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{{#Wiki_filter:APPENDIXBtotheSTRUCTURAL REANALYSIS PROGRAMForTheRE.GINNANUCLEARPOWERPLANT83053i014i 8305f9PDRADOCK05000244PPDR Addendumto"Criticality AnalysisfortheSpentFuelStorageRacks"forRochester Gas&ElectricCorporation GinnaPlantDatedNovember1982byPickard,LoweandGarrick,Xnc.120018thStreet,N.W.Washington, D.C.20036March1983 Addendumto"Criticality AnalysisfortheSpentFuelStorageRacks"ForRochester Gas&ElectricCorporation GinnaPlant,DatedNovemberl982Inadditiontotheaccidentconditions relatedtothespentfuelstorageracksasdiscussed inSection5.0oftheoriginalreport,anotheraccidentcondition wasevaluated whichinvolvesamissileorahighvelocityforeignobjectfallingontop.of,thestorageracks.Crushingorcompaction ofthefuelassemblies causedbyimpactwouldcompactthefuellatticeandresultinamoreundermoderated andtherefore lessreactiveconfiguration aspreviously described inSection5.0ofthereport.Ifthemissileorthehighvelocityobjectisassumedtocausedisplacement ofafuelstoragebox,aconfiguration similartothatdepictedinFigure6(b)couldconveivable result.Asshown,onewaterboxandonefuelboxareassumedtobeinterchanged ascomparedtothenormalstoragepattern[Figure6(a)].Figure6(c)represents a'ondition whichis.evenmorelimitingwithrespecttocriticality safety.Inthe.lattercase,halfofthewaterboxesintheracksystemareassumedtobereplacedwithfuelstoragelocations.
{{#Wiki_filter:APPENDIX B to the STRUCTURAL REANALYSIS PROGRAM For The R E.GINNA NUCLEAR POWER PLANT 83053i014i 8305f9 PDR ADOCK 05000244 P PDR Addendum to"Criticality Analysis for the Spent Fuel Storage Racks" for Rochester Gas&Electric Corporation Ginna Plant Dated November 1982 by Pickard, Lowe and Garrick, Xnc.1200 18th Street, N.W.Washington, D.C.20036 March 1983 Addendum to"Criticality Analysis for the Spent Fuel Storage Racks" For Rochester Gas&Electric Corporation Ginna Plant, Dated November l982 In addition to the accident conditions related to the spent fuel storage racks as discussed in Section 5.0 of the original report, another accident condition was evaluated which involves a missile or a high velocity foreign object falling on top.of, the storage racks.Crushing or compaction of the fuel assemblies caused by impact would compact the fuel lattice and result in a more undermoderated and therefore less reactive configuration as previously described in Section 5.0 of the report.If the missile or the high velocity object is assumed to cause displacement of a fuel storage box, a configuration similar to that depicted in Figure 6(b)could conveivable result.As shown, one water box and one fuel box are assumed to be interchanged as compared to the normal storage pattern[Figure 6(a)].Figure 6(c)represents a'ondition which is.even more limiting with respect to criticality safety.In the.latter case, half of the water boxes in the rack system are assumed to be replaced with fuel storage locations.
Theresulting kofthisveryconservative modelisonly0.8894whenthe2000ppmofsolubleboronpresentinthepoolwaterisincludedinthecalculation.
The resulting k of this very conservative model is only 0.8894 when the 2000 ppm of soluble boron present in the pool water is included in the calculation.
Thusthekfortheassumedaccidentconfiguration showninFigure6(b)shouldbesignificantly lessthan0.8894andmuch'lessthanthenormal 4
Thus the k for the assumed accident configuration shown in Figure 6(b)should be significantly less than 0.8894 and much'less than the normal 4
rackcell[Figure6(a)]kof0.9305(seeTable5)at68F,4.25w/oU-235andnosolubleboron.Basedonthisconservative analyticmodel,theassumedaccidentinvolving amissileorhighvelocityfallingobjectwillposenothreattothecriticality safetyofthespentfuelstorageracks.Reference l,Attachment BtoProposedTechnical Specification Change,submitted byletterdatedFebruary23,l983fromJohnE.Maier,RG&E,toArnoldDenton,USNRC.  
rack cell[Figure 6(a)]k of 0.9305 (see Table 5)at 68 F, 4.25 w/o U-235 and no soluble boron.Based on this conservative analytic model, the assumed accident involving a missile or high velocity falling object will pose no threat to the criticality safety of the spent fuel storage racks.Reference l, Attachment B to Proposed Technical Specification Change, submitted by letter dated February 23, l983 from John E.Maier, RG&E, to Arnold Denton, USNRC.  
~~~rFigure6AccidentGeometryfor'Displacement ofOneFuelStorageLocationCausedbyMissileStrike(a)NORMALCONFIGURATION
~~~r Figure 6 Accident Geometry for'Displacement of One Fuel Storage Location Caused by Missile Strike (a)NORMAL CONFIGURATION
~weBasicrackcellk.(nosolubleboron)=.9305Rackcellk(2000ppm(solubleboron)=.6622(b)ASSUMEDACCIDENTCONFIGURATION (onewaterboxandfuelboxinterchanged)
~w e Basic rack cell k.(no soluble boron)=.9305 Rack cell k (2000 ppm (soluble boron)=.6622 (b)ASSUMED ACCIDENT CONFIGURATION (one water box and fuel box interchanged)
Rackcellk(2000ppmsolubleboron)<.8894(c)CONSERVATIVE MODELOFACCIDENTCONFIGURATION (eliminate 50%ofwaterboxes)Conservative rackcellk(2000ppmsolubleboron).8894auFuelStorageLocationWaterBox}}
Rack cell k (2000 ppm soluble boron)<.8894 (c)CONSERVATIVE MODEL OF ACCIDENT CONFIGURATION (eliminate 50%of water boxes)Conservative rack cell k (2000 ppm soluble boron).8894 a u Fuel Storage Location Water Box}}

Revision as of 14:55, 7 July 2018

App B to Structural Reanalysis Program, Criticality Analysis for Spent Fuel Storage Racks.
ML17256A707
Person / Time
Site: Ginna Constellation icon.png
Issue date: 03/31/1983
From:
PLG, INC. (FORMERLY PICKARD, LOWE & GARRICK, INC.)
To:
Shared Package
ML17256A706 List:
References
PROC-830331, NUDOCS 8305310141
Download: ML17256A707 (6)
v  d  e


Text

APPENDIX B to the STRUCTURAL REANALYSIS PROGRAM For The R E.GINNA NUCLEAR POWER PLANT 83053i014i 8305f9 PDR ADOCK 05000244 P PDR Addendum to"Criticality Analysis for the Spent Fuel Storage Racks" for Rochester Gas&Electric Corporation Ginna Plant Dated November 1982 by Pickard, Lowe and Garrick, Xnc.1200 18th Street, N.W.Washington, D.C.20036 March 1983 Addendum to"Criticality Analysis for the Spent Fuel Storage Racks" For Rochester Gas&Electric Corporation Ginna Plant, Dated November l982 In addition to the accident conditions related to the spent fuel storage racks as discussed in Section 5.0 of the original report, another accident condition was evaluated which involves a missile or a high velocity foreign object falling on top.of, the storage racks.Crushing or compaction of the fuel assemblies caused by impact would compact the fuel lattice and result in a more undermoderated and therefore less reactive configuration as previously described in Section 5.0 of the report.If the missile or the high velocity object is assumed to cause displacement of a fuel storage box, a configuration similar to that depicted in Figure 6(b)could conveivable result.As shown, one water box and one fuel box are assumed to be interchanged as compared to the normal storage pattern[Figure 6(a)].Figure 6(c)represents a'ondition which is.even more limiting with respect to criticality safety.In the.latter case, half of the water boxes in the rack system are assumed to be replaced with fuel storage locations.

The resulting k of this very conservative model is only 0.8894 when the 2000 ppm of soluble boron present in the pool water is included in the calculation.

Thus the k for the assumed accident configuration shown in Figure 6(b)should be significantly less than 0.8894 and much'less than the normal 4

rack cell[Figure 6(a)]k of 0.9305 (see Table 5)at 68 F, 4.25 w/o U-235 and no soluble boron.Based on this conservative analytic model, the assumed accident involving a missile or high velocity falling object will pose no threat to the criticality safety of the spent fuel storage racks.Reference l, Attachment B to Proposed Technical Specification Change, submitted by letter dated February 23, l983 from John E.Maier, RG&E, to Arnold Denton, USNRC.

~~~r Figure 6 Accident Geometry for'Displacement of One Fuel Storage Location Caused by Missile Strike (a)NORMAL CONFIGURATION

~w e Basic rack cell k.(no soluble boron)=.9305 Rack cell k (2000 ppm (soluble boron)=.6622 (b)ASSUMED ACCIDENT CONFIGURATION (one water box and fuel box interchanged)

Rack cell k (2000 ppm soluble boron)<.8894 (c)CONSERVATIVE MODEL OF ACCIDENT CONFIGURATION (eliminate 50%of water boxes)Conservative rack cell k (2000 ppm soluble boron).8894 a u Fuel Storage Location Water Box

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