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(_~ DUKE ENERGY®
William R. Gideon Vice President
Brunswick Nuclear Plant P.O. Box 10429
Southport, NC 28461
o: 910.832.3698
May 29, 2018
Serial: RA-18-0024 10 CFR 50.90
U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555-0001
Subject: Brunswick Steam Electric Plant, Unit Nos. 1 and 2 Renewed Facility Operating License Nos. DPR-71 and DPR-62 Docket Nos. 50-325 and 50-324 Supplemental Information to Request for License Amendment to Revise the Technical Specifications to Relocate the Pressure-Temperature Limit Curves to a Pressure and Temperature Limits Report
Reference: Letter from William R. Gideon (Duke Energy) to the U.S. Nuclear Regulatory Commission Document Control Desk, Request for License Amendment to Revise the Technical Specifications to Relocate the Pressure-Temperature Limit Curves to a Pressure and Temperature Limits Report, dated April 4, 2018, ADAMS Accession Number ML 180948058
Ladies and Gentlemen:
On April 4, 2018 (i.e., Reference), Duke Energy Progress, LLC (Duke Energy), submitted a license amendment request (LAR) for the Brunswick Steam Electric Plant (BSEP), Unit Nos. 1 and 2. The proposed LAR modifies the Technical Specifications (TS)1.0, TS 3.4.9, and TS 5.6 to relocate the pressure and temperature limit curves from TSs to a Pressure and Temperature Limits Report (PTLR).
In support of the LAR, Duke Energy is submitting WCAP-17660-NP, Revision 0, Neutron Exposure Evaluations for Core Shroud and Pressure Vessel Brunswick Units 1 and 2, November 2012. WCAP-17660-NP is included in the enclosure to this submittal.
Duke Energy has determined that the information provided in this submittal does not alter the conclusions reached in the 10 CFR 50.92 no significant hazards determination previously submitted. In addition, the information provided in this submittal does not affect the bases for concluding that neither an environmental impact statement nor an environmental assessment needs to be prepared for the proposed amendment.
This document contains no new regulatory commitments.
Please refer any questions regarding this submittal to Mr. Lee Grzeck, Manager - Regulatory Affairs, at (910) 832-2487.
U.S. Nuclear Regulatory Commission Page 2 of 2
I declare, under penalty of perjury, that the foregoing is true and correct. Executed on May 29, 2018.
Sincerely,
rµi)J> William R. Gideon
MAT/mat
Enclosure:
cc:
WCAP-17660-NP, Revision 0, Neutron Exposure Evaluations for Core Shroud and Pressure Vessel Brunswick Units 1 and 2, November 2012
U. S. Nuclear Regulatory Commission, Region II ATTN: Ms. Catherine Haney, Regional Administrator 245 Peachtree Center Ave, NE, Suite 1200 Atlanta, GA 30303-1257
U. S. Nuclear Regulatory Commission ATTN: Mr. Dennis J. Galvin 11555 Rockville Pike Rockville, MD 20852-2738
U.S. Nuclear Regulatory Commission ATTN: Mr. Gale Smith, NRC Senior Resident Inspector 8470 River Road Southport, NC 28461-8869
Chair - North Carolina Utilities Commission (Electronic Copy Only) 4325 Mail Service Center Raleigh, NC 27699-4300 [email protected]
Mr. W. Lee Cox, Ill, Section Chief (Electronic Copy Only) Radiation Protection Section North Carolina Department of Health and Human Services 1645 Mail Service Center Raleigh, NC 27699-1645 [email protected]
WCAP-17660-NP, Revision 0
RA-18-0024 Enclosure
Neutron Exposure Evaluations for Core Shroud and Pressure Vessel Brunswick Units 1 and 2
WCAP-17660-N P Revision 0
Westinghouse Non-Proprietary Class 3
November 2012
Neutron Exposure Evaluations for Core Shroud and Pressure Vessel
Brunswick Units 1 and 2
8 Westinghouse
WESTINGHOUSE NON-PROPRIETARY CLASS 3
Westinghouse Electric Company LLC 1000 Westinghouse Drive
Cranberry Township, PA 16066, USA
© 2012 Westinghouse Electric Company LLC All Rights Reserved
WCAP-17660-NP Revision 0
Neutron Exposure Evaluations for Core Shroud and Pressure Vessel
Brunswick Units 1 and 2
Sylvia S. Wang* Radiation Engineering and Analysis
November 2012
Reviewer: Stanwood L. Anderson* Radiation Engineering Analysis
Approved: Laurent P. Houssay*, Manager Radiation Engineering Analysis
Work Performed Under Shop Order 450 Prepared by Westinghouse for Progress Energy
*Electronically approved records are authenticated in the electronic document management system.
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TABLE OF CONTENTS
LIST OF TABLES ....................................................................................................................................... iii
LIST OF FIGURES ...................................................................................................................................... v
ACRONYMS ............................................................................................................................................... vi
1 INTRODUCTION ........................................................................................................................ 1-1 2 NEUTRON TRANSPORT CALCULATIONS ............................................................................ 2-1
2.1 CALCULATION MODEL .............................................................................................. 2-1 2.2 RESULTS ........................................................................................................................ 2-5
3 CONCLUSIONS .......................................................................................................................... 3-1 4 REFERENCES ............................................................................................................................. 4-1
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LIST OF TABLES
Table 1.1-1 Brunswick Fuel Management Strategy ................................................................................ 1-2
Table 2.1-1 Brunswick Units 1 and 2 Operating History ...................................................................... 2-10
Table 2.1-2 Elevations and Azimuths of Shroud Welds and Top Guide/Core Plate ............................ 2-11
Table 2.1-3 Elevations and Azimuths of Reactor Pressure Vessel Welds ............................................ 2-12
Table 2.2-1 Unit 1 Shroud Horizontal Weld H1 Neutron Exposure Predictions .................................. 2-13
Table 2.2-2 Unit 1 Shroud Horizontal Weld H2 Neutron Exposure Predictions .................................. 2-14
Table 2.2-3 Unit 1 Shroud Horizontal Weld H3 Neutron Exposure Predictions .................................. 2-15
Table 2.2-4 Unit 1 Shroud Horizontal Weld H4 Neutron Exposure Predictions .................................. 2-16
Table 2.2-5 Unit 1 Shroud Horizontal Weld H5 Neutron Exposure Predictions .................................. 2-17
Table 2.2-6 Unit 1 Shroud Horizontal Weld H6A Neutron Exposure Predictions ............................... 2-18
Table 2.2-7 Unit 1 Shroud Horizontal Weld H6B Neutron Exposure Predictions ............................... 2-19
Table 2.2-8 Unit 1 Shroud Horizontal Weld H7 Neutron Exposure Predictions .................................. 2-20
Table 2.2-9 Unit 1 Shroud Vertical Welds V1 and V2 Neutron Exposure Predictions ........................ 2-21
Table 2.2-10 Unit 1 Shroud Vertical Welds V3 and V4 Neutron Exposure Predictions ...................... 2-22
Table 2.2-11 Unit 1 Shroud Vertical Welds V5 and V6 Neutron Exposure Predictions ...................... 2-23
Table 2.2-12 Unit 1 Shroud Vertical Welds V7 and V8 Neutron Exposure Predictions ...................... 2-25
Table 2.2-13 Unit 1 Shroud Vertical Weld V9 Neutron Exposure Predictions .................................... 2-26
Table 2.2-14 Unit 1 Shroud Vertical Weld V10 Neutron Exposure Predictions .................................. 2-27
Table 2.2-15 Unit 1 Shroud Vertical Weld V11 Neutron Exposure Predictions .................................. 2-28
Table 2.2-16 Unit 1 RPV Girth Weld GH Neutron Exposure Predictions ........................................... 2-29
Table 2.2-17 Unit 1 RPV Girth Weld FG Neutron Exposure Predictions ............................................ 2-30
Table 2.2-18 Unit 1 RPV Girth Weld EF Neutron Exposure Predictions ............................................. 2-31
Table 2.2-19 Unit 1 RPV Vertical Welds G1 and G2 Neutron Exposure Predictions .......................... 2-32
Table 2.2-20 Unit 1 RPV Vertical Welds F1 and F2 Neutron Exposure Predictions ........................... 2-34
Table 2.2-21 Unit 1 RPV Lower Shell Plate Neutron Exposure Predictions ........................................ 2-36
Table 2.2-22 Unit 1 RPV Lower Intermediate Shell Plate Neutron Exposure Predictions ................... 2-38
Table 2.2-23 Unit 1 RPV N16 Nozzle/Nozzle Forging Neutron Exposure Predictions ....................... 2-40
Table 2.2-24 Unit 1 Top Guide Neutron Exposure Predictions ............................................................ 2-41
Table 2.2-25 Unit 1 Core Plate Neutron Exposure Predictions ............................................................ 2-43
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Table 2.2-26 Unit 2 Shroud Horizontal Weld H1 Neutron Exposure Predictions ................................ 2-45
Table 2.2-27 Unit 2 Shroud Horizontal Weld H2 Neutron Exposure Predictions ................................ 2-46
Table 2.2-28 Unit 2 Shroud Horizontal Weld H3 Neutron Exposure Predictions ................................ 2-47
Table 2.2-29 Unit 2 Shroud Horizontal Weld H4 Neutron Exposure Predictions ................................ 2-48
Table 2.2-30 Unit 2 Shroud Horizontal Weld H5 Neutron Exposure Predictions ................................ 2-49
Table 2.2-31 Unit 2 Shroud Horizontal Weld H6A Neutron Exposure Predictions ............................. 2-50
Table 2.2-32 Unit 2 Shroud Horizontal Weld H6B Neutron Exposure Predictions ............................. 2-51
Table 2.2-33 Unit 2 Shroud Horizontal Weld H7 Neutron Exposure Predictions ................................ 2-52
Table 2.2-34 Unit 2 Shroud Vertical Welds V1 and V2 Neutron Exposure Predictions ...................... 2-53
Table 2.2-35 Unit 2 Shroud Vertical Welds V3 and V4 Neutron Exposure Predictions ...................... 2-54
Table 2.2-36 Unit 2 Shroud Vertical Welds V5 and V6 Neutron Exposure Predictions ...................... 2-55
Table 2.2-37 Unit 2 Shroud Vertical Welds V7 and V8 Neutron Exposure Predictions ...................... 2-57
Table 2.2-38 Unit 2 Shroud Vertical Weld V9 Neutron Exposure Predictions .................................... 2-58
Table 2.2-39 Unit 2 Shroud Vertical Weld V10 Neutron Exposure Predictions .................................. 2-59
Table 2.2-40 Unit 2 Shroud Vertical Weld V11 Neutron Exposure Predictions .................................. 2-60
Table 2.2-41 Unit 2 RPV Girth Weld GH Neutron Exposure Predictions ........................................... 2-61
Table 2.2-42 Unit 2 RPV Girth Weld FG Neutron Exposure Predictions ............................................ 2-62
Table 2.2-43 Unit 2 RPV Girth Weld EF Neutron Exposure Predictions ............................................. 2-63
Table 2.2-44 Unit 2 RPV Vertical Welds G1 and G2 Neutron Exposure Predictions .......................... 2-64
Table 2.2-45 Unit 2 RPV Vertical Welds F1 and F2 Neutron Exposure Predictions ........................... 2-66
Table 2.2-46 Unit 2 RPV Lower Shell Plate Neutron Exposure Predictions ........................................ 2-68
Table 2.2-47 Unit 2 RPV Lower Intermediate Shell Plate Neutron Exposure Predictions ................... 2-70
Table 2.2-48 Unit 2 RPV N16 Nozzle/Nozzle Forging Neutron Exposure Predictions ....................... 2-72
Table 2.2-49 Unit 2 Top Guide Neutron Exposure Predictions ............................................................ 2-73
Table 2.2-50 Unit 2 Core Plate Neutron Exposure Predictions ............................................................ 2-75
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LIST OF FIGURES
Figure 2.1-1 Brunswick DORT (r,) Model ........................................................................................ 2-6
Figure 2.1-2 Brunswick DORT (r,z) Model ........................................................................................ 2-7
Figure 2.1-3 Brunswick Shroud Welds ................................................................................................ 2-8
Figure 2.1-4 Brunswick Reactor Vessel Welds ................................................................................... 2-9
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ACRONYMS
3-D Three-dimensional BWR Boiling Water Reactor CFR Code of Federal Regulations dpa Displacement per Atom EFPY Effective Full Power Years LWR Light Water Reactor NUREG U. S. Nuclear Regulatory Commission Regulation RPV reactor pressure vessel SER Safety Evaluation Report SRP Standard Review Plan NRC Nuclear Regulatory Commission WCAP Westinghouse Commercial Atomic Power
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1 INTRODUCTION
In the assessment of the state of embrittlement of light water reactor (LWR) pressure vessels, an accurate evaluation of the neutron exposure of each of the materials comprising the beltline region of the pressure vessel is required. In Appendix G to 10 CFR 50 (Reference 1), the beltline region is defined as “the region of the reactor vessel shell material (including welds, heat affected zones, and plates or forgings) that directly surrounds the effective height of the reactor core and adjacent regions of the reactor vessel that are predicted to experience sufficient neutron radiation damage to be considered in the selection of the most limiting material with regard to radiation damage”. In Appendix H to 10 CFR 50 (Reference 1), the threshold fast neutron fluence to be used to determine if a specific material is to be included in the beltline region is further defined as 1.0E+17 n/cm2 (E > 1.0 Mev). Therefore, in order to encompass all areas of the reactor vessel anticipated to accrue a fast neutron exposure greater than 1.0E+17 n/cm2, plant specific exposure assessments must include evaluations not only at locations of maximum exposure at the inner diameter of the vessel, but, also as a function of axial, azimuthal, and radial location throughout the vessel wall. Regulatory Guide 1.190, “Calculational and Dosimetry Methods for Determining Pressure Vessel Neutron Fluence” (Reference 2) describes state-of-the-art calculation and measurement procedures that are acceptable to the NRC staff for determining pressure vessel fluence applicable to these beltline locations.
This document describes neutron fluence/exposure assessments performed for the Brunswick Unit 1 and Unit 2 reactor pressure vessel, core shroud, top guide, and core plate based on the guidance specified in Regulatory Guide 1.190 (Reference 2). In these assessments, fast neutron exposures expressed in terms of fast neutron fluence (n/cm2, E > 1.0 MeV) and the iron displacements per atom (dpa) were established for the inner surface of the pressure vessel and for the core shroud, top guide, and core plate within the reactor vessel. The methodology used in the analysis has been applied to the Brunswick reactors in the past and was previously reviewed and accepted by the USNRC staff as being complient with Regulatory Guide 1.190 (Reference 3).
In the current evaluation, the neutron exposures of the materials were determined on a plant and fuel cycle specific basis for the first 18 operating cycles at Brunswick Unit 1 and the first 19 operating cycles at Brunswick Unit 2, based on actual plant operating data. At the conclusion of fuel cycle 18, Brunswick Unit 1 has accrued 25.0 effective full power years (EFPY) of operation. Likewise at the conclusion of fuel cycle 19, Brunswick Unit 2 has accrued 24.5 EFPY.
Following completion of the plant-and-cycle-specific exposure assessments encompassing the operating fuel cycles completed to date, projections of future operations based on an equilibrium cycle designed for both Units were performed. The projections of neutron exposure of the pressure vessel, shroud, top guide, and core plate extending to 32 EFPY as well as 54 EFPY are carried out for both units. The specifics of the long term projections are detailed in Section 2.1 of this report.
The fuel management strategies employed during the operating lifetime of both Brunswick Units 1 and 2 are categorized and summarized in Table 1.1-1.
Based on the above fuel management scenarios for Unit 1 and Unit 2, neutron exposure projections applicable to the core shroud and the pressure vessel were developed for Brunswick Units 1 and 2. Results of these plant specific calculations are provided in Section 2.2 of this report.
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Table 1.1-1 Brunswick Fuel Management Strategy
CYCLE Fuel TypeFuel height
(cm) Power CYCLE Fuel TypeFuel height
(cm) Power
1 GE4 370.84 2436 1 GE3 365.76 2436
2 GE5 381 2436 2 GE4 370.84 2436
3 GE6 381 2436 3 GE5 381 2436
4 GE6 381 2436 4 GE6 381 2436
5 GE7 381 2436 5 GE6 381 2436
6 GE7 381 2436 6 GE7 381 2436
7 GE8 381 2436 7 GE7 381 2436
8 GE10 381 2436 8 GE8 381 2436
9 GE10 381 2436 9 GE9 381 2436
10 GE10 381 2436 10 GE10 381 2436
11 GE13 370.84 2558 11 GE10 381 2436
12 GE13 370.84 2558 12 GE13 370.84 2436
13 GE13 370.84 2558 13 GE13 370.84 2558
14 GE14 381 2754 14 GE13 370.84 2558
15 GE14 381 2923 15 GE14 381 2558
16 GE14 381 2923 16 GE14 381 2825
17 A10 379.60 2923 17 GE14 381 2923
18 A10 379.60 2923 18 GE14 381 2923
19 (EQ) A10XM 381 2923 19 A10 379.60 2923
20 (AVG) A10XM 381.00 2923 20 (EQ) A10XM 381.00 2923
21 (AVG) A10XM 381 2923
UNIT 1 UNIT 2
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2 NEUTRON TRANSPORT CALCULATIONS
In performing the fast neutron exposure evaluations for the Brunswick Units 1 and 2 reactors, plant specific forward transport calculations were carried out using the three-dimensional (3-D) flux synthesis technique described in Section 1.3.4 of Regulatory Guide 1.190 (Reference 2). For all fuel cycles, the following single channel synthesis equation was employed:
)r(φ
)z,r(φ*)θ,r(φ=)z,θ,r(φ
where (r,,z) is the synthesized three-dimensional neutron flux distribution, (r,) is the transport solution in (r,) geometry, (r,z) is the two-dimensional solution for a cylindrical reactor model using the actual axial core power distribution, and (r) is the one-dimensional solution for a cylindrical reactor model using the same source per unit height as that used in the (r,) two-dimensional calculation.
For the Brunswick Units 1 and 2 analyses, all of the transport calculations were carried out using the DORT two-dimensional discrete ordinates code Version 3.1 and the BUGLE-96 cross–section library. The BUGLE-96 library provides a 67 group coupled neutron-gamma ray cross-section data set produced specifically for light water reactor application. In these analyses, anisotropic scattering was treated with a P5 Legendre expansion and the angular discretization was modeled with an S16 order of angular quadrature.
2.1 CALCULATION MODEL
(R-) DORT Models A plan view of the (r,) model of the Brunswick Units 1 and 2 reactor geometry at the core midplane is shown in Figure 2.1-1. Since the reactor exhibits quadrant symmetry only a 0° to 90° sector is depicted. In addition to the active core, core shroud, pressure vessel, and primary biological shield, the model also included homogenized representations of the jet pump riser and mixer tubes and the insulation located external to the pressure vessel. The modeling shown in Figure 2.1-1 is representative of the core midplane elevation. The dosimetry surveillance capsule installed near the pressure vessel is not modeled in the current analysis.
In developing the (r,) analytical model of the reactor geometry shown in Figure 2.1-1, nominal design dimensions were employed for the various structural components with the core shroud dimension based on design information provided by Progress Energy. As shown in Figure 2.1-1, the interior regions of the reactor core were treated as a homogeneous mixture of fuel, cladding, water, and miscellaneous core structures. Since the primary contributors to neutron exposure of the core shroud and pressure vessel are the fuel assemblies located on the core periphery, the fuel assemblies and associated coolant flow channels at the core periphery were modeled separately from the core interior region.
The (r,) model consisted of 156 radial by 181 azimuthal mesh intervals. Mesh interval size was chosen to assure convergence of the point-wise flux solution in the DORT transport calculations. Point-wise inner iteration flux convergence criterion utilized in the (r,) calculations was set at a value of 0.001. The stainless
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steel riser and jet pump mixer tubes located between the core shroud and the pressure vessel were modeled as homogenized mixture of steel and water. The core midplane diameter of these pipes are preserved in the (r,) model.
(R-Z) DORT Models An elevation view of the (r,z) model of the Brunswick Units 1 and 2 reactors is shown in Figure 2.1-2. The model extended radially from the centerline of the reactor core out to a location interior to the primary biological shield. The axial span of the model in Figure 2.1-2 spans an axial elevation from approximately 25 inches below the active fuel zone to approximately 21 inches above the active fuel. The axial extent of the model was chosen to permit the determination of the maximum exposure of vessel materials expected to experience a fast neutron fluence greater than 1.0e+17 n/cm2 (E > 1.0 MeV) over the service life of the respective units.
As in the case of the (r,) model, nominal design dimensions and full power coolant densities were employed in the calculations. In this case, the homogenous core region was treated as an equivalent cylinder with axial zoning appropriate to modeling the change in void fraction in the coolant and fuel pin lengths in the fuel bundles. The active core was modeled as seven axial zones and the coolant void fraction in each zone was used to adjust the water density in the zone to match the average value over the discrete zone height. The various cycle specific fuel types loaded into the active core in each cycle were modeled as homogeneous materials with reduced fuel and cladding densities in the appropriate elevations in the active core region. The water density in the zones with reduced fuel/cladding density was adjusted to model the increased volume fraction of the water/steam coolant. The total volume of the cylindrical region model of the active core has a volume equal to that of the active core zone. Risers and jet tubes included in the (r,) geometric model are not included in the (r,z) model. The (r,z) geometric mesh description of the reactor model shown in Figure 2.1-2 consisted of 156 radial by 85 axial intervals. Mesh sizes were defined to assure that proper point-wise flux convergence is achieved during the inner iterations of the DORT solution. The point-wise inner iteration flux convergence criterion utilized in the (r,z) calculations was set at a value of 0.001. The radial mesh definition in the (r,z) model is identical to the radial modeling of the (r,) model.
One-dimensional radial models used in the synthesis procedure consisted of the same 156 radial mesh intervals included in the (r,z) model. Thus, radial synthesis factors could be determined on a mesh-by-mesh basis throughout the entire geometry.
Fuel Cycle Modeling The fuel cycle information provided for the Brunswick Unit 1 and Unit 2 plants is summarized in Table 2.1-1. The cycle times and operating thermal power used in the prediction of the neutron flux distributions in the various models required for the synthesis methodology are listed. Also shown are the total accumulated cycle times at end-of-cycle including completed fuel cycles up to Cycle 18 for Unit 1 and Cycle 19 for Unit 2. Unit 1 Cycle 19 and Unit 2 Cycle 20 are assumed to operate with nominal equilibrium core design as provided by Progress Energy in Reference 7. Projected neutron flux distributions for future fuel cycles for Unit 1 are based on radial data represented by the average of post-EPU cycles (Cycles 15 to 19) and listed as C20 (Avg) in Table 2.1-1; and on axial power
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distribution and void distributions from the nominal MELLLA+ equilibrium fuel cycle design contained in Reference 7. Similarly, future projections for Unit 2 are based on radial data represented by the average of post-EPU Cycles 17 to 20 and listed as C21 (Avg) in Table 2.1-1. As is the case for Unit 1, the axial power distribution and void data from the nominal MELLLA+ equilibrium cycle design are also applied to the Unit 2 neutron flux projections. These future cycles are used to provide projected fluence values up to 32 and 54 EFPY. Table 2.1-1 also lists the fuel bundle types inserted in each of the cycles. It should be noted that the cycle EFPDs are based on the rated power listed for each cycle; accumulated EFPY represent the sum of the individual cycle EFPD and are not indexed to a single core power level. This is consistent with the use of cycle flux and cycle time in the calculation of neutron fluence. In regard to the average radial data used for the neutron flux projections for future fuel cycles, it should be noted that the mechanics of the averaging procedure did not involve the explicit use of an average radial power distribution in a single transport calculation. Rather, neutron flux solutions were obtained using each of the individual radial power distributions being considered (Cycles 15-19 for Unit 1 and Cycles 17-20 for Unit 2) in combination with the axial power and void distributions from the nominal MELLLA+ equilibrium fuel cycle design in separate calculations. The electronic neutron flux files from these individual calculations were then averaged to obtain the flux distributions for the future projections. This averaging approach is fully equivalent to defining an average radial power distribution and subsequently computing an average neutron flux distribution based on that average radial power profile. As an aid to provide core designers with a tool to compare future fuel cycle designs with the neutron projections provided in this report, the following composite radial power distributions have been generated for Units 1 and 2, respectively. Future fuel cycle designs that exhibit cycle average peripheral powers that are close to those shown would be expected to result in neutron flux distributions that are in close agreement with those used for the future Brunswick Units 1 and 2 fluence projections.
1.052 1.104 1.232 1.101 1.219 1.100 1.205 1.083 1.178 1.054 1.046 0.836 0.483
1.117 1.225 1.110 1.231 1.117 1.216 1.101 1.228 1.094 1.162 1.024 0.866 0.486
1.247 1.112 1.229 1.110 1.289 1.099 1.213 1.127 1.209 1.054 1.049 0.845 0.474
1.103 1.212 1.095 1.200 1.085 1.215 1.098 1.224 1.109 1.147 1.004 0.786 0.460
1.220 1.101 1.203 1.089 1.167 1.116 1.218 1.121 1.160 1.041 0.936 0.678 0.376
1.112 1.219 1.102 1.302 1.127 1.249 1.127 1.230 1.099 1.046 0.788 0.479
1.228 1.104 1.221 1.117 1.239 1.129 1.225 1.109 1.087 0.952 0.614
1.112 1.229 1.128 1.238 1.112 1.228 1.100 1.112 0.987 0.830 0.481
1.204 1.103 1.211 1.121 1.171 1.083 1.080 0.977 0.845 0.671 0.362
1.092 1.190 1.070 1.160 1.059 1.050 0.952 0.831 0.669 0.400
1.095 1.052 1.073 1.019 0.944 0.794 0.623 0.484 0.363
0.857 0.890 0.863 0.795 0.686 0.480
0.499 0.501 0.485 0.463 0.381
Unit 1 Composite Cycles 15 19 Average Radial Power Distribution
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Along with these cycle average radial power distributions, the following axial power and void distributions were used in the calculation of the neutron flux distributions used for future projections at both Brunswick Units 1 and 2. These axial distributions were based on the nominal MELLLA+ equilibrium fuel cycle design.
0.976 1.062 1.198 1.101 1.217 1.099 1.205 1.100 1.199 1.072 1.079 0.857 0.519
1.085 1.193 1.102 1.227 1.119 1.203 1.095 1.236 1.114 1.182 1.054 0.879 0.500
1.224 1.101 1.213 1.110 1.224 1.100 1.216 1.120 1.220 1.061 1.058 0.857 0.469
1.097 1.200 1.091 1.197 1.099 1.203 1.112 1.232 1.102 1.144 1.009 0.877 0.422
1.214 1.097 1.201 1.103 1.158 1.101 1.208 1.110 1.190 1.026 0.936 0.655 0.356
1.115 1.214 1.112 1.239 1.130 1.235 1.118 1.231 1.089 1.052 0.787 0.466
1.228 1.109 1.205 1.123 1.246 1.122 1.220 1.091 1.121 0.965 0.620
1.101 1.222 1.114 1.240 1.121 1.232 1.095 1.140 1.016 0.849 0.470
1.195 1.107 1.207 1.104 1.197 1.092 1.118 1.016 0.855 0.688 0.367
1.083 1.189 1.068 1.171 1.051 1.061 0.968 0.850 0.686 0.404
1.097 1.068 1.073 1.007 0.965 0.798 0.615 0.464 0.367
0.863 0.889 0.870 0.785 0.673 0.478
0.511 0.499 0.468 0.436 0.370
Unit 2 Composite Cycles 17 20 Average Radial Power Distribution
Fractional Core Height
Weighted Relative Power
Weighted Void Fraction
0.98 0.2071 0.7585
0.94 0.6049 0.7537
0.90 0.7820 0.7452
0.86 0.8693 0.7345
0.82 0.9301 0.7222
0.78 0.9735 0.7082
0.74 0.9880 0.6928
0.70 1.0060 0.6758
0.66 1.0162 0.6571
0.62 1.0251 0.6368
0.58 1.0537 0.6142
0.54 1.0675 0.5898
0.50 1.1836 0.5606
0.46 1.2158 0.5260
0.42 1.2340 0.4870
0.38 1.2561 0.4431
0.34 1.2690 0.3938
0.30 1.2632 0.3392
0.26 1.2491 0.2799
0.22 1.2494 0.2158
0.18 1.2263 0.1479
0.14 1.1724 0.0815
0.10 1.0847 0.0290
0.06 0.8478 0.0042
0.02 0.2256 0.0000
Nominal MELLLA+ Axial Power and Void Distributions
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Core Shroud and Reactor Vessel Welds The neutron exposure values, neutron fluence (n/cm2, E>1.0 MeV) and iron atom displacements (dpa) are predicted for a series of shroud welds and reactor vessel welding locations. Brunswick Units 1 and 2 reactor system locations specified in Table 2.1-2 include the horizontal and vertical welds of the shroud structure and the elevations of the bottom of the top guide and the top of the core plate. Note that the H1 and H2 welds have different shroud diameters than the rest of horizontal shroud welds. A schematic sketch is also shown in Figure 2.1-3. The shroud diameter at the H7 elevation is reduced from that at core midplane, however, the exposure data for that weld have been extracted at the core midplane shroud radius.
Table 2.1-3 lists locations specific to the reactor pressure vessel including girth welds, vertical welds, shell plates, and the top/centerline/bottom of the N-16 nozzles and nozzle forgings.
2.2 RESULTS
The calculated cycle-specific neutron exposure of the core shroud, reactor pressure vessel, top guide, and core plate are listed in Tables 2.2-1 through 2.2-50. Neutron exposure values listed are fast neutron fluence (n/cm2, E > 1.0 MeV) and iron atom displacements (dpa) experienced at key locations, welds and shell plates in the core shroud, reactor pressure vessel (RPV), top guide, and core plate of the Unit 1 and Unit 2 reactor systems. The predicted neutron exposure at the Unit 1 core shroud key locations are listed in Tables 2.2-1 through 2.2-15. Unit 1 neutron exposure values for key locations at the RPV and N-16 nozzles are provided in Tables 2.2-16 through Tables 2.2-23. Table 2.2-24 and Table 2.2-25 list the Unit 1 top guide and core plate neutron exposure values. Values are provided for plant operation up to and including the end of actual operating fuel cycle and projected values for 32 and 54 EFPY of operation. Predicted neutron exposure data at the Unit 2 core shroud key locations are listed in Tables 2.2-26 to 2.2-40. Unit 2 neutron exposure values for key locations at the RPV and N-16 nozzles are provided in Tables 2.2-41 to Tables 2.2-48. Table 2.2-49 and Table 2.2-50 list the Unit 2 top guide and core plate neutron exposure values.
The first six columns of each table are the cycle specific exposure values of neutron fluence and dpa at the conclusion of the most recent operating cycles. The next two columns are exposure approximations for the next projected fuel cycle based on the equilibrium cycle design provided in Reference 7, and the average of post-EPU cycles as described in Section 2.1. The last two columns of data in each table are projected fluence and dpa based on operation with the post-EPU average cycle to 32 and 54 EFPY, respectively. The tabulated values provided in all tables are the projected values at azimuths, radii, or elevations in the analytical model. The azimuths are in angles (degrees) and radii and elevations are in centimeters. All elevation values are from the bottom of the active core region. As an enhancement for expediting the processes of P-T curve updating and reactor internals flaw inspection, the tabulated data are high-lighted with yellow shade for shroud fluences (E > 1 MeV) exceeding 1e21 n/cm2, RPV fluences exceeding 1e17 n/cm2, as well as top guide and core plate fluences that exceed 5.5e20 n/cm2.
WCAP-17660-NP
WESTINGHOUSE NON-PROPRIETARY CLASS 3
Brunswick R-T with Jet Pumps 30 60 90 degrees Meshes: 156R.1818
2-6
--· - •wr - 1101!!Et111 111D - .Vl\11 --- C#WIQID
Figure 2.1-1
-N51Umt All -~
Brunswick DORT (r,8) Model
November 2012 Revision 0
WESTINGHOUSE NON-PROPRIETARY CLASS 3
Brunswfck r - z Model wfthout fet pumps Meshes: 156R, 852
1-------~~ • i i ~ N
: I
fcml
Figure 2.1-2 Brunswick DORT (r,z) Model
2-7
WCAP-17660-NP November 2012 Revision 0
WESTINGHOUSE NON-PROPRIETARY CLASS 3 2-8
WCAP-17660-NP November 2012 Revision 0
Figure 2.1-3 Brunswick Shroud Welds
Figure 2.1-3 Brunswick Shroud Welds
WESTINGHOUSE NON-PROPRIETARY CLASS 3 2-9
WCAP-17660-NP November 2012 Revision 0
Figure 2.1-4 Brunswick Reactor Vessel Welds
WESTINGHOUSE NON-PROPRIETARY CLASS 3 2-10
WCAP-17660-NP November 2012 Revision 0
Table 2.1-1 Brunswick Units 1 and 2 Operating History
CYCLE PowerCycle Exposure
(MWd/MT) EFPDAccumulated
EFPY CYCLE PowerCycle Exposure
(MWd/MT) EFPDAccumulated
EFPY
1 2436 10817.0 463.7 1.27 1 2436 350.4 0.96
2 2436 6220.3 265.1 2.00 2 2436 301.6 1.79
3 2436 9604.4 407.6 3.11 3 2436 188.8 2.30
4 2436 9606.6 404.9 4.22 4 2436 310.0 3.15
5 2436 9554.8 403.0 5.32 5 2436 298.7 3.96
6 2436 10165.5 430.2 6.50 6 2436 289.0 4.76
7 2436 10970.2 460.3 7.76 7 2436 475.4 6.06
8 2436 8171.4 339.1 8.69 8 2436 440.7 7.26
9 2436 9886.1 406.3 9.80 9 2436 424.9 8.43
10 2436 11341.8 462.4 11.07 10 2436 372.2 9.45
11 2558 13012.4 499.8 12.44 11 2436 13266.4 541.9 10.93
12 2558 16139.7 611.6 14.11 12 2436 12680.0 511.8 12.33
13 2558 18697.2 701.1 16.03 13 2558 13714.7 520.9 13.76
14 2754 18858.0 669.5 17.86 14 2558 16428.2 616.5 15.45
15 2923 19306.8 659.6 19.67 15 2558 18246.1 696.6 17.35
16 2923 19291.2 662.7 21.48 16 2825 19024.4 670.6 19.19
17 2923 18637.7 639.3 23.23 17 2923 18301.0 628.3 20.91
18 2923 19234.6 648.1 25.01 18 2923 19211.1 659.1 22.71
19(EQ) 2923 19376.6 675 26.86 19 2923 18829.7 644.3 24.48
20(AVG) 2923 19169 675 28.70 20(EQ) 2923 19376.6 675 26.33
21(AVG) 2923 18930 675 28.17
Note: For Unit 1, assume Cycle 20 is the average of C15, C16, C17, C18, C19 - which has equilibrium core load
For Unit 2, assume Cycle 21 is the average of C17, C18, C19, C20 - which has equilibrium core load
UNIT 1 UNIT 2
WESTINGHOUSE NON-PROPRIETARY CLASS 3 2-11
WCAP-17660-NP November 2012 Revision 0
Table 2.1-2 Elevations and Azimuths of Shroud Welds and Top Guide/Core Plate
Description
Elevation
Note 1
Elevation
Note 2
Elevation
Note 3
Notes/Comments
(in) (in) (cm)
Horizontal Weld H1 388.63 180.07 457.38 Shroud ID above top guide = 186.5”
Horizontal Weld H2 356.63 148.07 376.09 Shroud ID above top guide = 186.5”
Horizontal Weld H3 353.63 145.07 368.47 Shroud ID = 174.5”
Horizontal Weld H4 317.63 109.07 277.03 Shroud ID = 174.5”
Horizontal Weld H5 219.50 10.94 27.79 Shroud ID = 174.5”
Horizontal Weld H6A 183.50 -25.06 -63.65 Shroud ID = 174.5”
Horizontal Weld H6B 179.25 -29.31 -74.45 Shroud ID = 174.5”
Horizontal Weld H7 127.19 -81.37 -206.69 Shroud ID = 174.5”
Bottom of Top Guide 356.63 148.07 376.09
Top of Core Plate 201.50 -7.06 -17.93
Vertical Weld V1 N/A N/A N/A Extends between H1 and H2 @ 50 degree azimuth.
Vertical Weld V2 N/A N/A N/A Extends between H1 and H2 @ 230 degree azimuth.
Vertical Weld V3 N/A N/A N/A Extends between H3 and H4 @ 140 degree azimuth.
Vertical Weld V4 N/A N/A N/A Extends between H3 and H4 @ 320 degree azimuth.
Vertical Weld V5 N/A N/A N/A Extends between H4 and H5 @ 50 degree azimuth.
Vertical Weld V6 N/A N/A N/A Extends between H4 and H5 @ 230 degree azimuth.
Vertical Weld V7 N/A N/A N/A Extends between H5 and H6A @ 140 degree azimuth.
Vertical Weld V8 N/A N/A N/A Extends between H5 and H6A @ 320 degree azimuth.
Vertical Weld V9 N/A N/A N/A Extends between H6B and H7 @ 50 degree azimuth.
Vertical Weld V10 N/A N/A N/A Extends between H6B and H7 @ 170 degree azimuth.
Vertical Weld V11 N/A N/A N/A Extends between H6B and H7 @ 70 degree azimuth.
Notes:
Elevation Relative to Vessel Zero
Elevation Relative To Bottom of Active Fuel at 208.56 in.
Elevation Relative To Bottom of Active Fuel at 529.74 cm.
W
EST
ING
HO
USE
NO
N-P
RO
PR
IETA
RY
CL
AS
S 3
2-12
WC
AP-
1766
0-N
P N
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2012
Rev
isio
n 0
Tab
le 2
.1-3
E
leva
tion
s an
d A
zim
uth
s of
Rea
ctor
Pre
ssu
re V
esse
l Wel
ds
RP
V C
ompo
nent
P
lant
Ele
vatio
n (f
t)
Ele
vatio
n A
bove
Ves
sel
Zer
o (in
)
Ele
vatio
n R
elat
ive
To
Bot
tom
of A
ctiv
e F
uel (
in)
Ele
vatio
n R
elat
ive
To
Bot
tom
of A
ctiv
e F
uel (
cm)
Not
es/C
omm
ents
Girt
h W
eld
EF
66
.64
39
7.68
18
9.12
48
0.36
F
igur
e 2.
1-3
Girt
h W
eld
FG
54
.65
25
3.80
45
.24
11
5 F
igur
e 2.
1-3
Girt
h W
eld
GH
42
.67
11
0.04
-9
8.52
-2
50
Fig
ure
2.1
-3
Top
of N
16
Noz
zle
For
ging
63
.85
36
4.24
15
5.68
39
5
N16
Noz
zle
Cen
terli
ne
63.3
3
358.
00
149.
44
380
:
Bot
tom
of N
16 N
ozzl
e F
orgi
ng
62.8
1
351.
68
143.
12
364
Ver
tical
Wel
d G
1 N
/A
N/A
N
/A
N/A
Lo
cate
d in
the
Low
er
She
ll @
azi
mut
h 75
deg
rees
.
Ver
tical
Wel
d G
2 N
/A
N/A
N
/A
N/A
Lo
cate
d in
the
Low
er
She
ll @
azi
mut
h 25
5 de
gre
es.
Ver
tical
Wel
d F
1 N
/A
N/A
N
/A
N/A
Lo
cate
d in
the
Low
er
Inte
rmed
iate
She
ll @
azi
mut
h 34
5 de
gree
s.
Ver
tical
Wel
d F
2 N
/A
N/A
N
/A
N/A
Lo
cate
d in
the
Low
er
Inte
rmed
iate
She
ll @
azi
mut
h 16
5 de
gree
s.
Low
er S
hell
Pla
te
N/A
N
/A
N/A
N
/A
Loca
ted
betw
een
pla
nt e
leva
tions
54.
65' a
nd
42.6
7'.
Low
er In
term
edia
te S
hell
Pla
te
N/A
N
/A
N/A
N
/A
Loca
ted
betw
een
pla
nt e
leva
tions
66.
64' a
nd
54.6
5'.
Top
of A
ctiv
e C
ore
63
.38
35
9 15
0.00
38
1
Bot
tom
of A
ctiv
e C
ore
50
.88
20
9 0.
00
0
W
EST
ING
HO
USE
NO
N-P
RO
PR
IETA
RY
CL
AS
S 3
2-13
WC
AP-
1766
0-N
P N
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2012
Rev
isio
n 0
Tab
le 2
.2-1
U
nit
1 S
hro
ud
Hor
izon
tal W
eld
H1
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
07.
13E
+18
7.95
E+
188.
80E
+18
9.64
E+
181.
04E
+19
1.14
E+
191.
22E
+19
1.31
E+
191.
46E
+19
2.50
E+
19
151.
17E
+19
1.32
E+
191.
47E
+19
1.62
E+
191.
77E
+19
1.92
E+
192.
05E
+19
2.20
E+
192.
46E
+19
4.25
E+
19
309.
04E
+18
1.02
E+
191.
14E
+19
1.26
E+
191.
38E
+19
1.51
E+
191.
62E
+19
1.74
E+
191.
95E
+19
3.41
E+
19
451.
95E
+19
2.20
E+
192.
45E
+19
2.71
E+
192.
97E
+19
3.24
E+
193.
49E
+19
3.75
E+
194.
22E
+19
7.38
E+
19
608.
97E
+18
1.03
E+
191.
14E
+19
1.26
E+
191.
38E
+19
1.50
E+
191.
61E
+19
1.73
E+
191.
94E
+19
3.36
E+
19
751.
16E
+19
1.30
E+
191.
45E
+19
1.58
E+
191.
72E
+19
1.88
E+
192.
00E
+19
2.14
E+
192.
39E
+19
4.10
E+
19
907.
48E
+18
8.32
E+
189.
20E
+18
9.91
E+
181.
07E
+19
1.16
E+
191.
24E
+19
1.33
E+
191.
48E
+19
2.49
E+
19
Azi
mut
h
01.
06E
-02
1.19
E-0
21.
31E
-02
1.44
E-0
21.
56E
-02
1.70
E-0
21.
82E
-02
1.95
E-0
22.
18E
-02
3.73
E-0
2
151.
74E
-02
1.95
E-0
22.
18E
-02
2.41
E-0
22.
63E
-02
2.86
E-0
23.
04E
-02
3.26
E-0
23.
66E
-02
6.32
E-0
2
301.
31E
-02
1.48
E-0
21.
65E
-02
1.82
E-0
22.
00E
-02
2.19
E-0
22.
34E
-02
2.52
E-0
22.
83E
-02
4.94
E-0
2
452.
90E
-02
3.27
E-0
23.
64E
-02
4.03
E-0
24.
43E
-02
4.83
E-0
25.
19E
-02
5.59
E-0
26.
29E
-02
1.10
E-0
1
601.
30E
-02
1.49
E-0
21.
66E
-02
1.82
E-0
22.
00E
-02
2.18
E-0
22.
33E
-02
2.50
E-0
22.
81E
-02
4.87
E-0
2
751.
72E
-02
1.93
E-0
22.
16E
-02
2.35
E-0
22.
56E
-02
2.79
E-0
22.
97E
-02
3.18
E-0
23.
56E
-02
6.09
E-0
2
901.
09E
-02
1.21
E-0
21.
34E
-02
1.44
E-0
21.
55E
-02
1.69
E-0
21.
81E
-02
1.93
E-0
22.
15E
-02
3.62
E-0
2
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2
-14
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
U
nit
1 S
hro
ud
Hor
izon
tal W
eld
H2
Neu
tron
Exp
osu
re P
red
icti
ons
C
ycle
13
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
19 (
eq)
C20
(av
g)P
roje
cted
Pro
ject
ed
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
09.
32E
+18
1.04
E+
191.
15E
+19
1.26
E+
191.
37E
+19
1.49
E+
191.
59E
+19
1.71
E+
191.
91E
+19
3.26
E+
19
151.
53E
+19
1.72
E+
191.
92E
+19
2.12
E+
192.
32E
+19
2.51
E+
192.
67E
+19
2.87
E+
193.
22E
+19
5.56
E+
19
301.
18E
+19
1.34
E+
191.
49E
+19
1.64
E+
191.
81E
+19
1.97
E+
192.
11E
+19
2.27
E+
192.
55E
+19
4.45
E+
19
452.
55E
+19
2.87
E+
193.
20E
+19
3.54
E+
193.
89E
+19
4.24
E+
194.
56E
+19
4.90
E+
195.
52E
+19
9.65
E+
19
601.
17E
+19
1.35
E+
191.
50E
+19
1.65
E+
191.
80E
+19
1.96
E+
192.
10E
+19
2.26
E+
192.
54E
+19
4.39
E+
19
751.
52E
+19
1.70
E+
191.
90E
+19
2.07
E+
192.
25E
+19
2.45
E+
192.
61E
+19
2.80
E+
193.
13E
+19
5.35
E+
19
909.
78E
+18
1.09
E+
191.
20E
+19
1.30
E+
191.
40E
+19
1.52
E+
191.
63E
+19
1.74
E+
191.
94E
+19
3.26
E+
19
Azi
mut
h
01.
51E
-02
1.68
E-0
21.
86E
-02
2.04
E-0
22.
21E
-02
2.41
E-0
22.
58E
-02
2.76
E-0
23.
09E
-02
5.29
E-0
2
152.
48E
-02
2.77
E-0
23.
10E
-02
3.42
E-0
23.
74E
-02
4.06
E-0
24.
32E
-02
4.63
E-0
25.
20E
-02
8.98
E-0
2
301.
86E
-02
2.10
E-0
22.
34E
-02
2.58
E-0
22.
84E
-02
3.10
E-0
23.
32E
-02
3.57
E-0
24.
02E
-02
7.01
E-0
2
454.
11E
-02
4.64
E-0
25.
17E
-02
5.71
E-0
26.
28E
-02
6.85
E-0
27.
37E
-02
7.93
E-0
28.
93E
-02
1.56
E-0
1
601.
84E
-02
2.12
E-0
22.
35E
-02
2.59
E-0
22.
84E
-02
3.09
E-0
23.
31E
-02
3.55
E-0
23.
99E
-02
6.91
E-0
2
752.
45E
-02
2.75
E-0
23.
06E
-02
3.34
E-0
23.
64E
-02
3.96
E-0
24.
21E
-02
4.51
E-0
25.
05E
-02
8.65
E-0
2
901.
54E
-02
1.71
E-0
21.
90E
-02
2.04
E-0
22.
21E
-02
2.40
E-0
22.
57E
-02
2.74
E-0
23.
05E
-02
5.14
E-0
2
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
15
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
U
nit
1 S
hro
ud
Hor
izon
tal W
eld
H3
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
09.
86E
+19
1.07
E+
201.
17E
+20
1.23
E+
201.
33E
+20
1.45
E+
201.
59E
+20
1.70
E+
201.
89E
+20
3.19
E+
20
151.
82E
+20
1.97
E+
202.
18E
+20
2.31
E+
202.
52E
+20
2.74
E+
202.
98E
+20
3.19
E+
203.
56E
+20
6.02
E+
20
301.
09E
+20
1.19
E+
201.
31E
+20
1.39
E+
201.
52E
+20
1.67
E+
201.
83E
+20
1.96
E+
202.
19E
+20
3.75
E+
20
453.
52E
+20
3.83
E+
204.
20E
+20
4.45
E+
204.
86E
+20
5.31
E+
205.
85E
+20
6.26
E+
207.
00E
+20
1.19
E+
21
601.
08E
+20
1.20
E+
201.
32E
+20
1.39
E+
201.
52E
+20
1.66
E+
201.
82E
+20
1.95
E+
202.
17E
+20
3.70
E+
20
751.
81E
+20
1.96
E+
202.
16E
+20
2.28
E+
202.
47E
+20
2.70
E+
202.
93E
+20
3.12
E+
203.
48E
+20
5.84
E+
20
909.
86E
+19
1.06
E+
201.
16E
+20
1.21
E+
201.
30E
+20
1.42
E+
201.
55E
+20
1.65
E+
201.
83E
+20
3.03
E+
20
Azi
mut
h
01.
42E
-01
1.53
E-0
11.
68E
-01
1.77
E-0
11.
91E
-01
2.09
E-0
12.
29E
-01
2.45
E-0
12.
72E
-01
4.58
E-0
1
152.
62E
-01
2.84
E-0
13.
14E
-01
3.34
E-0
13.
63E
-01
3.96
E-0
14.
30E
-01
4.59
E-0
15.
13E
-01
8.68
E-0
1
301.
57E
-01
1.71
E-0
11.
89E
-01
2.00
E-0
12.
19E
-01
2.40
E-0
12.
63E
-01
2.82
E-0
13.
15E
-01
5.39
E-0
145
5.14
E-0
15.
58E
-01
6.13
E-0
16.
49E
-01
7.09
E-0
17.
74E
-01
8.53
E-0
19.
13E
-01
1.02
E+
001.
74E
+00
601.
56E
-01
1.72
E-0
11.
89E
-01
2.00
E-0
12.
18E
-01
2.39
E-0
12.
62E
-01
2.80
E-0
13.
13E
-01
5.32
E-0
175
2.61
E-0
12.
83E
-01
3.12
E-0
13.
28E
-01
3.56
E-0
13.
89E
-01
4.22
E-0
14.
50E
-01
5.01
E-0
18.
42E
-01
901.
42E
-01
1.53
E-0
11.
67E
-01
1.74
E-0
11.
88E
-01
2.04
E-0
12.
23E
-01
2.37
E-0
12.
63E
-01
4.35
E-0
1
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
16
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
U
nit
1 S
hro
ud
Hor
izon
tal W
eld
H4
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
02.
82E
+20
3.14
E+
203.
46E
+20
3.77
E+
204.
05E
+20
4.40
E+
204.
73E
+20
5.06
E+
205.
64E
+20
9.54
E+
20
155.
24E
+20
5.85
E+
206.
51E
+20
7.15
E+
207.
74E
+20
8.36
E+
208.
93E
+20
9.56
E+
201.
07E
+21
1.82
E+
21
303.
12E
+20
3.52
E+
203.
90E
+20
4.28
E+
204.
66E
+20
5.06
E+
205.
44E
+20
5.84
E+
206.
54E
+20
1.13
E+
21
459.
94E
+20
1.11
E+
211.
24E
+21
1.35
E+
211.
47E
+21
1.60
E+
211.
72E
+21
1.85
E+
212.
07E
+21
3.56
E+
21
603.
10E
+20
3.54
E+
203.
93E
+20
4.29
E+
204.
65E
+20
5.04
E+
205.
43E
+20
5.81
E+
206.
50E
+20
1.11
E+
21
755.
17E
+20
5.76
E+
206.
41E
+20
6.96
E+
207.
51E
+20
8.14
E+
208.
69E
+20
9.29
E+
201.
04E
+21
1.75
E+
21
902.
79E
+20
3.08
E+
203.
40E
+20
3.64
E+
203.
91E
+20
4.23
E+
204.
54E
+20
4.84
E+
205.
38E
+20
8.95
E+
20
Azi
mut
h
04.
02E
-01
4.47
E-0
14.
93E
-01
5.38
E-0
15.
77E
-01
6.27
E-0
16.
74E
-01
7.21
E-0
18.
04E
-01
1.36
E+
00
157.
49E
-01
8.35
E-0
19.
30E
-01
1.02
E+
001.
11E
+00
1.20
E+
001.
28E
+00
1.37
E+
001.
53E
+00
2.61
E+
00
304.
45E
-01
5.01
E-0
15.
56E
-01
6.10
E-0
16.
64E
-01
7.21
E-0
17.
76E
-01
8.32
E-0
19.
33E
-01
1.61
E+
00
451.
44E
+00
1.61
E+
001.
79E
+00
1.96
E+
002.
13E
+00
2.31
E+
002.
49E
+00
2.67
E+
002.
99E
+00
5.15
E+
00
604.
41E
-01
5.05
E-0
15.
60E
-01
6.11
E-0
16.
63E
-01
7.19
E-0
17.
73E
-01
8.29
E-0
19.
27E
-01
1.58
E+
00
757.
39E
-01
8.24
E-0
19.
16E
-01
9.95
E-0
11.
07E
+00
1.16
E+
001.
24E
+00
1.33
E+
001.
48E
+00
2.51
E+
00
903.
97E
-01
4.39
E-0
14.
84E
-01
5.19
E-0
15.
57E
-01
6.02
E-0
16.
47E
-01
6.90
E-0
17.
66E
-01
1.28
E+
00
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
17
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-5
U
nit
1 S
hro
ud
Hor
izon
tal W
eld
H5
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
01.
08E
+20
1.20
E+
201.
35E
+20
1.52
E+
201.
67E
+20
1.80
E+
201.
91E
+20
2.05
E+
202.
31E
+20
4.03
E+
20
152.
01E
+20
2.25
E+
202.
55E
+20
2.90
E+
203.
20E
+20
3.44
E+
203.
63E
+20
3.91
E+
204.
42E
+20
7.79
E+
20
301.
19E
+20
1.35
E+
201.
53E
+20
1.73
E+
201.
93E
+20
2.08
E+
202.
21E
+20
2.38
E+
202.
70E
+20
4.80
E+
20
453.
80E
+20
4.28
E+
204.
84E
+20
5.48
E+
206.
08E
+20
6.56
E+
206.
98E
+20
7.54
E+
208.
53E
+20
1.51
E+
21
601.
19E
+20
1.36
E+
201.
54E
+20
1.74
E+
201.
92E
+20
2.07
E+
202.
20E
+20
2.37
E+
202.
67E
+20
4.72
E+
20
751.
98E
+20
2.22
E+
202.
51E
+20
2.81
E+
203.
09E
+20
3.33
E+
203.
51E
+20
3.78
E+
204.
26E
+20
7.44
E+
20
901.
06E
+20
1.18
E+
201.
33E
+20
1.46
E+
201.
60E
+20
1.72
E+
201.
82E
+20
1.95
E+
202.
19E
+20
3.76
E+
20
Azi
mut
h
01.
54E
-01
1.72
E-0
11.
93E
-01
2.17
E-0
12.
37E
-01
2.56
E-0
12.
72E
-01
2.92
E-0
13.
29E
-01
5.75
E-0
1
152.
87E
-01
3.21
E-0
13.
65E
-01
4.15
E-0
14.
58E
-01
4.92
E-0
15.
18E
-01
5.59
E-0
16.
31E
-01
1.11
E+
00
301.
70E
-01
1.93
E-0
12.
18E
-01
2.47
E-0
12.
75E
-01
2.96
E-0
13.
15E
-01
3.40
E-0
13.
85E
-01
6.83
E-0
1
455.
50E
-01
6.19
E-0
16.
99E
-01
7.92
E-0
18.
79E
-01
9.47
E-0
11.
01E
+00
1.09
E+
001.
23E
+00
2.19
E+
00
601.
69E
-01
1.94
E-0
12.
20E
-01
2.47
E-0
12.
74E
-01
2.95
E-0
13.
13E
-01
3.38
E-0
13.
81E
-01
6.72
E-0
1
752.
83E
-01
3.17
E-0
13.
59E
-01
4.02
E-0
14.
42E
-01
4.76
E-0
15.
02E
-01
5.40
E-0
16.
08E
-01
1.06
E+
00
901.
52E
-01
1.69
E-0
11.
89E
-01
2.08
E-0
12.
28E
-01
2.45
E-0
12.
60E
-01
2.78
E-0
13.
12E
-01
5.35
E-0
1
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
18
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-6
U
nit
1 S
hro
ud
Hor
izon
tal W
eld
H6A
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
01.
44E
+17
1.60
E+
171.
77E
+17
1.94
E+
172.
10E
+17
2.29
E+
172.
45E
+17
2.62
E+
172.
93E
+17
5.00
E+
17
152.
67E
+17
2.99
E+
173.
34E
+17
3.68
E+
174.
02E
+17
4.36
E+
174.
64E
+17
4.98
E+
175.
58E
+17
9.62
E+
17
301.
59E
+17
1.80
E+
172.
00E
+17
2.20
E+
172.
42E
+17
2.64
E+
172.
83E
+17
3.04
E+
173.
42E
+17
5.94
E+
17
455.
06E
+17
5.70
E+
176.
33E
+17
6.96
E+
177.
64E
+17
8.32
E+
178.
95E
+17
9.61
E+
171.
08E
+18
1.88
E+
18
601.
58E
+17
1.81
E+
172.
01E
+17
2.21
E+
172.
42E
+17
2.63
E+
172.
82E
+17
3.03
E+
173.
40E
+17
5.86
E+
17
752.
63E
+17
2.95
E+
173.
28E
+17
3.58
E+
173.
89E
+17
4.24
E+
174.
50E
+17
4.82
E+
175.
39E
+17
9.20
E+
17
901.
42E
+17
1.57
E+
171.
74E
+17
1.87
E+
172.
01E
+17
2.19
E+
172.
34E
+17
2.50
E+
172.
78E
+17
4.66
E+
17
Azi
mut
h
02.
17E
-04
2.42
E-0
42.
68E
-04
2.93
E-0
43.
17E
-04
3.46
E-0
43.
70E
-04
3.97
E-0
44.
43E
-04
7.57
E-0
4
154.
05E
-04
4.53
E-0
45.
06E
-04
5.59
E-0
46.
10E
-04
6.62
E-0
47.
04E
-04
7.55
E-0
48.
47E
-04
1.46
E-0
3
302.
40E
-04
2.72
E-0
43.
02E
-04
3.33
E-0
43.
66E
-04
4.00
E-0
44.
28E
-04
4.60
E-0
45.
17E
-04
8.99
E-0
4
457.
76E
-04
8.73
E-0
49.
70E
-04
1.07
E-0
31.
17E
-03
1.28
E-0
31.
37E
-03
1.47
E-0
31.
66E
-03
2.88
E-0
3
602.
39E
-04
2.74
E-0
43.
05E
-04
3.34
E-0
43.
66E
-04
3.99
E-0
44.
27E
-04
4.58
E-0
45.
14E
-04
8.87
E-0
4
753.
99E
-04
4.47
E-0
44.
98E
-04
5.43
E-0
45.
90E
-04
6.42
E-0
46.
83E
-04
7.31
E-0
48.
18E
-04
1.40
E-0
3
902.
14E
-04
2.38
E-0
42.
63E
-04
2.83
E-0
43.
04E
-04
3.31
E-0
43.
54E
-04
3.78
E-0
44.
20E
-04
7.04
E-0
4
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
19
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-7
U
nit
1 S
hro
ud
Hor
izon
tal W
eld
H6B
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
05.
48E
+16
6.11
E+
166.
76E
+16
7.40
E+
167.
99E
+16
8.72
E+
169.
33E
+16
1.00
E+
171.
12E
+17
1.91
E+
17
151.
02E
+17
1.14
E+
171.
27E
+17
1.40
E+
171.
53E
+17
1.66
E+
171.
77E
+17
1.90
E+
172.
13E
+17
3.67
E+
17
306.
06E
+16
6.85
E+
167.
62E
+16
8.40
E+
169.
23E
+16
1.01
E+
171.
08E
+17
1.16
E+
171.
30E
+17
2.27
E+
17
451.
93E
+17
2.17
E+
172.
41E
+17
2.66
E+
172.
91E
+17
3.17
E+
173.
41E
+17
3.67
E+
174.
12E
+17
7.15
E+
17
606.
01E
+16
6.91
E+
167.
68E
+16
8.42
E+
169.
22E
+16
1.00
E+
171.
07E
+17
1.15
E+
171.
29E
+17
2.24
E+
17
751.
00E
+17
1.12
E+
171.
25E
+17
1.36
E+
171.
48E
+17
1.62
E+
171.
72E
+17
1.84
E+
172.
06E
+17
3.51
E+
17
905.
40E
+16
6.00
E+
166.
63E
+16
7.14
E+
167.
67E
+16
8.34
E+
168.
92E
+16
9.52
E+
161.
06E
+17
1.78
E+
17
Azi
mut
h
08.
40E
-05
9.37
E-0
51.
04E
-04
1.13
E-0
41.
23E
-04
1.34
E-0
41.
43E
-04
1.53
E-0
41.
71E
-04
2.92
E-0
4
151.
57E
-04
1.75
E-0
41.
96E
-04
2.16
E-0
42.
36E
-04
2.56
E-0
42.
72E
-04
2.92
E-0
43.
27E
-04
5.64
E-0
4
309.
30E
-05
1.05
E-0
41.
17E
-04
1.29
E-0
41.
42E
-04
1.55
E-0
41.
65E
-04
1.78
E-0
42.
00E
-04
3.48
E-0
4
453.
00E
-04
3.37
E-0
43.
75E
-04
4.13
E-0
44.
53E
-04
4.93
E-0
45.
30E
-04
5.70
E-0
46.
41E
-04
1.11
E-0
3
609.
22E
-05
1.06
E-0
41.
18E
-04
1.29
E-0
41.
41E
-04
1.54
E-0
41.
65E
-04
1.77
E-0
41.
99E
-04
3.43
E-0
4
751.
54E
-04
1.73
E-0
41.
93E
-04
2.10
E-0
42.
28E
-04
2.48
E-0
42.
64E
-04
2.83
E-0
43.
16E
-04
5.39
E-0
4
908.
29E
-05
9.20
E-0
51.
02E
-04
1.09
E-0
41.
18E
-04
1.28
E-0
41.
37E
-04
1.46
E-0
41.
63E
-04
2.72
E-0
4
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
20
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-8
U
nit
1 S
hro
ud
Hor
izon
tal W
eld
H7
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
07.
30E
+11
8.14
E+
119.
00E
+11
9.86
E+
111.
06E
+12
1.16
E+
121.
24E
+12
1.33
E+
121.
49E
+12
2.54
E+
12
151.
36E
+12
1.52
E+
121.
70E
+12
1.87
E+
122.
04E
+12
2.22
E+
122.
36E
+12
2.53
E+
122.
84E
+12
4.89
E+
12
308.
08E
+11
9.13
E+
111.
02E
+12
1.12
E+
121.
23E
+12
1.34
E+
121.
44E
+12
1.54
E+
121.
74E
+12
3.02
E+
12
452.
57E
+12
2.89
E+
123.
21E
+12
3.54
E+
123.
88E
+12
4.23
E+
124.
54E
+12
4.88
E+
125.
49E
+12
9.53
E+
12
608.
01E
+11
9.21
E+
111.
02E
+12
1.12
E+
121.
23E
+12
1.34
E+
121.
43E
+12
1.54
E+
121.
73E
+12
2.98
E+
12
751.
34E
+12
1.50
E+
121.
67E
+12
1.82
E+
121.
98E
+12
2.15
E+
122.
29E
+12
2.45
E+
122.
74E
+12
4.67
E+
12
907.
20E
+11
7.99
E+
118.
84E
+11
9.51
E+
111.
02E
+12
1.11
E+
121.
19E
+12
1.27
E+
121.
41E
+12
2.37
E+
12
Azi
mut
h
01.
25E
-09
1.40
E-0
91.
55E
-09
1.69
E-0
91.
83E
-09
1.99
E-0
92.
13E
-09
2.29
E-0
92.
56E
-09
4.36
E-0
9
152.
33E
-09
2.61
E-0
92.
92E
-09
3.22
E-0
93.
51E
-09
3.82
E-0
94.
06E
-09
4.35
E-0
94.
88E
-09
8.41
E-0
9
301.
39E
-09
1.57
E-0
91.
74E
-09
1.92
E-0
92.
11E
-09
2.30
E-0
92.
47E
-09
2.65
E-0
92.
98E
-09
5.18
E-0
9
454.
47E
-09
5.03
E-0
95.
59E
-09
6.16
E-0
96.
75E
-09
7.36
E-0
97.
91E
-09
8.50
E-0
99.
55E
-09
1.66
E-0
8
601.
38E
-09
1.58
E-0
91.
76E
-09
1.93
E-0
92.
11E
-09
2.30
E-0
92.
46E
-09
2.64
E-0
92.
96E
-09
5.11
E-0
9
752.
30E
-09
2.58
E-0
92.
87E
-09
3.13
E-0
93.
40E
-09
3.70
E-0
93.
93E
-09
4.21
E-0
94.
71E
-09
8.04
E-0
9
901.
24E
-09
1.37
E-0
91.
52E
-09
1.63
E-0
91.
75E
-09
1.91
E-0
92.
04E
-09
2.18
E-0
92.
42E
-09
4.06
E-0
9
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
21
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-9
U
nit
1 S
hro
ud
Ver
tica
l Wel
ds
V1
and
V2
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
376.
092.
39E
+19
2.71
E+
193.
02E
+19
3.34
E+
193.
68E
+19
4.01
E+
194.
31E
+19
4.65
E+
195.
24E
+19
9.18
E+
19
391.
331.
20E
+19
1.36
E+
191.
52E
+19
1.68
E+
191.
85E
+19
2.01
E+
192.
17E
+19
2.33
E+
192.
63E
+19
4.61
E+
19
406.
577.
69E
+18
8.70
E+
189.
71E
+18
1.07
E+
191.
18E
+19
1.29
E+
191.
39E
+19
1.49
E+
191.
68E
+19
2.95
E+
19
421.
811.
71E
+19
1.93
E+
192.
16E
+19
2.39
E+
192.
63E
+19
2.86
E+
193.
08E
+19
3.32
E+
193.
74E
+19
6.56
E+
19
437.
052.
20E
+19
2.49
E+
192.
77E
+19
3.07
E+
193.
38E
+19
3.68
E+
193.
96E
+19
4.27
E+
194.
81E
+19
8.43
E+
19
452.
291.
97E
+19
2.23
E+
192.
49E
+19
2.76
E+
193.
03E
+19
3.31
E+
193.
56E
+19
3.83
E+
194.
32E
+19
7.57
E+
19
457.
371.
83E
+19
2.07
E+
192.
31E
+19
2.55
E+
192.
81E
+19
3.07
E+
193.
30E
+19
3.55
E+
194.
01E
+19
7.02
E+
19
Ele
vatio
n
376.
093.
85E
-02
4.35
E-0
24.
85E
-02
5.37
E-0
25.
91E
-02
6.45
E-0
27.
03E
-02
7.58
E-0
28.
56E
-02
1.51
E-0
1
391.
331.
87E
-02
2.11
E-0
22.
35E
-02
2.61
E-0
22.
87E
-02
3.13
E-0
23.
41E
-02
3.68
E-0
24.
16E
-02
7.34
E-0
2
406.
571.
22E
-02
1.37
E-0
21.
53E
-02
1.70
E-0
21.
87E
-02
2.04
E-0
22.
22E
-02
2.40
E-0
22.
71E
-02
4.78
E-0
2
421.
812.
60E
-02
2.94
E-0
23.
28E
-02
3.63
E-0
23.
99E
-02
4.36
E-0
24.
75E
-02
5.12
E-0
25.
78E
-02
1.02
E-0
1
437.
053.
28E
-02
3.70
E-0
24.
13E
-02
4.57
E-0
25.
03E
-02
5.49
E-0
25.
99E
-02
6.45
E-0
27.
29E
-02
1.29
E-0
1
452.
292.
92E
-02
3.30
E-0
23.
68E
-02
4.07
E-0
24.
48E
-02
4.89
E-0
25.
33E
-02
5.75
E-0
26.
50E
-02
1.15
E-0
1
457.
372.
70E
-02
3.05
E-0
23.
41E
-02
3.77
E-0
24.
15E
-02
4.53
E-0
24.
93E
-02
5.32
E-0
26.
01E
-02
1.06
E-0
1
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
22
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
0
Un
it 1
Sh
rou
d V
erti
cal W
eld
s V
3 an
d V
4 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
277.
039.
22E
+20
1.04
E+
211.
16E
+21
1.27
E+
211.
39E
+21
1.51
E+
211.
65E
+21
1.78
E+
212.
01E
+21
3.51
E+
21
292.
278.
84E
+20
9.93
E+
201.
10E
+21
1.21
E+
211.
32E
+21
1.44
E+
211.
58E
+21
1.70
E+
211.
92E
+21
3.35
E+
21
307.
518.
28E
+20
9.29
E+
201.
03E
+21
1.13
E+
211.
23E
+21
1.34
E+
211.
48E
+21
1.60
E+
211.
80E
+21
3.16
E+
21
322.
757.
40E
+20
8.28
E+
209.
20E
+20
1.00
E+
211.
10E
+21
1.20
E+
211.
33E
+21
1.43
E+
211.
62E
+21
2.85
E+
21
337.
996.
16E
+20
6.86
E+
207.
62E
+20
8.27
E+
209.
09E
+20
9.95
E+
201.
11E
+21
1.20
E+
211.
35E
+21
2.39
E+
21
353.
234.
66E
+20
5.15
E+
205.
71E
+20
6.14
E+
206.
76E
+20
7.42
E+
208.
33E
+20
8.98
E+
201.
01E
+21
1.79
E+
21
368.
473.
24E
+20
3.53
E+
203.
90E
+20
4.14
E+
204.
54E
+20
4.98
E+
205.
59E
+20
6.01
E+
206.
76E
+20
1.18
E+
21
Ele
vatio
n
277.
031.
33E
+00
1.50
E+
001.
67E
+00
1.84
E+
002.
00E
+00
2.18
E+
002.
35E
+00
2.53
E+
002.
84E
+00
4.93
E+
00
292.
271.
28E
+00
1.44
E+
001.
60E
+00
1.75
E+
001.
91E
+00
2.08
E+
002.
25E
+00
2.42
E+
002.
72E
+00
4.71
E+
00
307.
511.
20E
+00
1.34
E+
001.
49E
+00
1.63
E+
001.
78E
+00
1.94
E+
002.
11E
+00
2.27
E+
002.
55E
+00
4.43
E+
00
322.
751.
07E
+00
1.20
E+
001.
33E
+00
1.45
E+
001.
59E
+00
1.74
E+
001.
89E
+00
2.03
E+
002.
29E
+00
3.99
E+
00
337.
998.
91E
-01
9.92
E-0
11.
10E
+00
1.20
E+
001.
31E
+00
1.44
E+
001.
58E
+00
1.70
E+
001.
91E
+00
3.34
E+
00
353.
236.
75E
-01
7.45
E-0
18.
26E
-01
8.88
E-0
19.
78E
-01
1.07
E+
001.
18E
+00
1.27
E+
001.
43E
+00
2.50
E+
00
368.
474.
73E
-01
5.16
E-0
15.
68E
-01
6.04
E-0
16.
63E
-01
7.26
E-0
18.
00E
-01
8.59
E-0
19.
63E
-01
1.66
E+
00
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
23
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
1
Un
it 1
Sh
rou
d V
erti
cal W
eld
s V
5 an
d V
6 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
27.7
93.
53E
+20
3.99
E+
204.
53E
+20
5.15
E+
205.
74E
+20
6.19
E+
206.
60E
+20
7.13
E+
208.
09E
+20
1.45
E+
21
43.0
34.
54E
+20
5.16
E+
205.
86E
+20
6.67
E+
207.
44E
+20
8.04
E+
208.
57E
+20
9.27
E+
201.
05E
+21
1.89
E+
21
58.2
75.
34E
+20
6.10
E+
206.
93E
+20
7.90
E+
208.
81E
+20
9.52
E+
201.
02E
+21
1.10
E+
211.
25E
+21
2.24
E+
21
73.5
16.
00E
+20
6.89
E+
207.
84E
+20
8.93
E+
209.
96E
+20
1.08
E+
211.
15E
+21
1.24
E+
211.
41E
+21
2.54
E+
21
88.7
56.
32E
+20
7.29
E+
208.
30E
+20
9.46
E+
201.
06E
+21
1.14
E+
211.
22E
+21
1.32
E+
211.
50E
+21
2.71
E+
21
103.
996.
57E
+20
7.61
E+
208.
67E
+20
9.89
E+
201.
10E
+21
1.20
E+
211.
28E
+21
1.39
E+
211.
58E
+21
2.86
E+
21
119.
236.
98E
+20
8.10
E+
209.
24E
+20
1.05
E+
211.
18E
+21
1.28
E+
211.
37E
+21
1.49
E+
211.
69E
+21
3.06
E+
21
134.
477.
49E
+20
8.70
E+
209.
93E
+20
1.13
E+
211.
26E
+21
1.37
E+
211.
48E
+21
1.60
E+
211.
82E
+21
3.30
E+
21
149.
717.
77E
+20
9.02
E+
201.
03E
+21
1.17
E+
211.
30E
+21
1.42
E+
211.
53E
+21
1.66
E+
211.
89E
+21
3.42
E+
21
164.
958.
04E
+20
9.31
E+
201.
06E
+21
1.20
E+
211.
34E
+21
1.46
E+
211.
57E
+21
1.70
E+
211.
94E
+21
3.50
E+
21
180.
198.
47E
+20
9.77
E+
201.
11E
+21
1.25
E+
211.
39E
+21
1.52
E+
211.
63E
+21
1.77
E+
212.
01E
+21
3.62
E+
21
195.
438.
98E
+20
1.03
E+
211.
17E
+21
1.31
E+
211.
45E
+21
1.58
E+
211.
70E
+21
1.84
E+
212.
09E
+21
3.73
E+
21
210.
679.
17E
+20
1.05
E+
211.
18E
+21
1.32
E+
211.
45E
+21
1.59
E+
211.
70E
+21
1.84
E+
212.
08E
+21
3.69
E+
21
225.
919.
27E
+20
1.05
E+
211.
18E
+21
1.31
E+
211.
44E
+21
1.57
E+
211.
69E
+21
1.82
E+
212.
05E
+21
3.61
E+
21
241.
159.
39E
+20
1.06
E+
211.
19E
+21
1.31
E+
211.
44E
+21
1.56
E+
211.
69E
+21
1.81
E+
212.
04E
+21
3.56
E+
21
256.
399.
47E
+20
1.07
E+
211.
19E
+21
1.32
E+
211.
44E
+21
1.56
E+
211.
68E
+21
1.81
E+
212.
03E
+21
3.53
E+
21
271.
639.
29E
+20
1.05
E+
211.
17E
+21
1.28
E+
211.
40E
+21
1.52
E+
211.
64E
+21
1.77
E+
211.
98E
+21
3.44
E+
21
277.
039.
19E
+20
1.04
E+
211.
15E
+21
1.27
E+
211.
38E
+21
1.50
E+
211.
62E
+21
1.74
E+
211.
96E
+21
3.40
E+
21
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
24
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
1
Un
it 1
Sh
rou
d V
erti
cal W
eld
s V
5 an
d V
6 N
eutr
on E
xpos
ure
Pre
dic
tion
s (C
onti
nu
ed)
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
27.7
95.
10E
-01
5.77
E-0
16.
55E
-01
7.45
E-0
18.
29E
-01
8.95
E-0
19.
54E
-01
1.03
E+
001.
17E
+00
2.09
E+
00
43.0
36.
56E
-01
7.46
E-0
18.
47E
-01
9.64
E-0
11.
08E
+00
1.16
E+
001.
24E
+00
1.34
E+
001.
52E
+00
2.73
E+
00
58.2
77.
72E
-01
8.82
E-0
11.
00E
+00
1.14
E+
001.
27E
+00
1.38
E+
001.
47E
+00
1.59
E+
001.
81E
+00
3.24
E+
00
73.5
18.
68E
-01
9.96
E-0
11.
13E
+00
1.29
E+
001.
44E
+00
1.56
E+
001.
66E
+00
1.80
E+
002.
04E
+00
3.68
E+
00
88.7
59.
14E
-01
1.05
E+
001.
20E
+00
1.37
E+
001.
53E
+00
1.65
E+
001.
77E
+00
1.91
E+
002.
18E
+00
3.92
E+
00
103.
999.
49E
-01
1.10
E+
001.
25E
+00
1.43
E+
001.
60E
+00
1.73
E+
001.
85E
+00
2.01
E+
002.
28E
+00
4.13
E+
00
119.
231.
01E
+00
1.17
E+
001.
34E
+00
1.52
E+
001.
70E
+00
1.85
E+
001.
98E
+00
2.15
E+
002.
44E
+00
4.43
E+
00
134.
471.
08E
+00
1.26
E+
001.
44E
+00
1.64
E+
001.
82E
+00
1.98
E+
002.
13E
+00
2.31
E+
002.
63E
+00
4.78
E+
00
149.
711.
12E
+00
1.30
E+
001.
49E
+00
1.69
E+
001.
89E
+00
2.05
E+
002.
21E
+00
2.40
E+
002.
73E
+00
4.95
E+
00
164.
951.
16E
+00
1.35
E+
001.
53E
+00
1.74
E+
001.
93E
+00
2.11
E+
002.
27E
+00
2.46
E+
002.
80E
+00
5.06
E+
00
180.
191.
22E
+00
1.41
E+
001.
61E
+00
1.81
E+
002.
01E
+00
2.19
E+
002.
36E
+00
2.55
E+
002.
90E
+00
5.22
E+
00
195.
431.
30E
+00
1.49
E+
001.
69E
+00
1.90
E+
002.
10E
+00
2.29
E+
002.
46E
+00
2.66
E+
003.
02E
+00
5.39
E+
00
210.
671.
33E
+00
1.51
E+
001.
71E
+00
1.91
E+
002.
10E
+00
2.29
E+
002.
46E
+00
2.66
E+
003.
01E
+00
5.33
E+
00
225.
911.
34E
+00
1.52
E+
001.
71E
+00
1.90
E+
002.
08E
+00
2.27
E+
002.
44E
+00
2.63
E+
002.
97E
+00
5.22
E+
00
241.
151.
36E
+00
1.54
E+
001.
72E
+00
1.90
E+
002.
08E
+00
2.26
E+
002.
44E
+00
2.62
E+
002.
95E
+00
5.15
E+
00
256.
391.
37E
+00
1.55
E+
001.
72E
+00
1.90
E+
002.
08E
+00
2.26
E+
002.
43E
+00
2.62
E+
002.
94E
+00
5.11
E+
00
271.
631.
34E
+00
1.51
E+
001.
69E
+00
1.86
E+
002.
02E
+00
2.20
E+
002.
38E
+00
2.55
E+
002.
87E
+00
4.97
E+
00
277.
031.
33E
+00
1.50
E+
001.
67E
+00
1.83
E+
002.
00E
+00
2.17
E+
002.
35E
+00
2.52
E+
002.
83E
+00
4.91
E+
00
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
25
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
2
Un
it 1
Sh
rou
d V
erti
cal W
eld
s V
7 an
d V
8 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
-63.
654.
70E
+17
5.31
E+
175.
92E
+17
6.54
E+
177.
22E
+17
7.88
E+
178.
47E
+17
9.12
E+
171.
03E
+18
1.80
E+
18
-48.
411.
84E
+18
2.08
E+
182.
32E
+18
2.56
E+
182.
83E
+18
3.09
E+
183.
32E
+18
3.57
E+
184.
03E
+18
7.06
E+
18
-33.
177.
06E
+18
7.97
E+
188.
89E
+18
9.82
E+
181.
08E
+19
1.18
E+
191.
27E
+19
1.37
E+
191.
54E
+19
2.71
E+
19
-17.
932.
61E
+19
2.95
E+
193.
28E
+19
3.63
E+
194.
00E
+19
4.37
E+
194.
70E
+19
5.06
E+
195.
70E
+19
1.00
E+
20
-2.6
98.
24E
+19
9.32
E+
191.
04E
+20
1.15
E+
201.
27E
+20
1.38
E+
201.
49E
+20
1.60
E+
201.
80E
+20
3.16
E+
20
12.5
51.
84E
+20
2.08
E+
202.
32E
+20
2.56
E+
202.
83E
+20
3.09
E+
203.
32E
+20
3.57
E+
204.
03E
+20
7.06
E+
20
27.7
93.
12E
+20
3.52
E+
203.
92E
+20
4.34
E+
204.
79E
+20
5.23
E+
205.
62E
+20
6.05
E+
206.
82E
+20
1.20
E+
21
Ele
vatio
n
-63.
657.
21E
-04
8.15
E-0
49.
08E
-04
1.00
E-0
31.
11E
-03
1.21
E-0
31.
30E
-03
1.40
E-0
31.
58E
-03
2.77
E-0
3
-48.
412.
77E
-03
3.13
E-0
33.
49E
-03
3.86
E-0
34.
26E
-03
4.65
E-0
35.
00E
-03
5.38
E-0
36.
07E
-03
1.06
E-0
2
-33.
171.
04E
-02
1.18
E-0
21.
32E
-02
1.45
E-0
21.
60E
-02
1.75
E-0
21.
88E
-02
2.03
E-0
22.
29E
-02
4.01
E-0
2
-17.
933.
81E
-02
4.31
E-0
24.
80E
-02
5.30
E-0
25.
85E
-02
6.39
E-0
26.
87E
-02
7.40
E-0
28.
34E
-02
1.46
E-0
1
-2.6
91.
20E
-01
1.35
E-0
11.
51E
-01
1.67
E-0
11.
84E
-01
2.01
E-0
12.
16E
-01
2.32
E-0
12.
62E
-01
4.59
E-0
1
12.5
52.
66E
-01
3.01
E-0
13.
36E
-01
3.71
E-0
14.
09E
-01
4.47
E-0
14.
80E
-01
5.17
E-0
15.
83E
-01
1.02
E+
00
27.7
94.
50E
-01
5.09
E-0
15.
67E
-01
6.27
E-0
16.
92E
-01
7.56
E-0
18.
12E
-01
8.74
E-0
19.
85E
-01
1.73
E+
00
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
26
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
3
Un
it 1
Sh
rou
d V
erti
cal W
eld
V9
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
-206
.69
2.38
E+
122.
69E
+12
3.00
E+
123.
32E
+12
3.65
E+
123.
99E
+12
4.29
E+
124.
62E
+12
5.20
E+
129.
12E
+12
-191
.45
8.22
E+
129.
30E
+12
1.04
E+
131.
15E
+13
1.26
E+
131.
38E
+13
1.48
E+
131.
60E
+13
1.80
E+
133.
15E
+13
-176
.21
2.86
E+
133.
23E
+13
3.61
E+
133.
98E
+13
4.39
E+
134.
79E
+13
5.15
E+
135.
55E
+13
6.25
E+
131.
10E
+14
-160
.97
1.02
E+
141.
15E
+14
1.29
E+
141.
42E
+14
1.57
E+
141.
71E
+14
1.84
E+
141.
98E
+14
2.23
E+
143.
91E
+14
-145
.73
3.67
E+
144.
16E
+14
4.64
E+
145.
12E
+14
5.64
E+
146.
16E
+14
6.62
E+
147.
13E
+14
8.04
E+
141.
41E
+15
-130
.49
1.35
E+
151.
53E
+15
1.71
E+
151.
89E
+15
2.08
E+
152.
27E
+15
2.44
E+
152.
63E
+15
2.96
E+
155.
19E
+15
-115
.25
5.07
E+
155.
73E
+15
6.40
E+
157.
06E
+15
7.79
E+
158.
50E
+15
9.14
E+
159.
84E
+15
1.11
E+
161.
94E
+16
-100
.01
1.89
E+
162.
14E
+16
2.39
E+
162.
64E
+16
2.91
E+
163.
17E
+16
3.41
E+
163.
67E
+16
4.14
E+
167.
25E
+16
-84.
777.
18E
+16
8.12
E+
169.
06E
+16
1.00
E+
171.
10E
+17
1.20
E+
171.
29E
+17
1.39
E+
171.
57E
+17
2.75
E+
17
-74.
451.
78E
+17
2.02
E+
172.
25E
+17
2.49
E+
172.
74E
+17
2.99
E+
173.
22E
+17
3.47
E+
173.
91E
+17
6.84
E+
17
Ele
vatio
n
-206
.69
4.14
E-0
94.
68E
-09
5.23
E-0
95.
77E
-09
6.36
E-0
96.
94E
-09
7.47
E-0
98.
04E
-09
9.06
E-0
91.
59E
-08
-191
.45
1.41
E-0
81.
60E
-08
1.78
E-0
81.
97E
-08
2.17
E-0
82.
37E
-08
2.55
E-0
82.
75E
-08
3.10
E-0
85.
43E
-08
-176
.21
4.88
E-0
85.
52E
-08
6.16
E-0
86.
80E
-08
7.49
E-0
88.
18E
-08
8.80
E-0
89.
48E
-08
1.07
E-0
71.
87E
-07
-160
.97
1.72
E-0
71.
95E
-07
2.17
E-0
72.
40E
-07
2.64
E-0
72.
89E
-07
3.11
E-0
73.
34E
-07
3.77
E-0
76.
61E
-07
-145
.73
6.14
E-0
76.
94E
-07
7.75
E-0
78.
55E
-07
9.43
E-0
71.
03E
-06
1.11
E-0
61.
19E
-06
1.34
E-0
62.
36E
-06
-130
.49
2.23
E-0
62.
52E
-06
2.82
E-0
63.
11E
-06
3.43
E-0
63.
75E
-06
4.03
E-0
64.
34E
-06
4.89
E-0
68.
57E
-06
-115
.25
8.26
E-0
69.
34E
-06
1.04
E-0
51.
15E
-05
1.27
E-0
51.
39E
-05
1.49
E-0
51.
60E
-05
1.81
E-0
53.
17E
-05
-100
.01
3.03
E-0
53.
43E
-05
3.83
E-0
54.
23E
-05
4.66
E-0
55.
09E
-05
5.47
E-0
55.
89E
-05
6.64
E-0
51.
16E
-04
-84.
771.
13E
-04
1.28
E-0
41.
43E
-04
1.58
E-0
41.
74E
-04
1.90
E-0
42.
04E
-04
2.20
E-0
42.
48E
-04
4.34
E-0
4
-74.
452.
78E
-04
3.14
E-0
43.
50E
-04
3.87
E-0
44.
26E
-04
4.66
E-0
45.
01E
-04
5.39
E-0
46.
08E
-04
1.07
E-0
3
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
Iron
Ato
m D
ispl
acem
ents
, dp
a
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
27
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
4
Un
it 1
Sh
rou
d V
erti
cal W
eld
V10
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e, s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16.0
317
.86
19.6
721
.48
23.2
325
.01
26.8
628
.70
3254
Ele
vatio
n-2
06.6
99.
76E
+11
1.09
E+
121.
21E
+12
1.33
E+
121.
44E
+12
1.57
E+
121.
67E
+12
1.79
E+
122.
01E
+12
3.43
E+
12
-191
.45
3.37
E+
123.
76E
+12
4.18
E+
124.
60E
+12
4.99
E+
125.
42E
+12
5.78
E+
126.
19E
+12
6.93
E+
121.
19E
+13
-176
.21
1.17
E+
131.
31E
+13
1.45
E+
131.
60E
+13
1.73
E+
131.
89E
+13
2.01
E+
132.
15E
+13
2.41
E+
134.
13E
+13
-160
.97
4.19
E+
134.
67E
+13
5.19
E+
135.
71E
+13
6.19
E+
136.
73E
+13
7.17
E+
137.
69E
+13
8.61
E+
131.
47E
+14
-145
.73
1.51
E+
141.
68E
+14
1.87
E+
142.
06E
+14
2.23
E+
142.
42E
+14
2.58
E+
142.
77E
+14
3.10
E+
145.
30E
+14
-130
.49
5.55
E+
146.
19E
+14
6.89
E+
147.
57E
+14
8.22
E+
148.
93E
+14
9.52
E+
141.
02E
+15
1.14
E+
151.
95E
+15
-115
.25
2.08
E+
152.
32E
+15
2.58
E+
152.
84E
+15
3.08
E+
153.
34E
+15
3.56
E+
153.
82E
+15
4.27
E+
157.
32E
+15
-100
.01
7.76
E+
158.
65E
+15
9.62
E+
151.
06E
+16
1.15
E+
161.
25E
+16
1.33
E+
161.
42E
+16
1.60
E+
162.
73E
+16
-84.
772.
94E
+16
3.29
E+
163.
65E
+16
4.02
E+
164.
36E
+16
4.74
E+
165.
05E
+16
5.41
E+
166.
05E
+16
1.04
E+
17
-74.
457.
32E
+16
8.17
E+
169.
08E
+16
9.99
E+
161.
08E
+17
1.18
E+
171.
25E
+17
1.34
E+
171.
51E
+17
2.58
E+
17
Ele
vatio
n-2
06.6
91.
67E
-09
1.87
E-0
92.
08E
-09
2.28
E-0
92.
48E
-09
2.69
E-0
92.
87E
-09
3.08
E-0
93.
44E
-09
5.90
E-0
9
-191
.45
5.72
E-0
96.
38E
-09
7.10
E-0
97.
80E
-09
8.46
E-0
99.
20E
-09
9.80
E-0
91.
05E
-08
1.18
E-0
82.
01E
-08
-176
.21
1.97
E-0
82.
20E
-08
2.45
E-0
82.
69E
-08
2.92
E-0
83.
17E
-08
3.38
E-0
83.
62E
-08
4.06
E-0
86.
95E
-08
-160
.97
6.96
E-0
87.
77E
-08
8.64
E-0
89.
50E
-08
1.03
E-0
71.
12E
-07
1.19
E-0
71.
28E
-07
1.43
E-0
72.
45E
-07
-145
.73
2.48
E-0
72.
77E
-07
3.08
E-0
73.
39E
-07
3.67
E-0
73.
99E
-07
4.26
E-0
74.
56E
-07
5.11
E-0
78.
74E
-07
-130
.49
9.03
E-0
71.
01E
-06
1.12
E-0
61.
23E
-06
1.34
E-0
61.
45E
-06
1.55
E-0
61.
66E
-06
1.86
E-0
63.
18E
-06
-115
.25
3.34
E-0
63.
73E
-06
4.14
E-0
64.
56E
-06
4.94
E-0
65.
37E
-06
5.72
E-0
66.
14E
-06
6.87
E-0
61.
18E
-05
-100
.01
1.23
E-0
51.
37E
-05
1.52
E-0
51.
67E
-05
1.82
E-0
51.
97E
-05
2.10
E-0
52.
25E
-05
2.52
E-0
54.
32E
-05
-84.
774.
57E
-05
5.10
E-0
55.
67E
-05
6.24
E-0
56.
77E
-05
7.36
E-0
57.
84E
-05
8.40
E-0
59.
41E
-05
1.61
E-0
4
-74.
451.
12E
-04
1.25
E-0
41.
39E
-04
1.53
E-0
41.
66E
-04
1.81
E-0
41.
92E
-04
2.06
E-0
42.
31E
-04
3.95
E-0
4
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
28
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
5
Un
it 1
Sh
rou
d V
erti
cal W
eld
V11
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54E
leva
tion
-206
.69
1.58
E+
121.
79E
+12
1.99
E+
122.
18E
+12
2.38
E+
122.
59E
+12
2.76
E+
122.
96E
+12
3.31
E+
125.
69E
+12
-191
.45
5.47
E+
126.
18E
+12
6.89
E+
127.
54E
+12
8.23
E+
128.
97E
+12
9.53
E+
121.
02E
+13
1.14
E+
131.
96E
+13
-176
.21
1.90
E+
132.
15E
+13
2.39
E+
132.
62E
+13
2.86
E+
133.
12E
+13
3.31
E+
133.
55E
+13
3.98
E+
136.
83E
+13
-160
.97
6.79
E+
137.
68E
+13
8.55
E+
139.
36E
+13
1.02
E+
141.
11E
+14
1.18
E+
141.
27E
+14
1.42
E+
142.
44E
+14
-145
.73
2.44
E+
142.
76E
+14
3.08
E+
143.
37E
+14
3.68
E+
144.
01E
+14
4.26
E+
144.
57E
+14
5.12
E+
148.
78E
+14
-130
.49
9.01
E+
141.
02E
+15
1.13
E+
151.
24E
+15
1.36
E+
151.
48E
+15
1.57
E+
151.
68E
+15
1.89
E+
153.
24E
+15
-115
.25
3.37
E+
153.
81E
+15
4.25
E+
154.
65E
+15
5.08
E+
155.
53E
+15
5.88
E+
156.
30E
+15
7.06
E+
151.
21E
+16
-100
.01
1.26
E+
161.
42E
+16
1.58
E+
161.
73E
+16
1.89
E+
162.
06E
+16
2.19
E+
162.
35E
+16
2.63
E+
164.
52E
+16
-84.
774.
78E
+16
5.40
E+
166.
02E
+16
6.59
E+
167.
19E
+16
7.83
E+
168.
33E
+16
8.93
E+
161.
00E
+17
1.72
E+
17
-74.
451.
19E
+17
1.34
E+
171.
50E
+17
1.64
E+
171.
79E
+17
1.95
E+
172.
07E
+17
2.22
E+
172.
49E
+17
4.27
E+
17
Ele
vatio
n-2
06.6
92.
74E
-09
3.09
E-0
93.
45E
-09
3.77
E-0
94.
12E
-09
4.49
E-0
94.
77E
-09
5.11
E-0
95.
73E
-09
9.83
E-0
9
-191
.45
9.35
E-0
91.
06E
-08
1.18
E-0
81.
29E
-08
1.41
E-0
81.
53E
-08
1.63
E-0
81.
75E
-08
1.96
E-0
83.
36E
-08
-176
.21
3.22
E-0
83.
65E
-08
4.06
E-0
84.
44E
-08
4.85
E-0
85.
29E
-08
5.62
E-0
86.
03E
-08
6.75
E-0
81.
16E
-07
-160
.97
1.14
E-0
71.
29E
-07
1.43
E-0
71.
57E
-07
1.71
E-0
71.
87E
-07
1.98
E-0
72.
13E
-07
2.38
E-0
74.
09E
-07
-145
.73
4.06
E-0
74.
59E
-07
5.11
E-0
75.
59E
-07
6.11
E-0
76.
65E
-07
7.07
E-0
77.
58E
-07
8.49
E-0
71.
46E
-06
-130
.49
1.48
E-0
61.
67E
-06
1.86
E-0
62.
03E
-06
2.22
E-0
62.
42E
-06
2.57
E-0
62.
76E
-06
3.09
E-0
65.
30E
-06
-115
.25
5.46
E-0
66.
17E
-06
6.87
E-0
67.
52E
-06
8.22
E-0
68.
95E
-06
9.51
E-0
61.
02E
-05
1.14
E-0
51.
96E
-05
-100
.01
2.01
E-0
52.
27E
-05
2.52
E-0
52.
76E
-05
3.02
E-0
53.
29E
-05
3.49
E-0
53.
75E
-05
4.20
E-0
57.
20E
-05
-84.
777.
48E
-05
8.45
E-0
59.
41E
-05
1.03
E-0
41.
13E
-04
1.23
E-0
41.
30E
-04
1.40
E-0
41.
56E
-04
2.69
E-0
4
-74.
451.
83E
-04
2.08
E-0
42.
31E
-04
2.53
E-0
42.
76E
-04
3.01
E-0
43.
20E
-04
3.43
E-0
43.
84E
-04
6.59
E-0
4
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
29
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
6
Un
it 1
RP
V G
irth
Wel
d G
H N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
03.
20E
+11
3.58
E+
113.
99E
+11
4.40
E+
114.
77E
+11
5.19
E+
115.
55E
+11
5.95
E+
116.
68E
+11
1.15
E+
12
154.
17E
+11
4.68
E+
115.
24E
+11
5.82
E+
116.
34E
+11
6.88
E+
117.
34E
+11
7.88
E+
118.
86E
+11
1.54
E+
12
302.
94E
+11
3.33
E+
113.
73E
+11
4.14
E+
114.
55E
+11
4.95
E+
115.
31E
+11
5.71
E+
116.
44E
+11
1.13
E+
12
455.
87E
+11
6.65
E+
117.
45E
+11
8.28
E+
119.
10E
+11
9.92
E+
111.
07E
+12
1.15
E+
121.
30E
+12
2.28
E+
12
602.
92E
+11
3.34
E+
113.
74E
+11
4.13
E+
114.
52E
+11
4.92
E+
115.
28E
+11
5.67
E+
116.
38E
+11
1.11
E+
12
754.
08E
+11
4.60
E+
115.
14E
+11
5.64
E+
116.
14E
+11
6.67
E+
117.
11E
+11
7.63
E+
118.
55E
+11
1.47
E+
12
902.
27E
+11
2.53
E+
112.
82E
+11
3.06
E+
113.
32E
+11
3.60
E+
113.
86E
+11
4.13
E+
114.
61E
+11
7.85
E+
11
Azi
mut
h
09.
57E
-09
1.07
E-0
81.
19E
-08
1.32
E-0
81.
43E
-08
1.55
E-0
81.
66E
-08
1.78
E-0
82.
00E
-08
3.44
E-0
8
151.
23E
-08
1.39
E-0
81.
55E
-08
1.72
E-0
81.
88E
-08
2.04
E-0
82.
17E
-08
2.33
E-0
82.
62E
-08
4.55
E-0
8
308.
80E
-09
9.97
E-0
91.
12E
-08
1.24
E-0
81.
36E
-08
1.48
E-0
81.
59E
-08
1.71
E-0
81.
93E
-08
3.38
E-0
8
451.
72E
-08
1.96
E-0
82.
19E
-08
2.43
E-0
82.
68E
-08
2.92
E-0
83.
14E
-08
3.38
E-0
83.
82E
-08
6.72
E-0
8
608.
74E
-09
1.00
E-0
81.
12E
-08
1.24
E-0
81.
35E
-08
1.47
E-0
81.
58E
-08
1.70
E-0
81.
91E
-08
3.33
E-0
8
751.
21E
-08
1.36
E-0
81.
52E
-08
1.67
E-0
81.
82E
-08
1.97
E-0
82.
11E
-08
2.26
E-0
82.
53E
-08
4.35
E-0
8
906.
81E
-09
7.60
E-0
98.
46E
-09
9.19
E-0
99.
96E
-09
1.08
E-0
81.
16E
-08
1.24
E-0
81.
38E
-08
2.36
E-0
8
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
30
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
7
Un
it 1
RP
V G
irth
Wel
d F
G N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
03.
57E
+17
4.07
E+
174.
60E
+17
5.19
E+
175.
69E
+17
6.17
E+
176.
58E
+17
7.10
E+
178.
02E
+17
1.42
E+
18
154.
65E
+17
5.32
E+
176.
05E
+17
6.88
E+
177.
58E
+17
8.20
E+
178.
72E
+17
9.42
E+
171.
07E
+18
1.90
E+
18
303.
28E
+17
3.79
E+
174.
31E
+17
4.90
E+
175.
45E
+17
5.91
E+
176.
31E
+17
6.83
E+
177.
76E
+17
1.39
E+
18
456.
55E
+17
7.57
E+
178.
62E
+17
9.80
E+
171.
09E
+18
1.18
E+
181.
27E
+18
1.38
E+
181.
56E
+18
2.82
E+
18
603.
26E
+17
3.81
E+
174.
32E
+17
4.89
E+
175.
42E
+17
5.87
E+
176.
27E
+17
6.78
E+
177.
69E
+17
1.37
E+
18
754.
55E
+17
5.23
E+
175.
94E
+17
6.65
E+
177.
32E
+17
7.93
E+
178.
44E
+17
9.10
E+
171.
03E
+18
1.81
E+
18
902.
53E
+17
2.87
E+
173.
25E
+17
3.60
E+
173.
95E
+17
4.27
E+
174.
56E
+17
4.91
E+
175.
52E
+17
9.65
E+
17
Azi
mut
h
05.
71E
-04
6.51
E-0
47.
36E
-04
8.31
E-0
49.
10E
-04
9.86
E-0
41.
05E
-03
1.14
E-0
31.
28E
-03
2.27
E-0
3
157.
37E
-04
8.44
E-0
49.
59E
-04
1.09
E-0
31.
20E
-03
1.30
E-0
31.
38E
-03
1.49
E-0
31.
69E
-03
3.01
E-0
3
305.
25E
-04
6.07
E-0
46.
90E
-04
7.85
E-0
48.
72E
-04
9.46
E-0
41.
01E
-03
1.09
E-0
31.
24E
-03
2.23
E-0
3
451.
03E
-03
1.19
E-0
31.
35E
-03
1.54
E-0
31.
72E
-03
1.86
E-0
32.
00E
-03
2.16
E-0
32.
46E
-03
4.44
E-0
3
605.
22E
-04
6.10
E-0
46.
92E
-04
7.82
E-0
48.
67E
-04
9.40
E-0
41.
00E
-03
1.09
E-0
31.
23E
-03
2.20
E-0
3
757.
21E
-04
8.28
E-0
49.
40E
-04
1.05
E-0
31.
16E
-03
1.26
E-0
31.
33E
-03
1.44
E-0
31.
63E
-03
2.87
E-0
3
904.
06E
-04
4.61
E-0
45.
22E
-04
5.78
E-0
46.
33E
-04
6.86
E-0
47.
32E
-04
7.87
E-0
48.
87E
-04
1.55
E-0
3
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
31
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
8
Un
it 1
RP
V G
irth
Wel
d E
F N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Azi
mut
h
02.
39E
+16
2.68
E+
162.
98E
+16
3.29
E+
163.
56E
+16
3.88
E+
164.
15E
+16
4.45
E+
164.
99E
+16
8.59
E+
16
153.
11E
+16
3.50
E+
163.
92E
+16
4.35
E+
164.
74E
+16
5.14
E+
165.
48E
+16
5.89
E+
166.
62E
+16
1.15
E+
17
302.
20E
+16
2.49
E+
162.
78E
+16
3.10
E+
163.
40E
+16
3.70
E+
163.
97E
+16
4.27
E+
164.
81E
+16
8.43
E+
16
454.
38E
+16
4.97
E+
165.
57E
+16
6.19
E+
166.
80E
+16
7.41
E+
167.
98E
+16
8.60
E+
169.
70E
+16
1.71
E+
17
602.
18E
+16
2.50
E+
162.
79E
+16
3.09
E+
163.
38E
+16
3.68
E+
163.
94E
+16
4.24
E+
164.
77E
+16
8.31
E+
16
753.
05E
+16
3.44
E+
163.
84E
+16
4.21
E+
164.
59E
+16
4.99
E+
165.
32E
+16
5.70
E+
166.
39E
+16
1.10
E+
17
901.
70E
+16
1.89
E+
162.
11E
+16
2.29
E+
162.
48E
+16
2.69
E+
162.
88E
+16
3.09
E+
163.
45E
+16
5.87
E+
16
Azi
mut
h
03.
76E
-05
4.21
E-0
54.
69E
-05
5.18
E-0
55.
61E
-05
6.10
E-0
56.
53E
-05
7.01
E-0
57.
85E
-05
1.35
E-0
4
154.
85E
-05
5.45
E-0
56.
10E
-05
6.77
E-0
57.
38E
-05
8.02
E-0
58.
54E
-05
9.18
E-0
51.
03E
-04
1.79
E-0
4
303.
46E
-05
3.92
E-0
54.
39E
-05
4.87
E-0
55.
35E
-05
5.83
E-0
56.
25E
-05
6.73
E-0
57.
58E
-05
1.33
E-0
4
456.
78E
-05
7.69
E-0
58.
61E
-05
9.57
E-0
51.
05E
-04
1.15
E-0
41.
24E
-04
1.33
E-0
41.
50E
-04
2.64
E-0
4
603.
44E
-05
3.93
E-0
54.
40E
-05
4.86
E-0
55.
32E
-05
5.80
E-0
56.
21E
-05
6.68
E-0
57.
52E
-05
1.31
E-0
4
754.
75E
-05
5.36
E-0
55.
99E
-05
6.56
E-0
57.
14E
-05
7.76
E-0
58.
28E
-05
8.88
E-0
59.
95E
-05
1.71
E-0
4
902.
68E
-05
2.99
E-0
53.
33E
-05
3.61
E-0
53.
91E
-05
4.25
E-0
54.
55E
-05
4.87
E-0
55.
44E
-05
9.27
E-0
5
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
32
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
9
Un
it 1
RP
V V
erti
cal W
eld
s G
1 an
d G
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
-250
.24
4.09
E+
114.
61E
+11
5.15
E+
115.
64E
+11
6.14
E+
116.
68E
+11
7.12
E+
117.
64E
+11
8.56
E+
111.
47E
+12
-219
.76
7.75
E+
118.
74E
+11
9.77
E+
111.
07E
+12
1.16
E+
121.
27E
+12
1.35
E+
121.
45E
+12
1.62
E+
122.
79E
+12
-189
.28
2.13
E+
122.
40E
+12
2.68
E+
122.
94E
+12
3.19
E+
123.
47E
+12
3.70
E+
123.
97E
+12
4.45
E+
127.
66E
+12
-158
.81.
14E
+13
1.29
E+
131.
44E
+13
1.58
E+
131.
72E
+13
1.87
E+
131.
99E
+13
2.14
E+
132.
40E
+13
4.12
E+
13
-128
.32
8.37
E+
139.
44E
+13
1.06
E+
141.
16E
+14
1.26
E+
141.
37E
+14
1.46
E+
141.
57E
+14
1.75
E+
143.
02E
+14
-97.
846.
07E
+14
6.84
E+
147.
65E
+14
8.38
E+
149.
12E
+14
9.92
E+
141.
06E
+15
1.13
E+
151.
27E
+15
2.19
E+
15
-67.
363.
89E
+15
4.38
E+
154.
90E
+15
5.37
E+
155.
84E
+15
6.35
E+
156.
77E
+15
7.26
E+
158.
14E
+15
1.40
E+
16
-36.
882.
01E
+16
2.26
E+
162.
53E
+16
2.77
E+
163.
02E
+16
3.28
E+
163.
50E
+16
3.75
E+
164.
20E
+16
7.23
E+
16
-6.4
7.84
E+
168.
83E
+16
9.87
E+
161.
08E
+17
1.18
E+
171.
28E
+17
1.37
E+
171.
46E
+17
1.64
E+
172.
82E
+17
24.0
81.
87E
+17
2.11
E+
172.
35E
+17
2.58
E+
172.
81E
+17
3.05
E+
173.
26E
+17
3.49
E+
173.
91E
+17
6.73
E+
17
54.5
63.
02E
+17
3.40
E+
173.
80E
+17
4.16
E+
174.
53E
+17
4.93
E+
175.
25E
+17
5.64
E+
176.
32E
+17
1.09
E+
18
85.0
43.
90E
+17
4.40
E+
174.
92E
+17
5.39
E+
175.
87E
+17
6.38
E+
176.
80E
+17
7.30
E+
178.
18E
+17
1.41
E+
18
114.
914.
62E
+17
5.21
E+
175.
83E
+17
6.38
E+
176.
95E
+17
7.56
E+
178.
06E
+17
8.64
E+
179.
69E
+17
1.67
E+
18
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
33
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-1
9
Un
it 1
RP
V V
erti
cal W
eld
s G
1 an
d G
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s (C
onti
nu
ed)
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16.0
317
.86
19.6
721
.48
23.2
325
.01
26.8
628
.70
3254
Ele
vatio
n
-250
.24
1.21
E-0
81.
36E
-08
1.52
E-0
81.
67E
-08
1.82
E-0
81.
97E
-08
2.10
E-0
82.
26E
-08
2.53
E-0
84.
35E
-08
-219
.76
2.15
E-0
82.
42E
-08
2.71
E-0
82.
97E
-08
3.23
E-0
83.
51E
-08
3.74
E-0
84.
01E
-08
4.50
E-0
87.
73E
-08
-189
.28
3.49
E-0
83.
93E
-08
4.40
E-0
84.
82E
-08
5.24
E-0
85.
70E
-08
6.08
E-0
86.
52E
-08
7.31
E-0
81.
26E
-07
-158
.86.
81E
-08
7.69
E-0
88.
59E
-08
9.41
E-0
81.
02E
-07
1.11
E-0
71.
19E
-07
1.27
E-0
71.
43E
-07
2.45
E-0
7
-128
.32
2.22
E-0
72.
51E
-07
2.80
E-0
73.
07E
-07
3.34
E-0
73.
63E
-07
3.87
E-0
74.
16E
-07
4.66
E-0
78.
01E
-07
-97.
841.
17E
-06
1.32
E-0
61.
47E
-06
1.61
E-0
61.
76E
-06
1.91
E-0
62.
04E
-06
2.18
E-0
62.
45E
-06
4.21
E-0
6
-67.
366.
72E
-06
7.58
E-0
68.
47E
-06
9.28
E-0
61.
01E
-05
1.10
E-0
51.
17E
-05
1.26
E-0
51.
41E
-05
2.42
E-0
5
-36.
883.
31E
-05
3.74
E-0
54.
18E
-05
4.58
E-0
54.
98E
-05
5.42
E-0
55.
77E
-05
6.19
E-0
56.
94E
-05
1.19
E-0
4
-6.4
1.26
E-0
41.
42E
-04
1.59
E-0
41.
74E
-04
1.89
E-0
42.
06E
-04
2.19
E-0
42.
35E
-04
2.64
E-0
44.
53E
-04
24.0
82.
96E
-04
3.34
E-0
43.
73E
-04
4.09
E-0
44.
45E
-04
4.84
E-0
45.
16E
-04
5.54
E-0
46.
21E
-04
1.07
E-0
3
54.5
64.
77E
-04
5.38
E-0
46.
01E
-04
6.59
E-0
47.
17E
-04
7.80
E-0
48.
31E
-04
8.92
E-0
49.
99E
-04
1.72
E-0
3
85.0
46.
18E
-04
6.97
E-0
47.
79E
-04
8.53
E-0
49.
29E
-04
1.01
E-0
31.
08E
-03
1.15
E-0
31.
29E
-03
2.22
E-0
3
114.
917.
31E
-04
8.25
E-0
49.
22E
-04
1.01
E-0
31.
10E
-03
1.20
E-0
31.
27E
-03
1.37
E-0
31.
53E
-03
2.63
E-0
3
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
34
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
0
Un
it 1
RP
V V
erti
cal W
eld
s F
1 an
d F
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
114.
914.
72E
+17
5.31
E+
175.
94E
+17
6.59
E+
177.
18E
+17
7.80
E+
178.
31E
+17
8.93
E+
171.
00E
+18
1.74
E+
18
145.
395.
36E
+17
6.02
E+
176.
74E
+17
7.48
E+
178.
15E
+17
8.85
E+
179.
43E
+17
1.01
E+
181.
14E
+18
1.97
E+
18
175.
875.
75E
+17
6.46
E+
177.
22E
+17
8.02
E+
178.
74E
+17
9.49
E+
171.
01E
+18
1.09
E+
181.
22E
+18
2.12
E+
18
206.
355.
93E
+17
6.66
E+
177.
45E
+17
8.27
E+
179.
01E
+17
9.79
E+
171.
04E
+18
1.12
E+
181.
26E
+18
2.18
E+
18
236.
835.
98E
+17
6.72
E+
177.
51E
+17
8.34
E+
179.
09E
+17
9.87
E+
171.
05E
+18
1.13
E+
181.
27E
+18
2.20
E+
18
267.
315.
95E
+17
6.69
E+
177.
49E
+17
8.31
E+
179.
05E
+17
9.83
E+
171.
05E
+18
1.13
E+
181.
27E
+18
2.19
E+
18
297.
795.
63E
+17
6.32
E+
177.
07E
+17
7.85
E+
178.
55E
+17
9.29
E+
179.
90E
+17
1.06
E+
181.
20E
+18
2.07
E+
18
328.
274.
73E
+17
5.32
E+
175.
95E
+17
6.60
E+
177.
19E
+17
7.81
E+
178.
33E
+17
8.95
E+
171.
01E
+18
1.74
E+
18
363.
522.
70E
+17
3.04
E+
173.
40E
+17
3.77
E+
174.
11E
+17
4.46
E+
174.
76E
+17
5.11
E+
175.
74E
+17
9.95
E+
17
379.
581.
44E
+17
1.62
E+
171.
81E
+17
2.01
E+
172.
19E
+17
2.38
E+
172.
53E
+17
2.72
E+
173.
06E
+17
5.30
E+
17
419.
714.
07E
+16
4.58
E+
165.
12E
+16
5.68
E+
166.
19E
+16
6.73
E+
167.
17E
+16
7.70
E+
168.
65E
+16
1.50
E+
17
450.
194.
36E
+16
4.90
E+
165.
48E
+16
6.08
E+
166.
63E
+16
7.20
E+
167.
68E
+16
8.25
E+
169.
26E
+16
1.61
E+
17
480.
373.
12E
+16
3.50
E+
163.
92E
+16
4.35
E+
164.
74E
+16
5.15
E+
165.
49E
+16
5.89
E+
166.
62E
+16
1.15
E+
17
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
35
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
0
Un
it 1
RP
V V
erti
cal W
eld
s F
1 an
d F
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s (C
onti
nu
ed)
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16.0
317
.86
19.6
721
.48
23.2
325
.01
26.8
628
.70
3254
Ele
vatio
n
114.
917.
47E
-04
8.40
E-0
49.
40E
-04
1.04
E-0
31.
14E
-03
1.23
E-0
31.
32E
-03
1.41
E-0
31.
59E
-03
2.75
E-0
3
145.
398.
48E
-04
9.53
E-0
41.
07E
-03
1.18
E-0
31.
29E
-03
1.40
E-0
31.
49E
-03
1.60
E-0
31.
80E
-03
3.13
E-0
3
175.
879.
09E
-04
1.02
E-0
31.
14E
-03
1.27
E-0
31.
38E
-03
1.50
E-0
31.
60E
-03
1.72
E-0
31.
93E
-03
3.35
E-0
3
206.
359.
37E
-04
1.05
E-0
31.
18E
-03
1.31
E-0
31.
43E
-03
1.55
E-0
31.
65E
-03
1.77
E-0
31.
99E
-03
3.45
E-0
3
236.
839.
45E
-04
1.06
E-0
31.
19E
-03
1.32
E-0
31.
44E
-03
1.56
E-0
31.
66E
-03
1.79
E-0
32.
01E
-03
3.48
E-0
3
267.
319.
41E
-04
1.06
E-0
31.
18E
-03
1.31
E-0
31.
43E
-03
1.55
E-0
31.
66E
-03
1.78
E-0
32.
00E
-03
3.47
E-0
3
297.
798.
88E
-04
9.98
E-0
41.
12E
-03
1.24
E-0
31.
35E
-03
1.47
E-0
31.
56E
-03
1.68
E-0
31.
89E
-03
3.27
E-0
3
328.
277.
46E
-04
8.39
E-0
49.
39E
-04
1.04
E-0
31.
14E
-03
1.23
E-0
31.
31E
-03
1.41
E-0
31.
59E
-03
2.75
E-0
3
363.
524.
28E
-04
4.81
E-0
45.
38E
-04
5.97
E-0
46.
51E
-04
7.07
E-0
47.
53E
-04
8.09
E-0
49.
09E
-04
1.58
E-0
3
379.
582.
30E
-04
2.59
E-0
42.
89E
-04
3.21
E-0
43.
50E
-04
3.80
E-0
44.
05E
-04
4.35
E-0
44.
89E
-04
8.48
E-0
4
419.
716.
49E
-05
7.30
E-0
58.
17E
-05
9.06
E-0
59.
88E
-05
1.07
E-0
41.
14E
-04
1.23
E-0
41.
38E
-04
2.39
E-0
4
450.
196.
78E
-05
7.62
E-0
58.
53E
-05
9.46
E-0
51.
03E
-04
1.12
E-0
41.
19E
-04
1.28
E-0
41.
44E
-04
2.50
E-0
4
480.
374.
85E
-05
5.45
E-0
56.
10E
-05
6.77
E-0
57.
38E
-05
8.01
E-0
58.
54E
-05
9.18
E-0
51.
03E
-04
1.79
E-0
4
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
Iron
Ato
m D
ispl
acem
ents
, dp
a
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
36
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
1
Un
it 1
RP
V L
ower
Sh
ell P
late
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
-250
.24
5.87
E+
116.
65E
+11
7.45
E+
118.
28E
+11
9.10
E+
119.
92E
+11
1.07
E+
121.
15E
+12
1.30
E+
122.
28E
+12
-219
.76
1.11
E+
121.
26E
+12
1.41
E+
121.
57E
+12
1.73
E+
121.
88E
+12
2.03
E+
122.
18E
+12
2.46
E+
124.
33E
+12
-189
.28
3.05
E+
123.
46E
+12
3.88
E+
124.
31E
+12
4.73
E+
125.
16E
+12
5.56
E+
125.
99E
+12
6.76
E+
121.
19E
+13
-158
.81.
64E
+13
1.86
E+
132.
09E
+13
2.32
E+
132.
55E
+13
2.78
E+
132.
99E
+13
3.22
E+
133.
64E
+13
6.40
E+
13
-128
.32
1.20
E+
141.
36E
+14
1.53
E+
141.
70E
+14
1.87
E+
142.
03E
+14
2.19
E+
142.
36E
+14
2.66
E+
144.
68E
+14
-97.
848.
72E
+14
9.89
E+
141.
11E
+15
1.23
E+
151.
35E
+15
1.47
E+
151.
59E
+15
1.71
E+
151.
93E
+15
3.39
E+
15
-67.
365.
58E
+15
6.33
E+
157.
09E
+15
7.87
E+
158.
66E
+15
9.44
E+
151.
02E
+16
1.09
E+
161.
24E
+16
2.17
E+
16
-36.
882.
88E
+16
3.27
E+
163.
66E
+16
4.07
E+
164.
47E
+16
4.87
E+
165.
25E
+16
5.65
E+
166.
38E
+16
1.12
E+
17
-6.4
1.12
E+
171.
28E
+17
1.43
E+
171.
59E
+17
1.74
E+
171.
90E
+17
2.05
E+
172.
21E
+17
2.49
E+
174.
38E
+17
24.0
82.
68E
+17
3.04
E+
173.
41E
+17
3.78
E+
174.
16E
+17
4.54
E+
174.
88E
+17
5.26
E+
175.
94E
+17
1.04
E+
18
54.5
64.
33E
+17
4.91
E+
175.
50E
+17
6.11
E+
176.
72E
+17
7.32
E+
177.
88E
+17
8.49
E+
179.
58E
+17
1.69
E+
18
85.0
45.
61E
+17
6.36
E+
177.
12E
+17
7.91
E+
178.
70E
+17
9.48
E+
171.
02E
+18
1.10
E+
181.
24E
+18
2.18
E+
18
114.
916.
64E
+17
7.53
E+
178.
43E
+17
9.37
E+
171.
03E
+18
1.12
E+
181.
21E
+18
1.30
E+
181.
47E
+18
2.59
E+
18
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
37
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
1
Un
it 1
RP
V L
ower
Sh
ell P
late
Neu
tron
Exp
osu
re P
red
icti
ons
(Con
tin
ued
)
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16.0
317
.86
19.6
721
.48
23.2
325
.01
26.8
628
.70
3254
Ele
vatio
n
-250
.24
1.72
E-0
81.
96E
-08
2.19
E-0
82.
43E
-08
2.68
E-0
82.
92E
-08
3.14
E-0
83.
38E
-08
3.82
E-0
86.
72E
-08
-219
.76
3.07
E-0
83.
48E
-08
3.89
E-0
84.
33E
-08
4.76
E-0
85.
19E
-08
5.58
E-0
86.
02E
-08
6.79
E-0
81.
19E
-07
-189
.28
4.98
E-0
85.
65E
-08
6.33
E-0
87.
03E
-08
7.73
E-0
88.
43E
-08
9.08
E-0
89.
78E
-08
1.10
E-0
71.
94E
-07
-158
.89.
73E
-08
1.10
E-0
71.
24E
-07
1.37
E-0
71.
51E
-07
1.65
E-0
71.
77E
-07
1.91
E-0
72.
15E
-07
3.79
E-0
7
-128
.32
3.17
E-0
73.
60E
-07
4.03
E-0
74.
48E
-07
4.92
E-0
75.
37E
-07
5.78
E-0
76.
23E
-07
7.03
E-0
71.
24E
-06
-97.
841.
67E
-06
1.89
E-0
62.
12E
-06
2.35
E-0
62.
59E
-06
2.82
E-0
63.
04E
-06
3.27
E-0
63.
69E
-06
6.50
E-0
6
-67.
369.
59E
-06
1.09
E-0
51.
22E
-05
1.35
E-0
51.
49E
-05
1.62
E-0
51.
75E
-05
1.88
E-0
52.
13E
-05
3.74
E-0
5
-36.
884.
73E
-05
5.36
E-0
56.
00E
-05
6.68
E-0
57.
34E
-05
8.00
E-0
58.
61E
-05
9.28
E-0
51.
05E
-04
1.84
E-0
4
-6.4
1.80
E-0
42.
04E
-04
2.28
E-0
42.
54E
-04
2.79
E-0
43.
04E
-04
3.27
E-0
43.
53E
-04
3.98
E-0
47.
00E
-04
24.0
84.
23E
-04
4.80
E-0
45.
37E
-04
5.97
E-0
46.
56E
-04
7.15
E-0
47.
70E
-04
8.30
E-0
49.
37E
-04
1.65
E-0
3
54.5
66.
81E
-04
7.73
E-0
48.
65E
-04
9.62
E-0
41.
06E
-03
1.15
E-0
31.
24E
-03
1.34
E-0
31.
51E
-03
2.65
E-0
3
85.0
48.
82E
-04
1.00
E-0
31.
12E
-03
1.25
E-0
31.
37E
-03
1.49
E-0
31.
61E
-03
1.73
E-0
31.
95E
-03
3.44
E-0
3
114.
911.
04E
-03
1.19
E-0
31.
33E
-03
1.48
E-0
31.
62E
-03
1.77
E-0
31.
90E
-03
2.05
E-0
32.
31E
-03
4.07
E-0
3
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
38
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
2
Un
it 1
RP
V L
ower
In
term
edia
te S
hel
l Pla
te N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
114.
916.
64E
+17
7.53
E+
178.
43E
+17
9.37
E+
171.
03E
+18
1.12
E+
181.
21E
+18
1.30
E+
181.
47E
+18
2.59
E+
18
145.
397.
54E
+17
8.55
E+
179.
57E
+17
1.06
E+
181.
17E
+18
1.27
E+
181.
37E
+18
1.48
E+
181.
67E
+18
2.94
E+
18
175.
878.
08E
+17
9.17
E+
171.
03E
+18
1.14
E+
181.
25E
+18
1.37
E+
181.
47E
+18
1.59
E+
181.
79E
+18
3.15
E+
18
206.
38.
34E
+17
9.46
E+
171.
06E
+18
1.18
E+
181.
29E
+18
1.41
E+
181.
52E
+18
1.64
E+
181.
85E
+18
3.25
E+
18
236.
838.
40E
+17
9.53
E+
171.
07E
+18
1.19
E+
181.
30E
+18
1.42
E+
181.
53E
+18
1.65
E+
181.
86E
+18
3.27
E+
18
267.
318.
38E
+17
9.50
E+
171.
06E
+18
1.18
E+
181.
30E
+18
1.42
E+
181.
53E
+18
1.64
E+
181.
85E
+18
3.26
E+
18
297.
797.
91E
+17
8.98
E+
171.
00E
+18
1.12
E+
181.
23E
+18
1.34
E+
181.
44E
+18
1.55
E+
181.
75E
+18
3.08
E+
18
328.
276.
66E
+17
7.55
E+
178.
45E
+17
9.39
E+
171.
03E
+18
1.13
E+
181.
21E
+18
1.31
E+
181.
47E
+18
2.59
E+
18
363.
523.
80E
+17
4.31
E+
174.
83E
+17
5.37
E+
175.
90E
+17
6.43
E+
176.
92E
+17
7.46
E+
178.
42E
+17
1.48
E+
18
371.
552.
98E
+17
3.38
E+
173.
78E
+17
4.20
E+
174.
62E
+17
5.04
E+
175.
42E
+17
5.84
E+
176.
59E
+17
1.16
E+
18
379.
582.
02E
+17
2.30
E+
172.
57E
+17
2.86
E+
173.
14E
+17
3.42
E+
173.
69E
+17
3.97
E+
174.
48E
+17
7.88
E+
17
387
1.43
E+
171.
62E
+17
1.82
E+
172.
02E
+17
2.22
E+
172.
42E
+17
2.60
E+
172.
80E
+17
3.16
E+
175.
57E
+17
395.
439.
93E
+16
1.13
E+
171.
26E
+17
1.40
E+
171.
54E
+17
1.68
E+
171.
81E
+17
1.95
E+
172.
20E
+17
3.87
E+
17
419.
715.
73E
+16
6.50
E+
167.
27E
+16
8.08
E+
168.
88E
+16
9.69
E+
161.
04E
+17
1.12
E+
171.
27E
+17
2.23
E+
17
450.
196.
13E
+16
6.96
E+
167.
79E
+16
8.65
E+
169.
51E
+16
1.04
E+
171.
12E
+17
1.20
E+
171.
36E
+17
2.39
E+
17
480.
374.
38E
+16
4.97
E+
165.
57E
+16
6.19
E+
166.
80E
+16
7.41
E+
167.
98E
+16
8.60
E+
169.
70E
+16
1.71
E+
17
Fas
t N
eutr
on F
luen
ce (
n/cm
2,
E >
1.0
Mev
)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
39
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
2
Un
it 1
RP
V L
ower
In
term
edia
te S
hel
l Pla
te N
eutr
on E
xpos
ure
Pre
dic
tion
s (C
onti
nu
ed)
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16.0
317
.86
19.6
721
.48
23.2
325
.01
26.8
628
.70
3254
Ele
vatio
n
114.
911.
04E
-03
1.19
E-0
31.
33E
-03
1.48
E-0
31.
62E
-03
1.77
E-0
31.
90E
-03
2.05
E-0
32.
31E
-03
4.07
E-0
3
145.
391.
18E
-03
1.34
E-0
31.
50E
-03
1.67
E-0
31.
84E
-03
2.00
E-0
32.
16E
-03
2.33
E-0
32.
62E
-03
4.62
E-0
3
175.
871.
27E
-03
1.44
E-0
31.
61E
-03
1.79
E-0
31.
97E
-03
2.15
E-0
32.
31E
-03
2.49
E-0
32.
81E
-03
4.95
E-0
3
206.
31.
31E
-03
1.49
E-0
31.
66E
-03
1.85
E-0
32.
03E
-03
2.22
E-0
32.
39E
-03
2.57
E-0
32.
90E
-03
5.11
E-0
3
236.
831.
32E
-03
1.50
E-0
31.
68E
-03
1.86
E-0
32.
05E
-03
2.23
E-0
32.
41E
-03
2.59
E-0
32.
92E
-03
5.15
E-0
3
267.
311.
31E
-03
1.49
E-0
31.
67E
-03
1.86
E-0
32.
04E
-03
2.22
E-0
32.
40E
-03
2.58
E-0
32.
91E
-03
5.12
E-0
3
297.
791.
24E
-03
1.41
E-0
31.
58E
-03
1.75
E-0
31.
93E
-03
2.10
E-0
32.
26E
-03
2.44
E-0
32.
75E
-03
4.84
E-0
3
328.
271.
04E
-03
1.18
E-0
31.
32E
-03
1.47
E-0
31.
62E
-03
1.76
E-0
31.
90E
-03
2.05
E-0
32.
31E
-03
4.06
E-0
3
363.
525.
98E
-04
6.78
E-0
47.
59E
-04
8.44
E-0
49.
28E
-04
1.01
E-0
31.
09E
-03
1.17
E-0
31.
32E
-03
2.33
E-0
3
371.
554.
71E
-04
5.34
E-0
45.
98E
-04
6.64
E-0
47.
30E
-04
7.96
E-0
48.
57E
-04
9.24
E-0
41.
04E
-03
1.83
E-0
3
379.
583.
21E
-04
3.65
E-0
44.
08E
-04
4.54
E-0
44.
99E
-04
5.44
E-0
45.
86E
-04
6.31
E-0
47.
12E
-04
1.25
E-0
3
387
2.29
E-0
42.
60E
-04
2.91
E-0
43.
23E
-04
3.55
E-0
43.
87E
-04
4.17
E-0
44.
50E
-04
5.07
E-0
48.
93E
-04
395.
431.
60E
-04
1.82
E-0
42.
03E
-04
2.26
E-0
42.
48E
-04
2.71
E-0
42.
92E
-04
3.14
E-0
43.
55E
-04
6.24
E-0
4
419.
719.
07E
-05
1.03
E-0
41.
15E
-04
1.28
E-0
41.
41E
-04
1.53
E-0
41.
65E
-04
1.78
E-0
42.
01E
-04
3.54
E-0
4
450.
199.
48E
-05
1.08
E-0
41.
20E
-04
1.34
E-0
41.
47E
-04
1.60
E-0
41.
73E
-04
1.86
E-0
42.
10E
-04
3.69
E-0
4
480.
376.
78E
-05
7.69
E-0
58.
61E
-05
9.57
E-0
51.
05E
-04
1.15
E-0
41.
24E
-04
1.33
E-0
41.
50E
-04
2.64
E-0
4
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
40
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
3
Un
it 1
RP
V N
16 N
ozzl
e/N
ozzl
e F
orgi
ng
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Ele
vatio
n
363.
523.
23E
+17
3.66
E+
174.
10E
+17
4.56
E+
175.
02E
+17
5.47
E+
175.
88E
+17
6.34
E+
177.
15E
+17
1.26
E+
18
371.
552.
53E
+17
2.87
E+
173.
21E
+17
3.57
E+
173.
93E
+17
4.28
E+
174.
61E
+17
4.97
E+
175.
61E
+17
9.87
E+
17
379.
581.
72E
+17
1.95
E+
172.
18E
+17
2.43
E+
172.
67E
+17
2.91
E+
173.
13E
+17
3.38
E+
173.
81E
+17
6.70
E+
17
387.
51.
21E
+17
1.38
E+
171.
54E
+17
1.71
E+
171.
89E
+17
2.06
E+
172.
21E
+17
2.38
E+
172.
69E
+17
4.74
E+
17
395.
438.
43E
+16
9.56
E+
161.
07E
+17
1.19
E+
171.
31E
+17
1.43
E+
171.
54E
+17
1.65
E+
171.
87E
+17
3.29
E+
17
Ele
vatio
n
363.
525.
09E
-04
5.78
E-0
46.
47E
-04
7.20
E-0
47.
91E
-04
8.63
E-0
49.
28E
-04
1.00
E-0
31.
13E
-03
1.99
E-0
3
371.
554.
01E
-04
4.55
E-0
45.
09E
-04
5.67
E-0
46.
23E
-04
6.79
E-0
47.
31E
-04
7.88
E-0
48.
89E
-04
1.57
E-0
3
379.
582.
74E
-04
3.11
E-0
43.
48E
-04
3.87
E-0
44.
25E
-04
4.64
E-0
44.
99E
-04
5.38
E-0
46.
07E
-04
1.07
E-0
3
387.
51.
95E
-04
2.21
E-0
42.
48E
-04
2.76
E-0
43.
03E
-04
3.31
E-0
43.
56E
-04
3.83
E-0
44.
33E
-04
7.62
E-0
4
395.
431.
36E
-04
1.55
E-0
41.
73E
-04
1.93
E-0
42.
12E
-04
2.31
E-0
42.
49E
-04
2.68
E-0
43.
02E
-04
5.32
E-0
4
Iron
Ato
m D
ispl
acem
ents
, dp
a
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
41
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
4
Un
it 1
Top
Gu
ide
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Rad
ius
5.01
9.25
E+
219.
78E
+21
1.05
E+
221.
08E
+22
1.16
E+
221.
26E
+22
1.40
E+
221.
49E
+22
1.64
E+
222.
67E
+22
30.4
81.
07E
+22
1.13
E+
221.
21E
+22
1.24
E+
221.
33E
+22
1.43
E+
221.
59E
+22
1.68
E+
221.
85E
+22
2.98
E+
22
60.9
69.
99E
+21
1.06
E+
221.
14E
+22
1.17
E+
221.
25E
+22
1.35
E+
221.
50E
+22
1.59
E+
221.
76E
+22
2.84
E+
22
91.4
49.
32E
+21
9.83
E+
211.
07E
+22
1.10
E+
221.
18E
+22
1.28
E+
221.
42E
+22
1.51
E+
221.
67E
+22
2.74
E+
22
121.
921.
08E
+22
1.15
E+
221.
23E
+22
1.26
E+
221.
35E
+22
1.46
E+
221.
61E
+22
1.71
E+
221.
88E
+22
3.02
E+
22
152.
48.
41E
+21
8.92
E+
219.
63E
+21
9.89
E+
211.
06E
+22
1.15
E+
221.
28E
+22
1.36
E+
221.
50E
+22
2.45
E+
22
182.
886.
36E
+21
6.73
E+
217.
26E
+21
7.44
E+
217.
99E
+21
8.62
E+
219.
46E
+21
1.00
E+
221.
10E
+22
1.77
E+
22
213.
361.
13E
+21
1.21
E+
211.
32E
+21
1.38
E+
211.
49E
+21
1.61
E+
211.
77E
+21
1.89
E+
212.
09E
+21
3.46
E+
21
221.
615
2.66
E+
202.
88E
+20
3.15
E+
203.
32E
+20
3.62
E+
203.
95E
+20
4.35
E+
204.
65E
+20
5.19
E+
208.
79E
+20
225.
425
1.44
E+
201.
56E
+20
1.71
E+
201.
81E
+20
1.97
E+
202.
15E
+20
2.37
E+
202.
54E
+20
2.83
E+
204.
81E
+20
236.
855
2.13
E+
192.
31E
+19
2.54
E+
192.
70E
+19
2.95
E+
193.
22E
+19
3.54
E+
193.
80E
+19
4.25
E+
197.
26E
+19
240.
665
9.40
E+
181.
03E
+19
1.13
E+
191.
20E
+19
1.31
E+
191.
43E
+19
1.58
E+
191.
69E
+19
1.89
E+
193.
25E
+19
Fas
t N
eutr
on F
luen
ce (
n/cm
2,
E >
1.0
Mev
)
Not
e: R
adiu
s (c
m)
from
Cor
e C
ente
rline
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
42
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
4
Un
it 1
Top
Gu
ide
Neu
tron
Exp
osu
re P
red
icti
ons
(Con
tin
ued
)
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Rad
ius
5.01
1.46
E+
011.
55E
+01
1.67
E+
011.
72E
+01
1.85
E+
012.
01E
+01
2.23
E+
012.
37E
+01
2.62
E+
014.
29E
+01
30.4
81.
66E
+01
1.76
E+
011.
89E
+01
1.95
E+
012.
09E
+01
2.26
E+
012.
51E
+01
2.66
E+
012.
93E
+01
4.75
E+
01
60.9
61.
58E
+01
1.67
E+
011.
80E
+01
1.85
E+
011.
99E
+01
2.15
E+
012.
39E
+01
2.54
E+
012.
80E
+01
4.57
E+
01
91.4
41.
47E
+01
1.56
E+
011.
69E
+01
1.74
E+
011.
88E
+01
2.04
E+
012.
26E
+01
2.41
E+
012.
67E
+01
4.40
E+
01
121.
921.
69E
+01
1.79
E+
011.
93E
+01
1.98
E+
012.
13E
+01
2.30
E+
012.
54E
+01
2.69
E+
012.
97E
+01
4.80
E+
01
152.
41.
34E
+01
1.42
E+
011.
54E
+01
1.58
E+
011.
70E
+01
1.85
E+
012.
05E
+01
2.18
E+
012.
41E
+01
3.95
E+
01
182.
889.
55E
+00
1.01
E+
011.
09E
+01
1.12
E+
011.
21E
+01
1.31
E+
011.
44E
+01
1.52
E+
011.
68E
+01
2.72
E+
01
213.
361.
65E
+00
1.76
E+
001.
92E
+00
2.00
E+
002.
17E
+00
2.35
E+
002.
58E
+00
2.75
E+
003.
05E
+00
5.05
E+
00
221.
615
3.96
E-0
14.
28E
-01
4.69
E-0
14.
94E
-01
5.38
E-0
15.
87E
-01
6.46
E-0
16.
91E
-01
7.71
E-0
11.
30E
+00
225.
425
2.18
E-0
12.
36E
-01
2.59
E-0
12.
73E
-01
2.98
E-0
13.
25E
-01
3.58
E-0
13.
83E
-01
4.28
E-0
17.
26E
-01
236.
855
3.44
E-0
23.
74E
-02
4.11
E-0
24.
36E
-02
4.76
E-0
25.
20E
-02
5.73
E-0
26.
13E
-02
6.86
E-0
21.
17E
-01
240.
665
1.52
E-0
21.
66E
-02
1.82
E-0
21.
94E
-02
2.12
E-0
22.
31E
-02
2.55
E-0
22.
73E
-02
3.05
E-0
25.
23E
-02
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: R
adiu
s (c
m)
from
Cor
e C
ente
rline
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
43
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
5
Un
it 1
Cor
e P
late
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Rad
ius
5.01
1.95
E+
202.
13E
+20
2.34
E+
202.
57E
+20
2.79
E+
202.
98E
+20
3.16
E+
203.
38E
+20
3.76
E+
206.
30E
+20
30.4
82.
10E
+20
2.29
E+
202.
51E
+20
2.75
E+
202.
98E
+20
3.18
E+
203.
38E
+20
3.60
E+
204.
01E
+20
6.68
E+
20
60.9
61.
99E
+20
2.17
E+
202.
39E
+20
2.63
E+
202.
86E
+20
3.04
E+
203.
24E
+20
3.45
E+
203.
84E
+20
6.44
E+
20
91.4
41.
89E
+20
2.06
E+
202.
29E
+20
2.53
E+
202.
76E
+20
2.95
E+
203.
13E
+20
3.35
E+
203.
75E
+20
6.38
E+
20
121.
922.
14E
+20
2.34
E+
202.
58E
+20
2.84
E+
203.
08E
+20
3.28
E+
203.
49E
+20
3.72
E+
204.
14E
+20
6.94
E+
20
152.
41.
73E
+20
1.91
E+
202.
11E
+20
2.33
E+
202.
54E
+20
2.71
E+
202.
89E
+20
3.09
E+
203.
45E
+20
5.86
E+
20
182.
881.
56E
+20
1.72
E+
201.
91E
+20
2.12
E+
202.
31E
+20
2.47
E+
202.
61E
+20
2.80
E+
203.
13E
+20
5.31
E+
20
213.
361.
00E
+20
1.10
E+
201.
22E
+20
1.36
E+
201.
49E
+20
1.59
E+
201.
68E
+20
1.80
E+
202.
01E
+20
3.43
E+
20
221.
615
3.58
E+
193.
97E
+19
4.43
E+
194.
97E
+19
5.47
E+
195.
85E
+19
6.21
E+
196.
67E
+19
7.49
E+
191.
30E
+20
225.
425
1.94
E+
192.
15E
+19
2.40
E+
192.
70E
+19
2.97
E+
193.
18E
+19
3.37
E+
193.
62E
+19
4.07
E+
197.
06E
+19
236.
855
4.22
E+
184.
70E
+18
5.27
E+
185.
94E
+18
6.56
E+
187.
03E
+18
7.47
E+
188.
04E
+18
9.06
E+
181.
58E
+19
240.
665
2.79
E+
183.
11E
+18
3.50
E+
183.
94E
+18
4.35
E+
184.
67E
+18
4.96
E+
185.
34E
+18
6.02
E+
181.
05E
+19
Fas
t N
eutr
on F
luen
ce (
n/cm
2,
E >
1.0
Mev
)
Not
e: R
adiu
s (c
m)
from
Cor
e C
ente
rline
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
44
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
5
Un
it 1
Cor
e P
late
Neu
tron
Exp
osu
re P
red
icti
ons
(Con
tin
ued
)
Cyc
le
13C
ycle
14
Cyc
le
15C
ycle
16
Cyc
le
17C
ycle
18
C19
(eq
)C
20 (
avg)
Pro
ject
edP
roje
cted
Tim
e,s
6.06
E+
075.
78E
+07
5.70
E+
075.
73E
+07
5.52
E+
075.
60E
+07
5.83
E+
075.
83E
+07
1.04
E+
086.
94E
+08
EF
PY
16
.03
17.8
619
.67
21.4
823
.23
25.0
126
.86
28.7
032
54
Rad
ius
5.01
2.84
E-0
13.
10E
-01
3.40
E-0
13.
74E
-01
4.06
E-0
14.
33E
-01
4.61
E-0
14.
92E
-01
5.47
E-0
19.
17E
-01
30.4
83.
02E
-01
3.29
E-0
13.
61E
-01
3.96
E-0
14.
30E
-01
4.58
E-0
14.
87E
-01
5.19
E-0
15.
77E
-01
9.64
E-0
1
60.9
62.
89E
-01
3.16
E-0
13.
48E
-01
3.82
E-0
14.
15E
-01
4.42
E-0
14.
70E
-01
5.02
E-0
15.
58E
-01
9.36
E-0
1
91.4
42.
75E
-01
2.99
E-0
13.
32E
-01
3.68
E-0
14.
01E
-01
4.28
E-0
14.
55E
-01
4.87
E-0
15.
44E
-01
9.25
E-0
1
121.
923.
09E
-01
3.38
E-0
13.
72E
-01
4.09
E-0
14.
44E
-01
4.73
E-0
15.
03E
-01
5.36
E-0
15.
97E
-01
1.00
E+
00
152.
42.
55E
-01
2.80
E-0
13.
10E
-01
3.43
E-0
13.
73E
-01
3.98
E-0
14.
24E
-01
4.53
E-0
15.
06E
-01
8.59
E-0
1
182.
882.
26E
-01
2.49
E-0
12.
76E
-01
3.07
E-0
13.
35E
-01
3.57
E-0
13.
79E
-01
4.05
E-0
14.
53E
-01
7.71
E-0
1
213.
361.
44E
-01
1.58
E-0
11.
75E
-01
1.95
E-0
12.
13E
-01
2.28
E-0
12.
41E
-01
2.58
E-0
12.
89E
-01
4.93
E-0
1
221.
615
5.22
E-0
25.
79E
-02
6.47
E-0
27.
25E
-02
7.98
E-0
28.
54E
-02
9.06
E-0
29.
73E
-02
1.09
E-0
11.
89E
-01
225.
425
2.85
E-0
23.
16E
-02
3.53
E-0
23.
96E
-02
4.36
E-0
24.
67E
-02
4.96
E-0
25.
32E
-02
5.98
E-0
21.
04E
-01
236.
855
6.35
E-0
37.
08E
-03
7.94
E-0
38.
94E
-03
9.86
E-0
31.
06E
-02
1.12
E-0
21.
21E
-02
1.36
E-0
22.
38E
-02
240.
665
4.19
E-0
34.
67E
-03
5.25
E-0
35.
91E
-03
6.53
E-0
37.
01E
-03
7.45
E-0
38.
02E
-03
9.04
E-0
31.
58E
-02
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: R
adiu
s (c
m)
from
Cor
e C
ente
rline
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
45
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
6
Un
it 2
Sh
rou
d H
oriz
onta
l Wel
d H
1 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
06.
75E
+18
7.60
E+
188.
44E
+18
9.26
E+
181.
01E
+19
1.10
E+
191.
18E
+19
1.27
E+
191.
45E
+19
2.50
E+
19
151.
13E
+19
1.27
E+
191.
40E
+19
1.54
E+
191.
69E
+19
1.85
E+
191.
97E
+19
2.12
E+
192.
42E
+19
4.17
E+
19
308.
88E
+18
1.00
E+
191.
11E
+19
1.22
E+
191.
34E
+19
1.47
E+
191.
58E
+19
1.70
E+
191.
95E
+19
3.40
E+
19
452.
01E
+19
2.25
E+
192.
48E
+19
2.71
E+
192.
99E
+19
3.28
E+
193.
52E
+19
3.79
E+
194.
36E
+19
7.59
E+
19
608.
87E
+18
1.00
E+
191.
10E
+19
1.20
E+
191.
33E
+19
1.45
E+
191.
56E
+19
1.68
E+
191.
93E
+19
3.34
E+
19
751.
13E
+19
1.27
E+
191.
39E
+19
1.51
E+
191.
66E
+19
1.81
E+
191.
93E
+19
2.07
E+
192.
36E
+19
4.02
E+
19
907.
05E
+18
7.95
E+
188.
76E
+18
9.56
E+
181.
04E
+19
1.14
E+
191.
22E
+19
1.31
E+
191.
49E
+19
2.54
E+
19
Azi
mut
h
01.
02E
-02
1.15
E-0
21.
27E
-02
1.40
E-0
21.
52E
-02
1.66
E-0
21.
79E
-02
1.92
E-0
22.
19E
-02
3.77
E-0
2
151.
70E
-02
1.91
E-0
22.
11E
-02
2.31
E-0
22.
55E
-02
2.78
E-0
22.
97E
-02
3.19
E-0
23.
65E
-02
6.28
E-0
2
301.
30E
-02
1.47
E-0
21.
62E
-02
1.78
E-0
21.
97E
-02
2.15
E-0
22.
31E
-02
2.49
E-0
22.
86E
-02
4.99
E-0
2
453.
02E
-02
3.39
E-0
23.
73E
-02
4.08
E-0
24.
50E
-02
4.93
E-0
25.
31E
-02
5.71
E-0
26.
56E
-02
1.14
E-0
1
601.
30E
-02
1.47
E-0
21.
62E
-02
1.77
E-0
21.
95E
-02
2.13
E-0
22.
29E
-02
2.46
E-0
22.
82E
-02
4.89
E-0
2
751.
69E
-02
1.90
E-0
22.
09E
-02
2.27
E-0
22.
49E
-02
2.72
E-0
22.
90E
-02
3.11
E-0
23.
55E
-02
6.05
E-0
2
901.
04E
-02
1.17
E-0
21.
29E
-02
1.40
E-0
21.
53E
-02
1.67
E-0
21.
79E
-02
1.92
E-0
22.
19E
-02
3.73
E-0
2
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
46
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
7
Un
it 2
Sh
rou
d H
oriz
onta
l Wel
d H
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
08.
85E
+18
9.96
E+
181.
11E
+19
1.21
E+
191.
32E
+19
1.45
E+
191.
55E
+19
1.67
E+
191.
91E
+19
3.28
E+
19
151.
48E
+19
1.66
E+
191.
84E
+19
2.02
E+
192.
22E
+19
2.42
E+
192.
58E
+19
2.78
E+
193.
18E
+19
5.47
E+
19
301.
16E
+19
1.31
E+
191.
45E
+19
1.59
E+
191.
76E
+19
1.93
E+
192.
07E
+19
2.23
E+
192.
56E
+19
4.46
E+
19
452.
63E
+19
2.95
E+
193.
25E
+19
3.56
E+
193.
92E
+19
4.30
E+
194.
62E
+19
4.98
E+
195.
71E
+19
9.95
E+
19
601.
16E
+19
1.31
E+
191.
45E
+19
1.58
E+
191.
74E
+19
1.91
E+
192.
05E
+19
2.20
E+
192.
52E
+19
4.38
E+
19
751.
48E
+19
1.66
E+
191.
82E
+19
1.98
E+
192.
17E
+19
2.37
E+
192.
53E
+19
2.71
E+
193.
09E
+19
5.28
E+
19
909.
25E
+18
1.04
E+
191.
15E
+19
1.25
E+
191.
36E
+19
1.49
E+
191.
60E
+19
1.71
E+
191.
95E
+19
3.33
E+
19
Azi
mut
h
01.
45E
-02
1.63
E-0
21.
81E
-02
1.99
E-0
22.
17E
-02
2.37
E-0
22.
54E
-02
2.73
E-0
23.
12E
-02
5.37
E-0
2
152.
42E
-02
2.72
E-0
23.
01E
-02
3.29
E-0
23.
63E
-02
3.96
E-0
24.
22E
-02
4.54
E-0
25.
19E
-02
8.94
E-0
2
301.
85E
-02
2.09
E-0
22.
31E
-02
2.53
E-0
22.
80E
-02
3.07
E-0
23.
29E
-02
3.55
E-0
24.
07E
-02
7.10
E-0
2
454.
30E
-02
4.83
E-0
25.
31E
-02
5.81
E-0
26.
40E
-02
7.02
E-0
27.
55E
-02
8.13
E-0
29.
34E
-02
1.62
E-0
1
601.
85E
-02
2.09
E-0
22.
30E
-02
2.51
E-0
22.
77E
-02
3.03
E-0
23.
26E
-02
3.51
E-0
24.
02E
-02
6.97
E-0
2
752.
41E
-02
2.71
E-0
22.
98E
-02
3.24
E-0
23.
55E
-02
3.87
E-0
24.
13E
-02
4.43
E-0
25.
05E
-02
8.62
E-0
2
901.
48E
-02
1.66
E-0
21.
83E
-02
2.00
E-0
22.
17E
-02
2.37
E-0
22.
55E
-02
2.73
E-0
23.
11E
-02
5.31
E-0
2
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
47
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
8
Un
it 2
Sh
rou
d H
oriz
onta
l Wel
d H
3 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
09.
79E
+19
1.04
E+
201.
13E
+20
1.23
E+
201.
32E
+20
1.44
E+
201.
58E
+20
1.69
E+
201.
93E
+20
3.29
E+
20
151.
85E
+20
1.97
E+
202.
13E
+20
2.31
E+
202.
50E
+20
2.72
E+
202.
96E
+20
3.17
E+
203.
61E
+20
6.15
E+
20
301.
12E
+20
1.20
E+
201.
30E
+20
1.40
E+
201.
52E
+20
1.66
E+
201.
82E
+20
1.96
E+
202.
24E
+20
3.87
E+
20
453.
79E
+20
4.02
E+
204.
32E
+20
4.67
E+
205.
04E
+20
5.51
E+
206.
05E
+20
6.50
E+
207.
42E
+20
1.27
E+
21
601.
12E
+20
1.20
E+
201.
29E
+20
1.40
E+
201.
51E
+20
1.65
E+
201.
81E
+20
1.94
E+
202.
22E
+20
3.81
E+
20
751.
86E
+20
1.98
E+
202.
13E
+20
2.29
E+
202.
46E
+20
2.68
E+
202.
91E
+20
3.11
E+
203.
53E
+20
5.94
E+
20
909.
68E
+19
1.03
E+
201.
11E
+20
1.20
E+
201.
28E
+20
1.40
E+
201.
53E
+20
1.64
E+
201.
86E
+20
3.16
E+
20
Azi
mut
h
01.
41E
-01
1.50
E-0
11.
63E
-01
1.77
E-0
11.
90E
-01
2.07
E-0
12.
30E
-01
2.48
E-0
12.
84E
-01
4.91
E-0
1
152.
67E
-01
2.85
E-0
13.
08E
-01
3.33
E-0
13.
60E
-01
3.92
E-0
14.
41E
-01
4.76
E-0
15.
47E
-01
9.57
E-0
1
301.
61E
-01
1.72
E-0
11.
86E
-01
2.02
E-0
12.
19E
-01
2.39
E-0
12.
68E
-01
2.89
E-0
13.
33E
-01
5.85
E-0
1
455.
53E
-01
5.87
E-0
16.
30E
-01
6.81
E-0
17.
36E
-01
8.04
E-0
18.
95E
-01
9.64
E-0
11.
11E
+00
1.92
E+
00
601.
62E
-01
1.73
E-0
11.
86E
-01
2.01
E-0
12.
17E
-01
2.37
E-0
12.
65E
-01
2.85
E-0
13.
27E
-01
5.69
E-0
1
752.
69E
-01
2.86
E-0
13.
07E
-01
3.30
E-0
13.
55E
-01
3.87
E-0
14.
29E
-01
4.60
E-0
15.
25E
-01
8.99
E-0
1
901.
39E
-01
1.49
E-0
11.
60E
-01
1.73
E-0
11.
85E
-01
2.01
E-0
12.
20E
-01
2.35
E-0
12.
68E
-01
4.52
E-0
1
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
48
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-2
9
Un
it 2
Sh
rou
d H
oriz
onta
l Wel
d H
4 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
02.
64E
+20
2.95
E+
203.
27E
+20
3.59
E+
203.
89E
+20
4.22
E+
204.
56E
+20
4.89
E+
205.
58E
+20
9.54
E+
20
154.
98E
+20
5.56
E+
206.
14E
+20
6.71
E+
207.
34E
+20
7.98
E+
208.
54E
+20
9.17
E+
201.
05E
+21
1.79
E+
21
303.
02E
+20
3.38
E+
203.
74E
+20
4.09
E+
204.
49E
+20
4.89
E+
205.
28E
+20
5.67
E+
206.
50E
+20
1.12
E+
21
451.
02E
+21
1.13
E+
211.
24E
+21
1.35
E+
211.
48E
+21
1.61
E+
211.
74E
+21
1.87
E+
212.
14E
+21
3.68
E+
21
603.
02E
+20
3.38
E+
203.
72E
+20
4.06
E+
204.
44E
+20
4.84
E+
205.
23E
+20
5.61
E+
206.
42E
+20
1.10
E+
21
754.
96E
+20
5.55
E+
206.
08E
+20
6.59
E+
207.
18E
+20
7.81
E+
208.
36E
+20
8.95
E+
201.
02E
+21
1.72
E+
21
902.
59E
+20
2.90
E+
203.
19E
+20
3.47
E+
203.
76E
+20
4.09
E+
204.
40E
+20
4.71
E+
205.
36E
+20
9.10
E+
20
Azi
mut
h
03.
76E
-01
4.21
E-0
14.
66E
-01
5.11
E-0
15.
54E
-01
6.02
E-0
16.
59E
-01
7.08
E-0
18.
11E
-01
1.40
E+
00
157.
11E
-01
7.95
E-0
18.
77E
-01
9.58
E-0
11.
05E
+00
1.14
E+
001.
26E
+00
1.36
E+
001.
56E
+00
2.73
E+
00
304.
30E
-01
4.82
E-0
15.
33E
-01
5.83
E-0
16.
39E
-01
6.97
E-0
17.
66E
-01
8.27
E-0
19.
51E
-01
1.67
E+
00
451.
47E
+00
1.64
E+
001.
79E
+00
1.95
E+
002.
14E
+00
2.33
E+
002.
55E
+00
2.74
E+
003.
15E
+00
5.47
E+
00
604.
30E
-01
4.83
E-0
15.
31E
-01
5.78
E-0
16.
33E
-01
6.90
E-0
17.
56E
-01
8.14
E-0
19.
34E
-01
1.63
E+
00
757.
09E
-01
7.93
E-0
18.
68E
-01
9.41
E-0
11.
03E
+00
1.12
E+
001.
22E
+00
1.31
E+
001.
49E
+00
2.56
E+
00
903.
69E
-01
4.14
E-0
14.
54E
-01
4.95
E-0
15.
35E
-01
5.82
E-0
16.
27E
-01
6.72
E-0
17.
64E
-01
1.30
E+
00
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
49
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
0
Un
it 2
Sh
rou
d H
oriz
onta
l Wel
d H
5 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
01.
07E
+20
1.21
E+
201.
34E
+20
1.50
E+
201.
67E
+20
1.82
E+
201.
93E
+20
2.08
E+
202.
40E
+20
4.22
E+
20
152.
03E
+20
2.27
E+
202.
52E
+20
2.81
E+
203.
16E
+20
3.44
E+
203.
63E
+20
3.92
E+
204.
52E
+20
7.96
E+
20
301.
23E
+20
1.38
E+
201.
53E
+20
1.72
E+
201.
94E
+20
2.11
E+
202.
24E
+20
2.43
E+
202.
81E
+20
5.00
E+
20
454.
13E
+20
4.62
E+
205.
07E
+20
5.67
E+
206.
36E
+20
6.94
E+
207.
37E
+20
7.97
E+
209.
20E
+20
1.63
E+
21
601.
23E
+20
1.38
E+
201.
53E
+20
1.70
E+
201.
91E
+20
2.09
E+
202.
22E
+20
2.39
E+
202.
76E
+20
4.90
E+
20
752.
02E
+20
2.27
E+
202.
49E
+20
2.76
E+
203.
08E
+20
3.36
E+
203.
54E
+20
3.81
E+
204.
38E
+20
7.63
E+
20
901.
05E
+20
1.18
E+
201.
30E
+20
1.46
E+
201.
61E
+20
1.76
E+
201.
86E
+20
2.00
E+
202.
30E
+20
4.02
E+
20
Azi
mut
h
01.
53E
-01
1.72
E-0
11.
91E
-01
2.14
E-0
12.
38E
-01
2.59
E-0
12.
78E
-01
3.01
E-0
13.
48E
-01
6.19
E-0
1
152.
89E
-01
3.25
E-0
13.
59E
-01
4.02
E-0
14.
52E
-01
4.92
E-0
15.
32E
-01
5.77
E-0
16.
69E
-01
1.20
E+
00
301.
75E
-01
1.97
E-0
12.
18E
-01
2.45
E-0
12.
76E
-01
3.01
E-0
13.
25E
-01
3.52
E-0
14.
10E
-01
7.38
E-0
1
455.
97E
-01
6.68
E-0
17.
33E
-01
8.18
E-0
19.
19E
-01
1.00
E+
001.
08E
+00
1.17
E+
001.
35E
+00
2.42
E+
00
601.
75E
-01
1.97
E-0
12.
17E
-01
2.42
E-0
12.
73E
-01
2.98
E-0
13.
20E
-01
3.47
E-0
14.
02E
-01
7.19
E-0
1
752.
88E
-01
3.24
E-0
13.
55E
-01
3.94
E-0
14.
41E
-01
4.80
E-0
15.
14E
-01
5.55
E-0
16.
40E
-01
1.13
E+
00
901.
50E
-01
1.69
E-0
11.
86E
-01
2.07
E-0
12.
29E
-01
2.50
E-0
12.
65E
-01
2.86
E-0
13.
29E
-01
5.75
E-0
1
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
50
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
1
Un
it 2
Sh
rou
d H
oriz
onta
l Wel
d H
6A N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
01.
34E
+17
1.50
E+
171.
67E
+17
1.84
E+
172.
00E
+17
2.19
E+
172.
38E
+17
2.56
E+
172.
94E
+17
5.12
E+
17
152.
52E
+17
2.83
E+
173.
14E
+17
3.43
E+
173.
78E
+17
4.13
E+
174.
53E
+17
4.89
E+
175.
63E
+17
9.92
E+
17
301.
53E
+17
1.72
E+
171.
91E
+17
2.09
E+
172.
31E
+17
2.54
E+
172.
77E
+17
2.99
E+
173.
46E
+17
6.11
E+
17
455.
14E
+17
5.76
E+
176.
33E
+17
6.91
E+
177.
60E
+17
8.33
E+
179.
07E
+17
9.78
E+
171.
12E
+18
1.97
E+
18
601.
53E
+17
1.72
E+
171.
90E
+17
2.08
E+
172.
29E
+17
2.51
E+
172.
73E
+17
2.94
E+
173.
39E
+17
5.94
E+
17
752.
51E
+17
2.82
E+
173.
10E
+17
3.37
E+
173.
69E
+17
4.03
E+
174.
37E
+17
4.70
E+
175.
38E
+17
9.29
E+
17
901.
31E
+17
1.48
E+
171.
63E
+17
1.78
E+
171.
93E
+17
2.11
E+
172.
26E
+17
2.43
E+
172.
77E
+17
4.72
E+
17
Azi
mut
h
02.
02E
-04
2.28
E-0
42.
53E
-04
2.78
E-0
43.
03E
-04
3.31
E-0
43.
60E
-04
3.88
E-0
44.
45E
-04
7.75
E-0
4
153.
83E
-04
4.30
E-0
44.
76E
-04
5.21
E-0
45.
74E
-04
6.26
E-0
46.
87E
-04
7.42
E-0
48.
55E
-04
1.51
E-0
3
302.
32E
-04
2.61
E-0
42.
89E
-04
3.17
E-0
43.
50E
-04
3.84
E-0
44.
19E
-04
4.53
E-0
45.
23E
-04
9.24
E-0
4
457.
90E
-04
8.84
E-0
49.
70E
-04
1.06
E-0
31.
17E
-03
1.28
E-0
31.
39E
-03
1.50
E-0
31.
72E
-03
3.02
E-0
3
602.
31E
-04
2.61
E-0
42.
88E
-04
3.14
E-0
43.
46E
-04
3.79
E-0
44.
13E
-04
4.46
E-0
45.
13E
-04
8.98
E-0
4
753.
82E
-04
4.29
E-0
44.
70E
-04
5.11
E-0
45.
60E
-04
6.11
E-0
46.
63E
-04
7.13
E-0
48.
16E
-04
1.41
E-0
3
901.
98E
-04
2.23
E-0
42.
46E
-04
2.69
E-0
42.
92E
-04
3.19
E-0
43.
42E
-04
3.67
E-0
44.
18E
-04
7.15
E-0
4
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
51
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
2
Un
it 2
Sh
rou
d H
oriz
onta
l Wel
d H
6B N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
05.
10E
+16
5.74
E+
166.
38E
+16
7.00
E+
167.
64E
+16
8.34
E+
169.
08E
+16
9.78
E+
161.
12E
+17
1.95
E+
17
159.
62E
+16
1.08
E+
171.
20E
+17
1.31
E+
171.
44E
+17
1.58
E+
171.
73E
+17
1.87
E+
172.
15E
+17
3.78
E+
17
305.
83E
+16
6.57
E+
167.
29E
+16
7.99
E+
168.
83E
+16
9.67
E+
161.
06E
+17
1.14
E+
171.
32E
+17
2.33
E+
17
451.
96E
+17
2.20
E+
172.
41E
+17
2.64
E+
172.
90E
+17
3.18
E+
173.
46E
+17
3.73
E+
174.
29E
+17
7.51
E+
17
605.
83E
+16
6.57
E+
167.
26E
+16
7.92
E+
168.
73E
+16
9.56
E+
161.
04E
+17
1.12
E+
171.
29E
+17
2.26
E+
17
759.
59E
+16
1.08
E+
171.
18E
+17
1.29
E+
171.
41E
+17
1.54
E+
171.
67E
+17
1.79
E+
172.
05E
+17
3.54
E+
17
905.
00E
+16
5.63
E+
166.
21E
+16
6.78
E+
167.
36E
+16
8.05
E+
168.
63E
+16
9.26
E+
161.
06E
+17
1.80
E+
17
Azi
mut
h
07.
82E
-05
8.80
E-0
59.
78E
-05
1.07
E-0
41.
17E
-04
1.28
E-0
41.
39E
-04
1.50
E-0
41.
72E
-04
3.00
E-0
4
151.
48E
-04
1.66
E-0
41.
84E
-04
2.01
E-0
42.
22E
-04
2.42
E-0
42.
66E
-04
2.87
E-0
43.
31E
-04
5.82
E-0
4
308.
95E
-05
1.01
E-0
41.
12E
-04
1.23
E-0
41.
35E
-04
1.48
E-0
41.
62E
-04
1.75
E-0
42.
02E
-04
3.57
E-0
4
453.
05E
-04
3.42
E-0
43.
75E
-04
4.10
E-0
44.
51E
-04
4.94
E-0
45.
38E
-04
5.80
E-0
46.
67E
-04
1.17
E-0
3
608.
95E
-05
1.01
E-0
41.
11E
-04
1.21
E-0
41.
34E
-04
1.47
E-0
41.
60E
-04
1.72
E-0
41.
98E
-04
3.47
E-0
4
751.
48E
-04
1.66
E-0
41.
82E
-04
1.98
E-0
42.
16E
-04
2.36
E-0
42.
56E
-04
2.76
E-0
43.
16E
-04
5.45
E-0
4
907.
66E
-05
8.64
E-0
59.
52E
-05
1.04
E-0
41.
13E
-04
1.23
E-0
41.
32E
-04
1.42
E-0
41.
62E
-04
2.76
E-0
4
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
52
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
3
Un
it 2
Sh
rou
d H
oriz
onta
l Wel
d H
7 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
06.
79E
+11
7.65
E+
118.
50E
+11
9.33
E+
111.
02E
+12
1.11
E+
121.
21E
+12
1.30
E+
121.
50E
+12
2.60
E+
12
151.
28E
+12
1.44
E+
121.
59E
+12
1.75
E+
121.
92E
+12
2.10
E+
122.
30E
+12
2.49
E+
122.
86E
+12
5.04
E+
12
307.
77E
+11
8.76
E+
119.
71E
+11
1.06
E+
121.
18E
+12
1.29
E+
121.
41E
+12
1.52
E+
121.
76E
+12
3.10
E+
12
452.
61E
+12
2.93
E+
123.
22E
+12
3.51
E+
123.
86E
+12
4.23
E+
124.
61E
+12
4.97
E+
125.
72E
+12
1.00
E+
13
607.
77E
+11
8.76
E+
119.
67E
+11
1.06
E+
121.
16E
+12
1.27
E+
121.
39E
+12
1.50
E+
121.
72E
+12
3.02
E+
12
751.
28E
+12
1.44
E+
121.
58E
+12
1.71
E+
121.
88E
+12
2.05
E+
122.
22E
+12
2.39
E+
122.
73E
+12
4.72
E+
12
906.
66E
+11
7.51
E+
118.
28E
+11
9.03
E+
119.
81E
+11
1.07
E+
121.
15E
+12
1.23
E+
121.
41E
+12
2.40
E+
12
Azi
mut
h
01.
17E
-09
1.31
E-0
91.
46E
-09
1.60
E-0
91.
75E
-09
1.91
E-0
92.
08E
-09
2.24
E-0
92.
57E
-09
4.47
E-0
9
152.
21E
-09
2.48
E-0
92.
74E
-09
3.00
E-0
93.
31E
-09
3.61
E-0
93.
96E
-09
4.28
E-0
94.
93E
-09
8.68
E-0
9
301.
34E
-09
1.50
E-0
91.
67E
-09
1.83
E-0
92.
02E
-09
2.21
E-0
92.
42E
-09
2.61
E-0
93.
01E
-09
5.33
E-0
9
454.
55E
-09
5.10
E-0
95.
59E
-09
6.11
E-0
96.
72E
-09
7.36
E-0
98.
02E
-09
8.65
E-0
99.
94E
-09
1.74
E-0
8
601.
33E
-09
1.50
E-0
91.
66E
-09
1.81
E-0
92.
00E
-09
2.19
E-0
92.
38E
-09
2.57
E-0
92.
96E
-09
5.18
E-0
9
752.
20E
-09
2.47
E-0
92.
71E
-09
2.95
E-0
93.
23E
-09
3.52
E-0
93.
82E
-09
4.11
E-0
94.
71E
-09
8.13
E-0
9
901.
14E
-09
1.29
E-0
91.
42E
-09
1.55
E-0
91.
68E
-09
1.84
E-0
91.
97E
-09
2.12
E-0
92.
41E
-09
4.12
E-0
9
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
53
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
4
Un
it 2
Sh
rou
d V
erti
cal W
eld
s V
1 an
d V
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
376.
092.
46E
+19
2.76
E+
193.
05E
+19
3.34
E+
193.
68E
+19
4.05
E+
194.
35E
+19
4.69
E+
195.
39E
+19
9.40
E+
19
391.
331.
24E
+19
1.39
E+
191.
53E
+19
1.68
E+
191.
85E
+19
2.03
E+
192.
19E
+19
2.36
E+
192.
71E
+19
4.72
E+
19
406.
577.
91E
+18
8.89
E+
189.
81E
+18
1.07
E+
191.
18E
+19
1.30
E+
191.
40E
+19
1.51
E+
191.
73E
+19
3.02
E+
19
421.
811.
76E
+19
1.98
E+
192.
18E
+19
2.39
E+
192.
63E
+19
2.89
E+
193.
11E
+19
3.35
E+
193.
85E
+19
6.72
E+
19
437.
052.
26E
+19
2.54
E+
192.
80E
+19
3.07
E+
193.
39E
+19
3.72
E+
194.
00E
+19
4.31
E+
194.
95E
+19
8.64
E+
19
452.
292.
03E
+19
2.28
E+
192.
52E
+19
2.76
E+
193.
04E
+19
3.34
E+
193.
59E
+19
3.87
E+
194.
45E
+19
7.76
E+
19
457.
371.
88E
+19
2.11
E+
192.
33E
+19
2.55
E+
192.
82E
+19
3.10
E+
193.
33E
+19
3.59
E+
194.
12E
+19
7.19
E+
19
Ele
vatio
n
376.
094.
00E
-02
4.50
E-0
24.
96E
-02
5.43
E-0
26.
00E
-02
6.58
E-0
27.
08E
-02
7.63
E-0
28.
77E
-02
1.53
E-0
1
391.
331.
94E
-02
2.18
E-0
22.
41E
-02
2.64
E-0
22.
91E
-02
3.19
E-0
23.
44E
-02
3.70
E-0
24.
26E
-02
7.43
E-0
2
406.
571.
27E
-02
1.42
E-0
21.
57E
-02
1.72
E-0
21.
90E
-02
2.08
E-0
22.
24E
-02
2.41
E-0
22.
77E
-02
4.84
E-0
2
421.
812.
70E
-02
3.04
E-0
23.
35E
-02
3.67
E-0
24.
05E
-02
4.44
E-0
24.
78E
-02
5.15
E-0
25.
92E
-02
1.03
E-0
1
437.
053.
41E
-02
3.83
E-0
24.
23E
-02
4.62
E-0
25.
11E
-02
5.60
E-0
26.
03E
-02
6.50
E-0
27.
47E
-02
1.30
E-0
1
452.
293.
04E
-02
3.41
E-0
23.
76E
-02
4.12
E-0
24.
55E
-02
4.99
E-0
25.
37E
-02
5.79
E-0
26.
65E
-02
1.16
E-0
1
457.
372.
81E
-02
3.16
E-0
23.
48E
-02
3.81
E-0
24.
21E
-02
4.62
E-0
24.
97E
-02
5.36
E-0
26.
16E
-02
1.07
E-0
1
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
54
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
5
Un
it 2
Sh
rou
d V
erti
cal W
eld
s V
3 an
d V
4 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
277.
039.
31E
+20
1.04
E+
211.
15E
+21
1.26
E+
211.
38E
+21
1.51
E+
211.
63E
+21
1.75
E+
212.
01E
+21
3.49
E+
21
292.
278.
94E
+20
9.97
E+
201.
10E
+21
1.20
E+
211.
32E
+21
1.44
E+
211.
56E
+21
1.67
E+
211.
92E
+21
3.33
E+
21
307.
518.
42E
+20
9.36
E+
201.
03E
+21
1.12
E+
211.
23E
+21
1.34
E+
211.
46E
+21
1.57
E+
211.
80E
+21
3.13
E+
21
322.
757.
59E
+20
8.39
E+
209.
21E
+20
1.01
E+
211.
10E
+21
1.20
E+
211.
31E
+21
1.41
E+
211.
62E
+21
2.82
E+
21
337.
996.
41E
+20
7.03
E+
207.
69E
+20
8.39
E+
209.
16E
+20
1.00
E+
211.
10E
+21
1.18
E+
211.
36E
+21
2.38
E+
21
353.
234.
93E
+20
5.33
E+
205.
79E
+20
6.31
E+
206.
88E
+20
7.55
E+
208.
30E
+20
8.95
E+
201.
03E
+21
1.80
E+
21
368.
473.
45E
+20
3.67
E+
203.
96E
+20
4.30
E+
204.
67E
+20
5.11
E+
205.
62E
+20
6.05
E+
206.
93E
+20
1.20
E+
21
Ele
vatio
n
277.
031.
35E
+00
1.51
E+
001.
66E
+00
1.81
E+
001.
99E
+00
2.18
E+
002.
39E
+00
2.58
E+
002.
97E
+00
5.22
E+
00
292.
271.
29E
+00
1.44
E+
001.
59E
+00
1.73
E+
001.
90E
+00
2.07
E+
002.
28E
+00
2.46
E+
002.
84E
+00
4.99
E+
00
307.
511.
22E
+00
1.35
E+
001.
49E
+00
1.62
E+
001.
78E
+00
1.94
E+
002.
15E
+00
2.32
E+
002.
67E
+00
4.69
E+
00
322.
751.
10E
+00
1.21
E+
001.
33E
+00
1.45
E+
001.
59E
+00
1.74
E+
001.
93E
+00
2.08
E+
002.
40E
+00
4.24
E+
00
337.
999.
27E
-01
1.02
E+
001.
11E
+00
1.21
E+
001.
32E
+00
1.45
E+
001.
62E
+00
1.75
E+
002.
02E
+00
3.57
E+
00
353.
237.
14E
-01
7.71
E-0
18.
38E
-01
9.13
E-0
19.
95E
-01
1.09
E+
001.
22E
+00
1.32
E+
001.
53E
+00
2.71
E+
00
368.
475.
03E
-01
5.36
E-0
15.
78E
-01
6.27
E-0
16.
81E
-01
7.46
E-0
18.
35E
-01
9.01
E-0
11.
04E
+00
1.83
E+
00
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
55
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
6
Un
it 2
Sh
rou
d V
erti
cal W
eld
s V
5 an
d V
6 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
27.7
93.
80E
+20
4.27
E+
204.
71E
+20
5.27
E+
205.
95E
+20
6.51
E+
206.
91E
+20
7.49
E+
208.
67E
+20
1.55
E+
21
43.0
34.
83E
+20
5.44
E+
206.
02E
+20
6.76
E+
207.
63E
+20
8.36
E+
208.
90E
+20
9.64
E+
201.
12E
+21
2.01
E+
21
58.2
75.
63E
+20
6.36
E+
207.
05E
+20
7.92
E+
208.
94E
+20
9.81
E+
201.
05E
+21
1.13
E+
211.
32E
+21
2.37
E+
21
73.5
16.
31E
+20
7.12
E+
207.
92E
+20
8.88
E+
201.
00E
+21
1.10
E+
211.
18E
+21
1.27
E+
211.
48E
+21
2.66
E+
21
88.7
56.
62E
+20
7.47
E+
208.
34E
+20
9.35
E+
201.
06E
+21
1.16
E+
211.
24E
+21
1.35
E+
211.
56E
+21
2.82
E+
21
103.
996.
86E
+20
7.73
E+
208.
66E
+20
9.71
E+
201.
10E
+21
1.21
E+
211.
29E
+21
1.40
E+
211.
63E
+21
2.95
E+
21
119.
237.
23E
+20
8.15
E+
209.
17E
+20
1.03
E+
211.
16E
+21
1.28
E+
211.
37E
+21
1.49
E+
211.
73E
+21
3.14
E+
21
134.
477.
69E
+20
8.67
E+
209.
78E
+20
1.10
E+
211.
24E
+21
1.36
E+
211.
47E
+21
1.59
E+
211.
85E
+21
3.36
E+
21
149.
717.
95E
+20
8.96
E+
201.
01E
+21
1.13
E+
211.
28E
+21
1.41
E+
211.
52E
+21
1.65
E+
211.
92E
+21
3.48
E+
21
164.
958.
19E
+20
9.24
E+
201.
04E
+21
1.17
E+
211.
32E
+21
1.45
E+
211.
56E
+21
1.69
E+
211.
97E
+21
3.56
E+
21
180.
198.
60E
+20
9.70
E+
201.
09E
+21
1.22
E+
211.
37E
+21
1.51
E+
211.
62E
+21
1.76
E+
212.
04E
+21
3.67
E+
21
195.
439.
09E
+20
1.03
E+
211.
15E
+21
1.28
E+
211.
43E
+21
1.57
E+
211.
69E
+21
1.83
E+
212.
12E
+21
3.80
E+
21
210.
679.
26E
+20
1.05
E+
211.
17E
+21
1.29
E+
211.
44E
+21
1.58
E+
211.
70E
+21
1.84
E+
212.
12E
+21
3.76
E+
21
225.
919.
36E
+20
1.06
E+
211.
17E
+21
1.29
E+
211.
43E
+21
1.57
E+
211.
69E
+21
1.82
E+
212.
09E
+21
3.68
E+
21
241.
159.
49E
+20
1.07
E+
211.
18E
+21
1.30
E+
211.
43E
+21
1.57
E+
211.
69E
+21
1.82
E+
212.
09E
+21
3.64
E+
21
256.
399.
57E
+20
1.08
E+
211.
19E
+21
1.30
E+
211.
43E
+21
1.56
E+
211.
69E
+21
1.82
E+
212.
08E
+21
3.63
E+
21
271.
639.
42E
+20
1.06
E+
211.
16E
+21
1.27
E+
211.
40E
+21
1.53
E+
211.
65E
+21
1.77
E+
212.
04E
+21
3.53
E+
21
277.
039.
33E
+20
1.04
E+
211.
15E
+21
1.26
E+
211.
38E
+21
1.51
E+
211.
63E
+21
1.75
E+
212.
01E
+21
3.49
E+
21
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
56
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
6
Un
it 2
Sh
rou
d V
erti
cal W
eld
s V
5 an
d V
6 N
eutr
on E
xpos
ure
Pre
dic
tion
s (C
onti
nu
ed)
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
27.7
95.
49E
-01
6.17
E-0
16.
80E
-01
7.62
E-0
18.
59E
-01
9.40
E-0
11.
01E
+00
1.10
E+
001.
28E
+00
2.30
E+
00
43.0
36.
98E
-01
7.87
E-0
18.
70E
-01
9.76
E-0
11.
10E
+00
1.21
E+
001.
30E
+00
1.42
E+
001.
65E
+00
2.98
E+
00
58.2
78.
15E
-01
9.20
E-0
11.
02E
+00
1.14
E+
001.
29E
+00
1.42
E+
001.
53E
+00
1.66
E+
001.
94E
+00
3.52
E+
00
73.5
19.
12E
-01
1.03
E+
001.
14E
+00
1.28
E+
001.
45E
+00
1.59
E+
001.
72E
+00
1.87
E+
002.
18E
+00
3.96
E+
00
88.7
59.
57E
-01
1.08
E+
001.
21E
+00
1.35
E+
001.
53E
+00
1.68
E+
001.
82E
+00
1.98
E+
002.
31E
+00
4.20
E+
00
103.
999.
91E
-01
1.12
E+
001.
25E
+00
1.40
E+
001.
59E
+00
1.74
E+
001.
90E
+00
2.06
E+
002.
41E
+00
4.40
E+
00
119.
231.
05E
+00
1.18
E+
001.
32E
+00
1.49
E+
001.
68E
+00
1.85
E+
002.
01E
+00
2.19
E+
002.
56E
+00
4.68
E+
00
134.
471.
11E
+00
1.25
E+
001.
41E
+00
1.58
E+
001.
79E
+00
1.97
E+
002.
15E
+00
2.34
E+
002.
74E
+00
5.02
E+
00
149.
711.
15E
+00
1.30
E+
001.
46E
+00
1.64
E+
001.
85E
+00
2.03
E+
002.
23E
+00
2.42
E+
002.
83E
+00
5.19
E+
00
164.
951.
19E
+00
1.34
E+
001.
51E
+00
1.68
E+
001.
90E
+00
2.09
E+
002.
29E
+00
2.49
E+
002.
90E
+00
5.31
E+
00
180.
191.
24E
+00
1.40
E+
001.
58E
+00
1.76
E+
001.
98E
+00
2.18
E+
002.
38E
+00
2.59
E+
003.
01E
+00
5.48
E+
00
195.
431.
31E
+00
1.48
E+
001.
66E
+00
1.85
E+
002.
07E
+00
2.27
E+
002.
48E
+00
2.69
E+
003.
13E
+00
5.66
E+
00
210.
671.
34E
+00
1.51
E+
001.
69E
+00
1.86
E+
002.
08E
+00
2.28
E+
002.
49E
+00
2.70
E+
003.
13E
+00
5.60
E+
00
225.
911.
35E
+00
1.53
E+
001.
69E
+00
1.86
E+
002.
06E
+00
2.26
E+
002.
47E
+00
2.67
E+
003.
09E
+00
5.48
E+
00
241.
151.
37E
+00
1.55
E+
001.
71E
+00
1.87
E+
002.
07E
+00
2.26
E+
002.
47E
+00
2.67
E+
003.
08E
+00
5.43
E+
00
256.
391.
38E
+00
1.56
E+
001.
72E
+00
1.88
E+
002.
07E
+00
2.26
E+
002.
47E
+00
2.67
E+
003.
07E
+00
5.41
E+
00
271.
631.
36E
+00
1.53
E+
001.
68E
+00
1.84
E+
002.
02E
+00
2.21
E+
002.
42E
+00
2.61
E+
003.
00E
+00
5.27
E+
00
277.
031.
35E
+00
1.51
E+
001.
66E
+00
1.82
E+
001.
99E
+00
2.18
E+
002.
39E
+00
2.58
E+
002.
97E
+00
5.21
E+
00
Iron
Ato
m D
ispl
acem
ents
, dp
a
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
57
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
7
Un
it 2
Sh
rou
d V
erti
cal W
eld
s V
7 an
d V
8 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
-63.
654.
72E
+17
5.31
E+
175.
86E
+17
6.43
E+
177.
12E
+17
7.81
E+
178.
40E
+17
9.06
E+
171.
04E
+18
1.82
E+
18
-48.
411.
85E
+18
2.08
E+
182.
30E
+18
2.52
E+
182.
79E
+18
3.06
E+
183.
29E
+18
3.55
E+
184.
08E
+18
7.15
E+
18
-33.
177.
09E
+18
7.97
E+
188.
81E
+18
9.66
E+
181.
07E
+19
1.17
E+
191.
26E
+19
1.36
E+
191.
56E
+19
2.74
E+
19
-17.
932.
62E
+19
2.95
E+
193.
25E
+19
3.57
E+
193.
95E
+19
4.33
E+
194.
66E
+19
5.02
E+
195.
78E
+19
1.01
E+
20
-2.6
98.
28E
+19
9.32
E+
191.
03E
+20
1.13
E+
201.
25E
+20
1.37
E+
201.
47E
+20
1.59
E+
201.
83E
+20
3.20
E+
20
12.5
51.
85E
+20
2.08
E+
202.
30E
+20
2.52
E+
202.
79E
+20
3.06
E+
203.
29E
+20
3.55
E+
204.
08E
+20
7.15
E+
20
27.7
93.
13E
+20
3.52
E+
203.
89E
+20
4.27
E+
204.
72E
+20
5.18
E+
205.
57E
+20
6.01
E+
206.
91E
+20
1.21
E+
21
Ele
vatio
n
-63.
657.
24E
-04
8.15
E-0
48.
99E
-04
9.87
E-0
41.
09E
-03
1.20
E-0
31.
31E
-03
1.41
E-0
31.
63E
-03
2.89
E-0
3
-48.
412.
79E
-03
3.13
E-0
33.
46E
-03
3.79
E-0
34.
20E
-03
4.61
E-0
35.
03E
-03
5.44
E-0
36.
28E
-03
1.11
E-0
2
-33.
171.
05E
-02
1.18
E-0
21.
30E
-02
1.43
E-0
21.
58E
-02
1.74
E-0
21.
90E
-02
2.05
E-0
22.
37E
-02
4.19
E-0
2
-17.
933.
83E
-02
4.31
E-0
24.
75E
-02
5.21
E-0
25.
77E
-02
6.33
E-0
26.
91E
-02
7.47
E-0
28.
63E
-02
1.53
E-0
1
-2.6
91.
20E
-01
1.35
E-0
11.
49E
-01
1.64
E-0
11.
81E
-01
1.99
E-0
12.
17E
-01
2.35
E-0
12.
71E
-01
4.81
E-0
1
12.5
52.
68E
-01
3.01
E-0
13.
32E
-01
3.65
E-0
14.
03E
-01
4.43
E-0
14.
84E
-01
5.23
E-0
16.
04E
-01
1.07
E+
00
27.7
94.
53E
-01
5.09
E-0
15.
62E
-01
6.16
E-0
16.
82E
-01
7.49
E-0
18.
18E
-01
8.84
E-0
11.
02E
+00
1.81
E+
00
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
58
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
8
Un
it 2
Sh
rou
d V
erti
cal W
eld
V9
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
-206
.69
2.40
E+
122.
70E
+12
2.98
E+
123.
27E
+12
3.61
E+
123.
97E
+12
4.27
E+
124.
60E
+12
5.29
E+
129.
26E
+12
-191
.45
8.31
E+
129.
34E
+12
1.03
E+
131.
13E
+13
1.25
E+
131.
37E
+13
1.48
E+
131.
59E
+13
1.83
E+
133.
20E
+13
-176
.21
2.89
E+
133.
25E
+13
3.59
E+
133.
93E
+13
4.34
E+
134.
77E
+13
5.13
E+
135.
53E
+13
6.36
E+
131.
11E
+14
-160
.97
1.03
E+
141.
16E
+14
1.28
E+
141.
40E
+14
1.55
E+
141.
70E
+14
1.83
E+
141.
98E
+14
2.27
E+
143.
98E
+14
-145
.73
3.71
E+
144.
17E
+14
4.61
E+
145.
05E
+14
5.58
E+
146.
13E
+14
6.60
E+
147.
11E
+14
8.18
E+
141.
43E
+15
-130
.49
1.37
E+
151.
54E
+15
1.70
E+
151.
86E
+15
2.06
E+
152.
26E
+15
2.43
E+
152.
62E
+15
3.01
E+
155.
27E
+15
-115
.25
5.12
E+
155.
76E
+15
6.36
E+
156.
97E
+15
7.70
E+
158.
46E
+15
9.10
E+
159.
81E
+15
1.13
E+
161.
97E
+16
-100
.01
1.91
E+
162.
15E
+16
2.37
E+
162.
60E
+16
2.87
E+
163.
16E
+16
3.40
E+
163.
66E
+16
4.21
E+
167.
37E
+16
-84.
777.
26E
+16
8.16
E+
169.
01E
+16
9.87
E+
161.
09E
+17
1.20
E+
171.
29E
+17
1.39
E+
171.
60E
+17
2.80
E+
17
-74.
451.
80E
+17
2.03
E+
172.
24E
+17
2.45
E+
172.
71E
+17
2.98
E+
173.
21E
+17
3.46
E+
173.
97E
+17
6.95
E+
17
Ele
vatio
n
-206
.69
4.19
E-0
94.
71E
-09
5.19
E-0
95.
69E
-09
6.29
E-0
96.
91E
-09
7.53
E-0
98.
14E
-09
9.39
E-0
91.
66E
-08
-191
.45
1.43
E-0
81.
61E
-08
1.77
E-0
81.
94E
-08
2.15
E-0
82.
36E
-08
2.57
E-0
82.
78E
-08
3.21
E-0
85.
67E
-08
-176
.21
4.93
E-0
85.
54E
-08
6.12
E-0
86.
71E
-08
7.41
E-0
88.
14E
-08
8.88
E-0
89.
59E
-08
1.11
E-0
71.
96E
-07
-160
.97
1.74
E-0
71.
96E
-07
2.16
E-0
72.
37E
-07
2.62
E-0
72.
87E
-07
3.13
E-0
73.
38E
-07
3.91
E-0
76.
90E
-07
-145
.73
6.21
E-0
76.
98E
-07
7.70
E-0
78.
44E
-07
9.33
E-0
71.
02E
-06
1.12
E-0
61.
21E
-06
1.39
E-0
62.
46E
-06
-130
.49
2.26
E-0
62.
54E
-06
2.80
E-0
63.
07E
-06
3.39
E-0
63.
72E
-06
4.06
E-0
64.
39E
-06
5.07
E-0
68.
95E
-06
-115
.25
8.35
E-0
69.
39E
-06
1.04
E-0
51.
14E
-05
1.25
E-0
51.
38E
-05
1.50
E-0
51.
62E
-05
1.87
E-0
53.
31E
-05
-100
.01
3.07
E-0
53.
45E
-05
3.80
E-0
54.
17E
-05
4.61
E-0
55.
06E
-05
5.52
E-0
55.
97E
-05
6.88
E-0
51.
22E
-04
-84.
771.
14E
-04
1.29
E-0
41.
42E
-04
1.55
E-0
41.
72E
-04
1.89
E-0
42.
06E
-04
2.22
E-0
42.
57E
-04
4.54
E-0
4
-74.
452.
81E
-04
3.16
E-0
43.
48E
-04
3.82
E-0
44.
22E
-04
4.63
E-0
45.
05E
-04
5.46
E-0
46.
30E
-04
1.11
E-0
3
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
Iron
Ato
m D
ispl
acem
ents
, dp
a
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
59
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-3
9
Un
it 2
Sh
rou
d V
erti
cal W
eld
V10
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
edTi
me,
s 5.
33E
+07
6.02
E+
075.
79E
+07
5.43
E+
075.
69E
+07
5.57
E+
075.
83E
+07
5.83
E+
071.
21E
+08
6.94
E+
08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
-206
.69
9.17
E+
111.
03E
+12
1.14
E+
121.
25E
+12
1.37
E+
121.
49E
+12
1.60
E+
121.
71E
+12
1.96
E+
123.
36E
+12
-191
.45
3.17
E+
123.
55E
+12
3.94
E+
124.
31E
+12
4.73
E+
125.
16E
+12
5.51
E+
125.
92E
+12
6.76
E+
121.
16E
+13
-176
.21
1.10
E+
131.
24E
+13
1.37
E+
131.
50E
+13
1.64
E+
131.
79E
+13
1.92
E+
132.
06E
+13
2.35
E+
134.
04E
+13
-160
.97
3.93
E+
134.
41E
+13
4.90
E+
135.
36E
+13
5.87
E+
136.
40E
+13
6.85
E+
137.
35E
+13
8.40
E+
131.
44E
+14
-145
.73
1.42
E+
141.
59E
+14
1.76
E+
141.
93E
+14
2.11
E+
142.
31E
+14
2.46
E+
142.
65E
+14
3.02
E+
145.
19E
+14
-130
.49
5.22
E+
145.
85E
+14
6.49
E+
147.
11E
+14
7.79
E+
148.
49E
+14
9.08
E+
149.
75E
+14
1.11
E+
151.
91E
+15
-115
.25
1.95
E+
152.
19E
+15
2.43
E+
152.
66E
+15
2.92
E+
153.
18E
+15
3.40
E+
153.
65E
+15
4.17
E+
157.
16E
+15
-100
.01
7.29
E+
158.
18E
+15
9.07
E+
159.
93E
+15
1.09
E+
161.
19E
+16
1.27
E+
161.
36E
+16
1.56
E+
162.
67E
+16
-84.
772.
77E
+16
3.10
E+
163.
44E
+16
3.77
E+
164.
13E
+16
4.50
E+
164.
82E
+16
5.17
E+
165.
91E
+16
1.01
E+
17
-74.
456.
88E
+16
7.72
E+
168.
56E
+16
9.37
E+
161.
03E
+17
1.12
E+
171.
20E
+17
1.29
E+
171.
47E
+17
2.52
E+
17
Ele
vatio
n
-206
.69
1.57
E-0
91.
76E
-09
1.96
E-0
92.
14E
-09
2.35
E-0
92.
56E
-09
2.74
E-0
92.
94E
-09
3.36
E-0
95.
77E
-09
-191
.45
5.37
E-0
96.
03E
-09
6.68
E-0
97.
32E
-09
8.02
E-0
98.
74E
-09
9.35
E-0
91.
00E
-08
1.15
E-0
81.
97E
-08
-176
.21
1.85
E-0
82.
08E
-08
2.31
E-0
82.
52E
-08
2.77
E-0
83.
02E
-08
3.23
E-0
83.
46E
-08
3.96
E-0
86.
79E
-08
-160
.97
6.54
E-0
87.
34E
-08
8.14
E-0
88.
91E
-08
9.76
E-0
81.
06E
-07
1.14
E-0
71.
22E
-07
1.40
E-0
72.
40E
-07
-145
.73
2.33
E-0
72.
62E
-07
2.90
E-0
73.
18E
-07
3.48
E-0
73.
80E
-07
4.06
E-0
74.
36E
-07
4.98
E-0
78.
55E
-07
-130
.49
8.48
E-0
79.
52E
-07
1.06
E-0
61.
16E
-06
1.27
E-0
61.
38E
-06
1.48
E-0
61.
59E
-06
1.81
E-0
63.
11E
-06
-115
.25
3.14
E-0
63.
52E
-06
3.90
E-0
64.
27E
-06
4.68
E-0
65.
11E
-06
5.46
E-0
65.
86E
-06
6.70
E-0
61.
15E
-05
-100
.01
1.15
E-0
51.
29E
-05
1.43
E-0
51.
57E
-05
1.72
E-0
51.
88E
-05
2.01
E-0
52.
15E
-05
2.46
E-0
54.
23E
-05
-84.
774.
30E
-05
4.82
E-0
55.
35E
-05
5.85
E-0
56.
41E
-05
6.99
E-0
57.
48E
-05
8.03
E-0
59.
17E
-05
1.58
E-0
4
-74.
451.
05E
-04
1.18
E-0
41.
31E
-04
1.44
E-0
41.
57E
-04
1.72
E-0
41.
84E
-04
1.97
E-0
42.
25E
-04
3.87
E-0
4
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
60
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
0
Un
it 2
Sh
rou
d V
erti
cal W
eld
V11
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
-206
.69
1.51
E+
121.
71E
+12
1.88
E+
122.
04E
+12
2.24
E+
122.
40E
+12
2.56
E+
122.
74E
+12
3.11
E+
125.
23E
+12
-191
.45
5.23
E+
125.
90E
+12
6.49
E+
127.
06E
+12
7.75
E+
128.
29E
+12
8.86
E+
129.
48E
+12
1.07
E+
131.
81E
+13
-176
.21
1.82
E+
132.
05E
+13
2.26
E+
132.
45E
+13
2.69
E+
132.
88E
+13
3.08
E+
133.
30E
+13
3.74
E+
136.
28E
+13
-160
.97
6.50
E+
137.
33E
+13
8.06
E+
138.
76E
+13
9.62
E+
131.
03E
+14
1.10
E+
141.
18E
+14
1.33
E+
142.
24E
+14
-145
.73
2.34
E+
142.
64E
+14
2.90
E+
143.
15E
+14
3.46
E+
143.
71E
+14
3.96
E+
144.
24E
+14
4.80
E+
148.
07E
+14
-130
.49
8.62
E+
149.
72E
+14
1.07
E+
151.
16E
+15
1.28
E+
151.
37E
+15
1.46
E+
151.
56E
+15
1.77
E+
152.
98E
+15
-115
.25
3.23
E+
153.
64E
+15
4.00
E+
154.
35E
+15
4.78
E+
155.
11E
+15
5.47
E+
155.
84E
+15
6.63
E+
151.
11E
+16
-100
.01
1.20
E+
161.
36E
+16
1.49
E+
161.
62E
+16
1.78
E+
161.
91E
+16
2.04
E+
162.
18E
+16
2.47
E+
164.
16E
+16
-84.
774.
57E
+16
5.16
E+
165.
67E
+16
6.16
E+
166.
77E
+16
7.24
E+
167.
74E
+16
8.28
E+
169.
39E
+16
1.58
E+
17
-74.
451.
14E
+17
1.28
E+
171.
41E
+17
1.53
E+
171.
68E
+17
1.80
E+
171.
92E
+17
2.06
E+
172.
33E
+17
3.92
E+
17
Ele
vatio
n
-206
.69
2.62
E-0
92.
95E
-09
3.25
E-0
93.
53E
-09
3.87
E-0
94.
15E
-09
4.43
E-0
94.
74E
-09
5.38
E-0
99.
04E
-09
-191
.45
8.95
E-0
91.
01E
-08
1.11
E-0
81.
21E
-08
1.32
E-0
81.
42E
-08
1.51
E-0
81.
62E
-08
1.84
E-0
83.
09E
-08
-176
.21
3.09
E-0
83.
48E
-08
3.82
E-0
84.
16E
-08
4.57
E-0
84.
89E
-08
5.22
E-0
85.
59E
-08
6.34
E-0
81.
07E
-07
-160
.97
1.09
E-0
71.
23E
-07
1.35
E-0
71.
47E
-07
1.61
E-0
71.
73E
-07
1.84
E-0
71.
97E
-07
2.24
E-0
73.
76E
-07
-145
.73
3.88
E-0
74.
38E
-07
4.81
E-0
75.
23E
-07
5.74
E-0
76.
15E
-07
6.57
E-0
77.
03E
-07
7.97
E-0
71.
34E
-06
-130
.49
1.41
E-0
61.
59E
-06
1.75
E-0
61.
90E
-06
2.09
E-0
62.
24E
-06
2.39
E-0
62.
56E
-06
2.90
E-0
64.
87E
-06
-115
.25
5.22
E-0
65.
89E
-06
6.47
E-0
67.
04E
-06
7.73
E-0
68.
28E
-06
8.84
E-0
69.
46E
-06
1.07
E-0
51.
80E
-05
-100
.01
1.92
E-0
52.
16E
-05
2.38
E-0
52.
59E
-05
2.84
E-0
53.
04E
-05
3.25
E-0
53.
47E
-05
3.94
E-0
56.
62E
-05
-84.
777.
15E
-05
8.07
E-0
58.
87E
-05
9.64
E-0
51.
06E
-04
1.13
E-0
41.
21E
-04
1.30
E-0
41.
47E
-04
2.47
E-0
4
-74.
451.
76E
-04
1.98
E-0
42.
18E
-04
2.37
E-0
42.
60E
-04
2.78
E-0
42.
97E
-04
3.18
E-0
43.
61E
-04
6.06
E-0
4
Fas
t N
eutr
on F
luen
ce (
n/cm
2,
E >
1.0
Mev
)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
61
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
1
Un
it 2
RP
V G
irth
Wel
d G
H N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
02.
99E
+11
3.37
E+
113.
79E
+11
4.17
E+
114.
58E
+11
4.99
E+
115.
35E
+11
5.76
E+
116.
59E
+11
1.14
E+
12
153.
94E
+11
4.43
E+
114.
97E
+11
5.47
E+
116.
04E
+11
6.59
E+
117.
04E
+11
7.57
E+
118.
68E
+11
1.51
E+
12
302.
85E
+11
3.21
E+
113.
60E
+11
3.97
E+
114.
40E
+11
4.82
E+
115.
17E
+11
5.58
E+
116.
41E
+11
1.12
E+
12
455.
90E
+11
6.63
E+
117.
40E
+11
8.14
E+
119.
03E
+11
9.89
E+
111.
06E
+12
1.15
E+
121.
32E
+12
2.32
E+
12
602.
85E
+11
3.21
E+
113.
59E
+11
3.93
E+
114.
36E
+11
4.77
E+
115.
12E
+11
5.51
E+
116.
34E
+11
1.11
E+
12
753.
88E
+11
4.37
E+
114.
86E
+11
5.32
E+
115.
86E
+11
6.39
E+
116.
83E
+11
7.34
E+
118.
40E
+11
1.45
E+
12
902.
12E
+11
2.39
E+
112.
66E
+11
2.92
E+
113.
20E
+11
3.49
E+
113.
74E
+11
4.02
E+
114.
59E
+11
7.91
E+
11
Azi
mut
h
08.
95E
-09
1.01
E-0
81.
13E
-08
1.25
E-0
81.
37E
-08
1.49
E-0
81.
60E
-08
1.72
E-0
81.
97E
-08
3.41
E-0
8
151.
17E
-08
1.31
E-0
81.
47E
-08
1.62
E-0
81.
79E
-08
1.95
E-0
82.
09E
-08
2.24
E-0
82.
57E
-08
4.47
E-0
8
308.
54E
-09
9.62
E-0
91.
08E
-08
1.19
E-0
81.
32E
-08
1.44
E-0
81.
55E
-08
1.67
E-0
81.
92E
-08
3.37
E-0
8
451.
73E
-08
1.95
E-0
82.
17E
-08
2.39
E-0
82.
66E
-08
2.91
E-0
83.
13E
-08
3.38
E-0
83.
89E
-08
6.84
E-0
8
608.
53E
-09
9.62
E-0
91.
07E
-08
1.18
E-0
81.
30E
-08
1.43
E-0
81.
53E
-08
1.65
E-0
81.
90E
-08
3.31
E-0
8
751.
15E
-08
1.29
E-0
81.
44E
-08
1.57
E-0
81.
73E
-08
1.89
E-0
82.
02E
-08
2.17
E-0
82.
49E
-08
4.29
E-0
8
906.
36E
-09
7.17
E-0
97.
99E
-09
8.76
E-0
99.
59E
-09
1.05
E-0
81.
12E
-08
1.21
E-0
81.
38E
-08
2.37
E-0
8
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
62
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
2
Un
it 2
RP
V G
irth
Wel
d F
G N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
03.
43E
+17
3.86
E+
174.
41E
+17
4.94
E+
175.
49E
+17
5.99
E+
176.
41E
+17
6.93
E+
178.
00E
+17
1.42
E+
18
154.
51E
+17
5.08
E+
175.
78E
+17
6.47
E+
177.
25E
+17
7.92
E+
178.
44E
+17
9.13
E+
171.
06E
+18
1.88
E+
18
303.
27E
+17
3.69
E+
174.
19E
+17
4.70
E+
175.
29E
+17
5.80
E+
176.
20E
+17
6.72
E+
177.
80E
+17
1.40
E+
18
456.
75E
+17
7.60
E+
178.
60E
+17
9.62
E+
171.
08E
+18
1.19
E+
181.
28E
+18
1.38
E+
181.
61E
+18
2.89
E+
18
603.
26E
+17
3.69
E+
174.
17E
+17
4.65
E+
175.
23E
+17
5.73
E+
176.
13E
+17
6.64
E+
177.
70E
+17
1.38
E+
18
754.
44E
+17
5.01
E+
175.
65E
+17
6.28
E+
177.
02E
+17
7.68
E+
178.
18E
+17
8.84
E+
171.
02E
+18
1.80
E+
18
902.
43E
+17
2.74
E+
173.
10E
+17
3.45
E+
173.
83E
+17
4.19
E+
174.
47E
+17
4.83
E+
175.
57E
+17
9.82
E+
17
Azi
mut
h
05.
48E
-04
6.18
E-0
47.
05E
-04
7.90
E-0
48.
79E
-04
9.59
E-0
41.
03E
-03
1.11
E-0
31.
28E
-03
2.27
E-0
3
157.
14E
-04
8.05
E-0
49.
16E
-04
1.02
E-0
31.
15E
-03
1.26
E-0
31.
34E
-03
1.45
E-0
31.
67E
-03
2.97
E-0
3
305.
23E
-04
5.91
E-0
46.
71E
-04
7.52
E-0
48.
47E
-04
9.28
E-0
49.
93E
-04
1.08
E-0
31.
25E
-03
2.24
E-0
3
451.
06E
-03
1.20
E-0
31.
35E
-03
1.51
E-0
31.
70E
-03
1.87
E-0
32.
01E
-03
2.18
E-0
32.
53E
-03
4.55
E-0
3
605.
23E
-04
5.90
E-0
46.
68E
-04
7.44
E-0
48.
37E
-04
9.18
E-0
49.
82E
-04
1.06
E-0
31.
23E
-03
2.20
E-0
3
757.
03E
-04
7.94
E-0
48.
95E
-04
9.94
E-0
41.
11E
-03
1.22
E-0
31.
30E
-03
1.40
E-0
31.
61E
-03
2.85
E-0
3
903.
89E
-04
4.40
E-0
44.
97E
-04
5.54
E-0
46.
14E
-04
6.72
E-0
47.
18E
-04
7.76
E-0
48.
94E
-04
1.58
E-0
3
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
63
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
3
Un
it 2
RP
V G
irth
Wel
d E
F N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Azi
mut
h
02.
24E
+16
2.52
E+
162.
83E
+16
3.12
E+
163.
42E
+16
3.73
E+
164.
00E
+16
4.30
E+
164.
93E
+16
8.53
E+
16
152.
94E
+16
3.31
E+
163.
71E
+16
4.09
E+
164.
52E
+16
4.92
E+
165.
26E
+16
5.66
E+
166.
49E
+16
1.13
E+
17
302.
13E
+16
2.40
E+
162.
69E
+16
2.97
E+
163.
29E
+16
3.60
E+
163.
86E
+16
4.17
E+
164.
79E
+16
8.41
E+
16
454.
41E
+16
4.96
E+
165.
53E
+16
6.08
E+
166.
75E
+16
7.39
E+
167.
96E
+16
8.58
E+
169.
88E
+16
1.74
E+
17
602.
13E
+16
2.40
E+
162.
68E
+16
2.94
E+
163.
26E
+16
3.56
E+
163.
83E
+16
4.12
E+
164.
73E
+16
8.26
E+
16
752.
90E
+16
3.27
E+
163.
64E
+16
3.98
E+
164.
38E
+16
4.78
E+
165.
11E
+16
5.49
E+
166.
28E
+16
1.08
E+
17
901.
58E
+16
1.79
E+
161.
99E
+16
2.18
E+
162.
39E
+16
2.61
E+
162.
79E
+16
3.00
E+
163.
43E
+16
5.91
E+
16
Azi
mut
h
03.
52E
-05
3.96
E-0
54.
46E
-05
4.91
E-0
55.
39E
-05
5.86
E-0
56.
29E
-05
6.77
E-0
57.
75E
-05
1.34
E-0
4
154.
59E
-05
5.16
E-0
55.
79E
-05
6.37
E-0
57.
04E
-05
7.67
E-0
58.
20E
-05
8.83
E-0
51.
01E
-04
1.76
E-0
4
303.
36E
-05
3.78
E-0
54.
24E
-05
4.67
E-0
55.
19E
-05
5.67
E-0
56.
09E
-05
6.57
E-0
57.
56E
-05
1.33
E-0
4
456.
82E
-05
7.66
E-0
58.
55E
-05
9.41
E-0
51.
04E
-04
1.14
E-0
41.
23E
-04
1.33
E-0
41.
53E
-04
2.69
E-0
4
603.
35E
-05
3.78
E-0
54.
22E
-05
4.63
E-0
55.
13E
-05
5.61
E-0
56.
03E
-05
6.49
E-0
57.
46E
-05
1.30
E-0
4
754.
51E
-05
5.08
E-0
55.
66E
-05
6.19
E-0
56.
82E
-05
7.44
E-0
57.
95E
-05
8.55
E-0
59.
78E
-05
1.69
E-0
4
902.
50E
-05
2.82
E-0
53.
14E
-05
3.44
E-0
53.
77E
-05
4.12
E-0
54.
41E
-05
4.74
E-0
55.
42E
-05
9.34
E-0
5
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: A
zim
uth
is A
ngle
in F
irst
Qua
dran
t
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
64
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
4
Un
it 2
RP
V V
erti
cal W
eld
s G
1 an
d G
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
-250
.24
3.88
E+
114.
37E
+11
4.86
E+
115.
32E
+11
5.86
E+
116.
39E
+11
6.83
E+
117.
34E
+11
8.40
E+
111.
45E
+12
-219
.76
7.36
E+
118.
29E
+11
9.23
E+
111.
01E
+12
1.11
E+
121.
21E
+12
1.30
E+
121.
39E
+12
1.59
E+
122.
75E
+12
-189
.28
2.02
E+
122.
27E
+12
2.53
E+
122.
77E
+12
3.05
E+
123.
33E
+12
3.56
E+
123.
82E
+12
4.37
E+
127.
53E
+12
-158
.81.
09E
+13
1.22
E+
131.
36E
+13
1.49
E+
131.
64E
+13
1.79
E+
131.
91E
+13
2.06
E+
132.
35E
+13
4.06
E+
13
-128
.32
7.96
E+
138.
96E
+13
9.97
E+
131.
09E
+14
1.20
E+
141.
31E
+14
1.40
E+
141.
51E
+14
1.72
E+
142.
97E
+14
-97.
845.
77E
+14
6.50
E+
147.
23E
+14
7.90
E+
148.
71E
+14
9.50
E+
141.
02E
+15
1.09
E+
151.
25E
+15
2.15
E+
15
-67.
363.
69E
+15
4.16
E+
154.
63E
+15
5.06
E+
155.
57E
+15
6.08
E+
156.
50E
+15
6.99
E+
157.
99E
+15
1.38
E+
16
-36.
881.
91E
+16
2.15
E+
162.
39E
+16
2.61
E+
162.
88E
+16
3.14
E+
163.
36E
+16
3.61
E+
164.
13E
+16
7.11
E+
16
-6.4
7.44
E+
168.
38E
+16
9.33
E+
161.
02E
+17
1.12
E+
171.
23E
+17
1.31
E+
171.
41E
+17
1.61
E+
172.
78E
+17
24.0
81.
77E
+17
2.00
E+
172.
22E
+17
2.43
E+
172.
68E
+17
2.92
E+
173.
12E
+17
3.36
E+
173.
84E
+17
6.62
E+
17
54.5
62.
86E
+17
3.23
E+
173.
59E
+17
3.93
E+
174.
32E
+17
4.72
E+
175.
04E
+17
5.42
E+
176.
20E
+17
1.07
E+
18
85.0
43.
71E
+17
4.18
E+
174.
65E
+17
5.09
E+
175.
60E
+17
6.11
E+
176.
53E
+17
7.02
E+
178.
03E
+17
1.38
E+
18
114.
914.
39E
+17
4.95
E+
175.
51E
+17
6.02
E+
176.
63E
+17
7.24
E+
177.
74E
+17
8.32
E+
179.
51E
+17
1.64
E+
18
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
65
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
4
Un
it 2
RP
V V
erti
cal W
eld
s G
1 an
d G
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s (C
onti
nu
ed)
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
-250
.24
1.15
E-0
81.
29E
-08
1.44
E-0
81.
57E
-08
1.73
E-0
81.
89E
-08
2.02
E-0
82.
17E
-08
2.49
E-0
84.
29E
-08
-219
.76
2.04
E-0
82.
30E
-08
2.56
E-0
82.
80E
-08
3.08
E-0
83.
36E
-08
3.60
E-0
83.
86E
-08
4.42
E-0
87.
62E
-08
-189
.28
3.32
E-0
83.
74E
-08
4.16
E-0
84.
55E
-08
5.01
E-0
85.
47E
-08
5.84
E-0
86.
28E
-08
7.19
E-0
81.
24E
-07
-158
.86.
47E
-08
7.29
E-0
88.
12E
-08
8.88
E-0
89.
78E
-08
1.07
E-0
71.
14E
-07
1.23
E-0
71.
40E
-07
2.42
E-0
7
-128
.32
2.11
E-0
72.
38E
-07
2.65
E-0
72.
90E
-07
3.19
E-0
73.
48E
-07
3.72
E-0
74.
00E
-07
4.58
E-0
77.
89E
-07
-97.
841.
11E
-06
1.25
E-0
61.
39E
-06
1.52
E-0
61.
68E
-06
1.83
E-0
61.
96E
-06
2.10
E-0
62.
40E
-06
4.15
E-0
6
-67.
366.
39E
-06
7.19
E-0
68.
01E
-06
8.76
E-0
69.
65E
-06
1.05
E-0
51.
13E
-05
1.21
E-0
51.
38E
-05
2.39
E-0
5
-36.
883.
15E
-05
3.55
E-0
53.
95E
-05
4.32
E-0
54.
75E
-05
5.19
E-0
55.
55E
-05
5.96
E-0
56.
82E
-05
1.18
E-0
4
-6.4
1.20
E-0
41.
35E
-04
1.50
E-0
41.
64E
-04
1.81
E-0
41.
97E
-04
2.11
E-0
42.
26E
-04
2.59
E-0
44.
47E
-04
24.0
82.
81E
-04
3.17
E-0
43.
53E
-04
3.86
E-0
44.
25E
-04
4.64
E-0
44.
96E
-04
5.33
E-0
46.
10E
-04
1.05
E-0
3
54.5
64.
53E
-04
5.11
E-0
45.
68E
-04
6.22
E-0
46.
85E
-04
7.48
E-0
47.
99E
-04
8.59
E-0
49.
82E
-04
1.69
E-0
3
85.0
45.
87E
-04
6.61
E-0
47.
36E
-04
8.05
E-0
48.
87E
-04
9.68
E-0
41.
03E
-03
1.11
E-0
31.
27E
-03
2.19
E-0
3
114.
916.
95E
-04
7.83
E-0
48.
72E
-04
9.54
E-0
41.
05E
-03
1.15
E-0
31.
23E
-03
1.32
E-0
31.
51E
-03
2.60
E-0
3
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
66
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
5
Un
it 2
RP
V V
erti
cal W
eld
s F
1 an
d F
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
114.
914.
46E
+17
5.02
E+
175.
63E
+17
6.19
E+
176.
84E
+17
7.46
E+
177.
97E
+17
8.58
E+
179.
83E
+17
1.71
E+
18
145.
395.
06E
+17
5.69
E+
176.
39E
+17
7.03
E+
177.
77E
+17
8.46
E+
179.
04E
+17
9.73
E+
171.
12E
+18
1.94
E+
18
175.
875.
43E
+17
6.10
E+
176.
85E
+17
7.53
E+
178.
33E
+17
9.07
E+
179.
70E
+17
1.04
E+
181.
20E
+18
2.08
E+
18
206.
355.
60E
+17
6.30
E+
177.
06E
+17
7.77
E+
178.
59E
+17
9.36
E+
171.
00E
+18
1.08
E+
181.
23E
+18
2.14
E+
18
236.
835.
64E
+17
6.35
E+
177.
12E
+17
7.83
E+
178.
66E
+17
9.43
E+
171.
01E
+18
1.09
E+
181.
24E
+18
2.16
E+
18
267.
315.
63E
+17
6.33
E+
177.
10E
+17
7.81
E+
178.
63E
+17
9.40
E+
171.
01E
+18
1.08
E+
181.
24E
+18
2.15
E+
18
297.
795.
31E
+17
5.98
E+
176.
70E
+17
7.38
E+
178.
15E
+17
8.88
E+
179.
49E
+17
1.02
E+
181.
17E
+18
2.03
E+
18
328.
274.
47E
+17
5.03
E+
175.
64E
+17
6.20
E+
176.
86E
+17
7.47
E+
177.
99E
+17
8.59
E+
179.
85E
+17
1.71
E+
18
363.
522.
55E
+17
2.87
E+
173.
22E
+17
3.54
E+
173.
92E
+17
4.27
E+
174.
56E
+17
4.91
E+
175.
63E
+17
9.77
E+
17
379.
581.
36E
+17
1.53
E+
171.
72E
+17
1.89
E+
172.
09E
+17
2.27
E+
172.
43E
+17
2.61
E+
173.
00E
+17
5.20
E+
17
419.
713.
85E
+16
4.33
E+
164.
85E
+16
5.34
E+
165.
90E
+16
6.43
E+
166.
87E
+16
7.40
E+
168.
48E
+16
1.47
E+
17
450.
194.
12E
+16
4.63
E+
165.
20E
+16
5.72
E+
166.
32E
+16
6.89
E+
167.
36E
+16
7.92
E+
169.
08E
+16
1.58
E+
17
480.
372.
94E
+16
3.31
E+
163.
71E
+16
4.09
E+
164.
52E
+16
4.92
E+
165.
26E
+16
5.66
E+
166.
49E
+16
1.13
E+
17
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
67
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
5
Un
it 2
RP
V V
erti
cal W
eld
s F
1 an
d F
2 N
eutr
on E
xpos
ure
Pre
dic
tion
s (C
onti
nu
ed)
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
114.
917.
06E
-04
7.94
E-0
48.
91E
-04
9.81
E-0
41.
08E
-03
1.18
E-0
31.
26E
-03
1.36
E-0
31.
56E
-03
2.71
E-0
3
145.
398.
01E
-04
9.01
E-0
41.
01E
-03
1.11
E-0
31.
23E
-03
1.34
E-0
31.
43E
-03
1.54
E-0
31.
77E
-03
3.07
E-0
3
175.
878.
59E
-04
9.66
E-0
41.
08E
-03
1.19
E-0
31.
32E
-03
1.44
E-0
31.
54E
-03
1.65
E-0
31.
90E
-03
3.29
E-0
3
206.
358.
86E
-04
9.96
E-0
41.
12E
-03
1.23
E-0
31.
36E
-03
1.48
E-0
31.
58E
-03
1.71
E-0
31.
96E
-03
3.40
E-0
3
236.
838.
93E
-04
1.00
E-0
31.
13E
-03
1.24
E-0
31.
37E
-03
1.49
E-0
31.
60E
-03
1.72
E-0
31.
97E
-03
3.42
E-0
3
267.
318.
89E
-04
1.00
E-0
31.
12E
-03
1.24
E-0
31.
36E
-03
1.49
E-0
31.
59E
-03
1.71
E-0
31.
96E
-03
3.41
E-0
3
297.
798.
39E
-04
9.44
E-0
41.
06E
-03
1.17
E-0
31.
29E
-03
1.40
E-0
31.
50E
-03
1.62
E-0
31.
85E
-03
3.22
E-0
3
328.
277.
05E
-04
7.93
E-0
48.
90E
-04
9.79
E-0
41.
08E
-03
1.18
E-0
31.
26E
-03
1.36
E-0
31.
56E
-03
2.70
E-0
3
363.
524.
04E
-04
4.54
E-0
45.
10E
-04
5.62
E-0
46.
20E
-04
6.76
E-0
47.
23E
-04
7.78
E-0
48.
92E
-04
1.55
E-0
3
379.
582.
17E
-04
2.44
E-0
42.
74E
-04
3.02
E-0
43.
34E
-04
3.64
E-0
43.
89E
-04
4.18
E-0
44.
80E
-04
8.33
E-0
4
419.
716.
14E
-05
6.90
E-0
57.
74E
-05
8.52
E-0
59.
42E
-05
1.03
E-0
41.
10E
-04
1.18
E-0
41.
35E
-04
2.35
E-0
4
450.
196.
41E
-05
7.21
E-0
58.
09E
-05
8.91
E-0
59.
84E
-05
1.07
E-0
41.
15E
-04
1.23
E-0
41.
41E
-04
2.46
E-0
4
480.
374.
59E
-05
5.16
E-0
55.
79E
-05
6.37
E-0
57.
04E
-05
7.67
E-0
58.
20E
-05
8.83
E-0
51.
01E
-04
1.76
E-0
4
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
Iron
Ato
m D
ispl
acem
ents
, dp
a
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
68
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
6
Un
it 2
RP
V L
ower
Sh
ell P
late
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
-250
.24
5.90
E+
116.
63E
+11
7.40
E+
118.
14E
+11
9.03
E+
119.
89E
+11
1.06
E+
121.
15E
+12
1.32
E+
122.
32E
+12
-219
.76
1.12
E+
121.
26E
+12
1.40
E+
121.
54E
+12
1.71
E+
121.
88E
+12
2.02
E+
122.
18E
+12
2.51
E+
124.
41E
+12
-189
.28
3.07
E+
123.
45E
+12
3.85
E+
124.
23E
+12
4.70
E+
125.
14E
+12
5.54
E+
125.
98E
+12
6.88
E+
121.
21E
+13
-158
.81.
65E
+13
1.86
E+
132.
07E
+13
2.28
E+
132.
53E
+13
2.77
E+
132.
98E
+13
3.22
E+
133.
70E
+13
6.51
E+
13
-128
.32
1.21
E+
141.
36E
+14
1.52
E+
141.
67E
+14
1.85
E+
142.
03E
+14
2.18
E+
142.
35E
+14
2.71
E+
144.
76E
+14
-97.
848.
76E
+14
9.85
E+
141.
10E
+15
1.21
E+
151.
34E
+15
1.47
E+
151.
58E
+15
1.71
E+
151.
96E
+15
3.45
E+
15
-67.
365.
61E
+15
6.31
E+
157.
04E
+15
7.74
E+
158.
59E
+15
9.40
E+
151.
01E
+16
1.09
E+
161.
26E
+16
2.21
E+
16
-36.
882.
90E
+16
3.26
E+
163.
64E
+16
4.00
E+
164.
44E
+16
4.86
E+
165.
23E
+16
5.64
E+
166.
50E
+16
1.14
E+
17
-6.4
1.13
E+
171.
27E
+17
1.42
E+
171.
56E
+17
1.73
E+
171.
90E
+17
2.04
E+
172.
20E
+17
2.54
E+
174.
45E
+17
24.0
82.
70E
+17
3.03
E+
173.
38E
+17
3.72
E+
174.
13E
+17
4.52
E+
174.
87E
+17
5.25
E+
176.
05E
+17
1.06
E+
18
54.5
64.
35E
+17
4.89
E+
175.
46E
+17
6.01
E+
176.
66E
+17
7.30
E+
177.
86E
+17
8.48
E+
179.
76E
+17
1.71
E+
18
85.0
45.
64E
+17
6.34
E+
177.
07E
+17
7.78
E+
178.
63E
+17
9.45
E+
171.
02E
+18
1.10
E+
181.
26E
+18
2.22
E+
18
114.
916.
68E
+17
7.51
E+
178.
38E
+17
9.21
E+
171.
02E
+18
1.12
E+
181.
21E
+18
1.30
E+
181.
50E
+18
2.63
E+
18
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
69
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
6
Un
it 2
RP
V L
ower
Sh
ell P
late
Neu
tron
Exp
osu
re P
red
icti
ons
(Con
tin
ued
)
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
-250
.24
1.73
E-0
81.
95E
-08
2.17
E-0
82.
39E
-08
2.66
E-0
82.
91E
-08
3.13
E-0
83.
38E
-08
3.89
E-0
86.
84E
-08
-219
.76
3.08
E-0
83.
46E
-08
3.86
E-0
84.
25E
-08
4.72
E-0
85.
17E
-08
5.57
E-0
86.
01E
-08
6.92
E-0
81.
22E
-07
-189
.28
5.01
E-0
85.
63E
-08
6.28
E-0
86.
91E
-08
7.67
E-0
88.
40E
-08
9.05
E-0
89.
76E
-08
1.12
E-0
71.
98E
-07
-158
.89.
78E
-08
1.10
E-0
71.
23E
-07
1.35
E-0
71.
50E
-07
1.64
E-0
71.
77E
-07
1.91
E-0
72.
20E
-07
3.86
E-0
7
-128
.32
3.19
E-0
73.
59E
-07
4.00
E-0
74.
40E
-07
4.89
E-0
75.
35E
-07
5.76
E-0
76.
22E
-07
7.16
E-0
71.
26E
-06
-97.
841.
68E
-06
1.88
E-0
62.
10E
-06
2.31
E-0
62.
57E
-06
2.81
E-0
63.
03E
-06
3.27
E-0
63.
76E
-06
6.61
E-0
6
-67.
369.
65E
-06
1.08
E-0
51.
21E
-05
1.33
E-0
51.
48E
-05
1.62
E-0
51.
74E
-05
1.88
E-0
52.
17E
-05
3.81
E-0
5
-36.
884.
75E
-05
5.34
E-0
55.
96E
-05
6.56
E-0
57.
28E
-05
7.97
E-0
58.
58E
-05
9.26
E-0
51.
07E
-04
1.88
E-0
4
-6.4
1.81
E-0
42.
03E
-04
2.26
E-0
42.
49E
-04
2.76
E-0
43.
03E
-04
3.26
E-0
43.
52E
-04
4.05
E-0
47.
12E
-04
24.0
84.
25E
-04
4.78
E-0
45.
33E
-04
5.87
E-0
46.
51E
-04
7.13
E-0
47.
68E
-04
8.29
E-0
49.
54E
-04
1.68
E-0
3
54.5
66.
85E
-04
7.70
E-0
48.
59E
-04
9.45
E-0
41.
05E
-03
1.15
E-0
31.
24E
-03
1.33
E-0
31.
54E
-03
2.70
E-0
3
85.0
48.
87E
-04
9.96
E-0
41.
11E
-03
1.22
E-0
31.
36E
-03
1.49
E-0
31.
60E
-03
1.73
E-0
31.
99E
-03
3.50
E-0
3
114.
911.
05E
-03
1.18
E-0
31.
32E
-03
1.45
E-0
31.
61E
-03
1.76
E-0
31.
90E
-03
2.05
E-0
32.
36E
-03
4.14
E-0
3
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
70
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
7
Un
it 2
RP
V L
ower
In
term
edia
te S
hel
l Pla
te N
eutr
on E
xpos
ure
Pre
dic
tion
s
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
114.
916.
68E
+17
7.51
E+
178.
38E
+17
9.21
E+
171.
02E
+18
1.12
E+
181.
21E
+18
1.30
E+
181.
50E
+18
2.63
E+
18
145.
397.
58E
+17
8.52
E+
179.
51E
+17
1.05
E+
181.
16E
+18
1.27
E+
181.
37E
+18
1.48
E+
181.
70E
+18
2.98
E+
18
175.
878.
13E
+17
9.14
E+
171.
02E
+18
1.12
E+
181.
24E
+18
1.36
E+
181.
47E
+18
1.58
E+
181.
82E
+18
3.20
E+
18
206.
358.
38E
+17
9.42
E+
171.
05E
+18
1.16
E+
181.
28E
+18
1.40
E+
181.
51E
+18
1.63
E+
181.
88E
+18
3.30
E+
18
236.
838.
45E
+17
9.50
E+
171.
06E
+18
1.17
E+
181.
29E
+18
1.42
E+
181.
52E
+18
1.65
E+
181.
89E
+18
3.33
E+
18
267.
318.
42E
+17
9.47
E+
171.
06E
+18
1.16
E+
181.
29E
+18
1.41
E+
181.
52E
+18
1.64
E+
181.
89E
+18
3.32
E+
18
297.
797.
96E
+17
8.94
E+
179.
98E
+17
1.10
E+
181.
22E
+18
1.33
E+
181.
44E
+18
1.55
E+
181.
78E
+18
3.13
E+
18
328.
276.
69E
+17
7.52
E+
178.
40E
+17
9.23
E+
171.
02E
+18
1.12
E+
181.
21E
+18
1.30
E+
181.
50E
+18
2.64
E+
18
363.
523.
82E
+17
4.30
E+
174.
80E
+17
5.28
E+
175.
85E
+17
6.41
E+
176.
90E
+17
7.44
E+
178.
57E
+17
1.51
E+
18
379.
582.
04E
+17
2.29
E+
172.
55E
+17
2.81
E+
173.
12E
+17
3.41
E+
173.
67E
+17
3.96
E+
174.
56E
+17
8.02
E+
17
419.
715.
76E
+16
6.47
E+
167.
23E
+16
7.95
E+
168.
82E
+16
9.65
E+
161.
04E
+17
1.12
E+
171.
29E
+17
2.27
E+
17
450.
196.
17E
+16
6.93
E+
167.
74E
+16
8.51
E+
169.
44E
+16
1.03
E+
171.
11E
+17
1.20
E+
171.
38E
+17
2.43
E+
17
480.
374.
41E
+16
4.96
E+
165.
53E
+16
6.08
E+
166.
75E
+16
7.39
E+
167.
96E
+16
8.58
E+
169.
88E
+16
1.74
E+
17
Fas
t N
eutr
on F
luen
ce (
n/cm
2,
E >
1.0
Mev
)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
71
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
7
Un
it 2
RP
V L
ower
In
term
edia
te S
hel
l Pla
te N
eutr
on E
xpos
ure
Pre
dic
tion
s (C
onti
nu
ed)
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
114.
911.
05E
-03
1.18
E-0
31.
32E
-03
1.45
E-0
31.
61E
-03
1.76
E-0
31.
90E
-03
2.05
E-0
32.
36E
-03
4.14
E-0
3
145.
391.
19E
-03
1.34
E-0
31.
49E
-03
1.64
E-0
31.
82E
-03
2.00
E-0
32.
15E
-03
2.32
E-0
32.
67E
-03
4.70
E-0
3
175.
871.
28E
-03
1.44
E-0
31.
60E
-03
1.76
E-0
31.
96E
-03
2.14
E-0
32.
31E
-03
2.49
E-0
32.
87E
-03
5.04
E-0
3
206.
351.
32E
-03
1.48
E-0
31.
65E
-03
1.82
E-0
32.
02E
-03
2.21
E-0
32.
38E
-03
2.57
E-0
32.
96E
-03
5.20
E-0
3
236.
831.
33E
-03
1.49
E-0
31.
66E
-03
1.83
E-0
32.
03E
-03
2.23
E-0
32.
40E
-03
2.59
E-0
32.
98E
-03
5.24
E-0
3
267.
311.
32E
-03
1.49
E-0
31.
66E
-03
1.82
E-0
32.
02E
-03
2.22
E-0
32.
39E
-03
2.58
E-0
32.
97E
-03
5.22
E-0
3
297.
791.
25E
-03
1.40
E-0
31.
56E
-03
1.72
E-0
31.
91E
-03
2.09
E-0
32.
25E
-03
2.43
E-0
32.
80E
-03
4.92
E-0
3
328.
271.
05E
-03
1.18
E-0
31.
31E
-03
1.45
E-0
31.
61E
-03
1.76
E-0
31.
89E
-03
2.04
E-0
32.
35E
-03
4.14
E-0
3
363.
526.
01E
-04
6.75
E-0
47.
54E
-04
8.29
E-0
49.
20E
-04
1.01
E-0
31.
09E
-03
1.17
E-0
31.
35E
-03
2.37
E-0
3
379.
583.
23E
-04
3.63
E-0
44.
05E
-04
4.46
E-0
44.
95E
-04
5.42
E-0
45.
84E
-04
6.30
E-0
47.
25E
-04
1.28
E-0
3
419.
719.
12E
-05
1.03
E-0
41.
14E
-04
1.26
E-0
41.
40E
-04
1.53
E-0
41.
65E
-04
1.78
E-0
42.
05E
-04
3.60
E-0
4
450.
199.
53E
-05
1.07
E-0
41.
20E
-04
1.32
E-0
41.
46E
-04
1.60
E-0
41.
72E
-04
1.86
E-0
42.
14E
-04
3.76
E-0
4
480.
376.
82E
-05
7.66
E-0
58.
55E
-05
9.41
E-0
51.
04E
-04
1.14
E-0
41.
23E
-04
1.33
E-0
41.
53E
-04
2.69
E-0
4
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
72
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
8
Un
it 2
RP
V N
16 N
ozzl
e/N
ozzl
e F
orgi
ng
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Ele
vatio
n
363.
523.
23E
+17
3.63
E+
174.
05E
+17
4.46
E+
174.
95E
+17
5.42
E+
175.
84E
+17
6.30
E+
177.
26E
+17
1.28
E+
18
371.
552.
53E
+17
2.84
E+
173.
18E
+17
3.50
E+
173.
88E
+17
4.25
E+
174.
58E
+17
4.94
E+
175.
69E
+17
1.00
E+
18
379.
581.
72E
+17
1.93
E+
172.
16E
+17
2.38
E+
172.
64E
+17
2.89
E+
173.
11E
+17
3.36
E+
173.
86E
+17
6.79
E+
17
387.
51.
21E
+17
1.36
E+
171.
52E
+17
1.68
E+
171.
86E
+17
2.04
E+
172.
20E
+17
2.37
E+
172.
73E
+17
4.80
E+
17
395.
438.
43E
+16
9.48
E+
161.
06E
+17
1.17
E+
171.
29E
+17
1.42
E+
171.
52E
+17
1.65
E+
171.
90E
+17
3.33
E+
17
Ele
vatio
n
363.
525.
09E
-04
5.72
E-0
46.
40E
-04
7.05
E-0
47.
82E
-04
8.56
E-0
49.
22E
-04
9.95
E-0
41.
15E
-03
2.02
E-0
3
371.
554.
01E
-04
4.51
E-0
45.
04E
-04
5.55
E-0
46.
16E
-04
6.74
E-0
47.
26E
-04
7.83
E-0
49.
02E
-04
1.59
E-0
3
379.
582.
74E
-04
3.08
E-0
43.
44E
-04
3.79
E-0
44.
21E
-04
4.60
E-0
44.
96E
-04
5.35
E-0
46.
16E
-04
1.08
E-0
3
387.
51.
95E
-04
2.19
E-0
42.
45E
-04
2.70
E-0
43.
00E
-04
3.28
E-0
43.
53E
-04
3.81
E-0
44.
39E
-04
7.72
E-0
4
395.
431.
36E
-04
1.53
E-0
41.
71E
-04
1.89
E-0
42.
09E
-04
2.29
E-0
42.
47E
-04
2.66
E-0
43.
07E
-04
5.40
E-0
4
Iron
Ato
m D
ispl
acem
ents
, dp
a
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: E
leva
tion
is D
ista
nce
(cm
) fro
m B
otto
m o
f Act
ive
Cor
e
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
73
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
9
Un
it 2
Top
Gu
ide
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Rad
ius
5.01
9.39
E+
219.
79E
+21
1.05
E+
221.
11E
+22
1.17
E+
221.
27E
+22
1.41
E+
221.
50E
+22
1.69
E+
222.
79E
+22
30.4
81.
11E
+22
1.15
E+
221.
23E
+22
1.30
E+
221.
37E
+22
1.47
E+
221.
62E
+22
1.73
E+
221.
94E
+22
3.16
E+
22
60.9
61.
06E
+22
1.11
E+
221.
18E
+22
1.25
E+
221.
32E
+22
1.42
E+
221.
57E
+22
1.67
E+
221.
87E
+22
3.07
E+
22
91.4
49.
67E
+21
1.01
E+
221.
08E
+22
1.15
E+
221.
22E
+22
1.32
E+
221.
46E
+22
1.56
E+
221.
76E
+22
2.94
E+
22
121.
921.
15E
+22
1.19
E+
221.
27E
+22
1.34
E+
221.
42E
+22
1.52
E+
221.
67E
+22
1.78
E+
222.
00E
+22
3.25
E+
22
152.
49.
01E
+21
9.36
E+
219.
96E
+21
1.06
E+
221.
12E
+22
1.21
E+
221.
34E
+22
1.43
E+
221.
61E
+22
2.66
E+
22
182.
886.
77E
+21
6.99
E+
217.
41E
+21
7.90
E+
218.
37E
+21
9.03
E+
219.
87E
+21
1.05
E+
221.
18E
+22
1.94
E+
22
213.
361.
22E
+21
1.28
E+
211.
36E
+21
1.46
E+
211.
57E
+21
1.70
E+
211.
86E
+21
1.99
E+
212.
25E
+21
3.78
E+
21
221.
615
2.86
E+
203.
03E
+20
3.25
E+
203.
50E
+20
3.77
E+
204.
12E
+20
4.52
E+
204.
84E
+20
5.52
E+
209.
43E
+20
225.
425
1.55
E+
201.
64E
+20
1.76
E+
201.
90E
+20
2.05
E+
202.
24E
+20
2.46
E+
202.
64E
+20
3.01
E+
205.
15E
+20
236.
855
2.28
E+
192.
43E
+19
2.62
E+
192.
83E
+19
3.05
E+
193.
34E
+19
3.67
E+
193.
94E
+19
4.50
E+
197.
73E
+19
240.
665
1.01
E+
191.
07E
+19
1.16
E+
191.
25E
+19
1.36
E+
191.
48E
+19
1.63
E+
191.
75E
+19
2.00
E+
193.
44E
+19
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: R
adiu
s (c
m)
from
Cor
e C
ente
rline
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
74
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-4
9
Un
it 2
Top
Gu
ide
Neu
tron
Exp
osu
re P
red
icti
ons
(Con
tin
ued
)
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Rad
ius
5.01
1.49
E+
011.
55E
+01
1.66
E+
011.
77E
+01
1.87
E+
012.
02E
+01
2.24
E+
012.
39E
+01
2.70
E+
014.
47E
+01
30.4
81.
73E
+01
1.80
E+
011.
92E
+01
2.04
E+
012.
15E
+01
2.31
E+
012.
54E
+01
2.71
E+
013.
04E
+01
4.97
E+
01
60.9
61.
67E
+01
1.74
E+
011.
86E
+01
1.98
E+
012.
09E
+01
2.24
E+
012.
48E
+01
2.64
E+
012.
98E
+01
4.90
E+
01
91.4
41.
53E
+01
1.59
E+
011.
70E
+01
1.83
E+
011.
94E
+01
2.10
E+
012.
32E
+01
2.48
E+
012.
81E
+01
4.71
E+
01
121.
921.
79E
+01
1.86
E+
011.
98E
+01
2.10
E+
012.
22E
+01
2.39
E+
012.
63E
+01
2.80
E+
013.
15E
+01
5.15
E+
01
152.
41.
43E
+01
1.49
E+
011.
58E
+01
1.69
E+
011.
79E
+01
1.94
E+
012.
14E
+01
2.28
E+
012.
58E
+01
4.28
E+
01
182.
881.
02E
+01
1.05
E+
011.
12E
+01
1.19
E+
011.
27E
+01
1.37
E+
011.
50E
+01
1.60
E+
011.
80E
+01
2.97
E+
01
213.
361.
78E
+00
1.87
E+
001.
98E
+00
2.13
E+
002.
28E
+00
2.48
E+
002.
71E
+00
2.89
E+
003.
28E
+00
5.51
E+
00
221.
615
4.26
E-0
14.
51E
-01
4.83
E-0
15.
21E
-01
5.61
E-0
16.
12E
-01
6.71
E-0
17.
20E
-01
8.21
E-0
11.
40E
+00
225.
425
2.35
E-0
12.
49E
-01
2.67
E-0
12.
88E
-01
3.10
E-0
13.
39E
-01
3.72
E-0
13.
99E
-01
4.55
E-0
17.
78E
-01
236.
855
3.69
E-0
23.
93E
-02
4.23
E-0
24.
57E
-02
4.94
E-0
25.
40E
-02
5.93
E-0
26.
36E
-02
7.27
E-0
21.
25E
-01
240.
665
1.63
E-0
21.
73E
-02
1.87
E-0
22.
03E
-02
2.19
E-0
22.
39E
-02
2.63
E-0
22.
82E
-02
3.23
E-0
25.
55E
-02
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: R
adiu
s (c
m)
from
Cor
e C
ente
rline
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
75
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-5
0
Un
it 2
Cor
e P
late
Neu
tron
Exp
osu
re P
red
icti
ons
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Rad
ius
5.01
2.05
E+
202.
26E
+20
2.47
E+
202.
69E
+20
2.91
E+
203.
12E
+20
3.31
E+
203.
52E
+20
3.97
E+
206.
56E
+20
30.4
82.
22E
+20
2.44
E+
202.
66E
+20
2.90
E+
203.
14E
+20
3.35
E+
203.
55E
+20
3.79
E+
204.
27E
+20
7.04
E+
20
60.9
62.
16E
+20
2.38
E+
202.
59E
+20
2.83
E+
203.
07E
+20
3.28
E+
203.
48E
+20
3.70
E+
204.
18E
+20
6.92
E+
20
91.4
41.
97E
+20
2.16
E+
202.
37E
+20
2.62
E+
202.
88E
+20
3.09
E+
203.
28E
+20
3.51
E+
204.
00E
+20
6.79
E+
20
121.
922.
34E
+20
2.56
E+
202.
78E
+20
3.04
E+
203.
30E
+20
3.53
E+
203.
74E
+20
3.98
E+
204.
50E
+20
7.45
E+
20
152.
41.
88E
+20
2.07
E+
202.
25E
+20
2.48
E+
202.
71E
+20
2.91
E+
203.
09E
+20
3.30
E+
203.
75E
+20
6.33
E+
20
182.
881.
73E
+20
1.89
E+
202.
05E
+20
2.25
E+
202.
48E
+20
2.67
E+
202.
82E
+20
3.01
E+
203.
42E
+20
5.79
E+
20
213.
361.
14E
+20
1.25
E+
201.
34E
+20
1.48
E+
201.
63E
+20
1.76
E+
201.
85E
+20
1.98
E+
202.
26E
+20
3.82
E+
20
221.
615
4.01
E+
194.
42E
+19
4.80
E+
195.
31E
+19
5.89
E+
196.
37E
+19
6.73
E+
197.
23E
+19
8.26
E+
191.
42E
+20
225.
425
2.17
E+
192.
39E
+19
2.60
E+
192.
87E
+19
3.19
E+
193.
46E
+19
3.65
E+
193.
92E
+19
4.49
E+
197.
74E
+19
236.
855
4.67
E+
185.
17E
+18
5.65
E+
186.
27E
+18
6.99
E+
187.
59E
+18
8.02
E+
188.
64E
+18
9.91
E+
181.
72E
+19
240.
665
3.08
E+
183.
42E
+18
3.74
E+
184.
15E
+18
4.63
E+
185.
03E
+18
5.32
E+
185.
73E
+18
6.58
E+
181.
15E
+19
Fas
t N
eutr
on F
luen
ce (
n/cm
2 , E
> 1
.0 M
ev)
Not
e: R
adiu
s (c
m)
from
Cor
e C
ente
rline
WE
ST
ING
HO
US
E N
ON
-PR
OP
RIE
TAR
Y C
LA
SS
3
2-
76
WC
AP-
1766
0-N
P N
ovem
ber
2012
Rev
isio
n 0
Tab
le 2
.2-5
0
Un
it 2
Cor
e P
late
Neu
tron
Exp
osu
re P
red
icti
ons
(Con
tin
ued
)
Cyc
le
14C
ycle
15
Cyc
le
16C
ycle
17
Cyc
le
18C
ycle
19
C20
(E
q)C
21 (
Avg
)P
roje
cted
Pro
ject
ed
Tim
e,s
5.33
E+
076.
02E
+07
5.79
E+
075.
43E
+07
5.69
E+
075.
57E
+07
5.83
E+
075.
83E
+07
1.21
E+
086.
94E
+08
EF
PY
15.4
517
.35
19.1
920
.91
22.7
124
.48
26.3
328
.17
3254
Rad
ius
5.01
2.98
E-0
13.
29E
-01
3.60
E-0
13.
92E
-01
4.24
E-0
14.
54E
-01
4.82
E-0
15.
13E
-01
5.79
E-0
19.
56E
-01
30.4
83.
20E
-01
3.52
E-0
13.
83E
-01
4.18
E-0
14.
53E
-01
4.83
E-0
15.
13E
-01
5.46
E-0
16.
16E
-01
1.02
E+
00
60.9
63.
14E
-01
3.46
E-0
13.
76E
-01
4.11
E-0
14.
46E
-01
4.76
E-0
15.
05E
-01
5.38
E-0
16.
07E
-01
1.00
E+
00
91.4
42.
86E
-01
3.15
E-0
13.
46E
-01
3.82
E-0
14.
18E
-01
4.50
E-0
14.
76E
-01
5.10
E-0
15.
80E
-01
9.84
E-0
1
121.
923.
37E
-01
3.69
E-0
14.
00E
-01
4.37
E-0
14.
75E
-01
5.09
E-0
15.
38E
-01
5.74
E-0
16.
48E
-01
1.07
E+
00
152.
42.
76E
-01
3.04
E-0
13.
31E
-01
3.64
E-0
13.
98E
-01
4.28
E-0
14.
53E
-01
4.85
E-0
15.
51E
-01
9.28
E-0
1
182.
882.
50E
-01
2.73
E-0
12.
97E
-01
3.26
E-0
13.
59E
-01
3.86
E-0
14.
08E
-01
4.37
E-0
14.
96E
-01
8.40
E-0
1
213.
361.
63E
-01
1.78
E-0
11.
92E
-01
2.11
E-0
12.
33E
-01
2.52
E-0
12.
65E
-01
2.84
E-0
13.
23E
-01
5.49
E-0
1
221.
615
5.86
E-0
26.
45E
-02
7.00
E-0
27.
74E
-02
8.59
E-0
29.
30E
-02
9.82
E-0
21.
05E
-01
1.21
E-0
12.
08E
-01
225.
425
3.18
E-0
23.
51E
-02
3.81
E-0
24.
22E
-02
4.69
E-0
25.
08E
-02
5.36
E-0
25.
76E
-02
6.59
E-0
21.
14E
-01
236.
855
7.03
E-0
37.
78E
-03
8.51
E-0
39.
44E
-03
1.05
E-0
21.
14E
-02
1.21
E-0
21.
30E
-02
1.49
E-0
22.
59E
-02
240.
665
4.62
E-0
35.
12E
-03
5.61
E-0
36.
23E
-03
6.95
E-0
37.
54E
-03
7.98
E-0
38.
60E
-03
9.87
E-0
31.
72E
-02
Iron
Ato
m D
ispl
acem
ents
, dp
a
Not
e: R
adiu
s (c
m)
from
Cor
e C
ente
rline
WESTINGHOUSE NON-PROPRIETARY CLASS 3 3-1
WCAP-17660-NP November 2012 Revision 0
3 CONCLUSIONS
This report provides neutron exposures at the Brunswick Unit 1 and Unit 2 core shroud and reactor pressure vessel welds, plus top guide and core plate of these plants. This report is based on the results of recent analysis which is intended to update prior calculations documented in References 4 and 5. These updates include updating previously projected fuel cycle designs with actual operating history at both Brunswick Units 1 and 2. In addition, the current analysis includes an assessment of the implementation of MELLLA+ operation on the neutron exposure of the reactor pressure vessel and reactor internals components. Future projections of the neutron exposure based on continued operation with the average power distribution of uprated cycles plus a MELLLA+ equilibrium cycle are provided for operating times up to 54 effective-full-power-years of operation. In addition to the incorporation of new fuel cycle designs, several enhancement to the analytical model were included to better describe the BWR fuel and bypass coolant features for the outermost row of peripheral assemblies, which are the most influential to the neutron exposures at the core shroud and the reactor vessel. The results of this evaluation indicate that, in general, the projected neutron exposures of critical components are less than those reported in Reference 4.
WESTINGHOUSE NON-PROPRIETARY CLASS 3 4-1
WCAP-17660-NP November 2012 Revision 0
4 REFERENCES
1. Code of Federal Regulations Title 10 Part 50, “Domestic Licensing of Production and Utilization Facilities”.
2. Regulatory Guide 1.190, “Calculational and Dosimetry for Determining Pressure Vessel Neutron Fluence”, U. S. Nuclear Regulatory Commission, Office of Nuclear Regulatory Research, March 2001.
3. US NRC Letter to Carolina Power & Light Company “Brunswick Steam Electric Plant Units 1 and 2 – Issuance of Amendment Re: Pressure Temperature Limit Curves (TAC Nos. MB5579 and MB5580),” June 18, 2003.
4. Letter from J.S Keenan, Carolina Power & Light Company, to USNRC, “Request for License Amendments to Revise Technical Specification Pressure Temperature Limit Curves,” June 26, 2002.
5. Letter from J.S Keenan, Carolina Power & Light Company, to USNRC, “Response to Request for Additional Information, Proposed License Amendments to Revise Technical Specification Pressure Temperature Limit Curves,” November 22, 2002.
6. Westinghouse letter LTR-REA-02-7, Rev. 0, ‘Transmittal of Brunswick Units 1 and 2 Neutron Fluence Report,’ January 24, 2002.
7. Progress Energy Design Calculation 0B21-1319 Attachment 5, Rev. 1 – as attachment of email from D. Alford (Progress energy) to S. Anderson (Westinghouse), ‘FW: DC For Westinghouse Fluence,’ April 03, 2012.
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