ML18100A359: Difference between revisions

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                                                                         - o 11 Io - ol o 0 b                                0      14              9'3                                                      o 1s1010 1 01                                I          I THIS REPORT IS SUBMITTED PURSUANT TO THE R~OUIREMENTS OF 10 CFR                                    §: (Ch*ck on* or mor* of th* following} (11 I OPERATING MODE (9)
                                                                         - o 11 Io - ol o 0 b                                0      14              9'3                                                      o 1s1010 1 01                                I          I THIS REPORT IS SUBMITTED PURSUANT TO THE R~OUIREMENTS OF 10 CFR                                    §: (Ch*ck on* or mor* of th* following} (11 I OPERATING MODE (9)
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0 20.402(b) 20.40610111 Iii) 20.406(c) 60.381cll1 I x
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60.73(o)(2)(iv) 50.731oH21M 73.71(b) 73.71(c)
20.402(b) 20.40610111 Iii)
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20.406(c) 60.381cll1 I
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60.73(o)(2)(iv) 50.731oH21M
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20.406(0)(1 )(ii) 20.405(0)(1 )(ill)            --      50.36lcH21 50.731oH2Hil
20.406(0)(1 )(ii) 20.405(0)(1 )(ill)            --      50.36lcH21 50.731oH2Hil 50.731oH2Hvii) 50.73loll2HviiillAI                -    OTHER (Spacify in Absrr*ct btJlow *nd in Text, NRC Form 366AI
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50.731oH2Hvii) 50.73loll2HviiillAI                -    OTHER (Spacify in Absrr*ct btJlow *nd in Text, NRC Form 366AI
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20.405(0)(1 )(Iv) 20.40510111 IM x    60.731oH2Hiil 50.73loH2Hiiil LICENSEE CONTACT FOR THIS LER 1121
20.405(0)(1 )(Iv) 20.40510111 IM x    60.731oH2Hiil 50.73loH2Hiiil LICENSEE CONTACT FOR THIS LER 1121
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NRC Form 366 16-891
NRC Form 366 16-891


LICENSEE EVENT REPORT (LER) TEXT CONTINUATION
LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station *
'
Salem Generating Station *
* DOCKET NUMBER    LER NUMBER      PAGE Unit 1                          5000272        93-010-00      2 of 5 PLANT AND SYSTEM IDENTIFICATION:
* DOCKET NUMBER    LER NUMBER      PAGE Unit 1                          5000272        93-010-00      2 of 5 PLANT AND SYSTEM IDENTIFICATION:
Westinghouse  - Pressurized Water Reactor Energy Industry Identification System (EIIS) codes are identified in the text as {xx}
Westinghouse  - Pressurized Water Reactor Energy Industry Identification System (EIIS) codes are identified in the text as {xx}
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The SW supply to the Diesel jacket water and lube oil coolers is initiated by the opening of normally closed air operated valve SW39 on a Diesel start signal and the flow is controlled by modulating D/P control valve SW42. The coolers are mounted directly in series.
The SW supply to the Diesel jacket water and lube oil coolers is initiated by the opening of normally closed air operated valve SW39 on a Diesel start signal and the flow is controlled by modulating D/P control valve SW42. The coolers are mounted directly in series.
Vendor heat exchanger data sheets identify a pressure drop of 4.2 PSIG (the original design was 6.0 PSIG) across each cooler at 700 GPM. The current design basis for the SW system is 90°F and there have been
Vendor heat exchanger data sheets identify a pressure drop of 4.2 PSIG (the original design was 6.0 PSIG) across each cooler at 700 GPM. The current design basis for the SW system is 90°F and there have been
* LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station      DOCKET NUMBER      LER NUMBER      PAGE Unit 1                            5000272        93-010-00      4 of 5 ANALYSIS OF OCCURRENCE:  (cont'd) at least two warm summers (1983 and 1988) that have approached this temperature for SW for short periods of time. The jacket water system is a closed loop cooling system that removes heat from the engine and its accessory components to maintain the temperature of the equipment within the normal operating range. The lubricating oil system circulates, cools, and filters lubricating oil for the engine and it's accessories. Both systems are provided with HIGH and HIGH-HIGH temperature alarms. During normal exercising tests the DG engine will automatically shutdown if either of the subject HIGH-HIGH alarms is received. These interlocks are bypassed in an accident situation.
 
LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station      DOCKET NUMBER      LER NUMBER      PAGE Unit 1                            5000272        93-010-00      4 of 5 ANALYSIS OF OCCURRENCE:  (cont'd) at least two warm summers (1983 and 1988) that have approached this temperature for SW for short periods of time. The jacket water system is a closed loop cooling system that removes heat from the engine and its accessory components to maintain the temperature of the equipment within the normal operating range. The lubricating oil system circulates, cools, and filters lubricating oil for the engine and it's accessories. Both systems are provided with HIGH and HIGH-HIGH temperature alarms. During normal exercising tests the DG engine will automatically shutdown if either of the subject HIGH-HIGH alarms is received. These interlocks are bypassed in an accident situation.
With the original coolers and the setpoint error, there was an estimated nominal flow rate through the coolers of 71% of design flow (497 GPM). In the mid 1980 1 s the design of the coolers was upgraded, and although the setpoint error was maintained, the new design provided a lower pressure drop at design flow resulting in an estimated nominal flow rate of 84% of design (588 GPM).
With the original coolers and the setpoint error, there was an estimated nominal flow rate through the coolers of 71% of design flow (497 GPM). In the mid 1980 1 s the design of the coolers was upgraded, and although the setpoint error was maintained, the new design provided a lower pressure drop at design flow resulting in an estimated nominal flow rate of 84% of design (588 GPM).
An evaluation was made of the increased temperatures assuming the most significant flow shortfall noted above and the currently established design SW temperature of 90°F. This evaluation predicted an increase of 5°F in maximum jacket water temperature to 179°F and an increase of 7.9°F in lube oil temperature to 192°F. The jacket water design control range is 150 to 180°F with the high and double up alarms at 175* and 195°F (also a trip during normal operation), respectively. The lube oil design control range is 160 to 190°F with the HIGH and HIGH-HIGH temperature alarms at 185 and 205°F, respectively.
An evaluation was made of the increased temperatures assuming the most significant flow shortfall noted above and the currently established design SW temperature of 90°F. This evaluation predicted an increase of 5°F in maximum jacket water temperature to 179°F and an increase of 7.9°F in lube oil temperature to 192°F. The jacket water design control range is 150 to 180°F with the high and double up alarms at 175* and 195°F (also a trip during normal operation), respectively. The lube oil design control range is 160 to 190°F with the HIGH and HIGH-HIGH temperature alarms at 185 and 205°F, respectively.
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CORRECTIVE ACTION:
CORRECTIVE ACTION:
Following event discovery, Engineering determined the Diesels were unaffected by this condition until the Service Water inlet temperature reached 60°F. This determination allowed sufficient time to develop and implement the correct setpoint to achieve design flow.
Following event discovery, Engineering determined the Diesels were unaffected by this condition until the Service Water inlet temperature reached 60°F. This determination allowed sufficient time to develop and implement the correct setpoint to achieve design flow.
* LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station *
 
LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station *
* DOCKET NUMBER      LER NUMBER      PAGE Unit 1                          5000272          93-010-00      5 of 5 CORRECTIVE ACTION:  (cont'd)
* DOCKET NUMBER      LER NUMBER      PAGE Unit 1                          5000272          93-010-00      5 of 5 CORRECTIVE ACTION:  (cont'd)
The proper setpoint was developed by Engineering, verified by field testing, added to the plant data base via Design Changes, and subsequently implemented for both Units the week of April 19, 1993.
The proper setpoint was developed by Engineering, verified by field testing, added to the plant data base via Design Changes, and subsequently implemented for both Units the week of April 19, 1993.

Revision as of 06:10, 3 February 2020

LER 93-010-00:on 930407,determined That Svc Water Flow Through DG Jacket Water & Lube Oil Coolers Less than Design Requirement of 700 Gpm.Caused by Design/Mfg Deficiency. Proper Setpoint Developed & verified.W/930504 Ltr
ML18100A359
Person / Time
Site: Salem PSEG icon.png
Issue date: 05/04/1993
From: Pastva M, Vondra C
Public Service Enterprise Group
To:
NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
LER-93-010, LER-93-10, NUDOCS 9305110314
Download: ML18100A359 (6)


Text

Public Service Electric and Gas Company P.O. Box 236 Hancocks Bridge, New Jersey 08038 Salem Generating Station May 4, 1993 U. s. Nuclear Regulatory Commission Document Control Desk Washington, DC 20555

Dear Sir:

SALEM GENERATING STATION LICENSE NO. DPR-70 DOCKET NO. 50-272 UNIT NO. 1 LICENSEE EVENT REPORT 93-010-00 This Licensee Event Report is being submitted pursuant to the requirements of the Code of Federal Regulations 10CFR 50.73(a) (2) (ii) (B) and 50.73(a) (2) (v) (D). This report is required to be issued within thirty (30) days of event discovery.

Sinc~rely yours,

c. A Vondra General Manager Salem Operations MJPJ:pc Distribution 100073 93051103f4 930504 PDR ADOCK 05000272 S PDR l he power is in your hands.

95*2189 REV 7-92

NRC FORM 366 U.S. NUCLEAR REGULATORY COMMISSION 16-89) APPROVED OMB NO. 3150*0104 EXPIRES: 4/30/92 ESTIMATED BURDEN PER RESPONSE TO COMPLY WTH THIS INFORMATION COLLECTION REQUEST: 50.0 HRS. FORWARD LICENSEE EVENT REPORT (LERI COMMENTS REGARDING BURDEN ESTIMATE TO THE RECORDS AND REPORTS MANAGEMENT BRANCH IP*530), U.S. NUCLEAR REGULATORY COMMISSION, WASHINGTON, DC 20555, AND TO THE PAPERWORK REDUCTION PROJECT 13150-0104). OFFICE OF MANAGEMENT AND BUDGET, WASHINGTON, DC 20503.

FACILITY NAME 11) I DOCKET NUMBER 12) I PAGE (3)

Salem Generating Station TITLE 141

- Unit 1 o 1 s 1 o 1 o 1 o 1 21 7 12 I 1 IoFlo 15 Less than Design Service Water Flow through the Diesel Generators' Jacket Water Cooler.

EVENT DATE (5) LER NUMBER 161 REPORT DATE 171 OTHER FACILITIES INVOLVED (8)

MONTH DAY YEAR YEAR ltt SEQUENTIAL NUMBER V< REVLSION NUMBER MONTH DAY YEAR FACILITY NAMES DOCKET NUMBERISI Salem Unit 2 015-101010131 l' 1 ol4 ol 7 ~ 3 913

- o 11 Io - ol o 0 b 0 14 9'3 o 1s1010 1 01 I I THIS REPORT IS SUBMITTED PURSUANT TO THE R~OUIREMENTS OF 10 CFR §: (Ch*ck on* or mor* of th* following} (11 I OPERATING MODE (9)

POWER 1

0 20.402(b) 20.40610111 Iii) 20.406(c) 60.381cll1 I x

60.73(o)(2)(iv) 50.731oH21M 73.71(b) 73.71(c)

LEVEL (10)

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20.406(0)(1 )(ii) 20.405(0)(1 )(ill) -- 50.36lcH21 50.731oH2Hil 50.731oH2Hvii) 50.73loll2HviiillAI - OTHER (Spacify in Absrr*ct btJlow *nd in Text, NRC Form 366AI

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20.405(0)(1 )(Iv) 20.40510111 IM x 60.731oH2Hiil 50.73loH2Hiiil LICENSEE CONTACT FOR THIS LER 1121

- 50.73(o)(2llviiillBI 50.731oH2H*I NAME TELEPHONE NUMBER AREA CODE M. J. Pastva. Jr.- LER Coordinator 61 019 3 I 3 I 9 I- I 2 I l 15 I 7 COMPLETE ONE LINE FOR EACH COMPONENT FAILURE DESCRIBED IN THIS REPORT 1131

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I I I I I I I  ;:;  ::::::::: :::::;:: :::::::: I I I I I I I SUPPLEMENTAL REPORT EXPECTED 1141 MONTH DAY YEAR EXPECTED n SUBMISSION YES Ill v*s. complot* EXPECTED SUBMISSION OATEI ABSTRACT (Limit to 1400 stN1ct1s, i.e., approximately fifttJtm sing/9.spacf! typ11writrtm lines) (161 h--i NO DATE 1151 I I I

  • On
  • 4 / 7 / 9 3, it was determined that Service Water (SW) flow through the Diesel Generators' (DGs') jacket water and lube oil coolers (installed in series) was less than the design requirement of 700 gallons per minute (GPM) . Engineering determined that operability of the coolers is unaffected at SW inlet temperatures less than 60°F. This condition was due to an incorrect setpoint, which existed from the original 1978 System Description. This setpoint is for the differential pressure (D/P) controllers that modulate the cooling water outlet control valves of the three (3) DG's on each Salem Unit.

A D/P drop of approximately 12 pounds per square inch gauge (PSIG} across the f lowpath of the coolers (installed in series) is needed to achieve the required flow rate. However, the setpoint was 6 PSIG, which matched the D/P drop required to achieve this flow across a single cooler. This event was identified through investigation of unexpected flow and D/P readings across DG II C" jacket water and lube oil coolers during flow testing for upgrading the SW piping of the Unit 2 DGs. The proper setpoint for the control valves was determined, verified by field testing, added to the plant database via design changes, and subsequently implemented for both Units during the week of 4/19/93. NRC Form 366 16-891

LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station *

  • DOCKET NUMBER LER NUMBER PAGE Unit 1 5000272 93-010-00 2 of 5 PLANT AND SYSTEM IDENTIFICATION:

Westinghouse - Pressurized Water Reactor Energy Industry Identification System (EIIS) codes are identified in the text as {xx} IDENTIFICATION OF OCCURRENCE: Less than design Service Water flow through the Diesel Generators' jacket water and lube oil coolers. Discovery Date: 4/7/93 Report Date: 5/4/93 This report was initiated by Incident Report Nos. 93-218 and 219. CONDITIONS PRIOR TO OCCURRENCE: Unit 1 - Mode 1 Reactor Power 71% - Unit Load 790MWe. Unit 2 - Defueled in its seventh refueling outage. DESCRIPTION OF OCCURRENCE: On April 7, 1993, it was determined that SW flow through the DGs' jacket water and lube oil coolers was less than the design requirement of 700 gallons per minute (GPM). The potential consequence of this condition was insufficient cooler heat removal capability during periods of elevated Delaware River water temperature. An Engineering evaluation has determined that operability of the.coolers is unaffected at SW temperatures less than 60°F. At the time of event discovery, river water temperature was in the 40°F range. This condition was due to an incorrect setpoint, which existed since startup for both units. This setpoint is for the differential pressure (D/P) controllers that modulate the SW42 cooling water outlet control valves of the three (3) DG's on each Salem Unit. A D/P drop of approximately 12 pounds per square inch gauge {PSIG) across the flowpath of the two coolers (installed in series) is needed to achieve the required flow rate. However, the setpoint was 6 PSIG, which matched the D/P drop required to achieve this flow across a single cooler. This concern was identified while investigating unexpected flow/differential pressure readings across "C" DG jacket water and lube oil coolers during post-installation flow testing of a SW piping upgrade. The upgrade replaced the existing lined carbon steel

\ LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station DOCKET NUMBER LER NUMBER PAGE Unit 1 5000272 93-010-00 3 of 5 DESCRIPTION OF OCCURRENCE: (cont'd} Service Water (SW) piping of the Unit 2 Diesel Generators (DGs), with 6% molybdenum stainless steel. The NRC was notified of this event in accordance with 10CFR50.72 (b) (1) (ii) (B) since the low setpoint condition existed during periods when river water temperature was greater than 60°F. APPARENT CAUSE OF OCCURRENCE: This event is attributed to Design, Manufacturing, Construction/ Installation, as defined by NUREG-1022, "Licensee Event Report System". The DG SW flow deficiency has existed since original development of the setpoint for subject D/P instruments 1(2) DP9628, 9630 and 9632 for the original Service Water System Description of 1978. A contributing factor was that no direct means of flow measurement was provided in this flow path by the original plant design. When the DG jacket water and lube oil coolers were upgraded in the mid 1980s, an opportunity was missed to identify and resolve the subject setpoint error. While performance testing the upgraded coolers, it was determined, based upon measured temperatures, that flow rates through the new coolers were the same as the original coolers and were therefore adequate. D/P data, as well as jacket water and lube oil temperature, are included in the parameters collected and trended during surveillance testing. Until the flow testing of the piping upgrade there had been no reason to question the setpoint. The testing consisted of installing a portable clamp-on ultrasonic flow measurement instrument (on a section of new unlined piping) and taking D/P data for comparison with hydraulic flow calculations. ANALYSIS OF OCCURRENCE: This event did not affect the health and safety of the public. It is reportable in accordance with 10CFR50.73 (a) (2) (ii) (B) and 10CFR 50.73(a) (2) (v) (D). No evidence was found of abnormal operation or high temperature trips of the Diesel Generators (including times of high river water temperature) that could be attributed to the subject cooling water flow deficiency. The SW supply to the Diesel jacket water and lube oil coolers is initiated by the opening of normally closed air operated valve SW39 on a Diesel start signal and the flow is controlled by modulating D/P control valve SW42. The coolers are mounted directly in series. Vendor heat exchanger data sheets identify a pressure drop of 4.2 PSIG (the original design was 6.0 PSIG) across each cooler at 700 GPM. The current design basis for the SW system is 90°F and there have been

LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station DOCKET NUMBER LER NUMBER PAGE Unit 1 5000272 93-010-00 4 of 5 ANALYSIS OF OCCURRENCE: (cont'd) at least two warm summers (1983 and 1988) that have approached this temperature for SW for short periods of time. The jacket water system is a closed loop cooling system that removes heat from the engine and its accessory components to maintain the temperature of the equipment within the normal operating range. The lubricating oil system circulates, cools, and filters lubricating oil for the engine and it's accessories. Both systems are provided with HIGH and HIGH-HIGH temperature alarms. During normal exercising tests the DG engine will automatically shutdown if either of the subject HIGH-HIGH alarms is received. These interlocks are bypassed in an accident situation. With the original coolers and the setpoint error, there was an estimated nominal flow rate through the coolers of 71% of design flow (497 GPM). In the mid 1980 1 s the design of the coolers was upgraded, and although the setpoint error was maintained, the new design provided a lower pressure drop at design flow resulting in an estimated nominal flow rate of 84% of design (588 GPM). An evaluation was made of the increased temperatures assuming the most significant flow shortfall noted above and the currently established design SW temperature of 90°F. This evaluation predicted an increase of 5°F in maximum jacket water temperature to 179°F and an increase of 7.9°F in lube oil temperature to 192°F. The jacket water design control range is 150 to 180°F with the high and double up alarms at 175* and 195°F (also a trip during normal operation), respectively. The lube oil design control range is 160 to 190°F with the HIGH and HIGH-HIGH temperature alarms at 185 and 205°F, respectively. Had the DGs been called upon to provide their safety function at the design basis 90°F SW temperature, the jacket water temperature would have been at the high end of the normal control range. The lube oil temperature, while slightly above the normal control band, would have been well below oil degradation limits. Additionally, it should be noted that in the event of a high temperature alarm, the Salem DG Alarm response procedures require the* operator take action to adjust the Service Water control valve to increase cooling flow. Based on this evaluation, the resultant temperatures are well below the normal operation automatic trip points and therefore would not be expected to result in any significant reduction in performance, loss of function or permanent degradation of the DGs. CORRECTIVE ACTION: Following event discovery, Engineering determined the Diesels were unaffected by this condition until the Service Water inlet temperature reached 60°F. This determination allowed sufficient time to develop and implement the correct setpoint to achieve design flow.

LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station *

  • DOCKET NUMBER LER NUMBER PAGE Unit 1 5000272 93-010-00 5 of 5 CORRECTIVE ACTION: (cont'd)

The proper setpoint was developed by Engineering, verified by field testing, added to the plant data base via Design Changes, and subsequently implemented for both Units the week of April 19, 1993. Flow measurement capability for the subject DG SW cooling water path is being added by the piping upgrade design change in progress on Salem Unit 2 and planned for the Fall 1993 refueling outage on Salem Unit 1.. The assessment, which determined that use of the incorrect setpoint for the D/P controllers did not result in any significant reduction in performance, loss of function, or permanent degradation of the DGs, will be confirmed with the original equipment manufacturer {GE/ALCO). General Manager - Salem Operations MJPJ:pc

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