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SALEM GENERATING STATION LICENSE NO. DPR-75 DOCKET NO. 50-311 UNIT NO. 2 July 9, 1992 SUPPLEMENTAL LICENSEE EVENT REPORT 91-008-01 This Supplemental Licensee Event Report is being submitted pursuant to Code of Federal Regulations 10CFR50.73.
SALEM GENERATING STATION LICENSE NO. DPR-75 DOCKET NO. 50-311 UNIT NO. 2 July 9, 1992 SUPPLEMENTAL LICENSEE EVENT REPORT 91-008-01 This Supplemental Licensee Event Report is being submitted pursuant to Code of Federal Regulations 10CFR50.73.
The Apparent Cause of Occurrence and Corrective Action sections have been modified based upon completed Engineering investigations.  
The Apparent Cause of Occurrence and Corrective Action sections have been modified based upon completed Engineering investigations.  
*MJP:pc Distribution .1' .-. .... ' ,. 1* . \ I  
*MJP:pc Distribution .1' .-. .... ' ,. 1* . \ I
:. 0 Sincerely  
:. 0 Sincerely
: yours,  
: yours,
{/tc. A. Vondra General Manager -Salem Operations PDR ADOC PDR s 95-2189 12-89   
{/tc. A. Vondra General Manager -Salem Operations PDR ADOC PDR s 95-2189 12-89   
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---NRC FORM 366 U.S. NUCLEAR REGULATORY COMMISSION APPROVED OMB NO. 3150-0104 (6-89) EXPIRES: 4/30/92 ESTIMATED BURDEN PER RESPONSE TO COMPLY WTH THIS LICENSEE EVENT REPORT (LERI INFORMATION COLLECTION REQUEST: 50.0 HRS. FORWARD COMMENTS REGARDING BURDEN ESTIMATE TO THE RECORDS AND REPORTS MANAGEMENT BRANCH (P-530), U.S. NUCLEAR REGULATORY COMMISSION, WASHINGTON, DC 20555, AND TO _THE PAPERWORK REDUCTION PROJECT (3150-0104).
---NRC FORM 366 U.S. NUCLEAR REGULATORY COMMISSION APPROVED OMB NO. 3150-0104 (6-89) EXPIRES: 4/30/92 ESTIMATED BURDEN PER RESPONSE TO COMPLY WTH THIS LICENSEE EVENT REPORT (LERI INFORMATION COLLECTION REQUEST: 50.0 HRS. FORWARD COMMENTS REGARDING BURDEN ESTIMATE TO THE RECORDS AND REPORTS MANAGEMENT BRANCH (P-530), U.S. NUCLEAR REGULATORY COMMISSION, WASHINGTON, DC 20555, AND TO _THE PAPERWORK REDUCTION PROJECT (3150-0104).
OFF ICE OF MANAGEMENT AND BUDGET, WASHINGTON, DC 20503. FACILITY NAME (1) I DOCKET NUMBER (2) i PAGE (3) Salem-Generatinq Station -Unit 2 o1s1010101 31111 1 loF 0 14 TITLE (4) 4KV Vital Bus UV Relay Set points Found.Below Minimum Tech. Spec. Allowable Value. EVENT DATE (5) LEA NUMBER 16) REPORT DATE 17) OTHER FACILITIES INVOLVED 181 MONTH DAY YEAR YEAR It? SEQUENTIAL NUMB EA kt: REVISION MONTH NUMBER DAY YEAR FACILITY NAMES DOCKET NUMBERISI Salem Unit 1 01s101010121 712 ol ol 911 -o Io I -ol ol oj9 91 2 6 3 9 1 8 l 7 01S1010101 I I OPERATING THIS REPORT IS SUBMITTED PURSUANT TO THE OF 10 CFR §: (Chock ono or moro of tho following)  
OFF ICE OF MANAGEMENT AND BUDGET, WASHINGTON, DC 20503. FACILITY NAME (1) I DOCKET NUMBER (2) i PAGE (3) Salem-Generatinq Station -Unit 2 o1s1010101 31111 1 loF 0 14 TITLE (4) 4KV Vital Bus UV Relay Set points Found.Below Minimum Tech. Spec. Allowable Value. EVENT DATE (5) LEA NUMBER 16) REPORT DATE 17) OTHER FACILITIES INVOLVED 181 MONTH DAY YEAR YEAR It? SEQUENTIAL NUMB EA kt: REVISION MONTH NUMBER DAY YEAR FACILITY NAMES DOCKET NUMBERISI Salem Unit 1 01s101010121 712 ol ol 911 -o Io I -ol ol oj9 91 2 6 3 9 1 8 l 7 01S1010101 I I OPERATING THIS REPORT IS SUBMITTED PURSUANT TO THE OF 10 CFR §: (Chock ono or moro of tho following)
(111 MODE (Bl 1 20.402(bl 20.405lcl 50.73lo)(21fivl 73.71(bl I -,_ -POWER 20.406le)(1 I Iii 60.38lclf11 50.73folf21M 73.71fcl LEVEL ----(101 11010 20.4051o)(1)fiil 50.381c)(21 50.73l_*ll2llvii)
(111 MODE (Bl 1 20.402(bl 20.405lcl 50.73lo)(21fivl 73.71(bl I -,_ -POWER 20.406le)(1 I Iii 60.38lclf11 50.73folf21M 73.71fcl LEVEL ----(101 11010 20.4051o)(1)fiil 50.381c)(21 50.73l_*ll2llvii)
OTHER (Specify in Abstract lllllllWJllll!llill  
OTHER (Specify in Abstract lllllllWJllll!llill  
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CAUSE SYSTEM TUR ER TO NPRDS *.*.*.*-*  
CAUSE SYSTEM TUR ER TO NPRDS *.*.*.*-*  
-:-:-:.-*:*: .*.-.:-:-:-:
-:-:-:.-*:*: .*.-.:-:-:-:
CAUSE SYSTEM COMPONENT TUR ER TO NPRDS *:::*:*<:  
CAUSE SYSTEM COMPONENT TUR ER TO NPRDS *:::*:*<:
:-:-:-:-:  
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I I I I I I I .:-:*:::::::::::::::*:-:-:-
I I I I I I I .:-:*:::::::::::::::*:-:-:-
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t:*:-:*:*:-:
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:*:-. ::;:::::::::::::::::;::
SUPPLEMENTAL REPORT EXPECTED (141' MONTH DAY YEAR hi EXPECTED SUBMISSION n (If v*s. comp/et* EXPECTED SUBMISSION DA TEI . DATE (151 1 1 I NO ABSTRACT (Limit to 1400 spacBs, i.e .. "approximately fifteen single.space typewrirrsn lines) (16) On June 3, 1991, the 91. 6% sustained undervolta9e relay minimum drop out trip setpoint voltage,_
SUPPLEMENTAL REPORT EXPECTED (141' MONTH DAY YEAR hi EXPECTED SUBMISSION n (If v*s. comp/et* EXPECTED SUBMISSION DA TEI . DATE (151 1 1 I NO ABSTRACT (Limit to 1400 spacBs, i.e .. "approximately fifteen single.space typewrirrsn lines) (16) On June 3, 1991, the 91. 6% sustained undervolta9e relay minimum drop out trip setpoint voltage,_
for two ( 2 ). of the three (3) of the 2A 4KV Vital -Bus undervoltage relays and for all three (3) 2B 4KV Vital Bus .undervoltage relays, were found to be below the Technical Specification minimum* allowable value of-91%. This was discovered during Technical Specification Surveillance 4.3.2.1.1 testing which requires monthly testing of undervoltage relay setpoints.
for two ( 2 ). of the three (3) of the 2A 4KV Vital -Bus undervoltage relays and for all three (3) 2B 4KV Vital Bus .undervoltage relays, were found to be below the Technical Specification minimum* allowable value of-91%. This was discovered during Technical Specification Surveillance 4.3.2.1.1 testing which requires monthly testing of undervoltage relay setpoints.
Procedures  
Procedures
{S2.MD-FT.4KV-000l(Q)  
{S2.MD-FT.4KV-000l(Q)
{0002) , "ESFAS Instrumentation Monthly Functional Test-2A {2B) 4KV Vital Bus Under Voltage")
{0002) , "ESFAS Instrumentation Monthly Functional Test-2A {2B) 4KV Vital Bus Under Voltage")
were being used to support the surveillance testing. The lowest as-found trip setpoint, of the five subject relays was 90.5%. The causal factors of the setpoint variance are relay design inadequacy and procedure inadequacy.
were being used to support the surveillance testing. The lowest as-found trip setpoint, of the five subject relays was 90.5%. The causal factors of the setpoint variance are relay design inadequacy and procedure inadequacy.
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Mode 1 Reactor Power 100% -Unit Load 1150 MWe DESCRIPTION OF OCCURRENCE:
Mode 1 Reactor Power 100% -Unit Load 1150 MWe DESCRIPTION OF OCCURRENCE:
On June 3, 1991, the 91.6% sustained undervoltage relays* minimum drop out trip setpoint voltage, for two (2) of the three (3) of the 2A.4KV Vital Bus undervoltage relays and for all three (3) 2B 4KV Vital Bus undervoltage relays, were found to _be below the Technical Specificatiqn minimum allowable value of 91%. This was discovered during Technical Specification Surveillance 4.3.2.1.1 testing which requires monthly testing of undervoltage relay setpoints.
On June 3, 1991, the 91.6% sustained undervoltage relays* minimum drop out trip setpoint voltage, for two (2) of the three (3) of the 2A.4KV Vital Bus undervoltage relays and for all three (3) 2B 4KV Vital Bus undervoltage relays, were found to _be below the Technical Specificatiqn minimum allowable value of 91%. This was discovered during Technical Specification Surveillance 4.3.2.1.1 testing which requires monthly testing of undervoltage relay setpoints.
Procedures (S2.MD-FT.4KV-000l(Q)  
Procedures (S2.MD-FT.4KV-000l(Q)
(0002), "ESFAS Instrumentation Monthly Functional Test-2A (2B) 4KV Vital Bus Under Voltage")
(0002), "ESFAS Instrumentation Monthly Functional Test-2A (2B) 4KV Vital Bus Under Voltage")
were being used to stipport the surveillance The trip setpoint, per Technical Specifications, is 91.6% (108.9 VAC) while the allowable value is 91% (108.2 VAC). The trip setpoints, of the five subject relays, were found *to be 107.52 VAC and 107.63 VAC for the 2A 4KV Vital Bus and 107.83, 107.76 and 107.78 VAC for the 2B 4KV Vital Bus. The lowest reading (107.52 VAC) equates to a setpoint of 90.5%. The as-found condition of the Vital Bus relays potentially prevented their protective functioning.
were being used to stipport the surveillance The trip setpoint, per Technical Specifications, is 91.6% (108.9 VAC) while the allowable value is 91% (108.2 VAC). The trip setpoints, of the five subject relays, were found *to be 107.52 VAC and 107.63 VAC for the 2A 4KV Vital Bus and 107.83, 107.76 and 107.78 VAC for the 2B 4KV Vital Bus. The lowest reading (107.52 VAC) equates to a setpoint of 90.5%. The as-found condition of the Vital Bus relays potentially prevented their protective functioning.
Line 82: Line 82:
* LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station Unit 2 APPARENT CAUSE OF OCCURRENCE:
* LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station Unit 2 APPARENT CAUSE OF OCCURRENCE:
DOCKET NUMBER 5000311. (cont'd} LER NUMBER 91-008-01 PAGE 3 of 4 the relay circuitry is influenced by the amount/type of harmonics present in the external test signal; the relay trip/reset setpoints change on subsequent checks when the test signal cc:mtains a different amount/type.of harmonics/noise plus the relay's allowable design
DOCKET NUMBER 5000311. (cont'd} LER NUMBER 91-008-01 PAGE 3 of 4 the relay circuitry is influenced by the amount/type of harmonics present in the external test signal; the relay trip/reset setpoints change on subsequent checks when the test signal cc:mtains a different amount/type.of harmonics/noise plus the relay's allowable design
* setpoint drift. Factory testing of the spare relay showed that relay setpoint variance was +/- 0.3 VAC plus another -0.25% for each 1% of third harmonic present in the input signal. Percent total harmonic distortion  
* setpoint drift. Factory testing of the spare relay showed that relay setpoint variance was +/- 0.3 VAC plus another -0.25% for each 1% of third harmonic present in the input signal. Percent total harmonic distortion
(%THD), which measures all the frequencies present in the input . sj.gnal, was measured at the input of all three (3) 91.6% UV relays of lA 4KV Vital Bus. The %THO measured between 0.6 -0.8%. The worst case .scenario (i.e., assume that the %THO measured was all third harmonics) would have the relays trip at 108.38 VAC. Therefore, the present relays will perform their design base trip function prior to reaching the minimum allowable Technical Specification value of 108.2 VAC. Investigation of. the setpoint variance, found during monthly and weekly testing of installed relays, revealed several additional contributing causal factors that included:
(%THD), which measures all the frequencies present in the input . sj.gnal, was measured at the input of all three (3) 91.6% UV relays of lA 4KV Vital Bus. The %THO measured between 0.6 -0.8%. The worst case .scenario (i.e., assume that the %THO measured was all third harmonics) would have the relays trip at 108.38 VAC. Therefore, the present relays will perform their design base trip function prior to reaching the minimum allowable Technical Specification value of 108.2 VAC. Investigation of. the setpoint variance, found during monthly and weekly testing of installed relays, revealed several additional contributing causal factors that included:
* 1. calibrating relays in an ambient temperature range of 50&deg;F in the winter to 120&deg;F in the summer 2. specifying the relay's administrative trip setpoint*band of 0.15 VAC when the relay's allowable design band is 0.65 VAC; therefore, subsequent as found setpoints are more likely to be outside the administrative band requiring more frequent setpoint recalibration  
* 1. calibrating relays in an ambient temperature range of 50&deg;F in the winter to 120&deg;F in the summer 2. specifying the relay's administrative trip setpoint*band of 0.15 VAC when the relay's allowable design band is 0.65 VAC; therefore, subsequent as found setpoints are more likely to be outside the administrative band requiring more frequent setpoint recalibration
: 3. use of an external test circuit (i.e., unshielded test leads, slidewire  
: 3. use of an external test circuit (i.e., unshielded test leads, slidewire  
& resistor network, and power supply) that allowed pickup of harmonic and noise from the surrounding  
& resistor network, and power supply) that allowed pickup of harmonic and noise from the surrounding  
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On June 3, 1991, the 91.6% relay's as-found trip setpoint was found to be less than the minimum Technical Specification allowable value (91%). The relays were then recalibrated to the 91.6% value specified   
On June 3, 1991, the 91.6% relay's as-found trip setpoint was found to be less than the minimum Technical Specification allowable value (91%). The relays were then recalibrated to the 91.6% value specified   
**
**
* LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating station Unit 2 DOCKET NUMBER 5000311 ANALYSIS OF OCCURRENCE: (cont'd) LER NUMBER 91-008-01 PAGE 4 of 4 in the applicable Surveillance Test Procedure S2.MD-FT.4KV-0001(Q)  
* LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating station Unit 2 DOCKET NUMBER 5000311 ANALYSIS OF OCCURRENCE: (cont'd) LER NUMBER 91-008-01 PAGE 4 of 4 in the applicable Surveillance Test Procedure S2.MD-FT.4KV-0001(Q)
(0002). Recalibration was completed for each relay of each Vital Bus, at the time each out of specification reading was found. The two (2) Vital Bus relays (total of five relays) were recalibrated on June 3, 1991. An engineering analysis (reference Engineering letter ELE-91-0364), considering several scenarios that could result in low voltage at the 4KV, 480V, and 230V Vital Busses, was performed to determine the impact the low as-found 91.6% relay setpoints  
(0002). Recalibration was completed for each relay of each Vital Bus, at the time each out of specification reading was found. The two (2) Vital Bus relays (total of five relays) were recalibrated on June 3, 1991. An engineering analysis (reference Engineering letter ELE-91-0364), considering several scenarios that could result in low voltage at the 4KV, 480V, and 230V Vital Busses, was performed to determine the impact the low as-found 91.6% relay setpoints
{90%) would have had on Unit 2 1 s Vital Bus motors and loads. In all considered scenarios, the undervoltage relays would have performed their design function and would have provided adequate protection to Vital Bus motors and loads despite their lower as-found trip setpoints.
{90%) would have had on Unit 2 1 s Vital Bus motors and loads. In all considered scenarios, the undervoltage relays would have performed their design function and would have provided adequate protection to Vital Bus motors and loads despite their lower as-found trip setpoints.
Therefore, based on th,e engineering analysis, this event did not affect the health or safety of the public. However, since the Technical Specification reqriirement for the undervoltage relay setpoint was not met, this event is reportable to the commission in accordance with Code of Federal Regulations lOCFR 50.73(a) (2) (i) (B). CORRECTIVE ACTION: Weekly testing and trending of test results of the installed Rochester relays was performed under the direction of System Engineering.
Therefore, based on th,e engineering analysis, this event did not affect the health or safety of the public. However, since the Technical Specification reqriirement for the undervoltage relay setpoint was not met, this event is reportable to the commission in accordance with Code of Federal Regulations lOCFR 50.73(a) (2) (i) (B). CORRECTIVE ACTION: Weekly testing and trending of test results of the installed Rochester relays was performed under the direction of System Engineering.

Revision as of 15:59, 25 April 2019

LER 91-008-01:on 910603,sustained Undervoltage Relay Min Dropout Trip Setpoint Voltage for Three 4 Kv Vital Bus 2A Undervoltage Relays Found Below TS Min Allowable Value. Caused by Setpoint Drift.Procedure revised.W/920709 Ltr
ML18096A828
Person / Time
Site: Salem PSEG icon.png
Issue date: 07/09/1992
From: POLLACK M J, VONDRA C A
Public Service Enterprise Group
To:
NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
LER-91-008-01, LER-91-8-1, NUDOCS 9207200059
Download: ML18096A828 (5)


Text

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

Dear Sir:

SALEM GENERATING STATION LICENSE NO. DPR-75 DOCKET NO. 50-311 UNIT NO. 2 July 9, 1992 SUPPLEMENTAL LICENSEE EVENT REPORT 91-008-01 This Supplemental Licensee Event Report is being submitted pursuant to Code of Federal Regulations 10CFR50.73.

The Apparent Cause of Occurrence and Corrective Action sections have been modified based upon completed Engineering investigations.

  • MJP:pc Distribution .1' .-. .... ' ,. 1* . \ I
. 0 Sincerely
yours,

{/tc. A. Vondra General Manager -Salem Operations PDR ADOC PDR s 95-2189 12-89


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---NRC FORM 366 U.S. NUCLEAR REGULATORY COMMISSION APPROVED OMB NO. 3150-0104 (6-89) EXPIRES: 4/30/92 ESTIMATED BURDEN PER RESPONSE TO COMPLY WTH THIS LICENSEE EVENT REPORT (LERI INFORMATION COLLECTION REQUEST: 50.0 HRS. FORWARD COMMENTS REGARDING BURDEN ESTIMATE TO THE RECORDS AND REPORTS MANAGEMENT BRANCH (P-530), U.S. NUCLEAR REGULATORY COMMISSION, WASHINGTON, DC 20555, AND TO _THE PAPERWORK REDUCTION PROJECT (3150-0104).

OFF ICE OF MANAGEMENT AND BUDGET, WASHINGTON, DC 20503. FACILITY NAME (1) I DOCKET NUMBER (2) i PAGE (3) Salem-Generatinq Station -Unit 2 o1s1010101 31111 1 loF 0 14 TITLE (4) 4KV Vital Bus UV Relay Set points Found.Below Minimum Tech. Spec. Allowable Value. EVENT DATE (5) LEA NUMBER 16) REPORT DATE 17) OTHER FACILITIES INVOLVED 181 MONTH DAY YEAR YEAR It? SEQUENTIAL NUMB EA kt: REVISION MONTH NUMBER DAY YEAR FACILITY NAMES DOCKET NUMBERISI Salem Unit 1 01s101010121 712 ol ol 911 -o Io I -ol ol oj9 91 2 6 3 9 1 8 l 7 01S1010101 I I OPERATING THIS REPORT IS SUBMITTED PURSUANT TO THE OF 10 CFR §: (Chock ono or moro of tho following)

(111 MODE (Bl 1 20.402(bl 20.405lcl 50.73lo)(21fivl 73.71(bl I -,_ -POWER 20.406le)(1 I Iii 60.38lclf11 50.73folf21M 73.71fcl LEVEL ----(101 11010 20.4051o)(1)fiil 50.381c)(21 50.73l_*ll2llvii)

OTHER (Specify in Abstract lllllllWJllll!llill

---below and in Text. NRC Form 20.405loll1 llilil x 60.73(o)(2llil

  • 60.7310) l2llviii)(AI 366A) ....._ --20.406(0)(1

)(iv) 60.73(oll2)(ii) 50.73(oll2)(viii)

IB) ---20.4051oll11M 50.73lo)l2)(iii) 50,73(o)l2)(x)

LICENSEE CONTACT FOR THIS LER 1121 NAME TELEPHONE NUMBER AREA CODE M.J. Pollack -LER Coordinator 61 019 31 319 I -I 210 I 21 2 COMPLETE ONE LINE FOR EACH COMPONENT FAILURE DESCRIBED IN THIS REPORT 113) COMPONENT MANUFAC-REPORTABLE 1!:::!::1.-

<< ( ::>? MANUFAC-REPORTABLE

  • 1**:1:1:11*::::\.:'::::::*::::::::

.. ::::*:::*1:,:1:

CAUSE SYSTEM TUR ER TO NPRDS *.*.*.*-*

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CAUSE SYSTEM COMPONENT TUR ER TO NPRDS *:::*:*<:

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  • .*. :-*--.-.. ..... :' I I I I I I I 1::::::: .*.**.:. :-:-:-:-: . ... I I I I I I I _._._._._

-:-:-:-:-.......... 1:*::::::-::::: t:f?d/ -I I I I I I I *:::::::*::::r::::u:::::::: I I I I I I I .:-:*:::::::::::::::*:-:-:-

-:-::::;:::::;::::::::

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SUPPLEMENTAL REPORT EXPECTED (141' MONTH DAY YEAR hi EXPECTED SUBMISSION n (If v*s. comp/et* EXPECTED SUBMISSION DA TEI . DATE (151 1 1 I NO ABSTRACT (Limit to 1400 spacBs, i.e .. "approximately fifteen single.space typewrirrsn lines) (16) On June 3, 1991, the 91. 6% sustained undervolta9e relay minimum drop out trip setpoint voltage,_ for two ( 2 ). of the three (3) of the 2A 4KV Vital -Bus undervoltage relays and for all three (3) 2B 4KV Vital Bus .undervoltage relays, were found to be below the Technical Specification minimum* allowable value of-91%. This was discovered during Technical Specification Surveillance 4.3.2.1.1 testing which requires monthly testing of undervoltage relay setpoints. Procedures {S2.MD-FT.4KV-000l(Q) {0002) , "ESFAS Instrumentation Monthly Functional Test-2A {2B) 4KV Vital Bus Under Voltage") were being used to support the surveillance testing. The lowest as-found trip setpoint, of the five subject relays was 90.5%. The causal factors of the setpoint variance are relay design inadequacy and procedure inadequacy. Special relay tests show that the relay circuitry is influenced by the amount/type of harmonics present in the external test signal. The worst case scenario {i.e., assume that the %THD measured was all.third harmonics) would have the relays trip at 108.38 VAC. The minimum allowable Technical Specification value is 108.2 VAC. Weekly testing of the installed relays was performed under the direction of System Engineering. In addition, controlled bench tests were performed on identical relays. The relay test procedure has been revised as applicable. The 4KV Vital Bus 91. 6% undervoltage Rochester relays (both Salem Units) were replaced with ASEA Brown Boveri type 27N relays. Since installation, set point variance has not been observed. NRC Form 366 16-89)

  • LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station Unit 2 DOCKET NUMBER 5000311 PLANT AND SYSTEM IDENTIFICATION:

Westinghouse -Pressurized* Water Reactor LER NUMBER 91-008-01 PAGE 2 of 4 Industry Identification System (EIIS) codes are identified in the text as {xx} IDENTIFICATION OF OCCURRENCE: The Vital Bus 91.6% undervoltage relay setpoints were found below the minimum Technical Specification allowable value Discovery Date: 6/03/91 Report Date: 7/9/92 This report was initiated by Incident Report Nos. 91-403, 91-404, 91-464, 91-506, 91-632, 91-633, 91-657, and 91-685. CONDITIONS PRIOR TO OCCURRENCE: Mode 1 Reactor Power 100% -Unit Load 1150 MWe DESCRIPTION OF OCCURRENCE: On June 3, 1991, the 91.6% sustained undervoltage relays* minimum drop out trip setpoint voltage, for two (2) of the three (3) of the 2A.4KV Vital Bus undervoltage relays and for all three (3) 2B 4KV Vital Bus undervoltage relays, were found to _be below the Technical Specificatiqn minimum allowable value of 91%. This was discovered during Technical Specification Surveillance 4.3.2.1.1 testing which requires monthly testing of undervoltage relay setpoints. Procedures (S2.MD-FT.4KV-000l(Q) (0002), "ESFAS Instrumentation Monthly Functional Test-2A (2B) 4KV Vital Bus Under Voltage") were being used to stipport the surveillance The trip setpoint, per Technical Specifications, is 91.6% (108.9 VAC) while the allowable value is 91% (108.2 VAC). The trip setpoints, of the five subject relays, were found *to be 107.52 VAC and 107.63 VAC for the 2A 4KV Vital Bus and 107.83, 107.76 and 107.78 VAC for the 2B 4KV Vital Bus. The lowest reading (107.52 VAC) equates to a setpoint of 90.5%. The as-found condition of the Vital Bus relays potentially prevented their protective functioning. Consequently, the Nuclear Regulatory Commission was notified of this event on June 3, 1991 at 1556 hours in accordance with Code of Federal Regulations lOCFR 50.72(b) (2) (iii) (B). APPARENT CAUSE OF OCCURRENCE: The causal factors of the setpoint variance are relay design inadequacy and procedure inadequacy. Special relay tests show that r I . 1 *

  • LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating Station Unit 2 APPARENT CAUSE OF OCCURRENCE:

DOCKET NUMBER 5000311. (cont'd} LER NUMBER 91-008-01 PAGE 3 of 4 the relay circuitry is influenced by the amount/type of harmonics present in the external test signal; the relay trip/reset setpoints change on subsequent checks when the test signal cc:mtains a different amount/type.of harmonics/noise plus the relay's allowable design

  • setpoint drift. Factory testing of the spare relay showed that relay setpoint variance was +/- 0.3 VAC plus another -0.25% for each 1% of third harmonic present in the input signal. Percent total harmonic distortion

(%THD), which measures all the frequencies present in the input . sj.gnal, was measured at the input of all three (3) 91.6% UV relays of lA 4KV Vital Bus. The %THO measured between 0.6 -0.8%. The worst case .scenario (i.e., assume that the %THO measured was all third harmonics) would have the relays trip at 108.38 VAC. Therefore, the present relays will perform their design base trip function prior to reaching the minimum allowable Technical Specification value of 108.2 VAC. Investigation of. the setpoint variance, found during monthly and weekly testing of installed relays, revealed several additional contributing causal factors that included:

  • 1. calibrating relays in an ambient temperature range of 50°F in the winter to 120°F in the summer 2. specifying the relay's administrative trip setpoint*band of 0.15 VAC when the relay's allowable design band is 0.65 VAC; therefore, subsequent as found setpoints are more likely to be outside the administrative band requiring more frequent setpoint recalibration
3. use of an external test circuit (i.e., unshielded test leads, slidewire

& resistor network, and power supply) that allowed pickup of harmonic and noise from the surrounding

  • area ANALYSIS OF OCCURRENCE:

The Vital Bus (lE) 70% Loss of Voltage, 91.6% sustained Degraded Voltage, and 35% Vital Bus Undervoltage Bus Transfer relays mdnitor the Vital Bus voltage via 35:1 ratio potential transformers (PTs). Each Vital Bus contains one (1) 70% IAV relay three (3) 91.6% Rochester Instrument Systems model PR-2035 Pl-Tl-0 relays, and one (1) 35% ITE-27H relay. The 70% and 91.6% relays provide input to the Safeguard Equipment Control (SEC) Systems so the SEC can determine Vital Bus emergency loading requirements. On June 3, 1991, the 91.6% relay's as-found trip setpoint was found to be less than the minimum Technical Specification allowable value (91%). The relays were then recalibrated to the 91.6% value specified

  • LICENSEE EVENT REPORT (LER) TEXT CONTINUATION Salem Generating station Unit 2 DOCKET NUMBER 5000311 ANALYSIS OF OCCURRENCE: (cont'd) LER NUMBER 91-008-01 PAGE 4 of 4 in the applicable Surveillance Test Procedure S2.MD-FT.4KV-0001(Q)

(0002). Recalibration was completed for each relay of each Vital Bus, at the time each out of specification reading was found. The two (2) Vital Bus relays (total of five relays) were recalibrated on June 3, 1991. An engineering analysis (reference Engineering letter ELE-91-0364), considering several scenarios that could result in low voltage at the 4KV, 480V, and 230V Vital Busses, was performed to determine the impact the low as-found 91.6% relay setpoints {90%) would have had on Unit 2 1 s Vital Bus motors and loads. In all considered scenarios, the undervoltage relays would have performed their design function and would have provided adequate protection to Vital Bus motors and loads despite their lower as-found trip setpoints. Therefore, based on th,e engineering analysis, this event did not affect the health or safety of the public. However, since the Technical Specification reqriirement for the undervoltage relay setpoint was not met, this event is reportable to the commission in accordance with Code of Federal Regulations lOCFR 50.73(a) (2) (i) (B). CORRECTIVE ACTION: Weekly testing and trending of test results of the installed Rochester relays was performed under the direction of System Engineering. In addition, controlled bench tests were performed on identical relays (i.e., spare relays purchased when the installed relays were purchased) . The relay manufacturer (Rochester Instrument systems) actively supported and contributed to the investigation. The relay test procedure has been *revised to minimize harmonic/noise effects by: 1) use of the California Instruments model 161T AC power supply{< 0.3% THD) (or equivalent equipment) instead of the Doble power.supply{> 0.5% THD); 2) use of shielded test leads; and 3) use of a more accurate digital voltmeter. The 4KV Vital Bus 91.6% undervoltage Rochester relays (both Salem Units) were replaced with ASEA Brown Boveri type 27N relays. Since installation, setpoint variance has not been observed. The additional weekly surveillance testing has been General Manager -Salem Operations MJP:pc SORC Mtg. 92-076}}