ML20087B440
ML20087B440 | |
Person / Time | |
---|---|
Site: | Peach Bottom ![]() |
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) | |
Text
-
c'.
' r.
. s J~,
/
.i
-i
)
i f
,/
4
, 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
~
p w
.t "T
T
(
i
.)
W
.L 8403090089 840221 i
PDR ADOCK 05000277 o
PDR N
f a
i-
-g-y
,een-. - -
-m--
pqmg-.,
v.-gm-e-e m s--r-,
e=-
(
s Y
c
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
---] vasa w.xseraanu<
a,s a um,
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" 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
- 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 "'"
'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._
- 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.
- 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
- 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:
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 "*"
- 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-
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:
- 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
- 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-
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* $.
?."8 2
i i
v M
i o
o 2
S. a
- t.e e
S.a "
o A
we
- we me w m
e oo eo C k
e oc wa m g
um
-u au a
au uE e
W e
oe O.u
- u. u e
==
r
-to g
g oc e
T m.o o
ae M
a eo UU W3 1
I I
I I
I i
.u t
- m. C nd
- L*
M Oo a
a Ma MM o9 d
SO G.
O4 M
- sa n w. are O.
t s.4lo o
o o
Ha.e 5 u
M C. kJ Ca a N h
N N
a a
a a
a a
a O
m =g C. 4' E E
Ic Ic B:
E M
m O O8*
e e
8 0
t t
e M
a 9
M O.
msg.
M W
G M
o C.
m M
E gMO 4
g a
8 m N os e e
e M
O MeM e
e e
e
- p. v o I e
a 6mh e
I s
e a
e M
e kNM M
M M
NNbM M
M M
M M
M f9 iG 1 s=
x 64 3 0 0
0 0
0 0
C 0
0 m
a a
a a
a a
a M
M th MZ MM N
o v=
v= -
e=
p en a
M 8
0 4
4 8
4 6
i M
M M
M M
M M
M g
E E
E E
N E
E B:
c4.
e i
t i
4 4
4 9
tOo o
o o
o o
o o
aa e-
- =
- =
e
SYSTEM:
f E ACTO ? r ATE'? CLEA7 EP LI"E IT WO ISI OR_WDE1
- 1) Csid IsslatEblGT Celd Is! or Post-
- 3) Flow Rate in Line Dur. Norm. Oper.?
Detected 7 or Moncomforsing/ Reasons Why.
Femarks Code %<>4pjGg --304 S.S.
12-0-20 No
- 1) no 21 SE,1
- F to 316L s.s. - 6* EAT S'Nt.
WELP
- 3) 300 gpa 12-0-21 No same as 12-0-20 Conforming-Cast 5.s. Talve to 316L sos.
12-0-22 No same as 12-0-20 same as 12-0-21 12-C-23 No same as 12-0-20 same as 12-0-21
.n 12-0-24 No
- 1) Yes same as 12-0-21
- 2) 56,2,*F 33 300 erg 12-0-25 No same as 12-0-24 conforming-316L s.s.
to 316L S.s.
12-0-26 No same as 12-0-24 same as 12-0-25 12-0-27 No same as 12-0-24 same as 12-0-25 12-0-28 No same as 12-0-24 same as 12-0-25 12-0-29 No same as 12-0-24 same as 12-0-25 12-0-30 uo same as 12-0-24 same as 12-0-25 12-0-31 No same as 12-0,-24 same as 12-0-25 same as 12-0-25 12-0-32 No same as 12-0-24 12-0-33 No same as 12-0-24 SAme as 12-0-25 12-0-34 Tes No mammadrec4 pag-316L s.S.
to 304 s.5.
l 12-0-17 Tes No NotiCCAM3DIMM$- 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:
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
_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 "'"
- 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)
- 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:
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)
- 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
- and Iron
- ~
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)
- 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'$.
Af ' ; (,
.;h
- l,
'+ff Aa " )m, Q, xh.*f *
- iyw xm'fki.
5 1
r 3-..: q m' %: x' K r
.: n av
.: m vmgd*i e.On+:ir %..yyc s.:w s
t
~
.. :.;1.3 4 y ;3 : c a :e. A ; g. y g p.s g. g w
InsLA-111 - P P A P5 U p)Nwem SYST!M: NECIRCULATION LOOP *P*
Weld by:
If Solution _ Annealed:
n.v.Kellogg (K)
- 1) Annealing Temp.
Bechtel Tower (n) 21 Molding Time seld Shop or PEco.
(P; Weld Solution 52.:_.
Field weld?
Catalvtic ft1 Material Annealed 7 31 tooling Rate 2-B R D-3 5
K Same as 2-B5-2 No Same as 2-85-2 Wo 2-BHE-3 S
K Same as 7-85-2 No 2-BHA-4 r
B Same as 2-55-2 No 2-BNB-4 F
B Saoe as 2-85-2 30 2-BHC-4 F
B l
Saoe as 2-85-2 No 2-BND-4 F
B Same as 2-85-2 No 2-BME-4 F
B so l
2-BNA-5 S
Chicago Bridge and Iron l
No l
2-BRB-%
5 Ch'icago Bridge and Iron No 2-BHC-5 S
Chicago Bridae and Iron No 2-BHD-5 S
Chicago Bridge and Iron No 2-BRE-5 S
Chicago Bridge and Iron
+w o
T To
SYSTEM-RW2 SMUToosp to0LIpc SticTfoW LYWE Weld by:
n.v.melloge (x)
If solution Antealed:
Bechtel Power (B) sold
- 1) Annesling Temp.
Weld Shop or PECo.
(P)
Weld Solution
- 2) Holding 71ae so.
Field weld?
Catalytic (C)
Raterial An n ealed 7,.
J1 Cooling Rate 10-0-1 pggyp E$
"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)
- 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)
- 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
((((
su r
M e
T gw T
go c
S oP c n
Y
- l i
r
' S yll t
B B
y B ee.lv u
K. h o a t
d A
v.cCt l
u e
eEa r
v nBPC
?
d l
e rW o d d
d pl l
l oe e e hi i i sF F
F 3
4 S
S H
d N
l.
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)
- 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
C R
OTC
)))1 A
GBPt 2
{((f R
re t
4w R
9o E
0P c
T
- 1 i
S y1l ty B
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
- A" weld by:
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)
- 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)
- 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)
- 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
"U C
C
4 P-'
g as a
hk SS' of G 0 q u8
=I k
s s
p l
3s+v 4d*
L*
.s.t.a.ss.ia 44 go t.
=
m, g
s m,,
n e
E m
E 3
y
'4
< _...... \\ \\
c;%. - 'N a.
9.
7
-I k
8
%.4 <;
- h. h.
?.
.. ; y. -4 n
e
==
. 4.
=
+.
m.% r 1
%d a
- I
- 7. O s
[T
~6.c.;
- /'.;s e_.......
O
'-'."..'.'.N i i $4.[ g
-i n
2e 7,%.
-i
=>
v.
I f, e
y :.. g -.,
%u s
- i
- ~ 1
- Yf
$j;gl
- .t
-L)(
,.e-pt Y,
i ii I
\\
P-si......
v 4
s s-a, n o
q.,
=
a x : e&
- t
.s &
a
% r... -.
v uu u
- s
- i.
== e i-. s-a s-g
? 1 :.
,.,,,., N
?
~.;,
Y:'g:
/[t,i-,4a4 eV et. '. y?
n 4
g y 4..
o ga est 1
3.g c
4, gg
%,d4#4 i-St*4 #
g 1
8 ' '" ~ t
- ?.. ' i #
E y
5 55 l--A
.6-89 4
+D N h
6 a.. 8 N n.#.f-A a
A?*
=
. m
,;.si e i-i' >
'* Pe%
g q p-- 4-ft f 6
, i ;,5 ;.,
vis Gil d L-.-at t
{
s.p-; g- $*
A-7 10 ev.%.. ;
=
=
e,
-3 3
e i
.s,.
m.
L 5;
n a.
/
m e
e.w,..,
Ed
- " 1
=b
@ ?N:h
.uu h a
==
=
.-4v 4 z
4 tv 4
- -w s i-i,a t.
i.
y gg.,,
5:
'-5' '
~
g
?
i.....
~
c 1 Q..
1-y i
.u. 1
-. w i..... e m
g 4
.s v..
y p
{
[-
_ g.... 3
~
g
. s f. t,.d..
4, o.,,
J v) a t
4
+
3 u
_-.,'t(jb x
=
a J"
}
',f__. g a
g s
m o
N g
r g **
5,g k
- $, (
' QV.*;
7,
}
5 3.
/
'yf hegg "E
'%4.J :
g%.,
t J
f s
a..
g y,
7 e
..p..
t.
D G w>
m I
m h
- e.*
$ g4 $
[. -
h.. e%*<k 1
g
- 6. w. h *3 J
1 e) 5 y
3'O3 2 Q y'
s,4,.
3 e
.4
- l >* 5
.h 4
e u'
9
- a -.
Y n
g s
.s.
g Eg*
p
.y i
/j }#g#
6 s}
j dj$
s
g.
i.
56 oF 60 a
'j hh b
a.".
4 m., L c
4 ei es E
.. g.,. 4 g
gla -ast astlesissid iL S ilt 4 *;-
{w y
1851s114e63 g;
to c.
g 4
1
$g y
a ei si g
I M4\\
w
~
,".1imi.4
\\
, _.... i.. i (c
- 'a 'N
??
66 b
t tus t - r---
?'
y
-e m
- bf e she 4 -
m_
- ms m j
g4 p
.} ;
O us m :
~'
n.....
+.*
.{.,
F o
yi,j U
% s m 4--
9 i
.i e i..u.
g
" N i
ii I,..l.y[
\\p*';f F
.....i ai-:n i -
3,_
z
=
U
.4he m s%
%? ??
I si+-
.n..
~
{
uu o
- c. e.
= it a-a
, a
......, N g
- +E y
o G
emn
~;*-
g S.,- -sa ;, s
.~
.n v,...._.
M.
n.u.i-I -. uni.
4,
<,.,+
- =
m a
d.
s 4
- 3 i._-
)^ ei-i.:
ema g
~c~
. sis i
(
=
a
~
,n, m a u...
L
- c E
e a
3-8# 8 '- Q I.
h I,
(
w c
X l
=
M E
a g
E M
n.
g y
"rr c
a i
i f-l EB
=
e J
~~
D l
03 l
I d
l m
1 l
M O
E l
. ).
l a.
9 7, 80-8
[
E ;*
arqua ralEl 1
h!!
7
.i...
F
=
o;;
y y,.y i
j e
E I.'
A 1 88 8 g g.gg.g J
i, E
N
(_
N l,
a
?
r-w D.
h 2
X i
g m
L M
N d
0 9 h >3 D
~
I M N M 8BE y
g= %
1s 3 m
t c.;
L r #,.
., a,
s
- I ~5::
x F
b.
5 J
$. g ', o$,.,_ d w
- ?
Eg n
a a
l
.l, 5
g,n;i.'
T 4
e w
tj s.
E a
n
- m. we 37<
--m___,
E' D
570F60
(
10-HL ' bu t / _.h I
4,10 - h5- / / t 10-H-751,l'-
T 10-HI-2L 10-HS-74 a
10-HS-23 7_
10-HS-22 10-HL-71 9 10-HS-20 g-4 No Con \\urtrang WL\\1s prv.%un 9 No dl hN4ndiou'.
?T s'kuf *Ch 10-H5-18
-Q N o M dh kNckh3 Stps#5 pux{ormth
" 10-H5-17 "10-n5-16 10-HS-15 l
10-HS-14
" 10-HS-13 10-HS-5;
( -H -
WO-32 10-H5-4 O
10-hS-S 010-HS-12 10-H5-3 mo n\\r
" 10-h5-11
/g,#
4 l
/
h
/
/
,\\
\\
g gy/
I 10-HS-10' 1
g.p l
8 PBAPS UN11 ti 2 RhR h[AD SPRAf
PBAPS Uilli #7 RE ACT OR WAT ER CLE AN-UP i
I I
t Ae 87-0-75 I
12-0-744 e j
vo-is i 12-0-23 A g j
j t
Ae 12-0-33 I
.[j,12 32 /
A.
12-0-34 12-0-22 I g s
4' 12-0-26 A 9 12-0-107 12-0-17 12-0,27 4 4 12-0-28 A G y
yD-18 f
12-0-204 A 12-0-29 A G g/
0 4
10-0-1/12-0 g g* g
'o \\ [
~
Ao
%, @q 12-0-31 o 12-0-30 A G EED 4 - Coe4FORMir4G WELDS, ALL OTHERs NON-CONFogMING g - NoT UT-EYAmlMED, ALL OTHERs EKAMINED M
E - WELD OVERLM REPAIRED e
i
'Tl
l 5') 0F loo f
C2 s
l p '1
@ n-CodroRawG WADS, Att. ciruces s-H 1 it 4 0 i
s gog. coMfogeAING j ('s 9-mot OT - E%A AINED, ALL OTHEM.
NuA4:- A4 N
gyAggg(p 1 u.6 o & 9 N - wad OVERLAY REPAtRED..
io p
~^^d3 ' '
u n w n,"..,.. r., 4 4
>2-u-A-3e h e 14-A 3'l & $
0 jieA-36&e q
i.-A-35 h e
~
is-l,-34& O 14-A-31 A e F
4 A' 33
- 4/
e p.g-30 A t
'O '
i4-s,-32 A e,,
he 14-A-79ti j
6e sls 14-A-25 o-b 142
.,4A.,,,-
85 e u-A-n o y
r"-A'a4
\\
/u-o,-4e STY.
sj
%.3
. u - A-i o,
n - i-8,.
.)
..%[t'I'i 3'
\\s, j'
,39 138
$ 14-A-S x
-s-1 n
4-A-e.
WD-1.t?d l PBAPS Uj,))
n2.
"A" CORE 5 P it A i - t 0 0 P --
E f o of 60, e a w e-o ' +'#
1 e a1+s 4:
1 i
/
i K_.E5 i
i,-s.es e A - c.4,mm3 Mt\\h6 O i
,,..s.3s g.
,% s %-C Sn~)
. - %% \\E Y.o.m,nd,
-.y-o-se L e
,a i..
5: ~*t, h\\ ohs b e*k
~
T,'/;f31'l' a - Wu O*<\\ b "A I
1
?
14-5-35b %
i 14-B-34 h $
i
- 4-h-33b 9 i
fy,, ' '. 5.O Y,['~.
g & 1 '
r.
^si. ~ % ';f,~
14-3-3i & 9 i
. 4 b-3 * & $
'., ?!
4
% '.*Th;
. 3 ;.,,. O'l q
j
'N$ b
.t4-5-1i A e i
ehk-ef 4
1 j% 14-5-1b& 9 i
U.f 148 l
)
g 1 4 [, -
, 50-;3; I
..Mit a-B-i t g I
g is-n. -4
. 4-e ce-
/.
p 1
//
er
- 4*O*IOO g it @ '
s f4-9-94
- 14 E-6 O.6-h 3
,,.;4;;a
- [ 14 -5 ~ $
/'
%c. A 1
4%9
/s PBAPs UNIT #2.
CORE SPKAY LOOP "B"
,