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| number = ML14230A678
| number = ML14230A678
| issue date = 08/15/2014
| issue date = 08/15/2014
| title = Donald C. Cook, Units 1 and 2 - Response to a Request for Additional Information Regarding the License Amendment Request Regarding Containment Divider Barrier Seal
| title = Response to a Request for Additional Information Regarding the License Amendment Request Regarding Containment Divider Barrier Seal
| author name = Gebbie J P
| author name = Gebbie J
| author affiliation = American Electric Power, Indiana Michigan Power Co
| author affiliation = American Electric Power, Indiana Michigan Power Co
| addressee name =  
| addressee name =  
Line 15: Line 15:
| page count = 7
| page count = 7
| project = TAC:MF3052, TAC:MF3053
| project = TAC:MF3052, TAC:MF3053
| stage = RAI
| stage = Response to RAI
}}
}}


=Text=
=Text=
{{#Wiki_filter:INDIANA Indiana Michigan PowerMICHIGAN Cook Nuclear PlantPOWER0 One Cook PlaceA unit of American Electric Power IndianaMichigan PowercomAugust 15, 2014 AEP-NRC-2014-6810 CFR 50.90Docket Nos.: 50-31550-316U. S. Nuclear Regulatory CommissionATTN: Document Control DeskWashington, D. C. 20555-0001Donald C. Cook Nuclear Plant Units 1 and 2Response to a Request for Additional Information Regarding the License Amendment RequestRegarding Containment Divider Barrier SealReferences:1. Letter from J. P. Gebbie, Indiana Michigan Power Company (I&M), to U. S. Nuclear RegulatoryCommission (NRC), "Donald C. Cook Nuclear Plant Unit 1 and Unit 2, License AmendmentRequest Regarding Containment Divider Barrier Seal," AEP-NRC-2013-50, datedNovember6,2013, Agencywide Documents Access and Management System (ADAMS)Accession No. ML13312A006.2. Letter from T. J. Wengert, NRC, to L. J. Weber, I&M, "Donald C. Cook Nuclear Plant, Units 1and 2 -Request for Additional Information Concerning the Containment Divider Barrier SealLicense Amendment Request (TAC Nos. MF3052 and MF3053)," dated May 15, 2014, ADAMSAccession No. ML14127A470.3. Letter from J. P. Gebbie, I&M, to NRC, "Donald C. Cook Nuclear Plant Unit 1 and Unit 2,Response to a Request for Additional Information Regarding the License Amendment RequestRegarding Containment Divider Barrier Seal," AEP-NRC-2014-31, dated June 13, 2014,ADAMS Accession No. ML14167A374.4. Electronic Mail from M. L. Chawla, NRC, to H. L. Etheridge, I&M, "Request for AdditionalInformation -D. C. Cook Unit 1 and 2 -LAR -Containment Divider Barrier Seal -MF3052/MF3053," dated July 31, 2014.By Reference 1, Indiana Michigan Power Company (I&M), the licensee for Donald C. Cook NuclearPlant Units 1 and 2, submitted a request to amend the Technical Specifications (TS) to FacilityOperating Licenses DPR-58 and DPR-74. I&M proposes to change TS 3.6.13, Divider BarrierIntegrity, Surveillance Requirement 3.6.13.5 for the divider barrier seal inspection. By Reference 2,the Nuclear Regulatory Commission (NRC) transmitted a request for additional information (RAI)regarding the proposed amendment. By Reference 3, I&M responded to Reference 2. ByA gP U. S. Nuclear Regulatory Commission AEP-NRC-2014-68Page 2Reference 4, the NRC transmitted an additional RAI regarding the proposed amendment. This letterprovides I&M's response to Reference 4. Enclosure 1 to this letter provides an affirmationstatement. Enclosure 2 to this letter provides I&M's response to Reference 4.Copies of this letter and its enclosures are being transmitted to the Michigan Public ServiceCommission and Michigan Department of Environmental Quality, in accordance with therequirements of 10 CFR 50.91. There are no new regulatory commitments associated with thisresponse. Should you have any questions, please contact Mr. Michael K. Scarpello, RegulatoryAffairs Manager, at (269) 466-2649.Sincerely,Joel P. GebbieSite Vice PresidentTLC/kmhEnclosures:1. Affirmation2. Response to Request for Additional Information Regarding Containment Divider Barrier SealLicense Amendment Requestc: M. L. Chawla, NRC Washington, D.C.J. T. King, MPSCMDEQ -RMD/RPSNRC Resident InspectorC. D. Pederson, NRC Region IIIA. J. Williamson, AEP Ft. Wayne, w/o attachments
{{#Wiki_filter:INDIANA                                                                               Indiana Michigan Power MICHIGAN                                                                              Cook Nuclear Plant POWER0                                                                                  One Cook Place A unit of American Electric Power                                                       IndianaMichigan Powercom August 15, 2014                                                                   AEP-NRC-2014-68 10 CFR 50.90 Docket Nos.: 50-315 50-316 U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, D. C. 20555-0001 Donald C. Cook Nuclear Plant Units 1 and 2 Response to a Request for Additional Information Regarding the License Amendment Request Regarding Containment Divider Barrier Seal


==Enclosure==
==References:==
I to AEP-NRC-2014-68AFFIRMATIONI, Joel P. Gebbie, being duly sworn, state that I am Site Vice President of Indiana MichiganPower Company (I&M), that I am authorized to sign and file this request with the U. S. NuclearRegulatory Commission on behalf of I&M, and that the statements made and the matters setforth herein pertaining to I&M are true and correct to the best of my knowledge, information, andbelief.Indiana Michigan Power CompanyJoel P. GebbieSite Vice PresidentSWORN TO AND SUBSCRIBED BEFORE METHIS \S DAY OF 2014MC::omm iss otnres ub/ic-\ -ZMy Commission Expires --..-\NotaryPulicState of jt~acotnry Ot Berrien-(421my co Mmissiofl EcireS 0404 r1
: 1. Letter from J. P. Gebbie, Indiana Michigan Power Company (I&M), to U. S. Nuclear Regulatory Commission (NRC), "Donald C. Cook Nuclear Plant Unit 1 and Unit 2, License Amendment Request Regarding Containment Divider Barrier Seal," AEP-NRC-2013-50, dated November6,2013, Agencywide Documents Access and Management System (ADAMS)
Accession No. ML13312A006.
: 2. Letter from T. J. Wengert, NRC, to L. J. Weber, I&M, "Donald C. Cook Nuclear Plant, Units 1 and 2 - Request for Additional Information Concerning the Containment Divider Barrier Seal License Amendment Request (TAC Nos. MF3052 and MF3053)," dated May 15, 2014, ADAMS Accession No. ML14127A470.
: 3. Letter from J. P. Gebbie, I&M, to NRC, "Donald C. Cook Nuclear Plant Unit 1 and Unit 2, Response to a Request for Additional Information Regarding the License Amendment Request Regarding Containment Divider Barrier Seal," AEP-NRC-2014-31, dated June 13, 2014, ADAMS Accession No. ML14167A374.
: 4. Electronic Mail from M. L. Chawla, NRC, to H. L. Etheridge, I&M, "Request for Additional Information - D. C. Cook Unit 1 and 2 - LAR - Containment Divider Barrier Seal -
MF3052/MF3053," dated July 31, 2014.
By Reference 1, Indiana Michigan Power Company (I&M), the licensee for Donald C. Cook Nuclear Plant Units 1 and 2, submitted a request to amend the Technical Specifications (TS) to Facility Operating Licenses DPR-58 and DPR-74. I&M proposes to change TS 3.6.13, Divider Barrier Integrity, Surveillance Requirement 3.6.13.5 for the divider barrier seal inspection. By Reference 2, the Nuclear Regulatory Commission (NRC) transmitted a request for additional information (RAI) regarding the proposed amendment. By Reference 3, I&M responded to Reference 2. By AgP


==Enclosure==
U. S. Nuclear Regulatory Commission                                          AEP-NRC-2014-68 Page 2 Reference 4, the NRC transmitted an additional RAI regarding the proposed amendment. This letter provides I&M's response to Reference 4. Enclosure 1 to this letter provides an affirmation statement. Enclosure 2 to this letter provides I&M's response to Reference 4.
2 to AEP-NRC-2014-68RESPONSES TO REQUEST FOR ADDITIONAL INFORMATION REGARDINGCONTAINMENT DIVIDER BARRIER SEAL LICENSE AMENDMENT REQUESTBy letter dated November 6, 2013 (Agencywide Documents Access and Management System(ADAMS) Accession Number ML13312A006), Indiana Michigan Power Company (I&M), thelicensee for Donald C. Cook Nuclear Plant Unit 1 and Unit 2, submitted a request to amend theTechnical Specifications (TS) to Facility Operating Licenses DPR-58 and DPR-74. I&Mproposes to change TS 3.6.13, Divider Barrier Integrity, Surveillance Requirement 3.6.13.5 forthe divider barrier seal inspection. By letter dated June 13, 2014, I&M provided a response(ADAMS Accession Number ML14167A374) to the U. S. Nuclear Regulatory Commission(NRC) staff's request for additional information (RAI), dated May 15, 2014 (ADAMS AccessionNumber ML14127A470). While reviewing I&M's RAI response, specifically, to Containment andVentilations Systems Branch (SCVB) RAI-3, the NRC staff has additional questions.SCVB RAI-3 from NRC letter dated May 15, 2014Please provide the NRC approved methodology used to determine that the acceptance criteriafor the bypass area have been met.Response to SCVB RAI-3 from I&M's letter dated June 13, 2014In case deficient connections are discovered, then the resulting divider barrier bypass would bedetermined, using an accepted standard, the American Institute of Steel Construction (AISC)Manual of Steel Construction, (tables for beam diagrams and formulas), as referenced inUpdated Final Safety Analysis Report (UFSAR) Chapter 5, or using a simplified method that ismore conservative, to determine the deflections of the as found configurations due to apostulated blowdown, and these deflections would be used to quantify the bypass area. Thetotal bypass area for that unit is then compared against the Allowable Design Basis BypassArea of seven square feet, per UFSAR 5.3.5.15.4. The assumed Analysis Value is 35 squarefeet, per UFSAR 14.3.4.1.3.1.1.e.Additional RAI from NRC electronic mail dated July 31, 2014The NRC staff has the following questions regarding the above response provided by thelicensee:a) What is the "simplified method" and what standard is this based on?b) How will it be determined that this simplified method is more conservative than theAmerican Institute of Steel Construction (AISC) Manual of Steel Construction, asreferenced in SCVB RAI-3 response?Response to Additional RAI from NRC electronic mail dated July 31, 2014The simplified method is also based on the AISC standard. An example is provided below todemonstrate the conservative nature of a simplified method as it uses the area of two trianglesinstead of computing the integral of the actual curved deflection shape. A simplified methodwould be more conservative as it would use a model that produces a larger deflection and area.  
Copies of this letter and its enclosures are being transmitted to the Michigan Public Service Commission and Michigan Department of Environmental Quality, in accordance with the requirements of 10 CFR 50.91. There are no new regulatory commitments associated with this response. Should you have any questions, please contact Mr. Michael K. Scarpello, Regulatory Affairs Manager, at (269) 466-2649.
Sincerely, Joel P. Gebbie Site Vice President TLC/kmh


==Enclosure==
==Enclosures:==
2 to AEP NRC 2014-68Page 2In case deficient connections are discovered, then a structural analysis would be performed, viaAISC Manual of Steel Construction (tables for beam diagrams and formulas), or using a moreconservative method also based on the AISC standard, to determine the deflections of thedeficient configurations due to a postulated blowdown, and these deflections would be used tocompute the additional bypass area. The total bypass area for the affected unit is then updatedand compared against the Allowable Design Basis Bypass Area of seven square feet, perUFSAR 5.3.5.15.4. The Minimum Analysis Value is 35 square feet, perUFSAR 14.3.4.1.3.1.1.e.First example: For a model using a fixed beam, an exact structural analysis using an AISCformula is shown as follows:15. BEAM FIXED AT BOTH ENDS-UNIFORMLY DISTRIBUTED-LOADSEquivalent Tabular Load ....R=V ..........VxM max.(atends)........M1  (atcenter).........Amax. (at center).......AX ...........2wi3= 12w1224=-ff- (61x -12-fiXZ)384E1W24E(ref. AISC Manual of Steel Construction 7th edition)As shown in the diagram #15 above, the deflection along any point of the beam isA, = wx2(L -x)2 / 24EIWhere:w = distributed load along the beamx = variable distance from one of the beam supportsL = total length of the beamE = modulus of elasticity of the beam/ = moment of inertia of the beam
: 1. Affirmation
: 2. Response to Request for Additional Information Regarding Containment Divider Barrier Seal License Amendment Request c:      M. L. Chawla, NRC Washington, D.C.
J. T. King, MPSC MDEQ - RMD/RPS NRC Resident Inspector C. D. Pederson, NRC Region III A. J. Williamson, AEP Ft. Wayne, w/o attachments


==Enclosure==
Enclosure I to AEP-NRC-2014-68 AFFIRMATION I, Joel P. Gebbie, being duly sworn, state that I am Site Vice President of Indiana Michigan Power Company (I&M), that I am authorized to sign and file this request with the U. S. Nuclear Regulatory Commission on behalf of I&M, and that the statements made and the matters set forth herein pertaining to I&M are true and correct to the best of my knowledge, information, and belief.
2 to AEP NRC 2014-68 Page 3The beam's deflected shape and assumed bypass area are shown in the following sketch:LjJi-7wL (load)Deflected shapeand assumedbypass area A1To determine the assumed area of the divider barrier bypass from diagram #15, this requirescomputing the integral of this formula with respect to "x," and this is shown asA, = f [(wL2x2 -2wLx3 + wx4) / 24EI] = (wL2x3 / 72E0) -(wLx4 / 48EI) + (wx5 / 120EI)Consequently, for the length of the beam from x = 0 to L, the total bypass would be computedas A, = wL5 / 720EISecond example: Alternately, a simplified, conservative structural analysis using an AISCformula for two cantilever beams (end-to-end) is shown as follows:19. CANTILEVER BEAM-UNIFORMLYDISTRIBUTED LOADEquivalent Tabular LoaR=VVx .........M max.(at fixed end)Mx .. .......Amax. (at free end)l .4wlwlZ2W2w14.. 8E!AX ..........W X -43 +34= 4E1 x 433l
Indiana Michigan Power Company Joel P. Gebbie Site Vice President SWORN TO AND SUBSCRIBED BEFORE ME THIS    \S    DAY OF                        2014                NotaryPulicState of jt~a cotnry Ot Berrien-(421 my co Mmissiofl EcireS 0404 r1 MC::omm iss        otnres ub/ic-\ -Z My Commission Expires *,          -   -..-   \


==Enclosure==
Enclosure 2 to AEP-NRC-2014-68 RESPONSES TO REQUEST FOR ADDITIONAL INFORMATION REGARDING CONTAINMENT DIVIDER BARRIER SEAL LICENSE AMENDMENT REQUEST By letter dated November 6, 2013 (Agencywide Documents Access and Management System (ADAMS) Accession Number ML13312A006), Indiana Michigan Power Company (I&M), the licensee for Donald C. Cook Nuclear Plant Unit 1 and Unit 2, submitted a request to amend the Technical Specifications (TS) to Facility Operating Licenses DPR-58 and DPR-74. I&M proposes to change TS 3.6.13, Divider Barrier Integrity, Surveillance Requirement 3.6.13.5 for the divider barrier seal inspection. By letter dated June 13, 2014, I&M provided a response (ADAMS Accession Number ML14167A374) to the U. S. Nuclear Regulatory Commission (NRC) staff's request for additional information (RAI), dated May 15, 2014 (ADAMS Accession Number ML14127A470). While reviewing I&M's RAI response, specifically, to Containment and Ventilations Systems Branch (SCVB) RAI-3, the NRC staff has additional questions.
2 to AEP NRC 2014-68Page 4(ref. AISC Manual of Steel Construction 7th edition)As shown in the diagram #19 above, the maximum deflection is Amax = wL4 / 8ElThe beam's deflected shape and assumed bypass area are shown in the following sketch:LU2 L/2wL/2 (load) wL/2 (load)A maxDeflectedAssumed bypassarea A2To determine the assumed area of the divider barrier bypass from diagram #19, the area of twotriangles along a beam with length L would be conservatively computed.In this case, the maximum deflection would be located at point L12, (midpoint of the beam), andthe total bypass would be computed as A2 = (2) [w(LU2)4 / 8EI] (L/2) (0.5) = wL5 / 256EITherefore, the assumed bypass area derived by using the simplified method based upondiagram #19 (two cantilever beams) would be approximately three times larger than the bypassarea calculated by the exact structural analysis method based upon diagram #15 (fixed beam)and thus would be more conservative.  
SCVB RAI-3 from NRC letter dated May 15, 2014 Please provide the NRC approved methodology used to determine that the acceptance criteria for the bypass area have been met.
}}
Response to SCVB RAI-3 from I&M's letter dated June 13, 2014 In case deficient connections are discovered, then the resulting divider barrier bypass would be determined, using an accepted standard, the American Institute of Steel Construction (AISC)
Manual of Steel Construction, (tables for beam diagrams and formulas), as referenced in Updated Final Safety Analysis Report (UFSAR) Chapter 5, or using a simplified method that is more conservative, to determine the deflections of the as found configurations due to a postulated blowdown, and these deflections would be used to quantify the bypass area. The total bypass area for that unit is then compared against the Allowable Design Basis Bypass Area of seven square feet, per UFSAR 5.3.5.15.4. The assumed Analysis Value is 35 square feet, per UFSAR 14.3.4.1.3.1.1.e.
Additional RAI from NRC electronic mail dated July 31, 2014 The NRC staff has the following questions regardingthe above response provided by the licensee:
a) What is the "simplifiedmethod" and what standardis this based on?
b) How will it be determined that this simplified method is more conservative than the American Institute of Steel Construction (AISC) Manual of Steel Construction, as referenced in SCVB RAI-3 response?
Response to Additional RAI from NRC electronic mail dated July 31, 2014 The simplified method is also based on the AISC standard. An example is provided below to demonstrate the conservative nature of a simplified method as it uses the area of two triangles instead of computing the integral of the actual curved deflection shape. A simplified method would be more conservative as it would use a model that produces a larger deflection and area.
to AEP NRC 2014-68                                                                    Page 2 In case deficient connections are discovered, then a structural analysis would be performed, via AISC Manual of Steel Construction (tables for beam diagrams and formulas), or using a more conservative method also based on the AISC standard, to determine the deflections of the deficient configurations due to a postulated blowdown, and these deflections would be used to compute the additional bypass area. The total bypass area for the affected unit is then updated and compared against the Allowable Design Basis Bypass Area of seven square feet, per UFSAR 5.3.5.15.4.          The Minimum Analysis Value is 35 square feet, per UFSAR 14.3.4.1.3.1.1.e.
First example: For a model using a fixed beam, an exact structural analysis using an AISC formula is shown as follows:
: 15. BEAM FIXED AT BOTH ENDS-UNIFORMLY DISTRIBUTED
                                      -      LOADS 2wi Equivalent Tabular Load      ....
3 R=V      . . . .      . . .      . .  .
Vx M max.(atends)........                    =  12 2
w1 M1      (atcenter).........                  24
                                                                            =-ff- (61x fiXZ)
Amax. (at center).......
384E1 AX    .  .    .  .  .  .  . .    . . . W24E (ref. AISC Manual of Steel Construction    7 th edition)
As shown in the diagram #15 above, the deflection along any point of the beam is A, = wx 2(L - x) 2 / 24EI Where:
w = distributed load along the beam x = variable distance from one of the beam supports L = total length of the beam E = modulus of elasticity of the beam
/ = moment of inertia of the beam to AEP NRC 2014-68                                                                  Page 3 The beam's deflected shape and assumed bypass area are shown in the following sketch:
L                          j    Ji
                                                      -7 wL (load)
Deflected shape and assumed bypass area A1 To determine the assumed area of the divider barrier bypass from diagram #15, this requires computing the integral of this formula with respect to "x," and this is shown as A, = f [(wL 2x 2 - 2wLx3 + wx4) / 24EI] = (wL2x 3 / 72E0) - (wLx 4 / 48EI) + (wx 5 / 120EI)
Consequently, for the length of the beam from x = 0 to L, the total bypass would be computed as A, = wL5 / 720EI Second example: Alternately, a simplified, conservative structural analysis using an AISC formula for two cantilever beams (end-to-end) is shown as follows:
: 19. CANTILEVER BEAM-UNIFORMLY DISTRIBUTED LOAD Equivalent Tabular Loa l                                            .4wl R=V Vx    .........
wlZ M max.(at fixed end) 2 Mx ..      .......                        W2 w14 Amax. (at free end) 8E!                      ..
AX    .    .    .    .    . . . . . .      W    X -43  +34 3
                                                                            = 4E1 x    4    3l
 
Enclosure 2 to AEP NRC 2014-68                                                            Page 4 (ref. AISC Manual of Steel Construction 7 th edition)
As shown in the diagram #19 above, the maximum deflection is Amax = wL4 / 8El The beam's deflected shape and assumed bypass area are shown in the following sketch:
LU2               L/2 wL/2 (load)       wL/2 (load)
A max Deflected Assumed bypass area A 2 To determine the assumed area of the divider barrier bypass from diagram #19, the area of two triangles along a beam with length L would be conservatively computed.
In this case, the maximum deflection would be located at point L12, (midpoint of the beam), and the total bypass would be computed as A 2 = (2) [w(LU2) 4 / 8EI] (L/2) (0.5) = wL 5 / 256EI Therefore, the assumed bypass area derived by using the simplified method based upon diagram #19 (two cantilever beams) would be approximately three times larger than the bypass area calculated by the exact structural analysis method based upon diagram #15 (fixed beam) and thus would be more conservative.}}

Latest revision as of 02:17, 4 November 2019

Response to a Request for Additional Information Regarding the License Amendment Request Regarding Containment Divider Barrier Seal
ML14230A678
Person / Time
Site: Cook  American Electric Power icon.png
Issue date: 08/15/2014
From: Gebbie J
American Electric Power, Indiana Michigan Power Co
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
TAC MF3052, TAC MF3053 AEP-NRC-2014-68
Download: ML14230A678 (7)
v  d  e


Text

INDIANA Indiana Michigan Power MICHIGAN Cook Nuclear Plant POWER0 One Cook Place A unit of American Electric Power IndianaMichigan Powercom August 15, 2014 AEP-NRC-2014-68 10 CFR 50.90 Docket Nos.: 50-315 50-316 U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, D. C. 20555-0001 Donald C. Cook Nuclear Plant Units 1 and 2 Response to a Request for Additional Information Regarding the License Amendment Request Regarding Containment Divider Barrier Seal

References:

1. Letter from J. P. Gebbie, Indiana Michigan Power Company (I&M), to U. S. Nuclear Regulatory Commission (NRC), "Donald C. Cook Nuclear Plant Unit 1 and Unit 2, License Amendment Request Regarding Containment Divider Barrier Seal," AEP-NRC-2013-50, dated November6,2013, Agencywide Documents Access and Management System (ADAMS)

Accession No. ML13312A006.

2. Letter from T. J. Wengert, NRC, to L. J. Weber, I&M, "Donald C. Cook Nuclear Plant, Units 1 and 2 - Request for Additional Information Concerning the Containment Divider Barrier Seal License Amendment Request (TAC Nos. MF3052 and MF3053)," dated May 15, 2014, ADAMS Accession No. ML14127A470.
3. Letter from J. P. Gebbie, I&M, to NRC, "Donald C. Cook Nuclear Plant Unit 1 and Unit 2, Response to a Request for Additional Information Regarding the License Amendment Request Regarding Containment Divider Barrier Seal," AEP-NRC-2014-31, dated June 13, 2014, ADAMS Accession No. ML14167A374.
4. Electronic Mail from M. L. Chawla, NRC, to H. L. Etheridge, I&M, "Request for Additional Information - D. C. Cook Unit 1 and 2 - LAR - Containment Divider Barrier Seal -

MF3052/MF3053," dated July 31, 2014.

By Reference 1, Indiana Michigan Power Company (I&M), the licensee for Donald C. Cook Nuclear Plant Units 1 and 2, submitted a request to amend the Technical Specifications (TS) to Facility Operating Licenses DPR-58 and DPR-74. I&M proposes to change TS 3.6.13, Divider Barrier Integrity, Surveillance Requirement 3.6.13.5 for the divider barrier seal inspection. By Reference 2, the Nuclear Regulatory Commission (NRC) transmitted a request for additional information (RAI) regarding the proposed amendment. By Reference 3, I&M responded to Reference 2. By AgP

U. S. Nuclear Regulatory Commission AEP-NRC-2014-68 Page 2 Reference 4, the NRC transmitted an additional RAI regarding the proposed amendment. This letter provides I&M's response to Reference 4. Enclosure 1 to this letter provides an affirmation statement. Enclosure 2 to this letter provides I&M's response to Reference 4.

Copies of this letter and its enclosures are being transmitted to the Michigan Public Service Commission and Michigan Department of Environmental Quality, in accordance with the requirements of 10 CFR 50.91. There are no new regulatory commitments associated with this response. Should you have any questions, please contact Mr. Michael K. Scarpello, Regulatory Affairs Manager, at (269) 466-2649.

Sincerely, Joel P. Gebbie Site Vice President TLC/kmh

Enclosures:

1. Affirmation
2. Response to Request for Additional Information Regarding Containment Divider Barrier Seal License Amendment Request c: M. L. Chawla, NRC Washington, D.C.

J. T. King, MPSC MDEQ - RMD/RPS NRC Resident Inspector C. D. Pederson, NRC Region III A. J. Williamson, AEP Ft. Wayne, w/o attachments

Enclosure I to AEP-NRC-2014-68 AFFIRMATION I, Joel P. Gebbie, being duly sworn, state that I am Site Vice President of Indiana Michigan Power Company (I&M), that I am authorized to sign and file this request with the U. S. Nuclear Regulatory Commission on behalf of I&M, and that the statements made and the matters set forth herein pertaining to I&M are true and correct to the best of my knowledge, information, and belief.

Indiana Michigan Power Company Joel P. Gebbie Site Vice President SWORN TO AND SUBSCRIBED BEFORE ME THIS \S DAY OF 2014 NotaryPulicState of jt~a cotnry Ot Berrien-(421 my co Mmissiofl EcireS 0404 r1 MC::omm iss otnres ub/ic-\ -Z My Commission Expires *, - -..- \

Enclosure 2 to AEP-NRC-2014-68 RESPONSES TO REQUEST FOR ADDITIONAL INFORMATION REGARDING CONTAINMENT DIVIDER BARRIER SEAL LICENSE AMENDMENT REQUEST By letter dated November 6, 2013 (Agencywide Documents Access and Management System (ADAMS) Accession Number ML13312A006), Indiana Michigan Power Company (I&M), the licensee for Donald C. Cook Nuclear Plant Unit 1 and Unit 2, submitted a request to amend the Technical Specifications (TS) to Facility Operating Licenses DPR-58 and DPR-74. I&M proposes to change TS 3.6.13, Divider Barrier Integrity, Surveillance Requirement 3.6.13.5 for the divider barrier seal inspection. By letter dated June 13, 2014, I&M provided a response (ADAMS Accession Number ML14167A374) to the U. S. Nuclear Regulatory Commission (NRC) staff's request for additional information (RAI), dated May 15, 2014 (ADAMS Accession Number ML14127A470). While reviewing I&M's RAI response, specifically, to Containment and Ventilations Systems Branch (SCVB) RAI-3, the NRC staff has additional questions.

SCVB RAI-3 from NRC letter dated May 15, 2014 Please provide the NRC approved methodology used to determine that the acceptance criteria for the bypass area have been met.

Response to SCVB RAI-3 from I&M's letter dated June 13, 2014 In case deficient connections are discovered, then the resulting divider barrier bypass would be determined, using an accepted standard, the American Institute of Steel Construction (AISC)

Manual of Steel Construction, (tables for beam diagrams and formulas), as referenced in Updated Final Safety Analysis Report (UFSAR) Chapter 5, or using a simplified method that is more conservative, to determine the deflections of the as found configurations due to a postulated blowdown, and these deflections would be used to quantify the bypass area. The total bypass area for that unit is then compared against the Allowable Design Basis Bypass Area of seven square feet, per UFSAR 5.3.5.15.4. The assumed Analysis Value is 35 square feet, per UFSAR 14.3.4.1.3.1.1.e.

Additional RAI from NRC electronic mail dated July 31, 2014 The NRC staff has the following questions regardingthe above response provided by the licensee:

a) What is the "simplifiedmethod" and what standardis this based on?

b) How will it be determined that this simplified method is more conservative than the American Institute of Steel Construction (AISC) Manual of Steel Construction, as referenced in SCVB RAI-3 response?

Response to Additional RAI from NRC electronic mail dated July 31, 2014 The simplified method is also based on the AISC standard. An example is provided below to demonstrate the conservative nature of a simplified method as it uses the area of two triangles instead of computing the integral of the actual curved deflection shape. A simplified method would be more conservative as it would use a model that produces a larger deflection and area.

to AEP NRC 2014-68 Page 2 In case deficient connections are discovered, then a structural analysis would be performed, via AISC Manual of Steel Construction (tables for beam diagrams and formulas), or using a more conservative method also based on the AISC standard, to determine the deflections of the deficient configurations due to a postulated blowdown, and these deflections would be used to compute the additional bypass area. The total bypass area for the affected unit is then updated and compared against the Allowable Design Basis Bypass Area of seven square feet, per UFSAR 5.3.5.15.4. The Minimum Analysis Value is 35 square feet, per UFSAR 14.3.4.1.3.1.1.e.

First example: For a model using a fixed beam, an exact structural analysis using an AISC formula is shown as follows:

15. BEAM FIXED AT BOTH ENDS-UNIFORMLY DISTRIBUTED

- LOADS 2wi Equivalent Tabular Load ....

3 R=V . . . . . . . . . .

Vx M max.(atends)........ = 12 2

w1 M1 (atcenter)......... 24

=-ff- (61x fiXZ)

Amax. (at center).......

384E1 AX . . . . . . . . . . . W24E (ref. AISC Manual of Steel Construction 7 th edition)

As shown in the diagram #15 above, the deflection along any point of the beam is A, = wx 2(L - x) 2 / 24EI Where:

w = distributed load along the beam x = variable distance from one of the beam supports L = total length of the beam E = modulus of elasticity of the beam

/ = moment of inertia of the beam to AEP NRC 2014-68 Page 3 The beam's deflected shape and assumed bypass area are shown in the following sketch:

L j Ji

-7 wL (load)

Deflected shape and assumed bypass area A1 To determine the assumed area of the divider barrier bypass from diagram #15, this requires computing the integral of this formula with respect to "x," and this is shown as A, = f [(wL 2x 2 - 2wLx3 + wx4) / 24EI] = (wL2x 3 / 72E0) - (wLx 4 / 48EI) + (wx 5 / 120EI)

Consequently, for the length of the beam from x = 0 to L, the total bypass would be computed as A, = wL5 / 720EI Second example: Alternately, a simplified, conservative structural analysis using an AISC formula for two cantilever beams (end-to-end) is shown as follows:

19. CANTILEVER BEAM-UNIFORMLY DISTRIBUTED LOAD Equivalent Tabular Loa l .4wl R=V Vx .........

wlZ M max.(at fixed end) 2 Mx .. ....... W2 w14 Amax. (at free end) 8E! ..

AX . . . . . . . . . . W X -43 +34 3

= 4E1 x 4 3l

Enclosure 2 to AEP NRC 2014-68 Page 4 (ref. AISC Manual of Steel Construction 7 th edition)

As shown in the diagram #19 above, the maximum deflection is Amax = wL4 / 8El The beam's deflected shape and assumed bypass area are shown in the following sketch:

LU2 L/2 wL/2 (load) wL/2 (load)

A max Deflected Assumed bypass area A 2 To determine the assumed area of the divider barrier bypass from diagram #19, the area of two triangles along a beam with length L would be conservatively computed.

In this case, the maximum deflection would be located at point L12, (midpoint of the beam), and the total bypass would be computed as A 2 = (2) [w(LU2) 4 / 8EI] (L/2) (0.5) = wL 5 / 256EI Therefore, the assumed bypass area derived by using the simplified method based upon diagram #19 (two cantilever beams) would be approximately three times larger than the bypass area calculated by the exact structural analysis method based upon diagram #15 (fixed beam) and thus would be more conservative.

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