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| number = ML16256A184
| number = ML16256A184
| issue date = 08/25/2016
| issue date = 08/25/2016
| title = Waterford Steam Electric Station, Unit 3, Revision 309 to Final Safety Analysis Report, Chapter 3, Design of Structures, Components Equipment and Systems, Section 3.7, Figures 3.7-1 Through 3.7-36
| title = Revision 309 to Final Safety Analysis Report, Chapter 3, Design of Structures, Components Equipment and Systems, Section 3.7, Figures 3.7-1 Through 3.7-36
| author name =  
| author name =  
| author affiliation = Entergy Operations, Inc
| author affiliation = Entergy Operations, Inc
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{{#Wiki_filter:86Y2 0.04  I  I0.016ATLANTA, GEORGIAFEBRUARY 1972JOB NUMBER SA-239 i VI  \\\I \  \I\ CDPERIOD (SEC. HISTORY SPECTRANRC REG. 1.60 DESIGN SPECTRAWATERFORD 3 DESIGN SPECTRAWONG-TRI FUNAC SPECTRA  6 KMWONG-TRIFUNAC SPECTRA  15 KMLOUISIANA POWER  LIGHT CO.Waterford SteamElectric StationHORIZONTAL RESPONSE SPECTRUM DESIGN BASISEARTHQUAKE 2% DAMPING-TOP OF PLEISTOCENEFigure3.7-l 10080601086 0.8 0.6      WATERFORD 3 SYNTHETIC TIME0.080.06 HISTORY SPECTRANRC REG. 1.60 DESIGN SPECTRA------ WATERFORD 3 DESIGN SPECTRA WONG-TRIFUNAC SPECTRA  8 KMWONG-TRIFUNAC SPECTRA  15 KMIOB NUMBER SLAW ENGINEERING TESTING COMPPPERIOD (SEC. LOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationNTAL RESPONSE SPECTRUM DESIGN BASISUAKE 5% DAMPING-TOP OF PLEISTOCENEFigure3.7-2 100806040.20108842 0.8 0.64 0.40.2WATERFORD 3 SYNTHETIC TIMEHISTORY SPECTRA0.1NRC REG. 1.60 DESIGN SPECTRA0.080.060.040.02LAW ENGINEERING TESTING COMPANY0.01 8  PERIOD (SEC. LOUISIANAFigurePOWER LIGHT CO.HORIZONTAL RESPONSE SPECTRUM OPERATING BASISWaterford SteamEARTHQUAKE 2% DAMPING-TOP OF PLEISTOCENE3.7-3Electric Station 10080604020108642 0.8 06 .4 0.40.2WATERFORD 3 SYNTHETIC TIMEHISTORY SPECTRA0.1NRC REG. 1.60 DESIGN SPECTRA0.080.060.040.02ATLANTA, GEORGIAFEBRUARY 1972JOB NUMBER SA-2390.01a 800 PERIOD (SEC. LOUISIANAPOWER LIGHT CO.FigureHORIZONTAL RESPONSE SPECTRUM OPERATING BASISWaterford SteamEARTHQUAKE 5% DAMPING-TOP OF PLEISTOCENE3.7-4Electric Station 2010860.20.10.080.060.040.02LOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationFigureVERTICAL RESPONSE SPECTRUM DESIGN BASISEARTHQUAKE 2% DAMPING-TOP OF PLEISTOCENE3.7-5 6 0.64 0.4LAW ENGINEERING TESTING COMPANYATLANTA, GEORGIAFEBRUARY 1972JOB NUMBER SA-239 I  I \\I \    PERIOD (SEC. FigureVERTICAL RESPONSE SPECTRUM DESIGN BASISEARTHQUAKE 5% DAMPING-TOP OF PLEISTOCENE3.7-6 1086 0.8 06 . 0.40.10.080.06LOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationFigureVERTICAL RESPONSE SPECTRUM OPERATING BASISEARTHQUAKE 2% DAMPING-TOP PLEISTOCENE3.7-7 10a610.80.60.10.080.06iLAW ENGINEERING TESTING COMPANYATLANTA, GEORGIAB NUMBER SA-239\I  N  PERIOD (SEC. LOUISIANAPOWER LIGHT CO.Waterford SteamVERTICAL RESPONSE SPECTRUM OPERATING BASISEARTHQUAKE 5% DAMPING-TOP OF PLEISTOCENEFigure3.7-8Electric StationI SHIELD BLDG.CONTAINMENT VESSELEL.197.5EL.172.4 2EL.150.7 3EL.131.0 4aEL.lll.O 5 12EL.176.013EL.154.0 NEL.132.0EL.86.0 6INTERNAL STRUCTURE EL.1 10.0 HANDLING 16 BUILDINGEL.61.0 7aEL.41.0 8EL.19.0 9EL.35.0  NEL.23.0E 4.22.0E 10EL85. . NIEL.l.OE L.-4.032       REACTORAUXILIARYBUILDINGEL.lOO.O 33E L.84.5I35 EL.4E L.-35E L.-47LOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationMATHEMATICAL MODEL FOR SEISMIC ANALYSIS(HORIZONTAL EXCITATIONS)Figure3.7-9 REACTORAUXILIARYBUILDINGHANDLINGBUILDINGMATHEMATICAL MODEL FOR SEISMIC ANALYSIS(VERTICAL EXCITATION)  
{{#Wiki_filter:8 6 Y 2 0.04  I  I 0.01 6 ATLANTA, GEORGIA FEBRUARY 1972 JOB NUMBER SA-239 i VI  \\\I \  \I\ CD PERIOD (SEC. HISTORY SPECTRA NRC REG. 1.60 DESIGN SPECTRA WATERFORD 3 DESIGN SPECTRA WONG-TRI FUNAC SPECTRA  6 KM WONG-TRIFUNAC SPECTRA  15 KM LOUISIANA POWER  LIGHT CO.
Waterford Steam Electric StationHORIZONTAL RESPONSE SPECTRUM DESIGN BASIS EARTHQUAKE 2% DAMPING-TOP OF PLEISTOCENE Figure 3.7-l 100 80 60 10 8 6 0.8 0.6      WATERFORD 3 SYNTHETIC TIME 0.08 0.06 HISTORY SPECTRANRC REG. 1.60 DESIGN SPECTRA
------ WATERFORD 3 DESIGN SPECTRA WONG-TRIFUNAC SPECTRA  8 KM WONG-TRIFUNAC SPECTRA  15 KM IOB NUMBER S LAW ENGINEERING TESTING COMPP PERIOD (SEC.
LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station NTAL RESPONSE SPECTRUM DESIGN BASIS UAKE 5% DAMPING-TOP OF PLEISTOCENE Figure 3.7-2 100 80 60 40.20 10 8 8 4 2 0.8 0.6 4 0.4 0.2 WATERFORD 3 SYNTHETIC TIME HISTORY SPECTRA 0.1NRC REG. 1.60 DESIGN SPECTRA 0.08 0.06 0.04 0.02LAW ENGINEERING TESTING COMPANY 0.01 8  PERIOD (SEC.
LOUISIANA Figure POWER LIGHT CO.
HORIZONTAL RESPONSE SPECTRUM OPERATING BASIS Waterford Steam EARTHQUAKE 2% DAMPING-TOP OF PLEISTOCENE 3.7-3 Electric Station 100 80 60 40 20 10 8 6 4 2 0.8 06 .4 0.4 0.2 WATERFORD 3 SYNTHETIC TIME HISTORY SPECTRA 0.1NRC REG. 1.60 DESIGN SPECTRA 0.08 0.06 0.04 0.02 ATLANTA, GEORGIA FEBRUARY 1972 JOB NUMBER SA-239 0.01 a 8 0 0 PERIOD (SEC.
LOUISIANA POWER LIGHT CO.
Figure HORIZONTAL RESPONSE SPECTRUM OPERATING BASIS Waterford Steam EARTHQUAKE 5% DAMPING-TOP OF PLEISTOCENE 3.7-4 Electric Station 20 10 8 6 0.2 0.1 0.08 0.06 0.04 0.02 LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station Figure VERTICAL RESPONSE SPECTRUM DESIGN BASIS EARTHQUAKE 2% DAMPING-TOP OF PLEISTOCENE 3.7-5 6 0.6 4 0.4LAW ENGINEERING TESTING COMPANY ATLANTA, GEORGIA FEBRUARY 1972 JOB NUMBER SA-239 I  I \\I \    PERIOD (SEC.
Figure VERTICAL RESPONSE SPECTRUM DESIGN BASIS EARTHQUAKE 5% DAMPING-TOP OF PLEISTOCENE 3.7-6 10 8 6 0.8 06 . 0.4 0.1 0.08 0.06 LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station Figure VERTICAL RESPONSE SPECTRUM OPERATING BASIS EARTHQUAKE 2% DAMPING-TOP PLEISTOCENE 3.7-7 10 a 6 1 0.8 0.6 0.1 0.08 0.06 iLAW ENGINEERING TESTING COMPANY ATLANTA, GEORGIA B NUMBER SA-239
\I  N  PERIOD (SEC.
LOUISIANA POWER LIGHT CO.
Waterford Steam VERTICAL RESPONSE SPECTRUM OPERATING BASIS EARTHQUAKE 5% DAMPING-TOP OF PLEISTOCENE Figure 3.7-8 Electric Station I
SHIELD BLDG.
CONTAINMENT VESSEL EL.197.5 EL.172.4 2 EL.150.7 3 EL.131.0 4 a EL.lll.O 5 12 EL.176.0 13 EL.154.0 N EL.132.0 EL.86.0 6 INTERNAL STRUCTURE EL.1 10.0 HANDLING 16 BUILDING EL.61.0 7 a EL.41.0 8 EL.19.0 9 EL.35.0  N EL.23.0 E 4.22.0 E 10 EL85. . N I EL.l.O E L.-4.0 32       REACTOR AUXILIARY BUILDING EL.lOO.O 33 E L.84.5 I 35 EL.4 E L.-35 E L.-47 LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station MATHEMATICAL MODEL FOR SEISMIC ANALYSIS (HORIZONTAL EXCITATIONS)
Figure 3.7-9 REACTOR AUXILIARY BUILDING HANDLING BUILDINGMATHEMATICAL MODEL FOR SEISMIC ANALYSIS (VERTICAL EXCITATION)  


6.506.005.505.004.504.006 DESIGN ENVELOPESHEAR MODULUS OF SOIL IN PSI = 5800 = 8000 = 160500.700.800.80 (SECOND)
6.50 6.00 5.50 5.00 4.50 4.00 6 DESIGN ENVELOPE SHEAR MODULUS OF SOIL IN PSI = 5800 = 8000 = 16050 0.700.800.80 (SECOND)
LOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationFLOOR SPECTRA E-W SSE 1%FOUNDATION MAT ELEV. -35 FT. MSLFigure3.7-l 5 6.506.005.565.004.50  rDESIGN ENVELOPEtSHEAR MODULUS OF SOIL IN PSI1.50 = 5800 = 8000 = 16050I .oo1.101.201.301.400.100.200.300.400.500.600.700.800.801PERIOD  
LOUISIANA POWER LIGHT CO.
,,,,,I,,,,LOUISIANAPOWER LIGHT CO.FLOOR SPECTRA VERTICAL SSE 1%FigureWaterford SteamElectric StationINTERNAL STRUCTURE ELEV. FT. MSL3.7-l 7 6.506.005.505.00 4.564.06 IIIIIDESIGN ENVELOPE250-SHEAR MODULUS OF SOIL IN PSI 5600 = 80000.100.300.400.500.600.700.801.001.101.361.401.50PERIOD (SECOND) 6.506.005.505.00 IIIIIIIIIIIIIIIDESIGN ENVELOPEIIII0.100.200.300.40SHEAR MODULUS OF SOIL IN PSI=5800=8000=160500.500.600.700.800.801.001.101.201.301.401.50PERIOD (SECOND)
Waterford Steam Electric Station FLOOR SPECTRA E-W SSE 1%
ILOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationFLOOR SPECTRA VERTICAL SSE 1%FOUNDATION MAT ELEV. -35 FT. MSLFigure3.7-20 ZERO DISTANCECONTAINMENTSHIELDVESSELBUILDINGEL.197.5 12EL.176.0 13EL.154.0 14EL.1320 15FUELHANDLINGEL.110.0 16BUILDING16EL. 66.019EL. 44.0EL. EL.8.021EL.-4.028EL. 0.0MAT EL. 198.32 EL. 172.43 EL. 150.74 EL. 131.05 EL. 111.06 EL. 86.0COMBINED8 STRUCTUREREACTOR AUXILIARYBUILDINGEL. 69.036EL. 46.0EL. 21.0EL. 41.0 -24.0UPXNORTHTRANSLATIONAL ROTATIONALSOIL SPRINGSLOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationREACTOR BUILDING MATHEMATICALTORSION MODELFigure3.7-21 N1. MAXIMUM SOIL BEARING PRESSURE INCLUDING BUOYANCY EFFECT 7.22,  7.04,  7.02 AND   6.64 KSF2. FACTOR OF SAFETY AGAINST A BEARING CAPACITY FAILURE =1517.22  2.06LIIII! IPLAN OF MAT04267'0'1'03 ----1IDATA:A. MOMENTS DUE TO SSE IN E-W AND N-sDIRECTIONS ARE APPLIED SIMULTAN-EOUSLY.M =    B. BUOYANCY EFFECTS ARE CALCULATEDBASED ON MINIMUM GROUND WATERLEVEL AT EL + 5.0 FT. MSLC. TOTAL LOADS 1.10  +  + 1.0  + WHERE:D=DEAD LOADEQUIPMENT LOAD SAFE SHUTDOWN EARTHQUAKEBUOYANCYD. ULTIMATE BEARING CAPACITY 15.0 KSF3. FACTOR OF SAFETY AGAINST OVERTURNINGOVERTURNING MOMENT = +      RESISTING MOMENT  MR  (BASED  MAXIMUM WATERLEVEL AT EL + 13.0 FT F.S.  = 2.77LOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationSTABILITY AGAINST OVERTURNING FORSEISMIC CATEGORY I STRUCTURESFigure3.7-22 WSES-FSAR-UNIT-3   Revision 307 (07/13)  
FOUNDATION MAT ELEV. -35 FT. MSL Figure 3.7-l 5 6.50 6.00 5.56 5.00 4.50  r DESIGN ENVELOPE t SHEAR MODULUS OF SOIL IN PSI 1.50 = 5800 = 8000 = 16050 I .oo1.101.201.30 1.40 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.80 1 PERIOD  
, , , , , I , , , , LOUISIANA POWER LIGHT CO.
FLOOR SPECTRA VERTICAL SSE 1%
Figure Waterford Steam Electric Station INTERNAL STRUCTURE ELEV.
FT. MSL 3.7-l 7 6.50 6.00 5.50 5.00 4.56 4.06 II II I DESIGN ENVELOPE 250-SHEAR MODULUS OF SOIL IN PSI 5600 = 8000 0.100.300.400.500.600.70 0.80 1.00 1.10 1.361.401.50 PERIOD (SECOND) 6.50 6.00 5.50 5.00 I I I I I I I I I I II I I I DESIGN ENVELOPE I I I I0.100.200.300.40 SHEAR MODULUS OF SOIL IN PSI
=5800=8000=160500.500.600.700.800.80 1.001.101.201.301.40 1.50 PERIOD (SECOND)
I LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station FLOOR SPECTRA VERTICAL SSE 1%
FOUNDATION MAT ELEV. -35 FT. MSL Figure 3.7-20 ZERO DISTANCE CONTAINMENT SHIELD VESSEL BUILDING EL.197.5 12 EL.176.0 13 EL.154.0 14 EL.1320 15 FUEL HANDLING EL.110.0 16 BUILDING 16 EL. 66.0 19 EL. 44.0 EL. EL.8.0 21 EL.-4.0 28 EL. 0.0 MAT EL. 198.3 2 EL. 172.4 3 EL. 150.7 4 EL. 131.0 5 EL. 111.0 6 EL. 86.0 COMBINED 8 STRUCTURE REACTOR AUXILIARY BUILDING EL. 69.0 36 EL. 46.0 EL. 21.0 EL. 41.0 -24.0 UP X NORTH TRANSLATIONAL ROTATIONAL SOIL SPRINGS LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station REACTOR BUILDING MATHEMATICAL TORSION MODEL Figure 3.7-21 N 1. MAXIMUM SOIL BEARING PRESSURE INCLUDING BUOYANCY EFFECT 7.22,  7.04,  7.02 AND 6.64 KSF2. FACTOR OF SAFETY AGAINST A BEARING CAPACITY FAILURE =
1517.22  2.06 L I I I I! I PLAN OF MAT 0 4 267'0'1'0 3 ----1 I DATA:A. MOMENTS DUE TO SSE IN E-W AND N-s DIRECTIONS ARE APPLIED SIMULTAN-EOUSLY.M =    B. BUOYANCY EFFECTS ARE CALCULATEDBASED ON MINIMUM GROUND WATER LEVEL AT EL + 5.0 FT. MSL C. TOTAL LOADS 1.10  +  + 1.0  + WHERE: D=DEAD LOAD EQUIPMENT LOAD SAFE SHUTDOWN EARTHQUAKE BUOYANCY D. ULTIMATE BEARING CAPACITY 15.0 KSF 3. FACTOR OF SAFETY AGAINST OVERTURNINGOVERTURNING MOMENT =
+      RESISTING MOMENT  MR  (BASED  MAXIM UM WATER LEVEL AT EL + 13.0 FT F.S.  = 2.77 LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station STABILITY AGAINST OVERTURNING FOR SEISMIC CATEGORY I STRUCTURES Figure 3.7-22 WSES-FSAR-UNIT-3 Revision 307 (07/13)


(EC-8458, R307) FIGURE 3.7-23 HAS BEEN DELETED   (EC-8458, R307)
(EC-8458, R307)
MASS POINTSUPPORTPOINTYX POINTFREEDOMX. PRESSURIZER SEISMIC ANALYSIS MODEL3.7-24LOUISIANAPOWER  LIGHT CO.Waterford SteamElectric Station WSES-FSAR-UNIT-3  Revision 307 (07/13) 
FIGURE 3.7-23 HAS BEEN DELETED (EC-8458, R307)


  (EC-8458, R307) FIGURE 3.7-25 HAS BEEN DELETED   (EC-8458, R307)
MASS POINT SUPPORT POINT Y X POINT FREEDOM X. PRESSURIZER SEISMIC ANALYSIS MODEL 3.7-24 LOUISIANA POWER LIGHT CO.
LOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationFigure ANALYSIS SAMPLE PROBLEM NO. 1 LOUISIANAPOWER & LIGHT CO.Waterford SteamElectric StationSEISMIC PROTECTION ANALYSIS SAMPLE PROBLEM NO..SHEET1Figure3.7-27 LOUISIANAPOWER & LIGHT CO.Waterford SteamElectric StationSEISMIC PROTECTION ANALYSIS SAMPLE PROBLEM NO. 2SHEET2Figure3.7-28 NTEMP.1 F. EC= 27.9 x PSIEH 27.84 x  PSI1 TO 30)XY-22.15'1 TO 25)X-22.15'Z -50.29'LOUISIANA  LIGHT CO.Waterford SteamElectric StationSEISMIC PROTECTION ANALYSIS SAMPLE PROBLEM NO.. 3Figure3.7-29 IN-COREINSTRUMENTATIONSUPPORTPLATEIN-CORE INSTRUMENTLOUISIANAFigurePOWER LIGHT CO.REPRESENTATIVE NODE LOCATIONSWaterford SteamSEISMIC MATHEMATICAL MODELElectric Station MASS NODEMODEL0NODEMEMBER NUMBERS ARE CIRCLEDI32 32 31031 30CEA SHROUDS30 29029025 24t0 2416CORE SUPPORT 23 I15COREFUEL 0212018CORESUPPORTPLATE11COLUMNS01010141303 302 2---09CSB F LANG E01LOUISIANAPOWER LIGHT CO.FigureWaterford SteamIREACTOR INTERNALS LINEAR LATERAL SEISMIC MODELElectric Station 3.7-31 52 CEASHROUDS46 3332313043294226FUEL- 41  2625 23 3622 35  14CORE 0N NODE16 2N MEMBER171SPRING11 RIGID CONNECTINGLINKLOUISIANAFigurePOWER & LIGHT CO.REACTOR INTERNALS LINEARWaterford SteamVERTICAL SEISMIC MODEL3.7-32Electric Station 21UPPERGUIDECYLINDERCEASHROUDSNOTE: 29 28LOWERSUPPORTSTRUCTURE18161514131211REACTORVESSEL SNUBBERSLOUISIANAPOWER LIGHT CO.Waterford SteamREACTOR INTERNALS NONLINEAR LATERAL SEISMIC MODELFigureElectric StationII CORE SHROUD (MOTION-PRESCRIBED)CORE SHROUD1211109876543000000000012111098765430000000000CORE SHROUDCORE SHROUD (MOTION-PRESCRIBED)NOTE:DETAILED CORE SEISMIC MODEL(ONE ROW OF 17 FUEL ASSEMBLIES)FUELASSEMBLYLOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationREACTOR CORE HORIZONTAL NONLINEAR SEISMIC MODEL3.7-34.
Waterford Steam Electric Station WSES-FSAR-UNIT-3 Revision 307 (07/13)
LOUISIANAFigurePOWER LIGHTCO.CORE-SUPPORT BARREL UPPERFLANGEWaterford SteamFINITE-ELEMENT MODEL3.7-35Electric Station 18272052045212403231303 19El17161015914843 RHScl21ElSYMBOLS STRUCTURAL JOINTLUMPED MASS JOINT IDEALIZED SEAM MEMBERMEMBER RELEASESUPPORTJOINT NUMBERMEMBER NUMBERLOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationSCHEMATIC REPRESENTATION OF THETHEORETICALLY MODELED  INCH CEDMFigure
 
}}
(EC-8458, R307)
FIGURE 3.7-25 HAS BEEN DELETED (EC-8458, R307)
 
LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station Figure ANALYSIS SAMPLE PROBLEM NO. 1 LOUISIANA POWER & LIGHT CO.
Waterford Steam Electric Station SEISMIC PROTECTION ANALYSIS SAMPLE PROBLEM NO..SHEET1 Figure 3.7-27 LOUISIANA POWER & LIGHT CO.
Waterford Steam Electric Station SEISMIC PROTECTION ANALYSIS SAMPLE PROBLEM NO. 2SHEET2 Figure 3.7-28 N TEMP.1 F. EC= 27.9 x PSI EH 27.84 x  PSI 1 TO 30)X Y-22.15' 1 TO 25)X-22.15'Z -50.29'LOUISIANA  LIGHT CO.
Waterford Steam Electric Station SEISMIC PROTECTION ANALYSIS SAMPLE PROBLEM NO.. 3 Figure 3.7-29 IN-COREINSTRUMENTATION SUPPORTPLATE IN-CORE INSTRUMENT LOUISIANA Figure POWER LIGHT CO.
REPRESENTATIVE NODE LOCATIONS Waterford Steam SEISMIC MATHEMATICAL MODEL Electric Station MASS NODE MODEL 0 NODE MEMBER NUMBERS ARE CIRCLED I 32 32 31 0 31 30 CEA SHROUDS 30 29 0 29 0 25 24 t 0 24 16 CORE SUPPORT 23 I 15 CORE FUEL 0 21 20 18 CORE SUPPORT PLATE 11 COLUMNS 0 10 10 14 13 0 3 3 0 2 2---0 9 CSB F LANG E 0 1LOUISIANA POWER LIGHT CO.
Figure Waterford Steam I REACTOR INTERNALS LINEAR LATERAL SEISMIC MODEL Electric Station 3.7-31 52 CEA SHROUDS 46 33 32 31 30 43 29 42 26 FUEL- 41  26 25 23 36 22 35  14 CORE 0 N NODE 16 2 N MEMBER 17 1 SPRING 11 RIGID CONNECTING LINK LOUISIANA Figure POWER & LIGHT CO.
REACTOR INTERNALS LINEAR Waterford Steam VERTICAL SEISMIC MODEL 3.7-32 Electric Station 21 UPPER GUIDE CYLINDER CEASHROUDS NOTE: 29 28 LOWERSUPPORT STRUCTURE 18 16 15 14 13 12 11 REACTOR VESSEL SNUBBERS LOUISIANA POWER LIGHT CO.
Waterford Steam REACTOR INTERNALS NONLINEAR LATERAL SEISMIC MODEL Figure Electric Station I I CORE SHROUD (MOTION-PRESCRIBED)
CORE SHROUD 12 11 10 98 7 6 54 3 00000 00 00 0 12 11 10 9 8 7 6 54 3 00 0 00 0 0 00 0 CORE SHROUDCORE SHROUD (MOTION-PRESCRIBED)
NOTE: DETAILED CORE SEISMIC MODEL (ONE ROW OF 17 FUEL ASSEMBLIES)
FUEL ASSEMBLY LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station REACTOR CORE HORIZONTAL NONLINEAR SEISMIC MODEL 3.7-34.
LOUISIANA Figure POWER LIGHT CO.CORE-SUPPORT BARREL UPPER FLANGE Waterford Steam FINITE-ELEMENT MODEL 3.7-35 Electric Station 18 27 205 204 52 12 403 231 303 19 El 17 1610 15 9 14 8 43 RHS cl 21 El SYMBOLS STRUCTURAL JOINT LUMPED MASS JOINT IDEALIZED SEAM MEMBER MEMBER RELEASE SUPPORTJOINT NUMBER MEMBER NUMBER LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station SCHEMATIC REPRESENTATION OF THE THEORETICALLY MODELED  INCH CEDM Figure}}

Latest revision as of 02:02, 27 April 2019

Revision 309 to Final Safety Analysis Report, Chapter 3, Design of Structures, Components Equipment and Systems, Section 3.7, Figures 3.7-1 Through 3.7-36
ML16256A184
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Issue date: 08/25/2016
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Text

8 6 Y 2 0.04 I I 0.01 6 ATLANTA, GEORGIA FEBRUARY 1972 JOB NUMBER SA-239 i VI \\\I \ \I\ CD PERIOD (SEC. HISTORY SPECTRA NRC REG. 1.60 DESIGN SPECTRA WATERFORD 3 DESIGN SPECTRA WONG-TRI FUNAC SPECTRA 6 KM WONG-TRIFUNAC SPECTRA 15 KM LOUISIANA POWER LIGHT CO.

Waterford Steam Electric StationHORIZONTAL RESPONSE SPECTRUM DESIGN BASIS EARTHQUAKE 2% DAMPING-TOP OF PLEISTOCENE Figure 3.7-l 100 80 60 10 8 6 0.8 0.6 WATERFORD 3 SYNTHETIC TIME 0.08 0.06 HISTORY SPECTRANRC REG. 1.60 DESIGN SPECTRA

WATERFORD 3 DESIGN SPECTRA WONG-TRIFUNAC SPECTRA 8 KM WONG-TRIFUNAC SPECTRA 15 KM IOB NUMBER S LAW ENGINEERING TESTING COMPP PERIOD (SEC.

LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station NTAL RESPONSE SPECTRUM DESIGN BASIS UAKE 5% DAMPING-TOP OF PLEISTOCENE Figure 3.7-2 100 80 60 40.20 10 8 8 4 2 0.8 0.6 4 0.4 0.2 WATERFORD 3 SYNTHETIC TIME HISTORY SPECTRA 0.1NRC REG. 1.60 DESIGN SPECTRA 0.08 0.06 0.04 0.02LAW ENGINEERING TESTING COMPANY 0.01 8 PERIOD (SEC.

LOUISIANA Figure POWER LIGHT CO.

HORIZONTAL RESPONSE SPECTRUM OPERATING BASIS Waterford Steam EARTHQUAKE 2% DAMPING-TOP OF PLEISTOCENE 3.7-3 Electric Station 100 80 60 40 20 10 8 6 4 2 0.8 06 .4 0.4 0.2 WATERFORD 3 SYNTHETIC TIME HISTORY SPECTRA 0.1NRC REG. 1.60 DESIGN SPECTRA 0.08 0.06 0.04 0.02 ATLANTA, GEORGIA FEBRUARY 1972 JOB NUMBER SA-239 0.01 a 8 0 0 PERIOD (SEC.

LOUISIANA POWER LIGHT CO.

Figure HORIZONTAL RESPONSE SPECTRUM OPERATING BASIS Waterford Steam EARTHQUAKE 5% DAMPING-TOP OF PLEISTOCENE 3.7-4 Electric Station 20 10 8 6 0.2 0.1 0.08 0.06 0.04 0.02 LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station Figure VERTICAL RESPONSE SPECTRUM DESIGN BASIS EARTHQUAKE 2% DAMPING-TOP OF PLEISTOCENE 3.7-5 6 0.6 4 0.4LAW ENGINEERING TESTING COMPANY ATLANTA, GEORGIA FEBRUARY 1972 JOB NUMBER SA-239 I I \\I \ PERIOD (SEC.

Figure VERTICAL RESPONSE SPECTRUM DESIGN BASIS EARTHQUAKE 5% DAMPING-TOP OF PLEISTOCENE 3.7-6 10 8 6 0.8 06 . 0.4 0.1 0.08 0.06 LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station Figure VERTICAL RESPONSE SPECTRUM OPERATING BASIS EARTHQUAKE 2% DAMPING-TOP PLEISTOCENE 3.7-7 10 a 6 1 0.8 0.6 0.1 0.08 0.06 iLAW ENGINEERING TESTING COMPANY ATLANTA, GEORGIA B NUMBER SA-239

\I N PERIOD (SEC.

LOUISIANA POWER LIGHT CO.

Waterford Steam VERTICAL RESPONSE SPECTRUM OPERATING BASIS EARTHQUAKE 5% DAMPING-TOP OF PLEISTOCENE Figure 3.7-8 Electric Station I

SHIELD BLDG.

CONTAINMENT VESSEL EL.197.5 EL.172.4 2 EL.150.7 3 EL.131.0 4 a EL.lll.O 5 12 EL.176.0 13 EL.154.0 N EL.132.0 EL.86.0 6 INTERNAL STRUCTURE EL.1 10.0 HANDLING 16 BUILDING EL.61.0 7 a EL.41.0 8 EL.19.0 9 EL.35.0 N EL.23.0 E 4.22.0 E 10 EL85. . N I EL.l.O E L.-4.0 32 REACTOR AUXILIARY BUILDING EL.lOO.O 33 E L.84.5 I 35 EL.4 E L.-35 E L.-47 LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station MATHEMATICAL MODEL FOR SEISMIC ANALYSIS (HORIZONTAL EXCITATIONS)

Figure 3.7-9 REACTOR AUXILIARY BUILDING HANDLING BUILDINGMATHEMATICAL MODEL FOR SEISMIC ANALYSIS (VERTICAL EXCITATION)

6.50 6.00 5.50 5.00 4.50 4.00 6 DESIGN ENVELOPE SHEAR MODULUS OF SOIL IN PSI = 5800 = 8000 = 16050 0.700.800.80 (SECOND)

LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station FLOOR SPECTRA E-W SSE 1%

FOUNDATION MAT ELEV. -35 FT. MSL Figure 3.7-l 5 6.50 6.00 5.56 5.00 4.50 r DESIGN ENVELOPE t SHEAR MODULUS OF SOIL IN PSI 1.50 = 5800 = 8000 = 16050 I .oo1.101.201.30 1.40 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.80 1 PERIOD

, , , , , I , , , , LOUISIANA POWER LIGHT CO.

FLOOR SPECTRA VERTICAL SSE 1%

Figure Waterford Steam Electric Station INTERNAL STRUCTURE ELEV.

FT. MSL 3.7-l 7 6.50 6.00 5.50 5.00 4.56 4.06 II II I DESIGN ENVELOPE 250-SHEAR MODULUS OF SOIL IN PSI 5600 = 8000 0.100.300.400.500.600.70 0.80 1.00 1.10 1.361.401.50 PERIOD (SECOND) 6.50 6.00 5.50 5.00 I I I I I I I I I I II I I I DESIGN ENVELOPE I I I I0.100.200.300.40 SHEAR MODULUS OF SOIL IN PSI

=5800=8000=160500.500.600.700.800.80 1.001.101.201.301.40 1.50 PERIOD (SECOND)

I LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station FLOOR SPECTRA VERTICAL SSE 1%

FOUNDATION MAT ELEV. -35 FT. MSL Figure 3.7-20 ZERO DISTANCE CONTAINMENT SHIELD VESSEL BUILDING EL.197.5 12 EL.176.0 13 EL.154.0 14 EL.1320 15 FUEL HANDLING EL.110.0 16 BUILDING 16 EL. 66.0 19 EL. 44.0 EL. EL.8.0 21 EL.-4.0 28 EL. 0.0 MAT EL. 198.3 2 EL. 172.4 3 EL. 150.7 4 EL. 131.0 5 EL. 111.0 6 EL. 86.0 COMBINED 8 STRUCTURE REACTOR AUXILIARY BUILDING EL. 69.0 36 EL. 46.0 EL. 21.0 EL. 41.0 -24.0 UP X NORTH TRANSLATIONAL ROTATIONAL SOIL SPRINGS LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station REACTOR BUILDING MATHEMATICAL TORSION MODEL Figure 3.7-21 N 1. MAXIMUM SOIL BEARING PRESSURE INCLUDING BUOYANCY EFFECT 7.22, 7.04, 7.02 AND 6.64 KSF2. FACTOR OF SAFETY AGAINST A BEARING CAPACITY FAILURE =

1517.22 2.06 L I I I I! I PLAN OF MAT 0 4 267'0'1'0 3 ----1 I DATA:A. MOMENTS DUE TO SSE IN E-W AND N-s DIRECTIONS ARE APPLIED SIMULTAN-EOUSLY.M = B. BUOYANCY EFFECTS ARE CALCULATEDBASED ON MINIMUM GROUND WATER LEVEL AT EL + 5.0 FT. MSL C. TOTAL LOADS 1.10 + + 1.0 + WHERE: D=DEAD LOAD EQUIPMENT LOAD SAFE SHUTDOWN EARTHQUAKE BUOYANCY D. ULTIMATE BEARING CAPACITY 15.0 KSF 3. FACTOR OF SAFETY AGAINST OVERTURNINGOVERTURNING MOMENT =

+ RESISTING MOMENT MR (BASED MAXIM UM WATER LEVEL AT EL + 13.0 FT F.S. = 2.77 LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station STABILITY AGAINST OVERTURNING FOR SEISMIC CATEGORY I STRUCTURES Figure 3.7-22 WSES-FSAR-UNIT-3 Revision 307 (07/13)

(EC-8458, R307)

FIGURE 3.7-23 HAS BEEN DELETED (EC-8458, R307)

MASS POINT SUPPORT POINT Y X POINT FREEDOM X. PRESSURIZER SEISMIC ANALYSIS MODEL 3.7-24 LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station WSES-FSAR-UNIT-3 Revision 307 (07/13)

(EC-8458, R307)

FIGURE 3.7-25 HAS BEEN DELETED (EC-8458, R307)

LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station Figure ANALYSIS SAMPLE PROBLEM NO. 1 LOUISIANA POWER & LIGHT CO.

Waterford Steam Electric Station SEISMIC PROTECTION ANALYSIS SAMPLE PROBLEM NO..SHEET1 Figure 3.7-27 LOUISIANA POWER & LIGHT CO.

Waterford Steam Electric Station SEISMIC PROTECTION ANALYSIS SAMPLE PROBLEM NO. 2SHEET2 Figure 3.7-28 N TEMP.1 F. EC= 27.9 x PSI EH 27.84 x PSI 1 TO 30)X Y-22.15' 1 TO 25)X-22.15'Z -50.29'LOUISIANA LIGHT CO.

Waterford Steam Electric Station SEISMIC PROTECTION ANALYSIS SAMPLE PROBLEM NO.. 3 Figure 3.7-29 IN-COREINSTRUMENTATION SUPPORTPLATE IN-CORE INSTRUMENT LOUISIANA Figure POWER LIGHT CO.

REPRESENTATIVE NODE LOCATIONS Waterford Steam SEISMIC MATHEMATICAL MODEL Electric Station MASS NODE MODEL 0 NODE MEMBER NUMBERS ARE CIRCLED I 32 32 31 0 31 30 CEA SHROUDS 30 29 0 29 0 25 24 t 0 24 16 CORE SUPPORT 23 I 15 CORE FUEL 0 21 20 18 CORE SUPPORT PLATE 11 COLUMNS 0 10 10 14 13 0 3 3 0 2 2---0 9 CSB F LANG E 0 1LOUISIANA POWER LIGHT CO.

Figure Waterford Steam I REACTOR INTERNALS LINEAR LATERAL SEISMIC MODEL Electric Station 3.7-31 52 CEA SHROUDS 46 33 32 31 30 43 29 42 26 FUEL- 41 26 25 23 36 22 35 14 CORE 0 N NODE 16 2 N MEMBER 17 1 SPRING 11 RIGID CONNECTING LINK LOUISIANA Figure POWER & LIGHT CO.

REACTOR INTERNALS LINEAR Waterford Steam VERTICAL SEISMIC MODEL 3.7-32 Electric Station 21 UPPER GUIDE CYLINDER CEASHROUDS NOTE: 29 28 LOWERSUPPORT STRUCTURE 18 16 15 14 13 12 11 REACTOR VESSEL SNUBBERS LOUISIANA POWER LIGHT CO.

Waterford Steam REACTOR INTERNALS NONLINEAR LATERAL SEISMIC MODEL Figure Electric Station I I CORE SHROUD (MOTION-PRESCRIBED)

CORE SHROUD 12 11 10 98 7 6 54 3 00000 00 00 0 12 11 10 9 8 7 6 54 3 00 0 00 0 0 00 0 CORE SHROUDCORE SHROUD (MOTION-PRESCRIBED)

NOTE: DETAILED CORE SEISMIC MODEL (ONE ROW OF 17 FUEL ASSEMBLIES)

FUEL ASSEMBLY LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station REACTOR CORE HORIZONTAL NONLINEAR SEISMIC MODEL 3.7-34.

LOUISIANA Figure POWER LIGHT CO.CORE-SUPPORT BARREL UPPER FLANGE Waterford Steam FINITE-ELEMENT MODEL 3.7-35 Electric Station 18 27 205 204 52 12 403 231 303 19 El 17 1610 15 9 14 8 43 RHS cl 21 El SYMBOLS STRUCTURAL JOINT LUMPED MASS JOINT IDEALIZED SEAM MEMBER MEMBER RELEASE SUPPORTJOINT NUMBER MEMBER NUMBER LOUISIANA POWER LIGHT CO.

Waterford Steam Electric Station SCHEMATIC REPRESENTATION OF THE THEORETICALLY MODELED INCH CEDM Figure

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