ML20087B440

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Recirculation RHR Shutdown Cooling,Head Spray Line,Reactor Water Cleanup Line & Core Spray Line Piping Weld Info (Rev 2)
ML20087B440
Person / Time
Site: Peach Bottom Constellation icon.png
Issue date: 02/29/1984
From:
PECO ENERGY CO., (FORMERLY PHILADELPHIA ELECTRIC
To:
Shared Package
ML20087B430 List:
References
IEB-83-02, IEB-83-2, NUDOCS 8403090089
Download: ML20087B440 (61)


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, PHILADELPHIA ELECTRIC COMPANY.

PHILADELPHIA 2

PEACH BOTTOM ATOMIC POWER STATION UNIT NO. 2 DOCKET NUMBER'50-277

..E ATTACHMENT A

~

RECIRCULATION, RESIDUAL HEAT REMOVAL

' ' SHUTDOWN COOLING,, HEAD SPRAY LINE, REACTOR

[

WATER CLEAN-UP LINE, AND CORE SPRAY LINE.

i~ PIPING WELD INFORMATION.-(REVISION 2) r f

E SUBMITTED TO,

y.

, THE UNITED' STATES NUCLEAR REGULATORY COMMISSION-AS PART OF SUPPLEMENT IV_TO PEACH BOTTOM UNIT NO. 2 s

RESPONSE'TO IE BULLETIN NO. 83-02 FEBRUARN 1984

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.L 8403090089 840221 i

PDR ADOCK 05000277 o

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PEACH BOTTOM ATCMIC POWER STATION UNIT NO. 2 DOCKET NUMBER 50-277 ATTACHMENT A RECIRCULATION, RESIDUAL HEAT REMOVAL SHUTDOWN COOLING, HEAD SPRAY LINE, REACTOR WATER CLEAN-UP LINE, AND CORE SPRAY LINE PIPING WELD INFORMATION (REVISION 2)

SUBMITTED TO THE UNITED STATES NUCLEAR REGULATORY COMMISSION AS PART OF SUPPLEMENT IV TO PEACH BOTTOM UNIT NO. 2 RESPONSE TO IE BULLETIN NO. 83-02 FEBRUARY 1984

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m SYSTEM: D EC T R C' 'L A TIr1 LOOP "A" Pi pe Weld Pipina Weld Joint SRY Valy' 1MSI Elle 422 CosPopent Raterial Carbon Content. 1 Original Revised Treated 22" 2-AS-1 seactor sozzle Carbon Steel pot calculated Nb' fGEV 2.

S.S. Safe End 3hb

.07Ji 28" 2-AS-2 S.S. Safe End 386

.OZJi 1.279

1. 34 3 YEDS 5.S. Pipe 304

.059 28" 2-AS-3 S.S. Pipe 304

.059 1.659 1.742 Y65 S.S. Elbow 304

.059 22' 2-AS-4 S.5. Elbow 304

.059 1.619 1.699 1125 S.S. Pipe 304

.062 28" 2-4S-5 S.S. Pipe 304

.062 1.0 34 1.086 1NES S.S. Tee 304

.ogg 29' 2-AS-6 S.S. Tee 304

.0143 1.011 1.061 V40$

S.S. Pipe 304

.070 28" 2*AS-7 S.S. Pipe 304

.070 1.421 1.498 YES S.S. Elbow 304

.070 23" 2-AS-8 S.S. Elbow 304 070 1.118 1.174 1105 Cast S.S. Valve CF8

.040 26" 2-AS-9 Cast S.S. Valve CF8

.040 1.093 1.147 hh3 S.S. Pipe 304

.059 28" 2-AS-10 S.S. Pipe 304

.059 1.379 1.448

'fEDE S.S. Elbow 304

.059 2B" 2-AS-11 S.S. Elbow 304

.059 1.40 1.47 NO Cast S.S. Peep CTSH

.04 Casing 288 2-AD-12 Cast S.S. Pump CF85

.04 1.0 30 1.081 NO Cas ing 304

.059 5.5.

Pipe 28" 2-AD-13 S.S. Pipe 304

.059 1.035 1.086 PJO Cast S.S Valve CF8

.060 20" 2-AD-14 Cast S.S. Valve CF8

.059 1.284.

1.34 8 bJO S.S. Elbow 304

.059

"=

l 28" 2-AD-15 S.S. Elbow 304

.059 1.301 1.366 YES k(

S.S. Pipe 304

.059 6%

2 tl*

2-AD-16 S.S. Pipe 304

.059 1.007 1.057 pj0

()

S.S. Tee 304

.048 1

-,.m.,

--o

.. -.m SYSTFM RFCIRc"LATIO7 LOOP "A"

Pipe veld Piping Weld Joi-t SW I V'le')

12.5I

piz, No.

com po nen t material car bon cont ent. 2 ortainal Revised treated 22" 2-AD-17 S.S. Tee 304

.048 0.983 1.032 NO S.S. Cross 304

.070 28" 2-AD-18 S.S. Cross 304

.070 1.250 1.312 kJO S.S. Reducer 304

.058 22a 2-AD-12/

S.S. Pipe 304

.0S9 Not calculated No BPA S.S. Weldolet 304 060 Ca 2-BPA-1-A S.S. Weldolet 304

.060 Not Calculated Po S.S. END CAP 304 40$

Ca 2-10-15/

S.S. Pipe 305

.*59 "ot calculated so SPA S.S. Weldolet 304 06 0 Ca 2-BPA-10-A S.S. weldolet 304 060 Not Calculated No 5.5.

End cap 304 4,og 222 2-gg.3 S.S. Manifold 304

.062 1.126 1.182 to Cast S.S. Talve CF8

.042 22" 2-15-2 Cast S.S. Talve CF8

.042 1.085 1.139 No S.S. Manifold 304

.062 a

22" 2-15-1 S.S. Manifold 304

.062 1.181 1.240 to S.S. Cross 304

.070 1

22*

2-An-4 S.S. Cross 304

.070 1.124 1.180 Bo S.S. Manifold 304

.062 a

22a 2-AR-5 S.S. nanifold 304

.062 Not Calculated to S.S. End cap 304

.070 22a 2-AM-1/

S.S. Manifold 304

.062 1.172 1.230 No

&HK S.S. Sweepolet 304

.059 22a 2-AM-1/

S.S. Manifold 304

.062 1.174 1.232 No AHJ S.S. S wee polet 304

.059 21a 2-AM-4/

S.S. Manifold 304

.062 1.120 1.176 No AHG S.S. Swee pole t 304

.059 FJ 22*

2-AM-4/

S.S. Manifold 304

.062 1.086 1.140 No A ff F S.S. Swee polet 304

.059 12a 2-AHK-1 S.S. S wee polet 304

.059 0.949 0.996 No S.S. Pipe 304

.052

~ qw 113 y_qy a ny y, - - - - ~. ~ - - ~

21 STEM: REltf9C"LATIOw LOOP "A"

Pit e Cold Pipine Weld Joint SWI Vil"e ISS1 Cne pone nt paternal Carbon Content. 1 Original Revised Treated Siro 302 o

117 3,- 4 HJ - 1 S.S. Sweepolet 304

.059 0.988 1.037 No S.S.

Pipe 304

.052 12" -

2-4HH-1 S.S. ked ucer 304

.058

' Not calculated No S.S.

Pipe 304

.054 12" 2-AHG-1 S.S. Sweepolet 304

.059 0.937 0.983 to S.S. Pipe 304

.042 12" 2-AHF-1 S.S. Sweepolet 304

.059 0.925 0.971 No S.S. Pipe 304

.042 12" 2-ANK-2 S.S. Pipe 304

.052 1.453 1.525 No S.S. Elbow 304 065 12" 2-AHJ-2 S.S. Pipe 304

.052 1.530 1.606 No S.S. Elbow 304

.063 12" 2-AHH-2 S.S. Pipe 300

.054 1.526 1.602 No S.S. Elbow 304

.063 12" 2-AHG-2 S.S. Pipe 304

.042 1.485 1.559 to S.S. Elbov 304

.063 12" 2-AHF-2 S.S.

Pjpe 304

.042 1.348 1.415 No S.S. Elbaw 304

.065 12" 2-AHK-3 S.S. Elbow 304

.065 1.668 1.751 ko S.S.

Pipe 304

.047

.063 1.715 1.800 No 12" 2-1HJ-3 S.S. Elbow 304

.047 S.S. Pipe 30u 12" 2-AHH-3 S.S. Elbow 304

.063 1.647 1.729 No S.S. Pipe 304

.047 12" 2-AHG-3 S.S. Elbow 304

.063 1.739 1.825 No S.S. Pipe 304

.047 12" 2-AHF-3 S.S. Elbow 304 065 1.593 1.672 No S.S.

Pipe 304

.047 12" 2-AHK-4 S.S. Pipe 304

.047 1.623 1.704 No g

S.S. Saf e End 314

.0Z REV. 2'-

12" 2-A!!J-4 S.S.

Pipe 304

.047 1.?78 1.666 No e

3gg

.023 j

S.S.

Safe End 12" 2-AHH-4 S.S. Pipe 304

.047 1.523 1.599 No

A m.(fs_E M efl. m m ana g agssesaaw-b SYSTEM: TCIRCTLAT109 LOOP "A"

Pipe Wald Pipino v'Id Joint SRT Valv*

1HSI Si7e Eq.,,

toeponent naterial carbon content, }

nricinal Revised Treated p

5.S. Safe End jl(,

.010 12" 2-AHG-4 S.S. Pipe 304

.047 1.901 1.996 to 2

S.S. Sate End 386

.ozo 12" 2-W S.S. Pipe 304

.047 1.541 1.618 to 3

S.S. Safe End 3l{p

.oZO 12" 2-AHK-5 S.S. Safe End 34

.oZo Not Calculated to Reactor sozzle Carbon Steel g

12" 2-AHJ-5 S.S. Safe End 3S

.ozo not calculated so Reactor wo221e Carbon Steel 12" 2-AHH-5 S.S. Safe End 34

.o20 mot calculated so teactor uozzle Carbon Steel 12" 2-AHG-5 S.S. Safe End 3tb

.oZO uot Calculated to Beactor uozzle Carbon Steel 12" 2-AHF-5 S.S. Safe End 34

.020 mot Calculated to Reactor uozzle Carbon Steel a#

e a

e

+

oM m

I

y z.se n u-w.---

SYSTEM-

" EC Iic"!. AT I*9 LOOP "B" Pipe Weld Ploine Weld Joint Set vnino

'l:SI Si7e 222 component naterial Carbo 1 content. __

Original

_Pe_a v i sed Treated 1

6 Not Calculated PJ O lia 2-95-1 seactor uozzle Carbon Steel

-===

S.S. Saie End 3g(,

,025 REV. 2.

20" 2-85-2 S.S. Safe Esa 316

.o2Jr i.ii7 1.172 PJ o S.S. Pipe 304

.041 2*"

2-85-3 S.S. Pipe 304

.041 1.326' 1.392 kJ O S.S. Elbow 304

.059 2ff 2-B5-4 S.S.

Elbow-304

.059 1.307 1.372 PJO S.S. Pipe 304

.059 28" 2-85-5 S.S. Pipe 304

.059 Not Calculated 1925 S.S.

Pipe 304

.070 28" 2-BS-6 S.S. Pipe 304

.070 1.260 1.323 1415 S.S. Elbow 304

.070 28*

2-BS-7 S.S. Elbow 304

.070 1.076 1.129 F40 Cast S.S. Talve Cr8

.050 28" 2-85-8 Cast S.S. Talve CF8

.050 1.062 1.115 bhD S.S. Pipo 304

.041 28*

2-85-9 S.S. Pipe 304

.041 1.258 1.320 h)O S.S. Elbov 304

.059 21" 2-B5-10 S.S. Elbov 304

.059 1.262 1.325 9NE5 Cast S.S. Pump CF85

.01 28" 2-BD-11 Cast S.S. Pump CF8M

.03 0.965 1.013 bhD S.S. Pipe 304

.059 28" 2-BD-12 S.S. Pipe 304

.059 0.968 1.016 pJo Cast Valve CF8

.000 28" 2-BD-13 Cast S.S. Talve CF8 060 0.985 1.034

$NE$

S.S. Elbow 304

.059 28" 2-SD-14 S.S. Elbow 304

.059 1.178 1.236 YES S.S. Pipe 304

.059 gyg 28" 2-DD-15 S.S. Pipe 304

.059 0.901 0.946

$J0 j

S.S. Tee 304

.058 28" 2-BD-16 S.S. Tee 304

.058 0.921 0.967 blo 6%

S.S. Cross 304

.070 0

28" 2-B D-17 S.S. Cross 304

.070 1.155 1.212 hhD a

Y

TA*tts ! - ~ Nt 4 PS tlw 1T '?

- PT P10/W1.D D4,rB SYSTE;; R ECI FCilL ATIO 4 LOOP'"S" Pipe C21d Piping veld Joint SRI Valve ICSI Size

'N2a component naterial carbon Content. 1 Original Revised Treated 5.5. Neducer 304

.058 CS 2-BD-11/

S.S. Pipe 304

.062 Not Calculated No BPB' S.S. Weldolet 304

.0GO Ca 2-8PB-1-A

-S.S. Weldolet 304 060 Not Calculated No S.S. EMp CAF 304

(,eg C"

2-DD-14/

S.S.

Pipe 304 0$)

Not Calculated No BPB S.S.

Weldolet 304

. ego 2-BPS-10-A S.S. Weldolet 304

.060 Not Calculated No C"

S.S. Cap 304 4.D8 22" 2-B8-3 S.S. Manifold 304

.062 1.117 1.204 No Cast S.S. Talve Cr8

.042 22" 2-BM-2 Cast S.S. Talve Cr8

.042 1.128 1.184 No S.S.

sanifold 304

.062 22" 2-B5-1 S.S. Manifold 304

.062 0.954 1.001 No S.S. Cross 304

.058 22" 2-B5-4 S.S. Cross 304

.058 1.061 1.114 No S.S. nanifold 304

.062 22" 2-Bn-5 S.S. Manifold 304

.062 Not Calculated No S.S. C8P 304

.070 es 2.1L 2.- s n-1/

5.5. nanifold 304

.062 1.148 1.205 No EHA S.S. Swee polet 304

.059 2 2.o r 2cMM-1/

S.S. Manifold 304

.062 1.113 1.16 8 No

\\

l 8H8 S.S. Swee polet 304

.059 29L" 2-B1-4/

S.S. Manifold 304

.062 1.027 1.078 No DHD S.S. Swee polet 304

.059 22" 2-BM-4/

S.S. Manifold 304

.062 1.050 1.102 No BHE 5.5. Sweepolet 304

.059 12" 2-BHA-1 S.S. Sweepolet 304

.059 0.973 1.021 No S.S.

Pipe 304

.070 o

T 12" 2-BMB-1 S.S. Swee polet 304

.059 0.948 0.995 No S.S. Pipe 304

.070 12" 2-3HC-1 S.S. Weducer 304

.058 Not Calculated No

.S.S.

Pipe 304

.054 e

p g] c Tr-3 y 1.en, n s o r --

,ys w a- - -,

m SYSTE=:

NErittrL*TTO4 LOOP *S*

Pipe 021d Pipino scla Joi-t SWI valv,

1:51 Site 4n com ponent naterial carbon Content, 1 Original Revnsed Treated 2

12" 2-BHD-1 S.S. Pipe 304

.059

.934

.980 Wo S.S. Elbow 304

'.042 12" 2-BHE-1 S.S. Sweepolet 304

.059 0.983 1.032 Bo S.S. Pipe 304

.042 12" 2-BHA-2 S.S. Pipe 304

.070 1.460 1.533 No S.S. Elbow 304

.065 12" 2-BHB-2 S.S. Pipe 304

.070 1.425 1.496 No S.S. Elbov 304

.065 12" 2-SHC-2 S.S. Pipe 304

.054 1.389 1.458 No S.S. Elbov 304

.065 12" 2-BHD-2 S.S. Pipe 304

.042 1.321 1.387 No S.S. Elbov 304 065 12" 2-BHE-2 S.S. Pipe 304

.042 1.395 1.464 No S.S. Elbow 304

.065 12" 2-B54-3 S.S. Elbov 304

.065 1.595 1.674 No S.S. P2pe 304

.047 12" 2-BHP-3 S.S. Elbow 304

.065 1.511 1.586 No S.S. Pipet 304

.047 12" 2-BMC-3 S.S. Elbov 304

.065 1.445 1.517 No S.S. Pipe 304

.047 12" 2-BHD-3 S.S. Elbow 304

.065 1.451 1.523 No S.S. Pipe 304

.047 12" 2-Bf!E-3 S.S. Elbov 304 065 1.427 1.498 No S.S. Pipe 304

.047 12" 2-BH&-4 S.S. Pipe 304

.047 1.678 1.761 No S.S. Safe End 31(,

. cy,o 125 2-BHB-4 S.S.

Pipe 304

.0u7 1.511 1.586 No

,;g REN.1 s.S. Safe End 3tt.

.ano 0

12" 2-BHC-4 S.S. Pipe 304

.047 1.293 1.357 No 1N S.S. Safe End 31(,

.020 12" 2-BHD-4 S.S. Pipe 304

.047 1.409 1.479 No S.S. Safe End 3gy

,c 7,C

c. ;_ -,

SYSTr":

F PC18tCtlLT T107 LOOP "fl*

Pipe Enid Piping ueld.Toirt 571 Y*1v7 ICSI siz7 froz component naterial Carbon content. 3 original M+= vised Treated 12" 2-BHE-4 S.S. Pipe 304

.047 1.247 1.309 10 0 S.S. Safe End 316

.020 12"

.2-BHA-5 S.S. safe End 316

.0Z0-not calculated so Reactor Mozzle Carbon Steel 12" 2-BMS-5 S.S. Safe and 316

.OZO not calculated no Reactor Dozzle carbon Steel 127 2-DMC t S.S. Safe End 316

.020

~

vot calculated so Reactor uozzle Carbon Steel 12.#

2-8HD-5 s.S. Safe End 316

.020 mot Calculated uo Beactor uozzle Carbon Steel

$2.#

2-DHE-5 S.S. Safe End 386

.0ZO not calculated no.

Reactor Wozzle Carbon Steel o

3 e

O h

TABLE I -

P* LAPS i'~19 2 - MQ1(3/M ELD D AT A SYSTEM:

R~R SMUTDOWN CDOLING SDCTION LINE P1P2 Weld Piping veld Joint ST valac IHS1 Size E22.

Component

Material, carbon content. 1, original Revised Treated 20" 10-0-1 S.S. Tee 304

.046 1.320 1.386 Wo S.S. Pipe 304

.055 20" 10-0-1/

S.S. Pipe 304

.055 20t Calculated to 12-0 S.S. weldolet 304

.060 20" 10-0-2 S.S. Pipe 304 055 1.725 1.811 No S.S. Elbow 304

.05 2!"

10-0-3 S.S. Elbow 304

.05 1.150 1.207 No S.S. Pipe 304

.061 20" 10-0-4 S.S. Pipe 304

.061 1.847 1.939 No S.S. El bov 304

.050 20" 10-0-5 S.S. Elbov 304

.050 1.15'1 1.208 No S.S. Pipe 304

.057 20" 10-0-6 S.S. Pipe 304

.057 1.996 2.095 No S.S. Elbow 304

.050 20" 10-0-7 S.S. Elbow 304

.050 1.231 1.292 No C.S. Pipe Oggn) m 1.891 1.985 No 2D2 10-0-10 C.S. Pipe (AR$tml SISit.

S.S. Elbow 304

.050 20" 10-0-11 S.S. Elbov 304

.050 1.125 1.181 No S.S. Pipe 304

.061 20" 10-0-11 S.S. Pipe 304

.061 Not 2.424 No C.S. Pipe m gyg, Calculated 20" 10-0-15 C.S. Pipe c4ft90st 53 3 1.706 1.791 NO S.S. Elbow 304

.050 20" 10 14 S.S. Elbov 304

.050 1.113 1.168 No S.S. Penetration 304

.061 20" 10-0-1T S.S. Penetration 304

.061 Wot 2.091 No C.S. Pi pe caggs3 yggg, Calculated O

e

'O

.n..

SYSTtn:

a"B SHtf?DOw' COOtiga rETUR9 LI"E "A"

Pips weld Pipino veld Joint 53Y valve I;SI

'1LL2 122 -

com poncat Maternal Carbon content. 1 Origir.al powir,ed Treated 2*"

10-1A-14 S.S. Tee 304

.048 Not 2.763 kJb C.S. Pipe Carbon Steel calculated 1.740 1.827 k!O 24" 10-1 A-11 S.S. Pipe carbon Steel S.S. Elbow 304

.056 24" 10-14-10 S.S. Elbow 304

.056 1.072 1.125 NO S.S. Elbov 304

.056 24" 10-14-9 S.S. Elbow 304

.0 56 1.729 1.815 kJo S.S. Pipe 304

.072 24" 10-1A-8 S.S. Pipe 304

.072 1.855 1.947 b1 0 S.S. Elbow 304 056 2t*

10-1A-7 S.S. Elbow 304

.056 1.118 1.173 M0 S.S. Pipe 304

.074 21" 10-1A-6 S.S. Pipe 304

.074 1.227 1.288 kJD Cast S.S. Talve CF8N

.07 24" 10-14-5 Cast S.S. Talve CF8n

.07 1.225 1.286

>J O S.S. Pipe 304

.065 24" 10-1A-4 S.S. Pipe 304

.065 1.790 1.879 AT O S.S. Elbow 304

.056 24" 10-1A-3 S.S. Elbow

-304

.056 1.055 1.107 tJ D S.S. Penetration 304

.065 24" 10-1&-2 S.S. Penetration 304

.065 vot Calculated h30 4

Cast S.S. Talve CF8M

.062 Eh O

11 6%

0

-w-SYSTEM-RHR SMUTDOWN COCtfMC R EW R 9 LI N E "M" P2 pe D21d Piping rold Joirt SRI T+1ao 1221 com po ne n t naterial carbon content. 1 pricinal Revised Treated Sir

  • goz.

20S 10-18-14 S.S. Tee 3C>$

. o 5W5 mot 2.763 dio Calculated C.S. Pipe Carbon Steel 24*

10-18-11 C.S. Pipe Carbon Steel 1.740 1.827, hJ O S.S. Elbov 304

.056 20" 10-18-10 S.S. Elbow 304 056 1.072 1.125 kJO S.S. Elbow 304

.056 20*

10-19-9 S.S. Elbov 304

.056 1.729 1.815 NO S.S. Pipe 304

.074 2**

10-19-8 S.5. Pi pe 304

.074 1.855 1.947

$NES S.S. Elbov 304

.056 20" 10-15-7 S.S. Elbow 304

.0 56 1.118 1.173 1NES S.S. Pipe.

304

.065 20" 10-18-6 S.S. Pi pe 304

.065 1.227 1.288 h80 Cast S.S. Valve CP8M

.07 24" 10 5 Cast S.S. valve CFen

.07 1.225 1.286 A10 S.S. Pipe 304

.072 24=

10-19-4 S.S. Pipe 304

.072 1.790 1.879 MO S.S. Elbow 304

.056 2*"

10-15-3 S.S. Elbov 304

.056 1.055 1.107 hj0 S.S. Penetration 304

.072 24" 68-18-2 S.S. Penetration 304

.072 not Calculated NO Cast S.S. Talve CP85

.060 M

o 1

6%

0

SYSTE':

DMR HEAD SPR AT ?.TWE Pi pe Celd Pipino Weld Joint -

S'I Val-7 IISI Siza No component Material carbon content. I original Revised Treated z

C.S. Flange Carbon Steel l

C" 10-ES-271 S.S. Elbov 304

<.08 Not Calculated No S.S. Elbow 304

<.08

(

C" 10-HS-26R S.S. Pipe 304

<.08 Not calculated No S.S. Pipe 304

<.08 C"

10-HS-25A S.S. Pipe 304

.055 Not Calculated No S.S. Pipe 304

.055 6*

10-HS-25 S.S. 3r E1bov 304

.07 Not Calculated No S.S. 3f Elbow 304

.07 C"

10-HS-24 S.S.

Pipe 304

.055 Not Calculated No S.S. Pipe 304

.055 6"

10-MS-23 S.S. Elbov 304

.07 Not Calculated No S.S. Elbow 304

.07 C"

10-HS-22 S.S. Pipe 304

.055 Not calculated No 0

S.S.

Pipo 304

.055 C"

10-HS-21 S.S. Elbov 304

.07 Not Calculated No O

S.S. Elbow 304

.07 6"

10-HS-20 S.S. Pipe 304

.055 Not Calculated No S.S. Pipe 304

.055 C"

10-HS-?

5.S. Flange 316

.052 Not calculated No f.S. Flange 316 -

.052 10-HS-1*

3 Pipe 304

.04 Not Calculated No Pipe 304

.04 C"

10-HS-?

4.a pipe 304

.04 Not Calculated No o

n O

-- p ye m w m uner _ an-~ - - -

SY STEM: NNW MF D SP'AY TINE Pipe teld Piping Weld J7iet SRI Vel *9 IH21

- _S i t e -

Enz component naterial carbon content. 1 or2cinal Revised. Itca t ed S.S. Pipe 304

.04 6*

10 -HS-16 S.S. Elbow 304

.07 Not calculated No S.S. Elbow 304

.07 C"

10-HS-15 S.S. Pipe 304

.05 Not Calculated No S.S. Pipe 304 05 63 10-US-14 S.S. Elbow 304

.07 Not' Calculated No j

S.S. Elbov 304 07.

6a 10-HS-13 S.S. Pipe 304

.05 Not Calculated No j

l l

S.S. Pipe 304

.05 Not Calculated No l

6*

10-HS-12 S.S. Valve S.S. Talve 6"

10-HS-1)

S.S. Elbow 304

.07 Not Calculated No S.S. Elbow 304

.07 C"

10-HS-10 S.S. Pipe 304

.05 Not Calculated No S.S. Pipe 304 05 6*

10 -H S-9 C.S. Pipe carbon Steel 2.091 No C.S. Pipe Carbon Steel C*

10-HS-6 S.S. Elbow 304

.07 1.039 Fo S.S. Elbow 304

.07 G"

10 -U S-5 S.S. Pipe 304

.046 Not Calculated No S.S. Pipe 304 --

.046 6*

10-HS-4 S.S. Penetration 304

.05 Not Calculated No S.S. Pe netration 304

.05 6*

10-HS-3 C.S. Pipe Carbon Steel 1.247 No (N

o m

O

~

.TAtiLE'1

- -PliAPS EMIT'7~~~-

PIMlCETB4%

~

SYSTEM: NE'ckOR PATER CLY4' TP Lf'E

$91 valuw INSI Pipe Weld Pipine Neld Joint Com ponent naterial carbon content, s ortninal pevir,ed Treated Str*

202 S.S. Weldolet 304

.06 12-0-10 S.S. Pipe 316L

<.025 Not Calculated No C".

S.S. Pipe J16L

<.025 I

C" 12-0-21. csst ygg, ygLgg CF8N

.078

Sot Calculated No (45T 5.5. WALM CF 82

.078 6"

12-0-22 S.S. Pipa 316L

<.025 Sot Calculated No S.S. Pipe 316L

<.025 C"

12-0-23 CA67 5.5. Va&WE CF8s

.050 Not Calculated No CAST 5 5.

vat #E gym

.050 6"

12-0-24 S.S. Elbow 316L

<.025 Not Calculated No 1

1 S.S.-Elbow 316 L

< 025 6"

12-0-25 S.S. Pi pe 316,L

<.025 Not Calculated No F

S.S. Pipe 316L

<.025 6"

12-0-26 S.S. Elbou 316L

<.025 Not Calculated No l

i I'

S.S. Elbow 316L

<.025 1

4" 12-0-27 S.S. Pipe 316L

<.025 Not Calculated No S.S. Pipe 316L

<.025 A"

12-0-28 S.S. Elbow 316L

<.025 Not calculated No I

S.S. Elbow 316L

<.025 6"

12-0-29 S.S. Pipe 316L

<.025 Not calculated No e

o "h

.m O

- r tano m w -- - - -. -

SYSTE":

REACTOp rkTEl CLEA' FP L1'E SRI Valve IMSI Pipiac Weld Joint Raterial Carbon content }

Orieinal movised_ _ _

Tre-ted.

Pipe' Weld SlLE N24

.Componest s

S.S. Pipe 316L 4.025 6"~

12-0-30 S.S. Elbow 316 L

<.025 50t calculated so S.S. Elbow 316L

<.025 pot Calculated No 43 12-0-31 S.S. Pipe 316L

<,025 S.S. Pi pe 316L

<.025 Not Calculated No C"

12-0-32 S.S. Elbov 316L

(.025 S.S. Elbow 316L

<.025 mot Calculated No l

6" 12-0-33 S.S. Pipe 316 L

<.025 S.S. Pipe 376L

<.025 Bot calculated No 12-0-34 S.S. Penetration 304

.055 S.S. Penetration 304

.D55 pot Calculated No 0"

12-0-17 S.S. Pipe 304

<.08 S.S. Pipe 304

<.08 50t Calculated No CF85

.055 6

12-0-18 C4ST S-5. YALVE l

l l

l WW u) o%

6%

O

TAMLE I - PDAPS IT 2 - PIPING /WIlb OEYA SYSTEM: CORE SPTAY LIFE "A" Pipe Weld Piping veld Joint SRY Talv,

IHSI component Material Carbon content 1 orsninal Revised Treated Sin' foz l

l RPT Nozzle Carbon Steel Not Calculated No l

12" 14-A-27 S.S. Safe End 33b

, cqg7.

KEV. E S.S. Safe End 314

.OZZ 10" 14-A-43 S.S. Pipe 316L

<.02 Not Calculated No S. S. Pi pe 316L

<.02 10" 14 - A-4 2 S.S. Elbow 316L

<.02 Wot Calculated No S.S. Elbow 316L

<.02-12" 14-A-41 S. S. Pi pe 316L

<.02 Not Calculated No S.S. Pipe 316L

<.02 10" 14 - A-4 0 S.S. Neducer 316L

<.02 Not Calculated No S.S. Neducer 316L

<.02 12" 14-A-39 S.S. Pipe 316L

<.02 Not calculated No S.S. Pipe 316L

<.02 12" 14 - A -3 8 S.S. Pipe 316L

<.02 Not Calculated No S.S. Pipe 316L

<.02 12" 14-4-37 S. S. Pi pe 316L

<.02 Not Calculated No S.S. Pi pe 316L

<.02 12" 14-A-36 s.S. Elbow 316L

<.02 Not Calculated No S.S. Elbov 316L

<.02 12" 14-A-35 S. S. Pipe 316L

<.02 Not Calculated No S.S. Pipe 316L

<.02 12" 14 - A-3 4 S.S. Pi pe 316L

<.02 Mot Calculated No S.S. Pipe 316L

<.02 12" 14-A-33 S.S. Elbow 316 L

<.02 Hot Calculated No WW 6'

o M

t%

O

^

P9APS ""IT 2 - - PIPINC/W ELD P ATA TA~LE 1 SYSTEM: CORE SP'AY LIFE *A" SRI Valve 1HSI Pi Pe LWeld.

Pipina veld Joint component naterial carbon content. 1 Original nevised Treated Sirm goz S.S. Elbov 316L

<.02 12" 14-A-32 S.S. Pipe 316L

<.02 Mot Calculated so

)

S.S. Pipe 316L

<.02 i

12*

14-A-31 S.S. Elbov 316L

<.02 not Calculated to S.S.' Elbow 316L

<.02 12" 14-A-30 S.S. Pipe 316L

<.02 Mot Calculated No S.3. Pipe 316L

<.02-12" 14-A-29. S.S. Pipe 316L

<.02 Not Calculated No S.S. Pipe 316L 4.02

- PJOT CALC 11tAIED MO

>l l18 14-A-28 C.S. Pipe carbon Steel C.S. Pipe Carbon Steel 0.849 No 12" 14-1-12 S.S. Pipe 304

<.08 S.S. Pi pe 304

<.08 12" 14 - A -11 S.S. Pipe 304

<.08 Not Calculated NO S.S. Pipe 304

<.08 12" 14-A-10 S.S. 31 bow 304

_<.08 Not Calculated go S.S. Elbow 304 mot Calculated 50 12" 14-1-9 S.S.

Pipe 304

.0 S.S. Pipe 304

<.08 12" 14-A-8 S.S. Elbow 304

<.08 Not Calculated No S.S. Elbov 304

<.08 12" 14-A-7 S. S. Pi pe 304

<.08 Not Calculated No S.S.

Pipe 304

<.08 Not calculated No 12" 14-A-6 S.S. Check valve S.S. Check Valve 12" 14-A-5 S.s. Elbow 304

<.08 Not calculated 50 o%

h O

1

j!l!

l1 1I1 11!l 111 I.

Jll 1llllI ll jll1 I

%)

h Oh 6C de It Sa o

o 0

Ne N

t 5

Ir t d

d d

d e

e e

e s

t t

t i

a a

a e w l

l l

v u

u u

l R

c c

c a

l l

l V

a a

a l

c C

C I

a R n t

t t

S i

o o

o g

N m

N ir O

A V

A D

1 D

t E

n U

e

/

t C

n W

o I

c P

E 0

8 8

I F

n 07 70 0

P I

o 0

0. <.

L b

r Y

t a S

n c E

i 2

P o

S J

7 1

E d

9 R

l F

O e

C v l S

a P

g i n r 44 44 4

A B

M i

e 00 00 0

P E

p t 33 33 3

T i

a S

P M Y

S n n 1

o o i i C

t t

t t

a a n

t r

A e

wt t

e T

n oe ee ev o

bn np pl p

le ei ia o

EP PP PV oC

5. S.

55 55 5S 5S 55 d

4 3.

2 l z eo A

A A

vW 4

4 4

1 1

1 ee 2"

Pz 2

Ai 2

PS 1

1 1

(

i i l

ltll l

=-

SYSTEn-CosE SPRRY Ef"E "9" Pipt reld Piping veld J-i-t SW1 valv9 IISI 11FC E2s com ponent naterial carbon content. 1 orioinal scrised Trea ted 9

RPy pozzle carbon Steel KEV EL

"** C*IC"I'**d 11" 14 -s-27 S.S. Safe End 3&L

. 02.3L S.S. Safe End 3h6 01ML to" 14-B-41 S.S. Pipe 316L

<.02 Not Calculated No S.S. Pi pe 316L

<.02 IO" 14-B-40 S.S. Elbow 3161

<.02 Not Calculated No S.S. Elbow 316L

<.02 11" 14-B-39 S.S. Pi pe 316L'

<.02 Nat calculated to S.S. Pi pe 316L

<.02 l 10" 14-B-38 S.S. Reducer 316L

<.02 uot calculated No i

S.S. Reducer 316L

<.02 12" 14-B-37 S.S. Pipe 316L

<.02 Wot. calculated No 5.5. Pi pe 316L

<.02 12S 14-B-36 S.S. Pipe 316L

<.02 Not Calculated No S.S. Pipe 316L

<.02 12" 14-B-35 S.S. Elbow 316 L

<.02 Wot Calculated No S.S. 31 bow 316L

<.02 J

12" 14-B-34 S.S. Pipe 316L

(.02 Not Calculated No S.S. PI Pe 316L

<.02 12" 14-B-33 S.S. Elbow 316L

<.02 Not Calculated No l

S.S. Elbow 316L

<.02 12" 14-B-32 S.S. Pi pe 316L

<.02 Mot Calculated No S.S. Pi pe 316L

<.02 12" 14-B-31 S.S. Elbow 316L

<.02 Not Calculated No 5.5. Elbow 316L

<.02 12" 14-B-30 S.S. Pi pe 316L

<.02 Not Calculated No Om C%

0

T A tt LE I - PSAPS UNIT 2 - P1 PING /WFLD DATA' SYSTEM: conf SPWAV LIFE "'"

Pipe Weld Piping Weld Joint

'SNI Valve 3HS!

Siz-

. N22 com pone n t naterial carbon content. 1 0 s ei s aa l Revised Tica t ed a

S.S. Pipe 316L

<.02 12" 14-B-29 S.S. Pipe 316L

<.02 Wot Calculated No S.S. Pipe 316L

<.02 Not Calculated No 12" 14-B-28 C.S. Pipe Carboa Steel C.S. Pipe Carbon Steel 0.849 No 12" 14-B-11 S.S. Pipe 304

<.08

' S.5. Pi pe 304

<.08 12" B-10 S.S. Elbov 304

<.08 Not calculated No S.S. Elbow 304-

<.08 11"'

14-B-9 S. S. Pi pe 30s

<.08 Not Calculated No S.S. Pipe 304

<.08 41f 74-B-8 S.S. Eluou 304

<.08 Not Calculated No S.S. Elbow 304

<.08

-l2f f(.B-7 S.S. Pi pe 304

<.08 Not Calculated No S.S. Pipe 304

<.08 Not Calculated No 12" 14-B-6 S.S. Check Valve s

S.S. Check valve 12" 14-B-5 S.S. Elbov 304

<.08 Not Calculated No S.S. Elbow 304

<.08 12" 14-B-4 S.S. Penetration 304

.07 Not Calculated No S.S. Penetration 304

.07 12" 14-B-3 S.S. Pipe 304

<.08 Not Calculated No S.S. Pipe 304

<.08 Not Calculated No 12" 14 -B -2 S.S. Valve 4

L o

O M

V O

y

/ALL@.c aun-pf m - - u w w.

SYSTEM RECI"C'L ATION LOOP " A" YF NO YSY ON rDE._

1) Weld Isolatable7 Celd ISI or Post-
2) Weld Temp. During Norm. Oper.7 ICSCC Veld Classification: Conforming No.

IMSI WDr 19837 31 Flow Bate in Line Dur. More. Oper.7 Detected?

or Wonconf orming/Wea sons why.

Desarks Contoraing-Carbon Steci

~

2-AS-1 No

1) No to Low Carbon 304 S.S.
2) 562*F a

H 31 45,200 gpa No Nonconformino-Low Carboa 2-AS-2 Yes 304 S.S. to 304 S.S.

o W n anformina-30s S.S.

h5cc hws **1W 2-AS-3 Yes YES to 304 S.S.

MT TH51 NDC.

o.

2-AS-*

.es YES Same as 2-AS-3 snMe as 2-AS-3 2-AS-5 Yes No Same as 2-AS-3 m

2-AS-6 Yes No Same as 2-AS-3 o'

2-AS-7 Yes YES Saoe as 2-AS-3 3maHE As st-ACS-3

(

2-AS-8 1es No Same as 2-AS-3 2-AS-9 Yes No Same as 2-15-3 No Same as 2-AS-3 2-AS-10 Yes No Saoe as 2-AS-3 2-AS-11 Yes 2-AD-12 Yes No Same as 2-AS-3 No Same as 2-AS-3 2-AD-13 Yes No Same as 2-AS-3 2-AD-14 Tes No Same as 2-AS-3 2-AD-15 Yes Yes Same as 2-AS-3 2-AD-16 Yes No Same as 2-AS-3 2-AD-17 Yes Yes Sage as 2-AS-3 2-AD-18 Yes Same as 2-AS-3 keldolet 2-AD-12/

No

1) Yes to Pipe Weld BPA
2) 562*F Onesasinable N
3) 0 gpa

~~

2-BPA-1/

No

1) Yes Conforming: 304 S.S.

Buttered with Low carbon S.S. Prior to Heat Sink

  • (

A

2) 562*r 31 0 gpm Welding TD 304 5.5.

6' O

SYSTE"!

RECIRC'LATION LOOP "A" IF PO YSI OR WDE:

1) Weld Isolatable7 cold ISI or Post-
2) Weld Temp. During Wora. Oper.7 ICSCC Weld Classification: Conforming I

No-IMSI WDE 19837' 31 Flow Rat e in Line Dur. pore. Oper.?

Detected?

or Monconforming/ Reasons Whv.

Remarks 2-AD-15/

No 11 po Same as 2-A S-3 Same as 2-AD-12/BPA' EPA 23 562'F.

3) 0 gpa Same as 2-BP A-1-1 2-BPA-10/

po

~1) No A

2) 562*F
3) 0 gpo so Same as 2-AS-3 2-A5-3 Yes No Same as 2-As-3 2-AM-2 Yes l

No Sase as 2-AS-3 2-A9-1 Yes No Same as 2-15-3 2-AM-4 Yes Yes same as 2-AS-3 f

1 2-AM-5 Yes b

No Conforming-Weld I

l 2-AM-1/

Yes l

Solution Annealed AHK 1%

No Conforming-Weld 2-AM-1/

Yes Solution Annealed l

AHJ Yes Conforming-Weld 2-AM-4/

Yes Solution Annealed AHG No Conf erming-Weld 2-AM-4/

Yes Solution Annealed AHF to Same as 2-AS-3 2-AHK-1 Yes 2-ARJ-1 Yes No Same as 2-AS-3 No Same as 2-AS-3 2-AHH-1 Yes 2-AHG-1 Yes No Same as 2-AS-3 No Same as 2-AS-3 2-ARF-1 Yes so Same as 2-AS-3 2-AHK-2 Yes no Same as 2-AS-3

~

2-AHJ-2 Yes

'fes Same as 2-AS-3 p3 2-AHH-2 Yes I

No Same as 2-AS-3 2-AHG-2 Yes Wo Saee as 2-AS-3 dk 2-ANP-2 Yes e

O

m. m... m y se - - - - -~ ~ m SYSTEH; RECIRC"LATION LOOP "*"

lZ.WO ISI OR FDE:

1) Weld Isolatable?

C22d ISI or Post-

2) Weld Temp. During pore. Oper.7 ICSCC veld Classification: Conforming 50.

INSJ NDE 19837. 31 Flow Rate in Line Dur. Woro. Oper.7 Detected?

or Nonconforsino/ Reasons shy, pesacks No same as 2-AS-3 2-A"K-3 Tes Y es Same as 2-AS-3 2-AHJ-3 Yes No same as 2-AS-3 2-AM2-3 Tes No Same as 2-AS-3 2-AHG-3 Yes No Same as 2-AS-3 l

2-AMF-3 Tes po same as 2-AS-2' 2-AMK-4 Yes No Same as 2-AS-2 2-AHJ-a Yes No Same as 2-AS-2 l

2-AHH-4 Yes No Same as 2-AS-2 2-AH3-4 Yes

- I-No Same as 2-AS-2 2-AMF-4 Yes 2-AHK-5 No

1) wo Same as 2-A5-1
2) 562*F
3) 4520 apa 2-A!!J-5 No..

Same as 2-ARK-5 Same as 2-AS-1 2-AHH-5 No Same as 2-AMK-5 Saec as 2-AS-1 2-AHG-5 No Same as 2-AMK-5 Same as 2-AS-1 2-A R F-5 No Same as 2-ANK-5 Same as 2-AS-1 Nd O

O

SYSTEMt PECIFCULATIOW LOOP "B"

IF NO IST ON FDE:

1) Weld Isolatable?

C;1d ISI or Post-

2) Weld Temp. During Wore. Oper.7 ICSCC Weld Classification: Confereing' Wo..

IHSI WDE 19837 31 Flow Nate in Line Dur. Note. Oper.7 Detected?

or 4oncon. forming / Reasons _Wh,Ig Desarks 2-85-1 No

1) No Conforminc-carbon Steel
2) 562'F to Low Carbon 304 S.S.

31 45,200 gpe 2-85-2 Yes No Wonconforcing-Low Carbon 304 S.S. to 304 S.S.

l l

2-85-3 Yes Yes Nonconforming-304 S.S.

I I

to 304 S.S.

No Same as 2-BS-3 2-CS-4 Yes l

No Same as 2-BS-3 2-55-5 Yes r

145 Same as 2-BS-3 MSct P t i=5-' e v J U RI N G 2-BS-6 Yes POST THSI NDE.

I" 2-LS-7 Yes No Lane as 2-85-3 I

No Same as 2-85-3 2-BS-8 Yes 2-CS-9 Yes No Same as 2-95-3 i

l No Same as 2-BS-3 2-BS-10 Yes No Same as 2-BS-3 2-BD-11 Yes 2-DD-12 Yas

=

No Same as 2-95-3 No Saee es 2-BS-3 2-BD-13 Yes

]q2$

Saoe as 2-85-3 5 Acte A5 2-55-(e,

2-BD-14 Yes No Same as 2-85-3 2-BD-15 Yes No Same as 2-BS-3 2-CD-16 Yes No Same as 2-BS-3 2-BD-17 Yes 2-BD-11/

No

1) Yes Same as 2-95-3 Weldolet to BPB
2) 562*F Pipe Weld Unezaninable
3) 0 gpa 2-BPB-1/

No

1) Yes Conforming: 304 S.S.

IE A

2) $620F Buttered with Low Carbon "hb
3) 0 gpa S.S. Prior to Heat Sink welding 7V 304 5,s, 1%

Same as 2-DS-3 SAse as g3 2-BD-14/

No

1) No 0

tru e. w Aserv m onon g 4, g e SYSTEM: FFCIDEDLATTON LOOP "B" IT WO ISI OR NDEI

1) Weld Isolat able?

Cc14 ISI or Post-21' veld Temp. During Norm. Oper.7 ICSCC seld classification: Conforming W".-

IMSI WDE 19837 31 Plow Date Jn Line Dur. More. Oper.?

Detect ed ?

or Nonconforming /Neasons Whf.

Besarks 2-BD-11/BPB BPB

2) 562*F
3) 0 gpa 2-BPB-10/

po

1) No Same as 2-BPB-1-A A
2) 562*F
3) 0 gpu No same as 2-85-3 2-BH-3 Yes No Same as 2-95-3 2-BH-2 Yes No Same as 2-95-3 b

2-BH-1 Yes Yes Same as 2-BS-3 2-B2-4 Yes No Same as 2-85-3 2-BH-5 Yes No Conforming-Weld 2-B3-1/

Yes Solution Annealed BHA No conforming-Weld 2-CR-1/

Yes Solution Annealed BHB Y es conforming-Weld l

2-CH-4/

Yes Solution Annealed BHD 2-52-4/

Yes 50 Conforming-Weld Solution Annealed C;E No Same as 2-95-3 2-BHA-1 Yes Wo Same as 2-95-3 2-BHB-1 Yes No Same as 2-85-3 2-BHC-1 Yes No Same as 2-85-3 2-BH D-1 Yes No Same as 2-85-3 2-BHE-1 Yes 2-BHA-2 Yes 30 Same as 2-BS-3 2-EMB-2 Yes

=

Tes same as 2-BS-3 No Same as ?-95-3 2-BHC-2 Yes DJ No Same as 2-BS-3 UT 2-BRD-2 Yes Yes same as 2-BS-3 j(

2-BHE-2 Yes

, @gMc emnrrrq oiur ww 2maf =

SYSTEM: RECIRC7t4TIO'3 LOOP "B" IF FO IST OR FDE:

1) seld Isolatable?

Celd ISI or Post-

2) Weld Temp. During W tm. Oper.?

ICSCC deld Classification: Conforming No.

IMSI WDE 19837 31 Plow mate in time Dur. sore. Oper.?

Detected?

or Worconfereino/Reasone why_.

frearks 2-UHA-3 Yes No same as 2-85-3 Yes Saoe as 2-BS-3 2-BHB-3 Yes Y es same as 2-BS-j f

2-L'IC-3 Yes

. No same as 2-85-3 2-BHD-3 Yes No Same as 2-B5-3 2-BHE-3 Yes l

2-BHA-4 Yes No same as 2-95-2 No same as 2-85-2 2-BMB-4 Yes No Same as 2-55-2 2-BHC-4 Yes No Same as 2-85-2 2-BRD-4 Yes no same as 2-B5-2

.2-BME-4 Yes 2-BMA-5 wo

1) no same as'2-BS-1
2) 562'F
3) 4520 gpa 2-BHn-5 No same as 2-BRA-5 same as 2-B5-1
  • 2-BHC-5 No same as 2-BHA-5 same as 2-55-1 Same as 2-B5-1 2-BHD-5 no same as 2-BNA-5 2-BHE-5 No same as 2-BMA-5 Stee as 2-85-1 O

6%

O

SYSTFM*

R~W SMUTDOWN COOLINC SUCTI"' LI'*E YF WO ISI 03 r*DE:

1) Weld Is21ct r.b197 Celd ISI or Post-
2) Weld Temp. During more. Oper.?

ICSCC teld classification: Conforming Wo-.

JHSI WDE 1983?

31 Flow Rate in Line Dur. Nors. Oper.Y Detected?

or Nonconf_ntaing/ Reasons Whv.

_R e m a r k =s 10-@-1 Yes No Nonconforming-304 S.S.

to 304 S.S.

10-0-1/_

wo 13 po Same as 10-0-1 teldolet to 12-0

2) 562*F Pipe Weld Unetaminable
3) 3o0GFM 10-0-2 Yes yg same as 10-0-1 10-0-3 Yes Yes SAme as 10-0-1 Yes SAme as 10-0-1 10-0-4 Yes Yes same as 19-0-1 YO-0-5 Yes 10-0-6 Yes Yes same as 10-0-1 No Same as 10-0-1 10-0-7 Yes 10-0-10 Yes No Same as 10-0-1 Yes Same as 10-0-1 10-0-11

=n No Same as 10-0-1 10-3-12 Yes No Same as 10-0-1 10-0-15 Yes No Same as 10-0-1 10-0-16 Yes No@ M M-

  • C.S.MDt. 'TO PEMETgtMtm 10-0-17 No
1) Yes wtw yn gper.61.
2) 4 200'F y g,g, g gg
3) 0 gpa

.gg g9 24:Kc: T4 zoo *F.

H

-4 o

M e

c. m.-. _ _ _ _ _ _. _ _ _

D SYSTEM: RMR SMUTDou7 COOLING BETUR7 LICE *A" IF WO ISI OR O'ET

1) weld Isolatable7 Csid ISI or Post-
2) Weld Temp. During more. Oper.7 ICSCC teld Classification: Comforslag N'.

IRSI WDE 19837 31 Flow Bate in Line Dur. Norm. Oper.?

Detected _?

or. Nonconforming / Reasons Why.

Remarks 10-11-14 Tes No NOnconfeiming-30s S.S.

to Carbon Steel Wo Nonconformine-Carbon 10-1A-11 Yes Steel to 304 S.S.

so Nonconforming-304 S.S.

10-1A-10 Yes to 304 S.S.

10-1A-9 Yes so Same as 10-1A-10 10-1A-8 Yes so Same as 10-1A-10 No Same as 10-IA-10 10-1A-7 Yes 10-1A-6 Yes

=- -

30 Same as 10-11-10 10-1A-5 Tes No Same as 10-1 A-10 Wo Same as 10-1 A-10 10-1A-4 Yes i

10-1A-3 Yes wo Saec as 10-1A-10 10-1A-2 No

1) No Same as 13-1 A-10 e f alte to Penetration veld
2) < 200*F
3) 0 gpn boenamin4632. p
  • NOT SUSCEPTILAE TD I45(A1 T <2co*F.

Ne O

M C

a 2

-e

. m_ ~.y.

SYSTEM; THW STUTDOW9 COOLING CEIU2R LI E "B"

IF_NO ISI ON NDF1

1) held Jsolatable?

veld ISI or Post-

2) weld Temp. During more. Oper.?

~ICSCC Weld Classification: Conforming 50.

INSI NDE 19837 31 Flow Bate _ta Line Dur. More,_Crer.?

Detected?

or_ Nonconforming /pensons thf.

Rosarks 10-18-14 Yes No Nodeonforming-304 S.S. to carbon Steel No Abaconforming-Carbon 10-18-11 Yes Steel to 304 S.S.

10-15-10 Yes No Nonconforming-304 S.S.

to 304 S.S.

10-1B-9 Tes No Same as 10-2B-10 10-18-8 Yes No Same as 10-18-10 10-18-7 Yes No Saec as 10-15-10 10-1B-6 Yes so Same as 10-18-10 10-15-5 Yes No snee as 10-18-10 10-1B-4 Yes Yes same as 10-18-10 10-1B-3 Yes Yes same as 10-15-10 10-IB-2

. 30

1) No Saoe as 10-18-10 afe?"e to 2)40 200*F Penetration Weld
3) 0 gpa Unesaminable e bac T Su3tE1TISlf 1o 245cc:

T <. 2co*F.

l 1

ss>

O 11

.Th O

SYSTEnr FMR HEAN SPR"Y L1 E IF WO ISI PR rDE:

13 021d I;olstchle?

Celd ISI or Post-

2) Weld Temp. During Norm. Oper.7 "ICSCC Weld Classification: Conforming No.

IMSI WDE 19837 31 Flow Rate is Line Der. Wora. Oper.7 Detected?

or Nonconforeieq/ Reasons WhY.

Reenths 10-HS-27R Wo

1) No Noncomforming-tarbon Steel to 304 S.S.
2) 4 SG2*r
3) 0 gpa Wonconformin)-304 S.S. to 10-MS-26R-so
1) 3o to 304 S.S.
2) aC 562*F 31 0 gpa 10-HS-25A No Same as 10-RS-26R Same as 10-HS-26R 10-HS-25 30 Same as 10-RS-26R Same as 20-HS-26R Same as 10-MS-26R 10-HS-24 Wo Same as 10-RS-26R 10-RS-23 po g

g

,py Sake as 10-MS-26R 10-MS-22 30 sqMg 45 10-H5-7Jo g Saee as 10-ES-26R 1

Saan as 10-MS-26R 10-MS-21 no

$qpqq pyg g3-pgg.24.F.

i Same as 10-MS-263 NUT $05(.ErnEE lts 10-HS-20 yo 2

2rdCr.2 T<2mo*P

<. zoo *F o ern Woncomforming-304 S.S. to Same as 10-MS-19 No S Ame as 10-R5. 243 10-HS-26 316 S.S.

Saec as 1055-19 Same as 10-8S-18 No Same as 10-RS-10 10-HS-20 Same as 10-MS-26R Same as 10-HS-17 Wo Same as 10-MS-2D 10-H S-20 Saec as 10-NS-263 Same as 10-RS-16 3o Same as 10-RS-%p 10-HS-20 Same as 10-NS-26N Same as 10-HS-15 so Same as 10-HS-10 10-RS-2 0 10-HS-14 No Same as 10-nS-20 Same as 10-HS-26R Same as 10-H S-2 0 Same as 10-HS-26R Same as 10-HS-13 No Same as 10-RS-20 10-HS-20 tmM 1

en i

C)

-a

31 of 60 c

o o

o o

o o

o e en au mm en an an an en

t. '=a "A
  • a "A

"a

  • a

"=A *a

. =.

.=

. =..=. =.. =.

.e

.e 123 '32 20 AS AS 33 AS AS F '.

44 A

.o N

.e4 e g

0 8 4

4 g

M J.

tdg

.i d

n EA

-s m

3 o

e o

ma TT. i S

E* $.

?."8 2

i i

v M

i o

o 2

S. a

  • t.e e

S.a "

o A

we

  • we me w m

e oo eo C k

e oc wa m g

um

-u au a

au uE e

W e

oe O.u

u. u e

==

r

-to g

g oc e

T m.o o

ae M

a eo UU W3 1

I I

I I

I i

EA

.u t

m. C nd
  • L*

M Oo a

a Ma MM o9 d

SO G.

O4 M

  • sa n w. are O.

t s.4lo o

o o

Ha.e 5 u

M C. kJ Ca a N h

N N

a a

a a

a a

a O

m =g C. 4' E E

Ic Ic B:

E M

m O O8*

e e

8 0

t t

e M

a 9

M O.

msg.

M W

G M

o C.

m M

E gMO 4

g a

8 m N os e e

e M

O MeM e

e e

e

p. v o I e

a 6mh e

I s

e a

e M

e kNM M

M M

NNbM M

M M

M M

M f9 iG 1 s=

x 64 3 0 0

0 0

0 0

C 0

0 m

a a

a a

a a

a M

M th MZ MM N

o v=

v= -

e=

p en a

M 8

0 4

4 8

4 6

i M

M M

M M

M M

M g

E E

E E

N E

E B:

c4.

e i

t i

4 4

4 9

tOo o

o o

o o

o o

aa e-

  • =
  • =

e

SYSTEM:

f E ACTO ? r ATE'? CLEA7 EP LI"E IT WO ISI OR_WDE1

1) Csid IsslatEblGT Celd Is! or Post-
2) Weld Temp. During Norm. Oper.T ICSCC Weld classification: Conforming 70 IHSI WDE 19837
3) Flow Rate in Line Dur. Norm. Oper.?

Detected 7 or Moncomforsing/ Reasons Why.

Femarks Code %<>4pjGg --304 S.S.

12-0-20 No

1) no 21 SE,1
  • F to 316L s.s. - 6* EAT S'Nt.

WELP

3) 300 gpa 12-0-21 No same as 12-0-20 Conforming-Cast 5.s. Talve to 316L sos.

12-0-22 No same as 12-0-20 same as 12-0-21 12-C-23 No same as 12-0-20 same as 12-0-21

.n 12-0-24 No

1) Yes same as 12-0-21
2) 56,2,*F 33 300 erg 12-0-25 No same as 12-0-24 conforming-316L s.s.

to 316L S.s.

12-0-26 No same as 12-0-24 same as 12-0-25 12-0-27 No same as 12-0-24 same as 12-0-25 12-0-28 No same as 12-0-24 same as 12-0-25 12-0-29 No same as 12-0-24 same as 12-0-25 12-0-30 uo same as 12-0-24 same as 12-0-25 12-0-31 No same as 12-0,-24 same as 12-0-25 same as 12-0-25 12-0-32 No same as 12-0-24 12-0-33 No same as 12-0-24 SAme as 12-0-25 12-0-34 Tes No mammadrec4 pag-316L s.S.

to 304 s.5.

l 12-0-17 Tes No NotiCCAM3DIMM$- 3O($$*,

76 304 s.S.

No same as 12-0-1T 12-0-18 Tes MJ l

I4 0

6%

0

muas> t e r i n ama m arrm os ammimm SYSTEM:

CO~E SPF RY LI E "A" IF NO ISI ON WDE:

1) Weld Isolatable7 re]d ISI or Post-
2) Weld Temp. Durinc Nora. Oper.7 IGSCC Weld Classification: Conforming No..

IHSI NDE 19837 31 Flow Nate in Line Dur. Nors. Oper.?

petected?

or Wonconforeiro/Neasons Whlz Wesarks 10-A-27 No

1) No Conforming: Carbon Steel to' 23 4 562*F Low Car bon 304 S.S.

31 0 gpa 14-A-43 No Same as 14-A-27 Conforming: Low Carbon 304 S.S. to 316L S.S.

14-A-42 No Same as 14-A-27 Conforming: 316 L S.S. to 316L S.S.

13-A -41 No Same as 14-A-27 Same as 14-A-42 13-A-40 No Same as 14-A-27 Same an 14-4-42 14-A-39 No Same as 14-A-27 Same an 14-A-4 2 Sase as 14-A-42 14-A-38 No Same as 14-A-27

~

14-A-37 No Same as 14-A-27 Same as 14-A-42 14-A-36 No Same as 14-A-27 Same as 14-A-42 14-A-35 No Same as 14-A-27 Same as 14-A-42 14-A-34 No Same as 14-A-27 Same as 14-1-42 18-A-33 No 5446 43 t$-A-27 Same as 14-A-42 Same as 14-A-42 14-A-32 No 34ME 45

- A-7.'[

~

14-A-31 No gg gg.4.g.y Same as 14-1-42 Same as 14-A-42 pg,g.p 14-A-30 No

$) O Gfn 14-A-29 No Sa me ' as 14-A-3 0 Same as 14-A-42 14-A-28 No Same as 14-A-30 Conforming: 316LS.S. to Carbon Steel 14-A-12 No Same as 14-A-3C Nonconforming: Carbon Not Steel to 304 S.S.

Susceptible g4 to IGSCC:

gyg T 4 2000F o

14-A-11 No Same as 14-A-3C Nonconforming: 304 S.S.

Not 9n to 304 S.S.

Susceptible 6'

O

w p.._-

SYSTEn CORE SP'tY LITE *A" IF WO ISI ON NDE:

13. Meld Isolatable?

C216 ISI or Post-

2) Weld Teep. During Nora. Oper.?

IGSCC Weld Classification: Conforming No.

IMST NDE 19837 31 Plow wate in Line Dur. Nore. Oper.7 Detected?

or Monconformine/Beasons_Whv.

Desark_g to IGSCC T < 200*F W

4,.4 '. 304 44 Not 14-A-10 No Same as 14-A-30 Susceptible g, gog gg, to 1GSCC t 4 200*F Nonconforming: 304 S.S.

Wet 10-A-9 Po Same as 14-A-3 0 to 304 5.5.

Susceptible to IGSCC:

T4 200*F Nonconformina: 3c4 S.S.

Not 13-A-8 No Same as 14-A-30 to 304 S.S.

Susceptible lo ICSCC:

Tac 2000F 14-A-7 No Same as 14-A-30 Wonconforming: 304 S.S.

Not to 304 S.S.

Susceptible to IGSCC:

T aC200*F 14-A-6 No Same as 14-A-3C Nonconforming: 304 S.S.

Not to 304 S.S.

Susceptibin to IGSCC:

T 40 200*F Nonconforming: 304 S.S.

Not 14-A-5 No Same as 14-A-30 to 304 S.S.

Susceptible to IGSCC:

Tac 200*F 14-A-4 No Same as 14-A-30 Wonconforming: 304 S.S.

Not to 304 S.S.

Susceptible to IGSCC:

T <0 2000F Nonconforming: 304 S.S.

Not 14-A-3 No Same as 14-A-30 to 304 S.S.

Susceptible to ICSCC:

T 4 2000P 14-A-2 No Same as 14-A-30 Nonconforming: 304 S.S.

Not to 30u S.S.

Susceptible to IGSCC:

T g 2000F O

eo

y > -. - ny-u..,,

51 STET: CORE SPBAY L1"E

1) Weld Isolatable7 c21d ISI or Post-
2) Weld Temp.. During Mora. Oper.7 IGSCC teld Classification: Conforming Wo-

_IHSI WDE 19837 31 Flow Rate in Lino Dur. Norm. Oper.7' Detected 7 or Monconforming/ Reasons Why_.

Remarks

1) No Conforming-Carbon Steel 13-827' No
2) dC 562*r-to Low Carbon 304 S.S.
3) 0 gpa Conforaing: Low Carbon 10-S-41 No Saoe as 19-B-17 30s S.S. to 316L S.S.

Conforming: 316L S.S.

13-B-40 No Same as 14-5-27 to 316L S.S.

Same as 14-B-40 14-B-39 3o Same as 14-8-27 Same as 14-B-40 14-8-38 No same as 14-B-27 Same as 14-8-40 14-B-37 No Same as 14-B-27 Same as 14-B-40 14-B-36 No Same as 14-B-27 Same as 14-B-40 14-B-35 No Same as 14-B-27 14-B-34 No Same as 14-B-27 Same as 14-B-40 Same as 14-B-40 14-B-33 No Same as 14-8-27 Same as 14-8-40 13-5-32 No Same as 14-B-27 Same as 14-B-40 13-3-31 No same as 14-B-27 Same as 14-B-40 14-B-30 yo 13 so

2) <; 200*F
3) 0 gpo 14-B-29 No Same as 14-B-30 Same en 14-B-40 14-B-28

.No Same as 14-B-30 Conf orming-316L S.S. to Carbon Steel 10-B-11 yo Sapug A3 14 30 Nonconforming Carbon Steel Not to 304 S.S.

Susceptible to ICSCC:

T JL200*F ponconforaphg 1 304 S.S. to Same as 14-B-10 No SAhME AS tt-B-30 304 S.S.

14-B-11 g,

"I Same as 14-B-10 Same as l

14-B-9 po sanvE A5 Ft-B-30 10-8-11 0

L e

o l

--. ix.use-ury mouena a rne wu e -a -

- -]

[YSTENT ' CORE SPRAY LITE "'"

IP 90 ISI OR FDE:

1) Weld Isolatable?

'Cald ISI or Post-

2) Weld Temp. During Wore. Oper.7' ICSCC 8 eld Classification: Comforming No.

INSI WDE 19R37 31 Flow Rate la_Line Dur. More. Oper.7 Detected?

or Nonconfornisc/ Reasons why.

Mar kp, la-B-B no SW A5 H 30 sace as 14-B-10 same as in-B-11 I

13-B-7 po SAME 45 l4-5-30 Same as 14-5-10 Same 'as to-B-11 13-B-6 yo SAMe AS l+-B-30 Snee as 14-8-10 Same as 14-B-11 1

13-B-5 no SAME AS l+-B-30 Same as 14-B-10 Saee as 14-D-11 l

14-5-4 No SAME AS M-6-30 Same as 14-B-10 Saec as 10-5-11 1

Same as 14-8-10 Saec as 1

13-B-3 po SAME A5 14 - S-30 tu-B-11 n-B-2 no samc AS l+-B-30 Same as 1s-B-10 snee as in-B-11 tN

~

r o

M D

O

,, g gg,, g g gg,,, gg. g SYS?E7: RECIRCULAT!*W LOOP "A" r91d by:

n.w.Kellogg (K) lf_ solution Annealed:

Bechtel Power - (8)

Weld

1) Annealing Temp.

Geld Shop or PECo.

(P)

Weld Solution t

2) Holding Time No.

Field weldF catalvtic (C1 naterial.

Annealed?

31.Coolind Rate 2-AS-1 5

Chicago Bridge No and Irom 2-AS-2 F

B Root:

ER 308 No Fillout: E308 2-AS-3 5

K Root:

ER308 No Fillout: E308 2-AS-4 F

B Root:

ER 308 No Fillout? E308 2-AS-5 F

B Root:

ER308 No Fillout: E308 2-AS-6 2;

p(

Root:

ER308 No-Fillout: E308

.2-45-7 S

K Root ER308 No Filloat: E308 3

2-15-8 F

B Root:

ER308 No Fillout : E308 2-15-9

~

F B

Root:

ER308 No y

Fillout: E308 2-45-10 s

K Root:

ER308 No Fillout: E308 2-AS-11 F

B Root:

ER.108 No

)

Fillout: E308 2-AD-12 F

B Root:

ER308 No 7

Fillout: E308 2-AD-13 F

B Root:

ER308 No 7

Fillout: E308 2-AD-14 F.

8 Root:

ER308 No Filloat: E308 2-AD-15 S

K Root:

ER308 No kh Fillout: E308 2-AD-16 S

g4 Root:

ER308 No y

Fillout: E308 o

SYSTEM: RECIRCULATION LOOP "A" Fild by:

M.W.nellogg (K)

If solution Annealed:

Bechtel Power. (p) weld

1) Annealing Temp.

EG1d shop or PEco.

(P)

Weld Solution i

2) Holding Time E*.

Field Weld?

Catalytic (c)

Material Annealed ?

31 coolina pate 2-AD-17 F

9 Root:

ER308 No Fillout: E308 2-AS-18 3

)(

noot:

ER308 No Fillout: E308 2-AD-12/

5 K

Root:

ER 308 No EPA Fillout: E308 2-EFA-I-A F

C No 2-AD-15/

5 K

Boot:

ER308 No BPA F111out: E308 2-EPA-10-A F

C No 2-AM-3 F

B Boot:

ER 308 No F111out: E308 2-AM-2 F

3 Root:

ER308 No Fillout: E308 2-AM-1 F

B Root:

ER308 No F111out: E308 2-AM-4 55 D(

Root:

ER308 No Fillout: E308 2-AM-5 jj g(

Root:

ER308 No Fillout: E308 2-AM-1/

s K

~

Boot:

ER308 Yes

.5E!E AffMCHMM "l.

AHK Fillout: E308 2-A5-1/

5 K

Root:

ER308 Yes SE A E

AHJ Fillout: E308 2-AM-4/

s K

Root:

ER308 Yes SEE ART %3DyGWT l AHG Fillout : E300 2-AM-4/

s K

Root:

ER308 Yes E AMCNW/

AHF Fillout: E308 c,

2-AHK-1 F

B Root:

ER308 No f(

Fillout: E308 es O

- ~ ~ ~

~~ '

~. 7 03 9 id e tLE3 ti er12; O c7cM i a e n aAJ n r g ua sYSTE': RECI R CU L ATI'W LOOP "A" Weld by:

~An nealed :

R.W.Kellogg

.(K)

If Solgtloh 8echtel Power (B)

Weld

1) Annealing Temp.

.Cald Shop or PECo.

(P).

Weld solution

2) Holding Time

=

50-Field weld?

Catalytic fc1

~ Material Annealed?

' 31 Coolino Rate 2-A%J-1 F

B Root:

ER308 No Fillout: E308 2-A00-1 F

B Root:

ER308 No Filloat: E308 2-AH3-1 F

3 Root:

ER 308 No Fillout: E308 2-ANF-1 F

B Root:

ER 308 No Fillout: E308 g

2-AIK-2

$(

Boot:

ER308 No F111out: E308 2-A!J-2 g;

)(

Boot:

ER308 to Fillout: E308 2-AHH-2 fj

$(

Root:

ER308 to Filloat: E308 2-AH3-2

$(

Boot:

ER308 No Filloet: E308 2-ANF-2 fj g(

Root:

ER308 No Filloat: 3308 2-AHK-3 s

K aoot:

ER300 No Fillout: E308 2-A HJ-3 S

K Root:

ER308 No Filloet: E308 2-AHH-3 s

K Root:

ER308 No Filloat: E309 2-AH3-3 s

K Root:

ER 308 No Fillout: E308 2-AHF-3 s

K Root:

EB308 No

~~

Fillout: E308 2-AHK-4 F

3 Root:

EB308 No F111out: E308

[$

0 2-AHJ-4 F

B Root:

ER308 No Fillout: E308

'O 6o i

i

s-um p

k SYSTER: RERpgtAf fo9 LOOP "A" teld_hI:

if Solution Annealed:

n.b.Kellogg (El Weld

1) Annealino Temp.

Bechtel Fower (B) 9 Weld Shop or PECo.

(F)

Eeld Solution

2) Holding Time l

En _

Field weld?

Catalytic (C)

Material Annealed?

3) Coolino Fate z

o 2-AHH-4 F

B Root:

ER308 No F111out: E308 2-AHC-4 F

B Boot:

E8308 No l

FL11out: E308 l

2-ANF-4 F

B Root:

ES308 No Filloat: E308 1.

No 2-ANK-5 s

Chicago Bridge and Iron No 2-1HJ-5 s

chicago Bridge and Iron

~~

No 2-AHR-5 s

chicago Bridge

  • ~

No 2-AHG-5 s

Chicago Bridge and Iron

~~

ko 2-ARF-5 S

Chicago Bridge and Iron 4

4 0

0 0

71 Oo

SYSTEM: RECTRCULAT303 LOOP *P" seld by:

If Solution Anneated:

n.w.melloqq (K)

Bechtel Fower (n)

Weld II Annealing Temp.

2) Holding Tise keld Shop or PEco.

(P)

Weld Solution.

No._

Field seld?

Catalvtic (c)

Raterini Anncaled7_

31 coolinq_Nate No 2-DS-1 5

Chicago Bridge and Iron 2-BS-2 F

B Roet:

EN308 to F111out: E308 2-B5-3 S

K Saec as 2-B5-2 No 2-B5-4 F

5 Same as 2-85-2 No 2-BS-5 F

B Same as 2-BS-2 No 2-BS-6 5

K Same as 2-55-2 No 2-DS-7 F

B Same as 2-55-2 No 2-35-8 F

B Same as 2-85-2 No 2-B5-9 5

K Same as 2-85-2 No 2-B5-10 F

B Same as,2-BS-2 No 2-BD-11 F

B Same as 2-85-2 No 2-BD-12 F

B Same as 2-BS-2 No 2-BD-13 F

B Same as 2-85-2 No 2-BD-14 5

K Same as 2-85-2 No Same as 2-BS-2 No 2-BD-15 Si g(

2-BD-16 F

B Same as 2-85-2 No Same as 2-55-2 No 2-BD-17 C3 g(

2-BD-11/

5 K

Same as 2-BS-2 No BPD 2-BPB-1-A F

C 2-BD-10/

5 K

Same as 2-85-2 No Jg DFB 2-BPB-10-A F

C O

~

2-FM-3 F

B Same as 2-BS-2 No Po

SYSTER: RECIRCULRTIep Y.OOP "B" veld by:

If Solution _ annealed:

n.v.ne;1ogo (s)

Weld

1) Annealing Temp.

Bechtel Power (B)

Weld Shop or PEco.

(P)

Weld Solution 21 Holding Time 80 Field weld?

Cata17 tic

[C1 Material Aancaled?

31 cooling anta 2-Bn-2 F

B Same as 2-55-2 No 2-BR-1 F

B Same as 2-B5-2 No Sa.

as 2-BS-2 wo 2-Bs-"

S K

l 2-BM-5 S

K Sase as 2-85-2 Wo l

2-BM-1/

5 K

Same as 2-85-2 Yes RN3 BHA M

3 2-B5-1/

S K

Same as 2-85-2 Yes BtfB IEE Af180WN4 2-BM-4/

5 K

Same as 2-85-2 Yes BilD E N*

+

2-BM-4/

S K

Same as 2-BS-2 Yes BffE 2-BBA-1 F

B Same as 2-85-2 No 2-BHB-1 F

B Same as 2-85-2 to 2-8HC-1 F

B Same as 2-55-2 No 2-BHD-1 F

B Same as 2-55-2 No 2-BRE-1 F

B Same as 2-55-2 No

~~

2-BHA-2 K

S m as 2-B5-2 No 2-BHB-2 K

Same as.2-95-2 No 2-BHC-2 K

Same as 2-BS-2 No 2-BHD-2 K

Saae as 2-55-2 No 2-BRE-2 S

K Same as 2-55-2 to Same as 2-BS-2 Wo 2-Bf!A-3 S

K N

2-B ff B-3 5

K Same as 2-85-2 Fo p

2-B elC-3 5

K Same as 2-BS-2 No o

  • n Po f$ k lfl,. - -

ff'4'$.

Af ' ; (,

.;h

  • l,

'+ff Aa " )m, Q, xh.*f *

  • iyw xm'fki.

5 1

r 3-..: q m' %: x' K r

.: n av

.: m vmgd*i e.On+:ir %..yyc s.:w s

t

~

.. :.;1.3 4 y ;3 : c a :e. A ; g. y g p.s g. g w

InsLA-111 - P P A P5 U p)Nwem SYST!M: NECIRCULATION LOOP *P*

Weld by:

If Solution _ Annealed:

n.v.Kellogg (K)

Weld

1) Annealing Temp.

Bechtel Tower (n) 21 Molding Time seld Shop or PEco.

(P; Weld Solution 52.:_.

Field weld?

Catalvtic ft1 Material Annealed 7 31 tooling Rate 2-B R D-3 5

K Same as 2-B5-2 No Same as 2-85-2 Wo 2-BHE-3 S

K Same as 7-85-2 No 2-BHA-4 r

B Same as 2-55-2 No 2-BNB-4 F

B Saoe as 2-85-2 30 2-BHC-4 F

B l

Saoe as 2-85-2 No 2-BND-4 F

B Same as 2-85-2 No 2-BME-4 F

B so l

2-BNA-5 S

Chicago Bridge and Iron l

No l

2-BRB-%

5 Ch'icago Bridge and Iron No 2-BHC-5 S

Chicago Bridae and Iron No 2-BHD-5 S

Chicago Bridge and Iron No 2-BRE-5 S

Chicago Bridge and Iron

+w o

T To

SYSTEM-RW2 SMUToosp to0LIpc SticTfoW LYWE Weld by:

n.v.melloge (x)

If solution Antealed:

Bechtel Power (B) sold

1) Annesling Temp.

Weld Shop or PECo.

(P)

Weld Solution

2) Holding 71ae so.

Field weld?

Catalytic (C)

Raterial An n ealed 7,.

J1 Cooling Rate 10-0-1 pggyp E$

"a**:

E" 3o 8 "a

Fillout: E308 10-0-1/

Shop K

to 12-0 10-0-2 F ElJP E5 soot:

E:308 no Fillout: E308 l

10-0-3 Shop K

Root:

Et308 No Fillout: E308 l

10-0-4 Field B

Root:

ER308 No Filloat: E308 l

l 10-0-5 Shop K

Boot:

ER308 No l

Fillout: E308 1

10-0-6 Field B

Root:

ER308 Mo Fillout: E308 10-0-7 5%op K

CS Buttered with 309 No Root:

E3308 Fillout: r308 10-0-10 Shop K

Same as 10-0-7 No 10-0-11 Shop K

Root:

ER30s No Filloat: E308 10-0-12 Shop K

Same as 10-0-7 to 10-0-15 Shop K

Same as 10-0-7 so 10-0-16 Field B

Boot:

ES308 Fillout: E308 10-0-17 Field B

Same as 10-0-7 No Mb W4 0

1 O

O 5

~

s

/

em

vtAhm*100mmmhaser 7moaoafr-SYSTTH: RM2 SHOTDOTW COOLIWG R ETUR W LIN E " A" Weld by:

if Solution Annealed:

n.W.Kellogg (K)

Weld

1) Annealing Temp.

Bechtel Power (3)

Weld Shop or PECo.

(P)

Weld Solution

2) Holding Time No.

Field Weld 7 ta t aly tic (C1 Material Annealed?

31 Coolino Sate 10-1A-14 Field B

CS Buttered with 309 No Root:

FR308 TW4=A1 E309 1

l 10-1A-11 Shop K

Same as 10-1A-14 No l

l 10-1A-10 Shep K

Root:

ER308 to l

l Fillout: E308 l

l 10-1A-9 Shop K

Same as 10-1A-10 No Same as 10-1A-10 No 10-1A-8 Shop K

Same as 10-1A-10 No 10-1A-7 Shop K

10-1A-6 Field 3

Same as 10-14-13 No 10-1A-5 Field n

Same as 10-1A-10 No Same as 10-1A-10 No 10-1A-4 Shop K

10-1A-3 Field 3

Same as 10-1A-10 No 10-1A-2 Field 5

Same as 10-14-1'J No 4k (n

o M

Po

7-SYSTEM: BRR SHUTD6WW COOLING DETURN LINE "B" Weld bI:

If Solution Annealed n.v.Ke1104g (K)

Weld I) Annealing Temp.

Bechtel Fower (B)

Veld Shop or PEco.

(P)

Weld Solution

2) Holding Time No.

Field Weld 7 Catalftic (C)

Material Annealed?

31 Cooling Rate 10-19-14 Field B

CS Battered with 309 No Root:

ER308 F111out: E 309 10-18-11 Shop K

Same as 10-15-14 No

(

'10-1B-10 shop K

Boot:

ER308 No Fillout: E3n8 10-1B-9 Shop K

Same as 10-15-10 No 10-1B-8 Shop K

Same as 10-18-10 Wo 10-18-7 Shop K

Same as 10-18-10 No 10-1B-6 Field a

Same as 10-1B-10 No 10-18-5 Field B

Same as 10-18-10 No 10-18-4 Shop K

Same as 10-1B-10 No 10-18-3 Field B

Same as 10-18-10 No 10-18-2 Field B

Saee as 10-18-10 No O

W 90 gs -

o

g_

~

SYSTER: NMR HEAD SPRAY LINE

)

weld by:

If Solut_ ion Annealed:

n.v.Kelloqq (K)

Weld

1) Annealing Temp.

Bechtel Power (D)

Weld Shop or PECo.

(P)

Weld Solution

2) Holding Time JBLL.

Field Weld 7 ratalvtic (C1_

Material Annealed?

31 Coolino Rate 10-HS-27N Field P

Noot:

ER309 No Fillout: E 309 10-HS-26N Field P

Noot:

ER308 No Fillout: E 308 Same as 10-HS-26N No l

i 10-HS-25A Field P

l 10-HS-25 Shop K

Root:

EN308 No Fillout: E308 Same as 10-RS-25 No 10-HS-24 Field B

Same as 10-HS-25 No 10-HS-23 Shop K

Same as 10-HS-25 No 10-HS-22 Shop K

l Same as 10-HS-25 No 10-HS-21 Shop K

Same as 10-MS-25 No 10-HS-20 Field 3

Same as 10-BS-25 No 10-HS-19 Shop K

Same as 13-HS-25 No 10-HS-18 Shop K

Same as 10-HS-25 No 10-HS-17 Field a

Same as 10-HS-25 No 10-HS-16 Field 3

Same as 10-BS-25 No 10 HS-15 Field 8

Same as 10-US-25 No 10-Hi-14 Field B

Same as 10-HS-25

' No 10-HS-13 Field B

Same as 10-BS-25 No 10-HS-12 Field 8

Same as 10-H5-25 No 10-HS-11 Field D

Same as 10-US-25 No 10-5S-10 Shop K

Same as 10-HS-25 No 10-HS-9 shop K

J5 Same as 10-BS-25 No 4

10-HS-6 Shop K

-~

Same as 10-HS-25 No O

10-HS-5 Field B

T Oo

lllll lll1 I

OT PO t

de l

a p e m n eee n Tmt A

ia gTR nn o igo i

l nn t

aii u edl l

nl o o noo s ADt f

))1 I123

?

ndoe il o o t a N

N due ll n eon WSA 5 5

%a

- i a a 2

2 S

S H

H 0

0 1

1 l

E a

s s C

v I

r a

L de e e lt m

m tr Y

ea a

a e

A WM S

S R

P S

ca D

r A

r E

H w

Q r

H

))))

r Q

K8PC u

((((

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M e

T gw T

go c

S oP c n

Y

l i

r

' S yll t

B B

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K. h o a t

d A

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eEa r

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?

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d pl l

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4 S

S H

d N

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0 e0 0

1 W5 1

l 1I lll1f1l

SYSTEM: REACTOR WATER CLEATUP LINE Ueld by:

n.v.Kelloqq (K)

If solution Annealed:

8cchtel Power (p)

Weld

1) Annealing Temp.

Weld Shop or PECo.

(P)

Weld Solution

2) Holding Time No.

Field Weld 7 Catalytic (C)

Material Annealed?

31 Cooling _ Rate e

12-0-20 Field C

Root:

ER308L No Fillout: E308L 12-0-21 Field C

Root:

ER308L No Fillout: E308L 12-0-22 Field C

Root:

ER308L No Fillout : E308L 12-0-23 Field C

Root:

ER308L No Fillo ut: E308L 12-0-24 Field C

Root:

ER308L No Fillout: E308L 12-0-25 Field C

Root:

ER308L No Fillout: E308L 12-0-26 Field C

Root:

ER 308L No Fillout: E308L 12-0-27 Field C

Root:

ER308L No Filloat: E308L 12-0-28 Field C

Rcot:

ER308L No Fillout: E308L 12-0-29 Field C

Roott ER308L No Filloat: E308L 12-0-30 Field C

Root:

ER 308L No Filloat: E308L 12-0-31 Field C

Boot:

ER308L No Filldat: E308L 12-0-32 Fleid C

Root:

ER308L No F111out : E308L 12-0-33 Field C

Root:

ER308L No FtLLoon E30eL 12-0-34 Field C

Root:

EB308L No Fillout: E308L Wh,

12-0-17 Field B

Root:

EB308 No Fillout: E308 AD O

3r O

m

lll\\llli il O oYvO de l

a p t

e m n eee n Tmt A

i a gTP n n o iga il nn t

aii u edl l

nl o o noo S aHr f

))1 j1 23 e.

{?

n d_

o e_

il o

t a u

due ll n eon wsA 8

08 E

30 N

R3 I

EE L

l P

a t

U i

u D

r

o A

de t*#

E lt ol L

ea oi C

WM sF R

ET A

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OTC

)))1 A

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{((f R

re t

4w R

9o E

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T

1 i

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3 e

.l Y

b K. h o a t

S d

0.cct l

eEa bC5SPC

?

dle rV o d d

pl l

oe e

hi i

SF r

8 1

d 0

l.

eo 2

lWN 1

l

llI, l

~

EJSTEM: CORC SPRAT LI NE

2f Solution Annealed:

n.v.Kellogo (K)

We?.4

1) Annealing Trap.

Bechtel Power (B)

Weld Shop or PECo.

(P)

Weld Solution

2) Holding Time Fo.

Field weld?

Catalytic tct Material Annealed?

31 r_polina R.ite No 14-A-27 Shop Chicago Bridge and Iron i

Root:

ZR308L No 14-A-43 Field C

Fillout: E308L

(

14-4-42 Field C

Root:

ER 308L No Fillout: E3C8L l

Root:

ER 308L No 14-A-41 Field C

Fillout t E308L Root:

ER308L No 14-A-40 Field C

Fillout: E308L Boot:

ER308L No 14-A-39 Field C

Fillout: E308L 14-1-38 Field C

Root:

EB308L No Fillout: E308L 14-A-37 Field C

Root:

ER308L No Fillout: E308L 14-A-36 Field C

Root:

EE308L No Filloat: E308L 14-A-35 Field C

Root:

. ER308L No Fillout: E308L Root:

ER308L No 14-A-34 Field C

Fillout: E300L Root:

ER308L No 14-A-33 Field C

Fillout: E308L Root:

ER 300L No 14-A-32 Field C

Fillout: E308L Root:

ER308L No 14-A-31 Field C

Fillout: E308L 14-A-30 Field C

Root:

ER 300L No Fillout: E308L 09 l

Root:

ER 3J8L No 14-4-29 Field C

o Fillout: E308L "T1

&o

SYSTEn CORE SPR AY LINE " A" veld by:

If Solution Anrealed:

n.v.Kellogg (u)

Bechtel Power (B)

Weld

1) Annealing Temp.

Weld Shop or F ECo.

(P)

Wald Solution

2) Holding Time No.

Fleid seld?

Catalytic (Cl _

Material Annealed?

3) Coolina Rate 14-A-28 Shop K

CS Buttered with 309 No Root:

ER309L Fillout E309L 14-A-12 Shop K

CS Buttered with 309 No Root:

ER308 Fillout: E308 14-4-11 Shop K

R>ot:

ER308 No Tillout: E308 14-A-10 Shop K

Root:

ER308 No Fillout: E308 14-A-9 Shop K

Rsot:

ER308 No Filloat: E308 14-A-8 Shop K

Root:

ER308 No Fillout: E308 14-A-7 Shop K

Root:

ER 308 No Filloat: E308 l

l 14-A-6 Field C

Root:

ER308 No Fillout: E308 14-A-5 Field C

Root:

ER308 No Fillout: E308 14-A-4 Field C

Root:

ER308 No Fillout: E308 14-A-3 Field C

Root:

ER 308 No Fillo'ut: E308 14-A-2 Field C

Root:

ER308 No Fillout: E308 1

l 44

  • i N

1 0

13

~i (Bo

m~,.

SYSTEM: CORE SPRAY LIN E "B" weld by:

If solution Annealed:

n.w.Kellogg (K)

Weld

1) Annealing Temp.

Bechtel Power (D)

Weld Shop or PECo.

(P)

Weld Solution

2) Holding Time No. -

Field weld?

catalytic rci naterial

_A nnealed ?

31 toolino Rate No 14-B-27 Shop Chicago Bridge and Iron 14-B-41 Field C

noot:

ER308L No

~~

Fillout: E308L

~~

14-5-40 Field C

Root:

ER308L No Fillout: E308L 14-B-39 Field C

Root:

ER308L No Fillout: E308L l

14-8-38 Field C

Root:

ER30BL No Fillout: E308L

(

Root:

ER 308L No 14-B-37 Field C

Fillout: E308L 14-B-36 Field C

Root:

ER308L No Fillout: E300L 14-B-35 Field C

Root:

ER308L No Fillout: E300L 11-B-34 Field C

Root:

ER308L No Fillout: E308L 14-B-33 Field C

Root:

ER308L No Filloat: E308L Root:

ER308L No 14-B-32 Field C

Fillout: E30BL Root:

ER308L No 14-D-31 Field C

Fillout: 2308L 14-B-30 Field C

Root:

ER308L No Fillout: E300L C

Root:

ER300L Wo 14-B-29 Field Filloat : E308L CS Buttered with 309 No gg 14-D-28 Shop K

gp Root:

ER309L Fillout: E309L O

T e

O

n l

jf 3ffM : CORE SPRAY LINE "B" f

veld by:

n.v.Kellogg (R) jf Solution Ahnealedt Bechtel Power (a)

Weld

1) Ant Temp.

Ecid Shop or PEco.

(P)

Weld Solution

2) Holdtw3 ne Po.

Field weld?

Catalytic ft1 Material Annealed?

"31 Coollnc h.te 14-8-11 Shop K

CS Buttered with 309 No stoot :

ER308 i

Fillout: E308 l

14-D-10 Shop K

Root:

ER308 No Fillout: E308 l

(14-B-9 Shop K

Root:

ER308 No Fillout: E308 l

l 14-B-B Shop K

Root:

ER308 No rillout: E308 l

14-B-7 Shop K

Root:

ER308 No Fil loi.t - E308 l14-B-6 Field C

Root:

ER308 No Fillout: E308 l14-B-5 Field C

Root:

ER308 No Fillout: E308

'14-B-4 Field C

Root:

ER308 so Fillout: E308 14-B-3 Field C

Root:

ER 308 No Fillout: E308 14-B-2 Field C

Root:

ER308 No Fillout: E308 O

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