ML25106A312
| ML25106A312 | |
| Person / Time | |
|---|---|
| Site: | Surry  |
| Issue date: | 12/31/2024 |
| From: | Jeon B, Kim K, Wieselquist W Oak Ridge |
| To: | Lucas Kyriazidis NRC/RES/DSA/FSCB |
| References | |
| DE-AC05-00OR22725 ORNL/TM–2023/3039 | |
| Download: ML25106A312 (1) | |
Text
ORNL/TM-2023/3039 ORNL IS MANAGED BY UT-BATTELLE LLC FOR THE US DEPARTMENT OF ENERGY Benchmark Calculation for Surry Unit 1 Cycles 1-3 Using the SCALE 6.3/Polaris-PARCS v3.4.2 Code Package Byoung-kyu Jeon Kang Seog Kim William A. Wieselquist December 2024
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ORNL/TM-2023/3039 Nuclear Energy and Fuel Cycle Division Benchmark Calculation for Surry Unit 1 Cycles 1-3 Using the SCALE 6.3/Polaris-PARCS V3.4.2 Code Package Byoung-kyu Jeon Kang Seog Kim William A. Wieselquist December 2024 Prepared by OAK RIDGE NATIONAL LABORATORY Oak Ridge, TN 37830 managed by UT-BATTELLE LLC for the US DEPARTMENT OF ENERGY under contract DE-AC05-00OR22725
iii CONTENTS LIST OF FIGURES..................................................................................................................................... iv LIST OF TABLES........................................................................................................................................ v ABBREVIATIONS..................................................................................................................................... vi ACKNOWLEDGMENTS.......................................................................................................................... vii ABSTRACT.................................................................................................................................................. 1
- 1.
INTRODUCTION................................................................................................................................ 1
- 2.
CODE PACKAGE AND DESIGN SPECIFICATION........................................................................ 2 2.1 PROCEDURE AND CODE PACKAGE................................................................................... 2 2.2 SPECIFICATION OF THE SU1 CORE.................................................................................... 3 2.2.1 Design Data.................................................................................................................... 3 2.2.2 Measured Data............................................................................................................. 17
- 3.
BENCHMARK CALCULATIONS AND RESULTS....................................................................... 22 3.1 BENCHMARK CALCULATION............................................................................................ 22 3.1.1 Polaris Calculations..................................................................................................... 22 3.1.2 Cross-Section Table Set Generation Using GenPMAXS............................................ 27 3.1.3 Whole-Core Nodal Diffusion Calculations Using PARCS......................................... 29 3.2 BENCHMARK RESULTS....................................................................................................... 30 3.2.1 HFP Results................................................................................................................. 30
- 4.
CONCLUSION................................................................................................................................... 44
- 5.
REFERENCES................................................................................................................................... 45 APPENDIX A. SAMPLE OF POLARIS INPUT FILES......................................................................... A-1 APPENDIX B. SAMPLE OF GENPMAXS INPUT FILES.................................................................... B-1 APPENDIX C. PARCS INPUT FILES.................................................................................................... C-1 APPENDIX D. PROGRAM TO COMPARE POWER MAPS FOR PWRs............................................ D-2
iv LIST OF FIGURES Figure 2.1. Flowchart of the Polais-GenPMAXS-PARCS procedure......................................................... 2 Figure 2.2. Type 1, 2, 3, 4A, 4B, 4C, and 5 fuel assembly configurations without BA............................... 8 Figure 2.3. Type 4X 17 x 17 fuel assembly configuration without BA........................................................ 8 Figure 2.4. Fuel assembly configurations with 8 BAs.................................................................................. 9 Figure 2.5. Fuel assembly configurations with 12 BAs................................................................................ 9 Figure 2.6. Fuel assembly configurations with 20 BAs.............................................................................. 10 Figure 2.7. Loading pattern of the SU1 cycle 2 in the EPRI report............................................................ 11 Figure 2.8. Layout of fuel assemblies and BAs in the SU1 cycle 1............................................................ 12 Figure 2.9. Layout of fuel assemblies and BAs in the SU1 cycle 2............................................................ 13 Figure 2.10. Layout of fuel assemblies and BAs in the SU1 cycle 3.......................................................... 14 Figure 2.11. Layout of control banks in the SU1 cycles 1-3...................................................................... 15 Figure 2.12. Core instrumentation locations in SU1 cycles 1-3................................................................. 16 Figure 2.13. Power and D bank position history for SU1 cycle 1.............................................................. 18 Figure 2.14. Power and D bank position history for SU1 cycle 2.............................................................. 18 Figure 3.1. Polaris models for reflectors..................................................................................................... 26 Figure 3.2. SU1 cycle 1 HFP corrected boron letdown comparison for measured uncertainty.................. 31 Figure 3.3. SU1 cycle 1 HFP uncorrected boron letdown comparison....................................................... 32 Figure 3.4. SU1 cycle 1 HFP corrected boron letdown comparison........................................................... 32 Figure 3.5. SU1 cycle 2 HFP corrected boron letdown comparison for measured uncertainty.................. 33 Figure 3.6. SU1 cycle 2 HFP uncorrected boron letdown comparison....................................................... 33 Figure 3.7. SU1 cycle 2 HFP corrected boron letdown comparison........................................................... 34 Figure 3.8. SU1 cycle 3 HFP boron letdown.............................................................................................. 34 Figure 3.9. Boron worths as function of burnup for SU1........................................................................... 35 Figure 3.10. Enthalpy rise hot channel factors for the SU1 cycle 1............................................................ 35 Figure 3.11. Enthalpy rise hot channel factors for the SU1 cycle 2............................................................ 36 Figure 3.12. Comparison of the HFP power maps for SU1........................................................................ 41 Figure 3.13. Axial 1D flux map comparison for the SU1 cycle 1.............................................................. 43 Figure 3.14. Axial 1D flux map comparison for the SU1 cycle 2.............................................................. 43
v LIST OF TABLES Table 2.1. Programs used in the benchmark calculations............................................................................. 2 Table 2.2. Specification of the SU1 core...................................................................................................... 3 Table 2.3. Specification of the SU1 fuel assemblies and reflectors.............................................................. 4 Table 2.4. Thermal expansion coefficients................................................................................................... 4 Table 2.5. Atomic number densities for UO2 fuels....................................................................................... 5 Table 2.6. Atomic number densities for structure materials (1/2)................................................................ 6 Table 2.7. Correction of the assembly IDs.................................................................................................. 11 Table 2.8. Assembly types for the SU1 cycles 13.................................................................................... 17 Table 2.9. SU1 core axial configurations.................................................................................................... 17 Table 2.10. SU1 cycle 1 operational history............................................................................................... 19 Table 2.11. SU1 cycle 2 operational history............................................................................................... 20 Table 2.12. In-core power map data........................................................................................................... 21 Table 3.1. History cases for each assembly type........................................................................................ 22 Table 3.2. Branch states for assembly type without BA............................................................................. 23 Table 3.3. Branch states for assembly type with BA.................................................................................. 24 Table 3.4. Branch states for reflectors........................................................................................................ 25 Table 3.5. Polaris input and output files for SU1........................................................................................ 26 Table 3.6. GenPMAXS input and output files for SU1.............................................................................. 28 Table 3.7. PARCS input and output files for SU1...................................................................................... 29 Table 3.8. Comparison of the critical boron concentrations for the SU1 cycle 1....................................... 37 Table 3.9. Comparison of the critical boron concentrations for the SU1 cycle 2....................................... 39 Table 3.10. Comparison of the power maps for SU1.................................................................................. 42
vi ABBREVIATIONS BA burnable absorber BOC beginning of cycle BP burnable poison BWR boiling water reactor CR control rod ENDF Evaluated Nuclear Data File EPRI Electric Power Research Institute FHN enthalpy rise hot channel factor HFP hot full power HZP hot zero power Inc-718 Inconel-718 ORNL Oak Ridge National Laboratory PARCS Purdue Advanced Reactor Core Simulator PWR pressurized water reactor Pyrex borosilicate RMS root mean square SS-304 stainless steel 304 SU1 Surry Unit 1 VEPCO Virginia Electric and Power Company Zr-4 Zircaloy-4
vii ACKNOWLEDGMENTS Support for this work was provided by the US Nuclear Regulatory Commission (NRC) Office of Nuclear Regulatory Research under Contract IAA 31310019N0008. The authors would especially like to thank Andrew Bielen, Michael Rose, Nathanael Hudson and Lucas Kyriazidis of the NRC for their support and constructive feedback.
1 ABSTRACT The benchmark calculations were performed for Surry Unit 1 cycles 1-3 to validate the SCALE 6.3/Polaris-Purdue Advanced Reactor Core Simulator (PARCS) v3.4.2 with the ENDF/B-VII.1 56-group library by comparing the simulated results with the measured data. The benchmark results will be used to evaluate uncertainties of the SCALE/Polaris-PARCS code package for pressurized water reactor physics analysis for key nuclear parameters such as reactivity, control bank worth, temperature coefficients, and pin and assembly power peaking factors. This report details plant and fuel design specifications and input data for SCALE/Polaris, GenPMAXS, and PARCS. Additional details are provided for the input and output files produced for the benchmark calculations. The benchmark results were summarized such that they can be used in evaluating uncertainties with other benchmark results for key nuclear parameters.
- 1.
INTRODUCTION Surry Unit 1 (SU1) [1] is a Westinghouse Electric Company three-loop pressurized water reactor (PWR) operated by the Virginia Electric and Power Company (VEPCO). The reactor began operation at 2,441 MWth (824 MWe) power in 1973. The benchmark provides measured reactor data for boron letdown curves and 3D in-core flux maps.
This study performed the benchmark calculations for the SU1 benchmark problems to validate the SCALE 6.3/Polaris [2, 3]-GenPMAXS v6.3.1 [4] - Purdue Advanced Reactor Core Simulator (PARCS) v3.4.2 [5] code package for PWR analysis with the ENDF/B-VII.1 AMPX 56-group library [6]. The simulated benchmark results were compared with the measured data, and they will be used in the validation of the SCALE 6.3/PARCS-GenPMAXS-PARCS v3.4.2 code package by evaluating uncertainties for key nuclear parameters such as reactivity, control bank worth, temperature coefficients, and pin and assembly power peaking factors.
The Polaris-GenPMAXS-PARCS code package is briefly overviewed herein, and detailed information is provided for the plant design data and measured data in Section 2. Because the measured data were obtained for hot full power (HFP), the design data must be thermally expanded to prepare input data for Polaris, GenPMAXS, and PARCS. Therefore, the data were thermally expanded for this study. In Section 3, the simulated benchmark results are summarized and compared with the measured data. Additional details are provided for the input and output files generated from the benchmark calculations. Section 4 discusses the pending issues in Polaris and PARCS, and Section 5 presents the summary and concluding remarks.
2
- 2.
CODE PACKAGE AND DESIGN SPECIFICATION 2.1 PROCEDURE AND CODE PACKAGE Benchmark calculations for SU1 cycles 1-3 were performed using the SCALE 6.3/Polaris-GenPMAXS v6.3.1-PARCS v3.4.2 code package with the ENDF/B-VII.1 AMPX 56-group library. Figure 2.1 is a flowchart of the Polaris-GenPMAXS-PARCS code package process used to simulate PWRs. The SCALE/Polaris code, developed by Oak Ridge National Laboratory, is a 2D lattice physics code to generate 2-group homogenized cross sections and pin power form factors for fuel assemblies and reflectors. The Polaris depletion calculations were performed at the reference states with various branch calculations to cover all the probable states in the reactor. The GenPMAXS code, developed by the University of Michigan, prepares a cross-section table set for each type of fuel assembly and reflector in which 2-group macroscopic cross sections are tabulated as a function of burnup, boron concentration, moderator and fuel temperatures, moderator density, and control rod (CR) insertion. Once cross-section table sets have been prepared for all types of fuel assemblies and radial and axial reflectors, whole-core nodal diffusion calculations are performed using the PARCS code. Typically, a simplified internal thermal-hydraulics model can be used for the PWR physics analysis.
Figure 2.1. Flowchart of the Polais-GenPMAXS-PARCS procedure.
The SCALE 6.3/Polaris, GenPMAXS v6.3.1, and PARCS v3.4.2 with the ENDF/B-VII.1 AMPX 56-group library were used in these benchmark calculations. Table 2.1 provides detailed information on the programs and data used in the calculations.
Table 2.1. Programs used in the benchmark calculations Program File name Version md5sum Reference SCALE/Polaris scalerte 6.3.0 c30aa9d4841d51636ea08f2aa71cf1e5
[2, 3]
ENDF/B-VII.1 56-group library scale.rev00.xn56g19v7.1 6.3.0 2a1ab889c81354758bd85b3c0593db7a
[6]
GenPMAXS genpmaxs-v6.3.1-linux2-intel-x64-release.x 6.3.1 5a0428587c6ba65e2028e6dc98d29488
[4]
PARCS parcs-v342-linux2-intel-x64-release.x 3.4.2 fd005b709d0b597dd6910129d03fe8f5
[5]
3 2.2 SPECIFICATION OF THE SU1 CORE 2.2.1 Design Data The SU1 [1] is a Westinghouse Electric Company three-loop, multicycle, PWR operated by VEPCO that began operation at 2,441 MWth power in 1973. The benchmark provides measured reactor data for boron letdown curves and 3D in-core flux maps from 31 instrumented assemblies.
Table 2.2 provides key design specifications of the SU1 core for cycles 13. Table 2.3 provides specifications of the SU1 fuel assemblies and radial and axial reflectors. Because the Electric Power Research Institute (EPRI) report does not provide specification for top and bottom reflectors, the Watts Bar Unit 1 axial reflector data [7] were used in this benchmark calculation. Because the plant measured data are for the HFP condition, the geometry and composition specifications were thermally expanded at the HFP temperature using the thermal expansion coefficients provided in Table 2.4. These thermally expanded data can be used in the Polaris, GenPMAXS, and PARCS inputs. The thermally expanded dimension (lT) at temperature T can be calculated using
= x (1.0 + x ), (2.1) where T is the temperature difference between 25oC and the actual temperature (T), and denotes the thermal expansion coefficient. is the target dimension (e.g., core height) at 25oC.
Table 2.2. Specification of the SU1 core Parameter Design data Hot dimension Core power Operating pressure Core flow rate Inlet temperature 2441 MWth 2250 psia (15.51 MPa)
- 45. 8 x 106 kg/hr 560 F (293.33oC)
Number of fuel assemblies Assembly 1 (cycle 1)
Assembly 2 (cycle 1)
Assembly 3 (cycle 1)
Assembly 4A (cycle 2)
Assembly 4B (cycle 2)
Assembly 4C (cycle 2)
Assembly 4X (cycle 2)
Assembly 5 (cycle 3)
Total heavy metal mass (cycle 1) 157 1.87 w/o 235U 15 x 15 2.57 w/o 235U 15 x 15 3.12 w/o 235U 15 x 15 1.86 w/o 235U 15 x 15 2.61 w/o 235U 15 x 15 3.33 w/o 235U 15 x 15 1.86 w/o 235U 17 x 17 2.10 w/o 235U 15 x 15 81.8 MT Pin lattice configuration Active fuel lengtha Number of fuel rods Number of grid spacers Assembly pitch Pin pitch Fuel pellet radius Cladding inner/outer radius 15 x 15 366.903cm 204 7 (Inconel-718, 6 in active zone) 21.50364 cm 1.43 cm 0.46469 cm 0.47422/0.53594 cm 368.83 cm 21.60912 cm 1.43243 cm 0.46714 cm 0.47502/0.53685 cm Number of control banks CR material (lower)
Burnable poison material 53 AgInCd Borosilicate glass, 12.5 w/o B2O3 a Averaged active height (nominal: 365.76 cm)
4 Table 2.3. Specification of the SU1 fuel assemblies and reflectors Item Material Density (g/cm3)
Subitem (unit)
Thermal exp.
Coeff. (°)
Dimension (cm)
Cold Hot Active height UO2 1.052E-05 366.903 368.8323 Assembly pitch SS-304 1.730E-05 21.50364 21.60912 Pin pitch Inc-718 8.192 13.000E-06 1.43 1.43527 Assembly gap 0.05364 0.08006 Fuel UO2 Outer radius (cm) 1.052E-05 0.464693 0.46714 Pyrex He Outer radius (cm) 0.2838 SS-304 8.03 0.3004 He 0.3086 B2O3-SiO2 2.23 0.5029 He 0.5086 SS-304 8.03 0.5582 Clad Zr-4 6.56 Inner radius (cm) 6.000E-06 0.474218 0.47502 Outer radius (cm) 6.000E-06 0.53594 0.53685 Instrument tube Zr-4 6.56 Inner radius(cm) 6.000E-06 0.613918 0.61496 Outer radius(cm) 6.000E-06 0.690118 0.69129 Guide tube Zr-4 6.56 Inner radius(cm) 6.000E-06 0.613918 0.61496 Outer radius(cm) 6.000E-06 0.690118 0.69129 Spacer grid Inc-718 8.192 weight (g) 675 Height (cm) 3.81 Volume (g/cm3) 83.39746 Radial reflector SS-304 8.03 Water gap (cm) 0.1524 Baffle thick (cm) 2.54 Water Top reflector Zr-4(29*), SS-304(55), H2O(16)
Plenum 8.556 Zr-4(23), SS-304(45), Inc-718(20), H2O(12)
Plenum + Grid 3.866 Zr-4(29), SS-304(55), H2O(16)
Plenum 3.578 Zr-4(88), H2O(12)
Plug 1.670 Zr-4(7), H2O(93)
Nozzle + Gap 2.129 SS-304(76), H2O(24)
Top nozzle 8.827 SS-304(93), H2O(7)
Support plate 7.600 Bottom reflector Zr-4(44), Inc-718(21), H2O(35)
Gap 5.898 SS-304(80), H2O(20)
Bottom nozzle 6.053 SS-304(91), H2O(20)
Support plate 5.000 Zr-4(44), Inc-718(21), H2O(35)
Gap 20.000 Table 2.4. Thermal expansion coefficients.
Material Thermal expansion coefficient (°) Reference Zircaloy-4 6.0E-6
[8]
SS-304 17.3E-6
[9]
UO2 10.52E-6
[10]
Inc-718 13.0E-6
[11]
The following rules can be used in obtaining thermally expanded dimensions.
Equation (2.1) was used for x, y, and radial expansions.
Hot pin pitch was determined by expanding the Inconel-718 (Inc-718) spacer grid material.
Hot assembly pitch was determined by expanding the SS-304 bottom plate material.
5 Active height was determined by utilizing the same radial thermal expansion ratio of the UO2 fuel assembly.
Thermal expansion was not applied to control rod and burnable poison materials since the effect of moderator displacement would be minimal. The thickness of spacer grid surrounding fuel pin was determined by conserving the total mass of space grids with the thermally expanded hot pin pitch length.
Table 2.5 provides the cold and hot atomic number densities for UO2 fuel by conserving total uranium mass per each fuel assembly. The hot atomic number densities were used in the Polaris calculations to generate assembly homogenized 2-group cross sections for nodal diffusion calculations. Table 2.6 provides atomic number densities for structure materials such as Zircaloy-4 (Zr-4), Inc-718, SS-304, and BA and CR materials. The SU1 cycles 13 include the borosilicate (Pyrex) BAs. Figures 2.22.6 illustrate fuel assembly configurations with various loadings of UO2 fuel rods and Pyrex BAs.
Table 2.5. Atomic number densities for UO2 fuels Type Fuel type As-built 235U wt%
Density (g/cm3)
Mass (kg U)
Nuclide ID Atomic number density
(#/barn-cm)
Cold Hot Cold Hot 1
1.868_bp00 1.868 10.052 9.80508 449.921 234U 92234 6.72682E-06 6.62181E-06 235U 92235 4.23789E-04 4.17174E-04 238U 92238 2.19900E-02 2.16467E-02 16O 8016 4.47333E-02 4.40350E-02 17O 8017 2.01805E-05 1.98654E-05 18O 8018 9.41754E-05 9.27053E-05 2
2.573_bp00 2.573 9.987 9.83101 447.029 234U 92234 6.68385E-06 6.57951E-06 235U 92235 5.81495E-04 5.72418E-04 238U 92238 2.16891E-02 2.13505E-02 16O 8016 4.44476E-02 4.37538E-02 17O 8017 2.00516E-05 1.97385E-05 18O 8018 9.35740E-05 9.21132E-05 3
3.117_bp00 3.117 9.880 9.72577 439.800 234U 92234 6.61264E-06 6.50941E-06 235U 92235 6.94327E-04 6.83488E-04 238U 92238 2.13390E-02 2.10059E-02 16O 8016 4.39741E-02 4.32876E-02 17O 8017 1.98379E-05 1.95282E-05 18O 8018 9.25770E-05 9.11318E-05 4A 3.330_bp00 3.330 10.138 9.97973 453.771 234U 92234 6.78727E-06 6.68132E-06 235U 92235 7.60175E-04 7.48308E-04 238U 92238 2.18482E-02 2.15072E-02 16O 8016 4.51354E-02 4.44308E-02 17O 8017 2.03618E-05 2.00440E-05 18O 8018 9.50218E-05 9.35385E-05 4B 2.610_bp00 2.610 10.17 10.01124 455.209 234U 92234 6.80635E-06 6.70010E-06 235U 92235 5.98959E-04 5.89609E-04 238U 92238 2.20798E-02 2.17351E-02 16O 8016 4.52622E-02 4.45557E-02 17O 8017 2.04191E-05 2.01003E-05 18O 8018 9.52889E-05 9.38014E-05 4C 1.860_bp00 1.860 10.149 9.99056 454.242 234U 92234 6.78993E-06 6.68394E-06 235U 92235 4.27766E-04 4.21088E-04 238U 92238 2.22031E-02 2.18565E-02 16O 8016 4.51531E-02 4.44482E-02 17O 8017 2.03698E-05 2.00518E-05 18O 8018 9.50591E-05 9.35751E-05 4X 1.860_bp00 1.860 10.139 9.980722 456.189 234U 92234 6.78324E-06 6.67735E-06
6 235U 92235 4.27344E-04 4.20673E-04 238U 92238 2.21812E-02 2.18349E-02 16O 8016 4.51086E-02 4.44044E-02 17O 8017 2.03497E-05 2.00321E-05 18O 8018 9.49654E-05 9.34829E-05 5
2.100_bp00 2.100 10.213 10.05357 457.137 234U 92234 6.83293E-06 6.72627E-06 235U 92235 4.85138E-04 4.77565E-04 238U 92238 2.22890E-02 2.19411E-02 16O 8016 4.54390E-02 4.47297E-02 17O 8017 2.04988E-05 2.01788E-05 18O 8018 9.56611E-05 9.41677E-05 Table 2.6. Atomic number densities for structure materials (1/2)
Material Density (g/cm3)
Nuclide ID Atomic number density (#/barn-cm) cold hot Cold Hot Zr-4 6.56 6.52663 16O 8016 3.0791E-04 3.0634E-04 17O 8017 1.1729E-07 1.1669E-07 18O 8018 6.3274E-07 6.2952E-07 50Cr 24050 3.3013E-06 3.2845E-06 52Cr 24052 6.3662E-05 6.3338E-05 53Cr 24053 7.2187E-06 7.1820E-06 54Cr 24054 1.7969E-06 1.7877E-06 54Fe 26054 8.6833E-06 8.6391E-06 56Fe 26056 1.3631E-04 1.3562E-04 57Fe 26057 3.1480E-06 3.1319E-06 58Fe 26058 4.1894E-07 4.1681E-07 90Zr 40090 2.1861E-02 2.1750E-02 91Zr 40091 4.7674E-03 4.7431E-03 92Zr 40092 7.2870E-03 7.2500E-03 94Zr 40094 7.3848E-03 7.3472E-03 96Zr 40096 1.1897E-03 1.1837E-03 112Sn 50112 4.6807E-06 4.6569E-06 114Sn 50114 3.1848E-06 3.1686E-06 115Sn 50115 1.6406E-06 1.6323E-06 116Sn 50116 7.0163E-05 6.9806E-05 117Sn 50117 3.7060E-05 3.6872E-05 118Sn 50118 1.1687E-04 1.1628E-04 119Sn 50119 4.1451E-05 4.1240E-05 120Sn 50120 1.5721E-04 1.5641E-04 122Sn 50122 2.2342E-05 2.2229E-05 124Sn 50124 2.7940E-05 2.7798E-05 Inc-718 8.2 50Cr 24050 7.8239E-04 52Cr 24052 1.5088E-02 53Cr 24053 1.7108E-03 54Cr 24054 4.2586E-04 54Fe 26054 1.4797E-03 56Fe 26056 2.3229E-02 57Fe 26057 5.3645E-04 58Fe 26058 7.1392E-05 55Mn 25055 7.8201E-04 58Ni 28058 2.9320E-02 60Ni 28060 1.1294E-02 61Ni 28061 4.9094E-04 62Ni 28062 1.5653E-03 64Ni 28064 3.9864E-04 28Si 14028 5.6757E-04 29Si 14029 2.8820E-05
7 30Si 14030 1.8998E-05 Borosilicate glass (Pyrex) 2.2599 10B 5010 9.2773E-04 11B 5011 3.7323E-03 16O 8016 4.5395E-02 17O 8017 1.4273E-05 18O 8018 9.2773E-05 23Na 11023 2.4264E-03 27Al 13027 5.0668E-04 28Si 14028 1.6849E-02 29Si 14029 8.5637E-04 30Si 14030 5.6377E-04 Table 2.6. Atomic number densities for structure materials (2/2)
Material Density (g/cm3)
Nuclide ID Atomic number density (#/barn-cm) cold hot Cold Hot Borosilicate glass (Pyrex)
Once burnt 2.26 10B 5010 5.7981E-05 11B 5011 4.6095E-03 16O 8016 4.5467E-02 23Na 11023 2.4302E-03 27Al 13027 5.0749E-04 28Si 14028 1.6871E-02 29Si 14029 8.6003E-04 30Si 14030 5.6725E-04 AgInCd 10.16 107Ag 47107 2.3523e-02 109Ag 47109 2.1854e-02 106Cd 48106 3.3882e-05 108Cd 48108 2.4166e-05 110Cd 48110 3.3936e-04 111Cd 48111 3.4821e-04 112Cd 48112 6.5611e-04 113Cd 48113 3.3275e-04 114Cd 48114 7.8252e-04 116Cd 48116 2.0443e-04 113In 49113 3.4219e-04 115In 49115 7.6511e-03 B4C 1.76 10B 5010 1.5206e-02 11B 5011 6.1514e-02 12C 6012 1.8972e-02 13C 6013 2.1252e-04 SS 304 8.03 50Cr 24050 7.6778e-04 52Cr 24052 1.4806e-02 53Cr 24053 1.6789e-03 54Cr 24054 4.1791e-04 54Fe 26054 3.4620e-03 56Fe 26056 5.4345e-02 57Fe 26057 1.2551e-03 58Fe 26058 1.6703e-04 55Mn 25055 1.7604e-03 58Ni 28058 5.6089e-03 60Ni 28060 2.1605e-03 61Ni 28061 9.3917e-05 62Ni 28062 2.9945e-04 64Ni 28064 7.6261e-05 28Si 14028 9.5281e-04 29Si 14029 4.8381e-05 30Si 14030 3.1893e-05
8 Fuel rod Guide tube Instrumentation tube Figure 2.2. Type 1, 2, 3, 4A, 4B, 4C, and 5 fuel assembly configurations without BA.
Fuel rod Guide tube Instrumentation tube Figure 2.3. Type 4X 17 x 17 fuel assembly configuration without BA.
9 Fuel rod Guide tube Instrumentation tube Burnable absorber rod Figure 2.4. Fuel assembly configurations with 8 BAs.
Fuel rod Guide tube Instrumentation tube Burnable absorber rod Figure 2.5. Fuel assembly configurations with 12 BAs.
10 Fuel rod Guide tube Instrumentation tube Burnable absorber rod Figure 2.6. Fuel assembly configurations with 20 BAs.
Because the EPRI report [1] includes some errors in loading patterns, they were corrected as provided in Table 2.7. Figure 2.7 illustrates the fuel assembly loading pattern of the SU1 cycle 2 in the EPRI report.
Fuel assembly types 4A and 4C were switched with each other, which would be much more reasonable in the sense that high enriched fuel assemblies are located at core periphery as similar with the SU1 cycle 1 loading pattern. In addition, the original loading pattern in the EPRI report would result in unrealistic differences in critical boron concentrations and flux maps. There are also some duplicated fuel assembly identifications and then missing identifications. The corrected loading pattern could introduce reasonable benchmark results.
Figure 2.8 provides the cycle 1 fuel assembly loading pattern for which three 1.86, 2.57 and 3.12 wt%
235U enrichment fuels were used, and assembly types B and C include 12 BAs. Figure 2.9 illustrates the cycle 2 loading pattern with fresh assembly loadings with 1.86, 2.61, and 3.33 wt% 235U fuels and shuffling of once-burned fuel assemblies. Two 17 x 17 fuel assemblies with 1.86 wt% 235U fuels were loaded in cycle 2. Not all the type C once-burned fuel assemblies were used in cycle 2; some were used in cycle 3. Figure 2.10 illustrates the cycle 3 loading pattern with fresh assembly loadings with 2.1 wt%
235U fuels and shuffling of once-and twice-burned fuel assemblies. Control and shutdown bank positions are provided in Figure 2.11. Because the bank S at L5 is incorrect in the EPRI report, the position was corrected. Figure 2.12 illustrates the locations of the 235U fission chambers as in-core detectors taken from the measured flux map data and the EPRI report for Turkey Point [12]. Table 2.8 provides the fuel assembly types and numbers loaded in cycles 13. The SU1 axial configuration for fuel, spacer grids, and reflectors is shown in Table 2.9, where the first spacer grid location was determined partly based on the in-core power map data.
11 Table 2.7. Correction of the assembly IDs Cycle EPRI report Correction Location Comments 1
C-7 C-1 P10 duplication 2
4A 1.86 wt%
4A 3.33 wt%
many switched with each other 4C 3.33 wt%
4C 1.86 wt%
many 4B-7 4B-1 H13 duplication 4C-7 4C-1 J6 duplication 3
4A-2 4A-3 G1 symmetry is broken 4A-3 4A-2 B7 4A-30 4A-23 E14 duplication 4A-75 4A-25 J1 missing 4A-73 4A-38 L14 missing Figure 2.7. Loading pattern of the SU1 cycle 2 in the EPRI report.
12 R
P N
M L
K J
H G
F E
D C
B A
1 C-30 P
C-27 P
C-16 P
2 C-31 P
C-28 C-51 BP12 A-35 C-2 BP12 C-3 C-20 P
3 C-47 P
C-21 BP12 B-10 BP12 A-9 B-35 BP12 A-52 B-18 BP12 C-13 BP12 C-6 P
4 C-43 P
A-18 B-28 BP12 A-22 B-19 BP12 A-8 B-25 BP12 A-21 B-31 BP12 A-2 C-32 P
5 C-46 P
C-7 BP12 B-50 BP12 A-46 B-52 BP12 A-6 P
B-17 BP12 A-39 P
B-3 BP12 A-25 B-23 BP12 C-40 BP12 C-33 P
6 C-26 B-47 BP12 A-20 B-2 BP12 A-11 B-7 BP12 A-49 B-34 BP12 A-30 B-11 BP12 A-41 B-24 BP12 C-15 7
C-34 P
C-8 BP12 A-17 B-6 BP12 A-16 P
B-8 BP12 A-1 B-36 BP12 A-3 B-33 BP12 A-37 P
B-15 BP12 A-24 C-44 BP12 C-39 P
8 C-38 P
A-38 B-27 BP12 A-48 B-45 BP12 A-51 B-26 BP12 A-32 B-42 BP12 A-31 B-21 BP12 A-19 B-1 BP12 A-40 C-49 P
9 C-35 P
C-25 BP12 A-50 B-9 BP12 A-53 P
B-44 BP12 A-10 B-14 BP12 A-7 B-29 BP12 A-23 P
B-30 BP12 A-43 C-36 BP12 C-29 P
10 C-1*
B-16 BP12 A-13 B-46 BP12 A-42 B-20 BP12 A-12 B-39 BP12 A-15 B-37 BP12 A-34 B-40 BP12 C-10 11 C-45 P
C-18 BP12 B-4 BP12 A-14 B-13 BP12 A-44 P
B-49 BP12 A-47 P
B-5 BP12 A-33 B-43 BP12 C-19 BP12 C-23 P
12 C-24 P
A-45 B-32 BP12 A-27 B-48 BP12 A-5 B-22 BP12 A-4 B-12 BP12 A-28 C-4 P
13 C-12 P
C-11 BP12 B-51 BP12 A-26 B-41 BP12 A-36 B-38 BP12 C-17 BP12 C-9 P
14 C-22 P
C-14 C-50 BP12 A-29 C-52 BP12 C-48 C-37 P
15 C-41 P
C-42 P
C-5 P
- Note: See Table 2.7 for correction.
A-XX Assembly 1.868 wt% 235U P
Plug B-XX Assembly 2.573 wt% 235U BP Burnable absorber C-XX Assembly 3.117 wt% 235U Figure 2.8. Layout of fuel assemblies and BAs in the SU1 cycle 1.
13 R
P N
M L
K J
H G
F E
D C
B A
1 4A-32 P
4A-22 P
4A-5 P
2 4A-13 P
4A-36 4A-40 BP20 A-8 4A-52 BP20 4A-7 4A-48 P
3 4A-30 P
4A-15 BP12 A-22 P
B-28 4B-3 BPR12 B-31 A-21 P
4 4A-20 P
4C-4 B-7 P
B-19 B-52 P
B-35 B-3 P
B-25 B-34 P
4C-5 4A-38 P
5 4A-27 P
4A-9 BP12 B-8 P
B-36 4X-1 P
B-10 P
4B-10 BP8 B-18 P
4C-8 P
B-42 B-33 P
6 4A-45 A-20 P
B-6 4C-17 P
A-18 4C-1*
P A-35 4C-18 P
A-2 4C-10 P
B-15 A-41 P
4A-17 7
4A-43 P
4A-4 BP20 B-50 B-2 P
B-47 P
4C-6 P
B-24 P
B-11 P
8 4A-39 P
A-48 4B-5 BPR12 B-27 4B-9 BP8 A-38 4B-7 BP8 A-32 4B-12 BP8 A-40 4B-8 BP8 B-1 4B-11 BPR12 A-19 4A-41 P
9 4A-14 P
4A-26 BP20 B-4 B-46 P
B-16 P
4C-9 P
B-40 P
B-37 P
10 4A-21 A-13 P
B-9 4C-3 P
A-45 4C-15 P
A-29 4C-16 P
A-28 4C-12 P
B-30 A-34 P
4A-16 BP12 B-44 P
B-26 4C-11 P
B-51 P
4B-2 BP8 B-38 P
4X-2 P
B-14 B-29 P
12 4A-37 P
4C-2 B-20 P
B-48 B-13 P
B-41 B-5 P
B-22 B-39 P
4C-13 4A-24 P
13 4A-29 P
4A-35 BP12 A-27 P
B-32 4B-1*
BPR12 B-12 A-4 P
14 4A-44 P
4A-8 4A-46 BP20 A-5 4A-33 BP20 4A-19 4A-10 P
15 4A-3 P
4A-31 P
4A-25 P
- Note: See Table 2.7 for correction. BPR12 is from cycle 1 only with BA.
A-XX Assembly 1.868 wt% 235U 4C-XX Assembly type 4C 1.860 wt% 235U B-XX Assembly 2.573 wt% 235U 4X-XX Assembly type 4X 1.860 wt% 235U 4A-XX Assembly type 4A 3.330 wt% 235U P
Plug 4B-XX Assembly type 4B 2.610 wt% 235U BP Burnable absorber Figure 2.9. Layout of fuel assemblies and BAs in the SU1 cycle 2.
14 R
P N
M L
K J
H G
F E
D C
B A
1 4A-25 P*
4A-31 P
4A-3 P*
2 4A-11 P
4A-33 4A-7 P
C-20 4A-36 P
4A-46 4A-29 P
3 4A-10 P
4A-1 P
C-30 BP12 A-9 C-3 A-52 C-16 BP12 4A-35 P
4A-44 P
4 4A-12 P
C-37 4X-1 P
5A-15 C-17 P
C-2 C-11 P
5A-6 4C-8 P
C-45 4A-42 P
5 4A-24 P
4A-34 P
4C-17 P
C-28 5A-1 P
4C-1 P
C-51 P
4C-18 P
5A-8 P
C-15 4C-10 P
4A-16 P
4A-37 P
6 4A-50 C-37 BP12 5A-13 5A-2 P
4C-4 C-32 P
A-46 C-43 P
4C-5 5A-14 P
4A-49 P
4A-21 P
A-17 C-19 P
4C-6 P
C-12 P
4B-10 C-42 P
4B-8 C-9 P
4C-14 P
C-18 P
A-24 4A-2*
P 4A-14 P
8 4A-41 P
C-46 C-26 BP12 C-8 C-25 P
A-14 C-49 P
A-12 C-38 P
A-25 C-44 P
C-36 C-10 BP12 C-23 4A-39 P
9 4A-28 P
4A-45 P
A-50 C-40 P
4C-9 P
C-47 P
4B-9 C-27 P
4B-2 C-6 P
4C-7 P
C-1 P
A-43 4A-17 P
4A-43 P
10 4A-6 C-35 BP12 5A-11 5A-12 P
4C-2 C-4 P
A-33 C-24 P
4C-13 5A-9 P
5A-10 C-29 BP12 4A-4 11 4A-30 P
4A-18 P
4C-3 P
C-7 5A-16 P
4C-15 P
C-52 P
4C-16 P
5A-4 P
C-48 4C-12 P
4A-9 P
4A-20 P
12 4A-51 P
C-33 4C-11 P
5A-5 C-13 P
C-50 C-21 P
5A-7 4X-2 P
C-31 4A-27 P
13 4A-48 P
4A-47 P
C-41 BP12 A-76 C-14 A-36 C-5 BP12 4A-15 P
4A-13 P
14 4A-38 P*
4A-52 4A-19 P
C-22 4A-8 P
4A-40 4A-23 P*
15 4A-5 P
4A-22 P
4A-32 P
- Note: See Table 2.7 for correction.
A-XX Assembly 1.868 wt% 235U 4X-XX Assembly type 4X 1.860 wt% 235U C-XX Assembly 3.117 wt% 235U 5-XX Assembly type 5 2.100 wt% 235U 4A-XX Assembly type 4A 3.330 wt% 235U P
Plug 4B-XX Assembly type 4B 2.610 wt% 235U BP Burnable absorber 4C-XX Assembly type 4C 1.860 wt% 235U Figure 2.10. Layout of fuel assemblies and BAs in the SU1 cycle 3.
15 R
P N
M L
K J
H G
F E
D C
B A
1 2
A D
A 3
S S
4 C
B P
B C
5 S*
S 6
A B
D C
D B
A 7
S S
S S
8 D
P C
P C
P C
9 S
S S
S 10 A
B D
C D
B A
11 S
S 12 C
B P
B C
13 S
S 14 A
D A
15 A
Control rod bank A D
Control rod bank D B
Control rod bank B S
Shutdown control rod bank C
Control rod bank C P
Part length control rods
Figure 2.11. Layout of control banks in the SU1 cycles 1-3.
16 R
P N
M L
K J
H G
F E
D C
B A
1 18E 2
31B 3
1B 9D 45E 10C 4
13C 37D 3C 5
22D 50E 24B 49D 39A 7E 6
40A 8E 15B 7
33E 28C 20A 29C 17A 8
36C 46D 4B 5D 44B 25D 9
11E 19E 32B 34A 10 26A 23D 41B 12C 11 48B 38A 21C 47A 12 35E 16E 6E 27D 13 43C 14B 14 30A 42D 15 2C ID Figure 2.12. Core instrumentation locations in SU1 cycles 1-3.
17 Table 2.8. Assembly types for the SU1 cycles 13 Cycle Type 235U wt%
Power density (W/g)
BA PARCS assembly no.
Description Remark 1
1 1.868 34.8938 0
10 1.868 wt% 00-BA 2
2.573 34.8938 0
20 2.573 wt% 00-BA 12 22 2.573 wt% 12-BA Pyrex 3
3.117 34.8938 0
30 3.117 wt% 00-BA 12 32 3.117 wt% 12-BA Pyrex 2
4A 3.330 34.4587 0
40 3.330 wt% 00-BA 12 42 3.330 wt% 12-BA Pyrex 20 43 3.330 wt% 20-BA Pyrex 4B 2.610 34.4587 8
51 2.610 wt% 08-BA Pyrex 12 54 2.610 wt% 12-BA Pyrex 4C 1.860 34.4587 0
60 1.860 wt% 00-BA 4X 1.860 34.4587 0
70 1.860 wt% 00-BA 3
5 2.100 34.0250 0
80 2.100 wt% 00-BA Table 2.9. SU1 core axial configurations No.
Axial materials Height (cm)
Distance (cm)
No. of meshes Cold Hot 1
Top reflector 396.241 398.170 14.098 1
2 Fuel rod 382.143 384.072 29.844 2
3 Spacer grid 6 352.499 354.228 3.810 1
4 Fuel rod 348.689 350.418 63.039 6
5 Spacer grid 5 285.977 287.379 3.810 1
6 Fuel rod 282.167 283.569 63.039 6
7 Spacer grid 4 219.454 220.530 3.810 1
8 Fuel rod 215.644 216.720 63.039 6
9 Spacer grid 3 152.931 153.682 3.810 1
10 Fuel rod 149.121 149.872 63.039 6
11 Spacer grid 2 86.409 86.833 3.810 1
12 Fuel rod 82.599 83.023 57.850 6
13 Spacer grid 1 25.050 25.173 3.810 1
14 Fuel rod 21.240 21.363 6.123 1
15 Bottom reflector 15.240 15.240 15.240 1
16 0.000 0.000 0.000 41 2.2.2 Measured Data The measured data used in the current study were obtained from the publicly available operating history of SU1 cycles 1-3, including a critical boron history and in-core detector responses. Figures 2.13 and 2.14 and Tables 2.10 to 2.11 provide the operational histories for powers, control bank D insertion, and inlet temperatures at burnups for cycle 1 and 2, respectively. The EPRI report does not provide a detailed operational history for SU1 cycle 3. Table 2.12 provides the information for the measured in-core detector response, including burnups, corresponding burnup points in the PARCS models, and in-core detector locations. The EPRI report does not provide in-core flux map data directly, but 3D local powers at in-core detector locations converted from in-core flux map data using the INCORE code are provided
[1]. Therefore, 3D assembly powers should be compared with the measured 3D assembly powers.
18 Figure 2.13. Power and D bank position history for SU1 cycle 1.
Figure 2.14. Power and D bank position history for SU1 cycle 2.
19 Table 2.10. SU1 cycle 1 operational history No Burnup (MWd/t)
Power
(%)
D bank stepa Tin (K)
No Burnup (MWd/t)
Power
(%)
D bank step Tin (K)
No Burnup (MWd/t)
Power
(%)
D bank step Tin (K) 1 274 4.96 62.5 567.43 41 4,753b 90.95 126.3 571.35 81 10,445 99.10 133.3 570.70 2
274 29.29 37.3 568.79 42 4,990 90.91 123.8 570.70 82 10,540 99.75 135.8 571.13 3
283 31.42 99.0 568.85 43 5,176 93.81 127.6 570.70 83 10,570 99.75 137.1 570.86 4
284 0.00 77.7 568.85 44 5,328 95.66 135.8 570.83 84 10,732 67.92 125.1 569.50 5
288 44.08 89.7 569.34 45 5,450 89.55 135.8 570.33 85 10,765 93.53 136.4 570.39 6
313 61.49 97.9 571.23 46 5,608 94.72 129.5 572.52 86 10,796 93.16 135.2 570.39 7
364 72.72 122.5 572.03 47 5,890 86.77 133.9 570.52 87 10,859 93.36 134.5 570.55 8
365 75.26 101.1 571.63 48 5,915 88.28 133.9 571.10 88 10,891 95.00 136.4 570.64 9
764 75.42 114.9 571.88 49 6,296 94.59 136.4 571.07 89 10,990 95.90 137.7 570.83 10 790 74.19 117.5 571.44 50 6,456 94.22 133.9 570.86 90 11,050 96.27 137.1 570.92 11 815 74.52 114.9 571.78 51 6,750 94.39 135.2 570.76 91 11,190 96.97 130.3 571.01 12 826 74.52 115.6 572.37 52 6,968 94.02 132.6 571.17 92 11,225 98.07 137.7 570.70 13 963 71.36 118.1 572.00 53 7,227 94.02 133.9 571.26 93 11,630 98.61 136.4 570.70 14 1,009 74.56 116.6 568.85 54 7,370 96.35 134.5 570.70 94 11,865 99.67 138.3 570.70 15 1,077 74.56 117.5 572.15 55 7,676 96.11 135.2 571.01 95 11,895 99.26 137.7 571.01 16 1,207 73.86 114.9 571.94 56 7,700 96.76 134.5 571.01 96 12,000 99.47 142.1 571.01 17 1,232 74.03 123.8 572.21 57 8,045 95.94 133.3 571.32 97 12,035 99.34 142.7 571.01 18 1,252 74.19 125.1 572.15 58 8,370 95.86 132.0 570.70 98 12,100 98.57 136.4 570.70 19 1,353 75.01 122.5 571.41 59 8,775 98.69 139.6 571.32 99 12,135 99.06 136.4 570.70 20 1,379 74.23 120.6 570.33 60 8,810 97.46 144.0 571.01 100 12,200 98.07 132.6 571.01 21 1,405 75.34 125.1 571.94 61 8,845 98.93 139.6 571.32 101 12,230 99.92 140.8 571.01 22 1,431 76.16 125.1 572.12 62 9,130 97.79 135.8 571.01 102 12,260 98.65 140.2 571.01 23 1,456 74.85 123.2 570.67 63 9,165 98.57 136.4 571.01 103 12,530 99.80 143.4 571.32 24 1,485 74.89 142.1 570.86 64 9,200 99.34 135.2 571.01 104 12,560 98.53 138.3 571.01 25 1,671 75.71 125.1 570.67 65 9,235 99.14 137.1 572.55 105 12,595 98.81 141.5 571.01 26 1,693 73.90 126.3 571.01 66 9,270 98.85 137.7 571.01 106 12,665b 99.22 143.4 571.32 27 1,755 74.85 125.1 570.24 67 9,305 99.39 134.5 571.32 107 12,700 97.71 141.5 571.32 28 1,880b 91.97 128.2 570.24 68 9,333 98.81 135.2 571.01 108 12,730 98.77 142.1 571.01 29 2,075 78.98 118.1 571.01 69 9,405 98.57 137.1 571.01 109 12,865 92.34 129.5 571.01 30 2,190 90.82 123.2 572.06 70 9,438 98.85 136.4 571.01 110 12,960 98.61 143.4 571.01 31 2,449 87.55 126.3 571.20 71 9,470 98.57 136.4 571.01 111 13,120 60.63 128.2 570.70 32 2,720 87.96 128.8 571.50 72 9,715 99.30 136.4 571.01 112 13,250 58.99 128.8 570.09 33 2,990 88.41 129.5 571.66 73 9,810 99.67 137.1 571.01 113 13,310b 59.40 133.9 570.39 34 3,204 89.02 125.7 571.72 74 9,935 99.51 138.3 570.70 114 13,330 59.81 135.2 570.09 35 3,646 89.51 126.9 569.19 75 9,965 99.84 137.7 571.01 115 13,420 61.45 137.1 571.01 36 3,830 86.11 126.9 571.54 76 9,995 98.65 130.7 570.70 116 13,560 60.18 132.0 570.39 37 4,043 89.14 126.9 571.75 77 10,130b 98.73 133.3 570.70 117 13,560 59.40 132.6 570.39 38 4,257 88.82 123.2 571.50 78 10,335 98.07 136.4 571.01 39 4,476 91.11 127.6 571.23 79 10,365 98.44 135.8 571.01 40 4,732 81.85 126.3 570.92 80 10,405 99.43 138.3 571.01 a Bank step 144 is fully out.
b In-core power map data given in the EPRI report (Highlighted cells)
20 Table 2.11. SU1 cycle 2 operational history No Burnup (MWd/t)
Power
(%)
D bank stepa Tin (K)
No Burnup (MWd/t)
Power
(%)
D bank step Tin (K)
No Burnup (MWd/t)
Power
(%)
D bank step Tin (K) 1 115b 98.44 137.7 568.71 26 2,090 98.93 142.7 564.26 51 3,250 100.00 144.0 567.59 2
145 99.10 140.2 569.26 27 2,125 99.55 143.4 569.82 52 3,300 100.00 144.0 567.59 3
290b 99.55 134.5 569.26 28 2,160 97.87 143.4 566.48 53 3,320 100.00 144.0 567.59 4
495 99.80 134.3 569.26 29 2,190 98.24 144.0 569.82 54 3,350 100.00 144.0 567.59 5
530 99.55 135.2 568.71 30 2,220 99.34 140.8 569.82 55 3,385 100.00 144.0 567.59 6
565 100.00 135.2 569.26 31 2,570 100.00 144.0 567.59 56 3,420 100.00 144.0 567.59 7
600 100.00 135.2 569.26 32 2,600 100.00 144.0 567.59 57 3,552 100.00 140.0 569.82 8
700 100.00 135.2 569.26 33 2,640 100.00 144.0 567.59 58 3,590 100.00 141.5 569.82 9
860 99.55 135.8 569.82 34 2,670 100.00 144.0 567.59 59 3,890 100.00 143.4 569.26 10 895 99.75 135.2 569.82 35 2,710 100.00 144.0 567.59 60 3,915 100.00 142.1 569.26 11 1,150 98.93 137.1 569.26 36 2,740 100.00 144.0 567.59 61 3,960 99.92 140.8 569.82 12 1,190 99.02 138.3 569.82 37 2,775 100.00 144.0 567.59 62 3,990 99.88 140.0 569.82 13 1,220 98.61 137.7 569.82 38 2,810 100.00 144.0 567.59 63 4,025 99.88 143.4 569.26 14 1,250 97.75 137.7 569.26 39 2,845 100.00 144.0 567.59 64 4,060b 99.92 142.7 566.48 15 1,295 98.77 139.6 566.48 40 2,880 100.00 144.0 567.59 65 4,095 100.00 141.5 569.26 16 1,325 98.32 137.1 569.82 41 2,910 100.00 144.0 567.59 66 4,130 99.84 140.2 569.26 17 1,350 99.71 140.2 570.37 42 2,945 100.00 144.0 567.59 67 4,165 99.88 143.4 569.82 18 1,685 99.22 142.1 569.82 43 2,980 100.00 144.0 567.59 68 4,400 99.14 138.9 569.82 19 1,725 98.44 144.0 569.26 44 3,010 100.00 144.0 567.59 69 4,610 99.80 142.1 569.65 20 1,765 99.55 144.0 569.26 45 3,045 100.00 144.0 567.59 70 4,845 99.75 140.2 569.59 21 1,790 99.51 142.1 570.37 46 3,085 100.00 144.0 567.59 71 5,000 99.26 143.4 569.59 22 1,860 98.81 138.3 570.37 47 3,110 100.00 144.0 567.59 72 5,385 98.81 135.8 569.82 23 1,920 99.88 141.5 570.37 48 3,150 100.00 144.0 567.59 73 5,730 99.67 140.2 569.59 24 1,990 99.34 142.7 570.37 49 3,190 100.00 144.0 567.59 74 6,060 94.06 132.0 568.76 25 2,020b 99.14 141.5 569.82 50 3,220 100.00 144.0 567.59 75 6,550b 100.00 135.8 568.76 a Bank step 144 is fully out.
b In-core power map data
21 Table 2.12. In-core power map data Cycle Cycle 1 Cycle 2 Measured Map 43 Map 53 Map 68 Map 71 Map 73 Map 9 Map 10 Map 13 Map 17 Map 20 PARCS point 29 42 78 107 114 2
4 26 65 76 Burnup (MWd/kgU) 1.88 4.753 10.13 12.665 13.31 0.115 0.290 2.02 4.06 6.55 No.
ID Location 1
18E H01 2
31B F02 3
1B M03 4
9D J03 5
45E H03 6
10C D03 7
13C L04 8
37D H04 9
3C F04 10 22D N05 11 50E L05 12 24B J05 13 49D E05 14 39A D05 15 7E B05 16 40A L06 17 8E H06 18 15B F06 19 33E N07 20 28C J07 21 20A G07 22 29C D07 23 17A B07 24 36C R08 25 46D N08 26 4B L08 27 5D F08 28 44B C08 29 25D B08 30 11E L09 31 19E G09 32 32B F09 33 34A A09 34 26A N10 35 23D J10 36 41B D10 37 12C B10 38 48B L11 39 38A H11 40 21C F11 41 47A E11 42 35E N12 43 16E J12 44 6E D12 45 27D C12 46 43C H13 47 14B F13 48 30A L14 49 42D G14 50 2C J15
22
- 3.
BENCHMARK CALCULATIONS AND RESULTS 3.1 BENCHMARK CALCULATION 3.1.1 Polaris Calculations The SCALE 6.3/Polaris inputs were prepared using the data provided in Section 2 to process assembly-homogenized 2-group cross sections for whole-core nodal diffusion calculations. To cover all the possible reactor states, the 2-group cross sections were tabulated as a function of burnup, moderator, and fuel temperatures, moderator density, soluble boron concentration, and CRs. Table 3.1 provides assembly type state information for eight history cases. Another eight history cases are for an assembly with spacer grids. This spacer grid should be considered in the Polaris lattice physics calculation. SU1 has seven Inc-718 spacer grids and six Inc-718 spacer grids are included in the active fuel zone, but the top spacer grid is not included in the active fuel zone. Therefore, two sets of cross-section table sets should be provided for each assembly.
To complete the functionalization of the cross-section table sets, various branch calculations should be performed at each burnup point for each history case. Tables 3.2 and 3.3 provide the information for branch states for assembly type without and with BA, respectively. Because the Pyrex BAs are located at the guide tubes, branch cases 28-36 for assembly type without BA are not included in the assembly with BA. Bank A and Bank B represent the full and partial length CR rods, respectively. Furthermore, in the Polaris calculations, Pyrex BAs are considered as a control rod bank, consistent with their treatment as a control rod bank in the PARCS calculation Table 3.4 provides the branch cases for reflectors for which no depletion calculation was performed. Figure 3.1 illustrates the Polaris models for radial, top, and bottom axial reflectors.
Appendices A.1A.4 provide the Polaris inputs for fuel assembly a_1.868_bp00 (A.1) and for radial (A.2), axial top (A.3), and bottom (A.4) reflectors. Table 3.5 provides the Polaris input and output files for SU1 cycles 13. A sample file name with b1_1.868_bp00_cr1_dc60_p0500_tf0800.inp indicates b1: Surry Unit 1 assembly type index, 1.868: 1.868 235U wt%,
bp00: no burnable poison, dc60: 0.608316 g/cm3 moderator density, p0500: 500 ppm, tf0800: 800K fuel temperature, and inp: Polaris input.
Table 3.5 includes the actual states for 235U wt%, burnable poisons, moderator densities, soluble boron concentrations, and fuel temperatures, and the Polaris file types.
Table 3.1. History cases for each assembly type History History File name Control rod-in Moderator temperature (K)
Density (g/cm3)
Soluble boron (ppm)
Fuel temperature (K)
Spacer grid A1 cr0_dc77_p0500_tf0800 no 550 0.769987 500 800 no A2 cr0_dc60_p0500_tf0800 no 615 0.608316 500 800 no A3 cr0_dc70_p1500_tf0800 no 585 0.700809 1,500 800 no A4 cr0_dc70_p0000_tf0800 no 585 0.700809 0
800 no A5 cr0_dc70_p0500_tf1600 no 585 0.700809 500 1,600 no A6 cr0_dc70_p0500_tf0560 no 585 0.700809 500 560 no
23 A7 cr0_dc70_p0500_tf0800 no 585 0.700809 500 800 no A8 cr1_dc70_p0500_tf0800 yes 585 0.700809 500 800 no B1 cr0_dc77_p0500_tf0800 no 550 0.769987 500 800 yes B2 cr0_dc60_p0500_tf0800 no 615 0.608316 500 800 yes B3 cr0_dc70_p1500_tf0800 no 585 0.700809 1,500 800 yes B4 cr0_dc70_p0000_tf0800 no 585 0.700809 0
800 yes B5 cr0_dc70_p0500_tf1600 no 585 0.700809 500 1,600 yes B6 cr0_dc70_p0500_tf0560 no 585 0.700809 500 560 yes B7 cr0_dc70_p0500_tf0800 no 585 0.700809 500 800 yes B8 cr1_dc70_p0500_tf0800 yes 585 0.700809 500 800 yes Table 3.2. Branch states for assembly type without BA Case Control bank All Moderator Fuel History B
A Temperature (K)
Density (g/cm3)
Soluble boron (ppm)
Temperature (K) 1 false false 615.0 0.608316 0.1 560.0 2
false false 615.0 0.608316 500.0 560.0 3
false false 615.0 0.608316 1,500.0 560.0 4
false false 585.0 0.700809 0.1 560.0 5
false false 585.0 0.700809 500.0 560.0 A6 6
false false 585.0 0.700809 1,500.0 560.0 7
false false 550.0 0.769987 0.1 560.0 8
false false 550.0 0.769987 500.0 560.0 9
false false 550.0 0.769987 1,500.0 560.0 10 false false 615.0 0.608316 0.1 800.0 11 false false 615.0 0.608316 500.0 800.0 A2, B2 12 false false 615.0 0.608316 1,500.0 800.0 13 false false 585.0 0.700809 0.1 800.0 A4, B4 14 false false 585.0 0.700809 500.0 800.0 A7, B7 15 false false 585.0 0.700809 1,500.0 800.0 A3, B3 16 false false 550.0 0.769987 0.1 800.0 17 false false 550.0 0.769987 500.0 800.0 A1, B1 18 false false 550.0 0.769987 1,500.0 800.0 19 false false 615.0 0.608316 0.1 1,600.0 20 false false 615.0 0.608316 500.0 1,600.0 21 false false 615.0 0.608316 1,500.0 1,600.0 22 false false 585.0 0.700809 0.1 1,600.0 23 false false 585.0 0.700809 500.0 1,600.0 A5, B5 24 false false 585.0 0.700809 1,500.0 1,600.0 25 false false 550.0 0.769987 0.1 1,600.0 26 false false 550.0 0.769987 500.0 1,600.0 27 false false 550.0 0.769987 1,500.0 1,600.0 28 true false 615.0 0.608316 0.1 800.0 29 true false 615.0 0.608316 500.0 800.0 30 true false 615.0 0.608316 1,500.0 800.0 31 true false 585.0 0.700809 0.1 800.0 32 true false 585.0 0.700809 500.0 800.0 A8, B8 33 true false 585.0 0.700809 1,500.0 800.0 34 true false 550.0 0.769987 0.1 800.0 35 true false 550.0 0.769987 500.0 800.0
24 36 true false 550.0 0.769987 1,500.0 800.0 37 false true 615.0 0.608316 0.1 800.0 38 false true 615.0 0.608316 500.0 800.0 39 false true 615.0 0.608316 1,500.0 800.0 40 false true 585.0 0.700809 0.1 800.0 41 false true 585.0 0.700809 500.0 800.0 42 false true 585.0 0.700809 1,500.0 800.0 43 false true 550.0 0.769987 0.1 800.0 44 false true 550.0 0.769987 500.0 800.0 45 false true 550.0 0.769987 1,500.0 800.0 Table 3.3. Branch states for assembly type with BA Case Control bank All Moderator Fuel Remark BA Rod Temperature (K)
Density (g/cm3)
Soluble boron (ppm)
Temperature (K) 1 false 615.0 0.608316 0.1 560.0 2
false 615.0 0.608316 500.0 560.0 3
false 615.0 0.608316 1,500.0 560.0 4
false 585.0 0.700809 0.1 560.0 5
false 585.0 0.700809 500.0 560.0 A6 6
false 585.0 0.700809 1,500.0 560.0 7
false 550.0 0.769987 0.1 560.0 8
false 550.0 0.769987 500.0 560.0 9
false 550.0 0.769987 1,500.0 560.0 10 false 615.0 0.608316 0.1 800.0 11 false 615.0 0.608316 500.0 800.0 A2, B2 12 false 615.0 0.608316 1,500.0 800.0 13 false 585.0 0.700809 0.1 800.0 A4, B4 14 false 585.0 0.700809 500.0 800.0 A7, B7 15 false 585.0 0.700809 1,500.0 800.0 A3, B3 16 false 550.0 0.769987 0.1 800.0 17 false 550.0 0.769987 500.0 800.0 A1, B1 18 false 550.0 0.769987 1,500.0 800.0 19 false 615.0 0.608316 0.1 1,600.0 20 false 615.0 0.608316 500.0 1,600.0 21 false 615.0 0.608316 1,500.0 1,600.0 22 false 585.0 0.700809 0.1 1,600.0 23 false 585.0 0.700809 500.0 1,600.0 A5, B5 24 false 585.0 0.700809 1,500.0 1,600.0 25 false 550.0 0.769987 0.1 1,600.0 26 false 550.0 0.769987 500.0 1,600.0 27 false 550.0 0.769987 1,500.0 1,600.0 28 true 615.0 0.608316 0.1 800.0 29 true 615.0 0.608316 500.0 800.0 30 true 615.0 0.608316 1,500.0 800.0 31 true 585.0 0.700809 0.1 800.0 32 true 585.0 0.700809 500.0 800.0 A8, B8 33 true 585.0 0.700809 1,500.0 800.0 34 true 550.0 0.769987 0.1 800.0 35 true 550.0 0.769987 500.0 800.0 36 true 550.0 0.769987 1,500.0 800.0
25 Table 3.4. Branch states for reflectors Case Control bank All Moderator Fuel BA Rod Temperature (K)
Density (g/cm3)
Soluble boron (ppm)
Temperature (K)
Reference false false 550.0 0.769987 600 800.0 1
false false 550.0 0.769987 0
800.0 1
false false 550.0 0.769987 1,800 800.0 2
false false 580.0 0.700809 600 800.0 (A) Radial reflector (Assembly-Water-Baffle-Water).
(B) Bottom axial reflector (Assembly-Nozzle w/ Gap-Nozzle-Support Plate).
26 (C) Top axial reflector (Assembly-Plenum-Plenum w/ Grid-Plenum-Plug-Nozzle w/ Gap-Nozzle-Support Plate).
Figure 3.1. Polaris models for reflectors.
Table 3.5. Polaris input and output files for SU1 Assembly type Dir File name Description a_1.868_bp00
./bare/b1_1.8_00bp b1_1.868_bp00_cr?_dc??_p????_tf????.*
bp?? Number of BAs bp00: no BA bp12: 12 BAs cr? Control rod cr0: out cr1: in dc?? moderator density dc60: 0.608316 dc70: 0.700809 dc77: 0.769987 p???? boron concentration p0000: 0 ppm p0500: 500 ppm p1500: 1500 ppm tf???? Fuel temperature tf0560: 560 K tf0800: 800 K tf1600: 1600 K
- File names inp: input file idc:
msg: message file out: output file png: geometry image t16: few-group cross sections f71: ORIGEN concentration f33: ORIGEN library b_2.573_bp00
./bare/b2_2.5_00bp b2_2.573_bp00_cr?_dc??_p????_tf????.*
b_2.573_bp12
./bare/b2_2.5_12bp b2_2.573_bp12_cr?_dc??_p????_tf????.*
c_3.117_bp00
./bare/b3_3.1_00bp b3_3.117_bp00_cr?_dc??_p????_tf????.*
c_3.117_bp12
./bare/b3_3.1_12bp b3_3.117_bp12_cr?_dc??_p????_tf????.*
4a_3.330_bp00
./bare/b4a_3.3_00bp b4a_3.330_bp00_cr?_dc??_p????_tf????.*
4a_3.330_bp12
./bare/b4a_3.3_12bp b4a_3.330_bp12_cr?_dc??_p????_tf????.*
4a_3.330_bp20
./bare/b4a_3.3_20bp b4a_3.330_bp20_cr?_dc??_p????_tf????.*
4b_2.610_bp00
./bare/b4b_2.6_00bp b4b_2.610_bp00_cr?_dc??_p????_tf????.*
4b_2.610_bp08
./bare/b4b_2.6_08bp b4b_2.610_bp08_cr?_dc??_p????_tf????.*
4b_2.610_bp12
./bare/b4b_2.6_12bp b4b_2.610_bp12_cr?_dc??_p????_tf????.*
4c_1.860_bp00
./bare/b4c_1.8_00bp b4c_1.860_bp00_cr?_dc??_p????_tf????.*
4x_1.860_bp00
./bare/b4x_1.8_00bp b4x_1.860_bp00_cr?_dc??_p????_tf????.*
5_2.100_bp00
./bare/b5_2.1_00bp b5_2.100_bp00_cr?_dc??_p????_tf????.*
a_1.868_bp00
./spacer/b1_1.8_00bp b1_1.868_bp00_cr?_dc??_p????_tf????.*
b_2.573_bp00
./spacer/b2_2.5_00bp b2_2.573_bp00_cr?_dc??_p????_tf????.*
b_2.573_bp12
./spacer/b2_2.5_12bp b2_2.573_bp12_cr?_dc??_p????_tf????.*
c_3.117_bp00
./spacer/b3_3.1_00bp b3_3.117_bp00_cr?_dc??_p????_tf????.*
c_3.117_bp12
./spacer/b3_3.1_12bp b3_3.117_bp12_cr?_dc??_p????_tf????.*
4a_3.330_bp00
./spacer/b4a_3.3_00bp b4a_3.330_bp00_cr?_dc??_p????_tf????.*
4a_3.330_bp12
./spacer/b4a_3.3_12bp b4a_3.330_bp12_cr?_dc??_p????_tf????.*
4a_3.330_bp20
./spacer/b4a_3.3_20bp b4a_3.330_bp20_cr?_dc??_p????_tf????.*
4b_2.610_bp00
./spacer/b4b_2.6_00bp b4b_2.610_bp00_cr?_dc??_p????_tf????.*
4b_2.610_bp08
./spacer/b4b_2.6_08bp b4b_2.610_bp08_cr?_dc??_p????_tf????.*
4b_2.610_bp12
./spacer/b4b_2.6_12bp b4b_2.610_bp12_cr?_dc??_p????_tf????.*
4c_1.860_bp00
./spacer/b4c_1.8_00bp b4c_1.860_bp00_cr?_dc??_p????_tf????.*
4x_1.860_bp00
./spacer/b4x_1.8_00bp b4x_1.860_bp00_cr?_dc??_p????_tf????.*
5_2.100_bp00
./spacer/b5_2.1_00bp b5_2.100_bp00_cr?_dc??_p????_tf????.*
Radial reflector
./reflector polaris_rad.*
Top reflector
./reflector polaris_top.*
Bottom reflector
./reflector polaris_bot.*
27 3.1.2 Cross-Section Table Set Generation Using GenPMAXS Appendices B.1B.4 provide the GenPMAXS inputs for the fuel assembly type A 1.868_bp00 and radial edge, as well as the axial top and bottom reflectors.
B.1 GenPMAXS input for the fuel assembly type A 1.868_bp00 B.2 GenPMAXS input for radial edge reflector B.3 GenPMAXS input for axial top reflector B.4 GenPMAXS input for axial bottom reflector Table 3.6 provides the GenPMAXS input and output files. There can be various GenPMAXS input files for various radial reflectors including edge, diagonal, east, west, south, north, southeast, southwest, northeast, northwest, and non-sided radial reflectors.
28 Table 3.6. GenPMAXS input and output files for SU1 Assembly type Dir Filename Description a_1.868_bp00
./fuel b1_1.868_bp00.*
Dir
./GenPMAXS inp: input files kinf: kinf summary out: output file PMAX: cross-section table set b_2.573_bp00
./fuel b2_2.573_bp00.*
b_2.573_bp12
./fuel b2_2.573_bp12.*
c_3.117_bp00
./fuel b3_3.117_bp00.*
c_3.117_bp12
./fuel b3_3.117_bp12.*
4a_3.330_bp00
./fuel b4a_3.330_bp00.*
4a_3.330_bp12
./fuel b4a_3.330_bp12.*
4a_3.330_bp20
./fuel b4a_3.330_bp20.*
4b_2.610_bp00
./fuel b4b_2.610_bp00.*
4b_2.610_bp08
./fuel b4b_2.610_bp08.*
4b_2.610_bp12
./fuel b4b_2.610_bp12.*
4c_1.860_bp00
./fuel b4c_1.860_bp00.*
4x_1.860_bp00
./fuel b4x_1.860_bp00.*
5_2.100_bp00
./fuel b5_2.100_bp00.*
a_1.868_bp00
./fuel_spacer b1_1.868_bp00.*
b_2.573_bp00
./fuel_spacer b2_2.573_bp00.*
b_2.573_bp12
./fuel_spacer b2_2.573_bp12.*
c_3.117_bp00
./fuel_spacer b3_3.117_bp00.*
c_3.117_bp12
./fuel_spacer b3_3.117_bp12.*
4a_3.330_bp00
./fuel_spacer b4a_3.330_bp00.*
4a_3.330_bp12
./fuel_spacer b4a_3.330_bp12.*
4a_3.330_bp20
./fuel_spacer b4a_3.330_bp20.*
4b_2.610_bp00
./fuel_spacer b4b_2.610_bp00.*
4b_2.610_bp08
./fuel_spacer b4b_2.610_bp08.*
4b_2.610_bp12
./fuel_spacer b4b_2.610_bp12.*
4c_1.860_bp00
./fuel_spacer b4c_1.860_bp00.*
4x_1.860_bp00
./fuel_spacer b4x_1.860_bp00.*
5_2.100_bp00
./fuel_spacer b5_2.100_bp00.*
Radial reflector non-sided
./reflector refl_rad.*
Radial reflector diagonal
./reflector refl_rad_diag.*
Radial reflector edge
./reflector refl_rad_edge.*
Radial reflector east
./reflector refl_rad_E.*
Radial reflector west
./reflector refl_rad_W.*
Radial reflector south
./reflector refl_rad_S.*
Radial reflector north
./reflector refl_rad_N.*
Radial reflector southeast
./reflector refl_rad_SE.*
Radial reflector southwest
./reflector refl_rad_SW.*
Radial reflector northeast
./reflector refl_rad_NE.*
Radial reflector northwest
./reflector refl_rad_NW.*
Top reflector
./bare refl_top.*
Bottom reflector
./bare refl_bot.*
29 Table 3.7. PARCS input and output files for SU1 Cycle Condition File name Description All depl_detect_full.geom Detector 1
HFP c1_depl_s.inp PARCS input depl-cyc1-s.parcs_out Output depl-cyc1-s.parcs_cyc-01 History file depl-cyc1-s.parcs_det Detector response depl-cyc1-s.parcs_dpl Summary 2
HZP c1_c2_shuf_s.inp PARCS input cyc2_BOC-s.parcs_out Output cyc2_BOC-s.parcs_cyc-02 History file cyc2_BOC-s.parcs_dpl Summary HFP c2_depl_s.inp PARCS input depl-cyc2-s.parcs_out Output depl-cyc2-s.parcs_cyc-01 Restart file depl-cyc2-s.parcs_det Detector response depl-cyc2-s.parcs_dpl Summary 3
HZP c2_c3_shuf_s.inp PARCS input cyc3_BOC-s.parcs_out Output cyc3_BOC-s.parcs_cyc-02 History file cyc3_BOC-s.parcs_dpl Detector response su_c1_lay.mcyc Cycle 1 loading pattern for history su_c2_lay.mcyc Cycle 2 loading pattern for history HFP c3_depl_s.inp PARCS input depl-cyc3-s.parcs_out Output depl-cyc3-s.parcs_cyc-01 History file depl-cyc3-s.parcs_det Detector response depl-cyc3-s.parcs_dpl Summary 3.1.3 Whole-Core Nodal Diffusion Calculations Using PARCS Appendices C.1C.8 provide the PARCS inputs for SU1 cycles 13 HFP calculations. The HZP PARCS input files are only for fuel shuffling.
C.1 PARCS input for the in-core detector map depl_detect_full.geom file C.2 PARCS input for the cycle 1 loading pattern su_c1_lay.mcyc file C.3 PARCS input for the HFP cycle 1 c1_depl_s.inp file C.4 PARCS input for the HZP cycle 2 fuel shuffling c1_c2_shuf_s.inp file C.5 PARCS input for the cycle 2 loading pattern su_c2_lay.mcyc file C.6 PARCS input for the HFP cycle 2 c2_depl_s.inp file C.7 PARCS input for the HZP cycle 3 fuel shuffling c2_c3_shuf_s.inp file C.8 PARCS input for the HFP cycle 3 c3_depl_s.inp file Table 3.7 provides the PARCS input and output files. The PARCS calculations were performed with two types of radial reflector cross sections: (1) the explicit model, which utilizes direction-dependent radial reflector cross sections and incorporates ADFs generated for each reflector location at the core/reflector interface, and (2) the simple model is the non-sided radial reflector cross section.
30 3.2 BENCHMARK RESULTS 3.2.1 HFP Results The EPRI report [1] provides the uncorrected and corrected critical boron concentrations as a function of burnup. The uncorrected critical boron concentrations are the measured values at the operating conditions with actual thermal power, inlet temperature, and control bank insertion. The corrected critical boron concentrations are the corrected values at 100% power, all control bank out, and nominal inlet temperature. Figures 3.2 and 3.5 provide the corrected/measured and calculated critical boron concentrations for the SU1 cycles 1 and 2. Typically, the measured boron concentrations include some uncertainties as observed in Figures 3.2 and 3.5, with nonsmooth shapes. The measured boron concentrations were fitted with polynomial expansion and then were converted into the smooth-measured boron concentrations. The smooth-measured boron concentrations are provided in Tables 3.8 and 3.9 for cycles 1 and 2, respectively. The fifth column lists the fitted measured data with polynomial expansion, and the sixth column lists the differences between the corrected and polynomial-expanded critical boron concentrations. The root mean square (RMS) errors were obtained to be 16.1 ppm and 12.9 ppm for cycles 1 and 2, respectively, using the differences from which the measurement uncertainty can be obtained.
As noted in Section 3.1.3, two types of radial reflector models, explicit and simple, were used in the PARCS calculations. Figures 3.3 and 3.6 compare the critical boron concentrations between the uncorrected/measured and calculated at the operating conditions. Figures 3.4 and 3.7 provide comparisons of the corrected/measured boron concentrations with the simulated boron concentrations at the nominal reactor conditions. The PARCS results with the simple reflector model are more consistent with the measured data. There remains ambiguity regarding the best practices for generating radial reflector cross sections within the Polaris-PARCS code package. Proper reflector modeling with Polaris-PARCS is an active area of development, and further investigation is needed to stabilize the procedures for preparing reflector cross sections in this framework. Tables 3.8 and 3.9 provide the measured and calculated critical boron concentrations and the average and RMS errors for the SU1 cycles 1 and 2, respectively. The uncorrected/measured critical boron concentrations in SU1 cycle 1 (red in Table 3.8) were not included in obtaining the average and RMS error because they are very different from the simulated values. Figure 3.8 provides the calculated HFP critical boron concentrations as a function of burnup for cycle 3 for which the measured critical boron concentrations are not available. Figure 3.9 illustrates the soluble boron worths as a function of burnup for the SU1 cycles 1 and 2 which are used in converting the differences of critical boron concentrations between measurement and simulation.
The enthalpy rise hot channel factors (
s) for SU1 cycles 1 and 2 are provided in Figures 3.10 and 3.11.
The PARCS results with the simple reflector models provide smaller s, regardless of the correction of reactor conditions. The s with the explicit reflector models do not meet the limit of 1.435 with 8%
uncertainty. Because the Polaris pin power form factors do not include gamma powers, more detailed investigation is required for reflector cross sections, gamma-smeared powers, and the violation of limit.
Figure 3.12 and Table 3.10 provide comparisons of the calculated power maps with the measured power maps for the 3D axially integrated 2D radial and radially integrated 1D axial distributions. The total 3D, 2D, and 1D RMS errors for the SU1 are 7.69%, 5.34%, and 3.79% with the simple reflector models, respectively.
Figure 3.13 compares the 1D axial power maps at burnups 1.88 and 13.31 MWd/kgU for SU1 cycle 1.
There is a significant difference in the comparison of the 13.31 MWd/kgU results for which core power is 59.4%, whereas other power maps were measured at >90% powers. This suggests that further
31 investigation of the PARCS simulations for significant power changes is required. Figure 3.14 provides comparisons of the 1D axial power maps between the measured and calculated results at burnups 0.115 and 6.55 MWd/kgU for SU1 cycle 2 showing very good consistency between the measured data and the calculated results.
Appendix D provides the utility program used to compare the calculated flux map results with the measured data.
D.1 program source D.2 Cycle-1 input D.3 Cycle-2 input D.4 Cycle-1 power map measured data D.5 Cycle-2 power map measured data Figure 3.2. SU1 cycle 1 HFP corrected boron letdown comparison for measured uncertainty.
32 Figure 3.3. SU1 cycle 1 HFP uncorrected boron letdown comparison.
Figure 3.4. SU1 cycle 1 HFP corrected boron letdown comparison.
33 Figure 3.5. SU1 cycle 2 HFP corrected boron letdown comparison for measured uncertainty.
Figure 3.6. SU1 cycle 2 HFP uncorrected boron letdown comparison.
34 Figure 3.7. SU1 cycle 2 HFP corrected boron letdown comparison.
Figure 3.8. SU1 cycle 3 HFP boron letdown.
35 Figure 3.9. Boron worths as function of burnup for SU1.
Figure 3.10. Enthalpy rise hot channel factors for the SU1 cycle 1.
36 Figure 3.11. Enthalpy rise hot channel factors for the SU1 cycle 2.
37 Table 3.8. Comparison of the critical boron concentrations for the SU1 cycle 1 No.
Burnup (MWd/kgU)
Measured critical boron (ppm)
PARCS critical boron (ppm)
Difference Uncorrected
[1]
Corrected
[2]
Polynomial
[3]
Difference
[2-3]
Uncorrected Corrected ppm pcm Explicit Simple [4] Explicit Simple [5] [4-1] [5-2] [4-1] [5-2]
1 0.274 1044 730 740
-10 809 824 756 771
-220 41
-2512 468 2
0.274 1040 742 740 2
874 886 756 771
-154 29
-1758 331 3
0.283 1040 744 740 4
808 821 756 771
-219 27
-2499 308 4
0.284 956.5 739 740
-1 832 845 756 771
-112 32
-1278 365 5
0.288 873 737 741
-4 799 812 756 771
-61 34
-696 388 6
0.313 873 748 742 6
793 807 756 771
-66 23
-752 262 7
0.364 803 734 744
-10 776 790 757 772
-13 38
-148 432 8
0.365 808 754 744 10 785 799 757 772
-9 18
-102 205 9
0.764 810 771 757 14 801 814 768 783 4
12 45 134 10 0.790 808 769 758 11 798 811 769 783 3
14 33 156 11 0.815 816 778 759 19 797 810 769 783
-6 5
-67 56 12 0.826 816 779 759 20 805 819 769 783 3
4 33 44 13 0.963 806 760 761
-1 808 821 770 784 15 24 166 265 14 1.009 805 761 762
-1 800 813 770 784 8
23 88 254 15 1.077 804 761 763
-2 800 813 770 784 9
23 99 253 16 1.207 790 750 764
-14 803 817 770 784 27 34 296 373 17 1.232 789 748 764
-16 804 817 770 784 28 36 307 394 18 1.252 788 746 764
-18 803 816 770 784 28 38 306 416 19 1.353 791 757 764
-7 805 818 769 783 27 26 295 284 20 1.379 781 743 764
-21 800 814 768 783 33 40 360 436 21 1.405 779 739 764
-25 798 812 768 782 33 43 360 468 22 1.431 778 739 764
-25 803 816 767 782 38 43 414 468 23 1.456 778 737 764
-27 807 820 767 781 42 44 457 479 24 1.485 827 774 764 10 801 815 766 781
-13 7
-141 76 25 1.671 807 770 762 8
799 813 761 776 6
6 65 65 26 1.693 811 774 762 12 798 812 761 776 1
2 11 22 27 1.755 809 772 761 11 768 782 759 774
-27 2
-291 22 28 1.880 803.5 759 779 793 755 770
-10
-108 29 2.075 798 771 755 16 750 766 749 764
-32
-7
-343
-75 30 2.190 787 772 753 19 757 772 745 760
-15
-12
-160 -128 31 2.449 796 771 746 25 747 762 735 751
-34
-20
-362 -213 32 2.720 775 754 737 17 734 751 724 740
-24
-14
-255 -149 33 2.990 746 730 727 3
719 735 712 728
-11
-2
-117
-21 34 3.204 738 723 718 5
718 734 701 719
-4
-5
-42
-53 35 3.646 738 711 699 12 693 710 679 697
-28
-14
-296 -148 36 3.830 690 673 691
-18 676 695 670 688 5
15 53 158 37 4.043 676 661 680
-19 664 683 658 677 7
16 74 169 38 4.257 674 657 670
-13 652 671 647 666
-3 9
-32 95 39 4.476 666 650 659
-9 659 677 635 654 11 4
116 42 40 4.732 678 659 646 13 624 644 620 640
-34
-19
-359 -201 41 4.753 654 633 645
-12 624 644 619 639
-10 6
-106 63 42 4.990 649 637 632 5
608 628 606 626
-21
-11
-222 -116 43 5.176 715 631 623 8
597 618 595 615
-97 1025 -169 44 5.328 620 608 615
-7 603 623 586 607 3
-1 32
-11 45 5.450 735 636 608 28 570 593 579 600
-143 1513 -381 46 5.608 608 604 600 4
590 611 569 591 3
-13 32
-138 47 5.890 576 546 585
-39 567 589 552 574 13 28 138 297 48 5.915 582 550 583
-33 554 576 551 573
-6 23
-64 244 49 6.296 569 556 563
-7 532 555 527 550
-14
-6
-149
-64 50 6.456 582 570 554 16 522 546 517 541
-36
-29
-383 -308 51 6.750 565 557 538 19 501 525 499 523
-40
-34
-426 -362 52 6.968 548 541 526 15 487 512 485 510
-36
-31
-384 -331 53 7.227 527 521 512 9
469 495 468 494
-32
-28
-342 -299 54 7.370 530 524 504 20 459 485 459 485
-45
-40
-481 -428 55 7.676 489 480 487
-7 437 464 439 466
-25
-15
-268 -161 56 7.700 491 483 485
-2 435 462 437 464
-29
-19
-311 -204 57 8.045 458 454 465
-11 415 443 415 442
-15
-12
-161 -129 58 8.370 414 408 446
-38 387 416 393 421 2
13 22 140 59 8.775 414 411 422
-11 366 396 365 395
-18
-16
-195 -173 60 8.810 434 429 420 9
357 387 363 393
-47
-36
-508 -389 Highlighted cells indicate statepoints with differences exceeding 1,000 pcm.
38 Table 3.8. Comparison of the critical boron concentrations for the SU1 cycle 1 (continued)
No.
Burnup (MWd/kgU)
Measured critical boron (ppm)
PARCS critical boron (ppm)
Difference Uncorrected
[1]
Corrected
[2]
Polynomial
[3]
Difference
[2-3]
Uncorrected Corrected ppm pcm Explicit Simple [4] Explicit Simple [5] [4-1]
[5-2] [4-1] [5-2]
61 8.845 422 419 418 1
357 388 361 391
-34
-28
-368 -303 62 9.130 394 390 400
-10 336 368 341 372
-27
-18
-293 -195 63 9.165 390 386 398
-12 331 363 338 370
-27
-17
-293 -185 64 9.200 418 415 396 19 318 351 336 367
-67
-48
-727 -521 65 9.235 390 388 394
-6 329 361 334 365
-29
-23
-315 -250 66 9.270 398 395 392 3
321 353 331 363
-45
-32
-489 -348 67 9.305 390 389 390
-1 323 355 329 360
-35
-29
-380 -315 68 9.333 390 388 388 0
323 355 327 358
-36
-30
-391 -326 69 9.405 391 369 383
-14 317 349 322 354
-42
-15
-457 -163 70 9.438 391 389 381 8
315 347 320 352
-44
-38
-479 -414 71 9.470 372 370 379
-9 311 344 317 349
-28
-21
-305 -229 72 9.715 364 358 363
-5 294 327 300 333
-37
-25
-404 -273 73 9.810 366 361 357 4
290 324 294 327
-42
-34
-459 -372 74 9.935 368 364 349 15 278 312 285 319
-56
-45
-613 -493 75 9.965 368 365 347 18 276 311 283 317
-58
-48
-635 -526 76 9.995 364 360 345 15 276 310 281 315
-54
-45
-592 -493 77 10.130 370 374 336 38 268 303 271 306
-68
-68
-746 -746 78 10.335 317 313 322
-9 252 288 257 292
-29
-21
-319 -231 79 10.365 317 312 320
-8 249 285 255 290
-32
-22
-352 -242 80 10.405 302 297 317
-20 246 282 252 287
-20
-10
-220 -110 81 10.445 295 290 314
-24 240 276 249 285
-19
-5
-209
-55 82 10.540 292 290 308
-18 236 273 242 278
-19
-12
-210 -132 83 10.570 302 299 306
-7 309 340 240 276 38
-23 420
-254 84 10.732 324 273 295
-22 240 276 229 265
-48
-8
-531
-89 85 10.765 284 256 292
-36 238 274 226 263
-10 7
-111 78 86 10.796 288 270 290
-20 233 270 224 261
-18
-9
-199 -100 87 10.859 288 271 286
-15 226 263 219 257
-26
-14
-288 -155 88 10.891 284 269 283
-14 221 258 217 254
-26
-15
-289 -166 89 10.990 263 273 276
-3 211 249 210 248
-14
-25
-156 -278 90 11.050 265 256 272
-16 199 238 206 244
-27
-12
-300 -134 91 11.190 245 238 262
-24 195 234 196 234
-11
-4
-123
-45 92 11.225 248 242 260
-18 190 229 193 232
-19
-10
-212 -112 93 11.630 233 230 231
-1 160 200 164 204
-33
-26
-371 -292 94 11.865 222 219 213 6
141 183 147 188
-39
-31
-440 -350 95 11.895 215 214 211 3
140 182 145 186
-33
-28
-373 -316 96 12.000 204 202 204
-2 133 175 137 179
-29
-23
-328 -260 97 12.035 215 213 201 12 132 174 134 177
-41
-37
-464 -419 98 12.100 206 204 196 8
126 169 130 172
-37
-32
-420 -363 99 12.135 207 204 194 10 120 163 127 170
-44
-34
-499 -386 100 12.200 187 185 189
-4 116 160 122 165
-27
-20
-307 -227 101 12.230 187 185 187
-2 117 160 120 163
-27
-22
-307 -250 102 12.260 189 188 185 3
110 154 118 161
-35
-27
-398 -307 103 12.530 149 144 165
-21 94 139 98 143
-10
-1
-114
-11 104 12.560 148 143 163
-20 93 138 96 141
-10
-2
-115
-23 105 12.595 144 139 161
-22 87 133 94 138
-11
-1
-126
-11 106 12.665 141 138 156
-18 85 131 89 134
-10
-4
-115
-46 107 12.700 141 138 153
-15 83 129 86 131
-12
-7
-138
-80 108 12.730 130 125 151
-26 88 133 84 129 3
4 34 46 109 12.865 128 123 142
-19 72 118 74 120
-10
-3
-115
-35 110 12.960 110 105 135
-30 154 194 67 114 84 9
971 104 111 13.120 145 95 124
-29 151 191 55 103 46 8
533 93 112 13.250 164 100 116
-16 143 183 46 94 19
-6 221
-70 113 13.310 157 92 112
-20 141 181 41 90 24
-2 280
-23 114 13.330 156 90 110
-20 129 171 40 88 15
-2 175
-23 115 13.420 157 98 105
-7 126 168 33 82 11
-16 128
-187 116 13.560 148 83 96
-13 118 160 23 73 12
-10 141
-117 RMS 16.1 31.2 24.4 339 268 Average
-4.1
-15.6
-6.2
-161
-67
- of cases 116 110 115 110 115
39 Table 3.9. Comparison of the critical boron concentrations for the SU1 cycle 2 No.
Burnup (MWd/kgU)
Measured critical boron (ppm)
PARCS critical boron (ppm)
Difference Uncorrected
[1]
Corrected
[2]
Polynomial
[3]
Difference
[2-3]
Uncorrected Corrected ppm pcm Explicit Simple [4] Explicit Simple [5] [4-1] [5-2] [4-1] [5-2]
1 0.115 624 579 615 585 620
-9
-98 2
0.145 620 636 622 14 574 611 582 618
-9
-18
-98
-195 3
0.290 596 603 613
-10 562 599 573 609 3
6 32 65 4
0.495 604 605 600 5
548 586 560 597
-18
-8
-195
-87 5
0.530 600 599 598 1
549 587 558 595
-13
-4
-141
-43 6
0.565 594 594 595
-1 544 583 556 593
-12
-1
-130
-11 7
0.600 567 568 593
-25 542 581 554 591 14 23 151 249 8
0.700 586 586 586 0
537 576 548 586
-10 0
-108 0
9 0.860 582 582 575 7
527 566 539 577
-16
-5
-173
-54 10 0.895 574 573 572 1
523 563 536 575
-11 2
-119 22 11 1.150 567 558 553 5
511 552 520 559
-15 1
-162 11 12 1.190 567 559 550 9
507 548 517 557
-19
-3
-205
-32 13 1.220 563 555 548 7
506 546 515 555
-17 0
-184 0
14 1.250 555 545 545 0
508 548 513 553
-7 8
-76 86 15 1.295 558 549 542 7
512 552 510 550
-6 1
-65 11 16 1.325 550 544 539 5
499 540 508 548
-10 4
-108 43 17 1.350 513 500 537
-37 493 535 506 546 22 46 237 497 18 1.685 523 519 511 8
472 515 482 524
-8 5
-86 54 19 1.725 523 516 508 8
473 516 479 521
-7 5
-76 54 20 1.765 515 510 505 5
468 511 476 518
-4 8
-43 86 21 1.790 510 500 503
-3 462 505 474 516
-5 16
-54 173 22 1.860 498 498 497 1
457 501 469 511 3
13 32 140 23 1.920 496 496 493 3
451 495 464 507
-1 11
-11 119 24 1.990 502 500 487 13 447 492 459 502
-10 2
-108 22 25 2.020 487 483 485
-2 447 491 456 500 4
17 43 184 26 2.090 500 495 479 16 462 505 451 495 5
0 54 0
27 2.125 492 427 477
-50 438 483 448 492
-9 65
-97 703 28 2.160 489 484 474 10 452 495 446 489 6
5 65 54 29 2.190 495 468 472
-4 436 481 443 487
-14 19
-151 206 30 2.220 485 481 469 12 431 476 441 485
-9 4
-97 43 31 2.570 474 458 443 15 412 458 414 460
-17 2
-184 22 32 2.600 468 451 440 11 410 455 412 457
-13 6
-141 65 33 2.640 456 439 437 2
407 452 409 454
-4 15
-43 163 34 2.670 445 423 435
-12 404 450 406 452 5
29 54 315 35 2.710 449 432 432 0
401 447 403 449
-2 17
-22 184 36 2.740 447 431 430 1
399 445 401 447
-2 16
-22 174 37 2.775 439 423 427
-4 396 443 398 445 4
22 43 239 38 2.810 435 420 425
-5 393 440 396 442 5
22 54 239 39 2.845 433 418 422
-4 391 438 393 440 5
22 54 239 40 2.800 437 422 425
-3 388 435 390 437
-2 15
-22 163 41 2.910 433 418 417 1
386 433 388 435 0
17 0
185 42 2.945 433 419 415 4
383 430 385 432
-3 13
-33 141 43 2.980 427 413 412 1
380 428 382 430 1
17 11 185 44 3.010 439 425 410 15 378 426 380 428
-13 3
-141 33 45 3.045 423 409 408 1
375 423 377 425 0
16 0
174 46 3.085 425 411 405 6
372 420 374 422
-5 11
-54 120 47 3.110 417 403 403 0
370 418 372 420 1
17 11 185 48 3.150 409 395 400
-5 367 415 369 417 6
22 65 240 49 3.190 409 395 397
-2 364 413 366 414 4
19 44 207 50 3.220 405 391 395
-4 362 410 364 412 5
21 54 229 51 3.250 405 391 393
-2 359 408 361 410 3
19 33 207 52 3.300 409 393 390 3
355 404 357 406
-5 13
-55 142 53 3.320 401 337 388
-51 354 403 356 405 2
68 22 741 54 3.350 393 379 386
-7 352 401 354 403 8
24 87 262 55 3.385 395 380 384
-4 349 398 351 400 3
20 33 218 56 3.420 395 380 381
-1 346 396 348 398 1
18 11 196 57 3.552 381 377 372 5
325 377 338 388
-4 11
-44 120 58 3.590 362 378 370 8
323 374 335 385 12 7
131 77 59 3.890 352 344 350
-6 302 355 312 363 3
19 33 208 60 3.915 363 356 348 8
300 353 310 361
-10 5
-110 55
40 Table 3.9. Comparison of the critical boron concentrations for the SU1 cycle 2 (continued)
No.
Burnup (MWd/kgU)
Measured critical boron (ppm)
PARCS critical boron (ppm)
Difference Uncorrected
[1]
Corrected
[2]
Polynomial
[3]
Difference
[2-3]
Uncorrected Corrected ppm pcm Explicit Simple [4] Explicit Simple [5] [4-1] [5-2] [4-1] [5-2]
61 3.960 355 351 345 6
294 347 306 358
-8 7
-88 77 62 3.990 355 351 343 8
291 345 304 356
-10 5
-110 55 63 4.025 351 343 341 2
292 345 301 353
-6 10
-66 110 64 4.060 351 313 339
-26 301 353 298 351 2
38 22 418 65 4.095 363 353 337 16 286 340 296 348
-24
-5
-264
-55 66 4.130 351 344 334 10 283 337 293 345
-14 1
-154 11 67 4.165 371 365 332 33 279 333 290 343
-38
-22
-418 -242 68 4.400 327 313 317
-4 261 316 272 326
-11 13
-121 143 69 4.610 311 299 303
-4 245 301 256 310
-10 11
-111 122 70 4.845 292 285 288
-3 227 284 238 293
-8 8
-89 89 71 5.000 272 265 277
-12 217 274 226 282 2
17 22 189 72 5.385 258 248 250
-2 184 244 197 255
-14 7
-157 78 73 5.730 230 223 223 0
160 221 171 230
-9 7
-101 79 74 6.060 213 196 194 2
148 209 146 207
-4 11
-45 124 RMS 12.9 10.3 18.3 113 201 Average 0.0
-4.6 11.7
-51 128
- of cases 73 74 73 74 73
41 Figure 3.12. Comparison of the HFP power maps for SU1.
42 Table 3.10. Comparison of the power maps for SU1 Reflector cycle Map Burnup (MWd/kgU)
PARCS point 3D 2D radial 1D axial RMS (%)
cases RMS (%) cases RMS (%) cases Explicit model 1
43 1.880 29 8.71 1,209 3.98 31 6.13 39 53 4.753 42 6.84 1,170 3.57 30 3.77 39 68 10.130 78 5.31 468 2.25 12 3.96 39 71 12.665 107 5.54 663 2.86 17 2.76 39 73 13.310 114 12.92 507 2.28 13 11.78 39 2
9 0.115 2
9.54 741 8.30 19 2.33 39 10 0.290 4
13.04 585 11.55 15 4.23 39 13 2.020 26 9.50 546 8.42 14 2.79 39 17 4.060 65 7.17 663 5.81 17 2.54 39 20 6.550 76 5.65 585 3.42 15 3.54 39 All 8.23 6,630 6.00 170 3.73 351 Simple model 1
43 1.880 29 8.71 1,209 3.98 31 6.13 39 53 4.753 42 6.84 1,170 3.57 30 3.77 39 68 10.130 78 5.31 468 2.25 12 3.96 39 71 12.665 107 5.54 663 2.86 17 2.76 39 73 13.310 114 12.92 507 2.28 13 11.78 39 2
9 0.115 2
9.54 741 8.30 19 2.33 39 10 0.290 4
13.04 585 11.55 15 4.23 39 13 2.020 26 9.50 546 8.42 14 2.79 39 17 4.060 65 7.17 663 5.81 17 2.54 39 20 6.550 76 5.65 585 3.42 15 3.54 39 All 7.69 6,630 5.34 170 3.79 351
43 Figure 3.13. Axial 1D flux map comparison for the SU1 cycle 1.
Figure 3.14. Axial 1D flux map comparison for the SU1 cycle 2.
44
- 4.
CONCLUSION The SU1 benchmark calculations were performed, and the benchmark results were compared with the measured data for the HFP critical boron concentrations and in-core detector power maps. The investigation outlines the discrepancies and uncertainties in measured boron concentrations, systematically addressed through polynomial expansion, yielding smoother, more consistent data sets.
The calculated boron concentrations show good agreement with the fitted measured data, with RMS error of 16.1 ppm for cycle 1 and 12.9 ppm for cycle 2. The overall RMS errors for SU1 power maps are 7.69%
for 3D, 5.34% for 2D, and 3.79% for 1D when employing the simple reflector models. However, it's worth noting that when utilizing the explicit reflector model, higher errors are observed. Moreover, the investigation of the enthalpy rise hot channel factors for the SU1 cycles 1 and 2 reveals smaller enthalpy rise hot channel factors with the simple reflector models. This, alongside the violation of the enthalpy rise hot channel factors limit by the explicit reflector models, necessitates that further investigation is required to enhance the stability of the procedure for preparing reflector cross-sections when using the Polaris-PARCS code package. Furthermore, it is crucial to note the identification of errors in the fuel assembly loading patterns within the EPRI report [1]. Corrections were inevitable to avoid unrealistic differences in critical boron concentrations and flux maps, thereby ensuring the introduction of more reasonable and accurate benchmark results. The simulated radial and axial flux shapes can be improved by enhancing effective axial and radial reflector cross sections. In addition, SCALE 6.3.0/Polaris does not currently support gamma-smeared power distributions. Improving and implementing the mentioned capabilities are expected to help Polaris-GenPMAXS-PARCS procedure show better agreement with benchmark results.
The primary objective of these benchmark calculations is to validate the SCALE/Polaris-GenPMAXS-PARCS code package, leveraging the ENDF/B-VII.1 AMPX 56-group libraries, by assessing uncertainties for pivotal nuclear parameters, including reactivity, temperature reactivity coefficients, control rod worth, and pin and assembly power peaking factors [13]. The benchmark calculations for SU1, utilizing the SCALE 6.3/Polaris-GenPMAXS-PARCS v3.4.2 code package, have been finalized.
The resultant data will facilitate the validation of this code package for light-water reactor physics by determining statistical uncertainties for key nuclear parameters.
45
- 5.
REFERENCES
- 1.
R.W. Carlson, Reactor Core Physics Design and Operating Data for Cycles 1, 2, and 3 of Surry Unit 1 PWR Power Plant, EPRI NP-79-2-LD, Electric Power Research Institute (1979).
- 2.
W.A. Wieselquist, R.A. Lefebvre, eds., SCALE 6.3.0 User Manual, ORNL/TM-SCALE-6.3.0, UT-Battelle, LLC, Oak Ridge National Laboratory, Oak Ridge, TN (2021). https://scale-manual.ornl.gov/.
- 3.
M.A. Jessee, W.A. Wieselquist, U. Mertyurek, K.S. Kim, T.M. Evans, S.P. Hamilton, "Lattice Physics Calculations Using the Embedded Self-Shielding Method in Polaris, Part I: Methods and Implementation, Ann. Nucl. Energy, 150, 107830 (2021).
- 4.
A. Ward et al., GenPMAXS - v6.3.1 Release Code for Generating the PARCS Cross Section Interface File PMAXS, University of Michigan (2021).
- 5.
T. Downar et al., PARCS NRC-v3.4.2 Volume I: Input Manual, University of Michigan (2022).
- 6.
W.A. Wieselquist, R.A. Lefebvre, M.A. Jessee, eds, SCALE Code System, 2020. ORNL/TM-2005/39, V.6.2.4. https://www.ornl.gov/file/scale-62-manual/display(2020).
- 7.
K.S. Kim. U. Mertyurek, W.A. Wieselquist, Benchmark Calculation for the Watt Bar Unit 1 Cycles 13 Using the SCALE 6.3/Polaris-PARCS v3.4.2 Code Package, ORNL/TM-2023/2981, Oak Ridge National Laboratory, Oak Ridge, TN (2023).
- 8.
AZO Materials: Zircaloy-4(Alloy Zr4) (UNS R60804) Thermal Properties, 2023. [Online].
Available: https://www.azom.com/article.aspx?ArticleID=7644.
- 9.
ESA, ESMAT: A.6.2. Stainless Steel AISI 304L, 2023. [Online]. Available:
http://esmat.esa.int/Services/Preferred_Lists/Materials_Lists/a62.htm.
- 10.
C. P. Kempter and R. O. Elliott, Thermal Expansion of <UN>, <UO2>, <UO2*ThO2>, and
<ThO2>, J. Chem. Phys. 30, 1524-1526 (1959).
- 11.
ESPI metals: Inconel 718, 2023. [Online]. Available:
https://www.espimetals.com/index.php/technical-data/91-inconel-718.
- 12. Nuclear Associates International Corporation, Reactor Core Physics Design and Operating Data for Cycles 1, 2, and 3 of Turkey Point Unit 3 PWR Power Plant, EPRI NP-827, Electric Power Research Institute (1978).
- 13. K.S. Kim, B.K. Jeon, A. Ward, U. Mertyurek, M.A. Jessee, W.A. Wieselquist, Validation of the SCALE 6.3/Polaris-PARCS v3.4.2 Code Package for Light Water Reactor Physics Analysis, ORNL/TM-2023/3060, Oak Ridge National Laboratory (2023).
A-1 APPENDIX A. SAMPLE OF POLARIS INPUT FILES A.1 Polaris Input for the Fuel Assembly type A 1.868_bp00
=polaris
% general options title "SURRY 1.868 w/o 00 BP ASSM 1" lib "broad_lwr" opt KEFF RaySpacing=0.04 opt PRINT XFile16=true system PWR
% geometry (thermal expansions are considered)
% pin pitch = 1.43527cm
% lattice pitch = 21.52906318 cm
% assembly width = 21.60912 cm
% gap = 0.04003 cm geom assembly: ASSM 15 1.43527 SE hgap 0.04003
% compositions and materials
% materials and compositions comp f_1 : UOX enr=1.868 refdens=9.89508 comp f_2 : UOX enr=2.573 refdens=9.831095 comp f_3 : UOX enr=3.117 refdens=9.725765 comp f_4a : UOX enr=1.86 refdens=9.979738 comp f_4b : UOX enr=2.61 refdens=10.01124 comp f_4c : UOX enr=3.33 refdens=9.990566 comp f_4x : UOX enr=1.86 refdens=9.980722 comp air : CONC refdens=0.000616 6012 = 6.7565e-09 6013 = 7.3076e-11 8016 = 5.2864e-06 8017 = 2.0137e-09 8018 = 1.0863e-08 7014 = 1.9681e-05 7015 = 7.1900e-08 18036 = 7.9414e-10 18038 = 1.4915e-10 18040 = 2.3506e-07 mat FUEL.1 : f_1 mat FUEL.2 : f_2 mat FUEL.3 : f_3 mat FUEL.4 : f_4a mat FUEL.5 : f_4b mat FUEL.6 : f_4c mat FUEL.7 : f_4x mat CLAD.1 : ZIRC4 dens=6.526634012 mat COOL.1 : WATER temp=615.0 dens=0.608316 : boron=500 mat AIR.1 : air mat CNTL.1 : AIC mat BP.1 : B4C mat CRS.1 : SS304 mat MI.1 : AL2O3 mat GRID.1 : INC718
% add rings according to ORNL recommendations mesh FUEL.1 nr=4 deplete ALL=false FUEL=true shield ALL=N FUEL=P CNTL=P BP=P
% fuel rod pin 1 : 0.46714 0.47502 0.53685
- FUEL.1 GAP.1 CLAD.1
%pin 3 : 0.4634 0.4742 0.5359
% : FUEL.3 GAP.1 CLAD.1
%pin X : 0.4096 0.4178 0.4750
% : FUEL.7 GAP.1 CLAD.1
% guide tube pin G : 0.61496 0.69129
- COOL.1 CLAD.1
% instrument tube
A-2 pin I : 0.61496 0.69129
- COOL.1 CLAD.1
% detector comp c_u235 : CONC 92235=1.0e-15 mat DET.1 : c_u235 pin P : 0.4 : COOL.2 det d_u235 : pin.P at=pin.I : R(n,FIS) COOL.2 DET.1 opt FG DetectorEdit=d_u235 pinmap I
1 1 1 1 1 1 1 1 G G 1 1 1 1 1 1 G 1 1 G 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
% define the RCCA
% AIC Full PIN D : 0.3575 0.5582 0.61496 0.69129
- CNTL.1 CRS.1 COOL.1 CLAD.1
% AIC Part pin E : 0.5099 0.5582 0.61496 0.69129
- CNTL.1 CRS.1 COOL.1 CLAD.1
% AIC Upper Part pin F : 0.3575 0.5582 0.61496 0.69129
- MI.1 CRS.1 COOL.1 CLAD.1 control BankA : RODLET
_ _ _ D D _ _ _ _
_ _ D _ _ D control BankB : RODLET
_ _ _ E E _ _ _ _
_ _ E _ _ E control BankC : RODLET
_ _ _ F F _ _ _ _
_ _ F _ _ F
% begin burnup and branch cases power 34.8938 bu 0 0.1 0.5 1 2 4 6 8 10 12.5 15 17.5 20 25 30 35 40 45 50
% Set base temperature field to core average, use
% history and branching variables to perturb to appropriate
% value for calculations state ALL : temp=615.0 FUEL : temp=800.0 COOL : boron=500 dens=0.608316 BankA : in=false BankB : in=false BankC : in=false
% reference history internal burnup steps through 50 GWD/MTU
A-3 read branch add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 0.1 FUEL : temp= 560.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 500 FUEL : temp= 560.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 1500 FUEL : temp= 560.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 0.1 FUEL : temp= 560.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 500 FUEL : temp= 560.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 1500 FUEL : temp= 560.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 0.1 FUEL : temp= 560.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 500 FUEL : temp= 560.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 1500 FUEL : temp= 560.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 0.1 FUEL : temp= 800.0
% add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 0.1 FUEL : temp= 1600.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 500 FUEL : temp= 1600.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 1500 FUEL : temp= 1600.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 0.1 FUEL : temp= 1600.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 500 FUEL : temp= 1600.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 1500 FUEL : temp= 1600.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 0.1 FUEL : temp= 1600.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 500 FUEL : temp= 1600.0 add BankA : in= false BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 1500 FUEL : temp= 1600.0 add BankA : in= true BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= true BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= true BankB : in= false BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= true BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= true BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= true BankB : in= false BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= true BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= true BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= true BankB : in= false BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= false BankB : in= true BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= false BankB : in= true BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= false BankB : in= true BankC : in= false ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= false BankB : in= true BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 0.1 FUEL : temp= 800.0
A-4 add BankA : in= false BankB : in= true BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= false BankB : in= true BankC : in= false ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= false BankB : in= true BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= false BankB : in= true BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= false BankB : in= true BankC : in= false ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= true ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= true ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= true ALL : temp= 615.0 COOL.1 : dens= 0.608316 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= true ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= true ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= true ALL : temp= 585.0 COOL.1 : dens= 0.700809 COOL.1 :
boron= 1500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= true ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 0.1 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= true ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 500 FUEL : temp= 800.0 add BankA : in= false BankB : in= false BankC : in= true ALL : temp= 550.0 COOL.1 : dens= 0.769987 COOL.1 :
boron= 1500 FUEL : temp= 800.0 end branch end A.2 Polaris Input for Radial Reflector
=polaris
% general options title "WEC 15x15 lattice" lib "broad_lwr" opt PRINT XFile16=true system PWR
% compositions and materials comp c_uox : UOX 2.573 mat FUEL.1 : c_uox 9.831095
% geometry geom W15 : ASSM 15 1.43527 hgap 0.04 pin F : 0.46714 0.47502 0.53685
- FUEL.1 GAP CLAD pin I : 0.61496 0.69129
- COOL.1 TUBE COOL.1 pin G : 0.61496 0.69129
- COOL.1 TUBE COOL.1 mesh GAP : ns=1 mesh FUEL : nr=4 shield ALL=N FUEL=P pinmap I
F F F F F F F F G G F F F F F F G F F G F F F F F F F F F F F F F F F geom rad_ref : REFL 21.5 slab rad_ref : 0.1524 2.54 18.8076
- COOL.1 STRUCT COOL.1
- 1 4 25
- 34 34 34
% states
A-5 state ALL : temp=550 FUEL : temp=800 COOL : dens=0.76971 boron=600 rad_ref : in=yes read branch add COOL : boron=0 add COOL : boron=1800 add ALL : temp=585 FUEL : temp=800 COOL : boron=600 dens=0.70045 end branch end A.3 Polaris Input for Axial Top Reflector
=polaris
% general options title "Top reflector" lib "broad_lwr" opt PRINT XFile16=true system PWR
% geometry geom W15 : ASSM 15 1.43527 FULL hgap 0.04
% compositions and materials comp c_uox : UOX 2.573 mat FUEL.1 : c_uox 9.831095
% pins definitions pin F : 0.46714 0.47502 0.53685
- FUEL.1 GAP CLAD pin I : 0.61496 0.69129
- COOL.1 TUBE COOL.1 pin G : 0.61496 0.69129
- COOL.1 TUBE COOL.1 mesh GAP : ns=1 mesh FUEL : nr=4 shield ALL=N FUEL=P
% maps pinmap I
F F F F F F F F G G F F F F F F G F F G F F F F F F F F F F F F F F F
% reflector geom top_refl_lpc : REFL 36.226 geom top_refl_mpc : REFL 36.226 geom top_refl_hpc : REFL 36.226 geom top_refl_mdc : REFL 36.226 slab top_refl_lpc : 8.556 3.866 3.578 1.67 2.129 8.827 7.6
- 14 6 6 3 3 14 12
- 34 34 34 34 34 34 34 slab top_refl_mpc : 8.556 3.866 3.578 1.67 2.129 8.827 7.6
- 14 6 6 3 3 14 12
- 34 34 34 34 34 34 34 slab top_refl_hpc : 8.556 3.866 3.578 1.67 2.129 8.827 7.6
- 14 6 6 3 3 14 12
- 34 34 34 34 34 34 34 slab top_refl_mdc : 8.556 3.866 3.578 1.67 2.129 8.827 7.6
- 14 6 6 3 3 14 12
- 34 34 34 34 34 34 34 mat PLE.1 : c_ple_lpc 2.25 mat PLE_GRID.1 : c_ple_grid_lpc 2.78 mat PLUG.1 : c_plug_lpc 3.07 mat NOZ_GAP.1 : c_noz_gap_lpc 0.66
A-6 mat TOP_NOZ.1 : c_top_noz_lpc 2.02 mat TOP_CP.1 : c_top_cp_lpc 4.27 mat PLE.2 : c_ple_mpc 2.25 mat PLE_GRID.2 : c_ple_grid_mpc 2.78 mat PLUG.2 : c_plug_mpc 3.07 mat NOZ_GAP.2 : c_noz_gap_mpc 0.66 mat TOP_NOZ.2 : c_top_noz_mpc 2.02 mat TOP_CP.2 : c_top_cp_mpc 4.27 mat PLE.3 : c_ple_hpc 2.25 mat PLE_GRID.3 : c_ple_grid_hpc 2.78 mat PLUG.3 : c_plug_hpc 3.07 mat NOZ_GAP.3 : c_noz_gap_hpc 0.66 mat TOP_NOZ.3 : c_top_noz_hpc 2.02 mat TOP_CP.3 : c_top_cp_hpc 4.27 mat PLE.4 : c_ple_mdc 2.31 mat PLE_GRID.4 : c_ple_grid_mdc 2.83 mat PLUG.4 : c_plug_mdc 3.12 mat NOZ_GAP.4 : c_noz_gap_mdc 0.75 mat TOP_NOZ.4 : c_top_noz_mdc 2.10 mat TOP_CP.4 : c_top_cp_mdc 4.32 comp c_cool_lpc : LW 0 comp c_ple_lpc : WT ZIRC4=29 SS304=55 c_cool_lpc=-100 comp c_ple_grid_lpc : WT ZIRC4=23 SS304=45 INC718=20 c_cool_lpc=-100 comp c_plug_lpc : WT ZIRC4=88 c_cool_lpc=-100 comp c_noz_gap_lpc : WT ZIRC4=8 c_cool_lpc=-100 comp c_top_noz_lpc : WT SS304=76 c_cool_lpc=-100 comp c_top_cp_lpc : WT SS304=93 c_cool_lpc=-100 comp c_cool_mpc : LW 600 comp c_ple_mpc : WT ZIRC4=29 SS304=55 c_cool_mpc=-100 comp c_ple_grid_mpc : WT ZIRC4=23 SS304=45 INC718=20 c_cool_mpc=-100 comp c_plug_mpc : WT ZIRC4=88 c_cool_mpc=-100 comp c_noz_gap_mpc : WT ZIRC4=8 c_cool_mpc=-100 comp c_top_noz_mpc : WT SS304=76 c_cool_mpc=-100 comp c_top_cp_mpc : WT SS304=93 c_cool_mpc=-100 comp c_cool_hpc : LW 1800 comp c_ple_hpc : WT ZIRC4=29 SS304=55 c_cool_hpc=-100 comp c_ple_grid_hpc : WT ZIRC4=23 SS304=45 INC718=20 c_cool_hpc=-100 comp c_plug_hpc : WT ZIRC4=88 c_cool_hpc=-100 comp c_noz_gap_hpc : WT ZIRC4=8 c_cool_hpc=-100 comp c_top_noz_hpc : WT SS304=76 c_cool_hpc=-100 comp c_top_cp_hpc : WT SS304=93 c_cool_hpc=-100 comp c_cool_mdc : LW 600 comp c_ple_mdc : WT ZIRC4=28 SS304=54 c_cool_mdc=-100 comp c_ple_grid_mdc : WT ZIRC4=23 SS304=44 INC718=20 c_cool_mdc=-100 comp c_plug_mdc : WT ZIRC4=87 c_cool_mdc=-100 comp c_noz_gap_mdc : WT ZIRC4=7 c_cool_mdc=-100 comp c_top_noz_mdc : WT SS304=73 c_cool_mdc=-100 comp c_top_cp_mdc : WT SS304=92 c_cool_mdc=-100 opt ESSM RaySpacing=0.0425 opt KEFF RaySpacing=0.046
% states state ALL : temp=615 FUEL : temp=800 COOL : dens=0.60811 boron=600 top_refl_mpc : in=yes top_refl_lpc : in=no top_refl_hpc : in=no top_refl_mdc : in=no read branch add COOL : boron=0 top_refl_mpc : in=no top_refl_lpc : in=yes top_refl_hpc : in=no top_refl_mdc : in=no add COOL : boron=1800 top_refl_mpc : in=no top_refl_lpc : in=no top_refl_hpc : in=yes top_refl_mdc : in=no
A-7 add ALL : temp=585 FUEL : temp=800 COOL : boron=600 dens=0.70045 top_refl_mpc : in=no top_refl_lpc : in=no top_refl_hpc : in=no top_refl_mdc : in=yes end branch end A.4 Polaris Input for Axial Bottom Reflector
=polaris
% general options title "Bottom reflector" lib "broad_lwr" opt PRINT XFile16=true system PWR
% geometry geom W15 : ASSM 15 1.43527 FULL hgap 0.04003
% compositions and materials comp c_uox : UOX 2.573 mat FUEL.1 : c_uox 9.831095
% pins definitions pin F : 0.46714 0.47502 0.53685
- FUEL.1 GAP CLAD pin I : 0.61496 0.69129
- COOL.1 TUBE COOL.1 pin G : 0.61496 0.69129
- COOL.1 TUBE COOL.1 mesh GAP : ns=1 mesh FUEL : nr=4 shield ALL=N FUEL=P
% maps pinmap I
F F F F F F F F G G F F F F F F G F F G F F F F F F F F F F F F F F F
% reflector geom bot_refl_lpc : REFL 16.951 geom bot_refl_mpc : REFL 16.951 geom bot_refl_hpc : REFL 16.951 geom bot_refl_mdc : REFL 16.951 slab bot_refl_lpc : 5.898 6.053 5.000
- BOT_GAP.1 BOT_NOZ.1 BOT_CP.1
- 9 9 8
- 34 34 34 slab bot_refl_mpc : 5.898 6.053 5.000
- BOT_GAP.2 BOT_NOZ.2 BOT_CP.2
- 9 9 8
- 34 34 34 slab bot_refl_hpc : 5.898 6.053 5.000
- BOT_GAP.3 BOT_NOZ.3 BOT_CP.3
- 9 9 8
- 34 34 34 slab bot_refl_mdc : 5.898 6.053 5.000
- BOT_GAP.4 BOT_NOZ.4 BOT_CP.4
- 9 9 8
- 34 34 34 mat BOT_GAP.1 : c_bot_gap_lpc 1.82 mat BOT_NOZ.1 : c_bot_noz_lpc 2.79 mat BOT_CP.1 : c_bot_cp_lpc 4.35
A-8 mat BOT_GAP.2 : c_bot_gap_mpc 1.82 mat BOT_NOZ.2 : c_bot_noz_mpc 2.79 mat BOT_CP.2 : c_bot_cp_mpc 4.35 mat BOT_GAP.3 : c_bot_gap_hpc 1.82 mat BOT_NOZ.3 : c_bot_noz_hpc 2.79 mat BOT_CP.3 : c_bot_cp_hpc 4.35 mat BOT_GAP.4 : c_bot_gap_mdc 1.76 mat BOT_NOZ.4 : c_bot_noz_mdc 2.74 mat BOT_CP.4 : c_bot_cp_mdc 4.32 comp c_cool_lpc : LW 0 comp c_bot_gap_lpc : WT ZIRC4=44 INC718=21 c_cool_lpc=-100 comp c_bot_noz_lpc : WT SS304=80 c_cool_lpc=-100 comp c_bot_cp_lpc : WT SS304=91 c_cool_lpc=-100 comp c_cool_mpc : LW 600 comp c_bot_gap_mpc : WT ZIRC4=44 INC718=21 c_cool_mpc=-100 comp c_bot_noz_mpc : WT SS304=80 c_cool_mpc=-100 comp c_bot_cp_mpc : WT SS304=91 c_cool_mpc=-100 comp c_cool_hpc : LW 1800 comp c_bot_gap_hpc : WT ZIRC4=44 INC718=21 c_cool_hpc=-100 comp c_bot_noz_hpc : WT SS304=80 c_cool_hpc=-100 comp c_bot_cp_hpc : WT SS304=91 c_cool_hpc=-100 comp c_cool_mdc : LW 600 comp c_bot_gap_mdc : WT ZIRC4=46 INC718=21 c_cool_mdc=-100 comp c_bot_noz_mdc : WT SS304=82 c_cool_mdc=-100 comp c_bot_cp_mdc : WT SS304=92 c_cool_mdc=-100 opt ESSM RaySpacing=0.045 opt KEFF RaySpacing=.066
% states state ALL : temp=550 FUEL : temp=800 COOL : dens=0.76971 boron=600 bot_refl_mpc : in=yes bot_refl_lpc : in=no bot_refl_hpc : in=no bot_refl_mdc : in=no read branch add COOL : boron=0 bot_refl_mpc : in=no bot_refl_lpc : in=yes bot_refl_hpc : in=no bot_refl_mdc : in=no add COOL : boron=1800 bot_refl_mpc : in=no bot_refl_lpc : in=no bot_refl_hpc : in=yes bot_refl_mdc : in=no add ALL : temp=585 FUEL : temp=800 COOL : boron=600 dens=0.70045 bot_refl_mpc : in=no bot_refl_lpc : in=no bot_refl_hpc : in=no bot_refl_mdc : in=yes end branch end
B-1 APPENDIX B. SAMPLE OF GENPMAXS INPUT FILES B.1 GenPMAXS Input for the Fuel Assembly 1.868_bp00
%JOB_TIT
'b1_1.878_bp00.PMAX' T 3.0
%JOB_OPT T T F F F F T T T F T T T F
!ad,xe,de,j1,ch,Xd,iv,dt,yl,cd,gf,be,lb,dc
%DAT_SRC 8 8 1
%STA_VAR 4
CR DC PC TF
%HISTORY 8 4 HIST01 0.00000 0.60832 500.0 800.0 HIST02 0.00000 0.70081 0.0 800.0 HIST03 0.00000 0.70081 500.0 560.0 HIST04 0.00000 0.70081 500.0 800.0 HIST05 0.00000 0.70081 500.0 1600.0 HIST06 0.00000 0.70081 1500.0 800.0 HIST07 0.00000 0.76999 500.0 800.0 HIST08 1.00000 0.70081 500.0 800.0
%BRANCH 54 14 BLCK01 0.00000 0.60832 0.5 560.0 BLCK02 0.00000 0.60832 500.0 560.0 BLCK03 0.00000 0.60832 1500.0 560.0 BLCK04 0.00000 0.70081 0.5 560.0 BLCK05 0.00000 0.70081 500.0 560.0 BLCK06 0.00000 0.70081 1500.0 560.0 BLCK07 0.00000 0.76999 0.5 560.0 BLCK08 0.00000 0.76999 500.0 560.0 BLCK09 0.00000 0.76999 1500.0 560.0 BLCK10 0.00000 0.60832 0.5 800.0 BLCK11 0.00000 0.60832 500.0 800.0 BLCK12 0.00000 0.60832 1500.0 800.0 BLCK13 0.00000 0.70081 0.5 800.0 BLCK14 0.00000 0.70081 500.0 800.0 BLCK15 0.00000 0.70081 1500.0 800.0 BLCK16 0.00000 0.76999 0.5 800.0 BLCK17 0.00000 0.76999 500.0 800.0 BLCK18 0.00000 0.76999 1500.0 800.0 BLCK19 0.00000 0.60832 0.5 1600.0 BLCK20 0.00000 0.60832 500.0 1600.0 BLCK21 0.00000 0.60832 1500.0 1600.0 BLCK22 0.00000 0.70081 0.5 1600.0 BLCK23 0.00000 0.70081 500.0 1600.0 BLCK24 0.00000 0.70081 1500.0 1600.0 BLCK25 0.00000 0.76999 0.5 1600.0 BLCK26 0.00000 0.76999 500.0 1600.0 BLCK27 0.00000 0.76999 1500.0 1600.0 BLCK28 1.00000 0.60832 0.5 800.0 BLCK29 1.00000 0.60832 500.0 800.0 BLCK30 1.00000 0.60832 1500.0 800.0 BLCK31 1.00000 0.70081 0.5 800.0 BLCK32 1.00000 0.70081 500.0 800.0 BLCK33 1.00000 0.70081 1500.0 800.0 BLCK34 1.00000 0.76999 0.5 800.0 BLCK35 1.00000 0.76999 500.0 800.0 BLCK36 1.00000 0.76999 1500.0 800.0 BLCK37 2.00000 0.60832 0.5 800.0 BLCK38 2.00000 0.60832 500.0 800.0 BLCK39 2.00000 0.60832 1500.0 800.0 BLCK40 2.00000 0.70081 0.5 800.0 BLCK41 2.00000 0.70081 500.0 800.0 BLCK42 2.00000 0.70081 1500.0 800.0 BLCK43 2.00000 0.76999 0.5 800.0 BLCK44 2.00000 0.76999 500.0 800.0 BLCK45 2.00000 0.76999 1500.0 800.0 BLCK46 3.00000 0.60832 0.5 800.0 BLCK47 3.00000 0.60832 500.0 800.0 BLCK48 3.00000 0.60832 1500.0 800.0 BLCK49 3.00000 0.70081 0.5 800.0 BLCK50 3.00000 0.70081 500.0 800.0 BLCK51 3.00000 0.70081 1500.0 800.0 BLCK52 3.00000 0.76999 0.5 800.0 BLCK53 3.00000 0.76999 500.0 800.0
B-2 BLCK54 3.00000 0.76999 1500.0 800.0
%BURNUP 1
BS1 19 0.000 0.100 0.500 1.000 2.000 4.000 6.000 8.000 10.000 12.500 15.000 17.500 20.000 25.000 30.000 35.000 40.000 45.000 50.000 HIST01 54*1 HIST02 54*1 HIST03 54*1 HIST04 54*1 HIST05 54*1 HIST06 54*1 HIST07 54*1 HIST08 54*1
%USERINP 1
PIN 1.43243 0.06131 0.06131 0
%FIL_CNT 1 '../../Polaris/bare/b1_1.8_00bp/b1_1.868_bp00_cr0_dc60_p0500_tf0800.t16' 54 1 1 1 11 1 19 !
2 1 1 1 19 !
3 1 2 1 19 !
4 1 3 1 19 !
5 1 4 1 19 !
6 1 5 1 19 !
7 1 6 1 19 !
8 1 7 1 19 !
9 1 8 1 19 !
10 1 9 1 19 !
11 1 10 1 19 !
12 1 12 1 19 !
13 1 13 1 19 !
14 1 14 1 19 !
15 1 15 1 19 !
16 1 16 1 19 !
17 1 17 1 19 !
18 1 18 1 19 !
19 1 19 1 19 !
20 1 20 1 19 !
21 1 21 1 19 !
22 1 22 1 19 !
23 1 23 1 19 !
24 1 24 1 19 !
25 1 25 1 19 !
26 1 26 1 19 !
27 1 27 1 19 !
28 1 28 1 19 !
29 1 29 1 19 !
30 1 30 1 19 !
31 1 31 1 19 !
32 1 32 1 19 !
33 1 33 1 19 !
34 1 34 1 19 !
35 1 35 1 19 !
36 1 36 1 19 !
37 1 37 1 19 !
38 1 38 1 19 !
39 1 39 1 19 !
40 1 40 1 19 !
41 1 41 1 19 !
42 1 42 1 19 !
43 1 43 1 19 !
44 1 44 1 19 !
45 1 45 1 19 !
46 1 46 1 19 !
47 1 47 1 19 !
48 1 48 1 19 !
49 1 49 1 19 !
50 1 50 1 19 !
51 1 51 1 19 !
52 1 52 1 19 !
53 1 53 1 19 !
54 1 54 1 19 !
2 '../../Polaris/bare/b1_1.8_00bp/b1_1.868_bp00_cr0_dc70_p0000_tf0800.t16' 54 1 1 2 13 1 19 !
2 2 1 1 19 !
3 2 2 1 19 !
4 2 3 1 19 !
5 2 4 1 19 !
B-3 6 2 5 1 19 !
7 2 6 1 19 !
8 2 7 1 19 !
9 2 8 1 19 !
10 2 9 1 19 !
11 2 10 1 19 !
12 2 11 1 19 !
13 2 12 1 19 !
14 2 14 1 19 !
15 2 15 1 19 !
16 2 16 1 19 !
17 2 17 1 19 !
18 2 18 1 19 !
19 2 19 1 19 !
20 2 20 1 19 !
21 2 21 1 19 !
22 2 22 1 19 !
23 2 23 1 19 !
24 2 24 1 19 !
25 2 25 1 19 !
26 2 26 1 19 !
27 2 27 1 19 !
28 2 28 1 19 !
29 2 29 1 19 !
30 2 30 1 19 !
31 2 31 1 19 !
32 2 32 1 19 !
33 2 33 1 19 !
34 2 34 1 19 !
35 2 35 1 19 !
36 2 36 1 19 !
37 2 37 1 19 !
38 2 38 1 19 !
39 2 39 1 19 !
40 2 40 1 19 !
41 2 41 1 19 !
42 2 42 1 19 !
43 2 43 1 19 !
44 2 44 1 19 !
45 2 45 1 19 !
46 2 46 1 19 !
47 2 47 1 19 !
48 2 48 1 19 !
49 2 49 1 19 !
50 2 50 1 19 !
51 2 51 1 19 !
52 2 52 1 19 !
53 2 53 1 19 !
54 2 54 1 19 !
3 '../../Polaris/bare/b1_1.8_00bp/b1_1.868_bp00_cr0_dc70_p0500_tf0560.t16' 54 1 1 3 5 1 19 !
2 3 1 1 19 !
3 3 2 1 19 !
4 3 3 1 19 !
5 3 4 1 19 !
6 3 6 1 19 !
7 3 7 1 19 !
8 3 8 1 19 !
9 3 9 1 19 !
10 3 10 1 19 !
11 3 11 1 19 !
12 3 12 1 19 !
13 3 13 1 19 !
14 3 14 1 19 !
15 3 15 1 19 !
16 3 16 1 19 !
17 3 17 1 19 !
18 3 18 1 19 !
19 3 19 1 19 !
20 3 20 1 19 !
21 3 21 1 19 !
22 3 22 1 19 !
23 3 23 1 19 !
24 3 24 1 19 !
25 3 25 1 19 !
26 3 26 1 19 !
27 3 27 1 19 !
28 3 28 1 19 !
29 3 29 1 19 !
30 3 30 1 19 !
31 3 31 1 19 !
B-4 32 3 32 1 19 !
33 3 33 1 19 !
34 3 34 1 19 !
35 3 35 1 19 !
36 3 36 1 19 !
37 3 37 1 19 !
38 3 38 1 19 !
39 3 39 1 19 !
40 3 40 1 19 !
41 3 41 1 19 !
42 3 42 1 19 !
43 3 43 1 19 !
44 3 44 1 19 !
45 3 45 1 19 !
46 3 46 1 19 !
47 3 47 1 19 !
48 3 48 1 19 !
49 3 49 1 19 !
50 3 50 1 19 !
51 3 51 1 19 !
52 3 52 1 19 !
53 3 53 1 19 !
54 3 54 1 19 !
4 '../../Polaris/bare/b1_1.8_00bp/b1_1.868_bp00_cr0_dc70_p0500_tf0800.t16' 54 1 1 4 14 1 19 !
2 4 1 1 19 !
3 4 2 1 19 !
4 4 3 1 19 !
5 4 4 1 19 !
6 4 5 1 19 !
7 4 6 1 19 !
8 4 7 1 19 !
9 4 8 1 19 !
10 4 9 1 19 !
11 4 10 1 19 !
12 4 11 1 19 !
13 4 12 1 19 !
14 4 13 1 19 !
15 4 15 1 19 !
16 4 16 1 19 !
17 4 17 1 19 !
18 4 18 1 19 !
19 4 19 1 19 !
20 4 20 1 19 !
21 4 21 1 19 !
22 4 22 1 19 !
23 4 23 1 19 !
24 4 24 1 19 !
25 4 25 1 19 !
26 4 26 1 19 !
27 4 27 1 19 !
28 4 28 1 19 !
29 4 29 1 19 !
30 4 30 1 19 !
31 4 31 1 19 !
32 4 32 1 19 !
33 4 33 1 19 !
34 4 34 1 19 !
35 4 35 1 19 !
36 4 36 1 19 !
37 4 37 1 19 !
38 4 38 1 19 !
39 4 39 1 19 !
40 4 40 1 19 !
41 4 41 1 19 !
42 4 42 1 19 !
43 4 43 1 19 !
44 4 44 1 19 !
45 4 45 1 19 !
46 4 46 1 19 !
47 4 47 1 19 !
48 4 48 1 19 !
49 4 49 1 19 !
50 4 50 1 19 !
51 4 51 1 19 !
52 4 52 1 19 !
53 4 53 1 19 !
54 4 54 1 19 !
5 '../../Polaris/bare/b1_1.8_00bp/b1_1.868_bp00_cr0_dc70_p0500_tf1600.t16' 54 1 1 5 23 1 19 !
2 5 1 1 19 !
B-5 3 5 2 1 19 !
4 5 3 1 19 !
5 5 4 1 19 !
6 5 5 1 19 !
7 5 6 1 19 !
8 5 7 1 19 !
9 5 8 1 19 !
10 5 9 1 19 !
11 5 10 1 19 !
12 5 11 1 19 !
13 5 12 1 19 !
14 5 13 1 19 !
15 5 14 1 19 !
16 5 15 1 19 !
17 5 16 1 19 !
18 5 17 1 19 !
19 5 18 1 19 !
20 5 19 1 19 !
21 5 20 1 19 !
22 5 21 1 19 !
23 5 22 1 19 !
24 5 24 1 19 !
25 5 25 1 19 !
26 5 26 1 19 !
27 5 27 1 19 !
28 5 28 1 19 !
29 5 29 1 19 !
30 5 30 1 19 !
31 5 31 1 19 !
32 5 32 1 19 !
33 5 33 1 19 !
34 5 34 1 19 !
35 5 35 1 19 !
36 5 36 1 19 !
37 5 37 1 19 !
38 5 38 1 19 !
39 5 39 1 19 !
40 5 40 1 19 !
41 5 41 1 19 !
42 5 42 1 19 !
43 5 43 1 19 !
44 5 44 1 19 !
45 5 45 1 19 !
46 5 46 1 19 !
47 5 47 1 19 !
48 5 48 1 19 !
49 5 49 1 19 !
50 5 50 1 19 !
51 5 51 1 19 !
52 5 52 1 19 !
53 5 53 1 19 !
54 5 54 1 19 !
6 '../../Polaris/bare/b1_1.8_00bp/b1_1.868_bp00_cr0_dc70_p1500_tf0800.t16' 54 1 1 6 15 1 19 !
2 6 1 1 19 !
3 6 2 1 19 !
4 6 3 1 19 !
5 6 4 1 19 !
6 6 5 1 19 !
7 6 6 1 19 !
8 6 7 1 19 !
9 6 8 1 19 !
10 6 9 1 19 !
11 6 10 1 19 !
12 6 11 1 19 !
13 6 12 1 19 !
14 6 13 1 19 !
15 6 14 1 19 !
16 6 16 1 19 !
17 6 17 1 19 !
18 6 18 1 19 !
19 6 19 1 19 !
20 6 20 1 19 !
21 6 21 1 19 !
22 6 22 1 19 !
23 6 23 1 19 !
24 6 24 1 19 !
25 6 25 1 19 !
26 6 26 1 19 !
27 6 27 1 19 !
28 6 28 1 19 !
B-6 29 6 29 1 19 !
30 6 30 1 19 !
31 6 31 1 19 !
32 6 32 1 19 !
33 6 33 1 19 !
34 6 34 1 19 !
35 6 35 1 19 !
36 6 36 1 19 !
37 6 37 1 19 !
38 6 38 1 19 !
39 6 39 1 19 !
40 6 40 1 19 !
41 6 41 1 19 !
42 6 42 1 19 !
43 6 43 1 19 !
44 6 44 1 19 !
45 6 45 1 19 !
46 6 46 1 19 !
47 6 47 1 19 !
48 6 48 1 19 !
49 6 49 1 19 !
50 6 50 1 19 !
51 6 51 1 19 !
52 6 52 1 19 !
53 6 53 1 19 !
54 6 54 1 19 !
7 '../../Polaris/bare/b1_1.8_00bp/b1_1.868_bp00_cr0_dc77_p0500_tf0800.t16' 54 1 1 7 17 1 19 !
2 7 1 1 19 !
3 7 2 1 19 !
4 7 3 1 19 !
5 7 4 1 19 !
6 7 5 1 19 !
7 7 6 1 19 !
8 7 7 1 19 !
9 7 8 1 19 !
10 7 9 1 19 !
11 7 10 1 19 !
12 7 11 1 19 !
13 7 12 1 19 !
14 7 13 1 19 !
15 7 14 1 19 !
16 7 15 1 19 !
17 7 16 1 19 !
18 7 18 1 19 !
19 7 19 1 19 !
20 7 20 1 19 !
21 7 21 1 19 !
22 7 22 1 19 !
23 7 23 1 19 !
24 7 24 1 19 !
25 7 25 1 19 !
26 7 26 1 19 !
27 7 27 1 19 !
28 7 28 1 19 !
29 7 29 1 19 !
30 7 30 1 19 !
31 7 31 1 19 !
32 7 32 1 19 !
33 7 33 1 19 !
34 7 34 1 19 !
35 7 35 1 19 !
36 7 36 1 19 !
37 7 37 1 19 !
38 7 38 1 19 !
39 7 39 1 19 !
40 7 40 1 19 !
41 7 41 1 19 !
42 7 42 1 19 !
43 7 43 1 19 !
44 7 44 1 19 !
45 7 45 1 19 !
46 7 46 1 19 !
47 7 47 1 19 !
48 7 48 1 19 !
49 7 49 1 19 !
50 7 50 1 19 !
51 7 51 1 19 !
52 7 52 1 19 !
53 7 53 1 19 !
54 7 54 1 19 !
B-7 8 '../../Polaris/bare/b1_1.8_00bp/b1_1.868_bp00_cr1_dc70_p0500_tf0800.t16' 54 1 1 8 32 1 19 !
2 8 1 1 19 !
3 8 2 1 19 !
4 8 3 1 19 !
5 8 4 1 19 !
6 8 5 1 19 !
7 8 6 1 19 !
8 8 7 1 19 !
9 8 8 1 19 !
10 8 9 1 19 !
11 8 10 1 19 !
12 8 11 1 19 !
13 8 12 1 19 !
14 8 13 1 19 !
15 8 14 1 19 !
16 8 15 1 19 !
17 8 16 1 19 !
18 8 17 1 19 !
19 8 18 1 19 !
20 8 19 1 19 !
21 8 20 1 19 !
22 8 21 1 19 !
23 8 22 1 19 !
24 8 23 1 19 !
25 8 24 1 19 !
26 8 25 1 19 !
27 8 26 1 19 !
28 8 27 1 19 !
29 8 28 1 19 !
30 8 29 1 19 !
31 8 30 1 19 !
32 8 31 1 19 !
33 8 33 1 19 !
34 8 34 1 19 !
35 8 35 1 19 !
36 8 36 1 19 !
37 8 37 1 19 !
38 8 38 1 19 !
39 8 39 1 19 !
40 8 40 1 19 !
41 8 41 1 19 !
42 8 42 1 19 !
43 8 43 1 19 !
44 8 44 1 19 !
45 8 45 1 19 !
46 8 46 1 19 !
47 8 47 1 19 !
48 8 48 1 19 !
49 8 49 1 19 !
50 8 50 1 19 !
51 8 51 1 19 !
52 8 52 1 19 !
53 8 53 1 19 !
54 8 54 1 19 !
%JOB_END
B-8 B.2 GenPMAXS Input for Radial Edge Reflector
%JOB_TIT
'refl_rad_edge.PMAX' T 3.0
%JOB_OPT F F F F F F F F F F F F F F F
!adf,xes,ded,j1f,chi,chd,inv,det,yld,cdf,gff,bet,lam,dec,zdf
%DAT_SRC 8 1 0
%STA_VAR 3
CR DC PC
%HISTORY 1 1
'CR0-HDC-MPC' 0 0.769987 500
%BRANCH 4 1
'CR0-HDC-MPC' 0 0.769987 500
'CR0-HDC-LPC' 0 0.769987 0
'CR0-HDC-HPC' 0 0.769987 1500
'CR0-MDC-MPC' 0 0.700809 500
%BURNUP 1
'NOBP' 1 0
'CR0-MDC-MPC' 4*1
%FIL_CNT 1 '../../Polaris/reflector/polaris_rad.t16' 4 0 1 1 1 1 1 2 1 2 1 1 3 1 3 1 1 4 1 4 1 1
%JOB_END B.3 GenPMAXS Input for Axial Top Reflector
%JOB_TIT
'refl_top.PMAX' T 3.0
%JOB_OPT F F F F F F T F F F F F F F F
!adf,xes,ded,j1f,chi,chd,inv,det,yld,cdf,gff,bet,lam,dec,zdf
%DAT_SRC 8 1 0
%STA_VAR 3
CR DC PC
%HISTORY 1 1
'CR0-LDC-MPC' 0 0.608316 500
%BRANCH 4 1
'CR0-LDC-MPC' 0 0.608316 500
'CR0-LDC-LPC' 0 0.608316 0
'CR0-LDC-HPC' 0 0.608316 1500
'CR0-MDC-MPC' 0 0.700809 500
%BURNUP 1
'NOBP' 1 0
'CR0-LDC-MPC' 4*1
%FIL_CNT 1 '../../Polaris/reflector/polaris_top.t16' 4 0 1 1 1 1 1 2 1 2 1 1 3 1 3 1 1 4 1 4 1 1
%JOB_END
B-9 B.4 GenPMAXS Input for Axial Bottom Reflector
%JOB_TIT
'refl_bot.PMAX' T 3.0
%JOB_OPT F F F F F F T F F F F F F F F
!adf,xes,ded,j1f,chi,chd,inv,det,yld,cdf,gff,bet,lam,dec,zdf
%DAT_SRC 8 1 0
%STA_VAR 3
CR DC PC
%HISTORY 1 1
'CR0-HDC-MPC' 0 0.769987 500
%BRANCH 4 1
'CR0-HDC-MPC' 0 0.769987 500
'CR0-HDC-LPC' 0 0.769987 0
'CR0-HDC-HPC' 0 0.769987 1500
'CR0-MDC-MPC' 0 0.700809 500
%BURNUP 1
'NOBP' 1 0
'CR0-MDC-MPC' 4*1
%FIL_CNT 1 '../../Polaris/reflector/polaris_bot.t16' 4 0 1 1 1 1 1 2 1 2 1 1 3 1 3 1 1 4 1 4 1 1
%JOB_END
C-1 APPENDIX C. PARCS INPUT FILES C.1 PARCS Input for the In-Core Detector Map "depl_detect_full.geom" File DET_XY_LOC 157 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 DET_Z_LOC 39 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 DET_Z_WEI 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 DET_NAME 1 D001 2 D002 3 D003 4 D004 5 D005 6 D006 7 D007 8 D008 9 D009 10 D010 11 D011 12 D012 13 D013 14 D014 15 D015 16 D016 17 D017 18 D018 19 D019 20 D020 21 D021 22 D022 23 D023 24 D024 25 D025 26 D026 27 D027 28 D028 29 D029 30 D030 31 D031 32 D032 33 D033 34 D034 35 D035 36 D036 37 D037 38 D038 39 D039 40 D040 41 D041 42 D042 43 D043 44 D044 45 D045 46 D046 47 D047 48 D048 49 D049 50 D050 51 D051 52 D052 53 D053 54 D054 55 D055 56 D056
C-2 57 D057 58 D058 59 D059 60 D060 61 D061 62 D062 63 D063 64 D064 65 D065 66 D066 67 D067 68 D068 69 D069 70 D070 71 D071 72 D072 73 D073 74 D074 75 D075 76 D076 77 D077 78 D078 79 D079 80 D080 81 D081 82 D082 83 D083 84 D084 85 D085 86 D086 87 D087 88 D088 89 D089 90 D090 91 D091 92 D092 93 D093 94 D094 95 D095 96 D096 97 D097 98 D098 99 D099 100 D100 101 D101 102 D102 103 D103 104 D104 105 D105 106 D106 107 D107 108 D108 109 D109 110 D110 111 D111 112 D112 113 D113 114 D114 115 D115 116 D116 117 D117 118 D118 119 D119 120 D120 121 D121 122 D122 123 D123 124 D124 125 D125 126 D126 127 D127 128 D128 129 D129 130 D130 131 D131 132 D132 133 D133 134 D134 135 D135 136 D136 137 D137 138 D138 139 D139 140 D140 141 D141 142 D142 143 D143 144 D144
C-3 145 D145 146 D146 147 D147 148 D148 149 D149 150 D150 151 D151 152 D152 153 D153 154 D154 155 D155 156 D156 157 D157 C.2 PARCS Input for the Cycle 1 Loading Pattern "su_c1_lay.mcyc" File 0 0 0 0 0 0 0 0 C-30 C-27 C-16 0 0 0 0 0 C-31 C-28 C-51 A-35 C-2 C-3 C-20 0 0 0 0 C-47 C-21 B-10 A-9 B-35 A-52 B-18 C-13 C-6 0 0 0 0 C-43 A-18 B-28 A-22 B-19 A-8 B-25 A-21 B-31 A-2 C-32 0 0 0 C-46 C-7 B-50 A-46 B-52 A-6 B-17 A-39 B-3 A-25 B-23 C-40 C-33 0 0 0 C-26 B-47 A-20 B-2 A-11 B-7 A-49 B-34 A-30 B-11 A-41 B-24 C-15 0 0 0 C-34 C-8 A-17 B-6 A-16 B-8 A-1 B-36 A-3 B-33 A-37 B-15 A-24 C-44 C-39 0 0 C-38 A-38 B-27 A-48 B-45 A-51 B-26 A-32 B-42 A-31 B-21 A-19 B-1 A-40 C-49 0 0 C-35 C-25 A-50 B-9 A-53 B-44 A-10 B-14 A-7 B-29 A-23 B-30 A-43 C-36 C-29 0 0 0 C-1 B-16 A-13 B-46 A-42 B-20 A-12 B-39 A-15 B-37 A-34 B-40 C-10 0 0 0 C-45 C-18 B-4 A-14 B-13 A-44 B-49 A-47 B-5 A-33 B-43 C-19 C-23 0 0 0 C-24 A-45 B-32 A-27 B-48 A-5 B-22 A-4 B-12 A-28 C-4 0 0 0 0 C-12 C-11 B-51 A-26 B-41 A-36 B-38 C-17 C-9 0 0 0 0 C-22 C-14 C-50 A-29 C-52 C-48 C-37 0 0 0 0 0 C-41 C-42 C-5 0 0 0 0 0 0 0 0 C.3 PARCS Input for the HFP Cycle 1 "c1_depl_s.inp" File CASEID depl-cyc1-s Surry Unit 1 - Cycle 1 CNTL core_type pwr core_power 4.96 ! 2441 MW search ppm
! D BP bank_pos 62.5 0.0 depletion T 1.0E-5 T
! NSET LADF LXES LJ1F LDED LCHI LCHD LINV LDET LYLD LCDF LGFF LBET LAMB LDEC tree_xs T 38 T T F F F F F T T F T F F F int_th T -1 xe_sm 1 1 mult_cyc T detector T 1.0 1 pin_power T
!XSEC
! group_spec 2 1 PARAM n_iters_ss 5 200 nlupd_ss 3 3 1 conv_ss 1.0e-6 1.0e-5 5.0e-5 cnv_th_ss 0.001
! wielandt 5.0 10.0 1.0 cmfd 2 decusp 2 GEOM geo_dim 17 17 41 1 1 !nasyx,nasyy,nz rad_conf 0 0 0 0 0 0 90 4 4 4 90 0 0 0 0 0 0 0 0 0 0 99 4 5 30 30 30 8 4 99 0 0 0 0 0 0 0 99 5 30 30 32 10 32 30 30 8 99 0 0 0 0 0 99 5 30 32 22 10 22 10 22 32 30 8 99 0 0 0 99 5 30 10 22 10 22 10 22 10 22 10 30 8 99 0 0 1 30 32 22 10 22 10 22 10 22 10 22 32 30 3 0 90 5 30 22 10 22 10 22 10 22 10 22 10 22 30 8 90 1 30 32 10 22 10 22 10 22 10 22 10 22 10 32 30 3
C-4 1 30 10 22 10 22 10 22 10 22 10 22 10 22 10 30 3 1 30 32 10 22 10 22 10 22 10 22 10 22 10 32 30 3 90 6 30 22 10 22 10 22 10 22 10 22 10 22 30 7 90 0 1 30 32 22 10 22 10 22 10 22 10 22 32 30 3 0 0 99 6 30 10 22 10 22 10 22 10 22 10 30 7 99 0 0 0 99 6 30 32 22 10 22 10 22 32 30 7 99 0 0 0 0 0 99 6 30 30 32 10 32 30 30 7 99 0 0 0 0 0 0 0 99 2 6 30 30 30 7 2 99 0 0 0 0 0 0 0 0 0 0 90 2 2 2 90 0 0 0 0 0 0 assy_type 1 1*1 39*3 1*2 REFL ! W 39*3 assy_type 2 1*1 39*4 1*2 REFL ! S 39*4 assy_type 3 1*1 39*5 1*2 REFL ! E 39*5 assy_type 4 1*1 39*6 1*2 REFL ! N 39*6 assy_type 5 1*1 39*7 1*2 REFL ! NW 39*7 assy_type 6 1*1 39*8 1*2 REFL ! SW 39*8 assy_type 7 1*1 39*9 1*2 REFL ! SE 39*9 assy_type 8 1*1 39*10 1*2 REFL ! NE 39*10 assy_type 90 1*1 39*11 1*2 REFL ! no adf 39*11 assy_type 99 1*1 39*12 1*2 REFL ! corner 39*12 assy_type 10 1*1 1*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 2*13 1*2 FUEL ! 1.87 A, also Plug assy_type 20 1*1 1*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 2*15 1*2 FUEL ! 2.57 B, also Plug assy_type 22 1*1 1*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 2*17 1*2 FUEL ! 2.57 B, BP-12 assy_type 30 1*1 1*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 2*19 1*2 FUEL ! 3.12 C, also Plug assy_type 32 1*1 1*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 2*21 1*2 FUEL ! 3.12 C, BP-12 assy_type 40 1*1 1*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 2*23 1*2 FUEL ! 3.33 4A, also Plug assy_type 42 1*1 1*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 2*25 1*2 FUEL ! 3.33 4A, BP-12 assy_type 43 1*1 1*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 2*27 1*2 FUEL ! 3.33 4A, BP-20 assy_type 51 1*1 1*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 2*29 1*2 FUEL ! 2.61 4B, BP-08 assy_type 54 1*1 1*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 2*31 1*2 FUEL ! 2.61 4B, BPR-12 assy_type 60 1*1 1*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 2*33 1*2 FUEL ! 1.86 4C, also Plug assy_type 70 1*1 1*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 2*35 1*2 FUEL ! 1.86 4X, 17x17 Plug assy_type 80 1*1 1*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 2*37 1*2 FUEL ! 2.10 5, also Plug grid_x 17*21.60912 neutmesh_x 17*1 grid_y 17*21.60912 neutmesh_y 17*1 grid_z 1*15.24 1*12.923 1*3.81 6*9.642 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 2*11.522 1*14.098 boun_cond 2 2 2 2 2 2 !ibcw,ibce,ibcn,ibcs,ibcb,ibct PINCAL_LOC 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 cr_axinfo 15.24 2.561271 bank_conf 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 1 2 0 0 0 0 0 0 0 2 2 0 2 0 2 2 0 0 0 0 0 0 0 2 0 2 0 2 0 2 0 0 0 0 0 0 2 2 0 2 0 2 0 2 0 2 2 0 0 0 0 0 2 0 2 1 2 0 2 1 2 0 2 0 0 0 0 0 2 0 2 0 2 0 2 0 2 0 2 0 2 0 0 0 0 1 2 0 2 0 2 0 2 0 2 0 2 1 0 0 0 0 2 0 2 0 2 0 2 0 2 0 2 0 2 0 0 0 0 0 2 0 2 1 2 0 2 1 2 0 2 0 0 0 0 0 2 2 0 2 0 2 0 2 0 2 2 0 0 0 0 0 0 2 0 2 0 2 0 2 0 0 0 0 0 0 0 2 2 0 2 0 2 2 0 0 0 0 0 0 0 2 1 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
C-5 crb_def 2 1 0 1 0 1.27 361.95 500.0 ! Cd/In/Ag Abso 2 0 1 0 1.27 362.41 500.0 ! Burnable Poison as CR crb_type 1 2
! D BP file './depl_detect_full.geom' FDBK fa_powpit 15.548 21.60912 !assembly power(Mw) and pitch(cm) gamma_frac 0.019 !direc heating fraction TH unif_th 0.74300 600.0 293.33 ! cool den, ftemp(C), ctemp(C) n_pingt 204 21 !nfuelpin,ngt pin_dim 4.677 5.368 0.618 6.945 !pin radii, rs,rw,tw, and rgt in mm flow_cond 289.74 80.976 !tin,cmfrfa(Kg/sec) hgap 15000.0 !hgap(w/M^2-C) Need estimate!!
n_ring 10 !number of meshes in pellet DEPL hst_opt T T F F F out_opt T T F F F PMAXS_F 1 '../GenPMAXS/reflector/refl_bot.PMAX' 1 ! Bottom PMAXS_F 2 '../GenPMAXS/reflector/refl_top.PMAX' 2 ! Top PMAXS_F 3 '../GenPMAXS/reflector/refl_rad_W.PMAX' 3 ! W PMAXS_F 4 '../GenPMAXS/reflector/refl_rad_S.PMAX' 4 ! S PMAXS_F 5 '../GenPMAXS/reflector/refl_rad_E.PMAX' 5 ! E PMAXS_F 6 '../GenPMAXS/reflector/refl_rad_N.PMAX' 6 ! N PMAXS_F 7 '../GenPMAXS/reflector/refl_rad_NW.PMAX' 7 ! NW PMAXS_F 8 '../GenPMAXS/reflector/refl_rad_SW.PMAX' 8 ! SW PMAXS_F 9 '../GenPMAXS/reflector/refl_rad_SE.PMAX' 9 ! SE PMAXS_F 10 '../GenPMAXS/reflector/refl_rad_NE.PMAX' 10 ! NE PMAXS_F 11 '../GenPMAXS/reflector/refl_rad.PMAX' 11 ! no adf PMAXS_F 12 '../GenPMAXS/reflector/refl_rad_diag.PMAX' 12 ! corner PMAXS_F 13 '../GenPMAXS/fuel/b1_1.878_bp00.PMAX' 13 PMAXS_F 14 '../GenPMAXS/fuel_spacer/b1_1.878_bp00.PMAX' 14 PMAXS_F 15 '../GenPMAXS/fuel/b2_2.573_bp00.PMAX' 15 PMAXS_F 16 '../GenPMAXS/fuel_spacer/b2_2.573_bp00.PMAX' 16 PMAXS_F 17 '../GenPMAXS/fuel/b2_2.573_bp12.PMAX' 17 PMAXS_F 18 '../GenPMAXS/fuel_spacer/b2_2.573_bp12.PMAX' 18 PMAXS_F 19 '../GenPMAXS/fuel/b3_3.117_bp00.PMAX' 19 PMAXS_F 20 '../GenPMAXS/fuel_spacer/b3_3.117_bp00.PMAX' 20 PMAXS_F 21 '../GenPMAXS/fuel/b3_3.117_bp12.PMAX' 21 PMAXS_F 22 '../GenPMAXS/fuel_spacer/b3_3.117_bp12.PMAX' 22 PMAXS_F 23 '../GenPMAXS/fuel/b4a_3.330_bp00.PMAX' 23 PMAXS_F 24 '../GenPMAXS/fuel_spacer/b4a_3.330_bp00.PMAX' 24 PMAXS_F 25 '../GenPMAXS/fuel/b4a_3.330_bp12.PMAX' 25 PMAXS_F 26 '../GenPMAXS/fuel_spacer/b4a_3.330_bp12.PMAX' 26 PMAXS_F 27 '../GenPMAXS/fuel/b4a_3.330_bp20.PMAX' 27 PMAXS_F 28 '../GenPMAXS/fuel_spacer/b4a_3.330_bp20.PMAX' 28 PMAXS_F 29 '../GenPMAXS/fuel/b4b_2.610_bp08.PMAX' 29 PMAXS_F 30 '../GenPMAXS/fuel_spacer/b4b_2.610_bp08.PMAX' 30 PMAXS_F 31 '../GenPMAXS/fuel/b4b_2.610_bp12.PMAX' 31 PMAXS_F 32 '../GenPMAXS/fuel_spacer/b4b_2.610_bp12.PMAX' 32 PMAXS_F 33 '../GenPMAXS/fuel/b4c_1.860_bp00.PMAX' 33 PMAXS_F 34 '../GenPMAXS/fuel_spacer/b4c_1.860_bp00.PMAX' 34 PMAXS_F 35 '../GenPMAXS/fuel/b4x_1.860_bp00.PMAX' 35 PMAXS_F 36 '../GenPMAXS/fuel_spacer/b4x_1.860_bp00.PMAX' 36 PMAXS_F 37 '../GenPMAXS/fuel/b5_2.100_bp00.PMAX' 37 PMAXS_F 38 '../GenPMAXS/fuel_spacer/b5_2.100_bp00.PMAX' 38 MCYCLE bank_def 1 62.5 0.0 bank_def 2 37.3 0.0 bank_def 3 99.0 0.0 bank_def 4 77.7 0.0 bank_def 5 89.7 0.0 bank_def 6 97.9 0.0 bank_def 7 122.5 0.0 bank_def 8 101.1 0.0 bank_def 9 114.9 0.0 bank_def 10 117.5 0.0 bank_def 11 114.9 0.0 bank_def 12 115.6 0.0 bank_def 13 118.1 0.0
C-6 bank_def 14 116.6 0.0 bank_def 15 117.5 0.0 bank_def 16 114.9 0.0 bank_def 17 123.8 0.0 bank_def 18 125.1 0.0 bank_def 19 122.5 0.0 bank_def 20 120.6 0.0 bank_def 21 125.1 0.0 bank_def 22 125.1 0.0 bank_def 23 123.2 0.0 bank_def 24 142.1 0.0 bank_def 25 125.1 0.0 bank_def 26 126.3 0.0 bank_def 27 125.1 0.0 bank_def 28 128.2 0.0 bank_def 29 118.1 0.0 bank_def 30 123.2 0.0 bank_def 31 126.3 0.0 bank_def 32 128.8 0.0 bank_def 33 129.5 0.0 bank_def 34 125.7 0.0 bank_def 35 126.9 0.0 bank_def 36 126.9 0.0 bank_def 37 126.9 0.0 bank_def 38 123.2 0.0 bank_def 39 127.6 0.0 bank_def 40 126.3 0.0 bank_def 41 126.3 0.0 bank_def 42 123.8 0.0 bank_def 43 127.6 0.0 bank_def 44 135.8 0.0 bank_def 45 135.8 0.0 bank_def 46 129.5 0.0 bank_def 47 133.9 0.0 bank_def 48 133.9 0.0 bank_def 49 136.4 0.0 bank_def 50 133.9 0.0 bank_def 51 135.2 0.0 bank_def 52 132.6 0.0 bank_def 53 133.9 0.0 bank_def 54 134.5 0.0 bank_def 55 135.2 0.0 bank_def 56 134.5 0.0 bank_def 57 133.3 0.0 bank_def 58 132.0 0.0 bank_def 59 139.6 0.0 bank_def 60 144.0 0.0 bank_def 61 139.6 0.0 bank_def 62 135.8 0.0 bank_def 63 136.4 0.0 bank_def 64 135.2 0.0 bank_def 65 137.1 0.0 bank_def 66 137.7 0.0 bank_def 67 134.5 0.0 bank_def 68 135.2 0.0 bank_def 69 137.1 0.0 bank_def 70 136.4 0.0 bank_def 71 136.4 0.0 bank_def 72 136.4 0.0 bank_def 73 137.1 0.0 bank_def 74 138.3 0.0 bank_def 75 137.7 0.0 bank_def 76 130.7 0.0 bank_def 77 133.3 0.0 bank_def 78 136.4 0.0 bank_def 79 135.8 0.0 bank_def 80 138.3 0.0 bank_def 81 133.3 0.0 bank_def 82 135.8 0.0 bank_def 83 137.1 0.0 bank_def 84 125.1 0.0 bank_def 85 136.4 0.0 bank_def 86 135.2 0.0 bank_def 87 134.5 0.0 bank_def 88 136.4 0.0 bank_def 89 137.7 0.0 bank_def 90 137.1 0.0 bank_def 91 130.3 0.0 bank_def 92 137.7 0.0 bank_def 93 136.4 0.0 bank_def 94 138.3 0.0
C-7 bank_def 95 137.7 0.0 bank_def 96 142.1 0.0 bank_def 97 142.7 0.0 bank_def 98 136.4 0.0 bank_def 99 136.4 0.0 bank_def 100 132.6 0.0 bank_def 101 140.8 0.0 bank_def 102 140.2 0.0 bank_def 103 143.4 0.0 bank_def 104 138.3 0.0 bank_def 105 141.5 0.0 bank_def 106 143.4 0.0 bank_def 107 141.5 0.0 bank_def 108 142.1 0.0 bank_def 109 129.5 0.0 bank_def 110 143.4 0.0 bank_def 111 128.2 0.0 bank_def 112 128.8 0.0 bank_def 113 133.9 0.0 bank_def 114 135.2 0.0 bank_def 115 137.1 0.0 bank_def 116 132.0 0.0 bank_def 117 132.6 0.0 cycle_def 1 depl_step -0.274 -0.00001 -0.009 -0.001 -0.004 -0.025 -0.051 -0.001 -0.399 -0.026 -0.025 -0.011 -0.137 -0.046 -0.068 -0.13 -0.025 -0.02 -
0.101 -0.026 -0.026 -0.026 -0.025 -0.029 -0.186 -0.022 -0.062 -0.125 -0.195 -0.115 -0.259 -0.271 -0.27 -0.214 -0.442 -0.184 -0.213 -0.214 -0.219 -
0.256 -0.021 -0.237 -0.186 -0.152 -0.122 -0.158 -0.282 -0.025 -0.381 -0.16 -0.294 -0.218 -0.259 -0.143 -0.306 -0.024 -0.345 -0.325 -0.405 -0.035 -
0.035 -0.285 -0.035 -0.035 -0.035 -0.035 -0.035 -0.028 -0.072 -0.033 -0.032 -0.245 -0.095 -0.125 -0.03 -0.03 -0.135 -0.205 -0.03 -0.04 -0.04 -
0.095 -0.03 -0.162 -0.033 -0.031 -0.063 -0.032 -0.099 -0.06 -0.14 -0.035 -0.405 -0.235 -0.03 -0.105 -0.035 -0.065 -0.035 -0.065 -0.03 -0.03 -0.27
-0.03 -0.035 -0.07 -0.035 -0.03 -0.135 -0.095 -0.16 -0.13 -0.06 -0.02 -0.09 -0.14 bank_seq 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 power_lev 4.96 29.29 31.42 50.00 44.08 61.49 72.72 75.26 75.42 74.19 74.52 74.52 71.36 74.56 74.56 73.86 74.03 74.19 75.01 74.23 75.34 76.16 74.85 74.89 75.71 73.90 74.85 91.97 78.98 90.82 87.55 87.96 88.41 89.02 89.51 86.11 89.14 88.82 91.11 81.85 90.95 90.91 93.81 95.66 89.55 94.72 86.77 88.28 94.59 94.22 94.39 94.02 94.02 96.35 96.11 96.76 95.94 95.86 98.69 97.46 98.93 97.79 98.57 99.34 99.14 98.85 99.39 98.81 98.57 98.85 98.57 99.30 99.67 99.51 99.84 98.65 98.73 98.07 98.44 99.43 99.10 99.75 99.75 67.92 93.53 93.16 93.36 95.00 95.90 96.27 96.97 98.07 98.61 99.67 99.26 99.47 99.34 98.57 99.06 98.07 99.92 98.65 99.80 98.53 98.81 99.22 97.71 98.77 92.34 98.61 60.63 58.99 59.40 59.81 61.45 60.18 59.40 inlet_ent -561.71
-564.15
-564.26
-564.26
-565.15
-568.54
-569.98
-569.26
-569.71
-568.93
-569.54
-570.59
-569.93
-564.26
-570.21
-569.82
-570.32
-570.21
-568.87
-566.93
-569.82
-570.15
-567.54
-567.87
-567.54
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-566.76
-566.76
-568.15
-570.04
-568.48
-569.04
-569.32
-569.43
-564.87
-569.09
-569.48
-569.04
-568.54
-567.98
-568.76
-567.59
-567.59
-567.82
-566.93
-570.87
-567.26
-568.32
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-567.87
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-568.43
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-567.59
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-570.93
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-567.87
-565.43
-567.04
-567.04
-567.32
-567.48
-567.82
-567.98
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-567.59
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-567.59
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-568.15
-567.59
-567.59
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-567.59
-566.48
-567.04
-566.48
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-567.04
-567.04 flow_rate 117*80.9758 LOCATION 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 SHUF_MAP 1 1 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0
C-8 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 CYCLE_IND 1 0 1 CONV_EC 0.1 1 ! convergence criterion (GWD/T), max number of iteration C.4 PARCS Input for the HZP Cycle 2 Fuel Shuffling "c1_c2_shuf_s.inp" File CASEID cyc2_BOC-s Surry Unit 1 - Cycle 1-2 Shuffle CNTL core_type pwr core_power 0.0001 ! 2441 MW zero power during shuffling
! D BP1 BP2 bank_pos 144.0 144.0 0.0 depletion T 1.0E-5 F
! NSET LADF LXES LJ1F LDED LCHI LCHD LINV LDET LYLD LCDF LGFF LBET LAMB LDEC tree_xs T 38 T T F F F F F T T F T F F F int_th F -1 xe_sm 0 0 mult_cyc T
!XSEC
! group_spec 2 1 PARAM n_iters_ss 5 200 nlupd_ss 3 3 1 conv_ss 1.0e-6 1.0e-5 5.0e-5 cnv_th_ss 0.001 cmfd 2 decusp 2 GEOM geo_dim 17 17 41 1 1 !nasyx,nasyy,nz rad_conf 0 0 0 0 0 0 90 4 4 4 90 0 0 0 0 0 0 0 0 0 0 99 4 5 40 40 40 8 4 99 0 0 0 0 0 0 0 99 5 40 40 43 10 43 40 40 8 99 0 0 0 0 0 99 5 40 42 10 22 54 22 10 42 40 8 99 0 0 0 99 5 40 60 22 22 22 20 22 22 22 60 40 8 99 0 0 1 40 42 22 22 70 22 51 22 60 22 22 42 40 3 0 90 5 40 10 22 60 10 60 10 60 10 60 22 10 40 8 90 1 40 43 22 22 22 60 22 51 22 60 22 22 22 43 40 3 1 40 10 54 22 51 10 51 10 51 10 51 22 54 10 40 3 1 40 43 22 22 22 60 22 51 22 60 22 22 22 43 40 3 90 6 40 10 22 60 10 60 10 60 10 60 22 10 40 7 90 0 1 40 42 22 22 60 22 51 22 70 22 22 42 40 3 0 0 99 6 40 60 22 22 22 20 22 22 22 60 40 7 99 0 0 0 99 6 40 42 10 22 54 22 10 42 40 7 99 0 0 0 0 0 99 6 40 40 43 10 43 40 40 7 99 0 0 0 0 0 0 0 99 2 6 40 40 40 7 2 99 0 0 0 0 0 0 0 0 0 0 90 2 2 2 90 0 0 0 0 0 0
! 0 0 0 0 0 0 90 4 4 4 90 0 0 0 0 0 0
! 0 0 0 0 99 4 5 30 30 30 8 4 99 0 0 0 0
! 0 0 0 99 5 30 30 32 10 32 30 30 8 99 0 0 0
! 0 0 99 5 30 32 22 10 22 10 22 32 30 8 99 0 0
! 0 99 5 30 10 22 10 22 10 22 10 22 10 30 8 99 0
! 0 1 30 32 22 10 22 10 22 10 22 10 22 32 30 3 0
! 90 5 30 22 10 22 10 22 10 22 10 22 10 22 30 8 90
! 1 30 32 10 22 10 22 10 22 10 22 10 22 10 32 30 3
! 1 30 10 22 10 22 10 22 10 22 10 22 10 22 10 30 3
! 1 30 32 10 22 10 22 10 22 10 22 10 22 10 32 30 3
! 90 6 30 22 10 22 10 22 10 22 10 22 10 22 30 7 90
C-9
! 0 1 30 32 22 10 22 10 22 10 22 10 22 32 30 3 0
! 0 99 6 30 10 22 10 22 10 22 10 22 10 30 7 99 0
! 0 0 99 6 30 32 22 10 22 10 22 32 30 7 99 0 0
! 0 0 0 99 6 30 30 32 10 32 30 30 7 99 0 0 0
! 0 0 0 0 99 2 6 30 30 30 7 2 99 0 0 0 0
! 0 0 0 0 0 0 90 2 2 2 90 0 0 0 0 0 0 assy_type 1 1*1 39*3 1*2 REFL ! W 36*3 assy_type 2 1*1 39*4 1*2 REFL ! S 36*4 assy_type 3 1*1 39*5 1*2 REFL ! E 36*5 assy_type 4 1*1 39*6 1*2 REFL ! N 36*6 assy_type 5 1*1 39*7 1*2 REFL ! NW 36*7 assy_type 6 1*1 39*8 1*2 REFL ! SW 36*8 assy_type 7 1*1 39*9 1*2 REFL ! SE 36*9 assy_type 8 1*1 39*10 1*2 REFL ! NE 36*10 assy_type 90 1*1 39*11 1*2 REFL ! no adf 36*11 assy_type 99 1*1 39*12 1*2 REFL ! corner 36*12 assy_type 10 1*1 1*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 2*13 1*2 FUEL ! 1.87 A, also Plug assy_type 20 1*1 1*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 2*15 1*2 FUEL ! 2.57 B, also Plug assy_type 22 1*1 1*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 2*17 1*2 FUEL ! 2.57 B, BP-12 assy_type 30 1*1 1*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 2*19 1*2 FUEL ! 3.12 C, also Plug assy_type 32 1*1 1*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 2*21 1*2 FUEL ! 3.12 C, BP-12 assy_type 40 1*1 1*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 2*23 1*2 FUEL ! 3.33 4A, also Plug assy_type 42 1*1 1*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 2*25 1*2 FUEL ! 3.33 4A, BP-12 assy_type 43 1*1 1*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 2*27 1*2 FUEL ! 3.33 4A, BP-20 assy_type 51 1*1 1*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 2*29 1*2 FUEL ! 2.61 4B, BP-08 assy_type 54 1*1 1*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 2*31 1*2 FUEL ! 2.61 4B, BPR-12 assy_type 60 1*1 1*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 2*33 1*2 FUEL ! 1.86 4C, also Plug assy_type 70 1*1 1*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 2*35 1*2 FUEL ! 1.86 4X, 17x17 Plug assy_type 80 1*1 1*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 2*37 1*2 FUEL ! 2.10 5, also Plug grid_x 17*21.60912 neutmesh_x 17*1 grid_y 17*21.60912 neutmesh_y 17*1 grid_z 1*15.24 1*12.923 1*3.81 6*9.642 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 2*11.522 1*14.098 boun_cond 2 2 2 2 2 2 !ibcw,ibce,ibcn,ibcs,ibcb,ibct cr_axinfo 15.24 2.561271 bank_conf
! cycle 2 (Bank D + Cycle-1 BP + Cycle-2 BP) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 3 1 3 0 0 0 0 0 0 0 3 0 2 3 2 0 3 0 0 0 0 0 0 0 2 2 2 0 2 2 2 0 0 0 0 0 0 3 2 2 0 2 3 2 0 2 2 3 0 0 0 0 0 0 2 0 1 0 0 0 1 0 2 0 0 0 0 0 0 3 2 2 2 0 2 3 2 0 2 2 2 3 0 0 0 0 1 3 2 3 0 3 0 3 0 3 2 3 1 0 0 0 0 3 2 2 2 0 2 3 2 0 2 2 2 3 0 0 0 0 0 0 2 0 1 0 0 0 1 0 2 0 0 0 0 0 0 3 2 2 0 2 3 2 0 2 2 3 0 0 0 0 0 0 2 2 2 0 2 2 2 2 0 0 0 0 0 0 3 0 2 3 2 0 3 0 0 0 0 0 0 0 3 1 3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 crb_def 3 1 0 1 0 1.27 361.95 2.54 ! Cd/In/Ag Abso 2 0 1 0 1.27 362.41 2.08 ! Burnable Poison as CR 3 0 1 0 1.27 362.41 2.08 ! Burnable Poison as CR crb_type 1 2 3
! D BP1 BP2
! crb_type 1 1 1 1 2 1 3
! A B C D R S BP
! crb_def is used to specify type of crb for each bank FDBK fa_powpit 15.548 21.60912 !assembly power(Mw) and pitch(cm) gamma_frac 0.019 !direc heating fraction TH unif_th 0.74300 600.0 293.33 ! cool den, ftemp(C), ctemp(C) n_pingt 225 21 !npin,ngt pin_dim 4.647 5.359 0.617 6.901 !pin radii, rs,rw,tw, and rgt in mm flow_cond 289.74 80.976 !tin,cmfrfa(Kg/sec)
C-10 hgap 15000.0 !hgap(w/M^2-C) Need estimate!!
n_ring 10 !number of meshes in pellet DEPL inp_hst 'depl-cyc1-s.parcs_cyc-01' 1 117 inp_opt F F F F hst_opt T T F F F out_opt T T F F F PMAXS_F 1 '../GenPMAXS/reflector/refl_bot.PMAX' 1 ! Bottom PMAXS_F 2 '../GenPMAXS/reflector/refl_top.PMAX' 2 ! Top PMAXS_F 3 '../GenPMAXS/reflector/refl_rad_W.PMAX' 3 ! W PMAXS_F 4 '../GenPMAXS/reflector/refl_rad_S.PMAX' 4 ! S PMAXS_F 5 '../GenPMAXS/reflector/refl_rad_E.PMAX' 5 ! E PMAXS_F 6 '../GenPMAXS/reflector/refl_rad_N.PMAX' 6 ! N PMAXS_F 7 '../GenPMAXS/reflector/refl_rad_NW.PMAX' 7 ! NW PMAXS_F 8 '../GenPMAXS/reflector/refl_rad_SW.PMAX' 8 ! SW PMAXS_F 9 '../GenPMAXS/reflector/refl_rad_SE.PMAX' 9 ! SE PMAXS_F 10 '../GenPMAXS/reflector/refl_rad_NE.PMAX' 10 ! NE PMAXS_F 11 '../GenPMAXS/reflector/refl_rad.PMAX' 11 ! no adf PMAXS_F 12 '../GenPMAXS/reflector/refl_rad_diag.PMAX' 12 ! corner PMAXS_F 13 '../GenPMAXS/fuel/b1_1.878_bp00.PMAX' 13 PMAXS_F 14 '../GenPMAXS/fuel_spacer/b1_1.878_bp00.PMAX' 14 PMAXS_F 15 '../GenPMAXS/fuel/b2_2.573_bp00.PMAX' 15 PMAXS_F 16 '../GenPMAXS/fuel_spacer/b2_2.573_bp00.PMAX' 16 PMAXS_F 17 '../GenPMAXS/fuel/b2_2.573_bp12.PMAX' 17 PMAXS_F 18 '../GenPMAXS/fuel_spacer/b2_2.573_bp12.PMAX' 18 PMAXS_F 19 '../GenPMAXS/fuel/b3_3.117_bp00.PMAX' 19 PMAXS_F 20 '../GenPMAXS/fuel_spacer/b3_3.117_bp00.PMAX' 20 PMAXS_F 21 '../GenPMAXS/fuel/b3_3.117_bp12.PMAX' 21 PMAXS_F 22 '../GenPMAXS/fuel_spacer/b3_3.117_bp12.PMAX' 22 PMAXS_F 23 '../GenPMAXS/fuel/b4a_3.330_bp00.PMAX' 23 PMAXS_F 24 '../GenPMAXS/fuel_spacer/b4a_3.330_bp00.PMAX' 24 PMAXS_F 25 '../GenPMAXS/fuel/b4a_3.330_bp12.PMAX' 25 PMAXS_F 26 '../GenPMAXS/fuel_spacer/b4a_3.330_bp12.PMAX' 26 PMAXS_F 27 '../GenPMAXS/fuel/b4a_3.330_bp20.PMAX' 27 PMAXS_F 28 '../GenPMAXS/fuel_spacer/b4a_3.330_bp20.PMAX' 28 PMAXS_F 29 '../GenPMAXS/fuel/b4b_2.610_bp08.PMAX' 29 PMAXS_F 30 '../GenPMAXS/fuel_spacer/b4b_2.610_bp08.PMAX' 30 PMAXS_F 31 '../GenPMAXS/fuel/b4b_2.610_bp12.PMAX' 31 PMAXS_F 32 '../GenPMAXS/fuel_spacer/b4b_2.610_bp12.PMAX' 32 PMAXS_F 33 '../GenPMAXS/fuel/b4c_1.860_bp00.PMAX' 33 PMAXS_F 34 '../GenPMAXS/fuel_spacer/b4c_1.860_bp00.PMAX' 34 PMAXS_F 35 '../GenPMAXS/fuel/b4x_1.860_bp00.PMAX' 35 PMAXS_F 36 '../GenPMAXS/fuel_spacer/b4x_1.860_bp00.PMAX' 36 PMAXS_F 37 '../GenPMAXS/fuel/b5_2.100_bp00.PMAX' 37 PMAXS_F 38 '../GenPMAXS/fuel_spacer/b5_2.100_bp00.PMAX' 38 MCYCLE bank_def 1 144.0 144.0 0.0 cycle_def 1 depl_step 0.0001 bank_seq 2*1 power_lev 2*0.001 cycle_def 2 depl_step 0.0001 bank_seq 2*1 power_lev 2*0.001 LOCATION 0 0 0 0 0 0 0 0 0 C-30 C-27 C-16 0 0 0 0 0 C-31 C-28 C-51 A-35 C-2 C-3 C-20 0 0 0 0 C-47 C-21 B-10 A-9 B-35 A-52 B-18 C-13 C-6 0 0 0 0 C-43 A-18 B-28 A-22 B-19 A-8 B-25 A-21 B-31 A-2 C-32 0 0 0 C-46 C-7 B-50 A-46 B-52 A-6 B-17 A-39 B-3 A-25 B-23 C-40 C-33 0 0 0 C-26 B-47 A-20 B-2 A-11 B-7 A-49 B-34 A-30 B-11 A-41 B-24 C-15 0 0 0 C-34 C-8 A-17 B-6 A-16 B-8 A-1 B-36 A-3 B-33 A-37 B-15 A-24 C-44 C-39 0 0 C-38 A-38 B-27 A-48 B-45 A-51 B-26 A-32 B-42 A-31 B-21 A-19 B-1 A-40 C-49 0 0 C-35 C-25 A-50 B-9 A-53 B-44 A-10 B-14 A-7 B-29 A-23 B-30 A-43 C-36 C-29 0 0 0 C-1 B-16 A-13 B-46 A-42 B-20 A-12 B-39 A-15 B-37 A-34 B-40 C-10 0 0 0 C-45 C-18 B-4 A-14 B-13 A-44 B-49 A-47 B-5 A-33 B-43 C-19 C-23 0 0 0 C-24 A-45 B-32 A-27 B-48 A-5 B-22 A-4 B-12 A-28 C-4 0 0 0 0 C-12 C-11 B-51 A-26 B-41 A-36 B-38 C-17 C-9 0 0 0 0 C-22 C-14 C-50 A-29 C-52 C-48 C-37 0 0 0 0 0 C-41 C-42 C-5 0 0 0 0 0 0 0 0
C-11 SHUF_MAP 1 1
! no BP re-insertion 0 0 0 0 0 0 0 0 -40 -40 -40 0 0 0 0 0 -40 -40 -43 A-8 -43 -40 -40 0 0 0 0 -40 -42 A-22 B-28 -54 B-31 A-21 -42 -40 0 0 0 0 -40 -60 B-7 B-19 B-52 B-35 B-3 B-25 B-34 -60 -40 0 0 0 -40 -42 B-8 B-36 -70 B-10 -51 B-18 -60 B-42 B-33 -42 -40 0 0 0 -40 A-20 B-6 -60 A-18 -60 A-35 -60 A-2 -60 B-15 A-41 -40 0 0 0 -40 -43 B-50 B-2 B-47 -60 B-17 -51 B-21 -60 B-24 B-11 B-23 -43 -40 0 0 -40 A-48 -54 B-27 -51 A-38 -51 A-32 -51 A-40 -51 B-1 -54 A-19 -40 0 0 -40 -43 B-4 B-46 B-16 -60 B-45 -51 B-49 -60 B-40 B-37 B-43 -43 -40 0 0 0 -40 A-13 B-9 -60 A-45 -60 A-29 -60 A-28 -60 B-30 A-34 -40 0 0 0 -40 -42 B-44 B-26 -60 B-51 -51 B-38 -70 B-14 B-29 -42 -40 0 0 0 -40 -60 B-20 B-48 B-13 B-41 B-5 B-22 B-39 -60 -40 0 0 0 0 -40 -42 A-27 B-32 -54 B-12 A-4 -42 -40 0 0 0 0 -40 -40 -43 A-5 -43 -40 -40 0 0 0 0 0 -40 -40 -40 0 0 0 0 0 0 0 0 CYCLE_IND 1 0 1 CYCLE_IND 2 1 2 CONV_EC 0.1 2 ! convergence criterion (GWD/T), max number of iteration C.5 PARCS Input for the Cycle 2 Loading Pattern "su_c2_lay.mcyc" File 0 0 0 0 0 0 0 0 4A-32 4A-22 4A-5 0 0 0 0 0 4A-13 4A-36 4A-40 A-8 4A-52 4A-7 4A-48 0 0 0 0 4A-30 4A-15 A-22 B-28 4B-3 B-31 A-21 4A-47 4A-23 0 0 0 0 4A-20 4C-4 B-7 B-19 B-52 B-35 B-3 B-25 B-34 4C-5 4A-38 0 0 0 4A-27 4A-9 B-8 B-36 4X-1 B-10 4B-10 B-18 4C-8 B-42 B-33 4A-18 4A-51 0 0 0 4A-45 A-20 B-6 4C-17 A-18 4C-1 A-35 4C-18 A-2 4C-10 B-15 A-41 4A-17 0 0 0 4A-43 4A-4 B-50 B-2 B-47 4C-6 B-17 4B-4 B-21 4C-14 B-24 B-11 B-23 4A-6 4A-28 0 0 4A-39 A-48 4B-5 B-27 4B-9 A-38 4B-7 A-32 4B-12 A-40 4B-8 B-1 4B-11 A-19 4A-41 0 0 4A-14 4A-26 B-4 B-46 B-16 4C-9 B-45 4B-6 B-49 4C-7 B-40 B-37 B-43 4A-50 4A-49 0 0 0 4A-21 A-13 B-9 4C-3 A-45 4C-15 A-29 4C-16 A-28 4C-12 B-30 A-34 4A-2 0 0 0 4A-42 4A-16 B-44 B-26 4C-11 B-51 4B-2 B-38 4X-2 B-14 B-29 4A-34 4A-12 0 0 0 4A-37 4C-2 B-20 B-48 B-13 B-41 B-5 B-22 B-39 4C-13 4A-24 0 0 0 0 4A-29 4A-35 A-27 B-32 4B-1 B-12 A-4 4A-1 4A-11 0 0 0 0 4A-44 4A-8 4A-46 A-5 4A-33 4A-19 4A-10 0 0 0 0 0 4A-3 4A-31 4A-25 0 0 0 0 0 0 0 0 C.6 PARCS Input for the HFP Cycle 2 "c2_depl_s.inp" File CASEID depl-cyc2-s Surry Unit 1 - Cycle 2 CNTL core_type pwr core_power 98.44 ! 2441 MW search ppm
! D BP1 BP2 bank_pos 137.7 144.0 0.0 depletion T 1.0E-5 T
! NSET LADF LXES LJ1F LDED LCHI LCHD LINV LDET LYLD LCDF LGFF LBET LAMB LDEC tree_xs T 38 T T F F F F F T T F T F F F int_th T -1 xe_sm 1 1 mult_cyc T detector T 250.0 2 pin_power T
!XSEC
! group_spec 2 1 PARAM n_iters_ss 5 200 nlupd_ss 3 3 1 conv_ss 1.0e-6 1.0e-5 5.0e-5
C-12 cnv_th_ss 0.001 cmfd 2 decusp 2 GEOM geo_dim 17 17 41 1 1 !nasyx,nasyy,nz rad_conf 0 0 0 0 0 0 90 4 4 4 90 0 0 0 0 0 0 0 0 0 0 99 4 5 40 40 40 8 4 99 0 0 0 0 0 0 0 99 5 40 40 43 10 43 40 40 8 99 0 0 0 0 0 99 5 40 42 10 22 54 22 10 42 40 8 99 0 0 0 99 5 40 60 22 22 22 22 22 22 22 60 40 8 99 0 0 1 40 42 22 22 70 22 51 22 60 22 22 42 40 3 0 90 5 40 10 22 60 10 60 10 60 10 60 22 10 40 8 90 1 40 43 22 22 22 60 22 51 22 60 22 22 22 43 40 3 1 40 10 54 22 51 10 51 10 51 10 51 22 54 10 40 3 1 40 43 22 22 22 60 22 51 22 60 22 22 22 43 40 3 90 6 40 10 22 60 10 60 10 60 10 60 22 10 40 7 90 0 1 40 42 22 22 60 22 51 22 70 22 22 42 40 3 0 0 99 6 40 60 22 22 22 22 22 22 22 60 40 7 99 0 0 0 99 6 40 42 10 22 54 22 10 42 40 7 99 0 0 0 0 0 99 6 40 40 43 10 43 40 40 7 99 0 0 0 0 0 0 0 99 2 6 40 40 40 7 2 99 0 0 0 0 0 0 0 0 0 0 90 2 2 2 90 0 0 0 0 0 0 assy_type 1 1*1 39*3 1*2 REFL ! W 36*3 assy_type 2 1*1 39*4 1*2 REFL ! S 36*4 assy_type 3 1*1 39*5 1*2 REFL ! E 36*5 assy_type 4 1*1 39*6 1*2 REFL ! N 36*6 assy_type 5 1*1 39*7 1*2 REFL ! NW 36*7 assy_type 6 1*1 39*8 1*2 REFL ! SW 36*8 assy_type 7 1*1 39*9 1*2 REFL ! SE 36*9 assy_type 8 1*1 39*10 1*2 REFL ! NE 36*10 assy_type 90 1*1 39*11 1*2 REFL ! no adf 36*11 assy_type 99 1*1 39*12 1*2 REFL ! corner 36*12 assy_type 10 1*1 1*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 2*13 1*2 FUEL ! 1.87 A, also Plug assy_type 20 1*1 1*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 2*15 1*2 FUEL ! 2.57 B, also Plug assy_type 22 1*1 1*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 2*17 1*2 FUEL ! 2.57 B, BP-12 assy_type 30 1*1 1*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 2*19 1*2 FUEL ! 3.12 C, also Plug assy_type 32 1*1 1*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 2*21 1*2 FUEL ! 3.12 C, BP-12 assy_type 40 1*1 1*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 2*23 1*2 FUEL ! 3.33 4A, also Plug assy_type 42 1*1 1*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 2*25 1*2 FUEL ! 3.33 4A, BP-12 assy_type 43 1*1 1*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 2*27 1*2 FUEL ! 3.33 4A, BP-20 assy_type 51 1*1 1*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 2*29 1*2 FUEL ! 2.61 4B, BP-08 assy_type 54 1*1 1*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 2*31 1*2 FUEL ! 2.61 4B, BPR-12 assy_type 60 1*1 1*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 2*33 1*2 FUEL ! 1.86 4C, also Plug assy_type 70 1*1 1*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 2*35 1*2 FUEL ! 1.86 4X, 17x17 Plug assy_type 80 1*1 1*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 2*37 1*2 FUEL ! 2.10 5, also Plug grid_x 17*21.60912 neutmesh_x 17*1 grid_y 17*21.60912 neutmesh_y 17*1 grid_z 1*15.24 1*12.923 1*3.81 6*9.642 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 2*11.522 1*14.098 boun_cond 2 2 2 2 2 2 !ibcw,ibce,ibcn,ibcs,ibcb,ibct PINCAL_LOC 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 cr_axinfo 15.24 2.561271 bank_conf
! cycle 2 (Bank D + Cycle-1 BP + Cycle-2 BP)
C-13 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 3 1 3 0 0 0 0 0 0 0 3 0 2 3 2 0 3 0 0 0 0 0 0 0 2 2 2 2 2 2 2 0 0 0 0 0 0 3 2 2 0 2 3 2 0 2 2 3 0 0 0 0 0 0 2 0 1 0 0 0 1 0 2 0 0 0 0 0 0 3 2 2 2 0 2 3 2 0 2 2 2 3 0 0 0 0 1 3 2 3 0 3 0 3 0 3 2 3 1 0 0 0 0 3 2 2 2 0 2 3 2 0 2 2 2 3 0 0 0 0 0 0 2 0 1 0 0 0 1 0 2 0 0 0 0 0 0 3 2 2 0 2 3 2 0 2 2 3 0 0 0 0 0 0 2 2 2 2 2 2 2 2 0 0 0 0 0 0 3 0 2 3 2 0 3 0 0 0 0 0 0 0 3 1 3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 crb_def 3 1 0 1 0 1.27 361.95 2.54 ! Cd/In/Ag Abso 2 0 1 0 1.27 362.41 2.08 ! Burnable Poison as CR 3 0 1 0 1.27 362.41 2.08 ! Burnable Poison as CR crb_type 1 2 3
! D BP1 BP2
! crb_type 1 1 1 1 2 1 3
! A B C D R S BP
! crb_def is used to specify type of crb for each bank file './depl_detect_full.geom' FDBK fa_powpit 15.548 21.60912 !assembly power(Mw) and pitch(cm) gamma_frac 0.019 !direc heating fraction TH unif_th 0.74300 600.0 293.33 ! cool den, ftemp(C), ctemp(C) n_pingt 225 21 !npin,ngt pin_dim 4.647 5.359 0.617 6.901 !pin radii, rs,rw,tw, and rgt in mm flow_cond 289.74 80.976 !tin,cmfrfa(Kg/sec) hgap 15000.0 !hgap(w/M^2-C) Need estimate!!
n_ring 10 !number of meshes in pellet DEPL inp_hst 'cyc2_BOC-s.parcs_cyc-02' 1 2 inp_opt F F F F hst_opt T T F F F out_opt T T F F F PMAXS_F 1 '../GenPMAXS/reflector/refl_bot.PMAX' 1 ! Bottom PMAXS_F 2 '../GenPMAXS/reflector/refl_top.PMAX' 2 ! Top PMAXS_F 3 '../GenPMAXS/reflector/refl_rad_W.PMAX' 3 ! W PMAXS_F 4 '../GenPMAXS/reflector/refl_rad_S.PMAX' 4 ! S PMAXS_F 5 '../GenPMAXS/reflector/refl_rad_E.PMAX' 5 ! E PMAXS_F 6 '../GenPMAXS/reflector/refl_rad_N.PMAX' 6 ! N PMAXS_F 7 '../GenPMAXS/reflector/refl_rad_NW.PMAX' 7 ! NW PMAXS_F 8 '../GenPMAXS/reflector/refl_rad_SW.PMAX' 8 ! SW PMAXS_F 9 '../GenPMAXS/reflector/refl_rad_SE.PMAX' 9 ! SE PMAXS_F 10 '../GenPMAXS/reflector/refl_rad_NE.PMAX' 10 ! NE PMAXS_F 11 '../GenPMAXS/reflector/refl_rad.PMAX' 11 ! no adf PMAXS_F 12 '../GenPMAXS/reflector/refl_rad_diag.PMAX' 12 ! corner PMAXS_F 13 '../GenPMAXS/fuel/b1_1.878_bp00.PMAX' 13 PMAXS_F 14 '../GenPMAXS/fuel_spacer/b1_1.878_bp00.PMAX' 14 PMAXS_F 15 '../GenPMAXS/fuel/b2_2.573_bp00.PMAX' 15 PMAXS_F 16 '../GenPMAXS/fuel_spacer/b2_2.573_bp00.PMAX' 16 PMAXS_F 17 '../GenPMAXS/fuel/b2_2.573_bp12.PMAX' 17 PMAXS_F 18 '../GenPMAXS/fuel_spacer/b2_2.573_bp12.PMAX' 18 PMAXS_F 19 '../GenPMAXS/fuel/b3_3.117_bp00.PMAX' 19 PMAXS_F 20 '../GenPMAXS/fuel_spacer/b3_3.117_bp00.PMAX' 20 PMAXS_F 21 '../GenPMAXS/fuel/b3_3.117_bp12.PMAX' 21 PMAXS_F 22 '../GenPMAXS/fuel_spacer/b3_3.117_bp12.PMAX' 22 PMAXS_F 23 '../GenPMAXS/fuel/b4a_3.330_bp00.PMAX' 23 PMAXS_F 24 '../GenPMAXS/fuel_spacer/b4a_3.330_bp00.PMAX' 24 PMAXS_F 25 '../GenPMAXS/fuel/b4a_3.330_bp12.PMAX' 25 PMAXS_F 26 '../GenPMAXS/fuel_spacer/b4a_3.330_bp12.PMAX' 26 PMAXS_F 27 '../GenPMAXS/fuel/b4a_3.330_bp20.PMAX' 27 PMAXS_F 28 '../GenPMAXS/fuel_spacer/b4a_3.330_bp20.PMAX' 28 PMAXS_F 29 '../GenPMAXS/fuel/b4b_2.610_bp08.PMAX' 29 PMAXS_F 30 '../GenPMAXS/fuel_spacer/b4b_2.610_bp08.PMAX' 30
C-14 PMAXS_F 31 '../GenPMAXS/fuel/b4b_2.610_bp12.PMAX' 31 PMAXS_F 32 '../GenPMAXS/fuel_spacer/b4b_2.610_bp12.PMAX' 32 PMAXS_F 33 '../GenPMAXS/fuel/b4c_1.860_bp00.PMAX' 33 PMAXS_F 34 '../GenPMAXS/fuel_spacer/b4c_1.860_bp00.PMAX' 34 PMAXS_F 35 '../GenPMAXS/fuel/b4x_1.860_bp00.PMAX' 35 PMAXS_F 36 '../GenPMAXS/fuel_spacer/b4x_1.860_bp00.PMAX' 36 PMAXS_F 37 '../GenPMAXS/fuel/b5_2.100_bp00.PMAX' 37 PMAXS_F 38 '../GenPMAXS/fuel_spacer/b5_2.100_bp00.PMAX' 38 MCYCLE bank_def 1 137.7 144.0 0.0 bank_def 2 137.7 144.0 0.0 bank_def 3 140.2 144.0 0.0 bank_def 4 134.5 144.0 0.0 bank_def 5 134.3 144.0 0.0 bank_def 6 135.2 144.0 0.0 bank_def 7 135.2 144.0 0.0 bank_def 8 135.2 144.0 0.0 bank_def 9 135.2 144.0 0.0 bank_def 10 135.8 144.0 0.0 bank_def 11 135.2 144.0 0.0 bank_def 12 137.1 144.0 0.0 bank_def 13 138.3 144.0 0.0 bank_def 14 137.7 144.0 0.0 bank_def 15 137.7 144.0 0.0 bank_def 16 139.6 144.0 0.0 bank_def 17 137.1 144.0 0.0 bank_def 18 140.2 144.0 0.0 bank_def 19 142.1 144.0 0.0 bank_def 20 144.0 144.0 0.0 bank_def 21 144.0 144.0 0.0 bank_def 22 142.1 144.0 0.0 bank_def 23 138.3 144.0 0.0 bank_def 24 141.5 144.0 0.0 bank_def 25 142.7 144.0 0.0 bank_def 26 141.5 144.0 0.0 bank_def 27 142.7 144.0 0.0 bank_def 28 143.4 144.0 0.0 bank_def 29 143.4 144.0 0.0 bank_def 30 144.0 144.0 0.0 bank_def 31 140.8 144.0 0.0 bank_def 32 144.0 144.0 0.0 bank_def 33 144.0 144.0 0.0 bank_def 34 144.0 144.0 0.0 bank_def 35 144.0 144.0 0.0 bank_def 36 144.0 144.0 0.0 bank_def 37 144.0 144.0 0.0 bank_def 38 144.0 144.0 0.0 bank_def 39 144.0 144.0 0.0 bank_def 40 144.0 144.0 0.0 bank_def 41 144.0 144.0 0.0 bank_def 42 144.0 144.0 0.0 bank_def 43 144.0 144.0 0.0 bank_def 44 144.0 144.0 0.0 bank_def 45 144.0 144.0 0.0 bank_def 46 144.0 144.0 0.0 bank_def 47 144.0 144.0 0.0 bank_def 48 144.0 144.0 0.0 bank_def 49 144.0 144.0 0.0 bank_def 50 144.0 144.0 0.0 bank_def 51 144.0 144.0 0.0 bank_def 52 144.0 144.0 0.0 bank_def 53 144.0 144.0 0.0 bank_def 54 144.0 144.0 0.0 bank_def 55 144.0 144.0 0.0 bank_def 56 144.0 144.0 0.0 bank_def 57 144.0 144.0 0.0 bank_def 58 140.0 144.0 0.0 bank_def 59 141.5 144.0 0.0 bank_def 60 143.4 144.0 0.0 bank_def 61 142.1 144.0 0.0 bank_def 62 140.8 144.0 0.0 bank_def 63 140.0 144.0 0.0 bank_def 64 143.4 144.0 0.0 bank_def 65 142.7 144.0 0.0 bank_def 66 141.5 144.0 0.0 bank_def 67 140.2 144.0 0.0 bank_def 68 143.4 144.0 0.0 bank_def 69 138.9 144.0 0.0 bank_def 70 142.1 144.0 0.0 bank_def 71 140.2 144.0 0.0
C-15 bank_def 72 143.4 144.0 0.0 bank_def 73 135.8 144.0 0.0 bank_def 74 140.2 144.0 0.0 bank_def 75 132.0 144.0 0.0 bank_def 76 135.8 144.0 0.0 cycle_def 1 ! 76 steps depl_step -0.115 -0.030 -0.145 -0.205 -0.035 -0.035 -0.035 -0.100 -0.160 -0.035 -0.255 -0.040 -0.030 -0.030 -0.045 -0.030 -0.025 -0.335 -
0.040 -0.040 -0.025 -0.070 -0.060 -0.070 -0.030 -0.070 -0.035 -0.035 -0.030 -0.030 -0.350 -0.030 -0.040 -0.030 -0.040 -0.030 -0.035 -0.035 -0.035
-0.035 -0.030 -0.035 -0.035 -0.030 -0.035 -0.040 -0.025 -0.040 -0.040 -0.030 -0.030 -0.050 -0.020 -0.030 -0.035 -0.035 -0.132 -0.038 -0.300 -0.025
-0.045 -0.030 -0.035 -0.035 -0.035 -0.035 -0.035 -0.235 -0.210 -0.235 -0.155 -0.385 -0.345 -0.330 -0.490 bank_seq 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 power_lev 98.4 98.4 99.1 99.5 99.8 99.5 100.0 100.0 100.0 99.5 99.8 98.9 99.0 98.6 97.7 98.8 98.3 99.7 99.2 98.4 99.5 99.5 98.8 99.9 99.3 99.1 98.9 99.5 97.9 98.2 99.3 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 99.9 99.9 99.9 99.9 100.0 99.8 99.9 99.1 99.8 99.8 99.3 98.8 99.7 94.1 100.0 inlet_ent -568.71 -568.71 -569.26 -569.26 -569.26 -568.71 -569.26 -569.26 -569.26 -569.82 -569.82 -569.26 -569.82 -569.82 -569.26 -566.48
-569.82 -570.37 -569.82 -569.26 -569.26 -570.37 -570.37 -570.37 -570.37 -569.82 -564.26 -569.82 -566.48 -569.82 -569.82 -567.59 -567.59 -567.59 -
567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -567.59 -
567.59 -567.59 -567.59 -567.59 -567.59 -569.82 -569.82 -569.26 -569.26 -569.82 -569.82 -569.26 -566.48 -569.26 -569.26 -569.82 -569.82 -569.65 -
569.59 -569.59 -569.82 -569.59 -568.76 -568.76 flow_rate 76*80.9758 LOCATION 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 SHUF_MAP 1 1 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 CYCLE_IND 1 0 1 CONV_EC 0.1 1 ! convergence criterion (GWD/T), max number of iteration C.7 PARCS Input for the HZP Cycle 3 Fuel Shuffling "c2_c3_shuf_s.inp" File CASEID cyc3_BOC-s Surry Unit 1 - Cycle 1-2 Shuffle CNTL core_type pwr core_power 0.0001 ! 2441 MW zero power during shuffling
! D BP2 bank_pos 144.0 0.0 depletion T 1.0E-5 F
C-16
! NSET LADF LXES LJ1F LDED LCHI LCHD LINV LDET LYLD LCDF LGFF LBET LAMB LDEC tree_xs T 38 T T F F F F F T T F T F F F int_th F -1 xe_sm 0 0 mult_cyc T
!XSEC
! group_spec 2 1 PARAM n_iters_ss 5 200 nlupd_ss 3 3 1 conv_ss 1.0e-6 1.0e-5 5.0e-5 cnv_th_ss 0.001 cmfd 2 decusp 2 GEOM geo_dim 17 17 41 1 1 !nasyx,nasyy,nz rad_conf 0 0 0 0 0 0 90 4 4 4 90 0 0 0 0 0 0 0 0 0 0 99 4 5 40 40 40 8 4 99 0 0 0 0 0 0 0 99 5 40 43 40 30 40 43 40 8 99 0 0 0 0 0 99 5 40 42 30 10 30 10 30 42 40 8 99 0 0 0 99 5 40 30 70 80 32 32 32 80 60 30 40 8 99 0 0 1 40 42 60 30 80 60 32 60 80 30 60 42 40 3 0 90 5 43 30 80 80 60 30 10 30 60 80 80 30 43 8 90 1 40 40 10 32 60 30 51 30 51 30 60 32 10 40 40 3 1 40 30 30 32 32 10 30 10 30 10 32 32 30 30 40 3 1 40 40 10 32 60 30 51 30 51 30 60 30 10 40 40 3 90 6 43 30 80 80 60 30 10 30 60 80 80 30 43 7 90 0 1 40 42 60 32 80 60 32 60 80 30 60 42 40 3 0 0 99 6 40 30 60 80 32 32 32 80 70 30 40 7 99 0 0 0 99 6 40 42 30 10 30 10 30 42 40 7 99 0 0 0 0 0 99 6 40 43 40 30 40 43 40 7 99 0 0 0 0 0 0 0 99 2 6 40 40 40 7 2 99 0 0 0 0 0 0 0 0 0 0 90 2 2 2 90 0 0 0 0 0 0 assy_type 1 1*1 39*3 1*2 REFL ! W 36*3 assy_type 2 1*1 39*4 1*2 REFL ! S 36*4 assy_type 3 1*1 39*5 1*2 REFL ! E 36*5 assy_type 4 1*1 39*6 1*2 REFL ! N 36*6 assy_type 5 1*1 39*7 1*2 REFL ! NW 36*7 assy_type 6 1*1 39*8 1*2 REFL ! SW 36*8 assy_type 7 1*1 39*9 1*2 REFL ! SE 36*9 assy_type 8 1*1 39*10 1*2 REFL ! NE 36*10 assy_type 90 1*1 39*11 1*2 REFL ! no adf 36*11 assy_type 99 1*1 39*12 1*2 REFL ! corner 36*12 assy_type 10 1*1 1*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 2*13 1*2 FUEL ! 1.87 A, also Plug assy_type 20 1*1 1*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 2*15 1*2 FUEL ! 2.57 B, also Plug assy_type 22 1*1 1*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 2*17 1*2 FUEL ! 2.57 B, BP-12 assy_type 30 1*1 1*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 2*19 1*2 FUEL ! 3.12 C, also Plug assy_type 32 1*1 1*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 2*21 1*2 FUEL ! 3.12 C, BP-12 assy_type 40 1*1 1*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 2*23 1*2 FUEL ! 3.33 4A, also Plug assy_type 42 1*1 1*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 2*25 1*2 FUEL ! 3.33 4A, BP-12 assy_type 43 1*1 1*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 2*27 1*2 FUEL ! 3.33 4A, BP-20 assy_type 51 1*1 1*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 2*29 1*2 FUEL ! 2.61 4B, BP-08 assy_type 54 1*1 1*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 2*31 1*2 FUEL ! 2.61 4B, BPR-12 assy_type 60 1*1 1*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 2*33 1*2 FUEL ! 1.86 4C, also Plug assy_type 70 1*1 1*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 2*35 1*2 FUEL ! 1.86 4X, 17x17 Plug assy_type 80 1*1 1*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 2*37 1*2 FUEL ! 2.10 5, also Plug grid_x 17*21.60912 neutmesh_x 17*1 grid_y 17*21.60912 neutmesh_y 17*1 grid_z 1*15.24 1*12.923 1*3.81 6*9.642 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 2*11.522 1*14.098 boun_cond 2 2 2 2 2 2 !ibcw,ibce,ibcn,ibcs,ibcb,ibct cr_axinfo 15.24 2.561271 bank_conf
! cycle 2 (Bank D + Cycle-2 BP) 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 2 0 0 0 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
C-17 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 0 1 0 0 0 1 0 0 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 0 1 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 0 0 2 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 crb_def 2 1 0 1 0 1.27 361.95 2.54 ! Cd/In/Ag Abso 2 0 1 0 1.27 362.41 2.08 ! Burnable Poison as CR crb_type 1 2
! D BP1 BP2
! crb_type 1 1 1 1 2 1 3
! A B C D R S BP
! crb_def is used to specify type of crb for each bank FDBK fa_powpit 15.548 21.60912 !assembly power(Mw) and pitch(cm) gamma_frac 0.019 !direc heating fraction TH unif_th 0.74300 600.0 293.33 ! cool den, ftemp(C), ctemp(C) n_pingt 225 21 !npin,ngt pin_dim 4.647 5.359 0.617 6.901 !pin radii, rs,rw,tw, and rgt in mm flow_cond 289.74 80.976 !tin,cmfrfa(Kg/sec) hgap 15000.0 !hgap(w/M^2-C) Need estimate!!
n_ring 10 !number of meshes in pellet DEPL
!inp_hst 'depl-cyc2-s.parcs_cyc-01' 1 75
!inp_opt F F F F hst_opt T T F F F out_opt T T F F F PMAXS_F 1 '../GenPMAXS/reflector/refl_bot.PMAX' 1 ! Bottom PMAXS_F 2 '../GenPMAXS/reflector/refl_top.PMAX' 2 ! Top PMAXS_F 3 '../GenPMAXS/reflector/refl_rad_W.PMAX' 3 ! W PMAXS_F 4 '../GenPMAXS/reflector/refl_rad_S.PMAX' 4 ! S PMAXS_F 5 '../GenPMAXS/reflector/refl_rad_E.PMAX' 5 ! E PMAXS_F 6 '../GenPMAXS/reflector/refl_rad_N.PMAX' 6 ! N PMAXS_F 7 '../GenPMAXS/reflector/refl_rad_NW.PMAX' 7 ! NW PMAXS_F 8 '../GenPMAXS/reflector/refl_rad_SW.PMAX' 8 ! SW PMAXS_F 9 '../GenPMAXS/reflector/refl_rad_SE.PMAX' 9 ! SE PMAXS_F 10 '../GenPMAXS/reflector/refl_rad_NE.PMAX' 10 ! NE PMAXS_F 11 '../GenPMAXS/reflector/refl_rad.PMAX' 11 ! no adf PMAXS_F 12 '../GenPMAXS/reflector/refl_rad_diag.PMAX' 12 ! corner PMAXS_F 13 '../GenPMAXS/fuel/b1_1.878_bp00.PMAX' 13 PMAXS_F 14 '../GenPMAXS/fuel_spacer/b1_1.878_bp00.PMAX' 14 PMAXS_F 15 '../GenPMAXS/fuel/b2_2.573_bp00.PMAX' 15 PMAXS_F 16 '../GenPMAXS/fuel_spacer/b2_2.573_bp00.PMAX' 16 PMAXS_F 17 '../GenPMAXS/fuel/b2_2.573_bp12.PMAX' 17 PMAXS_F 18 '../GenPMAXS/fuel_spacer/b2_2.573_bp12.PMAX' 18 PMAXS_F 19 '../GenPMAXS/fuel/b3_3.117_bp00.PMAX' 19 PMAXS_F 20 '../GenPMAXS/fuel_spacer/b3_3.117_bp00.PMAX' 20 PMAXS_F 21 '../GenPMAXS/fuel/b3_3.117_bp12.PMAX' 21 PMAXS_F 22 '../GenPMAXS/fuel_spacer/b3_3.117_bp12.PMAX' 22 PMAXS_F 23 '../GenPMAXS/fuel/b4a_3.330_bp00.PMAX' 23 PMAXS_F 24 '../GenPMAXS/fuel_spacer/b4a_3.330_bp00.PMAX' 24 PMAXS_F 25 '../GenPMAXS/fuel/b4a_3.330_bp12.PMAX' 25 PMAXS_F 26 '../GenPMAXS/fuel_spacer/b4a_3.330_bp12.PMAX' 26 PMAXS_F 27 '../GenPMAXS/fuel/b4a_3.330_bp20.PMAX' 27 PMAXS_F 28 '../GenPMAXS/fuel_spacer/b4a_3.330_bp20.PMAX' 28 PMAXS_F 29 '../GenPMAXS/fuel/b4b_2.610_bp08.PMAX' 29 PMAXS_F 30 '../GenPMAXS/fuel_spacer/b4b_2.610_bp08.PMAX' 30 PMAXS_F 31 '../GenPMAXS/fuel/b4b_2.610_bp12.PMAX' 31 PMAXS_F 32 '../GenPMAXS/fuel_spacer/b4b_2.610_bp12.PMAX' 32 PMAXS_F 33 '../GenPMAXS/fuel/b4c_1.860_bp00.PMAX' 33 PMAXS_F 34 '../GenPMAXS/fuel_spacer/b4c_1.860_bp00.PMAX' 34 PMAXS_F 35 '../GenPMAXS/fuel/b4x_1.860_bp00.PMAX' 35 PMAXS_F 36 '../GenPMAXS/fuel_spacer/b4x_1.860_bp00.PMAX' 36 PMAXS_F 37 '../GenPMAXS/fuel/b5_2.100_bp00.PMAX' 37 PMAXS_F 38 '../GenPMAXS/fuel_spacer/b5_2.100_bp00.PMAX' 38
C-18 MCYCLE bank_def 1 144.0 0.0 cycle_def 1 depl_step 0.0001 bank_seq 2*1 power_lev 2*0.001
!cycle_def 2
!depl_step 0.0001
!bank_seq 2*1
!power_lev 2*0.001 prev_cyc 2
'./su_c2_lay.mcyc' './depl-cyc2-s.parcs_cyc-01' 1 76
'./su_c1_lay.mcyc' './depl-cyc1-s.parcs_cyc-01' 1 117 LOCATION 1 0 0 0 0 0 0 0 0 -1 -1 -1 0 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 -1 -1 -1 0 -1 -1 -1 0 -1 -1 -1 0 0 0 -1 -1 -1 -1 0 -1 -1 -1 0 -1 -1 -1 -1 0 0 0 -1 -1 0 0 -1 -1 -1 -1 -1 0 0 -1 -1 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 -1 -1 0 0 -1 -1 -1 -1 -1 0 0 -1 -1 0 0 0 -1 -1 -1 -1 0 -1 -1 -1 0 -1 -1 -1 -1 0 0 0 -1 -1 -1 0 -1 -1 -1 0 -1 -1 -1 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 0 -1 -1 -1 0 0 0 0 0 0 0 0 SHUF_MAP 1 1
! no BP re-insertion 0 0 0 0 0 0 0 0 4A-25 4A-31 4A-3 0 0 0 0 0 4A-11 4A-33 4A-7 C-20 4A-36 4A-46 4A-29 0 0 0 0 4A-10 4A-1 C-30 A-9 C-3 A-52 C-16 4A-35 4A-44 0 0 0 0 4A-12 C-37 4X-1 5A-15 C-17 C-2 C-11 5A-6 4C-8 C-45 4A-42 0 0 0 4A-24 4A-34 4C-17 C-28 5A-1 4C-1 C-51 4C-18 5A-8 C-15 4C-10 4A-16 4A-37 0 0 0 4A-50 C-37 5A-13 5A-2 4C-4 C-32 A-46 C-43 4C-5 5A-14 5A-3 C-39 4A-26 0 0 0 4A-49 4A-21 A-17 C-19 4C-6 C-12 4B-10 C-42 4B-8 C-9 4C-14 C-18 A-24 4A-2 4A-14 0 0 4A-41 C-46 C-26 C-8 C-25 A-14 C-49 A-12 C-38 A-25 C-44 C-36 C-10 C-23 4A-39 0 0 4A-28 4A-45 A-50 C-40 4C-9 C-47 4B-9 C-27 4B-2 C-6 4C-7 C-1 A-43 4A-17 4A-43 0 0 0 4A-6 C-35 5A-11 5A-12 4C-2 C-4 A-33 C-24 4C-13 5A-9 5A-10 C-29 4A-4 0 0 0 4A-30 4A-18 4C-3 C-7 5A-16 4C-15 C-52 4C-16 5A-4 C-48 4C-12 4A-9 4A-20 0 0 0 4A-51 C-33 4C-11 5A-5 C-13 C-50 C-21 5A-7 4X-2 C-31 4A-27 0 0 0 0 4A-48 4A-47 C-41 A-76 C-14 A-36 C-5 4A-15 4A-13 0 0 0 0 4A-38 4A-52 4A-19 C-22 4A-8 4A-40 4A-23 0 0 0 0 0 4A-5 4A-22 4A-32 0 0 0 0 0 0 0 0 CYCLE_IND 1 0 1 CYCLE_IND 2 1 1 CONV_EC 0.1 2 ! convergence criterion (GWD/T), max number of iteration C.8 PARCS Input for the HFP Cycle 3 "c3_depl_s.inp" File CASEID depl-cyc3-s Surry Unit 1 - Cycle 3 CNTL core_type pwr core_power 100.0 ! 2441 MW search ppm
! D BP1 bank_pos 144.0 0.0 depletion T 1.0E-5 T
! NSET LADF LXES LJ1F LDED LCHI LCHD LINV LDET LYLD LCDF LGFF LBET LAMB LDEC tree_xs T 38 T T F F F F F T T F T F F F
C-19 int_th T -1 xe_sm 1 1 mult_cyc T detector T 250.0 2 pin_power T
!XSEC
! group_spec 2 1 PARAM n_iters_ss 5 200 nlupd_ss 3 3 1 conv_ss 1.0e-6 1.0e-5 5.0e-5 cnv_th_ss 0.001 cmfd 2 decusp 2 GEOM geo_dim 17 17 41 1 1 !nasyx,nasyy,nz rad_conf 0 0 0 0 0 0 90 4 4 4 90 0 0 0 0 0 0 0 0 0 0 99 4 5 40 40 40 8 4 99 0 0 0 0 0 0 0 99 5 40 43 40 30 40 43 40 8 99 0 0 0 0 0 99 5 40 42 30 10 30 10 30 42 40 8 99 0 0 0 99 5 40 30 70 80 32 32 32 80 60 30 40 8 99 0 0 1 40 42 60 30 80 60 32 60 80 30 60 42 40 3 0 90 5 43 30 80 80 60 30 10 30 60 80 80 30 43 8 90 1 40 40 10 32 60 30 51 30 51 30 60 32 10 40 40 3 1 40 30 30 32 32 10 30 10 30 10 32 32 30 30 40 3 1 40 40 10 32 60 30 51 30 51 30 60 30 10 40 40 3 90 6 43 30 80 80 60 30 10 30 60 80 80 30 43 7 90 0 1 40 42 60 32 80 60 32 60 80 30 60 42 40 3 0 0 99 6 40 30 60 80 32 32 32 80 70 30 40 7 99 0 0 0 99 6 40 42 30 10 30 10 30 42 40 7 99 0 0 0 0 0 99 6 40 43 40 30 40 43 40 7 99 0 0 0 0 0 0 0 99 2 6 40 40 40 7 2 99 0 0 0 0 0 0 0 0 0 0 90 2 2 2 90 0 0 0 0 0 0 assy_type 1 1*1 39*3 1*2 REFL ! W 36*3 assy_type 2 1*1 39*4 1*2 REFL ! S 36*4 assy_type 3 1*1 39*5 1*2 REFL ! E 36*5 assy_type 4 1*1 39*6 1*2 REFL ! N 36*6 assy_type 5 1*1 39*7 1*2 REFL ! NW 36*7 assy_type 6 1*1 39*8 1*2 REFL ! SW 36*8 assy_type 7 1*1 39*9 1*2 REFL ! SE 36*9 assy_type 8 1*1 39*10 1*2 REFL ! NE 36*10 assy_type 90 1*1 39*11 1*2 REFL ! no adf 36*11 assy_type 99 1*1 39*12 1*2 REFL ! corner 36*12 assy_type 10 1*1 1*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 6*13 1*14 2*13 1*2 FUEL ! 1.87 A, also Plug assy_type 20 1*1 1*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 6*15 1*16 2*15 1*2 FUEL ! 2.57 B, also Plug assy_type 22 1*1 1*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 6*17 1*18 2*17 1*2 FUEL ! 2.57 B, BP-12 assy_type 30 1*1 1*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 6*19 1*20 2*19 1*2 FUEL ! 3.12 C, also Plug assy_type 32 1*1 1*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 6*21 1*22 2*21 1*2 FUEL ! 3.12 C, BP-12 assy_type 40 1*1 1*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 6*23 1*24 2*23 1*2 FUEL ! 3.33 4A, also Plug assy_type 42 1*1 1*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 6*25 1*26 2*25 1*2 FUEL ! 3.33 4A, BP-12 assy_type 43 1*1 1*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 6*27 1*28 2*27 1*2 FUEL ! 3.33 4A, BP-20 assy_type 51 1*1 1*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 6*29 1*30 2*29 1*2 FUEL ! 2.61 4B, BP-08 assy_type 54 1*1 1*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 6*31 1*32 2*31 1*2 FUEL ! 2.61 4B, BPR-12 assy_type 60 1*1 1*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 6*33 1*34 2*33 1*2 FUEL ! 1.86 4C, also Plug assy_type 70 1*1 1*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 6*35 1*36 2*35 1*2 FUEL ! 1.86 4X, 17x17 Plug assy_type 80 1*1 1*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 6*37 1*38 2*37 1*2 FUEL ! 2.10 5, also Plug grid_x 17*21.60912 neutmesh_x 17*1 grid_y 17*21.60912 neutmesh_y 17*1 grid_z 1*15.24 1*12.923 1*3.81 6*9.642 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 6*10.5060 1*3.81 2*11.522 1*14.098 boun_cond 2 2 2 2 2 2 !ibcw,ibce,ibcn,ibcs,ibcb,ibct PINCAL_LOC 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0
C-20 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 cr_axinfo 15.24 2.561271 bank_conf
! cycle 3 (Bank D + Cycle-1 BP )
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 2 0 0 0 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 0 1 0 0 0 1 0 0 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 0 1 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 0 0 2 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
! w/ bpr
! 0 0 0 0 0
! 0 0 0 0 0 0 0 0 0
! 0 0 0 1 7 4 7 1 0 0 0
! 0 0 0 7 0 6 7 6 0 7 0 0 0
! 0 0 0 3 0 2 0 6 0 2 0 3 0 0 0
! 0 0 7 0 6 0 0 7 0 0 6 0 7 0 0
! 0 0 1 0 2 0 4 0 3 0 4 0 2 0 1 0 0
! 0 0 7 6 0 0 0 6 7 6 0 0 0 6 7 0 0
! 0 0 4 7 6 7 3 7 6 7 3 7 6 7 4 0 0
! 0 0 7 6 0 0 0 6 7 6 0 0 0 6 7 0 0
! 0 0 1 0 2 0 4 0 3 0 4 0 2 0 1 0 0
! 0 0 7 0 6 0 0 7 0 0 6 0 7 0 0
! 0 0 0 3 0 2 0 6 0 2 0 3 0 0 0
! 0 0 0 7 0 6 7 6 0 7 0 0 0
! 0 0 0 1 7 4 7 1 0 0 0
! 0 0 0 0 0 0 0 0 0
! 0 0 0 0 0 crb_def 2 1 0 1 0 1.27 361.95 2.54 ! Cd/In/Ag Abso 2 0 1 0 1.27 362.41 2.08 ! Burnable Poison as CR crb_type 1 2
! D BP1
! crb_type 1 1 1 1 2 1 3
! A B C D R S BP
! crb_def is used to specify type of crb for each bank file './depl_detect_full.geom' FDBK fa_powpit 15.548 21.60912 !assembly power(Mw) and pitch(cm) gamma_frac 0.019 !direc heating fraction TH unif_th 0.74300 600.0 293.33 ! cool den, ftemp(C), ctemp(C) n_pingt 225 21 !npin,ngt pin_dim 4.647 5.359 0.617 6.901 !pin radii, rs,rw,tw, and rgt in mm flow_cond 289.74 80.976 !tin,cmfrfa(Kg/sec) hgap 15000.0 !hgap(w/M^2-C) Need estimate!!
n_ring 10 !number of meshes in pellet DEPL inp_hst 'cyc3_BOC-s.parcs_cyc-02' 1 2 inp_opt F F F F hst_opt T T F F F out_opt T T F F F
C-21 PMAXS_F 1 '../GenPMAXS/reflector/refl_bot.PMAX' 1 ! Bottom PMAXS_F 2 '../GenPMAXS/reflector/refl_top.PMAX' 2 ! Top PMAXS_F 3 '../GenPMAXS/reflector/refl_rad_W.PMAX' 3 ! W PMAXS_F 4 '../GenPMAXS/reflector/refl_rad_S.PMAX' 4 ! S PMAXS_F 5 '../GenPMAXS/reflector/refl_rad_E.PMAX' 5 ! E PMAXS_F 6 '../GenPMAXS/reflector/refl_rad_N.PMAX' 6 ! N PMAXS_F 7 '../GenPMAXS/reflector/refl_rad_NW.PMAX' 7 ! NW PMAXS_F 8 '../GenPMAXS/reflector/refl_rad_SW.PMAX' 8 ! SW PMAXS_F 9 '../GenPMAXS/reflector/refl_rad_SE.PMAX' 9 ! SE PMAXS_F 10 '../GenPMAXS/reflector/refl_rad_NE.PMAX' 10 ! NE PMAXS_F 11 '../GenPMAXS/reflector/refl_rad.PMAX' 11 ! no adf PMAXS_F 12 '../GenPMAXS/reflector/refl_rad_diag.PMAX' 12 ! corner PMAXS_F 13 '../GenPMAXS/fuel/b1_1.878_bp00.PMAX' 13 PMAXS_F 14 '../GenPMAXS/fuel_spacer/b1_1.878_bp00.PMAX' 14 PMAXS_F 15 '../GenPMAXS/fuel/b2_2.573_bp00.PMAX' 15 PMAXS_F 16 '../GenPMAXS/fuel_spacer/b2_2.573_bp00.PMAX' 16 PMAXS_F 17 '../GenPMAXS/fuel/b2_2.573_bp12.PMAX' 17 PMAXS_F 18 '../GenPMAXS/fuel_spacer/b2_2.573_bp12.PMAX' 18 PMAXS_F 19 '../GenPMAXS/fuel/b3_3.117_bp00.PMAX' 19 PMAXS_F 20 '../GenPMAXS/fuel_spacer/b3_3.117_bp00.PMAX' 20 PMAXS_F 21 '../GenPMAXS/fuel/b3_3.117_bp12.PMAX' 21 PMAXS_F 22 '../GenPMAXS/fuel_spacer/b3_3.117_bp12.PMAX' 22 PMAXS_F 23 '../GenPMAXS/fuel/b4a_3.330_bp00.PMAX' 23 PMAXS_F 24 '../GenPMAXS/fuel_spacer/b4a_3.330_bp00.PMAX' 24 PMAXS_F 25 '../GenPMAXS/fuel/b4a_3.330_bp12.PMAX' 25 PMAXS_F 26 '../GenPMAXS/fuel_spacer/b4a_3.330_bp12.PMAX' 26 PMAXS_F 27 '../GenPMAXS/fuel/b4a_3.330_bp20.PMAX' 27 PMAXS_F 28 '../GenPMAXS/fuel_spacer/b4a_3.330_bp20.PMAX' 28 PMAXS_F 29 '../GenPMAXS/fuel/b4b_2.610_bp08.PMAX' 29 PMAXS_F 30 '../GenPMAXS/fuel_spacer/b4b_2.610_bp08.PMAX' 30 PMAXS_F 31 '../GenPMAXS/fuel/b4b_2.610_bp12.PMAX' 31 PMAXS_F 32 '../GenPMAXS/fuel_spacer/b4b_2.610_bp12.PMAX' 32 PMAXS_F 33 '../GenPMAXS/fuel/b4c_1.860_bp00.PMAX' 33 PMAXS_F 34 '../GenPMAXS/fuel_spacer/b4c_1.860_bp00.PMAX' 34 PMAXS_F 35 '../GenPMAXS/fuel/b4x_1.860_bp00.PMAX' 35 PMAXS_F 36 '../GenPMAXS/fuel_spacer/b4x_1.860_bp00.PMAX' 36 PMAXS_F 37 '../GenPMAXS/fuel/b5_2.100_bp00.PMAX' 37 PMAXS_F 38 '../GenPMAXS/fuel_spacer/b5_2.100_bp00.PMAX' 38 MCYCLE bank_def 1 144.0 0.0 bank_def 2 144.0 0.0 bank_def 3 144.0 0.0 bank_def 4 144.0 0.0 bank_def 5 144.0 0.0 bank_def 6 144.0 0.0 bank_def 7 144.0 0.0 bank_def 8 144.0 0.0 bank_def 9 144.0 0.0 bank_def 10 144.0 0.0 bank_def 11 144.0 0.0 bank_def 12 144.0 0.0 bank_def 13 144.0 0.0 bank_def 14 144.0 0.0 bank_def 15 144.0 0.0 bank_def 16 144.0 0.0 bank_def 17 144.0 0.0 bank_def 18 144.0 0.0 bank_def 19 144.0 0.0 bank_def 20 144.0 0.0 bank_def 21 144.0 0.0 bank_def 22 144.0 0.0 bank_def 23 144.0 0.0 bank_def 24 144.0 0.0 bank_def 25 144.0 0.0 bank_def 26 144.0 0.0 bank_def 27 144.0 0.0 bank_def 28 144.0 0.0 bank_def 29 144.0 0.0 bank_def 30 144.0 0.0 bank_def 31 144.0 0.0 bank_def 32 144.0 0.0 bank_def 33 144.0 0.0 bank_def 34 144.0 0.0 bank_def 35 144.0 0.0 cycle_def 1 ! 34 steps depl_step -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -
0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25 -0.25
C-22 bank_seq 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 power_lev 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 inlet_ent -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26
-569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -569.26 -
569.26 flow_rate 35*80.9758 LOCATION 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 SHUF_MAP 1 1 0 0 0 0 0 0 0 0 1 2 3 0 0 0 0 0 4 5 6 7 8 9 10 0 0 0 0 11 12 13 14 15 16 17 18 19 0 0 0 0 20 21 22 23 24 25 26 27 28 29 30 0 0 0 31 32 33 34 35 36 37 38 39 40 41 42 43 0 0 0 44 45 46 47 48 49 50 51 52 53 54 55 56 0 0 0 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 0 0 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 0 0 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 0 0 0 102 103 104 105 106 107 108 109 110 111 112 113 114 0 0 0 115 116 117 118 119 120 121 122 123 124 125 126 127 0 0 0 128 129 130 131 132 133 134 135 136 137 138 0 0 0 0 139 140 141 142 143 144 145 146 147 0 0 0 0 148 149 150 151 152 153 154 0 0 0 0 0 155 156 157 0 0 0 0 0 0 0 0 CYCLE_IND 1 0 1 CONV_EC 0.1 1 ! convergence criterion (GWD/T), max number of iteration
APPENDIX D. PROGRAM TO COMPARE POWER MAPS FOR PWRs D.1 Program Source program DetectorResponse
! This is for the PWR detector response implicit none character(4) :: ss4 character(5) :: ss5 character(10) :: ss10,ss10x character(100) :: ctitle, file1, file2 character(400) :: ssw integer :: nmeasure,nburn,naxial,ndets,nassembly,nassembly0,nxa,nya,numdet,isym,naxial0,naxial1 integer :: i,j,k,nx,nid,ix,j1,j2,k2,idparcs,kid,ix2,ip,idum,il,nline,iy2 integer,allocatable :: nidmeasure(:),numx(:),mapaxial(:,:),mapradial(:)
character(3),allocatable :: mDET(:),config(:,:)
character(4),allocatable :: cDET(:)
real,allocatable :: weight(:),axialmesh0(:),axialmesh(:),datax(:,:)
real :: tempr,sumfa,totsum,sum0,sum1,sum2,sum3,diff,diff2,zpoint,x1,x2,y1,y2,yout real :: mao,cao,dz,height logical :: kr type meas_type integer :: nid,ndets,naxial,ndets_active real :: burnup,efpd character(3),allocatable :: mDET(:)
real,allocatable :: axialmesh(:)
real,allocatable :: mpownodal(:,:),mpowradial(:),mpowaxial(:)
real,allocatable :: mpownodal2(:,:),mpowradial2(:),mpowaxial2(:)
real,allocatable :: cpownodal(:,:),cpowradial(:),cpowaxial(:)
logical,allocatable :: ldata(:)
end type type(meas_type),allocatable :: measdata(:)
type calc_type character(4),allocatable :: cDET(:)
real,allocatable :: pownodal(:,:),axialmesh(:)
end type type(calc_type),allocatable :: calcdata(:)
real :: rms_all,rms_radial,rms_axial real :: max_all,max_radial,max_axial,min_all,min_radial,min_axial
! read input file open(1,file='DetRes.in',status='old')
open(21,file='DetRes.out',status='unknown')
read(1,*) !%TITLE read(1,*) ctitle read(1,*) !%MEASURED read(1,*) ss10, file1 read(1,*) ss10, nmeasure, ndets, naxial0, height allocate(nidmeasure(nmeasure))
read(1,*) (nidmeasure(i),i=1,nmeasure) read(1,*) !%CALCULATED read(1,*) ss10, file2 read(1,*) ss10,nburn,naxial,nassembly,nassembly0,isym allocate(axialmesh(0:naxial))
axialmesh(0)=0.0 do i=1,naxial read(1,*) axialmesh(i) enddo read(1,*) !%INDEX allocate(mDET(ndets),cDET(ndets),weight(ndets))
do i=1,ndets read(1,*) ix,mDET(i),cDET(i) !Detector names in meas. and calc.
enddo read(1,*) !%CORE read(1,*) nxa,nya allocate(config(nxa,nya))
do j=1,nya read(1,*) (config(i,j),i=1,nxa) enddo
! read calculated data open(3,file=file2,status='old')
read(3,*)
allocate(calcdata(nmeasure))
allocate(datax(naxial,nassembly0))
do i=1,nmeasure allocate(calcdata(i)%cDET(nassembly))
allocate(calcdata(i)%pownodal(naxial,nassembly))
rewind(3) do ix=1,1000000 read(3,'(x,a10)',end=111) ss10 if (ss10== 'BEGIN STEP') then read(3,*)
read(3,*)
read(3,*) kid if (kid== nidmeasure(i)) then do ix2=1,1000 read(3,'(1x,a10)') ss10x if (ss10x== 'RPF 3D MAP') then read(3,*)
datax=0.0 do ip=1,(nassembly0-1)/10+1 read(3,*)
read(3,*)
if (ip== (nassembly0-1)/10+1) then nline=mod(nassembly0,10) else nline=10 endif do il=naxial,1,-1
!do il=1,naxial read(3,*) idum,(datax(il,10*(ip-1)+iy2),iy2=1,nline) enddo read(3,*)
read(3,*)
enddo goto 222 endif enddo endif endif enddo 222 continue ix=0 do j=1,nassembly0 if (sum(datax(:,j)) > 1.0e-20) then ix=ix+1 calcdata(i)%pownodal(:,ix)=datax(:,j) ss4=
write(ss4,'("D",i3.3)') ix calcdata(i)%cDET(ix)=ss4 endif enddo enddo 111 continue
! read measured data open(2,file=file1,status='old')
allocate(measdata(nmeasure))
allocate(axialmesh0(naxial0))
axialmesh0(:)=0.0 do j=2,naxial0 axialmesh0(j)=axialmesh0(j-1)+height/float(naxial0-1) enddo write(6,*) axialmesh0(:)
read(2,*) ss10,nx,naxial1 if (naxial0.ne. naxial1) then write(6,*) "Error: # of axial meshes do not match in the measured data" stop endif if (nx.ne. nmeasure) then write(6,*) "Error: # of cases do not match in the measured data" stop endif do i=1,nmeasure idparcs=i measdata(i)%naxial=naxial1 read(2,*)
read(2,*)
read(2,*) ss10,measdata(i)%ndets allocate(measdata(i)%mDET(measdata(i)%ndets))
allocate(measdata(i)%mpownodal(measdata(i)%naxial,measdata(i)%ndets))
allocate(measdata(i)%axialmesh(measdata(i)%naxial))
read(2,*) (measdata(i)%mDET(k),k=1,measdata(i)%ndets)
!do j=1,measdata(i)%naxial
do j=measdata(i)%naxial,1,-1 read(2,*) tempr,(measdata(i)%mpownodal(j,k),k=1,measdata(i)%ndets) measdata(i)%axialmesh(j)=axialmesh0(j) enddo read(2,*,end=200) 200 continue
!sum over radial & axial and normalize allocate(measdata(i)%mpowradial(measdata(i)%ndets))
allocate(measdata(i)%ldata(measdata(i)%ndets))
allocate(measdata(i)%mpowaxial(measdata(i)%naxial))
measdata(i)%mpowradial(:)=0.0 measdata(i)%mpowaxial(:)=0.0 sum0=0.0 do j=1,measdata(i)%naxial do k=1,measdata(i)%ndets measdata(i)%mpowradial(k)=measdata(i)%mpowradial(k)+measdata(i)%mpownodal(j,k) measdata(i)%mpowaxial(j)=measdata(i)%mpowaxial(j)+measdata(i)%mpownodal(j,k) sum0=sum0+measdata(i)%mpownodal(j,k) enddo enddo
!Sort out the detectors without data measdata(i)%ldata(:)=.false.
numdet=0 do k=1,measdata(i)%ndets if (measdata(i)%mpowradial(k) > 1.0e-5) then measdata(i)%ldata(k)=.true.
numdet=numdet+1 endif enddo measdata(i)%ndets_active=numdet
!normalization do k=1,measdata(i)%ndets measdata(i)%mpowradial(k)=measdata(i)%mpowradial(k)/sum0*float(numdet) enddo do j=1,measdata(i)%naxial measdata(i)%mpowaxial(j)=measdata(i)%mpowaxial(j)/sum0*float(measdata(i)%naxial) enddo do j=1,measdata(i)%naxial do k=1,measdata(i)%ndets measdata(i)%mpownodal(j,k)=measdata(i)%mpownodal(j,k)/sum0*float(numdet*measdata(i)%naxial) enddo enddo
!convert the calculated data into the measured format allocate(measdata(i)%cpownodal(naxial,measdata(i)%ndets))
allocate(measdata(i)%cpowradial(measdata(i)%ndets))
allocate(measdata(i)%cpowaxial(naxial))
allocate(measdata(i)%mpownodal2(naxial,measdata(i)%ndets))
allocate(measdata(i)%mpowradial2(measdata(i)%ndets))
allocate(measdata(i)%mpowaxial2(naxial))
allocate(mapradial(measdata(i)%ndets))
allocate(mapaxial(naxial,2))
!axial mesh mapping mapaxial(:,:)=0 do j=1,naxial zpoint=0.5*(axialmesh(j-1)+axialmesh(j))
do j2=1,measdata(i)%naxial-1 if ((zpoint-measdata(i)%axialmesh(j2))*(zpoint-measdata(i)%axialmesh(j2+1)) < 0.0) then nid=j2
!write(6,*) j,j2,measdata(i)%axialmesh(j),axialmesh(j2),axialmesh(j2+1) exit elseif ((zpoint-measdata(i)%axialmesh(j2))*(zpoint-measdata(i)%axialmesh(j2+1))== 0.0) then if (zpoint== measdata(i)%axialmesh(j2)) then nid=j2 else nid=j2+1 endif exit endif enddo if (nid > measdata(i)%naxial) nid=nid-1 mapaxial(j,1)=nid mapaxial(j,2)=nid+1 enddo
!radial mesh mapping mapradial(:)=0 do k=1,measdata(i)%ndets if (.not.measdata(i)%ldata(k)) cycle kr=.false.
do k2=1,ndets if (measdata(i)%mDET(k)== mDET(k2)) then
!write(6,*) k,mDET(k2)," ",cDET(k2) kr=.true.
kid=k2 exit endif enddo if (.not.kr) then write(6,*) "Error: there is no matching detector #1!"
endif kr=.false.
do k2=1,nassembly if (calcdata(idparcs)%cDET(k2)== cDET(kid)) then kr=.true.
mapradial(k)=k2 exit endif enddo if (.not.kr) then write(6,*) "Error: there is no matching detector #2!"
endif enddo
!Data re-assignment for the calculated measdata(i)%cpownodal(:,:)=0.0 do j=1,naxial do k=1,measdata(i)%ndets if (.not.measdata(i)%ldata(k)) cycle k2=mapradial(k) measdata(i)%cpownodal(j,k)=calcdata(idparcs)%pownodal(j,k2) enddo enddo measdata(i)%cpowradial(:)=0.0 measdata(i)%cpowaxial(:)=0.0 sum0=0.0 do j=1,naxial do k=1,measdata(i)%ndets if (.not.measdata(i)%ldata(k)) cycle measdata(i)%cpowradial(k)=measdata(i)%cpowradial(k)+measdata(i)%cpownodal(j,k) measdata(i)%cpowaxial(j)=measdata(i)%cpowaxial(j)+measdata(i)%cpownodal(j,k) sum0=sum0+measdata(i)%cpownodal(j,k) enddo enddo
!normalization do k=1,measdata(i)%ndets measdata(i)%cpowradial(k)=measdata(i)%cpowradial(k)/sum0*float(measdata(i)%ndets_active) enddo do j=1,naxial measdata(i)%cpowaxial(j)=measdata(i)%cpowaxial(j)/sum0*float(naxial) enddo do j=1,naxial do k=1,measdata(i)%ndets measdata(i)%cpownodal(j,k)=measdata(i)%cpownodal(j,k)/sum0*float(measdata(i)%ndets_active*naxial) enddo enddo
!Data re-assignment for the measured measdata(i)%mpownodal2(:,:)=0.0 do j=1,naxial zpoint=0.5*(axialmesh(j-1)+axialmesh(j))
j1=mapaxial(j,1) j2=mapaxial(j,2) x1=measdata(i)%axialmesh(j1) x2=measdata(i)%axialmesh(j2) do k=1,measdata(i)%ndets if (.not.measdata(i)%ldata(k)) cycle y1=measdata(i)%mpownodal(j1,k) y2=measdata(i)%mpownodal(j2,k) if (j1== j2) then yout=measdata(i)%mpownodal(j1,k) else yout=(y2-y1)*zpoint/(x2-x1)+(y1*x2-y2*x1)/(x2-x1) endif measdata(i)%mpownodal2(j,k)=yout enddo enddo measdata(i)%mpowradial2(:)=0.0 measdata(i)%mpowaxial2(:)=0.0 sum0=0.0 do j=1,naxial do k=1,measdata(i)%ndets measdata(i)%mpowradial2(k)=measdata(i)%mpowradial2(k)+measdata(i)%mpownodal2(j,k) measdata(i)%mpowaxial2(j)=measdata(i)%mpowaxial2(j)+measdata(i)%mpownodal2(j,k) sum0=sum0+measdata(i)%mpownodal2(j,k)
enddo enddo
!normalization do k=1,measdata(i)%ndets measdata(i)%mpowradial2(k)=measdata(i)%mpowradial2(k)/sum0*float(measdata(i)%ndets_active) enddo do j=1,naxial measdata(i)%mpowaxial2(j)=measdata(i)%mpowaxial2(j)/sum0*float(naxial) enddo do j=1,naxial do k=1,measdata(i)%ndets measdata(i)%mpownodal2(j,k)=measdata(i)%mpownodal2(j,k)/sum0*float(measdata(i)%ndets_active*naxial) enddo enddo
!Data processing for %RMSs rms_all=0.0 rms_radial=0.0 rms_axial=0.0 max_all=0.0 max_radial=0.0 max_axial=0.0 min_all=0.0 min_radial=0.0 min_axial=0.0 do j=1,naxial do k=1,measdata(i)%ndets if (.not.measdata(i)%ldata(k)) cycle diff=measdata(i)%cpownodal(j,k)-measdata(i)%mpownodal2(j,k) diff2=diff**2 rms_all=rms_all+diff2 if (diff > max_all) max_all=diff if (diff < min_all) min_all=diff enddo enddo rms_all=sqrt(rms_all/float(measdata(i)%ndets_active*naxial))*100.0 do k=1,measdata(i)%ndets if (.not.measdata(i)%ldata(k)) cycle diff=measdata(i)%cpowradial(k)-measdata(i)%mpowradial2(k) diff2=diff**2 rms_radial=rms_radial+diff2 if (diff > max_radial) max_radial=diff if (diff < min_radial) min_radial=diff enddo rms_radial=sqrt(rms_radial/float(measdata(i)%ndets_active))*100.0 do j=1,naxial diff=measdata(i)%cpowaxial(j)-measdata(i)%mpowaxial2(j) diff2=diff**2 rms_axial=rms_axial+diff2 if (diff > max_axial) max_axial=diff if (diff < min_axial) min_axial=diff enddo rms_axial=sqrt(rms_axial/float(naxial))*100.0 mao=0.0 cao=0.0 sum1=0.0 sum2=0.0 zpoint=0.5*axialmesh(naxial) do j=1,naxial dz=axialmesh(j)-axialmesh(j-1) sum1=sum1+measdata(i)%mpowaxial2(j)*dz sum2=sum2+measdata(i)%cpowaxial(j)*dz if (zpoint > axialmesh(j)) then mao=mao+measdata(i)%mpowaxial2(j)*dz cao=cao+measdata(i)%cpowaxial(j)*dz elseif (zpoint < axialmesh(j-1)) then cycle elseif (zpoint > axialmesh(j-1).and. zpoint < axialmesh(j) ) then dz=abs(zpoint-axialmesh(j-1))
mao=mao+measdata(i)%mpowaxial2(j)*dz cao=cao+measdata(i)%cpowaxial(j)*dz endif enddo mao=(sum1-2.0*mao)/sum1*100.0 cao=(sum2-2.0*cao)/sum2*100.0 if (i==1) write(21,*) ctitle write(21,*)
write(21,'("@Case = ",i5)') i write(21,'("Burnup(MWD/kgU)",f10.3)') measdata(i)%burnup write(21,'("% RMS for 3D ",f10.3,i5)")') rms_all,measdata(i)%ndets_active*naxial
write(21,'("% RMS for radial",f10.3,i5)")') rms_radial,measdata(i)%ndets_active write(21,'("% RMS for axial ",f10.3,i5)")') rms_axial,naxial
!write(21,'("% axial offsets ",2f10.3)")') mao,cao write(21,*)
do k=1,measdata(i)%ndets if (.not.measdata(i)%ldata(k)) cycle diff=(measdata(i)%cpowradial(k)-measdata(i)%mpowradial2(k))*100.0 write(21,'(a5,4f10.3)') measdata(i)%mDET(k),measdata(i)%mpowradial2(k),measdata(i)%cpowradial(k),diff enddo write(21,*)
do j=1,naxial diff=(measdata(i)%cpowaxial(j)-measdata(i)%mpowaxial2(j))*100.0 zpoint=0.5*(axialmesh(j-1)+axialmesh(j))
write(21,'(i5,4f10.3)') j,zpoint,measdata(i)%mpowaxial2(j),measdata(i)%cpowaxial(j),diff enddo deallocate(mapaxial) deallocate(mapradial) enddo 100 continue close(21) stop end D.2 Cycle-1 Input
%TITLE
'SURRY cycle-1'
%MEASURED file surry_cyc1_measure.dat dim 5 50 61 368.832 !# of parc burnup points, # of detectors, # of axial, height 29 42 78 107 114
%CALCULATED file depl-cyc1-s.parcs_cyc-01_s dim 117 39 157 221 1 !# of burnups / # of axials / # of assemblies / symmetry (1:full, 4:quarter 6.123 !1 6.123 bottom to top 9.933 !2 3.81 19.574 !3 9.642 29.216 !4 9.642 38.858 !5 9.642 48.499 !6 9.642 58.141 !7 9.642 67.783 !8 9.642 71.593 !9 3.81 82.099 !10 10.506 92.606 !11 10.506 103.112 !12 10.506 113.619 !13 10.506 124.125 !14 10.506 134.632 !15 10.506 138.442 !16 3.81 148.948 !17 10.506 159.455 !18 10.506 169.961 !19 10.506 180.467 !20 10.506 190.974 !21 10.506 201.480 !22 10.506 205.290 !23 3.81 215.797 !24 10.506 226.303 !25 10.506 236.810 !26 10.506 247.316 !27 10.506 257.823 !28 10.506 268.329 !29 10.506 272.139 !30 3.81 282.646 !31 10.506 293.152 !32 10.506 303.659 !33 10.506 314.165 !34 10.506 324.672 !35 10.506 335.178 !36 10.506 338.988 !37 3.81 353.910 !38 14.9220 368.832 !39 14.9220
%INDEX 50 1 H01 D002 ! PARCS MEASURED 2 F02 D009 !
3 M03 D011 !
4 J03 D014 !
5 H03 D015 !
6 D03 D019 !
7 L04 D022 !
8 H04 D025 !
9 F04 D027 !
10 N05 D032 !
11 L05 D034 !
12 J05 D036 !
13 E05 D040 !
14 D05 D041 !
15 B05 D043 !
16 L06 D047 !
17 H06 D050 !
18 F06 D052 !
19 N07 D059 !
20 J07 D063 !
21 G07 D065 !
22 D07 D068 !
23 B07 D070 !
24 R08 D072 !
25 N08 D074 !
26 L08 D076 !
27 F08 D081 !
28 C08 D084 !
29 B08 D085 !
30 L09 D091 !
31 G09 D095 !
32 F09 D096 !
33 A09 D101 !
34 N10 D103 !
35 J10 D107 !
36 D10 D112 !
37 B10 D114 !
38 L11 D118 !
39 H11 D121 !
40 F11 D123 !
41 E11 D124 !
42 N12 D128 !
43 J12 D132 !
44 D12 D137 !
45 C12 D138 !
46 H13 D143 !
47 F13 D145 !
48 L14 D148 !
49 G14 D152 !
50 J15 D155 !
%CORE 15 15 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 !1 0 0 0 0 0 0 0 0 0 2 0 0 0 0 0 !2 0 0 0 3 0 0 4 5 0 0 0 6 0 0 0 !3 0 0 0 0 7 0 0 8 0 9 0 0 0 0 0 !4 0 0 10 0 11 0 12 0 0 0 13 14 0 15 0 !5 0 0 0 0 16 0 0 17 0 18 0 0 0 0 0 !6 0 0 19 0 0 0 20 0 21 0 0 22 0 23 0 !7 24 0 25 0 26 0 0 0 0 27 0 0 28 29 0 !8 0 0 0 0 30 0 0 0 31 32 0 0 0 0 33 !9 0 0 34 0 0 0 35 0 0 0 0 36 0 37 0 !10 0 0 0 0 38 0 0 39 0 40 41 0 0 0 0 !11 0 0 42 0 0 0 43 0 0 0 0 44 45 0 0 !12 0 0 0 0 0 0 0 46 0 47 0 0 0 0 0 !13 0 0 0 0 48 0 0 0 49 0 0 0 0 0 0 !14 0 0 0 0 0 0 50 0 0 0 0 0 0 0 0 !15
%END D.3 Cycle-2 Input
%TITLE
'SURRY cycle-2'
%MEASURED file surry_cyc2_measure.dat dim 5 50 61 368.832 !# of parc burnup points, # of detectors, # of axial, height 2 4 26 65 76
%CALCULATED
file depl-cyc2-s.parcs_cyc-01_s dim 75 39 157 221 1 !# of burnups / # of axials / # of assemblies / symmetry (1:full, 4:quarter 6.123 !1 6.123 bottom to top 9.933 !2 3.81 19.574 !3 9.642 29.216 !4 9.642 38.858 !5 9.642 48.499 !6 9.642 58.141 !7 9.642 67.783 !8 9.642 71.593 !9 3.81 82.099 !10 10.506 92.606 !11 10.506 103.112 !12 10.506 113.619 !13 10.506 124.125 !14 10.506 134.632 !15 10.506 138.442 !16 3.81 148.948 !17 10.506 159.455 !18 10.506 169.961 !19 10.506 180.467 !20 10.506 190.974 !21 10.506 201.480 !22 10.506 205.290 !23 3.81 215.797 !24 10.506 226.303 !25 10.506 236.810 !26 10.506 247.316 !27 10.506 257.823 !28 10.506 268.329 !29 10.506 272.139 !30 3.81 282.646 !31 10.506 293.152 !32 10.506 303.659 !33 10.506 314.165 !34 10.506 324.672 !35 10.506 335.178 !36 10.506 338.988 !37 3.81 353.910 !38 14.9220 368.832 !39 14.9220
%INDEX 50 1 H01 D002 ! PARCS MEASURED 2 F02 D009 !
3 M03 D011 !
4 J03 D014 !
5 H03 D015 !
6 D03 D019 !
7 L04 D022 !
8 H04 D025 !
9 F04 D027 !
10 N05 D032 !
11 L05 D034 !
12 J05 D036 !
13 E05 D040 !
14 D05 D041 !
15 B05 D043 !
16 L06 D047 !
17 H06 D050 !
18 F06 D052 !
19 N07 D059 !
20 J07 D063 !
21 G07 D065 !
22 D07 D068 !
23 B07 D070 !
24 R08 D072 !
25 N08 D074 !
26 L08 D076 !
27 F08 D081 !
28 C08 D084 !
29 B08 D085 !
30 L09 D091 !
31 G09 D095 !
32 F09 D096 !
33 A09 D101 !
34 N10 D103 !
35 J10 D107 !
36 D10 D112 !
37 B10 D114 !
38 L11 D118 !
39 H11 D121 !
40 F11 D123 !
41 E11 D124 !
42 N12 D128 !
43 J12 D132 !
44 D12 D137 !
45 C12 D138 !
46 H13 D143 !
47 F13 D145 !
48 L14 D148 !
49 G14 D152 !
50 J15 D155 !
%CORE 15 15 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 !1 0 0 0 0 0 0 0 0 0 2 0 0 0 0 0 !2 0 0 0 3 0 0 4 5 0 0 0 6 0 0 0 !3 0 0 0 0 7 0 0 8 0 9 0 0 0 0 0 !4 0 0 10 0 11 0 12 0 0 0 13 14 0 15 0 !5 0 0 0 0 16 0 0 17 0 18 0 0 0 0 0 !6 0 0 19 0 0 0 20 0 21 0 0 22 0 23 0 !7 24 0 25 0 26 0 0 0 0 27 0 0 28 29 0 !8 0 0 0 0 30 0 0 0 31 32 0 0 0 0 33 !9 0 0 34 0 0 0 35 0 0 0 0 36 0 37 0 !10 0 0 0 0 38 0 0 39 0 40 41 0 0 0 0 !11 0 0 42 0 0 0 43 0 0 0 0 44 45 0 0 !12 0 0 0 0 0 0 0 46 0 47 0 0 0 0 0 !13 0 0 0 0 48 0 0 0 49 0 0 0 0 0 0 !14 0 0 0 0 0 0 50 0 0 0 0 0 0 0 0 !15
%END D.4 Cycle-1 Power Map Measured Data cyc1 5 61 MAP43 Date time MWT press P/L HT D HT HFP 3/19/1973 2245 2250 144 128.2 num_det 31 H01 F02 J03 H03 D03 F04 N05 J05 D05 B05 L06 N07 J07 R08 N08 L08 L09 G09 F09 N10 J10 L11 H11 F11 N12 D12 C12 H13 F13 L14 J15 1 1.172 1.135 1.585 1.684 0.961 1.265 0.923 1.460 1.247 0.735 1.241 1.097 1.445 0.848 1.281 1.534 1.452 1.364 1.393 1.148 1.541 1.243 1.503 1.411 0.704 0.949 0.729 1.113 1.162 0.765 0.713 2 1.531 1.282 2.070 2.200 1.046 1.784 1.156 1.967 1.276 0.677 1.555 1.374 1.982 1.100 1.605 2.051 1.942 1.818 1.858 1.440 1.774 1.733 1.730 1.967 0.883 1.336 1.026 1.458 1.453 0.998 0.798 3 1.858 1.765 2.513 2.671 1.424 2.316 1.534 2.551 1.725 0.929 2.064 1.823 2.595 1.479 2.140 2.665 2.523 2.382 2.433 1.920 2.397 2.255 2.337 2.549 1.177 1.714 1.316 1.960 1.961 1.314 1.109 4 2.154 2.185 2.912 3.096 1.767 2.835 1.923 3.043 2.189 1.181 2.487 2.286 3.388 1.876 2.659 3.256 3.086 2.909 2.972 2.386 2.973 2.701 2.899 3.110 1.462 2.092 1.606 2.446 2.433 1.613 1.410 5 2.307 2.563 3.112 3.308 2.075 3.277 2.301 3.550 2.624 1.451 3.096 2.735 3.716 2.273 3.129 3.796 3.594 3.455 3.529 2.808 3.540 3.221 3.461 3.604 1.721 2.424 1.861 2.947 2.869 1.862 1.721 6 2.945 2.711 3.983 4.234 2.178 3.379 2.490 3.657 2.972 1.635 3.350 2.960 3.916 2.435 3.372 3.930 3.721 3.600 3.678 3.026 3.891 3.329 3.794 3.713 1.854 2.498 1.910 3.182 3.087 1.896 1.868 7 3.347 3.278 4.526 4.810 2.624 4.302 3.046 4.687 3.117 1.858 4.098 3.620 4.847 3.246 3.956 4.927 4.665 4.655 4.755 3.549 4.405 4.245 4.295 4.741 2.175 3.189 2.448 3.904 3.613 2.428 2.270 8 3.684 3.803 4.982 5.296 3.036 4.872 3.580 5.286 3.914 2.298 4.816 4.255 5.592 3.788 4.653 5.579 5.282 5.360 5.480 4.175 5.275 4.863 5.145 5.385 2.559 3.622 2.781 4.578 4.231 2.727 2.711 9 3.991 4.202 5.396 5.736 3.362 5.353 3.991 5.809 4.378 2.573 5.369 4.743 6.169 4.275 5.172 6.135 5.808 5.964 6.093 4.641 5.868 5.354 5.722 5.892 2.844 3.963 3.043 5.095 4.685 3.010 3.051 10 4.265 4.560 5.768 6.131 3.653 5.796 4.358 6.270 4.784 2.815 5.863 5.179 6.710 4.671 5.577 6.634 6.280 6.455 6.594 5.004 6.350 5.799 6.192 6.372 3.067 4.286 3.290 5.550 5.084 3.226 3.357 11 4.497 4.896 6.082 6.465 3.928 6.188 4.692 5.585 5.161 3.088 6.312 5.576 7.179 5.032 5.982 7.075 6.698 6.910 7.059 5.368 6.801 6.182 6.633 6.810 3.290 4.501 3.517 5.973 5.447 3.442 3.629 12 4.687 5.169 6.339 6.738 4.151 6.517 4.969 7.038 5.480 3.222 6.685 5.906 7.563 5.303 6.323 7.458 7.061 7.292 7.449 5.673 7.175 6.520 6.987 7.166 3.477 4.920 3.701 6.318 5.756 3.608 3.849 13 4.846 5.400 6.553 5.965 4.339 5.795 5.214 7.330 5.770 3.386 7.075 6.197 7.896 5.483 6.615 7.765 7.351 7.619 7.783 5.935 7.502 6.211 7.316 7.481 3.638 5.032 3.863 6.647 6.028 3.758 4.019 14 4.962 5.589 6.710 7.132 4.477 7.023 5.414 7.576 5.928 3.522 7.284 6.435 8.155 5.627 6.858 8.033 7.605 7.892 8.062 6.153 7.782 7.041 7.589 7.742 3.771 5.207 3.990 6.929 6.264 3.874 4.155 15 4.930 5.736 6.667 7.087 4.597 7.188 5.570 7.760 6.191 3.609 7.493 6.620 8.351 5.753 7.052 8.244 7.805 8.110 8.285 6.328 8.015 7.195 7.817 7.934 3.878 5.336 4.097 7.180 6.464 3.974 4.262 16 4.677 5.862 6.324 6.723 4.665 7.251 5.680 7.822 6.335 3.696 7.628 6.739 8.431 5.808 7.215 8.359 7.914 8.219 8.396 6.473 8.218 7.256 8.014 7.988 3.967 5.373 4.125 7.337 6.591 3.991 4.336 17 5.331 5.463 7.209 7.663 4.357 6.605 5.336 7.376 6.321 3.570 7.179 6.342 7.825 5.230 6.874 7.650 7.242 7.565 7.727 6.168 7.968 6.612 7.771 7.303 3.780 4.912 3.771 6.898 6.301 3.625 4.059 18 5.521 6.009 7.466 7.937 4.768 7.605 5.826 8.329 5.944 3.657 7.837 6.924 8.758 6.060 7.344 8.319 8.349 8.692 8.879 6.590 8.171 7.609 7.968 8.468 4.039 5.696 4.373 7.572 6.737 4.224 4.224 19 5.680 6.451 7.681 8.164 5.111 7.935 6.248 8.728 6.814 4.054 8.405 7.426 9.273 6.349 7.928 9.299 8.803 9.092 9.288 7.114 9.074 7.977 8.849 8.865 4.360 5.693 4.578 8.089 7.281 4.390 4.390 20 5.838 6.682 7.895 8.392 5.300 8.263 6.459 9.005 7.089 4.198 8.690 7.677 9.576 6.547 8.236 9.566 9.075 9.365 9.566 7.390 9.447 8.222 9.213 9.180 4.529 6.175 4.741 8.372 7.554 4.523 4.380 21 5.932 6.871 8.009 8.513 5.420 8.453 6.626 9.205 7.278 4.334 8.914 7.875 9.790 6.709 8.479 9.236 9.311 9.565 9.771 7.608 9.712 8.391 9.471 9.386 4.663 6.313 4.847 8.591 7.772 4.606 5.010 22 5.997 6.976 8.109 8.619 5.506 8.592 6.759 9.358 5.423 4.450 9.093 8.033 9.941 6.836 8.641 10.000 9.475 9.729 9.938 7.754 9.930 8.528 9.683 9.550 4.752 6.424 4.932 8.746 7.953 4.673 5.100 23 6.049 7.081 8.180 8.695 5.592 8.706 6.848 9.466 7.553 4.528 9.213 8.139 10.062 6.944 8.755 10.142 9.602 9.856 10.068 7.855 10.054 8.637 9.805 9.633 4.814 6.479 4.974 8.889 8.044 4.722 5.180 24 6.070 7.144 8.209 8.726 5.626 8.769 6.904 9.527 7.655 4.576 9.288 8.205 10.128 7.076 8.836 10.219 9.674 9.910 10.124 7.928 10.132 8.698 9.881 9.701 4.859 6.525 5.010 8.952 8.117 4.756 5.236 25 6.070 7.186 8.209 8.726 5.660 8.795 6.926 9.543 7.713 4.605 9.318 8.232 10.155 7.052 8.852 10.257 9.711 9.929 10.142 7.943 10.117 8.729 9.865 9.715 4.868 6.534 5.017 8.967 8.135 4.789 5.247 26 5.796 7.186 7.838 8.331 5.643 3.795 6.926 9.512 7.742 4.625 9.318 8.232 10.139 7.034 8.852 10.257 9.711 9.910 10.124 7.943 10.070 8.729 9.820 9.674 4.868 6.507 4.996 8.967 8.117 4.806 5.259 27 5.638 7.123 7.623 8.103 5.557 8.643 6.871 9.251 7.742 4.605 9.243 8.166 9.960 6.926 8.803 10.123 9.583 9.765 9.975 7.899 9.976 8.590 9.729 9.413 4.841 6.332 4.661 8.873 8.062 4.722 5.213 28 6.187 6.325 8.366 8.893 4.932 7.808 6.204 8.406 7.408 4.305 8.346 7.373 9.077 6.132 7.944 9.011 9.531 8.765 8.953 7.128 9.167 7.747 8.940 8.550 4.369 6.751 4.415 7.948 7.318 4.224 4.732 29 6.313 7.081 8.537 9.075 5.454 8.845 6.815 9.558 7.249 4.383 9.165 8.099 10.117 6.944 8.722 10.238 9.632 9.910 10.124 7.826 9.712 8.851 9.471 9.701 4.797 6.525 5.010 8.839 7.935 4.806 5.032 30 6.408 7.291 8.666 9.211 5.626 9.073 7.126 9.789 7.945 4.712 9.587 8.469 10.417 7.124 9.111 10.545 9.983 10.201 10.421 8.175 10.210 9.112 9.857 9.907 5.011 6.664 5.116 9.218 8.244 4.922 5.264 31 6.493 7.375 8.780 9.333 5.677 9.199 7.249 9.896 8.104 4.799 9.752 8.615 10.583 7.232 9.241 10.717 10.146 10.347 10.570 8.292 10.366 9.250 10.108 10.057 5.022 6.705 5.194 9.344 8.329 5.005 5.327 32 6.514 7.438 8.808 9.363 5.746 9.263 7.326 9.973 8.249 4.847 9.856 8.707 10.694 7.287 9.355 10.832 10.255 10.420 10.644 8.394 10.475 9.311 10.215 10.167 5.144 6.839 5.250 9.453 8.462 5.055 5.378 33 6.535 7.459 8.837 9.393 5.763 9.313 7.382 10.004 8.322 4.886 9.531 8.773 10.761 7.323 9.436 10.890 10.309 10.438 10.662 8.466 10.552 9.342 10.290 10.208 5.189 6.866 5.271 9.500 8.571 5.088 5.406 34 6.514 7.480 8.808 9.363 5.780 9.313 7.398 9.973 8.336 4.895 9.946 8.757 10.769 7.341 9.452 10.909 10.328 10.438 10.662 8.481 10.599 9.327 10.336 10.194 5.198 6.887 5.264 9.488 8.643 5.122 5.434 35 6.451 7.459 8.723 9.272 5.746 9.275 7.382 9.927 8.293 4.895 9.931 8.773 10.728 7.341 9.468 10.871 10.291 10.401 10.625 8.496 10.583 9.296 10.321 10.167 5.207 6.839 5.250 9.453 8.643 5.122 5.429 36 6.345 7.375 8.580 9.120 5.694 9.187 5.315 9.835 8.191 4.857 9.041 8.694 10.646 7.269 9.403 10.775 10.201 10.329 10.551 8.437 10.490 9.189 10.230 10.098 5.171 6.793 5.215 9.376 8.607 5.088 5.372 37 5.912 7.291 7.995 8.498 5.609 9.060 7.226 9.712 8.075 4.799 9.722 8.586 10.494 7.160 9.290 10.660 10.092 10.220 10.439 8.335 10.366 9.035 10.108 9.989 5.109 6.719 5.158 9.265 8.516 5.005 5.304 38 5.775 7.123 7.809 8.301 5.472 8.757 7.082 9.312 7.930 4.721 9.527 8.417 10.121 6.962 9.095 10.392 9.838 9.983 10.198 8.161 10.148 8.713 9.896 9.578 5.002 6.442 4.946 9.077 8.334 4.839 5.191 39 6.187 7.262 8.366 8.893 4.820 7.871 6.270 8.529 7.408 4.315 5.435 7.452 9.076 6.132 8.058 9.107 9.621 8.838 9.028 7.230 9.012 7.747 8.788 8.769 4.431 5.899 4.529 8.042 7.427 4.323 4.625 40 6.229 7.078 8.423 8.953 5.351 8.845 6.904 9.527 7.350 4.441 9.288 8.205 10.044 6.926 8.917 10.276 9.729 9.965 10.179 8.001 9.712 8.805 9.471 9.770 4.904 6.571 5.045 8.983 8.098 4.855 4.970 41 6.239 7.166 8.437 8.968 5.454 8.959 7.048 9.620 7.872 4.663 9.482 8.377 10.164 7.034 9.095 10.430 9.874 10.110 10.328 8.161 10.023 8.928 9.774 9.833 5.002 6.617 5.080 9.171 8.262 4.922 5.123 42 6.239 7.249 8.437 8.968 5.472 8.997 7.048 9.620 7.945 4.712 9.482 8.377 10.141 7.070 9.095 10.411 9.256 10.092 10.309 8.161 10.039 8.959 9.790 9.824 5.002 6.608 5.073 9.218 6.262 4.939 5.151 43 6.187 7.270 8.366 8.893 5.472 8.984 6.993 9.558 7.988 4.702 9.400 8.311 10.073 7.052 9.079 10.353 9.801 10.020 10.235 8.146 10.008 8.928 9.759 9.756 4.993 6.562 5.038 9.171 8.207 4.922 5.163 44 6.070 7.228 8.209 8.726 5.437 8.908 6.915 9.420 7.945 4.683 9.303 8.218 9.951 7.016 8.998 10.233 9.692 9.910 10.124 8.074 9.945 8.836 9.699 9.633 4.948 6.479 4.974 9.077 8.117 4.839 5.129 45 5.912 7.123 7.995 8.498 5.369 8.769 6.793 9.235 7.843 4.654 9.138 8.073 9.731 6.908 8.836 10.066 9.529 9.747 9.957 7.928 9.821 8.683 9.577 9.468 4.859 6.369 4.889 8.920 8.008 4.806 5.072 46 5.707 6.976 7.709 8.195 5.249 8.567 6.637 8.990 7.684 4.576 8.929 7.888 9.573 6.745 8.641 9.797 9.275 9.474 9.678 7.754 9.634 8.498 9.395 9.222 4.752 6.203 4.752 8.717 7.826 4.656 4.981 47 5.448 6.766 7.367 7.830 5.077 3.288 6.415 8.713 7.466 4.460 8.030 7.624 9.308 6.529 8.398 9.490 8.984 9.165 9.362 7.535 9.369 8.238 9.137 8.920 4.618 6.000 4.006 8.450 7.608 4.490 4.840 48 4.840 6.514 6.553 6.965 4.888 7.934 6.161 8.344 7.191 4.296 8.316 7.346 8.989 6.277 8.090 9.126 8.640 8.801 8.991 7.259 9.027 7.885 8.803 8.536 4.449 5.742 4.408 8.121 7.354 4.273 4.636 49 4.719 6.178 6.381 6.783 4.631 7.365 5.859 7.730 6.857 4.102 7.882 6.963 8.417 5.916 7.666 8.608 8.150 8.274 8.452 6.201 8.607 7.333 8.393 7.851 4.217 5.281 4.054 7.682 7.009 3.958 4.421 50 4.740 5.253 6.410 6.814 3.928 6.428 4.958 6.884 6.118 3.541 6.671 5.930 7.373 4.996 6.469 7.236 6.597 7.055 7.207 5.804 7.377 6.320 7.194 7.043 3.557 4.737 3.637 6.506 5.956 3.425 3.759 51 4.529 5.631 6.124 6.510 4.185 6.846 5.336 7.299 5.907 3.618 7.179 6.342 7.273 5.429 6.980 7.818 7.496 7.637 7.802 6.270 7.720 6.857 7.528 7.454 3.843 5.010 3.849 7.023 6.355 3.658 3.962 52 4.286 5.484 5.796 6.161 4.082 6.605 5.225 7.088 5.930 3.560 7.329 6.210 7.640 3.248 6.809 7.609 7.260 7.365 7.523 6.110 7.564 6.642 7.376 7.180 3.745 4.820 3.708 6.820 6.228 3.509 3.889 53 4.001 5.232 5.411 5.751 3.876 6.276 4.969 6.654 5.654 3.377 6.685 5.906 7.246 4.978 6.436 7.247 6.861 7.001 7.152 5.775 7.191 6.289 7.012 6.783 3.539 4.562 3.503 6.506 5.956 3.326 3.713 54 3.632 4.917 4.911 5.220 3.636 5.859 4.647 6.193 5.306 3.183 6.252 5.523 6.769 4.635 6.015 6.798 6.407 6.546 6.687 5.397 6.739 5.891 6.572 6.330 3.308 4.258 3.269 6.161 5.593 3.093 3.493 55 3.241 4.539 4.383 4.659 3.362 5.365 4.280 5.670 4.929 2.951 5.758 5.087 6.208 4.275 5.528 6.193 5.863 6.001 6.130 4.961 6.226 5.400 6.071 5.782 3.040 3.869 2.986 5.675 5.157 2.827 3.215 56 2.703 4.097 3.655 3.885 3.079 4.720 3.802 5.070 4.451 2.632 5.115 4.519 5.506 3.824 4.961 5.464 5.173 5.323 5.443 4.451 5.572 4.817 5.434 5.152 2.728 3.465 2.661 5.048 4.630 2.528 2.898 57 2.185 3.593 2.955 3.141 2.641 4.062 3.302 4.287 3.929 2.322 4.442 3.924 4.774 3.337 4.329 4.737 4.483 4.582 4.681 3.944 4.872 4.157 4.751 4.439 2.380 2.986 2.293 4.421 4.049 2.195 2.536 58 1.605 3.026 2.170 2.307 2.230 3.323 2.757 3.504 3.334 1.945 3.709 3.277 3.948 2.778 3.015 3.950 3.739 3.764 3.845 3.244 4.078 3.436 3.977 3.645 1.988 4.452 1.602 3.700 3.396 1.812 2.151 59 1.225 2.374 1.656 1.760 1.750 2.505 2.123 2.612 2.697 1.558 2.857 2.524 3.013 2.164 2.837 3.010 2.850 2.891 2.954 2.546 3.206 2.623 3.127 2.727 1.560 1.834 1.408 2.900 2.669 1.397 1.704 60 1.024 1.555 1.385 1.472 1.149 1.582 1.367 1.706 1.972 1.064 1.840 1.625 1.984 1.389 1.897 1.956 1.851 1.891 1.932 1.702 2.148 1.672 2.095 1.768 1.043 1.189 0.913 1.960 1.834 0.898 1.132
61 0.232 1.366 0.314 0.334 1.072 1.177 1.178 1.260 1.421 0.900 1.585 1.401 1.554 1.244 1.702 1.630 1.543 1.637 1.672 1.527 1.852 1.237 1.606 1.302 0.936 0.876 0.672 1.693 1.562 0.782 0.974 MAP53 Date time MWT press P/L HT D HT 8/1/1973 900 2220 2250 144 126.3 num_det 30 H01 F02 J03 H03 D03 H04 N05 J05 D05 B05 N07 B07 R08 N08 L08 B08 L09 A09 N10 J10 D10 B10 L11 H11 F11 N12 J12 C12 L14 J15 1 1.083 1.341 2.228 2.223 1.128 2.464 1.953 1.760 1.642 1.348 1.648 1.299 1.091 1.645 2.094 0.657 1.838 0.763 1.580 1.941 1.741 1.518 1.612 2.222 1.665 1.372 1.761 0.972 0.840 0.651 2 1.383 1.862 2.846 2.839 1.566 3.147 1.741 2.033 2.196 1.059 1.870 1.760 1.309 1.865 2.809 0.890 2.466 0.937 1.955 2.117 2.440 1.864 2.225 2.424 2.334 1.135 2.329 1.186 1.243 0.822 3 1.660 2.413 3.415 3.407 2.029 3.776 2.251 2.761 2.910 1.395 2.473 2.263 1.780 2.467 3.550 1.144 3.116 1.244 2.566 2.823 3.098 2.475 2.858 3.232 2.964 1.556 3.081 1.636 1.840 1.083 4 1.865 2.883 3.838 3.829 2.425 4.244 2.824 3.519 3.588 1.790 3.056 2.766 2.283 3.049 4.265 1.399 3.744 1.535 3.129 3.529 3.715 3.052 3.511 4.040 3.554 1.984 3.448 2.051 2.003 1.324 5 2.000 3.294 4.114 4.105 2.770 4.550 3.270 4.172 4.195 2.146 3.639 3.227 2.736 3.630 4.827 1.632 4.237 1.725 3.614 4.176 4.181 3.432 3.960 4.781 3.999 2.337 4.439 2.419 2.296 1.518 6 2.402 3.324 5.106 5.095 2.796 5.647 3.482 4.688 4.498 2.400 4.021 3.311 2.888 4.011 4.878 1.674 4.282 1.742 3.801 4.607 4.326 3.465 4.021 5.275 4.052 2.561 4.640 2.668 2.296 1.518 7 3.298 4.156 5.485 5.675 3.227 5.983 3.938 4.732 4.794 2.439 4.410 4.389 3.743 4.563 6.052 3.226 5.484 2.579 4.443 5.120 5.205 4.369 5.060 5.447 5.384 2.730 5.360 2.751 2.880 2.392 8 4.157 4.698 5.734 6.160 3.349 6.164 4.538 5.906 5.297 3.046 5.138 5.152 4.378 5.520 6.715 4.887 6.275 3.317 5.096 6.172 5.672 4.900 5.695 6.070 6.327 3.333 5.701 3.316 3.225 3.219 9 4.432 5.066 6.113 6.568 3.612 6.571 4.939 6.501 5.767 3.358 5.700 5.624 4.878 6.125 7.175 5.335 6.709 3.588 5.531 6.765 6.108 5.301 6.188 6.654 6.812 3.648 6.230 3.620 3.487 3.480 10 4.663 5.382 6.431 6.910 3.837 6.914 5.256 6.974 6.174 3.601 6.150 6.007 5.189 6.608 7.609 5.698 7.110 3.826 5.842 7.260 6.477 5.653 6.579 7.140 7.224 3.923 6.678 3.882 3.696 3.689 11 4.628 5.627 6.659 7.155 4.012 7.159 5.530 7.356 6.488 3.805 6.507 6.299 5.499 6.991 7.966 5.976 7.444 4.030 6.152 7.675 6.767 5.954 6.887 7.549 7.548 4.183 6.999 4.078 3.888 3.881 12 4.949 5.821 6.826 7.334 4.150 7.338 5.784 7.661 6.754 3.974 6.844 6.569 5.688 7.354 8.222 6.232 7.683 4.154 6.395 8.031 7.018 6.137 7.134 7.899 7.827 4.300 7.319 4.252 4.010 4.002 13 5.048 5.975 6.962 7.480 4.260 7.485 5.974 7.920 6.974 4.096 7.050 6.749 5.826 7.575 8.401 6.402 7.850 4.245 6.556 8.289 7.203 6.271 7.319 8.152 8.033 4.430 7.575 4.379 4.097 4.089 14 5.081 6.077 7.008 7.529 4.332 7.534 6.142 8.119 7.115 4.190 7.219 6.884 5.861 7.757 8.554 6.530 7.993 4.324 6.681 8.447 7.321 6.388 7.442 8.307 8.166 4.533 7.751 4.448 4.149 4.142 15 4.327 6.118 6.795 7.301 4.362 7.305 6.246 8.210 7.193 4.251 7.313 6.929 5.873 7.857 8.630 6.573 8.065 4.335 6.805 8.566 7.374 6.405 7.524 8.424 8.225 4.629 7.879 4.506 4.207 4.194 16 4.762 6.077 6.568 7.057 4.332 7.061 6.269 8.271 7.240 4.278 7.351 6.862 5.844 7.898 8.579 6.509 8.037 4.267 6.836 8.605 7.242 6.305 7.442 8.463 8.077 4.656 7.912 4.529 4.149 4.142 17 5.235 5.423 7.220 7.758 3.866 7.762 5.762 8.042 6.707 4.163 6.882 6.164 5.154 7.394 7.737 5.847 7.230 3.837 6.246 8.170 6.662 5.669 6.661 8.085 7.430 4.403 7.159 4.321 3.713 3.707 18 5.356 6.220 7.387 7.937 4.434 7.941 6.206 7.401 7.130 3.974 7.200 7.064 5.895 7.736 8.962 6.701 8.375 4.426 6.867 8.308 7.611 6.539 7.627 8.171 8.489 4.533 8.056 4.286 4.259 4.281 19 5.433 6.424 7.493 8.051 4.580 8.055 6.543 8.409 7.585 4.434 7.688 7.289 6.119 8.260 9.218 6.915 8.613 4.539 7.240 8.941 7.823 6.706 7.853 8.794 8.725 4.869 8.376 4.702 4.393 4.365 20 5.510 6.546 7.599 8.165 4.667 8.169 6.691 8.653 7.710 4.563 7.857 7.447 6.223 8.442 9.371 7.064 8.757 4.630 7.411 9.100 7.968 6.840 7.977 8.949 8.887 4.986 8.552 4.806 4.463 4.455 21 5.532 6.608 7.630 8.198 4.711 8.202 6.754 8.760 7.789 4.637 7.969 7.537 6.326 8.563 9.473 7.149 8.852 4.698 7.488 9.218 8.060 6.940 8.038 9.066 8.990 5.020 8.648 4.876 4.480 4.472 22 5.565 6.659 7.675 8.246 4.748 8.251 6.860 8.866 7.867 4.718 8.063 7.627 6.367 8.663 9.550 7.235 8.924 4.743 7.566 9.278 8.100 7.007 8.100 9.124 9.034 5.068 8.728 4.922 4.515 4.507 23 5.576 6.669 7.690 8.263 4.755 8.267 6.902 8.927 7.914 4.746 8.138 7.672 6.412 8.744 9.550 7.277 8.924 4.743 7.582 9.317 8.100 7.007 8.100 9.163 9.084 5.033 8.760 4.945 4.533 4.524 24 5.565 6.669 7.675 8.246 4.755 8.251 6.944 8.958 7.930 4.773 8.138 7.717 6.412 8.744 9.524 7.320 8.900 4.765 7.597 9.317 8.086 7.041 8.121 9.163 9.019 5.095 8.728 4.956 4.515 4.504 25 5.510 6.638 7.599 8.165 4.733 8.169 6.966 8.958 7.914 4.779 8.119 7.649 6.412 8.724 9.498 7.256 8.876 4.754 7.551 9.297 8.134 7.024 8.100 9.144 8.960 5.109 8.696 4.933 4.515 4.507 26 5.037 6.587 6.947 7.464 4.697 7.463 6.923 8.897 7.883 4.766 8.101 7.604 6.343 8.704 9.396 7.213 8.780 4.731 7.473 9.238 7.954 6.990 8.059 9.085 8.872 5.102 8.664 4.910 4.480 4.472 27 5.312 6.363 7.326 7.872 4.536 7.876 6.818 8.790 7.757 4.725 7.988 7.289 6.171 8.583 8.988 6.915 8.399 4.539 7.349 9.100 7.585 6.706 7.853 8.949 8.460 5.040 8.456 4.841 4.306 4.298 28 5.576 5.842 7.690 8.263 4.165 8.267 5.995 8.149 6.911 4.312 7.125 6.772 5.499 7.656 8.298 6.424 7.754 4.233 6.510 8.130 7.150 6.255 7.098 7.996 7.974 4.533 7.543 4.321 4.045 4.037 29 5.675 6.577 7.827 8.409 4.689 8.414 6.776 8.103 7.726 4.522 7.913 7.582 6.223 8.502 9.345 7.192 8.733 4.698 7.380 8.902 7.915 6.940 8.100 8.755 8.828 4.896 8.568 4.714 4.463 4.455 30 5.752 6.700 7.933 8.524 4.777 8.528 6.944 8.699 7.961 4.752 8.232 7.717 6.343 8.845 9.524 7.320 8.900 4.777 7.582 9.258 8.047 7.057 8.285 9.105 8.975 5.095 8.776 4.922 4.550 4.542 31 5.807 6.761 8.009 8.605 4.820 8.610 7.029 8.821 8.039 4.827 8.382 7.784 6.412 9.006 9.626 7.364 6.995 4.833 7.659 9.396 8.152 7.141 8.388 9.241 9.093 5.150 8.856 4.980 4.585 4.577 32 5.851 6.802 8.070 8.670 4.849 3.675 7.113 8.912 8.102 4.867 8.476 7.852 6.481 9.107 9.703 7.448 9.067 4.867 7.753 9.476 8.218 7.191 8.429 9.319 9.166 5.178 8.920 5.037 4.620 4.611 33 5.851 6.812 8.070 6.670 4.857 8.675 7.134 8.988 8.118 4.881 8.551 7.897 6.516 9.187 9.728 7.491 9.091 4.890 7.830 9.515 8.245 7.225 8.429 9.358 9.196 5.219 8.952 5.072 4.637 4.629 34 5.829 6.812 8.039 8.638 4.857 8.642 7.177 9.034 8.133 4.901 8.607 7.919 5.516 9.248 9.754 7.512 9.115 4.935 7.830 9.495 8.231 7.291 8.429 9.338 9.181 5.246 8.952 5.107 4.672 4.664 35 5.763 6.781 7.948 8.540 4.835 8.545 7.177 9.084 8.118 4.915 8.607 7.897 6.516 9.248 9.728 7.491 9.091 4.913 7.846 9.456 8.231 7.258 8.388 9.299 9.181 5.253 8.920 5.107 4.672 4.664 36 5.653 6.730 7.796 8.377 4.799 8.381 7.156 9.019 8.071 4.874 8.532 7.874 6.481 9.167 9.677 7.469 9.043 4.901 7.799 9.416 8.205 7.241 8.326 9.267 9.152 5.239 8.872 5.072 4.637 4.629 37 4.949 6.659 6.826 7.334 4.748 7.338 7.092 8.988 7.992 4.813 8.432 7.762 6.315 9.066 9.575 7.363 8.947 4.833 7.737 9.317 8.139 7.141 8.223 9.163 9.078 5.184 8.792 5.026 4.585 4.577 38 5.510 6.281 7.599 8.165 4.478 8.169 6.902 8.866 7.789 4.725 8.251 7.334 6.119 8.865 9.039 6.957 8.446 4.539 7.519 9.179 7.611 6.706 7.874 9.027 8.489 5.075 8.536 4.922 4.271 4.263 39 5.697 6.138 7.857 8.442 4.376 8.447 6.079 7.966 6.927 4.224 7.238 7.109 5.671 7.777 8.630 6.744 8.065 4.381 6.696 8.071 7.519 6.472 7.237 7.938 8.386 5.499 7.783 4.321 4.271 4.263 40 5.763 6.700 7.948 8.540 4.777 8.545 6.881 8.531 7.898 4.624 8.157 7.762 6.343 8.764 9.550 7.363 8.924 4.788 7.613 9.159 8.165 7.074 8.223 9.008 9.107 5.027 8.776 4.876 4.585 4.577 41 5.829 6.812 8.039 8.638 4.857 8.642 6.987 8.912 8.086 4.806 8.344 7.829 6.447 8.965 9.652 7.427 9.019 4.867 7.784 9.456 8.258 7.191 8.388 9.299 9.210 5.164 8.936 5.074 4.655 4.646 42 5.862 6.863 8.085 8.696 4.893 8.691 7.092 9.019 8.165 4.867 8.401 7.897 6.533 9.026 9.728 7.491 9.091 4.913 7.815 9.574 8.311 7.258 8.449 9.416 9.269 5.212 9.001 5.060 4.707 4.698 43 5.851 6.904 8.070 8.670 4.922 8.675 7.156 9.065 8.212 4.908 8.438 7.919 6.568 9.066 9.703 7.512 9.067 4.935 7.846 9.614 8.284 7.291 8.511 9.455 9.240 5.260 9.033 5.084 4.724 4.716 44 5.807 6.894 8.009 8.605 4.915 8.610 7.177 9.080 8.227 4.915 8.438 7.919 6.585 9.066 9.677 7.512 9.043 4.913 7.799 9.634 8.258 7.258 8.470 9.475 9.210 5.246 9.001 5.084 4.707 4.698 45 5.697 6.843 7.857 6.442 4.879 8.447 7.177 9.050 8.165 4.888 8.363 7.874 6.533 8.986 9.601 7.469 8.971 4.679 7.706 9.535 8.192 7.208 8.408 9.377 9.137 5.212 8.936 5.060 4.672 4.664 46 5.554 6.751 7.660 8.230 4.813 8.235 7.071 8.988 8.055 4.834 8.251 7.784 6.464 8.865 9.447 7.364 8.828 4.811 7.597 9.396 8.073 7.107 8.326 9.241 9.004 5.143 8.808 4.980 4.568 4.559 47 5.323 6.618 7.341 7.888 4.718 7.892 6.966 8.851 7.898 4.746 8.119 7.604 6.343 8.724 9.243 7.213 8.637 4.698 7.488 9.238 7.915 6.940 8.162 9.085 8.828 5.034 8.616 4.887 4.445 4.437 48 4.564 6.373 6.295 6.763 4.544 6.767 6.754 8.653 7.648 4.617 7.913 7.379 6.154 8.502 8.988 7.000 8.399 4.550 7.302 9.007 7.677 6.723 7.936 8.852 8.563 4.890 8.360 4.760 4.254 4.246 49 5.004 5.719 6.902 7.415 4.078 7.419 6.396 8.332 7.209 4.414 7.576 6.637 5.706 8.139 8.171 6.296 7.635 4.098 6.914 8.625 6.820 6.054 7.278 8.482 7.607 4.663 7.799 4.529 3.766 3.759 50 4.905 5.719 6.765 7.269 4.078 7.273 5.572 7.157 6.425 3.771 6.544 6.637 5.413 7.031 8.043 6.296 7.516 4.098 6.168 7.438 6.952 6.054 6.825 7.315 7.754 4.025 7.175 3.928 3.835 3.828 51 4.729 5.862 6.522 7.008 4.180 7.012 6.079 7.829 6.939 4.116 7.275 6.839 5.688 7.817 8.375 6.466 7.826 4.168 6.758 8.249 7.123 6.188 7.298 8.113 7.945 4.416 7.687 4.333 3.870 3.863 52 4.553 5.699 6.280 6.747 4.063 6.751 5.910 7.783 6.848 4.055 7.163 6.659 5.550 7.696 8.145 6.317 7.611 4.075 6.603 8.111 6.952 6.020 7.154 7.977 7.754 4.300 7.527 4.263 3.748 3.741 53 4.278 5.474 5.900 6.340 3.903 6.343 5.657 7.569 6.613 3.893 6.919 6.367 5.309 7.434 7.813 6.040 7.301 3.894 6.339 7.814 6.648 5.753 6.887 7.685 7.415 4.128 7.287 4.113 3.574 3.567 54 3.905 5.168 5.385 5.786 3.684 5.789 5.340 7.218 6.284 3.689 6.582 6.007 5.033 7.072 7.354 5.698 6.872 3.690 5.950 7.418 6.279 5.452 6.517 7.296 7.008 3.902 6.967 3.894 3.347 3.341 55 3.476 4.790 4.793 5.150 3.415 5.153 4.960 6.745 5.861 3.432 6.113 5.534 4.671 6.568 6.766 5.250 6.323 3.407 5.500 6.924 5.317 5.034 6.044 6.809 6.488 3.614 6.454 3.628 3.086 3.080 56 2.948 4.310 4.065 4.368 3.073 4.370 4.454 6.135 5.313 3.080 5.550 4.972 4.154 5.964 5.975 4.716 5.583 3.045 4.878 6.231 5.211 4.499 5.469 6.128 5.812 3.285 5.862 3.258 2.720 2.715 57 2.343 3.717 3.231 3.471 2.650 3.473 3.884 5.433 4.623 2.694 4.857 4.275 3.620 5.218 5.158 4.055 4.820 2.649 4.241 5.460 4.485 3.913 4.708 5.370 5.002 2.887 5.109 2.854 2.353 2.349 58 1.584 3.033 2.184 2.347 2.163 2.348 3.229 4.609 3.871 2.281 4.050 3.487 2.965 4.352 4.187 3.308 3.913 2.128 3.480 4.570 3.654 3.144 3.866 4.494 4.046 2.428 4.244 2.357 1.900 1.897 59 1.408 2.175 1.942 2.096 1.551 2.087 2.470 3.617 2.946 1.780 3.169 2.520 2.155 3.405 3.013 2.390 2.815 1.517 2.641 3.541 2.559 2.241 2.878 3.482 2.898 1.893 3.283 1.791 1.290 1.288 60 0.847 1.563 1.168 1.255 1.114 1.256 1.689 2.365 1.928 1.144 2.100 1.912 1.569 2.256 2.400 1.814 2.243 1.200 1.864 2.354 1.926 1.773 1.932 2.315 2.148 1.221 4.306 1.167 1.081 1.079 61 0.165 1.385 0.228 0.244 0.968 0.245 1.562 1.938 1.457 0.995 1.819 1.687 1.396 1.954 2.094 1.601 1.957 1.245 1.569 2.018 1.702 1.840 1.521 1.984 1.898 1.084 1.890 0.878 0.941 0.940 MAP68 Date time MWT press P/L HT D HT 6/19/1974 930 2410 2000 144 133.3 num_det 12 H01 F02 D03 N05 B05 D07 L08 N10 L11 N12 L14 J15 1 1.668 2.303 1.963 2.783 1.937 3.432 3.216 2.598 2.410 1.791 1.339 1.500 2 2.070 2.800 2.412 3.239 1.752 3.629 3.713 3.237 3.079 2.071 1.775 1.942 3 2.578 3.508 3.026 4.025 2.287 4.734 4.674 4.021 3.919 2.649 2.302 2.442 4 3.147 4.040 3.491 4.560 2.748 5.759 5.570 4.688 4.740 3.135 2.214 2.898 5 3.613 4.402 3.779 4.827 3.122 6.197 6.278 5.261 5.360 3.493 3.155 3.192 6 3.623 4.409 3.783 5.095 3.108 6.029 6.290 5.179 5.530 3.421 3.360 3.295 7 4.548 5.334 4.564 5.928 3.663 6.646 7.155 6.285 6.088 4.151 3.705 3.918 8 4.953 5.725 4.879 6.369 4.033 7.674 7.921 6.911 6.939 4.487 4.074 4.319 9 5.222 6.009 5.104 6.636 4.237 8.153 8.207 7.216 7.364 4.711 4.346 4.572 10 5.473 6.137 5.330 6.903 4.422 8.462 8.587 7.434 7.630 5.067 4.600 4.794 11 5.589 6.329 5.465 7.092 4.552 8.702 8.786 7.609 7.870 5.085 4.683 4.283 12 5.666 6.436 5.570 7.171 4.644 8.839 8.953 7.696 7.949 5.104 4.731 4.913 13 5.666 6.436 5.585 7.265 4.644 8.904 8.919 7.754 8.002 5.123 4.747 4.913 14 5.646 6.471 5.570 7.328 4.644 8.941 8.886 7.740 8.056 5.160 4.763 4.896 15 5.569 6.400 5.495 7.265 4.663 8.873 8.853 7.725 7.949 5.104 4.747 4.624 16 5.377 6.116 5.240 6.777 4.570 8.702 8.720 7.594 7.790 4.992 4.667 4.616 17 4.779 5.547 4.744 6.479 4.052 7.982 7.888 6.707 7.045 4.375 4.322 4.207 18 5.434 6.294 5.390 7.060 4.422 7.914 8.254 7.507 7.152 4.992 4.475 4.705 19 5.531 6.365 5.435 7.171 4.626 8.496 8.753 7.754 7.630 5.104 4.619 4.760 20 5.531 6.471 5.465 7.155 4.626 8.530 8.720 7.798 7.630 5.067 4.619 4.794 21 5.492 6.542 5.435 7.123 4.644 8.530 8.720 7.769 7.604 5.048 4.613 4.765 22 5.492 6.400 5.420 7.139 4.644 8.530 8.686 7.754 7.577 5.029 4.555 4.765 23 5.454 6.329 5.390 7.139 4.607 8.496 8.653 7.725 7.524 4.992 4.555 4.720 24 5.434 6.294 5.315 7.108 4.589 8.462 8.520 7.638 7.471 4.973 4.539 4.690 25 5.357 6.222 5.255 7.076 4.570 8.359 8.387 7.565 7.418 4.936 4.723 4.631 26 5.280 6.080 5.149 6.982 4.515 8.256 8.320 7.391 7.338 4.861 4.443 4.557 27 5.049 5.725 4.864 6.447 4.404 8.119 8.121 7.202 7.205 4.655 4.362 4.260 28 4.471 5.369 4.519 6.227 3.867 7.400 7.222 6.300 6.434 4.169 3.785 4.008 29 5.068 5.938 4.984 6.777 4.311 7.468 7.588 7.187 6.806 4.711 4.234 4.379 30 5.145 5.974 4.984 6.825 4.422 8.070 8.021 7.362 7.231 4.786 4.362 4.408 31 5.145 6.009 5.074 6.903 4.459 8.085 8.087 7.420 7.311 4.824 4.362 4.423 32 5.145 5.974 4.969 6.919 4.478 8.119 8.154 7.449 7.338 4.824 4.378 4.438 33 5.184 5.974 4.999 6.888 4.496 8.153 8.121 7.478 7.338 4.842 4.427 4.423 34 3.184 5.938 5.014 6.903 4.478 8.188 8.087 7.522 7.285 4.842 4.427 4.453 35 5.165 5.902 4.954 6.935 4.459 8.188 8.121 7.507 7.231 4.824 4.410 4.402 36 5.126 5.902 4.939 6.856 4.422 8.188 8.087 7.478 7.231 4.824 4.410 4.394 37 5.088 5.796 4.879 6.777 4.348 8.158 8.054 7.362 7.205 4.768 4.378 4.319 38 4.837 5.476 4.609 6.259 4.293 8.051 7.888 7.129 7.079 4.543 4.282 4.052 39 4.509 5.262 4.444 6.243 3.756 7.297 7.022 6.329 6.307 4.207 3.837 3.933 40 5.068 5.876 4.909 6.746 4.255 7.605 7.588 7.289 6.779 4.730 4.250 4.290 41 5.184 6.009 4.999 6.872 4.422 8.153 8.021 7.492 7.258 4.842 4.410 4.364 42 5.222 6.151 5.074 6.982 4.515 8.290 8.154 7.565 7.418 4.898 4.507 4.453
43 5.261 6.167 5.119 7.046 4.589 8.462 8.254 7.653 7.524 4.973 4.539 4.512 44 5.300 6.222 5.164 7.171 4.644 8.496 8.254 7.682 7.550 4.955 4.587 4.527 45 5.319 6.222 5.194 7.202 4.700 8.565 8.287 7.653 7.604 4.973 4.619 4.542 46 5.357 6.222 5.194 7.171 4.681 8.633 8.287 7.653 7.630 4.936 4.537 4.527 47 5.357 6.187 5.134 7.155 4.626 8.633 8.320 7.638 7.630 4.917 4.539 4.512 48 5.280 6.116 5.089 7.029 4.570 8.565 8.287 7.580 7.604 4.861 4.459 4.408 49 4.933 5.725 4.759 6.447 4.441 8.462 8.187 7.332 7.471 4.562 4.298 4.112 50 4.741 5.511 4.594 6.447 3.840 7.571 7.255 6.489 6.514 4.375 3.737 4.008 51 5.184 6.045 4.954 6.809 4.330 7.982 7.888 7.449 7.125 4.749 4.218 4.290 52 5.222 6.045 4.954 6.715 4.348 8.462 8.320 7.492 7.471 4.730 4.250 4.245 53 5.145 5.938 4.864 6.557 4.274 8.393 8.287 7.347 7.471 4.581 4.170 4.201 54 5.070 5.760 4.714 6.306 4.163 8.222 8.154 7.129 7.338 4.431 4.058 4.067 55 4.741 5.511 4.489 5.913 3.904 7.948 7.821 6.751 7.099 4.132 3.381 3.859 56 4.336 5.085 4.144 5.441 3.626 7.503 7.388 6.270 6.700 3.833 3.609 3.562 57 3.873 4.551 3.693 4.796 3.312 6.920 6.732 5.645 6.168 3.421 3.272 3.191 58 3.276 3.676 3.153 4.041 2.812 6.098 5.924 4.830 5.450 2.898 2.839 2.731 59 2.505 2.987 2.432 3.098 2.257 5.070 4.959 3.884 4.493 2.206 2.277 2.308 60 1.734 2.027 1.666 2.280 1.460 3.803 3.661 2.619 3.297 1.533 1.508 1.455 61 0.899 1.031 0.856 1.248 0.728 2.878 2.008 1.324 1.799 0.798 1.459 0.752 MAP71 Date time MWT press P/L HT D HT 9/18/1974 930 2422 2000 144 143.4 num_det 17 H01 F02 D03 N05 B05 D07 R08 L08 L09 N10 D10 L11 F11 E11 N12 L14 J15 1 3.634 2.293 2.165 4.904 2.511 4.470 2.004 3.763 3.230 3.240 4.390 3.100 3.486 2.569 3.062 2.643 1.592 2 2.814 2.840 2.221 3.852 2.158 4.430 2.070 4.441 3.953 3.755 3.452 3.819 4.421 3.000 2.215 1.994 2.947 3 2.998 3.631 2.736 4.443 2.762 5.108 4.068 5.506 5.002 4.703 4.047 4.790 5.683 4.139 2.565 2.545 2.973 4 3.707 4.238 3.224 5.309 3.261 5.989 4.500 6.370 5.700 5.454 4.985 5.638 6.518 5.121 3.236 3.111 3.048 5 4.296 4.707 3.592 5.799 3.619 6.633 4.721 5.978 6.340 5.950 5.833 6.122 7.053 5.657 3.739 3.482 3.473 6 4.584 4.709 3.612 6.843 3.555 6.586 4.067 6.722 6.104 5.742 5.922 5.959 6.669 6.237 4.067 3.641 3.660 7 4.389 5.060 3.930 6.319 4.130 7.234 5.320 7.650 6.951 6.894 5.878 6.735 7.755 6.030 3.893 3.764 3.660 8 5.259 5.707 4.413 6.881 4.437 8.169 5.543 8.259 7.503 7.422 6.890 7.398 8.290 7.100 4.680 4.383 4.272 9 5.580 5.930 4.627 7.184 4.629 8.436 5.659 8.483 7.704 7.546 7.247 7.679 8.474 7.560 4.950 4.577 4.497 10 5.754 6.082 4.766 5.343 4.782 8.603 5.731 8.579 7.794 7.799 7.455 7.357 8.574 7.613 5.118 4.307 4.647 11 5.915 6.143 4.876 7.473 4.808 8.687 5.767 8.643 7.852 7.790 7.842 7.883 8.574 7.917 5.543 4.860 4.797 12 5.800 6.177 4.925 7.545 4.859 8.695 5.713 8.643 7.852 7.306 7.782 7.903 8.507 7.936 5.350 4.843 4.835 13 5.875 6.161 4.915 7.545 4.846 8.653 5.686 8.515 7.736 7.774 7.733 7.883 8.440 7.940 5.363 4.060 4.760 14 5.821 6.082 4.876 7.588 4.821 9.569 5.606 8.387 7.620 7.710 7.663 7.755 8.323 7.894 5.311 4.825 4.710 15 5.768 5.962 4.806 7.631 4.795 8.434 5.525 8.291 7.532 7.662 7.529 7.623 8.173 7.313 5.260 4.772 4.635 16 5.621 5.834 4.697 7.415 4.629 8.172 5.284 8.035 7.300 7.406 7.395 7.398 7.922 7.675 5.208 4.684 4.522 17 5.406 5.204 4.189 6.780 4.002 7.262 4.926 6.946 6.311 6.398 6.860 6.370 6.803 7.249 4.963 4.253 4.235 18 4.724 5.355 4.338 6.930 4.458 7.567 5.320 7.746 7.039 7.310 6.428 6.838 7.705 6.686 4.486 4.242 4.023 19 5.366 5.651 4.527 7.213 4.655 7.956 5.329 7.971 7.242 7.438 7.113 7.168 7.956 7.422 5.015 4.524 4.360 20 5.160 5.643 4.527 7.370 4.529 7.939 3.338 7.971 7.242 7.470 7.137 7.117 7.972 7.434 5.049 4.507 4.397 21 5.420 5.667 4.517 7.184 4.629 7.889 5.320 7.939 7.213 7.470 7.172 7.066 7.889 7.491 5.075 4.507 4.397 22 5.400 5.635 4.498 7.168 4.503 7.850 5.311 7.875 7.154 7.406 7.202 7.041 7.872 7.411 4.968 4.409 4.347 23 5.406 5.371 4.458 7.184 4.565 7.783 5.256 7.810 7.096 7.358 7.172 6.964 7.789 7.365 4.950 4.436 4.372 24 5.353 5.531 4.438 7.155 4.565 7.729 5.243 7.746 7.038 7.294 7.128 6.989 7.755 7.353 4.899 4.401 4.322 25 5.299 5.515 4.303 7.120 4.507 7.679 5.195 7.613 6.922 7.166 7.113 6.838 7.588 7.284 4.886 4.407 4.297 26 5.259 5.459 4.348 7.083 4.437 7.587 5.141 7.522 6.834 7.054 7.023 6.760 7.438 7.196 4.847 4.348 4.235 27 5.179 5.323 4.279 6.982 4.322 7.409 4.864 7.266 5.602 6.830 6.890 6.650 7.137 7.077 4.783 4.259 4.160 28 4.544 4.733 3.781 6.174 3.759 8.543 4.756 6.210 5.642 6.080 6.205 5.791 6.284 6.467 4.512 3.747 3.760 29 4.510 5.002 4.129 6.795 4.335 7.163 5.141 7.170 6.515 6.910 6.384 6.454 7.204 6.600 4.280 4.047 3.860 30 5.005 5.371 4.318 6.968 4.412 7.478 5.212 7.362 6.629 7.102 6.741 6.760 7.354 7.042 4.705 4.242 4.060 31 5.072 5.443 4.388 7.040 4.450 7.537 5.257 7.394 6.718 7.166 6.830 6.837 7.421 7.169 4.783 4.277 4.098 32 5.099 5.467 4.428 7.054 4.408 7.570 5.284 7.394 6.718 7.214 6.890 6.862 7.454 7.203 4.770 4.277 4.123 33 5.139 5.507 4.448 7.069 4.501 7.304 5.302 7.458 6.776 7.246 6.949 6.913 7.504 7.249 4.796 4.348 4.135 34 5.160 5.499 4.448 7.112 4.514 7.672 3.320 7.458 6.776 7.262 6.994 6.888 7.555 7.295 4.847 4.348 4.160 35 5.192 5.499 4.428 7.126 4.408 7.671 5.320 7.458 6.776 7.310 7.023 6.837 7.538 7.342 4.873 4.383 4.148 36 5.206 5.491 4.418 7.147 4.476 7.704 5.311 7.490 6.805 7.262 7.030 6.352 7.504 7.330 4.973 4.383 4.160 37 5.379 5.491 4.358 7.054 4.437 7.696 5.239 7.426 6.747 7.214 7.053 6.786 7.421 7.284 4.873 4.365 4.160 38 5.130 5.379 4.300 6.922 4.297 7.493 4.917 7.202 6.544 6.878 6.904 6.633 7.103 7.283 4.821 4.312 4.098 39 4.724 4.781 3.807 6.290 3.611 6.671 4.926 6.274 5.700 6.398 6.220 5.740 6.868 6.398 4.461 3.800 3.660 40 4.804 5.347 4.306 7.011 4.463 7.524 5.257 7.394 6.718 7.294 6.637 6.658 7.421 6.950 4.512 4.242 3.973 41 5.192 5.667 4.557 7.134 4.600 7.899 5.338 7.618 6.922 7.534 7.142 6.964 7.571 7.353 4.873 4.418 4.185 42 5.286 5.810 4.667 7.300 4.693 8.024 5.391 7.746 7.038 7.646 7.336 7.143 7.672 7.491 4.950 4.542 4.260 43 5.393 5.906 4.776 7.473 4.795 8.158 5.445 7.842 7.125 7.710 7.440 7.270 7.789 7.595 5.006 4.530 4.360 44 5.433 6.078 4.866 7.530 4.846 8.268 5.504 7.904 7.183 7.790 7.574 7.321 7.889 7.710 5.105 4.707 4.397 45 5.500 6.098 4.905 7.675 4.885 8.385 5.516 8.003 7.271 7.822 7.604 7.398 8.023 7.756 5.113 4.737 4.447 46 5.580 6.109 4.925 7.718 4.923 8.435 5.552 8.035 7.300 7.854 7.663 7.475 8.106 7.848 5.182 4.754 4.510 47 5.634 6.185 4.945 7.718 4.923 8.405 5.570 8.057 7.329 7.386 7.723 7.500 8.173 7.336 5.195 4.737 4.497 48 5.674 6.207 4.925 7.761 4.085 8.469 5.552 8.067 7.329 7.854 7.693 7.526 8.173 7.859 5.208 4.719 4.472 49 5.604 6.000 4.836 7.631 4.529 8.239 5.132 7.875 7.154 7.358 7.574 7.347 7.822 7.744 5.182 4.613 4.410 50 5.032 5.260 4.189 6.024 4.322 7.428 5.391 7.010 6.369 7.310 6.681 6.327 7.471 6.789 4.680 3.977 3.873 51 5.433 6.066 4.836 7.517 4.334 8.421 5.695 8.259 7.503 8.061 7.395 7.423 8.390 7.710 5.002 4.542 4.335 52 5.707 6.289 4.965 7.732 4.359 8.687 5.722 8.483 7.707 8.109 7.570 7.704 8.574 7.986 5.221 4.666 4.497 53 5.760 6.329 4.955 7.675 4.305 8.086 5.704 8.483 7.704 8.045 7.693 7.730 8.557 7.986 5.203 4.630 4.447 54 5.728 6.265 4.886 7.516 4.580 8.526 5.615 8.323 7.562 7.870 7.589 7.679 8.407 7.905 5.105 4.542 4.385 55 5.500 6.130 4.677 7.343 4.450 8.265 5.400 8.035 7.300 7.436 7.810 7.475 8.106 7.710 4.950 4.383 4.260 56 5.286 5.350 4.388 6.997 4.194 7.760 5.069 7.522 6.834 6.926 7.083 7.041 7.508 7.342 4.705 4.153 4.048 57 4.871 5.395 3.970 6.492 3.734 7.062 5.640 6.754 6.137 6.206 6.577 6.480 6.853 6.778 4.383 3.817 3.735 58 4.309 4.781 3.433 5.814 3.210 6.112 4.014 5.058 5.322 5.294 5.833 5.612 5.867 6.008 3.855 3.376 3.298 59 3.613 3.927 2.746 4.318 2.481 4.876 3.073 4.609 4.183 4.063 4.910 4.566 4.546 4.914 3.249 2.775 2.748 60 2.590 2.690 1.071 3.347 1.726 3.432 2.404 3.233 2.937 3.007 3.467 3.036 3.226 3.349 2.359 1.273 1.961 61 2.235 1.389 0.955 3.448 0.099 3.237 1.490 1.697 1.541 1.653 3.036 1.514 1.710 1.711 1.960 1.803 1.724 MAP73 Date time MWT press P/L HT D HT 10/13/1974 930 1500 2000 144 137.1 num_det 13 H01 F02 D03 N05 B05 D07 L08 L09 N10 L11 F11 N12 J15 1 2.242 2.851 2.233 4.804 2.524 2.608 3.798 3.322 3.226 2.890 3.203 3.392 2.414 2 2.454 3.304 2.455 3.706 2.300 4.036 4.378 3.830 3.909 3.732 4.176 2.442 1.779 3 3.121 4.078 3.107 4.214 2.929 5.464 5.503 4.814 4.858 4.697 5.045 2.838 2.211 4 3.819 4.709 3.574 5.186 3.464 5.779 5.413 5.725 5.624 5.589 6.054 3.606 2.762 5 4.282 5.058 3.895 5.759 3.963 6.363 7.062 6.430 6.182 6.190 6.778 4.146 3.229 6 4.159 4.963 3.883 5.886 3.735 6.845 6.832 6.221 5.935 5.979 6.643 4.503 3.511 7 5.083 5.929 4.307 6.331 4.415 7.379 7.733 7.041 7.209 6.906 7.863 4.354 3.511 8 5.422 6.289 4.817 7.072 4.701 8.509 8.439 7.684 7.761 7.579 8.253 5.189 4.208 9 5.730 6.470 5.038 7.515 4.978 8.770 8.503 7.893 7.989 7.916 8.456 5.488 4.530 10 5.284 6.611 5.173 7.707 5.076 8.983 8.774 7.989 8.103 8.085 8.550 5.696 4.690 11 5.984 6.700 5.296 7.834 5.085 9.144 8.847 8.033 8.180 8.127 8.606 6.144 4.895 12 5.915 6.744 5.345 7.961 5.134 9.197 8.800 8.086 8.199 8.127 8.575 5.845 4.972 13 5.854 6.668 5.321 7.982 5.095 9.197 8.721 7.941 8.142 8.083 8.541 5.875 4.921 14 5.823 6.630 5.296 7.961 5.086 9.197 8.633 7.861 8.084 8.000 8.422 5.760 4.895 15 5.669 6.459 5.210 8.024 4.996 9.037 8.423 7.732 8.008 7.832 8.253 5.726 4.870 16 5.391 6.137 5.068 7.770 4.809 8.823 8.245 7.504 7.723 7.579 7.670 5.667 4.716 17 4.806 5.626 4.448 6.945 4.159 7.754 7.168 6.527 6.695 6.527 7.151 5.388 4.480 18 5.453 6.251 4.755 7.135 4.671 7.860 7.892 7.186 7.647 7.158 7.914 4.921 4.126 19 5.515 5.327 4.915 7.432 4.799 8.342 8.192 7.459 7.780 7.369 8.015 5.428 4.562 20 5.464 6.422 4.915 7.453 4.750 8.342 8.156 7.427 7.799 7.369 7.990 5.488 4.596 21 5.453 6.459 4.866 7.453 4.750 8.342 8.104 7.379 7.761 7.285 7.914 5.398 4.502 22 5.453 6.283 4.841 7.389 4.740 8.342 8.068 7.346 7.704 7.243 7.803 5.368 4.536 23 5.391 5.213 4.780 7.389 4.681 8.288 7.962 7.250 7.685 7.200 7.761 5.279 4.511 24 5.299 5.137 4.755 7.347 4.652 8.235 7.839 7.137 7.609 7.158 7.676 5.219 4.405
25 5.260 6.062 4.731 7.305 4.592 8.128 7.750 7.057 7.457 7.074 7.553 5.189 4.434 26 5.176 5.910 4.645 7.241 4.543 8.074 7.627 6.945 7.324 6.999 7.388 5.160 4.383 27 4.899 5.569 4.534 7.042 4.405 7.914 7.397 6.736 7.057 6.779 6.795 5.040 4.306 28 4.496 5.247 3.944 6.161 3.804 7.433 6.303 6.739 6.182 5.895 6.592 4.712 3.896 29 4.950 5.740 4.436 6.318 4.385 6.791 7.203 6.559 7.133 6.653 7.253 4.503 3.921 30 5.022 5.315 4.596 7.008 4.435 7.593 7.415 6.752 7.247 6.864 7.287 4.921 4.152 31 5.022 5.834 4.645 7.050 4.464 7.700 7.433 6.762 7.324 6.906 7.338 4.951 4.178 32 5.053 5.853 4.657 7.072 4.504 7.754 7.415 6.752 7.381 6.948 7.371 4.951 4.203 33 5.083 5.815 4.657 7.093 4.464 7.754 7.433 6.763 7.381 6.906 7.354 4.921 4.203 34 5.083 5.777 4.657 7.114 4.474 7.754 7.433 6.762 7.400 6.906 7.354 4.921 4.229 35 5.114 5.740 4.606 7.114 4.454 7.754 7.433 6.768 7.400 6.564 7.321 4.951 4.229 36 5.053 5.702 4.571 7.093 4.415 7.754 7.397 6.736 7.362 6.821 7.338 4.921 4.203 37 4.991 5.525 4.522 7.029 4.356 7.754 7.380 6.720 7.228 6.779 7.287 4.391 4.178 38 4.560 5.247 4.436 6.902 4.228 7.700 7.150 6.511 6.943 6.569 6.592 4.831 4.126 39 4.652 5.247 3.853 6.034 3.755 7.005 6.179 5.625 6.255 5.642 6.848 4.384 3.665 40 5.022 5.740 4.510 6.839 4.326 7.112 7.238 6.597 7.228 6.611 7.388 4.533 3.896 41 5.083 5.091 4.694 7.072 4.454 7.754 7.486 6.316 7.438 6.906 7.508 4.861 4.152 42 5.145 6.043 4.805 7.177 4.533 7.914 7.592 6.972 7.514 7.032 7.609 4.921 4.203 43 5.204 6.095 4.878 7.368 4.612 8.074 7.662 6.977 7.571 7.158 7.693 4.981 4.280 44 5.237 5.175 4.952 7.432 4.581 8.123 7.697 7.009 7.647 7.200 7.744 5.040 4.331 45 5.299 6.175 5.004 7.559 4.707 8.181 7.786 7.089 7.685 7.243 7.778 5.040 4.357 46 5.391 6.213 5.026 7.622 4.730 8.200 7.803 7.105 7.723 7.327 7.846 5.070 4.406 47 5.391 6.175 5.013 7.664 4.730 8.342 7.821 7.121 7.723 7.327 7.603 5.040 4.383 48 5.299 5.156 4.939 7.622 4.671 8.342 7.856 7.154 7.742 7.285 7.795 5.040 4.357 49 4.714 5.569 4.066 7.537 4.454 8.286 7.680 6.903 7.305 7.152 6.940 4.981 4.300 50 5.114 5.834 4.239 6.563 4.149 7.326 6.762 6.157 7.000 6.190 7.541 4.444 3.793 51 5.422 6.251 4.940 7.474 4.632 8.074 8.033 7.314 7.894 7.243 8.040 4.561 4.152 52 5.453 6.327 5.050 7.543 4.642 8.449 8.227 7.491 7.970 7.495 8.151 5.070 4.331 53 5.361 6.270 5.026 7.580 4.573 8.502 8.262 7.523 7.932 7.537 8.023 5.070 4.306 54 5.253 6.137 4.952 7.432 4.464 8.502 8.139 7.411 7.761 7.495 7.931 4.891 4.229 55 4.929 5.891 4.768 7.177 4.247 8.342 7.874 7.170 7.419 7.285 7.858 4.742 4.152 56 4.529 5.474 4.473 6.818 3.952 7.967 7.397 6.736 6.886 6.864 7.049 4.444 3.896 57 4.036 4.849 4.055 6.132 3.567 7.375 6.762 6.157 6.163 6.274 6.270 4.116 3.588 58 3.266 4.092 3.514 5.441 3.015 6.577 5.898 5.369 5.269 5.432 5.236 3.030 3.204 59 2.311 3.031 2.826 4.467 2.296 5.561 4.731 4.300 4.099 4.379 3.728 3.042 2.614 60 2.157 2.368 2.071 3.049 1.685 2.941 3.248 2.958 2.929 2.005 3.118 2.147 1.845 61 1.387 1.338 1.069 3.112 0.920 2.246 1.671 1.522 2.750 1.446 1.875 1.939 1.717 D.5 Cycle-2 Power Map Measured Data cyc2 5 61 MAP9 Date MWT press P/L HT D HT HFP 1 2/7/1975 2403 2250 144 137.7 num_det 19 H01 F02 D03 N05 B05 L06 N07 J07 R08 N08 L08 L09 N10 L11 F11 N12 C12 L14 J15 1 1.340 1.449 1.051 1.421 1.493 2.577 1.989 3.305 1.771 2.470 3.403 3.208 2.407 2.742 3.146 1.745 1.192 1.373 0.938 2 2.482 2.530 1.923 2.508 1.960 3.246 2.528 4.090 2.436 3.138 3.044 2.803 3.079 3.516 3.850 2.347 2.087 1.798 1.655 3 3.115 3.244 2.618 3.263 2.480 4.211 3.287 4.975 2.996 4.082 4.024 3.706 3.609 4.377 4.743 2.908 2.687 2.354 2.149 4 3.630 3.857 3.135 3.977 2.920 5.071 3.992 5.655 3.472 4.956 5.022 4.625 4.117 5.027 5.431 3.428 3.204 2.796 2.575 5 4.005 4.305 3.560 4.548 3.266 5.080 4.558 6.046 3.696 5.650 5.884 5.419 4.294 5.502 5.995 3.781 3.596 3.156 2.391 6 3.926 4.285 3.581 4.874 3.226 5.899 4.807 6.076 3.927 5.968 6.476 5.964 4.318 5.326 5.603 3.739 3.617 3.205 2.843 7 4.767 5.107 4.210 4.976 3.880 6.239 5.110 6.946 4.613 6.346 6.290 5.793 5.081 6.187 6.574 4.549 4.278 3.711 3.488 8 5.123 5.591 4.657 5.874 4.213 7.138 5.884 7.423 4.956 7.306 7.373 6.790 5.344 6.697 7.028 4.903 4.692 4.137 3.817 9 5.380 5.917 4.964 6.261 4.439 7.522 6.257 7.714 5.208 7.769 7.964 7.335 5.533 6.943 7.247 5.193 5.002 4.398 4.085 10 5.568 6.203 5.194 6.567 4.626 7.796 6.492 8.024 5.452 8.061 8.303 7.646 5.651 7.119 7.435 5.401 5.229 4.660 4.284 11 5.697 6.428 5.397 6.791 4.773 7.961 6.671 8.140 5.513 8.284 8.539 7.864 5.745 7.242 7.560 5.567 5.415 4.840 4.429 12 5.776 6.591 5.557 6.975 4.853 8.070 6.837 8.241 5.711 8.489 8.708 8.020 5.804 7.312 7.623 5.692 5.518 4.954 4.538 13 5.825 6.693 5.641 7.138 4.919 8.103 6.892 8.287 5.774 8.558 8.810 8.114 5.792 7.348 7.707 5.734 5.580 5.086 4.593 14 5.825 6.754 5.676 7.199 4.959 8.081 6.934 8.253 5.816 8.609 8.827 8.129 5.781 7.312 7.717 5.754 5.622 5.065 4.614 15 5.825 6.774 5.697 7.240 4.959 8.059 6.934 8.221 5.795 8.609 8.827 8.129 5.745 7.260 7.654 5.754 5.622 5.005 4.635 16 5.677 6.693 5.676 7.240 4.906 7.972 6.892 7.955 5.529 8.558 8.810 8.114 5.427 7.101 7.497 5.671 5.580 5.052 4.593 17 5.133 5.979 5.138 6.954 4.386 7.423 6.478 7.264 5.452 8.043 8.658 7.973 5.108 6.187 6.543 5.173 5.022 4.611 4.099 18 5.796 6.693 5.662 6.567 4.946 7.511 6.478 8.025 5.984 8.043 7.711 7.101 5.710 6.873 7.372 5.879 5.601 4.970 4.689 19 5.924 6.897 5.906 7.220 5.066 8.075 6.961 8.261 6.131 8.644 8.522 7.849 5.804 7.101 7.670 6.024 5.828 5.216 4.840 20 5.993 6.999 5.990 7.321 5.173 8.158 7.058 8.322 6.236 8.764 8.793 8.098 5.863 7.137 7.701 6.108 5.973 5.265 4.902 21 6.043 7.031 6.074 7.403 5.226 8.213 7.141 8.366 6.299 8.867 8.877 8.176 5.910 7.172 7.732 6.170 6.035 5.314 4.978 22 6.072 7.162 6.116 7.485 5.279 8.246 7.182 8.406 6.404 8.918 8.945 8.238 5.969 7.189 7.778 6.211 6.097 5.395 5.012 23 6.082 7.183 6.137 7.546 5.319 8.246 7.224 8.432 6.425 8.970 8.979 8.269 5.946 7.172 7.795 6.211 6.139 5.395 5.053 24 6.042 7.223 6.116 7.607 5.319 8.224 7.233 8.437 6.425 8.987 8.979 8.209 5.958 7.207 7.795 6.232 6.159 5.412 5.053 25 6.003 7.244 6.074 7.627 5.319 8.191 7.251 8.396 6.404 9.004 8.945 8.238 5.946 7.189 7.748 6.170 6.159 5.412 5.053 26 5.993 7.203 6.032 7.607 5.306 8.114 7.224 8.310 6.341 8.970 8.894 8.191 5.875 7.154 7.717 6.120 6.118 5.395 5.033 27 5.707 7.121 5.967 7.546 5.186 7.994 7.141 7.895 5.858 8.867 8.844 8.145 5.391 7.049 7.513 5.879 6.044 5.297 4.976 28 5.548 6.326 5.278 7.097 4.679 7.314 6.602 7.378 6.005 8.198 8.691 8.005 5.498 6.170 6.605 5.526 5.332 4.709 4.470 29 6.003 7.162 5.906 7.158 5.279 7.566 6.699 8.071 6.320 8.318 7.745 7.132 5.887 7.014 7.466 6.007 5.973 5.265 5.072 30 6.161 7.326 6.003 7.648 5.386 8.026 7.168 8.248 6.425 8.901 8.658 7.973 6.005 7.260 7.607 6.191 6.118 5.477 5.129 31 6.231 7.427 6.116 7.750 5.479 8.114 7.279 8.335 6.488 9.036 8.877 8.176 6.064 7.383 7.701 6.294 6.200 5.592 5.191 32 6.280 7.529 6.178 7.811 5.519 8.158 7.376 8.401 6.551 9.158 8.962 8.254 6.111 7.418 7.795 6.357 6.233 5.706 5.246 33 6.310 7.550 6.220 7.933 5.546 8.213 7.445 8.472 6.600 9.244 9.013 8.300 6.170 7.453 7.842 6.378 6.324 5.804 5.307 34 6.359 7.611 6.241 7.995 5.573 8.213 7.472 8.522 6.642 9.278 9.047 8.332 6.153 7.453 7.904 6.440 6.386 5.853 5.328 35 6.359 7.591 6.283 8.075 5.546 8.202 7.500 8.493 6.642 9.313 9.047 8.332 6.170 7.418 7.951 6.440 6.407 5.853 5.307 36 6.330 7.550 6.262 8.075 5.519 8.169 7.472 8.454 6.600 9.278 9.047 8.332 6.111 7.348 8.045 6.357 6.366 5.821 5.246 37 6.250 7.448 6.199 7.995 5.453 8.114 7.431 8.385 6.530 9.227 9.013 8.300 6.005 7.312 7.873 6.274 6.304 5.755 5.170 38 6.865 7.285 6.044 7.393 5.306 7.983 7.343 7.939 6.005 9.124 8.952 8.254 5.450 7.137 7.650 5.821 6.136 5.624 4.978 39 5.766 6.403 5.397 7.260 4.853 7.226 6.740 7.554 6.257 8.369 8.793 8.098 5.616 6.187 6.683 5.713 5.456 4.905 4.483 40 6.231 7.387 6.137 7.587 5.426 7.687 7.044 8.297 6.572 8.747 7.711 7.101 6.017 7.049 7.732 6.232 6.160 5.575 5.053 41 6.290 7.591 6.304 7.913 5.546 8.059 7.417 8.517 6.663 9.210 8.776 8.082 6.123 7.277 7.967 6.357 6.324 5.755 5.129 42 6.349 7.693 6.409 7.995 5.559 8.169 7.514 8.635 6.768 9.330 8.962 8.254 6.146 7.365 8.077 6.440 6.443 5.870 5.225 43 6.379 7.774 6.451 8.046 5.586 8.235 7.583 8.711 6.817 9.415 9.047 8.332 6.132 7.418 8.108 6.523 6.552 5.935 5.287 44 6.399 7.815 6.472 8.117 5.599 8.268 7.597 8.706 6.817 9.433 9.114 8.394 6.194 7.435 8.155 6.523 6.593 5.968 5.287 45 6.399 7.836 6.451 8.158 5.573 8.257 7.597 8.672 6.769 9.433 9.114 8.394 6.170 7.435 8.123 6.481 6.572 5.951 5.287 46 6.399 7.754 6.409 8.117 5.546 8.213 7.541 8.577 6.684 9.364 9.003 8.347 6.123 7.418 8.045 6.419 6.490 5.853 5.211 47 6.270 7.632 6.304 8.056 5.453 8.125 7.439 8.449 6.551 9.261 8.990 8.285 6.040 7.365 7.951 6.294 6.345 5.722 5.105 48 6.152 7.448 6.137 7.913 5.346 7.994 7.346 8.223 6.362 9.124 8.928 8.223 5.899 7.260 7.826 6.108 6.130 5.543 4.957 49 5.598 7.121 5.885 7.709 5.093 7.763 7.155 7.573 5.655 8.884 8.793 8.098 5.203 7.074 7.492 5.547 5.840 5.265 4.710 50 5.667 6.183 5.138 6.893 4.653 6.331 6.354 7.104 5.856 7.839 8.489 7.818 5.498 6.072 6.496 5.443 5.120 4.545 4.180 51 5.975 6.877 5.676 7.179 4.999 7.330 6.713 7.637 5.900 8.335 7.373 6.790 5.639 6.855 7.372 5.650 5.622 4.970 4.593 52 5.815 6.774 5.620 7.260 4.893 7.458 6.796 7.602 5.711 8.438 8.286 7.631 5.557 6.908 7.435 5.505 5.539 4.889 4.504 53 5.697 6.591 5.473 7.138 4.719 7.336 6.657 7.416 5.487 8.268 8.252 7.600 5.427 6.803 7.341 5.318 5.374 4.741 4.339 54 5.489 6.305 5.257 6.852 4.479 7.105 6.423 7.135 5.194 7.975 8.066 7.428 5.214 6.644 7.169 5.027 5.126 4.529 4.120 55 5.123 5.917 4.943 6.506 4.200 6.787 6.105 6.751 4.731 7.580 7.761 7.140 4.896 6.346 6.856 4.533 4.733 4.218 3.917 56 4.638 5.407 4.503 6.076 3.760 6.272 5.591 6.210 4.270 7.066 7.371 6.696 4.471 5.871 6.370 4.155 4.299 3.875 3.454 57 4.045 4.795 3.986 5.343 3.266 5.680 5.166 5.556 3.696 6.414 6.713 6.183 3.929 5.344 5.760 3.573 3.782 3.450 3.021 58 3.323 4.061 3.372 4.589 2.760 4.912 4.439 4.721 2.982 5.574 5.986 5.513 3.232 4.641 4.930 2.838 3.163 2.927 2.465 59 2.443 3.183 2.618 3.712 2.106 3.969 3.646 3.627 2.051 4.528 5.124 4.719 2.312 3.779 3.913 2.057 2.480 2.273 1.826 60 2.186 2.021 1.655 2.590 1.680 2.719 2.597 2.621 2.009 3.224 4.058 3.730 1.876 2.549 2.598 1.807 1.612 1.409 1.206 61 1.612 2.673 2.108 3.100 1.760 2.752 2.555 1.968 1.351 3.173 2.790 2.570 1.105 2.303 2.301 1.122 1.984 1.848 1.366 MAP10 Date MWT press P/L HT D HT HFP 2
2/13/1975 2438 2250 144 134.5 num_det 15 H01 F02 D03 N05 B05 R08 L08 L09 N10 J10 L11 F11 N12 L14 J15 1 1.284 1.863 1.050 2.213 1.677 1.543 3.003 2.830 2.261 2.352 2.683 2.636 1.882 1.522 1.210 2 1.696 2.443 1.910 2.741 2.132 2.201 3.913 3.687 2.318 3.088 3.425 3.244 2.517 1.876 1.682 3 2.290 3.192 2.588 3.522 2.739 2.840 4.954 4.768 2.967 4.244 4.304 4.345 3.234 2.466 2.184 4 2.867 3.895 3.188 4.225 3.301 3.420 5.811 5.709 3.550 5.349 5.029 5.428 3.856 2.971 2.638 5 3.308 4.439 3.607 4.797 3.734 3.806 6.449 6.336 4.011 5.829 5.527 6.063 4.299 3.397 2.948 6 3.450 4.613 3.884 4.940 3.734 3.976 6.328 6.217 4.114 5.673 5.402 5.669 4.249 3.504 2.984 7 4.043 5.114 4.140 5.409 4.409 4.785 7.363 7.234 4.241 6.830 6.273 6.633 5.109 3.931 3.698 8 4.558 5.832 4.845 6.103 4.891 5.208 8.073 7.873 4.932 7.297 6.842 7.179 5.600 4.465 4.044 9 4.925 6.224 5.189 6.491 5.180 5.542 8.393 8.250 5.209 6.585 7.073 7.420 5.920 4.749 4.303 10 5.219 6.572 5.497 6.797 5.445 5.836 8.639 8.487 5.405 7.810 7.322 7.645 6.190 5.034 4.556 11 5.415 6.833 5.746 7.042 5.614 6.031 8.945 8.691 5.520 7.969 7.464 7.773 6.362 5.230 4.707 12 5.587 7.007 5.900 7.205 5.734 6.165 8.967 8.809 5.672 8.065 7.517 7.837 6.534 5.390 4.808 13 5.709 7.116 6.025 7.348 5.806 6.254 9.004 8.848 5.715 8.133 7.570 7.902 6.583 5.461 4.887 14 5.783 7.181 6.091 7.430 5.831 6.276 9.036 8.877 5.682 8.161 7.553 7.966 6.632 5.496 4.923 15 5.832 7.203 6.113 7.450 5.855 6.276 9.001 8.843 5.659 8.147 7.482 7.918 6.632 5.479 4.923 16 5.807 7.181 6.069 7.430 5.855 6.054 8.846 8.697 5.672 8.070 7.339 7.757 6.558 5.461 4.344 17 5.317 6.637 5.790 6.858 5.276 5.757 7.830 7.742 5.255 7.187 6.398 6.777 5.895 5.084 4.440 18 5.783 6.898 5.790 7.022 5.903 6.432 8.794 8.640 5.043 8.120 7.073 7.500 6.657 5.301 5.046 19 6.053 7.290 6.244 7.389 6.144 6.610 9.079 8.860 5.566 8.290 7.286 7.934 6.853 5.585 5.161 20 6.151 7.399 6.354 7.491 6.264 6.699 9.088 8.928 5.647 8.394 7.322 7.934 6.951 5.657 5.226 21 6.224 7.436 6.420 7.573 6.312 6.788 9.156 8.996 5.682 8.435 7.375 7.984 7.025 5.692 5.284 22 6.273 7.551 6.486 7.614 6.385 6.899 9.174 9.013 5.716 8.463 7.375 7.982 7.074 5.781 5.305 23 6.273 7.595 6.486 7.675 6.433 6.899 9.156 8.996 5.739 8.463 7.339 7.966 7.074 5.745 5.348 24 6.273 7.638 6.486 7.695 6.457 6.877 9.105 8.945 5.716 8.449 7.357 7.950 7.025 5.745 5.348 25 6.224 7.638 6.464 7.716 6.409 6.933 9.070 8.911 5.728 8.380 7.322 7.902 6.976 5.728 5.327 26 6.175 7.595 6.376 7.675 6.336 6.766 8.967 8.809 5.705 8.284 7.268 7.837 6.951 5.728 5.305 27 6.047 7.508 6.266 7.614 6.216 6.387 8.760 8.606 5.635 8.037 7.108 7.580 6.730 5.657 5.147 28 5.366 6.811 5.768 7.001 5.493 6.187 7.777 7.640 5.232 7.201 6.202 6.655 6.067 5.052 4.729 29 6.053 7.290 5.981 7.887 6.168 6.677 8.760 8.606 5.198 8.106 7.126 7.532 6.828 5.514 5.262 30 6.200 7.595 6.266 7.634 6.312 6.743 8.915 8.759 5.635 8.229 7.339 7.677 6.927 5.710 5.363 31 6.273 7.682 6.354 7.716 6.385 6.788 8.950 8.792 5.705 8.298 7.393 7.741 6.976 5.817 5.428 32 6.347 7.747 6.398 7.797 6.457 6.855 8.967 8.809 5.751 8.325 7.446 7.789 7.050 5.959 5.471 33 6.396 7.791 6.412 7.879 6.505 6.899 9.001 8.843 5.785 8.353 7.464 7.821 7.074 6.030 5.485 34 6.420 7.812 6.486 7.899 6.505 6.922 8.984 8.826 5.831 8.367 7.445 7.953 7.099 6.048 5.485 35 6.420 7.812 6.486 7.879 6.505 6.899 8.950 8.792 5.831 8.325 7.375 7.869 7.099 6.048 5.471 36 6.371 7.725 6.464 7.899 6.433 6.877 8.932 8.775 5.831 8.257 7.322 7.934 7.050 6.072 5.406 37 6.322 7.638 6.398 7.838 6.385 6.766 8.846 8.691 5.751 8.175 7.251 7.773 6.951 5.906 5.327 38 6.175 7.530 6.288 7.716 6.216 6.343 8.622 8.471 5.647 7.845 7.055 7.564 6.706 5.817 5.082 39 5.464 6.724 5.731 7.007 5.541 6.321 7.622 7.488 5.163 7.118 6.095 6.585 6.116 5.070 4.649 40 6.224 7.355 6.069 7.430 6.288 6.743 8.708 8.555 5.186 8.070 6.984 7.545 6.228 5.674 5.204 41 6.371 7.660 6.398 7.757 6.409 6.855 8.863 8.708 5.624 8.147 7.197 7.821 6.976 5.870 5.284 42 6.445 7.769 6.508 7.813 6.421 6.922 8.950 8.792 5.682 8.216 7.251 7.934 7.074 5.959 5.327 43 6.518 7.878 6.574 7.859 6.553 6.966 8.984 8.826 5.716 8.243 7.286 7.966 7.123 6.030 5.363 44 6.543 7.921 6.610 7.879 6.577 7.018 8.984 8.826 5.739 8.243 7.286 7.950 7.099 6.066 5.384 45 6.510 7.943 6.618 7.899 6.577 6.922 8.950 8.792 5.751 8.229 7.304 7.934 7.123 6.072 5.363 46 6.420 7.899 6.596 7.833 6.481 6.855 8.881 8.725 5.728 8.188 7.286 7.869 7.074 5.941 5.327 47 6.273 7.731 6.508 7.757 6.361 6.721 8.777 8.523 5.617 8.106 7.233 7.757 6.902 5.817 5.183 48 6.077 7.633 6.354 7.654 6.192 6.543 8.639 8.487 5.589 7.983 7.126 7.645 6.755 5.639 5.046 49 5.807 7.377 6.157 7.450 5.927 5.927 8.294 8.149 5.486 7.599 6.877 7.323 6.337 5.408 4.750 50 4.999 6.376 5.416 6.593 5.228 5.283 7.311 7.183 4.921 6.973 5.882 6.376 5.846 4.643 4.346 51 5.538 6.942 5.709 7.042 5.710 6.076 8.191 8.047 4.990 7.571 6.717 7.211 5.239 5.052 4.671 52 5.464 6.904 5.768 7.103 5.614 5.905 8.122 7.979 5.244 7.489 6.739 7.275 6.141 4.981 4.592 53 5.293 6.790 5.643 6.920 5.445 5.690 7.932 7.793 5.186 7.324 6.700 7.211 5.969 4.833 4.419 54 5.043 6.329 5.453 6.695 5.180 5.378 7.639 7.505 5.082 7.077 6.540 7.034 5.723 4.625 4.210 55 4.729 6.150 5.167 6.369 4.867 4.985 7.225 7.098 4.898 6.680 6.255 6.761 5.306 4.340 3.974 56 4.313 5.702 4.786 5.879 4.457 4.488 6.673 6.556 4.633 6.186 5.864 6.323 4.839 4.002 3.503 57 3.823 5.114 4.302 5.307 3.879 3.890 5.984 5.879 4.264 5.514 5.349 5.750 4.200 3.575 3.121 58 3.210 4.396 3.687 4.593 3.328 3.190 5.121 5.031 3.734 4.663 4.674 4.963 3.463 3.077 2.552 59 2.475 3.569 2.968 3.735 2.906 2.300 4.035 3.964 3.112 3.621 3.705 3.951 2.628 2.455 1.903 60 1.642 2.459 2.000 2.674 1.638 1.788 2.828 2.778 2.282 2.537 2.577 2.612 1.391 1.672 1.240 61 0.817 2.577 1.354 2.980 0.803 1.565 1.483 1.457 1.763 1.330 1.315 1.307 1.075 1.921 1.478 MAP13 Date MWT press P/L HT D HT HFP 3 4/14/1975 2420 2250 144 141.5 num_det 14 H01 F02 D03 N05 B05 R08 L08 L09 N10 L11 F11 N12 L14 J15 1 1.763 2.107 1.218 2.569 1.843 1.327 3.443 3.242 1.384 2.887 3.450 1.593 1.641 0.982 2 2.362 2.469 2.144 3.319 2.169 2.325 4.429 4.171 2.423 3.532 4.190 2.645 2.211 1.733 3 2.972 3.273 2.778 4.095 2.833 2.998 5.466 5.143 3.118 4.416 5.160 3.367 2.700 2.251 4 3.513 3.938 3.367 4.697 3.395 3.556 6.245 5.881 3.705 5.129 5.859 3.951 3.300 2.725 5 3.928 4.491 3.835 5.085 3.844 4.042 6.729 6.337 4.172 5.621 6.454 4.432 3.615 3.110 6 3.848 4.683 4.001 4.992 3.889 4.071 6.435 6.060 4.325 5.469 5.901 4.329 3.551 3.214 7 4.665 5.130 4.349 5.968 4.462 4.786 7.646 7.201 4.292 6.233 7.000 5.222 4.305 3.584 8 5.069 5.789 4.952 6.356 4.946 5.212 8.096 7.624 5.063 6.742 7.471 5.689 4.656 4.058 9 5.345 6.194 5.270 6.664 5.261 5.516 8.355 7.869 5.346 6.997 7.686 5.978 4.941 4.324 10 5.599 6.471 5.526 6.878 5.485 5.739 8.523 8.032 5.520 7.184 7.850 6.210 5.142 4.547 11 5.783 6.720 5.738 7.066 5.663 5.927 8.684 8.172 5.639 7.286 7.994 6.390 5.293 4.724 12 5.921 6.875 5.904 7.186 5.766 6.100 8.771 8.260 5.715 7.320 8.020 6.529 5.377 4.858 13 6.002 6.981 5.994 7.280 5.823 6.199 8.771 8.260 5.781 7.337 8.056 6.631 5.410 4.917 14 6.036 7.024 6.040 7.333 5.879 6.245 8.736 8.227 5.748 7.320 8.102 6.665 5.444 4.961 15 6.086 7.008 6.040 7.280 5.890 6.245 8.681 8.178 5.726 7.269 8.010 6.685 5.244 4.991 16 5.967 6.939 6.009 7.092 5.856 6.184 8.511 8.075 5.650 7.082 7.826 6.502 5.310 4.993 17 5.360 6.471 5.617 6.356 5.317 5.561 7.542 7.103 5.335 6.199 6.720 5.848 4.807 4.650 18 6.117 6.577 5.692 7.146 5.789 6.184 8.459 7.967 4.955 6.725 7.640 6.601 5.444 4.843 19 6.290 6.981 6.115 7.253 6.081 6.442 8.650 8.148 5.552 7.031 7.948 6.837 5.527 5.154 20 6.370 7.109 6.206 7.320 6.182 6.549 8.707 8.195 5.689 7.065 7.854 6.940 5.594 5.258 21 6.420 7.173 6.296 7.307 6.261 6.540 8.753 8.244 5.661 7.065 8.010 7.043 5.628 5.302 22 6.462 7.216 6.342 7.467 6.329 6.710 8.771 8.260 5.715 7.082 8.025 7.043 5.678 5.332 23 6.451 7.258 6.342 7.507 6.362 6.762 8.788 8.276 5.748 7.082 8.065 7.043 5.661 5.376 24 6.428 7.250 6.342 7.507 6.385 6.777 8.753 8.244 5.737 7.048 8.070 7.043 5.661 5.376 25 6.405 7.258 6.296 7.534 6.362 6.762 8.701 8.195 5.694 7.031 7.963 6.974 5.661 5.361 26 6.370 7.237 6.251 7.481 6.306 6.731 8.632 8.130 5.694 6.997 7.902 6.905 5.594 5.346 27 6.209 7.194 6.160 7.320 6.193 6.579 8.355 7.869 5.639 6.912 7.671 6.699 5.444 5.287 28 5.510 7.662 5.723 6.544 5.508 5.635 7.508 7.071 5.237 6.080 6.700 5.973 4.908 4.754 29 6.290 7.811 5.783 7.374 6.047 6.397 8.459 7.967 5.172 6.725 7.578 6.768 5.594 5.169 30 6.405 7.237 6.145 7.547 6.238 6.594 8.580 8.081 5.607 7.048 7.748 6.905 5.695 5.361 31 6.486 7.301 6.221 7.601 6.272 6.670 8.615 8.113 5.726 7.133 7.794 6.974 5.795 5.435 32 6.555 7.386 6.265 7.695 6.362 6.704 8.632 8.130 5.781 7.167 7.871 7.043 5.896 5.524 33 6.612 7.428 6.326 7.748 6.430 6.731 8.632 8.130 5.802 7.218 7.933 7.077 5.979 5.569 34 6.635 7.471 6.357 7.802 6.430 6.607 8.667 8.162 5.868 7.207 7.948 7.112 5.979 5.583 35 6.547 7.428 6.372 7.789 6.452 6.922 8.667 8.162 5.868 7.150 8.025 7.112 5.996 5.569 36 6.635 7.386 6.357 7.762 6.430 6.807 8.632 8.130 5.968 7.116 8.071 7.009 5.946 5.539 37 6.578 7.322 6.311 7.703 6.373 6.777 8.598 8.097 5.802 7.048 7.902 6.940 5.879 5.465 38 6.324 7.216 6.236 7.467 6.261 6.655 8.286 7.804 5.694 6.895 7.702 6.665 5.628 5.332 39 5.806 6.556 5.707 6.731 5.530 5.695 7.542 7.103 5.140 6.072 6.585 6.115 5.109 4.754 40 6.578 6.960 5.964 7.521 6.250 6.594 8.563 8.064 5.281 6.691 7.763 6.871 5.745 5.183 41 6.716 7.343 6.326 7.655 6.396 6.777 8.700 8.195 5.672 6.900 8.010 7.009 5.896 5.332 42 6.808 7.514 6.432 7.721 6.497 6.898 8.771 8.200 5.770 7.065 8.118 7.112 5.963 5.391 43 6.877 7.520 6.523 7.748 6.564 6.974 8.840 8.325 5.813 7.150 8.164 7.215 6.030 5.435 44 6.900 7.705 6.568 7.802 6.587 7.005 8.857 8.341 5.824 7.150 8.195 7.249 6.063 5.480 45 6.854 7.726 6.583 7.829 6.632 7.020 8.822 8.309 5.846 7.167 8.179 7.249 6.063 5.494
46 6.797 7.684 6.568 7.802 6.587 7.005 8.788 8.276 5.846 7.167 8.113 7.180 5.979 5.450 47 6.847 7.620 6.508 7.748 6.474 6.929 8.719 8.211 5.802 7.150 8.040 7.077 5.845 5.361 48 6.462 7.492 6.372 7.601 6.317 6.777 8.580 8.001 5.737 7.082 7.933 6.905 5.645 5.258 49 6.048 7.307 6.221 7.307 6.081 6.513 8.096 7.624 5.607 6.895 7.640 6.459 5.310 5.109 50 5.622 6.385 5.572 6.544 5.272 5.683 7.580 7.119 4.987 5.944 7.608 6.047 4.841 4.354 51 6.086 6.790 5.783 7.253 5.868 6.260 8.236 7.804 5.194 6.657 7.568 6.493 5.209 4.858 52 5.944 6.896 5.904 7.126 5.811 6.215 8.234 7.755 5.444 6.810 7.671 6.390 5.109 4.828 53 5.760 6.747 5.783 7.026 5.631 6.063 8.027 7.559 5.389 6.759 7.625 6.150 4.924 4.724 54 5.433 6.534 5.602 6.745 5.429 5.835 7.733 7.232 5.292 6.640 7.471 5.944 4.707 4.547 55 5.092 6.194 5.330 6.356 5.092 5.500 7.335 6.908 5.118 6.386 7.193 5.463 4.388 4.265 56 4.654 5.726 4.963 5.794 4.687 5.060 6.747 6.354 4.868 6.029 6.793 4.947 4.037 3.954 57 4.066 5.193 4.454 5.179 4.170 4.528 6.003 5.653 4.498 5.553 6.101 4.329 3.584 3.525 58 3.375 4.491 3.830 4.363 3.563 3.905 5.086 4.750 3.999 4.925 5.391 3.607 3.075 3.021 59 2.500 3.682 3.141 3.412 2.799 3.115 3.675 3.649 3.358 4.059 4.313 2.680 2.311 2.414 60 2.052 2.575 2.250 2.462 1.321 2.127 3.131 2.949 2.543 2.836 2.850 2.892 1.608 1.629 61 1.229 2.746 2.144 3.198 0.888 2.705 2.900 2.737 1.891 1.483 1.412 1.202 1.826 2.044 MAP17 Date MWT press P/L HT D HT HFP 4 6/19/1975 2439 2250 144 142.7 num_det 17 H01 F02 D03 N05 B05 N07 R08 N08 L08 L09 N10 D10 L11 F11 N12 L14 J15 1 1.087 2.418 1.307 2.735 1.879 2.088 1.328 2.224 3.798 2.860 1.740 3.247 2.879 3.071 2.120 1.771 0.970 2 2.231 2.617 2.319 3.534 2.332 3.436 2.350 3.959 4.414 3.849 2.958 3.545 3.651 4.040 2.779 2.277 1.758 3 3.314 3.400 3.033 4.285 2.983 4.262 3.085 5.199 5.294 5.079 3.526 4.696 4.503 5.278 3.453 2.093 2.336 4 4.009 4.104 3.616 4.860 3.512 4.847 3.705 5.913 6.150 5.706 4.153 5.253 5.120 5.908 4.075 3.416 2.849 5 4.524 4.002 4.064 5.244 3.904 5.241 4.207 6.393 6.712 6.164 4.452 5.506 5.531 6.100 4.413 3.740 3.271 6 4.692 4.832 4.141 5.129 3.823 5.072 4.309 6.114 5.517 5.810 4.153 5.190 5.213 5.832 4.284 3.542 3.497 7 4.808 5.124 4.557 6.107 4.503 5.581 4.743 7.297 7.335 6.851 4.989 6.127 6.147 6.385 5.127 4.355 3.633 8 5.534 5.907 5.126 6.446 4.871 6.329 5.303 7.721 7.947 7.289 5.301 6.405 6.540 7.198 5.507 4.743 4.251 9 5.787 6.241 5.419 6.715 5.124 6.321 5.673 7.355 8.210 7.455 5.536 6.532 6.609 7.340 5.782 4.936 4.552 10 5.976 6.503 5.650 6.894 5.309 6.658 5.952 8.122 8.375 7.543 5.601 6.633 6.857 7.454 5.934 5.196 4.740 11 6.113 6.751 5.835 7.086 5.447 6.759 6.136 8.245 8.473 7.705 5.764 6.696 6.914 7.525 6.086 5.326 4.929 12 6.186 6.848 5.988 7.163 5.539 6.795 6.247 8.290 8.485 7.726 5.816 6.722 6.932 7.554 6.168 5.456 5.030 13 6.228 6.945 6.035 7.227 5.585 6.850 6.340 8.357 8.473 7.726 5.774 6.747 6.932 7.582 6.204 5.456 5.125 14 6.239 6.969 6.050 7.278 5.608 6.859 6.386 8.368 8.473 7.684 5.754 6.747 6.895 7.592 6.192 5.456 5.170 15 6.229 6.969 6.050 7.252 5.573 6.823 6.371 8.323 8.387 7.622 5.723 6.633 6.839 7.454 6.130 5.439 5.200 16 6.770 6.890 6.004 7.022 5.516 6.640 6.309 8.100 8.216 7.393 5.526 6.317 6.633 7.098 6.028 5.381 5.105 17 5.818 6.435 5.527 6.421 4.940 5.936 5.875 7.241 7.275 6.352 4.702 5.709 5.699 6.416 5.507 4.776 4.899 18 5.702 6.508 5.804 7.137 5.573 6.731 6.123 8.212 8.033 7.208 5.485 6.401 6.521 7.283 6.227 5.391 4.869 19 6.186 6.896 6.127 7.214 5.792 6.804 6.495 8.307 8.326 7.435 5.650 6.671 6.671 7.407 6.379 5.536 5.300 20 6.249 6.993 6.204 7.316 5.907 6.859 6.650 8.363 8.424 7.435 5.671 6.671 6.671 7.497 6.484 5.601 5.420 21 6.313 7.006 6.266 7.355 5.965 6.951 6.712 8.479 8.461 7.476 5.723 6.671 6.708 7.497 6.520 5.684 5.502 22 6.365 7.115 6.296 7.431 6.071 6.973 6.774 8.513 8.461 7.476 5.785 6.722 6.708 7.554 6.560 5.698 5.532 23 6.380 7.133 6.312 7.420 6.024 6.930 6.882 8.490 8.451 7.435 5.704 6.709 6.671 7.539 6.578 5.690 5.547 24 6.376 7.103 6.296 7.521 6.046 6.930 6.913 8.490 8.412 7.425 5.754 6.658 6.671 7.402 6.555 5.650 5.562 25 6.344 7.163 6.281 7.521 6.000 6.960 6.882 8.490 8.363 7.455 5.754 6.633 6.689 7.454 6.473 5.650 5.577 26 6.334 7.115 6.219 7.457 5.942 6.914 6.836 8.435 8.302 7.393 5.702 6.544 6.633 7.354 6.430 5.634 5.532 27 6.271 7.091 6.090 7.043 5.804 6.622 6.727 8.072 8.106 7.135 5.516 6.046 6.446 6.828 6.130 5.504 5.487 28 5.829 6.362 5.404 6.753 5.170 6.128 6.045 7.475 7.128 6.331 4.865 5.924 5.680 6.657 5.700 4.873 5.004 29 5.892 6.896 5.973 7.431 5.830 6.850 6.417 8.357 8.002 7.372 5.599 6.456 6.675 7.255 6.356 5.569 5.300 30 6.323 7.212 6.142 7.503 5.953 6.997 6.681 8.535 8.314 7.539 5.754 6.544 6.764 7.354 6.473 5.747 5.502 31 6.407 7.285 6.204 7.585 5.988 7.079 6.758 8.685 8.363 7.622 5.805 6.582 6.839 7.397 6.531 5.844 5.668 32 6.491 7.382 6.250 7.738 6.046 7.179 6.805 8.758 8.399 7.684 5.876 6.643 6.895 7.460 6.683 5.909 5.743 33 6.534 7.382 6.296 7.730 6.102 7.234 6.851 8.825 8.424 7.705 5.929 6.709 6.914 7.539 6.637 6.006 5.803 34 6.565 7.406 6.327 7.815 6.138 7.262 6.898 8.859 8.461 7.684 5.950 6.747 6.895 7.582 6.707 6.054 5.803 35 6.586 7.358 6.343 7.853 6.138 7.243 6.944 8.836 8.436 7.643 5.981 6.848 6.857 7.696 6.730 6.071 5.803 36 6.565 7.309 6.327 7.828 6.126 7.179 6.960 8.758 8.399 7.607 5.950 6.760 6.820 7.596 6.613 6.038 5.780 37 6.535 7.285 6.296 7.700 6.080 7.134 6.960 8.702 8.387 7.539 5.807 6.071 6.764 7.497 6.496 5.984 5.698 38 6.430 7.163 6.219 7.214 5.815 6.614 6.867 8.312 8.106 7.125 5.588 6.038 6.446 6.785 6.122 5.779 5.562 39 5.787 6.386 5.465 7.176 5.504 6.512 6.138 7.944 7.275 6.477 5.051 6.266 5.811 7.041 6.028 5.110 4.974 40 6.144 7.115 6.235 7.674 6.103 7.198 6.743 8.731 8.302 7.476 5.774 6.810 6.708 7.653 6.566 5.060 5.426 41 6.407 7.431 6.435 7.764 6.195 7.259 6.901 8.892 8.497 7.607 5.919 6.937 6.820 7.795 6.695 6.006 5.637 42 6.431 7.600 6.558 7.863 6.310 7.362 7.084 8.981 8.563 7.684 5.921 7.073 6.895 7.881 6.836 6.152 5.713 43 6.523 7.722 6.685 7.853 6.368 7.472 7.208 9.115 8.644 7.768 6.033 7.076 6.970 7.952 6.941 6.233 5.788 44 6.576 7.819 6.697 7.956 6.414 7.509 7.316 9.150 8.705 7.789 6.074 7.046 6.988 7.952 6.988 6.233 5.810 45 6.597 7.843 6.712 8.007 6.437 7.490 7.316 9.138 8.705 7.851 6.084 7.089 7.044 7.966 6.929 6.265 5.842 46 6.628 7.819 6.712 8.007 6.391 7.454 7.316 9.093 8.081 7.851 6.084 7.028 7.044 7.909 6.906 6.200 5.933 47 6.649 7.770 6.650 7.969 6.287 7.399 7.235 9.026 8.632 7.830 6.022 6.975 7.026 7.838 6.812 6.135 5.758 48 6.639 7.649 6.558 7.815 6.172 7.298 7.208 8.908 8.534 7.747 5.950 6.861 6.951 7.710 6.637 5.941 5.698 49 6.544 7.431 6.343 7.176 5.654 6.786 7.000 8.273 8.179 7.268 5.578 6.073 6.321 6.757 6.040 5.560 5.562 50 5.787 6.362 5.511 7.303 5.643 6.667 6.107 8.133 7.482 6.831 5.186 6.494 6.129 7.298 6.168 5.099 4.838 51 6.355 7.163 6.189 7.636 5.396 7.106 6.743 8.669 8.375 7.622 5.795 6.610 6.830 7.653 6.414 5.536 5.330 52 6.502 7.212 6.219 7.572 5.792 7.040 6.774 8.624 8.436 7.584 5.616 6.848 6.895 7.693 6.297 5.422 5.306 53 6.523 7.094 6.127 7.431 5.600 6.951 6.665 8.479 8.338 7.622 5.734 6.758 6.839 7.639 6.130 5.323 5.245 54 6.401 6.872 5.942 7.124 5.366 6.731 6.479 8.212 8.155 7.455 5.630 6.620 6.609 7.440 5.876 5.132 5.125 55 6.302 6.556 5.650 6.741 5.009 6.437 6.169 7.877 7.874 7.060 5.392 6.279 6.334 7.056 5.490 4.840 4.854 56 5.455 6.046 5.200 6.191 4.560 6.009 5.735 7.330 7.421 6.581 5.051 5.772 5.903 6.487 5.070 4.484 4.507 57 5.408 5.488 4.695 5.462 3.938 5.396 5.208 6.583 6.737 5.934 4.514 5.107 5.307 5.733 4.356 3.902 4.025 58 4.734 4.735 4.078 4.579 3.213 4.463 4.495 5.445 5.820 5.060 3.903 4.203 4.541 4.723 3.582 3.400 3.467 59 3.861 3.812 3.171 3.415 2.246 3.347 3.612 4.083 4.585 3.853 2.534 2.806 3.457 3.243 2.517 2.623 2.709 60 2.704 2.550 2.124 3.159 2.441 3.055 2.480 3.726 3.277 2.374 2.118 2.071 3.570 3.002 2.660 1.862 1.869 61 3.493 3.400 2.771 2.993 1.693 2.451 3.153 2.990 3.307 1.590 1.797 1.760 1.427 1.921 1.330 2.165 2.427 MAP20 Date time MWT press P/L HT D HT HFP 5 9/15/1975 2441 2250 144 135.8 num_det 15 F02 D03 N05 L06 N07 J07 R08 N08 N10 L11 F11 N12 C12 L14 J15 1 2.450 1.357 2.935 3.044 2.002 2.893 1.331 2.164 1.660 2.797 2.912 1.450 1.423 1.914 1.371 2 3.164 2.372 3.668 3.578 3.559 3.520 2.349 3.846 2.771 3.457 3.576 2.588 2.566 2.467 2.320 3 3.904 3.046 4.415 4.454 4.672 4.305 3.056 5.043 3.451 4.254 4.239 3.414 3.428 3.084 2.847 4 4.526 3.652 5.023 5.170 5.040 5.258 3.723 5.795 4.070 4.909 5.265 3.930 4.021 3.567 3.309 5 4.920 4.108 5.418 5.665 5.164 5.777 4.227 6.262 4.470 5.373 6.065 4.266 4.336 3.910 3.563 6 4.741 4.216 5.151 5.460 4.910 5.821 4.305 5.953 4.450 5.119 5.557 4.134 4.154 3.751 3.638 7 5.715 4.446 6.181 6.214 5.337 6.261 4.926 7.078 4.640 5.842 6.669 4.839 4.997 4.466 4.361 8 6.099 5.062 6.550 6.731 6.192 6.820 5.455 7.508 5.334 6.330 7.012 5.247 5.314 4.800 4.639 9 6.381 5.323 6.805 6.925 6.383 7.194 5.765 7.739 5.575 6.545 7.163 5.459 5.539 5.054 4.851 10 6.586 5.523 6.983 7.054 6.519 7.432 6.029 7.905 5.695 6.662 7.300 5.013 5.737 5.197 5.070 11 6.765 5.708 7.135 7.151 6.610 7.635 6.105 8.075 5.796 6.740 7.382 5.710 5.843 5.372 5.124 12 6.868 5.816 7.250 7.151 6.692 7.643 6.325 8.114 5.806 6.740 7.362 5.777 5.896 5.404 5.215 13 6.893 5.877 7.263 7.173 6.728 7.895 6.371 8.158 5.876 6.779 7.437 5.829 5.909 5.467 5.245 14 6.919 5.908 7.313 7.151 6.737 7.603 6.434 8.169 5.870 6.760 7.437 5.856 5.896 5.551 5.245 15 6.868 5.862 7.326 7.097 6.710 7.669 6.449 8.136 5.916 6.682 7.327 5.840 5.843 5.335 5.260 16 6.714 5.831 7.161 6.989 6.546 7.403 6.371 7.938 5.735 6.545 7.000 5.737 5.711 5.372 5.070 17 5.894 5.462 6.337 6.171 5.764 6.688 5.812 6.990 5.223 5.607 6.134 5.080 5.063 4.736 4.775 18 6.765 5.523 7.148 6.828 6.537 7.077 6.154 7.927 5.223 6.232 7.135 5.846 5.790 5.363 5.336 19 6.893 5.939 7.237 7.046 6.692 7.520 6.542 8.114 5.695 6.486 7.390 5.962 6.001 5.515 5.473 20 6.970 6.047 7.364 7.130 6.755 7.610 6.651 8.191 5.745 6.545 7.300 6.001 6.001 5.630 5.480 21 7.043 6.100 7.420 7.173 6.810 7.640 6.775 8.258 5.796 6.604 7.410 6.147 6.226 5.610 5.533 22 7.124 6.154 7.530 7.205 6.856 7.673 6.853 8.313 5.876 6.584 7.423 6.167 6.206 5.658 5.564 23 7.150 6.200 7.555 7.173 6.874 7.704 6.900 8.335 5.896 6.565 7.437 6.214 6.292 5.674 5.609 24 7.150 6.154 7.593 7.119 6.823 7.724 6.962 8.345 5.826 6.565 7.390 6.107 6.279 5.626 5.624 25 7.150 6.154 7.619 7.130 6.865 7.690 6.931 8.334 5.876 6.565 7.355 6.127 6.239 5.594 5.624 26 7.124 6.047 7.530 7.087 6.837 7.543 6.884 8.291 5.846 6.525 7.300 6.081 6.173 5.578 5.579 27 7.045 5.985 7.302 6.979 6.687 7.432 6.775 8.043 5.775 6.389 6.302 5.962 6.075 5.419 5.336
28 6.125 5.416 6.512 6.104 5.837 6.491 5.983 7.070 5.233 5.510 6.312 5.233 5.314 4.927 5.094 29 7.062 5.739 7.428 6.893 6.737 7.197 6.604 8.160 5.414 6.329 7.135 5.922 6.075 5.594 5.594 30 7.175 5.970 7.686 7.130 6.892 7.520 6.806 8.357 5.206 6.643 7.231 6.028 6.147 5.685 5.685 31 7.252 5.903 7.631 7.216 6.974 7.626 6.884 8.456 5.926 6.721 7.300 6.134 6.239 5.849 5.791 32 7.329 6.047 7.746 7.216 7.044 7.604 6.915 8.577 5.936 6.700 7.368 6.214 6.305 5.912 5.852 33 7.355 6.108 7.860 7.240 7.137 7.759 6.946 8.654 6.027 6.919 7.423 6.293 6.358 5.944 5.867 34 7.329 6.108 7.860 7.291 7.174 7.820 7.009 8.699 6.098 6.779 7.465 6.280 6.371 5.992 5.867 35 7.252 6.139 7.937 7.302 7.156 7.830 7.024 8.677 6.037 6.760 7.492 6.306 6.399 6.055 5.852 36 7.227 6.154 7.937 7.270 7.107 7.704 7.040 8.670 6.107 6.740 7.500 6.240 6.371 6.089 5.776 37 7.207 6.139 7.873 7.216 7.065 7.756 7.009 8.566 6.037 6.682 7.396 6.147 6.305 5.933 5.700 38 7.022 6.093 7.631 7.033 6.865 7.603 6.869 8.324 5.896 6.486 6.998 6.028 6.094 5.642 5.276 39 6.304 5.477 6.856 6.171 6.110 6.578 6.045 7.420 5.223 5.568 6.477 5.313 5.400 5.181 5.200 40 7.252 5.985 7.746 7.005 7.010 6.457 6.720 8.500 5.565 6.447 7.451 6.055 6.239 5.830 5.670 41 7.457 6.277 7.899 7.302 7.156 7.350 6.977 8.677 5.986 6.662 7.670 6.253 6.371 5.992 5.791 42 7.631 6.431 7.949 7.388 7.228 7.997 7.036 8.765 6.097 6.760 7.739 6.346 6.464 6.135 5.867 43 7.713 6.539 8.073 7.431 7.319 8.121 7.195 8.875 6.147 6.877 7.794 6.505 6.570 6.182 5.927 44 7.816 6.600 8.077 7.442 7.365 8.160 7.242 8.930 6.187 6.877 7.835 6.571 6.623 6.182 5.958 45 7.842 6.600 8.140 7.496 7.419 8.212 7.257 8.996 6.238 6.916 7.835 6.545 6.670 6.230 5.958 46 7.842 6.616 8.204 7.496 7.383 8.206 7.288 8.952 6.258 6.955 7.808 6.545 6.609 6.198 5.927 47 7.739 6.585 8.204 7.474 7.319 8.150 7.319 8.875 6.248 6.986 7.794 6.465 6.543 6.135 5.932 48 7.552 6.508 8.140 7.420 7.246 8.070 7.257 8.787 6.207 6.916 7.670 6.412 6.451 5.944 5.776 49 7.303 6.354 7.345 7.205 7.070 7.792 7.117 8.500 6.087 6.682 7.000 6.240 6.213 5.578 5.412 50 6.509 5.539 6.995 6.333 6.246 6.613 6.200 7.574 5.273 5.744 6.306 5.459 5.539 5.229 5.291 51 7.300 6.139 7.975 7.280 7.107 7.532 6.902 8.610 5.796 6.721 7.629 6.161 6.226 5.042 5.670 52 7.406 6.277 8.000 7.399 7.128 7.793 7.040 8.643 6.067 6.897 7.739 6.167 6.279 5.630 5.670 53 7.303 6.231 7.971 7.410 7.065 7.761 6.977 8.566 6.104 6.935 7.753 6.031 6.200 5.515 5.473 54 7.124 6.100 7.733 7.313 6.930 7.689 6.838 8.379 6.037 6.958 7.657 5.975 6.067 5.302 5.321 55 6.791 5.893 7.415 7.130 6.622 7.406 6.573 8.114 5.896 6.643 7.396 5.777 5.790 5.070 5.083 56 6.355 5.570 6.983 6.828 6.355 7.025 6.154 7.706 5.655 6.291 6.957 5.379 5.393 4.736 4.669 57 5.766 5.096 6.321 6.322 5.846 6.506 5.610 7.089 5.283 5.783 6.298 4.942 4.878 4.275 4.184 58 4.997 4.477 5.444 5.633 5.146 5.775 4.925 6.240 4.721 5.000 5.379 4.279 4.204 3.655 3.502 59 3.998 3.646 4.308 4.599 4.137 4.751 4.025 5.076 3.998 4.181 4.130 3.445 3.384 2.329 2.683 60 2.742 2.508 3.091 3.209 2.987 3.353 2.732 3.561 2.903 2.313 3.040 2.332 2.274 2.066 2.047 61 3.000 2.954 4.566 3.856 3.964 2.703 3.520 4.807 2.300 1.420 1.670 2.941 2.907 2.336 2.130