Letter Sequence Request |
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TAC:MC7382, Steam Generator Tube Integrity (Approved, Closed) |
|
MONTHYEARML0519501232005-07-0707 July 2005
License Amendment Request Regarding Extended Power Uprate
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ML0523101552005-08-15015 August 2005
Supplemental Information Related to Small Break (SB) Loss of Coolant Accident (LOCA) Analysis and Post-LOCA Boric Acid Precipitation Analysis
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ML0606806582006-03-0909 March 2006
Forthcoming Meeting with R. E. Ginna Nuclear Power Plant, LLC (Ginna Llc), Regarding Extended Power Uprate Amendment Application
Project stage: Meeting
ML0607901132006-03-20020 March 2006
Cancellation - Forthcoming Meeting with R.E. Ginna Nuclear Power Plant, LLC Regarding Extended Power Uprate Amendment Application
Project stage: Meeting
ML0609403122006-03-24024 March 2006
R. E. Ginna - Response to BOP Systems Questions Discussed on March 2, 2006 Conference Call
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ML0609300252006-04-0404 April 2006
Notice of Meeting with R. E. Ginna Nuclear Power Plant, LLC (Ginna Llc), Regarding Extended Power Uprated Amendment Application
Project stage: Meeting
ML0608003152006-04-0606 April 2006
R. E. Ginna Nuclear Power Plant - Draft Environmental Assessment and Finding of No Significant Impact Related to Proposed Extended Power Uprate
Project stage: Draft Other
ML0608003472006-04-0606 April 2006
R. E. Ginna Nuclear Power Plant Draft Environmental Assessment and Finding of No Significant Impact Related to the Proposed License Amendment to Increase to Maximum Reactor Power Level
Project stage: Draft Other
ML0613503752006-05-0909 May 2006
R. E. Ginna, Response to Requests for Additional Information Regarding Topics Discussed on Conference Calls for Extended Power Uprate (EPU)
Project stage: Response to RAI
ML0613706272006-05-12012 May 2006
Comment (1) of Kimberly A. Merchant on Draft Environmental Assessment and Findings of No Significant Impact Related to Proposed Extended Power Uprate
Project stage: Draft Other
ML0614503812006-05-19019 May 2006
R. E. Ginna Final Response to Requests for Additional Information Regarding Topics Discussed on Conference Calls for Extended Power Uprate (EPU)
Project stage: Response to RAI
ML0613204402006-06-26026 June 2006
R. E. Ginna Nuclear Power Plant - Final Environmental Assessment and Finding of No Significant Impact Related to Proposed Extended Power Uprate
Project stage: Other
ML0616002502006-06-26026 June 2006
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Project stage: Acceptance Review
ML0619205922006-07-11011 July 2006
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Project stage: Other
ML0619205942006-07-11011 July 2006
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Project stage: Other
ML0613801032006-07-11011 July 2006
R. E. Ginna, License Amendment, 16.8 Percent Power Uprate
Project stage: Other
ML0613802492006-07-11011 July 2006
Table of Contents, Safety Evaluation Related to Extended Power Uprate at R. E. Ginna Nuclear Power Plant
Project stage: Approval
ML0629101322006-10-12012 October 2006
License Amendment Request: Spent Fuel Pool Storage Capacity
Project stage: Request
2006-01-11
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Text
Maria Korsnick 1503 Lake Road Vice President Ontario, New York 14519-9364 585.771.3494 585.771.3943 Fax maria.korsnick@constellation.com Constellation Energy I R.E. Ginna Nuclear Power Plant August 15, 2005 U. S. Nuclear Regulatory Commission Washington, DC 20555 ATTENTION: Document Control Desk
SUBJECT:
R.E. Ginna Nuclear Power Plant Docket No. 50-244 Supplemental Information Related to Small Break (SB) Loss of Coolant Accident (LOCA) Analysis and Post-LOCA Boric Acid Precipitation Analysis
REFERENCE:
(1) Letter from Mary G. Korsnick (Ginna LLC) to Donna M. Skay (NRC),
"License Amendment Request Regarding Revised Loss of Coolant Accident (LOCA) Analyses - Changes to Accumulator, Refueling Water Storage (RWST), and Administrative Control Technical Specifications",
dated April 29, 2005.
(2) WCAP-10054-P-A, Addendum 2, Revision 1, "Addendum to the Westinghouse Small Break ECCS Evaluation Model Using the NOTRUMP Code: Safety Injection into the Broken Loop and COSI Condensation Model," Thompson, C. M., et al., July 1997.
(3) Letter dated August 1, 2005 from R. A. Gramm, U. S. Nuclear Regulatory Commission to J. A. Gresham, Westinghouse Electric Company, "Suspension of NRC Approval for Use of Westinghouse Topical Report CENPD-254-P, 'Post LOCA Long-term Cooling Model' Due to Discovery of Non-conservative Modeling Assumptions During Calculations Audit" (4) Letter from C. L. Caso to T. M. Novak, Chief, Reactor Systems Branch, NRC, from Manager, Safeguards Engineering, Westinghouse Corporation Power Systems, CLC-NS-309, "Long Term Buildup of Boric Acid", April 1, 1975.
4kO\
/001 397y
This letter responds to verbal requests for information received during a phone call with the NRC staff on August 11, 2005 related to the R.E. Ginna Nuclear Power Plant (Ginna) Extended Power Uprate (EPU). The requested information relates to the Small Break (SB) Loss of Coolant Accident (LOCA) analysis and the post-LOCA boric acid precipitation analysis. This additional information should clarify the evaluation methods used for the Ginna EPU in these areas to allow the NRC staff to proceed with its detailed technical review of the EPU.
The SBLOCA and post-LOCA boric acid precipitation analyses for the Ginna EPU were provided to NRC in Reference 1 [Pre-submittal to NRC dated'4/29/05]. Tables 4 and 5 of to Reference 1 provide a listing of SBLOCA transient and rod heat up results, respectively, for the 1.5", 2" and 3" breaks analyzed. SBLOCA transient parameter plots were only provided for the limiting 2" break in Reference 1. Enclosure 1 to this letter provides similar parameter plots for the 1.5" and 3" breaks analyzed and documented for the Ginna EPU. In addition, although not documented in the analysis, 4" and 6" break size transient calculations for the Ginna EPU were performed to demonstrate that no core uncovery occurred for these breaks, thereby confirming that the range of breaks analyzed contained the limiting break. Additional SBLOCA transient behavior can be found in NRC-approved topical report, Reference 2 [WCAP-10054-P-A, Addendum 2, Revision 1].
For the post-LOCA boric acid precipitation analysis, we understand that NRC has generic concerns regarding boron precipitation evaluation methods. We note that in Reference 3 [NRC letter dated 8/1/2005] NRC has suspended approyal of Westinghouse topical report CENPD-254-P. While CENPD-254-P is applicable to Combustion Engineering plant designs and is not directly applicable to Ginna, generic concerns in Reference 3 have prompted the clarifications provided in Enclosure 2 to this letter. The Ginna EPU boric acid precipitation analysis, provided in Enclosure 7 to Reference 1, was performed consistent with, or conservative with respect to, the methods and assumptions outlined in Reference,4 [Westinghouse letter to NRC dated April 1, 1975] which supports the boric acid precipitation design basis analysis for Ginna. We understand there may be additional generic concerns relating to the Westinghouse post-LOCA boric acid precipitation analysis and, to the extent they apply to Ginna, we intend to work with Westinghouse and your staff to resolve these concerns. Our intention is to provide a supplemental response to the generic boric acid precipitation concerns that apply to Ginna by October 31, 2005.
Should you have questions regarding the information in this submittal, please contact George Wrobel at (585) 771-3535 or george.wrobel~constellation.com.
Ve truly y ,
, snic
Enclosures:
(1) Additional SBLOCA Transient Results (2) Supplemental Information on the Potential for Boric Acid Precipitation (3) List of Regulatory Commitments STATE OF NEW YORK :
- TO WIT:
COUNTY OF W'AYNE I, Mary G. Korsnick, being duly sworn, state that I am Vice President - R.E. Ginna Nuclear Power Plant, LLC (Ginna LLC), and that I am duly authorized to execute and file this response on behalf of Ginna LLC. To the best of my knowledge and belief, the statements contained in this document are true and correct. To the extent that these statements are not based on my personal knowledge, they are based upon information provided by other Ginna LLC employees and/or consultants. Such information has been reviewed in accordance with company practice and I believe it to be reliable.
iYA, IY 4' ~9 Subscribed and sworn before me, a Notary Public in and for the State of New York and County of )1O/7 wo ,this /5 day of 2005.
WITNESS my Hand and Notarial Seal: iJ* )
Notary Public My Commission Expires: . SHARONLMI0LER Non POW, StaWef NewYoDk 1 ,;hRabNo.O1MI6017755
/~0 yCovia
-o EVMa DObr21.20 (
Date cc: S. J. Collins, NRC P. D. Milano, NRC Resident Inspector, NRC
ENCLOSURE I R.E. Ginna Nuclear Power Plant Additional SBLOCA Transient Results
2500 2000
.2 aD 1500 en en 0-1000 500 Time (s)
Figure 1: Pressurizer Pressure 1.5-Inch Break
Core Mixture Level Top of Core 32-I I 30- l -- .
l Il 28- - - - - -
26 - X -- -'I-a) - I X 24 -- --------------
20 - -
22 _ I 20- __
18-, l Time (s)
Figure 2: Core Mixture Level 1.5-Inch Break
B Broken Loop Pumped Si Flow
- --- Intact Loop Pumped SI Flow 50-0 E0 - - - - -
- -I -- - - - -- -
,, , I I I I o Cf 0 - - - -- - -- - -- -
I I O- I lI 0, 20 I_________________+_
I I I I HEI O-lI I Time (s)
Figure 3: Broken Loop and Intact Loop Pumped Si Flow Rate 1.5-Inch Break
1100
- I I I I I@ I I I
- II 1000- -~~~~~~
- - ~- --- - - AI-- - - -+ _ _ _ _ _ _ _ _ _ _ l _ _ _
1 uw -, 4 4 .--- I
- I I I I
- I I It I---
I I I I E
70 I t I I
_ I 6-~00 -4 + + 4
- I 1 I I
- I
, , I ,
- I I I
, , , I 40- ,, I,,; , I, I,, ,
0 200 400 60080O0 ITm (s)
Fiur 4: PekCadnIeprtr tPTEeain15lc ra
100 I I, I I l I Il I Il I l I Il I I Il I Il I I Il I I Il I I I, I l I I Il I I Il 80 *+_____ I ___________ I__________
l*- .
I .I I I Il I I I, I I Il I I Il I I Il I I Il 1-I-,
____ A_ ____ __+ __ _ __
E 60
-M W
I1 X -- --- ---
I,
- + _-
0 l ia iI I I U,0 U, 40 on, Ut
- M l I bf 20 l
I , @ I,, , , ,, , ,
_ ! IA I ~ ~ _ AA 0
0 2000 4000 6000 8000 1(0s) 12000 Time (s)
Figure 5: Core Exit Vapor Flow 1.5-Inch Break
2500 lI 2000 - --
a,,
CD) a)
=3 500 - ----- --------------- ------------
0 0 1D00 2000 3000 Time (s)
Figure 6: Pressurizer Pressure 3-Inch Break
Core Mixture Level
-- -- Top of Core 32 3O..
28 - -- - - - - - - - - - - -- - - - - - - - - - -- - - - - - - - - - - - - - - -- - - - - - - - - - - - -- -
25 24 - - -- - - - - - - - - - - - - -
20 18 0 10500 2000 3000 4000 Ti me (s)
Figure 7: Core Mixture Level 3-Inch Break
B Broken Loop Pumped Si Flow I---- Intact Loop Pumped SI Flow 50 -
l l B
n W
l n
. B- - -
I 40 - _ _ A= + _ _ _ _ +
l
/ l
/ l
/ , ,
I I , ,
1 , I r
XE 30- / ' '
-0 I ,
P s +
+
/ , I
_ I ,
/ I I aJ I , ,
cay CD) b1 , l 0 I , ,
rv l l cf) 20- . + +
En l l 10 -
0-I I I I I I I I , f I , I I I 0 1000 2000 3d00 4000 Time (s)
Figure 8: Broken Loop and Intact Loop Pumped SI Flow Rate 3-Inch Break
1200 Ij 1100 - - -
1000 900 -.- - - - - - - - - - - - - - - -
U-ci, I--- --- - - - --- -: - - --- --- -- - -: - --- --- ---
0 800 L, I, CD E
FT I I I I,
700 .. - -
600 I I I I I, 500 *-- -- -- -- -- -- -- -- 1- -- - -
I I, 400 11 Time Figure 9: Peak Cladding Temperature at PCT Elevation 3-Inch Break
250 l
l 200 + +
l l
l l
l l
l l
cn l l
l E 150 l
+ .
+ +
a, 0
l l
l l
100 l cX + + +
U, l l
uM l l
l , . .
cab50 X L ,l l l
. to t .
0 Time Figure 10: Core Exit Vapor Flow 3-Inch Break
ENCLOSURE 2 R.E. Ginna Nuclear Power Plant Supplemental Information on the Potential for Boric Acid Precipitation
. L'..;...
Supplemental Information on the Potential for Boric Acid Precipitation A recent NRC letter to Westinghouse (Reference 1) suspended the approval of a post-LOCA long-term cooling topical report applicable to CE plant designs citing issues related to the potential for boric acid precipitation. While the subject topical report and methodology are not directly applicable to Ginna, issues raised in the NRC letter have prompted the following clarifications and additional information regarding the Ginna boric acid precipitation analysis.
Review of Ginna ECCS Design in Reqards to Boric Acid Precipitation Analysis Methodologv Since Ginna is an upper plenum injection (UPI) design with low head safety injection directly to the upper plenum, conventional 3-loop and 4-loop hot leg recirculation switchover or simultaneous recirculation switchover post-LOCA actions do not apply. Simultaneous hot (UPI) and cold side (SI) injection will occur automatically when RCS pressure decreases below the low head RHR injection pressure (140 psia). Boric acid precipitation calculations are performed only to establish the maximum length of time before UPI initiation after which boric acid precipitation might occur. After UPI and after the start of sump recirculation, the cold leg SI is normally terminated. The calculated time also is conservatively used to establish the time after which cold leg SI injection should be reestablished, once it is terminated. This time will be specified in the Emergency Operating Procedures. Details on specific ECCS design and the anticipated operator actions are given in of the Ginna Tech Spec LAR (Reference 2). The calculated core region boric acid concentration as a function of time for a large break LOCA for the Ginna EPU is given in Figure 1.
This analysis was performed consistent with, or conservative with respect to, Reference 3, which has been the NRC accepted method for Westinghouse design plants and the method that supports the current Ginna design basis analysis. The Reference 3 methodology treats small breaks as non-limiting because of the benefits of lower core voiding, greater SI subcooling, and the higher boric acid solubility limit for SBLOCA RCS pressures.
Boric Acid Precipitation Analysis Methodologv Reference I raises a number of issues related to the methodology used to establish the maximum length of time before UPI initiation after which boric acid precipitation might occur. The most significant issues are the decay heat assumption and the consideration of core and upper plenum voiding as it affects the analysis for determining liquid mixing volume. The Ginna calculations used a best estimate decay heat assumption and neglected voiding as did the calculations for the as-submitted Beaver Valley Units 1 and 2 EPU LAR. Recent boric acid re-analysis cases performed in response to RAls for Beaver Valley Units I and 2 EPU LAR (Reference 4) show that best estimate decay heat assumption and neglected voiding are offset by partial credit for mixing in the lower plenum and by taking full credit for the experimentally determined boric acid solubility limit at the atmospheric boiling temperature of a water/boric acid solution (Figure 2). Figure 3 shows the original and re-analyzed boric acid concentration transient for the Beaver Valley Unit 1 EPU. It is expected that revised calculations for Ginna would show the same result.
References
- 1. Letter dated August 1, 2005 from R. A. Gramm, U. S. Nuclear Regulatory Commission to J. A. Gresham, Westinghouse Electric Company, "Suspension of NRC Approval for Use of Westinghouse Topical Report CENPD-254-P, 'Post LOCA Long-term Cooling Model' Due to Discovery of Non-conservative Modeling Assumptions During Calculations Audit"
- 2. Letter from M. G. Korsnick (Constellation Energy) to D. M. Skay (USNRC), License Amendment Request Regarding Revised Loss of Coolant Accident (LOCA) Analyses -
Changes to Accumulator, Refueling Water Storage (RWST), and Administrative Control Technical Specifications, R. E. Ginna Nuclear Power Plant, Docket No. 50-244, April 29, 2005
- 3. Westinghouse Letter to the NRC, CLC-NS-309, "Long Term Buildup of Boric Acid," 04 75.
- 4. FENOC Letter to NRC, L:-05-112, "Responses to a Request for Additional Information in Support of License Amendment Request Nos. 302 and 173," 07-08-05.
AN I I I I I I I I _'
, 35 ___-n-----~
I I --
I I I 30 .-- I I' _-' ---
C 0
9 25 - - - - - ----- J -_- - - _____--- -L - ________-
C , -. __T 8 J' ,9.5 hrs.. 2927
,20 _ - - - - - - -_ - ------- - _ wt % solubility -
_ _ _ _limit
< 15 - - - - - - - - -- - - - - - - - - - - - - -
, 8.7 hrs., 27.53 U .4 ' wt % solubiilty m 10 ;I _ limit
/ Boric Aid Precipitation 5 ---------- r - Time @ 6.5 hrs.. 23.53 -- -- - -- -
.wt % solubilitylimit n , I I II IJ 0 10,000 20,000 30,000 40,000 50,000 Time (sec)
Figure 1 - Ginna Post-LOCA Core Region Boric Acid Concentration vs. Time I - Experimentally Measured Limit 80 F 70
-60
.1 50 n 40 0 30 U)30 20
<C.) 20 0
co 10 0
0 50 100 150 200 250 300 350 Temperature (°F)
Figure 2 - Boric Acid Solubility Limit vs. Temperature [Cohen, 19691
-R e-analysis ---- Original .---- Solubility Limit 50 .
4 5 - - - - - - - - - -_I - - - - - - - - ---I - - - - - - - - -----
I - - - - - - . -_-_--_-__-__-_-
I -_,--_- -_-__
I I
{ 235 -- - -- - --- --- - - ---
i / I I I I 0.410--r---
2 5n~~~~~~0 LIP MxiiBeis/ng 4--1 Jaris Epce
-r------
Eries Eece I - Pre cipitation 0 -
O.I . I -. .- .. .. .
LI MxIng Beg Earliest Expected
, ; , .Time Onginalyi
..-- -- Precp, o 0 10,000 20,000 30000 40,000 50I000 Time (sec)
Figure 3 - Beaver Valley Unit 1 - Boric Acid Precipitation, Original Analysis versus Re-analysis
ENCLOSURE 3 R.E. Ginna Nuclear Power Plant List of Regulatory Commitments The following table identifies those actions committed to by R.E. Ginna Nuclear Power Plant, LLC in this document. Any other statements in this submittal are provided for information purposes and are not considered to be regulatory commitments.
REGULATORY COMMITMENT DUE DATE Provide a supplemental response to the generic Prior to October 31, 2005.
boric acid precipitation concerns that apply to Ginna.
. I, . 1 - .
I ...
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