ML16120A598

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Palisades - Final Safety Analysis Report Update, Revision 32, Chapter 9 - Auxiliary Systems - Tables
ML16120A598
Person / Time
Site: Palisades Entergy icon.png
Issue date: 04/18/2016
From:
Entergy Nuclear Operations
To:
Office of Nuclear Reactor Regulation
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ML16120A302 List:
References
PNP 2016-015
Download: ML16120A598 (72)
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FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 1 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS 1.1 GeneralNormal Letdown Flow 40 gpmNormal Purification Flow Rate 40 gpmNormal Charging Flow 44 gpmPrimary Coolant Pump ControlledBleedoff (4 Pumps) 4 gpmNormal Letdown Temperature at Loop 547.8°FNormal Charging Temperature at Loop425

°FIon Exchanger Operating Temperature 120°F1.2 Regenerative Heat Exchanger - E-56Quantity1TypeShell and Tube, VerticalNormal Heat Transfer6.6 x 106 Btu/hCodeASME B&PV Code,Section III, Class C, 1965Shell Side (Charging)FluidPrimary Coolant, 1 Wt % Boric Acid, Nominal; 15,000 ppm Boric Acid, Maximum (Design)

Design Pressure 2,735 psigDesign Temperature 650°FMaterialStainless Steel FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 2 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS Tube Side (Letdown)FluidPrimary Coolant, 1 Wt %Boric Acid, Nominal; 15,000 ppmBoric Acid, Maximum (Design)

Design Pressure 2,485 psigDesign Temperature 650°FMaterialStainless SteelOperating Parameters - Regenerative Heat Exchanger Maximum

Unbalanced MaximumCharging With MaximumUnbalanced Normal Heat Transfer Purification LetdownTube Side (Letdown)Flow - gpm4040120120Inlet Temp -

°F547.8547.8547.8547.8Outlet Temp -

°F251160319449Shell Side (Charging)Flow - gpm4313312333Inlet Temp -

°F120120120120Outlet Temp -

°F416246367523Heat Transfer - Btu/h6.3 x 1067.9 x 10614.9 x 10 66.9 x 106 FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 3 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.3 Letdown Orifice - RO-2003, RO-2004 and RO-2005Quantity3Capacity (Each) 40 gpmDesign Pressure 2,485 psiaDesign Temperature 650°FNormal Temperature of Fluid 250°FMaximum Temperature of Fluid 450°FNormal Downstream Pressure 470 psiaNormal Upstream Pressure 1,970 psiaMaterialStainless SteelFluidPrimary Coolant, 1 Wt %Boric Acid, Nominal; 15,000 ppmBoric Acid, Maximum (Design)1.4 Letdown Heat Exchanger - E-58Quantity1TypeShell and Tube, Horizontal Design Heat Transfer19.1 x 10 6 Btu/hCodeASME B&PV Code,Section III, Class CTube Side (Letdown)FluidPrimary Coolant, 1 Wt %Boric Acid, Nominal; 15,000 ppmBoric Acid, Maximum (Design)

FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 4 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS Design Pressure 650 psigDesign Temperature 550°FMaterialStainless SteelShell Side (Cooling Water)FluidComponent Cooling Water Design Pressure 150 psigDesign Temperature 250°FMaterialCarbon SteelOperating Parameters - Letdown Heat Exchanger Maximum Unbalanced MaximumCharging With MaximumUnbalanced Normal LetdownPurification LetdownTube Side (Letdown)Flow - gpm4040120120Inlet Temp -

°F251160319449Outlet Temp -

°F120120120139Heat Transfer - Btu/h2.6 x 1061.1 x 10611.9 x 10 619.1 x 10 6Shell Sides (Cooling Water)Flow - gpm66 - 11123 - 40500 - 1,000591 - 960Inlet Temp -

°F65 - 9065 - 9065 - 9065 - 90Outlet Temp -

°F144-137133-130113 - 114130-130 FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 5 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.5 Process Radiation Monitor - Element RE-0202Quantity1Design Pressure 200 psigDesign Temperature 250°FNormal Operating Pressure 20 psigNormal Operating Temperature 120°FNormal Flow Rate 0.5 gpmCodeASA B31.11.6 Ion Exchangers - T-51A, T-51B and T-52Quantity3TypeFlushable Design Pressure 200 psigDesign Temperature 250°FNormal Operating Pressure 20 psigNormal Operating Temperature 120°FResin Volume 32 ft3Normal Flow Rate 40 gpmMaximum Flow Rate 120 gpmDecontamination Factor, Minimum 10Retention Screen80 US Mesh Code for VesselASME B&PV Code,Section III,Class C FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 6 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSMaterialStainless SteelFluid1 Wt % Boric Acid, Nominal;15,000 ppm Boric Acid, Maximum (Design)1.7 Purification Filters - F-54A and F-54BQuantity2Type of ElementsSynthetic Fiber Retention 0.05 to 6.0 Micron Absolute;1.0 Micron Nominal (or finer)

Design Pressure 200 psigDesign Temperature 250°FDesign Flow 120 gpmNormal Flow 40 gpmMaximum Flow 160 gpmCode for VesselASME B&PV Code,Section III,

Class C, 1965MaterialStainless SteelFluid1 Wt % Boric Acid, Nominal;15,000 ppm Boric Acid, Maximum

(Design)1.8 Volume Control Tank - T-54Quantity1TypeVertical, Cylindrical Design Pressure, Internal 75 psigDesign Pressure, External 15 psig FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 7 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSDesign Temperature 250°FInternal Volume, Minimum 4,170 galOperating Pressure Range0 to 75 psigNormal Operating Pressure 10 psigNormal Operating Temperature 120°FNormal Spray Flow 40 gpmBlanket Gas Hydrogen or Nitrogen CodeASME B&PV Code,Section III, Class C, 1965Fluid1 Wt % Boric Acid, Nominal;15,000 ppm Boric Acid, Maximum

(Design)MaterialStainless Steel1.9 Spray Nozzle (Volume Control Tank)Quantity1TypeMedium Angle, Full Cone Design Pressure 200 psigDesign Temperature 250°FNormal Spray Flow 40 gpmMaximum Spray Flow 120 gpmFluid1 Wt % Boric Acid, Nominal;15,000 ppm Boric Acid, Maximum

(Design)MaterialStainless Steel FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 8 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.10 Variable Speed Charging Pump - P-55AQuantity1TypePositive Displacement Design Pressure 2,735 psigDesign Temperature 250°FFlow Rate Range 33 to 53 gpmNormal Flow Rate 44 gpmNormal Discharge Pressure 2,200 psigNormal Temperature of Pumped Fluid 120°FMaximum Discharge Pressure(Short Term) 2,900 psigNPSH Required 7.65 ft (Ref. 25)NPSH Available 30.39 ft (Ref. 25)(Normal Suction From VCT)Maximum Pressure Pump Starts Against2,485 psigDriver Rating 100 hpType Variable Capacity DeviceFluid DriveFluid Drive and Pump22 gpm, 15

°F RiseCooling Water RequirementsMaterials in Contact With PumpedStainless Steel or EquivalentFluidCorrosion ResistanceFluid1 Wt % Boric Acid, Nominal; 12Wt% Boric Acid, Maximum (Design)

FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 9 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.11 Constant Speed Charging Pumps - P-55B and P-55CQuantity2TypePositive Displacement Design Pressure 2,735 psigDesign Temperature 250°FFlow Rate 40 gpmNormal Discharge Pressure 2,200 psigNormal Temperature of Pumped Fluid 120°FMaximum Discharge Pressure(Short Term) 3,010 psigNPSH Required 7.41 ft (Ref. 25)NPSH Available P-55B/C 28.22/28.18 ft (Ref. 25)(Normal Suction From VCT)Maximum Pressure Pump Starts Against2,500psigDriver Rating 75 hpPump Cooling Water Requirements5 gpm, 15

°F RiseMaterials in Contact WithStainless Steel or EquivalentPumped FluidCorrosion ResistanceFluid1 Wt % Boric Acid, Nominal;12 Wt % Boric Acid, Maximum (Design)1.12 Boric Acid Batching Tank - T-77Quantity1 FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 10 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSInternal Volume 580 galUseful Volume 457.4 gal Design PressureAtmosphericDesign Temperature 200°FNormal Operating Temperature 150°FType HeaterElectric Immersion Heater Capacity31.5 kw Minimum CodeASME B&PV Code, Section VIIIFluid6-1/4 Wt % Boric Acid, Normal; 12Wt % Boric Acid, Maximum (Design)MaterialStainless Steel1.13 Boric Acid Strainer - F-10 (YS-0224)Quantity1TypeBasketDesign Pressure 125 psigDesign Temperature 250°FScreen Size100 x 100 US MeshDesign Flow 50 gpmMaterialStainless SteelFluid6-1/4 Wt % Boric Acid, Normal; 12 Wt % Boric Acid, Maximum

(Design)

FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 11 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.14 Concentrated Boric Acid StorageTanks - T-53A and T-53BQuantity2Internal Volume 6,550 gal Design PressureAtmosphericDesign Temperature 200°FNormal Operating Temperature 140°F to 170°F Type HeaterElectrical, Dry Well Installation Heater CapacityTwo Independent 4 kW Banks per TankFluid6-1/4 Wt % Boric Acid, Normal;12 Wt % Boric Acid, Maximum

(Design)MaterialStainless Steel CodeASME B&PV Code,Section III,

Class C, 19651.15 Boric Acid Pumps - P-56A and P-56BQuantity2TypeCentrifugal Design Pressure 150 psigDesign Temperature 250°FDesign Head 225 ftDesign Flow 143 gpmMinimum Flow 10 gpm FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 12 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSNormal Operating Temperature 160°FNPSH Required 7.50 ft (Ref. 25)NPSH Available P-56A/B 25.06/25.23 (Ref. 25)Horsepower 30Fluid6-1/4 Wt % Boric Acid, Normal; 12Wt % Boric Acid, Maximum (Design)Material in Contact With LiquidStainless Steel1.16 Boric Acid Filter - F-9Quantity1Type ElementsSynthetic FiberRetention of 5 Micron Particles 98%Design Pressure 150 psigDesign Temperature 250°FDesign Flow 140 gpmMaterialStainless SteelLiquid6-1/4 Wt % Boric Acid, Normal; 12 Wt % Boric Acid, Maximum

(Design)CodeASME B&PV Code,Section III,

Class C, 19651.17 Chemical Addition Tank - T-56Quantity1Capacity10.5 gal FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 13 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS Design PressureAtmosphericDesign Temperature 200°FNormal Operating TemperatureAmbientMaterialStainless SteelFluidHydrazine (N 2H4), LiOH,KOH, NH4OHCodeASME B&PV Code, Section VIII1.18 Chemical Addition Strainer - F-58Quantity1TypeBasketDesign Pressure 100 psigDesign Temperature 250°FScreen Size60 US MeshDesign Flow 30 gphMaterialStainless SteelFluidHydrazine (N 2H4), LiOH,KOH, NH4OH1.19 Metering Pump - P-57Quantity1TypeAir Operated Double Diaphragm Design Pressure 120 psigDesign Temperature 190°FDesign Flow Rate 0 to 35 gpm FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 14 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSDesign Air Consumption 0 to 50 scfmNormal Fluid Temperature 75°FMaterialStainless SteelFluidHydrazine (N 2H4), LiOH,KOH, NH4OH

FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 1 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS 1.1 GeneralNormal Letdown Flow 40 gpmNormal Purification Flow Rate 40 gpmNormal Charging Flow 44 gpmPrimary Coolant Pump ControlledBleedoff (4 Pumps) 4 gpmNormal Letdown Temperature at Loop 547.8°FNormal Charging Temperature at Loop425

°FIon Exchanger Operating Temperature 120°F1.2 Regenerative Heat Exchanger - E-56Quantity1TypeShell and Tube, VerticalNormal Heat Transfer6.6 x 106 Btu/hCodeASME B&PV Code,Section III, Class C, 1965Shell Side (Charging)FluidPrimary Coolant, 1 Wt % Boric Acid, Nominal; 15,000 ppm Boric Acid, Maximum (Design)

Design Pressure 2,735 psigDesign Temperature 650°FMaterialStainless Steel FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 2 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS Tube Side (Letdown)FluidPrimary Coolant, 1 Wt %Boric Acid, Nominal; 15,000 ppmBoric Acid, Maximum (Design)

Design Pressure 2,485 psigDesign Temperature 650°FMaterialStainless SteelOperating Parameters - Regenerative Heat Exchanger Maximum

Unbalanced MaximumCharging With MaximumUnbalanced Normal Heat Transfer Purification LetdownTube Side (Letdown)Flow - gpm4040120120Inlet Temp -

°F547.8547.8547.8547.8Outlet Temp -

°F251160319449Shell Side (Charging)Flow - gpm4313312333Inlet Temp -

°F120120120120Outlet Temp -

°F416246367523Heat Transfer - Btu/h6.3 x 1067.9 x 10614.9 x 10 66.9 x 106 FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 3 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.3 Letdown Orifice - RO-2003, RO-2004 and RO-2005Quantity3Capacity (Each) 40 gpmDesign Pressure 2,485 psiaDesign Temperature 650°FNormal Temperature of Fluid 250°FMaximum Temperature of Fluid 450°FNormal Downstream Pressure 470 psiaNormal Upstream Pressure 1,970 psiaMaterialStainless SteelFluidPrimary Coolant, 1 Wt %Boric Acid, Nominal; 15,000 ppmBoric Acid, Maximum (Design)1.4 Letdown Heat Exchanger - E-58Quantity1TypeShell and Tube, Horizontal Design Heat Transfer19.1 x 10 6 Btu/hCodeASME B&PV Code,Section III, Class CTube Side (Letdown)FluidPrimary Coolant, 1 Wt %Boric Acid, Nominal; 15,000 ppmBoric Acid, Maximum (Design)

FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 4 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS Design Pressure 650 psigDesign Temperature 550°FMaterialStainless SteelShell Side (Cooling Water)FluidComponent Cooling Water Design Pressure 150 psigDesign Temperature 250°FMaterialCarbon SteelOperating Parameters - Letdown Heat Exchanger Maximum Unbalanced MaximumCharging With MaximumUnbalanced Normal LetdownPurification LetdownTube Side (Letdown)Flow - gpm4040120120Inlet Temp -

°F251160319449Outlet Temp -

°F120120120139Heat Transfer - Btu/h2.6 x 1061.1 x 10611.9 x 10 619.1 x 10 6Shell Sides (Cooling Water)Flow - gpm66 - 11123 - 40500 - 1,000591 - 960Inlet Temp -

°F65 - 9065 - 9065 - 9065 - 90Outlet Temp -

°F144-137133-130113 - 114130-130 FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 5 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.5 Process Radiation Monitor - Element RE-0202Quantity1Design Pressure 200 psigDesign Temperature 250°FNormal Operating Pressure 20 psigNormal Operating Temperature 120°FNormal Flow Rate 0.5 gpmCodeASA B31.11.6 Ion Exchangers - T-51A, T-51B and T-52Quantity3TypeFlushable Design Pressure 200 psigDesign Temperature 250°FNormal Operating Pressure 20 psigNormal Operating Temperature 120°FResin Volume 32 ft3Normal Flow Rate 40 gpmMaximum Flow Rate 120 gpmDecontamination Factor, Minimum 10Retention Screen80 US Mesh Code for VesselASME B&PV Code,Section III,Class C FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 6 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSMaterialStainless SteelFluid1 Wt % Boric Acid, Nominal;15,000 ppm Boric Acid, Maximum (Design)1.7 Purification Filters - F-54A and F-54BQuantity2Type of ElementsSynthetic Fiber Retention 0.05 to 6.0 Micron Absolute;1.0 Micron Nominal (or finer)

Design Pressure 200 psigDesign Temperature 250°FDesign Flow 120 gpmNormal Flow 40 gpmMaximum Flow 160 gpmCode for VesselASME B&PV Code,Section III,

Class C, 1965MaterialStainless SteelFluid1 Wt % Boric Acid, Nominal;15,000 ppm Boric Acid, Maximum

(Design)1.8 Volume Control Tank - T-54Quantity1TypeVertical, Cylindrical Design Pressure, Internal 75 psigDesign Pressure, External 15 psig FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 7 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSDesign Temperature 250°FInternal Volume, Minimum 4,170 galOperating Pressure Range0 to 75 psigNormal Operating Pressure 10 psigNormal Operating Temperature 120°FNormal Spray Flow 40 gpmBlanket Gas Hydrogen or Nitrogen CodeASME B&PV Code,Section III, Class C, 1965Fluid1 Wt % Boric Acid, Nominal;15,000 ppm Boric Acid, Maximum

(Design)MaterialStainless Steel1.9 Spray Nozzle (Volume Control Tank)Quantity1TypeMedium Angle, Full Cone Design Pressure 200 psigDesign Temperature 250°FNormal Spray Flow 40 gpmMaximum Spray Flow 120 gpmFluid1 Wt % Boric Acid, Nominal;15,000 ppm Boric Acid, Maximum

(Design)MaterialStainless Steel FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 8 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.10 Variable Speed Charging Pump - P-55AQuantity1TypePositive Displacement Design Pressure 2,735 psigDesign Temperature 250°FFlow Rate Range 33 to 53 gpmNormal Flow Rate 44 gpmNormal Discharge Pressure 2,200 psigNormal Temperature of Pumped Fluid 120°FMaximum Discharge Pressure(Short Term) 2,900 psigNPSH Required 7.65 ft (Ref. 25)NPSH Available 30.39 ft (Ref. 25)(Normal Suction From VCT)Maximum Pressure Pump Starts Against2,485 psigDriver Rating 100 hpType Variable Capacity DeviceFluid DriveFluid Drive and Pump22 gpm, 15

°F RiseCooling Water RequirementsMaterials in Contact With PumpedStainless Steel or EquivalentFluidCorrosion ResistanceFluid1 Wt % Boric Acid, Nominal; 12Wt% Boric Acid, Maximum (Design)

FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 9 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.11 Constant Speed Charging Pumps - P-55B and P-55CQuantity2TypePositive Displacement Design Pressure 2,735 psigDesign Temperature 250°FFlow Rate 40 gpmNormal Discharge Pressure 2,200 psigNormal Temperature of Pumped Fluid 120°FMaximum Discharge Pressure(Short Term) 3,010 psigNPSH Required 7.41 ft (Ref. 25)NPSH Available P-55B/C 28.22/28.18 ft (Ref. 25)(Normal Suction From VCT)Maximum Pressure Pump Starts Against2,500psigDriver Rating 75 hpPump Cooling Water Requirements5 gpm, 15

°F RiseMaterials in Contact WithStainless Steel or EquivalentPumped FluidCorrosion ResistanceFluid1 Wt % Boric Acid, Nominal;12 Wt % Boric Acid, Maximum (Design)1.12 Boric Acid Batching Tank - T-77Quantity1 FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 10 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSInternal Volume 580 galUseful Volume 457.4 gal Design PressureAtmosphericDesign Temperature 200°FNormal Operating Temperature 150°FType HeaterElectric Immersion Heater Capacity31.5 kw Minimum CodeASME B&PV Code, Section VIIIFluid6-1/4 Wt % Boric Acid, Normal; 12Wt % Boric Acid, Maximum (Design)MaterialStainless Steel1.13 Boric Acid Strainer - F-10 (YS-0224)Quantity1TypeBasketDesign Pressure 125 psigDesign Temperature 250°FScreen Size100 x 100 US MeshDesign Flow 50 gpmMaterialStainless SteelFluid6-1/4 Wt % Boric Acid, Normal; 12 Wt % Boric Acid, Maximum

(Design)

FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 11 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS1.14 Concentrated Boric Acid StorageTanks - T-53A and T-53BQuantity2Internal Volume 6,550 gal Design PressureAtmosphericDesign Temperature 200°FNormal Operating Temperature 140°F to 170°F Type HeaterElectrical, Dry Well Installation Heater CapacityTwo Independent 4 kW Banks per TankFluid6-1/4 Wt % Boric Acid, Normal;12 Wt % Boric Acid, Maximum

(Design)MaterialStainless Steel CodeASME B&PV Code,Section III,

Class C, 19651.15 Boric Acid Pumps - P-56A and P-56BQuantity2TypeCentrifugal Design Pressure 150 psigDesign Temperature 250°FDesign Head 225 ftDesign Flow 143 gpmMinimum Flow 10 gpm FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 12 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSNormal Operating Temperature 160°FNPSH Required 7.50 ft (Ref. 25)NPSH Available P-56A/B 25.06/25.23 (Ref. 25)Horsepower 30Fluid6-1/4 Wt % Boric Acid, Normal; 12Wt % Boric Acid, Maximum (Design)Material in Contact With LiquidStainless Steel1.16 Boric Acid Filter - F-9Quantity1Type ElementsSynthetic FiberRetention of 5 Micron Particles 98%Design Pressure 150 psigDesign Temperature 250°FDesign Flow 140 gpmMaterialStainless SteelLiquid6-1/4 Wt % Boric Acid, Normal; 12 Wt % Boric Acid, Maximum

(Design)CodeASME B&PV Code,Section III,

Class C, 19651.17 Chemical Addition Tank - T-56Quantity1Capacity10.5 gal FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 13 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERS Design PressureAtmosphericDesign Temperature 200°FNormal Operating TemperatureAmbientMaterialStainless SteelFluidHydrazine (N 2H4), LiOH,KOH, NH4OHCodeASME B&PV Code, Section VIII1.18 Chemical Addition Strainer - F-58Quantity1TypeBasketDesign Pressure 100 psigDesign Temperature 250°FScreen Size60 US MeshDesign Flow 30 gphMaterialStainless SteelFluidHydrazine (N 2H4), LiOH,KOH, NH4OH1.19 Metering Pump - P-57Quantity1TypeAir Operated Double Diaphragm Design Pressure 120 psigDesign Temperature 190°FDesign Flow Rate 0 to 35 gpm FSAR CHAPTER 9 - AUXILIARY SYSTEMSTABLE 9-18Revision 30 Page 14 of 14CHEMICAL AND VOLUME CONTROL SYSTEMDESIGN PARAMETERSDesign Air Consumption 0 to 50 scfmNormal Fluid Temperature 75°FMaterialStainless SteelFluidHydrazine (N 2H4), LiOH,KOH, NH4OH

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