Text

Benchmark Calculation for Turkey Point, Unit 3, Cycles 1-3 Using the Scale 6.3/Polaris–PARCS v3.4.2 Code Package
	ML25113A264
Person / Time
Site:	Turkey Point
Issue date:	12/31/2025
From:	Jeon B, Kim K, Wieselquist W; Oak Ridge
To:	; Office of Nuclear Regulatory Research
References
	DE–AC05–00OR22725 ORNL/TM–2023/3061
	Download: ML25113A264 (1)
	v • d • e

ORNL/TM-2023/3061 ORNL IS MANAGED BY UT-BATTELLE LLC FOR THE US DEPARTMENT OF ENERGY Benchmark Calculation for Turkey Point Unit 3 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-2023/3061 Nuclear Energy and Fuel Cycle Division BENCHMARK CALCULATION FOR THE TURKEY POINT UNIT 3 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 37831 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 TP3 CORE..................................................................................... 3 2.2.1 Design Data.................................................................................................................... 3 2.2.2 Measured Data............................................................................................................. 18

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......................................... 28 3.2 BENCHMARK RESULTS....................................................................................................... 29 3.2.1 HZP Physics Tests....................................................................................................... 29 3.2.2 HFP Results................................................................................................................. 29

4.

CONCLUSION................................................................................................................................... 39

5.

REFERENCES................................................................................................................................... 40 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 FLUX MAPS FOR PWRs............................................... D-1

iv LIST OF FIGURES Figure 2.1. Flowchart of the Polaris-GenPMAXS-PARCS procedure........................................................ 2 Figure 2.2. Type 1, 2, 3, 4, 5A, and 5B fuel assembly configurations without BP..................................... 10 Figure 2.3. Layout of fuel assemblies and BPs in TP3 cycle 1................................................................... 12 Figure 2.4. Layout of fuel assemblies and BPs in TP3 cycle 2................................................................... 13 Figure 2.5. Layout of fuel assemblies and BPs in TP3 cycle 3................................................................... 15 Figure 2.6. Layout of control banks in TP3 cycles 1-3.............................................................................. 16 Figure 2.7. Core instrumentation locations in TP3 cycles 1-3................................................................... 17 Figure 2.8. Power and D bank position history for TP3 cycle 1................................................................. 18 Figure 2.9. Power and D bank position history for TP3 cycle 2................................................................. 19 Figure 2.10. Power and D bank position history for TP3 cycle 3............................................................... 19 Figure 3.1. Polaris models for reflectors..................................................................................................... 26 Figure 3.2. TP3 cycle 1 HFP boron letdown comparison........................................................................... 30 Figure 3.3. TP3 cycle 2 HFP boron letdown comparison........................................................................... 31 Figure 3.4. TP3 cycle 3 HFP boron letdown comparison........................................................................... 31 Figure 3.5. Boron worths as a function of burnup for TP3......................................................................... 32 Figure 3.6. Enthalpy rise hot channel factors for TP3 cycle 1.................................................................... 32 Figure 3.7. Enthalpy rise hot channel factors for TP3 cycle 2.................................................................... 33 Figure 3.8. Enthalpy rise hot channel factors for TP3 cycle 3.................................................................... 33 Figure 3.9. Comparison of the HFP flux maps for TP3.............................................................................. 35 Figure 3.10. Axial 1D flux map comparison for the TP3 cycle 1............................................................... 37 Figure 3.11. Axial 1D flux map comparison for the TP3 cycle 2............................................................... 37 Figure 3.12. Axial 1D flux map comparison of core (left) and F-8 assembly (right) for the TP3 cycle 2 at 0.06 MWd/kgU............................................................................................................. 38 Figure 3.13. Axial 1D flux map comparison for the TP3 cycle 3............................................................... 38

v LIST OF TABLES Table 2.1. Programs used in the benchmark calculations............................................................................. 2 Table 2.2. Specification of the TP3 core....................................................................................................... 3 Table 2.3. Specification of the TP3 fuel assemblies and reflectors.............................................................. 4 Table 2.4. Thermal expansion coefficients................................................................................................... 5 Table 2.5. Atomic number densities for UO2 fuels....................................................................................... 6 Table 2.6. Atomic number densities for structural materials (1/2)............................................................... 7 Table 2.6. Atomic number densities for structural materials (2/2)............................................................... 9 Table 2.7. Assembly types for TP3 cycles 1-3........................................................................................... 11 Table 2.8. TP3 core axial configurations.................................................................................................... 11 Table 2.9. TP3 cycle 1-3 operational history............................................................................................. 20 Table 2.10. In-core detector data................................................................................................................ 21 Table 3.1. History cases for each assembly type........................................................................................ 22 Table 3.2. Branch states for assembly type without and with BA.............................................................. 24 Table 3.3. Branch states for reflectors........................................................................................................ 25 Table 3.4. Polaris input and output files for TP3........................................................................................ 25 Table 3.5. GenPMAXS input and output files for TP3............................................................................... 27 Table 3.6. PARCS input and output files for TP3....................................................................................... 28 Table 3.7. Comparison of the control bank and boron worth for TP3........................................................ 29 Table 3.8. Comparison of the critical boron concentrations for TP3 cycle 1............................................. 34 Table 3.9. Comparison of the critical boron concentrations for TP3 cycle 2............................................. 34 Table 3.10. Comparison of the critical boron concentrations for the TP3 cycle 3...................................... 34 Table 3.11. Comparison of the flux maps for TP3...................................................................................... 36

vi ABBREVIATIONS BA Burnable Absorber BOC beginning of cycle BP Burnable Poison CR Control Rod ENDF Evaluated Nuclear Data File EPRI Electric Power Research Institute FP&L Florida Power and Light Company HFP Hot Full Power HZP Hot Zero Power Inc-718 Inconel-718 ORNL Oak Ridge National Laboratory PWR Pressurized Water Reactor SS-304 stainless steel 304 TP3 Turkey Point Unit 3 UM University of Michigan 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 Benchmark calculations were performed for Turkey Point Unit 3 cycles 1-3 to validate the SCALE 6.3/Polaris-PARCS v3.4.2 code with the ENDF/B-VII.1 56-group library by comparing the simulated results with the measured data. The benchmark results will be used in evaluating the SCALE/Polaris-PARCS code packages uncertainties for pressurized water reactor physics analysis. That future analysis will include key nuclear parameters such as reactivity, control bank worth, temperature coefficients, and pin and assembly power peaking factors. The present document details plant and fuel design specifications and input data for SCALE/Polaris, GenPMAXS, and PARCS. Additional details are provided with respect to the input and output files produced for the benchmark calculations. The benchmark results are summarized such that they can be used in evaluating uncertainties with other benchmark results for key nuclear parameters.

1.

INTRODUCTION Turkey Point Unit 3 (TP3) [1] is a Westinghouse Electric Company three-loop pressurized water reactor (PWR) operated by the Florida Power and Light Company (FP&L). The reactor began operation at 2,200 MWth (693 MWe) power in 1972. The study documented in this report performed benchmark calculations on the TP3 benchmark problems to validate the SCALE 6.3/Polaris [2, 3]-GenPMAXS v6.3.1 [4]-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 first briefly overviewed, 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) operating conditions, the design data were thermally expanded axially and radially to prepare input data for Polaris, GenPMAXS, and PARCS. 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 TP3 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 showing the Polaris-GenPMAXS-PARCS code packages use in simulating PWRs. The SCALE/Polaris code, developed by Oak Ridge National Laboratory, is a 2D lattice physics code that generates 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, and various branch calculations were performed 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 insertion. Once cross section table sets are prepared for all types of fuel assemblies and radial and axial reflectors, whole-core nodal diffusion calculations can be 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 Polaris-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 computer programs and the 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 TP3 CORE 2.2.1 Design Data Table 2.2 provides key design specifications of the TP3 core for cycles 1-3. Table 2.3 provides specifications of the TP3 fuel assemblies and radial and axial reflectors. Because the EPRI report [1] does not provide detailed specifications for top and bottom reflectors, the Watts Bar Unit 1 axial reflector data

[7] were used in this benchmark calculation. Moreover, 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 25°C 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 TP3 core Parameter Design data Hot dimension Core power Operating pressure Core flow rate Inlet temperature 2200 MWth 2250 psia (15.51 MPa) 44.0 x 106 kg/hr 540°F (282.22°C)

Number of fuel assemblies Assembly 1 (cycle 1)

Assembly 2 (cycle 1)

Assembly 3 (cycle 1)

Assembly 4 (cycle 2)

Assembly 5A (cycle 3)

Assembly 5B (cycle 3)

Initial core loading (cycle 1) 157 1.86 w/o 235U 15 x 15 2.56 w/o 235U 15 x 15 3.10 w/o 235U 15 x 15 2.55 w/o 235U 15 x 15 2.61 w/o 235U 15 x 15 2.90 w/o 235U 15 x 15 70.4 MTU Pin lattice configuration Active fuel length Number of fuel rods Number of grid spacers Assembly pitch Pin pitch Fuel pellet radius Cladding inner/outer radius 15 x 15 365.76000 cm 204 7 (Inconel-718, 6 in the active zone) 21.50364 cm 1.43000 cm 0.46469 cm 0.47422/0.53594 cm 368.15000 cm 21.60590 cm 1.43511 cm 0.46773 cm 0.47500/0.53682 cm Number of control banks Control rod material (lower)

Burnable poison material 53 AgInCd Borosilicate glass, 12.5 w/o B2O3

4 Table 2.3. Specification of the TP3 fuel assemblies and reflectors Item Material Cold Density (g/cm3)

Thermal exp.

coeff. (°)

Subitem (unit)

Dimension (cm)

Cold Hot Assembly pitch (cm)

SS-304 8.030 1.73E-05 21.50364 21.60590 Pin pitch (cm)

Inc-718 8.192 1.30E-05 1.43000 1.43511 Assembly gap (cm) 0.02682 0.03962 Fuel UO2 1.05E-05 Outer radius (cm) 0.46469 0.46773 Active height (cm) 365.76000 368.15290 Pyrex He Outer radius (cm) 0.28160 SS-304 8.030 0.30040 He 0.32070 B2O3-SiO2 2.260 0.50840 He 0.52070 SS-304 8.030 0.55820 Clad Zr-4 6.560 6.00E-06 Inner radius (cm) 0.47422 0.47500 6.00E-06 Outer radius (cm) 0.53594 0.53682 Instrument tube Zr-4 6.560 6.00E-06 Inner radius(cm) 0.60706 0.60806 6.00E-06 Outer radius(cm) 0.69342 0.69456 Guide tube Zr-4 6.560 6.00E-06 Inner radius(cm) 0.60706 0.60806 6.00E-06 Outer radius(cm) 0.69342 0.69456 Spacer grid Inc-718 8.192 Weight (g) 787.5 Height (cm) 3.81000 Volume (g/cm3) 96.13037 Radial reflector SS-304 8.030 Water gap (cm) 0.15240 Baffle thick. (cm) 2.54000 Top reflector Zr-4(29*), SS-304(55),

H2O(16)

Plenum (cm) 8.55600 Zr-4(23), SS-304(45), Inc-718(20), H2O(12)

Plenum + Grid (cm) 3.86600 Zr-4(29), SS-304(55), H2O(16)

Plenum (cm) 3.57800 Zr-4(88), H2O(12)

Plug (cm) 1.67000 Zr-4(7), H2O(93)

Nozzle + Gap (cm) 2.12900 SS-304(76), H2O(24)

Top nozzle (cm) 8.82700 SS-304(93), H2O(7)

Support plate (cm) 7.60000 Bottom reflector Zr-4(44), Inc-718(21), H2O(35)

Gap (cm) 5.89800 SS-304(80), H2O(20)

Bottom nozzle (cm) 6.05300 SS-304(91), H2O(20)

Support plate (cm) 5.00000 Zr-4(44), Inc-718(21), H2O(35)

Gap (cm) 20.0000

5 Table 2.4. Thermal expansion coefficients Material Thermal expansion coefficient (°) Reference Zircaloy-4 6.00E-6

[8]

SS-304 17.30E-6

[9]

UO2 10.52E-6

[10]

Inc-718 13.00E-6

[11]

The following rules were 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.

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. The as-built 235U enrichment and cold number densities were obtained from the report. The hot atomic number densities were calculated by preserving the total fuel mass with the thermally expanded dimensions, which 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 structural materials such as Zr-4, Inc-718, and SS-304 and burnable absorber (BA) and control rod materials. TP3 cycles 1-3 include Pyrex BAs. Figures 2.2 and 2.3 illustrate fuel assembly configurations with various loadings of UO2 fuel rods and Pyrex burnable poisons (BPs). The sample input of Polaris can be found in Appendix A.

6 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

1.861_bp00 1.861 10.143 9.946 452.560 234U 92234 6.78562E-06 6.65416E-06 235U 92235 4.27494E-04 4.19212E-04 238U 92238 2.21890E-02 2.17591E-02 16O 8016 4.51244E-02 4.42502E-02 17O 8017 2.03569E-05 1.99625E-05 18O 8018 9.49987E-05 9.31583E-05 2

2.560_bp00 2.560 10.060 9.865 448.838 234U 92234 6.73241E-06 6.60198E-06 235U 92235 5.78987E-04 5.67770E-04 238U 92238 2.18534E-02 2.14300E-02 16O 8016 4.47705E-02 4.39032E-02 17O 8017 2.01972E-05 1.98059E-05 18O 8018 9.42537E-05 9.24277E-05 3

3.101_bp00 3.101 9.904 9.712 441.870 234U 92234 6.62838E-06 6.49997E-06 235U 92235 6.95980E-04 6.82497E-04 238U 92238 2.13898E-02 2.09754E-02 16O 8016 4.40787E-02 4.32248E-02 17O 8017 1.98851E-05 1.94999E-05 18O 8018 9.27973E-05 9.09996E-05

7 Table 2.5. Atomic number densities for UO2 fuels (continued)

Type Fuel type As-built 235U wt %

Density (g/cm3)

Mass (kg U)

Nuclide ID Atomic number density

(#/barn*cm)

Cold Hot Cold Hot 4

2.550_bp00 2.550 10.229 10.031 456.418 234U 92234 6.84611E-06 6.71348E-06 235U 92235 5.88766E-04 5.77360E-04 238U 92238 2.22225E-02 2.17920E-02 16O 8016 4.55266E-02 4.46447E-02 17O 8017 2.05383E-05 2.01405E-05 18O 8018 9.58456E-05 9.39888E-05 5A 2.614_bp00 2.614 10.269 10.070 458.180 234U 92234 6.87260E-06 6.73946E-06 235U 92235 6.04789E-04 5.93073E-04 238U 92238 2.22947E-02 2.18628E-02 16O 8016 4.57028E-02 4.48174E-02 17O 8017 2.06178E-05 2.02184E-05 18O 8018 9.62164E-05 9.43524E-05 5B 2.895_bp00 2.895 10.231 10.033 456.503 234U 92234 6.84771E-06 6.71505E-06 235U 92235 6.71076E-04 6.58075E-04 238U 92238 2.21455E-02 2.17165E-02 16O 8016 4.55373E-02 4.46551E-02 17O 8017 2.05431E-05 2.01452E-05 18O 8018 9.58679E-05 9.40107E-05 Table 2.6. Atomic number densities for structural materials (1/2).

Material Density (g/cm3)

Nuclide ID Atomic number density (#/barn*cm) cold hot Cold Hot Zr-4 6.56 6.52764 16O 8016 3.07905E-04 3.06386E-04 17O 8017 1.17291E-07 1.16712E-07 18O 8018 6.32735E-07 6.29615E-07 50Cr 24050 3.30129E-06 3.28501E-06 52Cr 24052 6.36621E-05 6.33482E-05 53Cr 24053 7.21873E-06 7.18313E-06 54Cr 24054 1.79687E-06 1.78801E-06 54Fe 26054 8.68328E-06 8.64046E-06 56Fe 26056 1.36310E-04 1.35638E-04 57Fe 26057 3.14795E-06 3.13243E-06 58Fe 26058 4.18936E-07 4.16870E-07 90Zr 40090 2.18607E-02 2.17529E-02 91Zr 40091 4.76735E-03 4.74384E-03 92Zr 40092 7.28703E-03 7.25109E-03 94Zr 40094 7.38478E-03 7.34836E-03 96Zr 40096 1.18973E-03 1.18387E-03 112Sn 50112 4.68071E-06 4.65763E-06

8 Table 2.6. Atomic number densities for structural materials (1/2) (continued)

Material Density (g/cm3)

Nuclide ID Atomic number density (#/barn*cm) cold hot Cold Hot 114Sn 50114 3.18481E-06 3.16910E-06 115Sn 50115 1.64063E-06 1.63254E-06 116Sn 50116 7.01631E-05 6.98171E-05 117Sn 50117 3.70601E-05 3.68773E-05 118Sn 50118 1.16870E-04 1.16294E-04 119Sn 50119 4.14509E-05 4.12465E-05 120Sn 50120 1.57212E-04 1.56437E-04 122Sn 50122 2.23424E-05 2.22322E-05 124Sn 50124 2.79401E-05 2.78023E-05 Inconel 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 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

9 Table 2.6. Atomic number densities for structural 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

10 Fuel rod Guide tube Instrumentation tube Figure 2.2. Type 1, 2, 3, 4, 5A, and 5B fuel assembly configurations without BP.

Fuel rod Guide tube Instrumentation tube Burnable poison rod Figure 2.3. Fuel assembly configurations with 12 BPs.

11 Table 2.7 provides the fuel assembly types and numbers loaded in cycles 1-3; the TP3 axial configuration for fuel, spacer grids, and reflectors is shown in Table 2.8. Figure 2.3 provides the cycle 1 fuel assembly loading pattern, for which three 1.861, 2.560, and 3.101 wt % 235U enrichment fuels (i.e., type 1, 2, and 3) were used, and assembly types 2 and 3 include 12 BPs. Figure 2.4 illustrates the cycle 2 loading pattern with fresh assembly loadings with 2.550 wt % 235U fuels (i.e., type 4) and shuffling of once-burned 235U fuel assemblies. The type 1 once-burned fuel assemblies were only used in the center position in cycle 2 and 3. Figure 2.5 illustrates the cycle 3 loading pattern with fresh assembly loadings with 2.614 and 2.895 wt % 235U fuels (type 5A and 5B) and shuffling of once-and twice-burned fuel assemblies. Control and shutdown bank positions are provided in Figure 2.6. Figure 2.7 illustrates the locations of the 235U fission chambers as in-core detectors, which were taken from the measured flux map data and the EPRI report for Turkey Point [12].

Table 2.7. Assembly types for TP3 cycles 1-3 Cycle Type 235U wt% Power density (W/g)

BA PARCS assembly no.

Description Remark 1

1 1.861 31.2926 0

10 1.861 wt % 00-BA 2

2.560 0

20 2.560 wt % 00-BA 12 22 2.560 wt % 12-BA Pyrex 3

3.101 0

30 3.101 wt % 00-BA 12 32 3.101 wt % 12-BA Pyrex 2

4 2.550 0

40 2.550 wt % 00-BA 3

5A 2.614 0

50 2.614 wt % 00-BA 5B 2.895 0

60 2.895 wt % 00-BA Table 2.8. TP3 core axial configurations No.

Axial materials Height (cm)

Distance (cm)

No. of meshes Cold Hot 1

Top reflector 396.241 398.634 15.241 1

2 fuel rod 381.000 383.393 29.619 2

3 Spacer grid 6 352.100 353.774 3.810 1

4 fuel rod 348.290 349.964 62.978 6

5 Spacer grid 5 285.628 286.986 3.810 1

6 fuel rod 281.818 283.176 63.029 6

7 Spacer grid 4 219.105 220.147 3.810 1

8 fuel rod 215.295 216.337 63.029 6

9 Spacer grid 3 152.583 153.308 3.810 1

10 fuel rod 148.773 149.498 63.029 6

11 Spacer grid 2 86.060 86.470 3.810 1

12 fuel rod 82.250 82.660 58.989 6

13 Spacer grid 1 23.559 23.671 3.810 1

14 fuel rod 19.749 19.861 4.621 1

15 Bottom reflector 15.240 15.240 15.240 1

16 0.000 0.000 0.000 41

12 R

P N

M L

K J

H G

F E

D C

B A

1 3-22 3-26 3-28 2

3-16 3-20 3-23 BP 1-24 3-29 BP 3-32 3-34 3

3-14 3-17 BP 2-13 BP 1-18 2-24 BP 1-31 2-35 BP 3-35 BP 3-38 4

3-10 1-4 2-8 BP 1-13 2-19 BP 1-25 2-30 BP 1-37 2-41 BP 1-46 3-40 5

3-4 3-11 BP 2-4 BP 1-9 2-14 BP 1-19 2-25 BP 1-32 2-36 BP 1-42 2-46 BP 3-41 BP 3-44 6

3-5 2-1 BP 1-5 2-9 BP 1-14 2-20 BP 1-26 2-31 BP 1-38 2-42 BP 1-47 2-50 BP 3-45 7

3-1 3-6 BP 1-2 2-5 BP 1-10 2-15 BP 1-20 2-26 BP 1-33 2-37 BP 1-43 2-47 BP 1-51 3-46 BP 3-50 8

3-2 1-1 2-2 BP 1-6 2-10 BP 1-15 2-21 BP 1-27 2-32 BP 1-39 2-43 BP 1-48 2-51 BP 1-53 3-51 9

3-3 3-7 BP 1-3 2-6 BP 1-11 2-16 BP 1-21 2-27 BP 1-34 2-38 BP 1-44 2-48 BP 1-52 3-47 BP 3-52 10 3-8 2-3 BP 1-7 2-11 BP 1-16 2-22 BP 1-28 2-33 BP 1-40 2-44 BP 1-49 2-52 BP 3-48 11 3-9 3-12 BP 2-7 BP 1-12 2-17 BP 1-22 2-28 BP 1-35 2-39 BP 1-45 2-49 BP 3-42 BP 3-49 12 3-13 1-8 2-12 BP 1-17 2-23 BP 1-29 2-34 BP 1-41 2-45 BP 1-50 3-43 13 3-15 3-18 BP 2-18 BP 1-23 2-29 BP 1-36 2-40 BP 3-36 BP 3-39 14 3-19 3-21 3-24 BP 1-30 3-30 BP 3-33 3-37 15 3-25 3-27 3-31 1-XX Assembly 1.861 wt% 235U BP Burnable poison 2-XX Assembly 2.560 wt% 235U 3-XX Assembly 3.101 wt% 235U Figure 2.3. Layout of fuel assemblies and BPs in TP3 cycle 1.

13 R

P N

M L

K J

H G

F E

D C

B A

1 4-22 4-26 4-28 2

4-16 4-20 4-23 3-28 4-29 4-32 4-34 3

4-14 4-17 3-39 2-45 2-18 BP 2-12 3-15 4-35 4-38 4

4-10 2-20 3-37 2-14 3-33 2-35 3-21 2-36 3-19 2-31 4-40 5

4-4 4-11 3-49 2-25 3-17 2-19 3-26 2-30 3-35 2-43 3-9 4-41 4-44 6

4-5 3-43 2-9 3-11 2-24 3-23 2-38 3-29 2-51 3-41 2-42 3-13 4-45 7

4-1 4-6 2-49 3-48 2-5 3-6 2-26 3-25 2-32 3-46 2-47 3-8 2-7 4-46 4-50 8

4-2 3-3 2-50 BP 2-3 3-2 2-16 3-50 1-30 3-1 2-37 3-51 2-52 2-1 BP 3-52 4-51 9

4-3 4-7 2-46 3-45 2-6 3-7 2-21 3-22 2-27 3-47 2-48 3-5 2-4 4-47 4-52 10 4-8 3-40 2-11 3-12 2-2 3-24 2-15 3-30 2-29 3-42 2-44 3-10 4-48 11 4-9 4-12 3-44 2-10 3-18 2-23 3-27 2-34 3-36 2-28 3-4 4-42 4-49 12 4-13 2-22 3-34 2-17 3-32 2-40 3-20 2-39 3-16 2-33 4-43 13 4-15 4-18 3-38 2-41 2-13 BP 2-8 3-14 4-36 4-39 14 4-19 4-21 4-24 3-31 4-30 4-33 4-37 15 4-25 4-27 4-31 1-XX Assembly 1.861 wt% 235U 4-XX Assembly 2.550 wt% 235U 2-XX Assembly 2.560 wt% 235U BP Burnable poison 3-XX Assembly 3.101 wt% 235U Figure 2.4. Layout of fuel assemblies and BPs in TP3 cycle 2.

14 R

P N

M L

K J

H G

F E

D C

B A

1 5B-11 3-28 5B-13 2

5A-7 5B-9 5A-11 3-22 5A-13 5B-15 5A-15 3

5B-7 5A-8 3-34 4-33 3-26 BP 4-21 3-16 5A-16 5B-17 4

5B-5 4-31 3-18 4-39 3-29 4-29 3-23 4-15 3-36 4-25 5B-19 5

5A-1 5A-5 3-41 4-52 3-38 4-37 2-35 4-19 3-14 4-3 3-11 5A-19 5A-21 6

5B-3 3-9 4-43 3-13 4-42 3-33 4-24 3-21 4-12 3-43 4-13 3-49 5B-21 7

5B-1 5A-2 4-48 3-7 4-49 3-48 4-36 4-26 4-18 3-8 4-9 3-47 4-8 5A-22 5B-23 8

3-3 3-1 3-2 BP 4-7 2-3 4-46 4-2 1-24 4-51 4-6 2-52 4-47 3-51 BP 3-50 3-52 9

5B-2 5A-3 4-45 3-6 4-44 3-45 4-35 4-27 4-17 3-5 4-4 3-46 4-5 5A-23 5B-24 10 5B-4 3-4 4-40 3-10 4-41 3-32 4-23 3-20 4-11 3-40 4-10 3-44 5B-22 11 5A-4 5A-6 3-42 4-50 3-39 4-34 2-40 4-16 3-15 4-1 3-12 5A-20 5A-24 12 5B-6 4-28 3-17 4-38 3-30 4-30 3-24 4-14 3-35 4-22 5B-20 13 5B-8 5A-9 3-37 4-32 3-27 BP 4-20 3-19 5A-17 5B-18 14 5A-10 5B-10 5A-12 3-25 5A-14 5B-16 5A-18 15 5B-12 3-31 5B-14 A-XX Assembly 1.861 wt% 235U 5A-XX Assembly 2.614 wt% 235U

15 2-XX Assembly 2.560 wt% 235U 5B-XX Assembly 2.895 wt% 235U 3-XX Assembly 3.101 wt% 235U BP Burnable poison 4-XX Assembly 2.550 wt% 235U Figure 2.5. Layout of fuel assemblies and BPs in TP3 cycle 3.

16 R

P N

M L

K J

H G

F E

D C

B A

1 2

B P1 B

3 S

S 4

C D

C 5

S A

A S

6 B

B P2 S

P2 C

B 7

S A

A S

8 P1 D

S P

S D

P1 9

S A

A S

10 B

C P2 S

P2 C

B 11 S

A A

S 12 C

D C

13 S

S 14 B

P B

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 (1 and 2)

Figure 2.6. Layout of control banks in TP3 cycles 1-3.

17 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 2.7. Core instrumentation locations in TP3 cycles 1-3.

18 2.2.2 Measured Data The data employed in this study were sourced from publicly available TP3 cycles 1-3 operational histories, including critical boron histories and in-core detector responses. Operation histories for power levels, control bank D positions, and inlet temperatures at different burnup points are displayed in Figures 2.8 through 2.10, and additional particulars are provided in Tables 2.9. The power history was given as an average value over a 500 MWd/t time interval. To address certain typographical errors within the EPRI report [1], corrections were made both to the maximum control rod withdrawn step and the measured data. The discrepancy emerged in the control rods maximum withdrawn step number of cycle 2 statepoint data. (e.g., 128 and 144 steps). To ensure consistency, this report adopts 228 steps as the maximum across all statepoint data, except a single safety rod insertion (or withdrawn) into the F-8 assembly at the last statepoint of cycle 2. Upon comparing space grid locations and in-core detector response maps, an error was identified: values in the in-core detector response map were axially reversed such that the first reading represented the top of the active fuel and the last reading indicated the bottom. In addition, the error was further confirmed that the control rod insertion gives smaller detector response reading at the bottom though the rod is inserted from the top of the active fuel. Table 2.10 provides the information for the measured in-core detector response including burnups, the corresponding burnup points in the PARCS models, and the in-core detector locations.

Figure 2.8. Power and D bank position history for TP3 cycle 1.

19 Figure 2.9. Power and D bank position history for TP3 cycle 2.

Figure 2.10. Power and D bank position history for TP3 cycle 3.

20 Table 2.9. TP3 cycle 1-3 operational history Cyc 1

Burnup (MWd/t)

Power

(%)

D bank*

(inch)

Tin (K)

Cyc 2

Burnup (MWd/t)

Power

(%)

D bank*

(inch)

Tin (K)

Cyc 3

Burnup (MWd/t)

Power

(%)

D bank*

(inch)

Tin (K) 1 350 38.0 87.8 555.37 1

60 75 138.9 554.82 1

500 84.0 137.7 553.15 2

500 38.0 87.8 555.37 2

500 75.0 138.9 554.82 2

900 96.0 137.7 553.15 3

1000 58.0 87.8 555.37 3

1000 96.0 138.9 554.82 3

1000 96.0 137.7 554.82 4

1500 62.0 87.8 555.37 4

1500 97.0 138.9 554.82 4

1500 97.0 137.7 554.82 5

2000 72.0 87.8 555.37 5

2000 95.0 138.9 554.82 5

2000 54.0 137.7 554.82 6

2500 72.0 87.8 555.37 6

2380 89.0 144.0 554.82 6

2500 100.0 137.7 554.82 7

3000 72.0 126.9 555.93 7

2500 89.0 144.0 554.82 7

3000 99.0 137.7 554.82 8

3500 82.0 126.9 555.93 8

3000 95.0 144.0 554.82 8

3500 85.0 137.7 554.82 9

4000 72.0 126.9 555.93 9

3500 96.0 144.0 554.82 9

4000 100.0 137.7 554.82 10 4500 82.0 126.9 555.93 10 4000 91.0 144.0 554.82 10 4150 79.0 142.7 553.71 11 5000 70.0 126.9 555.93 11 4500 89.0 144.0 554.82 11 4500 79.0 142.7 554.82 12 5500 75.0 126.9 555.93 12 4680 99.0 140.2 554.82 12 5000 73.0 142.7 554.82 13 6000 68.0 126.9 555.93 13 5000 99.0 140.2 554.82 13 5500 100.0 142.7 554.82 14 6500 73.0 126.9 555.93 14 5500 98.0 140.2 554.82 14 6000 99.0 142.7 554.82 15 6600 85.0 140.8 554.82 15 6000 98.0 135.2 554.82 15 6300 57.0 144.0 554.82 16 7000 85.0 140.8 554.82 16 6120 87.0 135.2 554.82 16 6500 57.0 144.0 554.82 17 7500 44.0 140.8 554.82 17 6500 87.0 135.2 554.82 17 7000 100.0 144.0 554.82 18 8000 88.0 140.8 554.82 18 7000 98.0 135.2 554.82 18 7500 98.0 144.0 554.82 19 8500 92.0 140.8 554.82 19 7500 94.0 135.2 554.82 19 7730 98.0 144.0 554.82 20 9000 94.0 130.1 554.82 20 8000 94.0 135.2 554.82 20 8000 98.0 144.0 554.82 21 9500 97.0 130.1 554.82 21 8500 93.0 135.2 554.82 21 8500 99.0 144.0 554.82 22 10000 88.0 130.1 554.82 22**

8690 93.0 144.0 553.71 23 10500 86.0 130.1 554.82 23 8840 93.0 144.0 553.71 24 11000 96.0 130.1 554.82

D bank position was converted from the step

- Safety rod and CR were assumed to be fully withdrawn.

25 11500 98.0 130.1 554.82 26 12000 96.0 130.1 554.82 27 12500 97.0 130.1 554.82 28 12800 98.0 144.0 554.82 29 13250 98.0 144.0 554.82

21 Table 2.10. In-core detector data Cycle Cycle 1 Cycle 2 Cycle3 PARCS point 2

8 16 21 29 2

7 13 17 23 3

12 18 22 Burnup (MWd/t) 350 3000 5500 9000 12800 60 2380 4680 6120 8690 900 4150 6300 7730 No ID Location 1 18E H1 2 31B F2 3 1B M3 4 9D J3 5 45E H3 6 10C D3 7 13C L4 8 37D H4 9 3C F4 10 22D N5 11 50E L5 12 24B J5 13 49D E5 14 39A D5 15 7E B5 16 40A L6 17 8E H6 18 15B F6 19 33E N7 20 28C J7 21 20A G7 22 29C D7 23 17A B7 24 36C R8 25 46D N8 26 4B L8 27 5D F8 28 44B C8 29 25D B8 30 11E L9 31 19E G9 32 32B F9 33 34A A9 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, fuel temperatures, moderator density, soluble boron concentration, and control rod positions. Table 3.1 provides state information for seven history cases (A). Another seven history cases are for assemblies with spacer grids (B). There are seven Inc-718 spacer grids in TP3, which should be considered in the Polaris lattice physics calculation. Six Inc-718 spacer grids are included in the active fuel zone. A top spacer grid is not included in the active fuel zone. Therefore, two sets of cross section table sets, with and without explicitly modeled spacer grids, were prepared 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 provides the information for branch states for assemblies without and with BA, respectively. Because the Pyrex BAs are located at the guide tubes, branch cases 28-36 for the assembly without BAs are not included in the assembly with BAs. Table 3.3 provides the branch cases for reflectors for which no depletion calculation was performed. Figure 3.1 illustrates the Polaris models for radial and top and bottom axial reflectors. The moderator density was obtained from the steam table of water.

Appendices A.1-A.4 provide the Polaris inputs for the fuel assembly a_1.861_bp00 (A.1) and radial (A.2), axial top (A.3), and bottom (A.4) reflectors. Table 3.4 provides the Polaris input and output files for the TP3 cycles 1-3. A sample file name with b1_1.861_bp00_cr1_dc60_p0500_tf0800.inp indicates b1: Turkey Point Unit 3 assembly type index, 1.861: 1.861 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 Mod temp.

(K)

Density (g/cm3) ppm Fuel temp.

(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

24 Table 3.2. Branch states for assembly type without and with BA Case Bank All Moderator Fuel History D or BA Part Temp. (K)

Density (g/cm3) ppm Temp. (K) 1 false false 615.0 0.608316 0.1 560.0 2

false false 615.0 0.608316 500 560.0 3

false false 615.0 0.608316 1,500 560.0 4

false false 585.0 0.700809 0.1 560.0 5

false false 585.0 0.700809 500 560.0 A6 6

false false 585.0 0.700809 1,500 560.0 7

false false 550.0 0.769987 0.1 560.0 8

false false 550.0 0.769987 500 560.0 9

false false 550.0 0.769987 1,500 560.0 10 false false 615.0 0.608316 0.1 800.0 11 false false 615.0 0.608316 500 800.0 A2, B2 12 false false 615.0 0.608316 1,500 800.0 13 false false 585.0 0.700809 0.1 800.0 A4, B4 14 false false 585.0 0.700809 500 800.0 A7, B7 15 false false 585.0 0.700809 1,500 800.0 A3, B3 16 false false 550.0 0.769987 0.1 800.0 17 false false 550.0 0.769987 500 800.0 A1, B1 18 false false 550.0 0.769987 1,500 800.0 19 false false 615.0 0.608316 0.1 1,600.0 20 false false 615.0 0.608316 500 1,600.0 21 false false 615.0 0.608316 1,500 1,600.0 22 false false 585.0 0.700809 0.1 1,600.0 23 false false 585.0 0.700809 500 1,600.0 A5, B5 24 false false 585.0 0.700809 1,500 1,600.0 25 false false 550.0 0.769987 0.1 1,600.0 26 false false 550.0 0.769987 500 1,600.0 27 false false 550.0 0.769987 1,500 1,600.0 28 true false 615.0 0.608316 0.1 800.0 29 true false 615.0 0.608316 500 800.0 30 true false 615.0 0.608316 1,500 800.0 31 true false 585.0 0.700809 0.1 800.0 32 true false 585.0 0.700809 500 800.0 A8, B8 33 true false 585.0 0.700809 1,500 800.0 34 true false 550.0 0.769987 0.1 800.0 35 true false 550.0 0.769987 500 800.0 36 true false 550.0 0.769987 1,500 800.0 37 false true 615.0 0.608316 0.1 800.0 38 false true 615.0 0.608316 500 800.0 39 false true 615.0 0.608316 1,500 800.0 40 false true 585.0 0.700809 0.1 800.0 41 false true 585.0 0.700809 500 800.0 42 false true 585.0 0.700809 1,500 800.0 43 false true 550.0 0.769987 0.1 800.0 44 false true 550.0 0.769987 500 800.0 45 false true 550.0 0.769987 1,500 800.0

25 Table 3.3. Branch states for reflectors Case Bank All Moderator Fuel Remark BP Part Temp. (K)

Density (g/cm3) ppm Temp. (K)

Reference false false 550.0 0.769987 500 800.0 1

false false 550.0 0.769987 0

800.0 1

false false 550.0 0.769987 1,500 800.0 2

false false 585.0 0.700809 500 800.0 Table 3.4. Polaris input and output files for TP3 Assembly type Dir File name Description 1_1.861_bp00

./bare/b1_1.851_00bp b1_1.861_bp00_cr?_dc??_p????_tf????.*

bp?? Number of BPs bp00: no BP bp12: 12 BPs 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 2_2.560_bp00

./bare/b2_2.560_00bp b2_2.560_bp00_cr?_dc??_p????_tf????.*

2_2.560_bp12

./bare/b2_2.560_12bp b2_2.560_bp12_cr?_dc??_p????_tf????.*

3_3.101_bp00

./bare/b3_3.101_00bp b3_3.101_bp00_cr?_dc??_p????_tf????.*

3_3.101_bp12

./bare/b3_3.101_12bp b3_3.101_bp12_cr?_dc??_p????_tf????.*

4_2.550_bp00

./bare/b4a_2.550_00bp b4_2.550_bp00_cr?_dc??_p????_tf????.*

5a_2.614_bp00

./bare/b5a_2.614_00bp b5a_2.614_bp00_cr?_dc??_p????_tf????.*

5b_2.895_bp00

./bare/b5b_2.895_00bp b5b_2.895_bp00_cr?_dc??_p????_tf????.*

1_1.861_bp00

./spacer/b1_1.851_00bp b1_1.861_bp00_cr?_dc??_p????_tf????.*

2_2.560_bp00

./spacer/b2_2.560_00bp b2_2.560_bp00_cr?_dc??_p????_tf????.*

2_2.560_bp12

./spacer/b2_2.560_12bp b2_2.560_bp12_cr?_dc??_p????_tf????.*

3_3.101_bp00

./spacer/b3_3.101_00bp b3_3.101_bp00_cr?_dc??_p????_tf????.*

3_3.101_bp12

./spacer/b3_3.101_12bp b3_3.101_bp12_cr?_dc??_p????_tf????.*

4_2.550_bp00

./spacer/b4_2.550_00bp b4_2.550_bp00_cr?_dc??_p????_tf????.*

5a_2.614_bp00

./spacer/b5a_2.614_00bp b5a_2.614_bp00_cr?_dc??_p????_tf????.*

5b_2.895_bp00

./spacer/b5b_2.895_00bp b5b_2.895_bp00_cr?_dc??_p????_tf????.*

Radial reflector

./reflector polaris_rad.*

Top reflector

./reflector polaris_top.*

Bottom reflector

./reflector polaris_bot.*

26 (A) Radial reflector (Assembly-Water-Baffle-Water).

(B) Bottom axial reflector (Assembly-Nozzle w/ Gap-Nozzle-Support Plate).

(C) Top axial reflector (Assembly-Plenum-Plenum w/ Grid-Plenum-Plug-Nozzle w/ Gap-Nozzle-Support Plate).

Figure 3.1. Polaris models for reflectors.

27 3.1.2 Cross Section Table Set Generation Using GenPMAXS Appendices B.1-B.4 provide the GenPMAXS inputs for the fuel assembly type A 1.861_bp00 and radial edge, axial top, and bottom reflectors.

B.1 GenPMAXS input for the fuel assembly type A 1.861_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 3.5 provides the GenPMAXS input and output files. There can be various GenPMAXS input files for various radial reflectors including edge, east, southeast, and south reflectors.

Table 3.5. GenPMAXS input and output files for TP3 Assembly type Dir Filename Description 1_1.861_bp00

./fuel b1_1.861_bp00.*

Dir

./GenPMAXS File name inp: input files kinf: kinf summary out: output file PMAX: cross section table-set 2_2.560_bp00

./fuel b2_2.560_bp00.*

2_2.560_bp12

./fuel b2_2.560_bp12.*

3_3.101_bp00

./fuel b3_3.101_bp00.*

3_3.101_bp12

./fuel b3_3.101_bp12.*

4_2.550_bp00

./fuel b4_2.550_bp00.*

5a_2.614_bp00

./fuel b5a_2.614_bp00.*

5b_2.895_bp12

./fuel b5b_2.895_bp00.*

1_1.861_bp00

./fuel_spacer b1_1.861_bp00.*

2_2.560_bp00

./fuel_spacer b2_2.560_bp00.*

2_2.560_bp12

./fuel_spacer b2_2.560_bp12.*

3_3.101_bp00

./fuel_spacer b3_3.101_bp00.*

3_3.101_bp12

./fuel_spacer b3_3.101_bp12.*

4_2.550_bp00

./fuel_spacer b4_2.550_bp00.*

5a_2.614_bp00

./fuel_spacer b5a_2.614_bp00.*

5b_2.895_bp12

./fuel_spacer b5b_2.895_bp00.*

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 south east

./reflector refl_rad_SE.*

Radial reflector south west

./reflector refl_rad_SW.*

Radial reflector north east

./reflector refl_rad_NE.*

Radial reflector north west

./reflector refl_rad_NW.*

Top reflector

./bare refl_top.*

Bottom reflector

./bare refl_bot.*

28 3.1.3 Whole-Core Nodal Diffusion Calculations Using PARCS Appendices C.1-C.8 provide the PARCS inputs for TP3 cycles 1-3 HZP and HFP calculations.

C.1 PARCS input for the cross section set pmax.dir file C.2 PARCS input for the assembly geometry depl_assm.geom file C.3 PARCS input for the in-core detector map depl_detect.geom file C.4 PARCS input for the HFP cycle-1 C.5 PARCS input for the HZP cycle-2 fuel shuffling C.6 PARCS input for the HFP cycle-2 C.7 PARCS input for the HZP cycle-3 fuel shuffling C.8 PARCS input for the HFP cycle-3 Table 3.6 provides the PARCS input and output files. The PARCS calculations were performed with two types of radial reflector cross sections, as below.

explicit model: direction-dependent radial reflector cross sections with ADF simple model: direction-independent radial reflector cross sections without ADF The direction-dependent cross section indicates the cross section generated using ADF provided by Polaris to consider x-and y-direction spatial dependency of reflector cross section.in the core.

Table 3.6. PARCS input and output files for TP3 Cycle Condition File name Description All depl_detect.geom Detector 1

HFP c1_depl.inp PARCS input TP_cyc1.parcs_out output TP_cyc1.parcs_cyc-01 History file TP_cyc1.parcs_det Detector response TP_cyc1.parcs_dpl Summary 2

HZP c1_c2_shuf.inp PARCS input cyc2_BOC.parcs_out output cyc2_BOC.parcs_cyc-02 History file cyc2_BOC.parcs_dpl Summary HFP c2_depl.inp PARCS input TP_cyc2.parcs_out output TP_cyc2.parcs_cyc-01 Restart file TP_cyc2.parcs_det Detector response TP_cyc2.parcs_dpl Summary 3

HZP c2_c3_shuf.inp PARCS input cyc3_BOC.parcs_out output cyc3_BOC.parcs_cyc-02 History file cyc3_BOC.parcs_dpl Summary HFP c3_depl.inp PARCS input TP_cyc3.parcs_out output TP_cyc3.parcs_cyc-01 Restart file TP_cyc3.parcs_det Detector response TP_cyc3.parcs_dpl Summary

29 3.2 BENCHMARK RESULTS 3.2.1 HZP Physics Tests TP3 Cycle 1 HZP physics test is simulated using the cross section set generated by GenPMAX, as shown in Table 3.5. Table 3.7 presents the critical boron concentrations, control bank worths, and boron worths, comparing the measured data with the calculated results. The simulation results exhibit good agreement, having a maximum control rod worth difference of -120pcm and a boron worth of -2.7pcm/ppm.

Table 3.7. Comparison of the control bank and boron worth for TP3 Cycle Case Calculated Critical boron (ppm)

Control bank worth (pcm)

Boron worth (pcm/ppm)

Measured Calculated Difference Measured Calculated Difference 1

ARO 1167.9 ARO to D 1089.3 894 897.6 3.6 14.1 11.4

-2.7 D to CD 963.4 1496 1435.4

-60.6 12 11.9

-0.1 CD to BCD 885.0 1055 934.7

-120.3 15.4 13.5

-1.9 BCD to ABCD 732.4 1856 1775.4

-80.6 12.1 12.2 0.1 3.2.2 HFP Results The EPRI report [1] provides measured data at five different states, including critical boron concentrations, actual thermal power, inlet temperature, and control bank insertion. Figures 3.2 to 3.4 illustrate a comparison of the calculated and measured critical boron concentrations for TP3 cycles 1, 2, and 3. As mentioned in Section 3.1.3, two radial reflector models, referred to as explicit and simple, were employed in the PARCS calculations. Tables 3.8-3.10 give both the measured and calculated critical boron concentrations for cycles 1-3, along with average and root mean square (RMS) errors. The RMS errors for boron letdown curves were calculated as 27.1 ppm for cycle 1, 29.7 ppm for cycle 2, and 23.1 ppm for cycle 3, using differences between measurements and calculated values based on the simple reflector models. Figure 3.5 illustrates the boron worths as a function of burnup which were used in converting the differences of critical boron concentrations between measurement and simulation into the reactivity differences.

Figures 3.6-3.8 display the enthalpy rise hot channel factors (

) for TP3 cycles 1-3. The results from the PARCS calculations with the simple reflector models consistently yield smaller values, regardless of the correction of reactor conditions. The explicit reflector models fail to meet the limit of 1.435 with an 8% uncertainty at the beginning of cycles 2 and 3. A more detailed examination is necessary to address reflector cross sections, gamma-smeared powers, and the violation of the limit due to the omission of gamma powers in the Polaris pin power form factors.

Figure 3.9 and Table 3.11 show a comparison between calculated and measured flux maps, including 3D axially integrated 2D radial distributions and radially integrated 1D axial distributions. The overall RMS errors for TP3 are 5.77% for 3D, 3.61% for 2D, and 4.42% for 1D distributions, utilizing the simple reflector models and excluding the abnormal measured flux map data in cycle 2. Figure 3.10 presents a comparison of 1D axial flux maps between measured data and calculated results for burnups of 0.35 and 12.8 MWd/kgU in TP3 cycle 1. Similarly, Figure 3.11 displays a comparison of 1D axial flux maps for burnups of 2.38 and 6.12 MWd/kgU in TP3 cycle 2. Notably, a significant discrepancy arises in the comparison of the 0.06 MWd/kgU results involving potential safety rod insertion. Although the EPRI

30 report indicates safety rod insertion/withdrawn at 8.69 MWd/kgU, the measured detector response map shown in Figure 3.12 suggests possible insertion at 0.06 MWd/kgU. This information gap contributes to higher RMS error in Figure 3.9 and Table 3.11. Lastly, Figure 3.13 illustrates the comparison of 1D axial flux maps for burnups of 0.90 and 7.73 MWd/kgU in TP3 cycle 3, demonstrating a consistent alignment between measured and calculated outcomes.

Appendix D provides the utility program 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-3 input D.5 Cycle-1 flux map measured data D.6 Cycle-2 flux map measured data D.7 Cycle-3 flux map measured data Figure 3.2. TP3 cycle 1 HFP boron letdown comparison.

31 Figure 3.3. TP3 cycle 2 HFP boron letdown comparison.

Figure 3.4. TP3 cycle 3 HFP boron letdown comparison.

32 Figure 3.5. Boron worths as a function of burnup for TP3.

Figure 3.6. Enthalpy rise hot channel factors for TP3 cycle 1.

33 Figure 3.7. Enthalpy rise hot channel factors for TP3 cycle 2.

Figure 3.8. Enthalpy rise hot channel factors for TP3 cycle 3.

34 Table 3.8. Comparison of the critical boron concentrations for TP3 cycle 1 No.

Burnup (MWd/kgU)

Measured Data (PPM) [1]

PARCS PPM Difference Explicit [2]

Simple [3]

PPM (pcm)

[2-1]

[3-1]

[2-1]

[3-1]

1 0.35 882 857.5 870.5 24.5 11.5

-282

-133 7

3 747 758.1 772.3 11.1 25.3 120 274 15 6.6 570 565.9 585.9 4.1 15.9

-45 173 20 9

405 382.2 409.1 22.8 4.1

-253 45 28 12.8 101 113.9 152.4 12.9 51.4 150 599 RMSE 16.89 27.14 191 311 Average 5.48 17.04

-62 192 Table 3.9. Comparison of the critical boron concentrations for TP3 cycle 2 No.

Burnup (MWd/kgU)

Measured Data (PPM) [1]

PARCS PPM Difference Explicit [2]

Simple [3]

PPM (pcm)

[2-1]

[3-1]

[2-1]

[3-1]

1 0.06 961 929.3 927.5 31.7 33.5

-322

-340 6

2.38 663 684.6 691 21.6 28.0 225 291 12 4.68 457 448.2 462.9

-8.8 5.9

-94 63 16 6.12 363 340.8 359.1

-22.2

-3.9

-244

-43 22 8.69 86 106.8 135.4 20.8 49.4 240 569 RMSE 22.25 29.65 237 326 Average

-4.06 9.18

-39 108 Table 3.10. Comparison of the critical boron concentrations for the TP3 cycle 3 No.

Burnup (MWd/kgU)

Measured Data (PPM) [1]

PARCS PPM Difference Explicit [2]

Simple [3]

PPM (pcm)

[2-1]

[3-1]

[2-1]

[3-1]

2 0.9 712 685.50 679.8 26.5 32.2

-279

-339 11 4.15 423 418.2 424 4.8 1.0

-53 11 17 6.3 251 263.3 275.6 12.3 24.6 142 283 21 7.73 95 48.40 72.7 46.6 22.3

-548

-262 RMSE 27.60 23.13 316 257 Average 16.40 7.23

-184

-77

35 Figure 3.9. Comparison of the HFP flux maps for TP3.

36 Table 3.11. Comparison of the flux maps for TP3 Reflector cycle Burnup (MWd/kgU)

PARCS point 3D 2D radial 1D axial RMS

(%)

Cases RMS

(%)

Cases RMS

(%)

Cases Explicit model 1

0.350 2

4.09 1450 2.65 50 2.28 29 3.000 8

4.44 1189 1.93 41 3.44 29 6.600 16 4.18 1218 1.02 42 3.67 29 9.000 21 5.17 1160 0.78 40 4.78 29 12.800 29 3.39 1160 1.91 40 2.46 29 2

0.060*

2 18.98 435 7.26 15 16.15 29 2.380 7

5.47 1160 4.32 40 3.56 29 4.680 13 6.38 1131 2.31 39 5.64 29 6.120 17 4.41 1160 1.84 40 3.72 29 8.690*

23 12.56 841 4.14 29 11.25 29 3

0.9 3

6.78 1247 5.37 43 4.33 29 4.15 12 5.29 1102 3.93 38 3.62 29 6.3 18 9.22 1131 3.72 39 8.23 29 7.73 22 5.80 1160 3.35 40 4.09 29 All 6.85 15544 3.32 536 6.66 401 All*

5.55 14268 3.07 492 4.42 348 Simple model 1

0.350 2

3.84 1450 2.18 50 2.24 29 3.000 8

4.19 1189 1.61 41 3.33 29 6.600 16 4.43 1218 1.95 42 3.70 29 9.000 21 5.64 1160 1.94 40 5.01 29 12.800 29 4.29 1160 3.45 40 2.58 29 2

0.060*

2 18.66 435 6.73 15 15.91 29 2.380 7

5.03 1160 3.64 40 3.53 29 4.680 13 6.29 1131 2.57 39 5.50 29 6.120 17 4.53 1160 2.41 40 3.66 29 8.690*

23 12.30 841 4.00 29 11.06 29 3

0.9 3

6.62 1247 5.13 43 4.35 29 4.15 12 6.01 1102 5.04 38 3.67 29 6.3 18 9.72 1131 5.16 39 8.19 29 7.73 22 6.64 1160 5.27 40 4.12 29 All 6.96 15544 3.75 536 6.60 406 All*

5.77 14268 3.61 492 4.42 348

These data points may not be reliable due to the insufficient safety rod information.

37 Figure 3.10. Axial 1D flux map comparison for the TP3 cycle 1.

Figure 3.11. Axial 1D flux map comparison for the TP3 cycle 2.

38 Figure 3.12. Axial 1D flux map comparison of core (left) and F-8 assembly (right) for the TP3 cycle 2 at 0.06 MWd/kgU.

Figure 3.13. Axial 1D flux map comparison for the TP3 cycle 3.

39

4.

CONCLUSION The TP3 benchmark calculations were performed using the SCALE 6.3/Polaris-GenPMAXS-PARCS v3.4.2 code package with the ENDF/B-VII.1 AMPX 56-group library, which has been utilized in confirmatory analyses by the US Nuclear Regulatory Commission. The benchmark results were compared with the measured data from the HZP physics test, including control rod worths, boron worths, HFP critical boron concentrations, and in-core detector flux maps. The investigation identified discrepancies and uncertainties in the measured data, which were systematically addressed to produce more consistent results. The calculated control rod worths and boron worths show good agreement with the measured data. The simulated HFP critical boron concentrations are consistent with the measured values within a maximum error of 51 ppm (600 pcm). The overall RMS errors for the flux map comparisons are 5.77%

for 3D fluxes, 3.61% for axially integrated 2D fluxes, and 4.42% for radially integrated 1D fluxes, indicating reasonable agreement between simulation and measurement when excluding abnormal measured flux data. However, the flux map differences for TP3 are relatively larger than those observed in other PWRs (less than 4 %). The simulated radial and axial flux shapes can be improved by enhancing effective axial 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 key nuclear parameters, including reactivity, temperature reactivity coefficients, control rod worth, and pin and assembly power peaking factors [13]. The benchmark calculations for TP3 cycles 13 will be used in the statistical analysis together with the benchmark results for Watts Bar Unit 1, Surry Unit 1, and BEAVRS.

40

5.

REFERENCES

1.

R.W. Carlson, Reactor Core Physics Design and Operating Data for Cycles 1, 2, and 3 of Turkey Point Unit 3 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, ORNL/TM-2005/39, UT-Battelle, LLC, Oak Ridge National Laboratory, Oak Ridge, TN (2020).

https://www.ornl.gov/file/scale-62-manual/display.

7.

K.S. Kim. U. Mertyurek, W.A. Wieselquist, Benchmark Calculation for the Watt Bar Unit 1 Cycles 1-3 Using the SCALE 6.3/Polaris-PARCS v3.4.2 Code Package, ORNL/TM-2023/2981, UT-Battelle, LLC, 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, UT-Battelle, LLC, Oak Ridge National Laboratory, Oak Ridge, TN (2024).

A-1 APPENDIX A. SAMPLE OF POLARIS INPUT FILES A.1 Polaris Input for the Fuel Assembly type A 1.861_bp00

=polaris

% general options title "Turkey point Unit 3 1.861 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 = 1.43511cm

% lattice pitch = 21.52665277 cm

% assembly width = 21.60590 cm

% gap = 0.03962 cm geom assembly: ASSM 15 1.43511 SE hgap 0.03962

% compositions and materials

% materials and compositions comp f_1 : UOX enr=1.861 refdens=9.946065144 comp f_2 : UOX enr=2.560 refdens=9.864698815 comp f_3 : UOX enr=3.101 refdens=9.711652623 comp f_4 : UOX enr=2.550 refdens=10.03130606 comp f_5a : UOX enr=2.614 refdens=10.07005193 comp f_5b : UOX enr=2.895 refdens=10.03324335 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_4 mat FUEL.5 : f_5a mat FUEL.6 : f_5b mat CLAD.1 : ZIRC4 dens=6.527652 mat COOL.1 : WATER temp=585.0 dens=0.700809 : boron=500 mat AIR.1 : air mat CNTL.1 : AIC mat BP.1 : PYREX mat CRS.1 : SS304 dens=7.91 mat MI.1 : AL2O3 mat GRID.1 : INC718 dens=8.192

% 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 : 0.46773 0.47500 0.53682

FUEL.1 GAP.1 CLAD.1

% guide tube pin G : 0.60806 0.69456

COOL.1 CLAD.1

% instrument tube pin I : 0.60806 0.69456

COOL.1 CLAD.1

A-2

% 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 : 0.5245 0.5728 0.60806 0.69456

CNTL.1 CRS.1 COOL.1 CLAD.1

% AIC Part pin E : 0.5245 0.5728 0.60806 0.69456

CNTL.1 CRS.1 COOL.1 CLAD.1

% AIC Upper Part pin F : 0.5245 0.5728 0.60806 0.69456

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 31.29333432 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

% history and branching variables to perturb to appropriate

% value for calculations state ALL : temp=585.0 FUEL : temp=800.0 COOL : boron=500 dens=0.700809 BankA : in=false BankB : in=false BankC : in=false

% reference history internal burnup steps through 50 GWD/MTU read branch

A-3 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 "Turkey Point 2.560 w/o 00 BP" lib "broad_lwr" opt PRINT XFile16=true system PWR

% compositions and materials comp c_uox : UOX 2.560 mat FUEL.1 : c_uox 9.864698815

% geometry geom W15 : ASSM 15 1.43511 hgap 0.03962 pin F : 0.46773 0.47500 0.53682

FUEL.1 GAP.1 CLAD.1 pin G : 0.60806 0.69456

COOL.1 CLAD.1 pin I : 0.60806 0.69456

COOL.1 CLAD.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 : 0.19 2.85 18.46

COOL.1 STRUCT COOL.1

1 4 25

34 34 34

% states state ALL : temp=550 FUEL : temp=800 COOL : dens=0.769987 boron=500 rad_ref : in=yes read branch add COOL : boron=0

A-5 add COOL : boron=1500 add ALL : temp=585 FUEL : temp=800 COOL : boron=500 dens=0.700809 end branch end A.3 Polaris Input for Axial Top Reflector

=polaris

% general options title "Turkey Point 2.560 w/o 00 BP" lib "broad_lwr" opt PRINT XFile16=true system PWR

% geometry geom W15 : ASSM 15 1.43511 FULL hgap 0.03962

% compositions and materials comp c_uox : UOX 2.560 mat FUEL.1 : c_uox 9.864698815

% pins definitions pin F : 0.46773 0.47500 0.53682

FUEL.1 GAP.1 CLAD.1 pin G : 0.60806 0.69456

COOL.1 CLAD.1 pin I : 0.60806 0.69456

COOL.1 CLAD.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

PLE.1 PLE_GRID.1 PLE.1 PLUG.1 NOZ_GAP.1 TOP_NOZ.1 TOP_CP.1

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

PLE.2 PLE_GRID.2 PLE.2 PLUG.2 NOZ_GAP.2 TOP_NOZ.2 TOP_CP.2

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

PLE.3 PLE_GRID.3 PLE.3 PLUG.3 NOZ_GAP.3 TOP_NOZ.3 TOP_CP.3

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

PLE.4 PLE_GRID.4 PLE.4 PLUG.4 NOZ_GAP.4 TOP_NOZ.4 TOP_CP.4

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 mat TOP_NOZ.1 : c_top_noz_lpc 2.02 mat TOP_CP.1 : c_top_cp_lpc 4.27

A-6 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 500 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 1500 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 500 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=0.608316 boron=500 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=1500 top_refl_mpc : in=no top_refl_lpc : in=no top_refl_hpc : in=yes top_refl_mdc : in=no add ALL : temp=585

A-7 FUEL : temp=800 COOL : boron=500 dens=0.700809 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 "Turkey Point 2.560 w/o 00 BP" lib "broad_lwr" opt PRINT XFile16=true system PWR

% geometry geom W15 : ASSM 15 1.43511 FULL hgap 0.03962

% compositions and materials comp c_uox : UOX 2.560 mat FUEL.1 : c_uox 9.864698815

% pins definitions pin F : 0.46773 0.47500 0.53682

FUEL.1 GAP.1 CLAD.1 pin G : 0.60806 0.69456

COOL.1 CLAD.1 pin I : 0.60806 0.69456

COOL.1 CLAD.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 mat BOT_GAP.2 : c_bot_gap_mpc 1.82

A-8 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 500 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 1500 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 500 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=0.769987 boron=500 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=1500 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=500 dens=0.700809 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 1.861_bp00

%JOB_TIT

'b1_1.861_bp00.PMAX' T 3.0

%JOB_OPT T T F F F F T T T F F 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_1.861_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 !

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10 1 9 1 19 !

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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_1.861_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 !

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18 2 18 1 19 !

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20 2 20 1 19 !

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25 2 25 1 19 !

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32 2 32 1 19 !

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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_1.861_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 !

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8 3 8 1 19 !

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10 3 10 1 19 !

11 3 11 1 19 !

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13 3 13 1 19 !

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25 3 25 1 19 !

26 3 26 1 19 !

27 3 27 1 19 !

28 3 28 1 19 !

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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 !

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44 3 44 1 19 !

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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_1.861_bp00_cr0_dc70_p0500_tf0800.t16' 54 1 1 4 14 1 19 !

2 4 1 1 19 !

3 4 2 1 19 !

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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_1.861_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_1.861_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_1.861_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_1.861_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 Cross-Section Set pmax.dir File

! Index PMAXS File Name struct PMAXS_F 1 '../GenPMAXS_new/reflector/refl_bot.PMAX' 1 !bottom PMAXS_F 2 '../GenPMAXS_new/reflector/refl_top.PMAX' 2 !top PMAXS_F 3 '../GenPMAXS_new/reflector/refl_rad_W.PMAX' 3 ! W PMAXS_F 4 '../GenPMAXS_new/reflector/refl_rad_S.PMAX' 4 ! S PMAXS_F 5 '../GenPMAXS_new/reflector/refl_rad_E.PMAX' 5 ! E PMAXS_F 6 '../GenPMAXS_new/reflector/refl_rad_N.PMAX' 6 ! N PMAXS_F 7 '../GenPMAXS_new/reflector/refl_rad_NW.PMAX' 7 ! NW PMAXS_F 8 '../GenPMAXS_new/reflector/refl_rad_SW.PMAX' 8 ! SW PMAXS_F 9 '../GenPMAXS_new/reflector/refl_rad_SE.PMAX' 9 ! SE PMAXS_F 10 '../GenPMAXS_new/reflector/refl_rad_NE.PMAX' 10 ! NE PMAXS_F 11 '../GenPMAXS_new/reflector/refl_rad.PMAX' 11 ! no adf PMAXS_F 12 '../GenPMAXS_new/reflector/refl_rad_diag.PMAX' 12 ! corner

!**************************c***************************************

PMAXS_F 13 '../GenPMAXS_new/fuel/b1_1.861_bp00.PMAX' 13 ! type 1 1.861 wt% 00-BP PMAXS_F 14 '../GenPMAXS_new/fuel_spacer/b1_1.861_bp00.PMAX' 14 ! type 1 1.861 wt% 00-BP SG PMAXS_F 15 '../GenPMAXS_new/fuel/b2_2.560_bp00.PMAX' 15 ! type 2 2.560 wt% 00-BP PMAXS_F 16 '../GenPMAXS_new/fuel_spacer/b2_2.560_bp00.PMAX' 16 ! type 2 2.560 wt% 00-BP SG PMAXS_F 17 '../GenPMAXS_new/fuel/b2_2.560_bp12.PMAX' 17 ! type 2 2.560 wt% 12-BP PMAXS_F 18 '../GenPMAXS_new/fuel_spacer/b2_2.560_bp12.PMAX' 18 ! type 2 2.560 wt% 12-BP SG PMAXS_F 19 '../GenPMAXS_new/fuel/b3_3.101_bp00.PMAX' 19 ! type 3 3.101 wt% 00-BP PMAXS_F 20 '../GenPMAXS_new/fuel_spacer/b3_3.101_bp00.PMAX' 20 ! type 3 3.101 wt% 00-BP SG PMAXS_F 21 '../GenPMAXS_new/fuel/b3_3.101_bp12.PMAX' 21 ! type 3 3.101 wt% 12-BP PMAXS_F 22 '../GenPMAXS_new/fuel_spacer/b3_3.101_bp12.PMAX' 22 ! type 3 3.101 wt% 12-BP SG PMAXS_F 23 '../GenPMAXS_new/fuel/b4_2.550_bp00.PMAX' 23 ! type 4 2.550 wt% 00-BP PMAXS_F 24 '../GenPMAXS_new/fuel_spacer/b4_2.550_bp00.PMAX' 24 ! type 4 2.550 wt% 00-BP SG PMAXS_F 25 '../GenPMAXS_new/fuel/b5a_2.614_bp00.PMAX' 25 ! type 5A 2.614 wt% 00-BP PMAXS_F 26 '../GenPMAXS_new/fuel_spacer/b5a_2.614_bp00.PMAX' 26 ! type 5A 2.614 wt% 00-BP SG PMAXS_F 27 '../GenPMAXS_new/fuel/b5b_2.895_bp00.PMAX' 27 ! type 5B 2.895 wt% 00-BP PMAXS_F 28 '../GenPMAXS_new/fuel_spacer/b5b_2.895_bp00.PMAX' 28 ! type 5B 2.895 wt% 00-BP SG C.2 PARCS Input for the Assembly Geometry depl_assm.geom File 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 ! 1.861 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 ! 2.560 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 ! 2.560 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 ! 3.101 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 ! 3.101 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 ! 2.550 4, also Plug assy_type 50 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 ! 2.614 5A, also plug assy_type 60 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 ! 2.895 5B, 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*4.621 1*3.81 6*9.832 1*3.81 6*10.505 1*3.81 6*10.505 1*3.81 6*10.505 1*3.81 6*10.496 1*3.81 2*14.809 1*15.24 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

C-2 C.3 PARCS Input for the In-Core Detector Map depl_detect.geom File DET_XY_LOC 50 0 0 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 0 0 0 0 31 0 0 0 0 0 1 0 0 9 45 0 0 0 10 0 0 0 0 0 0 13 0 0 37 0 3 0 0 0 0 0 0 0 22 0 50 0 24 0 0 0 49 39 0 7 0 0 0 0 0 0 40 0 0 8 0 15 0 0 0 0 0 0 0 0 0 33 0 0 0 28 0 20 0 0 29 0 17 0 0 0 36 0 46 0 4 0 0 0 0 5 0 0 44 25 0 0 0 0 0 0 0 11 0 0 0 19 32 0 0 0 0 34 0 0 0 0 26 0 0 0 23 0 0 0 0 41 0 12 0 0 0 0 0 0 48 0 0 38 0 21 47 0 0 0 0 0 0 35 0 0 0 16 0 0 0 0 6 27 0 0 0 0 0 0 0 0 43 0 14 0 0 0 0 0 0 30 0 0 0 42 0 0 0 0 0 0 0 2 0 0 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 D01 2 D02 3 D03 4 D04 5 D05 6 D06 7 D07 8 D08 9 D09 10 D10 11 D11 12 D12 13 D13 14 D14 15 D15 16 D16 17 D17 18 D18 19 D19 20 D20 21 D21 22 D22 23 D23 24 D24 25 D25 26 D26 27 D27 28 D28 29 D29 30 D30 31 D31 32 D32 33 D33 34 D34 35 D35 36 D36 37 D37 38 D38 39 D39 40 D40 41 D41 42 D42 43 D43 44 D44 45 D45 46 D46 47 D47 48 D48 49 D49 50 D50

C-3 C.4 PARCS Input for the HFP Cycle-1 CASEID TP_cyc1 Turkey Point Unit 3 - Cycle 1 CNTL core_type pwr core_power 48 ! 2200 MW search ppm 1.0 1500.0

! A B C D R S BP bank_pos 144.0 144.0 144.0 129.6 144.0 144.0 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 36 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

! pow flux th prec xesm pin PLOT_OPTS 0 0 0 0 0 0 detector T 1.0 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 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 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 file './depl_assm.geom' cr_axinfo 15.24 2.557 ! inch considering axial thermal expansion bank_conf 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 7 5 7 2 0 0 0 0 0 0 7 7 6 7 6 7 7 0 0 0 0 0 0 0 7 3 7 4 7 3 7 0 0 0 0 0 0 7 7 6 7 1 7 1 7 6 7 7 0 0 0 0 2 7 3 7 5 7 6 7 5 7 3 7 2 0 0 0 0 7 6 7 1 7 0 7 0 7 1 7 6 7 0 0 0 0 5 7 4 7 6 7 4 7 6 7 4 7 5 0 0 0 0 7 6 7 1 7 0 7 0 7 1 7 6 7 0 0 0 0 2 7 3 7 5 7 6 7 5 7 3 7 2 0 0 0 0 7 7 6 7 1 7 1 7 6 7 7 0 0 0 0 0 0 7 3 7 4 7 3 7 0 0 0 0 0 0 0 7 7 6 7 6 7 7 0 0 0 0 0 0 2 7 5 7 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 crb_def 2 1 0 1 0 1.27 360.68 500.0 ! Cd/In/Ag Abso 2 0 1 0 1.27 362.41 500.0 ! Burnable Poison as CR

C-4 crb_type 1 1 1 1 1 1 2

! A B C D R S BP file './depl_detect.geom' FDBK fa_powpit 14.0127 21.60912 !assembly power(Mw) and pitch(cm)

TH unif_th 0.720508 648.89 301.89 ! 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 281.67 77.85 !tin,cmfrfa(Kg/sec) hgap 8000.0 !hgap(w/M^2-C) Need estimate!!

n_ring 10 !number of meshes in pellet DEPL hst_opt T T T T F out_opt T T T T F file 'pmax.dir' file 'pmax.dir' MCYCLE bank_def 1 144.0 144.0 144.0 129.6 144.0 144.0 0.0 bank_def 2 144.0 144.0 144.0 87.8 144.0 144.0 0.0 bank_def 3 144.0 144.0 144.0 87.8 144.0 144.0 0.0 bank_def 4 144.0 144.0 144.0 87.8 144.0 144.0 0.0 bank_def 5 144.0 144.0 144.0 87.8 144.0 144.0 0.0 bank_def 6 144.0 144.0 144.0 87.8 144.0 144.0 0.0 bank_def 7 144.0 144.0 144.0 126.9 144.0 144.0 0.0 bank_def 8 144.0 144.0 144.0 126.9 144.0 144.0 0.0 bank_def 9 144.0 144.0 144.0 126.9 144.0 144.0 0.0 bank_def 10 144.0 144.0 144.0 126.9 144.0 144.0 0.0 bank_def 11 144.0 144.0 144.0 126.9 144.0 144.0 0.0 bank_def 12 144.0 144.0 144.0 126.9 144.0 144.0 0.0 bank_def 13 144.0 144.0 144.0 126.9 144.0 144.0 0.0 bank_def 14 144.0 144.0 144.0 126.9 144.0 144.0 0.0 bank_def 15 144.0 144.0 144.0 140.8 144.0 144.0 0.0 bank_def 16 144.0 144.0 144.0 140.8 144.0 144.0 0.0 bank_def 17 144.0 144.0 144.0 140.8 144.0 144.0 0.0 bank_def 18 144.0 144.0 144.0 140.8 144.0 144.0 0.0 bank_def 19 144.0 144.0 144.0 140.8 144.0 144.0 0.0 bank_def 20 144.0 144.0 144.0 130.1 144.0 144.0 0.0 bank_def 21 144.0 144.0 144.0 130.1 144.0 144.0 0.0 bank_def 22 144.0 144.0 144.0 130.1 144.0 144.0 0.0 bank_def 23 144.0 144.0 144.0 130.1 144.0 144.0 0.0 bank_def 24 144.0 144.0 144.0 130.1 144.0 144.0 0.0 bank_def 25 144.0 144.0 144.0 130.1 144.0 144.0 0.0 bank_def 26 144.0 144.0 144.0 130.1 144.0 144.0 0.0 bank_def 27 144.0 144.0 144.0 130.1 144.0 144.0 0.0 bank_def 28 144.0 144.0 144.0 144.0 144.0 144.0 0.0 bank_def 29 144.0 144.0 144.0 144.0 144.0 144.0 0.0 bank_def 30 144.0 144.0 144.0 144.0 144.0 144.0 0.0 cycle_def 1 depl_step -0.35 -0.15 -0.50 -0.50 -0.50 -0.50 -0.50 -0.50 -0.50 -0.50 -0.50 -0.50

-0.50 -0 bank_seq 1 2 3 4 5 6 7 8 9 10 11 12 13 14 power_lev 38.0 38.0 58.0 62.0 72.0 72.0 72.0 82.0 72.0 82.0 70.0 75.0 68.0 73 inlet_ent 30*-554.82 flow_rate 30*77.85 LOCATION 0 0 0 0 0 0 0 0 J-01 H-01 G-01 0 0 0 0 0 L-02 K-02 J-02 H-02 G-02 F-02 E-02 0 0

0 0 M-03 L-03 K-03 J-03 H-03 G-03 F-03 E-03 D-03 0 0 0 0 N-04 M-04 L-04 K-04 J-04 H-04 G-04 F-04 E-04 D-04 C-04 0 0 P-05 N-05 M-05 L-05 K-05 J-05 H-05 G-05 F-05 E-05 D-05 C-05 B-

C-5 0 0 P-06 N-06 M-06 L-06 K-06 J-06 H-06 G-06 F-06 E-06 D-06 C-06 B-0 R-07 P-07 N-07 M-07 L-07 K-07 J-07 H-07 G-07 F-07 E-07 D-07 C-07 B-0 R-08 P-08 N-08 M-08 L-08 K-08 J-08 H-08 G-08 F-08 E-08 D-08 C-08 B-0 R-09 P-09 N-09 M-09 L-09 K-09 J-09 H-09 G-09 F-09 E-09 D-09 C-09 B-0 0 P-10 N-10 M-10 L-10 K-10 J-10 H-10 G-10 F-10 E-10 D-10 C-10 B-0 P-11 N-11 M-11 L-11 K-11 J-11 H-11 G-11 F-11 E-11 D-11 C-11 B-0 0 N-12 M-12 L-12 K-12 J-12 H-12 G-12 F-12 E-12 D-12 C-12 0 0 0 M-13 L-13 K-13 J-13 H-13 G-13 F-13 E-13 D-13 0 0 0 0 L-14 K-14 J-14 H-14 G-14 F-14 E-14 0 0

0 0 0 J-15 H-15 G-15 0 0 0 0 0 0 0 0 SHUF_MAP 1 1 0 0 0 0 0 0 0 0 J-01 H-01 G-01 0 0 0 0 0 L-02 K-02 J-02 H-02 G-02 F-02 E-02 0 0

0 0 M-03 L-03 K-03 J-03 H-03 G-03 F-03 E-03 D-03 0 0 0 0 N-04 M-04 L-04 K-04 J-04 H-04 G-04 F-04 E-04 D-04 C-04 0 0 P-05 N-05 M-05 L-05 K-05 J-05 H-05 G-05 F-05 E-05 D-05 C-05 B-0 0 P-06 N-06 M-06 L-06 K-06 J-06 H-06 G-06 F-06 E-06 D-06 C-06 B-0 R-07 P-07 N-07 M-07 L-07 K-07 J-07 H-07 G-07 F-07 E-07 D-07 C-07 B-0 R-08 P-08 N-08 M-08 L-08 K-08 J-08 H-08 G-08 F-08 E-08 D-08 C-08 B-0 R-09 P-09 N-09 M-09 L-09 K-09 J-09 H-09 G-09 F-09 E-09 D-09 C-09 B-0 0 P-10 N-10 M-10 L-10 K-10 J-10 H-10 G-10 F-10 E-10 D-10 C-10 B-0 P-11 N-11 M-11 L-11 K-11 J-11 H-11 G-11 F-11 E-11 D-11 C-11 B-0 0 N-12 M-12 L-12 K-12 J-12 H-12 G-12 F-12 E-12 D-12 C-12 0 0 0 M-13 L-13 K-13 J-13 H-13 G-13 F-13 E-13 D-13 0 0 0 0 L-14 K-14 J-14 H-14 G-14 F-14 E-14 0 0

0 0 0 J-15 H-15 G-15 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.5 PARCS Input for the HZP Cycle 2 Fuel Shuffling CASEID cyc2_BOC Turkey Point Unit 3 - Cycle 1-2 Shuffle CNTL core_type pwr core_power 0.0001 ! zero power during shuffling

! A B C D R S BP1 bank_pos 144.0 144.0 144.0 144.0 144.0 144.0 144.0 depletion T 1.0E-5 F

! NSET LADF LXES LJ1F LDED LCHI LCHD LINV LDET LYLD LCDF LGFF LBET LAMB LDEC tree_xs T 36 T T F F F F F T T F T F F F int_th F -1 xe_sm 3 3 mult_cyc T

!XSEC

! group_spec 2 1

C-6 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 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 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 file './depl_assm.geom' cr_axinfo 15.24 2.557 bank_conf 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 7 5 7 2 0 0 0 0 0 0 7 7 6 7 6 7 7 0 0 0 0 0 0 0 7 3 7 4 7 3 7 0 0 0 0 0 0 7 7 6 7 1 7 1 7 6 7 7 0 0 0 0 2 7 3 7 5 7 6 7 5 7 3 7 2 0 0 0 0 7 6 7 1 7 0 7 0 7 1 7 6 7 0 0 0 0 5 7 4 7 6 7 4 7 6 7 4 7 5 0 0 0 0 7 6 7 1 7 0 7 0 7 1 7 6 7 0 0 0 0 2 7 3 7 5 7 6 7 5 7 3 7 2 0 0 0 0 7 7 6 7 1 7 1 7 6 7 7 0 0 0 0 0 0 7 3 7 4 7 3 7 0 0 0 0 0 0 0 7 7 6 7 6 7 7 0 0 0 0 0 0 2 7 5 7 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 crb_def 2 1 0 1 0 1.27 360.68 500.0 ! Cd/In/Ag Abso 2 0 1 0 1.27 362.41 500.0 ! Burnable Poison as CR crb_type 1 1 1 1 1 1 2 FDBK fa_powpit 14.0127 21.60912 !assembly power(Mw) and pitch(cm)

TH unif_th 0.720508 648.89 301.89 ! 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 281.67 77.85 !tin,cmfrfa(Kg/sec) hgap 8000.0 !hgap(w/M^2-C) Need estimate!!

n_ring 10 !number of meshes in pellet DEPL inp_hst 'TP_cyc1.parcs_cyc-01' 1 30 inp_opt F F F T hst_opt T T T T F out_opt T T T T F file 'pmax.dir' MCYCLE bank_def 1 144.0 144.0 144.0 144.0 144.0 144.0 144.0

C-7 cycle_def 1 depl_step 0.0001 bank_seq 2*1 power_lev 2*0.01 cycle_def 2 depl_step 0.0001 bank_seq 2*1 power_lev 2*0.01 LOCATION 0 LOCATION 0 0 0 0 0 0 0 0 0 1J-01 1H-01 1G-01 0 0 0 0 0 1L-02 1K-02 1J-02 1H-02 1G-02 1F-02 1E-02 0 0

0 0 1M-03 1L-03 1K-03 1J-03 1H-03 1G-03 1F-03 1E-03 1D-03 0 0 0 0 1N-04 1M-04 1L-04 1K-04 1J-04 1H-04 1G-04 1F-04 1E-04 1D-04 1C-04 0 0 1P-05 1N-05 1M-05 1L-05 1K-05 1J-05 1H-05 1G-05 1F-05 1E-05 1D-05 1C-05 1B 0 0 1P-06 1N-06 1M-06 1L-06 1K-06 1J-06 1H-06 1G-06 1F-06 1E-06 1D-06 1C-06 1B 0 1R-07 1P-07 1N-07 1M-07 1L-07 1K-07 1J-07 1H-07 1G-07 1F-07 1E-07 1D-07 1C-07 1B 0 1R-08 1P-08 1N-08 1M-08 1L-08 1K-08 1J-08 1H-08 1G-08 1F-08 1E-08 1D-08 1C-08 1B 0 1R-09 1P-09 1N-09 1M-09 1L-09 1K-09 1J-09 1H-09 1G-09 1F-09 1E-09 1D-09 1C-09 1B 0 0 1P-10 1N-10 1M-10 1L-10 1K-10 1J-10 1H-10 1G-10 1F-10 1E-10 1D-10 1C-10 1B 0 1P-11 1N-11 1M-11 1L-11 1K-11 1J-11 1H-11 1G-11 1F-11 1E-11 1D-11 1C-11 1B 0 0 1N-12 1M-12 1L-12 1K-12 1J-12 1H-12 1G-12 1F-12 1E-12 1D-12 1C-12 0 0 0 1M-13 1L-13 1K-13 1J-13 1H-13 1G-13 1F-13 1E-13 1D-13 0 0 0 0 1L-14 1K-14 1J-14 1H-14 1G-14 1F-14 1E-14 0 0

0 0 0 1J-15 1H-15 1G-15 0 0 0 0 0 0 0 0 SHUF_MAP 1 1 0 0 0 0 0 0 0 0 -40 -40 -40 0 0 0 0 0 -40 -40 -40 1G-01 -40 -40 -40 0 0

0 0 -40 -40 1D-13 1E-12 1K-13 1L-12 1M-13 -40 -40 0 0 0 0 -40 1J-06 1E-14 1K-05 1F-14 1F-03 1K-14 1F-05 1L-14 1G-06

-40 0 0 -40 -40 1B-11 1H-05 1L-03 1J-04 1H-01 1G-04 1E-03 1E-08 1P-11

-40 -4 0 0 -40 1C-12 1L-06 1N-05 1H-03 1J-02 1F-09 1G-02 1C-08 1C-05 1E-06 1N-12 -4 0 -40 -40 1D-11 1B-10 1M-07 1P-07 1H-07 1J-15 1G-08 1B-07 1D-07 1P-10 1M-11 -4 0 -40 1R-09 1C-06 1N-10 1R-08 1K-09 1A-07 1H-14 1R-07 1F-07 1A-08 1C-10 1N-06 1A 0 -40 -40 1D-05 1B-06 1M-09 1P-09 1J-08 1J-01 1H-09 1B-09 1D-09 1P-06 1M-05 -4 0 0 -40 1C-04 1L-10 1N-11 1N-08 1J-14 1K-07 1G-14 1H-13 1C-11 1E-10 1N-04 -4 0 -40 -40 1B-05 1L-08 1L-13 1J-12 1H-15 1G-12 1E-13 1H-11 1P-05

-40 -4 0 0 -40 1J-10 1E-02 1K-11 1F-02 1F-13 1K-02 1F-11 1L-02 1G-10

-40 0 0 0 -40 -40 1D-03 1E-04 1K-03 1L-04 1M-03 -40 -40 0 0 0 0 -40 -40 -40 1G-15 -40 -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 1 CONV_EC 0.1 2 ! convergence criterion (GWD/T), max number of iteration

C-8 C.6 PARCS Input for the HFP Cycle-2 CASEID TP_cyc2 Turkey Point Unit 3 - Cycle 2 CNTL core_type pwr core_power 75.0 ! 2441 MW search ppm 1.0 1500.0

! A B C D R S1 BP1 BP2 S2 bank_pos 144.0 144.0 144.0 138.9 144.0 144.0 144.0 0.0 144.0 depletion T 1.0E-5 T

! NSET LADF LXES LJ1F LDED LCHI LCHD LINV LDET LYLD LCDF LGFF LBET LAMB LDEC tree_xs T 36 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

! pow flux th prec xesm pin PLOT_OPTS 0 0 0 0 0 0 detector T 1.0 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 40 40 30 40 40 40 8 99 0 0 0 0 0 99 5 40 40 30 22 22 22 30 40 40 8 99 0 0 0 99 5 40 22 30 22 30 22 30 22 30 22 40 8 99 0 0 1 40 40 30 22 32 22 30 22 32 22 30 40 40 3 0 90 5 40 30 22 32 22 32 22 32 22 32 22 30 40 8 90 1 40 40 22 30 22 32 22 30 22 32 22 30 22 40 40 3 1 40 30 22 22 30 22 30 10 30 22 30 22 22 30 40 3 1 40 40 22 30 22 32 22 30 22 32 22 30 22 40 40 3 90 6 40 30 22 32 22 32 22 32 22 32 22 30 40 7 90 0 1 40 40 30 22 32 22 30 22 32 22 30 40 40 3 0 0 99 6 40 22 30 22 30 22 30 22 30 22 40 7 99 0 0 0 99 6 40 40 30 22 22 22 30 40 40 7 99 0 0 0 0 0 99 6 40 40 40 30 40 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 file './depl_assm.geom' cr_axinfo 15.24 2.557 bank_conf

! cycle 2 (Cycle-1 BP + Cycle-2 BP + Bank D + Safety rod at F8) 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 7 8 7 0 0 0 0 0 0 0 0 7 0 7 0 4 0 7 0 7 0 0 0 0 0 0 0 7 7 7 0 7 7 7 0 0 0 0 0 0 2 0 7 7 7 7 7 7 7 7 7 0 2 0 0 0 0 0 7 0 7 7 7 0 7 7 7 0 7 0 0 0 0 0 0 8 4 0 7 0 4 0 9 0 4 8 0 0 0 0 0 0 7 0 7 7 7 0 7 7 7 0 7 0 0 0 0 0 2 0 7 7 7 7 7 7 7 7 7 0 2 0 0 0 0 0 0 7 7 7 0 7 7 7 0 0 0 0 0 0 0 7 0 7 0 4 0 7 0 7 0 0 0 0 0 0 0 0 7 8 7 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 crb_def 3 1 0 1 0 1.27 360.68 500.0 ! Cd/In/Ag Abso

C-9 2 0 1 0 1.27 362.41 500.0 ! Burnable Poison as CR 3 0 2 0 1.27 360.68 500.0 ! Burnable Poison out AIC in crb_type 1 1 1 3 1 1 2 2 3

! A B C D R S BP1 BP3 S2

! 1 2 3 4 5 6 7 8 9

! BP1 = BP at cycle 1, BP2= BP at cycle 2

! D,S2 = BP at cycle 1 but AIC in cycle2 file './depl_detect.geom' FDBK fa_powpit 14.0127 21.60912 !assembly power(Mw) and pitch(cm)

TH unif_th 0.727982 648.89 297.22 !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 282.22 77.85 !tin,cmfrfa(Kg/sec) hgap 8000.0 !hgap(w/M^2-C) Need estimate!!

n_ring 10 !number of meshes in pellet DEPL inp_hst 'cyc2_BOC.parcs_cyc-02' 1 2 inp_opt F F F T hst_opt T T T T F out_opt T T T T F file 'pmax.dir'

! A B C D R S BP1 BP2 S2 MCYCLE bank_def 1 144.0 144.0 144.0 136.8 144.0 144.0 144.0 0.0 144.0 bank_def 2 144.0 144.0 144.0 138.9 144.0 144.0 144.0 0.0 144.0 bank_def 3 144.0 144.0 144.0 138.9 144.0 144.0 144.0 0.0 144.0 bank_def 4 144.0 144.0 144.0 138.9 144.0 144.0 144.0 0.0 144.0 bank_def 5 144.0 144.0 144.0 138.9 144.0 144.0 144.0 0.0 144.0 bank_def 6 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 144.0 bank_def 7 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 144.0 bank_def 8 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 144.0 bank_def 9 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 144.0 bank_def 10 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 144.0 bank_def 11 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 144.0 bank_def 12 144.0 144.0 144.0 140.2 144.0 144.0 144.0 0.0 144.0 bank_def 13 144.0 144.0 144.0 140.2 144.0 144.0 144.0 0.0 144.0 bank_def 14 144.0 144.0 144.0 140.2 144.0 144.0 144.0 0.0 144.0 bank_def 15 144.0 144.0 144.0 140.2 144.0 144.0 144.0 0.0 144.0 bank_def 16 144.0 144.0 144.0 135.2 144.0 144.0 144.0 0.0 144.0 bank_def 17 144.0 144.0 144.0 135.2 144.0 144.0 144.0 0.0 144.0 bank_def 18 144.0 144.0 144.0 135.2 144.0 144.0 144.0 0.0 144.0 bank_def 19 144.0 144.0 144.0 135.2 144.0 144.0 144.0 0.0 144.0 bank_def 20 144.0 144.0 144.0 135.2 144.0 144.0 144.0 0.0 144.0 bank_def 21 144.0 144.0 144.0 135.2 144.0 144.0 144.0 0.0 144.0 bank_def 22 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 144.0 bank_def 23 144.0 144.0 144.0 128.8 144.0 144.0 144.0 0.0 107.4 bank_def 24 144.0 144.0 144.0 128.8 144.0 144.0 144.0 0.0 107.4 cycle_def 1 depl_step -0.06 -0.44 -0.50 -0.50 -0.50 -0.38 -0.12 -0.50 -0.50 -0.50 -0.50 -0.18

-0.32 -0 bank_seq 1 2 3 4 5 6 7 8 9 10 11 12 13 14 power_lev 75.0 75.0 96.0 97.0 95.0 89.0 89.0 95.0 96.0 91.0 89.0 99.0 99.0 98 inlet_ent 24*-555.37 flow_rate 24*77.85 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

C-10 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 CASEID cyc3_BOC Turkey Point Unit 3 - Cycle 2-3 Shuffle CNTL core_type pwr core_power 0.0001 ! zero power during shuffling bank_pos 144.0 144.0 144.0 144.0 144.0 144.0 144.0 144.0 144.0 depletion T 1.0E-5 F

! NSET LADF LXES LJ1F LDED LCHI LCHD LINV LDET LYLD LCDF LGFF LBET LAMB LDEC tree_xs T 36 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 40 30 40 40 40 8 99 0 0 0 0 0 99 5 40 40 30 22 22 22 30 40 40 8 99 0 0 0 99 5 40 22 30 22 30 22 30 22 30 22 40 8 99 0 0 1 40 40 30 22 32 22 30 22 32 22 30 40 40 3 0 90 5 40 30 22 32 20 32 22 32 20 32 22 30 40 8 90 1 40 40 22 30 22 32 22 30 22 32 22 30 22 40 40 3 1 40 30 22 22 30 22 30 10 30 22 30 22 22 30 40 3 1 40 40 22 30 22 32 22 30 22 32 22 30 22 40 40 3 90 6 40 30 22 32 20 32 22 32 20 32 22 30 40 7 90 0 1 40 40 30 22 32 22 30 22 32 22 30 40 40 3 0 0 99 6 40 22 30 22 30 22 30 22 30 22 40 7 99 0 0 0 99 6 40 40 30 22 22 22 30 40 40 7 99 0 0 0 0 0 99 6 40 40 40 30 40 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 file './depl_assm.geom'

C-11 cr_axinfo 15.24 2.557 bank_conf 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 5 0 2 0 0 0 0 0 0 0 0 7 8 7 0 0 0 0 0 0 0 0 7 0 7 0 4 0 7 0 7 0 0 0 0 0 0 0 7 7 7 0 7 7 7 0 0 0 0 0 0 2 0 7 7 7 7 7 7 7 7 7 0 2 0 0 0 0 0 7 0 7 7 7 0 7 7 7 0 7 0 0 0 0 0 5 8 4 0 7 0 4 0 9 0 4 8 5 0 0 0 0 0 7 0 7 7 7 0 7 7 7 0 7 0 0 0 0 0 2 0 7 7 7 7 7 7 7 7 7 0 2 0 0 0 0 0 0 7 7 7 0 7 7 7 0 0 0 0 0 0 0 7 0 7 0 4 0 7 0 7 0 0 0 0 0 0 0 0 7 8 7 0 0 0 0 0 0 0 0 2 0 5 0 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 crb_def 3 1 0 1 0 1.27 360.68 500.0 ! Cd/In/Ag Abso 2 0 1 0 1.27 362.41 500.0 ! Burnable Poison as CR 3 0 2 0 1.27 360.68 500.0 ! Burnable Poison out AIC in crb_type 1 1 1 3 1 1 2 2 3 FDBK fa_powpit 14.0127 21.60912 !assembly power(Mw) and pitch(cm)

TH unif_th 0.720508 648.89 301.89 ! 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 281.67 77.85 !tin,cmfrfa(Kg/sec) hgap 8000.0 !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 file 'pmax.dir'

! A B C D R S BP1 BP2 S2 MCYCLE bank_def 1 144.0 144.0 144.0 144.0 144.0 144.0 144.0 144.0 144.0 cycle_def 1 depl_step 0.0001 bank_seq 2*1 power_lev 2*0.01 cycle_def 2 depl_step 0.0001 bank_seq 2*1 power_lev 2*0.01 prev_cyc 2

'./tp_c2_lay.mcyc' './TP_cyc2.parcs_cyc-01' 1 24

'./tp_c1_lay.mcyc' './TP_cyc1.parcs_cyc-01' 1 30 LOCATION 1 0 0 0 0 0 0 0 0 0 -1 0 0 0 0 0 0 0 0 0 -1 0 0 0 0 0 0 0 0 0 -1 -1 -1 -1 -1 0 0 0 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 0 0 -1 -1 -1 -1 -1 -1 -1 -1 -1 0 0 0 0 0 0 0 -1 -1 -1 -1 -1 0 0 0 0 0 0 0 0 0 -1 0 0 0 0 0 0 0 0 0 -1 0 0 0 0 0 0 0 0 0

C-12 SHUF_MAP 1 1 0 0 0 0 0 0 0 0 3J-01 2H-02 3G-01 0 0 0 0 0 3L-02 3K-02 3J-02 2H-09 3G-02 3F-02 3E-02 0 0 0 0 3M-03 3L-03 2L-12 2F-14 2H-05 2K-14 2E-12 3E-03 3D-03 0 0

0 0 3N-04 2G-15 2K-11 2D-13 2G-06 2G-02 2J-06 2M-13 2F-11 2J-15 3C-04 0 0 3P-05 3N-05 2E-06 2A-09 2K-13 2E-14 2H-04 2L-14 2F-13 2R-09 2L-06 3C-05 3B-05 0 0 3P-06 2D-05 2C-12 2C-06 2C-11 2J-04 2J-14 2G-04 2N-11 2N-06 2N-12 2M-05 3B-06 0 3R-07 3P-07 2B-10 2K-09 2B-11 2M-07 2E-13 2H-01 2L-13 2D-07 2P-11 2F-09 2P-10 3B-07 0 2P-08 2G-08 2L-08 2P-09 2M-08 2B-07 2R-08 1H-02 2A-08 2P-07 2D-08 2B-09 2E-08 2J-08 0 3R-09 3P-09 2B-06 2K-07 2B-05 2M-09 2E-03 2H-15 2L-03 2D-09 2P-05 2F-07 2P-06 3B-09 0 0 3P-10 2D-11 2C-04 2C-10 2C-05 2J-12 2J-02 2G-12 2N-05 2N-10 2N-04 2M-11 3B-10 0 3P-11 3N-11 2E-10 2A-07 2K-03 2E-02 2H-12 2L-02 2F-03 2R-07 2L-10 3C-11 3B-11 0 0 3N-12 2G-01 2K-05 2D-03 2G-10 2G-14 2J-10 2M-03 2F-05 2J-01 3C-12 0 0 0 3M-13 3L-13 2L-04 2F-02 2H-11 2K-02 2E-04 3E-13 3D-13 0 0

0 0 3L-14 3K-14 3J-14 2H-07 3G-14 3F-14 3E-14 0 0 0 0 0 3J-15 2H-14 3G-15 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 CASEID TP_cyc3 Turkey Point Unit 3 - Cycle 3 CNTL core_type pwr core_power 75.0 ! 2441 MW search ppm 1.0 1500.0

! A B C D R S1 BP2 BP3 bank_pos 144.0 144.0 144.0 138.9 144.0 144.0 144.0 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 36 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

! pow flux th prec xesm pin PLOT_OPTS 0 0 0 0 0 0 detector T 1.0 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 60 30 60 8 4 99 0 0 0 0 0 0 0 99 5 50 60 50 30 50 60 50 8 99 0 0 0 0 0 99 5 60 50 30 40 32 40 30 50 60 8 99 0 0 0 99 5 60 40 32 40 32 40 32 40 32 40 60 8 99 0 0 1 50 50 32 40 30 40 22 40 30 40 32 50 50 3 0

C-13 90 5 60 30 40 30 40 30 40 30 40 30 40 30 60 8 90 1 60 50 40 32 30 40 40 40 40 30 40 32 40 50 60 3 1 30 30 32 40 22 40 40 10 40 40 22 40 32 30 30 3 1 60 50 40 32 30 40 40 40 40 30 40 32 40 50 60 3 90 6 60 30 40 30 40 30 40 30 40 30 40 30 60 7 90 0 1 50 50 32 40 30 40 22 40 30 40 32 50 50 3 0 0 99 6 60 40 32 40 32 40 32 40 32 40 60 7 99 0 0 0 99 6 60 50 30 40 32 40 30 50 60 7 99 0 0 0 0 0 99 6 50 60 50 30 50 60 50 7 99 0 0 0 0 0 0 0 99 2 6 60 30 60 7 2 99 0 0 0 0 0 0 0 0 0 0 90 2 2 2 90 0 0 0 0 0 0 file './depl_assm.geom' cr_axinfo 15.24 2.557 bank_conf 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 0 5 0 2 0 0 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 0 0 0 7 0 7 4 7 0 7 0 0 0 0 0 0 0 7 0 0 0 7 0 0 0 7 0 0 0 0 0 2 0 0 0 0 0 0 0 0 0 0 0 2 0 0 0 0 0 0 7 0 0 0 0 0 0 0 7 0 0 0 0 0 0 5 8 4 7 0 0 4 0 0 7 4 8 5 0 0 0 0 0 0 7 0 0 0 0 0 0 0 7 0 0 0 0 0 0 2 0 0 0 0 0 0 0 0 0 0 0 2 0 0 0 0 0 7 0 0 0 7 0 0 0 7 0 0 0 0 0 0 0 7 0 7 4 7 0 7 0 0 0 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 0 0 2 0 5 0 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 crb_def 3 1 0 1 0 1.27 360.68 500.0 ! Cd/In/Ag Abso 2 0 1 0 1.27 362.41 500.0 ! Burnable Poison as CR 3 0 2 0 1.27 360.68 500.0 ! Burnable Poison out AIC in crb_type 1 1 1 1 1 1 2 2

! A B C D R S BP1 BP3

! 1 2 3 4 5 6 7 8

! BP1 = BP at cycle 1, BP2= BP at cycle 2

! D,S2 = BP at cycle 1 but AIC in cycle2 file './depl_detect.geom' FDBK fa_powpit 14.0127 21.60912 !assembly power(Mw) and pitch(cm)

TH unif_th 0.727982 648.89 297.22 !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 282.22 77.85 !tin,cmfrfa(Kg/sec) hgap 8000.0 !hgap(w/M^2-C) Need estimate!!

n_ring 10 !number of meshes in pellet DEPL inp_hst 'cyc3_BOC.parcs_cyc-02' 1 2 inp_opt F F F T hst_opt T T F F F out_opt T T F F F file 'pmax.dir' MCYCLE bank_def 1 144.0 144.0 144.0 136.8 144.0 144.0 144.0 0.0 bank_def 2 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 3 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 4 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 5 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 6 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 7 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 8 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 9 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 10 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 11 144.0 144.0 144.0 137.7 144.0 144.0 144.0 0.0 bank_def 12 144.0 144.0 144.0 142.7 144.0 144.0 144.0 0.0

C-14 bank_def 13 144.0 144.0 144.0 142.7 144.0 144.0 144.0 0.0 bank_def 14 144.0 144.0 144.0 142.7 144.0 144.0 144.0 0.0 bank_def 15 144.0 144.0 144.0 142.7 144.0 144.0 144.0 0.0 bank_def 16 144.0 144.0 144.0 142.7 144.0 144.0 144.0 0.0 bank_def 17 144.0 144.0 144.0 142.7 144.0 144.0 144.0 0.0 bank_def 18 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 bank_def 19 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 bank_def 20 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 bank_def 21 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 bank_def 22 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 bank_def 23 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 bank_def 24 144.0 144.0 144.0 144.0 144.0 144.0 144.0 0.0 cycle_def 1 depl_step -0.5 -0.4 -0.1 -0.5 -0.5 -0.5 -0.5 -0.5 -0.5 -0.149 -0.001 -0.35

-0.5 -0 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 power_lev 84 96 96 97 54 100 99 85 100 79 100 79 73 10 inlet_ent 24*-554.82 flow_rate 24*77.85 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

D-1 APPENDIX D. PROGRAM TO COMPARE FLUX MAPS FOR PWRs D.1 Program Source program DetectorResponse

! This is for the PWR detector response implicit none character(4) :: ss4, ss4x character(10) :: ss10, ss10x character(100) :: ctitle, file1, file2, ofile character(400) :: ssw character ::oneline*300 integer :: nmeasure,nburn,naxial,ndets,nassembly,nxa,nya,numdet,nassembly0,ncyc integer :: i,j,k,nx,nz,nid,ix,ix2,i2,j1,j2,k2,idparcs,kid,ip,nline,iy2,il,idum,ntyp integer,allocatable :: nidmeasure(:),numx(:),mapaxial(:,:),mapradial(:),config_det(:,:)

character(4),allocatable :: cDET(:),mDET(:),mDET_idx(:),config_idx(:,:)

character(4),allocatable :: cDET2(:),mDET2(:)

character(5),allocatable ::

typid(:),cyc1_id(:,:),cyc1_typ(:,:),cyc_typid(:,:),shuf_map(:,:),shuf_typid(:,:)

real,allocatable :: weight(:),axialmesh(:),datax(:,:)

real :: tempr,sumfa,totsum,sum0,sum1,sum2,sum3,diff,diff2,zpoint,x1,x2,y1,y2,yout real :: mao,cao,dz logical :: kr, chk type meas_type integer :: nid,ndets,naxial,ndets_active real :: burnup,efpd character(4),allocatable :: mDET(:)

real,allocatable :: axialmesh(:)

real,allocatable :: mpownodal(:,:),mpowradial(:),mpowaxial(:)

real,allocatable :: mpownodal2(:,:),mpowradial2(:),mpowaxial2(:)

real,allocatable :: cpownodal(:,:),cpowradial(:),cpowaxial(:)

real,allocatable :: cpownodal2(:,:),cpowradial2(:),cpowaxial2(:)

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 logical :: axial_inverse, read_power, read_shuffle logical :: cal_to_map, extrap

! read input file read_power =.false.

axial_inverse =.false.

cal_to_map =.false.

open(1,file='TP_DetRes.in',status='old')

read(1,*) !%TITLE read(1,*) ctitle ofile=""

write(ofile,*) trim(ctitle)//".out" open(21,file=ofile,status='unknown')

read(1,*) !%MEASURED read(1,*) ss10, file1 if (ss10.eq. 'INV') axial_inverse =.true.

read(1,*) ss10, nmeasure, ndets allocate(nidmeasure(nmeasure))

read(1,*) (nidmeasure(i),i=1,nmeasure) !% index mapping to parcs caase read(1,*) !%CALCULATED read(1,*) ss10, file2 if (ss10.eq. 'POWER') read_power =.true.

read(1,*) ss10,nburn,naxial,nassembly,nassembly0 if (ss10.eq. 'CTM') cal_to_map =.true.

allocate(axialmesh(0:naxial))

do i=0,naxial read(1,*) axialmesh(i) enddo read(1,*) !%INDEX allocate(mDET(ndets),mDET_idx(ndets),cDET(ndets),weight(ndets))

do i=1,ndets

D-2 read(1,*) ix,mDET(i),cDET(i) !Detector names in meas. and calc.

enddo read(1,*) !%CORE_CAL read(1,*) nxa,nya allocate(config_det(nxa,nya))

do j=1,nya read(1,*) (config_det(i,j),i=1,nxa) enddo read(1,*) !%CORE_MEA allocate(config_idx(nxa,nya))

do j=1,nya read(1,*) (config_idx(i,j),i=1,nxa) enddo do i=1,nxa do j=1,nya if (config_det(i,j).ne.0) then mDET_idx(config_det(i,j))=config_idx(i,j) endif enddo enddo allocate(mDET2(ndets),cDET2(ndets))

read(1,*) !%CORE_MEA do i=1,ndets read(1,*) mDET2(i) enddo read(1,*) !%CORE_MEA do i=1,ndets read(1,*) cDET2(i) enddo

! mapping config_idx to config_det (cal map name)

! read calculated data open(3,file=file2,status='old')

read(3,*)

allocate(calcdata(nburn))

if (read_power) then allocate(datax(naxial,nassembly0))

do i=1,nburn allocate(calcdata(i)%cDET(nassembly))

allocate(calcdata(i)%pownodal(naxial,nassembly))

rewind(3) do while (.true.)

read(3,'(x,a10)',end=111) ss10 if (ss10== 'BEGIN STEP') then read(3,*) ss10 read(3,*) ss10 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,*) ss10 datax=0.0 do ip=1,(nassembly0-1)/10+1 read(3,*) ss10 if (ip== (nassembly0-1)/10+1) then nline=mod(nassembly0,10) else nline=10 endif 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 ix=ix+1 ss4=

write(ss4,'("D",i3.3)') ix do ix2=1,nassembly

D-3 if (ss4==cDET(ix2)) exit enddo if (ix2<=nassembly) then calcdata(i)%pownodal(:,ix2)=datax(:,j) calcdata(i)%cDET(ix2)=ss4 endif enddo enddo else do i=1,nburn allocate(calcdata(i)%cDET(nassembly))

allocate(calcdata(i)%pownodal(naxial,nassembly))

read(3,*) ss10,ss10,ss10,ss10,(calcdata(i)%cDET(k),k=1,nassembly) do j=naxial,1,-1 read(3,*) tempr,tempr,tempr,tempr,(calcdata(i)%pownodal(j,k),k=1,nassembly) enddo enddo endif 111 continue

! read measured data open(2,file=file1,status='old')

allocate(measdata(nmeasure))

read(2,*) ss10,nx,nz if (nx.ne. nmeasure) then write(6,*) "Error: # of cases do not match in the measured data" stop endif do i=1,nmeasure idparcs=nidmeasure(i) read(2,*) ! skip line 1 read(2,'(20x,f6.0)') measdata(i)%burnup read(2,*) ss10, measdata(i)%ndets measdata(i)%naxial=nz 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) if (axial_inverse) then do j=measdata(i)%naxial,1,-1 read(2,*) measdata(i)%axialmesh(j),(measdata(i)%mpownodal(j,k),k=1,measdata(i)%ndets) enddo else do j=1,measdata(i)%naxial read(2,*) measdata(i)%axialmesh(j),(measdata(i)%mpownodal(j,k),k=1,measdata(i)%ndets) enddo endif 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

D-4 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(measdata(i)%cpownodal2(measdata(i)%naxial,measdata(i)%ndets))

allocate(measdata(i)%cpowradial2(measdata(i)%ndets))

allocate(measdata(i)%cpowaxial2(measdata(i)%naxial))

allocate(mapradial(measdata(i)%ndets))

if (cal_to_map) then allocate(mapaxial(measdata(i)%naxial,2))

!axial mesh mapping (calcualted upper and lower to calcualted) mapaxial(:,:)=0 do j=1,measdata(i)%naxial zpoint=measdata(i)%axialmesh(j) ! measured point do j2=0,naxial-1 if ((zpoint-axialmesh(j2))*(zpoint-axialmesh(j2+1)) < 0.0) then nid=j2 exit elseif ((zpoint-axialmesh(j2))*(zpoint-axialmesh(j2+1))== 0.0) then if (zpoint== axialmesh(j2)) then nid=j2 else nid=j2+1 endif exit endif enddo mapaxial(j,1)=nid mapaxial(j,2)=nid+1 if (zpoint== axialmesh(nid)) mapaxial(j,2)=nid if (zpoint== axialmesh(naxial)) mapaxial(j,1)=naxial enddo else allocate(mapaxial(naxial,2))

!axial mesh mapping (measured upper and lower to calcualted) mapaxial(:,:)=0 do j=1,naxial zpoint=0.5*(axialmesh(j-1)+axialmesh(j)) ! calculated point of Parcs

!zpoint=axialmesh(j) ! calculated point 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 endif exit endif enddo if (nid > measdata(i)%naxial) nid=nid-1 mapaxial(j,1)=nid mapaxial(j,2)=nid+1 if (zpoint== measdata(i)%axialmesh(nid)) mapaxial(j,2)=nid if (zpoint== measdata(i)%axialmesh(nid+1)) mapaxial(j,1)=nid+1 enddo endif

!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_idx(k2)) then

!write(21,*) k,measdata(i)%mDET(k)," ", mDET_idx(k2) kr=.true.

kid=k2 exit endif enddo

D-5 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

!write(21,*) k2,calcdata(idparcs)%cDET(k2)," ", cDET(kid) 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 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 write(21,'("sum for calculated = ",2f10.3)")') sum0 if (cal_to_map) then

!Data re-assignment for the calculated (calculated data to measured mesh) measdata(i)%cpownodal2(:,:)=0.0 do j=1,measdata(i)%naxial zpoint=measdata(i)%axialmesh(j) j1=mapaxial(j,1) ! lower bound of cpow j2=mapaxial(j,2) ! upper bound of cpow extrap=.false.

if (j1==0.and. j2==0) then j1=1 j2=2 extrap=.true.

x1=(axialmesh(0)+axialmesh(1))/2 x2=(axialmesh(1)+axialmesh(2))/2 else if (j1==naxial.and. j2==naxial) then j1=naxial-1 j2=naxial extrap=.true.

x1=(axialmesh(j1-1)+axialmesh(j1))/2 x2=(axialmesh(j1)+axialmesh(j2))/2 else x1=(axialmesh(j1)+axialmesh(j2))/2 endif if(.not.extrap) then if (zpoint>x1) then x2=(axialmesh(j2)+axialmesh(j2+1))/2 ! mid point of upper cpow j2=j2+1 j1=j1+1 ! adjust to upper cell to match we cpownodal index else if (zpoint<x1) then x2=x1 x1=(axialmesh(j1)+axialmesh(j1-1))/2 ! mid point of lower cpow endif endif

D-6 do k=1,measdata(i)%ndets if (.not.measdata(i)%ldata(k)) cycle y1=measdata(i)%cpownodal(j1,k) y2=measdata(i)%cpownodal(j2,k) if (extrap) then ! linear extrapolation if (j1==1) then yout=y1-(y2-y1)/(x2-x1)*(x1-axialmesh(0))

else if(j2==naxial) then yout=y2-(y1-y2)/(x2-x1)*(axialmesh(naxial)-x2) endif elseif (j1== j2) then yout=measdata(i)%cpownodal(j1,k) else yout=(y2-y1)*zpoint/(x2-x1)+(y1*x2-y2*x1)/(x2-x1) endif measdata(i)%cpownodal2(j,k)=yout enddo enddo measdata(i)%cpowradial2(:)=0.0 measdata(i)%cpowaxial2(:)=0.0 sum0=0.0 do j=1,measdata(i)%naxial do k=1,measdata(i)%ndets measdata(i)%cpowradial2(k)=measdata(i)%cpowradial2(k)+measdata(i)%cpownodal2(j,k) measdata(i)%cpowaxial2(j)=measdata(i)%cpowaxial2(j)+measdata(i)%cpownodal2(j,k) sum0=sum0+measdata(i)%cpownodal2(j,k) enddo enddo write(21,'("sum for measured = ",2f10.3)")') sum0

!normalization do k=1,measdata(i)%ndets measdata(i)%cpowradial2(k)=measdata(i)%cpowradial2(k)/sum0*float(measdata(i)%ndets_active) enddo do j=1,measdata(i)%naxial measdata(i)%cpowaxial2(j)=measdata(i)%cpowaxial2(j)/sum0*float(measdata(i)%naxial) enddo do j=1,measdata(i)%naxial do k=1,measdata(i)%ndets measdata(i)%cpownodal2(j,k)=measdata(i)%cpownodal2(j,k)/sum0*float(measdata(i)%ndets_active*measdata(i)%naxial) enddo enddo else

!Data re-assignment for the measured (measure data to calculated mesh) 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 write(21,'("sum for measured = ",2f10.3)")') sum0

!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

D-7 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 endif

!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 if (cal_to_map) then do j=1,measdata(i)%naxial do k=1,measdata(i)%ndets if (.not.measdata(i)%ldata(k)) cycle diff=measdata(i)%cpownodal2(j,k)-measdata(i)%mpownodal(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)%cpowradial2(k)-measdata(i)%mpowradial(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,measdata(i)%naxial diff=measdata(i)%cpowaxial2(j)-measdata(i)%mpowaxial(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*measdata(i)%axialmesh(measdata(i)%naxial) do j=1,measdata(i)%naxial-1 dz=measdata(i)%axialmesh(j+1)-measdata(i)%axialmesh(j) sum1=sum1+measdata(i)%mpowaxial(j)*dz sum2=sum2+measdata(i)%cpowaxial2(j)*dz if (zpoint > measdata(i)%axialmesh(j+1)) then mao=mao+measdata(i)%mpowaxial(j)*dz cao=cao+measdata(i)%cpowaxial2(j)*dz elseif (zpoint < measdata(i)%axialmesh(j)) then cycle elseif (zpoint > measdata(i)%axialmesh(j).and. zpoint < measdata(i)%axialmesh(j+1) ) then dz=abs(zpoint-measdata(i)%axialmesh(j))

mao=mao+measdata(i)%mpowaxial(j+1)*dz cao=cao+measdata(i)%cpowaxial2(j+1)*dz endif enddo mao=(sum1-2.0*mao)/sum1*100.0 cao=(sum2-2.0*cao)/sum2*100.0 else 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

D-8 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-1 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 endif if (i==1) write(21,*) ctitle if (cal_to_map) then 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*measdata(i)%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,measdata(i)%naxial write(21,'("% axial offsets ",2f10.3)")') mao,cao write(21,*)

write(21,'(a5,4a10)') "axial","loc","exp","cal","rel.err" do j=1,measdata(i)%naxial diff=(measdata(i)%cpowaxial2(j)-measdata(i)%mpowaxial(j))*100.0 zpoint=measdata(i)%axialmesh(j) write(21,'(i5,4f10.3)') j,zpoint,measdata(i)%mpowaxial(j),measdata(i)%cpowaxial2(j),diff enddo write(21,*)

write(21,'(a6,a4,3a10)') "radial","id","exp","cal","rel.err" do k=1,measdata(i)%ndets diff=(measdata(i)%cpowradial2(k)-measdata(i)%mpowradial(k))*100.0 write(21,'(i6,a4,3f10.3)')

k,measdata(i)%mDET(k),measdata(i)%mpowradial(k),measdata(i)%cpowradial2(k),diff enddo write(21,'("sum = ",2f10.3)")') sum1, sum2 write(21,'(a15)') " 3D distribution" write(21,'(a6,100a10)') "id","axialloc",(measdata(i)%mDET(k),k=1,measdata(i)%ndets) do j=1,measdata(i)%naxial zpoint=measdata(i)%axialmesh(j) write(21,'(i5,100f10.3)') j,zpoint,(measdata(i)%cpownodal2(j,k),k=1,measdata(i)%ndets) enddo else 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,*)

write(21,'(a5,4a10)') "axial","loc","exp","cal","rel.err"

D-9 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 write(21,*)

write(21,'(a6,a4,3a10)') "radial","id","exp","cal","rel.err" do k=1,measdata(i)%ndets diff=(measdata(i)%cpowradial(k)-measdata(i)%mpowradial2(k))*100.0 write(21,'(i6,a4,3f10.3)')

k,measdata(i)%mDET(k),measdata(i)%mpowradial2(k),measdata(i)%cpowradial(k),diff enddo write(21,'("sum = ",2f10.3)")') sum1, sum2 do j=1,naxial write(21,'(i6,31f10.3)') j,(measdata(i)%cpownodal(j,k),k=1,measdata(i)%ndets) enddo endif deallocate(mapaxial) deallocate(mapradial) enddo 100 continue close(21) stop end D.2 Cycle-1 Input

%TITLE TP_cyc1_explicit

%MEASURED INV TP_cyc1.measure DET 5 50 2 8 16 21 29

%CALCULATED DET TP_cyc1.parcs_det CTM 29 39 50 221 15.240 19.861 23.671 33.502 43.334 53.165 62.997 72.828 82.660 86.470 96.974 107.479 117.984 128.489 138.994 149.498 153.308 163.813 174.318 184.823 195.328 205.833 216.337 220.147 230.652 241.157 251.662 262.167 272.672 283.176 286.986 297.483 307.979 318.475 328.972 339.468 349.964 353.774 368.584

D-10 383.393

%INDEX 1 D001 D001 2 D002 D002 3 D003 D003 4 D004 D004 5 D005 D005 6 D006 D006 7 D007 D007 8 D008 D008 9 D009 D009 10 D010 D010 11 D011 D011 12 D012 D012 13 D013 D013 14 D014 D014 15 D015 D015 16 D016 D016 17 D017 D017 18 D018 D018 19 D019 D019 20 D020 D020 21 D021 D021 22 D022 D022 23 D023 D023 24 D024 D024 25 D025 D025 26 D026 D026 27 D027 D027 28 D028 D028 29 D029 D029 30 D030 D030 31 D031 D031 32 D032 D032 33 D033 D033 34 D034 D034 35 D035 D035 36 D036 D036 37 D037 D037 38 D038 D038 39 D039 D039 40 D040 D040 41 D041 D041 42 D042 D042 43 D043 D043 44 D044 D044 45 D045 D045 46 D046 D046 47 D047 D047 48 D048 D048 49 D049 D049 50 D050 D050

%CORE_CAL 15 15 0

0 0

18 0

0 0

0 31 0

0 0

0 1

0 0

9 45 0

0 0

10 0

0 0

13 0

0 37 0

3 0

0 0

22 0

50 0

24 0

0 0

49 39 0

7 0

0 0

40 0

0 8

0 15 0

0 0

33 0

0 0

28 0

20 0

0 29 0

17 0

36 0

46 0

4 0

0 0

0 5

0 0

44 25 0

0 0

11 0

0 0

19 32 0

0 0

0 34 0

0 26 0

0 0

23 0

0 0

0 41 0

12 0

0 0

48 0

0 38 0

21 47 0

0 0

0 35 0

0 0

16 0

0 0

0 6

27 0

0 0

43 0

14 0

0 0

D-11 0

0 0

0 30 0

0 0

42 0

0 0

0 2

0 0

%CORE_MEA R1 P1 N1 M1 L1 K1 J1 H1 G1 F1 E1 D1 C1 B1 A1 R2 P2 N2 M2 L2 K2 J2 H2 G2 F2 E2 D2 C2 B2 A2 R3 P3 N3 M3 L3 K3 J3 H3 G3 F3 E3 D3 C3 B3 A3 R4 P4 N4 M4 L4 K4 J4 H4 G4 F4 E4 D4 C4 B4 A4 R5 P5 N5 M5 L5 K5 J5 H5 G5 F5 E5 D5 C5 B5 A5 R6 P6 N6 M6 L6 K6 J6 H6 G6 F6 E6 D6 C6 B6 A6 R7 P7 N7 M7 L7 K7 J7 H7 G7 F7 E7 D7 C7 B7 A7 R8 P8 N8 M8 L8 K8 J8 H8 G8 F8 E8 D8 C8 B8 A8 R9 P9 N9 M9 L9 K9 J9 H9 G9 F9 E9 D9 C9 B9 A9 R10 P10 N10 M10 L10 K10 J10 H10 G10 F10 E10 D10 C10 B10 A10 R11 P11 N11 M11 L11 K11 J11 H11 G11 F11 E11 D11 C11 B11 A11 R12 P12 N12 M12 L12 K12 J12 H12 G12 F12 E12 D12 C12 B12 A12 R13 P13 N13 M13 L13 K13 J13 H13 G13 F13 E13 D13 C13 B13 A13 R14 P14 N14 M14 L14 K14 J14 H14 G14 F14 E14 D14 C14 B14 A14 R15 P15 N15 M15 L15 K15 J15 H15 G15 F15 E15 D15 C15 B15 A15 D.3 Cycle-2 Input

%TITLE TP_cyc2_test

%MEASURED INV TP_cyc2.measure SS10 5 50 2 7 13 17 23

%CALCULATED DET TP_cyc2_test.parcs_det CTM 24 39 50 251 15.240 19.861 23.671 33.502 43.334 53.165 62.997 72.828 82.660 86.470 96.974 107.479 117.984 128.489 138.994 149.498 153.308 163.813 174.318 184.823 195.328 205.833 216.337 220.147 230.652 241.157 251.662 262.167 272.672 283.176 286.986 297.483 307.979

D-12 318.475 328.972 339.468 349.964 353.774 368.584 383.393

%INDEX 1 D001 D001 2 D002 D002 3 D003 D003 4 D004 D004 5 D005 D005 6 D006 D006 7 D007 D007 8 D008 D008 9 D009 D009 10 D010 D010 11 D011 D011 12 D012 D012 13 D013 D013 14 D014 D014 15 D015 D015 16 D016 D016 17 D017 D017 18 D018 D018 19 D019 D019 20 D020 D020 21 D021 D021 22 D022 D022 23 D023 D023 24 D024 D024 25 D025 D025 26 D026 D026 27 D027 D027 28 D028 D028 29 D029 D029 30 D030 D030 31 D031 D031 32 D032 D032 33 D033 D033 34 D034 D034 35 D035 D035 36 D036 D036 37 D037 D037 38 D038 D038 39 D039 D039 40 D040 D040 41 D041 D041 42 D042 D042 43 D043 D043 44 D044 D044 45 D045 D045 46 D046 D046 47 D047 D047 48 D048 D048 49 D049 D049 50 D050 D050

%CORE_CAL 15 15 0

0 0

18 0

0 0

0 31 0

0 0

0 1

0 0

9 45 0

0 0

10 0

0 0

13 0

0 37 0

3 0

0 0

22 0

50 0

24 0

0 0

49 39 0

7 0

0 0

40 0

0 8

0 15 0

0 0

33 0

0 0

28 0

20 0

0 29 0

17 0

36 0

46 0

4 0

0 0

0 5

0 0

44 25 0

0 0

11 0

0 0

19 32 0

0 0

0 34 0

0 26 0

0 0

23 0

0 0

0 41 0

12 0

D-13 0

0 0

0 48 0

0 38 0

21 47 0

0 0

0 35 0

0 0

16 0

0 0

0 6

27 0

0 0

43 0

14 0

0 0

30 0

0 0

42 0

0 0

0 2

0 0

%CORE_MEA R1 P1 N1 M1 L1 K1 J1 H1 G1 F1 E1 D1 C1 B1 A1 R2 P2 N2 M2 L2 K2 J2 H2 G2 F2 E2 D2 C2 B2 A2 R3 P3 N3 M3 L3 K3 J3 H3 G3 F3 E3 D3 C3 B3 A3 R4 P4 N4 M4 L4 K4 J4 H4 G4 F4 E4 D4 C4 B4 A4 R5 P5 N5 M5 L5 K5 J5 H5 G5 F5 E5 D5 C5 B5 A5 R6 P6 N6 M6 L6 K6 J6 H6 G6 F6 E6 D6 C6 B6 A6 R7 P7 N7 M7 L7 K7 J7 H7 G7 F7 E7 D7 C7 B7 A7 R8 P8 N8 M8 L8 K8 J8 H8 G8 F8 E8 D8 C8 B8 A8 R9 P9 N9 M9 L9 K9 J9 H9 G9 F9 E9 D9 C9 B9 A9 R10 P10 N10 M10 L10 K10 J10 H10 G10 F10 E10 D10 C10 B10 A10 R11 P11 N11 M11 L11 K11 J11 H11 G11 F11 E11 D11 C11 B11 A11 R12 P12 N12 M12 L12 K12 J12 H12 G12 F12 E12 D12 C12 B12 A12 R13 P13 N13 M13 L13 K13 J13 H13 G13 F13 E13 D13 C13 B13 A13 R14 P14 N14 M14 L14 K14 J14 H14 G14 F14 E14 D14 C14 B14 A14 R15 P15 N15 M15 L15 K15 J15 H15 G15 F15 E15 D15 C15 B15 A15 D.4 Cycle-3 Input

%TITLE TP_cyc3_explicit

%MEASURED INV TP_cyc3.measure SS10 4 50 3 12 18 22

%CALCULATED DET TP_cyc3.parcs_det CTM 22 39 50 251 15.240 19.861 23.671 33.502 43.334 53.165 62.997 72.828 82.660 86.470 96.974 107.479 117.984 128.489 138.994 149.498 153.308 163.813 174.318 184.823 195.328 205.833 216.337 220.147 230.652 241.157 251.662 262.167

D-14 272.672 283.176 286.986 297.483 307.979 318.475 328.972 339.468 349.964 353.774 368.584 383.393

%INDEX 1 D001 D001 2 D002 D002 3 D003 D003 4 D004 D004 5 D005 D005 6 D006 D006 7 D007 D007 8 D008 D008 9 D009 D009 10 D010 D010 11 D011 D011 12 D012 D012 13 D013 D013 14 D014 D014 15 D015 D015 16 D016 D016 17 D017 D017 18 D018 D018 19 D019 D019 20 D020 D020 21 D021 D021 22 D022 D022 23 D023 D023 24 D024 D024 25 D025 D025 26 D026 D026 27 D027 D027 28 D028 D028 29 D029 D029 30 D030 D030 31 D031 D031 32 D032 D032 33 D033 D033 34 D034 D034 35 D035 D035 36 D036 D036 37 D037 D037 38 D038 D038 39 D039 D039 40 D040 D040 41 D041 D041 42 D042 D042 43 D043 D043 44 D044 D044 45 D045 D045 46 D046 D046 47 D047 D047 48 D048 D048 49 D049 D049 50 D050 D050

%CORE_CAL 15 15 0

0 0

18 0

0 0

0 31 0

0 0

0 1

0 0

9 45 0

0 0

10 0

0 0

13 0

0 37 0

3 0

0 0

22 0

50 0

24 0

0 0

49 39 0

7 0

0 0

40 0

0 8

0 15 0

0 0

33 0

0 0

28 0

20 0

0 29 0

17 0

36 0

46 0

4 0

0 0

0 5

0 0

44 25 0

D-15 0

0 0

0 11 0

0 0

19 32 0

0 0

0 34 0

0 26 0

0 0

23 0

0 0

0 41 0

12 0

0 0

48 0

0 38 0

21 47 0

0 0

0 35 0

0 0

16 0

0 0

0 6

27 0

0 0

43 0

14 0

0 0

30 0

0 0

42 0

0 0

0 2

0 0

%CORE_MEA R1 P1 N1 M1 L1 K1 J1 H1 G1 F1 E1 D1 C1 B1 A1 R2 P2 N2 M2 L2 K2 J2 H2 G2 F2 E2 D2 C2 B2 A2 R3 P3 N3 M3 L3 K3 J3 H3 G3 F3 E3 D3 C3 B3 A3 R4 P4 N4 M4 L4 K4 J4 H4 G4 F4 E4 D4 C4 B4 A4 R5 P5 N5 M5 L5 K5 J5 H5 G5 F5 E5 D5 C5 B5 A5 R6 P6 N6 M6 L6 K6 J6 H6 G6 F6 E6 D6 C6 B6 A6 R7 P7 N7 M7 L7 K7 J7 H7 G7 F7 E7 D7 C7 B7 A7 R8 P8 N8 M8 L8 K8 J8 H8 G8 F8 E8 D8 C8 B8 A8 R9 P9 N9 M9 L9 K9 J9 H9 G9 F9 E9 D9 C9 B9 A9 R10 P10 N10 M10 L10 K10 J10 H10 G10 F10 E10 D10 C10 B10 A10 R11 P11 N11 M11 L11 K11 J11 H11 G11 F11 E11 D11 C11 B11 A11 R12 P12 N12 M12 L12 K12 J12 H12 G12 F12 E12 D12 C12 B12 A12 R13 P13 N13 M13 L13 K13 J13 H13 G13 F13 E13 D13 C13 B13 A13 R14 P14 N14 M14 L14 K14 J14 H14 G14 F14 E14 D14 C14 B14 A14 R15 P15 N15 M15 L15 K15 J15 H15 G15 F15 E15 D15 C15 B15 A15 D.5 Cycle-1 Power Map Measured Data cyc1 5 61 MAP1 Date time MWT press P/L HT 1/13/1973 350 2250 144 num_det 50 M3 J15 F4 L8 F8 D12 B5 H6 J3 D3 L9 B10 L4 F13 F6 J12 B7 H1 G9 G7 F11 N5 J10 J5 B8 N10 C12 J7 D7 L14 F2 F9 N7 A9 N12 R8 H4 H11 D5 L6 D10 G14 H13 C8 H3 N8 E11 L11 E5 L5 383.393 0.0725 0.0716 0.1416 0.0807 0.1082 0.1332 0.0718 0.1332 0.1078 0.0670 0.1318 0.0908 0.1184 0.0778 0.1262 0.1046 0.0893 0.0897 0.1446 0.1261 0.1045 0.1015 0.1082 0.1002 0.1359 0.0987 0.0829 0.1123 0.0912 0.0824 0.0637 0.0998 0.1324 0.0718 0.0809 0.1054 0.0781 0.0981 0.1119 0.0987 0.1185 0.0934 0.0914 0.1010 0.0989 0.0942 0.1404 0.1119 0.1305 0.1603 370.245 0.1107 0.1172 0.2378 0.1412 0.2193 0.2137 0.1096 0.2164 0.2184 0.1154 0.2170 0.1475 0.1974 0.1613 0.2152 0.1596 0.1758 0.1386 0.2225 0.2242 0.1865 0.1635 0.1937 0.1775 0.2434 0.1918 0.1186 0.2190 0.1652 0.1142 0.1371 0.1739 0.2179 0.1179 0.1195 0.1453 0.1060 0.1597 0.1930 0.1946 0.2173 0.1698 0.1542 0.1530 0.1582 0.1655 0.2443 0.2152 0.2354 0.2515 357.096 0.1890 0.1954 0.3992 0.2564 0.3646 0.3524 0.1842 0.3829 0.3631 0.1907 0.3735 0.2553 0.3186 0.2939 0.3816 0.2752 0.2930 0.2392 0.3782 0.3671 0.3221 0.2734 0.3162 0.3321 0.3878 0.3187 0.1949 0.3651 0.2792 0.1900 0.2543 0.3079 0.3778 0.1952 0.2013 0.2393 0.1758 0.2718 0.3216 0.3271 0.3866 0.2887 0.2655 0.2656 0.2628 0.2797 0.4072 0.3787 0.3999 0.4173 343.948 0.2481 0.2540 0.5125 0.3284 0.4814 0.4412 0.2386 0.4939 0.4794 0.2512 0.3323 0.3234 0.4201 0.3745 0.4906 0.3523 0.3907 0.3153 0.4727 0.4792 0.4266 0.3580 0.4244 0.4237 0.5123 0.4089 0.2533 0.4746 0.3675 0.2509 0.3257 0.4077 0.4798 0.2587 0.2703 0.3162 0.2372 0.3447 0.4223 0.4174 0.5165 0.3850 0.3483 0.3464 0.3448 0.3625 0.5308 0.4935 0.5077 0.5444 330.800 0.3426 0.3377 0.6908 0.4811 0.6608 0.6133 0.3298 0.6715 0.6410 0.3377 0.6756 0.4568 0.5695 0.5416 0.7058 0.5119 0.5275 0.4295 0.6479 0.6558 0.5820 0.4820 0.5697 0.6270 0.6793 0.5696 0.3399 0.6487 0.4986 0.3351 0.4714 0.5645 0.6784 0.3490 0.3502 0.4302 0.3125 0.4960 0.5789 0.5894 0.6999 0.5067 0.4768 0.4879 0.4804 0.4995 0.7273 0.7058 0.7091 0.7406 317.651 0.4094 0.4019 0.8182 0.5791 0.7947 0.7381 0.3961 0.8130 0.7630 0.4047 0.8102 0.5447 0.6795 0.6569 0.8521 0.6054 0.6224 0.5029 0.7842 0.7847 0.7120 0.5751 0.6864 0.7644 0.8067 0.6824 0.4068 0.7835 0.6011 0.3969 0.5629 0.6814 0.8135 0.4171 0.4164 0.5043 0.3822 0.5941 0.6936 0.7106 0.8410 0.6029 0.5710 0.5803 0.5708 0.5937 0.8678 0.8550 0.8453 0.8815 304.503 0.4638 0.4493 0.9286 0.6626 0.9057 0.8325 0.4431 0.9351 0.8623 0.4549 0.9200 0.6213 0.7697 0.7519 0.9726 0.6907 0.7061 0.5654 0.8954 0.8996 0.8052 0.6455 0.7804 0.8818 0.9114 0.7839 0.4376 0.8958 0.6837 0.4437 0.6286 0.7869 0.9163 0.4696 0.4679 0.5698 0.4353 0.6782 0.7803 0.8150 0.9539 0.6793 0.6423 0.6669 0.6499 0.6736 0.9857 0.9726 0.9616 0.9976 291.355 0.5020 0.4847 1.0107 0.7433 0.9997 0.9046 0.4818 1.0267 0.9445 0.4912 1.0106 0.6781 0.8346 0.8239 1.0759 0.7651 0.7675 0.6143 0.9844 0.9921 0.8787 0.7019 0.8573 0.9763 0.9879 0.8516 0.4953 0.9857 0.7464 0.4802 0.6829 0.8696 1.0121 0.5092 0.5065 0.6097 0.4799 0.7567 0.8446 0.8911 1.0470 0.7359 0.7052 0.7304 0.7065 0.7364 1.0728 1.0615 1.0552 1.0888 278.206 0.5087 0.5061 1.0447 0.7750 1.0254 0.9157 0.4910 1.0572 0.9616 0.5079 1.0463 0.6809 0.8571 0.8384 1.1046 0.7816 0.8010 0.6252 1.0094 1.0341 0.9126 0.7188 0.9001 0.9963 1.0360 0.8685 0.5103 1.0306 0.7778 0.4980 0.6971 0.9152 1.0562 0.5322 0.5194 0.6353 0.5273 0.7791 0.8698 0.9052 1.0978 0.7586 0.7280 0.7535 0.7347 0.7678 1.1008 1.0759 1.0778 1.1109 265.058 0.6003 0.5935 1.2514 0.9680 1.2646 1.0822 0.5877 1.3014 1.1856 0.5972 1.2853 0.8199 1.0066 1.0054 1.3456 0.9797 0.9322 0.7502 1.2513 1.2723 1.0934 0.8457 1.0766 1.2569 1.2313 1.0462 0.5932 1.2525 0.9401 0.5813 0.8371 1.1091 1.2630 0.6105 0.6076 0.7407 0.6780 0.9837 1.0292 1.0998 1.3038 0.9030 0.8907 0.9238 0.8845 0.9362 1.3227 1.3025 1.3048 1.3264 251.910 0.6470 0.6419 1.3760 1.1178 1.4213 1.1710 0.6347 1.4624 1.3203 0.5489 1.4473 0.8830 1.0912 1.1092 1.4947 1.1228 1.0243 0.8128 1.4209 1.4433 1.1980 0.9246 1.1991 1.4287 1.3558 1.1534 0.6403 1.4069 1.0712 0.6281 0.9086 1.2460 1.4037 0.6713 0.6582 0.8034 1.1161 1.1350 1.1187 1.2126 1.4393 0.9879 1.0106 1.0537 1.0117 1.0760 1.4434 1.4316 1.4352 1.4453 238.761 0.6852 0.6810 1.4836 1.2763 1.5665 1.1849 0.6724 1.6011 1.4636 0.6744 1.5874 0.9504 1.1560 1.1927 1.6238 1.2632 1.0912 0.8644 1.5822 1.6058 1.2827 0.9810 1.3130 1.5833 1.4577 1.2380 0.6779 1.5586 1.2193 0.6637 0.9686 1.3572 1.5222 0.7118 0.6959 0.8575 1.4732 1.2947 1.1830 1.3028 1.5465 1.0558 1.1477 1.1981 1.1473 1.2187 1.5417 1.5234 1.5232 1.5337 225.613 0.7091 0.7042 1.5515 1.3886 1.6748 1.2765 0.6945 1.6871 1.5487 0.6921 1.6780 0.9930 1.1927 1.2446 1.6984 1.3430 1.1415 0.8943 1.6907 1.7179 1.3364 1.0120 1.3900 1.6777 1.5144 1.2803 0.7015 1.6821 1.3162 0.6843 1.0029 1.4370 1.6022 0.7376 0.7170 0.8917 1.5987 1.3984 1.2277 1.3649 1.6030 1.1011 1.2419 1.3049 1.2434 1.3129 1.5895 1.5837 1.5742 1.5779 212.465 0.6852 0.6912 1.4949 1.3800 1.6406 1.2459 0.6595 1.6483 1.5118 0.6661 1.6423 0.9476 1.1673 1.2158 1.6525 1.3375 1.1191 0.8699 1.6684 1.6699 1.3053 0.9782 1.3843 1.6319 1.4719 1.2295 0.6789 1.6878 1.3190 0.6740 0.9714 1.4228 1.5691 0.7265 0.6949 0.8860 1.5904 1.3928 1.2026 1.3254 1.5776 1.0756 1.2333 1.3107 1.2490 1.2987 1.5389 1.5378 1.5118 1.5503 199.316 0.7702 0.7684 1.4326 1.5960 1.9083 1.4013 0.7535 1.7288 1.7217 0.7386 1.8675 1.0894 1.3195 1.3800 1.8849 1.5081 1.2615 0.9813 1.9215 1.9421 1.4918 1.0994 1.5665 1.8553 1.6729 1.4072 0.7504 1.9517 1.5128 0.7479 1.0857 1.6109 1.7787 0.8075 0.7786 0.9886 1.7773 1.5834 1.3424 1.5256 1.7723 1.2341 1.4246 1.5041 1.4242 1.4956 1.7439 1.7529 1.7274 1.7382 186.168 0.8093 0.8010 1.5090 1.6825 2.0109 1.4541 0.7848 1.9868 1.8011 0.7665 1.9499 1.1405 1.3759 1.4462 1.9882 1.5769 1.3173 1.0221 2.0188 2.0318 1.5568 1.1417 1.6463 1.9383 1.7465 1.4666 0.7815 2.0585 1.5897 0.7779 1.1371 1.6822 1.8559 0.8333 0.8117 1.0342 1.8471 1.6590 1.3983 1.6017 1.8513 1.2879 1.4960 1.5878 1.4892 1.5784 1.8169 1.8362 1.8040 1.8073 173.020 0.8235 0.8121 1.5345 1.6998 2.0451 1.4652 0.8005 2.0146 1.8238 0.7758 1.9746 1.1547 1.3872 1.4750 2.0284 1.6044 1.3340 1.0329 2.0577 2.0682 1.5737 1.1529 1.6662 1.9726 1.7691 1.4889 0.7937 2.0950 1.6153 0.7929 1.1543 1.7050 1.8807 0.8379 0.8209 1.0569 1.8666 1.6815 1.4151 1.6243 1.8739 1.2964 1.5216 1.6080 1.5033 1.6126 1.8394 1.8648 1.8267 1.8266 159.871 0.8112 0.7944 1.5062 1.6796 2.0194 1.4430 0.7913 2.0035 1.8068 0.7563 1.9581 1.1377 1.3590 1.4635 2.0054 1.5906 1.3117 1.0166 2.0466 2.0430 1.5398 1.1417 1.6463 1.9669 1.7493 1.4664 0.7787 2.0725 1.5840 0.7760 1.1457 1.6936 1.8587 0.8121 0.8071 1.0370 1.8415 1.6450 1.3899 1.5989 1.8513 1.2822 1.5045 1.5936 1.4836 1.5955 1.8197 1.8534 1.8097 1.8073 146.723 0.7425 0.7182 1.6421 1.5442 1.8229 1.3125 0.7185 1.8259 1.6395 0.6940 1.7961 1.0327 1.2293 1.3252 1.8103 1.4063 1.2029 0.9297 1.8742 1.8664 1.4155 1.0261 1.4811 1.7923 1.6049 1.3226 0.7034 1.8815 1.4330 0.7133 1.0343 1.5511 1.7291 0.7468 0.7372 0.9715 1.6852 1.4909 1.2641 1.4438 1.6735 1.1719 1.3846 1.4608 1.3536 1.4528 1.6793 1.6755 1.6451 1.6663 133.575 0.7797 0.7665 1.7610 1.6623 1.9852 1.4124 0.7728 1.9674 1.7671 0.7368 1.9307 1.1150 1.3393 1.4318 1.9452 1.5356 1.2866 0.9976 2.0049 2.0206 1.5201 1.1191 1.5922 1.9182 1.7153 1.4354 0.7514 2.0416 1.5441 0.7676 1.1086 1.6452 1.8146 0.8039 0.7988 1.0313 1.7996 1.6058 1.3452 1.5735 1.7780 1.2681 1.4874 1.5618 1.4553 1.5613 1.8001 1.7960 1.7813 1.7879 120.427 0.7720 0.7582 1.7384 1.6508 1.9681 1.4069 0.7719 1.9619 1.7558 0.7228 1.9471 1.1093 1.3308 1.4289 1.9423 1.5108 1.2643 0.9922 1.9799 1.9953 1.5059 1.1106 1.6150 1.9011 1.6955 1.4213 0.7476 2.0135 1.5213 0.7582 1.1086 1.6452 1.8008 0.8029 0.7961 1.0199 1.7801 1.5946 1.3284 1.5594 1.7667 1.2624 1.4703 1.5590 1.4412 1.5470 1.7720 1.7845 1.7614 1.7741 107.278 0.7406 0.7191 1.6619 1.5788 1.8742 1.3431 0.7378 1.8647 1.6934 0.6884 1.8290 1.0554 1.2688 1.3713 1.8620 1.4503 1.2057 0.9460 1.8909 1.9001 1.4240 1.0627 1.5409 1.7951 1.6134 1.3620 0.7137 1.9152 1.4387 0.7227 1.0771 1.5739 1.7263 0.7716 0.7602 0.9715 1.6964 1.5161 1.2613 1.4861 1.6876 1.2143 1.4046 1.5012 1.3790 1.4928 1.6821 1.7099 1.6848 1.6940 94.130 0.6747 0.6577 1.5147 1.4462 1.7090 1.2293 0.6733 1.7121 1.5515 0.6251 1.6643 0.9646 1.1588 1.2561 1.7099 1.3375 1.1136 0.8617 1.7463 1.7347 1.3053 0.9782 1.4042 1.6520 1.4804 1.2577 0.6516 1.7608 1.3190 0.6627 0.9886 1.4427 1.5912 0.7053 0.6894 0.8832 1.5513 1.3844 1.1606 1.3536 1.5578 1.1181 1.2790 1.3828 1.2688 1.3786 1.5389 1.5722 1.5402 1.5447 80.982 0.5583 0.5423 1.2542 1.1725 1.3643 1.0239 0.5462 1.4124 1.2679 0.5219 1.3732 0.8001 0.9361 1.0227 1.3800 1.1008 0.9266 0.7231 1.4543 1.4152 1.0539 0.7949 1.1393 1.3399 1.2143 1.0208 0.5348 1.4350 1.0968 0.5476 0.8086 1.1662 1.3099 0.5783 0.5635 0.7379 1.2723 1.1238 0.9704 1.0998 1.2615 0.9171 1.0563 1.1346 1.0456 1.1131 1.2581 1.2738 1.2452 1.2795

D-16 67.833 0.5421 0.5247 1.1976 1.1466 1.3643 0.9795 0.5389 1.3736 1.2367 0.5033 1.3375 0.7745 0.9135 0.9939 1.3484 1.0678 0.8903 0.6986 1.3959 1.3956 1.0256 0.7837 1.1080 1.3342 1.1832 1.0039 0.5226 1.4041 1.0541 0.5308 0.7886 1.1319 1.2658 0.5626 0.5405 0.7094 1.2277 1.0986 0.9453 1.0744 1.2305 0.8888 1.0249 1.0970 1.0173 1.0932 1.2300 1.2509 1.2253 1.2242 54.685 0.4543 0.4475 1.0192 0.9709 1.1621 0.8297 0.4569 1.1655 1.0495 0.4251 1.1315 0.6582 0.7754 0.8441 1.1447 0.9082 0.7507 0.5953 1.1901 1.1798 0.8702 0.6681 0.9371 1.1395 1.0077 0.8601 0.4435 1.1851 0.8889 0.4521 0.6743 0.9552 1.0700 0.4715 0.4532 0.6011 1.0351 0.9416 0.8054 0.9165 1.0357 0.7586 0.8879 0.9238 0.8788 0.9248 1.0475 1.0558 1.0410 1.0307 41.537 0.3464 0.3461 0.7729 0.7433 0.8972 0.6355 0.3491 0.8963 0.8084 0.3265 0.8678 0.5107 0.5949 0.6511 0.8808 0.7073 0.5861 0.4512 0.9121 0.9164 0.6753 0.5159 0.7206 0.8761 0.7643 0.6711 0.3418 0.9127 0.6809 0.3482 0.5286 0.7299 0.8163 0.3610 0.3484 0.4587 0.8008 0.7370 0.6125 0.7106 0.7958 0.5859 0.6852 0.7131 0.6810 0.7107 0.8172 0.8177 0.7970 0.7959 28.388 0.2042 0.2102 0.4558 0.4523 0.5526 0.3774 0.2174 0.5300 0.4822 0.1954 0.5218 0.3121 0.3609 0.4091 0.5308 0.4376 0.3600 0.2718 0.5339 0.5493 0.4069 0.3214 0.4386 0.5411 0.4472 0.4202 0.2053 0.5560 0.4188 0.2162 0.3229 0.4248 0.4716 0.2210 0.2059 0.2678 0.4743 0.4736 0.3775 0.4456 0.4741 0.3595 0.4168 0.4330 0.4352 0.4281 0.4999 0.4935 0.4907 0.4643 15.240 0.1088 0.1060 0.2095 0.2449 0.2506 0.1804 0.1115 0.2470 0.2241 0.0977 0.2444 0.1646 0.1776 0.2161 0.2496 0.2174 0.1926 0.1386 0.2586 0.2578 0.2063 0.1832 0.2279 0.2548 0.2151 0.2228 0.1092 0.2527 0.2051 0.1114 0.1743 0.2395 0.2427 0.1133 0.1103 0.1339 0.2260 0.2578 0.1986 0.2425 0.2229 0.1981 0.2113 0.2367 0.2289 0.2226 0.2303 0.2266 0.2411 0.2294 MAP2 Date time MWT press P/L HT 6/28/1973 3000 2250 144 num_det 41 M3 J15 F4 L8 F8 J3 D3 B10 L4 F13 F6 B7 G9 G7 F11 N5 J10 J5 B8 N10 C12 J7 D7 L14 F2 F9 A9 R8 H4 H11 D5 L6 D10 G14 H13 C8 H3 N8 E11 L11 E5 383.393 0.1285 0.1159 0.2558 0.2286 0.1418 0.2433 0.1193 0.1512 0.2090 0.2048 0.2602 0.1998 0.2781 0.3059 0.2369 0.1770 0.2383 0.2710 0.2261 0.2235 0.1217 0.3173 0.1953 0.1294 0.1551 0.2358 0.0449 0.1442 0.1259 0.2438 0.2330 0.2820 0.2543 0.1866 0.1675 0.1855 0.2024 0.1890 0.3012 0.2578 0.2670 370.245 0.2152 0.2103 0.4883 0.3777 0.3260 0.4678 0.2187 0.2883 0.3809 0.3734 0.4890 0.3408 0.4884 0.4165 0.4273 0.3091 0.4436 0.4683 0.4359 0.4000 0.2192 0.5405 0.3651 0.2000 0.2726 0.4235 0.2051 0.2837 0.2541 0.3831 0.3752 0.4348 0.4802 0.3260 0.3327 0.2264 0.3130 0.3544 0.4683 0.4143 0.4938 357.096 0.2987 0.2840 0.6604 0.5606 0.6568 0.6166 0.2929 0.3953 0.5156 0.5107 0.7058 0.4512 0.6870 0.6589 0.5853 0.4177 0.6088 0.6822 0.7531 0.5247 0.2932 0.7286 0.5186 0.2808 0.3936 0.6039 0.2786 0.3535 0.3707 0.5712 0.5173 0.5922 0.6537 0.4418 0.4704 0.4143 0.4683 0.5127 0.6541 0.5432 0.6615 343.948 0.3983 0.3792 0.8883 0.7340 0.9639 0.8529 0.3908 0.5348 0.7014 0.6938 0.9419 0.6228 0.9558 0.9059 0.7827 0.5640 0.8212 0.9223 0.7903 0.7177 0.3900 1.0012 0.7604 0.3694 0.5320 0.8325 0.3730 0.4697 0.7460 0.7778 0.6991 0.8014 0.8961 0.5977 0.6723 0.5637 0.6894 0.7159 0.8424 0.8263 0.8954 330.800 0.4834 0.4544 1.0604 0.9744 1.1766 1.0230 0.4689 0.6372 0.8408 0.8359 1.1563 0.7403 1.1661 1.1295 0.9522 0.6772 1.0005 1.1053 0.9465 0.8542 0.4664 1.2080 0.9418 0.4455 0.6370 1.0129 0.4504 0.5627 1.0700 0.9543 0.8366 0.9612 1.0744 0.7135 0.8444 0.7974 0.8565 0.8812 1.0424 1.0455 1.0584 317.651 0.5444 0.5005 1.1720 1.1044 1.3230 1.1411 0.5224 0.7116 0.9337 0.9443 1.3081 0.8226 1.3180 1.2942 1.0777 0.7575 1.1279 1.2741 1.0467 0.9506 0.5210 1.3514 1.0627 0.4981 0.7109 1.1404 0.5038 0.6209 1.2216 1.0866 0.9321 1.0787 1.2004 0.7962 0.9477 0.9563 0.9718 0.9946 1.1742 1.1852 1.1766 304.503 0.5781 0.5274 1.2604 1.2030 1.4152 1.2238 0.5553 0.7604 0.9987 1.0118 1.4092 0.8743 1.4185 1.4048 1.1473 0.8094 1.2058 1.3692 1.1143 1.0212 0.5537 1.4524 1.1418 0.5318 0.7562 1.2415 0.5379 0.6558 1.3218 1.1679 1.1162 1.1539 1.2812 0.8482 1.0257 1.0551 1.0424 1.0702 1.2612 1.2767 1.2522 291.355 0.5878 0.5350 1.2883 1.2391 1.4412 1.2474 0.5668 0.7813 1.0242 1.0358 1.4526 0.8284 1.4419 1.4589 1.1659 0.8235 1.2247 1.4119 1.1353 1.0353 0.5779 1.4759 1.2813 0.5428 0.7753 1.2656 0.5557 0.6651 1.3451 1.2027 1.0137 1.1751 1.3121 0.8594 1.0509 1.1105 1.0424 1.0986 1.3083 1.3177 1.2923 278.206 0.6143 0.5657 1.3417 1.2072 1.4837 1.3065 0.6042 0.8185 1.0939 1.0720 1.5008 0.9330 1.4933 1.4518 1.2263 0.8660 1.2695 1.4642 1.1366 1.0942 0.5951 1.5276 1.2092 0.5710 0.8040 1.3257 0.5727 0.6837 1.3848 1.2538 1.0719 1.2244 1.3739 0.9049 1.1083 1.1129 1.1153 1.1577 1.3130 1.3056 1.3490 265.058 0.6520 0.5972 1.4231 1.3714 1.5735 1.3868 0.6364 0.8581 1.1241 1.1442 1.5947 0.9800 1.5867 1.5765 1.2937 0.9132 1.3403 1.5712 1.2519 1.1530 0.6302 1.5934 1.2650 0.6000 0.8612 1.4075 0.6021 0.7232 1.4664 1.3258 1.1302 1.2926 1.4785 0.9639 1.1656 1.2117 1.1718 1.2285 1.4259 1.4333 1.4364 251.910 0.6665 0.6118 1.4673 1.4075 1.6065 1.4246 0.6547 0.8767 1.1543 1.1756 1.6381 1.0059 1.6335 1.6307 1.3215 0.9415 1.3651 1.6164 1.2869 1.1883 0.6473 1.6193 1.3022 0.6134 0.8922 1.4388 0.6161 0.7441 1.5130 1.3653 1.1628 1.3349 1.4904 0.9852 1.1955 1.2575 1.2118 1.2592 1.4730 1.4791 1.4742 238.761 0.6755 0.6172 1.4743 1.4195 1.6254 1.4317 0.6585 0.8860 1.1659 1.1876 1.6453 1.0106 1.6452 1.6471 1.3262 0.9557 1.3969 1.6259 1.2985 1.2001 0.6559 1.6240 1.3115 0.6181 0.8970 1.4460 0.6207 0.7488 1.5200 1.3745 1.1651 1.3443 1.4951 0.9899 1.2024 1.2719 1.2212 1.2687 1.4848 1.4984 1.4837 225.613 0.6665 0.6087 1.4464 1.4027 1.6018 1.4128 0.6448 0.8743 1.1450 1.1804 1.6212 1.0035 1.6171 1.6307 1.3053 0.9462 1.3875 1.6021 1.2775 1.1765 0.6465 1.6099 1.2883 0.6102 0.8898 1.4340 0.6176 0.7395 1.4943 1.3583 1.1535 1.3161 1.4880 0.9852 1.1978 1.2695 1.1718 1.2474 1.4730 1.4935 1.4601 212.465 0.6584 0.6041 1.4138 1.3642 1.5664 1.3727 0.6394 0.8650 1.1427 1.1563 1.5730 0.9918 1.5751 1.5530 1.2937 0.9250 1.3521 1.5237 1.2519 1.1695 0.6302 1.5864 1.2883 0.6079 0.8588 1.3907 0.6114 0.7371 1.4547 1.3420 1.1418 1.3043 1.4476 0.9687 1.1817 1.2141 1.2165 1.2120 1.4071 1.4140 1.4128 199.316 0.6873 0.6310 1.4743 1.4412 1.6325 1.4364 0.6624 0.8999 1.1938 1.2117 1.6501 1.0388 1.6569 1.6471 1.3517 0.9651 1.4111 1.6021 1.3242 1.2024 0.6506 1.6639 1.3557 0.6314 0.8946 1.4580 0.6377 0.7720 1.5200 1.4094 1.1908 1.3678 1.5355 1.0159 1.2368 1.2934 1.2471 1.2734 1.4824 1.5200 1.4837 186.168 0.7026 0.6417 1.4929 1.4580 1.6514 1.4483 0.6708 0.9116 1.2124 1.2286 1.6790 1.0552 1.6756 1.6613 1.3633 0.9840 1.4182 1.6187 1.3451 1.2118 0.6699 1.6780 1.3743 0.6392 0.9113 1.4773 0.6424 0.7837 1.5363 1.4349 1.2094 1.3865 1.5498 1.0230 1.2597 1.3225 1.2471 1.2947 1.5036 1.5441 1.4955 173.020 0.7026 0.6394 1.4813 1.4508 1.6491 1.4435 0.6685 0.9069 1.2031 1.2310 1.6790 1.0458 1.6756 1.6613 1.3587 0.9816 1.4111 1.6187 1.3451 1.2001 0.6684 1.6686 1.3557 0.6361 0.9137 1.4773 0.6346 0.7837 1.5340 1.4163 1.2024 1.3796 1.5498 1.0159 1.2414 1.3225 1.2330 1.2923 1.5036 1.5465 1.4884 159.871 0.6761 0.6156 1.4441 1.4051 1.6018 1.4081 0.6432 0.8836 1.1659 1.1996 1.6260 1.0129 1.6335 1.6236 1.3099 0.9557 1.3804 1.5878 1.3125 1.1695 0.6442 1.6193 1.3069 0.6102 0.8970 1.4364 0.6114 0.7604 1.4943 1.3560 1.1651 1.3349 1.5023 0.9923 1.2024 1.2864 1.1718 1.2522 1.4754 1.5176 1.4601 146.723 0.6424 0.5918 1.3813 1.3353 1.5191 1.3419 0.6203 0.8464 1.1195 1.1370 1.5417 0.9753 1.5223 1.5177 1.2611 0.9014 1.3049 1.5165 1.2426 1.1295 0.6107 1.5488 1.2604 0.6000 0.8850 1.3616 0.5882 0.7302 1.4314 1.2910 1.1069 1.2667 1.4191 0.9403 1.1656 1.1900 1.1695 1.2049 1.3789 1.3924 1.3656 133.575 0.6524 0.6041 1.4441 1.3955 1.5900 1.3892 0.6371 0.8743 1.1636 1.1852 1.5899 1.0082 1.5938 1.6071 1.3076 0.9415 1.3626 1.5617 1.2985 1.1553 0.6302 1.6028 1.2952 0.6157 0.8755 1.4099 0.6137 0.7604 1.4780 1.3420 1.1395 1.3165 1.4666 0.9852 1.2024 1.2599 1.1742 1.2356 1.4565 1.4285 1.4364 120.427 0.6524 0.6018 1.4324 1.3979 1.5829 1.3845 0.6318 0.8650 1.1613 1.1852 1.5851 0.9988 1.5844 1.5930 1.3006 0.9368 1.3686 1.5546 1.2938 1.1530 0.6286 1.5981 1.2836 0.6118 0.8755 1.4099 0.6153 0.7534 1.4757 1.3281 1.1302 1.3138 1.4619 0.9876 1.2001 1.2599 1.1695 1.2285 1.4424 1.4285 1.4341 107.278 0.6263 0.5796 1.3859 1.3594 1.5309 1.3538 0.6065 0.8325 1.0986 1.1467 1.5489 0.9612 1.5353 1.5412 1.2565 0.9132 1.3356 1.4999 1.2496 1.1177 0.6107 1.5417 1.2371 0.5883 0.8660 1.3738 0.5998 0.7278 1.4361 1.3119 1.0952 1.2644 1.4215 0.9639 1.1611 1.2310 1.1201 1.2002 1.3859 1.4213 1.3797 94.130 0.5822 0.5389 1.2883 1.2607 1.4341 1.2687 0.5591 0.7720 1.0312 1.0672 1.4357 0.8978 1.4419 1.4471 1.1659 0.8424 1.2388 1.3977 1.1586 1.0471 0.5639 1.4454 1.1441 0.5451 0.8111 1.2680 0.5572 0.6790 1.3405 1.1961 1.0277 1.1774 1.3287 0.9143 1.0670 1.1515 1.0377 1.1293 1.2942 1.3418 1.2947 80.982 0.5147 0.4775 1.1208 1.0683 1.2356 1.1057 0.4979 0.6837 0.8895 0.9178 1.2526 0.7944 1.2409 1.2706 1.0266 0.7244 1.0571 1.2265 0.9954 0.9177 0.4906 1.2644 1.0162 0.4800 0.6799 1.0351 0.4876 0.5976 1.1633 1.0472 0.8669 1.0082 1.1624 0.7631 0.9293 0.9853 0.9553 0.9663 1.1130 1.1491 1.1057 67.833 0.4954 0.4567 1.0976 1.0586 1.2427 1.0821 0.4864 0.6627 0.8408 0.8913 1.2286 0.7685 1.2479 1.2471 0.9824 0.7126 1.0477 1.2075 1.0071 0.8942 0.4757 1.2432 0.9627 0.4628 0.6823 1.0731 0.4760 0.5813 1.1470 1.0216 0.8878 0.9988 1.1338 0.7702 0.9132 0.9708 0.8918 0.9545 1.1130 1.1322 1.1057 54.685 0.4280 0.3969 0.9581 0.9287 1.0868 0.9521 0.4138 0.5767 0.7479 0.7709 1.0840 0.6628 1.0843 1.0895 0.8640 0.6182 0.9156 1.0601 0.8929 0.7765 0.4149 1.0952 0.8325 0.4016 0.6060 0.9311 0.4102 0.5139 1.0001 0.8939 0.7737 0.8696 0.9865 0.6710 0.8100 0.8407 0.7765 0.8340 0.9789 0.9973 0.9639 41.537 0.3318 0.3026 0.7488 0.7362 0.8458 0.7513 0.3212 0.4465 0.5853 0.6095 0.8600 0.5241 0.8576 0.8542 0.6782 0.4861 0.7150 0.8415 0.7040 0.6071 0.3182 0.8743 0.6674 0.3200 0.4891 0.7218 0.3212 0.4000 0.7903 0.7082 0.6059 0.6886 0.7702 0.5292 0.6379 0.6600 0.6024 0.6521 0.7718 0.7757 0.7702 28.388 0.2048 0.1934 0.4814 0.4740 0.5387 0.4678 0.1996 0.2837 0.3646 0.3927 0.5661 0.3408 0.5538 0.5294 0.4250 0.3115 0.4554 0.5491 0.4476 0.3953 0.1973 0.5640 0.4279 0.2157 0.3221 0.4716 0.2028 0.2488 0.5105 0.4690 0.4148 0.4512 0.4802 0.3497 0.4199 0.4143 0.3835 0.4205 0.4947 0.4746 0.4914 15.240 0.1124 0.1075 0.2372 0.2695 0.2646 0.2315 0.1073 0.1628 0.1928 0.2168 0.3035 0.1951 0.2758 0.2588 0.2369 0.1817 0.2548 0.2947 0.2191 0.2118 0.1115 0.2820 0.2302 0.1255 0.1789 0.2671 0.1122 0.1302 0.2541 0.2809 0.2354 0.2585 0.2496 0.1985 0.2363 0.2264 0.2212 0.2315 0.2353 0.2409 0.2552 MAP3 Date time MWT press P/L HT 1/4/1974 6600 2250 144 num_det 42 M3 J15 F4 L8 D12 B5 H6 D3 L9 B10 L4 F13 F6 J12 B7 H1 G9 G7 F11 J5 N10 J7 D7 L14 F2 F9 N7 A9 N12 R8 H11 D5 L6 D10 H13 C8 H3 N8 E11 L11 E5 L5 383.393 0.1873 0.1744 0.4267 0.4063 0.3367 0.1721 0.4877 0.1921 0.4591 0.2446 0.3269 0.3379 0.4625 0.3743 0.2976 0.2172 0.5314 0.4962 0.3862 0.4932 0.3587 0.5239 0.3759 0.1935 0.2447 0.4223 0.4150 0.1877 0.1895 0.2164 0.4497 0.3594 0.4277 0.4326 0.3291 0.3562 0.3863 0.3470 0.4713 0.4234 0.4225 0.4330 370.245 0.3025 0.2930 0.7244 0.6739 0.5612 0.2881 0.8399 0.3101 0.7904 0.4096 0.5359 0.5489 0.8195 0.6341 0.4704 0.3568 0.8414 0.8603 0.6259 0.7908 0.5696 0.8178 0.6379 0.3002 0.4013 0.6668 0.7156 0.2889 0.3151 0.3550 0.6900 0.5670 0.6464 0.7223 0.5840 0.6009 0.5631 0.5955 0.7358 0.7142 0.7123 0.7327 357.096 0.4020 0.3906 0.9501 0.8848 0.7335 0.3834 1.0818 0.4128 1.0287 0.5443 0.7278 0.7208 1.0303 0.8397 0.6240 0.4693 1.0879 1.0902 0.8370 1.0276 0.7327 1.0768 0.8429 0.4004 0.5383 0.8936 0.9289 0.3895 0.4137 0.4746 0.8918 0.7361 0.8382 0.9532 0.7742 0.7986 0.7630 0.7965 0.9465 0.9288 0.9416 0.9357 343.948 0.5132 0.4883 1.1701 1.1036 0.9173 0.4891 1.3353 0.5193 1.2708 0.6884 0.9160 0.9161 1.2996 1.0646 0.7987 0.5856 1.3381 1.3450 1.0482 1.2821 0.9341 1.3320 1.0954 0.4982 0.6831 1.1165 1.1694 0.4907 0.5220 0.5904 1.1320 0.9437 1.0587 1.1940 0.9854 1.0159 0.9802 0.9975 1.1860 1.1669 1.1651 1.1696 330.800 0.5951 0.5555 1.3213 1.2403 1.0586 0.5652 1.4882 0.5954 1.4374 0.7870 1.0585 1.0489 1.4498 1.1984 0.9081 0.6652 1.5029 1.4868 1.2023 1.4308 1.0606 1.4983 1.2282 0.5684 0.7869 1.2612 1.3129 0.5625 0.5974 0.6701 1.2608 1.0744 1.2064 1.3408 1.1109 1.1490 1.1186 1.1284 1.3335 1.3230 1.3167 1.3223 317.651 0.6400 0.5872 1.4034 1.3165 1.1321 0.6038 1.5675 0.6392 1.5188 0.8496 1.1440 1.1329 1.5357 1.2760 0.9657 0.7039 1.5902 1.5673 1.2974 1.5072 1.1355 1.5756 1.3137 0.6067 0.8436 1.3394 1.3749 0.6003 0.6380 0.7100 1.3300 1.1532 1.2889 1.4191 1.1756 1.2214 1.1935 1.1966 1.4159 1.4127 1.4038 1.4035 304.503 0.6556 0.5980 1.4256 1.3536 1.1689 0.6148 1.5888 0.6582 1.5498 0.8705 1.1839 1.1661 1.5610 1.3090 0.9945 0.7136 1.6115 1.5903 1.3335 1.5287 1.1681 1.6027 1.3384 0.6162 0.8593 1.3707 1.3962 0.6125 0.6534 0.7214 1.3531 1.1839 1.3177 1.4523 1.2023 1.2351 1.2166 1.2270 1.4428 1.4401 1.4436 1.4345 291.355 0.6537 0.5865 1.4128 1.3380 1.1495 0.6077 1.5521 0.6525 1.5227 0.8610 1.1744 1.1603 1.5259 1.2857 0.9734 0.7039 1.5591 1.5481 1.3031 1.5072 1.1489 1.5621 1.3042 0.6042 0.8554 1.3629 1.3710 0.6067 0.6476 0.7062 1.3242 1.1570 1.2927 1.4406 1.1632 1.2331 1.1916 1.2175 1.4159 1.4264 1.4228 1.4171 278.206 0.6478 0.5859 1.4053 1.3126 1.1321 0.6051 1.5153 0.6544 1.4994 0.8496 1.1516 1.1407 1.5005 1.2741 0.9696 0.6942 1.5126 1.5175 1.2821 1.4856 1.1489 1.5253 1.2681 0.6093 0.8377 1.3316 1.3555 0.5971 0.6476 0.6967 1.3223 1.1609 1.2793 1.4073 1.1813 1.2214 1.1647 1.2061 1.4121 1.3835 1.4152 1.4055 265.058 0.6634 0.6049 1.4432 1.3380 1.1689 0.6244 1.5521 0.6753 1.5324 0.8667 1.1839 1.1681 1.5357 1.3070 0.9907 0.7078 1.5494 1.5462 1.3107 1.5385 1.1776 1.5389 1.2947 0.6221 0.8651 1.3687 1.3524 0.6131 0.6631 0.7081 1.3434 1.1897 1.3157 1.4582 1.2003 1.2488 1.1955 1.2478 1.4485 1.4303 1.4606 1.4499 251.910 0.6634 0.6037 1.4432 1.3419 1.1573 0.6232 1.5424 0.6772 1.5207 0.8648 1.1896 1.1720 1.5357 1.3051 0.9869 0.7098 1.5436 1.5424 1.3031 1.5385 1.1815 1.5079 1.2833 0.6202 0.8671 1.3668 1.3943 0.6112 0.6650 0.7062 1.3434 1.1935 1.3157 1.4582 1.2003 1.2507 1.2031 1.2478 1.4485 1.4284 1.4644 1.4519 238.761 0.6595 0.5929 1.4090 1.3185 1.1379 0.6199 1.5076 0.6658 1.4878 0.8534 1.1706 1.1642 1.5064 1.2721 0.9753 0.7001 1.5107 1.5060 1.2745 1.4993 1.1681 1.4751 1.2472 0.6112 0.8651 1.3335 1.3749 0.5996 0.6573 0.6986 1.3165 1.1743 1.2927 1.4308 1.1737 1.2390 1.1955 1.2251 1.4217 1.4049 1.4341 1.4151 225.613 0.6400 0.5777 1.3578 1.2638 1.1108 0.5948 1.4321 0.6411 1.4200 0.8268 1.1283 1.1349 1.4381 1.2178 0.9369 0.6768 1.4447 1.4351 1.2384 1.4386 1.1297 1.4151 1.2282 0.5901 0.8417 1.2846 1.3167 0.5843 0.6360 0.6777 1.2646 1.1320 1.2390 1.3780 1.1376 1.1901 1.1436 1.1777 1.3642 1.3581 1.3697 1.3533 212.465 0.6049 0.5498 1.2896 1.2013 1.0605 0.5761 1.3914 0.6030 1.3793 0.7889 1.0737 1.0724 1.3601 1.1577 0.9081 0.6477 1.3633 1.3604 1.1699 1.3427 1.0837 1.3803 1.1808 0.5716 0.7790 1.2064 1.2489 0.5586 0.6051 0.6530 1.2262 1.0897 1.1872 1.3075 1.1033 1.1313 1.1070 1.1018 1.2895 1.2840 1.2996 1.2933 199.316 0.6342 0.5745 1.3370 1.2540 1.1089 0.5877 1.4418 0.5897 1.4161 0.8249 1.1345 1.1232 1.4147 1.2120 0.9483 0.6787 1.4176 1.4064 1.2346 1.3858 1.1182 1.4248 1.2453 0.5882 0.8123 1.2553 1.2935 0.5798 0.6302 0.6758 1.2646 1.1320 1.2313 1.3643 1.1452 1.1861 1.1493 1.1606 1.3450 1.3464 1.3545 1.3339 186.168 0.6420 0.5777 1.3351 1.2599 1.1031 0.5871 1.4418 0.6316 1.4142 0.8268 1.1245 1.1232 1.4264 1.2237 0.9561 0.6826 1.4176 1.4044 1.2327 1.3838 1.1144 1.4209 1.2472 0.5927 0.8162 1.2553 1.2954 0.5804 0.6302 0.6796 1.2762 1.1340 1.2390 1.3662 1.1547 1.1920 1.1455 1.1644 1.3489 1.3542 1.3527 1.3339 173.020 0.6439 0.5739 1.3218 1.2423 1.0818 0.5845 1.4030 0.6182 1.3774 0.8174 1.1193 1.1212 1.4225 1.2140 0.9408 0.6749 1.4079 1.3929 1.2194 1.3819 1.0971 1.4016 1.2301 0.5882 0.8162 1.2455 1.2896 0.5676 0.6225 0.6777 1.2512 1.1243 1.2198 1.3623 1.1319 1.1744 1.1205 1.1568 1.3393 1.3542 1.3299 1.3204 159.871 0.6205 0.5548 1.2649 1.2013 1.0528 0.5697 1.3643 0.6049 1.3561 0.7908 1.0870 1.0919 1.3679 1.1771 0.9101 0.6535 1.3672 1.3585 1.1813 1.3525 1.0722 1.3610 1.1827 0.5684 0.7986 1.2143 1.2586 0.5478 0.6032 0.6568 1.1993 1.0878 1.1815 1.3134 1.0957 1.1313 1.0821 1.1208 1.3048 1.3171 1.2977 1.2856 146.723 0.5756 0.5206 1.2232 1.1427 0.9870 0.5400 1.2850 0.5650 1.2747 0.7529 1.0148 1.0313 1.2918 1.1015 0.8640 0.6167 1.3090 1.2780 1.1090 1.2821 1.0146 1.2817 1.1162 0.5365 0.7497 1.1439 1.1810 0.5170 0.5722 0.6303 1.1320 1.0321 1.1163 1.2547 1.0558 1.0648 1.0244 1.0544 1.2301 1.2215 1.2276 1.2199 133.575 0.5932 0.5453 1.2534 1.2091 1.0489 0.5697 1.3605 0.5992 1.3444 0.7946 1.0927 1.0899 1.3503 1.1558 0.9139 0.7350 1.3497 1.3604 1.1832 1.3408 1.0645 1.3610 1.1789 0.5716 0.7869 1.2084 1.2372 0.5516 0.6109 0.6587 1.1974 1.0744 1.1834 1.2977 1.1052 1.1313 1.0705 1.1227 1.3086 1.2742 1.2996 1.3011 120.427 0.5971 0.5523 1.3009 1.2208 1.0586 0.5755 1.3682 0.6030 1.3483 0.7984 1.1079 1.0958 1.3562 1.1577 0.9177 0.7427 1.3497 1.3623 1.1946 1.3427 1.0702 1.3707 1.1827 0.5748 0.7966 1.2201 1.2527 0.5612 0.6167 0.6663 1.2051 1.0801 1.1968 1.3036 1.1147 1.1353 1.0782 1.1265 1.3125 1.2801 1.3015 1.3069 107.278 0.5951 0.5434 1.2877 1.2130 0.6638 0.5677 1.3527 0.5897 1.3386 0.7813 1.0508 1.0880 1.3562 1.1422 0.9005 0.6574 1.3342 1.3470 1.1737 1.3290 1.0683 1.3591 1.1637 0.5684 0.7966 1.2123 1.2469 0.5586 0.6051 0.6549 1.1935 1.0667 1.1776 1.2997 1.1014 1.1235 1.0705 1.1227 1.2895 1.2801 1.2826 1.2933 94.130 0.5737 0.5104 1.2284 1.1583 1.0005 0.5381 1.2947 0.5650 1.2824 0.7434 1.0319 1.0392 1.3054 1.1054 0.8640 0.6264 1.2896 1.3029 1.1166 1.2821 1.0261 1.3107 1.1049 0.5403 0.7614 1.1673 1.2004 0.5311 0.5703 0.6246 1.1416 1.0244 1.1182 1.2507 1.0368 1.0765 1.0302 1.0810 1.2397 1.2430 1.2352 1.2431 80.982 0.5132 0.4705 1.1132 1.0255 0.8883 0.4794 1.1669 0.5022 1.1527 0.6732 0.9122 0.9259 1.1942 0.9968 0.7680 0.5546 1.1635 1.1669 1.0196 1.1666 0.9245 1.1735 1.0061 0.4828 0.6851 1.0305 1.0763 0.4754 0.5007 0.5714 1.0244 0.9341 1.0050 1.1313 0.9283 0.9728 0.9206 0.9634 1.0960 1.1259 1.1064 1.1000 67.833 0.5210 0.4711 1.1398 1.0548 0.9192 0.4833 1.2076 0.5212 1.1972 0.6903 0.9293 0.9337 1.2040 1.0162 0.7872 0.5760 1.2062 1.2224 1.0215 1.2038 0.9360 1.2179 1.0194 0.4899 0.6949 1.0656 1.1112 0.4850 0.5084 0.5809 1.0513 0.9398 1.0223 1.1372 0.9511 0.9904 0.9475 0.9805 1.1515 1.1493 1.1329 1.1271 54.685 0.4703 0.4260 1.0411 0.9630 0.8380 0.4311 1.0876 0.4680 1.0829 0.6182 0.8399 0.8360 1.0927 0.9153 0.7104 0.5275 1.1015 1.1170 0.9245 1.0942 0.8478 1.1116 0.9188 0.4432 0.6401 0.9679 0.9587 0.4356 0.4543 0.5296 0.9514 0.8418 0.9321 1.0276 0.8979 0.8867 0.8668 0.8875 1.0519 1.0498 1.0211 1.0208 41.537 0.3805 0.3462 0.8458 0.7813 0.6870 0.3454 0.9057 0.3824 0.8737 0.5063 0.6784 0.6758 0.8917 0.7466 0.5818 0.4344 0.9095 0.9274 0.7457 0.8984 0.6886 0.8796 0.7461 0.3628 0.5207 0.7958 0.8106 0.3562 0.3731 0.4309 0.7822 0.6842 0.7653 0.8377 0.7229 0.7223 0.7227 0.7225 0.8756 0.8566 0.8374 0.8390 28.388 0.2439 0.2200 0.5538 0.5059 0.4587 0.2120 0.5632 0.2473 0.5909 0.3300 0.4428 0.4414 0.5795 0.5042 0.3974 0.2851 0.5992 0.6285 0.4680 0.5872 0.4584 0.5258 0.4860 0.2446 0.3230 0.5318 0.5217 0.2415 0.2436 0.2753 0.5247 0.4478 0.5102 0.5461 0.4794 0.4658 0.4959 0.4779 0.5920 0.5581 0.5532 0.5587 15.240 0.1385 0.1248 0.2845 0.2969 0.2264 0.1282 0.3154 0.1370 0.3041 0.1953 0.2470 0.2598 0.3161 0.2831 0.2438 0.1590 0.3103 0.3238 0.2834 0.3132 0.2570 0.3403 0.2734 0.1405 0.2016 0.3070 0.2870 0.1384 0.1527 0.1519 0.3056 0.2537 0.2858 0.2936 0.2463 0.2740 0.2806 0.2598 0.3200 0.2966 0.2842 0.2861 MAP4 Date time MWT press P/L HT 4/23/1974 9000 2250 144 num_det 40 M3 J15 F4 L8 J3 D3 B10 L4 F13 F6 B7 G9 G7 F11 N5 J10 J5 B8 N10 C12 J7 D7 L14 F2 F9 A9 R8 H4 H11 D5 L6 D10 G14 H13 C8 H3 N8 E11 L11 E5 383.393 0.1795 0.1609 0.4167 0.3090 0.4011 0.1820 0.2607 0.2982 0.3048 0.3862 0.2666 0.4156 0.4364 0.3358 0.2587 0.3390 0.3925 0.3109 0.3107 0.1825 0.4196 0.2884 0.1681 0.2234 0.3424 0.1647 0.1955 0.1867 0.3209 0.3192 0.3651 0.3758 0.2748 0.2548 0.2839 0.2904 0.2768 0.4194 0.3841 0.3931

D-17 370.245 0.2714 0.2515 0.6320 0.4760 0.6519 0.2615 0.4187 0.5432 0.4718 0.6555 0.4109 0.6134 0.6554 0.5175 0.4392 0.5435 0.5971 0.5355 0.4788 0.2888 0.6180 0.4875 0.2683 0.3486 0.5407 0.2496 0.3200 0.3273 0.5077 0.5060 0.5468 0.6064 0.4232 0.4385 0.4530 0.4483 0.4713 0.6401 0.6138 0.6418 357.096 0.3670 0.3316 0.7920 0.6534 0.7220 0.3452 0.4681 0.6143 0.6138 0.8246 0.5298 0.8091 0.8218 0.6952 0.5094 0.7020 0.7850 0.6940 0.6266 0.3711 0.8100 0.6518 0.3498 0.4635 0.6973 0.3345 0.4009 0.5200 0.6605 0.6503 0.6911 0.7829 0.5255 0.5965 0.6180 0.5926 0.6218 0.8099 0.7850 0.8023 343.948 0.4189 0.4152 0.9737 0.8518 0.9908 0.4393 0.6261 0.7960 0.7745 1.0355 0.6741 1.0095 1.0307 0.8532 0.6579 0.8805 0.9937 0.8564 0.7913 0.4673 1.0146 0.8552 0.4381 0.5887 0.8747 0.4163 0.5096 0.9396 0.8728 0.8201 0.8779 0.9812 0.6599 0.7900 0.8225 0.8133 0.8063 1.0035 0.9854 0.9888 330.800 0.5105 0.4653 1.1080 0.9708 1.0871 0.5021 0.6952 0.9105 0.8894 1.1566 0.7624 1.1424 1.1495 0.9816 0.7441 1.0028 1.1190 0.9587 0.8931 0.5255 1.1587 0.9955 0.4924 0.6618 0.9896 0.4771 0.5688 1.1103 0.9916 0.9135 0.9882 1.0960 0.7602 0.9105 0.9457 0.9356 0.9266 1.1156 1.1148 1.1071 317.651 0.5512 0.4932 1.1653 1.0397 1.1432 0.5397 0.7347 0.9718 0.9562 1.2213 0.8133 1.2167 1.2175 1.0527 0.8003 1.0650 1.1921 1.0169 0.9543 0.5636 1.2255 1.0705 0.5264 0.7077 1.0522 0.5111 0.5965 1.1846 1.0545 0.9814 1.0511 1.1537 0.8003 0.9718 1.0186 1.0052 0.9848 1.1801 1.1795 1.1673 304.503 0.5637 0.4974 1.1910 1.0752 1.1613 0.5544 0.7387 1.0073 0.9896 1.2443 0.8354 1.2338 1.2361 1.0883 0.8223 1.0991 1.2129 1.0410 0.9831 0.5776 1.2568 1.0903 0.5366 0.7286 1.0835 0.5213 0.6064 1.2207 1.0595 0.9984 1.0731 1.1879 0.8284 1.0014 1.0480 1.0222 1.0209 1.2022 1.1983 1.2034 291.355 0.5553 0.4974 1.1693 1.0668 1.1352 0.5544 0.7308 0.9915 0.9770 1.2213 0.8184 1.2046 1.1920 1.0685 0.8203 1.0751 1.1816 1.0349 0.9645 0.5676 1.2401 1.0705 0.5230 0.7244 1.0731 0.5128 0.5925 1.2006 1.0511 0.9729 1.0477 1.1795 0.8203 0.9915 1.0355 0.9797 1.0189 1.1665 1.1837 1.1834 278.206 0.5679 0.5023 1.1870 1.0668 1.1493 0.5544 0.7367 0.9895 0.9812 1.2296 0.8354 1.2006 1.2175 1.0567 0.8203 1.0637 1.2129 1.0289 0.9848 0.5796 1.2213 1.0547 0.5400 0.7244 1.0939 0.5128 0.5965 1.1866 1.0765 0.9984 1.0646 1.2028 0.8203 0.9935 1.0376 1.0137 1.0189 1.1954 1.1775 1.1854 265.058 0.5866 0.5315 1.2265 1.1023 1.2034 0.5795 0.7604 1.0330 1.0146 1.2651 0.8626 1.2388 1.2514 1.0982 0.8584 1.1011 1.2651 1.0811 1.0222 0.5977 1.2443 1.0903 0.5552 0.7551 1.1148 0.5298 0.6162 1.2368 1.1105 1.0324 1.1020 1.2180 0.8564 1.0310 1.0731 1.0341 1.0650 1.2344 1.2192 1.2395 251.910 0.5929 0.5336 1.2502 1.1169 1.2114 0.5920 0.7703 1.0508 1.0355 1.2839 0.8745 1.2508 1.2664 1.1100 0.8785 1.1132 1.2860 1.1011 1.0392 0.6037 1.2443 1.1001 0.5586 0.7662 1.1315 0.5349 0.6202 1.2568 1.1224 1.0494 1.1190 1.2626 0.8624 1.0488 1.0939 1.0511 1.0831 1.2531 1.2296 1.2616 238.761 0.5929 0.5350 1.2502 1.1232 1.2195 0.5962 0.7742 1.0587 1.0376 1.2839 0.8779 1.2548 1.2752 1.1100 0.8825 1.1212 1.2860 1.1031 1.0494 0.6057 1.2443 1.1120 0.5603 0.7745 1.1315 0.5383 0.6222 1.2589 1.1275 1.0494 1.1241 1.2626 0.8645 1.0508 1.0960 1.0680 1.0831 1.2548 1.2359 1.2616 225.613 0.5929 0.5350 1.2265 1.1023 1.2034 0.5878 0.7644 1.0468 1.0355 1.2589 0.8643 1.2348 1.2361 1.1001 0.8785 1.1132 1.2610 1.0971 1.0256 0.6017 1.2338 1.1021 0.5552 0.7662 1.1148 0.5383 0.6182 1.2388 1.1105 1.0358 1.0952 1.2817 0.8645 1.0429 1.0793 1.0426 1.0490 1.2209 1.2192 1.2275 212.465 0.5846 0.5301 1.2068 1.0919 1.1733 0.5753 0.7565 1.0290 1.0355 1.2338 0.8694 1.2006 1.2158 1.0804 0.8604 1.0831 1.2234 1.0590 1.0358 0.5977 1.2171 1.0982 0.5552 0.7495 1.1044 0.5298 0.6340 1.2006 1.1275 1.0409 1.1071 1.2109 0.8504 1.0310 1.0731 1.0562 1.0630 1.2175 1.2046 1.2054 199.316 0.6221 0.5649 1.2819 1.1649 1.2495 0.6088 0.8039 1.1061 1.0919 1.3132 0.9203 1.2950 1.2854 1.1673 0.9186 1.1493 1.2860 1.1493 1.0816 0.6278 1.2965 1.1870 0.5858 0.7912 1.1566 0.5637 0.6557 1.2829 1.1869 1.1003 1.1580 1.2944 0.9126 1.1100 1.1399 1.1105 1.1132 1.2820 1.2860 1.2836 186.168 0.6534 0.5824 1.3154 1.2004 1.2816 0.6360 0.8315 1.1396 1.1190 1.3570 0.9492 1.3331 1.3125 1.1969 0.9427 1.1733 1.3236 1.1874 1.1037 0.6519 1.3278 1.2226 0.6028 0.8184 1.1816 0.5807 0.6755 1.3151 1.2209 1.1343 1.1920 1.2944 0.9266 1.1456 1.1754 1.1309 1.1453 1.3176 1.3236 1.3218 173.020 0.6618 0.5935 1.3411 1.2109 1.3097 0.6485 0.8434 1.1574 1.1399 1.3883 0.9662 1.3632 1.3380 1.2246 0.9607 1.1994 1.3591 1.2074 1.1207 0.6619 1.3486 1.2443 0.6096 0.8393 1.2067 0.5824 0.6913 1.3432 1.2344 1.1546 1.2141 1.3674 0.9427 1.1554 1.1858 1.1394 1.1633 1.3363 1.3507 1.3438 159.871 0.6618 0.5928 1.3391 1.2088 1.3177 0.6485 0.8374 1.1574 1.1441 1.3821 0.9662 1.3612 1.3431 1.2186 0.9647 1.2034 1.3486 1.2175 1.1258 0.6579 1.3507 1.2305 0.5909 0.8434 1.2129 0.5807 0.6913 1.3612 1.2209 1.1512 1.2090 1.3674 0.9467 1.1535 1.1795 1.1343 1.1573 1.3448 1.3528 1.3478 146.723 0.6409 0.5824 1.3253 1.2067 1.2937 0.6380 0.8335 1.1278 1.1399 1.3570 0.9662 1.3111 1.3533 1.1890 0.9407 1.1713 1.3486 1.1793 1.1224 0.6519 1.3403 1.2068 0.6079 0.8285 1.2025 0.5756 0.6794 1.3412 1.2209 1.1512 1.2090 1.3570 0.9206 1.1317 1.1649 1.1377 1.1633 1.3363 1.3173 1.3238 133.575 0.6764 0.6207 1.4399 1.3006 1.4020 0.6862 0.8967 1.2502 1.2380 1.4551 0.9628 1.4436 1.4399 1.3075 1.0389 1.3037 1.4572 1.2957 1.2005 0.6920 1.4322 1.3075 0.6537 0.8956 1.3132 0.6232 0.7387 1.4396 1.3058 1.2192 1.3024 1.4405 1.0069 1.2384 1.2526 1.2022 1.2435 1.4433 1.4029 1.4421 120.427 0.7036 0.6465 1.4273 1.3633 1.4521 0.7113 0.9303 1.2957 1.2798 1.5136 1.0307 1.4958 1.4908 1.3668 1.0710 1.3533 1.5052 1.3318 1.2429 0.7140 1.4927 1.3569 0.6758 0.9332 1.3653 0.6486 0.7703 1.4857 1.3635 1.2616 1.3533 1.4927 1.0510 1.2957 1.3006 1.2497 1.2816 1.4874 1.4551 1.4842 107.278 0.7182 0.6562 1.5246 1.3841 1.4822 0.7217 0.9362 1.3253 1.3027 1.5512 1.0578 1.5259 1.5130 1.3905 1.0891 1.3899 1.5324 1.3438 1.2752 0.7220 1.5193 1.3767 0.6860 0.9541 1.3904 0.6656 0.7742 1.5239 1.3890 1.2854 1.3703 1.5103 1.0791 1.3253 1.3132 1.2701 1.3077 1.5010 1.4864 1.5083 94.130 0.7119 0.6485 1.5129 1.3800 1.4842 0.7217 0.9224 1.3075 1.2902 1.5553 1.0731 1.5339 1.5265 1.3826 1.0811 1.3879 1.5365 1.3398 1.2701 0.7120 1.5240 1.3569 0.6758 0.9499 1.3967 0.6571 0.7644 1.5319 1.3822 1.2837 1.3618 1.5303 1.0670 1.2976 1.3152 1.2684 1.3157 1.4976 1.4969 1.5063 80.982 0.6722 0.6207 1.4655 1.3111 1.3839 0.6799 0.8750 1.1870 1.2129 1.4927 1.0731 1.4014 1.4722 1.2878 1.0008 1.2636 1.4843 1.2596 1.2090 0.6819 1.4530 1.2878 0.6317 0.8706 1.3549 0.6147 0.7268 1.4054 1.3227 1.2209 1.3024 1.4509 0.9988 1.1890 1.2505 1.2276 1.2134 1.4042 1.4280 1.4080 67.833 0.6994 0.6346 1.5031 1.3674 1.4622 0.7113 0.9125 1.2700 1.2547 1.5470 1.0137 1.5520 1.5486 1.3648 1.0791 1.3739 1.5574 1.3498 1.2463 0.6980 1.5261 1.3510 0.6571 0.9332 1.3841 0.6401 0.7604 1.5339 1.3737 1.2735 1.3448 1.5031 1.0550 1.2700 1.3006 1.2582 1.2937 1.4959 1.4906 1.5003 54.685 0.6555 0.5963 1.4221 1.3111 1.3819 0.6694 0.8335 1.1890 1.1628 1.4656 1.0460 1.4717 1.4688 1.2878 0.9728 1.3077 1.4739 1.2857 1.1682 0.6418 1.4739 1.2680 0.6113 0.8810 1.3069 0.5892 0.7150 1.4576 1.2888 1.1852 1.2684 1.4092 0.9808 1.2167 1.2129 1.1869 1.2235 1.4178 1.4113 1.4040 41.537 0.5365 0.4848 1.1772 1.0814 1.1432 0.5544 0.6972 0.9895 0.9562 1.2109 0.8133 1.2609 1.2293 1.0804 0.8043 1.1232 1.2234 1.0791 0.9645 0.5375 1.2443 1.0804 0.5060 0.7411 1.0835 0.4941 0.5985 1.2207 1.0680 0.9645 1.0477 1.1795 0.8203 1.0310 0.9979 0.9916 1.0851 1.1937 1.1775 1.1834 28.388 0.3862 0.3316 0.7624 0.7683 0.7922 0.3975 0.4582 0.6419 0.6785 0.8560 0.5892 0.8794 0.8948 0.7051 0.5415 0.9226 0.8685 0.7180 0.7013 0.3530 0.8894 0.6952 0.3685 0.5157 0.7599 0.3600 0.4088 0.8071 0.7709 0.6928 0.7675 0.8351 0.5596 0.7051 0.7056 0.7199 0.7020 0.8779 0.8267 0.7922 15.240 0.2171 0.2027 0.4345 0.4447 0.4232 0.2197 0.3002 0.3772 0.3946 0.4593 0.3498 0.5186 0.4703 0.4286 0.3470 0.4954 0.4927 0.3931 0.3871 0.2206 0.4718 0.4405 0.2038 0.3173 0.4551 0.1987 0.2212 0.4578 0.4483 0.3871 0.4228 0.4739 0.3510 0.4009 0.4092 0.4058 0.3971 0.4381 0.4468 0.4413 MAP5 Date time MWT press P/L HT 09/10/0974 12800 2250 144 num_det 40 M3 J15 F4 L8 F8 J3 D3 B10 L4 F13 F6 B7 G7 F11 N5 J10 J5 B8 N10 C12 J7 D7 L14 F2 F9 A9 R8 H4 H11 D5 L6 D10 G14 H13 C8 H3 N8 E11 L11 E5 383.393 0.2792 0.2321 0.5879 0.5566 0.6458 0.5551 0.2875 0.3359 0.4427 0.4900 0.6064 0.3936 0.6876 0.5165 0.4190 0.5422 0.6846 0.4859 0.4713 0.2855 0.6974 0.5177 0.2878 0.3524 0.5502 0.2421 0.2884 0.6337 0.5703 0.5014 0.5996 0.5149 0.4317 0.4524 0.4957 0.5618 0.5078 0.5985 0.6019 0.5844 370.245 0.3988 0.3640 0.8740 0.7959 0.9837 0.8740 0.3857 0.5065 0.7027 0.6585 0.9313 0.5823 0.9767 0.7431 0.5721 0.8010 0.9209 0.7954 0.6908 0.4035 0.9427 0.7863 0.3760 0.5103 0.7898 0.3641 0.4344 0.9823 0.8077 0.6901 0.7792 0.8557 0.5974 0.7208 0.7392 0.7095 0.7714 0.8698 0.8234 0.8943 357.096 0.4873 0.4361 1.0636 0.9814 1.1607 1.0555 0.4822 0.6261 0.8310 0.8392 1.1050 0.7189 1.1383 0.9259 0.7077 0.9823 1.1276 0.9436 0.8509 0.4987 1.1323 0.9390 0.4659 0.5283 0.9703 0.4502 0.5293 1.1425 0.9984 0.8508 0.9408 1.0809 0.7313 0.8890 0.9131 0.8806 0.9431 1.0603 1.0275 1.0774 343.948 0.5809 0.5205 1.2198 1.1392 1.3412 1.2388 0.5733 0.7474 1.0190 0.9904 1.2805 0.8698 1.2998 1.0787 0.8485 1.1355 1.2962 1.0985 1.0128 0.5921 1.2905 1.1320 0.5523 0.7520 1.1265 0.5937 0.6243 1.3150 1.1621 1.0280 1.1077 1.2455 0.8740 1.0545 1.0714 1.0589 1.1075 1.2275 1.1950 1.2516 330.800 0.6381 0.5610 1.3145 1.1999 1.4049 1.3128 0.6224 0.8072 1.1068 1.0842 1.3535 0.9381 1.3573 1.1530 0.9348 1.2129 1.3691 1.1742 1.0938 0.6485 1.3618 1.2163 0.6045 0.8245 1.1820 0.5883 0.6753 1.3889 1.2215 1.1250 1.1921 1.3217 0.9428 1.1249 1.1462 1.1543 1.1731 1.3209 1.2910 1.3309 317.651 0.6554 0.5715 1.3216 1.2086 1.4102 1.3304 0.6417 0.8371 1.1332 1.1189 1.3674 0.9579 1.3591 1.1876 0.9612 1.2252 1.3778 1.1918 1.1262 0.6679 1.3671 1.2180 0.6153 0.8366 1.1890 0.6026 0.6841 1.3889 1.2269 1.1484 1.2065 1.3408 0.9621 1.1337 1.1670 1.1687 1.1837 1.3353 1.3136 1.3520 304.503 0.6554 0.5545 1.3093 1.1965 1.3730 1.3058 0.6400 0.8265 1.1209 1.1207 1.3518 0.9489 1.3304 1.1665 0.9594 1.2094 1.3466 1.1812 1.1136 0.6643 1.3427 1.1899 0.6081 0.8262 1.1786 0.5973 0.6753 1.3555 1.2071 1.1376 1.1957 1.3286 0.9569 1.1196 1.1618 1.1435 1.1678 1.3191 1.2997 1.3344 291.355 0.6294 0.5364 1.2426 1.1392 1.2898 1.2423 0.6154 0.7949 1.0471 1.0859 1.2788 0.8968 1.2478 1.1050 0.9154 1.1425 1.2788 1.1256 1.0560 0.6361 1.2714 1.1557 0.5721 0.7846 1.1265 0.5668 0.6437 1.2657 1.1424 1.0783 1.1257 1.2801 0.9199 1.0686 1.1096 1.0751 1.1129 1.2508 1.2526 1.2798 278.206 0.6086 0.5311 1.2145 1.0785 1.2350 1.2247 0.6014 0.7720 1.0348 1.0251 1.2284 0.8896 1.2101 1.0599 0.8890 1.0844 1.2423 1.1002 1.0362 0.6185 1.1983 1.0741 0.5739 0.7828 1.0831 0.5524 0.6225 1.2340 1.1028 1.0477 1.0880 1.2264 0.9145 1.0404 1.0609 1.0319 1.1058 1.2203 1.1688 1.2464 265.058 0.6190 0.5399 1.2303 1.1028 1.2474 1.2370 0.6101 0.7791 1.0453 1.0494 1.2493 0.9022 1.2172 1.0787 0.9101 1.0967 1.2753 1.1256 1.0506 0.6291 1.2157 1.0794 0.5793 0.7932 1.1022 0.5596 0.6278 1.2516 1.1172 1.0557 1.1077 1.2593 0.9128 1.0545 1.0801 1.0499 1.1218 1.2454 1.2072 1.2728 251.910 0.6173 0.5399 1.2303 1.1028 1.2350 1.2318 0.6101 0.7755 1.0436 1.0494 1.2475 0.8950 1.2119 1.0554 0.9136 1.0914 1.2649 1.1249 1.0542 0.6273 1.1896 1.0588 0.5775 0.7932 1.0953 0.5542 0.6243 1.2428 1.1028 1.0557 1.1059 1.2541 0.9075 1.0474 1.0801 1.0499 1.1164 1.2382 1.2055 1.2763 238.761 0.6104 0.5311 1.2110 1.0889 1.2251 1.2194 0.5996 0.7568 1.0313 1.0425 1.2257 0.8788 1.1957 1.0471 0.9584 1.0791 1.2406 1.1108 1.0488 0.6238 1.1688 1.0548 0.5703 0.7811 1.0779 0.5470 0.6190 1.2235 1.0902 1.0477 1.0934 1.2282 0.8952 1.0351 1.0596 1.0445 1.1058 1.2203 1.1950 1.2499 225.613 0.5955 0.5205 1.1724 1.0595 1.1951 1.1789 0.5803 0.7492 0.9856 1.0216 1.1798 0.8537 1.1490 1.0225 0.8855 1.0545 1.1902 1.0809 1.0236 0.6097 1.1427 1.0232 0.5523 0.7533 1.0449 0.5327 0.6050 1.1777 1.0596 1.0172 1.0521 1.1918 0.8793 1.0140 1.0436 1.0175 1.0634 1.1771 1.1654 1.1988 212.465 0.5722 0.5082 1.1197 0.9918 1.1642 1.1507 0.5558 0.7263 0.9926 0.9713 1.1242 0.8393 1.1059 0.9873 0.8591 1.0175 1.1155 1.0598 0.9876 0.5850 1.0940 1.0214 0.5451 0.7342 0.9894 0.5183 0.5944 1.1495 1.0236 0.9866 1.0323 1.1277 0.8535 0.9911 1.0053 0.9850 1.0315 1.1286 1.1008 1.1554 199.316 0.6121 0.5329 1.1864 1.0647 1.2244 1.2000 0.5821 0.7550 1.0277 1.0321 1.1857 0.8788 1.1598 1.0488 0.9084 1.0721 1.1711 1.1126 1.0362 0.6203 1.1705 1.0794 0.5549 0.7672 1.0397 0.5470 0.6243 1.1918 1.0830 1.0459 1.0718 1.2039 0.9128 1.0474 1.0662 1.0445 1.0881 1.1933 1.1845 1.2305 186.168 0.6277 0.5417 1.2022 1.0837 1.2385 1.2247 0.5926 0.7755 1.0436 1.0477 1.2197 0.8986 1.1670 1.0594 0.9189 1.0756 1.1884 1.1337 1.0505 0.6344 1.1862 1.1522 0.5739 0.7811 1.0501 0.5524 0.6356 1.2129 1.1064 1.0711 1.0934 1.2247 0.9251 1.0686 1.0905 1.0481 1.1111 1.2149 1.2159 1.2552 173.020 0.6381 0.5434 1.2127 1.0872 1.2527 1.2511 0.5979 0.7808 1.0523 1.0599 1.2354 0.9058 1.1795 1.0682 0.9295 1.0862 1.1989 1.1425 1.0542 0.6379 1.1949 1.1522 0.5775 0.7846 1.0571 0.5488 0.6419 1.2288 1.1046 1.0747 1.0970 1.2334 0.9287 1.0703 1.0922 1.0553 1.1200 1.2203 1.2369 1.2522 159.871 0.6242 0.5346 1.2005 1.0785 1.2350 1.2335 0.5891 0.7703 1.0330 1.0547 1.2128 0.8914 1.1724 1.0523 0.9260 1.0844 1.2058 1.1390 1.0470 0.6273 1.1879 1.0776 0.5703 0.7737 1.0571 0.5345 0.6365 1.2235 1.0830 1.0503 1.0844 1.2195 0.9181 1.0615 1.0783 1.0409 1.1164 1.2185 1.2334 1.2622 146.723 0.5913 0.5170 1.1548 1.0161 1.2120 1.2141 0.5681 0.7492 1.0436 1.0251 1.1659 0.8698 1.1185 1.0172 0.9066 1.0580 1.1606 1.1038 1.0146 0.6027 1.1409 1.0530 0.5649 0.7537 1.0137 0.5237 0.6243 1.1689 1.0128 1.0064 1.0377 1.1589 0.8952 1.0228 1.0401 0.9922 1.0651 1.1664 1.1514 1.2147 133.575 0.6329 0.5522 1.2636 1.1254 1.3154 1.3040 0.6137 0.8090 1.1138 1.1120 1.2545 0.9399 1.2298 1.1103 0.9823 1.1566 1.2510 1.1953 1.0920 0.6520 1.2366 1.1268 0.6063 0.8245 1.1057 0.5703 0.6735 1.2728 1.1280 1.0945 1.1365 1.2593 0.9727 1.1231 1.1270 1.0823 1.1801 1.2706 1.2561 1.3325 120.427 0.6520 0.5751 1.3110 1.1722 1.3624 1.3533 0.6294 0.8353 1.1525 1.1537 1.2979 0.9633 1.2639 1.1542 1.0140 1.2059 1.2840 1.2305 1.1298 0.6925 1.2818 1.1589 0.6295 0.8592 1.1456 0.5937 0.6947 1.3115 1.1639 1.1376 1.1795 1.2975 1.0150 1.1724 1.1618 1.1237 1.2261 1.3245 1.3049 1.3766 107.278 0.6693 0.5803 1.3461 1.1999 1.4013 1.3904 0.6417 0.8459 1.1753 1.1780 1.3379 0.9813 1.2927 1.1758 1.0421 1.2411 1.3101 1.2481 1.1513 0.6890 1.3114 1.1899 0.6368 0.8748 1.1820 0.6044 0.7070 1.3432 1.1945 1.1610 1.2047 1.3356 1.0379 1.2059 1.1862 1.1525 1.2562 1.3515 1.3520 1.4101 94.130 0.6728 0.5803 1.3567 1.2086 1.4208 1.4597 0.6400 0.8441 1.1718 1.1832 1.3587 0.9884 1.3160 1.1859 1.0492 1.2499 1.3222 1.2587 1.1729 0.6872 1.3323 1.1899 0.6350 0.8609 1.1994 0.6044 0.7034 1.3678 1.2053 1.1789 1.2119 1.3512 1.0414 1.1971 1.1949 1.1741 1.2739 1.3587 1.3799 1.4277 80.982 0.6520 0.5540 1.2830 1.1375 1.3677 1.3304 0.6137 0.8054 1.1472 1.1137 1.3049 0.9417 1.2496 1.1050 1.0017 1.1759 1.2927 1.1795 1.0902 0.6520 1.2731 1.1671 0.6099 0.8227 1.1421 0.5775 0.6788 1.2833 1.1082 1.1286 1.1293 1.2715 0.9974 1.1108 1.1636 1.0957 1.1819 1.2760 1.2875 1.3467 67.833 0.6953 0.5874 1.4093 1.2554 1.5128 1.4485 0.6627 0.8793 1.2017 1.2058 1.4126 1.0116 1.3986 1.2228 1.0774 1.3044 1.3952 1.3256 1.2125 0.7049 1.3949 1.2426 0.6458 0.8887 1.2549 0.6116 0.7281 1.4347 1.2503 1.2329 1.2532 1.3789 1.0749 1.2305 1.2505 1.2245 1.3235 1.4269 1.4375 1.4946 54.685 0.6711 0.5610 1.3812 1.2485 1.4852 1.4115 0.6364 0.8389 1.1507 1.1711 1.3848 0.9669 1.3788 1.1929 1.0298 1.2816 1.3639 1.3027 1.1747 0.6767 1.3897 1.1970 0.6188 0.8557 1.2393 0.5793 0.7034 1.4066 1.2251 1.1843 1.2280 1.3477 1.0325 1.2305 1.2192 1.2155 1.2881 1.3964 1.4218 1.4541 41.537 0.5687 0.4819 1.1952 1.1028 1.3005 1.2300 0.5505 0.7228 0.9733 1.0164 1.2093 0.8411 1.2119 1.0436 0.8767 1.1266 1.1937 1.1256 1.0182 0.5833 1.2366 1.0320 0.5343 0.7377 1.0883 0.4986 0.6032 1.2323 1.0848 0.9992 1.0826 1.1797 0.8854 1.0809 1.0592 1.0679 1.1253 1.2257 1.2491 1.2745 28.388 0.3728 0.3218 0.8354 0.7994 0.8988 0.8370 0.3770 0.5012 0.6465 0.7315 0.8531 0.5931 0.8546 0.7361 0.6003 0.7869 0.8583 0.7454 0.7178 0.4000 0.8801 0.6955 0.3616 0.5016 0.7533 0.3444 0.4045 0.8626 0.7844 0.6991 0.7738 0.8038 0.6132 0.7376 0.7340 0.7689 0.7980 0.8680 0.9072 0.8890 15.240 0.2549 0.2075 0.4879 0.5185 0.6016 0.5251 0.2349 0.3429 0.4252 0.4674 0.5056 0.4008 0.5027 0.4743 0.4084 0.5105 0.5160 0.4876 0.4641 0.2573 0.5061 0.4651 0.2357 0.3541 0.4843 0.2152 0.2620 0.5052 0.5199 0.4421 0.4829 0.5110 0.4141 0.4612 0.4609 0.4988 0.4211 0.5266 0.5338 0.5140 D.6 Cycle-2 Flux Map Measured Data MAP1 Date time MWT press P/L HT 0 12/20/1974 60 2250 144 num_det 15 F8 H6 J3 L9 J12 H1 N5 J10 B8 C12 N7 H4 G14 N8 E5 383.393 0.2164 0.4900 0.4561 0.4948 0.4773 0.3246 0.4480 0.5218 0.4247 0.2885 0.4624 0.2591 0.4412 0.4412 0.5091 370.245 0.3288 0.7340 0.7212 0.7496 0.6786 0.4858 0.6926 0.7234 0.6413 0.4476 0.7149 0.4119 0.6788 0.6576 0.7849 357.096 0.4030 0.8294 0.8485 0.8918 0.8040 0.5940 0.8154 0.8485 0.7708 0.5324 0.8485 0.5542 0.8167 0.7955 0.8909 343.948 0.4561 0.9567 0.9758 0.9916 1.0546 0.6937 0.9301 0.9355 0.8918 0.6067 0.9800 0.9152 0.9334 0.9334 1.0076 330.800 0.4879 1.0076 1.0606 1.0405 1.0288 0.7637 0.9959 0.9885 0.9810 0.6597 1.0500 1.0214 1.2197 1.0288 1.0606 317.651 0.5091 1.0246 1.0861 1.0553 1.0543 0.7891 1.0192 1.0097 1.0192 0.6788 1.0776 1.0808 1.2516 1.0606 1.0819 304.503 0.5621 1.0416 1.0925 1.0617 1.0564 0.7955 1.0192 1.0182 1.0405 0.6809 1.0861 1.0851 1.2685 1.0713 1.0925 291.355 0.8273 0.9779 1.0182 1.0235 1.0013 0.7679 0.9747 0.9673 1.0001 0.6640 1.0416 1.0426 1.2516 1.0182 1.0182 278.206 0.9440 1.0310 1.0925 1.0617 1.0331 0.7849 1.0171 0.9673 1.0108 0.6809 1.0606 1.0426 1.0500 1.0288 1.0416

D-18 265.058 1.0182 1.0670 1.1137 1.1254 1.0797 0.8188 1.0506 0.9970 1.0405 0.7022 1.1031 1.0851 1.1031 1.0606 1.0776 251.910 1.0606 1.0797 1.1349 1.1297 1.1010 0.8209 1.0702 1.0097 1.0617 0.7128 1.1222 1.1042 1.1137 1.0819 1.0925 238.761 1.0713 1.0840 1.1413 1.1297 1.0988 0.8252 1.0702 1.0225 1.0681 0.7128 1.1222 1.1063 1.1137 1.0925 1.1137 225.613 1.0713 1.0628 1.1031 1.0914 1.0606 0.8167 1.0617 1.0203 1.0638 0.7022 1.0988 1.0893 1.1010 1.0713 1.0988 212.465 1.0500 1.0628 1.1031 1.0617 1.0246 0.8061 1.0596 1.0203 1.0596 0.7022 1.0840 1.0660 1.0861 1.0606 1.0819 199.316 1.1031 1.1158 1.1561 1.1042 1.0755 0.8443 1.1063 1.0734 1.1254 0.7340 1.1349 1.1233 1.1455 1.1031 1.1455 186.168 1.1243 1.1285 1.1858 1.1254 1.1031 0.8634 1.1339 1.0840 1.1488 0.7446 1.1667 1.1275 1.1667 1.1243 1.1773 173.020 1.1264 1.1285 1.1879 1.1424 1.1094 0.8740 1.1445 1.0840 1.1530 0.7446 1.1794 1.1339 1.1773 1.1243 1.1773 159.871 1.1200 1.1264 1.1667 1.1275 1.1031 0.8697 1.1339 1.0734 1.1382 0.7340 1.1646 1.1275 1.1561 1.1137 1.1561 146.723 1.0713 1.1052 1.1243 1.0957 1.0606 0.8337 1.1021 1.0310 1.0978 0.7191 1.1052 1.0999 1.1243 1.0797 1.1349 133.575 1.1455 1.1582 1.1837 1.1679 1.1243 0.8909 1.1551 1.0797 1.1679 0.7594 1.1710 1.1700 1.1922 1.1243 1.2049 120.427 1.1667 1.1794 1.2091 1.1934 1.1519 0.9100 1.1764 1.0662 1.1912 0.7700 1.1879 1.1976 1.2113 1.1455 1.2304 107.278 1.1879 1.2007 1.2346 1.2061 1.1816 0.9122 1.1976 1.1052 1.2104 0.7700 1.2049 1.2019 1.2304 1.0649 1.2410 94.130 1.1879 1.1943 1.2346 1.1955 1.1710 0.8973 1.1912 1.1370 1.1891 0.7552 1.2049 1.2164 1.2282 1.1773 1.2304 80.982 1.1849 1.1794 1.1879 1.1297 1.1307 0.8655 1.1551 1.1052 1.1912 0.7234 1.1567 1.1551 1.1667 1.1561 1.1879 67.833 1.2304 1.2558 1.2622 1.2465 1.2155 0.9079 1.2125 1.2007 1.2104 0.7531 1.2740 1.2486 1.2346 1.2304 1.2834 54.685 1.2325 1.2643 1.2410 1.2528 1.2282 0.8740 1.1764 1.1900 1.1891 0.7276 1.3025 1.2550 1.2049 1.2282 1.2834 41.537 1.1243 1.1370 1.1031 1.1445 1.0925 0.7552 1.0171 1.0628 1.0511 0.6279 1.1646 1.1297 1.0606 1.0925 1.1455 28.388 0.8167 0.7658 0.7637 0.8260 0.7467 0.5155 0.6936 0.6597 0.7198 0.4264 0.5040 0.6069 0.7318 0.7425 0.7849 15.240 0.5621 0.6173 0.5303 0.5478 0.5431 0.3437 0.6031 0.5346 0.5011 0.3203 0.5303 0.5436 0.5834 0.5049 0.5728 MAP2 Date time MWT press P/L HT 3/15/1975 2380 2250 144 num_det 40 M3 J15 F4 L8 F8 J3 D3 B10 L4 F13 F6 B7 G7 F11 N5 J10 J5 B8 N10 C12 J7 D7 L14 F2 F9 A9 R8 H4 H11 D5 L6 D10 G14 H13 C8 H3 N8 F11 L11 E5 383.393 0.2706 0.2378 0.5482 0.6350 0.5640 0.4838 0.2650 0.3397 0.5372 0.6249 0.6010 0.4469 0.6358 0.6026 0.4281 0.6074 0.5707 0.4172 0.5472 0.2530 0.6428 0.5917 0.2719 0.3478 0.6391 0.2400 0.3061 0.4874 0.6234 0.5623 0.6334 0.5624 0.4380 0.4707 0.5126 0.4906 0.4838 0.5569 0.5719 0.5572 370.245 0.4582 0.4009 0.8842 0.9410 0.8833 0.7828 0.4485 0.6047 0.8222 0.7920 0.9682 0.7578 0.9527 0.8774 0.7162 0.8493 0.9707 0.6591 0.7688 0.4231 0.9649 0.8638 0.4347 0.6194 0.9274 0.4163 0.5237 0.8290 0.9258 0.8309 0.9107 0.8911 0.7441 0.7291 0.8050 0.7847 0.7501 0.9198 0.9006 0.6833 357.096 0.5670 0.4987 1.0474 1.0837 1.0328 0.9390 0.5490 0.7705 0.9445 0.9482 1.0905 0.9376 1.1123 1.0134 0.8697 1.0111 1.0859 0.8154 0.9534 0.5319 1.1238 1.0202 0.5438 0.7757 1.0400 0.5254 0.6421 0.9784 1.0854 0.9685 1.0501 1.0650 0.8937 0.9060 0.9614 0.9275 0.9241 1.0507 1.0501 0.9988 343.948 0.6758 0.6183 1.1835 1.2129 1.1483 1.0885 0.6564 0.9309 1.1211 1.1166 1.2333 1.1358 1.2299 1.1522 1.0396 1.0967 1.2377 0.9716 1.1045 0.6339 1.2339 1.1699 0.6479 0.9862 1.1721 0.6513 0.7958 1.1183 1.2165 1.1196 1.1963 1.1302 1.0883 1.0488 1.1245 1.1022 1.0695 1.2095 1.1723 1.1551 330.800 0.7479 0.6999 1.2474 1.2646 1.1768 1.1565 0.7379 1.0396 1.2027 1.2131 1.2755 1.2450 1.2585 1.2107 1.1238 1.1402 1.2743 1.0776 1.2136 0.7019 1.2774 1.2379 0.7218 1.0473 1.2061 0.7352 0.8883 1.1687 1.2719 1.1917 1.2551 1.2592 1.1930 1.1236 1.1939 1.1761 1.1415 1.2538 1.2266 1.2067 317.651 0.7873 0.7379 1.2692 1.2537 1.1633 1.1836 0.7542 1.0940 1.2040 1.2497 1.2796 1.2954 1.2551 1.2066 1.1633 1.1374 1.2662 1.1211 1.2536 0.7332 1.2584 1.2447 0.7587 1.0990 1.2034 0.7822 0.9345 1.1728 1.2786 1.2119 1.2551 1.2688 1.2447 1.1481 1.2224 1.2013 1.1673 1.2555 1.2348 1.2176 304.503 0.7900 0.7379 1.2637 1.2333 1.1320 1.1741 0.7556 1.1075 1.1891 1.2538 1.2510 1.3038 1.2249 1.1780 1.1660 1.1103 1.2513 1.1874 1.2488 0.7319 1.2421 1.2202 0.7654 1.1003 1.1694 0.7889 0.9441 1.1551 1.2450 1.2085 1.2215 1.2688 1.2556 1.1372 1.2197 1.1896 1.1728 1.2471 1.2307 1.2027 291.355 0.7642 0.7107 1.1971 1.1585 1.0641 1.1225 0.7338 1.0736 1.1143 1.1927 1.1449 1.2618 1.1459 1.0978 1.1238 1.0423 1.1537 1.0967 1.2018 0.7128 1.1755 1.1427 0.7335 1.0677 1.0797 0.7604 0.9046 1.1075 1.1610 1.1582 1.1375 1.2144 1.2134 1.0991 1.1585 1.1123 1.1238 1.1800 1.1655 1.1143 278.206 0.7669 0.7270 1.1862 1.1313 1.0355 1.1293 0.7406 1.0831 1.1388 1.1859 1.1381 1.2854 1.1325 1.0964 1.1483 0.9961 1.1564 1.0953 1.1884 0.7128 1.1415 1.1223 0.7486 1.0677 1.0701 0.7855 0.9277 1.0763 1.1442 1.1531 1.1173 1.2008 1.2474 1.0964 1.1653 1.1291 1.1103 1.1917 1.0922 1.1075 265.058 0.7846 0.7529 1.2012 1.1395 1.0396 1.1524 0.7529 1.1075 1.1470 1.2022 1.1381 1.3106 1.1341 1.0923 1.1755 0.9975 1.1632 1.1184 1.2136 0.7278 1.1429 1.1277 0.7654 1.1017 1.0769 0.8107 0.9454 1.0926 1.1409 1.1649 1.1173 1.2212 1.2869 1.1073 1.1857 1.1409 1.1238 1.1968 1.1071 1.1103 251.910 0.7832 0.7651 1.2012 1.1313 1.0328 1.1537 0.7542 1.1103 1.1456 1.2008 1.1327 1.3223 1.1039 1.0801 1.1755 0.9866 1.1605 1.1211 1.2220 0.7278 1.1211 1.1263 0.7671 1.1017 1.0661 0.8191 0.9495 1.0872 1.1325 1.1649 1.1056 1.2212 1.2969 1.1005 1.1871 1.1425 1.1238 1.1884 1.1057 1.1075 238.761 0.7778 0.7583 1.1930 1.1137 1.0165 1.1470 0.7474 1.1075 1.1279 1.2008 1.1150 1.3173 1.1039 1.0692 1.1592 0.9784 1.1523 1.1157 1.2270 0.7223 1.1048 1.1195 0.7604 1.1003 1.0525 0.8174 0.9481 1.0736 1.1157 1.1582 1.1005 1.2131 1.2787 1.0937 1.1789 1.1375 1.1211 1.1750 1.0949 1.1048 225.613 0.7615 0.7447 1.1672 1.0878 0.9852 1.1089 0.7270 1.0804 1.0953 1.1886 1.0769 1.2954 1.0703 1.0447 1.1374 0.9608 1.1130 1.0967 1.2052 0.7033 1.0776 1.0855 0.7419 1.0786 1.0226 0.7880 0.9291 1.0423 1.0938 1.1313 1.0720 1.1845 1.2474 1.0706 1.1517 1.1039 1.0912 1.1380 1.1356 1.0804 212.465 0.7343 0.7202 1.1155 1.0525 0.9445 1.0681 0.7067 1.0505 1.0872 1.1587 1.0430 1.2762 1.0199 1.0066 1.1143 0.9105 1.0629 1.0736 1.0541 0.6679 1.0260 1.0542 0.7218 1.0473 0.9818 0.7688 0.9182 0.9852 1.0518 1.0994 1.0357 1.1897 1.2202 1.0230 1.1069 1.0737 1.0355 1.1129 1.0922 1.0396 199.316 0.7642 0.7529 1.1631 1.0878 0.9744 1.1211 0.7406 1.0967 1.1293 1.2253 1.0810 1.3374 1.0669 1.0502 1.1619 0.9567 1.0913 1.1320 1.1968 0.7019 1.0749 1.0883 0.7604 1.0908 1.0226 0.7939 0.9577 1.0287 1.1022 1.1414 1.0753 1.1805 1.2651 1.0855 1.1517 1.1173 1.0858 1.1548 1.1383 1.0790 186.168 0.7710 0.7664 1.1699 1.0878 0.9730 1.1374 0.7542 1.1075 1.1347 1.2497 1.0851 1.3458 1.0669 1.0379 1.1823 0.9485 1.0967 1.1483 1.2102 0.7087 1.0790 1.0869 0.7755 1.1044 1.0226 0.7939 0.9726 1.0287 1.1005 1.1498 1.0753 1.2008 1.2787 1.1019 1.1653 1.1173 1.0980 1.1666 1.1479 1.0926 173.020 0.7778 0.7664 1.1672 1.0797 0.9689 1.1334 0.7542 1.1035 1.1320 1.2511 1.0756 1.3425 1.0559 1.0284 1.1768 0.9404 1.0995 1.1320 1.2186 0.7046 1.0695 1.0896 0.7755 1.1017 1.0212 0.7855 0.9685 1.0192 1.0871 1.1481 1.0703 1.1859 1.2746 1.1087 1.1653 1.1123 1.0967 1.1599 1.1451 1.0912 159.871 0.7601 0.7447 1.1522 1.0633 0.9485 1.1116 0.7270 1.0858 1.1048 1.2239 1.0498 1.3206 1.0400 1.0189 1.1551 0.9241 1.0873 1.1184 1.1968 0.6883 1.0532 1.0719 0.7503 1.0813 0.9954 0.7682 0.9400 1.0111 1.0653 1.1263 1.0535 1.1764 1.2474 1.0828 1.1436 1.0905 1.0817 1.1347 1.1288 1.0695 146.723 0.7302 0.7134 1.0951 1.0294 0.9105 1.0668 0.6999 1.0396 1.0804 1.1519 1.0090 1.2618 0.9947 0.9930 1.1143 0.8765 1.0520 1.0804 1.1464 0.6475 0.9988 1.0474 0.7251 1.0405 0.9546 0.7520 0.9250 0.9649 1.0216 1.1028 1.0115 1.1125 1.2202 1.0026 1.0905 1.0619 1.0219 1.0961 1.0799 1.0260 133.575 0.7642 0.7515 1.1617 1.0837 0.9621 1.1089 0.7352 1.0953 1.1320 1.1981 1.0633 1.3526 1.0400 1.0542 1.1619 0.9186 1.0927 1.1320 1.2062 0.6938 1.0668 1.0091 0.7604 1.0990 1.0049 0.7990 0.9699 1.0246 1.0720 1.1649 1.0535 1.1818 1.2719 1.0570 1.1313 1.1073 1.0763 1.1548 1.1316 1.0804 120.427 0.7751 0.7610 1.1794 1.0946 0.9757 1.1238 0.7488 1.1116 1.1347 1.2144 1.0769 1.3710 1.0585 1.0679 1.1755 0.9254 1.1089 1.1415 1.2085 0.7019 1.0885 1.1087 0.7721 1.1139 0.9961 0.8174 0.9849 1.0342 1.0837 1.1817 1.0659 1.1995 1.2855 1.0624 1.1572 1.1241 1.0899 1.1682 1.1560 1.0940 107.278 0.7669 0.7542 1.1903 1.0973 0.9866 1.1334 0.7447 1.1021 1.1320 1.2239 1.0892 1.3559 1.0703 1.0610 1.1864 0.9309 1.1117 1.1415 1.2136 0.7006 1.0994 1.1087 0.7671 1.1125 1.0062 0.8074 0.9740 1.0396 1.0871 1.1800 1.0737 1.2008 1.2869 1.0733 1.1667 1.1257 1.0980 1.1716 1.1628 1.0967 94.130 0.7438 0.7243 1.1808 1.0919 0.9880 1.1211 0.7134 1.0641 1.1194 1.2063 1.0878 1.3173 1.0737 1.0515 1.1619 0.9431 1.1062 1.1075 1.2052 0.6747 1.0940 1.0951 0.7369 1.0745 1.0171 0.7704 0.9345 1.0355 1.0808 1.1498 1.0753 1.1873 1.2474 1.0719 1.1517 1.1123 1.0858 1.1548 1.1574 1.0872 80.982 0.6908 0.6591 1.0883 1.0633 0.9309 1.0274 0.6659 0.9852 1.0804 1.1451 1.0498 1.2198 1.0199 0.9998 1.0940 0.9037 1.0751 1.0260 1.1129 0.6203 1.0192 1.0570 0.6832 0.9998 0.9954 0.7167 0.8706 0.9716 1.0484 1.1070 1.0501 1.1193 1.1726 0.9808 1.0769 1.0535 1.0083 1.1129 1.1112 1.0396 67.833 0.7057 0.6713 1.1767 1.1286 1.0097 1.0899 0.6758 1.0056 1.1252 1.1927 1.1150 1.2450 1.1089 1.0747 1.1171 0.9880 1.1469 1.0668 1.1716 0.6407 1.1048 1.1087 0.6966 1.0107 1.0620 0.7050 0.8706 1.0396 1.1120 1.1531 1.1005 1.1805 1.1821 1.0665 1.1341 1.1039 1.0817 1.1582 1.1669 1.1103 54.685 0.6486 0.6088 1.1427 1.1137 0.9880 1.0382 0.6251 0.9241 1.0668 1.1180 1.0973 1.1560 1.0905 1.0515 1.0260 0.9649 1.1256 0.9934 1.1045 0.5931 1.1089 1.0787 0.6294 0.9359 1.0566 0.6328 0.7890 1.0151 1.0854 1.1078 1.0659 1.1397 1.0910 1.0352 1.0378 1.0703 1.0355 1.1095 1.1356 1.0804 41.537 0.5262 0.4960 0.9971 0.9682 0.8765 0.8942 0.5164 0.7610 0.9037 0.9414 0.9682 0.9678 0.9695 0.9182 0.8561 0.8493 0.9883 0.8358 0.9500 0.4979 0.9920 0.9250 0.5059 0.7689 0.9274 0.5036 0.6325 0.8901 0.9510 0.9400 0.9325 0.9903 0.9073 0.9060 0.9206 0.9157 0.8996 0.9668 0.9821 0.9377 28.388 0.3495 0.3261 0.7210 0.6826 0.6455 0.6401 0.3465 0.5164 0.6183 0.6561 0.6758 0.6570 0.7006 0.6584 0.5834 0.6319 0.6928 0.5572 0.6348 0.3482 0.7202 0.6530 0.3391 0.5108 0.6554 0.3323 0.4217 0.6453 0.6822 0.6462 0.6536 0.7186 0.6081 0.6679 0.6350 0.6334 0.6482 0.6932 0.6969 0.6618 15.240 0.2067 0.1835 0.4285 0.4243 0.3846 0.3737 0.2174 0.3194 0.3873 0.3844 0.4514 0.3965 0.4234 0.4067 0.3941 0.3819 0.4487 0.3533 0.3911 0.2258 0.4254 0.4176 0.2887 0.3247 0.4175 0.1981 0.2313 0.3805 0.4268 0.3928 0.4201 0.4279 0.3700 0.3891 0.3903 0.3948 0.3628 0.4331 0.4388 0.4077 MAP3 Date time MWT press P/L HT 6/2/1975 4680 2250 144 num_det 39 M3 J15 F4 L8 F8 J3 D3 B10 L4 F13 F6 G7 F11 N5 J10 J5 B8 N10 C12 J7 D7 L14 F2 F9 A9 R8 H4 H11 D5 L6 D10 G14 H13 C8 H3 N8 E11 L11 E5 383.393 0.2966 0.2537 0.5471 0.6444 0.5711 0.5122 0.2896 0.3607 0.5652 0.5731 0.5711 0.6347 0.6204 0.4419 0.6396 0.5593 0.4526 0.5659 0.2833 0.6482 0.5937 0.2687 0.3452 0.6437 0.2501 0.3278 0.5018 0.6224 0.5730 0.6313 0.5719 0.4482 0.4915 0.5359 0.4993 0.5101 0.5342 0.5567 0.5412 370.245 0.4734 0.4198 0.8666 0.8840 0.8812 0.8176 0.4623 0.6070 0.8178 0.7750 0.9123 0.9238 0.8463 0.7002 0.8471 0.9209 0.7015 0.7724 0.4575 0.9268 0.8466 0.4410 0.6009 0.8642 0.4328 0.5343 0.8519 0.8780 0.8409 0.8583 0.8944 0.7323 0.7533 0.7818 0.7730 0.7918 0.8674 0.8571 0.8631 357.096 0.5655 0.5141 1.0197 1.0416 1.0210 0.9537 0.5566 0.7534 0.9242 0.9265 1.0576 1.0822 0.9857 0.8679 0.9827 1.0657 0.8346 0.9376 0.5439 1.0668 0.9930 0.5375 0.7609 1.0217 0.5263 0.6476 0.9930 1.0319 0.9206 1.0096 1.0355 0.9043 0.9127 0.9634 0.9105 0.9246 1.0147 1.0098 0.9934 343.948 0.6627 0.6324 1.1395 1.1425 1.1302 1.1017 0.6549 0.8866 1.0838 1.0654 1.1713 1.1717 1.1053 0.9930 1.0865 1.1791 0.9944 1.0822 0.6383 1.1664 1.1262 0.6340 0.9561 1.1098 0.6279 0.7808 1.1168 1.1460 1.0855 1.1265 1.1640 1.0484 1.0442 1.0920 1.0604 1.0708 1.1290 1.1108 1.1277 330.800 0.7233 0.6988 1.1927 1.1992 1.1568 1.1591 0.7081 0.9781 1.1569 1.1600 1.2180 1.1992 1.1651 1.0796 1.1131 1.2232 1.0756 1.1717 0.6962 1.2043 1.1861 0.6891 0.9876 1.1539 0.7035 0.8541 1.1581 1.2037 1.1363 1.1897 1.2119 1.1364 1.1066 1.1652 1.1265 1.1345 1.1785 1.1613 1.1796 317.651 0.7523 0.7227 1.2127 1.1929 1.1501 1.1698 0.7479 1.0197 1.1569 1.1941 1.2256 1.1951 1.1651 1.1142 1.1131 1.2207 1.1142 1.1923 0.7181 1.2017 1.1927 0.7157 1.0254 1.1476 0.7406 0.8874 1.1648 1.2078 1.1473 1.1911 1.2182 1.1791 1.1159 1.1866 1.1457 1.1505 1.1813 1.1701 1.1942 304.503 0.7536 0.7214 1.2127 1.1765 1.1262 1.1684 0.7479 1.0223 1.1436 1.1941 1.2092 1.1785 1.1385 1.1168 1.0931 1.2106 1.1262 1.1854 0.7181 1.1916 1.1727 0.7157 1.0305 1.1287 0.7461 0.8874 1.1475 1.1803 1.1460 1.1677 1.2182 1.1871 1.1119 1.1841 1.1375 1.1452 1.1813 1.1701 1.1796 291.355 0.7384 0.6855 1.1594 1.1299 1.0569 1.1631 0.7014 0.9930 1.0838 1.1537 1.1397 1.1166 1.0748 1.0889 1.0333 1.1602 1.0609 1.1372 0.6908 1.1173 1.0995 0.6960 1.0116 1.0796 0.7310 0.8541 1.0915 1.1116 1.0649 1.0990 1.1678 1.1364 1.0721 1.1437 1.0770 1.0920 1.1400 1.1386 1.1117 278.206 0.7384 0.7054 1.1395 1.0794 1.0410 1.1137 0.7254 1.0064 1.0944 1.1158 1.1018 1.0987 1.0615 1.0889 0.9974 1.1199 1.0769 1.1304 0.7005 1.1135 1.0862 0.7056 0.9977 1.0342 0.7310 0.8675 1.0769 1.0924 1.1061 1.0673 1.1590 1.1684 1.0588 1.1160 1.0673 1.0814 1.1125 1.1057 1.0998 265.058 0.7510 0.7320 1.1634 1.1046 1.0516 1.1431 0.7386 1.0303 1.1117 1.1474 1.1144 1.1166 1.0708 1.1288 1.0027 1.1388 1.0915 1.1593 0.7221 1.1261 1.0969 0.7263 1.0254 1.0582 0.7640 0.8901 1.0982 1.1020 1.1157 1.0783 1.1779 1.2111 1.0801 1.1551 1.0921 1.0987 1.1496 1.1335 1.1117 251.910 0.7536 0.7386 1.1688 1.1009 1.0543 1.1471 0.7413 1.0356 1.1171 1.1537 0.7354 1.1438 1.0694 1.1302 1.0014 1.1413 1.0982 1.1785 0.7221 1.1210 1.1062 0.7291 1.0330 1.0582 0.7708 0.8981 1.0982 1.0979 1.1253 1.0783 1.1829 1.2218 1.0787 1.1614 1.1017 1.1040 1.1524 1.1373 1.1117 238.761 0.7523 0.7386 1.1688 1.0971 1.0476 1.1458 0.7347 1.0330 1.1077 1.1537 1.1081 1.1097 1.0655 1.1262 0.9974 1.1438 1.1009 1.1854 0.7168 1.1122 1.0929 0.7235 1.0330 1.0531 0.7695 0.8941 1.0876 1.0924 1.1240 1.0783 1.1816 1.2151 1.0721 1.1614 1.1017 1.1040 1.1482 1.1360 1.1131 225.613 0.7410 0.7254 1.1528 1.0756 1.0237 1.1057 0.7214 1.0263 1.0811 1.1537 1.0866 1.0822 1.0429 1.1128 0.9841 1.1237 1.0822 1.1648 0.7008 1.0857 1.0729 0.7139 1.0254 1.0342 0.7585 0.8808 1.0636 1.0745 1.0924 1.0439 1.1627 1.1951 1.0588 1.1450 1.0770 1.0841 1.1290 1.1133 1.0865 212.465 0.7132 0.7054 1.0862 1.0290 0.9811 1.0764 0.7014 0.9797 1.0572 1.1032 1.0323 1.0340 0.9990 1.0596 0.9535 1.0468 1.0742 1.1097 0.6875 1.0441 1.0330 0.6960 0.9813 0.9713 0.7159 0.8808 1.0143 1.0333 1.0869 1.0233 1.1237 1.1484 1.0123 1.1072 1.0261 1.0349 1.0285 1.0881 1.0466 199.316 0.7536 0.7386 1.1554 1.0857 1.0277 1.1404 0.7413 1.0343 1.1077 1.1916 1.0955 1.0890 1.0482 1.1461 1.0014 1.1086 1.1315 1.1689 0.7141 1.0908 1.0796 0.7373 1.0405 1.0355 0.7626 0.9114 1.0636 1.0979 1.1198 1.0770 1.1867 1.2155 1.0801 1.1412 1.0880 1.0907 1.0904 1.1360 1.1024 186.168 0.7649 0.7519 1.1688 1.0971 1.0343 1.1604 0.7572 1.0476 1.1237 1.2231 1.1081 1.0959 1.0469 1.1594 1.0053 1.1149 1.1541 1.1827 0.7221 1.1034 1.0876 0.7511 1.0620 1.0456 0.7640 0.9274 1.0689 1.1047 1.1336 1.0797 1.1993 1.2285 1.1000 1.1664 1.0907 1.1066 1.1400 1.1487 1.1264 173.020 0.7662 0.7586 1.1688 1.0958 1.0303 1.1591 0.7572 1.0476 1.1250 1.2282 1.1081 1.0959 1.0469 1.1634 0.9960 1.1250 1.1528 1.1854 0.7221 1.1034 1.0929 0.7552 1.0607 1.0468 0.7585 0.9247 1.0663 1.0979 1.1336 1.0783 1.1993 1.2255 1.1133 1.1664 1.0921 1.1080 1.1634 1.1487 1.1264 159.871 0.7523 0.7386 1.1554 1.0857 1.0197 1.1431 0.7214 1.0396 1.1104 1.2143 1.0866 1.0753 1.0389 1.1554 0.9827 1.1262 1.1302 1.1703 0.7035 1.0920 1.0862 0.7332 1.0456 1.0342 0.7461 0.9021 1.0609 1.0800 1.1061 1.0646 1.1816 1.2191 1.0973 1.1576 1.0880 1.0973 1.1606 1.1360 1.1131 146.723 0.7321 0.7121 1.0862 1.0353 0.9811 1.0897 0.7147 0.9930 1.0772 1.1158 1.0197 1.0271 1.0057 1.0729 0.9428 1.0468 1.1009 1.1304 0.6875 1.0403 1.0596 0.7180 1.0002 0.9650 0.7131 0.8874 1.0237 1.0278 1.1144 1.0302 1.1250 1.1551 1.0123 1.0908 1.0054 1.0442 1.1441 1.0628 1.0599 133.575 0.7649 0.7519 1.1727 1.1009 1.0396 1.1471 0.7479 1.0490 1.1370 1.1764 1.0892 1.0863 1.0854 1.1554 0.9894 1.1250 1.1581 1.1854 0.7274 1.1072 1.1195 0.7456 1.0632 1.0280 0.7763 0.9341 1.0889 1.0937 1.1679 1.0715 1.1968 1.2351 1.0787 1.1425 1.1017 1.1000 1.1056 1.1335 1.1304 120.427 0.7776 0.7652 1.1927 1.1210 1.0543 1.1698 0.7652 1.0716 1.1503 1.2042 1.1144 1.1056 1.1093 1.1754 0.9960 1.1602 1.1794 1.1923 0.7407 1.1324 1.1828 0.7649 1.0884 1.0342 0.7969 0.9341 1.1089 1.1047 1.1940 1.0852 1.2220 1.2618 1.0894 1.1702 1.1237 1.1173 1.1538 1.1613 1.1530 107.278 0.7776 0.7652 1.2057 1.1261 1.0689 1.1844 0.7652 1.0703 1.1516 1.2168 1.1334 1.1193 1.1013 1.1940 1.0093 1.1703 1.1887 1.2006 0.7341 1.1475 1.1895 0.7690 1.0884 1.0494 0.7969 0.9541 1.1142 1.1130 1.1927 1.0990 1.2270 1.2725 1.1080 1.1866 1.1333 1.1305 1.1772 1.1777 1.1583 94.130 0.7611 0.7386 1.2060 1.1261 1.0849 1.1831 0.7426 1.0436 1.1476 1.2168 1.1334 1.1235 1.0920 1.1887 1.0200 1.1728 1.1581 1.1992 0.7141 1.1450 1.1262 0.7470 1.0607 0.9839 0.7997 0.9247 1.1142 1.1198 1.1542 1.1058 1.2207 1.2525 1.1119 1.1828 1.1292 1.1279 1.1882 1.1815 1.1530 80.982 0.7144 0.6921 1.1128 1.0731 1.0210 1.0924 0.7014 0.9531 1.1104 1.1411 1.0765 1.0753 1.0322 1.0862 0.9934 1.0657 1.1009 1.1441 0.6742 1.0756 1.0729 0.6960 0.9876 1.0091 0.7269 0.8741 0.9784 1.0603 1.1487 1.0715 1.1703 1.1618 1.0150 1.0555 1.0742 1.0575 1.0780 1.0729 1.0984 67.833 0.7384 0.7121 1.2167 1.1639 1.1089 1.1764 0.7174 1.0130 1.1769 1.2231 1.1713 1.1717 1.1359 1.1794 1.0838 1.2056 1.1488 1.2006 0.6902 1.1702 1.1528 0.7180 1.0280 1.1161 0.7035 0.8874 1.1381 1.1652 1.1913 1.1471 1.2282 1.2231 1.1292 1.1816 1.1361 1.1531 1.1978 1.1992 1.1929 54.685 0.6879 0.6589 1.1927 1.1740 1.0942 1.1404 0.6722 0.9531 1.1370 1.1790 1.1713 1.1579 1.1252 1.1128 1.0639 1.2106 1.0876 1.1441 0.6476 1.1765 1.1395 0.6684 0.9662 1.1250 0.6870 0.8221 1.1222 1.1418 1.1432 1.1255 1.2068 1.1578 1.1133 1.1500 1.1292 1.1239 1.1703 1.2093 1.1702 41.537 0.5743 0.5527 1.0596 1.0479 0.9811 0.9990 0.5656 0.8067 0.9907 1.0149 1.0513 1.0340 1.0057 0.9531 0.9535 1.0884 0.9278 0.9927 0.5452 1.0492 1.0064 0.5651 0.8264 1.0091 0.5661 0.6876 0.9984 1.0154 0.9687 1.0027 1.0506 1.0030 0.9924 0.9420 0.9504 0.9844 0.9775 1.0477 1.0359

D-19 28.388 0.3787 0.3667 0.7801 0.7579 0.7281 0.7296 0.3959 0.5804 0.6982 0.7372 0.7796 0.7586 0.7400 0.6869 0.7101 0.8113 0.6376 0.7035 0.3817 0.7503 0.7268 0.3859 0.5820 0.7382 0.3985 0.4677 0.7281 0.7475 0.7049 0.7136 0.7558 0.7283 0.7267 0.6532 0.6685 0.7014 0.7683 0.7447 0.7540 15.240 0.2335 0.2338 0.4739 0.4754 0.4553 0.4388 0.2630 0.4073 0.4388 0.4367 0.4827 0.4695 0.4610 0.5271 0.4561 0.4926 0.4220 0.4392 0.2487 0.4830 0.4739 0.2481 0.4082 0.4686 0.2748 0.2745 0.4486 0.4740 0.4383 0.4653 0.4951 0.5349 0.4331 0.4502 0.4291 0.4198 0.4791 0.4923 0.4614 MAP4 Date time MWT press P/L HT 7/25/1975 6120 2250 144 num_det 40 M3 J15 F4 L8 D12 B5 H6 D3 L9 B10 L4 F13 F6 J12 B7 H1 G9 G7 F11 J5 N10 J7 D7 L14 F2 F9 N7 A9 N12 R8 H11 D5 L6 D10 H13 C8 H3 E11 L11 L5 383.393 0.2956 0.2599 0.5580 0.5780 0.4523 0.2729 0.5669 0.3191 0.5684 0.3763 0.5853 0.5820 0.5755 0.5583 0.4912 0.3718 0.5773 0.6119 0.6368 0.5373 0.5742 0.6175 0.5984 0.2731 0.3608 0.6149 0.5147 0.2618 0.2981 0.3387 0.5758 0.5788 0.6315 0.5500 0.4847 0.4972 0.4809 0.5718 0.5794 0.5736 370.245 0.4760 0.4194 0.8699 0.8508 0.7053 0.4446 0.8742 0.4927 0.8911 0.6136 0.8067 0.7807 0.9165 0.8166 0.7789 0.5499 0.8898 0.9024 0.8666 0.8818 0.7773 0.9192 0.7673 0.4454 0.6175 0.8805 0.8230 0.4387 0.4824 0.5350 0.8658 0.8218 0.8631 0.8731 0.7098 0.7720 0.7664 0.9089 0.8924 0.9043 357.096 0.5840 0.5312 1.0225 0.9985 0.8049 0.5458 1.0462 0.5753 1.0501 0.7526 0.9460 0.9511 1.0595 0.9704 0.9108 0.6661 1.0438 1.0335 0.9897 1.0254 0.9453 1.0385 0.9624 0.5504 0.7632 0.9923 0.9879 0.5420 0.5884 0.6577 0.9854 0.9553 1.0034 1.0106 0.9059 0.9552 0.9141 1.0283 1.0440 1.0427 343.948 0.6750 0.6299 1.1571 1.1602 0.9383 0.6516 1.1584 0.6778 1.1569 0.8884 1.0936 1.1072 1.1908 1.1396 1.0792 0.7978 1.1670 1.1550 1.1210 1.1601 1.0714 1.1648 1.1067 0.6372 0.8922 1.1153 1.1439 0.6509 0.6791 0.7837 1.1473 1.0887 1.1367 1.1412 1.0542 1.1120 1.0758 1.1646 1.1474 1.1704 330.800 0.7375 0.7039 1.2244 1.2122 0.9920 0.7129 1.2091 0.7373 1.2199 0.9817 1.1772 1.1995 1.2377 1.1934 1.1648 0.8799 1.2101 1.1943 1.1932 1.2028 1.1764 1.2111 1.1936 0.7030 1.0615 1.1474 1.2159 0.7203 0.7405 0.8655 1.2036 1.1492 1.1957 1.1894 1.1435 1.1899 1.1503 1.2082 1.1942 1.2073 317.651 0.7673 0.7368 1.2441 1.2094 1.0196 0.7436 1.2106 0.7605 1.2199 1.0226 1.1920 1.2208 1.2420 1.2088 1.2055 0.9093 1.2178 1.1999 1.1948 1.2000 1.2030 1.2059 1.2116 0.7297 1.0102 1.1474 1.2360 0.7500 0.7605 0.9064 1.2149 1.1660 1.2055 1.1962 1.1632 1.2112 1.1714 1.2166 1.2069 1.2155 304.503 0.7702 0.7368 1.2457 1.1953 1.0196 0.7421 1.2014 0.7638 1.2045 1.0341 1.1756 1.2236 1.2221 1.1934 1.2083 0.9140 1.2131 1.1901 1.1751 1.1987 1.2016 1.2055 1.2034 0.7311 1.0060 1.1223 1.2360 0.7542 0.7605 0.9097 1.1966 1.1660 1.1816 1.1962 1.1632 1.2027 1.1672 1.2110 1.2041 1.2155 291.355 0.7531 0.7154 1.1899 1.1250 0.9659 0.7206 1.1430 0.7324 1.1523 1.0046 1.1182 1.1569 1.1439 1.1319 1.1578 0.8768 1.1516 1.1339 1.1095 1.1435 1.1484 1.1367 1.1895 0.7142 0.9727 1.0552 1.1851 0.7358 0.7390 0.8737 1.1192 1.1239 1.1087 1.1412 1.1238 1.1474 1.0941 1.1477 1.1545 1.1611 278.206 0.7460 0.7105 1.1718 1.1082 0.9858 0.7252 1.1200 0.7406 1.1523 1.0013 1.1215 1.1498 1.1354 1.1319 1.1816 0.8877 1.1362 1.1227 1.0964 1.1243 1.1414 1.1438 1.1018 0.7142 0.9783 1.0608 1.1851 0.7486 0.7405 0.8786 1.1262 1.1239 1.0848 1.1564 1.0958 1.1417 1.1011 1.1618 1.1403 1.1658 265.058 0.7673 0.7450 1.1981 1.1222 1.0150 0.7482 1.1415 0.7572 1.1907 1.0341 1.1477 1.1725 1.1411 1.1642 1.1999 0.9171 1.1454 1.1367 1.1128 1.1435 1.1778 1.1550 1.1296 0.7325 1.0060 1.0692 1.2144 0.7726 0.7651 0.9048 1.1290 1.1421 1.0974 1.1784 1.1336 1.1757 1.1222 1.1772 1.1630 1.1904 251.910 0.7645 0.7532 1.2063 1.1124 1.0196 0.7543 1.1354 0.7621 1.1953 1.0406 1.1559 1.1711 1.1411 1.1704 1.2083 0.9217 1.1439 1.1409 1.1046 1.1463 1.1890 1.1480 1.1362 0.7339 1.0130 1.0664 1.2206 0.7783 0.7697 0.9097 1.1262 1.1477 1.1003 1.1797 1.1320 1.1757 1.1292 1.1772 1.1687 1.1904 238.761 0.7602 0.7532 1.2063 1.1067 1.0150 0.7543 1.1246 0.7572 1.1799 1.0422 1.1428 1.1711 1.1297 1.1581 1.2083 0.9155 1.1300 1.1357 1.1013 1.1504 1.1988 1.1367 1.1280 0.7311 1.0130 1.0622 1.2190 0.7740 0.7666 0.9081 1.1177 1.1449 1.1031 1.1797 1.1271 1.1016 1.1264 1.1730 1.1616 1.1781 225.613 0.7503 0.7467 1.1817 1.0828 0.9766 0.7405 1.1046 0.7406 1.1476 1.0210 1.1133 1.1612 1.1070 1.1165 1.1929 0.8923 1.1054 1.1129 1.0799 1.1215 1.1764 1.1087 1.1067 0.7213 1.0005 1.0356 1.1897 0.7528 0.7467 0.8950 1.0980 1.1239 1.0806 1.1550 1.1123 1.1332 1.0969 1.1407 1.1403 1.1581 212.465 0.7105 0.7023 1.1243 1.0617 0.9490 0.7099 1.0355 0.7158 1.0754 0.9735 1.0772 1.1356 1.0657 1.0550 1.1802 0.8675 1.0638 1.0708 1.0307 1.0719 1.1092 1.0886 1.0829 0.6950 0.9696 1.0161 1.1889 0.7288 0.7129 0.8704 1.0769 1.0817 1.0455 1.1206 1.0301 1.0837 1.0617 1.1070 1.0837 1.1058 199.316 0.7560 0.7434 1.1866 1.1096 0.9889 0.7375 1.1062 0.7572 1.1261 1.0324 1.1428 1.2066 1.1254 1.1058 1.2392 0.9140 1.1285 1.1171 1.0816 1.1187 1.1736 1.1255 1.1100 0.7381 1.0199 1.0552 1.1974 0.7571 0.7359 0.9326 1.1192 1.1281 1.0946 1.1239 1.1238 1.1460 1.1096 1.1604 1.1531 1.1627 186.168 0.7688 0.7582 1.1997 1.1124 1.0012 0.7405 1.1123 0.7737 1.1292 1.0390 1.1592 1.2336 1.1354 1.1212 1.2476 0.9295 1.1362 1.1213 1.0799 1.1270 1.1904 1.1367 1.1165 0.7507 1.0407 1.0050 1.2206 0.7571 0.7436 0.9359 1.1220 1.1407 1.0946 1.1949 1.1451 1.1630 1.1110 1.1744 1.1616 1.1642 173.020 0.7645 0.7631 1.1997 1.1082 1.0012 0.7405 1.1123 0.7737 1.1292 1.0390 1.1592 1.2350 1.1226 1.1288 1.2392 0.9372 1.1300 1.1213 1.0783 1.1367 1.1904 1.1311 1.1198 0.7549 1.0407 1.0636 1.2236 0.7486 0.7436 0.9293 1.1107 1.1435 1.0932 1.1976 1.1533 1.1630 1.1082 1.1730 1.1616 1.1658 159.871 0.7503 0.7483 1.1817 1.0828 0.9812 0.7252 1.1016 0.7489 1.1185 1.0275 1.1346 1.2066 1.0942 1.1165 1.2181 0.9202 1.1115 1.1031 1.0684 1.1298 1.1736 1.1129 1.1067 0.7325 1.0199 1.0342 1.2082 0.7344 0.7421 0.9113 1.0840 1.1239 1.0750 1.1756 1.1369 1.1361 1.0941 1.1477 1.1403 1.1534 146.723 0.7034 0.6973 1.1160 1.0617 0.9429 0.7022 1.0278 0.7156 1.0601 0.9735 1.0772 1.1285 1.0373 1.0550 1.1788 0.8784 1.0515 1.0427 1.0307 1.0747 1.1204 1.0736 1.0575 0.7002 0.9713 1.0063 1.1389 0.7146 0.7129 0.8786 1.0558 1.0817 1.0273 1.1247 1.0258 1.0766 1.0547 1.1056 1.0766 1.0955 133.575 0.7560 0.7483 1.1899 1.1110 0.9996 0.9015 1.1046 0.7555 1.1369 1.0357 1.1542 1.1711 1.1070 1.1135 1.2616 0.9248 1.1115 1.1059 1.1111 1.1325 1.1764 1.1339 1.1378 0.7409 1.0476 1.0412 1.1928 0.7627 0.7513 0.9310 1.0980 1.1590 1.0792 1.1962 1.1106 1.1290 1.1110 1.1716 1.1488 1.1534 120.427 0.7702 0.7631 1.2080 1.1250 1.0165 0.7620 1.1246 0.7687 1.1599 1.0537 1.1690 1.1938 1.1254 1.1319 1.2785 0.9431 1.1254 1.1199 1.1308 1.1546 1.1834 1.1550 1.1493 0.7563 1.0671 1.0496 1.2082 0.7797 0.7559 0.9555 1.1121 1.1801 1.0918 1.2196 1.1188 1.1545 1.1292 1.1871 1.1743 1.1658 107.278 0.7673 0.7648 1.2244 1.1292 1.0073 0.7605 1.1400 0.7704 1.1645 1.0537 1.1706 1.2080 1.1382 1.1550 1.2701 0.9512 1.1362 1.1311 1.1275 1.1683 1.1946 1.1662 1.1510 0.7577 1.0657 1.0622 1.2159 0.7797 0.7559 0.9539 1.1234 1.1815 1.1017 1.2765 1.1320 1.1729 1.0674 1.1913 1.1857 1.1811 94.130 0.7503 0.7450 1.2178 1.1222 0.9920 0.7375 1.1415 0.7436 1.1530 1.0292 1.1592 1.1995 1.1368 1.1519 1.2350 0.9217 1.1392 1.1353 1.1144 1.1615 1.1918 1.1578 1.1395 0.7409 1.0338 1.0692 1.2159 0.7542 0.7421 0.9277 1.1192 1.1590 1.1059 1.2169 1.1418 1.1616 1.0561 1.1857 1.1842 1.1888 80.982 0.6892 0.6809 1.1325 1.0969 0.9506 0.6838 1.0585 0.7043 1.0754 0.9408 1.0936 1.1427 1.0800 1.0812 1.1816 0.8675 1.0746 1.0778 1.0553 1.1091 1.1274 1.1157 1.0657 0.6862 0.9713 1.0482 1.1389 0.7075 0.6975 0.8590 1.1121 1.1028 1.0656 1.1550 1.0301 1.0907 1.0688 1.1337 1.1120 1.1273 67.833 0.7347 0.7204 1.2342 1.1785 1.0134 0.7068 1.1845 0.7241 1.1907 1.0062 1.1838 1.2208 1.1794 1.1734 1.2111 0.8935 1.1916 1.1831 1.1538 1.2207 1.2030 1.1957 1.1690 0.7142 1.0102 1.1321 1.2745 0.7387 0.7344 0.8950 1.1684 1.1829 1.1508 1.2347 1.1550 1.1743 1.1391 1.2039 1.2154 1.2288 54.685 0.6934 0.6858 1.2145 1.1672 0.9843 0.6639 1.1830 0.6828 1.1876 0.9572 1.1559 1.1654 1.1723 1.1673 1.1508 0.8443 1.1916 1.1750 1.1472 1.2124 1.1526 1.1929 1.1692 0.6722 0.9505 1.1321 1.2653 0.6722 0.7006 0.8443 1.1403 1.1018 1.1297 1.2086 1.1501 1.1474 1.1278 1.1758 1.2041 1.2150 41.537 0.5897 0.5838 1.0799 1.0196 0.8509 0.5565 1.0739 0.5836 1.0785 0.8181 1.0116 1.0079 1.0586 1.0396 0.9824 0.7126 1.0669 1.0638 1.0225 1.0084 1.0084 1.0666 1.0329 0.5672 0.8187 0.9993 1.1081 0.5618 0.6053 0.7150 1.0065 1.0115 1.0034 1.0725 1.0466 1.0058 0.9942 1.0494 1.0766 1.0812 28.388 0.4192 0.4194 0.8124 0.7242 0.5979 0.3864 0.8050 0.4100 0.8066 0.5890 0.7493 0.7169 0.7673 0.7551 0.7438 0.4880 0.7852 0.7971 0.7517 0.7922 0.7283 0.7648 0.7624 0.3921 0.5828 0.7128 0.7998 0.3849 0.4286 0.5023 0.7179 0.7094 0.7298 0.7837 0.7590 0.7224 0.7172 0.7614 0.7791 0.7890 15.240 0.2984 0.2714 0.5039 0.4852 0.3756 0.2422 0.4978 0.2529 0.4839 0.4009 0.4673 0.4386 0.4902 0.4752 0.4350 0.2866 0.4742 0.4884 0.4907 0.4974 0.4482 0.5052 0.5001 0.2521 0.4024 0.4780 0.4685 0.2547 0.2827 0.2978 0.4857 0.4467 0.4743 0.4881 0.4715 0.4462 0.4374 0.5015 0.4845 0.4844 MAP5 Date time MWT press P/L HT 10/21/1975 8690 2250 144 num_det 29 M3 F4 L8 F8 D12 B5 H6 J3 B10 L4 F13 F6 G9 G7 J10 N10 J7 D7 L14 N12 L6 G14 C8 H3 N8 E11 L11 E5 L5 383.393 0.2640 0.5764 0.5928 0.6309 0.4064 0.2336 0.5994 0.5102 0.6111 0.5493 0.5312 0.5831 0.6206 0.6478 0.7046 0.5312 0.6666 0.5640 0.2437 0.2697 0.6349 0.4407 0.4656 0.4451 0.5045 0.5666 0.5701 0.6429 0.5693 370.245 0.4601 0.9404 0.9223 0.9975 0.6556 0.4155 0.9816 0.8493 0.6543 0.8570 0.7588 0.9777 1.0080 1.0355 1.0057 0.7948 1.0354 0.9052 0.4343 0.4667 0.9602 0.7914 0.7395 0.7299 0.8368 0.9522 0.9106 1.0035 0.9316 357.096 0.5786 1.0939 1.1407 1.1657 0.7974 0.5342 1.1776 1.0174 0.7952 1.0211 0.9593 1.1701 1.2007 1.1994 1.1502 0.9994 1.2333 1.0303 0.5483 0.5815 1.1317 1.0043 0.9645 0.9435 0.9757 1.1371 1.1110 1.1086 1.1290 343.948 0.7028 1.2732 1.3026 1.2329 0.9143 0.6587 1.3332 1.1765 1.0155 1.2172 1.1441 1.3061 1.3395 1.3634 1.2706 1.1686 1.3774 1.2668 0.6701 0.7039 1.3052 1.1872 1.1425 1.1315 1.1660 1.2945 1.2414 1.2739 1.2747 330.800 0.7844 1.3412 1.3669 1.3129 1.0044 0.7429 1.3697 1.2455 1.1359 1.3129 1.2647 1.3625 1.3799 1.3938 1.3037 1.2984 1.4235 1.3350 0.7527 0.7361 1.3703 1.3131 1.2443 1.2304 1.2295 1.3496 1.3075 1.3099 1.3350 317.651 0.8771 1.3571 1.3572 1.3039 1.0313 0.7850 1.3447 1.2635 1.1950 1.3197 1.3114 1.3625 1.3742 1.3742 1.3007 1.3280 1.4023 1.3305 0.7920 0.8167 1.3653 1.3760 1.2853 1.2640 1.2536 1.3516 1.3192 1.3129 1.3437 304.503 0.8290 1.3412 1.3260 1.2679 1.0313 0.7908 1.2948 1.2635 1.2018 1.2946 1.3192 1.3217 1.3279 1.3270 1.2646 1.3260 1.3639 1.2918 0.7959 0.8148 1.3210 1.3820 1.2834 1.2561 1.2476 1.3319 1.3056 1.2859 1.3254 291.355 0.8252 1.2505 1.2402 1.1958 0.9872 0.7640 1.2025 1.2185 1.1337 1.2149 1.2725 1.2284 1.2335 1.2259 1.1713 1.2729 1.2659 1.1395 0.7684 0.7785 1.2056 1.3700 1.2462 1.1967 1.1751 1.2689 1.2531 1.1958 1.2536 278.206 0.7902 1.2436 1.1778 1.1447 0.9775 0.7640 1.1603 1.2065 1.1746 1.2103 1.2161 1.1584 1.1776 1.1935 1.1261 1.2552 1.2141 1.1736 0.7763 0.7765 1.1751 1.3611 1.1895 1.1671 1.1842 1.2453 1.1927 1.1928 1.2210 265.058 0.8019 1.2391 1.1778 1.1297 0.9948 0.7774 1.1392 1.2155 1.1882 1.1966 1.2317 1.1526 1.1467 1.1680 1.1050 1.2630 1.1872 1.1599 0.7841 0.7804 1.1495 1.3940 1.2110 1.1710 1.1842 1.2355 1.2005 1.1837 1.2153 251.910 0.7960 1.2127 1.1505 1.1116 0.9872 0.7755 1.1027 1.2095 1.1814 1.1830 1.2219 1.1273 1.1082 1.1327 1.0870 1.2552 1.1449 1.1395 0.7841 0.7727 1.1297 1.3970 1.2012 1.1611 1.1721 1.2079 1.1830 1.1687 1.1934 238.761 0.7563 1.1900 1.1173 1.0816 0.9699 0.7640 1.0719 1.1945 1.1587 1.1556 1.2083 1.0962 1.0716 1.0993 1.0659 1.2355 1.1046 1.1167 0.7734 0.7574 1.1041 1.3850 1.1797 1.1394 1.1570 1.1765 1.1597 1.1507 1.1616 225.613 0.7591 1.1529 1.0803 1.0485 0.9297 0.7372 1.0297 1.1585 1.1110 1.1146 1.1927 1.0554 1.0234 1.0542 1.0358 1.1981 1.0546 1.0644 0.7428 0.7345 1.0666 1.3521 1.1464 1.0978 1.1207 1.1352 1.1266 1.1056 1.1175 212.465 0.7145 1.0871 1.0179 0.9685 0.8760 0.7065 0.9778 1.1074 1.0973 1.0918 1.1363 0.9874 0.9675 1.0031 0.9876 1.1509 0.9989 1.0576 0.7232 0.7000 1.0351 1.2801 1.0584 1.0464 1.0845 1.0860 1.0468 1.0756 1.0638 199.316 0.7397 1.1279 1.0374 1.0095 0.9047 0.7257 0.9970 1.1434 1.1246 1.1214 1.2005 1.0204 0.9964 1.0188 1.0057 1.1922 1.0181 1.0621 0.7487 0.7192 1.0450 1.3311 1.1093 1.0800 1.0966 1.1194 1.0916 1.0936 1.0888 186.168 0.7436 1.1256 1.0276 1.0035 0.9047 0.7295 0.9855 1.1464 1.1223 1.1214 1.2161 1.0165 0.9887 1.0110 0.9966 1.1961 1.0066 1.0462 0.7566 0.7249 1.0351 1.3371 1.1132 1.0701 1.0966 1.1214 1.0935 1.0936 1.0773 173.020 0.7397 1.1098 1.0159 0.9915 0.8971 0.7257 0.9701 1.1434 1.1019 1.1123 1.2122 0.9990 0.9714 0.9933 0.9706 1.1843 0.9912 1.0417 0.7546 0.7249 1.0174 1.3251 1.1093 1.0543 1.0905 1.1037 1.0818 1.0876 1.0658 159.871 0.7184 1.0948 0.9984 0.9704 0.8760 0.7065 0.9509 1.1224 1.0655 1.0758 1.1752 0.9738 0.9482 0.9678 0.9605 1.1548 0.9682 1.0166 0.7252 0.7077 0.9976 1.3041 1.0838 1.0306 1.0694 1.0781 1.0604 1.0666 1.0428 146.723 0.6776 1.0507 0.9613 0.9194 0.8262 0.6855 0.9144 1.0654 1.0405 1.0462 1.0818 0.9057 0.8943 0.9256 0.9214 1.1096 0.9221 1.0166 0.6996 0.6752 0.9651 1.2411 0.9997 0.9851 1.0422 1.0230 0.9884 1.0335 0.9910 133.575 0.7048 1.0848 0.9418 0.9704 0.8722 0.7199 0.9471 1.1074 1.0746 1.0761 1.1285 0.9543 0.9290 0.9599 0.9454 1.1489 0.9643 1.0394 0.7271 0.6962 0.9917 1.3011 1.0427 1.0227 1.0573 1.0722 1.0410 1.0636 1.0293 120.427 0.7087 1.0939 0.9457 0.9734 0.8798 0.7314 0.9528 1.1164 1.0769 1.0781 1.1402 0.9640 0.9309 0.9678 0.9495 1.1450 0.9797 1.0326 0.7370 0.6924 0.9996 1.3101 1.0545 1.0266 1.0633 1.0781 1.0546 1.0666 1.0332 107.278 0.6970 1.0984 0.9457 0.9824 0.8683 0.7199 0.9567 1.1134 1.0542 1.0667 1.1422 0.9718 0.9367 0.9756 0.9515 1.1450 0.9836 1.0230 0.7212 0.6828 1.0016 1.3041 1.0584 1.0227 1.0603 1.0761 1.0565 1.0696 1.0399 94.130 0.6776 1.0757 0.9984 0.9824 0.8434 0.6778 0.9567 1.0954 0.9974 1.0462 1.1188 0.9718 0.9386 0.9737 0.9575 1.1233 0.9778 1.0053 0.6859 0.6637 0.9957 1.2651 1.0427 0.9851 1.0392 1.0565 1.0527 1.0576 1.0293 80.982 0.5135 1.0281 0.9555 0.9314 0.7763 0.6089 0.9259 1.0234 0.9337 1.0097 1.0235 0.9155 0.9039 0.9442 0.9454 1.0486 0.9259 0.9939 0.6249 0.6178 0.9720 1.1272 0.9391 0.9594 0.9939 0.9994 0.9690 1.0335 0.9651 67.833 0.6194 1.0576 1.0120 0.9945 0.8166 0.6031 0.9778 1.0504 0.9019 1.0325 1.0643 0.9796 0.9675 0.9914 0.9936 1.0565 0.9855 1.0098 0.6151 0.6293 1.0016 1.1722 0.9919 0.9633 1.0090 1.0368 1.0332 1.0606 1.0313 54.685 0.5630 1.0031 0.9906 0.9704 0.7648 0.5380 0.9528 0.9934 0.7997 0.9641 0.9884 0.9660 0.9386 0.9580 0.9605 0.9758 0.9663 0.9552 0.5483 0.5738 0.9483 1.0912 0.9430 0.9060 0.9516 0.9837 1.0040 1.0215 0.9459 41.537 0.4524 0.8533 0.8541 0.8533 0.6479 0.4327 0.8376 0.5582 0.4044 0.8046 0.8328 0.8610 0.8210 0.8334 0.8461 0.8282 0.8452 0.7938 0.4382 0.4590 0.8202 0.9174 0.7962 0.7596 0.8035 0.6571 0.8522 0.8803 0.8530 28.388 0.2990 0.5901 0.5986 0.6460 0.4485 0.2872 0.6013 0.6122 0.3999 0.5539 0.5837 0.6297 0.5859 0.5830 0.6082 0.3856 0.5994 0.5231 0.2928 0.3022 0.5836 0.6416 0.3658 0.5380 0.5407 0.6059 0.6187 0.6099 0.6115 15.240 0.1670 0.3518 0.3393 0.3665 0.3393 0.1666 0.3439 0.3391 0.2226 0.3123 0.3210 0.3537 0.3276 0.3475 0.3673 0.3148 0.3458 0.2297 0.1651 0.1683 0.3431 0.4197 0.3111 0.2097 0.3081 0.3482 0.3444 0.3876 0.3374 D.7 Cycle-3 Flux Map Measured Data MAP1 Date time MWT BOC 900 num_det 43 M3 J15 F4 L8 F8 B5 H6 J3 D3 L9 B10 L4 F13 F6 J12 B7 H1 G9 F11 N5 J10 J5 B8 N10 C12 J7 D7 L14 F2 F9 N7 N12 R8 H11 D5 L6 G14 C8 H3 N8 E11 L11 E5

D-20 383.393 0.2439 0.1793 0.4716 0.4255 0.4695 0.2180 0.4566 0.3944 0.2358 0.4622 0.2865 0.4326 0.4095 0.4611 0.4152 0.4553 0.1954 0.5017 0.4580 0.3831 0.4695 0.4166 0.3475 0.4609 0.2348 0.5280 0.4034 0.2680 0.2849 0.5020 0.3946 0.2912 0.2046 0.5019 0.4627 0.5206 0.3569 0.3169 0.4179 0.3756 0.5616 0.4629 0.4695 0.5017 370.245 0.4130 0.3216 0.7640 0.6801 0.7700 0.3777 0.7534 0.6667 0.4054 0.7628 0.5203 0.6373 0.6391 0.7638 0.6313 0.6288 0.3081 0.8023 0.7113 0.6555 0.6949 0.6391 0.5390 0.6138 0.4132 0.8377 0.6334 0.3710 0.5341 0.6870 0.6708 0.4115 0.3216 0.5747 0.5429 0.6647 0.6198 0.5857 0.5523 0.5822 0.8265 0.7673 0.7794 0.8023 357.096 0.5145 0.4034 0.9101 0.8189 0.9297 0.4810 0.9263 0.8301 0.5301 0.9225 0.6665 0.7523 0.7264 0.9169 0.7534 0.7594 0.3683 0.9639 0.8283 0.8245 0.8452 0.8795 0.6480 0.7594 0.5240 0.9609 0.7601 0.4530 0.6409 0.8581 0.8305 0.5223 0.3937 0.7911 0.7351 0.8284 0.8076 0.6712 0.6885 0.7287 0.9348 0.9347 0.9428 0.9639 343.948 0.6391 0.5009 1.0758 0.9774 1.0893 0.6031 1.0729 0.9954 0.6353 1.0879 0.8322 0.9101 0.9364 1.0664 0.9038 0.9273 0.4578 1.1405 0.9998 1.0104 1.0048 0.9774 0.7794 0.9236 0.6480 1.1456 0.9257 0.6040 0.8367 0.9934 0.9996 0.6482 0.4814 0.8844 0.8620 1.0243 0.9954 0.8973 0.8377 0.8790 1.1381 1.1038 1.1175 1.1405 330.800 0.7264 0.5749 1.1869 1.0504 1.1832 0.6933 1.1668 1.0931 0.7328 1.1762 0.9491 0.9978 1.0468 1.1536 1.0015 1.0952 0.5280 1.2438 1.0972 1.1438 1.0987 1.1358 0.8827 1.0243 0.7475 1.2426 1.0193 0.6880 0.9169 1.0967 1.1029 0.7365 0.5398 1.0187 1.0019 1.1093 1.1269 0.9364 0.9497 0.9766 1.2314 1.2035 1.2020 1.2438 317.651 0.7798 0.6139 1.2414 1.0985 1.2302 0.7459 1.2138 1.1551 0.7815 1.2269 1.0232 1.0563 1.1056 1.1910 1.0541 1.1978 0.5562 1.3002 1.1381 1.2170 1.1457 1.2071 0.9391 1.0803 0.8114 1.2911 1.0719 0.7400 0.9952 1.1501 1.1781 0.7854 0.5749 1.0784 1.0822 1.1549 1.2058 1.0077 1.0225 1.0274 1.2818 1.2516 1.2490 1.3002 304.503 0.8029 0.6275 1.2707 1.1127 1.2433 0.7666 1.2251 1.1832 0.8068 1.2420 1.0563 1.0855 1.1358 1.2035 1.0823 1.2464 0.5656 1.3134 1.1557 1.2584 1.1663 1.2177 0.9766 1.1139 0.8170 1.3191 1.0914 0.7590 1.0308 1.1661 1.1969 0.8061 0.5886 1.1083 1.1139 1.1624 1.2490 1.0433 1.0243 1.0649 1.3042 1.2729 1.2771 1.3134 291.355 0.7940 0.6178 1.2414 1.0878 1.2114 0.7553 1.2175 1.1832 0.7912 1.2326 1.0368 1.0368 1.0807 1.1964 1.0541 1.2669 0.5468 1.3002 1.1011 1.2377 1.1175 1.2284 0.9729 1.1083 0.8114 1.2837 1.0329 0.7590 1.0397 1.1608 1.1912 0.8023 0.5691 1.1176 1.1232 1.0467 1.2396 1.0628 1.0075 1.0518 1.2128 1.2551 1.2490 1.3002 278.206 0.8350 0.6470 1.2960 1.1020 1.2358 0.7910 1.2232 1.2208 0.8283 1.2514 1.0719 1.0855 1.1643 1.2177 1.0823 1.2165 0.5693 1.3190 1.1752 1.2753 1.1494 1.2444 0.9973 1.1456 0.8452 1.3229 1.0914 0.7810 1.0237 1.1483 1.2251 0.8342 0.5886 1.0243 1.0411 1.1549 1.2865 1.0753 1.0243 1.0612 1.3154 1.2818 1.3053 1.3190 265.058 0.8617 0.6753 1.3350 1.1323 1.2621 0.8230 1.2608 1.2809 0.8594 1.2833 1.1245 1.1342 1.2088 1.2533 1.1180 1.3471 0.5900 1.3622 1.2141 1.3598 1.1983 1.3121 1.0518 1.2146 0.8827 1.3620 1.1206 0.8180 1.1109 1.2053 1.2626 0.8681 0.6100 1.1176 1.1419 1.1922 1.3354 1.1163 1.0486 1.1081 1.3471 1.3157 1.3504 1.3622 251.910 0.8759 0.6918 1.3486 1.1412 1.2865 0.8324 1.2701 1.2997 0.8750 1.2983 1.1479 1.1342 1.2427 1.2622 1.1180 1.3900 0.6031 1.3754 1.2219 1.3598 1.2246 1.2996 1.0724 1.2445 0.8996 1.3788 1.1303 0.8870 1.1394 1.2266 1.2908 0.8850 0.6217 1.1344 1.1605 1.2072 1.3617 1.1269 1.0616 1.1250 1.3658 1.3335 1.3617 1.3754 238.761 0.8795 0.6957 1.3486 1.1465 1.2865 0.8361 1.2701 1.2997 0.8789 1.3021 1.1596 1.1342 1.2373 1.2605 1.1180 1.3975 0.6031 1.3716 1.2141 1.3654 1.2246 1.3068 1.0743 1.2482 0.9015 1.3788 1.1362 0.8370 1.1483 1.2320 1.3002 0.8868 0.6217 1.1400 1.1717 1.2090 1.3748 1.1358 1.0654 1.1269 1.3714 1.3352 1.3523 1.3716 225.613 0.8635 0.6860 1.3194 1.1287 1.2678 0.8248 1.2570 1.2678 0.8594 1.2833 1.1342 1.1147 1.2017 1.2355 1.1104 1.3938 0.5937 1.3397 1.1791 1.3410 1.1832 1.2961 1.0518 1.2202 0.8865 1.3415 1.1050 0.8280 1.1376 1.2088 1.2777 0.8699 0.6139 1.1400 1.1736 1.1736 1.3673 1.1394 1.0654 1.1081 1.3471 1.3246 1.3185 1.3397 212.465 0.8523 0.6763 1.3155 1.0842 1.2302 0.8098 1.2044 1.2396 0.8497 1.2420 1.1342 1.1147 1.1946 1.1892 1.0823 1.3378 0.5806 1.2946 1.1791 1.3316 1.1419 1.2373 1.0330 1.1587 0.8733 1.3042 1.1109 0.8170 1.0130 1.0789 1.2438 0.8474 0.5983 1.0915 1.1157 1.1643 1.3485 1.0397 1.0874 1.0893 1.3583 1.2961 1.3185 1.2946 199.316 0.8866 0.6996 1.3408 1.1358 1.2546 0.8418 1.2589 1.3053 0.8789 1.2720 1.1752 1.1537 1.2249 1.2462 1.1367 1.3844 0.6031 1.3397 1.2024 1.3786 1.1739 1.2658 1.0706 1.2296 0.8996 1.3322 1.1440 0.8470 1.1394 1.1714 1.3002 0.8812 0.6158 1.1344 1.1810 1.2090 1.3861 1.1287 1.0971 1.1269 1.3788 1.3406 1.3654 1.3397 186.168 0.8973 0.7113 1.3389 1.1341 1.2621 0.8474 1.2589 1.3053 0.8906 1.2664 1.1869 1.1732 1.2320 1.2462 1.1461 1.4180 0.6069 1.3453 1.2024 1.3974 1.1795 1.2640 1.0799 1.2389 0.9034 1.3266 1.1557 0.8580 1.1625 1.1714 1.3096 0.8925 0.6217 1.1381 1.1848 1.2090 1.3955 1.1465 1.1008 1.1419 1.3826 1.3530 1.3692 1.3453 173.020 0.8937 0.7016 1.3350 1.1180 1.2584 0.8474 1.2420 1.2771 0.8867 1.2608 1.1752 1.1635 1.2249 1.2373 1.1349 1.4217 0.6125 1.3359 1.1858 1.3898 1.1739 1.2622 1.0762 1.2389 0.9015 1.3191 1.1498 0.8580 1.1661 1.1643 1.3058 0.8906 0.6217 1.1381 1.1848 1.1922 1.3898 1.1447 1.0808 1.1325 1.3786 1.3513 1.3560 1.3359 159.871 0.8670 0.6763 1.3096 1.0860 1.2246 0.8192 1.2138 1.2734 0.8536 1.2420 1.1342 1.1245 1.1910 1.2195 1.1048 1.4292 0.5975 1.3040 1.1596 1.3542 1.1419 1.2605 1.0518 1.2146 0.8696 1.2874 1.1050 0.8370 1.1536 1.1447 1.2852 0.8681 0.6139 1.1232 1.1717 1.1568 1.3617 1.1376 1.0766 1.1081 1.3471 1.3192 1.3147 1.3040 146.723 0.8332 0.6529 1.2707 1.0130 1.1645 0.7910 1.1386 1.2396 0.8127 1.1950 1.0875 1.0758 1.1603 1.1483 1.0409 1.2109 0.5749 1.2344 1.1206 1.3091 1.0799 1.1999 1.0104 1.1344 0.8358 1.2464 1.0621 0.7810 1.0130 1.0753 1.2119 0.8211 0.5886 1.0337 1.0990 1.1157 1.3147 1.0397 1.0057 1.0330 1.2930 1.2498 1.2771 1.2344 133.575 0.8599 0.6743 1.2999 1.0557 1.1870 0.8248 1.1762 1.2678 0.8478 1.2232 1.1225 1.1050 1.2106 1.1857 1.0729 1.3546 0.5956 1.2626 1.1752 1.3485 1.1175 1.2373 1.0424 1.1922 0.8602 1.2837 1.0855 0.8220 1.1216 1.1252 1.2589 0.8493 0.6158 1.0803 1.1288 1.1456 1.3635 1.0967 1.0598 1.0931 1.3247 1.2889 1.2959 1.2626 120.427 0.8635 0.6743 1.2862 1.0450 1.1795 0.8286 1.1668 1.2678 0.8468 1.2138 1.1206 1.1011 1.2071 1.1714 1.0729 1.3583 0.5937 1.2532 1.1654 1.3485 1.1175 1.2266 1.0330 1.1922 0.8621 1.2762 1.0719 0.8280 1.1305 1.1341 1.2589 0.8493 0.6139 1.0822 1.1307 1.1419 1.3673 1.1020 1.0616 1.0856 1.3210 1.2836 1.2734 1.2532 107.278 0.8456 0.6529 1.2609 1.0290 1.1494 0.8004 1.1480 1.2490 0.8205 1.1856 1.0875 1.0699 1.1803 1.1519 1.0541 1.3378 0.5712 1.2288 1.1245 1.3466 1.0987 1.2106 1.0104 1.1736 0.8414 1.2352 1.0426 0.8170 1.1145 1.1091 1.2251 0.8305 0.5944 1.0691 1.1176 1.1213 1.3297 1.0842 1.0560 1.0612 1.2874 1.2605 1.2546 1.2288 94.130 0.7958 0.6178 1.2063 0.9970 1.1119 0.7440 1.1104 1.1870 0.7717 1.1386 1.0290 1.0271 1.1145 1.1163 1.0071 1.2930 0.5468 1.1875 1.0719 1.2565 1.0518 1.1768 0.9597 1.1176 0.7907 1.2016 1.0037 0.7660 1.0593 1.0628 1.1781 0.7779 0.5613 1.0542 1.0784 1.0710 1.2584 1.0433 0.9870 0.9954 1.2314 1.2142 1.2058 1.1875 80.982 0.7192 0.5593 1.1245 0.8973 1.0236 0.6689 1.0015 1.0799 0.6977 1.0541 0.9296 0.9588 1.0308 1.0130 0.9132 1.0859 0.4960 1.0841 0.9842 1.1438 0.9579 1.0272 0.8640 1.0019 0.7231 1.0635 0.9257 0.6690 0.8795 0.9204 1.0653 0.7084 0.5009 0.8713 0.8956 0.9851 1.1419 0.9614 0.8844 0.9015 1.1419 1.1216 1.1269 1.0841 67.833 0.7103 0.5496 1.1245 0.9489 1.0555 0.6595 1.0390 1.0799 0.6977 1.0635 0.9257 0.9783 1.0148 1.0504 0.9507 1.1531 0.5017 1.1086 1.0076 1.1438 0.9766 1.0931 0.8640 1.0150 0.7099 1.1139 0.9452 0.6820 0.9525 0.9827 1.0898 0.7140 0.5106 0.9516 0.9926 0.9982 1.1457 0.9471 0.9105 0.9485 1.1400 1.1536 1.1307 1.1086 54.685 0.6409 0.5009 1.0465 0.8955 0.9804 0.5843 0.9752 0.9973 0.6314 0.9883 0.8361 0.9101 0.9240 0.9881 0.8850 1.0766 0.4528 1.0372 0.9452 1.0649 0.9297 1.0397 0.7982 0.9348 0.6386 1.0598 0.8965 0.6130 0.8795 0.9258 0.9996 0.6426 0.4658 0.9068 0.9572 0.9310 1.0424 0.9186 0.8564 0.8921 1.0542 1.0717 1.0518 1.0372 41.537 0.5181 0.3995 0.8711 0.7727 0.8358 0.4660 0.8380 0.8301 0.5028 0.8380 0.6568 0.7542 0.7495 0.8456 0.7440 0.9310 0.3683 0.8268 0.7990 0.8395 0.7794 0.8528 0.6574 0.7855 0.5109 0.8769 0.7503 0.5010 0.7317 0.7994 0.8399 0.5148 0.3639 0.7818 0.8452 0.7687 0.8452 0.7281 0.7258 0.7419 0.8769 0.9080 0.8921 0.8268 28.388 0.3400 0.2475 0.5788 0.5501 0.5728 0.3025 0.6031 0.5447 0.3235 0.5843 0.4326 0.4814 0.5056 0.6160 0.5186 0.6829 0.2499 0.6182 0.5262 0.5146 0.5165 0.5804 0.4320 0.5392 0.3193 0.6138 0.4970 0.3170 0.5341 0.6017 0.5862 0.3420 0.2475 0.5579 0.5896 0.5094 0.5447 0.4931 0.5168 0.4977 0.5971 0.6694 0.6010 0.6182 15.240 0.2119 0.1598 0.4229 0.3151 0.4508 0.1616 0.4340 0.3944 0.2358 0.3871 0.3352 0.3060 0.3169 0.4611 0.3175 0.3769 0.1466 0.4077 0.3313 0.3362 0.3287 0.4077 0.2723 0.3153 0.2160 0.4105 0.3118 0.2030 0.3561 0.3632 0.3889 0.2010 0.1501 0.3508 0.3321 0.3340 0.3756 0.3543 0.3060 0.3005 0.4105 0.4415 0.4226 0.4077 MAP2 Date time MWT press P/L HT 4150 num_det 38 M3 J15 F4 L8 B5 H6 D3 L9 B10 L4 F13 F6 J12 B7 H1 G9 G7 F11 J5 N10 J7 D7 L14 F2 F9 N7 A9 N12 R8 H11 D5 L6 D10 H13 C8 H3 E11 L11 383.393 0.2748 0.2302 0.5373 0.5322 0.2540 0.5136 0.2805 0.5141 0.3496 0.4889 0.5079 0.5882 0.5061 0.5381 0.2408 0.5710 0.6867 0.5164 0.5707 0.5756 0.5833 0.5044 0.3480 0.4145 0.6579 0.4885 0.2815 0.3256 0.2439 0.6643 0.5718 0.6512 0.5733 0.4408 0.5193 0.5332 0.6586 0.6637 370.245 0.4430 0.3743 0.8170 0.7562 0.4108 0.8173 0.4608 0.8130 0.5693 0.6992 0.6666 0.7936 0.7198 0.7255 0.3467 0.8182 0.8457 0.7626 0.8233 0.6974 0.8629 0.7446 0.4320 0.5733 0.7794 0.7532 0.3603 0.4534 0.3799 0.7438 0.6749 0.7450 0.8253 0.6511 0.6880 0.6399 0.8363 0.8137 357.096 0.5551 0.4603 0.9628 0.8907 0.5301 0.9743 0.5670 0.9752 0.7131 0.8194 0.8123 0.9467 0.8394 0.8568 0.4424 1.0023 0.9954 0.9227 0.9729 0.8380 0.9927 0.8446 0.5220 0.7077 0.9009 0.9069 0.4598 0.5642 0.4539 0.8802 0.8062 0.8952 0.9691 0.7954 0.8099 0.7840 0.9673 0.9636 343.948 0.6579 0.5524 1.1026 1.0083 0.6375 1.0937 0.6812 1.1033 0.8489 0.9697 0.9616 1.0643 0.9762 1.0349 0.5312 1.1250 1.1264 1.0368 1.0946 0.9974 1.1326 1.0047 0.6380 0.8533 1.0411 1.0436 0.5480 0.6665 0.5439 0.9928 0.9561 1.0265 1.1185 0.9216 0.9505 0.9112 1.1226 1.1136 330.800 0.7383 0.6145 1.1865 1.0700 0.7159 1.1705 0.7553 1.1836 0.9488 1.0599 1.0681 1.1446 1.0480 1.1286 0.5909 1.2187 1.2068 1.1168 1.1694 1.0724 1.2065 1.0828 0.7040 0.9504 1.1271 1.1460 0.6193 0.7432 0.5998 1.0678 1.0499 1.1204 1.2063 1.0018 1.0255 1.0047 1.2068 1.1792 317.651 0.7701 0.6445 1.2245 1.0924 0.7517 1.1961 0.7914 1.2058 0.9987 1.0939 1.1148 1.1633 1.0822 1.1717 0.6166 1.2528 1.2330 1.1469 1.1881 1.1043 1.2384 1.1068 0.7370 0.9878 1.1439 1.1819 0.6550 0.7773 0.6238 1.0960 1.1005 1.1504 1.2268 1.0358 1.0630 1.0384 1.2330 1.2261 304.503 0.7794 0.6465 1.2304 1.0961 0.7602 1.1995 0.8014 1.2092 1.0087 1.1099 1.1316 1.1670 1.0959 1.1905 0.6183 1.2528 1.2386 1.1509 1.1918 1.1193 1.2484 1.1088 0.7410 0.9990 1.1439 1.1990 0.6606 0.7858 0.6258 1.1035 1.1118 1.1542 1.2305 1.0518 1.0724 1.0534 1.2386 1.2299 291.355 0.7514 0.6205 1.1825 1.0457 0.7432 1.1619 0.7734 1.1716 0.9848 1.0398 1.0868 1.1484 1.0361 1.1380 0.5909 1.2255 1.2012 1.0968 1.1526 1.0818 1.1925 1.0148 0.7130 0.9560 1.0598 1.1631 0.6512 0.7653 0.5938 1.0491 1.0405 1.1110 1.1988 1.0138 1.0349 1.0328 1.1918 1.1699 278.206 0.7794 0.6465 1.2105 1.0457 0.7517 1.1585 0.7954 1.1716 0.9987 1.0739 1.1054 1.1484 1.0634 1.1942 0.5909 1.2119 1.2106 1.1308 1.1713 1.1286 1.2264 1.0808 0.7410 0.9841 1.1103 1.1802 0.6512 0.7858 0.6058 1.0397 1.0686 1.0941 1.2268 1.0418 1.0499 1.0197 1.2106 1.2074 265.058 0.8075 0.6685 1.2464 1.0868 0.7858 1.1995 0.8234 1.2058 1.0347 1.1200 1.1540 1.1857 1.1044 1.2542 0.6131 1.2613 1.2517 1.1769 1.2218 1.1755 1.2664 1.1008 0.7750 1.0251 1.1533 1.2229 0.6756 0.8199 0.6258 1.0810 1.0968 1.1429 1.2548 1.0719 1.0986 1.0422 1.2461 1.2317 251.910 0.8131 0.6805 1.2604 1.0980 0.7943 1.2114 0.8335 1.2092 1.0387 1.1200 1.1801 1.1857 1.1044 1.2786 0.6302 1.2750 1.2667 1.1609 1.2349 1.1942 1.2924 1.1048 0.7820 1.0494 1.1720 1.2400 0.6812 0.8284 0.6398 1.0941 1.1155 1.1579 1.2679 1.0819 1.1099 1.0459 1.2536 1.2430 238.761 0.8168 0.6845 1.2624 1.1017 0.7943 1.2131 0.8335 1.2161 1.0427 1.1200 1.1801 1.2044 1.1044 1.2842 0.6302 1.2750 1.2760 1.1769 1.2349 1.1980 1.2864 1.1048 0.7820 1.0494 1.1720 1.2451 0.6850 0.8335 0.6398 1.0960 1.1249 1.1579 1.2679 1.0759 1.1193 1.0534 1.2592 1.2467 225.613 0.8019 0.6705 1.2364 1.0924 0.7824 1.1875 0.8154 1.1973 1.0327 1.0999 1.1614 1.1633 1.0788 1.2317 0.6200 1.2528 1.2480 1.1469 1.2068 1.1661 1.2404 1.0648 0.7690 1.0307 1.1439 1.2143 0.6794 0.8113 0.6238 1.0866 1.1155 1.1485 1.2455 1.0558 1.1005 1.0515 1.2386 1.2355 212.465 0.7925 0.6605 1.2364 1.0513 0.7602 1.1619 0.8014 1.1716 1.0307 1.0899 1.1241 1.1204 1.0754 1.2167 0.5961 1.2102 1.2293 1.1268 1.1694 1.1380 1.2264 1.1008 0.7600 1.0065 1.1065 1.1973 0.6606 0.7943 0.6138 1.0491 1.0874 1.1110 1.2455 1.0518 1.0630 1.0365 1.2199 1.2111 199.316 0.8131 0.6905 1.2704 1.1110 0.8028 1.2148 0.8415 1.2109 1.0826 1.1460 1.1801 1.1857 1.1301 1.2655 0.6319 1.2699 1.3004 1.1769 1.2068 1.1867 1.2664 1.1348 0.7970 1.0494 1.1383 1.2519 0.6887 0.8284 0.6338 1.1054 1.1436 1.1673 1.3090 1.1019 1.1136 1.0983 1.2704 1.2542 186.168 0.8449 0.7005 1.2764 1.1148 0.8131 1.2251 0.8575 1.2161 1.0986 1.1761 1.1895 1.1951 1.1386 1.2992 0.6422 1.2869 1.3041 1.1849 1.2068 1.2055 1.2784 1.1549 0.8160 1.0681 1.1495 1.2741 0.6944 0.8523 0.6478 1.1147 1.1624 1.1767 1.3295 1.1160 1.1230 1.1039 1.2854 1.2767 173.020 0.8523 0.7065 1.2844 1.1204 0.8199 1.2285 0.8615 1.2229 1.0986 1.1801 1.1895 1.1951 1.1386 1.3067 0.6524 1.2869 1.2948 1.1849 1.2162 1.2092 1.2784 1.1549 0.8160 1.0681 1.1533 1.2741 0.6944 0.8540 0.6538 1.1185 1.1624 1.1767 1.3220 1.1220 1.1324 1.1039 1.2354 1.2861 159.871 0.8355 0.6885 1.2764 1.1110 0.8028 1.2131 0.8435 1.2229 1.0726 1.1500 1.1801 1.1857 1.1198 1.2917 0.6456 1.2784 1.2667 1.1669 1.2237 1.2036 1.2624 1.1048 0.8070 1.0681 1.1346 1.2741 0.6850 0.8454 0.6478 1.1147 1.1530 1.1673 1.3015 1.1019 1.1249 1.0983 1.2817 1.2674 146.723 0.8075 0.6705 1.2564 1.0326 0.7687 1.1619 0.8134 1.1887 1.0427 1.1039 1.1372 1.1204 1.0788 1.2599 0.6080 1.2102 1.2199 1.1368 1.1975 1.1567 1.2444 1.1048 0.7790 1.0382 1.0972 1.2229 0.6512 0.8028 0.6278 1.0491 1.0968 1.1016 1.2492 1.0518 1.0724 1.0422 1.2480 1.2261 133.575 0.8542 0.7005 1.3103 1.0980 0.8233 1.2148 0.8615 1.2451 1.0926 1.1640 1.2175 1.1857 1.1335 1.3161 0.6541 1.2818 1.2854 1.2229 1.2536 1.2224 1.3183 1.1388 0.8260 1.0961 1.1682 1.2861 0.7038 0.8523 0.6738 1.1185 1.1624 1.1861 1.3052 1.1119 1.1399 1.1170 1.3041 1.2692 120.427 0.8729 0.7145 1.3263 1.1036 0.8523 1.2302 0.8755 1.2485 1.1126 1.1781 1.2399 1.2007 1.1472 1.3255 0.6661 1.2869 1.2948 1.2389 1.2686 1.2467 1.3263 1.1449 0.8400 1.1185 1.1944 1.3083 0.7225 0.8625 0.6798 1.1335 1.1717 1.1804 1.3351 1.1200 1.1549 1.1357 1.3135 1.2880 107.278 0.8766 0.7145 1.3263 1.1073 0.8523 1.2336 0.8695 1.2519 1.1126 1.1761 1.2436 1.2025 1.1506 1.3255 0.6644 1.2937 1.2966 1.2269 1.2723 1.2505 1.3183 1.1429 0.8400 1.1241 1.1963 1.3083 0.7263 0.8676 0.6798 1.1335 1.1755 1.2048 1.3351 1.1180 1.1530 1.1357 1.3191 1.2917 94.130 0.8542 0.6945 1.3063 1.1073 0.8199 1.2217 0.8455 1.2348 1.0846 1.1540 1.2212 1.2007 1.1335 1.3030 0.6473 1.2920 1.2854 1.1949 1.2536 1.2186 1.2824 1.1048 0.8260 1.0868 1.1570 1.2861 0.7038 0.8403 0.6618 1.1185 1.1624 1.1917 1.3164 1.1019 1.1286 1.1076 1.3097 1.2824 80.982 0.7888 0.6505 1.2364 1.0177 0.7517 1.1534 0.7914 1.1631 1.0287 1.0899 1.1148 1.1204 1.0531 1.2167 0.5858 1.1761 1.2012 1.1068 1.1787 1.1193 1.2225 1.0748 0.7580 1.0214 1.0692 1.2143 0.6324 0.7943 0.6078 1.0209 1.0686 1.0735 1.2268 1.0218 1.0349 1.0141 1.2386 1.2355 67.833 0.8168 0.6685 1.2904 1.1073 0.7721 1.1995 0.8174 1.2143 1.0487 1.1620 1.1801 1.1913 1.1215 1.2505 0.6302 1.2613 1.2573 1.1809 1.2255 1.1661 1.2784 1.1088 0.7820 1.0438 1.1308 1.2622 0.6662 0.8199 0.6418 1.0922 1.1436 1.1485 1.2679 1.0879 1.1043 1.0702 1.2854 1.2786 54.685 0.7607 0.6285 1.2424 1.0924 0.7261 1.1619 0.7673 1.1716 0.9887 1.1400 1.1334 1.1577 1.0873 1.1792 0.6029 1.2358 1.2106 1.1409 1.1787 1.1230 1.2264 1.0648 0.7320 0.9841 1.0916 1.1973 0.6174 0.7721 0.6038 1.0735 1.1061 1.1204 1.2081 1.0518 1.0630 1.0609 1.2480 1.2355 41.537 0.6299 0.5204 1.0667 0.9616 0.6068 1.0169 0.6411 1.0265 0.8290 0.9537 0.9654 1.0177 0.9335 0.9880 0.5141 1.0909 1.0422 0.9967 1.0384 0.9693 1.0627 0.9047 0.6100 0.8160 0.9477 1.0265 0.5161 0.6477 0.5039 0.9458 0.9468 0.9890 1.0587 0.9056 0.9224 0.9299 1.0889 1.0761 28.388 0.4150 0.3503 0.7471 0.6722 0.4023 0.7098 0.4308 0.7276 0.5493 0.6491 0.6666 0.7376 0.6343 0.6506 0.3570 0.7670 0.7428 0.6865 0.7391 0.6506 0.7431 0.6045 0.3950 0.5359 0.6579 0.6985 0.3509 0.4193 0.3439 0.6550 0.6468 0.6981 0.7413 0.6311 0.6318 0.6492 0.7802 0.7387 15.240 0.2935 0.2602 0.5673 0.4295 0.3085 0.5818 0.3206 0.5739 0.4295 0.4247 0.4332 0.5882 0.4377 0.4631 0.2152 0.5454 0.5931 0.4483 0.5800 0.4350 0.5833 0.4083 0.2730 0.4052 0.4467 0.5226 0.2759 0.2915 0.2139 0.4204 0.4312 0.4635 0.5639 0.4207 0.4256 0.4341 0.5931 0.5512 MAP3 Date time MWT press P/L HT 6300 2250 144 num_det 39 M3 J15 F4 L8 F8 J3 B10 L4 F13 F6 B7 G7 F11 N5 J10 J5 B8 N10 C12 J7 D7 L14 F2 F9 A9 R8 H4 H11 D5 L6 D10 G14 H13 C8 H3 N8 E11 L11 E5 383.393 0.2973 0.2707 0.5641 0.5333 0.7480 0.6948 0.3825 0.5267 0.4905 0.5250 0.5579 0.7092 0.5494 0.7061 0.6946 0.5428 0.5447 0.5977 0.4036 0.5902 0.5312 0.3565 0.3919 0.5783 0.2887 0.2809 0.7647 0.6515 0.5916 0.6583 0.5387 0.6324 0.4735 0.5191 0.5818 0.6805 0.6599 0.5502 0.7343 370.245 0.4599 0.3776 0.8134 0.7550 0.8270 0.7662 0.5636 0.7015 0.6752 0.8208 0.6804 0.8417 0.7582 0.6939 0.7754 0.8090 0.6054 0.7011 0.4764 0.8405 0.7401 0.4330 0.5546 0.7705 0.3697 0.3942 0.7647 0.7697 0.6951 0.8354 0.7970 0.7130 0.6661 0.7187 0.6555 0.7109 0.8219 0.8016 0.8254 357.096 0.5561 0.4595 0.9380 0.8879 0.9335 0.8909 0.6903 0.8036 0.8081 0.9465 0.8324 0.9288 0.8831 0.8324 0.8592 0.9450 0.7419 0.8265 0.5371 0.9771 0.8490 0.5288 0.6877 0.8888 0.4581 0.4644 0.8936 0.8805 0.8282 0.8670 0.9446 0.8392 0.7907 0.8223 0.7733 0.7942 0.9545 0.9495 0.9467 343.948 0.6522 0.5368 1.0626 0.9913 1.0627 1.0216 0.8125 0.9467 0.9411 1.0574 0.9756 1.0992 1.0080 0.9527 1.0237 1.0530 0.8481 0.9741 0.6585 1.0833 0.9739 0.6245 0.8060 1.0071 0.5362 0.5483 0.9998 0.9913 0.9613 1.0051 1.0700 0.9715 0.9108 0.9850 0.8985 0.9428 1.0870 1.0678 1.0712 330.800 0.7187 0.5892 1.1305 1.0578 1.1189 1.0824 0.8963 1.0193 1.0371 1.1166 1.0597 1.1654 1.0715 1.0364 1.0694 1.1077 0.9194 1.0405 0.7192 1.1470 1.0420 0.6864 0.8873 1.0766 0.5877 0.5981 1.0529 1.0504 1.0397 1.0863 1.1409 1.0551 0.9719 1.0367 0.9721 1.0064 1.1607 1.1462 1.1227 317.651 0.7468 0.6119 1.1645 1.0800 1.1356 1.1083 0.9325 1.0534 1.0815 1.1314 1.1010 1.1904 1.0988 1.0820 1.0953 1.1195 0.9543 1.0700 0.7465 1.1728 1.0761 0.7129 0.9273 1.0929 0.6127 0.5936 1.0681 1.0756 1.0811 1.1128 1.1660 1.0855 1.0059 1.0471 1.0016 1.0185 1.1828 1.1787 1.1440 304.503 0.7483 0.6119 1.1645 1.0800 1.1356 1.1083 0.9370 1.0647 1.0962 1.1314 1.1084 1.1948 1.0988 1.0927 1.0953 1.1225 0.9695 1.0774 0.7465 1.1774 1.0783 0.7129 0.9332 1.0929 0.6201 0.6162 1.0681 1.0800 1.0870 1.1128 1.1704 1.0931 1.0082 1.0471 1.0090 1.0337 1.1828 1.1787 1.1470 291.355 0.7335 0.5892 1.1192 1.0431 1.0931 1.0855 0.9053 1.0193 1.0593 1.1018 1.1010 1.1728 1.0579 1.0592 1.0267 1.1121 0.9619 1.0582 0.7267 1.1516 1.0307 0.6992 0.9095 1.0663 0.6054 0.5868 1.0454 1.0283 1.0426 1.0715 1.1512 1.0551 0.9719 0.9997 0.9795 0.9837 1.1533 1.1491 1.1212

D-21 278.206 0.7409 0.6005 1.1419 1.0283 1.0931 1.1113 0.9144 1.0193 1.0593 1.1092 1.1010 1.1580 1.0761 1.0561 1.0648 1.0973 0.9741 1.0700 0.7343 1.1591 1.0307 0.7011 0.9021 1.0633 0.6054 0.5891 1.0469 1.0209 1.0278 1.0641 1.1365 1.0703 0.9833 1.0441 0.9795 1.0034 1.1460 1.1417 1.1334 265.058 0.7631 0.6233 1.1645 1.0593 1.1128 1.1585 0.9483 1.0602 1.1036 1.1462 1.1527 1.2022 1.1215 1.1216 1.1029 1.1491 1.0089 1.1173 0.7616 1.1996 1.0647 0.7276 0.9539 1.1033 0.6275 0.6094 1.0833 1.0504 1.0604 1.1084 1.1852 1.0931 1.0173 1.0811 0.9942 1.0367 1.1754 1.1757 1.1667 251.910 0.7705 0.6347 1.1758 1.0726 1.1341 1.1843 0.9483 1.0602 1.1258 1.1535 1.1778 1.2154 1.1237 1.1124 1.1258 1.1683 1.0196 1.1409 0.7647 1.2198 1.0761 0.7394 0.9687 1.1195 0.6304 0.6162 1.0954 1.0608 1.0752 1.1187 1.1955 1.1083 1.0286 1.0855 1.0016 1.0458 1.1857 1.1787 1.1774 238.761 0.7705 0.6347 1.1826 1.0726 1.1341 1.1615 0.9483 1.0579 1.1258 1.1535 1.1719 1.2243 1.1215 1.1155 1.1212 1.1669 1.0226 1.1409 0.7677 1.2168 1.0761 0.7424 0.9731 1.1254 0.6304 0.6208 1.0985 1.0696 1.0840 1.1187 1.1881 1.1189 1.0173 1.0855 1.0060 1.0443 1.1857 1.1816 1.1713 225.613 0.7631 0.6233 1.1645 1.0652 1.1083 1.1311 0.9483 1.0420 1.1036 1.1388 1.1335 1.2051 1.0897 1.0972 1.0801 1.1565 0.9847 1.1217 0.7571 1.1819 1.0534 0.7350 0.9687 1.1003 0.6275 0.6094 1.0803 1.0578 1.0752 1.1084 1.1704 1.1128 1.0059 1.0441 1.0016 1.0216 1.1754 1.1797 1.1440 212.465 0.7409 0.6119 1.1305 1.0061 1.0931 1.1159 0.9257 1.0193 1.0667 1.0722 1.1010 1.1728 1.0579 1.0714 1.0420 1.0900 0.9619 1.0627 0.7267 1.1516 1.0307 0.7055 0.9835 1.0441 0.6054 0.5868 1.0226 1.0209 1.0308 1.0715 1.1586 1.1007 0.9833 1.0441 0.9869 1.0064 1.1386 1.1471 1.1364 199.316 0.7779 0.6438 1.1985 1.0800 1.1341 1.1767 0.9868 1.0920 1.1154 1.1609 1.1675 1.2537 1.1237 1.1383 1.0892 1.1535 1.0120 1.1291 0.7723 1.2047 1.0942 0.6024 0.9657 1.0914 0.6422 0.6162 1.0863 1.0815 1.1092 1.1320 1.2250 1.1463 1.0512 1.0914 1.0384 1.0595 1.2049 1.2083 1.1986 186.168 0.8001 0.6574 1.2098 1.0948 1.1595 1.1858 1.0027 1.1215 1.1302 1.1757 1.2044 1.2610 1.1396 1.1627 1.1151 1.1565 1.0302 1.1512 0.7874 1.2168 1.1169 0.6157 0.9864 1.1107 0.6496 0.6253 1.1076 1.0948 1.1299 1.1468 1.2590 1.1691 1.0626 1.1033 1.0458 1.0822 1.2240 1.2304 1.2138 173.020 0.8119 0.6597 1.2121 1.0948 1.1737 1.1858 1.0049 1.1260 1.1332 1.1802 1.2132 1.2537 1.1396 1.1688 1.1258 1.1639 1.0378 1.1586 0.7950 1.2198 1.1260 0.6172 0.9983 1.1181 0.6496 0.6344 1.1136 1.1021 1.1299 1.1483 1.2619 1.1737 1.0694 1.1003 1.0532 1.0898 1.2270 1.2497 1.2183 159.871 0.8075 0.6460 1.2098 1.0874 1.1691 1.1797 0.9868 1.1033 1.1302 1.1787 1.2044 1.2243 1.1260 1.1581 1.1060 1.1757 1.0302 1.1615 0.7829 1.2168 1.1101 0.6172 1.0012 1.1181 0.6422 0.6344 1.1106 1.0992 1.1284 1.1453 1.2398 1.1651 1.0535 1.0840 1.0502 1.0761 1.2270 1.2378 1.2077 146.723 0.7602 0.6233 1.1645 1.0061 1.1083 1.1463 0.9483 1.0534 1.0741 1.0944 1.1527 1.1801 1.0874 1.1048 1.0648 1.1343 0.9847 1.1069 0.7374 1.1895 1.0420 0.7129 0.9613 1.0663 0.6157 0.6094 1.0454 1.0578 1.0500 1.0937 1.1807 1.1159 0.9946 1.0663 1.0016 1.0367 1.1901 1.1787 1.1743 133.575 0.8149 0.6597 1.2438 1.0874 1.1767 1.2238 1.0072 1.1169 1.1701 1.1905 1.2265 1.2537 1.1896 1.1809 1.1349 1.2275 1.0620 1.1881 0.7981 1.2745 1.1215 0.7792 1.0308 1.1476 0.6643 0.6616 1.1106 1.1243 1.1373 1.1748 1.2545 1.2299 1.0648 1.1402 1.0708 1.1004 1.2564 1.2452 1.2441 120.427 0.8445 0.6733 1.2665 1.1021 1.2041 1.2618 1.0275 1.1328 1.1997 1.2127 1.2486 1.2758 1.2123 1.2114 1.1638 1.2349 1.0803 1.2176 0.8223 1.2957 1.1396 0.7998 1.0619 1.1846 0.6893 0.6706 1.1258 1.1450 1.1550 1.2014 1.2885 1.2451 1.0875 1.1417 1.0973 1.1216 1.2785 1.2645 1.2593 107.278 0.8519 0.6802 1.2733 1.1169 1.1919 1.2801 1.0389 1.1442 1.2144 1.2201 1.2516 1.2905 1.2077 1.2418 1.1806 1.2452 1.0863 1.2294 0.8254 1.2927 1.1442 0.8042 1.0692 1.1920 0.6938 0.6706 1.1303 1.1539 1.1683 1.2117 1.2959 1.2512 1.0920 1.1373 1.1003 1.1277 1.2859 1.2793 1.2623 94.130 0.8445 0.6042 1.2665 1.1169 1.1889 1.2603 1.0275 1.1351 1.2070 1.2201 1.2457 1.2875 1.1828 1.2190 1.1608 1.2378 1.0757 1.2176 0.8178 1.2729 1.1328 0.8013 1.0545 1.1669 0.6864 0.6616 1.1318 1.1435 1.1693 1.2029 1.2944 1.2299 1.0852 1.1062 1.0626 1.1125 1.2785 1.2748 1.2608 80.982 0.7557 0.6233 1.1532 1.0209 1.1159 1.1691 0.9483 1.0761 1.0815 1.1092 1.1601 1.2169 1.0874 1.1277 1.0648 1.1491 0.9695 1.1143 0.7343 1.1971 1.0420 0.7129 0.9761 1.0589 0.6275 0.6094 1.0529 1.1317 1.0796 1.1084 1.2103 1.1235 0.9946 1.0293 1.0163 1.0367 1.2270 1.2083 1.1819 67.833 0.8193 0.6597 1.2801 1.1435 1.2010 1.2451 1.0162 1.1691 1.1849 1.2349 1.2117 1.2787 1.1896 1.2114 1.1486 1.2349 1.0499 1.1881 0.7920 1.2820 1.1487 0.7748 1.0352 1.1447 0.6643 0.6548 1.1516 1.1450 1.1757 1.1763 1.2737 1.2147 1.0875 1.1195 1.0752 1.1277 1.2859 1.2970 1.2654 54.685 0.7897 0.6278 1.2551 1.1391 1.1737 1.2147 0.9732 1.1442 1.1627 1.2142 1.1822 1.2463 1.1669 1.1733 1.1334 1.2083 1.0226 1.1586 0.7616 1.2502 1.1328 0.7497 1.0057 1.1210 0.6275 0.6253 1.1288 1.1243 1.1535 1.1601 1.2398 1.1767 1.0648 1.0811 1.0679 1.1049 1.2638 1.2748 1.2350 41.537 0.6818 0.5323 1.1305 1.0283 1.0475 1.0703 0.8465 1.0034 1.0150 1.0870 1.0272 1.0992 1.0352 1.0364 0.9963 1.0826 0.8861 1.0184 0.6661 1.1136 1.0080 0.6540 0.8578 0.9850 0.5317 0.5415 1.0029 0.9987 1.0057 1.0346 1.1069 1.0475 0.9289 0.9406 0.9427 0.9609 1.1165 1.1314 1.1060 28.388 0.4895 0.3731 0.8473 0.7623 0.7814 0.7966 0.5975 0.7015 0.7343 0.8356 0.7394 0.8196 0.7582 0.7548 0.7221 0.8090 0.6433 0.7306 0.4764 0.8178 0.7242 0.4625 0.6064 0.7187 0.3771 0.3829 0.7571 0.7254 0.7321 0.7394 0.8191 0.7738 0.6661 0.6818 0.6849 0.6881 0.8293 0.8607 0.8254 15.240 0.3860 0.2593 0.6321 0.4639 0.6446 0.6066 0.4730 0.4631 0.4683 0.6581 0.5254 0.6430 0.4858 0.6026 0.4783 0.6315 0.4309 0.4679 0.3854 0.6281 0.4745 0.3447 0.4659 0.4895 0.2740 0.2402 0.6130 0.4595 0.4585 0.5033 0.6081 0.6446 0.4577 0.4452 0.4640 0.4532 0.6231 0.6167 0.6433 MAP4 Date time MWT press P/L HT 7730 2250 144 num_det 40 M3 L8 F8 B5 H6 J3 L9 F13 F6 J12 B7 H1 G9 G7 N5 J10 J5 B8 N10 C12 J7 L14 F2 F9 N7 A9 N12 H4 H11 D5 L6 D10 G14 C8 H3 N8 E11 L11 E5 L5 383.393 0.3107 0.4765 0.6799 0.2847 0.4999 0.6102 0.5214 0.4862 0.5259 0.4881 0.5210 0.2708 0.5678 0.6300 0.5757 0.5234 0.5173 0.4735 0.5641 0.3685 0.5441 0.3864 0.3650 0.5066 0.4988 0.2364 0.2960 0.3512 0.5548 0.5934 0.5870 0.5480 0.5757 0.4464 0.4964 0.5435 0.5583 0.5593 0.5856 0.5457 370.245 0.4637 0.7084 0.8386 0.4316 0.7827 0.7998 0.7922 0.6955 0.7976 0.7027 0.6915 0.3972 0.8143 0.8000 0.7653 0.7817 0.7823 0.6629 0.7365 0.4690 0.7935 0.4427 0.5741 0.7478 0.7426 0.3699 0.4587 0.6095 0.7317 0.7317 0.7574 0.8091 0.9170 0.6705 0.6350 0.6988 0.8213 0.8123 0.8741 0.8152 357.096 0.5603 0.8211 0.9387 0.5107 0.9252 0.9032 0.9231 0.8146 0.9231 0.8112 0.8314 0.4649 0.9523 0.9200 0.8515 0.8678 0.9108 0.7576 0.8332 0.5751 0.9408 0.5281 0.6867 0.8604 0.8825 0.4599 0.5671 0.8419 0.8298 0.8282 0.8764 0.9299 0.8653 0.7865 0.7672 0.8024 0.9536 0.9412 0.9708 0.9511 343.948 0.6568 0.9772 1.0767 0.6236 1.0315 1.0583 1.0631 0.9611 1.0373 0.9626 0.9713 0.5665 1.0993 1.0500 1.0066 1.0399 1.0377 0.8867 0.9944 0.6784 1.0542 0.6279 0.8137 0.9826 1.0179 0.5355 0.6530 0.9969 0.9761 0.9778 1.0212 1.0589 1.0066 0.9445 0.9122 0.9836 1.0778 1.0734 1.1211 1.0666 330.800 0.7212 1.0497 1.1458 0.6914 1.1152 1.1307 1.1330 0.9497 1.0903 1.0371 1.0598 0.6162 1.1030 1.1400 1.0893 1.1002 1.0988 0.9590 1.0573 0.7386 1.1380 0.6826 0.8957 1.0694 1.1037 0.5902 0.7208 1.0709 1.0437 1.0598 1.1016 1.1250 1.0928 1.0121 0.9928 1.0578 1.1536 1.1395 1.1729 1.1345 317.651 0.7373 1.0738 1.1647 0.7140 1.1378 1.1531 1.1488 1.0851 1.1080 1.0642 1.0935 0.6297 1.2124 1.1800 1.1135 1.1346 1.1180 0.9934 1.0766 0.7645 1.1675 0.7051 0.9231 1.0823 1.1308 0.6111 0.7434 1.0916 1.0726 1.1000 1.1177 1.1411 1.1273 1.0412 1.0250 1.0750 1.1714 1.1508 1.1902 1.1572 304.503 0.7406 1.0738 1.1647 0.7253 1.1378 1.1531 1.1511 1.0899 1.1128 1.0753 1.1048 0.6297 1.2124 1.1800 1.1238 1.1346 1.1196 1.0072 1.0879 0.7645 1.1789 0.7100 0.9231 1.0823 1.1421 0.6191 0.7456 1.0950 1.0807 1.1048 1.1177 1.1475 1.1307 1.0444 1.0412 1.0940 1.1714 1.1588 1.1971 1.1617 291.355 0.7051 1.0078 1.0905 0.6846 1.1061 1.0755 1.0744 1.0126 1.0469 0.9739 1.0517 0.5778 1.1446 1.1200 1.0238 1.0313 1.0763 0.9642 1.0089 0.7214 1.1335 0.6681 0.8668 1.0212 1.0744 0.6063 0.7140 1.0312 0.9617 0.9971 1.0373 1.0895 1.0669 0.9654 0.9767 0.9922 1.1230 1.1024 1.1125 1.1232 278.206 0.7229 1.0287 1.1320 0.7072 1.0993 1.1617 1.1195 1.0577 1.1016 1.0416 1.1032 0.5936 1.1795 1.1500 1.0962 1.1054 1.1052 1.0072 1.0911 0.7507 1.1607 0.6955 0.9086 1.0566 1.1195 0.6063 0.7298 1.0830 1.0356 1.0421 1.0694 1.1266 1.1100 1.0266 0.9993 1.0526 1.1391 1.1250 1.1747 1.1458 265.058 0.7486 1.0690 1.1596 0.7253 1.1446 1.2048 1.1488 1.0996 1.1321 1.0710 1.1530 0.6139 1.2288 1.1900 1.1479 1.1518 1.1534 1.0503 1.1314 0.7731 1.2061 0.7229 0.9424 1.1016 1.1533 0.6272 0.7592 1.1226 1.0566 1.0759 1.1144 1.1620 1.1273 1.0621 1.0170 1.0905 1.1827 1.1588 1.2144 1.1798 251.910 0.7567 1.0770 1.1768 0.7253 1.1559 1.2117 1.1511 1.1189 1.1386 1.0710 1.1707 0.6229 1.2288 1.2000 1.1445 1.1777 1.1646 1.0640 1.1459 0.7799 1.2287 0.7229 0.9585 1.1193 1.1714 0.6352 0.7660 1.1277 1.0694 1.0903 1.1289 1.1781 1.1376 1.0750 1.0234 1.0940 1.1675 1.1685 1.2161 1.1821 238.761 0.7567 1.0835 1.1803 0.7253 1.1559 1.2048 1.1533 1.1221 1.1370 1.0688 1.1691 0.6229 1.2288 1.2100 1.1445 1.1691 1.1646 1.0623 1.1524 0.7782 1.2265 0.7229 0.9601 1.1289 1.1782 0.6352 0.7660 1.1312 1.0674 1.0984 1.1305 1.1733 1.1410 1.0879 1.0250 1.0940 1.1875 1.1717 1.2075 1.1843 225.613 0.7422 1.0609 1.1544 0.7140 1.1333 1.1617 1.1285 1.0899 1.1032 1.0394 1.1209 0.6071 1.1830 1.1900 1.1066 1.1174 1.1357 1.0158 1.1056 0.7645 1.1789 0.7116 0.9311 1.0984 1.1421 0.6256 0.7479 1.1002 1.0517 1.0662 1.1016 1.1588 1.1238 1.0460 1.0135 1.0578 1.1714 1.1572 1.1781 1.1572 212.465 0.7212 1.0432 1.1354 0.7027 1.1107 1.1703 1.1150 1.0738 1.0887 1.0462 1.0968 0.6004 1.1604 1.1700 1.1135 1.0830 1.1068 0.9986 1.0863 0.7507 1.1562 0.6971 0.9150 1.0533 1.1285 0.6079 0.7253 1.0744 1.0471 1.0566 1.0855 1.1508 1.1156 1.0379 1.0073 1.0578 1.1730 1.1395 1.1850 1.1458 199.316 0.7599 1.0915 1.1716 0.7366 1.1740 1.2134 1.1488 1.1108 1.1386 1.0914 1.1530 0.6229 1.1333 1.2400 1.1583 1.1346 1.1502 1.0451 1.1250 0.7817 1.2061 0.7229 0.9472 1.0887 1.1804 0.6384 0.7592 1.1174 1.0839 1.1048 1.1337 1.2168 1.1617 1.0750 1.0524 1.0957 1.2085 1.1878 1.2334 1.1911 186.168 0.7712 1.1044 1.1889 0.7479 1.1785 1.2221 1.1533 1.1237 1.1514 1.1026 1.1772 0.6320 1.2351 1.2400 1.1703 1.1467 1.1534 1.0589 1.1427 0.7903 1.2129 0.7373 0.9601 1.1080 1.1985 0.6384 0.7705 1.1381 1.0935 1.1177 1.1418 1.2362 1.1755 1.0911 1.0621 1.1131 1.2279 1.2039 1.2472 1.2025 173.020 0.7744 1.1060 1.1992 0.7479 1.1785 1.2134 1.1556 1.1269 1.1546 1.1072 1.1852 0.6365 1.2351 1.2400 1.1703 1.1518 1.1662 1.0589 1.1508 0.7903 1.2197 0.7406 0.9617 1.1177 1.1985 0.6384 0.7750 1.1398 1.1016 1.1161 1.1418 1.2362 1.1755 1.0943 1.0605 1.1130 1.2262 1.2088 1.2472 1.1911 159.871 0.7583 1.0819 1.1837 0.7253 1.1604 1.1928 1.1579 1.1221 1.1434 1.0755 1.1691 0.6297 1.2238 1.2100 1.1445 1.1346 1.1662 1.0451 1.1266 0.7731 1.2015 0.7293 0.9601 1.1032 1.1872 0.6224 0.7660 1.1260 1.0807 1.1032 1.1225 1.2168 1.1631 1.0782 1.0460 1.0923 1.2069 1.1927 1.2230 1.1843 146.723 0.7373 1.0416 1.1458 0.7027 1.1107 1.1790 1.1353 1.0915 1.1064 1.0462 1.1241 0.6071 1.1921 1.1600 1.1273 1.0916 1.1373 1.0072 1.0911 0.7558 1.1743 0.6907 0.9408 1.0694 1.1488 0.6063 0.7298 1.0778 1.0533 1.0566 1.0839 1.1669 1.1359 1.0524 0.9928 1.0612 1.1714 1.1524 1.1954 1.1526 133.575 0.7640 1.0899 1.1975 0.7456 1.1740 1.2341 1.1872 1.1656 1.1643 1.0981 1.1852 0.6455 1.2238 1.2300 1.1790 1.1604 1.1903 1.0761 1.1540 0.7954 1.2514 0.7454 0.9922 1.1402 1.2030 0.6465 0.7682 1.1226 1.1161 1.1128 1.1514 1.2329 1.2048 1.1072 1.0573 1.1181 1.2391 1.2039 1.2472 1.2206 120.427 0.8017 1.0980 1.2061 0.7682 1.1830 1.2651 1.2007 1.1833 1.1788 1.1139 1.1949 0.6523 1.2351 1.2400 1.2048 1.1914 1.2016 1.0916 1.1749 0.8075 1.2695 0.7567 1.0131 1.1756 1.2233 0.6706 0.7818 1.1329 1.1305 1.1289 1.1737 1.2587 1.2221 1.1201 1.0814 1.1216 1.2343 1.2184 1.2541 1.2251 107.278 0.8050 1.1060 1.2061 0.7705 1.1966 1.2789 1.2007 1.1897 1.1836 1.1275 1.1965 0.6523 1.2418 1.2400 1.2307 1.2035 1.2064 1.0967 1.1678 0.8127 1.2695 0.7599 1.0228 1.1820 1.2233 0.6754 0.7818 1.1432 1.1354 1.1337 1.1820 1.2636 1.2221 1.1185 1.0847 1.1250 1.2359 1.2217 1.2541 1.2251 94.130 0.7689 1.1060 1.1941 0.7479 1.1898 1.2479 1.1872 1.1704 1.1836 1.1094 1.1852 0.6455 1.2351 1.2400 1.1876 1.1777 1.2016 1.0795 1.1717 0.7954 1.2423 0.7454 1.0019 1.1498 1.2165 0.6674 0.7705 1.1398 1.1177 1.1209 1.1659 1.2523 1.1952 1.1008 1.0573 1.1043 1.2311 1.2201 1.2420 1.2251 80.982 0.7486 1.0577 1.1458 0.6982 1.1220 1.1790 1.1353 1.0915 1.1386 1.0642 1.1144 0.6071 1.1672 1.1600 1.1445 1.0916 1.1405 0.9900 1.0911 0.7386 1.1675 0.7003 0.9568 1.0566 1.1488 0.6143 0.7366 1.0950 1.0533 1.0726 1.0855 1.1846 1.1359 1.0524 0.9928 1.0526 1.1714 1.1830 1.1988 1.1572 67.833 0.7792 1.1382 1.2113 0.7253 1.1898 1.2445 1.2165 1.1543 1.1997 1.1298 1.1498 0.6455 1.2373 1.2300 1.1962 1.1691 1.2016 1.0589 1.1491 0.7817 1.2469 0.7309 1.0019 1.1354 1.2211 0.6433 0.7773 1.1691 1.1209 1.1402 1.1466 1.2378 1.1928 1.1072 1.0573 1.1250 1.2295 1.2458 1.2593 1.2296 54.685 0.7502 1.1382 1.1837 0.7005 1.1672 1.2134 1.1646 1.1253 1.1707 1.1049 1.1370 0.6229 1.2238 1.2100 1.1617 1.1604 1.1839 1.0416 1.1234 0.7507 1.2287 0.7019 0.9681 1.1177 1.2414 0.6095 0.7479 1.1415 1.1112 1.1209 1.1337 1.2039 1.1531 1.0911 1.0557 1.1043 1.2069 1.2394 1.2334 1.2070 41.537 0.6488 1.0094 1.0560 0.6010 1.0428 1.0669 1.0405 0.9804 1.0389 0.9513 0.9938 0.5394 1.0880 1.0700 1.0100 1.0313 1.0666 0.9125 0.9783 0.6474 1.0882 0.6053 0.8314 0.9922 1.0405 0.5291 0.6394 1.0141 0.9820 0.9778 1.0131 1.0814 1.0152 0.9477 0.9428 0.9577 0.7487 1.1072 1.0952 1.0666 28.388 0.4331 0.6762 0.7489 0.4090 0.7487 0.7481 0.7245 0.6746 0.7365 0.6349 0.6883 0.3634 0.7487 0.7600 0.6963 0.7094 0.7470 0.6370 0.6560 0.4459 0.7708 0.4025 0.5596 0.6915 0.7245 0.3618 0.4316 0.7162 0.5867 0.6706 0.5500 0.7591 0.6963 0.6447 0.6527 0.6471 0.7599 0.7849 0.7670 0.7609 15.240 0.3590 0.4781 0.6712 0.3299 0.6696 0.6446 0.6071 0.4781 0.6352 0.4994 0.5982 0.2505 0.6130 0.6800 0.6102 0.5062 0.6313 0.4477 0.4771 0.3943 0.6416 0.3139 0.4792 0.5050 0.6004 0.3136 0.3525 0.6439 0.4744 0.4776 0.5066 0.6286 0.6274 0.4803 0.4722 0.4745 0.6389 0.6076 0.6461 0.6363

ML25113A264

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