ML033090236
| ML033090236 | |
| Person / Time | |
|---|---|
| Site: | Sequoyah, WM-00011, 07109261  |
| Issue date: | 04/14/1998 |
| From: | Mays C Civilian Radioactive Waste Management System |
| To: | Office of Nuclear Material Safety and Safeguards, US Dept of Energy, Yucca Mountain Site Characterization Project Office |
| References | |
| -RFPFR B00000000-1717-5705-00064, Rev 01 | |
| Download: ML033090236 (102) | |
Text
{{#Wiki_filter:9yc969 / WBS: 1.2.2.3 QA: L Civilian Radioactive Waste Management System Management & Operating Contractor Suminary Report of Commercial Reactor Criticality Data for Sequoyah Unit 2 I Revision 01 - Deleted: COA I I Document Identifier No.: B00000000-01717-57054064 REV 01t -4 Deleted: C I
~ ~ ~ ~~~~~~~
Apg14l1998 t~Deted oeber3 Prepared for: U.S. Department of Energy Yucca Mountain Site Characterization Project Office P.O. Box 30307 Las Vegas, NV 89036-0307 Prepared by: Civilian Radioactive Waste Management System Management & Operating Contractor 1180 Town Center Drive Las Vegas, Nevada 89134 Under Contract Number I DE-ACO -9IRWO0134 _ __ _ _ _ _ _e __ - Deled: f l__ 1 1
Civilian Radioactive Waste Management System Management & Operating Contractor Summary Report of Commercial Reactor Criticality Data for Sequoyah Unit 2 I Document Identifier No.: BOOOOOOOO-01717-5705-0006 RE V,01,-.... . -Dltd:.k j I I [Deleted: 23Noveznber 3 Prepared by: C. W. Mays, Preparer - - -- --- ate:--
-- - - -- - - -- - - -- [ Deleted: Aldkor
.NeutronicsMethodo~fy-- - - - - - - - - - - - - - - - - - - -- -IDltd etoisM&ology_--
Checked by: D ate: _ _ _ _ _ _ _ _ _ K. D. Wright, Checker I Neutronics Methodology Checked by: Date: L. B. Winmner, Checker (Reference 5 Input) I Neutronics Methodology Approved by: D ate: __ _ _ _ _ _ _ _ D. A. Thbomas, Manager I Neutronics Methodology Approved by: ______________________ _______D a te: _ _ _ _ _ _ _ _
,T. WDoering,er
!Iepartinen!Mqna -- . ~~~~~~~~Deleted:
T. W.Doering, Departamt Waste Package Design Maae
-- {~~~~~~~~~~~~~~Deieted:23 I B00000000-01717-SMS-00064 REV 1 I B00000 705-0006 0041717- REVClK April 14,1998
HISTORY OF CHANGE PAGE Initial Issuance, REV 00................ August 29, 1997 I Update, REV 01..............-...................................................... .................................. .....Apr 141998 X -- ie1A l Sew data added. Changes are marked with change/bars in the ft margin or as ----- I otherwise noted (Figures 3-1 through 3-7, Tables 3-3 and 3-4). Deleted: CIA
.1 Deleted: Febnury l
__,I - Deeted:=33 IB00000000-01717-705.00064 REV 01 ill Apri 14, 1998
Acknowledgments I The author (preparer)would like to express his thanks to the Tennessee Valley Authority for their assistance with gathering and verification of the information used to model the critical statepoint conditions for the Sequoyah Unit 2 reactor. The author would also like to thank the Tennessee Valley Authority for granting permission to publish this information. A Deleted: CIA
,, Dekted: Februarv
_ - De-ed- 233
; ~~~~~
B000000 01717-5705-00064 RV Wt iv April 14, 1998
TABLE OF CONTENTS Section Page 1.0 INTRODUCIION ............................................. 1 1.1 Background ............................................. 1 1.2 Objective ............................................. 1 1.3 Scope ............................................. 1 1.4 Quality Assurance..................................................................................................................1 2.0 REACTOR DESIGN INFORMATION................................................................................... 3 3.0 FUEL CYCLE DESIGN INFORMATION............................................................................. 21 -- Deleted: 3.1 Fuel Batch Data.............................................. .65 21 6.0 RERE S 3.2 FuelAssembly Data............................................. 23 4.0 CORE OPERATIONS AND STA TEPOINT INFORMATION ............................................. 35 4.1 Core Follow Data.............................................. 35 4.2 Statepoint CriticalCondition Measurements ............. ................................. 62
5.0 CONCLUSION
S............................................. 64
6.0 REFERENCES
............................................. 65
> >l Dt:
e Febrry
.3 I BOOOOOOOO-01717-570540064 REV 011 v April14, 1998
LIST OF FIGURES I ,F~gure Page - -- Debted: figure. Pagel 2-1. Icuizal View of Vesd Ihcmals 2-1. Horizontal View of Vessel Internals Along Core Midplane................................................ 4 Along Coe Mplane 41 2-2. Radial View of Fuel Assembly 2-2. Radial View of Fuel Assembly Layout Along the Core Flat............................................... S layout Along the Core Flat. 51 2-3. Radial View of a Single 17 x 17 ST Fuel Assembly ....................................................... 7 2-3.. Radial Vw of a Single 17 x 17 STD Fuel Assembly .71 2-4. Axial Dimensions by Regionfor 17 x 17 STD FuelAssembly ............................................ 8 2-4.. Axial Dimensions by Region for 17 2-5. Axial Dimensionsfor Guide Tubesfor STD FuelAssembly ............................................. 10 17 SI) Fed Assembly. SI 2-5. - Axial Dimensions for Guide Tubes 2-6. Instrument Tube Axial Dimensionsfor STD Fuel Assembly ............................................. 11 for SID ud Assembly. 10¶ 2-7. Fuel Rod Assembly Axial Dimensionsfor STD FuelAssembly ........................ ................ 12 2-6. .Instument Tube Axial Dimsions for STD Fuel Assembly. I 2-8. Axial Dimensionsfor RCCAs (Rods 0o Withdrawn)for STD Fuel Assembly .......... ....... 14 2-7. . Fuel Rod Assembly Axial 2-9. Axial Dimensionsfor Pyrex BPRAs for STD FuelAssembly ............................................ 17 Dimensions for SID Fuel Assembly . 121
- 24. Axial Dinsions for RCCAs 2-10. Axial Dimensionsfor WABA BPRAs for STD Fuel Assembly ........................................... 18 (Rods 0% With&awn) for STD Fud 2-11. Axial Dimensionsfor Thimble Plugfor SW Fuel Assembly ............................................ 19 Assembly. 141 2-9.. Axial Dimensions for Pyex BPRAs 3-1. Cycle I One-Eighth Core Loadingfor Sequoyah Unit 2 .................................................. 25 for S7 Fuel Assembly. 171 3-2. Cycle 2 One-Eighth Core Loadingfor Sequoyah Unit 2 .................................................. 26 2-10. .Axial Dimensions for WABA BPRAs for SD Fud Assembly. 181 3-3. Cycle 3 One-Eighth Core Loadingfor Sequoyah Unit 2 .................................................. 27 2-11. Axial Dirensions for Thimble 3-4. Burnable Poison Rod Locations within a Fuel Assembly ................................................. 28 Plug for SID Fad Assembly. 191 3-1. .Cycle I One-Eighth Coe Loading 3-5. Cycle I Fuel Assembly Identification & Locationsfor Sequoyah 2.................................. 29 for Sucyab Unit 2 . 251 3-6 Cycle 2 Fuel Assembly Identification & Locationsfor Sequoyah 2.................................. 30 3-2.. Cycle 2 One-Eighth Core Loading for Sequoyah Unit 2. 261 3-7. Cycle 3 Fuel Assembly Identification & Locationsfor Sequoyah 2 .................................. 31 3-3. .Cycle 3 One-Eighth Core loading for Sequoyah Unit 2. 271 3-4.. Bumable Poison Rod Locations within a d Assembly. 281 3-5. .Cycle I Fuel Assembly Identification &Locations for Sequoyah 2.291 3-6. Cycle 2Nd Assembly Identification &Locations for Sequyab 2 301 3-7.. Cycle 3 Fl Assembly uentification
&Locatons for Sequoyah
- 2. 31 e
Deee: CA Dektd: F*bry V_ -~ - - - - - - - --__ - -- __ - - - - -- - -- - - - - - - - _Ap . -- -- - - D 233 I B00000000-01717-5705-00064 REV 0i11 I Aril 14, 199
LIST OF TABLES Deleted: Table. Page I 2-1. Dimensions forn Core Center to lale Page' Outside Surface ofPressure Vessel. 31 2-2.. Sequoyah 2 Ned AnemblylCore Data. 61 2-1. Dimensionsfrom Core Center to Outside Surface of Pressure Vessel ............................... 3 2-3.. Volume Fractions for Non-Ful Regions for Non-Control Assemblies 2-2. Sequoyah 2 Fuel Assembly/Core Data........................................................... 6 (SID) 91 2-3. Volume Fractionsfor Non-FuelRegions for Non-Control Assemblies (STD) ................... 9 24. .STD Fuel Rod Assembly Volume Fractions for Regions 3 and 5 .91 2-4. STD Fuel Rod Assembly Volume Fractionsfor Regions 3 and 5 ....................................... 9 2-5. .Volume Frions for ST 2-5. Volume Fractionsfor STD Assemblies with RCCAs (0% Withdrawn)for Assemblies with RCCAs al% Withdman) for Regions 1-Regions 1-3......................................................... 13 3 .131 2-6. Volume Fractionsfor STD FuelAssemblies with WABA or Pyrex BPRAs for Regions 2-6. .Volume Fractions for S Fuel Assemblies with WABA or Pyrex BPRAs 2-3......................................................... 16 for Regions 2 -3. 161 3-1. FuelAssembly/Pin/Cycle Descriptionfor Cycles 1-3....................................................... 22 3-I. .Fue AssacnblyfPintCycle Description for Cycles 1-3. 221 3-2. Cycle Length and Time During Cycle Statepoint DataMeasuredfor Cycles 1-3 ............ 23 3-2. . Cycle L1sgth and lime DWg 3-3. FuelAssembly Locations by Cycle for Burnup Calculations............................................33 Cycle Statepoint Data Measured for Cycles 1-3 231 3-4. Control Rod and BA Loadings by Cycle for Burnup Calculations................................... 34 3-3. .Pud Assembly Loeations by Cycle 4-1. Axial Node Spacingsfor Sequoyah 2 Burnup Calculations.............................................. 36 for Bunup Calculations .331
- 34. .Control Rod and BALoadings by 4-2. Burnup and TH Feedback Parametersby Axial Node forAssembly A6 ........................... 37 Cycle for Bumup Calculations .341 4-3. Burnup and TH Feedback Parametersby Axial Node forAssembly A8........................... 38 4-1. .Axial Node Spacings ir Sequoyah 2 Burnup Calculations .361 4-4. Burnup and TH Feedback Parametersby Axial Node for Assembly AI5......................... 39 4-2. . Burnup and TH Feedback 4-5. Burnup and TH FeedbackParametersby Axial Node for Assembly A21 ......................... 40 Paameters by Axial Node for Assembly A6 .371 4-6. Burnup and TH Feedback Parametersby Axial Node for Assembly A21a ....................... 41 4-3. Burnup and TR Feedback 4-7. Burnup and TH Feedback Parametersby Axial Node forAssembly A25......................... 42 Parameters by Axial Node for Assembly 4-8. Burnup and TH Feedback Parametersby Axial Node for Assembly A25a....................... 43 AS .381 4-4.. Burnup and TH Feedback 4-9. Burnup and TH Feedback Parametersby Axial Node for Assembly A26 ......................... 44 Paameters by Axial Node for Assembly 4-10. Burnup and TH Feedback Parametersby Axial Node for Assembly A26a....................... 45 A15 391 4-5. Bumup and TH Feedback 4-11. Burnup and TH Feedback Parametersby Axial Node for Assembly A29......................... 46 Parameters by Axial Node for Assembly 4-12. Burnup and TH Feedback Parametersby Axial Nodefor Assembly A29a....................... 47 A21 .401 4-6. . Butnup and TH Feedback 4-13. Burnup and TH FeedbackParametersby Axial Node for Assembly A30......................... 48 Parameters by Axial Node for Assembly 4-14. Burnup and TH FeedbackParametersby Axial Node for Assembly A31 ......................... 49 A21a. 411 4-7.. Burup and TH Feedback 4-15. Burnup and TH Feedback Parametersby Axial Node for Assembly B14......................... 50 Parameters by Axial Node for Assembly 4-16. Burnup and TH FeedbackParametersby Axial Node for Assembly BJ15......................... 50 A25 421 4-4. Burnup and TH Feedback 4-17. Burnup and TH Feedback Parametersby Axial Nodefor Assembly B19.51 Parameters by Axial Node for Assembly 4-18. Burnup and TH Feedback Parametersby Axial Node for Assembly B21 ......................... 51 A25a 431 4-9. Burnup and TR Feedback 4-19. Burnup and TH Feedback Parametersby Axial Node for Assembly B25......................... 52 Parameters by Axial Node for Assembly 4-20. Burnup and TH Feedback Parametersby Axial Node for Assembly B26......................... 52 A26 441 4-10. Burnup and Tm Feedback 4-21. Burnup and 7TH FeedbackParametersby Axial Node for Assembly B29......................... 53 Parameters by Axial Node for Assembly 4-22. Burnup and 7TH Feedback Parametersby Axial Node for Assembly B30......................... 53 A26a 451 4-11 .Burnup and TH Feedback 4-23. Burnup and 7H Feedback Parametersby Ax ial Node for Assembly B31......................... 54 Parameters by Axial Node for Assnbly 4-24. Burnup and 7TH Feedback Parametersby Axial Node for Assembly C2.54 A29 461 4-12. Burnup and TH Feedback 4-25. Burnup and TH Feedback Parametersby Axial Node for Assembly C4.55 Parameters by Axial Node for Assembly 4-26. Burnup and TH FeedbackParametersby Axial Nodefor Assembly C6 .55 A29a .471 4-13. Buroup and Tm Fetdbck 4-27. Burnup and 7TH Feedback Parametersby Axial Nodefor Assembly C8 .56 Parameters by Axial Node for Assembly 4-28. Bumup and TH Feedback Parametersby Axial Node for Assembly C .56 1 A30 481 4-14. Burnup and Tm Feedback 4-29. Burnup and TH FeedbackParametersby Axial Nodefor Assembly C.15 57 Parameters by Axial Node for 4-30. Burnup and TH Feedback Parametersby Axial Nodefor Assembly C17........................ 57 Deleted: CIA 4-31. Burnup and TH Feedback Parametersby Axial Node for Assembly C 9 .58 Deleted: February
....~~~~~~~~~~~~~~~Ir~~~~ [Deleted: 233 I 1100000000-01717-5705400" REV 01 IiI April 14, 1998
I LIST OF TABLES (Cont'd) I Table Page 4-32. Burnup and TH FeedbackParametersby Axial Node for Assembly C21......................... 58 4-33. Burnup and TH Feedback Parametersby Axial Node for Assembly C25........................ 59 4-34. Burnup and TH Feedback Parametersby Axial Node forAssembly C30........................ 59 4-35. Rod Insertion Time by Axial Node for Assembly A6......................................................... 60 4-36. Rod Insertion Time by Axial Node forAssembly A25 ................................................... 60 4-37. Rod Insertion Time by Axial Node for Assembly A26....................................................... 61 4-38. Rod Insertion Time by Axial Node for Assembly A30 ................................................... 61 4-39. CriticalBoron Datafor Sequoyah 2 Burnup Calculations............................................... 62 4-40. Statepoint Datafor Sequoyah Unit 2 - Measured Critical Conditions............................. 63 4-41. Statepoint Datafor Sequoyah Unit 2 - Shutdown and Startup Dates............................... 63 Feb=7
- Deleted:233 _ _
l BOOOOOOOO-01717-5705-00064 REV 01 AprW 14, 1998
1.0 INTRODUCTION
The OSummary Report of Commercial Reactor Criticality Data for Sequoyah Unit 2" contains the detailed information necessary to perform commercial reactor criticality (CRC) analyses for the Sequoyah Unit 2 reactor. 1.1 Background The United States Department of Energy (DOE) Office of Civilian Radioactive Waste Management (OCRWM) is developing a methodology for criticality analysis to support disposal of commercial spent nuclear fuel in a geologic repository. A topical report on the disposal criticality analysis methodology is scheduled to be submitted to the United States Nuclear I Regulatory Commission (NRC) for formal review in pctober 1998. Thisjummary report - { Deleted: Octiob provides data that will be used in analyses that will support the development of parts of the - Deleted: ummmy disposal criticality analysis methodology. 1.2 Objective The objective of this report is to present the data required for performing analytical CRC evaluations for the Sequoyah Unit 2 reactor. Results from the CRC evaluations will support the development and validation of the neutronics models used for criticality analyses involving commercial spent nuclear fuel. These models and their validation will be discussed in the Disposal Criticality Analysis Methodology Topical Report. 13 Scope The scope of this Summary Report is the presentation of data required to perform.1hree statepoint Deleted' calculations from cycles 1 and 3 of Sequoyah Unit 2. Thnly interface for the development of - Deleted:. the information in this document is with Framatome Cogema Fuels (FCF). FCF is one of the Deleted: teammates of the Civilian Radioactive Waste Management System Management and Operating Deleted: a Contractor (M&O). FCF independently requested and received permission from the Tennessee Valley Authority, the owner/operator of Sequoyah Unit 2, to publish the information related to statepoint measurements that is recorded in this document. All the information contained in this report is documented in an FCF calculational file (Reference 5). The data provided inReferen-ce - -- Deleted: R 5 was obtained from various other reports, calculations, and drawings developed under an NRC accepted quality assurance program (Reference 1) and the data has supported prior licensing submittals. The data therefore will be considered acceptable for quality affecting activities and for use in analyses affecting procurement, construction, or fabrication. 1.4 Quality Assurance Deleted: iod 3 The Quality Assurance (QA) program applies to the development of this report. The data ; Deletd: DispwaI system 3 provided in this report will indirectly be used to develop the methodology for evaluating the Delted: D) MonitoredGeologicRepositoryMGR,) wastepacke and engineered barrier segment. Te eleted: C QA Cls~iAeon f P e evalat._n Cla .1_tion _ _entitle _. of t.e 3 QAP-2-3 (Classificationof PernuanentItems) evaluationentitled Classificationof tate .,Dke:February
,-- _T.- -- - - ___ _ _ _ __ , , etd 3 BOOOOOO001717-5705-00064 REV 1 1 April 14, 1998
PreliminaryMGDS Repository Design (Reference 2, TBV-228) has identified the waste package as an MGR (formerly MGDS) item importantto safety, waste isolation, and physicalprotection of materials. The Waste Package responsible managerhas evaluatedthe technicaldocument development activity in accordancewith QAP-2-0, Conduct of Activities. The QAP-2-0 activity evaluation, Develop Technical Documents (Reference 3), has determined that the preparation and review of this technical document is subject to Quality Assurance Requirements and Description (Reference 4) requirements. As specified in NLP-3-18, Documentation of QA Controls on Drawings, Specifications, Design Analyses, and Technical Documents, this activity is subject to QA controls. No scientific and engineering software or computational software was Deleted: used in the development of this report. Deletd Februay { Deleted:233 B00000-01717-570S-00064 REV 01 2 April 14, 1998
2.0 REACTOR DESIGN INFORMATION This section provides general material and geometry data for modeling the Sequoyah Unit 2 reactor. Figures 2-1 through 2-9 providepictorial representations of various components that - - Deed: 11 must be modeled. A horizontal view of the vessel internals is presented in Figure 2-1. This includes the 193 fuel assemblies (FA) in the reactor core region. All dimensions in this figure are measured from the center of the reactor core. A radial view of the fuel assembly layout (along the core flat) and extending through the core liner is provided in Figure 2-2. The core liner, core barrel, thermal shield, and vessel weld liner are represented as stainless steel (SS304 front Reference 5 or A240, Type 304 from 1997Annual Book of ASTM Standards, Vol. 01.03, Section 1, Iron and Steel Products, p. 37, Table 1). The pressure vessel is carbon steel (CS508 from Reference 5 or A508, Grade 2, Class I from Annual Book ofASTM Standards, Vol. 01.05, Section 1, Iron and Steel Products, p. 281, Table 1). Table 2-1 provides dimensions from the - { Deleted: center of the core (along the core flat) to the outside surface of the pressure vessel. Table 2-1. Dimensions from Core Center to Outside Surface of Pressure Vessel Description Thickness (cm) Outer Radius (cm) - Deleted: m Core Center 00.00000 Delete.d:an DFA-1 10.70102 10.70102 Water 0.10160 10.80262 FA-2 21.40204 32.20466 Water 0.10160 32.30626 FA-3 21.40204 53.70830 Water 0.10160 53.80990 FA-4 21.40204 75.21194 Water 0.10160 75.31354 FA-5 21.40204 96.71558 Water 0.10160 96.81718 FA-6 21.40204 118.21922 Water 0.10160 118.32082 FA-7 21.40204 139.72286 Water 0.10160 139.82446 FA-8 21.40204 161.22650 Water 0.19350 161.4200 Core Liner 2.8575 164.2775 Water 23.6825 187.9600 Core Barrel 5.7150 193.6750 Water 7.6200 201.2950 Thermal Shield 6.9850 208.2800 Water 11.1125 219.3925 Vessel Liner 0.3175 219.71 Pressure Vessel 21.59 241.30 _ , _ . _ _ r _
.Deleted: CA Deted: February
__ _ _ _ _ _. _ _. _ _ _. __ _ _ _ _ __ __ __ _.- _ _ __ _ - - - Deleted:233 3 l Woooooo00 01717-5705-00064 REV o1 3 April 14, 1998
Figure 2-1. Horizontal View of Vessel Internals Along Core Midplane Com Lker, Cre Barnl, Themial Sheld, and Vessel Lher - SS304. Reactr Vessel - CS508 (Delted: CAl
,, Deeted: Februu7 V- -- - ----- - - - - -- - - - - - - -- - - - - --- -- --- ----
V- - - 1 D e ted: 233 I BOOOOOOOO01717-S705-00064 REV 01 4 April 14, 1998
Figure 2-2. Radial View of Fuel Assembly Layout Along the Core Flat Outside Dimensions of FA = 21.40204 cm (8.426 in) Includes Top & Bottom Grids Fuel Assembly Pitch = 21.50364 cm (8.466 In) lFA-21l FA 1 FA- 1 FA-G I FAO I FA-7 I FA-8 Along Core "Flat
& 4--4 4- --
4 4- 44-4 Care Liner 164.2775 cm 161.42 cm l Deleted: CIA Deleted: Februa T- -------- ~- - - --- - - - - - - - - - - - - - - -- - - - _ _ _ _ _ _. _. _X r - - ~- - 1 Deleted: 233 B000000-01717-5705 00064 REV 01 5 April 14, 1998
Table 2-2 summarizes fuel assembly and reactor core data used for modeling the Sequoyah Unit 1 2 reactor for cycleqv1-3. Additional fuel cycle desigcore qptiqqs, and reactor criticality - Deleted: 8 -3 statepoint information will be provided in Sections 3 and 4. I Table 2-2. Sequoyah 2,Fue Assembly/Core Data ---- Deleted Ccde I _- Deleted: SM Fuel Assembly Array Size and Type 17 x 17,STD Number of Fuel Pins (NR) / Assembly 264 Number of Guide Tubes (Nar) / Assembly 24 Number of Instrument Tubes (Nrr) / Assembly 1 Number of Assemblies in Core 193 System Pressure 2250 psia/1.551 x 16' Pa Core Height (H) 365.76 cm Pin Pitch 1.25984 cm Fuel Pin Cladding OD (puter diameter- ODc) 0.94996 cm Fuel Cladding Material zircaloy - -- JDeleted: Guide Tube Upper Region Length in Active Fuel Region (Hi) 308.4703 cm Guide Tube OD (ODar-u) 1.22428 cm Guide Tube Lower Region Length in Active Fuel Region (H2) 57.2897 cm Guide Tube OD (ODCT L) 1.08966 cm Guide Tube Material I-ircaloy - De1leted:-Z ) Instrument Tube OD (ODr) 1.22428 cm Instrument Tube Material ,ircaloy _-fiLeted: Z Assembly Pitch (P) 21.50364 cm Inconel Spacer Grid Height 3.35788 cm Grid Volume for Active Fuel Region in Single Assembly: Volume of Inconel Grid = Vio = 666.6352 cm3 VM+ = Volume of Moderator plus Grid in Fuel Assembly (excluding inside guide tubes Deleted: (Noe: be number of diits shown above for volumes and volume and instrument tube) fractions we an aifact of thdi eonputaonal process and we taken
= H - H * [N OD2 + Nr *OD2] _ N 4[HI *ODGT U + H2 *ODG-L] dizectly firm reference 5).
Deleted: fuel assembly
= 90,263.3285 cm3 Deleted: provides a Assembly Volume Fraction of Inconel Grid = Vc/VM 4G = 0.0073854 Deleted: Westinghouse 17 x 17 JNote: The number of digits shown above for volumes and volume fractions are an arifactof the standsrd fud asembly computationalprocess and are taken directlyfrom Reference 5).- - - -- Deleted: d)
Deleted: s Figure 2-3 presents a radial view of a single Westinghouse 17 x 17 standardfuelassembly (STD), Deleted: showing the locations of the guide tubes, instrument tube, and fuel pins. Axial dimensions, by Deleted: i region, for the ;TDfuel assembly arepresented inFigures2-4, This assmbly contains X
,nconel intermediate spacer grids and two Incone end spacer grids. The upper end spacer grid is Deleted: incode Deleted: CIA above the active fuel region, whereas the lower end spacer grid and the 6 intermediate spacer Deleted: February grids are inside the active fuel region.
--- - - - - - - -- - - -- - - -- -- -- - -- Deleted: 233 I BOOOOOOOO-01717-57OS-00064 REV 01 6 Apil 14, 1998
I Figure 2-3. Radial View of a Single 17 x 17 STD Fuel Assembly
,- Assembly Pitch = 21.50364 cm I
II1-II1-1 Assembly Outer Dimensions = 21402D4 cm IT I 1I I _ -- I X!- 20 ITO IT IrO rTaT aT OTR _T __ _ __ _ _ _ _T_ _ _ _ _T _T _ __E5 _ OT_ _ _ _ _
-;-+ I I
_~~~- _~~~~~~~ __4_ I ___ D Fuel Pin Cell Pin Pitch = 1.25984 cm (8) Guide Tube O Instrument Tube Note: Assembly outer dimension Is less than 17 times the pin pitch. The outernost cells (except corners) are rectangular and not square like the other cells f Delted: OA I o
.N
- -{Deeted: February I
-.-- ,, - Deted: 233 I ~~~~
B o000000-01717-5705 0006.4 REV l 7 April 14, 1998
I FIgure 2-4. Axial Dimensions by Region for 17 17 STD,Fuel Assembly - { Delted: STD I v = 437.873 cm Realon 1: 30.0cm Upper Reactor Internals
-4 - = 407.873 cm Realon 2: 15.506 cm Upper End Fittina
-- v = 392.367 cm Upper Fuel Plenum and Realon 3: 14.656 cm Uoter End Snacer Grid v 377.711 cm
-I Intermediate Spacer Grid v = 338.760 cm y286.563 cm v
...._, ...__._._ Snancr IntarmadlatA ___w. GrId
- y 234366 cm Realon 4: Intermediate SDacer Grid Active Fuel 365.76 cm vy182.169 cm Intermediate Spacer Grid Intrmelate Snacer fGrl v 129.972 cm Intermedlate Sacer Grid 1 v 77.775 cm
-L-Realon 5: 11.951 cm Lower End Spacer Grid Lower Fuel Plenum and End Fittina v 15.723 cm V 11.951 cm
-= v=0.0cm Realon 6: 30.0 cm Lower Reactor Internals v -30.0 cm Deleted: CIA Dekted: February
-- -- - - - - - - --- -- - --- -- -Deted233 I BOOOOOOOO-01717-5705.00064 REV 01 8 April 14, 1998
Figures 2-5 through 2-7provide axial dimensions for the guide tube tube, and fuel - Deleted: 8 pins shown in Figure 2-3,fgr the Westinghouse 17 x 17 standardfuel assembly. Jigures2 - Deleted: 10 l through 2-1 lprovide axial dimensions for rod cluster control assemblies (RCCAs th rods at Deleted: foriMe estingbouse 17x 17 0% withdrawn, pyrex burnable poison rod assemblies (BPRAs), ,wet annularburnable absorber , standard fue assembly (WABA) type BPRAs, and thimble plugs that are attached to BPRAs at empty locations. ; , Deleted: Figues 2-11 dtough 2-13 prvide axial dimesions for te guide tubes, instrumint tube, and fuel pins I Regions 1 and 6, in Figures 24 through 2-1 L are represented as homogenized regions of bown inligure 2-3 for te stainless steel and water. Regions 2, 3, and 5 contain various combinations of guide tubes, assembly. F17 2-14 Ainoug2-16 instrument tube, and fuel rod assemblies (no fuel pellets), as well as other materials (stainless provide xtialdonsifrtheguide 4l tubes instrumant tube, and fuel pins I steel, Incone4 and water). The fraction of guide tubes, instrument tube, and fuel rod assemblies bi in igure 2-4 ft the FraiauAe will be represented explicitly in these regions. (Note: the fuel rod assemblies do not extend to Cogen uels Mark-BW fud _asse region 2.) The other materials will be homogenized within the remaining portions of the regions. Deleted: J The water inside the guide tubes and instrument tube will be represented explicitly within the Deleted: 17 respective tubes. The volume fractions of other materials, by region, for the Westinghouse 17 x Deleted: 20 17 standard fuel assembly are presented in Table 2-3. Deleted: we anular burnable abeosber (WAEA type BPRAs. I Table 2-3. Volume Fractions for Non-Fuel Regions for Non-Control Assemblies TD) - Deleted: 5 i Deleted: 20 Volume Fractions* 'tDeleted: icnel Resion SS Inc Water { Deleted: STD 1 0.1770 0.0 0.8230 2 0.1243 0.0168 0.8589 3 0.0031 0.0264 0.9705 5 0.1625 0.0 0.8375 6 0.1720 0.0 0.8280
- The volume fractions presented exclude the guide tubes, instrument tube, and fuel rod assembly portions of these regions.
Note: Inc = Inconel SS = Stainless Steel The fuel rods are contained in regions 3, 4, and 5. Region 4 is modeled explicitly. Regions 3 and 5 contain various amounts of stainless steel and zircaloy in the fuel rod assembly which represent plenum springs and end caps. In addition, these regions also contain helium and fission gases, as well as the zircaloy cladding. The fuel rod assembly volume fractions for materials in these regions for the Westinghouse 17 x 17 standard fuel assembly are as follows: l Table 24.,TD Fuel Rod Assembly Volume Fractions for Regions 3 and 5 -- Deleted: SD I Fuel Rod Assembly Volume Fractions Region SS Zr aadding* Gas 3 0.0764 0.0513 0.2173 0.6550 5 0.1241 0.1685 0.1898 0.5176
- The zircaloy (Zi') cladding extends from Y = 8.278 cm to Y = 391.615 cm. For all 264 rods, - - Deleted: Zr 13.904 cm length of fuel cladding is included in region 3 and 3.673 cm length of fuel cladding is included in region 5. Deleted: Febr -
Delete _ l B00000000-01717-S70OS00064 REV f 9 April 14, 1998
I ,iure 2-5. Aial Dimensions for Guide Tubes forSTD Fuel Assembly ... - f;w-ted _ ] Deleted: 6TD I Y = 43773 cm - Region 1 Gulde Tube UprReador Iternas 24 per Fuel Asembly _ -I Reglon 2 - Y=398__1Scm Upper End FmiRng Y
- 39267 cm Region 3 Upper b
&End Spacer Qrid Y.m377.711 cm Peglon 4 Active Fuel
____ _ __- Y69.241cm Y. 11.951cm Region 5 LAer Fud Plenwn
-- Y . 6955 m and End FIWng Y . 0.000 cm Region 6 Ler R" I stenl Y . 30000 cm Deleted: CIA
,, Deleted: Februry i
, -- --_ - _ -_ _ _ _ _ ----_ _ _ _-_ _ _ _ _ *-- - -- - - i Deeted: 2W I BOOOOOOO-01717-570540064 REV 01 10 April 14, 1998
I Figure 2-6. Instrument Tube Axial Dimensions for 57D Fuel Assembly- - - t Debied- SiD I Y
- 437A73 cm _ _,
Rglon 1 Ilnstrument TEbe Upper Reeclor hItemals I per Fuel Assembly Y 407573 cm RegOn 2 -- - Y
- 327A97 cm Upper End Fitng Y 392.37 cm Regon 3 Upper Fuel Plenu
&End Specer Grd Y 377.711 cm Reglon 4 Active Fuel Y 11.951 cm -I.
Reg"n Lower Fuel Plenum -- - Ya 654 cm end End FIRIng Y 0.000 cm Reghn 6 Lower Rec hten Y *40.000 cm __ a Dke: As I. Delted: Febuary V- - - - --- - --- - ----- - - - - - - - - - - - - - --- --- - - - - - -- - -- - - :233 I BOOOOOOO-01717-5705-00064 REV SI 11 April 14, 198
I Figure 2-7. Fuel Rod Assembly Axial Dimensions for $TD Fuel Assembly - Deeted: Sd 1~~~~~~~~~~~~~ 1 _-r ReglnI _ _ I Fuel Rod Assembly 264 per Fuel Assembly Regon 2 Upper End Flfng Y- 392.367 cm __,_ - %Y
*qS2S Vwfiwf ,.
.V-Reon 3 Upper Fuel Plen
&End S Grd Ger I Ya377.711cm _I _ _
Region 4 Active Fuel Y a 11.951 cm -- ----- Rgon 5 Y 72136 cm lower Fuel Plnrn nd End FRAna Y 0.000 cm -- _ _ Pagon 6 Ya .00 cm --
, eetd -
,I Deleted: Feb
_--- - -_ _- - - _- - _- _- _- - _- - _- '- - Deleted: 233 I I B00O000000-01717-570S-00064 REV 01 12 April 14, 1998
Figure 2-8,provides axial dimensions for a fully inserted (0% withdrawn) control rod for a STD - Deleted: S uel assembly. -Deleted: Weaingbous 17x17 andard RCCA Materials/Dimensions: Lower cap - stainless steel (diameter = 0.96774 cm) l Cladding - stainless steel (Clad OD = 0.96774 cn4CladID =.87376 cns -- Deleted:, where OD = outer diameter, ID = inner diameter) Deleted: (imc)dia) Delted: Absorber - Ag-In-Cd (diameter = 0.86614 cm) Delted:) Spacer - stainless steel (diameter = 0.8585 cm) Upper plenum/spring area - Volume Fractions: Clad - Stainless Steel = 0.1848 Spring - Inconel = 0.2784 Gas = 0.5368 Upper cap - stainless steel (diameter = 0.96774 cm) Upper stem - stainless steel (diameter = 0.5563 cm) RCCA Volume Fractions: The control rods are represented explicitly in regions 2, 3, and 4. The remainder of materials (excluding fuel rods, instrument tube, and guide tubes) are homogenized in regions 1, 2, and 3. The volume fractions of these materials (including non-RCCA materials) for RCCAs with rods at I0O9withdrawn (WD) are given in Table 2-5. - Deleted: % Table 2-5, Volume Fractions for SM Assemblies with RCCAs (0% Withdrawn) - Deleted: 5 for Regons 1--3-. ---- Deleted:. Volume Fractions (Rods 0% WD) Region SS Inc Water 1 0.1907 0.0035 0.8058 2 0.1444 0.0218 0.8338 3* 0.0031 0.0264 0.9705
- Region 3 volume fractions are the same as for non-control assemblies (Table 2-3).
Deleted: For fully withdrawn control rods (100%,withdrawn) the volume fractions presented in Table 2-3
- a C
(for STD non-control assemblies) should be used. ,Dted: February
, .- ,, -- Deleted: 233i B000000-01717-5705S00064 REV 01 13 April 14, 1998
Deleted: 8 Figure 2-f. Axial Dimensions for RCCAs (Rods 0% Withdrawn) for ST, I ,Fuel Assembly, Deleted: . Deleted: % Deleted: WesUghboue 17x7 Standard Fufly Inseted Deleted: Y = 437.B73 cm Control Rc I.Deleted: y Region 1 24 per Fuel Amsenbly Upper Reactor en Y a 407.873 cm Region 2
------ Y = 404.960cm Y
- 400.652 cm Y a 392.367 cm Upper End Fllting II Yac77.711 cm _
Region S Upper Fuel Plenum
&End Spacer Grid
-. a Y = 89.712 an Y
- 378.981 cm 377.711man A
B S 0 R B Region 4 E R Active Fuel R E G I 0 N Ysc 17.031 cm Y = 15.161 cm YC 11.951 cm Region 5 Lower Fuel Plenum IIf s-end End Fiting Ya 000 cm Region 6 Ler Reactor ernals Y
- 90.000 cm
.Deleted: CA Deted: Februry -w
__ _ _ . ---- . _ -- , , - e te:233 BOOOOOOO-01717-5705-00064 EV 01 14 April 14, 1998
Figure 2-9 provides axial dimensions for the pyrex burnable absorber rod assembly. Figure2-10 provides axial dimensionsfor the wet annularburnable absorber(WABA) rod assembly. lliese -- - Deleted: le dimensios ae applicable for a SMh. OFA, cc hMBW dimensions are applicablefor the STD fuel assembly. i foi aeb . l Pyrex BPRA Materials/Dimensions: Lower cap - stainless steel (diameter = 0.96774 cm) Cladding - stainless steel Outer tube - OD = 0.96774 cm, ID = 0.87376 cm Inner tube - OD = 0.46101 cm, ID = 0.42799 cm Absorber - B2 03-SiO 2 Pyrex tube - OD = 0.85344 cm, ID = 0.48260 cm Upper plenum region - stainless steel clad (outer tube), helium gas in annulus Upper cap - stainless steel (diameter = 0.96774 cm) Upper stem - stainless steel (diameter = 0.54356 cm) WTABA Materials/Dimensions- - Deleted: WABA Lower cap - zircaloy (OD = 0.96774 cm, ID = 0.254 cm) Low cap - zizcaloy (OD 0.96774 Water annulus (diameter = 0.254 cm) . cmM~~~~~~~~~~~~~~~~~~~~. Waft nuluss (erd.M
- 0cmil 0254 cm)1 Cladding - zircaloy Outer tube - OD = 0.96774 cm, ID = 0.8357cm ciing 7saby Outambe- OD Inner tube - OD = 0.6782 cm, ID = 0.5715 cm - 0.96774 cm. ID- 0.8357 cal Ier tube - OD *0.6782 cm, ID, 0.5715 cal Absorber - B4C-AI 2 03 WABA - OD = 0.8077 cm, ID = 0.7061 cm I Helium in gap between absorberand cladding Absofber -BC-A120 3 WAA - 0D 0.8077 cm MD - 0.7061 cmal
.... Helium in Sa between absorter Water annulus - diameter= 0.5715 cm and claddini I
Waer anulus - diameter -*0.5715 cml Upperplenum region - zircaloy clad OD = 0.96774 cm, Volume Fractions: zircaloy = 0.3967 ¶ plummeg-abeloyclad01 Water = 0.6033 09774cm, Volume Pacions Zircaloy - 0.3967 Upper cap - zircaloy (diameter = 0.96774 cm) War -0.6031 Upper cap - ialoy (diameter - 0.9674 cm)! Upper stem - zircaloy (diameter = 0.54356 cm) I Upper gem - ziloy (dier 0.54356 cmn j Deleted: CIA Deleted: Febrqal
-- .- __- Delted: 233 l BOOOOOOOO-01717-570500064 REV 01 15 April 14,1998
BPRA Volume Fractions: The burnable poison and other materials inside the guide tubes are represented explicitly through region 3 and into region 2. This includes most of the upper end cap. The BPRA upper structure (beyond the end cap) is homogenized with the other assembly components within region 2. The volume fractions of these materials (including non-BPRA materials) are given in Tables 2-. For Deleted: I IHzugh 2-13. F a given assembly tpe (SMD, OFA. or MBW) STD fuel assemblies the volume fractions are tie same for both Pyrex and WABA. There are 24 the Voltume wacuIs are the same for locations (guide tubes) for rod insertion in the fuel assembly. The number of burnable poison both Pymen ad WABA. rods varies from 8,to 24 among the BPRAs for cycleq I through 3 of Sequoyah 2. A thimble Deleted: 4 plug (Figure 2-,!) is used for any empty location where a burnable poison (BP) rod is not Deleted: s I hugh 7 installed. Deleted: 11 Table 2-. Volume Fractions for STh Fuel Assemblies with WABA or Pyrex BPRAs, _ - - Deleted: - I for Regions 2 - 3 V-lum- RODpfinnc A. Region Ss Inc Water 2 0.1649 0.0228 0.8123 3* 0.0031 0.0264 0.9705 l
- Region 3 volume fractions are the same as for non-control assemblies (Table 2-3).
, Deleted: CIA
,, Delted: Febn
, - Deleted:
B000000w01717-5705S00064 REV 01 16 April 14, 1998
I Figure 2-9. Axial Dimensions for Pyrex BPRAs for,$TD Fuel Assembly -- Dewted: S. OFA, mw ) Pyrnx Y 437873 cm _ _ Burnable Poison Rod Regon I up to 24 per Fuel Assembly Y
- 47873 cm _ _I Upper Rectr Innas Region 2 I YE 401A.88cm
<pwae YE 398.708 cm Upper End Flting _____
Y 396.735 cm Y = 392.367 an Region 3 Upper Fuel Plentun Prn
&End Spacer Grld Y = 377.711 an
--- --- 4- Y -376A4 cm A
B S 0 R B Region 4 E R Active Fuel R E G I 0 N Y = 1761 cm Y a 13863 cm Y I1151 cm RegIon 5 Lower Fuel Plenum La- Cap rh and End Flung Y 0000 cm RegIon 6 Lower Reactor hnteals Y
- 30.000 an - -
Delted: CIA
. Deleted: Febry
_ _ _ _ _ _1 _ __
,_ _----------------------------------- , , _ - Deleted: 233 I B00000000-01717-S7054M" REV 1 17 Aprl14,1998
I Figure 2-10. Axial Dimensions for WABA BPRAs for 8TD Fuel Assembly - - - l Deleted: SID, OFA, and MIUW I WABA Y
- 437.873 cm - - Burnable Poison Rod Y = 437.873 cm Region I up to 24 per Fuel Assembly Upper Reactor Internals Y 407.873 cm -- Relo--___---__.-- Y*40.88c Y
- 407.873 cm Y 401.688cm Reg~on 2 Lko- - Y z 398.708cam Upper End Fdft _ __ _ _.- Y
- 398.73 cn Y 392.367 cm - - R S Y 395cm Y = 392.367 cm Upper Fuel Plenum
&End Spacer Grid Y 377.711 cm - _______ Y 377.711 cm
_______. A - Y 365.011 cm A B 0 R B Region 4 E R Active Fuel R E G 0 N Y- 24.651 cm
------- Y 22.873 cm Y= 11.951 cm -- Region Y- 11.951cm Lower Fuel Plenum Lowwqvflgbn Y a 0.000 cm -- and End Fitting Y= 0000 cm Region 6 Lower Reactor Istemals Y -30.000em -c- . Y a -30.000 cm Deleted:
Deleted: MA Deleted: Februry Deleted: 233 l BOOOOOOC-01717-5705-00064 REV 01 18 Apr 14, 1998
Figure 2-11. Axial Dimensionis for ThimblePlug for STD Fuel Assembl4y.. - Deleted: --.----- Page Break --. ---- Thimble Plug Y = 437.873cm for Empty BP Locations jhm Upper Reactor InMteras
\
tW~bW Y z 4059cm Y = 40Y7.87cm Region 2 ----- -- Yu398.708 cm Upper End Fling Y= 397.288can Y . 392.387cm Region 3 Upper Fuel Plenurn
& End Spacer Grid ------- - V.=383315 cm YV=377.711 cm Region 4 Active Fuel V.C 11.851 cm -- I ReglonS Lower Fuel Plenum and End Mling Y. 0.00cmn Region 6 Lower ReacWo leternals Y.W -30.000 cm I Deeted: C
, eee:Febw 4/Deleted: 233 I BOOOOOOOO-01717-57OS-00064 REV 1 BO9COOOOO-01 7 7-57 0S0 00 6 4 EV 0 11 A p ril 14 , 199
Thimble Plug Materials/Dimensions: Thimble plug - stainless steel (diameter = 1.08204 cm) Thimble neck - stainless steel (diameter = 0.4826 cm) Upper head - stainless steel (diameter = 0.96774 cm) Upper stem - stainless steel (diameter = 0.54356 cm) Deleted: CIA
, Deleted: February
_ _._._ _, -I,,: - iDeleted: 233 I BOOOOOOOO-01717-705-00064 REV 01 20 April 14, 1998
3.0 FUEL CYCLE DESIGN INFORMATION This section provides fuel assembly design data for cycles 1jrough 3 of the Sequoyah Unit 2 -- Deleted: Ouwgh 7 reactor.,Material and geometry data for the fuel assembly components along with cycle length - - DeFted: d assembly design daa for data are presented in Section 3.1. The f uel assembly locations for each cycle, fuel enrichmentsltckswbepmvidedina and number of burnable absorber rods for each assembly, and control rod bank locations are - e-eed:I presented in Section 3.2. 3.1 Fuel Batch Data Material and geometry data for each fresh fuel batch present in cycles 1-3 are given in Table 3-1. lIbis includes the cycle in which the fuel wasfirst loaded, the fuel assembly type, the enrichment I
- -- Deleted:
and kilograms of uranium in each fuel assembly (by batch), the diameter of the fuel pellets, Ihe - Deleted: the BPRA qpe. BPRA type, and the type of fuel assembly grid material. The radial dimensions of the fuel clad, instrument tube, and guide tube are also presented. In addition, material and radial dimensions for RCCAs and BPRAs are provided. This data should be used in modeling each fuel assembly type for burnup calculations and the reactor criticality calculations for the statepoints defined in Table 3-2. The length of each fuel cycle, expressed as effective-full-power-days (EFPD), is provided in Table 3-2. The time during each cycle where statepoint criticality data was measured is also presented. Deleted: CIA
.Deted: Febnary
,T.Deleted:233 IB0000000001717-570 00064 REV 0I 21 April 14, 1998
l Table 3-1. Fuel Assembly/Pin/Cycle Description for Cycles 1-3 Deleted: % Fresh Deleted: 2. 4. OFA 3204 .424.28. 0.784352 09144 Fuel Assembly wt% kgU/ _ - Pellet FP Clad FP aad FA Grid BPRA 0 0.80010.Zircaloy Pyreix
,Zoe Batch Tvm. U235 Assemblv OD (cm) OD (cm) I Maial T 3 5.
1 1 STD 2.10 458.88 0.81915 0.94996 0.83566 Inconel Pyrex OFA 3.204 . 424.39 0.784352 0.9144 2 STD 2.60 458.88 0.81915 0.94996 0.83566 Inconel Pyrex 0 .o0ooio.Zi maoy. Ppex
- 4. 6A.
3 STD 3.10 458.88 0.81915 0.94996 0.83566 Inconel Pyrex OFA- 3.20 423.12 0.784352.091440 ________________4___ STD 3.50 458.97 0.81915 0.94996 0.83566 Inconel WABA 0.8010 Zircaloy Pyrexj 3 5A STD 3.80 461.50 0.81915 0.94996 0.83566 Inconel WABA .6B SB STD 3.60 460.71 0.81915 0.94996 0.83566 Inconel WABA OFA .3A0. 423.12 0.784352. 0.91440 0.8O10. Zroy Fyrx 5 .7A FP - Fuel Pin; FA -Fuel Assembly;,BPRA -Burnable Poison RodAssembly- - OFA. 3A0 423.12 0.7S4352.0.91440
,OP-uter iameter ID - inner diameter *0.S0010. Zhcaloy. WABA¶
.7B.
Description Material OD ID--cm) -cm) '-- OFA- 3.60 423.12 0.784352 .091440 Instrument Tube ircaloy 1.22428 1.14300 0SO010. Zcaloy. WABA 7C .MKBW . 2.92. 456.20 0.S11530
.0.94996 0.2S04 -Zkcaloy. WABAJ Guide Tube (Upper Region) ircaloy 122428 1.14300 6. S.
(Lower Region) ialoy .08966 100838 OFA- 3.60 .423.12 .0.784352.0.91440 0.80010 . Zkealoy .WABA¶
- 7. 9.
OFA- 3.75 .423.12 .0.7S4352 . 0.91440 RCCAs 0.S010 Zwaloy WABA Pellet Matrial Ag-In-Cd Deleted: BPRA - Burnable Poisn Rod rstilnfP
- ll~tM~tsulc A nqf ln(f SIC r"A' f'ICs ".,
JOMOU A'), UIflJ.V W), LAMJ70)J ,II1; 1,..Assembly Pellet Density 10.16 glcc I.;,%i t Deleted: OD
.I Pellet OD 0.86614 cm ttl Clad Material Deleted: Ammblyl SS304 "ti t1" ,Desription --
Clad OD 0.96774 cm Clad D 0.87376 cm i Deleted: Z Deleted: Z BPRAs (Annular) Prex WABA _-_-_ - _-_-_--_- Deleted z ----------- q1aterial B-0-S-O-- B1C.AIO 3 - -. Boron Loading 12.S wt% B2 03 14.0 wt% B4C Deleted: IABA 0.00624 g/cm (B-10) 0.006165 g/cm (B-10) '(Deleted: Absorber OD 0.85344 cm 08077 cD : Absorber ID 0.48260c 0.7061 cm Siet B4C-AI12 . Clad Material ,5S304 zircaloy Boron ading 12.5 %B2 0 Outer Clad OD 0.96774 cm 0.96774 cn 14.OtB 4 C. .1 Outer Clad ID 0.87376 cm 0.83570 cm 0.0D624 gcm (B-I 10). 0.006165 Inner Clad OD 0.46101 cm 0.67820cm Abxnbw OD 0.5344 cm . 0.077 Inner Clad ID 0.42799 cm 0.57150cm C1l Absoder ID .0.4S260 cm . .0.7061 Carl Clad Ma . SS304 Thcalyl Outer Clad OD .096774 cm. 0.96774 cml Outer Clad ID. QS7376 cm. 0.83570 cml bnerCladOD . 0A6101 cm. .0.67820m Inne Clad ID . 0A2799 cm.. 0.57150 cm Deleted: CIA Deleted: Februmry I __ Deleted: 233 I BOOOOOOOO-01717-5705-00064 REV 01 22 April 14, 1998
Table 3-2. Cycle Length and Time During Cycle Statepoint Data Measured for Cycles 1-3 Deleted: 1 Deleted: Included in these figues are End-of-Cycle Statepoint Time of Measurement the location of the fuel asemblics in the cunnot cycle, dC location in apevious Cycle EFPD Number* EFPD I cycle (if applicable), he cycle that the
, fuel was frst inserted, id the f batch II 1,
number for each fuel assembly. 1 389.3 SP36 0.0 a' Deleted: 2 297.0 Deleted: 9.10.12.16.or i, I Deleted: is
;4 3 377.3 SP37 0.0 Deleted: 2 Deleted: Each fuel assembly is given a SP38 210.9 aal ala unique alpha-numnric designation which is then used in tacking the fud assembly through its entire period of operation.
- The unique statepoint numbers SP36, SP37, and SP38 are assigned to Sequoyah Unit 2 data. This includes both the time that each fuel assembly was in he reactor duning reactor operation (Le., producing power) 3.2 Fuel Assembly Data a'!" and te time spent in anon-power producing mode (e g.. in the reactor ding shutdown or in the spent fuel The fuel assembly loadings for each cycler presented n Figures3-1through3-3.A one-eighth 'a' POOD.'
I core representation is used, where the fuel assembly at the center of the core is in location H8. ' starting with the letter A for cycle 1 each included in thesefigures are the location of the fuel assemblies in the currentcycle, the location .,,;, subsequent cycle is assigned a unique leuer designation (B for cycle 2, C for in a previous cycle (if applicable), the cycle that the fuel was first inserted, and the fuel batch aas cycle 3 to for cycle 7). h addition. numberfor each fuel assembly The enrichment of U-235 (by batch), the locations of BPRAs, each One-eghth core location is signed a unique number. As noted in Table 2-2, and number of burnable poison (BP) rods in each, and the location of the various control rod aI the Mcauire Unit 1 reactor contains 193 banks are also presented. The fuel assemblies with BPRAs may contain different number of BP 'i' fuel assemblies. Assuming eighth ce symmetry reduces this number to 31 fud rods (i.e., 8 to,24 BP rods). The location of these BP rods in a fuel assembl along with the assemblies represnted. Tus, the orientation of the assembly in the reactor core arepresented in Fgure 3-4, assemblies are numbered 1 through 31. Starting at the center of the cte location HS is number 1. Numbers 2 through 8 oach fuel assembly is given a unique alphanumericdesignation which is then used in tracking re assigned to locations 08 though AS. Proceeding from lft to right (then down). the fuel assembly through its entireperiod of operation. This includes both the time that each number 9 is assigned to location 0. fuel assembly was in the reactorduring reactoroperation (i.e., producingpower) and the time number 15 to location A9. number 16 to location O, number 22 to location Ell. spent in a non-powerproducing mode (e.g., in the reactorduringshutdown or in the spentfuel etc. to number 31 being assigned to pool). location B13.1 I Using this nornclasue. the assemblies Startingwith the letter A for cycle 1, each subsequent cycle is assigneda unique letter in cycle I are labeled Al (for H8) through A31 (forB13). For subsequent designation (B for cycle 2, Cfor cycle 3). In addition, each one-eighth core location is assigned cycles, acomplete et of labels is not a unique number. As noted in Table 2-2, the Sequoyah Unit 2 reactorcontains 193 fuel required since acombination of bumned and fresh fud is used. From Fgure 3-9 it assemblies. Assuming eighth core symmetry reduces this number to 31 fuel assemblies is wen that the first fesh fuel assembly represented. Thus, the assemblies are numbered 1 through 31. Starting at the center of the core, encountered in cycle 2 is in loaion AS. Thus, the cycle 2 labeling for new fuel location H8 is number 1. Numbers 2 through 8 are assignedto locations G8 through A8. starts with assembly BE. Figures 3-9 Proceedingfrom left to right(then down), number 9 is assignedto location G9, number 15 to through 3-15 were constructed by applying this nomenclature to the fuel location A9, number 16 to location FIO, number 22 to locationEl , etc., to number 31 being assembly location data given in Figures assigned to location B13. 3-I through 3-7. Note that the nomeclature accommodates the .. , Using this nomenclature, the assemblies in cycle I are labeledAl (for H8) through A31 (for eleea: CiA II B13). For subsequent cycles, a complete set of labels is not requiredsince a combination of Deleted: Februar
,_ - -_- - - - - - - - - _ __ _ - _ __ - __ _- - - __ _ __ ____ - y, . . '_- IDeleted: 233 I BOOOOOOOO-01717-57OS40064 REV 1 23 Apri 14,1998
burned andfresh fuel is used. From Figure3-6 it is seen that thefirstfreshfuel assembly encountered in cycle 2 is in location B9. Thus, the cycle 2 labelingfor new fuel startswith assembly B14. Figures3-5 through 3-7 were constructedby applying this nomenclature to the fuel assembly location data given in Figures3-1 through 3-3. Note that the nomenclature accommodates the shuffling of symmetric components offuel assemblies to two separate locations in the one-eighth core representation. This is seen in Figure 3-6 where assembly A21 from core locationAJO (representing8 fuel assemblies in the core) in cycle I was shuffledfor cycle 2 to core locationsC8 and G8 (each representing4 fuel assemblies in the core). The assembly representedat location G8 was then given the identificationA21a. FromFigure 3-7, it is seen that one-eighth core symmet is not maintained in cycle 3. Fuel -- Deleted: Fxi 194amn3-7, it is seen
- - - _y -----------------
in cycle 3 come from ---------- Om~~~~~~~~~~~~~tha one-cighth cmrs:Vmmdy is not assemblies in one-eighth core symmetric locations C9 and G13 locations mtaidi cyc 3. Pcd assemblies in EJO and G8 respectively in cycle 2, which are not one-eighth core symmetric locations. In one-eighth cm tic locations C9 uMrfiom locations addition, these assemblies started in cycle I in locations All and A10, which are also non-one- E and 08 espece Iy in cycle 2. eighth core symmetric locations. Similarly, fuel assemblies in locations B13 and C14 come from wcheot o-e4 ith cms symmetric locations. Inadb o , these assemblies locations C12 and E9 in cycle 2, which are not one-eighth core symmetric locations. Thus, a full din c I l cations Al and core representationshould be analyzedfor cycle 3 (SP37 and SP38). AlO, which are also aon-OW -eighth coe symboltic locatons- Thus, a full core be analyzed for cycle 3 (SP37 and SP Delted: CIA Dte:Febuay I OOOO001717-705-00064 REV 0l 24 April 14,1998
,Figure 3-1. Cycle I One-Eighth Core Loadingfor Sequoyah Unit 2 - Deleted: Igure3-L Cydelone- I (Note: Thisfigure was changedfrom REV 00) Et Core dig lor e H G F E D C B A 8 F(1) F(1) lff1) F(1) F(1) F(1) F(1) F(1) 1 1 3 9 F(1) l F(1) l F(I) l F(1) l F(1) F(1) F(1) 2 1 3 LLLL.LL 10 F(1) F(1) F(1) F(1) F(1) F(1)
I1 3 11 F(1) F(1) F(1) F(1) F( ) I1 2 1 2 1 3 12 F(1) F1) F(1) 3 13 F(1) F(1) 3 3 CR
- Previous FA position ColumnlRow (C/R) -1/8th Core F Cycle FAwas Fresh (F)
BI , Fuel Batch (B) I BPRA Loading I Number Wt% Fuel Assembly BP Rodsl Cycle Batch U-235 Location Assembly 1 1 2.10 B11, B13 9 2 2.60 AS, A10 10 3 3.10 G8, B9 12 D9, C10, D11, C12 16 E8,C8,F9,E10 20 Control Rod Core Bank Location CA F8 CB B1O CC B8, F10 CD H8,D8, D12 f Deleted: CiA I
.)
Deleted: February ___ ___ ____ , _ __ , _ Deleted: 233 B00000001717-570S-OO064REV 01 25 April14, 1998
Figure3-2. ccle 2 One-Eighth Core Loadin~gfor Se uoya Unit 2 - - Deleted: Fgure3-2. Lde20 ne I (Note: This figure was added to REV 01) Iunit f H G F E D C B A
- I - Y - Y- V. - - t -
I B10 AI B9 AB C12 A10 B10 CS 8 F(1) F(1) F(1) F(1) F(l) F(1) F(l) F(1) I 3 2 3 2 3 1 2
-I B9 A9 B12 C10 E10 9 F(l) F(1) F(1) F(1) F(1) F(2) F(2) 2 3 3 2 2 4 4 C12 All F9 D9 10 F(1) F(l) F(1) F(2) F(1) F(2) 2 3 2 4 2 4 ES B13 DI1 11 F(1) F(1) F(1) F(2) F(2) 2 3 2 4 4 C13 B11 12 F(1) F(1) F(2) 3 2 4
-I-'-
13 F(2) F(2) 4 4 cR = Prevous FA position ColumnlRow (C/R) - 118th Core [IB] F = Cycle FA was Fresh (F)
= Fuel Batch (B) I BPRA Loading Number Fuel Assembly BP Rods/
Cycle Batch U-235 Location Assembly 3 1 2.10 B9, C13 8 2 2.60 B11, CIO 12 3 3.10 4 3.50 Control Rod Core Bank Location CA FS8 CB BI B8, FI CD H8, D8 D12 E I Dekted: aA I
, I Deleted: Februy T- - - - --- - - - - --- - - - - - - - - ----- - - --- - --- ---- --- --- - - -- __4-- Dekted: 233 IB0000040-1717-S-00064 REV 01 26 April 14, 1998
,Figure3-3. Cycle 3 One-Eighth Core adingforSequoyah Unit 2 -- Deleted: FIgure3- Cydee 1 (Note: This figure was added to REV 01) E ht Co eorGUre H G F E D C B A aIEIO C13 AS CB F(1) F(3) F(2) F(3) F(1) F(3) F(l) F(3)
I3 5B 4 5B 2 Ss 3 5B D12 B11 B9 B12 E1O* 9 F(1) F(2) F(2) F(2) F(1) F(3) F(3) 3 4 4 4 3 5A 5A E8 F9 DI 10 F(1) F(3) F(1) F(3) F(1) F(3) 3 5B 3 SA 3 5A E9 A9 CIO B13 11 F(1) F(2) F(2) F(3) F(2) 3 4 4 SA 4 C12 A10 All 12 F(1) F(2) F(2) 2 4 4
- ~~~~ -.
C12A En SF(l) 13 F(3) 5B E9A F(l) 2
- Not one-elghth core symmetric 14 F(l)
A Not one-elghth core symmetric 3 CR = Previous FA position Column/Row (CM) - 1/8th Core F = Cycle FA was Fresh (F) 1B1 = Fuel Batch (B) I I BPRA Loading Number WmA Fuel Assembly BP Rods/ Cycle Batch U-25 Location Assembly 3 2 2.60 B11 8 3 3.10 CS, E0 12 4 3.50 B9, G8 16 5A 3.80 C10 20 5B 3.60 E8 24 Control Rod Core Bank Location CA FS CB B1O CC B8, F0 CD H, D8 lDelted: CIA D12 , Deleted: February T-- --- ------- --- - - - - - - - - - - - - - - -----..--- - - - - - - - - - -- T - - - - - I I BOOOOOOOO-01717-570.540064 REV 1 27 April 14, 1998
Figure3-4 Burnable Poison Rod Locations within a Fuel Assembly I (Note: This figure was changedforREV 01) 24 Guide Tubes and 1 _mtruineut Tube 20 Burnable Poison Rods 16 Burnable Poison Rods 10 Burnable Poison Rods 9 Burnable Pelson Rod 12 Burnable Poison Rods (BP toward core center) (BP toward core center) 8 Burnable Poison Rods 24 Burnable Poison Rods Guide Tube Instrument Tube Burnable Poison Rod 0 0 0 l Deleted: CIA
. tIDeted: Febry
' - ' ' -i.Dekted:
2/~~~~~~~~~~~~~~~~~I 23 BOOOOOOO-01717-5705-00064 REV 01 28 April 14, 1998
,Figure 3-5. Cycle I FuelAssembly dention & Locations for Sequoyah2 - Deleted: Figure34. rable Waoon Rod Loadons within a Fuel (Note: This figure was added to REV 0)) -emblyFugure4 . Cyde 4 One-Eighth Core Loading for McGuire unit H G IF E D C B A f ~ ~ Cdlul 1~~~
forM~~~~~~~Gu~~~re 8 Al A2 A3 A4 A5 A6 A7 A8
- I 9 A9 AlO All A12 A13 A14 A15 10 A16 A17 A18 A19 A20 A21 11 A22 A23 A24 A25 A26 12 A27 A28 A29 13 A30 A31 A Cycle 1 B Cycle 2 C Cycle 3 4 eee:CLK Deed: February
-- leted: 233 I BOOOOOOOO-01717-5705-00064 REV 01 29 April 14, 1998
Figure 3-6. le2FuelAssenblyIdentficatin& locaionsfor Sequoyah 2 -- Deleted: Figure3-1O. Cyde2 Fad (No: Thisfgre was added to REV 01) [-- meblyIndfadm&IAmdo H G F E D C B A a A20 A21a A14 AB A28 A21 A20a A6 I. 9 A14a A15 A29 A19 A17 B14 B15 10 A28a A26 A10 B19 A12 B21 11 A4 A31 A23 B25 B26 12 A30 A25 B29 13 B30 B31 A Cycle 1 B Cycle 2 C Cycle 3 Debeted: C1A
,4Deeted: Febr7
- ----- --- - - -- - -- Deted: 233 I BOOOOOOOO-01717-5705-00064 REV 01 30 April14, 1998
Figue 3-7. Cyck3 Fuel AssemblyIvdenqtfictlo & Locations for Sequoyah 2 - - Deleted: Fge=-IL qde nd I (Note: This figure was added to Rv re to01) 01) REV *e I ~~~~~~~~~~~~~for McGuire 1
&e1OSOL H G F E D C B A 8 A26 C2 B30 C4 A6 C6 A21 C8 9 A30 B25 B14 B29 A26a- C14 C15 10 At C17 A15 C19 A31 C21 11 A29 B15 B19 C25 B31 12 A25 B21 B26
- I. - .6-13 C30 A25aA 14 A29aA
- Not one-eighth core symmetric A Not one-eighth core symmetric A Cyle 1 B Cye 2 C Cycle 3 Deleted: CILA
,,I Deleted: February l T-- - - - - - - - - - - - - - - - - - - - - - - --- - --- - -- - - - - - - -!. -- - -1 -- Deleted: 233 BOOOOOOO-01717-570500064 REV 01 31 Apr 14, 1998
,To aidin the burnup calculations, and thus the generationof isotopi datafor the stat oint Deleted: Figure 3-12. Ccle 4 Fuel Asembly Identiftcation &Locations calculations, the informationprovided in Figures3-1 through 3-7 was reduced to two tables. for McGuire To aid in the bumup Table 3-3 traces each fuel assembly (and subsequent split by shuffling symmetric components to calculations, and thus the generation of isotopic data for the statepoint more than one location, if applicable), by assembly identification and cycle, from the time the caulations, the information provided in assembly wasfirst inserted in the reactorthrough cycle 3. Those assemblies which splitfor a Figures 3-1 through 3-15 was reduced to two tables. Table 3-3 traces each fad subsequent cycle (i.e., with an "a " designator)carrya hyphen ( - ) designatorin the cycle assembly (and subsequent split by column to indicate those cycles where the assembliesare presentpriorto the split. This will aid shuffling symmetric compnents to more than one location, if applicabk) by the burnup calculationprocess by indicatingwhere redundantdata generationis not required. assembly identification (ID) and cycle Note that only thosefuel assemblies which contribute to the statepoint calculationsin cycle 3 are from the time the assembly was first inserted in the reactor to either cycle 6 or included in this table. These are the fuel assemblies that require burnup calculations. The cycle 7. Those assemblies which split for location of each assembly in each cycle in indicatedby the coordinatesgiven in thefigures (e.g., a subsequent cyck (Le.. with an "a" or "b"designator) canry a hyphen (- )
H8, B13). designator the cycle colmul to indicate those cycles whe the assemblies ae present prior to the split. This will aid Table 3-4 is a repeat of portions of Table 3-3 where control rod bank insertion and burnable the burnup calculation process by absorberloadings are given for those assemblies that containedcontrol rods or burnable indicating whae redundantdata generation is not required. Note that only absorberrods duringcycle operation. Controlrod insertionand burnable absorber(BA) rods those fd assemblies which contribute to must be modeled in the burnup calculationsfor those assemblies and axial locationswhere the statepoint calculations in cycles 6 or 7 are included in this table. These are the eithertype of rod arepresent. (More data concerning control rod insertion time by axialnode is fue assemblies that require bumup given in Section 4.) The rod bank indicatorCD is given for those assemblies and cycles where calculations. The location of each assembly in each cycle in indicated by rod bank CD was inserted. (This is the only bank insertedduring normal cycle operation.) The the coordinates given in the figures (eg., burnableabsorberloadings are given as the number of burnable absorber(or burnablepoison) H8, B 13).I rods present in the fuel assembly. Forthose cycles where the rod bank or the burnable absorber I Table 3-4 is a epeat of portions of Table rods are not present, the assemblies'presence in the core is indicatedwith an "X". 3-3 where control rod bank insertion and burnable absorber loadings we given for those assemblies thai contained control rods or burnable absorber sods during cycle operation Contol rod insertion and burnable absorber rods must be mudded in the burnup calculations for those assemblies and axial locations whet either type of rodare present. (MIore data conceing control rod insertion time by axial node is given in Section 4.) The rod bank Indicator CD is given for those assemblies and cycles whate rod bank CD was inserted (This is the only bank inserted during normal cycle operation) The burnabl absober loadings we given as the number of burnable absorber (or burnable poison) ods present in the fuel assembly. For those cycles where the rod bank or the burnable absorber tods e not present. the assemblies' presence in the coe is indicated with an '. IDeleted: CA I - eFebr=u
*- ---------- --. -T - _; 4, Del t :233 I WOOOOOOO-01717-VOS-OOM REV 01 32 April 14, 1998
!Table3-3. Fuel Assembly Locations by Cyclefor Burnap Calculations Deleted: Table 3. Fad AebA lr (Note: This table was added to REV 01) lcuatosby de orup Assembly Assembly Location In Cycle NumbedlBatch 1 2 3 Comments 7
________________ ___ _ .Cycle 1 A6/2 C8 AB D8 For cycle3 assemlles A8/3 AS EB F10 Ane andA26aarI A1513 A9 F9 D10 11h corn symmetic A21/3 A10 CS B8 locations, but do not A21a/3 - Gs G13* have 11h corn A25/2 B11 C12 D12 symmetric properties. A25a/2 - - Bi3A A Asenblies A25a and A263 All E10 HS A2 aealso In lh A26a/3 - - C9 cor symmetc A293 B12 E9 El IocatonsIn cycle3, A29a/3 - - C14A but do not have 11h A3013 C13 D12 G9 cornymmetc A31/3 B13 Dl B10 Properties. ___ __ __ Cycle 2 B14/4 B9 E9 B15/4 A9 Dli B1914 Clo C1l B21/4 A10 C12 B2514 B1l F9 B26/4 All B12 B29/4 B12 D9 B30/4 C13 F8 B31/4 B13 All _ __ __ __ __ __ _ __ __ __ _ _ _ Cycle 3 C215B G8 Based on above comment 04/5B ES for cycle 1 and C6/5B CS le3statepolats should CB/5 AS be analyzed wIth full corn C14/5A . 89 geomeby. C15/5A . A9 C17/5B E10 C19/5A C10 O C21/5A . A10 C2515A ______ 811 B_____ 0305B C13 1Deleted: CIA Deleted: February
--- .. . . * , d: 233 I BOOOOOOOO-01717-57OS-OOM REV 1 33 April14, 1998
,Table 3-4. ControlRod and BA Loiadingby CyleforBurnup Calculations - - Deleted: Table 3- CentralRd and (Note: This table was added to REV 01)-I AlcadlqbyCydefor rrnup Number of BA Rods or Rod Bank IDO I Assembly Assembly Location hI Cycle Number/Batch 1 2 3 Comments Cycle 1 A6/2 20/C8 X CDIDS A8/3 W/AS X X BA >Pyrox A21/3 IOA0 X X A21a/3 O/A10 X X A2512M 11 X CDID12 A25a2 0B)11 X X A26/3 X X CDIH8
____________ X CDID12 X A3113 01B13 X X Cycle 2 B14/4 81B9 X B1914 12C10 X BA >WABA B25/4 121B11 X B3014 _ _ C13 X Cycle 3 C2/5B 16/G8 C4/5B3 24/E8 BA => WABA C615B 121C8 C14/5A 161B9 C17/5B 12tE10 C19/5A 20/CIO C2515A 8/B11
, Deleted: CIA
- L~~~~~~~~~~~~~~~~~~~~
Deleted: Fbrar I BOOOOOOOO-01717-57OS-00064 REV 1 34 April 14, 1998
4.0 CORE OPERATIONS AND STATEPOINT INFORMATION This section provides core operations data for the burnup calculations required to generate isotopic concentrations for the statepoint evaluations. The measured critical conditions for the statepoints evaluated are also contained in this section. 4.1 Core Follow Data The use of commercial reactor criticality data for model validation requires detailed knowledge of how the reactor was operated for the lifetime of every fuel assembly contributing to the criticality database. This is necessary in order to adequately model the conditions for burnup calculations at each axial location of each fuel assembly represented in the reactor core for each Deleted: bumnup data. Tbese data at presented at axial node locations. The statepoint evaluation. Thus, core follow calculations based on core operation data are used to nodal spacings for the axial nodes are provide local conditions as a function of time to be used for all burnup calculations performed in presented in Table 41. where node 1 represents the top axial node in the support of the statepoint evaluations. In addition, measured global data such as rod insertions reactor core. Tables 4-2 through 4-46 and boron letdown data are also provided. provide axial bmnup profiles for each assembly at each datapoint or spoint along with axial fiel emperattire and The core follow calculations provide three-dimensional thermal-hydraulic (TH) feedback and, _ moeator specific volume distributions used in the burnup calculations between burnup data. These data arepresented ataxialnode locations. The nodal spacingsfor the datapointaor statqoints. The atatepoint axial nodes arepresented in Table 4-1, where node I represents the top axial node in the reactor evaluations for Mceuire I occur at BOL (OEEPD of cycle 1). BOC oftycle 6 (O core. Tables 4-2 through 4-34 provide axial bun up profiles for each assembly at each datapoint EFPD), 624 EEPD of cycle 6, BOC (0 or statepointalong with axialfuel temperature and moderatorspecific volume distributionsused EFPD) of cyce 7. 129.0 EFPD of cycle 7. and 282.3 EFPD of cle 7 Sone of the in the burnup calculationsbetween datapointsor statepoints. The statepointevaluationsfor fued assemblies present in cycle 6 and 7 Sequoyah 2 occurat BOL ( EFPDof cycle 1), BOC of cycle 3 (0 EFPD), and 210.9 EFPD of for the statepoint evaluatiens were initially inserted in the core in cycles 2 3, cycle 3. The modeling offitel assembly operatinghistory for assemblies which were first 4. and 5 No cycle I assemblies appear insertedpriorto cycle 3 requires burnup,fuel temperature, and moderatorspecific volume data in cycles 6 or?. The modeling of fuel assembly operating bistory for assembles for the cycles since the fuel wasfirst insertedinto the core. These data areprovided at which were firs inserted prior to cycles 6 datapointsfor the cycles priorto cycle 3 and at statepointsfor cycle 3. The data is also given by or 7 require brnup fuel temperature, and modeator specific vom data for axial node location. the cycles since the flud was first inserd into the cam These data we provided at datapoins for the cycles prior to cycle 6 Control rod insertion time (by axial node)for each assembly with a control rod inserted during and at statepoints fr cycles 6 and 7. The core operationis provided in Tables 4-35 through 4-38. This data was also obtainedfrom the data is also given by axial node location.1 corefollow calculationsbased on core operationdata. In addition, boron letdown datafor I Control rod insertion time (by axial node) cycles 1, 2, and 3 areprovided in Table 4-39. The data provided in Table 4-39 are coefficients for each assembly with acontrol rod inserted during core operation is provided from a linear regression fit of core operation data for each cycle. in Tables 447 through 4-XL This data was also obtained from. the care follow calculations based on core operation data. In addition, boron ladown data for cycles 2 through 7 w provided in Table 4-YY. Boron letdown data for cycle I is not required since no fed assemblies from cycle I we present for the statepoint calculations in cycles 6 or 7 and no bumup calclations we required for cycle I.
- -Page Break-----------
Deleted: CiA "IIDelet:Febras7 TI-1Deleted: 23 I IBOOOOOOOO-01717-5705-00064 REV 1 35 April 14, 1998
l Jtable 41. Asn~qNode Spacingsfor Sequoyah 2 Burnup CalcuLtions - Deleted: Table 4L Axial Node Spadhy for McGuire 1lurmup Calculations
- Axial Node-- Deleted: .Axial . Node" Node Sgacingfs (cm) 1.22.861 I 22.86 2 22.61 2 22.86 3 22861 4 =M22.8 3 22.86 . 22.861 4 22.86 . 6.226 7 22.8f6 5 22.86 8 .22.86 6 22.86 9. 22.86 7 22.86 11 22.86 8 22.86 . 12 22.86
.13 22.61 9 22.86 14. 22.861 10 22.86 1 .22.861 16 22.86 11 22.86 12 22.86 13 22.86 14 22.86 15 22.86 16 22.86 I Deleted: CIA
. Deleted: Febnary V--------- -- ----- --- - ---. z.- -i-I-I
- 1 D C eIed-3 -1 BOOOOOO001717-S500064 REV'01 36 April 14, 1998
I Table 4-2. Burnup and TH Feedback Parametersby Axial NodeforAssembly A6 / Deleted: Axl . lRump .SP36 So DPI. Bup D to DP2 . Burnup .Dn2 t DP31
,Axtil Burnup SP36toDP] Burnup DPI to DP2 Burnup DP2 to DP3 rK2 DEL. T-Fd . om. _
Node DPI T-Fuel Sec.Vol DP2 T-Fuel Spec. Vl DP3 T-Fuel Spec.Vol Pn . T-Fud Sw-CVo .. 1 2.324 835.5 0.0241 6.422 961.1 0.0242 8.558 820.0 0.0227 2 4.693 1048.9 0.0240 12.057 1159.7 0.0240 15.350 888.1 0.0226 I 2.324. 35.5.0.0241 .6.422 .961.1 3 6.555 1202.1 0.0238 15.680 1226.5 0.0238 19.358 890.8 0.0225 0.0242. 8558 820.0 .0.02271 4 7.810 1296.5 0.0236 17.478 1232.9 0.0235 21.239 879.9 0.0224 5 8.631 1355.0 0.0234 18.293 1211.8 0.0233 22.045 872.0 0.0223 2 4.693.104.9.0.0240.12.057 115 6 9.162 1390.3 0.0232 18.646 1185.6 0.0231 22.372 865.7 0.0222 9.7.0.0240. 15.350 88.1 0.02261 7 9.503 1411.3 0.0229 18.801 1163.0 0.0229 22.508 861.2 0.0221 3 6.555 . 1202.1 0.0238 15.680 122 8 9.715 1424.1 (.0227 18.889 1146.9 0.0227 22.587 858.0 0.0220 6.5 .0.0238 . 19.358 .390.8 0.0225f 9 9.831 1431.4 0.0225 18.971 1138.1 0.0225 22.665 855.4 0.0219 10 9.855 1433.7 0.0223 19.064 1137.4 0.0223 22.758 853.2 0.0218 4 .7.S10.1296.5 0.0236.17A78 123 2.9 . 0.0235 .21.239 . 879.9 .0.02241 11 9.759 1428.4 0.0220 19.46 1145.3 0.0221 22.842 851.3 0.0217 12 9.474 1409.7 0.0218 19.132 1162.1 0.0219 22.830 849.9 0.0216 5 .8.631 . 1355.0.0.0234. 18.293 . 121 13 8.875 1365.7 0.0216 18.797 1184.0 0.0217 22.485 848.8 0.0215 1.8.0.0233 22.045 872.0 0.02231 14 7.765 1277.6 0.0215 17.630 1194.3 0.0216 21.236 845.6 0.0214 6 9.162.1390.3.0.0232. IS.646 118 15 5.879 1120.0 0.0213 14.571 1145.5 0.0214 17.834 837.2 0.0213 5.6 .0.0231 22.372.865.7. 0.0221 16 3.085 857.0 0.0213 8.321 963.9 0.0213 10.455 766.9 0.0213 7 9.503.1411.3.0.0229.18.01.116 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 3.0.0.0229 .2250 .61.2 0.02211 Node SP37 T-Fuel Spec.Vol SP38 T-Fael S-pec. Vol 8 9.715 1424.1.0.0227. 18.889. 114 1 1.026 796.9 0.0228 14.243 831.8 0.0234 6.9.0.0227. 22S57 .858.0.0.02201 2 18.940 845.2 0.0227 24.922 962.8 0.0233 3 23.243 848.6 0.0226 30.319 988.5 0.0231 9 9.831 .1431.4 .0.0225. 18.971 .113 4 25.166 850.4 0.0225 32.671 983.2 0.0229 8.1 0.0225 22.665 .55.4.0.0219 10 9.855. 1433.7 .0.223 . 19.064. 11 5 25.970 853.4 0.0224 33.655 977.0 0.0228 37A .0.0223 .22.758 .853.2.0.02181 6 26.303 857.7 0.0223 34.032 970.9 0.0226 11 .9.759- 1428.4 .0.02. 19.146. 11 7 26.459 862.4 0.0222 34.1 84 964.9 0.0224 45.3 .0.0221.22.842 .851.3 M171 8 26.564 866.6 0.0221 34.258 958.9 0.0223 12 9.474. 1409.7 .OMIS . 19.132. 11 62.1 0.0219.22.830. 49.9 .O161 9 26.671 869.9 0.0220 34.309 952.7 0.0222 13-S.875.1365.7 OM16 .1.797 11 10 26.792 872.3 0.0219 34.352 946.1 0.0220 84.0 .0.0217 .22.485 . 4.8 ..OM151 11 26.908 874.3 0.0218 34.368 939.0 0.0219 14 7.765- 1277.6 OM15 . 17.630 11 12 26.938 877.1 0.0217 34.276 931.3 0.0217 94.3 0.0216.21.236.845.6 OM141 15 5.879 1120.0 .OM13. 14.571 11 13 26.646 881.5 0.0216 33.839 922.8 0.0216 45.5 0.0214. 17.34 .837.2 .OM131 14 25.420 886.3 0.0215 32.417 912.7 0.0215 16 3.085 . 57.0.0.0213 .8.321 .963. 15 21.795 879.6 0.0214 28.340 897.8 0.0214 9 0.0213. 10.455 .7669 .0.02131 16 13.224 820.8 0.0213 17.965 838.0 0.0213 Axial .BDm p . DP3 to SP37. Burnup .SP37 to SP38 ¶ Datapoint Node SP37 .TFvd SweVod or SP8. Tuel .SmweVoI Statevoint EFPD/Cycle Burnup - GWd1MTU SP36 0.0/CyI T-Fuel - F 1 11.026 .796.9 .0.0228 14.243 831 DPI 187.06/ Cyl Spec. VeL -ft'lbm .8 0.02341 DP2 Q0/.Cy2 2 18.940.845.2.0.0227 24.922 962 DP3 145.3/ Cy2
.8 0.02331 SP37 0.0/Cy3 SP38 210.9/Cy3 3 23.243.S48.6.0.0226. 30.319 988
.5 0.02311 4 25.166.850A4.0.0225.32.61 . [31 Deleted: CIA
- Deleted: Februar7
'- - - - - - - - - - - - - - ----- - - - - - - - --- - - - - - - - _. _ _._.f _r_. _-
tDled23 BOOOOOO-01717-570S 00064 REV 01 37 April 14, 1998
I Table 4-3. Burnup and TH Feedback Parametersby Axial Nodefor Assembly AB Aa Burnup SP36 to DP1 Burnup DP1 to DP2 Burnup DP2 to DP3 Node DPI T-Fuel Snec.Vol DP2 T-Fuel Soec.Vol DP3 T-Fuel Spc.Vol 1 1.789 766.6 0.0230 4.866 859.8 0.0231 8.993 1060.0 0.0239 2 3A17 913.3 0.0230 8.617 1003.6 0.0230 14.892 1178.8 0.0237 3 4.631 1020.1 0.0229 10.864 1051.9 0.0228 17.695 1179.7 0.0235 4 5.456 1087.6 0.0228 12.017 1053.6 0.0227 18.731 1147.0 0.0233 5 5.995 1128.9 0.0226 12.560 1039.8 0.0226 19.025 1117.2 0.0231 6 6.343 1153.7 0.0225 12.802 1023.0 0.0224 19.058 1096.3 0.0229 7 6.565 1167.8 0.0223 12.913 1008.1 0.0223 19.024 1082.3 0.0227 8 6.704 1176.2 0.0222 12.980 997.5 0.0222 18.992 1072.5 0.0225 9 6.782 1181.1 0.0221 13.044 992.0 0.0220 18.983 1064.8 0.0223 10 6.799 1182.9 0.0219 13.114 992.1 0.0219 19.003 10584 0.0222 11 6.737 1179.8 0.0218 13.175 998.2 0.0218 19.044 1053.9 0.0220 12 6.550 1167.3 0.0216 13.163 1009.7 0.0217 19.065 1053.7 0.0218 13 6.151 1137.1 0.0215 12.917 1022.9 0.0216 18.923 1060.9 0.0217 14 5.405 1073.5 0.0214 12.082 1026.1 0.0214 18.195 1074.3 0.0215 15 4.125 956.6 0.0213 9.969 989.7 0.0213 15.790 1070.5 0.0214 16 2.179 767.1 0.0213 5.705 839.6 0.0213 9.674 959.8 0.0213 Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Puel Spec.Vol SP38 T-Fuel Svec.Vol 12.975 890.7 0.0238 18.301 935.8 0.0237 2 20.594 949.6 0.0237 28.165 1011.8 0.0236 3 23.801 971.3 0.0236 32.131 1034.5 0.0234 4 24.847 998.6 0.0234 33.462 1038.2 0.0232 5 25.093 1017.5 0.0232 33.837 1035.8 0.0230 6 25.107 1030.6 0.0230 33.905 1031.1 0.0228 7 25.087 10414 0.0228 33.890 1025.4 0.0226 8 25.085 1049.8 0.0227 33.857 1019.3 0.0224 9 25.107 1055.8 0.0225 33.820 1012.9 0.0223 10 25.156 1059.9 0.0223 33.783 1006.2 0.0221 11 25.234 1063.1 0.0221 33.748 998.6 0.0220 12 25.327 1067.8 0.0219 33.694 989.7 0.0218 13 25.323 1077.5 0.0218 33A99 978.5 0.0217 14 24.773 1091.8 0.0216 32.665 962.5 0.0215 15 22.243 1094.8 0.0214 29.498 934.3 0.0214 16 14.378 1005.4 0.0213 19.522 853.5 0.0213 Datapoint or Statevoint EEY / Cycle Burnup - GWd/MTU SP36 0.0/ Cyl T-Fuel - 3 DPi 187.06 / Cyl Spec. Vol. - ft / Ibm DP2 0.0 Cy2 DP3 145.3 / Cy2 SP37 0.0/ Cy3 SP38 210.91 Cy3 Deleted: CIA [Debted: Febrary
,- .,ele - -- , .. - :1 D d:233 bte I B00000000-01717-5705-00064 REVW0 38 April 14, 1998
I Table 4-4. Burnup and TH FeedbackParametersby Axial Nodefor Assembly AS Deleted: Aial .Burup .S36 to DPi. Burup .DPI to DP2 . urmp -DP2 to DP31 4xia Burnup SP36 to DPI Burnup DPI to DP2 - - Pnw!I - DP2 to DP3 Node DPI .TFuel . Dec.Vol._ Node DP] T-Fuel Spec.Vol DP2 T-Fuel Spec.Vol DP3 T-Fuel Spec. Vol DP2 T-Fd -SoeVol _ L-1 1.963 785.9 0.0232 5.273 878.0 0.0231 9.638 106.9 0.0239 Eff Swuv~ 2 3.732 943.9 0.0232 9.221 1019.2 0.0230 15.669 1173.5 0.0237 1 1963 75.90.0232 5.273 87S.0 3 5.032 1054.8 0.0230 11.529 1061.6 0.0229 18.434 1171.2 0.0235 0.0231 .9.638. 1060.9 0.02391 4 5.912 1123.7 0.0229 12.708 1062.6 0.0228 19.458 1138.2 0.0232 5 6.486 1166.0 0.0228 13.264 104Z9 0.0226 19.748 1108.0 0.0230 2 .3.732.943.9.0.0232.9.221 1019. 6 6.857 1191.1 0.0226 13.515 1029.8 0.0225 19.777 1086.7 0.0228 2 .0.0230. 15.669 . 1173.5 0.02371 7 7.095 1205.3 0.0225 13.633 1014.2 0.0223 19.740 1072.3 0.0227 3.5.032.1054.8. 230 11.529 106 8 7.246 1213.9 0.0223 13.708 1003.2 0.0222 19.706 1062.2 0.0225 1.6 O.229. ISA34. 1171.2. O235 9 7333 1219.3 0.0221 13.780 997.5 0.0221 19.699 1054.1 0.0223 10 7.356 1221.8 0.0220 13.858 997.5 0.0220 19.722 1047.5 0.0222 4 .5.912. 1123.7 0.0229 12.70S .106 2.6 0.0228 .19458. 1138.2.0.02321 11 7.296 1219.6 0.0218 13.927 1003.6 0.0218 19.768 1043.0 0.0220 12 7.104 1208.1 0.0217 13.921 1015.6 0.0217 19.798 1042.8 0.0218 5. 6486. 1166.0. 0.0228 13.264. 104 13 6.687 1178.3 0.0215 13.680 1030.3 0.0216 19.663 1049.4 0.0217 7.9 0.0226. 19.748. 1108.0 0.02301 14 5.898 1113.7 0.0214 12.837 1035.2 0.0215 18.930 1062.7 0.0215 6 6.S57 . 1191.1 .0.0226. 13.515 102 15 4.529 993.5 0.0213 10.683 1002.1 0.0213 16.484 1059.5 0.0214 9.8 0.0225 . 19.777. 1086.7. 0.0221 16 2.408 789.5 0.0213 6.206 858.2 0.0213 10.172 951.0 0.0213 7 .7.095 . 1205.3. 0.0225. 13.633. 101 Axal Burzup DP3 to SP37 Burnup SP37 to SP38 4.2.0.0223.19.740. 1072.3.0.02271 Node SP37 T-Fuel Spec. Vol SP38 T-Fuel Spec.Vol 8 .7246. 1213.9. 0223 .13.708. 100 I 13.826 915.1 0.0238 l8.692 904.1 0.0236 3.2 .0.0222. 19.706. 1062.2. 0.02251 2 21.492 976.0 0.0237 28.439 976.4 0.0235 3 24.566 988.1 0.0235 32.296 1001.5 0.0233 9 .7.333 .1219.3 0221 . 13.780 997 4 25.535 998.2 0.0234 33.610 1009.4 0.0231 .5 0221 . 19.699. 1054.1 0.02231 10 .7.356. 1221.8 .0.0220 .13.S58 99 5 25.754 1010.3 0.0232 34.002 1009.2 0.0229 7.5. 0.0220 19.722. 1047.50.0222 6 25.760 1022.5 0.0230 34.094 1006.2 0.0227 11 7.296. 1219.6 .0.0218. 13.927 10 7 25.736 1033.3 0.0228 34.102 1001.9 0.0226 03.6. 0.0218 .19.768 . 1043.0. 0.0220 8 25.732 1041.8 0.0226 34.092 997.1 0.0224 12 7.104. 1208.1 .0.0217. 13.921. 10 15.6 .0.0217. 19.798 1042.8 0.021 St 9 25.754 1047.9 0.0225 34.078 991.9 0.0222 13 6.687. 1178.3 .0.0215 13.680. 10 10 25.804 1051.8 0.0223 34.066 986.2 0.0221 30.3 . 0.0216. 19.663 1049A . 0.02171 11 25.886 1054.9 0.0221 34.055 979.7 0.0219 14.5.898.1113.7 0.0214. 12.837. 10 12 25.984 1059.4 0.0219 34.021 971.5 0.0218 35.2..0215 18.930.1062.7 .0.02151 15 4529 993.5 0.0213. 10.683 100 13 25.984 1068.7 0.0218 33.837 960.6 0.0216 2.1 0.0213 . 16.484 1059.5 .0.02141 14 25.427 1082.8 0.0216 32.995 944.7 0.0215 16. 2.408. 79.5. 0.0213. 6.206 858. 15 22.857 1086.0 0.0214 29.824 916.6 0.0214 2 0.0213 10.172. 951.0. 0.02131 16 14.833 997.3 0.0213 19.824 842.0 0.0213 1 Axl BuRnup DP to SP37.Bmup.SP37IoSP3S I Node. SP37 SocVd -oe Datapoint SP3S T~e .S.Vol I or Statepoint EFPD/ CYcle Burnup - GWddMTV 1 .13.826 915.1 0.023S 1.692 904 SP36 O.O/Cyl T-Fuel - *F .1 0.0236 . .1 DPI 187.06/Cyl Spec. VoL JPt,/ Ibm DP2 0.0/Cy2 2 21A92 .976.0 .0.0237 .28A39 976
.4 .0.235.. .1 DP3 145.3 / Cy2 SP37 0.0/C03 3. 24.566. 9.1. 0.0235 32.296 IOD SP38 210.9/Cy3 1.5.0.0233 .
4.25.535.99.2.0.0234 33.6 ... 4
.1Deleted: CLA I Deleted: Februr V- - - - -, - - - --- ----- - - - .- - - - - - - - - - - - - - - - - - - - - - 3r - t - - - -- Deleted: 233 B000000-01717-5705-00064 REV 01 39 April 14, 1998
I Table 4-5. Burnup and TH Feedback Parametersby Axial Nodefor Assembly A21 Deleted: Axial . urup .SP36 DPI. Burnup.DPI to DP2. Bmruup DP2 to DP31 4xual - Burnu_ SP36 to DPI DPI to DP2 Burnup DP to DP3 N DEL. T S-Vol _-ud Node DPI T-Fuel Sec.Vol DP2 T-Fuel S&ec. Vol DP3 T-Fuel Spec. M .LT-Fed SomaV . DP3 I 1 1.650 749.8 0.0229 4.496 838.3 0.0229 8.227 1038.4 0.0239 2 3.154 885.8 0.0228 7.975 975.6 0.0228 13.715 1157.3 0.0238
- 1. 1.650 .749.8. 0.0229 4A96 838.3 3 4.272 984.7 0.0227 10.057 1023.8 0.0227 16.425 1170.2 0.0235 .0.0229. .227 1038A 0.02391 4 5.031 1048.8 0.0226 11.126 1027.0 0.0226 17.520 1149.6 0.0233 5 5.526 1087.0 0.0225 11.628 1013.6 0.0224 17.903 1128.7 0.0231 2 3.154. 85.8 0.0228 .7.975. 975.6 6 5.844 1110.0 0.0224 11.849 997.4 0.0223 18.012 1113.6 0.0229 .0.0228. 13.715 11573 .0.02381 7 6.046 1123.5 0.0222 11.948 983.4 0.0222 18.037 1103.7 0.0227 3 4.272. 984.7. 0.0227. 10.057. 1023 8 6.172 1131.6 0.0221 12.008 973.5 0.0221 18.050 1097.0 0.0225 .S .0.0227. 16.425 . 1170.2. 0.02351 9 6.241 1136.2 0.0220 12.064 968.4 0.0220 18.077 1091.8 0.0224 10 6.255 1137.7 0.0219 12.126 968.5 0.0219 18.123 1087.4 0.0222 4 .531.1048.8.0.0226 11.126 102 7.0. 0.0226. 17.520.1149.6. 0.02331 11 6.197 1134.6 0.0217 12.180 974.1 0.0218 18.174 1084.3 0.0220 12 6.023 1122.5 0.0216 12.165 984.5 0.0216 18.183 1083.9 0.0219 5 5.526. 1087.0. 0.0225 11.628 101 13 5.655 1093.1 0.0215 11.931 996.8 0.0215 18.000 1087.9 0.0217 3.6.0.0224 . 17.903. 1128.7 0.02311 14 4.967 1033.8 0.0214 11.148 1000.0 0.0214 17.225 1094.3 0.0215 6 .5.844. 1110.0 .0.0224. 11.849 997 15 3.788 924.0 0.0213 9.179 962.5 0.0213 14.871 1080.7 0.0214 A. 0.0223. 18.012. 1113.6.0.02291 16 1.999 749.2 0.0212 5.237 81&0 0.0213 9.082 964.0 0.0213 7 6.046.1123.5 .0.0222 11.948 .983 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 .4 0.0222 18.037 1103.7 0.02271 Node SP37 T-Fuel Spec.Vol SP38 T-Fuel Spec.Vol 8 6.172 1131.6.0.0221 .12.008 973 1 12.145 95.0 0.0240 16.853 906.3 0.0237 .5.0.0221 .1.050. 1097.0 0.02251 2 19.408 975.1 0.0238 26.255 978.9 0.0236 3 22.617 1000.0 0.0237 30.355 1009.5 0.0234 9. 6.241 .1136.2.0.0220 12.064 968 4 23.794 1026.3 0.0235 31.982 1020.7 0.0232 .4.0.0220 . 1.077. 1091.8 0.02241
- 10. 6.255. 1137.7.0.0219 12.126.96 5 24.173 1044.1 0.0233 32.61 7 1024.2, 0.0230 8.5 0.0219. 18.123 .107A 0.02221 6 24.287 1056.1 0.0231 32.892 1024.7 0.0228 11 .6.197. 1134.6 0.0217. 12.180 97 7 24.343 1066.3 0.0229 33.052 1023.7 0.0227 4.1 0.0218. 18.174. 1084.3 .0.02201 8 24.400 1074.7 0.0227 33.177 1022.1 0.0225 12. 6.023. 1122.5 .0.0216. 12.165. 98 4.5 0.0216. 18.183. 1083.9 0.02191 9 24.473 1081.1 0.0225 33.291 1020.2 0.0223 13 5.655. 1093.1 0.0215. 11.931 99 10 24.564 1085.9 0.0223 33.396 1018.1 0.0221 6. .0.0215. IS.00. 1087.9 .0.02171 11 24.668 1090.2 0.0222 33.48) 1015.0 0.0220 14 4.967. 1033.8 .0.0214. 11.148 . 10 12 24.758 1095.8 0.0220 33.501 1010.1 0.0218 00.0 .0.0214. 17.225 . 1094.3 0.02151 15 3.788 .924.0 .0.0213 9.179 962.
13 24.701 1105.0 0.0218 33.289 1001.1 0.0217 5 0.0213. 14.871 1080.7. 0.02141 14 24.055 1117.3 0.0216 32.313 984.5 0.0215 16. 1.999 749.2. 0.0212. 5.237. 818. 15 21.482 1115.6 0.0214 28.986 950.6 0.0214 0. 0.0213 .9.082. 964.0 0.02131 16 13.842 1016.0 0.0213 19.102 863.9 0.0213 1 Ail .Bumnp .DP3 to SP37. Bmp .SP37 to SP3S I Noede. SP7 . -Fod .SwVol. Datapoi =a- Tbel .Svmcol I or Statevoint EFPD/ Ccle Burnup - GWd/MTU 1 12.145 .905.0 0.0240 16.853 906 SP36 0.0 /Cyl T-Fuel - F .3 .0.0237 .1 DPI 187.06 / Cyl Spec. VoL -ft' lbm 2 .19.408 .975.1 0.0238 26.255 978 DP2 0.0 /Cy2 .9 0.0236 ..1 DP3 145.3 / Cy2 SP37 0.0/Cy3 3 22.617. 1000.0. 0.0237 . 30.355 .10 SP38 210.9/Cy3 09.5 0.0234 . . ¶
- 4. 23.794. 1026.3 0.0235 . 31 ..
Deleted: CIA Deleted: Febrmy V-- ---- ----- - - - - - -- - -. -- - -- - - - -- e t d 3 BOOOOOO-01717-5705-00064 REV 01 40 April 14, 1998
I Table 4-6. Burnup and TH Feedback Parametersby Axial Nodefor Assembly A2la Deleted: Axbl .urnp .SP36 o DP1. DurBup DPI to DP2. Bummp .DP2 to DP31
,Id &urnup -- SP36 to DPI Burnup DPI to DP2 Burn up DP2 to DP3 Xe eDEL. T-Fud . . -d Node DPI T-uel Spec. Vol DP2 T-Fucl Spec.Vol DP3 T-fuel Spec.Vol DP2 T-Fud SVdVO . DP3.
EPsL L~n Xg . 1 L.650 749.8 0.0229 4.496 838.3 0.0229 8.605 1059.4 0.0239 2 3.154 885.8 0.0228 7.975 975.6 0.0228 14.264 1180.8 0.0237 I 1.650. 749. .0.0229 .4496. 8383 3 4.272 984.7 0.0227 10.057 1023.8 0.0227 16.936 1185.1 0.0235 .0.0229 .. 605. 10594 0.02391 4 5.031 1048.8 0.0226 11.126 1027.0 0.0226 17.890 1153.3 0.0232 5 5.526 1087.0 0.0225 11.628 1013.6 0.0224 18.127 1122.9 ao230 2 .3.154 .8S5.8 .0.0228.7.975 .975.6 18.117 11o.o 0.0228 .0.0228. 14.264. 1180.8 .0.02371 6 5.844 1110.0 0.0224 11.849 997.4 0.0223 7 6.046 1123.5 0.0222 11.948 983.4 0.0222 18.051 1086.2 0.0226 3 4.272.984.7 .0.0227 10.057.1023 8 6.172 1131.6 0.0221 12.008 973.5 0.0221 17.994 1075.7 0.0225 .8 .0.0227. 16.9361.115.1 0.02351 9 6.241 1136.2 0.0220 12.064 968.4 0.0220 17.966 1067.5 0.0223 12.126 968.5 0.0219 17.970 1060.7 0.0221 4 5.031 .1048.8 0.0226. 11.126. 102 10 6.255 1137.7 0.0219 7.0 0.0226 .17.S90. 1153.3 .0.02321 11 6.197 1134.6 0.0217 12.180 974.1 0.0218 18.000 1056.2 ao220 12 6.023 1122.5 0.0216 12.165 984.5 0.0216 18.021 1056.3 0.0218 5 5.526. 1087.0.00225 11.628 101 13 5.655 1093.1 0.0215 11.931 996.8 0.0215 17.896 1063.5 0.0217 3.6 .0.0224 18.127 .1122.9 0.02301 14 4.967 1033.8 0.0214 11.148 1000.0 0.0214 17.215 1076.1 0.0215 6 5.844. 1110.0. 0.0224 11.49 997 15 3.788 924.0 0.0213 9.179 962.5 0.0213 14.929 1068.6 0.0214 .4 0.0223. 18.117 . 1101.0 .0.02281 16 1.999 749.2 0.0212 5.237 818.0 0.0213 9.125 955.5 0.0213 7 6.046 .1123.5.0.0222 11.948.983 DP3to SP37 Burnup SP37 te SP38 .4 0.0222. 18051. 106.2 .0.02261 Axil Burnup Node SP37 T-Fuel Spec. Vol SP38 T-Fuel Spec.Vol .6.172. 1131.6 .0.0221 .12.008 973 I 12.501 883.5 0.0238 17.313 911.9 0.0237 .5 .0.0221 17994 1075.7 0.02251 2 19.870 944.0 0.0237 26.753 982.0 0.0235 3 22.959 966.6 0.0235 30.658 1008.5 0.0233 9 6.241 . 1136.2. 0.20 12.064 968 A 0.0220 17.966. 1067.5 .0.02231 4 23.934 994.0 0.0234 32.029 1016.6 0.0232 10 6.255. 1137.7 .0.0219 12.126. 96 5 24.130 1014.4 0.0232 32.445 1018.3 0.0230 8.5 .0.0219. 17.970. 1060.7 0.02211 6 24.108 1029.1 0.0230 32.550 1017.3 0.0228 11 6.197. 1134.6 .0.0217 12.10 .97 7 24.061 1041.2 0.0228 32.573 1015.0 0.0226 4.1 0.0218. 18.000. 1056.2. 02201 1012.1 0.0224 12 6.023. 1122.5. 0.0216. 12.165. 98 8 24.038 1050.7 0.0226 32.582 4.5 .0.0216. 1.021 . 1056.3 .0.02181 9 24.043 1057.4 0.0225 32.589 1008.6 0.0223 13 5.655. 1093.1 .0.0215 . 11.931 .99 10 24.077 1061.9 0.0223 32.597 1004.6 0.0221 6.8 0.0215 . 17.896. 1063.5 0.02171 11 24.145 1065.1 0.0221 32.606 999.6 0.0220 14 .4.967. 1033. .0.0214 .11.148 10 992.6 0.0218 00.0 0.0214. 17.215 1076.1 .0.02151 12 24.238 1069.8 0.0219 32.593 15.3.788 924.0 0.0213.9.179 962. 13 24.249 1079.2 0.0218 32.430 982.3 0.0217 5 .0.0213 14.929. 1068.6 .0.02141 14 23.737 1094.4 0.0216 31.621 966.6 0.0215 16. 1.999 .749.2 .0.0212 .5.237 .818. 15 21.301 1096.4 0.0214 28.563 93&7 0.0214 0 0.0213 9.125 955.5 0.02131 16 13.737 1002.8 0.0213 18.959 862.6 0.0213 1 AxI .BwDp .DP3 to SP37. rmzp. SP37 to SP38 - N2Pk .M T- .- vec.Voo Datapoint or Statevoint FPD/ Cycle Burnup - GWd/M7V 1 12.501 83.5 0.0238 .17313 911 SP36 0.0 ICy) T-Fuel - F .9 .0.0237 . . .1 DP] 187.06/Cyl Spec. VoL -ft3 /lbm 2 .19.870. 944.0 . 0.0237 26.753.982 DP2 0.0 / Cy2 .0.0.0235. .1 DP3 145.3 / Cy2 SP37 0.0 /Cy3 3 .22.959 . 966.6 .0.023. 30.658 100 SP3R 210.9/ Cy3 8.5 0.0233 . 4 23.934 994.0. 00234. 32U4 6 Deleted: CIA Deleted: Februnr II Deleted: 233 I BOOOOOO0177-57050064 REV 01 41 April 14, 1998
Table 4-7. Burnup and TH FeedbackParametersby Axial Nodefor Assembly A25 Deleted: Axial Bmnup SP36 to DP1 urup .DPI to I DP2. Brnup DP2 to DP3¶ 41X*i Burnu SP36toDPI Bun up DPI to DP2 Burnp DP2 to DP3 bsft ]ML. T-ub . W-cVol_ Node DP] T-Fue Spec.Vol DP2 T-Fuel Spec.Vol DP3 T-Fuel Spec. Vol ML.2 T-Fued -6S-Vi p3 1 2.226 817.2 0.0236 5.991 922.0 0.0235 9.190 967.9 0.0238 2 4.267 998.1 0.0235 10.591 1082.1 0.0234 15.621 1076.7 0.0236 I 2.226 S17.2 0.0236 .5.991 .922.0 3 5.798 1126.9 0.0234 13.355 1127.3 0.0232 19.082 1089.9 ao234 0.0235.9.190.967.9 0.02381 4 6.837 1204.1 0.0232 14.770 1127.0 0.0230 20.662 1076.2 0.0232 5 7.516 1250.9 0.0230 15.434 1110.6 0.0229 21.323 1061.8 0.0230 2 4.267 .998.1 .0.0235. 10.591 102 1090.4 0.0227 21.591 1052.2 0.0228 .1. 0.0234.15.621 .1076.7 0.0236f 6 7.954 1278.6 0.0229 15.731 7 8.236 1295.0 0.0227 15.872 1072.8 0.0225 21.714 1045.9 0.0226 3 .5.798 1126.9 0.0234 13.355 112 8 8.416 1305.1 0.0225 15.960 1060.3 0.0224 21.799 1041.6 0.0225 7.3 0.0232. 19.082. 1089.9 O0234 9 8.520 1311.5 0.0223 16.043 1053.6 0.0222 21.888 1038.4 0.0223 10 8.550 1314.7 0.0221 16.136 1053.3 0.0221 21.992 1035.7 0.0221 4 6.837 . 1204.1 . 0.232. 14.770 112 7.0 .0.0230.20.662.1076.2 0.02321 11 8.484 1312.7 0.0219 16.218 1059.8 0.0219 22.089 1033.5 0.0220 12 8.263 1300.1 0.0218 16.217 1073.0 0.0218 22.109 1032.6 0.0218 5.7.516.1250.9. 230. 15.434 111 13 7.779 1266.9 0.0216 15.944 1089.2 0.0216 21.847 1033.0 0.0217 0.6.0.0229. 21.323 1061.8.0.02301 14 6.858 1195.9 0.0214 14.974 1095.2 0.0215 20.797 1033.7 a0215 6 7.954.1278.6 .00229 15.731.109 15 5.257 1062.0 0.0213 12.450 1062.5 0.0214 17.796 1019.9 0.0214 OA. 0.0227. 21.591. 1052.2 0.0223 16 2.788 826.7 0.0213 7.202 903.2 0.0213 10.771 911.6 0.0213 7 S.236 1295.0. 0.0227. 15.872 107 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 2.8. 0.0225 .21.714. 1045.9 0.02261 Node SP37 T-Fuel Spec.V al SP38 T-Fuel Spec.Vol 8 . 416 1305.1 .00225 . 15.960. 106 1 12.619 854.3 0.023;7- 15.316 783.2 0.0231 0.3 0.0224 . 21.799. 1041.6.0.02251 2 20.698 913.1 0.023?i 25.918 903.8 0.0230 3 24.700 942.4 0.0234f 30.980 930.1 0.0228 9. 8.520. 1311.5. Q0223. 16.043. 105 3.6 .0.0222. 21.88S. 1038A 0.02231 4 26.434 974.0 0.0233 33.131 926.7 0.0227 10 .. 550. 1314.7. 0.0221 16.136. 10 5 27.141 994.4 0.0231r 34.013 921.3 0.0225 53.3 .0.0221 .21.992. 1035.7 .0.02211 6 27.439 1007.3 0.02250 34.352 915.7 0.0224 11 .. 44. 1312.7 .0.0219 16.218 10 7 27.604 1017.3 0.022D 34.508 909.8 0.0223 59.8 .0.0219. 22.089. 1033.5- 0.02201 903.8 0.0221 12. 8.263. 1300.1 .0.0218 .16.217 10 8 27.738 1025.1 0.02215 34.605 73.0. 0.0218.22.109. 1032.6 0.02181 9 27.876 1031.2 0.0224f 34.685 897.9 0.0220 13 7.779. 1266.9 0.0216 .15.944 10 10 28.027 1035.7 0.022 34.758 891.8 0.0219 89.2 0.0216 21.847 . 1033.0. 0.02171 11 28.178 1039.7 0.0221I 34.811 885.3 0.0218 14 6.858 1195.9 .0.0214. 14.974 10 34.779 877.9 0.0217 95.2 .0.0215 .20.797 . 1033.7 .0.02151 12 28.269 1044.5 0.0215 15 5.257. 1062.0 . 0.0213 . 12.450. 10 13 28.103 1051.8 0.021;7 34.457 869.1 0.0215 62.5 0.0214. 17.796. 1019.9 .0.02141 14 27.120 1059.3 0.02P 5 33.246 856.9 0.0214 16. 2.788. 826.7 . 0.0213 .7.202 .903. 15 23.847 1046.4 0.0214f 29.437 837.6 0.0213 2 0.0213 10.771 911.6.0.02131 16 15.097 961.2 0.021:I 18.981 777.2 0.0213 1 Axial Bumvp . DP3 to SP37. Bump SP37 to SP38 I Nod S7 T-Fbd SpMVdI Datapoi _ _2t.T-fd SDV I or Statepoiint EFPD/ Cycle Burnup - GWd/MTU I 12.619 854.3 0.0237 15316 783 SP3 6 0.0 I/Cy T-Fuel - F .2. 0.0231 .1 DPI 187.06 / Cy] Spec. VoL -ftIlbm 2 20.698 913.1.0.0236 25.918 903 DP2 0.0/ Cy2 .8 0.0230. . DP3 145.3 / Cy2 SP3;T 0.0/ Cy3 3 24.700. 942.4.0.0234 30.980 930 SP34 210.9 / Cy3 .1 0.0228 4 26.434 974.0 0.0233. 33.1¶.[1 Deleted: CIA Deleted: Febrary _ _ __ _ .__ ___ - - - - -- - - - _ _ - - ; Debted: 233 BOOOOOO-01717-5705S0006 REV 01 42 April 14, 1998
ITable"48 Burnup and TH Feedback Parametersby Axial Node for Assembly A25a Dltd Axial Deleted: uu .SP xa -Bursvp P6 ID DPI. Durfup DPI to DP2 . Burnup .DP2 to DP3I A4xia_ #yuRp SP36 to DPI _Burnp Vit DP2_ DP2 to DP3 Has DZL. LEni E SW-Vo Node DP] T-Fuiel Spec. Vol DP T-Fuel Sp;ec.JV DP3 T-Fuel Spec. VOl 9.190 9~67.9 0.0238 EL symDL L-1 2.226 817.2 0.0236 5.991 922.0 0.0235 2 4.267 998.1 0.0235 10.591 1082.1 0.0234 15.621 1076.7 0.0236 1.2.226.317.2.0'0236.5.991 922.0 3 5.798 1126.9 0.0234 13.3SS 1127.3 0.0232 19.082 1089.9 0.0234 .0.0235 9.190 967.9.0.02381 4 6.837 1204.1 0.0232 14.770 1127.0 0.0!230 20.662 1076.2 0.0232 5 7.516 1250.9 0.0230 15.434 1110.6 0.0229 21.323 1061.8 0.0230 2 4.267 .998.1 .0.0235 10.591 .1082 21.591 1052.2 0.0228 .1 .0.0234. 15.621 . 10r76.7 0.02361 6 7.954 1278.6 0.0229 15.731 1090.4 0.0227 7 8.236 1295.0 0.0227 15.8 72 1072.8 0.0225 21.714 1045.9 0.0226 3 5.798. 1126.9 0.0234.13355 .112 8 8.416 1305.1 0.0225 15.960 1060.3 0.0224 21.799 1041.6 0.0225 7.3 0.0232. 19.082. 1089.9 . 0.02341 9 8.520 1311.5 0.0!223 16.043 1053.6 0.0222 21.888 1038.4 0.0223 21.992 1035.7 0.0221 4 6.837. 1204.1 -. 0.0232. 14.770, 112 10 8.550 1314.7 0.0221 16.136 1053.3 0.0221 7.0.0.0230. 20.662. 1076.2. 0.02321 11 8.484 1312.7 0.0219 16.218 1059.8 0.0219 22.089 1033.5 0.0220 12 8.263 1300.) 0.02 18 16.217 1073.0 0.0218 22.109 1032.6 0.0218 5. 7-516. 1250.9.0.0230.15.434.111I 13 7.779 1266.9 0.0216 15.944 1089.2 0.0216 21.84 7 1033.0 0.0217 0.6. 0.0229 21.323. 1061.8. 0.02301 14 6.858 1195.9 0.0214 14.9 74 1095.2 0.0215 20.797 1033.7 0.01215 6 7.954 . 1278. 0.0229. 15.73 1 . 109 15 5.257 1062.0 0.02 13 12.450 1062.5 0.0214 1 7.796 1019.9 0.0214 0A.-.0.0227. 21.591 . 1052.2. 0.02281 16 2.788 826.7 0.0213 7.202 903.2 0.0213 10.771 911.6 0.0213 7.8.236. 1295.0 0.022 .15.872 107 Burnup SP37 to SP38 2. 0.0225 21.714. 1045.9. 0.02261 Axial Burn up DP3 to SP3 7 Node SP37 T-Fuel Spec. Vol SP38 T-Fuel Spec. Vol 8 .. 416 1305.1 .0.0225. 15.960 106 71 12.621 854.3 0.0237 14.105 663.9 0.0219 0.3 . 0.0224 .21.799.- 1041.6. 0.02251 2 20.701 913.1 0.0236 22.965 690.8 0.0219 27.2 65 698.1 0.0218 9. 8.520. 1311.5. 0.0223. 16.043 . 105 3 24.703 942.4 0.0234 3.6 0.0222 21.888. 1038.4.-0.02231 4 26.437 974.0 0.0233 29.107 697.5 0.0218 10 .. 550. 1314.7. 0.0221 . 16.136 . 10 5 27.144 994.4 0.0231 29.852 695.1 0.0217 53.3.-0.0221 .21.992. 1035.7 .0.02211 6 27.443 1007.3 0.0229 30.161 692.4 0.02 17 11 .. 484. 1312.7. 0.0219. 16.218. 10 7 27.608 10)7.3 0.0228 30.318 689.7 0.0216 59.. .0.0219 22.039 . 1033.5 0.02201
- 12. 8.263 . 1300.1 0.0218. 16.217. 10 8 27.742 1025.1 0.0226 30.435 687.2 0.0216 73.0 0.0218 22.109 . 1032.6.0.02181 9 27.880 1031.2 0.0224 30.549 684.7 0.0215 13 .7.779 .1266.9 0.0216. 15.944 10 10 28.032 1035.7 0.0222 30.669 682.1 0.0215 89.2 0.0216 21.847 . 1033.0.-0.02171 11 28.183 1039.7 0.0221 30.782 679.5 0.0214 14 6.858. 1195.9 0.0214.- 14.974. 10 95.2 0.0215 20.797 . 1033.7 0.02151 12 28.2 73 1044.5 0.0219 30.823 676.6 0.0214 15. 5.257 .1062.0 0.0213. 12.450. 10 13 28.107 1051.8 0.0217 30.591 673.2 0.0214 62.5, 0.0214. 17.796 . 1019.9 . 0.02141 14 27.124 1059.3 0.0216 29.499 668.7 0.02 13 16 2.788 .826.7 0.0213 7.202, 903.
15 23.851 1046.4 0.0214 25.969 659.1 0.0213 2 0.0213 10.771 911.6.0.02131 16 15.100 961.2 0.0213 16.513 632.7 0.0212 1 Axial. Burrnup DP3 to 5P7. Burnup SP37 to SS Datapoint or Statevoint EFPDI Crcle Burnup - GWd/lf7U 1 12.621. 854.3. 0.027 14.105 663 SP36 0.0 /Cyl T-Fuel - F .9.0.0219 .. 1 3 DPI 187.06/Cyl Spec. VOL -ft IlhM 2 20.701. 913.1. 0.0236. 22.965 690 DP2 0.0 I CY2 .8.0.0219.-. .1 DP3 145.3/ Cy2 SP37 0.0 /Cy3 3.274703. 942.4.0.0234. 27.265 698 SP38 210.9/Cy3 .1 .. 021 .
- 4. 26.437. 974.0. 003 29.la .. 18 Deleted: CIA Deleted: Febnzrw V - - ---- ----
----- - - - - -I-- - - - - - -W - l H Deleted: 233 I .
I BOOOOOOOO-01717-5705-00064 REV 01 RE0143 BOOOOOOC-01717-705-0006 April 14, 19
I Table 49. Burnup and TH FeedbackParametersby Axial Node for Assembly A26 Deleted: Azbl. Burup . P36 to DP1. Burnup .DP to I DP. Burnup . DP to DP39 4xil urnup _ _ _T _ _ SP36 to DPI _qriup DP to DP2 .R_V.'_ ._- Burnup DP2 to DP3 KDI. DLI. T d PSDl Node DPI r-Fuel Soec.Vol DP2 T-Fui Sec.Vol DP3 T-Fudl SpecVl PZ T d SVolD3 1 1.423 721.9 0.0226 3.843 795.8 0.0226 8.250 1093.6 0.0241 Fel SveeVoI 2 2.720 839.8 0.0226 6.783 913.1 0.0225 13.381 1223.2 0.0239 I 1423.721.9 0.0226 3.43 795.8 3 3.670 924.3 0.0225 8.500 953.7 0.0224 15.646 1231.2 0.0237 0.0226 .S.250. 1093.6 .0.02411 4 4.311 978.6 0.0224 9.373 956.3 0.0223 16.432 1204.6 0.0234 5 4.725 1011.4 0.0223 9.776 944.7 0.0222 16.621 1177.6 0.0232 2 2.720 339.8 .0.0226 . 6.7S3 .913.1 930.5 0.0221 16.613 1158.2 0.0230 0.0225. 13.381 . 1223.2. 0.02391 6 4.989 1030.7 0.0222 9.949 7 5.155 1041.7 0.0221 10.023 918.3 0.0220 16.563 1145.4 0.0228 3 3.670 .924.3 .O.5 8.500 953.7 8 5.258 1048.1 0.0220 10.065 909.6 0.(219 16.525 1136.7 0.0226 .0.0224. 15.646. 1231.2. 0.02372 9 5.314 1051.8 0.0219 10.105 905.0 0.0218 16.510 1130.0 0.0224 10.151 904.9 0.0218 16.521 1124.6 0.0222 4 .4.311 .978.6 0.0224 .9.373 .956.3 10 5.324 1053.0 0.0218
.0.0223 .16.432. 1204.6 .0.02349 11 5.274 1050.4 0.0217 10.190 909.6 0.0217 16.552 1121.1 0.0221 12 5.129 1040.3 0.0215 10.174 918.5 0.0216 16.578 1121.5 0.0219 5.4.725.IOIIA.0.0223.9.776 944.
13 4.822 1015.8 0.0215 9.981 928.7 0.0215 16.487 1128.3 0.0217 7 .0.0222. 16.621 .1177.6.0.02321 14 4.245 965.1 0.0214 9.341 931.3 0.0214 15.929 1138.6 0.0216 6 4.989. 1030.7 .0.0222 .9.949.930. 15 3.252 871.9 0.0213 7736 899.6 0.0213 13.950 1126.6 00214 5 0.0221. 16.613. 1158.2 0.02301 16 1.722 721.6 0.0212 4.451 777.6 0.0213 8.632 996.5 0.0213 7 5.155 .1041.7 .0.0221 10.023 918 BumWup DP3 to SP37 Burnup SP37to SP38 .3. 0.0220. 16.563 . 11454 .0.02281 Axil Node SP37 T-Fuel Spec. V SP38 T-Fuel Snec.Vol 8 .5.258 1048.1 .0.0220 10.065 .909 I 12.568 938.8 0.024161 16.308 866.2 0.0238 .6 .0.0219. 16.525. 1136.7 .0.02261 2 19.465 1013.4 0.0235 26.257 1016.6 0.0236 3 22.122 1029.0 0.023;7 30.177 1055.1 0.0234 9 5314. 1051.8 .0.0219 10.105 905
.0. 0.0218. 16.510. 1130.0 .0.02241 4 22.897 1041.5 0.0232 31.479 1055.9 0.0232 10 5.324. 1053.0 0.0218 10.151 90 5 23.041 1055.8 0.023i 31.846 1050.7 0.0230 4.9 .0.0218. 16.521 .1124.6 0.02221 6 23.026 1069.8 0.02311 31.888 1044.9 0.0228 11 .5.274. 10504 0.0217 10.190 90 7 23.003 1(81.9 0.0225 31.862 1038.8 0.0226 9.6 .0.0217 .16.552. 1121.1 .0.02211 1032.3 0.0225 12 5.129. 1040.3 .0.0215. 10.174 .91 8 23.006 1091.6 0.022;7 31.826 8.5 .0.0216. 16.578 .1121.5 0.02199 9 23.034 1098.7 0.022i5 31.787 1025.5 0.0223 13 4.822. 1015.8 .0.0215 .9.981 .928 10 23.085 1103.7 0.022' 31.749 1018.4 0.0221 .7 0.0215 16.4S7. 1128.3.0.02171 11 23.165 1107.7 0.022; 31.714 1010.5 0.0220 14 4.245 .965.1 .0.0214 .9.341 .931.
31.674 1001.2 0.0218 3 0.0214 . 15.929. 1138.6 .0.02161 12 23.271 1112.9 0.0221 15 .3.252 . 71.9 .0.0213 7.736 .899. 13 23.319 1122.3 0.02h 31.533 989.6 0.0217 6 .0.0213 .13950. 1126.6 .0.02141 14 22.922 1136.3 0.021 5 30.848 973.8 0.0215 16. 1.722 .721.6. 0.0212. 4A51 777. 15 20.755 1136.2 0.021' I 28.096 946.3 0.0214 6 .013 8.632. 996.5 0.0213q 16 13.543 1029.9 0.021. 18.889 871.8 0.0213 Axial Bumnup .DP3 to SP37. Buup .SP37 to SP38 Nee. SP37 .T-Fod .SV - Datapeo hnt ML3S T-Fuel . ScVol or Statevoi Ir EFPD/ Cycle Burrnp - GWdIMTU 1 12.56S.938.8.0.0241 1630S 866 SP3o 0.0 /C, T-Fuel - 'F .2 0.0238 . .1 DPI 187.06/ Cyl Spec. VoL -f. /lbm 2 19.465 1013A o.m39.26.257 . 10 DP2 0.0 / Cy2 16.6 .0.0236 .1 DP3 145.3 / Cy2 SP3; 0.0 / Cy3 3 22.122. 1029.0 .0.0237 .30.177. 10 SP3 210.9/Cy3 55.1 0.0234 .1 4 22.897. 1041.5 .0.0235. 31 [9] iI"A ft4.A
- I Deleted: Febrary V--------------------- - - .-------------------- _ _ _ _ - - j Deleted:=
BOOOOOO-01717-570500064 REV 01 44 April14, 1998
I Table 4-10. Burnup and TH Feedback Parametersby Axial Nodefor Assembly A26a Deleted: Axial . Burmup SP36 to DPI. Burmup.DPto DP2 .Bunp .Dr2 so DP31
,4xial Bumup -- SP36to-DPI Bumup DP1 to DP2 -- B.unmup DP2 o DP3 Node DPI T-Fuel Soec.Vol DP2 T-Fuel Snec.Vol DP3 7'-Fuel SPec. Vol D2 .T-Fed .SD-Dr 1 1.423 721.9 0.0226 3.843 795.8 0.0226 8.250 1093.6 0.0241 XEg -SL 2 2.720 839.8 0.0226 6.783 913.1 0.0225 13.381 1223.2 0.0239 1 1423 .7219.0.0226.3.43 795.S 3 3.670 924.3 0.0225 8.500 953.7 0.0224 15.646 1231.2 0.0237 .0.0226. 250 1093.6. 0.02411 4 4.311 978.6 0.0224 9.373 956.3 0.0223 16.432 1204.6 0.0234 5 4.725 1011.4 0.0223 9.776 944.7 0.0222 16.621 1177.6 0.0232 2 .2.720. 39.8 .0.0226. 6.7S3. 913.1 0.0222 9.949 930.5 0.0221 16.613 1158.2 0.0230 .0.0225 .13.381 . 1223.2.0.0391 6 4.989 1030.7 7 5.155 1041.7 0.0221 10.023 918.3 0.0220 16.563 1145.4 0.0228 3 .3.670.924.3 0.0225 .50 3. 953.7 8 5.258 1048.1 0.0220 10.065 909.6 0.0219 16.525 1136.7 0.0226 .0.0224.15.646 1231.2 .0.02371 9 5.314 1051.8 0.0219 10.105 905.0 0.0218 16.510 1130.0 0.0224 10 5.324 1053.0 0.0218 10.151 904.9 0.0218 16.521 1124.6 0.0222 4 4311. 978.6 0.0224 9.373. 956.3
.0.0223 . 16.432 .1204.6. 0.02341 11 5.274 1050.4 0.0217 10.190 909.6 0.0217 16.552 1121.1 0.0221 12 5.129 1040.3 0.0215 10.174 918.5 0.0216 16.578 1121.5 0.0219 5 4.725. 101IA. 0.0223. 9.776 944.
13 4.822 1015.8 0.0215 9.981 928.7 0.0215 16.487 112&3 0.0217 7 .0.0222. 16.621. 1177.6 .2321 14 4.245 965.1 0.0214 9.341 931.3 0.0214 15.929 1138.6 0.0216 6 .4.989 .1030.7 .0.0222. 9.949 .930. 15 3.252 871.9 0.0213 7.736 899.6 0.0213 13.950 1126.6 0.0214 5 .0.0221 .16.613. 1158.2 .02301 16 1.722 721.6 0.0212 4.451 777.6 0.0213 8.632 996.5 0.0213 7 .5.155 .1041.7 .0.0221 . 10023 .918 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 .3 .0.0220. 16-563 1145.4 0.02281 Node SP37 T-Fuel Spec. Vol SP38 T-Fuel Spec.Vol 8 .5.258 .1048.1 .0.0220 .065 .909 1 12.567 938.8 0.0241 17.360 911.0 0.0237 .6 0.0219 .16.525.1136.7 0.02261 2 19.451 1013.4 0.0239 26.353 984.9 0.0236 3 22.096 1029.0 0.0237 29.863 1015.4 0.0234 9 .5.314 .1051.S .0.0219. 10.105 .905
.0 .0.0218 .16.510. 1130.0 0.02241 4 22.867 1041.5 0.0235 31.057 1025.4 0.0232 10 .5.324 1053.0. 0.0218. 10.151. 90 5 23.008 1055.8 0.0233 31.428 1027.7 0.0230 4.9 .0.0218 . 16.521 . 1124.6 0.0222 6 22.992 1069.8 0.0231 31.540 1026.7 0.0228 11 .5.274.1050A .0.0217 10.190 90 7 22.969 1081.9 0.0229 31.586 1024.2 0.0226 9.6 .0.0217 . 16.552 . 1121.1 .0.02211 12 5.129. 1040.3 0.0215. 10.174 91 8 22.971 1091.6 0.0227 31.617 1021.0 0.0225 8.5. 0.0216. 16.578. 11215 . 0.02191 9 22.998 1098.7 0.0226 31.643 1017.3 0.0223 13 .4.822 1015.8 .0.0215 9.981.928 10 23.048 1103.7 0.0224 31.665 1013.2 0.0221 .7 -0.0215 .16.4S7 . 1128.3 -0.02171 11 23.128 1107.7 0.0222 31.683 1008.0 0.0220 14. 4.245 .965.1 .0.0214. 9.341 .931.
31.680 1000.9 0.0218 3 .0.0214. 15.929. 1138.6 0.02161 12 23.233 1112.9 0.0220 15 3.252. 71.9 D0.0213 .7.736 899. 13 23.281 1122.3 0.0218 31.548 990.1 0.0217 6 .0.0213 13.950. 1126.6 .0.02141 14 22.884 1136.3 0.0216 30.839 973.1 0.0215 16. 1.722 721.6 .0.0212 .4A51 .777. 15 20.722 1136.2 0.0214 28.023 942.7 0.0214 6 0.0213 8.632 996.5 0.02131 16 13.522 1029.9 0.0213 18.750 864.4 0.0213 1 Azial BurIp . Dr3 to S37 .Bu p SP37 t SP3. 1 ede SM T- .l SWVOl - Datapoint SLP3 T bel . nec.Vel I or Statepoint EFPD/ Cycle Burnup - GWdIMTU I 12.567 .93.8 0.0241 17.360 .911 SP36 0.0/Cyl T-Fuel - 'F .0 0.0237 . . .1 DPI 187.06 ICy Spec. VoL -ft 3 Ilbm 2 19.451 1013A . 0.0239 .26.353 98 DP2 0.0/ Cy2 49.90.0236. . .1 DP3 145.3/ Cy2 SP37 0.0 / Cy3 3. 22.096 1029.0. 0.0237. 29.63. 10 SP38 210.9ICSt3 15.4. 0.0234 4 22.867.1041.5 0.0235. 31[ 10 Deleted: CIA I ADeleted: Febr gm~~~~~ I _ _ _ f - - :~ Deleted: 233 BOOOOOOO-01717-5705600064 REV 01 45 April 14, 1998
I Table 41L Burnup and TH Feedback Parametersby Axial Node for Assembly A29 Debted: Ax.l Buraup .S36 to DPi unump .DP1 to DP2. Bmip DP2 lb DP32 4xia1 Burnup SP36 to DPI Burnuy DPI to DP2 Burnup DP2toDP3 Node DP1L TlFe .SWol Node DP] TpFul SPCC.VOI DP2 T-Fued Spec.Vol DP3 T-Fuel Spec.Vol MLP2T-Fard SVel DP3 T 1 2.092 799.5 0.0234 5.508 889.5 0.0233 9.743 1053.1 0.0239 2 4.020 969.2 0.0233 9.738 1036.2 0.0232 16.034 1163.7 0.0237 1 2.092.799.5.0.0234.550S8. S95 3 5.458 1088.2 0.0232 12.276 1080.2 0.0230 19.048 1159.0 0.0235 .0.0233. 9.743 .1053.1 .0.02391 4 6.428 1)61.5 0.0231 13.583 1081.0 0.0228 20.221 1126.4 0.0232 5 7.058 1205.0 0.0229 14.199 1064.9 0.0227 20.591 1097.7 0.0230 2 .4.020 969.2.0.0233 .9.738 .1036. 20.668 1077.3 0.0228 2.0.0232 .16.034 1163.7 .0.02371 6 7.465 1230.5 0.0227 14.479 1045.6 0.0225 7 7.728 1245.6 0.0226 14.616 1029.1 0.0224 20.663 1063.7 0.0227 3 5A58 .1088.2 0.0232 12.276 108 8 7.899 1255.2 0.0224 14.704 1017.6 0.0223 20.655 1054.1 0.0225 0.2. 0.0230. I9.04 .1159.0. 0.02351 9 8.000 1261.6 0.0222 14.787 1011.5 0.0221 20.669 1046.4 0.0223 8.034 1265.2 0.0221 14.878 1011.2 0.0220 20.710 1040.1 0.0222 4 6A28 . 1161.5 .0.0231 13.583 .10 10 1.0 0.0228 .20.221 .11264 .0.02321 11 7.979 1264.2 0.0219 14.958 10172 0.0219 20.770 1035.7 0.0220 12 7.782 1253.7 0.0217 14.961 1029.4 0.0217 20.804 1035.2 0.0218 5 7.058 . 1205.0 .0.0229 14.199 106 13 7.343 1224.4 0.0216 14.716 1044.9 0.0216 20.657 1041.1 0.0217 4.9 0.0227 .20.591 .1097.7 .0.02301 14 6.496 1159.9 0.0214 13.835 1052.4 0.0215 19.879 1052.8 0.0215 6 7A65 .1230.5 .0.0227 14.479 104 15 5.009 1034.3 0.0213 11.552 1020.8 0.0214 17.371 1050.7 0.0214 5.6 0.0225 20.668. 1077.3 .0.02281 16 2.675 814.8 0.0213 6.745 876.5 0.0213 10.697 945.7 0.0213 7 .7.728 . 1245.6 .0.0226. 14.616 102 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 9.1 .0.0224 .20.663. 1063.7 0.02271 Node SP37 T-Fuel Spec. Vol SP38 T-Fuel Spec.Vol 8 7.899 1255.2 .0.0224 14.704 101 1 13.860 904.7 0.0238 18.660 899.5 ao235 7.6 0.0223 20.655. 1054.1. 0.02251 2 21.799 962.4 0.0237 2&700 972.2 0.0234 3 25.149 978.7 0.0235 32.822 996.0 0.0232 9 S8.000 .1261.6. 0.0222. 14.787 101 1.5 0.0221 .20.669 1046A .0.02231 4 26.287 994.1 0.0234 34.276 1001.3 0.0230 10. 8.034. 1265.2 .0.0221 .14.S78 10 5 26.595 1008.2 0.0232 34.730 999.3 0.0229 11.2 0.0220.20.710. 1040.1 .0.02221 6 26.649 1020.2 0.0230 34.850 995.1 0.0227 11 .7.979. 1264.2 .0.0219 . 14.958. 10 7 26.656 1030.4 0.0228 34.874 990.0 0.0225 17.2. 0.0219. 20.770 1035.7.0.02201
- 12. 7.782 1253.7 . 0.0217 . 14.961 10 8 26.676 1038.4 0.0226 34.874 984.6 0.0224 29A .0.0217 .20.04. 1035.2 0.02181 9 26.719 1044.1 0.0225 34.870 978.9 0.0222 13 .7.343. 1224.4 .0.0216 . 14.716 10 10 26.787 1047.9 0.0223 34.866 972.8 0.0221 44.9 0.0216.20.657 1041.1 .0.02171 11 26.881 1050.8 0.0221 34.861 966.0 0.0219 14 6.496. 1159.9 .0.0214. 13.835 .10 34.828 52.4 .0.0215 . 19.S79- 1052.8 .0.02151 12 26.984 1055.3 0.0219 957.8 0.0218 15 5.0D9. 10343 0.0213. 11.552. 10 13 26.970 1064.5 0.0218 34.635 947.3 0.0216 20.8 0.0214. 17.311 .1050.7 0.02142 14 26.365 1078.7 0.0216 33.758 932.4 0.02 5 16 .2.675 814.8. 0.0213 .6.745. S76.
15 23.679 1079.1 0.0214 30.477 904.2 0.0214 5. 0.0213 10.697. 945.7 0.02131 16 15.367 993.4 0.0213 20.208 830.4 0.0213 ¶ Axial Burnup DPi to SP37. Bmnp . SP37 to SF38 Ne1k SP37 . -fd SVod . Datapoint SPS. I:F l S .Vl I or Statepoint EFPD/ Cycle Burnup - GWd/MTU 1 13.S60 904.7 0.023S 18.660 99 SP36 0.0/Cyl T-Fuel - F .5. Q0235 . . 1 DPI 187.06/Cyl Spec. Vol . f3 lbm 2 21.799 962.4 0.0237 28.700 972 DP2 0.0/02 2. .0234 DP3 145.3/02 SP37 0.0Cy3 3 25.149. 978.7 Q0235. 32.22 996 SP38 210.9/Cy3 .0. 0.0232 - 4 26.27 .994.1 0.0234 34.? l 1 Deketed: CIA tDelted: Febr l
-.. xt - Dekted:233 I BOOOOOOOO-01717-570S.00064 REV 01 46 April 14,1998
I Table 4-12. Burnup and TH FeedbackParametersby Axial Nodefor Assembly A29a Deleted: Axial .uruup. DPI. Bunp .DPI to SP36 to DP2 Burp. DP2 to DP3I 4oxiaL Brntup SP36to DPI Rurnuo DPIto DP2 Burnup DP2 to DP3 HN Dn ML Tfd Vol . Node DPI T-Fue Vol
- c. DP2 T-Fuel Spec. Vol DP3 T-Fuel Spec. Vol P2L TLod SVo .DP3. L 1 2.092 799.5 0.0234 5.508 889.5 0.0233 9.743 1053.1 0.0239 2 4.020 969.2 0.0233 9.738 1036.2 0.0232 16.034 1163.7 0.0237 1 .2.092 .799.5 .0 0234 .5.508 .889.5 3 5.458 1088.2 0.0232 12.276 1080.2 0.0230 19.048 1159.0 0.0235 .0.0233 9.743. 1053.1 .0.02391 4 6.428 1161.5 0.0231 13.583 1081.0 0.0228 20.221 1126.4 0.0232 5 7.058 1205.0 0.0229 14.199 1064.9 0.0227 20.591 1097.7 0.0230 2 4.020.969.2 .0.0233.9.738. 1036.
20.668 1077.3 0.0228 2 0.0232. 16.034. 1163.7 .0.02371 6 7.465 1230.5 0.0227 14.479 1045.6 0.0225 7 7.728 1245.6 O.Q226 14.616 1029.1 0.0224 20.663 1063.7 0.0227 3 .5458 .1088.2 .0.0232 12.276 108 8 7.899 1255.2 0.0224 14.704 1017.6 0.0223 20.655 1054.1 0.0225 0.2 0.0230. 19.048 1139.0 0.02351 9 8.000 1261.6 0.0222 14.787 1011.5 0.0221 20.669 1046.4 0.0223 14.878 1011.2 0.0220 20.710 1040.1 0.0222 4 .6A28. 1161.5 0.0231. 13.5S3 108 10 8.034 1265.2 0.0221 1.0 0.0228 20.221. 1126A 0.02321 11 7.979 1264.2 0.0219 14.958 1017.2 0.0219 20.770 1035.7 0O20 12 7.782 1253.7 0.0217 14.961 1029.4 0.0217 20.804 1035.2 0.0218 5 .7.058. 1205.0 .00229 . 14.199 106 13 7.343 1224.4 0.0216 14.716 1044.9 0.0216 20.657 1041.1 0.0217 4.9 .0.0227 20.591 .1097.7 .0.02301 14 6.496 1159.9 0.0214 13.835 1052.4 0.0215 19.879 1052.8 0.0215 6 .7A65- 1230.5 .0.0227 14.479. 104 15 5.009 1034.3 0.0213 11.552 1020.8 0.0214 17.311 1050.7 0.0214 5.6 .0.0225 .20.668 .1077.3. 0.02281 16 2.675 814.8 0.0213 6.745 876.5 0.0213 10.697 945.7 0.0213 7 7.728. 1245.6 .0.0226 14.616. 102 Burnup DP3to SP37 Burnup SP37to SP38 9.1 0.0224.20.663. 1063.7 002271 Axial Node SP37 T-Fuel Spec.V ol SP38 T-Fuel Svec.Vol 8 7.899 .1255.2. 0.0224 14.704 . 101 1 13.860 904.7 0.023f 15.489 673.7 0.0220 7.6. 0.0223 .20.655. 1054.1 .012251 2 21.808 962.4 0.023:7 24.293 704.2 0.0219 3 25.166 978.7 0.023: 27.998 714.0 0.0219 9 S.000. 1261.6.0.0222. 14.787 101 1.5 0.0221 . 20.669. 1046A .0.02231 4 26.309 994.1 0.0234 29.281 715.3 0.0218 10 . 8.034. 1265.2 .0.0221. 14.878 10 5 26.619 1008.2 0.0235 29.651 714.1 0.0218 11.2 .0.0220. 20.710. 1040.1 .0.02221 6 26.673 1020.2 0.023C 29.729 712.1 0.0217 11 .7.979 1264.2. 0.0219. 14.958. 10 7 26.682 1030.4 0.022( 29.739 709.9 0.0217 17.2. 0.0219. 20.770. 1035.7 .0.0220 12 .7.782. 1253.7 .0.0217 .14.961. 10 8 26.702 1038.4 0.022t5 29.748 707.5 0.0216 29.4 .0.0217. 20.804 . 1035.2 0.02181 9 26.745 1044.1 0.022.' 29.771 705.1 0.0216 13 7.343. 1224A . 0216 . 14.716. 10 10 26.813 1047.9 0.022i 29.810 702.7 0.0215 44.9 0.0216 . 20.657. 1041.1 .0.02171 11 26.908 1050.8 0.0221 29.867 700.0 0.0215 14 .6.496. 11599 .0.0214 . 13.835 . 10 696.8 0.0214 52.4 . 0.0215. 1979. 1052.8 .0.02151 12 27.011 1055.3 0.0215 29.916 15.5.009 1034.3.0.0213 .11.552 10 13 26.997 1064.5 0.02f 29.824 692.7 0.0214 20.8 .0.0214. 17.311 . 1050.7 .0.02141 14 26.391 1078.7 0.021e 29.085 686.5 0.0213 16 .2.675 814. .0.0213 .6.745 876. 15 23.702 1079.1 0.0214 26.095 674.2 0.0213 5 0.0213 10.697 .945.7 0.02131 16 15.382 993.4 0.0213 16.974 643.5 0.0212 1 Axia- Bunrp DP3 to SP37 . B p SP37 to SP38 P7 .1: .S -mVd DalapoiAt SP3 T-}bel -SpmcVol I or Statooz EFPD/ Cycle Burnup - GWdITV 1 13.860 904.7 0.0238.15AS9 673 SP3G O.O/Cyl T-Fuel - F .7 0.0220... 1 3 DPI nt 187.06/Cyl Spec. VoL -ft lbm 2 21.808 .962.4 0.0237. 24.293 704 DP2 0.0 /Cy2 .2.0.0219. 1 DP3 145.3/ Cy2 SP3; 0.0 / Cy3 3 .25.166 .97&7.0.0235 27.998 714 SP3d 210.9/ Cy3 .0 0219. .1 4 26.309.994.1. Q0234. 29.T - Deleted: CIA Deleted: Februr x Deleted: 233 I0B0OOOOOOO01717-S70S-00064 REV 01 47 April 14, 1998
I Table 4-13. Burnup and TH FeedbackParametersby Axial Nodefor Assembly A30 Deleted: Axial Burnup . SP36 to DPI. Burmp .DP to I DP2 Blump .DP2 tD DP3¶
,4xial urnuup SP36to DPI Bunup DP1 to DP2 Bunrup DP2 to DP3 DPI uVd _
Node DPI T-Fuel Spec. Vol DP2 T-Fucl Snec.Vel DP3 T-Fuel Spec.Vol PL. T-id S d .P3 L 1 2.420 836.7 0.0239 6.290 933.2 0.0237 9.164 980.5 0.0240 2 4.727 1036.3 0.0238 11.304 1096.2 0.0236 16.696 1130.1 0.0238 I . 2.420. 36.7 0.0239.6.290 .933.2 3 6.474 1174.0 0.0237 14.409 1144.3 0.0234 20.780 1130.0 0.0236 .0.0237.9.164 .980.5 .002401 4 7.646 1256.2 0.0235 16.009 1146.6 0.0232 22.462 1106.7 0.0233 5 8.409 1305.5 0.0233 16.771 1129.4 0.0230 23.131 1088.0 0.0231 2.4.727.1036.3.0.0238. 11304. 109 1108.4 0.0228 23.399 1074.2 0.0229 6.2 .0.0236. 16.696.1130.1.0.02381 6 8.907 1335.2 0.0231 17.131 7 9.236 1353.7 0.0229 17.319 1090.3 0.0226 23.526 1064.9 0.0227 3 6A74. 1174.0. 0.0237 14A9 114 8 9.453 1365.8 0.0227 17.448 1077.4 0.0225 23.620 1058.3 0.0226 4.3 0.0234.20.780.1130.0 0.02361 9 9.588 1374.3 0.0224 17.569 1070.6 0.0223 23.720 1053.1 0.0224 0.0222 17.698 1070.3 0.0221 23.836 1048.6 0.0222 4 7.646.1256.2.0.0235 . 16.009 114 10 9.643 1379.9 6.6 0.0232 22A62. 1106.7 .0.02331 11 9.592 1380.4 0.0220 17.814 1077.3 0.0220 23.951 1045.1 0.0220 12 9.370 1370.3 0.0218 17.837 1091.4 0.0218 23.995 1043.8 0.0219 5 BA09. 1305.5 0.0233. 16.771 112 13 8.856 1338.3 0.0216 17.566 1109.3 0.0217 23.769 1046.0 0.0217 9A 0.0230. 23.131 108.0.0.02311 14 7.851 1266.7 0.0215 16.542 1117.7 0.0215 22.752 1049.4 0.0215 6 8.907.1335.2. 0.0231. 17.131 . 110 15 6.070 1126.1 0.0213 13.847 1083.7 0.0214 19.678 1041.2 0.0214 8A 0.0228 .23.399.10742 . 0.02291 16 3.254 870.3 0.0213 8.132 932.5 0.0213 12.123 939.3 0.0213 7 .9.236 . 1353.7. 0.0229. 17.319. 109 Axial Purnup DP3 to SP37 Burnup SP37to SP38 0.3.0.0226 23.526 1064.9 0.02271 Node SP37 T-Fuel Spec. Vol SP38 T-Fuel SpecVol 8 9A53 .1365.8 0.0227.17A48 107 1 11.965 774.7 0.0237 17.469 952.5 0.0236 7A .0.0225. 23.620.1058.3 0.02261 2 21.752 799.9 0.0237 29.278 1006.6 0.0234 3 26.533 869.0 0.0236 34.621 1016.4 0.0232 9 .9.58 .1374.3 0.0224. 17.569. 107 0.6 0.0223 .23.720. 1053.1 .0.02241 4 28.569 979.8 0.0234 36.789 1013.4 0.0230 10 9.643. 1379.9 .0.0222. 17.698 10 5 29.274 1011.0 0.0232 37.540 1006.8 0.0229 70.3 .0.0221 23.836 1048.6 0.02221 6 29.548 1024.3 0.0230 37.809 999.2 0.0227 11 .9.592 1380A .0.0220 17.814 10 7 29.700 1(34.1 0.0229 37.922 991.5 0.0225 77.3 .0.0220 23951 1045.1 0.02201
- 12. 9.370. 1370.3. 0.0218. 17.837. 10 8 29.829 1041.6 0.0227 37.983 983.7 0.0224 91.4 0.0218 23.995 1043.8 0.02192 9 29.965 1047.0 0.0225 38.029 975.7 0.0222 13. .56 .13383 .0.0216 17.566 11 10 30.116 1050.7 0.0223 38.068 967.5 0.0220 09.3 0.0217 .23.769 1046.0 0.02171 11 30.272 1053.8 0.0221 38.093 958.8 0.0219 14.7.851.1266.7 0.0215 16.542 11 949.3 0.0218 17.7 .0.0215 22.752. 10494 .0.02151 12 30.384 1058.2 0.0219 38.053 15 .6.070. 1126.1 0.0213. 13.847 10 13 30.272 1066.6 0.0218 37.768 938.6 0.0216 83.7. 0.0214 . 19.67S 1041.2. 0.02141 14 29.382 1078.3 0.0216 36.651 924.4 0.0215 16 .3254 .870.3 .0.0213 .8.132 .932.
15 26.131 1072.7 0.0214 32.902 896.9 0.0214 5 0.0213 12.123 939.3 0.02131 16 16.855 985.0 0.0213 21.794 827.2 0.0213 I Axa .Bunrup . DP3 to SP37. Buup SP37 to SP38 1 Nede. 6P7 T-Fbd -SemVgI Datapoint SP38 .T *I SweV.ol I or Statevoin EFPD/ Ck'le Bumnup - GWd/MTU I 11.965 774.7 0.0237. 17.469 952 SP36 O.O/Cy) T-Fuel - F .5 0.0236. . DPI 187.06/Cyl Spec. VoL .ft/lbm 2 .21.752 799.9 0.0237.29M 100 DP2 0.0 /Cy2 6.6 0.0234.. 1 DP3 145.3 /Cy2 SP37 0.0 /Cy 3 3 26.533 869.0. .0236 34.621 .101 SP38 210.9/ Cy3 6A 0.0232 I 4.28.569. 979.8 Q0234.36.' -[131 Deleted: CIA Dekted: February
, f Deleted: 233 BOOOOOOO-01717-5705 00064 REV 01 48 April 14, 1998
I Table 4-14 Burnup and TH Feedback Parametersby Axial Node for Assembly A31 Deleted: Axial. Burnap . SP36 to DPI. Burmnp. DPI to DP2 Burup. DP2 to DP31 4xial BwUnup SP36 to DPI BILrnU DPI to DP2 Bunu DPIoDP3 N&&e. DPI .T-Fu SVod . Node DP] r-FI/e SPeC.VOI DP2 T-FUCI SpeC.VOl DP3 T-Fuel SecVol DEL. LTEYd .e DP3 L 1 1.271 703.5 0.0225 3.396 771.1 0.0225 7.475 1091.8 ao243 2 2.465 8)1.4 0.0224 6.149 886.5 0.0224 12.476 1232.3 0.0241 I 1.271 703.5. 0.225 3.396. 771.1 3 3.371 891.8 0.0224 7.862 933.7 0.0224 14.916 124&0 0.0238 .0.0225. 7475. 1091.S .0.02431 4 3.985 944.9 0.0223 8.759 940.7 0.0223 15.859 1227.0 0.0236 5 4.384 977.1 0.0222 9.179 931.8 0.0222 16.160 1204.9 0.0233 2 .2.465. S114. 0.0224 .6.149.886.5 6 4.638 996.2 0.0221 9.363 918.9 0.0221 16.231 1189.1 0.0231 .0.0224. 12.476. 1232.3 .0.02411 7 4.801 1007.6 0.0220 9.446 9074 0.0220 16.241 1178.9 0.0229 3 .3.371 . 91.8 . 0.0224 .7.62 .933.7 8 4.903 1014.5 0.0219 9.494 899.1 0.0219 16.248 1)72.2 0.0227 .0.0224. 14.916 1248.0 0.02381 9 4.960 1018.7 0.0218 9.539 894.7 0.0218 16.271 1167.2 0.0225 10 4.974 1020.4 0.0217 9.588 894.6 0.0217 16.311 1163.2 0.0223 4 .3.95 .944.9 .0.0223 .8.759 940.7
.0.0223 .15.S59. 1227.0.0.0236 11 4.931 1018.3 0.0216 9.630 899.1 0.0216 16.360 1160.6 0.0221 12 4.796 1008.7 0.0215 9.615 907.6 0.0216 16.386 1161.0 0.0219 5 .4.384 .977.1 .0.0222.9.179 .931.8 13 4.507 985.1 0.0214 9.425 917.1 0.0215 16.269 1166.1 0.0218 .0.0222. 16.160. 1204.9 .0.02331 14 3.964 937.1 0.0214 8.795 917.3 0.0214 15.664 1172.6 0.0216 6 4.638.996.2.0.0221 9.363 918.9 15 3.027 848.4 0.0213 7.227 881.9 0.0213 13.649 1155.2 0.0214 .0.0221.16.231.1189.1.0.02311 16 1.599 708.7 0.0212 4.108 760.7 0.0213 8.406 1016.1 0.0213 7 .4.801 . I07.6 .0.0220 .9.446 .907.
Axial BuUrnp DP3 to SP37 BrUP SP37 to SP38 4 .0.0220 16.241 .1178.9 .0.0229 Node SP37 T-Fuel Spec. Vol SP38 T-Fuel Spec.Vol 8 4.903. 1014.5 .0.0219 .9.494 .899. 1 11.591 918.0 0.0242 16.153 898.0 0.0236 1 .0.0219 16.248.1172.2.0.02271 2 18.481 993.6 0.0240 25.154 969.4 0.0235 3 21.464 1022.9 0.0239 29.024 1000.5 0.0233 9 .4.960. 1018.7. 0.0218 .9.539 . 94. 4 22.511 1055.8 0.0237 30.519 1012.3 0.0231 7 0.021 .16.271.1167.2.0.02251 10 4.974. 1020.4 0.0217 .9.58 .94 22.822 1079.1 0.0235 31.081 1016.0 0.0230 .6 .0.0217. 16.311 . 1163.2 .0.02231 6 22.908 1094.7 0.0232 31.320 1016.2 0.0228 11 4.931 . 1018.3 .00216 .9.630 .899 7 22.957 1107.1 0.0230 31.462 1014.7 0.0226 .1 .0.0216. 16.360. 1160.6 .0.02211 8 23.016 1116.9 0.0228 31.576 1012.6 0.0224 12 4.796.1008.7 .0.0215.9.615 907
.6 .0.0216 .16.386. 1161.0. 0.02191 9 23.091 1124.3 0.0226 31.678 1010.3 0.0223 13 4.507 985.1 0.0214 9.425 917.
10 23.182 1129.8 0.0224 31.771 10OZ6 0.0221 1 .0.0215 16.269 1166.1 .0.02181 11 23.290 1134.4 0.0222 31.849 1004.1 0.0220 14. 3.964 937.1 .0.0214. 8.795 .917. 12 23.403 1140.2 0.0220 31.879 99&5 0.0218 3 .0.0214. 15 64. 1172.6 0.02161 15 3.027 .848A. 0.0213 7.227 881. 13 23.421 1149.7 0.0218 31.723 988.6 0.0216 9. 0.0213. 13.649. 1155.2 0.02141 14 22.952 1162.3 0.0216 30.896 970.0 0.0215 16. 1.599.708.7.0.0212 4.108 760. 15 20.700 1159.6 0.0214 27.860 933.8 0.0214 7 .0.0213 .8.406 . 1016.1 0.02131 16 13.465 1046.1 0.0213 18436 849.4 0.0213 1 Axial .Bumup . DP3 to SP37 .Burnup SP37 to SP38 1 Node SP37 . -od SVl - Datapoint sr- s .I;Fbel SymeSI or statevoint EFPD/ Cvcle Burnup - GWdIMIU 1 11.591 918.0 0.0242 16.153 898 SP36 0.0/Cyl T-Fwl - F . 0236... 1 DPI 187.06/Cyl Spec. VoL -ft3 /Ibm DP2 0.0 /Cy2 2 . 1.481 .993.6 .0.0240.25.154 .969
- 4. 0.0235 .. 1 DP3 145.3 / Cy2 SP37 0.0 /Cy3 3 .21.464. 10229 .0.0239 .29.024 10 SP38 210.9/Cy3 00.5 . 0233...
. Deleted: CLA Deleted: February T.. .. .. .___,
- --- -- , -- ,- ,T -r -
Deleted: 233 I0B0000O-01717-5705-0064 RE 01 49 April 14, 1998
I Table 4-15. Burnup and TH Feedback Parametersby Axial Node for Assembly B14 Deleted: Axial urnmp DP2 l DP3 Burnp. DPI to SP37. Bnp. SP37 to SP32 4xil Buntup DP2 to DP3 Burnup DP3 to SP37 Burn up SP37toSP38 Node .D . TF_ . SWVd .- Node DP3 T-Fuel Soec. Vol SP37 T-Fuel Spec.Vol SP38 T-Fuel Soec. Vel M3 T SVOl . P38 . L 1 4.030 1133.0 0.0247 8.416 1021.5 0.0248 14.230 1010.1 0.0244 Fed Sv~ 2 6.098 1331.2 0.0245 12.502 1139.3 0.0246 21.148 1129.7 0.0242 I 4.030. 1133.0 0.0247 SA16 1021 3 7.0)0 1402.7 0.0242 14.182 1189.7 0.0244 23.957 1160.3 0.0239 .5 .0.0248. 14.230 1010.1. 0.02441 4 7.309 1417.7 0.0239 14.724 1217.5 0.0241 24.976 1165.6 0.0237 s 7.373 1414.6 0.0236 14.890 1239.7 0.0239 25.361 1164.0 0.0234 2.6.098 .1331.2 0.0245. 12.502 .113 6 7.380 1409.4 0.0234 14.985 1259.7 0.0236 25.552 1159.2 0.0232 9.3. 0.0246 .21.148 . 1129.7 .0.02421 7 7.391 1406.2 0.0231 15.096 1277.5 0.0234 25.687 1152.9 0.0230 3 .7.010.1402.7 .0.0242- 14.182 118 8 7.418 1405.4 0.0229 15.232 1293.0 0.0231 25.801 1146.0 0.0227 9.7 0.0244. 23.957. 11603. 0.02391 9 7.458 1406.3 0.0227 15.384 1306.3 0.0229 25.895 1138.9 0.0225 10 7.507 1408.2 0.0224 15.545 1317.6 0.0226 25.968 1131.4 0.0223 4 .7309. 1417.7 .0.0239. 14.724. 121 7.5 .0.0241 24.976. 1165.6 .0.02371 11 7.563 1411.0 0.0222 15.720 1328.8 0.0224 26.022 1123.1 0.0221 12 7.618 1414.2 0.0220 15.911 1341.1 0.0221 26.050 1)13.1 0.0219 5 .7.373 .1414.6 .0.0236. 14.890 123 13 7.633 1414.7 0.0218 16.064 1354.3 0.0219 25.979 1)00.0 0.0217 9.7 .0.0239 25.361 1164.0 .0.02341 14 7.453 1398.7 0.0216 15.904 1359.3 0.0217 25.455 1080.1 0.0216 15 6.674 1326.6 0.0214 14.558 6 7.380. 1409.4 0.0234 14.985 .125 1316.2 0.0215 23.265 1045.6 0.0214 9.7. 0.0236. 25.552. 1159.2. 0.0232 16 4.476 1107.3 0.0213 9.998 1144.7 0.0213 15.987 932.5 0.0213 7 7.391 1406.2 .0231. 15.096. 127 7.5 0.0234. 25.687. 11529. 0.02301 Table 4-16. Burnup and TH Feedback Parametersby Axial Node forAssembly BIS 8 .7.418. 1405.4 0229. 15.232. 129 3.0 .0.0231 .25.801 .1146.0. 0.02271 Axial Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 9 7A58. 1406.3 .0.0227 . 15.384 . 130 Node DP3 T-Fuel Spec. Vol SP37 T-Fuel Spec. Vol SP38 T-Fuel Spec. Vol 6.3 0.0229 25.895 .1138.9 0.02252 1 2.762 966.7 0.0237 5.898 915.5 0.0238 10.916 983.4 0.0240 10 7.507.1408.2 .0.0224 .15.545 13 2 4.552 1158.4 0.0236 9.386 1036.4 ao236 17.109 1108.6 0.0239 17.6 .0.0226 25.968 . 1131.4 0.02231 11 .7.563. 1411.0. 0.0222. 15.720 13 3 5.355 1227.7 0.0234 10.822 1076.5 0.0235 19.698 1)46.7 0.0237 28.8 .0.0224 26.022 .1123.1 .0.02211 4 5.652 1246.0 0.0232 11.328 1096.5 0.0233 20.700 1.152.4 0.0234 12.7.618.1414.2.0.0220. 15.911 13 5.748 1247.5 0.0230 11.512 1112.0 a231 21.122 1149.3 0.0232 41.1. 0.0221.26.050. 1113.1 0.02191 6 5.781 1245.3 0.0228 11.615 1126.3 0.0230 21.336 1143.7 0.0230 13 .7.633 1414.7 0.0218 16.064. 13 54.3 0.0219 25.979. 1100.0. 0.02172 7 5.807 1243.8 0.0227 11.715 1139.3 0.0228 21.477 1137.4 0.0228 14.7.453. 1398.7 0.0216. 15.904. 13 8 5.839 1243.8 0.0225 11.827 1150.7 0.0226 21.584 1130.8 0.0226 59.3 .0.0217 25.455 1080 .0.02161 9 5.879 1245.0 0.0223 11.947 1160.4 ao224 21.668 1)24.3 0.0224 15 . 6.674 1326.6 . 0.0214 14.558. 13 10 5.924 1247.0 0.0221 12.074 1168.6 0.0222 21.729 1117.6 0.0222 16.2 .0.0215 23.265 .1045.6 .0.02141 16.4.476 1107.3.0.0213 9.998 114 11 5.971 1249.4 0.0220 12.207 1176.1 0.022) 21.764 1110.4 0.0220 4.7 0.0213 15.987 932.5 0.02132 12 6.008 1251.4 0.02 18 12.336 1183.6 0.0219 21.751 1101.9 0.0219 13 5.990 1249.3 0.0217 12.401 119(.9 0.0217 21.609 1090.9 0.0217 14 5.781 1230.6 0.0215 12.161 1191.4 0.0216 21.020 1075.2 0.0215 16B951 I5 5.033 1159.5 0.0214 10.890 1157.2 0.0214 18.913 1041.4 0.0214 Axial. Burmup .DP2 to DPI. Burnup . DP3 to P37. Burnup SP37 16 3.045 943.3 0.0213 6.888 997.2 0.0213 12.312 924.4 0.0213 to O7381 Nede DP3 . FudI Svec Vdl . SP57 TFbel .Semvol 6PS -; Datapoint Fad .SwV.o or Statepoint EFPD/ Cycle Burnup - GWd/MTV 1 2.762. 966.7. 0.0237 .5.89 .915.5 DP2 0.0/Cy2 T-Fuel - F .0.0238 10.916 .983.4 .0.02401 DP3 145.3/Cy2 Spec. Vol. - f /lbm 2 4.552. 1158 . 0036. 9386. 1036 SP37 0.0 /Cy3 A 0.0236. 17.109. 1108.6. 02391 SP3S 210.9/ Cy3 I 151 Deleted: CIl Deleted: Februar T-- - - - -- --- -,- - - - - -,- - - - - - - - - X-!E - , -I, Deleted: 233 I BOOOOO-01717-5705-00064 REV 01 50 April 14, 1998
l I Table 4-17. Burnup and TH FeedbackParametersby Axial Node for Assembly Bl9 Deleted: Axial lBrop D to DP3. Burnp DP3 to S7. Bunup . S37 to SF38 vaial Burntp DP2 to DP3 Bun up DP3 to SP37 BAnup- SP37 to SP38 Boft . DP3 . ~d SeeVol Node DP3 T-Fuel SeC.Voi sr37 T-Fuel Spec. Vo SP38 T-Fael Spec.Vol SW- TFnFel . SOM.1. SPS 1 4.418 172.9 0.0247 9.054 1024.4 0.0249 14.010 947.8 0.0241 2 6.370 1357.2 0.0244 12.974 1135.9 0.0247 20.566 1065.0 0.0239 1. 4A18. 1172.9.0.0247 .9.054 1024 3 7.170 1418.1 0.0241 14.497 1188.2 0.0244 23.258 1101.6 0.0237 A 0.0249. 14.010.947.8 0.02411 4 7.366 1423.2 0.0239 14.896 1219.8 0.0242 24.217 1112.7 0.0235 5 7.347 1412.8 0.0236 14.950 1245.8 0.0239 24.565 1114.9 0.0232 2 .6370 1357.2.0.0244 12.974.113 1267.9 0.0237 24.738 1113.2 0.0230 5.9. 0.0247 20- 66. 1065.0.0239 6 7.295 1402.6 0.0233 14.966 7 7.263 1395.9 0.0231 15.019 1286.9 0.0234 24.870 1109.7 0.0228 3 7.170. 141S.1.0.0241 -1497. 118 8 7.254 1392.4 0.0229 15.108 1302.9 0.0232 24.989 1105.4 0.0226 87. 0.0244.23.258 .1101.6 0.02371 9 7.263 1390.8 0.0226 15.217 1316.3 0.0229 25.094 1100.9 0.0224 15.338 1327.7 0.0227 25.181 1096.1 0.0222 4 . 7366 .1423.2 0.0239. 14.896 . 121 10 7.283 1390.5 0.0224 9.8.0.0242.24.217 1112.7 0.02351 11 7.317 1391.4 0.0222 15.481 1339.0 0.0224 25.254 1090.5 0.0220 12 7.366 1393.9 0.0220 15.661 1351.6 0.0222 25.307 1082.6 0.0219 5 . 7.347 . 1412.8 . 0.0236. 14.950. 124 13 7.406 1396.1 0.0218 15.853 1365.8 0.0219 25.276 1070.0 0.0217 5.8 .0.0239.24565 .1114.9.0.02321 14 7.307 1386.2 0.0216 15.816 1373.1 0.0217 24.820 1048.1 0.0215 6 7.295 .1402.6 .0.0233. 14.966. 126 15 6.698 1327.4 0.0214 14.722 1333.5 0.0215 22.776 1007.6 0.0214 79.0.0237 .24.738. 1113.2.0.02301 16 4.770 1133.8 0. 213 10.570 1165.0 0.0213 15.942 890.5 0.0213 7 7.263.1395.9.0.0231 15.019 128
- 69. 0.0234 .24.70. 1109.7 0.02281 Table 4-18. Burnup and TH Feedback Parametersby Axial Node for Assembly B21 8 .7.254 .1392.4 .00229. 15.108. 130 2.9 .0.0232 .24989 1105A 0.02261 Axial Burnup DP2 to DP3 Burnup DP3to SP37 Burnup SP37 to SP38 9 7.263 . 1390.8 .0.0226. 15.217 .131 Node DP3 T-Fuel Spec. Vol SP37 T-Fuel SpecVol SP38 T-Fuel Spec.Vol 6.3 0.0229 .25.094.1100.9 .0.02241 I 2.756 96z8 0.0238 5.890 916.0 0.0238 10.185 930.1 0.0237 10 7.283 .1390.5 0.0224. 15.338 13 1053.8 0.0236 27.7 .0.0227 .25.181 .1096.1 .0.02221 2 4.577 1163.3 0.0237 9.440 1039.1 0.0237 16.306 11 7.317 .1391A .0.0222. 15A81 13 3 5.419 1236.3 0.0235 10.951 1081.0 0.0235 18.993 1094.3 0.0234 39.0. M24. 25.254. 1090.5. Q.20 4 5.755 1258.0 0.0233 11.523 1102.8 0.0234 20.076 1101.0 0.0232 12. 7.366. 1393.9 .0.0220. 15.661. 13 S 5.880 1261.8 0.0231 11.756 1119.4 0.0232 20.548 1098.0 0.0230 51.6. 0.0222. 25307 1082.6. Q02191 5.934 1261.1 0.0229 11.892 1134.5 0.0230 20.795 1092.5 0.0228 13 .7.406. 1396.1 0.0218 15.853 13 6
65.8 .0.0219.25.276 -1070.0 0.02171 7 5.974 1260.7 0.0227 12.016 1148.2 0.0228 20.962 1086.4 0.0226 14 .7.307. 1386.2 0.0216. 15.816. 13 8 6.018 1261.7 0.0225 12.148 1160.0 0.0226 21.097 1080.3 0.0225 73.1 .0.0217 .24.820 1048.1 .0.02151 9 6.070 1263.7 0.0223 12.287 1170.1 0.0224 21.212 1074.3 0.0223 15 .6.698 . 1327A 0.0214 .14.722 -13 10 6.126 1266.5 0.0222 12.432 1178.7 0.0223 21.307 1068.5 0.0221 33.5 .0.0215 .22.776 . 1007.6 0.02141 16 .4.770. 1133.8 .0.0213 .10.570. 11 11 6.182 1269.6 0.0220 12.581 1186.6 0.0221 21.378 1062.4 0.0220 65.0 0.0213.15.942 90.5.0.02131 12 6.223 1271.9 0.0218 12.719 1194.4 0.0219 21.397 1055.2 0.0218 1 6.198 1269.2 0.0217 12.775 1201.5 0.0217 21.264 1045.5 0.0216 I 13 14 5.964 1248.4 0.0215 12.495 1201.3 0.0216 20.629 1030.2 0.0215 18B211 Axal .Bunmup .DP2 to DP3. 15 5.165 1173.2 0.0214 11.138 1164.4 0.0214 18.390 994.2 0.0214 Bumup .DP3 to SF37 BUrDDP SP37 16 3.101 950.0 0.0213 6.997 1001.8 0.0213 11.750 878.8 0.0213 Nede P3 .T-Fed S Dl SM .T-Fuel . S8 Datapoint FudL -oc or Statevoint EFPDI Ccle Burnup - GWdlMfU I 2.756 .967.8 .0.0238 .5.890 .916.0 DP2 0.0 / Cy2 T-Fuel -F 0.0238. 10.185 .930.1 .0.02371 DP3 145.3 / Cy2 Spec. VoL -ft3 /lbm 2 4.577.1163.3.0.0237 9.440 1039 SP37 .O/lCy3 .1 0.0237. 16.306 1053.8. 0.02361 SP38 210.9/Cy3 F... [161 Deleted: C1A Deleted: Febrary
- - __ -. . . 1 Deleted: 233 BOOOOOO001717-5705-M064 REV 01 51 April14, 1998
I Table 4-19. Burnup and TH Feedback Parametersby Axial NodeforAssembly B25 Deleted: Axl unup DP2 to DP3. Burnup. DP3 to
/
SP37 . Burnip SP37 to S381
,4xW_ BUMup DP2 to DP3 _BupD DP3 to SP37 Burnup SP37 to SP38 ede . DM3. td .SDemVg1.
Node DP3 -Ful SDC.VOI SP37 T-Fuel Snec.Vl SP38 T-Fuel Spec.Vol SP37 .,T-Fvd -ec.Vel. SP38 1 3.682 1091.8 0.0244 7.724 988.5 0.0246 13.720 1022.9 0.0243 ERL SDt 2 5.486 1273.7 0.0242 11.382 1106.2 0.0244 20.261 1147.8 0.0241 1 .3.6S2. 1091.8 0.0244. 7.724.988. 3 6.380 1346.6 0.0240 13.067 1155.9 0.0242 22.966 1173.7 0.0239 5 .0.0246. 13.720. 1022.9 .0.02431 4 6.734 1367.3 0.0237 13.717 1187.3 0.0240 23.985 1173.4 0.0236 5 6.850 1368.7 0.0235 13.969 1212.2 0.0237 24.391 1167.0 0.0234 2. 5AS6 1273.7 0.0242 11.382 .110 6 6.894 1366.3 0.0232 14.118 1233.3 0.0235 24.596 1159.4 0.0231 6.2 .0.0244 20.261.1147.8 .0.02411 7 6.929 1365.0 0.0230 14.261 1251.4 0.0233 24.735 1151.3 0.0229 3 6.380.1346.6 0.0240. 13.067 .115 8 6.973 1365.5 0.0228 14.418 1267.0 0.0230 24.845 1142.9 0.0227 5.9 .0.0242. 22.966 1173.7 .O.O391 9 7.026 1367.4 0.0226 14.585 1280.3 0.0228 24.934 1134.4 0.0225 10 7.084 1370.2 0.0224 14.759 1291.9 0.0226 25.001 1125.7 0.0223 4 6.734 .1367.3 .0.037 .13.717 .118 7.3 0.0240.23.985 1173A .0.02361 11 7.145 1373.5 0.0222 14.942 1302.6 0.0223 25.047 1116.5 0.0221 12 7.195 1376.4 0.0220 15.122 1313.9 0.0221 25.057 1106.1 0.0219 5 6.S50. 1368.7 .0.0235 . 13.969. 121 13 7.186 1374.7 0.0218 15.231 1325.2 0.0219 24.947 1093.7 0.0217 2.2.0.0?37 .24.391 1167.0 0.02341 14 6.960 1354.2 0.0216 14.979 1326.4 0.0217 24.360 1077.4 0.0216 6 6.94 1366.3. 0.0232 . 14.118 123 15 6.179 1280.4 0.0214 13.586 1281.8 0.0215 22.146 1046.9 0.0214 3.3 0.0235 .24.596 .11594. 0.02311 16 4.238 1081.2 0.0213 9.459 1119.7 0.0213 15.267 925.7 0.0213 7 6.929. 1365.0.0.0230.14.261 125 1.4 0.0233. 24.735 . 1151.3 .002291 Table 4-20. Burnup and TH Feedback Parametersby Axial Node for Assembly B26 S 6.973. 1365.5 0.022S 1441S. 126 7.0 0.0230 .24.845. 1142.9 . 0.02271 Axial Burmup DP2 oDP3 Burnup DP3toSP37 Burnup SP37 to SP38 9 7.026 1367.4.0.0226.14.585 128 Node DP3 T.Fuel Spec. Vol SP37 T-Fuel SDec.VoI SP38 T-Fuel Spec.Vol 0.3.0.0228.24.934 11344 0.02251 I 2.154 882.3 0.0232 4.642 847.7 0.0233 7.904 847.9 0.0230 10 .7.0S4- 1370.2 0.0224 14.759. 12 2 3.590 1046.5 0.0231 7.506 960.1 0.0232 12.672 946.7 0.0229 91.9.0.0226 25.001. 1125.7 0.02231 11 .7.145. 1373.5 0.0222 14.942 13 3 4.280 1111.7 0.0229 8.776 1002.5 0.0230 14.790 980.5 0.0228 02.6. 0.0223. 25.047. 1116.5.0.02211 4 4.568 1132.6 0.0228 9.282 1023.6 0.0229 15.673 988.4 0.0227 12 7.195 1376.4 .0.0220. 15.122 .13 5 4.677 1136.6 0.0227 9.489 1039.5 0.0228 16.057 987.8 0.0225 13.9.0.0221 .25.057.1106.1.0.02191 6 4.721 1136.2 0.0225 9.603 1053.5 0.0226 16.258 984.4 0.0224 13 7.186 1374.7.0.021S .15.231 13 25.2 .0.0219.24.947 . 1093.7 .0.02171 7 4.752 1135.7 0.0224 9.700 1065.5 0.0225 16.394 980.2 0223 14.6.960. 13542. 0.0216 . 14.979 13 8 4.784 1136.1 0.0222 9.801 1075.8 0.0223 16.505 975.9 0.0221 26.4 . 0.0217 243W. 1077.4 .0.02161 9 4.821 1137.5 0.0221 9.907 1084.5 0.0222 16.601 971.8 0.0220 15 6.179- 1280.4 .0.0214. 13.586. 12 10 4.861 1139.4 0.0220 10.017 1092.0 0.0221 16.683 967.9 0.0219 81. .0.0215 22.146 .1046.9 .0.02141
- 16. 4.238 1081.2. 0.0213 .9.459 111 11 4.901 1141.6 0.0218 10.129 1098.8 0.0219 16.745 963.6 0.0218 9.7. 0.0213 15.267 925.7 0.02131 12 4.925 1142.8 0.0217 10.228 1105.4 0.0218 16.762 958.3 0.0216 I 13 4.891 1139.0 0.0216 10.248 1110.9 0.0216 16.638 9507 0.0215 14 4.679 1118.6 0.0215 9.972 1108.5 0.0215 16.069 937.2 0.0214 20B261 Axal Burp. DP2 to DP3.
15 4.025 1051.4 0.0213 8.818 1073.0 0.0214 14.195 903.8 0.0213 Buraup . DP3 to SP37 . Burnup SP37 16 2.413 864.9 0.0213 5.497 921.3 0.0213 8.944 803.2 0.0213 to S3 ibWP7 . .T-Fbel .SweCVoI . SP38
.__-Ve Datapoint or Sbatevoint EFPD/ Cycle Burnup - GWd/MTU 1 2.154 . 2.3 .0.0232 .4.642 .47.7 DP2 O.O/Cy2 T-Fuel - F 0.0233 .7904 . 47.9 .0.02301 DP3 145.3 /Cy2 Spec. VoL ftl Mm 2 3.590. 1046.5 0.0231 7.506 960.
SP37 0.0/Cy3 1 0.0232 12.672 946.7 .0.02291 SP38 210.9/Cy3 L...[ l71 Deleted: CIA Deleted: Februar V- - - - - - - - - - - - - - - - - - - - - - - - ------- - - - - - - - - - - T - t /: - '-. Deleted: 233 BOOOOOO-0171765705-OO06 REV 01 S2 April14, 198
I Table 4-2L Burnup and TH Feedback Parametersby Axial Node for Assembly B29 Deleted: Axial. Burup .DP2 o DP3. Bunup. DP3 to SP37. B mp .SP37 to SPWI Axial Bun up DP2 to DP3 Burip DP3 to SP37 Burnup SP37 to SP38 Node. DP3 .T4Fad SVeI Node DP3 T-Fuel Soec. Vol SP37 T-FueI SPe .VoI SP38 T-Fuel Spec. Vol SP_ . T-Fvel SVol SP3S 8 1 2.973 105.0 0.0241 6.290 916.9 0.0240 11.627 1002.9 0.0242 Fu S el 2 4.921 1210.1 0.0239 10.066 1037.8 0.0239 18.158 1127.3 0.0240 I 2.973. 1005.0.0.0241 .6.290 916. 3 5.848 1284.8 0.0237 1.729 1086.2 0.0237 20.954 1161.1 0.0238 9 .0240 11.627 1002.9. 0.02421 4 6.225 1306.3 0.0235 12.386 111&2 0.0235 22.091 1164.1 0.0235 5 6.364 1309.1 0.0233 12.655 1142.8 0.0233 22.588 1159.7 0.0233 2 4.921 1210.1 .0.0239. 10.066 103 1307.8 0.0230 12.808 1162.1 0.0231 22.845 1153.5 0.0231 7.8. 0.0239 18.158 .1127.3 0.02401 6 6.423 7 6.468 1307.0 0.0228 12.942 1177.7 0.0229 23.015 1146.8 0.0229 3 5S48. 1284.8 .0.0237 11.729. 108 8 6.516 1307.7 0.0226 13.082 1190.4 0.0227 23.148 1140.0 0.0227 6.2. 0.0237. 20.954 .1161.1. 0.02381 9 6.572 1309.6 0.0224 13.229 1200.8 0.0225 23.255 1133.2 0.0225 10 6.632 1312.3 0.0223 13.381 1209.6 0.0224 23.337 1126.1 0.0223 4 6.225 .1306.3 0.0235.12.386 111 8.2 .0.0235 .22.091 1164.1 0.02351 11 6.692 1315.3 0.0221 13.537 1217.5 0.0222 23.391 1118.4 0.0221 12 6.737 1317.7 0.0219 13.686 1225.4 0.0220 23.396 1109.3 0.0219 5 6.364 .1309.1 .0.0233 12.655 114 13 6.716 1315.3 0.0217 13.754 1233.0 0.0218 23.263 1098.1 0.0217 2.8 .0.0233 .22.588 .1159.7 .0.02331 14 6.477 1294.5 0.0215 13.475 1233.9 0.0216 22.660 1083.0 0.0216 6 .6.423 1307.8 .0.0230. 12.808 116 15 5.645 1217.7 0.0214 12.071 1198.1 0.0214 20.481 1054.1 0.0214 2.1 .0.0231 .22.845. 11535 .0.02311 16 3.440 988.1 0.0213 7.680 1033.8 0.0213 13.484 941.1 0.0213 7 .6.468. 1307.0.0.0228 12.942 117 7.7.0.0229.23.015 1146.8.0.02291 Table 4-22. Burnup and TH Feedback Parametersby Axial NodeforAssembly B30 8 .6.516. 1307.7. 0.0226. 13.082 119 OA .0.0227 .23.148 . 1140.0 0.02271 Axial Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 9 .6572 . 1309.6 .0.0224 13.229 120 Ng4 IŽP3 T-Fuel Spec.Vol SP37 T-Fuel Spec.Vol SP38 T-Fuel Spec.Vol 0.S .0.0225. 23.255. 1133.2. 0.02251 1 3.347 1063.1 0.0244 7.013 935.6 0.0243 13.250 1047.4 0.0245 10 6.632 1312.3 .0.0223. 13.381 .12 5.303 1262.3 0.0242 10.849 1050.3 0.0242 20.025 1173.4 0).0243 09.6.0.0224 23337 .1126.1 .0.02231 2 11 6.692. 1315.3 .0.0221 . 13537. 12 3 6.321 1339.8 0.0239 12.706 1105.6 0.0240 22.965 1200.1 0.0240 17.5 0.0222 .23.391 . 111S.4 .0.02211 4 6.736 1361.5 0.0237 13.457 1150.5 0.0238 24.132 1199.9 0.0238 12. 6.737 . 1317.7 .0.0219. 13.686 . 12 5 6.883 1363.5 0.0235 13.759 1183.1 0.0236 24.610 1193.3 0.0235 25A . 020 .23396 1109.3 0.02191 6 6.946 1361.7 0.0232 13.928 1206.0 0.0234 24.847 1185.4 0.0233 13 6.716. 1315.3 0.0217. 13.754 12 33.0. 0.0218. 23.263 1098.1 .0.02171 7 6.994 1360.8 0.0230 14.078 1223.8 0.0231 25.002 1177.2 0.0230 14 . 6.477 .12945 0.0215.13.475 .12 8 7.048 1361.7 0.0228 14.234 1238.2 0.0229 25.119 1169.2 0.0228 33.9 .0.0216.22.660. 1083.0 .0.02161 9 7.110 1363.8 0.0226 14.399 1250.1 0.0227 25.212 1161.2 0.0226 15 .5.645. 1217.7 0.0214.12.071 .11 10 7.176 1366.8 0.0224 14.568 1260.2 0.0225 25.280 1152.9 0.0223 98.1 .0.0214 .20.481 .1054.1 .0.02141 16 . 3.440 .988.1 .0.0213 .7.680. 1033 11 7.242 1370.3 0.0222 14.743 1269.5 0.0223 25.324 1144.0 0.0221 .8 0.0213. 13.484 941.1 0.02131 12 7.295 1373.1 0.0220 14.915 1278.8 0.0221 25.329 1133.8 0.0219 13 7.282 1371.3 0.0218 15.010 1288.0 0.0218 25.205 1121.4 0.0218 I 14 7.038 1350.2 0.0216 14.738 1289.2 0.0216 24.584 1104.3 0.0216 22B301 Axial Burnup .DP2 to DP3 I5 6.178 1272.0 0.0214 13.279 1250.3 0.0214 22.286 1074.2 0.0214 Burmup DP3 to SP37 .Burnup SP37 16 4.032 1055.8 0.0213 8.925 1090.8 0.0213 15.128 953.4 0.0213 o SP38¶ N DM_. V4 .S -Vol SP37 T-Fud SveVol sM~ Datapoint EgL LZ- L ES or Statevoint EFPD/ Cvele Burnup - GWd(MTU 1 3.347. 1063.1 .0.0244 7.013 935. DP2 0.0/ Cy2 T-Fuel - F 6 .om43. 13.250 1047A .0.02451 DP3 14S.3 / Cy2 Spec. VoL -ft'/lbm 2 5303 . 1262.3 .0.0242. 10.849. 105 SP37 0.0 / Cy3 0.3. 0.0242. 20.025 . 1173A .0.02431 SP38 210.9ICy3 Deleted: CIA Deleted: February
- - - - - -- - - -- - Deleted: 233 BOOOOOO-01717-S775S00064 REV 01 S3 April 14, 1998
I Table 4-23. Burnup and TH Feedback Parametersby Axial Nodefor Assembly B31 I Deleted: Axidl umap DP2 to DP3 Buup .DP3 to I SP37. Burnup SP37 to SP3S
,4xal Burnu DP2to DP3 Burn up DP3t SP37 Burnup SP37to SP38 Node DP3 T-Fuel Spec.VoI _SP37 T-Fucl Snec.Vol SP38 T-Fuel Spec. Vol 6P37 . T-Fbdl . SwecVol SP38 1 2.076 877.0 0.0232 4.446 822.3 0.0232 7.029 790.0 0.0227 FSd . HuDeC.VOIR~ I 2 3.535 1044.1 0.0231 7.317 929.3 0.0231 11.455 875.1 0.0226 I 2.076 8M0 .0.0232 4A46. S22.3 3 4.272 1111.7 0.0229 8.654 975.4 0.0230 13.496 903.4 0.0225 0.0232. 7.029. 790.0. 0.02271 4 4.588 1132.5 0.0228 9.207 1004.1 0.0229 14.378 912.6 0.0224 5 4.711 1136.3 0.0227 9.438 1025.6 0.0227 14.776 914.5 0.0223 2 3.535 1044.1. 0.231. 7317. 929.
6 4.763 1135.8 0.0225 9.561 1041.9 0.0226 14.991 913.6 0.0222 3 .0.0231. 11A55.S75.1 .0.02261 7 4.798 1135.3 0.0224 9.660 1054.5 0.0225 15.144 911.7 0.0221 3 4.272. 1111.7 .0.0229 .8.654 975. 8 4.833 1135.7 0.0222 9.760 1064.6 0.0223 15.273 909.5 0.0220 4 0.0230. 13.496 .903A .0.02251 9 4.873 11370 0.0221 9.863 1072.8 0.0222 15.391 907.3 0.0219 10 4.915 1138.9 0.0220 9.970 1079.7 0.0220 15.497 905.2 0.0218 4 4.588 .1132.5 0.028 9.207 1004
.1 .0.0229. 14.378. 912.6 02241 11 4.956 1141.0 0.0218 10.078 1085.9 0.0219 15.586 902.7 0.0217 12 4.982 1142.2 0.0217 10.173 1092.0 0.0218 15.630 899.1 0.0216 5 4.711. 1136.3 .0.0227. 9.438. 1025 13 4.947 1138.4 0.0216 10.191 1097.3 0.0216 15.532 892.5 0.0215 .6 0.0227. 14.776.914.5 0.02231 14 4.729 1117.9 0.0214 9.912 1095.2 0.0215 14.989 878.9 0.0214 6.4.763. 1135.8 O.225 9.561.1041 15 4.049 1049.7 0.0213 8.740 1061.0 0.0214 13.171 847.9 0.0213 .9. 0.0226. 14.991 .913.6 .0.02221 16 2.398 860.9 0.0213 5.403 911.8 0.0213 8.189 759.5 0.0213 7 .4.798 . 1135.3. 0.0224 .9.660. 1054
.5 0.0225. 15.144 911.7 0.02211 Table 4-24. Burnup and 7TH FeedbackParametersby Axial NodeforAssembly C2 8 .4.833.1135.7 .0.0222.9.760. 1064
.6 .0.0223 .15.273 .909.5 0.02201 Axial Burnup SP37to SP38 9 .4.873 .1137.0 O.021 9.863 1072 Node SP38 T-Fuel Spec. Vol .8 0.0222 15.391 .907.3. 0.02191 I 6.214 1156.6 0.0246 10 .4.915. 1138.9. O220 .9.970. 107 2 8.843 1332.1 0.0244 9.7 . 220 . 15.497 905.2 0.02182 11 .4.956. 1141.0. 0.0218 .10.078 10 3 10.110 1400.0 0.0241 85.9 .0.0219. 15.586 .902.7 .0.02171 4 10.639 1414.0 0.0239 12.4.982.1142.2.0.0217.10.173 10 5 10.862 1411.3 0.0236 92.0 0.0218. 15.630 .S99.1 0.0216l 6 10.955 1405.3 0.0233 13 .4.947. 1138A 0.0216 10.191 10 97.3 0.0216. 15.532 . 92.5 . 0.02151 7 10.980 1399.0 0.0231 14. 4.729. 1117.9. 0.0214. 9.912. 109 8 10.962 1393.0 0.0228 5.2. 0.0215 14.989 .78.9 .0.02141 9 10.912 1387.4 0.0226 15 4.049. 1049.7 0.0213. S.740. 106 10 10.833 1381.7 0.0224 1.0 0.0214. 13.171 47.9 .0.02131
- 16. 2.398 . 60.9 .0.0213 .5.403 911.
11 10.724 1375.5 0.0222 8 .0.0213 . .189 .759.5 .0.02132 12 10.579 1367.7 0.0220 1 13 10.372 1356.1 0.0218 21 14 9.989 1332.3 0.0216 Axial Burnp SP37 toSP3S. 15 9.076 1271.7 0.0214 Node, Am-, .lFvd SW-;Vol. 16 6.672 1106.5 0.0213 1. 6.214 1156.6 0.0246 . . 2 . .S43 1332-1 0.024 - -. 1 3 . 10.110 . 1400Q0 Q41 ...... Datapoint 4 . 10.639. 1414.0 . QU0239.............. or 5 IQS,62 . 1411.3 .Q0?36 . .. . . . Sttepoint EFPD/ Cycle Burnup - GWdIMTU 6 . 955 1405.3 .Q0233. DP2 0.0/Cy2 T-Fucl 7 I980
. 1399.0 .02Q31 ---
-J3 /lbm . Q96Z2. 1393.0 . D= ....
DP3 145.3 / Cy2 Spec. VoL 9 10.912 . 1387A . a226 . . SP37 0.0/Cy3 10. 10.833 .1381.7 .. 0224A . . . SP38 210.9 / Cy3 11 .10.724. 1375-5. oZ2 ... 1 Deleted: CIA Deleted: February y-~~~~~~~~~~~~~~~~~~~~~~~~~ tDeleted: 233 BOOOOOOO001717-5.705400064 REV 01 54 April 14, 1998
I Table 4-2 Burnup and TH Feedback Parametersby AxialNodeforAssembly C4
, 1 $xiqw Bwwup SP37to SP38 Deleted: Axiald Burnp P37to Node SP38 T-Fuel S&ec. Vol SP38 .~f1?..Ln. nsn 1 6.152 1150.1 0.0245 R2P T-Id SW-ol -I 1 6.152 1150.1 -.0245 ......
2 8.404 1302.2 0.0243 2 8.404 1302.2.0.0243 . 3 9.706 1374.2 0.0241 3.9.706 13742. 0.0241 ..... 4 10.305 1394.0 0.0238 4 10.305 1394.0 0.0238 -... S 10.573 1394.7 0.0235 5 10.573 1394.7 0.0235 ..-.- 6 10.694 1390.6 -0.0233 ... 6 10.694 1390.6 0.0233 7. 10.738. 1385.4 .00230 - - 1 7 10.738 1385.4 0.0230 S 10.736.1380.0.0.0228 .... 1 8 10.736 1380.0 0.0228 9. 10.699. 1374.7. 0226 ...... 9 10.699 1374.7 0.0226 10 10.630.1369.3 .0.0224 - - -- 11 10.529.1363.2 Q0222 .. 10 10.630 1369.3 0.0224 12. 10.36 .1355.2.00220 - - - 11 10.529 1363.2 0.0222 13. 10.177- 1343.1 .0.0218 . 12 10.386 1355.2 0.0220 14 9.730- 1318.1 0.0216 . 13 10.177 1343.1 0.0218 15. 8.878. 1257.7 -0.0214 ..... 16 6.S57 1117.8 -0.0213 . 2 14 9.780 1318.1 0.0216 15 8.878 1257.7 0.0214 16 6.857 1117.8 0.0213 26C61 Axil Burnp S37 to SP38 I ENde M2E TFod .SweVd I 1.5.458.1102.6.0.0245 . Table 4-26. Burnap and TH FeedbackParametersby Axial Nodefor Assembly C6 2 8.083 12834 0.0243 3 .9.427 1357.8 0.0241 .
- 4. 10.086 .1380.8 0.0238 ¶ Axial Burnup SP37 to SP38 5 . 10.432. 1385.8 0.0236 Node SP38 T-Fuel Spec. Vol 6. 10.630. 1385.3 .0.0233 .
1 5.458 1102.6 0.0245 7. 10.751.1384.5. 0.0231 ... ..
- 8. 10.825.1383.0 .0.0223 . .
2 8.083 1283.4 0.0243 9. 10.365. 1381.6. 0.0226 ¶ 3 9.427 1357.8 0.0241 10. 10.71 .138Q3 0.0224 4 10.086 1380.8 0.0238 11 10.39.1378.2.0.0222 ¶ 5 10.432 1385.8 0.0236 12 10.751 .1373.9 0.0220
- 13. 10.567 1364.3.0.0218 .
6 10.630 1385.8 0.0233 14. 10.163. 1340A .0.0216 1 7 10.751 1384.5 0.0231 15 9.178. 1276.6 .0.0214 . . 8 10.825 1383.0 0.0228 16 6.542. 1097.0.0.0213 1 9 10.865 1381.6 0.0226 I 10 10.871 1380.3 0.0224 I Datapoint 11 10.839 1378.2 0.0222 oi¶ 12 10.751 1373.9 0.0220 Stateoint FDIt 13 10.567 1364.3 0.0218 Qmde Bp - GWd/MTUI 14 10.163 1340.4 0.0216 SP37 0.0/Cy3 . TFud - VI SP38 210"9/ Cy3 Spec 15 9.178 1276.6 0.0214 VaL -llbml 16 6.542 1097.0 0.0213 Datapoint or Swatevoint EFPD/ Cycle Burnup - GWdIMTU SP37 0.0/ C7 3 T-Fucl - F SP38 210.9/Cy3 Spec. VoL -f /lbm f Deleted CA
- i Deleted: Febnr7 r____ _ _.
- _.- _- -_ _ - r o -- Deleted:233 1 B00000001717-5705-OO06 REV 01 55 April 14, 1998
I Table 4-27. Burnup and TH Feedback Parametersby Axial Node for Assembly C8
.j4al Burnup SP37 to SP38 Dekted:Axiad. Bu p. SP37o Node SP38 T-FueI ScVo 1 4.078 969.8 0.0240 R~ft .ftL .Td .2M S
1 .4.078 . 969.8 .0.0240 .. . 2 6.703 1160.2 0.0238 2 6.703 . 1160.2 .0.0238 ...... 3 7.992 1235.8 0.0236 3 7.992.1235.S80.0236 ... 4 8.638 1264.4 0.0234 4 .638. 12644 .0.0234 .... 5 9.0 12744. 0.0232 .. 1 5 9.000 1274.4 0.0232 6 9.230. 1277.9.0.0230 . 6 9.230 1277.9 0.0230 7 9.395.1279A 023 2 .... 1 7 9.395 1279.4 0.0228 8 .9.524. 12S0S .00226 1 8 9.524 1280.9 0.0226 9. 9.628. 1283.00.0224 1 9 9.628 1283.0 0.0224 10 .9.708. 1235.6 0.0222 1 11 .9.756. 128S.2.0.0220 .. .. 10 9.708 1285.6 0.0222 12. 9.743. 1289.0 0.0219 .... 11 9.756 1288.2 0.0220 13 .9.603. 12834 .0.0217 - 1 12 9.743 1289.0 0.0219 14. 9.159. 1260.1 .0.0215 . 1 13 9.603 1283.4 0.0217 15 .7.945 .1185.7 0.0214 . 16 .4.858. 967.1 .0.0213 1 14 9.159 1260.1 0.0215 1 15 7.945 1185.7 0.0214 1 16 4.858 967.1 0.0213 28C141 Axkl .Buup .SP37toSP3S I Nogde.SP3S l:TFbel Sw-d 1 1 5.588 . 1104.8.0.0246 -.-. 1 Table 4-28. Burnup and TH Feedback Parametersby Axial Nodefor Assembly C14 2 S.059 . 1270.1 .0.0244
- 3. 9.401 1347.0.0.242..
1
-. 1
- 4. 10.119. 1378.6. 0.0239 . . 9 Axial Burnup SP37 to SP38 5 10 527.1390.2. 0237 . 1 Node SP38 T.Fuel Spec. Vol 6 10.786 .1394.5 .0.0234 -. 1
- 7. 10.96S .1396.4 0.0232 1 1 5.588 1104.8 0.0246 8 11.102. 1397.9.0.0229 1 2 8.059 1270.1 0.0244 9 11.203. 1399.6 .0.0227 .
3 9.401 1347.0 0.0242 10. 11.271 . 1401.5.0.0224 . ... 1 4 10.119 1378.6 0.0239 11.11.298.1402.8 .0.0222 5 10.527 1390.2 0.0237 12.11.256 .1401.5.0.0220 1 13 .11.078.1393.1 .0.0218 .... 1 6 10.786 1394.5 0.0234 14. 10.592. 1365.6. 0.0216 1 7 10.968 1396.4 0.0232 15 .9.420. 1292.0 .0.0214 . 1 8 11.102 139Z9 0.0229 16.6.724 .1109-5 .O213. 1 9 11.203 1399.6 0.0227 1 10 11.271 1401.5 0.0224 Datopohlti 11 11.298 1402.8 0.0222 O11 12 11.256 1401.5 0.0220 Stateuont .ER 13 11.078 1393.1 0.0218 1e .u Braup . -GWdWM1VI
.SP37. 0.01 CY3 .... T-FudI -11 14 10.592 1365.6 0.0216 SP3 .2109/ Cy3 ... Spe.
15 9.420 1292.0 0.0214 Vol. -fte /llbr 16 6.724 1109.5 0.0213 Datapoint or Statevoint EFPD/ Cycle Burnup - GWdfMTU SP37 0.0ICy3 T-Fuel - 'F SP38 210.9ICy3 Spec. VoL -fs3 Ilbm
, Deleted: CIA
,_ _. _ . . _ _ _ _ _ , t
, 4Deeted: Febn
. ' _-Deketed: 233 H B000000-01717-5705-00064 REV 01 56 April14, 1998
I Table 4-29. Burnup and TH Feedback Parametersby Axial Node for Assembly C15 4xial Bunup SP37to SP38-__ - Deleted: Axil Bumup SP37 to Node SP38 T-Fuel Soec. Vol SP38-1 4.151 977.1 0.0240 N&. gm8 Tud SW-Vl1 e I 4.151 977.1.0.0240 ¶ 2 6.801 1168.5 0.0239 2.6.801.1168.5.0.0239 . 3 8.113 1245.2 0.0237 3 13 1245.20.0237 1 4 8.776 1274.6 0.0235 4 S.776 -1274.6 -0.0235 1 5.9.147. 125.0.0.0233 .1 5 9.147 1285.0 0.0233 6 9.384. 1288.S. 0.0230 1 6 9.384 1288.8 0.0230 7. 9.554 1290.5 0.0228 1 7 9.554 1290.5 0.0228 8 .9.686. 1292.2. 0.0226 1 8 9.686 1292.2 0.0226 9.9.794.1294A 0.0224 1 9 9.794 1294.4 0.0224 10 9.878. 12973 .0.0223 1 11 9.928 1300.0 0.0221 1 10 9.878 1297.3 0.0223 12 9.917 1301.0 0.0219 1 11 9.928 1300.0 0.0221 13.9.774 1295A. 0.0217 1 12 9.917 1301.0 0.0219 14 9.318. 1271.3 .0.0215 1 13 9.774 1295.4 0.0217 15 .. 083 1195.9 .0.0214 1 16.4.963.975.5.0.0213 . 14 9.318 1271.3 0.0215 ¶ 15 8.083 1195.9 0.0214 1 16 4.963 975.5 0.0213 30C17¶ Axial Burmsp. SP37 to SP38 ¶ Node SP38 .Titel . VL . 1 6.131.1144.6.0.0247 1 Table 4-30. Burnup and TH Feedback Parametersby Axial Node forAssembly C17 2 880 1322.0.0.0245 - - - - -1 3 10.162 .1391.3 .0.0242 1
- 4. 10.735. 1411.3. 0.0239 ¶ Axial Burnup SP37 to SP38 5. 11.013. 1413.5. 0.0236 ¶ Node SP38 T-Fuel Spec. Vol 6. 11.160. 1410.6. 0.0234 1 1 6.131 1144.6 0.0247 7. 11.233 1406.5. 0.0231 1 8 .11.258.1402.4. O229 -
2 8.880 1322.0 0.0245 9. 11.245. 1398.7. 0.0226 1 3 10.162 1391.3 0.0242 10. 112O .1395.0. OD224 - 1 4 10.735 1411.3 0.0239 11. 11.117.1390.7.0.0222. 1 5 11.013 1413.5 0.0236 12. 10.986. 1384.5 0.0220
- 13. 10.773 .1373.7 .0.0218 1 6 11.160 1410.6 0.0234 14. 10355. 1349.5 0.0216 1 7 11.233 1406.5 0.0231 15 .9.323 1283.7 .0.0214 1 8 11.258 1402.4 0.0229 16 6.587 1098.8 0.0213 . 1.
9 11.245 1398.7 0.0226 10 11.200 1395.0 0.0224 Datapoint I 11 11.117 1390.7 0.0222 12 10.986 1384.5 0.0220 S baeouEFPDI 13 10.773 1373.7 0.0218 D. Bp .-GWd/?J1UI SP37 0.0/Cy3 . T-Fud -F 14 10.355 1349.5 0.0216 SP38 210.9/ Cy3 . . Spec. 15 9.323 1283.7 0.0214 Vol .-fe/Ibm 16 6.587 1098.8 0.0213 Datapoint or Statevoint EFPD/ Cvcle Burnup - GWdIMTU SP37 0.0 /Cy3 T-Fucl - F SP38 210.9/Cy3 Spec. VoL -f'llbm Deleed CA
, Deted: February I
-, __ .t Deted:233 BOOOOOO-01717-5705-00064 REV 01 57 April 14, 1998
Table 4-3L Burnup and TH Feedback Parametersby Axial Nodefor Assembly C19 ,Axia Burnup SP37to SP38 Deleted: Axai Burnup SP37 to Node SP38 T-Fuel Soec.Vol 1 5.776 1118.8 0.0245 sp8 . P3S T-Fee SecVo. 1 5.776. 1118.8.0.0245 ...... 2 8.035 1269.2 0.0243 2. 8035. 1269.2 0.0243 . 1 3 9.266 1339.0 0.0240 3 .9.266 1339. 0.0240 . 1.... 4 9.907 1365.7 0.0238 4 9.907. 1365.7. 0.0238 ...... 5 10.251 1373.5 0.0235 5 10.251 . 1373.5 .0.0235 ...... 6 10.453 . 1374.6 .0.0233 . 6 10.453 1374.6 0.0233 7 10.575. 1373.6 .0.0230 .. . 7 10.575 1373.6 0.0230 8 10.647. 1372.1 0.0228 . 8 10.647 1372.1 0.0228 9.10.683.1370.6.0.0226 . . 9 10.683 1370.6 0.0226 10. 10.686. 1369.1 0.0224 11 . I.64S. 1366.6.0.0222 . . . . . . 10 10.686 1369.1 0.0224 12 .10.548.1361.6 0.0220 .... . 11 10.648 1366.6 0.0222 13. 10.339. 1350.4 0.0218 . 12 10.548 1361.6 0.0220 14 .9.s5 1323.1 .0.0216 ... ... 13 10.339 1350.4 0.0218 15 s..83 1257.7 0.0214. ... ..
- 16. 6.634 1103.2. 0.0213 ... . .¶ 14 9.885 1323.1 0.0216 I
15 8.883 1257.7 0.0214 1 16 6.634 1103.2 0.0213 32C211 Axial Bmnup. 37to SP38 Node SMsS. Mod S K -1o
- 1. 3.777 940.2. O237 .
Table 4-32. Burnup and TH FeedbackParametersby Axial Nodefor Assembly C21 2 6.202. 1120.2. 0.0235 . . 3 7.370. 1191.3. 0.0234 1 4 7.943 . 1217A .0.0232 . Axial Burnup SP37 to SP38 5 S.257 .1226.1 ..0230 . 1.... Node SP38 T-Fuel Spec. Vol 6 8.449. 1228.5 0.0228 ..... 1 3.777 940.2 0.0237 7 8.582. 1229.0 0.0226 .. .1 I 680 1229A .0.0225 . 1 2 6.202 1120.2 0.0235 9. 754. 1230.3. 0.0223 .. . 3 7.370 1191.3 0.0234 10. 8.807. 1231.8. 0.0221 . .... 4 7.943 1217.4 0.0232 1 8.829 1233.0. 0.0220 . ¶ 5 8.257 1226.1 0.0230 12 .. 797 1232.5 0.0218 . .
- 13. 8.650. 1226.0. 0.0216 ....
6 8.449 1228.5 0.0228 14. .233. 122.7. 0.0215 ...... 7 8.582 1229.0 0.0226 15 7.130. 1131.6. 0.0214 .. .. 8 8.680 1229.4 0.0225 16 4.352 926.7.0.0213 . ¶ 9 8.754 1230.3 0.0223 10 8.807 1231.8 0.0221 Datapoint 11 8.829 1233.0 0.0220 *1 12 8.797 1232.5 0.0218 Statt . P 13 8.650 1226.0 0.0216 Luft --- Burnup GWdMTU 14 8.233 1202.7 0.0215 SP37 0.01C7 3 T-Fud-- -n SP3. 210.9Cy3 . Spec. 15 7.130 1131.6 0.0214 Vol. -ftIIbni 16 4.352 926.7 0.0213 Datapoint or Statepoint EFPD/Cvele Burnup - GWdIMlU SP37 0.0/C 3 T-Fud - 'F SP38 210.9ICy3 Spec. VoL .Ji3/ am Deted: CA
,I Deleted: Febary .1
'-- - Deleted: 233 -
B000000-01717-B70S-00064 REV 01 58 April 14, 199
I Table 4-33. Burnup and TH Feedback Parametersby Axial Nodefor Assembly C25 Ixal _Bu-- SP37toSP38 Deleted: Axial Bumvp S to Node SP38 T-Fuel Spec.Vol SP3S. 1 4.848 1039.9 0.0242 L12k . P3S T-Fd. vecVo 1 4.348 . 10399. 0.M42 -. . 2 7.436 1220.1 0.0240 2 7.436. 1220.1 0.0240 3 8.750 1294.4 0.0238 3 .750. 12944 .0.0238 ..-. 4 9.408 1321.8 0.0236 4 .9AOS. 1321.S.0.0236 5 9.761 1329.9 0.0234 5 .9.761 . 13299.0.0234 ...... 6 9.970 1331.3 0.0231 6 .9.970. 1331.3.0.0231 1 7.10.105.1330.7.0.0229 7 10.105 1330.7 0.0229 . 10.194 .1330.1 .0.0227 ...... 8 10.194 1330.1 0.0227 9. 10.253. 1329.9 0.0225 -.-.- 9 10.253 1329.9 0.0225 10. 10.283.1330.1.0.0223 ...... 10 10.283 1330.1 0.0223 11 . 10.276 .1329.9. 0.0221 . . . 1
- 12. 10.209 .1327.6.0.0219 .. . ¶..
11 10.276 1329.9 0.0221 13 10.020 131.3.0.0217 . . ¶... 12 10.209 1327.6 0.0219 14 9.549 1292.2.0.0216 . 13 10.020 1318.8 0.0217 15 S.385 . 1218.9.0.0214 . 14 9.549 1292.2 0.0216 16 5.567- 1023.9.0.0213 . . 1.. 1 15 8.385 1218.9 0.0214 16 5.567 1023.9 0.0213 34C301 Axial Bap .SP7 to SP38 ¶ Noe. SPS. TFd . XS-Vd. ¶ I 3.747.943.3.0.0235 . . 1 Table 4-34. Burnup and TH Feedback Parametersby Axial Node forAssembly C30 2 6.224 1130.9 . 0.234 - - 3 7.399 1197.6.0.0232 ¶ 4 7.913. 1214.2.00231 .1 Axial Bunmup SP37to SP38 5 .150 1214.5.0.0229 . . 1 Node SP38 T-Fuel Spec. Vol 6 .264.1210.7.0.0227 . . 1 3.747 943.3 0.0235 7.S.317.1206A.0.0225 . . . - S S.336 1202.6.0.0224 . - 2 6.224 1130.9 0.0234 9..331. 1199A .0.0222 3 7.399 1197.6 0.0232 10.8.305.1196.S.0.0221. 1 4 7.913 1214.2 0.0231 11 . .254. 1194.1 .0.0219 - - - - 1 5 8.150 1214.5 0.0229 12 .164 1190.2 .21S - 13 7.999 .1182.3.0.0216 . .. 6 &264 1210.7 0.0227 14. 7.634 .1161.6 0.0215 . . 1 7 8.317 1206.4 0.0225 15. 6.663 . 1098A 0.0214 . . -1 8 8.336 1202.6 0.0224 16 .4.103 .905.3 0.0213 - 9 8.331 1199.4 0.0222 1 10 8.305 1196.8 0.0221 Datapoint 11 8.254 1194.1 0.0219 o11 12 8.164 1190.2 0.0218 Stm~int EFPD/ 13 7.999 1182.3 0.0216 C£ 1 -j Burnup - GWdMIrU2 14 7.634 1161.6 0.0215 .SP37 . A /CY3. . . T-Fte - SP38. 210.9 Cy3 .. .Spe. 15 6.663 1098.4 0.0214 VeL -fe'lbm¶ 16 4.103 905.3 0.0213 DatApoint or Statevoint EFPD/ Cvck Burnup - GWdIMTU SP37 0.0lCy3 T-Fuel - F SP38 210.9/Cy3 Spec. VoL -ftl bm Ieleted: Q
,e eed Febroary D
V
-- -- ---- ------ ---- -.. - --------- .9' {D leted 233 BOOOOOO001717-S705-00064 REV 01 59 April 14, 1998
Table 4-35. Rod Insertion Time by Axial Node for Assembly A6 Deleted: Table 4-3. Burnup and TR Feedback Parameter by Axal Node for Assembly D3IaTable 4-26. Buroup ,4xial- Time Rod Inserted (EFPD) and TB Feedback Paraneters by Axial Node SP37 to SP38 ' Node for Assembly F4Tble 4-47. Rod 1 154.1 Inserto Ibne by Axal Node for Assembly B2Sb 2 28.1 3 11.8 Deleted: Axial .Tne Rod Inserted 4 3.6 5 0.0 6 0.0 2 .28.11 7 0.0 3 11.81 8 0.0 4 .3.61 5.0.01 9 0.0 6 0.01 10 0.0 7 .0.01 11 0.0 12 0.0 980.0C mot 109l.0.0
.0.0 13 0.0 11 .oq 14 0.0 12.0.01 15 0.0 13.0.Ol 16 0.0 14. 001 15 .0.01 16.0.01 1
I Table 4-36. Rod Insertion Time by Axial Node for Assembly A25 Table 4-48. Rod Insertion line by Axial Node for Assembly B314 Axial Time Rod Inserted (EFPD) 36A25R Node SP37 to SP38 Ax . Tne RodInerted l h) Node .SP37 to SS 1 153.8 1. 153.81 2 28.0 2 28.01 3 12.0 3 .12.01 4 3.7 4. 3.71 5 0.01 s 0.0 6 0.01 6 0.0 7 .0.01 7 0.0 S 0.01 8 0.0 9 0.01 10 .0.01 9 0.0 11.0.01 10 0.0 12 0.01 11 0.0 13 0.01 12 0.0 14 0.01 13 0.0 15 0.01 16 0.01 14 0.0 15 0.0 I
¶ 16 0.0 I
Staltepoint EFPD lCwde SP37 .0 lCyS SP38.210.9ICY3 Statepoi EFPD/ Cyck SP37 0.0 / Cy3 SP38 210.9/ Cy3 lDeleted: CA) I Deleted: Fbrq Deleted: .. __ __ - -.-. - _. _. - Y_ W.- ___ Deeed 3 B00000401717 S705-00064 REV 01 60 Aprl 14, 1998
,Table 437. Rod Insertion me by Axial Node-frssem!ly A26 Deleted: Table 449. Rod Insertion iI Thne byAzi NodeforAenWDS 4, l Trn Rod Insered (EFPD) Deleted: Axial .Thne Rod Inserted Node SP37 to SP38 (EEP)1 Node 6 P37 to SPMS 1 154.5 1 154.51 2 28.1 2 28.11 3 11.9 3. 11J 4 3.5 4 3.9 5 0.0 5 .I 6.0.01 6 0(11 6 0.0 7 0.01 7 0.0 S. 0.01 8 0.0 9 0.1 9 0.0 10 .0.01 11 0.01 10 0.0 12.0.01 11 0.0 13 -0.01 12 0.0 14.0.01 13 0.0 15 0.01 16.0.01 14 0.0 15 0.0 1 16 0.0 1 Table 4-50. Rod Insertion llme by Axial Node for Assembly E14al 31A3ft Axial ime Rod bserted (EPD) Table 4-38. Rod Inserfion Time by Axial Nodefor Assembly A30 Nede DB2 to DB3 D.B3 t m 1.79.5.104.01
- 2. 13.1 .19.41 Axil Time Rod Inserted (EFPD) 3 .0. 12.41 Node DR2 to DB3 DB3 to SP37 4 .0.0.0.01 1 79.5 104.0 S. 0.0.0.01 6 . 0.0.01 2 13.1 19.4 7 .0.0.0.01 3 0.0 12.4 S . 0.0. 0.01 4 0.0 0.0 9 .0.0 .0.01 5 0.0 0.0 10 .0.0.0.01 11.0.0.0.01 6 0.0 0.0 12.0.0.0.01 7 0.0 0.0 13.0.0.0.01 8 0.0 0.0 14.00.0.01 9 0.0 0.0 15.0.0.0.01 16 0.0 0.01 10 0.0 0.0 11 0.0 0.0 1 12 0.0 0.0 1 13 0.0 0.0 Statevoint EZ ICyez DB2 0.0/ Cy2f 14 0.0 0.0 DB3 145.3 / Cy2j 15 0.0 0.0 SP37 .0.0/ C,3 16 0.0 0.0 Statepoint EFPDI C cle DB2 O./Cy2 DB3 145.3 / Cy2 SP37 0O/ Cy3 Deleted: CIA
- . Deleted: Febnq
. . .. . ..... . . . . . . .x_. T _ _. _ _, - - Dke BOOOOO-01717-570S-00064 REV 01 61 April 14, 1998
I Table4-39. CriticalBoron Datafor Sequoyah 2 Burnup Calculations Deleted: Table 4-81. CrIia Data for McGulre 1 Buraup Boron Calculations I , ppB A + B EFPD Deleted: . . ppmB A + EFPD A (PpmB) B (NymBIEFPD) .Cde4 .-~ A (y ) (nBDTM Crcle 1 .1003.27 -2A71 1 1003.27 -2.47 2. 986.95 -3.151 2 986.95 -3.15 3.1180.18. -3.11 3 1180.18 -3.11 4.2 Statepoint Critical Condition Measurements l Measured critical conditions for 3 reactor startups (or statepoints) are provided in,,Table 4-40. -- Deleted: Table4-52 I The data includes the initial startup of the reactor or beginning-of-life (BOL), the beginning-of-cycle (BOC) of reload cycle 3, and the reactor restart during cycles 3 of Sequoyah Unit 2. The cycle and statepoint number, along with the EFPD during the cycle for which the startup occurred, is provided. The elapsed time (in hours) since the reactor was shutdown (downtime) prior to the startup is also given for each statepoint. In addition, able4-40 provides the l -Deleted: ab 4-52 measured soluble boron concentration (ppmB), rod bank positions, and temperature of the moderator or coolant in the reactor (for each statepoint) when criticality was achieved. I 7Ale 4-41 provides iuidshutdown and startup dates for each cycle and tatepoint The ye-startuare or fu Ii
- - I Deleted: Table4-53 shutdown and startup dates can be used in determining the downtime for fuel assemblies that are out of the reactor for one or more cycles and are then reinserted in a later cycle.
.Deleted: CA Deleted: February I
, __ - -_ - _ -- _ , ,, - Deleted:233 J I 0000O0001717-S705-00064 REV oW 62 April 14, 1998
Table 4-40. Statepoint Data for Sequoyah Unit 2 - Measured Critical Conditions Downtime Rod Positions, cm above bottom of fuel* T(coolant) Cvde(SP) EFPD (hours) 1mB Bk CA Bk CB Bk CC Bk CD lF) I(SP36) 0.0 0 1296 WD WD WD 267 547.0 3(SP37) 0.0 1943 1661 WD WD WD 328 549.4 3(SP38) 210.9 23,896 922 WD WD WD 285 545.0 l ,Bk_=RodBank
,B RodBank-Deleted: - - - --- t Bk -RodBank ziziJ I
- Measured fromthe bottom of acive fue WD = Rod Witfi__
region to bottom of control rod absorber region (See Figure 2-) - - - -tDeleted:
'I'll Table 4-41. Statepoint Data for Sequoyah Unit 2 - Shutdown and Startup Dates Cvcle(SP) EFPD Shutdown Date Startup Date l(SP36) 0.0 - 05 Nov 1981 2(-)* 0.0 18 Jul 1983 12 Oct 1983 3(SP37)* 0.0 28 Sep 1984 18 Dec 1984 3(SP38) 210.9 21 Aug 1985 13 May 1988 377.3 (EOC) 18 Jan 1989 EOC = end-of-cycle
- Shutdown date is for previous cycle.
. ;Dbe: CA I. >Debted: February t_- _. _ _ _-__ -_ _ _ _ _ _ _ _ _
-~~~~~~~~~~~~~ r~
- _ _ _ _ _ _ _ __ _ __ _ _ _ _ _ _ T _ ,
~~~~~~~~~~
_4 _ _ eb : 38 I BOOOOOOOO-01717-570500064 REV 0,11 63 AprU 14, 18
I ,¶.0 CONCLUSIONS ---[ Deleted: Si CONLUSIONS J
,The data reportedherein is acceptableforgualityaffecting a tivities andfor use in analyses -- Deleted: The dalrated bu i is affecting procurement,construction, orfabrication. The classificationanalysisfor the abdvit fyo repository (which includes the waste package) carries TBV-228 because of the preliminary status pMicuxrut,cascei fiche or f0di IC of the basisfor the MGR design. This reportconservatively assumes that the resolution of TBV- C Tot cn ads the ste 228 willfind the waste package to be quality affecting; consequently, use of any of the data pa) cies TBV-22n. his n reported herein does not need to carry TBV-228. CeaoMueV-nwohuia of TBV-=2 wsuT
& ftd ihe will h packge to be Qi cquauty, use of any of the dra repdhein doe not ne to cawy TBV-2.
Deleted CA Deleted: February
, _ _Deleted:233
-- I B000000t01717-S70S-00064 RV t 64 April 14, 1998
I ,60. REFERENCES - Deleted: I
- 1. QualityAssurance ProgramforFramatome Cogema Fuels, Document Number 1177617-04, FCF, August 5, 1996.
,2._Classificationof the PreliminaryMGDS Repository Design, Document IdentifierNumber -- - Deleted: 2. Classication f due Prelimry UGDM S Ae hory Desig (DI#) B0000 0-01717-0200-00134REV 00, Civilian Radioactive Waste Management Document kdatifier Number (DI#)
System (CRWMS) Management and OperatingContractor(M&O). BOOO(oOOO-01717-020-4D134 REV 00, Civilian Radioactive Waste Management System (CRWMS) Managemet and l .QAP-2-0 Activity Evaluations, ID No. WP-06, Develop Technical Documents, CRWMS Operating Contractor (MAO). M&O, August 3, 1997. Deleted: 3. QAP-2-0 Activity Evaluaions 1 No. WPC6. Develop Technical Docanmn CRWMS M&O.
- 4. qualirv Assurance Requirements and Descrption,DOEIRW-0333P, REV 7, DOE OCRWM. August 3, 1997.
Deleted: QuaitysAurance l 5. Sequoyah 2 NEMO Depletion and Statepoints (HLW, Document Number: 32-12671,121, Requiremnents andDescripdon FCF. tDeleted: 65 Deketed: CIA Dekted: February
, _ _.----_--_ _i _ Xel - ed: 233 l I 1100000000-01717-S705400064 REV 01 65 April 14, 1998
Page vii: 11] Deleted aaude W Mays 12/19/1997 10:14 AM Table Page 2-1. Dimensions from Core Center to Outside Surface of Pressure Vessel ................................ 3 2-2. Sequoyah 2 Fuel Assembly/Core Data ......................................................... 6 2-3. Volume Fractions for Non-Fuel Regions for Non-Control Assemblies (STD) ................... 9 2-4. STD Fuel Rod Assembly Volume Fractions for Regions 3 and 5 ....................................... 9 2-5. Volume Fractions for STD Assemblies with RCCAs (0% Withdrawn) for Regions 1-3 ........................................................ 13 2-6. Volume Fractions for STD Fuel Assemblies with WABA or Pyrex BPRAs for Regions 2 - 3 ........................................................ 16 3-1. Fuel Assembly/Pinl/Cycle Description for Cycles 1-3 ....................................................... 22 3-2. Cycle Length and Time During Cycle Statepoint Data Measured for Cycles 1-3 ............. 23 3-3. Fuel Assembly Locations by Cycle for Burnup Calculations ............................................ 33 3-4. Control Rod and BA Loadings by Cycle for Burnup Calculations ................................... 34 4-1. Axial Node Spacings for Sequoyah 2 Burnup Calculations .............................................. 36 4-2. Burnup and TH Feedback Parameters by Axial Node for Assembly A6 .......................... 37 4-3. Burnup and TH Feedback Parameters by Axial Node for Assembly A8 .......................... 38 4-4. Burnup and TH Feedback Parameters by Axial Node for Assembly A15 ........................ 39 4-5. Burnup and TH Feedback Parameters by Axial Node for Assembly A21 ........................ 40 4-6. Burnup and TH Feedback Parameters by Axial Node for Assembly A2la ...................... 41 4-7. Burnup and TH Feedback Parameters by Axial Node for Assembly A25 ........................ 42 4-8. Burnup and TH Feedback Parameters by Axial Node for Assembly A25a ...................... 43 4-9. Bunup and TH Feedback Parameters by Axial Node for Assembly A26 ........................ 44 4-10. Burnup and TH Feedback Parameters by Axial Node for Assembly A26a ...................... 45 4-11. Burnup and TH Feedback Parameters by Axial Node for Assembly A29 ........................ 46 4-12. Burnup and TH Feedback Parameters by Axial Node for Assembly A29a ...................... 47 4-13. Burnup and TH Feedback Parameters by Axial Node for Assembly A30 ........................ 48 4-14. Burnup and TH Feedback Parameters by Axial Node for Assembly A31 ........................ 49 4-15. Burnup and TH Feedback Parameters by Axial Node for Assembly B14 ........................ 50 4-16. Burnup and TH Feedback Parameters by Axial Node for Assembly B15 ........................ 50 4-17. Burnup and TH Feedback Parameters by Axial Node for Assembly B19 ........................ 51 4-18. Burnup and TH Feedback Parameters by Axial Node for Assembly B21 ........................ 51 4-19. Burnup and TH Feedback Parameters by Axial Node for Assembly B25 ........................ 52 4-20. Burnup and TH Feedback Parameters by Axial Node for Assembly B26 ........................ 52 4-21. Burnup and TH Feedback Parameters by Axial Node for Assembly B29 ........................ 53 4-22. Burnup and TH Feedback Parameters by Axial Node for Assembly B30 ........................ 53 4-23. Burnup and TH Feedback Parameters by Axial Node for Assembly B31 ........................ 54 4-24. Burnup and TH Feedback Parameters by Axial Node for Assembly C2 .54 4-25. Burnup and TH Feedback Parameters by Axial Node for Assembly C4 .55 4-26. Burnup and TH Feedback Parameters by Axial Node for Assembly C6 .55 4-27. Burnup and TH Feedback Parameters by Axial Node for Assembly C8 .56 4-28. Burnup and TH Feedback Parameters by Axial Node for Assembly C14 .56 4-29. Burnup and TH Feedback Parameters by Axial Node for Assembly C15 .57 4-30. Burnup and TH Feedback Parameters by Axial Node for Assembly C17 .57 4-31. Burnup and TH Feedback Parameters by Axial Node for Assembly C19 ........................ 58
LIST OF TABLES (Cont'd) Table Page 4-32. Burnup and TH Feedback Parameters by Axial Node for Assembly C21 ........................ 58 4-33. Burnup and TH Feedback Parameters by Axial Node for Assembly C25 ........................ 59 4-34. Burnup and TH Feedback Parameters by Axial Node for Assembly C30 ........................ 59 4-35. Rod Insertion Time by Axial Node for Assembly A6 ....................................................... 60 4-36. Rod Insertion Time by Axial Node for Assembly A25 ..................................................... 60 4-37. Rod Insertion Time by Axial Node for Assembly A26 ..................................................... 61 4-38. Rod Insertion Time by Axial Node for Assembly A30 ..................................................... 61 4-39. Critical Boron Data for Sequoyah 2 Burnup Calculations ................................................ 62 4-40. Statepoint Data for Sequoyah Unit 2 - Measured Critical Conditions .............................. 63 4-41. Statepoint Data for Sequoyah Unit 2 - Shutdown and Startup Dates ................................ 63 Page 23: (2] Deleted aaude W Mays 11/17/1997 2:37 PM Each fuel assembly is given a unique alpha-numeric designation which is then used in tracking the fuel assembly through its entire period of operation. This includes both the time that each fuel assembly was in the reactor during reactor operation (i.e., producing power) and the time spent in a non-power producing mode (e.g., in the reactor during shutdown or in the spent fuel pool). Starting with the letter A for cycle 1, each subsequent cycle is assigned a unique letter designation (B for cycle 2, C for cycle 3, to G for cycle 7). In addition, each one-eighth core location is assigned a unique number. As noted in Table 2-2, the McGuire Unit 1 reactor contains 193 fuel assemblies. Assuming eighth core symmetry reduces this number to 31 fuel assemblies represented. Thus, the assemblies are numbered 1 through
- 31. Starting at the center of the core, location H8 is number 1. Numbers 2 through 8 are assigned to locations G8 through A8. Proceeding from left to right (then down), number 9 is assigned to location G9, number 15 to location A9, number 16 to location FIO, number 22 to location El , etc. to number 31 being assigned to location B13.
Using this nomenclature, the assemblies in cycle I are labeled Al (for H8) through A31 (for B 13). For subsequent cycles, a complete set of labels is not required since a combination of burned and fresh fuel is used. From Figure 3-9 it is seen that the first fresh fuel assembly encountered in cycle 2 is in location A8. Thus, the cycle 2 labeling for new fuel starts with assembly B8. Figures 3-9 through 3-15 were constructed by applying this nomenclature to the fuel assembly location data given in Figures 3-1 through 3-7. Note that the nomenclature accommodates the shuffling of symmetric components of fuel assemblies to two separate locations in the one-eighth core representation. This is seen in Figure 3-10 where assembly A21 from core location AIO (representing 8 fuel assemblies in the core) in cycle 1 was shuffled for cycle 2 to core locations FIO and G9 (each representing 4 fuel assemblies in the core). The assembly represented at location G9 was then given the identification A2Ia. One of the four MKBW (batch 7C) assemblies represented by number E2 at location F10
in cycle 6 (see Figure 3-14) was removed from the core at the end of cycle 6, and the remaining three assemblies were shuffled into full core locations symmetric to location G9 in cycle 7. Assembly number E12 (batch 7A) from core location D8 in cycle 6 was shuffled to location G9 in cycle 7. For the statepoint calculations in cycle 7 (SP49, SP50, and SP5 1), a one-eighth core representation can be used with assembly number E2 inserted in location G9. However, for the BOC statepoint (SP49), a full core representation should be analyzed with assembly number E12 in location G9 and assembly number E2 in the three full-core symmetric locations (i.e., locations J7, G7, and J9). This will quantify the effect on kcff of making the one-eighth core approximation for the cycle 7 statepoints. Page 37: (3] Deleted aaude W Mays 04/13/1998 8:21 AM Axial Burnup SP36 to DP1 Burnup DP1 to DP2 Burnup DP to DP3 Node DP1 T-Fuel Sec.Vol DP2 T-Fuel Sec.Vol DP3 T-Fuel Spec.Vol 1 2.324 835.5 0.0241 6.422 961.1 0.0242 8.558 820.0 0.0227 2 4.693 1048.9 0.0240 12.057 1159.7 0.0240 15.350 888.1 0.0226 3 6.555 1202.1 0.0238 15.680 1226.5 0.0238 19.358 890.8 0.0225 4 7.810 1296.5 0.0236 17.478 1232.9 0.0235 21.239 879.9 0.0224 5 8.631 1355.0 0.0234 18.293 1211.8 0.0233 22.045 872.0 0.0223 6 9.162 1390.3 0.0232 18.646 1185.6 0.0231 22.372 865.7 0.0222 7 9.503 1411.3 0.0229 18.801 1163.0 0.0229 22.508 861.2 0.0221 8 9.715 1424.1 0.0227 18.889 1146.9 0.0227 22.587 858.0 0.0220 9 9.831 1431.4 0.0225 18.971 1138.1 0.0225 22.665 855.4 0.0219 10 9.855 1433.7 0.0223 19.064 1137.4 0.0223 22.758 853.2 0.0218 11 9.759 1428.4 0.0220 19.146 1145.3 0.0221 22.842 851.3 0.0217 12 9.474 1409.7 0.0218 19.132 1162.1 0.0219 22.830 849.9 0.0216 13 8.875 1365.7 0.0216 18.797 1184.0 0.0217 22.485 848.8 0.0215 14 7.765 1277.6 0.0215 17.630 1194.3 0.0216 21.236 845.6 0.0214 15 5.879 1120.0 0.0213 14.571 1145.5 0.0214 17.834 837.2 0.0213
16 3.085 857.0 0.0213 8.321 963.9 0.0213 10.455 766.9 0.0213 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Sec.Vol SP38 T-Fuel Sec.Vol 1 11.026 796.9 0.0228 14.243 831.8 0.0234 2 18.940 845.2 0.0227 24.922 962.8 0.0233 3 23.243 848.6 0.0226 30.319 988.5 0.0231 4 25.166 850.4 0.0225 32.671 983.2 0.0229 5 25.970 853.4 0.0224 33.655 977.0 0.0228 6 26.303 857.7 0.0223 34.032 970.9 0.0226 7 26.459 862.4 0.0222 34.184 964.9 0.0224 8 26.564 866.6 0.0221 34.258 958.9 0.0223 9 26.671 869.9 0.0220 34.309 952.7 0.0222 10 26.792 872.3 0.0219 34.352 946.1 0.0220 11 26.908 874.3 0.0218 34.368 939.0 0.0219 12 26.938 877.1 0.0217 34.276 931.3 0.0217 13 26.646 881.5 0.0216 33.839 922.8 0.0216 14 25.420 886.3 0.0215 32.417 912.7 0.0215 15 21.795 879.6 0.0214 28.340 897.8 0.0214 16 13.224 820.8 0.0213 17.965 838.0 0.0213 Datapoint or StatePointEFPD / Cycle Burnup - GWd/MTU SP36 0.0/ Cyl T-Fuel - r DPI 187.06/ Cyl Spec. Vol. - f3/Ibm DP2 0.0 / Cy2 DP3 145.3/ Cy2 SP37 0.0 / Cy3 SP38 210.9 / Cy3 aaude W Nays Page 39: 14] Deleted aaude W Mays 04/13/1998 8:22 AM Axial Burnup SP36 to DP1 Burnup DPI to DP2 Burnup DP2 to DP3 Node DP1 T-Fuel Sec.Vol DP2 T-Fuel Sec.Vol DP3 T-Fuel Spec.Vol 1 1.963 785.9 0.0232 5.273 878.0 0.0231 9.638 1060.9 0.0239 2 3.732 943.9 0.0232 9.221 1019.2 0.0230 15.669 1173.5 0.0237 3 5.032 1054.8 0.0230 11.529 1061.6 0.0229 18.434 1171.2 0.0235 4 5.912 1123.7 0.0229 12.708 1062.6 0.0228 19.458 1138.2 0.0232 5 6.486 1166.0 0.0228 13.264 1047.9 0.0226 19.748 1108.0 0.0230
6 6.857 1191.1 0.0226 13.515 1029.8 0.0225 19.777 1086.7 0.0228 7 7.095 1205.3 0.0225 13.633 1014.2 0.0223 19.740 1072.3 0.0227 8 7.246 1213.9 0.0223 13.708 1003.2 0.0222 19.706 1062.2 0.0225 9 7.333 1219.3 0.0221 13.780 997.5 0.0221 19.699 1054.1 0.0223 10 7.356 1221.8 0.0220 13.858 997.5 0.0220 19.722 1047.5 0.0222 11 7.296 1219.6 0.0218 13.927 1003.6 0.0218 19.768 1043.0 0.0220 12 7.104 1208.1 0.0217 13.921 1015.6 0.0217 19.798 1042.8 0.0218 13 6.687 1178.3 0.0215 13.680 1030.3 0.0216 19.663 1049.4 0.0217 14 5.898 1113.7 0.0214 12.837 1035.2 0.0215 18.930 1062.7 0.0215 15 4.529 993.5 0.0213 10.683 1002.1 0.0213 16.484 1059.5 0.0214 16 2.408 789.5 0.0213 6.206 858.2 0.0213 10.172 951.0 0.0213 Axdi Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Svec.Vol SP38 T-Fuel Spec.Vol 1 13.826 915.1 0.0238 18.692 904.1 0.0236 2 21.492 976.0 0.0237 28.439 976.4 0.0235 3 24.566 988.1 0.0235 32.296 1001.5 0.0233 4 25.535 998.2 0.0234 33.610 1009.4 0.0231 5 25.754 1010.3 0.0232 34.002 1009.2 0.0229 6 25.760 1022.5 0.0230 34.094 1006.2 0.0227 7 25.736 1033.3 0.0228 34.102 1001.9 0.0226 8 25.732 1041.8 0.0226 34.092 997.1 0.0224 9 25.754 1047.9 0.0225 34.078 991.9 0.0222 10 25.804 1051.8 0.0223 34.066 986.2 0.0221 11 25.886 1054.9 0.0221 34.055 979.7 0.0219 12 25.984 1059.4 0.0219 34.021 971.5 0.0218 13 25.984 1068.7 0.0218 33.837 960.6 0.0216 14 25.427 1082.8 0.0216 32.995 944.7 0.0215 15 22.857 1086.0 0.0214 29.824 916.6 0.0214 16 14.833 997.3 0.0213 19.824 842.0 0.0213 Datapoint or StatevointEFPD / Cycle Burnup - GWd/IMU
SP36 0.0/ Cyl T-Fuel - TF DPI 187.06/ Cyl Spec. Vol. - ft3 / Ibm DP2 0.0 / Cy2 DP3 145.3 / Cy2 SP37 0.0 / Cy3 SP38 210.9/ Cy3 ClueWMy Page 40: [5] Deleted Claude W Mays 04/1311998 8:22 AM Axial Burnup SP36 to DP1 Burnup DPI to DP2 Burnup DP2 to DP3 Node DP1 T-Fuel Sec.Vol DP2 T-Fue Sec.Vol DP3 T-Fuel Spec.Vol 1 1.650 749.8 0.0229 4.496 838.3 0.0229 8.227 1038.4 0.0239 2 3.154 885.8 0.0228 7.975 975.6 0.0228 13.715 1157.3 0.0238 3 4.272 984.7 0.0227 10.057 1023.8 0.0227 16.425 1170.2 0.0235 4 5.031 1048.8 0.0226 11.126 1027.0 0.0226 17.520 1149.6 0.0233 5 5.526 1087.0 0.0225 11.628 1013.6 0.0224 17.903 1128.7 0.0231 6 5.844 1110.0 0.0224 11.849 997.4 0.0223 18.012 1113.6 0.0229 7 6.046 1123.5 0.0222 11.948 983.4 0.0222 18.037 1103.7 0.0227 8 6.172 1131.6 0.0221 12.008 973.5 0.0221 18.050 1097.0 0.0225 9 6.241 1136.2 0.0220 12.064 968.4 0.0220 18.077 1091.8 0.0224 10 6.255 1137.7 0.0219 12.126 968.5 0.0219 18.123 1087.4 0.0222 11 6.197 1134.6 0.0217 12.180 974.1 0.0218 18.174 1084.3 0.0220 12 6.023 1122.5 0.0216 12.165 984.5 0.0216 18.183 1083.9 0.0219 13 5.655 1093.1 0.0215 11.931 996.8 0.0215 18.000 1087.9 0.0217 14 4.967 1033.8 0.0214 11.148 1000.0 0.0214 17.225 1094.3 0.0215 15 3.788 924.0 0.0213 9.179 962.5 0.0213 14.871 1080.7 0.0214 16 1.999 749.2 0.0212 5.237 818.0 0.0213 9.082 964.0 0.0213 Axial Burnup DP3 to SP37 Burnup SP37 to SP38
Node SP37 T-Fuel SPec.VoI SP38 T-Fuel Sec.Vo! 1 12.145 905.0 0.0240 16.853 906.3 0.0237 2 19.408 975.1 0.0238 26.255 978.9 0.0236 3 22.617 1000.0 0.0237 30.355 1009.5 0.0234 4 23.794 1026.3 0.0235 31.982 1020.7 0.0232 5 24.173 1044.1 0.0233 32.617 1024.2 0.0230 6 24.287 1056.1 0.0231 32.892 1024.7 0.0228 7 24.343 1066.3 0.0229 33.052 1023.7 0.0227 8 24.400 1074.7 0.0227 33.177 1022.1 0.0225 9 24.473 1081.1 0.0225 33.291 1020.2 0.0223 10 24.564 1085.9 0.0223 33.396 1018.1 0.0221 11 24.668 1090.2 0.0222 33.481 1015.0 0.0220 12 24.758 1095.8 0.0220 33.501 1010.1 0.0218 13 24.701 1105.0 0.0218 33.289 1001.1 0.0217 14 24.055 1117.3 0.0216 32.313 984.5 0.0215 15 21.482 1115.6 0.0214 28.986 950.6 0.0214 16 13.842 1016.0 0.0213 19.102 863.9 0.0213 Datapoint or StatevointEFPD / Cycle Burnup - GWd/MTU SP36 0.0/ Cyl T-Fuel - T DPI 187.06/ Cyl Spec. VoI. - ft3 Ibm DP2 0.0 / Cy2 DP3 145.3 / Cy2 SP37 0.0 / Cy3 SP38 210.9 / Cy3 Page 41: 6] Deleted aaude W Mays 04/13/1998 8:22 AM Axial Burnup SP36 to DPI Burnup DP1 to DP2 Burnup DP2 to DP3 Node DPI T-Fuel Spec.Vol DP2 T-Fuel Sec.VoI DP3 T-Fuel Spec.Vol 1 1.650 749.8 0.0229 4.496 838.3 0.0229 8.605 1059.4 0.0239 2 3.154 885.8 0.0228 7.975 975.6 0.0228 14.264 1180.8 0.0237 3 4.272 984.7 0.0227 10.057 1023.8 0.0227 16.936 1185.1 0.0235 4 5.031 1048.8 0.0226 11.126 1027.0 0.0226 17.890 1153.3 0.0232 5 5.526 1087.0 0.0225 11.628 1013.6 0.0224 18.127 1122.9 0.0230 6 5.844 1110.0 0.0224 11.849 997.4 0.0223 18.117 1101.0 0.0228
7 6.046 1123.5 0.0222 11.948 983.4 0.0222 18.051 1086.2 0.0226 8 6.172 1131.6 0.0221 12.008 973.5 0.0221 17.994 1075.7 0.0225 9 6.241 1136.2 0.0220 12.064 968.4 0.0220 17.966 1067.5 0.0223 10 6.255 1137.7 0.0219 12.126 968.5 0.0219 17.970 1060.7 0.0221 11 6.197 1134.6 0.0217 12.180 974.1 0.0218 18.000 1056.2 0.0220 12 6.023 1122.5 0.0216 12.165 984.5 0.0216 18.021 1056.3 0.0218 13 5.655 1093.1 0.0215 11.931 996.8 0.0215 17.896 1063.5 0.0217 14 4.967 1033.8 0.0214 11.148 1000.0 0.0214 17.215 1076.1 0.0215 15 3.788 924.0 0.0213 9.179 962.5 0.0213 14.929 1068.6 0.0214 16 1.999 749.2 0.0212 5.237 818.0 0.0213 9.125 955.5 0.0213 Ax Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Spec.Vol SP38 T-Fuel Sec.Vol 1 12.501 883.5 0.0238 17.313 911.9 0.0237 2 19.870 944.0 0.0237 26.753 982.0 0.0235 3 22.959 966.6 0.0235 30.658 1008.5 0.0233 4 23.934 994.0 0.0234 32.029 1016.6 0.0232 5 24.130 1014.4 0.0232 32.445 1018.3 0.0230 6 24.108 1029.1 0.0230 32.550 1017.3 0.0228 7 24.061 1041.2 0.0228 32.573 1015.0 0.0226 8 24.038 1050.7 0.0226 32.582 1012.1 0.0224 9 24.043 1057.4 0.0225 32.589 1008.6 0.0223 10 24.077 1061.9 0.0223 32.597 1004.6 0.0221 11 24.145 1065.1 0.0221 32.606 999.6 0.0220 12 24.238 1069.8 0.0219 32.593 992.6 0.0218 13 24.249 1079.2 0.0218 32.430 982.3 0.0217 14 23.737 1094.4 0.0216 31.621 966.6 0.0215 15 21.301 1096.4 0.0214 28.563 938.7 0.0214 16 13.737 1002.8 0.0213 18.959 862.6 0.0213 Datapoint or StatevointEFPD / Cycle Burnup - GWd/MTU SP36 0.0 / Cyl T-Fuel - Tf DPI 187.06 / Cyl Spec. Vol. - f3/ Ibm
DP2 0.0 / Cy2 DP3 1453 / Cy2 SP37 0.0 / Cy3 SP38 210.9 / Cy3 aaude W Nays 04113/1998 8:23 AM Page 42: [7] Deleted aaude W Mays 04/13/1998 8:23 AM Axial Burnup SP36 to DP1 Burnup DPI to DP2 Burnup DP to DP3 Node DP1 T-Fuel Svec.Vol DP2 T-Fuel Sec.Vo! DP3 T-Fuel Spec.Vol 1 2.226 817.2 0.0236 5.991 922.0 0.0235 9.190 967.9 0.0238 2 4.267 998.1 0.0235 10.591 1082.1 0.0234 15.621 1076.7 0.0236 3 5.798 1126.9 0.0234 13.355 1127.3 0.0232 19.082 1089.9 0.0234 4 6.837 1204.1 0.0232 14.770 1127.0 0.0230 20.662 1076.2 0.0232 5 7.516 1250.9 0.0230 15.434 1110.6 0.0229 21.323 1061.8 0.0230 6 7.954 1278.6 0.0229 15.731 1090.4 0.0227 21.591 1052.2 0.0228 7 8.236 1295.0 0.0227 15.872 1072.8 0.0225 21.714 1045.9 0.0226 8 8.416 1305.1 0.0225 15.960 1060.3 0.0224 21.799 1041.6 0.0225 9 8.520 1311.5 0.0223 16.043 1053.6 0.0222 21.888 1038.4 0.0223 10 8.550 1314.7 0.0221 16.136 1053.3 0.0221 21.992 1035.7 0.0221 11 8.484 1312.7 0.0219 16.218 1059.8 0.0219 22.089 1033.5 0.0220 12 8.263 1300.1 0.0218 16.217 1073.0 0.0218 22.109 1032.6 0.0218 13 7.779 1266.9 0.0216 15.944 1089.2 0.0216 21.847 1033.0 0.0217 14 6.858 1195.9 0.0214 14.974 1095.2 0.0215 20.797 1033.7 0.0215 15 5.257 1062.0 0.0213 12.450 1062.5 0.0214 17.796 1019.9 0.0214 16 2.788 826.7 0.0213 7.202 903.2 0.0213 10.771 911.6 0.0213 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Spec.Vol SP38 T-Fuel Sec.Vol 1 12.619 854.3 0.0237 15.316 783.2 0.0231
2 20.698 913.1 0.0236 25.918 903.8 0.0230 3 24.700 942.4 0.0234 30.980 930.1 0.0228 4 26.434 974.0 0.0233 33.131 926.7 0.0227 5 27.141 994.4 0.0231 34.013 921.3 0.0225 6 27.439 1007.3 0.0229 34.352 915.7 0.0224 7 27.604 1017.3 0.0228 34.508 909.8 0.0223 8 27.738 1025.1 0.0226 34.605 903.8 0.0221 9 27.876 1031.2 0.0224 34.685 897.9 0.0220 10 28.027 1035.7 0.0222 34.758 891.8 0.0219 11 28.178 1039.7 0.0221 34.811 885.3 0.0218 12 28.269 1044.5 0.0219 34.779 877.9 0.0217 13 28.103 1051.8 0.0217 34.457 869.1 0.0215 14 27.120 1059.3 0.0216 33.246 856.9 0.0214 15 23.847 1046.4 0.0214 29.437 837.6 0.0213 16 15.097 961.2 0.0213 18.981 777.2 0.0213 Datapoint or StatevointEFPD / Cycle Burnup - GWdAITU SP36 0.0/ Cyl T-Fuel - t DP1 187.06/ Cyl Spec. Vol. - f3/ lbm DP2 0.0 / Cy2 DP3 145.3 / Cy2 SP37 0.0 / Cy3 SP38 210.9 / Cy3 aaude W Mays 04/13/1998 8:23 AM Page 43: [8] Deleted aaude W Mays 04/13/1998 8:23 AM Axial Burnup SP36 to DP1 Burnup DPI to DP2 Burnup DP2 to DP3 Node DPI T-Fuel Sec.Vol DP2 T-Fuel Sec.Vol DP3 T-Fuel Spec.Vol 1 2.226 817.2 0.0236 5.991 922.0 0.0235 9.190 967.9 0.0238 2 4.267 998.1 0.0235 10.591 1082.1 0.0234 15.621 1076.7 0.0236 3 5.798 1126.9 0.0234 13.355 1127.3 0.0232 19.082 1089.9 0.0234 4 6.837 1204.1 0.0232 14.770 1127.0 0.0230 20.662 1076.2 0.0232 5 7.516 1250.9 0.0230 15.434 1110.6 0.0229 21.323 1061.8 0.0230 6 7.954 1278.6 0.0229 15.731 1090.4 0.0227 21.591 1052.2 0.0228 7 8.236 1295.0 0.0227 15.872 1072.8 0.0225 21.714 1045.9 0.0226
8 8.416 1305.1 0.0225 15.960 1060.3 0.0224 21.799 1041.6 0.0225 9 8.520 1311.5 0.0223 16.043 1053.6 0.0222 21.888 1038.4 0.0223 10 8.550 1314.7 0.0221 16.136 1053.3 0.0221 21.992 1035.7 0.0221 11 8.484 1312.7 0.0219 16.218 1059.8 0.0219 22.089 1033.5 0.0220 12 8.263 1300.1 0.0218 16.217 1073.0 0.0218 22.109 1032.6 0.0218 13 7.779 1266.9 0.0216 15.944 1089.2 0.0216 21.847 1033.0 0.0217 14 6.858 1195.9 0.0214 14.974 1095.2 0.0215 20.797 1033.7 0.0215 15 5.257 1062.0 0.0213 12.450 1062.5 0.0214 17.796 1019.9 0.0214 16 2.788 826.7 0.0213 7.202 903.2 0.0213 10.771 911.6 0.0213 Ax Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Sec.Vol SP38 T-Fuel Sec.Vol 1 12.621 854.3 0.0237 14.105 663.9 0.0219 2 20.701 913.1 0.0236 22.965 690.8 0.0219 3 24.703 942.4 0.0234 27.265 698.1 0.0218 4 26.437 974.0 0.0233 29.107 697.5 0.0218 5 27.144 994.4 0.0231 29.852 695.1 0.0217 6 27.443 1007.3 0.0229 30.161 692.4 0.0217 7 27.608 1017.3 0.0228 30.318 689.7 0.0216 8 27.742 1025.1 0.0226 30.435 687.2 0.0216 9 27.880 1031.2 0.0224 30.549 684.7 0.0215 10 28.032 1035.7 0.0222 30.669 682.1 0.0215 11 28.183 1039.7 0.0221 30.782 679.5 0.0214 12 28.273 1044.5 0.0219 30.823 676.6 0.0214 13 28.107 1051.8 0.0217 30.591 673.2 0.0214 14 27.124 1059.3 0.0216 29.499 668.7 0.0213 15 23.851 1046.4 0.0214 25.969 659.1 0.0213 16 15.100 961.2 0.0213 16.513 632.7 0.0212 Datapoint or StatevointEFPD / Cycle Burnup - GWd/MTU SP36 0.0 / Cyl T-Fuel - F DPI 187.06/ Cyl Spec. Vol. - ft3 / ibm DPZ 0.0 / Cy2 DP3 145.3 / Cy2
SP37 0.0 / Cy3 SP38 210.9 / Cy3 aaue WMay 04/3/1988:2-A Page 44: [9] Deleted aaude W Mays 04/13/1998 8:23 AM Axial Burnup SP36 to DP1 Bumup DP1 to DP2 Burnup DP2 to DP3 Node DP1 T-Fuel Sec.VoI DP2 T-Fuel Sec.Vol DP3 T-Fuel Spec.VoI 1 1.423 721.9 0.0226 3.843 795.8 0.0226 8.250 1093.6 0.0241 2 2.720 839.8 0.0226 6.783 913.1 0.0225 13.381 1223.2 0.0239 3 3.670 924.3 0.0225 8.500 953.7 0.0224 15.646 1231.2 0.0237 4 4.311 978.6 0.0224 9.373 956.3 0.0223 16.432 1204.6 0.0234 5 4.725 1011.4 0.0223 9.776 944.7 0.0222 16.621 1177.6 0.0232 6 4.989 1030.7 0.0222 9.949 930.5 0.0221 16.613 1158.2 0.0230 7 5.155 1041.7 0.0221 10.023 918.3 0.0220 16.563 1145.4 0.0228 8 5.258 1048.1 0.0220 10.065 909.6 0.0219 16.525 1136.7 0.0226 9 5.314 1051.8 0.0219 10.105 905.0 0.0218 16.510 1130.0 0.0224 10 5.324 1053.0 0.0218 10.151 904.9 0.0218 16.521 1124.6 0.0222 11 5.274 1050.4 0.0217 10.190 909.6 0.0217 16.552 1121.1 0.0221 12 5.129 1040.3 0.0215 10.174 918.5 0.0216 16.578 1121.5 0.0219 13 4.822 1015.8 0.0215 9.981 928.7 0.0215 16.487 1128.3 0.0217 14 4.245 965.1 0.0214 9.341 931.3 0.0214 15.929 1138.6 0.0216 15 3.252 871.9 0.0213 7.736 899.6 0.0213 13.950 1126.6 0.0214 16 1.722 721.6 0.0212 4.451 777.6 0.0213 8.632 996.5 0.0213 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Sec.Vol SP38 T-Fuel Sec.Vol 1 12.568 938.8 0.0241 16.308 866.2 0.0238 2 19.465 1013.4 0.0239 26.257 1016.6 0.0236 3 22.122 1029.0 0.0237 30.177 1055.1 0.0234
4 22.897 1041.5 0.0235 31.479 1055.9 0.0232 5 23.041 1055.8 0.0233 31.846 1050.7 0.0230 6 23.026 1069.8 0.0231 31.888 1044.9 0.0228 7 23.003 1081.9 0.0229 31.862 1038.8 0.0226 8 23.006 1091.6 0.0227 31.826 1032.3 0.0225 9 23.034 1098.7 0.0226 31.787 1025.5 0.0223 10 23.085 1103.7 0.0224 31.749 1018.4 0.0221 11 23.165 1107.7 0.0222 31.714 1010.5 0.0220 12 23.271 1112.9 0.0220 31.674 1001.2 0.0218 13 23.319 1122.3 0.0218 31.533 989.6 0.0217 14 22.922 1136.3 0.0216 30.848 973.8 0.0215 15 20.755 1136.2 0.0214 28.096 946.3 0.0214 16 13.543 1029.9 0.0213 18.889 871.8 0.0213 Datapoint or StatevointEFPD / Cycle Burnup - GWd/MTU SP36 0.0/ Cyl T-Fuel - F DP1 187.06/ Cyl Spec. Vol. - ft / Ibm DP2 0.0 / Cy2 DP3 145.3 / Cy2 SP37 0.0/ Cy3 SP38 210.9/ Cy3 aaude W Hays 0411311998 8:24 AM Page 45: [10] Deleted aaude W Mays 04/13/1998 8:24 AM Axial Burnup SP36 to DPI Burnup DP1 to DP2 Burnup DP2 to DP3 Node DPI T-Fuel Sec.Vol DP2 T-Fuel Sec.Vol DP3 T-Fuel Spec.Vol 1 1.423 721.9 0.0226 3.843 795.8 0.0226 8.250 1093.6 0.0241 2 2.720 839.8 0.0226 6.783 913.1 0.0225 13.381 1223.2 0.0239 3 3.670 924.3 0.0225 8.500 953.7 0.0224 15.646 1231.2 0.0237 4 4.311 978.6 0.0224 9.373 956.3 0.0223 16.432 1204.6 0.0234 5 4.725 1011.4 0.0223 9.776 944.7 0.0222 16.621 1177.6 0.0232 6 4.989 1030.7 0.0222 9.949 930.5 0.0221 16.613 1158.2 0.0230 7 5.155 1041.7 0.0221 10.023 918.3 0.0220 16.563 1145.4 0.0228 8 5.258 1048.1 0.0220 10.065 909.6 0.0219 16.525 1136.7 0.0226
9 5.314 1051.8 0.0219 10.105 905.0 0.0218 16.510 1130.0 0.0224 10 5.324 1053.0 0.0218 10.151 904.9 0.0218 16.521 1124.6 0.0222 11 5.274 1050.4 0.0217 10.190 909.6 0.0217 16.552 1121.1 0.0221 12 5.129 1040.3 0.0215 10.174 918.5 0.0216 16.578 1121.5 0.0219 13 4.822 1015.8 0.0215 9.981 928.7 0.0215 16.487 1128.3 0.0217 14 4.245 965.1 0.0214 9.341 931.3 0.0214 15.929 1138.6 0.0216 15 3.252 871.9 0.0213 7.736 899.6 0.0213 13.950 1126.6 0.0214 16 1.722 721.6 0.0212 4.451 777.6 0.0213 8.632 996.5 0.0213 Ax Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Spec.Vol SP38 T-Fuel Spec.Vol 1 12.567 938.8 0.0241 17.360 911.0 0.0237 2 19.451 1013.4 0.0239 26.353 984.9 0.0236 3 22.096 1029.0 0.0237 29.863 1015.4 0.0234 4 22.867 1041.5 0.0235 31.057 1025.4 0.0232 5 23.008 1055.8 0.0233 31.428 1027.7 0.0230 6 22.992 1069.8 0.0231 31.540 1026.7 0.0228 7 22.969 1081.9 0.0229 31.586 1024.2 0.0226 8 22.971 1091.6 0.0227 31.617 1021.0 0.0225 9 22.998 1098.7 0.0226 31.643 1017.3 0.0223 10 23.048 1103.7 0.0224 31.665 1013.2 0.0221 11 23.128 1107.7 0.0222 31.683 1008.0 0.0220 12 23.233 1112.9 0.0220 31.680 1000.9 0.0218 13 23.281 1122.3 0.0218 31.548 990.1 0.0217 14 22.884 1136.3 0.0216 30.839 973.1 0.0215 15 20.722 1136.2 0.0214 28.023 942.7 0.0214 16 13.522 1029.9 0.0213 18.750 864.4 0.0213 Datapoint or StatevointEFPD / Cycle Burnup - GWdIMTU SP36 0.0 /Cyl T-Fuel - OF DPI 187.06/ Cyl Spec. Vol. - ft3 / Ibm DP2 0.0/ Cy2 DP3 145.3/ CyZ SP37 0.0 / Cy3 SP38 210.9 / Cy3
Mays 04/13/1998 8:24 AM Page 46: [11] Deleted Claude W Claude W Mays 04/13/1998 824 AM Axial Burmup SP36 to DPI Burnup DPI to DP2 Burnup DP2 to DP3 Node DPI T-Fuel Sec.Vol DP2 T-Fuel Spec.VoI DP3 T-Fuel Spec.Vol 1 2.092 799.5 0.0234 5.508 889.5 0.0233 9.743 1053.1 0.0239 2 4.020 969.2 0.0233 9.738 1036.2 0.0232 16.034 1163.7 0.0237 3 5.458 1088.2 0.0232 12.276 1080.2 0.0230 19.048 1159.0 0.0235 4 6.428 1161.5 0.0231 13.583 1081.0 0.0228 20.221 1126.4 0.0232 5 7.058 1205.0 0.0229 14.199 1064.9 0.0227 20.591 1097.7 0.0230 6 7.465 1230.5 0.0227 14.479 1045.6 0.0225 20.668 1077.3 0.0228 7 7.728 1245.6 0.0226 14.616 1029.1 0.0224 20.663 1063.7 0.0227 8 7.899 1255.2 0.0224 14.704 1017.6 0.0223 20.655 1054.1 0.0225 9 8.000 1261.6 0.0222 14.787 1011.5 0.0221 20.669 1046.4 0.0223 10 8.034 1265.2 0.0221 14.878 1011.2 0.0220 20.710 1040.1 0.0222 11 7.979 1264.2 0.0219 14.958 1017.2 0.0219 20.770 1035.7 0.0220 12 7.782 1253.7 0.0217 14.961 1029.4 0.0217 20.804 1035.2 0.0218 13 7.343 1224.4 0.0216 14.716 1044.9 0.0216 20.657 1041.1 0.0217 14 6.496 1159.9 0.0214 13.835 1052.4 0.0215 19.879 1052.8 0.0215 15 5.009 1034.3 0.0213 11.552 1020.8 0.0214 17.311 1050.7 0.0214 16 2.675 814.8 0.0213 6.745 876.5 0.0213 10.697 945.7 0.0213 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Sec.Vol SP38 T-Fuel Sec.Vol 1 13.860 904.7 0.0238 18.660 899.5 0.0235 2 21.799 962.4 0.0237 28.700 972.2 0.0234 3 25.149 978.7 0.0235 32.822 996.0 0.0232 4 26.287 994.1 0.0234 34.276 1001.3 0.0230 5 26.595 1008.2 0.0232 34.730 999.3 0.0229 6 26.649 1020.2 0.0230 34.850 995.1 0.0227
7 26.656 1030.4 0.0228 34.874 990.0 0.0225 8 26.676 1038.4 0.0226 34.874 984.6 0.0224 9 26.719 1044.1 0.0225 34.870 978.9 0.0222 10 26.787 1047.9 0.0223 34.866 972.8 0.0221 11 26.881 1050.8 0.0221 34.861 966.0 0.0219 12 26.984 1055.3 0.0219 34.828 957.8 0.0218 13 26.970 1064.5 0.0218 34.635 947.3 0.0216 14 26.365 1078.7 0.0216 33.758 932.4 0.0215 15 23.679 1079.1 0.0214 30.477 904.2 0.0214 16 15.367 993.4 0.0213 20.208 830.4 0.0213 Datapoint or StatevointEFPD / Cycle Burnup - GWd/MTU SP36 0.0 / Cyl T-Fuel - DP1 187.06/ Cyl Spec. Vol. - ft3 / Ibm DP2 0.0 / Cy2 DP3 145.3 / Cy2 SP37 0.0/ Cy3 SP38 210.9 / Cy3 aaude W Nays 04/1311998 8:24 AN Page 47: [12] Deleted aaude W Mays 04/13/1998 8:24 AM Axial Burnup SP36 to DPI Burnup DPi to DP2 Burnup DP2 to DP3 Node DPI T-Fuel Sec.Vol DP2 T-Fuel Sec.Vol DP3 T-Fuel Spec.Vol 1 2.092 799.5 0.0234 5.508 889.5 0.0233 9.743 1053.1 0.0239 2 4.020 969.2 0.0233 9.738 1036.2 0.0232 16.034 1163.7 0.0237 3 5.458 1088.2 0.0232 12.276 1080.2 0.0230 19.048 1159.0 0.0235 4 6.428 1161.5 0.0231 13.583 1081.0 0.0228 20.221 1126.4 0.0232 5 7.058 1205.0 0.0229 14.199 1064.9 0.0227 20.591 1097.7 0.0230 6 7.465 1230.5 0.0227 14.479 1045.6 0.0225 20.668 1077.3 0.0228 7 7.728 1245.6 0.0226 14.616 1029.1 0.0224 20.663 1063.7 0.0227 8 7.899 1255.2 0.0224 14.704 1017.6 0.0223 20.655 1054.1 0.0225 9 8.000 1261.6 0.0222 14.787 1011.5 0.0221 20.669 1046.4 0.0223 10 8.034 1265.2 0.0221 14.878 1011.2 0.0220 20.710 1040.1 0.0222
11 7.979 1264.2 0.0219 14.958 1017.2 0.0219 20.770 1035.7 0.0220 12 7.782 1253.7 0.0217 14.961 1029.4 0.0217 20.804 1035.2 0.0218 13 7.343 1224.4 0.0216 14.716 1044.9 0.0216 20.657 1041.1 0.0217 14 6.496 1159.9 0.0214 13.835 1052.4 0.0215 19.879 1052.8 0.0215 15 5.009 1034.3 0.0213 11.552 1020.8 0.0214 17.311 1050.7 0.0214 16 2.675 814.8 0.0213 6.745 876.5 0.0213 10.697 945.7 0.0213 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Sec.Vol SP38 T-Fuel Sec.Vol 1 13.860 904.7 0.0238 15.489 673.7 0.0220 2 21.808 962.4 0.0237 24.293 704.2 0.0219 3 25.166 978.7 0.0235 27.998 714.0 0.0219 4 26.309 994.1 0.0234 29.281 715.3 0.0218 5 26.619 1008.2 0.0232 29.651 714.1 0.0218 6 26.673 1020.2 0.0230 29.729 712.1 0.0217 7 26.682 1030.4 0.0228 29.739 709.9 0.0217 8 26.702 1038.4 0.0226 29.748 707.5 0.0216 9 26.745 1044.1 0.0225 29.771 705.1 0.0216 10 26.813 1047.9 0.0223 29.810 702.7 0.0215 11 26.908 1050.8 0.0221 29.867 700.0 0.0215 12 27.011 1055.3 0.0219 29.916 696.8 0.0214 13 26.997 1064.5 0.0218 29.824 692.7 0.0214 14 26.391 1078.7 0.0216 29.085 686.5 0.0213 15 23.702 1079.1 0.0214 26.095 674.2 0.0213 16 15.382 993.4 0.0213 16.974 643.5 0.0212 Datapoint or StatePointEFPD / Cycle Burnup - GWd/MTU SP36 0.0/ Cyl T-Fuel - t DP1 187.06 / Cyl Spec. Vol. - f3/Ibm DP2 0.0 / Cy2 DP3 145.3 / Cy2 SP37 0.0 / Cy3 SP38 210.9 / Cy3 Page 48: [13] Deleted aaude W Mays 04/13/1998 8:25 AM Axial Burnup SP36 to DP1 Burnup DP1 to DP2 Burnup DP2 to DP3
Node DPI TFuel Sec.Vol DP2 T-Fuel Sec.VoI DP3 T-Fuel Svec.Vol 1 2.420 836.7 0.0239 6.290 933.2 0.0237 9.164 980.5 0.0240 2 4.727 1036.3 0.0238 11.304 1096.2 0.0236 16.696 1130.1 0.0238 3 6.474 1174.0 0.0237 14.409 1144.3 0.0234 20.780 1130.0 0.0236 4 7.646 1256.2 0.0235 16.009 1146.6 0.0232 22.462 1106.7 0.0233 5 8.409 1305.5 0.0233 16.771 1129.4 0.0230 23.131 1088.0 0.0231 6 8.907 1335.2 0.0231 17.131 1108.4 0.0228 23.399 1074.2 0.0229 7 9.236 1353.7 0.0229 17.319 1090.3 0.0226 23.526 1064.9 0.0227 8 9.453 1365.8 0.0227 17.448 1077.4 0.0225 23.620 1058.3 0.0226 9 9.588 1374.3 0.0224 17.569 1070.6 0.0223 23.720 1053.1 0.0224 10 9.643 1379.9 0.0222 17.698 1070.3 0.0221 23.836 1048.6 0.0222 11 9.592 1380.4 0.0220 17.814 1077.3 0.0220 23.951 1045.1 0.0220 12 9.370 1370.3 0.0218 17.837 1091.4 0.0218 23.995 1043.8 0.0219 13 8.856 1338.3 0.0216 17.566 1109.3 0.0217 23.769 1046.0 0.0217 14 7.851 1266.7 0.0215 16.542 1117.7 0.0215 22.752 1049.4 0.0215 15 6.070 1126.1 0.0213 13.847 1083.7 0.0214 19.678 1041.2 0.0214 16 3.254 870.3 0.0213 8.132 932.5 0.0213 12.123 939.3 0.0213 Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Spec.Vol SP38 T-Fuel Spec.Vol 1 11.965 774.7 0.0237 17.469 952.5 0.0236 2 21.752 799.9 0.0237 29.278 1006.6 0.0234 3 26.533 869.0 0.0236 34.621 1016.4 0.0232 4 28.569 979.8 0.0234 36.789 1013.4 0.0230 5 29.274 1011.0 0.0232 37.540 1006.8 0.0229 6 29.548 1024.3 0.0230 37.809 999.2 0.0227 7 29.700 1034.1 0.0229 37.922 991.5 0.0225 8 29.829 1041.6 0.0227 37.983 983.7 0.0224 9 29.965 1047.0 0.0225 38.029 975.7 0.0222
10 30.116 1050.7 0.0223 38.068 967.5 0.0220 11 30.272 1053.8 0.0221 38.093 958.8 0.0219 12 30.384 1058.2 0.0219 38.053 949.3 0.0218 13 30.272 1066.6 0.0218 37.768 938.6 0.0216 14 29.382 1078.3 0.0216 36.651 924.4 0.0215 15 26.131 1072.7 0.0214 32.902 896.9 0.0214 16 16.855 985.0 0.0213 21.794 827.2 0.0213 Datapoint or StatePointEFPD / Cycle Burnup - GWd/MTU SP36 0.0 / Cyl T-Fuel - F DPI 187.06/ Cyl Spec. Vol. - ft3 /Ibm DP2 0.0/ Cy2 DP3 145.3 / Cy2 SP37 0.0 / Cy3 SP38 210.9 / Cy3 aaude W Nays 04/13/1998 8:25 AM Page 49:114] Deleted aaude W Mays 04/13/1998 8:25 AM Axial Burnup SP36 to DP1 Bumup DPI to DP2 Burnup DP2 to DP3 Node DP1 T-Fuel Sec.Vol DP2 T-Fuel Sec.Vol DP3 T-Fuel Spec-Vol 1 1.271 703.5 0.0225 3.396 771.1 0.0225 7.475 1091.8 0.0243 2 2.465 811.4 0.0224 6.149 886.5 0.0224 12.476 1232.3 0.0241 3 3.371 891.8 0.0224 7.862 933.7 0.0224 14.916 1248.0 0.0238 4 3.985 944.9 0.0223 8.759 940.7 0.0223 15.859 1227.0 0.0236 5 4.384 977.1 0.0222 9.179 931.8 0.0222 16.160 1204.9 0.0233 6 4.638 996.2 0.0221 9.363 918.9 0.0221 16.231 1189.1 0.0231 7 4.801 1007.6 0.0220 9.446 907.4 0.0220 16.241 1178.9 0.0229 8 4.903 1014.5 0.0219 9.494 899.1 0.0219 16.248 1172.2 0.0227 9 4.960 1018.7 0.0218 9.539 894.7 0.0218 16.271 1167.2 0.0225 10 4.974 1020.4 0.0217 9.588 894.6 0.0217 16.311 1163.2 0.0223 11 4.931 1018.3 0.0216 9.630 899.1 0.0216 16.360 1160.6 0.0221
12 4.796 1008.7 0.0215 9.615 907.6 0.0216 16.386 1161.0 0.0219 13 4.507 985.1 0.0214 9.425 917.1 0.0215 16.269 1166.1 0.0218 14 3.964 937.1 0.0214 8.795 917.3 0.0214 15.664 1172.6 0.0216 15 3.027 848.4 0.0213 7.227 881.9 0.0213 13.649 1155.2 0.0214 16 1.599 708.7 0.0212 4.108 760.7 0.0213 8.406 1016.1 0.0213 Axial Burnup DP3 to SP37 Burnup SP37 to SP38 Node SP37 T-Fuel Spec.Vol SP38 T-Fuel Sec.Vol 1 11.591 918.0 0.0242 16.153 898.0 0.0236 2 18.481 993.6 0.0240 25.154 969.4 0.0235 3 21.464 1022.9 0.0239 29.024 1000.5 0.0233 4 22.511 1055.8 0.0237 30.519 1012.3 0.0231 5 22.822 1079.1 0.0235 31.081 1016.0 0.0230 6 22.908 1094.7 0.0232 31.320 1016.2 0.0228 7 22.957 1107.1 0.0230 31.462 1014.7 0.0226 8 23.016 1116.9 0.0228 31.576 1012.6 0.0224 9 23.091 1124.3 0.0226 31.678 1010.3 0.0223 10 23.182 1129.8 0.0224 31.771 1007.6 0.0221 11 23.290 1134.4 0.0222 31.849 1004.1 0.0220 12 23.403 1140.2 0.0220 31.879 998.5 0.0218 13 23.421 1149.7 0.0218 31.723 988.6 0.0216 14 22.952 1162.3 0.0216 30.896 970.0 0.0215 15 20.700 1159.6 0.0214 27.860 933.8 0.0214 16 13.465 1046.1 0.0213 18.436 849.4 0.0213 Datapoint or StatevointEFPD / Cycle Burnup - GWd/MTU SP36 0.0 / Cyl T-Fuel - t DPI 187.06/ Cyl Spec. Vol. -ft3/lbm DP2 0.0 / Cy2 DP3 145.3/ Cy2 SP37 0.0 / Cy3 SP38 210.9 / Cy3 aaude W Mays 04/13/1998 8:25 AN Page 50: [15] Deleted Claude W Mays 04/13/1998 8:2 AM Axial Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 Node DP3 T-Fuel Spec.Vol SP37 T-Fuel Svec.Vol SP38 T-Fuel Spec.Vol
1 4.030 1133.0 0.0247 8.416 1021.5 0.0248 14.230 1010.1 0.0244 2 6.098 1331.2 0.0245 12.502 1139.3 0.0246 21.148 1129.7 0.0242 3 7.010 1402.7 0.0242 14.182 1189.7 0.0244 23.957 1160.3 0.0239 4 7.309 1417.7 0.0239 14.724 1217.5 0.0241 24.976 1165.6 0.0237 5 7.373 1414.6 0.0236 14.890 1239.7 0.0239 25.361 1164.0 0.0234 6 7.380 1409.4 0.0234 14.985 1259.7 0.0236 25.552 1159.2 0.0232 7 7.391 1406.2 0.0231 15.096 1277.5 0.0234 25.687 1152.9 0.0230 8 7.418 1405.4 0.0229 15.232 1293.0 0.0231 25.801 1146.0 0.0227 9 7.458 1406.3 0.0227 15.384 1306.3 0.0229 25.895 1138.9 0.0225 10 7.507 1408.2 0.0224 15.545 1317.6 0.0226 25.968 1131.4 0.0223 11 7.563 1411.0 0.0222 15.720 1328.8 0.0224 26.022 1123.1 0.0221 12 7.618 1414.2 0.0220 15.911 1341.1 0.0221 26.050 1113.1 0.0219 13 7.633 1414.7 0.0218 16.064 1354.3 0.0219 25.979 1100.0 0.0217 14 7.453 1398.7 0.0216 15.904 1359.3 0.0217 25.455 1080.1 0.0216 15 6.674 1326.6 0.0214 14.558 1316.2 0.0215 23.265 1045.6 0.0214 16 4.476 1107.3 0.0213 9.998 1144.7 0.0213 15.987 932.5 0.0213 16B15 Aial Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 Node DP3 T-Fuel SecVol SP37 T-Fuel Spec.Vol SP38 T-Fuel Spec.Vol 1 2.762 966.7 0.0237 5.898 915.5 0.0238 10.916 983.4 0.0240 2 4.552 1158.4 0.0236 9.386 1036.4 0.0236 17.109 1108.6 0.0239 3 5.355 1227.7 0.0234 10.822 1076.5 0.0235 19.698 1146.7 0.0237
4 5.652 1246.0 0.0232 11.328 1096.5 0.0233 20.700 1152.4 0.0234 5 5.748 1247.5 0.0230 11.512 1112.0 0.0231 21.122 1149.3 0.0232 6 5.781 1245.3 0.0228 11.615 1126.3 0.0230 21.336 1143.7 0.0230 7 5.807 1243.8 0.0227 11.715 1139.3 0.0228 21.477 1137.4 0.0228 8 5.839 1243.8 0.0225 11.827 1150.7 0.0226 21.584 1130.8 0.0226 9 5.879 1245.0 0.0223 11.947 1160.4 0.0224 21.668 1124.3 0.0224 10 5.924 1247.0 0.0221 12.074 1168.6 0.0222 21.729 1117.6 0.0222 11 5.971 1249.4 0.0220 12.207 1176.1 0.0221 21.764 1110.4 0.0220 12 6.008 1251.4 0.0218 12.336 1183.6 0.0219 21.751 1101.9 0.0219 13 5.990 1249.3 0.0217 12.401 1190.9 0.0217 21.609 1090.9 0.0217 14 5.781 1230.6 0.0215 12.161 1191.4 0.0216 21.020 1075.2 0.0215 15 5.033 1159.5 0.0214 10.890 1157.2 0.0214 18.913 1041.4 0.0214 16 3.045 943.3 0.0213 6.888 997.2 0.0213 12.312 924.4 0.0213 Datapoint or StatepointEFPD / Cycle Burnup - GWd/MTU DP2 0.0 / Cy2 T-Fuel - F 3 DP3 145.3/ Cy2 Spec. Vol. - ft /ibm SP37 0.0 / Cy3 SP38 210.9 / Cy3 aaude W Nays 04113/1998 8:25 AM Page 51: [16] Deleted ciaude W Mays 04/13/1998 8:25 AM Axial Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 Node DP3 T-Fuel Spec.Vol SP37 T-Fuel Sec.Vol SP38 T-Fuel Spec.VoI 1 4.418 1172.9 0.0247 9.054 1024.4 0.0249 14.010 947.8 0.0241 2 6.370 1357.2 0.0244 12.974 1135.9 0.0247 20.566 1065.0 0.0239 3 7.170 1418.1 0.0241 14.497 1188.2 0.0244 23.258 1101.6 0.0237
4 7.366 1423.2 0.0239 14.896 1219.8 0.0242 24.217 1112.7 0.0235 5 7.347 1412.8 0.0236 14.950 1245.8 0.0239 24.565 1114.9 0.0232 6 7.295 1402.6 0.0233 14.966 1267.9 0.0237 24.738 1113.2 0.0230 7 7.263 1395.9 0.0231 15.019 1286.9 0.0234 24.870 1109.7 0.0228 8 7.254 1392.4 0.0229 15.108 1302.9 0.0232 24.989 1105.4 0.0226 9 7.263 1390.8 0.0226 15.217 1316.3 0.0229 25.094 1100.9 0.0224 10 7.283 1390.5 0.0224 15.338 1327.7 0.0227 25.181 1096.1 0.0222 11 7.317 1391.4 0.0222 15.481 1339.0 0.0224 25.254 1090.5 0.0220 12 7.366 1393.9 0.0220 15.661 1351.6 0.0222 25.307 1082.6 0.0219 13 7.406 1396.1 0.0218 15.853 1365.8 0.0219 25.276 1070.0 0.0217 14 7.307 1386.2 0.0216 15.816 1373.1 0.0217 24.820 1048.1 0.0215 15 6.698 1327.4 0.0214 14.722 1333.5 0.0215 22.776 1007.6 0.0214 16 4.770 1133.8 0.0213 10.570 1165.0 0.0213 15.942 890.5 0.0213 18B21 Axia Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 Node DP3 T-Fuel Sec.Vol SP37 T-Fuel Spec.Vol SP38 T-Fuel SPec.VoI 1 2.756 967.8 0.0238 5.890 916.0 0.0238 10.185 930.1 0.0237 2 4.577 1163.3 0.0237 9.440 1039.1 0.0237 16.306 1053.8 0.0236 3 5.419 1236.3 0.0235 10.951 1081.0 0.0235 18.993 1094.3 0.0234 4 5.755 1258.0 0.0233 11.523 1102.8 0.0234 20.076 1101.0 0.0232 5 5.880 1261.8 0.0231 11.756 1119.4 0.0232 20.548 1098.0 0.0230 6 5.934 1261.1 0.0229 11.892 1134.5 0.0230 20.795 1092.5 0.0228
7 5.974 1260.7 0.0227 12.016 1148.2 0.0228 20.962 1086.4 0.0226 8 6.018 1261.7 0.0225 12.148 1160.0 0.0226 21.097 1080.3 0.0225 9 6.070 1263.7 0.0223 12.287 1170.1 0.0224 21.212 1074.3 0.0223 10 6.126 1266.5 0.0222 12.432 1178.7 0.0223 21.307 1068.5 0.0221 11 6.182 1269.6 0.0220 12.581 1186.6 0.0221 21.378 1062.4 0.0220 12 6.223 1271.9 0.0218 12.719 1194.4 0.0219 21.397 1055.2 0.0218 13 6.198 1269.2 0.0217 12.775 1201.5 0.0217 21.264 1045.5 0.0216 14 5.964 1248.4 0.0215 12.495 1201.3 0.0216 20.629 1030.2 0.0215 15 5.165 1173.2 0.0214 11.138 1164.4 0.0214 18.390 994.2 0.0214 16 3.101 950.0 0.0213 6.997 1001.8 0.0213 11.750 878.8 0.0213 Datapoint or StatepointEFPD / Cycle Burnup - GWdIMTU DP2 0.0 / Cy2 T-Fuel - F DP3 145.3 / Cy2 Spec. Vol. - ft3 / Ibm SP37 0.0 / Cy3 SP38 210.9/ Cy3 aaude W Mays 0411311998 8:26 AM Page 52: [17] Deleted aaude W Mays 04/13/1998 8:26 AM Axial Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 Node DP3 T-Fuel SpCc.VOI SP37 T-Fuel Sec.Vol SP38 T-Fuel SPec.VoI 1 3.682 1091.8 0.0244 7.724 988.5 0.0246 13.720 1022.9 0.0243 2 5.486 1273.7 0.0242 11.382 1106.2 0.0244 20.261 1147.8 0.0241 3 6.380 1346.6 0.0240 13.067 1155.9 0.0242 22.966 1173.7 0.0239 4 6.734 1367.3 0.0237 13.717 1187.3 0.0240 23.985 1173.4 0.0236 5 6.850 1368.7 0.0235 13.969 1212.2 0.0237 24.391 1167.0 0.0234 6 6.894 1366.3 0.0232 14.118 1233.3 0.0235 24.596 1159.4 0.0231
7 6.929 1365.0 0.0230 14.261 1251.4 0.0233 24.735 1151.3 0.0229 8 6.973 1365.5 0.0228 14.418 1267.0 0.0230 24.845 1142.9 0.0227 9 7.026 1367.4 0.0226 14.585 1280.3 0.0228 24.934 1134.4 0.0225 10 7.084 1370.2 0.0224 14.759 1291.9 0.0226 25.001 1125.7 0.0223 11 7.145 1373.5 0.0222 14.942 1302.6 0.0223 25.047 1116.5 0.0221 12 7.195 1376.4 0.0220 15.122 1313.9 0.0221 25.057 1106.1 0.0219 13 7.186 1374.7 0.0218 15.231 1325.2 0.0219 24.947 1093.7 0.0217 14 6.960 1354.2 0.0216 14.979 1326.4 0.0217 24.360 1077.4 0.0216 15 6.179 1280.4 0.0214 13.586 1281.8 0.0215 22.146 1046.9 0.0214 16 4.238 1081.2 0.0213 9.459 1119.7 0.0213 15.267 925.7 0.0213 20B26 Axial Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 Node DP3 T-Fuel Spec.Vol SP37 T-Fuel Spec.Vol SP38 T-Fuel Spec.Vol 1 2.154 882.3 0.0232 4.642 847.7 0.0233 7.904 847.9 0.0230 2 3.590 1046.5 0.0231 7.506 960.1 0.0232 12.672 946.7 0.0229 3 4.280 1111.7 0.0229 8.776 1002.5 0.0230 14.790 980.5 0.0228 4 4.568 1132.6 0.0228 9.282 1023.6 0.0229 15.673 988.4 0.0227 5 4.677 1136.6 0.0227 9.489 1039.5 0.0228 16.057 987.8 0.0225 6 4.721 1136.2 0.0225 9.603 1053.5 0.0226 16.258 984.4 0.0224 7 4.752 1135.7 0.0224 9.700 1065.5 0.0225 16.394 980.2 0.0223 8 4.784 1136.1 0.0222 9.801 1075.8 0.0223 16.505 975.9 0.0221 9 4.821 1137.5 0.0221 9.907 1084.5 0.0222 16.601 971.8 0.0220
10 4.861 1139.4 0.0220 10.017 1092.0 0.0221 16.683 967.9 0.0219 11 4.901 1141.6 0.0218 10.129 1098.8 0.0219 16.745 963.6 0.0218 12 4.925 1142.8 0.0217 10.228 1105.4 0.0218 16.762 958.3 0.0216 13 4.891 1139.0 0.0216 10.248 1110.9 0.0216 16.638 950.7 0.0215 14 4.679 1118.6 0.0215 9.972 1108.5 0.0215 16.069 937.2 0.0214 15 4.025 1051.4 0.0213 8.818 1073.0 0.0214 14.195 903.8 0.0213 16 2.413 864.9 0.0213 5.497 921.3 0.0213 8.944 803.2 0.0213 Datapoint or StatevointEFPDI/ Cycle Burnup - GWd/MTU DP2 0.0/ Cy2 T-Fuel - 3 DP3 145.3/ Cy2 Spec. Vol. - ft /Ibm SP37 0.0/ Cy3 SP38 210.9 / Cy3 aaude W Mays 04113/1998 8:26 AM Page 53: [18] Deleted aaude W Mays 04/13/1998 8:26 AM Axial Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 Node DP3 T-Fuel SDec.Vol SP37 T-Fuel Spec.Vol SP38 T-Fuel Spec.Vol 1 2.973 1005.0 0.0241 6.290 916.9 0.0240 11.627 1002.9 0.0242 2 4.921 1210.1 0.0239 10.066 1037.8 0.0239 18.158 1127.3 0.0240 3 5.848 1284.8 0.0237 11.729 1086.2 0.0237 20.954 1161.1 0.0238 4 6.225 1306.3 0.0235 12.386 1118.2 0.0235 22.091 1164.1 0.0235 5 6.364 1309.1 0.0233 12.655 1142.8 0.0233 22.588 1159.7 0.0233 6 6.423 1307.8 0.0230 12.808 1162.1 0.0231 22.845 1153.5 0.0231 7 6.468 1307.0 0.0228 12.942 1177.7 0.0229 23.015 1146.8 0.0229 8 6.516 1307.7 0.0226 13.082 1190.4 0.0227 23.148 1140.0 0.0227 9 6.572 1309.6 0.0224 13.229 1200.8 0.0225 23.255 1133.2 0.0225
10 6.632 1312.3 0.0223 13.381 1209.6 0.0224 23.337 1126.1 0.0223 11 6.692 1315.3 0.0221 13.537 1217.5 0.0222 23.391 1118.4 0.0221 12 6.737 1317.7 0.0219 13.686 1225.4 0.0220 23.396 1109.3 0.0219 13 6.716 1315.3 0.0217 13.754 1233.0 0.0218 23.263 1098.1 0.0217 14 6.477 1294.5 0.0215 13.475 1233.9 0.0216 22.660 1083.0 0.0216 15 5.645 1217.7 0.0214 12.071 1198.1 0.0214 20.481 1054.1 0.0214 16 3.440 988.1 0.0213 7.680 1033.8 0.0213 13.484 941.1 0.0213 22B30 Axia Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 Node DP3 T-Fuel Spec.Vol SP37 T-Fuel Spec.Vol SP38 T-Fuel Spec.Vol 1 3.347 1063.1 0.0244 7.013 935.6 0.0243 13.250 1047.4 0.0245 2 5.303 1262.3 0.0242 10.849 1050.3 0.0242 20.025 1173.4 0.0243 3 6.321 1339.8 0.0239 12.706 1105.6 0.0240 22.965 1200.1 0.0240 4 6.736 1361.5 0.0237 13.457 1150.5 0.0238 24.132 1199.9 0.0238 5 6.883 1363.5 0.0235 13.759 1183.1 0.0236 24.610 1193.3 0.0235 6 6.946 1361.7 0.0232 13.928 1206.0 0.0234 24.847 1185.4 0.0233 7 6.994 1360.8 0.0230 14.078 1223.8 0.0231 25.002 1177.2 0.0230 8 7.048 1361.7 0.0228 14.234 1238.2 0.0229 25.119 1169.2 0.0228 9 7.110 1363.8 0.0226 14.399 1250.1 0.0227 25.212 1161.2 0.0226 10 7.176 1366.8 0.0224 14.568 1260.2 0.0225 25.280 1152.9 0.0223 11 7.242 1370.3 0.0222 14.743 1269.5 0.0223 25.324 1144.0 0.0221 12 7.295 1373.1 0.0220 14.915 1278.8 0.0221 25.329 1133.8 0.0219
13 7.282 1371.3 0.0218 15.010 1288.0 0.0218 25.205 1121.4 0.0218 14 7.038 1350.2 0.0216 14.738 1289.2 0.0216 24.584 1104.3 0.0216 15 6.178 1272.0 0.0214 13.279 1250.3 0.0214 22.286 1074.2 0.0214 16 4.032 1055.8 0.0213 8.925 1090.8 0.0213 15.128 953.4 0.0213 Datapoint or StatevointEFPD / Cycle Burnup - GWd/MTU DP2 0.0 / Cy2 T-Fuel DP3 145.3 / Cy2 Spec. Vol. - ft 3 /Ibm SP37 0.0 / Cy3 SP38 210.9/ Cy3 Page 54: [19] Deleted aaude W Mays 04/13/1998 8:27 AM Axial Burnup DP2 to DP3 Burnup DP3 to SP37 Burnup SP37 to SP38 Node DP3 T-Fuel Svec.Vol SP37 T-Fuel Sec.Vol SP38 T-Fuel Spec.Vol 1 2.076 877.0 0.0232 4.446 822.3 0.0232 7.029 790.0 0.0227 2 3.535 1044.1 0.0231 7.317 929.3 0.0231 11.455 875.1 0.0226 3 4.272 1111.7 0.0229 8.654 975.4 0.0230 13.496 903.4 0.0225 4 4.588 1132.5 0.0228 9.207 1004.1 0.0229 14.378 912.6 0.0224 5 4.711 1136.3 0.0227 9.438 1025.6 0.0227 14.776 914.5 0.0223 6 4.763 1135.8 0.0225 9.561 1041.9 0.0226 14.991 913.6 0.0222 7 4.798 1135.3 0.0224 9.660 1054.5 0.0225 15.144 911.7 0.0221 8 4.833 1135.7 0.0222 9.760 1064.6 0.0223 15.273 909.5 0.0220 9 4.873 1137.0 0.0221 9.863 1072.8 0.0222 15.391 907.3 0.0219 10 4.915 1138.9 0.0220 9.970 1079.7 0.0220 15.497 905.2 0.0218 11 4.956 1141.0 0.0218 10.078 1085.9 0.0219 15.586 902.7 0.0217 12 4.982 1142.2 0.0217 10.173 1092.0 0.0218 15.630 899.1 0.0216
13 4.947 1138.4 0.0216 10.191 1097.3 0.0216 15.532 892.5 0.0215 14 4.729 1117.9 0.0214 9.912 1095.2 0.0215 14.989 878.9 0.0214 15 4.049 1049.7 0.0213 8.740 1061.0 0.0214 13.171 847.9 0.0213 16 2.398 860.9 0.0213 5.403 911.8 0.0213 8.189 759.5 0.0213 24C2 Axi Burnup SP37 to SP38 Node SP38 T-Fuel Sec.Vol 1 6.214 1156.6 0.0246 2 8.843 1332.1 0.0244 3 10.110 1400.0 0.0241 4 10.639 1414.0 0.0239 5 10.862 1411.3 0.0236 6 10.955 1405.3 0.0233 7 10.980 1399.0 0.0231 8 10.962 1393.0 0.0228 9 10.912 1387.4 0.0226 10 10.833 1381.7 0.0224 11 10.724 1375.5 0.0222 12 10.579 1367.7 0.0220 13 10.372 1356.1 0.0218 14 9.989 1332.3 0.0216 15 9.076 1271.7 0.0214 16 6.672 1106.5 0.0213 Datapoint or StatepointEFPD / Cycle Burnup - GWd/MTU DP2 0.0 / Cy2 T-Fuel - T DP3 145.3 / Cy2 Spec. Vol.
- ft3 /Ibm SP37 0.0 / Cy3 SP38 210.9 / Cy3}}