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Category:SAFETY EVALUATION REPORT--LICENSING & RELATED ISSUES
MONTHYEARML20209G0011999-07-0909 July 1999
Staff Evaluation of Individual Plant Exam of External Events Submittal on Plant,Unit 1
ML20207B6621999-05-27027 May 1999
SER Finding That Licensee Established Acceptable Program to Periodically Verify design-basis Capability of safety-related MOVs at TMI-1 & That Util Adequately Addressed Actions Required in GL 96-05
ML20206D4201999-04-20020 April 1999
Safety Evaluation Granting Exemption from Technical Requirements of 10CFR50,App R,Section III.G.2.c for Fire Areas/Zones AB-FZ-4,CB-FA-1,FH-FZ-1,FH-FZ-6,FH-FZ-6, IPSH-FZ-1,IPSH-FZ-2,AB-FZ-3,AB-FZ-5,AB-FZ-7 & FH-FZ-2
ML20196K3561999-01-22022 January 1999
Safety Evaluation Concluding That Although Original Licensee Thermal Model Was Unacceptable for Ampacity Derating Assessments Revised Model Identified in 970624 Submittal Acceptable for Installed Electrical Raceway Ampacity Limits
ML20196F6861998-12-0202 December 1998
Safety Evaluation Accepting Licensee Second 10-yr Interval ISI Program Plan Request for Alternative to ASME B&PV Code Section XI Requirements Re Actions to Be Taken Upon Detecting Leakage at Bolted Connection
ML20195C6921998-11-12012 November 1998
Safety Evaluation Supporting Amend 52 to License DPR-73
ML20153A9941998-09-16016 September 1998
Safety Evaluation Denying Request to Remove Missile Shields from Plant Design
ML20151U8821998-09-0808 September 1998
SER on Revised Emergency Action Levels for Gpu Nuclear,Inc, Three Mile Island Nuclear Plant Units 1 & 2
ML20237A8331998-08-12012 August 1998
Safety Evaluation Accepting USI A-46 Program Implementation at Plant,Unit 1
ML20199G8371998-01-22022 January 1998
SER Accepting Licensee Response to GL 95-07, Pressure Locking & Thermal Binding of Safety-Related Power-Operated Gate Valves, for Three Mile Island Nuclear Station,Unit 1
ML20210Q9991997-08-28028 August 1997
Safety Evaluation Concluding That Since 25th Tendon Surveillance on Few Yrs Away,Adequacy of Remaining Prestressing Force Will Be Critical to Verify
ML20149F9961997-07-18018 July 1997
Safety Evaluation Re Gpu Nuclear Operational Quality Assurance Plan,Rev 10 for Three Mile Island Nuclear Generating Station,Unit 1 & Oyster Creek Nuclear Generating Station
ML20138H6671996-12-19019 December 1996
Safety Evaluation Accepting Util IPE Submittal in Response to GL 88-20
ML20134D7811996-10-24024 October 1996
Safety Evaluation Supporting Amend 51 to License DPR-73
ML20128L6741996-10-11011 October 1996
Safety Evaluation Accepting Third ten-year Interval for Pump & Valve Inservice Testing Program for Facility
ML20128K1981996-10-0808 October 1996
Safety Evaluation Supporting Amend 50 to License DPR-73
ML20059D1771993-12-28028 December 1993
Safety Evaluation Supporting Amend 48 to License DPR-73
ML20062K1041993-12-0606 December 1993
Safety Evaluation Supporting Amend 47 to License DPR-73
ML20058F0311993-11-16016 November 1993
SE Informing That Changes to Pdms Requirements & Commitments List of 930115,does Not Constitute Unreviewed Safety Question,Nor Do They Involve Significant Hazard or an Environmental Impact
ML20059K3001993-11-0808 November 1993
Safety Evaluation Supporting Amend 46 to License DPR-73
ML20057A3641993-09-0101 September 1993
SER Denying Licensee 930216 & 0416 Requests for Relief from Certain Requirements of ISI Program
ML20056F0171993-08-0505 August 1993
Safety Evaluation Accepting Proposed Changes to Pdms Requirements & Commitments List of 930115
ML20128P7321993-02-19019 February 1993
Safety Evaluation Supporting Amend 171 to License DPR-50
ML20126M2861993-01-0505 January 1993
Safety Evaluation Granting Relief from ISI Post Repair Hydrostatic Schedule Requirements
ML20058G1331990-11-0606 November 1990
Safety Evaluation Supporting Amend 39 to License DPR-73
ML20058P4681990-08-0909 August 1990
Safety Evaluation Accepting Changes to Table 4.3-3 of Recovery Operations Plan
ML20247L0681989-09-11011 September 1989
Safety Evaluation Supporting Amend 35 to License DPR-73
ML20245J4411989-06-23023 June 1989
Safety Evaluation Supporting Util 850823 Response to Generic Ltr 83-28,Item 4.5.3, Reactor Trip Reliability - On-Line Functional Testing of Reactor Trip Sys
ML20247E8141989-05-18018 May 1989
Safety Evaluation Accepting Proposed Changes to Recovery Operations Plan
ML20247G4131989-05-15015 May 1989
Safety Evaluation Supporting Amend 34 to License DPR-73
ML20245J1201989-04-27027 April 1989
Safety Evaluation Supporting Amend 149 to License DPR-50
ML20245A6521989-04-12012 April 1989
Safety Evaluation Supporting Amend 33 to License DPR-73
ML20196B3071988-12-0101 December 1988
Safety Evaluation Supporting Approval of Lower Core Support Assembly & Lower Head Defueling
ML20153E6861988-08-31031 August 1988
Safety Evaluation Accepting Request for Exemption from Lecture Requirements of 10CFR55.59(c)(2) & for Exceptions to Control Manipulations Required by 10CFR55.59(c)(3)(i), Subsections (a) to (AA)
ML20153E8471988-08-30030 August 1988
Safety Evaluation Approving Request for Mod of Recovery Operations Plan Table 4.3.3
ML20195B6991988-05-27027 May 1988
Safety Evaluation Supporting Amend 30 to License DPR-73
ML20155B3151988-05-25025 May 1988
Safety Evaluation Supporting Amend 30 to License DPR-73
ML20151D5611988-03-31031 March 1988
Sser of Util 870917 & 1103 Justifications for Proposals & & Relief Requests Re Pump & Valve Inservice Testing Program Denied in 870319 Ser.Exclusion of Stated Valves Accepted
ML20150D5101988-03-18018 March 1988
Safety Evaluation Supporting Util 871027 Submittal Re Reconfiguring Main Steam Line Rupture Detection Sys Bypass Indicating Lamp During Cycle 8 Refueling Outage
ML20147D9721988-02-26026 February 1988
Supplemental Safety Evaluation Supporting Util Use of Rochester Instrument Sys Model SC-1302 Isolation Devices,Per NUREG-0737,Suppl 1
ML20147E2491988-01-0808 January 1988
Safety Evaluation Supporting Util 871203 & 28 Requests to Use Core Bore Machine to Dismantle Lower Core Suport Assembly
ML20237B1501987-12-10010 December 1987
SER Supporting Util Response to Generic Ltr 83-28,Item 2.1 (Part 2), Vendor Interface Programs (Reactor Trip Sys Components)
ML20236T5611987-11-18018 November 1987
SER Accepting Util 831108,850805 & 870529 Responses to Generic Ltr 83-28,Item 2.2.1, Equipment Classification Programs for All Safety-Related Components
ML20236M9221987-11-0505 November 1987
Safety Evaluation Supporting Util Proposal Re Elimination of Postulated Primary Loop Pipe Ruptures from Design Basis
ML20235S3241987-10-0101 October 1987
Safety Evaluation Approving Util 870724 Request for Staging of Two Radwaste Solidification Liners in Waste Handling & Packaging facility.TMI-2 Svc List Encl
ML20237G5301987-08-12012 August 1987
Safety Evaluation of Util Response to Item 2.1 (Part 1) of Generic Ltr 83-28, Equipment Classification (Reactor Trip Sys Components) TMI-1. Util Response Acceptable
ML20234B9701987-06-25025 June 1987
Safety Evaluation Supporting Amend 28 to License DPR-73
ML20212Q7341987-04-17017 April 1987
Safety Evaluation Supporting Amend 27 to License DPR-73
ML20206B4131987-04-0303 April 1987
Safety Evaluation Supporting Util 850416 Request for Deletion of Constraint of 20-ft Square Modified Penetrations Between Reactor & Auxiliary/Fuel Handling Bldgs.Expanding of Limit to 40-ft Square Acceptable
ML20205C6161987-03-20020 March 1987
Safety Evaluation Re Util 860820 & 1020 Requests for Relief from ASME Code Section XI Requirements for Class 1,2 & 3 Components.Relief Should Be Granted Except for Requests 4 & 7.Insufficient Info Provided for Request 7
1999-07-09
[Table view]
Category:TEXT-SAFETY REPORT
MONTHYEARML20217K4701999-09-30030 September 1999
Monthly Operating Rept for Sept 1999 for TMI-1.With
ML20211H5111999-08-31031 August 1999
Non-proprietary Rev 1 to MPR-1820(NP), TMI Nuclear Generating Station OTSG Kinetic Expansion Insp Criteria Analysis
ML20211Q3551999-08-31031 August 1999
Monthly Operating Rept for Aug 1999 for Tmi,Unit 1.With
ML20210R4791999-08-13013 August 1999
Update 3 to Post-Defueling Monitored Storage SAR, for TMI-2
ML20210U4791999-07-31031 July 1999
Monthly Operating Rept for July 1999 for TMI-1.With
ML20209G0011999-07-0909 July 1999
Staff Evaluation of Individual Plant Exam of External Events Submittal on Plant,Unit 1
ML20210K7651999-07-0909 July 1999
Rev 2 to 86-5002073-02, Summary Rept for Bwog 20% Tp Loca
ML20209H8251999-07-0101 July 1999
Provides Commission with Evaluation of & Recommendations for Improvement in Processes Used in Staff Review & Approval of Applications for Transfer of Operating Licenses of TMI-1 & Pilgrim Station
ML20209H1421999-06-30030 June 1999
Monthly Operating Rept for June 1999 for TMI-1.With
ML20195H0751999-06-0808 June 1999
Drill 9904, 1999 Biennial Exercise for Three Mile Island
ML20195H9261999-05-31031 May 1999
Monthly Operating Rept for May 1999 for TMI-1.With
ML20209G0351999-05-31031 May 1999
TER on Review of TMI-1 IPEEE Submittal on High Winds,Floods & Other External Events (Hfo)
ML20207B6621999-05-27027 May 1999
SER Finding That Licensee Established Acceptable Program to Periodically Verify design-basis Capability of safety-related MOVs at TMI-1 & That Util Adequately Addressed Actions Required in GL 96-05
ML20206R0571999-04-30030 April 1999
Monthly Operating Rept for Apr 1999 for Tmi,Unit 1.With
ML20206D4201999-04-20020 April 1999
Safety Evaluation Granting Exemption from Technical Requirements of 10CFR50,App R,Section III.G.2.c for Fire Areas/Zones AB-FZ-4,CB-FA-1,FH-FZ-1,FH-FZ-6,FH-FZ-6, IPSH-FZ-1,IPSH-FZ-2,AB-FZ-3,AB-FZ-5,AB-FZ-7 & FH-FZ-2
ML20209G0071999-03-31031 March 1999
Submittal-Only Screening Review of Three Mile Island,Unit 1 Individual Plant Exam for External Events (Seismic Portion)
ML20205K6851999-03-31031 March 1999
Monthly Operating Rept for Mar 1999 for Tmi,Unit 1.With
ML20210C0161999-03-0101 March 1999
Forwards Corrected Pp 3 of SECY-98-252.Correction Makes Changes to Footnote 3 as Directed by SRM on SECY-98-246
ML20207M8461999-02-28028 February 1999
Monthly Operating Rept for Feb 1999 for TMI-1.With
ML20196K3561999-01-22022 January 1999
Safety Evaluation Concluding That Although Original Licensee Thermal Model Was Unacceptable for Ampacity Derating Assessments Revised Model Identified in 970624 Submittal Acceptable for Installed Electrical Raceway Ampacity Limits
ML20207A9291998-12-31031 December 1998
1998 Annual Rept for TMI-1 & TMI-2
ML20196G4661998-12-31031 December 1998
British Energy Annual Rept & Accounts 1997/98. Prospectus of British Energy Share Offer Encl
ML20196F6861998-12-0202 December 1998
Safety Evaluation Accepting Licensee Second 10-yr Interval ISI Program Plan Request for Alternative to ASME B&PV Code Section XI Requirements Re Actions to Be Taken Upon Detecting Leakage at Bolted Connection
ML20198B8641998-11-30030 November 1998
Monthly Operating Rept for Nov 1998 for TMI-1.With
ML20195C6921998-11-12012 November 1998
Safety Evaluation Supporting Amend 52 to License DPR-73
ML20195J8591998-11-12012 November 1998
Rev 11 to 1000-PLN-7200.01, Gpu Nuclear Operational QA Plan
ML20196B7191998-10-31031 October 1998
Monthly Operating Rept for Oct 1998 for TMI-1.With
ML20203G1211998-10-30030 October 1998
Informs Commission About Staff Preliminary Views Concerning Whether Proposed Purchase of TMI-1,by Amergen,Inc,Would Cause Commission to Know or Have Reason to Believe That License for TMI-1 Would Be Controlled by Foreign Govt
ML20155E7511998-10-15015 October 1998
Rev 1 to Form NIS-1 Owners Data Rept for Isi,Rept on 1997 Outage 12R EC Exams of TMI-1 OTSG Tubing
ML20154L5541998-09-30030 September 1998
Monthly Operating Rept for Sept 1998 for TMI Unit 1.With
ML20153A9941998-09-16016 September 1998
Safety Evaluation Denying Request to Remove Missile Shields from Plant Design
ML20151U8821998-09-0808 September 1998
SER on Revised Emergency Action Levels for Gpu Nuclear,Inc, Three Mile Island Nuclear Plant Units 1 & 2
ML20151V2811998-08-31031 August 1998
Monthly Operating Rept for Aug 1998 for Tmi,Unit 1.With
ML20237A8331998-08-12012 August 1998
Safety Evaluation Accepting USI A-46 Program Implementation at Plant,Unit 1
ML20237C6411998-07-31031 July 1998
Monthly Operating Rept for July 1998 for Tmi,Unit 1
ML20236R2201998-06-30030 June 1998
Monthly Operating Rept for June 1998 for TMI-1
ML20236W9961998-06-0909 June 1998
1998 Quadrennial Simulator Certification Rept
ML20248F7441998-05-31031 May 1998
Reactor Vessel Working Group,Response to RAI Regarding Reactor Pressure Vessel Integrity
ML20249A1061998-05-31031 May 1998
Monthly Operating Rept for May 1998 for TMI-1
ML20247G0761998-04-30030 April 1998
Monthly Operating Rept for Apr 1998 for Three Mile Island Nuclear Station,Unit 1
ML20212A2191998-04-22022 April 1998
Rev 3 to Gpu Nuclear Post-Defueling Monitored Storage QAP for Three Mile Island Unit 2
ML20248H6991998-04-0808 April 1998
Requests,By Negative Consent,Commission Approval of Intent to Inform Doe,Idaho Operations Ofc of Finding That Adequate Safety Basis Support Granting Exemption to 10CFR72 Seismic Design Requirement for ISFSI to Store TMI-2 Fuel Debris
ML20216K1061998-03-31031 March 1998
Monthly Operating Rept for Mar 1998 for Three Mile Island Nuclear Station,Unit 1
ML20217E0811998-03-24024 March 1998
Rev 0 to TR-121, TMI-1 Control Room Habitability for Max Hypothetical Accident
ML20212E2291998-03-0404 March 1998
Rev 11 to 1000-PLN-7200,01, Gpu Nuclear Operational QAP, Consisting of Revised Pages & Pages for Which Pagination Affected
ML20216F0981998-02-28028 February 1998
Monthly Operating Rept for Feb 1998 for Three Mile Island Nuclear Station,Unit 1
ML20202F8121998-01-31031 January 1998
Monthly Operating Rept for Jan 1998 for TMI Nuclear Station, Unit 1
ML20199G8371998-01-22022 January 1998
SER Accepting Licensee Response to GL 95-07, Pressure Locking & Thermal Binding of Safety-Related Power-Operated Gate Valves, for Three Mile Island Nuclear Station,Unit 1
ML20198N2901998-01-12012 January 1998
Form NIS-1 Owners' Data Rept for Isi
ML20199J3251997-12-31031 December 1997
Monthly Operating Rept for Dec 1997 for Three Mile Island Nuclear Station,Unit 1
1999-09-30
[Table view] |
Text
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Safety Evaluation Report for Three Mile Island Unit 1 Regarding Generic Letter 81-21 Natural Circulation Cooldown Backerau"d On J me 11, 1980, St. Lucie Unit 1 experienced a natural circulation coi t:3wn event which resulted in the formation of a steam bubble in the uppdr head region of the reactor vessel. This resulted in the generation of NPC deneric Letter 81-21, dated May 5,1981, to all PWR licensees. The ifcansees were to provide an assessment *of the ability of their facility's procedures and training program to properly manage similar event.s. This ass'esiment was to include:
4 (1) A demonstration (e.g., analysis and/or test) that controlled natural
- circulation cooldown from operating conditions to cold shutdown condi-tions conducted in accordance with their procedures, should not result in reactor vessel voiding.
l (2) (Nrification that supplies of condensate grade auxiliary feedwater are sufficient to support their cooldown method, and (3) A description of their training program and the revisions to their pro-cedures.
The licensee responded to this request in references 1 and 2. The following is our evaluation of the licensee's response to the concerns outlined above. l 8406150281 840605 l PDR ADOCK 05000289 P_ FDR ~
I
Evaluation To prevent reactor vessel upper head void formation during a natural circula-tion cooldown, the reactor coolant system (RCS) pressure must be maintained above the saturation pressure corresponding to the reactor vessel upper head fluid temperature. The licensee provided, in reference 2, an analysis of the reactor vessel upper head temperature during a natural circulation cooldown.
This analysis was utilized by the licensee to identify improvements to the natural circulation cooling procedure needed to assure that voids will not.
form in the reactor vessel upper head during the cooldown.
The analysis of the upper head cooldown was performed using the HEATING 6 (Reference 3) computer code. HEATING 6 is a multi-dimensional, generalized heat conduction code. The reactor vessel upper head was modeled in two di-mensions, R-Z geometry, based on symetry about the center control rod drive.
Ninety-one regions and 2033 nodes were used to describe the upper head in detail. The primary ccmponents of the model are the plenum cover, upper head water nass, the vessel wall, the vessel head, the vessel insulation, and the control rod drive leadscrews, guide tubes and nozzles.
In performing the analysis, the initial temperatures for the upper head
, fluid and metal were assumed to be 6040F which corresponds to the hot leg temperature at 100% power. The reactor coolant pumps were tripped at the start of the analysis and a flow coastdown to a natural circulation flow of 3% was used. Coolant flow through the control rod drive guide tubes was assumed to be 8% of the system loop flow. The guide tube flow was )
assumed to mix only in the first 20.5 inches above the plenum cover. l l
i
i
! Natural convection heat transfer correlations were utilized at all metal-water interfaces in the upper head. Thermal miking, as a result of natural convection within the upper head, was simulated via an effective thermal conductivity for the water.
j The analysis covered the natural circulation cocidown from 6040F to the decay
- heat removal system (DHRS) c.utin point. To allow operation of the DHRS, RCS pressure and temperature must be reduced to 325 psig and 30G0F, respec-tively. To prevent void formation in the reactor vessel upper head t
~
f at the time of DHRS cutin, the upper head fluid temperature must be reduced to less than 4290F. This temperature correspo,nds to the saturation temperature at 325 psig.
J The RCS cooldown was simulated in three steps. First, a cooldown from 6040F to 3750F, at a rate of 100F/hr, was used. A ' soak' or holding period of 15 hours1.736111e-4 days <br />0.00417 hours <br />2.480159e-5 weeks <br />5.7075e-6 months <br /> at 3750F was then simelated to allow the reactor vessel upper l head to cool . The RCS was then cooled to 3000F at 100F/hr.
Based on this cooldown scenario, the results showed that the reactor vessel upper head cooled at an average rate of 40F/hi. At the end of the simula-j tion, the upper head temperature had been reduced below 4290F, thereby per-
, mitting operation of the DHRS. Thus, the licensee concludes that a natural 4
circulation cooldown can be performed in 46 hours5.324074e-4 days <br />0.0128 hours <br />7.60582e-5 weeks <br />1.7503e-5 months <br /> without resulting' in re-f actor vessel upper head void formation.
1 p The staff has reviewed the licensee's analysis and finds it acceptable. .
4 4
Based upon the analysis results, the licensee stated, in reference 2, that the TMI-1 Natural Circulation Cooling Procedure (0P1102-16) will be revised, in June 1984, to include a curve which provides the minimum pressure necessary to prevent reactor vessel upper head void formation. An example of this curve was provided in reference 2. However, the licensee intends to perform additional analysis, utilizing the same techniques described above, for various cooldown rates in order to further refine the minimum pressure curev. The staff finds this approach acceptable. In addition, the staff concludes that appropriate implementation of the minimum pressure curve into the plant-specific procedures will be adequate.for the operator to safely conduct a natural circulation cooldown without upper head void formation.
While Generic Letter 81-21 requested that the licensee demonstrate that a natural circulation cooldown could be performed without upper head void formation, the staff also requested, via reference 4, that the licensee demonstrate that the procedures also provide guidance to the operator to recognize and respond to an upper head void should one occur. The licensee identifed specific portions of its Natural Circulation Cooling Procedure which includes guidance on recognizing void formation and actions to be taken should a void form. The procedure states that a reactor vessel head void can be recognized by a large, rapid increase in pressurizer level while reducing RCS pressure. Should this occur, the procedure prescribes increasing RCS pressure to allow for bubble collapse and thereby returning pressure control to the pressurizer. In addition, the procedure requires that a subcooling margin of at least 25'F be maintained in order to prevent void formation in the hot leg which could potentially lead to an interruption of natural circulation. The licensee has committed to improve the procedures OP1102-16 by including instructions for collapsing a steam bubble in the vessel head and L
for re-establishing natural circulation if it should be interrupted. The staff finds the guidance and commitments discussed above to be acceptable.
The licensee judged, in reference 1, that the TMI-1 condensate-grade auxiliary feedwater supplies are sufficient to support a natural circulation cooldown. TMI-1 has two condensate storage tanks each normally containing 250,000 gallons, with a Technical Specification minimum of 150,000 gallons per tank. In addition, the licensee identified two other potential sources:
a one million gallon capacity demineralized water storage tank; and about 24,000 gallons in the condenser hotwell. Thus,, TMI-1 has at least 1,300,000 gallons of condensate-grade EFW supply. We estimate that this is sufficient inventory to support a cooldown time in excess of 100 hours0.00116 days <br />0.0278 hours <br />1.653439e-4 weeks <br />3.805e-5 months <br />. Since the licensee estimates a cooldown time of approximately 46 hours5.324074e-4 days <br />0.0128 hours <br />7.60582e-5 weeks <br />1.7503e-5 months <br />, we judge that TMI-1 has adequate condensate-grade AFW feedwater supply.
The licensee also provided a description of its training program dealing with reactor vessel upper head voiding. The licensee stated that its operators
- have been trained on the St. Lucie Unit 1 event. In addition, the operators are trained on the use of the Natural Circulation Cooling Procedure, including recognition and mitigation of an upper head void. We conclude that the licensee's training program adequately addresses upper head voiding during a natural circulation cooldown.
Conclusion Upper head voiding, in itself, does not present any safety concerns provitted the operater has adequate training and procedures to recognize and react to L _
l the situation. Voiding in the upper head makes RCS pressure control more difficult and therefore if the situation warrants, natural circulation
! cooldown should be performed without voiding.
- The licensee's analysis showed that a 46 hour5.324074e-4 days <br />0.0128 hours <br />7.60582e-5 weeks <br />1.7503e-5 months <br /> cooldown, which includes a 15 l hour holding period to allow the reactor vessel upper head to cool, is I
necessary to prevent upper head void formation during ja natural circulation cooldown. The staff concludes that the' licensee has demonstrated its ability to cooldown without voiding and has shown it has sufficient condensate supply to support such a cooldown.
The licensee identified changes to be made in the Natural Circulation CoolingProcedure(0P1102-16). The staff finds that upon appropriate implementation of these changes, the licensee's procedures will be adequate to perform a safe natural circulation cooldown.
4 Dated:
I
! This Safety Evaluation was prepared by Robert Jones, Reactor Systems Branch.
I I
References:
- 1. Letter from H. D. Hukill (GPU) to J. F. Stolz (NRC), Natural Circulation Cooldown (Response to Generic Letter 81-22), December 7,1981.
~
- 2. Letter from H. D. Hukill (GPUN) to J. F. Stolz (NRC), Na cural Circulation Cooldown, (GL81-21), April 4,1984 t
- 3. HEATIN G6: A Multi-Dimensional Heat Conductfon Analysis with the Finite -
Difference Formulation, RSIC # RSR-199.
4 NRC Letter, J. F. Stolz (NRC) to H. D. Hukill (GPUN), Request for Addi-tional Information, Natural Circulation Co61'down (GL81-21), July 20,1983.
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