ML16257A127
ML16257A127 | |
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: ML16257A127 (128) | |
Text
Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Core Power vs. Time Figure 15.1-1 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Core Average Heat Flux vs. Time Figure 15.1-2 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Reactor Coolant System Pressure vs. Time Figure 15.1-3 Revision 304 (06/10)Waterford Steam Electric Station #3 Increased Main Steam Flow Minimum DNBR vs. Time Figure 15.1-4 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Reactor Coolant System Temperatures vs. Time Figure 15.1-5 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Pressurizer Level vs. Time Figure 15.1-6 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Steam Generator Pressure vs. Time Figure 15.1-7 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Total Steam Flow vs. Time Figure 15.1-8 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Feedwater Flow vs. Time Figure 15.1-9 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Feedwater Enthalpy vs. Time Figure15.1-10 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow Steam Generator Liquid Mass vs. Time Figure15.1-11 Revision 14 (12/05)Waterford Steam Electric Station #3 Inadvertent Opening of a Steam Generator Atmospheric Dump Valve Core Power vs. Time Figure15.1-12 Revision 14 (12/05)Waterford Steam Electric Station #3 Inadvertent Opening of a Steam Generator Atmospheric Dump Valve Core Heat Flux vs. Time Figure15.1-13 Revision 14 (12/05)Waterford Steam Electric Station #3 Inadvertent Opening of a Steam Generator Atmospheric Dump Valve RCS Pressure vs. Time Figure15.1-14 Revision 14 (12/05)Waterford Steam Electric Station #3 Inadvertent Opening of a Steam Generator Atmospheric Dump Valve Reactor Coolant Temperature vs. Time Figure15.1-15 Revision 14 (12/05)Waterford Steam Electric Station #3 Inadvertent Opening of a Steam Generator Atmospheric Dump Valve Pressurizer Water Volume vs. Time Figure15.1-16 Revision 14 (12/05)Waterford Steam Electric Station #3 Inadvertent Opening of a Steam Generator Atmospheric Dump Valve Steam Generator Pressure vs. Time Figure15.1-17 Revision 14 (12/05)Waterford Steam Electric Station #3 Inadvertent Opening of a Steam Generator Atmospheric Dump Valve Total Main Steam Flow vs. Time Figure15.1-18 Revision 14 (12/05)Waterford Steam Electric Station #3 Inadvertent Opening of a Steam Generator Atmospheric Dump Valve Steam Generator Fluid Mass vs. Time Figure15.1-19
Revision 304 (06/10)Waterford Steam Electric Station #3 Inadvertent Opening of a Steam Generator Atmospheric Dump Valve DNBR vs. Time Figure 15.1-19a Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Core Power vs. Time (Typical NSSS Response)
Figure15.1-20 Revision 14 (12/05)Waterford Steam Electric Station #3 Increase Steam Flow with Concurrent Single Failure Core Heat Flux vs. Time (Typical NSSS Response)
Figure15.1-21 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure RCS Pressure vs. Time (Typical NSSS Response)
Figure15.1-22 Revision 309 (06/16)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Minimum Hot Channel DNBR vs. Time Figure 15.1-23 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Reactor Coolant Temperature vs. Time (Typical NSSS Response)
Figure15.1-24 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Pressurizer Liquid Volume vs. Time (Typical NSSS Response)
Figure15.1-25 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Steam Generator Pressure vs. Time (Typical NSSS Response)
Figure15.1-26 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Main Steam Flow vs. Time (Typical NSSS Response)
Figure15.1-27 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Feedwater Flow vs. Time (Typical NSSS Response)
Figure15.1-28 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Feedwater Enthalpy vs. Time (Typical NSSS Response)
Figure15.1-29 Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Steam Generator Liquid Mass vs. Time (Typical NSSS Response)
Figure15.1-30 WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-31 has been intentionally deleted. (DRN 05-543, R14)
Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Total Integrated Safety Valve Flow vs. Time (Typical NSSS Response)
Figure15.1-31a Revision 14 (12/05)Waterford Steam Electric Station #3 Increased Main Steam Flow with Concurrent Single Failure Core Flow vs. Time (Typical NSSS Response)
Figure15.1-32 Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Core Power vs. Time Figure15.1-32a Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Core Heat Flux vs. Time Figure15.1-32b Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power RCS Pressure vs. Time Figure15.1-32c
Revision 304 (06/10)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Minimum Hot Channel DNBR vs. Time Figure 15.1-32d Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Reactor Coolant Temperature vs. Time Figure15.1-32e Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Pressurizer Liquid Volume vs. Time Figure 15.1-32f Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Steam Generator Pressure vs. Time Figure15.1-32g Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Main Steam Flow vs. Time Figure15.1-32h Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Feedwater Flow vs. Time Figure15.1-32i Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Feedwater Enthalpy vs. Time Figure15.1-32j Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Steam Generator Liquid Mass vs. Time Figure15.1-32k Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening of an Atmospheric Dump Valve With a Concurrent Loss of AC Power Total Integrated Safety Valve Flow vs. Time Figure15.1-32l Revision 14 (12/05)Waterford Steam Electric Station #3 HFP Inadvertent Opening in an Atmospheric Dump Valve With a Concurrent Loss of AC Power Core Flow vs. Time Figure15.1-32m
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Core Power vs. Time Figure 15.1-33
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Core Heat Flux vs. Time Figure 15.1-34
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Pressurizer Pressure vs. Time Figure 15.1-35
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Reactor Coolant System Temperature vs. Time Figure 15.1-36
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Steam Generator Pressure vs. Time Figure 15.1-37
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Reactivity vs. Time Figure 15.1-38
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Pressurizer Level vs. Time Figure 15.1-38a
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Steam Flow vs. Time Figure 15.1-38b
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Feedwater Flow vs. Time Figure 15.1-38c
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Steam Generator Mass vs. Time Figure 15.1-38d
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Integrated Safety Injection Flow vs. Time Figure 15.1-38e
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power Reactor Vessel Level vs. Time Figure 15.1-38f
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, Loss of Offsite Power DNBR vs. Time Figure 15.1-38g THROUGH HAVE BEEN INTENTIONALLY DELETED
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Core Power vs. Time Figure 15.1-47
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Core Heat Flux vs. Time Figure 15.1-48
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Pressurizer Pressure vs. Time Figure 15.1-49 WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-50 has been intentionally deleted. (DRN 05-543, R14)
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Reactor Coolant System Temperatures vs. Time Figure 15.1-51 WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-52 has been intentionally deleted. (DRN 05-543, R14)
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Steam Generator Pressure vs. Time Figure 15.1-53
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Steam Flow vs. Time Figure 15.1-54
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Feedwater Flow vs. Time Figure 15.1-55 WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-56 has been intentionally deleted. (DRN 05-543, R14)
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Steam Generator Mass vs. Time Figure 15.1-57
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Reactivity vs. Time Figure 15.1-58
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Pressurizer Level vs. Time Figure 15.1-58a
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Integrated Safety Injection Flow vs. Time Figure 15.1-58b
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Full Power, No Loss of Offsite Power Reactor Vessel Upper Head Level vs. Time Figure 15.1-58c WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-59 has been intentionally deleted. (DRN 05-543, R14)
WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-60 has been intentionally deleted. (DRN 05-543, R14)
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Core Power vs. Time Figure 15.1-61
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Core Heat Flux vs. Time Figure 15.1-62
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Pressurizer Pressure vs. Time Figure 15.1-63
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Reactor Coolant System Temperature vs. Time Figure 15.1-64
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Pressurizer Level vs. Time Figure 15.1-65 Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Steam Generator Pressure vs. Time Figure 15.1-66
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Steam Flow vs. Time Figure 15.1-67
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Feedwater Flow vs. Time Figure 15.1-68 WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-69 has been intentionally deleted. (DRN 05-543, R14)
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Steam Generator Mass vs. Time Figure 15.1-70
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Reactivity vs. Time Figure 15.1-71 WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-72 has been intentionally deleted. (DRN 05-543, R14)
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Integrated Safety Injection Flow vs. Time Figure 15.1-72a
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power Reactor Vessel Level vs. Time Figure 15.1-72b
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, Loss of Offsite Power DNBR vs. Time Figure 15.1-72c Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Core Power vs. Time Figure 15.1-72d
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Core Heat Flux vs. Time Figure 15.1-72e
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Pressurizer Pressure vs. Time Figure 15.1-72f
Revision 307 (07/13) Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Reactor Coolant System Temperatures vs. Time Figure 15.1-72g
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Steam Generator Pressure vs. Time Figure 15.1-72h
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Reactivity vs. Time Figure 15.1-72i
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Pressurizer Level vs. Time Figure 15.1-72j
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Steam Flow vs. Time Figure 15.1-72k
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Feedwater Flow vs. Time Figure 15.1-72l Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Steam Generator Mass vs. Time Figure 15.1-72m
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Integrated Safety Injection Flow vs. Time Figure 15.1-72n
Revision 307 (07/13)Waterford Steam Electric Station #3 Return to Power Steam Line Break Inside Containment, Hot Zero Power, No Loss of Offsite Power Reactor Vessel Upper Head Level vs. Time Figure 15.1-72o WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-73 has been intentionally deleted. (DRN 05-543, R14)
WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-74 has been intentionally deleted. (DRN 05-543, R14)
WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-75 has been intentionally deleted. (DRN 05-543, R14)
WSES-FSAR-UNIT-3 Revision 14 (12/05)(DRN 05-543, R14)
Figure 15.1-75a has been intentionally deleted. (DRN 05-543, R14)
.I loo-s 8 II I 32 144216288 360 SECONDS REVISION 10 (10199)
LOUISIANA POWER LIGHT CO.
MAIN STEAM LINE BREAK MODES 4 Steam Figure WITH LOSS OF ACPOWER Electrical Station 15.1-76 CORE POWER VS. TIME 1600 1200 800 400 t t 1 REVISION 10 (10199) 72 144 216 280 36G TIME, SECONDS POWER LIGHT CO. Steam Electric StationREACTOR COOLANT SYSTEM PRESSURE VS. TIME 77 MAIN STEAM LINE BREAK MODES 3 & 4 IWITH LOSS OF AC POWER 700 600'200'CORE INLETCOOLANT TEMPERATURE I 72 144 288 360 TIME, SECONDS REVISION 10 (10199)
LOUISIANA POWER LIGHT CO.
MAIN STEAM LINE BREAK MODES 3 4 WITH LOSS OF AC POWERREACTOR COOLANT TEMPERATURE VS. TIME
1 800 200 ISOLATED STEAM GENERATOR STEAM GENERATOR WITH RUPTURED LINE 72 144 216 288 36 0 TIME, SECONDS REVISION 10 (10199)
LOU POWER LIGHT CO.
Electric MAIN STEAM LINE BREAK MODES 3 4 I WITH LOSS OF AC POWER STEAM GENERATOR PRESSURE VS. TIME 10000 800C 2000 POWER MAIN STEAM LINE BREAK MODES 3 i-4 WITH LOSS OF AC POWER STEAM MASS RELEASE FROM BREAK VS. TIME I I STEAMGENERATORWITH RUPTUREDLINE ISOLATED STEAMGENERATOR I I I 72 216 288 TIME, SECONDS REVISION I I I 72 144 216 288 360 TIME, SECONDS REVISION 10 (10199)
ANA MAIN STEAM LINE BREAK MODES 3 8 4 WITH LOSS OF AC POWER FEEDWATER FLOW VS. TIME
.,
72 144 216 TIME, SECONDSMAIN STEAM LINE BREAK MODES 3 & 4 FigureWITH LOSS OF AC POWER FEEDWATER ENTHALPY VS. TIME REVISION 10 (10199) 300000 72. ANA MAIN STEAM LINE BREAK MODES 3 4 WITH LOSS OF AC POWER STEAM GENERATOR LIQUID INVENTORY VS. TIME Uric I I144216 TIME, SECONDS 288 360 REVISION 10 3 DOPPLER SAFETY INJECTION TOTAL S-3 9 I I I I MODERATOR 6-6 CEA-9 I II I 72 144216288 TIME, SECONDSREVISION 10 (1 MAIN STEAM LINE BREAK MODES 3 4 WITH LOSS OF AC POWER REACTIVITY VS. TIME
,
350000 300000 150000 100000 50000 TIME, SECONDS REVISION 10 (10199)
MAIN STEAM LINE BREAK MODES 3 8 4WITH LOSS OF AC POWER INTEGRATED STEAM MASS RELEASE FROM BREAK VS. TIME
Revision 307 (07/13)Waterford Steam Electric Station #3 Inside Containment Steam Line Break Pre-Trip Power Excursion Core Power vs. Time Figure 15.1-87
Revision 307 (07/13)Waterford Steam Electric Station #3 Inside Containment Steam Line Break Pre-Trip Power Excursion Core Heat Flux vs. Time Figure 15.1-88 Revision 307 (07/13)Waterford Steam Electric Station #3 Inside Containment Steam Line Break Pre-Trip Power Excursion Reactor Coolant System Temperatures vs. Time Figure 15.1-89
Revision 307 (07/13)Waterford Steam Electric Station #3 Inside Containment Steam Line Break Pre-Trip Power Excursion Reactor Coolant System Pressure vs. Time Figure 15.1-90 Revision 307 (07/13)Waterford Steam Electric Station #3 Inside Containment Steam Line Break Pre-Trip Power Excursion Reactivity vs. Time Figure 15.1-91 Revision 307 (07/13)Waterford Steam Electric Station #3 Inside Containment Steam Line Break Pre-Trip Power Excursion Steam Generator Pressure vs. Time Figure 15.1-92
Revision 307 (07/13)Waterford Steam Electric Station #3 Inside Containment Steam Line Break Pre-Trip Power Excursion DNBR vs. Time Figure 15.1-93 WSES-FSAR-UNIT-3 Revision 307 (07/13)
(EC-8458, R307)
Figure 15.1-94 has been Intentionally Deleted.
(EC-8458, R307)