ML16256A249
| ML16256A249 | |
| 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: ML16256A249 (16) | |
Text
IN-CORE INSTRUMENT GUIDE TUBE\\
42" ID OUTLET OUTLET NOZZLE NOZZLE I
I I 150" 150" LENGTH LENGTH IN-CORE INSTRUMENTATION SUPPORTPLATE
--INSTRUMENTATION NOZZLE STRUCTURE FLOW LOWER SUPPORT STRUCTURE NOZZLE
- C O R E SUPPORT BARREL CORE
- S H R O U D
' F U E L ASSEMBLY LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station ASYMMETRIC LOADS ANALYSIS REACTOR VESSEL ARRANGEMENT Figure
I I
LOUISIANA Figure POWER LIGHT CO.
RV ASYMMETRIC LOADS ANALYSIS PRIMARY COOLANT PIPE BREAK Waterford Steam AT REACTOR INLET NOZZLE 5.4A-2
LOUISIANA Figure POWER LIGHT CO.
RV ASYMMETRIC LOADS ANALYSIS Waterford Steam ASYMMEJRIC HYDRAULIC LOADS INTERNAL TO THE VESSEL Electric Station
a..,
LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station RV ASYMMETRIC LOADS ANALYSIS REACTOR CAVITY PRESSURE LOADS Figure
LOUISIANA POWER & LIGHT CO.
Figure RV ASYMMETRIC LOADS ANALYSIS Waterford Steam PIPE THRUST LOAD Electric Station
PT = PIPE BREAKTHRUST ON INTERNALS
=HORIZONTALHYDRAULICFORCES CAVITYPRESSURE
= VERTICALHYDRAULIC FORCES LOUISIANA Figure POWER LIGHT CO.
RV ASYMMETRIC ANALYSIS Waterford Steam REACTOR VESSEL FORCES FOLLOWING LOCA Electric Station
412 COAXIAL STEAM GENERATOR V
PUMP PUMP TYPICAL 4 PUMPS 408 STEAM GENERATOR 1
1103 PUMP IA C
II LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station RV ASYMMETRIC LOADS ANALYSIS DETAILED REAGTOR COOLANT SYSTEM MODEL Figure 3412 COAXIAL STEAM GENERATOR INTERNALS PUMP 2A REACTOR 4580 VESSEL X
COMPONENT NAME REACTOR MASS POINT NUMBER 9995 DEGREES OF COMPONENT FREEDOM SUPPORT POINT NAME NUMBER RESTRAIN1 REACTOR FX, FZ FIXED STEAM 409.3409 STEAM.
FY, FZ 408.3406 211,221 PUMPS GENERATORS X, Y, Z FZ REACTOR COO PIPING REACTOR 800.3800 FY 11, 15, COOLANT X,
P U M P S (TYPICAL)
FX, FZ 75 FX, FZ
28 27 26 25 FUEL 24 23 22 21 20 UGS 34 33 32 31 30 29 2
I 19 LOUISIANA POWER LIGHT CO.
Waterford Steam RV ASYMMETRIC LOADS ANALYSIS DETAILED REACTOR INTERNALS MODEL Figure 18 16 12 10 CORE SHROUD 6
4 14 17 INTERFACE 15 11 9
7 CSB 5
3 CSBSNUBBERS 13 RV
O - J ww a
W
\\
\\
0
\\
\\
C RV ASYMMETRIC LOADS ANALYSIS REDUCED MODEL OF REACTOR COOLANT SYSTEM
UGS X
32 X-DIR IS TO OUTLET NOZZLES 29 CORE SHROUD 16 9
5 14 18 T
A CSB LEGEND SEE u re 9 FOR DETAILS AND PIPING
= HORIZONTALGAP
= PRELOADED COUPLING
= GAP COUPLING
= COLINEAR CONNECTOR LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station RV ASYMMETRIC LOADS ANALYSIS REDUCED MODEL OF REACTOR INTERNALS Figure
LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station RV ASYMMETRIC LOADS ANALYSIS REACTOR VESSEL SUPPORT REACTIONS SIMPLIFIED INTERNALS AND VESSEL Figure
LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station RV ASYMMETRIC LOADS ANALYSIS REACTOR VESSEL SUPPORT REACTIONS DETAILED INTERNALS, SIMPLIFIED VESSEL
SECTION A-A COLD LEG NOZZLE SECTION B-B SECTION C-C
LOUISIANA POWER LIGHT CO.
Waterford Steam Electric Station V
(PAD)
RV ASYMMETRIC LOADS ANALYSIS REACTOR VESSEL SUPPORT LOADS I
0
-1000
-3000
-4000
-5000 0
1 0 0 200 300 400 TIME (MILLISECONDS)
--- INTERNAL LOADS TENSION,ALL BOLTS, PER EXTERNAL LOADS ONLY COMPRESSION, 1 PAD NOTE:
PLOT IS FOR PIPE RUPTURELOADS ONLY. FOR PIPE OP.,
SUBTRACT880 KIPS BOLTLOADANDADD IT
- C LOUISIANA POWER & LIGHT CO.
Waterford Steam Electric Station RV LOADS ANALYSIS 350 IN. COLD LEG GUILLOTINE AT RV NOZZLE MAX. RV HORIZONTAL SUPPORT LOAD vs TIME