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| issue date = 04/13/1994
| issue date = 04/13/1994
| title = Summary of 940324 Public Meeting W/Util to Discuss Steam Generator Replacement & Fuel Reload Changes for 1996.Agenda Encl
| title = Summary of 940324 Public Meeting W/Util to Discuss Steam Generator Replacement & Fuel Reload Changes for 1996.Agenda Encl
| author name = MECREDY R C
| author name = Mecredy R
| author affiliation = ROCHESTER GAS & ELECTRIC CORP.
| author affiliation = ROCHESTER GAS & ELECTRIC CORP.
| addressee name = JOHNSON A R
| addressee name = Johnson A
| addressee affiliation = NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM), NRC OFFICE OF NUCLEAR REACTOR REGULATION (NRR)
| addressee affiliation = NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM), NRC OFFICE OF NUCLEAR REACTOR REGULATION (NRR)
| docket = 05000244
| docket = 05000244
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=Text=
=Text=
{{#Wiki_filter:ACCELERATED DI TRIBUTION DEMONS I'tt" i~Cy TION SYSTEM REGULATORY INFORMATION DISTRIBUTION SYSTEM (RIDS)ACCESSION NBR:9404190372 DOC.DATE: 94/04/13 NOTARIZED:
{{#Wiki_filter:ACCELERATED DI TRIBUTION DEMONS                                       TION SYSTEM I
NO FACIL:50-244 Robert Emmet Ginna Nuclear Plant, Unit 1, Rochester G ,AUTH.NAME AUTHOR AFFILIATION MECREDY,R.C.
        'tt" i~
Rochester Gas&Electric Corp.RECIP.NAME RECIPIENT AFFILIATION JOHNSON,A.R.
Cy REGULATORY INFORMATION DISTRIBUTION SYSTEM (RIDS)
Project Directorate I-3  
ACCESSION NBR:9404190372                 DOC.DATE: 94/04/13     NOTARIZED: NO         DOCKET FACIL:50-244 Robert Emmet Ginna Nuclear Plant, Unit 1, Rochester                   G 05000244
      ,AUTH. NAME             AUTHOR AFFILIATION MECREDY,R.C.           Rochester Gas & Electric Corp.
RECIP.NAME             RECIPIENT AFFILIATION JOHNSON,A.R.               Project Directorate I-3                                           R


==SUBJECT:==
==SUBJECT:==
Summary of 940324 public meeting w/util to discuss Steam generator replacement 6 fuel reload changes for 1996.Agenda encl.DISTRIBUTION CODE: A001D COPIES RECEIVED:LTR ENCL SIZE: TITLE: OR Submittal:
Summary of 940324 public meeting w/util to discuss Steam generator replacement 6 fuel reload changes for 1996.Agenda encl.                                                                           D DISTRIBUTION CODE: A001D               COPIES RECEIVED:LTR       ENCL       SIZE:
General Distribution DOCKET 05000244 R D NOTES:License Exp date in accordance with 10CFR2,2.109(9/19/72).
TITLE:     OR Submittal: General Distribution NOTES:License Exp date in accordance with 10CFR2,2.109(9/19/72).                     05000244
/05000244 A RECIPIENT ID CODE/NAME PD1-3 LA JOHNSON,A INTERNAL: NRR/DE/EELB NRR/DRCH/HICB NRR/DSSA/SPLB NUDOCS-ABSTRACT OGC/HDS1 EXTERNAL: NRC PDR COPIES LTTR ENCL 1 1 2 2 1 1 1 1 1 1 1 1 1 0 1 1 RECIPIENT ID CODE/NAME PD1-3 PD NRR/DORS/OTS B NRR/DRPW NRR/DSSA/SRXB OC/~LCB I LE 01 NSIC COPIES LTTR ENCL 1 1 1 1 1 1 1 1 1 0 1 1 1 1 D D D NOTE TO ALL"RIDS" RECIPIENTS:
                                                                                                    /
PLEASE HELP US TO REDUCE WASTE!CONTACT THE DOCUMENT CONTROL DESK, ROOM Pl-37 (EXT.20079)TO ELIMINATE YOUR NAME FROM DISTRIBUTION LISTS FOR DOCUMENTS YOU DON'T NEED!TOTAL NUMBER OF COPIES REQUIRED: LTTR 16 ENCL 14 D D S, t lllilSllill llISIZ IIIIII III l>V~@ROCHESTER GAS AND ELECTRIC CORPORATION o e9 EAST AVENUE, ROCHESTER N.Y.14649-0001 ROBERT C MECREDY Vice President Glnna Nuclear Production TELEPHONE AstEA cooE T le 546-2700 April 13, 1994 U.S.Nuclear Regulatory Commission Document Control Desk Attn: Allen R.Johnson Project Directorate I-3 Washington, D.C.20555  
A RECIPIENT               COPIES          RECIPIENT          COPIES            D ID CODE/NAME           LTTR ENCL      ID CODE/NAME        LTTR ENCL PD1-3 LA                     1    1    PD1-3 PD                1    1 JOHNSON,A                   2    2                                              D INTERNAL: NRR/DE/EELB                     1    1    NRR/DORS/OTS B          1    1 NRR/DRCH/HICB                1     1     NRR/DRPW                1   1 NRR/DSSA/SPLB                1    1    NRR/DSSA/SRXB           1    1 NUDOCS-ABSTRACT              1    1    OC/~LCB                 1   0 OGC/HDS1                    1     0          ILE      01      1   1 EXTERNAL: NRC PDR                          1     1     NSIC                    1   1 D
D D
NOTE TO ALL "RIDS" RECIPIENTS:
S, PLEASE HELP US TO REDUCE WASTE! CONTACT THE DOCUMENT CONTROL DESK, ROOM Pl-37 (EXT. 20079) TO ELIMINATEYOUR NAME FROM DISTRIBUTION LISTS FOR DOCUMENTS YOU DON'T NEED!
TOTAL NUMBER OF COPIES REQUIRED: LTTR                 16   ENCL   14
 
lllilSllill IIIIII III llISIZ l>V~@
t ROCHESTER GAS AND ELECTRIC CORPORATION                           o e9 EAST AVENUE, ROCHESTER N.Y. 14649-0001 ROBERT C MECREDY                                                                                     TELEPHONE Vice President                                                                               AstEA cooE T le 546-2700 Glnna Nuclear Production April 13, 1994 U.S. Nuclear Regulatory Commission Document                   Control Desk Attn:                       Allen R. Johnson Project Directorate I-3 Washington, D.C.                       20555


==Subject:==
==Subject:==
Public Meeting on March 24, 1994 to discuss Steam Generator Replacement and Fuel Reload Changes for 1996 R.E.Ginna Nuclear Power Plant Docket No.50-244  
Public Meeting           on March 24, 1994 to discuss Steam Generator Replacement and Fuel Reload Changes for 1996 R.E. Ginna Nuclear Power Plant Docket No. 50-244
 
==Dear Mr. Johnson:==
 
On      March 24, 1994 a public meeting was held with Rochester Gas and Electric                  and members of the NRC Staff to update the staff on the evaluation of the steam generator replacement and fuel reload changes at Ginna Station, currently scheduled for the spring of 1996. This letter provides a summary of the meeting.
J. Cutchin (NRC/OGC) began the meeting with a discussion of the use of 10CFR50.59 for steam generator replacement. It was noted that the NRC Staff determined that 10CFR50.59 could not be used for replacement at V.C. Summer because several changes to the Technical Specifications were intimately connected with the installation of the new larger steam generators. Mr. Cutchin stated that this did not signal a change in staff philosophy.                                        Under the terms of 10CFR50.59, even                      if    a replacement does not involve an unreviewed safety question, prior NRC approval is required                                    if it  involves a change in the Technical Specifications. Mr. Cutchin indicated that if      the plant cannot be operated following a change without certain Technical Specification amendments, then prior approval would be required. However, a replacement project could be broken down into several discrete plant changes (as has been done at other plants),
with the result that prior approval via the Technical Specification amendment process would only be required for certain specific changes, not the entire project.                                  The staff observed that Ginna appears to be different from the V.C. Summer case in that the new steam generators will be physically similar to the existing ones, and that no necessary Technical Specification amendments have been identified.
RG&E              presented          the          current status of the Steam Generator Replacement                    Project.          RG&E  noted that the project would be broken down            into two distinct parts:                        the component design; and the 9404i90372 Tl404i3                                                      oo PDR',i      ADOCJC 05000244'=''.PDR t  )
 
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installation activities. There are currently no intentions to further break down the component design aspect of the project. The installation activity aspect, however, would be further divided into discrete work activities, notably the containment openings, rigging and handling of heavy loads, pipe cutting and restoration, insulation of the generator, and storage of the old steam generators.      Current evaluations indicate that all changes associated with the steam generator replacement can be accomplished without prior staff approval. A schedule was presented indicating when final safety evaluations for these items would be available.
These will be provided to the staff for information only.
RG&E presented a comparison of the existing and replacement steam generators.      The staff noted that the generators appear very similar. RG&E discussed the preliminary safety evaluation of the replacement steam generator design, and the detailed thermal hydraulic models of the primary system and containment being developed to reanalyze some of the UFSAR transients.      The staff questioned the need for detailed models, given the similarities of the generators.
RG&E  presented an overview of changes associated with the 1996 Fuel Reload. Ginna will transition from annual fuel cycles to eighteen month fuel cycles with the 1996 reload, and therefore there would be some Technical Specification amendments associated with the reload. A schedule for these submittals was presented.
RG&E  presented an overview of some of the design features incorporated in the replacement steam generator to correct deficiencies identified in the current generators.        The staff observed that these improvements seemed prudent,        however they cautioned that close attention should be paid to the materials used for  weld  transitions.
RG&E  outlined the inten'ded methods to be used for the structural evaluation of the restored reactor coolant system. Specifically, RG&E intends to include explicit modeling of walls and supports when analyzing the restored system. The staff cautioned that while this appears acceptable, close attention should be given to this to ensure that consistent and conservative modeling of the wall-RCS interfaces are made, particularly with respect to damping factors.
RG&E also presented    information on a displacement model of the reactor coolant system developed to help predict pipe movement during cutting activities. The staff was questioned as to the appropriateness of using temporary supports or restraints, but was agreed that further detail would be needed before a response it could be provided.
RG&E presented    the efforts to date to model the containment to analyze the effects of the temporary construction openings on the structure both during construction and after restoration of the containment. The staff noted that the model appeared to be of
 
sufficient detail to  analyze  all effects  of the openings.
                                /
Copies of the overheads presented by RG&E at this meeting are attached. RG&E appreciates the valuable input and cooperation that was provided by the staff at this meeting.
Very truly yours, Robert C. Mec edy Attachment BJF/327 xc:  Mr. Allen R. Johnson (Mail Stop    14D1)
Project Directorate I-3 Washington, D.C. 20555 U.S. Nuclear Regulatory Commission Region I 475 Allendale  Road King of Prussia,  PA  19406 USNRC Ginna Senior Resident Inspector
 
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Rochester Gas and Electric GINNA STATION STE<AM GL<NERATOR IMPLACEMENT NRC STATUS UPDATE MARCH 24 1994 AGENDA
 
==1.0  INTRODUCTION==
GEORGE< WROBE<L 2.0  SAFETY AND LICENSING                    BRIAN FLYNN BOB ELIASZ 2.1  PRELIMINARY SAFETY EVALUATION 2.2  RELAP MODEL 2.3  CONTEMPT MODEL 24    FUEL CONTRACT 3.0  STATUS / STRESS ANALYSIS UPDATE        JOHN SMITH BE<RNIE CARRICK 3.1  EQUIPMENT / INSTALLATIONSTATUS 3.2  METHODOLOGY AND APPROACI-I 3.3  ACCEPTANCE CRITERIA 3.4  STATUS AND SCI-IEDULE 3.5  DISPLACEMENT MODEL 4.0  S/G DE<SIGN FEATURE<S                  JOHN SMITH 5.0  CONTAINMENT OPE<,NING MODEL            JOHN SMITH 6.0  SUBMITTALSCHEDULE                      GEORGE WROBEL 7.0  RE<PLACEML<'NT VIDE<0                  JOHN SMITH 94p41 9p372 24 March 94
 
C Ginna Station stvl        recit te(
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Rochester Gas and E/ectric R.E. Ginna Stcam Gcncrator Rcplaccmcnt Comparison of Existing vs. Proposed Existing                Replacement Manuf./Model                                  W/44 (fccdring)        BWI (fccdring)
Primary Side Prcssure Drops (0% plug)
Nozzle inlet to Nozzle outlet          33.5 psi                31.1 psi Primary Side Flow for above dp's              34.6  E<06 lbm/hr      34.9 E<06  lbm/h IIeat Transfer Areas 0% Plugging                          44430 sq. ft.          54000 sq. ft.
15% Plugging                          37765 sq. ft.
20% Plugging                                                  43200 sq. ft.
Tubing OutsideDiameter                        0.875 in              '.750    in Avg. Wall Thickness
            ~                                  0.050 in                0.0431 in Number of Tubes                        3260                    4765
              ~
Material                              Inconcl 600, MA        Alloy 690, TT Volumes, primary side Inlet Plenum                          133 cu. ft.            132.5 cu.ft.
Tubes                                  654.5 cu. ft.          710 cu.ft.
Outlet Plenum                          133 cu. ft.            132.5 cu. ft.
Secondary Volume, Total                        45SO cu. ft.          4513 cu. ft.
Secondary Water Mass, nominal 100% (1520 MWt)                        S4,500 Ibm              S6,200 lbm 0% (HZP)                              11S300 Ibm              115,100 Ibm Secondary Mass Flow, 100%                      3.3 E06 lbm/hr          3.3 E06 lbm/hr Stcam Linc Orifice Size                        4.37 sq. ft.            1.4 sq. ft.
Initial Stcam Pressure, 100%                  800 psia                875 psia 24 March 94
 
STEAM OUTLET TO TURBINE GENERATOR DEMISTERS SECONDARY MOISTURE SEPARATOR SECONDARY MANWAY ORFICE RINGS UPPER SHELL SWIRL VANE PRIMARY MOISTURE SEPARATOR FEEDWATER RING FEEDWATER INLET ANTIVIBRATION BARS TUBE BUNDLE DOWNCOMER FLOW RESISTANCE PLATE LOWER SHELL WRAPPER TUBE SUPPORT PIATES SECQMDARY MAMOMOLE                                  BLOWOOWN LINE TUBE SHEET TUBE LANE BLOCK                                          PRIMARY MANWAY PRIMARY COOIANT OUTLET PRIMARY COOIANT INLET QK      SERIES      44 STEAM GENERATOR          NOT 70 SCALE 922$
 
Babcock 8 Witch Canada Advanced Series
'PNR,Rtep/acement Steam Generator Steam nozzle High elliciency moisture separators Bundle inspection access duct Feedwalef inlel Feedwater header Stainless steel lnttice4sar lube support gird PVF&).
Tube bundle Handholes
                                    ,    I Integral vertical suppon Primary nozzle Primary.side manway Design Objectives
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                                                ~ prevent loose ports
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Ginna Station Bechtel Lsmpson Rochester Gas and E/ectric Ginna Accident Analysis EVALUATE    ANALYZE 15.1  Increase in I-Ieat Removal by the Secondary System X                              15.1.1 Decrease in Feedwater Temperature X                              15.1.2 Increase in Fcedwater Flow X                              15.1.3 Excessive Load Increase Incident X                              15.1.4 Inadvertent Opening of a SG Relief/Safety Valve X                15.1.5 Steam Line Breaks Inside and Outside Containment X                15.1.6 SG Relief Valve and Feedwater Control Valve Failure 15.2  Decrease in Heat Removal by the Secondary System 15.2.1 Steam Pressure Regulator Malfunction 15.2.2 Loss of External Electrical Load 15.2.3 Turbine Trip 15.2.4 Loss of Condenser Vacuum 15.2.5 Loss of Offsite Power to the Station Auxiliaries 15.2.6 Loss of Normal Feedwater Flow 15.2.7 Feedwater System Pipe Breaks 15.3  Decrease in RCS Flowrate 15.3.1 Flow Coastdown Accidents 15.3.2 Locked Rotor Accident 15.4  Reactivity and Power Distribution Anomaities X                              15.4.1 Uncontrolled RCCA Withdrawal from Subcritical X                              15.4.2 Uncontrolled RCCA Withdrawal at Power X                              15.4.3 Startup of an Inactive Reactor Coolant Loop X                              15.4.4 CVCS Malfunction X                              15.4.5 RCCA Ejection X                              15.4.6 RCCA Drop X                15.5  Increase in RCS Inventory X                15.6  Decrease in RCS Inventory X                              15.6.1 Inadvertent Opening of a Pressurizer Safety or Relief Valve 15.6.2 Radiological Consequences of Small Lines Carrying RC Outside Containment 15.6.3 Steam Generator Tube Rupture 15.6.4 Primary System Pipe Ruptures 15.6.4.1      SBLOCA X                                      15.6.4.2      LBLOCA X                15.7  Radiological Release From a Subsystem or Component 15.7.1 Radiological Gas Waste System Failure X                              15.7.2 Radiological Liquid Waste System Failure X                              15.7.3 Fuel Handling Accidents X                15.8  Anticipated Transients Without Scram Chapter 6, Chapter 5 6.2.1.2 Containment Integrity 5.2.2 Low Temperature Overpressurization 24 March 94
 
Ginna Station SW          Bechtel Rochester Gas and Electric STEAM GENERATOR REPLACEMENT
: TRANSIENT ANALYSIS STATUS ACTIVITY                                COMPLETION MODELS RELAP                                COMPLETE CONTEMPT                            COMPLETE JALYZE CONTAINMENT                          5/94 ANALYZEACCIDENTS                            9/94 10CFR50.59 EVALUATION                      12/94 24 March 94
 
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                                >1) 01      14        -01      > ) )+MI                                                                                  IS) 01      276-01        ~ I~      4)S OI 1 79                  171                                                                                                    2tl                  tte
                                                                                        ~ 00 1)0                  120                    61                                                                              220                  2)0 l)d          C3-I )4      ~))  1      110            Iod    IOO                700    2nd      210      21)          214              7)d IN                            164                      1>4    I IO                240    2>6      t>o      246                            2)I 160            )40      pQM>                                                                                    >)>M >    ten              260 I~ L                                                                                                                                          164 lbd                                                                                                          tdI              264 140        f~)64                                                                                                                          tdo 24 lvlARCH 94
 
Ginna Slatlort I
Bechtel ljldlp$ 0h ANO Rochester Gas and Electric CORE MODEL GINNA REACTOR VESSEL AND 364 hot leg hot leg                  360                          nozzle leakage path nozzle D        upper plenum oC9                                      351 107 103 102      350                    354 106                                              368 302                upper plenum 349 348                    326          338 1
101 100                                              336 104                          324                      cold leg cold leg                                            nozzle nozzle                    322          334 320          332 318 316          328 312                375 310                  380 24 MAI<CII 94
 
Ginna Station BIVI          Bechtel 1
828mOSOn CD        CD Rochester Gas and Electric MAIN FEEDWATER A WSIOE CONTAlNMENT AFW 820 SGA 801 MFW Pump A 02 806 808 810 18121814 81 6 i --424!
818 822i-4~824 ~83D 625 SGB 888  ~~82      906 908 910 918
                                                    +-~~~22L~924          ~30  931;  933  934      725 901 MFW                                    920 Pump B                              - -iw ==-
AFW MAIN FEEDWATER 8 Ginna MFW RELAP5 Node Diagram 24 ivlAl<Cfl 94
 
Ginna Station Blvl        Bectt t l
1996 FUEL RELOAD
~    NEW WESTINGHOUSE FUEL FABRICATION CONTRACT
~    INSERT VANTAGE -5 FUEL VS. OFA FUEL F. INCREASE FROM  1.66 TO 1.75 Fq INCREASE FROM 2.32 TO 2.50
~    CYCLE LENGTH INCREASE FROM ANNUALTO 18 MONTHS
~    INCREASE SFP ENRICHMENT FROM 4.25 W/0 TO 5.0 W/0 POSSIBLE T,, DECREASE UP TO 15'F 24 MARCH 94
 
kl Ginna SIalion BIVI        BeChtel I
Rochester Gas and Electric FVKI ASSKMBI Y CHARACTERISTICS COMPARISON OF CURRENT VS. 1996 CHARACTERISTIC      CURRENT          1996 TYPE                14  X 14 OFA,  VANTAGE 5 FUEL ROD O.D.        0.40 IN        0.40 IN FUEL CLADDING MATERIAL            Z;4            Z,-4 ACTIVE FUEL LENGTH              141.4 IN      141.4 IN BLANKET REGION/
ENRICHMENT          6 IN/NAT.      6 IN/2.6 W/0 CENTER REGION        UP TO 4.25    UP TO 5.0 ENRICI-IMENT        W/0            W/0 BOTTOM NOZZLES      DFBN          DFBN GRIDS 2 TOP AND BOTTOM    INCONEL-718  'NCONEL-718 7 MID                Z,-4          Z,-4 INTERMEDIATE FLOW MIXING        NONE          NONE DISCHARGE BURNUPS    LOW 40s        MID 50s GWD/MTU        GWD/MTU 24 MARCIA 94
 
Ginna Station Bechtel Rochester Gas and Electric Ginna Accident Analysis 15.1  Increase in Heat Removal by the Secondary System 15.1.1 Decrease in Feedwater Temperature 15.1.2 Increase in Feedwater Flow 15.1.3 Excessive Load Increase Incident 15.1.4 Inadvertent Opening of a SG Relief/Safety Valve 15.1.5 Steam Line Breaks Inside and Outside Containment 15.1.6 SG Relief Valve and Feedwater Control Valve Failure 15.2  Decrease in Heat Removal by the Secondary System 15.2.1 Steam Pressure Regulator Malfunction 15.2.2 Loss of External Electrical Load 15.2.3 Turbine Trip 15.2.4 Loss of Condenser Vacuum 15.2.5 Loss of Offsite Power to the Station Auxiliaries 15.2.6 Loss of Normal Feedwater Flow 15.2.7 Feedwater System Pipe Breaks 15.3  Decrease in RCS Flowrate 15.3.1 Flow Coastdown Accidents 15.3.2 Locked Rotor Accident 15.4  Reactivity and Power Distribution Anomaities 15.4.1 Uncontrolled RCCA Withdrawal from Subcritical 15.4.2 Uncontrolled RCCA Withdrawal at Power 15.4.3 Startup of an Inactive Reactor Coolant Loop 15.4.4 CVCS Malfunction 15.4.5 RCCA Ejection 15.4.6 RCCA Drop 15.5  Increase in RCS Inventory 15.6  Decrease in RCS Inventory 15.6.1 Inadvertent Opening of a Pressurizer Safety or Relief Valve 15.6.2 Radiological Consequences of Small Lines Carrying RC Outside Containment 15.6.3 Steam Generator Tube Rupture 15.6.4 Primary System Pipe Ruptures 15.6.4.1      SBLOCA 15.6.4.2      LBLOCA 15.7  Radiological Release From a Subsystem or Component 15.7.1 Radiological Gas Waste System Failure 15.7.2 Radiological Liquid Waste System Failure 15.7.3 Fuel Handling Accidents 15.8  Anticipated Transients Without Scram 6.2.1.2 Containment Integrity 5.2.2  Low Temperature Overpressurization 24 March 94
 
I 1
 
Ginna Stalion BWI        ge~ht
(
                                                            +npsan ANALYSES THAT WILL BK UPDATED WITH RELOAD 15.1.1    DECREASE IN FEEDWATER TEMPERATURE 15.1.2    INCREASE IN FEEDWATER FLOW 15.1.3    EXCESSIVE LOAD INCREASE INCIDENT 15.1.4    INADVERTENT OPENING OF A SG RV 15.1.5    SLB (BOTH CORE AND M&E)
I 15.1.6    SG RV Ec FW CONTROL VALVE FAILURE 15.2.7    LOSS OF EXTERNAL LOAD/TURBINE TRIP 15.3.1'LOW      COASTDOWN ACCIDENTS 15.6.3    SG TUBE RUPTURE 15.6.4.1  SBLOCA 15.6.4.2  LBLOCA 15.7.3    FUEL HANDLING ACCIDENTS 5.2.2    I.OW TEMP. OVERPRESSURIZATION (BWNT) 24 MARCH 94
 
Ginna Station Bechtel Rochester Gas and Electric SCHEDULE DATA PREPARATION      4/I/94 FINALIZEINPUT DATA    6/1/94 START ANALYSIS      6/1/94 DRAFT REPORT          6/1/95 FINAL REPORT          7/1/95 SUBMIT REPORT TO NRC 8/1/95 CYCLE 26 STARTVP    5/1/96 24 MARCH 94
 
BIYI  Beef)te/
                                          )
E UIPMENT STATUS
~    FABRICATION BY BOW INTERNATIONAL
~    ALL MAJOR COMPONENTS ORDERED MAJOR FORGINGS, JAPAN STEEL WORKS TUBING, VALINOX SHELL PLATE, CREUSOT-LOIRE
~    PRIMARY HEADS CLADDING COMPLETE NOZZLE DAM RINGS BEING INSTALLED PRIMARY NOZZLE BUTTERING UNDERWAY
~    TUBESHEETS CLADDING COMPLETE READY FOR GUNDRILLING OF TUBEHOLES
~    SECONDARY SHELLS LOWER SHELL CONES WELDED HANDHOLES AND INSPECTION PORTS BEING INSTALLED
~    TRANSITION CONK FORGINGS HANDHOLE OPENINGS CUT 24 March 94
 
Ginna Station st t swI      Bechtel E UIPNIENT STATUS CONT'0 TUmNG PRE PRODUCTION UNDERWAY AT VALINOX PREPRODUCTION COMPLETE JUNE 1994 PRODUCTION MATERIALBEING MELTED AT INCO PRODUCTION COMPLETE DECEMBER 1994 24 March 94
 
BltII BlYI  +
                                            )
Ginna Station Bechtel Lpmpson l
INSTALLATIONSTATUS
~    INSTALLATIONCONTRACTOR BKCHTKL POWER DETAILED DESIGN INSTALLATION
~    DETAILED ENGINEERING 1994
~    PROCEDURE PREPARATION 1995
~    ACTIVITIES TO DATE PROJECT INTERFACE PROCEDURES VIDEO PREPARATION CONTAINMENT OPENING STUDY QA PROCEDURE MANUAL PROJECT ENGINEERING PROCEDURES MANUAL INSUI.ATION STUDY DRAFT DESIGN CRITERIA FOR CONTAINMENT STRUCTURAL WORK
~    MAJOR SUBCONTRACTORS POWER CUTTING LAMPSON PSI 24 March 94
 
Ginna Station Blvl        Bechtgl t
Rochester Gas and Electric R. K. GINNA STEAM GENERATOR REPI ACKMKNT
                      \
STRVCTVRAL EVALUATION OF EFFECTED COMPONENTS & SYSTEMS=
24 March 94
 
Ginna Station BlYI        Beep(
l REACTOR COOLANT SYSTEM LATEtST ANALYSIS
~ 1988 SNUBBER REPLACEMENT
~ IMPLEMENT LBB/HELB CRITERIA
~ RIGID STRUTS S/G COLD SPRING ACCEPTANCE CRITERIA
~ PIPING          USASFANSI B31.1 Q  EQUIPMENT      ASMK SECTION    III O  SUPPORTS      ASME SECTION    III 24 March 94
 
Ginna Station Bechtel Ijlfhp50h AHD                                                                                                                            CD Rochester Gas and Electric 38  HAIN S1EAM LINE 38 HAiN StEAM LINE STEAM GENERnlOR )A S)EAM CENERA1OR REACIOR COOLAN1 PUMP )B 14  FEEOWATER LINE 14 FEEOWATER LINE UPPER  SUPPORTS ANO SNUBBERS    l'TYP.)
COLO LEG HOT LEG NOT LEG INTERHEOIATE SUPPORTS          lTYP.)
LOWER SUPPORTS      lTYP.)
CROSSOYER LEG COLO 'LEG REACTOR COOLANT PUHP lA REACtOR vESSEL VIEW OF NSSS        iTEM FOR GINNA NUCLEAR STATION
 
Ginna Stalion Bechtel STRUCTURAL MODELS BWSPAN      STRUCTURAL CODE 3 MODELS BENCHMARK ENHANCED W/OLD S/G
~ ENHANCED W/NKW S/G DEMONSTRATE UNDERSTANDING OF CURRENT BASIS AND LOOP BEHAVIOR GENERATE DETAILED LOADING/STRESS INFO FOR CURRENT S/G DISTINGUISH EFFECTS OF MODEL ENHANCEMENTS AND S/G DIFFKRKNCK CONFIRM/CALCULATELOADS, STRESSES, AND THERMAL MOTIONS FOR NKW S/G 24 March 94
 
Ginna Station Bill t      Bechtel Rochester Gas and Electric LOADING CONDITIONS BENCHMARK DEADWEIGHT 0  OBK ENHANCED MODEL W/OLD S/G
~ DEADWEIGHT 0 OBE ENHANCED MODEL W/NEW S/G Oe DEADWErCHT
~ THERMAL OBK/SSK
~ LOCA/HKLB Q  COLD SHUTDOWN EARTHQUAKE 24 March 94
 
Ginna Station Bechtel I
ACCEPTANCE CRITERIA
: 1. COMPARE TO CURRENT ANALYSIS NKW LOADS < OLD LOADS = OK
: 2. COMPARE TO ALLOWABLKS 0    pnnwG I
                      - B31.1 ALLOWABLKS CURRENT LBB CRITERIA EQVIPNtKNT      - NOZZLKS LOADS
                      - SUPPORT LOADS AUX LINKS        - < '/,6 " ADDED DEFLECTION 24 March 94
 
c!'
            '1
~ 4 w~
J
          ~
        ~
 
Ginna Stalion Bechtel La npsen Rochester Gas end Electric MODEL ENHANCEMENTS i
NKW                    OLD CONSISTENT MASS            LUMPED MASS MODELING EXPLICIT MODELING OF        STIFFNESS MATRIX SUPPORTS FREQUENCY CUTOFF            100 Hz 30Hz N-411 DAMPING              2%/4% DAMPING SINGLE ANCHOR Pt./SINGLE MULTIPLE ANCHOR SPECTRA                    Pts./ENVELOPE SPECTRA CLOSELY SPACED MODES        EPSILON RULE VIA 10 Z. RULE EXPLICIT ACP ANALYSIS      FACTOR ON DISCHARGE FOR HKLB                    COEFFICIENT 24 March 94
 
i ) s Ginna Station Bwl        Bechtel t
lampsan LOADING METHODS SEISMIC DWhTHKRMAL STATIC OBEYS SE RESPONSE SPECTRA
  ~    3 AXIS EXCITATION
  ~    CURRENT DESIGN SEISMIC SPECTRA MULTIPLE CASKS FOR SUPPORTS 0    MODES COMBINED SRSS a      cr.osKz,v spAcKD moDEs vw. io z RUr.E TIME HISTORIES FOR ARSs ON S/G SHELL 24 March 94
 
1
      '0
~ +4
  ~
    ~
  ~e
  &8~
 
~ ~.
BlVI +  Ginna Stalion Bechtel Rochester Gns and E/eclric LOADING METHODS LOCALHK'LB CRAFT  dk, COMPAR2 CODES I
LINEARTIME HISTORY ANAI,YSIS PIPINGLINTKRNALS TRANSIENT LOADS 0  M/E RELEASE FOR ACP ANALYSIS
  ~  ACP ON COMPONENTS
  ~  CONFIRM SUPPORTS ACTIVE RCS: LEAK-BEFORE-BREAK RHR ZZNE SURGE LINK SI LINK IIELB: TERMINALLOCATIONS ONLY MAIN STEAM FEED WATER BLOWDOWN RECIRC NOZZLE 24 March 94
 
"f
  ~ RL
 
Ginna Station ewt          Bechtel I
Rochester Gas and Electric CVRRKNT EXPECTATION DKADWKIGIIT        INCREASE (<5%)
THERMAL          - SAME SEISMIC          - DECREASE '
LOCA                INCREASE (< 15%) '
HKLB                DECREASE
: 1. MODEL ENHANCEMENTS = MORE MARGIN INCREASED WKIGIIT= LESS MARGIN OVERALL EFFECT - EXPECT MORE MARGIN
: 2. BLOWDOWN INITIALCONDITIONS WILL USK 15'F REDUCED TAvE 24 March 94
 
I t 4
 
Ginna Station Bwl        gech~e/
t Rochester Gas and Electric STATUS dk SCHEDULE MODELS NKAmWG COMPLETION STRUCTURAL BENCHMAKKINGSTARTED SEISMIC ANAIVSIS:              COMPLETE 7/94 BLOWDOWN ANALYSES:              COMPLETE 10/94 LOAD COMBINATION dt.
COMPARISONS        COMPLETE 1/95 24 March 94
 
DISPLACEMENT MODEL PURPOSE RG&K TECHNICAL OVERSIGHT OF RCS PIPING CUT &
WELD CONCERNS COLD SPRING (BEFORE  7 AFTER)
WELD FIT-UP RCS TEMPORARY SUPPORT DESIGN VIODEL ANSYS FINITE ELEMENT MODEL OF RCS PLATE & BEAM ELEMENTS MODEL RCS PIPE AS SHELLS 3400 ELEMENTS / 3400 NODES ONE LOOP MODEL STATUS MODEL NEAR COMPLETION 24 March 94
 
Ginna Station BlVI        Etet f)t~]
    )
Lpneson Rochester Gas and Electric
 
t
~CJi.
II
 
Ginna Sialion SWI -,      Bechtel lpm pean a
S/G DESIGN FEATURES PROBI KM            DESIGN FEATURES TUBESHEET DEFECTS        CLOSED CREVICE HYDRAULIC EXPANSION INCONEL 690 TUBING SLUDGE                    HIGH CIRCULATION ACCUMULATIONON              RATIO TUBESHEET                INSPECTION/MAINTEN-ANCE PORTS ACCESSIBLE FOR SLUDGE LANCING DEFECTS AT 7UBE          LATTICE GRIDS SUPPORT PLATES            STAINLESS STEEL CONSTRUCTION INCONEL 690 MATERIAL HIGH CYCLE FATIGUE        FAN BAR SUPPORT SYSTEM WATER HAMMER              GOOSE NECK AT FEEDWArER RING INLET I-TUBES J-TUBE FAILURES          INCONEL 690 FOR EROSION RESISTANCE 24 March 94
 
        'l I
  'iM
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F  %~
 
Ginna Station Bwl        gecgfg(
                                              )
S/G DESIGN FKATVRKS PROBI KM          DESIGN FKATVRKS MOISTURE CARRYOVER        HIGH EFFICIENCY SEPARATORS 0.10%
GUARANTEE PRESSURE BOUNDARY        FORGED AND PLATE WELD FAILURES              COMPONENTS NO CORNER WELDS STRICT PRE AND POST HEAT REQVIREMENTS PWSCC OF U-BFNDS          LARGE MINIMUM RADIUS BENDS STRESS RELIEF OF FIRST 8 ROWS SECONDARY LOOSE          NO FASTENERS, 100%
PARTS                      WELDED STRUCTURE PRIMARY SIDE ACCESS      18" DIAMETER MANWAYS SECONDARY SIDE            6-8" HANDHOLES ACCESS                    14-2" INSPECTION PORTS 1-18" MANWAY PRIMARY NOZZLE            316 LN SAFE ENDS WELDING                      NARROW GAP WELDING SPARE ELBOWS 24 March 94


==Dear Mr.Johnson:==
        "C
On March 24, 1994 a public meeting was held with Rochester Gas and Electric and members of the NRC Staff to update the staff on the evaluation of the steam generator replacement and fuel reload changes at Ginna Station, currently scheduled for the spring of 1996.This letter provides a summary of the meeting.J.Cutchin (NRC/OGC)began the meeting with a discussion of the use of 10CFR50.59 for steam generator replacement.
,VX'A)
It was noted that the NRC Staff determined that 10CFR50.59 could not be used for replacement at V.C.Summer because several changes to the Technical Specifications were intimately connected with the installation of the new larger steam generators.
Mr.Cutchin stated that this did not signal a change in staff philosophy.
Under the terms of 10CFR50.59, even if a replacement does not involve an unreviewed safety question, prior NRC approval is required if it involves a change in the Technical Specifications.
Mr.Cutchin indicated that if the plant cannot be operated following a change without certain Technical Specification amendments, then prior approval would be required.However, a replacement project could be broken down into several discrete plant changes (as has been done at other plants), with the result that prior approval via the Technical Specification amendment process would only be required for certain specific changes, not the entire project.The staff observed that Ginna appears to be different from the V.C.Summer case in that the new steam generators will be physically similar to the existing ones, and that no necessary Technical Specification amendments have been identified.
RG&E presented the current status of the Steam Generator Replacement Project.RG&E noted that the project would be broken down into two distinct parts: the component design;and the 9404i90372 Tl404i3 PDR',i ADOCJC 05000244'=''.PDR oo t) 4 t I l I(k CJu~~~0, installation activities.
There are currently no intentions to further break down the component design aspect of the project.The installation activity aspect, however, would be further divided into discrete work activities, notably the containment openings, rigging and handling of heavy loads, pipe cutting and restoration, insulation of the generator, and storage of the old steam generators.
Current evaluations indicate that all changes associated with the steam generator replacement can be accomplished without prior staff approval.A schedule was presented indicating when final safety evaluations for these items would be available.
These will be provided to the staff for information only.RG&E presented a comparison of the existing and replacement steam generators.
The staff noted that the generators appear very similar.RG&E discussed the preliminary safety evaluation of the replacement steam generator design, and the detailed thermal hydraulic models of the primary system and containment being developed to reanalyze some of the UFSAR transients.
The staff questioned the need for detailed models, given the similarities of the generators.
RG&E presented an overview of changes associated with the 1996 Fuel Reload.Ginna will transition from annual fuel cycles to eighteen month fuel cycles with the 1996 reload, and therefore there would be some Technical Specification amendments associated with the reload.A schedule for these submittals was presented.
RG&E presented an overview of some of the design features incorporated in the replacement steam generator to correct deficiencies identified in the current generators.
The staff observed that these improvements seemed prudent, however they cautioned that close attention should be paid to the materials used for weld transitions.
RG&E outlined the inten'ded methods to be used for the structural evaluation of the restored reactor coolant system.Specifically, RG&E intends to include explicit modeling of walls and supports when analyzing the restored system.The staff cautioned that while this appears acceptable, close attention should be given to this to ensure that consistent and conservative modeling of the wall-RCS interfaces are made, particularly with respect to damping factors.RG&E also presented information on a displacement model of the reactor coolant system developed to help predict pipe movement during cutting activities.
The staff was questioned as to the appropriateness of using temporary supports or restraints, but it was agreed that further detail would be needed before a response could be provided.RG&E presented the efforts to date to model the containment to analyze the effects of the temporary construction openings on the structure both during construction and after restoration of the containment.
The staff noted that the model appeared to be of


sufficient detail to analyze all effects of the openings./Copies of the overheads presented by RG&E at this meeting are attached.RG&E appreciates the valuable input and cooperation that was provided by the staff at this meeting.Very truly yours, Attachment BJF/327 Robert C.Mec edy xc: Mr.Allen R.Johnson (Mail Stop 14D1)Project Directorate I-3 Washington, D.C.20555 U.S.Nuclear Regulatory Commission Region I 475 Allendale Road King of Prussia, PA 19406 USNRC Ginna Senior Resident Inspector 0 0~e f I Ginna Station BWI+Bwl t Beep(Rochester Gas and Electric GINNA STATION STE<AM GL<NERATOR IMPLACEMENT NRC STATUS UPDATE MARCH 24 1994 AGENDA
Ginna Slation Bwl        Bechtgl
                                          )
CONTAINMENT OPENING MODEL CONTAINMENT OPENING DESIGN INCLUDED IN BKCHTKL WORKSCOPK RGK MODEL FOR OVKRCHKCK OF BKCHTKL DESIGN ANSYS FINITE ELEMENT MODEL INCLUDES ENTIRE CONTAXNMKNTSTRUCTURE ROCK ANCHORS BASE rVrATS WALLS AND TENDONS SPRjNG LINE AND TRANSITION DOME STEEL, CONCRETE AND LINER PLATE MODEL DEVELOPMENT COMPLETE VERIFIED AGAINST CLASSICAL SOLUTIONS
~    WILL BE AVAILABLETO VERIFY BECHTEL DESIGN AND FOR CONSTRUCTION.
24 March 94


==1.0 INTRODUCTION==
V' C
n


2.0 SAFETY AND LICENSING 2.1 PRELIMINARY SAFETY EVALUATION 2.2 RELAP MODEL 2.3 CONTEMPT MODEL 2 4 FUEL CONTRACT GEORGE<WROBE<L BRIAN FLYNN BOB ELIASZ 3.0 STATUS/STRESS ANALYSIS UPDATE JOHN SMITH BE<RNIE CARRICK 3.1 3.2 3.3 3.4 3.5 EQUIPMENT/INSTALLATION STATUS METHODOLOGY AND APPROACI-I ACCEPTANCE CRITERIA STATUS AND SCI-IEDULE DISPLACEMENT MODEL 4.0 S/G DE<SIGN FEATURE<S 5.0 CONTAINMENT OPE<,NING MODEL 6.0 SUBMITTAL SCHEDULE 7.0 RE<PLACEML<'NT VIDE<0 JOHN SMITH JOHN SMITH GEORGE WROBEL JOHN SMITH 94p41 9p372 24 March 94 C
Ginna Station Bechtel SCHEDULE FOR INk Ol&'IATIOWAI SUBMITTAIS COMPONENT ACTIVITIES PRELIMINARY SAFETY EVALUATION   MAY 1994 FINAL REPORT/50.59 EVALUATION    MAY 1995 nS rAI,r.ETIO~ WCTVmIKS SAFETY EVALUATIONOF CONTAINMENT OPENING              AUGUST 1994 SAFETY EVALUATIONOF RIGGING AND HANDLING                    OCTOBER 1994 SAFETY EVALUATIONOF STEAM GENERATOR PIPING                DECEMBER 1994 SAFETY EVALUATIONOF STEAM GENERATOR INSULATION            DECEMBER 1994 TESTING AND INSPECTION PLAN      MARCH 1995 24 March 94
R.E.Ginna Stcam Gcncrator Rcplaccmcnt Comparison of Existing vs.Proposed Ginna Station stvl I recit te(R Rochester Gas and E/ectric Manuf./Model Primary Side Prcssure Drops (0%plug)Nozzle inlet to Nozzle outlet Existing W/44 (fccdring) 33.5 psi Replacement BWI (fccdring) 31.1 psi Primary Side Flow for above dp's 34.6 E<06 lbm/hr 34.9 E<06 lbm/h IIeat Transfer Areas 0%Plugging 15%Plugging 20%Plugging Tubing OutsideDiameter Avg.Wall Thickness~~Number of Tubes Material 44430 sq.ft.37765 sq.ft.0.875 in 0.050 in 3260 Inconcl 600, MA 54000 sq.ft.43200 sq.ft.'.750 in 0.0431 in 4765 Alloy 690, TT Volumes, primary side Inlet Plenum Tubes Outlet Plenum 133 cu.ft.654.5 cu.ft.133 cu.ft.132.5 cu.ft.710 cu.ft.132.5 cu.ft.Secondary Volume, Total 45SO cu.ft.4513 cu.ft.Secondary Water Mass, nominal 100%(1520 MWt)0%(HZP)Secondary Mass Flow, 100%Stcam Linc Orifice Size Initial Stcam Pressure, 100%S4,500 Ibm 11S300 Ibm 3.3 E06 lbm/hr 4.37 sq.ft.800 psia S6,200 lbm 115,100 Ibm 3.3 E06 lbm/hr 1.4 sq.ft.875 psia 24 March 94  


STEAM OUTLET TO TURBINE GENERATOR DEMISTERS SECONDARY MOISTURE SEPARATOR SECONDARY MANWAY ORFICE RINGS UPPER SHELL FEEDWATER RING SWIRL VANE PRIMARY MOISTURE SEPARATOR FEEDWATER INLET TUBE BUNDLE ANTIVIBRATION BARS DOWNCOMER FLOW RESISTANCE PLATE LOWER SHELL WRAPPER SECQMDARY MAMOMOLE TUBE SUPPORT PIATES BLOWOOWN LINE TUBE SHEET TUBE LANE BLOCK PRIMARY MANWAY PRIMARY COOIANT OUTLET PRIMARY COOIANT INLET QK SERIES 44 STEAM GENERATOR NOT 70 SCALE 922$
Ginna Station Bechtel Ipmp0an Rochester Gas and Electric SCHEDULE< FOR SUBMITTAI,S FOR REIVIKW I-690 RELIEF REQUEST                  MAY 1994 CURRENT STFAM GENERATOR TUBE RUPTURE ANALYSIS                 JULY 1994 FUEl RELOAD REPORT                    AUGUST 1995 24 March 94 I
Babcock 8 Witch Canada Advanced Series'PNR,Rtep/acement Steam Generator Steam nozzle High elliciency moisture separators Bundle inspection access duct Feedwalef inlel Feedwater header Stainless steel lnttice4sar lube support gird PVF&).Tube bundle , I Handholes Integral vertical suppon Primary nozzle Primary.side manway Design Objectives
~Aetrsn ee ierlnrnrt points.outslde~sna oversn per 4nnsnce consisleni
>>ith exntrng sleem generelon snd reecror vertu ernenrs~oesrgn lor magnum retr ebony in opersbon~Act>>eve high circulation ratios~Orrvnere crevices ond poiernisl rlovv tegnsuon~use norvngra hare suppons~lstntstln presswe boundsry Integri;y dunng seismic and bunt pipe events~Stnrmtxe lube resiausl soess~Avoid no>>endured varrsnon~Assure high steam rturrrty (rbavo 99.7$r r)under~a operating conCNttons
~prevent loose ports spectton ond nleinlenslrce Ginna Station Bechtel Lsmpson Ginna Accident Analysis Rochester Gas and E/ectric EVALUATE ANALYZE X X X X X X X X X X X X X X X X X X X X 15.1 Increase in I-Ieat Removal by the Secondary System 15.1.1 Decrease in Feedwater Temperature 15.1.2 Increase in Fcedwater Flow 15.1.3 Excessive Load Increase Incident 15.1.4 Inadvertent Opening of a SG Relief/Safety Valve 15.1.5 Steam Line Breaks Inside and Outside Containment 15.1.6 SG Relief Valve and Feedwater Control Valve Failure 15.2 Decrease in Heat Removal by the Secondary System 15.2.1 Steam Pressure Regulator Malfunction 15.2.2 Loss of External Electrical Load 15.2.3 Turbine Trip 15.2.4 Loss of Condenser Vacuum 15.2.5 Loss of Offsite Power to the Station Auxiliaries 15.2.6 Loss of Normal Feedwater Flow 15.2.7 Feedwater System Pipe Breaks 15.3 Decrease in RCS Flowrate 15.3.1 Flow Coastdown Accidents 15.3.2 Locked Rotor Accident 15.4 Reactivity and Power Distribution Anomaities 15.4.1 Uncontrolled RCCA Withdrawal from Subcritical 15.4.2 Uncontrolled RCCA Withdrawal at Power 15.4.3 Startup of an Inactive Reactor Coolant Loop 15.4.4 CVCS Malfunction 15.4.5 RCCA Ejection 15.4.6 RCCA Drop 15.5 Increase in RCS Inventory 15.6 Decrease in RCS Inventory 15.6.1 Inadvertent Opening of a Pressurizer Safety or Relief Valve 15.6.2 Radiological Consequences of Small Lines Carrying RC Outside Containment 15.6.3 Steam Generator Tube Rupture 15.6.4 Primary System Pipe Ruptures 15.6.4.1 SBLOCA 15.6.4.2 LB LOCA 15.7 Radiological Release From a Subsystem or Component 15.7.1 Radiological Gas Waste System Failure 15.7.2 Radiological Liquid Waste System Failure 15.7.3 Fuel Handling Accidents 15.8 Anticipated Transients Without Scram Chapter 6, Chapter 5 6.2.1.2 Containment Integrity 5.2.2 Low Temperature Overpressurization 24 March 94 Ginna Station SW<Bechtel Rochester Gas and Electric STEAM GENERATOR REPLACEMENT
: TRANSIENT ANALYSIS STATUS ACTIVITY COMPLETION MODELS RELAP CONTEMPT COMPLETE COMPLETE JALYZE CONTAINMENT ANALYZE ACCIDENTS 10CFR50.59 EVALUATION 5/94 9/94 12/94 24 March 94  


A>>0 BVII+Ginna Station B VII 1 Bech tel 2)Rochester Gas and Eiectric GINNA RELAP5 MODEL Sl f AM$)>.f M)LV 4)I)S)EAM LINE I)CC 0 I 955 960~965~9>0 0~1b OI0~>4>40 1>0 490 I>b I>0 645~N~60 455 I50 490 4>0 N4 No eeb~40>44>40~70 660>64>60~F 5 Ml A I" M>5 MI 924 I)O h kC'74 0'I 02 01 1))01 1>)04 11)OL>1)06 IS)0)1))07>1)01 10 ll 12 I)I~Ib 14 0>OI OL 06 01 0>-01 11)OI OI, 06>)7 01>i)oe>11 04>>)06 1>>'>>)1 0>>))+MI MI))~1 I>>5 MI IA I:4~~IM 674 I)0 424 01 Ot.01 e)i o>4)).06 ON.06~))06~))07 4)).at IS)01 I))01 01-oe-04.06 07 02 276-01*10~11~lt l).I~~Id~I~-OI I Oe 4)S 01 4))04 I))06~7)06 I))07~))07 4)S OI 1 79 171~00 2tl tte 1)0 120 61 220 2)0 l)d I)4~))1 C3-110 Iod IOO 700 2nd 210 21)214 7)d IN 164 1>4 I IO 240 2>6 t>o 246 2)I 160)40 pQM>>)>M>ten 260 I~L 164 lbd 140 f~)64 tdI 264 tdo 24 lvlARCH 94 ANO I Ginna Slatlort Bechtel ljl dlp$0h Rochester Gas and Electric GINNA REACTOR VESSEL AND CORE MODEL hot leg nozzle 102 350 106 D o C9 302 364 360 leakage path upper plenum 354 upper plenum 368 hot leg nozzle 351 103 107 348 326 338 349 100 104 cold leg nozzle 322 334 324 336 1 101 cold leg nozzle 320 332 318 316 328 312 375 24 MAI<CI I 94 310 380 Ginna Station BIVI 1 Bechtel 828mOSOn CD CD Rochester Gas and Electric MAIN FEEDWATER A AFW WSIOE CONTAlNMENT 801 MFW Pump A 02 806 808 810 820--424!-822i-4~824
E 0}}
~83D i 818 18121814 81 6 SGA 625 888~~82 901 MFW Pump B 906 908 910 918+-~~~22L~924
~30 931;933 934 920---iw==-SGB 725 AFW MAIN FEEDWATER 8 24 ivlAl<Cfl 94 Ginna MFW RELAP5 Node Diagram Ginna Station BlvllBectt t 1996 FUEL RELOAD~NEW WESTINGHOUSE FUEL FABRICATION CONTRACT~INSERT VANTAGE-5 FUEL VS.OFA FUEL F.INCREASE FROM 1.66 TO 1.75 Fq INCREASE FROM 2.32 TO 2.50~CYCLE LENGTH INCREASE FROM ANNUAL TO 18 MONTHS~INCREASE SFP ENRICHMENT FROM 4.25 W/0 TO 5.0 W/0 POSSIBLE T,, DECREASE UP TO 15'F 24 MARCH 94 kl Ginna SIalion BIVI I BeChtel Rochester Gas and Electric FVKI ASSKMBI Y CHARACTERISTICS COMPARISON OF CURRENT VS.1996 CHARACTERISTIC TYPE FUEL ROD O.D.FUEL CLADDING MATERIAL ACTIVE FUEL LENGTH BLANKET REGION/ENRICHMENT CENTER REGION ENRICI-IMENT BOTTOM NOZZLES CURRENT 14 X 14 OFA, 0.40 IN Z;4 141.4 IN 6 IN/NAT.UP TO 4.25 W/0 DFBN 1996 VANTAGE 5 0.40 IN Z,-4 141.4 IN 6 IN/2.6 W/0 UP TO 5.0 W/0 DFBN GRIDS 2 TOP AND BOTTOM 7 MID INTERMEDIATE FLOW MIXING DISCHARGE BURNUPS INCONEL-718 Z,-4 NONE LOW 40s GWD/MTU'NCONEL-718 Z,-4 NONE MID 50s GWD/MTU 24 MARCIA 94 Ginna Station Bechtel Rochester Gas and Electric Ginna Accident Analysis Valve Outside Containment 15.1 Increase in Heat Removal by the Secondary System 15.1.1 Decrease in Feedwater Temperature 15.1.2 Increase in Feedwater Flow 15.1.3 Excessive Load Increase Incident 15.1.4 Inadvertent Opening of a SG Relief/Safety Valve 15.1.5 Steam Line Breaks Inside and Outside Containment 15.1.6 SG Relief Valve and Feedwater Control Valve Failure 15.2 Decrease in Heat Removal by the Secondary System 15.2.1 Steam Pressure Regulator Malfunction 15.2.2 Loss of External Electrical Load 15.2.3 Turbine Trip 15.2.4 Loss of Condenser Vacuum 15.2.5 Loss of Offsite Power to the Station Auxiliaries 15.2.6 Loss of Normal Feedwater Flow 15.2.7 Feedwater System Pipe Breaks 15.3 Decrease in RCS Flowrate 15.3.1 Flow Coastdown Accidents 15.3.2 Locked Rotor Accident 15.4 Reactivity and Power Distribution Anomaities 15.4.1 Uncontrolled RCCA Withdrawal from Subcritical 15.4.2 Uncontrolled RCCA Withdrawal at Power 15.4.3 Startup of an Inactive Reactor Coolant Loop 15.4.4 CVCS Malfunction 15.4.5 RCCA Ejection 15.4.6 RCCA Drop 15.5 Increase in RCS Inventory 15.6 Decrease in RCS Inventory 15.6.1 Inadvertent Opening of a Pressurizer Safety or Relief 15.6.2 Radiological Consequences of Small Lines Carrying RC 15.6.3 Steam Generator Tube Rupture 15.6.4 Primary System Pipe Ruptures 15.6.4.1 SBLOCA 15.6.4.2 LB LOCA 15.7 Radiological Release From a Subsystem or Component 15.7.1 Radiological Gas Waste System Failure 15.7.2 Radiological Liquid Waste System Failure 15.7.3 Fuel Handling Accidents 15.8 Anticipated Transients Without Scram 6.2.1.2 Containment Integrity 5.2.2 Low Temperature Overpressurization 24 March 94 I 1 Ginna Stalion BWI (ge~ht+npsan ANALYSES THAT WILL BK UPDATED WITH RELOAD 15.1.1 DECREASE IN FEEDWATER TEMPERATURE 15.1.2 INCREASE IN FEEDWATER FLOW 15.1.3 EXCESSIVE LOAD INCREASE INCIDENT 15.1.4 INADVERTENT OPENING OF A SG RV 15.1.5 SLB (BOTH CORE AND M&E)I 15.1.6 SG RV Ec FW CONTROL VALVE FAILURE 15.2.7 LOSS OF EXTERNAL LOAD/TURBINE TRIP 15.3.1'LOW COASTDOWN ACCIDENTS 15.6.3 SG TUBE RUPTURE 15.6.4.1 SBLOCA 15.6.4.2 LBLOCA 15.7.3 FUEL HANDLING ACCIDENTS 5.2.2 I.OW TEMP.OVERPRESSURIZATION (BWNT)24 MARCH 94 Ginna Station Bechtel Rochester Gas and Electric SCHEDULE DATA PREPARATION 4/I/94 FINALIZE INPUT DATA 6/1/94 START ANALYSIS DRAFT REPORT FINAL REPORT 6/1/94 6/1/95 7/1/95 SUBMIT REPORT TO NRC 8/1/95 CYCLE 26 STARTVP 5/1/96 24 MARCH 94 BIYI)Beef)te/E UIPMENT STATUS~FABRICATION BY BOW INTERNATIONAL
~ALL MA JOR COMPONENTS ORDERED MAJOR FORGINGS, JAPAN STEEL WORKS TUBING, VALINOX SHELL PLATE, CREUSOT-LOIRE
~PRIMARY HEADS CLADDING COMPLETE NOZZLE DAM RINGS BEING INSTALLED PRIMARY NOZZLE BUTTERING UNDERWAY~TUBE SHEETS CLADDING COMPLETE READY FOR GUNDRILLING OF TUBEHOLES~SECONDARY SHELLS LOWER SHELL CONES WELDED HANDHOLES AND INSPECTION PORTS BEING INSTALLED~TRANSITION CONK FORGINGS-HANDHOLE OPENINGS CUT 24 March 94 Ginna Station swI st t Bechtel E UIPNIENT STATUS CONT'0 TUmNG PRE PRODUCTION UNDERWAY AT VALINOX PREPRODUCTION COMPLETE JUNE 1994 PRODUCTION MATERIAL BEING MELTED AT INCO PRODUCTION COMPLETE DECEMBER 1994 24 March 94 Ginna Station BltII+BlYI)Bechtel Lpmpson l INSTALLATION STATUS~INSTALLATION CONTRACTOR BKCHTKL POWER DETAILED DESIGN INSTALLATION
~DETAILED ENGINEERING 1994~PROCEDURE PREPARATION 1995~ACTIVITIES TO DATE PROJECT INTERFACE PROCEDURES VIDEO PREPARATION CONTAINMENT OPENING STUDY QA PROCEDURE MANUAL PROJECT ENGINEERING PROCEDURES MANUAL INSUI.ATION STUDY DRAFT DESIGN CRITERIA FOR CONTAINMENT STRUCTURAL WORK~MA JOR SUBCONTRACTORS POWER CUTTING LAMP SON PSI 24 March 94 Ginna Station Blvl t Bechtgl Rochester Gas and Electric R.K.GINNA STEAM GENERATOR REPI ACKMKNT\STRVCTVRAL EVALUATION OF EFFECTED COMPONENTS
&SYSTEMS=24 March 94 Ginna Station BlYIlBeep(REACTOR COOLANT SYSTEM LATEtST ANALYSIS~1988 SNUBBER REPLACEMENT
~IMPLEMENT LBB/HELB CRITERIA~RIGID STRUTSS/G COLD SPRING ACCEPTANCE CRITERIA~PIPING Q EQUIPMENT O SUPPORTS USASFANSI B31.1 ASMK SECTION III ASME SECTION III 24 March 94 AHD Ginna Station Bechtel Ijlfhp50h CD Rochester Gas and Electric 38 HAIN S1EAM LINE STEAM GENERnlOR)A 38 HAiN StEAM LINE S)EAM CENERA1OR REACIOR COOLAN1 PUMP)B 14 FEEOWATER LINE 14 FEEOWATER LINE UPPER SUPPORTS ANO SNUBBERS l'TYP.)COLO LEG HOT LEG NOT LEG INTERHEOIATE SUPPORTS lTYP.)CROSSOYER LEG COLO'LEG LOWER SUPPORTS lTYP.)REACTOR COOLANT PUHP lA REACtOR vESSEL VIEW OF NSSS iTEM FOR GINNA NUCLEAR STATION Ginna Stalion Bechtel STRUCTURAL MODELS BWSPAN-STRUCTURAL CODE 3 MODELSBENCHMARKENHANCED W/OLD S/G~ENHANCED W/NKW S/G DEMONSTRATE UNDERSTANDING OF CURRENT BASIS AND LOOP BEHAVIOR GENERATE DETAILED LOADING/STRESS INFO FOR CURRENT S/G DISTINGUISH EFFECTS OF MODEL ENHANCEMENTS AND S/G DIFFKRKNCK CONFIRM/CALCULATE LOADS, STRESSES, AND THERMAL MOTIONS FOR NKW S/G 24 March 94 Ginna Station Bill t Bechtel Rochester Gas and Electric LOADING CONDITIONS BENCHMARKDEADWEIGHT 0 OBK ENHANCED MODEL W/OLD S/G~DEADWEIGHT 0 OBE ENHANCED MODEL W/NEW S/G Oe DEADWErCHT
~THERMALOBK/SSK~LOCA/HKLB Q COLD SHUTDOWN EARTHQUAKE 24 March 94 Ginna Station Bechtel I ACCEPTANCE CRITERIA 1.COMPARE TO CURRENT ANALYSIS NKW LOADS<OLD LOADS=OK 2.COMPARE TO ALLOWABLKS 0 pnnwG I EQVIPNtKNT AUX LINKS-B31.1 ALLOWABLKS
-CURRENT LBB CRITERIA-NOZZLKS LOADS-SUPPORT LOADS-<'/,6" ADDED DEFLECTION 24 March 94 c!''1~4 w~J~~
Ginna Stalion Bechtel La npsen Rochester Gas end Electric MODEL ENHANCEMENTS i NKW CONSISTENT MASS MODELING EXPLICIT MODELING OF SUPPORTS FREQUENCY CUTOFF30Hz N-411 DAMPING OLD LUMPED MASS STIFFNESS MATRIX 100 Hz 2%/4%DAMPING SINGLE ANCHOR Pt./SINGLE MULTIPLE ANCHOR SPECTRA Pts./ENVELOPE SPECTRA CLOSELY SPACED MODES VIA 10 Z.RULE EXPLICIT ACP ANALYSIS FOR HKLB EPSILON RULE FACTOR ON DISCHARGE COEFFICIENT 24 March 94 i)s Ginna Station Bwl t Bechtel lampsan LOADING METHODS SEISMIC DWhTHKRMAL STATIC OBEYS SERESPONSE SPECTRA~3 AXIS EXCITATION
~CURRENT DESIGN SEISMIC SPECTRAMULTIPLE CASKS FOR SUPPORTS 0 MODES COMBINED SRSS a cr.osKz,v spAcKD moDEs vw.io z RUr.ETIME HISTORIES FOR ARSs ON S/G SHELL 24 March 94 1'0~+~~4~e&8~
~~.Ginna Stalion BlVI+Bechtel Rochester Gns and E/eclric LOADING METHODS LOCALHK'LB CRAFT dk, COMPAR2 CODES I LINEAR TIME HISTORY ANAI,YSISPIPINGLINTKRNALS TRANSIENT LOADS 0 M/E RELEASE FOR ACP ANALYSIS~ACP ON COMPONENTS
~CONFIRM SUPPORTS ACTIVE RCS: LEAK-BEFORE-BREAK
-RHR ZZNE SURGE LINK SI LINK IIELB: TERMINAL LOCATIONS ONLY MAIN STEAM FEED WATER BLOWDOWN RECIRC NOZZLE 24 March 94 "f~RL Ginna Station ewt I Bechtel Rochester Gas and Electric DKADWKIGIIT THERMAL SEISMIC LOCA HKLB CVRRKNT EXPECTATION
-INCREASE (<5%)-SAME-DECREASE'INCREASE (<15%)'DECREASE 1.MODEL ENHANCEMENTS
=MORE MARGIN INCREASED WKIGIIT=LESS MARGIN OVERALL EFFECT-EXPECT MORE MARGIN 2.BLOWDOWN INITIAL CONDITIONS WILL USK 15'F REDUCED TAvE 24 March 94 t I 4 Ginna Station Bwl t gech~e/Rochester Gas and Electric STATUS dk SCHEDULE MODELS NKAmWG COMPLETION STRUCTURAL BENCHMAKKING STARTED SEISMIC ANAI VSIS: COMPLETE 7/94 BLOWDOWN ANALYSES: COMPLETE 10/94 LOAD COMBINATION dt.COMPARISONS COMPLETE 1/95 24 March 94 DISPLACEMENT MODEL PURPOSE RG&K TECHNICAL OVERSIGHT OF RCS PIPING CUT&WELD CONCERNS COLD SPRING (BEFORE 7 AFTER)WELD FIT-UP RCS TEMPORARY SUPPORT DESIGN VIODEL ANSYS FINITE ELEMENT MODEL OF RCS PLATE&BEAM ELEMENTS MODEL RCS PIPE AS SHELLS 3400 ELEMENTS/3400 NODES ONE LOOP MODEL STATUS MODEL NEAR COMPLETION 24 March 94 Ginna Station BlVI)Etet f)t~]Lpneson Rochester Gas and Electric t~CJi.II Ginna Sialion SWI-, Bechtel lpm pean a S/G DESIGN FEATURES PROBI KM TUBESHEET DEFECTS SLUDGE ACCUMULATION ON TUBESHEET DEFECTS AT 7UBE SUPPORT PLATES DESIGN FEATURES CLOSED CREVICE HYDRAULIC EXPANSION INCONEL 690 TUBING HIGH CIRCULATION RATIO INSPECTION/MAINTEN-ANCE PORTS ACCESSIBLE FOR SLUDGE LANCING LATTICE GRIDS STAINLESS STEEL CONSTRUCTION INCONEL 690 MATERIAL HIGH CYCLE FATIGUE FAN BAR SUPPORT SYSTEM WATER HAMMER J-TUBE FAILURES GOOSE NECK AT FEEDWArER RING INLET I-TUBES INCONEL 690 FOR EROSION RESISTANCE 24 March 94
'l I'iM ,I t~F%~
Ginna Station Bwl)gecgfg(S/G DESIGN FKATVRKS PROBI KM MOISTURE CARRYOVER PRESSURE BOUNDARY WELD FAILURES PWSCC OF U-BFNDS SECONDARY LOOSE PARTS PRIMARY SIDE ACCESS SECONDARY SIDE ACCESS PRIMARY NOZZLE WELDING DESIGN FKATVRKS HIGH EFFICIENCY SEPARATORS 0.10%GUARANTEE FORGED AND PLATE COMPONENTS NO CORNER WELDS STRICT PRE AND POST HEAT REQVIREMENTS LARGE MINIMUM RADIUS BENDS STRESS RELIEF OF FIRST 8 ROWS NO FASTENERS, 100%WELDED STRUCTURE 18" DIAMETER MANWAYS 6-8" HANDHOLES 14-2" INSPECTION PORTS 1-18" MANWAY 316 LN SAFE ENDS NARROW GAP WELDING SPARE ELBOWS 24 March 94 "C ,VX'A)
Ginna Slation Bwl)Bechtgl CONTAINMENT OPENING MODEL CONTAINMENT OPENING DESIGN INCLUDED IN BKCHTKL WORKSCOPK RGK MODEL FOR OVKRCHKCK OF BKCHTKL DESIGN ANSYS FINITE ELEMENT MODEL INCLUDES ENTIRE CONTAXNMKNT STRUCTURE ROCK ANCHORS BASE rVrATS WALLS AND TENDONS SPRjNG LINE AND TRANSITION DOME STEEL, CONCRETE AND LINER PLATE MODEL DEVELOPMENT COMPLETE VERIFIED AGAINST CLASSICAL SOLUTIONS~WILL BE AVAILABLE TO VERIFY BECHTEL DESIGN AND FOR CONSTRUCTION.
24 March 94 V'C n Ginna Station Bechtel SCHEDULE FOR INk Ol&'IATIOWAI SUBMITTAI S COMPONENT ACTIVITIES PRELIMINARY SAFETY EVALUATION MAY 1994 FINAL REPORT/50.59 EVALUATION MAY 1995 nS rAI,r.ETIO~
WCTVmIKS SAFETY EVALUATION OF CONTAINMENT OPENING AUGUST 1994 SAFETY EVALUATION OF RIGGING AND HANDLING SAFETY EVALUATION OF STEAM GENERATOR PIPING SAFETY EVALUATION OF STEAM GENERATOR INSULATION TESTING AND INSPECTION PLAN OCTOBER 1994 DECEMBER 1994 DECEMBER 1994 MARCH 1995 24 March 94 Ginna Station Bechtel Ipmp0an Rochester Gas and Electric SCHEDULE<FOR SUBMITTAI,S FOR REIVIKW I-690 RELIEF REQUEST MAY 1994 CURRENT STFAM GENERATOR TUBE RUPTURE ANALYSIS JULY 1994 FUEl RELOAD REPORT AUGUST 1995 24 March 94 I E 0}}

Latest revision as of 03:28, 4 February 2020

Summary of 940324 Public Meeting W/Util to Discuss Steam Generator Replacement & Fuel Reload Changes for 1996.Agenda Encl
ML17309A540
Person / Time
Site: Ginna Constellation icon.png
Issue date: 04/13/1994
From: Mecredy R
ROCHESTER GAS & ELECTRIC CORP.
To: Andrea Johnson
NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM), Office of Nuclear Reactor Regulation
References
NUDOCS 9404190372
Download: ML17309A540 (56)


Text

ACCELERATED DI TRIBUTION DEMONS TION SYSTEM I

'tt" i~

Cy REGULATORY INFORMATION DISTRIBUTION SYSTEM (RIDS)

ACCESSION NBR:9404190372 DOC.DATE: 94/04/13 NOTARIZED: NO DOCKET FACIL:50-244 Robert Emmet Ginna Nuclear Plant, Unit 1, Rochester G 05000244

,AUTH. NAME AUTHOR AFFILIATION MECREDY,R.C. Rochester Gas & Electric Corp.

RECIP.NAME RECIPIENT AFFILIATION JOHNSON,A.R. Project Directorate I-3 R

SUBJECT:

Summary of 940324 public meeting w/util to discuss Steam generator replacement 6 fuel reload changes for 1996.Agenda encl. D DISTRIBUTION CODE: A001D COPIES RECEIVED:LTR ENCL SIZE:

TITLE: OR Submittal: General Distribution NOTES:License Exp date in accordance with 10CFR2,2.109(9/19/72). 05000244

/

A RECIPIENT COPIES RECIPIENT COPIES D ID CODE/NAME LTTR ENCL ID CODE/NAME LTTR ENCL PD1-3 LA 1 1 PD1-3 PD 1 1 JOHNSON,A 2 2 D INTERNAL: NRR/DE/EELB 1 1 NRR/DORS/OTS B 1 1 NRR/DRCH/HICB 1 1 NRR/DRPW 1 1 NRR/DSSA/SPLB 1 1 NRR/DSSA/SRXB 1 1 NUDOCS-ABSTRACT 1 1 OC/~LCB 1 0 OGC/HDS1 1 0 ILE 01 1 1 EXTERNAL: NRC PDR 1 1 NSIC 1 1 D

D D

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lllilSllill IIIIII III llISIZ l>V~@

t ROCHESTER GAS AND ELECTRIC CORPORATION o e9 EAST AVENUE, ROCHESTER N.Y. 14649-0001 ROBERT C MECREDY TELEPHONE Vice President AstEA cooE T le 546-2700 Glnna Nuclear Production April 13, 1994 U.S. Nuclear Regulatory Commission Document Control Desk Attn: Allen R. Johnson Project Directorate I-3 Washington, D.C. 20555

Subject:

Public Meeting on March 24, 1994 to discuss Steam Generator Replacement and Fuel Reload Changes for 1996 R.E. Ginna Nuclear Power Plant Docket No. 50-244

Dear Mr. Johnson:

On March 24, 1994 a public meeting was held with Rochester Gas and Electric and members of the NRC Staff to update the staff on the evaluation of the steam generator replacement and fuel reload changes at Ginna Station, currently scheduled for the spring of 1996. This letter provides a summary of the meeting.

J. Cutchin (NRC/OGC) began the meeting with a discussion of the use of 10CFR50.59 for steam generator replacement. It was noted that the NRC Staff determined that 10CFR50.59 could not be used for replacement at V.C. Summer because several changes to the Technical Specifications were intimately connected with the installation of the new larger steam generators. Mr. Cutchin stated that this did not signal a change in staff philosophy. Under the terms of 10CFR50.59, even if a replacement does not involve an unreviewed safety question, prior NRC approval is required if it involves a change in the Technical Specifications. Mr. Cutchin indicated that if the plant cannot be operated following a change without certain Technical Specification amendments, then prior approval would be required. However, a replacement project could be broken down into several discrete plant changes (as has been done at other plants),

with the result that prior approval via the Technical Specification amendment process would only be required for certain specific changes, not the entire project. The staff observed that Ginna appears to be different from the V.C. Summer case in that the new steam generators will be physically similar to the existing ones, and that no necessary Technical Specification amendments have been identified.

RG&E presented the current status of the Steam Generator Replacement Project. RG&E noted that the project would be broken down into two distinct parts: the component design; and the 9404i90372 Tl404i3 oo PDR',i ADOCJC 05000244'=.PDR t )

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installation activities. There are currently no intentions to further break down the component design aspect of the project. The installation activity aspect, however, would be further divided into discrete work activities, notably the containment openings, rigging and handling of heavy loads, pipe cutting and restoration, insulation of the generator, and storage of the old steam generators. Current evaluations indicate that all changes associated with the steam generator replacement can be accomplished without prior staff approval. A schedule was presented indicating when final safety evaluations for these items would be available.

These will be provided to the staff for information only.

RG&E presented a comparison of the existing and replacement steam generators. The staff noted that the generators appear very similar. RG&E discussed the preliminary safety evaluation of the replacement steam generator design, and the detailed thermal hydraulic models of the primary system and containment being developed to reanalyze some of the UFSAR transients. The staff questioned the need for detailed models, given the similarities of the generators.

RG&E presented an overview of changes associated with the 1996 Fuel Reload. Ginna will transition from annual fuel cycles to eighteen month fuel cycles with the 1996 reload, and therefore there would be some Technical Specification amendments associated with the reload. A schedule for these submittals was presented.

RG&E presented an overview of some of the design features incorporated in the replacement steam generator to correct deficiencies identified in the current generators. The staff observed that these improvements seemed prudent, however they cautioned that close attention should be paid to the materials used for weld transitions.

RG&E outlined the inten'ded methods to be used for the structural evaluation of the restored reactor coolant system. Specifically, RG&E intends to include explicit modeling of walls and supports when analyzing the restored system. The staff cautioned that while this appears acceptable, close attention should be given to this to ensure that consistent and conservative modeling of the wall-RCS interfaces are made, particularly with respect to damping factors.

RG&E also presented information on a displacement model of the reactor coolant system developed to help predict pipe movement during cutting activities. The staff was questioned as to the appropriateness of using temporary supports or restraints, but was agreed that further detail would be needed before a response it could be provided.

RG&E presented the efforts to date to model the containment to analyze the effects of the temporary construction openings on the structure both during construction and after restoration of the containment. The staff noted that the model appeared to be of

sufficient detail to analyze all effects of the openings.

/

Copies of the overheads presented by RG&E at this meeting are attached. RG&E appreciates the valuable input and cooperation that was provided by the staff at this meeting.

Very truly yours, Robert C. Mec edy Attachment BJF/327 xc: Mr. Allen R. Johnson (Mail Stop 14D1)

Project Directorate I-3 Washington, D.C. 20555 U.S. Nuclear Regulatory Commission Region I 475 Allendale Road King of Prussia, PA 19406 USNRC Ginna Senior Resident Inspector

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Rochester Gas and Electric GINNA STATION STE<AM GL<NERATOR IMPLACEMENT NRC STATUS UPDATE MARCH 24 1994 AGENDA

1.0 INTRODUCTION

GEORGE< WROBE<L 2.0 SAFETY AND LICENSING BRIAN FLYNN BOB ELIASZ 2.1 PRELIMINARY SAFETY EVALUATION 2.2 RELAP MODEL 2.3 CONTEMPT MODEL 24 FUEL CONTRACT 3.0 STATUS / STRESS ANALYSIS UPDATE JOHN SMITH BE<RNIE CARRICK 3.1 EQUIPMENT / INSTALLATIONSTATUS 3.2 METHODOLOGY AND APPROACI-I 3.3 ACCEPTANCE CRITERIA 3.4 STATUS AND SCI-IEDULE 3.5 DISPLACEMENT MODEL 4.0 S/G DE<SIGN FEATURE<S JOHN SMITH 5.0 CONTAINMENT OPE<,NING MODEL JOHN SMITH 6.0 SUBMITTALSCHEDULE GEORGE WROBEL 7.0 RE<PLACEML<'NT VIDE<0 JOHN SMITH 94p41 9p372 24 March 94

C Ginna Station stvl recit te(

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Rochester Gas and E/ectric R.E. Ginna Stcam Gcncrator Rcplaccmcnt Comparison of Existing vs. Proposed Existing Replacement Manuf./Model W/44 (fccdring) BWI (fccdring)

Primary Side Prcssure Drops (0% plug)

Nozzle inlet to Nozzle outlet 33.5 psi 31.1 psi Primary Side Flow for above dp's 34.6 E<06 lbm/hr 34.9 E<06 lbm/h IIeat Transfer Areas 0% Plugging 44430 sq. ft. 54000 sq. ft.

15% Plugging 37765 sq. ft.

20% Plugging 43200 sq. ft.

Tubing OutsideDiameter 0.875 in '.750 in Avg. Wall Thickness

~ 0.050 in 0.0431 in Number of Tubes 3260 4765

~

Material Inconcl 600, MA Alloy 690, TT Volumes, primary side Inlet Plenum 133 cu. ft. 132.5 cu.ft.

Tubes 654.5 cu. ft. 710 cu.ft.

Outlet Plenum 133 cu. ft. 132.5 cu. ft.

Secondary Volume, Total 45SO cu. ft. 4513 cu. ft.

Secondary Water Mass, nominal 100% (1520 MWt) S4,500 Ibm S6,200 lbm 0% (HZP) 11S300 Ibm 115,100 Ibm Secondary Mass Flow, 100% 3.3 E06 lbm/hr 3.3 E06 lbm/hr Stcam Linc Orifice Size 4.37 sq. ft. 1.4 sq. ft.

Initial Stcam Pressure, 100% 800 psia 875 psia 24 March 94

STEAM OUTLET TO TURBINE GENERATOR DEMISTERS SECONDARY MOISTURE SEPARATOR SECONDARY MANWAY ORFICE RINGS UPPER SHELL SWIRL VANE PRIMARY MOISTURE SEPARATOR FEEDWATER RING FEEDWATER INLET ANTIVIBRATION BARS TUBE BUNDLE DOWNCOMER FLOW RESISTANCE PLATE LOWER SHELL WRAPPER TUBE SUPPORT PIATES SECQMDARY MAMOMOLE BLOWOOWN LINE TUBE SHEET TUBE LANE BLOCK PRIMARY MANWAY PRIMARY COOIANT OUTLET PRIMARY COOIANT INLET QK SERIES 44 STEAM GENERATOR NOT 70 SCALE 922$

Babcock 8 Witch Canada Advanced Series

'PNR,Rtep/acement Steam Generator Steam nozzle High elliciency moisture separators Bundle inspection access duct Feedwalef inlel Feedwater header Stainless steel lnttice4sar lube support gird PVF&).

Tube bundle Handholes

, I Integral vertical suppon Primary nozzle Primary.side manway Design Objectives

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sna oversn per 4nnsnce consisleni >>ith exntrng sleem generelon snd reecror vertu ernenrs oesrgn lor magnum retr ebony in opersbon Act>>eve high circulation ratios

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lstntstln presswe boundsry Integri;y dunng seismic and bunt pipe events Stnrmtxe lube resiausl soess Avoid no>>endured varrsnon Assure high steam rturrrty (rbavo 99.7$ r r) under

~ Orrvnere crevices ond poiernisl rlovv tegnsuon ~ a operating conCNttons

~ prevent loose ports

~ use norvngra hare suppons spectton ond nleinlenslrce

Ginna Station Bechtel Lsmpson Rochester Gas and E/ectric Ginna Accident Analysis EVALUATE ANALYZE 15.1 Increase in I-Ieat Removal by the Secondary System X 15.1.1 Decrease in Feedwater Temperature X 15.1.2 Increase in Fcedwater Flow X 15.1.3 Excessive Load Increase Incident X 15.1.4 Inadvertent Opening of a SG Relief/Safety Valve X 15.1.5 Steam Line Breaks Inside and Outside Containment X 15.1.6 SG Relief Valve and Feedwater Control Valve Failure 15.2 Decrease in Heat Removal by the Secondary System 15.2.1 Steam Pressure Regulator Malfunction 15.2.2 Loss of External Electrical Load 15.2.3 Turbine Trip 15.2.4 Loss of Condenser Vacuum 15.2.5 Loss of Offsite Power to the Station Auxiliaries 15.2.6 Loss of Normal Feedwater Flow 15.2.7 Feedwater System Pipe Breaks 15.3 Decrease in RCS Flowrate 15.3.1 Flow Coastdown Accidents 15.3.2 Locked Rotor Accident 15.4 Reactivity and Power Distribution Anomaities X 15.4.1 Uncontrolled RCCA Withdrawal from Subcritical X 15.4.2 Uncontrolled RCCA Withdrawal at Power X 15.4.3 Startup of an Inactive Reactor Coolant Loop X 15.4.4 CVCS Malfunction X 15.4.5 RCCA Ejection X 15.4.6 RCCA Drop X 15.5 Increase in RCS Inventory X 15.6 Decrease in RCS Inventory X 15.6.1 Inadvertent Opening of a Pressurizer Safety or Relief Valve 15.6.2 Radiological Consequences of Small Lines Carrying RC Outside Containment 15.6.3 Steam Generator Tube Rupture 15.6.4 Primary System Pipe Ruptures 15.6.4.1 SBLOCA X 15.6.4.2 LBLOCA X 15.7 Radiological Release From a Subsystem or Component 15.7.1 Radiological Gas Waste System Failure X 15.7.2 Radiological Liquid Waste System Failure X 15.7.3 Fuel Handling Accidents X 15.8 Anticipated Transients Without Scram Chapter 6, Chapter 5 6.2.1.2 Containment Integrity 5.2.2 Low Temperature Overpressurization 24 March 94

Ginna Station SW Bechtel Rochester Gas and Electric STEAM GENERATOR REPLACEMENT

TRANSIENT ANALYSIS STATUS ACTIVITY COMPLETION MODELS RELAP COMPLETE CONTEMPT COMPLETE JALYZE CONTAINMENT 5/94 ANALYZEACCIDENTS 9/94 10CFR50.59 EVALUATION 12/94 24 March 94

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1 Ginna Station Bech tel A>>0 2)

Rochester Gas and Eiectric GINNA RELAP5 MODEL M)LV 4)I)

Sl f AM $ )>.f S)EAM LINE 955 960 ~965 ~9>0 0 ~ 1b OI0 490 I>b I>0 645 ~ 60 455 I50

~ >4 ~N I) >40 490 CC 0

I 1>0 4>0 eeb ~ 40 N4 No

>44 >40 ~ 70 660

>64 >60 ~ F 5

Ml A I" M>5 h kC'74 MI 924 I)O 0'I 1)) 01 OI, 10

11) OI 06 0> >)7 01 MI))

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11) OL 12 OL >11 04 ON.06 -04 ~ lt I)) 06

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~ )) 06 .06 l) ~ 7) 06 01 IS) 0) I~ 01 1>>'> ~ )) 07 07 .I ~ I)) 07 1)) 07 Ib 0> >)1 0> 4)).at 02 ~ Id ~ )) 07

>1) 01 14 -01 > ) )+MI IS) 01 276-01 ~ I~ 4)S OI 1 79 171 2tl tte

~ 00 1)0 120 61 220 2)0 l)d C3-I )4 ~)) 1 110 Iod IOO 700 2nd 210 21) 214 7)d IN 164 1>4 I IO 240 2>6 t>o 246 2)I 160 )40 pQM> >)>M > ten 260 I~ L 164 lbd tdI 264 140 f~)64 tdo 24 lvlARCH 94

Ginna Slatlort I

Bechtel ljldlp$ 0h ANO Rochester Gas and Electric CORE MODEL GINNA REACTOR VESSEL AND 364 hot leg hot leg 360 nozzle leakage path nozzle D upper plenum oC9 351 107 103 102 350 354 106 368 302 upper plenum 349 348 326 338 1

101 100 336 104 324 cold leg cold leg nozzle nozzle 322 334 320 332 318 316 328 312 375 310 380 24 MAI<CII 94

Ginna Station BIVI Bechtel 1

828mOSOn CD CD Rochester Gas and Electric MAIN FEEDWATER A WSIOE CONTAlNMENT AFW 820 SGA 801 MFW Pump A 02 806 808 810 18121814 81 6 i --424!

818 822i-4~824 ~83D 625 SGB 888 ~~82 906 908 910 918

+-~~~22L~924 ~30 931; 933 934 725 901 MFW 920 Pump B - -iw ==-

AFW MAIN FEEDWATER 8 Ginna MFW RELAP5 Node Diagram 24 ivlAl<Cfl 94

Ginna Station Blvl Bectt t l

1996 FUEL RELOAD

~ NEW WESTINGHOUSE FUEL FABRICATION CONTRACT

~ INSERT VANTAGE -5 FUEL VS. OFA FUEL F. INCREASE FROM 1.66 TO 1.75 Fq INCREASE FROM 2.32 TO 2.50

~ CYCLE LENGTH INCREASE FROM ANNUALTO 18 MONTHS

~ INCREASE SFP ENRICHMENT FROM 4.25 W/0 TO 5.0 W/0 POSSIBLE T,, DECREASE UP TO 15'F 24 MARCH 94

kl Ginna SIalion BIVI BeChtel I

Rochester Gas and Electric FVKI ASSKMBI Y CHARACTERISTICS COMPARISON OF CURRENT VS. 1996 CHARACTERISTIC CURRENT 1996 TYPE 14 X 14 OFA, VANTAGE 5 FUEL ROD O.D. 0.40 IN 0.40 IN FUEL CLADDING MATERIAL Z;4 Z,-4 ACTIVE FUEL LENGTH 141.4 IN 141.4 IN BLANKET REGION/

ENRICHMENT 6 IN/NAT. 6 IN/2.6 W/0 CENTER REGION UP TO 4.25 UP TO 5.0 ENRICI-IMENT W/0 W/0 BOTTOM NOZZLES DFBN DFBN GRIDS 2 TOP AND BOTTOM INCONEL-718 'NCONEL-718 7 MID Z,-4 Z,-4 INTERMEDIATE FLOW MIXING NONE NONE DISCHARGE BURNUPS LOW 40s MID 50s GWD/MTU GWD/MTU 24 MARCIA 94

Ginna Station Bechtel Rochester Gas and Electric Ginna Accident Analysis 15.1 Increase in Heat Removal by the Secondary System 15.1.1 Decrease in Feedwater Temperature 15.1.2 Increase in Feedwater Flow 15.1.3 Excessive Load Increase Incident 15.1.4 Inadvertent Opening of a SG Relief/Safety Valve 15.1.5 Steam Line Breaks Inside and Outside Containment 15.1.6 SG Relief Valve and Feedwater Control Valve Failure 15.2 Decrease in Heat Removal by the Secondary System 15.2.1 Steam Pressure Regulator Malfunction 15.2.2 Loss of External Electrical Load 15.2.3 Turbine Trip 15.2.4 Loss of Condenser Vacuum 15.2.5 Loss of Offsite Power to the Station Auxiliaries 15.2.6 Loss of Normal Feedwater Flow 15.2.7 Feedwater System Pipe Breaks 15.3 Decrease in RCS Flowrate 15.3.1 Flow Coastdown Accidents 15.3.2 Locked Rotor Accident 15.4 Reactivity and Power Distribution Anomaities 15.4.1 Uncontrolled RCCA Withdrawal from Subcritical 15.4.2 Uncontrolled RCCA Withdrawal at Power 15.4.3 Startup of an Inactive Reactor Coolant Loop 15.4.4 CVCS Malfunction 15.4.5 RCCA Ejection 15.4.6 RCCA Drop 15.5 Increase in RCS Inventory 15.6 Decrease in RCS Inventory 15.6.1 Inadvertent Opening of a Pressurizer Safety or Relief Valve 15.6.2 Radiological Consequences of Small Lines Carrying RC Outside Containment 15.6.3 Steam Generator Tube Rupture 15.6.4 Primary System Pipe Ruptures 15.6.4.1 SBLOCA 15.6.4.2 LBLOCA 15.7 Radiological Release From a Subsystem or Component 15.7.1 Radiological Gas Waste System Failure 15.7.2 Radiological Liquid Waste System Failure 15.7.3 Fuel Handling Accidents 15.8 Anticipated Transients Without Scram 6.2.1.2 Containment Integrity 5.2.2 Low Temperature Overpressurization 24 March 94

I 1

Ginna Stalion BWI ge~ht

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+npsan ANALYSES THAT WILL BK UPDATED WITH RELOAD 15.1.1 DECREASE IN FEEDWATER TEMPERATURE 15.1.2 INCREASE IN FEEDWATER FLOW 15.1.3 EXCESSIVE LOAD INCREASE INCIDENT 15.1.4 INADVERTENT OPENING OF A SG RV 15.1.5 SLB (BOTH CORE AND M&E)

I 15.1.6 SG RV Ec FW CONTROL VALVE FAILURE 15.2.7 LOSS OF EXTERNAL LOAD/TURBINE TRIP 15.3.1'LOW COASTDOWN ACCIDENTS 15.6.3 SG TUBE RUPTURE 15.6.4.1 SBLOCA 15.6.4.2 LBLOCA 15.7.3 FUEL HANDLING ACCIDENTS 5.2.2 I.OW TEMP. OVERPRESSURIZATION (BWNT) 24 MARCH 94

Ginna Station Bechtel Rochester Gas and Electric SCHEDULE DATA PREPARATION 4/I/94 FINALIZEINPUT DATA 6/1/94 START ANALYSIS 6/1/94 DRAFT REPORT 6/1/95 FINAL REPORT 7/1/95 SUBMIT REPORT TO NRC 8/1/95 CYCLE 26 STARTVP 5/1/96 24 MARCH 94

BIYI Beef)te/

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E UIPMENT STATUS

~ FABRICATION BY BOW INTERNATIONAL

~ ALL MAJOR COMPONENTS ORDERED MAJOR FORGINGS, JAPAN STEEL WORKS TUBING, VALINOX SHELL PLATE, CREUSOT-LOIRE

~ PRIMARY HEADS CLADDING COMPLETE NOZZLE DAM RINGS BEING INSTALLED PRIMARY NOZZLE BUTTERING UNDERWAY

~ TUBESHEETS CLADDING COMPLETE READY FOR GUNDRILLING OF TUBEHOLES

~ SECONDARY SHELLS LOWER SHELL CONES WELDED HANDHOLES AND INSPECTION PORTS BEING INSTALLED

~ TRANSITION CONK FORGINGS HANDHOLE OPENINGS CUT 24 March 94

Ginna Station st t swI Bechtel E UIPNIENT STATUS CONT'0 TUmNG PRE PRODUCTION UNDERWAY AT VALINOX PREPRODUCTION COMPLETE JUNE 1994 PRODUCTION MATERIALBEING MELTED AT INCO PRODUCTION COMPLETE DECEMBER 1994 24 March 94

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Ginna Station Bechtel Lpmpson l

INSTALLATIONSTATUS

~ INSTALLATIONCONTRACTOR BKCHTKL POWER DETAILED DESIGN INSTALLATION

~ DETAILED ENGINEERING 1994

~ PROCEDURE PREPARATION 1995

~ ACTIVITIES TO DATE PROJECT INTERFACE PROCEDURES VIDEO PREPARATION CONTAINMENT OPENING STUDY QA PROCEDURE MANUAL PROJECT ENGINEERING PROCEDURES MANUAL INSUI.ATION STUDY DRAFT DESIGN CRITERIA FOR CONTAINMENT STRUCTURAL WORK

~ MAJOR SUBCONTRACTORS POWER CUTTING LAMPSON PSI 24 March 94

Ginna Station Blvl Bechtgl t

Rochester Gas and Electric R. K. GINNA STEAM GENERATOR REPI ACKMKNT

\

STRVCTVRAL EVALUATION OF EFFECTED COMPONENTS & SYSTEMS=

24 March 94

Ginna Station BlYI Beep(

l REACTOR COOLANT SYSTEM LATEtST ANALYSIS

~ 1988 SNUBBER REPLACEMENT

~ IMPLEMENT LBB/HELB CRITERIA

~ RIGID STRUTS S/G COLD SPRING ACCEPTANCE CRITERIA

~ PIPING USASFANSI B31.1 Q EQUIPMENT ASMK SECTION III O SUPPORTS ASME SECTION III 24 March 94

Ginna Station Bechtel Ijlfhp50h AHD CD Rochester Gas and Electric 38 HAIN S1EAM LINE 38 HAiN StEAM LINE STEAM GENERnlOR )A S)EAM CENERA1OR REACIOR COOLAN1 PUMP )B 14 FEEOWATER LINE 14 FEEOWATER LINE UPPER SUPPORTS ANO SNUBBERS l'TYP.)

COLO LEG HOT LEG NOT LEG INTERHEOIATE SUPPORTS lTYP.)

LOWER SUPPORTS lTYP.)

CROSSOYER LEG COLO 'LEG REACTOR COOLANT PUHP lA REACtOR vESSEL VIEW OF NSSS iTEM FOR GINNA NUCLEAR STATION

Ginna Stalion Bechtel STRUCTURAL MODELS BWSPAN STRUCTURAL CODE 3 MODELS BENCHMARK ENHANCED W/OLD S/G

~ ENHANCED W/NKW S/G DEMONSTRATE UNDERSTANDING OF CURRENT BASIS AND LOOP BEHAVIOR GENERATE DETAILED LOADING/STRESS INFO FOR CURRENT S/G DISTINGUISH EFFECTS OF MODEL ENHANCEMENTS AND S/G DIFFKRKNCK CONFIRM/CALCULATELOADS, STRESSES, AND THERMAL MOTIONS FOR NKW S/G 24 March 94

Ginna Station Bill t Bechtel Rochester Gas and Electric LOADING CONDITIONS BENCHMARK DEADWEIGHT 0 OBK ENHANCED MODEL W/OLD S/G

~ DEADWEIGHT 0 OBE ENHANCED MODEL W/NEW S/G Oe DEADWErCHT

~ THERMAL OBK/SSK

~ LOCA/HKLB Q COLD SHUTDOWN EARTHQUAKE 24 March 94

Ginna Station Bechtel I

ACCEPTANCE CRITERIA

1. COMPARE TO CURRENT ANALYSIS NKW LOADS < OLD LOADS = OK
2. COMPARE TO ALLOWABLKS 0 pnnwG I

- B31.1 ALLOWABLKS CURRENT LBB CRITERIA EQVIPNtKNT - NOZZLKS LOADS

- SUPPORT LOADS AUX LINKS - < '/,6 " ADDED DEFLECTION 24 March 94

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Ginna Stalion Bechtel La npsen Rochester Gas end Electric MODEL ENHANCEMENTS i

NKW OLD CONSISTENT MASS LUMPED MASS MODELING EXPLICIT MODELING OF STIFFNESS MATRIX SUPPORTS FREQUENCY CUTOFF 100 Hz 30Hz N-411 DAMPING 2%/4% DAMPING SINGLE ANCHOR Pt./SINGLE MULTIPLE ANCHOR SPECTRA Pts./ENVELOPE SPECTRA CLOSELY SPACED MODES EPSILON RULE VIA 10 Z. RULE EXPLICIT ACP ANALYSIS FACTOR ON DISCHARGE FOR HKLB COEFFICIENT 24 March 94

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lampsan LOADING METHODS SEISMIC DWhTHKRMAL STATIC OBEYS SE RESPONSE SPECTRA

~ 3 AXIS EXCITATION

~ CURRENT DESIGN SEISMIC SPECTRA MULTIPLE CASKS FOR SUPPORTS 0 MODES COMBINED SRSS a cr.osKz,v spAcKD moDEs vw. io z RUr.E TIME HISTORIES FOR ARSs ON S/G SHELL 24 March 94

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BlVI + Ginna Stalion Bechtel Rochester Gns and E/eclric LOADING METHODS LOCALHK'LB CRAFT dk, COMPAR2 CODES I

LINEARTIME HISTORY ANAI,YSIS PIPINGLINTKRNALS TRANSIENT LOADS 0 M/E RELEASE FOR ACP ANALYSIS

~ ACP ON COMPONENTS

~ CONFIRM SUPPORTS ACTIVE RCS: LEAK-BEFORE-BREAK RHR ZZNE SURGE LINK SI LINK IIELB: TERMINALLOCATIONS ONLY MAIN STEAM FEED WATER BLOWDOWN RECIRC NOZZLE 24 March 94

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Rochester Gas and Electric CVRRKNT EXPECTATION DKADWKIGIIT INCREASE (<5%)

THERMAL - SAME SEISMIC - DECREASE '

LOCA INCREASE (< 15%) '

HKLB DECREASE

1. MODEL ENHANCEMENTS = MORE MARGIN INCREASED WKIGIIT= LESS MARGIN OVERALL EFFECT - EXPECT MORE MARGIN
2. BLOWDOWN INITIALCONDITIONS WILL USK 15'F REDUCED TAvE 24 March 94

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Ginna Station Bwl gech~e/

t Rochester Gas and Electric STATUS dk SCHEDULE MODELS NKAmWG COMPLETION STRUCTURAL BENCHMAKKINGSTARTED SEISMIC ANAIVSIS: COMPLETE 7/94 BLOWDOWN ANALYSES: COMPLETE 10/94 LOAD COMBINATION dt.

COMPARISONS COMPLETE 1/95 24 March 94

DISPLACEMENT MODEL PURPOSE RG&K TECHNICAL OVERSIGHT OF RCS PIPING CUT &

WELD CONCERNS COLD SPRING (BEFORE 7 AFTER)

WELD FIT-UP RCS TEMPORARY SUPPORT DESIGN VIODEL ANSYS FINITE ELEMENT MODEL OF RCS PLATE & BEAM ELEMENTS MODEL RCS PIPE AS SHELLS 3400 ELEMENTS / 3400 NODES ONE LOOP MODEL STATUS MODEL NEAR COMPLETION 24 March 94

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S/G DESIGN FEATURES PROBI KM DESIGN FEATURES TUBESHEET DEFECTS CLOSED CREVICE HYDRAULIC EXPANSION INCONEL 690 TUBING SLUDGE HIGH CIRCULATION ACCUMULATIONON RATIO TUBESHEET INSPECTION/MAINTEN-ANCE PORTS ACCESSIBLE FOR SLUDGE LANCING DEFECTS AT 7UBE LATTICE GRIDS SUPPORT PLATES STAINLESS STEEL CONSTRUCTION INCONEL 690 MATERIAL HIGH CYCLE FATIGUE FAN BAR SUPPORT SYSTEM WATER HAMMER GOOSE NECK AT FEEDWArER RING INLET I-TUBES J-TUBE FAILURES INCONEL 690 FOR EROSION RESISTANCE 24 March 94

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S/G DESIGN FKATVRKS PROBI KM DESIGN FKATVRKS MOISTURE CARRYOVER HIGH EFFICIENCY SEPARATORS 0.10%

GUARANTEE PRESSURE BOUNDARY FORGED AND PLATE WELD FAILURES COMPONENTS NO CORNER WELDS STRICT PRE AND POST HEAT REQVIREMENTS PWSCC OF U-BFNDS LARGE MINIMUM RADIUS BENDS STRESS RELIEF OF FIRST 8 ROWS SECONDARY LOOSE NO FASTENERS, 100%

PARTS WELDED STRUCTURE PRIMARY SIDE ACCESS 18" DIAMETER MANWAYS SECONDARY SIDE 6-8" HANDHOLES ACCESS 14-2" INSPECTION PORTS 1-18" MANWAY PRIMARY NOZZLE 316 LN SAFE ENDS WELDING NARROW GAP WELDING SPARE ELBOWS 24 March 94

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CONTAINMENT OPENING MODEL CONTAINMENT OPENING DESIGN INCLUDED IN BKCHTKL WORKSCOPK RGK MODEL FOR OVKRCHKCK OF BKCHTKL DESIGN ANSYS FINITE ELEMENT MODEL INCLUDES ENTIRE CONTAXNMKNTSTRUCTURE ROCK ANCHORS BASE rVrATS WALLS AND TENDONS SPRjNG LINE AND TRANSITION DOME STEEL, CONCRETE AND LINER PLATE MODEL DEVELOPMENT COMPLETE VERIFIED AGAINST CLASSICAL SOLUTIONS

~ WILL BE AVAILABLETO VERIFY BECHTEL DESIGN AND FOR CONSTRUCTION.

24 March 94

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Ginna Station Bechtel SCHEDULE FOR INk Ol&'IATIOWAI SUBMITTAIS COMPONENT ACTIVITIES PRELIMINARY SAFETY EVALUATION MAY 1994 FINAL REPORT/50.59 EVALUATION MAY 1995 nS rAI,r.ETIO~ WCTVmIKS SAFETY EVALUATIONOF CONTAINMENT OPENING AUGUST 1994 SAFETY EVALUATIONOF RIGGING AND HANDLING OCTOBER 1994 SAFETY EVALUATIONOF STEAM GENERATOR PIPING DECEMBER 1994 SAFETY EVALUATIONOF STEAM GENERATOR INSULATION DECEMBER 1994 TESTING AND INSPECTION PLAN MARCH 1995 24 March 94

Ginna Station Bechtel Ipmp0an Rochester Gas and Electric SCHEDULE< FOR SUBMITTAI,S FOR REIVIKW I-690 RELIEF REQUEST MAY 1994 CURRENT STFAM GENERATOR TUBE RUPTURE ANALYSIS JULY 1994 FUEl RELOAD REPORT AUGUST 1995 24 March 94 I

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