Florida Power & Light,St Lucie,Unit 2,10CFR50.49 Equipment List.

ML17214A177
Person / Time
Site:	Saint Lucie
Issue date:	05/25/1983
From:	EBASCO SERVICES, INC.
To:
Shared Package
ML17214A176	List: ML17214A175 ML17214A177
References
NUDOCS 8306140115
Download: ML17214A177 (145)
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Text

FLORIDA POWER 6 LIGHT ST LUCIE UNIT 2 10CFR50.49 EQUIPMENT ~IST Prepared by EBAS SERVICES, Inc.

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TABLE OF CONTENTS TAB 10CFR50.49 Equipment List PACKAGE ¹ MANUFACTURER/DESCRIPTION 3.3 Asco/Solenoid Valves 6.3 Rockbestos/Coaxial Firewall D 8.7 Hy-Cal Engineering-Love Controls/

Moisture Switches 9.4 Microswitch/Limit Switches 10.1 CVI/SBVS Heaters and Control Panels 15.1A Conax/Penetrations H 15.2 Conax/Conduit Seals 16.1 Raychem/Splices 20.1 Systems Control/Electrical Boxes K 35.9 Garret/Valves L 39.1 RDF/Primary Elements 55.1 Brown Boveri/Local Control Stations N 71.2 Whittaker-Conax/ICC System

PAGE NO. 1 ST. LUCIE UNIT 2 .ENVIRONMENTAL QUALIFICATION COMMITMENT MAY 20, 1983 TAG NUMBER COMMITMENT DATE 2HVE-6A QUALIFIED 2HVE-6B QUALIFIED 2HVE-9A QUALIFIED 2HVS-1A QUALIFIED 2HVS-1B QUALIFIED 2HVS-1C QUALIFIED 2HVS-1D QUALIFIED 2HVS-4A QUALIFIED 2HVS-4B QUALIFIED AUX-FWP-2A I QUAL FIED AUX-FWP-2A*PB TO BE QUALIFIED NOTE 1 AUX-FWP-2B QUALIFIED AUX-FWP-2B*PB TO BE QUALIFIED NOTE 1 B/M-D15-SERIES QUALIFIED B/M-D26-SERIES QUALIFIED B/M-D52-SERIES QUALIFIED B/M-D54-SERIES QUALIFIED B/M-D60-SERIES QUALIFIED B/M-D61-SERIES QUALIFIED B/M-D62-SERIES QUALIFIED B/M-D63-SERIES QUALIFIED B/M-D64-SERIES QUALIFIED B/M-D71-SERI ES QUALIFIED B/M-D80-SERIES TO BE QUALIFIED 12'/1/83 B/M-D85-22 TO BE QUALIFIED NOTE 1 B/M-D9-SERIES QUALIFIED B2G30 TO BE QUALIFIED 2/1/84 B2G31 TO BE QUALIFIED 2/1/84 B2G32 TO BE QUALIFIED 2/1/84 CHGG-P-2A QUALIFIED CHGG-P-2B QUALIFIED CHGG-P-2C QUALIFIED CSP-2A QUALIFIED CSP-2B QUALIFIED D-1 QUALIFIED D-13 QUALIFIED

PAGE NO. 2 ST LUC I E UN I T 2 ENVIRONMENTAL QUALIFICATION COMMITMENT 'IST MAY 28F83 TAG NUMBER COMMITMENT DATE D-14 QUALIFIED D-2 QUALIFIED D- -3 QUALI F IED D-24 QUALIFIED D-3 QUALIFIED D-4 QUALIF I ED D-5A QUALIFIED D-5B QUALIFIED D-6A QUALIFIED D-6B QUALIFIED D-SA QUALIF ZED D-SB QUALIFIED D-9A QUALIFIED D-9B QUALIFIED EHC-2HVE-6A1 TO BE QUALIFIED 2/1/84 EHC-2HVE-6A2 TO BE QUALIFIED 2/1/84 EHC-2HVE-6B1 TO BE QUALIFIED 2/1/84 EHC-2HVE-6B2 TO BE QUALIF Z ED 2/1/84 F CV 1 A+LS QUALIF I ED FCV-87-1A+ SOL QUALIFIED F CV 1 BwLS QUALIFIED FCV-$ 7-iB~SOL QUALIFIED FCV-23-3+LS QUALIFIED FCV-23-3+SOL TO BE REPLACED NOTE 1 FCV-23-4~LS QUALIFIED FCV-23-4+SOL QUALIF I ED FCV-23-5+LS QUALIFIED FCV-23-5~SOL TO BE REPLACED NOTE 1 FCV-23-6+LS QUALIFIED FCV-23-6+SOL TO BE REPLACED NOTE 1 FCV-23-7+LS QUALIFIED FCV-23-7+SOL QUALIFIED FCV-23-PALS QUALIFIED FCV-23-9+SOL QUALIFIED FCV-25-1+SOL TO BE REPLACED NOTE 1 F CV-25-1 1 QUAL Z FIED F CV 12 QUALIFIED

PAGE NO.

ST ~ LUG IE UNIT 2 ENVIRONMENTAL QUALIFICATION COMMITMENT LIST MAY 2$ ) 19'83 TAG NUMBER COMMITMENT DATE FCV-25-13 QUAL IF IED FCV-25-2~SO! TO BE REPLACED NOTE 1 FCV-25-28+CM TO BE QUALIF IED 2/1/84 FCV-25-28+LS QUALIFIED FCV-25-28+SOL QUALIF IED ~ \

I F CV-25-21 ~LS QUALIFIED F CV-25-21+SOL QUALIFIED FCV-25-26+LS QUALIFIED FCV-25-26+SOL QUALIFIED FCV-25-29 QUALIFiED FCV-25-3wCM TO BE QUALIFIED 2/1/84 FCV-25-3+LS QUALIFIED FCV-25-3~SOL TO BE REPLACED NOTE 1 FCV-25-3$ QUALIFIED F CV- 3 1 QUALIFIED

'FCV-25-32 QUALIFIED FCV-25-33 QUALIF IED FCV-25-34 QUALIFIED FCV-25-4~CM TO BE QUALIFIED 2/1/84 FCV-25-4+LS QUALIFIED FCV-25-4wSOL TO BF REPLACED NOTE 1 FCV-.5-5~LS QUALIFIED FCV-25-5+SOL TO BE REPLACED NOTE 1 FCV-25-6~LS QUALIFIED FCV-25-6~SOL TO BE REPLACED NOTE 1 FCV-25-7+LS QUALIFIED

FCV-26-1~CM TO BE QUALIFIED 2/1/84 FCV-26-i MLS QUALIFIED F CV 1% SOL QUALIFIED FCV-26-2+LS QUALIFIED FCV-26-2+SOL QUALIFIED FCV-26-3~CM TO BE QUALIFIED 2/1/84 FCV-26-3~LS QUALIFIED FCV-26-3~SOL QUALIFIED FCV-26-4~LS QUALIFIED \

FCV-26-4+SOL QUALIFIED 4 FCV-26-5~CM TO BE QUALIFIED 2/1/84

PAGE NO. 4 ST. LUG IE UNIT ENVIRONMENTAL QUALIFICATION COMMITMENT LIST MAY 2$ ) 1983 TAG NUMBER COMMITMENT DATE FCV-26-5%LS QUALIFIED FCV-26-5~SOL QUALI F I ED FCV-26-6%LS QUALIFIED FCV-26-6~SOL QUALIFIED FCV-33$ 1 QUALIF IED FCV-33$ 6 QUALIFIED FE-$ 1-1 QUALIFIED FE-$ 1- . QUALIFIED FE-$ 1-3 QUALIFIED FE-$ 1-4 QUALIFIED FE-$ 1-5 QUALIFIED FSE-27-1$ +CM TO BE QUALIFIED 2/1/84 FSE-27-1 1 LCM TO BE QUALIFIED 2/1/84 FSE-27-12+CM TO BE QUALIFIED 2/1/84 FSE-27-13+CM TO BE QUALIFIED 2/1/84 FSE 1 4+ CM TO BE QUALIFIED 2/1/84 FSE-27-8~CM TO BE QUALIF IED 2/1/84 FSE-27-9+CM TO BE QUALIFIED 2/1/84 FT-$ 1-1 QUALIFIED FT-$ 1-2 QUALIFIED FT-$ 1-3 QUALIFIED FT-$ 1-4 QUALIFIED FT-$ 1-5 QUALIFIED FT-$ 9-2A1 QUALIFIED FT-$ 9-2A2 QUALIFIED FT-$ 9-2Bi QUALIFIED FT-$ 9- B2~ QUALIFIED FT-$ 9-2C1 QUALIFIED FT-$ 9-2C2 QUALIFIED FT-1 158 QUALIFIED FT-1 168 QUALIFIED FT-1 178 QUALIFIED FT-1 188 QUALIFIED FT-2212 QUALIFIED H2-RMB-2A QUALIFIED H2-RMB-2B QUALIFIED HCV-$8-1 A+LS QUALIFIED

PAGE NO. 5 ST. LUG IE UNIT 2 ENVIRONMENTAL QUALIFICATION .COMMITMENT LIST MAY 28> 1983 TAG NUMBER COMMITMENT DATE HC V 1 A+SOL TO BE REPLACED NOTE 1 HCV 1 A+TP TO BE QUALIFIED NOTE HCV-88-1B+LS QUALIFIED HCV-88-iB+SOL TO BE REPLACED NOTE H CV 1 B~T P TO BE QUALIFIED NOTE 1 HCV-89-1 A QUALZFZED H CV 1 A+LS QUALIFZED HCV-89-1A~PB TO BE QUALIFIED NOTE 1 H CV 1 A+ RB TO BE QUALIFIED 2/1/84 H CV 1 B QUALIFIED H CV 1 B~LS QUALIFIED H CV 1 B+ PB TO BE QUALIFZ ED NOTE 1 HCV-89-1B+RB TO BE QUAL IF I ED 2/1/84 HCV-.89-2A QUALIFIED HCV-89-2A+LS QUALIFIED HCV-89-2AwPB TO BE QUALIFIED NOTE 1 HCV-89-2A+RB TO BE QUALIFIED 2/1/84 HCV -B QUALIFIED HCV-89-2B~LS QUALIFIED HCV-89-2B+PB TO BE QUALIFIED NOTE 1 HCV-89-2B+RB TO BE QUALIFIED 2/1/84 HCV-14-1~CM TO BE QUALIFIED 2/1/84 HCV-14-1+LS QUALIFIED HCV-14-1%SOL TO BE REPLACED NOTE 1 HCV-14-2wCM TO BE QUALIFIED 2/1/84 H CV- 1 4-2%LS QUALIF IED H C V- 1 4-2%8 OL TO BE REPLACED NOTE 1 H CV- 1 4-3 A~LS QUALIFIED H CV-1 4-SA~SOL TO BE REPLACED NOTE 1 H C V- 1 4-SBwLS QUALIFIED H CV- 1 4-SB~SOL TO BE REPLACED NOTE 1 HCV- 1 4-6+LB QUALIFZED.

HCV-14-6~SOL TO BE REPLACED NOTE 1 H CV- 1 4-'7wLS QUALIF IED HCV-14-7+SOL TO BE REPLACED NOTE 1 HCV-15-1%LS QUALIFIED HCV-15-1+SOL TO BE REPLACED NOTE 1

PA6E NO. 6 ST. LUCIE UNIT 2 ENVIRONMENTAL QUALIFICATION COMMITMENT LIST MAY 28'983 TAG NUMBER COMMITMENT DATE HCV-18-14 LS QUALIFIED H CV-1 8-1 +SOL TO BE REPLACED NOTE 1 HCV-25-1+LS QUALIFIED HCV-25-a~SOL QUALIFIED HCV-25-1A+LS QUALIFIED HCV-25-1A+SOL QUALIFIED HCV-25-2wLS QUALIFIED HCV-25-2+SOL QUALIFIED HCV-25-2A+LS QUALIFIED HCV-25-2A+SOL QUALIFIED HCV-25-3%LS QUALIF IED HCV-25-3~SOL QUALIFIED HCV-25-3AwLS QUALIFIED HCV-25-3A+SOL QUALIF I ED HCV-.25-4+LS QUAL IF I ED HCV-25-4~SOL QUALIFIED HCV-25-4A+LS QUALIFIED HCV-25-4A~SOL QUALIFIED HCV-25-5+LS QUALIFIED HCV-25-5+SOL QUALIFIED HCV-25-5A~LS QUALIF ZED HCV-25-5AwSOL QUALIFIED HCV-25-6~LS QUALIFIED HCV-25-6+SOL QUALIFIED HCV-25-6A+LS QUALIFIED HCV-25-6AwSOL QUALIFIED HCV-25-7+LS QUALIFZED HCV-25-7+SOL QUALIFIED HCV- 5-7A+LS

~

QUALZFZED HCV-25-7A+SOL QUALIFIED HCV-35 12 QUALIFIED HCV-3615 QUALIFIED HCV-3615%PB TO BE QUAL IF ZED NOTE 1 HCV-3617 QUAL IF I ED HCV-36 17+ PB TO BE QUALIF I ED NOTE 1 HCV-3618wCM TO BE QUAL'IF I ED 2/1/84 HCV-3618<LB QUALZFZED

PAGE NO. 7 ST. LUG IE UNIT 2, ENVIRONMENTAL QUALIFICATION COMMITMENT LIST MAY 2$ v 1983 TAG NUMBER COMMITMENT DATE H CV-36 1 8+SOL TO BE REPLACED NOTE 1 HCV-3625 QUALIFIED HCV-3625+PB TO BE QUALIFIED NOTE 1 HCV-3626 QUALIFIED HCV-3627 QUALIFIED I~

HCV-3627+PB TO BE QUALIFIED NOTE 1 HCV-3628+CM TO BE QUALIFIED 2/1/84 HCV-3628wLS QUALIFIED HCV-3628+SOL TO BE REPLACED NOTE 1 HCV-3635 QUALIFIED HCV-3636 QUAL IF I ED HCV-3638+CM TO BE QUALIFIED /1/84 HCV-3638+LS QUALIFIED HCV-3638+SOL TO BE REPLACED NOTE 1 HCV-3645 QUALIFIED HCV-3646 QUALIFIED HCV-3647 QUALIF IED HCV-3647~LS QUALIFIED HCV-3648~CM TO BE QUALIFIED 2/1/84 HCV-3648+LS QUALIFIED HCV-3648+SOL 'O BE REPLACED NOTE 1 HCV-3657 QUAL Z F I ED HPS I-P-2A QUALIFIED HPSI-P-2B QUALIFIED ICC~CBLwASSMB TO BE QUALIFIED NOTE 1 ICC+FLEX TO BE QUALIFIED NOTE 1 IE-CABLE-SPLICE QUAL IF IED LCV-$7-1 1A~CM TO BE QUALZFIED 2/1/84 L CV-$ 7- 1 1 A+LS QUALIFIED LCV-$7-1 1 A~SOL QUALIFIED L CV-$ '7- 1 1 B~LS QUALIFIED L C V-$7- 1 1 B~SOL QUALIFIED LE-$ 7-13A QUALIFIED LE-$ 7-13A~ CM TO BE QUALIFIED 2/1/84 LE-$7-13B QUAL IF ZED LE-$7-1 3B+ CM TO BE QUALIFIED 2/1/84 LE-$ 7- 1 4 A QUALIF ZED

PAGE NO. 8 ST. LUG I E UNIT 2 ENV I RONNENTAL QUAL IF I CAT I ON COMM I TNENT LIST MAY 2$ ) 15'83 TAG NUMBER CONM I TNENT DATE LE-87-1 4A+ CM TO BE QUALIFIED 2/1/84 LPSI-P-2A QUALIFIED LPS I-P-2B QUALIFIED LS-86-1A QUALIFIED LS-$6-1B QUALIFIED LT-1184 QUALIFIED ~ \'

LT-1 185 QUALIFIED LT-1 1 1$ X QUALIFIED LT-1 1 18Y QUALIFIED LT-9813A QUALIFIED LT-9813B QUALIFIED LT-9813C QUALIFIED LT-'7813D QUALIFIED LT-9823A QUALI F I ED LT-9823B QUALIFIED LT-9$23C QUALIF I ED LT-'P823D QUALIFIED LT-9113 QUAL IF I ED LT-9123 QUALIFIED NE-25-1 RENOVE FRON LIST NOTE 1 NE-25-2 REMOVE FRON LIST NOTE 1 NIS-25-1 REMOVE FROM LIST NOTE 1 MIS-25-2 RENOVE FRON LIST NOTE 1 NV-$7-2A QUAL IF I ED MV-87-2B QUALIFIED NV-87-3 QUALIFIED MV-87-3+SS TO BE QUAL I FIED NOTE 1 MV-87-4 QUALIFIED NV 12 QUALIFIED NV-88-13 QUALIFIED NV-88-1 4 QUALIFIED NV-88-15 QUALIFIED MV-88-16 QUALIFIED MV-88-17 QUALIFIED MV-$8-18A QUALIFIED NV-88-18B QUAL IF ZED NV-88-19A QUALIFIED

PA6E NO.

ST. LUG IE UNIT 2 ENV I RONNENTAL QUALIFICATION COMM I TRENT LIST NAY 28'983 TA6 NUMBER COMN I TNENT DATE NV-88-19B QUALIFIED NV-88-1 A QUALIFIED NV 1 A~ PB TO BE QUALIFIED NOTE 1 NV-88-1 B QUALIFIED NV-88-1B+PB TO BE QUALIFIED NOTE 1 MV-$8-3 QUALIFIED NV-$9-18 QUALIFIED NV-89-1 1 QUALIFIED NV-$9-12 QUALIFIED NV-89-13 QUALIFIED NV-89-14 QUALIFIED NV-89-9 QUALIFIED NV-14-18 QUALIFIED NV-14-18+PE TO BE QUALIFIED NOTE 1 MV-14-11 QUALIFIED NV-14-liwPB TO BE QUALIFIED NOTE 1 MV-14-1 . QUALIFIED NV-1 4- 1 2+ PB TO EE QUALIFIED NOTE MV-14-13 QUALIFIED.

NV-14-13+PE TO BE QUALIFIED NOTE 1 MV-14-14 QUALIFIED MV-14-14+PE TO BE QUALIFIED NOTE 1 NV-14-15 QUALIFIED NV-14-15~PE TO EE QUALIFIED NOTE 1 NV-14-16 QUALIFIED NV-14-16wPB -

TO BE QUALIFIED NOTE 1 NV-14-1T QUALIFIED NV-14-18 QUALIFIED MV-14-19 QUALIFIED NV-1 4-28 QUALIFIED NV-14-9 QUALIFIED NV-1 4-9w PB TO BE QUALIFIED NOTE 1 PDT-1111A QUALIFIED PDT-1111B QUALIFIED PDT-1111C QUALIFIED PDT-1 1 1 1D QUALIFIED PDT-1 121A QUALIFIED

PAGE NO. 18 ST ~ LUG IE UNIT 2 ENV I RONMENTAL QUAL I F I CAT I ON COMMITMENT LIST MAY 28'9'83 TAG NUMBER COMMITMENT DATE PDT-1 121B QUAL I F IED PDT-1 121 C QUALIFIED PDT-ii'21D QUALIFIED PDT-25-1 4A QUALIFIED PDT-25-14B QUALIFIED C PDT-25-1 BA QUALIFIED J PDT-25-1'PA QUAt IFIED PDT-25-24A QUALIFIED PDT-25-24B QUALIFIED PDT-25-25A QUAL IF IED PDT- . 5-25B QUALIFIED PDT-25-5A QUALIFIED PDT-25-SA QUALIFIED PDT-25-BB QUALIFIED PENET-Ai~SAB QUALIFIED PENET-A2wNB QUALIF IED PENET-AS+NB QUALIFIED PENET-*4wNB QUALIFIED PENET-A5~SB QUAL IF I PENET-A6wNA ED'UALIFIED PENET-A7+NA QUALIFIED PENET-ASwNA QUALIFIED PENET-A9wSA QUALIF ZED PENET-Bi%NB QUALIFIED

~ PENET-B 1 SANA QUALIFIED PENET-B2~NB QUALIFIED PENET-BS~NB QUALIFIED PENET-B4~SB QUALIFIED PENET-B5~NB QUALIFIED PENET-B6+NA QUALIFIED PENET-B7~SA QUAL IF I ED PENET-BS+NA QUALIFIED PENET-BP+NA QUALIFIED PENET-Ci+NB ,QUALIFIED PENET-C18+SA QUALIFIED PENET-C2+NA QUALIFIED PENET-C3+SB QUALIFIED.

PAGE NO. 1 1 ST. LUG IE UNIT 2 ENVIRONMENTAL QUALIFICATION COMMITMENT LIST MAY 28'983 TAG NUMBER COMMITMENT DATE PENET-C4~SB QUALIFIED PENET-C5~NB QUALIFIED PENET-C6+NA QUAL IF I ED PENET-C7~SA QUALIFIED PENET-C84NA QUALIFI ED PENET-C9~NA QUALIFIED PENET-D1~NB QUALIF IED PENET-D1$ %NA QUALIFIED PENET-D2+NB QUALIFIED PENET-D3wSB QUAL IF IED PENET-D5~MB QUALIFIED PENET-D6+NA QUALIFIED PENET-D7~NA QUALIFIED PENET-DS~SA QUAL IF ZED PENET-D9+NA QUALIFIED PENET-Ei wMD TO BE QUALIFIED 2/1/84 PENET-E 1 8+MA TO BE QUALIFIED 2/1/84 PENET-E2~NB TO BE QUALIFIED 2/1/84 PENET-E3+NB TO BE QUALIFIED 2/1/84 PENET-E4%NB TO BE QUALIFIED 2/1/84 PENET-E5wNB TO BE QUALIFIED 2/1/84 PENET-E6~MC TO BE QUALIFIED 2/1/84 PENET-E7wNA TO BE QUALIFIED 2/1/84 PENET-E8+NA TO BE QUALIFIED 2/1/84 PENET-E9+NA TO BE QUALIFIED 2/1/84 PENET-ELEP-1 QUALIFIED PENET-PLEP- iwNB QUALIFIED PT-87-4Ai QUALIFIED P T-87-4B 1 QUALIFIED PT-88-1 A QUALIFIED PT-88-1B QUALIFIED PT-88-3A QUALIFIED PT-88-3B QUALIFIED PT-88-5 QUALIFIED PT-89-18A QUALIFIED PT-89-18B QUALIFIED PT-89-18C QUALIFIED

PAGE NO. 12 ST. LUG IE UNIT .ENVIRONMENTAL QUALIFICATION COMMITMENT LIST MAY 28s 1983 TAG NUMBER COMMITMENT DATE PT-89-18D QUALIFIED PT-89-8A QUALIFIED PT-89-8B QUAL IF I ED PT-89-SC QUALIFIED PT-89-9A QUALIF IED PT-89-9B QUALIFIED PT-89-9C QUALIFIED PT-89-9D QUAL IF IED PT-1 182A QUALIFIED PT-1182B QUALIFIED PT-1 182C QUALIFIED PT-1 182D QUALI F I ED PT-1 183 QUALIFIED PT-1 184 QUALIFIED PT-1185 QUAL IF IED PT-1 186 QUALIFIED PT-1 18T QUALIFIED PT-1 188 QUALIFIED PT-2212 QUALIFIED PT-8813A QUALIFIED PT-8813B QUALIF IEQ PT-8813C QUALIFIED PT-8813D QUALIF IED PT-8823A QUALIFIED PT-8823B QUALIFIED PT-8823C QUALIFIED PT-8823D QUALIFIED PT-81 13 QUALIFIED PT-8123 QUALIFIED RD-26-3 QUALIFIED RD-26-4 QUALIFIED RD-26-48 QUALIFIED RD-26-41 QUALIF IED RD-26-5 QUALIFIED RD-26-6 QUALIFIED SE-82-8 1 QUALIFIED SE-82-82 QUALIFIED

PAGE NO. 13 ST LUC I E UNIT ENVIRONMENTAL QUALIFICATION COMMITMENT LIST MAY 28s 1983 TAG NUMBER COMMITMENT DATE SE-82-83 QUALIFIED SE-82-84 QUALIFIED SE-82-1~CM TO BE QUALIFIED 2/1/84 SE-82-2+CM TO BE QUALIFIED 2/1/84 SE-82-3wCM TO BE QUALIFIED 2/1/Q4 SE-82-4+CM TO BE "QUALIFIED 2/1/84 SE-$ 3-1A QUALIFIED SE-83-1AwCM TO BE QUALIFI ED 2/1/84 SE-83-1B QUALIFIED SE 1 B~ CM TO BE QUALIFIED 2/1/84 SE-$ 3-1 C QUALIF IED SE-83-iC+CM 'O BE QUALIFIED 2/1/84 SE-8'3-1 D QUALIF I ED SE 1 D+ CM TO BE QUALIFIED 2/1/84 SE-83-2A QUALIFIED SE-$ 3-2A+CM TO BE QUALIFIED 2/1/84 SE-$ 3-2B QUALIF IED SE-83-2B+CM TO BE QUALIFIED 2/1/84 SE-$ 5-1A QUALIFIED SE-$ 5-1B QUALIF ZED SE-85-1 C QUALIFIED SE-85-1 D QUALIFIED SE-85-1E QUALIFIED SE-$ 7-5B QUALIFIED SE-$ 7-5C QUALIFIED SE-87-5D QUALIFIED SE-87-5E QUAL ZF IED SE-87-5F QUALIFIED SE-89-2 QUALIFIED SE-$ 9-3 QUALIFIED SE-8'ss-4 QUALIFIED SE-$ 9-5 QUALIFIED TE-$ 7-3A TO BE QUALIFIED NOTE 1 TE-$ 7-3A~CM TO BE QUALIFIED 2/1/84 TE-87-3B TO BE QUALIFIED NOTE 1 TE-87-3B+CM TO BE QUALIFIED 2/1/84 TE-$ 7-5A QUALIFIED

PAGE NO. 1 4 ST. LUG Z E UNIT 2 ENVZ RONMENTAL QUALIFZCATION COMMITMENT LIST 28'983

'TAG NUMBER COMMITMENT DATE TE-87-5A~CM TO BE QU*LIFZED 2/1/84 TE-87-5B QUALIFIED TE-87-5B~CM TO BE QUALIFIED 2/1/84 TE-1 1 12CA TO BE QUALIFIED NOTE 1 TE-1 1 12CA+CM TO BE QUALIFIED -2/1/84 TE-1 1 1 . CB TO BE QUALIFIED NOTE 1 TE-1 1 12CB+CM TO BE QUALIFIED 2/1/84 TE-1 1 12CC QUAL IF I ED TE-1 1 12CCwCM TO BE QUALIFIED 2/1/84 TE-1 1 12CD QUALIFIED TE-1 1 12CD~CM TO BE QUALIFIED 2/1/84 TE-1 1 12HA TO BE QUALIFIED NOTE 1 TE-1 1 12HA~CM TO BE QUALIFIED 2/1/84 TE-iii2HB TO BE QUAL Z F I ED NOTE TE-1112HB~CM TO BE QUAL IF I ED 2/1/84 TE-1 1 12HC QUALIFIED TE-1 1 12HC~CM TO BE QUALIFIED 2/1/84 TE-1 1 12HD QUAL IF I ED TE-1 1 12HD~CM TO BE QUALIFIED 2/1/84 TE-1 1 15 TO BE QUALIFIED NOTE 1 TE-1 1$ 5~CM TO BE QUALIFIED 2/1/84 TE-1 122CA TO BE QUALIFIED NOTE 1 TE-1 122C*+CM TO BE QUALIF IED 2/1/84 TE-1 122CB TO BE QUALIFIED NOTE 1 TE-1 122CB~CM TO BE QUALIFIED 2/1/84 TE-112. CC QUALIFIED TE-1 122CC~CM TO BE QUALIFIED 2/I/84 TE-1 122CD QUALIFIED TE-1 122CD+CM TO BE QUALIFIED ~ 2/1/84.

TE-1 122HA TO BE QUALIFIED NOTE 1 TE-1 122HAwCM TO BE QUALIFIED 2/1/84 TE-11.2HB TO BE QUALIF I ED NOTE 1 TE-1 122HB~CM TO BE QUALIFIED 2/1/84 TE-1 122HC QUALIFIED TE-1 122HC~CM TO BE QUALIFIED ~~/1/84 TE-1 122HD QUALIFIED TE-1 122HD+CM TO BE QUALIFIED 2/1/84

PAGE NO. 15 ST. LUG IE UNIT 2 ENVIRONMENTAL QUALIFICATION COMMITMENT LIST MAY 28>1983 TAG NUMBER COMMITMENT DATE TE-1 125 TO BE QUALIFIED NOTE 1 TE-1 125~CM TO BE QUALIFIED 2/1/84 TE-3383W QUALIFIED TE-3383X QUALIFIED TE-3383Y QUALIFIED TE-3383Z QUALIFIED TE-335 1 X QUALIF IED TE-335 1 Y QUALIFIED TE-3352X QUALIF ZED TE-3352Y QUALIFIED TE-4428 QUALIF IED TE-4421 QUALIFIED TERMINAL-BLK QUALIFIED V1468 QUALIFIED V1468~CM TO BE QUALIFIED 2/1/84 V1461 QUALIFIED V1461~CM TO BE QUAI IFIED 2/1/84 V1462 QUALIF IED V 1 462+ CM TO BE QUALIFIED 2/1/84 V1463 QUALIFIED V1463+CM TO BE QUALIFIED 2/1/84 V1464 QUALIFIED V1464~CM TO BE QUALIFIED 2/f/84 V1465 QUALIFIED V1465~CM TO BE QUALIFIED ~/1/84 V1466 QUALIFIED V 1 466+ CM TO BE QUALIFIED 2/1/84 V1474 TO BE QUALIFIED NOTE 1 V1475 TO BE QUALIFIED NOTE 1 V1476 QUALIFIED V1477 QUALIFIED V2584 QUALIFIED V2585+LS QUALIFIED V2585%SOL TO BE REPLACED NOTE 1 V25 12~SOL TO BE REPLACED NOTE '1 V2515~CM TO BE QUALIFIED 2'/ 1 /84 V2515wLS QUALIFIED

PASE NO.

ST. LUG I E Utl I T ENV I RONtGENTAL QUAL IF I CAT I ON COMM I TMENT L I ST 28'983 TAG NUMBER COMMITMENT DATE V2515+SOL TO BE REPLACED NOTE 1 V2516wCM TO BE QUALIF I ED 2/1/84 V "516+LS QUALIFIED V2516+SOL TO BE REPLACED NOTE 1 V2522+LS QUALIFIED V2522+SOL TO BE REPLACED NOTE 1 Y2523wLS QUALIF ZED V2523~SOL TO BE REPLACED NOTE 1 V2524wCM TO BE QUALIFIED 2/1/84 V2524+LS QUALIFIED

'2524~SOL TO BE REPLACED NOTE 1 V2553 QUALIF I ED V2554 QUALZF I ED V2555 QUALIFIED V2658+SOL TO BE REPLACED NOTE 1 V265 I+SOL TO BE REPLACED NOTE 1 V3456 QUAL IF IED V3457 QUALIFIED V3488 QUALZF I ED V3481 QUALIFIED V3495 QUALIFIED V3496 QUALIFIED V35 17 QUALIFIED V3523~SS TO BE QUALIFIED NOTE 1 V3536 QUALIFIED V353'P QUALIFIED

. V3548wSS TO BE QUALIFIED NOTE 1 V3545 QUALIFIED V3558+SS TO BE QUALIFIED NOTE Y3551~SS TO BE QUALIF I ED NOTE 1 V3571+CM TO BE QUALIFIED 2/1/84 V3571+LS QUALIFIED V357 1+SOL TO BE REPLACED NOTE 1 V3572+CM TO BE QUALIFIED 2/1/84 V3572+LS QUAL I F I ED V3572+SOL TO BE REPLACED , .NOTE 1 V361 1+LS QUALIFIED

PAGE NO. 17 ST. LUCIE UNIT 2 ENVIRONMENTAL QUAL IF I CATION COMMITMENT ~

LIST MAY 28 1983 y

TAG NUMBER COMMITMENT DATE V361 1~SOL TO BE REPLACED NOTE 1 V3612+LS QUALIFIED V36 12+SOL TO BE REPLACED NOTE I, V3614 QUALX F I ED V3621~LS QUALIFIED V3621~SOL TO .BE REPLACED N6TE 1', ~

V3622%LS QUALIFIED V3622+SOL TO BE REPLACED NOTE 1 V3624 QUAL IF I ED V3632<<LS QUALIFIED V3634 QUALIFIED V364 1+SOL TO BE REPLACED NOTE 1 V3642~LS QUALIF IED V3644 QUALIFIED V3651 QUALIF X ED V3652 QUALIFIED V3654 QUALIF I ED V3656 QUALIFXED V3658 QUAL IF I ED V3659 QUALIFIED V3668 QUALIFIED V3661%LS QUALIFIED V3*61 ~SOL TO BE REPLACED NOTE 1 V3664 QUALIFIED V3664~SS TO BE QUALIFIED NOTE 1 V3665 QUALIFIED V3665~SS TO BE QUALIFIED NOTE 1 V3733 TO BE QUALIFIED NOTE 1 V3734 TO BE QUALIFIED NOTE 1 V3735 TO BE QUALIFIED NOTE 1 V3736 TO BE QUALIFIED NOTE 1 V3737 TO BE QUALIFIED NOTE 1 V3738 TO BE QUALIFIED NOTE 1 V3739 TO BE QUALIFIED NOTE 1 V3748 TO BE QUALIFIED ~ NOTE 1 V5288+CM TO BE QUAL IF IED ';2/1/84 V5288~LS TO BE QUALIFIED 'NOTE 1

PAGE NO ~ 18 ST. LUC I E UN I T 2 ENVI RONNENTAL QUALIFICATION CONNITNENT LIST 28y19S3 TAG NUNBER CONNI TRENT DATE V5288+SOL TO BE REPLACED NOTE 1 V5281%CN TO BE QUALIFIED 2/1/84 V5281~LS TO BE'UALIFIED NOTE V52$ 1+SOL TO BE REPLACED NOTE 1 V5282~CN TO BE QUALIFIED 2/1/84,.

V5~82~LS TO BE QUALIFIED ~

NOTE 1."

V5282~SOL TO BE REPLACED NOTE 1 V5283+LS TO BE QUALIFIED NOTE 1 V5283wSOL TO BE REPLACED NOTE 1 V5284%LS TO BE QUALIFIED NOTE 1 V5284wSOL TO BE REPLACED NOTE 1 V5285~LS TO BE QUALIFIED NOTE 1 V5285+SOL TO BE REPLACED NOTE 1 V5795%LS QUALIFIED V5795%SOL TO BE REPLACED NOTE 1 V5796wLS QUALIFIED V5796+SOL TO BE REPLACED NOTE 1 V634 1 ~LS QUALIFIED V634 1 ~SOL TO BE REPLACED NOTE 1 V6342~LS QUALIFIED V6342+SOL TO BE REPLACED NOTE 1 V671SwCN TO BE QUALIFIED 2/1/84 V6718+LS QUALIFIED V6718~SOL TO BE REPLACED NOTE 1 V6741 MLS QUAL IF IED V6741%$ OL TO BE REPLACED 'OTE 1 V6758+LS QUALIFIED V6758+SOL TO BE REPLACED NOTE 1 WCSF-N TO BE QUALIFIED 2/1/84 ZS-25-11 QUALIFIED ZS-25-116 QVALIFIED ZS-25-117 QUALIFIED ZS-25-118 QUALIFIED ZS-25-119 QUALIFIED ZS-25-12 .QUALIFIED ZS-25-128 'UALIFIED ZS-25-121 QUALIFIED

PAGE NO. 19 ST. LUC IE UNIT ENVIRONMENTAL QUALIFICATION COMMITMENT 'IST, MAY 28 1983 s

TAG NUMBER COMMITMENT DATE ZS-25-122 QUALIFIED ZS-25-123 QUALIFIED ZS-25-13 QUALIFIED ZS-25-14 QUALIFIED ZS-25-15 QUALIFIED ZS-25-16 QUALIFIED ZS-25-17 QUALIFIED ZS-25-18 QUALIFIED ZS-25-19 QUALIFIED ZS-.5-36 QUALIFIED ZS- 5-37 QUALIFIED ZS-25-38 QUALIFIED 28-25-39 QUALIFIED ZS-25-4 QUALIFIED ZS-25-:48 Jf QUALIFIED ZS 25-41 QUALIFIED ZS-25-42 QUALIFIED ZS-25-43 QUALIFIED ZS-25-44 QUALIF IED ZS-25-45 QUALIFIED ZS-25-46 QUALIF IED ZS-25-47 QUALIFIED ZS-25-52 QUALIFIED ZS- 53 QUALIFIED ZS-.5-54 QUALIFIED ZS-25-55 QUALIFIED ZS-25-6 QUALIF IED ZS-25-8 QUALIFIED ZS-25-92 QUALIFIED ZS-25-94 QUALIFIED ZS-25-95 QUALIFIED NOTE 1 - COMMITMENT TO BE COMPLETED EY THE END OF'HE FIRST REFUELING OUTAGE

O.

FACILITY: ST LUCIE UNIl'Z UTILITY: FLORIDA PO'HER 0 LIGHT A/E. EBASCO SERVICES NSSS: COHBUST ION ENG CAPACI TT. 890 Hf (E) TYPE PHR JUST IF ICATION FOR IHTERIH OPERATION EOUIP T YPE ~ VALVE OPERATORS EO DOC PKG: 3 3 SUPPLIER'AJOR ACF INDUSTRIES SPEC: 110 HANUFACTURER ASCO PO NUHBER: 422550 QUALIFICATION STATUS: DI-JUSTIF IED FOR INTERIM OPERATION TAGS I HODEL/SERIAL COHPONENT 10 588 CATI I I I FCV 23-3iSOL I HT8302C26 SOLENOID I A I I I FCV 23" 5+SCL I HT8302C26 SOLENOID I A I I I FCV 23"6*SOL I HT83CZC26 SOLE NO I D I A I I I I FCV-25-1+SCL I HTX-8331A45E SOLE NO I D I A I I I I FCV 25-2+SOL I HTX-8331A45E SOLE NO ID I A I I I I FCV 25-3+SCL HTX 8331A45E SOLENOID I A I I I I FCV 25-CiSOL I HTX-8331A45E SOLENOID I A I I I I FCV 25-5+SOL HTX-8331A45F. SOLENOID I A I I I FCV 25-6ISOL I HTX-8331A45E SOLENOID I A I I I HCV oe-1AaSOL I HT8321A6( 3EACH) SOLE HOID I A I HT9321AP(3EACH) I I HCV 08-18+SOL I HT8321A6( 3EACH) SOLE NO ID I A I HT8321A6(3EACH) I I HCV 1C-1+SOL I HT"8321A6 SOLENOID I A I I I MCV 14-ZaSOL I HT-8321A6 SOLENOID I A I I I I HCV 14-3A~SOL I HT-8316C15E SOLENOID I A I I I I HCV-14-38+SOL I HT-8316C1 5E SOLENOID I A I I I HCV 14-60SCL I HT-8321A6 SOLENOID I A I I I HC V-14-7 ~ SOL HT-8321A6 SOLENOID I A I I I I HCV 15-1+SOL I HT8302C26 SOLENOID I A I I I HC V 18-1 + SOL I HT8302C26 SO(. E NO ID I A I I I HCV 3618+SOL I CE NHV202-303-1 SOLENOID I A I RF I I HCV 3628 ~ SOL I CE NHVZOZ"303" 1 SOLENOID I I I RF I I

TAGS

. NOD ELI SE R I AL CONPONENT IGS88 CATI HCV 36380SOL CE RH V202-303-1 SOLENOID RF HCV 36C84SOL CENHV202-303-1 SOLENOID RF V25050SOL CE NHV202-303-1 SOLENOID Rf V25120S OL CE1HV202 303-1 SOLENOID RU V25154SOL HV202-303-1RU SOLENOID V25'l60SOL CERHV202-303 1 SOL E No ID Rf V25220SOL C E NH V202-303-1 SOLENOID RU V25230SOL CERN V202-303-1 SOLENOID RU V25240SOL CE RHV202-303-1 SOLENOID Rf V26500SOL CEIHV202 303-1 SOLENOID RU V2651*SOL CE RHV202-303-1 SOLENOID RU V35'71*SOL CE RHV202-303-1 SOLENOID RF V35720SOL C E'H V202-303 1 SOLENOID RF V3611*SOL CE RH V202 303-1 SOLENOID RU V361 20S OL CE RHV202-303" 1 SOLENOID RU V3621 ~ SOL HV202 303 1RU SOLENOID I

V36220S OL CENHV202-303-1 I SOLE NO ID RU I V36414SOL CENHV202-303-1 I SOLENOID A I RU I I V36610SOL CE RH V202-303-1 I SOLENOID VALVE A I RU I I V52000SOL MJ-HB-8300 81RF I SOLENOID VALVE I

V52010S OL MJ HB 8300-81RF I SOLENOID VALVE I

V52020SPL, MJ-HB-8300 81RF I SOLENOID VALVE I

V52034SOL MJ-HB-8300-81RF I SOLENOID VALVE I

V52040SOL MJ-HB-8300 81RF I SOLENOID VALVE I

V52050SOL MJ-NB 8300-81RF I SOLENOID VALVE I

V57954SOL HV202-303-1RU I SOLENOID I

V57960SOL HV202-303-1RU I SOLENOID I

V63414SOL HT8321A5 I SOLENOID I

TAG 5 I NOD EL/ SE RIAL I CONPONENT I 0588 C AT I I I I I V63420SOL I HT 8321 A 5 I SOLENOID A I I I V67180SO!. I PT 832CA173 I SOLENOID I A I I I I V674105 OL I HV202 303 1RU SOLENOID I A I I I I V67500SOL I PT 8320A173 SOLENOID I A I I I I COR ACTION I JUSTIFIED FOR INTERIN OPERATION I

I ALL ASCO NON-NP SERIES SOLEIIIOIDS 1JILL 8E I RFPLACED PRIOR TO START-UP AFTER FIRST REFUELING ~ ALL THESE VALVES HAVE HAD AN ANALYSIS PERFORl'ED ON THE IR FUNCTIONAL OPERAT ION TO PROVE THAT THEY El THF R FAIL IN THEIR SAFE POSITION OR CAN I4ITHSTAND THE POSTULATED ENVIRONNENT THESE ANALYSIS ARE CONTAINED IN QUALIFICATION PACKAGE 3 2

Page I of <<

PACKAGE << 3 '

MAJOR SUPPLIER ASCO PURCHASE ORDER <<Various NCR << Not Applicable DESCRIPTION: The ASCO solenoids supplied to St Lucie Unit <<2 are either the NP or H series solenoids

REFERENCE:

Asco letter to Ebasco dated February 14, 1983 "HT Insulation System" RESOLUTION:

The NP series solenoids are qualified as part of Documentation-"package 3.2.

The test report submitted by Asco to qualify thi series of solenoid is

<<AQR-67368/Rev. 0 dated March~1982. The environmental parameters of the test report envelope the St Lucie Unit <<2 specific parameters for worst case environments. For St Lucie the specific profiles are shown on pages 8 & 9. The test profile used by Asco for qualification is attached as page 10. It can be seen by comparison of these profiles that the St Lucie Unit <<2 conditions axe enveloped by this generic curve. All parameters tested to by Asco are shown on pages envelope all St Lucie Unit <<2 ll parameters and 12 of this justification, they of concern.

he remaining solenoid valves are Asco "H" series solenoids (HT, HB, etc.),

a commercial grade solenoid with class H coil insulation. The Class H insulation system of the solenoid is an Underwriters Laboratories recognized component. Such insulation systems are evaluated in accordance with the Standard for S stems of Insulatin Materials General, UL 1446.

The latter standard, UL 1446 is also an American National Standard. This standard identifies as its basis several standards of the Institute for Electrical and Electronic Engineers. The following standards are spec-ifically identified:

A. General Principles for Temperature Limits in the Rating of Electrical Equipment, IEEE No. 1-1969; B. Guide fo the Preparation of Test Procedures for the Thermal Eval-uation nsula on tems for Electric Equip ent IEEE No. 99-1970; Engineer Date + ~ J Checker Date 4 55

C Guide for the Statistical Analysis of Thermal Life Test Data, IEEE No.

101-1972,or 101A-1974; Standard Test Procedure for Evaluation of Systems of Insulating Materials for Random-Would AC Electrical Machinery, IEEE No. 117-X974; E. Proposed Test Procedure for Evaluation of Systems of Insulation for Specialty Transformers, IEEE No. 259-1974.

As a long term solution, these valves are being replaced with qualified solenoids of the Asco NP Series. Pending replacement, these valves may be considered qualified for interim operation due to the fact that 1) their thermal properties indicate a high'evel of confidence that they will have accomplished their safety function prior to environment induced failure, and

2) the valves are designed to fail safe.

A discussion of the operability and failure consequences follows:

OPERABILITY The solenozds are used to close isolation valves and are required '

operate upon generation of Containment Isolation Actuation Signal (CIAS). Valve closure time for the non-NP series containment isola-tion valves has been conservatively estimated at 5 seconds maximum post DBA (FSAR Table 6.2-53). At this time, the composite MSLB/LOCA temperature profile will have reached only 300oF ~ The class H insulation system of the solenoid is suitable for continuous oper-ation at temperatures of 180 C (356oF). Manufacturer's data (attached) identifies and 80 C temperature rise due to self-heating of the sol.

enoid during continuous operation. As a first order calculation, the class H coil can be expected to function continuously in ambient temperatures of at least 100oC 212oF). Based upon the thermal mass of the solenoid brief temperature excursions greater than the 100 C ambient, should have no deleterious effect. Therefore it is reasonable to assume that, at the time the safety function of the solenoids has been completed, the coil temperature will not have exceeded its limits.

Further evidence of the ability of these valves to resist the high temperature, as well as the high radiation level, of a DBA, is the fact that the same materials are used in the solenoid coil for the non-qualified valves as for the NP series valves. These coils were shown to be qualified for 2xl08 rads total integrated dose as well as the St Lucie Unit 2 LOCA/MSLB temperature and pressure transients.

FAILURE CONSEQUENCE ANALYSIS These solenoids are utilized in two constructions; normally open and normally closed. Application is such that the de-energized position of the solenoid pilot valve results in the safe position of the controlled valve. It follows that any postulated failure of the solenoid while in the de-energized state will result in a safe condition of the con-trolled valve.

Westinghouse conducted a failure mode and effects study on solenoid valves designed to operate in the above manner. This Westinghouse Report (No. NS-CE-755) evaluated loss of air supply, electrical fail-ure in the solenoid, environmentally-caused degradation of materials of construction and plunger binding due to thermal expansion of the plunger to the core. The Westinghouse Report (No. NS-CE-755) concluded that there is no failure which could prevent these valves from perform-ing the required safety function.

A detailed Failure Modes Effects Criticality Analysis (FMECA) is shown on pages 14 through 19 of this justifications for specific tag numbers.

In summary, these solenoid valves are expected to perform their required safety function, so interim plant operation is justified. Additionally, these valves are being replaced by qualified Asco NP series solenoid valves.

MSLB TRANSIENT Asco pilot valves for the MSIV (HCV-08-1A and HCV-08-1B) may be required to function post MSLB. There is a high level of confidence that the.se valves will complete this intended function.

The insulation system of the HT valves incorporates the same electrical insulating materials as the IEEE-323-1974 qualified NP series valves.

This is confirmed by Asco letter to Ebasco dated February 14, 1983. It follows. %hat the LOCA qualification testing in Asco report AQR-67368/RO applies to the HT coil insulation system. Mechanical components within t.he valve are fabricated from polymeric materials including Acetal and ia N. In common fabrications Acetal has a deflection temperature under (orad of at least 198oF and melting temperature of 175oC (reference Modern Plastics Encyclopedia 1982-83). Buna N (Nitrile) has an actuation energy of 0.86 and use temperature up to 70oC (reference EPRI report NP5158, P B-6).

Based on the material temperature ratings the valves are considered suitable for use in the normal operating environment. The DBA scenario of concern is MSLB. Herein brief temperature transients up to 320oF are postulated.

Due to the short duration of the transient and the natural thermal lag is a very high confidence that the pilot valves will complete their safety function.

In view of the above analysis the Asco HT series pilot'alves are considered Justified for Interim Operation until first refueling. At that outage they will be replaced with the IEEE-323-1974 qualified series NP valves.

0

~ 1 s e~ m m tera m &woe 1 OAT 10

~ .. ~ ~

fLQItlQI PQOf I C LIQ4t COQPAllV ST, LUQf ASLANT VIVAT l g(gals iC Caaeoy>r toca esLS FIGURE l0 l

~ Oy Q ~

~0 g

a I Tbf m ee CO'e Tb TeOe TeOOO e' 1 YKAh

.m+ bavi TAtt SECS fLORIOA PO+FR A L<CHT CON'AffT 5T, LOCI/ iLNlT fffffT l LOCA 4 ff5Lb TOTAL ~tumfvf PNt5%fR'f FICVRK O fP5Cl

ni vtrvtc I+4 ff/gGROUP [I(IQ/IPP/8 gIgg+

I TI@

4 4 <<4480\0 e

lg OOAfWH <<<<<<0 8 wag ~ cieiIaP>,.r 4ZOS/CZPSTG 442+WPSIG 4ZZ S/<4PSTS 45d +44's/G 44OP/44PSTG . 448'F/4SPsIG 435'p/GapsIG psTG r alai/sw pcs PS'so'p/zo 38op%@

ps's5 p/4spsIG aao p/aa ps

SI8 P/IZPSIG aso Z8OZ/ZWPSIG

'4 Z~a~/Z~PsI8 900 aaop/42psIG aaap/c psIG 854'F/7CF ZSO , 385 8/ZOPSIG gOO

~ I4OP/O PRIG~

CIIIMICAL CNBH/CAL SPLAY Cl.FrfAF WA7Eg SPi&t V

]aa 0 I040 2 0 3 S 6 t040294rOIZ ZIZ94S IO IZ

)SEC+hffHVTCS ~HOtllS ~SEC+MINITES+ 9 IZ HOOPS I0 Swats 7/ME 4r'C'TUAL TEPIPZRATURE/PRESSURE PARA+PETERS FCR 6'A'DUP Z[IOC//HEIB S/kIUIQTIOAI C

FZSuZZ 4. z

TABLE 5.2 SUHHARY OF HAJOR TEST PARAHETERS ANO UALIFICATION LEVELS OEHONSTRATEO TEST PHASE TEST PARAHETERS UALIFICATION LEVEL Thermal Ag 1 ng S 1 mul at 1 on 18-1/4 days tn a 8 year minimum life (REF: Report Section 4.1.1) 250 F amb lent 1n a 140'F amb 1 ent.

Refer to Appendtx C for more speci f tc 1n format l on.

Mear Aging Simulation 20,000 cycles 20,000 de-energize to (REF: Report Section 4. 1.2) energize to de-energtze cycles. Refer to Ap-pendtx C for more specific information. I Pressur fzatfon Aging Fi.fteen Ambient 15 containment pres-5 imul at on 1 Pressure Excurstons sur tzat lons to 80 pslg I (REF: Report Sectton 4. 1.3) to 80 pstg max.t mum.

Radtatf on Aging Sfmul at ton 23 megarads of gamma 20 megar ad maximum dose (REF: Report Section 4.1.4) radiation of nonaccfdent gamma rad at fon.** Refer to 1

Appendtx C for more speci f fc tnformat fon.'yptcal Vfbratfon Agtng Simulation 5-200-5 Hz sweeps at plant tnduced (REF: Report Section 4. 1.5) up to 0.75g for 90 vibration for 1 fe of1 minutes in each of the valve.

three orthogonal axes Seismic Aging (OBE) Stmula- Two 1-35-1 Hz sweeps at 5 typical operating basts t ton up to 3g tn each of earthquakes with up to Q (REF: Report Section 4. 1.6) three orthogonal axes peak acceleration.

~ 0 ~ ~ ~

~ 4 A 0 0% ~

~ ~ 4 he ~ ~ ~

TABLE 5.2: -contfnued-TEST PHASE TEST PARAMETERS lJAL IF ICATION LEVEL Sefsmfc DBE (SSE) Simulation Single frequency sine beat A typical safe shutdown (REF: Report Section 4.2.1) exposures at up to 15g at earthquake wfth up to 38 frequencies from 1-35 Hz 13.5g peak acceleration.

in each of three orthogonal axes Radiation DBE Sfmul ation 182 megarads turee of gamma 163 megarad maximum dose (REF: Repor t Sect fon 4.2.2) radf ation of accident gamma radfa-tfon.+*

Environmental DBE Sfmulatfon 30-day LOCA/HELB simulation Temperature prof 1 le as (REF: Report Section 4.2.3) with a peak ambient tempera- shown in Figure 5.1 and of 420'F and a peak amb1ent pressure .up to amb 1 en t. pres sure of 70 ps 1 g 63 psfg.

• The qualification levels listed generally fndfcate the maximum levels of qualification demonstr ated by this program and, therefore, may.not be appl1cable to all Catalog .NP-1 valves covered by this program (Refer to Table 5.3). Margin levels as described 1n Ap-pendix G to this report have been considered and appl fed, where appl fcable, to the 1n-dicated test levels.

• • In plant locations where the nonaccfdent radfatfon dose will not reach 20 megarads, 90%

of the excess aging level may be app11ed to 1ncrease the qualff1ed accfdent level ('to 181 meg ar ads max fmum) .

CLASS h CLASS H (]SO'C.)

(105'C.). CLASS B (13ts'C.) AND NON MOLDED COILS CLASS F (155'C.) ~ ~

MOLDED COII.S --h;ax or iso~tea Isotnica---

c Epoay Enca psulalion

~

Notnfi or tntotla7of Insulatiofl

, h~ga ~ ~ i Ifnptofnalt!I Tuba

--Si!icosa Rubber

@annot Wite G!ass Cloth Outctvtfap Coul.tc Le'." Yt'tte

%!ass A an."B-130'C ot batter m'.:i 600 Yo',I-203'C.

Class F 200'C. of hetter UI, and CSA Listed Arnot Wite r 2(ID'C. or better UL and CSA listed Sigcono Vafnish iuUS PROOF i--600 Yolt Ifnptognation Leads

!STORE PRDOF a e ~ e Bobbin

~ INTERLAYER CONSTRUCTION ~ RADIATION RESISTANT IER OPERATING Class A N7lon or Po!71ulfone fGE FOR C!ass Bl ~ FUNGUS PROOF ~ WIDE OPERATING RANGE Eposy of Poiysutfona ISS 8 AND F COILS Class F j following table IIIustfatos the lempotatufe Pafametets of ASCO TEMPERATURE LIMITATIONS-'NDTHERMAL Col!L'STRIAL RACTERISTICS OF ASCO SOLENOIDS AND COILS Ciatl "K"Umlt Stats Of $ 0!L fhsuIAfiaw

~

<<4'htf save, "F" Ufolt 'lass aliis a% aioal tlass "l" 0 1 Tt ~ lttltvtt sist Oat fl tthtt laavL LIfalt Clan "l" tsstss af ttafo Oat Llsalt aifstt ftvtt ot loi tsf fthattafvtasfal TEMPERATURE RISE FROID POWER

~ r at 1tftst (D As ihttsv K af fhc -atsfstshtc atctha."

~ a ~ .ga . ID tcv 4 t. I ts'.tc lf ch l. 'hi ft>at'stvtt of as'c clh

~ ~ ~

Ot C'ift0tt th ttl"tl 44'c lttli h>tent fat 4th tht fttrattstvtc NORMAL ROOM hMBIENTID ~ ttssitstttf IC A..'ht ut'lttitrtts stt cut fif occtftrt fo cotf till~

fir!4 ftttattttvrct Ott hOL FF HT HS HP Operating voltage ranges than shown at. left. a volt-amp "holding" different coil or insulation systemmust AMpS age Ranges . be used. (HOLDlAG) voltage oils are designed for industrial ting voltages and can be used Power Consumption Valves supplied for D-C service have

follov ing voltage rangest Power consumption of solenoid valves no "inrush" current. as in the case may be determined from shc rating of AW service. The amp rating can in ASCO bulletins. For valves on A-C be determined by dividing the volt-service. the uatt rating. the volt- age into the D-C uatt rating.

St thill Oat tat its assai ttt h ittl vtusfc asttha Stsihaf Olttiuha assai ampere "inrush" and the volt-am-pere "holding" are given.

uatts (~)

Ls voltage a 5.1 The volt-amp (VA) "inrush" is the sa Ioa tak high momentary surge of current ht'u!e: (l) When a valve has been cner-aa 10 as uhich occurs at the moment an AW gited for a Iong period the solenoid en-lao Ior us solenoid is energized. cl>>hule becomes hot und cannc: be iso 1st zsa t>>uehid by hand csccpf for an instant.

The volt-amp (VA) "holding" is the, This is a pcrfcctl> safe operating tcm-raitl, O C lrl aSO rottl, O C ltt Olnttf rt!Itfta continuous rating after the initial pcralufe. Any exec>>is<<heating will be ttCuito SatSiai Cshattvff Oh. COhauil lSCO fat "inrush."

~ IIL indi<<aicd by the smol.ing and burning The current rating for the "inrush" odor of lhe coil insula tiun.

AS tt 4,

'dcr 'alves are tested to op-the nominal volt-4 aimum o jcrating pres and "holding" may bc determined by dividing the voliabe into the volt-amp rating (2I Vahes for AW service can be con-ieffcd for uhc on other A< ssttfagcs sifnpl> by changing the coil: similarly, D-C'alses can hc ctinvcrfcd fof other iffcrential, and are eapal'.lc of .Ala(Pts volt-amP "inrush". D-L attifagcs. lvhun consorting trom A-C

,ng for short periods at l0f,"o (l!v'RVSH) to f)Z or aicc acrra. Consult ANCO for ic nominal volt;fgc. For wider voltage iaarucfiuns.

ASCO Yalves

'Rtvlirls(

unii v<r tn Rrv!t<<Shr'r c<-iEO Iinckn>>f.

Fs ~ r<<tr Fffn t and C co ie it Anw) nle

~

ot"I d a<r')

. ~ Il)wt "

Fgu I parnt CES/ Fsfil t Fntnnt I al itra Tr<R Roe Rnv I CW) Sltuat'Inn Inr: tl flcntlon Fnult Ef I'nrte Coaprnast)on or Rrnolutlcfn RNID))

CATe Rna<nrla 1>> FCY-2~ Ffr)o/

Rev 2 .

.319/

Rrv 6 NSIAI )OCA FloodlnC Feel)elr<<of the P) lot Sn)ecto)d A) Vnlvr fnllllre to clone ltnrfanl vnlve funct)on )e tn c)n..<<on lo<<prr <<>>

I 1~ t)cv>> 2)e Sub>><err rnce

~ T)a<e to Ynlv<< 15 a)n>>

sure of prie<wry lnop utco ~

8) Yn)vc failure ('I.r>> IOCA) ~ Y<<\ve

~

tn os.n fn)lure <<r<<lo )s closed t>> I'rcnrnt t)>>nt desire C) Sutaanrr',nnrn nt (I.e, ~ Fal) Swfr) ~ ln sr:ceptnhle, <<)thout chnnrr- Fs)lurr non>>

llvc t<<<r tn Thrrr ln no nerd to re>> crltlcnli tr r!nnn t on c

oc'c, ornn v" lvn fo) lo<<lnC of Inr.u)r tiler. pcstu)<<ted events>> 3, Rnfct to rrn<ir'Ic a<ntnr In) s <any analysis of pilot dcprsdo class C) <fhr Cnf<nnl vatlvO tlal ~ ei lrno)d vr lve

)E ~ ) e'ctt'leal fnl flnO<t lrVnl tO +allure aodci al<pp) y syr tee>> rr "ch v<<lvr ln 15 lain>> lt<;ferrncr SRS l0)>>2<<k>>

utr n>> Trit>>) nnnrnbl1 Ity ol'he valve Ia ie )vr.onnt construct lot) le rn thnn ) falnute>> sccrrtnhf ~ to terri<<go Vs ) ve fn) 1 urr r<<nd e 1 tl Intnnded funct)on, thnn 'Into dralrrd Failure non-crl t Ical ~

ponl tlnn>> Deil )rated funln". fr r ench )rc of the l."5 Y DC nupp)y prrvrnt<<prop<<ration nr.nny elrctr)cal f<cult eelih)n the orllenold to derrnde the lE bue.

FCY>>2+ '20rc0/ )19 Sr<lee ae Sr<fee aa Fr<<vl- See<ac ee prev)oue Scree ah )vevlouh Y<<lve Seat ae Frev)oua Ynlve Rev 2 Rev 6 Pre<vloue ouh.Valve Ynlve Valve

)All 2h2/ Fo)lure of the fal)ure A) )tor<N<) vnlve function le 1~ R>>fnr tn nnrin: ~

1 V IISLR LOCA A) Valve 3>>

(I')lot for Itev f )'1)ot Solenoid to clooe to oprn nn<t pere<)t f))ling tin. ]Ye<11 Cf telvc f int

~

of the SIT>> On SIAS the sr)metr<

~

) SE 03>>

]R)

Valve R) Vn)ve fsllut ~ pilot vn)ve le de<<encr- Inl)"nt t ~ .'c, to ntwn R)and to close>>

2>> ln pte ni'fl ~ ~ ~ <~<

5) Fr<I)urn norte of vnlve la rnnntri<CII in It ~

C) Dcfrsrtntlon close<I ~ Yhcrr lo no rn- lii I fe'r<<<s th< Int>>:i<<

of electrical rtu!rrr>>nnt to refill thr rfi d I <<<le Ir n. F- ~

Inliu)a I!cel SIT <lurlnr.

RSI.R or lOCA.

ot'ftrr ofe ln Cr<l.I<Intr l f<nn<<cr I 't ) c'il >>

~ <

c) Dn<t)cntnrt f<lnlnr. (fA) rot' li h le>> nf thr )PC Y DC supnt v prnvr nto prof>>l~ <-

l Inn or )rctr)cn) fsult e

tn nlhrr el<<os lK <<<)l<lp a<tn t ~

Su c rntn Rrv)rcc She MI>> 1 neltl ~

'I~ l0l P-t I

~

ldaIC'lot Ll~ht lpof6 Fnll ..ndo Effrrta AM~Ct +teal) tx Anal~an P>>Iul parnt CES ~ Fault Potttstl ccl IIURI5 iten Tih llo>> htv E CNI Sltuntlnn ldnntl f eatlcvl 1 Fault Sffrcte Coatcnaat) cNI ot heoolutlon CAt. breathe V 'IAPL Sane aa Sano ne nbove Snae ns nbovr Sane ae abave b Sm>>e ao above (Pilot fot hbove I-SE 0) ~

1A) ~

V '3('}1 (I llot fot 1 SEOUL lc)

V 'IIckl (O'I lot for 1-SE-O)-

10)

FCT>>t 54 Ob61 512 NLS LOCI Failure of A) Volvo fn')lute A) Rntnal v~lve flmetlnn, 1, Rrfrl'o rcnrrlc her t hev 6 Pilot Vnlve Solenoid to clone Is fnr laolrtlnn of RCR pulrr. Ynlvr In nn~lyrla nf pilot anlrnold valve fnile b) Valvs fnllute enlnt~ lnrd rnc tr ltrd ul ~ aodr>>

to open open. On C'lS thr vnlve elnccre, Failure>>code of t>> ln prrrcnt plnnt C) Dcrrndatlnn of vnlvr la cloned (Fall cnnstructlnn lt prtfoma thr lntcn~

elcctl leal ln~ Snrr.).

nulnt 1 on drd funntlcm, fall Thrre la no trclnlte ul'e la enclaldrl'I'd rcrnt to trnpcn the vnlve nonMtlt leal ~

fo]1o>>clnr, an accident, C) D dlr~tcd fur'Inh (6A) fnr rneh lrg of thn 1"C Y fCnupply pre vcnta pcvinnretion of c lcetl'l cal frIIlt to othel elnse IE equi(>>acnt I

~ I I ~

i t nr e>> n'a,J 'I;O Itok Dna~ g','+4 t,l~

Florl n )r 4 LIFht Vn 16]'6 a >>* Nnrle Effects and callt A al <<ls Foul]eicnt CFS/ Fault I'ntrntla 1 RUhlIO

]too Tnp No, Rer f QCI .Sltustlcn ident]f ]cation 'Fault Effects Cmpensatlon or IIesolut ion Cht. Reearlrs T 36]1 1692/ 270/ Flood le 1> Rotor Opere 1, kiotnr Operator g) ]hir lnb all npcratlnr. Vrcni'nt p]unt se elm rncllltntes proper snd tor Insulator nnn-opi rat lve, vio li;n evcent ahutdmm Rer 2 . Rev $

. the brinkir ls locked necessary npnMt]on of Fs] lureo Over]oii] or open tn assure vnlre>>lll the Ya]vi; r 16]4 ~

hrnnch Clrcult rii nln ln the i]es]rcd 'the w]nlsuvi t]as for

?70/ 2< L]alt S>>itch< Trip. <<Arnn pnaltlnne ]ntcr~ flood>>stir to rc:ich Rer 5 locli clrcult ls outs]de the ?3']nv, ls Rreatet cents]neient nnil nnt sub~ than lb silnuteei 255/ 3, posit]on Feed .lect to f]ond]nba Rer 3 bock Potent]ca eterne Dur]nr shutdo>>n aodo

>>hcn pr]anry loop pri n sure Is unili.r 6no I'S1h, the breaker ls enerrlved, Should s transient occur couslnR prcnaur]ver In'es cure 'Increase or other.

S]hA e]dna]i ths vn]ve

>>111 npnn ]iuiiedl<<tn]y, The ]h i<<Inute tlso avsl]<

ab)e before flood level re~ches elerl 23's sufi']c]enti Y 36?l ]695/ 269/ Sai<<e ss Sine ss Previous Sane ss Prerlous S<<so ns I'rsvlous T<<lve b Sass ns Irnvloun T )vi.

Rev 2 Rcv 5 previous Ynlve Yslvs Ya]ve T-36kb 1700/ 272/ Saae ss Sihsn as prerlous Saae ss previous Saiae an previous Tnlre b Siwe ns Irevlnuo Tnlvn Rov 2 hev 5 Iecvlous Yslre Valve Ynlve fal liirs Thn lntso>>n sti p va]vn ls b E]cent]nn ]II ft tlsc Fnl]ure of the h) ra]va to su]werrnnce ~

Jh Y ?5]j 1657 157 NSlk INCA nnriiia]ly rnerr]ted nnd Rnv ? Ri v 7 F]oodlnf, So]eno]d valve to open sn]nt Ined 'In thn npin >> Inuti s. I rn<<cnt p'Inn t b) Yi]vn fnllure pnr'li Inn, Upon S1hS lhe din]rn pnrfnraa Intnnilcd va]va i]e inir;.Its n nnd f<<nct len. Failure of to cln..e r] "res, The r<< lvi Is Y-?515 ls cons]dered nonJ C) Dn."r:idntlnn of nnt rii]ulrnd tn rcnpcn cr I t Ical.

v<<]vn i Ii rtrlca] fn))n>>in@ nn ncc]drntI Innu1<< I Inn nyntan

')

aint propnrat ]nn Fa]lurn wade of the of e)nc]rica] v 1ve ln closed (I.s. ~

fau]t tn other Fall Safe) ~

Cln I 1E IIi vices

~

~

C) guse ns $ SE 03-lh

0 l.

Wr tn R vlrtc Shc tu.ft Sttb l~""3 t ~ 4c Floridn 'lrht I'nbe Ical t Anni cltl Equlparnt CN/ F:cult Pote nt lnl iten Tng Ho, Rev f S 1tuat I on idrn 1 I fI cn tl on Fault Effects Ccecnrnnitlnn ot IIenolutlon IIUIIITI ChT ltcsirltn Y<<2]16 16'57 Itev g Sane na Prrvloue Snsr ss Previous Yalve Snae as Ynlvs Irrvloua A) Thr lc tctcwn IInct contnln<<

sent Inolntlctn valve ls nnn r 1 ly cnc rRIard nnd Klcvitlnn ltI ft tlttr to sttbtcrrrrrc t h sin~

utrn ~ Prc '.cnt plnnt Yalve a~Inta'Inc d 'In the open drlllrn prrfnrnll Intrft<<

nn. Itlon. Itpon SIAS or dcd functlnr. Pnl)ul' CIS thr vilve cte-cnrr- nf Y-F516 In connlctrrcd rlrrn nnd close n. The non-crl tlcnl ~ ~

velvet ln not tcqu'Ircd to remen follotclnE sn nccl dent, b) Ptciiure sndn of thc'ttlve ls clonrd (lian Fell Safe) ~

Siss ae 1 SE-Opllo C) r.Irked Y P+2 2020 1Q IIIRII tniluro of the A) Yalve failure to A) The v lvc la norsnl)y mar b Locntlnn of thr vl'Ivo IIer 6 hedletlon Sole nold Ynlvr <<npc n, and silntslncd In the n~rr the pcnrtrntlnn own ponltlon, Upon CJS aub.lrrta lt to hlrh md<<

b) Ynlvr failure to the v lve dr-enrrrlrra and lntlon folic Inr. in nc cIc rr, cloaca, The vnlve la not Cldrnt< Lnnr, trrn Ca<<

Orrr dntlott of required to rc cpm foi po..ure dry ridt a the C) v clvc c lc tt'Ic nl 1ovlnC an accldrntc valve, Hect vc r func c

Inrulnt lrtt nyntce tlon la co<<plrtr <<Ithln arcnndn of icclctcnt nnd nnd nrnlct:atlnn of the I'nllure sodr In r)ectrlc:nl fnult clotted ~ hrncr cwtc;c lnrtrnt to other Cliaa JE Isolation ln salntulnc d<

dr'vlceac Y-f61 176 IISLb IlCA Failure of tho IIrfer to PCY-P+6 A) Nocsil valve function le to ] I Eirvntinn P4 f to 'Tl'ac Ilev 6 PloodlnE Solcnold Ynlve ctrnln thr Si line. Vprra to nubsrrrrttce lR sltt~

tlnn Ir. annual nnd valve u'tell ~

I>> othe rwlnr salntnlnrd ln the rlnnrcI ponl tlon, The 2~ I'rc'nant plnttt ctc nlrn f~llttrr sodr pnnltlon of pc rfotvcn Intrndrd fctttr thc valve Ia cln"rd, tlrn, Thr fillurc. of b) Thr valve In nnt rrqulrrd fo1 Y '661 ln non-rt Itlcal.

Iotclnr, dcnlrn bnae nccldrnte, C) IMlcnted rttnlnb.

( rr 1-SP.-ny.lA)

lc i ~ ir NnvIncr Sh - Icc

/

I rINS

~ ill I.nfa I lac ldii fr f I~t

~Ilurn ..An Pfr~s nrih Ct)t ca t Fwr I frcr nt C&/ Pnul t Intr i tlnl ltee Ta;I Ilor Nev I CN S l tuat Ion ldnntlrlcotlnn Pnirlt Kfnr ctn C~nnnna t Inn or Nnnnlutlnn NIINHI CATO Noir 6th NCY /IN Fho/ IISUI WCA Failure of'hr A) ri lvn fnllnre

~

A) Nnrrrnl hnictlnn of v Ive tnt ni crt Iil~nr hnnl pn nnro Nor 5 Soir nnlh Ynlvn tn open,. Iu to hr. In Sl dlnchar,".e fnrere Intnnhed fcinnc lnn, b) Viilrn failure 1'Inn nf lcaknpn frrvir chnne vilvn, Thn valve F f lliir c V" IVC ICCY 36th In cnnnlccrrc'h nrin-or 1 tins I ~

to cia-..o. In c nntlnccncca)y innrrlrnd tn hnld ln thn oren pnrcl C) Pollice n nf tlnn, Thn vrlvn clnnr n cltrtc lnil Upnrl lfASy r'i lvc fa Ilur ~

Inrun I at I on, ondn ls r1n.rd{l.eir Fall 5:irc) o Intyrrlnh vnlvn Iionl tl on ln r 1c>>cc 'hi ri zcclrercnnt to re 'ln no moyen valvn fnllcnrlnN an nrc lrlrntr C) Flnnnn ri fer tn I E-n3 lh NCY+g(N FNI/ l'Sfb i(CA Pillurn c f thn ".arm na Prerlocca Siren ss I'revloccs Ynlvr. g Srcein ee I~lnccrc Yolvn Nov 6 Snce i nld Y..) vc Ynl ac NCY-3A<< rsfb @CA Fn>> i" Sr>>n aa f'crvloua Y"lre I'rr vlnna Yalvr Nor 5 nin1 nun I cr Y: 1 vr Y:ilvn S ero an I'rnvlouo b Secre ao IrCY 3fhe FN3/ ÃSlb LtrnA Fillurn cf thr ia f'rcvlnrc< Snon rcn Ivnvlous Yelve b 5~ice aa frnrlnut Ynlvr Niiv 5 Snl i rinlh Y ilv" Yol ri

0 Ya~ 5".3 Y P%Ptl 3%71

' A Thr rmplrto tofnal 8'FA:4 ]n pre::ent]>> b!]np c'crduetcd fnf th]n derle~,

Inltla1 phd".o of th'le nn~lyn]n, I!er]en nf the I' ]D< h'~ h in c

eon']eted, I]re>its ]tH!c'ate that thr re]re f~llute onln Ic oefe -.nd Ya357P. that nn wnt oec]dent funetlon Lo tiqn]rid, The bn]:>>ice nf the RI:Cl Yapn] w]ll ]nclude n rer]eo of the CW'o to confine thefo are no necnndacy Y-c~na ~ ffeeto duo to fallnro of th] ~ der]cei r~ gg) y~lfneI rry-~C-]

FCV ~C Fry+'iV~3 FPV hf~5 w r,J.

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0 a LZmt Aff=,St FACILITY= LUCZE UOZT R2 ESASCO SERVICES CAPACZTTI SRQ HECK)

OTZLZry: FLORIDA ttrSS:

TYPE POSEUR CO~SVSVZOS Eks PHD JUSTAFZCATZOtt FOR ZRTERIN OPERATION EOUZP TTPE z CAttLE E4 DOC Pkg O 3 IIAAOP SUPPLIER ttOT APPLZCASLE SPEC= 2,%3A PAMUFACTURERz ROCttBESTOS CO PO IIUNBEttt422$ 8O OUALlfI CAT IDk STATUS I OZ JUSTAFZFD FOR TIITERZP. OPEttATZDlt TA6S +ODKL/SERIAL CattPaltEkr IQ$ 88 CAT)

I I I 8lH D80-SERIES FIDEUALL llI XIISTRUAEHZ COL ~ l f COAXZAL I

l I COtt ACT)Dk w~~~e ~ ~~+a ) ~ &OMAN A4  %&wo l 6/P-DBQ~SE RZ ES f4USTIFIEO FOR ZIttEll1% OPERATZONTttE IOUALIFZCAZZOO Zn aE CattPLETED PEQDZQS (RESOLUT IOm Of E4'S COlltl&IITS Ott TAB I iOLLOvit4t2-EO-83 56I i I ~ ACCK8ESTOS CABLE TEST REPORT 124C6(SLZ KO 83 5O)

(2+Fk>CRAADUH SL2 EO 83 4~18LETIO'I IBT OEtEPOER 1 19B3.

I EXFECTEO OUALZFZCAtXOK COAPLETIOS

]81 DECEhFiER $ ~ '$9tt3 I

'UPPLEMENTA'RY RF H'IHEE7 FACILITY: ST LUCIE 2 UTILITY'LORIDAPOWER'ND LIGHT CO A/E:  ; EBASCO SERVXCES INC CAPACITY: 890 MW (e)

NSSS: 'OMBUSTION ENGINEERING TYPE! 'WR aa aa ae ea aa aa aa aa aa aa aa aa aa ea ee ae ea aa aa aa aa ea aa ea ae ea ee aa aa ea aa aa aa aa aa aa aa aa aa ea aa aa aa aa aa aa ea aa aa ae aa aa TAG 5! B/M D80 SERIES NX422586 SYSTEMS COAXIAL CABLE SERVXCE DESC: SXGNAL CABLE aa aa ea aa aa aa aa aa aa ea aa aa aa aa ea aa aa aa aa aa aa ea aa aa aa aa aa aa aa aa aa <<e aa aa aa aa ea aa aa aa aa ea aa aa ea ae aa aa aa aa ea ea aa aa aa aa aa aa ea aa aa ea aa ea ea aa ea aa ea aa PARAMETER! SUBMERGENCE I

REVIEW: ROCKBESTOS TEST REPORT 42806 DOES NOT SPECIFICALLY ADDRESS SUBMERGENCE AFTER DRAT HOWEVERS BASED ON THE FOLLOWXNGt THERE XS A HIGH LEVEL OF CONFIDENCE THAT THE

. ROCKBESTOS CABLE XS SUITED FOR THE SL2 APPLICATIO"~

1) CABLE -WAS SUBJECTED TO THE LOCA PROFILE (346oF PEAK TEMPe) FOR 30 DAYS.

CHEMICAL SPRAY (3000 ppm boron) WAS APPLIED DURING THE FIRST 24-hr PERIOD.

SUBSEQUENT TO THXS TEST@ THE CABLE WAS SUBJECTED TO 2000YBcg 60 hz BETWEEN CENTER CONDUCTOR AND SHIELD (GROUND) (IEEE-383, pgh 2.4.4)

2) AFTER 30 DAY LOCA PROFILE, THE CABLE WAS SUBJECTED TO 212oF AT 100% HUMIDITY WITH 600V, 60hz APPLIED POTENTIAL FOR 100 DAYS'AME VOLTAGE STRESS TEST

. APPLIED ABOVE

3) UPON COMPLETION OF 100 DAYS'ABLE WAS PLACED IN WATER AND IMMERSED FOR MINIMUM OF SXX HOURS'FTERWARDS, THE SAME VOLTAGE STRESS TEST WAS APPLIED CABLE SUBMERGENCE AFTER LOCA WILL NOT SUBJECT, CABLE TO HIGH PROFILE TEMPERATURES SINCE THE WATER IS AT A MUCH LOWER TEMP ~ THAN THE AIR RESOLUTION OR ACTION: NO ACTION REQUIRED PREPARED BY: l~S'~~R -~4'~~ .

I CHECKED BY:

FAC3:XXTY: ST LUCXH GHXV N2 UTILITY: FLORIDA POWBR 6 LIGHT A/E: EBASCO SERVXCES NPSS = COMBUSTION ENG CAmcXVY= S90 m(a) TYPE PMR JUSVXPXCATXOH FOR INTRRXH QPERKVXOM EQUIP TYPE. Theraecouple Extension Cab2e Eo OOC @KG: < ~>

SUPPLIER: Cable Index Co., Inc.

MAJOR KQ4UPACTDRER: ~pe ~~~~ SPEC PO NMER:3V Field QI QualifieQ for Interim Operation TAGS HODEL/SBBXAL COMPONENT t 0588mv s > E I I 9/m D85-22 5711/1601 I INSTR, CABLE I l l I I I l I I I I I CQR ACTION

{}ua3.ificahion shall be fe1ly completed or subject- cable rep3.aced ~3th quality.ed cable before start-up after C

first refueling.

/

I I

~ >>, <<.)i'AA>>>>>>45"t.>>>> .na'- >>.>>>> ~ 4>>

i ye~of+

~ PACVAGE O g 3A MAJOR SUPPLIER~~~~

PURCHASE ORDER 4 HMU URER 'aton Cor ration DESCRIPTION> Thermocouple cable l6 ANG> pVC Insulation purchased by Florida Power 6 Lights St Eucie Unit Ho.

RESOLUTION; JUSTXPXED PQB INTERIM OPE8ATXON Et211 IE Bignal Level Control Cables for the electric heating coils in the shield building ventilation systems Environment: AIL of the Control'ables used Nor above application are in a "harsh" environment as defined per HUPJEG 0588, Rev.

The maximum environmentaL conditions that this Cable villl.

be exposed to are Radiation: 6.6x10< gamma exposure, Rads Temperature> 90F average ll7F accident Procurement: Commercial Grade, ln accordance with IOCFR2l.3 (a-f)

Discussion:

The cable purchased io of high quality commercial grade. Xt is encased in 3/4" steel conduit and is utilized vithin the intended service conditions and ratings, The suitability of PVC insulating material is verified as exceeding the cable environment ae discussed below.

Demonstrated Temperature Ratings 221P (Ref. 1)

Demonstrated Radiation Ratingi 2.0x107 gamma exposure, Rads (Ref 2)

This cable exceeds all specifications of UL sub)ect 13 and XEEE 383 Vertical Tray Fire Tests (Ref 3, Bee attached sheet) ~

Engineer 4 Oate Checker /'>> V'~ pgge

c3.usion:

~

~

In accorance with the above discussion, these cables are "qualified for Interim Operation."

References:

1 Underwriters Laboritiories Standard for Power Lhnited Circuit Cab1e, UL Sub ect 13 2 Kircheri Z F ~ aflak BowNan R E~ g Effects of Radiation on Materials

~8 EPHX NP-1558, Review of E ui ent A in Theor and Technolo, Appendix C 2 3 - Dekoron Thermocou le Extension Hire Characteristics, Eaton Corporation catalog

Ttternlocoup'fo Extens)on E'ltire for ~

Power Umited Tray Ca)3)e passes the non rdoue and Non Hazardous Araas propagat)ng criteria of the 70.000 BTU burner ron Thereocou test of UL SubJect t3 and IEBE 383.

>le Extension VNre is

<lated for use In Class auallty Assurance.

1, Olvlslon 2 as KO.volt Our promise af cans)intently Power tJmltedTray Ca. aut3erfor wire and cab)e.

ble under Article 725 ot A)t Pekoron wtre end cable producls are In the NEG Code. opectlt ta eeet a s)ngfe sst ol rig)d spec The use of this cable If)oat)onL These tests are compst)bfe with penrt its Insta\Iat ton 1QCFR50 rtuc)ear requIrements. bekoron w)th conformance to uiflty assurance program not only meets ex)at)JlQ codeso t ese spec)flea)tons bul II goes beyond them GaMe paasea VL Sttti) oct by sett)ng our standards higher. Dekoron 11 attt3 ties M1 tire Nato. Power L)m)ted Tray Cable meats UL inspec Ratne Reststance tlon standards and fo)love Ltp audits.

De)coron Power Limited Tray Cable prov)des auperlor ftacne resfstance, exceeding ail spec) fioat)ons of UL Subject 18 and )EEL 383 Vert)ca) Tray Fire Tests.

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" IL ITY: FLOR IDA PORE R 0 LIGHT FACILITYT ST LUClt JVIT <2 UT A/E Eshsco SERVICES SSS: CONdUSTION ENG ~

CAPACITYI 583 HE(E) TYPE: PHR JUSTIFICATION FOR INTERIM OPERATION EQUIP TYPE ~ ! PRIHARY ELEVENT EQ DOC PKG: Se 7 IIAJOR SUPPLIER; CVI CORP SPLC: /re NANUFAC TJRERI HY C hL c NGiu Po NUPFcR 422595 aaaaaaaaaaaaaaaaaaaaa a% aaaaaaa QUALIFIChTIOM SThTUS QI JUSTIFI co FOR lNTERIN OPERATION aaaaaaaaaaaaaaaaaaaa aaaaaaaaa I'AG S I FOOEL/SEcRIAL I CONPON ENT IL588 CATI I I I I NE-25-1 I HS-3552-B- 1ZG- I HOISTURC PRNY I S I I He LLEP4TNT I I PE-25-2 HS 3552 S 120 I HOISTUkc PRPY I S I I He I ELE~hTNT I I HIS-25-1 CT H22aH H I <OISTURE IND I S I I I SjII TCH CH I I HIS 25 2 CT H2? H H I POISTURE IND I S I I SVITCI CH I I COR ACT ION I a a a a a a a a a a a a a a a a a a a a a 'a a a a a a a a a JUSTIFIED FOR INTERIN OPERATION KQUIPNEcNT IS CONNECTED To CLASc 1E PoiERF CUT PERFOR>s 1E FUNCTION OF ANNUNClhTION Oh S~VS HIGH HUMIDITY~ EGUIPTHENT RILL BE I CONVECT EO To hSSGCIATFO FO'@AH OR QUAILIFIEO I SY ACTv N LASS (P ~ 0 ~ NY-h22/ST) BE FORE I START U P AFTER F IRST RcFUELlhGa I

I

Page > of 4 PACKAGE 0 Se7

'MAJOR SUPPLIER CVI URCHASE ORDER 422595 DESCRIPTION: Moisture Indicating Switches TAG NOs. h1E-25-1 ME-25-2 MIS-25-1 MIS-,25-2, RESOLUTION:

The subject equipment is not required to perform a safety function.

These devices control annunciators to identify excessive humidity conditions in the SBVS. The only harsh parameter seen by the control is radiation. The controls are mounted on the side of the SBVS unit.

Contact dose for this ventilation system is 5.6x106. Since these de-vices don', perform a Class 1E function they would themselves be con-sidered NUREG 0588, Category C. However, as shown on CWD 482 the control .s- share a common power supply'ith other controls. Of concern is the pressure control which is required for control of the annulus lamper. Both the element, manufactured by Hy-Cal, Model CT-822-H-H 00% RH and the controller manufactured by Love, model 48-8115 employ isolated low voltage control circuits. This construction isolates internal faults within the contro1 from effecting the 120 VAC power supply. Only the terminals and the transformer are not isolated. The polymeric insulating materials used for these typically exhibit a rad-iation damage threshold in excess of the calculated SL-' dose. Cor-roborative references include EPRI reports NP2129,NP5158, Rosemont 1153D,EQ report and others.

Conclusion In view of the above discussion there is a high level of confidence that the equipment cannot fail in any manner to prevent the Class 1E function of equipment on the bus.

NOTE The equipment is being included within the present IEEE-323 qualification

's ant'pat d that this program bei g conducted by Acton program. t Enginee Date 5 fg Checker Date 0 l)5 QQ

page 2 of 2 Environmental Testing Corp. (PO NY422737) will confirm the suitability the controls as discussed above.

FACILITY: Sr LUCIE UNIT R2 UTILITY: FLORIDA POMER 8 LIGHT AIE EBASCO SERVI CFS NSSS. COHBUSTI OH ENG CAPACITY 890 HEIE) TYPE PMR JUSrIF ICATION FOR INTE RIH OPERATION EQUIP TYPE ~ VALVE OPCRATORS EQ DOC PKG 9 4 HAJOR SUPPLIER CE SPEC. NONE MANUFACTURER. NICRO SMITCH PO NUHBER.CE911'UALIFI CAI IOH STATUS. QI-JUSTIF I ED FOR IHTERIH OPERATIOH TAGS I "OD ELF SERIAL I COHPONENT l0588 cArl I I I I V5200+LS I LSC4L I L I HI T SMITCH c I I I I I V520)*LS I LSC4L I LIHIT SMITCHES I C I I I I I V5202+LS I LSC4L I LIHIT SWITCHES I C I I I I I V5203*LS I Lsc4L I LIMIT SMITCHES C I I I I V52044LS LSC4L I LIHIT SMITCHES I C I I I I V52054LS I LSC4L LIHIT SMITCHES I C I I I I I COR ACT ION

'I JUSTIFIED FOR INTERIH OPERATION I

I THE LIHIT SMITCH(HICRO SMITCH HODEL) IS SCHEDULED TO COHPLETE AH IEE E-323-19?4 I QUALIFICATIOH PROGRAH BY START-UP I AFTER FIRST REFUFLIHG I

Page 1 of 3 PACKAGE 9 4 MAJOR SUPPLIER Micro Swatch PURCHASE ORDER CE 911 NCR 4 N/A DESCRIPTION: Microswitch Model LSC4L REFERENCE- 1 Microswitch Material Breakdown 2 Memorandum: SL2-EQ-83-4-76, dated April 22, 1983 "V-5200 Elevation and Flood Level' RESOLUTION:

Microswitch model LSC4L is provided for position indication on the Hoke supplied RCS sampling line isolation valves .V-5200, V-5201, V-5202, ~ 5203, V-5204, and V-5205. These valves are normally closed, close on CIS, and are designed to fail closed. Two of the six valves (V-5200 and V-5203) are required to function subsequent to the DBA in order to provide sampling capability.

These switches have not been qualified to IEEE-323-74 to the environment postulated post-accident

~

(V-5200, 5201, and 5202 are subject to in-contain-

'ent MSLB/LOCA; V-5203, 5204, and 5205 are subject to HELB in the pipe

unnel of the RAB). These switches will be either fully qualified or replaced s

~ ~ ~

during the 1st scheduled refueling outage. Pending resolution of this item,

~

~

these- switches may be considered justified for interim operation based upon

~ ~

the reasons enumerated below:

Review of environmental arameters Tem I erature/a in /o erabilitv:

These switches, during the interim, must be operable during the 18 months prior to the 1st refueling outage at 115oF ambient, plus survive the composite MSLB/LOCA, including 180 days post-DBA. Neglecting the effects of the short initial transient on the thermal life of the switch, the re-quired life vs temperature of these switches may be approximated (see fig.

10 of St Lucie Unit 2 guidebook) as the following step gradient:

Engineer Date 3 Checker Date 6 fir 5~

Discipline Engineer Date

I 0

Page 2 of 3 Tem (oF/oK Time (Hr) 115 319 13140 300/422 .25 240/388 277 200/366 422 150/339 3600 Microswitch certifies the supplied switches to Test Report LTR-24407 based upon similarity to Catalog type LSQ051. This switch, as per LTR-24407, was aged at 125oC(257 F) for 741.hours during qualification testing. A review of the list of organic materials found in the switch (attached) reveals a minimum activation energy of .86 ev for the seals.

From Arrhenius:

LQ = LTe )-(T o 1 - 1 T- )

A T Qualified life of the switch is:

( E) QL (Hr)

~Tern 319 3. 7x10o 422 178 388 1414 366 6637 339 58237 Therefore; the portion of life expected to be used during the 18 months, LOCA, plus 180 days post-DBA is:

13140 + .25 + 277 3.7xl05 178 1414 It is not expected that the switch will degrade under these conditions.

Parameter -- Pressure:

The switch is mechanical operating, non-pressure retaining component, therefore it should not be adversely affected by changes in pressure.

Parameter Relative Humidit LTR-24407 included a high humidity test during which the switches were subjected to and survived 100% relative humidity.

Parameter -- Chemical S ra These switches are located in the perimeter of the containment, where chemical spray is expected to be light, if have deleterious effects on the switch.

present at all. It is not expected to Parameter Submer ence:

25'-ll; i

These switches are located at elevation as discussed flood level calculation accounting for coolant inventory indicate that within reference he pass hot leg sample which depends upon V-5200 is only present. where flood revel is under 24'-7>. It follows that the limit switch has no lE function

Page 3 of 3 following submergence. Moreover, the 100% humidity test mentioned above gives some assurance that these switches may function when subje'ct to high moisture environments. Zn the unlikely event of failure, the operator will have

>ad ample time to verify valve position.

Parameter Radiation:

The switches inside containment are postulated to see 2.2xl0 Rads Gamma during LOCA plus 1 year post DBA. The certification provided by Microswitch (Attached) states that the switch will meet radiation requirements of 107 Rads.

I Conse uences of Failure:

The failure of these switches will not preclude the mitigation of an accident. At most, indication of valve position will be lost. Due to the redundant, valve, isolation can be confirmed by verification of the position of the other valve. (outside containment).

Failure of the insulation will not effect the circuit or any other component on that circuit. This is because the DC system operates ungrounded, so at least two grounds are necessary to trip a feeder breaker. This assumes no other DC ground failures occur at the same time.

==

Conclusion:==

From the above, it can be asserted with a high level switches will be acceptable for operation during the of confidence that these interim.

TEAT GOODS COi.OZ] "-0 SPECIE'IC "~ITS SVZE OF ILLIliOIS )

,} ss.

CO'JlDY Or" STr".Fi!Z:S'<)

This will certify that 1!IGS R>Xiii listing LSC4L will rect the re-.uire;,.~".ts as tested and dociented in NICRO SvtTG3 Test Peport Li--24407 based cn sir.'1arity I

to IUCFO STITCH c"talog listing LSQ051. This report provic s inforration concern'ng switch per'ozrance during electrical aging, environ-ental aging, and seimsic vibration to oemcnstrate a witch capability gnr er tNe applicable portions of IEEZ 323 and IEEE 344.

i This wil3 further certify th t 1DGS S'ilTQI li ting LSC4L will eeett the radiation require;.,ente of 107 rad-.

Pyo Har a.". E. Hin!:ley, Sup rvisor Apprcvals Engin ering Subscribed and sworn to b fore ma this 16th day of Inarch 1983.

r Notary P nX~

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M) CRO SN1 I CH Interoffice Correspondence DATE: 10 trove.-..her 1982 FROM: Frank Leonhardt

SUBJECT:

Haterials Part List H="D: I L50 MS: S4-514 TO: Pete 0'Ostilio NJ43 HVN: 664-6551 In accordance ivith your memo of 24 Septe.-.ver 1982, I am enclosing a copy of our Haterials Part List for NICRO SWITCH listing LSC4L.

If any further information is necessary, please advise.

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FACILITY: >I LUC IE UNIT N2 U TILITY: FLORIDa PO'NER 8 LIGHT A/E: EBASCO SERVICES NSSS. CONBUSTION ENG CAPACITYT 890 IIIE(E) TYPE PNR J 0 ST IF I CATION FOR INTE RIN OPERATION EOUIP TYPE . HEATERS EO DOC PKG 10 1 Nh JOR SUPPLIER CVI CORP SPEC. 776 NANUFACTURER CVI CORP PO NUII'BERT 422595 QUALIFICATION STATUS. 11-JUSTIFIED FOR INTERIM OPERATION TAGS I NODEL/SERIAL I COHPONENT l0588 CATI I I I I EHC 2HVE 6A1 I ENDRAC R SBVS HTRS ~ / CON A I 7153 I TROL PNLS I I EHC 2HVE 6A2 I ENDRAC I SBVS HTRS / CON I I 7153 TROL PNLS I I EHC 2HVE 681 I ENDRAC SBVS HTRS / CON A I 7153 TROL PNLS I I EHC 2HVE-682 I ENDRAC R SBVS HTRS ~ / CON I A I I 7153 TROL PNLS I I COR ACTION JUSTIFIED FOR INTERIN OPERATION I

EOUIPHENT CURRENTLY BEING RE-ANALYIED TO CONFIRP OUALIF ICATION QUALIFICATION REPORT I HILL BE COMPLETED BY FEBUARY 1~1984 ~

I I

PACKAGE 10 '

MAJOR SUPPLIER CVI PURCHASE ORDER 4 NCR DESCRIPTION: R S

This JIO pertains to both the heating coils and respective control panels for the SEVS.

RESOLUTION:

Review of the vendor drawings and discussion with a test lab (attachment 41) with supplementary data from a CVI heater seismic analytical qualification calculation (attachment 42) supports the EQ Groups conclusion that the

'eating elements are qualified for the intended application.

The expected environmental conditions for the heating coils will not ex-ceed 200oF, atmospheric pressure, and 70% relative humidity (from FSAR Section 6.2.3 discussion of properties of air flowing through Shield Building Vent System). These elements function only subsequent to an accident. The total integrated radiation in the areas where the heaters are located is not expected to exceed 6.6xl06 Rads gamma for 40 years plus one year post DBA. The insulation material is inorganic and not subject to either thermal or radiation aging effects. This is supported by EPRI reports NP 2129 and NP 5158.

Mineral insulated cables and heaters have decades of successful service in non-nuclear and nuclear environments far more hostile than the St Lucie 42 application. Furthermore, recent conversations with the president of Acton Environmental Testing Corporation, R Cowdrey and members of his staff demonstrate that these exact heaters were reviewed and found acceptable on other plants (e. g. Comanche Peak) .

The seismic analysis (attachment 02) demonstrates that these heaters are made of inorganic'aterials; which are able to sustain high temperatures, pressure, radiation, well in excess of any St Lucie g2 LOCA/MSLB DBA.

M .'$o nfl-' 8~

0

~

Checker Date 8 /l 3 /QN

As discussed above Attachment 42 demonstrates that these heaters are qualified in accordance with IEEE-344. Based on the non-aging properties of the inorganic materials there is total confidence with regards to the suitability of the heaters for the application. Detailed analysis will be presented to verify this suitability within the test report being pre-pared by Acton Environmental Testing Corporation under PO NY422737. The current schedule will provide the complete qualification report by February 1, 1983.

The Acton program also includes the control panels for the SBMS. To date a conservative 'test sequence of radiation exposure (6.6xl06 TID) followed by seismic (2.5 ZPA) has been successfully completed by the components. Atmospheric conditions for the anticipated 40 year life of the components are mild and in agreement with 10CFR50.49 no detremental aging effects are anticipated. However, to verify this a detailed analysis (Arrhenius based) of all materials is being conducted at Acton Labs. As discussed above there is total confidence that this analysis will confirm the NRC position that aging will not degrade the components.

This analysis will be complete by 2/1/84.

P-ZQk'-l RO ENVIRONMENTAL QUALIFICATION PROGRAM TELEPHONE CONFIRMATION MEMORANDUM SL2- EQ- 81-11-91 Between: William Kelley (617-263-2933) Acton Environmental Testing Corp. and L P Gradin, Ebasco Date: November 18, 1981

Subject:

FLORIDA POWER & LIGHT COMPANY ST LUCIE PLANT UNIT 2 ENVIRORKNTAL QUALIFICATION ELECTRIC HEATING COILS

1) Ebasco P 0 NY422595 with CVI Corporation for Shield Building Ventilation System ACTION/COMMITMENT SUM~RY Acton Information Only Responsible Party November 20, 1981 Action Item Commitment Date Commitment Ebasco Comments Due to the requirements to submit environmental qualification data for harsh environments to the USNRC by November 30, 1981 Ebasco initiated a conversation with Acton to obtain data on the electric heating coils associated with the subject purchase.

Acton is the test laboratory and EQ consultant for CVI.

Ebasco indicated that the CVI vendor drawing B771-0011 indicated a metallic sheathed apparently mineral insulated heater.

If this in-correct than a properly designed inorganic insulated heater should not degrade in the environment expected. Sufficient data would be expected from CVI/Acton to support this conclusion.

Acton Res onse Acton agreed that the heater qualification would clearly be a confirmation of the acceptable material. Acton would expedite a CVI/Acton response (by 11/20/81)

Z-SL2-ZC-1

Telephone Confirmation Memorandum w 2& November 18, 1981 SL2- EQ-81-11-91 documenting this conclusion.

In the interim the EHC will be classified as "Qualified - Awaiting Confirmatory Data".

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The documentation required to support environmental qualification for Conax Corporation Penetration supplied to St Lucie 2 is contained in documentation package 15.1'eviewed during the week of July 13-16, 1982 by USNRC auditors. The comments. at that time to the vendor were found to be minor except for submergence testing still to be performed. Conax Penetrations and conductor seals are designed with Kapton and Viton which are capable of handling temperatures in excess of the St Lucie 02 LOCA/MSLB peak temperatures. In addition to the raw materials tests that were performed, Conax has provided additional test programs beyond the requirements of IEEE 317-1976. Some of these tests were Material capability tests (evaluation of the implications of normal testing and provide a correlation between the raw materials tests and material capability tests.g These tests are described in IPS-325 Revision D (Design Qualification tests for Materials used in Conax Electric Penetration Assemblies and Electric Conductor Seal Assemblies which is found in both documentation packages 15elA3, A submergence testing pro-gram was conducted by Conax, report IPS-850; Overall results of the test confirm suitability of the penetration for submergence. Two anomalies in the 850 report identified minor questions which has yet to be resolved by the vendor. Pending final disposition of this matter the penetrations are considered qualified for Interim Operation. It should be noted that, tests under the IPS-850 program were more severe than the St Lucie 2 environment. Tests performed here were much more severe than St Lucie 42 LOCA/MSLB composite specific profile. The specimens were aged at 168.5 hrs 8 290oF which is consistant with the IPS 325 report for Conax materials (attachment N2) and subject to a severe DBE with subme ce ccu n =94 minutes. (see att chment 2) Engineer Date Checker Date 5 t~ 5Q rage ~ oz

In addition to support our analysis it is demonstrated in Conax Reports IPS-409 Section 5.6, Report 409.1, and Report N596 Sectio'b 5.1 located in Documentation Package 15.1 that the mini-seals were pr'essurized with ry helium .to 75 + 5 PSTG. The leak rate measured did not exceed 2x10 std. CN5/SEC and achieved satisfactory compliance as'ndicated by the test data sheets (Report IPS-409 ref 2.12). Since the molecular sizes of liquid water is much greater than that of helium gas the water molecules will not break the integrity of the conductor modules. Furthermore, liquid water has a greater viscosity then helium gas and would not flow as easily. This is due to the close spacing of the water molecules and its cohesive forces which resistance to flow depends upon. Furthermore, LOCA/MSLB test ran by Conax have demonstrated a pressure integrity of 70PSIG while St Lucie N2 specific is 44 PSIG during the LOCA/MSLB DBA. This demonstrates a margin greater than 50%, therefore addingto the high confidence that this equipment. is qualified for interim operation. (see attached profile) (attachment 3) Radiation exposure was completed to demonstrate a withstand 2xl0 rads with no degradation over its 40 yr life plus 1 yr post DBA which is more severe than St Lucie 52. FACII.ITY' LUC IE V NIT ¹2 UTILITY: FLORID POMER 8 LIGHT A/E EBASCO SERVICES NSSS: CONOUSTION ENG ~ CAPACIT Y: 890 PE(E) TYPE P4R JUSTIFICATION FOR IHTERIH OPERATION EOUTP TYPE CONDUIT SEALS EQ DOC PKG: 15 2 HAJOR SUPPLIER NOT APPLI CA8LE SPEC: 307 HANVFACTVRERI CONAX CORP PO NUNBER 422562 QUAL IF I CATION STATUS: 01 JUSTIFIED FOR INTERIH OPERATIOH TAG S I HODEL/SERIAL I COHPONENT 10 588 CAT I I I I FCV 25-20+Ch I 3/4/C¹16 I CONDUCTOR I A I N 11006 I NODULES I I FCV-25-3*CH I 3/4/C¹16 I COhDUCTOR I A I N-11006-65 I NODULES I I FCV 25-4+Ch I 3/ 4/C¹16 I CONDUCTOR I A I I N-11OOe I MODULES I I FCV 2d 1*CH I 2/4/C¹16 I CONDUCTOR I A N-11 Cod I NODULES I I FCV 26-3iCH 2/4/ C¹16 I CONDUCTOR I A I I N-11006 NODULES I I FCV 26-5wch I 2/4/ C¹16 .I CONDUCTOR I A I I N 11006 RODULES I I FSE 27-10~th I 1/6/C¹16 I CONDUCTOR I A I H-11006 I NODULES I FSE-27-11aCh I 1/6/C¹16 I COhDUCTOR I A I N-11006 I I1ODVLES I I FSE-27-121CH I 1/6/C¹16 I CONDUCTOR I A I N-11006 I llODULES I I FSE 27-13~CH 1/6/C¹16 I CONDUCTOR I I I N-11006 I NODULES I I F SE-27-14~eh I 1/6/C¹16 I CONDUCTOR I A I N-11006 I NODULES I I FSE 27-8~eh I 1/6/C¹16 CONDUCTOR I A I H-11006 I 'lODULES I I FSE-27-9*CH I 1/6/C¹16 I CONDUCTOR I A I I N 11006 I NODULES I I HC V-14-1 + Ch I 3/4/C¹16 I CONDUCTOR 1 I I N-11006-65 I NODULES I I HCV-14-Z~ch I 3/4/C¹16 I CONDUCTOR I A I I N 11G06 I NODULES I I HCV 3618+Ch 2/4/C¹16 I CONDUCTOR I A I I N-11006-71 I NODULES I I Hcv-3628+Ch 2/4/ C¹16 I CONDUCTOR I I I N-11006-65 I 'IODU LE S I I Hcv-3638~CH I 2/4/C¹16 I CONDUCTOR I A I I N-11006-71 I NODULES I I HCV 3648+Ch 2/4/C¹16 I CONDUCTOR I A I I N-11006-65 I NODULES I I LCV-07-11A*ch I 2/4/C¹16 I CONDUCTOR I A I I N-11006 I NODULES I I LE-07-13A+Ch 3/24/C¹16 I CONDUCTOR HODE I A N"11006 I LS I I TAGS I MODEL/SERIAL COMPONENT I0588 CAT I I LE 07-138~CM I 3/24/CN16 CONDUCTOR NODE A I l N-11006 LS I LE 07-14A4CM I 1/24/CN16 CONDUCTOR MODE A I t H-11G06 L I SE 02-1 ASCII I 3/4/ CR16 CONDUCTOR I I H 11006-71 MODULES I SE~02-2+CII 3/4/C @16 CONDUCTOR l I N-11 G06-65 MODULES I SE~02 3*Ch 3/4/C 016 COIIDUCTOR I I N-11006-65 MODULES I SE 02-4iCII 3/4/C016 CONDUCTOR I' I N-11006-65 MODULES SE~03-I AiCM I 1/6/CN16 CONDUCTOR l I N-11006-70 KODULES I SE 03 18+CM I I /6/CI16 CONDUCTOR I I N-11 006-70 MODULES I SE 03-1 C+CM I /6/CR16 CONDUCTOR I I H-11006-70 KODULES 1 SE~03-1DaCM I I/6/C016 CONDUCTOR I I N-11 006-70 MODULES I. SE~03-2A+CM I 1/6/CN16 CONDUCTOR 1 N-11 006-70 KODULES SE~03-28aCM I 1/6/CR16 CONDUCTOR I N-11006-70 <ODULES TE~07-3AaCM 1 I/4/CN16 CONDUCTOR I H-11006 MODULES TE~07 38~CM I 1/4/ CI!16 CONDUCTOR I H-11006 MODULES TE 07 5A+Cll I 1/4/CN16 CONDUCTOR I H-11006 MODULES TE~07-58iCM l 1/4/CD16 CONDUCTOR N-11006 MODULES i T E~111 2 CA Cll 1 I 1/4/Ce16 CONDUCTOR I N-11006 MODULES r TE 1112CB4CM 1 1/4/ C 016 CONDUCTOR I N 11006 MODULES TE~1112CC+CM I I/4/CN16 CONDUCTOR t N 11006 MODULES TE 1112CD+CM t 1/4/CN16 CONDUCTOR I H-11C06 MODULES TE~1112HA~CM I 1/4/Ct16 CONDUCTOR I H-11006 MODULES TE~1112MB*CM l 1/4/C<16 CONDUCTOR I H-11006 MODULES TE~1112HC+CM 1/4/CR16 CONDUCTOR I A N-11006-65 MODULES I. TE~1112HD*CM 1 1/4/CN16 CONDUCTOR I A I N-11 006 MODULES TE"1115+CM l I /4/CN16 CONDUCTOR I H-11006 KODULES TE 1122CANCM I I/O/Ce16 CONDUCTOR t N-11006 KODULES TE 1122CB*CM I 1/4/CN16 CONDUCTOR I N-11006 MODULES TE 1122CCACM l 1/4/CA16 COIIDUCTOR I N-11006 MODULES TAGS HODEL/SERI AL I COHPONENT 10 588 CAT I ~ I I TE-1122 CD+Cll 1/4/CN16 I CONDUCTOR I H-11006 I NODULES I TE-1122HAtcll 1/4/CR16 I CONDUCTOR I N-11 Cod I NODULES I TE-1122HBaCH 1/4/ CR16 I CONDUCTOR I ASCII N-11006 I NODULES I TE 1122HC+CH 1/4/CA16 I COHDUCTOR I K-11006 I NODULES I T E-1 122 HD 1/4/CN16 I CONDUCTOR I K-11006 I NODULES I TE 1125*CH 1/4/CN16 I CO) DUCTOR I N 11006 I NODULES I V1460icH 2/3/4/CN16 I CONDUCTOR I N-11006-65 I NODULES I V1461+C H 2/3/4/C RI 6 I CONDUCTOR I K-i1G06-65 I NODULES I V14620CH 2/3/4/CR16 I CONDUCTOR I K-11OO6-65 I NODULES I V1463~C H 2/3/4/CA16 I CONDUCTOR I N-11006-65 I NODULES I V1465 ~ C H 2/3/4/CN16 I CONDUCTOR I H-11006G65 I NODULES I V1466acH 2/3/4/CR16 I CONDUCTOR I K-11 006-65 I NODULES I V2515~CH 2/4/ CN16 I CONDUCTOR I H-11006-65 I ~ODULES I V251 6+C H 2/4/CN16 I CONDUCTOR I K-11 006-65 I NODULES I V2524 ~ CH 2/4/C016 I CONDUCTOR I N-11006 I 'NODULES I V3571+C H 2/4/Cable I CONDUCTOR I K1 1006-71 I NODULES I V3522acH 2/4/C~16 I CONDUCTOR I N-11006-65 I NODULES I V52004C H 2/4/C116 I CONDUCTOR I N 11006 I >ODULES I V5201~CH 2/4/ CR16 I CONDUCTOR I H 11006 I >ODULES I V5202+CH 2/4/C416 I CONDUCTOR I N 11006 I XODULES I Vd?18+CH 2/4/ CN16 I CONDUCTOR I H-11006 I NODULES I COR ACT IOH I JUSTIFIED FOR IHTERIH OPERATION CONPLETI ON OF DUAL IF ICATION IS PENDING RESOLUTIOK OF EQ COI~NENTS ON LEAKAGE CURREKTS ~ aUALIFICATIOK TO BE CONPLETED BY FEBUARY 1~1984 KAGE 0 / Con ax Corp R SUPPZ ZER NY422562 PURCHASE E ORDER g SER gesolut'ions'CR 0 Conductor Nodules -.'Nodel 4 Varioqs - ConaX

%he documentation required to support c:nvironmental qualification for Conax Corporation conductor modules supplied to St Lucie 2 is contained in documentation package 415.1/15.2 reviewed during the week of July L3-16, 1982 by USNRC auditors. The comments at that time to the vendor were found to be minor except for submergence testing still to be performed. Conax Penetrations and conductor seals are designed with Kapton and Viton which are capable of handling temperatures in excess of the St Lucie 42 I',OCA/MSLB peak temperatures. In addition to the raw materials tests that i-e performed, Conax has provided additional test programs beyond the F~!irements of ZEEE 317-1976. Some of these tests vere Material capa-city tests (evaluation of the implications of normal testing and provide a correlation between the raw materials tests and material capability tests.) .hese tests are described in IPS-325 'Revision D (Design Qualification tests %or Materials used in Conax Electric Penetration Assemblies and Electric Conductor Seal Assemblies which is found in both documentation package's 415.1/15.2). Attachment 41 is a copy of the Arrhenius program for Conax Penetrations. Since the mini-seals incorporate the same materials and are aged in accordance with IPS-325, it 5ging plus 1 yr LOCA/MSLB DBA with considerable margin. is demonstrated here that they pass a 40 yr freliminary results confirm our engineering judgement that this equipment is qualified for interim operation with only submergence 'capabilities test-ing outstanding. This additional information describing submergence qual-ification 'will be supplemented in Conax reports when completed to demon-strate qualification of both conductor modules and electric penetrations. Conax advised that they will issue an addendum to IPS-409 (tests on mini seals) which will indicate that ECSA (mini-seals) fittings are qualified for -ubmersion based on the St Lucie submersion gence capabilities, Conax has been tests'o demonstrate submer-testing for submergence conditions'est report LPS-850 (design qualification test report for Electric Penetration conductors spliced to Kerite Field Cables using Raychem designed splices for Enqkneer DCA8~ N 824 Date C! ker P Date // g St Lucie Unit 42), which incorporates the same materials used in the Conax ~ ~ (ECSA) mini-seals, has been developed by Conax to cover the assemblies. ~ phd.s test was recently received by Ebasco and is being reviewed;-. Tests per- ~ ~ Ver wed here were much more severe than St Lucie 42 LOCA/MSLB composite specif ic prof ile. The specimens wer'foraged at 168. 5 hrs 9 290 F which is consistant with the IPS 325 report Conax materials (attachment 42) and subject to a severe'BE with submergence occuring at T=94 minutes. (see attachment 2)

                                                           .C J. C. Moulton PrO)eCt Manager JCH:LPA.ss F85926 Knclosures cc: E. Z. Zuchean L. Tsakf rfs G. Krauss K. M. Dotson L, 0, Slept C. Methy K. H. Harris

.~JOR SUPPLIER          ustion  En ineering PURCHASE ORDER NCR DESCRIPTION:      RDP  Resistance Temperature Detectors

     ~ PO~        SraIwna Cdmbu:~en GnpneeIrnO, Inc.

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~gy~ Services,           Xoa, Z   MorM Trade Csoter
~Il     Flaor Neo  YarL,     NY    1M48 Svbgect;             JmtiAcation for Knterile Oper ation             (JTO)   for the   RdF  Reairbacce Temperature    Deteo~y (gfg)

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                                                                               . Page            3    of 3 FLNIDA PSST       & LIerr    COeAXY                 Attachment to f'LANT -

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             '%%%%&%%%%Q   '0'0 TAGS           I     HUDEL/SERIAL               I        COI"PONENT               I   0588 CATI I                                I                                 I               I AUX FIIP 2ARPB          8/H C10          2A          I    LOCAL CNTliL                 I I                                I    STAT  l eh                   I               I AUX FHP   28+Ps     I   8/II. C10 2A                 I    LOCAL CNTRL                         8        I I    STATIC~                      I               I
    .I        MCV  08 TARTP           SEE    E'IDRAC Dl       G    I    HAND CONTROL VA               I      A       I
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                              'he Boveri, resolutions to these comments have not yet As stated in the test report th . local control stations are located in NEMA type 4 enclosures and receive t~:arne vigorous testing that the enclosures for the AC/DC starters have u8Egone in order to be classified as Type 4 (see AC/DC local starter justification for interim operation)

 ~ g Radiation endurance; As  stated in Brown Boveri'eport     4CC-.74-98   for Local Control Stationsg the LCS consist of the following     bill of material-1 - Station Structure 2  - Pushbuttons 3  - Cam Switches 4   Indicator Lights 5  - Terminal Blocks D uring  accelerated aging tests~ the devices were subjected to Gamma radiation from    a cobalt - 60 source. As indicated in the test report, the only equipment that could be impacted by radiation environment is the pushbuttons, switches, indicating =lights and Tea,ninal Blocks. A review of the material make-up of the control stations structure reveals that no'ssential organic materials are used.           It is an excepted fact that metallic materials (these structures are composed of stainless steal) are not subject to the effects. of a radiation environment, and are there-fore excluded to radiation effects. As stated in early paragraphs, these NEMA type 4 enclosures are only subject to operational induced wear, which in this application is net applicable.

    >>anufactured with a phenolic material which has a radiation damage level of 25% at lxl07 rads. Documentation package 417.1, which has been accepted by the NRC at the July 13-17, 1982 audit and is for Buchanan terminal blocks demonstrates a qualification by actual tests for radiation of 2x10 rads (CES sheet 40145)

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   ~ penetration flexible conduits (Conax) has been completed successfully. Final report will be issued by August 15, 1~83 Justification for Interim 0 eration Ruggedness 'of the cable system has been proven in age-conditioning and se>smic tests. The CET cables are part of the inadequate Core Cooling System for which qualification is not required untjl the first refueling. C-E is confident that the subject cables will be completely qualified.

                                El'ectronic Re'sources;  Conax Specification  No.:
                                00000-FEA-5001 I

   ~SLB/LOCA conditions is scheduled for October 1983.           A  test report is scheduled
 ~~for
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                 . Temperature:          '20oF   max.   (30 second   transient)

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  ** Pottincp in leadout  t~   provides hera+tie seal.
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