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{{#Wiki_filter:ATTACHMENT Consumers Power Company Palisades Plant Docket 50-255 PROPOSED TECHNICAL SPECIFICATION PAGE CHANGES May 2.3' 1985 8505290085 08550005022355 ADOCK PDR 5 Pages IC0585-0203A-NL04 3.1 3. 1. 10 PRIMARY COOLANT SYSTEM (continued) | {{#Wiki_filter:ATTACHMENT Consumers Power Company Palisades Plant Docket 50-255 PROPOSED TECHNICAL SPECIFICATION PAGE CHANGES May 2.3' 1985 8505290085 08550005022355 ADOCK PDR 5 Pages IC0585-0203A-NL04 3.1 3. 1. 10 PRIMARY COOLANT SYSTEM (continued) | ||
Leakage Detection Systems Specifications | Leakage Detection Systems Specifications | ||
: a. The following primary coolant system leakage detection systems shall be OPERABLE, except as specified in part (b) below, whenever the reactor is above COLD SHUTDOWN. | : a. The following primary coolant system leakage detection systems shall be OPERABLE, except as specified in part (b) below, whenever the reactor is above COLD SHUTDOWN. | ||
The minimum number of operable channels for each system is specified in Table 3.17.4. 1. A containment atmosphere monitoring system detecting gaseous radioactivity | The minimum number of operable channels for each system is specified in Table 3.17.4. 1. A containment atmosphere monitoring system detecting gaseous radioactivity | ||
: 2. A containm.ent atmosphere system detecting humidity 3. A containment sump water level monitoring system 4. A containment air cooler condensate flow system | : 2. A containm.ent atmosphere system detecting humidity 3. A containment sump water level monitoring system 4. A containment air cooler condensate flow system | ||
* b. Operations may continue for a period of up to 30 days provided: | * b. Operations may continue for a period of up to 30 days provided: | ||
: 1. At least two of the four systems of part (a) are OPERABLE, and 2. Grab samples of the containment atmosphere are obtained and analyzed at least once per 24 hours in the event that the gaseous containment atmosphere monitoring system is INOPERABLE. | : 1. At least two of the four systems of part (a) are OPERABLE, and 2. Grab samples of the containment atmosphere are obtained and analyzed at least once per 24 hours in the event that the gaseous containment atmosphere monitoring system is INOPERABLE. | ||
: c. If less than two systems of part (a) are OPERABLE, the reactor shall be placed in HOT SHUTDOWN within 12 hours and in COLD SHUTDOWN within the following 24 hours. d. Section 3.0.3 and 3.0.4 not applicable. | : c. If less than two systems of part (a) are OPERABLE, the reactor shall be placed in HOT SHUTDOWN within 12 hours and in COLD SHUTDOWN within the following 24 hours. d. Section 3.0.3 and 3.0.4 not applicable. | ||
Basis Maintaining the primary coolant system leakage detection systems in accordance with section 3.1.10 assures that adequate leakage detection capability is available in addition to the daily primary coolant system inventory calculation. | Basis Maintaining the primary coolant system leakage detection systems in accordance with section 3.1.10 assures that adequate leakage detection capability is available in addition to the daily primary coolant system inventory calculation. | ||
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PORV Isolation Valves Position Indication Subcooling Margin Monitor Auxiliary Feed Flow Rate Indication Auxiliary Feed Pump Auto Initiation Circuitry Excore Detector Table 3.17.4 (Cont'd) 2 Minimum Operable Channels l per Valve 1 per Valve 1 per Valve 1 1 per Steam Generator 1 per (e) Pump Minimum Degree of Redundancy 1 None None None None None None None Permissible Bypass Conditions Not Required in Cold or Refueling Shutdown Not Required Below 325°F Not Required When PORV Isolation Valve is Closed and its Indication System is Operable Not Required When Reactor is Depressurized and Vented Through a Vent -1.3 sq inch Not Required Below 515°F Not Required Below 325°F Not Required Below 325°F None (e) With one auxiliary feed pump automatic initiation circuit inoperable, in lieu of the requirement of 3.17.2, provide a second licensed operator in the control room within 2 hours. With both inoperable, in lieu of following the requirements of 3.17.2, start and maintain in operation the turbine driven auxiliary feed pump. (f) Calculate the Quadrant Power Tilt using the excore readings at least once per 12.hours when the excore detectors deviation alarms are inoperable. | PORV Isolation Valves Position Indication Subcooling Margin Monitor Auxiliary Feed Flow Rate Indication Auxiliary Feed Pump Auto Initiation Circuitry Excore Detector Table 3.17.4 (Cont'd) 2 Minimum Operable Channels l per Valve 1 per Valve 1 per Valve 1 1 per Steam Generator 1 per (e) Pump Minimum Degree of Redundancy 1 None None None None None None None Permissible Bypass Conditions Not Required in Cold or Refueling Shutdown Not Required Below 325°F Not Required When PORV Isolation Valve is Closed and its Indication System is Operable Not Required When Reactor is Depressurized and Vented Through a Vent -1.3 sq inch Not Required Below 515°F Not Required Below 325°F Not Required Below 325°F None (e) With one auxiliary feed pump automatic initiation circuit inoperable, in lieu of the requirement of 3.17.2, provide a second licensed operator in the control room within 2 hours. With both inoperable, in lieu of following the requirements of 3.17.2, start and maintain in operation the turbine driven auxiliary feed pump. (f) Calculate the Quadrant Power Tilt using the excore readings at least once per 12.hours when the excore detectors deviation alarms are inoperable. | ||
3-Sla TS0884-0001B-LI01-NL04 Amendment No 68 December 8, 1981 Table 3.17.4 (Cont'd) Minimum Minimum Permissible Operable Degree of Bypass No Functional Unit Channels Redundancx: | 3-Sla TS0884-0001B-LI01-NL04 Amendment No 68 December 8, 1981 Table 3.17.4 (Cont'd) Minimum Minimum Permissible Operable Degree of Bypass No Functional Unit Channels Redundancx: | ||
Conditions | Conditions | ||
: 16. Containment Pressure 1 None Not Required (PT-1805A and PT-1812A) | : 16. Containment Pressure 1 None Not Required (PT-1805A and PT-1812A) | ||
Below 210°F 17. Containment Sump 1 None Not Required Water Level Below 210°F (LT-0382 and LT-0383) 18. Containment Floor 1 None Not Required Water Level Below 210°F (LE-0446A and LE-0446B) | Below 210°F 17. Containment Sump 1 None Not Required Water Level Below 210°F (LT-0382 and LT-0383) 18. Containment Floor 1 None Not Required Water Level Below 210°F (LE-0446A and LE-0446B) | ||
: 19. Gaseous Containment 1 None Not Required Monitoring System Below 210°F (RE-1817) (g) 20. Containment Humidity 3 None Not Required Detectors Below 210°F (HT-1812, HT-1813, HT-1814, HT-1815) 21. Containment Air Cooler 3 None Not Required Condensate Level Switches Below 210°F (LS-0817, LS-0865, LS-0868, LS-0870) (g) Three of the four supply valves (SV-1819, 1820, 1821, and 1822) to RE-1817 must be operable with their associated containment air cooler fan (A or B) in service. Proposed 3-8lb TS0884-0001B-LI01-NL04 TABLE 4.1.3 Minimum Frequencies for Checks, Calibrations and Testing of Miscellaneous Instrumentation and Controls (Continued) | : 19. Gaseous Containment 1 None Not Required Monitoring System Below 210°F (RE-1817) (g) 20. Containment Humidity 3 None Not Required Detectors Below 210°F (HT-1812, HT-1813, HT-1814, HT-1815) 21. Containment Air Cooler 3 None Not Required Condensate Level Switches Below 210°F (LS-0817, LS-0865, LS-0868, LS-0870) (g) Three of the four supply valves (SV-1819, 1820, 1821, and 1822) to RE-1817 must be operable with their associated containment air cooler fan (A or B) in service. Proposed 3-8lb TS0884-0001B-LI01-NL04 TABLE 4.1.3 Minimum Frequencies for Checks, Calibrations and Testing of Miscellaneous Instrumentation and Controls (Continued) | ||
Channel Description Surveillance Function 8. Control Rod Drive System Interlocks | Channel Description Surveillance Function 8. Control Rod Drive System Interlocks | ||
: a. Test b. Test 9. Flux-T Power Comparator | : a. Test b. Test 9. Flux-T Power Comparator | ||
: a. b. 10. Calorimetric Instrumentation | : a. b. 10. Calorimetric Instrumentation | ||
: a. 11. Containment Building a. Humidity Detector b. Calibrate Test Calibrate(2) | : a. 11. Containment Building a. Humidity Detector b. Calibrate Test Calibrate(2) | ||
Test Check 12. Interlocks | Test Check 12. Interlocks | ||
-Isolation Valves a. Calibrate on shutdown Cooling Line 13. Service Water Break Detector a. Test in Containment Frequency R p *R M R R s R R Surveillance Method a. Verify proper operation of all drive control system interlocks, using simulated signals where necessary. | -Isolation Valves a. Calibrate on shutdown Cooling Line 13. Service Water Break Detector a. Test in Containment Frequency R p *R M R R s R R Surveillance Method a. Verify proper operation of all drive control system interlocks, using simulated signals where necessary. | ||
: b. Same as 8(a) above, if not done within three months. a. b. a. a. b. Use simulated signals. Internal test signal.* Known differential pressure applied to feedwater flow sensors. Expose sensor to high humidity atmosphere. | : b. Same as 8(a) above, if not done within three months. a. b. a. a. b. Use simulated signals. Internal test signal.* Known differential pressure applied to feedwater flow sensors. Expose sensor to high humidity atmosphere. | ||
Comparison of channels. | Comparison of channels. | ||
: a. Known.pressure applied to sensor. a. Known differential pressure applied to Sensors. (1) During the 1978 refueling outage, Item 2.c will only be performed on 7 rods (1 per bank). The secondary rod position surveillance (Item 3.c) will be performed in entirety. | : a. Known.pressure applied to sensor. a. Known differential pressure applied to Sensors. (1) During the 1978 refueling outage, Item 2.c will only be performed on 7 rods (1 per bank). The secondary rod position surveillance (Item 3.c) will be performed in entirety. | ||
Additionally, a 20" rod position check (comparing primary indication to secondary indication) will be conducted on each rod. If the primary and secondary indications vary more than 2" from each other, corrective action will be taken to restore the proper tolerances. | Additionally, a 20" rod position check (comparing primary indication to secondary indication) will be conducted on each rod. If the primary and secondary indications vary more than 2" from each other, corrective action will be taken to restore the proper tolerances. | ||
(2) The 1981 surveillance function may be deferred until the end of the 1981 refueling outage. 4-11 Proposed TSP0585-0203D-NL02 Surveillance | (2) The 1981 surveillance function may be deferred until the end of the 1981 refueling outage. 4-11 Proposed TSP0585-0203D-NL02 Surveillance | ||
*Channel Description Function 14. Auxiliary Feed Pump a. Check Flow Indication | *Channel Description Function 14. Auxiliary Feed Pump a. Check Flow Indication | ||
: b. Calibrate | : b. Calibrate | ||
: 15. Auxiliary Feed Pump a. Test Auto Initiation | : 15. Auxiliary Feed Pump a. Test Auto Initiation | ||
: b. Calibrate | : b. Calibrate | ||
: 16. Power Operated Relief Valves & Pressurizer Code Safety Relief Valves Position Indication | : 16. Power Operated Relief Valves & Pressurizer Code Safety Relief Valves Position Indication | ||
: a. Temperature | : a. Temperature | ||
: b. Acoustic Monitor 17. Subcooling Margin Monitor 18. Containment Pressure Wide Range 19. Containment Sump Water Level Instrument | : b. Acoustic Monitor 17. Subcooling Margin Monitor 18. Containment Pressure Wide Range 19. Containment Sump Water Level Instrument | ||
: 20. Containment Floor Water Level Instrument | : 20. Containment Floor Water Level Instrument | ||
: 21. Containment Air Cooler Condensate Level Switches 22. Gaseous Containment Monitor (RE 1817) a. Calibrate | : 21. Containment Air Cooler Condensate Level Switches 22. Gaseous Containment Monitor (RE 1817) a. Calibrate | ||
: b. Check a. Calibrate | : b. Check a. Calibrate | ||
: a. Check b. Calibrate | : a. Check b. Calibrate | ||
: a. Check b. Calibrate | : a. Check b. Calibrate | ||
: a. Check b. Calibrate | : a. Check b. Calibrate | ||
: a. Check b. Calibrate | : a. Check b. Calibrate | ||
: a. Test a. Check b. Calibrate | : a. Test a. Check b. Calibrate | ||
: c. Test Frequency M R M R R s R s R s R s R s R R D R M (5) (3) (5) Surveillance Method a. Comparison of Channels b. Known Differential Pressure Applied to Sensors a. Internal Test Signal .. b. Known Differential Pressure Applied to Sensors a. Known Resistance Substitute for RTD Comparison* | : c. Test Frequency M R M R R s R s R s R s R s R R D R M (5) (3) (5) Surveillance Method a. Comparison of Channels b. Known Differential Pressure Applied to Sensors a. Internal Test Signal .. b. Known Differential Pressure Applied to Sensors a. Known Resistance Substitute for RTD Comparison* | ||
of Channels a. Injected Calibrated Test Signal a. Comparison of Channels b. Known Resistance Substituted for RTD Coincident With Known Input (4) a. Comparison of Channels b. Known Pressure Applied to Sensors a. Comparison of Channels b. Known Differential Pressure Applied' to Sensors a. Comparison of Channels b. Known Level Applied to Transducer | of Channels a. Injected Calibrated Test Signal a. Comparison of Channels b. Known Resistance Substituted for RTD Coincident With Known Input (4) a. Comparison of Channels b. Known Pressure Applied to Sensors a. Comparison of Channels b. Known Differential Pressure Applied' to Sensors a. Comparison of Channels b. Known Level Applied to Transducer | ||
: a. Move Float and Verify Control Room Alarm a. Normal Readings observed and Internal Test Signals Used to Verify Instrument Operation | : a. Move Float and Verify Control Room Alarm a. Normal Readings observed and Internal Test Signals Used to Verify Instrument Operation | ||
: b. Exposure to Known External Radiation Source c. Detector Exposed to Remote Operated Radiation Check Source (3)Test method to be alternated to include starting auxiliary feedwhter pump from the control room hand switch, from the breaker and from the automatic start in a three-month period. (4)In conjunction with Item 4(b), Table 4.1.1. (5)It is not necessary to perform the specified testing during the cold shutdown condition. | : b. Exposure to Known External Radiation Source c. Detector Exposed to Remote Operated Radiation Check Source (3)Test method to be alternated to include starting auxiliary feedwhter pump from the control room hand switch, from the breaker and from the automatic start in a three-month period. (4)In conjunction with Item 4(b), Table 4.1.1. (5)It is not necessary to perform the specified testing during the cold shutdown condition. | ||
4-lla Proposed TSP0585-0203D-NL02 "ii}} | 4-lla Proposed TSP0585-0203D-NL02 "ii}} | ||
Revision as of 22:29, 25 April 2019
| ML18051B400 | |
| Person / Time | |
|---|---|
| Site: | Palisades  |
| Issue date: | 05/23/1985 |
| From: | CONSUMERS ENERGY CO. (FORMERLY CONSUMERS POWER CO.) |
| To: | |
| Shared Package | |
| ML18051B399 | List: |
| References | |
| NUDOCS 8505290085 | |
| Download: ML18051B400 (6) | |
Text
ATTACHMENT Consumers Power Company Palisades Plant Docket 50-255 PROPOSED TECHNICAL SPECIFICATION PAGE CHANGES May 2.3' 1985 8505290085 08550005022355 ADOCK PDR 5 Pages IC0585-0203A-NL04 3.1 3. 1. 10 PRIMARY COOLANT SYSTEM (continued)
Leakage Detection Systems Specifications
- a. The following primary coolant system leakage detection systems shall be OPERABLE, except as specified in part (b) below, whenever the reactor is above COLD SHUTDOWN.
The minimum number of operable channels for each system is specified in Table 3.17.4. 1. A containment atmosphere monitoring system detecting gaseous radioactivity
- 2. A containm.ent atmosphere system detecting humidity 3. A containment sump water level monitoring system 4. A containment air cooler condensate flow system
- b. Operations may continue for a period of up to 30 days provided:
- 1. At least two of the four systems of part (a) are OPERABLE, and 2. Grab samples of the containment atmosphere are obtained and analyzed at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> in the event that the gaseous containment atmosphere monitoring system is INOPERABLE.
- c. If less than two systems of part (a) are OPERABLE, the reactor shall be placed in HOT SHUTDOWN within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> and in COLD SHUTDOWN within the following 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />. d. Section 3.0.3 and 3.0.4 not applicable.
Basis Maintaining the primary coolant system leakage detection systems in accordance with section 3.1.10 assures that adequate leakage detection capability is available in addition to the daily primary coolant system inventory calculation.
References (1) Regulatory Guide 1.45 (2) NUREG-0820, October 1982 Section 4.15.2 (3) NRC Letter dated June 22, 1983 Proposed 3-25b TS0884-0001B-LI01-NL04 No 8. 9. 10. 11. 12. 13. 14. 15. Functional Unit Pressurizer Water Level (LI-0102)
Pressurizer'Code Safety Relief Valve Position Indication (Acoustic Monitor or Temperature Indication)
Power Operated Relief Valves (Acoustic Monitor or Temperature Indication)
PORV Isolation Valves Position Indication Subcooling Margin Monitor Auxiliary Feed Flow Rate Indication Auxiliary Feed Pump Auto Initiation Circuitry Excore Detector Table 3.17.4 (Cont'd) 2 Minimum Operable Channels l per Valve 1 per Valve 1 per Valve 1 1 per Steam Generator 1 per (e) Pump Minimum Degree of Redundancy 1 None None None None None None None Permissible Bypass Conditions Not Required in Cold or Refueling Shutdown Not Required Below 325°F Not Required When PORV Isolation Valve is Closed and its Indication System is Operable Not Required When Reactor is Depressurized and Vented Through a Vent -1.3 sq inch Not Required Below 515°F Not Required Below 325°F Not Required Below 325°F None (e) With one auxiliary feed pump automatic initiation circuit inoperable, in lieu of the requirement of 3.17.2, provide a second licensed operator in the control room within 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />. With both inoperable, in lieu of following the requirements of 3.17.2, start and maintain in operation the turbine driven auxiliary feed pump. (f) Calculate the Quadrant Power Tilt using the excore readings at least once per 12.hours when the excore detectors deviation alarms are inoperable.
3-Sla TS0884-0001B-LI01-NL04 Amendment No 68 December 8, 1981 Table 3.17.4 (Cont'd) Minimum Minimum Permissible Operable Degree of Bypass No Functional Unit Channels Redundancx:
Conditions
- 16. Containment Pressure 1 None Not Required (PT-1805A and PT-1812A)
Below 210°F 17. Containment Sump 1 None Not Required Water Level Below 210°F (LT-0382 and LT-0383) 18. Containment Floor 1 None Not Required Water Level Below 210°F (LE-0446A and LE-0446B)
- 19. Gaseous Containment 1 None Not Required Monitoring System Below 210°F (RE-1817) (g) 20. Containment Humidity 3 None Not Required Detectors Below 210°F (HT-1812, HT-1813, HT-1814, HT-1815) 21. Containment Air Cooler 3 None Not Required Condensate Level Switches Below 210°F (LS-0817, LS-0865, LS-0868, LS-0870) (g) Three of the four supply valves (SV-1819, 1820, 1821, and 1822) to RE-1817 must be operable with their associated containment air cooler fan (A or B) in service. Proposed 3-8lb TS0884-0001B-LI01-NL04 TABLE 4.1.3 Minimum Frequencies for Checks, Calibrations and Testing of Miscellaneous Instrumentation and Controls (Continued)
Channel Description Surveillance Function 8. Control Rod Drive System Interlocks
- a. Test b. Test 9. Flux-T Power Comparator
- a. b. 10. Calorimetric Instrumentation
- a. 11. Containment Building a. Humidity Detector b. Calibrate Test Calibrate(2)
Test Check 12. Interlocks
-Isolation Valves a. Calibrate on shutdown Cooling Line 13. Service Water Break Detector a. Test in Containment Frequency R p *R M R R s R R Surveillance Method a. Verify proper operation of all drive control system interlocks, using simulated signals where necessary.
- b. Same as 8(a) above, if not done within three months. a. b. a. a. b. Use simulated signals. Internal test signal.* Known differential pressure applied to feedwater flow sensors. Expose sensor to high humidity atmosphere.
Comparison of channels.
- a. Known.pressure applied to sensor. a. Known differential pressure applied to Sensors. (1) During the 1978 refueling outage, Item 2.c will only be performed on 7 rods (1 per bank). The secondary rod position surveillance (Item 3.c) will be performed in entirety.
Additionally, a 20" rod position check (comparing primary indication to secondary indication) will be conducted on each rod. If the primary and secondary indications vary more than 2" from each other, corrective action will be taken to restore the proper tolerances.
(2) The 1981 surveillance function may be deferred until the end of the 1981 refueling outage. 4-11 Proposed TSP0585-0203D-NL02 Surveillance
- Channel Description Function 14. Auxiliary Feed Pump a. Check Flow Indication
- b. Calibrate
- 15. Auxiliary Feed Pump a. Test Auto Initiation
- b. Calibrate
- 16. Power Operated Relief Valves & Pressurizer Code Safety Relief Valves Position Indication
- a. Temperature
- b. Acoustic Monitor 17. Subcooling Margin Monitor 18. Containment Pressure Wide Range 19. Containment Sump Water Level Instrument
- 20. Containment Floor Water Level Instrument
- 21. Containment Air Cooler Condensate Level Switches 22. Gaseous Containment Monitor (RE 1817) a. Calibrate
- b. Check a. Calibrate
- a. Check b. Calibrate
- a. Check b. Calibrate
- a. Check b. Calibrate
- a. Check b. Calibrate
- a. Test a. Check b. Calibrate
- c. Test Frequency M R M R R s R s R s R s R s R R D R M (5) (3) (5) Surveillance Method a. Comparison of Channels b. Known Differential Pressure Applied to Sensors a. Internal Test Signal .. b. Known Differential Pressure Applied to Sensors a. Known Resistance Substitute for RTD Comparison*
of Channels a. Injected Calibrated Test Signal a. Comparison of Channels b. Known Resistance Substituted for RTD Coincident With Known Input (4) a. Comparison of Channels b. Known Pressure Applied to Sensors a. Comparison of Channels b. Known Differential Pressure Applied' to Sensors a. Comparison of Channels b. Known Level Applied to Transducer
- a. Move Float and Verify Control Room Alarm a. Normal Readings observed and Internal Test Signals Used to Verify Instrument Operation
- b. Exposure to Known External Radiation Source c. Detector Exposed to Remote Operated Radiation Check Source (3)Test method to be alternated to include starting auxiliary feedwhter pump from the control room hand switch, from the breaker and from the automatic start in a three-month period. (4)In conjunction with Item 4(b), Table 4.1.1. (5)It is not necessary to perform the specified testing during the cold shutdown condition.
4-lla Proposed TSP0585-0203D-NL02 "ii