ML20352A241

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Response to Request for Additional Information Re Revised Final Status Survey Final Reports, S2-011-103 a Release Record, Revision 1, Final, De-Icing Line
ML20352A241
Person / Time
Site: La Crosse  File:Dairyland Power Cooperative icon.png
Issue date: 11/02/2020
From:
La CrosseSolutions
To:
Office of Nuclear Material Safety and Safeguards
Shared Package
ML20356A041 List:
References
LC-2020-0023
Download: ML20352A241 (34)


Text

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LACROSSESOLUTIONS LA CROSSE BOILING WATER REACTOR FINAL STATUS SURVEY RELEASE RECORD DE-ICING LINE SURVEY UNIT S2-011-103 A REVISION 1

FSS RELEASE RECORD - REVISION 1 DE-ICING LINE ~

SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Robert F. Yetter III Oct 25 2020 1:56 PM PREPARED BY / DATE: cosign R. F. Yetter III, FSS Specialist Mitchell Uz REVIEWED BY / DATE:

~it, Oct 27 2020 8:03 AM cosign M. D. Uz, FSS Specialist Robert F. Yetter REVIEWED BY / DATE:

~ :1-. *'lj,etwt Oct 27 2020 11 :08 AM cosign R. Yetter, Director, Radiological Site Closure Sarah Roberts Oct 27 2020 12:58 PM REVIEWED BY / DATE: cosisn S. Roberts, VP Radiological Programs Scott G. Zoller Oct 29 2020 9:40 AM APPROVED BY / DATE:

S. Zoller, FSS Manager

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS TABLE OF CONTENTS

1. EXECUTIVE

SUMMARY

............................................................................................................................5

2. SURVEY UNIT DESCRIPTION...................................................................................................................5
3. CLASSIFICATION BASIS ...........................................................................................................................5
4. DATA QUALITY OBJECTIVES..................................................................................................................6
5. SURVEY DESIGN.........................................................................................................................................9
6. SURVEY IMPLEMENTATION .................................................................................................................13
7. SURVEY RESULTS ....................................................................................................................................14
8. QUALITY CONTROL ................................................................................................................................15
9. INVESTIGATIONS AND RESULTS..........................................................................................................16
10. REMEDIATION AND RESULTS...............................................................................................................16
11. CHANGES FROM THE FINAL STATUS SURVEY PLAN......................................................................16
12. DATA QUALITY ASSESSMENT...............................................................................................................16
13. ANOMALIES...............................................................................................................................................17
14. CONCLUSION ............................................................................................................................................17
15. REFERENCES ............................................................................................................................................17
16. ATTACHMENTS ........................................................................................................................................18 ATTACHMENT 1 - FIGURES AND MAPS.........................................................................................................19 ATTACHMENT 2 - MEASUREMENT DATA......................................................................................................21 ATTACHMENT 3 - SIGN TEST .........................................................................................................................25 ATTACHMENT 4 - QUALITY CONTROL ASSESSMENT...................................................................................28 ATTACHMENT 5 - GRAPHICAL PRESENTATIONS .........................................................................................30

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS LIST OF TABLES Table 4 Dose Significant Radionuclides and Mixture for Buried Pipe.............................................................7 Table 4 Base Case DCGLs for Buried Pipe Group...........................................................................................8 Table 4 Operational DCGLs for Buried Pipe Group .......................................................................................9 Table 5 Soil Surrogate Ratio ............................................................................................................................9 Table 5 Investigation Levels...........................................................................................................................12 Table 5 Synopsis of Survey Design.................................................................................................................12 Table 7 Summary of Systematic and QC Measurements ...............................................................................15 Table 7 Basic Statistical Properties of the Systematic Measurement Population ..........................................15 Table 16 Survey Unit S2-011-103 A Static Measurements Data Assessment ................................................22 Table 16 Survey Unit S2-011-103 A Sign Test ...............................................................................................26 Table 16 Survey Unit S2-011-103 A QC Assessment .....................................................................................29 LIST OF FIGURES Figure 16 Survey Unit S2-011-103 A Drawing...............................................................................................20 Figure 16 Quantile Plot for Gross Gamma Activity ......................................................................................31 Figure 16 Histogram for Gross Gamma Activity ...........................................................................................32 Figure 16 Retrospective Power Curve for Survey Unit S2-011-103 A ...........................................................33

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS LIST OF ACRONYMS AND ABBREVIATIONS ALARA As Low As Reasonably Achievable CWD Circulating Water Discharge DQO Data Quality Objective DCGL Derived Concentration Guideline Level DCGLBP Buried Pipe Base Case Derived Concentration Guideline Level FSS Final Status Survey HSA Historical Site Assessment IC Insignificant Contributors ID Internal Diameter LACBWR La Crosse Boiling Water Reactor LTP License Termination Plan MARSSIM Multi-Agency Radiation Survey and Site Investigation Manual MCNP Monte Carlo Neutral Particle MDC Minimum Detectable Concentration NaI Sodium Iodide OpDCGLBP Buried Pipe Operational Derived Concentration Guideline Level QAPP Quality Assurance Project Plan QC Quality Control ROC Radionuclides of Concern SOF Sum of Fractions TEDE Total Effective Dose Equivalent TSD Technical Support Document UCL Upper Confidence Limit

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS

1. EXECUTIVE

SUMMARY

This Final Status Survey (FSS) Release Record for survey unit S2-011-103 A, De-Icing Line, has been generated in accordance with LaCrosseSolutions procedure LC-FS-PR-009, Final Status Survey Data Reporting (Reference 1) and satisfies the requirements of Section 5.11 of the La Crosse Boiling Water Reactor License Termination Plan (LACBWR LTP)

(Reference 2).

An FSS sample plan for this survey unit was developed in accordance with LaCrosseSolutions procedures LC-FS-PR-002, Final Status Survey Package Development (Reference 3) and LC-FS-PR-018, Radiation Surveys of Pipe Interiors Using Sodium/Cesium Iodide Detectors (Reference 4) the LACBWR LTP, and with guidance from NUREG-1575, Multi-Agency Radiation Survey and Site Investigation Manual (MARSSIM)

(Reference 5).

Survey unit S2-011-103 A has a MARSSIM classification of 2. A survey plan was designed based upon use of the Sign Test as the nonparametric statistical test for compliance. Both the Type I (a) and Type II ( ) decision error rates were set at 0.05. As a systematic measurement population, fifty (50) static gamma measurements were acquired from the survey unit. The data assessment results for survey unit S2-011-103 A indicate that the maximum Sum of Fractions (SOF), considering the concentration of all applicable Radionuclides of Concern (ROC) either by direct measurement or by inference, is equal to 0.1414 when applying the respective Operational Derived Concentration Guideline Levels (OpDCGLBP) for buried pipe. The mean SOF when applying the respective Base Case DCGLs (DCGLBP) is 0.0126. This SOF equates to a dose rate for the survey unit of 0.3155 mrem/yr.

2. SURVEY UNIT DESCRIPTION S2-011-103 A is an impacted Class 2 buried pipe survey unit. The survey unit consists of the interior surface of the De-Icing Line, which is an 18 internal diameter (ID) steel pipe that runs approximately 105 feet (32 m) from the LACBWR Crib House to the Turbine Building. The total interior surface area of the De-Icing Line is 45.96 m 2 (459,600 cm2).

See Attachment 1 of this report for figures and maps depicting survey unit S2-011-103 A.

3. CLASSIFICATION BASIS Based on the La Crosse Boiling Water Reactor Historical Site Assessment (HSA)

(Reference 6), open land survey unit L2-011-103 was identified as a Class 2 survey unit.

The De-Icing Line resides in survey unit L2-011-103 and, as such, is considered a Class 2 system.

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Based upon review of the historical information and completion of a final Survey Unit Classification Worksheet from LC-FS-PR-006, Survey Unit Classification (Reference 7),

the correct final classification of survey unit S2-011-103 A was determined to be Class 2.

4. DATA QUALITY OBJECTIVES FSS planning and design relies on a properly executed Data Quality Objective (DQO) process to ensure, through compliance with explicitly defined inputs and boundaries, that the primary objective of the survey is satisfied. The DQO process is described in the LACBWR LTP in accordance with MARSSIM. The appropriate design for a given survey was developed using the DQO process as outlined in Appendix D of MARSSIM.

The DQO process incorporated hypothesis testing and probabilistic sampling distributions to control decision errors during data analysis. Hypothesis testing is a process based on the scientific method that compares a baseline condition to an alternate condition. The baseline condition is technically known as the null hypothesis. Hypothesis testing rests on the premise that the null hypothesis is true and that sufficient evidence must be provided for rejection. In designing the survey plan, the underlying assumption, or null hypothesis was that residual activity in the survey unit exceeded the release criteria. Rejection of the null hypothesis would indicate that residual activity within the survey unit does not exceed the release criteria. Therefore, the survey unit would satisfy the primary objective of the FSS sample plan.

The primary objective of the FSS sample plan is to demonstrate that the level of residual radioactivity in survey unit S2-011-103A did not exceed the release criteria specified in the LTP and that the potential dose from residual radioactivity is As Low As Reasonably Achievable (ALARA).

EnergySolutions Technical Support Document (TSD) RS-TD-313196-001, Radionuclides of Concern during LACBWR Decommissioning (Reference 8) established the basis for an initial suite of potential ROC for decommissioning. Insignificant contributors (IC) were determined consistent with the guidance contained in Section 3.3 of NUREG-1757, Volume 2, Revision 1, Consolidated Decommissioning Guidance - Characterization, Survey, and Determination of Radiological Criteria, Final Report (Reference 9). In all soil and concrete scenarios, Cs-137, Co-60, Sr-90, Eu-152 and Eu-154 contribute nearly 100% of the total dose. The remaining radionuclides were designated as IC and are eliminated from further detailed evaluation. Therefore, the final ROCs for LACBWR soil, basement concrete, and buried piping are Cs-137, Co-60, Sr-90, Eu-152 and Eu-154.

LTP, Section 6.14.1 discusses the process used to derive the ROC for the decommissioning of LACBWR, including the elimination of IC from the initial suite. Table 4-1 presents the

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS ROC for the decommissioning of buried pipe at LACBWR and the normalized mixture fractions based on the radionuclide mixture.

Table 4 Dose Significant Radionuclides and Mixture for Buried Pipe Fraction of Total Activity Radionuclide (normalized)(1)

Co-60 0.064 Sr-90 0.098 Cs-137 0.829 Eu-152 0.005 Eu-154 0.003 (1) Based on maximum percent of total activity from Table 22 of RS-TD-313196-001, normalized to one for the dose significant radionuclides.

The LTP, Section 5.2, states that each radionuclide-specific Base Case DCGL is equivalent to the level of residual radioactivity (above background levels) that could, when considered independently, result in a Total Effective Dose Equivalent (TEDE) of 25 mrem/yr to an Average Member of the Critical Group. To ensure that the summation of dose from each source term is 25 mrem/yr or less after all FSS is completed, the Base Case DCGLs are reduced based on an expected, or a priori, fraction of the 25 mrem/yr dose limit from each source term. The reduced DCGLs, or Operational DCGLs, can be related to the Base Case DCGLs as an expected fraction of dose based on an a priori assessment of what the expected dose should be based on the results of site characterization, process knowledge, and the extent of planned remediation. The Operational DCGL is then used as the DCGL for the FSS design of the survey unit (i.e., calculation of surrogate DCGLs and investigations levels). Details of the Operational DCGLs derived for each dose component and the basis for the applied a priori dose fractions are provided in LC-FS-TSD-002, Operational Derived Concentration Guideline Levels for Final Status Survey DCGL (Reference 10).

The dose contribution from each ROC is accounted for using the SOF to ensure that the total dose from all ROC does not exceed the dose criterion. A Base Case DCGL that is established for the average residual radioactivity in a survey unit is equivalent to a DCGL W.

The DCGLW can be multiplied by Area Factors to obtain a Base Case DCGL that represents the same dose to an individual for residual radioactivity over a smaller area within a survey unit.

At LACBWR, compliance is demonstrated through the summation of dose from five (5) distinct source terms for the end state (basements, soils, buried pipe, above-ground structures, and groundwater). When applied to buried pipe, the DCGLs are expressed in units of activity per surface area (dpm/100 cm2).

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Buried piping is defined as below ground pipe located outside of structures and basements.

The dose assessment methods and resulting DCGLs for buried piping are described in detail in LTP, Section 6.20. The buried piping was separated into two categories. The first category included the summation and grouping of all impacted buried pipe other than the Circulating Water Discharge (CWD) Pipe and is designated as the Buried Pipe Group.

The second category consisted of the CWD Pipe only. The separation of the CWD pipe was necessary because the geometry was significantly different than the other pipes, and the pipes are located in distinctly different parts of the site.

EnergySolutions TSD RS-TD-313196-004, LACBWR Soil DCGL, Basement Concrete DCGL, and Buried Pipe DCGL (Reference 11) and LTP, Section 6.20, provide the exposure scenarios and modeling parameters that were used to calculate the site-specific buried pipe DCGLs. The final DCGLs to be used during FSS account for the fact that the dose from the In Situ and Excavation scenarios must be summed in the conceptual model for buried pipe dose assessment (i.e., the In Situ and Excavation scenarios occur in parallel). The summed Buried Pipe Base Case DCGLs are reproduced in Table 4-2 below. The IC dose percentages for each of the buried pipe scenarios were used to adjust each buried pipe Base Case DCGL to account for the dose from the eliminated IC radionuclides. The Operational DCGLs for the De-Icing Line are provided in Table 4-3.

Table 4 Base Case DCGLs for Buried Pipe Group DCGLBP Radionuclide (dpm/100 cm2)

Co-60 7.50E+04 Sr-90 5.16E+05 Cs-137 3.18E+05 Eu-152 1.64E+05 Eu-154 1.52E+05

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Table 4 Operational DCGLs for Buried Pipe Group OpDCGLBP Radionuclide (dpm/100 cm2)

Co-60 1.57E+04 Sr-90 1.08E+05 Cs-137 6.68E+04 Eu-152 3.44E+04 Eu-154 3.20E+04 Instrument DQOs included a verification of the ability of the survey instrument to detect the radiation(s) of interest relative to the Operational DCGL. Survey instrument response checks were required prior to issuance and after the instrument had been used. Control and accountability of survey instruments was required to assure the quality and prevent the loss of data.

In accordance with the LTP, the minimum acceptable minimum detectable concentration (MDC) for measurements obtained using field instruments was 50% of the applicable Operational DCGL.

5. SURVEY DESIGN The level of effort associated with planning a survey is based on the complexity of the survey unit and nature of the hazards. Guidance for preparing FSS plans is provided in procedure LC-FS-PR-002, Final Status Survey Package Development.

The DQO process validated that Co-60, Sr-90, Cs-137, Eu-152, and Eu-154 would be the ROC in survey unit S2-011-103 A as presented in LTP Section 5.1. During the data analysis of the FSS results, concentrations for the HTD ROC Sr-90 are inferred using a surrogate approach. The 95% Upper Confidence Limit (UCL) of the Cs-137 fractions was chosen to represent the overall nuclide mix for soils/buried pipe, the Reactor Building, and the Waste Gas Tank Vault. The surrogate ratio for soil/buried pipe is given in Table 5-1.

Table 5 Soil Surrogate Ratio Radionuclides Ratio Sr-90/Cs-137 0.502 The equation for calculating a surrogate DCGL is as follows:

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Equation 1 1

SurrogatevccL = 1

+ + +

Where: DCGLSur = Surrogate radionuclide DCGL DCGL2,3n = DCGL for radionuclides to be represented by the surrogate Rn = Ratio of concentration (or nuclide mixture fraction) of radionuclide n to surrogate radionuclide Using the Operational DCGLs presented in Table 4-3 and the ratio from Table 5-1, the following surrogate calculation was performed:

Equation 2 1

SurrogatevccL ( cs-137) = 1 0.502 6.68 + 04(

[ (-E-cs--137) )

+ (1.08E + 05(Sr-90) ) ]

= 5.10E + 04 dpm /100 cm2 The surrogate Operational DCGL for Cs-137 is then used in the calculation of the gross gamma Operational DCGL, as calculated in Equation 3.

Equation 3 SurrogatevcGL (gamma )

1

=

0.071 0.919 0.006 0.003

[(1.57E + 04( Co-60 ) ) + + +

( 5.10E + 04 Cs-137) ( 3.44E + 04(Eu-152 ) ) ( 3.20E + 04(Eu-154 ) ) ]

= 4.37E + 04 dpm /100 cm 2 The action level for survey unit S2-011-103 A was equivalent to the calculated gross gamma Operational DCGL of 4.37E+04 dpm/100 cm2.

For the survey of interior pipe surfaces, areal coverage is achieved by the area of detection for each static measurement collected. Scanning, in the traditional context, is not applicable to the survey of pipe internal surfaces. For the survey of the De-Icing Line, the detector was erroneously calibrated for a specific geometry of a 3,050 cm2 (1 ft x 1 m) area of contamination on the bottom of the pipe, resulting in inaccurate detector efficiencies and inaccurate calculations for activity per area. TSD LC-FS-TSD-005, MCNP Modeling of Water Discharge Pipes for the LaCrosse Boiling Water Reactor (Reference 12) was written

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS to address the discrepancy in efficiency and area of detection. The TSD details the Monte Carlo Neutral Particle (MCNP) radiation transport code that modeled the response of a NaI detector to a calibration source for several different pipe sizes. The MCNP models resulted in efficiency correction factors. The calculated efficiency from original source calibration can be multiplied by the correction factors to obtain an efficiency that more realistically portrays the specific contamination geometry of the pipe. For an 18 ID pipe, each measurement has a true Field-of-View (FOV) of 4,378 cm2.

The De-Icing Line is approximately 105 feet of 18 ID steel piping, which equates to a surface area of 45.96 m2 (459,600 cm2). The LTP states that a Class 2 FSS unit shall have an areal coverage of 10% to 100%. For survey unit S2-011-103 A, 50% survey coverage was selected. Therefore, one (1) measurement was to be collected every two (2) linear feet traversed through the pipe, for a total of at least fifty (50) distinct measurements over the entire accessible pathway of the piping system.

Each static measurement represents the gamma activity in gross counts per minute (cpm) for each specific measurement location. Background is subtracted, then the value is converted to dpm using an efficiency factor based on the calibration source and the efficiency correction factors detailed in TSD LC-FS-TSD-005, MCNP Modeling of Water Discharge Pipes for the LaCrosse Boiling Water Reactor. The total activity in dpm is then adjusted for the assumed effective surface area commensurate with the pipe diameter, resulting in units of dpm/100 cm2. The total gamma surface activity for each measurement was converted to an activity concentration for each gamma-emitting ROC, based on the normalized gamma mixture from Table 4-1. Concentrations for the HTD ROC Sr-90 were inferred using the surrogate approach in accordance with LTP Chapter 5.

The implementation of quality control measures as referenced by LTP, Section 5.9 and LaCrosseSolutions LC-QA-PN-001, Final Status Survey Quality Assurance Project Plan (QAPP) (Reference 13) includes the collection of replicate static measurements on 5% of the systematic measurements collected in the survey unit, with the locations selected at random. Three (3) replicate static measurements were selected for Quality Control (QC) analysis for the FSS of this survey unit.

For this Class 2 buried pipe survey unit, the Investigation Levels for measurement results are those levels specified in LTP, Table 5-16, and are reproduced below in Table 5-2.

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Table 5 Investigation Levels Direct Investigation Classification Scan Investigation Levels Levels

>Operational DCGL or >MDC scan if Class 2 MDCscan is greater than Operational >Operational DCGL DCGL Table 5-3 provides a synopsis of the survey design for survey unit S2-011-103 A.

Table 5 Synopsis of Survey Design Feature Design Criteria Basis Survey Unit Surface 105 of 18 diameter steel 45.96 m2 (459,600 cm2)

Area pipe Number of Systematic 50 50% coverage Measurements (N)

  • Co-60: 1.57E+04
  • Sr-90: 1.08E+05 Operational DCGLs for Operational DCGLs buried pipe,
  • Cs-137: 6.68E+04 (dpm/100 cm2) LTP, Table 5-8, Release
  • Eu-152: 3.44E+04 Record, Table 4-3
  • Eu-154: 3.20E+04 4.37E+04 dpm/100 cm2 Gross Gamma Operational Action Level DCGL, Equation 3 Investigation Level >Operational DCGL LTP, Table 5-16 Scan Areal Coverage N/A LTP, Section 5.7.1.8 QC 3 replicate measurements LTP, Section 5.9 Number of 1 Per Sample Plan Judgmental 2 Actual Number Obtained Measurements Non-parametric Sign Test LTP, Section 5.6.4.2 Statistical Test

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS

6. SURVEY IMPLEMENTATION FSS field activities were conducted under the FSS sample plan, which included DQOs, survey design, detailed FSS instructions, job safety analysis, and related procedures for reference. The survey unit was inspected and controlled in accordance with LC-FS-PR-010, Isolation and Control for Final Status Survey (Reference 14). A Field Log was used to document field activities and other information pertaining to the performance of the FSS.

FSS field activities commenced on April 13, 2018.

FSS field activities were projected to take four (4) working days to complete. Daily briefings were conducted to discuss the expectations for job performance and to review safety aspects of the job. The survey-required field activities were performed during normal working hours and concluded on April 19, 2018.

Background measurements were acquired in the North Yard area of the site. These readings were found to be inconsistent with the activity measured in the pipe; a significant portion of the measurements were negative after subtracting background. It was determined that the backgrounds originally collected for the De-Icing Line were not representative of true background levels. A background study was performed by collecting measurements on a buried piece of 18 ID steel pipe. The result of the background study for the 18 ID steel pipe was an average background value of 2,710 cpm. This is the value subtracted from each measurement for compliance.

Daily, prior to and following use, each detector was subjected to an Operational Response Check in accordance with procedure LC-FS-PR-018, Radiation Surveys of Pipe Interiors Using Sodium/Cesium Iodide Detectors. The Daily Operational Response Check compared the background response and the response to check source ranges established for normal background and detector source response to ensure that the detector was working properly.

The fifty (50) systematic 1-minute static measurements were collected using a Ludlum Model 2350-1 paired with a Model 44-10 NaI detector operated in the rate-meter mode and using audio response. The detector was fitted into a wheeled rig, which maintained a fixed detector geometry, an area of detection of 4,378 cm2. The static MDC was sufficient to detect residual radioactivity at the action level (adjusted gross gamma Operational DCGL of 4.37E+04 dpm/100 cm2). Complete measurement results are provided in Attachment 2.

Two (2) judgmental static measurements were collected during implementation of FSS.

The implementation of survey specific QC measures included the collection of three (3) replicate static measurements for QC analysis.

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS

7. SURVEY RESULTS The SOF or unity rule is the mathematical test used to evaluate compliance with radiological criteria for license termination when more than one radionuclide has been determined to be potentially present. The equation for the unity rule is:

Equation 4 C C Cn

- -1 + - -2 +............ 1 DCGL1 DCGL 2 DCGL n Where: Cn = concentration of radionuclide n DCGLn = DCGL of radionuclide n.

The application of the unity rule serves to normalize the data to allow for an accurate comparison of the various data measurements to the release criteria. When the unity rule is applied, the DCGLW (used for the nonparametric statistical test) becomes one (1). The DCGLBP are directly analogous to the DCGLW as defined in MARSSIM. The use and application of the unity rule was performed in accordance with section 4.3.3 of MARSSIM.

As described in LTP, Section 5.10.3.2, the Sign Test was used to evaluate the measured residual radioactivity against the dose criterion. The SOF for each measurement was used as the sum value for the Sign Test. The Sign Test then demonstrated that the mean activity for each ROC was less than the OpDCGLBP at a Type I decision error of 0.05. The results of the Sign Test are presented in Attachment 3.

For buried pipe, areas of elevated activity were defined as any area identified by measurement (systematic or judgmental) that exceeded the OpDCGLBP but was less than the DCGLBP. The SOF (based on the OpDCGLB) for a systematic or judgmental measurement can exceed one (1) without remediation as long as the survey unit passes the Sign Test, and the mean SOF (based on the OpDCGLBP) for the survey unit does not exceed one (1). Once the survey data set passes the Sign Test (using Operational DCGLs), then the mean radionuclide activity for each ROC from systematic measurements along with any identified elevated areas from systematic and judgmental samples can be used with the Base Case DCGLs to perform a mean SOFBP calculation. The dose from residual radioactivity assigned to the FSS unit is the mean SOFBP multiplied by 25 mrem/yr.

The systematic measurement population consisted of fifty (50) static measurements that were acquired using the Ludlum Model 2350-1 paired to a Model 44-10 detector. In total, fifty-five (55) static measurements were collected, including systematic, judgmental, and QC measurements. A breakdown of the total static measurements and SOF for systematic measurements compared to the OpDCGLBP is provided in Table 7-1. A summary of the results of the systematic measurements taken for non-parametric statistical testing when

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS compared to the DCGLBP is provided in Table 7-2. The complete results of the data assessment for survey unit S2-011-103 A are provided in Attachment 2.

Table 7 Summary of Systematic and QC Measurements Total Number of Systematic Measurements 50 Number of Quality Control Measurements 3 Number of Judgmental Measurements 2 Total Number of Measurements 55 Mean Systematic Measurement SOF (1) 0.0602 Max Individual Systematic Measurement SOF (1) 0.1414 Number of Systematic Measurements with SOF > 1 (1) 0 Number of Judgmental Measurements with SOF > 1 (1) 0 (1) Based on the OpDCGLBP Table 7 Basic Statistical Properties of the Systematic Measurement Population Mean Median Max. Min. St. Dev. BcDCGL Avg. Dose Avg. SOF ROC (dpm/100 (dpm/100 (dpm/100 (dpm/100 (dpm/100 (dpm/100 per ROC per ROC cm2) cm2) cm2) cm2) cm2) cm2) (mrem/yr)

Co-60 1.88E+02 1.81E+02 4.42E+02 1.10E+02 5.43E+01 7.50E+04 0.0025 0.0627 Cs-137 2.42E+03 2.33E+03 5.69E+03 1.42E+03 6.99E+02 3.18E+05 0.0076 0.1902 Eu-152 1.60E+01 1.54E+01 3.76E+01 9.39E+00 4.63E+00 1.64E+05 0.0001 0.0024 Eu-154 8.20E+00 7.89E+00 1.93E+01 4.81E+00 2.37E+00 1.52E+05 0.0001 0.0013 Sr-90 1.21E+03 1.17E+03 2.85E+03 7.12E+02 3.51E+02 5.16E+05 0.0024 0.0589 SUM 0.0126 0.3155 The mean SOF for the De-Icing Line, is based on the mean concentration for each ROC as measured by the systematic measurement population when compared against the DCGLBP, is 0.0126. This SOF equates to a dose rate of 0.3155 mrem/yr.

8. QUALITY CONTROL The implementation of survey specific QC measures included the collection of three (3) replicate static measurements for QC analysis. The acceptance criteria for replicate static measurements is that the same conclusion is reached for each measurement. This is defined as the replicate measurement being within 20% of the standard measurement. In cases where the replicate measurement is not within 20% of the standard measurement, but both measurements are below the Operational DCGL, there is an acceptable agreement. Two (2)

QC replicate measurements did not fall within the 20% criteria, but both the standard and

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS replicate measurements for each were well below the Operational DCGL. No further action was deemed necessary, and there is an acceptable agreement between standard and replicate results. Refer to Attachment 4 for QC analysis results.

9. INVESTIGATIONS AND RESULTS No investigations were performed during the performance or analyses of the survey.
10. REMEDIATION AND RESULTS No radiological remedial action as described by MARSSIM Section 5.4 was performed in this survey unit. Chapter 4 of the LTP determined that remediation beyond that required to meet the release criteria is unnecessary and that the remaining residual radioactivity in buried pipe was ALARA.
11. CHANGES FROM THE FINAL STATUS SURVEY PLAN TSD LC-FS-TSD-005, MCNP Modeling of Water Discharge Pipes for the LaCrosse Boiling Water Reactor, was developed in response to the inaccurate efficiency calibration geometry originally assumed in the sample plan and during survey implementation. Additionally, as described in section 6 of this release record, background measurements collected for the background study were used instead of the original backgrounds collected for the survey.
12. DATA QUALITY ASSESSMENT The DQO survey design and data were reviewed in accordance with LC-FS-PR-008, Final Status Survey Data Assessment (Reference 15) for completeness and consistency.

Documentation was complete and legible. Surveys were consistent with the DQOs and were sufficient to ensure that the survey unit was properly designated as Class 2. The survey design had adequate power as indicated by the Retrospective Power Curve (see Attachment 5).

All measurements were less than a SOF of one (1) when compared to the OpDCGLBP.

The Sign Test was performed on the data and compared to the original assumptions of the DQOs. The evaluation of the Sign Test results clearly demonstrates that the survey unit passes the unrestricted release criteria, thus, the null hypothesis is rejected.

The preliminary data review consisted of calculating basic statistical quantities (e.g., mean, median, standard deviation). All data was considered valid including negative values, zeros, values reported below the MDC, and values with uncertainties that exceeded two standard deviations. The mean and median values for each ROC were well below the respective Operational DCGLs. Also, the retrospective power curve shows that a sufficient number of

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FSS RELEASE RECORD - REVISION 1 DE-ICING LINE ~

SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS measurements were collected to achieve the desired power. Therefore, the survey unit meets the unrestricted release criteria with adequate power as required by the DQOs.

13. ANOMALIES No anomalies were observed during the performance or analyses of the survey.
14. CONCLUSION Survey unit S2-011-103 A has met the DQOs of the FSS plan. The ALARA criteria as specified in Chapter 4 of the LTP were achieved.

The sample data passed the Sign Test. The null hypothesis was rejected. The Retrospective Power Curve showed that adequate power was achieved. The survey unit is properly classified as Class 2. Therefore, in accordance with LTP Section 5.11, the survey unit meets the release criteria.

The dose contribution from survey unit S2-011-103 A is 0.3155 mrem/yr TEDE, based on the average concentration of the ROC in measurements used for non-parametric statistical testing (mean SOF).

Survey unit S2-011-103 A is acceptable for unrestricted release.

15. REFERENCES
1. LC-FS-PR-009, Final Status Survey Data Reporting
2. La Crosse Boiling Water Reactor License Termination Plan
3. LC-FS-PR-002, Final Status Survey Package Development
4. LC-FS-PR-018, Radiation Surveys of Pipe Interiors Using Sodium/Cesium Iodide Detectors
5. NUREG-1575, Revision 1, Multi-Agency Radiation Survey and Site Investigation Manual
6. La Crosse Boiling Water Reactor Historical Site Assessment
7. LC-FS-PR-006, Survey Unit Classification
8. RS-TD-313196-001, Radionuclides of Concern during LACBWR Decommissioning
9. NUREG-1757, Volume 2, Revision 1, Consolidated Decommissioning Guidance -

Characterization, Survey, and Determination of Radiological Criteria, Final Report

10. LC-FS-TSD-002, Operational Derived Concentration Guideline Levels for Final Status Survey DCGL
11. RS-TD-313196-004, LACBWR Soil DCGL, Basement Concrete DCGL, and Buried Pipe
12. LC-FS-TSD-005, MCNP Modeling of Water Discharge Pipes for the LaCrosse Boiling Water Reactor

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS

13. LC-QA-PN-001, Final Status Survey Quality Assurance Project Plan
14. LC-FS-PR-010, Isolation and Control for Final Status Survey
15. LC-FS-PR-008, Final Status Survey Data Assessment
16. ATTACHMENTS Attachment 1 - Figures and Maps Attachment 2 - Measurement Data Attachment 3 - Sign Test Attachment 4 - Quality Control Assessment Attachment 5 - Graphical Presentations

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS ATTACHMENT 1 FIGURES AND MAPS

FSS RELEASE RECORD - REVISION 1 DE-ICING LINE ~

SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Figure 16 Survey Unit S2-011-103 A Drawing

\

N10 Ti:

FOR CE.VAIL OF G,AIIB H0Lil5E

!=)I Pl t-JGi 5E£ P'RWti, 1'~ 1

- ~2 r;

Rl iCI WATE'R WAT

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS ATTACHMENT 2 MEASUREMENT DATA

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Table 16-1-Survey Unit S2-011-103 A Static Measurements Data Assessment Gamma Result Activity 1 (dpm/100 cm2 ) Fraction ofOpDCGL Measurement Measurement Measurement ID Population OpSOF dpm/100 cm2 Co-60 Cs-137 Eu-152 Eu-154 Sr-90 Co-60 Cs-137 Eu-152 Eu-154 Sr-90 s 1 2110 l.51E+02 l.94E+03 l.28E+0l 6.58E+00 9.74E+02 0.0096 0.0290 0.0004 0.0002 0.0090 0.0482 s 2 1724 l.23E+02 l.58E+03 l.05E+0l 5.37E+00 7.95E+02 0.0078 0.0237 0.0003 0.0002 0.0074 0.0394 s 3 2009 l.44E+02 l.85E+03 1.22E+0l 6.26E+00 9.27E+02 0.0091 0.0277 0.0004 0.0002 0.0086 0.0459 s 4 2245 l.60E+02 2.06E+03 l.37E+0l 7.00E+00 l.04E+03 0.0102 0.0309 0.0004 0.0002 0.0096 0.0513 s 5 2148 l.53E+02 l.97E+03 l.31E+0l 6.69E+00 9.91E+02 0.0098 0.0296 0.0004 0.0002 0.0092 0.0491 s 6 2371 l.69E+02 2.18E+03 1.44E+0l 7.39E+00 l.09E+03 0.0108 0.0326 0.0004 0.0002 0.0101 0.0542 s 7 2291 l.64E+02 2.11E+03 l.39E+0l 7.14E+00 l.06E+03 0.0104 0.0315 0.0004 0.0002 0.0098 0.0524 s 8 2253 l.61E+02 2.07E+03 l.37E+0l 7.02E+00 l.04E+03 0.0102 0.0310 0.0004 0.0002 0.0096 0.0515 s 9 2156 l.54E+02 l.98E+03 l.31E+0l 6.72E+00 9.95E+02 0.0098 0.0297 0.0004 0.0002 0.0092 0.0493 s 10 2253 l.61E+02 2.07E+03 l.37E+0l 7.02E+00 l.04E+03 0.0102 0.0310 0.0004 0.0002 0.0096 0.0515 s 11 2535 l.81E+02 2.33E+03 l.54E+0l 7.90E+00 l.17E+03 0.0115 0.0349 0.0004 0.0002 0.0108 0.0579 s 12 2619 l.87E+02 2.41E+03 l.59E+0l 8.16E+00 l.21E+03 0.0119 0.0360 0.0005 0.0003 0.0112 0.0599 s 13 2480 l.77E+02 2.28E+03 l.51E+0l 7.73E+00 l.14E+03 0.0113 0.0341 0.0004 0.0002 0.0106 0.0567 s 14 2249 l.61E+02 2.07E+03 l.37E+0l 7.0IE+00 l.04E+03 0.0102 0.0310 0.0004 0.0002 0.0096 0.0514 s 15 2825 2.02E+02 2.60E+03 l.72E+0l 8.80E+00 l.30E+03 0.0129 0.0389 0.0005 0.0003 0.0121 0.0646 s 16 2526 l.80E+02 2.32E+03 l.54E+0l 7.87E+00 l.17E+03 0.0115 0.0348 0.0004 0.0002 0.0108 0.0578 s 17 1892 l.35E+02 l.74E+03 l.15E+0l 5.90E+00 8.73E+02 0.0086 0.0260 0.0003 0.0002 0.0081 0.0432 s 18 2472 l.77E+02 2.27E+03 l.50E+0l 7.70E+00 l.14E+03 0.0112 0.0340 0.0004 0.0002 0.0106 0.0565 s 19 2535 l.81E+02 2.33E+03 l.54E+0l 7.90E+00 l.17E+03 0.0115 0.0349 0.0004 0.0002 0.0108 0.0579 s 20 2379 l.70E+02 2.19E+03 l.45E+0l 7.41E+00 l.10E+03 0.0108 0.0327 0.0004 0.0002 0.0102 0.0544 s 21 2564 l.83E+02 2.36E+03 l.56E+0l 7.99E+00 l.18E+03 0.0117 0.0353 0.0005 0.0002 0.0110 0.0586 s 22 3544 2.53E+02 3.26E+03 2.16E+0l 1.I0E+0l l.64E+03 0.0161 0.0488 0.0006 0.0003 0.0151 0.0810 s 23 3245 2.32E+02 2.98E+03 l.98E+0l l.0IE+0l l.50E+03 0.0148 0.0447 0.0006 0.0003 0.0139 0.0742

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Gamma Result Activity 1 (dpm/100 cm2 ) Fraction ofOpDCGL Measurement Measurement Measurement ID Population OpSOF dpm/100 cm2 Co-60 Cs-137 Eu-152 Eu-154 Sr-90 Co-60 Cs-137 Eu-152 Eu-154 Sr-90 s 24 2627 l.88E+02 2.42E+03 l.60E+0l 8.19E+00 l.21E+03 0.0120 0.0362 0.0005 0.0003 0.0112 0.0601 s 25 3014 2.15E+02 2.77E+03 l.84E+0l 9.39E+00 l.39E+03 0.0137 0.0415 0.0005 0.0003 0.0129 0.0689 s 26 3241 2.31E+02 2.98E+03 l.97E+0l l.0IE+0l l.50E+03 0.0147 0.0446 0.0006 0.0003 0.0139 0.0741 s 27 3708 2.65E+02 3.41E+03 2.26E+0l l.16E+0l l.71E+03 0.0169 0.0510 0.0007 0.0004 0.0158 0.0848 s 28 6184 4.42E+02 5.69E+03 3.76E+0l l.93E+0l 2.85E+03 0.0281 0.0851 0.0011 0.0006 0.0264 0.1414 s 29 3254 2.32E+02 2.99E+03 l.98E+0l l.0IE+0l l.50E+03 0.0148 0.0448 0.0006 0.0003 0.0139 0.0744 s 30 3220 2.30E+02 2.96E+03 l.96E+0l l.00E+0l l.49E+03 0.0146 0.0443 0.0006 0.0003 0.0138 0.0736 s 31 2980 2.13E+02 2.74E+03 l.81E+0l 9.29E+00 l.38E+03 0.0136 0.0410 0.0005 0.0003 0.0127 0.0681 s 32 3123 2.23E+02 2.87E+03 l.90E+0l 9.73E+00 l.44E+03 0.0142 0.0430 0.0006 0.0003 0.0133 0.0714 s 33 2589 l.85E+02 2.38E+03 l.58E+0l 8.07E+00 l.20E+03 0.0118 0.0356 0.0005 0.0003 0.0111 0.0592 s 34 2934 2.10E+02 2.70E+03 l.79E+0l 9.14E+00 l.35E+03 0.0133 0.0404 0.0005 0.0003 0.0125 0.0671 s 35 3287 2.35E+02 3.02E+03 2.00E+0l l.02E+0l l.52E+03 0.0150 0.0452 0.0006 0.0003 0.0140 0,0751 s 36 2959 2.11E+02 2.72E+03 l.80E+0l 9.22E+00 l.37E+03 0.0135 0.0407 0.0005 0.0003 0.0126 0.0677 s 37 3413 2.44E+02 3.14E+03 2.08E+0l l.06E+0l l.58E+03 0.0155 0.0470 0.0006 0.0003 0.0146 0.0780 s 38 3754 2.68E+02 3.45E+03 2.29E+0l l.17E+0l l.73E+03 0.0171 0.0517 0.0007 0.0004 0.0160 0.0858 s 39 3094 2.21E+02 2.84E+03 l.88E+0l 9.64E+00 l.43E+03 0.0141 0.0426 0.0005 0.0003 0.0132 0.0707 s 40 J 2842 2.03E+02 2.61E+03 l.73E+0l 8.86E+00 l.31E+03 0.0129 0.0391 0.0005 0.0003 0.0121 0.0650 s 41 2745 l.96E+02 2.52E+03 l.67E+0l 8.55E+00 l.27E+03 0.0125 0.0378 0.0005 0.0003 0.0117 0.0628 s 42 2497 l.78E+02 2.30E+03 l.52E+0l 7.78E+00 l.15E+03 0.0114 0.0344 0.0004 0.0002 0.0107 0.0571 s 43 2850 2.04E+02 2.62E+03 l.74E+0l 8.88E+00 l.32E+03 0.0130 0.0392 0.0005 0.0003 0.0122 0.0652 s 44 J 1942 l.39E+02 l.79E+03 l.18E+0l 6.05E+00 8.96E+02 0.0088 0.0267 0.0003 0.0002 0.0083 0.0444 s 45 2194 l.57E+02 2.02E+03 l.34E+0l 6.84E+00 l.01E+03 0.0100 0.0302 0.0004 0.0002 0.0094 0.0502 s 46 1543 l.10E+02 l.42E+03 9.39E+00 4.81E+00 7.12E+02 0.0070 0.0212 0.0003 0.0002 0.0066 0.0353 s 47 1925 l.38E+02 l.77E+03 l.17E+0l 6.00E+00 8.89E+02 0.0088 0.0265 0.0003 0.0002 0.0082 0.0440 s 48 2077 l.48E+02 l.91E+03 l.26E+0l 6.47E+00 9.58E+02 0.0094 0.0286 0.0004 0.0002 0.0089 0.0475

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Gamma Result Activity 1 (dpm/100 cm2 ) Fraction ofOpDCGL Measurement Measurement Measurement ID Population OpSOF dpm/100 cm2 Co-60 Cs-137 Eu-152 Eu-154 Sr-90 Co-60 Cs-137 Eu-152 Eu-154 Sr-90 s 49 2039 l.46E+02 l.87E+03 1.24E+0l 6.35E+00 9.41E+02 0.0093 0.0281 0.0004 0.0002 0.0087 0.0466 s 50 1543 l.10E+02 l.42E+03 9.39E+00 4 .81E+00 7.12E+02 0.0070 0.0212 0.0003 0.0002 0.0066 0.0353 s 51 1736 l.24E+02 l.60E+03 l.06E+0l 5.41E+00 8.01E+02 0.0079 0.0239 0.0003 0.0002 0.0074 0.0397 s 52 1644 l.17E+02 l.51E+03 l.00E+0l 5.12E+00 7.59E+02 0.0075 0.0226 0.0003 0.0002 0.0070 0.0376 Q QC 18 2131 l.52E+02 l.96E+03 l.30E+0l 6.64E+00 9.84E+02 0.0097 0.0293 0.0004 0.0002 0.0091 0.0487 Q QC 12 3964 2.83E+02 3.64E+03 2.41E+0l l.24E+0l l.83E+03 0.0180 0.0546 0.0007 0.0004 0.0169 0.0906 Q QC6 2955 2.11E+02 2.72E+03 l.80E+0l 9.21E+00 l.36E+03 0.0134 0.0407 0.0005 0.0003 0.0126 0.0676 (1) Sr-90 activity is inferred from Cs-137.

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS ATTACHMENT 3 SIGN TEST

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SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Table 16 Survey Unit S2-011-103 A Sign Test SOF

  1. 1-Ws Sign (Ws) 1 0.0482 0.95 +1 2 0.0394 0.96 +1 3 0.0459 0.95 +1 4 0.0513 0.95 +1 5 0.0491 0.95 +1 6 0.0542 0.95 +1 7 0.0524 0.95 +1 8 0.0515 0.95 +1 9 0.0493 0.95 +1 10 0.0515 0.95 +1 11 0.0579 0.94 +1 12 0.0599 0.94 +1 13 0.0567 0.94 +1 14 0.0514 0.95 +1 15 0.0646 0.94 +1 16 0.0578 0.94 +1 17 0.0432 0.96 +1 18 0.0565 0.94 +1 19 0.0579 0.94 +1 20 0.0544 0.95 +1 21 0.0586 0.94 +1 22 0.0810 0.92 +1 23 0.0742 0.93 +1 24 0.0601 0.94 +1 25 0.0689 0.93 +1 26 0.0741 0.93 +1 27 0.0848 0.92 +1 28 0.1414 0.86 +1 29 0.0744 0.93 +1 30 0.0736 0.93 +1 31 0.0681 0.93 +1 32 0.0714 0.93 +1 33 0.0592 0.94 +1 34 0.0671 0.93 +1 35 0.0751 0.92 +1 36 0.0677 0.93 +1

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~

SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS 37 0.0780 0.92 +1 38 0.0858 0.91 +1 39 0.0707 0.93 +1 40 0.0628 0.94 +1 41 0.0571 0.94 +1 42 0.0652 0.93 +1 43 0.0502 0.95 +1 44 0.0353 0.96 +1 45 0.0440 0.96 +1 46 0.0475 0.95 +1 47 0.0466 0.95 +1 48 0.0353 0.96 +1 49 0.0397 0.96 +1 50 0.0376 0.96 +1 Number of positive differences (S+) 50 Critical Value 31 Survey Unit Meets the Acceptance Criteria

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DE-ICING LINE LACROSSESOLUTIONS SURVEY UNIT S2-011-103 A ATTACHMENT 4 QUALITY CONTROL ASSESSMENT

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DE-ICING LINE LACROSSESOLUTIONS SURVEY UNIT S2-011-103 A Table 16 Survey Unit S2-011-103 A QC Assessment Standard Measurement Replicate I Activity Activity Acceptable

+20% -20%

ID Value ID Value (Y/N) 6 2371 2845 1897 QC 6 2955 N 12 2619 3143 2095 QC 12 3964 N 18 2472 2966 1977 QC 18 2131 Y Comments/Corrective Actions: The replicate measurement results are in acceptable The acceptance criteria for replicate static measurements and is that the agreement same conclusion is reached for each measurement. This is defined as the replicate measurement being within 20% of the standard measurement. In cases where the replicate measurement is not within 20% of the standard measurement, but both measurements are below the Operational DCGL, there is an acceptable agreement.

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FSS RELEASE RECORD - REVISION 1 ~

DE-ICING LINE LACROSSESOLUTIONS SURVEY UNIT S2-011-103 A ATTACHMENT 5 GRAPHICAL PRESENTATIONS

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DE-ICING LINE LACROSSESOLUTIONS SURVEY UNIT S2-011-103 A Figure 16 Quantile Plot for Gross Gamma Activity 7000 6000 N

2 5000 u

0 0

2 Q.

e.z 4000 0

<(

a:

I-z w

u z 3000 0

u

<(

2 2:

<(

\!)

I-w 2000 z

1000 0

0.00% 10.00% 20.00% 30.00% 40.00% 50.00% 60.00% 70.00% 80.00% 90.00% 100.00%

PERCENTAGE

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~

SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Figure 16 Histogram for Gross Gamma Activity 35 30 25 20

~

zLLI a

LLI 0::

15 10 1.03E+03 2.06E+03 3.09E+03 4.12E+03 5.15E+03 6.18E+03 UPPER END VALUE (DPM/100CM2)

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~

SURVEY UNIT S2-011-103 A LACROSSESOLUTIONS Figure 16 Retrospective Power Curve for Survey Unit S2-011-103 A Prob~biit:, fb:id the Smive: Unit Passes, 1.0.

o:6 0.4 0.0 1)% 3)% 5 )% -% 9)%, .,

ii..

JO1/4 110%. 1:30% ,- 0%

True Sun e] Unit Co:ncent ra~on i(pe.r cent of DCGL)1

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