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=Text=
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{{#Wiki_filter:January 25, 2008  
{{#Wiki_filter:January 25, 2008 LICENSEE:       Dominion Energy Kewaunee, Inc.
 
FACILITY:       Kewaunee Power Station
LICENSEE: Dominion Energy Kewaunee, Inc.
 
FACILITY: Kewaunee Power Station  


==SUBJECT:==
==SUBJECT:==


==SUMMARY==
==SUMMARY==
OF JANUARY 7, 2008, MEETING WITH DOMINION ENERGY KEWAUNEE INC., ON THE LICENSE AMENDMENT REQUEST REGARDING SEISMIC METHODOLGY FOR ANALYSIS OF AUXILIARY BUILDING CRANE (TAC NO. MD7301)  
OF JANUARY 7, 2008, MEETING WITH DOMINION ENERGY KEWAUNEE INC., ON THE LICENSE AMENDMENT REQUEST REGARDING SEISMIC METHODOLGY FOR ANALYSIS OF AUXILIARY BUILDING CRANE (TAC NO. MD7301)
 
On January 7, 2008, the U.S. Nuclear Regulatory Commission (NRC) held a Category 1 public meeting with Dominion Energy Kewaunee, Inc. (the licensee), at NRC Headquarters, One White Flint North, 11555 Rockville Pike, Rockville, Maryland. The purpose of the meeting was to discuss issues related to the licensees application dated November 9, 2007 (Agencywide Documents Access and Management System (ADAMS) Accession No. ML073180499). In this application, the licensee requested NRC approval to use a new methodology to perform the seismic qualification analysis for the auxiliary building crane at Kewaunee Power Station (KPS).
On January 7, 2008, the U.S. Nuclear Regulatory Commission (NRC) held a Category 1 public meeting with Dominion Energy Kewaunee, Inc. (the licensee), at NRC Headquarters, One White Flint North, 11555 Rockville Pike, Rockville, Maryland. The purpose of the meeting was to discuss issues related to the licensee's application dated November 9, 2007 (Agencywide Documents Access and Management System (ADAMS) Accession No. ML073180499). In this application, the licensee requested NRC approval to use a new methodology to perform the seismic qualification analysis for the auxiliary building crane at Kewaunee Power St ation (KPS). The non-single-failure-proof auxiliary building crane is being upgraded to a single-failure-proof design through replacement of the crane trolley and modification of the existing crane bridge.
The non-single-failure-proof auxiliary building crane is being upgraded to a single-failure-proof design through replacement of the crane trolley and modification of the existing crane bridge.
The proposed methodology is not currently described in the KPS Updated Safety Analysis Report or the code of reference applicable to the crane. The existing auxiliary building crane, with modifications, will be used to lift NUHOMS dry fuel ca sks in support of the independent spent fuel storage facility, which is currently being constructed at KPS. As a result of the design of the single-failure proof trolley, the new trolley is about 20 tons heavier in weight. A list of attendees is provided as Enclosure 1.  
The proposed methodology is not currently described in the KPS Updated Safety Analysis Report or the code of reference applicable to the crane. The existing auxiliary building crane, with modifications, will be used to lift NUHOMS dry fuel casks in support of the independent spent fuel storage facility, which is currently being constructed at KPS. As a result of the design of the single-failure proof trolley, the new trolley is about 20 tons heavier in weight. A list of attendees is provided as Enclosure 1.
 
As delineated in its handout slides (Enclosure 2), the licensee presented information regarding the purpose of the amendment application, which proposes to use rolling of the crane wheels under limited circumstances in the seismic analysis. Without consideration for this rolling, extensive modification of the crane bridge and building would be required. The licensee also noted that the remainder of the crane seismic analysis was performed in accordance with the American Society of Mechanical Engineers Standard NOG-1, "Rules for Construction of Overhead and Gantry Cranes (Top Running Bridge, Multiple Girder)," 2004 Edition. In addition, the licensee described features of the design and configuration of the crane and trolley. In particular, the licensee discussed the performance features of the crane motor brake, which restricts movement of the two drive wheels. There are six idler wheels also associated with the crane. The licensees revised seismic analyses were performed assuming the maximum 125 tons loaded on the main hoist hook.
As delineated in its handout slides (Enclosure 2), the licensee presented information regarding the purpose of the amendment application, which proposes to use rolling of the crane wheels under limited circumstances in the seismic analysis. Without consideration for this rolling, extensive modification of the crane bridge and building would be required. The licensee also noted that the remainder of the crane seismic analysis was performed in accordance with the American Society of Mechanical Engineers Standard NOG-1, "Rules for Construction of Overhead and Gantry Cranes (Top Running Bridge, Multiple Girder)," 2004 Edition. In addition, the licensee described features of the design and configuration of the crane and trolley. In particular, the licensee discussed the performance features of the crane motor brake, which restricts movement of the two drive wheels. There are six idler wheels also associated with the crane. The licensee's revised seismic analyses were performed assuming the maximum 125 tons loaded on the main hoist hook.  
The licensee further discussed its basis for assuming that rolling in the seismic analysis model would occur after the inertia force overcomes the motor brake torque for the crane and the trolley. The licensee described its use of a technical paper by N. Mostaghel and J. Tanbakuchi to modify the single degree of freedom oscillator in the traditional response spectrum.
 
Regarding the seismic analysis method, the licensee also discussed acceleration response spectrum and stated that for low frictional coefficients, the response spectra in the frequency
The licensee further discussed its basis for assuming that rolling in the seismic analysis model would occur after the inertia force overcomes the motor brake torque for the crane and the trolley. The licensee described its use of a technical paper by N. Mostaghel and J. Tanbakuchi to modify the single degree of freedom oscillator in the traditional respons e spectrum. Regarding the seismic analysis method, the licensee also discussed acceleration response spectrum and stated that for low frictional coefficients, the response spectra in the frequency
 
region of interest was not very sensitive to the input time-history. The licensee also described its three dimensional finite element model for the crane and rail system.


On the basis of the licensee's presentation of information, the NRC staff expressed concerns with issues regarding the performance of a dynamic analysis and consideration of elasticity in the girders, kinetic energy of translation of the crane and rotation of the drive assembly components, and other factors. The staff also asked questions regarding the application of the technical paper to the KPS crane system such that it could be shown that it was a conservation technology. The specific questions from the staff ar e detailed in Enclosure 3 and will require further information from the licensee. The licensee will provide its responses to the NRC staff questions in a separate correspondence, which will be submitted formally to the NRC as part of the license amendment review.  
region of interest was not very sensitive to the input time-history. The licensee also described its three dimensional finite element model for the crane and rail system.
 
On the basis of the licensees presentation of information, the NRC staff expressed concerns with issues regarding the performance of a dynamic analysis and consideration of elasticity in the girders, kinetic energy of translation of the crane and rotation of the drive assembly components, and other factors. The staff also asked questions regarding the application of the technical paper to the KPS crane system such that it could be shown that it was a conservation technology. The specific questions from the staff are detailed in Enclosure 3 and will require further information from the licensee. The licensee will provide its responses to the NRC staff questions in a separate correspondence, which will be submitted formally to the NRC as part of the license amendment review.
No members of the public were in attendance. Public Meeting Feedback forms were not received.  
No members of the public were in attendance. Public Meeting Feedback forms were not received.
 
Please direct any inquiries to me at 301-415-1457.
Please direct any inquiries to me at 301-415-1457.  
                                        /RA/
 
Patrick D. Milano, Senior Project Manager Plant Licensing Branch III-1 Division of Operating Reactor Licensing Office of Nuclear Reactor Regulation Docket No. 50-305
      /RA/ Patrick D. Milano, Senior Project Manager Plant Licensing Branch III-1 Division of Operating Reactor Licensing Office of Nuclear Reactor Regulation  
 
Docket No. 50-305  


==Enclosures:==
==Enclosures:==
: 1. List of Attendees
: 1. List of Attendees
: 2. Licensee Handout
: 2. Licensee Handout
: 3. Staff Questions  
: 3. Staff Questions cc w/encls: See next page
 
cc w/encls: See next page
 
ML080230447, Package:  ML080230489  OFFICE NRR/LPL3-1/PM NRR/LPL3-1/LA NRR/DE/EMCB/BC NRR/LPL3-1/BC(A) NAME PMilano THarris KManoly JCushing for PMilano DATE 01/18/08 01/23/08 01/22/08 01/25/08 Kewaunee Power Station
 
cc:
 
Mr. David A. Christian President and Chief Nuclear Officer Virginia Electric and Power Company Innsbrook Technical Center 5000 Dominion Boulevard Glen Allen, VA  23060-6711
 
Resident Inspectors Office U.S. Nuclear Regulatory Commission N490 Hwy 42 Kewaunee, WI  54216-9510
 
Mr. Chris L. Funderburk Director, Nuclear Licensing and Operations Support Innsbrook Technical Center 5000 Dominion Boulevard Glen Allen, VA  23060-6711
 
Mr. Thomas L. Breene Dominon Energy Kewaunee, Inc.
Kewaunee Power Station N490 Highway 42 Kewaunee, WI  54216
 
Ms. Lillian M. Cuoco, Esq.
Senior Counsel Dominion Resources Services, Inc.
120 Tredegar Street Riverside 2 Richmond, VA  23219
 
Mr. Stephen E. Scace Site Vice President Dominion Energy Kewaunee, Inc.
Kewaunee Power Station N 490 Highway 42 Kewaunee, WI  54216
 
Mr. Thomas J. Webb, Director Nuclear Safety & Licensing Dominion Energy Kewaunee, Inc.
Kewaunee Power Station N 490 Highway 42 Kewaunee, WI  54216
 
ENCLOSURE 1 Dominion Energy Kewaunee, Inc. Meeting Regarding License Amendment Request Licensing Basis for Internal Flooding Events Monday January 7, 2008 List of Attendees
 
Nuclear Regulatory Commission
 
Name Position/Title Organization Patrick D. Milano Project Manager NRR/Division of Operating Reactor Licensing (DORL)/Plant Licensing Branch 3-1 (LPL3-1) Kamal Manoly
 
Branch Chief NRR/Division of Engineering (DE)/Mechanical and Civil Engineering Branch (EMCB) Mark Hartzman
 
Sr. Mechanical Engineer NRR/DE/EMCB Steven Jones Sr. Systems Engineer NRR/Division of Safety Systems (DSS)/Balance-of-Plant Branch (SBPB) Sarah Bakhsh Health Physicist Region III/Division of Nuclear Materials and Safety (DNMS)/Decommissioning Branch
 
Dominion Energy Kewaunee, Inc.
 
Name Position/Title Lori Armstrong Director, Nuclear Engineering David Lohman Project Manager, Design Engineering Thomas Webb Director, Safety and Licensing Gerald Riste Supervisor, Licensing
 
Dominion Resources Services
 
Name Position/Title Craig Sly Engineer, Nuclear Licensing and Operations Support Divakar Bhargava Consulting Engineer, Engineering Mechanics, Nuclear Engineering Charles Zalesiak Civil Engineer
 
Contractors/Vendors
 
Name Company Jami Rubendall American Crane & Equipment Corp. Chang Chen American Crane & Equipment Corp Brian Gutherman ACI Nuclear Energy Solutions Public:  None present ENCLOSURE 3 NRC Staff Questions Asked During Public Meeting Regarding Seismic Analysis Methods for Auxiliary Building Crane
: 1. For the East-West Mid-span Case, the calculation of the "equivalent" coefficient of friction of 0.061 appears to be based on the assumption that the friction force acts on all eight wheels simultaneously. However, the friction (traction) force acts only on the two drive wheels, while the weight of the crane is distributed among the eight wheels. We request that you provide:
A. The "equivalent" coefficient of friction based on the normal reactions acting on the two drive wheels, not on the total crane weight, and show all "free- body" diagrams used in the Mid-span Case analysis. 
 
B. Provide justification for the assumption of a rigid crane used in determining the "equivalent" coefficient of friction of 0.061.
: 2. The attached paper in LAR 234, "Response of Sliding Structures to Earthquake Support Motion," forms the basis for the analysis of the crane for both the Mid-span and End-span cases. This paper is applicable to sliding of a single degree of freedom elastic mass between a flat base structure and a flat ground. 
 
A. Show that the methodology of this paper is applicable to a structure on wheels rolling on a flat ground under seismic movement, where the friction is provided by torque on the driver wheel.
 
B. The analysis in the paper are based on the El Centro N-S ground time history. Show that the acceleration and displacement spectra based on the    Housner-based acceleration time-history at the elevation of the crane envelop the acceleration and displacement spectra of the paper. 
 
C. Provide a discussion of the damping used to develop the Housner-based acceleration time-history at the elevation of the crane
 
D. Since the paper does not include the vertical seismic acceleration in the sliding analysis of the paper, provide a discussion of the effect of this acceleration on the crane analysis.
: 3. For the East-West End-span Case, the crane is an un-symmetric structure.
 
A. State the basis for assuming that the center of mass is in the middle of the crane. 
 
B. Provide justification why the "equivalent" coefficient of friction of the Mid-Span case is applicable to this case.
C. Provide a detailed discussion of the 3-D analysis of the crane and show how the results from the paper were applied. Show all free-body diagrams used in the analysis.


D. Show that the unsymmetrical motion of the crane has no effect on the rails.
ML080230447, Package: ML080230489 OFFICE      NRR/LPL3-1/PM          NRR/LPL3-1/LA          NRR/DE/EMCB/BC NRR/LPL3-1/BC(A)
: 4. Kewaunee Power Station updated safety analysis report Section B.8 states that the stability of the crane is assured by fixed, fitted rail yokes that allow free rolling movement but prevent the wheels from being lifted or derailed. The bridge and trolley wheels are equipped with electrically activated, spring set brakes. Upon loss of power or when the crane or trolley is not under operator control, the springs activate the brake, locking the wheels firmly into place to prevent rolling out of position.
NAME        PMilano                THarris                KManoly                JCushing for PMilano DATE        01/18/08              01/23/08              01/22/08              01/25/08


A. Provide a diagram of the rail yokes and their location on the bridge.  
Kewaunee Power Station cc:
Mr. David A. Christian              Ms. Lillian M. Cuoco, Esq.
President and Chief Nuclear Officer Senior Counsel Virginia Electric and Power Company Dominion Resources Services, Inc.
Innsbrook Technical Center          120 Tredegar Street 5000 Dominion Boulevard            Riverside 2 Glen Allen, VA 23060-6711          Richmond, VA 23219 Resident Inspectors Office          Mr. Stephen E. Scace U.S. Nuclear Regulatory Commission  Site Vice President N490 Hwy 42                        Dominion Energy Kewaunee, Inc.
Kewaunee, WI 54216-9510            Kewaunee Power Station N 490 Highway 42 Mr. Chris L. Funderburk            Kewaunee, WI 54216 Director, Nuclear Licensing and Operations Support                Mr. Thomas J. Webb, Director Innsbrook Technical Center          Nuclear Safety & Licensing 5000 Dominion Boulevard            Dominion Energy Kewaunee, Inc.
Glen Allen, VA 23060-6711          Kewaunee Power Station N 490 Highway 42 Mr. Thomas L. Breene                Kewaunee, WI 54216 Dominon Energy Kewaunee, Inc.
Kewaunee Power Station N490 Highway 42 Kewaunee, WI 54216


B. Provide a description of the brakes, including the applicable coefficient of friction.  
Dominion Energy Kewaunee, Inc.
Meeting Regarding License Amendment Request Licensing Basis for Internal Flooding Events Monday January 7, 2008 List of Attendees Nuclear Regulatory Commission Name                  Position/Title                Organization Patrick D. Milano      Project Manager              NRR/Division of Operating Reactor Licensing (DORL)/Plant Licensing Branch 3-1 (LPL3-1)
Kamal Manoly          Branch Chief                  NRR/Division of Engineering (DE)/Mechanical and Civil Engineering Branch (EMCB)
Mark Hartzman          Sr. Mechanical Engineer      NRR/DE/EMCB Steven Jones          Sr. Systems Engineer          NRR/Division of Safety Systems (DSS)/Balance-of-Plant Branch (SBPB)
Sarah Bakhsh          Health Physicist              Region III/Division of Nuclear Materials and Safety (DNMS)/Decommissioning Branch Dominion Energy Kewaunee, Inc.
Name                    Position/Title Lori Armstrong          Director, Nuclear Engineering David Lohman            Project Manager, Design Engineering Thomas Webb            Director, Safety and Licensing Gerald Riste            Supervisor, Licensing Dominion Resources Services Name                    Position/Title Craig Sly              Engineer, Nuclear Licensing and Operations Support Divakar Bhargava        Consulting Engineer, Engineering Mechanics, Nuclear Engineering Charles Zalesiak        Civil Engineer Contractors/Vendors Name                    Company Jami Rubendall          American Crane & Equipment Corp.
Chang Chen              American Crane & Equipment Corp Brian Gutherman        ACI Nuclear Energy Solutions Public:        None present ENCLOSURE 1


C. Provide justification for assuming that the drive wheels will not slip before the disc brake slips.  
NRC Staff Questions Asked During Public Meeting Regarding Seismic Analysis Methods for Auxiliary Building Crane
: 1. For the East-West Mid-span Case, the calculation of the equivalent coefficient of friction of 0.061 appears to be based on the assumption that the friction force acts on all eight wheels simultaneously. However, the friction (traction) force acts only on the two drive wheels, while the weight of the crane is distributed among the eight wheels. We request that you provide:
A.      The equivalent coefficient of friction based on the normal reactions acting on the two drive wheels, not on the total crane weight, and show all free- body diagrams used in the Mid-span Case analysis.
B.       Provide justification for the assumption of a rigid crane used in determining the equivalent coefficient of friction of 0.061.
: 2. The attached paper in LAR 234, Response of Sliding Structures to Earthquake Support Motion, forms the basis for the analysis of the crane for both the Mid-span and End-span cases. This paper is applicable to sliding of a single degree of freedom elastic mass between a flat base structure and a flat ground.
A.      Show that the methodology of this paper is applicable to a structure on wheels rolling on a flat ground under seismic movement, where the friction is provided by torque on the driver wheel.
B.      The analysis in the paper are based on the El Centro N-S ground time history.
Show that the acceleration and displacement spectra based on the Housner-based acceleration time-history at the elevation of the crane envelop the acceleration and displacement spectra of the paper.
C.      Provide a discussion of the damping used to develop the Housner-based acceleration time-history at the elevation of the crane D.      Since the paper does not include the vertical seismic acceleration in the sliding analysis of the paper, provide a discussion of the effect of this acceleration on the crane analysis.
: 3. For the East-West End-span Case, the crane is an un-symmetric structure.
A.      State the basis for assuming that the center of mass is in the middle of the crane.
B.      Provide justification why the equivalent coefficient of friction of the Mid-Span case is applicable to this case.
ENCLOSURE 3


D. Provide an evaluation demonstrating that as a result of the heavier trolley, the wheels will not lift or dera il under the seis mic loading.
C.      Provide a detailed discussion of the 3-D analysis of the crane and show how the results from the paper were applied. Show all free-body diagrams used in the analysis.
: 5. In the section titled "Member Stress and Connection Checks," provide a description and detailed discussion of the method for calculating the stresses due to the dead weight and seismic loading.}}
D.      Show that the unsymmetrical motion of the crane has no effect on the rails.
: 4. Kewaunee Power Station updated safety analysis report Section B.8 states that the stability of the crane is assured by fixed, fitted rail yokes that allow free rolling movement but prevent the wheels from being lifted or derailed. The bridge and trolley wheels are equipped with electrically activated, spring set brakes. Upon loss of power or when the crane or trolley is not under operator control, the springs activate the brake, locking the wheels firmly into place to prevent rolling out of position.
A.      Provide a diagram of the rail yokes and their location on the bridge.
B.      Provide a description of the brakes, including the applicable coefficient of friction.
C.      Provide justification for assuming that the drive wheels will not slip before the disc brake slips.
D.       Provide an evaluation demonstrating that as a result of the heavier trolley, the wheels will not lift or derail under the seismic loading.
: 5. In the section titled Member Stress and Connection Checks, provide a description and detailed discussion of the method for calculating the stresses due to the dead weight and seismic loading.}}

Revision as of 20:19, 14 November 2019

01/07/2008 - Summary of Meeting with Dominion Energy Kewaunee Inc. Licensee'S Amendment Request on Seismic Methodology for Analysis of Auxiliary Building Crane
ML080230447
Person / Time
Site: Kewaunee Dominion icon.png
Issue date: 01/25/2008
From: Milano P
NRC/NRR/ADRO/DORL/LPLIII-1
To:
Milano P, NRR/DORL/LPLIII-1, 415-1457
Shared Package
ML080230489 List:
References
TAC MD7301
Download: ML080230447 (8)


Text

January 25, 2008 LICENSEE: Dominion Energy Kewaunee, Inc.

FACILITY: Kewaunee Power Station

SUBJECT:

SUMMARY

OF JANUARY 7, 2008, MEETING WITH DOMINION ENERGY KEWAUNEE INC., ON THE LICENSE AMENDMENT REQUEST REGARDING SEISMIC METHODOLGY FOR ANALYSIS OF AUXILIARY BUILDING CRANE (TAC NO. MD7301)

On January 7, 2008, the U.S. Nuclear Regulatory Commission (NRC) held a Category 1 public meeting with Dominion Energy Kewaunee, Inc. (the licensee), at NRC Headquarters, One White Flint North, 11555 Rockville Pike, Rockville, Maryland. The purpose of the meeting was to discuss issues related to the licensees application dated November 9, 2007 (Agencywide Documents Access and Management System (ADAMS) Accession No. ML073180499). In this application, the licensee requested NRC approval to use a new methodology to perform the seismic qualification analysis for the auxiliary building crane at Kewaunee Power Station (KPS).

The non-single-failure-proof auxiliary building crane is being upgraded to a single-failure-proof design through replacement of the crane trolley and modification of the existing crane bridge.

The proposed methodology is not currently described in the KPS Updated Safety Analysis Report or the code of reference applicable to the crane. The existing auxiliary building crane, with modifications, will be used to lift NUHOMS dry fuel casks in support of the independent spent fuel storage facility, which is currently being constructed at KPS. As a result of the design of the single-failure proof trolley, the new trolley is about 20 tons heavier in weight. A list of attendees is provided as Enclosure 1.

As delineated in its handout slides (Enclosure 2), the licensee presented information regarding the purpose of the amendment application, which proposes to use rolling of the crane wheels under limited circumstances in the seismic analysis. Without consideration for this rolling, extensive modification of the crane bridge and building would be required. The licensee also noted that the remainder of the crane seismic analysis was performed in accordance with the American Society of Mechanical Engineers Standard NOG-1, "Rules for Construction of Overhead and Gantry Cranes (Top Running Bridge, Multiple Girder)," 2004 Edition. In addition, the licensee described features of the design and configuration of the crane and trolley. In particular, the licensee discussed the performance features of the crane motor brake, which restricts movement of the two drive wheels. There are six idler wheels also associated with the crane. The licensees revised seismic analyses were performed assuming the maximum 125 tons loaded on the main hoist hook.

The licensee further discussed its basis for assuming that rolling in the seismic analysis model would occur after the inertia force overcomes the motor brake torque for the crane and the trolley. The licensee described its use of a technical paper by N. Mostaghel and J. Tanbakuchi to modify the single degree of freedom oscillator in the traditional response spectrum.

Regarding the seismic analysis method, the licensee also discussed acceleration response spectrum and stated that for low frictional coefficients, the response spectra in the frequency

region of interest was not very sensitive to the input time-history. The licensee also described its three dimensional finite element model for the crane and rail system.

On the basis of the licensees presentation of information, the NRC staff expressed concerns with issues regarding the performance of a dynamic analysis and consideration of elasticity in the girders, kinetic energy of translation of the crane and rotation of the drive assembly components, and other factors. The staff also asked questions regarding the application of the technical paper to the KPS crane system such that it could be shown that it was a conservation technology. The specific questions from the staff are detailed in Enclosure 3 and will require further information from the licensee. The licensee will provide its responses to the NRC staff questions in a separate correspondence, which will be submitted formally to the NRC as part of the license amendment review.

No members of the public were in attendance. Public Meeting Feedback forms were not received.

Please direct any inquiries to me at 301-415-1457.

/RA/

Patrick D. Milano, Senior Project Manager Plant Licensing Branch III-1 Division of Operating Reactor Licensing Office of Nuclear Reactor Regulation Docket No. 50-305

Enclosures:

1. List of Attendees
2. Licensee Handout
3. Staff Questions cc w/encls: See next page

ML080230447, Package: ML080230489 OFFICE NRR/LPL3-1/PM NRR/LPL3-1/LA NRR/DE/EMCB/BC NRR/LPL3-1/BC(A)

NAME PMilano THarris KManoly JCushing for PMilano DATE 01/18/08 01/23/08 01/22/08 01/25/08

Kewaunee Power Station cc:

Mr. David A. Christian Ms. Lillian M. Cuoco, Esq.

President and Chief Nuclear Officer Senior Counsel Virginia Electric and Power Company Dominion Resources Services, Inc.

Innsbrook Technical Center 120 Tredegar Street 5000 Dominion Boulevard Riverside 2 Glen Allen, VA 23060-6711 Richmond, VA 23219 Resident Inspectors Office Mr. Stephen E. Scace U.S. Nuclear Regulatory Commission Site Vice President N490 Hwy 42 Dominion Energy Kewaunee, Inc.

Kewaunee, WI 54216-9510 Kewaunee Power Station N 490 Highway 42 Mr. Chris L. Funderburk Kewaunee, WI 54216 Director, Nuclear Licensing and Operations Support Mr. Thomas J. Webb, Director Innsbrook Technical Center Nuclear Safety & Licensing 5000 Dominion Boulevard Dominion Energy Kewaunee, Inc.

Glen Allen, VA 23060-6711 Kewaunee Power Station N 490 Highway 42 Mr. Thomas L. Breene Kewaunee, WI 54216 Dominon Energy Kewaunee, Inc.

Kewaunee Power Station N490 Highway 42 Kewaunee, WI 54216

Dominion Energy Kewaunee, Inc.

Meeting Regarding License Amendment Request Licensing Basis for Internal Flooding Events Monday January 7, 2008 List of Attendees Nuclear Regulatory Commission Name Position/Title Organization Patrick D. Milano Project Manager NRR/Division of Operating Reactor Licensing (DORL)/Plant Licensing Branch 3-1 (LPL3-1)

Kamal Manoly Branch Chief NRR/Division of Engineering (DE)/Mechanical and Civil Engineering Branch (EMCB)

Mark Hartzman Sr. Mechanical Engineer NRR/DE/EMCB Steven Jones Sr. Systems Engineer NRR/Division of Safety Systems (DSS)/Balance-of-Plant Branch (SBPB)

Sarah Bakhsh Health Physicist Region III/Division of Nuclear Materials and Safety (DNMS)/Decommissioning Branch Dominion Energy Kewaunee, Inc.

Name Position/Title Lori Armstrong Director, Nuclear Engineering David Lohman Project Manager, Design Engineering Thomas Webb Director, Safety and Licensing Gerald Riste Supervisor, Licensing Dominion Resources Services Name Position/Title Craig Sly Engineer, Nuclear Licensing and Operations Support Divakar Bhargava Consulting Engineer, Engineering Mechanics, Nuclear Engineering Charles Zalesiak Civil Engineer Contractors/Vendors Name Company Jami Rubendall American Crane & Equipment Corp.

Chang Chen American Crane & Equipment Corp Brian Gutherman ACI Nuclear Energy Solutions Public: None present ENCLOSURE 1

NRC Staff Questions Asked During Public Meeting Regarding Seismic Analysis Methods for Auxiliary Building Crane

1. For the East-West Mid-span Case, the calculation of the equivalent coefficient of friction of 0.061 appears to be based on the assumption that the friction force acts on all eight wheels simultaneously. However, the friction (traction) force acts only on the two drive wheels, while the weight of the crane is distributed among the eight wheels. We request that you provide:

A. The equivalent coefficient of friction based on the normal reactions acting on the two drive wheels, not on the total crane weight, and show all free- body diagrams used in the Mid-span Case analysis.

B. Provide justification for the assumption of a rigid crane used in determining the equivalent coefficient of friction of 0.061.

2. The attached paper in LAR 234, Response of Sliding Structures to Earthquake Support Motion, forms the basis for the analysis of the crane for both the Mid-span and End-span cases. This paper is applicable to sliding of a single degree of freedom elastic mass between a flat base structure and a flat ground.

A. Show that the methodology of this paper is applicable to a structure on wheels rolling on a flat ground under seismic movement, where the friction is provided by torque on the driver wheel.

B. The analysis in the paper are based on the El Centro N-S ground time history.

Show that the acceleration and displacement spectra based on the Housner-based acceleration time-history at the elevation of the crane envelop the acceleration and displacement spectra of the paper.

C. Provide a discussion of the damping used to develop the Housner-based acceleration time-history at the elevation of the crane D. Since the paper does not include the vertical seismic acceleration in the sliding analysis of the paper, provide a discussion of the effect of this acceleration on the crane analysis.

3. For the East-West End-span Case, the crane is an un-symmetric structure.

A. State the basis for assuming that the center of mass is in the middle of the crane.

B. Provide justification why the equivalent coefficient of friction of the Mid-Span case is applicable to this case.

ENCLOSURE 3

C. Provide a detailed discussion of the 3-D analysis of the crane and show how the results from the paper were applied. Show all free-body diagrams used in the analysis.

D. Show that the unsymmetrical motion of the crane has no effect on the rails.

4. Kewaunee Power Station updated safety analysis report Section B.8 states that the stability of the crane is assured by fixed, fitted rail yokes that allow free rolling movement but prevent the wheels from being lifted or derailed. The bridge and trolley wheels are equipped with electrically activated, spring set brakes. Upon loss of power or when the crane or trolley is not under operator control, the springs activate the brake, locking the wheels firmly into place to prevent rolling out of position.

A. Provide a diagram of the rail yokes and their location on the bridge.

B. Provide a description of the brakes, including the applicable coefficient of friction.

C. Provide justification for assuming that the drive wheels will not slip before the disc brake slips.

D. Provide an evaluation demonstrating that as a result of the heavier trolley, the wheels will not lift or derail under the seismic loading.

5. In the section titled Member Stress and Connection Checks, provide a description and detailed discussion of the method for calculating the stresses due to the dead weight and seismic loading.