ML16340A097
Text
IINNDDIIAANNAA AANNDD M MIICCHHIIGGAANN PPOOW WEERR DD.. CC.. CCOOOOKK NNUUCCLLEEAARR PPLLAANNTT UUPPDDAATTEEDD FFIINNAALL SSAAFFEETTYY AANNAALLYYSSIISS RREEPPOORRTT Revision:
17 Table:
4.1-3 Page:
1 of 1 REACTOR VESSEL DESIGN DATA Design Pressure, psig 2485 Operating Pressure, psig 2085 (Unit 1)/2235 (Unit 2)
Hydrostatic Test Pressure, psig 31071 Unit 2 and 31062 psig Unit 1 Design Temperature, °F 650 Overall Height of Vessel and Closure Head, ft-in.
43-9 11/16 (Unit 1)
(Bottom Head O.D. to top of Control Rod Mechanism Adapter) 43-10 (Unit 2)
Thickness of Insulation, min., in 3
Number of Reactor Closure Head Studs 54 Diameter of Reactor Closure Head Studs, in 7
ID of Flange, in 172 1/2 OD of Flange, in 205 ID at Shell, in 173 Inlet Nozzle ID, in 27 1/2 Outlet Nozzle ID, in 29 Clad Thickness, min., in 5/32 Lower Head Thickness, min., in (base metal) 5 3/8 Vessel Belt-Line Thickness, min., in (base metal) 8 1/2 Closure Head Thickness, in 6 1/2 Unit 1 Unit 2 Bounding Conditions for Rerating Lower/Upper Reactor Coolant Inlet Temperature, °F 514.9/545.2 541.27 Reactor Coolant Outlet Temperature, °F 579.1/607.5 606.35 Reactor Coolant Flow, lb/hr x 106 139.0/133.9 134.6 Total Water Volume Below Core, ft3 1050 Water Volume in Active Core Region, ft3 665 Total Water Volume to Top of Core, ft3 2352 Total Water Volume to Coolant Piping Nozzles Centerline, ft3 2959 Total Reactor Vessel Water Volume, ft3 (estimated) (with core and internals in place) 46603 1 Original design 2 Steam Generator Replacement Pressure 3 This volume is a general number that approximates either Unit's Vessel. The actual volume of either vessel is cycle dependent and can be obtained from the Westinghouse IMP database for the specific cycle.