To ASME Code Section XI Inservice Insp & Testing Program & Info Required for NRC Review of Request for Relief from ASME Code Section XI Requirements

ML19261D501
Person / Time
Site:	Prairie Island
Issue date:	06/08/1979
From:	NORTHERN STATES POWER CO.
To:
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ML19261D500	List: ML19261D499 ML19261D501
References
PROC-790608, NUDOCS 7906190349
Download: ML19261D501 (66)
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{{#Wiki_filter:. June 8, 1979 Revision No. 2 to Prairie Island ASME Code Section XI Inservice Inspection and Testing Program and Information Required for NRC Review of Requests for Relief fron ASME Code Section XI Requirements. dated February 1,1978 Remove the Following Insert the Following Pages Revision No. 2 Pages Title Page Title Page iii 111 iv iv 1.2-1 1.2-1 1.4-3 thru 1.4-5 1.4-3 tnru 1.4-5 1.4-7 thru 1.4-9 1.4-7 thru 1.4-9 1.4-11 thru 1.4-12 1.4-11 thru 1.4-12 1.4-13 (deleted page) 1.4-14 thru 1.4-15 1.4-14 thru 1.4-15 1.5-1 1.5-1 1.5-7B 1-5-7B 1.5-8 (deleted page) 15-9 (deleted page) 1.5-12A 1.5-12A 1.5-24 1.5-24 1.5-43 1.5-43 1.5-46 (deleted page) 1 5-69 thru 1.5-70 1.5-69 thru 1.5-70 1.5-73 (new page) 1.5-74 (new page) 2.1. 2-4

• 2.1.2-4 2.1.2-4A (new page) 2.1. 2-6
• 2.1.2-6 2.1.2-6A (new page) 2.2-1 2.2-1 2.4-2 thru 2.4-5 2.4-2 thru 2.4-5 2.4-8 thru 2.4-11 2.4-8 thru 2.4-11 2.5-1 2.5-1 2.5-6A 2.5-6A 2.5-7 (de'.eted page) 2.5-10 thru 2.5-11 2.5-10 thru 2.5-11 2.5-11A 2.5-11A 2.5-31 thru 2.5-32 2.5-31 (1.5-32 deleted) 2.5-54 2.5-54 2.5-57 (new page) 3-1 thru 3-6 3-1 thru 3-6 3-14 3-14 4-1 4-1 4-5 thru 4-6 4-5 thru 4-6 2308 056 4-10 thru 4-13 4-10 thru 4-13 4-20 thru 4-22 4-20 thru 4-22 4-24 4-24 t

l2 790619634 Use the " Record of Revisions," page 111 and iv to verify your copy of the program manual is complete and up-to-date following entry of this revision.

• There may be two pages with this page number. Remove both pages. The original program manual assigned this page number to two different pages.

e e NORTHERN STATES POUER COMPANY PRAIRIE ISLAND NUCLEAR GENERATING PLANT DOCKET NOS. 50-282 LICENSE NOS. DPR-42 50-306 DPR-60 ASME CODE SECTION XI INSERVICE INSPECTION AND TESTING PROGRAM AND INFORMATION REQUIRED FOR NRC REVIEW OF REQUESTS FOR RELIEF FROM ASME CODE SECTION XI REQUIREMENTS SUBMITTED: February 1, 1978 REVISED: Revision 1 Sep tembe r 15, 1978 Revision 2 June 8, 1979 2308 057

e 6 RECORD OF REVISIONS Page No Revision No Page No Revision No Cover 2 1.5-13 Original 11 Original 1 5-14 Original 111 2 1.5-15 1 iv 2 1 5-15A 1 1-1 Original 1.5-16 1 1 1.1-1 Original 1.5-17 Original 1 1.1-2 Original 1.5-18 1 1 1.1-3 1 1 5-18A 1 1 1.1-4 thru 1.1.1-6 Original 1.5-19 Original 1.1.1-7 1 1.5-20 1 1.1.1-8 thru 1.1.1-17 Original 1.5-22 thru 1.5-23 Original 1 1.1-18 1 1.5-24 2 1.1.1-19 Original 1 5-25 thru 1.5-28 Original 1 1.1-20 1 1.5-29 1 1 1.1-21 thru 1.1.1-33 Original 1.5-30 Original 1.1.1-34 1 1.5-31 thru 1.5-34 1 1.1.1-35 thru 1.1.1-39 Original 1 5-34A 1 1 1.2-1 thru 1.1.2-13 Original 1 5-35 thru 1.5-39 Original 1.1.2-14 1 1.5-40 1 1.1.2-15 thru 1.1.2-18 Original 1.5-41 Original 1 1.2-19 1 1.5-42 1 1.1.2-20 1 1.5-43 2 1.1.3-1 Original 1.5-47 thru 1.5-48 Original 1.2-1 2 1.5-49 1 1 3-1 1 1.5-50 1 1 3-2 1 1 5-51 thru 1.5-54 Original 1.4-1 thru 1.4-2 1 1.5-55 1 1.4-3 thru 1 4-5 2 1.5-56 thru 1.5-59 Original 1.4-6 1 1.5-60 1 1.4-7 thru 1.4-9 2 1.5-61 thru 1.5-63 . original 1.4-10 1 1.5-64 thru 1.5-68 1 1.4-11 thru 1.4-12 2 1.5-69 thru 1.5-70 2 1.4-14 thru 1.4-15 2 1.5-71 thru 1.5-72 1 1.4-16 thru 1.4-34 1 1.5-73 thru 1.5-74 2 1 5-1 2 2.1 Original 1 5-2 thru 1 5-5 1 2.1.1-1 Original 1.5-6 Original 2.1.1-2 Original 15-7 1 2.1.1-3 1 1 5-7A 1 2 1.1-4 1 1 5-7B 2 2.1.1-5 thru 2.1.1-18 Original 1.5-10 1 2.1.1-19 1 1.5-11 Original 2.1.1-20 thru 2.1.1-25 Original 1.5-12 1 2.1-1-26 1 1.5-12A 2 2 1.1-27 thru 2.1.1-41 Original 2.1.2-1 Original 2.1.2-2 1 2308 058 111 Revision 2 6/8/79

O RECORD OF REVISIONS Page No Revision No Page No Revision No 2.1.2-3 1 2.5-29 1 2.1..?-4 2 2.5-30 1 2.1.2-4A 2 2.5-31 2 2 1.2-5 Original 2.5-33 Original 2.1.2-6 2 2.5-34 1 2.1.2-6A 2 2.5-35 1 2.1.2-7 Original 2.5-36 thru 2.5-39 Original 2.1.2-8 1 2.5-40 1 2.1.2-9 thru 2.1.2-11 Original 2.5-41 thru 2.5-44 Original 2.1.2-12 1 2.5-45 1 2.1.2-13 thru 2.1.2-16 Original 2.5-46 thru 2.5-48 Original 2.1.2-17 1 2.5-49 thru 2.5-53 1 2.1.2-18 thru 2.1.2-20 Original 2.5-54 2 2.1.3-1 Original 2.5-55 thru 2.5-56 1 2.2-1 2 2.5-57 2 2.3.1 Original 3-1 thru 3-6 2 2.3.2 Original 3-7 thru 3-13 Original 2.4-1 1 3-14 2 2.4-2 thru 2.4-5 2 3-15 thru 3-16 Original 2.4-6 thru 2.4-7 1 4-1 2 2.4-8 thru 2.4-11 2 4-2 thru 4-4 Original 2.4-12 thru 2.4-28 1 4-5 thru 4-6 2 2.5-1 2 4-7 thru 4-9 Original 2.5-0 thru 2.5-4 1 4-10 thru 4-13 2 2.5-5 Original 4-14 thru 4-19 Original 2.5-6 1 4-20 thru 4-22 2 2.5-6A 2 4-23 Original 2.5-8 thru 2.5-9 Original 4-24 2 2.5-10 thru 2.5-11 2 4-25 thru 4-31 Original 2.5-11A 2 4-32 2 2.5-12 1 4-33 thru 4-39 Original 2.5-13 Original 4-40 2 2.5-14 1 2.5-15 thru 2.4-24 Original 2.5-25 1 2.5-26 1 2.5-26A 1 2.5-27 Original 2.5-28 Original 2308 059 -iv-Revision 2 6/8/79

ASME 3ection U Pr.-3sure Tes.in P:-yram - Uni t Ib. 1 and Comnx)n ;1Amonents ASML Code Edit.icn ind Addene 177'. Edition through and including, Summer 1975 Addenda Program Per f oo: /.pr'.1 16, i 77 t.) August 16, 1980 The system Code Class boundaries are established on the attached ASME Code Classification Drawings, Sheets 2 through 4a. The Pressure lest Program for the Class 1, 2 and 3 systems is as follows: ASMF TEST TEST TEST SPECIFICATION REQUEST FOR RELIEF CODE CLASS TYPE FREQUENCY Leakage refueling IWB-5210(a)

1. 20, #60 IWB-5221 IWA-5000 1

liydrostatic 10 years IWB-5210(b)

1. 20 g

IWB-5222 .m IWA-5000 2 Pressate 10 years IWC-21,12

1. 19, #20, #29

,y IWC-2510 g C7 3 Pressure 10 years IWD-2410(b)

1. 20, #28, #30, N
2. 31 0

0 BEL 52) L T RM N R ;$ rIN an a b CD m O Ch O

ASME CODE VALVES fCLASS VLV ! TEST TEST REQUEST FLOW SYS DIAGRN4 VLV No. j DUC DESCRIPTION CAT TEST PROC l TYPE FREQ FOR RELIEF l SP RHR X-HIAW-1-31 RH-8-1 3 RHR PUMP SUCTION RELIEF C SP-1154(5) CU

1. 13 RHR X-III AW-1-31 Ril-3-3 3

12 RHR PMP DISCil CK VLV C SP-1089 E M

1. 5 RHR X-HIAW-1-31 RH-3-4 3

11 RHR PMP DISCil CK VLV C SP-1089 E M

1. 5 RHR X-HIAW-1-31 RH-6-1 3

2" LETDOWM LINE BP CHECK VLV C SP-1164 E R

1. 14 RilR X-III AW-1-31 RIl-7-1 3

2" LETDOWN LINE BP CllECK VLV E L CS RHR X-III AW-1-31 MV-32164 3 RIl SUCTION FR LP A IIL A 001AA LT D

1. 59 l

SP-1070 LT R RHR X-HIAW-1-31 MV-32165 3 Ril SUCTION FR LP A IIL A 001AA T

1. 59 l

b SP-1070 LT R b RHR X-III AW-1-31 MV-32230 3 RH SUCTION FR LP B HL 001AA LT

1. 59 SP-1070 LT R

RilR X-III AW-1-31 MV-32231 3 Ril SUCTION FR L1 b IIL 001AA T

1. 59 SP-1070 LT R

f001AA RHR X-HIAW-1-31 MV-32066 3 RH RTN TO CL LT

1. 59 l

SP-1070 LT R RHR X-III AW-1-31 Ril-1-3 3 12 RH HX IN E C15 L S CD { RHR X-HIAW-1-31 RH-1-4 3 11 RHR HX IN E C15 L S RHR X-HIAW-1-31 ,RH-2-1 3 12 RHR DMP DISCH E CIS L S Ng RHR X-HIAW-1-31 RH-2-2 3 12 RHR PMP DISCH E C15 .L S

• 8 Z

RilR X-HIAW-1-31 RH-2-3 3 12 RHR HX IN X-CONN E Cl3 L S w I RHR X-HIAW-1-31 RH-2-4 3 11 RHR HX IN X-CONN E CIS L S RHR X-HIAW-1-31 Ril-2-5 3 12 RHR HX OUT X-CONN E CIS L S

F E I TL SE ER UQR EO RF TQ SE ER S S S S S TF TE SP EY L L L L L TT CO R P T S 5 S S 5 5 E 1 I I 1 1 T C C C C C VT LA E E E E E VC S E VL T T A S S V E E T T E N D N O O O O T T L L C C l S S O O N l l l E O X C C I I M I S S S T T I I T T A P U D D U U I O O O R P P C X M M X X S l P P l l E l l l R I R R R R D l I l li R R l l i R R R l 1 2 1 2 1 1 1 1 1 1 S SAG LW 3 3 3 3 3 CD I 1 2 O 6 1 2 N 0 0 2 4 4 1 1 V l l l l l L i i i i i V R R R R R 1 1 1 1 1 3 3 3 3 3 1 1 1 1 1 M A W W W W W R A A A A A WC I I I I I I I I I LI I I I I OA H FD X X X X X S R R R l I R R I I I I Y I I I i S R R R R R $3new NuOC C&N R2a O

ASME CODE VALVES f SYS FLOW DIAGRAM VALVE NO CLASS DWG DESCRIPTION VLV CAT TEST PROC fR REQUEST FOR RELIEF P SI X-HIAW-1-44 MV-32069 8 1 SAF INJ REAC VSL INJ B SP-1137 E R

1. 8 ISOL A fS

^ SI X-HIAW-1-44 MV-32067 8 B SP-1137 E R

1. 8 B

1R SI X-HIAW-1-44 MV-32065 8 E CI SO SP-116/ E R

1. 62 m

SI X-IIIAW-1-44 MV-32077 8 11 CNMT SMP B ISOL B-1 B SP-1137 E R

1. 8

( g SI X-HIAW-1-44 MV-32078 8 11 CNM T SMP B ISOL B-2 B SP-1137 E R

1. 8

( b

• [

SI X-ilIAW-1-44 SI-25-1 8 11 ACCUMULATOR RELIEF C SP-1154 (3) SP 5Y SI X-IIIAW-1-44 SI-25-2 8 12 ACCUMULATOR RELIEF C SP-1154 (3) SP SY RH EXCIIANGER TO REACTOR SI X 'IIAW-1-44 SI-26-1 8 VESSEL RELIEF C SP-1154 (3 ) SP SY g SI X-HIAW-1-44 SI 3 8 ' TOR W M y y C SP-1092A E R

1. 5, #7 E y U

11 ACCUMULATOR OUTLET C~) SI X-HIAW-1-44 SI-6-4 8 C SP-1092A E R

1. 5, #7

[ 9 CHECK VALVE O LOOP A COLD LEG INJEC- ((- C SI X-HIAW-1-44 SI-16-5 8 TION CllECK VALVE C SP-1092A E R

1. 7 SI X-HIAW-1-44 SI-9-2 8

~ C SP-1092A E R

1. 5, #7

~ ~~ ~ H VAT E RX VESSEL INJECTION SI X-HIAW-1-44 SI-16-7 8 M UllEGLYALVE C SP-1092A E R

1. 7 12 ACCUMULATOR OUTLET 3

SI X-HIAW-1-44 SI-6-1 8 CHECK VALVE C SP-1092A E R

1. 5, # 7

• Q 12 ACCUMULATOR OUTLET z

SI X-llIAW-1-44 SI-6-2 8 CHECK VALVE C SP-1092A E R

1. 5, #7 SI X-HI AW-1-44 SI-i 6 ~

0 I C SP-1092A E R

1. 7 p

r

ASME CODE VALVES fp SYS FLOW DIACRAM VALVE NO. CLASS DWG DESCRIPTION VLV CAT TEST PROC 1 SAF INJ REAC VSL SP-1137 E R

1. 8 SI X-HIAW-1-44 MV-32074 8

^ INJ TSOL SP-1072-28A LT R EAC SAF MJ C0w E C1.1.18-1 L S SI X-HIAW-1-44 MV-32073 3 LEG ISOL A SP-1072-28B LT,E R

1. 57 SI X-HIAW-1-44 MV-32075 8

11 CNTMT SMP B ISOL A-1 A -30A LT R SP-1137 E R

1. 8, #16 SI X-HIAW-1-44 MV-32076 11 CNTMT SMP B ISOL A-2 A

SP-1072-30B LT R 2 W W ACC N SI X-HIAW-1-44 CV-31440 hi A g SP-1072-31 T R SI X-HIAW-1-44 CV-31242 N/A 2 ^ A SP-1072-31 LT R N2 S M W M 11 ACC E R N SI X-HIAW-1-44 CV-31441 8 3 ISOL SP-1072-31 LT R SI X-HIAW-1-44 CV-31444 8 "2 12 ACC E R

1. 57 A

ISOL SP-1072-31 LT R l A H

1. 62 SI X-HIAW-1-44 MV-32064 8

A SP-1072-48 LT R k t;$ sm o CO

2:

N O A

ASME CODE VALVES { CLASS FLOW VLV TEST TEST REQUEST SYS DIAGRAM VLV No. DWG DESCRIPTION CAT TEST PROC TYPE FREQ FOR RELIEF SI X-III AW-1-44 SI-6-1 8 12 ACC DISCll CllECK A ,SP-1070 I.T R SP-1001AA LT D

1. 59 SI X-HIAW-1-44 SI-6-2 8

12 ACC DISCll CP 'K A SP-1070 ~~LT R SP-1001AA LT ' D

1. 59 SI X-HIAW-1-44 SI-6-3 8

11 ACC DISrH CllECK A SP-1070 ___LT R SP-1001AA LT D

1. 59 SI X-HIAW-1-44 SI-6-4 8

11 ACC DISCll CllECK A SP-1070 LT R SP-1001AA LT D

1. 59 l

SI X-III AW-1-44 SI-9-1 8 SI to LP B CL CHECK A .SP-1070, .. LT R SP-1001AA LT D

1. 59 SI X-IllAW-1-44 SI-9-2 8

SI TO LP A CL CllECK A SP-1070 LT R m SP-1001AA LT D

1. 59 SI X-III AW-1-44 SI-9-3 8

LO IIEAD SI TO RX VSL CllECK A SP-1070 LT R f SP-1001AA LT D

1. 59 N

(ja SI X-III AW-1-44 SI-9-4 8 LO IIEAD SI TO RX VSL CllECK A .SP-1070 LT R C3 SP-1001AA LT D

1. 59 OO l

SI X-III AW-1-44 SI-9-5 8 LO IIEAD SI TO RX VSL CilECK A SP-1070 CZ) _ LT R SP-1001AA LT D

1. 59 CP LJ' SI X-HIAW-1-44 SI-9-6 8

LO IIEAD SI TO RX VSL CHECK A SP-1070 _ LT R SP-1001AA LT D

1. 59 m :n SI X-111 AW-1-4 4 SI-16-4 8

SI TO LP B CL CllECK A SP-1070 LT R EsE! SP-1001AA ' L'T D

1. 59 3*$

SI X-III AW-1-44 SI-16-5 8 SI to LP A CL CllECK A SP-1070 LT R SP-1001AA LT D

1. 59 SI X-III AW-1-44 SI-16-6 8

SI TO RX VSL CllECK A SP-1070 LT ._ R SP-1001AA LT D

1. 59 SI X-III AW-1-44 SI-16-7 8

SI TO RX VSL CilECK A SP-1070 LT R

1. 59 SP-1001AA LT D

ASME CODE VALVES FLOW CLASS VLV TEST TEST I REQUEST SYS DIAGRAM VLV NO. DWG DESCRIPTION CAT TEST PROC TYPE FREQ FOR RELIEF SI X-III AW-1-44 CV-31447 8 ACC AFTER CIIECK TEST VALVE A C1.2 E CS SP-1001AA LT D

1. 59 l

SP-1070 LT R SI X-III AW-1-4 4 CV31449 8 ACC AFTER CIIECK TEST VALVE A C1.2 E CS SP-1001AA LT D

1. 59 l

SP-1070 LT R SI X-III AW-1-4 5 SI-13-1 9 11 SI PUMP DISCllARGE E C1.2 L S SI X-III AW-1-4 5 SI-13-2 9 12 SI PUMP DISCIIARGE E Cl.2 L S SI X-III AW-1-45 SI-14-1 9 11 SI PUMP DISCllARGE X-CONN E C1.2 L S SI X-III AU-1-4 5 SI-14-2 9 12 SI PUMP DISCIIARGE X-CONN E C1.2 L S g b SI X-ilIAW-1-44 MV-32073 8 III IIEAD SI TO CL ISOL E C1.2 L S SI X-III AW-1-4 5 MV-32206 9 RilR TO 11 SIP E C1.2 L S SI X-111 AW-1-4 5 MV-32207 9 RIIR TO 12 SIP E Cl.2 L S N U C CD C Os Ch O en an EE ~ l

WC.,0 t. c v A'yL3 fR - SYS FLOW D1,c, RAM VAINT. % OL.sSS o v Eir.R I P t v., J VLV CAi TF,ST PROC REOUEST FOR REI.IEF P L,P SEAL WATER FILTEF CVC X-H2aw-t-3t$ Vt - o-t I I Nt. RELI F,.- C SP-ll54 (1) SP SY CVC X-Hiaw-1-39 VC-76-1 4 C SP-1154(1) SF SY l CVC X-Hiaw-1-38 VC-8-7 4 C SP-1166 E R

1. 39 CVC X-Hiaw-1-38 VC-8 *.

12 RCP SEAL LINE CHECK C SP-1166 E R

1. 39 G

HECK DWN l CVC X-Hiav-1-38 VC-8-? REGEN HX ~ C 1 REAC CLEr LOOP P5R ~~ ~~ ~~ ' ~ ~ ' ~ ~

1. 27 f

CVC X-Hiav-1-7 CV-31226 p ~ ~ LTDN LN ISOL B ~ ~SP-ll62 E R

1. 35, #18 l REAC CLNT LOOP PZR CVC X-Hi.aw-1-7 CV-31255 2

LTDN LN ISOL B SP-il62 E R

1. 35, #18 CHARGE LN CV-31328 CVC X-Hiaw-1-le VC-17-1 4

BYPASS CHECK C

1. 27 N

U ) O O a N m x -a ....... _... - ~ (%su a 3 C','C X-Hiav.1-39 VC-24-1 VCT RELIEF C SP-115,-(l) SP SY C$ z N

ASME CODE VALVES SYS FLOW DIERAF VAI 'i' NO CT.AF IN'C DESCRIPTION VLV CAT TEST PROC TYPE FREQ RELIEF CVC X-HIAW-1-38 VC-8-4 4 12 RCP SEAL INJ CHECK A SP-1072-I3B R ..._. e _... _. CVC X-HIAW 3.* VC-P-5 { 11 RCP SEAL INJ CHECK A SP-1072-13A LT R CVC X-HIAW-1-38 VC-14-1 A ~ ~ l ~ P ~ R0 E VE U CVC X-HIAW-1-38 VC-14-2 4 ^ ~ ~ T R Ti!ROTT VE CVC X-HIAW-1-38 MV-12193 ^ SEAL RETURN CNTMr IS01. A FP-1072-14 CVC X-HIAW-1-38 MV-32166 4 SEAL RETURN CNTMr TS01. A SP-1072-14 -g g E R

1. 57 CVC X-HIAW-1-38 VC-8-1 4

CHG LINE CNTMT CHECK A S P -1072-12 LT R CVC X-HIAW-1-38 CV-31339 4 La DOWN C11TMT ISOL A SP-1072-Il R CVC X-HIAW-1-38 CV-31325 4 I.T DOWN ORIFICE ISOL A SP-1072-11 R fT CVC X-HIAW-1-38 CV-31326 4 LT DGWN ORIFI E ISOL A SP-1072-11 R CVC X-HIAW-1-38 CV-31327 4 LT DOWN ORIFICE ISOL A SP-1072-11 ~ .I R E R

1. 57 CVC X-HIAW-1-39 VC-7-11 5

CHC LINE HCV ISOL A SP-1072-12 LT R e-4 o CVC X-HIAW-t-39 VC-7-10 5 CHG LINE HCV BYPASS A SP-1072-12 LT R g CVC X-HIAW-1-39 V-31193 5 CHG LINE HCV A SP-1072-12 LT R

m 1

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g y )y ' ~Mw> F q@ t E I C LE R ROF TS E UQ 0 0 0 0 9 1 1 1 1 E 9 M i R E M M " Q M M Q Q F E E E E E E E E C a 3 O 6 8 8 0 0 R 1 9 1 1 M 0 5 5 P 5 1 1 1 1 1 1 l 2 1 1 1 1 1 T l S ~ P P P P P P W E P S S S S S S T S TAC B B B B B B B B B B B VL 7 N V L. S K K R R 1 D C C E E N V R A B A ^ A T T G B B A A l O S F9 A R R W W O N S N D D R N L E F H H N W M 2 E 2 P R 2 E R 2 R 3 H T l C C i M C 1 P C C S S O i N S S S S GL T O O T D D R R DO G TG P r LS R T N N 1 P P W W I BI B E I RI r W W T P BR A L rL g L L C M RE I R E WE g C C L C V V C H fg CH UD A R 1 1 g S S S T A S A R MR 2 2 2A E r. T CT 1 1 2W 1H 2, b j CW D e J 4 _ t. 4 4 4 4 4 4 4 4 4 4 c 1 i 1 1 1 1 1 1 1 1 1 1 i L. 8 l4l4 3 4 _ 7 3 7 5 1 3 4 5 1 3 0 - T 3 5 2 3 3 5 5 5 5 3 3 3 N' 1 1 4 4 0 0 6 6 6 6 0 0 0 1 3 1 1 2 2 1 1 1 1 2 2 2 F 2 1 3 3 3 3 3 3 3 3 3 3 3 V IA - V V V V V V V V V V V V V S S C C M M C C C C M M M V AuG 6 6 6 6 6 6 6 6 6 6 6 6 6 A - 1 1 1 1 1 1 1 1 1 1 1 1 1 I . 2 2 2 2 2 2 2 2 2 2 2 2 2 D 9 9 9 9 9 9 9 9 9 9 9 9 9 3 3 3 3 3 3 3 3 3 3 3 3 3 W O F F F F F F F F F F F F F L N N N N N N N N N N N N N F S L L L L L L L L L L L L L Y C C C C C C C C C C C C C S e, ? ", M Q e. N "C C W *Sw D 3h C

c @icBb Wy l g FE I L ER RO F T S 1 1 1 E 6 6 6 U Q E 5 5 R S S S C C C W W Q Q M M 2 2 S p E E E E E E E E E L C L L C1 C1 O 3 3 3 b a R 8 8 6 6 3 5 N0N5 9 9 9 P 5 5 0 0 9 9 A3 A3 1 1 1 l 1 1 1 0 0 M M T 1 2 1 l 1 1 1 1 1 1 1 S ~ S. S. E P P P P P P P P P P1 P1 F S S S S S S S S S OC OC E AC B B B B B C C C C E V L V S E VLA E P P N E G 7 P P H M M N W W U U I I E F F R P P K L 1 L-D ^ A A E OL 0 O T R R R OO 0 O C 1 1 A ^ EKEK EK CS C S-2 1 W TC TC TC C I A F L L AE AE AE N N N N O O EO O WH WH WH Ey E EY E N T T IS S u. C C C C G C GL C v CI I EE G EE , p p P 4' R R NE E I, LP I E E BB A IG I G I E EU E l LR LR MG W. P T T / R M S S S S S I ^ A A AR^R OAOA 0A E E F R W W E E OH OH 0H I R 1 R C L L PV V CC CC CC C DE D F S O 4O O0 0 S S S S T r E N S O-1I 1I 2I 1 2 2 A i, lCI X j L X_ D I 1D 2D 1D 2D D Dy DW M ~ S 4 4 4 4 4 4 4 4 4 4 4 4 1 1 1 1 S 1 1 1 1 1 1 1 'A. ~,. ~ ~ ~ O 7 6 T, 9 4 ~ 2 1, N 2 2 2 5 4 1 2 4 1 2 3 0 0 1 1 3 3 E / 2 2 2 2 3 4 3 4 8 8 1 V 3 3 3 3 1 4 4 1 1 4 i L L L V V V V L C L C V W L W % __ M A M M M C 2 C 2 C C C C V [ M ~ A ~ d o 6 6 6 6 6 6 6 6 6 6 6 6 - A 1' ^ 1 1 1 1 I 1 1 1 1 1 1 1 1 2 2 2 2 2 U 2 2 2 2 2 2 2 2 9 9 9 9 9 9 9 9 9 9 9 9 9 _ W 3 3 3 3 3 3 3 3 3 3 3 3 3 O L F F F F F F F F F F F F F F N N N N N N N N N N N N N S Y L L L L L L L L L L L L L S C C C C C C C C C C C C C a NUO N@0 w H e

SECTION 1.5 REQUESTS FOR RELIEF FROM ASME CODE SECTION XI REQUIREMENTS DETERMINED TO BE IMPRACTICAL UNIT NO. 1 AND COMMON COMPONENTS This section contains a tabulation of all of the requirements contained in Section XI of the ASME Code that we l' ave determined arc impractical on Unit No. I and common components. The Requests for Relief are numbered sequentially with the following exceptions: Request for Relief No. Remarks 6 Withdrawn l 15 Withdrawn 36 Withdrawn 37 Withdrawn 38 Withdrawn l 41 Withdrawn 49 Withdrawn 2308 071 1.5-1 REVISION 2 6/8/79

-r 5. REQUEST FOR RELIEF (con't) Stroking these valves requires cycling of category E valves, the mispositioning of which causes a compromise of the safety function of the system. Such risk is not warrented by increasing the stroke interval of these valves. RS-15-1. 2 These valvec are open to a position required for the system to fulfill its safety function. Suf ficient steam passes through the checks to allow the turbine driven pump to discharge safeguards flow. CS-18, 19 These valves are partial stroked each refueling interval by measuring water discharging from a vent valve upstream of the check valve. The valve can not be stroked quarterly since this requires taking safety systems out of service, i.e. a containment spray pump. D_CW and DG FUEL OIL TRANSFER PUMP C11ECK VALVES These valves open to a position required for the system to perform its safety function. Sho.4d a check valve fail to exercise, the system would malfunction and an alarm condition would result. The exercise test is performed at r least monthly during transfer of oil from the fuel oil storage tanks to the diesel engine day tank. Y El ALTERNATE INSPECTION (TESTING) sg Substantially free flow through the valve will be verified by other positive means such as system pressure, level or "p flow changes. ya yy SCHEDULE FOR IMPLEMENTATION -a om Consistant with implementation of the exercise test for these components. N U cng S<: O ss CO YY e O N ~ N

8. REQUEST FOR RELIEF (con't) MV-32074 This valve is required to be closed for overpressurization protection of the Reactor Coolant System during cold shutdown and therefore is not stroked each cold shutdown. The valve is not stroked quarterly since the valve is called to be in the open positluu for normal system operation. MV-32075, 76, 77, 78 Stroking these valves requires removal of both the safety injection pumps from service since there is no mini flow protection for the pump. MV-32067, 69 These valves are required closed for normal system operation. Errors in repositioning the valve could cause thermal shock to the reactor vessel nozzle should a spurious safety injection signal occur. MV-32162, 163 These valves are normally open. Closing these valves removes a safety injection pump from service. The reduction in g redundancy is not warrented by the increase in valve exercise frequency. u Op MV-32206, 207, 096, 097 ihe power supply to the valves is required by T. S. to be in the OFF position. Cycling these valves requires turning the power supply to the ON position. No changes to the T.S. to permit testing can be made without introducing the possibility of failure of redundant trains of concentrated boric acid or caustic addition. FN) MV-32202, 203 u C3 Stroking these valves removed the mini flow protection on the safety injection pumps, therefore takes both safety CE) injection pumps out of service, bk MV-32103, 105 u Stroking these valves requires the use of electrical jumpers and removes the associated containment spray pump from service by regttiring the closure of a category E valve. S<

7g MV-32008, 099 Stroking these valves requires the use of electrical jumpers and closing breakers required by the T. S. to be open.

MV-32096 and 32097 are interlocked with MV-32098 and 32099 to provide a continuous suction for the CS pumps. w Testing these valves (which would require a TS change) is impractical except at refueling due to the need for excessive manipulation of safety related equipment to perform the testing.

~ Ev ta-B B B B B B r L e xef y eh o s b t e e u d b gm a 3 3 3 3 1 1 e ni UC. i lh r li t u i se q wih e lt r sb eat s vt a a l s t t aes g n n e e d v e n e e n n e rr i m m i i h eou n n n l l s hfd o i i i T e i a a r r n n l sc t t t e e w w b i o c n n d d o o a .sr n o o a a d d t sap u c c e e t t s eb f h h e e e v t o o l l l es e t t r r e ah e v e e n n b vt t l w w t t i i o o a a a t eee v l l w w e e o sd s f f r r n eii f l l u u h vc o c c l l l l l t or i i i i i i l re n t t h h a a i rpx o s s c c f f w o e i u u fl t s a a e e e e s l e a t c c t t t t t sih c n a a a a s ewt i e w w l l l l e m d n o o o o o o t iao n o l. l. s s s s t t t i p l p l p i i i i e an m am am s edi y o N u u o o o o i k r c O op op t t t t c osd o I t t r rie t e T y y e e e e e thr c s C na na s s s s x sTo a e N er er o o o o e t f h U pp pp l l l l e c s t F O s Os c C C C e l .a i v bdf t r l ae a o a nne s f t v oib e n n sa e t e e t l o o l atl d s p p e t i i a ebl i e i i l u t t i roi v t p p n O a a t w o d d I l l i h e r e n n r o o n sb s p s a a r e s s i i e i t t e l I I ll u l c S S l l r bll l r l i e e o aia i e s s i h n n f t wv w x u u h C i i s e a a C L L e eae s C C m t s t e n n i oae s h m m r r d d t tdh e t o o t t t t T r r W W L L e ee e f t f f k l m.t e o m m r r o bi a s t t o o z z r at ed ) i n c c o o P P t l mp G c c u u R R s i eiu N r i S S p p akt I e N t l l o o l vo m T x O a y y o o o o l area S e I t a a r r L L u tk r E T n r r t t f nsog T d A e p p n n t t o ro ( e T m F. S S o o n n f idt r l N e E n n C C i i o t nsp N u E l I t o t o C C aa O d M p L mi mi 2 2 e m fh I e E m E t t t t 2 2. c c u rd ot T h L i R aa na 1 r 1 r a a T l. oe n C c P Cl Cl /e / e e e N a) f rso E s M h R o o 1 v 1 v R R E v1 niem P I t O 1 s 2 s 2 o 2 o M ( i uu S y i F T 1I 11 1X 1X 1 1 E g) ql0 N l R w N r E R nc oea2 I r O I i( nrv a F t S N U t t E l n E O 1 8 8 7 6 5 Q i0 ssgs T u E a U P 4 3 3 3 2 5 E m1 i anr A g L t Q M 9 9 8 8 2 2 R i4 ii N e U s E O 1 1 1 1 1 1 l3 S edtf R r D i R. C 3 3 3 3 3 3 E I rei E E s D e S esme T e H n hW A hiih L h C o 8 V V V V V V O 1 C C C C C C C T1 B Tcl t A T S C P. Yt# guoC ONO @2M8z o D N o2 $

35. REQUEST FOR RELIEF ASME COMPONENT FUNCTION Code Viv Class Cat CV-31226 Reac Cool Lp Prz Ltdn Ln Iso close to isolate failure in letdown line 1

B CV-31255 Reac Cool Lp Prz Ltdn Ln Iso close to isolate failure in letdown line 1 B CODE REQUIREMENT The valves will not be exercised at cold shutdown condition as required by IWV-3410(b)(1). BASIS Extensive operational problems are created in exercising these valves during cold shutdown as the letdown line must be removed from service. ,e ALTERNATE INSPECTION (TESTING) [ The valves will be exercised during refueling outages when plant conditions are more appropriate for a test of this type. w SCHEDULE FOR IMPLEMENTATION Refueling outages subsequent to April 16, 1977. 5 .~ CR Nu O CD C RR N R;$ tn e m

59. REQUEST FOR RELIEF ASME CODE VLV COMPONENT FUNCTION CLASS CAT 32164 RH Suct FR LP A HL Isolate RCS from Low Pressure System 1

A 32165 RH Suct FR LP A HL Isolate RCS from Low Pressure System 1 A 32230 RH Suct FR LP B HL Isolate RCS from Low Pressure System 1 A 32231 RH Suct FR LP B HL Isolat. RCS from Low Pressure System 1 A 32066 RH Rtn to CL Isolate RCS from Low Pressure System 1 A SI-6-1 12 ACC Disch Check Isolate RCS from Low Pressure System 1 A SI-6-2 11 ACC Disch Check Isolate RCS from Low Pressure System 1 A SI-6-3 11 ACC Disch Check Isolate RCS from Low Pressure System 1 A SI-6-4 11 ACC Disch Check Isolate RCS from Low Pressure System 1 A SI-9-1 Si to LP B CL Check Isolate RCS from Low Pressure System 1 A SI-9-2 SI to LP A CL Check Isolate RCS from Low Pressure System 1 A g SI-9-3 Lo Head SI to Rx Vessel Check Isolate RCS from Low Pressure System 1 A SI-9-4 Lo Head SI to Rx Vessel Check Isolate RCS from Low Pressure System 1 A SI-9-5 Lo Head SI to Rx Vessel Check Isolate RCS from Low Pressure System 1 A SI-9-6 Lo Head SI to Rx Vessel Check Isolate RCS from Low Pressure System 1 A psy SI-16-4 SI to LP B CL Check Isolate RCS from Low Pressure System 1 A l>4 SI-16-5 SI to LP A CL Check C3 Isolate RCS from Low Pressure System 1 A C33 SI-16-6 SI to Rx Vessel Check Isolate RCS from Low Pressure System 1 A SI-16-7 SI to Rx Vessel Check Isolate RCS from Low Pressure Cystem 1 A C3 4 31447 ACC After Check Test Valve Ch Isolate RCS from Low Pressure System 2 A 31449 ACC After Check Test Valve Isolate RCS from Low Pressure System 2 A esps S Q CODE REQUIREMENTS hhhValveslistedinthisrequest for relief will not be tested as required by IWV 3410 and 3420. O BASIS g The alternate inspection (Testing) method gives better assurance of the continued ability of the components to perform their intended function.

tn s e e rt m yc onh g. gl r t ac ne neu cl a i g i t o aot na rasl eot ek uc a rCA pa dil c oe xl i ern l eoap h oi y rr y t t b r upsT cd i s pe t ae d e sar seb eh e u eRi ht rsss t r s pi am ec i g ee sh s l n l rmt it e pi ao s h d mt i rh y th oa t rcs t s cu nei gi a cl e h e nW aa y rd wr i d v t ee u r e se i f t t s f ass u .n i r i mee D ei d g dit r vm. sn e t p .l re i a t aev h n nsk oE aw d vtl Tg I i eo e ea n mnd v .i y t .ll ro r r c o oisn eo a n 1 "e t u f ti o vt d f t nn ra i li n nii el mt an u t el poea vo o am s stl m B h ne siso n d c ov i ys od m ea" l eSi i n e t t a mr t a t st nv eut e a s eAa t snr l e y t nt ssau ov S nsoi yel s sl kiii n S ros i a t a t u poe v n ed sa t C r e a l eil h n) p rn l bhoc eiT sa at r uo o l not si o b r i e c oat n st C l s.en od ca ea l erri C nad rl r id ou uen po o w rse rdR u s t srst oe d ti c nieeu t ree s a o r n c( h r re e i t t pi a t i r R t sn m ed d f u ceet/ R nt n s s nt msn oao es e u uao ec c h e r f s r pl h eee t r u i t l t sgs p s 2 nh sea a f s oT ngg f ek e od a n i ia oh ah n o t k5 t et yo e i a .f a t l t c. v s l t oe0 so f i eg o i os l et eo rsn b v sen o t h g i a e it ogt dt y edl R in ee t t ne 3 eyti1 gd ni nau f r rad uogu0 anor i f o st al k eig t e snpc m at t e esr 2 e ) ) eeono exit h r t t G r vrir l ed n tih a ni f c 1 N d N pnp ,f 'n aso s a O I i o T a nee i ce eee n I l c S t ogr g h th i T a ( E gn aa neyt atd A t T nadk i rr r e d T t F ( il ead l uas t nm e N i E vosee esd e ser b E m I N roal r usnt neo i M b L O ecb u f eua owf r E u E I s t s eror mt r c L s NuOO oNN R T rena rpbt eee s P C sot ae s db p e M m R E at ul m h msn d I o O P cno ceio t ss r F S d aios ath n sei g R f N eemce est e ev n O T I t r/ t y d tl t i F s S s nra gsn as t h E E iyoor n is d ve s E t U T lll t i t i n t e L n Q A il ce E N saaag wnmh on t U o R R ed gea oaeT cis D m E v rk ll t eai e E a l os srh h H x 9 T l e 1. f e o o y1 dT T C i 5 L ah A Vt0ol F cS A S S 1 2 3 4 o oE;gz r oSMe s

) s r vt n s e i a B B B B o r t VC l e a l i w a r g r r s a e i0 b v 0 i e r y 0, h l E p0 t d M s S es 3 3 3 3 p0 e A d a u1 f t s o a ol f n CC l o e i a n m mt o a e ri t t om s n a Ni k o s l a c n e e .e r f d sm b o n r u o ol s l c t o e a av v v f r l o o er a m ne v e t r ew s go e r rs l h o eo m t f tl an a eo g d wf ti n e o m st i. r r a kr r et 3 vn ec oe o hi rt f i e tf t a r rv i S w e e y oc p t e r l n . e e pi p p pS d v b u ei N u. el nr n O sn k a e a I e T og ac pd c mi oe C t N m n t g U na fh ya n F ee oc l n i e li h pt O s yT am s 0 l( ua u 2 p nt l 5 p an f 3 us mo sk c n V n e e W pa ry h 1 ut al w k l y ce ya n b ag ec w b a hi o 2 d r T m d e ao e t .h u n r t c h o i es i u d l s q i e ae s i e vt nh d r oa gt l v rs i o e R s pn sd c a e. n f od r na h d t ne e c o 0 7 6 5 e ov pr a 3 2 2 2 s sci oe ) e e i i r t G t 0 0 0 0 2 2 2 2 c e oa N d a r sh e t w I e N d 3 3 3 3 e eth u T k O F P P P P x v t ad S o I l E W W W W e l m e E r T a I F F F F aom oz T t A t L A A A A e vro ni ( s T t E b f r l N i R 2 2 1 1 e f ea N e E m t sr vr O b M b 2 1 2 1 R o eey i e I E u O o o o o n htl en T l L s T t ap ci C l P F T t t t t N N l wp em E i M m E l f u re P w I o T E r r r r M i od s d S r S N e e e e E w e s N s R f E O t t t t U P a a a a R ezp ee I e O I e si u vh v F s Q M W W W W E O U e olk l t E l h R C G G G G Q v pac a T a E t L L L L E l rra vn A v L n C C C C R a ueb e N U o v S pn ee R e D m E I ih sw E s E D e S emt et T e H x 1 O h A h ei h e L h C i 6 C T B Td w Tb A T S S ' t a" E$$en n NUCC gNC RRa D D

62. REQUEST FOR RELIEF ASME COMPONENT FUNCTION Code Viv Class Cat React Vsl Inj Fr RIl MV-32064 Low head SI to reactor vessel.

2 A React Vsl Inj Fr RH MV-32065 Low head SI to reactor vessel. 2 A CODE REQUIREMENT The valves will not be exercised as required by lWV-3520. BASIS These valves are normally closed. They open automatically on receipt of an SI signal. F Reactor operation with these valves open is possible, but closed they afford an additional degree of protection T' for low pressure RHR piping. During periodic exercising of these valves, both check valves would have to be stuck U open a significant amount to threaten RHR piping with overpressurization. While this possibility is remote we will revise our valve testing program to eliminate this potential hazard by scheduling tests for refueling outages when the reactor coolant system is depressurized and cooled down. ALTERNATE INSPECTION (TESTING) These val:res will be stroked each cold shutdown. SCHEDULE FOR IMPLEMENTATION Six months f rom submittal date of Revision 2. R$! R3 @o N U N O CO O N<

) ) ) S ) ) D S S C S S E L M M M M M N E A A A A A ON W E E R E 8 E E O 6 R 7 R R S H 606 R 4 T 4 1 T ET T 455 T T S S S S S S DN U K UI B R OoO. AEA A E A A, E A BE8 8 EBLOE NNN 6L7 6 L 7 6 L 7 6L7 6L7 CJN A L M 4P4 4 P 4 4 T4 4P4 4P4N I A I FFF I I - I - - I - - I - I l L T I I TI I T? O 5 I R EEE I T! I T I I T I I I SLs S L S S L S SLS SLS E EEE - M - - M I I M - I UI I UI INH N LLL I UI I U U I C - M- - M - A ( 2 2(2 2(2 5E F R RRR 2(2 2 ( 2 2 O EFM 1 2 I U 2 2 2 C C D G, R R R 6 6 A B CD D 2 1 I O O T R, R. B B L L C T T A A T R R '6 '6 E E D D E E 2 2 N h 4 H f G N N 7 7 E E X, X r T i E N E E P P F F t L B G N G C L L E E A A A A I O E E U U I I P R R L L T P I I P T O O 1 1 R R 1 E E 1 1 A T T 1 C D '5 '5 '5 '5 '6 '6 '5 '9 '9 '9 N I I 9 9 9 9 2 2 3 5 3 5 T 7 7 7 7 7 7 7 7 7 7 I L L L L L L L L L L R E E E E E E E E E E OV cM T 3 ) ) ) ) 7 7 7 7 7 0 3 0 0 0 0 5 5' 5 5 1 ( ( ( ( ( N g O ) I D. TOR i IY iR O E E E pE0 N N N sP1 W O O O N ( J R' YN 0 0 0 2 0 2 0 1 0 0 1 1 RM YS 1 0 3 2 6 0 2 1 1 2 0U 4 S i LEM CL I CBT 1 1 o 4 0 1 5 5 5 5 AII t 1 AM L 1 1 0 9 2 2 MI T 1 1 1 6 6 6 6 I EN D I T, T T, T, T. T, T., T, T, I NT U, U, U U U U, U, U U E U M S 1 2 D L S S N D E M M Y 1FE W 2 2 R 1ON A S I T 0 0 N YNM T 3 3 1 SOL U U 1 I D B S RTE R, OF L R N IE A A B A B A B ADBD A B O TRB I 1 2 1 2 1 2 H H AC T M - M - M - M-M- M - M M M1 M2 IT GS0 N ASAS AS AS AS AS AFAF A - A - D L E1 E EMEM EM EM EM EM EEEE ESES UD R T2 T2 T2 T2 I2 T2 TI TI TMTM ( IP N E S S - S - S - S - S - SLSL S2S2 R2 S MD I F 2 2 0 0 1 1 F E E N NT M N3N3 N3 N3 N3 N3 NRNR N6N6 QAI T I WI U I I I I I I I I I I A A A A A C A A A M M M M M M M PN L R M M M A I L S V E C ID R TN E D AA T I TL N S MEY SS I Y ATR G AO I S DCC N R C RE A 2 EI E !R Y S 1TI S RA N A m OR I I 1 NP l C EI T 2C iI N6Cg CQC nMCMCHOA' N h

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l( S ) ) ) ) D S S S S L M 4) M M M T A 7 G A A A k E E E E T W X D M D - F ?T S S S S S l K &D B R E S E E E A 9LR 88 2L0 5L5 5L5 L N 6P6 66E 5P5 7 P7 7 P7 5 A I - I - - - L - I - - I - - I - I R ! Tt I 1 G I TI I T1 t T1 T S1S S5N S1S SL5 SL5 N f I t I I 1S I tI I U1 I U1 I - h - - M - - M - - M - F R 2(2 22( 2(2 2(2 2(2 O E F N I C 2 2 N N N N 1 2 T T T T I 2 R G G, GG E E 4 D D DD M M E M E I 2 C L L I L T T N N N N R ti BB I I I I I I P P A A A A T T T I E G X X. XX. R R N N N M E N U U ' U H H O O O O l B N A A AA R R C C C C A Y I O P T P I I P TA CD '3 '3 '0 '0 '8 '8 '8 '8 '8 '8 N I H 0 0 00 7 7 9 9 9 9 7 7 77 6 6 6 6 6 6 I L L LL L L L L L L R E E EE E E E E E E O JA M M ) ) ) ) ) 0'. 7 6 - 0 7 6 5 - 5 8 5 0O ( ( - ( ( ( . I NO ) I D

TOR, Z

E fIY E - E FR R - R E PE0 I 1 N ( N SP1 U o 1 I RW Y 1 0I 1 0 01 0 0 0 0 0 1 1 YN R 1 1 05 1 1 2 0 1 1 0 4 5 tE UgT I L 4 2 18 4 4 2 3 1 4 AgI TN LA 4 2 I8 4 4 2 3 3 4 U TI EN D T. T, TT, T, T, T, T T T, NE U, UU, U, U U, U U U U YT E N, D A L E F Y FE S A C 1 R 1ON ) V N A S I e D O A N YNM T E M I I SOA N E C I F IX Y I H S S RTE L B I OI P M T D A B A 3 N IE O TRB T A a O A A 8 8 8 9 9 I 3 3 78C E 9 9 R 2 2 2 2 AC S 1 1 1 1 H O I T TS0 - - S I I T I I 1 I m L %D I O E1 D I I 1 I T. L S S A S S 5 S E N S S SSh %N2 2 I 2 2 2 2 P 5 N C R2 S DI A I 2 2 22 I t O - U E N DNT - - L DI 0 0 NS2 2 2 2 T 6 6 88( I T1 1 t E1 1 1 1 iT I (AI C C SC CN OI PN L I fE EU CI R RS AL A O I S( V s N B ED R u ) TN Y A J a TI N 1 EY T WAO n SS I TR NG I 5 O - N R ECG CC RE A 2 ( EI E R Y S DI RA i S OR D A UN I 1 NP T C B 2 S C n s<H C tOL': N

t' O4 N*y.N m CCN m%0NNO D

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l SD ) ) ) ) L S S S S T M M M M W ) A A A ) A M E E I M E T A R R A 1 t T F T T E 1 M U R S S S R S T T B S E E E S E L 6 6L4 2L0 2L0 0 2 L 0 A M 5 E 5 P5 5P5 5 P5 5E 7 P 7 5 I R I G I T1 I TI I TI I G I T 1 I - L - I - - I - - I - - L I T N SN SL5 SLS SLS SN S L 5 E I I I U1 I UI I UI I I I U 1 R - S - M - - M - - M - - S - M F E 2( 2(2 2(2 2 (2 2( 2 ( 2 O F M 1 U 0 8 C T1. T 4 1 2 1 2 TT TTTT 2 I M R N#M N 2 2 2 2 NNM NNNN 2 5 C .R E EER EEEE E M MM MMMM NTY N T, T T T T NNY NNNN I EA I E I I I I I IA I I I I ANR A N P P F P AAR AAAA G TEP T E TTP TTTT E N UPS N P t l H I CC, CCCC ( O i i I NNS NNNN R R R R L E I OO OOOO B G P R C,, C R R R R A A I TT T T T P P NN N N T OO O O M CC C C '2 '2 '2 '2 '7 '2 '2 '2 '7 '2 '2 '1 '2 '7 '7 '3 N 1 1 1 1 1 7 7 7 8 1 1 1 1001 E 777 7 7 6 6 6 6 777 7777 I LLL L L L L L L LLL LLL'. R E EE E E E E E E EEC EEEE O J A P )RT ) ) ) ) ) ) EE A 1 %7 7 7 7 7 %3 7 7 0 - - 5 0 5 0 0 C - - - - 0 YC 0 - - 05 5 0 0 0 - - 05 - - 5 R 1 - - 1 1 1 1 1 0E ( ( ( ( ( ( 4P ,( N ))) )))) O ) ID, 222 111 1 ((( (((( top E E E E E LI3 E E E E L IR EOR O l O O F EOR EORE t R 1 N l pin SPg OWT W i W W 1 GWT OWTO N i T 1 i N HN N I R' M YAX 0E 3 1 1 1 0 1 1 6 3 1 1 ,RM YA X 0 2 6 3 2 4 3 9 3 0E 1 2 4 i ;2 y, n Gg Lgn 0 AIg 1 4 1 3 3 5 7 3 7 6 1 2 1 LSAN WI 0 4 1 3 3 5 7 3 7 6 IT 1 1 2 1 SD E1L D T, T, T. T. T. T, T T, T, T. N U U U U U, U, U Um U, T U U l f, D Y DFE R ION A S I M1 YNM E SOA C N l IC R N O S RTD A O LI OI Tl TI ET l N IE AC1 B ATA B SCA 8 O FRB l I - 1 1 HU - l 4 4 f VN - ES1 2 0 EC5 5 A B 3 SE5 5 NC t Dt i I L Ri R H H R II I I EJ2 2 D, T J SM i Sl i l E L R L UI AL2 P S AL2 2 R R 2 R S S J ( F 5 N UA - 2 2 UA - 2 2 OY2 2 P R2 S DI DV0 DV2 2 0 TT - GAI T N NT I O1 6 6 IO1 1 8 8 1 CE6 6 hT I SM SM AF UI EE EE FA PN L RR RR RS L A S Eg ED TNAA TI N WEY m 1AO SS I TR F I N R CG C 1 RE A 2 EI E R Y g D I RA N OR N I BI 1 NP T l1 T 2 SI C mI4HOHOZ N AT N'g*7h> N CC C6 nN@%M@ C C c c

ASME Section XI Pressure Testing Program - Unit fb. 2 ASME Code Eoition and Addenda: 1974 Edition through and including Summer 1975 Addenda Program Period: April 21, 1978 to August 21, 1981 The system Ccde Class boundaries are established on the attached ASME Code Classification Drawings, Sheets 2 through 43 Le Pressure Test Program for the Class 1, 2 and 3 systems is as follows: ASME TEST TEST TEST SPECIFICATION REQUEST FOR RELIEF CODE CLASS TYPE FREQUENCY Leakage refueling IWB-5210 (a)

1. 20, #60 IWB-5221 IWA-5000 1

Ilydrostatic 10 years IWB-5210(b)

1. 20 IWB-5222 P

IWA-5000 '? H 2 Pressure 10 years IWC-2412

1. 19, #20, #29 IWC-2510 3

Pressure 10 years IWD-2410(b)

1. 20, #28 R;$

~m Co CD 2: N CD CD 4

e D ASME CODE VALVES SYS FLOW DIACRAM VALVE NO. CLASS DWG DESCRIPTION VLV CAT TEST PROC fp fT RC X-HIAW-1001-3 2RC-3-1 N/A RMU WTR TO PRT ISOL A SP-2072-45 R fT RC X-HIAW-1001-3 2RC-5-1 N/A PRT N SUPPLY ISOL A SP-2072-2 2 fT RC X-HIAW-1001-3 CV-31342 N/A RMU WTR TO PRT ISOL A SP-2072-45 R fT RC X-HIAW-1001-3 CV-31209 N/A PRT N SUPPLY ISOL A SP-2072-2 2 RC X-HIAW-1001-3 CV-31344 N/A PRT SAMPLE TO GA A SP '072-1 IT RC X-HIAW-1001-3 CV-31345 N/A PRT SAMPLE TO CA A SP-2072-1 -- T-RC X-HIAW-1001-3 2RC-10-1 30 PRESS RELIEF VALVE C SP-2048 SP 5Y RC X-HIAW-1001-3 2RC-10-2 30 PRESS RELIEF VALVE C SP-20048 SP SY ~ IN u O CD Q CD LTl 5 El e m

= ASME CODE VALVES fCLASS FLOW VLV TEST TEST REQUEST SYS DI/ GRAM VLV NO. DWG DESCRIPTION CAT TEST PROC TYPE FREQ FOR RELIEF RiiR X-III AW-1001-8 2 RH-8-1 35 RilR PUMP SUCTION RELIEF C SP-2154(5) SP CU

1. 13 RHR X-HIAW-1001-8 2 Ril-3-3 35 22 RIIR PMP DISCil CK VLV C

SP-2089 E M

1. 5 RHR X-III AW-1001-8 2 Ril-3-4 35 31 RHR PMP DISCil CK VLV C

SP-2089 E M

1. 5 RIIR X-III AW-1001-8 2RH-6-1 35 2" LETDOWN LINE BP CK VLV C

SP-2164 E M

1. 14 RilR X-III AW-1001-8 2 Ril-7-1 35 2" LETDOWN LINE MV BP VALVE E

L CS RHR X-III AW-1001-8 32192 35 Ril SUCT FR LP A IIL A S }2001AA 1.T D

1. 59 l

SP-2070 LT R RHR X-III AW-1001-8 32193 35 Rll SUCT FR LP A IIL A ~~ 01M T D

1. 59

's-SP-2070 LT R l RHR X-HIAW-1001-8 32232 35 Rif SUCT FR LP B HL A 001AA IT

1. 59 l

SP-2070 LT R Ri!R X-HIAW-1001-8 32233 35 Ril R7N TO BL A 001AA T

1. 59 l

SP-2070 LT R RHR X-III AW-1001-8 32169 35 RH RTN TO BL 4 _C1,3 E CS N SP-2001AA LT D

1. 59 U

SP-2070 LT R o CD RIIR X-III AW-1001-8 2RH-1-3 35 22 RilR llX IN E C15 L CS O RHR K-III AW-1001-8 2RH-1-4 35 21 RilR HX IN E C15 L CS CD Ch puu K-III AW-1001-8 2 Ril-2-1 35 22 RiiR DNP DISCil E CIS L CS Rg RHR ,(-III AW-1001-8 2 Ril-2-2 35 21 RilR PMP DISCll E C15 L CS R;$ RilR (-HIAW-1001-8 2 Ril-2-3 35 22 RHR HX IN X-CONN E CIS L CS RllR (-III AW-1001-8 2RH-2-4 35 21 R!iR HX IN X-CONN E CIS L CS

F E I TL SE ER UQR EO RF TQ SE S S S S S S ER C C C C C C TF TE SP EY L L L L L L TT !I CO R P T S 5 5 S S S S E 1 1 I I I I T C C C C C C VT LA E E E E E E VC S EVL T T A S S V E E T T E N N D N N O O O O O T T L L C C C l l S S O O N i l E O X X C C I I M I S S S T T T I I T T A P U U D D U U I O O O O R P P C X X M M X X S l l l l E l l P P i l D lR l i il l l i l R l l R R R R R Ri R R R R 2 1 2 1 2 1 2 2 2 2 2 2 S SAG 5 5 5 5 5 5 W 3 3 3 3 3 3 ICD 6 1 2 5 1 2 O 2 0 0 N 2 4 4 1 1 R l l l l l l i i i V C i I L 1 R R R R R V 2 2 2 2 2 2 8 8 8 8 8 8 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 M 1 1 1 1 1 1 A R W W W W W W WG A A A A A A OA I I I 1 I I I 1 I I FD I I I 1 I I LI I I X X X X X X S R R R R l I R R l I l 1 I Y i I i 1 i S R R R R R R $5em D CCN Ra D M 'A O C

ASME CODE VALVES SYSTDi FLOW DIACRAM VALVE NO. DESCRIPTION VLV TEST PROC FOR EP TY FR CAT SI X-Hiawl001-6 MV-32172 33 B SP-2137 E R

1. 8 gt 2

^ SI X-Hiawl001-6 MV-32170 33 B SP-2137 E R

1. 8 0

REAC M MJ FR RH E.XCH SI X-Hiaw1001-6 MV-32167 33 B ISOL SP-2167 E R 567 i SI X-Hiawl001-6 MV-32180 33 CNTMT SMP B ISOL B-1 B SP-2137 E R

1. 8 SI X-Hiawl001-6 MV-32181 33 CNTMT SMP B ISOL B-2 B

SP-2137 E R

1. 8 SI X-Hiawl001-6 2SI-25-1 33 21 ACCUMULATOR RELIEF C

SP-2154(3) SP SY SI X-Hiawl001-6 2SI-25-2 33 22 ACCL71ULATOR RELIEF C SP-2154(3) SP SY RH EXCllANGER TO REACTOR SI X-Hiawl001-6 2SI-26-1 33 VESSEL RELIEF C SP-2154(3) SP SY 21 A R OUTLET SI X-filawl001-6 2SI-6-3 33 C SP-2092A E R

1. 5, #7 g

I A ET SI X-Hiawl001-6 2SI-6-4 33 C SP-2092A E E

1. 5, #7 y

O SI X-Hiawl001-6 2SI-16-6 33 092A E R

1. 7 CEK V

SI X-Hiaw1001-6 2SI-9-2 33 C SP-2002A E R

1. 5, #7 HECK V VE SI X-liiawl001-6 2SI-16-7 13

- 9A R

1. 7 C FC A E flEK SI X-Hiawl001-6 2SI-6-1 33 C

SP-2092A E R

1. 5, #7 A

h 2 OR WTI.F.T SI X-Hiawl001-6 2SI-6-2 33 C SF-2A2A E R

1. 5, #7 SI X-liiawl001-6 2SI-16-4 33 LOOP B COLD LEG INJECTION CIIECK VALVE C

SP-209?A E R

1. 7

s ASt4E CODE VALVES fCLASSDWC SYS FIDW DIAGRAM l VALVE NO.- __ 2 SAF INS REAC VSL ANJ __ __SP-21 P E ____.R__

1. 8 DESCRIPTION VLV CA1 TEST PROC TYPE

_FREQ RELIEF SI X-HIAW-1001-6 MV-32177 13 ISOL A SP-2072-28A LT R 2 REAC SAF INJ COLD C1.1.18-2 L S SI X-HIAW-1001-6 MV-32176 31 LEC ISOL A SP-2072-28B E.LT R

1. 57 A "

~ SI X-HIAW-1001-6 MV-32178 33 -SP-2072-30A LT R ISOL A-1 A 21 CONTAINMENT SUMP B SP-2'37 E R

1. 8, #16 SI X-III AW-1001 -6 MV-32179 33 ISOL A-2 A

SP-2072-10A LT R SI X-HIAW-1001-6 CV-31554 N/A "2 SUPPL ACC F R

1. 57

^ SI X-HIAW-1001-6 CV-31244 N/A 2 1 A SP-2072-31 T R SI X-HIAW-1001-6 CV-31511 33 "2 ^ 0 A SP-2072-31 T N SUPPLY TO 22 ACC E R

1. 57 SI X-HIAW-1001-6 CV-31512 33 2

ISOL A S P-2072-31 Di~ R 2 REAC VSL INJ FR SP-2167 L R ap-l 33 RH EXH ISOL A SP J72-48 LT R w SI X-HIAW-1001-6 MV-32168 b Nu O OO O CX) RY R: dE g l I J

D ASME CODE VALVES SYS FLOW DIACRAM VALVE NO. CLASS DWG DESCRIPTION VLV CAT TEST PROC TY RE F SP-2070 LT R SI X-HIAW-1001-6 2SI-6-1 33 22 ACC DISCil CilECK A S P-2 OO1-AA LT D

1. 59 g r>-2070 LT R

SI X-IIIAW-1001-6 2SI-6-2 33 22 ACC DISCl! CllECK A 5.-2001-AA LT-u

1. 59 SI X-III AW-1001-6 2SI-6-3 33 21 ACC DISCll CllECK A

N-ZOUS-AX- --- k ---

1. 59 t

-2 70 >T R SI X-HIAW-1001-6 2SI-6-4 33 21 ACC DISCH CllECK A SP-2001-AA LT D

1. 59 S P-2070 LT R

33 SI TO LP B CL CllECK A 'b v-2001-AA LT D

1. 59 SI X-IIIAW-1001-6 2S1-9-1 S P-207D_

TT R SI X-HIAW-1001-6 2SL-9-2 33 SI TO LP A CL CHECK A SP-2001-AA LT D

1. 59 LO HEAD SI TO RX VSL SP-2070 LT R

SI X-IIIAW-1001-6 2SI-9-3 33 CllECK A SP-2001-AA LT D

1. 59 LO IIEAD SI TO RX VSL SI X-IIIAW-1001-6 2SI-9-4 33 SPr2070 LT R

CllECK A SP-2001-AA LT D

1. 59 y

LO HEAD SI TO RX VSL 3p-2070 LT 'I d SI X-HIAW-1001-6 2SI-9-5 33 CHECK A SP-2001-AA LT D

1. 59 E

LO IIEAD SI TO RX VSL S P-zo r o LI R SI X-HIAW-1001-6 2SI-9-6 33 A SP-2001-AA LT D

1. 59 CHECK SP-2070 LT R

SI X-HIAW-1001-6 2SI-16-4 33 SI TO LP B CL CllECK A SP-2001-AA LT D

1. 59 SP-?O70 TT R

SI X-HIAW-1001-6 2SI-16-5 33 SI TO LP A CL CHECK A SP-2001-AA LT D

1. 59 SP-2070 TT R

SI X-HIAW-1001-6 2SI-16-6 33 SI TO RX VSL CllECK A SP-2OOL-AA LT D

1. 59 g

U 9P-7070 '.T R o SI-X-HIAW-1001-6 2SI-16-7 33 SI TO RX VSL CllECK A be-zout-AA Lt D

1. 59 CO O

C,g c S< OG 'az to

\\ ASME (,<_A VALVES SYS ILOW DIAGRAM VALVE NO CLASS DWG DESCRIPTION VLV CAT TEST PROC TEST TEST REQUEST FOR RELIEF TYPE FREQ C1.2 r es SI X-H IAW-1001-6 31459 33 ACC AFTER CK TEST VLV A SP 7001-O IT D

1. 59 SP-2OJO YT D

SI X-IIIAW-1001-6 31461 33 ACC AFTER CK TEST VLV A nol-Ai TT

1. 59 SP-2070 LT R

SI X-HIAW-1001-7 2SI-13-1 34 21 SI PMP DISCll E C1.2 L S SI X-IIIAW-1001-7 2S I-13-2 34 22 SI PMP DISCll E C1.2 L S SI X-IIIAW-1001-7 2SI-14-1 34 21 SI PMP DISCli X-CONN E C1.2 L S SI X-IIIAW-1001-7 2SI-14-2 34 22 SI PMP DISCH X-CONN E C1.2 L S SI X-HIAW-1001 -7 MV-32176 33 III HEAD SI TO CL ISOL E C1.2 L S SI X-IIIAW-1001-7 MV-32208 34 RilR TO 21 SIP E C1.2 L S* ,N SI X-HIAW-1001-7 MV-32209 34 RHR TO 22 SIP E C1.2 L S l T a; N l u O CD C 5a5 e N

ASME CODE VALVES SYSTEM FLOW DIACRAM VALVE NO. DESCRIPTION VLV TEST PROC FOR REL EF D Y E CAT CVC X-Hiawl001-4 2VC-25-1 31 C SP-2154(1) SP SY NE IE CVC X-Hiawl001-4 2VC-26-1 31 LETDOWN LINE RELIEF C SP-2154(1) SP SY CVC X-Hiawl001-4 2VC-8-7 31 21 RCP SEAL LN CllECK C SP-2166 E R

1. 39 CVC X-Hiawl001-4 2VC-8-6 31 22 RCP SEAL LINE CIIECK C

SP-2166 E R

1. 39 CHARGE LN CHECK DWNSTRM CVC X-Hiawl001-4 2VC-8-2 31 REGEN HX C
2. 27 2R C CLNT LOOP PZR LTDN CVC X-Hiawl001-3 CV-31230 30 B

SP-2162 E R

1. 35, #18 2 RE2 C W LOOP PZR L M

.N CVC X-Hiawl001-3 CV-31279 30 B SP-2162 E R

1. 35, #18 h

CVC X-Hiawl001-4 2VC-17-1 31 ~~~~-~~ ~~ ~~ BY A E N tra O co O CVC <-Hiawl001-5 2VC-24-1 32 VCT RELIEF C SP-2154(1) SP SY N R$ R :5 a El m

SECTION 2 5 REQUESTS FOR RELIEF FROM ASME CODE SECTION XI REQUIFDEVIS DETEPMINE'D TO BE IMPRACIICAL UNIT NO. 2 This section contains a tabulation of all of the requirements contained in Section XI of the ASME Code that we have determined to be impractical on Unit No. 2 components. The nu= bering system used parallels Section 15 of this report (Unit No.1 Requests for Relief) with the following exceptions Request for Relief No. Remarks 4 Not used 6 Withdrawn l 10 Not used i 15 Not used 23 - 26 Not used 30 - 31 Not used 34 Not used 36 - 37 Not used 38 Withdrawn l 40 - 41 Not used 49 Not used 2308 093 2.5-1 REVISION 2 6/8/79

e. n f o s oi r e i e e e rh e thh h s o m s oTh m cct t s ae l e o t p na a ec e v l g uef f p ri v l f. o f o o. t v e a ) t 0 o s sr l m v ae 6 yt g ee a pe vn 1 t n sv e us e ol o e gi il t h t ai f f nk ma s e ef r T vt o aio ov vo u m d u sgr r t l n l w rt pe n s e a "8 at s .t o o sas ms e vu e ws / s l th oe o r i oy e3 f i cl ch c t p l s v( c sa t ns i f l i A mim a f em m t ant rd r f f ve e nn vis o e so u t t oa au f sh e S as s il k ra n rit sl y y t o cd c o e ua ms s ao e i pps av o l c h rf t me cr n ry s u coo c ous e o f t a cr o n t pu ht i e ro el y u a cn t gf h it hfl f mrc i i c na c cc t p ee h n ea ep y t t s we u is u g s re hh u t sai k f rg r gt s e ywh f o an s m u f sd t or y hi n ue of t a e t w ck a t mh ron s eee gs e o sa e it h a hf c n f l it m n t ed s t n i e af d in zn t xi nh s mw riu i rus ot s re v s e o esd oa i s d er i nd t e l f y t g t r ti t o aer l el in a au i s i l wh i dh r si u wq s t no t e f et e os g e o n l uo d h l r t pa l e gr p e rc eyt u i er se f n n i zb f ul a i r f a is r o eo i e qi u mc l s ri e p rt l d v o eh q n u uh h m i aeo t rw ei f e st t o d rt m d h g a o c se eie m nee t y o r ee ps nmr e ovk t ,b a mc y e mu i i t i l o h u ml d s t ar sd m n b s c yi e ps e l y i vt ee e s b s d h i d su s s s vt t i R io ok l n s e t d l y i H m g w e pcl aa y Re nw h el. vr s al f r o vr t i os t. i o ah ur r t re r f es nl i l cf o E a e et e h y nf h ra o t w h p t r v t t s u t ov t era y t m na s re f r h or rt u i u e e nR s e e nt e oo rp q b t eH yuc d t w l n gn o g hR b an en oh ae e f n nd l e w ci ri d gi g t s e i e l s e nes i t ut ai d v l k i i hh wb uy uorm c ei eo w c t t o y ql h r aa k rr ur r n ddl eh sh pe f s id f t e e on t er rt t t oi u es v x me uk e n g es r qe r l e h h ot no nwb g en e a h w srr om i o e nh ri hb v e c t a i ll th i c b c h an d su t a ef ot l u nr at e t ew l q i u n cS ou eo h o ol sn f g r y it n t f dd cl d oo 8 enne c t d o et ue p riat ie en h k u hf k s rcn sm sh k a ) g n oh c o ae 7 h u e ee ot oc G u o t r s aer v css rt p r N o i r t ebt ol aaey i s w t e I r N t o sd s t a 6 eeve uy ao sv T h O a t l d t v mlh qs l l ( l o eol S t I t d d at e ol l ap E T n ac k nas ee 5 eyv re t a avm T w A e F i o i p kh kb s h i u ( o T m E th rnt m ot 5 o ea st no t ep l N e I rc t aru r 1 rdh e et rh N f E l L aa scap th t eT s vf p aTy O M p E pe p sg F sh e l o os p a I e E m R t e y u A s n a k r T e L i ed rvea eo ei.i vs ec e R re al b r rr rl rl n re res E f M h . p C r P O ak pa p ah apo eo ah av P I t F o vt s t mt r si c l t S y sr s o 2 s s o r. e et s san N l s R w i T et i ent 1 ed ecrt h c 2 ee eve I l e O S 4 vs h n ve 4 vcaa t n vh v m ag F t E l eTne l r l aa w u U l t 9 lk n E i n n al 1 v am au a ed gf 1 a 4 aci T t a E e 1 Q 3 vl l.cn 1 vs 3 vsge n vh vea A nh L t E u 1 a i a i e i y 5 g R 3 ef 1 vnea 5 ee 6 e mf kt 1 eu 8 ecn R t D i ht N ac U s s i vt 1 sm 1 ssa oe so 4 s o E s w E s H ee S eal n e eiex rf S er eec T b o H n R h r C h rao F h s F hht u t a M hh S hh L ul C o S 2 Ta 2 Td vc A Ti A TT sa S s 2 Tt C Tt a A Sf S C 3 7 Y 0; Ed m$n j$ f;$@ N r a n 5 puE 01RU N(g3O D ) 5' jCC CN4 I

8. REQUEST FOR RELIEF ASME COMPONENT FUNCTION

ode Viv __

lass Cat MV-32177 Saf Inj RV Inj Isol Open during safety injection 2

B MV-32178 21 Cntmt Smp B Isol Al Open to establish ECC recirculation phase 2 B MV-32179 21 Cntmt Smp B Isol A2 Open to establish ECC recirculation phase 2 B MV-32180 21 Cntmt Smp B Isol B1 Open to establish ECC recirculation phase 2 B MV-32181 21 Cntmt Smp B Isol B2 Open to establish ECC recirculation phase 2 B MV-32170 Saf Inj Rv Inj Isol Open during safety injection 2 B MV-32172 Saf Inj Rv Inj Isol A Open during safety injection 2 B MV-32190 21 Saf Inj Pmp Suct Isol Cycle to establish ECC recirculation phase 2 B p MV-32191 22 Saf Inj Pmp Suct Isol Cycle to establish ECC recirculation phase 2 B O MV-32208 RHR Exch to 21 Saf Inj Pmp Open to supply SIP from RHR System 2 B MV-32209 RHR Exch to 22 Saf inj Pmp Open to supply SIP from RHR System 2 B PN) MV-32204 Saf Inj Test to 21 RWST A Close to isolate pump recirc path 2 B LN CZ) MV-32205 Saf Inj Test to 21 RWST B Close to isolate pump recirc path 2 B OO o MV-32108 21 Cntmt Spr Pump Suct from RHR Exch Open to lineup CS Pmp to RHR System 2 B r,yn MV-32109 22 Cntmt Spr Pop Suct from RHR Exch Open to lineup CS Pmp to RHR System 2 B g, g MV-32114 21 Cntmt Spr Pmp Disch Open during containment spray 2 B co < hjh MV-32'll6 22 Cntmt Spr Pmp Disch Open during containment spray 2 B o MV-32110 21 Cntmt Spr Pmp Suct From RWST Close to establish CS Pmp Sply from RHR Sys2 B MV-32111 22 Cntmt Spr Pmp Scut From RWST Close to establish CS Pmp Sply from RHR Sys2 B

y l

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59. REQUEST FOR RELIEF (con't) BASIS The alternate inspection (Testing) method gives better assurance of the ability of the components to perform their intended function. ALTERNATE INSPECTION (TESTING)

1. valves listed as serving a pressure isolation function will be leak tested at function differential pressure during the daily reactor coolant inventory test.

This test is described in Attachment 1. Estimated error is approximately 0.1 gallon / minute based on propagation of instrument error. This is an "on line" leak test which measures all sources of reactor coolant leakage, including leakage past pressure isolation valves into low pressure systems. Typical leakage rates umasured are from 0.1 to 0.5 gallon / minute in each unit.

2. Following cach refueling a leakage test of the Reactor Coolant Syrtem is performed. During this test the reactor coolant system pressure is extended to the second (redundant) preusure isolation valve. With the Reactor Coolant Sys tem it. this boundary condition the leakage of the Reactor Coolant System is determined as described in Attachment I.

This demonstrates the integrity of the second redundant pressure isolation valve. Y Y'

3. A second test demonstrates the it.tegrity of the first pressure isolation valve. This is accomplished by opening drain valves between the first and second pressure isolation valve and monitoring and evaluating their leakage.

This test is performed each refueling. 4 The testing described in 1, 2 & 3 above assures Reactor Cool.r t System Bourklary Integrity. SCHEDULE FOR IMPLEMENTATION Six months f rom submittal date of. Revision 2. N OJ $g cs O CO DG

• 5 o

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62. REQUEST FOR RELIEF ASME COMPONENT FUNCTION Code Viv Class Cat React Vsl Inj Fr Rii MV-32167 Low head S1 to reactor vessel.

2 A React Vsl Inj Fr Ril MV-32168 Low head SI to reactor vessel. 2 A CODE REQUIREMENT The valves will not be exercised as required by IWV-3520. BASIS y 6 These valves are normally closed. They open automatically on receipt of an SI signal. Reactor operation with these valves open is possible, but closed they afford an additional degree of protection for low pressure RIIR piping. During periodic exercising of these valves, both check valves would have to be stuck open a significant amount to threaten RilR piping with overpressurization. While this possibility is renote we will revise our valve testing program to eliminate this potential hazard by scheduling tests for refueling outages when the reactor coolant system is depressurized and cooled down. ALTERNATE INSPECTION (TESTING) These valves will be stroked each cold shutdown. SCHEDULE FOR IMPLEMENTATION Six months from submittal date of Revision 2. RE! m< D CI) eg u Z O w CD O

SECTION 3 PROPOSED TECHNICAL SPECIFICATION CFREES Proposed Technical Specification changes to require inservice inspection and testing for Unit No.1 and common components to conform to 10 CFR 50, Section 50 55a(g) were submitted in a License Amendment Request dated October 15, 1976. Proposed Technical Specification changes to requi e inservice inspection and testing for Unit No.2 components +s confom to 10 CFR 50, Section 50 55a(g) were submitted in a License Amendment Request dated October 12, 1977. The Technical Specification changes we have proposed are re-produced in this Section to assist in review of our inservice inspection er.d testing program. Due to the extended period of time from initial filing of the proposed Technical Specification changes and completion of NRC Staff review and issuance of the changes, other Technical Specification changes will be made which affect these pages. This section will be kept current by showing these changes. 2308 101 3-1 REVISION 2 6/8/79

The following pages are deleted by the pmposed Technical Specification changes: TS.h.2-5 TS.h.3-1 TS.4.7-1 TABLE TS.h.2-1 (page 2 of 9) through (page 9 of 9) TABLE TS.4.2-2 (pege 1 of 2) and (page 2 of 2) TABLE TS.h.2-3 (page 1 of 2) and (page 2 of 2) TABLE TS.h.2-4 (page 1 of h) through (page 4 of 4) The following pages aru revised by the proposed Technical Specification changes: TS-1 TS-iii through TS-iv TABLE TS.4.1-2A TS.h.2-1 thmugh TS.h.2-4 TABLE TS.h.2-1 (page 1 of 9) TS.h. 5-1 through 'IE.h. 5-4 (except TS.4.5-3a) TS.4.8-1 2308 102 3-2 REVISION 2 6/8/79

TS-1 FIV TECHNICAL SPECIFICATIONS TABLE OF CONTENTS TS Section TITLE PAGE 1.0 Definitions TS.1-1 2.0 Safety Limits and Limiting Safety System Settings TS.2.1-1 2.1 Safety Limit, Reactor Core TS.2.1-1 2.2 Safety Limit, Reactor Coolant System Pressure TS.2.2-1 2.3 Limiting Safety System Settings, Protective Instrumentation TS.2.3-1 3.0 Limiting Conditions for operation TS. 3.1-1 3.1 Reactor Coolant System TS.3.1-1 3.2 Chemical and Volume Control System TS.3.2-1

3. 3 Engineered Safety Features TS.3.3-1

3. 4 Steam and Power Conversion System TS.3.4-1

3. 5 Instrumentation System TS.3.5-1 3.6 Containment System TS.3.6-1

3. 7 Auxiliary Electrical Systems TS.3.7-1 3.8 Refueling and Fuel Handling TS.3.8-1

3. 9 Radioactive Effluents TS.3.9 -1 3.10 Control Rod and Poeer Distribution Limits TS.3.10-1 3.11 Core Surveillance Instrumentation TS.3.11-1 3.12 Shock Suppressors (snubbers)

TS.3.12-1 3.13 Control Room Air Treatment System TS.3.13-1 3.14 Fire Dec*ection and Protection Systems TS.3.14-1 4.0 Surveillance Requirements TS.4.1-1 4.1 Operational Safety Review TS.4.1-1 4.2 Inservice Inspection Requirements TS.4.2-1 4.3 deleted 4.4 Containment System Tests TS.4.4-1 4.5 Operational Readiness Tests TS.4.5-1 l 4.6 Periodic Testing of Daergency Power System TS.4.6-1 4.7 deleted 4.8 Steam Exclusion System TS.4.8-1 4.9 Reactivity Anomalies TS.4.9-1 4.10 Radiation Environmental Monitoring Program TS.4.10-1 4.11 Radioactive Source Leakage Test TS.4.ll-1 4.12 Stean Generator Tube Surveillance TS.4.12-1 4.13 Shock Suppressors (snubbers) TS.4.13-1 4.14 Control Room Air Treatment System TS.4.14-1 4.15 Spent Fuel Pool Special Ventilation System TS.4.15-1 4.16 Fire Detection and Protection Systems TS

• • .16-1 2308 103 Rsv1S1= 2 3-3 6/8/79

TS-iii REV APPENDIX A TECHNICAL SPECIFICATIONS LIST OF TABLES TS TABLE TITLE 3.1-1 Unit 1 Reactor Vessel Toughness Data 3.1-2 Unit 2 Reactor Vessel Toughness Data 3.5-1 Engineered Safety Features Initiation Instrument Limiting Set Points 3.5-2 Iastrument Operating Conditions tcr Reactor Trip 3.5-3 Instrument Operating Conditions for Emergency Cooling System 3.5-4 Ins trument Operating Conditions for Isolation Functions 3.5-5 Instrument Operating Conditions for Ventilation Systems 3.9-1 Radioactive Liquid Waste Sampling and Analysis 3.9-2 Radioactive Gaseous Waste Sampling and Analysis 3.12-1 Safety Related Shock Suppressors (Snubbers) 3.14-1 Safety Related Fire Detection Instruments 4.1-1 Minimum Frequencies for Checks, Calibrations and Test of Instrument Channels 4.1-2A Minimum Frequencies for Equipment Tests 4.1-2B Minimum Frequencies for Sampling Tests 4.2-1 Special Inservice Inspection Requirements l 4.4-1 Unit I and Unit 2 Penetration Designation for Leakage Tests 4.10-1 Prairie Island Nuclear Generating Plant-Radiation Environmental Monitoring Program Sample Collection and Analysis Environmental Monitoring Program 4.12-1 Steam Generator Tube Inspection 5.5-1 Anticipated Annual Release of Radioactive Material in Liquid Ef fluents From Prairie Island Nuclear Generating Plant (Per Unit) 5.5-2 Anticipated Annual Release of Radioactive Nuclides in Gaseous Effluent From Prairie Island Nuclear Generating Plant (Per Unit) 6.1-1 Minimum Shif t Crew Composition 6.7-1 Special Reports 2308 104 3-4 REVISION 2 6/8/79

TS-iv REV APPENDIX A TECHNICAL SPECIFICATIONS LIST OF FIGURES TS FIGURE TITLE 2.1-1 Safety Limits, Reactor Core Thermal and Hydraulic Two Loop Operation 3.1-1 Unit 1 and Unit 2 Reactor Coolant System Heatup Limitations 3 1-2 Unit 1 and Unit 2 Reactor Coolant System Cooldown Limitations 3.1-3 Effect of Fluence and Copper Content on Shift of RTNDT ' # Reactor Vessel Steels Exposed to 550 Temperature 3.1-4 Fast Neutron Fluence (E > 1 MeV) as a Function of Full Power Service Life 3.10-1 Required Shutdowr. Reactivity Vs Reactor Boron Concentration 3.10-2 Control Bank Insertion Limits 3.10-3 Insertion Limits 100 Step Overlap with One Bottomed Rod 3.10-4 Insertion Limits 100 Step Overlap with One Inoperable Rod 3.10-5 Hot Channel Factor Normalized Operating Envelope For F = 2.21 0 3.10-6 Deviation from Target Flux Difference as a Function of Thernal Power 3.10-7 Rod Bow Penalty (RBP) Fraction Versus Region Average Burnup 3.10-8 V(Z) as a function of core height 4.4-1 Shield Building Design In-Leakage Rate 4.10-1 Prairie Island Nuclear Generating Plant Radiation Environmental Monitoring Program (Sample Location Map) 4.10-2 Prairie Island Nuclear Generating Plant Radiation Environmental Monitoring Program (Sample Location Map) 6.1-1 NSP Corporate Organizational Relationship to On-site Operating Organization 6.1-2 Prairie Island Nuclear Generating Plant Functional Organization for On-site Operating Group 2308 105 3-5 REVISION 2 6/8/79

TABLE TS h.1-2A RE/ MINIMUM FREQUENCIES FOR ECUIPMEf7f TESTS FSAR Section Test Frequency Reference 1. Control Rod Assemblics Rod drop times All rods at least 7 cf full length once every 18 months rods or following each removat of the reac-tor vessel head; af f ected rods following itn 'unca on or r-dtfication to the control rod drive system which could .e f f e c t performance of those specific rods

13. Reactor Trip Breakers Open trip Monthly 2.

Control Rod Assemblies Partial movement Every 2 weeks 7 of all rods 3. (Deleted) 4. (Deleted) 5. (Deleted) em D D o @ 9 }[ f 6. (Iseleted) ~ ~~ 7. (Deleted) 8. (Deleted) 9. Prtrury System Leakage Evaluate Daily 4 10. (Deleted) 11. Turbine stop valves, Functional Monthly 10 governor valves, and intercept valves. (Part of turbine overspeed protection.) 2308 106 12. (Deleted) NOTES:

• See Specification 4.1.D.

3-6 REVISION 2 6/8/79

TS.4 5-3 REV S. 2. Drivers Each diesel-driven cooling water pump engine shall be inspected at a. least once every 18 months.

b. A test consisting of a manually-initiated start of esch diesel-driven cooling water pu=p engine, and assumption of load within one cinute, shall be conducted monthly.

Ihe containment Fan Coil Unito chall be run on low motor speed for c. at least 15 minutes at intervals cf one month. Motor current shall be measured and co= pared to the nominal current expected for the test conditions. B.3. High Head Safety Iniection Throttle Valves a. The correct position of the throttle valves below shall be verified as follows: 1. Within 4 hours following completion of each valve stroking operation. 2. Within 4 hours following maintenance on the valve when the Safety Injection System is required to be operable, and 3. Periodically at least once per 18 months to the extent not verified in accordance with I and 2 above within this time period. Unit i Valves Unit 2 Valves SI-15-6 2SI-15-6 SI-15-7 2SI-15-7 2308 107 SI-15-8 251-15-8 SI-15-9 2SI-15-9 3-14 REVISION 2 6/8/79

f G J Q 4 SNEET NO DES' RlP T TON (U E m NOTES eNCEr L NOTE S 'WE s { vM+$cLS ME ' / J F31f 8 ( NECW f I. ARTIClf I^ A '000 y ASME e Na 39,30. ENEuA e [D --2 NF-W mo ? R E AC TG R rOO ANT Sy sT E M - UNIT 1 E F i AT' i

• ,v.TE M Ow)M N r, ', e. N ; _n e

5 3 he - 39 pos n E 9 0'sA L 4E AT M F MOVAL Sv S ' E* M - UNIT e %gCLE AR owER MD M TdC MNWiATE M -U LATCMf A J T C** N NF 395409 C HE MIC AL I CL A>ME CONTROL %v3TE M - UNIT t g 5 NP - 99tuO CHE MK At i v0 LUM E CONT ROL S v 3TE M - UNI T I M TION MW, TODES AC M AP+0Ai'CS U id : F g e ku 3@ma s C HE M*C AL l v0LUVE ( ONT540L -astEM-UNITS I (T. or lleE Rf ACTDR COOL ANT mt SSoRE BOUNOAM P MF SCC " T Sj F R LA F NF $9 As1 C HEVIC AL[v0LUME CONTHOL SYSTF M - 1 N4TS I L OD M IO O M NF.39H4 5 SAFETV IN J E CTION SYS_T E M - UNIT t REACTUR OOL ANT PRIS$UNF ik)UNDARf AS ALL 9 N F - 396tne S A F E.T Y s N J E CT TON Sv$T EM - UNIT i COMPONE NTS OF PRE SSUR12 ED W ATER COOL E O N to NF-5988 'J WASTE ~ DISPOSAL SvST E M - UNITS g{2 50CW AS 94tSSLEE WESSEL( FIFVs. NPS AND 8 L si NF-398t w WASTE DiSPOSA L SYST EM - U FatTS d t"T OF TWE RE ACTOu WuN T Sv STE M C. 12 NM-39817 WASTE DIS POS A L SYSTEM - UNIT S I ( 2-

b. CONNECTED To THE Mt ACTOR ( 03LANT SYST it hF 39ttitS WASTE ( >lS POS A L ST ST E' M - U NI T S I

L' 2 ANV A N D AL L OF TH E FOL LO W IN Cs; (i ) THE OUTC HMOST PONtasNME hT 1%BL ATION y N6 - 398e9 COOLING W AT E l4 - UNIT e W4 PE hE TRATES PmM ARV F.E ACTON (C tb NS - $9 810 MA* N Ad s 'L i A R Y LTE AM ST E AM DVM P UN I T * (2 ) THE SECOND Or TWO WAlbES NORMA ty s Rf ACTOR OPE R AT SON IN SVSTEM Piping 2 sw Nr 39F3Zt F E E DWAT E R SYSTEM - UNIT 4 PRIM AR f REACTOR CONTAIN M E NT. 17 NF-398 2 2 F't J E L DI ESE.L Olt. SVS T EM - RJNtTS I f 2 (3 ) TwF RE ACTOR COOL ANT Sv$ TEM SarETv 16 NF - 39923 CAUST IC ADDIT ION SYSTE M - UNSTS 6 1 19 NF- $9814 CON T AINM E N T INT ERNAL SPR AT S v 5T E5 M -()HnT S I( 2 L RfE GOtOE < GUALITY GROUP CL ASSIMCA /.O NF-3982 5 SAMPLlNO SYSTEM REMTOR PLANT - UNtTS e f 2-OF LEA P'O TS EC F S T ll NF 4982b CATALVTIC NYDROGE N HECOMBiNER-Mai) LOW LEVEL

• UNIT 5 e f 1 PRESSURE VES$f LS. HE AT PNCHANGERS f 0T 21 NF 39647

_C AT A LYTI C HY DROC.E N RECOMp1NE 4-ts."12 2 - NIGN LEVEL-UNITS I 2. g 2) hF 39PS2B COMmNENT CQOLING SYSTF M - UNIT I _ SYSTE M-_ cow oNENTS Or SECTION EI-ASME B 24 NH 398 29 LIQUID WASTE DISPOSAL STEAM GENE R ATOR BLOWDOWN

4. WRT OF RE ACTOR COOL ANT PRESSURE BOV eg75 i{t 12 ABOVE) t1UT EBCL* *DE D PER FOOTNO 2$

N H - 398 3 0 INST LOCA HvDROC.eE N CMROL Sv5T EM - UNIT S 6 1 COMPONENTS WHiCl+ ARE COleNECTED 26 es u 39631 HEACTOR MAME-UP DEMiNER ALIZED *4 Test SvsTEMS-UNITS I L SYSTEM AND ARE PART OF THE RE AC BOUNDARY DEFINE O IN 50 2 (v) NEED N 27 NF 39F5 32 SPENT FUELPfT COOLING SYSTEM - UNITS a ( Z 2B_ MF 3983) LAB ( SERVICE AREA A/C Cw.LLED WATER Sarf GUARD Sv5TE.MS UNITS i( E (1) IN THE EVENT OF POSTULATED FAILURE Og{ O M A 29 NF-B9834 COOLING l CHILLED WTR SYSTEMS FIRE PROTECTION FOR VENT FILTERS iN Ads f CONTAINME NT B LDG ' S - UNITS 4 1 PROyiDEO Sy THE REACTOR COOLANT MA 40 N F 498% WEACTOR COOLAN T SV ST EM - UNIT 2 (2) THE COMPONENT IS OR CAN BE ISOLAT W 30 N F - 3953 6e C a4 E MIC A L f VOLUME CONTROL SYSTEM - UNIT 2 T E' E O N ) AND, ASSU ACH O 32 NF 398 37 CHEMIC AL VOLUME CONTROL GVST EM-UNIT L AUTOMATIC ACTUATION 35 NF 398S8 SAFETV IN JECTION SYST EM - UNIT g ITS CLDSUME TIME MUST ET SUCH TH E T" 34 NF - YM9 9 9 SAFETV 'NJ ECTIO N SY ST E M - UN IT 2. p'g. R ATI N EACH Y R 3*A HF- $98NO R ESIDUAL HEAT RE MOVAL. SY STEM -1) NIT 2. CAN BE SHuf tJOVWN AND COOLED DOWN 4 NF 3986el CO OLI N G WA*ER - UNIT 2 AS$uMING MAKEUP IS PROVIDEQ ESV 3F NF-HB41 DAAIN. Aunt LsARY STEAM E STEAM DUM P-UNIT 2. 36 NF 398N3 F EED AATER SYSTEM - UNtT 2 b.OEt NOT r u t OF THE REACTOR COOLANT 5%RT Or THE FDLLOWING CATEGORIES FO 39 NF-998 44 CO M PO N E N T COOLING SYSTEM - UNIT p. NO NA 39 8 i+ 5 LiOulD WA%TE DISPOSAL %TE AM c3E N ERATOR ti) svSitMS OR FO54TIONS Or Sv$TEMS' l BLOW bowJ Sf STEM - UNIT S I 7. ARE DEStGNED FOR ( 4) EMER GE N C

• CONTAI NMENT HEAT REMOVAL, OR FISSION PRODUCT REWOVAL.

(2) SYSTEMS OR PORTIONS OF SYSTEMS' M FOR (8) REACTOR SHUTDOWN OE (b) R (3) Tl*0St~ 54)HTIONS OF THE STE AM AN FROM AND INCLUDING Tl*E SECON GENERATDR.S UP TO AND l>eCU) DING TNE ISOLATIO N VALVES AND CONNECTE THE FIRST VALVE ONCWDtNG A SAFE.1 EITHER NORMALLY CLOSED OR CAPA DURING ALL MODES OF NORMAL RE (aJ) SYSTEMS OR FORTICNS OF SYSTEMS' REACTOR COOLANT PRE.SSUME BOUN BEING ISOL ATED F FOM THE EOUNDAR NORMAL 54EACTOR OPER ATiON E.. TW NORMALLY CLOSED OR CAPABLE OF

• e.

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• REMEf4TS FOR CLA%S 4 v CODE:

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. IN ThE EVENT OF WFaTUL ATED VALVE VWHICH HAS HnGH LEAKTlGHT WTT.GRlT V. iORMAL REACTOR 'ER ABLE AND THE. RE ACTOR S SPECIFIC CAliDANCE ON THE CLASSirtCATION OF R ADiOACTivE WASTE a AN ORDERLY RA AN NEM, M ANAGEM ENT SYSTEM *b iS UNDER C7.V E LO P M E.N T. iHE RE ACTDR COOLANT 'RESSURE BOUND ARY BJT MESSURIIED WATER HEACTORS: POR TANT TO ah4FETV THAT CORE COOttNG, (t0POSTAC CIDE 14I (C) POST ACCIDENT SY M BOLS iRTANT TO BAFETY TWAT ARE (154GhED MDuAL 64 EAT REMOVAL. ASM E - CODE CLASS 2 - EEDWATER SYSTEMS EnTEND*NG 1 arf SIDE OF STE A M )UTERMOST CONTAINMENT ASME - CODE CLASS 3 PlPlNG UP TO AND INCLUDING OR RELIEP VALVE) M4AT IS OF AUTOMATIC CLOSURE NON - S AFETV R E LAT ED 1 TOR OPE RATION. SAFETf RELATED COMPONENT BUT CANNOT t%E AT ARE CONNEC.TED TO ThE CLASNFIED UNDER HEG GUIDE I.Z(i. CRITERI A LRY AND ARE NOT CAPABLE OF (g 3. TU RFSINES, PE NE TRATIONS ) J DORING A L L. MODES OP VALVES EACH OF WiHCM fS fiTmER - pcpS REACTOR COOLANT PRES %URE E3OUNDAHf (SEE GENER AL NOTE 2) C OTO*AATk C LOSURE. (O (I CL ASSi FIC ATION ESOONDARf I N T E R f'A C C b TE O PP"$$e54E VE%SELS HEAT E NS,ONS STORAGE T Af4 KS 1D.c MtACTO COOLANT PRESSudE R AOiO ACTIVE VJ A%TE MAN Acne MENT SYSTEMURE p-N e NOT y FC,d AWING C ATf GOmi S MEET OF SECTICw t - ASME B PV C00E CODE CL AS*iF eED PE R REGn guide l.Zb. Z t SdSTEMS OR PORTIONS OF C TH AT As* E DESIGNE.D FESi DRAWING REFERENCE NT COPITAINME NT HEAT fit WVAL. O h Hi H E CLEANUP, OR y) RESiDvAL. 43M TkE SPENT fUt L STOR AGE (f COOLING SfTT E MS). WRTs0N's ,R TwEiR S AF ETY FUNCTIONS AND

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