ML16256A213
| ML16256A213 | |
| Person / Time | |
|---|---|
| Site: | Waterford  |
| Issue date: | 08/25/2016 |
| From: | Entergy Operations |
| To: | Office of Nuclear Reactor Regulation |
| Shared Package | |
| ML16256A115 | List:
|
| References | |
| W3F1-2016-0053 | |
| Download: ML16256A213 (14) | |
Text
0.666 0.8981.102 1.1900.9601.2271.1171.226Assy. Avg. Rod RadialPower FactorAssy. Maximum Rod Radial,Power Factorr0.6671.0550.5990.833-0.9911.1320.9560.9490.9911.0901.0861.0941.0551.1551.0021.1061.0301.1330.6670.8120.9490.9841.0771.0611.1151.0550.9231.0781.0841.1751.1651.1960.5990.9560.9490.9801.0771.0721.1441.1050.9911.0901.0781.0801.1821.1781.2321.2120.8331.1320.9841.0771.0751.1561.1291.1841.0841.1821.1811.2491.2381.2640.9601.2271.0771.1751.0721.178---1.1441.2321.1561.1361.2031.1601.2491.2461.2861.2711.1171.2260.9491.0860.9911.0941.0551.1551.0611.1651.1291.2031.1701.2261.2381.2861.2811.2991.0021.0301.1151.1051.1841.1601.2261.4171.1061.1331.1961.2121.2641.2711.2991.5500.6661.1020,8981.190LOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationCORE WIDE PLANAR POWER DISTRIBUTIONFOR DNB ANALYSISFigure4.4-l LINE OFSYMMETRYROD RADIALPOWER FACTORLINE OFENGINEERINGSYMMETRYENTHALPY RISEFACTOR APPLIEDPITCH AND BOWTO THESE RODSFACTORS APPLIED TOTHIS LOUISIANAFigurePOWER LIGHT CO.ROD RADIAL POWER FACTORS IN HOT ASSEMBLYWaterford SteamFOR SAMPLE DNB ANALYSIS4.4-2Electric Station FOR DNB CALCULATIONS1.26 PEAK0.2 0IIIIIIIII0102030405060708090100FRACTION OF ACTIVE CORE HEIGHT FROM INLETLOUISIANAPOWER LIGHT CO.FigureWaterford SteamTYPICAL POWER DISTRIBUTIONS4.4-3Electric Station EXIT VOID FRACTION, % EXIT QUALITY, %--IlIIIIII0.I I-------l -0II.0160 0.0 0.0 0.0-15-15-140.0 0.0 0.0-14-14-140.0 0.0 0.0-13-14-130.0 0.0 0.0-13-13-130.0 0.0 0.0-13-13-10LOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationAVERAGE VOID FRACTIONS AND QUALITIES ATTHE EXIT OF DIFFERENT CORE REGIONSFigure4.4-4 0.80-10Lu-203-30-400.20.40.60.81.0FRACTION OF ACTIVE CORE HEIGHTAXIAL DISTRIBUTION OF VOID FRACTION AND QUALITYIIN THE SUBCHANNEL ADJACENT TOTHE RODI4.4-5WITH MINIMUM DNBRLOUISIANAPOWER & LIGHT CO.Waterford SteamElectric Station MAIN FLOW BYPASS FLOWBYPASS PATHS1. THRU OUTLET NOZZLECLEARANCES2. THRU ALIGNMENTKEY-WAYS3. THRU SUPPORT CYLINDERHOLES4. THRU CORE SHROUDCLEARANCES5. THRU EMPTY GUIDE TUBES6. THRU RODDED GUIDETUBES7. THRU INSTRUMENTEDCENTER GUIDE TUBESLOUISIANAPOWER LIGHT CO.IREACTOR VERTICAL ARRANGEMENTFigureWaterford SteamSHOWING BYPASS FLOW PATHS4.4-6Electric Station ISTEAMGENo. 1STEAMGENERATORNo. 2PUMPNo. PUMPNo. 2APRESSURIZER VESSELLOUISIANAPOWER & LIGHT CO.Waterford SteamISOMETRICVIEW OF REACTOR COOLANT SYSTEMFigure4.4-7Electric StationI WSES-FSAR-UNIT-3Revision 11 (05/01)(DRN 01-416)Figure 4.4-8, Sheet 1 has been incorporated by reference in accordance with NEI 98-03.Figure information can be found in Drawing G167, Sheet 1.(DRN 01-416)
WSES-FSAR-UNIT-3Revision 12 (10/02)(DRN 02-1016)Figure 4.4-8, Sheet 2 has been incorporated by reference in accordance with NEI 98-03.Figure information can be found in Drawing G167, Sheet 2.(DRN 02-1016)
WSES-FSAR-UNIT-3Revision 11 (05/01)(DRN 01-416)Figure 4.4-8, Sheet 3 has been incorporated by reference in accordance with NEI 98-03.Figure information can be found in Drawing G167, Sheet 3.(DRN 01-416)
WSES-FSAR-UNIT-3Revision 12 (10/02)(DRN 02-1016)Figure 4.4-8, Sheet 4 has been incorporated by reference in accordance with NEI 98-03.Figure information can be found in Drawing G167, Sheet 4.(DRN 02-1016)
NONUNIFORM LATERAL POWERDISTRIBUTION84 IN. HI PRESSUREAVG. EXITQUALITYRUN TYPE-0.08 TO CHF 2300-0.59 TO -0.46HIGH HEATFLUX(BELOW CHF) 2000-0.06 TO CHF48121620PREDICTED TOTAL PRESSURE DROP, PSILOUISIANAPOWER LIGHT CO.Waterford SteamElectric StationPRESSURE DROP PREDICTIONS FOR A BUNDLEFigure 2.3II OF DESIGN MINIMUM FLOW 230022501.9 2200545550555560REACTOR INLET COOLANT TEMPERATURE, 2.4I4105% OF DESIGN MINIMUM FLOW 2.2 2300225022002.0 II545550555560REACTOR INLET COOLANT TEMPERATURE, 2.5II110% OF DESIGN MINIMUM FLOW 2.3 2.1II545550555560REACTOR INLET COOLANT TEMPERATURE, LOUISIANAPOWER LIGHT CO.FigureSENSITIVITY OF MINIMUM DNBR TO SMALLWaterford SteamCHANGES IN COOLANTCONDITIONS4.4-l 0Electric Station Revision 11 (05/01)Waterford SteamElectric Station #3VALVE & LOOSE PARTS MONITORINGSYSTEM SCHEMATICFigure4.4-11