mean (fraction)(b)
Reported Performed LLD (') Range , Distance and Direction Range (b) Distance and Direction Range (b) Measurements (o)No. 49A Industry, PA Gamma Upstream of Montgomery Dam 5.0 miles NE Mn-54 < 0.05 LLD( 0/ ) LLD( 0/ ) LLD( 0/ ) 0 Fe-59 < 0.10 LLD( 0/ ) LLD( 0/ ) LLD( 0/ ) 0 Co-58 <0.05 LLD( 0/ ) LLD( 0/ ) LLD( 0/ ) 0 Co-60 <0.05 LLD( 0/ ) LLD( 0/ ) LLD( 0/ ) 0 Zn-65 <0.10 LLD( 0/ ) LLD( 0/ ) LLD( 0/ ) 0 Zr-Nb-95 < 0.01 LLD( 0/ ) LLD( 0/ ) LLD( 0 / ) NA Cs-134 < 0.05 LLD( 0/ ) LLD( 0/ ) LLD( 0 / ) 0 Cs-137 <0.05 LLD( 0/ ) LLD( 0/ ) LLD( 0 / ) 0 Ba-La-140
< 0.01 LLD( 0/ ) LLD( 0/ ) LLD( 0 / ) NA Nominal Lower Limit of Detection b Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-13 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit 1 and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County. Pennsylvania Reporting Period: Calendar Year -2013 Medium: Foodcrops Unit of Measurement: (pico Curies / gram) Wet RTL A9.690E Enclosure 3 Type and Lower Number of Total Numbet Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)(b)
Name Mean (fraction) (b Name Mean (fraction) " Reported Performed LLD () Range ,"' Distance and Direction Range (b) Distance and Direction Range (b) Measurements W 1-131 <0.06 LLD ( 0 /10 LLD ( 0/t10 LLD ( 0 /3 0 13 Gamma 13 K-40 NA 2.80 ( 10 / 10 ) No. 12A Racoon, PA 3.28 ( /6 ! No. 48B Weirton, WV 4.39 ( 3 /3 NA 2.15 -5.37 2.3 miles E 2.15 -5.37 16.5 miles SSW 4.16 -4.71 Mn-54 NA LLD( 0 /10 ) LLD( 0 /10 LLD( 0 /3 ) NA Fe-59 NA LLD( 0 /10 ) LLD( 0 /10 LLD( 0 /3 ) NA Co-58 NA LLD( 0 /10 ) LLD( 0/10 LLD( 0 /3 ) NA Co-60 NA LLD( 0 /10 ) LLD( 0 /10 LLD( 0 /3 ) NA Zn-65 NA LLD( 0 /10 ) LLD( 0 /10 LLD( 0 /3 ) NA Zr-Nb-95 NA LLD( 0 /10 ) LLD( 0 /10 LLD( 0 /3 ) NA Cs-134 0.04 LLD( 0 / 10 ) LLD( 0 /10 LLD( 0 /3 ) 0 Cs-137 0.06 LLD ( 0/ 10 ) LLD ( 0 / 10 ) No. 48B Weirton, WV LLD ( 0 /3 ) 0 16.5 miles SSW Ba-La-140 NA LLD( 0 /10 LLD( 0 /10 LLD( 0 /3 ) NA C-14 NA 234.5 ( 2 / 2 ) No. 1OB Shippingport, PA 234.5 ( 2 / 2 No.48 Weirton, WV 233.5 ( 1 / I NA 3 234.4 -234.6 1.0 miles ENE 234.4 -234.6 16.5 miles SSW 233,5 -233.5 Nominal Lower Limit of Detection I I I I I I I I I I Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction) c Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-14 I Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit 1 and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar Year -2013 Medium: Feedstuff Unit of Measurement: (pico Curies / gram) Wet RTL A9.690E Enclosure 3 Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)(b)
Name Mean (fraction)
(4ý Name Mean (fraction)
() Reported Performed LLD () Range (b) Distance and Direction Range (b) Distance and Direction Range (b) Measurements Gamma 2 Be-7 < 02 2.39 ( 5 / 12 ) No. 25 Searight Farm 2.39 ( 5 / 12 ) No. 25 Searight Farm 2.39 ( 5 / 12 ) NA 0.45 -6.04 948 McCleary Road 0.45 -6.04 948 McCleary Road 0.45 -6.04 Hookstown, PA Hookstown, PA 2.1 miles SSW 2.1 miles SSW K-40 < 0.15 11.36 ( 12 / 12 ) No. 25 Searight Farm 11.36 ( 12 / 12 ) No. 25 Searight Farm 11.36 ( 12 /12 ) NA 6.62 -17.79 948 McCleary Road 6.62 -17.79 948 McCleary Road 6.62 -17.79 Hookstown, PA Hookstown, PA 2.1 miles SSW 2.1 miles SSW Mn-54 < 0.02 LLD( 0 /12 LLD( 0 / 12 LLD( 0 /12 ) NA Fe-59 <0.04 LLD( 0 /12 ) LLD( 0 / 12 ) LLD( 0 /12 ) NA Co-58 <0.02 LLD( 0 /12 ) LLD( 0 /12 ) LLD( 0 /12 ) NA Co-60 <0.02 LLD( 0 /12 ) LLD( 0 /12 ) LLD( 0 /12 ) NA Zn-65 <0.04 LLD( 0 /12 ) LLD( 0 /12 ) LLD( 0/12 ) NA Zr-Nb-95 <0.03 LLD( 0 /12 ) LLD( 0 /12 ) LLD( 0 /12 ) NA Ru-103 <0.03 LLD( 0 /12 ) LLD( 0 /12 ) LLD( 0 /12 ) NA 1-131 <0.06 LLD( 0 /12 ) LLD( 0 /12 ) LLD( 0 /12 ) 0 Cs-134 < 0.04 LLD( 0 /12 ) LLD( 0 /12 ) LLD( 0 /12 ) 0 Cs-137 < 0.06 LLD( 0 /12 ) LLD( 0 /12 ) LLD( 0 /12) 0 Ba-La-140
<0.01 LLD ( 0 /12 ) LLD( 0 /12 ) LLD( 0 /12 ) NA Nominal Lower Limit of Detection b Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-15 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit 1 and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County. Pennsylvania Reporting Period: Calendar Year -2013 Medium: Sediment (page 1 of 2)Unit of Measurement: (pico Curies / gram) Dry Type and Lower Number of Total Numbe Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)(b)
Name Mean (fraction) (b) Name Mean (fraction) b) Reported Performed LLD (*) Range (b) Distance and Direction Range (b) Distance and Direction Range Nb) Measurements Gamma 6 K-40 NA 8.58 ( 4 / 4 No. 50 Upstream 8.87 ( 2 / 2 ) No. 49A Industry, PA 11.42 ( 2/ 2 NA 7.69- 9.57 New Cumberland Dam 8,17 -9.57 Upstream of 11.26- 11.58 11.8 miles WSW Montgomery Dam 5.0 miles NE Mn-54 <0.02 LLD( 0 /4 ) LLD( 0 /4 ) LLD( 0 /2 ) NA Fe-59 <0.03 LLD( 0 /4 ) LLD( 0 /4 ) LLD( 0 /2 ) NA Co-58 < 0.02 0.10 2 /4 ) No. 2A BVPS 0.10( 2 /2 ) LLD( 0 /2 ) NA LLD -0.14 Outfall Vicinity 0.06 -0.14 0.2 miles WSW Co-60 < 0.02 0.41 ( 2 /4 No. 2A BVPS 0.41 ( 2 /2 LLD( 0 /2 NA LLD -0.42 Outfall Vicinity 0.39 -0.42 0.2 miles WSW Zn-65 <0.04 LLD( 0 /4 LLD( 0 /4 LLD( 0 /2 ) NA Zr-95 <0.03 LLD( 0 /4 LLD( 0 /4 LLD( 0 /2 ) NA Nb-95 <0.03 LLD( 0 /4 LLD( 0 /4 LLD( 0 /2 NA Cs-134 <0.06 LLD( 0 /4 LLD( 0 /4 LLD( 0 /2 0 Cs-137 <0.08 0.11 ( 4 /4 No. 2A BVPS 0.16 ( 2 /2 ) No. 49A Industry, PA 0.08 ( 2 /2 0 0.04 -0.19 Outfall Vicinity 0.13 -0.19 Upstream of 0.07 -0.09 0.2 miles WSW Montgomery Dam 5.0 miles NE Ba-La-140
<0.03 LLD( 0 /4 LLD( 0 /4 LLD( 0 /2 NA T1-208 NA 0.30 ( 4 / 4 No. 50 Upstream 0.31 ( 2 / ) No. 49A Industry, PA 0.33 ( 2/ ) NA 0.26- 0.31 New Cumberland Dam 0.30- 0.31 Upstream of 0.31 -0.34 11.8 miles WSW Montgomery Dam 5.0 miles NE I I I I I I I I I 2-16 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit 1 and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar Year -2013 Medium: Sediment (page 2 of 2)Unit of Measurement: (pico Curies / gram) Dry Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)(b)
Name Mean (fraction) (b) Name Mean (fraction) (b) Reported Performed LLD (') Range (b) Distance and Direction Range (b) Distance and Direction Range (b) Measurements Bi-214 NA 0.69 ( 4 /4 No. 2A BVPS 0.76 ( 2 /2 No. 49A Industry, PA 0.86 ( 2 /2 ) NA 0.57 -0.94 Outfall Vicinity 0.57- 0.94 Upstream of 0.81 -0.9 0.2 miles WSW Montgomery Dam 5.0 miles NE Pb-212 NA 0.77 ( 4 / 4 ) No. 50 Upstream 0.77 ( 2 / 2 No. 49A Industry, PA 0.95 ( 2 /2 ) NA 0.75 -0.78 New Cumberland Dam 0.76 -0.78 Upstream of 0,87 -1.02 11.8 miles WSW Montgomery Dam 5.0 miles NE Pb-214 NA 0,76 ( 4 /4 ) No. 2A BVPS 0.79 ( 2 / 2 No. 49A Industry, PA 0.94 ( 2 /2 ) NA 0.66 -0.91 Outfall Vicinity 0.66 -0.91 Upstream of 0.93 -0.94 0.2 miles WSW Montgomery Dam 5.0 miles NE Ra-226 NA 1.60 ( 4 /4 ) No. 50 Upstream 1.66 ( /2 ) No. 49A Industry, PA 2.06 ( 2 /2 ) NA 1.38 -1.71 New Cumberland Dam 1.60 -1.71 Upstream of 1.83 -2.28 11.8 miles WSW Montgomery Dam 5.0 miles NE Ac-228 NA 0.91 ( 4 / 4 ) No. 50 Upstream 0.94 ( 2 / 2 No. 49A Industry, PA 1.07 ( 2 / 2 ) NA 0.81 -0.95 New Cumberland Dam 0.93- 0.95 Upstream of 1.03 -1.11 11.8 miles WSW Montgomery Dam 5.0 miles NE Nominal Lower Limit of Detection Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-17 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit I and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar Year -2013 Medium: Soil (page 1 of 2)Unit of Measurement: (pico Curies / gram) Dry Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)(b' Name Mean (fraction) (b) Name Mean (fraction) (b) Reported Performed LLD _) Range (b) Distance and Direction Range (b) Distance and Direction Range (b) Measurements W Gamma Note: Soil Sampling performed every three (3) years. Sampling was performed in 2012, and is next due in 2015.K-40 Mn-54 Fe-59 Co-58 Co-60 Zn-65 Zr-95 Nb-95 Cs-134 Cs-137 I I I I I I I I I I I 2-18 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
Name of Facility:
Beaver Valley Power Station Unit I and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar Year -2013 Medium: Soil (page 2 of 2)Unit of Measurement: (pico Curies / gram) Dry RTL A9.690E Enclosure 3 Type and Lower Number of.Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction) (b Name Mean (fraction)(b)
Name Mean (fraction)(b)
Reported Performed LLD (') Range .b) Distance and Direction Range (b) Distance and Direction Range (b) Measurements W Note: Soil Sampling performed every three (3) years. Sampling was performed in 2012, and is next due in 2015.Ba-La-140 NA TI-208 NA Bi-214 NA Pb-212 NA Pb-214 NA Ra-226 NA Ac-228 NA Nominal Lower Limit of Detection Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-19 Beaver Valley Power Station 2012 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-2 (Continued)
RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM
SUMMARY
RTL A9.690E Enclosure 3 Name of Facility:
Beaver Valley Power Station Unit I and Unit 2 Docket No.: 50-334 / 50-412 Location of Facility:
Beaver County. Pennsylvania Reporting Period: Calendar Year -2012 Medium: External Radiation Unit of Measurement: (mR / Quarter)Type and Lower Number of Total Number Limit of All Indicator Locations Locations with Highest Annual Mean Control Location Nonroutine of Analysis Detection Mean (fraction)(b)
Name Mean (fraction) (b Name Mean (fraction) (b) Reported Performed LLD b Range (b) Distance and Direction Range (b) Distance and Direction Range (b) Measurements
- Gamma 4.6 17.8 ( 518 / 518 No. 112 BVPS Site 25.8 ( 8 /98 No. 48 Weirton, WV 19.4 ( 8 /8 ) 0 526 11.9 -29.3 Perimeter Location 23.6 -29.3 Water Tower 17.4 -20.6 0.3 miles SSE Collier Way 16.4 miles SSW Nominal Lower Limit of Detection Mean and range based upon detectable measurements only.Fraction of detectable measurements at specified locations is indicated in parentheses (fraction)
Nonroutine Reported Measurements (
Reference:
ODCM procedure 1/2-ODC-3.03, Attachment Q, Control 3.12.1)NA = Not Applicable (Naturally Occurring Radionuclides Not required by ODCM)2-20 I I I I I I I I I I I I I I I I Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-3 RTL A9.690E Enclosure 3 Pre-Operational Environmental Radiological Monitoring Program Summary Name of Facility:
Beaver Valley Power Station Docket No.: 50-334 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar years 1974- 1975 Medium or Pathway Analysis and Total Lower Limit .All Indicator Locations Sampled Number of Analysis of Detection Mean, (f) Range (Unit of Measurement)
Performed (LLD)Sediments Gross Alpha (0) ....(pico Curie /gram) dry Gross Beta (33) 1 18 (33/33) 5 -30 Sr-90 (0) ....U-234, 235,238 (0) ....Gammna (33) -- 13 (33/33) 2 -30 K-40 1.5 13 (33/33) 2 -30 Cs-137 0.1 0.4 (21/33) 0.1 -0.6 Zr/Nb-95 0.05 0.8 (12/33) 0.2 -3.2 Ce-144 0.3 0.5 (3/33) 0.4 -0.7 Ru-106(a) 0.3 1.5 (3/33) 1.3 -1.8 Others -- < LLD Foodcrops Ganuna (8) ....(pico Curie/gram) dry K-40 1 33 (8/8) 10 -53 Cs-137 0.1 0.2 (1/8) --Zr/Nb-95 0.05 0.2 (1/8) --Ru-106(a) 0.3 0.8 (1/8) --Others -- < LLD Feedstuff Gross Beta (80) 0.05 19 (80/80) 8 -50 (pico Curie/gram) dry Sr-89 (81) 0.025 0.2 (33/81) 0.04-0.93 Sr-90 (81) 0.005 0.4 (78/81) 0.02 -0.81 Ganmua (81) ....K-40 1 19 (75/81) 5-46 Cs-137 0.1 0.5 (6/81) 0.2-1.6 Ce-144 0.3 1.5 (5/81) 0.9-2.6 Zr/Nb-95 0.05 0.8 (13/81) 0.2- 1.8 Ru-106(a) 0.3 1.4 (12/81) 0.6-2.3 Others -- < LLD Soil Gross Alpha (0) ....-Template Samples -Gross Beta (64) 1 22 (64/64) 14 -32 Sr-89 (64) 0.25 0.4 (1/64) --(pico Curie/gram) dry Sr-90 (64) 0.05 0.3 (48/64) 0.1 -1.3 U-234, 235,238 (0) ....Gamma (64) ....K-40 1.5 13 (63/64) 5-24 Cs-137 0.1 1.5 (56/64) 0.1 -6.8 Ce-144 0.3 1.1 (7/64) 0.2-3 Zr/Nb-95 0.05 0.3 (13/64) 0.1 -2 Ru-106(a) 0.3 1.1 (3/64) 0.5-2 Others -- < LLD (f) Fraction of detectable measurements at specified location.2-21 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Table 2-3 (Continued)
Pre-Operational Environmental Radiological Monitoring Program Summary Name of Facility:
Beaver Valley Power Station Docket No.: 50-334 Location of Facility:
Beaver County. Pennsylvania Reporting Period: Calendar years 1974 -1975 Medium or Pathway Analysis and Total Lower Limit 'All Indicator Locations Sampled Number of Analysis of Detection Mean, (f) Range (Unit of Measurement)
Performed (LLD)Soil Gross Alpha (0) ....-Core Samples -Gross Beta (8) 1 21 (8/8) 16 -28 (pico Curie /gram) dry Sr-89 (8) 0.25 < LLD Sr-90 (8) 0.05 0.2 (5/8) 0.08- 0.5 Gamnna (8) ....K-40 1.5 13 (8/8) 7-20 Cs-137 0.1 1.2 (7/8) 0.2-2.4 Co-60 0.1 0.2 (1/8) --Others < LLD Surface Water Gross Alpha (40) 0.3 0.75 (5/40) 0.6 -1.1 (pico Curie / liter) Gross Beta (120) 0.6 4.4 (120/120) 2.5 -11.4 Gamma (1) 10- 60 < LLD Tritium (121) 100 300 (120/121) 180-800 Sr-89 (0) ....Sr-90 (0) --C-14 (0) --Drinking Water 1-131 (0) ....(pico Curie / liter) Gross Alpha (50) 0.3 0.6 (4/50) 0.4 -0.8 Gross Beta (208) 0.6 3.8 (208/208) 2.3 -6.4 Gamma (0) ....Tritium (211) 100 310 (211/211) 130- 1000 C-14 (0) ....Sr-89 (0) ....Sr-90 (0) ....Ground Water Gross Alpha (19) 0.3 < LLD (pico Curie / liter) Gross Beta (76) 0.6 2.9 (73/75)(b) 1.3 -8.0 Tritium (81) 100 440 (77/81) 80- 800 Gamma (1) 10-60 < LLD Air Particulates Gross Alpha (188) 0.001 0.003 (35/188) 0.002 -0.004 and Gaseous Gross Beta (927) 0.006 0.07 (927/927) 0.02 -0.32 (pico Curie /cubic meter) Sr-89 (0) ....Sr-90 (0) ....1-131 (816) 0.04 0.08 (2/816) 0.07-0.08 Gamma (197) ....Zr/Nb-95 0.005 0.04 (122/197) 0.01 -0.16 Ru-106 0.010 0.04 (50/197) 0.02 -0.09 Ce-141 0.010 0.02 (3/197) 0.01 -0.04 Ce-144 0.010 0.02 (44/197) 0.01 -0.04 Others < LLD (f) Fraction of detectable measurements at specified location.I I I I I I I I I I I I I I I I I I I 2-22 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-3 (Continued)
Pre-Operational Environmental Radiological Monitoring Program Summary Name of Facility:
Beaver Valley Power Station Docket No.: 50-334 Location of Facility:
Beaver County, Pennsylvania Reporting Period: Calendar years 1974 -1975 Medium or Pathway Analysis and Total Lower Limit All Indicator Locations Sampled Number of Analysis of Detection Mean, (f) Range (Unit of Measurement)
Performed (LLD)Milk 1-131 (91) 0.25 0.6 (4/91) 0.3-0.8 (pico Curie / liter) Sr-89 (134) 5 7 (4/134) 6 -11 Sr-90 (134) 1 5.3 (132/134) 1.5 -12.8 Gamma (134) ....Cs-137 10 13 (19/134) 11 -16 Others < LLD External Radiation y -Monthly (599) 0.5 rnR* 0.20 (599/599) 0.08 -0.51 (milli Roentgen / day) y -Quarterly (195) 0.5 mR* 0.20 (195/195) 0.11 -0.38 y -Annual (48) 0.5 mR* 0.19 (48/48) 0.11 -0.30 Fish Gross Beta (17) 0.01 1.9 (15/17) 1.0 -3.2 (pico Curie / gram) wet Sr-90 (17) 0.005 0.14 (17/17) 0.02 -0.50 Gamma (17) 0.5 K-40 2.4 (17/17) 1.0-3.7 Others < LLD LLD in units of mR -Lower end of useful integrated exposure detectability range for a passive radiation detector (TLD).(a) May include Ru-106, Ru-103, Be-7.(b) One outlier not included in mean. (Water taken from dried-up spring with high sediment and potassium content. Not considered typical groundwater sample).(f) Fraction of detectable measurements at specified location.2-23 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM B. Air Monitorin$!
- 1. Characterization of Air and Meteorology The air in the vicinity of the site contains pollutants typical for an industrial area. Air flow is generally from the southwest in summer and fiom the west in the winter.2. Air Sampling Program and Analytical Techniques I a. Program The air is sampled for gaseous radioiodine and radioactive particulates at each often (10)offsite air sampling stations.
The locations of these stations are listed in Table 2-1 and shown on a map in Figure 2-1.Samples are collected at each of these stations by continuously drawing two cubic feet per minute of atmosphere air through a glass fiber filter paper and a charcoal cartridge.
The glass fiber filter paper is used for collection of airborne particulates, while the charcoal cartridge is used for collection of radioiodine.
Samples are collected on a weekly basis.The charcoal cartridge is used in the weekly analysis of airborne Iodine-13
- 1. The glass fiber filter papers are analyzed each week for gross beta, then composited by station each quarter for gamma spectrometry analysis.
In order to reduce interference from short-lived naturally occurring radioactivity (e.g.; Radon and Thorium), the glass fiber filter papers are decayed prior to performing beta analysis in a low background counting system.b. Procedures Gross Beta Analysis of Filter Paper: Analysis is performed by placing the glass fiber filter paper from the weekly air sample in a 2 inch planchet and analyzing it in a low background, gas flow proportional counter. I Gamma Emitter Analysis of Filter Paper: Analysis is performed by stacking all of the glass fiber filter papers collected firom each monitoring station during the quarter and scanning this composite on a high resolution germanium gamma spectrometer.
Iodine-I131 Analysis of Charcoal Cartridge:
Analysis is performed by a gamma scan of each charcoal cartridge.
I I I I 2-24 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM 3. Results and Conclusions A summary of data is presented in Table 2-2.a. Airborne Radioactive Particulates Gross Beta: A total of five-hundred-twenty (520) weekly samples from ten (10) locations were analyzed for gross beta. Results were comparable to previous years. Figure 2-2 indicates the weekly average concentration of gross beta in air particulates.
Gamma Spectrometry:
The weekly air particulate samples were composited into forty (40)quarterly samples which were analyzed by gamma spectrometry.
Naturally occurring Beryllium-7 was identified in thirty-six of thirty-six (36 of 36) indicator samples, and four of four (4 of 4) control samples. No other gammas were identified.
A summary of the analysis results during the report period are listed in Table 2-2. A trend graph of analyses (including the pre-operational period through the report period) is shown on Figure 2-2.Deviations from Required Sampling and Analysis Schedule:
There were no deviations from the required airborne particulate sampling and analysis schedule during the report period.Summary: Based on the analytical results, the operation of BVPS did not contribute any measurable increase in air particulate radioactivity during the report period.b. Airborne Radioiodine Iodine- 131: A total of five-hundred-twenty (520) weekly charcoal filter samples were analyzed for Iodine- 131. Iodine- 131 was not identified in any of the four-hundred-sixty-eight (468) indicator samples, nor was it identified in any of the fifty-two (52) control samples.Deviations from Required Sampling and Analysis Schedule:
There were no deviations from the required airborne radioiodine sampling and analysis schedule during the report period.Summary: Based on analytical results, the operation of BVPS did not contribute any measurable increase in airborne radioiodine during the report period.2-25 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Figure 2-1 Environmental Monitoring Locations
-Air Sampling Stations i I I I I I I I I I I I I i I i I i Distanc Site e Sample Type No. Sector (miles) Sample Point Description 13 11-SW 1.49 Hookstown, PA (Old Meyer Farm)27 7-SE 6.14 Aliquippa, Pa (Brunton Farm)28 1-N 8.60 Beaver Falls, PA (Sherman Farm)29B 3-NE 7.97 Beaver, PA (Friendship Ridge)Air Particulate 30 4-ENE 0.43 Shippingport, PA (Cook's Ferry Substation)
& Radiolodine 32 15-NW 0.75 Midland, PA (North Substation
-Rt. 68)46.1 2-NNE/ 2.28 Industry, PA (McKeels Service -Rt. 68)3-NE 47 14-WNW 4.88 East Liverpool, OH (Water Department) 48 10-SSW 16.40 Weirton, WV (Water Tower, Collier Way)51 5-E 8.00 Aliquippa, PA (Sheffield Substation) 2-26 0 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-2 Graph of Annual Average Concentration:
Gross Beta in Air Particulates Beaver Valley Power Station REMP Environmental Air Particulate Samples -Gross Betal 0.20 0 .1 8 -A--- * -- ----------------------------------------------- ---------------- --------_- -----------0.16 ----- -----------------------------
E A----- Control Location 3 0.14------"--------------------------------------------
Pre-Operationa Ivalue (0.07 pCi/cubic meter) ---0.10.12----
-Required LLD (0.Ol1pCi/cubic meter) ---0.1 a). 0.102N eotn evlfrGosBt E 0.0 C.)0 0.00 00,b0 , , v , --, , 2-27 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM C. Monitoring of Shoreline Stream Sediment and Soil 1. Characterization of Shoreline Stream Sediment and Soil The stream sediment (river bottoms) consists largely of sand and silt. Soil samples may vary from sand and silt to a heavy clay with variable amounts of organic material.2. Sampling Program and Analytical Techniques
- a. Program Shoreline stream sediment was collected semi-annually above the Montgomery Dam, in I the vicinity of the BVPS outfall structure, and above the New Cumberland Dam. A Ponar or Eckman dredge is used to collect the sample. The sampling locations are also listed in Table 2-1 and are shown in Figure 2-3.Although not required by the ODCM, soil samples are collected every three years. Soil samples were collected at each of the ten (10) locations during 2012 and are scheduled to I be collected again in 2015. At each location, twelve (12) core samples (3" diameter by 2" deep) are gathered at prescribed points on a 10 foot radius circle. Each location is permanently marked with reference pins. Each set of samples is systematically selected by moving along the radius in such a manner as to assure representative undisturbed samples.Sampling locations are listed in Table 2-1 and are shown in Figure 2-3.Shoreline stream sediment and soil are analyzed for gamma-emitting radionuclides.
I b. Analytical Procedures Gamma Emitter Analysis of Stream Sediment:
Analysis is performed in a 300 ml plastic bottle, which is analyzed by gamma spectrometry.
Gamma Emitter Analysis of Soil: Although not required by the ODCM, analysis is performed in a 300 ml plastic bottle, which is analyzed by gamma spectrometry.
I I I I I 2-28 I Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM 3. Results and Conclusions A summary of the analysis results during the report period are listed in Table 2-2. A trend graph of analyses (including the pre-operational period through the report period) is shown on Figure 2-4 and Figure 2-5.a. Shoreline Stream Sediment Gamma Spectrometry:
A total of six (6) sediment samples were analyzed by gamma spectrometry during the report period. Naturally occurring Potassium-40, Thalium-208, Lead-212, Lead-214, Bismuth-214, Radium-226 and Actinum-228, were detected in four of four (4 of 4) indicator samples and two of two (2 of 2) control samples.Cesium-137:
Radionuclide Cesium-137 was identified in four of four (4 of 4) indicator samples and two of two (2 of 2) control samples. The results were similar to previous years (current year range = 0.04 to 0.19 pico Curie / gram) and less than the pre-operational level of 0.4 pico Curie / gram. Also, because Cesium-137 was identified at the control location (upstream), then it was not due to plant effluent releases and is most likely residual contamination due from previous nuclear weapons tests.Cobalt-58:
Radionuclide Cobalt-58 was identified in two of four (2 of 4) indicator samples and zero of two (0 of 2) control samples. The samples which indicated Cobalt-58 were obtained at the shore line of the BVPS Main Outfall Facility.
The results were similar to previous years (current range = LLD to 0.14 pico Curie / gram), and the data is slightly higher than the BVPS Main Outfall Facility pre-operational level of 0.098 pico Curie /gram.Cobalt-60:
Radionuclide Cobalt-60 was identified in two of four (2 of 4) indicator samples and zero of two (0 of 2) control samples. The samples which indicated Cobalt-60 were obtained at the shore line of the BVPS Main Outfall Facility.
The results were slightly higher than previous years (current range = 0.39 to 0.42 pico Curie / gram), and the data is currently slightly higher than the BVPS Main Outfall Facility pre-operational level of 0.4 pico Curie / gram.Deviations from Required Sampling and Analysis Schedule:
There were no deviations from the required sediment sampling and analysis schedule during the report period.Summary: The identification of Cobalt-58 and Cobalt-60 in the shoreline stream sediment near the main outfall facility is not unusual because the plant discharges these radionuclides in liquid effluent releases.
The analyses are consistent with discharge data of authorized liquid effluent releases, and all liquid effluent releases during the report period did not exceed the release limits set forth in the ODCM.2-29 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM b. Soil RTL A9.690E Enclosure 3 Although not required by ODCM, soil is sampled every three years and was sampled in 2012. Soil sampling will be performed during the calendar year 2015.I I I I I I I I I I I I I I I I I I I 2-30 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-3 RTL A9.690E Enclosure 3 Environmental Monitoring Locations
-Shoreline Sediments and Soil 2-31 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Figure 2-4 Graph of Annual Average Concentration:
Cesium-137, Cobalt-58
& Cobalt-60 in Sediment P k Beaver Valley Power Station REMPI Cs-137 Sediment Trends -Outfall Vicinity 1000.00 1 0 0 .0 0 --------------------------------------------------------------------------------------------------------------------------------.---Cs-137 E 10.00 ----------------------
- - Control Location Cs-137 ---------...........
..... -.............
...................
z -Cs- 137 Pre-operationalResults (0.4 pCi/gm)Cs 137Required 0(180pCilgm)
E No Reporting LevelforSediment o ,., 100 ~..oJ.= , oL 010 -- .--- ------a.- ---0.01, , 4 _,,1, 16, IP I' 1s , , I I I I I I I I I I I I I I I I I I I Beaver Valley Power Station REMP Co-58 & Co-60 Sediment Trends -Outfall VicinityI_0--- Co-58 Unit 2 Pre- Operational Mean: Co-58 (0.098 pci/gm)m-.. It-60 100.00 Unit2 Pre-Operational Mean: Co-60 (0.40 pCi/grar)-No Required LLD forCo-58 orCo-60-No Reporting Limrit forCo-58 or Oo-60 10 .00 ............
...........
...........
.... ....... -..............
...............
...............
...............
...............
E \q cm N S.1 I * '0.010 E A ,1A ,4` ,, , ,0 ,1- ,- ,§, ,P ,0 ,b, 10 0A O N" 2-32 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-5 Graph of Annual Average Concentration:
Cesium-137 in Soil RTL A9.690E Enclosure 3 Beaver Valley Power Station REMP Cs-1 37 Soil Trends (Tri-Ennial)
I 1.44-.-.------.-.----------.--.-------------------------.----.-----------------.-----.--------------.-------.--------.------------------------
1.2, E, 1.0------------------------------------------------------------------------ -Control Location--
a.-No Reporting Level for Soil 0.8 0.4 0.0 ,E 0.8 ,------ ------ ----------------
,--- -------------------
b --- 2-33 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM D. Monitoring of Feedstuff and Foodcrops RTL A9.690E Enclosure 3 1.Characterization of Farm Products According to the 2007 Census of Agriculture
- 1) there were 824 farms in Beaver County. Total market value of production (Crops and Livestock) was $15,187,000.00.
Some of the principal sources of revenue (>$50,000.00) are as follows: Milk and Other Dairy Products from Cows $5,647,000.00 Nursery, Greenhouse, Floriculture and Sod $2,813,000.00 Grains, Oil Seeds, Dry Beans and Dry Peas $1,243,000.00 Other Crops and Hay $1,120,000.00 Vegetables, Melons, Potatoes and Sweet Potatoes $989,000.00 Fruits, Tree Nuts and Berries $449,000.00 Poultry and Eggs $327,000.00 Cut Christmas Trees, and Short Rotation Woody Crops $204,000.00 Horses, Ponies, Mules, Burros, and Donkeys $182,000.00 Sheep, Goats and their Products $90,000.00 Hogs & Pigs Undisclosed Amount Aquaculture Undisclosed Amount Cattle and Calves Undisclosed Amount Other Animals and Other Animal Products Undisclosed Amount (1) http://www.agcensus.usda.gov/Publications/2007/OnlineHighlights/CountyProriles/Pennsylvania/index.asp I I I 2-34 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM 2. Sampling Program and Analytical Techniques
- a. Program Feedstuff:
Although not required by the ODCM, representative samples of Feedstuff (cattle feed) are collected monthly from the nearest daiiy farm (Searight Dairy). See Figure 2-6. Each .sample is analyzed by gamma spectrolnetry.................
Foodcrops (leafy vegetables):
Foodcrops are collected at garden locations during the growing season. Leafy vegetables, (e.g. cabbage) are obtained from Shippingport, Georgetown, and Industry, Pennsylvania.
Samples are obtained from two additional locations based upon the highest predicted annual average ground D/Q when milk locations are unavailable.
Samples are also obtained from the control location in Weirton, West Virginia.
All samples are analyzed for gamma emitters by gamma spectrometry.
Samples are also analyzed by radiochemical analysis for. Iodine-131.
- b. Procedures Gamma Emitter Analysis of Foodcrops:
Analysis is performed by scanning a dried, homogenized sample with a gamma spectrometry system. A high resolution germanium detector is utilized with this system. Samples of feedstuff and foodcrops are loaded into tare weight 300 or 150 ml plastic bottles or 1-liter Marinelli containers, weighed and the net weight of the sample is determined prior to scanning for gamma emitters.Gamma Emitter Analysis of Feedstuff:
Although not required by the ODCM, analysis is performed by scanning a dried, homogenized sample with a gamma spectrometry system.A high resolution germanium detector is utilized with this system. Samples of feedstuff and foodcrops are loaded into tare weight 300 or 150 ml plastic bottles or 1-liter Marinelli containers, weighed and the net weight of the sample is determined prior to scanning for gamma emitters.Iodine-131 Analysis of Foodcrops:
Analysis is performed by radiochemistry.
A stable iodide carrier is added to a chopped sample, which is then leached with a sodium hydroxide solution, evaporated to dryness and fused in a muffle furnace. The melt is dissolved in water, filtered and treated with sodium hypochlorite.
The iodate is then reduced to iodine with hydroxylamine hydrochloride and is extracted into toluene. It is then back-extracted as iodide into sodium bisulfite solution and is precipitated as palladium iodide. The precipitate is weighed for chemical yield and is mounted on a nylon planchet for low level beta counting.2-35 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Carbon-14 Analysis of Foodcrops:
Analysis is performed by accelerator mass spectrometry radiocarbon dating. Samples are converted into solid graphite via combustion and various chemical reactions.
Samples (and reference materials) are pressed into metal discs and loaded onto a target wheel where ions from a Cesium gun are fired at the discs to create negatively charged carbon atoms. Ions are then passed along a stripper I causing them to lose their electrons and gain a triple positive charge. At this point, only carbon atoms remain because othermolecules in the sample cannot maintain this triple positive state. For mass analysis, a magnetic field is applied to the moving particles which I causes them to deflect along the path they are traveling in relation to their masses, allowing the number of particles to be measured.3. Results and Conclusions I A summary of the analysis results during the report period are listed in Table 2-2. A trend graph of analyses (including the pre-operational period through the report period) is shown on I Figure 2-7.a. Feedstuff Gamma Spectrometry:
Although not required by the ODCM, a total of twelve (12)samples were analyzed by gamma spectrometry.
Naturally occurring Potassium-40 was identified in twelve of twelve (12 of 12) samples. Naturally occurring Beryllium-7 was found in five of twelve (5 of 12) samples.Deviations from Required Sampling and Analysis Schedule:
There were no deviations from the required feedstuff sampling and analysis schedule during the report period.Summary: The data from the feedstuff analyses was consistent with previous data. Based on the analytical results, the operation of BVPS did not contribute any measurable increase in radioactivity in the feedstuff in the vicinity of the site during the report period b. Foodcrops Iodine-13 1: A total of thirteen (13) samples were analyzed for Iodine-13
- 1. No detectable I concentrations were present in the ten (10) indicator samples or the three (3) control samples.Gamma Spectrometry:
A total of thirteen (13) samples were analyzed by gamma spectrometry.
Naturally occurring Potassium-40 was identified in ten of ten (10 of 10)indicator samples and three of three (3 of 3) control samples.Carbon-14:
Although not required by the ODCM, a total of three (3) samples were analyzed.
Radionuclide carbon-14 was identified in two of two (2 of 2) indicator samples and one of one (1 of 1) control samples.Deviations from Required Sampling and Analysis Schedule:
There were no deviations from the required foodstuff sampling and analysis schedule during the report period.I 2-36 I Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Summary: The data from the foodcrops analyses was consistent with previous data. Based on the analytical results, the operation of BVPS did not contribute any measurable increase in radioactivity in the foodcrops in the vicinity.
of thesite during the report period.............~~Q ...............2-37 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Figure 2-6 I I I I I I I I I I I I I I I I I I I Environmental Monitoring Locations
-Feedstuff and Foodcrops Sample Site Distance Type No. Sector (miles) Sample Point Description Feed 25 10-SSW 2.10 Hookstown, PA (Searight Farm)10* *
- Shippingport, PA Food*
- Georgetown, PA 46* *
- Industry, PA 48* *
- Weirton, WV* *
- 2 locations based on highest predicted D/Q Individual garden locations may change based upon availability.
The requirements are met as long as one garden is sampled from each of these communities.
2-38 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-7 Graph of Annual Average Concentration:
Cesium-137 in Feedstuff and Foodcrops Beaver Valley Power Station REMP Cs-137 Feedstuff and Foodcrops Trends 100... Cs- 137 (Feedstuff)
-Cs- 137 (Foodcrops) 10 -------------------------------
Cs- 137 Pre-operational Results-Cs- 137 Required LLD (80 pCi/kg) Wet No Reporting Level forFeed or Food 0.2 0.C)0.01ý,; ý,411 ý,41 1,41 1,41,10 .,10, ,,01r 2-39 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM E. Monitoring of Local Cow and Goat Milk 1. Description
-Milch Animal Locations Samples of fresh milk are obtained from milch animals at locations and frequencies noted in Table 2-1. The milk is analyzed for its radioiodine content, gamma emitters, Strontium-89 and Strontium-90.
Detailed field surveys are performed during the grazing season to locate and enumerate milch animals within a five (5) mile radius of the site. Survey data for the most recent survey conducted is shown in Section 3, Land Use Census.2. Sampling Program and Analytical Techniques
- a. Program Cow milk was collected from the two (2) reference dairy farms within a 10-mile radius of the BVPS. These milk samples were obtained at the Searight Dairy Farm (2.1 miles SSW)and the Brunton Dairy Farm (6.1 miles SE).Cow milk was also collected from one (1) other dairy farm within a 10-mile radius of the BVPS site. The cow milk samples obtained at the Halstead Dairy Farm (5.1 miles SSW)was selected based on milch animal surveys and evaluations of meteorological data (i.e.;deposition parameters).
It was added to the sampling program to ensure the highest potential milk pathway for radioiodine uptake is evaluated.
Had goat milk been available from the Collins Farm (3.5 miles SE), samples may have been obtained at these locations as well. The dairies are subject to change based upon availability of milk or when more recent data (milch animal census, and/or change in meteorological conditions) indicate other locations are more appropriate.
Cow milk was also collected from the one (1) control location dairy farm outside of the 10-mile radius. These milk samples were obtained at the Windsheimer Dairy Farm (10.4 miles SSW).The cow milk sample from the Searight Dairy Farm (2.1 miles SSW) is collected and analyzed weekly for Iodine- 131 using a method that ensures a high sensitivity.
Samples I from each of the other dairies are collected monthly when cows are indoors and bi-weekly when cows are grazing. The monthly and/or bi-weekly sample is analyzed for principle gamma emitters (including Cesium-137 by high resolution germanium gamma spectrometry), and Iodine-131 high sensitivity analysis.
Although not required by the ODCM, the monthly and/or bi-weekly sample is also analyzed for Strontium-89, Strontium-90.
I 2-40 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM The location of each is shown in Figure 2-8 and described below.RTL A9.690E Enclosure 3 Approximate Distance and Direction Collection Number of Animals from Midpoint between Period-being Milked Unit 1 and Unit 2 Reactor 25* Searight Dairy 8 Cows 2.1 miles SSW January thru 948 McCleary Road December Hookstown, PA 27 Brunton Dairy 95 Cows 6.1 miles SE January thru 3681 Ridge Road December Aliquippa, PA 96 Windsheimer Dairy 76 Cows 10.4 miles SSW January thru RD #11 December Burgettstown, PA Halstead Dairy 35 Cows 5.1 miles SSW January thru 113* 104 Tellish Drive December Hookstown, PA* Highest potential pathway dairies based on evaluation of deposition parameters 2-41 I Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM b. Procedure Iodine-131 Analysis of Milk: The milk samples are chemically prepared, and then analyzed with a low-level beta counting system.Gamma Emitter Analysis of Milk: This is determined by gamma spectrometry analysis of a 1 liter Marinelli container of milk.Strontium-90 Analysis of Milk: Although not required by the ODCM, the milk samples are prepared by adding a stable strontium carrier and evaporating to dryness, then ashing in a muffle furnace, followed by precipitating phosphates.
Strontium is purified in all samples I by the Argonne method using 3 grams of extraction material in a chromatographic column.Stable yttrium carrier is added and the sample is allowed to stand for a minimum of 5 days for the in-growth of Yttrium-90 (Y-90). Yttrium is then precipitated as hydroxide dissolved and re-precipitated as oxalate. The yttrium oxalate is mounted on a nylon planchet and is counted in a low-level beta counter to infer Strontium-90 activity.Strontium-89 Analysis of Milk: Although not required by the ODCM, the Strontium-89 activity is determined by precipitating strontium carbonate (SrCO 3) from the sample after Yttrium separation.
This precipitate is mounted on a nylon planchet and is covered with an I 80 mg/cm 2 aluminum absorber for low level beta counting.
Chemical yields of Strontium and Yttrium are determined by gravimetric means.3. Results and Conclusions A summary of the analysis results during the report period are listed in Table 2-2. A trend graph of Iodine-131 and Strontium-90 analyses (including the pre-operational period through the report period) is shown on Figure 2-9.a. Strontium-89:
Although not required by the ODCM, a total of eighty (80) milk samples I were analyzed for Strontium-89 during the report period. Strontium-89 was not detected in any of the sixty (60) indicator samples, nor was it detected in any of the twenty (20) control samples.b. Strontium-90:
Although not required by the ODCM, a total of eighty (80) milk samples were analyzed for Strontium-90 during the report period. Strontium-90 was detected in I thirty four of sixty (34 of 60) indicator samples and eighteen of twenty (18 of 20) control samples. The levels detected were attributable to previous nuclear weapons tests and are within the normally expected range. I c. Gamma Spectrometry:
A total of eighty (80) milk samples were analyzed by gamma spectrometry during the report period. Naturally occurring Potassium-40 was present in sixty of sixty (60 of 60) indicator samples and twenty of twenty (20 of 20) control samples.No other gamma-emitting radionuclides were identified during analysis.I 2-42l Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM d. Iodine-13 1: A total of one hundred eight (108) milk samples were analyzed for Iodine-13 1 during the report period. Iodine-13 1 was not detected in any of the eighty eight (88)indicator samples, nor was it detected in any of the twenty (20) control samples.e. Deviations from Required Sampling and Analysis:
There was a deviation from the required milk sampling and analysis schedule for the reporting period. Not enough milk samples were available from locations within the 5 mile radius this year. The unavailability of goat milk caused the REMP to not meet the ODCM sample requirements in 1/2-ODC-2.03 and in 1/2-ODC-3.03, Attachment Q Table 3.12-1 stating that a minimum of four (4) milk locations shall be sampled. This initiated the ODCM requirement for sampling two additional garden locations based upon the highest predicted annual average D/Q when milk locations are not available.
- f. Summary: Based on all the analytical results and the comparison to pre-operational levels, the operation of BVPS did not contribute any measurable increase in radioactivity in the milk in the vicinity of the site during the report period.2-43 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-8 Environmental Monitoring Locations
-Milk RTL A9.690E Enclosure 3 I I I I I I I I I I I I I I U I I I I Site Distance Sample Type No. Sector (miles) Sample Point Description 25 10-SSW 2.1 Hookstown, PA (Searight Farm)Milk 27 7-SE 6.1 Aliquippa, PA (Brunton Farm)96 10-SSW 10.4 Burgettstown, PA (Windsheimer Farm)113 10-SSW 5.1 Hookstown, PA (Halstead Farm)2-44 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Figure 2-9 Graph of Annual Average Concentration:
& Sr-90 in Milk Beaver Valley Power Station REM P 1-131 Concentrations in Milk 14.0, Chernobyl Acdcidnt]1 22 00 .................................. ..............................................................................................10.0 ------------
-- ... .......ppns. Average atthe l ndicatorLocation
..................
A .. Control Location_. -Pre- Operational value (0.6 pCi I liter)8.0 1-------------------------------
-Required LLD (lpCi/liter)
-Reporting Level (3 pCi/liter) o 6.0 6.0 --- ------------------------
"5..0.0 2 .----------------------------- -------------------------- -----Beaver Valley Power Station REMP Sr-90 Concentrations in Milk I 10 9 8 7 o 6 5.~ 4 0 3 0.A A-*-A- A _ý.A _ -- ---I lb J,'2-45 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM F. Environmental Radiation Monitoring
- 1. Description of Regional Background Radiation and Sources Historical information for regional background was obtained from Reuter-Stokes instruments that were previously located within a five (5) mile radius of the BVPS site. Data is no longer available from these instruments, but historical data indicated that the background exposure rates ranged from 6 jtR/hr to 12 gRlhr.The sources of background radiation are affected by the terrain in the vicinity of BVPS, where as, the local hills (i.e., with altitude variations of 300-400 feet) and densely wooded areas contribute to differences in background radiation level. Other sources (e.g., Radon) are affected by the geological features of the region, which are characterized by nearly flat-laying sedimentary beds of the Pennsylvania Age. For information, the local sedimentary beds of I limestone alternate with sandstone and shale with abundant interbedded coal layers. Pleistocene glacial deposits partially cover the older sedimentary deposits in the northwest.
Most of the region is underlain by shale, sandstone, and some coal beds of the Conemaugh Formation.
I Outcrops of sandstone, shale, and limestone of the Allegheny Formation exist within the Ohio River Valley and along major tributary streams.2. Locations and Analytical Procedures Ambient external radiation levels around the site were measured using thermoluminescent dosimeters (TLDs).During the report period, there were a total of sixty-six (66) environmental TLD locations.
This is comprised of forty-four (44) offsite locations, along with twenty two (22) fence perimeter locations.
The offsite TLD locations are plotted on Figure 2-10, but the fence perimeter locations are not plotted due to the large scale of the figure.The TLDs were annealed at the Contractor Central Laboratory shortly before placing the TLDs in their field locations.
The radiation dose accumulated in-transit between the Central Laboratory, the field location, and the Central Laboratory was corrected by transit controls I maintained in lead shields at both the Central Laboratory and the field office. All dosimeters were exposed in the field for a calendar quarter, in a specific holder that contains two (2) TLDs at each location.3. Results and Conclusions A summary of the TLD results during the report period are listed in Table 2-2. A trend graph of analyses (including the pre-operational period through the report period) is shown on Figure 2-11.TLD Analysis:
During the report period, the average quarterly external exposure rate (as measured from TLD) was 17.8 mR at the sixty-six (66) indicator locations, and 19.4 mR at the Control location.
This external exposure rate is comparable to previous years. As expected, there was some variation in external exposure rate among locations and seasons.I 2-46I Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Deviations from Required Sampling and Analysis Schedule:
There were some deviations from the required TLD sampling and analysis schedule during the report period. Specifically, the following events occurred: Station #30 (Shippingport
-Cooks Ferry Sub Station, 0.5 miles ENE) was found to be out of service during sample period 04/08/2013 through 04/15/2013 due to a blown fuse. The sample station was out of service for approximately 97 hours0.00112 days <br />0.0269 hours <br />1.603836e-4 weeks <br />3.69085e-5 months <br /> and 32 minutes (documented in Condition Report #2013-06015).
Station #27 (Brunton's Dairy Farm, 6.16 miles SE) and Station #46.1 (Industry
-McKeel's Service, 2.28 miles NNE/NE) were found to be out of service during the sample period of 07/08/2013 through 07/15/2013.
The cause was determined to be from local power outages.Brunton's Dairy returned to service on its own once power was restored, but the sample unit at McKeel's Service had a blown fuse which was replaced upon discovery.
Brunton's Station was out of service for approximately 23.7 hours8.101852e-5 days <br />0.00194 hours <br />1.157407e-5 weeks <br />2.6635e-6 months <br /> and McKeel's was out of service for approximately 120.0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> (documented in Condition Report #2013-10952).
Station #48 (Weirton, WV -Weirton Water Tower, 16.3 miles SSW) was found to be out of service during sample period 08/05/2013 through 08/12/2013 due to shattered veins in the air pump. The sample station was out of service for approximately 98 hours0.00113 days <br />0.0272 hours <br />1.62037e-4 weeks <br />3.7289e-5 months <br /> and 50 minutes (documented in Condition Report #2013-12495).
Station #94 (Hookstown
-McCleary & Pole Cat Hollow Rds, 2.2 miles SSE) was missing two of the two TLDs for the 3rd quarter 2013 (documented in Condition Report #2013-15774).
1/2-ODC-2.03, ODCM: Radiological Environmental Monitoring Program lists REMP sample stations #94 as I of 44 TLD locations.
1/2-ODC-3.03, ODCM: Controls for RETS and REMP Programs, only requires that 40 offsite locations be obtained with quarterly collection of at least 2 TLDs at each site. Therefore, BVPS still meets the minimum ODCM requirements by having complete data for 43 of 44 sample stations available.
Summary: The quarterly TLD external exposure rates are comparable to those of previous decade. There was no evidence of anomalies that could be attributed to the operation of BVPS.It should also be noted that the average external exposure rate at the indicator locations was less than average external exposure rate at the Control location.
Based on all the analytical results and the comparison to pre-operational levels, the operation of BVPS did not contribute any measurable increase in external exposure in the vicinity of the site during the report period. The TLD exposure rates also confirm that changes from natural radiation levels, if any, are negligible.
2-47 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-10 Environmental Monitoring Locations
-TLDs RTL A9.690E Enclosure 3 2-48 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-10 (Continued)
TLD Locations RTL A9.690E Enclosure 3 SOUTHEAST QUADRANT Site Sector Distance Location Site Sector Distance Location No. (miles) No. (miles)27 7:SE 6.14 Brunton Dairy Farm ...........
78 7-SE 2.72 Racoon Twsp Municipal Building Aliquippa, PA Raccoon Township, PA 45.1 6-ESE 1.92 Kennedy's Comers 79 8-SSE 4.46 106 State Route 151 Green Twp.Raccoon Township, PA Ted McWilliams Auto Body 51 5-E 8.00 Sheffield Substation 80 9-S 8.27 Park Office, State Route 18 Aliquippa, PA Raccoon Township, PA 59 6-ESE 0.99 236 Green Hill Road 82 9-S 6.99 2697 State Route 18_ Aliquippa, PA Raccoon Twp, PA 76 6-ESE 3.80 Raccoon Elementary School 94 8-SSE 2.25 McCleary & Pole Cat Hollow Road Raccoon Township, PA Hookstown, PA 77 6-ESE 5.52 3614 Green Garden Road Aliquippa, PA NORTHWEST QUADRANT Site Sector Distance Location Site Sector Distance Location No. (miles) No. (miles)15 14-WNW 3.75 Post Office 87 14- 7.04 50103 Calcutta Smith's Ferry Road Georgetown, PA WNW 32 15-NW 0.75 North Substation 88A 15-NW 2.8 Route 168;Midland Heights PA Midland, PA 47 14-WNW 4.88 Water Department 89 15-NW 4.72 488 Smith's Ferry Road East Liverpool, OH Ohioville, PA 60 13-W 2.51 444 Hill Road 90 16-NNW 5.20 6286 Tuscarawras Road Georgetown, PA Midland, PA 86 13-W 6.18 1090 Ohio Avenue 93 16-NNW 1.10 104 Linden -Sunrise Hills East Liverpool, OH Midland, PA NORTHEAST QUADRANT Site Sector Distance Location Site Sector Distance Location No. (miles) No. (miles)10 3-NE 0.94 Post Office 70 I-N 3.36 236 Engle Road 4-ENE Shippingport, PA Industry, PA 28 I-N 8.60 Sherman Farm. 71 2-NNE 6.01 First Western Bank Brighton Twp, PA Brighton Township, PA 29B 3-NE 7.97 Friendship Ridge 72 3-NE 3.25 Ohioview Lutheran Church -Rear Beaver, PA Raccoon Twp, PA 30 4-ENE 0.43 Cook's Ferry Substation 73 4-ENE 2.48 618 Squirrel Run Road Shippingport, PA Industry, PA 45 5-E 2.19 Christian House Baptist Chapel, State Rte 18 74 4-ENE 6.92 137 Poplar Avenue (CCBC)Raccoon Township, PA Monaca, PA 46 3-NE 2.49 Midway Drive 75 5-E 4.08 117 Holt Road Industry, PA Aliquippa, PA 46.1 2-NNE 2.28 McKeel's Service, State Route 68 91 2-NNE 3.89 Pine Grove Road & Doyle Road 3-NE Industry, PA Industry SOUTHWEST QUADRANT Site No.Sector Distance (miles)Location Site No.Sector Distance (miles)Location 13 Il-SW 1.49 Old Meyer Farm Hookstown, PA 14 11-SW 2.53 Hookstown, PA 48 1 0-SSW 16.40 Collier Way Water Tower Weirton, WV 81 9-S 3.69 Millcreek United Presbyterian Church 83 10-SSW 4.26 735 Mill Creek Road, Hookstown 84 1 I-SW 8.35 Senior Center Hancock County. WV 85 12- 5.73 2048 State Route 30 WSW West Chester, WV 92 12- 2.81 Georgetown Road Substation WSW Georgetown, PA 95 1 0-SSW 2.37 832 McCleary Road Hookstown, PA 2-49 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Figure 2-11 Graph of Annual Average Exposure:
Direct Radiation in Environment Beaver Valley Power Station REM PI Environmental TLD Trends I 0 .2 4 -.--------------------------------------------------------------------------------------------------------------------------------------o .1. 'A "& .A : ..,' .7" .0.20 0 .1 4 ..A v e ra g e o f 6 3 In d ic a to r L o c a tio n s ...... ...... ... ... .... ...............
.. .. .... .... ..........
..... ..... .. ..S* .,-... Control Location (Weirton WV)Pre- Operational Value (0.2 mrem / day).0.10. .........2-50 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM G. Monitoring of Fish I. Description During the report period, fish collected for the radiological monitoring program included channel catfish, shorthead redhorse, quillback, blackfinned carp, smallmouth bass, carp, freshwater drum, red horse, gizzard shad, and catfish.2. Sampling Program and Analytical Techniques
- a. Program Fish samples are collected semi-annually in the New Cumberland pool of the Ohio River at the Beaver Valley effluent discharge point and upstream of the Montgomery Dam. The edible portion of each different species caught is analyzed by gamma spectroscopy.
Fish sampling locations are shown in Figure 2-12.b. Procedure A sample is prepared in a standard tare weight 300 ml plastic bottle and scanned for gamma emitting nuclides with gamma spectrometry system which utilizes a high resolution germanium detector.3. Results and Conclusions A summary of the analysis results during the report period are listed in Table 2-2. A trend graph of analyses (including the pre-operational period through the report period) is shown on Figure 2-13.Gamma Spectrometry:
A total of seventeen (17) fish samples were analyzed by gamma spectrometry during the report period. Gamma emitting radionuclides were not detected in any of the eleven (11) indicator samples, nor were they detected in any of the six (6) control samples.Deviations from Required Sampling and Analysis Schedule:
There were no deviations from the required fish sampling and analysis schedule during the report period.Summary: Based on the analytical results, the operation of BVPS did not contribute any measurable increase in radioactivity in the Ohio River fish population during the report period.2-51 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Figure 2-12 Environmental Monitoring Locations
-Fish Site Distance Sample Type No. Sector (miles) Sample Point Description 2A 12-WSW 0.31 BVPS Outfall Vicinity Fish 49A 3-NE 493 Industry, PA (Upstream Montgomery I I_ _ II _ IDam)2-52 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-13 Graph of Annual Average Concentration:
Cesium-137 in Fish RTL A9.690E Enclosure 3 Beaver Valley Power Station REMPI Cs-137 Concentrations
-Fish 10000,000 1000.000..
...............................---------------------------------------------------------------------------------------------------
100.000..
.................................---------------------------------------------------------------------------------------------------
... Cs- 137 10.000 --------------------------
-- Control Location -MontgomeryDam
-Unit2 Preoperational (0.014 pCi /gm)-Required LLD (150 pCi / gm)E 1.000----------------------------------------------------------RptigLvl20pi/m LU- Reporting Level (2000 pCi / g m)........
...............
0100-0.100 ..........................................................................................................................................
0.01 -t ---- -------------
t-t ---t- t---- ------- -------- -I ---- -- -------------- --- --I ----- ----i- l---- --0.001,q ,1b ,4ý ,4; ,-16 14,@ ,1:1: ,4R, ,41 111,@ 111, 2-53 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM H. Monitoring of Surface Water, Drinkin2 Water, Groundwater and Precipitation I. Description of Water Sources The Ohio River is the main body of water in the area. It is the main surface water supply for generation of drinking water in the area. The Beaver Valley Power Station obtains water from the Ohio River for plant make-up water and discharges water to the Ohio River via NPDES discharge points (e.g. cooling tower blowdown, liquid effluent releases, etc).The Ohio River is the main surface water supply source for towns, municipalities and industries both upstream and downstream of the BVPS site. The nearest user of the Ohio River as a potable water source is Midland Borough Municipal Water Authority.
The intake of the treatment plant is approximately
1.5 miles
downstream and on the opposite side of the river.The next downstream user is East Liverpool, Ohio which is approximately 6 miles downstream.
The heavy industries in Midland, as well as others downstream, also use river water for cooling purposes.Groundwater occurs in large volumes in the gravel terraces which lie along the river, and diminishes considerably in the bedrock underlying the site. Normal well yields in the bedrock are less than 10 gallons per minute (gpm) with occasional wells yielding up to 60 gpm.In general, the BVPS site experiences cool winters and moderately warm summers with ample annual precipitation evenly distributed throughout the year. The National Climate Data Center indicates the total annual precipitation during the report period for the Beaver Falls, PA area was 35.18 inches.2-54 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM 2. Sampling and Analytical Techniques
- a. Surface (Raw River) Water The sampling program of river water includes three (3) sampling points along the Ohio River. .........................................
..Raw water samples are collected daily at the East Liverpool (Ohio) Water Treatment Plant, sample location 5, [River Mile 41.2], and the made into a weekly composite sample. One automatic river water sampler is located at the ATI-Allegheny Ludlam (formerly J&L Steel) river water intake, sample location 2.1, [River Mile 36.2]. The automatic sampler takes a 20-40 ml sample every 15 minutes and samples are collected on a weekly basis.The weekly samples are then made into a monthly composite sample for each location.The monthly composite samples are analyzed for gamma emitters.
In addition, a quarterly composite sample is prepared for each sample point from the monthly composites.
Quarterly composites are analyzed for Hydrogen-3 (Tritium).
A weekly grab sample is taken upstream of the Montgomery Dam, sample location 49[River Mile 29.6]. This upstream sample at the Montgomery Dam is the control sample.The weekly grab samples upstream of the Montgomery Dam are analyzed for Iodine- 131.Weekly grab samples are then made into monthly composites are analyzed for gamma emitters.
Quarterly composite are prepared from each of the monthly composites.
The quarterly composites are analyzed for Tritium.Locations of each sample point are shown in Figure 2-14.b. Drinking Water (Public Supplies)Drinking water (i.e.; treated water) is collected at both the Midland, PA Water Treating Plant, sample location 4, and East Liverpool, OH Water Treating Plant, sample location 5.An automatic sampler at each location collects 20-40 ml every 20 minutes, which is then made into a weekly composite sample. The weekly composite sample from each location is analyzed for Iodine- 131. Monthly composites are made from the weekly samples and are analyzed by galnma spectrometry.
In addition, a quarterly composite sample is prepared for each sample point from the monthly composites.
Quarterly composites are analyzed for Tritium.A weekly grab sample is taken upstream of the Montgomery Dam, sample location 49A[River Mile 29.6]. This upstream sample at the Montgomery Dam is the control sample.The weekly grab samples upstream of the Montgomery Dam are analyzed for Iodine-13 1.Weekly grab samples are then made into monthly composites are analyzed by gamma spectrometry.
Quarterly composite are prepared from each of the monthly composites.
The quarterly composites are analyzed for Tritium.Locations of each sample point are shown in Figure 2-14.2-55 1 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM c. Groundwater Although not required by the ODCM, semi-annual grab samples were collected from two (2) locations within four (4) miles of the site (see Figure 2-14). These locations are: I One (1) well in Hookstown, PA One (1) well in Georgetown, PA I Each ground water sample is analyzed for Tritium and is analyzed by gamma spectrometry.
- d. Precipitation Although not required by the ODCM, precipitation is collected in Shippingport PA, East Liverpool OH, and Weirton WV. Precipitation, when available, is collected each week and then made into quarterly composite samples from the weekly samples. The quarterly composites are analyzed for Tritium and gamma emitters.
Locations of each of the sample U points are shown in Figure 2-14.e. Procedures Gamma Analysis of Drinking Water and Surface Water: The analysis is performed on water samples by placing one liter of the sample into a Marinelli container and analyzing the sample on a high resolution germanium gamma spectrometry system. Although not required by the ODCM, this analysis is also performed on Groundwater and Precipitation.
Tritium Analysis of Drinking Water and Surface Water: The Tritium is determined in I water samples by liquid scintillation analysis.
Although not required by the ODCM, this analysis is also performed on Surface Water, Groundwater and Precipitation.
I Iodine-131 Analysis of Drinking Water: The sample is chemically prepared and analyzed with a low-level beta counting system. Although not required by the ODCM, this analysis is also performed on Surface Water. I I I I I I 2-56m Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM 3. Results and Conclusions A summary of the analysis results of water samples (surface water, drinking water, ground water and precipitation) during the report period are listed in Table 2-2. A trend graph of analyses (including the pre-operational period through the report period) is shown on Figures 2-15 through 2-18.a. Surface Water Tritium: A total of twelve (12) surface water samples were analyzed for Tritium during the report period. Tritium was not detected in any of the eight (8) indicator samples, nor was it detected in any of the four (4) control samples.Gamma Spectrometry:
A total of thirty six (36) surface water samples were analyzed by gamma spectrometry during the report period. Gamma emitting radionuclides were not detected in any of the twenty four (24) indicator samples, nor were they detected in any of the twelve (12) control samples.Iodine-13 1: Although not required by the ODCM, a total of fifty two (52) surface water control samples were analyzed for Iodine-131 using radiochemical methods during the report period. Iodinel 31 was detected in twenty nine of fifty two (29 of 52) weekly control samples, of which zero (0) analysis exceeded the reporting level of 2 pico Curie / liter.The results were similar to previous years, (current years range = 0.2 to 1.6 pico Curie /liter). The positive results were detected at the Control location, which is five (5) miles upstream (not influenced by BVPS operation).
Identification of Iodine-131 during the report period was most likely due to medical diagnostic and treatment procedures from upstream facilities.
- b. Drinking Water Tritium: A total of twelve (12) drinking water samples were analyzed for Tritium during the report period. Tritium was not detected in any of the eight (8) indicator samples, there was no tritium analysis performed on the control samples, nor was it detected in any of the four (4) control samples.Gamma Spectrometrv:
A total of thirty six (36) drinking water samples were analyzed by gamma spectrometry during the report period. Gamma emitting radionuclides were not detected in any of the twenty four (24) indicator samples, nor were they detected in any of the twelve (12) control samples.Iodine- 131: A total of one hundred fifty six (156) drinking water samples were analyzed for Iodine- 131 (using radiochemical methods) during the report period. Iodine- 131 was detected in seventeen of one hundred four (17 of 104) indicator samples and twenty nine of fifty two (29 of 52) control samples. Some of the positive results at the downstream location exceeded the positive results from the upstream surface water Control location, but none of these analyses exceeded the reporting level of 2 pico Curie / liter. Because positive results were detected in the upstream control sample, some positive results are 2-57 I Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM most likely due to medical diagnostic and treatment procedures from upstream facilities, m and not caused by BVPS operations.
However, the analyses are also consistent with discharge data of authorized liquid effluent releases, and all liquid effluent releases during the report period did not exceed the release limits set forth in the ODCM. I c. Groundwater Tritium: Although not required by ODCM, a total of four (4) groundwater samples were analyzed for Tritium during the report period. Samples at the control station were not obtained due to lack of operating water wells. Tritium was not detected in any of the four (4) indicator samples.Gamma Spectrometry:
Although not required by ODCM, a total of four (4) groundwater samples were analyzed by gamma spectrometry during the report period. Gamma emitting radionuclides were not detected in any of the four (4) indicator samples.d. Precipitation I Tritium: Although not required by ODCM, a total of eleven (11) precipitation samples were analyzed for Tritium during the report period. Tritium was not detected in any of the I seven (7) indicator samples, and it was not detected in any of the four (4) control samples.Gamma Spectrometry:
Although not required by ODCM, a total of eleven (11)precipitation samples were analyzed by gamma spectrometry during the report period.Gamma emitting radionuclides were not detected in any of the seven (7) indicator samples, nor were they detected in any of the four (4) control samples.e. Deviations from Required Sampling and Analysis Schedule:
There were no deviations from the ODCM required water sampling and analysis schedule during the report period.f. Summary: Data from the water sample analyses demonstrate that BVPS did not contribute a significant increase of radioactivity in the local river, in the drinking water, in the well water, or in the precipitation.
The analytical results confirm that the station assessments, prior to authorizing radioactive discharges, are adequate and that the environmental monitoring program is sufficiently sensitive.
I I I I 2-58l Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-14 Environmental Monitoring Locations
-Ground Water, Surface Water, Drinking Water and Precipitation
)A.!41ý ~- I"A I Site Distance Sample Type No. Sector (miles) Sample Point Description Drinking 4 15-NW 1.26 Midland, PA (Water Department)
Water 5 14-WNW 4.90 East Liverpool, OH (Water Department)
Surface 2.1 14-WNW 1.43 Midland, PA (ATI Allegheny Ludlam)Water 5 14-WNW 4.90 East Liverpool, OH (Water Department) 49A 3-NE 4.93 Industry, PA (Upstream Montgomery Dam)Ground Water 14A 11-SW 2.61 Hookstown, PA 15B 14-WNW 3.75 Georgetown, PA 30 4-ENE 0.43 Shippingport, PA (Cook's Ferry Substation)
Precipitation 47 14-WNW 4.88 East Liverpool, OH ( Water Department) 1 48 10-SSW 16.40 Weirton WV ( Water Tower, Collier Way)2-59 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Figure 2-15 Graph of Annual Average Concentration:
Iodine-131 in Surface Water & Drinking Water Beaver Valley Power Station REMP 1-131 Surface Water & Drinking Water Trends 2.5 2.0* Down Stream Drinking Water- Midland x -Down Stream Drinking Water- East Liverpool A-- Control Location -Up Stream Surface Water 1.51 -Unit 2 DWPreoperational (0.23 pCiI liter)Required LLD (1 pCi / liter)-Reporting Level (2 pCi / liter)1.0 0 0.5 A\0.0 -AI I I I I I I I I I I I I I I I I I I I 2-60 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Figure 2-16 Graph of Annual Average Concentration:
Tritium in Surface Water_- -- -Indicator Mean (pCi/I)Beaver Valley Power Station REMPI-Pre- Operational (300 pCVI)Tritium Trends -Surface Water Required LLD (2,000 pCi/I)I -Reporting Level Surface Water(30,000 pCi/I)100000 10000 --0, 0j 1 0 00 -----------------. ....C.)10 ,oýA<:k o~b ,op~a ,c"q' ,poa~r ,C° " ,),b Cb ~, 2-61 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-17 Graph of Annual Average Concentration:
Tritium in Ground Water Beaver Valley Power Station REMPI ..-. ... IndicatorMean (pCi/l)I Control Location (pCiI /Tritium Trends -Groundwater IPre- Operational(440 pCi/I-Required LLD (2,000 pCifl)-Reporting Level Groundwater(30,000 pCi/I)100000 0.0:*13 10000-1000-100--------------------------------------------------
...............
---- ---------------------------------
------------------
------------------------------
APP'---------------------------------------------
..........10 1( 11 N 1 114% 100 2-62 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Figure 2-18 Graph of Annual Average Concentration:
Tritium in Drinking Water Beaver Valley Power Station REMPI Tritium Trends -Drinking Water I---e- -- IndicatorMean
-Control Location (pCi/I)Pre- Operational (310 pCi/I)-Required LLD (2,000 pCi/I)-Reporting Level Drinking Water(20,000 pCi/I)'Z 0 0.100000 10000 1000 100------------------------0 .- ---------------------------.-----------------------------------------------------------------------------------------J^1 0 .........41AN 4b16~ 14R 14b 1111 45l 6,e e I 2-63 1 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM 1. Estimates of Radiation Dose to Man I I. Pathways to Man -Calculational Models The radiation doses to man as a result of BVPS operations were calculated for both gaseous and liquid effluent pathways using computer codes for the ARERAS/MIDAS computer system.These computer codes are equivalent to NRC computer codes XOQDOQ2, GASPAR, and II LADTAP. Dose factors listed in the ODCM are used to calculate doses from radioactive noble -gases in discharge plumes. BVPS effluent data, based on sample analysis were used as the radionuclide activity input.All liquid and gaseous effluent radionuclides listed in the Annual Radioactive Effluent Release Report were input as source terms to the computer codes.All batch and continuous gaseous effluent releases were included in the dose assessment calculations.
The release activities are based on laboratory analysis.
Meteorological data collected by the BVPS Meteorology System was also used as input to the computer codes. I Except when more recent or specific data was available, the usage factors were obtained from the BVPS Final Environmental Statements or Regulatory Guide 1.109.All radioactive liquid effluents are released by batch mode after analysis by gamma spectrometry.
Each batch is diluted by cooling tower blowdown water prior to discharge into the Ohio River via the main outfall (River Mile 35.0). The actual data from these analyses are I tabulated and used as the radionuclide source term input to the computer code. Except when more recent or specific data was available, the usage factors were obtained from the BVPS Final Environmental Statements or Regulatory Guide 1.109.The total population doses were evaluated for all liquid and gaseous effluent pathways out to 50 miles. For these evaluations, a total population of-4 million people was used. An estimate of the populations are listed in the BVPS-2 UFSAR Section 2.1.3.1 for 0-10 miles and Section 2.1.3.2 for 10-50 miles.2. Results of Calculated Population Dose to Man -Liquid Effluent Releases I During the report period, the calculated dose to the entire population within 50 miles of the plant is presented in Table 2-4 for BVPS liquid effluent releases.
Also shown in this table is a I comparison to natural radiation exposure.3. Results of Calculated Population Dose to Man -Gaseous Effluent Releases During the report period, the calculated dose to the entire population within 50 miles of the plant is presented in Table 2-5 for BVPS airborne effluent releases.
Also shown in this table is a comparison to natural radiation exposure.
The doses include the contribution of all pathways.I 2-64 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM 4. Conclusions Based upon the estimated dose to individuals from the natural background radiation exposure in Tables 2-4 and 2-5, the incremental increase in total body dose to the 50-mile population from the operation of BVPS -Unit 1 and 2, is less than 0.0000059%
of the annual background dose.The calculated doses to the public from the operation of BVPS -Unit 1 and 2, are below ODCM annual limits and resulted in only a small incremental dose to that which area residents already received as a result of natural background.
The doses constituted no meaningful risk to the public.2-65 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM Table 2-4 Comparison of Natural Radiation Exposure Versus Calculated Population Dose to Man -Liquid Effluent Releases RTL A9.690E Enclosure 3 TYPICAL DOSE TO INDIVIDUALS FROM NATURAL RADIATION EXPOSURE (a)Ambient Gamma Radiation Radionuclides in Body Global Fallout Radon Average Individual (Total from all sources shown above)= 58 millirem / year= 40 millirem / year= < 1 millirem / year 198 millirem / year= 296 millirem / year (a) National Academy of Sciences, "The Effects on Populations of Exposure to Low Levels of Ionizing Radiation," BEIR Report, 1990 I I I I I I I I I I I I I I I I I I I 0-50 mile Population Dose from BVPS Liquid Effluent Releases Man-millirem Largest Isotope Contributor Total Dose 212 Tritium Average Dose Tritium (per Individual)
Comparison of Individual Dose BVPS Liquid Effluent Releases Versus Natural Background Radiation Millirem BVPS Liquid Effluent Release Dose 0.0000530 Natural Radiation Exposure 296 2-66 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 2 -ENVIRONMENTAL MONITORING PROGRAM RTL A9.690E Enclosure 3 Table 2-5 Comparison of Natural Radiation Exposure Versus Calculated Population Dose to Man -Gaseous Effluent Releases TYPICAL DOSE TO INDIVIDUALS FROM NATURAL RADIATION EXPOSURE (a)Ambient Gamma Radiation Radionuclides in Body Global Fallout Radon Average Individual (Total from all sources shown above)58 millirem / year 40 millirem / year< 1 millirem / year 198 millirem / year 296 millirem / year (b) National Academy of Sciences, "The Effects on Populations of Exposure to Low Levels of Ionizing Radiation," BEIR Report, 1990 0-50 mile Population Dose from BVPS Gaseous Effluent Releases Man-millirem Largest Isotope Contributor Total 23 Tritium Average 0.0000059 Tritium (per Individual)
Comparison of Individual Dose BVPS Gaseous Effluent Releases Versus Natural Background Radiation Millirem BVPS Gaseous Effluent Release Dose 0.0000059 Natural Radiation Exposure 296 2-67 I Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 3 -LAND USE CENSUS A. Land Use Census Overview:
A Land Use Census was conducted June 5 through I September 12, 2013 to comply with: " Offsite Dose Calculation Manual procedure 1/2-ODC-3.03, "Controls for RETS and m REMP Programs", Attachment R, Control 3.12.2, and Surveillance Requirement 4.12.2.1" BVPS REMP procedure 1/2-ENV-04.02, "Milch Animal Sampling Location Determination
& ODCM Procedure 1/2-ODC-3.03, Control 3.12.2 Action Statements I a and b Compliance Determination" The Land Use Census indicated that no changes were required in the current sampling locations, and no changes were required to the methodology used for determination of offsite dose from plant releases.
A numerical summary of the Land Use Census results are provided in Table 3-1. The following information is also provided to clarify the Land I Use Census as documented in letter NPD3NRE:0962, dated September 27, 2013: I B. Nearest Residence:
The location has not changed since the previous census. The nearest inhabited residence is at 209 Ferry Hill Road, Shippingport, PA (0.4 miles, E).C. Nearest Garden >500 sqft: The location has changed since the previous census. The closest garden location is at the Pringle Residence, 1221 Virginia Ave., Midland, PA (1.0 miles, in the NW Sector). The previous sampling location at the Cox Residence, 238 State Route 168, Hookstown, PA (0.760 miles, in the SSW Sector) was available fro sampling cabbage but did not meet all the requirements of NUREG-1301.
D. Nearest Dairy Cow: The location has not changed since the previous census. The location remains at the Searight Dairy, 948 McCleary Road, RD 1, Hookstown, PA I (2.097 miles, SSW).E. Nearest Doe Goat: The location has changed since the previous census. The closest m location is now the Searight Dairy, 948 McCleary Road, RD 1, Hookstown, PA (2.097 miles, SSW). However, this location did not milk any of it's goats in 2013. The closest milking goat location was at the Ferry Residence, 227 Calhoun Road, Aliquippa, PA (3.320 miles, SE). Goat milk samples were not available from this location because the Ferry Residence does not produce enough milk to participate in the sampling program.No other goat milk simples were available.
I 3-1m Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 3 -LAND USE CENSUS F. Projection for 2014 Dairy Cow Sampling Locations:
Using a linear regression analysis of deposition parameters (D/Q), Dairy Cow sampling locations were determined to remain at the same locations used in 2013:-Brunton Dairy, 3681 Ridge Road, Aliquippa, PA (6.158 miles SE)-Windsheimer Dairy, RD 1 Burgettstown, PA (10.476 miles SSW)-Searight's Dairy and Halstead Dairy have been removed from the 2014 REMP sampling program due to the dairies closing for various reasons and thus no longer producing milk for sampling(CR-2013-03554 and CR-2014-00685).
Letters have been sent to the DEP and NRC (L-13-169 dated May 3 rd 2013 and L-14-079 dated February 11"h, 2014).G. Projection for 2014 Doe Goat Sampling Locations:
The linear regression analysis also indicated that there may be a Doe Goat sampling location in 2014. The Doe Goat sampling location for 2014 may be as follows if Goat Milk becomes available from this site:-Searight Dairy, 948 McCleary Rd, Hookstown PA (2.097 miles SSW)-Ferry Residence, 227 Calhoun Road, Aliquippa PA (3.320 miles SE)H. D/O for Milch Animal Locations:
None of the 2013 milch animal sampling locations experienced a >20% increase in D/Q. Therefore, a Special Report per ODCM procedure 1/2-ODC-3.03, Attachment R, Control 3.12.2 Action "a" and/or Action "b" was not required.I. D/O for Offsite Dose Determination:
There was no adverse effect on the current ODCM methodology used for offsite dose determination from effluent releases.
Specifically, a linear regression analysis of D/Q did not yield any valid locations where the offsite dose could have increased
>20% more than the offsite dose previously calculated using current ODCM methodology.
Therefore, a Special Report per ODCM procedure 1/2-ODC-3.03, Attachment R, Control 3.12.2 Action "a" and/or Action "b" was not required.J. D/Q Historical Comparison:
There is no adverse trend in D/Q when comparing 2000 to 2013 data to the ODCM default D/Q values. This validates that there was no adverse effect on the current ODCM methodology used for offsite dose determination from effluent releases.
Specifically, the analysis of D/Q did not yield any valid locations where the offsite dose could have increased
>20% more than the offsite dose previously calculated using current ODCM methodology.
Therefore, a change in ODCM receptor location and/or a change to meteorology at the current ODCM receptor location are not required.3-2 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report SECTION 3 -LAND USE CENSUS RTL A9.690E Enclosure 3 SEC N El E S S SS W W.N Mt'Table 3-1 Location of Nearest Residences, Gardens, Dairy Cows and Doe Goats DAIRY TOR RESIDENCES GARDENS COWS DOE GO.0 to 5 miles 0 to 5 miles 0 to 5 miles 0 to 5 mi (miles) (miles) (miles) (miles N 1.584 1.584 None None NE 1.661 1.8 None None IE 0.4 3.3 None None NE 0.603 1.047 None None E 0.4 b 2.0 None 3.402 SE 0.850 1.713 None None E 1.583 1.3 Nonea 3.320 SE 1.102 2.4 None None S 1.399 1.5 None None SW 0.760 2.215 b 2.097 b 2.097 1 W 1.453 1.453 None None SW 1.394 2.5 None None W 2.204 None None None W 2.742 2.8 None None W 0.885 1.0 None None NW 0.902 2.4 2.442 None MTS les a Although there are no Dairy Cows within 5 miles in this sector, a large local dairy located at 6.158 miles is included in the milk sampling program.b Distances shown in Bold print are the nearest location for that receptor.3-3 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 4 -SPLIT SAMPLE PROGRAM and SPIKE SAMPLE INTER-LABORATORY COMPARISON PROGRAM A. Split Sample Program (Inter-Laboratory Comparison, Part 1 of 2): BVPS participates in a split sample program with the Pennsylvania Department of Environmental Protection (PADEP)in support of their nuclear power plant monitoring program..BVPS.provided split samples to PADEP throughout the report period. The shared media and number of locations were typically comprised of; milk (1), surface water (3), sediment (1), fish (1), and food crops (2).* PADEP has co-located continuous air particulate
& air Iodine sample stations with four (4) of the BVPS locations.
- PADEP has co-located TLDs with twenty-four (24) of the BVPS TLDs.B. Spike Sample Program (Inter-Laboratory Comparison, Part 2 of 2):. BVPS participates in a spike sample program with an Independent Laboratory.
This program is used to independently verify sample analyses performed by the BVPS Contractor Laboratory.
- Acceptance Criteria:.
The NRC criteria listed in NRC Inspection Procedure 84750, 03/15/94, Inspection Guidance 84750-03 is used as acceptance criteria for comparisons of results of spiked samples between the Contractor Lab and the Independent Lab. These comparisons are performed by dividing the comparison standard (Independent Lab result)by its associated uncertainty to obtain the resolution.
The comparison standard value is multiplied by the ratio values obtained from the following table to find the acceptance band for the result to be compared.
However, in such cases where the counting precision of the standard yields a resolution of less than 4, a valid comparison is not practical, and therefore, not performed.
NRC Criteria Resolution Ratio<4 --4-7 0.50-2.00 8- 15 0.60- 1.66 16-50 0.75- 1.33 51 -200 0.80- 1.25> 200 0.85- 1.18 4-1 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 4 -SPLIT SAMPLE PROGRAM and SPIKE SAMPLE INTER-LABORATORY COMPARISON PROGRAM Participation in an Inter-Laboratory Comparison Program is required by BVPS Unit 1 and 2 I Offsite Dose Calculation Manual procedure 1/2-ODC-3.03 Attachment S Control 3.12.3. For the report period, the requirement was met by the Contractor Lab analyzing NIST traceable spiked samples supplied by an Independent Lab.During the report period, BVPS used (Environmental, Inc., Midwest Laboratory
-Northbrook, IL) as the Contractor Laboratory, and (Analytics
-Atlanta, GA) as the Independent Laboratory.
The spiked samples included air particulate filter papers, charcoal cartridges, water samples, *and milk samples. The samples were submitted by the Independent Laboratory to the Contractor Laboratory for analysis.
The "spiked to" values were used for calculating comparison Acceptance Criteria..Spiked Milk & Water Samples:.
The spiked sample results (i.e.; the BVPS criteria) for each calendar quarter are reported in Table 4-1 through Table 4-4, respectively.
The following summary is provided:-A total of forty-eight (48) gamma spectrometry radionuclide analyses were *performed by the Contractor Laboratory on four (4) milk samples.-A total of forty-eight (48) gamma spectrometry radionuclide analyses were performed by the Contractor Laboratory on four (4) water samples.-A total of four (4) chemical analyses for 1- 131 were performed by the Contractor 1 Laboratory on four (4) milk samples.-A total of four (4) 1-131 analyses were performed by the Contractor Laboratory on four (4) water samples.A total of four (4) Tritium analyses were performed by the Contractor Laboratory on four (4) water samples.Comparison of results of the spiked milk and water samples showed acceptable
- agreement with the NRC acceptance criteria.
One sample, 2 nd quarter milk and water sample for Strontium-90 (SR-90) failed the acceptance criteria.
The vendor laboratory was immediately notified of the failure and was requested to re-preform the analyses, if necessary.
Upon review of the data, the vendor laboratory performs the analysis in triplicate and the other two analytical runs were within the acceptance criteria.
The vendor provided a corrected report (CR-2013-12808) and all analyses met the acceptance criteria.
All one-hundred-eight (108) analyses met the NRC acceptance criteria.I 4-2 I Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 4 -SPLIT SAMPLE PROGRAM and SPIKE SAMPLE INTER-LABORATORY COMPARISON PROGRAM.Spiked Filter Paper and Charcoal Cartridge Samples:.
The spiked sample results for each calendar quarter are also reported in Table 4-1 through Table 4-4, respectively.
The following summary is provided:-Gross Beta (Cesium-137) analyses were performed by the Contractor Laboratory on two (2) filter paper samples.-Iodine- 131 analyses were performed by the Contractor Laboratory on two (2)charcoal cartridge samples.-Comparison of results of the spiked filter paper and charcoal cartridge samples showed acceptable agreement with the NRC acceptance criteria.
All four (4)analyses performed by the Contractor Laboratory met the NRC acceptance criteria.C. Conclusions
- Results of Split Sample Program:.The split sample program is coordinated by the state, and the results are not provided with this report.Results of Spike Sample Program: Based on the Inter-Laboratory comparison data, BVPS considers all analyses provided throughout the report period by the Contractor Laboratory to be acceptable with respect to both accuracy and measurement.
A comparison of the data is provided in the following tables. All analyses for the 2013 report period were within the NRC Acceptance Criteria.4-3 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 4 -SPLIT SAMPLE PROGRAM and SPIKE SAMPLE INTER-LABORATORY COMPARISON PROGRAM I I Table 4-1 I Inter-Laboratory Comparison Program Spiked Samples -lst Quarter Sample Date, Type and Resolution Resolution Required Ratio Env Inc: Comparison Identification No. Ratio Band Analytics Comparison Sr-89 60 0.80- 1.25 0.98 AGREEMENT Sr-90 60 0.80- 1.25 0.97 AGREEMENT 1-131 60 0.80- 1.25 0.96 AGREEMENT 1-131 60 0.80- 1.25 1.07 AGREEMENT 03114/13 Ce-141 60 0.80- 1.25 1.03 AGREEMENT Cr-51 60 0.80- 1.25 1.02 AGREEMENT Water Cs-i34 60 0.80-1.25 1.03 AGREEMENT Id Lab: E10441 Cs-137 60 0.80- 1.25 1.08 AGREEMENT Con. Lab: SPW-1 117 Co-58 60 0.80 -1.25 1.03 AGREEMENT Mn-54 60 0.80- 1.25 1.08 AGREEMENT Fe-59 60 0.80- 1.25 1.08 AGREEMENT Zn-65 60 0.80- 1.25 1.12 AGREEMENT Co-60 60 0.80 -1.25 1.02 AGREEMENT 03114113 Water H-3 60 0.80- 1.25 0.97 AGREEMENT Ind. Lab: E10440 Con. Lab: SPW-1115 Sr-89 60 0.80- 1.25 0.91 AGREEMENT Sr-90 60 0.80- 1.25 0.96 AGREEMENT 1-131 60 0.80- 1.25 0.92 AGREEMENT 1-131 60 0.80- 1.25 1.06 AGREEMENT 03114113 Ce-141 60 0.80- 1.25 0.95 AGREEMENT Milk Cr-51 60 0.80 -1.25 1.03 AGREEMENT Ind. Lab: E10442 Cs-134 60 0.80- 1.25 1.01 AGREEMENT Con. Lab: SPM1-1116 Cs-137 60 0.80- 1.25 1.05 AGREEMENT Co-58 60 0.80-1.25 1.02 AGREEMENT Mn-54 60 0.80- 1.25 1.09 AGREEMENT Fe-59 60 0.80- 1.25 1.07 AGREEMENT Zn-65 60 0.80 -1.25 1.08 AGREEMENT Co-60 60 0.80 -1.25 1.02 AGREEMENT 03114113 Filter Paper Cs-137 60 0.80-1.25 1.18 AGREEMENT d. Lab: El 0443 (Gross Beta)Con. Lab: SPAP-1120 03114113 Charcoal Cartridge Cao Lab: ridge 1-131 60 0.80- 1.25 0.95 AGREEMENT Ind. Lab: E10444 Con. Lab: SPCH-1 118 I I I I I I I I I I I I I I I I 4-4 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 4 -SPLIT SAMPLE PROGRAM and SPIKE SAMPLE INTER-LABORATORY COMPARISON PROGRAM Table 4-2 Inter-Laboratory Comparison Program Spiked Samples -2 nd Quarter Sample Date, Type and Resolution Resolution Required Ratio Env Inc: Comparison Identification No. Ratio Band Analytics C Sr-89 60 0.80- 1.25 0.88 AGREEMENT Sr-90 60 0.80- 1.25 1.02 AGREEMENT 1-131 60 0.80- 1.25 0.90 AGREEMENT 1-131 60 0.80- 1.25 1.04 AGREEMENT 06/13113 Ce-141 60 0.80- 1.25 1.00 AGREEMENT Cr-51 60 0.80- 1.25 1.07 AGREEMENT Water Cs-134 60 0.80- 1.25 0.91 AGREEMENT Ind Lab: E10575 Cs-137 60 0.80-1.25 1.02 AGREEMENT Con. Lab: SPW-3244 Co-58 60 0.80- 1.25 1.03 AGREEMENT Mn-54 60 0.80- 1.25 1.05 AGREEMENT Fe-59 60 0.80-1.25 1.11 AGREEMENT Zn-65 60 0.80- 1.25 1.08 AGREEMENT Co-60 60 0.80- 1.25 1.04 AGREEMENT 06/13113 Water H-3 60 0.80 -1.25 0.98 AGREEMENT Ind. Lab: E10574 Con. Lab: SPW-3243 Sr-89 60 0.80 -1.25 1.08 AGREEMENT Sr-90 60 0.80 -1.25 0.88 AGREEMENT 1-131 60 0.80- 1.25 0.90 AGREEMENT 1-131 60 0.80-1.25 1.04 AGREEMENT 06113113 Ce-141 60 0.80- 1.25 1.02 AGREEMENT Milk Cr-51 60 0.80 -1.25 1.05 AGREEMENT Ind. Lab: E10576 Cs-1 34 60 0.80- 1.25 1.00 AGREEMENT Co5Cs-137 60 0.80 -1.25 1.03 AGREEMENT Con. Lab: SPMI-3245 C- 76 Co-58 60 0.80- 1.25 1.04 AGREEMENT Mn-54 60 0.80 -1.25 1.06 AGREEMENT Fe-59 60 0.80- 1.25 1.10 AGREEMENT Zn-65 60 0.80- 1.25 1.08 AGREEMENT Co-60 60 0.80 -1.25 1.03 AGREEMENT 4-5 Beaver Valley Power Station RTL A9.690E 2013 Annual Radiological Environmental Operating Report Enclosure 3 SECTION 4 -SPLIT SAMPLE PROGRAM and SPIKE SAMPLE INTER-LABORATORY COMPARISON PROGRAM I I Table 4-3 Inter-Laboratory Comparison Program Spiked Samples -3rd Quarter Sample Date, Type and Resolution Resolution Required Ratio Env Inc: Comparison Identification No. Ratio Band Analytics Sr-89 60 0.80 -1.25 1.03 AGREEMENT Sr-90 60 0.80 -1.25 0.88 AGREEMENT 1-131 60 0.80 -1.25 0.92 AGREEMENT 1-131 60 0.80 -1.25 1.07 AGREEMENT 09112/13 Ce-141 60 0.80-1.25 Not Present AGREEMENT Cr-51 60 0.80- 1.25 1.10 AGREEMENT Water Cs-134 60 0.80- 1.25 0.95 AGREEMENT Ind Lab: E10621 Cs-137 60 0.80- 1.25 1.04 AGREEMENT Con. Lab: SPW-5419 Co-58 60 0.80- 1.25 1.04 AGREEMENT Mn-54 60 0.80 -1.25 1.05 AGREEMENT Fe-59 60 0.80- 1.25 1.10 AGREEMENT Zn-65 60 0.80- 1.25 1.07 AGREEMENT Co-60 60 0.80 -1.25 1.05 AGREEMENT 09112/13 Water H-3 60 0.80- 1.25 0.95 AGREEMENT Ind. Lab: El0620 Con. Lab: SPW-5415 Sr-89 60 0.80 -1.25 0.92 AGREEMENT Sr-90 60 0.80 -1.25 0.86 AGREEMENT 1-131 60 0.80- 1.25 0.93 AGREEMENT 1-131 60 0.80- 1.25 1.00 AGREEMENT 09112/13 Ce-141 60 0.80- 1.25 Not Present AGREEMENT Milk Cr-51 60 0.80 -1.25 1.04 AGREEMENT Ind. Lab: E10622 Cs-134 60 0.80-1.25 0.93 AGREEMENT Cs-137 60 0.80 -1.25 1.05 AGREEMENT Con. Lab: SPMI-5416 1.01 6GREEMEN Co-5 60 0.80 -1.25 1.01 AGREEMENT Mn-54 60 0.80 -1.25 1.05 AGREEMENT Fe-59 60 0.80 -1.25 1.08 AGREEMENT Zn-65 60 0.80- 1.25 1.07 AGREEMENT Co-60 60 0.80 -1.25 1.04 AGREEMENT 09/12/13 Filter Paper Cs-i 37 60 0.80- 1.25 1.10 AGREEMENT Ind. Lab: E10623 (Gross Beta)Con. Lab: SPAP-5417 09/12/13 Charcoal Cartridge Cnd. Lab:rEdge 1-131 60 0.80 -1.25 0.97 AGREEMENT Ind. Lab: E10624 Con. Lab: SPCH-5418 I I I I I I I I I I I I I I I I 4-6 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E Enclosure 3 SECTION 4 -SPLIT SAMPLE PROGRAM and SPIKE SAMPLE INTER-LABORATORY COMPARISON PROGRAM Table 4-4 Inter-Laboratory Comparison Program Spiked Samples -4 th Quarter Sample Date, Type and Resolution Resolution Required Ratio Env Inc: Comparison Identification No. Ratio Band Analytics Sr-89 60 0.80- 1.25 0.96 AGREEMENT Sr-90 60 0.80 -1.25 1.02 AGREEMENT 1-131 60 0.80- 1.25 0.98 AGREEMENT 1-131 60 0.80 -1.25 1.04 AGREEMENT 12105113 Ce-141 60 0.80-1.25 1.00 AGREEMENT Cr-51 60 0.80 -1.25 1.00 AGREEMENT Water Cs-1 34 60 0.80 -1.25 0.94 AGREEMENT Ind Lab: E10739 Cs-1 37 60 0.80 -1.25 1.04 AGREEMENT Con. Lab: SPW-7351 Co-58 60 0.80 -1.25 1.04 AGREEMENT Mn-54 60 0.80- 1.25 1.06 AGREEMENT Fe-59 60 0.80- 1.25 1.08 AGREEMENT Zn-65 60 0.80- 1.25 1.08 AGREEMENT Co-60 60 0.80- 1.25 1.01 AGREEMENT 12105/13 Water H-3 60 0.80 -1.25 0.99 AGREEMENT Ind. Lab: E10738 Con. Lab: SPW-7350 Sr-89 60 0.80- 1.25 0.85 AGREEMENT Sr-90 60 0.80- 1.25 0.99 AGREEMENT 1-131 60 0.80- 1.25 0.99 AGREEMENT 1-131 60 0.80- 1.25 1.04 AGREEMENT 12105/13 Ce-141 60 0.80-1.25 1.02 AGREEMENT Cr-51 60 0.80 -1.25 1.02 AGREEMENT Milk Cs-134 60 0.80- 1.25 0.92 AGREEMENT Ind. Lab: E10740 Cs-137 60 0.80- 1.25 1.03 AGREEMENT Con. Lab: SPMI-7352 Co-58 60 0.80 -1.25 1.02 AGREEMENT Mn-54 60 0.80- 1.25 1.04 AGREEMENT Fe-59 60 0.80- 1.25 1.07 AGREEMENT Zn-65 60 0.80- 1.25 1.06 AGREEMENT Co-60 60 0.80- 1.25 1.01 AGREEMENT 4-7 Beaver Valley Power Station 2013 Annual Radiological Environmental Operating Report RTL A9.690E I Enclosure 3 SECTION 5 -CORRECTIONS TO PREVIOUS RADIOLOGICAL ENVIRONMENTAL OPERATING REPORT(S)Corrections to Previous Radiological Environmental Operating Report(s):
There are no corrections to previous reports at this time.5-1 I I I I I I I I I I I I I I I I I I