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{{#Wiki_filter:* Document Control Desk | {{#Wiki_filter:* | ||
* Document Control Desk LR-N970269 LCR 897-05 ATTACHMENT 3 Revised Technical Specification Bases Pages | |||
* PDR ADOCK | -----=-------~ | ||
1,-----q7o.6-1ao3so q70012 | |||
3/4.7.10 CHILLED WATER SYSTEM -AUXILIARY BUILDING SUBSYSTEM The OPERABILITY of the chilled water system ensures that the chilled water system will continue to provide the required normal and accident heat removal capability for the control room area, relay rooms, equipment rooms, and other safety related areas. Verification of the actuation of each automatic valve on a Safeguards Initiation signal includes actuation following receipt of a Safety Injection signal or a radiation monitoring signal. Removal of non-essential heat loads from the chilled water system in the event one chiller is inoperable ensures the remaining heat loads are within the heat removal capacity of the two operable chillers. | * PDR ADOCK 05000272 p PDR | ||
Removal of non-essential heat loads from the chilled water system in the event two chillers are inoperable and aligning the CREACs to the maintenance mode ensures the remaining heat loads are within the heat removal capacity of the operable chiller. During chiller testing, operator actions can take the place of automatic actions. During Modes 5 and 6 and during movement of irradiated fuel assemblies, chilled'water components do not have to be considered inoperable solely on the basis that the backup emergency power source, diesel generator, is inoperable. | |||
PLANT SYSTEMS | |||
. BASES | |||
====================================================================== | |||
3/4.7.10 CHILLED WATER SYSTEM - AUXILIARY BUILDING SUBSYSTEM The OPERABILITY of the chilled water system ensures that the chilled water system will continue to provide the required normal and accident heat removal capability for the control room area, relay rooms, equipment rooms, and other safety related areas. Verification of the actuation of each automatic valve on a Safeguards Initiation signal includes actuation following receipt of a Safety Injection signal or a radiation monitoring signal. | |||
Removal of non-essential heat loads from the chilled water system in the event one chiller is inoperable ensures the remaining heat loads are within the heat removal capacity of the two operable chillers. | |||
Removal of non-essential heat loads from the chilled water system in the event two chillers are inoperable and aligning the CREACs to the maintenance mode ensures the remaining heat loads are within the heat removal capacity of the operable chiller. | |||
During chiller testing, operator actions can take the place of automatic actions. | |||
During Modes 5 and 6 and during movement of irradiated fuel assemblies, chilled'water components do not have to be considered inoperable solely on the basis that the backup emergency power source, diesel generator, is inoperable. | |||
This is consistent with Technical Specification 3.8.1.2 which only requires two operable diesel generators. | This is consistent with Technical Specification 3.8.1.2 which only requires two operable diesel generators. | ||
SALEM -UNIT 1 B 3/4 7-8 Amendment No. | SALEM - UNIT 1 B 3/4 7-8 Amendment No. | ||
PLANT SYSTEMS BASES | |||
3/4.7.10 CHILLED WATER SYSTEM -AUXILIARY BUILDING SUBSYSTEM The OPERABILITY of the chilled water system ensures that the chilled water system will continue to provide the required normal and accident heat removal capability for the control room area, relay rooms, equipment rooms, and other safety related areas. Verification of the actuation of each automatic valve on a Safeguards Initiation signal includes actuation following receipt of a Safety Injection signal or a radiation monitoring signal. Removal of non-essential heat loads from the chilled water system in the event one chiller is inoperable ensures the remaining heat loads are within the heat removal capacity of the two operable chillers. | ====================================================================== | ||
Removal of non-essential heat loads from the chilled water system in the event two chillers are inoperable and aligning the CREACs to the maintenance mode ensures the remaining heat loads are within the heat removal capacity of the operable chiller. During chiller testing, operator actions can take the place of automatic actions. During Modes 5 and 6 and during movement of irradiated fuel assemblies, chilled water components do not have to be considered inoperable solely on the basis that the backup emergency power source, diesel generator, is inoperable. | 3/4.7.10 CHILLED WATER SYSTEM - AUXILIARY BUILDING SUBSYSTEM The OPERABILITY of the chilled water system ensures that the chilled water system will continue to provide the required normal and accident heat removal capability for the control room area, relay rooms, equipment rooms, and other safety related areas. Verification of the actuation of each automatic valve on a Safeguards Initiation signal includes actuation following receipt of a Safety Injection signal or a radiation monitoring signal. | ||
Removal of non-essential heat loads from the chilled water system in the event one chiller is inoperable ensures the remaining heat loads are within the heat removal capacity of the two operable chillers. | |||
Removal of non-essential heat loads from the chilled water system in the event two chillers are inoperable and aligning the CREACs to the maintenance mode ensures the remaining heat loads are within the heat removal capacity of the operable chiller. | |||
During chiller testing, operator actions can take the place of automatic actions. | |||
During Modes 5 and 6 and during movement of irradiated fuel assemblies, chilled water components do not have to be considered inoperable solely on the basis that the backup emergency power source, diesel generator, is inoperable. | |||
This is consistent with Technical Specification 3.8.1.2 which only requires two operable diesel generators. | This is consistent with Technical Specification 3.8.1.2 which only requires two operable diesel generators. | ||
SALEM -UNIT 2 B 3/4 7-8 Amendment No.}} | SALEM - UNIT 2 B 3/4 7-8 Amendment No.}} |
Latest revision as of 05:12, 3 February 2020
ML18102B391 | |
Person / Time | |
---|---|
Site: | Salem ![]() |
Issue date: | 06/12/1997 |
From: | Public Service Enterprise Group |
To: | |
Shared Package | |
ML18102B390 | List: |
References | |
NUDOCS 9706180350 | |
Download: ML18102B391 (3) | |
Text
- Document Control Desk LR-N970269 LCR 897-05 ATTACHMENT 3 Revised Technical Specification Bases Pages
=-------~
1,-----q7o.6-1ao3so q70012
PLANT SYSTEMS
. BASES
==========================================================
3/4.7.10 CHILLED WATER SYSTEM - AUXILIARY BUILDING SUBSYSTEM The OPERABILITY of the chilled water system ensures that the chilled water system will continue to provide the required normal and accident heat removal capability for the control room area, relay rooms, equipment rooms, and other safety related areas. Verification of the actuation of each automatic valve on a Safeguards Initiation signal includes actuation following receipt of a Safety Injection signal or a radiation monitoring signal.
Removal of non-essential heat loads from the chilled water system in the event one chiller is inoperable ensures the remaining heat loads are within the heat removal capacity of the two operable chillers.
Removal of non-essential heat loads from the chilled water system in the event two chillers are inoperable and aligning the CREACs to the maintenance mode ensures the remaining heat loads are within the heat removal capacity of the operable chiller.
During chiller testing, operator actions can take the place of automatic actions.
During Modes 5 and 6 and during movement of irradiated fuel assemblies, chilled'water components do not have to be considered inoperable solely on the basis that the backup emergency power source, diesel generator, is inoperable.
This is consistent with Technical Specification 3.8.1.2 which only requires two operable diesel generators.
SALEM - UNIT 1 B 3/4 7-8 Amendment No.
PLANT SYSTEMS BASES
==========================================================
3/4.7.10 CHILLED WATER SYSTEM - AUXILIARY BUILDING SUBSYSTEM The OPERABILITY of the chilled water system ensures that the chilled water system will continue to provide the required normal and accident heat removal capability for the control room area, relay rooms, equipment rooms, and other safety related areas. Verification of the actuation of each automatic valve on a Safeguards Initiation signal includes actuation following receipt of a Safety Injection signal or a radiation monitoring signal.
Removal of non-essential heat loads from the chilled water system in the event one chiller is inoperable ensures the remaining heat loads are within the heat removal capacity of the two operable chillers.
Removal of non-essential heat loads from the chilled water system in the event two chillers are inoperable and aligning the CREACs to the maintenance mode ensures the remaining heat loads are within the heat removal capacity of the operable chiller.
During chiller testing, operator actions can take the place of automatic actions.
During Modes 5 and 6 and during movement of irradiated fuel assemblies, chilled water components do not have to be considered inoperable solely on the basis that the backup emergency power source, diesel generator, is inoperable.
This is consistent with Technical Specification 3.8.1.2 which only requires two operable diesel generators.
SALEM - UNIT 2 B 3/4 7-8 Amendment No.