Response to RAI and Supplemental Information Re Request for Changing Emergency Preparedness License Amendment 294 Effective Date (Change to Adiabatic Heat-Up Calculation)

ML19044A643
Person / Time
Site:	Oyster Creek
Issue date:	02/13/2019
From:	Gallagher M Exelon Generation Co
To:	Document Control Desk, Office of Nuclear Material Safety and Safeguards, Office of Nuclear Reactor Regulation
References
EPID: L2018-LLA-0305, RA-19-007
Download: ML19044A643 (76)
v • d • e

Text

Michael P. Gallagher Exelon Generation ~

Exelon Nuclear Vice President License Renewal and Decomm1ssioning 200 Exelon Way Kennett Square, PA 19348 610 765 5958 Office 610 765 5658 Fax www.exeloncorp .com m1chael p gallagher@exeloncorp .com 10 CFR 50.90 10 CFR 50.12 RA-19-007 February 13, 2019 U.S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, D.C. 20555-0001 Oyster Creek Nuclear Generating Station Renewed Facility Operating License No. DPR-16 USNRC Docket No. 50-219 and 72-15

Subject:

Response to Request for Additional Information (RAI) and Supplemental Information Regarding Request for Changing Emergency Preparedness License Amendment No. 294 Effective Date (Change to Adiabatic Heat-up Calculation)

(EPID: L-2018-LLA-0305)

References:

1. Letter from Michael P. Gallagher, Exelon Generation Company, LLC to U.S.

Nuclear Regulatory Commission - "License Amendment Request - Proposed Change of Effective and Implementation Dates of License Amendment No.

294, Oyster Creek Emergency Plan for Permanently Defueled Emergency Plan and Emergency Action Level Scheme," dated October 22, 2018 (ADAMS Accession No. ML18295A384)

2. Letter from U.S. Nuclear Regulatory Commission to Bryan C. Hanson (Exelon Generation Company, LLC) - "Oyster Creek Nuclear Generating Station -

Issuance of Amendment RE: Changes to the Emergency Plan for Permanently Defueled Emergency Plan and Emergency Action Level Scheme (CAC NO.

MG0160; EPID L-2017-LLA-0307)," dated October 17, 2018 (ADAMS Accession No. ML18221A400)

3. Letter from U.S. Nuclear Regulatory Commission to Bryan C. Hanson (Exelon Generation Company, LLC) - "Oyster Creek Nuclear Generating Station -

Exemptions from Certain Emergency Planning Requirements and Related Safety Evaluation (CAC NO. MG0153; EPID L-2017-LLE-0020)," dated October 16, 2018 (ADAMS Accession No. ML18220A980)

4. Letter from Michael P. Gallagher, Exelon Generation Company, LLC to U.S.

Nuclear Regulatory Commission - "License Amendment Request Supplement

- Proposed Change of Effective and Implementation Dates of License Amendment No. 294, Oyster Creek Emergency Plan for Permanently Defueled

U.S. Nuclear Regulatory Commission OCNGS Response to Request for Additional Information Docket Nos. 50-219 and 72-15 February 13, 2019 Page2 Emergency Plan and Emergency Action Level Scheme," dated November 6, 2018 (ADAMS Accession No. ML 1831 OA306)

5. Letter from Michael P. Gallagher, Exelon Generation Company, LLC to U.S.

Nuclear Regulatory Commission "Certification of Permanent Removal of Fuel from the Reactor Vessel for Oyster Creek Nuclear Generating Station," dated September 25, 2018 (ADAMS Accession No. ML18268A258)

6. U.S. Nuclear Regulatory Commission Electronic Mail Request to David Helker, et al., (Exelon Generation Company, LLC) - DRAFT - For Your Action - RAI for Oyster Creek EP Exemption (Change to Adiabatic Heat-Up Calculation)

(EPID: L-2018-LLA-0305), dated January 22, 2019

7. U.S. Nuclear Regulatory Commission Electronic Mail Request to David Helker (Exelon Generation Company, LLC) - "For Your Action - RAI for Oyster Creek EP Exemption (Change to Adiabatic Heat-Up Calculation) (EPID: L-2018-LLA-0305)," dated January 24, 2018 (ADAMS Accession No. ML19025A117)

By letter dated October 22, 2018 (Reference 1), Exelon Generation Company (Exelon) requested a change in the effective date of License Amendment No. 294, "Oyster Creek Nuclear Generating Station - Issuance of Amendment Re: Changes to The Emergency Plan for Permanently Defueled Emergency Plan and Emergency Action Level Scheme" (Reference 2), from 12 months (365 days) to 9.38 months (285 days) after permanent cessation of power operations. However, the exemptions from emergency planning requirements in 10 CFR 50.47, "Emergency plans," and Appendix E to 10 CFR Part 50, "Emergency Planning and Preparedness for Production and Utilization Facilities" (Reference 3), necessary for implementation of License Amendment No. 294 included the effective date as an integral part of the exemption. Therefore, by letter dated November 6, 2018 (Reference 4), Exelon supplemented the request dated October 22, 2018, with a request to modify the effective date of the exemption to 9.38 months (285 days) after permanent cessation of power operations.

By letter dated September 25, 2018, (Reference 5), Exelon certified the permanent cessation of power operations at OCNGS on September 17, 2018, and permanent removal of all fuel from the reactor vessel as of September 25, 2018. Thus, the effect of the request would be to change the implementation date of the emergency plan changes approved in License Amendment No. 294 from September 17, 2019, to June 29, 2019.

Subsequently, in an electronic mail request dated January 22, 2019 (Reference 6), the U.S.

Nuclear Regulatory Commission (NRG) issued a draft Request for Additional Information (RAI) to ensure that the RAI was understandable and the regulatory bases for the question was clear. The draft RAI was further discussed during a teleconference between Exelon and NRG representatives held on January 24, 2019. It was determined that no modification to the draft RAI was needed and the NRG subsequently issued a formal RAI on January 24, 2019 (Reference 7).

A response to the RAI was requested by February 25, 2019. Attachment 1 of this letter provides Exelon's response to the NRC's RAI. provides a revised adiabatic calculation (Revision 2) in support of the requested effective date change for the previously approved exemption (Reference 3). Revision 2 of the

U.S. Nuclear Regulatory Commission OCNGS Response to Request for Additional Information Docket Nos. 50-219 and 72-15 February 13, 2019 Page 3 calculation replaces, in its entirety, the previous revision of the calculation (Revision 1) submitted in Reference 1.

Exelon has reviewed the information supporting a finding of No Significant Hazards Consideration and the Environmental Consideration provided to the NRC in Reference 1. The additional information provided in this submittal does not affect the previously stated bases in Reference 1 for concluding that the proposed exemption does not involve a significant hazards consideration.

In addition, the information provided in this submittal does not affect the bases for concluding that neither an environmental impact statement nor an environmental assessment needs to be prepared in connection with the proposed exemption.

There are no regulatory commitments contained in this submittal.

If you should have any questions or require additional information, please contact Mr. Paul Bonnett at 610-765-5264.

I declare under penalty of perjury that the foregoing is true and correct. Executed on the 131h day of February 2019.

Respectfully, Michael P. Gallagher Vice President, License Renewal & Decommissioning Exelon Generation Company, LLC Attachments: 1) Response to NRC's Request for Additional Information

2) Zirconium Fire Analysis for Drained Spent Fuel Pool, C-1302-226-E310-457, Revision 2 cc: USNRC Region I, Regional Administrator USNRC Project Manager, NRR - Oyster Creek Nuclear Generating Station USNRC Project Manager, NMSS - Oyster Creek Nuclear Generating Station Director, Bureau of Nuclear Engineering, New Jersey Dept. of Environmental Protection Mayor of Lacey Township, Forked River, NJ

U.S. Nuclear Regulatory Commission OCNGS Response to Request for Additional Information Docket Nos. 50-219 and 72-15 February 13, 2019 Page4 bee: Sr. Vice President - Mid-Atlantic Operations w/o attachments Sr. Vice President- Engineering and Technical Services Vice President - L&RA Plant Manager - OCNGS Manger, Operations - OCNGS Director, Licensing - KSA 3E Manager, Licensing - KSA-3E w/attachments Regulatory Assurance - OCNGS Sr. Manager, Decommissioning- CAN II Commitment Coordinator - KSA 3E Licensing Records, - KSA 3-E F. P. Bonnett- KSA 2-E

ATTACHMENT 1 Response to NRC's Request for Additional Information Oyster Creek Nuclear Generating Station Renewed Facility Operating License No. DPR-16 Response to Request for Additional Information Docket Nos. 50-219 and 72-15 Page A.1-1 of A.1-3

SUMMARY

DESCRIPTION By letter dated October 22, 2018 (Reference 1), Exelon Generation Company (Exelon) requested a change in the effective date of License Amendment No. 294, "Oyster Creek Nuclear Generating Station - Issuance of Amendment Re: Changes to The Emergency Plan for Permanently Defueled Emergency Plan and Emergency Action Level Scheme" (Reference 2), from 12 months (365 days) to 9.38 months {285 days) after permanent cessation of power operations. However, the exemptions from emergency planning requirements in 10 CFR 50.47, "Emergency plans," and Appendix E to 10 CFR Part 50, "Emergency Planning and Preparedness for Production and Utilization Facilities" (Reference 3), necessary for implementation of License Amendment No. 294 included the effective date as an integral part of the exemption. Therefore, by letter dated November 6, 2018 (Reference 4), Exelon supplemented the request dated October 22, 2018, with a request to modify the effective date of the exemption to 9.38 months (285 days) after permanent cessation of power operations.

By letter dated September 25, 2018, (Reference 5), Exelon certified the permanent cessation of power operations at OCNGS on September 17, 2018, and permanent removal of all fuel from the reactor vessel as of September 25, 2018. Thus, the effect of the request would be to change the implementation date of the emergency plan changes approved in License Amendment No. 294 from September 17, 2019, to June 29, 2019.

Subsequently, in an electronic mail request dated January 22, 2019 (Reference 6), the U.S. Nuclear Regulatory Commission (NRC) issued a draft Request for Additional Information (RAI) to ensure that the RAI was understandable, the regulatory bases for the question was clear. The draft RAI was further discussed during a teleconference between Exelon and NRC representatives held on January 24, 2019. It was determined that no modification to the draft RAI was needed and the NRC subsequently issued a formal RAI on January 24, 2019 (Reference 7). A response to the RAI was requested by February 25, 2019. Accordingly, Exelon's response to the NRC's RAI is provided below.

Applicable Regulation and Guidance The current 10 CFR Part 50 regulatory requirements for emergency planning, developed for operating reactors, ensure protection of the health and safety of the public. However, once a nuclear power plant is permanently shutdown and defueled, some of these requirements exceed what is necessary to protect the health and safety of the public. Therefore, pursuant to 10 CFR 50.12 "Specific Exemptions," Exelon requested exemptions from certain emergency planning regulations in 10 CFR 50.47 and 10 CFR Part 50, Appendix E, for the Oyster Creek Nuclear Generation Station (OCNGS).

The NRC staff reviewed this previously granted exemption from certain emergency plan requirements of 10 CFR Part 50 (Reference 3) using the guidance provided in Interim Staff Guidance (ISG)

NSIR/DPR-ISG-02, "Emergency Planning Exemption requests for Decommissioning Nuclear Power Plants" (Reference 8). This guidance notes that the provisions of 10 CFR 50.12 permit the NRC to grant exemptions from the requirements of 10 CFR Part 50 regulations in circumstances where the application of the regulation is not necessary to achieve the underlying purpose of the rule. The staff concluded that a minimum of 1O hours would provide adequate time to initiate mitigative actions to cool the fuel or, if needed, for offsite authorities to implement protective actions using a comprehensive emergency management plan (CEMP) approach. Thus, a formal offsite radiological emergency plan would not be necessary for permanently shutdown and defueled nuclear power reactor licensees when at least 1O hours would be necessary for the fuel to heat-up to the cladding ignition temperature following a complete loss of coolant. The decay heat rate is an important Response to Request for Additional Information Docket Nos. 50-219 and 72-15 Page A. 1-2 of A. 1-3 parameter in determining the time available to initiate mitigative actions or offsite protective actions, and the limiting decay heat rate is determined by the fuel power history and the time after permanent cessation of power operations.

Issue to Exelon's submittal dated October 22, 2018 (Reference 1), contained Revision 1 to the Oyster Creek Nuclear Generating Station Zirconium Fire Analysis for Drained Spent Fuel Pool, C-1302-226-E310-457. The revision changed the decay heat rate used in the analysis to one specifically based on the final operating cycle power history rather than a projected bounding decay heat rate and increased the assumed heat sinks by including additional hardware masses (such as channel box and upper and lower tie plates). The analysis credited this additional heat sink capacity and revised decay heat rate to show that a 10-hour heat-up time to the ignition temperature (900°C) would be available within 9.38 months of decay time.

The NRC staff found that the document does not adequately justify an assumption used in the analysis that all fuel components heat up at a uniform rate (Assumption 3.6). This assumption is present in the analysis because the heat-up time was calculated by dividing the product of the temperature change and the fuel assembly heat capacity (including the heat capacity of the added fuel assembly components) by the decay heat rate. However, the temperature of the upper and lower tie plates may differ significantly from other fuel assembly components because distance and complex design slow heat transfer via conduction; these components have a poor view factor for radiative heat transfer and significant convective heat transfer is inconsistent with the adiabatic heat-up assumption.

While it is common to assume components within an adiabatic envelope are at the same temperature, this assumption must be justified or the envelope boundary should be moved to ensure the assumption is valid.

RAl-OC-1 Provide justification that all components within the assumed adiabatic envelope that have not been previously accepted (specifically, the channel box and upper and lower tie plates) heat-up uniformly with the fuel pellets and cladding in the active fuel region. The justification should consider the complex design of the fuel assembly, the heat transfer mode, and the maximum rate of heat transfer supported by the fuel assembly design in that heat transfer mode relative to the heat capacity of the component.

Exelon's Response to RAl-OC-1:

Calculation C-1302-226-E310-457, Zirconium Fire Analysis for Drained Spent Fuel Pool, has been revised taking into consideration non-uniform heat-up of components in the fuel bundle assembly.

Revision 2 of the calculation is included in Attachment 2 to this submittal. Revision 2 of this calculation replaces, in its entirety, Revision 1 of the calculation submitted in Reference 1.

The following changes were made to the calculation:

1. The adiabatic heat-up boundary was re-drawn around components adjacent to active fuel only. This removed the upper tie plate, lower tie plate, and end sections of the fuel assembly.

All fuel assembly masses around the active fuel were left in the adiabatic boundary as they would readily receive conductive and radiative heat as the cladding heats up. The masses in the adiabatic boundary include the uranium dioxide (U02) fuel, cladding, water rods, pin spacers, and the channel box (excluding the corner thickness) in the horizontal area of active Response to Request for Additional Information Docket Nos. 50-219 and 72-15 Page A.1-3 of A.1-3 fuel.

In the revised calculation, only the masses within the active fuel region (fuel pellets, cladding, water rods, and pin spacers) are initially credited. When the bulk temperature reaches 580°F, the channel mass in the active fuel region is added to the adiabatic envelope. Radiative heat transfer between the fuel rods (fuel and cladding) and the channel is a function of the surface area of the fuel rods that is viewed by the channel, the emissivity of the fuel rods, and the difference in temperatures to the fourth power between the fuel rods and the channel (T:ods -

r:hanne 1). With multiple rods in the 1Ox1 O fuel array providing an adequate viewing factor of the channel, and emissivity values typical for Zircaloy-2, the entire bundle decay heat can be transferred to the channel at temperatures significantly less than 580°F. As such, the assumption that the channel box is thermally connected to the active fuel region and can be included in the adiabatic envelope at temperatures exceeding 580°F is justifiable. Heat transfer can occur to all components within the proposed adiabatic envelope, considering the complex design of the fuel assembly components, without significant delay in reaching 900°C within 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />.

2. Fuel and cladding specific heat values were adjusted to account for changes that occur as temperature increases.

The results of the revised calculation (Revision 2) as provided in Attachment 2, and taking into consideration the above discussed changes, continue to show that 9.38 months after cessation of power operations the fuel cladding will remain less than 900°C with 1O hours of adiabatic heat-up after loss of all spent fuel pool cooling. The changes made between Revision 2 and Revision 1 of the calculation offset each other and the results continue to support the 9.38-month decay time, while addressing the concerns indicated in the RAI. Revision 2 of the calculation continues to remain conservative due to not crediting actual fuel power history prior to shut down and heat losses that would occur due to radiative, conductive, and convective heat transfer means to other masses present outside of the revised adiabatic boundary. Exelon has always assumed a power history of 100% in all versions of this calculation.

REFERENCES

1. Letter from Michael P. Gallagher, Exelon Generation Company, LLC to U.S. Nuclear Regulatory Commission - "License Amendment Request - Proposed Change of Effective and Implementation Dates of License Amendment No. 294, Oyster Creek Emergency Plan for Permanently Defueled Emergency Plan and Emergency Action Level Scheme," dated October 22, 2018 (ADAMS Accession No. ML18295A384)

2. Letter from U.S. Nuclear Regulatory Commission to Bryan C. Hanson (Exelon Generation Company, LLC) - "Oyster Creek Nuclear Generating Station - Issuance of Amendment RE:

Changes to the Emergency Plan for Permanently Defueled Emergency Plan and Emergency Action Level Scheme (CAC NO. MG0160; EPID L-2017-LLA-0307)," dated October 17, 2018 (ADAMS Accession No. ML18221A400)

3. Letter from U.S. Nuclear Regulatory Commission to Bryan C. Hanson (Exelon Generation Company, LLC) - "Oyster Creek Nuclear Generating Station - Exemptions from Certain Emergency Planning Requirements and Related Safety Evaluation (CAC NO. MG0153; EPID L-2017-LLE-0020)," dated October 16, 2018 (ADAMS Accession No. ML18220A980)

Response to Request for Additional Information Docket Nos. 50-219 and 72-15 Page A.1-4 of A.1-3

4. Letter from Michael P. Gallagher, Exelon Generation Company, LLC to U.S. Nuclear Regulatory Commission - "License Amendment Request Supplement - Proposed Change of Effective and Implementation Dates of License Amendment No. 294, Oyster Creek Emergency Plan for Permanently Defueled Emergency Plan and Emergency Action Level Scheme," dated November 6, 2018 (ADAMS Accession No. ML18310A306)

5. Exelon Letter to NRG, "Certification of Permanent Removal of Fuel from the Reactor Vessel for Oyster Creek Nuclear Generating Station," dated September 25, 2018 (ADAMS Accession No. ML18268A258)

6. U.S. Nuclear Regulatory Commission Electronic Mail Request to David Helker, et al., (Exelon Generation Company, LLC)- DRAFT- For Your Action - RAI for Oyster Creek EP Exemption

{Change to Adiabatic Heat-Up Calculation) (EPID: L-2018-LLA-0305), dated January 22, 2019

7. U.S. Nuclear Regulatory Commission Electronic Mail Request to David Helker (Exelon Generation Company, LLC)- "For Your Action - RAI for Oyster Creek EP Exemption (Change to Adiabatic Heat-Up Calculation) (EPID: L-2018-LLA-0305)," dated January 24, 2018 (ADAMS Accession No. ML19025A117)

8. Interim Staff Guidance (ISG) NSIR/DPR-ISG-02, "Emergency Planning Exemption requests for Decommissioning Nuclear Power Plants," (ADAMS Accession No. ML14106A057)

ATTACHMENT 2 Oyster Creek Nuclear Generating Station Zirconium Fire Analysis for Drained Spent Fuel Pool, C-1302-226-E310-457, Revision 2

CC-AA-309-1001-Fl Revision 9 Page 1of66 I

Design Analysis I Last Page No. *66 Analysis No.: 1 C-1302-226-E310-457 Revision: 2 2 Major~ Minor D

Title:

' Oyster Creek Nuclear Generating Station Zirconium Fire Analysis for Drained Spent Fuel Pool EC/ECR No.:

• 626993 Revision:* 0 Station(s): 1 OCNGS Component(s):

Unit No.:* 1 N/A Discipline:

• MECH Descrlp. Code/Keyword: ** N/A Safety/QA Class: " NSR System Code: 12 N/A Structure: " SFP CONTROLLED DOCUMENT REFERENCES ,.

Document No.: From/To Document No.: From/To C-1302-226-E310-458, RO From GEH-0000-0118-3544, R1 From DB-0011.03, R1 From 26A7584, RO From Is this Design Analysis Safeguards Information? 1

• YesO No~ If yes, see SY-AA-101-106 Does this Design Analysis contain Unverified Assumptions? " YesO No~ If yes, ATl/AR#:

This Design Analysis SUPERCEDES: " N/A in its entirety.

Description of Revision (list changed pages when all pages of original analysis were not changed): **

Revision 2 removes the credit of the upper and lower tie plate as well as other masses away from the active fuel region from the analysis in response to a RAI. Additionally, the calculation is updated to determine the temperature of the limiting OCNGS spent fuel bundle with 9.38 months of decay at a time of 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> after becoming uncovered with a starting temperature of 125°F. Material specific heat properties are updated from References 18 and 19. Due to the substantial changes in the calculation rev bars are not included.

Preparer: "' Dwayne Blaylock Pri11INarne v lJA ~ ----

/ Sien Name

'.l / 7 / t°t Date Detailed Review ~ Alternate ~ulations (attach~

Method of Review:

Testin~-? /iq 21 Revlewer: 22 John Wright Print Name

~JJ. c sign NamV l Dllte -

Review Notes:" Independent review ~ Peer revie~ 0 This calculation has been independently reviewed per CC-AA-309 and CC*AA-309-1001. All comments have been satisfactorily incorporated.

(For External Analyses Only) a~>>~

External Approver: 2* Guy Spikes i.h I t't Exelon Reviewer: " 2be~r ~;:ry;a_"' 2/ &/1c, Print Name J ' ., - Sibi~e I Date Independent 3rd Party Review Req~ Yes 0 No~~

Wttt.t.1441 ?M/6 Exelon Approver:"'

PnntName ~~ dli/1 Date

CC*AA-103-1003 Revision 13 C-1302-226-E310-457 Rev. 2 Page 2 of 66 Owner's Acceptance Review checklist for External Design Analysis Page 1of3 Design Analysis No.: C-1302-226-E310-457 Rev:~

Contract#: 597114 Release#: 167 No Question Instructions and Guidance 1 Do assumptions have All Assumptions should be stated in clear terms with enough sufficient documented justification to confirm that the assumption is conservative.

rationale?

For example, 1) the exact value of a particular parameter may not be known or that parameter may be known to vary over the range of conditions covered by the Calculation. It is appropriate to represent or bound the parameter with an assumed value. 2) The predicted performance of a specific piece of equipment in lieu of actual test data. It is appropriate to use the documented opinion/position of a recognized expert on that equipment to represent predicted equipment performance.

Consideration should also be given as to any qualification testing that may be needed to validate the Assumptions. Ask yourself, would you provide more justification if you were performing this analysis? If yes, the rationale is likely incom lete.

2 Are assumptions Ensure the documentation for source and rationale for the compatible with the assumption supports the way the plant is currently or will be way the plant is operated post change and they are not in conflict with any operated and with the design parameters. If the Analysis purpose is to establish a licensing basis? new licensing basis, this question can be answered yes, if the assum lion su orts that new basis.

3 Do all unverified If there are unverified assumptions without a tracking assumptions have a mechanism indicated, then create the tracking item either tracking and closure through an ATI or a work order attached to the implementing mechanism in place? WO. Due dates for these actions need to support verification prior to the analysis becoming operational or the resultant

!ant chan e bein o authorized.

4 Do the design inputs The origin of the input, or the source should be identified and have sufficient be readily retrievable within Exelon's documentation system.

rationale? If not, then the source should be attached to the analysis. Ask yourself, would you provide more justification if you were performing this analysis? If yes, the rationale is likely incom lete.

5 Are design inputs The expectation is that an Exelon Engineer should be able to D correct and reasonable clearly understand which input parameters are critical to the with critical parameters outcome of the analysis. That is, what is the impact of a identified, if change In the parameter to the results of the analysis? If the a ro riate? im act is lar e, then that arameter is critical.

6 Are design inputs Ensure the documentation for source and rationale for the compatible with the inputs supports the way the plant is currently or will be way the plant is operated post change and they are not in conflict with any operated and with the design parameters.

licensin basis?

CC-AA-103-1003 Revision 13 C-1302-226-E310-457 Rev. 2 Page 3 of 66 Attachment 2 Owner's Acceptance Review checklist for External Design Analysis Page 2of 3 Rev: 2 Question Instructions and Guidance Yes I Nol N/A Are Engineering See Section 2.13 in CC-AA-309 for the attributes that are Judgments clearly sufficient to justify Engineering Judgment. Ask yourself, documented and would you provide more justification if you were performing

'ustified? this anal sis? If es the rationale is likel incom lete.

8 Are Engineering Ensure the justification for the engineering judgment Judgments compatible supports the way the plant is currently or will be operated with the way the plant is post change and is not in conflict with any design operated and with the parameters. If the Analysis purpose is to establish a new licensing basis? licensing basis, then this question can be answered yes, if the 'ud ment su orts that new basis.

9 Do the results and Why was the analysis being performed? Does the stated conclusions satisfy the purpose match the expectation from Exelon on the proposed purpose and objective of application of the results? If yes, then the analysis meets the Desi n Anal sis? the needs of the contract.

10 Are the results and Make sure that the results support the UFSAR defined D conclusions compatible system design and operating conditions, or they support a with the way the plant is proposed change to those conditions. If the analysis operated and with the supports a change, are all of the other changing documents licensin basis? included on the cover sheet as im acted documents?

11 Have any limitations on Does the analysis support a temporary condition or the use of the results procedure change? Make sure that any other documents been identified and needing to be updated are included and clearly delineated in transmitted to the the design analysis. Make sure that the cover sheet appropriate includes the other documents where the results of this 011 anizatlons? anal sis rovide the in ut.

12 Have margin impacts Make sure that the impacts to margin are clearly shown been identified and within the body of the analysis. If the analysis results in documented reduced margins ensure that this has been appropriately appropriately for any dispositioned In the EC being used to Issue the analysis.

negative impacts (Reference ER-AA-2007?

13 Does the Design Are there sufficient documents included to support the Analysis include the sources of input, and other reference material that is not applicable design basis readily retrievable in Exelon controlled Documents?

documentation?

14 Have all affected design Determine if sufficient searches have been performed to analyses been identify any related analyses that need to be revised along documented on the with the base analysis. It may be necessary to perform Affected Documents List some basic searches to validate this.

(AOL) for the associated Confi uration Chan e?

15 Do the sources of inputs Compare any referenced codes and standards to the current and analysis design basis and ensure that any differences are reconciled.

methodology used meet If the input sources or analysis methodology are based on committed technical and an out-of-date methodology or code, additional reconciliation regulatory may be required if the site has since committed to a more re uirements? recent code

CC-AA-103-1003 Revision 13 C-1302-226-E310-457 Rev. 2 Page 4 of 66 Attachment 2 Owner's Acceptance Review checkllst for External Design Analysis Page 3of3 Design Analysis No.: C-1302-226-E310-457 Rev: .l No Question Instructions and Guidance Yes I Nol NIA 16 Have vendor supporting Based on the risk assessment performed during the pre-job LJ LJ IB technical documents brief for the analysis (per HU-M-1212), ensure that and references sufficient reviews of any supporting documents not provided (including GE DRFs) with the final analysis are performed.

been reviewed when necessarv?

17 Do operational limits Ensure the Tech Specs, Operating Procedures, etc. contain LJ LJ ~

support assumptions operational limits that support the analysis assumptions and and inouts? inouts.

18 List the critical characteristics of the product, and validate those critical characteristics.

Create an SFMS entry as required by CC-AA-4008. SFMS Number: 6 If S '8 8 CPwr,o/e't?!J ky te, Cs,'//'\) OV1 'Z. /7 /l!f.

CV"o.SS .,P.CAQ\C-flov-...& / V"e v1~ c..tJ hy J"";n-t FY'o.l"'I /::. 0 111 2. }?)1, 14 /I C.OV"?~en ts /vt COY- f<PV"c. feel.

{jJ. f!Qf; 2 /? /, 1

C-1302-226-E310-457 Rev.2 Page 5 of 66 Table of Contents

1.0 Purpose and Scope

............................................................................................................................ 6 2.0 Acceptance Criteria .....................................................................................*..................................... 6 3.0 Assumptions ...................................................................................................................................... 6 4.0 References ........................................................................................................................................ 8 5.0 Input Data ......................................................................................................................................... 9 5.1 Zircaloy-2 Properties ..................................................................................................................... 9 5.2 Uranium Properties ....................................................................................................................... 9 5.3 Geometry for Limiting Assemblies .............................................................................................. 10 5.4 Heat Load .................................................................................................................................... 10 5.5 Water Temperature .................................................................................................................... 11 6.0 Identification of Computer Codes ................................................................................................... 11 7.0 Method of Analysis ......................................................................................................................... 12 8.0 Numeric Analysis ............................................................................................................................. 15 9.0 Results and Conclusions .................................................................................................................. 17 Attachments : Excel spreadsheet determining cladding temperature at 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> with a starting temperature of 125°F (24 pages) : Decay Heat Calculation (1 page) : Transmittal of Design Information: Oyster Creek Unit 1 Cycle 26 EOC Zirc Fire Calculation Inputs (18 pages) : Select pages from Special Materials lnconel alloy X-750 material data sheet (2 pages) : GNF Fuel Bundle General Description (1 page) : Origen-S input file for Decay Heat Calculation (3 pages)

C-1302-226-E310-457 Rev.2 Page 6 of 66

1.0 Purpose and Scope

The purpose of this calculation is to conservatively evaluate the length of time required for a bounding uncovered spent fuel bundle in the spent fuel pool with 9.38 months of decay to reach the temperature where the zirconium cladding would fail. This analysis conservatively assumes that there is no air cooling of the assemblies nor heat transfer by conduction, convection, and radiation from the assembly to other structures in the spent fuel pool and/or environments and supports decommissioning of Oyster Creek Nuclear Generating Station (OCNGS). Specifically, this analysis will be used to reduce the emergency planning staff once the hottest fuel assembly decay time is sufficient and is demonstrated to reach 900"C in 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> which supports the requirements of ISG-02, Section 5, Item 2 (Ref. 9).

The temperature over time is determined from a starting temperature of 125°F with the heat load from a the limiting GNF2 assembly as determined in Attachment 2. Note, the heat load was previously taken from Attachment 8 of Reference 1 in Revision 0 of this calculation.

2.0 Acceptance Criteria There are no specific acceptance criteria for this analysis; however, SECY-99-168 (Ref. 8) suggests that "10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> (is) sufficient time to take mitigative action" and that for BWRs, 2 years is expected to be the decay time needed to reach a 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> heat-up time from 30 *c to 900 *c. NUREG-1738 shows that a 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> heat up time for a BWR requires less than 2 years of cooling time (Ref. 7, Fig. 2-1).

NUREG/CR-6451 (Ref. 6) presents several studies discussing the maximum allowable temperature of zirconium cladding that will ensure that failure of the zirconium cladding will not occur. NUREG/CR-6451 states 565 *c (1049 "F) is the lowest temperature where incipient cladding failure might occur. Per NUREG-1738 (Ref. 7, pg. 3-7), 900°C (1652 "F) is the temperature where "runaway oxidation" (zirconium fire) is expected to occur. Therefore, the decay period to reach a 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> heat-up time from 30 *c (86 "F) to 900 *c is used as the acceptance criteria in this calculation. The decay period to reach a 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> heat-up time from 30 *c to 565 *c is also presented to show when cladding failure may occur.

NRC-2015-0070, Appendix A, Section 4.2.6 (Ref. 17) states that for BWRs a 10 month period for Level 1 (post-shutdown emergency planning) shall be used unless a site-specific analysis demonstrates a shorter time period is acceptable for reaching a cladding temperature of 900 *c within 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />.

3.0 Assumptions 3.1 The heat-up time is conservatively assumed to start when the spent fuel pool has been completely drained. This is conservative as the drain down time would increase the time to cladding failure.

3.2 The fuel rod spacers, located in the active fuel region are made of lnconel X-750 but are assumed to be zircaloy-2. This assumption is conservative since the specific heat capacity of

C-1302-226-E310-457 Rev.2 Page 7 of 66 zircaloy-2 is less than that of lnconel X-750. For instance, at 300K (~70°F) the specific heat of zircaloy-2 is 0.281x103 J/kg*K (Reference 18) and lnconel X-750 is 0.43x103 J/kg*K (0.103 Btu/lb*°F) (Reference 14). A lower specific heat capacity is conservative because it results in a shorter heat-up time.

3.3 OCNGS final cycle 26 will contain a full core of GNF2 fuel (Ref. 12); therefore, the analysis herein will only evaluate the heat up of GNF2 fuel assemblies and not any other assembly type in the spent fuel pool because the offloaded fuel directly after a cycle contains the assemblies with the highest decay heat (referred to as the hottest fuel assembly here-in).

3.4 The specific heat capacity for uranium dioxide and the zircaloy-2 cladding are determined at the initial temperature of each time step. Both the empirical formula and the specific heat capacity values in Table 1 are increasing with temperature from the range of 300K (80°F) to 1,173K (900°C). With an increasing temperature in each time step it is conservative to use the initial temperature resulting in a lower specific heat capacity than the average value for the time step.

3.5 This analysis conservatively assumes that there is no air cooling of the assemblies (i.e., adiabatic conditions): the flow paths that would provide natural circulation cooling are assumed to be blocked.

3.6 The fuel assembly materials in the active fuel region (fuel rods, spacers and water rods) are assumed to start at a uniform temperature and heat up at uniform rate. While there are temperature gradients throughout the assemblies, these are small relative to the total heat up from 125 °F (Input 5.5) to 900 °C for zirconium fire. Furthermore, this simplified approach is still conservative overall since convective heat transfer is not considered, nor is conduction to the upper and lower tie plates or other structural materials such as the SFP racks.

3.7 Gadolinium, which is a burnable poison and can be used in some fuel rods (Reference 2), is conservatively not included in this evaluation.

3.8 Radiative heat transfer to the active fuel length of the channel box is credited after the bulk temperature exceeds 580°F. This assumption is conservative as radiative heat transfer between the fuel rods and the channel is a function of the temperature difference (Tiods - Tc\anne1)*

With an adequate view factor between the fuel rods and the channel, and emissivity values typical of zircaloy-2, the entire decay heat in the bundle can be transferred to the channel when the bulk temperature of the fuel region is less than 580°F. Additionally, some conductive heat transfer occurs to the channel box via the connection to the upper and lower tie plate which in turn are connected to the fuel rods. Therefore, the assumption that the channel and the active fuel region are thermally connected at temperatures greater than 580°F is conservative.

3.9 The oxygen to metal ratio in the equation to determine the specific heat capacity of Uranium Oxide (U02) is assumed to be 2.00. This assumption is conservative since in fresh fuel there exists a 2 to 1 ratio of oxygen to uranium atoms in the fuel. As the fuel is burnt some uranium atoms fission and this ratio increases slightly. As demonstrated by Figure 2-1 of Reference 18, the specific heat capacity of U02 increases with an increasing oxygen to metal ratio.

C-1302-226-E310-457 Rev.2 Page 8 of 66 4.0 References

1. C-1302-226-E310-458, Rev. 0, "Dose at Exclusion Area Boundary and Control Room Due to Shine from Drained Spent Fuel Pool During SAFSTOR".

2. TODI NF172795, Rev.a, "Transmit GNF2 Dimensional Data for Oyster Creek".

3. OCNGS Technical Specification 5.3.1, Amendment No. 223.

4. Deleted

5. GEH-0000-0118-3544, Rev. 1, "GNF2 Fuel Design Cycle-Independent Analyses for Exelon Oyster Creek Generating Station".

6. NUREG/CR-6451, "A Safety and Regulatory Assessment of Generic BWR and PWR Permanently Shutdown Nuclear Power Plants", August 1997 (ML082260098).

7. NUREG-1738, "Technical Study of Spent Fuel Pool Accident Risk at Decommissioning Nuclear Power Plants", February 2001 (ML010430066).

8. SECY-99-168, "Improving Decommissioning Regulations for Nuclear Power Plants", June 30, 1999 (ML992800087).

9. NSIR/DPR-ISG-02, "Emergency Planning Exemption Requests for Decommissioning Nuclear Power Plants", May 11, 2015.

10. ORNL/TM-2005/39, SCALE 6.1, User's Manual, June 2011.

11. lncropera & DeWitt, "Fundamentals of Heat and Mass Transfer, Third Edition, John Wiley &

Sons, Inc., 1990

12. NF183597, Rev. 0, Oyster Creek Unit 1 Cycle 26 EOC Zirc Fire Calculation Inputs. (Attachment 3)

13. 26A7584, Rev. 0, GNF2 BWR/2-3 Fuel Bundle Weights (proprietary).

14. lnconel X-750 Technical Bulletin, Special Metals,

<http://www.specialmetals.com/assets/smc/documents/alloys/inconel/inconel-alloy-x-750.pdf>

(accessed 2/19/2018). (Attachment 4)

15. GNF2 Product Sheet, General Electrical, <https://nuclear.gepower.com/fuel-a-plant/products/gnf2-advantage> (accessed 2/20/2018). (Attachment 5)

16. DB-0011.03, Rev. 1, GNF2 Design Basis (proprietary).

17. NRC-2015-0070, Regulatory Improvements for Power Reactors Transitioning to Decommissioning, RIN Number 3150-AJ59, November 20, 2017.

18. NUREG/CR-6150, Vol.4, Rev 2, "SCDAP/RELAP/MOD3.3 Code Manual: MATPRO -A Library of Materials Properties for Light-Water-Reactor Accident Analysis", January 2001 (ML010330363, ML010330400 and ML010330422).

19. NUREG/CR-7024, "Material Property Correlations: Comparisons between FRAPCON-3.4, FRAPTRAN 1.4 and MATPRO" March 2011 (ML11101A012).

C-1302-226-E310-457 Rev.2 Page 9 of 66 5.0 Input Data 5.1 Zircaloy-2 Properties The cladding for the GNF2 fuel is zircaloy-2 (Ref. 5). The density of zircaloy-2 is 6.56 g/cm 3 (409.53 lbm/ft3 )

(Ref. 10). The GNF2 channel is also zirconium alloy (Ref. 15).

The specific heat capacity at various temperatures of zircaloy-2 is from Table 4.2 of Reference 18 and Table 3.1-1 of Reference 19 Table 1 contains the specific heat capacity of zircaloy-2 in both J/kg-K and BTU/lbm-"F. The specific heat capacity unit conversion is a 1 joule/kilogram/K (J/kg*K) =

0.238845896627E-03 Btu/pound/"F (Btu/lbm*"F).

Table 1: Zircaloy-2 Specific Heat Capacity Temperature Specific Heat Capacity (K) ("F) J/kg-K BTU/lbm*"F 300 80.33 281 0.0671 400 260.33 302 0.0721 640 692.33 331 0.0791 1090 1502.33 375 0.0896 1093 1507.73 502 0.1199 1113 1543.73 590 0.1409 1133 1579.73 615 0.1469 1153 1615.73 719 0.1717 1173 1651.73 816 0.1949 1193 1687.73 770 0.1839 1213 1723.73 619 0.1478 1233 1759.73 469 0.1120 1248 1786.73 356 0.0850 5.2 Uranium Properties The density of uranium dioxide is 10.6 g/cm 3 (661.74 lb/ ft 3) (Ref. 5, p. 19).

The specific heat capacity at various temperatures is calculated by the following empirical formula from Equation 2-5 of Reference 18 and Equation 2.2-1 of Reference 19.

Equation 5-1 Where:

FCP = Specific heat capacity (J/kg-K)

T = Temperature (K)

C-1302-226-E310-457 Rev.2 Page 10of66 y = Oxygen-to-metal ratio= 2 (Assumption 3.9)

R = Universal gas constant = 8.3143 (J/mol-K) (Reference 18) a = the Einstein temperature= 535.285 (K) (Reference 18)

Ki = 296.7 (J/kg-K) (Reference 18)

Ki = 2.43 x 10-2 (J/kg-K2 ) (Reference 18)

K3 = 8.745 x 107 (J/kg) (Reference 18)

Eo = 1.577 x 105 (J/mol) (Reference 18) 5.3 Geometry for Limiting Assemblies The table below shows the geometry inputs for the fuel assemblies used in this analysis. OCNGS's final cycle before decommissioning will contain a full core of GNF2 fuel (Assumption 3.3); therefore, the analysis herein will only evaluate the heat up of GNF2 fuel assemblies and not any other assembly type in the spent fuel pool because the offloaded fuel directly after a cycle is the hottest fuel assemblies in the pool. Table 2 contains fuel assembly input data for GNF2 fuel.

Table 2: Fuel Assembly Inputs for GNF2 Fuel Number of Heated Rods 92 rods Reference 5 Number of Water Rods 2 rods Reference 5 Number of 2/3 Length Part Length 8 rods Reference 5 Rod Number of 3/8 Length Part length 6 rods Reference 5 Rod Length of 2/3 Part Length Rod 102inches Reference 2 and 5 Length of 3/8 Part Length Rod 54 inches Reference 2 and 5 Uranium Pellet Diameter 0.3496 inches Reference 2 Outer Diameter of Water Rods 0.980 inches Reference 2 Inner Diameter of Water Rods 0.920 inches Reference 2 Outer Diameter of Cladding 0.404 inches Reference 2 Inner Diameter of Cladding 0.3567 inches Reference 2 Heated Length of Rods 145.24 inches Reference 2 Channel Width 5.283 inches Reference 16 Channel Groove Thickness 0.050 inches Reference 16 Channel Groove Width 0.798 in Reference 16 Groove Ramp Width 0.027 in Reference 16 Channel Sidewall Thickness 0.065 in Reference 16 Number of Spacers in Active Length 8 Reference 16 of Rods Total weight of Spacers 2.13 lbm Reference 13 Spacer Material Type lnconel alloy X-750 Reference 13 5.4 Heat Load determines the maximum heat load from a single fuel assembly, based on the information provided in Attachment 3. The assembly with the highest heat load will have the shortest heat-up time.

C-1302-226-E310-457 Rev.2 Page 11 of66 The table showing the maximum fuel assembly heat generation rates for several years is in Attachment 2, Table A2-1.

The worst-case (hottest) bundle is one that was discharged at the end of Cycle 26 and has been cooling for nine months. From Table A2-l, the heat load of this bundle 1.091x104 W/MTU. The maximum 0.181368 MTU/assembly value was derived from Cycle 26 data (Reference 12). The decay heat for the worst-case assembly with 9 months of decay is calculated as follows using the maximum assembly weight and a conversion factor of 1 W =3.4123 BTU/hr from Reference 11.

1.091£ + 04 W 0.181368 MTU Worst - case bundle heat load = MTU x assembly BTU

= 1979 W x 3.4123Jir = 6752 BTU/hr assembly W assembly Similarly, the decay heat of the worst-case assembly at 12 months is calculated to be 5,581 BTU/hr/assembly. From the 9 month and the 12 month decay heat, a 9.38 month decay heat is calculated via linear-logarithmic interpolation due to the exponential decay of the decay heat. The resulting 9.38 month decay heat is calculated to be:

Decay Heat (9 .38 mo) = e[Ln(6752 BTU/Hr)- *i x(Ln(6752 0 8 BTU/hr)-Ln(SSB1 BTU/hr)] = 6591 BTU /hr 5.5 Water Temperature The starting temperature for the heat-up analysis is taken as a uniform 125 °F (51 *q. The temperature of 125 °F (51 *q is the maximum Technical Specification pool temperature at or near the surface (Ref.

3). Under normal conditions, the pool temperature is procedurally controlled to be significantly less than the Technical Specification limit and would be more consistent with the SECY-99-168 (Ref. 8) and NUREG-1738 (Ref. 7) starting water temperature at 30 *c (86 °F), so setting the initial temperature to the maximum pool temperature is conservative.

6.0 Identification of Computer Codes The ORIGEN-ARP module of the SCALE 6.1 code package is used to calculate new decay heat values in of this calculation in revision 1. This revised model is based on the existing ORIGEN-ARP models developed as part of C-1302-226-E310-458 (Reference 1). Further discussion on the use and application of this software is contained within C-1302-226-E310-458.

C-1302-226-E310-457 Rev.2 Page 12 of 66 7 .0 Method of Analysis This analysis determines the heat-up time of the fuel assembly using the thermal capacity of materials.

Equation 7-1 (Ref. 11, Ch. 8):

!::.T q=m X Cp X  !::.t m=pXV Where:

q is the heat generation rate in BTU/hr m is the mass of material in lb p is the density of the material in lb/ft 3 V is the volume of the material in ft 3 Cp is the specific heat in BTU/lb- °F

!::.T is the temperature increase in °F

!::.t is the heat-up time step in hr For this analysis, there are two materials that are considered: the uranium dioxide fuel pellets and zircaloy-2. Zircaloy-2 comprises the cladding, the water tubes, channel, and the spacers (Assumption 3.2), all of which are also being heated. Under adiabatic conditions, zircaloy-2 and the uranium dioxide are modeled as heating up at the same rate, so the!: will be the same for both materials.

Equation 7-2:

!::.T q=  !::.t x (mu x Cp,u + mz x Cp,z)

Where:

Xu signifies the property is for uranium dioxide Xz signifies the property is for zircaloy-2 mu signifies the mass of uranium dioxide mz signifies the mass of zircaloy-2 This calculation seeks to determine the increase in temperature over sequential time steps of 0.025 hours2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> (!::.t), so Equation 7-2 is solved for !::.T.

Equation 7-3:

. x !::.t

!::.T = q (mu X Cp,u + mz X Cp,z)

C-1302-226-E310-457 Rev.2 Page 13 of 66 The volume of uranium is given below.

Equation 7-4:

Where:

Dp is the diameter of the uranium pellet in ft NFL is the number of full length heated rods LFL is the heated length ofthe full length rods in ft N (i) is the number of 2/3 length heated rods L(i) is the heated length of 2/3 length rods in ft N (i) is the number of 3/8 length heated rods LC~) is the heated length of 3/8 length rods in ft a

The mass of uranium is calculated as follows Equation 7-5:

Mu= Vu X Pu Where:

Mu is the mass of the uranium fuel in lbm Pu is the density of uranium in lbm/ft3 The volume of zircaloy-2 in the active fuel region the volume of the heated rods and water rods is summed as determined below. The length of the cladding is the active length of the rods. Water rods are credited for the length of the active fuel region of a full-length fuel rod.

Equation 7-6:

Where:

Vz,cL is the volume of zircaloy-2 in the cladding of heated tubes in ft 3 Dc,o is the outer diameter of the cladding in ft Dc,i is the inner diameter of the cladding in ft

C-1302-226-E310-457 Rev.2 Page 14 of 66 Equation 7-7:

=

2 Dw,o - Dw,i 2) Nwr X LFL Vz,wr (Tr X 4 Where:

Vz,wr is the volume of zircaloy-2 in the water rods in ft 3 Dw,o is the outer diameter of the water rods in ft Dw,i is the inner diameter of the water rods in ft Nwr is the number of water rods The volume of the channel box is determined by the inside width, a weighted average thickness based on the grove and sidewall thickness, and the active length of the rods. In reality, the channel box is slightly thicker due to the thick corners and longer than the active length. As discussed in Assumption 3.8, the mass of the channel box is credited only after the bulk temperature of 580°F.

Equation 7-8 Vz,eb = 0 : T < 580°F Vz,eb = 4 x Ln x Web x [Tg x 2 * (Wg + 2Wgr) + Tw x (Web - 2 * (Wg + 2Wgr))) :T ~ SBOaF Web Web Where:

Vz,eb is the volume of zircaloy-2 in the channel box in ft 3 Web is the inside width of the channel box in ft

~ is the width of the groove in ft

~r is the width of the groove ramp in ft 1'g is the groove thickness of the channel box in ft Tw is the side wall thickness of the channel box in ft Equation 7-9:

Vz = Vz,cl + Vz,wr + Vz,eb Where:

Vz is the total zircaloy-2 volume in ft 3 The mass of the zircaloy-2 is calculated as follows.

Equation 7-10

C-1302-226-E310-457 Rev.2 Page 15 of 66 Mz = (Vz X pz) + M5 Where:

Mz is the mass of the zircaloy in lb pz is the density of zircaloy in lb/ft3 Ms is the mass of the spacers in lb The temperature increase (.1T) for this analysis is taken to be from the initial temperature of the pool, 125°F (51 °C) (Input 5.5), to the zirconium cladding failure temperatures of interest, 1049°F (565°C) and 1652°F (900°C) (Acceptance Criteria, Section 2).

For each time step Equation 7-3 is solved to determine the change in temperature starting with the initial temperature of 125°F, the specific heat capacity of uranium is determined using equation 5-1 at the initial temperature. The specific heat capacity of zircaloy-2 at the initial temperature is determined by interpolating between the various data points in Table 1. Using the mass of uranium calculated by Equation 7-5 and the mass of zircaloy-2 calculated by Equation 7-10 the change in temperature (LH) of the time step is calculated. For the next time step the initial temperature is determined by adding the initial temperature and LH from the previous time step.

The hottest assembly source term methodology is described in Attachment 2.

8.0 Numeric Analysis The volume of Uranium Dioxide in the hottest fuel assembly is determined below using Equation 7-4:

2 2

_ 0.3496 in )

(12in/ft) 145.24in) (( (0.3496 12in/ftin) ) 102in )

Vu -

((

rr x 4 78 rods x 12 in/ft + rr x 4 8 rods x 12 in/ft (0.3496 12 in/ft in) 2 ) 54 in ) 3

+ rr x 4 6 rods x 12 in/ft = 0.693 ft

((

The resulting mass of Uranium Dioxide using Equation 7-5 with the density from Input 5.2 is:

lbm mu= 0.693 ft 3 x 661.74 ft3 = 458.586 lbm

C-1302-226-E310-457 Rev.2 Page 16 of 66 The volume of zircaloy-2 in the cladding is determined below using Equation 7-6:

0.404 in) 2 (0.3567 in) 2 )

( 12 )

in/ft - 12 in/ft 145.24 in Vz,cL = TC x 4 78 rods x 12 in/ft

((

0.404 in) 2 (0.3567 in) 2 )

( 12 )

in/ft - 12 in/ft 102 in

+ (( TCX 4 8rodsx 12 in/ft 0.404 in) 2 (0.3567 in) 2 )

( 12 )

inf ft - 12 in// t 54 in 3

+ TC x 4 6 rods x 12 in/ft = 0.204ft

((

The volume of zircaloy-2 in the water rods is determined below using Equation 7-7.

0.980 in) 2 (0.920 in) 2 )

( 12 in/ft - 12 in/ft 145.24 in Vzwr

= TC X 4

2 rods X . ff 12 m t

= 0.0151 ft 3

(

The volume of zircaloy-2 in the channel is determined below using Equation 7-8.

Vz,cb = 0 : T < 580°F in 5.283 in Vz,c b = 4 x 145.24 12 in/ft x12 -in/ft

-x

[

o.o5 inx2*(0.190 in+2co.021in)) + 0.065 inx[5.283 in-2*(0.190 in+2co.021 in)J Jv 5.203 in 5.283 in . = O 107 ft3 : T > 580°F l2in/ft * -

The total zircaloy-2 volume is then determined below from Equation 7-9:

l1z = 0.204 ft 3 + 0.0151 ft 3 + 0 ft 3 = 0.2191 ft 3  : T < 580°F l1z = 0.204 ft 3 + 0.0151 ft 3 + 0.107 ft 3 = 0.3261 ft 3  : T ~ 580°F The resulting total mass of zircaloy-2 is calculated using Equation 7-10 with the volume above and the density from Input 5.1 along with the mass of the spacers from Input 5.3:

mz = (0.2191 ft 3 x 409.53 ~~) + 2.13 lbm = 91.858 lbm :T < 580°F

C-1302-226-E310-457 Rev.2 Page 17 of 66 mz = ( 0.3261 ft 3 x 409.53 lbm) f t3 + 2.13 lbm = 135.678 lbm  : T ~ 580°F Equation 7-3 is solved in an Excel spreadsheet with an initial temperature of 125°F to determine the change in temperature (LH) over the time step. For each time step, the 10-month decay heat from the limiting bundle of 6,591 BTU/hr, the mass of U02 of 458.586 lbm and the mass of zircaloy-2 of 91.858 lbm (T< 580°F) or 135.678 lbm (T <!: 580°F) are used. Specific heat capacity is determined at the initial temperature of the time step by Equation 5-1 for U02 and by interpolation of the data in Table 1 for zircaloy-2.

For the subsequent time steps the initial temperature is determined by adding the initial temperature and LH from the previous time step. See Attachment 1 for calculation up to 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br />. At 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> (ending temperature of the 9.975 hr time step) the temperature is conservatively calculated to be 896.44°C, below the limit of 900°C.

9.0 Results and Conclusions With the decay heat from the limiting 9.38-month decay spent fuel bundle, the temperature after 10 hours1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> was calculated to be 896.44°C, which is less than the 900°C requirement in ISG-02 (Reference 9).

Therefore, the 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> heat-up time from the maximum Technical Specification allowed SFP temperature of 125°F to a "runaway oxidation" (zirconium fire) temperature of 900°C (1652°F) occurs at a decay time less than 9.38 months after shutdown. Based on the results of this analysis, Emergency Planning (EP) staffing could potentially be reduced 9.38 months after shutdown.

The calculated temperature is based off the normal operations maximum SFP temperature of 125°F, the mass of the uranium oxide (U02) fuel, the zircaloy-2 mass of the fuel and water rods only in the active fuel region, the mass of the In con el spacers modeled as zircaloy-2, and the partial mass of the fuel channel in the active fuel region once the bulk temperature exceeded 580 °F.

While the final calculated temperature is close to the 900°C requirement in ISG-02 (Reference 9), the following conservatisms remain. The largest conservatisms are the adiabatic assumption (Assumption 3.5) and the start of the heat up after the bundle has become fully uncovered (Assumption 3.1). Both of the assumptions eliminate other mechanisms in which decay heat would be transferred away from the fuel bundle either by convective heat transfer or by the boiling of spent fuel pool water.

The analysis also does not credit the full mass of material found in the bundle as the thicker corners of the fuel channel are not included in the calculation of the channel mass. Also, the mass of the upper and lower stainless-steel tie plates are not included, but would provide a conductive heat pathway for some of the decay heat.

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 18 of 66 Parameter Value Unit Reference Decay Heat 6591 BTU/Hr Design Input 5.4 Mass U02 458.586 lbm Section 8.0 Mass Zirc (Fuel) 91.858 lbm Section 8.0 Mass Zirc 135.678 lbm Section 8.0

{Fuel+Channel)

Starting Temp 125 "F Design Input 5.5 Credit Temp 580 "F Assumption 3.8 10 hour1.157407e-4 days <br />0.00278 hours <br />1.653439e-5 weeks <br />3.805e-6 months <br /> Temp 896.44 *c Calculated Initial Elapsed Time Time Step Decay Heat Mass U02 CpU02 MassZirc CpZirc AT Ending Temp Temp hr hr "F BTU/hr lbm BTU/lbm-"F lbm BTU/lbm-"F "F "F *c 0 0.025 125 6.59E+03 458.586 0.0587 91.858 0.0684 4.96 129.96 54.42 0.025 0.025 129.96 6.59E+03 458.586 0.0589 91.858 0.0685 4.95 134.91 57.17 0.05 0.025 134.91 6.59E+03 458.586 0.0591 91.858 0.0686 4.93 139.84 59.91 0.075 0.025 139.84 6.59E+03 458.586 0.0593 91.858 0.0688 4.91 144.76 62.64 0.1 0.025 144.76 6.59E+03 458.586 0.0595 91.858 0.0689 4.90 149.66 65.37 0.125 0.025 149.66 6.59E+03 458.586 0.0597 91.858 0.0690 4.88 154.54 68.08 0.15 0.025 154.54 6.59E+03 458.586 0.0599 91.858 0.0692 4.87 159.41 70.78 0.175 0.025 159.41 6.59E+03 458.586 0.0601 91.858 0.0693 4.85 164.26 73.48 0.2 0.025 164.26 6.59E+03 458.586 0.0603 91.858 0.0695 4.84 169.10 76.17 0.225 0.025 169.10 6.59E+03 458.586 0.0605 91.858 0.0696 4.83 173.93 78.85 0.25 0.025 173.93 6.59E+03 458.586 0.0607 91.858 0.0697 4.81 178.74 81.52 0.275 0.025 178.74 6.59E+03 458.586 0.0609 91.858 0.0699 4.80 183.54 84.19

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 19 of 66 0.3 0.025 183.54 6.59E+03 458.586 0.0611 91.858 0.0700 4.79 188.33 86.85 0.325 0.025 188.33 6.59E+03 458.586 0.0612 91 .858 0.0701 4.77 193.10 89.50 0.35 0.025 193.10 6.59E+03 458.586 0.0614 91.858 0.0703 4.76 197.86 92.15 0.375 0.025 197.86 6.59E+03 458.586 0.0616 91.858 0.0704 4.75 202.61 94.78 0.4 0.025 202.61 6.59E+03 458.586 0.0617 91.858 0.0705 4.74 207.35 97.42 0.425 0.025 207.35 6.59E+03 458.586 0.0619 91.858 0.0707 4.73 212.08 100.04 0.45 0.025 212.08 6.59E+03 458.586 0.0620 91.858 0.0708 4.71 216.79 102.66 0.475 0.025 216.79 6.59E+03 458.586 0.0622 91.858 0.0709 4.70 221.49 105.27 0.5 0.025 221.49 6.59E+03 458.586 0.0623 91.858 0.0710 4.69 226.19 107.88 0.525 0.025 226.19 6.59E+03 458.586 0.0625 91.858 0.0712 4.68 230.87 110.48 0.55 0.025 230.87 6.59E+03 458.586 0.0626 91.858 0.0713 4.67 235.54 113.08 0.575 0.025 235.54 6.59E+03 458.586 0.0628 91.858 0.0714 4.66 240.20 115.67 0.6 0.025 240.20 6.59E+03 458.586 0.0629 91.858 0.0716 4.65 244.85 118.25 0.625 0.025 244.85 6.59E+03 458.586 0.0631 91.858 0.0717 4.64 249.49 120.83 0.65 0.025 249.49 6.59E+03 458.586 0.0632 91 .858 0.0718 4.63 254.12 123.40 0.675 0.025 254.12 6.59E+03 458.586 0.0633 91 .858 0.0720 4.62 258.75 125.97 0.7 0.025 258.75 6.59E+03 458.586 0.0635 91.858 0.0721 4.61 263.36 128.53 0.725 0.025 263.36 6.59E+03 458.586 0.0636 91.858 0.0722 4.60 267.96 131.09 0.75 0.025 267.96 6.59E+03 458.586 0.0637 91.858 0.0723 4.60 272.56 133.64 0.775 0.025 272.56 6.59E+03 458.586 0.0638 91.858 0.0723 4 .59 277.15 136.19 0.8 0.025 277.15 6.59E+03 458.586 0.0640 91.858 0.0724 4 .58 281.73 138.74 0.825 0.025 281.73 6.59E+03 458.586 0.0641 91.858 0.0725 4.57 286.30 141.28 0.85 0.025 286.30 6.59E+03 458.586 0.0642 91.858 0.0725 4.56 290.86 143.81 0.875 0.025 290.86 6.59E+03 458.586 0.0643 91.858 0.0726 4.56 295.42 146.34 0.9 0.025 295.42 6.59E+03 458.586 0.0644 91 .858 0.0727 4.55 299.97 148.87 0.925 0.025 299.97 6.59E+03 458.586 0.0645 91.858 0.0728 4.54 304.51 151.40 0.95 0.025 304.51 6.59E+03 458.586 0.0646 91.858 0.0728 4.53 309.05 153.92 0.975 0.025 309.05 6.59E+03 458.586 0.0648 91.858 0.0729 4.53 313.57 156.43 1 0.025 313.57 6.59E+03 458.586 0.0649 91.858 0.0730 4.52 318.10 158.94 1.025 0.025 318.10 6.59E+03 458.586 0.0650 91 .858 0.0731 4.51 322.61 161.45 1.05 0.025 322.61 6.59E+03 458.586 0.0651 91.858 0.0731 4.51 327.12 163.95 1.075 0.025 327.12 6.59E+03 458.586 0.0652 91.858 0.0732 4.50 331.62 166.45 1.1 0.025 331.62 6.59E+03 458.586 0.0653 91.858 0.0733 4.49 336.11 168.95 1.125 0.025 336.11 6.59E+03 458.586 0.0654 91 .858 0.0733 4.49 340.60 171 .44 1.15 0.025 340.60 6.59E+03 458.586 0.0655 91.858 0.0734 4.48 345.08 173.93 1.175 0.025 345.08 6.59E+03 458.586 0.0656 91.858 0.0735 4.48 349.56 176.42

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 20of66 1.2 0.025 349.56 6.59E+03 458.586 0.0657 91.858 0.0736 4.47 354.02 178.90 1.225 0.025 354.02 6.59E+03 458.586 0.0658 91.858 0.0736 4.46 358.49 181.38 1.25 0.025 358.49 6.59E+03 458.586 0.0659 91.858 0.0737 4.46 362.95 183.86 1.275 0.025 362.95 6.59E+03 458.586 0.0659 91.858 0.0738 4.45 367.40 186.33 1.3 0.025 367.40 6.59E+03 458.586 0.0660 91.858 0.0738 4.45 371.84 188.80 1.325 0.025 371.84 6.59E+03 458.586 0.0661 91.858 0.0739 4.44 376.28 191.27 1.35 0.025 376.28 6.59E+03 458.586 0.0662 91.858 0.0740 4.43 380.72 193.73 1.375 0.025 380.72 6.59E+03 458.586 0.0663 91.858 0.0741 4.43 385.14 196.19 1.4 0.025 385.14 6.59E+03 458.586 0.0664 91 .858 0.0741 4.42 389.57 198.65 1.425 0.025 389.57 6.59E+03 458.586 0.0665 91.858 0.0742 4.42 393.99 201.10 1.45 0.025 393.99 6.59E+03 458.586 0.0666 91.858 0.0743 4.41 398.40 203.55 1.475 0.025 398.40 6.59E+03 458.586 0.0666 91.858 0.0743 4.41 402.81 206.00 1.5 0.025 402.81 6.59E+03 458.586 0.0667 91.858 0.0744 4.40 407.21 208.45 1.525 0.025 407.21 6.59E+03 458.586 0.0668 91.858 0.0745 4.40 411.61 210.89 1.55 0.025 411.61 6.59E+03 458.586 0.0669 91.858 0.0746 4.39 416.00 213.33 1.575 0.025 416.00 6.59E+03 458.586 0.0670 91.858 0.0746 4.39 420.38 215.77 1.6 0.025 420.38 6.59E+03 458.586 0.0670 91.858 0.0747 4.38 424.77 218.20 1.625 0.025 424.77 6.59E+03 458.586 0.0671 91.858 0.0748 4.38 429.14 220.64 1.65 0.025 429.14 6.59E+03 458.586 0.0672 91.858 0.0748 4.37 433.52 223.06 1.675 0.025 433.52 6.59E+03 458.586 0.0673 91.858 0.0749 4.37 437.88 225.49 1.7 0.025 437.88 6.59E+03 458.586 0.0673 91.858 0.0750 4.36 442.25 227.92 1.725 0.025 442.25 6.59E+03 458.586 0.0674 91.858 0.0750 4.36 446.61 230.34 1.75 0.025 446.61 6.59E+03 458.586 0.0675 91.858 0.0751 4.35 450.96 232.76 1.775 0.025 450.96 6.59E+03 458.586 0.0675 91.858 0.0752 4.35 455.31 235.17 1.8 0.025 455.31 6.59E+03 458.586 0.0676 91.858 0.0753 4.35 459.66 237.59 1.825 0.025 459.66 6.59E+03 458.586 0.0677 91.858 0.0753 4.34 464.00 240.00 1.85 0.025 464.00 6.59E+03 458.586 0.0678 91.858 0.0754 4.34 468.33 242.41 1.875 0.025 468.33 6.59E+03 458.586 0.0678 91.858 0.0755 4.33 472.67 244.81 1.9 0.025 472.67 6.59E+03 458.586 0.0679 91.858 0.0755 4.33 476.99 247.22 1.925 0.025 476.99 6.59E+03 458.586 0.0680 91.858 0.0756 4.32 481.32 249.62 1.95 0.025 481.32 6.59E+03 458.586 0.0680 91.858 0.0757 4.32 485.64 252.02 1.975 0.025 485.64 6.59E+03 458.586 0.0681 91.858 0.0757 4.32 489.95 254.42 2 0.025 489.95 6.59E+03 458.586 0.0681 91.858 0.0758 4.31 494.26 256.81 2.025 0.025 494.26 6.59E+03 458.586 0.0682 91.858 0.0759 4.31 498.57 259.21 2.05 0.025 498.57 6.59E+03 458.586 0.0683 91.858 0.0760 4.30 502.88 261 .60 2.075 0.025 502.88 6.59E+03 458.586 0.0683 91.858 0.0760 4.30 507.18 263.99

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 21 of 66 2.1 0.025 507.18 6.59E+03 458.586 0.0684 91.858 0.0761 4.30 511.47 266.37 2.125 0.025 511.47 6.59E+03 458.586 0.0685 91.858 0.0762 4.29 515.76 268.76 2.15 0.025 515.76 6.59E+03 458.586 0.0685 91.858 0.0762 4.29 520.05 271.14 2.175 0.025 520.05 6.59E+03 458.586 0.0686 91.858 0.0763 4.28 524.34 273.52 2.2 0.025 524.34 6.59E+03 458.586 0.0686 91.858 0.0764 4.28 528.62 275.90 2.225 0.025 528.62 6.59E+03 458.586 0.0687 91.858 0.0764 4.28 532.90 278.28 2.25 0.025 532.90 6.59E+03 458.586 0.0688 91.858 0.0765 4.27 537.17 280.65 2.275 0.025 537.17 6.59E+03 458.586 0.0688 91.858 0.0766 4.27 541.44 283.02 2.3 0.025 541.44 6.59E+03 458.586 0.0689 91.858 0.0766 4.27 545.71 285.39 2.325 0.025 545.71 6.59E+03 458.586 0.0689 91.858 0.0767 4.26 549.97 287.76 2.35 0.025 549.97 6.59E+03 458.586 0.0690 91.858 0.0768 4.26 554.23 290.13 2.375 0.025 554.23 6.59E+03 458.586 0.0690 91 .858 0.0768 4.26 558.48 292.49 2.4 0.025 558.48 6.59E+03 458.586 0.0691 91 .858 0.0769 4.25 562.74 294.85 2.425 0.025 562.74 6.59E+03 458.586 0.0691 91.858 0.0770 4.25 566.98 297.21 2.45 0.025 566.98 6.59E+03 458.586 0.0692 91.858 0.0770 4.25 571.23 299.57 2.475 0.025 571.23 6.59E+03 458.586 0.0692 91.858 0.0771 4.24 575.47 301 .93 2.5 0.025 575.47 6.59E+03 458.586 0.0693 91.858 0.0772 4.24 579.71 304.28 2.525 0.025 579.71 6.59E+03 458.586 0.0694 91.858 0.0773 4.24 583.95 306.64 2.55 0.025 583.95 6.59E+03 458.586 0.0694 135.678 0.0773 3.89 587.84 308.80 2.575 0.025 587.84 6.59E+03 458.586 0.0695 135.678 0.0774 3.89 591.73 310.96 2.6 0.025 591.73 6.59E+03 458.586 0.0695 135.678 0.0774 3.89 595.62 313.12 2.625 0.025 595.62 6.59E+03 458.586 0.0695 135.678 0.0775 3.89 599.51 315.28 2.65 0.025 599.51 6.59E+03 458.586 0.0696 135.678 0.0776 3.88 603.39 317.44 2.675 0.025 603.39 6.59E+03 458.586 0.0696 135.678 0.0776 3.88 607.27 319.59 2.7 0.025 607.27 6.59E+03 458.586 0.0697 135.678 0.0777 3.88 611.15 321.75 2.725 0.025 611.15 6.59E+03 458.586 0.0697 135.678 0.0778 3.87 615.02 323.90 2.75 0.025 615.02 6.59E+03 458.586 0.0698 135.678 0.0778 3.87 618.89 326.05 2.775 0.025 618.89 6.59E+03 458.586 0.0698 135.678 0.0779 3.87 622.76 328.20 2.8 0.025 622.76 6.59E+03 458.586 0.0699 135.678 0.0779 3.87 626.63 330.35 2.825 0.025 626.63 6.59E+03 458.586 0.0699 135.678 0.0780 3.86 630.49 332.50 2.85 0.025 630.49 6.59E+03 458.586 0.0699 135.678 0.0781 3.86 634.36 334.64 2.875 0.025 634.36 6.59E+03 458.586 0.0700 135.678 0.0781 3.86 638.22 336.79 2.9 0.025 638.22 6.59E+03 458.586 0.0700 135.678 0.0782 3.86 642.07 338.93 2.925 0.025 642.07 6.59E+03 458.586 0.0701 135.678 0.0783 3.85 645.93 341.07 2.95 0.025 645.93 6.59E+03 458.586 0.0701 135.678 0.0783 3.85 649.78 343.21 2.975 0.025 649.78 6.59E+03 458.586 0.0702 135.678 0.0784 3.85 653.63 345.35

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 22of66 3 0.025 653.63 6.59E+03 458.586 0.0702 135.678 0.0784 3.85 657.48 347.49 3.025 0.025 657.48 6.59E+03 458.586 0.0702 135.678 0.0785 3.84 661.32 349.62 3.05 0.025 661.32 6.59E+03 458.586 0.0703 135.678 0.0786 3.84 665.16 351 .76 3.075 0.025 665.16 6.59E+03 458.586 0.0703 135.678 0.0786 3.84 669.00 353.89 3.1 0.025 669.00 6.59E+03 458.586 0.0704 135.678 0.0787 3.84 672.84 356.02 3.125 0.025 672.84 6.59E+03 458.586 0.0704 135.678 0.0787 3.84 676.67 358.15 3.15 0.025 676.67 6.59E+03 458.586 0.0704 135.678 0.0788 3.83 680.51 360.28 3.175 0.025 680.51 6.59E+03 458.586 0.0705 135.678 0.0789 3.83 684.34 362.41 3.2 0.025 684.34 6.59E+03 458.586 0.0705 135.678 0.0789 3.83 688.17 364.54 3.225 0.025 688.17 6.59E+03 458.586 0.0705 135.678 0.0790 3.83 691.99 366.66 3.25 0.025 691.99 6.59E+03 458.586 0.0706 135.678 0.0791 3.82 695.82 368.79 3.275 0.025 695.82 6.59E+03 458.586 0.0706 135.678 0.0791 3.82 699.64 370.91 3.3 0.025 699.64 6.59E+03 458.586 0.0707 135.678 0.0792 3.82 703.46 373.03 3.325 0.025 703.46 6.59E+03 458.586 0.0707 135.678 0.0792 3.82 707.27 375.15 3.35 0.025 707.27 6.59E+03 458.586 0.0707 135.678 0.0793 3.82 711.09 377.27 3.375 0.025 711.09 6.59E+03 458.586 0.0708 135.678 0.0793 3.81 714.90 379.39 3.4 0.025 714.90 6.59E+03 458.586 0.0708 135.678 0.0794 3.81 718.71 381.51 3.425 0.025 718.71 6.59E+03 458.586 0.0708 135.678 0.0794 3.81 722.52 383.62 3.45 0.025 722.52 6.59E+03 458.586 0.0709 135.678 0.0794 3.81 726.33 385.74 3.475 0.025 726.33 6.59E+03 458.586 0.0709 135.678 0.0795 3.80 730.13 387.85 3.5 0.025 730.13 6.59E+03 458.586 0.0710 135.678 0.0795 3.80 733.93 389.96 3.525 0.025 733.93 6.59E+03 458.586 0.0710 135.678 0.0796 3.80 737.74 392.08 3.55 0.025 737.74 6.59E+03 458.586 0.0710 135.678 0.0796 3.80 741.53 394.19 3.575 0.025 741.53 6.59E+03 458.586 0.0711 135.678 0.0797 3.80 745.33 396.29 3.6 0.025 745.33 6.59E+03 458.586 0.0711 135.678 0.0797 3.79 749.13 398.40 3.625 0.025 749.13 6.59E+03 458.586 0.0711 135.678 0.0798 3.79 752.92 400.51 3.65 0.025 752.92 6.59E+03 458.586 0.0712 135.678 0.0798 3.79 756.71 402.62 3.675 0.025 756.71 6.59E+03 458.586 0.0712 135.678 0.0799 3.79 760.50 404.72 3.7 0.025 760.50 6.59E+03 458.586 0.0712 135.678 0.0799 3.79 764.28 406.82 3.725 0.025 764.28 6.59E+03 458.586 0.0713 135.678 0.0800 3.79 768.07 408.93 3.75 0.025 768.07 6.59E+03 458.586 0.0713 135.678 0.0800 3.78 771.85 411.03 3.775 0.025 771.85 6.59E+03 458.586 0.0713 135.678 0.0801 3.78 775.63 413.13 3.8 0.025 775.63 6.59E+03 458.586 0.0714 135.678 0.0801 3.78 779.41 415.23 3.825 0.025 779.41 6.59E+03 458.586 0.0714 135.678 0.0802 3.78 783.19 417.33 3.85 0.025 783.19 6.59E+03 458.586 0.0714 135.678 0.0802 3.78 786.97 419.43 3.875 0.025 786.97 6.59E+03 458.586 0.0715 135.678 0.0803 3.77 790.74 421.52

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 23of66 3.9 0.025 790.74 6.59E+03 458.586 0.0715 135.678 0.0803 3.77 794.51 423.62 3.925 0.025 794.51 6.59E+03 458.586 0.0715 135.678 0.0804 3.77 798.28 425.71 3.95 0.025 798.28 6.59E+03 458.586 0.0716 135.678 0.0804 3.77 802.05 427.81 3.975 0.025 802.05 6.59E+03 458.586 0.0716 135.678 0.0805 3.77 805.82 429.90 4 0.025 805.82 6.59E+03 458.586 0.0716 135.678 0.0805 3.76 809.58 431.99 4 .025 0.025 809.58 6.59E+03 458.586 0.0717 135.678 0.0806 3.76 813.34 434.08 4.05 0.025 813.34 6.59E+03 458.586 0.0717 135.678 0.0806 3.76 817.11 436.17 4 .075 0.025 817.11 6.59E+03 458.586 0.0717 135.678 0.0807 3.76 820.86 438.26 4.1 0.025 820.86 6.59E+03 458.586 0.0717 135.678 0.0807 3.76 824.62 440.35 4.125 0.025 824.62 6.59E+03 458.586 0.0718 135.678 0.0808 3.76 828.38 442.43 4.15 0.025 828.38 6.59E+03 458.586 0.0718 135.678 0.0808 3.75 832.13 444.52 4.175 0.025 832.13 6.59E+03 458.586 0.0718 135.678 0.0809 3.75 835.88 446.60 4.2 0.025 835.88 6.59E+03 458.586 0.0719 135.678 0.0809 3.75 839.63 448.69 4.225 0.025 839.63 6.59E+03 458.586 0.0719 135.678 0.0810 3.75 843.38 450.77 4.25 0.025 843.38 6.59E+03 458.586 0.0719 135.678 0.0810 3.75 847.13 452.85 4.275 0.025 847.13 6.59E+03 458.586 0.0720 135.678 0.0811 3.75 850.87 454.93 4.3 0.025 850.87 6.59E+03 458.586 0.0720 135.678 0.0811 3.74 854.62 457.01 4 .325 0.025 854.62 6.59E+03 458.586 0.0720 135.678 0.0812 3.74 858.36 459.09 4.35 0.025 858.36 6.59E+03 458.586 0.0720 135.678 0.0812 3.74 862.10 461.17 4 .375 0.025 862.10 6.59E+03 458.586 0.0721 135.678 0.0813 3.74 865.84 463.24 4.4 0.025 865.84 6.59E+03 458.586 0.0721 135.678 0.0813 3.74 869.58 465.32 4.425 0.025 869.58 6.59E+03 458.586 0.0721 135.678 0.0814 3.74 873.31 467.39 4.45 0.025 873.31 6.59E+03 458.586 0.0722 135.678 0.0814 3.73 877.04 469.47 4.475 0.025 877.04 6.59E+03 458.586 0.0722 135.678 0.0815 3.73 880.78 471.54 4.5 0.025 880.78 6.59E+03 458.586 0.0722 135.678 0.0815 3.73 884.51 473.61 4.525 0.025 884.51 6.59E+03 458.586 0.0722 135.678 0.0816 3.73 888.23 475.69 4.55 0.025 888.23 6.59E+03 458.586 0.0723 135.678 0.0816 3.73 891.96 477.76 4.575 0.025 891.96 6.59E+03 458.586 0.0723 135.678 0.0816 3.73 895.69 479.83 4.6 0.025 895.69 6.59E+03 458.586 0.0723 135.678 0.0817 3.72 899.41 481.89 4 .625 0.025 899.41 6.59E+03 458.586 0.0724 135.678 0.0817 3.72 903.13 483.96 4.65 0.025 903.13 6.59E+03 458.586 0.0724 135.678 0.0818 3.72 906.85 486.03 4.675 0.025 906.85 6.59E+03 458.586 0.0724 135.678 0.0818 3.72 910.57 488.09 4.7 0.025 910.57 6.59E+03 458.586 0.0724 135.678 0.0819 3.72 914.29 490.16 4.725 0.025 914.29 6.59E+03 458.586 0.0725 135.678 0.0819 3.72 918.00 492.22 4.75 0.025 918.00 6.59E+03 458.586 0.0725 135.678 0.0820 3.71 921.72 494.29 4.775 0.025 921.72 6.59E+03 458.586 0.0725 135.678 0.0820 3.71 925.43 496.35

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 24of66 4.8 0.025 925.43 6.59E+03 458.586 0.0725 135.678 0.0821 3.71 929.14 498.41 4.825 0.025 929.14 6.59E+03 458.586 0.0726 135.678 0.0821 3.71 932.85 500.47 4.85 0.025 932.85 6.59E+03 458.586 0.0726 135.678 0.0822 3.71 936.56 502.53 4.875 0.025 936.56 6.59E+03 458.586 0.0726 135.678 0.0822 3.71 940.26 504.59 4.9 0.025 940.26 6.59E+03 458.586 0.0726 135.678 0.0823 3.70 943.97 506.65 4.925 0.025 943.97 6.59E+03 458.586 0.0727 135.678 0.0823 3.70 947.67 508.71 4.95 0.025 947.67 6.59E+03 458.586 0.0727 135.678 0.0824 3.70 951.37 510.76 4.975 0.025 951.37 6.59E+03 458.586 0.0727 135.678 0.0824 3.70 955.07 512.82 5 0.025 955.07 6.59E+03 458.586 0.0728 135.678 0.0825 3.70 958.77 514.87 5.025 0.025 958.77 6.59E+03 458.586 0.0728 135.678 0.0825 3.70 962.47 516.93 5.05 0.025 962.47 6.59E+03 458.586 0.0728 135.678 0.0826 3.70 966.16 518.98 5.075 0.025 966.16 6.59E+03 458.586 0.0728 135.678 0.0826 3.69 969.86 521.03 5.1 0.025 969.86 6.59E+03 458.586 0.0729 135.678 0.0827 3.69 973.55 523.08 5.125 0.025 973.55 6.59E+03 458.586 0.0729 135.678 0.0827 3.69 977.24 525.13 5.15 0.025 977.24 6.59E+03 458.586 0.0729 135.678 0.0828 3.69 980.93 527.18 5.175 0.025 980.93 6.59E+03 458.586 0.0729 135.678 0.0828 3.69 984.62 529.23 5.2 0.025 984.62 6.59E+03 458.586 0.0730 135.678 0.0829 3.69 988.31 531.28 5.225 0.025 988.31 6.59E+03 458.586 0.0730 135.678 0.0829 3.69 991.99 533.33 5.25 0.025 991.99 6.59E+03 458.586 0.0730 135.678 0.0829 3.68 995.67 535.37 5.275 0.025 995.67 6.59E+03 458.586 0.0730 135.678 0.0830 3.68 999.36 537.42 5.3 0.025 999.36 6.59E+03 458.586 0.0730 135.678 0.0830 3.68 1003.04 539.47 5.325 0.025 1003.04 6.59E+03 458.586 0.0731 135.678 0.0831 3.68 1006.72 541.51 5.35 0.025 1006.72 6.59E+03 458.586 0.0731 135.678 0.0831 3.68 1010.40 543.55 5.375 0.025 1010.40 6.59E+03 458.586 0.0731 135.678 0.0832 3.68 1014.07 545.60 5.4 0.025 1014.07 6.59E+03 458.586 0.0731 135.678 0.0832 3.68 1017.75 547.64 5.425 0.025 1017.75 6.59E+03 458.586 0.0732 135.678 0.0833 3.67 1021.42 549.68 5.45 0.025 1021.42 6.59E+03 458.586 0.0732 135.678 0.0833 3.67 1025.09 551.72 5.475 0.025 1025.09 6.59E+03 458.586 0.0732 135.678 0.0834 3.67 1028.76 553.76 5.5 0.025 1028.76 6.59E+03 458.586 0.0732 135.678 0.0834 3.67 1032.43 555.80 5.525 0.025 1032.43 6.59E+03 458.586 0.0733 135.678 0.0835 3.67 1036.10 557.83 5.55 0.025 1036.10 6.59E+03 458.586 0.0733 135.678 0.0835 3.67 1039.77 559.87 5.575 0.025 1039.77 6.59E+03 458.586 0.0733 135.678 0.0836 3.67 1043.43 561.91 5.6 0.025 1043.43 6.59E+03 458.586 0.0733 135.678 0.0836 3.66 1047.10 563.94 5.625 0.025 1047.10 6.59E+03 458.586 0.0734 135.678 0.0837 3.66 1050.76 565.98 5.65 0.025 1050.76 6.59E+03 458.586 0.0734 135.678 0.0837 3.66 1054.42 568.01 5.675 0.025 1054.42 6.59E+03 458.586 0.0734 135.678 0.0838 3.66 1058.08 570.04

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 25of66 5.7 0.025 1058.08 6.59E+03 458.586 0.0734 135.678 0.0838 3.66 1061.74 572.08 5.725 0.025 1061.74 6.59E+03 458.586 0.0734 135.678 0.0839 3.66 1065.39 574.11 5.75 0.025 1065.39 6.59E+03 458.586 0.0735 135.678 0.0839 3.66 1069.05 576.14 5.775 0.025 1069.05 6.59E+03 458.586 0.0735 135.678 0.0839 3.65 1072.70 578.17 5.8 0.025 1072.70 6.59E+03 458.586 0.0735 135.678 0.0840 3.65 1076.36 580.20 5.825 0.025 1076.36 6.59E+03 458.586 0.0735 135.678 0.0840 3.65 1080.01 582.23 5.85 0.025 1080.01 6.59E+03 458.586 0.0736 135.678 0.0841 3.65 1083.66 584.25 5.875 0.025 1083.66 6.59E+03 458.586 0.0736 135.678 0.0841 3.65 1087.31 586.28 5.9 0.025 1087.31 6.59E+03 458.586 0.0736 135.678 0.0842 3.65 1090.95 588.31 5.925 0.025 1090.95 6.59E+03 458.586 0.0736 135.678 0.0842 3.65 1094.60 590.33 5.95 0.025 1094.60 6.59E+03 458.586 0.0737 135.678 0.0843 3.64 1098.24 592.36 5.975 0.025 1098.24 6.59E+03 458.586 0.0737 135.678 0.0843 3.64 1101.89 594.38 6 0.025 1101.89 6.59E+03 458.586 0.0737 135.678 0.0844 3.64 1105.53 596.41 6.025 0.025 1105.53 6.59E+03 458.586 0.0737 135.678 0.0844 3.64 1109.17 598.43 6.05 0.025 1109.17 6.59E+03 458.586 0.0737 135.678 0.0845 3.64 1112.81 600.45 6.075 0.025 1112.81 6.59E+03 458.586 0.0738 135.678 0.0845 3.64 1116.45 602.47 6.1 0.025 1116.45 6.59E+03 458.586 0.0738 135.678 0.0846 3.64 1120.08 604.49 6.125 0.025 1120.08 6.59E+03 458.586 0.0738 135.678 0.0846 3.64 1123.72 606.51 6.15 0.025 1123.72 6.59E+03 458.586 0.0738 135.678 0.0847 3.63 1127.35 608.53 6.175 0.025 1127.35 6.59E+03 458.586 0.0738 135.678 0.0847 3.63 1130.99 610.55 6.2 0.025 1130.99 6.59E+03 458.586 0.0739 135.678 0.0847 3.63 1134.62 612.57 6.225 0.025 1134.62 6.59E+03 458.586 0.0739 135.678 0.0848 3.63 1138.25 614.58 6.25 0.025 1138.25 6.59E+03 458.586 0.0739 135.678 0.0848 3.63 1141.88 616.60 6.275 0.025 1141.88 6.59E+03 458.586 0.0739 135.678 0.0849 3.63 1145.51 618.61 6.3 0.025 1145.51 6.59E+03 458.586 0.0740 135.678 0.0849 3.63 1149.13 620.63 6.325 0.025 1149.13 6.59E+03 458.586 0.0740 135.678 0.0850 3.63 1152.76 622.64 6.35 0.025 1152.76 6.59E+03 458.586 0.0740 135.678 0.0850 3.62 1156.38 624.66 6.375 0.025 1156.38 6.59E+03 458.586 0.0740 135.678 0.0851 3.62 1160.00 626.67 6.4 0.025 1160.00 6.59E+03 458.586 0.0740 135.678 0.0851 3.62 1163.62 628.68 6.425 0.025 1163.62 6.59E+03 458.586 0.0741 135.678 0.0852 3.62 1167.24 630.69 6.45 0.025 1167.24 6.59E+03 458.586 0.0741 135.678 0.0852 3.62 1170.86 632.70 6.475 0.025 1170.86 6.59E+03 458.586 0.0741 135.678 0.0853 3.62 1174.48 634.71 6.5 0.025 1174.48 6.59E+03 458.586 0.0741 135.678 0.0853 3.62 1178.10 636.72 6.525 0.025 1178.10 6.59E+03 458.586 0.0741 135.678 0.0854 3.62 1181.71 638.73 6.55 0.025 1181.71 6.59E+03 458.586 0.0742 135.678 0.0854 3.61 1185.33 640.74 6.575 0.025 1185.33 6.59E+03 458.586 0.0742 135.678 0.0855 3.61 1188.94 642.74

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 26of66 6.6 0.025 1188.94 6.59E+03 458.586 0.0742 135.678 0.0855 3.61 1192.55 644.75 6.625 0.025 1192.55 6.59E+03 458.586 0.0742 135.678 0.0855 3.61 1196.16 646.76 6.65 0.025 1196.16 6.59E+03 458.586 0.0742 135.678 0.0856 3.61 1199.77 648.76 6.675 0.025 1199.77 6.59E+03 458.586 0.0743 135.678 0.0856 3.61 1203.38 650.76 6.7 0.025 1203.38 6.59E+03 458.586 0.0743 135.678 0.0857 3.61 1206.98 652.77 6.725 0.025 1206.98 6.59E+03 458.586 0.0743 135.678 0.0857 3.61 1210.59 654.77 6.75 0.025 1210.59 6.59E+03 458.586 0.0743 135.678 0.0858 3.60 1214.19 656.77 6.775 0.025 1214.19 6.59E+03 458.586 0.0743 135.678 0.0858 3.60 1217.79 658.77 6.8 0.025 1217.79 6.59E+03 458.586 0.0744 135.678 0.0859 3.60 1221.40 660.78 6.825 0.025 1221.40 6.59E+03 458.586 0.0744 135.678 0.0859 3.60 1225.00 662.78 6.85 0.025 1225.00 6.59E+03 458.586 0.0744 135.678 0.0860 3.60 1228.60 664.78 6.875 0.025 1228.60 6.59E+03 458.586 0.0744 135.678 0.0860 3.60 1232.19 666.77 6.9 0.025 1232.19 6.59E+03 458.586 0.0744 135.678 0.0861 3.60 1235.79 668.77 6.925 0.025 1235.79 6.59E+03 458.586 0.0745 135.678 0.0861 3.60 1239.39 670.77 6.95 0.025 1239.39 6.59E+03 458.586 0.0745 135.678 0.0862 3.59 1242.98 672.77 6.975 0.025 1242.98 6.59E+03 458.586 0.0745 135.678 0.0862 3.59 1246.57 674.76 7 0.025 1246.57 6.59E+03 458.586 0.0745 135.678 0.0862 3.59 1250.17 676.76 7.025 0.025 1250.17 6.59E+03 458.586 0.0745 135.678 0.0863 3.59 1253.76 678.75 7.05 0.025 1253.76 6.59E+03 458.586 0.0746 135.678 0.0863 3.59 1257.35 680.75 7.075 0.025 1257.35 6.59E+03 458.586 0.0746 135.678 0.0864 3.59 1260.93 682.74 7.1 0.025 1260.93 6.59E+03 458.586 0.0746 135.678 0.0864 3.59 1264.52 684.73 7.125 0.025 1264.52 6.59E+03 458.586 0.0746 135.678 0.0865 3.59 1268.11 686.73 7.15 0.025 1268.11 6.59E+03 458.586 0.0746 135.678 0.0865 3.58 1271.69 688.72 7.175 0.025 1271.69 6.59E+03 458.586 0.0746 135.678 0.0866 3.58 1275.28 690.71 7.2 0.025 1275.28 6.59E+03 458.586 0.0747 135.678 0.0866 3.58 1278.86 692.70 7.225 0.025 1278.86 6.59E+03 458.586 0.0747 135.678 0.0867 3.58 1282.44 694.69 7.25 0.025 1282.44 6.59E+03 458.586 0.0747 135.678 0.0867 3.58 1286.02 696.68 7.275 0.025 1286.02 6.59E+03 458.586 0.0747 135.678 0.0868 3.58 1289.60 698.67 7.3 0.025 1289.60 6.59E+03 458.586 0.0747 135.678 0.0868 3.58 1293.18 700.65 7.325 0.025 1293.18 6.59E+03 458.586 0.0748 135.678 0.0869 3.58 1296.75 702.64 7.35 0.025 1296.75 6.59E+03 458.586 0.0748 135.678 0.0869 3.58 1300.33 704.63 7.375 0.025 1300.33 6.59E+03 458.586 0.0748 135.678 0.0869 3.57 1303.90 706.61 7.4 0.025 1303.90 6.59E+03 458.586 0.0748 135.678 0.0870 3.57 1307.48 708.60 7.425 0.025 1307.48 6.59E+03 458.586 0.0748 135.678 0.0870 3.57 1311.05 710.58 7.45 0.025 1311.05 6.59E+03 458.586 0.0749 135.678 0.0871 3.57 1314.62 712.57 7.475 0.025 1314.62 6.59E+03 458.586 0.0749 135.678 0.0871 3.57 1318.19 714.55

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 27of66 7.5 0.025 1318.19 6.59E+03 458.586 0.0749 135.678 0.0872 3.57 1321.76 716.53 7.525 0.025 1321.76 6.59E+03 458.586 0.0749 135.678 0.0872 3.57 1325.33 718.51 7.55 0.025 1325.33 6.59E+03 458.586 0.0749 135.678 0.0873 3.57 1328.89 720.50 7.575 0.025 1328.89 6.59E+03 458.586 0.0749 135.678 0.0873 3.57 1332.46 722.48 7.6 0.025 1332.46 6.59E+03 458.586 0.0750 135.678 0.0874 3.56 1336.02 724.46 7.625 0.025 1336.02 6.59E+03 458.586 0.0750 135.678 0.0874 3.56 1339.59 726.44 7.65 0.025 1339.59 6.59E+03 458.586 0.0750 135.678 0.0875 3.56 1343.15 728.42 7.675 0.025 1343.15 6.59E+03 458.586 0.0750 135.678 0.0875 3.56 1346.71 730.39 7.7 0.025 1346.71 6.59E+03 458.586 0.0750 135.678 0.0875 3.56 1350.27 732.37 7.725 0.025 1350.27 6.59E+03 458.586 0.0751 135.678 0.0876 3.56 1353.83 734.35 7.75 0.025 1353.83 6.59E+03 458.586 0.0751 135.678 0.0876 3.56 1357.38 736.32 7.775 0.025 1357.38 6.59E+03 458.586 0.0751 135.678 0.0877 3.56 1360.94 738.30 7.8 0.025 1360.94 6.59E+03 458.586 0.0751 135.678 0.0877 3.56 1364.50 740.28 7.825 0.025 1364.50 6.59E+03 458.586 0.0751 135.678 0.0878 3.55 1368.05 742.25 7.85 0.025 1368.05 6.59E+03 458.586 0.0751 135.678 0.0878 3.55 1371.60 744.22 7.875 0.025 1371.60 6.59E+03 458.586 0.0752 135.678 0.0879 3.55 1375.15 746.20 7.9 0.025 1375.15 6.59E+03 458.586 0.0752 135.678 0.0879 3.55 1378.71 748.17 7.925 0.025 1378.71 6.59E+03 458.586 0.0752 135.678 0.0880 3.55 1382.26 750.14 7.95 0.025 1382.26 6.59E+03 458.586 0.0752 135.678 0.0880 3.55 1385.80 752.11 7.975 0.025 1385.80 6.59E+03 458.586 0.0752 135.678 0.0881 3.55 1389.35 754.08 8 0.025 1389.35 6.59E+03 458.586 0.0752 135.678 0.0881 3.55 1392.90 756.05 8.025 0.025 1392.90 6.59E+03 458.586 0.0753 135.678 0.0881 3.55 1396.44 758.02 8.05 0.025 1396.44 6.59E+03 458.586 0.0753 135.678 0.0882 3.54 1399.99 759.99 8.075 0.025 1399.99 6.59E+03 458.586 0.0753 135.678 0.0882 3.54 1403.53 761.96 8.1 0.025 1403.53 6.59E+03 458.586 0.0753 135.678 0.0883 3.54 1407.07 763.93 8.125 0.025 1407.07 6.59E+03 458.586 0.0753 135.678 0.0883 3.54 1410.61 765.90 8.15 0.025 1410.61 6.59E+03 458.586 0.0754 135.678 0.0884 3.54 1414.15 767.86 8.175 0.025 1414.15 6.59E+03 458.586 0.0754 135.678 0.0884 3.54 1417.69 769.83 8.2 0.025 1417.69 6.59E+03 458.586 0.0754 135.678 0.0885 3.54 1421.23 771.79 8.225 0.025 1421.23 6.59E+03 458.586 0.0754 135.678 0.0885 3.54 1424.77 773.76 8.25 0.025 1424.77 6.59E+03 458.586 0.0754 135.678 0.0886 3.54 1428.30 775.72 8.275 0.025 1428.30 6.59E+03 458.586 0.0754 135.678 0.0886 3.53 1431.84 777.69 8.3 0.025 1431.84 6.59E+03 458.586 0.0755 135.678 0.0887 3.53 1435.37 779.65 8.325 0.025 1435.37 6.59E+03 458.586 0.0755 135.678 0.0887 3.53 1438.90 781.61 8.35 0.025 1438.90 6.59E+03 458.586 0.0755 135.678 0.0887 3.53 1442.44 783.58 8.375 0.025 1442.44 6.59E+03 458.586 0.0755 135.678 0.0888 3.53 1445.97 785.54

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Attachment 1 C-1302-226-E310-457, Rev. 2 Page 28of66 8.4 0.025 1445.97 6.59E+03 458.586 0.0755 135.678 0.0888 3.53 1449.50 787.50 8.425 0.025 1449.50 6.59E+03 458.586 0.0755 135.678 0.0889 3.53 1453.02 789.46 8.45 0.025 1453.02 6.59E+03 458.586 0.0756 135.678 0.0889 3.53 1456.55 791.42 8.475 0.025 1456.55 6.59E+03 458.586 0.0756 135.678 0.0890 3.53 1460.08 793.38 8.5 0.025 1460.08 6.59E+03 458.586 0.0756 135.678 0.0890 3.53 1463.60 795.33 8.525 0.025 1463.60 6.59E+03 458.586 0.0756 135.678 0.0891 3.52 1467.13 797.29 8.55 0.025 1467.13 6.59E+03 458.586 0.0756 135.678 0.0891 3.52 1470.65 799.25 8.575 0.025 1470.65 6.59E+03 458.586 0.0756 135.678 0.0892 3.52 1474.17 801.21 8.6 0.025 1474.17 6.59E+03 458.586 0.0757 135.678 0.0892 3.52 1477.69 803.16 8.625 0.025 1477.69 6.59E+03 458.586 0.0757 135.678 0.0892 3.52 1481.21 805.12 8.65 0.025 1481.21 6.59E+03 458.586 0.0757 135.678 0.0893 3.52 1484.73 807.07 8.675 0.025 1484.73 6.59E+03 458.586 0.0757 135.678 0.0893 3.52 1488.25 809.03 8.7 0.025 1488.25 6.59E+03 458.586 0.0757 135.678 0.0894 3.52 1491.76 810.98 8.725 0.025 1491.76 6.59E+03 458.586 0.0757 135.678 0.0894 3.52 1495.28 812.93 8.75 0.025 1495.28 6.59E+03 458.586 0.0758 135.678 0.0895 3.51 1498.79 814.89 8.775 0.025 1498.79 6.59E+03 458.586 0.0758 135.678 0.0895 3.51 1502.31 816.84 8.8 0.025 1502.31 6.59E+03 458.586 0.0758 135.678 0.0896 3.51 1505.82 818.79 8.825 0.025 1505.82 6.59E+03 458.586 0.0758 135.678 0.1092 3.32 1509.14 820.64 8.85 0.025 1509.14 6.59E+03 458.586 0.0758 135.678 0.1207 3.22 1512.37 822.43 8.875 0.025 1512.37 6.59E+03 458.586 0.0758 135.678 0.1226 3.20 1515.57 824.21 8.9 0.025 1515.57 6.59E+03 458.586 0.0759 135.678 0.1245 3.19 1518.76 825.98 8.925 0.025 1518.76 6.59E+03 458.586 0.0759 135.678 0.1263 3.17 1521.93 827.74 8.95 0.025 1521.93 6.59E+03 458.586 0.0759 135.678 0.1282 3.16 1525.09 829.49 8.975 0.025 1525.09 6.59E+03 458.586 0.0759 135.678 0.1300 3.14 1528.23 831.24 9 0.025 1528.23 6.59E+03 458.586 0.0759 135.678 0.1319 3.13 1531.36 832.98 9.025 0.025 1531.36 6.59E+03 458.586 0.0759 135.678 0.1337 3.11 1534.47 834.70 9.05 0.025 1534.47 6.59E+03 458.586 0.0759 135.678 0.1355 3.10 1537.56 836.42 9.075 0.025 1537.56 6.59E+03 458.586 0.0760 135.678 0.1373 3.08 1540.65 838.14 9.1 0.025 1540.65 6.59E+03 458.586 0.0760 135.678 0.1391 3.07 1543.71 839.84 9.125 0.025 1543.71 6.59E+03 458.586 0.0760 135.678 0.1409 3.05 1546.77 841.54 9.15 0.025 1546.77 6.59E+03 458.586 0.0760 135.678 0.1414 3.05 1549.82 843.23 9.175 0.025 1549.82 6.59E+03 458.586 0.0760 135.678 0.1419 3.04 1552.86 844.92 9.2 0.025 1552.86 6.59E+03 458.586 0.0760 135.678 0.1424 3.04 1555.90 846.61 9.225 0.025 1555.90 6.59E+03 458.586 0.0760 135.678 0.1429 3.04 1558.94 848.30 9.25 0.025 1558.94 6.59E+03 458.586 0.0761 135.678 0.1434 3.03 1561.97 849.98 9.275 0.025 1561.97 6.59E+03 458.586 0.0761 135.678 0.1439 3.03 1565.00 851.67

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 29of66 9.3 0.025 1565.00 6.59E+03 458.586 0.0761 135.678 0.1444 3.02 1568.02 853.35 9.325 0.025 1568.02 6.59E+03 458.586 0.0761 135.678 0.1449 3.02 1571.04 855.02 9.35 0.025 1571.04 6.59E+03 458.586 0.0761 135.678 0.1454 3.02 1574.06 856.70 9.375 0.025 1574.06 6.59E+03 458.586 0.0761 135.678 0.1459 3.01 1577.07 858.37 9.4 0.025 1577.07 6.59E+03 458.586 0.0761 135.678 0.1464 3.01 1580.08 860.04 9.425 0.025 1580.08 6.59E+03 458.586 0.0762 135.678 0.1471 3.00 1583.08 861.71 9.45 0.025 1583.08 6.59E+03 458.586 0.0762 135.678 0.1492 2.99 1586.07 863.37 9.475 0.025 1586.07 6.59E+03 458.586 0.0762 135.678 0.1513 2.97 1589.04 865.02 9.5 0.025 1589.04 6.59E+03 458.586 0.0762 135.678 0.1533 2.96 1591 .99 866.66 9.525 0.025 1591.99 6.59E+03 458.586 0.0762 135.678 0.1554 2.94 1594.93 868.30 9.55 0.025 1594.93 6.59E+03 458.586 0.0762 135.678 0.1574 2.93 1597.86 869.92 9.575 0.025 1597.86 6.59E+03 458.586 0.0762 135.678 0.1594 2.91 1600.77 871 .54 9.6 0.025 1600.77 6.59E+03 458.586 0.0763 135.678 0.1614 2.90 1603.67 873.15 9.625 0.025 1603.67 6.59E+03 458.586 0.0763 135.678 0.1634 2.88 1606.55 874.75 9.65 0.025 1606.55 6.59E+03 458.586 0.0763 135.678 0.1654 2.87 1609.42 876.35 9.675 0.025 1609.42 6.59E+03 458.586 0.0763 135.678 0.1674 2.86 1612.28 877.93 9.7 0.025 1612.28 6.59E+03 458.586 0.0763 135.678 0.1693 2.84 1615.12 879.51 9.725 0.025 1615.12 6.59E+03 458.586 0.0763 135.678 0.1713 2.83 1617.95 881.08 9.75 0.025 1617.95 6.59E+03 458.586 0.0763 135.678 0.1732 2.82 1620.77 882.65 9.775 0.025 1620.77 6.59E+03 458.586 0.0763 135.678 0.1750 2.80 1623.57 884.21 9.8 0.025 1623.57 6.59E+03 458.586 0.0764 135.678 0.1768 2.79 1626.36 885.76 9.825 0.025 1626.36 6.59E+03 458.586 0.0764 135.678 0.1786 2.78 1629.15 887.30 9.85 0.025 1629.15 6.59E+03 458.586 0.0764 135.678 0.1804 2.77 1631.91 888.84 9.875 0.025 1631.91 6.59E+03 458.586 0.0764 135.678 0.1821 2.76 1634.67 890.37 9.9 0.025 1634.67 6.59E+03 458.586 0.0764 135.678 0.1839 2.75 1637.42 891.90 9.925 0.025 1637.42 6.59E+03 458.586 0.0764 135.678 0.1857 2.74 1640.15 893.42 9.95 0.025 1640.15 6.59E+03 458.586 0.0764 135.678 0.1874 2.72 1642.88 894.93 9.975 0.025 1642.88 6.59E+03 458.586 0.0764 135.678 0.1892 2.71 1645.59 896.44 10 0.025 1645.59 6.59E+03 458.586 0.0765 135.678 0.1909 2.70 1648.29 897.94 10.025 0.025 1648.29 6.59E+03 458.586 0.0765 135.678 0.1927 2.69 1650.99 899.44 10.05 0.025 1650.99 6.59E+03 458.586 0.0765 135.678 0.1944 2.68 1653.67 900.93 10.075 0.025 1653.67 6.59E+03 458.586 0.0765 135.678 0.1943 2.68 1656.35 902.42 10.1 0.025 1656.35 6.59E+03 458.586 0.0765 135.678 0.1935 2.69 1659.04 903.91

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 30of66 U02 Specific Heat Constants Zircaloy Specific Heat Capacity Interpolation (Design Input 3.2) (Design Input 3.1) y 2 Temperature Specific Heat Capicity R 8.3143 j/mol-K K OF J/kg-K BTU/lbm-°F e 535.285 K 300 80.33 281 0.0671 K1 296.7 J/kg-K 400 260.33 302 0.0721 K2 2.430E-02 J/kg*K2 640 692.33 331 0.0791 K3 8.745E+07 J/kg 1090 1502.33 375 0.0896 Ed 1.577E+05 J/mol*-K 1093 1507.73 502 0.1199 1113 1543.73 590 0.1409 1133 1579.73 615 0.1469 1153 1615.73 719 0.1717 1173 1651.73 816 0.1949 1193 1687.73 770 0.1839 1213 1723.73 619 0.1478 1233 1759.73 469 0.1120 1248 1786.73 356 0.0850 U02 Cp Calculation Zirc Cp Interpolation Elapsed Cp Initial Temp Part 1 Part 2 Part 3 Cp Cp Time hr OF K - - - j/kg-K BTU/lbm-°F Table Match BTU/lbm-°F 0 125.00 324.82 2.378E+02 7.893E+OO 6.860E-19 245.67 0.0587 1 0.0684 0.025 129.96 327.57 2.386E+02 7.960E+OO 1.103E-18 246.60 0.0589 1 0.0685 0.05 134.91 330.32 2.395E+02 8.027E+OO 1.756E-18 247.51 0.0591 1 0.0686 0.075 139.84 333.06 2.403E+02 8.093E+OO 2.770E-18 248.40 0.0593 1 0.0688 0.1 144.76 335.79 2.411E+02 8.160E+OO 4.330E-18 249.27 0.0595 1 0.0689 0.125 149.66 338.52 2.419E+02 8.226E+OO 6.710E-18 250.13 0.0597 1 0.0690 0.15 154.54 341.23 2.427E+02 8.292E+OO 1.031E-17 250.96 0.0599 1 0.0692 0.175 159.41 343.93 2.434E+02 8.358E+OO 1.571E-17 251.78 0.0601 1 0.0693 0.2 164.26 346.63 2.442E+02 8.423E+OO 2.376E-17 252.58 0.0603 1 0.0695 0.225 169.10 349.32 2.449E+02 8.488E+OO 3.565E-17 253.36 0.0605 1 0.0696 0.25 173.93 352.00 2.456E+02 8.554E+OO 5.309E-17 254.13 0.0607 1 0.0697 0.275 178.74 354.67 2.463E+02 8.619E+OO 7.849E-17 254.88 0.0609 1 0.0699

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 31 of 66 0.3 183.54 357.34 2.469E+02 8.683E+OO 1.152E-16 255.61 0.0611 1 0.0700 0.325 188.33 360.00 2.476E+02 8.748E+OO 1.680E-16 256.33 0.0612 1 0.0701 0.35 193.10 362.65 2.482E+02 8.812E+OO 2.434E-16 257.04 0.0614 1 0.0703 0.375 197.86 365.30 2.489E+02 8.877E+OO 3.504E-16 257.73 0.0616 1 0.0704 0.4 202.61 367.93 2.495E+02 8.941E+OO 5.012E-16 258.41 0.0617 1 0.0705 0.425 207.35 370.57 2.501E+02 9.005E+OO 7.125E-16 259.08 0.0619 1 0.0707 0.45 212.08 373.19 2.507E+02 9.069E+OO 1.007E-15 259.74 0.0620 1 0.0708 0.475 216.79 375.81 2.512E+02 9.132E+OO 1.415E-15 260.38 0.0622 1 0.0709 0.5 221.49 378.42 2.518E+02 9.196E+OO 1.978E-15 261.01 0.0623 1 0.0710 0.525 226.19 381 .03 2.524E+02 9.259E+OO 2.749E-15 261.63 0.0625 1 0.0712 0.55 230.87 383.63 2.529E+02 9.322E+OO 3.800E-15 262.23 0.0626 1 0.0713 0.575 235.54 386.23 2.534E+02 9.385E+OO 5.226E-15 262.83 0.0628 1 0.0714 0.6 240.20 388.82 2.540E+02 9.448E+OO 7.152E-15 263.41 0.0629 1 0.0716 0.625 244.85 391.40 2.545E+02 9.511E+OO 9.740E-15 263.99 0.0631 1 0.0717 0.65 249.49 393.98 2.550E+02 9.574E+OO 1.320E-14 264.56 0.0632 1 0.0718 0.675 254.12 396.55 2.555E+02 9.636E+OO 1.781E-14 265.11 0.0633 1 0.0720 0.7 258.75 399.12 2.560E+02 9.699E+OO 2.391E-14 265.66 0.0635 1 0.0721 0.725 263.36 401.68 2.564E+02 9.761E+OO 3.197E-14 266.19 0.0636 2 0.0722 0.75 267.96 404.24 2.569E+02 9.823E+OO 4.256E-14 266.72 0.0637 2 0.0723 0.775 272.56 406.79 2.574E+02 9.885E+OO 5.642E-14 267.24 0.0638 2 0.0723 0.8 277.15 409.34 2.578E+02 9.947E+OO 7.449E-14 267.75 0.0640 2 0.0724 0.825 281.73 411 .89 2.582E+02 1.001E+01 9.796E-14 268.25 0.0641 2 0.0725 0.85 286.30 414.43 2.587E+02 1.007E+01 1.283E-13 268.75 0.0642 2 0.0725 0.875 290.86 416.96 2.591E+02 1.013E+01 1.674E-13 269.23 0.0643 2 0.0726 0.9 295.42 419.49 2.595E+02 1.019E+01 2.177E-13 269.71 0.0644 2 0.0727 0.925 299.97 422.02 2.599E+02 1.026E+01 2.820E-13 270.18 0.0645 2 0.0728 0.95 304.51 424.55 2.603E+02 1.032E+01 3.640E-13 270.65 0.0646 2 0.0728 0.975 309.05 427.07 2.607E+02 1.038E+01 4.681E-13 271.11 0.0648 2 0.0729 1 313.57 429.58 2.611E+02 1.044E+01 6.001E-13 271 .56 0.0649 2 0.0730 1.025 318.10 432.09 2.615E+02 1.050E+01 7.667E-13 272.00 0.0650 2 0.0731 1.05 322.61 434.60 2.619E+02 1.056E+01 9.763E-13 272.43 0.0651 2 0.0731 1.075 327.12 437.10 2.622E+02 1.062E+01 1.239E-12 272.87 0.0652 2 0.0732 1.1 331.62 439.60 2.626E+02 1.068E+01 1.568E-12 273.29 0.0653 2 0.0733 1.125 336.11 442.10 2.630E+02 1.074E+01 1.978E-12 273.71 0.0654 2 0.0733 1.15 340.60 444.59 2.633E+02 1.080E+01 2.488E-12 274.12 0.0655 2 0.0734 1.175 345.08 447.08 2.637E+02 1.086E+01 3.121E-12 274.52 0.0656 2 0.0735

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 32of66 1.2 349.56 449.57 2.640E+02 1.092E+01 3.902E-12 274.92 0.0657 2 0.0736 1.225 354.02 452.05 2.643E+02 1.098E+01 4.866E-12 275.32 0.0658 2 0.0736 1.25 358.49 454.53 2.647E+02 1.105E+01 6.051E-12 275.71 0.0659 2 0.0737 1.275 362.95 457.01 2.650E+02 1.111 E+01 7.504E-12 276.09 0.0659 2 0.0738 1.3 367.40 459.48 2.653E+02 1.117E+01 9.281E-12 276.47 0.0660 2 0.0738 1.325 371.84 461.95 2.656E+02 1.123E+01 1.145E-11 276.84 0.0661 2 0.0739 1.35 376.28 464.42 2.659E+02 1.129E+01 1.409E-11 277.21 0.0662 2 0.0740 1.375 380.72 466.88 2.662E+02 1.135E+01 1.729E-11 277.57 0.0663 2 0.0741 1.4 385.14 469.34 2.665E+02 1.140E+01 2.117E-11 277.93 0.0664 2 0.0741 1.425 389.57 471.80 2.668E+02 1.146E+01 2.586E-11 278.29 0.0665 2 0.0742 1.45 393.99 474.25 2.671E+02 1.152E+01 3.152E-11 278.64 0.0666 2 0.0743 1.475 398.40 476.70 2.674E+02 1.158E+01 3.832E-11 278.98 0.0666 2 0.0743 1.5 402.81 479.15 2.677E+02 1.164E+01 4.648E-11 279.32 0.0667 2 0.0744 1.525 407.21 481.60 2.680E+02 1.170E+01 5.625E-11 279.66 0.0668 2 0.0745 1.55 411 .61 484.04 2.682E+02 1.176E+01 6.793E-11 279.99 0.0669 2 0.0746 1.575 416.00 486.48 2.685E+02 1.182E+01 8.185E-11 280.32 0.0670 2 0.0746 1.6 420.38 488.92 2.688E+02 1.188E+01 9.842E-11 280.64 0.0670 2 0.0747 1.625 424.77 491.35 2.690E+02 1.194E+01 1.181E-10 280.96 0.0671 2 0.0748 1.65 429.14 493.79 2.693E+02 1.200E+01 1.414E-10 281 .27 0.0672 2 0.0748 1.675 433.52 496.21 2.695E+02 1.206E+01 1.690E-10 281.59 0.0673 2 0.0749 1.7 437.88 498.64 2.698E+02 1.212E+01 2.016E-10 281 .89 0.0673 2 0.0750 1.725 442.25 501.07 2.700E+02 1.218E+01 2.400E-10 282.20 0.0674 2 0.0750 1.75 446.61 503.49 2.703E+02 1.223E+01 2.852E-10 282.50 0.0675 2 0.0751 1.775 450.96 505.91 2.705E+02 1.229E+01 3.382E-10 282.80 0.0675 2 0.0752 1.8 455.31 508.32 2.707E+02 1.235E+01 4.003E-10 283.09 0.0676 2 0.0753 1.825 459.66 510.74 2.710E+02 1.241E+01 4.730E-10 283.38 0.0677 2 0.0753 1.85 464.00 513.15 2.712E+02 1.247E+01 5.580E-10 283.67 0.0678 2 0.0754 1.875 468.33 515.56 2.714E+02 1.253E+01 6.570E-10 283.95 0.0678 2 0.0755 1.9 472.67 517.96 2.716E+02 1.259E+01 7.722E-10 284.23 0.0679 2 0.0755 1.925 476.99 520.37 2.719E+02 1.264E+01 9.062E-10 284.51 0.0680 2 0.0756 1.95 481.32 522.77 2.721E+02 1.270E+01 1.062E-09 284.78 0.0680 2 0.0757 1.975 485.64 525.17 2.723E+02 1.276E+01 1.242E-09 285.06 0.0681 2 0.0757 2 489.95 527.57 2.725E+02 1.282E+01 1.450E-09 285.32 0.0681 2 0.0758 2.025 494.26 529.96 2.727E+02 1.288E+01 1.690E-09 285.59 0.0682 2 0.0759 2.05 498.57 532.36 2.729E+02 1.294E+01 1.967E-09 285.85 0.0683 2 0.0760 2.075 502.88 534.75 2.731E+02 1.299E+01 2.287E-09 286.11 0.0683 2 0.0760

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 33of66 2.1 507.18 537.14 2.733E+02 1.305E+01 2.654E-09 286.37 0.0684 2 0.0761 2.125 511.47 539.52 2.735E+02 1.311E+01 3.075E-09 286.62 0.0685 2 0.0762 2.15 515.76 541.91 2.737E+02 1.317E+01 3.558E-09 286.88 0.0685 2 0.0762 2.175 520.05 544.29 2.739E+02 1.323E+01 4.111E-09 287.13 0.0686 2 0.0763 2.2 524.34 546.67 2.741E+02 1.328E+01 4.742E-09 287.37 0.0686 2 0.0764 2.225 528.62 549.05 2.743E+02 1.334E+01 5.464E-09 287.62 0.0687 2 0.0764 2.25 532.90 551.43 2.745E+02 1.340E+01 6.286E-09 287.86 0.0688 2 0.0765 2.275 537.17 553.80 2.746E+02 1.346E+01 7.223E-09 288.10 0.0688 2 0.0766 2.3 541 .44 556.17 2.748E+02 1.351E+01 8.288E-09 288.34 0.0689 2 0.0766 2.325 545.71 558.54 2.750E+02 1.357E+01 9.497E-09 288.57 0.0689 2 0.0767 2.35 549.97 560.91 2.752E+02 1.363E+01 1.087E-08 288.80 0.0690 2 0.0768 2.375 554.23 563.28 2.753E+02 1.369E+01 1.242E-08 289.03 0.0690 2 0.0768 2.4 558.48 565.64 2.755E+02 1.375E+01 1.418E-08 289.26 0.0691 2 0.0769 2.425 562.74 568.00 2.757E+02 1.380E+01 1.617E-08 289.49 0.0691 2 0.0770 2.45 566.98 570.36 2.758E+02 1.386E+01 1.841E-08 289.71 0.0692 2 0.0770 2.475 571.23 572.72 2.760E+02 1.392E+01 2.094E-08 289.93 0.0692 2 0.0771 2.5 575.47 575.08 2.762E+02 1.397E+01 2.379E-08 290.15 0.0693 2 0.0772 2.525 579.71 577.43 2.763E+02 1.403E+01 2.699E-08 290.37 0.0694 2 0.0773 2.55 583.95 579.79 2.765E+02 1.409E+01 3.059E-08 290.58 0.0694 2 0.0773 2.575 587.84 581.95 2.766E+02 1.414E+01 3.429E-08 290.78 0.0695 2 0.0774 2.6 591 .73 584.11 2.768E+02 1.419E+01 3.840E-08 290.97 0.0695 2 0.0774 2.625 595.62 586.27 2.769E+02 1.425E+01 4.296E-08 291.17 0.0695 2 0.0775 2.65 599.51 588.43 2.771E+02 1.430E+01 4.802E-08 291.36 0.0696 2 0.0776 2.675 603.39 590.59 2.772E+02 1.435E+01 5.363E-08 291.55 0.0696 2 0.0776 2.7 607.27 592.74 2.773E+02 1.440E+01 5.984E-08 291.74 0.0697 2 0.0777 2.725 611.15 594.90 2.775E+02 1.446E+01 6.670E-08 291.92 0.0697 2 0.0778 2.75 615.02 597.05 2.776E+02 1.451E+01 7.429E-08 292.11 0.0698 2 0.0778 2.775 618.89 599.20 2.777E+02 1.456E+01 8.267E-08 292.29 0.0698 2 0.0779 2.8 622.76 601.35 2.779E+02 1.461 E+01 9.191E-08 292.47 0.0699 2 0.0779 2.825 626.63 603.50 2.780E+02 1.467E+01 1.021E-07 292.66 0.0699 2 0.0780 2.85 630.49 605.65 2.781E+02 1.472E+01 1.133E-07 292.84 0.0699 2 0.0781 2.875 634.36 607.79 2.782E+02 1.477E+01 1.257E-07 293.01 0.0700 2 0.0781 2.9 638.22 609.94 2.784E+02 1.482E+01 1.393E-07 293.19 0.0700 2 0.0782 2.925 642.07 612.08 2.785E+02 1.487E+01 1.542E-07 293.37 0.0701 2 0.0783 2.95 645.93 614.22 2.786E+02 1.493E+01 1.706E-07 293.54 0.0701 2 0.0783 2.975 649.78 616.36 2.787E+02 1.498E+01 1.886E-07 293.71 0.0702 2 0.0784

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 34of66 3 653.63 618.50 2.789E+02 1.503E+01 2.083E-07 293.88 0.0702 2 0.0784 3.025 657.48 620.64 2.790E+02 1.508E+01 2.299E-07 294.05 0.0702 2 0.0785 3.05 661.32 622.77 2.791E+02 1.513E+01 2.536E-07 294.22 0.0703 2 0.0786 3.075 665.16 624.91 2.792E+02 1.519E+01 2.795E-07 294.39 0.0703 2 0.0786 3.1 669.00 627.04 2.793E+02 1.524E+01 3.078E-07 294.56 0.0704 2 0.0787 3.125 672.84 629.17 2.794E+02 1.529E+01 3.387E-07 294.72 0.0704 2 0.0787 3.15 676.67 631.30 2.795E+02 1.534E+01 3.724E-07 294.89 0.0704 2 0.0788 3.175 680.51 633.43 2.797E+02 1.539E+01 4.092E-07 295.05 0.0705 2 0.0789 3.2 684.34 635.56 2.798E+02 1.544E+01 4.494E-07 295.21 0.0705 2 0.0789 3.225 688.17 637.69 2.799E+02 1.550E+01 4.931E-07 295.37 0.0705 2 0.0790 3.25 691.99 639.81 2.800E+02 1.555E+01 5.407E-07 295.53 0.0706 2 0.0791 3.275 695.82 641.94 2.801E+02 1.560E+01 5.925E-07 295.69 0.0706 3 0.0791 3.3 699.64 644.06 2.802E+02 1.565E+01 6.488E-07 295.85 0.0707 3 0.0792 3.325 703.46 646.18 2.803E+02 1.570E+01 7.100E-07 296.00 0.0707 3 0.0792 3.35 707.27 648.30 2.804E+02 1.575E+01 7.764E-07 296.16 0.0707 3 0.0793 3.375 711.09 650.42 2.805E+02 1.581E+01 8.485E-07 296.31 0.0708 3 0.0793 3.4 714.90 652.54 2.806E+02 1.586E+01 9.267E-07 296.46 0.0708 3 0.0794 3.425 718.71 654.66 2.807E+02 1.591E+01 1.011 E-06 296.62 0.0708 3 0.0794 3.45 722.52 656.77 2.808E+02 1.596E+01 1.103E-06 296.77 0.0709 3 0.0794 3.475 726.33 658.89 2.809E+02 1.601E+01 1.203E-06 296.92 0.0709 3 0.0795 3.5 730.13 661.00 2.810E+02 1.606E+01 1.310E-06 297.07 0.0710 3 0.0795 3.525 733.93 663.11 2.811E+02 1.611E+01 1.427E-06 297.21 0.0710 3 0.0796 3.55 737.74 665.23 2.812E+02 1.616E+01 1.552E-06 297.36 0.0710 3 0.0796 3.575 741.53 667.34 2.813E+02 1.622E+01 1.688E-06 297.51 0.0711 3 0.0797 3.6 745.33 669.44 2.814E+02 1.627E+01 1.834E-06 297.65 0.0711 3 0.0797 3.625 749.13 671.55 2.815E+02 1.632E+01 1.993E-06 297.80 0.0711 3 0.0798 3.65 752.92 673.66 2.816E+02 1.637E+01 2.163E-06 297.94 0.0712 3 0.0798 3.675 756.71 675.77 2.817E+02 1.642E+01 2.347E-06 298.08 0.0712 3 0.0799 3.7 760.50 677.87 2.818E+02 1.647E+01 2.544E-06 298.22 0.0712 3 0.0799 3.725 764.28 679.97 2.818E+02 1.652E+01 2.757E-06 298.36 0.0713 3 0.0800 3.75 768.07 682.08 2.819E+02 1.657E+01 2.987E-06 298.50 0.0713 3 0.0800 3.775 771.85 684.18 2.820E+02 1.663E+01 3.233E-06 298.64 0.0713 3 0.0801 3.8 775.63 686.28 2.821E+02 1.668E+01 3.498E-06 298.78 0.0714 3 0.0801 3.825 779.41 688.38 2.822E+02 1.673E+01 3.782E-06 298.92 0.0714 3 0.0802 3.85 783.19 690.48 2.823E+02 1.678E+01 4.088E-06 299.06 0.0714 3 0.0802 3.875 786.97 692.58 2.824E+02 1.683E+01 4.415E-06 299.19 0.0715 3 0.0803

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 35of66 3.9 790.74 694.67 2.824E+02 1.688E+01 4.767E-06 299.33 0.0715 3 0.0803 3.925 794.51 696.77 2.825E+02 1.693E+01 5.144E-06 299.46 0.0715 3 0.0804 3.95 798.28 698.86 2.826E+02 1.698E+01 5.548E-06 299.59 0.0716 3 0.0804 3.975 802.05 700.96 2.827E+02 1.703E+01 5.980E-06 299.73 0.0716 3 0.0805 4 805.82 703.05 2.828E+02 1.708E+01 6.443E-06 299.86 0.0716 3 0.0805 4.025 809.58 705.14 2.829E+02 1.713E+01 6.939E-06 299.99 0.0717 3 0.0806 4.05 813.34 707.23 2.829E+02 1.719E+01 7.468E-06 300.12 0.0717 3 0.0806 4.075 817.11 709.32 2.830E+02 1.724E+01 8.035E-06 300.25 0.0717 3 0.0807 4.1 820.86 711.41 2.831E+02 1.729E+01 8.640E-06 300.38 0.0717 3 0.0807 4.125 824.62 713.50 2.832E+02 1.734E+01 9.286E-06 300.50 0.0718 3 0.0808 4.15 828.38 715.58 2.832E+02 1.739E+01 9.976E-06 300.63 0.0718 3 0.0808 4.175 832.13 717.67 2.833E+02 1.744E+01 1.071E-05 300.76 0.0718 3 0.0809 4.2 835.88 719.75 2.834E+02 1.749E+01 1.150E-05 300.88 0.0719 3 0.0809 4.225 839.63 721.84 2.835E+02 1.754E+01 1.234E-05 301.01 0.0719 3 0.0810 4.25 843.38 723.92 2.835E+02 1.759E+01 1.323E-05 301.13 0.0719 3 0.0810 4.275 847.13 726.00 2.836E+02 1.764E+01 1.418E-05 301.26 0.0720 3 0.0811 4.3 850.87 728.08 2.837E+02 1.769E+01 1.519E-05 301.38 0.0720 3 0.0811 4.325 854.62 730.16 2.838E+02 1.774E+01 1.627E-05 301.50 0.0720 3 0.0812 4.35 858.36 732.24 2.838E+02 1.779E+01 1.741E-05 301.63 0.0720 3 0.0812 4.375 862.10 734.32 2.839E+02 1.784E+01 1.863E-05 301 .75 0.0721 3 0.0813 4.4 865.84 736.39 2.840E+02 1.789E+01 1.993E-05 301.87 0.0721 3 0.0813 4.425 869.58 738.47 2.840E+02 1.794E+01 2.130E-05 301.99 0.0721 3 0.0814 4.45 873.31 740.54 2.841E+02 1.800E+01 2.276E-05 302.11 0.0722 3 0.0814 4.475 877.04 742.62 2.842E+02 1.805E+01 2.431E-05 302.23 0.0722 3 0.0815 4.5 880.78 744.69 2.842E+02 1.810E+01 2.596E-05 302.34 0.0722 3 0.0815 4.525 884.51 746.76 2.843E+02 1.815E+01 2.771E-05 302.46 0.0722 3 0.0816 4.55 888.23 748.84 2.844E+02 1.820E+01 2.956E-05 302.58 0.0723 3 0.0816 4.575 891.96 750.91 2.844E+02 1.825E+01 3.152E-05 302.70 0.0723 3 0.0816 4.6 895.69 752.98 2.845E+02 1.830E+01 3.360E-05 302.81 0.0723 3 0.0817 4.625 899.41 755.04 2.846E+02 1.835E+01 3.581E-05 302.93 0.0724 3 0.0817 4.65 903.13 757.11 2.846E+02 1.840E+01 3.814E-05 303.04 0.0724 3 0.0818 4.675 906.85 759.18 2.847E+02 1.845E+01 4.061E-05 303.16 0.0724 3 0.0818 4.7 910.57 761.24 2.848E+02 1.850E+01 4.323E-05 303.27 0.0724 3 0.0819 4.725 914.29 763.31 2.848E+02 1.855E+01 4.599E-05 303.38 0.0725 3 0.0819 4.75 918.00 765.37 2.849E+02 1.860E+01 4.891E-05 303.50 0.0725 3 0.0820 4.775 921.72 767.44 2.850E+02 1.865E+01 5.200E-05 303.61 0.0725 3 0.0820

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 36of66 4.8 925.43 769.50 2.850E+02 1.870E+01 5.527E-05 303.72 0.0725 3 0.0821 4.825 929.14 771.56 2.851E+02 1.875E+01 5.871E-05 303.83 0.0726 3 0.0821 4.85 932.85 773.62 2.851E+02 1.880E+01 6.235E-05 303.94 0.0726 3 0.0822 4.875 936.56 775.68 2.852E+02 1.885E+01 6.620E-05 304.05 0.0726 3 0.0822 4.9 940.26 777.74 2.853E+02 1.890E+01 7.025E-05 304.16 0.0726 3 0.0823 4.925 943.97 779.80 2.853E+02 1.895E+01 7.453E-05 304.27 0.0727 3 0.0823 4.95 947.67 781 .86 2.854E+02 1.900E+01 7.903E-05 304.38 0.0727 3 0.0824 4.975 951.37 783.91 2.854E+02 1.905E+01 8.379E-05 304.48 0.0727 3 0.0824 5 955.07 785.97 2.855E+02 1.910E+01 8.879E-05 304.59 0.0728 3 0.0825 5.025 958.77 788.02 2.855E+02 1.915E+01 9.407E-05 304.70 0.0728 3 0.0825 5.05 962.47 790.08 2.856E+02 1.920E+01 9.962E-05 304.81 0.0728 3 0.0826 5.075 966.16 792.13 2.857E+02 1.925E+01 1.055E-04 304.91 0.0728 3 0.0826 5.1 969.86 794.18 2.857E+02 1.930E+01 1.116E-04 305.02 0.0729 3 0.0827 5.125 973.55 796.23 2.858E+02 1.935E+01 1.181E-04 305.12 0.0729 3 0.0827 5.15 977.24 798.28 2.858E+02 1.940E+01 1.249E-04 305.23 0.0729 3 0.0828 5.175 980.93 800.33 2.859E+02 1.945E+01 1.321E-04 305.33 0.0729 3 0.0828 5.2 984.62 802.38 2.859E+02 1.950E+01 1.396E-04 305.43 0.0730 3 0.0829 5.225 988.31 804.43 2.860E+02 1.955E+01 1.475E-04 305.54 0.0730 3 0.0829 5.25 991.99 806.48 2.860E+02 1.960E+01 1.558E-04 305.64 0.0730 3 0.0829 5.275 995.67 808.52 2.861E+02 1.965E+01 1.645E-04 305.74 0.0730 3 0.0830 5.3 999.36 810.57 2.861E+02 1.970E+01 1.737E-04 305.85 0.0730 3 0.0830 5.325 1003.04 812.62 2.862E+02 1.975E+01 1.833E-04 305.95 0.0731 3 0.0831 5.35 1006.72 814.66 2.863E+02 1.980E+01 1.934E-04 306.05 0.0731 3 0.0831 5.375 1010.40 816.70 2.863E+02 1.985E+01 2.039E-04 306.15 0.0731 3 0.0832 5.4 1014.07 818.75 2.864E+02 1.990E+01 2.150E-04 306.25 0.0731 3 0.0832 5.425 1017.75 820.79 2.864E+02 1.995E+01 2.266E-04 306.35 0.0732 3 0.0833 5.45 1021.42 822.83 2.865E+02 1.999E+01 2.388E-04 306.45 0.0732 3 0.0833 5.475 1025.09 824.87 2.865E+02 2.004E+01 2.516E-04 306.55 0.0732 3 0.0834 5.5 1028.76 826.91 2.866E+02 2.009E+01 2.649E-04 306.65 0.0732 3 0.0834 5.525 1032.43 828.95 2.866E+02 2.014E+01 2.789E-04 306.75 0.0733 3 0.0835 5.55 1036.10 830.98 2.867E+02 2.019E+01 2.936E-04 306.84 0.0733 3 0.0835 5.575 1039.77 833.02 2.867E+02 2.024E+01 3.089E-04 306.94 0.0733 3 0.0836 5.6 1043.43 835.06 2.867E+02 2.029E+01 3.250E-04 307.04 0.0733 3 0.0836 5.625 1047.10 837.09 2.868E+02 2.034E+01 3.418E-04 307.13 0.0734 3 0.0837 5.65 1050.76 839.13 2.868E+02 2.039E+01 3.593E-04 307.23 0.0734 3 0.0837 5.675 1054.42 841 .16 2.869E+02 2.044E+01 3.777E-04 307.33 0.0734 3 0.0838

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 37of66 5.7 1058.08 843.19 2.869E+02 2.049E+01 3.968E-04 307.42 0.0734 3 0.0838 5.725 1061 .74 845.23 2.870E+02 2.054E+01 4.169E-04 307.52 0.0734 3 0.0839 5.75 1065.39 847.26 2.870E+02 2.059E+01 4.378E-04 307.61 0.0735 3 0.0839 5.775 1069.05 849.29 2.871E+02 2.064E+01 4.597E-04 307.71 0.0735 3 0.0839 5.8 1072.70 851.32 2.871E+02 2.069E+01 4.825E-04 307.80 0.0735 3 0.0840 5.825 1076.36 853.35 2.872E+02 2.074E+01 5.064E-04 307.90 0.0735 3 0.0840 5.85 1080.01 855.38 2.872E+02 2.079E+01 5.312E-04 307.99 0.0736 3 0.0841 5.875 1083.66 857.40 2.872E+02 2.083E+01 5.572E-04 308.08 0.0736 3 0.0841 5.9 1087.31 859.43 2.873E+02 2.088E+01 5.843E-04 308.18 0.0736 3 0.0842 5.925 1090.95 861 .46 2.873E+02 2.093E+01 6.125E-04 308.27 0.0736 3 0.0842 5.95 1094.60 863.48 2.874E+02 2.098E+01 6.420E-04 308.36 0.0737 3 0.0843 5.975 1098.24 865.51 2.874E+02 2.103E+01 6.727E-04 308.45 0.0737 3 0.0843 6 1101.89 867.53 2.875E+02 2.108E+01 7.047E-04 308.55 0.0737 3 0.0844 6.025 1105.53 869.56 2.875E+02 2.113E+01 7.380E-04 308.64 0.0737 3 0.0844 6.05 1109.17 871.58 2.875E+02 2.118E+01 7.727E-04 308.73 0.0737 3 0.0845 6.075 1112.81 873.60 2.876E+02 2.123E+01 8.089E-04 308.82 0.0738 3 0.0845 6.1 1116.45 875.62 2.876E+02 2.128E+01 8.465E-04 308.91 0.0738 3 0.0846 6.125 1120.08 877.64 2.877E+02 2.133E+01 8.857E-04 309.00 0.0738 3 0.0846 6.15 1123.72 879.66 2.877E+02 2.138E+01 9.265E-04 309.09 0.0738 3 0.0847 6.175 1127.35 881 .68 2.878E+02 2.142E+01 9.689E-04 309.18 0.0738 3 0.0847 6.2 1130.99 883.70 2.878E+02 2.147E+01 1.013E-03 309.27 0.0739 3 0.0847 6.225 1134.62 885.72 2.878E+02 2.152E+01 1.059E-03 309.36 0.0739 3 0.0848 6.25 1138.25 887.73 2.879E+02 2.157E+01 1.107E-03 309.44 0.0739 3 0.0848 6.275 1141 .88 889.75 2.879E+02 2.162E+01 1.156E-03 309.53 0.0739 3 0.0849 6.3 1145.51 891.76 2.879E+02 2.167E+01 1.208E-03 309.62 0.0740 3 0.0849 6.325 1149.13 893.78 2.880E+02 2.172E+01 1.262E-03 309.71 0.0740 3 0.0850 6.35 1152.76 895.79 2.880E+02 2.177E+01 1.317E-03 309.80 0.0740 3 0.0850 6.375 1156.38 897.81 2.881E+02 2.182E+01 1.375E-03 309.88 0.0740 3 0.0851 6.4 1160.00 899.82 2.881E+02 2.187E+01 1.435E-03 309.97 0.0740 3 0.0851 6.425 1163.62 901.83 2.881E+02 2.191E+01 1.498E-03 310.06 0.0741 3 0.0852 6.45 1167.24 903.84 2.882E+02 2.196E+01 1.562E-03 310.14 0.0741 3 0.0852 6.475 1170.86 905.85 2.882E+02 2.201E+01 1.630E-03 310.23 0.0741 3 0.0853 6.5 1174.48 907.86 2.883E+02 2.206E+01 1.699E-03 310.31 0.0741 3 0.0853 6.525 1178.10 909.87 2.883E+02 2.211E+01 1.772E-03 310.40 0.0741 3 0.0854 6.55 1181.71 911.88 2.883E+02 2.216E+01 1.847E-03 310.49 0.0742 3 0.0854 6.575 1185.33 913.89 2.884E+02 2.221E+01 1.925E-03 310.57 0.0742 3 0.0855

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Attachment 1 C-1302-226-E310-457, Rev. 2 Page 38of66 6.6 1188.94 915.89 2.884E+02 2.226E+01 2.006E-03 310.66 0.0742 3 0.0855 6.625 1192.55 917.90 2.884E+02 2.230E+01 2.089E-03 310.74 0.0742 3 0.0855 6.65 1196.16 919.91 2.885E+02 2.235E+01 2.176E-03 310.82 0.0742 3 0.0856 6.675 1199.77 921.91 2.885E+02 2.240E+01 2.266E-03 310.91 0.0743 3 0.0856 6.7 1203.38 923.91 2.885E+02 2.245E+01 2.359E-03 310.99 0.0743 3 0.0857 6.725 1206.98 925.92 2.886E+02 2.250E+01 2.456E-03 311.08 0.0743 3 0.0857 6.75 1210.59 927.92 2.886E+02 2.255E+01 2.556E-03 311.16 0.0743 3 0.0858 6.775 1214.19 929.92 2.886E+02 2.260E+01 2.659E-03 311.24 0.0743 3 0.0858 6.8 1217.79 931.92 2.887E+02 2.265E+01 2.766E-03 311.32 0.0744 3 0.0859 6.825 1221.40 933.93 2.887E+02 2.269E+01 2.877E-03 311.41 0.0744 3 0.0859 6.85 1225.00 935.93 2.887E+02 2.274E+01 2.992E-03 311.49 0.0744 3 0.0860 6.875 1228.60 937.93 2.888E+02 2.279E+01 3.111E-03 311.57 0.0744 3 0.0860 6.9 1232.19 939.92 2.888E+02 2.284E+01 3.234E-03 311.65 0.0744 3 0.0861 6.925 1235.79 941.92 2.888E+02 2.289E+01 3.361E-03 311.73 0.0745 3 0.0861 6.95 1239.39 943.92 2.889E+02 2.294E+01 3.492E-03 311.82 0.0745 3 0.0862 6.975 1242.98 945.92 2.889E+02 2.299E+01 3.628E-03 311.90 0.0745 3 0.0862 7 1246.57 947.91 2.889E+02 2.303E+01 3.769E-03 311.98 0.0745 3 0.0862 7.025 1250.17 949.91 2.890E+02 2.308E+01 3.914E-03 312.06 0.0745 3 0.0863 7.05 1253.76 951.90 2.890E+02 2.313E+01 4.064E-03 312.14 0.0746 3 0.0863 7.075 1257.35 953.90 2.890E+02 2.318E+01 4.219E-03 312.22 0.0746 3 0.0864 7.1 1260.93 955.89 2.891E+02 2.323E+01 4.380E-03 312.30 0.0746 3 0.0864 7.125 1264.52 957.88 2.891E+02 2.328E+01 4.545E-03 312.38 0.0746 3 0.0865 7.15 1268.11 959.88 2.891E+02 2.332E+01 4.716E-03 312.46 0.0746 3 0.0865 7.175 1271.69 961.87 2.892E+02 2.337E+01 4.893E-03 312.54 0.0746 3 0.0866 7.2 1275.28 963.86 2.892E+02 2.342E+01 5.075E-03 312.62 0.0747 3 0.0866 7.225 1278.86 965.85 2.892E+02 2.347E+01 5.264E-03 312.70 0.0747 3 0.0867 7.25 1282.44 967.84 2.893E+02 2.352E+01 5.458E-03 312.78 0.0747 3 0.0867 7.275 1286.02 969.83 2.893E+02 2.357E+01 5.659E-03 312.85 0.0747 3 0.0868 7.3 1289.60 971.82 2.893E+02 2.362E+01 5.865E-03 312.93 0.0747 3 0.0868 7.325 1293.18 973.80 2.893E+02 2.366E+01 6.079E-03 313.01 0.0748 3 0.0869 7.35 1296.75 975.79 2.894E+02 2.371E+01 6.299E-03 313.09 0.0748 3 0.0869 7.375 1300.33 977.78 2.894E+02 2.376E+01 6.526E-03 313.17 0.0748 3 0.0869 7.4 1303.90 979.76 2.894E+02 2.381E+01 6.761E-03 313.24 0.0748 3 0.0870 7.425 1307.48 981.75 2.895E+02 2.386E+01 7.002E-03 313.32 0.0748 3 0.0870 7.45 1311.05 983.73 2.895E+02 2.390E+01 7.251E-03 313.40 0.0749 3 0.0871 7.475 1314.62 985.72 2.895E+02 2.395E+01 7.508E-03 313.48 0.0749 3 0.0871

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 39of66 7.5 1318.19 987.70 2.895E+02 2.400E+01 7.772E-03 313.55 0.0749 3 0.0872 7.525 1321.76 989.68 2.896E+02 2.405E+01 8.044E-03 313.63 0.0749 3 0.0872 7.55 1325.33 991.66 2.896E+02 2.410E+01 8.325E-03 313.71 0.0749 3 0.0873 7.575 1328.89 993.65 2.896E+02 2.415E+01 8.614E-03 313.78 0.0749 3 0.0873 7.6 1332.46 995.63 2.897E+02 2.419E+01 8.912E-03 313.86 0.0750 3 0.0874 7.625 1336.02 997.61 2.897E+02 2.424E+01 9.219E-03 313.93 0.0750 3 0.0874 7.65 1339.59 999.59 2.897E+02 2.429E+01 9.535E-03 314.01 0.0750 3 0.0875 7.675 1343.15 1001.57 2.897E+02 2.434E+01 9.860E-03 314.09 0.0750 3 0.0875 7.7 1346.71 1003.54 2.898E+02 2.439E+01 1.019E-02 314.16 0.0750 3 0.0875 7.725 1350.27 1005.52 2.898E+02 2.443E+01 1.054E-02 314.24 0.0751 3 0.0876 7.75 1353.83 1007.50 2.898E+02 2.448E+01 1.089E-02 314.31 0.0751 3 0.0876 7.775 1357.38 1009.47 2.898E+02 2.453E+01 1.126E-02 314.39 0.0751 3 0.0877 7.8 1360.94 1011.45 2.899E+02 2.458E+01 1.163E-02 314.46 0.0751 3 0.0877 7.825 1364.50 1013.43 2.899E+02 2.463E+01 1.202E-02 314.54 0.0751 3 0.0878 7.85 1368.05 1015.40 2.899E+02 2.467E+01 1.242E-02 314.61 0.0751 3 0.0878 7.875 1371.60 1017.37 2.899E+02 2.472E+01 1.283E-02 314.68 0.0752 3 0.0879 7.9 1375.15 1019.35 2.900E+02 2.477E+01 1.325E-02 314.76 0.0752 3 0.0879 7.925 1378.71 1021.32 2.900E+02 2.482E+01 1.368E-02 314.83 0.0752 3 0.0880 7.95 1382.26 1023.29 2.900E+02 2.487E+01 1.412E-02 314.91 0.0752 3 0.0880 7.975 1385.80 1025.26 2.901E+02 2.491E+01 1.458E-02 314.98 0.0752 3 0.0881 8 1389.35 1027.23 2.901E+02 2.496E+01 1.505E-02 315.05 0.0752 3 0.0881 8.025 1392.90 1029.20 2.901E+02 2.501E+01 1.553E-02 315.13 0.0753 3 0.0881 8.05 1396.44 1031.17 2.901E+02 2.506E+01 1.602E-02 315.20 0.0753 3 0.0882 8.075 1399.99 1033.14 2.902E+02 2.511E+01 1.653E-02 315.27 0.0753 3 0.0882 8.1 1403.53 1035.11 2.902E+02 2.515E+01 1.705E-02 315.35 0.0753 3 0.0883 8.125 1407.07 1037.08 2.902E+02 2.520E+01 1.759E-02 315.42 0.0753 3 0.0883 8.15 1410.61 1039.05 2.902E+02 2.525E+01 1.814E-02 315.49 0.0754 3 0.0884 8.175 1414.15 1041.01 2.902E+02 2.530E+01 1.871E-02 315.56 0.0754 3 0.0884 8.2 1417.69 1042.98 2.903E+02 2.534E+01 1.929E-02 315.64 0.0754 3 0.0885 8.225 1421.23 1044.94 2.903E+02 2.539E+01 1.988E-02 315.71 0.0754 3 0.0885 8.25 1424.77 1046.91 2.903E+02 2.544E+01 2.049E-02 315.78 0.0754 3 0.0886 8.275 1428.30 1048.87 2.903E+02 2.549E+01 2.112E-02 315.85 0.0754 3 0.0886 8.3 1431.84 1050.84 2.904E+02 2.554E+01 2.177E-02 315.92 0.0755 3 0.0887 8.325 1435.37 1052.80 2.904E+02 2.558E+01 2.243E-02 316.00 0.0755 3 0.0887 8.35 1438.90 1054.76 2.904E+02 2.563E+01 2.311E-02 316.07 0.0755 3 0.0887 8.375 1442.44 1056.73 2.904E+02 2.568E+01 2.380E-02 316.14 0.0755 3 0.0888

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 40of66 8.4 1445.97 1058.69 2.905E+02 2.573E+01 2.452E-02 316.21 0.0755 3 0.0888 8.425 1449.50 1060.65 2.905E+02 2.577E+01 2.525E-02 316.28 0.0755 3 0.0889 8.45 1453.02 1062.61 2.905E+02 2.582E+01 2.600E-02 316.35 0.0756 3 0.0889 8.475 1456.55 1064.57 2.905E+02 2.587E+01 2.677E-02 316.42 0.0756 3 0.0890 8.5 1460.08 1066.53 2.905E+02 2.592E+01 2.756E-02 316.49 0.0756 3 0.0890 8.525 1463.60 1068.48 2.906E+02 2.596E+01 2.837E-02 316.56 0.0756 3 0.0891 8.55 1467.13 1070.44 2.906E+02 2.601E+01 2.920E-02 316.63 0.0756 3 0.0891 8.575 1470.65 1072.40 2.906E+02 2.606E+01 3.004E-02 316.71 0.0756 3 0.0892 8.6 1474.17 1074.36 2.906E+02 2.611E+01 3.092E-02 316.78 0.0757 3 0.0892 8.625 1477.69 1076.31 2.907E+02 2.615E+01 3.181E-02 316.85 0.0757 3 0.0892 8.65 1481.21 1078.27 2.907E+02 2.620E+01 3.272E-02 316.92 0.0757 3 0.0893 8.675 1484.73 1080.22 2.907E+02 2.625E+01 3.366E-02 316.99 0.0757 3 0.0893 8.7 1488.25 1082.18 2.907E+02 2.630E+01 3.462E-02 317.06 0.0757 3 0.0894 8.725 1491 .76 1084.13 2.907E+02 2.634E+01 3.560E-02 317.13 0.0757 3 0.0894 8.75 1495.28 1086.08 2.908E+02 2.639E+01 3.660E-02 317.19 0.0758 3 0.0895 8.775 1498.79 1088.04 2.908E+02 2.644E+01 3.763E-02 317.26 0.0758 3 0.0895 8.8 1502.31 1089.99 2.908E+02 2.649E+01 3.869E-02 317.33 0.0758 3 0.0896 8.825 1505.82 1091.94 2.908E+02 2.653E+01 3.977E-02 317.40 0.0758 4 0.1092 8.85 1509.14 1093.79 2.908E+02 2.658E+01 4.081E-02 317.47 0.0758 5 0.1207 8.875 1512.37 1095.58 2.909E+02 2.662E+01 4.185E-02 317.53 0.0758 5 0.1226 8.9 1515.57 1097.36 2.909E+02 2.667E+01 4.290E-02 317.59 0.0759 5 0.1245 8.925 1518.76 1099.13 2.909E+02 2.671E+01 4.397E-02 317.66 0.0759 5 0.1263 8.95 1521.93 1100.89 2.909E+02 2.675E+01 4.506E-02 317.72 0.0759 5 0.1282 8.975 1525.09 1102.64 2.909E+02 2.679E+01 4.616E-02 317.78 0.0759 5 0.1300 9 1528.23 1104.39 2.910E+02 2.684E+01 4.729E-02 317.84 0.0759 5 0.1319 9.025 1531.36 1106.13 2.910E+02 2.688E+01 4.843E-02 317.90 0.0759 5 0.1337 9.05 1534.47 1107.85 2.910E+02 2.692E+01 4.958E-02 317.97 0.0759 5 0.1355 9.075 1537.56 1109.57 2.910E+02 2.696E+01 5.076E-02 318.03 0.0760 5 0.1373 9.1 1540.65 1111 .29 2.910E+02 2.700E+01 5.195E-02 318.09 0.0760 5 0.1391 9.125 1543.71 1112.99 2.910E+02 2.705E+01 5.317E-02 318.15 0.0760 5 0.1409 9.15 1546.77 1114.69 2.911E+02 2.709E+01 5.440E-02 318.20 0.0760 6 0.1414 9.175 1549.82 1116.38 2.911E+02 2.713E+01 5.565E-02 318.26 0.0760 6 0.1419 9.2 1552.86 1118.07 2.911E+02 2.717E+01 5.693E-02 318.32 0.0760 6 0.1424 9.225 1555.90 1119.76 2.911E+02 2.721E+01 5.823E-02 318.38 0.0760 6 0.1429 9.25 1558.94 1121.45 2.911E+02 2.725E+01 5.955E-02 318.44 0.0761 6 0.1434 9.275 1561.97 1123.13 2.911E+02 2.729E+01 6.090E-02 318.50 0.0761 6 0.1439

Attachment 1 C-1302-226-E310-457, Rev. 2 Page 41 of 66 9.3 1565.00 1124.82 2.912E+02 2.733E+01 6.227E-02 318.56 0.0761 6 0.1444 9.325 1568.02 1126.50 2.912E+02 2.737E+01 6.366E-02 318.62 0.0761 6 0.1449 9.35 1571.04 1128.17 2.912E+02 2.741E+01 6.508E-02 318.68 0.0761 6 0.1454 9.375 1574.06 1129.85 2.912E+02 2.746E+01 6.653E-02 318.73 0.0761 6 0.1459 9.4 1577.07 1131.52 2.912E+02 2.750E+01 6.800E-02 318.79 0.0761 6 0.1464 9.425 1580.08 1133.19 2.912E+02 2.754E+01 6.950E-02 318.85 0.0762 7 0.1471 9.45 1583.08 1134.86 2.913E+02 2.758E+01 7.102E-02 318.91 0.0762 7 0.1492 9.475 1586.07 1136.52 2.913E+02 2.762E+01 7.256E-02 318.97 0.0762 7 0.1513 9.5 1589.04 1138.17 2.913E+02 2.766E+01 7.412E-02 319.02 0.0762 7 0.1533 9.525 1591.99 1139.81 2.913E+02 2.770E+01 7.570E-02 319.08 0.0762 7 0.1554 9.55 1594.93 1141.45 2.913E+02 2.774E+01 7.731E-02 319.14 0.0762 7 0.1574 9.575 1597.86 1143.07 2.913E+02 2.778E+01 7.893E-02 319.19 0.0762 7 0.1594 9.6 1600.77 1144.69 2.914E+02 2.782E+01 8.058E-02 319.25 0.0763 7 0.1614 9.625 1603.67 1146.30 2.914E+02 2.786E+01 8.224E-02 319.30 0.0763 7 0.1634 9.65 1606.55 1147.90 2.914E+02 2.789E+01 8.393E-02 319.36 0.0763 7 0.1654 9.675 1609.42 1149.50 2.914E+02 2.793E+01 8.563E-02 319.41 0.0763 7 0.1674 9.7 1612.28 1151.08 2.914E+02 2.797E+01 8.736E-02 319.47 0.0763 7 0.1693 9.725 1615.12 1152.66 2.914E+02 2.801E+01 8.911E-02 319.52 0.0763 7 0.1713 9.75 1617.95 1154.23 2.914E+02 2.805E+01 9.088E-02 319.58 0.0763 8 0.1732 9.775 1620.77 1155.80 2.915E+02 2.809E+01 9.268E-02 319.63 0.0763 8 0.1750 9.8 1623.57 1157.36 2.915E+02 2.812E+01 9.449E-02 319.69 0.0764 8 0.1768 9.825 1626.36 1158.91 2.915E+02 2.816E+01 9.633E-02 319.74 0.0764 8 0.1786 9.85 1629.15 1160.45 2.915E+02 2.820E+01 9.819E-02 319.79 0.0764 8 0.1804 9.875 1631.91 1161.99 2.915E+02 2.824E+01 1.001E-01 319.84 0.0764 8 0.1821 9.9 1634.67 1163.52 2.915E+02 2.827E+01 1.020E-01 319.90 0.0764 8 0.1839 9.925 1637.42 1165.05 2.915E+02 2.831E+01 1.039E-01 319.95 0.0764 8 0.1857 9.95 1640.15 1166.57 2.915E+02 2.835E+01 1.059E-01 320.00 0.0764 8 0.1874 9.975 1642.88 1168.08 2.916E+02 2.838E+01 1.078E-01 320.05 0.0764 8 0.1892 10 1645.59 1169.59 2.916E+02 2.842E+01 1.098E-01 320.11 0.0765 8 0.1909 10.025 1648.29 1171.09 2.916E+02 2.846E+01 1.118E-01 320.16 0.0765 8 0.1927 10.05 1650.99 1172.59 2.916E+02 2.849E+01 1.139E-01 320.21 0.0765 8 0.1944 10.075 1653.67 1174.08 2.916E+02 2.853E+01 1.160E-01 320.26 0.0765 9 0.1943 10.1 1656.35 1175.57 2.916E+02 2.857E+01 1.181E-01 320.31 0.0765 9 0.1935

Attachment 2 C-1302-226-E310-457 Rev.2 Page 42 of 66 Decay Heat Calculation The revised decay heat run is based on the Cycle 26 maximum burnup (48762.3 MWd/MTU), minimum enrichment (3.43%), and maximum MTU (0.181368 MTU/Assy) from Reference 12. Using the same 560 assemblies in the core, power level of 1930 MWt, and GNF2 fuel from Reference 1, the new bounding bundle power level is calculated below:

1 core 1 Bounding Avg. Power Level = 1930 MWt x bl. x MTU = 19.0024 MWt/ MTU 560 assem ies 0.181368 _ _.......-

assembly This results in a total irradiation period calculated as 48762.3MWd Irradiation Period = ~lft = 2566.11 days 19.0024 MTU These values are used to update the ORIG EN-ARP decay heat model from Reference 1 and the revised input file is included in Attachment 6 of this calculation. Table A8-2 from Attachment 8 of Reference 1 is recreated below using this Cycle 26 fuel information and accounts for the additional assembly hardware mass. This also includes a 9-month (0.75 year) time step due to the increased margin from using this cycle.

Table A2-1: Decay Heat Source Terms from ORIGEN-ARP 0.75 Year 1 Year 1.25 Year 1.5 Year 2Year 3 Year 5 Year Decay Time Decay Decay Decay Decay Decay Decay Decay (W/MTU) (W/MTU) (W/MTU) (W/MTU) (W/MTU) (W/MTU) (W/MTU)

Cycle 26, max.

burnup, min.

1.091E+04 9.018E+03 7.707E+03 6.721E+03 5.318E+03 3.720E+03 2.454E+03 enrichment, max. MTU

Attachment 3 C-1302-226-E310-457 Rev. 2 Page43 of66 NUCLEAR FUELS TRANSMITTAL OF DESIGN INFORMATION D SAFETY RELATED Originating Organization NF ID# NF183597 181 NON-SAFETY RELATED 181 Nuclear Fuels Revision 0 D REGULATORY RELATED D Other (specify) SRRS# 3A.130 Paae 1 of 18

Subject:

Oyster Creek Unit 1 Cycle 26 EOC Zirc Fire Calculation Inputs Station: Oyster Creek Unit: 1 Cycle: 26 Generic: N/A To: Dwayne Blaylock (Enercon) EC/ECR#: N/A

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! ~ "**1.1<1'/ 2/16/2018 Ferheen Qureshi Prepared by Signature Date Robert Potter I !-il:" lh'l l)/f;:--

• '* ~~ . __ .. 2/16/2018 Reviewed by Signature Date Armando Johnson

~~{J 16FEB18 Approved by Signature Date Status of Information: 181 Verified D Unverified D Engineering Judgment Action Tracking # for Method and Schedule of Verification N/A for Unverified DESIGN INFORMATION:

Purpose of Information:

Provides inputs to Enercon calculation for "Oyster Creek Nuclear Generating Station Zirconium Fire Analysis for Drained Soent Fuel Pool" assumina a shutdown date of October 1st, 2018.

Description of Information/Basis:

This package provides information necessary to revise the "Oyster Creek Nuclear Generating Station Zirconium Fire Analysis for Drained Spent Fuel Pool" which was previously based on the final operating cycle 27 fuel data.

With Exelon decision to shut down Oyster Creek after cycle 26, the calculation is being revised to determine the potential reduction in acceptable decay time for the limiting bundle for the cycle 26 core. The information generated assumes a shutdown date of October 1st, 2018.

The following information is included as attachments in this TOOi:

1. Attachment 1: Oyster Creek Cycle 26 Fuel Bundle Inventory

2. Attachment 2: Oyster Creek Cycle 26 Fuel Bundle Identification Array

3. Attachment 3: Oyster Creek Cycle 26 Fuel IAT Map

4. Attachment 4: Oyster Creek Cycle 26 Fuel Bundle Exposure, Uranium Mass, & Enrichment Source of Information (References):

1. Oyster Creek Unit 1 Cycle 26 Core Loading Plan Rev. 3

2. Disk6:[Readonly.OC.C26.Proiect.zircfire]OC 1C26D QC 02-12-18. WRP E-Mail: Hard Co12~:

Robert Csillag None.

Armando Johnson Supplemental Distribution:

Brian Froese NCS Controlled Documents Distribution

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 44 of66 TODI NF183597 Rev.a Page 2of18 ATTACHMENT 1: Oyster Creek Cycle 26 Fuel Bundle Inventory CHANNEL CYCLE BATCH BUNDLE HO. FUEL BUNDLE DESCRIPTION MATERIAL LOADED ID RANGE TYPE 6 48 GNF2-P1ODG2B370-16GZ-10012-145-16-3356 ZR2RX 23 JVN413-JVN460 7 12 GNF2-P10 DG28369-16GZ-1 OOT2-145-l6-3357-LTD ZR2RX 23 JVN501..JVN516 8 32 GNF2-P10DG2B370-16GZ-100l2-145-l6-4137 ZR2RX 24 JVX370-JYX401 9 16 GNF2-P10DG2B3n-14GZ-100l2-145-l6-4138 ZR4RX 24 JYX426.JYX441 10 16 GNF2-P10DG2B370-15GZ-100T2-145-T6-3355 ZR2RX 23 JVNJ81..JVN404 11 40 GNF2-P1ODG2B371-14GZ-1 OOT2-145-T6-4300 ZR2RX 25 YLD792-YLD831 12 24 GNF2-P10DG2B371 -16GZ-100T2-145-T6-4301 ZR2RX 25 YLD856-YLD879 13 16 GNF2-P1 ODG2B370-16GZ-100T2-145-T6-3356 ZR4RX 23 JYN461..JYN476 14 16 GNF2-P10DG2BJ69-16GZ-1OOT2-145-T6..JJ57-LTD ZR4RX 23 JYN525..JYN540 15 24 GNF2-P10DG2B372-14GZ-100T2-145-l6-41J8 ZR2RX 24 JVX402-JVX425 17 48 GNF2-P10DG2BJ71-14GZ-100T2-145-T6-41J6 ZR4RX 24 JYX322-JYX369 20 32 GNF2-P1 ODG2BJ71-14GZ-100T2-145-l6-4136 ZR2RX 24 JYX290.JYXJ21 21 24 GNF2-P1 ODG2B369-16GZ-1 OOT2-145-l6-4303 ZR2RX 25 YLD888-VLD911 22 24 GNF2-P1 ODG28371-14GZ-1 OOT2-145-l6-4300 ZR4RX 25 YLD832-YLD855 23 8 GNF2-P1 ODG2B371-16GZ-100l2-145-T6-4301 ZR4RX 25 YLD880-YLD887 24 32 GNF2-P10DG2BJ69-16GZ-100T2-145-T6-4303 ZR4RX 25 YLD912-YLD943 25 8 GNF2-P1 ODG2B370-12GZ-100T2-145-T6-4437 ZR2RX 26 YLL555-VLL562 26 56 GNF2-P1 ODG2BJ46-1 JGZ-1 OOT2-145-T6-4435-LTD ZR2RX 26 YL L423-YLL478 27 44 GNF2-P10DG2834J-14GZ-100T2-145-T6-4436-LTD ZR2RX 26 YLL479-YLL522 28 8 GNF2-P10DG28346-13GZ-100T2-145-T6-4435-LTD ZR4RX 26 VLL415-VLL422 29 32 GNF2-P10DG2B370-12GZ-100T2-145-l6-4437 ZR4RX 26 YLL523-YLL554 SUM= 560

Attachment 3 C-1302-226-E310-457 Rev. 2 Page45 of66 TOOi NF183597 Rev.O Page 3of18 ATTACHMENT 2: Oyster Creek Cycle 26 Fuel Bundle Identification Array J/1 1 l 3 4 5 6 7 8 9 10 11 12 13 (PANAC) 1 JYN462 JYN509 JYN454 JYN3B2 JYN445 52 2 JYN438 JYN469 JYX323 YLD929 YLD937 YLD873 50 3 JYN534 JYN413 JYN422 JYN398 YLD905 YLD825 YLD809 YLD913 NX363 48 4 JYNSOl JYN430 JYN502 YLD921 YL0849 JYX379 YL0880 JYX402 YLD817 YLD793 46 5 JYN533 JYN429 JYX386 YLD865 YLDB97 YLD833 YLD857 YLL432 YLLSOO YLL508 YLL416 44 6 JYN414 JYN529 YLD864 JYX338 YLD801 JYX299 YLL492 JYX307 YLL440 JYX427 NX347 42 7 JYN421 YLD920 YLD896 YLDBOO YLL479 YLL484 YLD841 YLL556 JYX291 YLL540 YLDB89 40 8 JYN437 JYN397 YLD848 YLD832 JYX298 YLL483 NX419 YLL424 JYX435 YLL532 JYX395 YLL516 38 9 JYN461 JYN470 YLD904 JYX378 YLD856 YLL491 YLD840 YLL423 JYX354 YLL524 JYX411 YLL456 JYX315 36 10 JYN525 JYX322 YLD824 YLD881 YLL431 JYX306 YLLSSS JYX434 YLL523 JYX339 YLL448 JYX370 YLL54B 34 11 JYN453 YLD928 YLD808 JYX403 YLL499 YLL439 JYX290 YLL531 JYX410 YLL447 JYX387 YLL464 JYX330 32 12 JYN381 YLD936 YLD912 YLD816 YLL507 JYX426 YLL539 NX394 YLL455 JYX371 YLL463 JYX355 YLL472 30 13 JYN446 YLD872 JYX362 YLD792 YLL415 JYX346 YLD888 YLL515 JYX314 YLL547 JYX331 YLL471 JYX418 28 14 JYN451 YLD879 JYX369 YLD799 YLL422 NX353 YLD895 YLL522 JYX321 YLL554 JYX336 YLL478 JYX425 26 15 JYN388 YLD943 YLD919 YLD823 YLL514 JYX433 YLL546 JYX401 YLL462 JYX376 YLL470 JYX360 YLL477 24 16 JYN460 YLD935 YLD815 JYX408 YLL506 YLL446 JYX297 YLL538 JYX417 YLL454 JYX392 YLL469 JYX337 22 17 JYN528 JYX329 YLD831 YLD886 YLL438 JYX313 YLL562 JYX441 YLL530 JYX344 YLL453 JYX377 YLL553 20 18 JYN46B JYN475 YLD911 JYX385 YLD863 YLL49B YLD847 YLL430 JYX361 YLL529 JYX416 YLL461 NX320 18 19 JYN444 JYN404 YLD855 YLD839 JYX305 YLL490 JYX424 YLL429 JYX440 YLL537 JYX400 YLL521 16 20 JYN428 YLD927 YLD903 YLD807 YLL482 YLL489 YLD846 YLL561 JYX296 YLL545 YLD894 14 21 JYN419 JYN532 YL0871 JYX345 YLD806 JYX304 YLL497 JYX312 YLL445 JYX432 JYX352 12 22 JYN540 JYN436 JYX393 YLDB70 YLD902 YLD838 YLD862 YLL437 YLLSOS YLL513 YLL421 10 23 JYN508 JYN435 JYN507 YL0926 YLD854 JYX384 YLDB87 JYX409 YLD822 YLD798 8 24 JYN539 JYN420 JYN427 JYN403 YLD910 YL0830 YLD814 YLD918 .IYX368 6 25 JYN443 JYN476 JYX328 YLD934 YLD942 YLD878 4 26 JYN467 JYN516 JYN459 JYN387 JYN452 2 X/Y 1 3 5 7 9 11 13 15 17 19 21 23 25 (SITE)

Attachment 3 C-1302-226-E310-457 Rev. 2 Page46 of66 TODI NF183597 Rev.a Page4of18 J/1 14 15 16 17 18 19 20 21 22 23 24 25 26 (PANAC) 1 JYN448 JYN383 JYN455 JYN512 JYN463 52 2 YLD874 YLD938 YLD930 JYX324 JYN472 JYN4 39 50 3 JYX364 YLD914 YLDBlO YLD826 YLD906 JYN399 JYN 423 JYN4 16 JYN535 48 4 YLD794 YLDB18 JYX405 YLD883 JYX380 YLDSSO YLD92 2 JYN503 JYN4 31 JYN504 46 5 YLL417 YLL509 YLLSOl YLL433 YLD858 YLD834 YLD898 YLD866 JYX389 JYN432 JYN536 44 6 JYX348 JYX4 28 YLL441 JYX308 YLL493 JYX300 YLD802 JYX34 1 YLD867 JYN530 JYN415 42 7 YLD890 Yll541 JYX292 YLL557 YLD842 YLL485 YU480 YLD803 YLD899 YLD923 JYN424 40 8 YLL517 JYX396 YLL533 JYX4 36 YU425 JYX4 20 YU486 JYX301 YLD835 YLD851 JYN400 JYN440 38 9 JYX316 YLL457 JYX412 YLL525 JYX3 57 YLL4 26 YLDB43 YLL494 VLD859 JVX381 VLD907 JVN47 1 JVN464 36 10 YLL54 9 JYX373 YLL449 JYX340 YLL526 JYX437 YLL558 JYX309 YLL434 YLD882 YLD827 JYX325 JYN526 34 11 JYX333 YLL465 JYX388 YLL450 JYX413 YLL534 JYX293 YLL442 YLL502 JYX404 YLD811 YLD931 JYN456 32

12. VLL473 JYX356 YLL4 66 JYX372 YLL458 JYX397 YLL542 JYX429 YLLSlO YLD819 YLD915 YLD939 JYN384 30 H JYX421 YLL4 74 JYX332 YLLSSO JYX317 YLL518 YLD891 JYX34 9 YLL418 YLD795 JYX365 YLD875 JYN447 28 14 JYX422 YLL475 JYX335 YLL551 JYX318 YLL519 YLD892 JYX350 YLL419 YLD796 JYX366 YLD876 JYN450 26 15 YLL476 JYX359 VLL467 JYX375 YLL459 JYX398 YLL543 JVX430 YLLSl l YLD820 YLD916 YLD940 JYN385 24 16 JYX334 YLL468 JYX391 YLL451 JYX414 YLL535 JYX294 YLL443 YLL503 JYX407 YLD812 YLD932 JYN457 22 17 YLL552 JYX374 YLL452 JYX343 YLL527 JYX438 YLL559 JYX310 YLL435 YLD885 YLD828 JYX326 JYN527 20 18 JVX319 YLL460 JYX415 YLL528 JYX358 YLL427 YLDB44 YLL495 YLD860 JYX382 YLD908 JYN474 JYN4 65 18 19 YLL520 JYX399 YLL536 JYX439 YLL4 28 JYX4 23 Yll487 JYX302 YLD836 YLD852 JYN40 1 JYN441 16 20 YLD893 YLL544 JYX295 YLL560 YLDB45 YLL4 88 Yll481 YLD804 YLD900 VLD924 JYN425 14 21 JYX351 JYX4 31 YLL444 JYX311 YLL496 JVX303 YLD805 JYX342 YLD868 JVN531 JYN418 12 22 YLL420 YLL5 12 VLL504 YLL4 36 YLD861 YLD837 YLD901 YLD869 JYX390 JYN433 JYN537 10

.B YLD797 YLD821 JYX406 YLD884 JYX383 YLD853 YLD925 JVN506 JYN434 JYNSOS 8 24 JYX367 YLD917 YLD813 YLD829 YLD909 JYN402 JYN426 JYN41 7 JYN538 6 25 YLD877 YLD941 YLD933 JYX327 JYN473 JYN442 4 26 JYN449 JYN386 JVN458 JYN513 JYN466 2 X/Y 27 29 31 33 35 37 39 41 43 45 47 49 51 (SITE)

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 47 of66 TOOi NF183597 Rev.a Page 5of18 ATTACHMENT 3: Oyster Creek Cycle 26 Fuel IAT Map J/I 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 1 13 7 6 10 6 6 10 6 7 13 52 2 6 13 17 24 24 12 12 24 24 17 13 6 so 3 14 6 6 10 21 11 11 24 17 17 24 11 11 21 10 6 6 14 48 4 7 6 7 24 22 8 23 15 11 11 11 11 15 23 8 22 24 7 6 7 46 5 14 6 8 12 21 22 12 26 27 27 28 28 27 27 26 12 22 21 12 8 6 14 44 6 6 14 12 17 11 20 27 20 26 9 17 17 9 26 20 27 20 11 17 12 14 6 42 7 6 24 21 11 27 27 22 25 20 29 21 21 29 20 25 22 27 27 11 21 24 6 40 8 6 10 22 22 20 27 15 26 9 29 8 27 27 8 29 9 26 15 27 20 22 22 10 6 38 9 13 13 21 8 12 27 22 26 17 29 15 26 20 20 26 15 29 17 26 22 27 12 8 21 13 13 36 10 14 17 11 23 26 20 25 9 29 17 26 8 29 29 8 26 17 29 9 25 20 26 23 11 17 14 34 11 6 24 11 15 27 26 20 29 15 26 8 26 17 17 26 8 26 15 29 20 26 27 15 11 24 6 32 12 10 24 24 11 27 9 29 8 26 8 26 17 26 26 17 26 8 26 8 29 9 27 11 24 24 10 30 13 6 12 17 11 28 17 21 27 20 29 17 26 15 15 26 17 29 20 27 21 17 28 11 17 12 6 28 14 6 12 17 11 28 17 21 27 20 29 17 26 15 15 26 17 29 20 27 21 17 28 11 17 12 6 26 15 10 24 24 11 27 9 29 8 26 8 26 17 26 26 17 26 8 26 8 29 9 27 11 24 24 10 24 16 6 24 11 15 27 26 20 29 15 26 8 26 17 17 26 8 26 15 29 20 26 27 15 11 24 6 22 17 14 17 11 23 26 20 25 9 29 17 26 8 29 29 8 26 17 29 9 25 20 26 23 11 17 14 20 18 13 13 21 8 12 27 22 26 17 29 15 26 20 20 26 15 29 17 26 22 27 12 8 21 13 13 18 19 6 10 22 22 20 27 15 26 9 29 8 27 27 8 29 9 26 15 27 20 22 22 10 G 16 20 6 24 21 11 27 27 22 25 20 29 21 21 29 20 25 22 27 27 11 21 24 6 14 21 6 14 12 17 11 20 27 20 26 9 17 17 9 26 20 27 20 11 17 12 14 6 12 22 14 6 8 12 21 22 12 26 27 27 28 28 27 27 26 12 22 21 12 8 6 14 10 23 7 6 7 24 22 8 23 15 11 11 11 11 15 23 8 22 24 7 6 7 8 24 14 6 6 10 21 11 11 24 17 17 24 11 11 21 10 6 6 14 6 25 6 13 17 24 24 12 12 24 24 17 13 6 4 26 13 7 6 10 6 6 10 6 7 13 2 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51

Attachment 3 C-1302-226-E310-457 Rev. 2 Page48 of66 TOOi NF183597 Rev.O Page 6of18 ATTACHMENT4: Oyst er C ree kC.ye Ie 26F ue IB un di e Exposure, uramu m Mass, & Enrichment EOC Bundle Bundle Bundle Initial Initial Serial Type Exp Weight Enrich ID (IAT) (GWd/MT) (MT) (fraction)

JYN461 13 46.7913 0.180885 0.037016 JYN525 14 47.0963 0.180771 0.036880 JYN453 6 47.0508 0.180840 0.037038 JYN381 10 47.5784 0.180944 0.037066 JYN446 6 48.3574 0.180928 0.037036 JYN451 6 48.4346 0.180956 0.036993 JYN388 10 47.6153 0.180856 0.037038 JYN460 6 47.0528 0.180856 0.037001 JYN528 14 47.2909 0.180918 0.036880 JYN468 13 46.8265 0.180816 0.036971 JYN437 6 47.1013 0.180940 0.037017 JYN470 13 45.9430 0.180771 0.036983 JYX322 17 35.2095 0.181064 0.037105 YLD928 24 27.9412 0.180415 0.036866 YLD936 24 27.4603 0.180413 0.036864 YLD872 12 28.1927 0.180246 0.037090 YLD879 12 28.1668 0.180377 0.037078 YLD943 24 27.4484 0.180419 0.036864 YLD935 24 27.9199 0.180438 0.036856 JYX329 17 35.2612 0.181013 0.037096 JYN475 13 46.0372 0.180897 0.036996 JYN444 6 47.1046 0.180924 0.037018 JYN533 14 47.6656 0.181162 0.036891 JYN414 6 45.8782 0.180841 0.037004 JYN421 6 48.7544 0.180808 0.036971 JYN397 10 44.9803 0.180819 0.037039 YLD904 21 28.2190 0.180318 0.036853 YLD824 11 28.7219 0.180544 0.037086 YLD808 11 31.0810 0.180407 0.037103 YLD912 24 31.6330 0.180307 0.036856 JYX362 17 43.1786 0.180983 0.037061 JYX369 17 43.2291 0.180955 0.037072 YLD919 24 31.6384 0.180394 0.036872 YLD815 11 31.0659 0.180434 0.037088 YLD831 11 28.6980 0.180544 0.037080 YLD911 21 28.1943 0.180311 0.036851 JYN404 10 44.9880 0.180895 0.037045 JYN428 6 48.7623 0.180855 0.037046 JYN419 6 45.9307 0.180967 0.037029

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 49 of66 TODI NF183597 Rev.a Page 7of18 JYN540 14 47.7202 0.181000 0.036878 JYN501 7 47.3498 0.180795 0.036899 JYN429 6 44.6650 0.180914 0.036991 JYN529 14 42.2695 0.180882 0.036876 YLD920 24 27.4228 0.180421 0.036866 YLD848 22 29.2999 0.180549 0.037109 JYX378 8 44.8288 0.180675 0.036927 YLD881 23 31.2113 0.180360 0.037077 JYX403 15 46.9403 0.180663 0.037160 YLD816 11 32.7881 0.180477 0.037103 YLD792 11 32.6462 0.180476 0.037100 YLD799 11 32.6869 0.180409 0.037105 YLD823 11 32.7571 0.180571 0.037092 JYX408 15 46.9685 0.180746 0.037182 YLD886 23 31.2930 0.180373 0.037080 JYX385 8 44.8688 0.180675 0.036957 YLD855 22 29.2650 0.180620 0.037115 YLD927 24 27.4035 0.180413 0.036868 JYN532 14 42.2820 0.181096 0.036895 JYN436 6 44.6691 0.180912 0.037004 JYN508 7 47.3109 0.180898 0.036878 JYN534 14 47.6497 0.181186 0.036883 JYN430 6 44.4073 0.180948 0.037021 JYX386 8 40.1257 0.180689 0.036950 YLD864 12 28.3874 0.180331 0.037081 YLD896 21 30.6601 0.180305 0.036862 YLD832 22 31.8674 0.180541 0.037099 YLD856 12 31.5925 0.180333 0.037083 YLL431 26 16.8696 0.180710 0.034588 YLL499 27 17.8470 0.180610 0.034378 YLL507 27 17.9508 0.180526 0.034361 YLL415 28 17.0129 0.180802 0.034558 YLL422 28 17.0061 0.180803 0.034594 YLLS14 27 17.9331 0.180491 0.034370 YLL506 27 17.8062 0.180729 0.034359 YLL438 26 16.8367 0.180738 0.034586 YLD863 12 31.6397 0.180358 0.037075 YLD839 22 31.8582 0.180528 0.037116 YLD903 21 30.6213 0.180325 0.036856 YLD871 12 28.3465 0.180335 0.037092 JYX393 8 40.1549 0.180567 0.036945 JYN435 6 44.6145 0.180910 0.037006 JYN539 14 47.7421 0.180974 0.036871 JYN413 6 45.9948 0.180756 0.037000

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 50 of66 TODI NF183597 Rev.a Page 8of18 JYN502 7 44.9950 0.180802 0.036895 YLD865 12 28.3737 0.180349 0.037085 JYX338 17 41.8157 0.181108 0.037098 YLD800 11 32.7274 0.180516 0.037084 JYX298 20 45.6360 0.181269 0.037053 YLL491 27 17.0019 0.180551 0.034387 JYX306 20 44.1676 0.181211 0.037062 YLL439 26 18.5264 0.180697 0.034572 JYX426 9 44.7833 0.180649 0.037184 JYX346 17 44.4934 0.181069 0.037058 JYX353 17 44.5266 0.180972 0.037066 JYX433 9 44.7559 0.180754 0.037186 YLL446 26 18.4791 0.180800 0.034561 JYX313 20 44.1772 0.181120 0.037089 YLL498 27 16.9705 0.180516 0.034372 JYX305 20 45.6561 0.181209 0.037069 YLD807 11 32.7196 0.180492 0.037087 JYX345 17 41.8993 0.180865 0.037066 YLD870 12 28.3263 0.180307 0.037088 JYN507 7 45.0657 0.180806 0.036880 JYN420 6 45.9565 0.180962 0.037014 JYN422 6 48.6226 0.180838 0.036993 YLD921 24 27.4097 0.180460 0.036868 YLD897 21 30.6819 0.180310 0.036861 YLD801 11 32.7223 0.180507 0.037085 YLL479 27 17.0117 0.180544 0.034372 YLL483 27 17.7602 0.180552 0.034368 YLD840 22 34.4626 0.180564 0.037114 YLL555 25 18.8889 0.180792 0.036976 JYX290 20 43.2128 0.181331 0.037106 YLL539 29 18.1641 0.180677 0.036984 YLD888 21 34.7157 0.180372 0.036860 YLD895 21 34.7338 0.180292 0.036853 YLL546 29 18.0942 0.180766 0.036963 JYX297 20 43.2096 0.181285 0.037071 YLL562 25 18.8547 0.180759 0.036995 YLD847 22 34.4445 0.180537 0.037117 YLL490 27 17.7204 0.180425 0.034404 YLL482 27 16.9472 0.180531 0.034374 YLD806 11 32.7282 0.180412 0.037103 YLD902 21 30.6202 0.180246 0.036860 YLD926 24 27.3851 0.180371 0.036867 JYN427 6 48.7491 0.180854 0.037044 JYN438 6 46.7672 0.180935 0.037015

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 51of66 TOOi NF183597 Rev.a Page 9of18 JYN398 10 44.8150 0.180889 0.037028 YLD849 22 29.3201 0.180606 0.037108 YLD833 22 31.6552 0.180518 0.037099 JYX299 20 45.6437 0.181246 0.037045 YLL484 27 17.7907 0.180577 0.034372 JYX419 15 48.2107 0.180746 0.037178 YLL423 26 18.6980 0.180753 0.034604 JYX434 9 43.2434 0.180742 0.037213 YLL531 29 18.1953 0.180699 0.036989 JYX394 8 42.7113 0.180557 0.036936 YLL515 27 18.4323 0.180536 0.034359 YLL522 27 18.4274 0.180438 0.034361 JYX401 8 42.7385 0.180634 0.036955 YLL538 29 18.1391 0.180677 0.036960 JYX441 9 43.2669 0.180616 0.037193 YLL430 26 18.6839 0.180659 0.034566 JYX424 15 48.2397 0.180634 0.037186 YLL489 27 17.7201 0.180444 0.034403 JYX304 20 45.6197 0.181183 0.037072 YLD838 22 31.8546 0.180477 0.037107 YLD854 22 29.2622 0.180618 0.037121 JYN403 10 44.9218 0.180869 0.037058 JYN443 6 47.1285 0.180906 0.036992 JYN462 13 46.8231 0.180805 0.037003 JYN469 13 45.7639 0.180774 0.036986 YLD905 21 28.2960 0.180282 0.036846 JYX379 8 44.7244 0.180721 0.036964 YLD857 12 31.5714 0.180313 0.037083 YLL492 27 17.0837 0.180564 0.034390 YLD841 22 34.3358 0.180563 0.037118 YLL424 26 18.7500 0.180762 0.034604 JYX354 17 42.4193 0.180987 0.037075 YLL523 29 17.1289 0.180726 0.036985 JYX410 15 45.3287 0.180792 0.037177 YLL455 26 18.4172 0.180728 0.034558 JYX314 20 46.8374 0.180960 0.037070 JYX321 20 46.8404 0.180927 0.037078 YLL462 26 18.3917 0.180710 0.034554 JYX417 15 45.3668 0.180656 0.037160 YLL530 29 17.2251 0.180674 0.036995 JYX361 17 42.4970 0.180940 0.037069 YLL429 26 18.6871 0.180687 0.034572 YLD846 22 34.4469 0.180528 0.037123 YLL497 27 16.9617 0.180648 0.034371

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 52 of66 TOOi NF183597 Rev.a Page 10of18 YLD862 12 31.6431 0.180319 0.037071 JYX384 8 44.8613 0.180668 0.036974 YLD910 21 28.1812 0.180339 0.036845 JYN476 13 46.0016 0.180996 0.036985 JYN467 13 46.8525 0.180784 0.036988 JYN509 7 45.8381 0.180834 0.036886 JYX323 17 34.5627 0.181008 0.037085 YLD825 11 28.7401 0.180503 0.037088 YLD880 23 31.3415 0.180345 0.037076 YLL432 26 16.9735 0.180626 0.034585 JYX307 20 44.0520 0.181211 0.037057 YLL556 25 19.0264 0.180757 0.036966 JYX435 9 42.8704 0.180732 0.037200 YLL524 29 17.1724 0.180727 0.036984 JYX339 17 44.0875 0.180968 0.037070 YLL447 26 18.4052 0.180799 0.034578 JYX371 8 48.0557 0.180648 0.036922 YLL547 29 17.7631 0.180717 0.036968 YLL554 29 17.7460 0.180784 0.036964 JYX376 8 48.1056 0.180609 0.036942 YLL454 26 18.3937 0.180723 0.034578 JYX344 17 44.5069 0.180964 0.037083 YLLS29 29 17.2271 0.180733 0.036992 JYX440 9 43.2925 0.180499 0.037174 YLL561 25 18.8723 0.180753 0.036973 JYX312 20 44.1475 0.181152 0.037066 YLL437 26 16.8377 0.180739 0.034582 YLD887 23 31.2919 0.180362 0.037081 YLD830 11 28.6645 0.180542 0.037104 JYX328 17 35.2568 0.181036 0.037069 JYN516 7 45.8050 0.180858 0.036857 JYN454 6 47.0448 0.180882 0.036991 YLD929 24 28.0211 0.180444 0.036863 YLD809 11 31.0860 0.180415 0.037107 JYX402 15 47.0036 0.180705 0.037185 YLLSOO 27 17.9618 0.180560 0.034370 YLL440 26 18.6669 0.180683 0.034574 JYX291 20 42.4912 0.181339 0.037101 YLL532 29 18.3131 0.180738 0.036981 JYX411 15 45.3085 0.180718 0.037179 YLL448 26 18.4315 0.180792 0.034587 JYX387 8 46.4990 0.180674 0.036947 YLL463 26 18.7416 0.180821 0.034582 JYX331 17 47.1711 0.181025 0.037069

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 53 of66 TOOi NF183597 Rev.a Page 11of18 JYX336 17 47.2424 0.180949 0.037064 YLL470 26 18.7059 0.180779 0.034580 JYX392 8 46.6144 0.180578 0.036949 YLL453 26 18.4077 0.180657 0.034578 JYX416 15 45.3017 0.180679 0.037195 YLL537 29 18.1883 0.180713 0.036968 JYX296 20 43.2442 0.181311 0.037095 YLL445 26 18.5003 0.180737 0.034573 YLL505 27 17.8178 0.180638 0.034357 JYX409 15 46.9826 0.180703 0.037185 YLD814 11 31.0527 0.180490 0.037082 YLD934 24 27.9165 0.180399 0.036848 JYN459 6 47.0484 0.180923 0.036991 JYN382 10 46.9554 0.180962 0.037068 YLD937 24 27.5554 0.180422 0.036869 YLD913 24 31.5841 0.180291 0.036860 YLD817 11 32.8022 0.180478 0.037084 YLL508 27 18.0691 0.180422 0.034351 JYX427 9 44.7431 0.180643 0.037156 YLL540 29 18.2964 0.180649 0.036988 JYX395 8 42.6552 0.180591 0.036923 YLL456 26 18.4910 0.180643 0.034560 JYX370 8 48.0884 0.180629 0.036913 YLL464 26 18.7501 0.180867 0.034577 JYX355 17 43.3861 0.181006 0.037067 YLL471 26 18.7088 0.180769 0.034560 YLL478 26 18.6844 0.180825 0.034607 JYX360 17 43.7634 0.180909 0.037068 YLL469 26 18.7096 0.180749 0.034575 JYX377 8 48.0993 0.180655 0.036959 YLL461 26 18.4082 0.180708 0.034558 JYX400 8 42.7886 0.180687 0.036956 YLL545 29 18.1485 0.180701 0.036973 JYX432 9 44.7015 0.180798 0.037184 YLL513 27 17.9274 0.180527 0.034363 YLD822 11 32.7394 0.180595 0.037097 YLD918 24 31.6334 0.180379 0.036859 YLD942 24 27.4512 0.180423 0.036860 JYN387 10 47.5847 0.180846 0.037057 JYN445 6 48.3269 0.180967 0.037031 YLD873 12 28.2644 0.180264 0.037090 JYX363 17 42.7492 0.181054 0.037051 YLD793 11 32.4134 0.180525 0.037097 YLL416 28 17.1023 0.180812 0.034562

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 54 of66 TODI NF183597 Rev.a Page 12of18 JYX347 17 44.3304 0.181120 0.037031 YLD889 21 34.7511 0.180342 0.036858 YLL516 27 18.5141 0.180549 0.034369 JYX315 20 46.8702 0.180989 0.037079 YLL548 29 17.7942 0.180808 0.036948 JYX330 17 47.2091 0.180996 0.037083 YLL472 26 18.7158 0.180790 0.034576 JYX418 15 48.0746 0.180694 0.037180 JYX425 15 48.0784 0.180665 0.037191 YLL477 26 18.6809 0.180790 0.034597 JYX337 17 47.2216 0.181034 0.037070 YLL553 29 17.7512 0.180746 0.036965 JYX320 20 46.8314 0.180990 0.037084 YLL521 27 18.4269 0.180489 0.034362 YLD894 21 34.7344 0.180304 0.036848 JYX352 17 44.5040 0.180959 0.037074 YLL421 28 16.9910 0.180755 0.034594 YLD798 11 32.6632 0.180446 0.037104 JYX368 17 43.1878 0.181014 0.037076 YLD878 12 28.1661 0.180345 0.037066 JYN452 6 48.3690 0.180966 0.036985 JYN448 6 48.3978 0.180843 0.037034 YLD874 12 28.2375 0.180317 0.037078 JYX364 17 43.2605 0.181011 0.037059 YLD794 11 32.7562 0.180468 0.037109 YLL417 28 17.0808 0.180749 0.034561 JYX348 17 44.5129 0.181164 0.037020 YLD890 21 34.8123 0.180336 0.036860 YLL517 27 18.4960 0.180505 0.034357 JYX316 20 46.8684 0.180989 0.037067 YLL549 29 17.7924 0.180742 0.036960 JYX333 17 47.2210 0.181061 0.037049 YLL473 26 18.7018 0.180810 0.034581 JYX421 15 48.0658 0.180603 0.037143 JYX422 15 48.0469 0.180635 0.037179 YLL476 26 18.6873 0.180755 0.034599 JYX334 17 47.0472 0.181031 0.037054 YLL552 29 17.7518 0.180725 0.036963 JYX319 20 46.8249 0.180969 0.037072 YLL520 27 18.4231 0.180463 0.034349 YLD893 21 34.6975 0.180340 0.036848 JYX351 17 44.4371 0.180959 0.037084 YLL420 28 16.9791 0.180733 0.034574 YLD797 11 32.6599 0.180435 0.037107

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 55 of66 TODI NF183597 Rev.a Page 13of18 JYX367 17 43.1568 0.181045 0.037069 YLD877 12 28.1457 0.180312 0.037075 JYN449 6 48.3112 0.180957 0.037037 JYN383 10 47.5977 0.180914 0.037077 YLD938 24 27.5089 0.180329 0.036871 YLD914 24 31.6962 0.180338 0.036861 YLD818 11 32.8089 0.180482 0.037089 YLLS09 27 18.0018 0.180406 0.034336 JYX428 9 44.7523 0.180712 0.037201 YLL541 29 18.2076 0.180639 0.037003 JYX396 8 42.8235 0.180594 0.036896 YLL457 26 18.4536 0.180680 0.034567 JYX373 8 48.1220 0.180583 0.036919 YLL465 26 18.7294 0.180829 0.034587 JYX356 17 43.7423 0.181017 0.037071 YLL474 26 18.6939 0.180777 0.034586 YLL475 26 18.6875 0.180800 0.034594 JYX359 17 43.7380 0.180934 0.037052 YLL468 26 18.6991 0.180806 0.034569 JYX374 8 48.0115 0.180621 0.036930 YLL460 26 18.3819 0.180741 0.034559 JYX399 8 42.7855 0.180630 0.036907 YLL544 29 18.1251 0.180696 0.036967 JYX431 9 44.6190 0.180738 0.037192 YLL512 27 17.8707 0.180410 0.034356 YLD821 11 32.6995 0.180610 0.037108 YLD917 24 31.6061 0.180427 0.036878 YLD941 24 27.4427 0.180426 0.036848 JYN386 10 47.5723 0.180909 0.037058 JYN455 6 47.0339 0.180919 0.036984 YLD930 24 27.9346 0.180489 0.036863 YLD810 11 31.0987 0.180436 0.037102 JYX405 15 46.9953 0.180721 0.037163 YLLSOl 27 17.8793 0.180466 0.034363 YLL441 26 18.5476 0.180714 0.034580 JYX292 20 43.2692 0.181318 0.037115 YLL533 29 18.2307 0.180659 0.036998 JYX412 15 45.3158 0.180765 0.037183 YLL449 26 18.4280 0.180772 0.034579 JYX388 8 46.6409 0.180589 0.036940 YLL466 26 18.7212 0.180838 0.034580 JYX332 17 47.2195 0.181029 0.037055 JYX335 17 47.0755 0.180952 0.037060 YLL467 26 18.7044 0.180788 0.034572

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 56 of66 TODI NF183597 Rev.a Page 14of18 JYX391 8 46.5964 0.180592 0.036922 YLL452 26 18.3581 0.180660 0.034589 JYX415 15 45.2568 0.180713 0.037184 YLL536 29 18.1471 0.180720 0.036970 JYX295 20 43.2028 0.181321 0.037104 YLL444 26 18.4263 0.180718 0.034560 YLLS04 27 17.7479 0.180588 0.034356 JYX406 15 46.8755 0.180684 0.037191 YLD813 11 31.0278 0.180493 0.037094 YLD933 24 27.8927 0.180406 0.036851 JYN458 6 47.0372 0.180886 0.037003 JYN512 7 45.7916 0.180877 0.036862 JYX324 17 35.2609 0.181041 0.037065 YLD826 11 28.6710 0.180531 0.037085 YLD883 23 31.3223 0.180373 0.037083 YLL433 26 16.8806 0.180627 0.034592 JYX308 20 44.1635 0.181117 0.037075 YLL557 25 18.9065 0.180757 0.036958 JYX436 9 43.3048 0.180640 0.037212 YLL525 29 17.2571 0.180737 0.036989 JYX340 17 44.5228 0.180962 0.037067 YLL450 26 18.4234 0.180752 0.034581 JYX372 8 48.1106 0.180625 0.036917 YLL550 29 17.7642 0.180748 0.036970 YLL551 29 17.7581 0.180747 0.036962 JYX375 8 48.0181 0.180657 0.036935 YLL451 26 18.3540 0.180732 0.034600 JYX343 17 44.3587 0.181029 0.037070 YLL528 29 17.0527 0.180758 0.036986 JYX439 9 43.2361 0.180529 0.037175 YLL560 25 18.8327 0.180763 0.036964 JYX311 20 44.0779 0.181150 0.037063 YLL436 26 16.8077 0.180734 0.034591 YLD884 23 31.2685 0.180417 0.037076 YLD829 11 28.6426 0.180575 0.037090 JYX327 17 35.2392 0.181012 0.037071 JYN513 7 45.7883 0.180879 0.036867 JYN463 13 46.8103 0.180816 0.037006 JYN472 13 45.9928 0.181008 0.036994 YLD906 21 28.2038 0.180346 0.036840 JYX380 8 44.8599 0.180709 0.036939 YLD858 12 31.6743 0.180343 0.037085 YLL493 27 16.9937 0.180595 0.034385 YLD842 22 34.4793 0.180567 0.037113

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 57 of66 TOOi NF183597 Rev.a Page 15of18 YLL425 26 18.7117 0.180753 0.034596 JYX357 17 42.4961 0.180966 0.037068 YLLS26 29 17.2488 0.180785 0.036974 JYX413 15 45.3457 0.180808 0.037170 YLL458 26 18.4295 0.180717 0.034573 JYX317 20 46.8162 0.180992 0.037070 JYX318 20 46.8097 0.180985 0.037091 YLL459 26 18.3910 0.180769 0.034568 JYX414 15 45.3003 0.180693 0.037183 YLLS27 29 17.0653 0.180669 0.036993 JYX358 17 42.3661 0.180895 0.037060 YLL428 26 18.6294 0.180682 0.034570 YLD845 22 34.4104 0.180518 0.037122 YLL496 27 16.9414 0.180641 0.034380 YLD861 12 31.6380 0.180315 0.037074 JYX383 8 44.8345 0.180717 0.036972 YLD909 21 28.1736 0.180342 0.036852 JYN473 13 45.9266 0.181026 0.036991 JYN466 13 46.7703 0.180825 0.036975 JYN439 6 47.0967 0.180960 0.037018 JYN399 10 44.9100 0.180857 0.037010 YLD850 22 29.2860 0.180587 0.037108 YLD834 22 31.8787 0.180523 0.037107 JYX300 20 45.6347 0.181261 0.037057 YLL485 27 17.7360 0.180559 0.034376 JYX420 15 48.2466 0.180704 0.037185 YLL426 26 18.7104 0.180755 0.034599 JYX437 9 43.2896 0.180639 0.037202 YLL534 29 18.2155 0.180700 0.036982 JYX397 8 42.7712 0.180673 0.036915 YLLS18 27 18.4564 0.180441 0.034353 YLL519 27 18.4400 0.180521 0.034352 JYX398 8 42.7589 0.180643 0.036921 YLLS35 29 18.1630 0.180689 0.036972 JYX438 9 43.2414 0.180577 0.037184 YLL427 26 18.6321 0.180701 0.034568 JYX423 15 48.1949 0.180695 0.037164 YLL488 27 17.7090 0.180394 0.034408 JYX303 20 45.5877 0.181226 0.037057 YLD837 22 31.8420 0.180497 0.037106 YLD853 22 29.2584 0.180556 0.037141 JYN402 10 44.9178 0.180862 0.037042 JYN442 6 47.0997 0.180881 0.036994 JYN423 6 48.7261 0.180866 0.037011

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 58 of66 TODI NF183597 Rev.O Page 16of18 YLD922 24 27.4071 0.180369 0.036875 YLD898 21 30.6300 0.180332 0.036860 YLD802 11 32.7473 0.180475 0.037084 YLL480 27 16.9752 0.180507 0.034375 YLL486 27 17.7359 0.180582 0.034382 YLD843 22 34.4743 0.180556 0.037109 YLL558 25 18.9016 0.180755 0.036966 JYX293 20 43.2147 0.181368 0.037108 YLL542 29 18.1733 0.180714 0.036992 YLD891 21 34.7475 0.180372 0.036850 YLD892 21 34.7241 0.180326 0.036849 YLL543 29 18.1533 0.180693 0.036984 JYX294 20 43.2177 0.181326 0.037108 YLL559 25 18.8529 0.180735 0.036978 YLD844 22 34.4300 0.180538 0.037110 YLL487 27 17.7127 0.180421 0.034398 YLL481 27 16.9480 0.180509 0.034369 YLD805 11 32.6698 0.180456 0.037097 YLD901 21 30.6160 0.180272 0.036848 YLD925 24 27.3493 0.180410 0.036864 JYN426 6 48.7193 0.180869 0.037023 JYN416 6 45.9160 0.180940 0.036989 JYN503 7 45.0245 0.180789 0.036892 YLD866 12 28.3478 0.180322 0.037082 JYX341 17 41.8646 0.181001 0.037059 YLD803 11 32.7547 0.180450 0.037089 JYX301 20 45.6097 0.181253 0.037065 YLL494 27 16.9922 0.180614 0.034378 JYX309 20 44.1749 0.181156 0.037071 YLL442 26 18.5303 0.180724 0.034580 JYX429 9 44.7575 0.180783 0.037199 JYX349 17 44.4822 0.181147 0.037037 JYX350 17 44.5041 0.181009 0.037043 JYX430 9 44.7614 0.180712 0.037188 YLL443 26 18.5050 0.180713 0.034579 JYX310 20 44.1491 0.181169 0.037075 YLL495 27 16.9514 0.180650 0.034379 JYX302 20 45.5589 0.181238 0.037040 YLD804 11 32.6742 0.180482 0.037089 JYX342 17 41.8461 0.181063 0.037080 YLD869 12 28.2802 0.180322 0.037089 JYN506 7 45.0556 0.180823 0.036877 JYN417 6 45.9172 0.180947 0.036982 JYN535 14 47.6703 0.181174 0.036881

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 59 of66 TOOi NF183597 Rev.a Page 17of18 JYN431 6 44.5828 0.180945 0.037012 JYX389 8 40.1566 0.180608 0.036949 YLD867 12 28.3649 0.180351 0.037084 YLD899 21 30.6292 0.180307 0.036852 YLD835 22 31.8857 0.180497 0.037111 YLD859 12 31.6737 0.180329 0.037080 YLL434 26 16.8676 0.180702 0.034601 YLL502 27 17.8634 0.180458 0.034369 YLLSlO 27 17.9597 0.180495 0.034359 YLL418 28 17.0242 0.180762 0.034563 YLL419 28 17.0262 0.180703 0.034568 YLLSll 27 17.9546 0.180438 0.034353 YLLS03 27 17.8463 0.180460 0.034349 YLL435 26 16.8405 0.180712 0.034594 YLD860 12 31.6518 0.180340 0.037085 YLD836 22 31.8715 0.180499 0.037096 YLD900 21 30.6251 0.180262 0.036852 YLD868 12 28.3021 0.180349 0.037082 JYX390 8 39.9972 0.180603 0.036909 JYN434 6 44.5889 0.180987 0.036996 JYN538 14 47.7226 0.180958 0.036875 JYN504 7 47.3102 0.180779 0.036899 JYN432 6 44.6346 0.180945 0.037014 JYN530 14 42.2638 0.180996 0.036877 YLD923 24 27.4076 0.180420 0.036869 YLD851 22 29.2723 0.180559 0.037121 JYX381 8 44.8622 0.180691 0.036968 YLD882 23 31.3245 0.180365 0.037075 JYX404 15 46.9712 0.180730 0.037173 YLD819 11 32.7664 0.180514 0.037088 YLD795 11 32.6858 0.180485 0.037105 YLD796 11 32.6929 0.180470 0.037108 YLD820 11 32.7636 0.180488 0.037097 JYX407 15 46.9106 0.180726 0.037188 YLD885 23 31.3014 0.180370 0.037078 JYX382 8 44.8372 0.180726 0.036972 YLD852 22 29.2669 0.180540 0.037136 YLD924 24 27.3770 0.180412 0.036874 JYN531 14 42.2964 0.181041 0.036893 JYN433 6 44.6610 0.180908 0.037005 JYN505 7 47.2923 0.180866 0.036894 JYN536 14 47.6667 0.181143 0.036882 JYN415 6 45.8819 0.180959 0.036975 JYN424 6 48.7400 0.180833 0.037010

Attachment 3 C-1302-226-E310-457 Rev. 2 Page 60 of66 TOOi NF183597 Rev.a Page 18of18 JYN400 10 44.9677 0.180851 0.037031 YLD907 21 28.2041 0.180342 0.036837 YLD827 11 28.6941 0.180541 0.037080 YLD811 11 31.0758 0.180423 0.037099 YLD915 24 31.6537 0.180397 0.036867 JYX365 17 43.1952 0.181066 0.037053 JYX366 17 43.1893 0.181021 0.037073 YLD916 24 31.6504 0.180346 0.036874 YLD812 11 31.0636 0.180428 0.037095 YLD828 11 28.6772 0.180623 0.037076 YLD908 21 28.1917 0.180347 0.036839 JYN401 10 44.9956 0.180849 0.037018 JYN425 6 48.7368 0.180848 0.037003 JYN418 6 45.9167 0.180939 0.036985 JYN537 14 47.6608 0.181130 0.036881 JYN440 6 47.0781 0.180946 0.037011 JYN471 13 46.0108 0.180827 0.036995 JYX325 17 35.2221 0.181070 0.037052 YLD931 24 27.9411 0.180382 0.036866 YLD939 24 27.4667 0.180338 0.036862 YLD875 12 28.1804 0.180317 0.037076 YLD876 12 28.1532 0.180328 0.037068 YLD940 24 27.4606 0.180331 0.036848 YLD932 24 27.9084 0.180444 0.036863 JYX326 17 35.2539 0.181016 0.037083 JYN474 13 45.9665 0.181023 0.036987 JYN441 6 47.0884 0.180976 0.036991 JYN464 13 46.7866 0.180853 0.036991 JYN526 14 47.2833 0.180833 0.036874 JYN456 6 46.9741 0.180960 0.037002 JYN384 10 47.5578 0.180923 0.037067 JYN447 6 48.3915 0.180952 0.037039 JYN450 6 48.4297 0.180908 0.037020 JYN385 10 47.5995 0.180850 0.037069 JYN457 6 46.9889 0.180900 0.037000 JYN527 14 47.1677 0.180921 0.036880 JYN465 13 46.7419 0.180897 0.036987

Attachment 4 C-1302-226-E310-457 Rev. 2 Page 61 of66 A SPECIAL W..MEFALS www.specialmetals.com INCONEL alloy X-750 (UNS N07750/W. Nr. 2.4669) Table 1 - Limiting Chemical Composition, %

is a prccipitation-hardcnable nickel-chromium alloy Nickel (plus Cobalt) ....................................................70.00 min.

used for its corrosion and oxidation resistance and high Chromium ...................................................................14.0-17.0 strength at temperatures to 1300°F. Although much of lron ..................................................................................5.0-9.0 the effect of precipitation hardening is lost with Titanlum .......................................................................2.25-2.75 increasing temperature over I 300° F, heat-treated Aluminum ....................................................................0.40-1.00 material has useful strength up to l 800°F. Alloy X-750 Niobium (plus Tantalum) ..............................................0.70-1.20 also has excellent properties down to cryogenic Manganese.................................................................1.00 max.

tem1peratures. Composition is shown in Table 1.

The economics of INCONEL alloy X-750 coupled Silicon .........................................................................0.50 max.

with its availability in all standard mill fonns has Sulfur...........................................................................0.01 max.

resulted in applications in a wide variety of industrial Copper........................................................................0.50 max.

fields. In gas turbines, it is used for rotor blades and Carbon ........................................................................0.08 max.

wheels, bolts. and other structural members. INCONEL Cobalt' .........................................................................1.00 max alloy X-750 is used extensively in rocket-engine thrust 'Determination not required for routine acceptance.

chambers. Airframe applications include thrust revcrsers and hot-air ducting systems. Large pressure vessels are fonned from INCONEL alloy X-750. Other Physical Constants and applications are heat-treating fixtures, fonning tools, extrusion dies, and test machine grips. For springs and Thennal Properties fasteners, INCONEL alloy X-750 is used from sub-zero Some physical constants and thennal properties of to 1200°F. lNCONEL alloy X-750 are given in Tables 2 and 3.

Depending on the application and the properties Values for thennal expansion, thennal conductivity, desired, various heat treatment~ are employed. For specific heat, and diffusivity are from Lucks and Deem service above 1100°F, particularly where loads are to be and electrical resistivity from tests conducted at Lehigh sustained for long times, optimum properties are University.

achieved by solution treating (2100°F) plus stabilization Effects of temperature on modulus of elasticity and treating (l 550°F) plus precipitation treating ( l 300°F). additional data on resistivity are in Tables 4 and 5. More For service below l 100°F, the alloy may be strengthened by precipitation treating after hot or cold modulus values can be found in the section on Mechanical Properties.

I working or by precipitation treating after equalizing or solution treating. A furnace-cooling treatment is also used to develop optimum properties for some Table 2 - Physical Constants ,,,

z Density, lb/in'.....................................................................0.299 applications.

g/cm' ................................*. ....................................8.28

• a The various heat treatments and the properties Melting Range, 0 F. ..........*.*.*....**......................*..***.... 2540-2600 developed are described under the section on

°C .................................................... 1393-1427 Mechanical Properties.

Curie Temperature, °F Property values in this bulletin - the results of As hot-rolled ..............................................-225 extensive testing - are typical of the alloy but, unless Triple-heat-treated (2100°F/2 hr, A.G.,+ 1500°F shown as limiting, should not be used as specification

/24 hr, A.G.,+ 1300°F/20 hr, A.C.) ............. -193 values.

Magnetic Permeability, 70°F, 200H As Hot-Rolled ......................................... 1.0020 Triple-heat-treated (2100°F/2 hr, A.C.,+1500°F

/24 hr, A.G.,+ 1300°F/20 hr, A.C.) ......... 1.0035 Emissivity, oxidized surface Publication No. SMC-067 600°F........................................................ 0.895 Copyright© Special Metals Corporation, 2004 (Sept 04) 2000°F. .....................................................0.925 Linear Contraction during Precipitation Treatment {1300°F/20 lNCONEL, MON EL and NI-SPAN-C are trademarks of hr), in/in the Special Metals Corporation group of companies. Hot-Rolled ............................................0.00044 20% Cold-Rolled .................................0.00052 Annealed ..............................................0.00026

Attachment 4 C-1302-226-E310-457 Rev. 2 Page 62 of66 INCONEL* alloy X-750 Table 3 - Thermal Properties*

Mean Linear Electrical Thermal Temperature, Expansion, ln.An.l"F x Specific Heat Diffusivity, Resistivity, Conductivity, "F 10,. from 70° F to Btullbl"F sq Mir ohm/clre Btulln.Jhr/sq ft/"F Temperature Shown mll/ft

-250 6.5 67 0.073 0.150 -

• 200 6.6 70 0.080 0.143 -

-100 6.7 74 0.090 0.135 -

70 - 83 0.103 0.132 731 200 7.0 89 0.109 I 0.133 739 400 7.2 98 0.116 0.140 746 600 7.5 109 0.120 0.148 761 800 7.8 120 0.125 0.158 771 1000 8.1 131 0.130 0.169 783 1200 143 0.137 0.173 786 1400 8.4 a.a 154 0.151 I 0.172 775 1600 9.3 164 0.171 0.164 761 1800 9.8 - - I - -

' Material heat-treated 2100' F/3 hr, A.C., + 1550"F/24 hr, A.C .. + 1300' F/20 hr, A.C.

Table 4 - Effect of Heat Treatment on Room-Temperature Table 5 - Modulus of Elasticity Resistivity of Hot-Rolled Bar Modulus of Elasticity, 103 ksl Resistivity, Temperature, Heat Treatment ohm/clrc mll/ft Tension Torsion "F

As hot-rolled 759 Static Dynamic Static 2000°F/1 hr, A.G. 763 ao* 31.0 31.0 11.0 21 OO"F/1 hr, A.G.+ 1500°F/24 hr, A.G.+ 500 28.7 29.1 10.2 1300°F/20 hr, A.G. 724 1000 25.0 26.7 9.0 1BOO"F/1 hr, A.G.+ 1350°F/8 hr,F.G. to 1150°F, 1200 23.0 25.5 8.1 hold at 1150°F for total time of 18 hr, A.G. 739 1350 21.0 24.4 -

1500 18.5 23.2 -

1600 - 22.1 -

1800 - 20.0 -

• Poisson's ratio = 0.29 Mechanical Properties INCONEL alloy X-750 may be given any one of a variety of heat treatments. Each develops special properties and puts the product form in the best condition for its intended application. In all conditions, alloy X-750 is resistant to oxidation up to 1800°F. fhe most often used heat treatmenl'i have been incorporated by the Society of Automotive Engineers in their AMS specifications* for various product forms. l11e heat treatments. specifications. and product forms are summarized in Table 6.

• AMS spcc1ticat1ons arc sub.ict.1 to revismn The onL>s referenced m thts pubhcatton V.1."rC current when 1t 1,1,us rc l~cd Publisher 1s the Society of Automoll\.C Engineers, Inc 2

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