CRC Depletion Calculations

ML033510281
Person / Time
Site:	Sequoyah, WM-00011
Issue date:	05/07/1998
From:	Mays C, Scaglione J, Thomas D US Dept of Energy, Office of Civilian Radioactive Waste Mgmt (OCRWM)
To:
References
-RFPFR B00000000-01717-0210-00005 REV 00
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CRWMS(M&OI I.s.

I Calculation Cover Sheet Compekte oY appicable Ite&

M.L.1998 0 7 2 9.0077 1.1 OA: L Page: I Off. 91

2. Calculation TWeO Sequoyuh Unkt2 CRC Depletion Calcuations S. Document Identifier ncdudLf Revision Number)

4. Total Pages BDOOOOOOO.01717-0210-OOOOS REV 00 91

6. thtal Attacunents

6. Attachment Numbers

• Number of aes hI each 4

tI2. U-26, M-118 iIV.2 (See box 10)

_Print_

u Name Signaatr

7. OrIginator John M Scag1ione

-a -A P e S. Checker C la I.

Ma is 4u//Z A/or S. Lead Design Engineer

10. Romarkh Attachments I trough IV are contained on an attachment tape. The page s shown In box 6 refer to t1e Y of pages In the hard-copy listing ofeach achmes file content an he bpe.

(

.41 Revision History I1. Revisaon No. l

12. Date Approved I

13. Desciption of Revision REV 00 I

I Ep.&.? Wa.....

rl-.,

HS35 Sv.

I12WSn7 3q,

Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depkdon Calcuons Document Identffier. BOOOOOOO-01717.0l-00005 REV 00 Page 2 of 91 Table of Contents Item

_ge

1. Purpose.................................................

2. Method............

4 3

Assumpt ions rove

..for.Q................................

4. Use of Computer Software........................................

5 4.1. Softar Approved for QA WorIk..........................

'ses 4.2.1. SAS211.......................

5 4.2. SoftwareRoutines.C.Evaluation Description................;.5 5

4.2. 1.

I Spe for Depletion.Calculations.......................

4.2.1. CFul Assembly Descriptions Reuie. frDeltinCaclains6...

4.2.3. CRC Data Tebulizer...............

6 4.2A4. RLAYQUI......................

6................

5. Calculation....................... !... 7e.. 0..v~......

-8*...

5.1.

SequoyUnit 2 C RC Evaluaonr Descption

................................................. 7 5.2. Input Specifications for Depletion Calculations................................................

7 5.2. 1. Fuel Assembly Descriptions Required for Depletion Calculations.............................

8 5.2.2. BuRnable Poison Rod Assembly (BPRA) Descriptions Required for Depletion Calculations

..................................................................... 9 5.23. Rod Cluser Control Assembly (RCCA) Description Required for Depletion Calculations.................................................................... 12

Waste Package Operations Engineering Calculation Tide: Scquoyah Unit 2 CRC Decletion Calculations Document Identifier. BOOOOOOOO-0177-0210-005 REV 00 Page 3 of 91 5.2A. System Pressure...

12 5.2.5. Fuel Assembly Insertion, BPRA Type and Insertion, and RCCA Insertion Histories for the Sequoyah Unit 2 Depletion Calculations.......

13 P

5.2.6. Reactor Cycle History Specifications for Sequoyah Unit 2.15 5.2.7. Boron Letdown Data for Sequoyah Unit 2 Depletion Calculations.. 16 5.2.8. Burnup, Fuel Temperature, and Moderator Specific Volume Data.. 17 5.2.9. RCCA Insertion History Data for Sequoyah Unit 2 Depletion Calculations.............................................

..... 41 5.3. Assembly Depletion Calculation Procedurec................................................... 43 5A. Path B Model Development for the Sequoyah Unit 2 Depletion Calculations 44.0*-

5.5. Cycle Irradiation History Layoud for the Sequoyah Unit 2 Depletion Calculations 78 5.6. The Commercial Reactor Assembly Follow Taskmaster (CRAFI) Software Routine and Usage..................................................

8 4 5.7. Input and Output Filename Descriptions for CRAFT and SAS2H 87

6. Results...........................

8...............

8

8. Attachments.......................................

90

Waste Package Opemtions Engineering Calcu.1ation

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier BOOOOOOOO-01717.0210-OOOOS REV 00 Page 4 of 91

1. Purpose The purpose of this calculation is to document the Sequoyah Unit 2 pressurized water reactor (PWR) fuel depletion calculations performed as part of the commercial reactor critical (CRC) evaluation program. The CRC evaluations support the development and validation of the neutronics models used for criticality analyses involving commercial spent nuclear fuel in a geologic repository.

2. Method The calculational method used to perform the Sequoyah Unit 2 fuel depletion calculations consisted of using the SAS2H control sequence of the SCALE, Version 43, code system (Ref. 7.1) to deplete the necessary fuel assemblies. The various fuel assemblies were depleted through their unique operatihg histories such that their modified fuel compositions would be avalable at specific exposure times corresponding to the times (statepoints) at which detailed core reactivity calculations would be performed. The fiiel assembly depletion calculations were based on detailed core follow information for each assembly.

3. Assumptions 3.1 Ihe inherent romation of uniformly distbuted non-fuel lattice cells in the Path B models of the SAS2H calculations as described in Section S.4 was considered acceptable within the fidelity ofthese calculations. The basis for this assumption was provided in Section S213.1 of Volume 1, Rev. 5 in Reference 7.1. This assumption was used throughout all of the depletion calculations documented in Section S.

3.2 WVith the utilization of one cross section update per Irradiation time step in the SAS2H calculations, the

=mamum duration of any time step in any reactor cycle irradiation layout should have not exceeded 80 days. The basis for this assumption was that the 80 day irradiation time step limit ensured that the changing Isotopic concentrations of the fuel in the system would not alter the neutron spectrum radically enough to cause a time step of the depletion calculation to be performed without the avaiabity of cross sections which have been properly weighted with an updated neutron spectrum and spatial flnx. This assumption was used throughout all of the depletion calculations documented in Section 5.

3.3 Distributing the spacer grid material uniformly in the moderator composition of the SAS2H Pathf A and Path B models was acceptable. The basis for this assumption was that the limited reactivity worth ofthe spacer grid materials would have a negligible Impact on the neutron spectrum when homogeneously distributed in the moderator. This assumption was used throughout all of the depletion calculations documented in Section 5.

Waste PackaRe Operations.

Engineering Calculation litle: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier BOOOOOOO-0"1717-0210.O0005 REV 00 Page 5 of 91

4. Use of Computer Software 4.1. Software Approved for QA Work 4.1.1. SAS2H The SAS2H control module ofthe SCALE,-Vrsion 4.3, modula code system (Ref£ 7.1) was used to perform the fuel assembly depletion calculations required for the Sequoyali Unit 2 CRC evaluations.

'Ie software specifications are as follow:

• Program Name: SAS2H of the SCALE Modular Code System

• Version/Revision Number Version 4.3

• Computer Software Configuration Item (CSCI) Number 30011 V4.3

• Computer Type: Hewlett Packard (HP) 9000 Series Workstations The input and output files for the various SAS2H calculations were documented in the attachments to this calculation file as described in Section 5, such that an independent repetition ofthe software use could be performed. Ihe SAS2H software used was: (a) appropriate for the application of commercial fuel assembly depletion, (b) used only within the range of validation as documented in References 7.1 and 72, (c) obtained from the Software Configuration Manager In accordance with appropriate procedures.

4.2. Software Routines The description documentation for each of the software routines identified in this section, other than the acquired software routine Excel described In Section 4.2.1, contains tie following Information

• Descriptions and equations of mathematical algorithms

• Decription of software routine including excuation environment

• Description of test cases

• Description of test results

• Range of input parameter aalues for which results were verified

• Identification of any limitations on software routine applications or validity

• Reference list of all documentation relevant to the qualification

• Directory listing of executable and data files

• Computer listing of source code

• Computer listing of test data input and output, identifying softw= routine name and version number.

4.2.1. Excel

Title:

Excel

Waste Package Opemtions'.I.."

. Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier: BOOOOOOOO-01717-0210-00005 REV 00 Page 6 of 91

• VersionARevision Number: MicrosoftV Excel 97 The Excel spreads=t program was used for simple numeric calculations as documented in Section 5 of this calculation file. The user-defiued formulas, inputs, and results were documented in sufficient detail in Section S to allow an independent repetition of the various computations.

4.2.2. CRAFT hde: Commercial Reactor Assembly Follow Tasknaster (CRAF)

• VersionlRevisionNumber: Version 5 The CRAFT software routine produced the input and directed the execution for the various SAS2H calculations required to deplete a commercial reactor fuel assembly to support a CRC evaluation. Ihe input and output for the various CRAFT calculations were documented In Section S, such that an independent repetition ofthe software routine use could be performed. The description ofthe CRAFT, Version S. softwaie routine was provided in Attachment I of Reference 7.6.

4.23. CRC Data Tabulizer Mte: CRCDATA&TABU IZER

• Version/Revision Number: Version 3 The CRC Data Tabulizer software routine produced.tables containing the concentration results for a set of 29 isotopes and other relevant data at each CRC statepoint for a given fuel assembly. Tle CRC Data Tabulizer software routine is Interactive, therefore, the input was not documented. However, the output contains all necessary information to veythat e input was provided correctly. The output from the CRC Data Tabulizer usage was provided in Attachment IV (the attachiment tape has been moved to Reference 7.7). The information provided In this output and the information provided in the description of the CRC Data Tabulizer software routine, along with the CRAFT generated '*.cutr files, were sufficient such that an Independent repetition of the software routine use could be performed. The description ofthe CRC Data Tebulizer, Version 3, softwhre routine was provided in Attachment VI of Reference 7.6.

4.2A. RLAYOUT

• Tide: RLAYOUT

• Version/Revision Number: Version I The RLAYOUT software routine automated Ihe development of irradiation time step layout inputs for depletion calculations involving rod insertion histories in which rod movements must be followed. The RLAYOUT code is mostly interactive, therefore, some of the input was not documented. The required boron letdown inputs and rod insertion history inputs for the required assemblies were presented in Sections 5.2.7 and 52.9, respectively. The output contained all necessary information to verify that the

Waste Paclmge Operations Engineering Calculation Thie: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOOO.01717-210-00005 REV 00 Page 7 of 91 entire input was provided cirrectly. The output from the RLAYOUT usage was presented in Section 5.5. The information provided in this output, the boron letdown input, and the rod insertion history Input along with the information provided In the description of the RLAYOUT software routine, are sufficient such that an independent repetition of the software routine use could be performed. The description of the RLAYOUT, Version 1, software routine was provided in Attachment m of Reference 73.

5. Calculation 5.1. Sequoyah Unit 2 CRC Evaluation Description The Sequyah Unit 2 CRC evaluations were performed at three tepoints: Cycle 1 [0.0 Effective Full-Power Days (EFPD)], Cycle 3 [0.0, and 210.9 EFPD]. Each statepoint represented a specific time when the reactor was brought to the critical condition (krr-1) and the co dig reactor core conditions were measured The CRC evahlations of each of these critical statepoints involved the use of SAS2H to deplete the various fuel assemblies and MCNP4B2 (Ref 7.4) to model the reactor core such that the kff value at each of the critical statepoints could be predicted to demonshtte the ability of the dual code system. Hence, the objective of each CRC statepoint evaluation was to predict the reactor core k4r as close to measurent as possible (the measurement is always kff - 1). The objective of the SAS2H

• depletion calculations documented in this calculation file was to provide the depleted fuel and bumnable poison Isotopic compositions to be used in the ceding CRC reactivity calculations.

Fuel isotopic compositions were calculated with SAS2H for each deplcted fuel assembly in each of the critical statepoint confations to facilitate MCNP modeling. The Sequoyah Unit 2 statepoint

• calculations required the depletion offuel assemblies from five fel batches. Fuel assembly design daracteistics may vary between each fuel batch. Section 5.2 presents the input parameters required to perform the various fuel assembly depletion calculations. Sections 5.3 ftough 5.7 describe how the parameters listed in Section 52 were utilized to perform the SAS2M depletion calcuations relevant to the CRC statepoint evaluations. The CRAFT description and user Information provided in Attachment I of Reference 7.6 is essential for Iudanding the SAS2H modeling tedcniques employed in the calculations. The information provided In Attachment I of Reference 7.6, the input parameters provided in Section 52, and the CRAFT input decks contained in Attachment I of this calculation file (the attachment tape has been moved to Reference 7.7) work together to provide a complete description of how all of SAS2H depletion calculations were performed.

• 5.2. Input Specifications for Depletion Calculations The information documented in this section describes the design specifications and irradiation histories for the fuel assemblies required for the Sequoyah Unit 2 CRC evaluations. All of the input specifications presented in this section were obtained from Reference 7.5. The Sequoyah Unit 2 CRC reactivity evaluations included fuel assemblies from six fuel batches Identified as follow: 1, 2,3,4, SA, and SB. Depletion calculations for fuel assemblies from batches 2, 3. 4. SA, and SB were required to perform ky calculations at the variou statepoints. Fuel assemblies from fuel batch 1 were only used in

Waste Package Opemtion.s

-Engineering Calculation Waste Package Operations EngineerIng Calculation Tite: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOO-01717-0210-00005 REV 00 Page 8 of 91 th beginning-of-life (BOL) statepoint calculation. 'Me BOL calculation included all fresh fuel (ic., as-fabricated, non-depleted).

5.2.1. Fuel Assembly Descriptions Required for Depletion Calculations Table 5.2.1-1 contains a description of the fuel assemblies for fuel batches 1,2,3,4, SA, and SB of Sequoyah Unit 2. All fuel assemblies within a given e batch have the same chmac cs as presented In Table 52.1-1.

Table 52.1-1. Fuel Assembly Descriptions for the Sequoyah Unit 2 CRC Evaluations Fuel Batch Identifier Parameter 1

2 3

4 SA 5B Assembly Type STD STD ll)

STID S

TD ST Wedght Percent U-235 2.10 2.60 3.10 3.50 3.80 3.60 kg ofUper Assembly 458.88 458.88 458.88 4S8.97 461.50 460.71 Fuel Height (cm) 365.76 365.76 365.76 365.76 365.76 365.76 Fuel Pellet OV' (cm) 0.819150 0;819150 0.819150 0.819150 0.819150 0.819150 Fuel Rod Clad OD (cm) 094996 0.94996 0.94996 0.94996 0.94996 0.94996 Fuel Rod Clad ID' (cm) 0.83566 0.83566 0.83566 0.83566 0.83566 0.83566 Spacer Orid Material Inconel Inconel Iiconel Inconel Inconel Inconel Volume Fraction of Spacer 0.0073854 0.00738S4 0.00738S4 0.0073854 0.0073854 0.0073854 Grid in Moderator Guide Tube Material Zr-4' Z&4 Zr4 Zr4 Zr-4 Zr-4 Guide Tub OD (cm 1.22428 1.22428 1.22428 1.22428 1.22428 1.22428 ERiglon 01) (cm)

Guide Tube (c) 1.08966 1.08966 1.0B966 1.08966 1.08966 1.08966 Region OD (cm)

Guide Tube Upper 1.14300 1.14300 1.14300 1.14300 1.14300 1.14300 Region ID (CM)_

Guide Tube Lwu 1.00838 1.00838 1.00838 1.00838 1.00838 1.00838 Region ID (cm)

Instrum=t Tube Material Zr-4 Zr-4 Zr-4 Zr-4 Zr-4 Zr-4 Instrument Tube OD (cm) 1.22428 1.22428 1.22428 1.22428 1.22428 1.22428 Instrument Tube ED (cm) 1.14300 1.14300 1.14300 1.14300 1.14300 1.14300 Atray Size 17x 17 17 x 17 17x 17 17 x 17 17 x 17 17x 17 Number of Fuel Rods

.264 264 264 264 264 264 Numberof Guide Tubes 24 24 24 24 24 24 Number of Instrument 1

1 1

1 1

1.

Tubes (cm) 1298 1298 1...

Pin Pitch (cm) 1.25984 1.25984 1.25984 1.25984 1.25984 1.25984

Waste Paclmge Operations_.

Engineering Calculation f

Tilde: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier: BOOOOOOOO-01717-0210-0005 REV 00 Page 9 of 91 Table 5M21-1. Fuel Assembly Descriptions for the Sequoyah Unit 2 CRC Evaluations Fuel Batch Identifier

[

arameter 1

213 141 SAl SD Assmbl Pich cm) 21.50364 121.50364 I21.50364 121.50364 121.50364 121.50364 1 OD = Outer Diameter 2 D. Inner Diameter 3 Ike upper guide tube section Is represented over nodes 1 through 13.

4 Te lower guide tube section is represented over nodes 14 through 16.

5Zr4 = Zircaloy-4 5.2.2. Burnable Poison Rod Assembly (BPRA) Descriptions Required for Depletion Calculations Two ypes of annular burnable poison rods (BPRs) were used in the Sequoyah Unit 2 reactor fiom cycle I through cycle 3. The two BPR types were differentiated primarily by the tpe of absorber material utilized and the content of their anndli. One of the BPR types used B0 3-SiO2 as the absorber material and had an empty annulus. This type is referred to as a Pyrex BPR In this cilction file. The other type of BPR used B4C-A10 3 as the absorber material and had a water filled annulus. This type is refiered to as a WABA (Wet Annular Burnable Absorber) in this calculation file. Different numbers of either Pyrex or WABA BPRs were combined to form the various BPRAs utilized in the Sequoyah Unit 2 reactor. The number of BPRs in a gie BPRA could vary fom 1 to 24, depending on the number of guide tubes in which a BPR was inserted. The feel assembly depletion calculations required to perform the CRC evauaions for Sequyah Unit 2 utilized Pyrex BPRAs containing either 9, 10, or 20 BPRs and WABA BPRAs containing either 8, 12,16, 20,'or 24 BPRs. Knowing the geometric arrangement of the various BPRAs (referring to which guide ubes contain a BPR and which do not) was not required to perform the depletion calculations. Tables 5.2.2-1 and 5.2.2-2 contain descriptions ofthe Pyrex and WABA BPRAs, respectively, that were used in the fael assembly depletion calculatons. Table 5.2.2-3 presents the isotopic composition of the Pyrex absorber material.

Table 522-1. Pyrex BPRA Description for the Sequoyah Unit 2 Depletion Calculations Parameter Value Burnable Poison Material B20s-SiO2 Boron Loading 12.5 wtP/ B203 with 0.00624 g B-lOcm Absorber OD (cm) 0.85344 Absorber ID (cm) 0.48260 Clad Material Type 304 Stainless Steel (SS304)

Waste PacJmge Operations Engineering Calculation role: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOOO-01717-0210-00005 REV 00 Page 10 of 91 Table 522-1. Pyrex BPRA Description for the Sequoyah Unit 2 Depletion Calculations Parameter Value Outer Clad OD (cm)

Outer Clad ID (cm) 0.87376 Inner Clad OD (cm) 0.46101 Inner Clad ID (cm)

OA2799 Cross-Sectional Area (cm')

038913 NumberofBPRs In BPRA 9, 10, or20 Table 5.2.2-2. WABA BPRA Description for the Sequoyah Unit 2 Depletion Calculations Parameter Value BurnablePolsonbMaterial B4C-A1203 Boron Loading 14.0 wtiY B4C with 0.006165 g B-10/cm Absorber OD (cm) 0.8077 Absorber ID (cm) 0.7061 Clad Zircaloy-4 Outer Clad OD (cm) 0.96774 Outer Clad IQ8 (c) 0.83570 Inner Clad OD (cm) 0.67820 Inner Clad ID (cm) 0.57150 Cross-Sectional Area (cm-)

0.12079 Number ofBPRs in BPRA 8, 12, 16,20, or 24 Table 5.2.2-3. Pyre Absorber Material Composition (B203-SI02) j

~~~Isotope/Eement Welgh Percent Boron-10 0.6976 Boron-ll 3.1866.

Ozygen

~~~~~~552092-silicon 40.9067 The CRAFT Input required the density ofthe BPR absorber material to be provided in terms of grams per cubic centimeter (gfcc). The density In gfcc for both the Pyr and WABA BPR absorber material had to be calculated using the boron loading information shown in Tables 5.2-1 and 5.2.2-2. The absorber material density results from these calculations were: 2.299 glcc for the Pyrex BPR and 2.593 g/cc for the WABA BPR. Equations 522-1 through 52.2-7 show how the B20rSiO2 and B4C-A1A0 3

densities were calculated.

I

Wase Package Operations Engineering Calculation Trie: Sequoyah Unit 2 CRC Depletion Calculons Document Idenfie. BOOOOOOO-01717-0210-OODOS REV 00 Page I I of 91 Equation 5.2.2-1. Calculation of B-10 grams per 0 gram In BzO of Pyrex BPR 2 atoms BY0.194 atoms B'0 Y lnmolB 1YO.0129 gB' Y AvatomsOY I mol O t3atomsOA}

latomsB A Av.# atoms B'A 1mo1B'0 A lmolO lS.999g49

=0.08IO gL B2A where,Av.#=6.022136E23 gO0 Equation 5.2.2-2. Calculation of B-10 grams per B gram O.194 atoms B'Y 1 molE 0 yl1O.0129 g B..

A4v.# atoms BY 1 mol B

=0.1796 LgL" 1 atomB AAv.#atomsB')

I mol B I

AmoI B 10.8160gBBJ g B Equation 52.2-3. Calculation of B203 grams per cm In Pyrex BPR

(.02 g B" I

o B~-

l 1'.11 q4 Bcm

_____10 cm*

1 1 1 cn2 J~t0.1796z 9 o 0.081g IOFE nB.0su a

Equation

{2;4.

Cdcoladonof BOrSIO grms 4 per wblcentfmeterinPye xBPR fO.IIIEgB^qy 100 YI5 (0.1 18an

)1125 W 10a bz (lrXO.18209 an2 -0.05823

= 2.2985 g BQ 3 -5102 cm3 Equation 5+/-2-S. Calculation ofB-10 grams per C gram In B4C of WABA BPR 4ato_

BO.194atomsB ImolBI_

10.0129g B' tAv.#

m_1mdC_

I atomC A latom Av.#atom B' I mol B'

)

mot C 12.01IOg C

-0.6469 g B in B4C gC

('-

Waste gal~e Operations..

Engineering Calculadion Waste Package Operations Engineering Calculation

Title:

Sequoah Unit 2 CRC Depletion Calculations Document Identifier BOOOOOOOO-01717-0210-00005 REV 00 Page 12 of91 Equation 522-6. Calculation of B4C grams per cm In WABA BPR (0.006165

_JI

]

I BCm IB

= 0.0439

-C Cm Sl 0Q1796 J

t0.6469 9 B In BC)JC gEf gC InB4 Equation 52-7. Calculation Of B4C-AhOs grams per cubic centimeter In WABA BPR (0.0439 g BCy 10 YI (03 acm BI 14.0 C(

B4C In BcC-A4 mXR0631m 2 -0.1246C 2.5925 B4C-A-2A%

5.23. Rod Cluster Control Assembly (RCCA) Description Required for Depletion Calculations Tke RCCA assemlies used in the Sequoyah Unit 2 reactor were composed of 24 control rods (CRs)

• ananged in a 'cluster such that each guide tube in thx fel assembly had a CR inserted from the top of the core to a unifoirm height Ithe assembly. Table 523-1 contaIns the description ofthe RCCAs utilized during the Sequoyah Unit 2 reactor operation relevant to the CRC evaluations documented in this calculation file.

Table 5.23-1 RCCA Description for the Sequoyah Unit 2 Depletion Calculations '

Parameter value Control Rod Neutron Absorbing Material Ag-In-Cd (B0 wta Ag, 15 ws% In, S wtPo Cd)

Ag-In-Cd Density (gfcc) 10.16 Absorber Pellet OD (cm) 0.86614 Control Rod Cladding Material SS3D4 Control Rod Cladding OD (cm)

- 0.96774 Control Rod Cladding ID (cm)

• 0.87376 Number of Control Rods in RCCA 24 5.2A. System Pressure Sequoyah Unit 2 is a Westinghouse designed pressurized water reactor that operates at a constant pressure of 2250 psia (pounds per square Inch absolute).

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'ide: Sequoyah Unit 2 CRC Deptedon Calculations Document Identifiwe BOOOOOOOO-01717-0210-00005 REV 00 Pagce 13 of 91 5.2.5. Fuel Assembly Insertion, BPRA Type and Insertion, and RCCA Insertion Histories for the Sequoyah Unit 2 Depletion Calculations The actual irradiation histories for the fuel assemblies firom Sequoyah Unit 2 were used to perform the SAS2H depletion calculations relevant to the CRC evaluations. Table 52.5-1 identifies the following information

• the cycles In which the various fuel assemblies were inserted

• the locations of the various fuel assemblies In each cycle corresponding to a one-eighth core location as shown in Figure 52.S-1

• the fuel batch to which each fuel assembly corresponds

• the cycles in which the various fuel assemblies contained either a BPRA or RCCA

• the types of BPRA inserted in the various fuel assemblies.

Table 5.2S-1. Fuld Assembly Insertion Cycles, BPRA Insertion Cycles, and RCCA Insertion Cycles for the Sequoyah Unit 2 Depletion Calculations Assembly Fuel Assembly, BPRi, and RCCA Insertion Locations and Cycles Identifier/Fuel C

Cycle 2 Cycle 3 B atch 1

______2_______3 A6/2

[20]'JC8' AS

{_CD}__D8 A8M3

[l0]/A8 ES FlO A15/3 A9 F9 DlO A21/3

[lO]/AlO Cs

, B8 A2la/3

[10] lAlO 08 G03' A2S/2

[9]/Bll C12 (CD) JD12 A2Sa/2

[9]/Bll C12 B13 A2613 Al ElO

{CD) /H8 A26a/3 All ElO C9 A29/3 B12 E9 Ell A29a/3 B12 E9 C14 A30/3 C13 (CD) / D12 09 A31/3

[9]/Bl3 D11 BlO B14/4

[8] /B9 E9 B15 /4 A9 Dll B19/4

[12] / ClO ClH B21/ 4 AlO C12 B25/4

[12]/Bll F9 B26 /4 All B12 B29 /4 B12 D9

Waste Package Operations Engineering Calculation

Title:

Sequoyac Unit 2 CRC Depletion Calculations Document Identifier. BOOOODOO-01717-0210-0000S REV 00 Page 14 of 91 Table 5.25-1. Fuel Assembly Insertion Cycles, BPRA Insertion Cycles, and RCCA Insertion Cycles for the Sequoyah Unit 2 Depletion Calculations Assembly Fuel Assembly, BPR4. and RCCA Insertion Locations and Cycles Identifier I Fuel Cycle 1 Cycle 2 Cycle 3 Batch 1

_______2_Cycle_3 B30/4

[8] /C13 FS B31/4 B13 All C21SB

[161/08 C4 /SB

[241 /E8 C6/SB

[12J1CS C /SB AS C14/SA

[16]/B9 CIS/SA A9.

C17tSB

[12] /EI0 C19 SA

[20 /CIO C21 SA A10 C2S/SA (81]

Bll C30/ISB C13

'Numbers appearing inEt i iat a BPRA was present in the assembly in that particular cycle; Ihe number refers to the number of BPRs in the BPRA. Cycle 1 utilized Pyrex BPRAs, and cycles 2 and 3 utilizd WABA BPRA&

2 The alphanumeric designations following the slash Or ienti* the assembly position in the one-eighth symmetric core layout as shown in Figure 5.2.5-1.

3 Letr apearing in brackets like (XX) indicate that an RCCA Wcspodn to the letter symbol Was present In the assembly during operation in that particular cycle.

4For cycle 3, assemblies A2la and A26a are In U/8I core symmetric locations, but do not bave 1/81 core symmetric properties. Assemblies A25a and A29a are also in 1l8i core symmetric locations in cycle 3, but do notbave

=

1 core symmetric properties.

Waste PaclMge Operations....

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Title:

Sequoyah Unit 2 CRC Depletion Calculations DocumtIdentifier BOOOOOOOO-01717-0210-00005 REV 00 Page 15 of 91

(.

H G

F E

D C

B A

1 2

3 4

3 6

7 S

12 9

9

• 10 11 13

'14 is q 6.9

• 1

I" -

I" -

10 16 17 18 19 20 21 44

~

U.

11 22 23 24 25

. 26 2 2 2 6~~~~~ 4.-I I.._

27 12 29 13 30 1 31 iII igure 52.5-1. One-Eighth Symmetric Core Layout for Sequoyah Unit 2 5.2.6. Reactor Cycle History Specifications for Sequoyah Unit 2 This section contains the Sequoyah Unit 2 reactor cycle summary information relevant to the CRC evaluations documented in this calculation file. The calendar day duration between the various dates were determined using an Excel spreadsheet Table 5.2.6-1 shows the cycle summary Information.

Table 52.6-2 shows the statepoint and datapoint summary information. The statepoints refer to times when the reactor was shutdown and restarted. MCNP reactivity calculations for the CRC evaluations were performed using the reactor startup conditions and appropriate depleted isotopics after each statepoint shutdown. The datapoints refer to times when the depletion calculations were halted to adjust various Input parameters such as average fiel temperatures and average moderator specific volumes.

The depletion calculations were continued after each datapoint halt without modeling any reactor downtime.

Table 5+/-6-1. Cycle Summary Information for Sequoyab Unit 2 Depletion Calculations I

cle Statup Date Shutdown Cycle I

~

Length Downtime at CyclStatupfte Date (calendar OWFD)

EOC' 0(days)

_d a y s )_

I 1

~

11/05/81 07/18/83 620 389.3 86 2

10112/83 O028/84 352 297.0 81 I

Waste Paclmge Opemdons _,

Engineering Calculation Waste Package Operations Engineering Calculation

'rite: Sequoyah Unit 2 CRC Depletion Calculations Document enifier BOOOOOOO-01717-0210-00005 REV 00 Page 16 of 91 Table 5.2.61.

ycle Summary Information for Sequoyah Unit 2 Depletion Calculations l qyde l 8tasp~te lShutdown lCt(cle Lenagth lC~yclee hl Downtime al 3

12/18/84 01/11889 1492 377.3 Not Required "Ike letters EOC refer to end-of-cycle.

Table 52.-2. Statepoint and Datapoint Summary Information for Sequoyah Unit 2 Depletion Calculations Statepint orDowntime at Cycle EFPD tapointIdentoer Statepoint or Datapint dentfier Datapoint (hour.)

1 0.0 SPI (36)'

0.0 I

187.06 DPI`

0.0 2

0.0 DP2 0.0 2

14S.3 DP3 0.0 3

0.0 SP2 (37) 1943 3

210.9 SP3 (38) 23896

'The letters SP' refer to a CRC statepoint The number immediately following the 'SP' refers to the relative stepoint for the Sequoyah Unit 2 CRC evaluations. The number in the parenthesis.following the 'SP#" refers to the statepoint number as Identified In the global listing of statepoints in the CRC evaluation project 2 Ihe letters "DP" ref~erto a CRC datapoint. The number immediately following the "DP" refers to the relative datpoint for the Sequoyah Unit 2 CRC evaluations.

5.2.7. Boron Letdown Data for Sequoyah Unit 2 Depletion Calculations The boron letdown data for the Sequoyah Unit 2 reactor cycles relevant to CRC evaluations were obtained from linear regression fits of core operation data Table 52.7-1 contains the coefficients from the linear regression fits of the core operation data for cycles I through 3.

Waste Package Operations.

I.. Engineering Calculation Tritle: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier BOOOOOOOO-01717-0210-00005 REV 00 Page 17 of 91 Table S+/-7-L LUnear Regression Fit Coefficients of Boron Letdorn for Sequoyali Unit 2 Depletion Calculations Regression Fit

Description:

Soluble Boron Concentration versus EFPD Regression Ft Equation: ppmB' - A + B EFPD Cycle j

A

[

B 1

j 1003.27

-2A7 2

1986.95

-3.15 3

1180.18

-3.11

'ppmB^" rfers to parts per million by ma of natural boron in moderator (water).

5.2.8. Burnup, Fuel Temperature, and Moderator Specific Volume Data Burnup, fuel temperature, and moderator specific volume dat were required for each node of each assembly in each SAS2H depletion calculation. A set of nodal bumnup data at the beginning and end of each SAS2H depletion calculation was require A set of nodal fuel temperature and moderator specific volume data representative of full-power operation during each depletion calculation of interest (between statepoints and/or datapoints) was required. Tables 5.2.8-1 through 52.8-33 contain the bumup, fuel temperature, and moderator specific volume data required to perform all depletion calculations for each ofthe fuel assemblies present ini the Sequoyah Unit 2 CRC evaluations. The heit of each fuel assembly axial node in Tables 5+/-8-1 through 528-33 is 22.86 cm. The top of node I begins at the top of the active fuel region. The bumup data is presented in units of gigawatt-days per metric ton of uranium (GWd/Mr). The fuel temperature data is presented in units of degrees Fahrenheit. Ike moderator specific volume data is presented in units of cubic feet per pound. Each set of fuel temperature and moderator specific volume data listed in the tables was applicable to the depletion calculation performed between the statepoints and/or datapoints identified above the particular data

Waste Fackage, Operations.

Engineering Calculation Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculaions Docunent Identifier. BOOOOOO-001717-0210-OQ05S REV 00 Page 18 of 91

(.

Table 5.2.8-1. Burnup and Thermal Hydraulic Feedback Parameters by Adal Node for Assembly A6 Axil 1

2 3

4 S

6 7

8 9

10 11 12 13 14 1S 16 Burnup SP36 to DPI DL TLdel SvmVgl 2.324 835.5 0.0241 4.693 10489 0.0240 6.555 1202.1 Q.0238 7.810 1296.5 -- 0.0236 3.631 135S.0 0M34 9.162 1390.3 00232 9.503 14113 0.0229 9.715 1424.1 0.227 9$31 1431A 0Q025 9.8SS5 1433.7 00223 9.759 1428A 020 9.474 1409.7 00218 8.875 1365.7 0.0216 7.765 1277.6 0.0215 5.879 1120.0 0.0213 3.08S 857.0 0.0213 Buraup DPI to DP2

-wn apFiv&

6A22 961.1 0.0242 12.0S7 11S9.7 0.0240 IS.80 12263 00238 17.478

-1232.9

-0.0235 18293 1211.

0.0233 18.646 118S.6 0.0231 18.801 1163.0 0.0229 18.889 1146.9 0.0227 18971 1138.1 0.0225 19.64 1137.4 0.0223 19.U 6 114S3 0.0221 19.132 1162.1 0.0219 18.797 1184.0 0.0217 17.630 1194.3 0.0216 14.571 114S.5 0.0214 8.321 963.9 0.0213 BUMop 19.3S8

.21239 22.04S 22.372 22.S08 22.587 22.665 22.758 227842 22.830 22A8S 21.236 17;834 IDMASS DP2toDP3 TLfel F 820.0 00227 888.1 0.0226 390.8 0.022S 879.9 0.0224 872.0 0.0223.

865.7 0.0222 8612 0.0221 858.0 0.220 855.4 0.0219 8S32 0.0218 851.3 0.0217 8499 0.0216 8418 0.021S 845.6 0.0214 837.2 0.0213 766.9 0.0213 Axial Burnup DP3 to SP37 Uod&

SP37 VFW SyVOI I

11.026 796.9 O0M8 2

181940

.U452 0.227 3

23243 84.6 0.0226 4

25.166 8S0.4 0.22S 5

25.970 853A 0.0224 6

26303 857.7 0.0223 7

26AS9 862.4 00 3

26.564 866.6 0.0221.

9 26.671 8699 0.0220 10 26.792 872.3 0.0219 11 26.908 8743 0.0218 12 26.938 877.1 0.0217 13 26.646 881.5 0.0216 14 2SA20 886.3 0.0215 IS 21.795 879.6 0.0214 16 13.224 820.8 0.0213 Burnup SP37 to SP38 PSL TLFvcl SDeG Vol 14243 831.8 0.0234 24922 962.t, 0.0233 30319 9885 0.0231 32.671 9832 0.0229 33M65S 977.0 0.0228 34.032 970.9 0.0226 34.184 9649 0.0224 34258 9589 0.0223 34309 952.7 0.0222 34352 946.1 00220-34368 939.0 0.0219 34276 931.3 0.0217 33839 922.8 0.0216 32417 912.7 0.0215 28340 897.8 0.0214 17965 838.0 0.0213 Datapolnt or Stateaoint EgPD cre SP36 0.0 1Cy DPI 187.061 Cyl Dn2 0.OICy2 DPM 145.3 Cy2 SP37 0.OJCy3 SP38 210.9 I*y3 Burnup

-GWdlMTU TWue O

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Waste Package Operations Engineering Calculation Waste Package Operations Engineering Calculation Trie: Sequoyah Unit 2 CRC Detion Calculations

.-, Document Identifier. B000O0OO01717 0210-0005 REV 00 Page 19 of 91 Table 52.-2. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly AS Axial Burup SF36 to DPI Node DPI_ T-FaeL SymVol 1

1.7B9 766.6 0.0230 2

3A17 9133 0.0230 3

4.631 1020.1 0.0229 4

SA56 107.6 0.0228 5

S.99S 11283 0.0226 6

6.343 1153.7 0.022S 7

6S5 1167.

0.0223 8

6.704 1176.2 o0.m 9

6.782 111.1 0.0221 10 6.799 1182S 0.0219 11 6.737 11795 0.021S 12 6.5S0 11673 0.0216 13 6.1S1 1137.1 0.021S 14 SAOS 10735 0.0214 IS 4.125 9S6.6 0.0213 16 2.179 767.1 0.0213 Burnup DPi to DP2 DP2 Fil veVl 4.866 859.8 0.0231 8.617 1003.6 0.0230 10.864 105I1 0.0228 12.017 IOS3.6 0.0227 12.560 1039.8 0.0226 12.802 1023.0 0.0224 12.913 1008.1 0.0223 12.980 997.S 0.0 13.044 992.0 0.0220 13.114 992.1 0.0219 13.175 9982 0.0218 13.163 1009.7 0.0217 12.917 10229 0.0216 12.082 1026.1 0.0214

.9369 989.7 0.0213 S.70S 839.6 0.0213 BaSup SP37 to S38 ML; TLIe Sp Vol 18.301 935.8 0.0237 28.16S 1011.8 004236 32.131 1034.5 0.0234 33A62 10382 0a232 33.837 1035.8 0.0230 33305 1031.1 0;0228 33290 102SA 0.0226 33.857 10193 0.0224 33.820 1012.9 0.0223 33.783 10062 0.0221 33.748 998.6 0.0220 33.694 989.7 0.021S 33A99 978.5 0.0217 32.66S 9625 0.021S 29A98 934.3 0.0214 195 1n5835 0.0213 BS up DP2 to DP3

.DM TWOel Syeal 8.993 1060.0 0.0239 14.892 1178.8 0.0237 17.695 1179.7 0.0235 18.731 1147.0 0.0233 19.025 11172 0.0231 19.058 10963 0.0229 19.024 10823 0.0227 18.992 1072.5 O.2s 18383 1064 0.0223 19.003 1058A 0.0222 19.044 10533 0.0220 19.6S 1053.7 0.0218 18.923 1060.9 0.0217 18.195 10743 0.0215 15.790 10705 0.0214 9.674 959.8 0.0213 AxIal I

2 3

4 S

6 7

8 9

10 11 12 13 14 IS 16 Runup DP3 to S37 SP37 T4F)e Spey.o 12.975

.890.7 0.0238 20594 949.6 O.0237 23.801 9713 0.0236 24.847 998.6 0.0234 25.093 10175 0.0232 25.107 1030.6 0.0230 25.087 1041A 0.0228 25.085 1049.8 0.0227 25.107 105S.8 0.022S 2S.156 1059.9 0.0223 2S234 1063.1 0.0221 25327 1067.8 0.0219 25323 10775 0.0218 24.773 1091.8 0.0216 22.243. 1094.8 0.0Q14 14378 I005A..0.0213 Datapolnt or StsteMont KEMP/Cvdle SP36 O.JCYI DPI 187.06ICyl DP2 0.OI y2 DP3 145.3/Cy2 SP37 0.0 ICy3 SP38 210.9/Cy3 Bumnup

• GWd)MITU T-FUCd

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Waste Package Operations

,.' Engineering Calculation Waste Package Operations.

Engineering Calculation

'irle: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. B100000000-01717.0210-00005 REV 00 Page 20 of 91 I

Table 58-3. Bunup and Thermal Hydraulic Feedback Parameters by Axl Node for Assemby A15 Node 1

2 3

4 s

6 7

8 9

1o 11 12 13.

14 Is 16 Buroup SF36 to DPI DML TLdeu SOMV0l 1363 785.9 0.0232 3.732 943.9 0.0232 S.032 1054.1 o.230 5.912 1123.7'- 0.0229 6.486 1166.0 On228 6.8S7 1191.1 0.0226 7.095 120S3 0.022S 7246 1213.9 0.0223 7.333 12193 0.0221 73s6 1221.8 0.0220 7.296 1219.6 0.0218 7.104 1208.1 0.0217 6.687 11783 0.0215 5.898 1113.7 0.0214 4.S29 993.S 0.0213 2.408 789.5 0.0213 Bunp DPI to DP2

_ JL Mel lnee.Val 5273 878.0 0.0231 9221 10192 0.0230 1129 1061.6 O0229 12.708 --- 1062.6 0.0228--

13264 1047.9 OQ226 13535 1029.8 0.0225 13.633 10142 02AM 13.708 10032 on222 13.780 997.5 0.0221 13.8S8 997.5 o220 13.927 1003.6 0.0218 13.921 1015.6 0.0217 13.680 10303 0.0216 12.837 10352 0.0215 10.683 1002.1 0.0213 6206 8S82 0.0213 Burnup 9.638 IS.669 18A34

- 19AS.8 19.748 19.777 19.740 19.706 19.699 19.722 19.768 19.79.8 19.663 1.930 16.484 10.172 DP2toDP3 TIFvel SvmVol 1060.9 0.0239 11735 0.0237 11712 0.023S 11382 0.0232 1108.0 O030 1086.7 0.08 1072.3 0.0227 10622 0.02 IOS4.1 OQ223 1047.5 0M22 1043.0 0.0220 1042.8 OQ21t r 1049A 0.0217 1062.7 OQ21S 1059S 0.0214 951.0 O213 I

2 3

4 S

6 7

8 9

10 11 12 13 14 IS 16 Buroup DP3 to SP37 SP37 lMaottsm 13.26 915.1 00238 21A92 976.0 O237 24.566

'988.1 0235 2S53S 9982 0.0234 2S.754 10103 0232 2S.760 1022S 0.0230 25.736 10333 028 2S.732 1041.8 0.0226 25.754 10479 0.022S 2S.804 10SI.8 0C 25.886 10549 0.0221 2S.984 1OS9A 0.0219 2S.984 1068.7 0.021S 2SA27 1082.8 0.0216 22.8S7 1086.0 0.0214 14.833 9973 0.0213 BDrnup SP37 to SF38 M,

T4;Pel SpeVoY 18.692 904.1 0.0236 28A39 976A 0.0235 32296 1001.5 0.0233 33.610 1009A 0.0231 34.002 10092 0=229 34.094 10062 0.0227 34.102 1001.9 0.0226 34.092 997.1 0.0224 34.078 991.9 0.02 34.066 9862 0.0221 34.055 979.7 0.0219 34.021 971.5 0.0218 33.837 960.6 0.0216 32.99S 944.7 0.0215 29M4 916.6 0.0214 19.824 342.0 0.0213 Datapoint or Sttevoint EFPD ICvele SP36 0.0 ICyI DPI 187.06 1Cyl DP2 0.0ICy2 DPS 145.3 ICy2 SP37 0.0 ICy3 SF33 210.9/Cy3 Burnup

.GWdIMT T-Fud Spee. VoL

• feli~bm

Waste Package Operations Engineering Calculation Waste Package Operations Engineering Calculation Ttle: Sequoyah UnIt 2 CRC Depletion Calculations Document Identifier. BOODOOOOO-01717.021000005 REV 00 Page21 of 91 Table 5.2.84. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly A21 Axial 1

2 3

4 6

7 9

9 11 12 13 14 Is 16 Burnup Sl36 to DPI MEL l-Toet SpeVot 1.650 749.8 oM229 3.1S4 88S.t o022s 4272 984.7 O.227

--5.031 -1043.8 -. 0226 S26 1037.0 0.022s s.844 1110.0 0224 6.046 1123S 0.0222 6.172 t131.6 0.0221 6.241 11362 0.0220 6255 1137.7 0.0219 6.197 1134.6 0.0217 6.023 1122S 0.0216 5.6SS 1093.1 0.021S 4.967 1033.8 0.0214 3.788 924.0 0.0213 1.999 7492 0.0212 Bump DPI to DP2 EL MEd SiL mVol 4A96 838.3 0.229 7.975 975.6 0.0228 10.057 1023.

O.2t7

-11.126 ---1027.0 - 0.0226 11.628 1013.6 0C224 11.849 997A 0.0223 11.948 983A 0.0222 12.008 973 S 0.0221 12.064 968A 0.0220 12.126 968.S 0.0219 12.180 974.1 0.0218 12.165 984.5 0.0216 11.931 996.8 0.0215 11.148 1000.0 0.0214 9.179 962.5 0.0213 5237 818.0 0.0213 Bumup pP3 8.227 13.715 16A25 17520 17.903 18.012 18.037 18.050 18.077 18.123 18.174 18.183 18.000 17.22S 14.871 9.082 Dn2 to DP3 T-Fuel IYVal 1038A 0.0239 11573 0.0238 1170.2 0.023S 1149.6-0.0233 1128.7 0.0231 1113.6 0.0229 1103.7 0.0227 1097.0 O.025 1091.8 0.0224 1087A O.222 10843 0.0220 10839 0.0219 10879 0.0217 10943 0.021S 1080.7 0.0214 964.0 0.0213 Node I

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16 Burnup DP3 to SP37 M~7

-oebd Spec-Vol 12.145 90S.0 0.0240 19A08 97S.1 0.0238 22.617 1000.0 0.0237 23.794 10263 0.0235 24.173 1044.1 0.0233 24287 1055.1 0.0231 24.343 10663 0.0229 24A00 1074.7 0.0227 24.473 1081.1 0.0225 24.564 1085.9 0.0223 24.668 1090.2 0.0222 24.758 109S.8 0.0220 24.701 1105.0 0.0218 24.055 11173 0.0216 21A82 1115.6 0.0214 13.142 1016.0 0.0213 Bumup SP37 to S38 6_

Lel Sp Vol 16.853 9063. 0.0237 26.2SS 9789S 0.0236 3035S 1009.5 0.0234 31982 1020.7 0.0232 32.617 10242 0.0230 32R92 1024.7 0.0228 33.052 1023.7 0.0227 33.177 1022.1 O022 33291 10202 0.0223 33396 1018.1 0.0221 33A81 101S.0 0.0220 33501 1010.1 0.0218 33.289 1001.1 0.0217 32313 984S 0.0215 28.986 950.6 0.0214 19.102 863.9 0.0213 Datapolnt or Statevolnt £EFPD/Lvde SP36 0.OICyl DPI 187.06 JCyl DP2 0.OICy2 DP3 1453 ICy2 SP37 0.0/Cy3 SF38 210.91Cy3 BuMUp GWdMTU T.Fud

. VF Spec. VoL.

tI Ibm i.

Waste Padmge Operations Engineering Calculation Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier: BOOOOOOOO-01717.0210-OOO5 REV 00

(.

-PAage22 of 91 Table 5.2.8-5. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly A2la Axial Node I

2 3

4 S

6 7

I 9

10 11 12 13 14 is 16 Axial I

2 3

4 S

6 7

8 9

10.

11 12 13 14 15 16 Burnup SF36 to DPI ME 1 T-Ftel 6e2Vol 1.6S0 749.1 0.0229 3.154 88S.8 0.0228 4.272 984.X7 "0.0227.

5.031 1048.

006

.526 1087.0 0.0 5.844 1110.0 0.0224 6.046 1123.5 0.0222 6.172 1131.6 0.0221 6.241 11362 0.0220 6.25S 1137.7 0.0219 6.197 1134.6 0.0217 6.023 11223 0.0216 5.65S 1093.1 0.0215 4.967 1033.8 0.0214 3.788 924.0 0A213 1.999 7492 0.0212 Bunup DP3 to SP37 "37 T:Fnel SymeVl 12.S01 t83S 0.0238 19.870 944.0 0.0237 22.959 966.6 0.0235 233934 994.0 0.0234 24.130 1014A 0.0232 24.108 1029.1 0.0230 24.061 1041.2 0.0228 24.038 1050.7 0.0226 24.043 1057A 0.022S 24.077 10613 0.0223 24.145 1065.1 0.0221 24238 1069.8 0.0219 24249 1079.2 0.0218 23.737 1094A 0.0216 21301 1096A 0.0214 13.737 1002.8 0.0213 Burnup DPI to DP2 P2L T-Fael Spec-Vl 4A96 8383 0.0229 7.975 975.6

.0228

-10.057

-1023.8 0.0227 11.126 1027.0 0.0226 11.628 1013.6 0.0224 11.849 997A 023 11948 983A 0.0222 12.008 973.5 0.0221 12.064 968A 0.0220 12.126 9685 0.0219 12.180 974.1 0.0218 12.16S 984.5 0.02t6 11331 996.5 0.021S 11.148 1000.0 0.0214 9.179 9625 0.0213 5237 818.0 0.0213 Burnup SP37 to SF38

,EML TLdel S Vol 17313 911.

0.0237 26.753 982.0 0.023S 30.658 10083S 0.0233 32.029 1016.6 0.0232 32A45 10183 0.0230 32.5S0 10173 0.0228 32.73 1015.0 0.0226 32.Sg2 1012.1 0.0224 32.S89 1008.6 0.0223 323S97 1004.6 0.0221 32.606 999.6 0.0220 32.593 992.6 0.0218 32.430 9823 0.0217 31.621 966.6 0.0215 283S63 938.7 0.0214 18.959 862.6 0.0213 uMrup DP2 to DPi D83 T-Iiel Se.Vol 8,6OS 1059A 0.0239 14264 1180.8 0.0237 16.936 1185.1 0.0235 17.890 IS33 0.0232 18.127 1122.9 0.0230 18.117 1101.0 0.0228 18.0SI 10862 o0226 17394 1075.7 0.0225 17.966 10675 0.0223 173970 1060.7 0.0221 18.000 IS62 0.0220 18.021 IOS63 0.0218 17.896 10635 0.0217 1721S 1076.1 0.021S 14929 1068.6 0.0214 9.12S 95S.S O213 I

Datapoint or StateDoint mEFlCvLle SP36 0.0 ICyl DPI 18706 ICyl DPn 0.OICY2 DP3 1453ICy2 SP37 0.0/ Cy SF38 210SICy3 BuiUP

.GWdNMT T.FUel

- "F Spec. Vo.

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Waste Paclmke Operations '.

En&eering Calculation WatePakae praios ngnerngCacuato Tile: Sequoyah Unit 2 CRC Depletion Calculations DocumeatIdentifier BOOOOODOO-01717-0210-00005 REV 00 I

Page 23 of 91 Table 5.28.6. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly A25 Node 2

3 4

5.

6 7

8 9

10 11 12 13 14 15 16 Buroup SP36 to DPI XED M

I sMV01 2226 8172 0.0236 4267 998.1 O.25 5.798

'I 126'9 0.0234 6.837 1204.1 0232 7.516 1250.9 0.0230 7.954 1278.6 0.0229 8.236 129S.0 0.0227 8A16 1305.1 0.0225 8.520.1311S 0.0223 8$M0 1314.7 0.0221 88.4 1312.7 0.0219 8.263 1300.1 0.0218 7.779 12669 0.0216 6.S88 119S9 0.0214 5.257 1062.0 0.0213 2.788 826.7 0.0213 BurmDp DPI to DW2 DPM LTF iT SVO 1 5.991 922.0 0.023S 10.591 1082.1 0.0234 133355 1127.3 0.0232 14.770 1127.0 0.0230 ISA34 1110.6 0.0229 IS.731 1090A 0.0227 IS.872 1072.

0.022S IS.960 1060.3 0.0224 16.043 1OS3.6 0.0222 16.136 I1S3.3 0.0221 16218 1059.8 0.0219 16217 1073.0 0.0218 IS944 10892 0.0216 14974 10952 0.021S 12AS0 1062.5 0.0214 7202 903.2 0.0213 Burnup DP2 to DP3 pP TIFiel Spec.Vol 9.190 9679 0.0238 IS.621 1076.7 0.236 19.082 10899 0.0234 20.662 10762 0.0232 21323 1061.8 0.0230 21591 1052.2 0.0228 21.714 104S5 0.0226 21.799 1041.6 0.022S 21.888 1038.4 0M23 21.992 103S.7 0.0221 22.089 10335 00220 22.109 1032.6 0.0218 21.847 1033.0 0.0217 20.797 1033.7 0.0215 17.796 10199 0.0214 10.771 911.6 0.0213 AxWa

(,

wNode 2

3 4

5 6

7 8

9 10 11 12 13 14 IS 16 Buraup DP3 to SF37 1;PT7 T-Fei Sneeal 12.619 854.3 0.0237 20.698

'913.1 0.0236 24.700 942A 0.0234 26A34 974.0 0.0233 27.141 994A 0.0231 27A39 10073 o.a229 27.604 10173 0.0228 27.738 1025.1 0.0226 27.876 10312 0024 28.027 1035.7 0.0222 28.178 1039.7 0221 28.269 10445 0.0219 28.103 1051.8 0.0217 27.120 1059.3 0.0Q16 23.847 1046.4 0.0214 15.097 9612 0.0213 Burnup 15316 25918 30980 33.131 34.013 34352 34508 34.60S 34.68S 34.758 34.11 34.779 34AS7 33246 29A37 18.981 37 to SP38 LFl SP= Val 7832' 0.231 903.8 0.0230 930.1 o028 926.7 0.0227 9213 0.0225 915J7 0.0224 909.8 0.0223 903.8 0.0221 8979 0.0220 891.8 0.0219 8853 0.0218 877s 0.0217 869.1 0.021S 856.9 0.0214 837.6 0.0213 7772 0.0213 Datapolnt or Statepofnt EEP l sdc SF36 0.0O Cyl DPI 187.061Cyl DP2 0.OICy2 DP3 145.3 /Cy2 SF37 0.0 /Cy3 SF38 210.9 /Cy3 BUrUP

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Waste Package Opemdons,.

,.'. Engineering Calculation Waste Package Operations Engineesing calculation Thile: Sequoyah Unit 2 CRC Depletion Calculatons Document Identifier. BOOOODOOOO01717-010-00005 REV 00 Page 24 of 91 Table SM-7. Buraup and Thermal Hydraulic Feedback Parameten by ial Node for Assembly A25a AII 1

2 3

4 5

6 7

8 9

10 It 12 13 14 Is 16 Burnup SF36 to DPI DPI Te1 SmV*I 2.226 817.2 0.0236 4267 998.1 0.0235 S.798 1126.9 00234 6.837 1204.1 0.0232 7516 50.9 0.0230 7.954 1273.6 0.0229 3236 1295.0 0.0227

.416 1305.1. 0.022S 8.S20 13115 0.0223 8.S50 1314.7 0.0221 S8.4 1312.7 0.0219 t.263 1300.1 0.0218 7.779 1266.9 0.0216 6.8S8 1195.9 0.0214 5.257 1062.0 0.0213 2.788 826.7 0.0213 Barnup DPI to DP2 DM_

T-Fal Epe-Val 5.991 922.0 0.0235 10.591 1082.1 0.0234 13.355 11273 0.0232

-14.770 - -1127.0 --0.0230 15A34 1110.6 0.0229 15.731 1090A 0.0227 IS.72 1072.8 0.0225 15960 10603 0.0224 16.043 1053.6 0.222 16.136 10533 0.0221 16218 1059.8 0.0219 16217 1073.0 0.0218 15.944 10892 0.216 14.974 10952 0.0215 12AS0 10625 0.0214 7202 9032 004213 Bump 9.190 IS.621 19.082 20.662 21323 21.591 21.714 21.799 21.888 21992 22.089 22.109 21.847 20.797 17.796 10.771 DP2 to DP3 Tdei Snpee.Vol K7.9 0.0238 1076.7 O.0236 10893 0.0234 10762 0.0232 1061.8 0.0230 10522 0.0228 10453 0.0226 1041.6 0.0225 1038A 0.0223 1035.7 0.0221 1033.5 0.0220 1032.6 0.0218 1033.0 0.0217 1033.7 0.0215 10199 0.0214 911.6 0.0213 Axil Node k

2

• 3 4

S 6

7 8

9 10 11 12 13 14 IS 16 Burnup DP3 to 5P37

,;SW7 T-Fet vcVol 12.621 S43 0.0237 20.701 913.1 0.0236 24.703

'942A 0.0234 26A37 974.0 0.0233 27.144 994A 0.0231 27A3 10073 0.0229 27.608 10173 0.0228 27.742 1025.1 0.0226 27.880 10312 0.0224 28.032 1035.7 0.0222 28.183 1039.7 0.0221 28273 1044.5 0.0219 28.107 1051.

0.0217 27.124 10593 0.0216 23.851 1046A 0.0214 15.100 9612 0.0213 Bump SP37 to Sr38 M8 Modl lSi Vol 14.105 6633 0.0219

.22.965 690.t 0.0219 27265 698.1 0.0213 29.107 07.S 0.021S 29.852 695.1.

0.0217 30.161 692A 0.0217 30318 689.7 0.0216 30A35 6872 0.0216 30.549 684.7 0.021S 30.669 682.1 0.0215 30.782 6795 0.0214 30823 676.6 0.0214 30S91 673.2 0.0214 29A99 668.7 0.0213 25369 6S9.1 0.0213 16.S13 632.7 0.0212 Datapolnt or stteooint KEMICycle S36 0.0 I.Cyl DPI 187.06 Cyl DP2 0.0 ICy2 DP3 145.31Cy2 SP37 0.0 ICy3 SP38 210.9ICy3 Burcup

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Waste Package Operations E

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--.--Engineering Calculation' MTle: Sequoyah Unit 2 CRC Depledion calculations Document Ideitifier. BOOOOOOO-01717-0210-00005 REV 00

1.

Page 25 of 91 Table 5.2.8U.

Burnup and Thermal Hydraulic Feedback Parameten by Axial Node for Assembly A26 1

2 3

4 5

6 7

S 9

10 11 12 13 14 iS 16 Buroop SM36 to DPI DPI T-Fae Somc.ol 1.423 721.9 o226 2.720 839.8 O.2 3.670 924.3 0.022 4.311 -973.6

-0.0224-4.725 1011.

0.0223 4.989 1030.7 0.0222 5.155 1041.7 0.0221 5258 1048.1 0.0220 5.314 1051.8 0.0219 5.324 1053.0 0.021S 5.274 IOS0 0.0217 5.129 1040.3 0.0215 4122 101.8 0.0215 4245 965.1 0.0214 3.252 8713 0.0213 1.722 721.6 0.0212 Bump DP1 to DP2 DP_

Met Ever.Vol 3.843 795.8 OM.226 6.783 913.1 0.0225 8.S00 953.7 0.0224 9373

-9563 0.0223 9.776 944.7 0.0222 9.949 930.5 0.0221 10.023 910.3 0.0220 10.06S 909.6 0.0219 10.105 905.0 0.0218 10.ISI 904.9 0.021S 10.190 909.6 0.0217 10.174 9185 0.0216 9.981 928.7 0.0215 9.341 9313 0.0214 7.736 899.6 0.0213

• 4ASI 777.6 0.0213 BurDup DP2 to DP3

.PL WWSyMY0 1250 1093.6 0.0241 13381 12232 0.0239 15.646 12312 0.0237

-16.432

- 1204.6 0.0234 16.621 1177.6 0.0232 16.613 11582 0.0230 16.563 1145.

0.0228 16.52S 1136.7 0.0226 16.S10 1130.0 0M24 16S21 11246 0.22 16.5S2 1121.1 0.0221 16.578 11215 0.0219 16A87 1128.3 0.0217 IS.929 1138.6 O.0216 13.950 1126.6 0.0214 8.632 996.5 0.0213 Axhia 1

.,I 2

3 4

S 6

7 9

10 11 12 13 14 IS 16 Burcup DP3 to 37 SP7 Tel SpeYol 12568 93.8 0.0241 19W6S 1013A o0239 22.122, 1029.0 0.0237 22.897 10415 0023S 23.041 1055.8 0.0233 23.026 1069.8 0.0231 23.003 1081.9 0.0229 23.006 1091.6 0.0227 23.034 1098.7 0.0226 23.085 1103.7 OQ224 23.165 1107.7 O.0222 23271 1112.9 0.0220 23319 11223 0.0218 22.922 11363 0.0216 20.755 11362 0.0214 13.543 1029.9 0.0213 Bumaup 837 to SP38 MSL T-Fael SEpe Vol 16308 8662 0.0238 26257 1016.6-0.0236 30.177 IOSS.1 0.0234 31.479 1OSS0 0.0232 31.846 I050.7 0.0230 31.t88 1044.9 0.0228 31162 1038.8 0.0226 31.126 1032.3 0.0225 31.787 102S5 0.0223 31.749 1018.4 0.0221 31.714 1010.5 0.0220 31.674 1001.2 0.0218 31.S33 989.6 0.0217 30.848 973.8 0.021S 28.096 9463 0.0214 18.889 871.8 0.0213 Datapoint or Statepoint ipEFI Cyvule SP36 0.OICyl DPI 187.06 ICyl DP2 0.0ICy2 DP3 145.3*ICy2 SP37 0.0 Cy3 SP38 210.9ICy3

• Burnup

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Waste Package Operations Engineering Calculation Waste Package Operations Engineering Calculation Tie: Sequoyah Unit 2 CRC Depletion Calcultons Docment ldefiten BOOOOOOOO-017170210-0000S REV 00

-PagMe 26 of 91l Table 52.8.9. Burnup and Thermal Hydrulic Feedback Parameters by Axial Node for Assembly A26a Axial Burnap SF36 to DPI Node ML DPIL.S I

1.423 7213 0.0M26 2

2.720 839.8 0.26 3

3.670 924.3 0.0225 4

4311 978.6 0.224 5

4.725 IOIIA 0.23 6

4089 1030.7 0.

7 5.155 1041.7 0.0221 8

5.2S8 1048.1 0.0220 9

5.314 1051.8 0.0219 10 5.324 1053.0 0.0218 11 5274 1050.4 0.0217 12 5.129 10403 0.021S 13 4.122 1015.1 0.0215 14 4.24S 96S.1 0.0214 15 3 2

£719 0.0213 16 1.722 721.6 0.0212 BUrup DPI to DP2

_MP2 T--fel Epee-Vol 3.843 795.8 0.0226 6.783 913.1 0.0225 S.500 953.7 0.0224 9373.. - 9563 0.0223 -

9.776 944.7 0.0222 9.949 930.S 0.0221 10.023 918.3 0.0220 OA65 909.6 0.0219 10.105 905.0 0.021B 10.151 904.9 0.0218 10.190 909.6 0.0217 10.174 9185 0.0216 9.981 928.7 0.0215 9341 9313 0.0214 7.736 899.6 0.0213 4A51 777.6 0.0213 BumUp

• .2SO 13.381 IS.646

-16A32 16.621 16.613 16.563 16.S2S 16.S10 16.521 16.552 16.578 16A87 15.929 13.950 8.632 DP2toDP3 T-Fuel Sp 1093.6 0.0241 1223.2 0.0239 1231.2 0.237 1204.6 0.0234 1177.6 0.0232 1158.2 0.0230 13145A 0.0228 1136.7 0.0226.

1130.0 0.0224 11246 0.0 1121.1 0.0221 11215 0.0219 11283 0.0217 1138.6 0.0216 1126.6 0.0214 996.5 0.0213 Axial 2

3 4

S 6

7 8

9.

10 11 12 13 14 1S 16 Burnup DP3 to SP37 S

LP37 VFW Soec.V 123567 938.8 0.0241 19AS1 1013A 0.0239 22.096 1029.0 0.0237 22.867 1041.S 0.0235 23.008 1OSS.8 0.0233 22.992 1069.1 0.0231 22.969 1081.9 0.0229 22.971 1091.6 0.0227 22.998 1098.7 0.0226 23.048 1103.7 0.0224 23.128 1107.7 0.0222 23233 1112.9 0.0220 23281 11223 0.0218 22.884 11363 0.0216 20.722 11362 0.0214 132 1029.9 0.0213 BUroUp SP37 to SF38 17360 911.0 0.0237 26.353 984.9 0.0236 29.863 IOIS 0.M234 31.0S7 1025A 0.0232 31A28 1027.7 0.0230 31.S40

.1026.7 0.0228 31386 10242 0.0226 31.617 1021.0 0225 31.643 10173 0.0223 31.665 10132 0.0221 31.683 1008.0 0.0220 31.680 1000.9 0.0218 31.S48 990.1 0.0217 30.839 973.1 0.021S 28.023 942.7 0.0214 18.750 864A 0.0213 Datapoint or Statepolnt SEEMP l SP36 0.0 IsCyl DPI 187.06 1Cyl DPn

.O ICy2 DP3 145.31Cy SP37 0.0Cy3.

SP38 210.9 ICy3 Burmup

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Waste Package Opemtions. -.,

-Envineering Calculation Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier: BOODOOODO-01717-0210-00005 REV 00 Page 27of 9l i

Table 512.-10. Bunmup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly A29 AM6 1

2 3

4 5

6 7

a 9

10 11 12 13 14 15 16 Bumup SP36 to DPI P1L T-FLel Spec.Vot 2.092 799.5 0.0234 4.020 9692 0.0233 SA58 10882 0.0232 6I28 1161.S 0.0231 7.0S8 120S.0 0.0229 746S 1230.5 0227 7.728 124S.6 O0226 7.899 12SS2 on224 8.000 1261.6 o2n 8.034 126S2 0.0221 7.979 12642 0.219 7.7S2 12S3.7 0.0217 7.343 12Z4A 0.0216 6A96 11599 0.0214 S.009 1034.3 0.0213 2.675 314.8 0.0213 BuMup DPI to DP2 5.508 889.5 0.0233 9.738 10362 0.0232 12276 10802 0.0230 13US83 -- 101 A O

S228 14.199 1064.9 0.0227 14A79 1045.6 0.225 14.616 1029.1 0.0224 14.704 1017.6 0.0223 14.787 1011.5 0.0221 14.878 10112 0.0220 14.958 10172 0.0219 14961 1029A4 0.0217 14.716 1044.9 0.0216 13.135

12.

0.0215 IILSS2 1020.8 0.0214 6.74S 876.S 0.0213 D30 9.743 16.34 19.048

-20.221 20.591 20.668 20.663 20.6SS 20669 20.710 20.770 20.804 20.657 19.879 17.311 10.697 DP2 to DP3 IOS3.1 0o39 1163.7 0.0237 I1S9.0 0.0235 1126A 00232 1097.7 0.0230 10773 0.0228 1063.7 0.0227 IS4.1 0.022S 1046A 00223 1040.1 0M22 103S.7 0.0220 10352 0.0213 1041.1

.0217 1052.8 0.021S 1050.7 0.0214 945.7 0.0213 I

2 3

4 5

6 7

9

'10 11 12 13 14 Is 16 Burnup D*3 to SP37 R83 TLdeu SR 13.860 904.7 0.0238 21.799 962A 0.0237 2S.149

• 97S.7 0.0235 26287 994.1 0.0234 26.595 10082 0.0232 26.649 10202 0.0230 26.6S6 1030A 0.0228 26.676 1038A4 0.0226 26.719 1044.1 0.0225 26.787 10473 0.0223 26.881 IOSO.8 0.0221 26M84 105S.3 0.0219 26.970 1064.S 0.0213 2636S 1078.7 0.0216 23.679 1079.1 0.0214 15367 993A 0.0213 Barup ML 18M 28.700 32.822 34276 34.730 34.0SO 34.S74 34.874 34170 34.866 34.861 34.828 3463S 33.758 30A77 20208 SP37 to SP38 Iin:L SpeC. VOl t995 0om3s 972.2 034 996.0 0.0232 1001.3 0.0230 999.3 0.0229 99S.1 0.0227 990.0 O25 984,6 0.0224 9789 0.02 972.8 0221 966.0 O0.219 9S7 0.0218 947.3 O216 932A 0.0215 9042 0.0214 830.4 0.0213 DatapoInt or Statepit

£EFPD /Clek SF36 0.0 Cyl DPI 187.06 1Cyl Dn2 0.OICy2 DP3 145.31Cy2 SF37 0.0Iy3 SP38 210.9/Cy3 Burcup

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Waste Package Opelrations Engineering Calculation Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calcultions DocumentIdentfier: BOOOOOO-01717-0210-OOOOS REV 00 i~~~~~~~~~~~~

-Page 28 of91 Table 5.2.8-11. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly A29a Axial Node I

2 3

4 S

6 7

8 9

10 11 12 13 14 15 16 Burnup S6 to DPI

.RL TWPpl So~

2.092 799.5 0.24 4.020 9692 0M33 5A58 10882 0.232

.6428 -1161.5

-0231 -

7.058 1205.0 0.0229 7A65 1230.5 0i227 7.728 1245.6 0.0226 7.899 12SS2 0.224 B3.00 1261.6 0.0222 8.034 126S2 0.21 7.979 12642 00219 7.782 1253.7 0.0217 7.343 1224.4 0.0216 6.496 159.9 0.0214 5.009 1034.3 0.0213 2.675 814.8 0.0213 Burcup

-DPI to DP2 DP2 T-Fvd SpeeVol 5.508 889.5 0.0233 9.738 1036.2 0.0232 12276 1080.2 0.0230

--13.S83

-1081.0 0.0228 14.199 1064.9 0.0227 14.479 1045.6 0.0225 14.616 1029.1 0.0224 14.704 1017.6 0.0223

.14.787 1011.5 0.0221 14.878 10112 0.0220 14358 10172 0.0219 14961 1029A 0.0217 14.716 10449 0.0216 13.835 1052.4 0.0215 11.552 1020.8 0.0214 6.745 376.5 0.0213 Burnup DP2 to DP3 DP3 Tmet S! 3VO1 9.743 IOS3.1 0.0239 16.034 1163.7 0.0237 19.048 1159.0 0.0235

-20.221 1126A 0.0232 20.S91 1097.7 0.0230 20.668 10773 0.0228 20.663 1063.7 0.0227 20.65S IOS4.1 0.022S 20.669 1046A 0.0223 20.710 1040.1 0.O222

• 20.770 1035.7 0.0220 20.804 103S2 0.0218 20.657 1041.1 0.0217 19.879 IOS2.$

0.0215 17311 IOSO.7 0.0214 10.697 94S.7 0.0213 Axial El&

I,

.1 2

3 4

5.-

6 7

8 9

10 Ii 12 13 14 IS 16 Bumip DP3 to SF37 EML T-F-cel Egjinl 13.860 904.7 0.0238 21.808 962A 0.0237 25.166

• 978.7 0.0235 26309 994.1 0O0234 26.619 10082 0.0232 26.673 102D2 0.0230 26.682 1030A 00228 26.702 1038A 0.0226 26.74S 1044.1 o0.22 26.813 10479 0.0223 26.908 1050i 0.221 27.011 IOSS3 0.0219 26.997 1064.5 0.0218 26391 1078.7 0.0216 23.702 1079.1 0.0214 15382 993A 0.0213 Buraup SPS7 to SP38 ML T-telT Spec. Vol ISA89 673.7 0.0220 24293 7042 0.0219 27.998 714.0 0.0219 29281 7153 0.0213 29.6S1 714.1 0.0213 29.729 712.1 0.0217 29.739 7093 0.0217 29.748 707.S 0.0216 29.771 70S.1 0.0216 29.810 702.7 0.0215 29.867 700.0 0.0215 29.916 696.3 0.0214 29.824 692.7 0.0214 29.08S 686.S 0.0213 26.09S 6742 0.0213 16.974 643.5 0.0212 Datapoint or Statepoint EMPiC.lek SP36 0.0/Cyl DPI 187.06ICyI DP2

.OI Cy2 DP3 14S.3/Cy2 SF37 0.0 ICy3 SP38 210.9/Cy3 Bunaup

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Waste Package Operations

.Engineering Calculationh Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calcuations Document Identifier. BOOOOOOOO-01717-0210-00005 REV 00

-Page 29 of 91

(

Table 52.8-12 Burnup and Thermal Hydraulic Feedback Parameters by MMial Node for Assembly A30 Axial No-de I

2 3

4 5

6 7

t 9

10 11 12 13 14 15 16 Barnup SF36 to DPI JM_ Tet pymV9l 2.420 S36.7 0.0239 4.727 10363 0.0238 6A74 1174.0 0.0237

-7646 12562

• 023S SA09 130IS5 0.0233 8.907 13352 0M31 9.236 13S3.7 029 9AS3 136.8 0.02 9.588 13743 0.0224 9.643 1379.9 0.0222 9.S92 1380A 0.0220 9370 13703 0.0218 t5.6 13383 0.0216 7.81 1266.7 0021S 6.070 1126.1 0.0213 3254 5703 0.0213 Burnup DPI to DM

-DP2 T.!ve SpMol 6290 9332 0.0237 11304 10962 0.0236 14.409 11443 O.234 16.009 1146.6 003 16.771 1129A 0M30 17.131 1108A 00228 17319 10903 0.0226 17;448 1077A O0.022 17.569 1070.6 0.0223 17.698 10703 0.0221 17.514 10773 U0220 17.537 1091A 0.0218 17.566 11093 0.0217 16.S42 1117.7

.0215 13.847 1083.7 0.0214 L.132 932.5 0.0213 Burcup 9.164 16.696 20.780 22A62 23.131 23399 23.526 23.620 23.720 23R36 23SS1 23995 23.769 22.752 19.678 12.123 DP2 to DPS 980.5 0.0240 1130.1 0.0238 1130.0 0.36

-1106.7 0.233 1088.0 0.0231 10742 0.0229 10649 0.0227 10533 00 226 1053.1 00224 1048.6 0.0222 1045.1 0.0 10432 0.0219 1046.0 0.0217 1049A 0.0215 10412 0.0214 9393 0.0213 Node I

2 3

4 5

6 7

99 10 11 12 13 14 15 16 Burnup DP3 to SP37

,;P37 T1xe1 SgMVMT 11.96S 774.7 0.0237 21.752 799.9 0.0237 26.S33

'869.0 0.0236 28.569 979.5

.0.0234 29274 1011.0 0.0232 29.548 10243 0.0230 29.700 1034.1 0.0229 29.529 1041.6 0.0227 29.965 1047.0 0.0225 30.116 1050.7 O23 30272 1053.8 021 30384 10582 0.0219 3027 1066.6 0.0218 29382 10783 0.0216 26.131 1072.7 0.0214 16.8SS 985.0 0.0213 BUrnUP SP37 to SP38 JM _T-;Pe8 Spee. Vol 17A69 952.S 0.0236 29278 1006.6 00234 34.621

• 1016.4 0.0232 36.789 1013A 0.0230 37.540 1006.8 0.0229 37.809 9992 0.0227 37.922 991.S 0.022S 37.983 38A29 3t.068 3t.093 38.053 37.768 36.651 32.902 21.794 983.7 0.0224 975.7 0.0222 967.5 0.0220 958.5 0.0219 9493 0.0211 938.6 0.0216 924.

0.02S5 896.9 0.0214 827.2 0.0213 Dstapolnt or Statevolnt EFPD /Ivele SP36 0.0 ICYI DPI 187.06 JCyl Dn2 0.oICY2 DP3 14531 Cy2 SP37 0.0 ICy3 SP38 210.9/Cy3 Burnap

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Waste PacImge Operations WsPcaeprosEngineering Calculation

'itle: Sequoyah Unit 2 CRC Depletion Calc ons

l",

Document Identifier BOOOOOOOO-01717-0210-00005 REV 00 I

Page 30 of 9l Table 5.2.8-13. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly A31 Axial BuMUp

$P36 to DPI Nodle M.P T-Fati Sypee t

1 1.271 703.5 0.0 2

2.465 811A

.0224 3

3371 391.8 0.0 4

3.985 944.9

-023 5

4.384 977.1 0.

6 4.638 962 0.1 7

4.801 1007.6 0220

£ 4.903 1014.5 0.0219 9

4.960 1018.7 0.0218 10 4.974 1020A 0.0217 11 4.931 10183 0.0216 12 4.796 1008.7 0.0215 13 4.S07 98S.1 0.0214 14 3.964 937.1 0.0214 IS 3.027 848.4 0.0213 16 1.599 708.7 0.0212 Burnup DPI to DPI DP2 L

EpeeVol 3.396 771.1 0.022S 6.149 886.5 0.0224 7.862 933.7 0.0224

- -.759 -

940.7 -. 0223 9.179 931.8 0.0222 9.363 918.9 0.0221 9A46 907A 0.022 9.494 899.1 0.0219 9.S39 894.7 0.0218 9.588 894.6 0.0217 9.630 899.1 0.0216 9.615 907.6 O0216 9.425 917.1 0.0215 8.795 9173 0.0214 7.227 881.9 0.0213 4.108 760.7 0.0213 Buraup 7.47S 12A76 14.916 15.859 16.160 16231 16241 16248 16.271 16311 16.360 16386 16269 1S.664 13.649 8A06 DP2 to DP3 TIuild fPVvl 1091.8 0.0243 1232.3 0.0241 1248.0 0.0238

-1227.0 0.0236 12049 0.0233 1189.1 0.0231 11789 0.0229 11722 O.227 11672 0.0225 11632 0.0223 1160.6 O.0221 1161.0 0.0219 1166.1 0.0218 1172.6 0.0216 11552 0.0214 1016.1 0.0213 Axial I

2 3

4 S

6 7

8 9

10 11 12 13 14 is 16 Burnup DP3 to SF37 SP37 VFLel Spec.Vel 11S91 918.0 0.0242 13481 993.6 0.0240 21.64 1022.9 0.0239 22.511 I1OSS.

0.0237 22.822 1079.1 0.023S 22.908 1094.7 0.0232 22.9S7 1107.1 0.0230 23.016 1116.9 0.0228 23.091 1124.3 0.226 23.182 1129.8 0.0224 23290 1134A

.0222 23.403 11402 0.022O 23.421 1149.7 0.0218 22.952 1162.3 0.0216 20.700 1 IS9.6 0214 13A6S 1046.1 0.0213 Burtup SF37 to SF38 LP38 l

l SpDee. Vol 16.153 398.0 0.0236 25.154 969.4-0.0235 29.024 1000.S 0.0233 30S19 10123 0.0231 31.081 1016.0 0.0230 31.320 10162 0.0228 31A62 1014.7 0.0226 31.S76 1012.6 0.0224 31.678 1010.3 0.0223 31.771 1007.6 0.0221 31.949 1004.1 0.0220 31.79 998.5 0.0218 31.723 988.6 0.0216 30.96 970.0 0.0215 27.860 933.8 0.0214 1t436 949A 0.0213 Datapoint or Statenolnt EFP /Ccle SP36 0.0 ICyl DPI 187.06/Cyl DP2 0.0ICy2 DP3 14S3 ICy2 SP37 0.O/Cy3 SP38 210.91CY3 BarnUP

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Sequoyah Unit 2 CRC Dpletion Calculations Document Identifier BOOOOOOQ0O01717-02 1000S REV 00 Page 31 of 91 Table 58-14. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly B14 Aial Node 1

2 3

4 S

6 7

a 9

• 10 11 12 13 14 Is 16 Bzrnup DP2 o DP3 DnP3_

T.Fel SpeVol 4.030 1133.

0.M47 6.098 13312 0.0245 7.010 1402.7 0.0242 7.309 1417.7 -0o239 7373 1414.6 0.0236 7380 1409A OD234 7391 14062 0.0231 7A18 1405A 0029 7A58 1406.3 0.0227 7.507 14082 0.024 753 1411.0 0.0222 7.618 14142 0.0220 7.633 1414.7 0.0218 7A53 13i8.7 0216 C6.74 1326.6 O.0214 4A76 11073 0.0213 Buroup DP3 to SP37 P37 J T-Fvel S2mV9t 8.416 1021.5 0.0248 12.S02 11393 0.0246 14.182 1189.7 0.0244

-14.724-- 1217.5 - 0.0241 14.890 1239.7 0.0239 14.985 12S9.7 0.0236 15.096 1277.5 0.0234 15232 1293.0 0.0231 IS384 13063 0.0229 IS.545 1317.6 O.226 15.720 1328.8 0.0224 15.911 1341.1 0.0221 16.064 13543 0.0219 1504 13593 0.0217 14.558 13162 0.021S 9.998 1144.7 0.0213 Burnup SP37 to SP38 2ML I Mad SneVol 14230 1010.1 0.0244 21.148 1129.7 0.0242 239S7 11603 0.0239 24.976 -

116S.6 0.0237 25361 1164.0 0.0234 2S.552 11592 0.0232 25.687 1352.9 0.0230 25301 1146.0 0.0227 2S.89S 1138.9 0225 25.968 1131A 0.0223 26.022 1123.1 0.0221 26.050 1113.1 0.0219 25979 1100.0 0.0217

.2SSS 1080.1 0.0216 2326S 104S.6 0.0214 IS987 932.5 0.0213 Table 5+/-8-1S. Burnup and Thermal Hydraulic Feedback Parameters by Axal Node for Assembly B1S Node 1

2 3

4 5

6 7

9 10 11 12 13 14 is 16 Burnup DP2 to DP3 DP3 T-Fee Sper-Val 2.762 966.7 0.0237 4.S52 1158.

0.0236 5355 1227.7 O.234 5.6S2 1246.0 0.0232 S.748 1247.5 0.0230 5.781 124S3 0028 5.807 1243.8 0.0227 S.839 1243.3 0.022S 5.879 124S 0.0223 S924 1247.0 0.0221 5.971 1249A 0.0220 6.Q08 1251.

0.0218 5.990 12493 0.0217 5.781 1230.6 0.0215 S.033 11595 0.0214 3.045 9433 0.0213 Burnup DP3 to SP37

-M37 T

SFoelVSp 5.898 915.5 0.0238 9386 1036A 0.0236 10.2 1076.5 0.023S 11328 10965 0.0233 11512 1112.0 0.0231 11.615 11263 0.0230 11.71S 11393 0.0228 11.827 11S0.7 0.0226 11347 1160A 0.0224 12.074 1168.6 0.0222 12207 1176.1 0.0221 12.336 1183.6 0.0219 12A.I 11909 0.0217 12.161 1191A 0.0216 10.890 11572 0.0214 6.888 9972 0.0213 Burnup SP37 to SP38 ML Late But 10.916 983A 0.0240 17.109 1108.6 0.0239 19.698 1146.7 0.0237 20.700 11524 0.0234 21.122 11493 0.0232 21336 1143.7 0.0230 2IA77 1137A 0.0 21.S84 1130.8 0.0226 21.668 11243 0.0224 21.729 1117.6 0.0222 21.764 11104A 0.0220 21.751 11019 0.0219 21.609 1090.9 0.027 21.020 10752 0.0215 13913 1041A 0.0214 12312 924.4 0.0213 Datapolnt or S~tIaoknt EFPDIr DFn

.OIJCy2 DP3 14S3ICy2 SF37 0.0 ICy3 SP38 210.91C3 BumUp GWdWWT T-FaI

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Waste Paclage Operations Engineering Calculation Waste Package Operations Engineering Calculation

Title:

Scquoyah Unit 2 CRC Depletion Celculatons Document Identifier. BOOOOOOOO-01717.6210-005 REV 00 Page 32 of 91 Table 52.8-16. Barnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly B19 Axial Node 2

3 4

S 6

7 3

9 10 11 12 13 14 is 16 Burnup DP2 to D MM T.Fael 9sjr" 4.418 1172.9 00247 6370 13S72 0M44 7.170 1413.1 0.0241 7.366 14232 -0.0239 7347 1412.8 0.0236 7.295 1406 0.0233 7.263 13953 0.0231 7254 1392.4 0.0229 7263 1390.8 0.0226 7.283 1390.5 0.0224 7.317 1391A.

00222 7366 1393J 0.0220 7406 1396.1 0.0218 7307 13862 0.0216 6.698 1327.4 0.0214 4.770 1133.3 0.0213 Buraup DP3 to SP37 Td.Fue Spee-Val 9.054 1024A o.a249 12.974 11353. 0-0247 14.497 11882 0.0244

-14.896 -- 1219.8

-0.0242 14.950 124S.8 0.0239 14366 1267Q 0.0237 15.019 1286.9 0.0234 IS.108 1302.9 0.0232 15217 13163 0.0229 15338 1327.7 0.0227 ISA81 1339.0 0.0224 IS.661 1351.6 0.0222 15.853 136S.8 0.0219 15.16 1373.1 0.0217 14.722 1333.S 0.021S 1OS70 116S.0 0.0213 Baurup SF37 to SF38 SP38 T.Fu ScVl 14.010 947 0.0241 20.566

.106S.0 0.0239 232S8 1101.6

'0.0237

-24217 1112.7 0.023S 24.S6S 11149 0.0232 24.738 11132 O030 24.870 1109.7 00228 24389 110S.4 006 25.094 110039 024 2S.181 1096.1 0.0222 25254 1090.S O.2 2S307 1032.6 0.0219 2S.276 1070.0 0.0217 24.820 1048.1 0.0215 22.776 1007.6 0.0214 15.942

.890.S 0.0213 Table 52.8-17. Bmunp and Thermal Hydraulic Feedback Parameters by AaW Node for Assembly B21 Axial Nodle 1

2 3

4 S

6 7

3 9

10 11 12 13 14 15 16 Burnup DP2 to DP3

.PS!

T-Fael nSvVon 2.756 967.8 0.0238 4.S77 11633 0.0237 SA19 12363 0.S23 S.7SS 1258.0 O.0233 S.880 1261.8 0.0231 5934 1261.1 0.0229 S974 1260.7 O.227 6.018 1261.7 0.022S 6.070 1263.7 0.223 6.126 1266.S- 0.222 6.1S2 1269.6 0.0220 6.223 1271.9 0.0218 6.198 12692 0.0217 S934 1248A 0.0215 S.16S 11732 0.0214 3.101 950.0 0.0213 BUrnup DP3 to SP37

, M L7 TLel,pVol 5.890 916.0 0.0238 9.440 1039.1 0.0237 10.951 1081.0

.023 11S23 1102.8 0.0234 11.756 1119A 0.0232 11.892 1134.5 0.0230 12.016 11432 0.0228 12.148 1160.0 00226 12287 1170.1 o0224 12A32 1178.7 0.0223 12581 1186.6 0.0221 12.719 1194A 0.0219 12.77S 1201.5 0.0217 12.495 12013 0.0216 11.138.

1164A 0.0214 6.997 10011 0.0213 BUrnup SP37 to SP38 w8 Eted Spec-Vol 10.185 930.1 0.0237 16306 1053.8 0.036 18.993 10943 0.0234 20.076 1101.0 0.0232 20.548 1098.0 0.0230 20.795 1092.5 0.0228 20962 1086A OM22 21.097 10803 o0225 21212 10743 o.223 21307 1068.5 0.0221 21378 1062A 0.0220 21397 10552 0.0218 21264 104S5.

0.0216 20.629 10302 0.0215 18390 9942 0.0214 11.7S0 878.8 0.0213 Datapoint or StitevoInt EFPlCvel DIP2 0.OICy2 DP3 145.3 /Cy2 I

.iP37 0.0ICy3

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Document Identifier. BOOOOOOOO-01717-0210-OOOOS REV 00 I\\11 l1lr-Page 33 of 91

• Table 52.8-18. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly B25 Axhil 1Ne 2

3 4

S 6

7 8

9 10 Ii 12 13 14 1S 16 Burnup DP2 to DP3 DP3 Vte1 ynLVot 3.682 1091.8 O244 SA86 1273.7 O0.Q42 6380 1346.6 0.0240 6.734 13673 --0.0237 6.8S0 1368.7 0.0235 6.94 13663 0.0232 6.929 136S 0.0230 6973 1365.

0.0228 7.26 1367A Q.0226 7.084 13702 0.024 7.14S 1373.S 0.0222 7.19S 1376A OA220 7.186 1374.7 0.0218 6.960 13S42 0.0216 6.179 1280A 0.0214 4238 10312 0.0213 Burnup DP3 to 37

-M7 V:FWe SPec.V91 7.724 988.5 O246 11382 11062 0.0244 13.067 1155.9 0.0242 13.717

-11873 0.0240 13.969 12122 0.0237 14.118 12333 0.0235 14261 1251A 0.0233 14A18 1267.0 0.0230 14.S8S 12803 0.0228 14.759 1291.9 0.0226 14.942 1302.6 0.0223 15.122 1313.9 0.0221 IS231 13252 0.0219 14.979 1326A 0.0217 13.S86 1281.8 0.0215 9AS9 1119.7 0.0213 BUrnUP SP37 to SF38

,;38 Tu Ma SlpVo1 13.720 1022.9 0.0243 20.261 1147.8 0.0241 22.966 1173.7 0.0239 23.98S.

1173.4 0.0236 24391 1167.0 0.0234 24.S96 1159A 0.0231 24.73S 1S13 0.0229 24.84S 1142.9 0.0227 24.934 1134A 0.0225 2S.001 112S.7 0.0223 25.047 1116.S 0.0221 25.057 1106.1 0.0219 24.947 1093.7 0.0217 24360 1077A 0.0216 22.146 1046.9 O0214 IS267 925.7 0.0213 Table 5+/-8-19. Bimmup and Thermal Hydraulic

-I Feedback Parameters by Axial Node for Assembly B26 ARW lodc 1

2 3

4 S

6 7

a 9

10 11 12 13 14 15 16 Burmup DP2 to DP3 JD3 T-Fel S Vo 2.154 6323 0.0232 3.590 1046.5 0.0231 4280 1111.7 0.0229 4.568 1132.6 0.0228 4.677 1136.6 0.0227 4.721 11362 0.022S 4.752 1135.7 0.0224 4.784 1136.1 0.0222 4.821 1137.5 0.0221 4.S61 1139A 0.0220 4.901 1141.6 0.0218 4.925 1142.8 0.0217 4.S91 1139.0 0.0216 4.679 1118.6 0.021S 4.02S 10514 0.0213 2413 864.9 0.0213 Burcup DP3 to SP37 J!PL7 L.sel EneYVot 4.642 847.7 0.0233 7.506 960.1 0.0232 8.776 1002.5 0.0230 9282 1023.6 0.0229 9489 1039.5 0.0228 9.603 10535 0.0226 9.700 10655 0.022S 9.801 1075.8 0.0223 9.907 1084.5 0.222 10.017 1092.0 0.0221 10.129 1098.8 0.0219 10.228 I105 0.0218 10248 1110.9 0.0216 9.972 1108.5 0.0215 8.818 1073.0 0.0214 SA97 921.3 0.0213 Bunup SP37 to SF38

$M Tyl SpecVol 7.904 847.9 0.0230 12.672 946.7 0.0229 14.790 980.5 0.8 IS.673 988A 0.0227 16.07 987.8 0.0225 162S8 9844 0.0224 16394 9802 0.223 16.505 975.9 0.0221 16.601 971.8 0.0220 16.683 967.9 0.0219 16.745 963.6 0.0218 16.762 9583 0.0216 16.638 950.7 0.02IS 16.069 9372 O0214 14.195 903.8 0.0213 8.944 8032 0.0213 Datapoint or StatenoInt EFPlCvele DPZ 0.0ICy2 DP3 14S3I Cy2 SP37 0.0ICy3 SP38 210.9/Cy3 BuERiUP

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... Engineering Calculation Waste Package Operations Engineering Calculation Tifle: Sequoyah Unit 2 CRC Depletion Calcuatfons Document Identfier: BOODODOOO-01717-0210-OO005 REV 00 Page 34 of 9l 5;,.

Table 5.2.8-20. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly B29 AkaA hNde 1

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16 Burnup DP2 to DP3 DP3 T-:aeI Sm-Vol 2373 1005.0 0.0241 4.921 1210.1 0.0239 5.848 1284.1 0.0237 6.S -1306.3 0.0235 6364 1309.1 0.0233 6.423 1307.8 0.0230 6.468 1307.0 0.228 6.516 1307.7 0.0226 6572 1309.6 O.224 6.632 1312.3 0.0223 6.692 131S3.

0.0221 6.737 1317.7 0.0219 6.716 1315.3 0.0217 6A77 1294S 0.02C1S 5.64S 1217.7 0.0214 3.440 988.1 0.0213 Burnup DF3 to SF37 aTel SPeCVol 6.290 916.9 0.0240 10.066 1037.8 00239 11.729 1086.2 0.0237 12.386 1118.2 00235 12.6SS 1142.8 0.233 12.808 1162.1 0.0231 12.942 1177.7 0.229 13.082 1190.4 00227 13229 1200.8 0.0225 13381 1209.6 0.0224 13.537 1217.5 0.0222 13.686 1225.4 0.0220 13.754 1233.0 0.0218 13A75 1233.9 0.0216 12.071 1198.1 0.0214 7.680 1033.8 0.0213 Burnup SP37 to SP38 MS T-Fvel nSec.Vol IIC27 1002.9 0.0242 18.1S8 11273 0.0240 20.954 1161.1 0.0238 22.091 1164.1 0.0235 22.588 1159.7 00233 22.45 1153.S 0.0231 23.01S 1146.8 0.0229 23.148 1140.0 00227 232SS 11332 O S 23337 1126.1 O0223 23391 1118A 0.0221 23396 11093 0.0219 23263 1098.1 0.0217 22.660 1083.0 0.0216 20A81 10S4.1 0.0214 13.4U 941.1 0.0213 Table 5.8-21. Bunp and Thermal Hydrulic Feedback Parameters by Axial Node for Assembly B30 Axw Nde 1

2 3

4 5

6 7

8 9

10 11 12 13 14 1S 16 Burnup DP2 to DP3 PP3 T.ve1 6MVo1 3.347 1063.1 0.0244 S303 12623 0.0242 6321 1339.8 0.0239 6.736 1361.5 00237 6.883 1363.5 0.0235 63946 1361.7 0.0232 6994 1360.8 0.0230 7.048 1361.7 0m28 7.110 1363.8 0.0226 7.176 1366.8 0.024 7242 13703 o0.22 729S 1373.1 0.0220 7282 13713 0.0213 7.038 13502 0.0216 6.178 1272.0 0.0214 4.032 1055.

0213 Bump DP3 to SP37

-M7-T1:Fv SPoVv1 7.013 935.6 0.0243 10.849 10503 0.0242 12.706 1OS.6 0.0240 13.457 IISO1 S 0.0238 13.759 1183.1 0.0236 13928 1206.0 0234 14.078 1223 0.0231 14234 12382 0.0229 14399 1250.1 0.0227 14568 12602 o.22s 14.743 12695 0.0223 14.91S 1278.8 0.0221 IS.010 1288.0 0.0218 14.738 12892 0.0216 13279 12SO3 0.0214 1392S 1090.8 0.0213 Burnup SP37 to SP38 JEU_8 T-Fvel Sm--VO1 13250 1047A 0.0245 20.02S 1173A 0.0243 22.96S 1200.1 0.0240 24.132 11993 0.0238 24.610 11933 0.0235 24.847 ISSA 0o0233 2S002 11772 0.0230 2S.119 11692 0.0228 2S212 11612 0.0226 25280 11523 0.23 2S324 1144.0 0.0221 2S329 1133.8 0.0219 25205 1121A 0.0218 24.584 11043 0.0216 22286 10742 0.0214 IS.128 953A 0.0213 Datapoint or Statepoint ED I Cycle DP2 0.0/Cy2 DP3 14S.3 /Cy2 SF37 O.o/Cys

. SP38 20.9ICy3 Burnup

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Waste rackage Operations Engineering Calculation Waste Package Operations EngIneering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOOO-01717-0210-00005 REV 00 Pae 35 of 91 Table 528-22. Buriup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly B31 Axil Node 2

3 4 -

5 6

7 I

9 10 1I 12 13 14 Is 16 Buraup DP2 to DPi

,DP T41:ueI SyVel 2.076 877.0 0.0232 3.535 1044.1 0.0231 422 1111.7 0.0229 43588 1132.5 0.0228 4.711 1136.3 0.0227 4.763 1135.

0.022S 4.798 11353 00224 4.833 1135.7

.022n 4.873 1137.0 00221 4.915 1138S 0.20 4.956 1141.0 0.0218 4.982 11422 0.0217 4.947 113.8A 0.0216 4.729 11173 0.0214 4.049 1049.7 0.0213 2.398 560.9 0.0213 Burnup

' DP3 to SP37 M7 Tafel Sne.Sl 4A46 8223 0.0232 7317 929.3 0.0231 8.6S54 975.4 0.0230 9207 '1004.1 "0.0229 9A38 102S.6 0.0227 9.561 10419 0.0226 9.60 10545 0.022S 9.760 1064.6 0.0223 9.863 1072.8 0.0222 9.970 1079.7 0.0220 10.078 108S3 0.0219 10.173 1092.0 0.0218 10.191 10973 0.0216 9.912 10952 0.0215 8.740 1061.0 0.0214 SA03 9118 0.0213 Burnup 7.029 IIASS 13A96

'14.378 14.776 14S91 IS.144 is1 IS.391 ISA97 1S.586 IS.630 1SS32 14.989 13.171 8L189 SP37 to SM38 790.0 00227

£75.1 0.0226 903A o0.22 912.6 0.224 914.5 on223 913.6 o.222 911.7 O.221 909,S on220 0.03 O219 905.2 0.0218 902.7 0.0217 899.1 0.0216 192.5 0.0215 1783 0.0214 47.9 0.0213 759.5 0.0213 Node 2

3 4

5 6

7 a

9 10 11 12 13 14 IS 16 Table 52.8-3 Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly C2 BUrUP SP37 to SPS 6.214 1156.

0.0246 8.843 1332.1 0.0244 10.110 1400.0 0.0241 10.639 1414.0 0.0239 10.862 14113 0.0236 10.955 14053 0.0233 10.980 1399.0 0.0231 10.962 1393.

0.0228 10.912 1387A 0.0226 10.833 1381.7 on224 10.724 1375S 0.0222 10S79 1367.7 0.0220 10.372 13S6.1 0.0218 9389 13323 0.0216 9.076 1271.7 0.0214 6.672 11063 0.0213 Datapoint or Stafteoont

£EEED I Ci Dni L.OCy2 DP3 145S3ICY2 SF37 0.0ICy3 SMiS 210.9 1Cy3 DUrnup

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Waste Package Operations E3ngineering Calculation Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depction Calculaftons DocumentIdendifien. BOOOOOOO-001717-0210-D0005 REV 00 Page 36of 91 AxWa 1

2 3

4 S

6 7

S 9

10 It 12 13 14 16.

Table S58-24. Bumup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly C4 Burnup SP37 to SP38

,3L Lul gn-Val 6.152 1150.1 0.0245 8.A 13022 0.M43 9.706 1374.2 o0.041 10305 1394.0 0238 10om 1394.7 0.023s 10.694 1390.6 0.0233 10.738 1385 00230 10.736 1380.0 0.0228 10.699 1374.7 0.0226 10.630 13693 0.0224 10529 13632 0.0e22 10386 13552 00220 10.177 1343.1 0.0218 9.780 1318.1 0.0216 8.878 1257.7 0.M14 6.857 1117.8 0.0213 TableS.28-25. BurnupandThennalHydraulic Feedback Parameters by Axial Node for Assembly C6 Burnup SF37 to SP38 JMI8 Tmve S

eViol S4S8 1102.6 0.0245 8.083 1283A 0.0243 9A27 1357J8 0.0241 10.086 1380.8 0.0238 10A32 138S.8 0.36 10.630 1385.

0.0233 10.751 13845 o00231 0.825 1383.0

.028 10.865 1381.6 0.0226 10.871 13803 0.0224 10.839 13782 0.0222 10.7S1 13739 0.0220 10567 13643 0.0218 10.163 1340A 0.0216 9.171 1276.6 0.0214 6342 1097.0 m.13 Node 1

2 3

4 S

6 7

8 9

10 11 12 13 14 15 16 Datapoint or tes nt £E FMICvcle SP37 0.O/Cy3 SF38 210.SCy3 Burup

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Engineering Calculation Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculations

,--. Document Identifier. BOODOOOOO-01717-0210 OOS REV 00

(

Page 37 of 91 Table 52.8-26. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly CB AM 1

2 3

4 5

6 7

8 9

10 11 12 13 14 1S 16 Burcup SP37 to S38 38 T-Fel fpje.Vol 4.07B 69.8 0.0240 6.703 11602 0.0238 7.992 1235.

0.0236 8.638

-1264A 0.0234 9.000 1274A 0.232 9230 12779 0.0230 939S 1279A 0.0228 9.524 1280.9 0.226 9.628 1283.0 o0224 9.708 1285.6 o022 9.7S6 12882 0.0220 9.743 1289.0 0.0219 9.603 1283A 0.0217 9.1S9 1260.1 0.0215 7.945 1185.7 0.0214 4.858 967.1 0.0213 Table 52.8-27. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly C14 Bamup 37 to S3 SPL L L gS-Vol 5SS88 1104.8 00M246 8.059 1270.1 0.0244 9A01 1347 0.0242 10.1 19 378.6 0.0239 1O0S27 13902 O.237 10.786 1394.5 O0234 10.968 1396A 0.0232 11.102 13979 OA229 11203 1399.6 on227 11271 1401.5 0.0224 11.298 1402.

0222 11.2S6 1401S 00220 11.078 1393.1 0.0218 IO.S92 136S.6 0.0216 9A420 1292.0 0.0214 6.724 1109.5 0.0213

(.

Kode 1

I 2

3 4

5 6

7 9

10 11 12 13 14 15 16 Datapolnt or Sb~tenoint EM I lCyce SP37 0.OICy3 SP38 210.9ICy3 Boroup

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Title:

Sequoyah Unit 2 CRC Depletion Calculations

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Document Identifier. BOOQOOOOO-01717-02100000S REV 00

-Pawac 38 of 91 Table 52.8-28. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly C15 2

3 4

5 6

7 8

9 10 11 12 13 14 is 16 Burnup SF37 to SF38 MS-3 V~d Spee.Vol 4.S1S 977.1 OJD240 6.01 1168.5 OA239 8.113 124S2 OX237 8.776 1274.6 O.X23S 9.147 128S.0 0.0233 9384 1288.

0.0230 9.SS4 1290.S 0.0228 9.686 1292.2 0.0226 9.794 1294A 0.0224 9.78 12973 0.0223 9.928 1300.0 0.0221 9337 1301A 0.0219 9.774 129SA OQ217 9.318 12713 0.21S 8.083 119S.9 OO14 4.963 97S5 0.0213 Table 5.2

9. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly C17 Burmup SP37 to S8

.Mg8 T--ng sBVol 6.131 1144.6 0.0247 8.880 1322.0 0.024S 10.162 13913 0.0242 10.735 14113 on239 11.013 1413.5 00236 11.160 1410.6 0.0234 1.233 1400.

0.0231 11258 14024 0.0229 1124S 1398.7 0.0226 11200 1395.0 0224 11.117 1390.7 0.0222 10.986 13845 0.022O 10.773 1373.7 0.0218 303SS 1349.5 0.0216 9323 1283.7 0.0214 6.587 109U3 0.0213 Node 1

2 3

4 S

6 7

8 9

10 11 12 13 14 iS 16 Datapoint or Lakon

£EPD/YSvc SP'37 0.ICY3 SF3 210-91CY3 Buroup GWd/5rTrU T-FaeI

- 'F Spec.Val.

-ft3Ilbu

Waste Padmge Opemdons Engineering Calculation Waste Package Operations Engineering Calculation Tite: Sequoyah Unit 2 CRC Depleto Calculons Document Identfier. BOOOOOOOO-01717-0210-00005 REV 00 Page 39 of 91 1

2 3

4 S

6 7

8 9

10 11 12 13 14 15 16 Table 52.830. Burnup and hermal Hydrauic Feedback Parameters by Axial Node for Assembly C19 Burnup SF37 to SP38 EML VFWL SpeIa 5.776 1118.8 0.0245 8.035 12692 0.0243 9266 1339.

0.0240 9.907 1365.7 00238 10.2S1 1373.5 0.35 10.4S3 1374.6 0.0233 10575 1373.6 0.0230 10.647 13724 0.0228 10.683 1370.6 0.0226 10.686 1369.1 0.0224 10.648 1366.6 0.0222 10.548 1361.6 0.0220 10.339 1350A 0.0218 988S 1323.1 0.0216 8.883 12S7.7 0.0214 6.634 11032 0.0213 Table SX8-31. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly C21 IBuruup S37 to SM38 3.777 940.2 0.0237 6202 11202 0.0235 7.370 11913 0.0234 7.943 1217A 0.032 8.2S7 1226.1 0.0230 S449 1228.5 00228 8582 1229.0 0.6 8.680 1229A O0225 8.754 1230.3 Q0223 8.807 1231.8 0.0221 8.829 1233A 0.0220 8.797 1232.5 0.0218 8.650 1226.0 0.0216 8.233 1202.7 0021S 7.130 1131.6

.0214 4.352 926.7 0.0213 Axi Node 1

2 3

4 5

6 7

t 9

10 11 12 13 14 Is 16 Datapolnt or Statepolnt KFPD/¢vt SP37 0.0 ICy3 SP38 210.9ICy3 Buroup

. GWd/MTU T-Fuel

• OF Spec Val.

-fe /IMM

(.

Waste Package Operations'.....

Engineering Calculation role: Sequoyah UnIt 2 CRC Depletion Calcultiaons Doc=ent Idertifier 10000000.017l7-M21-00005 REV 00 Page 40of 91 Axi 2

3 4

s 6

7 t

9 10 11 12 13 14 IS 16 Table 52.8-32. Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly C2S Burnup SP37 to S38 iML l:eil SymeVol 4.848 1039.9 00242 7A36 1220.1 0M0240 8.750 1294A 0.0238 9A08 1321.8 0.236 9.761 1329.9 00234 9.970 13313 OA231 10.10S 1330.7 0.0229 10.194 1330.1 0.0227 10253 1329.9 OA22S 10283 1330.1 0.0223 10.276 1329.9 0.0221 10.209 1327.6 0.0219 10.020 1318.8 0.0217 9.S49 1292.2 0.0216 8385 1218.9. 0.0214 S.567 1023.9 0.0213 Table S+/-843.' Burnup and Thermal Hydraulic Feedback Parameters by Axial Node for Assembly C30 Burnup SP37 to SP38 I

L;P38 SY..OI 3.747 9433 0.0235 6224 1130.9 00234 7399 1197.6 0.0232 7.913 12142 0M31 8.150 1214.5 O.29 8264 1210.7 0.0 8.317 1206A 0.0225 8336 1202.6 0.0224 8331 1199A 0022 8.305 1196.

0.0221 8254 1194.1 0.0219 8.164 11902 0.0218 7999 11823 0.0216 7.634 1161.6 0.021S 6.663 1098A 0.0214 4.103 9053 0M0213 Axial Node 1

2 3

4 5

6 7

8 9

10 11 12 13 14 IS 16 Datapolnt or Stteoint ElPD/Cycle SF37 0.oICy3 SP38 21039 CY3 Burnup

-GWdWMT T-FueI T

Spec. Vol

-fe Ilbm

Waste Paclmge Operations..

"... Engineering Calculation Waste Package Operations Engineering Calculation rtie: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOOO-01717-0210-00005 REV 00 Page 41 of 91 5.2.9. RCCA Insertion History Data for Sequoyah Unit 2 Depletion Calculations The RCCA insertiQn time, duration, and position were eqired to perform the fuel assembly depletion calculations in which an RCCA was inserted. Hardening (locally Increasing the average energy of the neutron population due to less local thermalization and increased local capture of neutrons at thermal energies) the neutron spectrum In a particular axial region of an assembly at a time during its irradiation history affects the isotopic composition of the depleted fuel. The CRC depletion calculations for fuel assemblies with an RCCA insertion history required the knowledge of the RCCA insertion time in terms of the number of EFPDs Inserted in each axial node for each statepoint depletion calculaton. Tables 52.9-1 through 529-4 present the RCCA Insertion time data required for the fuel assembly depletion calculations relevant to the Sequoyah Unit 2 CRC evaluations. The height corresponding to the axial nodes presented in Tables 52.9-1 through S+/-.94 is 22.86 ca. Ihe top of node I begins at the top of the actve fuel region.

Table 5.2.9-1. Rod Insertion Time by Axial Node for Assembly A6 AiW1 1

2 3

4 q

5 6

7 8

9 10 11 12 13 14 15 16 Time Rod Inserted (EFlD)

SMP37 to MsP 154.1 28.1 fix 3.6 0.0 o.6 0.0 0.0 0.0 0.0 I

0.0 0.0 0.0 0.0 0.0 0.0 stntepooli 5I'37 5P38 EFPD/lvl 0.01 Cy3 210391CY3

Waste Package Operations Engineering Calculation ritle: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier: EO000OO-01717-010-00005 REV 00 Page 42 of 91 Table 5+/--2. Rod Insertion Time by Aial Node for Assembly A25 Axial T1me Rod Inserted (EFPD)

Node SP37 to JELB t

153.8 2

28.0 3

12.0 4

3.7 5

0.0 6

0.0 7

0.0 8

0.0 9

0.0 10 0.0 11 0.0 12 0.0 13 0.0 14 0.0.

1S 0.0 16 0.0 St~tevooot.EFMI Cyle SP37 OJICy3 SP38 210.9 ICyS

.Table 52.9-3. Rod Insertion Time by Axial Node for Assembly A26 Axial Time Rod lnserted (FD)

Node SP37 to S3 I

lS4S.

2 28.1 3

11.9 4

3.5 5

0.0 6

0.0 7

0.0 8

0.0 9

0.0 10 0.0 11 0.0 12 0.0 13 0.0 14 0.0 15 0.0 16 0.0 Statevolot EM I cycle DB2 0.0 Cy2 DB3 145.3 ICy2 SP37 0.0ICy2 i.

Waste Padmge Opemdons

. Engineering Calculation

'ide: Sequoyah Unit 2 CRC Depleticn Calculations Document Identifier BOOOOOOO-01717.02100005 REV 00 Page 43 of91 Table 5.2.94. Rod Insertion Time by Axial Node for Assembly A30 AxiMM Time Rod inser (ED)

Node B2i to DB3 DB3 to SP37 1

79.5 104.0 2

13.1 19A 3

0.0 12A 4

0.0 0.0 5

0.0 0.0 6

0.0 0.0 7

0.0 0.0 I

0.0 0.0 9

0.0 0.0 10

0.

0.0 11 A0.

0.0 12 O

0.0 13 O

0.0 14 0.0 0.0 is 0.0 0.0 16 O.

O sbt tolut EF Ilyk DB2 0.0ICy2 DB3 14.3 /Cy2 SP37 0.OI y3

53. Assembly Depletion Calculation Procedure The procedure for perorming the fuel assembly SAS2H depleton calculations documented in this analysis was based on the utilization of the CRAFT, Version S. software rIne. The CRAFT software routine is described generally in Sections S.6 and 5.7. The complete detailed description of the CRAFT, Version S. software routie is provided in Attachment I of Reference 7.6. Ihe procedu for perfoming a fuel assembly depletion calculafton wit CRAFT, Version 5, consisted of the following steps:

Create a CRAFT input deck for the assembly depletion calculation.

• Assure that the CRAFT executable file, the CRAFT input deck entitled Idatain", and the

'sedexecute" exctable file are In the same directory. The 'sedexecute executable file is a script file which is used in conjunction with the CRAFT code to create the consolidated output files described in Section 5.7.

• Execute CRAFT.

• Check and analyze the CRAFT generated SAS2H input decks and the SAS2H Isotopic results lhe various CRAFT generated and consolidated SAS2H output files contain unique filenames which specify the following information:

• reactor Identifier

• one-eighth core symmetry assembly mumber in current reactor cycle

Waste PaclaiLye Onerations EndneerinLy calcitantifti,

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifiue BOOOOOOOD-01717-0210 0005 REV 0O Page 44 of 91

• axial node number

• reactor cycle number in which the SAS2H calculation begins

• EFPD statepoint at which the SAS2H calculation begins

• reactor cycle number in which the SAS2H calculation ends

• EFPD statepoint at which the SAS2H calculation ends.

A complete detailed description of the filename content and.format is provided in Attachment I of Reference 7.6.

5A. Path B Model Development for the Sequoyah Unit 2 Depletion Calculations Ihe SAS2H control module used ORIOEN-S to peform a point depletion calculation for the fuel assembly or section of the fuel assembly described in the SAS2H input deeck The ORIGEN-S calculationa module used cell-weighted cross sections based on one-dimensional (1-D) transport calculations performed by XSDRPM One-dimensional transport calculations were performed on two models, Path A and Path B, to calculate energy dependent spatial neutron flux distributions necessary to perform cross section cell-weighting calculations.

The Path A model was simply a unit cell of the fuel assembly lattice containg a fel rod. In the Path A model, the fuel plet, gap, and clad were modeled explicitly. The only modification required to deveop the Path A model was the conversion of the fiel assembly's square lattice unit cell perimeter to a radial perimeter conserving moderator volume within the imnit cell (exterior to the fudel rod cladding). This modification was performed automatically by the SAS2H control module. A 1-D transport calculation was performed on the Path A model for each energy group, and the spatial flux distribtions for each energy group were used to calculate ell-weighted cross sections for tie fuel The Path B model was a larger representation of the assembly than the Path A modeL The Path B model approximated spectral effects due to heterogeneity within the fuel assembly such as water gaps, burnable poison rods, control rods, or axial power shaping rods. Typically, fiuel assemblies contain a number of similar non-fuel lattice cells dispersed somewhat uniformly throughout the assembly lattice. ITe structure of the Path B model was based on a uniform distribution of these non-fuel lattice cells. In reality, most fuel assemblies do not have uniformly distributed non-fiuel lattice cells, but the approximation of uniformly distribted non-fuel lattice cells was considered acceptable within the fidelity of these calculations as documented in Section S2.23.1 of Volume 1, Rev. S in Reference 7.1.

The basic stucture of the Path B model for the fuel assembly depletion calculations performed in this analysis included an inner region composed of a representation of the nonfuel assembly lattice cell. A region containing the homogenization of the Path A model surrounded the inner region in the Path B modeL A final region representing the moderator In the assemblyto-assembly spacing surrounded the homogenized region in the Path B modeL The size of each radial region that surrounded the inner region in the Path B model was dtermined by conserving both the fuel-to-moderator mass ratio and the fuel-to-absorber (either burnable poison or RCCA poison) mass ratio in the onding section of the fuel assembly. The cell-weighted cross sections from the Path A model were applied to the homogenized region during the Path B model Iransport calculations. New cell-weighted cross sections

Waste Package Operations..,

.... Engineering Calculation title: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOODOOOO-01717-0210-00005 REV 00 Page 45 of 91 for each energy group were then developed using the unit cell spatial fluc distribution results from the Path B model transport calculations. These cell-weighed cross sections were ultimately used In point depletion calculations performed by ORIOBN-S to calculate both the depleted fuel and the depleted burnable poison (if present) Isotopic compositions in the orspondi section of the fuel assembly. A detailed description of the calculations used to produce time-dependent cross sections by SAS2H is documented in Section S22.4 of Volume 1, Rev. S in Reference 7.1.

The Path B models for the various fuel assembly configuations had to be provided to the SAS2H control module. The primary concern in the development of the Path B model for PWR assemblies was the conservation of the fhel-to-moderator and the fuel-to-absorber mass ratios in the corresponding section of the assembly.

The Path B model development calcuations for the Sequoyah Unit 2 depletion calculations are presented in Tables 5.4-1 through 5.4-20 and contain the following Infmation:

• the fuel assembly section charactcs for which the Path B model is developed

• the required Path B model development input parameters

• the parameters calculated to determine the final Path B model dimensions

.0 references to equations from Table 5.4-21 that were used to calculate parameters

• the final Path B model dimension results.

Table S.4-21 contaIns a listing of the equations referenced and utilized in each of the Path B model development calculations presented in Tables 5A-1 through 5.4-20.

Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOODOO-01717-0210-00005 REV 00 Page 46 of 91

(.

Table 54-1. SAS21 Path B Model Dimension Calcuations for Sequoyah Unit 2:

SID Assembly Type, Upper Guide Tube Section, No Insertion Assembly hput Parameters Nunber of ni ells I ussemh: 2s9 Number offiuel rods isssmbly. 264 Number of guide twbes InL semby a24 Rod pitch In ssembly (cm):.S5954 Fuel pellet diameter(cm): 0.51915 Fudelcaddng utcr diameter (cm): 0949m Upper Regon gulde tube outer dlamer(cm 122428 Upper Region guide tube Inner diameter (cm): 1.14300 Inshument tbe outr diameter (cm): 122428 Inument tube inner diameter (cm): 1.14300 Assembly pitch (cm): 2150364 Fuel-to-Moderator Unit Volume Ratio Calculation Identifier of Equation Uilzed: SAl1 Fuel-to-Modeator Unit Volume Ratio - 051951 Moderator Unit Volume In Central Region of Path B Model Ideaner ofEquation Utilized: SA-2

(.

Moderator Unit Volume In Cenl Region of ath B Model - 1A3608 Fuel Unit Volume In Fue Rod Unit Cel (Path AModel)

Idendfier ofEquation Utiized:- SA-3 Fuel Unit Volume hi Fuel Rod Unit Cell - 052701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model)

Identifer of Equation Utilized: SA-4 Moderator Unit Volume hI Fuel Rod Unit Cell - 0187844 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Region of the Path B Model Identifier ofEquation Utilized: SA-6 Number of Fuel Rod Unit Ceds that must be Represeted hI the Homogenized Region of she Path B Model-10S6000 I

Waite Package Operations..,

. Engineering Calculation -

'ride: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. B10000000 01717-0210-00005 REV 00 Pag 47 of 91 Path B Model Dimensions Outer Radius Region 0 LM Region D~escription Inner I

0.57150 Water filedgap 2

0.61214 Gulde tbe 3

0.71079 Ouidetubeunltcell moderator 4

2A1668 Homogenized region Outer S

2A2643 Modersator In the Interassembly spacing Notes: Ihe Region 4 outer radius I calculated using Equation 5.-7.

The Region 5 outer radius I calculated using Equation 5A.

Table SA-2. SAS2H Path B Model Dimension Calculations for Sequoyah Unit 2:

SID Assembly Type, Lower Guide Tube Section, No Insertion Assembly Input Parameters Number of unit cells in ussebly. 289 Number of fhel rods In usmbVy 264 Number of guide tubes In assemblV. 24 Rod pitch In assembly (cm): 125984 Fuel pellet diameter (cm): 0.81915 Fuel cladding outer diameter (cm): 0394996 LewerRegion guide tube outer diameter (cm): 1.08966 Lowe Region guide tube inner diameter (cm): 1.00838 Instrument tube outer imeter (cm). 122428 1nstrument tube iner diameter(em): 1.14300 Assembly pitch (cm): 21.50364 Fuel-to-Moderator Unit Volume Ratio Calculation Identifier of Equation Utilized: SAi Fuel-to-Moderator Unit Volume Ratio - 0.51871 Moderator Unit Volume In Central Region oflPath B Model Identifier of Equation Utilized: SA-2 Moderator Unit Volume In Central Region of Path B Model - 1AS326 Fuel Unit Volume In Fuel Rod Unit Cell (Path A Model)

Identifier of Equation Utilize: SA-3 Fuel Unit Volume in Fuel Rod Unit Cell - OS2701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model)

Identifier of Equation Uiied: SA-4 Moderaor Unit Volume In Fuel Rod Wit Cell - 0.87844

-Waste Package Operatio'ns Engineering Calculation Waste Pakg Oprtin Eniern Cacuato Tide: Sequoyah Unit 2 CRC Deplction Calculations Document Identifier. B000000-01717.0210-OOOS REV 00 Page 48 of91 Number of Feel Rod Unit Cells that must be Represented In the Homogenized Region of the Path B 1kodel Identifier ofEquation Utilized: SA-6 Number of Fuel Rod Uplt Cells tIat must be Rpresented hI.

the Homogenized Region of the Path B Model - 10.56500 Path B Iodd Dimensions outer Radius Realon 0 R eelon Descriotion Inner 1

0.50419 Waterfiled gap 2

OU448 Gude tube 3

0.71079 Guide tube unitcell moderator 4

2A1720 Homogenized region Outer 5

2.42695 Moderator Ithe Inter-ssembly pacing Notes:

The Regli 4 outer uadius is calculated ing Equation SA-7.

The Region S outer ad=i Is calculated using Equation SA4.

Table SA-3. SAS211 Path B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly Type, Upper Guide Tube Section, RCCA Insertion Input Parameters Number of uit cels in ssembVy 289 Number of fuel rods In assembly-. 264 Number of guide tubes In assembSr 24 Number of CR's in assembly-24 Rod pitch In assembly (am): 125984 Fuel pellet diameter (cm) 0.81915 Fuel cladding outer diameter (em): 094996 Upper Region guide tube outer diameter (cm): 1.22428 Upper Region gulde tSe Inner diameter (cm): 1.14300 CR claddi outer diameter (cm): 0.96774 CR eladding Inner diameter (cm): 0.87376 CR absorer material diameter (cm): 0.86614 Instrument tube outer diameter (cm): 122428 Instrument tube Inner diameter (cm): 1.14300 Assembly pitch (cm): 21.S0364 Fuel-to-Moderator Unit Volume Ratio Calculation Idertificr of Equation Utilized:& SAi Fuel-oModerator Unit Volume Ratio - O.SS617 Moderator Unit Volume in Central Region of Path B Model Identifier of Equation Utilized: SA-2 Moderator Unit Volume In Central Region of Pdh B Model - 0.70054

Waste Package Operations Engineering-Calculation Waste Package Operations Engineering Calculation rhle: Sequoyah Unit 2 CRCDepleionCalaons Document Identifier: BOOOOOO-01717-0210-00005 REV 00

(.

Page 49 of 91 Fuel Unit Volume In Fuel Rod Unit Cell (ath A Model)

Identifier ofEquation Utilizedi 5A-3 Fuel Unit Volume In Fuel Rod Unit Cell - 0.2701 Moderator Unit Volume In Fuel Rod Uult Cell (Path A Model)

Identifier of Equation Utilized SA-4 Moderator Uit Volume in Fuel Rod Unit Cell - 0.87844 Number of Fuel Rod Uoit Cells that must be Represented in the Homogenized Region of the Path B Model Identifier of Equation Utilized. S-6 Number of Fuel Rod Unit Cells hat must be Represented In the Homogenized Region of the Path B Model 10.13437 Required Area of Control Rod Absorber Material In Path B Model (Cm):

Identifier of Equation Utilized: SA-10 AJ

- 0.54284 Path B Model Dimensions

(..._

Redion 0 hiner I

2 3

4 S

6 7

outer

£ outer R~du 0AIS68 OA3688 0A8387 Q.S7150 0.61214 0.71079 237177 2.38134 LWM oDegcrlon Neutron absorber material Gap' Control rod cladding Water filled gap Guide tube Guide tube unit cell moderator Homogenized region Moderator in the interssembly spacing Notes:

The Region I outer radlus is calculated using Equation SA-I 1.

'he RWglon7 outer radius s calculated using Equation SA7.

The Region 8 outer radius is calculated using Equation SA-8.

Table SA-4. SAS2 h th B Model Dimension Catculations for Sequoyah Unit 2:

STD Assembly Type, Lower Guide Tube Section, RCCA Insertion Input Parameters Namber of unit cells in essembb 239 Number of fuel rods hI assemSb 264 Number ofguide tues in assembVy 24 Number of CR's In wembly 24 Rod pitch hi assembly (cm) 12S984 Fuel pellet diameter(cm) 0.8191S I.

Waste Package Operations Titde: Sequoyah Unit 2 CRC DpletionCalculatons Document Identifier. BOOOOOOOG-01717-0210-00005 REV 00 Fuel caddig cuter diameter (cm) 034996 Lower Region guide tube outer diameter (cm): 1.08966 Lower Region gulde tube lIner diameter (cm): 1.00838 CR clding outer diameter (cn): 036774 CR cladding Inner diameter (cm): 0187376 CRabsorbermateral dameter(cmN 016614 Istrnent tube outer diameter (cm): 122428 Instrument tube inner diameter (em): 1.14300 Assembly pItch (cmN): 21.50364 Fuel-to-Moderator Volume Ratio Calculation Identifier of Equation Utilied: SAI Fueto-Moderator Unit Vohume Ratio - OSS526 Moderator Unit Volume In Central Region of Path B Model Identifier of Equation Utilized SA-2 Moderator Unit Volume In Central Region of Path B Model - 0.71M Fuel Unit Volume In Fuel Rod Unit Cell (ath A Model)

Identifier ofEquation Utilized: SA-3 Fuel Unit Volume la Fuel Rod UnIt Cell 0.52701 f

Moderator Unit Volume In Fuel Rod Unit Cell (ath A Model)

Identifier of Equation Uized: S4 Moderator Unit Volume hn Fuel Rod Unit Cell - 0o744 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Region of the Path B Model Identifier of Equation Utilized: SA6 Number of Fuel Rod Unit Cells Ihat be Represented In the Homogenized Region of e Path B Model - 10.1S3S0 Required Area of Control Rod Absorber Mateiial In Path B Model (cmnl:

Idenfer of Equation Utilized: SA-10 Area - 0.54386 Engineering Calculation Page 50 of 91 Path B Model Dimensions Inner 12.

3 4

5 Outer Radius 0.A1604 0.43688 0.8387 0.50419 0.S4483 Reaeon Desefttion Neutron absorber material cap Control rod lading Water failed gap Guide tube

Waste Package Operations -,

Engineering Calculation ride: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. B10000000001717-0210-00005 REV 00 Page 51 of 91 6

0.71079 Gulde tbe unilcell moderator 7

2.37381 HRomgenizedregion Outer 8

2.38338 Moderator i tm inter-assembly spacing Notes: The Region I outer radius b calculated using Equation S-1 1.

lhe Region 7 outerradlus s calculated usg Equaton SA-7.

The Region 8 outer radius Is calculated using Equation SA4.

Table SA-S.. SAS2H Path B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly Type, Upper Guide Tube Section, Pyrex BPRA Insertion (9 BPRs)

Input Parameters Number of unit cells in ussembtr. 289 Number of fact rods in assezubly: 264 Number of gude ubes In assembb-24 Number of BPRs hi assemb 9

Rod pitch In assembly (c): 125984 Fuel pellet diameter (cm): 0.1915 Fuel cladding outer diameter (cn): 0.94996 Upper Region guide tube outer diameter (cm): 122428 UpperRegion guide tube Innerdiameter (cm) 1.14300 BPR outer cladding outer diameter (an): 0.96774 BPR cuter cladding 1ner diameter (cm)c 0.t7376 BPR Inner cladding outer diamete(cm): 0.46101 BPR inner cladding Inner diameter (cm): OA2799 BPR absorber material outer diameter (cm): O0S344 BPR absorber material inner diameter (cm): OA8260 Instument tube outer diameter (cm): 122428 Inswument tube inner diameter (m):

.14300 Assembly pith (cm): 21.50364 Fael-to-Moderstor Unit Volume Ratio Calculation Identifier of Equation Utlized SA*1 Fuel-to-Moderator Unit Volume atio - OS3268 Moderator Unit Volume In Central Region of Path B Model Identifier of Equatlon Utilized: SA2 Moderator Unit Volume In Central Region of Path B Model - 0.70054 Fuel Unit Volume I Fuel Rod Unit Cell (Path A Model)

Identifier of Equation Utfflzed: SA-3 Fuel Unit Volume In Fuel Rod Unit Cell - 0352701 Moderator Unit Volume In Fact Rod Unit Cell (Path A Model)

Ident ofEquation Utilized: 3.4-4 Moderator Unit Volume Ih Fuel Rod Unit Cell - 0.87844

-Waste Package Operaotins

...Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calcuaons Document Idenfifier BOOOOOOOO-01717-0210-00005 REV 00 Page 52 of 91 I.

Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Region of the Psth B Model Idenfier of Equation Utilized: SA-6 Number of Fuel Rod Unit Cells that must be Represcetd In the Homogenized Region ofthe Pth B Model - 631586 Required Am of BPR Absorber Material In Path B Model (cm):

Identifier of Equation Utilized: SA-10 Area - 0.08379 Path B Model Dimensions Redgn #

Inner I

2 3

4 5

6 7

8 9

10 Outer 11 Outer Radius 021400 0.23051 024130 029137 OA3688 OA8387 0.57150 0.61214 0.71079 1.922S3 1.930Q8 ReWmeinscrwon Gap BPR Inner cladding kp Burnable polon Glap BPR outer cladding Water Guide tube Weer Homogenized region Water In the inter-assembly spacing I.

Notes:

The Region 4 outer adius Is calated using Equation SA-11.

The Region 10 ouer radius Is calculated usihg Equation SA-7.

The Region 11 outer radius Is calculated ust Equation S.48.

Table S.4.6. SAS2HI Path B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly Type, Lower Guide Tube Section, Pyrex BPRA Insertion (9 BPRs)

Input Parameters Number of unit cells in assemblI. 289 Number of fuel rods hi assemblr. 264 Number of gulde tubes In assembly. 24 Number of BPRs In assembly: 9 Rod pitch in assembly (cm): 12S984 Fuel pellet diameter (cm): 0.81915 Fuel cladding outer diameter (cm): 0.94996 Lower Region guide tube outer diameter (cm): 1.08966 Lower Region guide tube Inner diameter (cm): 100838 BPR outer cladding outer dlamneter (cm) 0.96774 BPR outer cladding Inner diameter (N):

0.B7376 BPR Inner cladding outer diameter (cm): OA6101 BPR loner cladding Inner diameter (cm): 0.42799 BPR bsorber materl outer dameter (em): 0.85344

Waste Paclmge Opemdons.

.
. -. Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculations Do ment Identifier. BOOOOOOOO-01717-0210-O0005 REV 00 Page 53 of 91 BPR sorbe material iner dIameter (cm): OA8260 Instrument tube outer diameter (cm): 1.22428 Instrument ibe inner diameter ():

1.14300 Assembly pitch (m): 21.50364 Fueko-Moderator Volume Ratio Calculation:

Identifer of Equaton(s) Utild: SA-1 Fuel-to-Moderator Volume Ratio - 033 14 Moderator Unit Volume In Central Unit Cell of Path B Model:

Ientifier of Equation(s) Uized: SA-2 Moderator Unit Volume In Ceta Unit Cell of Path B Model - 0.71M FQCe Unlt Volume In Fuel Rod Unit Cell (Path A Model:

IdentfIer ofEquation(s)Utlized:

5A43 Fuel Unit Volume In Fuel Rod Ui CWlI - 052701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model)

Identifier of Equation(s) Utilized. S-4 Moderator UWit Volume In Fuel Rod Unit Cell - 087843

(

Number of Fuel Rod Unit Celli that must be Represented I. n the Homogenkcd Zone of the Path B Model IdentificrofEquation(s)Utilized:

SA-6 Number of Fuel Rod Unit Cells that mt be Represented In th Homogenized Zone of he Path B Model - 638093 Required Area of BPR Absorber Material In Path B Model (ao:

Identifier of Equaton Utilized. 5.A-10 Area - 0.08465 Path B Unit CjiU Model Dimensions:

Outer Radius Zoe- #

M)

Zone Descrigion Inner 1

021400 Gap 2

023051 BPRInnercladding 3

0.24130 Gap 4

029184 Burnable poison S

0A3688 Gap 6

048387 BPR outer cladding 7

030419 Water 8

0.S4483 Gulde tube 9

0.71079 Water 10 1.93106 Homogenized region Outer 11 1.93885 Water in the assembly-t-assembly gap

Waste Package Operations.

Engineering Calculation ritle: Sequcyah Unit 2 CRC Depletion Calcatons DocumentIdentifier: B0OOOOO-01717-0210-000 REVOO Page 54 of 9l Notes: The Rtglon 4 outerd Is cac d using Equation A-I.

TIe Zone 10 outer radius Is calculated using Equation 5.4-7.

The Zone 11 outer radius Is calculated using Equation SA-8.

Table 5.A7. SAS2H Path B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly Type, Upper Guide Tube Section, Pyres BPRA Insertion (10 BPRs)

Input Parameters Number of unt cells in assemblyT. 289 Number of fuel rods In assembly: 264 Number ofgulde tubes In assembly: 24 Number of BPRs hi ussembly 10 Rod pitch in assembly (cm) 1.2S984 Fuel plet diameter (cn): 0.8191S Fact cladding outer diameter (cm): 0.94996 Upper Region guide tube outer diameter (cm): 122428 Upper Region gulde tube Inner diameter (cm): 1.14300 BPR outer cladding outer diameter (am): 0.96774 BPR outer cladding Inner diameter (cmn): 0.87376 BPR hIner cladding outer diameter (cm): OAS6101 BPR Ine cladding Inr diameter (cm): OA2799 BPR absorber m l outer diameter (em): 0AS344 BPR absorber material Inner diameter (cM):

.OA826 Insmrument tube outer diameter (cm)N 122428 lnstnument tube lier diameter (cm): 1.14300 Assembly pitch (cm): 21.50364 FE-to-Modenator Volume Ratio Calculation:

IdentifiereofEquation(s)Utlized:

SA-I Fuel-to-Moderator Volume Ratio - 0.53418 Moderator Unit Volume In Central Unit Cell of Path B Model, Identifier of Equation(s) Utilized: SA.2 Moderator Unit Volume in Central Unit Cell of Path B Model - 0.70053 Fuel Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Utilized. SA-3 Fuel Unit Volume hi Fuel Rod Unit Cell - 052701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Utilized: SA-4 Moderator Unit Volume In Fuel Rod Unit Cell - 08743

Waste Package Opemdons Engineering Calculation Waste Package Operations Engineering Calculation Tite: Sequoyah Unit 2 CRC DMeiled6n Calculations Document Identifier. B=0000000-01717-0210-00005 REV 00

(...

Page 55 of 91 Number of Feel Rod Unit Cells that must be Represented In the Homogenized Zone of the Path B ModeL IdentifierofEquation(s) UtLzed S46 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone ofthe Path B Model - 6A7860 Required Area of BPR Absorber Material In Path B Model (cm):

Identifier of Equation Utilized: SA-10 Area- 0.09549 Path B Unit Cell Model Dlmenslons Inner I

2 3

4 5

6 7

U 9

10 Outer 11 Outer Radius 31 Zone Des rition 021400 Gap 023051 BPR inner cladding 024130 Gap 029769 Burnable poison 0.436S8 Gap 041387 BPRoutercladding OS7130 Water 0.61214 ide tube 0.71079 Waer 1.94380 Homogenized region 1.95163 Water infhe assembly-to-assemblygap

(.-

Notes: The Region 4 outer diu I calclated using Equadon SA-I1.

The Zone 10 outer radius Is calcuated using Equation 5A-7.

The Zone 11 outer radius Is calculated using Equation 5A4.

Table SA-8. SAS21H Path B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly Type, Lower Guide Tube Section, Pyrex BPRA Insertion (10 BPRs)

Input Parameters Number of it cells hI assembly: 289 Number of fuel rods in assembly: 264 Number ofguie tubes hi assembly: 24 Number of BPRs In assembly. 10 Rod pitch in assenbly (cm):.25984 Fuel pellet diameter (cmnk 0A19 IS Fuel cladding outer diameter (m):

0394996 Lower Region guide tibe outer diameter (cm): 1.08966 Lower Region guide tube Inner diameter (cm): 1.00838 BPR outer cladding outer diameter (cm) 0.96774 BPR outer cladding inner diameter (cm): 0.87376 BPR Inner dadding outerdiameter(cm): OA6101 BPR biner cladding inner diameter (cm): 042799 BPR absorber material outer diameter (cm): 0.85344

Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Deiletibn Calcultions Documen Identifier. B00000000-01717M010-OOO5 REV 00 Page 56 of 91 BPR absobe material inner diameter ():

OA8260 nment tube outer dameter (cm): 122428 Instrument Wbe Inner diameter (cm): 1.14300 Assembly pitch (cn): 213S0364 Fuelo-Moderator Volume Ratio Calculation:

Identifier of Equation(s) UtIed: SA4-Fuel-to-Moderator Volume Ratio - OS3334 Jioderator Unit Volume In Central Unit Cell of Path B Model:

Identifier of Equation(s) Utied: 5A-2 Moderator Unit Volume hi Central Uni Cell of Path B Model 0.71M Fusl Unit Volume in Fuel Rod Uit Cell (th A Model):

IdeifierofEquidon(s)LUtilized:

SA-3 Fuel Unit Volume Ia Fuel Rod Unit Cell - 0O52701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model):

IdendfierofEqution()VUtilized.

SA-4 Moderator Unit Volume In Fuel Rod Unit Cell - 087843 f

Number of Fod Rod Unit Cel t must be Represented In the Homogenkzd Zone of the Path B Model IdentifierofiEquation(s) Utlized: 5A-6 Number of Fuel Rod Uit CeDs thamst be Represented hI the Homogenized Zone ofthe Path B Model - 654300 Required Area of 8PR Absorber Material In Path B Model (cm):

Identifier of Equation Utilized. SA-10 Area- 0.09644 Path B Unit Cell Model Dimensions:

Outer Radius Zone f Zone Descdidon Inner 1

0.21400 Gap 2

0230SI BPR Inner dadding 3

0.24130 Qap 4

029820 Burnable poison S

0.43688 Gap 6

OA8387 BPR outerclidding 7

050419 Water S

054483 Guide tube 9

0.71079 Water 10 1.9521S Homogenized region t

Outer I1 1.96002 Water In the assenbly-toesscmbly gap

Waste Package Operations Engineering Calculation rite: Sequoyah Unit 2 CRC Depletion Calculatons Document Identifier. BO0OO00 00 1717-0210-00005 REV 00 Page 57 of91 Notes: The Region 4 our radius Is calcuated sing Equation SA-11.

The Zone 10 outer adius Is calculated using Equation SA-7.

'The Zone 11 outer radius is calculated using Equation SA.8.

Table SA-9..SAS2H Path B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly Type, Upper Guide Tube Section, Pyrex BPRA Insertion (20 BPRs)

Input Parameters Number of unit cells hi assembil.

289 Number of fuel rods In assembly: 264 Number of gulde tubes In sembly: 24 Number of BPRs In assnmbly 20 Rod pitch in sembly (,cm): 12S934 Fuel pellet diameter (cm): 0.8 19 15 Fuel cladding outer diameter (c): 0.94996 Upper Region guide tube outer diameter (cm): t22428 Upper Region guide tube Inner diameter (cm): 1.14300 BPR outer cladding outer diameter (cm: 0.96774 BPR outer cladding Inner diameter (tm): 0.7376 BPR Inner cladding outer diameter (em): OA6101 BPR Inner cladding Inner diameter (cm): OA2799 BPR absotber material outer diameter (cm): 0.5344 BPR absozber Material Inner diameter (cm): A8C260 nbstrument tube outerdiameter (cm): 12428 Instrument tube Iner diameter (m): 1.14300 Assembly pitch (cm): 21.50364 Fuel-to-Moderator Volume Ratio Calculation:

IdenifierofEquatn(s) Utlize&d SA-1 Fuel-to-Moderator Volume Ratio - O.S4971 Moderator Unit Volume In Central Unit Cell of Path B Model IdeifierofEquation(s)Utdlized SA2 Moderator Unit Volume In Central Unit Cell of Path B Model - 0.70053 Feel Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Utilized: 5A-3 Fuel Unit Volume In Fuel Rod Unit Cell - 052701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model:

IdentifierofEquation(s) Utilized: SA4W-Moderator Unit Volume Ti Fuel Rod Unit Cell - 017843 Number of Fuel Rod Unit Clells tat must be Represented In the Homogenized Zone of the Path B Model:

Waste Paclmge Opemfions Engineeling Calculafion Waste Package Operations Engiueerin Calculation Tte: Sequoyah Unit 2 CRC Depletion Calcuaions Document Identifier: BOOOOOOO 1il7-02l0-0D005 REV 00 Page 58of 9l 1dentfierofE quation(s)Utilized: SA-6 Number of Fuel Rod Uth Cells ht must be Represented in 1he Homogenized Zone of the Path B Model - 8.72731 Required Area of BPR Absorber Material In Path B Model (cm'):

Ideatfier of Equation UWlizet: 5A-10 Area -025728 Path B Unit Cell Model Dimensions:

Znt Inner 1

2 3

4 S

6 7

S 9

10 Outer 11 Outer Radius

=;

Zone D on 0.21400 Gap 023051 BPR Inner cladding 024130 lap 037433 Burable poison OA3688 ap OA8387 BPR outer cladding 057150 Water 0.6t214 GuIde tube 0.71079 Water 2.2168S Homogenized regon 222579 Water i die assembly4o-assembly gap

• I Notes: The Region 4 outer radius Is Calculated ushin Equation 5S-11.

'Ie Zone 10 outer indius salculated using Equation S.-7.

The Zone 11 outer radius Is calculated using Equation 5A^..

Table SA-10. SAS2H Path B Model Dimension Calculations for Sequoyah Unit 2:

SID Assembly Type, Lower Guide Tube Section, Pyrex BPRA Insertion (20 BPRs)

Input Parameters Number of nit cells hI assembly: 289 Number of fuel rods la assembly: 264 Number of guide tubes in assembly: 24 Number of BPRs I aisembly: 20 Rod pitch in assembly (cm): 125984 Fuel pellet diameter (cm): 0.81915 Fuel cladding outer diameter (cm) 0.94996 Lower Region guide tube outer diameter (an): 1.08966 Lower Region gulde tube inner diameter (an): 1.00838 BPR outer cladding outer diameter (cm): 0S6774 BPR outer ladding Iner diameter (cm): 0.17376 BPR Inner cladding outer diameter (cm): 0.46101 BPR inner ebling Inner diameter (cm): 0.42799 BPR absorber material outer diameter (cm): 0.8S344 BPR absorber material Inner diameter (cm): Q.48260 Insuzment tube outer diameter (,c): 12248 lastrument tube Inner diameter (cm): 1.14300 I.

Waste Package Operations, Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculaions Docanent Identifier. BOOOOOOOO-01717-0100000S REV 00 Page 59 of 91 Assembly pitch (m): 21.50364 Foetto-Moderator Volume Ratio Calculation:

Ientifierof'Equation(s)Udlized: Ski Fuel-to-Modaztor Volume Ratio - 0354881 Moderator Unit Volume In Central Unit Ccll of ]Pst B Model:

Identifier of Equation(s) Utilized: SA-2 Modeuator Unit Volume In Cental Unit Cell of Path B Model - 0.71M Fuel Uni Volume In Fuel Rod Unit Cell (Path A Moded):

IdeifirofEqur on(s) Utilize&: SA3 Fuel Unit Volume in Ful Rod Unit Cell - 0S2701 ModeratorUnlt Volume I Fue Rod Unit Ce (Path A Mode)

Idoeifier of Equation(s) Utized: SA4 Moderator Unit Volume in Fuel Rod Unt Cell - 0.87143 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone of the Pith B Moded

(

IdMendfiervfEquation(s)Utiized:

SA4-6 Number of Fuel Rod Unit Cells tha must be Represented in the Homogenized Zone of the Path B Model - 8.77071 Requhied Area ofBPR Absorber Material In Path B Model (cm):

Identifier of Equation Utilized: SA410 Area- 025856 Path B Unit Cell Model Dimensions:

Outer Radius Zone #

X Zone DescWon Inner 1

0.21400 Gap 2

0.23051 BPRlnnercladding 3

0.24130 Gap 4

6.37487 Burnable poison 5

OA3688 Gap 6

0.48387 BPR outer cladding 7

0.5419 Water 8

054483 ulde tube 9

0.71079 Water 10 2.22179 Homogenized region Outer 11 223075 Water In the assembty-to-ussembly gap Notes:

he Region 4 outerrius ls calculateduslngEqualon SA-I 1.

The Zone 10 outer radius is calculated using Equation SA-7.

C(.

i Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depledon Calcations Document Identifier. BOOOOOOO-01717-021000005 REV 00 Pge 60 of91 The Zone 11 oue radius is calculated using EquamoSA4.

Table SA4-lI. SAS2H Path B Model Dimension Calculations for Sequoyah UnIt 2:

STD Assembly Type, Upper Guide Tube Section, WABA BPRA Insertion (8 BPRs)

Input Paramieters Number ofunit cells In essembly: 289 Number of fuel rods In assembly: 264 Number of guide tubes In assmblr. 24 Number ofBPRs In assembly: 8 Rod pitch in assembly (cm): 12S9U4 Fuel pellet diameter (cm): 0.81915 Fuel cladding outer diameter (cm) 0.94996 Upper Region guide tube outer diameter (cmN): 122428 Upper Region guide tube Inner diameter (an) 1.14300 BPR outer cladding outer diameter (cm) 0.96774 BPR outer cladding ner diameter (cm):

0.83S70 BPR inner cladding outer diameter (cm): 0.67820 BPR Inner cladding hiner diameter (cm): 0.57150 BPR absorer material outer diameter (cm): o.o770 BPR aborber mateial iner diameter (cm): 0.70610 Instrument tubc outer diameter (cm) 1t22428 Instument tube inner diameter (cm): 1.14300 Assembly pitch (cm): 213S0364 Fuelo-Moderatr Volume Ratio Calculation:

Identifier of Equation(s) Utilize SkA Fuelto-Moderator Volume Ratio - 0.S270S Moderator Unit Volume In Central Unit Cell of Path B Model:

Identifler of Equation(s) Utffized:- 5A-2 Moderator Unit Volume In Central Unit Cell of Psth B Model - 0.95706 Fuel Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Utilzed: SA-3 Fuel Unit Volume In Fuel Rod Unit Cell - 0.52701 Moderator Unit Volume In Feel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Utilized: SA.4 Moderator Unit Volume In Fuel Rod Unit Cell - 0.87143 Number of Fuel Rod Unit Cells that mst be Represented In the Homogenized Zone of the Path B Model:

IdentifierofEquation(s) Uilzed: SA-6 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone ofthe Path B Model - 7.87S54

Waste Paelcage Operations Engineering Calcalation Waste Package Operations Engineering Calculation tlhe: Sequoyah Unit 2 CRC Deletiono Document Identifier. BOOOOODOO-01717-0210-0000S REV 00

-PAe 61 of 91 k.

Required Ara of BPR Absorber IMstera In Path B Model (Cm'):

Identifier of Equation Utilized: SA.10 Area - 0.02884 Path B Unit Cell Model Dimensions:

Zonek Inner 1

2 3

4

-5 6

7 8

9 10 Outer II Outer Radius L01 Zone Descrintion 028575 Water 033910 BPR Inner cladding 03S305 Gap 036582 Burnable poison OA17SS Gap 0A8387 BPRouter cladding OS7150 Water 0.61214 Guide tube 0.71079 Water 2.11793 Homogenized region 2.12647 Water to the uusembly-to-ussembly gap l

I.,

Notes:

he RegIon 4 outr radiu Is calcuatd wing Equation 5S11.

The Zone 10 outer radius Is calculated using Equation SA-7.

Tbe Zone 11 outer ndius Is calculated using Equation SA.4 Table SA-12. SAS2H Path B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly Type, Lower Guide Tube Seition, WABA BPRA Insertion (B BPRs)

Input Parameters Numberofunitcells In assembir. 289 Number of fuel rods In assembly: 264 Number of guide tub la assembly: 24 Number of BPRs In assembly: S Rod ptch in assembly (cn): 1.2S984 Fuel pellet diameter (nm):

0.8 915 Fuel cladding outer diameter (cm): 0.94996 Lower Reglon guide tube outer diameter (cmN): 1.08966 Lower Region guide tube hnerdiameter(cm): 1.00838 BPR outer cladding outer diameter (cm): 0.96774 BPR outer cladding Inner diametr (om): 083570 BPR Inner cladding outer diameter (cm): 0.67820 BPR Inner cladding Inner diameter (cm): OS71SO BPRabsorbermateial outer diameter (cm): 0.80770 BPR absorber material Inner diameter (cm)N 0.70610 Instrument tube outer diameter(cm): 122428 Instrument tube Innerdiameter(cmN 1.14300 Assembly pitch (cm): 21.50364 II.

Waste Package Operations Engineering Calculation title: Sequoyah Unit 2 CRC Depieton Calculations Document Identifier. BOOOOOOOO-01717-0210-0005 REV 00 Page 62 of 91 Fael-to-Moderator Volume Ratio Calculation.

Idndfer of Eqution(s) Utlized: 5A1 Fuel-to-Moderator Volume Ratio - 0.52623 Moderator Unit Volume In Central Unit Cell of Path B Model Identifier of Equation(s) Utlized:

SA-2 Modator Unit Volume in Central Unit Cell of Path B Model- 0.97424 Feel Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equaton(s) Utiize: SA-3 Fuel Unit Volume In Fuel Rod Unit Cell - 0.52701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Utlized:- S-4 Moderator Unit Volume In Fuel Rod Unit Cell - 0.87843 Number of Fuel Rod Unit Cells that must be Reprsented In (he Homogenized Zone otihe Path B Model Identifier of Equation(s) Utized: SA4-6 N=mber of Fuel Rod Unit Cells that must be Rpesented h Inthe Homogenized Zone ofithe PathB Model - 731818 Required Arma of BPR Absorber Materil In Path B Model (cm):

Identifier of Equation Ufled: SA-10 Area =002898 Path B Unit Cell Model Dimensions:

Outer Radius Zonej #M Zone DescrltniM Inner 1

028575 Water 2

033910 BPRInnercladding 3

0.35305 Gap 4

0.36588 Burnable poison 5

OA178S Gap 6

OA8387 BPR outer cladding 7

0O50419 Water 8

0.54483 Guide tube 9

0.71079 Water 10 2.12265 Homogenized region Outer 11 2.13121 Water In the assemblyto-assembly gap Notes:

'he RegIon 4 outer radius Is calculated using Equation 5A-I 1.

The Zone 10 outer adiu Is calculated using Equation SA-7.

The Zone 11 outer radius Is calculated using Equation SA.

Waste Package Operations...-...

WtP gOeo.Engineering Calculation Tide: Sequoyah Unit 2 CRC Deletion Calculons Document Identifier. B0000000001717.0210-00005 REV 00 Page 63 of 91

(..

Table 5A-13. SAS2E Path B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly Type, Upper Guide Tube Section, WABA BPRA Insertion (12 BPRs)

Input Parameters Number of unit cells hI assembly: 289 Number of fuel rods In assemibV 264 Nmnber of'guilde tubes In mssemblr 24 Number ofPRas ton assembly 12 Rod pft hln ssembly (m): 125984 Fuel pellet diameter (cm): 0.191S Fuel cladding outer diameter (cm): 0.94996 Upper Region guide tube outer diameter (cm): 122428.

Upper Region guide tube Inner diameter (cm): 1.14300 BPR outer cladding outer diameter (cm): 0.96774 BPR outer cladding hIner diameter (cm): 0.83S70 BPR nner cladding outer diameter (cm): 0.67820 BPR Inner cladding iner diameter (cm): 03571SO BPR absorber material outer diameter (cm): 0.50770 BPRabsorbermaterl Iner diameter (m): 0.70610 bstrument tbe outer diameter (cm): 122428 Istrument tube nner diameter (cm): 1.14300 Assembly pitch (cm): 21S0364 Fuel-to-Moderator Volume Ratio Calculation:

IdentifierofEqu (s)U

-0lized SA91 Fue-toModerator Volume Raio -

M091 Moderator Unit Volume In Central Unit Cell of Path B Model:

Idenfer of Equation(s) Utdlized: SA-2 Moderator Unit Volume in Central Uni Cell of Path B Model - 0.95706 Fuel Unit Volume In Fact Rod Unit Cell Path A Model):

Identifer of Equation(s) UWized SA-3 Fuel Unit Volume in Fuel Rod Unit Cell - 032701 Moderator Unit Volume In Fuel Rod Unt Cell (Path A, Model):

IdentifierofEquation(s)Utlzed SA4.

Moderator Unit Volume in Fuel Rod Unit Cell - 0.57843 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone of the Path B Model:

IdentferofEquation(s)Ullized.

SA-6 Number of Fuel Rod Unit Cells that must be Represented h the Homogenized Zone ofhe Path B Model - 837917 I_

Waste Package Operations Engineering Calculation Waste Package Operations Engineering Calculation hitce: Sequoyah UnIt 2 CRC Depletion Calcuaons Document Identifier. BOOOOOO-00 17170210-0000S REV 00 t -

-Patre 64 of 91 Required Am otBPR Absorber Material In Path B Mode! (cm):

Identifier of Equation Utized: SA-10 Area- 0.04601 Path B Unit cell Model Dimensions:

ZMMA Inner 1 2

3 4

5 6

7 I

10 Outer I outer Radius L

Zane fD ldn 028575 Water 0.33910 BPRIanercladding 0.35305 Gap 037321 Buruable poison OA178S Gap OA8387 BPRoterdcadding 03S7150 Water 0.61214 GuIde tUbe 0.71079 Water 2.17682 Homogenized region 2.18560 Water hI 6c assemblyto-assembly gap Notes lbe Region 4 outer ind k caultd ing Equao SA-1.

Ue Zone 10 outer radiu Is calculated using Equation SA-7.

lhe Zone 11 ter radius Is calculated using Equation SA-.

Table 6A-14. SAM Path1 B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly Type, Lower Guide Tube Section, WABA BPRA Insertion (12 BPRs)

Input Parameters Number ofunit cells in ussemblr. 289 Nunber of fiuel rods In assmbiy: 264 Number of guide tubes In ussembly: 24 Number ofBPRs In ussemblr. 12 Rod pitch In assembly (cm): 125984 Fuel pellet diameter (cm): 0.1 1915 Fuel cladding outer diameter (cm) 0.94996 Lower Region guide tube outer diameter (cm): 1.8966 LowerRegion guide tube Inner diameter (cm): 1.00838 BPR outer cladding outer diameter (cm): 0.96774 BPR outer cladding Inner diameter (cm): 0.83570 BPR Inner claddiug outer diameter (cm)): 0.67820 BYR Inner cladding wer diameter (cm): O.S7150 BPR absorber material outer diameter (cm): 0.80770 BPR absorber mateal Inner diameter (cm): 0.70610 Instrument tube outer diameter (em): 1.22422 Instrument tube Inner diameter (cm): 1.14300 Assembly pitch (cm): 21.50364

Waste Package Operations

Title:

Sequoyah Unit 2 CRC epltionCulations Document Identifier. BW000000-01717.0210-00005 REV 00 Fueto-Moderator Volume Ratio Calculation:

Identifier ofEquation(s) Utilized: SA-1 Fuel-to-oderator Volume Ratio -0 30O7 Moderator Unit Volume In Central Unit Cell of Path B Model:

Itendifierof Equation(s) UWlized: SA-2 Moderator Unit Volume In Central Unit Cell of Path B Model - 0.97424 Fuel Unit Volume In Fuel Rod Uolt Cell (Path A Model):

Identifier of Equation(s) Uilized: SA-3 Fuel Unit Volume In Fuel Rod Unit Cell - 0.52701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier ofEquation(s) Utilized: SA4 Moderator UWit Volume In Fuel Rod Unit Cell - 0.87843 Number of Fuel Rod Unit Cells Ott must be Represented In the Homogenized Zone of the Path B Modeb lIdentfierofEquaton(s)Utlzed:

SA-6 Number of Fuel Rod Unit Cells hat must be Rqpesented In the Homogenized Zone of the Path B Model - LAl454 Required Area oftBR Absorber Material In Path B Moddf(cm)

Identifier of Equation Utilized: SA-10 Ara - 0.04620 Path B Unlt Cell Model Dimensions:

Outer Radios Zone #

m)

Zone DesgiffM Inner 1

021SJ7 Water 2

033910 BPRInnercladding 3

0.3S305 Gap 4

037330 Burnable poison S

0CA175 GQap 6

AS4387 BPRouder cladding 7

0.50419 Water I

054483 Guide tube 9

0.71079 Water 10 2.18092 Homogenized region Outer 11 2.18972 Water in the semblyto-assenbly gap Notes: lhe Region 4 outer radius is calculated using Equation SA-1 1.

lhe Zone 10 outerradius Is calculated using Equation 5A-7.

lie Zone 11 outer radius is calculated using Equation 5.4-8.

Engineering Calculation Page 65 of 91

Waste Package Opemdons Engineering Cale"on Waste Package Operations Engineering Calculation

Title:

Scquoyah Unit 2 CRC Depletion Cacul ons Document ldentifiew BOOOOOOO-01717-0210-00005 REV 00 Pag 66 of91 Table SA-15. SAS2H Path B Model Dimension Calculations for Sequoyah Unit 2:

• Th Assembly Type, Upper Guide Tube Section, WABA BPRA Insertion (16 BPRs)

Input Parameters Number ofunit cells In ausembly 289 Number of fad rods In anembly 264 Number ofguide tubes In assembV. 24 NumberofBPRs In.ssemblzy. 16 Rod pitch In assembly (cm). 1259S4 Fuel pellet diameter (m) 0.81915 Foel claddig outer diameter (cm): 0.94996 Upper Region guide tube outer diameter (cm): 122428 Upper Region guide tube Inner diameter (cm): 1.14300 BPR outer cladding outer diameter (cm): 0.96774 BPR outer cladding Inner diameter (cm): 0.3S70 BPR hec cladding outer diameter (cm)X 0.67820 BPR Inner cladding Inner diameter (cm): 0.57150 BPR absorbermteria outer diameter (cm): 0.80770 BPRabsorber l hmer diameter (cm): 0.70610 instument tube outer diameter (cm): 1224 Instrument tube Inner diameter (cm): 1.14300 Assembly pitch (cm): 21.50364 Fuel-to-Moderator Volume Ratio Calculation:

Identfer of Equation(s) Utilized: SA-1 Fuel-to-Moderator Volume Ratio - O.S3482 Moderator Unit Volume In Central Unit Cell of Path B Model:

Identifier of Equation(s) Udlize&

SA-2 Moderator Unit Volume In Centnal Unit Cell of Pah B Model - 0.95706 Fuel Unit Volume In Fud Rod Unit Cell (Path A Model)-.

IdentifierofEquationts)Utid: SA-3 Fuel Unit Volume In Fuel Rod Unit Cell - 0.52701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Udi5:& SA-4 Moderator Unit Volume in Fuel Rod Unit Cell - 0.87843 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone of the Path B Model Identifier ofEquation(s) Utilized: 5A-6 Number of Fuel Rod Unit Cells that must be Represented in the Homogenized Zone of the Path B Model - 894775

Waste Padcage Operations...t WtPcae erinEngineering Calculation

Title:

Sequoyah Unit 2 CRC Deletion Calculatons Document Identifier. BOOOOO017l7-0210-ODOOS REV 00 Page 67 of 91 Required Arem of BPR Absorber Material In Path B Model (cm'):

Identifier of Equation Utlizuk 5A-10 Arcz - 0.06551 Path B Unit Cell Model Dimensions:

zone JF Inner I

2 3

4 S

6 7

t 9

10 Outer 11 Outer Radius Ls)

Zone Descriod2n 0.28575 Water 033910 BPR Inner cladig 03S30S Gap 038144 Burnable poison OA1785 Gap OA 87 BPRoutercladding OS71SO Water 0.61214 Guide tube 0.71079 Water 2.24183 Homogenized region 2.2S087 Water In die assembly-to-assembly gap Notes:

The Reglon 4outerradius Is calculated using Equation SA-11.

he Zone 10 outer radius Is calculated using Equation 5A-7.

The Zone tl outer radius Is calculated using Equation 5.4-8.

Table 5A-16. SAS211 Path B Model Dimenslon Calculations for Sequoyah Unit 2:

STD Assembly 1pe, Lower Guide Tube Section, WABA BPRA Insertion (16 BPRs)

Input Parameters Number of unit cells in assemblr. 289 Number of fuel rods In assenbly: 264 Number ofguide tubes In assemWbl. 24 Number ofBPRs In assembVy 16 Rod pitch In assembly (m): 1.2S984 Fud pellet diameter (cm): 0.191S Fuel cladding oute diameter (cm): 0.94996 Lower Region guide tube outer diameter (cm): 1.08966 Lower Region guide tube Inner diameter (m): 1.00838 BPR outer cladding outer diameter (cm): 0.96774 BPR outer cladding Inner diameter (cm): 0.83S70 BPK Inner cladding outer diameter (cmk 0.67820 BPR Inner cladding Inner diameter (cm): 0.57150 BPR absoruer terial outer diameter(cm): 0.80770 BM absorber material Inner diameter (an): 0.70610 Instrument babe outer diameter (c): 122428 Instrument tube Inner diameter (cm): 1.14300 Assembly pitch (cm): 21.50364 f.

Waste Package Operations Engineering Calculation Tide: Sequoyah Unit 2 CRC Depleton Calcultions Document Identifier: B0000000 0 1717-02l10-000S REV 00 Page 68 of91

(.;

Fueto-Moderator Volume Ratio Calculation:

IdentifierofEquation(s)Utlized:

SA.I Fuela-Moderator Volume Ratio - Q33397 Moderator Uolt Volume In Central Unit Cell of Path B ModeL:

IdentifierofEquation(s) Ulized: SA-2 Modeaator Unit Volume In Cental Unit Cell of Path B Model - 0.97424 Fuel Unit Volume In Fuel Rod Unit Cell (Path A Model)

Identifier of Equation(s) Utilized:

SA-3 Fuel Unit Volume In Fuel Rod Unit Cell - O.S2701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Utilizd: SAk4 Moderator Unit Volume In Fuel Rod Unit Cell -0.87143 Number of Fud Rod Unit Cells that must be Represented In the Homogenized Zone of the Path B Moded Identifier of Equation(s) Utlized: SA-6 Nwnber of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone of the Mt B Model - 869779 Required Area otBPR Absorber Material In Path B Model (cm'):

Identifier of Equation Utilized. 5A.10 Area -0.06572 Path B Unit Cel Model Dimensions:

Outer Radius Zone #

Zonnc Deyon Inner 1

029575 Water 2

033910 BPRInnercladding 3

035305 Gap 4

0.38153 Burnable poison 5

OA178S Gap 6

0R8387 BPR outer cladding 7

0.50419 Water 8

0.S4483 Guide tube 9

0.71079 Water 10 2.24S16 Homogenized region Outer 11 2.25421 Water In the assemblyo-iassembly gap Notes The Region 4 outer radius k calculated using Equation SA1-1.

Te Zone 10 outer radius Is calculated using Equation SA-7.

The Zone II outer radius Is calculated using Equation SA4.

Waste Padmize Overations.

Engineering Calculation Tite: Sequoyah Unit 2 CRC Depletion Calc ons Document Identificr. BOOOOOOOO-01717-0210-00005 REV 00 Page 69 of 91 TabIe 5A-17. SAS2H Path B Mode! Dimension Calculations for Sequoyah Unit 2:

SID Assembly Type, Upper Guide Tube Section, WABA BPRA Insertion (20 BPfs)

Input Parameters Number ofunk cells In assembtr. 289 Nunber of fuel rods h inassemblr. 264 Number of guide tubes hi uscmblr 24 Number of BPRs In ssembly: 20 Rod pitch in assmbly (mn): 125984 Fuel pellet diameter (cm) 0Q81915 Fuel cladding outer diameter (cm): 0.94996 Lower Region guide tube outer diameter(cm): 122428 Lower Region guide tube nner diameter (m): 1.14300 BPR outer cladding outer diameter (cm): 0.96774 BPR outer cladding inner diameter (cm): 0.83570 BPR Iner cladding outer diameter (cm): 0.67120 BPR inner cladding hr diameter (cm): 0.57150 BPR absorber zaterial outer diameter (cm): 0.80770 BPR absorbercmaerial kwerdiameter (cm 0.70610 ntrument tube cutr diameter (cm): 1.22428 Inrument tube Innerdiameter (cm): 1.14300 Assembly pitch (=m): 21.S0364.

Fuel-to-Moderator Volume Ratio Calculation:

Identifier of Equaion(s) Utiized:

SA-1 Fuel-to-Modertor VolumeRalo - 053879 Moderator Unit Volume in Central Unit Cell ofPath B Model Identifier ofEquation()

UWized: SA-2 Moderator Unit Volume In Cental Unit Cell of Path B Model - 0.95706 Fuel Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identfier of Equation(s) UWlized& IA-3 Fuel Unit Volume in Fuel Rod Unit Cell - O.S2101 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equaton(s) Utlized. S4 Modeaator Unit Volume hI Facl Rod Unit Cell - 0.87843 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone of the Path B Model Idenfierof EquaWs)fUtflized:

SA-6 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone ofthe Pah B Model -9.59910

Waste Package Operations.

Engineering Calculation Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletidn Calculations Document Identifier B00000000-01717.010*00005 REV 00

(

Page 70 of 9l Required Area of BPR Absorber Material In Path B Model (cm')

Identifier ofEquation Utilized: SA-10 Area - 0.01784 Path B Unit Cell Model Dimensions:

Zone #

Inner I

2 3

4 S

6 7

99 10 Outer 11 Outer Radius M

Zne Dlescripion 02t575 Water 033910 8PR Inner cladding 0.35305 Gap 039065 Burnable poison OA178 Gap OA8387 BPR outer cladding 0.71SQ Water 0.61214 GuIde tube 0.71079 Water 231406 Homogenized reglon 2.32339 Water in the assenblyto-assembly gap I

Notes:

The Region 4 outeradius is calculated using Equaion SA-1.

The Zone 10 outer radius Is calculated using Equation SA-7.

The Zone II outer radius Is calated-using Equation SA.4 Table 5.4-18. SASZH Path B Model Dimension Calculations for Sequoyah Unit 2:

STD Assembly ype, Lower Guide Tube Section, WABA BPRA Insertion (20 BPRs)

Input Parameters Number ofunit cells In assembly 289 Number of fuel rods In assembly 264 Number of guide tibes h assembly: 24 Number of BPRs nassembr. 20 Rod pitch in assembly (cn): 125984 Fuel pellet diameter (cm): 0.6 1915 Fuel cladding outer diameter (cm): 0394996 Lower Region guide tube outer diameter (m): 1.01966 Lower Region guide tube Inner diameter (cmn 100838 BPR outer cladding outer diameter (cm): 0.96774 BPRoutercladding Inmerdiameter(cm): 0.63S70 BPR Inner cladding outer diameter (cm): 0.67820 BPRInnercladding innerdiameter(cm): 0.57150 BPR absorber material outer diameter (cm): 0.80770 BPR absorber material Inner diameter (em): 0.70610 Instrument tube outer diameter (cm: 122428 hsument tube Inner diameter (cm): 1.14300 Assembly pitch (cm): 21.50364 Q.

Waste Package Operations Engineering Calculation TIre: Sequoyah Unit 2 CRC Depletion Calculations Doa=

utIdenmficr B0000000

-01717.0210-005 REV O0 Page 71 of 91 Fuel-to-Moderator Volume Ratio Calculatlon:

IdendfierofEquadon(s)Utilize&

S-1 Fuel-to-Modeaor Volume Ratio - OS3793 Moderator Unit Volume in Central Unit Cell otPath B Mode!:

Identrifr of Equation(s) Utle& SA-2 Moderator Unit Volume in Central Unit Cell of Pat B Model - 0.97424 Fuel Unit Volume In Fud Rod Unit Cell( Pa A

hModeo):

Identifier ofEquation(s) Utdlzed: SA-3 Fuel Unit Volume hi Fuel Rod Unit Cell - QS2701 Moderator Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identificr of Equation(s) WUizet: SA-4 Moderator Unit Volume i Fuel Rod Unit Cell - 0.87843 Number of Fuel Rod Unit Cells tat must be Represented In the Homogenized Zone of the Path B Model Idezfler ofEquaton(s)Udlized. S.-6 Number of Fuel Rod Unit Cells that must be Represented in The Homogenized Zone of the Path B Model - 9.62072 Required Area of BPR Absorber Material [a Path B Model (Cn5):

Identifer of Equation Utlized: SA-10 Area-0.08S04 Path B Unit Cell Model Dimensions:

Outer Radius Zone fL)

Zone Dscrton Inner 1

0.28S75 Water 2

0.33910 BPRlnnercladding 3

035305 Glap 4

039073 Burnable poison 5

OA41785 Gap 6

0AS387 BPR outer cladding 7

0.50419 Water 8

054483 Gulde tube 9

0.71079 Water 10 231642 Homogenized seglon Outer 11 232S76 Water In the ussemblytoussembly gap Notes: Te Region 4 outer adius is calculated using Equation SA-I1.

he Zone 10 outer ndius is calculated using Equation 5A-7.

The Zone 11 outer radius is calculated using Equation 5s4.

Waste Package Operations Engineering Calculation Tle: Scqoyah Unit 2 CRC Depletion Calculations Document Identfier. BOOOOOOO-0l717-0210400005 REV 00 Pap 72 of 91 Table SA4-9. SAS2H Path B Model Dimension Caculations for Sequoyah Unit 2:

STD Assembly Type, Upper Guide Tube Section, WABA BPRA Insertion (24 BPRs)

Input Parameters Number of unit cells la assembly: 289 Number of fiuel tods In assembV. 264 Number ofguide tubes In assembiy 24 Number of BPRs hI assembly 24 Rod pitch in usembly(cm): 12S984 Fuel pellet diameter (cm): 0.191S Fuel cladding Out diameter (cm): 0.94996 Lower Region guide tube outer diameter (cm): 122428 Lower Region guide tube itmer diameter (cm): 1.14300 BPR outer cladding outer diameter (

096774 BPR outer claddig Inner diameter(cm): 0.83570 BPR inner dadding outer diameter (cm: 07120 BPR Inner daddiug inner diameter(cm): 037150 BPRabsorber material outer diameter (cm) 0.0770 BPR absorber material inner diaiieter (cm): 0.70610 Instrument tube outer diameter (cm): 1.22428

• Isument tbe inerdiameter (c): 1.14300 Assembly pitch (,cm) 21.30364 FueIo-Moderator Volume Ratio Calculation:

IdentificeofiEquation(s)Utlize:& Sk1 Fuel-to-Moderator Volume Ratio - O342 1 Moderator Unit Volume In Central Unit Cell of Path B Model:

Identifer of Equtiods)Utlzed 5A-2 Moderator Unit Volume In Central Unit Cell of Path B Model - 0.95706 Fuel Unit Volume In Fuel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Utilized. SA-3 Fuel Unit Volume In Fuel Rod Unit Ce - OS2701 Moderator Unit Volume In Fuel Rod Unit Cell (Pth A Model):

Identifier of Equation(s) Utilized:

5SA-4 Moderator Unit Volume In Fuel Rod Unit Cell - 0.7843 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone of the Path B Modelb Identifier of Equation(s) Utilized: SA-6 Number of Fuel Rod Unit Cells that must be Represented in the Homogenized Zone of the Path B Model - 1035273 I.

Waste Pael=e Onerations Enelneering CnIculation

..( *~

Ttlc: Sequoyah Unit 2 CRC Depletion Calcaions Document Identifier. BOOOOOOO-01717-0210-00005 REV 00 Page 73 of 91 Requird Area of BPR Absorber Material In Nth B Model (cm'):

identifier of Equation Udlizd: 5.410 Ara- 0.11369 Path B Unlt Cell Model DImenslons:

Zon Inner I

2 3

45 6

7 B

9 10 outer I I Outer Radius m

Zone Descrioton 028575 Water 0.33910 BPRinnercladding 035305 Gap OA0104 Burnable poison OA4175 Gap 0A8317 1PRoutercladding 0.57150 Water 0.61214 Guide tube 0.71079 Water 239492 Homogenized region 2A0457 Water In Ihe ussezebly-to-assembly gap Notes:

The Region 4 outer radius Is calculated sing Equation 5A4-11.

The Zone 10 outer adius Is calculated using Equation 5.4-7.

The Zone 11 outer radius Is calculated using Equation 5.4.

Table 5.4-20. SAS2H Path B Model Dimension Calculations for Scquoyah Unit 2:

SID Assembly Tpe, Lower Guide Tube Section, WABA BPRA Insertion (24 BPRs)

Input Parameters Number of unit cells In assembly 289 Number of fuel rods in assembly: 264 Number of gide tubes in assembly: 24 Number of BPRs lI assembly: 24 Rod pftch In assembly (cm)N 1S984 Fuel pellet diameter (cm): 0.81915 Fuel cadding outer diameter (cm): 0.94996 Lower Region guide tube outer diameter (cm): 1.08966 Lower Region gulde tube Inner diameter (cm): 1.00838 BPR outer cladding outer diameter (cm): 0.6774 BPR outer clddi inner diameter (cm): 013S70 BPR Inner cladding outer diameter(cm): 0.67820 BPR Inner cladding Inner diameter (cm). 0.57150 BPR absorber material outer diameter (cm): 00770 BPR absorber materlal inner diameter (m): 0.70610 Instrument tube outer diameter (cm): 122428 Instrument tube Inner diameter (cm): 1.14300 Assembly pitch (cm): 21.S0364

Waste Package Operations Irile: Sequoyab Unit 2 CRC Depletion Calculations

(

• Document Identifier. BOOODOO

-017170210-00005 REV 00 Fuelo-Modentor Volume Ratio Calculation:

IdenfferofEquaton(s)Utaized:

5.A-1 Fuel-to-Moderator Volume Ratio - 054 194 Modermtor Unit Volume In Central Unit Cell of Path B Model-Identfifr of Equation(s) Ulized: 5A-2 Moderator Ut Volmne in Cental Unt Cell of Path B Model -0.97424 Fael Unit Volume In Facl Rod Unit Cell (Path A Model):

Identifier of Equation(s) UtIlized: SA-3 Fuel Unit Volune in Fuel Rod Unit Cell - 052701 Modertor Unit Volume in Fuel Rod Unit Cell (Path A Model):

Identifier of Equation(s) Utilizd 5.44 Moderator Unit Volume In Fuel Rod Unit Cell - 0.87843 Number of Fuel Rod Unit Cells that must be Represented In the Homogenized Zone of te Path B Mode!:

Identifier ofEquation(s) Utilized: SA-6 Number of Ful Rod Unit Cells Uiat must be Represented i thIe Homogenlzed Zone ofthe Path B Model - 1036349 Required Area of BPR Absorber Material In Path B Model (cnm 2 :

Identifier of Equation Utized SA-10 Area - 0.11381 Path B Unit Cell Model Dimensions:

Outer Radu Z2Bne t

Zone Descr}ion Inner 1

0.28S7S Water 2

0.33910 BPRinnercladding 3

0.35305 Gap 4

OA0109 Burnable poison S

CA178S Gap 6

OA8387BPRoutercladding 7

Q00419 Water 8

0S4483 Guide tube 9

0.71079 Water 10 2.3960S Homogenzed region Outer 11 240S71 Water inthe Lsembly-tassemblypp Notes:

Ihe Region 4 outerd Is calculated usIng Eqation S4-1 1.

Te Zone 10 outer radius Is calclated using Equation SA-7.

The Zone I I outer radius Is calculated usihg Equation.SA-.

Engineering Calculation

-Page 74of 91 k...

Waste Package Opemtions Engineering Calculation Wat Pakg Oprtin Eniern aclto

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. B00000000w01717-0210-00005 REV 00 Page 75 of 91 Table SA-21. Equations Used in the Path B Model Development for the Sequoyah Unit 2 Depletion Calculations CM-ecquations listed below were derived. AlU distance dimensions are in centimeter All ae dimensions are In square centimeters. All other parameters are dimensionless.)

Equation 5A-1. Fuel-to-Moderator Unit Volume (Area) Ratio In Fuel Assembly Section F

(# FR(r.).FP Diameter)2 M Rat~o*

(FRf 2 - (FR Clad OD i(i)]+( Enty aTP2 - (GT ODY (4)+

(GOT MY(i)] +

P2 -(GT ODY(-X)+(GT m(!)

(#Rodded GT (isenedRod Outer Clad ODY (M) +

[r'-(iOD)2(-4)+(

)(4 (Inserted Rod hner Clad MDY(-)

where: F-Fuel, M=Modeator, #=Number, FR-Fuel Rod, FP=Fuel Pellet, P=Cell Pitch, OD=Outer Diameter, GT-uide Tube, FP=Instrument Tube, ID=Inner Diameter. Equation 5A-I assumes that the lstnmeent tube is filled with water and that there Is no instrument inserted. A rodded OT is any OT that conins a rod from either an RCCA or BPRA. The inserted rod refers to either an RCCA or BPRA rod inserted Into the GTs of the asssmbly.

Equation 5.4-2. Moderator Area In Central Region of Path B Model CRII p

.2 -(Jrt ODY - (GT IDY +(Izserted Rod Outer Clad OD)Y -

4 {l(Inscted Rod Inner Clad IDy j

where: CRMA-Ctal Region Moderator Area Equation 5.4-3. Fuel Pellet Cross-Sectional Area In Path A Model FA = (Fuel Pellet ODY(4) where: FA-Fuel Area i.

Waste Package Opprations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier: BOOOOOOOD-01717-0210-00005 REV 00 Page 76 of 91 Equation 5.4-4. Moderator Cross-Sectional Area In Path A Model MA = P2 -(FR Clad ODy(r) wherA:

Moderator Area Equation SA-6. Relationship Between Fuel-to-Moderator Unit Volume Ratio In the Explicit Assembly Section and the Path B Modd i

=CRMA + x(A) where F/M Rato is from Equation S.-1, FA Is from Equation S.4-3, CRMA is from Equation 5.4-2, MA is from Equation 5.4-4, and x refers to the number of assembly fuel pin lattice cells that must be represented in the Path B Model homogenized region to preserve the fuel-to-moderator unit volume ratio.

Equation SA6. Number of Assembly Fuel Pin LAttice Cells Required In the Homogenized Region of the Path B Model FAd-(LR a11oMA)

Equation 5.4-7. Path B Model Homogenized Region Outer Radius Homogenized Region Oader Radius x 1fP+ (Homogenized Region Inner Radiusy where: x is from Equation 5.4-6 and the Homogenized Region Inner Radius always refers to the outer radius of the Path B model central region which is always the explicit perimeter of an assembly unit cell that has been converted to a radial perimeter by conserving area.

Equation SA-8. Inter-Assembly Spacing Moderator Region Outer Radius (X+I) f(Assembly Pitch)2 -

LOASR Outer Raius =

1. Assembly Lattice Unit Cel(P)2(# Assembn Lattke Unit Cei)i

((Homogenized Region Outer Radiusf where: IASMRInter-Assembly Spacing Moderator Region

Waste Paclmge Opemtions'. _1

-.-.1 Fngineering Calculation Utle: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOOO-01717-0210-0M5 REV 00 Page 77 of 91 When developing the Path B model for an assembly section that has insertion rods in some or all of the guide tubes, the development should begin with an explicit representation of the insertion rod inserted in the guide tube in the centl region ofthe Path B Model. The remaining dimensions of the Path B Model should then be determined by preserving the fuel-to-moderator unit volume ratio in the explicit assembly section. Tle neutron absorber unit volume or area in the Path B Model must then be adjusted to preserve the fuel-to-absorber unit volume ratio in the explicit assembly seclion. This adjustment is made by first dermnn the neutron absorber area that must exist in the Path B model to preserve the fuel-to-absorber ratio. Th existing area of the neutron absorber material in the Path B Model is then adjusted by changing the outer radius dimension of the neutron absorber material. The inner radius dimension of the neutron absorber material (Ifapplicable) is always fixed at its explicit value.

Equation SA-9. Fuel-to-Neutron Absorber Unit Volume Ratio (Area) In Fuel Assembly Section

(# FRsXFue Pellet ODY()

71-Ratio 4

s (# Isertion Rod( 4-(Abs Pellet ODY - (Abs Pellet My]

where: F/Abs Ratio=Fuel-to-Neutron Absorber Ratio in the explicit fuel assembly section, Abs-Neutron Absorber Mateil, Insertion Rods=refers to the rods of either an RCCA or BPRA thatae Inserted into the guide tubes in the assembly section.

Equation SA-10. Relationship Between Fuel-to-Neutron Absorber Unit Volume Ratio In the Explicit Assembly Section and the Path B Model x(Fuel Pellet F

-B~atZo where: RAA=Required Absorber Area for Path B Model and F/Abs Ratio is from Equation 5.4-9 Equation 5A-11. Adjusted Neutron Absorber Area Outer Diameter for Path B Model A4ted {Neutron Absorber Region OD w

+ (Abs Pellet LDY where: RAA is from Equation 5.4-10

Waste Padmge Opemtion.s Engineering Calculation Thle: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier: BOOOOOOO-01717.0210-00005 REV 00 Page 78 of 91 5.5. Cycle Iradiation History Layouts for the Sequoyah Unit 2 Depletion Calculations The RCCA insertion history for an assembly was modeled such that the appropriate axial nodes of the fuel assembly were depleted using the appropriate neutron flux and spectrum over the correct cxposure duration. The isotopic inventoiy may be quite different between fuel assemblies with and without an RCCA Insertion history. These Isotopic inventory differences must be accounted for in the CRC depletion calculations to allow for corec prediction of core krT values in subsequent CRC reactivity calculations.

In SAS2H, the duration of a depletion calculation may be separated into a number of time steps of variable length. Typically, the length of a depletion calculation was the continuous Irradiation time required to go from one CRC statepoint or datapoint to another. To follow the RCCA insertion histories, detailed intra-cycle variable Irradiation time steps were required. This was due to the fact that the rods of the RCCA were only present in a given axial node of an assembly for a given period of exposure during a statepoint depletion calculation. A user-specified number of cross section brary updates were performed during each time step of an Irradiation Interval. The CRC depletion calculations always used one cross section library update per time step. The boron letdown curve of the reactor cycle may also be followed by specifing, at each Irradiation step, a fiacton of the soluble boron concentation defined in the base moderator material specification. This boron conentation was applied uniformly over the irradiation time step. The boron concentration fiacdon at the mid-point of each irradiation.ftme step was specified in the SAS21I depletion calculations of this analysis to appropriately follow boron letdown curves. Considering the cross section update firquency, the boron letdown data, and the absorber rod assembly insertion histories, the following requirements were applied to determining an appropriate reactor cycle irradiation layout for a fuel assembly:

• The duration of each time step was specified such that a maximum of 80 days of irradiation was not exceeded between cross section updates. Ihe SAS2H calculations in this calculation utilized one cross section update per Irradiation step. Therefore, the maximum duration of any time step in any reactor cycle irradiation layout ofthis calculation did not exceed 80 days.

e 80 day limit was an arbitrary limit based on engineerzngJudgement. Ike 80 day Irradiation time step limit should assure that the changes In isotopic concentraions of the system (primarily fuel) did not alter the neutron spectrum radically enough to cause a time step of the depletion calculation to be performed without the availability of cross sections which have been properly weighted with an appropriate neutron spectrum and spatial fuxL

• Any radical peturbations in the boron letdowncmrve were followed by defining Irradiation time step duration such that the average boron concentration over each time step is represetative ofthe actual boron letdown. Usually, the 80 day time step limit Imposed for cross section update frequency is adequate to properly follow a reactor cycles boron letdown curve.

The duration of each time step was specified such that the insertion of an RCCA in a given assembly axial node could be modeled for the correct exposure time in terms of EFPD. In SASRK there is an option to vary the Path B model between Irradiation steps as long as the number of radial zones in

Waste Package Oncrutions Engineering Cnlcnlnfinn

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOOO.01717-0210O00005 REV 00 Page 79 of91 the Path B models of a given SAS2H calculation remain the same. Therefore, an assembly axial node represented in a given SAS2H statepoint depletion calculation that has an RCCA Insertion history for a specified period of exposure, that is less than the total exposure covered by the stepoint depletion calculation, was modeled by changing the Path B model from one representing the insertion of the RCCA to on representing the removal of the RCCA at the appropriate time step corresponding to the RCCA removal time.

The Irradiation time step layoutfor a given statepoint depletion calculation was developed so that breakpoints existed between irradiation tme steps that allowed for the appropriate removal or Insertion of the RCCA to obtain the correct neutron spectrum for each axial node of the assembly. The complexity of the inadiation time step layout for t given statepoint calculation was proportional to the number of axial nodes being modeled and the frequency of RCCA movement during the assembly depletion.

he time steps develciped to model RCCA insertion histories were also designed to encompass the cross section update and boron letdown requirements. A software routine entitled

• RLAYOILTT was written to automate the development of appropriate irradiation time step layouts for the statepoint depletion calculations of an assembly having an RCCA insertion history. The RLAYOUT software routine is described in Attachment m of Reference 7.3.

The RLAYOUFT softwe routine was only utilized to determine the Irradiation time step layouts for the CRC depletion calculations that contained an RCCA Inserdon history. A single assembly may have had a combination of CRC calculations that eith retqured or did not require the RLAYOUT developed irradiation time step layouts. For the CRC depletion calculations that did not require the consideration of an RCCA Insertion history, the irradiation time step layouts were developed by considering the cross section update frequency and the boron letdown data. Tables 5.5-1 through S.5-3 contain the CRC depletion calculation time step layouts for each Sequoyah Unit 2 reactor cycle that was relevant to the CRC depletion calculations documented in this calculation file which did not have an RCCA insertion history. The mid-step boron concentrations presented in Tables 5.5-1 through 5.5-3 were obtained from the linear equations presented in Section 52.7.

The RLAYOIT developed irradiation tme step layouts for the assemblies which had an RCCA insertion history are presented in Tables 5.5-4 through 55-7. The boron letdown data utilized by RLAYOUT in developing these Irradiation layouts were obtained from the boron letdown linear regression fits presented in Table 5.2.7-1. The RCCA insertion times utilized by RLAYOUT in developing these Irradiation layouts were obtained from Tables 52.9-1 through 5.2.94.

Waste Package Operation~s Enginecering Calculation Waste Package Operations Engineering Calculation Tite: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOO-01717-0210-00005 REV 00 Page 80 of 91 Table 55-.L Irradiation Layout for Cycle I of Sequoyah Unit 2 Depletion: BOC' to 187.06 lime Step Length: 62353 days Number of Time Steps: 3 Time Step l

Mid-Step EFPD Mlid-Step ppnB I

31.177 926.263 2

93.530 772.251 3

-155.883 618239 Depletion: 187.06 EFPD to Time Step Length 67A13 days Number of Tie Steps: 3 EO C__

Tame Step Mfid-Step EFPD Mid-Step ppmnB 1

220.766 457.978 2

1 288.179 291A68 3

355.592 124.958 Beginning of Cycle Table S55-2. Irradiation Layout for Cycle 2 of Sequoyah Undt 2 Depledon: BOC to 145.3 EFPD Time Step enh:. 7265 days Number ofrime Steps: 2 Time Step Mfid-Step EFPD JMid-Step ppniB I~~~~~

36325 9 72-526 2

108.975 643.679 Depletion: 145.3 EFPD to EOC rine Step Length: 75.B5 days Number of Time Steps: 2 Time Step

• Mid-Step EFPD Mid-Step ppmB 1

183.225 409.791 2

J 259.075 170.864 Table S.5-3. Irradiation Layout for Cycle 3 of Sequoyalh Unit 2 Depletion. BOC to 210.9 EFPD Time Step Length 70.3 days Number of Tune Steps: 3 Time Step Md-Step EFPD Mid-Step ppMB 1

35.15 1070.864 2

105.45 852.231 3

175.75 633.598 Depletion: 210.9 EFPD to EOC Time Step Length: 166.4 daysz Number of Time Steps: I Time Step T

Mid-Step EPD Mfid-Step ppmnB I

294.1 1

265.529 Due to the lat statepoint being at 210.9 EFPD in this calculation, the depleted fuel charstcs beyond this point are not necessary, so the 166.4 day step length is only for CRAFT to complete its nm.

Waste Package Operations Thle: Sequoyah Unit 2 CRC Depleion Calcuations Document Identifier. BOOOOOOO-01717-0210O05 REV 00 Engineering Calculation

(..

Page 8l of 91 Table 554. RLAYOUT Developed Iradiation Layout for Assembly A06 of Sequoyah Unit 2 IRRADIATION Cycle-03, Irradiation Step Number 1

2 3

4 S

6 LAYOUT FOR ASSEMBLY: A06

.0 EFPD to Cycle-03, 210.9 EFPD step Exposure at Duration End of Step (EFPD)

IEFPD) 3.60 3.60 8.20 11.80 16.30 28.10 63.00 91.10 63.00 154.10 56.80 210.90 Statepoint Calculation Hid-Step Soron Concentration (ppm) 1174.6 1156.2 1118.1 994.8 798.9 612.6 NODAL ROD ASSEMBLY INSERTION LAYOUT FOR FUEL ASSEMBLY: A06 COLUMN A: Cycle-03,

.0 EFPD to Cycle-03, 210.9 EFPD Statepoint Calculation X -

Rod assembly inserted in corresponding node during the irradiation step I.A NODE # 1111213141516 11 IXIMXIXIXI

2.

11X1X1XI II 3

11X1X1I II 4

IiXi I I I I 5

If I I I I.1 6

II I I I I I 7

11 9

11 10 11 1 1 1 1 1 11 11 1 1 1 1 1 12 I

1 1 1 1 1 13 II I 1 I 1 14 II 1 1 I I I 15 11 1 1 1 t 1 16 11 1 1 1 1 1

WA-Ste radmge opemdons Engineering Calculation Waste Package Operations Engineering Calculation Tile: Sequoyah Utit 2 CRC Deplefibn Caculations Docment Identifier: BOOODOO-001717-0210-00005 REV 00

-Page 82 of 91 Table 55--5. RLAYOUT Developed radiation Layout for Assembly A25 of Sequoyah Unit 2 ZPI4ADIATION LAYOUT FOR ASSEMBLY: A25 Cycle-03,

.0 EFPD to Cycle-03, 210.9 EFPD Statepoint Calculation Irradiation Step Number step Duration (EFPD)

Exposure at End of Step (EFPD)

Kid-Step Boron Concentration (PPC) 2.

2 3

4 5

6 3.70 8.30 16.00 62.90 62.90 5 57.10 3.70 12.00 28.00 90.90 153.60 210.90 1174.4 1155.8 1118.0 995.3 799.7 613.1 NODAL ROD ASSEMBLY INSERTION LAYOUT FOR FUEL ASSEMBLY: A25 COLUMNl A: Cycle-03,

.0 EFPD to Cycle-03, 210.9 EFPD Statepoint Calculation X - Rod asseibly inserted In corresponding node during the irradiation step 11 A

NODE # 1111213141516 I 1XIM2IIIXIK1 2

IIXIXIXI I X 3

11XXIXI II I 4

llXI I I I I 5

11 I I I I I 7

11 I I I I I 8

11 1 1 1 1 1 9

II 1 1 1 1 1 10 11 1 1 1 1 11 11 1 1 1 1 1 12 11 1 1 1 1 I 13 11 1 1 I I I 1'4 11 1 1 1 1 1 15 I

16 11 1 1 1 1 1

./

Waste Package Operations

.c a -

E A Engineering Calculation I Ie: Sequoysm umt t CERC Depicuon Cdculadons

,DocumentIdentffier.

BOOOOOOOO-01717.010-00005 REV 00 Page 83 of 91 Table 5.5-6. RLAYOUT Developed Irradiation Layout for Assembly A26 of Sequoyah Unit 2 IRRADIATION LAYOUT FOR ASSEMBLY: A26 Cycle-03,

.0 EFPD to Cycle-03, 210.9 EFPD Statepoint Calculation Step Exposure at Kid-Step Boron Irradiation Duration End of Step Concentration Step Number (EFPD)

(EFPD)

(ppm)

_____,_t______----

1 3.50 3.50 1174.7 2

6.40 11.90 1156.2 3

16.20 28.10 1118.0 4

63.20 91.30 994.5 5

63.20 154.50 798.0 6

56.40 210.90 612.0 NODAL ROD ASSEMBLY INSERTION LAYOUT FOR FUEL ASSEMBLY: A26 COLUMN A: Cycle-03,

.0 EFPD to Cycle-03, 210.9 EFPD Statepoint Calculation X -

Rod assembly inserted in corresponding node during the irradiation step II

. A NODE 1 1111213141516 1

1IXIXIXIKIXI 2

IIXIXIXI I I 3

IIXIXI I I I 4

IIXI I I I I 5

II.II1II1I 6

II. I I I I I 6

11 I I 1.1 1 7

11 I I I I I 9

11 I I I 1 1 10 11 1 1 1 1 11 11 I 1 1 1 1 12 11 1 1 1 1 I 13 11 1 1 1 1 1 14 11 1 1 1 1 15 I

16 11 1 1 1 1 1 I..

Waste Package Operations Engineering Calculation Tide: Sequoyh Unit 2 CRC Depletion Calculaons Document Ientifier. BOOODOOO-41717-021000005 REV 00 Page 84 of 91

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Table 5.5-7. RLAYOUT Developed Irradiation Layout for Assembly A30 of Sequoyab Unit 2 IRRADIATION LAYOUT FOR ASSEMBLY: A30 Cycle-02,

.0 EFeD to Cycle-02, 145.3 EFED Statepoint Calculation Irradiation Step Number Step Duration (EFlD)

Exposure at End of Step (EFPD)

Mid-Step Boron Concentration (ppm) 1 2

3

13. 10 66.40 65.80 13.iO 79.50 145.30 966.3 641.1 632.9.

Cycle-02, 145.3 EFPD to Cycle-02, 297.0 EFPD Statepoint Calculation Irradiation Step Number Step Duration (EFPD)

Exposure at End of Step (EFID)

Kid-Step Boron Concentration (Ppm) 9-------------------------------------------

2.

2 3

4 5

12.40 7.00 42.30 42.30 47.70 12.40 19.40 61.70 104.00 151.70 509.7 479.2 401.5 266.3 126.5 kODAL ROD ASSEMBLY INSERTION LAYOUT FOR FUEL ASSEMBLY: £30 COLUMN A: Cycle-02,

.0 EFPD to Cycle-02, 145.3 EFPD Statepoint Calculation COLUMN P: Cycle-02, 145.3 EFPD to Cycle-02, 297.0 [FPD Statepoint Calculation X - Rod assembly inserted in corresponding node during the irradiation step II.

A 11 B

NODE # 111121.311112131415 1

IIXIXI IIXIXIXIXI 2

IIX I IIXIKI I 1 3

11 I I IIXI I I I 5

11' 1 1 11 1 1 1 1 6

II I I II I I I I 10 11 I I 11 I I I I 21 1 1 I I 11 I I I I 12 11 I I 11 I I I 1 13 11 1 I 11 1 1 1 1 14 II I I II I I I I 15 II I I II I I I I 16 11 1 1 11 1 1 1 1 I..

Waste Package Operations Engineering Calculation Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depion Calculations DocumentIdendfifer BOOOD00000 1717-0210-00005 REV 00 Page 85 of 91 5.6. The Commercial Reactor Assembly Follow Taskmaster (CRAFI) Software Routine and Usage The CRAFT software routine directed the performance of the assembly depletion and decay calculations relevant to CRC evaluations. Te CRAFT software routine generated nput decks for the SAS2H control module of the SCALE modular code system based on user-defined input which described the fuel assemblyu specifications and Irradiation history. Appropriate isotopic concetrations relevant to both the CRC evaluations containing the fuel assembly and subsequent depletion and decay calculations of the fiel assembly were extracted and stored by CRAFT as it generated and executed the SAS2H cases required to simulate the complete fuel assembly irradiation histoiy.

The CRAFT software routine was developed with a high degree of flexibility to provide for the depletion and decay of ful assemblies that have widely varying features under flexible core operating conditions. The following listing describes some of the capabilities and usage of CRAFT.

• The CRAFT software routine generates and executes appropriate SAS2H cases required to perform a prescribed depletion and decay sequence for a fuel assembly. The depletion and decay sequence is orchestrated from the BOC statepoint calculation of the initial prescribed Insertion cycle through the final statepoint calculation of the last prescribed insertion cycle. The CRAFT software routine extracts and saves fuel and burnable poison isotopis at each stiepolnt, Including BOC statepoints, during the fuel assembI/s depletion and decay sequence. A certain n er of the g ed isotopics in the depleted fuel composition obtained from a SAS2H calculation are not used in the initial charge composition to the next SAS2H calculation due to a lack of cross section data in tbe specified SAS2H master cross section libray. The CRAFT software routine provides a lsting of the fuel isotopics from the output of a SAS2H calculation which are not used in the Initial charge to the next SAS2H calculation. The Isotopics left out of the initial charge are fission products whose reactivity worth is small relative to the isotopics retained in the initial charge composition. Ihe listing of excluded initial charge sotopics allows for a deteination of the impact upon the reactivity worth of &e initial fuel composion in the subsequent depletion calculation.

• Any assembly design may be analyzed within the bounds of the SAS2H control module through the use of the CRAFT software routine.

• A spacer grid modeling techlique is available with the CRAFT software routine. TIhe modeing technique homogeniz the spacer grid matial thrwoughout the moderator of the fuel assembly by utilizing a user-defined spacer material and spacer material volume fraction in the moderator. nTe available spacer grid materials include the following - 23RC-4, INCONEL, SS3 16, SS3 16S, SS304, SS3Q4S. Any volume fraction of spacer material in the moderator may be specified (mcluding zero).

• The fiel cladding, burnable poison rod cladding, or control rod cladding in the CRAFT calculation may be designted as any ofthe following materials - ZIRC-4, INCONEL, SS316, SS316S, SS304, SS304S.

Waste Package Opemtions Engineering Calculation Waste Package Operations Engineering Calculation

'itle: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOOO-01717.0210-00005 REV 00 Page 86 of 91

• Ie insertion of a BPRA during the irradiation of the fuel assembly may be modeled in the CRAFT calculation. Up to 10 unique BPRA designs may be specified for use during the depletion of a fuel assembly. Any type of BPRA design may be specified. The default burnable poison (BP) material for use in CRAFT calculation Is Al2O3-B4C. However, any arbitrary BP material may be specified for use in a BPRA design. A maximum of 10 unique BP materis may be specified. A maximum of 20 unique elements or Isotopes may be specified in any given BP material. A BPRA may be inserted in any reactor cycle specified in the CRAFT calculation. Only one BPRA design may be specified per cycle; The position of the BPRA in the fuel assembly is specified by identifying the top and bottom axial nodes of the BP material. The BPRA remains fixed during a given reactor cycle. The depletion of the BP material is tracked during the CRAFT calculation. The apprpriate depleted BP matial is utilized in the statepoint calculations for a given reactor cycle. Depleted BP material isotopic concentrations re also retained for use in subsequent mid-cycle CRC statepoint reactivity calculations.

• The insertion of an*RCCA during the Irradiation ofthe fuel assembly may be modeled in the CRAFT calculation. Up to 10 unique RCCA designs may be specified for use during the depletion of a fuel assembly. Any type of RCCA design may be specified. Any arbitrary control rod (CR) absorber material may be specified for use In an RCCA design. A maximum of 10 unique CR absorber materials may be specified. A maximum of 10 unique elements or isotopes may be specified in any given CR absorber material. An RCCA may be inserted in any reactor cycle specified in the CRAFT calculation. Multiple RCCA designs may be specified per cycle. The position of the RCCA in the fuel assembly is specified by identifying the top and bottom axial nodes of sections of the fuel assembly which contain the CR absorber materiaL The RCCA position may be changed between each irradiation step of a SAS2H calculation generated by CRAFT. The RCCA design may also be changed between any two CRC statepoint depletion calculations in a given reactor cycle.

• A fuel assembly may be inserted in a maximum of 10 reactor cycles during a CRAFT calculation.

• A maximum of 20 statepoints or datapoints (BOC is always considered a statepoint) may be specified in any given reactor cycle In a CRAFT calculation.

• A maximum of 23 irradiation steps of variable duration may be specified in any given SAS2H depletion calculation that is generated by CRAFT.

• A maximum of 50 axial assembly nodes may be specified for use in a CRAFT calculation. Each axial node may have a unique height.

• The CRAFT software routine utilizes a user-defined input format for fuel temperature, moderator specific volume, and bumup data. The input data must be specified for each axial node in a user-defined nodal format of up to 50 nodes of arbitrary height. The total assembly active fuel height for the input data descriptions may be different tand that specified for use in the CRAFT generated SAS2H depletion calculations. Depending on the users needs, the fuel temperature, moderator specific volume, and bumup input data may be specified in a different nodal format each time a set of this Iiput data is provided. Nominal fuel temperature inputdatarepresenting full-power reactor

Waste Package Operations. _.

]Engineering Calculation Waste Pckage Oeration Enginering Cacula:io Tile: Sequoyah UnIt 2 CRC Depletion Calculations Document Identifier. B00000000-01717.0210O0005 REV 00 Page 87 of91 operation must be provided in units of degrees Fahrenheit for each node In each CRC statepoint depletion calculation that will be generted by CRAFT. Nominal moderator specific volume Input data representing full-power reactor operation must be provided in units of cubic feet per pound for each node In each statepoint calculation that will be generated by CRAFT. The nodal aerg burnup input data must be provided in units of GWdMUTU for each node at each statepoint or datapoint including all BOC statepoints. All burnup input data that is specified must be cumulative from the initial Insertion of the fuel assembly in the reactor.

• A continuation CRAFT calculation for an assembly may be initiated from any statepoint in any reactor cycle if all of the nodal consolidated output files (" cut" files) from the statepoint calculation Immediately preceding the continuation calculation exist in the CRAFT execution directory.

Additional information on the CRAFT software routine Is provided in the CRAFT user Information in Attachment I of Reference 7.6. Instructions on how to develop CRAFT input decks and execute CRAFT calculations are also provided in Attacbment I of Reference 7.6. This attachment also discusses specific modelinglrocedures and details relevant to the SAS2H fuel assembly depletion calculations which were generated by CRAFT.

5.7. Input and Output Fiename Descriptions for CRAFT and SAS2H he CRAFT code generated five types of files identified as either "*.Input, '*.outpwV, Af.cte, M*msgse, or "*.notes", where the 1*" is the base fMle st identifier forthe statepoint depletion calculation of interest The "zont" and "*notes' files were the only files that had to be retained for CRC reactivity evahatfons and do aonpurposes. All files were generated in the working directory in which the CRAFT calculation was performed.

All CRAFT generated filenames utilized the following format - "(Base File Set Identifier).{suffx)",

where the suffix corresponded to one of the five file types previously mentioned, and the base file set identifier was a25 character name containing essential information necessary to uniquely identify each CRAFT generated SAS2H depletion calculation.

The base file set identifier for each utatepoint depletion calculation contained the following information:

I. reactor identifier (three character)

2. one-eighth core symmetry assembly number in current reactor cycle (two digit)

3. axial node number (node 1 is always the top node) (two digit)

4. reactor cycle number in which the SAS2H calculation starts (two character)

S. EFPD statepoint at which the SAS2H calculation starts (three digit)

6. reactor cycle number in which the SAS2H calculation ends (two character)

7. EFPD statepoint at which the SAS2H calculation ends (three digit).

The format of the base file set identifier was as follows where the numbers Identified as #(number}

correspond to one ofthe seven items previously listed - #1 A #2 N #3 DC #4 T #5 AC #6 T #7. The

Wi-aste Package Operaflons Engineering CdculAon

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identfier. BDODOOOO01717-0210-00005 REV 00 Page 88 of 91 letters contained in the base file set identifier were presented explicitly as shown in the previous format The base file set identifier did not contain any spaces.

The **.in

" files each contained a CRAFT generated SAS2H Input deck The "*utptW files each cobtained a complete SAS2H depletion calculation output file. The ".cutW files each contained the corresponding SAS2H Input deck followed by an outut extraction from the final ORIGEN-S pass of the SAS2H depletion calculation, which contained data relevant to susquent CRC reactivity calculations.

The *11mngs"-files eachcontalned the standard runtime messages associated with the SAS2H calculations, The I*notaW files each contained a listing of the Isotopes and associated concentrations which were left behind In generating he Initial charge fuel comfosltion for the next continuation SAS2H calculation. The "m.otes' files were only created for CRAFT generated SAS2H calculations which were continuation depletion calculations. The '*.cut" and "notes' files contained all of the information required to perform CRC reactivity evaluations or repeat calculations as necessary for quality assurance purposes. ITe remainder of the CRAFT generated files were discarded once the

'*.cut and '*motes' files were generated and retained.

6. Results Depletion calculations for 33 fuel assemblies from Sequoyah Unit 2 were documented in this analysis.

Ihe depleted fiuel and depleted burnable poison isotopics for these fiuel assemblies had to be calculated at two statepoints In cycle 3 for use in subsequent CRC reactivity calculations. Table 52.6-2 Identifies the CRC statepoint EFPD values for which Isotopic compositions were required. Table 52.6-2 also identifics a number of datapoints at which the depletion calculations were interpted to update input parameters. Even though the depleted isotopics available at each of the datapoints were not required for subsequent reactivity calculations, they were retained in this calculation file for completeness.

The CRAFT input decks for each assembly depletion were developed in accordance with the instructions presented in Sections 5 and 7 of Atachment I of Reference 7.6. The SAS2H modeling featwres incorporated in the depletion calculations ae also described In Attachment I of Reference 7.6.

The CRAFT input decks for the assembly depletions documented in this calculation file are provided in Attachment I (the attachment tape has been moved to Reference 7.7), as documented in Section 8.

Attachment I (the attachment tape has been moved to Reference 7.7) contais the CRAFT generated consolidated SAS2H output files for the depletion calculations documented in this analysis as identified in the attachment listing of Section S. Ihe consolidated output fles contain the following information:

• time/date stamp for when the SAS2H depletion calculation was performed

• echo of the SAS2H input deck generated by CRAFT

• the output extraction of information perdnent to CRC evaluations from the final ORIGEN-S calculation ofthe SAS2H depletion calculation.

Waste Packnge Operntions Engin.eering Calculation -

Tide: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOOOO-01717-0210-00005 REV 00.

Page 89 of 91 Between CRC statepoints or datapoints in the depletion sequence for a fuel assembly axial region, a new SAS2H input deck had to be created using the fuel isotopic results from the previous calculation as the Ini charge. Since the 44-group master cross section library utilized in the SAS2H depletion calculations of this analysis had a reduced isotopic inventory relative to the ORIGEN-S cross section library, a number of isotopes present in the ORIGEN-S output could not be transferred to the initial fiel charge ofthe subsequent SAS2H depletion calculation. The isotopic inventory in the ORIGEN-S output which could not be proagated to the continuation SAS2H depletion calculation did not significantly affect the integral veactivity or the energy-dependent neutronspectrum, as documented in Section 4.9.1 of Attachment I of Reference 7.6. Ehe non-propagated isotopic inventory was written to a file entitled

• {depletion case identifier).notee to allow for subsequent analysis of the impact of exchuding these isotopics in the intial charge to the continuation SAS2H depletion calculation. The *notese files are contained in Attachment III (the attachment tape has been moved to Reference 7.7) as documented in Section 8.

Isotopic results for the set of 29 principal isotopes Identified in Table 6-1 were tabulated for each axial node of each fuel assembly at each CRC statepoint other than beginning of life (BOC of first reactor cycle in which the assembly is inserted) statepoint The program entiled OCRC DATA TABULIZERexew described in Attacbment VI of Reference 7.6, was used to create the principal isotope result tables documented in this calculation file. Altacbment IV (the attachment tape has been moved to Reference 7.7) contains the principal isotope tabulations for the assemblies documented In this calculation file.

Table 6-1. Ihe Set of 29 Principal Isotopes Mo-95 Tc-99 Ru-101 Rh-103 Ag-109 Nd-143 Nd-145 Sm-147 Sm-149 Sm-1S0 Sm-151 Sm-152 Eu-151 Eu-153 Gd-155 U-233 U.234 U-235 U-236 U-238 Np-237 Pu-238 Pu-239 Pu-240 Pu-241 Pu-242 Am-241 Am-242m Am-243

7. Referepees 7.1 SCALL Verslon4.3: ModularCodeSystemforPerformingStandardizedComputerAnalyses for LicensingEvaluation. Users Manual Volumes 0 trough 3. Oak Ridge National Laboratory.

Distributed by the Radiation Shielding Information Center, Oak Ridge National Laboratory, Document Number: CCC-545.

72 Software Q& cation Reportfor the SCALE Modular Code System VersIon 4.3. SCALE Version 4.3 Computer Software Configuration Item (CSCI): 30011 V4.3, Document Identifier Number (DI#): 30011.2002 REV 00, Civilian Radioactive Waste Management System (CRWMS) Management and Operating Contractor M&O).

Waste Facitage, Operations Engineering Calculation Tite: Sequoyah Unit 2 CRC Depletion Calclations Document Identifier. BOOOOOO-01717-02104000 REV 00 Page 90 of91 73 CRC Depletion Callations for the RoddedAssemblies I Batches 1, 2, 3, and lXofCrystal River Unit 3. DI#: BBAOOOOOO-01717-0200-00040 REV 00, CRWMS M&O.

7A MCNP, Version 4B2: Monte Carlo N-Particle 2)anport Code System. Usees Manual, Los Alamos National Laboratory. Distributed by the Radiation Shielding Information Center, Oak Ridge National Laboratory, Document Number. LA-12625-M.

7.5 Swnlmy Report ofCommercila-Reacor Otalty Datafor

&Squoych Unit 2. DI#:

BOOOOOOOO-01717-5705S0064 REV 01, CRWMS M&O.

7.6 CRCDepletion CalculatdonsforMcGuire Unit 1. DI#: B00000000-01717-0210-00003 REV 00, CRWMS M&O.

7.7 Sequoyah Unt2 CRCDepletion Caculaons. (D!#: BOOOOOOOO-01717-0210-005REV0, CRWMSM&O) Attachments lzhrough IV-] Dat Catridge. Batch Number: MOY.980416-03.

8. Attachments Ihe attachments referenced throughout this calculation file mre listed in Table 8-1 (the attachment tape has been moved to Reference 7.7). Attachment I contains the CRAF Input decks for the assembly depletion calculations. Attachment II contains the ".cu files for the assembly depletion calculations.

Attachment m contains the "motes files for the assembly depletion calculations. Attachment IV contains the principal Isotope result tables for the assembly depletion calcuations. Attachments I through IV were witten In ASC1I format to an attachment tape. This attachment tape was provided with REV OOA of this calculation file. After checking of the attachment tape in REV 0OA, the tape was made a reference (Ref. 7.7). Detailed listings of the content of Attachments I through IV on the tape are provided in their corresponding hard-copy attachment locations in this calculation file. The listig of the content of Attachments I through IV contain the followig information, as appropriate, for each of the files that were written to the tape:

• the directory and filename as taken from the HP workstation

• the corresponding filename on the attachment tape

• the date that the file was cstated on the BP workstation or personal computer

• the size of the file on the HP workstation or personal computer in bytes.

The tape containing Attachments I through IV was written using the HP Colorado Model TIODe Extenal Parallel Port Backup System for personal computers.

Waste Package Operations Engineering Calculation

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identifier B00O00000-01717-0210-00005 REV 00 Page 91 of 91 Table S-1. Attachment Listing Attachment l

e of Pages Creation Date Description I (Hard-Copy

-RCRAFT Input Decks for the Sequoyah Unit 2 I

Listing of Tae (ape Written)

Depletion Calculations Content) 3/1698 (attachment tape moved to Reference 7.7) 26 HRd-op Wrt

"*.cur Consolidated Output Files for e II Listing of Tape Ctten)

Sequoyah Unit 2 Depletion Calculations Content) 3 (attachment tape moved to Reference 7.7) 18 ?H-ardp-y wonotew Files for the Sequoyah Unit 2 m

Listing of Tape Crape Written)

Depletion Calculations Content) 311698 (attachmenttape moved to Reference 7.7) 2 (Hard-Copy Wdt)

Pdncipal Isotope Tabulized Results for the IV U(Tp Listing of Tape 3

Sequoyah Unit 2 Depletion Calculations.

Content) 31169 (attachment tape moved to Reference 7.7) i

Waste Package Opemtions Engineering Calculation Attachment Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Depeidon Calculations Document Identifier BOOOOOOOO-01717-0210-00005 REV 00 Attachment L Page I of 2 lhis attachment contains the CRAFT Input decks for the depletion calculations for Sequoyah Unit 2.

The Input decks are contained on an attachment tape of this calculation file (the attachment tape has been moved to Reference 7.7). The information contained in this hard-copy representation of Attachment I is a listing ofthe various CRAFT Input deck files and their attributes. The file sizes listed in the following table are the file sizes as they appear on the Hewlett Packard (HP) Series 9000 workstation. The HP file sizes differ from the file sizes on the attachment tape due to the difference in the block sizes between the HP and the personal computer. The tape containing Attachment I was written using the Colorado Model TIGOOe-External Parallel Port Backup System for personal computers.

Flileimme File Type File Size (Bytes)Date File Filename FilelType File Size (Bytes)

Copied to Tape AO6i.dat ASCII 20,422 3116198 AO8i.dat ASCII 17,495 311698 A15i.dat ASCII 13,337 311 6198.

A21i.dat.

ASCII 17,488 311698 A21aiat ASCII 17,493 3i16198 A25i dat ASCII 17,487 3/1698 A25ai.dat ASCII 20,440 311619.8 A26i.dat ASCII 13,322 3/16/98 A26aidat ASCII 16,517 3/16/98 A29i.dat ASCII 13,334 3/16198 A29aitdat ASCII 13,335 3/16198 A30i.dat ASCII 16,740 3/16/98 A311.dat ASCII 17,466 3/16/98 B14Ldat ASCII 13,240 3/16/98 B1Sidat ASCII 9,659 3/16/98 B19Ldat ASCII 13,245 3/16/98 B21Ldat ASCII 9,660 3/16/98 B25idat ASCII 13,244 3/16198 B26idat ASCII 9,634 3/16/98 B29i.dat ASCII 9,663 3/16/98 B30i.dat ASCII 13,239 3/16198 B31Ldat ASCII 9,632 3/16/98 CO2i.dat ASCII 9,786 3/16/98 C04izdat ASCII 9,785 3/16/98 C06i.dat ASCII 9,785 3/16/8 CO8Ldat ASCII 6,194 3/16198 C14Ldat ASCII 9,786 3/1698 ClSidat ASCII 6,194 3116/98 C17i.dat ASCII 9,786 311698 C19idat ASCII 9,783 3116198

Waste Package Operations Engineering Calculation Attachment TItle: Sequcyah Unit 2 CRC Depledtn Calcutions Document Identifier. BOOOOOOOO-01717-M10-0005 REV 00 Attachment I, Page 2 of 2 Date FMe Filename Fe Tpe File Size (Bytes)

Copied to Tape C2lLdat iASCII 6,194 3I16N8 C251dat ASCII 9,777 3I1619 C30idat ASCII 6,194 3116_

9

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Waste Package Operations Engineering Calculation Attachment Tide: Sequoyah Unit 2 CRC Depletion Calculations Document Idenifier BrOOBOOOO-01717-0210-00005 REV 00 At cment, Page 1 of 26 II This atachment contains the consolidated SAS2H ouW files that were generated by CaFT during the depletion calculations for Sequoyah Unit 2. These files are referred to as "*=e files due to their ¶cut" extension. The '*.cu" files are contained on an attachment tape of this calculation file (the attachment tape has been moved to Reference 7.7). The Information contained in this hard-copy representation of Attachment I is a istng of the various ".ct files and their attributes. The file sizes listed in the following table are the file sizes as they appear on the Hewlett Packard (HP) Series 9000 workstation.

Ihe HP file sizes differ from the file sizes on the attachment tape due to the difference in the block sizes between the HP-and the personal computer.- The tape containing Attachment II was written using the Colorado Model TiOO0e External Pralle Port Backup System for personal computs.

Computer rile Name

£OSQOS/H2OI~lCCOUCOoACOMlO.Cut

&OU18OM31502DC03TOCOOMcTIGCcut.

AWO SO6/0A50Dc03?ODOACQU2l0.Cut, A06/50U05b04DC050aO=3T210.cut A06/S02A0SO5DC03TO0OAC03T21O.Cut A06/2OMSNO06C3T000AC03T210.Cut A061602105x07C0T000ACQU210.Cut AWS/50W S1010C03T0001C03f21C.ent Ae6/SO2AS;09DC03TD00AC037210.Cutt 1fl6SOWASKIODC03TO00AC03T21O.Cut AO61I5O2AOSNICO3TOOOACO3T21O.Cut A06/SO2AS~laDC03T000AC03T210.Cut A06/502101a3jC03TO00AC03T220.Cutt AO6/SM2AON14DcO3TOODACo2210.Cut aL6/s02a0SwS1c03T~OaCOAC0220.cut

£D06/30205Nl26Dd3T0OOaOUT21Ol.Cut A06/BO=06NUMlncOlRooocTi17.Cut "U6SQ2A0N01c01THUaCC2T000.Cut AD6/0Q2AS6NO2DcO1TOOOAcMlT1U7.Cnt A06/SO2ASENO2DCO1TI87ACO2TOOO.Cut AL06/SQ2A06N030c0IT000CO1T1I7.Cut AW6SOMODU03CC1T1SVAC02OOO.Cut AO6ISO2AO6NO4DCOITOOOACO2T117.eut

&061S02A06N04DCOM817AC02T0OD.Cut AflISU2AMOScOCCTOODACC1TIS7CUt, A06ISO2A6NOSOCO1Tl87&C02TOOO.Cut a06/302A*6N06JDCO1T000AC02Tl87.Cut AL06/502A6V06Dc0T157ACO2TO00.omt.

A06C/S02A6N07DC01T000CAC1:T87.eut 1fl6/SW2A6N07DC01T2137AC02T000.cut

&G6/6=UAQMD8C01T000101T187.cut.

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aL06/so2AO6'NlOco1T1S7Ac2TODO.Cat

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"6G/802108101VC02T1453JC03TO00.cut A06/802A08N02V)C02T:0001c02T15.Cut A06/302£O8102DC02T245AC03T*00.cut A56/802A08U030C02Ty0001C02fl45.cut Tape Backup rile 9-aa aI.XfZ al.193 a.1.(

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&11.(39 all.C(4 aII.(41

• 1I.f(42 all.943 a11144 aII.M4 all.ftfi alI. (4 all. (48 MM

• (4 all.fSO aIl. (SI alt. (12 aII.CS3 file Date (output) feb 20 1397 feb 20 1397 Feb 20 1397 reb 20 1997 Teb 20 1997 feb 20 1997 ebT 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 reb 20 1997 feb 20 1997 feb 20 1997 Feb 20 1997 feb 20 1997 Feb 20 1997 Feb 20 1397 feb 20 19S7 Feb 20 1997 feb 20 1997 Feb 20 1997 Feb 20 1997 reb 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 reb 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 Feb 20 1997 feb 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 reb 20 1997 feb 20 1997 reb 20 1297 reb 20 1997 reb 20 1997 reb 20 1997 feb 20 1997 rfb 20 1997 file Site (Bytes) 144746 146161 146746 146651 142272 142355 142355 1423S 142272 142272 142272*

142284 142118 142035 141620 140122 288353 143690 235036 146416 297844 147582 300002 1(7914 300749 148084 301164 148084 301745 141001 301328 147835 301994 147835 301994 14783S 301911 147835 301330 143084 300583 148084 299421 147131 296530 147333 28S317 14164S 290052 139235 293S62 140816 297973 file Type (fomaatl ASCII ASCII ASCII ASCII ASCII ascss ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASC I ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII Mell ASCII ASCII ASCII ASCS1

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Depefton Calcuaions Document Identifier. B0OOOO-0717-0210-0D005 REV 00 Attachment II, Page 2 of 26 AL06/102A08103DC027145AC3T000.Cnt A06/502A081t04C02T0C0AC02THS.Cot

£06/502A09N040C02314SA3TC030.cu~t A06/502103N05C02?OOOACZT14S.cut 1.61Q&O tESQ OSMOC02T14ACOST000.Cat AL0G/8=O2A N3O6=C2T00O=C2T14S.cut AO6/Iq2AOSWO6DC02T1457tCO3TOOO.Cut 106/102A08N070DC02T70001c2T45.eut F.06/8=2O8N07DCG2T143AC03T000.cut AD6/SQ2AD8O8N00c2T000AC02T14S.cut A06/5O2AO8N0D8c02T145Ac03TO0O.Cut

-A*6/SQ8Q2eO90CQ2TOOOAC02U45.Cut aW6SMOO0N09DC02T145AC03TOOO.cut

£0O6/S02A89110D0c2TOOOAC02Tl4S.CUt

£o6I802ao8h10=c2T14AC03TOOO.Cut A061302AC08111cc2T000C0274S.cut Ae6/3O2AOSfl1VCO2Tl4S1AC03TOOD.Cut A0611021098N2DC02T0001C02T145.cut

£061S02A81a2DC02T14$1C03T000.Cut

£06/302108h1DC02T?000AC02T145.cut A06/50 W 8N13DC02T145AC03T00C. cut 1.06160210n14DC02TO00AC02?145.cut A06180MODN14DC02TUSAC03TOO0.Cut.

A06)9021f8]110c02T00AC02745.Cut A06/50210OONISDc021l4S1C03T000.cut A06/3Q2A091126DC02T000AC02T14S.cut AD6/5021DN1a6DC02TI45AC03T000.cut all.£54 all. £5S aII.£56 all. W 5 azI.£S9 all * £3 all. £60 aII.£6l all. M 6 all.£63 alI.E64

-AMI963 aII.£66 all. £17 az~69 alI.969 all.£00 alI. £71 alZ. £72 alI.f73 all.£74 aZI.f75 alI. £7i all. M 7 all. £78 all.

• 71 alI * £9 reb 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 rob 20 1S97 rob 20 1997 rob 20 1997 feb 20 1997 fob 20 1997 reb 20 1997 Tob 20 1197 reb 20-1997 reb 20 1197 fob 20 1197 reb 20 1917 rob 20 1317 rob 20 1117 rob 20 1997 fob 20 1927 reb 20 1117 rob 20 1997 reb 20 1997 leb 20 1937 rob 20 1997 rob 20 1197 rob 20 1397 rob 20 1397 142725 293720 142978 29720 143144 29637 143144 239637 143144 298637 143144 298637 143227 298096 143310 298886 143393 239886 143393 219637 143339 298471 143223

.296060 14 117 290720 139484 ASCII ASCII ASCII ASCII ASCIS asCII ASCII ASCII ASCII ASCII ASCII IASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII cooputer Fle game

&D8/SQ2A04V01Dc0Z145AC03TQO0.Cut A038/80214N020C0C2T00AC027145.cut AO8/I02Af4N02=~2T145AC03TOO0.Cut

£09 /802A4V303=2TO00AC02T145.cut L09/BQ2A04N03DC02T14SAC03TO00.Cut A08/80 M 4NOM0C2TOODAC02Tl45.cut 1.0/9=/0A4104DC02T145AC037000.cut A098B82Afl4NOSDC02TOOOKC02T14S.Cut 109/SQ2AO4NO5OCO2Tl4SAC3OOz00.Cut ADS/30MMED06C02T000AC02T145.Cut ADS/602AM406=C2!145A,03TO0.Cnt, 108/80 M U507COMOO0AC02714S.cut A09/102A04N07DC02T1451C037000.Cut ADS/892X4N08=c2TO001C02T14S.Cut AOS/1021L04309DC02T14SAC03T000.Cut A03ISQ UM4N0 Dc2OOOACO2?1S.Cot A091021010MC0214AC03TO00.Cut ACOS/IMa4h1ODCoTO00AC02n145.cut ACOMOMMOD310C02T145AC03T00.Cut A011302A41111DC02T000AC023145.Cut A03B/UOZA4W1DCO2:145AC03TO00.Cat AG9ISQ2ACl12C02TO00AC02Z14S.Cut AD9/S2A04N12DC02Tl4SAC03T000.CUt AO8/8=2A4Wl3DC02TO0OACO2T14S.cut A0818Q2A04N130C02T145AC03T000.Cut

£08 /SO2A04N14VC02TO00AC02T145.Cut AOMOUO204140C022345ACC3OO.Cut AOS/Z02A04V1S=c270003CQ21l45.ct A09/S02R04NISDc02T14SAr.03T000.Cut ADMOSQM 4NGD CM T6000AC02T14S.Cut A09/02O4N1DC02Tl4SAC03TO0.CUt ADM/OMBR9O1DCO1TONOCCOI187.1cut A08/502A08N010C01T187AC02T000.cut

£09S/502£0N020C01T000CAOL187. Cut

£DSIO2ASM0820CO1T1I7AC02bOOO.cut A08/MMO2DN3DcO1TOOOACO1TZ97CUt

£08 1S02108;O3DCOlT187AC02zOoO.cut AOM OORGOAflhl04D M0T00C1Tl7.cut MU8/502A0N104C01T187£C021000.Cat Tape Bakup nile name all.f3l aII.982 aXI.£f3 SM.04 alI.f89 al.f86

• al.f87 aZZ.£88

&I. £89 aII.f£o a*S.f31 aIs.Z92 azz.Z93 aII.f94.

aII.f9s aI.096 Slfs97 4I.£38

• IIf.9 alIt. 100 allf.101 aMI£.102 allf.103 alsf.104

• IIf. 105

• IIf.106

• I1£.107 altf.108 alf.109 alUf.110 a01f.111 all£.112 a*If.113 al£f.114 aItf.1IS

• lSf.116 alIlf.117 lltf.11S aIft.119 allf.120 tile Date Ioutputi rob 20 1997 rob 20 1997 feb 20 1997 Tob 20 1S97 fob 20 1397 Tob 20 1997 rob 20 1997 leb 20 1997 leb 20 1997 rob 20 1997 rob 20 1997 lob 20 1197 rlb 20 1997 reb 20 1997 reb 20 1397 feb 20 1997 reb 20 1997 rfb 20 1397 rob 20 1197 rob 20 1197 reb 20 1937 lob 20 1917 reb 20 1997 rlb 20 1397 reb 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 fob 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 rob 20 1997 leb 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 rlb 20 1197 reb 20 1997 lob 20 1997 file Size (Bytes) 291404 139733 293876 142127 297540 142874 297706 142957 297719 143123 297374 143123 297125 143040 297125 143040 297125 143040 297125 143040 297125 143040 297125 143206 237125 143206 297125 142957 296212 142S42 291238 139816 296131 141690 290613 144109 293708 14Sl15 2S3202 145607 File Typo (losat)

ASCII ASCII MSCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Depletion Caculations Document Identifier. BOOOOOOOO-017170210 OOS REV 00.

AtachmentlI, Page 3 of 26 i

aos /SQA8gO5DCCSTOOOACOl187.Cut 0 8/SQ2A089O50CO1!187aC02OOO Cut A08/9Q2A08N06DCOlSOOOAC0lT187.cut A08/IQ2O9CNO6DC01T87AC02TOOO.cut A03/ 02AO£N07DC1TOOOAOTII87icut 10a8/S2018007DCOS157AC02TOOO Cut

£O8/SO2AOINODBCO1TOO0ACOl187.CCUt A08/SQ2A08N08DCOSTl7AC02TOOO cut

£DS/IQ2AO3N09DCOITOODACOMTIS7.CUt A8 /5020E8N09DCXOIT87AC02SOOO cut AO8/302AO8N1OC0o1?OOOACOlSlt70cut A08/SQ2A08NlOXCODl87AC02?OOO.Ct M81082A03NNUDCOlSOOD1COl187.cut A08I8Q2308MUIDCO1T167IA02OMOO.Cut LO8/O2AosMl2DcCITOOoACOI?117.Cut AoshsQ2aO8112D0c0T17A1C02TOO.Cut LOO/S02A08N13DcWITOOOAcoMls7.cut A1O/So2Ao8Nl3DcOXTIs7ACO2TOOO.Cut a£8I/S21f8N14D0CO10OOAO0I?1U7.cut aDS/SQ2AOsN14DcO1T187AC02TOOO.Cut A08/WS2AlSulSDCOlSOOAC0c 187.0c1t

£os/5210oeN1SD0COIT7ACe20o0o.Cut A0/8602A08916DCOLO0OACOlTU67.Cut aoMQUO2N1D60C0o1?17acO20oo.cut A08/8Q2A16NOlDC03sT0OC03?210.cut a0/os02A16N02DC03TOh0C03T210ocft

£03/802A16103DC03TO000C03T21O.cat

&OBsoh2A16904DC03TO0oAC03T210.Cut a&S/SQ2A.6RN0SC0a3TOO1C03210.cut

£O/sQ52A16106eC03TOOOC03?O21.cut

&OS/so2A16107DC03oOOACO3210.cut A08/S02A16U080C03OTOOAc03T210.CUt f

as08/1021H090DC031000ACO3T21O.Cut

.ao/SQ2A1GNIODco3o0oOAcO3T210.ct

£08/1Q2A16N11Dc03?OO0Ac032210.cut

£o0/S2QAI61N2Dc03TO00c037210.CNt Aos/1QUIS6N13DC023TOoAcO3210.Cut aos/s2aW6NU4DCOS3OO:CO03210.Ct

£08/BQ2£l6Nl5DCO3SOOOACO3T210.cut A083/021l6Nl6DC03TOOOA T32.C0t

• S1f.121 aISf.122 sltf.123 allf.124 allf.125 ailf.126 Sf 1.

L27 al*f.128 alif.129

• lSf.130 lUf. 131 SaIf.132 a*lf.133 aIt.134 aIf?.135 allf 136 alif 137

• Sf.138 aSif.3139 alsf.140 alfl.141 aIIf.142 arU. 143 aixf.144

• ll<.145 aIMt&146 allt.147 allt.148 S1f?.

149

• SIf.1S0 a*If.ISI afft. 152 allt.153 aIU.154 aiSt.1S5 aSt.156 af.L1S7 atIt.IS$

Ml~t. 15l aIt.l60 rob 20 1997 reb 20 1997 rob 20 1197 rob 20 1997 reb 20 1197 feb 20 1397 Teb 20 1997 reb 20 1997 reb 20 1997 fab 20 1197 fob 20 1197 fob 20-1997 rob 20 1197 rob 20 1197 rob 20 1397 rob 20 1397 reb 20 1997 rFb 20 1997 rob 20 1997 mat 13 1997 rob 20 1197 reb 20 1997 Feb 20 1997 feb 20 1997 rob 20 1197 rob 20 1997 rob 20 1997 rob 20 1097 rob 20 1997 reb 20 1197 rob 20 1197 Feb 20 1997 fob 20 1197 rob 20 1197 rob 20 1397 reb 20 1397 reb 20 1197 rob 20 1997 reb 20 1997 rob 20 1197 296115 14S773 296364 145556 296350 143856 296433 141356 216199 145856 296519 14536 296s51 145356 296267 148sss 21611s 145931 294621 1453S4 211692 144690 283095 140152 130529 132177 132762 132845 132128 132128 132928 132128 132123 132945 132762 132762 132671 132679 1S2359 130944 ASCII ascss ascii ascii asusi ASCII ASCII ascii aSCII AscII asCII ASCII ascII Ascii ascss ascss ascss ascss asu s ascii Ascrs ascss ASCII ascsI asCII ascII ASCII ASCII ASCII ASCII ASCII ascii ASCXS ascZZ ascII ascII asuxI Co~pUter rile usme l5082110N01DC02T000AC02Tl4S.cut A1S8QMOA1N02DC02TOOOAC02T43S.cut a1S/sQ211A013DCcO211451C0s3?0.cet Al/SJ02A101W3VC02TOCOAC02145S.cut a15/Q02AONOSDC002145AC03TOOO.cut Al15/S02alNO6C02TOOcA02T145.cut Al/502A10NO0DC02Tl45Ac03T000.C t l5/SE02A10107DC02TOOOACQ02145.cut

£U5/0210N00C02?MC03OOO.cut AlUS/S211UN08DC02TOOAC021IM5.Cut 1/50Q2A11N0ODC02T145AC03TO00.Cut Al$/8Q2aI1NOD7C0TO00AC02T145.cut A15/S02AION09702TI4SACO3TOOO.CNt AlS/SO2AIONODC02TO2OAC?02145.cut AlS/s02a10100cC02T145Lc03700O.cut A15/8Q21A10i00C02TOOAC02T145ocut A15/M02RI0ON1C027145AC03?000.Cut A15Ws021UON12DC02TO0OAC027145.cut U1

/so2AlOlO2DC02?14SACO3SOOO.Cut A15/SQ2A1ON13DC022000ACO2T145.CUt A15/8Q2AION13DC02T145AC03?O0O.cut

&IS/850MORl C02TOOAC02T4S.Cut Tape lackup rile Name Mlt. 162 aIZt.163 aiSf.163 al*s.167 allf.169 alit.170 alit. 171 allf.172

• lSf.1173 al*f.1874 aif.175 allf..176' a*tf.177 alIt.178 altf.179 a*2f.1l0 a*If.181 a*lf.192 aIIf.133 altf.1814 altf.13 artf.1l6 al*t.197 file Date foutput) reb 20 1997 rob 20 1997 reb 20 1997 Feb 20 1997 Feb 20 1197 fob 20 1997 rob 20 1997 rfb 20 1997 feb 20 1997 rfb 20 1997 reb 20 1997 reb 20 1197 feb 20 1997 Feb 20 1197 reb 20 1997 reb 20 1997 reb 20 1997 Feb 20 1997 Feb 20 1997 feb 20 1997 feb 20 1997 feb 20 1197 Fob 20 1997 teb 20 1997 feb 20 1997 rob 20 1991 rob 20 1197 file Size Isytee) 292151 139899 296203 142233 298031 142874 298370 143123 297155 143123 297S40 143206 297291 143206 297291 143206 297291 143206 217208 143206 297291 143206 217208 143206 297208 143283 297208 file Type ASCS2 ascsx ascxx ascii ascIi aSCtI ascii ASCXX aSCII ascII ascII asCII ASCII ASCII ASCII ASCII ASCII ASCIX Ascii ascx2 ascsx ascU r ascii ACSCII ASCII asCII ASCII ascII aSCII ASCII

Waste Package Operations Engineering Calculation Attachment Tide: Sequoyah Unit 2 CRC Depletion Calculatons i...-

Document Identifier. BOOOOOOO-01717-0210O00005 REV 00 Attachment II, Page 4 of26 U S/S0211Ol14DC02T145AC03TS00.Cut

.axf.18U rob 20 19S7 143040 AScII AlSI3Q2AlNOlSDC02OCOACO2THlS.Cut aI1.199 rob 20 1997 236212 ASCII A15/802AIGN1s5002T15AC03O0oo.cut alrf.130 reb 20 1597 142711 AScII AlsMsQ211o016DC02TOoOACo2T1sO.cut 011f.191 Tab 20 1597 291570 ASCII A1S/802AIGN16DC02T1S5AC03SOOD.Cut allf.112 fob 20 1997 139899 ASCII AIS/5Q2AISNO1DCW1TOOOAC0 ST187.Cut allf.193 Tab 20 1197 223214 ASCII A1S/SQ2AIsNODCO1T1S7Aco02Too.cut allf.194 rob 20 1197 139820 ASCII AlS/302A5SN02DC01TO0OACOST1S7.Cut 4111.135 reb 20 1997 236996 ASCII AlS/lQ2OWSN020CO01107AC02TOOD.cut al11.136 tab 20 1997 142152 ASCrs A1S/Q2A1SN03DOC1TOOOACOS1T17.cut altf.197 Tob 20 1997 290008 ASCII Al5IQ2AIISV03Dc01n1S7AC02TOOO.cut aIlr.138 reb 20 1397 142839 ASUlr A15/0Q2AISNOODCOCT000I0AC1!7.mut

• II1.19S rob 20 1397 2314i1

-ASCII a15/n02A1SN040CO1!187AC02Too0.Cut aIlf.200 reb 20 1397 143401 ASCII A1S/802AISNOSDCS01OOOACOIT187.Cut arzf.201 reb 20 1997 292166 ASCII A15/552a1SNOSDCOTl1I7ACO2OOO.cut altf.202 reb 20 1397 142414 ASCII A15/sOQAlSNO6DCQ1TOOOO=Tl1I7.cut allf.203 reb 20 1397 292434 ASCII Al5n Q2AISNO6DCOT207ACO2TOOO.CUt allf.204 rob 20 19S7 143484 ASCII AlMOMQ2A1sNO7Dc0M!sooOACoT1S7.cut aIlt.205 reb 20 1397 212816 ASCII AS/SQ2AOsNM7DeM sTI7aeO2OMoo.cut aIIf.206 fob 20 1997 143434 ASCII ALS/sQzAIsNOSDco1TsooAcOTL87.Cut a.rr.207 fob 20 1997 233065 ASCII a1S/n Q2AISNOsDCO1TI7ACO2?OOD.Cut alII.208 leb 20 1397 143434 ASCII A2s/n 2AISNOIDCO1TOOOACO T1I7.cut aIIC.209 leb 20 1397 213065 ASCII ALS/9S2AISNO9DC01T187ACo2Too0.Cut rllf.210 rob 20 1997 143367 ASCII A1S/S02AISN100COMTOo MITo1T1s7.Cat rllf.211 rob 20 1397 232982 ASCII a1/SOM2AIS9100CO1T1U7ACo2TOOo.Cut

.tr.212 reb 20 1397 143650 ASCII AU5SOM2AISN1IDCO1TOOO&CO1T187.cut al11.213 fob 20 1397 292733 ASCII AIs/S92AISNZ1DCO1T1U7ACo2TOOD.cut astl.214 rob 20 1997 143650 ASCII AS/SO n2AISN2DCO1T0OOACOCT1I7.CUt aIre.21s rob 20 1397 292484 ASCII A1S/302AISNU1 2D0CT1O7UCO2MOO.cut 4s2=.216 tob 20 1397 143650 ASCII A/sIMOMAISN13DcO1TOOOACOIT1S7.cut al11.217 leb 20 1397 291386 ASCII AlMsOn2AISSU1DCOITI7aCO2TOO0.cut

.a11.210 rob 20 1397 143567 ASCII AIs/sQ2AISN14DCO1TOOOACOT18S7.eut azrl.213 feb 20 1397 290921 ASCII AIS/02Aa151IM4DCoM1 7ACo2TOOo.cut

.rrr.220 rob 20 1397 143231 ASCII AMS/SQ2AI5vISDCO1TOOOSACOl1l7.cut MEW

.221 fob 20 1397 258155 ASCII AlS/h 2AaUn1SDCOlT27ACO2TOOO.cut; allf.222 lob 20 1397 142567 ASCII AIS/EQ2AlSN160C0TO0aCOU01T1S7.cut allf.223 leb 20 1397 213510 ASCII AI5/JQ2AQ5N1ECloT1m7ACo2TOOO.cut allf.224 rlb 20 1337 140318 ASCII A&lSnQ211sNOlDc03T0OOACO3T2lG.cut al1f.225 fob 20 1997 130861 ASCII A15/3Q2A1SN02DC03TO0AC03T21G.cut a11f.226 rlb 20 1997 132106 ASCII AI5IsQ2AIsNo3DCo3TsooACoseT2 C.cut r11f.227 rob 20 1997 132536 ASCII aLs/802ALN04DC03TOOOACo3T21o.cut alrf.22s leb 20 1397 132762 ASCII a15/6S2AIsNOSDC03TO0O0C03T21O.cut allf.229 oeb 20 1997 132762 ASCII aLS1302A1SN06DC03T0o0AC03T21o.cut

&XIL230 rlb 20 1997 132762 ASCII A15/302AGNOU7DC03TOOAC03T21 O.cut allf.231 fob 20 1397 132762 ASCII A15/5Q2AISNO1DzC03T0oo00AC210.Cut allf.232 rob 20 1197 132762 ASCII A151QausN090C03T0OOAC03T2120.cut allf.233 leb 20 1997 132762 ASCII A1S/502A4N1ODC03TO00AC03T21,0.cut al11.234 leb 20 1997 132762 asCII A&IS/O2AlsNlDCO3OOMAC03T21O.cut allf.235 reb 20 1997 132762 ASCII A16/8M2A13N12DC03TOOAC03T21O.cut allf.236 rob 20 1997 132679 ASCII A15/602A1UN13DC03?OMO0eCO m 2.cut

• nf.237 reb 20 1397 132762 ASCII A15502A13SN1DC037000AC03T21o.cut at1f.238 lob 20 1997 132513 ASCII A1s/SQ2AIUSNDCO3STOOOACO3T21O.Cit alI1.239 tob 20 1997 132193 ASCII AIS/602Al1Nl60CO3TOO0AC03T210.cut a.it.24b reb 20 1997 130944 ASCII Computer Tape Backup file Date rlke S1ze tile Type rile game 3le Fim-(output)

(Bytesl fo=at)

A21/SQ2Ao6UOlDCo2TOOoACo2lT1S.cut

.1f.241 lob 20 1997 290633 aSCII A21/902MUA063DCO21MO5C03OOO.cut allf.242 Fab 20 1997 139567 ASCII A2l/sQ2A06V02DC02TO000102T14s.cut a11f.243 fob 20 1997 2932i2 ASCII A2/S02AM6020c02THS2ACM3OO.cut allf.244 rob 20 1997 141370 ASCII A21/502L06ND3302TO00AC02145.cut atIf.24S rob 20 1997 296710 ASCII A2l/SQ2AD6No3DCo2Tl4SACo3TOOO.cut allf.246 fob 20 1397 142708 ASCII A21/8Q2A061040C02UOOAC02TS14.cut a111.247 fob 20 1997 297374 ASCII A21/g02AO6NC40DC214SAC03TOOO.cut sIlf.240 fob 20 1997 142357 ASCII t

a21/SQ2Ao6OsDCO2TOOoACo2T14s.cut allf.249 rob 20 1397 217374 ASCII A21/802A=6905DC02HS5AC03TOGO.cut 1z1f.250 rob 20 1397 142957 ASCII a2l/3s2AO6XO6DC02?OOACM2Tl4S.cut

.11f.2sl fob 20 1997 217125 ASCII A21/Sg21a6N06DC02T145AC03TO00.cut a0lf.2S2 feb 20 1997 142957 ASCII a21/0s2AO6NO7DC02TOOOaCO2hl4S.cut aSlf.253 rob 20 1397 297125 ASCII A21WSO2AN07vC02T14SAC03SODO.cut alrt.254 reb 20 1997 142937 ASCII

Waste Package Operations Engineering Calculation Attachment ride: Sequoyah Unit 2 CRC DepIetion Calculations Document Identifier. BOOOOOO-01717-0210-00005 REV 00 Attachment I, Page 5 of 26 I..

A21/5Q2106N010C02IOOOACZT145.cutt A21/$02a06o80C02T145Aco3TO00.ct A21/so2AflgD9vCOZTaOoaC0zI45.Cutt

.2l/5023L06N09DC02T14S3C03T000.cut A21/g02A06N100C02T000AC02T145.CUt I21/802&ONlODCO2Tl4SI.C03T000.Cut A21/so506slUC027000AC02TUS-Cut A21/S02A06N1l10C021I451LC03T0C0.cut 12l/802106N120C02T001C02T145.Cut A21/SOWaf6Nl20C02rl45aeC03T000.Cut A21/SO2AD6N'L3OC02TOOOAC02Tl4S.Czt A21/50206N130C02T11451C03TO00.Cut A21/302a6R14DC032T000AC02T45.Cgt A21/80A06N140C02T145ac3T000.Cut A21/602A0GV1S0C02TO00ACC2T145.cut aL21/802106n150C032T145C03T000.cut A21/EO2&*6NlEC=2TO00ACG2T14S-Cut

£21/SQiouo 1aDC02Tl4SACG3T*000C~

&2l/8=WM7N1DC03T000AC03T210.Cut A21/901700AW MC037000ACCU120.cut aL21/802A07N3VC03T000AC03T210G.Cut A21/6=207N040C03?000AC21G.Cut A221/6W0710S603T00ACQ3?210.cat A21/602A07N05CU0300A1COST210.cut A21/8Q2107N080C03T:000ACH210.1cut A2l/8Q2AOM90DC03TO00ACO3T2l0.cut A21/1022A0710DC03TO000AC03T210.Cat A21/$Q2AVMUl0C03TO00A03cT21G.cut A21/802A07N20c03T000ACOU210.cut A21/5021O7N3DC03TO00AC03T2lO.Cut A2I/102AOM14DC03T0002C03T220.Cut A21/302AOa0715C03T000AC03T21O.Cut 5i21/lQ207Na6DC03T000AC03T21O.Cut A21/UQ2a21No1Ddo1TUooKCO1TiS7.cut A21/uoQa2130Wc117AC02T000.cut A2l/8023212DC1T0OOOACO1Tl87.Cut AllS21/8 lJO02COITlU7aCOMbOOO.cut A21/80MalJO3COlbOO0ACOIhlI7.Cut A21/SO123NO3COlT107AC02TO00 -cut

£21180MAINO4DC0ITCOOACCLT2S7.Cut A21/80232NOOCO01817AC02T000.CUt A21/90M12N05DC01T000ACC1TIS7CUt A21/8Q2I2INSDCO1TI1U7AC02OO?00.cut a2IIUO2AZIN6DCOITCOOACOIT1I7.Cut aL21/XOQa2N06DC01!87JLC02T~O0.cut

£2I/S02£1307VC010003ACO1X87.cut AL2l/50212117DC01T117&C02T000.Cut a2/5211S215080c0=T1700AC01:117.cut A21/SOQaIl09DCOITOOOACOIIU7.CUt.

£21/ZO2A~2lffQ9c=lTo00AC0lTlU7.CUt

£L21/SQ2A21N1ODCOITlU7ACOITI07.eut A2I/$01.W 11ac0T1000C012117.eut A.21/SO0MMfllC01TlU7&C0T007.cut A2I/SW2£2 1T2c107AC2Ol:S7.cut A21/89MUM11DCOIT000AC011117cut A2I/8OWa21N3C01T287&CG2T000.iut

£L2l/so232113DCC1?000ACC01TI7.cut A21/SO2A1NM4CC1T107ACOMT00.Cut A21/60M321150c01000ACCI1117.Cut A21/so0alwlOCColn7ACoOa O.cut

£2I/SQ2I2Nl6DCOITOOOACO1T187.Cut a21/SO2AL~lNlEDCOlrlS7ACCZTCOoo.cult rile Name IL21a/S0W2A02DOl02T0OOCACOfl4S.cut allf. 255 aIlf.254 aIIf.2S7 allf.258 alit.259 aIlf.260 al.If.261 aXrt.262 aIrt J63 allf.264 allf.265 allf.266 aIlf.267 allt.2fS allf.269 allt. 270 ailf.271 aI~f.272 allf.273 a~ll 274 allt 275

&i~t.276 allf.277 allf.178 aXlt.279 allf.280 aIlf.281 alit.282 allf.283.

aIlf.204 allt.285 alif.286 aItlf.27

&IIt.238 allf.289 alitf.290 411t.292 L&lt.292 allf.293 allf.294 allf.293 aIlf.296 aIlf.297 aI~f.298 aIlf.239 aZtt.300 aXIC.301 allf.302 allf.303 alitf.304 aI~t.305 allf.306 aItt.307 allf.308 altf.309 allf.310 al~.3111 aiit.312 allf.313 aIlf.314 a~tf.315 aIit.316 allf.317 allf.311 allf.319 alitf.320 Tape Backup file Name allt. 321 rob 20 1397 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 Feb 20 1997 fob 20 1997 Tob 20 1197 tfb 20 1997 feb 20 1997 Trb 20 1997 rfb 20 1997 feb 20 1997 TOb 20'1997 rob 20 1997 rob 20 1097 rob 20 1997 reb 20 1997 Fob 20 1997 rob 20 1997 rob 20 1997 lob 20 1997 lob 20 1997 lob 20 1997 rob 20 1197 rob 20 1397 fob 20 1397 rob 20 1397 rob 20 1997 rob 20 1397 lob 20 1997 rlb 20 1997 reb 20 1997 lob 20 1997 Feb 20 1997 rlb 20 1997 reb 20 1997 lob 20 1997 reb 20 1997 lob 20 1997 lob 20 1397 Feb 20 1997 leb 20 1997 reb 20 1997 rlb 20 1997 rob 20 1397 reb 20 1397 rlb 20 1997 Feb 20 1997 rob 20 1397 reb 20 1997 reb 20 1397 reb 20 1997 rob 20 1997 rob 20 1997 leb 20 1997 reb 20 1397 leb 20 1397 reb 20 1397 leb 20 1997 lob 20 1997 feb 20 1997 fob 20 1997 leb 20 1937 rile Date fOutputO reb 20 1997 297125 142357 297125 142957 29712S 142937 237125 142957 237125 143040 237125 143040 296793 143123 295627 142210 290623 139733 130280 131774 132430 132762 122762 132762 132845 1232928 132928 132928 132928 13292B 132742 132679 132177 130446 295467 141690 289783 144026 292356 144690 294206 14S022 295202 1US3S9 295783 14535B 29611S 145441 296032 145441 29611S 145441 29611S 145441 296115 145524 29S949 145507 29S363 14S441 294040 145105 291111 144109 282099 131650 Vile Size (BytesI 291151 ASCII ASCII ASCII MSCII MSCII ASCII AMCIZ ASCII MSCII MSCII

- MCII MSCII MSCII ASCII ASCII ASCII ASCII ASCII MSCII MSCII MSCII ASCII MSCII MSCII ASCII MSCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII MSCII ASCII ASCII ASCII ASCII ASCII MSCII ASCII MSCII ASCII MSCII ASCII MSCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII rile Typ (loinat)

ASCII a...

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Depledon Calculons Document Identifier. BOOO0OOO-01717-0210-00005 REV 00 Attachment I, Page 6 of 26

(

521a/2Ao02N0olDC02T145c032oo.cut A21/a0202020202TD OC=2T145.cut A21a/S02A02N02DC02T145AC03TOOO0.cut a2o/S02102130c02TOocac02Tl4S.cut A2J/S021203DC2l45AC03TOOO.cut A2U/sQ2A02NO402T000AC02T14S.cut A21a/SO2a02404Dc02T145SC03TOOO.Cat L21a/21k02105S2TO00AC02T145.0t A21a/802AG2NOSDC02T14SAC03TOOO.Cut A2loa12a02N06=0ZcTOOOC2T14S.Cut A2lo/S2A02NO6Dco2T145 Ac03O 30.Cut

£212&/

2AD2SO7vCO2TO00OAC02TlUS.cut A21&8Q2AO2107=C02T14SAC03TOOO.cut A21aIIQ2A02NO8DCO2TOOOAC2TlI4S.Cut A21O2ACO2NOS8DC02Tl45AC03S000.013t A21aIS Q2AO2NO9DC02IOOOACO2Tl4S.Cut A21afsQ2AO2NO9XC02TI4SACO3TOOO.Cut A21a/6Q2A02N1ODCX02TQ00OC2T14S.Cut A21a/8Q2A02N10DCX02145AC03OOO.Cut A21a/8Q2O2V11DC02SO00AC02S14S.cut A21a/8Q2A02N1lDC02T14SAC03SOOO.Cut A21JSQ2A02N1CC2T0OOO0ACO02Sl4.cut A21aJ8Q2A02N12C02S145AC03TOOO.CQt k21&J582A02N13DCX02QOOACO2T145.cut

&21a/sQ2AN2D13XC02T14SAC03rOO.cut A21a/8Q2AO2N14DC02TO0OAC02?145.cut I A21l/3Q2A02N4DC02:145hc03OOO.C.ut a21oa602Ao21.DC02TO0oAe02Tl4S.cut A21aS O2AD2N1SDC02T14SAC032OOO.cut Allo/u0aO02N16=C02TOOAC02TH4S. cut A21a/SQ21D2N16DC02T14ScO3TOOO.Cut A21I/SQ2A13N01DC03TO0AC03?210.cut A21o/5Q2Al3N02DC03TO000C03?210.Cut A21a/02A1N3X03C3?O000AC03T210.cut A21a/SQ2AXS3O4DC03TO00AC03T210.cut A21IaS02A3NOSC03TOOOACO3T210.cut 521o/102113U060C03TO00AC03?210.Cut A21a/10213N307D=032000ACQ3T210.cut A21a/,Q2A13S0O8=C3TO00ACO3T21

.cut 521a/JQ2113209DC03TOOAC032210.ct A21&IQW2A1SN1ODCO3TOOOACQ3T21.c Ct A2la/5Q2A3RV11=DO3000AC032210.cut A2loISo2AIu12 C03TO0OAC03T210.cut A21aJS2Al*Ml3DCO3S00OAC03T210.cut A21a/SQ2A3Nl4DCO3TOOACO T2lO.cut A21JJQ=2Al3N1SDC03O00AC03210.cut A21aJQ2Ml3N16DC03SOOOACO0321O.cut A211/SQ2A21NO1DC01TOOOACOT187.cut a21a/SQ2123101Dcolflt7AC02Tooo.crt a2l1aIS2a2SN02Dc1T000AcClrTl7.cut A21a/0Q221302DCO1T187AC02TOO.cut A21a/SQ2A211O03CC010OOACOlTI7.cut A21anS 2 M21N03DcCO10TI7C02OO.cut A21aISQ2A2hXO4DCOZTOOOACOl1?87.cut

-A21a/S02A21304DCOll17acO2TOOO.cut A21ISO2AU21O5DCOITQOOACOl1!87.cut A21at/8=&21NOI5CO1T187AC02TOOO.cut A21a/8021213060C0lSOOOAC1llt17.cut a21asoQ2A2lN06DcO1Tu7aCo02ooo.cut a/lo/1Q2a2OxO1c7COIOOOAco0787.cut A21a/SQ2MI2070CO01l87AC02TO0O.cat aL1&/SQ2A2lroScOlOToaCtlThl7.cut A21a/SQ2Al2NoODcoI1187Ac02TooO.cut A2U/3Q2a2W109DcO1TOOOco1T187.cut A2U/SQ2A2lND9DcOL187A0027O00.cut A21O/SQ2A2IX1NOD1TOOOACO1TI87,cut A21a/502A211lODCOl187A:a012000.cut A21aj302A2IN11CCO0TOOOACO1r1S7.cut A2la/SQ232111DC01T187Sr02TO0O.cut A2la/SQ2W112DC01rOOacUlsjTj7.cut A2la/O2S 1N12DCOl1T17Ac02TOOO.cut A2la/sQ2A213DColIoooCACOITI.cut allf.322 allf.323 allf.324 alIf.32S allf.326 allf.327 alf

.328

• sst.329 allf.330 allf.331 allf.332 allf.333 alf

.334 ar1t.335 allf.336 assf.337 allf.338 allf.339

&ISf.340 aSf.341 S&1.342 allf.343 a*Sf;344

.3f.345 aIII.346 aIlf.347 ait.348 allf.349 aXt.350 alf

.351 alIf.352 0ll1.353 atif.354 afif.35S all.356 aXU.3S7 aIIf.353 ssr.3ss

• oIf.360 alu.361 allf.362 ai~t.363 allf.364 aIII.365 a111.366 a1lf.367 allf.368 allf.369 a111.370 a111.371

• sst.372 a*ss.373 al*f.374 allf. 375 allf.376 al*f.377 aSif.378 aIIf.379 al1f.380 alf

.381 alIf.362 allf.383 allf.384 0111.435 allf.386 allf.387 allf.388 aIIf.309 alsf.390 allf.391 allf.392 aIIf.393 rob 20 1997 Tab 20 1997 reb 20 1597 Tob 20 1997 rob 20 1957 fob 20 1397 rob 20 1397 rob 20 1397 rob 20 1997 fob 20 1997 rob 20 1397 rob 20 1197 rab 20 1197 rob 20 1197 rob 20 1997 reb 20 1197 rob 20 1997 reb 20 1997 rob 20 1397 rob 20 1997 reb 20 1197 rob 20 1997 rob 20 1197 rob 20 1997 rob 20 1s97

.ob 20 1997 Tab 20 1397 rob 20 1997 reb 20 1397 rob 20 1197 nob 20 1197 Jeb 20 1397 rob 20 1997 rob 20 1397 Feb 20 1997 reb 20 1397 rTb 20 1997 reb 20 1397 reb 20 1397 reb 20 1397 reb 20 1397 rob 20 1397 rob 20 1397

• eb 20 1997 reb 20 1397 reb 20 1397 rob 20 1397 fob 20 1397 rob 20 1997 rob 20 1397 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 rob 20 1997

-rb 20 1997 reb 20 1997 rob 20 1997 rFb 20 1937 fob 20 1337 reb 20 1997 rob 20 1997 reb 20 1997 reb 20 1397 reb 20 1937 rFb 20 1397 rob 20 1997 rob 20 1997 rtb 20 1997 reb 20 1397 reb 20 139$

rob 20 1197 139567 29SS44 141961 297374 142708 297623 142874 237457 142957 237374 142157 237125 142957 297125 142157 237125 142957 297042 142957 237042 142957 297042 142174 297042 142357 296710 143040 29s627 14210 230823 139567 130280 131774 132430 132762 132762 132762

.132762 132762 132762 132762 132762 132762 132673 132430 132189 130363 285467 141690 289783 144026 292356 144690 294206 145022 295202 145351 295703 145358 296115 145441 236032 145441 296115 145441 236115 145441 296115 14S524 295349 145607 295s38 ASCII ASCII ASCII ASCII ASCII ASCII.

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII.

ASCII ALSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Depletion Calculations Document Identie:r BODOOOOOOO01717-0210-00005 REV 00 Atachment U, Page 7 of 26 A21a/3021F1S=2C0T3.87AC02TGOO. cut a21aISQ2&2lN14DCO1T000AC01lU87.cut 82jLa/102a1N1d=c11117AC02TO00.cut Alla/SQ2IN2l5l=cTOOOAC0lflI7.cut A21A/sO2A2inlS=c1TlU7AC02TO0O.Cut A21aI102A1v1fDcO1T0001C01T117.cut aL2j&/S02a2116=c1T117AC02T000.cut aIlt.394 allf.395 allf.396 aI~t.397

.aIlg.398 allf.399

&Izf.400 fob 20 1997 reb 20 1397 reb 20 19S7 rob 20 1397 rob 20 1297 reb 20 1397 rob 20 1397 1uS441 294040 143105 291111 144109 282099 1316SO ASCII

.ASCII ASCII ASCII ASCII ASCII computez rile aN~e A25/SQMI2NO1DC01TOOO=C1T117.Cut AL25/EQ2ASN01DCO1TI7?ACO2TOOO.Cut A2S/5QWI2502DCO1TOOO=~1T1U7.Cut A25/SO2ISNO2DCOIT1S7ACO2OOO.Cut A25/UQMISVO3VCO1TOOOC=1T31S7.Cvt AL25/SQ21.SN03DCO1?1S7AC02T000.cut A25/3QM1SN04DC01T000ac1T117.Cut A25/SQ2A25N04DC01T187AC02?O000 Cut A25/SQ ASNOSOCO1TODUCCOLTI7.cut A25/60=25N05DCO1T187ACOMT00.Cut.

A25/UQWASN06=COTOOO=c1T187.Cut 1L25/S02A25N06C01T137AC02T000.cut AMA25/Q25NO7DCO1TOODMcT18179eat AM5SOMA2507DC01T187AC02:00

.Cut A25/60M5N2SN DCOITOOO=c1T1U7.Cut A2S/SQ = SNOSDCO1?T8ACOM?00.Cut 225/SQ2I25NOgDCOZFOOOUcIlS17.Cutt A2M/OMa2N09MO01?187AC02:000.Cut

&25SISOMSNIODC01T000U01T187.Cut A25/SQ2ISR10DCO1T1I7ACO2OOO.Cut A25/

WSQ225N1c0T0O0A&COT187.Cut AL2513021.2SN1ZOCOZT187AC02T000.Cut A25/SQM15n12DC01TOOGACQ1T1I7.cvt A25/502 N25N DCO01!XU7Ae2TO0OD.Cut A25/$021.2514DC1T000Ac1T1U7.Cut AL25/S02a5N13DC01T1U7AC02T000.Cut A25/6O2A2S14DCO1TOOO=c1T31I7.cut A2S/SQ2ISN2SDCO1T187ACO2TOOO.Cut A225/5022 N16=C1OOCAC01?127.cvt A25/$O2&2SN1G=C1T1S7Ae02OOI00.cut A251502A 7NQ1DC03TOO00ACO 3T210.Cut aL25/502A2710C20C03?000303T21O.cut a25ISQ2A27N03C03T000AC03T21O.Cut A25/602A2MN40C03T001C=3T210.Cut A25/602a72r05vCO3T000ae3T21O.Cut AL25/302127106Dc3T000AC03T210.cut A25/60MA7907DC03?000AC3T210.cut 125/S02a7NO8DC03T000aC3T210.cvt A25/50227N090C03T000AC03T210.cuit A25/SQ2AI7N100 3TODUOO MIuCO.cat AM5/0212M11C03T000ACOT210.cut A25/502A2N12COMOU0COMI21.cut A25 SQ2A2N3C03T000ACO3?210.cut a2S/so2A27u14oc03TO0A0~3T210.ciat 325180a2U150c3T00COA fl21O.cut A25/S02127316DCG3T000AC03T210.cut A2S/502128g010C02TOOOAC02T145.Cut A2S/80MIN1201C02T145AC03T000.Cut A251S02A28B02DC02!000AC02T145.Cut A25/01293020C02?145AC03T000.cut A2S/502A28N303C02T000£C02T145.cut A25/S02AL28N303C2Tl45AC03T000.elat A25/02A8304002TO00C0C2T145.cut AL25/8O2A28N04DC02T145AC02T000.cut AL2S/102A81350C02T00AC02T145.Cut A25MWON233SOC02TUS51C03TO00.cut AL25/5g2A8NM60C02T000AC02T14S.cut A2S1802A89060C02THSA1C03TOOO.cut Tape Backup.

rile Samie alSf.401

&LIt. 402 ai~t.403 al*t.404 alif.405 allt.406 allf.407 Sltl.408 4l19.409 aIlf.410 aISt.411 aI*t.412 alMt.413 aIt.M414

• aIt.415 ast

.416 aI.L417

• l19.418 alsr.41u aI1t.420 aI1f.421 allt.422 allt.423 allf.424 ast.42S aISf.426 allf.427 aISt.420 allt.422 aI2t.430 aI*f.431

&219.432 allf.433 a*st.434 allf.435

• S19.436 allf.437 eslf.438 allt.439 al*t. 440 alSt.441 alf.

442 allt.443 allt.444 alst.445 alZt.446 allt.447 aIft.448 a*ll.445 aIIC.4SO al*t.451 a*st.452 aIst. 43 al*t.454 allt.455 asIs.45S allt.457 aItt.458 allt.451 alst.460 File Date (Output) reb 20 1397 rob 20 1997 reb 20 1397 reb 20 1997 rob 20 1997 rob 20 1397 Feb 20 1997 reb 20 1997 reb 20 1997 feb 20 1397 rob 20 1397 reb 20 1997 rob 20 1997 reb 20 1997 feb 20 1n97 Feb 20 1197 fob 20 1197 f*b 20 1197 reb 20 1997 feb 20 1197 feb 20 1197 reb 20 1197 Feb 20 1197 reb 20 1197 Feb 20 1997 Feb 20 1197 Feb 20 1997 tob 20 1197 feb 20 1997 Feb 20 1397 fob 20 1997 fob 20 1997 reb 20 1197 Feb 20 1997 Fob 20 1197 reb 20 1197 Feb 20 1197 fob 20 1197 fob 20 1197 fob 20 1917 Feb 20 1197 Fob 20 1397 Feb 20 1997 Feb 20 1997 Feb 20 1197 fob 20 1997 Feb 20 1397 reb 20 1397 feb 20 1997 Feb 20 1337 fob 20 1997 fob 20 1197 rFb 20 11S7 reb 20 1197 fob 20 1197 Feb 20 1997 Feb 20 1197 Feb 20 1197 feb 20 1997 fob zo 1997 nile usix Ilytes) 287157 143022 233103 145254 296530 146337 297761 146918 298674 146419 239338 1467S2 299670 1467S2 299836 146752 299913 14683S 299836 146835 299E36 14S635 299504 141918 298757 146835 297512 144835 295119 146088 284921 141069 144584 141331 146414 146663 142201 142201 142201 142201 142201 142201 142201 142113 142111 141352 141620 140298 292151 1396SO 296890 1425S1 298370 143289 2939532 143542 299947 143625 299947 143625 file Type (Fozuat)

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

&SCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment Tifle: Sequoyah Unit 2 CRC Dptetion Calcaions Docment Identifier. BOOOOOOOO-01717-0210-OOOS REV 00 Attachment I, Page 8 of 26 I

A25/802A2N07=c2TQOAC02TU45.Cft A25/ug2229507DCO2Tl45AC03:000.CUt

&2S/$02A28N089DcO2?0AC02T145.Cut 125I3Q2A2NO8C02T145AC01T000.CUt A251sOMA2N09DCM020A0C027145.Cut A25/3Q2A2NO9DC02T%4SAC03T000.CUt A25/s02A8N100C02T000AC02T14S.cut A5/s0sO2Atl00c2U4AC03T000 Cuat A2S/5g2128jl=c02ODOACO2T145.Cut 125S/Q28N2U1DC02T14SAC03OOz00 CUt A25/3QMa8N12=c2T000AC02T145.cut A2S/sQM$2N12=c2T%4SAC03TQ00.cut A25/$QMA8N13Dc02?00QA01C2T45.cut A25/sgMA8N13DC02T14SAC03TO00.cut A25/SQ=A8)t14DC02O2?00SC014S.Cut, 1.25I802AX2U4UC02T145AC03T000.cUt

&25/5g2A2I1SDC02TOOAO=2T145.cut

&2S/sQ2A20V15DC02T14SACQ3TOOO.cut.

A25/5QMA2n16DC02TD00AZ02T145.Cut, A25/3Q2A28N116C02TU4SAC03T00.Cut, allf:461 allf.462 011f.463 axlf. 464

£Irf.465 allf.466 allf.4 67 allf.4 go allf.469 al~t. 470 al11.471

..- -aIGf472 allf.473 allt.474 alIf*475 allt.477 aIIf.478 allf.473 aII1.480 rob 20 1S97 reb 20 1997 reb 20 1997 reb 20 1997 reb.20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 feb 20-19S7 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1n97 rob 20 1997 rob 20 1997 rob 20 1397 rob 20 1997 300030 143708 300030 143174 239947 143957 239947 144123 299864 144123 299947

- 144123 233347 144206 239034 143791 2S7231 143209 292902 140065 ASCII ASCII ASCII ASCII ASCII AScII ASCII ASCII ASCII USCIS ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII Ccuputez 1+/-1.e Name A254saIS2ANO10co1TOOOACOXT1U7.cut A25a/SO2ASYO10COII1371002T000.cut A25a/60MU2N0DC01M000CO0187.cut A25a/302I2N02=C01!1S7AC02T000.cut UL5aISO2ASN03DCO1TOOOACO1TIS7.cut A25&18Q2ASNO3DOIT1*7AcO2?000.cmt A25a/sO2A5N004C01!000C01T27.cut A25afSOMMOMO04TC0U67COMOO0.Cut A25aIS02A5N05fCltC01~000C0T1?7.cut A225I302A2N05DCOIfI87ALC02TOO.Cut A25aI8Q2A5N06DC01?000ACO1TI§7.cut A25&Sa/52225N6DC01T17AC02TOO0.Cut A2Sa/3Q215N07DC0110001ACO1T117.cut A2Sa/30n2S2507DC017137AC02?000.Cut A25a/80215V080C011OOM=C1T167.,cut A2I&SaIS2SNOSDCO1T187A~co2T000.Cut A5IA25m/OMN03DC01T000AC01T137.cut A25aISOMASNOWGI0T187=C02T100.Cut.

AL25a/1O2A2N10DC01?000.C01T1S7.cut A25a/g02A2SN10DCO1TI87AC02T000.cut AL25ajEO2A2SN1lVCOITOOOAcO1TI$7.cut A2$aSaIIZSNL1DCO1?117SC02T000.cut A25I3021.531CC01TO00Ac0187.cut A25a/302A2S1120C01?L7AcO2TOOO.cut A25a/602A2SN13DC01T000AM0T1I7.cut A25a/602A2N130C01?1g7AcQ2000.cut A25a/3Q2A25N14DCOITOOOAe01T187.cut AL25a/gO2A2N14DC01lSl7AC02TOOO.cut A25aISO2A25N1SCO1?OOOACO1TIU7.Cut; A2S&/502A2SN1SDC01T1U7AC02TO000.cut A25a/SQ2I2Sn16DCOITOOACOLT1U7.cut A2SaIO2A2N1CO1TIU7C02TOOO.cut A2Sa/S021L28N010C02T000AC02145.cut A2Sa/8021,2UNO10CO2TISCO3TOOO.cut A25a/5Q2A28N020C02?OOOACO2Tl4S.cut A25a/BQ2A2INOZDCO2T245ACO3TOOO.cut A2Sa/502A2IN03DC02?000AC02T145.cut A2Sa/302A21X030C02T145AC032OO0.cut A2Sa/302A213040C02T000AC02T145.cut A23a/X02121040C02T24S=C32000.cizt A25a/SQ21,28305C02?000AC02T145.eut A25a/5g2I2N05IDC02fl4SAC03T000. cut A25aISQS022N0DC02T000AC02T145. cut AL2581S02A2R06DC02T14SAC03T000.cut A25a/10229107D)C02T000AC02T145. cut A25a/302AL28N07DC02T145A=3T000. cut A25al5Q2A2NOODC02?OO1.C25145.cut Tape Backup rile same 011f.481 XI9t.482 allf.483 aXlf.484 oIlf.435 altf. 436 a1llf487 allt. 488 allf.489 allf. 430 allf.431 allf.492 allf.493 allf.494 011f.493

.11f.496 allf.437 allf.498 allf.4#9 allf.500 allf.501 eIllfS02 aIlf.503 al1t.504 alIII.5SO allt.506 allg.507 a111.508 a111.509 allf.910 allf.511 aIlf.612 aIlt.613 aI19.514 allt. 515 arif.516 aIlf.517 alZ9. 518, aIZ9.513'

• IZt.320 0111.521 0111.522

• Ilt.523 aZ11.624 aI~f.525 aZ~f.52f a11f.S27 rile Date (output) feb 20 1997 reb 20 1997 reb 20 1397 reb 20 1997 frb 20 1937 fob 20 1997 rob 20 1997 reb 20 1997 rfb 20 1997 lob 20 1997 rob 20 1997 feb 20 1997 reb 20 1997 reb 20 1937 rob 20 1997 rob 20 1397 rob 20 1997 reb 20 1397 rob 20 1397 rob 20 1997 reb 20 1997 fob 20 1397 rob 20 1397 rob 20 1997 rob 20 1397 rob 20 1397 rob 20 1397 fob 20 1397 rob 20 1397 fob 20 1397 reb 20 1397 fob 20 1397 fob 20 1397 fob 20 1937 fab 20 1397 rob 20 1337 fob 20 1397 Tob 20 1397 reb 20 1997 rob 20 1997 rfb 20 1397 reb 20 1997 Feb 20 1997 rob 20 1997 reb 20 1997 flle size Elytes) 217957 143022 293103 14S354 296530 146337 297761 146313 298674 146663 299338 146752 299670 146752 299836 146752 299919 146835 299836 14683S 299836 14683s 293504 146913 298757 146835 237512 146835 295119 1460E8 284321 141069 292151 139650 296l90 142559 298370 143233 293532 143S42 239947 143625 239947 143625 300030 143708 300030 file Type (for'att ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment Tilde: Sequoyah Unit 2 CRC Depleti6n Calculations

.- IDocument Identifier. B0000000:.01717-0210-00005 REV 00 Attachment l Page 9 of 26 i

I.1 825aIIO2A IIO SGDC02 ?145C03 ?000.Cut A2SaI502A29I9DC02TO00AC02T14S.ciit jL5aS/502A2eN09DC02Tl451=c3?0O0.Cut A25a/zQW8KII1DC02TQO00A2?14S.cut A25&/5QWA2N11DC02T14S5W3TO00.cut 525aI3Q2A28n112LC02T000SCO2f45.cut A25a1802A2812.1DC02T145Ae03T000.CUt a2S&1S02A2S812D02T000AC02T14S-Cut A2Sa/SQ2A28W12C02Tl45ACG3T000.Cut a2S5a502A23I13DC02TO00AC02T145.cut A25a/S=222NlUC02T14SAC03T00.1cut A2SaI802A289I19C02T0O0Ac2T14S5.cut aL25a/UO2A2Ul4=c2T243AC03TOG0.Cut A25a/102A28N1SDC02TO00O1C02T14S.cut AL2S.I1Q2A2IU5=c2T14SACG32000.cut

£25.1S0212UU1M C02T000C02TIO5.Cut A2Sa/xQW82N16=c2T145Ac037000.cut A25a./SO2AINO1DOC3TOOOAC03T21

.4cut aL25a/SQ2A3102DC03TODO0C03TZ2l0.Cut A25a/602 31B3=c3!000A C03T210.cut A25a/I02A1V04=c3TO00AC03T210.cut AL2a/10233105Dc03T000AC03T210.Cut A2S.5a/Q2A31B0DC037000AC0T210.Cut AL2S.ISQ2A31OD7Dc0320001C3T210.Cut aL2Sa/S02A31B06Dc03I000AC03T210.Cut a15aU 02A 1509Dc03T 000AC0 210.,cut A25aISQ2A31D0C03TGOU0C03T21O.Cit 125./sQ2A31 11 =c3T000AC03T210.cizt A25./SQ2A3212DC03T000Ae03T210C.Ct a2sa/s021133003OSOOMMT321O.Cut A25a/S02A32N4DC03TOOOAC3T2l0.Cut 125.SOM13131DC03TOOOACO3T21O.cat 125s./602A1511DC03000ACOM?21.Cilt e.IILS29

.116.523 aMGM53 MGM.53

.11f.532 allf 6.33 MGM.53 MGM.53 a116.536 allf.637 al116.38

'Allf 'S39 al~f.540 a116.541 allf.342 al1f.543

.11f.544 szIf. 545

.11f.546 allf.547 augf.54' aIIf.549 a116.550 allf.551 aIIf6.55 al1f.553

.11f.534 a11f.535 a11f.556

• 116.

57

.116.553 a116.559 al1f.560 rfb 20 1997.

reb 20 1397 rob 20 1397 reb 20 1997 rob 20 1397 reb 20 1197 rab 20 1197 rob 20 1197 rob 20 1997 reb 20 2997 Teb 20 1397 rob 20 1997 rob 20 1997 rob 20 1197 reb 20 1997 rob 20 1197 reb 20 1997 Fob 20 1997 reb 20 1197 rob 20 1997 Feb 20 1997 Feb 20 1997 fob 20 1997 fob 20 1997 feb 20 1997 feb 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 fob 2D 1997 reb 20 1997 reb 20 1997 reb 20 1997 143374 219947 143957 299947 144123 299864 144123 239947 144123 299947 144206 299034 143791 297291 143289 292102 140065 120J69 130533 131197 131197 131529 131529 131612 131612 131363 131363 131363 131363 1312E0 131197 130782 128952 ASCII asCII asczz ASCII ASCII ASCII ASCII asczI ASCII ASCII MSCII MSCII ASCII ASCII ASCII ASCII MSCII ASCII MSCII MSCII ASCII MSCII MSCII MSCII MSCII MSCII ASCII MSCII MSCII ASCII ASCII Couputez rie Usze A26/602ACIN0DIO03?000AC0321O.cut 126/5=202N02D0CUTO00AC0321O.cut 126I5QMA02003DO03?OOOUCO321

.cutf 12613Q2A02B04DC03TOOOACO3T21O.cut A M6/802a 1905MC03?000 CO3 21.cift A26/602A01NO6Dc3T000SC03T2l0.cilt A26/6Q2L02N07DO03T000AC03T210.Cut A26/6Q2A02N03DC03T000AC03T21C.Cut A26/S027A02N09DCO3T000AC032210.cut A26/SO2AO1N10DCO3?OOOAC03T21O.calt A26/6=201313UC03T000Ae0T210.cut A26I/g2A0M12DC03T0OOAM0T21O.cut

.A26/50=a1013DCO3T000AC0T21O.Cut A26/SQ2AO1K14DC03T0007AC03T210.cut 126/502101150C03T000AC032210.,cut 5261302 0111DC03TOC 01A 03M 21.cut A26/602Al7VO1OC02T000AC02T145.Cut AL26/SQ2A7NO1Dc02T145AC03?00.Cutt A26/so2A1Wv02oc02000Ac02T14.cut A26/802A17I020CO2T145AC03?000.Cut

£26/302A17NO3DCOZTOOOACO27145.cut A26/$02A7NOD30CG2T145Ac03T000.cut

• A 2650A179040C0fl000AC02145S.cat AWZIQWA7904DC02?14SAM0TOOD.Cut~

A26/B02A17b050C02:0002e21l45.cut A26ISMA7905DC02T145AC03T000.cut A26I50 M 7106DC02TOD0AC0T2T4s.cut A261502A1U 06DC02?14 1C03?000.cut

(

A26/S02A27b07DC02T000AC02T4S.cut A 26/1 2AI7 l07 C02T145AC03TO 00.Cuzt A26/6Q2A17310DC02T000AC02T145.Cut A2f/S02Al7gOUDC02T145AC03T000.cut AL261502A27lT09DC02TO00=c2T14S.cut A2/6/5Q2A7909DC02T145AC03000.cut Tape backup file sames al1f.561 allf.562 a.116.63 aII6.964 a111.663 aII6.5666 allf.567 al1f.568.

allf.559 allf.570 allf6.71 a11f.S72 allf.573 allf.S74 a126.575 allf.576 alit.577 allf.570

&I19.579 a11f.550 az1t.581

&1Z9.582

&Z19.583 alI6.584 az1f.595' a11f.536 allf.587 a.116.539 a116.589 alIf.590 a12f.591 allf.532 a116.593

• 11f.S94 flMe Date tOutput) rob 20 1397 reb 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 rob 20 1197 reb 20 1197 rob 20 1997 reb 20 1197 feb 20 1397 rob 20 1997 feb 20 1397 rob 20 1997 feb 20 1997 rob 20 1997 rfb 20 1197 feb 20 1197 rob 20 1997 reb 20 1197 fob 20 1997 reb 20 1197 reb 20 1997 rob 20 1997 fob 20 1197 rob 20 1997 rob 20 1997 fob 20 1397 reb 20 1397 rob 20 1397 reb 20 1197 Feb 20 1997 rob 20 1397 rob 20 1997 file Size (Bytes) 145092 146327 146734 146734 142438 142431 142431 1424U3 142431 142355 142355 142355 142106 141857 141699 139173 291069 139480 235374 141361 296623 142S42 236972 142374 296672 142374 297042 142874 236176 142957 216710 142957 236710 1421S7 file Type frozzat)

ASCII asCII ASCII ASCII asCII MSCII ASCII MSCII MSCII MSCII ASCII ASCII MSCII ASCII ASCII ASCII MSCII ASCII ASCII ASCII MSCII ASCII ASCII MSCII ASCII ASCII MSCII MSCII MSCII ASCII ASCII MSCII MSCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 7 CRC Depletion CalcAtions Document Identifier: BOOOOO"O b117-02102 00005 REV 00 Attachnent I, Page 10 of 26 A264/Q2a17ul0DC02TOOCAZO m 45.cut ax1f.593 fob 20 1997 296627 asCII a26/1QzA173toDC032T4sAC03?000.cut

.11f.596 rab 20 1997 142957 asczz a26/8Q2a17MU1VC02TO00aCO 2h14.Cut 811f.597 reb 20 1997 296S44 ASCII A26/SQ2Al7UlIDCO2Tl4SACO3TOOcO.ut a111.533 reb 20 1197 142957 asCII A26/1Q2Al73l2DC02TO00AC02T4m.cut 51If.599 rob 20 1197 216461 ASCII a26/502A17312DC02TI45AC03Tooo.cut

• izf.ioo rTb 20 1997 1429s7 ASCII A26Q32A17313DC02TOOOAC02T14S.Cut

.11f.601 rob 20 1997 296461 ASCII A26/502Al72130C02Tl4SAC03?O0O.cut

• Slf,602 rob 20 1997 143123 ASCII az26/Q2a17l14DC02To0oAC02?4mS.Cut aIII.903 feb 20 1997 236125 ASCII A26/SQ2Al714DC02l4SAC03TOOO.cut aSIf.604 rob 20 1997 143123 ASCII A26/6Q2Al7U25DCO2TOOOACO:

43S.cut M.EAN rob 20 1997 215291 ASCII A26/sQ2a171lSDC02?l4SAC03TOOo.cut A119.606 rob 20 1937 142044 ASCII A26/5Q2Al7Nl6DCO2TO70aC02?14S.cut a111.607 rob 20 1997 290819 ASCII a26/8Q2Al73l6DC02z4sac03To0o.cut azzt.608 rob 20 1997 139733 ASCII A26/5Q2A26WO0lDCOl1OOAC018T17.cut

£TI1.6O9 reb 20 1997 279415 ASCII A26isQz2A6NOZDCos187AC02To0o.cut

• 11t.610 feb 20 1937 138816 ASCII A26MS/2A26ND20C01OGOACC1?117.cut a111.611 reb 20 1997 2842S7 ASCII a26/102A26No2DC01T107AC02Too.cut allf.612 rob 20 1997 140737 ASCII A26n Q2A26HO3DCOITOOoACO1T17.cut aIlf.613 reb 20 1997 286747 ASCII A26n Q2A26No3DCOLI017AC02Tooo.cut aIIf.614 rob 20 1937 141171 ASCII A26/802A26N14DC01ToooA0C0T1s7.cut aslf.616 rob 20 1997 287826 ASCII A26/302A26104DCO1T107AC02Tooo.cut ar1f.616 rob 20 1997 141120 ASCII A26nQz2M6NO5DOCOITOOOACOllT17.cut

.alf.617 rob 20 1997.

289917 ASCII A26/EO2A26NOSVCO1T117ACO2OO0.cut

£111.611 feb 20 1997 141903 ASCII A261Sn2a2 M6D6CO0TOOOACI1Tn7.cut 811f.619 reb 20 1997 289676 ASCII A26/SQ2a26N06DCO117AC02TOOO.cut S1lf.620 rob 20 1997 142069 ASCII A2615Q2A26N07DCOITOOAMo1TIS7.cut allf.621 rfb 20 1997 290091 ASCII A26/802a26307O7COM17AC02TNOO.cut Sllf.622 rfb 20 1997 142069 ASCII U26/SQ2A26NO8DC01TOWOOACOI7.cut a111.623 reb 20 1997 290174 ASCII A26/IQ2a26NOODCOaS187AC02NODO.cut

• S1f.624 reb 20 1997 142069 ASCII A26/SQ2A26NO9DCO1TOOOACOll17.cut aXIf.P25 reb 20 1997 2902S7 ASCII A26/UQ2A26N09DC01T17AC02TNOO.cut

• Slf.626 reb 20 1997 142069 ASCII A26/$S2=26N1ODCOlTOOOACOl1T27.cut allf.627 rob 20 1997 290257 ASCII A26/c02a261ODQCO0 7aC02NOO0.cut 811f.629 rob 20 1097 142069 ASCII AU6/SQ2A261llDCOlNOOAC1T187.cut

• Slf.629 rab 20 1997 2902S7 ASCII A26/3Q2A261l1DC0lT1#7AC02OO0.cut

• Slf.630 rob 20 1997 142069 asCII A26iQM2A26N12DCO1TOOOACOlTI7.cut allf.631 tob 20 1997 289925 ASCII a26/s1232 612DC01187AC02TN000.cit allf.632 feb 20 1997 142069 ASCII A26n Q2a26AUN513DC00ACM1T187.cut allf.633 reb 20 1997 289261 ASCII AU61S02a26N130DCO1T187ACO2NOO.cut allf.634 rob 20 1997 141986 ASCII A26/Ws2a26OW 40C0o1008CC1T187.cut 1111.633 rob 20 1937 287s77 ASCII A26/1S02A2614DCOMT117AC2ONMOO.cut

• Slt.636 fob 20 1997 141737 ASCII A2618026265VC01?OOOACOlTlU7.cut

• ssr.637 Tob 20 1937 285253 ASCII A26/802A261S0C01TO97aC02TNOO.cat 811f.638 fob 20 1997 140907 ASCI A26/802a26N16Dc=2T00AoCcls7.cut

• S1f.C39 rob 20 1937 281269 ASCsI A26MSQ2A2l6NOlCCT127AC02UTNOO.cut allf.640 reb 20 1997 1391S2 ASCII computer Tape Backup rile Date rile Size rile Type riue ame rile wame (Output)

(Bytes)

(rozmat)

A26aISQUA138O1DC03000AC03210.cut allf.641 Feb 20 1997 130280 ASCII A26a/I02A13902DC03TO00ACO3T21I.cut allf.642 fob 20 1997 131691 ASCII a26a/510l&SN3DCG3?OOOACO3T2lO.cut a11f.643 fob 20 1997 132430 ASCII A26a/I2A130O4VC03GO0AC03T21O.cut a11f.644 rob 20 1997 132673 ASCII A26a/5QMA13SwODC03TOOUA C03T02j.cut a11f.664 fob 20 1397 132845 ASCII A26a&/S2A13306DC03TOO0AC03T210.cut a11f.646 fob 20 1997 132845 ASCII A26aI802A3ls07DC03?COOA03T210.cut al1f.647 fob 20 1997 132945 ASCII A26aM/30A1l00SDCOS03TOOACOU210.cut a11t.641 rob 20 1997 132145 ASCII A26a/SQQA13o09DC03TOOOAC03T210.cut a111.449 feb 20 1597 132845 ASCII A26a/SO2Al3N1oDco3TOOoAcG3T2ZO.cut

• Sf1.650 feb 20 1997 132845 ASCII A26a/3QA13N11C03TOODAC03T210.cuNt

• Ssf.651 feb 20 1997 132845 ASCII A26a/XQ2A1S3l2=C03TOOAO03T2l.cut a1tf.652 feb 20 1997 132845 ASCII 1A26 802Al3N213DC032000ACOT1O.cut 8111.453 Feb 20 1997 132596 ASCII A268/S02A1UN140C03T00AC03m21w.cut at1f.654 fob 20 1997 132347 ASCII k26&/JU213N15DOC03$000ACO0 10.cut a11t.655 Feb 20 1997 132106 ASCII A26a/8s2Al3N16Dco3O00Ac0s2lo.cut a1z1.656 fob 20 1997 130363 ASCII A26a/so2Al7VOlCO2TOOOACO2Tl4S.cut aS1t.6S7 reb 20 1997 291068 ASCII A26c/sQ2Al7uOiDco2Ti4SAso3ToOO.cut

• S1t.658 fob 20 1937 139480 ASCII a26a/102A17102DC02TOOOACOms.cut a1t.659 Feb 20 1997 295374 ASCII A26fta02a17N02DC0214SAC03TO000.cut al1t.660 reb 20 1997 141961 ASCII A268IS02a17U03DC02TOOAC02T145.cut Ss1t.661 rFb 20 1997 296623 ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Depletion Calcuaons Document Identifier. BOOOOOOOO-01717.0210-00005 REV 00 AttachmentIL Page 11 of 26 I

A26a/s52A1303xC2ss45Ac03IOO0.cat.

A2"6/0217MO4VCO2TOOCG2Tl45.Cut' A26a/802=7N04OC022S4AC03STOOO.cat A26a/ 802A705CO2TO000Ac02T14S.cut M6/80211750CM2T SAC03?OOO.cut 26a1SQ28l70c6D02T0008A02T145.eut a26&/802Al7V06DCO24SAcOS3OO0.eut A26a&/o2A7V7=022000a027145.Cut a26a/1S2A17No70Co2T4sAC03Tooo.cut A26a/S02Il7OW8=DC2TOOOAC02Tl4S. et A26a/8Q2171080C0214SAC03OOO.Cut a26a/X02a1719DC02ToOOAC02TL4S.cut 126a/SQ2A17M9ODC02T145=Ae3Tooo.cut A26a302A2l7N1ODC02TO00AC021450.cut a26a/5s21710nC21145L1C03T00.cut A26a/S02AS7N10C02TOOAC02T245.Cat 326aIS02Al7NllDc02T145AC03T000.Cut A26a/S02Al732DC02TOOOC02T14S.cut A26a/S02l7XS2DC02S45AC03S000.cut A26a/SQ2Al7N1DC02TO0IC02Tl45.Cut A26aJSo2aI7NDC02T14SLCOSTOOO.cut A26a/S02A17N140cC02T0oo0C02T4S.cut A26a/S02Al7V14C2Tl45AC03TOOO.Cvt A26a/502317NSDC02TOOACO2TI4S.cut a26a/S2al7E15vcC02Ts45a3O30o.cut 326&/802A17816DC02SO00AC02Sl45.cut a26a/So2a73l6DC02TI45AC03T0OO. cut 326t/SQ2A26SOlDClTSOOOACO1SS87. cut A26a/SQ22ENO1lDCOITIS7ACO2TOOO.Cut 326a/OQ2A26N82DCOSTOOOACOIT7. c0t A26&/SQ2A26N02DCOTISU7AC02S000. ut A26aIO2A2603DCO1TOO0ACO0Tl17.c0t A26anSQ2A26N03DCOM1T87ACO2TOO0.ut A26a/SQa226N04D0colToOACo0T187.eut a26aMISO2M260DcOMT17aCO2MOO.cut A26a/302A26WSDCOlSOOOCOC01187.cut A26a/SQ2a26305DC01T1U73co2?000.cut A26a/S02I26KO6DCOlTOOOACO1T1S7.cut A26a/602A26NO6DCOCS187ACO2S000.cut A26a/502A2S6N07VCOlTO*OCb1287.cut A26a/g02126N07DOCT187AC02?OOO.cut A26M/Q2A26MOSDCO0TOCOACC0T187.cut 326a/Q2A2t6NO8DCOIT187Ac02TOO O.cut A26a/SO2A26N09DCO1TOOOMOl1T87.cut A26aoS2A26IO9DCO1T187AC02TOO

• .cut A26a/S02A2QODCO1T000AeCO1T187.cut A2a/SnO2AINODCOTlS7AcO2TOOO.cut A26aIO2A26NliDCaiTOOuScc1TU7.cut A26a/S=2A26NlDcO1Tl87Ac02TOOO.cut UAM/Q2I26N12DC01TOODACClT187.c.t A26afSQ2126N12DcOGTI87AC02TO0o.cut A26a/I32126N13DC1TSOOOACO0T117.cUt A26a/SQ2A26Nl3Dco01117Ae02Tsoo.0ut A26ga32A26Nl4DOOCSOOOACS1T817.cut A26a/I02126N14DC01T1U7AC02T000.cut.

A26a/SO2A26NlSDCO0TO0OACO01?17.cut A26afl02A26NUSDC001T17AC02TOO.cut A26a/S2A26N16DCO1TOOACO1T1U7.0ut A26aI502A26N16DCC1T197AC02000..cut alIf. 662 alIt.663 oItf.665 alit.666

£16. 667 alIt.669 alIt.$66 alIt.670 aIxf.671 ait.672 allf.673 aISf.674 alif.

675 allf.676 aXIS.676 aSit.670 aSlt.679 Sixt.680 augf.677 an6. 678 alIS.680 allf.6B3 alit. 683 alt.685 alit. 687

&II!.689 ailt.590 alIt.691 alit.692 atIf.693 a*Sf.694 al*f.695 allf.696

.11f.497 aSit.498 allt.699 alit.700 aISf.701

&Xt.702 alit.703 asIt.704 all.705 aSit.707 aXis.707 allf.709 alf.710 allf.711 allt.712 aSlf.713 allf.714 aZIS.715 allf.716 a*lf.717 aflg.718

&lzf.719 aiS.720 Tab 20 1991 rob 20 1997 r.b 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 Feb 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 142542 296372 242874 296072 142874 297042 142874 296076 142374 296710 142957 296710 142957 236627 142957 296544 142957 296461 142957 296461 143123 296125 143123 295291 142044 290819 139733 279415 138814 284257 140737 286747 141S71 287826 141820 289178 141903 289676 142069 290091 142069 290174 142069 290257 142069 290257 142069 2902S7 142069 289925 142069 289261 141936 287577 141737 2852S3 140907 281269 139152 ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII Computez rule Name A29/502AllN0lDC02TO0OAC02T145.CUt A29 /Q2All3OlDC02T145AC03TOOO.Cut A29ISQ2A11X02DC02TOODACO2T14S.cut A29/JJ2A11102DC02T14SAC03TOOO.cat A29/502AIIN0DC02OOOC02TS145.cut A29/SQ2AI3N03DC02Tl4SAC03TOOO0.Ct U29/502Al1N04DC02TOOAC02T143.cut A29/S02AI13040C02Tl4SAC03T0OO.Ct Tape Uaekup Irile Namne allf.721 allf.722 allf.723 aIlf.724

&IZL72S aIlf.726 aIlf.727 altf.7723 rue Date cOutput) rab 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rile Se (Bytes) 292068 139899 296544 142293 293121 143123 298702 143206 rile Type grosat)

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment Thile: Sequoyah Unit 2 CRC Depletion Calcuations Documet Identifier. BOOOOOO-01717-0210-00005 REV 00 Attachment I, Page 12 of 26 A29/902aM 50C0C2?0Ac02T1S4.Cut A29/5Q2A11NGSDCO2rS4Ac03:OOO.Cut A29 /5Q2AlIEU 6DC02TOOO=O2Tl4 5bCut a29 /QM2Al 6DC02Tl4Sac03TOO0.Cut a29/sn2abo7Dc0200cA02:145.cut A2§/lS2AIIN07DCO2Tl4SAcO3TOOO.CUt A29/S02A1OODC02TO000Ac2T14S.Cut A2911Q2AllVO8D0nC24S3SC OO3.cut A29/SQ2AM1NO9DCO2TOooAcO2Tl4S.Cut a29/I02AlN09 DC02T1452c03TO0.Cut A29/SQ2AlllOD ToOO2ACo2Tl45.Cut A29 /SQ2AIJ10XC0214Saco3o00oo.cut a2s SQ2AllNllC02TO0oAC02T14S.cut A29/502A1N11EC0214530ACSTOOO.Cut 129/SQ2a12DcoC02T0o0Ac02T145.cut A29/3Q2a1Jl2DC02I45 AcO TOO0.Cat A29/SQ2AllNl3 =C2TGO00e=2Tl4S.Cut a29/s02a1INIDC02MUS4ACU3TO0O.cut a29/uQ2aUIh14=c02?000AC02THS.cut A2l/$Q2alIN14Dc02sT45=c03T0O*.cut A29/I02AIMOC5DC02TOAC002?1S4.cut A29/S02Al131a5Dc2Tl4SRC03TO0.cut U29/502A11Sl6DC02?0003c02fl4S.cut a29/8Q2AllN16Dc02Tl4SAC30TOOO.cut A2916O2A22NOMDC03TOOOAC03T210.cut A29/S02122 DCO32X000S03T210.=ut a29/s02a22N03DC03TO00AC03T21O.cut U 2s/50222N04DC03TO00AC03T210.Cut U239/Q2M22NOSDC03TO0OAO 3210.cut A29/6Q2a22NO6DC03TO001c03n21.cut A29/302a22N07DC03TO0OAC03T21@.cut a25/502a22NOODcO3ToocUC03T210.cut a2z9102a22N09DcO3sooc0o3T210.Cut A29/802A22311ODC03TOOCAC03210.cut A2SO2M22N11DC03?O00AC03210.cut 38231B212N12DC03TOOOAC03T21O.cut a291S2122Xl3c03TOOOAC03T2l90.cut A29802A22Nl<C03SOOOACO3S210.cut A29/82a22Nl5DC03TO0AC03T2lO.cut 29/5Q2M22N16DC03TOOOACO3T210.cut a29MOM2s9NO1Dco1sOOUCCoT1I7.cut A29O2A29NOloC01T187aC02sOOO.cut A29/102A29N02DCO1TOOAC01T1S7.Cut a25/sQ2A29No20Dc01T87aeo02TO0.cnt a29/S229NO3DColTooo0 ol0Tl7.cut A21S0Q2A29N03DCOITI871C02OOO.cut A2951Q2M29XD4D0ClTODAcOl1L87.cut 129/5O21.29UOMOC1T137AC027OGO.cut a29/802a29MOSOcO10OCOAC02T187.cut A23/Q2W29NVO0cl0In87aCG2T0OO.cut A2/8s21A29NO6Dc=lTOOAC02l217.Cut A29/8Q2a231NOc01?l17ac02O0.=cut a29/102329N07Vc0TOO1ACOll87.cut a298S02A29907Dc1=18CA02COMO.cut a29/502A29NO8DCOIOOACOTI87.cut A29/502A290o8DC0oT187aC02To0o.cut A29ISQ2A29NoSDC0I10O2COlsn7.cut A29/SQ2a2w3o90colnl87AC02TO0.cut A293/02a29Mla0DCOTOOACOITI87.cut A23I5Q2229fn Ml00C017ac02TOOO.cut a29/sOM229N11DCOITCO0M0T1S87.cut A29tiwt2i2aN11calsTI7AC02TO00.cut A29/SQ2129R12DCOlTOOc0lFl7.cut A29/8XQ2A292DCOITl87ACO2TIOO.cut A23/802129N130C0O1100COA1T187.cut 32§/S0212sNUDColTs07AC02To0o.cut

A129/S2129N14DCO

OOOUC0TOS7.Cut A29/02A29Ul4DCOl187aC02TOO.Cut A25/5Q2129N150C0100ORC01T17.cut A29/5Q2M9Nls0COllS7AC02OOO.=ut A29/80202MU16DcT01000AcOIT17.Cut a29I802A29N1DCOTl7g7aC02TOO0.eat aXIf.725 allf.730 aUf.731

&Xlf.732 aIIf.733 attf.734

£11f.733 allf.736 allf.737 altf.738 afI.73s aZ9.740 salsf.741 al*f.742

&lsr.743 aIf.744 allf.74s allf.746 aIZf.747 alIf.748 asls.749

• rIf.7so SI~f.751 allf.7S2 aug.7s3 allf.7S4 aSlf.7S5 a*ls.756 a*it.7S7 a*tf.7SB a*lf.7S9

• flf.760 aSf.761 aSf.762 aXIf.763 aif.764 allf.765 aI*f.766 allf.767 a*ss.768 aIsf.769 allf.770 allf.771 aIsf 472 ass.773 alf.774 sIsr.77s alf.776 allf.777

&ltf.778

-aIst.779 allf.780 allf.701 all.702 assf.7n3 a*sf.7n4 allf.703 alIf.786 a.sf.787 aIf.788 alIf.789 altf.790 allf.791 alt.792 a*sn.793 allf.794 ltlf.795 aug.796 al*s.797 aIIf.798 a*Sf.799 a*ss.o0o reb 20 1937 rob 20 1U97 feb 20 1997 rfb 20 1997 reb 20 1937 fob 20 1997 Jeb 20 1997 Jeb 20 1597 Teb 20 1997 n b 20 1397 reb 20. 1997 reb 20 1397 fob 20 1997 Web 20 1997 reb 20 1397 reb 20 1997 rob 20 1997 reb 20 1397 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1397 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 fob 20 1997 reb 20 1997 Fob 20 1997 reb 20 1997 rob 20 1997 fob 20 1997 rob 20 1997 rfb 20 1997 feb 20 1997 tab 20 1997 feb 20 1997 feb 20 1997 rob 20 1997 feb 20 1997 reb 20 1397 Web 20 1997 Teb 20 1597 feb 20 1997 feb 20 1997 Feb 20 1997 Jeb 20 1197 feb 20 1597 frb 20 1997 reb 20 1997 feb 20 1U97 Feb 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 rob 20 1397 fob 20 1997 rob 20 1997 feb 20 1997 rob 20 1997 rob 20 1397 rob 20 1997 reb 20 1997 reb 20 1397 rfb 20 1997 feb 20 1397 fob 20 1997 reb 20 1997 rob 20 1997 Wrb 20 1397 Fab 20 1397 298370 143219 297955 143289 297719 143209 297703 143289 297872 143219 297072 143372 297872 143372 297872 143372 297789 143372 237231 143372 296627 142357 292151 140065 130861 132106 132S96 132845 132845 132845 132845 132845 13284S 132845 132762 132762 132679 132596 132110 130944 283012 140069 287112 142235 290506 143231 292166 143633 292816 143799 293231 143816 293563 143733 293563 143733 293729 143899 233729 143899 293563 143899 293480 143716 292899 143739 292000 143550 2a9676 142899 284257 140654 ASCII ASCII MSCII ASCII ASCII ASCII MSCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII MSCII ASCII ASCII ASCII MSCII MSCII ASCII MSCII MSCII MSCII MSCII ASCII MSCII MSCII MSCII MSCII MSCII MSCII ASCII MSCII MSCII MSCII Mell MSCII MSCII MSCII ASCII MCll ASCII ASCII ASCII MCll ASCII MSCII SC:II MSCII MSCII MSCII MSCII ASCII MSCII MCII MSCII MSCII ASCII ASCII MSCII MSCII ASCII ASCII MSCII AMCII ASCII ASCII MSCII MSCII.

MSCII

WSaste Package Operations Engineering Calculation Attachment Tide: Sequoyah Unit 2 CRC Deletion Calculons Document Identifier. BODOODODO-01717.0210-0005 REV 00 I

I AIachmgntILPage 13 of 26 Computer file aNie

9&/3O2Al3NOlZC02TOO0A02T145.Cut A29a/90MIX01=02?14SACOST000.Clat A29a/9Q2Al1l1020O700AC02Tl45.cut A2&02AIlN02DcO2T4SACe3oTO.cut A29a/J02A11032C02TOOOAC02Sl4S.cut A29a/S02A11303002T14SO AW03T0O.cut A29&/1O2=lNO4DCO2TO00A T4S.cut A29&/302All304OC02TU45Ac03ST0.cut A29a/SQ2AllNODSOC2TOOOACO2T145.cut A29a/502A113050C02S145AC03T00S.cut A9a/S02A1U806DC02TOOOAC02Tl4S.cut A29a/I02ANlU06Dc02T14ACO3sOO.cut A29aI5Q2AIlU070C02TO00ACO214S.cut A29a/XV2AllO7oC02Z14SAc03TOO?*.cut A29aIsQ2AllOSDCO2T00AC2Tl4S.cut A29a/IS2A]lNOBDCO2Tl4SAcO3TOOO.cut 9at2a802AllO90cO2TOOacO2A4lS.cut A23a/IQ2AllN09DC02l4SACO3TOOO.cut A29a&/Q2al1lODc=2TOOAW2T1S4.cut A29a/902alINODC02TA45C30OSTO.cut JaL29aQ2a&lu1Dc02TOCOAC02Tl4S.cut A293aI02A11N113C02ST45AC03TO00.cut A29a/S02Alu812DC02T000AC02fl.S.cut A29s/5Q2Al82DcM2T145C03?TOO.eut a29aI802aI13C02OOOAC02Tl4S.cut A23aI102AllU3D02Tl45ACO3TO00.cat A2/sOs2allu14cO2M00=0ac0r4s.Cut A293/a02A1lN314D02Tl4SAC03Too0.cut

• 23a/02A11835SDC020OC02Tl4S.cut A29a&/S3o ll3SDC02T145ACO3TOO.cut A29aI602A11916DC02TOOOAC02145.cut A29a/SQ2AM1516DC02Tl4SACO3TO00. cut A23aiO2A29NOlDCOITOOOACOlT267.cCt A23aQ2a29N01DC01T17aCC2CT00U 0.cut A29a/IQ2A29502DC=01OOOACOIT187.cut A29a/SQ2A29N02D~Cl0TI7AC02TOO.cut A29a/592M2Aso3DCO1TGOOMO0ITi7.cut A23a112a290O3DCOT1867AC022OO.cut A29a&/821.29304DColo01OCO017.cut A29aI02a2gIZ04DC01T187AC02TOO0.cut A29a10Q2A29I05DC01!OOOC01T167.cut A29&a12A29RO5DCO1Tls7AC02IO0. cut a29IS02A2nsO6DCo0so0CO 1T167.cut A29a&/Q2A23N06DCO11567AC02OOO..cut 129&a/s0 299o7DcOTOaCOACOlT17.cut

.293a/1Q2A23907DC01T87AC02TOOO.cut a2s-/n 21sN01DC01TOO0ACO0T1e7.Cut A2$a/SO2a23NO8DCOITl67AC02TOGO.cut A29a/SQ2a23NO9DCOITOOOACwOCIT7.cut a29a102a230N3Dcol1le7aCO2rTOOO.cut A23AISO2a23N1CO1TOOOACo Tl67.cut A29a/s12A2910Dco01su7Ao2Tooo.cut A293aIQ2a29N11DC01TO0AcO1TI67.cut a29a/SQ2a29sN1DCOlIlI7AC02TOOO.cut aL29a/SQ2*23Nl20C0oOOAcoT17.cut A293a/Q2A2M912DCOlT17ac02?G000.cut a2 0SQ2A23N13DODlOO0ACC1T187.cut A29a/82*29N13DCOI1?17AC02TO0O.cut A23a/02a2MOlROlTOODac OllT7.cut A29a/802A29N14 WD40C17Ac2OMOO.cut A29SaMO2M2ON150CoITOOoAcClsTI.cut A29a&8Q2A29NlSVC0lTl87Ac02TO0p.cut A29atSQ2A29N16DCO1TOOCACelT107.cut A299a/02A29Ni6DCOIT117AC02TOOO.cut A2$a&fO2a3lN0l=C03TO00Ac03T2l0.cut A299M8Q2A31N02DC03TOODAC03S210.cut A29afSQ2a3lN03C03T0o0aC03T1l0.cut Tape Backup rie Nam aIsf.801 922f.802

&22f.603

&I2t.804 alif.805 SIft.806

--2f.N07 alSf.608 afg.s09 aS2f.310 alit.311 aSif.812 allf.113 a2tU.314 aItf.15 aIU.816 a*Sf.117 aI1f.s1U af2f.119 aISf.120

&1f 6121 a129.122 a*Sf.823

• S2f.824 aIMt.825 aZIU.826 a*Sf.827 aIf.128 aIuf.129 alf.830 aISf.831 atlf.832 anf. 833 aS2f.634 af. 833 aSlf. 836 anf.

837 assr.e3a a111.839 alSf.40 a22f.841 alC.

642 alzr. 43 aSIf.644 alfI.84S aSlf.846 aflf.847 alf

.841 aiSf.413 aISf.830 aXIf.852 aItf.1S2 aIf.8S3 altf.6S4 a11f.835 atIf.656 allf;1S7 asisfss allf *13 allf.160 allt.161 alfl.162 alf.063 alg.664 alltf665 alf.866 alf. 667 file Date IOutput) reb 20 1997 rob 20 1997

.rob 20 1997 feb 20 1997 rob 20 1997 rob 20 1997

-foab 20 1997 rob 20 1997 rob 20 1397 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1337 rob 20 1397 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob zo 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 fob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1397 r b 20 1397 rob 20 1997 fob 20 1997 reb 20 1997 reb 20 1397 fob 20 1997 feb 20 1997 fob 20 1397 rob 20 1397 rob 20 1397 reb 20 1997 fOb 20 1197 fob 20 1997 rob 20 1997 rob 20 1997 rob 20 1197 Fob 20 1397 rob 20 1397 rob 20 1997 rob 20 1397 fob 20 1997 rob 20 1197 Feb 20 1397 fob 20 1997 fob 20 1997 fob 20 1397 reb 20 1997 fob 20 1997 feb 20 1397 fob 20 1397 rob 20 1997 rob 20 1997 file size foutes) 232068 139899 296544 142233 298121 143123 298702 143206 298370 143289 297955 143269 297799 143263 297789 143289 297172 143372 297E72 143372 297672 143372 2s7172 143372 29763 143372 297291 143372 236627 142937 232151 140065 233012 140069 287162 14223S 290506 143231 232166 143633 232861 143799 293231 143816 293563 143733 293563 143733 293729 143099 293729 143033 293563 143899 293480 143716 232899 143799 292000 143550 289676 142839 234257 1406S4 126952 t30446 131114 file Type (format)

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII AsCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations.

Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Dejletlbn Calculons Document Identifier. BOOOOQOOOO01717.021040005 REV 00 Attacbment U, Page 14 of 26 A2U /5AQ3W1NO4DC03TOGACQ3=1ml.cut Ift.168 feb 20 1997 131441 ascII 822a/30A13502MUMM 003DCOMIG.eit aXlUfS19 fob 20 1197 131529 MSCII A2U9a/s8W S13063C02?OOOAC03?21G.cut

&aIf.870 feb 20 1997 131529 asCzz U22&/8Q2Wla 07=DC3Ts00AcG3T2?1.cut Mf.-871 Feb 20 1997 131529 ASCII as29a/02A35l0D0023?000AC03T21O.cut

&Mf.872 feb 20 1997 131529 asCII A29a/SQ2A31W090C023TOAC03T210.cot aSlf.173 rob 20 1997 131529 ASCII U21a/SO M31ODW0C0O2ACO0m21O.cut ellr.374 rob 20 1197 131529 ASCII A29a/3Q2As31U1CCO32:000CAC3T21O.ct aIlf.87S rob 20 1197 131446 ASCII U2ft/12s31912DW03TC0 00103?210.cut all.176 rlb 20 1197 131446 ASCII a291a/Sz3021 3D10C03000AC03T21o.cut alft.677 rob 20 1997 131446 asCII AU29a/sQ231N14DC03TO001C03T210.cut allf.17S rob 20 1397 312137 ASCII

.29a&/621231u5DC03T00o003T216.cut a-If.37 f tb

-20 1397 120523 U CII A29a/tQ2A3W11C6DC03OOOC=3T210.cut a*Sf.-80 feb 20 1997 129035 ASCII computer Tape Backup rile Date rilt size 51L1 Type rfe uame file Nam o utput)

(lytes)

(rormat3 A20/50=a09R01=DC03OOOAC0321O.cut rILUsl leb 20 1397 130523 Mascs a30/I 2ao912DC03?o000Ac023

.cut SIf.682 fob 20 1997 132177 ASCII a30/I02AD9No3DC03To00ACo3s210.cut a*X9.L83 reb 20 1397 13284S ASCII a30/9Q2Ma9N04DC03TO00ACO0T21d.cut a*Sf.684 feb 20 1997 133177 ASCII a3o0sQ2a09N05DCoToooaC03T210.cut aeXf.68s reb 20 1997 133177 ACIS A30/2a09906Dc023TOoAC02T21G.cut alsf.e86 fob 20 1997 133177 asCII U30UOt2Ao9No7DCTO3OooACom 21O.cut

• S1f.E87 feb 20 1997 132177 ASCII U

301102£O$OSDCO3TOOOACO3T210.cut a*st.ess fob 20 1997 133177 AsCII A30/0 2AD9303DC03TOCOACOU321O.cut ZdI.e86 3lb 20 1937 133177 asCII a30n Q210311ODC03TOCOACOUCZ0 O.cut

• ssf.89o Feb 20 1917 133177 ASCII A30n 02109111Dc03TOAC03T?21C.cut

• llf.091 Web 20 1997 1330934 asCI A30n9O2AW9N12DC03TOO0ACoMI2G.cut al*f.892 rob 20 1997 132928 ASCII ASo0/Q210913DC03TSO01CO03210.cut aSt.S93 rFb 20 1197 132928 asCII AUO/902A0334DC03TOCOACO03U1.cut alzt.094 reb 20 1997 132774 ASCII ASO/so2A9Dn35Dco=TOooACo3T21G.cut aIsf.29S lab 20 1997 132259 ASCII A3O/sQ2A09N16DC03?O0AC03T2]LG.eut

• SXf.896 reb 20 1997 131027 ASCII U 3090zA27NOW0co2ToooAco02?14.cut eXXt.197 Feb 20 1997 299842 ASCII A30/602A27WOU1C02T145AC03TOOO.cut aI1t.598 rob 20 1997 15S4112 ASCII A30/302127a02c20o0oACo 02m 45.cut eIzt.999 leb 20 1197 305148 ASCII A30/8Q2A271020C02T145AC032000.cut aItf.900 rob 20 1197 156606 ASCII A3018Q2L27N03DC02TOO0AC02T145.cut allf.901 rob 20 1997 201706 ASCII A30/802A27103DC02Tl45AC03T000.ct aIIf.L02 reb 20 1997

• 1S7087 ASCII A30/8Q2A27V040DC2OOOAC02T145.cut 0t*Sf.903 reb 20 1997 302863 ASCII A30/U02A2710D4C02T145AC03TOOO.cut aIsf.904 Feb 20 1997 153384 asCII A30n8C2M79050C02TOOOAC02TI5.cut aISf.305 lob 20 1997 302117 ASCII A30/602A271050COIU145AC030O00.cut aItf.306 fib 20 19197 153384 ASCII A30/89MA2706DC02TOOAC02?TH5.cut

&119.907 leb 20 1997 303200 ASCII A303021,27906DC02T145AC03T000.cut 11t6.908 fob 20 1997 152384 ASCII U3O/302A27K07VC021OOAC02Tl4S.cut

&IMf.909 fob 20 1397 303034 ASCII A3O/802127VO7wO2T14SAC03TOOO.cut atzt.910 Feb 20 1197 152334 ASCII A301Q21.27v38DC02TOOOAC02T145.cut allf.911 fob 20 1997 303034 ASCII A30/802W279083002T1SMAC03OOO.CUt

&I1f.912 Feb 20 1997 153384 ASCII A30/So2I27909DC02TOODAC02U435.cut allf.913 leb 20 1997 303117 ASCII A30/S02A2709XDC02T145AC03TOOO.cgt 9llf.914 reb 20 1997 153467 ASCII A30/2127110 WOC02TOOAC02145.cut aSIf..915 feb 20 1997 303034 ASCII A30/S02127v1D02T145AC03TOOO.cut aldf.916 feb 20 1997 153550 ASCII A30/s2127R11VC02TOOOAC02T145.cut alIf.917 reb 20 1997 303117 ASCII A30/8=2l27U11VC02T14SAc03TOOO.cut altf.916 Feb 20 1197 153633 ASCII A30/302127W12DC02TOOAC02T145.Cut a* lif.919 leb 20 1997 303117 ASCII a130h 2273120C02145AC03TOOO.cut alsfr320 fob 20 1997 153633 ASCII A30/8Q2A27h13Dco2MOo0AC02:14S.cut aIf.3921 feb 20 1997 3027S aSCII A3O/802A27N13DC02T1454 CO?000.cut

.116.322 leb 20 1997 152633 ASCII A30/680227N4DUC02TOODAC02h145.cut aSlf.J23 fob 20 1997 301872 asCII A30/8021C27O14Dc02T14S=023TOO.cut 9I1f.924 rob 20 1997 153467 ASCII A3O/1S2A27h1SDC02TOOOAC0214S5.cut allf.925 leb 20 1997 300461 asCII a30/3QQ227515DC02TS45Ac03TOOO.cut allf.926 rob 20 1997 152716 asCII A30/502A27N16DC02TOO0AC02Zs14.cut alSf.927 fob 20 1197 296407 ascrI M n 0/02127116DC02T14SAC03U OO.cut aIst.328 fob 20 1397 143575 ASCII a30/sOMa30N01=c011000MAcO1787.cut aStf.929 feb 20 1997 284001 ASCII

-aS3002A3ONODCO0TI87AeO02sOOO.cut al*.330 tab 20 1397 140571 ASCII A3102Ah 0oNO2WCo0soo0Ac0T1787.cut allf.331 fob 20 1997 289344 ASCII A3*/SO2aSONO2Dcoji1j7AC02ToaO.cut al.t 332 feb 20 1997 142899 ASCII A30/0SMONOU3DCOITOOOAcC1TI87.cut aIrf.333 feb 20 1397 29224 ASCII A30/SO230303DCO1T17AC02SOOO.cut

&Irg.934 reb 20 1997 143719 ASCII

Waste Package Operations Engineering Calculation Attachment idle: Sequoyah Unit 2 CRC Dcieddn Calclations Docmnent Identifier. BOOOOOOOO-01717-0210-N005 REV 00 i..

Atlalmnt M Pae 15 of 26 AZ30ISO2ISONO4DCOl?0001CC01T17.eut AL30/IO2A3OR04DCO1?187AC02TO00.Cat A30/802130105C0100TCOO01?17.Cut A30/UQ2A3NO5SDCOT18Z7AC02T000.Cut A30/302AONO6MCOT000ACCO1417.Cut A30/30 M ON09 C011;57ACOM?00.Cat A30/QMs3N07MI0T000aC0I1217.Cut AL30/1O02330070C011187ALC02T000.Clat A30I80am30N08DC01T000AC01T187.Cut 330/3Q2A30080C01!1871LC02T000.cit A30f80213N090C01T000ACC01117.Cat A30IS02A3N09DC0I18Z7AC02TOOO Cut' 131030/

01100OCO1T000Ac01$17.CUt A30SIS2ION10D0O1TIS7AC02TOOO.Cut A30130213N110CT001?OACOT1nl7.Cut A3OISo2AL30N11Dc1T1S7JACO2TOOO.Cut A3O/802AL3tN12Dc01b000AC01T187.Cut AL30/302A3N12DC01TI87ALC032T00.Cut A30/300MUM130 TO100A1C0T187.cut a30/802A3013DC0I187AC02TOD0.Cut A30/uo2A3iMUlDCOl!0001C0I127.cut A30/821301I00IT187AC02?000.Cat' A30SO2A3OUZSOCCTODOACOI18~7.Cat AS0/IO2A3QNISDCQ1'r17AC02:aOO.Cut A30/S02A3ON6D01OACO1T1UJC~n7.CUt AL30/S021ON16DC01TI87JAC02TCOO.Cut 911f.335 a11f.936 a1lf.337 aI0.91.38 aX1f4.339.

&II4&340

.114.st1 al~f.342 allf.343 ai1f.944

&I94.34 aIrf.349 a11f.947 a114.348 aI1f40343 61If.350 allf.351 al1f.352 a114.933

.11f.354 ai1f.955 a1If40356 altf.157

&11f.358

.114.359

.11f.360 rob 20 1397 reb 20 1997 rob 20 1997 fib 20 1997 reb 20 1397 fob 20 1997 reb 10 1397 rob 01397 fob 20 1397 reb 20 1397 reb 20 1997 rob 20-1397 feb 20 1397 rob 20 1397 reb 20 1397 rob 20 1997 reb 20 1997 rob 20 1397 reb 20 1397 reb 20 1397 reb 20 1397 rob 20 1397 reb 20 1397 reb 20 1997 feb 20 1397 reb'20 1397 233397 143882 294393 144380 294808 144463 295140 144463 295223 144463 235389 144463 235389 144463 295306 144546 295223 144546 234553 144629 293480 144131 291419 143633 285253 141405 ASCII ASCII ASCII MSCII MSCII ASCII MSCII ASCII ASCII uSC??

M ACII MSCII ASCII ASCII M

ACII MSCII MSCII ASCII ASCII ASCII ASCII MSCII ASCII MSCII MCII MsCII ccv~uter

&SA3/S02I20N01103T00ACOS?21C.Cut A

M1/802a2N02=~3TG00ac3T2lO.mut Ail/602u2003Dr.03O000AC03T2lO.Cut AS1/902A20N04 = 3O3!0ACO 3T21C.eut A31I6a2A2OV05=~3T?00AC03Tr2lO.eut 131/602A2006=3DC030AC03T2lO.Cut A3l/$02A20V07=C3TO001C3T2l0. Cut A13l/92A20KQ8DC03?0001C03T2lO.Cut AS1MMQh2009DC03TO00AC03T21O.cut A311S62A0N ODC03O301COACU21O. cut A31I=O2l20N1DC03T?000AC03TZ10.Cut A31/1Q520MN12C03TOCOACO3U1O.Cut A31/602A20N13DC032T00AC03T210.cut AL311SQ2A22N140C03T000AC03Tr210.CUt A32/86O23h0N5vC03T?00013?210.cut A31/x02A20vl6=C3T7000c3T21O. cut A311S02A3M0l10C02TO00AC02T145. cut 131/60223V0IDC02T14S1C03?000.Cut A31l30213VO2DC02TOOOAC02Tl4S.cut A31/5Q2123902DC02T145AhC03T000. cut

£32/802a3N03Vc02Tz000uc2T45.cut

• A31/60MU2N0DC022'145AC03T000.cut A31/8OWSH3040002TO00AC02T145.Cut A3l/8QOW3N04=c2TI45AC03TO00.Cut Ml/S02I3H05D=020ODAC02T145.CUt A3l/802A2305=~2T145AC03T*00.CUt AW1SO2I3N06D0C000AC02T145.Cut A31S021M 3N06C02145AC03TO00.CUt A3I/802A23N07DC02T000AC02?4S.cut A3l/SQWA3NO7=~2Tl45AC03TOO0.CUt A31/S02A3N08=~2T000AC02T145.Cut

• A31/S02A3N08Dc02T145AC03T000-.CUt A31/602A23109DC02T001ACO 2:4S.cut A31/802A3wG90C02T145Ac03T000.Cut 8JI1/S2A2h1DC0OM0AC02T14S.Cut 1,31/I0223N2QCD02T145Ac03T*D0.CUt AWSOM2A3911VC02TOCOAC02T145.Cut a3l/SoQW3NllncnzscQ0lv3TOOD.CUt A31/s0213312DO032TO01co2T15.Cut A31/U20M23N12DC02T145AC03TO00.Cut A31/60MA3913DC021000AC02T14S.Cut Tape Backup ni1. wame

.I14.961 allf.362 aX.91.63 allf. 364

.11f.965 eI1f.366 allf.367 allf.9689 allf. 369 allf.370 allt 371 a1I4.372

&IX9.973 allt. 374 allf.9 75 aXIt.376

.llf.377 a114.97S 0129.979 4119.9S0 a229.391 a114.382 a114.983 aIt 3384

&229.985

&IM9.86 aII4.987

.114f.989 a114.393 a11f.390 allf.391 allf.392 allf.993 allf.994 al1f.935 allf.996 altf.397 a~lE. 398

&IT9.099

&XIC1.000 01191.001 rue Date (output) feb 20 1397 rob 20 1397 rob 20 1397 reb 20 1997 reb 20 1397 reb 20 1397 feb 20 1397 reb 20 1397 rib 20 1997 reb 20 1397 feb 20 1997 fib 20 1397 lob 20 1397 feb 20 1997 fob 20 1997 rtb 20 1997 feb 20 1997 rib 20 1997 reb 20 1397 reb 20 1397 rnb 20 1397 rob 20 1997 rob 20 1397 reb 20 1397 reb 20 1997 rob 20 1397 rob 20 1997 fob 20 1997 Feb 20 17 frb 20 1997 fob 20 1397 rob 20 1997 reb 20 13§7 rob 20 1397 reb 20 1937 reb 20 1997 feb 20 1937 reb 20 1397 reb 20 1997 feb 20 1397 rob 20 1397 rile Size (Bytes) 130197 131608 132177 132596 132673 132673 132762 132762 132762 132762 132762 132762 132596 132513 132023 130363 290238 133397 204945 141676 296540 142376 296719 142957 296955 143123 236789 143123 296706 143123 296706 143123 296623 143123 2936540 143123 296540 143206 296540 143206 296540 tlle type Ilozuat)

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ascar ASCII ASCII ASCII 5CIS ASCII asCII asCII asCII ASCII ASCII ASCII ASCII MACII asCII asCII ASCII ASCII ASCII asCII ASCII asCII asCII ASCII asCII ASCII ASCII ASCII ASCII ASCII ASCII asCII ASCII

Waste Package Operations Engineering Calculation Attachment Tite: Sequoyah Unit 2 CRC DeileU6n Calculations Document Identifier BOOOOOOD-01717-0210-00005 REV 00 Atachment IL Page 16 of 26 A31/50MI33u140C02200AC02!145.Cut A31/3Q223N14C02TU5AC03T000.Cut A32I3021MUM5C022000Ac02T14S.Cut A31/60213N26DC02TOOOAC02T145.cut A32/502A23N16C02fl4SACO3T00O.Cat A31/2Q2A31O1VCO%2OOG=C1T1*7.Cut 531/50MA31010C011117AC0OOO.cut A31/Z02A31N02DCO1T000aC1?197.,cut A31/802131020C0T1872C02T000.cutt AM1S02019030COZTOGOACC1T1S7.cut A31/5Q2A3l303DCO1TI87A2TO20.Cut AW1S0afOMMOCC1TOOOAc01T187CUt a31/802A313040CO0187Ae02T000.cut A3lI01MOMIN5OCIl!O0O1ACT187.cut aL31/802A31N050c01TI07AC02TOOO.Cut A31/tOWA1906DC01TO00CAu1T187.Cut

£31/S02A311060C01?187&C02T000.Cut 5310A31/6 07INDC01000CACM67sCut A32/SO2A31YO7DCO2X1UACM00OO.Cut A31/8QM1N08DCO1T000C=1T1S7.Cut A31/802V1O8DCO1T187AC32TOOQ.Cut 531I182A313RODC01!TODUCCIT187cut A31/329MIN09DCO0187AC02T000.Cut A31/802ASMO10C01!000ACC1T187.Cut AW132SOMMODC0I187Ae02T000.Cut A31/6Q21MM1cC01000AC0I167.cut 5L31/802~a3111C0L187AC02TO00.Cuit A31/502A31N12DC01?OOD =

lTlS7.cut AM1SQ2A3N12CO1817ACOMT00.Cut A31/802A3513C01T0003.C01T187.cut

(

A31S/Q2A3=33DCO1T287AC02TGO0.Cut A31/80MMUD14C01T0001.C01T187,cut AL31/302131a40~C01!l87ACO2TOOO.cut A31/801110MM C01?00C01MT187.cut MU31/ SD2331C01?1U7AC021000.Cut A31/SOAM=16DCO1TOOO=C1T19?.Cut AWSOWM311(CDCOT187AC2OMO0.cut allfl.002 a~ifl.003 aIlfl.004 a219l.005 aIzZ1.006 alIIL1.007 aflfl.008 axifl.009 azin1.010 alif1.611 a&f.0412 a.Ufl.014 4.1n1.615 011(1.616 a11ft.017 011f1.018 a:Ifl.619 alifl.020 a11f1.021 allfl.622 011f1.023 alfll.424 alfll.025 611f1.026 011M.027 aiIfl.028 aII(1.029 all1

.030 arf 1. 031 al111.03 al1fl.033 a1if1.034 a11ft.035 a11f1.03d allfl.037 a11f1.038

-011f1.039'

.11f1.040 feb 20 1397 rob 20 1997 rfb 20 1997 rob 20 1997 fob 20 1397 reb 20 1397 rob 20 1397 fob 20 1397 feb 20 1397 fob 20 1397 rob 20 1397 fob,20-1997 feb 20 1997 fob 20 1997 rob 20 1997 rob 20 1997 Tfb 20 1997 feb 20 1997 fob 20 1997 rob 20 1397 fob 20 1997 Trb 20 1397 feb 20 1397 fob 20 1397 fob 20 1997 rob 20 1397 rob 20 1397 rob 20 1397 rob 20 1397 rob 20 1397 rob 20 1397 rob 20 1397 rob 20 1397 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1397 rob 20 1397 rob 20 1397 143206 296374 142874 295291 142293 290570 139723 213281 140856 287957 142694 23b364 143694 291443 144109 292356 144132 293625 144275 293874 144275 29400 14427S 294040 14427S 234040 244275 294040 144275 29362S 144275 292961 144192 291134 144109 289119 143273 280771 138986 ASCrI ascr:

ASCII ASCI MSCII MSCII MSCII ASCII asc::

ASCII ASC:I ASCII ASCII ASCII ASCII asCII ASCII ASCII asCII ascrr ASCII asCII ASCII ascrr ASCII ascrr ascrr ASCII ASCII MSCII MSCII MSCII ASCII MSCII ASCII MSCII MSCII MSCII MSCII ASCII ascrr cooputer rile Same 514/XO2A1N131C03TO007t31'210.cut 314 /8021110DC030001ACO3Z10.cut B14/102A111030C03T0001c3T210.eut 314 /802A11040C03T000AC03T210.cut B14/X02A11IN0SDC03T000AC03T21O.cut 514MOSMAIN06D03TO00C0AC 210.cut 314/S02A321070COST000=C372 10 *cut 514lS0MA11108COSTOM0MU3210.cut B14/8QMU109DCG3T000AC3T210.cut 314/S2021NIODCO3TOOOAC IO3?.cut 514/S02AU113D0CST01C03?21.cut B14/Sg2AI1V120CO3TOO0ac3T210.cut

&14/S02A11N130CO3TO00A=3T21O.cut B141a2Mlul14Oc3'TOOOAC03T21O.cut 314/502151915Dc032000AC03?210.cut R14/&Q2A11N16=c3Z0001C03?21O.cut 5141I02A14N01 CM 2T0001ic0T145.tut 314/902A1401=2T145A03700O.cut 314/8Q2A14N02DC0200AJC021145.cut all/90MO41020C02T145AC03T000.Cut 114/S02A14N03DC02b00OA0ac2r145.cut

• 14/so2Au4NO3DC032I45AeonoooD.ct NUIX/1OM1M04C02T000AC02?145.Cut 2*.

14/802AJ4N040C032T45AC03T000.Czzt 514/SQ2A14N0S0D021000AC02Tl4S.cutt 214/S025I4U05DC02T145AC03T000.cut B14/SQ2A14306=~2TO00AC02u45.CUt 21/01440 N060c02I14AC03TOOO.cut Tape Backup fil~e Nam~e

&1191.041-

&ZIC1.042 a.1191.043

.11(1.044

.1111.045

• .II(1.046 eI1(1.047 u.II9l.048 a.ifi1.049

£11911.050 uIle1.051 a11f1.052 a1111.053 allfl.054 aI~f1.OSS alifl.056 a~lM.057 al~fl.058 a11(1.059 01111.060 AXIII061

&IM1.062 a11fl.063 allft.064 aIIfl.06S allfl.066 allfl.067 allf1.068 rule Date

.(Output) fob 20 1397 fob 20 1997 rob 20 1197 reb 20 1397 fob 20 1997 reb 20 1997 fob 20 1997 Job 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 Trb 20 1197 reb 20 1997 fob 20 1997 feb 20 1997 fob 20 1997 fob 20 1997 Teb 20 1997 feb 20 1997 fob 20 1997 Tfb 20 1997 Seb 20 1997 rob 20 1997 reb 20 1997 Trb 20 1997 reb 20 1997 Trb 20 1997 file size (Dytos) 129778 131181 152177 132177 132177 132260 132260 132260 132260 132260 132177 132177 132177 132094 131347 129948 288360 140101 291666 141997 292745 142493 293077 142661 233160 142661 232994 142661 file Type (rozuat)

MSCII ASCII MSCII MSCII ASCII MSCII ASCII ASCII MSCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII ASCII MSCII ASCII MSCII MSCII MSCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment k

Tide: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOO.D01117-0210-00005 REV 00 Attachment I, Page 17 of 26 i

3141502A14N07D02TOMCa02TIO.Cut 514/102A14907DC02T145AC03?000.Cu1t B14/302A14R01DC02T0O0JiAOh145.cut 314/8O2A4NO90C02T14SAC03TC00.Citt B14IS02A4N09DC02T000AC02Tl45.eut.

B1/SOMA49010c2I14SAC03T000.Cut.

Bl4/302A14X2OVCO2TOOO=2T2f453.cut Dl4/SQ2I14R1O = 2IT4SAC03O3?0.Cat 9l4/9Q2A4N21=2TO200C02T145.Cut 214/SO2Al4N1lDc0IT14SAC03TO00.Cu~t 314I3O2A14N12 = 2T0003C02T14S.Cut Z14/s02A4N12DC02Tl45AC03TO00.C~tt 314MOMMU413CO2M000C02T4S.CUt 314/s0214N13DC02T145AC03T000.Cu~t 2141302A4914DCOMOGAC02?145.Cut zjU/5O2A14N14DC02Tl45AC03TG00.Cuit 21413Q2A49150COM100AC02TU4S.Cut B14/8Q2A14NI5DC02T1451C03T000.Cut 314 15Q2114N16D020007.C02T145.Cut 314/g02A14N16DC02TI45ALC03T000.out

&II(1.G69

&IIf1.070 aII(1.071 oXIIE.072

&21(1.073 9l1ft.074 a11(1.075 allf1. 676 aIIft.077 a11f1.078 a11ft.073 011f1.030 azzi1.031 421fl1.082 a11f1.083 e.iI(1.084 0.11(1.08

&21f(.686 a11(1.087 011(1.c83 rob 20 1907 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1197 rob 20 1997 rob 20 1397 rob 20 1397 rob 20 1997 rob-20 1397 rob 20 1397 rob 20 1197 rob 20 1997 rob 20 1997 rob 20 1197 rob 20 1197 rob 20 1997 Tob 20 1997 292994 142661 292194 142744 293077 142744 293077 142744 293077 142744 293077 142744 233140 142744 292825 142744 291993 142329 285344 131301 ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII computer rile Iffmo 515/8Q2A15101lDC027000AC02TU4S.cut 531/502A1SNO1CC02T145AiC03T000.Cut 31S/S0AI1l0DC02T00=1~2T14S icut 31S/S02ASN02VC02T145=S0TO00.CUt U1S/502a1SV03DC02T000AC02T14S.Cut 215/SQ2A11030C02T14RCM03000.Cgt 9l15=625NO4VC02T000Ae02Tl4S.Cut R15/8Q2A11514DC02T145M3c03?0.Cut 315/8a2A15NOSv02TO00AC02n145.Cut 215/802A15NO5DC02U45ACOSTOOO.Cuit 315/602A15N06DC02?000AC021145.Cnt MIS/502E.15N06C02?145Ac0TO00.Cut 325/102AI5107C02TOOAC02T14S.'Cut 225MOM2UNO71=02?145ACOST00.cut 352VIGUI5NOODCOMT00AC02714S.Cut 315/602AISNOODC02T14SAC03TOOO.Cat 315/tO2A159OIDCUTOUC002THS5.Cut 315/50211509DC02TH3AC03TO00.Cut 315/30211SNa0DC02T000AC02T145.Cut 151/802M SFI00C02145AC03T000.Cut Bl5/SQ2A1SN1IVC02TO00OAC02T14S.Cut B15/&=MASN11=~2T1453LC03:000.cut 515/502A1SN12=~2TO00AC02214S.Cut 315/802A15V12=02TU4S=c3T00.CUt, B15/80 M 5153D~OT0IC02TOAU14S.Cut D15MQ2A15N13DCQ2T14SAC03?000.Cut 315/3g2AI5N1DC02TOCOAC02f14S.Cut 915IS021Al5N14=~2T145AC03T000.Cut, Z1IQ~1S N150c0S2?000AC02?14S.cut

.s1/5/g§2A1Su1=2TU4MAC03b00.Cut B15/5Q2A15N16DC02T000Ac02214S.Cut l15/g02A151160DC02Tl45AC03b000.Cut 215/Sg W 3w01v= 3TOCOAC03231O.Cat 215/5QWa3N02=~3TO00A03cT210.CUt 215/10A2303DCOSTh00AC03`21O.Cut 31S/602A23104DC03TO00AC03T2310.cut 515/30223X0C03T000AC03210.cut 91S/bo2123x06DC03TOooaCoUTl

.Cut

• 13/SQ2I3X07VC03T000JICO03110Cjt S1IS02A23U0DC03TO000ACUT210.Cut B15/&Q2A23N09=~3T000AC03T210. Cut 31S/SQ2A23N1O=~3T?00A0C3T210.cut 315/1Q2A23N1I=C03TO00AC03T21G.Cut 21513Q2A2312DC03Th00AC03T21O.Cut 215/IQ2A3N13C03TO000ACOS210.Cut 315/10213140COSTh00AC03T21O.Cnt RISMOMSM31115C03TO000ACOT21aa.cut Tape Backup rile Name 01(fl.089 011f1.090 41(fl.091

&1(fl.092

• 2(fl.093

• 1Sfl.094 MUMf1.

S0 ssn(1.o96

• 21n(.097 S1(fl.O98 4121s.099

• z1fl.100 012f1.101

• a1fl.102 allfl.103 all. 104 sIM1.105 a11(1.106

&XI(1.107

• sfn.108

&11(1.1O9 011(1.110 012(1.111 aX1(1.112 a*If(.113 al1fl.114 S1(fl.115 alSfl.116 al(fl.117 0Ifl.lls a11(1.11l a2Sf1.120 MM=1.121 021(1.122 alf1.123

• 21(.124 alIl.12s al(fl.126 aIIf2.127 aIIf1.128 allfl.129 a11f2.130 a.Sfl.131

.11(1.132 a11f1.133 aSfl.134 aZI1135 3le Date (Output) fob 20 13,97 rob 20 1397 rob 20 1997 rob 20 1997 fob 20 1397 rob 20 1197 rob 20 1917 fob 20 1317 fob 20 1197 fob 20 1197 rob 20 1137 rob 20 1397 fob 20 1997 fob 20 1137 feb 20 1397 rob 20 1997 rob 20 1197 rob 20 1997 fob 20 1997 rfb 20 1997 Tob 20 1997 Tfb 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 fob 20 1997

• ob 20 1197 reb 20 1197 reb 20 1197 rob 20 1997 reb 20 1197 Feb 20 1197 reb 20 1197 feb 20 1997 fob 20 1397 reb 20 1197 fob 20 1197 fob 20 1397 reb 20 1397 fob 20 1397 fob 20 1397 rob 20 1397 fob 20 1337 fob 20 1397 rfb 20 1997 rob 20 1S97 Jile 8Sie (Bytes, 281502 136903 285842 138401 286824 131799 287073 138365 287231 139365 287239 138965 287239 138965 287239 138965 287322 138365 237438 139380 297438 139463 297S71 139546 287438 139623 236990 139463 296091 1383350 282000 137405 123961 130098 130849 131264 131264 131264 131264 131264 131264 131264 131264 131264 131093 131098 130683 file Type (roat)

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC DepedOn Calclatons Do amen Idenfifier. BOOOODOOO-0177.0210-00005 REV 00 Attachmeit I, Page 1 of 26 i.

Al5S/S2A2n31U6C03T000AC032l0.Cut aeifl.136 rob 20 1997 120851 ASCII computer rile Name 319/S02a19901142TOM~C02714S.cUt S13/302IS1010C02T145=c3TOO0.Cut x13/S02Al9R020C02T000c2T145.cut, 51MOMSK09N2DC02T145ACO3T00.Cut Xl3/S02A19V03DCG2T1000r2T145.eut, M1/S02213R0DC02T14SAC03TOO0.Cut 3l3/S02AISN04DC02T000A=02T14S.Cut 3l/3219/S N04C02?l45ACTOO0.eut sl3/sQ2A13N050DO2T000AC02Tl4S.cut 13S02A1INSC02TcO2SAC03T000.Cut, 5131S M QA1306Dc02T0OCAC02T14S.CUt S19/3Q2a1I105DC02T145Mc3T000.Cut M1/3Q2A9N07DC02T00AC02T14S.Cut, p19/802AL9N07oc02Tl45.1e03T000.cut 313I302MON03DC02T0003C02T145.Cut 3/SQIalIz108oC02:145Ac03?0.cut 3lg/SQ2Al9N09DC02T?00A02co245.CUt 313/SO M 3N09DC02T145 = 3T000.Cut 313/$02Al3N100C02T?0G0O2Tl4S.et, 539/6QUAIDNODCO22T45AC031000.eut 8l9/5g2A13N1lDC02?000G=2M45.Cut 313/502A19NU1CCOT145 ADD T000.eut 3113/32A131120C02T000ac02324S.Cut 113/802A19lI12C02Tl45AC03T000.Cut

$29/802AXON120C02TOODAC021145.cut.

13/302A19113DC02T14SAC03TO00.eut 213/8Q2A1N14DCO200AC02714S.CUt

• 313/302A19N14Dq02T145AZ037000.Cut 513/1Q2A19NSDC02?000AC02TH5.Ciat Sl13/52l9N1S0DC02T145AC03TOO0.cut 319/ 02&193k16=C2TO000A02Tl45.Cut 313/802113N15C =27145 = 3?000.Cat 513/UQ2A4N01.DC03T000C=3T2lO.cut 213/3g2A2402DO03TO000Ae3T221.cut 319/52A24N03DC03T000ac03T21O.cat Sl9/SQ2A24N04VCO3TO0OC=3T21O.cut 219/3Q2A24205DO03TOOO = 3T21O.Cat m19/5Q2aL24N060C03T000AC03T22O.Cut 513/802A24N070C03T000AC03T210.cut 519/50 M 40308C03T000CA03T210.Cut Sl9/SQ M 4NO09DcO3000ACOST21O.cut 5l9IIQ2A4X100C03T000AC03TZlO.Cut 5191 SQ = 2411DC03?O00AC0?210ocut 511S =S0A2412 = 3T0O~CO03T21O.Cat DII,502A4Vl30)CO3T00AC03121.cut B19/502A4V14DC03T000Ac3T22O.Cut 319/50 = 4N15DC03T000AC03221O.Cut S19/SQ2A24N16DC03TQ000A3T2lO.cut Tape Backup rli Yame

• altfl.137 alifl.123 ti~fl.139 alifl.140 a1111. 141

-.aIlft.143 aflfl. 143 al~fl. 144 al~lf. 147 al~tf.148 aZ~fl.147 arifI.150 allfl.151 aXift.152 aI~fl.153 allfl.153 aIlfl.154 aIlfl.156 ax~fl.158 aIlfl.157 alifl.1S3 aIlfl.162 aIlfl.162 aXIfl.16S aIlft.196 aIlfn.167 at~fl.166 aItfl.147 allfl.170 aIlfl.171 alifl.172 allfl. 171 a2Mf.174 aIlfl.175 alifl.176 aXIft.177 allfl.1,78

&2tfl.177 aIlfl.180 aIlfl.181 allfl.1Ul allfl.183 allfl.184 file Date (Output) fob 20 1997 rob 20 1997 nob 20 1397 rob 20 1997 rob 20 1997 rob 20-1997 rob 20 1997 rob 20 1997 rob 20 1397 rob 20 1997 rob 20 1997 rfb 20 1997 rob 20 1997 rob 20 1397 reb 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 Feb 20 1997 feb 20 1997 fob 20 1997 feb 20 1997 fob 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 fob 20 1997 fob 20 1997 reb 20 1997 fob 20 1997 leb 20.1997 feb 20 1997 reb 20 1997 feb 20 1937 reb 20 1997 fob 20 1997 reb 20 1997 reb 20 1997 fob 20 1997 reb 20 1937 reb 20 1997 feb 20 1397 feb 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 file SI&*

(lytes) 239522 140433 292247 142246 233160 142744 233326 142827 293243 142127 293150 142827 293077 142127 293077 142327 293160 142127 293160 142827 293160 142027 293160 142327 293160 142827 232311 142827 292330 142578 23532 138550 129529 131015 131762 12094 132177 132177 132177 132177 132177 12177 132177 132177 132094 131928 131015 129948 file Type 4fomat)

MSCII ASCII ASCII ASCII

-.ASCII

&SCII ASCII MSCII MSCII ASCII ASCII ASCII ASCII ASCII MSCII MSCII MSCII MSCII MSCII MSCII ASCII ASCII MSCII

• MCII MSCII MSCII MSCII MSCII MSCII ASCII ASCII MSCII MSCII MSCII MSCII MSCII ASCII ASCII ASCII MSCII ASCII MSCII MSCII MSCII MSCII ASCII ASCII ASCII Compute:-

File Same 521/IOA21NOIlDCO2TOOOAC032T15.Cut B21/1Q2A21N01D0=2Tl45AC03T000.Cut 321/102A21N02D=02T000AC02T145.Cut S2l/IQ2A2lX02DCG2Tl45Ad03T000.cUt 521/302A21N03DC02T000AC02Tl45.cut 521/302A2130DC02T14S1C3T000.Cut 521MSQ2A1w04C02T000AC02T14S.Cut B 21fSOMA19040C02T145AC03TOOD.Cut B21/1029105DCOM2?000A 2145.Cut, 521/IQ2AINOSDC02T15AC03T000.Cut.

B21/102AIN060C0M000C02T14S.Cut B21/302A1NOD02T145AC03T000.Cut

• 21/302121N07DC02TO000AC02T145.cut, Tape Backup rile ame 9I1fl.1U5 aIlfl.186 aISfl.187 allt 1.139 aIlfl.189 a*Sfl.190 aIlfl.132 aIlfl.193 a*srn.l94 aIlfl.195 alfl.196

• Slfl.197 nile Date (output) fob 20 1397 Fob 20 1997 Fob 20 1997 reb 20 1997 rob 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 fob 20 1997 feb 20 1997 feb 20 1997 fob 20 1997 feb 20 1997 rile Size (Bytes) 211502 135903 285342 138484 286824 338799 287239 138965 287438 138965 287654 138965 287654 rile Type (format)

ASCII MSCII ASCII MSCII MSCII MCII MSCII ASCII ASCII MSCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Doteiflbn Calculations Document Identifier. B00OOOOQO-01717-0210-00005 REV oD Attachment l, Page 19 of 26 III 521/8Q2I2N071DC02T14SAC3TO3!00 Cut S21/8Q2A21308DC02T000AC02T145.Cut 321/SQ2INOODCO2Tl4SACOSTGOOO Cut 921/30MA2N09DCO2TO00C02T145.Cut 521/80M32109DC02?145AC03TOO0.cit 321/80212131DC02T000AC02?145.cut, 321/302 23a10C02T145.ae02TQO5.azt 521/9021211UC02T0SA0320T145.cut 322/S02A2MUVC02TO*0AC02T000.Cuat 221/S02A213120C02TU5AC03TOOO.Cut 822/602A213a30C02T001AC02T45.Cutt R21/5022113DC02T14SAC03T000.Cut 821/19MMO14C02T000AC02T15.cut V2i/so2111a40C2T145AC03T000.Cut 52jI5U02a21nD5C02TD00A1C02T14$cut 221I/tOM21VSDC02TH4AC03TOO0.Cut 521MMgI2n6D02T000AC0UT45.Cmt 921/302121316DC02THSAC3.OTOOD.Cut 521/80212N01DC03TO00ACG3T210.CUt 321/5SM8N2IX0DC03T000ACQ3T210.Cut 121/SO2AON03DCO3TOODAC03T210.Cmt D21/S02A28N0ODC03TO00Ae03T210.cuxt 021/30232U10SOC03T000Ae03T210.Cut 521/30 M 8506DC03T000AC03T21O.Cut 3211802A817lDC03TO00AC03T210.cut B21ADMOUS109C03TO0001c3T21O.1cut B21/80MONO09D03TOODAC03T2110.Cut 021/60MOR8K1DC03TO00AeO3T21O.C~at B21/202A23111DCOUD00C03TO10cut B21/50MOM12C03TO001CUT210.C~lt B21180212312DC03TOOOACO3T21O.Cuta 021/S02A28N14DC03TOOOACO3T'ISl.Clt B21/8QMA8N12.5C03TO00A3CQ3210.CUt 321/g2A28X16LDc03T00aC03T210.Cut rUe sawe 025/&C2AINO1DC03TOOOAC0=T10.Cvt, I

hzzgI.19u aIZlIfD19 02M1.200 sllf 1.201 aII9l.202

&IMf.203

&XIMf204 allft.205

&II(.206 aXIMt207 alttl.208 aIlft '209' alltl.210 allf.21 aIIfI.212 aXIfl.213 aIlfl.214 e12(1215 8.12(1.216 aul(1.22.7 allfl.210 a12f2.215 a£12(.220

.11(1221 allfl.222 4.lUl.223 a11(1.224

.12(.225

.allfl.226 alI(1.227 alWtI.220 a11fi.229 alln2.230 allfl.231 allft.232 Tape Backup rile Fame a11(1.233 allfl.234

.11(1..235 alift.236 aXI(1.237 ati(1.238 aXIft.239 a11(1.240 allfl.241 atft(.242 a1I9l.243 aIIfl.244 a12(1.245 aflft.246 aXift.247 aflft.242 aIIft.249 aI~fl.250 4,11fl.251 aUlfl. 252 aIllft253 aflft.254 aflft.25S a11(1.25 a11ft.257 oIM(.258

&IM(.259 aIMf.260 aIMf.261

&llM.262 aIfl.263 A11(.264 rnb 20 1997 feb 20 1997 reb 20 1997 fob 20 1997 rob 20 1997 reb'20 1997 fob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20-1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1937 rob 20 1997 rob 20 1197 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rle Date (outputi ro 20 1997 rOb 20 1997 Feb 20 1997 rob 20 1397 feb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 fob 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 fob 20 1997 rob 20 1997 fob 20 1997 frb 20 19397 fob 20 1397 feb 20 1397 fob 20 1997 Fob 20 1397 Tfb 20 1997 fob 20 1997 Jeb 20 1S97 fob 20 1997 fob 20 1397 139297 287737 139463 287820 139629 287903 139712 287903 139712 287903 139712 287903 139712 287405 139629 286077 138799 282083 137405 128695 130193 130766 131015 131015 131098 131698 131098 131098 131098 131181 131131 131098 130932 130363 128344 file size (Bytes) 129861 131098 132011 132177 132177 132177 132177 132177 132177 132177 132177 132177 132177 131928 131181 129861 287506 139933 290753 141412 292164 142246 292S79 142412 292745 142495 292745 142495 292745 142S78 292745 142S78 ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII MSCII BUel ASCII ASCII ASCII ASCII asCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII file Type (rozzat)

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII B25/3 OtA10020C03TO00AC03T210.CUt 325/I C MO003DC03TDO00=0T10.Cut 32s/s C ov054DC03TO00Ac03T210.cvt R25/I0.2A1ONOSDC3TO00AC03T21O.Cut, 325/8Q2A1NO60C03T000ACC3T210.Cut R25/1QMG1N071DC03T*000Ac31O.cut R2SM8210R089C03TO000AC0321G.eut 32552MOM0NOW03TO00AC03T21G.CUt 225MMOVIOD10C03T000AC03T210.Cat R2SOMMUINLDC03TO00AeO3T21O.Cut 32S2802A112DC03TO000AC0321G.Cut 925/SoMAIMUDC03O300AC03T210.Cut 325SI0A1N14DC03T000AC03T210).Cut 325SI12A10N15DC03T000Ae03T210.Cut 325/SQZAlOI16DC03TO00ACO3T21O.Cut 525/8Q 15N010CO 2700SC21`14S.Cut 325/SOMMN00c2T14UMOTOOO.Ciat 525/8Q21S1020C02T000AC02T145.Cult R25/502A22N02 = 2T145A.C03T000.Cat R2S/$02A25N03=c2TOO0AC02T3.4S.Cut B2SISQ2A2SNO3DC02T14SACOSTGOO.Cut 925/SQ2A25N040C02T000ACO02T14.cut 325/302125Na40C02Tl45AC03T000.Cut 525/g02A2SNO50C021000AC02Tl4S.Cut 525/30 M SNO50C02TS45AC03T000.Cat 5251302125N06DC02T00AC02T145.cut 32S/SQ2A23NO6 = 2T145AC03T00.Cut B2A/:oa2SN07VC02TOD05C02T14S.Cut B25/802A25NO7 = 2T145IACO3T000.Cut 325/802A251080c02T000AC02145.Cut 925/S021a25U08D 02T145J C03T000.Cat

(.

Waste Package Operations Engineering Calculation Attachment Tile: Sequoyah Unit 2 CRC Deotbn Calcuaons Document Identifier. BOOO0OOO-01717-0210-0000S REV 00 Attachment II, Page 20 of 26 325/5o2A2500MUC02b000AC02T4S.cat B25/602A25N09DC02T145AC03TOOOCut U52/sQ2A25110DC02:OOAC02TS14S.ut B2S/6Q2825A10DC02Tl4SAC03:00.cut B25 52A25111DC02000ACO02TlS.cut U25 sQ2W2SNl1DC02?14SAC03TOO

.cUt 82552125N12DC02G000AC02145 -cut 125/8Q2A2512DC02T145AC03TO0.cut U25/SQ2A25V3DC02TO00AC02l4S.Cut U25/SQ1225N13DC02T14SAC03TOO0.cut 2$/Q122sN114DC02TOOOACO2145.cut U S/5Q2A2Sl14DC02T145AC03TOOO.cut U256C2A2SNlSDC02TOOAC02T14S.cut 325/g02125NSIDC02S145AC03TOOO.cut

&25/SQ2&2S~l6=C2T?00AC0214S cut 12S/SQ2A2551DC02T145AC03T000.cut a.f11.265 aiIC1.266 arl(.267 o11(1.268 S2f11.269 aI*tSl270

.al(.271 aX1(1.272 a11(l.273 atf1.274 a1191.275 AII(1.274 a11f1.277

• 21(1.278 aIZ(1.279 aZI(1.280 fob 20 feb 20 lrb 20 reb 20 ob 20 rob 20 fob 20 reb 20 rfb 20 rob 20 reb 20

-eb 20 Feb 20 reb 20 Feb 20 reb 20 1397 1397 1997 1997 1397 1997 1997 1997 1997 1997 1997 1397 1997 1197 292311 142578 292911 142744 292911 142744 292911 142827 232911 142827 292413 142S78 291500 142163 294846 13823S asCII ASCII ASCII MSCII ASCII ASCII MSCII MSCII MSCII MSCII ascsr ASCII ASCII ASCII ASCII ascss ascs Compute:

lile game 326/SO2A26NOlZOC2TOOOACO2TIOS

.Cut u26/502 26NOlC02T145AC03TOO.cat 326/502A26902DC02TOODC02Tl45.Cut 26sOM2A26N02DC02T14SAC03TOOO.cat 826/80212613DC02TOO0ACT2!14S.cat 326/802R26NO3DC02TS451C03TOOO.cut 526/gg2A26W04DC02TOO0C02Tl45.cut B26/I02A26NO4DC02T145AC03TOOO.Cut B26/tQ2A26S05DC02TOOAC02l4S.cut 5261S02A26N0SDC02Tl45AC0f3TOOO Cut s26/o2A26bo6Dc02TOoAC02T43s.cut

('

3261SQ2126No6DC02T45.aC030ooo.cut 326/SQ2a26N07DC02TOGOAC02145.Cut B26ISQ2A2607Dd02Tl45AC03OO.cut 9261Q2A26108DC02TOOOC02H45.cut 26/gQ2a26No8DC02T145aeC03T:0.cut B26IS02A26SO9DC02TO0OAC02Tl4S.cut 5261SQ2126N09DC02T1451C03TOOO.Cut 8261s02A26N1ODC02000aC02*14 m.cut 9261SQ2A2610DC02T14SAC03OOO0.Cut 22618S2R26311DC02TOOAC02?14

.Cut 6261sQ2A26hl1c02T4USAC03TO0O.Cut 826/SS226112DC02IOOOAC02Tl4S.cat 5261502A26L12DC02T1453C03TOOO.Cut B26/502A26Nl3DC02TO0OAC02T145.cut 526IS02A26N13DC02T145AC03TOOO.cat B2650M2A26NlODCU2T0OOAC02T15.cut 026ISg2A26N14DC02T143AC03TOOO.cut 126/SQ1226NfSDC02TOOAC02hl4S.Cut 326/502126WISDCC02T45C03TOOO0.cut 226/SQ2A26N116DC02TOOOACO2T4S.cut 526/5022616nDC021s45AC03Tooo.cut 326/SQ229NG1DC03b000AC03T21G.cut 226/8Q2 W2302DC03TOOAC03T21C.cut 226/02329u03DC03TOO0AC0321O.Cut 326/bQ2A29N040cO3OO0AcA03210 C.Ut 326/U02129NODC03TOOOACO3U210.Cut 326/82A29u06=C03TO0OACO3210.Cut D26/52A2S9N07DC03Th00AC03T210,cut 826/1O2a23N08DC03TOOACU3?210.Cat B26/Q2W29W09DC03TOO0AC3T210.cut 326/QS2A29N1O C03TO0OAC03T210.cut 26/s02A299110C03TOODACO321O.Cut R26/SQ2=Vsl2DC03TOO0aCQ321O.Cut 26/S02A29N1SDC03TOOOAC03T210.cut 926/S12A29i4DC03T0OOAC03T210.cut U261SQ2A29115DC03TOOOAC03210.cut U 6IUQ2A2SN16DC03TOOaCOAmClO.cut Tape Backup fie lae aII(1.202

• ss n.2s2 s11(1.2s3 a1IC1.284 allfn.2ss a*ssl.2s7 a11f1.290

• ssfn.291 allfl.292

• ssfn.2s3

.11(1.294 allfl.295

.ss 1.296

• sIs1.297

• ssfn.298 a1t1l.299 a*s 1.300 a11(1.301 al1f1.302 a*St1.303 allfl.304 allfl.305 oII(1.306

• ssfl.307

• aI1.

308

.Xs 1.309 inf. 310

• 11fl.311 a*ssn.3n2

• a1Z1.323 a11(1.314 alZi.313 allfl.31C

.11(1.317 allfl.318 aZZ91.319

.iIM.320 A Sfl.321 AIISf.322 att1(.323 a1ti.324 A I(1.325

.11f1.326 a11f1.327 a.1f1.328 rile Date (Output)-

reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997

• eb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 reb 20 1397 reb 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 fob 20 1997 Feb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 lab 20 1997 reb 20 1997 fob 20 1997 reb 20 1937 fob 20 1997 teb 20 1997 teb 20 1997 rob 20 1997 reb 20 1997 teb 20 1997 reb 20 1997 teb 20 1997 feb 20 1997 reb 20 1997 rob 20 1997 leb 20 1937 Fob 20 1997 feb 20 1997 rFb 20 1997 reb 20 1997 Fob 20 1997 Feb 20 1997 rlle Size (Bytes) 279925 1359B2 283079 137488 285261 138235 285842 13823S 285842 138318 285842 138401 285842 138484 2835842 138434 286008 138567.

286008 138650 286008 138650 286008 138550 236008 13SSS0 285842 138218 283743 138069 280340 136567 120110 129276 129944 130027 130110 130110 130110 130110 130110 130197 130197 130197 130114 129344 129523 128363 rilt Type (Frcrat)

ASCII ASCII ASCII MSCII MSCII MSCII MSCII MSCII MSCII MSCII MSCII MSCII ASCII ASCII MSCII MSCII MSCII MSCII MSCII MSCII ASCII MSCII ASCII MSCII ASCII MSCII ASCII MSCII ASCII MSCII MSCII ASCII ASCII MSCII ASCII MSCII MSCII MSCII MSCII MSCII MSCII MSCII MSCII ASCII ASCII Ccoputer Tape Backup rile Date rile Size r1le Type

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC DOlefibn Calaclations DocumentIdentifier:BOOOOOOOO-01717-0210-00005 REV oo AttadhmentIlPage21 of 26 rile Neam 529/SQM2a1201C03T000AC03T2IO.cut 929/Z02A12vO30CO3?000AC03T210.cut 32M032A12NO30C03TOOAC03T210.cut 323/SQ2Al2N05DC03T?00A1CO3T2IO.CUt 329/6Q2A12H00C300A03T 2210 I.Cut.

B23/5Q2A12XO7DC03T000AC03?=10.cut a29/50 M2N121DC03T000AC03= 10-cut 323/502112N09DC03?000ACO3?21C.cut 523/s02A12N09DC03T000AC031210.cut 323/5 A2N0c3TO00AC03?21C.cat B2q/s02Al2v1WDCG2?000Ae03T210.Cut 323/50 M2A124 = 3TO0001C032210.Cut s29/sQ2A12ff15VC03TO00A1C03?2I0.cut s29/SQM2AI2Nl=c3TOOGACO3T2IO.cut B2§/xo2Al2N15DC=O3T0ACO32T1O.cut 323 1s02A29OI2 TI60300AC3TO 0 Cut 229/8Q2A29VO2=c20001c02T145.Cut 229/302A29NO2 M 2T145 ACO 3?00O.Cut 322$/Q2A29NO3=c2T000AC2T145.Out 523,SO2A21x02DC02Tl4$AC03T*000.cut B2V/SQMV23034=2T00A0hO2T145.Cut, 122/8Q2A23N03Dc02T145Mc3T000.cut 929/302129N04DC02T000CA02T4S.Cut 229/802A292WDC027245Ac0T000.Cut, 329/s021I29NOSDc02TO0OCA CMT15.CUt 223/3Q21=9NOG=~2T145ACO3TOO

.Cut, 529/sQ0MMUosCoTDOOCAC0TOf5.CUt 329/SOMSN3O7DCO2TI41C03T0OO.Cut 923/S02a29R07DC02T000AC02T145.Cut B29/SoQa23NO8DCO2M4SACO3T000.Cut 329/SO 29"N08C02T000AC021'45.Cut 829/60MOMO09C02714SACOS7OOO.Cut 529/302123a1DC02TO000AC02T14S.Cut 323/gOMOMN1DCO2T145AC03TOOO.Cut B29/So M INl1DC02TOCOAC02?1US.Cut B2q/B3M212Z1C02T1452C03T00.Clit, B29/50232N12DC02TO00AC02TUS5.Cut B2q/S0222N12VC02TI43AC03TOO0.CUt

• 231sQM123N3DCG2T000AC02TI4S.ciat 323/3QMN2953D02T145AC0300

.Cut 329/50 M ON14DC02T000Ac022 45.cut 329/S022 N23R4=2fl45AC03TO0OO.cut B29/S02a2N15SC2T?000AC02T145.Cut B29/60=923NlDC02?145AC03T000.cat

&29/sg219al6=c2T000AC02T145.Cut B2q/8O2A231S=c2TI45ACO3T000.cut rile Name aIfIf.323 allfl.330 allfl.332 aIIfl.332 a21tl.333

&iIf.233

&2112.335

.1163.336 a1163.137

• olfl.338 allf 1.339 aliti.340 al1f1.341 allfl.342

&Xlfl.343 allfl.344

&1163.345 a1163.346 oII63.347

.IV2l.348

&ZI9f.349 almf1.50 alifl.331 allfl.332 allf1. 3S3 aII63.354

.111 1.355 aIlfl.356 al1ft.357 al363.3!3 atlf 1.353 aZlfl.360 al1f3.361 a1163.362 al5f3.363 allfl.364 aI~fl.365 allfl.366

&aI~t.367 alif1.368 eli11.369 all11.370 aIlfl.371 aZZ9l. 372 arifl.373 aZIf1. 374 a1511.375 aZIfl.376 Tape Backup rile aMek alifl.377 a11f3.371 alICf.279 a11f1.380

• *ZZ1.381 a1311.382 a~ifl.383 allfl.384 allfl.385 allfl.386 aifll.387 a13fl.388 alfl.393 an511.390 a15fI.39I a11ft.392 a1111.393 IOutput) reb 20 1997 reb 20 1397 rob 20 1397 reb, 20 1997 rob 20 1997 rob 20 1997 reb 20 1197 reb 20 1397 reb 20 1397 rob 20 1997 reb-20 1997 rob 20 1397 rob 20 1997 reb 20 1397 rob 20 1397 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1397 rob 20 1397 rob 20 1397 reb 20 1997 rob 20 1397 rob 20 1997 rob 20 1397 reb 20 1997 Feb 20 1997 rob 20 1997 lob 20 1997 Tab 20 1397 reb 20 1397.

rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1397 rob 20 1997 reb 20 1397 tob 20 1997 reb 20 1997 leb 20 1997 lob 20 1997 rob 20 1397 Tob 20 1997 rob 20 1397 rob 20 1997 fob 20 1297 (Byts I 128944 130766 131264 131347 13159 131679 131679 131679 131679

-131673 131673 131536 131430 131347 13101S 129608 202000 136986 286423 133733 287488 13896S 288235 139799 288318 139965 288313 140131 288313 140131 288318 140131 288318 140131 288650 140131 286S50 140214 288899 140214 288567 140237 233152 140131 286741 139463 282581 137571 cro=at) aSCII ASCII aSCII asCII ASCII asCII ASCII MSCII ASCII asCII asCII ASCII ASCII MSCII ascII ASCII ASCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII MSCII MSCII MSCII ASCII ASCII MSCII MSCII ASCII ASCII ASCII ASCII Mell ASCII ASCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII Cowputor rile maine B33011o2L3M00C03O000AC03T21G.cut 330/59MA39020CO3T000CO321O.Cut R30/2QMA3V030C03T00QAC03T21V.C~t B30/SO2M3MO4VC03T0Q0AC03T2I0.Cut 530/302A03N050C03T000AC03T210.Cut 330/3O2flM06DC03T000AC0321O.cut B330IQ2A0O3N07DC03TO00AC03T210.cut 830/102A03M03DC03T000AC032210.Cut 330 1302A3809DC200C03T 210AO I.Cut 330/3021fl3)10D0c3TO00AC03TZIO.Cut 530/1O2fL03N11DC03T000AC03T210.Cut 330/802Afl3N12DC03T000AC03T210.Cut 530/50MUON1DC03T000ACOMIG1.Cut 830/302A03N14DCC3T000AC03T210..ut B30/3Q A039150C03T000ACO0= 10.Cut B330/$023M16VC032000AC03T2I0.Cut 530/502AL30301DC02T000AC02T145.cut liLI Date (Output) rob 20 1997 rob 20 1997 rob 20 1397 rob 20 1997 rob 20 1997 rob 20 1397 rob 20 1397 fob 20 1997 rib 20 1397 rob 20 1997 rob 20 1997 rob 20.197 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rile Size (Bytes) 129774 131131 131845 132177 132177 132177 132177 132260 132177 132177 132177 132177 132177 132094 131264 130027 286344 rile Type (rm=at)

ASCII MSCII M

ACII MSCII ASCII MSCII ASCII ASCII MSCII ASCII ASCII MSCII MSCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment Tide: Sequoyah Uni 2 CRC Deplefion Calculations Documcentdentifier. B0OOOODO-01717.0210-00005 REV 00 Atachmset U, Page 22 of 26 U30/602A3030lDC027145AC03TO0.c0t U30/$Q2a30N02DC02:OOOAC02TlIS.cut Z30/5g2130020C02T14SAC03T000.CUt 330/sO2A3030wDC02T*00Ac02T14S.cut 330/SO2A3ONO3DCO2T14SACOG3TO0.Cut 330/5Q2A3ONO4DcO2T045AC03TOTO.cut M30/SQ2A30NOSDC02TOOOACO2T14S.Cut 330/S2A30ON05DC0214ACO03TOOO.Cut 330/502A0ON06 X C2OOO AC02T145.cut 330/1Q2A30N06DX02T14SAC03SOOO.cut U32/S02A3ONVN0C027OOWO=2T145.cut B30/SQ2A30N7DC02T14SA:O3TOOO.cut

• 3O/sQ2A30N090C02TOOAC02T145.cut 230/0210N0ODC02THSAC03000.cut 330/802230N09DC02TOOOC02T145.CUt 3301/Q2ASON09DC02T145AC03T000.cut 330/sQ2AON20DC02TOOO2AC=14S5.cut 230/502A3010NDC02T14C03SOOO0.Cut 230/SQ2A30N110C22?OOOAC02Tl4S.Cut 33030/X=303a2DC02T14SAC03ThOO.CUt 83o121A30312DC02TOD0AC02T14S.cut 83MOMO2301DC02Tl4SAC03TO0.cut B30o112A3ONUDC02IOUsAC02?14S.cut 233O/M2130O3DC02T14SAC032T00.cut

.2301/62130U4Dco02TO0oAC02THs5.cut 33OI102a30515DC02T000aC02fl4S.cut 330112230U1SDC02T14USC03OOO. cut 530/SQ2A30N6fCO2TOCOAC023T0I.cut 23o/802MMCnDCUTUsAsOMsOOo.cut t

~~Ccputer 931MOMO226N01DCO3STOOACO3T21O.cut 331/3021260O2DC031OCOAC021O.cut 931/802A26N03DC03T0SC03721O.Cut 231/sQ2a26V04DC03bOOOac03T210.cut 231/802A26305DC03T0oo0CO3s210.Cut 331/SQ2A26N06DC03TO0OAC03S210.cut 231/ZQW226NO7DCO3?OOOACO3T21O.cut 231I102A26NoDC0o3TO0oAcO3s21o.cut 531/502A260NDC03T000C03T210.cut B31/802 21N ODCO3TOOOACO3S20O.Cut Z31I0Q2A2=N1CO3T0001CT2Or0.Cut 23311212631IDc3TODOACOM2O.Cut 31/8Q2226N23DC03TOOOAC0321L0.Cut U31/S0Q226N14DC03TO0AC03T21O.cut 831/X2a26N1SDC03TO00AC03T21O.cut S31/102AZSN16DC03OOAC031210.cut U311/02a3131DC02O000aC02T145.cut 232182A3W1*020C2TH5AC03TOOO.ciut 31/502A312N02DC02TO0OAC02T145.cut 31YS0Q2A1NO2DC02T145AC03TGOO.cut U31/S02A3lWO3DcO23O0ACo2T145.cut Z31/SQ2A313O3DC02T145AC03TOOO.cut Z31/5Q2W3104=Dc2TO0OAC02T14S.cat 531/5Q2A30C4Dc021s4SAC03TOOO.Cut U1/ZO1213N0S002TOOOAC02r14S.Cut U/1/213o105DC02TUSAC03TOOD.Cut 231/102A3M06DC02TOOOAC02?14S.CUt U3 3lSA31N06DC02T14A1C03TOO0.Cut 931IS02a3N07C02TO000Ac02HS45.Cut U 231M2a31070C02THs1AC03To0.cut I 3US02a315D0OC02To0oAc02THS5.Cut 3

5l/SQ2A31RODC02T145AC037TOO.cat 53111Q2A31309DC02T001C02uS 4.Cat B31QW2A313090C02T14CAZ03TOOO.cut 5311502A311tODC02TO00AC02THSo.Cut 521/tO2W3130ODC02T145AC03TOOO.cut allfl.394 aIIft.396 aIIsn.397 41M.398 allfl.399 alifl.400 alI(1.401 aZfl..402 aIlfl.403 aIIft.404 4S1fl.405 allfl.406 allft.407 aII(1.408 aIlfl.409 alfl.

410 aS1fl.411 alf 1.412

£i~fl.413 aIIf1.414 aIZ(1.415

.U(1.416 a11(1.417

&IM(.419 aIIf1.413 Mlfl.420 allfl.421 allfl.422 allfl.423 allfI.424 rob 20 1397 fob 20 1997 reb 20 1997 rob 20 1197 rob 20 1997 rob 20 1397 rob 20 1997 feb 20 1997 reb 20 1997 rob 20 1997 rob 20 1937 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 rob 20 1397 rfb 20 1997 rob 20 1397 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 rob 20 1197 139354 290421 140931 231315 142080 292413 142090 232579 142246 292662 142323 292662 142329 292745 142412 292745 142412 292745 142495 29274S 142415 292828 1U2578 292745 142435 292496 142412 291334 141397 283826 138069 ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII Tape Eawcu rie mame alIf1.425 a11fl.426

&sM.427 allfl.428 a12fn.429 31111.430

• ssn.432 aIlfl.452

• 11(.431 allfl.434 aIIfn.433 assn1.436 asisn.437 asisn.43a alI(1.439 a1ifl.440 a11(1.441 asifn.442 aIInl.443 ass.zz444

.1M.445 ssini.446 aIi(.447

&II(1.440 81111.441

.11(1.450 a11.145l allfl.432

&1191.453 allfl. 44 a*Sfl.45S allfl.456 ali(1.457 al*ll.458 aSif1.4S9 allfl.490 fil. Date (Output) rob 20 1997 reb 20 1997 reb 20 1197 rob 20 1997 reb 20 1997 reb 20 1197 rob 20 1397 rob 20 1397 fob 20 1197 reb 20 1997 fob 20 1197 rob 20 1397 rob 20 1997 reb 20 1997 rob 20 1197 rob 20 1997 fob 20 1997 reb 20 1997 fob 20 1197 fob 20 1997 rob 20 1997 feb 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 reb 20 1197 reb 20 1997 rob 20 1397 rob 20 1997 rob 20 1997 reb 20 1997 feb 20 1997 reb 20 1197 feb 20 1997 fob 20 1997 file 9ise Ilytes) 127173 128778 129446 129861 129861 129778 129778 129771 12377s 123778 129865 123949 123948 129612 123197 1275S 273593 135899 282396 137405 235261 139235 20S842 138235 25842 138316 25842 138316 2B600S 138401 286008 139484 296008 138944 286000 13S567 fie Type Irfomat)

ASCII SC II ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment Tide: Sequoyah Unit 2 CRC Depletion Calcutons

.. DocumentIdentifier BOOOOOOOO-01717-0210400S REV 00 I - -

-Atachment [, Page 23 of 26 II.

5131/lO2A3In0c2TOA03Tc0fl4.Cut 2331/02AL31NLlvc0T14sLC03za45.eut u31/802A3l1N1oc2T:450AC03T145.eut 531I1Q20M3=E2c2TOD5AC03?000.Cut 331/XQW21313DC02T00S2C03T145.CUt 321s2310 MNUDC02:15Ca3C000H.Cat UUM10A31514DC02TI00AC02T15.Cut B3l1502A31U5DC02T000AC02Tl4$.CUt B3l1MOMI3NISMc2Tl45AC03TOOO.Cut B3l19=A231n6DC02T000AC02fl4S.C~tz 431/S02A31N16DC02T14SACO3TOOO.C13t

&flli.461 allfl.462 a21f1.463 a2121.464 a112f.465 aflft.466 al2f1.467 alfl.463 al1fl.469 allfl.470 alZfl. 471 aflh. 472 rob 20 1397 reb 20 1997 tab 20 1997 reb 20 1197 reb 20 1997 fob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 rob 20 1397 ob 20 1197 cwftputol rile lame C02/802AMR201DCO3T000AC03T210.cut COO U0I2A2O20CO3TOOOAC03T21O.CJt C02/302A02V03DC03T000AC03T210.Cbt C02MS0202304D0CM00AC03T210.Ct C02/12A0N05C030001C03T210.CUt

,C02/S02A02NO6=C3T000AC03T21l.CUt C02/10M2202 7DC03T0001C3T2l0.C~t C02/50202N030C03T000C03T21O.Cut CO2/

U02NODu~C03z0001AC03:210.Cut C02/so2NAODu0C03T000AC03T210s.ut' C02/802&O2N1ilDC0TOCOOAC03T210.Cat C02/80U2&0232DC03T000AC03?210.eUt COM/102RU11DC03T00COA37210.Cut C02/10202N14Dc03?0O0C0?210.Cut col/8a2021150C03003TOCAWT10.ot

(

c02/s80210aN6DC03T0005C03T210.Cut Tape backup rile same allfl.473 0212.474 alf.473 aZ191.476 a121.477 al211l.471 afllfl.479 aflfl.480 aflll481

&flll.482 afllfl.483 aifil.414 a1291.485 02121.436 afllft.487 02111.433 rile Date fOutput) lob 20 1397 reb 20 1397 rob 20 1397 lob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 Tab 20 1997 rob 20 1397 reb 20 1997 rob 20 1997 trb 20 1997 leb 20 1197 rob 20 1997 reb 20 1997 reb 20 1997 286091 133650 286091 138650 216008 133650 218542 138401 283909 138069 2802S7 136567 rle Bize Ilytog) 12797S 128344 123208 129347 129457 129457 129357 1n374 123374 129374 129374 123291 129042 128876 128544 126038 rule Type Ifowat)

'SC??

'SC:?

ASCII

'SC?:

ASCIc

'SC::

uScz:

MSc?:

Mell ISCI:

MSC?!

ASCI ASCII ASCII ASCIc ASCIc ASC??

MSC?!

MSC??

AMC??

MSC??

MSC??

compute:

rile lame COU/8OMUDI01C03TOODAC0321O.Cut CO4/802AO4N020003TOOOAC03T21O.cuat C041S02&043030C03T0003CA03T21G.Cut.

C04/1O204N04Dc03T?0003C03T210.cutt C04/3Q2A04305DC03TO0CO03T210.cat 004/102AO4106=C370005C03T210.cUt C04/IQ2AO4NO7DCO3TO00=0C3T21,0.eut COMOMMO0N03C03TOODAiCO3?21.Cut 0041a02a0a103Dc03T000AC03T210.Cut C0415021491ODC037000AC0321G.Cut C04/802A0N1DOUC0TOGOAC03T210.Cut C04/6O2RO4N12DC03TO0OAC03T21O.eut C10d/S2A0MMU3TO3?00AC0321G.Cut COM110UO4240C03T000C0ACO210.Cut C04/S022044N25Dc3T000AC03T21O.omt C04/302&04N260C03T000AC03T210.cuat Tape Backup Nile Name 02111.489 oflfl.490 a3121.431 allfl.492 a3121.493 efl11.434 03: 1.

435

.3111.496 aI291.497

.1211.493

.12191.499 aZf1.S00 a1211.501 a?119* 502 03121.503

.1211.504 rile Date (Output)

Jeb 20 1997 rob 20 1997

.rob 20 W37 rlb 20 1997 reb 20 1997 rab 20 1997 reb 20 1997 lob 20 1997 reb.20 1997 Tab 20 1997 reb 20 1997 Fob 20 1997 Fob 20 1997 reb 20 1937 rob 20 1997 reb 20 1937 rile lime (sytea) 1280S8 1287s3 129291 129540 129540 123540 129540 129540 129540 129540 129540 123540 129291 129125 128793 126237 rile Type (fromat)

MSC??

ASCII MSC?:

ASCII MSC??

MSCI?

MSC??

MSC?:

ASCII ASCIc AsCic sicl?

Mell Computer rile Name C06/SO2AOD6NOI3cO301C0ACZT10.cut CD6/&o2A06H02=3OOW=300c021O.Cut C06/8Q2&0C6N03Dc3T0CSC03T210.eut C06/SQ2A06040c020001CO721O.Cut C106/5oaQUO6905C03:OCOACOU2O.cut CO66S02A06l06DC03T000AC03T210.eut CD6I8O2A06N07=c0TO00ACO3T210.cUt C06/802A061080c03TOOOACO3T210.c~it C0613a2U6i09oc03:OODOUc321O.eut C06iSQ2M6VIODC03lOOOACO3T21O.cut CC06IS2aO6w11DC03TOOOAc3s21O.cust C06/502a0O6112DC03T00aAC03fl10.cUt C06/502A06113C03:ODOAC03T21O.Cut Tape Backup rile lame 01.191.505 al211.506 a1rfl.507 a*trn.so7 alU11.510 a??11.511 adlfl.512 allfl.514

&rM.515 alit.516 aitfl.517 rile Date fOutput)

Feb 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rab 20 1997.

reb 20 1997 lob 20 1997 fob 20 1997 reb 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rile size (Sytee) 126955 12537a 128627 128935 12920e 129208 129291 129231 129291 129291 123203 129208 129042 rile Type (format)

C?

AsCic MSC?:

ASCIc MSc::

AMC??

ASCII MSC??

ASCII MSC??

MSC?:

MSC?:

MSC??

Waste Package Operations Engineering Calculation Attachment Tlhe: Sequoyah Unit 2 CRC Dejielbn Calculaions Document Identifier. BOOOOOOO-01717-0210-00005 REV 00 Attachment L, Page 24 of 26 i

COU6OM02a0ul=c3b0OOC03T210.cut CG6/SUO2A6VlS=c3T000AC03T2IO.cut c061S=Mao6N1Dc3T000AC03T21I.cut a1Ifl.I18

.11(151 allf 1. 20 Tob 20 1997 rTb 20 1397 fob 20 1397 128793 128544 126039 ASCII ASCII ASCII computer file Name COSISO2AC8N 3TOl~O3!003c02I0.cut coo/so2AO8N02=c3TGGOAC03T210.Cut C01/sMO20N03DC03TO00AC03T21G.Cut coUISO2&O9N04=0DCOO=00C3T2lG.CUt CO8/S02A8V05=C3T000AC03T2lO.cut Co/0/Q2101806Dc03T00ASC03T210.CUt Coo/go2Afl8I07DC03TO000AC03T2lQ.cut CoU/5Q2A09108cS03TO00AC03T21O.Cut COSISO M 8909DC03T0OD1C03T21C.Cut COUI1Q2Af8l8NODC03T?00ACO3T21C.Cut COIIS92AMR11=3CO300A2e0T210.Cut COS/SQ2AOUff2=C03T?0001C03T2l0.Cut CO8SQ2AO8ul3DC03TO00A~C03T210.Cut.

COU/6OMMO14c03TOGOACOMIG1.Cut CO1~OjaD8K1SDC03TOOOAe03T2IG.Cut COS1sO2A8K16DC03TOOQAC03T210.Cut Tape Backup rile Name

.32(1.621 aifl.522 aIttl.623 4.11(1.524, aIlfl.525 aII(1.526

.32(1.627 alfl(.628 allfl.623 a12(1.630 allfl.531 aIZfl.532 aIItl.533

&XIMSl34 a11(1.535 allfl.536 rile Date (Output)

.fob 20 1397 feb 20 1397 Feb 20 1997 rob 20 1397 Fob 20 1397 Fob 20 1997 Feb 20 1997 Fob 20 1997 Fob 20 1997 Feb 20 1337 Teb 20 1997 Fob 20 1997 reb 20 1997 Fob 20 1997 File 5ir.

(bytes) 124022 126287 126524 126607 126690 126773 126773 126773 126773 126773 126773 126773 126773 126690 126524 124437 rile Typo Fozmatl ASCII adczz ASCII ASCII ASCII ASCII Mell ASCII Mell MSCII ASCII MSCII ASCII ASCII MSCII MSCII Computer File Name C14/SO2AI4NDOZC03TOOOACO3T210.cut C14/SQ2A14N02DC03O01OUCO210.cut C14/502A14N0DUCO3T000CO210.cut

(

CIV/02A4N0DOC03?0003C32210.Cut C14/S02A4N05VC03X000AOO3T2lO.cut C14/802A141060C03T000AC03?210.cut C141802A14N07DC03TO00ACO3T210.cut C14ISO2Al4NO8DC03TO00A.CO3T210.cut C14/Sa2A14Xa9oCO3:000,C03T2lG.cut C14/302A14N100C03TO000C03T210.cut dl4/SO2Al4VIlCCO3TOOOAC03T2lG.cut C14/S02A14N12Dc03T000AC03T210.cut Cl4/SOZAI4Nl3VCO2TOGOOSC3T2lO.cut C14/102A14N14Dc03T000AC03T210.cut C14/S02A114N15DC03TO00AC03T216.cut C14/8Q2AI4N1V=C3T000AC03T2lO.Cut Tape Backup File Name

&ZIn~.537 al1(1.538 61221.529

.11(1.540

&aIIl.541

.11(1.642 s,1191.543 912(1.544 SIMMS54 aIlfl.646 att(l.647 4I1M.548

&XII(.43 4.22(1.550 alI9l.551 aI1M.632 File Date (Output) fob 20 1397 Fab 20 1997 reb 20 1997 Fob 20 1997 Feb 20 1937.

Feb 20 1997 reb 20 1937 Ftb 20 1997 Feb 20 1997 Feb 20 1997 rob 20 1997 reb 20 1937 Fob 20 1397 Feb 20 1997 Feb 20 1397 Tab 20 1997 File Size (Bytes) 127121 128461 128793 129042 129457 129457 129457 129457 123457 129457 123457 129374 129374 129042 128544 126121 File Type (Format)

MSCII ASCII ASCII MSCII MSCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII Computer file NAme ClIS/2AXSROlDC03T000AC03T210.cut C15S0S2A15NO2VC03T000AC03T21O.Cut ClISO2AISRO2DC03OUOOGAC0T2lO-Cut CS19/02A15N0O0C03TODUOSTe21lO.Cut ClU/80UI15105C03?OGbUOT2lO.cut C15/SOZIIIND6DC03TOU0SCGST1IO.cut.

CIS/SQZAISNO7DCO3T?000aC03T2l0.eut ClS/502A15N01DC03T001C03T210.Cut CIS/802A15N090C03T000AC03T21O.Cut C15IUOZAI5N C03TO3000ACO321O.Cut CIS/So M SN11DC03TO00AC03T21O.cut CIS/12115N1.2C03TOG0AC0321O.Cut C1S/SQIQ2A5NDC03TO0~C0ACT21O. Cut CIS/802A15Ul4C03T0001C03?I1.Cut C1S/602Al5NISMC022000SC0T21O.CUt Cl5/SQ2A1SNI6OC011000AC03T21l.CUt Tape Backup File Name a11(l.553 011(1.554 h,1l(.3555 011(1.556 aII(l1.SS7

&XII1.SSS

&X1(1.553 aII(1.560 aII(1.561 0l1(1.562 al1fl.563 02111.564 61Ifl.565 aZZf1.566 a1161.567 aIIfl.568 Fle Date (output)

Feb 20 1997 Fob 20 1397 Feb 20 1397 Feb 20. 1997 rob 20 1997 rob 20 1997 rob 20 1397 rob 20 1997 reb 20 1397 reb 20 1997 feb 20 1997 reb 20 1337 Fob 20 1997 Feb 20 1997 Feb 20 1997 fob 20 1997 nle Size (Bytes) 124022 126287 126524 126690 126773 126773 126773 126M3 126773 126773 126773 126773 126773 126690 126441 124520 File Type (format)

ASCII ASCII MSCII ASCII ASCII A.SCII ASCII ASCII ASCII MSCII MSCII ASCII ASCII MSCII ASCII ASCII Computer File Name C171SQ2A27901DCOMTOOOA3T21lO.cut Tape Backup File Name er(fl.569 File Date (output)

TFb 20 1397 rile Size (Bytes) 127975 Mle Type (Fozmat)

ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Deptetbn Calclons Docment Idenifier. BOOOOOOOO-01717-0210-00005 REV 00 Attachment I, Page 25 of 26 C17/uo2A17NO2DOc3TO0OaO1i2210.cut C17/SQ2A17NO3DCO3TOOOACOSTZ1O.Cut C17/302A17104DC03000AC01T21O.cut C17/s0 M UN0Dc03TO00AC01T21O.Cut C17/ug21l7106Dc03T000AC03T210.Cut C17/502A17N07DC03T000AC03T210.Cut C17/S2A1708DONT?00AC03T210.Cut Cl7/802A1MC03cO3000ACCIT20.,cut C17/SQ2AI7N1O00c3TOODACOST21O.Cat C171SQ2A1711D0CT000AC03T210.cut C17/302117N12vc03T000C03T210.Cut C17/502117N3D3C03T000AC03T210.cut' C17/302179114C03T00AC03T210.cut C17/SO2A17NlSDCO3TOODACO3T21O.Cut C17/50 M 79116Dc3TOODACOST21a.Cut aIlfl.570 aIlfl.571

£Ilfl.572 li~fl.573 aIlfl.574 al9f1.575

.aI~f1.576 aI~f1.577 aI~fl.578

.allfl.579' alzfl.S90 aZ1fl.5S1 aIlfl.582 al~f.5833 alIfl.614 reb 20 1997 fob 20 1997 reb 20 1997 feb 20 1997 fib 20 1997 reb 20 1997 fob 20 1997 rob 20 1997 reb 20 1997 feb 20 1997 Fab 20 1997 fib 20-1997 reb 20 1997 rfb 20 1997 fob 20 1997 128544 129042 129291 129291 129291 129291 129291 129291 129291 129291 129291 129208 128876 128544 126038 MSCII ASCII ASCII ASCII ASCII MSCII ASCII MSCII ASCII ASCII ASCII M

ACII ASCII ASCII MSCII Compute:

file same C19JSQ2A19NU1DcOT0ACO3T21O.CUt, C19iSQ2A19N02=c3TQ001AC01T21G.Cut.

C191602A19NU03cOT000AC03T210.Cut C19/60211904c0COT000AC01T210.Cut C19/502119U0S0C03T000C~r03T210.eut C19/SO2AI3NO6 M 3TOCOSCO3T21C.aat C19/502A19N70CDOSZ000AC01T210.Cut C13/OM19N090C03T000AC03T210.u C19/602A1N09DCO3T000C03T210.c~utt C19/SQ2A13NIODCO3TOOOACO3T21O.Cut C19/602A13Nl1103?0001C037210.eut C19/S02A19122oC03b000AC03:210.eut C19/802X1O13u130c3?00CO0321G.Cut C19/I02A19N14DqO3TO000AC0T210.Cu~t C19/SQ2A191SD03TO3000AC03221O.Cut C19ISO2A13UI6DCO3TOOOAC03T21O.Cut Compute:

rile same c21/SO212101D03TO00IC0OT21O.eut, C2l/8Q2I3102DCOITQOOOC031210.cut C2l/3021L215030c32 C 0AC03T21IA.Cut C21I/5WM1N04=C32-r00AC03T21O.Cut C21/IQ0ail bgOScOSOCO S

c 21aOr i.Cut C21/30Ma3XOGDCOM2(00C3T21C.cut, C21/302A.21N070 OS0300AC03T21O.cut C21/322N80INOC03!000UC03T210.Cut C2l/S02A21509=10TO00AC03T21O.eut e21/602121310CU3?000C03T21O.Cut.

rc21/S02a2N1DC03?000AC03T21O.Cut C21/802A21012DC03TO00ACO321O.Cut C2l/8O2A21N23=3TOOO0AC03T21O.cut C21/3Qla2N1DC03T000AC03T21O.Cut e2I021MMN15DC03T000COST21G.Cut C21MS22MINUDCOST000AC0OT21O.Cut Tape Backup file lame 4219I.586 ai~fl.687 aIrfl.68U sUNf1. 589 aZlfl.590 aIlfl.521 aIIfl.692 aIlfI.593 aIlfl.594 allfl.S95 axIfl.596 s1161.697 arifl.598 alifl.599

.1121.400 Tape Backup frile lame

.1111.601 a11ft.602 axrll.403 allfl.404 8119l.603 a112.606 aIlfl.907 allfl.608 al1f1.909 aXIMfl10 azzl~f 1* 1 allfl.612 alIt 1.613 allfl.614 alzf1.G15

£1111. 616 file Date (Output) feb 20 1997 feb 20 1997 feb 20 1997 fib 20 1997 Feb 20 1397 fib 20 1997 feb 20 1997 fib 20 1997 rfb 20 1997 rfb 20 1997 feb 20 1997 rfb 20 1997 rfb 20 1997 rfb 10 1997 fib 20 1997 reb 20 1397 rile Cate

[output) fib 20 1997 rfb 20 1997 rfb 20 1997 rfb 20 1997 rib 20 1997 rfb 20 1997 feb 20 1997 rfb 20 1997 fob 20 1997 fob 20 1997 feb 20 1997 feb 20 1997 fob 20 1397 reb 20 1997 reb 20 1997 reb 20 1997 nil. Size (Bytes) 127204 128627 128876 129125 129291 129374 129457 1294S7 129457 1294S7 129374 129291 129125 128876 128710 126038 rile size (Bytesw 1238SS 125872 126351 126524 126524 126524 126524 126524 126524 126524 126524 126524 U26524 126524 126287 124022 ni. Type (fozmat)

ASCII ASCII ASCII Mell ASCII ASCII.

ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII Nile Type (fov"at)

ASCII MSCII MSCII ASCII ASCII MSCII ASCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII Compute:

file lame c23/SoQMSbOica3bO0*AC0T2OlO.cut C25/6SM212502DC032:OUOCGOfl10ecut C2S/Sg2A2SN03DC03T000AC03T21O.cut CZS/SQ A2SNO4DC03TODOAC3T21O.cut C2/Q52MMN05D0CU000AC0UT1O.cut C25/SQ2I25N6DC03TOOOUM3T1O.cut e25/I2OWSX07Vc03T000C03C?21C.cut C25/SO25INOODCOUGOooCa321O.Cut C25/S02ASN09DC0UT00AC03T21O.CUt C25/S02A2SN10DC03T000lC03T210.cut Tape Backup file lame aISfl.617 alSfl.610 al*tl.613 allfl.620 a*Sfl.621 allfl.622 aISfl.623 aIlfl.624 a1lfl. 625 a*Sfl. 626 file Date (output) rib 20 1997 reb 20 1997 rib 20 1997 rib 20 1997 Neb 20 1997 rib 20 1997 rfb 20 1997 reb 20 1997 rib 20 1397 rib 20 1997 file Size (Bytes) 126374 128046 128461 128544 128627 128627 128710 128710 128710 128710 rile Type (fotat)

ASCII MSCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment ritle: Sequoyah UnIt 2 CRC Deletfibn Cidculations Document Identifier. B00000000-01717.0210-00005 REV 00, Page 26 of 26 C25I502125Na1ID3C0oOQAc3:210.Cutt C2518=2S2N12DC03:000AC03'210.cut C25/SQ2AIS CTDCOC:001MT21G.Cut C25/602a2N14C03?00OCA3T21@.Cult C25/50232NlSvC0S7000ac3u~lG.Cut C2S/S02325U6DC03TG00AC*3T2lG.cut Computer rile vam C3O/802I3N01lDC03TO00AC03T210.c~st-C30/S021!0202C0CC3T DOWDST1311.cut C30/IQMOND3 DMST OCC=TDA 3111.cut C30/80MO3 SO 10C!M OAO 1111.cut C30/S02J3I130DC0!TOO0ACGiTIlO.cut (3110213 ON1CC! T000AC03T21O.cut C30/80MAOEO7=3T100AC03721O.cut (30/SQ22OVGD03Tc!!O00=3T21G.cut C 30/SQM330901 0C1*lAe03T2lO.cut C30I8Q2A30K1ODC03TO000Ac3T2lO.cut C30~233G/S 1vc013700aC0372lO.Cut C30/8023ON12CO3T000AMT3210.cut, e30/S=ONA3Ou3TCfOO0AC03T2l0.cut.

e30/8~a0ElN4DC03TCOOJae03l210.cut C30/S=0KlSV15C03T000AC3T21@.cut a30/l30a3s6DC03:O000ac3T2lO.cut.

flefl. '27 alufl.628 aZ,1f. 623 alut1.630 MU1. 631 attfl.6 32 Tape lackup Tle Name.

-aU~l

.633 ialnl.634 aflfi.635 di1fl. 636 ullf. 637 alift.638 sall 1.639

£Ilft.640

&1Z11.641 allft.642 aZif1.643 aitil.644 1.111.645

&sfll.646 aZlZf.647

£iflZ.648 ftb 20 1197 fob 20 1397 rob 20 197 tab 20 1997 J b 20 1397 rob 20 1397 Mlie Date rue s1ie (output)

(Bytes) feb 20 1997 1238S6 leb 20 1397 126038 reb 20 19S7 126358 Tlb 20 1997 126524 lab 20 1397 126524 feb'20 1917 126524 reb 20 1317 126524 rob 20 1397 126524 lab 20 1337 126524 rab 20 1397 126524 rab 20 1397 126524 rob 20 1397 126524 reb 20 1397 126524 rob 20 1997 126358 reb 20 1997 126038 rob 20 1997 128356 128710 121627 128627 128544 128212 124935 ALSCI A.SCI ALSCI

'LSc!

ASCII I'Sc?'

rile Type (rormat)

ASCIz ASCII "LCII ALSCII ASCI ASCII ASCII ALSCI ASCll ASCII ASC1:I ASCII ASCII LScuZ ASCII ALSCII

Waste Package Operations Engineering Calculation Attachment Tite: Sequoyah Unit 2 CRC Deoletion Calculations Document Identifier. B00000000-01717-0210-M0005 REV 00 Attachment III, Page I of It This attachment contains the "*.notes files that were generated by CRAFT during the depletion calculations for Sequoyah Unit 2. These files are referred to as "*notes" files due to their ".notes" cxtension. The,.notes" files are contained on an attachment tape of this calculation file (the attachment tape has been moved to Reference 7.7). The information contained in this hard-copy representation of Attachment U

is a listing of the various ".notes" files and their attributes. The file sizes listed in the following table are the file sizes as they appear on the Hewlett Packard (HP) Series 9000 workstation. The HP file sizes differ from the file sizes on the attachment tape due to the difference in the block sizes between the HP and the personal-computer.- The tape containing Attachment III was written using the Colorado Model T1000e External Parallel Port Backup System for personal computers.

Cemputez

.Tape Backup nile Date File Site rile Type rile Name rile ama (output) layteso qruzat) a0/SeQ2aosNO1DCO3T000AC03m lO.motos arreII.

reb 20 1937 1147 ASCII AO6SO2AOSNO2DCO3STOOAc03T21.notes a*n.1r2 fob 20 1937 3140 ASCII AOI/SQ2Ao5NO3DCO3TO00Ac03T21.aotes aII.Xf3 rob 20 1997 9437 asCII Ao6/SQ2AW5W04DC03TO0T T210.nctes

• n.Sft lob 20 1997 9395 ASCII Ao6ISO2AoSYsMDCTOsooAoSm210.notes

• In.Ifs rob 20 1397 9453 ASCII ao6/sQ2Al5NO6QC03TO0o0ACO3T2l0.aotes

• SIISf6 rob 20 1937 9440 ASCII A06/SQ2AOSN07DC03TOOOAC03T21O.uotes

&II.l17 reb 20 1937 3440 ASCII AC6/SQ2AfSWOODCO3fOOOACO3T21O.notes aII.Ifa rTb 20 1397 9444 ASCII A06/SQ2AOSNODC03TO0C03T21O0.notes aII.1f1 fob 20 1997 9446 ASCII AfL06S02AOSN10DC03T00aCO3T210.aates aIII.flO Feb 20 1937 442 ASCII AO6/SQ2ADSNXIDC3TOOOA.C03T210.cotos OIIr.fll leb 20 1937 9450 ASCII A06/sQ2AD5N12DCO3TXOOACO m110otesa aIIr.i12 rob 20 1997 3436 ASCII A06/SQ2AO5N13DdG3TOO0ACO = 10.notes axII.Zl3 reb 20 1397 9452 ASCII A06/SO2AD5SV1DCO3TOOOAcO3=21O.motes aIrI.fl4 rob 20 1937 3436 ASCII A/6/SO2AOSNISDCO3TOO0ACO3T21O.otes a* I.fl5 reb 20 1937 9477 AsClI

&06/sQ2AOSN16DCo3TOooACo3T21o.mates aIII.flg rlb 20 1997 1113 ASCII A06/50216(OlDCO1TI47ACO2TOOO.aotes

• aII.f17 leb 20 1937 17308 ASCII

£06/SQ2Ao6No2DCo1TI17ACo2TOOO.aotea aiII.fle lob 20 1937 13916 ASCII A06/SQ2A06N03DCO1T1I7AC02TOOO.aotes aIII.ft1 rob 20 1937 13443 ASCII A06/SQ2AO6NO4DCO0T1I7AC02TOOO.motes

• III.f20 leb 20 1997 19809 ASCII a06/nQ2A06M05DCOTI1S7AC02TOO.aotes

&III.f2l reb 20 1937 19872 ASCII A06/802A06N06DCo0 U IAC02TOoo.aotes aIII.f22 leb 20 1997 19980 ASCII a06/502A06No7DCo0T187ACo2TOOO.aetes aIII.f23 leb 20 1337 20221 asCII

&06/SQ2AO6NO8DCOITIU7ACO2TOOO.notes aIZX.f24 rob 20 1937 20273 ASCII A06/3Q2A06MC0DC01?T7AC02TOOO.notes

• III.t2S rNb 20 1997 20323 ASCII A06/sQ2106N1oDC02177ACo2TOoO.maotes

• rII.f26 rob 20 1997 20310 ASCII a£6/so2AD6SN11vCo137AeC02TOOO.motes

• rII.f27 reb 20 1197 20271.

ASCII A06/SQ2A06N12DCO0S127AC02TO00.eotes aIII.f23 leb 20 1997 20094 ASCII A06JS02A06N13DCOIT1S7AC02TOO.motes a*II.f29 reb 20 1997 13832 ASCII a06/SQ2Af6Nl14DCOlTLI7Ac02TOO.aotas

• III.f30 leb 20 1997 11754 ASCII Ao6/SQ2Ao6NlSDCOITI07ACo2TOoO.motes

&III.f3l Jeb 20 1997 19325 ASCII A06J/s2A06Nl6DCOIT117AC02Tooo.actes oI1I.f32 lob 20 1997 17645 MCIl A06/50UO2B01DC02TO0AC02T145.enotes

• rII.f33 lob 20 1997 9054 ASCII A06/602AO8MNOWC02TSIACO3TOO.notes

• 11r.f34 lob 20 1997 13024 ASCII A06/SQ2a08u02DC02TOOC02T145.notea 0111.f35 reb 20 1937 9359 uMCII aO6/SQ2A8N120Cw02T145AC03TOOO.notes aIII.f36 leb 20 1397 19144 ASCII a06/5Q2A08N03DC02ToooaC02T145.notea aIIrf37 lob 20 1337 9445 ASCII A06/SQ2AO8N03DC02T145AC03TOO0.uotes

&III.138 rob 20 1197 19617 ASCII A06/SQ2A08N04DC02TOOOAC02T145..otas atI.D39 loeb 20 1997 3537 asCII a06/S02Ao0S04DC02T145Ac03Too0.aotes 0111.f4O reb 20 1937 19824 ASCII A06/SO2AO8NOSDCO2TOOOACO2T14S.notes azII.f4l lob 20 13997 3600 asCII a06/SQ2Ae8MOSDCO2TI4SACO3OOO.notes 0111.f42 Neb 20 1997 13818 ASCII A06/0Q2AD8NO6DC02TOO0AC021s45.notos aIII.f43 rob 20 1997 9574 ASCII A06/SO2aD8MO6DCO2TI4SAC3TOOD.notes aIII.f44 reb 20 1937 1S762 ASCII Afl6/S2AO8uO7DCO2rOOOACO2T145.noteos aIII.45 reb 20 1997 9576 ASCII A06/sQI2aD8N7DCo2Tl4SACo3TOOO.notes ZIII.f46 lob 20 1997 13762 ASCII A06/sO2A08908WCO2M00=AC02T145.aotes arIr.f47 rob 20 1997 9570 ASCII ao6/502A8RO8DC02T145AC03TOOO.notes aIII.f48 rlb 20 197 19768 ASCII A06/302a8Mo09DC02TO00Ac02T145.notes

&III.f14 Nob 20 197 9584.

ASCII Ao06/Q2AD8W09DC02T145Ac03Tooo.aotas aIII.tSO rob 20 1937 13750 ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Depleti6n Calculatons Document Identifier. BOOOOOOOO-01717-0210-00005 REV 00 Attachment M, Page 2 of IS AO6J8Q2AOSlUJDC02TO00AC02T14S.rotes

&III.f31 reb 20 1997 35SO ASCII A06JEQ2A08SlODCO2T4SAC032000t.otes eISI.f52 rob 20 1197 19748 asCII A061Q2A0SN11DC02TO00AC021435.notss

• ISS.f53 reb 20 1997 9S86 ASCII aO6I2A7?OSNllDC02T54TAC035000.uates III.fSZ4 rob 20 1397 11754 AMCII a06/SQ2A*8NM2DC02T000ACO2I14S.notos a*II.fSS rob 20 1397 9584 asCII A06/UQ2AO1112DC02T143AC03rr00..tes MIMS.tS6 rob 20 1397 19754 asCII

£06/SQ2AlOlN3DC02TE00AC02I14S.uotes

• III.tf7 rob 20 1997 1s59 ASCII

&O6/5S2A0UN23C02T145AC03TOOO.otoes SXSz.fsS reb 20 1997 19770 asCII A06/8Q2A0U814DC02TOOOC022T4S5notes SS.0fS9 rob 20 1997 9157 aSCII A06/8Q2AD9N14DC02TCM ORCOUTOO0.notes

• SSS.t60 rob 20 1997 19667 MSCII aM615Q¢AflhNSDCOZTO0AC02:14S.aotes

• S1S.f61 rob 20 1397 3294 asCII aO6/SO2A89N1SDc2T14SACo3soOO.aotJs aIII.C62 rob 20 1997 19144 ascIs AO6/5Q2A=8Nl6DC02TOOOAC02T14S.&*tss

• SSSIf63 rob 20 1997 3170 ASCII A06/3Q210SN16DC02TI45AC023TO00.otes SSSI.f64 rob 20 1397 13160 asCII Computer Tape xacjvjp rile Date rlle size rile Type nWle mane file Wame (Output)

(Bytes) forsiat) as/sQ2A4NClDC02T0AC02T145.motes MIM.S6S reb 20 1997 a5so ASCII AO$/sQ2A=4NolDC=2Tl4SAC03T!OO.not*s SiSi.66 rob 20 1997 11094 Asel A8/Sg2AW4N02DC02TO00AC02T145.&otes aZIIIf67 rob 20 1937 9213 ASCII A08ISQ2A04ND2DC02T145AC03TOO0.aotes SSSx.f6S fob 20 1997 20050 asCII a18/SO2AO4I2DCO2TOOOACO2T14S.aotes aI*I.S69 reb 20 1997 1379 ACII ADS/S02A=4N03DC02T145AC03SOOO aotes aIII.270 rob 20 1997 20191 asCII A08/602Afl4W04DC02T2OOAC02T145.aotes a111.971 rob 20 1397 9413 asCII AOS/SQ2M4NO4DC02Tl45Ac03TO

..otes

&IsI.n72 rob 20 1997 20257 asCII AOS/SQ2A04NOSDC02 0SooAC02T145.motes

• III.f73 rob 20 1997 1395 asCII AD8/5Q2AO410SDC02T1451C03TO00.aote

&121.74 rob 20 1997 20241 ASCII AOD/sQ2AO4NOMU DCO2TOCOACO2145.otes aI*s.n75 rob 20 1997 9363 asCII A0/8/02A04NO6DC02T145AC03TOOO.motes

• ss1.n76 rob 20 1997 20143 asCII AOS/SQ2AO4NO7DC02TOOAC02?145.mates

&XZI.277 rob 20 1997 9349 asCII ADS8/02A04NO7DC02T4S5AC03TOOO.otes

• sss.n78 rfb 20 1997 20091 asCII

• 8ah/g2A04N1D0C2OITOOC02Tl4.3otes sIsI.n2s rob 20 1997 9345 ASCII aos/502Al04NoDC02T4S5AC03TOOO.aotes

&XII.f8o rob 20 1937 2005 asCII AD8/SQ2AD4N09DC02TOOAC02T145.notes

.111.f1l rob 20 1997 9351 asCII AD8/gQ2A04N09DCO2T1453C0TOO0.motos

• sXs.r82 reb 20 1197 20099 asCII AO/802A0OlODC02TOCOAC02Tl4S.nots alSi.83 rob 20 1997 9321 asCII ADS/902AO4lUD1C02T14SC03TOOO.uotes

&IIZ.f84 reb 20 1997 2011S asCII ADS/SO2AO43N1DCO2TOOOAO2Tl4S.uotes

&III.83 rob 20 1997 9333 asCII A08/SQ2AO4N1lDCO2T145Ac03TOOO.motes

• 2ss.is6 reb 20 1997 20109 ASCII A08/5Q2A043120C02?O0001C02T145.otes

&III.f87 reb 20 1397 9323 ASCII A0/S02AU04Nl2DCO2TL45AC03TOO.otes atII.8s8 reb 20 1397 20105 IscII AO8/S/2AO4N23DCO2T000AC02T145.aotes aIII.289 rob 20 1997 33S5 ASCII aos/502AO4Nl3DC02T145A1C03TOO.aotes aII*29.o reb 20 1997 20107 asCII a1OIs02AO4Nl4DC02TOOCC02T145.uotes aIII29sl rob 20 1997 9359 ASCII AOSISO2AL04NU1DC02THS1AC*3TOOO.otes aIII.22 rob 20 1997 20107 ASCII AOR9SQ2AC4NlsDC02TOO0AC02T?45.aotes

• III.293 reb 20 1997 9297 ASCII As8/3Q2AD4N1SDC02T14Ac03To0o.notes

&1112f94 reb 20 1997 19959 asCII Ao8/SQ2A0o4Nl6DO02To0oAC02T14S.otes aIII.295 feb 20 1997 8972 ASCII a£O8102AO4Nl6DC02T15AC03TOO0.otes

&II.246 reb 20 1997 19058 ASCII ADIS02AosNODcoTlUT7AC2TOOO.aoteus

&III.27 rfb 20 1997 16706 ASCII aos/IQ2 swN02DCo0Ts17AC02TO0oaotes a111.238 reb 20 1997 17892 ASCII AO/SQ2ADONO3=C1TI87ALC2TOOO.aotes 2IIs.t9s rob 20 1997 11675 ASCII a08/SQ2AODNO4DC0OTI17AC02TO00.aotes A2.tM100 rob 20 1997 19031 ASCII A0s/sQ2AOBNOSDCCOTZS7ACO2TOOO..otes a112.lol rfb 20 1997 19264 ASCII AOS/8Q2A8306DCOT187AC02TOO.saotes

&lIM.102 rob 20 1997 19364 asCII aO9/8s2ADU8O7DCOITs87ACo2TO0O.otes

• SSIt.103 rob 20 1397 13370 asCII A0s/Q2A sD9UODCOIT187AC02TOO0.uotes aII1f.104 reb 20 1397 19327 asCII A08/SQ2ION0O9DCO1TI87ACO2TOOO..otes aIII2.105 reb 20 1997 19403 ASCII AO8/UQ2AO9N1ODCO1T1S7ACO2OOO.motos

.1t.1206 rob 20 1397 13411 asCII AOS/SQ2MBNl1DCOITOUIAC02!OO.uotes aIII9.107 rob 20 1997 19409 ASCII AOS/3s2A58312DC01T197AC02To0o.aotes a111f.108 rob 20 1997 19369 ASCII AO/5028osln30DCol0l7aC020oo0.motes

.111f.109 reb 20 1997 13305 ASCII AOI/SQ2ADSIl4DCOlT187Ac02T 0.8aotes s

a rif. 110 reb 20 197 18925 asCII A0/SOQ2ASNLSDCO1TLU7ACO2TOOO.notes s0121.111 fob 20 1397 13137 asCII A01/IQ2 N0816DCOl187AC02TO0O.otes

&lXIM 112 rfb 20 1397 17025 ASCII At9/SQ2AL1NOlDC03TO000AC3uZ.notes aZZIf 113 rob 20 1397 3202 ASCII

'A0SJSQ2A16t02DC0SOOOAC03T210.Iote S

• 11fs.114 fob 20 1997 9332 MCII AGO/SQ2&16N03DC03TO0ACO 3T21C.notes

• SSlt 115 rfb 20 1397 3570 ASCII A8/SQ2A16N04DC03TOOOAC3S210..ots alIf.

116 fob 20 1997 3528 asCII AfO8/102A1QOSDC03TOOAC03T210.uWtes allIf.117 rob 20 19S7 9496 asCII

Waste Package Operations Engineering Calculation Attachment Tie: Sequoyah Unit 2 CRC Depletibn Calculadons DocumentIdentfier. BOGOOOOOO.01717.0210-0Q000 REVO 00 Attacbment

, Page 3 of 18 t

AO8S02A16N06DcO03!OcACOU21O motes aOSaS2A16S07c03T00AOco3s2o.aotes a08/802A16R08DC03TOOACOS210.mtes MOU/So2AI6R09DC3T000aOO3T21O.ots A0sI8s216R1XODC03TOO0AC03210.aotes a08uo nQ216Nlw3co31oaACoo3Tzs1 otes afO/O02A16R12DC03OOGAcOU321O.motes A08/SQ2A16R13DC03TO0OAC03T21O.aoteJ A08/5Q2A16N14DCO3TOO0AcC3T210o ates AO8/802A16H1SDC03001,cA03T21C.notes AO8/sQ2A16316DC03TO00AC03T210.moteJ alit.118 alUf.11l MU.120

• SUUf.121 aIIS

.L22

£UUf.123 aUZll.124 aSXUt.125 azzUf.126 alI£t.127

• U5. 128 rob 20 197i feb 20 1397 rob 20 1397 rfb 20 1997 Feb 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 reb 20 1997 feb 20 1997 3 504 3530 3506 3436.

3508 9516 9564 9564 9576 9481 9214 ASCII

'SC::

25C12 ASCU ASCII ASCII ASCII ASCII asCIu

'~Sc' Copute?

rile Name AlS/s0a1Wi01c;02T00C0C2T145.aotus Al/SQ2a10N01D2fOAl45c203T00.motes A15/SQ2A10I020C02S1T0AC0O2T45.aotos A15/02M0J2A 02D S2'145AC03T200.aote A15 /8MO2a03DC02T:0C0C02TI45.sotes A15/SQ2AlONO3DC02T1451c03TOO.aote" al5/S02Al0104DC02bO00AC02Tl4S.motes al5$/02A10N04DC02T145£e03TOOO.motes

£USI302A0O305DC02TOOAC02?14S.uotes A5/bO2AONV05DC021I4SAC03zOOO.aotes AI5/S02Al0O06DC02TOOAC02T145.motes

£151/02I0UO6D02T14SACOSOO3.sot s U S/502AlON07DC02TOOO0C02T245.motes A15/802A10107DC02fl4SAC03?OOO.aotes A15/S02AOUN08DC02?OO0ACOM2l4S.notes A15/S12610NOSDC02fl4SAC03700.noteJ AIS/802AlOlt9DC02TO00AC02Tl4S.motes alS/S02A10N09DC.02Tl4SAC03TOOO.otes AlS/Q2A10111NDC02TOOAC02T145.mSotes AlS/S02A1ON1O0C02TI4SAC03TOOO.notes AIS/S02A31O11DC02TO0OAC02Tl4S.notes AIS/S0211ON11DC02145=C03TOOO.otes 15 I302A1O212DCO2TOO0AC02Tus.notes al5/S0M2UoV2DCO2T145AcC3TO00o.otes aISJsQ2A10N13D02TO000AC02h145.motes Al1S/Q2A11013DCO2T0I45AC03T00.aotes a5SOM2AlORUl4DcO2TOOACO2CU4S.aotes I5/102A0ORIM4MC02T14SAC03TOO.zotes AI5/S02A10$15DC02T000A 02T45.notes AI5/SQ2AlONlSDcO Z ?T45=c3OOO.motes AlS/02AMOR3ODC02000AC02TI43.notes alS/Qs2alOBlsDc02T4SaCO3TOOO.motes s15/SQZA1SNOlDCol187aC02Tooo.motes

£L15/8Q21502DCO107AC02TO00.mot.s

£L5A/Q AlSNO3OCOIT?87aC02TOOO.mot.s a15/502A1SNo40Colt187aC02Tooo.motes

£l/SI021SNSWD~COT1S87aM2TOO0.motes

&1S/SQ2AI5NO6Dc0=1TI7aeO2ooo.mot4J AIS/BQ2A15NO7DcO0117AeC02TOO0.aoteas al$/IQ2alSNO8DcOlT187a0o200.aotes a25n/92A15S09DO01T187AC02TO0O.motes AlS/802£15N1NODCO10T7AC02TOOO.notes aIIS/Q2alSN11DCOl1lT7aC02TOOO.noteu A1S/5Q2l5Ul2DCOlTlI7ACo2TOOO.DoteJ a1S/so2A1SW13DCO1sT17Ac02Too.notea A15/802a1S114Dc01T18ac02TooO.motes a15/5Q2A1SNISDcOIj187acT2oOO.notes A15/50 2A5N16DCOTI87AC0270OO.notes AlS/SQ2 MINODC03T000AC03T2o1.aotes AL15/lQ2£102DC03TO01Ca03Tl21.motes AlS/3Q2alNO3DC03TO0A0C03T210.notes A1S/SQg2alN04DC03TOOOACa321o *.otes A15/SQ0A11NOSDC03TOOAZco3T21l.3ote5

£15J/02QS306DC03S2OOAC003216.Motes A15/8S2£18N07DC03TSTOAC03T210.notes Al5/SQ2A11N0SDC03T0O0AC03T210.otum Tape Backup File Name aUtt.3129 a::1t.L3

&I.M131 altf.132 alllf.133 alll.138 921zf.135 afltf.136

&flII.137 alIf.139 S1f. 133 a*ISf.141 atUf.142 afllf.144

£UUf.146 lZllf.147 aUtSf.150 aftlf.162 alSif.153 aflhf.1S4 9UU. 155

• 2Sif.lS6

£1136. 156 azSif.160 alUZ9.161 a:::f.163 allif.154 aZZUf.163 iSitf.166 aIIsf.167 aZUxf.16, al::f.169 alSU.170 a?:f.171n asll.172 afss.273

• SSt.174 aIXSt.17S d113.176 aSIf.177 a1ilf. 17 alllf.179 aX:Zf.180 alllf.11 a:::f.182 a131f.1S3 alllf.184 rile Date fOutput) rob 20 1397 rob 20 1397 fob 20 1397 feb 20 1997 feb 20 1397 feb 20 1397 feb 20 1397 feb 20 1397 feb 20 1397 feb 20 1397 reb 20 1997 reb 20 1997 rob 20 1397 rob 20 1997 feb 20 1397 rob 20 1397 feb 20 1397 fob 20 1397 fob 20 1397 rob 20 1997 feb 20 1997 reb 20 1397 rob 20 1997 rob 20 1997 feb 20 1997 feb 20 1997 rob 20 1997 Fob 20 1397 rfb 20 1397 reb 20 1397 rfb 20 1997 feb 20 1397 reb 20 1997 reb 20 1997 reb 20 1997 fnb 20 1397 rob 20 1397 feb 20 1997 rob 20 1397 feb 20 1997 rfb 20 1997 reb 20 1997 rob 20 1397 rob 20 1997 reb 20 1397 rob 20 1397 fob 20 1997 feb 20 1997 rfb 20 1997 fob 20 1397 fab 20 1997 rob 20 1997 Feb 20 1997 fob 20 1997 feb 20 1397 fob 20 1997 fob 20 1997 (lytes) 19285 9197 20116 3375 20291 3413 20405 9335 20239 9331 20111 33S5 20091 9321 20089 3329 20089 3319 20099 3325 20103 9323 20101 9347 20101 3363 20111 3373 19960 057 19068 16839 17873 18746 13208 19310 19388 19440 19432 13420 19438 13426 19434 19316 13111 18382 17158 9216 9376 9516 9512 9512 9510 SS14 3512 file Type (fommat)

ASCUI ASCII ASCII ASCII ascs:

ascr:

ASCII ASCII ascrs aSU I

'scu

'SC::

asus ascss ascIs ASCII aic::

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Waste Package Operations Engineering Calculation Attachment Tilde: Sequoyah Unit 2 CRC Dej5tibn Calculations Document Identifier. BOOODOOOOO01717-0210-005 REV 00 0

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• SIMf.192 rob 20 feb 20 feb 20 frb 20 feb 20 feb 20 reb 20 Feb 20 1397 19S7 1997 l9SL7 1397 1397 1397 1997 3504 9514 3514 9514 3570 3558 3525 3216 asCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII cooputo:

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• SIIf.2l8 al22f.219 alllf.220 a*iIf.221 alllf.222 aflIf.223

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(

'output) reb 20 1997 Feb 20 1397 rob 20 1397 reb 20 1397 rFb 20 1297 reb 20 1397 Feb 20 1397 rob 20 1397 rob 20 1397 reb 20 1397 reb 20 1397 rFb 20 1997 rob 20 1997 fob 20 1397 Fob 20 1997 rob 20 1397 rob 20 1397 Feb 20 1997 reb 20 1397 Feb 20 1397 reb 20 1N97 Feb 20 1397 reb 20 1397 reb 20 1397 rFb 20 1997 Fob 20 1397 rFb 20 1397 rFb 20 1997 Web 20 1397 Tob 20 1997 reb 20 1997 reb 20 1997 Feb 20 1997 fob 20 1997 Feb 20 1997 reb 20 1997 reb 20 1997 fob 20 1997 Feb 20 1397 reb 20 1997 reb 20 1397 reb 20 1997 reb 20 1397 reb 20 1397 reb 20 1397 reb 20 1397 reb 20 1397 reb 20 1397 reb 20 1397 reb 20 1397 rob 20 1997 rob 20 1397 reb 20 1397 rFb 20 1397 reb 20 1397 reb 20 1397 rob 20 1397 Feb 20 1397 Fob 20 1397 FlMe 6Ife

('ytes 6307 16992 3166 13909 9267 20108 332S 20201 3313 20193 3307 20107 3309 20107 3321 20101 9307 20113 3323 20105 3369 20105 9413 20099 3361 20101 3363 20010 3207 19968 5964 19004 9242 9350 3513 3612 9602 3566 3584 3534 3570 3570 3560 3584 3576 3608 3430 3216 16624 17706 16401 13807 19035 13263 13255 19307 13269 13289 19292 File Type Frozat)

MSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII aCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

&SCII ASCII

&SCII ASCII ASCII ASCI I ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII

Waste Package Operations EngIneering CaIculation Attachment Me: Sequoyah Unit 2 CRC Depldd6tn Calculabtions Docunt Identifier. BOOOQOOOOO01717-0210-00005 REV 00 Atachment l, Page S of 18

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.1lif.261

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• IIIf.273 az1i1.274 SUlC.27S a1111.276 a2111.277 allif.278 XIIEl.279 f112f.2s0 a1lif.281 aSSif.2E2 alli.213 a1111.284

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• SIf.312 aXIIs.313 alut1.314 aSSSC.315 asitt.316 allif.317

.a111.318 file Date (Output) feb 20 1997 reb 20 -197 reb 20 1997 reb 20 1997 rob 20 1997 rob 20 1197 rob 20 1997 feb 20 1997 feb 20 1997 feb 20 1197 fab 20 1997 Feb 20 1997 Feb 20 1197 Feb 20 1997 rob 20 1197 feb 20 1997 rob 20 1397 rob 20 1997 reb 20 1197 rob 20 1397 feb 20 1S97 reb 20 1997 feb 20 1997 rob 20 1137 tab 20 1197 reb 20 1997 rob 20 1997 feb 20 1197 rob 20 1197 rob 20 1197 rob 20 1997 fob 20 1197 feb 20 1197 rob 20 1997 feb 20 1397 feb 20 1117 feb 20 1197 reb 20 1397 feb 20 1997 reb 20 1997 rob 20 1197 rob 20 1997 fab 20 1397 feb 20 1997 tfb 20 1997 rob 20 1397 Feb 20 1997 fob 20 1997 feb 20 1197 rob 20 1197 Feb 20 1197 rob 20 1997 feb 20 1997 fob 20 1997 Feb 20 1997 reb 20 1397 rfb 20 1997 reb 20 1197 feb 20 1997 feb 20 19197 feb 20 1997 feb 20 1997 rule Site

£3yteso 3907

-11106 9166 20011 1287 20205 132S 20209 3311 20119 3307 20193 1309 20105 9321 20107 9307 20099 1323 20045 1369 20055 1413 200SS

• 361 20109 1363 19S52 9207 11962 6964 11008 9236 9340 9542 9548 3554 1538 1544 9534 9S50 1548 9602 9616 1434 9170 14624 17706 11401 16807 11035 19263 1125S 19307 19289 11289 11292 19269 191111 16743 rile Type frozat)

ASCII ASCII ASCII ASCII ASCII ASCII.

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII.

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Dejldton Calculons A -*

Document Identifier: BOOOooOOO-01717.0210-000S REV 00 4, Page 6 of 18 II A21a/8O2A1N15=C1T3137aCQ02Oob.aot*2 1.2la5QM11N2GDC01T1B72CO2T0O00.aote

&XIMf319 alllf.320 rob 20 1397 rob 20 1997 17928 16732 asczz ASCII computer rie Name A25/SO2ASO1V.CO1T287AC02T000.notas A25/1Q M SN02DCI01U7AC02T000.notos A2S/992225YOUCCIT1I7UCOMT00..otes A.25150 5X040CO01117AC02T000.notes

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a2111.382 ait.383 atilt.384 tile Date loutput) rob 20 1997 fob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1197 teb 20 1197 rob 20 1997 reb 20 1997

.tab 20 1197 reb 20 1997 fob 20 1997 fob 20 1997 tab 20 1997 reb 20 1997 reb 20 1997 retb 20 1997 tab 20 1997 tab 20 1997 reb 20 1997 rab 20 1197 rob 20 1997 lob 20 1397 reb 20 1997 rob 20 1397 teb 20 1197 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rtb 20 1397 reb 20 1197 reb 20 1S97 reb 20 1197 rob 20 1197 reb 20 19S7 rob 20 1997 reb 20 1997 rob 20 1997 reb 20 1397 tab 20 1397 reb 20 1997 reb 20 1197 f b 20 1397 reb 20 1997 reb 20 1997 reb 20 1397 rtb 20 1197 reb 20 1997 reb 20 1397 reb 20 1197 rtb 20 1397 reb 20 1997 reb 20 1997 rtb 20 1397 reb 20 1197 rtb 20 1997 rob 20 1997 Rtle 6s1e (Byto:)..

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Waste Package Operations Engineering Calculation Attachment Tite: Sequoyah Unit 2 CRC Depletion Calculations Document Identifier. BOOOOOO-01717-02100000S REV 00 Attachment II, Page 7 of 18 I

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25/SQ2A2UB3DC02Tl45AC03TOOO.notes a25a&sQ2A283O4DcO2TOAcO02Tl4S5.aotes a25a1S02A28S04DC02Tl45103SOO.notes l2Sat8Q2I2805DC02T00AC02Tl4S.aotes A25&a132A28N05DC02Tl45AC03TOOO.uotes A2Sat3Q2A28NO6DC02TOO0AC02T145.notes a25&/S02A28306DC02T14SAC03TOOO.notes a25a1SQ2228N17DC02TOO00c02Tl45.aotes A25&/SQ2l2SN07QCO2T45A103TOO.notea A25alS32A283N8DC02TOOAc02Tl45.aotes A2Sa/S0ZA23NO8DC02T1siAc03TOOO.notes a25a/SQ2A2ON09DCO2TO00AcC02?45.notes A2Sa/3Q2123N09DC02 4 SC03TOOO.notes A2Sa/6O2A281ODC02TOOOAC02Z4Sa.notes A2Sa/S02123N10DC02Tl451c03TOOO.notes A2Sa/I0212N811DC02TO00AC02S145.notes a25a/S02A23N11 C02TSl45c03TOOG.Rote3 A2SaS02A2/S 2.2DC02TOOAC02T1453.notes A2Sa/So2l28h12DC02flS4C03TOOO.noteJ a2Sa/8Q2l23hl3Dc02O000Ac2Ti45.notes A2SaSQ2A283N3DC02Tl4SAC03TOO0.notes a25e/so2A28Nl4DC02?OocO02Tl45.notes A25a/SQ2A28N14DC02TI45AC3TSOOO.notas I2Sa/802A28N1SDc02TOO0c02T145.notes 125a/5021283l5Dc0m41c03?sO0O.notes 125aiSQ2A28N16DC02?OOAC02Tl45.notes A25a/SQ2A2ONl6DcO 24AACO 3TOOO.notes A25a/S02A31N01DC03T0OOAC03M210.notes A2Si/fg2A3102DC03ThOOAC03T21O.notes A2SaJSQ2S31N03DMO3=:3Tc03T2lO0.notes A25a/3Q2A31N04DC03TO0OAC03S210.motes a2sai0Q2a31N0s5c03TO0ooc3210.notes A25a/SQ2A3l306DC03T0OOAC03?210.notes 2a5s/sQ2A3lIO7DcO3ooACo03T210.motea A2SW SQe52A030C03?OOAC03T210.notas a25ai802130390CO3T000Ac032210.notes a25a/SQ213lu cO3TOO0AcO3T2U1.notes A2Sa/SQ2AZNllDcO3TO00AC03211O.notes a5ZSQ/2L31N12DC03Tho0ACo3T210.notes 125a/6Q2A3112CO3?SOOCOlC03O210.otes 2.Sae/02a31N14c03TO000Ac03T21notes 2Sa/S0213$1NSDC03TO00AC03T21o.notes 525a/g02A31NDC03T0o00c03Tl10.motes Tape Backup rile rame allf.385

.ng.s386 aZZC.387 illlf.38 aSSf.389 alSf.390 alif.391 IUZf.332 4IUf.393 eltf.394 a*sit.395 a11Z9.396 aUtU.337 aXI. 398 aZZUC.399 arfrf.400 uIZtf.401 aZUht.402 atlUU.403 atZtC.404

&sssr.40s sssr.406 alZst.407 aZllf.408

&Xf.409 aflt.410 aZssf.411 alsf.412 alllf.4L3 alll.414

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• S119.423 aflU.424 alllf.425 aSef.426 alSSt.427 SlItf.428 aSSUf.429

&XM.430 Slitf.431 asssf.432 aUUtf.433

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&SSXf.439 aUUxf.440 alSf.441 aSUf.442

• .fXC.443 asMf.444 aUSSf.443 SlSt.446 alIxt.447

&IIS.448 rile Date (Output) reb 20 1397 Feb 20 1337 Feb 20 1337 Feb 20 1337 reb 20 1997 rFb 20 1997 reb 20 1997 reb 20 1997 reb 20 1397 Feb 20 1997 Feb 20 1397 feb 20 1997 reb'20 1997.

feb 20 1997 reb 20 1997 feb 20 1397 reb 20 1997 reb 20 1337 reb 20 1997 feb 20 1397 reb 20 1997 reb 20 1937 reb 20 1997.

reb 20 1997 reb 20 1997 reb 20 1937 reb 20 1997 rFb 20 1997 rFb 20 1997 reb 20 1997 reb 20 1997 rFb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 Feb 20 1997 reb 20 1997 reb 20 1397 reb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 Feb 20 1937 reb 20 1997 rFb 20 1397 reb 20 1997 reb 20 1997 reb 20 1997 reb 20 1997 Feb 20 1997 Feb 20 1997 rob 20 1997 Feb 20 1997 reb 20 1997 feb 20 1997 reb 20 1997 Feb 20 1997 feb 20 1997 Feb 20 1997 rFb 20 1997 S b 20 1997 reb 20 1997 Feb 20 1397 rile Size (lytea) 17216 13436 13253 19439 13672 19732 19748 19790 19778 17386 19738 13734 19703 19462 19009 17440 9043 18344

'373 13308 3357 20235 3315 20312 3311 2038S 3358 20373 9366 20367 93538 20369 9414 20373 9408 20363 9408 20377 3410 2042S 3538 20419 3307 20270 9325 20067 3099 19317 3172 3463 9496 3438 3436 9436 9430

• 532 9332 9577 9589 9583 9583 93528 9520 9130 File Type (Teati

'SC::

'Sc::

ASCII ASCI:

ascrs ASCII

'SC::

ascnz

'SC::

aSCss ascIs ascz:

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asc::

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ASCII

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asc::

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AScI ascss ascII aszts ASCSS suc:

ASCUI aSCII ascII aSCrs ASC?:

ascrs ASCII ascII ascII ascrs

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'SCUI ascus SCIU ASCII ASCIc ASCIc asCus asCus ascru ASCI:

ASCUI ASCSS ascss ascss A8CSS ASCII ASCIS ASCSS ascss ASCSS ASCIS ASCII ASCII ASCSS ASCII asu:I asusI ascIr Computer rile Name Tape Backup file amA nFle Date (Output)

File Size rile Type (Bytes)

(format)

Waste Paclkge Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Depletion Calculations Docment Identifier. B00OOOOOOO01717-0210-00005 REV 00 Atacment l, Page 8 of 18 126/t02AO10lDC03TCCO0c3T210.uotes 126/S02AO1=02DC03TOOOACO3T210 motes AL26/302101303DC03zOOCAcMlT210.aotes A26/3021O1NO4Dc03TOCOCO3T2X m.otes A26/602R1NOSDcO3sooo AC3ST21G.uotes 126/SO2AOlNOSDcOCSOOOAcO3210 l.otes a26/Sc2A01u07Vcoso3TOOe3Ts210.mOtex a2M/S02aO10o3Dc0OO caO3AT210.motes AM6Q/S2A1O9DCO 3TOOA0O3T210 motes a26/sQ2aouSl0Dco3ToocA03T210.uotes A261802aO0lllDCOS3OOCO3210 motes a26/0s2a0oul2Nc03To0oaC0S3210.motes a26/8QO2aN1l3Dc01OOOACS!21C0.aotes a261sQ2a0ml0co03o000aC03T2l0 o.ates a26/s02A01N15DcC32Too0co32T0m.otes a26/802atO11DcO3soT0a0C03T21O.Motes A26/So2a17O0Dco2T0ooAC02T45.notes a26/602a17102lDc2145Ac03200O.aotes A26/302A17V32DC02T000AC02T145.Rotos a26/802a17902cC02T145aC03Too.motes a26/n 2Al7NO3Dc02TOO0002TI45.aotes a261502luO o3Dc02TOAc030ooo.Rotes a26/1Q2a7l40c02TOGOAC02THSl4.otes A26s102a17ND04cO2Tl4Sa3TO700aotes A26/SQ2Al7IO5DcO2TOOOaCO2T45.aotes a26/bQ2a17b060c02Tl45aC03TOO.motes a26/so2am706DC02o000ac02T145.motes a26/302a17b060c02s145ae3UT0OO.notes a26/S02A17NO7Dc02TO00AC02THS.motes a26/3Q2Al7NO78DC M 45AC03TO0O.motes a261Os2a1700cC02bOOaCo2s145.motes r 26/S02A1709Ddc02T45AC03TOGO.zotea a26S021L17JO9DC02T0oooa2l45.motes A26/sQ2al7109DC02T1451c03?o0o.notes A26/gQ2a7N1lDCO2TOOOAeO2T1S.notes

&26/5Q2a7KllVDC02TlSACO3TOO.notes A26/502A17N12DC02sOOOACO2T14S.notes a26/SQo2A7N11Dc=2T145Aco3Tooo.aotea A26/8Q2Al7120c02TO0001e02Tl45.notoa a26/3Q2A17112TcI27145.c=03TOO.motes A26/82a17313Dc02TO0OAC02T?4S.note2 a26/8Q2A17N14DCO2Tl4SACO3TOaO.notes a261302R l4Dc02COMOAC02T4SO.aotes a26/8Q2al7alt2Dc02TlI5Ac3TOOO.Iotes A2f/8Q2A1U71DCQ2TsOOACO2Tl0.notes A2G/302171t1SC02T145ACO2T145.notex A2$6/30A7N1DcO2T1$AC00ooo0.aotes A26502 M 6DcO2T007AC02TOsO.motes a26/U 2I7m 6DcOZ?167ACO3MOO.notes A26/502126NOwDC01T387aC027OO.notes A26n Q2126102DCOT117aC02boOO.motes A26n/Q2A2603CDCQ1TIS7AC02TO0O.zotes a26/302a26N10DCOll87AC02T000.potes a26/302a2610$DCO0ST7Ac02ToOO.motes a26/SQ2A26uo6DcOIT187ACo02To0O.otes A26/SQ2A26N27DCOITs17AC02TO0O.motes A26/SQ2S2ETO3DCO1T187AC02TO00.motes U 6/8021263ODCO1T137AC02OO.notes a2ISaG2a26U100cOITIO7aC02TODO.aotes A26/SQ12269N10COT1I7AC02TOOO.neots a26/SQ2a26N15Dc01687azO200.motes a26/SQ2a26Nl6Dc0llT7AcO2TOO.notes aIIzf.443 dxzlL.450 azIsf.4S1 aIIzf.452

.*IIIE.433 aZlIf. 454 azIzf.455 aIIIf.4S7 a*hf. 457 42M~.439 azIxf.460

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&XIMt503 art~f.504 azz16.505 azz16.506 atz1f.507 0116f.502 4111f.520 9111f.521 s12119.512 rob 20 1297 rob 20 1997 rob 20 1997 rob 20 1197 rob 20 1997 rob 20 1997 rob 20 1997 Feb 20 1397 rob 20 1197 rob 20 1997 neb20 1997 Feb'20 1997 Fob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rFb 20 1997 rob 20 1997 reb 20 1097 reb 20 1397 rFb 20 1997 rob 20 1997 Feb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 reb 20 1397 rob 20 1997 reb 20 1997 fob 20 1997 Fob 20 1937 reb 20 1397 reb 20 1997 Feb 20 1997 Fob 20 1997 Feb 20 1937 Feb 20 1997 rob 20 497:

feb 20 1997 reb 20 1397 rob 20 1997 reb 20 1997 Feb 20 1997 Fab 20 1997 rob 20 1997 reb 20 1997 tob 20 1997 rob 20 1937 reb 20 1997 Feb 20 1397 fob 20 1997 Feb 20 1997 reb 20 1997 reb 20 1397 rob 20 1997 reb 20 1397 Feb 20 1397 Feb 20 1997 fob 20 1397 3238 3346 3525 S855 3sis 3S87 9583 5385 95B3 3S5S 9'57 9531 624 9636 3402 9190 6832 19161 9092 20053 9176 20112 3113 20100 91S7 2010B 9230 20104 9246 20094 9244 20104 9238 20102 g¢50 20102 9240 20106 9234 20094 9238 20098 317S 20118 Soso 20041 8367 19122 16043 17340 17871 18280 15S54 18706 18786 18030 18850 18352 18870 187S0 18614 1i135 17631 14512 ASCII ASCII asc3I as 3 S ASCII ASCII ASCII MSCII ASCII ascii ASCII ascII ASCII ASCII ASCII ASCII MSCII MSCII ASCII ASCII ASCII MSCII MSCII ASCII MSCII aCII ACII MSCII MSCII MSCII ASCII MSCII MSCII MSCII MSCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII MSCII ASCII MSCII MSCII MSCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII MSCII ASCII ASCII ascss ASCII ASCIS Computer Fie Ilame A26al0S2A13NOlDC03TOOOAC03T210.oteas JL2ta/gQoa3UC2DC03TOCOACeTs21O.notes Tape Backup rie lame all f.513 a116f.614 File Date (Output) rFb 20 1397 rFb 20 1397 n.e Size (Bytes) 3233 9350 File Type (rormat)

ASCII MCll

Waste Package Operations Engineering Calculation Attachment tItle: Sequoyah Unit 2 CRC Depletion Calcutons Document Identifier BOOOOOOOO.01717.0210.OOOOS REV 00 Attacbment I, Page 9 of 18 f...i..1 a26&/8o2Al3NO3DC0sTOOw=3sulojiotes 26ea/SQ213N04Dc03TOOAC03T210.aotes a26a/8Q2Al3NODC03OOA0C0ST210.aotes 26a/IQ2Al3NISY06D=3T0AC03T210.otex a26a/S2a1SN0706c0S00aC03T210.aotbs A26a/SQ2aISNOBDCOSTOOOACO3T210.motes A26a1802A13NOl9D03TO0OAC03T210.uotes A26/802A13N10DC03?OOAC03210.notes az6aISQ2al3Nl2pO3TO000ac3T210.aotes U26a/SQ2A1SN1DC03TO000C03T210.aotes A26aISUQ213N13Dc03TCOAOC03T210.uotes A26a/8Q2AS113N103TOOOAC03T210.notes A26a/SQ2Al3NOIS3TO2OOACO3T21O.aotes A26&aIQ2A17N1DC03TO1OAC03T20.eotes A26a/SQ2A17l0XC02TO00AC02?104.notas a26a 8802Ail7N0DC02T24SAC03TS20.aotes Ua26IS02A17N0DC02TOOOAC02lI4S.aotua A2a/s32a7NC0DC02?14SAC03To0o.uates A26a/UQ2al7M3DC02TO00aC02fl45.aotes A26a/S02Al7N03DC02T24USC03TO0O.uotes a26aUQ2a17S04DCo2TsOOoaco2flZ4.aotes A26a/SQ2Al7N0SD02T1451c03TOO.aotes A26a/8Q2al7NO56c02TQOOaC02Tl4S.&ot*3 a2MaI32A17N06Dc02145=ac03:00.zotes a26aI1Q2Al7X07DC02T000AC02Tl4S.uotes A26a1IQ2A17Nr0DC02n1451C03TO00.uotes a26a/5Q2Al70DCO2TOOAC02T145.aotes A26a/s2A17N07DC02T145AC03bOCO.uotes a26a/BQ2A17M09DC02TO00AC02T145.uotes a26a/Q2a7uNo0co021451c031O00.otes A26a/502Al7U10DC02o0001C02T245.uotes Aa26a/302Al7xl09C02r145Ac03TO00.notes A26a/5Q2117N1DC02T000AC02T145.notes A26a/SQ217NlUDC02T14Sac03TOOO.uotes A26a/802A17NlDc02Too0ac02Tl4S.uotes A26a/SQ217NllDC02T145Ac03ToO0.notes A26a/0217u132Dc02T000AC027145.uotes a26a/8Q2Al172DC02Tl4SAC03TOOO..otes a26a/E02AN173DC02SOOOAC00214S.uotes A26a/SQ2AL7Nl3Dc02Tl4SAC03TO 0.uotes A26a/8Q2Al7NlDC02SOOOAC02TS45.utes A26a/502A17N2SDC02l?45Ac03TO00.uotes 126SatS2A17316C02TOOOACO2T14S.Ote a26a/802A1l7l6DC02zl4ac03TOO0.nates a26a/1Q2A26NlC0llt087AC02SOOO.notes a26aSQ2A26NO2DC01T187AC020o0O.otes A26afSO2126N03DcCls187acO2OO.uotes a26a/s02326N04D0c01!17aCO2TO

.nottes U26a/8Q226NUSDcOT187AC02TO2OO.otes a26a/S12a26N06DCo0s187AC02TOOO.notes A26a/8Q2A26N07DCOlT187AC02NOO.notes J26a&/Q2126N0ODCOI1TO7AC02OO.notes A26a/so2a26No9DCo0s17ac02Tsoo.aates a26a/102126N50DCOll?7Ac02TO0O.uots 126a/S02A226N1DcO1MT17AC02?00O.aotes A26a/302a26Nl2Dc0lTl7a=c027000.notes A26a/5O2126Nl3Dc01T87Ac02TO0O.notes A26a/SQ226R140C0llt7AC02OOO0.=otss A26a/SC2126NlSD15 S1Y37AC02TOO.notes A26a/502A26u16D0C01n7AC02TOOO.notas azzf.sls SIf.MS16

• Itif.519 aIitg.520 aXItS21 a2IKf.522

• lIxI.523 MIIICA.H2 MUMrf.S2s

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• sIIt

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&XIMS.69

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. 574 a2119.675 aIIIE.676 reb 20 1597 rob 20 1397 rob 20 1597 rob 20 1397 rob 20 1397 fob 20 1397 reb 20 1397 rfb 20 1397 rfb 20 1397 fob 20 1397 rFb 20 1997 feb 20 -1997 Feb 20 1997 feb 20 1997 leb 20 1997 leb 20 1997 reb 20 1997 rob 20 1597 rob 20 1997 reb 20 1997 reb 20 1997 fob 20 1597 reb 20 1997 rfb 20 1997 reb 20 1997 rob 20 1597 rfb 20 1997 rob 20 1397 rob 20 1397 rfb 20 1597 reb 20 1397 reb 20 1397 reb 20 1997 feb 20 1397 rfb 20 1597 reb 20 1397 rob 20 1397 reb 20 1397 rob 20 1997 reb 20 1397 rob 20 1397 fob 20 1397 fob 20 1397 feb 20 1397 reb 20 1397 reb 20 1397 rob 20 1997 Fab 20 1397 reb 20 1597 rob 20 1597 rob 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1397 fob 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 S35 5587 581 573 5S87 953

• 575 3589 585 9577 9624 9626 9402 3192 8330 19161 5092 20053 9176 20112 913 20100 9137 20108 9230 20104 9246 20094 9244 20104 9238 20102 9250 20102 5240 20106 1234 20094 5238 20093 9175 20111 9050 20041 3867 19122 16043 17340 17871 10280 1S54 15706 117a6 18308 18850 13852 13870 13730 13614 lslls 17631 16512 ASCII ascII ASCII ASCII ASCII ASCII ascss ASCII ascss aI ASCII ascss ASCII ascii ascii ascus asciI MSCI:

ascII ascsI ASCII ascII ascII ASCII ASCII asCII ascsI ascss ascss ASCII ASCII ASCII ASCSS ascII ascsI ASCII ascII ASCSS ascII asciI ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ascsI ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ascss ASCII ascss ascss ascss ascss ASCII Computer nle saw 129/SO2AlIZOIDC02T000AC02T14S.uotas

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• SSEf.S79

• SSIf.580 azssf.sU1 flMe Date fOutput)

Fob 20 1397 fob 20 1397 feb 20 1997 lob 20 1997 rob 20 1997 File Size (Bytes) 1928 13229 3236 20104 3361 file Stpe (tozrat)

ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Dcjilebn Calculations Docuent Identifier. BOOOOOO-01717.0210-0000S REV 00 Anachmentm, Page 10 of 18 I.

A29/SQ Ii 03DcO 2M45 C03?OCO.aotes A29/592a 130C2CO 000AC02U5 4.notes 129/SQ21304DC02145AC03TO0.notes a29/S80 105xoC02Too0C021450 0otes A29/11251 N0DC02THS4AC03TOO0.notes A29/IQ251t6=DC02TOOUACO2T145.Dote2 A29/802A51106DC027T455C03T000otea A29/8Q2Al1K37Dc=2TOOQ=02Tl45.notes a29/sQ2AlN07c02Tl45S.03TOoo.motes A29/sQ2A1lN0BDC02To00AC02T145.notes A29/182AlO80c2T1452c03T00o motes a29/sQ2Al3m9D0c2TO0oAc021T4.aotes a29/sQ2A11N09Dc021l451c037TOO motes 239/SQ2allUlODCO2TOO:ACO2TZs45 otes a29/I802A1 N1D0C02T45a3C03TOO.otes U291802A11N10DC02TOOOACO2Sl45.

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13629 19643 19542 19504 19439 19232 13760 17346 asCII MSCII MSCII MSCII MSCII MSCII ASCIc MSCII ASCII MSCII MSCII ASCIc MSCII MSCII MSCI:

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• SS1f.647 MUM16.S48 File Date (outputl Fob 20 1397 Feb 20 1997 rob 20 1997 Fob 20 1997 Feb 20 1997 fob 20 1997 fob 20 1397 feb 20 1997 FiLe Size (Dytes) 6928 13229 9236 20104 1361 20297 3325 20441 FlMe type (Format)

ASCII ASCII MCIl ASCII asCII ASCII ASCII asCII

Waste Package Operations Engineering Calculation Attachment Tite: Sequoyah Unit 2 CRC De*Uon Caculations bDocument Identifier: BO0000001717-0210-06005 REV 00 AuchnientmI Page 11 of 18 AZua/9WuA11WUugZSTOUQAUZT&Gi3 A29a/JQ2AllNOSXDC0214SACO3TOZO0 a29a802A1206=o2bO000AC02TIM A29a/SQ2A1INWCO2T14SACO3TOOO A292a2lSOI07DC02TO0OAC02T145 129a/502A1307=C02T145AC03TOOO A29a/802A11NOODC02TOOoACo2T14 129a/80M21OO8DC02TU45AC03TOOO A29/5Q2A1109XDC02TO00AC02TS45 a2a/02a11N09DCOM2s4SAC03o0oo, a2ga/lOMMOoC02TO000Ac02145 A29a/8Q20MM C02US4A5C03TO00 329a/5O2A111C02TOOOACO2l4SM

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rFb 20 1397 rFb 20 1397 rFb 20 1397 rob 20 1397 337S 20333 331 20189 137 20137 379

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• SS1f.711 mIISi.712 aSihi.713 mIIS.714

• lSSf.715 rile Date (Output)

Feb 20 1397 reb 20 1397 rFb 20 1397 rFb 20 1397 Fib 20 1997 rib 20 1997 rFb 20 1997 rFb 20 1997 Feb 20 1397 reb 20 1397 rFb 20 1397 File MSe (Bytes) 9220 3386 9521 9537 9523 3529 952S 9525 3569 3567 rile Type oromat)

ASCII MSCII MSCII ASCII MSCII MSCII MSCII MSCII ASCII MSCII

Waste Package Operations Engineering Calculation Attachment Tite: Sequoyah Unit 2 CRC Depletion Calculations Docmnent Identifier BOOOOOOOO-01717-0210 O5 REV 00 Attachment

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&XIIM761 aIlllf.762 aiIf.763 MU IE764 aXIIEf.765 aIIIf.766 alttf.767 aeIfI.768 reb 20 1997 reb 20 1997 Jeb 20 1997 reb 20 1997 rob 20 1S97 rob 20 1397 rob 20 1397 feb 20 1397 fob 20 1997 reb 20 1997 fob 20 1397 rob 20 1997 fob 20 1397 rob 20 1997 rob 20 1397 rob 20 1397 reb 20 1397 rob 20 1997 rob 20 1997 reb 20 1397 feb 20 1997 reb 20 1397 rob 20 1397 fob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rib 20 1997 reb 20 1997 reb 20 1997 fob 20 1997 fob 20 1997 rob 20 1997 rob 20 1997 Fab 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 fob 20 1997 rab 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rFb 20 1397 rob 20 1997 rob 20 1997 reb 20 1997 fob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 9555 9571 9531 9558 9163 9063 13438 9373 19920 3345 20317

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Feb 20 1997 fob 20 1397 Neb 20 1397 Nob 20 1997 Neb 20 1397 fob 20 1397 fob 20 1397 reb 20 1997 reb 20 1397 reb 20 1397 reb 20 1397 rob 20 1397 reb 20 1397 file Uts, (Bytes) 3256 3303 3476 3531 962E 3628 9630 9632 3608 3618 9614 3622 3626 3S11 rMe Type (frmziat)

ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASUC ASCII ASCII ASCII ASCZI ASCII

Waste Package Operations Engineering Calculation Attachment Tide: Sequoyah Unit 2 CRC Depletion Calclations Document Identfier: BOOOOO O-1l17-0210-00005 REV 00 I,

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• 1116.144 MUMS.14

• 1116.14G azz16.6(7 al11f.043

• 1116.849 reb 20 1997 reb 20 1997 reb 20 1397 rob 20 1997 fob 10 1197 rob 10 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 Tob 20 1997 rob 20 1997 tob 20 1997 feb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1197 rob 20 1197 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 Web 20 1997 reb 20 1997 rob 20 1997 rob 20 1997 fob 20 1997 fob 20 1997 fob 20 1997 reb 20 1997 fob 20 1997 fob 20 1997 rob 20 1997 rob 20 1997 fob 20 1997 fob 20 1997 rob 20 1997 rob 20 1997 feb 20 1997 reb 20 1997 rile Date (output) feb 20 1997 feb 20 1997 feb 20 1997 rob 20 1997 rob 20 1997 lob 20 1997 fob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 fob 20 1997 lab 20 1997 feb 20 1917 tab 20 1997 9446 9174

.733 18935 9009 20053 9063 20089 9201 20102 9193 20102 9177 20104 9193 20096 9177 20098 9197 20104 9193 20104 3197 20110 9195 20112 9191 2010t 9201 20120 9044 20033 5796 19071 16130 17315 17794 18042 16679 18715 1L87S9 16769 16757 18763 16663 18485 16040 17713 16320 rile size (Bytes) 9229 9415 9333 9371 9365 9373 9369 9363 9363 3363 3357 9327 9329 9319 9171 9254 16516 ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII File Type ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah UnIt 2 CRC Depledon Calculations Docment Identifier. BOOOOOOOO-01717-0210-00005 REV 00 Attachment KPage 14 of I8

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sit/sg2A4x02DC02T14SXCG3TO0O-soiex 314/6Q21431030C02?14SACSTOOO.uotss 314/SO2a1o4DC02T14SILC03TOOO.30t*S 314/S02A1430SZ)C02TI45C03!000.aotes 5,l4/sQ2114N06Dc02Tl451=C0TODO.Mot@

31ws=214307 = 211452e03!O00.aotes 3,14/SO2M4No8DcOZ!145P.C300.atots

&j4/sQ2Al4v03DCO2Tl45AC0320OO.aoteu 824/SoQl4hlODcMzfl4SAeO3TOoO.motea B14/5Q2Al4Vll=c2T145MC3?000.Zotes 324/SQ2A4N12DcO2U45AC03TOOO.aotes 514160A14113021I5C03?OOO notes B14/SQ M 4X14 = 2T145 M 3TO00.aotes Bl4/s02Al4f1Sc02Tl45AC03?O0O.&Otes Bl4/5QWA4Vl6=c2Tl4SAC03?OO0.ROtev 8111f.850 alzif.ss1 MU ~.052 MU ~.S52 AIIMg.s4 aII~f-.o3S 0xI16.856 MU ~.857 4.II1f.6S9

• MICHf55

&XIKE.66 r ~-aIIlf 61 aIIILSS2 all1f.163 a£1116.64 reb 20 r*b 20 reb 20 rob 20 rob 20 rab 20 rob 20 rob 20 rob 20 rob 20 rob 20 reb 20 rob 20 reb 20 rob 20 1337 1337 1997 1337 1537 1337 1597 1997 1997 1997 1997 1337 1997 1397 1397 19539 13642 13771 13793 13761 19731 19773 19779 19779 19783 19E01 19807 19777 13613 13569 ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII computer rile Name 315/02A5V01CC2T145hC03T000.R~tes 2151202AI53020C02TU4SAC03T000.Kates l15/sg2ASN03DC02T?14SAe03T000.3otes 315/80 M1SNODCO2T145AC03TOOO.-ot s 315/sg M 5b0SDC0flT45Aeo3TO0.RoOUS BIS/so M1S306 C02T145AC03T000.RM ae 315/10 M 5N07 C02T145AC03TO00.Rates l5/S1Q2Al5N09DC2?143AC03T000.Rotes 5156/g2M5N03DC022145AC03T000.Satea 515/8021AI5NIODC02T1451.C03TO000.Matoa 515/6o21 115*11C021145AC03T000.mctos 315/SO2ASN12DC02T1452C03TOO0.motos

(

515/502115N13DC02TZ4SAC03TOOO.motos 315IS02AISN14Dc02T145AC03TOO0.3otes

• 15SgS2AMShlScOC2T145AC03T000.letes 515/gg2A15N16C0C2T145a03T000.a0toa B1S/6Q2A3N010c03T'OOOAC03T21O.motea D15/0213N020C03TO00ACOU210Uaotes

• 15/6Q2A23103DC033T00C0A3S210.motes B1S/69 M 3Z04 = 3T0001AC03T210.notes 325/502A3N050V03T000C0M3T210.aotea UIS/802A2306DC03T000AC03T21O.moteu M/So W A3N07 C03TO00Ae03T21C.notes 3151SO2A233060C03T000Ac0312&0.fotes D15160223R09DC03TDOOAC03T2IOjiotas s15I6s2A3N10DC03TO00Ac3T21.nOtis 315150213N1110C03T?0001e3T210.uotos 3l5/2QMa3N1120C03T000AC0=T20.Rotes B15/3Q2A3N3130C03T2000SC3T210.uota B151501A3N140C03TQ'1r00=C010.aotes B15/X02A3N15DCb3T000Ae3T210.ziOt03 5151602A23N16DC03TOOOACO3T210.motes Computer rile same 515/6Q2A13IN01=C2TI45AC03TO00.Zates 313/go M 3NO2 = 2T145 ACO 3TO0.uotes 213/6Q M AN3NOC02T145 AW 3T'0O.Rotes U15/SQ2Al3N04DC02T145AC03T000.aotas 5U9sSQ M 3JO5DC02T145AC03TO00.fotes 313/S02A1N06DC02?1452C03T000.LOteas 313/s02Al9N07OC02T145AC03TODO.uotes s13I602A13NOSDC02T145AC03T000.motes

• . 31/602A13N03C9 2T1451C03T000.uotes M1/U02Al1aG=Dc2Tl45AC03TO00.notes

• .. 31/602A13110C02T145AC03T000.notes.

313/602~a1120C02T245AC03T000.uotes B13/10211a3N1C02!145AC03T000.notes 113/3Q2A13N140C02T145AC03T000.motes 9113/502A1N1S0C02T145AC03T000.motes Tape Backup rile Name

£1116.967 efIZf.870 altII.071 aZIIf.172

&1216.173 alItl.674 a1116.975

&slIt. 76 aZ1it.077

• 01116.678 aIXCL079 8211f.830 81II9.681 aI19.892 aIIILIU83

&X116.14 aIlI~ses

&XIM08U6

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&0I19668 a1119.199 afl19.900 oflit.301

&X116.02 a3216. 303 all~f. 304 MUMS.30 MUMS.30

• ZIKf.307 at1f.908

&XIICt.09 MUM*.31 alllf.311 rile Date (Output) rob 20 1337 reb 20 1397 rob 20 1397 rFb 20 1997 rob 20 1337 Job 20 1997 rob 20 1337 reb 20 19S7 rob 20 1397 reb 20 1997 rob 20 1937 reb 20 1997 rob 20 1997 rob 20 1397 rob 20 1997 reb 20 1997 feb 20 1997 rTb 20 1997 fob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1397 rob 20 1397 rob 20 1397 rob 20 1397 rob 20 1997 rob 20 1397 rob 20 1997 rob 20 1997 rle Date MOutput) reb 20 1337 reb 20 1997 rJb 20 1997 reb 20 1997 reb 20 1937 reb 20 1997 feb 20 1397 reb 20 1997 reb 20 1397 reb 20 1997 rob 20 1397 tab 20 1997 Tab 20 1397 Fob 20 1997 rFb 20 1397 rile size (Bytes) 17753 16721 19043 19070 13132 13130 13126 19128 19170 19260 19252 13304 13262 19122 16846 17993 8934 9207 9325 3305 3317.

3319 3313 3305 9315 3359 3365 339 3363 3240 909J rile Size (Bytes) 18931 19567 197E7 19761 19757 19775 19737 13803 19777 19777 l137s 19779 19795 19?77 13663 rile Type frarmat)

ASCII ASCII MSCII MSCII ASCII ASCII MSCII MSCII ASCII MSCII MSCII MSCII ASCII MSCII MSCII MSCII MSCII MSCII MSCII MSCII ASCII ASCII MSCII ASCII ASCII ASCII

ASCII, MSCII MSCII MSCII MSCII rile Type (rozat)

MSCII ASCII ASCII ASCII ASCII ASCII MSCII ASCII ASCII MSCII ASCII ASCII MSCII MSCII ASCII

Waste Package Operations Engineering Calculation Attachment

Title:

Sequoyah Unit 2 CRC Depletion Calculations

.. Docuet Identifier BOOOOOOOO-01717-0210.00005 REV 00 Attachment K Page IS of Is 3l33028 3N67401

?145CAC03T2O.notes 5131502A2X0C03?000AC03T210 motes 93/Es2a249N3Dco3<000AC03ToO.notes s13/sg2a24ul~O3conOF~ooa31aO.aotes

• 131so212OR04C03:A0C0221a.notas 313/s02A24N0SDc03TO0OAC03T210.motes sl/3212a4NO6DcO3TOOOMQ03T210.&otes S91IMO24307DC03TSOOOOUC23U10.notes 313/s121243OSDCo3T000AC03T210.sotss MM

/102a249O0DC03TOOOACO3T21O.otos 919/sQWa4910=c3TOOCACT2Osl

.actes 33/1S2a241a1DC03T000C03T210.uo tes 3l3/102124u11Dc03FO0OAc03z2lo.ote 529/1021l243120C0370COA37210.Motes 33/S02124913DCf03OOOACO3T21O.notes 313/502124V140C03?000AC037210..ou B29/$cQa~ltl3Dc03TOOOKC03T210.ott s 19/SQ2524 10DC03T000&C03T210.motea W */5Q2a2M4l6Dc03T000AC03U210.ziotas

£IXII912 SZht.913 aSXlt.914

• MUMS.315 ahIItf.31 MUht.917 alhlf.918 aShll.919 aZZIf.920

&ZIf.921 allit.922 aSSSf.923

&SIf

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£111f. a27 aSlf. 928 fob 20 1i97 feb 20 1397 rfb 20 1937 frb 20 1997 Tab 20 1337 feb. 20 1997 reb 20 1307 rib 20 1397 frb 20 1997 rob 20 1997 feb 20 1S97 feb-20 1397 fib 20 1997 fob 20 1397 rob 20 1397 reb 20 1397 rfb 20 1997 1E691 3207 3401 3367 3369 3373 9363 3375 9367

'357 33S7 9347 9323 9319 9375 9258 ASCII MSMS ascss asci:

ASCSS asci:

MSCII ascsI ASCII ASCII MSCII

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Computer rile game 321/SQ2A21NOlD02T145AZC3TOOO.notes Z213QM2a2102DCO2:15AS=3bOOO.aotes 521/50121N03DC02S145AC3SOOO.motes 321/102aW 04Co02Tl45ac3TOO.zotes 321/0212 150DC02TS45AC037OO

.Motes B21US02A21lN6DCO2:145AC03SOOO..otes S21/SQ2A2l07DC02T145C03TO0O.motes S2l/SO2A2lNO8Dc02Tl45AC03TOO.mot*s 221/S02A21O9VoC02ST45AC03TOOO.Dotas 521/gQ221W10Dco2s4l5aC03Tooo.aotes N218QM2A2111zCO21l4SAe03:oo.notus 221/802M2MIl2DTU2S45aC3StO

.notes 321/S02321a13DC02Tl4SACO3SOOO. sates B21I1Q0 I21NUDc02Tlz4SA300ooo.Uotea 321ts02A2isDc02Tl4A5C03:ooo.notes 321/3Q2321116DC02145C03:.COm.otes S2l/5Q2M8NO1DCO3SOOOAcO3T2lo.notes B21/8sQ22sNO2Dc03TOOOAcO3TZzO.notes 221/8Q2A28U03DC03STOOACO3T21O.aotes 21/8Q2A28No4DcosToooaCOU21o.notes 521/80s2A2O Dc03TO00Ac03T210.notea 52l/8Q2a28VO6DcO3OOOAc3T21a.motes U21 /82h29N07DCOM3OUACO2324.Uotes 3211Qs2a2sNOsDcC03TOOAco0321G.motes 321MMO212UvO9oC03TO0OAC03S210.notes 321ISQ2a291u0Dco03oooAcoa3210.motes 521/1Q2A2hll DC03SO0ACo321.9otes 521/SQ2A21w2Dc3O:O0oAs0321o.aotes 321/SQ2A28Nl3DCO3TO00AC03T210.aotes 52/SIQ2A2sl2U141DCO3sOO&032l.Rotes B21/SQ2A28N1SDC03TOO0AC3ST21O.motes U132/Q2A25lSC03TOOOACO3S21o.notes Tape backup rile Name ahhhf.929 ahlllf.330 atlhf.331 ahIIf.932

&Ih~f.933 aX:If.933

£U1f.9335

• SS~f.932

• ssif.941 a2Zsf.943 92If.L339 xilf.9341 alihf.934 alilf.947 axSlf.#49 zIIit.35O axilf.951 111f.924

&Zssf.93 alhlf.954 aSZIf.351 alllf.957 aillf.354 52111.355 521:1.356 521:1.357 ahhsf.3s1

• dxll. 35

• SS1f. 60 file Date (output) fob 20 1297 reb 20 1397 Tab 20 1397 reb 20 1997 feb 20 1397 reb 20 1397 lab 20 1997 reb 20 1397 rfb 20 1397 Tfb 20 1997 rib 20 1397 rob 20 1997 reb 20 1997 fib 20 1997 tib 20 1997 fob 20 1397 leb 20 1997 Feb 20 1397 reb 20 1997 rfb 20 1997 Tib 20 1997 reb 20 1997 feb 20 1397 rob 20 1997 reb 20 1397 reb 20 1397 fob 20 1997 feb 20 1397 fob 20 1997 lob 20 1397 reb 20 1337 file Size (Iytes3 17753 11723 19034 19122 13202 19306 13304 13359 13393 19323 13389 13401 13397 13256 1842 11045 8936 3201 3325 3321 3315 331S 9319 3363 3365 3361 3361 3351 3361 9367 9329 2094 Mlle Type (romat)

'SC"I MSCII ASCI:

ascII AScII ascss ascII asCII aSCII ascI!

ascII asc::

A5CSS ascIs ASCII ASCII ASCSS ascis A5CSS ASCSS asci:

ASCSS ascii ASCII ASCSS ASCSS ASUSI MSCII asus ascss Computer file lae B2S/SQ02A0ONlDC03TOOAC03T21O.motes MI2S 2O02COMsOO&OMC3210.notes S2SJ8Q2AlON03DC03SOOOAC03S210.uotes S2S/S2A0OU3TODU00C0T21O.notes 325/SQ2AlMi40C03TOAC03312lO.aotes 32 J5 Q2a10N0SDc03TOGOACOU210.notes U5S/302&1ON06=3TO0OAC03T21O.aotes B25/8Q~al§N07Dc3TOO:AC03T21O.Zates 325/302AIGNOODC03TOO0AC03S210.notes

' 2S/JO1N09DC03TOOAC030210.at.s

• 25J/C21101NODC03TOOO0C03T210.ootss 2S/CQ2l0MO1DC03TOOOAC03S210.motes U25/SQ2AlOl2C3C03T000AC03T210.motes 32S/102alON13DCon003SOOO3S21o.motes tape Backup file lame aIIII.961 411U1.962

• alllf.963 a*SiS.964 MUMII.S65 atlsf.966 SS:1f.967 SIZSl.968 alit.396S alllf.370 2111f.971 aSX1f.372 4211f.373 rile Date

- utputl fib 20 1997 rob 20 1997 feb 20 1397 feb 20 1397 reb 20 1397 reb 20 1397 reb 20 1397 feb 20 1397 Fob 20 1397 rib 20 1397 Fab 20 1997 reb 20 1397 feb 20 1997 rile size (Bytes) 3144 9312

$397 3353 3329

• 33S 9377 3377 3357 9369 3373 9357 9373 File Type (rosmat)

ASCII

'SC?!

MSCI' MSCII asciI asCII asCII ASCI ASCII ascss

'SC"s ASCSS

Waste Package Operations

'Engineering Calculation Attachment Te: SequoA Unit 2 CRC Depletion Caatons Docment Identifier. BOOOOOOOO-017170210-00005 REV 00 Aftacbment a. Page loflII

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325/102Al0824=3rC030C03?210.flotou 525/IO2IONXS5=3TGOOAC03T2l*.zotes 325/302A1016DC3?OOOAC03?210.Do0tea 325S/Sa25wl0c2Tl4SAC03T000.&otes 3251boQa251N2oc02TU4SAOCO0GO.notes az9s2S/25M N0vC02T1451C03TOGO.Motea B251SQ2A25N04DC02T1455e03?0O0.aotes B25ISO M SN05DC0211U51C03T000.Motes E21S225/MNOODC2?143MC3000.MOt*S 225/302125N070C02?1451C03T000.notes

• 2S/IQ=A2S303CO2Tl4SC3=3000.uot4a B25I3Qw12S09Dc2Tl45Ac03TOO0.motes 32S/S02125N100C02145AC03T000.notes 92S/1OSN2U511C02T145AeOO?

otes 32S/802A5V12OC02?14S=Z3T000 motes 35IS23/a2S13DC02TI451C03T000.3aotea 32SIS02A2SNfl4CO2U14S1C03T000.motos B251802A2N15DC02U2451C03T000.motes 025150212N16DC021451C031000.motes

&XIMZ974

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aXIIM977

&IIlf.978 aIIZIf.73 a1112.980, aIzzf.981 azzIIL932 ailf9833 a£112.984

'-AzzIf985-ax1f2986 atIIM987 aiIzt.908 AZIIIC.989 aif.990 azzif.991

£111f.992 rob 20 1i97 feb 20 1397 fob 20 1397 feb 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 rob 20 1997 reb 20 1997 rob 20 1997.

feb 20 1997 rob 20 1997 feb 20 1997 rob 20.1997 rob 20 1997 rob 20 1937 frb 20 1997 9357 9379 9227 13350 19127 19519 19663 19657 19665 19659 19661 19765 19733 19747 19741 19745 19649 19528 11553 ASCI MACII MSCII ASCII MSCII ASCII ASCII MSCII i.SCII MSCII MSCII MSCII MSCII MSCII ASCII ASCII MCeiI MSCII MSCII computer file Name 526/8g2a26101DCQ2T145c3=3T00.Uote3 326/30212602=c2?141C03000O.Dotes 326/6QMA6N03=c2?1451C03T000.D~tOs R26/uQMA6NO4=c2?1451c03?000.notes B26/80O216NSDOU21245=3TOO0.90teS 326/SQ2A26N06Dc02T14S.=3T03000oDoteS B26/SQ2AL2ENO7DC02TL4SAC03TOOO.notes, 8261802A26N03DC02T14$AC03T0O0.motes

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2 6180216ND90C021145AC03T000.aoteS 326/8Q2126N10DQ02Tl451C.03?000.30tes 326/80212N11DC0211451C03?000.Dotas 326/82126N12C02?14AC03?000.motes 322611g226113DC021l45AC03T'000.Motox 326/50=161D024 142T.OC03T000.Motes

,26/80 O126310c2THU5C03TOOD.notes B26/S02126N1DC02T245AC03T000.notez 226/3Q190MN01C03OOOMMIC.lO otes 826180MO2MO2C03T000C03?2I.aotee 326/S021L29N03DC03T?000c3T210.motes

&26/SgM21N04VC03TO000A=3T2l0.aot6S 126/802a9N050C030001e03T21

.ZotGs 926ISO2A29N06Dc3O0A03TOO 210.notes 5206/SQ22 M07C03T00AcT210.notes 526MMIA2N03DC03T0AC 03TO21O.Motes 226/SMS0219100C0000C031.&UotS 52f/5QMA9NlO=~3TO00A03T2l0.Uotes 526/3022L29RIIc03T000C03TU10.aotos B26/6QM922=U2~3T000AC03T210.notes 926/3Q219Nl3DC03T0001C03T2l1.notoa 526/g0219N14DC03T0002C03T210.motes' 926/602129N15C03T000C03210.notes 326/SQ2I2N16DC03TO00C0C3T21OAotes Tape backup lue Name a21ZE.995 alllf.996 atIIf.997 a2112.999 AIIIUl.600 aZ1121.601.

MIMS1.=0 12112.003 a211fl.004 0XIIMt00S 01=121006

&XIIUl.007.

a21121.008 a11121.009 a11121.010 a11121.011 aXIIM.012 aXIM2.013 MM12.014 MUL21CH5 azifl.616 a21f(.017 MULG1.01 a211f1.019 aZZU21.020 a21121.021 a11ZZ1.022 a1112f1.023

• 111fl.024 rile Date Ioutput) reb 20 1997 rob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 fob 20 1997 rob 20 1997 rtb 20 1997 rfb 20 1997 rob 20 1997 feb 20 1997 rfb 20 1997 feb 20 1997 Feb 20 1997 fob 20 1997 rob 20 1997 rfb 20 1997 reb 20 1997 reb 20 1997 feb 20 1997 Feb 20 1997 Feb 20 1397 Feb 20 1997 feb 20 1997 rfb 20 1917 fob 20 1997 feb 20 1997 feb 20 1997 feb 20 1997 tfb 20 1997 fob 20 1997 feb 20 1997 rile slse (Bytes) 17206 18287.

13569 18721 18731 18705 18697 18693 18796 10796 10790 13782 18792 18713 18311 17299 8796 9046 1241 9207 9205 9199 9213 9207 9205 92S8 9250 9252 9250 9209 9192 3952 rile Type Orosmat)

ASCII ASCII ASCII ASCII

' MCII ASCII MSCII MSCII MSCII ASCII MSCII MSCII MSCII MSCII ASCII ASCII ASCII MSCII ASCII ASCII MSCII MSCII MSCIZ MSCII MSCII MSCII MSCII MSCII MSCII MCII Computer rile Name 329I302Al2l01D=03TO00AC03T2l0.motes 3291302A12,2DC03TO01C03T210.Uotes 329/SQ2AlI MODC03TOOO&.C0?210MOte B29/3Q2A2N0D5C03T000AC03T210.uotes

.* 29/SOM2A1206=C3TO00Ac3T2l0.MOteu 3229/8g221Z07D=03T000AC03T210.80tes 3291S02A2N008D03T000AC03T210.aotes 3291802A2N09oc03:00C0A31210.moteI 329/302A112N00C03TOOOAC03T21O.motes 529/SO2A12NlIDCO3TGOOAC03T220.aotes

,rape Backup.

file game A11191.025 A1112I1.026 ~

aflIlf.027

~111fl.020

&11191.029 alf~l.030 axilfl.031 a111f1.032 i11121.632 MULC1.H3 aru121.035 file Date (output) feb 20 1937 fob 20 1597 fob 20 1997 fob 20 1997 rob 20 1997 reb 20 1997 reb 20 1997 feb 20 1997 feb 20 1997 fob 20 1997 rfb 20 1997 rile Size (Bytes) 3957 9266 9309 9363 9355 9417 9413 9423 9407 9391 9403 fie Type

' (format)

ASCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII

Waste Package Operations Engineering Calculation Attachment Thde: Sequoyah Unit 2 CRC Depletion Calculatons DocumentIdentifier.BOOGOOOO-01717.0210-00005 REV 00 Aftachment R, Page 17 of 18 S29/SQ2Al2M12DC03zUO0AC03?2l0."titS 529/SQ212A11MDC03OOA CM T21G.Rotes 321/S0M2N.2240C03T000S03T210.motes 323ISQ2AL235Dc03TO0OAC03T210.motes R29/02AI21G6DC03OOOAe3T2l0.Motes 3239/S2A201cOlDC02TI45AC03TO0.otes 29/S0Q2a2902cCO2l45Ae3T0O

.not S 323/S02129503DC027145AeC03:OO *otes 929/tCA29N03D02T145A3OISOO.ftOtb 3211802A21540C02T2451LC03TOCO0.utes B2911021291050C02T145AC03T000.motes 2/10 a29106=C027145ACO3TOOO.Dotes 322/8Q2A29N07DC02T145AC03TODO.Rotes 322/SO2A2sNO8DC02Tl4SRC03TOO.gots 322/1Q2120909CS02T145AC03TOO.aotes U291/12129N10002T145AC03TOOO.Zotes R29/QW292Nll=DcO2Tl4SAC03TOOO.Uot&3 521 SQ2A22S12Dl02T1451c031T0O.Uotes U 9/IQ2A21N14DcOZ145AC03TOOO.fotes U92/802A21Nl5DCO2T145ACO3?0.fotas S29/602A21916DC02Tl45AC03TOOO.aotes Computer rue laze*

330/g2Jo3NOlDC03TOOSAC03T21.nmotes 30/SQ2A03NO2DC03TO00AC03T210.notes 330/802AO3N53DC03TOO01c03T21i.motes 330/602A03N04DC03TOOOAc3T210.aotes U33/S021030OSDC03TOOAC03T211.Aotes 3~30I602a03U060c03TOOAC03T210.uLotes i 30/802A03107c03T000AC03T220.ao.S 230/S02AD3NO8D03?TOAC03T210.motes 233/SQ2A03NO9Dc03TO:OAC03T210.notes 3O/IQ2AO3Nl1DcO3TOGOAC03T21G.notea B3*OM62a03N11Dc03TO003CC220.0otes 030/802AD3x12DC03TO00AC0O2=10.aotes o3o3sQ2A131l3DC03TOO1Ac03T210.notes V30/SQ2AD3N14DC03TOOOACO3T210.3otes s30/S02103N15DC03TOO0ACO3T210.notes B30/U2A03N16DC03TOOAC032=10.Uotes 530/502A2ON401=D02US4AcO3TOO.Motes U30/892AMONO2DC02THSAeC3z030.RotUS 330/to2A3ONo3DC02T145Ac03To0o.notes U30/SQQA30N04DC02T145AC03TOOO.motes 530II02A30N05DC02T145 ACO03TOO.oteS 330I/52A3ON6DcO2T45AC03TQOO.Dotes 30/602A3ON07Dc02TS5AC03TOOO.Rotes U3O/gQ2a3ON08C02Tl451c03TO00.fotes B30/502A3ON09DC0Z2141C03TO00.otes

• 30/8g2a3oN1ODcU2n5C0o3TO00.utoas 830/502A30N1D1c2Tlu4Sc03TO00.otes 230/S02A30N12DCU2T?1CACO3SOO.Dotus s301Q02A30ocI2n5sAcoA03TOO.MOtea 330/5Q2130N14DC0271451C03TOO0.uoteS 330/502130N5i0DCM2 14SAc03TO0.notea U30/So2A3oNl6Dc02TlE5acO3TOOo.Sotes

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'lab 20 1997 reb 20 1197 Feb 20 1197 reb 20 1397 rob 20 1197 rile Date (Output)

Feb 20 1197 Tob 20 1197 lob 20 1197 lob 20 1197 lob 20 1197 lob 20 1197 lob 20 1397.

lob 20 1397 lob 20 1197 rob 20 1197 rob 20 1197 rob 20 1197 lob 20 1337 lab 20 1397 rob 20 1197 rob 20 1997 Feb 20 1997 rob 20 1997.

teb 20 1197 reb 20 1997 reb 20 1997 Tab 20 1997 lob 20 1997 lab 20 1997 lob 20 1997 feb 20 1397 rlb 20 1997 reb 20 1197 reb 20 1197 Tab 20 1997 feb 20 1397

• eb 20 1997 rob 20 1197 feb 20 1997 9385 9387 9387 9365 1056 17914 16840 19210 19410 194t8 19478 19464 19464 19S50 13554 11556 13548 19460 11020 18193 rile size flytes) 1050 1309 1411 1353 1339 935S 3343 93333 9329 9375 3361 9373 1363 9377 9403 9186 16133 19067 19543 13651 13661 19659 19651 19751 19733 19745 19729 11771 17119 11761 19483 16317 asCII ASCII MSCII MSCII MSCII ascss ASCII ASCII asCII ASCII asCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII asCII asCII ASCII asCII MCII aSCII a

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ASCII ASCII ASCII MSCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII ASCII MCll ASCII MSCII ASCII ASCII ASCII MSCII ASCII ASCSI Computer rile Name

• 31/IQ22tNOIDcosToooCO3T2l.aotes U31/602A26N02DC03TOOOACT3210.80tes 331I3Q2A26N03DC0lOO0AC03T210.notes 3lSQ2A26NO4DC03XO00AC03Tl10.mctes U

316Q2A26NO0DC03TO00AC03T21o.aotes 231/5Q2A26N06DC03TOOAc3T210.Dotos 831/SQ2A26N07DC03T?0QAC0372l0.mtes B31/802A261O1003TOOOACO3T21o.noteu D31/SQ2A26NO9DC030oAc03T210o.notes rile Date (output) lrb 20 1997

-rb 20 1997 rob 20 1197 reb 20 1397 lab 20 1197 Feb 20 1197 rlb 20 1197 leb 20 1197 rob 20 1197 fil. Size (Bytes) 6751 9072 1231 121S 1205 1209 3207 1213 9213 rile Type Elozmat)

ASCII MSCII MSCII ASCII ASCII ASCII ASCII.

ASCII MSCII

Waste Package Operations Engineeang Calculation Aftachment ride Sequyah Unit 2 CRC DepIetion Calcations Document Identifier: BOOOOOOO-01717-021000005 REV 00

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Waste Package Operations Engineering Calculation Attachment Wast Pakg prtosEgneigCluainAtcmn ritle: Sequoyah Unit 2 CRC Depletion Calculations Doum tidentfifer. BOOOOOO-01717-0210.00005 REV 00 Attachment IV, Page I of 2 Ihis attachment contains the residis for the principle isotope conce ions in the depleted fuel of the Sequoyah Unit 2 fuel assemblies. The principle isotope concentration rest tables are contained on an attachment tape of this calculation file (the attachment tape has been moved to Refcrence 7.7). The information contained Ln this hard-copy representation of Attachment IV is a lsting of the various files containing the principle isotope concentration result tables that are contained on the attachment tape.

Each file contains the results for a given fuel assembly. The filenames identify the fuel assmebly to which they correspond. The file sizes listed in the following table are the file sizes as they appear on the Hewlett Packard (HP) Series 900D workstation. -The HP file sizes differ from the file sizes on the -

attachment tape due to the difference in the block sizes between the HP and the personal computer. The tape containing Attachment IV was written using the Colorado Model TlOOIe Extemal Parallel Port Backup System for personal computers.

I Filename File Type File Size (Btes)

Copled to Tape A06.results ASCII 248,675 3116198 A088esults ASCII 248,675 3/16/98 AIS.results ASCII 248,675 3/16t98 A21.results ASCII 248,675 3/1698 A21axresults ASCII 248,675 3/16t98 A25xesults ASCII 248,675 3/1698 A25a.results ASCII 248,675 3/16198 A26results ASCII 248,675 3116198 A26ajresults ASCII 248,675 3/1698 A29results ASCII 248,675 3/16198 A29aresults ASCII 248,675 3/16198 A30results ASCII 248,675 3/16/98 A31iesults ASCII 248,675 3116/98 B14resiilts ASCII 149,205 3/16/98 BISresults ASCII 149,205 3/16198 B19zresults ASCII 149,205 3/16198 B21.results ASCII 149,205 3/16t98 B25results ASCII 149,205 3/10698 B26sesults ASCII 149,205 3/16/98 B29rsults ASCII 149,205 3/16198 B30.results ASC}I 149,205 3/16/98.

B313esults ASCII

.149,205 3/16/98 C02.results ASCII 49,735 3/16/98 C04.esults ASCII 49,735 3/16/98 C06results ASCII 49,735 311698 C08.results ASCII 49,735 3/16/98

Waste Package Operations Engineering Calculation Attachment

i..

Title:

Sequoyah Unit 2 CRC Depletion Calcuons Document Identifier: BOOOOOOOO-01717-0210O00005 REV 00 Attachment IV, Page 2 of 2 Date Fie Filename Fde Type Fe Size (Bytes)

Copked to Tape C14results ASCII 49,735 3/16198 ClSresults ASCII 49,735 3116198 C17.esults ASCII 49,735 3116198 C.19.esults ASCII 49,735 311698 C21 results ASCII 49,735 3/16198 C25ueslts ASCII 49,735 3/1698 C30esults ASCII

-49,735 311618

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