Proposed Tech Specs,Modifying Operability & Surveillance Requirements for Qualified Core Exit Thermocouples to Be Consistent w/in-core Calibr Requirements

ML18052B392
Person / Time
Site:	Palisades
Issue date:	11/25/1987
From:	CONSUMERS ENERGY CO. (FORMERLY CONSUMERS POWER CO.)
To:
Shared Package
ML18052B391	List: ML18052B390 ML18052B392
References
NUDOCS 8711300137
Download: ML18052B392 (6)
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• ATTACHMENT Consumers Power Company Palisades Plant Docket 50-255 PROPOSED PAGES TECHNICAL SPECIFICATIONS CHANGE REQUEST CORE EXIT THERMOCOUPLES November 25, 1987 -. --------.

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\ . 4 Pages OC1187-0206-NL02-NL04 3.17 INSTRUMENTATION AND CONTROL SYSTEMS (Contd) If the bypass is not effected, the out-of-service channel (Power Removed) assumes a tripped condition (except high rate-of-change of power, high power level and high pressurizer pressure), (l) which results in a one-out-of-three channel logic. If, in the 2 of 4 logic system of either the reactor protective system or the engineered safeguards system, one channel is bypassed and a second channel manually placed in a tripped condition, the resulting logic is 1 of 2. At rated power, the minimum operable high-power level channels is 3 in order to provide adequate flux tilt detection.

If only 2 channels are operable, the reactor power level is reduced to 70% rated power which protects the reactor from possibly exceeding design peaking factors due to undetected flux tilts and from exceeding dropped rod peaking factors in the event that a turbine runback signal is required from the power range channels.

The engineered safeguards system provides a 2 of 4 logic on the signal used to actuate the equipment connected to each of the 2 emergency diesel generator units. Two start-up channels are available any time reactivity changes are deliberately being introduced into the reactor and the neutron power is not visible on the log-range nuclear instrumentation or above -4 10 % of rated power. This ensures that redundant start-up instrumentation is available to operators to monitor effects of reactivity changes when neutron power levels are only visible on the start-up channels.

In the event only one start-up range channel is available and the neutron power level is sufficiently high that it is being monitored by both channels of log-range instrumentation, a startup can be performed in accordance with footnote (d) of Table 3.17.4. S_ixteen (four per core quadrant) environmentally qualified core ---exit thermocouples (cable and connectors) with readout from 0 to / 2300°F are provided for monitoring the potential approach to I inadequate core cooling. The core exit thermocouples are an I integral part of the incore detector assembly and are located at I the top of each incore assembly to measure primary coolant outlet I temperatures.

/ References (1) Updated FSAR, Sections 7.2.2 and 7.2.7. 3-77 Amendment No. <<. OC1187-0206-NL02-NL04

. J' e Table 3.17.4 (Cont'd) Minimum Minimum Permissible Operable Degree of Bypass No _Fun..ctional Unit Channels Redundancy Conditions

8. Pressurizer Water 2 1 Not required in Level (LI-0102)

Cold or Refuel-ing Shutdown 9. Pressurizer Code 1 per None Not Required Safety Relief Valves Valve below 325°F Position Indication (Acoustic Monitor or Temperature Indication)

10. Power Operated Relief 1 per None Not required when Valves (Acoustic Valve PORV isolation valve Monitor or Temperature is closed and Indication) indication system is operable 11. PORV Isolation Va*lves 1 per None Not required when Position Indication Valve reactor is depressurized and vented through a vent G:l.3 sq.in. 12. Subcooling Margin 1 None Not required Monitor below 515°F 13. Auxiliary Feed Flow 1 per flow(h) None Not required Rate Indication Control below 325°F Valve 14. Auxiliary Feedwater 2 per stetW) 1 Not required Actuation System generator below 325°F Sensor Channels 15. Auxiliary Feedwater 2 (f) 1 Not required Actuation System below 325°F Actuation Channels 16. Excore Detector l(g) None None 17. Core Exit 2/core I/core Not required Thermocouples Quadrant (i) Quadrant in cold or Refueling Shutdown (e) Auxiliary Feedwater System Actuation System Sensor Channels coritain pump auto initiation circuitry.

If two sensor channels for one steam generator are inoperable, one of the steam generator low level bistable modules in one of the inoperable channels must be in the tripped condition.

3-Bla Amendment No. OC1187-0206-NL02-NL04 I I I I No 8. 9. 10. 11. 12. 13. 14. 15. Func-t-ional Unit Pressurizer Water Level (LI-0102)

Pressurizer Code Safety Relief Valves 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 Feedwater Actuation System Sensor Channels Auxiliary Feedwater Actuation System Actuation Channels 16. Excore Detector 17. Core Exit Thermocouples Table 3.17.4 (Cont'd) Minimum Operable Channels 2 1 per Valve Minimum Degree of Redundancy 1 None 1 per None Valve 1 per None Valve 1 None 1 per flow(h) None Control Valve 2 per stetW) generator l(g) 2/core Quadrant (i) 1 1 None I/core Quadrant

• Permissible Bypass Conditions Not required in Cold or ing 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.in. Not required below 515°F Not required below 325°F Not required below 325°F Not required below 325°F None Not required in.cold or Refueling Shutdown I I I I (e) Auxiliary Feedwater System Actuation System Sensor Channels contain pump auto initiation circuitry.

If two sensor channels for one steam generator are inoperable, one of** the steam generator low level bistable modules* in one of the inoperable channels must be in the tripped condition.

3-8la Amendment No. OC1187-0206-NL02-NL04

• * < Table 3.17.4 (Cont'd) (f) With one auxiliary Feedwater Actuation System Actuation Channel 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. (g) Calculate the Quadrant Power Tilt using the excore readings at least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> when the excore detectors deviation alarms are inoperable. (h) With two flow rate indicators inoperable for a given control valve, the control valve shall be considered inoperable and the requirements of 3.5.2(e) apply. (i) The core exit thermocouples in core locations (H2, G7, J7, JlO), (Q4, R7, R8, Nll), (M13, X14, Ql6, R17) and (Bl3, H13, J16, Gl7) are to be used in determining the minimum channels operable requirement.

3-8lb Amendment No. OC1187-0206-NL02-NL04 I I I TABLE 4 .'l. 3 Minimum Frequencies for Checks, Calibrations and Testing of Miscellaneous Instrumentation and Controls (Contd) Channel DescriEtion Function Frequency Surveillance Method 23. Core Exit a. Check M a. Comparison of Channels b. Calibrate (6) b. Known voltage substituted for thermocouple (6) Only applicable to core thermocouple in core locations H2, G7, J7, JlO, Q4, R7, R8, Nll, Ml3, Xl4, Ql6, Rl7, Bl3, Hl3, Jl6 and Gl7. These thermocouples will be calibrated on a refueling cycle frequency.

4-llb Proposed OC1187-0206-NL02-NL04

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