FINAL SAFETY ANALYSIS REPORT · 2020-08-04 · FIGURE 2.5.4–12 Geologic Map of Final Grade,...
Transcript of FINAL SAFETY ANALYSIS REPORT · 2020-08-04 · FIGURE 2.5.4–12 Geologic Map of Final Grade,...
MILLSTONE POWER STATION
UNIT 3
FINAL SAFETY ANALYSIS REPORT
Revision 33—06/30/20
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
R1
of 9
Rev
isio
n Su
mm
ary
Rev
isio
n 33
—06
/30/
20
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
3306
/30/
20M
P3-U
CR
-201
9-02
63.
6.2.
1.2.
2.f,
3.6.
3.3.
6-14
, 6.
6.3
Ris
k in
form
ed m
etho
dolo
gy re
fere
nce
now
bei
ng
cred
ited
with
in th
e IS
I Pro
gram
ETE-
MP-
2019
-100
4
32.0
103
/31/
20M
P3-U
CR
-201
9-01
9Ta
ble
3.2-
1, 9
.2.1
.3, 9
.5.8
.3,
10.3
.3, 1
0.4.
9.3
Torn
ado
Mis
sile
Pro
tect
ion
Doc
umen
tatio
n Is
sues
.C
R11
2287
32.0
103
/31/
20M
P3-U
CR
-201
9-02
415
.7.4
, Tab
le 1
.7-8
, Tab
le
15.6
-12,
tabl
e 15
.0-8
FHA
dro
p of
a N
on-S
pent
Fue
l Ass
embl
y.ET
E-N
AF-
2019
-011
0
32.0
103
/31/
20M
P3-U
CR
-202
0-00
39.
5.3.
1H
igh-
bay/
Med
ium
-hei
ght L
ight
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Cla
rific
atio
n
32.0
103
/31/
20M
P3-U
CR
-201
9-02
215
.8U
pdat
ed A
TWS
Ana
lysi
s for
Mill
ston
e U
nit 3
ETE-
NA
F-20
19-0
094
32.0
103
/31/
20M
P3-U
CR
-201
8-01
7Ta
ble
6.2-
65, T
able
6.3
-70
MP3
10C
FR50
App
endi
x J R
educ
tion
of
Con
tain
men
ts Is
olat
ion
Val
ve T
est R
equi
rem
ents
as
soci
ated
with
ETE
-MP-
2018
-100
6.
32.0
103
/31/
20M
P3-U
CR
-201
9-02
19.
5U
nit 3
SA
R c
hang
e al
low
ing
Jack
et W
ater
mak
e up
to th
e Em
erge
ncy
Die
sel G
ener
ator
s.ET
E-M
P-20
19-1
080
32.0
103
/31/
20M
P3-U
CR
-201
8-00
94.
1.4,
5.5
Fire
Det
ectio
n Sy
stem
Upg
rade
, Con
trol R
oom
C
onso
le a
nd Z
one
Pane
l 7.
MP3
-18-
0018
7
32.0
103
/31/
20M
P3-U
CR
-201
9-01
5Ta
ble
15.0
-2, 1
5.5.
1, 1
5.5.
2,
15.5
.4 (R
efer
ence
s)Im
plem
enta
tion
of S
afet
y A
naly
sis f
or In
adve
rtent
O
pera
tion
of E
CC
S.ET
E-N
AF-
2019
-003
3
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
R2
of 9
32.0
103
/31/
20M
P3-U
CR
-201
6-02
38.
3.1.
1.1,
Fig
. 8.1
-1 F
SAR
, FP
ERM
P3 N
SST
Rep
lace
men
t.M
P3-1
6-01
121
32.0
103
/31/
20M
P3-U
CR
-201
9-01
0FS
AR
9.5
.7R
aise
MP3
ED
G L
ube
Oil
Low
Tem
pera
ture
A
larm
(3EG
O*T
S25A
/B)
MP3
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0102
1
32.0
103
/31/
20M
P3-U
CR
-201
9-00
6FS
AR
SAR
Cha
nge
for R
epla
cem
ent M
P3 V
acuu
m
Prim
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Pipi
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MP3
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0110
2
Rev
isio
n 33
—06
/30/
20
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
R3
of 9
32.0
103
/31/
20M
P3-U
CR
-201
9-00
34.
3.1.
5, 4
.3.2
.1, 4
.3.2
.2,
4.3.
2.2.
6, 4
.3.2
.3, 4
.3.2
.3.1
, 4.
3.2.
3.2,
4.3
.2.3
.3, 4
.3.2
.3.4
, 4.
3.2.
4.9,
4.3
.2.7
.6, 4
.3.3
, 4.
3.3.
1, 4
.3.3
.2, 4
.3.3
.3, 4
.3.4
, 4.
4.1.
1, 4
.4.1
.5, 4
.4.2
.2,
4.4.
2.2.
1, 4
.4.2
.2.2
, 4.4
.2.2
.3,
4.4.
2.2.
4, 4
.4.2
.4, 4
.4.2
.9.5
, 4.
4.2.
9.8,
4.4
.2.7
.3, 4
.4.2
.11.
6,
4.4.
4.2,
4.4
.4.3
, 4.4
.4.5
, 4.4
.4.7
, 15
.0.3
.1, 1
5.0.
3.2,
15.
0.3.
3,
15.0
.10.
2, 1
5.0.
10.3
, 15.
0.10
.4,
15.0
.10.
6, 1
5.0.
10.7
, 15.
0.11
, 15
.1.2
.2, 1
5.1.
3.2,
15.
1.4.
1,
15.1
.5.1
, 15.
1.5.
2, 1
5.1.
5.3,
15
.1.6
, 15.
2.3.
3, 1
5.2.
9,
15.3
.1.2
, 15.
3.2.
2, 1
5.3.
5,
15.4
.1.2
, 15.
4.2.
2, 1
4.4.
3.2,
15
.4.6
.2, 1
5.4.
8.2.
1, 1
5.4.
9,
15.6
.1.2
, 15.
6.7,
Fig
ures
: 15.
0-1,
15.
1-2,
15.
1-11
, 15.
1-14
, 15
.1-1
5, 1
5.1-
15A
, 15.
1-16
, 15
.1-1
6A, 1
5.1-
17, 1
5.1-
17A
, 15.
2-4,
15.
3-4,
15.
3-8,
15
.3-1
6, 1
5.4-
1, 1
5.4-
3, 1
5.4-
4, 1
5.4-
5, 1
5.4-
6, 1
5.4-
7,
15.4
-8, 1
5.4-
9, 1
5.4-
10, 1
5.4-
11, 1
5.4-
12, 1
5.6-
1,
Impl
emen
tatio
n of
Dom
inio
n R
eloa
d C
ore
Des
ign
and
Safe
ty A
naly
sis M
etho
dsET
E-N
AF-
2019
-005
Rev
isio
n 33
—06
/30/
20
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
R4
of 9
32.0
103
/31/
20M
P3-U
CR
-201
9-00
3 (c
on’t)
Tabl
es: 4
.1-1
, 4.1
-2, 4
.4-1
, 4.
4-4(
new
), 15
.0-2
, 15.
0-4,
15
.1-1
, 15.
4-1,
15.
4.2
(del
eted
)R
evis
ion
32—
06/2
7/19
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
3206
/27/
19M
P3-U
CR
-201
9-00
94.
2.2.
3.1,
4.2
.2.3
.1.1
, 4.2
.2.3
.3M
illst
one
Uni
t 3 F
SAR
Cha
nges
ass
ocia
ted
with
the
Cyc
le 2
0 R
eloa
d Sa
fety
Eva
luat
ion.
EVA
L-EN
G-R
ESE-
M3C
20
3206
/27/
19M
P3-U
CR
-201
9-01
38.
3.2.
1.2.
4, 8
.3.2
.1.2
.2, 1
.8-1
0,
1.8-
60Ex
tend
ing
Freq
uenc
ies o
f Uni
t 3 B
atte
ry D
isch
arge
Te
stin
g an
d B
atte
ry C
harg
er L
oad
Test
ing,
as s
peci
fied
in S
TI-M
3-20
17-0
02.
STI-
M3-
2017
-002
, ETE
-MP-
2019
-102
4
31.2
12/2
8/18
MP3
-UC
R-2
017-
010
Tabl
e1.
7-1,
6.3
.3.2
, 6.3
.4.2
, Ta
ble
6.3-
10, 7
.3.1
.1.5
, Ta
ble
7.4-
1, 8
.3.1
.1.3
Rev
ise
FSA
R T
able
6.3
-10
to b
e co
nsis
tent
with
Tab
le
3.9N
-11
per A
CE
CA
3054
810.
Rev
ise
Sect
ion
6.3.
4.2
to c
larif
y th
at sp
ecifi
cally
one
cha
rgin
g ca
n be
out
of
serv
ice
for m
aint
enan
ce.
AC
E C
A30
5481
0
31.2
12/2
8/18
MP3
-UC
R-2
018-
020
4.4.
64Lo
ose
Parts
Mon
itor
MP3
-UC
R-2
018-
005
31.1
09/2
7/18
MP3
-UC
R-2
016-
017
10.3
.5, 1
0.4.
7.2
Add
ition
of P
olym
eric
Dis
pers
ant f
eedw
ater
syst
emM
P3-1
6-01
046
Rev
isio
n 33
—06
/30/
20
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
R5
of 9
31.1
09/2
7/18
MP3
-UC
R-2
018-
005
4.4.
6.4
Loos
e Pa
rts M
onito
ring
Syst
em u
pdat
e.LB
DC
R 1
8-M
P3-0
08, T
RM
3.3
.3.8
31.1
09/2
7/18
MP3
-UC
R-2
018-
006
9.5.
6.2,
9.5
.6.5
Setp
oint
Cha
nge
“A”
and
“B”
EGA
Sta
rting
Air.
MP3
-18-
0015
0, M
PE-1
8-00
151
31.1
09/2
7/18
MP3
-UC
R-2
018-
007
Tabl
e9.
2-1
Upd
ate
of F
SAR
Tab
le 9
.2-1
to re
flect
ED
G D
ownt
ube
Coa
ting.
ETE-
MP-
2017
-110
0
Rev
isio
n 31
—06
/28/
18
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
3106
/28/
18M
P3-U
CR
-201
5-00
19.
2.2.
1.2,
9.3
.1.1
.1, 9
.3.1
.1.2
Ref
lect
s upd
ates
to p
rovi
de c
larif
icat
ion
text
for
shut
dow
n ai
r com
pres
sors
.O
P 33
32A
-001
, OP
3332
A-0
04, O
P 33
32A
-015
, OP
3332
A-0
30, D
CR
M3-
9700
5, C
R28
5627
30.3
03/2
9/18
MP3
-UC
R-2
017-
004
2.3.
3.3
Dat
a R
ecor
ding
Sys
tem
s and
Dat
a Pr
oces
sing
, is u
pdat
ed
to re
flect
the
rem
oval
of t
he E
DA
N fi
eld
min
icom
pute
rs
from
the
Met
eoro
logi
cal i
nstru
men
t she
lters
at t
he
Prim
ary
and
Bac
kup
Mas
t loc
atio
ns a
nd th
eir r
eloc
atio
n to
the
MPS
Dat
acen
ter.
DC
: MPG
-16-
0113
9
30.3
03/2
9/18
MP3
-UC
R-2
018-
001
Tabl
e6.
3-7
Upd
ate
FSA
R T
able
6.3
-7 S
witc
hove
r pro
cedu
re to
agr
ee
with
EO
P ES
-1.3
Tra
nsfe
r to
Col
d Le
g R
ecirc
ulat
ion.
LA30
1964
2
Rev
isio
n 32
—06
/27/
19
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
R6
of 9
30.3
03/2
9/18
MP3
-UC
R-2
018-
004
5.4.
1.3.
1U
pdat
e M
P3 R
eact
or C
oola
nt P
ump
Seal
Mat
eria
ls.
DC
: MP3
-13-
0105
5D
C: M
P3-1
4-01
022
CR
: CR
1083
652
30.2
12/2
8/17
MP3
-UC
R-2
017-
008
9.5.
10.2
, 11.
5.2.
2.8
Mis
sed
upda
tes o
f the
hyd
roge
n m
onito
ring
syst
em
mod
ifica
tion
M3-
0400
7D
CR
: M3-
0400
7
30.2
12/2
8/17
MP3
-UC
R-2
017-
018
4.1,
4.2
.1, 4
.2.1
.1, 4
.2.2
, 4.
2.2.
3.3,
4.2
.4.2
, 15.
0.3.
2,
15.2
.7.2
, 15.
5.1.
1, T
able
15.6
-2
FSA
R C
hang
e N
o. in
ord
er to
supp
ort t
he M
3C19
relo
ad.
EVA
L-EN
G-R
SE-M
3C19
30.1
09/2
8/17
MP3
-UC
R-2
015-
031
11.2
.2.1
, 11.
4.1,
11.
4.2.
2,
11.4
.2.2
.2, 1
1.4.
2.7
Rep
lace
men
t of t
he P
orta
ble
resi
n ha
ndlin
g an
d de
wat
erin
g sy
stem
with
a v
endo
r sup
plie
d so
lid
radi
oact
ive
was
te p
roce
ssin
g sy
stem
.M
P3-1
5-01
066
30.1
09/2
8/17
MP3
-UC
R-2
016-
004
8.1.
3, 8
.2.2
Ever
sour
ce 1
5G B
reak
er F
ailu
re R
elay
Rep
lace
men
t.ET
E-M
P-20
15-1
186
30.1
09/2
8/17
MP3
-UC
R-2
016-
008
FPER
Sec
tion
5.5
- Ana
lysi
s 90
Rep
lace
men
t of t
he p
orta
ble
hand
ling
and
dew
ater
ing
syst
em w
ith th
e En
ergy
Sol
utio
ns A
LPS/
AIM
and
SED
S sy
stem
s.M
P3-1
5-01
066
30.1
09/2
8/17
MP3
-UC
R-2
016-
015
List
of E
ffec
tive
Figu
res,
9.3.
1.3
(new
), FP
ER
Sect
ion
5.5
Ana
lysi
s87,
FPE
R
Sect
ion
5.5
Ana
lysi
s101
(n
ew)
Inst
alla
tion
of a
bac
kup
elec
tric
mot
or-d
riven
air
com
pres
sor a
nd d
esic
cant
air
drye
r pow
ered
by
a di
esel
ge
nera
tor t
hat w
ill b
e co
nnec
ted
to th
e M
P3 In
stru
men
t A
ir Sy
stem
(IA
S).
MP3
-15-
0113
7
Rev
isio
n 31
—06
/28/
18 (C
ontin
ued)
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
R7
of 9
30.1
09/2
8/17
MP3
-UC
R-2
016-
022
8.1.
1, 8
.1.3
, 8.1
.4, F
igur
e8.
1-2,
Fig
ure
8.1-
3, 8
.2.1
, 8.2
.2,
Figu
re 8
.2-2
Ever
sour
ce E
nerg
y pr
opos
es to
reco
nfig
ure
the
345k
V
Mill
ston
e - H
adda
m -
Bes
eck
348
03.
ETE-
MP-
2016
-113
5
30.1
09/2
8/17
MP3
-UC
R-2
017-
007
Tabl
e 9.
3-6
Uni
t 3 R
eact
or C
oola
nt P
ump
Seal
Rep
lace
men
t ad
ditio
nal F
SAR
cha
nges
mis
sed
durin
g th
e in
itial
pr
ojec
t.M
P3-1
3-01
055,
MP3
-14-
0102
2
30.1
09/2
8/17
MP3
-UC
R-2
017-
009
9.3.
5.2,
Tab
le 1
1.4-
1M
odify
U3
FSA
R to
cor
rect
item
rela
ted
to p
revi
ous
Ther
mal
Reg
ener
atio
n FS
AR
Cha
nge
FSA
R 0
1-M
P3-0
42
30.1
09/2
8/17
MP3
-UC
R-2
017-
012
10.4
.7.3
, 10.
4.8.
5, 9
.2.1
.5Fi
x in
cons
iste
ncie
s in
Sect
ions
9.2
.6.5
and
10.
4.7
LA30
1964
5 R
ecov
ery
Plan
Act
ion
Item
5.a
.23
Rec
onci
le
FSA
R C
omm
ents
Rev
isio
n 30
—06
/29/
17
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
3006
/29/
17A
dmin
istra
tive
As i
dent
ified
in th
e 20
17 N
RC
Su
bmitt
al L
ist o
f Cha
nged
Pa
ges a
nd su
bmitt
ed S
umm
ary
of C
hang
e.
Maj
or R
evis
ion
issu
ed fo
r the
pur
pose
of 2
017
NR
C
Subm
ittal
. Upd
ated
foot
er o
n al
l pag
es to
refle
ct R
evis
ion
30.
29.3
03/3
0/17
MP3
-UC
R-2
016-
018
2.4.
7, 2
.4.1
1.6,
10.
4.5.
2R
efer
ence
to a
nd d
iscu
ssio
n re
gard
ing
the
reci
rcul
atio
n te
mpe
ring
line
is re
mov
ed fr
om th
ese
sect
ions
. MP3
-16-
0104
2
Rev
isio
n 31
—06
/28/
18 (C
ontin
ued)
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
R8
of 9
29.3
03/3
0/17
MP3
-UC
R-2
015-
018
Tabl
e9.
2-5
Ref
lect
s rep
lace
men
t of C
CP
HX
E1B
. MP3
-14-
0118
7
29.2
12/2
2/16
MP3
-UC
R-2
016-
021
8.1.
3Ev
erso
urce
348
line
tele
prot
ectio
n.
29.2
12/2
2/16
MP3
-UC
R-2
016-
020
19.2
.1.2
0M
P3 H
VK
Chi
ller S
ervi
ce W
ater
The
rmal
Per
form
ance
Te
stin
g El
imin
atio
n
29.2
12/2
2/16
MP3
-UC
R-2
016-
013
FPER
, Sec
tion
5.5
Ana
lysi
s 56
Load
ing,
clo
sure
and
tran
sfer
act
iviti
es fo
r the
tran
sfer
of
spen
t fue
l fro
m th
e U
nit 3
SFP
to th
e si
te IS
FSI u
tiliz
ing
the
NU
HO
MS®
Dry
Shi
elde
d C
anis
ter (
DSC
) and
Tr
ansf
er C
ask
(TC
).
29.2
12/2
2/16
MP3
-UC
R-2
016-
005
9.1.
2, F
igur
e15
.0-3
1FS
AR
Sec
tion
9.1.
4.2.
6 is
add
ed to
the
FSA
R to
des
crib
e th
e dr
y st
orag
e op
tion
of U
nit 3
spen
t fue
l at t
he IS
FSI.
29.2
12/2
2/16
MP3
-UC
R-2
015-
009
2.1.
2.5
Upd
atin
g th
e SA
R to
ext
end
the
Hea
vy H
aul R
oad
to
Uni
t 3 F
uel B
uild
ing
29.2
12/2
2/16
MP3
-UC
R-2
013-
016
Tabl
e 6.
2-63
, Tab
le 9
.4-3
, Ta
ble
9.4-
8Im
plem
enta
tion
of a
n op
en p
hase
pro
tect
ion
syst
em
whi
ch p
rote
cts i
mpo
rtant
to sa
fety
equ
ipm
ent f
rom
the
pote
ntia
lly d
etrim
enta
l eff
ects
of a
n op
en p
hase
eve
nt.
29.1
09/2
9/16
MP3
-UC
R-2
016-
014
Cha
pter
8 L
ist o
f Fig
ures
; Se
ctio
ns 8
.1.3
; 8.2
.1; 8
.2.2
; Fi
gure
8.2-
1; F
igur
e8.
2-2
Uni
t 3 S
LOD
Rem
oval
(LB
DC
R 1
5-M
P3-0
06)
29.1
09/2
9/16
MP3
-UC
R-2
016-
012
Sect
ion
5.3.
1.6
Upd
ate
Cap
sule
with
draw
al sc
hedu
le o
n pa
ge 5
.3-6
. (T
RM
Cha
nge
16-M
P3-0
07)
29.1
09/2
9/16
MP3
-UC
R-2
016-
010
Sect
ion
10.4
.8.1
, Tab
le 1
0.1-
1C
hang
e to
the S
team
Gen
erat
or b
low
dow
n sy
stem
ven
turi
volu
met
ric fl
ow to
diff
eren
tial p
ress
ure
rela
tions
hip
(DC
: M
P3-1
0-01
139)
Rev
isio
n 30
—06
/29/
17 (C
ontin
ued)
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
R9
of 9
29.1
09/2
9/16
MP3
-UC
R-2
016-
009
Sect
ion
5.3.
1.6
Rem
ove
caps
ule
with
draw
al sc
hedu
le fr
om p
age
5.3-
6 an
d in
corp
orat
e edi
ts to
fina
l par
agra
ph o
f sec
tion
5.3.
1.6.
(N
RC
Saf
ety
Eval
uatio
n by
lette
r dat
ed M
arch
17,
201
6 se
rial #
16-
131)
29.1
09/2
9/16
MP3
-UC
R-2
016-
007
Sect
ion
9.2.
8C
hang
e se
ctio
n 9.
2.8
to c
orre
ct th
e am
ount
of f
low
abl
e to
be
supp
lied
to th
e bo
ric a
cid
blen
der b
y th
e Pr
imar
y G
rade
Wat
er p
umps
. (C
R 1
0287
75/C
A 3
0254
91)
29.1
09/2
9/16
MP3
-UC
R-2
016-
003
Sect
ions
4.2
.2, 4
.2.2
.2.2
, 4.
2.2.
3.3,
4.4
.2.2
.7, 1
5.0.
3.2,
15
.4.2
.2, 1
5.6.
1.2
M3C
18 re
load
pro
ject
(EV
AL-
ENG
-RSE
-M3C
18, R
ev.
0)
29.1
09/2
9/16
MP3
-UC
R-2
016-
001
Sect
ion
9.5.
4.4
Cha
nge
to th
e fu
el o
il sa
mpl
ing
wor
ding
to re
mov
e am
bigu
ity. (
CA
3018
205)
29.1
09/2
9/16
MP3
-UC
R-2
015-
033
Sect
ion
8.3.
1.1.
6SB
O D
iese
l Aut
osta
rt (D
C: M
P3-1
5-01
099)
29.1
09/2
9/16
MP3
-UC
R-2
015-
030
Sect
ions
7.3
.1.1
.5, 1
0.4.
9.5
TDA
FW c
ontro
l tra
nsfe
r sw
itch
posi
tion
(DC
: MP3
-15-
0112
4)
29.1
09/2
9/16
MP3
-UC
R-2
015-
023
Sect
ion
9.1.
2Ty
pe “
Upd
ate”
UC
R a
ssoc
iate
d w
ith L
AR
(LB
DC
R 1
5-M
P3-0
09).
(Lic
Ltr1
5-41
0, C
R58
0759
)
29.1
09/2
9/16
MP3
-UC
R-2
015-
008
Sect
ion
5.2.
5.1.
3, 5
.4.1
.2.2
, 5.
4.1.
3.1,
5.4
.1.3
.4, 5
.4.1
.3.7
, 5.
4.1.
3.10
, 5.4
.1.3
.11,
5.4
. 7.
2.1,
Tab
le 5
.4-1
, Fig
ure
5.4-
1, S
ectio
ns 9
.2.2
.1.3
, 9.2
.8.2
, 9.
3.4.
2.1,
9.3
.4.2
.5, T
able
9.3
-6
Ref
lect
s rep
lace
men
t of R
CP
“B”
& “
C”
seal
s (3R
17).
(DC
: MP3
-14-
0102
2)
29.1
09/2
9/16
MP3
-UC
R-2
014-
014
Tabl
e 10
.4-4
Ref
lect
s upd
ated
dis
cuss
ion
on T
DA
FW p
ump
over
spee
d va
lues
. (D
C: M
P3-1
4-01
107)
Rev
isio
n 30
—06
/29/
17 (C
ontin
ued)
Rev
isio
nR
evis
ion
Rel
ease
Dat
eC
hang
e A
ctiv
ityD
ocum
ent E
lem
ents
A
ffec
ted
(Sec
tions
, Tab
les,
Figu
res)
Sum
mar
y D
escr
iptio
n of
Cha
nges
Revision 33—06/30/20 MPS-3 FSAR TOC 1 of 11
TABLE OF CONTENTS
Section Title Page
CHAPTER 1: INTRODUCTION AND GENERAL DESCRIPTION OF PLANT
Table of Contents
List of Tables
List of Figures
1.1 Introduction....................................................................................................... 1.1-1
1.2 General Plant Description ................................................................................. 1.2-1
1.3 Comparison Tables ........................................................................................... 1.3-1
1.4 Identification of Agents and Contractors.......................................................... 1.4-1
1.5 Requirements for Further Technical Information ............................................. 1.5-1
1.6 General References (Historical)........................................................................ 1.6-1
1.7 Drawings and Other Detailed Information ....................................................... 1.7-1
1.8 Conformance to NRC Regulatory Guides ........................................................ 1.8-1
1.8N NSSS Conformance to NRC Regulatory Guides........................................... 1.8N-1
1.9 Standard Review Plan Documentation of Differences ..................................... 1.9-1
1.10 TMI Action Items ........................................................................................... 1.10-1
1.11 Material Incorporated by Reference ............................................................... 1.11-1
CHAPTER 2: SITE CHARACTERISTICS
Table of Contents
List of Tables
List of Figures
2.1 Geography and Demography ............................................................................ 2.1-1
2.2 Nearby Industrial, Transportation, and Military Facilities .............................. 2.2-1
2.3 Meteorology...................................................................................................... 2.3-1
2.4 Hydrologic Engineering................................................................................... 2.4-1
2.5 Geology, Seismology, and Geotechnical Engineering ..................................... 2.5-1
Revision 33—06/30/20 MPS-3 FSAR TOC 2 of 11
Table of Contents (Continued)
Section Title Page
2.5.1 Basic Geological and Seismic Information ................................................... 2.5.1-1
2.5.2 Vibratory Ground Motion .............................................................................. 2.5.2-1
2.5.3 Surface Faulting............................................................................................. 2.5.3-1
2.5.4 Stability of Subsurface Materials and Foundations ....................................... 2.5.4-1
2.5.5 Stability of Slopes .......................................................................................... 2.5.5-1
2.5.6 Embankments and Dams ............................................................................... 2.5.6-1
Appendix 2.5A–Age of Till at Millstone Point ............................................................... 2.5A-1
Appendix 2.5B–Petrographic Reports, Final Grade .........................................................2.5B-1
Appendix 2.5C–Mineralogical Analysis of Millstone Fault Gouge Samples ..................2.5C-1
Appendix 2.5D–Potassium - Argon Age Determination ................................................. 2.5D-1
Appendix 2.5E–Separation of < 2μ Fraction and Clay Analysis of Samples B, C, D (ESF Building) and P-1 and P-2 (Pumphouse) ...................................................2.5E-1
Appendix 2.5F–Dynamic Soil Testing on Beach Sands................................................... 2.5F-1
Appendix 2.5G–Consolidated Undrained Tests on Beach Sands.................................... 2.5G-1
Appendix 2.5H–Seismic Velocity Measurements ........................................................... 2.5H-1
Appendix 2.5I–Direct Shear Tests on Natural Rock Joints ...............................................2.5I-1
Appendix 2.5J–Boring Logs ..............................................................................................2.5J-1
Appendix 2.5K–Seismic Survey...................................................................................... 2.5K-1
Appendix 2.5L–Seismic and Bathymetric Survey............................................................2.5L-1
Appendix 2.5M–Laboratory Test Program for Proposed Additional Structural Backfill Sources2.5M-1
CHAPTER 3: DESIGN OF STRUCTURES, COMPONENTS, EQUIPMENT, AND SYSTEMS
Table of Contents
List of Tables
List of Figures
Revision 33—06/30/20 MPS-3 FSAR TOC 3 of 11
Table of Contents (Continued)
Section Title Page
3.1 Conformance With NRC General Design Criteria ........................................... 3.1-1
3.2 Classification of Structures, Systems, and Components................................... 3.2-1
3.3 Wind and Tornado Loadings ............................................................................ 3.3-1
3.4 Water Level (Flood) Design ............................................................................. 3.4-1
3.5 Missile Protection ............................................................................................. 3.5-1
3.6 Protection Against Dynamic Effects Associated With the Postulated Ruptures of Piping ................................................................................................................ 3.6-1
3.7 Seismic Design ................................................................................................. 3.7-1
3.7N Seismic Design .......................................................................................... 3.7N-110
3.8 Design of Category I Structures........................................................................ 3.8-1
3.9 Mechanical Systems and Components ............................................................. 3.9-1
3.9N Mechanical Systems and Components ........................................................ 3.9N-27
3.10 Seismic Qualification of Seismic Category I Instrumentation and Electrical Equipment ....................................................................................................... 3.10-1
3.10N Seismic Qualification of Seismic Category I Instrumentation and Electrical Equipment .................................................................................................... 3.10N-5
3.11 Environmental Design of Mechanical and Electrical Equipment................... 3.11-1
3.11N Environmental Design of Mechanical and Electrical Equipment.............. 3.11N-11
Appendix 3A -Computer Programs for Dynamic and Static Analysis of Seismic Category I Structures, Equipment, and Components ......................... 3A-0
Appendix 3B -Environmental Design Conditions .............................................3B-0
CHAPTER 4: REACTOR
Table of Contents
List of Tables
List of Figures
4.1 Summary Description ....................................................................................... 4.1-1
Revision 33—06/30/20 MPS-3 FSAR TOC 4 of 11
Table of Contents (Continued)
Section Title Page
4.2 Fuel System Design .......................................................................................... 4.2-1
4.3 Nuclear Design ................................................................................................. 4.3-1
4.4 Thermal and Hydraulic Design......................................................................... 4.4-1
4.5 Reactor Materials .............................................................................................. 4.5-1
4.6 Functional Design of Reactivity Control Systems............................................ 4.6-1
CHAPTER 5: REACTOR COOLANT SYSTEM AND CONNECTED SYSTEMS
Table of Contents
List of Tables
List of Figures
5.1 Summary Description ....................................................................................... 5.1-1
5.2 Integrity of Reactor Coolant Pressure Boundary .............................................. 5.2-1
5.3 Reactor Vessel .................................................................................................. 5.3-1
5.4 Component and Subsystem Design .................................................................. 5.4-1
CHAPTER 6: ENGINEERED SAFETY FEATURES
Table of Contents
List of Tables
List of Figures
6.0 Introduction....................................................................................................... 6.0-1
6.1 Engineered Safety Feature Materials ................................................................ 6.1-1
6.2 Containment Systems ....................................................................................... 6.2-1
6.3 Emergency Core Cooling System..................................................................... 6.3-1
6.4 Habitability Systems ......................................................................................... 6.4-1
6.5 Fission Product Removal and Control Systems................................................ 6.5-1
6.6 Inservice Inspection of Class 2 and 3 Components .......................................... 6.6-1
Revision 33—06/30/20 MPS-3 FSAR TOC 5 of 11
Table of Contents (Continued)
Section Title Page
CHAPTER 7: INSTRUMENTS AND CONTROLS
Table of Contents
List of Tables
List of Figures
7.1 Introduction....................................................................................................... 7.1-1
7.2 Reactor Trip System ......................................................................................... 7.2-1
7.3 Engineered Safety Features System.................................................................. 7.3-1
7.4 Systems Required For Safe Shutdown.............................................................. 7.4-1
7.5 Safety Related Display Instrumentation ........................................................... 7.5-1
Appendix 7.5AMillstone Unit 3 Deviations to Regulatory Guide 1.97 Revision 2 ..7-i
Deviation Number 1....................................................................................... 7.5A-1
Deviation Number 2....................................................................................... 7.5A-2
Deviation Number 3....................................................................................... 7.5A-3
Deviation Number 4....................................................................................... 7.5A-4
Deviation Number 5....................................................................................... 7.5A-5
Deviation Number 6....................................................................................... 7.5A-6
Deviation Number 7....................................................................................... 7.5A-7
Deviation Number 8....................................................................................... 7.5A-8
Deviation Number 9....................................................................................... 7.5A-9
Deviation Number 10................................................................................... 7.5A-10
Deviation Number 11................................................................................... 7.5A-11
Deviation Number 12................................................................................... 7.5A-12
Deviation Number 13................................................................................... 7.5A-13
Revision 33—06/30/20 MPS-3 FSAR TOC 6 of 11
Table of Contents (Continued)
Section Title Page
Deviation Number 14................................................................................... 7.5A-14
Deviation Number 15................................................................................... 7.5A-15
Deviation Number 16................................................................................... 7.5A-16
Deviation Number 17................................................................................... 7.5A-17
Deviation Number 18................................................................................... 7.5A-18
Deviation Number 19................................................................................... 7.5A-19
Deviation Number 20................................................................................... 7.5A-20
Deviation Number 21................................................................................... 7.5A-21
Deviation Number 22................................................................................... 7.5A-22
Deviation Number 23................................................................................... 7.5A-23
Deviation Number 24................................................................................... 7.5A-24
Deviation Number 25................................................................................... 7.5A-25
Deviation Number 26................................................................................... 7.5A-26
Deviation Number 27................................................................................... 7.5A-27
Deviation Number 28................................................................................... 7.5A-28
Deviation Number 29................................................................................... 7.5A-29
Deviation Number 30................................................................................... 7.5A-30
Deviation Number 31................................................................................... 7.5A-31
Deviation Number 32................................................................................... 7.5A-32
Deviation Number 33................................................................................... 7.5A-34
Deviation Number 34................................................................................... 7.5A-36
7.6 All Other Systems Required For Safety ........................................................... 7.6-1
7.7 Control Systems Not Required For Safety ....................................................... 7.7-1
7.8 Anticipated Transients Without Scram Mitigation System Actuation Circuitry 7.8-1
Revision 33—06/30/20 MPS-3 FSAR TOC 7 of 11
Table of Contents (Continued)
Section Title Page
CHAPTER 8: ELECTRIC POWER
Table of Contents
List of Tables
List of Figures
8.1 Introduction....................................................................................................... 8.1-1
8.2 Off Site Power System...................................................................................... 8.2-1
8.3 On Site Power Systems..................................................................................... 8.3-1
CHAPTER 9: AUXILIARY SYSTEMS
Table of Contents
List of Tables
List of Figures
9.1 Fuel Storage and Handling ............................................................................... 9.1-1
9.2 Water Systems .................................................................................................. 9.2-1
9.3 Process Auxiliaries ........................................................................................... 9.3-1
9.4 Air Conditioning, Heating, Cooling, and Ventilation Systems ........................ 9.4-1
9.5 Other Auxiliary Systems................................................................................... 9.5-1
CHAPTER 10: STEAM AND POWER CONVERSION SYSTEM
Table of Contents
List of Tables
List of Figures
10.1 Summary Description ..................................................................................... 10.1-1
10.2 Turbine-Generator .......................................................................................... 10.2-1
10.3 Main Steam System ....................................................................................... 10.3-1
10.4 Other Features of Main Steam and Power Conversion System...................... 10.4-1
Revision 33—06/30/20 MPS-3 FSAR TOC 8 of 11
Table of Contents (Continued)
Section Title Page
CHAPTER 11: RADIOACTIVE WASTE MANAGEMENT
Table of Contents
List of Tables
List of Figures
11.0 Background..................................................................................................... 11.0-1
11.1 Source Terms .................................................................................................. 11.1-1
11.2 Liquid Waste Management Systems............................................................... 11.2-1
11.3 Gaseous Waste Management Systems............................................................ 11.3-1
11.4 Solid Waste Management ............................................................................... 11.4-1
11.5 Process, Effluent, and Airborne Radiation Monitoring Systems.................... 11.5-1
Appendix 11A .................................................................................. 11A-0
Part I—Summary of Annual Radiation Doses (Historical) ......................... 11A.1-1
Part II—Dose Calculation Models and Assumptions (Historical)............... 11A.2-1
Part III—Cost-Benefit Analysis (Historical) ............................................... 11A.3-1
CHAPTER 12: RADIATION PROTECTION
Table of Contents
List of Tables
List of Figures
12.0 Introduction..................................................................................................... 12.0-1
12.1 Ensuring That Occupational Radiation Exposures Are As Low As Reasonably Achievable (ALARA)..................................................................................... 12.1-1
12.2 Radiation Sources ........................................................................................... 12.2-1
12.3 Radiation Protection Design Features............................................................. 12.3-1
12.4 Dose Assessment ............................................................................................ 12.4-1
Revision 33—06/30/20 MPS-3 FSAR TOC 9 of 11
Table of Contents (Continued)
Section Title Page
12.5 Health Physics Program.................................................................................. 12.5-1
CHAPTER 13: CONDUCT OF OPERATIONS
Table of Contents
List of Figures
13.1 Organizational Structure ................................................................................. 13.1-1
13.2 Training Programs .......................................................................................... 13.2-1
13.3 Emergency Planning ....................................................................................... 13.3-1
13.4 Review and Audit ........................................................................................... 13.4-1
13.5 Plant Procedures ............................................................................................. 13.5-1
13.6 Physical Security Plans ................................................................................... 13.6-1
CHAPTER 14: INITIAL TEST PROGRAM
Table of Contents
List of Tables
List of Figures
14.1 Specific Information to be Included in Preliminary Safety Analysis Reports 14.1-1
14.2 Specific Information to be Included in Final Safety Analysis Report ............ 14.2-1
CHAPTER 15: ACCIDENT ANALYSES
Table of Contents
List of Tables
List of Figures
15.0 Introduction..................................................................................................... 15.0-1
15.1 Increase in Heat Removal by the Secondary System ..................................... 15.1-1
15.2 Decrease in Heat Removal by the Secondary System .................................... 15.2-1
15.3 Decrease In Reactor Coolant System Flow Rate ............................................ 15.3-1
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Table of Contents (Continued)
Section Title Page
15.4 Reactivity and Power Distribution Anomalies ............................................... 15.4-1
15.5 Increase in Reactor Coolant Inventory ........................................................... 15.5-1
15.6 Decrease in Reactor Coolant Inventory .......................................................... 15.6-1
15.7 Radioactive Release From a Subsystem or Component ................................. 15.7-1
15.8 Anticipated Transients Without SCRAM ....................................................... 15.8-1
Appendix 15ADose Methodology ..................................................................... 15-1
Appendix 15BDeleted by FSARCR 02-MP3-017............................................. 15-1
CHAPTER 16: TECHNICAL SPECIFICATIONS
Table of Contents
16.1 Millstone Unit 3 Technical Specifications...................................................... 16.1-1
CHAPTER 17: QUALITY ASSURANCE
Table of Contents
17.1 Quality Assurance Program Topical Report ................................................... 17.1-1
CHAPTER 18: HUMAN FACTORS ENGINEERING
Table of Contents
18.1 Human Factors Control Room Design Review .............................................. 18.1-1
18.2 Safety Parameter Display System (SPDS)...................................................... 18.2-1
CHAPTER 19: LICENSE RENEWAL
Table of Contents
List of Tables
19.0 Introduction..................................................................................................... 19.0-1
19.1 Aging Management......................................................................................... 19.1-1
19.2 Programs That Manage the Effects of Aging on Structures and Components Within the Scope of License Renewal ........................................................................ 19.2-1
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Table of Contents (Continued)
Section Title Page
19.3 Time-Limited Aging Analysis ........................................................................ 19.3-1
19.4 TLAA Support Programs................................................................................ 19.4-1
19.5 Exemptions ..................................................................................................... 19.5-1
19.6 License Renewal Commitments ..................................................................... 19.6-1
FIRE PROTECTION EVALUATION REPORT
Table of Contents
List of Tables
List of Figures
Section 1 IntroductionSection 2 Historical BackgroundSection 3 AdministrationSection 4 Plant Design FeaturesSection 5 Fire Hazard Analysis (FHA)Section 6 Safe Shutdown EvaluationSection 7 Support SystemsSection 8 Resolution of Safe Shutdown Evaluation
Problem AreasSection 9 Operator Actions Required Following a FireSection 10 Conclusions
Appendix A—Summary of Compliance With Branch Technical Position APCSB 9.5-1, Appendix A (July 1, 1976)......................................................... A-1
Appendix B—Comparison of Millstone 3 Plant Design to Branch Technical Position CMEB 9.5-1 Guidelines (NUREG 0800, July 1981)..............B-1
Appendix C—Summary of Comparison With 10 CFR 50, Appendix R.............C-1
Revision 33—06/30/20 MPS-3 FSAR LOT 1 of 40
LIST OF TABLES
Number Title
Table 1.3-1 Design Comparison
Table 1.3-2 Comparison of Engineered Safety Features
Table 1.3-3 Comparison of Containment Concepts
Table 1.3-4 Comparison of Containment Atmosphere Pressure Sensor Parameters
Table 1.3-5 Comparison of Reactor Coolant Pump Bus Protection
Table 1.3-6 Comparison of Engineered Safety Feature Actuation Signals
Table 1.3-7 Comparison of Emergency Generator And Steam Generator Auxiliary Feedwater Pump Start Signals
Table 1.3-8 Comparison of Process And Effluent Radiation Monitoring Systems
Table 1.3-9 Comparison of Area Radiation Monitoring Systems
Table 1.3-10 Comparison of Airborne Radiation Monitoring Systems
Table 1.3-11 Comparison of Electrical System Parameters
Table 1.3-12 Comparison of Radioactive Liquid Waste Systems
Table 1.3-13 Comparison of Radioactive Gaseous Waste Systems
Table 1.3-14 Comparison of Radioactive Solid Waste Systems
Table 1.3-15 Comparison of Other Reactor Plant Systems
Table 1.3-16 Comparison of Final And Preliminary Information
Table 1.6-1 Topical Reports as General References (Historical)
Table 1.7-1 Electrical, Instrumentation, And Control Reference Documentation
Table 1.7-2 Piping And Instrumentation Diagrams
Table 1.7-3 Omitted
Table 1.7-4 Special Reports And Programs
Table 1.8-1 NRC Regulatory Guides
Table 1.8N-1 NRC Regulatory Guides
Revision 33—06/30/20 MPS-3 FSAR LOT 2 of 40
List of Tables (Continued)
Number Title
Table 1.9-1 Summary of Differences From SRP
Table 1.9-2 SRP Differences And Justifications
Table 1.10-1 TMI Action Items
Table 2.1-1 1990 Population and Population Densities Cities and Towns Within 10 Miles of Millstone
Table 2.1-2 Population Growth 1960-1990
Table 2.1-3 Population Distribution 1985 (0-20 km)
Table 2.1-4 Population Distribution Within 10 Miles of Millstone - 1990 Census
Table 2.1-5 Population Distribution Within 10 Miles of Millstone - 2000 Projected
Table 2.1-6 Population Distribution Within 10 Miles of Millstone - 2010 Projected
Table 2.1-7 Population Distribution Within 10 Miles of Millstone - 2020 Projected
Table 2.1-8 Population Distribution Within 10 Miles of Millstone - 2030 Projected
Table 2.1-9 Population Distribution 1985 (0-80 km)
Table 2.1-10 Population Distribution Within 50 Miles of Millstone - 1990 Census
Table 2.1-11 Population Distribution Within 50 Miles of Millstone - 2000 Projected
Table 2.1-12 Population Distribution Within 50 Miles of Millstone - 2010 Projected
Table 2.1-13 Population Distribution Within 50 Miles of Millstone - 2020 Projected
Table 2.1-14 Population Distribution Within 50 Miles of Millstone - 2030 Projected
Table 2.1-15 Transient Population Within 10 Miles of Millstone - 1991-1992 School Enrollment
Table 2.1-16 Transient Population Within 10 Miles of Millstone (Employment)
Table 2.1-17 Transient Population Within 10 Miles of Millstone State Parks and Forests (With Documented Attendance)
Table 2.1-18 Low Population Zone Permanent Population Distributions
Revision 33—06/30/20 MPS-3 FSAR LOT 3 of 40
List of Tables (Continued)
Number Title
Table 2.1-19 Low Population Zone School Enrollment and Employment
Table 2.1-20 Metropolitan Areas Within 50 Miles of Millstone 1990 Census Population
Table 2.1-21 Population Centers Within 50 Miles of Millstone
Table 2.1-22 Population Density* 1985 (0-20 km)
Table 2.1-23 Population Density 1985 (0-80 km)
Table 2.1-24 Population Density Within 10 Miles of Millstone 1990 (People per Square Mile)
Table 2.1-25 Population Density Within 10 Miles of Millstone 2030 (People per Square Mile)
Table 2.1-26 Population Density Within 50 Miles of Millstone 1990 (People per Square Mile)
Table 2.1-27 Population Density Within 50 Miles of Millstone 2030 (People per Square Mile)
Table 2.1-28 Cumulative Population Density 1985
Table 2.1-29 Cumulative Population Density Within 50 Miles of Millstone 1990 (People per Square Mile)
Table 2.1-30 Cumulative population Density Within 50 Miles of Millstone 2030 (People per Square Mile)
Table 2.2-1 Description of Facilities
Table 2.2-2 List of Hazardous Materials Potentially Capable of Producing Significant Missiles
Table 2.2-3 Summary of Exposure Distance Calculation
Table 2.2-4 Aggregate Probability of Explosion or Violent Rupture Capable of Missile Generation
Table 2.2-5 Types of Tank Car Missiles
Table 2.2-6 Tank Car Fragment Range (Feet) at 10-Degree Launch Angle
Revision 33—06/30/20 MPS-3 FSAR LOT 4 of 40
List of Tables (Continued)
Number Title
Table 2.2-7 Estimated Ignition Probabilities
Table 2.2-8 Probability of an Unconfined Vapor Cloud Explosion
Table 2.3–1 Monthly, Seasonal, and Annual averages and Extremes of Temperature at Bridgeport, Conn. (1901-1981)
Table 2.3–2 Mean Number of Days with Selected Temperature Conditions at Bridgeport, Conn. (1966-1981)
Table 2.3–3 Monthly, Seasonal, and Annual Averages and Extremes of Relative Humidity at Bridgeport, Conn. (1949-1981)
Table 2.3–4 Monthly, Seasonal, and Annual Frequency Distributions of Wind Direction at Bridgeport, Conn. (1949-1980)
Table 2.3–5 Occurrence of Bridgeport Wind Persistence Episodes within the same 22.5-Degree Sector (1949-1965)
Table 2.3–6 Monthly, Seasonal, and Annual Frequency Distributions of Wind Direction at Bridgeport, Conn. (1949-1980)
Table 2.3–7 Monthly, Seasonal, and Annual Wind Speed Extremes at Bridgeport, Conn. (1961-1990)
Table 2.3–8 Mean Number of Days of Thunderstorm Occurrence at Bridgeport, Conn. (1951-1981)
Table 2.3–9 Monthly, Seasonal, and Annual Averages and Extremes of Precipitation at Bridgeport, Conn. (1901-June 1982)
Table 2.3–10 Estimated Precipitation Extremes for Periods up to 24 Hours and Recurrence Intervals Up to 100 Years
Table 2.3–11 Monthly, Seasonal, and Annual Averages and Extremes of Snowfall at Bridgeport, Conn. (1893-June 1990)
Table 2.3–12 Monthly, Seasonal, and Annual Averages of Freezing Rain and Drizzle at Bridgeport, Conn. (1949-1980)
Table 2.3–13 Average Monthly, Seasonal, and Annual Hours and Frequencies (percent) of Various Fog Conditions (1949-1980) at Bridgeport, Connecticut
Revision 33—06/30/20 MPS-3 FSAR LOT 5 of 40
List of Tables (Continued)
Number Title
Table 2.3–14 Monthly and Annual Wind Direction and Speed Distributions for Surface Winds, at Bridgeport, Conn. (1949-1980)
Table 2.3–15 Monthly and Annual Wind Direction and Speed Distributions for 33-Foot Winds at Millstone (1974-1981)
Table 2.3–16 Comparison of Wind Direction Frequency Distribution by Quadrant at Bridgeport, Conn. and Millstone
Table 2.3–17 Comparison of Average Wind Speed by Quadrant at Bridgeport, Conn. and Millstone
Table 2.3–18 Occurrence of Wind Persistence Episodes Within the Same 22.5-Degree Sector at Millstone (1974-1981)
Table 2.3–19 Millstone Climatological Summary (1974-2000)
Table 2.3–20 Comparison of Monthly and Annual Average Dry-Bulb and Dewpoint Temperature Averages at Bridgeport, Conn. and Millstone
Table 2.3–21 Comparison of Monthly and Annual Average Relative Humidity Averages at Bridgeport and Millstone
Table 2.3–22 Mean Number of Days with Heavy Fog at Bridgeport, Conn. and Block Island, Rhode Island (1951-1981)
Table 2.3–23 Wind Direction/Stability Class/Visibility Joint Frequency Distribution at Millstone
Table 2.3–24 Persistence of Poor Visibility (≤ 1 Mile) Conditions at Millstone (Hours) (1974-1981)
Table 2.3–25 Bridgeport Pasquill Stability Class Distribution (1949-1980)
Table 2.3–26 Millstone Stability Class Distribution Using Delta-T for Stability Determination
Table 2.3–27 Millstone Stability Class Distribution Using Sigma Theta for Stability Determination
Table 2.3–28 Comparison of Pasquill Stability Class Distribution at Bridgeport, Conn. and Millstone
Revision 33—06/30/20 MPS-3 FSAR LOT 6 of 40
List of Tables (Continued)
Number Title
Table 2.3–29 Persistence of Stable Conditions (E, F, and G Stabilities) at Millstone (1974-1981)
Table 2.3–30 Seasonal and Annual Atmospheric Mixing Depths at Millstone
Table 2.3–31 On-site Meteorological Tower Measurements
Table 2.3–32 Millstone Meteorological Tower Instrumentation
Table 2.3–33 Monthly Summary of Data Recovery Rates/Meteorological System
Table 2.3–34 Distances from Release Points to Receptors
Table 2.4–1 Connecticut Public Water Supplies within 20 Miles of Millstone 3
Table 2.4–2 Maximum Wave Heights Generated by Slow, Medium, and High Speed Storms (Deep-Water Fetch)
Table 2.4–3 Maximum Shallow Water Waves (after Refraction) Slow Speed Probable Maximum Hurricane
Table 2.4–4 Maximum Shallow Water Waves (after Refraction) Medium Speed Probable Maximum Hurricane
Table 2.4–5 Maximum Shallow Water Waves (after Refraction) High Speed Probable Maximum Hurricane
Table 2.4–6 Lowest Tides at New London, Connecticut 1938-1974
Table 2.4–7 Circulating Water System and Service Water System Heat Loads
Table 2.4–8 Dilution Factors and Travel Time *
Table 2.4–9 Category I Structures - Roof Survey
Table 2.4–10 Input Data to Program HEC-2 Water Surface Computations
Table 2.4–11 Computed Water Surface Elevations at Safety-Related Structures
Table 2.4–12 Roof Area and Ponding Level Due to PMP (1)Category I Structures
Table 2.4–13 Overflow Length of the Parapet Wall on the Roof Used in PMP Analysis - Category I Structures
Revision 33—06/30/20 MPS-3 FSAR LOT 7 of 40
List of Tables (Continued)
Number Title
Table 2.5.1–1 Rock Formations of the Coastal Plain off Southern New England
Table 2.5.1–2 Rock Formations of Western Connecticut
Table 2.5.1–3 Rock Formations of Eastern Connecticut and Western Rhode Island
Table 2.5.1–4 Rock Formations of Central Rhode Island (and not Included in Previous Descriptions)
Table 2.5.1–5 Rock Formations in Northern and Eastern Rhode Island and Southern Massachusetts
Table 2.5.1–6 Rock Formations of Central Massachusetts
Table 2.5.1–7 East of Clinton-Newbury Fault System, Eastern Massachusetts, and New Hampshire
Table 2.5.1–8 Descriptions of Lineaments from LANDSAT Photographs (Shown on Figure 2.5.1–10)
Table 2.5.2–1 Modified Mercalli (MM) Intensity Scale of 1931
Table 2.5.2–2 List of Operating Seismic Stations
Table 2.5.2–3 Chronological Catalog of Earthquake Activity within 200 Miles of the Site
Table 2.5.2–4 List of Earthquakes within the 50-Mile Radius
Table 2.5.3–1 List of Faults
Table 2.5.3–2 List of Samples
Table 2.5.3–3 List of K/Ar Age Determinations of Fault Gouge
Table 2.5.4–1 List of Joints - Final Grade Floors of Structures
Table 2.5.4–2 List of Foliations - Final Grade Floors of Structures
Table 2.5.4–3 List of Slickensides - Final Grade Floors of Structures
Table 2.5.4–4 List of Joints - Final Grade Containment and Engineered Safety Features Building Walls
Revision 33—06/30/20 MPS-3 FSAR LOT 8 of 40
List of Tables (Continued)
Number Title
Table 2.5.4–5 List of Foliations - Final Grade Containment and Engineered Safety Features Building Walls
Table 2.5.4–6 List of Slickensides - Final Grade Containment and Engineered Safety Features Building Walls
Table 2.5.4–7 List of Joints - Final Grade Walls of Structures
Table 2.5.4–8 List of Foliations - Final Grade Walls of Structures
Table 2.5.4–9 List of Slickensides - Final Grade Walls of Structures
Table 2.5.4–10 Rock Compression Test Results
Table 2.5.4–11 Direct Shear Test Results From Joint and Foliating Surfaces
Table 2.5.4–12 Summary of Static Soil Properties for Beach Sands *
Table 2.5.4–13 Natural Water Contents of Split Spoon Samples
Table 2.5.4–14 Foundation Data for Major Structures
Table 2.5.4–15 List of Approximate Boring Locations, Ground Elevations, and Groundwater Elevations *
Table 2.5.4–16 Summary of Water Pressure Test Data
Table 2.5.4–17 Groundwater Observations
Table 2.5.4–18 Factors of Safety Against Liquefaction of Beach Sands
Table 2.5.4–19 In-Place Density Test Results on Category I Structural Backfill Beneath the Service Water Intake Pipe Encasement
Table 2.5.4–20 In-Place Density Test Results at Control and Emergency Generator Enclosure Buildings
Table 2.5.4–21A Emergency Generator Enclosure - Free Field Soil Properties from SHAKE Analysis
Table 2.5.4–22B Emergency Generator Enclosure - Soil Properties with Structure Effects from SHAKE Analysis
Revision 33—06/30/20 MPS-3 FSAR LOT 9 of 40
List of Tables (Continued)
Number Title
Table 2.5.4–23 Emergency Generator Enclosure - Soil Properties with Structure Effects from SHAKE Analysis
Table 2.5.4–24 Bearing Capacity of Major Structures
Table 2.5.4–25 Results of Two-Dimensional Liquefaction Analysis of Beach Area Sands
Table 3.2–1 List of QA Category I and Seismic Category I Structures, Systems, and Components
Table 3.2–2 Safety Classes 2 and 3 Instrument Tubing Requirements
Table 3.2–3 Instrument Tubing Examination and Testing Program
Table 3.2–4 Comparison of Proposed Tubing Examination and Testing with ASME III Requirements
Table 3.3-1 Structural Panels Subject to Tornado Pressure Drop
Table 3.5–1 Safety Related Structures, Systems, and Components Outside Containment Required for Safe Reactor Shutdown*
Table 3.5–2 Safety Related Structures, Systems, and Components Inside Containment Required for Safe Reactor Shutdown*
Table 3.5–3 Summary of Control Rod Drive Mechanism Missile Analysis
Table 3.5–4 Valve-Missile Characteristics*
Table 3.5–5 Piping Temperature Element Assembly - Missile Characteristics
Table 3.5–6 Characteristics of Other Missiles Postulated within Reactor Containment
Table 3.5–7 Turbine-Target Distances and Impact Areas
Table 3.5–8 Deleted by FSARCR 02-MP3-13
Table 3.5–9 Deleted by FSARCR 02-MP3-13
Table 3.5–10 Deleted by FSARCR 02-MP3-13
Table 3.5–11 Deleted by FSARCR 02-MP3-13
Table 3.5–12 Deleted by FSARCR 02-MP3-13
Revision 33—06/30/20 MPS-3 FSAR LOT 10 of 40
List of Tables (Continued)
Number Title
Table 3.5–13 Postulated Tornado-Generated External Missiles
Table 3.5–14 Barrier Deflection and Ductility Ratios for Tornado-Borne Missiles Plus 360 MPH Tornado Wind
Table 3.5–15 Barrier Deflection and Ductility Ratio for a Beam-Column Plus 360 MPH Tornado Wind
Table 3.6–1 High-Energy Systems Remote from Essential Structures, Systems, and Components
Table 3.6–2 High-energy Systems in Proximity to Essential Structures, Systems, and Components
Table 3.6–3 Moderate-Energy Systems in Remote from Essential Structures, Systems, and Components
Table 3.6–4 Moderate-Energy Systems Proximate to Essential Structures, Systems, and Components
Table 3.6–5 Essential Structures, Systems, and Components Required for Safe Reactor Shutdown
Table 3.6–6 Postulated Breaks Main Steam System
Table 3.6–7 Pipe Whip Effects Main Steam System
Table 3.6–8 Jet Impingement Effects - Main Steam System
Table 3.6–9 Postulated Breaks Main Feedwater System
Table 3.6–10 Pipe Whip Effects - Main Feedwater System
Table 3.6–11 Jet Impingement Effects - Main Steam System
Table 3.6–12 Postulated Breaks - Reactor Coolant System - Loop Stop Valve Bypass Piping, Excess Letdown Piping, Loop Fill Piping, Loop Drain Piping. Letdown Line, and Normal Charging
Table 3.6–13 Pipe Whip Effects - Reactor Coolant System - Loop Stop Valve Bypass Piping, Excess Letdown Piping, Loop Fill Piping, Loop Drain Piping, Letdown and Normal Charging
Revision 33—06/30/20 MPS-3 FSAR LOT 11 of 40
List of Tables (Continued)
Number Title
Table 3.6–14 JET Impingement Effects - Reactor Coolant System - Loop Stop Valve Bypass Piping, Excess Letdown Piping, Loop Drain Piping, Loop Fill Piping,Letdown Line, and Normal Charging
Table 3.6–15 Postulated Breaks - Reactor Coolant System - Pressurizer Cubicle Piping
Table 3.6–16 Pipe Whip Effects - Reactor Coolant System - Pressurizer Cubicle Piping
Table 3.6–17 Jet Impingement Effects - Reactor Coolant System - Pressurizer Cubicle Piping
Table 3.6–18 Postulated Pipe Breaks - Reactor Coolant System - Low Pressure Safety Injection, High Pressure Safety Injection, and Residual Heat Removal Piping
Table 3.6–19 Pipe Whip Effects - Reactor Coolant System - Low Pressure Safety Injection, High Pressure Safety Injection, and Residual Heat Removal Piping
Table 3.6–20 Jet Impingement Effects - Low Pressure Safety Injection, High Pressure Safety Injection, and Residual Heat Removal Piping
Table 3.6–21 Postulated Breaks - Chemical Volume Control System - Normal Charging
Table 3.6–22 Pipe Whip Effects - Chemical Volume Control System - Normal Charging
Table 3.6–23 Jet Impingement Effects - Chemical Volume Control System - Normal Charging
Table 3.6–24 Postulated Breaks - Chemical Volume Control System - Letdown Line
Table 3.6–25 Pipe Whip Effects - Chemical Volume Control System - Letdown Line
Table 3.6–26 Jet Impingement Effects - Chemical and Volume Control System - Letdown Line Piping
Table 3.6–27 Postulated Breaks - Seal Water Injection System
Table 3.6–28 Pipe Whip Effects - Chemical Volume Control System - Seal Water Injection Line
Table 3.6–29 Jet Impingement Effects - Chemical Volume Control System - Seal Water Injection Line
Revision 33—06/30/20 MPS-3 FSAR LOT 12 of 40
List of Tables (Continued)
Number Title
Table 3.6–30 Postulated Breaks - Steam Generator Blowdown System
Table 3.6–31 Pipe Whip Effects - Steam Generator Blowdown System
Table 3.6–32 Jet Impingement Effects - Steam Generator Blowdown System
Table 3.6–33 Energy Absorbing Capacity of a 4 Inch Schedule 80 Pipe
Table 3.6–34 Postulated Breaks Auxiliary Feedwater System
Table 3.6–35 Pipe Whip Effects Auxiliary Feedwater System
Table 3.6–36 Jet Impingement Effects Auxiliary Feedwater Systems
Table 3.7–1 Seismic Instrumentation
Table 3.7B–1 Damping Factors
Table 3.7B–2 Methods of Seismic Analysis Used for Seismic Category I Structures
Table 3.7B–3 Containment and Internal Structures Significant Modal Frequencies and Participation Factors Uncracked Model
Table 3.7B–4 Containment and Internal Structures Significant Modal Frequencies and Participation Factors Cracked Model
Table 3.7B–5 Containment and Internal Structures Significant Mode Shapes (Normalized Eigenvectors) Uncracked Model
Table 3.7B–6 Containment and Internal Structures Significant Mode Shapes (Normalized Eigenvectors) Cracked Model
Table 3.7B–7 Containment and Internal Structures SRSS Accelerations and Displacements for Safe Shutdown Earthquake Uncracked Model, Response Spectrum Analysis
Table 3.7B–8 Containment and Internal Structures SRSS Accelerations and Displacements for Safe Shutdown Earthquake Cracked Model, Response Spectrum Analysis
Table 3.7B–9 Containment and Internal Structures Degrees of Freedom
Table 3.7B–10 Containment and Internal Structure Enveloped Accelerations and Displacements Horizontal-motion *
Revision 33—06/30/20 MPS-3 FSAR LOT 13 of 40
List of Tables (Continued)
Number Title
Table 3.7B–11 Containment and Internal Structure Enveloped Accelerations and Displacements Vertical-Motion *
Table 3.7B–12 Main Steam Valve Building Significant Modal Frequencies and Participation Factors
Table 3.7B–13 Main Steam Valve Building Significant Mode Shapes (Eigenvectors)
Table 3.7B–14 Main Steam Valve Building CSM* Accelerations for Safe Shutdown Earthquake from Response Spectrum Analysis
Table 3.7B–15 Main Steam Valve Building CSM* Displacements for Safe Shutdown Earthquake from Response Spectrum Analysis
Table 3.7B–16 Main Steam Valve Building ABS * of Safe Shutdown Earthquake Responses
Table 3.7B–17 Main Steam Valve Building Degrees of Freedom
Table 3.7B–18 Emergency Generator Enclosure Accelerations and Displacements Horizontal-Motion*
Table 3.7B–19 Emergency Generator Enclosure Accelerations and Displacements Vertical - Motion
Table 3.7B–20 Comparison of Response Spectra and Time History Analysis Results Containment and Internal Structures (Uncracked Properties)
Table 3.7B–21 Comparison of Response Spectra and Time History Analysis Results Containment and Internal Structures (Cracked Properties)
Table 3.7B–22 Comparison of Response Spectra and Time History Analysis Results Main Steam Valve Building SSE Accelerations*
Table 3.7B–23 1 G Flat Response
Table 3.7B–24 Modal Density, n*
Table 3.7B–25 Amplified Response Dynamic Factor Study
Table 3.7B–26 Piping System Seismic Design and Analysis Criteria
Table 3.7N–1 Damping Values Used for Seismic Analysis for Westinghouse Supplied Equipment
Revision 33—06/30/20 MPS-3 FSAR LOT 14 of 40
List of Tables (Continued)
Number Title
Table 3.8–1 Loading Conditions - Liner Plate and Access Openings
Table 3.8–2 Loading Conditions, Penetrations
Table 3.8–3 Loads and Loading Combinations
Table 3.8–4 Load Combinations for ASME III Class 2 Penetrations except Quench, Recirculation, and Safety Injection Piping
Table 3.8–5 Load Combinations for ASME III Class 2 Penetrations for the Quench Spray, Recirculation Spray, and Safety Injection Systems
Table 3.8–6 Load Combinations for ASME III Class MC Sleeved Penetrations
Table 3.8–7 Nomenclature for Tables 3.8-4 through 3.8-6
Table 3.9B–1 List of Input Documents Describing Design Transient for Fatigue Analysis of RCP and Associated Class 1 Piping
Table 3.9B–2 List of MPS-3 Documents Describing Components Requiring Inelastic Analysis
Table 3.9B–3 Preoperational Tests (1)
Table 3.9B–4 Omitted
Table 3.9B–5 Stress Limits for ASME Section III Class 1 (NB) Seismic Category I Components (Elastic Analysis)
Table 3.9B–6 Comparison of Class 1 Requirements Regulatory Guide 1.48 vs. Tables 3.9B–5 and 3.9B–10
Table 3.9B–7 Stress Limits for ASME Section III Class 2 and 3 Components (Elastic Analysis)
Table 3.9B–8 Comparison of Classes 2 and 3 Requirements Regulatory Guide 1.48 vs Table 3.9B–7
Table 3.9B–9 Stress Limits for ASME Section III Class 1, 2, and 3 Component Supports*
Table 3.9B–9A Load Combinations for ASME Section III Class 1, 2, and 3 Component Supports
Table 3.9B–10 ASME III Class 1 Stress and Fatigue Analysis Requirements per NB3650
Revision 33—06/30/20 MPS-3 FSAR LOT 15 of 40
List of Tables (Continued)
Number Title
Table 3.9B–11 ASME III Class 2 and 3* Stress Analysis Requirements per NC3650 and ND3650
Table 3.9B–12 Loadings Applicable to Piping Systems
Table 3.9B–13 Active Pumps and Valves
Table 3.9B–14 Omitted
Table 3.9B–15 Postulated Primary Loop Breaks
Table 3.9B–16 Steam Generator and Reactor Coolant Pump Support Snubber Embedment Loads(1) (KIPS)
Table 3.9B–17 Steam Generator and Reactor Coolant Pump Support Column Embedment Loads(1)(KIPS)
Table 3.9B–18 Factors of Safety for Primary Members of Steam Generators and Reactor Coolant Pump Supports
Table 3.9B–19 Minimum Design Margins for Pressurizer Support
Table 3.9B–20 Design Margins for the Primary Members of the Pressurizer Safety Valve Support
Table 3.9B–21 Design Margins for Primary Members of Reactor Pressure Vessel Support
Table 3.9B–22 Design Margins for Primary Loop Bumper Support Structure
Table 3.9N–1 Summary of Reactor Coolant System Design Transients
Table 3.9N–2 Loading Combinations for Reactor Coolant System Components
Table 3.9N–3 Allowable Stresses for Reactor Coolant System Components
Table 3.9N–4 Design Loading Combinations for ASME Code Class 2 and 3 Components and Supports
Table 3.9N–5 Stress Criteria for Safety Code Class 2 (1) and Class 3 Tanks
Table 3.9N–6 Stress Criteria for ASME Code Class 2 Tanks(1)
Table 3.9N–7 Stress Criteria for ASME Code Class 2 and Class 3 Inactive Pumps
Revision 33—06/30/20 MPS-3 FSAR LOT 16 of 40
List of Tables (Continued)
Number Title
Table 3.9N–8 Stress Criteria for Safety Related ASME Code Class 2 and Class 3 Active and Inactive Valves
Table 3.9N–9 Stress Criteria for ASME Code Class 2 and 3 Piping
Table 3.9N–10 Design Criteria for Active Pumps
Table 3.9N–11 Active Pumps
Table 3.9N–12 Active Valves
Table 3.9N–13 Maximum Deflections Allowed for Reactor Internal Support Structures
Table 3.10N–1 Seismic Category I Instrumentation and Electrical Equipment in Westinghouse NSSS Scope of Supply
Table 3.11N–1 Safety-Related Equipment in Westinghouse NSSS Scope of Supply (Historical, not subject to future updating)
Table 3A.1.2–1 Thin-Wall Cylinder, Pertinent Parameters
Table 3A.1.2–2 Exact and Computer Stresses for Thin-wall Cylinder
Table 3A.1.4–1 Infinitely Long Solid Cylinder, Pertinent Parameters
Table 3A.1.5–1 Input Thermal Parameter Functions for TAC2D Sample Problem
Table 3A.1.6–1 Peak Acceleration and Displacement
Table 3A.1.6–2 Horizontal Amplified Response Spectra
Table 3A.1.10–1 Pertinent Parameters of a Cylindrical Shell
Table 3A.1.10–2 Summary of Results
Table 3A.1.11–1 Test Problem Data
Table 3A.1.11–2 A Comparison of Hand and Computer Program Results
Table 3A.2.1–1 Infinitely Long Solid Cylinder, Pertinent Parameters
Table 3A.2.4–1 Comparison of Results of SLOSH vs AEC Analysis*
Table 3A.2.6–1 Comparison of Experimental Data with Analytical Data Using LIMITA 3
Revision 33—06/30/20 MPS-3 FSAR LOT 17 of 40
List of Tables (Continued)
Number Title
Table 3A.3–1 Comparison of Support Reaction Due to Thermal, Anchor Movement, and External Force Loading
Table 3A.3–2 Comparison of Deflections and Rotations Due to Thermal, Anchor Movement, and External Force Loading
Table 3A.3–3 Comparison of Stress Due To Thermal, Anchor Movement, and External Force Loading
Table 3A.3–4 Comparison of Internal Forces Due To Deadweight Analysis
Table 3A.3–5 Comparison of Deflections and Rotation Due to Deadweight Analysis
Table 3A.3–6 Comparison of Stresses Due to Deadweight Analysis
Table 3A.3–7 Comparison of Natural Frequencies
Table 3A.3–8 Comparison of Natural frequencies
Table 3A.3–9 Comparison of Class 1 Pipe Stress Analysis
Table 3A.3–10 Individual Pair Usage Factor for Point No. 30
Table 3A.3–11 Comparison of PITRUST With Franklin Institute Program CYLNOZ and Hand Calculation
Table 3A.3–12 Comparison of PITRUST With Reference 8 Results
Table 3A.3–13 Comparison of PILUG Computer Program Output with Hand Calculations
Table 3A.3–14 Summary of Comparison of SAVAL Computer Output with Hand Calculation As-Designed Condition
Table 3A.3–15 Summary of Comparison of SAVAL Computer Output with Hand Calculation Reinforced Condition (1 1/4” Pad)
Table 3A.3–16 Nodal Force Comparison
Table 3A.3–17 Input Data for WATHAM
Table 3A.3–18 Comparison of NODAL Force Calculation at Time = 2.34 Seconds
Table 3A.3–19 Comparison of PITRIFE Computer Program Output With STRUDL-II Output
Revision 33—06/30/20 MPS-3 FSAR LOT 18 of 40
List of Tables (Continued)
Number Title
Table 3A.3–20 Comparison of PITRIFE Computer Program Output With Hand Calculations
Table 3A.3–21 BENDCORD Program--Verification Problem
Table 3A.3–22 Pipe 1, Segment 1 Force Versus Time for Run Number S2807011
Table 4.1-1 Reactor Design Parameter Table
Table 4.1-2 Analytical Techniques In Core Design
Table 4.1-3 Design Loading Conditions For Reactor Core Components
Table 4.2-1 Fuel Assembly Component Stresses
Table 4.3-1 Reactor Core Description (First Cycle)
Table 4.3-2 Nuclear Design Parameters (First Cycle)
Table 4.3-3 Typical Reactivity Requirements For Rod Cluster Control Assemblies
Table 4.3-4 Omitted
Table 4.3-5 Axial Stability Index Pressurized Water Reactor Core With A 12-Foot Height
Table 4.3-6 Typical Neutron Flux Levels (n/cm2-sec) At Full Power
Table 4.3-7 Typical Comparison of Measured And Calculated Doppler Defects
Table 4.3-8 Omitted
Table 4.3-9 Omitted
Table 4.3-10 Typical Comparison of Measured And Calculated AG-IN-CD Rod Worth
Table 4.3-11 Typical Comparison of Measured And Calculated Moderator Coefficients At HZP, BOL
Table 4.4-1 Thermal And Hydraulic Design Parameters (1)
Table 4.4-2 Void Fractions At Nominal Reactor Conditions With Design Hot Channel Factors
Revision 33—06/30/20 MPS-3 FSAR LOT 19 of 40
List of Tables (Continued)
Number Title
Table 4.4-3 Radiation Levels From HJTC Probe (R/Hr)
Table 5.1–1 System Design and Operating Parameters
Table 5.2–1 Applicable Code Addenda for Class 1 Reactor Coolant System Components
Table 5.2–2 Primary and Auxiliary Components Material Specifications
Table 5.2–3 Reactor Vessels Internal Material Specifications
Table 5.2–4 Reactor Coolant Water Chemistry Specification
Table 5.2–5 Safety Valve Support Bracket Loads
Table 5.2–6 Relief Valves Referenced to Code Case N-242
Table 5.2–7 Millstone Unit No. 3 rtpts Values (°F)
Table 5.3–1 Reactor Vessel Non-Destructive Examination
Table 5.3–2 Reactor Vessel Fracture Toughness Properties
Table 5.3–3 Reactor Vessel Beltline Region Material Chemical Composition (wt Percent)
Table 5.3–4 Adjusted Referenced Temperature (ART) Values (°F)
Table 5.3–5 Reactor Vessel Design Parameters
Table 5.4–1 Reactor Coolant Pump Design Parameters
Table 5.4–2 Reactor Coolant Pump Non-Destructive Examination Program
Table 5.4–3 Steam Generator Design Data
Table 5.4–4 Steam Generator Nondestructive Examination Program
Table 5.4–5 Reactor Coolant Piping Design Parameters
Table 5.4–6 Reactor Coolant Piping Quality Assurance Program
Table 5.4–7 Design Bases for Residual Heat Removal System Operation
Table 5.4–8 Residual Heat Removal System Component Data
Revision 33—06/30/20 MPS-3 FSAR LOT 20 of 40
List of Tables (Continued)
Number Title
Table 5.4–9 Residual Heat Removal System - Cold Shutdown Operations-Failure Modes and Effects Analysis
Table 5.4–10 Pressurizer Design Data
Table 5.4–11 Reactor Coolant System Design Pressure Settings
Table 5.4–12 Pressurizer Quality Assurance Program
Table 5.4–13 Pressure Relief Tank Design Data
Table 5.4–14 Relief Valve Discharge to the Pressurizer Relief Tank
Table 5.4–15 Reactor Coolant System Design Parameters
Table 5.4–16 Non-Destructive Examination Program Reactor Coolant System Valves
Table 5.4–17 Pressurizer Valves Design Parameters
Table 5.4–18 Equipment Supports, Loading Combinations, and Design Allowable Stresses
Table 5.4–19 Reactor Vessel Head Vent System Equipment Design Parameters
Table 6.1–1 Typical Materials Employed for Components of ESF Systems
Table 6.1–2 Parameters for Ultimate Sump pH Calculation (1)
Table 6.1–3 Painted Surface Area Inside Containment
Table 6.1–4 Other Organic Materials Used Inside Containment
Table 6.2–1 Containment Peak Pressure and Temperature Results Following a Main Steam Line Break Inside Containment
Table 6.2–2 Passive Heat Sinks (1)
Table 6.2–3 Containment Design Evaluation Parameters
Table 6.2–4 LOCA Peak Pressure Results
Table 6.2–5 LOCA Peak Pressure - DEHL Break - Initial Condition Sensitivity
Table 6.2–6 LOCA Sequence of Events - Containment Peak Pressure
Revision 33—06/30/20 MPS-3 FSAR LOT 21 of 40
List of Tables (Continued)
Number Title
Table 6.2–6A LOCA Peak Temperature Results
Table 6.2–6B LOCA Sequence of Events - Containment Peak Temperature
Table 6.2–6C LOCA - Containment Depressurization Results - DEPS - Break
Table 6.2–6D LOCA Sequence of Events - Containment Depressurization
Table 6.2–6E LOCA-Containment Sump Water Temperature at RSS Pump Start
Table 6.2–6F LOCA-Accident Chronology for Pump Suction Double Ended Rupture-Limiting Case for Containment Sump Temperature
Table 6.2–6G Accident Chronology for Full Double-Ended Rupture Main Steam Line Break at 0% Power-Limiting Case for Containment Pressure
Table 6.2–6H Accident Chronology for Full Double-Ended Rupture Main Steam Line Break at 102% Power-Limiting Case for Containment Temperature
Table 6.2–7 System Parameters Initial Conditions for LOCA Mass and Energy Release Analysis
Table 6.2–7A LOCA Mass and Energy Analysis Core Decay Heat Fraction
Table 6.2–8 Double Ended Hot Leg Break Blowdown Mass and Energy Release
Table 6.2–9 Double Ended Pump Suction Break with Minimum ECCS Flows Blowdown Mass and Energy Release
Table 6.2–10 Double Ended Pump Suction Break with Maximum ECCS Flows Blowdown Mass and Energy Release
Table 6.2–11 Double Ended Cold Leg Break with Minimum ECCS Flow Blowdown Mass and Energy Releases
Table 6.2–12 Deleted by PACKAGE FSC MP3-UCR-2013-008
Table 6.2–13 3.0 Ft2 Pump Suction Split Break with Minimum ECCS Flows Blowdown Mass and Energy Releases
Table 6.2–14 Double Ended Hot Leg Minimum ECCS Flows Reflood Mass and Energy Releases
Revision 33—06/30/20 MPS-3 FSAR LOT 22 of 40
List of Tables (Continued)
Number Title
Table 6.2–15 Double Ended Pump Suction Break with Minimum ECCS Flows Reflood Mass and Energy Releases
Table 6.2–16 Double Ended Pump Suction Break with Maximum ECCS Flows Reflood Mass and Energy Releases
Table 6.2–17 Double Ended Cold Leg Break with Minimum ECCS Flows Reflood Mass and Energy Releases
Table 6.2–18 Deleted by PACKAGE FSC MP3-UCR-2013-008
Table 6.2–19 3.0 Ft2 Suction Split Break with Minimum ECCS Flows Reflood Mass and Energy Releases
Table 6.2–20 Double Ended Hot Leg Break with Minimum ECCS Flows Reflood Principal Parameters
Table 6.2–21 Double Ended Pump Suction Break with Minimum ECCS Flows Reflood Principal Parameters
Table 6.2–21A Double Ended Pump Suction Break with Maximum ECCS Flows Reflood Principal Parameters
Table 6.2–21B Double Ended Cold Leg Break with Minimum ECCS Flows Reflood Principal Parameters
Table 6.2–21C Deleted by PACKAGE FSC MP3-UCR-2013-008
Table 6.2–21D 3.0 Square Feet Pump Suction Split Break with Minimum ECCS Flows Reflood Principal Parameters
Table 6.2–21E Double Ended Hot Leg Break with Minimum ECCS Flows Mass Balance
Table 6.2–21F Double Ended Hot Leg Break with Minimum ECCS Flows Energy Balance
Table 6.2–21G Double Ended Pump Suction Break with Minimum ECCS Flows Mass Balance
Table 6.2–21H Double Ended Pump Suction Break with Minimum ECCS Flows Energy Balance
Table 6.2–21I Double Ended Pump Suction Break with Maximum ECCS Flows Mass Balance
Revision 33—06/30/20 MPS-3 FSAR LOT 23 of 40
List of Tables (Continued)
Number Title
Table 6.2–21J Double Ended Pump Suction Break with Maximum ECCS Flows Energy Balance
Table 6.2–21K Double Ended Cold Leg Break with Minimum ECCS Flows Mass Balance
Table 6.2–21L Double Ended Cold Leg Break with Minimum ECCS Flows Energy Balance
Table 6.2–21M Deleted by PACKAGE FSC MP3-UCR-2013-008
Table 6.2–21N Deleted by PACKAGE FSC MP3-UCR-2013-008
Table 6.2–21O 3.0 ft2 Pump Suction Split Break with Minimum ECCS Flows Mass Balance
Table 6.2–21P 3.0 Square Feet Pump Suction Split Break with Minimum ECCS Flows Energy Balance
Table 6.2–22 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–23 Main Steam Line Break Mass and Energy Releases Inside Containment - Initial Conditions Assumptions
Table 6.2–24 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–25 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–26 Steam Generator Cubicle Peak Differential Pressures Feedwater Line Break
Table 6.2–27 THREED Input for Analysis at Pressurizer Cubicle
Table 6.2–28 THREED Input for Analysis of Steam Generator Cubicle B
Table 6.2–29 Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–30 Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–31 Mass and Energy Release Rates for a Spray Line DER in the Pressurizer Cubicle
Table 6.2–32 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–32A Mass and Energy Release Rates for a Surge Line DER in the Pressurizer Cubicle
Revision 33—06/30/20 MPS-3 FSAR LOT 24 of 40
List of Tables (Continued)
Number Title
Table 6.2–33 Pressurizer Cubicle Peak Differential Pressures
Table 6.2–34 Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–35 Mass and Energy Release Rates for a Double Ended Guillotine Break of the Pressurizer Surge Line (Used for a 196.6 Square Inch Hot Leg LDR in the Steam Generator Cubicle)
Table 6.2–36 Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–36A Mass and Energy Release Rates for a Feedwater Line SES in the Steam Generator Cubicle
Table 6.2–36B Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–37 Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–37A Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–37B Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–38 Steam Generator Cubicle Peak Differential Pressures, Pressurizer Surge Line LDR
Table 6.2–39 Steam Generator Cubicle Peak Differential Pressures, Residual Heat Removal Line LDR
Table 6.2–40 Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–41 Deleted by PKF FSC MP3-UCR-2009-006
Table 6.2–42 Deleted by PKG FSC MP3-UCR-2009-006
Table 6.2–43 Subcompartment Design and Maximum Calculated Differential Pressures
Table 6.2–44 Omitted
Table 6.2–45 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–46 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–47 Deleted by Change PKG FSC 07-MP3-038
Revision 33—06/30/20 MPS-3 FSAR LOT 25 of 40
List of Tables (Continued)
Number Title
Table 6.2–48 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–49 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–50 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–51 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–52 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–53 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–54 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–55 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–56 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–57 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–58 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–59 Balance of Plant Parameters Used in Steam Line Break Mass and Energy Release Calculation
Table 6.2–60 Parameters for ECCS Containment Backpressure Analysis
Table 6.2–61 Containment Heat Removal Systems Component Data
Table 6.2–62 Containment Heat Removal Systems - Consequences of Components Malfunctions
Table 6.2–63 Supplementary Leak Collection and Release System Principal Component and Design Parameters
Table 6.2–64 Containment Enclosure Building Design Parameters
Table 6.2–65 Containment Penetration (12)
Table 6.2–66 Omitted
Table 6.2–67 Hydrogen Recombiner System Design Parameter
Table 6.2–68 Deleted by FSARCR 05-MP3-010
Revision 33—06/30/20 MPS-3 FSAR LOT 26 of 40
List of Tables (Continued)
Number Title
Table 6.2–69 Deleted by FSARCR 05-MP3-010
Table 6.2–70 System Alignment for Type A Tests
Table 6.2–71 Pipe Insulation Inside Containment (8 Inches and Larger)
Table 6.2–72 DECLG Mass and Energy Releases for the Limiting Transient
Table 6.2–73 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–74 Deleted by Change PKG FSC 07-MP3-038
Table 6.2–75 Deleted By FSARCR 02-MP3-017
Table 6.2–76 Deleted By FSARCR 02-MP3-017
Table 6.2–77 Passive Heat Sink Data for Minimum Post LOCA Containment Pressure Analysis (1)
Table 6.2–78 Input Data for Minimum Containment Pressure Analysis
Table 6.3–1 Emergency Core Cooling System Component Parameters
Table 6.3–2 Emergency Core Cooling System Relief Valve Data
Table 6.3–3 Motor Operated Isolation Valves in the Emergency Core Cooling System
Table 6.3–4 Materials Employed for Emergency Core Cooling System Components
Table 6.3–5 Single Active Failure Analysis for Emergency Core Cooling System Components
Table 6.3–6 Emergency Core Cooling System Recirculation Piping Passive Failure Analysis *
Table 6.3–7 Switchover Procedure *
Table 6.3–8 Emergency Core Cooling System Shared Functions Evaluation
Table 6.3–9 Normal Operating Status of Emergency Core Cooling System Components for Core Cooling
Table 6.3–10 Failure Mode and Effects Analysis - Emergency Core Cooling System - Active Components
Revision 33—06/30/20 MPS-3 FSAR LOT 27 of 40
List of Tables (Continued)
Number Title
Table 6.3–11 Net Positive Suction Head for Emergency Core Cooling System Pumps
Table 6.4–1 Control Room Component Performance Characteristics for Habitability Systems
Table 6.5–1 Comparison of ESF Filter Systems with Respect to Regulatory Guide 1.52, Rev. 2 Positions
Table 6.6–1 Inservice Inspection Program Class 2 & 3 Systems
Table 7.1–1 Listing of Applicable Criteria
Table 7.2–1 List of Reactor Trips
Table 7.2–2 Protection System Interlocks
Table 7.2–3 Reactor Trip System Instrumentation
Table 7.2–4 Reactor Trip Correlation
Table 7.3–1 Interlocks for Engineered Safety Features Actuation System
Table 7.3–2 Engineered Safety Features Actuation System Instrumentation
Table 7.3–3 Safety Injection Signal
Table 7.3–4 Containment Isolation Phase A
Table 7.3–5 Steam Line Isolation
Table 7.3–6 Feedwater Isolation
Table 7.3–7 Control Building Isolation
Table 7.3–8 Containment Depressurization Actuation
Table 7.3–9 Containment Isolation Phase B
Table 7.3–10 Instrumentation and Control Systems for Engineered Safety Features and Essential Auxiliary Supporting Systems
Table 7.4–1 Instruments and Controls Outside Control Room for Cold Shutdown
Table 7.5–1 Accident Monitoring Instrumentation List
Revision 33—06/30/20 MPS-3 FSAR LOT 28 of 40
List of Tables (Continued)
Number Title
Table 7.7–1 Plant Control System Interlocks
Table 8.1–1 Class IE System Load Identification and Function
Table 8.1–2 Acceptance Criteria for Electric Power
Table 8.3–1 Omitted
Table 8.3–2 Cable in Trays
Table 8.3–3 Nonsafety-Related Equipment Connected to Safety-Related Buses
Table 8.3–4 125V DC Safety Related Bus Loading
Table 8.3–5 Omitted
Table 8.3–6 Electrical Equipment not Requiring Internal Cable Separation
Table 9.1–1 Fuel Pool Cooling and Purification System Principal Component Design Characteristics
Table 9.1–2 Performance Characteristics of the Fuel Pool Cooling System (One Fuel Pool Cooler Operating)
Table 9.2–1 Service Water System Flow Requirements
Table 9.2–2 Service Water System Heat Transfer Requirements
Table 9.2–3 Automatic Operation of Service Water System Valves
Table 9.2–4 Consequence of Component Failure
Table 9.2–5 Reactor Plant Component Cooling System Major Component Design Data
Table 9.2–6 Consequences of Component Failures Reactor Plant Component Cooling Water System
Table 9.2–7 Chilled Water System Heat Loads and Flow Rates
Table 9.2–8 Chilled Water System Major Component Design Data
Table 9.2–9 Neutron Shield Tank Cooling System Component Data Summary
Table 9.2–10 Charging Pumps Cooling System Component Data Summary
Revision 33—06/30/20 MPS-3 FSAR LOT 29 of 40
List of Tables (Continued)
Number Title
Table 9.2–11 Consequences of Component Failures, Charging Pumps Cooling Subsystem
Table 9.2–12 Safety Injection Pumps Cooling System Component Data Summary
Table 9.2–13 Consequences of Component Failures - Safety Injection Pumps Cooling Subsystem
Table 9.2–14 Condensate Demineralizer Component Cooling Water System (3CCD) Design Data
Table 9.2–15 Design Data for Major Components in the Water Treating Systems
Table 9.2–16 Primary Grade Water System Major ComponentDesign Data
Table 9.2–17 Primary Grade Water Chemistry Specifications
Table 9.3–1 Sampling Points - Reactor Plant
Table 9.3–2 Sampling Points - Turbine Plant
Table 9.3–3 Post-Accident Sampling System Principal Components Design and Parameters
Table 9.3–4 Chemical and Volume Control System Design Parameters
Table 9.3–5 Principal Component Data Summary
Table 9.3–6 Failure Mode and Effects Analysis Chemical and Volume Control System Active Components - Normal Plant Operation and Safe Shutdown
Table 9.3–7 Boron Recovery System Principal Component Design and Performance Characteristics
Table 9.3–8 Assumptions Used in Activity Discharge Calculations
Table 9.3–9 Boron Recovery System Failure Analysis
Table 9.4–1 Indoor Design Temperatures for Control Building
Table 9.4–2 Control Building Component Performance Characteristics for Air Conditioning, Heating, Cooling, and Ventilation Systems
Table 9.4–3 Design Data for Major Components in Fuel Building Ventilation System
Revision 33—06/30/20 MPS-3 FSAR LOT 30 of 40
List of Tables (Continued)
Number Title
Table 9.4–4 Auxiliary Building Ventilation System Principal Components and Design Parameters
Table 9.4–5 Turbine Building Ventilation System Principal Components and Approximate Parameters
Table 9.4–6 Engineered Safety Features Building Principal Components with Approximate Design Parameters
Table 9.4–7 Engineered Safety Features Building Ventilation System Consequences of Component Failures
Table 9.4–8 Containment Air Filtration Subsystem Principal Components Design and Approximate Parameters
Table 9.4–9 Containment Air Recirculation System Principal Components Design and Approximate Parameters
Table 9.4–10 Containment Air Recirculation System Operation Modes and Approximate Design Conditions of Air Recirculation Fan Coolers
Table 9.4–11 Containment Purge Air Subsystem Principal Components and Approximate Parameters
Table 9.4–12 CRDM Cooling System Principal Components and Approximate Parameters
Table 9.4–13 Waste Disposal Building Heating and Ventilation System
Table 9.5–1 Compliance with Fire Protection Technical Requirements
Table 9.5–2 Emergency Diesel Generator Cooling Water System Leakage Summary Per Diesel*
Table 9.5–3 Design Data for Motor Components in Emergency Generator Cooling Water Systems
Table 9.5–4 Design Data for the Major Components of Emergency Generator - Diesel Lubricating Oil System
Table 9.5–5 Gaseous Hydrogen Storage Tubes
Table 9.5–6 Equipment Supplied by the Nitrogen System
Revision 33—06/30/20 MPS-3 FSAR LOT 31 of 40
List of Tables (Continued)
Number Title
Table 9.5–7 Nitrogen System Major Component Design Data
Table 9.5–8 Design Data for Major Components in the Containment Vacuum System
Table 9.5–9 Emergency Generator Auxiliary System Component Characteristics
Table 9.5–10 Cooling Water System Leakages
Table 10.1-1 Steam and Power Conversion System Principle Design and Performance Characteristics
Table 10.3–1 Materials of Main Steam and Feedwater Valves and Piping
Table 10.3–2 Materials of Main Steam Safety Valves
Table 10.3–3 Materials of Main Steam Pressure Relieving Valves
Table 10.3–4 Materials of Main Steam/Feedwater Valves
Table 10.4–1 Circulating Water and Associated Systems Design and Performance Characteristics
Table 10.4–2 Design Data Condensate Polishing System
Table 10.4–3 Condensate and Feedwater System Equipment Design parameters
Table 10.4–4 Equipment Design Parameters
Table 10.4–5 Equipment Design Parameters
Table 10.4–6 Condenser: Physical Characteristics and Performance Requirements (1)
Table 10.4–7 Deleted by PKG FSC MP3-UCR-2010-012
Table 11.1-1 Iodine and Noble Gas Inventory in Reactor Core - Original License Basis (1) (Historical)
Table 11.1-2 Reactor Coolant Equilibrium Concentrations - Original License Basis (Historical)
Table 11.1–2A Design Reactor Coolant Equilibrium Concentrations at 3723 MWt
Revision 33—06/30/20 MPS-3 FSAR LOT 32 of 40
List of Tables (Continued)
Number Title
Table 11.1-3 Parameters Used in the Calculation of Reactor Coolant, Secondary Side Liquid, and Secondary Side Steam Fission and Activation Product Activity - Original License Basis
Table 11.1–3A Parameters Used in the Calculation of Design Reactor Fission and Activation Product Activity
Table 11.1-4 Tritium Production
Table 11.1-5 Reactor Coolant N-16 Activity (1)
Table 11.1-6 Secondary Side Liquid Equilibrium Concentrations Original License Basis (Historical)
Table 11.1-7 Secondary Side Steam Equilibrium Concentrations - Original License Basis (Historical)
Table 11.2-1 Liquid Waste Management System Daily Input Flows
Table 11.2-2 Liquid Waste Management System Design Data
Table 11.2-3 Tank Overflow Protection
Table 11.2-4 Expected Radioactive Liquid Concentrations From Each Liquid Release Stream (μCi/ml) (1) Following Treatment (Historical)
Table 11.2-5 Expected Annual Radioactive Liquid Releases Prior to Dilution in the Circulating Water Discharge System and Prior to Inclusion of Anticipated Operational Occurrences (1) (Historical)
Table 11.2-6 Expected Annual Radioactive Liquid Releases After Dilution in the Circulating Water Discharge System and Inclusion of Anticipated Operational Occurrences (1) (Historical)
Table 11.2-7 Design (1) Radioactive Liquid Concentrations From Each Liquid Release Stream (μCi/gm) Following Treatment (2)
Table 11.2-8 Design (1) Annual Radioactive Liquid Releases Prior to Addition of Anticipated Operational Occurrences and Dilution in the Circulating Water Discharge System
Revision 33—06/30/20 MPS-3 FSAR LOT 33 of 40
List of Tables (Continued)
Number Title
Table 11.2-9 Design (1) Annual Radioactive Liquid Releases Following Addition of Anticipated Operational Occurrences and Dilution in the circulating Water Discharge System
Table 11.2-10 Fraction of MPC Released - Design Case (1) (Historical)
Table 11.2-11 Assumptions Used for the Radioactive Liquid Waste System Failure (Release to Atmosphere) and for the Liquid Containing Tank Failure
Table 11.2-12 Boron Recovery Tank Concentrations (μCi/cc)
Table 11.2-13 Activity Released to Atmosphere from a Radioactive Liquid Containing Tank Failure (Boron Recovery Tank)
Table 11.2-14 Radioactive Concentrations in Groundwater Entering Niantic Bay Following a Rupture of Boron Recovery Tank
Table 11.3-1 Total Expected Radioactive Gaseous Released to Atmosphere from Millstone 3 (Historical)
Table 11.3-2 Radioactive Gaseous Source Term Parameters (Historical)
Table 11.3-3 Radioactive Gaseous Waste System
Table 11.3-4 Codes and Standards
Table 11.3-5 Expected Radioactive Gaseous Releases to Atmosphere via Ventilation Vent (Historical)
Table 11.3-6 Expected Radioactive Gaseous Releases to Atmosphere from Millstone 3 via Millstone Stack (Historical)
Table 11.3-7 Expected Radioactive Gaseous Releases to Atmosphere via Turbine Building (Historical)
Table 11.3-8 Design Radioactive Gaseous Releases to Atmosphere via Ventilation Vent (Historical)
Table 11.3-9 Design Radioactive Gaseous Releases to Atmosphere from Millstone 3 via Millstone Stack (Historical)
Table 11.3-10 Design Radioactive Gaseous Releases to Atmosphere via Turbine Building Roof (Historical)
Revision 33—06/30/20 MPS-3 FSAR LOT 34 of 40
List of Tables (Continued)
Number Title
Table 11.3-11 Design Radioactive Gaseous Releases to Atmosphere from Millstone 3 (Historical)
Table 11.3-12 Assumptions Used for the Process Gas Charcoal Bed Adsorber Bypass Analysis (1)
Table 11.3-13 Radioisotope Releases from the Process Gas Charcoal Bed Adsorber and Associated Piping
Table 11.4-1 Volume of Spent Resin Generated Annually
Table 11.4-2 Radioactive Solid Waste System Component Data
Table 11.4-3 Omitted
Table 11.4-4 Radioactive Solid Waste Annual Shipments (1)(2)
Table 11.5-1 Gaseous Monitors
Table 11.5-2 Liquid Process Monitors
Table 11.5-3 Radiological Samples Taken at Reactor Plant Sample Sink
Table 11A.1-1 Annual Doses to Maximum Individual in the Adult Group from Gaseous Effluents
Table 11A.1-2 Annual Doses to Maximum Individual in the Teen Group from Gaseous Effluents
Table 11A.1-3 Annual Doses to Maximum Individual in the Child Group from Gaseous Effluents
Table 11A.1-4 Annual Doses to Maximum Individual in the Infant Group from Gaseous Effluents
Table 11A.1-5 Annual Doses to Maximum Individual in the Adult Group from Gaseous Effluents
Table 11A.1-6 Annual Doses to Maximum Individual in the Teen Group from Gaseous Effluents
Table 11A.1-7 Annual Doses to Maximum Individual in the Child Group from Gaseous Effluents
Revision 33—06/30/20 MPS-3 FSAR LOT 35 of 40
List of Tables (Continued)
Number Title
Table 11A.1-8 Annual Doses to Maximum Individual in the Infant Group from Gaseous Effluents
Table 11A.1-9 Omitted
Table 11A.1-10 Omitted
Table 11A.1-11 Omitted
Table 11A.1-12 Omitted
Table 11A.1-13 Annual Doses to Maximum Individual in the Adult Group from Liquid Effluents
Table 11A.1-14 Annual Doses to Maximum Individual in the Teen Group from Liquid Effluents
Table 11A.1-15 Annual Doses to Maximum Individual in the Child Group from Liquid Effluents
Table 11A.1-16 Comparison of Maximum Calculated Doses from Millstone 3 Nuclear Plant with Appendix I Design Objectives
Table 11A.1-17 Calculated Population Dose
Table 11A.2-1 Dilution Factors, Travel Times from the Site, and Population Served
Table 11A.2-2 Parameters and Assumptions Used in Equations for Estimating Doses to Humans
Table 11A.2-3 Meteorological Data
Table 11A.2-4 Parameters and Assumptions Used in Estimating Doses to Biota
Table 11A.3-1 Base Case Annual Population Doses Due to Liquid Effluents (1)
Table 11A.3-2 Base Case Annual Population Doses Due to Gaseous Effluents (1)
Table 12.2–1 Parameters Used in Calculation of Design Radiation Source Inventories (HISTORICAL)
Table 12.2–2 Radioactive Sources in Containment Building (HISTORICAL)
Table 12.2–3 Radioactive Sources in the Auxiliary Building (HISTORICAL)
Revision 33—06/30/20 MPS-3 FSAR LOT 36 of 40
List of Tables (Continued)
Number Title
Table 12.2–4 Radioactive Sources in the Waste Disposal Building (HISTORICAL)
Table 12.2–5 Radioactive Sources in the Fuel Building (HISTORICAL)
Table 12.2–5A Other Radioactive Sources (HISTORICAL)
Table 12.2–6 Inventory of an Average Fuel Assembly after 650 Days of Operation at 3,636 MWt at Shutdown and 100 Hours after Shutdown (μCi) (HISTORICAL)
Table 12.2–7 Source Intensity in the Most Radioactive Fuel Assembly * after 650 Days of Operation at 3636 Mwt (HISTORICAL)
Table 12.2–8 Radionuclide Concentrations in the Spent Fuel Pool from Refueling 100 Hours after Shutdown* (HISTORICAL)
Table 12.2–9 Radiation Sources * Reactor Coolant Nitrogen-16 Activity (HISTORICAL)
Table 12.2–10 Assumptions Used in the Calculation of Airborne Concentrations (HISTORICAL)
Table 12.2–11 Airborne Concentrations Inside Major Buildings (mci/cc) (HISTORICAL)
Table 12.3–1 Radiation Zones
Table 12.3–2 Radiation Monitoring System - Area Radiation Detector Location
Table 12.3–3 Operator Activity Locations and Time Durations
Table 12.3–4 Activity Initiation Time
Table 12.5–1 Deleted by FSARCR 04-MP3-040
Table 12.5–2 Deleted by FSARCR 04-MP3-040
Table 14.2–1 Preoperational/Acceptance Test Program Test Descriptions
Table 14.2–2 Startup Test Descriptions
Table 14.2–3 Preoperational/Acceptance/Startup Tests Acceptance Criteria Sources
Table 15.0-1 Nuclear Steam Supply System Power Ratings
Revision 33—06/30/20 MPS-3 FSAR LOT 37 of 40
List of Tables (Continued)
Number Title
Table 15.0-2 Summary of Initial Conditions and Computer Codes Used
Table 15.0-3 Nominal Values of Pertinent Plant Parameters Utilized in the Accident Analysis
Table 15.0-4 Trip Point and Time Delays to Trip Assumed in Accident Analyses
Table 15.0-5 Deleted by PKG FSC 07-MP3-049
Table 15.0-6 Plant Systems and Equipment Required for the Mitigation of Transient and Accident Conditions
Table 15.0-7 Fission Product Inventory in Reactor Core
Table 15.0-8 Potential Dose Due to Accidents
Table 15.0-9 Typical Power-Temperature Distribution for Full Core
Table 15.0-10 Technical Specification Coolant Concentrations
Table 15.0-11 Atmospheric Dispersion Data Used for Design Basis Accident Analysis
Table 15.0-12 Reactor Coolant Iodine Concentrations Assuming Pre-Accident Iodine Spike
Table 15.0-13 Iodine Release Rates into Reactor Coolant Due to Concurrent Iodine Spike
Table 15.1–1 Time Sequence of Events for Incidents Which Cause an Increase in Heat Removal by the Secondary System
Table 15.1–2 Equipment Required Following a Rupture of a Main Steam Line
Table 15.1–3 Assumptions Used in Main Steam Line Break Analysis
Table 15.1–4 Deleted by FSARCR PKG FSC 04-MP3-017
Table 15.2–1 Time Sequence for Events for Incidents Which Cause a Decrease in Heat Removal by the Secondary System
Table 15.2–2 Natural Circulation Flow
Table 15.3–1 Time Sequence of Events for Incidents Which Result in a Decrease in Reactor Coolant System Flow
Revision 33—06/30/20 MPS-3 FSAR LOT 38 of 40
List of Tables (Continued)
Number Title
Table 15.3–1A Time Sequence of Events for Underfrequency Event
Table 15.3–2 Summary of Results for Locked Rotor Transients
Table 15.3–3 Assumptions Used in Locked Rotor Analysis
Table 15.4–1 Time Sequence of Events for Incidents Which Cause Reactivity and Power Distribution Anomalies
Table 15.4–2 Minimum Calculated DNBR for a Typical Case of Rod Cluster Control Assembly Misalignment
Table 15.4–3 Parameters Used in the Analysis of the Rod Cluster Control Assembly Ejection Accident
Table 15.4–4 Parameters Used in Rod Ejection Accident Analysis
Table 15.4–5 Integrated Break Flow (lbm) in Containment
Table 15.4–6 Deleted by FSARCR PKG FSC 04-MP3-017
Table 15.5–1 Time Sequence of Events - CVCS Malfunction that Increases Reactor Coolant Inventory
Table 15.6–1 Time Sequence of Events for Inadvertent Opening of a Pressurizer Safety Valve
Table 15.6–2 Assumptions Used in Analysis of Failure of Small Lines Carrying Primary Coolant Outside Containment
Table 15.6–3 Plant Operating Range Allowed by the Best Estimate Large Break LOCA Analysis
Table 15.6–4 Large Break LOCA Containment Data Used for Calculation of Containment Pressure
Table 15.6–5 Analysis of Record Best Estimate Large Break LOCA Results
Table 15.6–6 Total Minimum Injected Safety Injection Flow Used in Best Estimate large Break LOCA Analysis
Table 15.6–7 Large Break LOCA Containment Data Used for Calculation of Containment Pressure
Revision 33—06/30/20 MPS-3 FSAR LOT 39 of 40
List of Tables (Continued)
Number Title
Table 15.6–8 Peak Clad Temperature including All Penalties and benefits, Best Estimate large Break LOCA (BE LBLOCA)
Table 15.6–9 Assumptions Used for the Radiological Consequences of a LOCA Analysis
Table 15.6–10 Deleted by FSARCR PKG FSC 04-MP3-017
Table 15.6–11 Deleted by Change PKG FSC 07-MP3-054
Table 15.6–12 Assumptions Used for the Control Room Habitability Analysis
Table 15.6–13 Deleted by FSARCR PKG FSC 04-MP3-017
Table 15.6–14 Time Sequence of Events for Incidents Which Cause a Decrease in Reactor Coolant Inventory (Small Break)
Table 15.6–15 Input Parameters Used in the ECCS Analysis (small Break)
Table 15.6–16 Small Break LOCA Results Fuel Cladding Data
Table 15.6–17 Small Break LOCA Safety Injection Flow Rate for 1.5 inch to 6 inch Breaks
Table 15.6–18 Small Break LOCA Safety Injection Flow Rate for 8.75 inch Break Before Switchover
Table 15.6–19 Omitted
Table 15.6–20 Omitted
Table 15.6–21 DELETED BY FSARCR 03-MP3-022
Table 15.6–22 DELETED BY FSARCR 03-MP3-022
Table 15.6.3–1 Operator Action Times for Design Basis Steam Generator Tube Rupture Analysis
Table 15.6.3–2 Steam Generator Tube Rupture Analysis Sequence of Events
Table 15.6.3–3 Steam Generator Tube R Mass Releases Total Mass Flow (Pounds)
Table 15.6.3–4 Steam Generator Tube Rupture Analysis Parameters Used in Evaluating Radiological Consequences
Table 15.6.3–5 Deleted by Change PKG FSC 07-MP3-054
Revision 33—06/30/20 MPS-3 FSAR LOT 40 of 40
List of Tables (Continued)
Number Title
Table 15.6.3–6 Steam Generator Tube Rupture Analysis Iodine Spike Appearance Rates
Table 15.6.3–7 Deleted by FSARCR PKG FSC 04-MP3-017
Table 15.6.3–8 Deleted by FSARCR PKG FSC 04-MP3-017
Table 15.6.3–9 Deleted by FSARCR PKG FSC 04-MP3-017
Table 15.6.3–10 Deleted by FSARCR PKG FSC 04-MP3-017
Table 15.7–1 Omitted
Table 15.7–2 Table Relocated to Table 11.3-13 by FSARCR 04-MP3-017
Table 15.7–3 Table Relocated to Table 11.3-13 by FSARCR 04-MP3-017
Table 15.7–4 Table Relocated to Table 11.2-12 by FSARCR 04-MP3-017
Table 15.7–5 Table Relocated to Table 11.2-11 by FSARCR 04-MP3-017
Table 15.7–6 Table Relocated to Table 11.2-13 by FSARCR 04-MP3-017
Table 15.7–7 Table Relocated to Table 11.2-14 by FSARCR 04-MP3-017
Table 15.7–8 Parameters for Postulated Fuel Handling Accident
Table 15.7–9 Deleted by FSARCR PKG FSC 04-MP3-017
Table 15.7–10 Deleted by PKG FSC 07-MP3-056
Table 15.7–11 Deleted by FSARCR PKG FSC 04-MP3-017
Table 19.6–1 License Renewal Commitments
Table 4-1 Sprinkler/Waterspray Protected Areas
Table 4-2 CO2 Protected Areas
Table 9–1 Plant Functions which Could be Affected by a Fire in Different Fire Areas and Options Available to Complete Function (Deleted)
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
of 7
6
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
1.2–
1FI
GU
RE
1.2–
1N
ot U
sed
N/A
N/A
1.2–
2FI
GU
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1.2–
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2521
2-10
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/A
1.2–
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1.2–
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2.1–
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2.1–
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2.1–
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2.1–
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2.1–
4FI
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2.1–
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N/A
N/A
2.1–
5FI
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2.1–
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wns
With
in 1
0 M
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N/A
N/A
2.1–
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GU
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2.1–
619
85 P
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atio
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2.1–
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2.1–
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2.1–
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2.1–
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85 P
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2.1–
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2.1–
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2.1–
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and
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2.1–
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2.1–
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Z Po
pula
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2.2–
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2.2–
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stria
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and
Mili
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sN
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2.2–
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2.2–
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tern
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2.2–
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N/A
N/A
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 2
of 7
6
2.2–
5FI
GU
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2.2–
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side
and
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N/A
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2.3–
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2.3–
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in th
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icin
ity o
f Mill
ston
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int
N/A
N/A
2.3–
2FI
GU
RE
2.3–
2To
pogr
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cal P
rofil
es w
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5 M
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f Site
N/A
N/A
2.3–
3FI
GU
RE
2.3–
3To
pogr
aphi
cal P
rofil
es w
ithin
5 M
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f Site
N/A
N/A
2.3–
4FI
GU
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2.3–
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pogr
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cal P
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ithin
50
Mile
s of S
ite (S
heet
1)
N/A
1 O
F 2
2.3–
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GU
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2.3–
4To
pogr
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Mile
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heet
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N/A
2 O
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2.3–
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GU
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2.3–
5To
pogr
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heet
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N/A
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2.3–
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2.3–
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pogr
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2.3–
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2.3–
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Shee
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N/A
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2.3–
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2.3–
7M
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trum
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Qua
lity
Ass
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Flow
Dia
gram
N/A
N/A
2.4–
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GU
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2.4–
1Fa
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/AN
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2.4–
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2.4–
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/A
2.4–
3FI
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2.4–
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Surv
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tatio
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to O
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N/A
N/A
2.4–
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2.4–
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dal C
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Labo
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/AN
/A
2.4–
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2.4–
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stab
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bora
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N/A
N/A
2.4–
6FI
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2.4–
6Fr
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of T
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Flo
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Lon
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/A
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2.4–
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P R
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N/A
N/A
LIS
T O
F E
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FIG
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(CO
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INU
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)
Figu
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umbe
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Lab
elT
itle
Dra
win
g N
umbe
rSh
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Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
of 7
6
2.4–
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2.4–
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able
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N/A
N/A
2.4–
12FI
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2.4–
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Type
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N/A
2.4–
15FI
GU
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2.4–
15W
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Tran
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N/A
N/A
2.4–
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GU
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2.4–
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Und
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Dia
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ston
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N/A
N/A
2.4–
19FI
GU
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2.4–
19W
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Ref
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Dia
gram
, Mill
ston
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rid, A
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of
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N/A
N/A
2.4–
20FI
GU
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2.4–
20W
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Ref
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Dia
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, Mill
ston
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of
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N/A
N/A
2.4–
21FI
GU
RE
2.4–
21W
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Ref
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Dia
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, Mill
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N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
of 7
6
2.4–
22FI
GU
RE
2.4–
22To
pogr
aphy
and
Run
up T
rans
ects
, Mill
ston
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catio
nN
/AN
/A
2.4–
23FI
GU
RE
2.4–
23In
take
Tra
nsec
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/AN
/A
2.4–
24FI
GU
RE
2.4–
24R
unup
Tra
nsec
t B (W
est)
N/A
N/A
2.4–
25FI
GU
RE
2.4–
25R
unup
Tra
nsec
t C (E
ast)
N/A
N/A
2.4–
26FI
GU
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2.4–
26W
ave
Cla
potis
at I
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/AN
/A
2.4–
27FI
GU
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2.4–
27In
puts
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Mod
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2.4–
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GU
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2.4–
28La
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Rad
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Prob
able
Max
imum
Hur
rican
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N/A
N/A
2.4–
29FI
GU
RE
2.4–
29La
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Slow
Spe
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f Tra
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Tim
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/AN
/A
2.4–
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2.4–
30Se
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N/A
N/A
2.4–
31FI
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2.4–
31B
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of th
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N/A
N/A
2.4–
32FI
GU
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2.4–
32O
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/AN
/A
2.4–
33FI
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33Pr
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From
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and
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Rec
ombi
ner,
and
Con
tain
men
t Enc
losu
re B
uild
ings
N/A
N/A
2.4–
35FI
GU
RE
2.4–
35R
oof P
lug
Seal
ing
Det
ail -
Hyd
roge
n R
ecom
bine
r B
uild
ing
N/A
N/A
2.4–
36FI
GU
RE
2.4–
36H
atch
Cov
er D
etai
ls -
Circ
ulat
ing
Wat
er P
umph
ouse
Se
rvic
e W
ater
Pum
p C
ubic
leN
/AN
/A
2.4–
37FI
GU
RE
2.4–
37H
atch
Cov
er D
etai
ls -
Con
trol B
uild
ing
Mec
hani
cal
Roo
mN
/AN
/A
2.5.
1–1
FIG
UR
E 2.
5.1–
1R
egio
nal P
hysi
ogra
phic
Map
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
of 7
6
2.5.
1–2
FIG
UR
E 2.
5.1–
2R
egio
nal P
re-P
leis
toce
ne S
edim
ents
of t
he C
ontin
enta
l M
argi
nN
/AN
/A
2.5.
1–3
FIG
UR
E 2.
5.1–
3Si
te S
urfic
ial G
eolo
gyN
/AN
/A
2.5.
1–4
FIG
UR
E 2.
5.1–
4R
egio
nal G
eolo
gic
Map
N/A
N/A
2.5.
1–5
FIG
UR
E 2.
5.1–
5R
egio
nal G
eolo
gic
Sect
ion
N/A
N/A
2.5.
1–6
FIG
UR
E 2.
5.1–
6R
egio
nal T
ecto
nic
Map
N/A
N/A
2.5.
1–7
FIG
UR
E 2.
5.1–
7St
ratig
raph
ic C
orre
latio
n C
hart
for t
he S
ite a
nd
Surr
ound
ing
Reg
ion)
N/A
N/A
2.5.
1–8
FIG
UR
E 2.
5.1–
8R
egio
nal S
tratig
raph
ic C
orre
latio
n C
hart
(She
et 1
)N
/A1
OF
3
2.5.
1–8
FIG
UR
E 2.
5.1–
8R
egio
nal S
tratig
raph
ic C
orre
latio
n C
hart
(She
et 2
)N
/A2
OF
3
2.5.
1–8
FIG
UR
E 2.
5.1–
8R
egio
nal S
tratig
raph
ic C
orre
latio
n C
hart
(She
et 3
)N
/A3
OF
3
2.5.
1–9
FIG
UR
E 2.
5.1–
9LA
ND
SAT
Phot
ogra
phs o
f Con
nect
icut
, Rho
de Is
land
, So
uthe
rn M
assa
chus
etts
, and
Eas
tern
New
Yor
kN
/AN
/A
2.5.
1–10
FIG
UR
E 2.
5.1–
10Li
neam
ent M
ap fr
om L
AN
DSA
T Ph
otog
raph
sN
/AN
/A
2.5.
1–11
FIG
UR
E 2.
5.1–
11R
egio
nal A
erom
agne
tic M
apN
/AN
/A
2.5.
1–12
FIG
UR
E 2.
5.1–
12R
egio
nal B
ougu
er G
ravi
ty M
apN
/AN
/A
2.5.
1–13
FIG
UR
E 2.
5.1–
13Si
te B
edro
ck G
eolo
gyN
/AN
/A
2.5.
1–14
FIG
UR
E 2.
5.1–
14Te
cton
ic M
ap o
f Eas
tern
Con
nect
icut
N/A
N/A
2.5.
1–15
FIG
UR
E 2.
5.1–
15C
onto
ur D
iagr
am o
f Pol
es to
Fol
iatio
n Pl
anes
- Fi
nal
Gra
deN
/AN
/A
2.5.
1–16
FIG
UR
E 2.
5.1–
16C
onto
ur D
iagr
am o
f Pol
es to
Join
t Pla
nes -
Fin
al G
rade
N/A
N/A
2.5.
1–17
FIG
UR
E 2.
5.1–
17C
onto
ur P
lot o
f Bea
ring
and
Plun
ge o
f Slic
kens
ides
- Fi
nal G
rade
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
of 7
6
2.5.
1–18
FIG
UR
E 2.
5.1–
18G
ener
aliz
ed L
ocat
ion
of F
aults
N/A
N/A
2.5.
2–1
FIG
UR
E 2.
5.2–
1Lo
catio
n of
Sei
smic
Sta
tions
N/A
N/A
2.5.
2–2
FIG
UR
E 2.
5.2–
2Ep
icen
ters
of E
arth
quak
es w
ithin
200
-Mile
Rad
ius
N/A
N/A
2.5.
2–3
FIG
UR
E 2.
5.2–
3Lo
catio
n of
Ear
thqu
akes
with
in th
e 50
-Mile
Rad
ius
N/A
N/A
2.5.
2–4
FIG
UR
E 2.
5.2–
4Is
osei
smal
Map
, Ear
thqu
ake
of N
ovem
ber 9
, 172
7N
/AN
/A
2.5.
2–5
FIG
UR
E 2.
5.2–
5Is
osei
smal
Map
, Ear
thqu
ake
of N
ovem
ber 1
8, 1
755
N/A
N/A
2.5.
2–6
FIG
UR
E 2.
5.2–
6Is
osei
smal
Map
, Ear
thqu
ake
of M
ay 1
6, 1
791
N/A
N/A
2.5.
2–7
FIG
UR
E 2.
5.2–
7Is
osei
smal
Map
, Ear
thqu
ake
of A
ugus
t 10,
188
4N
/AN
/A
2.5.
2–8
FIG
UR
E 2.
5.2–
8Is
osei
smal
Map
, Ear
thqu
ake o
f Mar
ch 1
, 192
5 (F
ebru
ary
28, 1
925
EST)
N/A
N/A
2.5.
2–9
FIG
UR
E 2.
5.2–
9Is
osei
smal
Map
, Ear
thqu
akes
of D
ecem
ber 2
0 an
d 24
, 19
40N
/AN
/A
2.5.
2–10
FIG
UR
E 2.
5.2–
10Te
cton
ic P
rovi
nces
N/A
N/A
2.5.
3–1
FIG
UR
E 2.
5.3–
1T-
2 Fa
ult Z
one,
Fin
al E
xcav
atio
n G
rade
- N
orth
ern
Sect
ion
N/A
N/A
2.5.
3–2
FIG
UR
E 2.
5.3–
2T-
2 Fa
ult Z
one,
Fin
al E
xcav
atio
n G
rade
- So
uthe
rn
Sect
ion
N/A
N/A
2.5.
3–3
FIG
UR
E 2.
5.3–
3T-
3 Fa
ult Z
one,
Fin
al E
xcav
atio
n G
rade
N/A
N/A
2.5.
4–1
FIG
UR
E 2.
5.4–
1G
eolo
gic
Map
of F
inal
Gra
de, S
ervi
ce W
ater
Lin
e W
alls
- E
ast
N/A
N/A
2.5.
4–2
FIG
UR
E 2.
5.4–
2G
eolo
gic
Map
of F
inal
Gra
de, S
ervi
ce W
ater
Lin
e W
alls
- W
est
N/A
N/A
2.5.
4–3
FIG
UR
E 2.
5.4–
3G
eolo
gic
Map
of F
inal
Gra
de, S
outh
Wal
l of D
isch
arge
Tu
nnel
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 7
of 7
6
2.5.
4–4
FIG
UR
E 2.
5.4–
4G
eolo
gic
Map
of F
inal
Gra
de, N
orth
Wal
l of D
isch
arge
Tu
nnel
N/A
N/A
2.5.
4–5
FIG
UR
E 2.
5.4–
5G
eolo
gic
Map
of F
inal
Gra
de, E
ast W
all o
f Dis
char
ge
Tunn
elN
/AN
/A
2.5.
4–6
FIG
UR
E 2.
5.4–
6G
eolo
gic
Map
of F
inal
Gra
de, F
loor
s of S
truct
ures
N/A
N/A
2.5.
4–7
FIG
UR
E 2.
5.4–
7G
eolo
gic
Map
of F
inal
Gra
de, S
ervi
ce W
ater
Lin
e Fl
oor
- Wes
tN
/AN
/A
2.5.
4–8
FIG
UR
E 2.
5.4–
8G
eolo
gic
Map
of F
inal
Gra
de, P
umph
ouse
Flo
orN
/AN
/A
2.5.
4–9
FIG
UR
E 2.
5.4–
9G
eolo
gic
Map
of F
inal
Gra
de, S
ervi
ce W
ater
Lin
e Fl
oor
- Eas
tN
/AN
/A
2.5.
4–10
FIG
UR
E 2.
5.4–
10G
eolo
gic
Map
of F
inal
Gra
de, S
outh
east
Qua
dran
t of
Con
tain
men
t Wal
lsN
/AN
/A
2.5.
4–11
FIG
UR
E 2.
5.4–
11G
eolo
gic
Map
of F
inal
Gra
de, S
outh
wes
t Qua
dran
t of
Con
tain
men
t Wal
lsN
/AN
/A
2.5.
4–12
FIG
UR
E 2.
5.4–
12G
eolo
gic
Map
of F
inal
Gra
de, N
orth
wes
t Qua
dran
t of
Con
tain
men
t Wal
lsN
/AN
/A
2.5.
4–13
FIG
UR
E 2.
5.4–
13G
eolo
gic
Map
of F
inal
Gra
de, N
orth
east
Qua
dran
t of
Con
tain
men
t Wal
lsN
/AN
/A
2.5.
4–14
FIG
UR
E 2.
5.4–
14G
eolo
gic
Map
of F
inal
Gra
de, E
ngin
eere
d Sa
fety
Fe
atur
es, B
uild
ing
Sum
p W
alls
N/A
N/A
2.5.
4–15
FIG
UR
E 2.
5.4–
15G
eolo
gic
Map
of F
inal
Gra
de, A
uxili
ary
Bui
ldin
g Pi
pe
Tunn
el P
it W
alls
N/A
N/A
2.5.
4–16
FIG
UR
E 2.
5.4–
16G
eolo
gic
Map
of F
inal
Gra
de, N
orth
Wal
l of E
xcav
atio
nN
/AN
/A
2.5.
4–17
FIG
UR
E 2.
5.4–
17G
eolo
gic
Map
of F
inal
Gra
de, N
orth
east
and
Sou
thea
st
Pum
phou
se W
alls
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 8
of 7
6
2.5.
4–18
FIG
UR
E 2.
5.4–
18G
eolo
gic
Map
of F
inal
Gra
de E
ngin
eere
d Sa
fety
Fe
atur
es B
uild
ing
Wal
lN
/AN
/A
2.5.
4–19
FIG
UR
E 2.
5.4–
19G
eolo
gic
Map
of F
inal
Gra
de D
isch
arge
Tun
nel F
loor
N/A
N/A
2.5.
4–20
FIG
UR
E 2.
5.4–
20G
eolo
gica
l Map
of F
inal
Gra
de D
isch
arge
Tun
nel F
loor
N/A
N/A
2.5.
4–21
FIG
UR
E 2.
5.4–
21G
eolo
gica
l Map
of F
inal
Gra
de N
orth
Wal
l of D
isch
arge
Tu
nnel
N/A
N/A
2.5.
4–22
FIG
UR
E 2.
5.4–
22G
eolo
gica
l Map
of F
inal
Gra
de S
outh
Wal
l of D
isch
arge
Tu
nnel
N/A
N/A
2.5.
4–23
FIG
UR
E 2.
5.4–
23G
eolo
gic
Map
of F
inal
Gra
de D
isch
arge
Tun
nel F
loor
N/A
N/A
2.5.
4–24
FIG
UR
E 2.
5.4–
24G
eolo
gic
Map
of F
inal
Gra
de D
isch
arge
Tun
nel F
loor
N/A
N/A
2.5.
4–25
FIG
UR
E 2.
5.4–
25G
eolo
gic
Map
of F
inal
Gra
de W
est W
all o
f Dis
char
ge
Tunn
elN
/AN
/A
2.5.
4–26
FIG
UR
E 2.
5.4–
26G
eolo
gic
Map
of F
inal
Gra
de E
ast W
all o
f Dis
char
ge
Tunn
elN
/AN
/A
2.5.
4–27
FIG
UR
E 2.
5.4–
27G
eolo
gic
Map
of F
inal
Gra
de D
isch
arge
Wei
r Roc
k Fa
ceN
/AN
/A
2.5.
4–28
FIG
UR
E 2.
5.4–
28C
orre
cted
Blo
w C
ount
Plo
t, Pu
mph
ouse
Are
a Sa
nds,
Ons
hore
Bor
ing
Com
posi
teN
/AN
/A
2.5.
4–29
FIG
UR
E 2.
5.4–
29C
orre
cted
Blo
w C
ount
Plo
t, Pu
mph
ouse
Are
a Sa
nds,
Bor
ings
P1
to P
8 C
ompo
site
N/A
N/A
2.5.
4–30
FIG
UR
E 2.
5.4–
30G
rain
Siz
e D
istri
butio
n C
urve
s (Sh
eet 1
)1
OF
41
OF
4
2.5.
4–30
FIG
UR
E 2.
5.4–
30G
rain
Siz
e D
istri
butio
n C
urve
s (Sh
eet 2
)2
OF
42
OF
4
2.5.
4–30
FIG
UR
E 2.
5.4–
30G
rain
Siz
e D
istri
butio
n C
urve
s (Sh
eet 3
)3
OF
43
OF
4
2.5.
4–30
FIG
UR
E 2.
5.4–
30G
rain
Siz
e D
istri
butio
n C
urve
s (Sh
eet 4
)N
/AN
/A
2.5.
4–31
FIG
UR
E 2.
5.4–
31B
orin
g Lo
catio
n Pl
anN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 9
of 7
6
2.5.
4–32
FIG
UR
E 2.
5.4–
32Pl
ot P
lan
Show
ing
Loca
tions
of t
he B
orin
gs a
nd th
e G
eolo
gic
Sect
ions
N/A
N/A
2.5.
4–33
FIG
UR
E 2.
5.4–
33G
eolo
gic
Prof
ile, S
ectio
ns A
-A',
B-B
'N
/AN
/A
2.5.
4–34
FIG
UR
E 2.
5.4–
34G
eolo
gic
Prof
ile, S
ectio
ns C
-C',
D-D
', E-
E'N
/AN
/A
2.5.
4–35
FIG
UR
E 2.
5.4–
35G
eolo
gic
Prof
ile, S
ectio
ns F
-F"
and
G-G
'N
/AN
/A
2.5.
4–36
FIG
UR
E 2.
5.4–
36To
p of
Bas
al T
ill C
onto
ur M
apN
/AN
/A
2.5.
4–37
FIG
UR
E 2.
5.4–
37G
roun
dwat
er C
onto
ur M
apN
/AN
/A
2.5.
4–38
FIG
UR
E 2.
5.4–
38G
roun
dwat
er O
bser
vatio
ns in
Bor
ehol
esN
/AN
/A
2.5.
4–39
FIG
UR
E 2.
5.4–
39B
edro
ck S
urfa
ce C
onto
ur M
apN
/AN
/A
2.5.
4–40
FIG
UR
E 2.
5.4–
40G
ener
al E
xcav
atio
n Pl
anN
/AN
/A
2.5.
4–41
FIG
UR
E 2.
5.4–
41Sh
oref
ront
and
Dre
dgin
g Pl
anN
/AN
/A
2.5.
4–42
FIG
UR
E 2.
5.4–
42M
odul
us v
s Eff
ectiv
e C
onfin
ing
Pres
sure
, Stru
ctur
al F
illN
/AN
/A
2.5.
4–43
FIG
UR
E 2.
5.4–
43La
tera
l Pre
ssur
e D
istri
butio
nN
/AN
/A
2.5.
4–44
FIG
UR
E 2.
5.4–
44G
rada
tion
Cur
ves f
or C
ateg
ory
I Stru
ctur
al F
illN
/AN
/A
2.5.
4–45
FIG
UR
E 2.
5.4–
45K
2 vs
She
ar S
train
for B
each
San
dsN
/AN
/A
2.5.
4–46
FIG
UR
E 2.
5.4–
46Ea
rthqu
ake
Indu
ced
Shea
r Stre
sses
in B
each
San
dsN
/AN
/A
2.5.
4–47
FIG
UR
E 2.
5.4–
47C
yclic
Stre
ss R
atio
vs C
onfin
ing
Pres
sure
for B
each
Sa
nds
N/A
N/A
2.5.
4–48
FIG
UR
E 2.
5.4–
48C
yclic
Stre
ss R
atio
vs P
enet
ratio
n R
esis
tanc
e of
San
dN
/AN
/A
2.5.
4–49
FIG
UR
E 2.
5.4–
49Fa
ctor
of S
afet
y A
gain
st L
ique
fact
ion
of B
each
San
dsN
/AN
/A
2.5.
4–50
FIG
UR
E 2.
5.4–
50Id
ealiz
ed S
oil P
rofil
e Li
quef
actio
n A
naly
sis o
f Abl
atio
n Ti
ll U
nder
Dis
char
ge T
unne
lN
/AN
/A
2.5.
4–51
FIG
UR
E 2.
5.4–
51G
eolo
gic
Prof
ile, S
ectio
n H
-H''
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
0 of
76
2.5.
4–52
FIG
UR
E 2.
5.4–
52G
eolo
gic
Prof
ile, S
ectio
n I-
I''N
/AN
/A
2.5.
4–53
FIG
UR
E 2.
5.4–
53Lo
catio
n of
Fie
ld D
ensi
ty T
ests
- Se
rvic
e W
ater
Inta
ke
Line
N/A
N/A
2.5.
4–54
FIG
UR
E 2.
5.4–
54Lo
catio
n of
Fie
ld D
ensi
ty T
est -
Em
erge
ncy
Gen
erat
or
Encl
osur
e an
d C
ontro
l Bui
ldin
gN
/AN
/A
2.5.
4–55
FIG
UR
E 2.
5.4–
55G
eolo
gic
Prof
ile, S
ectio
n J-
J'N
/AN
/A
2.5.
4–56
FIG
UR
E 2.
5.4–
56G
eolo
gic
Prof
ile, S
ectio
n K
-K'
N/A
N/A
2.5.
4–57
FIG
UR
E 2.
5.4–
57G
rain
Siz
e D
istri
butio
n C
urve
s - P
umph
ouse
Are
a O
utw
ash
Sand
s (Sh
eet 1
)N
/A1
OF
2
2.5.
4–57
FIG
UR
E 2.
5.4–
57G
rain
Siz
e D
istri
butio
n C
urve
s - P
umph
ouse
Are
a O
utw
ash
Sand
s (Sh
eet 2
)N
/A2
OF
2
2.5.
4–58
FIG
UR
E 2.
5.4–
58Eq
uiva
lent
Num
bers
of U
nifo
rm S
tress
Cyc
les B
ased
on
Stro
nges
t Com
pone
nts o
f Gro
und
Mot
ion
N/A
N/A
2.5.
4–59
FIG
UR
E 2.
5.4–
59Pl
an o
f Set
tlem
ent M
onito
ring
Ben
chm
ark
Loca
tions
N/A
N/A
2.5.
4–60
FIG
UR
E 2.
5.4–
60C
ontro
l Bui
ldin
g Se
ttlem
ent (
Shee
t 1)
N/A
1 O
F 2
2.5.
4–60
FIG
UR
E 2.
5.4–
60C
ontro
l Bui
ldin
g Se
ttlem
ent (
Shee
t 2)
N/A
2 O
F 2
2.5.
4–61
FIG
UR
E 2.
5.4–
61Em
erge
ncy
Gen
erat
or E
nclo
sure
Set
tlem
ent
N/A
N/A
2.5.
4–62
FIG
UR
E 2.
5.4–
62.S
olid
Was
te B
uild
ing
Settl
emen
tN
/AN
/A
2.5.
4–63
FIG
UR
E 2.
5.4–
63Li
quid
Was
te B
uild
ing
Settl
emen
tN
/AN
/A
2.5.
4–64
FIG
UR
E 2.
5.4–
64Fu
el B
uild
ing
Settl
emen
tN
/AN
/A
2.5.
4–65
FIG
UR
E 2.
5.4–
65G
eolo
gic
Prof
ile S
ectio
n L-
L'N
/AN
/A
2.5.
4–66
FIG
UR
E 2.
5.4–
66G
eolo
gic
Prof
ile S
ectio
n M
-M'
N/A
N/A
2.5.
4–67
FIG
UR
E 2.
5.4–
67G
eolo
gic
Prof
ile S
ectio
n N
-N'
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
1 of
76
2.5.
4–68
FIG
UR
E 2.
5.4–
68G
eolo
gic
Prof
ile S
ectio
n O
-O'
N/A
N/A
2.5.
4–69
FIG
UR
E 2.
5.4–
69G
eolo
gic
Prof
ile S
ectio
n P-
P'N
/AN
/A
2.5.
4–70
FIG
UR
E 2.
5.4–
70G
eolo
gic
Prof
ile S
ectio
n Q
-Q'
N/A
N/A
2.5.
4–71
FIG
UR
E 2.
5.4–
71G
eolo
gic
Prof
ile S
ectio
n R
-R'
N/A
N/A
2.5.
4–72
FIG
UR
E 2.
5.4–
72So
il-St
ruct
ure
Inte
ract
ion
Emer
genc
y G
ener
ator
En
clos
ure
N/A
N/A
2.5.
4–73
FIG
UR
E 2.
5.4–
73Sh
ear M
odul
us C
urve
Typ
e 2
Soil
(Stru
ctur
al B
ackf
ill
and
Bas
al T
ill)
N/A
N/A
2.5.
4–74
FIG
UR
E 2.
5.4–
74D
ampi
ng C
urve
Typ
e 2
Soil
(Stru
ctur
al B
ackf
ill a
nd
Bas
al T
ill)
N/A
N/A
2.5.
4–75
FIG
UR
E 2.
5.4–
75Sh
oref
ront
Pro
file
Use
d in
Liq
uefa
ctio
n A
naly
ses
N/A
N/A
2.5.
5–1
FIG
UR
E 2.
5.5–
1Se
ctio
n th
roug
h Sh
oref
ront
N/A
N/A
2.5.
5–2
FIG
UR
E 2.
5.5–
2Ty
pica
l Wed
ge G
eom
etry
N/A
N/A
2.5.
5–3
FIG
UR
E 2.
5.5–
3D
esig
n Lo
ads f
or R
ing
Bea
mN
/AN
/A
2.5.
5–4
FIG
UR
E 2.
5.5–
4Sh
oref
ront
Slo
pe S
tabi
lity
Sect
ion
- Slo
ping
Roc
k Pr
ofile
N/A
N/A
2.5.
5–5
FIG
UR
E 2.
5.5–
5Su
mm
ary
of C
IU T
est R
esul
ts -
Bea
ch A
rea
Out
was
h Sa
nds
N/A
N/A
2.5.
5–6
FIG
UR
E 2.
5.5–
6Po
tent
ial F
ailu
re W
edge
s Wes
t Sid
e of
Con
tain
men
t Ex
cava
tion
N/A
N/A
2.5.
5–7
FIG
UR
E 2.
5.5–
7R
ock
Surf
ace
Nea
r Nor
th E
dge
of M
ain
Stea
m V
alve
B
uild
ing
N/A
N/A
3.2–
1FI
GU
RE
3.2–
1Li
ne D
esig
natio
n, S
afet
y C
lass
Bou
ndar
ies
N/A
N/A
3.3–
1FI
GU
RE
3.3–
1D
ynam
ic L
oad
Fact
or C
urve
for T
orna
do P
ress
ure
Dro
pN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
2 of
76
3.4–
1FI
GU
RE
3.4–
1C
ircul
atin
g an
d Se
rvic
e W
ater
Pum
phou
se (S
heet
1 o
f 4)
N/A
1 O
F 4
3.4–
1FI
GU
RE
3.4–
1C
ircul
atin
g an
d Se
rvic
e W
ater
Pum
phou
se (S
heet
2 o
f 4)
N/A
2 O
F 4
3.4–
1FI
GU
RE
3.4–
1C
ircul
atin
g an
d Se
rvic
e W
ater
Pum
phou
se (S
heet
3 o
f 4)
N/A
3 O
F 4
3.4–
1FI
GU
RE
3.4–
1C
ircul
atin
g an
d Se
rvic
e W
ater
Pum
phou
se (S
heet
4 o
f 4)
N/A
4 O
F 4
3.5–
1FI
GU
RE
3.5–
1Tu
rbin
e Pl
acem
ent a
nd O
rient
atio
n fo
r Thr
ee-U
nit S
iteN
/AN
/A
3.5–
2FI
GU
RE
3.5–
2Tu
rbin
e Pl
acem
ent a
nd O
rient
atio
n Pr
ofile
N/A
N/A
3.6–
1FI
GU
RE
3.6–
1Fl
uid
Syst
ems S
ubje
cted
to B
reak
and
Cra
ck A
naly
sis
N/A
N/A
3.6–
2FI
GU
RE
3.6–
2R
elat
ive
Loca
tions
of S
afet
y R
elat
ed E
quip
men
t, El
evat
ion
3 fe
et 8
inch
esN
/AN
/A
3.6–
3FI
GU
RE
3.6–
3R
elat
ive
Loca
tions
of S
afet
y R
elat
ed E
quip
men
t, El
evat
ion
24 fe
et 6
inch
esN
/AN
/A
3.6–
4FI
GU
RE
3.6–
4R
elat
ive
Loca
tions
of S
afet
y R
elat
ed E
quip
men
t, El
evat
ion
51 fe
et 4
inch
esN
/AN
/A
3.6–
5FI
GU
RE
3.6–
5R
elat
ive
Loca
tions
of S
afet
y R
elat
ed E
quip
men
t, Se
ctio
n 1-
1N
/AN
/A
3.6–
6FI
GU
RE
3.6–
6R
elat
ive
Loca
tions
of S
afet
y R
elat
ed E
quip
men
t, Se
ctio
n 2-
2N
/AN
/A
3.6–
7FI
GU
RE
3.6–
7R
elat
ive
Loca
tions
of S
afet
y R
elat
ed E
quip
men
t, Se
ctio
ns 3
-3, 4
-4N
/AN
/A
3.6–
8FI
GU
RE
3.6–
8M
ain
Stea
m S
yste
mN
/AN
/A
3.6–
8FI
GU
RE
3.6–
8M
ain
Stea
m S
yste
mN
/AN
/A
3.6–
9FI
GU
RE
3.6–
9M
ain
Stea
m S
yste
m (C
ontin
ued)
N/A
N/A
3.6–
10FI
GU
RE
3.6–
10Fe
edw
ater
Sys
tem
Pos
tula
ted
Pipe
Rup
ture
Loc
atio
nsN
/AN
/A
3.6–
11FI
GU
RE
3.6–
11Fe
edw
ater
Sys
tem
Pip
e R
uptu
re R
estra
ints
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
3 of
76
3.6–
11N
OTE
S TO
FIG
UR
E 3.
6–11
N/A
N/A
3.6–
12FI
GU
RE
3.6–
12R
eact
or C
oola
nt S
yste
m -
Prim
ary
Coo
lant
Pip
ing
N/A
N/A
3.6–
12N
OTE
S TO
FIG
UR
E 3.
6–12
N/A
N/A
3.6–
13FI
GU
RE
3.6–
13R
eact
or C
oola
nt S
yste
m -
Low
Pre
ssur
e Sa
fety
Inje
ctio
n an
d R
esid
ual H
eat R
emov
al P
ipin
gN
/AN
/A
3.6–
13N
OTE
S TO
FIG
UR
E 3.
6–13
N/A
N/A
3.6–
14FI
GU
RE
3.6–
14R
eact
or C
oola
nt S
yste
m -
Pres
suriz
er C
ubic
le P
ipin
gN
/AN
/A
3.6–
14N
OTE
S TO
FIG
UR
E 3.
6–14
N/A
N/A
3.6–
15FI
GU
RE
3.6–
15C
hem
ical
and
Vol
ume
Con
trol S
yste
m -
Cha
rgin
g Li
ne
Pipi
ngN
/AN
/A
3.6–
15N
OTE
S TO
FIG
UR
E 3.
6–15
N/A
N/A
3.6–
16FI
GU
RE
3.6–
16C
hem
ical
and
Vol
ume
Con
trol S
yste
m -
Letd
own
Line
Pi
ping
N/A
N/A
3.6–
16N
OTE
S TO
FIG
UR
E 3.
6–16
N/A
N/A
3.6–
17FI
GU
RE
3.6–
17C
hem
ical
and
Vol
ume
Con
trol S
yste
m -
Seal
Wat
er
Inje
ctio
n an
d Pi
ping
N/A
N/A
3.6–
18FI
GU
RE
3.6–
18St
eam
Gen
erat
or B
low
dow
n Sy
stem
N/A
N/A
3.6–
18N
OTE
S TO
FIG
UR
E 3.
6–18
N/A
N/A
3.6–
19FI
GU
RE
3.6–
19Pi
pe R
uptu
re A
naly
sis F
low
Cha
rtN
/AN
/A
3.6–
20FI
GU
RE
3.6–
20V
aria
tion
of S
tead
y St
ate
Stea
m B
low
dow
n vs
Fric
tion
N/A
N/A
3.6–
21FI
GU
RE
3.6–
21Pi
pe R
estra
int I
nter
med
iate
Stru
ctur
e Sy
stem
, M
athe
mat
ical
Mod
elN
/AN
/A
3.6–
22FI
GU
RE
3.6–
22La
min
ated
Stra
p R
estra
int f
or S
mal
l Lin
esN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
4 of
76
3.6–
23FI
GU
RE
3.6–
23Fe
edw
ater
Sys
tem
Sho
rt Lo
op S
trap
near
the
Stea
m
Gen
erat
or, N
ET S
hear
For
ce a
t Nod
e 10
N/A
N/A
3.6–
24FI
GU
RE
3.6–
24Fe
edw
ater
Sys
tem
Sho
rt Lo
op S
trap
near
the
Stea
m
Gen
erat
or, N
ET S
hear
For
ce a
t Nod
e 14
N/A
N/A
3.6–
25FI
GU
RE
3.6–
25Fe
edw
ater
Sys
tem
Sho
rt Lo
op S
trap
near
the
Stea
m
Gen
erat
or, N
ET M
omen
t For
ce a
t Nod
e 14
N/A
N/A
3.6–
26FI
GU
RE
3.6–
26Fo
rce
Act
ing
on th
e St
rap
Nod
e 8
N/A
N/A
3.6–
27FI
GU
RE
3.6–
27Fe
edw
ater
Sys
tem
Sho
rt Lo
op S
trap
near
the
Stea
m
Gen
erat
or, E
nerg
yN
/AN
/A
3.6–
28FI
GU
RE
3.6–
28En
ergy
Bal
ance
Ana
lysi
s Mod
elN
/AN
/A
3.6–
29FI
GU
RE
3.6–
29Pi
pe C
rush
Bum
per
N/A
N/A
3.6–
30FI
GU
RE
3.6–
30Pi
pe C
rush
Bum
per
N/A
N/A
3.6–
31FI
GU
RE
3.6–
31O
mni
Dire
ctio
nal P
ipe
Rup
ture
Res
train
tN
/AN
/A
3.6–
32FI
GU
RE
3.6–
32A
uxili
ary
Feed
wat
er S
yste
mN
/AN
/A
3.6–
33FI
GU
RE
3.6–
33R
eact
or C
oola
nt S
yste
m S
mal
l Bor
e Pi
ping
in S
team
G
ener
ator
Cub
icle
sN
/AN
/A
3.7B
–1FI
GU
RE
3.7B
–1H
oriz
onta
l Des
ign
Res
pons
e Sp
ectra
0.1
7g S
SEN
/AN
/A
3.7B
–2FI
GU
RE
3.7B
–2H
oriz
onta
l Des
ign
Res
pons
e Sp
ectra
0.0
9g 1
/2 O
BE
N/A
N/A
3.7B
–3FI
GU
RE
3.7B
–3H
oriz
onta
l Tim
e H
isto
ry R
espo
nse
Spec
tra 0
.5 P
erce
nt
Dam
ping
Val
ueN
/AN
/A
3.7B
–4FI
GU
RE
3.7B
–4H
oriz
onta
l Tim
e H
isto
ry R
espo
nse
Spec
tra 1
.0 P
erce
nt
Dam
ping
Val
ueN
/AN
/A
3.7B
–5FI
GU
RE
3.7B
–5H
oriz
onta
l Tim
e H
isto
ry R
espo
nse
Spec
tra 2
.0 P
erce
nt
Dam
ping
Val
ueN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
5 of
76
3.7B
–6FI
GU
RE
3.7B
–6H
oriz
onta
l Tim
e H
isto
ry R
espo
nse
Spec
tra 5
.0 P
erce
nt
Dam
ping
Val
ueN
/AN
/A
3.7B
–7FI
GU
RE
3.7B
–7H
oriz
onta
l Tim
e H
isto
ry R
espo
nse
Spec
tra 7
.0 P
erce
nt
Dam
ping
Val
ueN
/AN
/A
3.7B
–8FI
GU
RE
3.7B
–8H
oriz
onta
l Tim
e H
isto
ry R
espo
nse
Spec
tra 1
0 Pe
rcen
t D
ampi
ng V
alue
N/A
N/A
3.7B
–9FI
GU
RE
3.7B
–9D
ynam
ic M
odel
of t
he C
onta
inm
ent S
truct
ure
N/A
N/A
3.7B
–10
FIG
UR
E 3.
7B–1
0D
ynam
ic M
odel
of t
he M
ain
Stea
m V
alve
Bui
ldin
gN
/AN
/A
3.7B
–11
FIG
UR
E 3.
7B–1
1D
ynam
ic M
odel
of t
he E
mer
genc
y G
ener
ator
Enc
losu
re
N-S
Vie
wN
/AN
/A
3.7B
–12
FIG
UR
E 3.
7B–1
2D
ynam
ic M
odel
of t
he E
mer
genc
y G
ener
ator
Enc
losu
re
E-W
Vie
wN
/AN
/A
3.7B
–13
FIG
UR
E 3.
7B–1
3R
eact
or C
onta
inm
ent M
at E
leva
tion
-37
feet
3 in
ches
A
mpl
ified
Res
pons
e Sp
ectra
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–14
FIG
UR
E 3.
7B–1
4R
eact
or C
onta
inm
ent M
at E
leva
tion
-37
feet
3 in
ches
A
mpl
ified
Res
pons
e Sp
ectra
E-W
Exc
itatio
n SS
EN
/AN
/A
3.7B
–15
FIG
UR
E 3.
7B–1
5R
eact
or C
onta
inm
ent M
at E
leva
tion
-37
feet
3 in
ches
A
mpl
ified
Res
pons
e Sp
ectra
Ver
tical
Exc
itatio
n SS
EN
/AN
/A
3.7B
–16
FIG
UR
E 3.
7B–1
6R
eact
or C
onta
inm
ent S
team
Gen
erat
ors S
uppo
rt Sl
ab
Elev
atio
n 3
feet
0 in
ches
Am
plifi
ed R
espo
nse
Spec
tra
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–17
FIG
UR
E 3.
7B–1
7R
eact
or C
onta
inm
ent S
team
Gen
erat
ors S
uppo
rt Sl
ab
Elev
atio
n 3
feet
0 in
ches
Am
plifi
ed R
espo
nse
Spec
tra E
-W
Exc
itatio
n SS
EN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
6 of
76
3.7B
–18
FIG
UR
E 3.
7B–1
8R
eact
or C
onta
inm
ent S
team
Gen
erat
ors S
uppo
rt Sl
ab
Elev
atio
n 3
feet
0 in
ches
Am
plifi
ed R
espo
nse
Spec
tra
Ver
tical
Exc
itatio
n SS
EN
/AN
/A
3.7B
–19
FIG
UR
E 3.
7B–1
9R
eact
or C
onta
inm
ent T
op o
f Prim
ary
Shie
ld W
all
Elev
atio
n 24
feet
6 in
ches
Am
plifi
ed R
espo
nse
Spec
tra
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–20
FIG
UR
E 3.
7B–2
0R
eact
or C
onta
inm
ent T
op o
f Prim
ary
Shie
ld W
all E
l 24
feet
6 in
ches
Am
plifi
ed R
espo
nse
Spec
tra E
-W
Exci
tatio
n SS
EN
/AN
/A
3.7B
–21
FIG
UR
E 3.
7B–2
11
Rea
ctor
Con
tain
men
t Top
of P
rimar
y Sh
ield
Wal
l El
evat
ion
24 fe
et 6
inch
es A
mpl
ified
Res
pons
e Sp
ectra
V
ertic
al E
xcita
tion
SSE
N/A
N/A
3.7B
–22
FIG
UR
E 3.
7B–2
2R
eact
or C
onta
inm
ent O
pera
tion
Floo
r Ele
vatio
n 50
feet
10
inch
es A
mpl
ified
Res
pons
e Sp
ectra
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–23
FIG
UR
E 3.
7B–2
3R
eact
or C
onta
inm
ent O
pera
ting
Floo
r Ele
vatio
n 50
feet
10
inch
es A
mpl
ified
Res
pons
e Sp
ectra
E-W
Exc
itatio
n SS
EN
/AN
/A
3.7B
–24
FIG
UR
E 3.
7B–2
4R
eact
or C
onta
inm
ent O
pera
ting
Floo
r Ele
vatio
n 50
feet
10
inch
es A
mpl
ified
Res
pons
e Sp
ectra
Ver
tical
Ex
cita
tion
N/A
N/A
3.7B
–25
FIG
UR
E 3.
7B–2
5R
eact
or C
onta
inm
ent T
op o
f Cra
ne W
all E
leva
tion
109
feet
1 in
ch A
mpl
ified
Res
pons
e Sp
ectra
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–26
FIG
UR
E 3.
7B–2
6R
eact
or C
onta
inm
ent T
op o
f Cra
ne W
all E
leva
tion
109
feet
1 in
ch A
mpl
ified
Res
pons
e Sp
ectra
E-W
Exc
itatio
n SS
EN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
7 of
76
3.7B
–27
FIG
UR
E 3.
7B–2
7R
eact
or C
onta
inm
ent T
op o
f Cra
ne W
all E
leva
tion
109
feet
1 in
ch A
mpl
ified
Res
pons
e Sp
ectra
Ver
tical
Ex
cita
tion
SSE
N/A
N/A
3.7B
–28
FIG
UR
E 3.
7B–2
8R
eact
or C
onta
inm
ent S
prin
glin
e El
evat
ion
104
feet
0
inch
es A
mpl
ified
Res
pons
e Sp
ectra
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–29
FIG
UR
E 3.
7B–2
9R
eact
or C
onta
inm
ent S
prin
glin
e El
evat
ion
104
feet
0
inch
es A
mpl
ified
Res
pons
e Sp
ectra
E-W
Exc
itatio
n SS
EN
/AN
/A
3.7B
–30
FIG
UR
E 3.
7B–3
0R
eact
or C
onta
inm
ent S
prin
glin
e El
evat
ion
104
feet
0
inch
es A
mpl
ified
Res
pons
e Sp
ectra
Ver
tical
Exc
itatio
nN
/AN
/A
3.7B
–31
FIG
UR
E 3.
7B–3
1R
eact
or C
onta
inm
ent D
ome
Ape
x El
evat
ion
163
feet
4
inch
es A
mpl
ified
Res
pons
e Sp
ectra
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–32
FIG
UR
E 3.
7B–3
2R
eact
or C
onta
inm
ent D
ome
Ape
x El
evat
ion
163
feet
4
inch
es A
mpl
ified
Res
pons
e Sp
ectra
E-W
Exc
itatio
n SS
EN
/AN
/A
3.7B
–33
FIG
UR
E 3.
7B–3
3R
eact
or C
onta
inm
ent D
ome
Ape
x El
evat
ion
163
feet
4
inch
es A
mpl
ified
Res
pons
e Sp
ectra
Ver
tical
Exc
itatio
n SS
EN
/AN
/A
3.7B
–34
FIG
UR
E 3.
7B–3
4M
ain
Stea
m V
alve
Bui
ldin
g M
at E
leva
tion
9 fe
et -0
in
ches
Am
plifi
ed R
espo
nse
Spec
tra N
-S E
xcita
tion
SSE
N/A
N/A
3.7B
–35
FIG
UR
E 3.
7B–3
5M
ain
Stea
m V
alve
Bui
ldin
g M
at E
leva
tion
9 fe
et 0
in
ches
Am
plifi
ed R
espo
nse
Spec
tra E
-W E
xcita
tion
SSE
N/A
N/A
3.7B
–36
FIG
UR
E 3.
7B–3
6M
ain
Stea
m V
alve
Bui
ldin
g M
at E
leva
tion
9 fe
et 0
in
ches
Am
plifi
ed R
espo
nse
Spec
tra V
ertic
al E
xcita
tion
SSE
N/A
N/A
3.7B
–37
FIG
UR
E 3.
7B–3
7M
ain
Stea
m V
alve
Bui
ldin
g Fl
oor S
lab
Elev
atio
n 41
feet
0
inch
es A
mpl
ified
Res
pons
e Sp
ectra
N-S
Exc
itatio
n SS
EN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
8 of
76
3.7B
–38
FIG
UR
E 3.
7B–3
8M
ain
Stem
Val
ve B
uild
ing
Floo
r Sla
b El
evat
ion
41 fe
et
0 in
ches
Am
plifi
ed R
espo
nse
Spec
tra E
-W E
xcita
tion
SSE
N/A
N/A
3.7B
–39
FIG
UR
E 3.
7B–3
9M
ain
Stea
m V
alve
Bui
ldin
g Fl
oor S
lab
Elev
atio
n 41
feet
0
inch
es A
mpl
ified
Res
pons
e Spe
ctra
Ver
tical
Exc
itatio
n SS
EN
/AN
/A
3.7B
–40
FIG
UR
E 3.
7B–4
0M
ain
Stea
m V
alve
Bui
ldin
g R
oof S
lab
Elev
atio
n 85
feet
4
inch
es A
mpl
ified
Res
pons
e Sp
ectra
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–41
FIG
UR
E 3.
7B–4
1M
ain
Stea
m V
alve
Bui
ldin
g R
oof S
lab
Elev
atio
n 85
feet
4
inch
es A
mpl
ified
Res
pons
e Sp
ectra
E-W
Exc
itatio
n SS
EN
/AN
/A
3.7B
–42
FIG
UR
E 3.
7B–4
2M
ain
Stea
m V
alve
Bui
ldin
g R
oof S
lab
Elev
atio
n 85
feet
4
inch
es A
mpl
ified
Res
pons
e Spe
ctra
Ver
tical
Exc
itatio
n SS
EN
/AN
/A
3.7B
–43
FIG
UR
E 3.
7B–4
3Em
erge
ncy
Gen
erat
or E
nclo
sure
Tra
nsfe
r Fun
ctio
n of
B
ase
of S
truct
ure
Elev
atio
n 9
ft-0
in fo
r Hor
izon
tal
Acc
eler
atio
n N
-S E
xcita
tion
SSE
N/A
N/A
3.7B
–44
FIG
UR
E 3.
7B–4
4Em
erge
ncy
Gen
erat
or E
nclo
sure
Tra
nsfe
r Fun
ctio
n at
Fl
oor S
lab
Elev
atio
n 51
feet
0 in
ches
for H
oriz
onta
l A
ccel
erat
ion
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–45
FIG
UR
E 3.
7B–4
5Em
erge
ncy
Gen
erat
or E
nclo
sure
Tra
nsfe
r Fun
ctio
n at
R
oof S
lab
Elev
atio
n 66
feet
0 in
ches
for H
oriz
onta
l A
ccel
erat
ion
N-S
Exc
itatio
n SS
EN
/AN
/A
3.7B
–46
FIG
UR
E 3.
7B–4
6Em
erge
ncy
Gen
erat
or E
nclo
sure
Tra
nsfe
r Fun
ctio
n at
B
ase
of S
truct
ure
Elev
atio
n 9
feet
0 in
ches
for V
ertic
al
Acc
eler
atio
n V
ertic
al E
xcita
tion
SSE
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 1
9 of
76
3.7B
–47
FIG
UR
E 3.
7B–4
7Em
erge
ncy
Gen
erat
or E
nclo
sure
Tra
nsfe
r Fun
ctio
n at
Fl
oor S
lab
Elev
atio
n 51
feet
0 in
ches
for V
ertic
al
Acc
eler
atio
n V
ertic
al E
xcita
tion
SSE
N/A
N/A
3.7B
–48
FIG
UR
E 3.
7B–4
8Em
erge
ncy
Gen
erat
or E
nclo
sure
Tra
nsfe
r Fun
ctio
n at
R
oof S
lab
Elev
atio
n 66
feet
0 in
ches
for V
ertic
al
Acc
eler
atio
n V
ertic
al E
xcita
tion
SSE
N/A
N/A
3.7B
–49
FIG
UR
E 3.
7B–4
9Em
erge
ncy
Gen
erat
or E
nclo
sure
Tra
nsfe
r Fun
ctio
n at
B
ase
of S
truct
ure
Elev
atio
n 9
feet
0 in
ches
for
Hor
izon
tal A
ccel
erat
ion
E-W
Exc
itatio
n SS
EN
/AN
/A
3.7B
–50
FIG
UR
E 3.
7B–5
0Em
erge
ncy
Gen
erat
or E
nclo
sure
Tra
nsfe
r Fun
ctio
n at
Fl
oor S
lab
Elev
atio
n 51
feet
0 in
ches
for H
oriz
onta
l A
ccel
erat
ion
E-W
Exc
itatio
n SS
EN
/AN
/A
3.7B
–51
FIG
UR
E 3.
7B–5
1Em
erge
ncy
Gen
erat
or E
nclo
sure
Tra
nsfe
r Fun
ctio
n at
R
oof S
lab
Elev
atio
n 66
feet
0 in
ches
for H
oriz
onta
l A
ccel
erat
ion
E-W
Exc
itatio
n SS
EN
/AN
/A
3.7B
–52
FIG
UR
E 3.
7B–5
2Em
erge
ncy
Gen
erat
or E
nclo
sure
Flo
or S
lab
Elev
atio
n 24
feet
6 in
ches
Am
plifi
ed R
espo
nse
Spec
tra N
-S
Exci
tatio
n SS
EN
/AN
/A
3.7B
–53
FIG
UR
E 3.
7B–5
3Em
erge
ncy
Gen
erat
or E
nclo
sure
Flo
or S
lab
Elev
atio
n 24
feet
6 in
ches
Am
plifi
ed R
espo
nse
Spec
tra E
-W
Exci
tatio
n SS
EN
/AN
/A
3.7B
–54
FIG
UR
E 3.
7B–5
4Em
erge
ncy
Gen
erat
or E
nclo
sure
Flo
or S
lab
Elev
atio
n 24
feet
6 in
ches
Am
plifi
ed R
espo
nse
Spec
tra V
ertic
al
Exci
tatio
n SS
EN
/AN
/A
3.7B
–55
FIG
UR
E 3.
7B–5
5Em
erge
ncy
Gen
erat
or E
nclo
sure
Flo
or S
lab
Elev
atio
n 51
feet
0 in
ches
Am
plifi
ed R
espo
nse
Spec
tra N
-S
Exci
tatio
n SS
EN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 2
0 of
76
3.7B
–56
FIG
UR
E 3.
7B–5
6Em
erge
ncy
Gen
erat
or E
nclo
sure
Flo
or S
lab
Elev
atio
n 51
ft-0
in A
mpl
ified
Res
pons
e Sp
ectra
E-W
Exc
itatio
n SS
EN
/AN
/A
3.7B
–57
FIG
UR
E 3.
7B–5
7Em
erge
ncy
Gen
erat
or E
nclo
sure
Flo
or S
lab
Elev
atio
n 51
feet
0 in
ches
Am
plifi
ed R
espo
nse
Spec
tra V
ertic
al
Exci
tatio
n SS
EN
/AN
/A
3.7B
–58
FIG
UR
E 3.
7B–5
8Em
erge
ncy
Gen
erat
or E
nclo
sure
Roo
f Sla
b El
evat
ion
66
feet
0 in
ches
Am
plifi
ed R
espo
nse
Spec
tra N
-S
Exci
tatio
n SS
EN
/AN
/A
3.7B
–59
FIG
UR
E 3.
7B–5
9Em
erge
ncy
Gen
erat
or E
nclo
sure
Roo
f Sla
b El
evat
ion
66
feet
0 in
ches
Am
plifi
ed R
espo
nse
Spec
tra E
-W
Exci
tatio
n SS
EN
/AN
/A
3.7B
–60
FIG
UR
E 3.
7B–6
0Em
erge
ncy
Gen
erat
or E
nclo
sure
Roo
f Sla
b El
evat
ion
66
feet
0 in
ches
Am
plifi
ed R
espo
nse
Spec
tra V
ertic
al
Exci
tatio
n SS
EN
/AN
/A
3.7B
–61
FIG
UR
E 3.
7B–6
1Em
erge
ncy
Gen
erat
or E
nclo
sure
Die
sel G
ener
ator
Mat
El
evat
ion
24 fe
et 0
inch
es A
mpl
ified
Res
pons
e Sp
ectra
N
-S E
xcita
tion
SSE
N/A
N/A
3.7B
–62
FIG
UR
E 3.
7B–6
2Em
erge
ncy
Gen
erat
or E
nclo
sure
Die
sel G
ener
ator
Mat
El
evat
ion
24 fe
et 6
inch
es A
mpl
ified
Res
pons
e Sp
ectra
V
ertic
al E
xcita
tion
SSE
N/A
N/A
3.7B
–63
FIG
UR
E 3.
7B–6
3Em
erge
ncy
Gen
erat
or E
nclo
sure
Hor
izon
tal
Acc
eler
atio
n Ti
me
His
tory
at B
edro
ck N
-S E
xcita
tion
SSE
N/A
N/A
3.7B
–64
FIG
UR
E 3.
7B–6
4Em
erge
ncy
Gen
erat
or E
nclo
sure
Hor
izon
tal
Acc
eler
atio
n Ti
me
His
tory
at B
ase
of S
truct
ure
N-S
Ex
cita
tion
SSE
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
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FSA
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3.7B
–65
FIG
UR
E 3.
7B–6
5Ty
pica
l Mat
hem
atic
al M
odel
of a
Pip
ing
Syst
emN
/AN
/A
3.7B
–66
FIG
UR
E 3.
7B–6
6R
epre
sent
atio
n of
Fam
ily o
f Pea
k R
espo
nses
Cur
ves
with
in B
road
ened
Res
onan
t Pea
kN
/AN
/A
3.7B
–67
FIG
UR
E 3.
7B–6
7H
ypot
hetic
al v
s Act
ual R
espo
nse
of M
ultip
le M
odes
w
ithin
Bro
aden
ed R
espo
nse
Peak
N/A
N/A
3.7B
–68
FIG
UR
E 3.
7B–6
8Ju
stifi
catio
n of
Sta
tic L
oad
Fact
orN
/AN
/A
3.7B
–69
FIG
UR
E 3.
7B–6
9Ty
pica
l Am
plifi
ed R
espo
nse
Spec
traN
/AN
/A
3.7B
–70
FIG
UR
E 3.
7B–7
0M
odel
Bea
ms
N/A
N/A
3.7B
–71
FIG
UR
E 3.
7B–7
1D
ampi
ng V
alue
for S
eism
ic A
naly
sis o
f Pip
ing
N/A
N/A
3.7N
–1FI
GU
RE
3.7N
–1M
ulti-
Deg
ree
of F
reed
om S
yste
mN
/AN
/A
3.8–
1FI
GU
RE
3.8–
1C
onta
inm
ent S
truct
ure
Foun
datio
n D
etai
lN
/AN
/A
3.8–
2FI
GU
RE
3.8–
2Ty
pica
l Det
ail o
f Dom
e C
ylin
der J
unct
ion
N/A
N/A
3.8–
3FI
GU
RE
3.8–
3K
nuck
le P
late
N/A
N/A
3.8–
4FI
GU
RE
3.8–
4M
at R
einf
orce
men
t with
Rad
ial S
hear
Bar
Ass
embl
yN
/AN
/A
3.8–
5FI
GU
RE
3.8–
5R
einf
orce
men
t Aro
und
Mai
n St
eam
Pen
etra
tions
N/A
N/A
3.8–
6FI
GU
RE
3.8–
6R
einf
orci
ng D
etai
ls S
ectio
ns th
roug
h R
ing
Bea
m o
f Pe
rson
nel A
cces
s Loc
kN
/AN
/A
3.8–
7FI
GU
RE
3.8–
7R
einf
orci
ng D
etai
ls P
erso
nnel
Acc
ess L
ock
Ope
ning
N/A
N/A
3.8–
8FI
GU
RE
3.8–
8Ty
pica
l Rei
nfor
cing
Det
ails
Sec
tions
thro
ugh
Rin
g B
eam
of E
quip
men
t Acc
ess H
atch
N/A
N/A
3.8–
9FI
GU
RE
3.8–
9R
einf
orci
ng D
etai
ls E
quip
men
t Acc
ess H
atch
Ope
ning
N/A
N/A
3.8–
10FI
GU
RE
3.8–
10B
ase
Plat
e D
etai
ls C
onta
inm
ent E
nclo
sure
Stru
ctur
eN
/AN
/A
3.8–
11FI
GU
RE
3.8–
11R
ing
at A
pex
of C
onta
inm
ent S
truct
ure
Dom
eN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
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g N
umbe
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Rev
isio
n 33
—06
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FSA
RPa
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76
3.8–
12FI
GU
RE
3.8–
12El
evat
ion
Dom
e M
aint
enan
ce T
russ
N/A
N/A
3.8–
13FI
GU
RE
3.8–
13Li
ner K
nuck
le P
late
N/A
N/A
3.8–
14FI
GU
RE
3.8–
14B
asic
Lin
er D
imen
sion
sN
/AN
/A
3.8–
15FI
GU
RE
3.8–
15Ty
pica
l Pip
ing
Pene
tratio
nsN
/AN
/A
3.8–
16FI
GU
RE
3.8–
16Ty
pica
l Sle
eved
Pip
ing
Pene
tratio
nN
/AN
/A
3.8–
17FI
GU
RE
3.8–
17M
ultip
le P
ipe
Pene
tratio
n A
ssem
bly
N/A
N/A
3.8–
18FI
GU
RE
3.8–
18U
nsle
eved
Pip
ing
Pene
tratio
nN
/AN
/A
3.8–
19FI
GU
RE
3.8–
19El
ectri
cal P
enet
ratio
nN
/AN
/A
3.8–
20FI
GU
RE
3.8–
20Fu
el T
rans
fer T
ube
N/A
N/A
3.8–
21FI
GU
RE
3.8–
21Pe
rson
nel H
atch
N/A
N/A
3.8–
22FI
GU
RE
3.8–
22Eq
uipm
ent H
atch
N/A
N/A
3.8–
23FI
GU
RE
3.8–
23C
onta
inm
ent S
truct
ure
Foun
datio
n D
etai
l with
Rin
g G
irder
(She
et 1
of 2
)N
/A1
OF
2
3.8–
23FI
GU
RE
3.8–
23C
onta
inm
ent S
truct
ure
Foun
datio
n D
etai
l with
Rin
g G
irder
(She
et 2
of 2
)N
/A2
OF
2
3.8–
24FI
GU
RE
3.8–
24D
etai
l of R
ing
Gird
er a
t ESF
Bui
ldin
g (S
heet
1 o
f 3)
N/A
1 O
F 3
3.8–
24FI
GU
RE
3.8–
24D
etai
l of R
ing
Gird
er a
t ESF
Bui
ldin
g (S
heet
2 o
f 3)
N/A
2 O
F 3
3.8–
24FI
GU
RE
3.8–
24D
etai
l of R
ing
Gird
er a
t ESF
Bui
ldin
g (S
heet
3 o
f 3)
N/A
3 O
F 3
3.8–
25FI
GU
RE
3.8–
25C
onta
inm
ent S
truct
ure
Mat
Mom
ent a
nd S
hear
D
iagr
ams
N/A
N/A
3.8–
26FI
GU
RE
3.8–
26C
onta
inm
ent S
truct
ure
Mat
Mom
ent a
nd S
hear
D
iagr
ams
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 2
3 of
76
3.8–
27FI
GU
RE
3.8–
27C
onta
inm
ent S
truct
ure
Mat
Mom
ent a
nd S
hear
D
iagr
ams
N/A
N/A
3.8–
28FI
GU
RE
3.8–
28C
onta
inm
ent S
truct
ure
Mat
Mom
ent a
nd S
hear
D
iagr
ams
N/A
N/A
3.8–
29FI
GU
RE
3.8–
29C
onta
inm
ent S
truct
ure
Mat
Mom
ent a
nd S
hear
D
iagr
ams
N/A
N/A
3.8–
30FI
GU
RE
3.8–
30C
onta
inm
ent S
truct
ure
Mat
Mom
ent a
nd S
hear
D
iagr
ams
N/A
N/A
3.8–
31FI
GU
RE
3.8–
31C
onta
inm
ent S
truct
ure
Mat
Mom
ent a
nd S
hear
D
iagr
ams
N/A
N/A
3.8–
32FI
GU
RE
3.8–
32Lo
ad P
lot N
omen
clat
ure
N/A
N/A
3.8–
33FI
GU
RE
3.8–
33C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
34FI
GU
RE
3.8–
34C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
35FI
GU
RE
3.8–
35C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
36FI
GU
RE
3.8–
36C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
37FI
GU
RE
3.8–
37C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
38FI
GU
RE
3.8–
38C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
39FI
GU
RE
3.8–
39C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
40FI
GU
RE
3.8–
40C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
41FI
GU
RE
3.8–
41C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
42FI
GU
RE
3.8–
42C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
43FI
GU
RE
3.8–
43C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
44FI
GU
RE
3.8–
44C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 2
4 of
76
3.8–
45FI
GU
RE
3.8–
45C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
46FI
GU
RE
3.8–
46C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
47FI
GU
RE
3.8–
47C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
48FI
GU
RE
3.8–
48C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
49FI
GU
RE
3.8–
49C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
50FI
GU
RE
3.8–
50C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
51FI
GU
RE
3.8–
51C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
53FI
GU
RE
3.8–
53C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
54FI
GU
RE
3.8–
54C
onta
inm
ent S
truct
ure
Wal
l and
Dom
e Fo
rce
Res
ulta
nts
N/A
N/A
3.8–
55FI
GU
RE
3.8–
55C
onta
inm
ent S
truct
ure
Wal
l and
Dom
eN
/AN
/A
3.8–
56FI
GU
RE
3.8–
56D
etai
ls o
f Wal
l Dia
gona
ls a
t Con
tain
men
t Mat
N/A
N/A
3.8–
57FI
GU
RE
3.8–
57D
etai
ls o
f Wat
erpr
oof M
embr
ane (
Shee
t 1 o
f 2)(
Part
1 of
2)
N/A
(SH
T 1
OF
2)
(Par
t 1 O
F 2)
3.8–
57FI
GU
RE
3.8–
57D
etai
ls o
f Wat
erpr
oof M
embr
ane (
Shee
t 1 o
f 2)(
Part
2 of
2)
N/A
(SH
T 1
OF
2)
(Par
t 2 O
F 2)
3.8–
57FI
GU
RE
3.8–
57D
etai
ls o
f Wat
erpr
oof M
embr
ane
(She
et 2
of 2
)N
/A2
OF
2
3.8–
58FI
GU
RE
3.8–
58D
ispl
acem
ent P
rofil
e fo
r Con
tain
men
t She
ll U
nder
Pr
essu
re T
est (
Pred
icte
d) (S
heet
1 o
f 2)
N/A
1 O
F 2
3.8–
58FI
GU
RE
3.8–
58D
ispl
acem
ent P
rofil
e fo
r Con
tain
men
t She
ll U
nder
Pr
essu
re T
est (
Pred
icte
d) (S
heet
2 o
f 2)
N/A
2 O
F 2
3.8–
59FI
GU
RE
3.8–
59C
onta
inm
ent S
truct
ure,
Pla
n V
iew
sN
/AN
/A
3.8–
60FI
GU
RE
3.8–
60C
onta
inm
ent S
truct
ure,
Ele
vatio
n V
iew
sN
/AN
/A
3.8–
61FI
GU
RE
3.8–
61C
onta
inm
ent E
nclo
sure
Bui
ldin
gN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 2
5 of
76
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
1 o
f 10)
N/A
1 O
F 10
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
2 o
f 10)
N/A
2 O
F 10
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
3 o
f 10)
N/A
3 O
F 10
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
4 o
f 10)
N/A
4 O
F 10
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
5 o
f 10)
N/A
5 O
F 10
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
6 o
f 10)
N/A
6 O
F 10
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
7 o
f 10)
N/A
7 O
F 10
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
8 o
f 10)
N/A
8 O
F 10
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
9 o
f 10)
N/A
9 O
F 10
3.8–
62FI
GU
RE
3.8–
62A
uxili
ary
Bui
ldin
g (S
heet
10
of 1
0)N
/A10
OF
10
3.8–
63FI
GU
RE
3.8–
63Fu
el B
uild
ing
(She
et 1
of 6
)N
/A1
OF
6
3.8–
63FI
GU
RE
3.8–
63Fu
el B
uild
ing
(She
et 2
of 6
)N
/A2
OF
6
3.8–
63FI
GU
RE
3.8–
63Fu
el B
uild
ing
(She
et 3
of 6
)N
/A3
OF
6
3.8–
63FI
GU
RE
3.8–
63Fu
el B
uild
ing
(She
et 4
of 6
)N
/A4
OF
6
3.8–
63FI
GU
RE
3.8–
63Fu
el B
uild
ing
(She
et 5
of 6
)N
/A5
OF
6
3.8–
63FI
GU
RE
3.8–
63Fu
el B
uild
ing
(She
et 6
of 6
)N
/A6
OF
6
3.8–
64FI
GU
RE
3.8–
64C
ontro
l Roo
m A
rea
(She
et 1
of 4
)N
/A1
OF
4
3.8–
64FI
GU
RE
3.8–
64C
ontro
l Roo
m A
rea
(She
et 2
of 4
)N
/A2
OF
4
3.8–
64FI
GU
RE
3.8–
64C
ontro
l Roo
m A
rea
(She
et 3
of 4
)N
/A3
OF
4
3.8–
64FI
GU
RE
3.8–
64C
ontro
l Roo
m A
rea
(She
et 4
of 4
)N
/A4
OF
4
3.8–
65FI
GU
RE
3.8–
65C
able
Tun
nel
N/A
N/A
3.8–
66FI
GU
RE
3.8–
66Em
erge
ncy
Gen
erat
or E
nclo
sure
(She
et 1
of 5
)N
/A1
OF
5
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 2
6 of
76
3.8–
66N
OTE
S TO
FIG
UR
E 3.
8–66
Dat
a fo
r Pip
e R
uptu
re R
estra
ints
Ste
am G
ener
ator
B
low
dow
n Sy
stem
N/A
N/A
3.8–
66FI
GU
RE
3.8–
66Em
erge
ncy
Gen
erat
or E
nclo
sure
(She
et 2
of 5
)N
/A2
OF
5
3.8–
66FI
GU
RE
3.8–
66Em
erge
ncy
Gen
erat
or E
nclo
sure
(She
et 3
of 5
)N
/A3
OF
5
3.8–
66FI
GU
RE
3.8–
66Em
erge
ncy
Gen
erat
or E
nclo
sure
(She
et 4
of 5
)N
/A4
OF
5
3.8–
66FI
GU
RE
3.8–
66Em
erge
ncy
Gen
erat
or E
nclo
sure
(She
et 5
of 5
)N
/A5
OF
5
3.8–
67FI
GU
RE
3.8–
67En
gine
ered
Saf
ety
Feat
ures
Bui
ldin
g (S
heet
1 o
f 9)
N/A
1 O
F 9
3.8–
67FI
GU
RE
3.8–
67En
gine
ered
Saf
ety
Feat
ures
Bui
ldin
g (S
heet
2 o
f 9)
N/A
2 O
F 9
3.8–
67FI
GU
RE
3.8–
67En
gine
ered
Saf
ety
Feat
ures
Bui
ldin
g (S
heet
3 o
f 9)
N/A
3 O
F 9
3.8–
67FI
GU
RE
3.8–
67En
gine
ered
Saf
ety
Feat
ures
Bui
ldin
g (S
heet
4 o
f 9)
N/A
4 O
F 9
3.8–
67FI
GU
RE
3.8–
67En
gine
ered
Saf
ety
Feat
ures
Bui
ldin
g (S
heet
5 o
f 9)
N/A
5 O
F 9
3.8–
67FI
GU
RE
3.8–
67En
gine
ered
Saf
ety
Feat
ures
Bui
ldin
g (S
heet
6 o
f 9)
N/A
6 O
F 9
3.8–
67FI
GU
RE
3.8–
67En
gine
ered
Saf
ety
Feat
ures
Bui
ldin
g (S
heet
7 o
f 9)
N/A
7 O
F 9
3.8–
67FI
GU
RE
3.8–
67En
gine
ered
Saf
ety
Feat
ures
Bui
ldin
g (S
heet
8 o
f 9)
N/A
8 O
F 9
3.8–
67FI
GU
RE
3.8–
67En
gine
ered
Saf
ety
Feat
ures
Bui
ldin
g (S
heet
9 o
f 9)
N/A
9 O
F 9
3.8–
68FI
GU
RE
3.8–
68M
ain
Stea
m V
alve
Bui
ldin
g (S
heet
1 o
f 4)
N/A
1 O
F 4
3.8–
68FI
GU
RE
3.8–
68M
ain
Stea
m V
alve
Bui
ldin
g (S
heet
2 o
f 4)
N/A
2 O
F 4
3.8–
68FI
GU
RE
3.8–
68M
ain
Stea
m V
alve
Bui
ldin
g (S
heet
3 o
f 4)
N/A
3 O
F 4
3.8–
68FI
GU
RE
3.8–
68M
ain
Stea
m V
alve
Bui
ldin
g (S
heet
4 o
f 4)
N/A
4 O
F 4
3.8–
69FI
GU
RE
3.8–
69C
ircul
atin
g an
d Se
rvic
e W
ater
Pum
phou
se (S
heet
1 o
f 4)
N/A
1 O
F 4
3.8–
69FI
GU
RE
3.8–
69C
ircul
atin
g an
d Se
rvic
e W
ater
Pum
phou
se (S
heet
2 o
f 4)
N/A
2 O
F 4
3.8–
69FI
GU
RE
3.8–
69C
ircul
atin
g an
d Se
rvic
e W
ater
Pum
phou
se (S
heet
3 o
f 4)
N/A
3 O
F 4
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 2
7 of
76
3.8–
69FI
GU
RE
3.8–
69C
ircul
atin
g an
d Se
rvic
e W
ater
Pum
phou
se (S
heet
4 o
f 4)
N/A
4 O
F 4
3.8–
70FI
GU
RE
3.8–
70R
ecom
bine
r Bui
ldin
g (S
heet
1 o
f 4)
N/A
1 O
F 4
3.8–
70FI
GU
RE
3.8–
70R
ecom
bine
r Bui
ldin
g (S
heet
2 o
f 4)
N/A
2 O
F 4
3.8–
70FI
GU
RE
3.8–
70R
ecom
bine
r Bui
ldin
g (S
heet
3 o
f 4)
N/A
3 O
F 4
3.8–
70FI
GU
RE
3.8–
70R
ecom
bine
r Bui
ldin
g (S
heet
4 o
f 4)
N/A
4 O
F 4
3.8–
71FI
GU
RE
3.8–
71C
ircul
atin
g D
isch
arge
Stru
ctur
e an
d Tu
nnel
N/A
1 O
F 4
3.8–
72FI
GU
RE
3.8–
72Se
rvic
e B
uild
ing
(She
et 1
of 4
)N
/A1
OF
4
3.8–
72FI
GU
RE
3.8–
72Se
rvic
e B
uild
ing
(She
et 2
of 4
)N
/A2
OF
4
3.8–
72FI
GU
RE
3.8–
72Se
rvic
e B
uild
ing
(She
et 3
of 4
)N
/A3
OF
4
3.8–
72FI
GU
RE
3.8–
72Se
rvic
e B
uild
ing
(She
et 4
of 4
)N
/A4
OF
4
3.8–
73FI
GU
RE
3.8–
73Tu
rbin
e B
uild
ing
(She
et 1
of 5
)N
/A1
OF
5
3.8–
73FI
GU
RE
3.8–
73Tu
rbin
e B
uild
ing
(She
et 2
of 5
)N
/A2
OF
5
3.8–
73FI
GU
RE
3.8–
73Tu
rbin
e B
uild
ing
(She
et 3
of 5
)N
/A3
OF
5
3.8–
73FI
GU
RE
3.8–
73Tu
rbin
e B
uild
ing
(She
et 4
of 5
)N
/A4
OF
5
3.8–
73FI
GU
RE
3.8–
73Tu
rbin
e B
uild
ing
(She
et 5
of 5
)N
/A5
OF
5
3.8–
74FI
GU
RE
3.8–
74So
lid a
nd L
iqui
d W
aste
Dis
posa
l Bui
ldin
g (S
heet
1 o
f 7)
N/A
1 O
F 7
3.8–
74FI
GU
RE
3.8–
74So
lid a
nd L
iqui
d W
aste
Dis
posa
l Bui
ldin
g (S
heet
2 o
f 7)
N/A
2 O
F 7
3.8–
74FI
GU
RE
3.8–
74So
lid a
nd L
iqui
d W
aste
Dis
posa
l Bui
ldin
g (S
heet
3 o
f 7)
N/A
3 O
F 7
3.8–
74FI
GU
RE
3.8–
74So
lid a
nd L
iqui
d W
aste
Dis
posa
l Bui
ldin
g (S
heet
4 o
f 7)
N/A
4 O
F 7
3.8–
74FI
GU
RE
3.8–
74So
lid a
nd L
iqui
d W
aste
Dis
posa
l Bui
ldin
g (S
heet
5 o
f 7)
N/A
5 O
F 7
3.8–
74FI
GU
RE
3.8–
74So
lid a
nd L
iqui
d W
aste
Dis
posa
l Bui
ldin
g (S
heet
6 o
f 7)
N/A
6 O
F 7
3.8–
74FI
GU
RE
3.8–
74So
lid a
nd L
iqui
d W
aste
Dis
posa
l Bui
ldin
g (S
heet
7 o
f 7)
N/A
7 O
F 7
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 2
8 of
76
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
1 o
f 12)
N/A
1 O
F 12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
2 o
f 12)
N/A
2 O
F 12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
3 o
f 12)
N/A
3 O
F 12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
4 o
f 12)
N/A
4 O
F 12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
5 o
f 12)
N/A
5 O
F 12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
6 o
f 12)
N/A
6 O
F 12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
7 o
f 12)
N/A
7 O
F 12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
8 o
f 12)
N/A
8 O
F 12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
9 o
f 12)
N/A
9 O
F 12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
10
of 1
2)N
/A10
OF
12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
11
of 1
2)N
/A11
OF
12
3.8–
75FI
GU
RE
3.8–
75W
areh
ouse
No.
5 (S
heet
12
of 1
2)N
/A12
OF
12
3.8–
76FI
GU
RE
3.8–
76A
uxili
ary
Boi
ler E
nclo
sure
(She
et 1
of 5
)N
/A1
OF
5
3.8–
76FI
GU
RE
3.8–
76A
uxili
ary
Boi
ler E
nclo
sure
(She
et 2
of 5
)N
/A2
OF
5
3.8–
76FI
GU
RE
3.8–
76A
uxili
ary
Boi
ler E
nclo
sure
(She
et 3
of 5
)N
/A3
OF
5
3.8–
76FI
GU
RE
3.8–
76A
uxili
ary
Boi
ler E
nclo
sure
(She
et 4
of 5
)N
/A4
OF
5
3.8–
76FI
GU
RE
3.8–
76A
uxili
ary
Boi
ler E
nclo
sure
(She
et 5
of 5
)N
/A5
OF
5
3.8–
77FI
GU
RE
3.8–
77A
rran
gem
ent o
f Hor
izon
tal S
hear
Key
sN
/AN
/A
3.8–
78FI
GU
RE
3.8–
78Ty
pica
l She
ar K
ey D
etai
lN
/AN
/A
3.8–
79FI
GU
RE
3.8–
79Fu
el P
ool T
empe
ratu
re T
rans
ient
sN
/AN
/A
3.8–
80FI
GU
RE
3.8–
80Fu
el P
ool--
Fuel
Bui
ldin
g Te
mpe
ratu
re C
ondi
tions
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 2
9 of
76
3.8–
81FI
GU
RE
3.8–
81Fu
el P
ool T
empe
ratu
re T
rans
ient
s--f
or H
ighe
r En
richm
ent F
uel
N/A
N/A
3.8–
82FI
GU
RE
3.8–
82Fu
el P
ool T
empe
ratu
re T
rans
ient
s--F
ull C
ore
Off
load
N/A
N/A
3.8–
83FI
GU
RE
3.8–
83M
illst
one
Stac
k El
evat
ions
and
Sec
tions
N/A
N/A
3.8–
84FI
GU
RE
3.8–
84M
illst
one
Stac
k - M
athe
mat
ical
Mod
elN
/AN
/A
3.9B
–1FI
GU
RE
3.9B
–1R
eact
or C
oola
nt P
PGN
/AN
/A
3.9B
–2FI
GU
RE
3.9B
–2D
ynam
ic M
odel
- Ty
pica
l RC
S Lo
opN
/AN
/A
3.9B
–3FI
GU
RE
3.9B
–3D
ynam
ic M
odel
- C
ente
r Sec
tion
N/A
N/A
3.9B
–4FI
GU
RE
3.9B
–4X
2 V
iew
- R
otat
ed A
xes
N/A
N/A
3.9B
–5FI
GU
RE
3.9B
–5Sn
ubbe
r Orie
ntat
ion
N/A
N/A
3.9N
–1FI
GU
RE
3.9N
–1R
eact
or P
ress
ure
Ves
sel a
nd In
tern
als S
yste
m M
odel
N/A
N/A
3.9N
–2FI
GU
RE
3.9N
–2D
elet
ed b
y PK
G F
SC 0
7-M
P3-0
39N
/AN
/A
3.9N
–3FI
GU
RE
3.9N
–3R
PV S
uppo
rt M
odel
for W
estin
ghou
se In
tern
als
Res
pons
e A
naly
sis
N/A
N/A
3.9N
–4FI
GU
RE
3.9N
–4C
ontro
l Rod
Driv
e M
echa
nism
N/A
N/A
3.9N
–5FI
GU
RE
3.9N
–5C
ontro
l Rod
Driv
e M
echa
nism
Sch
emat
icN
/AN
/A
3.9N
–6FI
GU
RE
3.9N
–6N
omin
al L
atch
Cle
aran
ce a
t Min
imum
and
Max
imum
C
lear
ance
N/A
N/A
3.9N
–7FI
GU
RE
3.9N
–7C
ontro
l Rod
Driv
e M
echa
nism
Lat
ch C
lear
ance
Th
erm
al E
ffec
tN
/AN
/A
3.9N
–8FI
GU
RE
3.9N
–8Lo
wer
Cor
e Su
ppor
t Ass
embl
y (C
ore
Bar
rel A
ssem
bly)
N/A
N/A
3.9N
–9FI
GU
RE
3.9N
–9U
pper
Cor
e Su
ppor
t Ass
embl
yN
/AN
/A
3.9N
–10
FIG
UR
E 3.
9N–1
0Pl
an V
iew
of U
pper
Cor
e Su
ppor
t Ass
embl
yN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
0 of
76
3.9N
–11
FIG
UR
E 3.
9N–1
1N
eutro
n Sh
ield
Pan
el D
esig
nN
/AN
/A
3.9N
–12
FIG
UR
E 3.
9N–1
2N
eutro
n Sh
ield
Pan
el D
esig
n D
etai
lsN
/AN
/A
3A.1
.2–1
FIG
UR
E 3A
.1.2
–1O
ne H
undr
ed-E
lem
ent I
deal
izat
ion
of T
hin-
Wal
l C
ylin
der
N/A
N/A
3A.1
.4–1
FIG
UR
E 3A
.1.4
–1El
emen
t Plo
tN
/AN
/A
3A.1
.4–2
FIG
UR
E 3A
.1.4
–2H
arm
onic
Axi
sym
met
ric P
lain
Stra
inN
/AN
/A
3A.1
.5–1
FIG
UR
E 3A
.1.5
–1TA
C2D
Sam
ple
Prob
lem
The
rmal
Mod
elN
/AN
/A
3A.1
.5–2
FIG
UR
E 3A
.1.5
–2Tr
ansi
ent T
empe
ratu
res i
n a
Rig
ht C
ircul
ar C
ylin
der-
Com
paris
on o
f TA
C2D
Res
ults
with
Ser
ies S
olut
ion
N/A
N/A
3A.1
.6–1
FIG
UR
E 3A
.1.6
–1St
ruct
ural
Mod
elN
/AN
/A
3A.1
.7–1
FIG
UR
E 3A
.1.7
–1Fi
nite
Ele
men
t Grid
for P
LAX
LY-F
LUSH
Com
paris
onN
/AN
/A
3A.1
.7–2
FIG
UR
E 3A
.1.7
–2H
oriz
onta
l Am
plifi
ed R
espo
nse
Spec
tra a
t Top
Mas
s in
Bea
m S
truct
ure
N/A
N/A
3A.2
.3–1
FIG
UR
E 3A
.2.3
–1Ta
rget
for L
ow T
raje
ctor
y M
issi
leN
/AN
/A
3A.2
.11–
1FI
GU
RE
3A.2
.11–
1C
antil
ever
Pip
e U
sed
in M
IT E
xper
imen
tN
/AN
/A
3A.3
–1FI
GU
RE
3A.3
–1M
athe
mat
ical
Mod
el fo
r Fle
xibi
lity
Ana
lysi
s V
erifi
catio
nN
/AN
/A
3A.3
–2FI
GU
RE
3A.3
–2N
UPI
PE P
rogr
am F
orce
Tim
e-H
isto
ry V
erifi
catio
nN
/AN
/A
3A.3
–3FI
GU
RE
3A.3
–3M
athe
mat
ical
Mod
el fo
r Cla
ss 1
Stre
ss V
erifi
catio
nN
/AN
/A
3A.3
–4FI
GU
RE
3A.3
–4Te
st P
robl
em -
SAV
AL
N/A
N/A
3A.3
–5FI
GU
RE
3A.3
–5Su
dden
Dis
char
ge o
f a G
as fr
om a
Pip
elin
e th
roug
h a
Noz
zle
N/A
N/A
3A.3
–6FI
GU
RE
3A.3
–6Su
dden
Dis
char
ge o
f a G
as fr
om a
Pip
elin
e th
roug
h a
Noz
zle
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
1 of
76
3A.3
–7FI
GU
RE
3A.3
–7C
ompa
rison
of P
ress
ure
Res
pons
e at
the
Clo
sed
End
N/A
N/A
3A.3
–8FI
GU
RE
3A.3
–8C
ompa
rison
of P
ress
ure
Res
pons
e at
the
Ope
n En
dN
/AN
/A
3A.3
–9FI
GU
RE
3A.3
–9C
ompa
rison
of P
ress
ure
Res
pons
es b
y ST
EHA
M a
nd
Expe
rimen
tN
/AN
/A
3A.3
–10
FIG
UR
E 3A
.3–1
0H
ydra
ulic
Net
wor
k fo
r Ver
ifica
tion
Prob
lem
N/A
N/A
3A.3
–11
FIG
UR
E 3A
.3–1
1H
ydra
ulic
Net
wor
k fo
r WA
THA
M V
erifi
catio
nN
/AN
/A
3A.3
–12
FIG
UR
E 3A
.3–1
2H
ead
vers
us T
ime
Plot
for J
unct
ion
JN
/AN
/A
3A.3
–13
FIG
UR
E 3A
.3–1
3H
ead
vers
us T
ime
Plot
at V
alve
N/A
N/A
3A.3
–14
FIG
UR
E 3A
.3–1
4D
esig
n In
put t
o a
Prob
lem
N/A
N/A
3A.3
–15
FIG
UR
E 3A
.3–1
5Pi
pe 1
Seg
men
t 1 F
orce
-Tim
e H
isto
ryN
/AN
/A
4.2–
1FI
GU
RE
4.2–
1Fu
el A
ssem
bly
Cro
ss S
ectio
n 17
x 1
7N
/AN
/A
4.2–
2FI
GU
RE
4.2–
2C
ompa
rison
of t
he 1
7 x
17 V
5H F
uel A
ssem
bly
and
the
17 x
17
Stan
dard
Fue
l Ass
embl
yN
/AN
/A
4.2–
3FI
GU
RE
4.2–
317
x 1
7 V
anta
ge 5
-H F
uel R
od A
ssem
bly
N/A
N/A
4.2–
4FI
GU
RE
4.2–
4Pl
an V
iew
N/A
N/A
4.2–
5FI
GU
RE
4.2–
5G
rid to
Thi
mbl
e A
ttach
men
t Joi
nts
N/A
N/A
4.2–
6FI
GU
RE
4.2–
6Th
imbl
e/In
sert/
Top
Grid
Sle
eve
Bul
ge Jo
int G
eom
etry
N/A
N/A
4.2–
7FI
GU
RE
4.2–
7G
uide
Thi
mbl
e to
Bot
tom
Noz
zle
Join
tN
/AN
/A
4.2–
8FI
GU
RE
4.2–
8R
od C
lust
er C
ontro
l and
Driv
e R
od A
ssem
bly
with
In
terf
acin
g C
ompo
nent
sN
/AN
/A
4.2–
9FI
GU
RE
4.2–
9D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
8-M
P3-0
27N
/AN
/A
4.2–
9aFI
GU
RE
4.2–
9aFu
ll Le
ngth
Rod
Clu
ster
Con
trol A
ssem
bly
(Wes
tingh
ouse
)N
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
2 of
76
4.2–
9bFI
GU
RE
4.2–
9bFu
ll Le
ngth
Rod
Clu
ster
Con
trol A
ssem
bly
and
Abs
orbe
r Rod
(AR
EVA
)N
/AN
/A
4.2–
10FI
GU
RE
4.2–
10A
bsor
ber R
od (W
estin
ghou
se)
N/A
N/A
4.2–
11FI
GU
RE
4.2–
11B
urna
ble
Abs
orbe
r Ass
embl
yN
/AN
/A
4.2–
12FI
GU
RE
4.2–
12N
ot U
sed
N/A
N/A
4.2–
13FI
GU
RE
4.2–
13Pr
imar
y So
urce
Ass
embl
yN
/AN
/A
4.2–
14FI
GU
RE
4.2–
14N
ot U
sed
N/A
N/A
4.2–
14a
FIG
UR
E 4.
2–14
aSi
ngle
Enc
apsu
late
d Se
cond
ary
Sour
ce A
ssem
bly
N/A
N/A
4.2–
14b
FIG
UR
E 4.
2–14
bD
oubl
e En
caps
ulat
ed S
econ
dary
Sou
rce
Ass
embl
yN
/AN
/A
4.2–
15FI
GU
RE
4.2–
15Th
imbl
e Pl
ug A
ssem
bly
N/A
N/A
4.3–
1FI
GU
RE
4.3–
1Fu
el L
oadi
ng A
rran
gem
ent
N/A
N/A
4.3–
2FI
GU
RE
4.3–
2Ty
pica
l Pro
duct
ion
and
Con
sum
ptio
n of
Hig
her I
soto
pes
N/A
N/A
4.3–
3FI
GU
RE
4.3–
3Ty
pica
l Bor
on C
once
ntra
tion
Ver
sus F
irst C
ycle
Bur
nup
with
and
with
out B
urna
ble
Abs
orbe
r Rod
sN
/AN
/A
4.3–
4FI
GU
RE
4.3–
4Ty
pica
l Int
egra
l Fue
l Bur
nabl
e A
bsor
ber R
od
Arr
ange
men
t with
in a
n A
ssem
bly
N/A
N/A
4.3–
5FI
GU
RE
4.3–
5B
urna
ble
Abs
orbe
r Loa
ding
Pat
tern
(Typ
ical
)N
/AN
/A
4.3–
5aFI
GU
RE
4.3–
5aIn
tegr
al F
uel B
urna
ble
Load
ing
Patte
rn (C
ycle
7)
N/A
N/A
4.3–
17FI
GU
RE
4.3–
17C
ompa
rison
of a
Typ
ical
Ass
embl
y A
xial
Pow
er
Dis
tribu
tion
with
Cor
e A
vera
ge A
xial
Dis
tribu
tion
Ban
k D
Slig
htly
Inse
rted
N/A
N/A
4.3–
21FI
GU
RE
4.3–
21Ty
pica
l Max
imum
Nor
mal
ized
FQ
x P
ower
Ver
sus
Axi
al H
eigh
tN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
3 of
76
4.3–
24FI
GU
RE
4.3–
24Ty
pica
l Com
paris
on B
etw
een
Cal
cula
ted
and
Mea
sure
d R
elat
ive
Fuel
Ass
embl
y Po
wer
Dis
tribu
tion
N/A
N/A
4.3–
25FI
GU
RE
4.3–
25C
ompa
rison
of T
ypic
al C
alcu
late
d an
d M
easu
red
Axi
al
Shap
esN
/AN
/A
4.3–
26FI
GU
RE
4.3–
26Ty
pica
l Mea
sure
d V
alue
s of F
Q fo
r Ful
l Pow
er R
od
Con
figur
atio
nsN
/AN
/A
4.3–
27FI
GU
RE
4.3–
27Ty
pica
l Dop
pler
Tem
pera
ture
Coe
ffic
ient
at B
egin
ning
-of
-Life
and
End
-of-
Life
, Cyc
le 1
N/A
N/A
4.3–
28FI
GU
RE
4.3–
28Ty
pica
l Dop
pler
- O
nly
Pow
er C
oeff
icie
nt a
t Beg
inni
ng-
of-L
ife a
nd E
nd-o
f-Li
fe, C
ycle
1N
/AN
/A
4.3–
29FI
GU
RE
4.3–
29Ty
pica
l Dop
pler
- O
nly
Pow
er D
efec
t at B
egin
ning
-of-
Life
and
End
-of-
Life
, Cyc
le 1
N/A
N/A
4.3–
30FI
GU
RE
4.3–
30Ty
pica
l Mod
erat
or T
empe
ratu
re C
oeff
icie
nt a
t B
egin
ning
-of-
Life
, Cyc
le 1
, No
Rod
sN
/AN
/A
4.3–
31FI
GU
RE
4.3–
31Ty
pica
l Mod
erat
or T
empe
ratu
re C
oeff
icie
nt a
t End
-of-
Life
, Cyc
le 1
N/A
N/A
4.3–
32FI
GU
RE
4.3–
32Ty
pica
l Mod
erat
or T
empe
ratu
re C
oeff
icie
nt a
s a
Func
tion
of B
oron
Con
cent
ratio
n at
Beg
inni
ng-o
f-Li
fe,
Cyc
le 1
, No
Rod
sN
/AN
/A
4.3–
33FI
GU
RE
4.3–
33Ty
pica
l Hot
Ful
l Pow
er T
empe
ratu
re C
oeff
icie
nt d
urin
g C
ycle
1 fo
r the
Crit
ical
Bor
on C
once
ntra
tion
N/A
N/A
4.3–
34FI
GU
RE
4.3–
34Ty
pica
l Tot
al P
ower
Coe
ffic
ient
at B
egin
ning
-of-
Life
an
d En
d-of
-Life
, Cyc
le 1
N/A
N/A
4.3–
35FI
GU
RE
4.3–
35Ty
pica
l Tot
al P
ower
Def
ect a
t Beg
inni
ng-o
f-Li
fe a
nd
End-
of-L
ife, C
ycle
1N
/AN
/A
4.3–
36FI
GU
RE
4.3–
36R
od C
lust
er C
ontro
l Ass
embl
y Pa
ttern
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
4 of
76
4.3–
37FI
GU
RE
4.3–
37Ty
pica
l Acc
iden
tal S
imul
tane
ous W
ithdr
awal
of T
wo
Con
trol B
anks
at E
OL,
HZP
, Ban
k D
and
B M
ovin
g in
th
e Sa
me
Plan
eN
/AN
/A
4.3–
38FI
GU
RE
4.3–
38D
esig
n Tr
ip C
urve
(Typ
ical
)N
/AN
/A
4.3–
39FI
GU
RE
4.3–
39Ty
pica
l Nor
mal
ized
Rod
Wor
th V
ersu
s Per
cent
In
serti
on, A
ll R
ods O
ut B
ut O
neN
/AN
/A
4.3–
40FI
GU
RE
4.3–
40Ty
pica
l Axi
al O
ffse
t Ver
sus T
ime,
PW
R C
ore
with
a 1
2 Fo
ot H
eigh
t and
121
Ass
embl
ies
N/A
N/A
4.3–
41FI
GU
RE
4.3–
41Ty
pica
l X-Y
Xen
on T
est T
herm
ocou
ple
Res
pons
e Q
uadr
ant T
ilt D
iffer
ence
Ver
sus T
ime
N/A
N/A
4.3–
42FI
GU
RE
4.3–
42Ty
pica
l Cal
cula
ted
and
Mea
sure
d D
oppl
er D
efec
t and
C
oeff
icie
nts a
t BO
L, 2
-Loo
p Pl
ant,
121
Ass
embl
ies,
12
Foot
Cor
eN
/AN
/A
4.4–
1FI
GU
RE
4.4–
1D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
40N
/AN
/A
4.4–
2FI
GU
RE
4.4–
2TD
S V
ersu
s Rey
nold
s Num
ber f
or 2
6 In
ch G
rid S
paci
ngN
/AN
/A
4.4–
3FI
GU
RE
4.4–
3Ty
pica
l Nor
mal
ized
Rad
ial F
low
and
Ent
halp
y D
istri
butio
n at
4 F
oot E
leva
tion
N/A
N/A
4.4–
4FI
GU
RE
4.4–
4Ty
pica
l Nor
mal
ized
Rad
ial F
low
and
Ent
halp
y D
istri
butio
n at
8 F
oot E
leva
tion
N/A
N/A
4.4–
5FI
GU
RE
4.4–
5Ty
pica
l Nor
mal
ized
Rad
ial F
low
and
Ent
halp
y D
istri
butio
n at
12
Foot
Ele
vatio
n-C
ore
Exit
N/A
N/A
4.4–
6FI
GU
RE
4.4–
6D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
40N
/AN
/A
4.4–
7FI
GU
RE
4.4–
7Th
erm
al C
ondu
ctiv
ity o
f UO
2 (D
ata
Cor
rect
ed to
95
Perc
ent T
heor
etic
al D
ensi
ty)
N/A
N/A
4.4–
8FI
GU
RE
4.4–
8R
eact
or C
oola
nt S
yste
m T
empe
ratu
re-P
erce
nt P
ower
M
apN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
5 of
76
4.4–
9FI
GU
RE
4.4–
9N
ot U
sed
N/A
N/A
4.4–
10FI
GU
RE
4.4–
10D
istri
butio
n of
Inco
re In
stru
men
tatio
nN
/AN
/A
4.4–
11FI
GU
RE
4.4–
11IC
C F
unct
iona
l Blo
ck D
iagr
am (T
rain
A-T
rain
B
Sim
ilar)
N/A
N/A
4.4–
12FI
GU
RE
4.4–
12Ty
pica
l Rea
ctor
Coo
lant
Par
amet
ers F
ollo
win
g Sm
all
Bre
ak L
OC
AN
/AN
/A
4.4–
13FI
GU
RE
4.4–
13H
JTC
S Fu
nctio
nal C
onfig
urat
ion
N/A
N/A
4.4–
14FI
GU
RE
4.4–
14Ty
pica
l Pro
be/S
enso
r Con
figur
atio
nN
/AN
/A
4.4–
15FI
GU
RE
4.4–
15H
JTC
Sen
sor -
HJT
C/S
plas
h Sh
ield
N/A
N/A
4.4–
16FI
GU
RE
4.4–
16El
ectri
cal D
iagr
am o
f HJT
CN
/AN
/A
4.4–
17FI
GU
RE
4.4–
17Ty
pica
l Con
figur
atio
n (O
ne C
hann
el)
N/A
N/A
4.4–
18FI
GU
RE
4.4–
18H
eate
d Ju
nctio
n Th
erm
ocou
ple
Prob
e A
ssem
bly
N/A
N/A
4.4–
19FI
GU
RE
4.4–
19H
JTC
Pro
be H
olde
r Sup
port
Tube
Inst
alla
tion
N/A
N/A
4.4–
20FI
GU
RE
4.4–
20H
JTC
Pro
be P
ress
ure
Bou
ndar
y In
stal
latio
nN
/AN
/A
4.4–
21FI
GU
RE
4.4–
21Pr
obe
Han
dlin
g H
ardw
are
Con
figur
atio
nN
/AN
/A
\4.4
–21
FIG
UR
E 4.
4–21
Prob
e H
andl
ing
Har
dwar
e C
onfig
urat
ion
N/A
N/A
\5.1
–1FI
GU
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5.1–
1(S
heet
s 1-6
) P&
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eact
or C
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nt S
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)SH
1
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GU
RE
5.1–
1(S
heet
s 1-6
) P&
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2
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RE
5.1–
1(S
heet
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212-
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3
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GU
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5.1–
1(S
heet
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) P&
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4
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5.1–
1(S
heet
s 1-6
) P&
IDs R
eact
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212-
2690
2 (a
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5
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
6 of
76
\5.1
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GU
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5.1–
1(S
heet
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) P&
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2690
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6
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–2FI
GU
RE
5.1–
2R
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or C
oola
nt S
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m P
roce
ss F
low
Des
ign
N/A
N/A
\5.1
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OTE
S TO
FIG
UR
E 5.
1–2
N/A
N/A
\5.2
–1FI
GU
RE
5.2–
1R
eact
or V
esse
l Ins
pect
ion
Are
aN
/AN
/A
\5.2
–2FI
GU
RE
5.2–
2M
odel
F S
team
Gen
erat
or In
spec
tion
Are
aN
/AN
/A
\5.2
–3FI
GU
RE
5.2–
3Pr
essu
rizer
Insp
ectio
n A
reas
N/A
N/A
\5.3
–1FI
GU
RE
5.3–
1Id
entif
icat
ion
and
Loca
tion
of B
eltli
ne R
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n M
ater
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for t
he R
eact
or V
esse
lN
/AN
/A
\5.3
–2FI
GU
RE
5.3–
2R
eact
or V
esse
lN
/AN
/A
\5.4
–1FI
GU
RE
5.4–
1R
eact
or C
oola
nt P
ump
N/A
N/A
\5.4
–2FI
GU
RE
5.4–
2R
eact
or C
oola
nt P
ump
Estim
ated
Per
form
ance
C
hara
cter
istic
sN
/AN
/A
\5.4
–3FI
GU
RE
5.4–
3M
odel
F S
team
Gen
erat
orN
/AN
/A
\5.4
–4FI
GU
RE
5.4–
4Q
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Tube
Sup
port
Plat
esN
/AN
/A
\5.4
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GU
RE
5.4–
5(S
heet
s 1-3
) P&
IDs L
ow P
ress
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Safe
ty In
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inm
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ecirc
ulat
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2521
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SH 1
OF
3
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GU
RE
5.4–
5(S
heet
s 1-3
) P&
IDs L
ow P
ress
ure
Safe
ty In
ject
ion
/ C
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inm
ent R
ecirc
ulat
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2521
2-26
912
(a)
SH 2
OF
3
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GU
RE
5.4–
5(S
heet
s 1-3
) P&
IDs L
ow P
ress
ure
Safe
ty In
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ion
/ C
onta
inm
ent R
ecirc
ulat
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2521
2-26
912
(a)
SH 3
OF
3
5.4–
6FI
GU
RE
5.4–
6R
esid
ual H
eat R
emov
al S
yste
m P
roce
ss F
low
Dia
gram
(M
ode
A)
N/A
N/A
5.4–
6FI
GU
RE
5.4–
6R
esid
ual H
eat R
emov
al S
yste
m P
roce
ss F
low
Dia
gram
(M
ode
A)
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
7 of
76
5.4–
7FI
GU
RE
5.4–
7Pr
essu
rizer
Rel
ief T
ank
N/A
N/A
5.4–
8FI
GU
RE
5.4–
8Pr
essu
rizer
N/A
N/A
5.4–
9FI
GU
RE
5.4–
9R
PV S
uppo
rt Sy
stem
N/A
N/A
5.4–
10FI
GU
RE
5.4–
10Le
velin
g D
evic
e (T
ypic
al) R
PV S
uppo
rt Sy
stem
N/A
N/A
5.4–
11FI
GU
RE
5.4–
11V
ertic
al S
uppo
rts (T
ypic
al) R
eact
or C
oola
nt P
umps
and
St
eam
Gen
erat
orN
/AN
/A
5.4–
11FI
GU
RE
5.4–
11V
ertic
al S
uppo
rts (T
ypic
al) R
eact
or C
oola
nt P
umps
and
St
eam
Gen
erat
orN
/AN
/A
5.4–
12FI
GU
RE
5.4–
12La
tera
l Sup
port
(Typ
ical
) Ste
am G
ener
ator
N/A
N/A
5.4–
13FI
GU
RE
5.4–
13La
tera
l Sup
port
(Typ
ical
) Rea
ctor
Coo
lant
Pum
pN
/AN
/A
5.4–
14FI
GU
RE
5.4–
14Pr
essu
rizer
Sup
port
(She
et 1
of 2
)1
OF
2N
/A
5.4–
14FI
GU
RE
5.4–
14Pr
essu
rizer
Sup
port
(She
et 2
of 2
)2
OF
2N
/A
5.4–
15FI
GU
RE
5.4–
15Pr
essu
rizer
Saf
ety
Val
ve S
uppo
rt Sy
stem
(She
et 1
of 2
)1
OF
2N
/A
5.4–
15FI
GU
RE
5.4–
15Pr
essu
rizer
Saf
ety
Val
ve S
uppo
rt Sy
stem
(She
et 2
of 2
)2
OF
2N
/A
6.0–
1FI
GU
RE
6.0–
1En
gine
ered
Saf
ety
Feat
ures
N/A
N/A
6.2–
1FI
GU
RE
6.2–
1C
onta
inm
ent P
ress
ure
Res
pons
e - D
oubl
e En
ded
LOC
A
(Bre
ak L
ocat
ion)
N/A
N/A
6.2–
2FI
GU
RE
6.2–
2C
onta
inm
ent P
ress
ure
Res
pons
e - P
ump
Suct
ion
LOC
A
(Bre
ak S
ize)
N/A
N/A
6.2–
3FI
GU
RE
6.2–
3C
onta
inm
ent V
apor
Tem
pera
ture
Res
pons
e - L
OC
AN
/AN
/A
6.2–
4FI
GU
RE
6.2–
4C
onta
inm
ent L
iner
Tem
pera
ture
Res
pons
eN
/AN
/A
6.2–
5FI
GU
RE
6.2–
5C
onta
inm
ent D
epre
ssur
izat
ion
Res
pons
e - L
OC
AN
/AN
/A
6.2–
6FI
GU
RE
6.2–
6C
onta
inm
ent S
ump
Tem
pera
ture
Res
pons
eN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
8 of
76
6.2–
7FI
GU
RE
6.2–
7C
onta
inm
ent P
ress
ure f
rom
1.4
squa
re fo
ot M
SLB
at 0
%
Pow
er N
o En
train
men
t - L
imiti
ng P
eak
Pres
sure
Cas
eN
/AN
/A
6.2–
8FI
GU
RE
6.2–
8C
onta
inm
ent L
iner
Tem
pera
ture
Fro
m 1
.4 sq
uare
foot
M
SLB
at 1
00%
Pow
er, N
o En
train
men
t - L
imiti
ng P
eak
Tem
pera
ture
Cas
eN
/AN
/A
6.2–
9FI
GU
RE
6.2–
9C
onta
inm
ent L
iner
Tem
pera
ture
Fro
m 1
.4 sq
uare
foot
at
0% P
ower
, No
Entra
inm
ent -
Pea
k Te
mpe
ratu
re C
ase
N/A
N/A
6.2–
10FI
GU
RE
6.2–
10D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
11FI
GU
RE
6.2–
11D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
12FI
GU
RE
6.2–
12D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
13FI
GU
RE
6.2–
13D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
14FI
GU
RE
6.2–
14D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
15FI
GU
RE
6.2–
15D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
16FI
GU
RE
6.2–
16D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
17FI
GU
RE
6.2–
17Pr
essu
rizer
Sub
com
partm
ent E
leva
tion
Vie
w w
ith N
odal
A
rran
gem
ent
N/A
N/A
6.2–
18FI
GU
RE
6.2–
18Pl
an V
iew
for t
he P
ress
uriz
er S
ubco
mpa
rtmen
t El
evat
ion
95.3
feet
N/A
N/A
6.2–
18A
FIG
UR
E 6.
2–18
APl
an V
iew
for t
he P
ress
uriz
er S
ubco
mpa
rtmen
t El
evat
ion
74.2
feet
N/A
N/A
6.2–
18B
FIG
UR
E 6.
2–18
BPl
an V
iew
for t
he P
ress
uriz
er S
ubco
mpa
rtmen
t El
evat
ion
51.3
feet
N/A
N/A
6.2–
18C
FIG
UR
E 6.
2–18
CPl
an V
iew
for t
he P
ress
uriz
er S
ubco
mpa
rtmen
t El
evat
ion
25.7
feet
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 3
9 of
76
6.2–
18D
FIG
UR
E 6.
2–18
DPl
an V
iew
for t
he P
ress
uriz
er S
ubco
mpa
rtmen
t El
evat
ion
12.7
5 fe
etN
/AN
/A
6.2–
19FI
GU
RE
6.2–
19St
eam
Gen
erat
or S
ubco
mpa
rtmen
t Ele
vatio
n w
ith N
odal
A
rran
gem
ent
N/A
N/A
6.2–
20FI
GU
RE
6.2–
20Pl
an V
iew
for t
he S
team
Gen
erat
or S
ubco
mpa
rtmen
t El
evat
ion
3 fe
et 8
inch
esN
/AN
/A
6.2–
21FI
GU
RE
6.2–
21Pl
an V
iew
for t
he S
team
Gen
erat
or S
ubco
mpa
rtmen
t El
evat
ion
28 fe
et 6
inch
esN
/AN
/A
6.2–
22FI
GU
RE
6.2–
22Pl
an V
iew
for t
he S
team
Gen
erat
or S
ubco
mpa
rtmen
t El
evat
ion
51 fe
et 4
inch
esN
/AN
/A
6.2–
23FI
GU
RE
6.2–
23U
pper
Rea
ctor
Cav
ity S
ubco
mpa
rtmen
t Pla
n El
evat
ion
and
Nod
al A
rran
gem
ent
N/A
N/A
6.2–
24FI
GU
RE
6.2–
24Pr
essu
rizer
Sub
com
partm
ent N
odal
izat
ion
Dia
gram
N/A
N/A
6.2–
25FI
GU
RE
6.2–
25St
eam
Gen
erat
or S
ubco
mpa
rtmen
t Nod
aliz
atio
n D
iagr
amN
/AN
/A
6.2–
26FI
GU
RE
6.2–
26St
agge
red
Mes
h A
ppro
xim
atio
n fo
r Nod
es a
nd In
tern
al
Junc
tions
N/A
N/A
6.2–
27FI
GU
RE
6.2–
27G
ener
al F
low
Cha
rt fo
r TH
REE
DN
/AN
/A
6.2–
28FI
GU
RE
6.2–
28Pr
essu
re R
espo
nse
Pres
suriz
er C
ubic
leN
/AN
/A
6.2–
28A
FIG
UR
E 6.
2–28
APr
essu
re R
espo
nse
Pres
suriz
er C
ubic
leN
/AN
/A
6.2–
29FI
GU
RE
6.2–
29Pr
essu
re R
espo
nse
Pres
suriz
er C
ubic
leN
/AN
/A
6.2–
29A
FIG
UR
E 6.
2–29
APr
essu
re R
espo
nse
Pres
suriz
er C
ubic
leN
/AN
/A
6.2–
29B
FIG
UR
E 6.
2–29
BPr
essu
re R
espo
nse
Pres
suriz
er C
ubic
leN
/AN
/A
6.2–
29C
FIG
UR
E 6.
2–29
CPr
essu
re R
espo
nse
Pres
suriz
er C
ubic
leN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
0 of
76
6.2–
29D
FIG
UR
E 6.
2–29
DPr
essu
re R
espo
nse
Pres
suriz
er C
ubic
leN
/AN
/A
6.2–
30FI
GU
RE
6.2–
30D
elet
ed b
y PK
G F
SC M
P3-U
CR
-200
9-00
6N
/AN
/A
6.2–
31FI
GU
RE
6.2–
31Pr
essu
re R
espo
nse
Stea
m G
ener
ator
Cub
icle
N/A
N/A
6.2–
32FI
GU
RE
6.2–
32Pr
essu
re R
espo
nse
Stea
m G
ener
ator
Cub
icle
N/A
N/A
6.2–
33FI
GU
RE
6.2–
33D
elet
ed b
y PK
G F
SC M
P3-U
CR
-200
9-00
6N
/AN
/A
6.2–
34FI
GU
RE
6.2–
34Pr
essu
re R
espo
nse
Stea
m G
ener
ator
Cub
icle
N/A
N/A
6.2–
34A
FIG
UR
E 6.
2–34
AD
elet
ed b
y PK
G F
SC M
P3-U
CR
-200
9-00
6N
/AN
/A
6.2–
34B
FIG
UR
E 6.
2–34
BD
elet
ed b
y PK
G F
SC M
P3-U
CR
-200
9-00
6N
/AN
/A
6.2–
34C
FIG
UR
E 6.
2–34
CD
elet
ed b
y PK
G F
SC M
P3-U
CR
-200
9-00
6N
/AN
/A
6.2–
34D
FIG
UR
E 6.
2–34
DD
elet
ed b
y PK
G F
SC M
P3-U
CR
-200
9-00
6N
/AN
/A
6.2–
35FI
GU
RE
6.2–
35D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
36FI
GU
RE
6.2–
36P&
ID Q
uenc
h Sp
ray
and
Hyd
roge
n R
ecom
bine
rN
/AN
/A
6.2–
37FI
GU
RE
6.2–
37(S
heet
s 1-3
) P&
ID L
ow P
ress
ure
Safe
ty In
ject
ion/
Con
tain
men
t Rec
ircul
atio
n25
212-
2691
2 (a
)SH
1 O
F 3
6.2–
37FI
GU
RE
6.2–
37(S
heet
s 1-3
) P&
ID L
ow P
ress
ure
Safe
ty In
ject
ion/
Con
tain
men
t Rec
ircul
atio
n25
212-
2691
2 (a
)SH
2 O
F 3
6.2–
37FI
GU
RE
6.2–
37(S
heet
s 1-3
) P&
ID L
ow P
ress
ure
Safe
ty In
ject
ion/
Con
tain
men
t Rec
ircul
atio
n25
212-
2691
2 (a
)SH
3 O
F 3
6.2–
38FI
GU
RE
6.2–
38Ty
pica
l Con
tain
men
t Stru
ctur
e Su
mp
N/A
N/A
6.2–
39FI
GU
RE
6.2–
39Sp
atia
l Dro
plet
Siz
e D
istri
butio
n of
Spr
aco
1713
A
Noz
zle
App
lyin
g Su
rfac
e A
rea
Cor
rect
ion
and
Spra
ying
W
ater
at 4
0 ps
ig U
nder
Lab
orat
ory
Con
ditio
nsN
/AN
/A
6.2–
40FI
GU
RE
6.2–
40C
onta
inm
ent R
ecirc
ulat
ion
Pum
ps C
hara
cter
istic
Cur
ves
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
1 of
76
6.2–
41FI
GU
RE
6.2–
41D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
42FI
GU
RE
6.2–
42C
onta
inm
ent R
ecirc
ulat
ion
Spra
y C
over
age
Ben
d Li
ne
(Ele
vatio
n 10
4 fe
et),
Elev
ated
Tem
pera
ture
(275
°F),
Spra
y H
eade
r at E
leva
tion
141
feet
9 in
ches
N/A
N/A
6.2–
42FI
GU
RE
6.2–
42C
onta
inm
ent R
ecirc
ulat
ion
Spra
y C
over
age
Ben
d Li
ne
(Ele
vatio
n 10
4 fe
et),
Elev
ated
Tem
pera
ture
(275
°F),
Spra
y H
eade
r at E
leva
tion
141
feet
9 in
ches
N/A
N/A
6.2–
44FI
GU
RE
6.2–
44U
nobs
truct
ed Q
uenc
h Sp
ray
Cov
erag
e at
the
Ben
d Li
ne
(Ele
vatio
n 10
4 fe
et),
Elev
ated
Tem
pera
ture
(275
°F),
Spra
y H
eade
rs a
t Ele
vatio
n 15
3 fe
et a
nd 1
68 fe
etN
/AN
/A
6.2–
45FI
GU
RE
6.2–
45D
elet
ed b
y C
hang
e: P
KG
FSC
07-
MP3
-038
N/A
N/A
6.2–
46FI
GU
RE
6.2–
46A
uxili
ary
Bui
ldin
g V
entil
atio
n Sy
stem
and
Su
pple
men
tary
Lea
k C
olle
ctio
n &
Rel
ease
Sys
tem
N/A
N/A
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
1 o
f 14)
N/A
1 O
F 14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
2 o
f 14)
N/A
2 O
F 14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
3 o
f 14)
N/A
3 O
F 14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
4 o
f 14)
N/A
4 O
F 14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
5 o
f 14)
N/A
5 O
F 14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
6 o
f 14)
N/A
6 O
F 14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
7 o
f 14)
N/A
7 O
F 14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
8 o
f 14)
N/A
8 O
F 14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
9 o
f 14)
N/A
9 O
F 14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
10
of 1
4)N
/A10
OF
14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
11
of 1
4)N
/A11
OF
14
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
2 of
76
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
12
of 1
4)N
/A12
OF
14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
13
of 1
4)N
/A13
OF
14
6.2–
47FI
GU
RE
6.2–
47C
onta
inm
ent I
sola
tion
Syst
em (S
heet
14
of 1
4)N
/A14
OF
14
6.2–
48FI
GU
RE
6.2–
48D
elet
ed b
y FS
AR
CR
05-
MP3
-010
N/A
N/A
6.2–
49FI
GU
RE
6.2–
49D
elet
ed b
y FS
AR
CR
05-
MP3
-010
N/A
N/A
6.2–
50FI
GU
RE
6.2–
50D
elet
ed b
y FS
AR
CR
05-
MP3
-010
N/A
N/A
6.2–
51FI
GU
RE
6.2–
51D
elet
ed b
y FS
AR
CR
05-
MP3
-010
N/A
N/A
6.2–
52FI
GU
RE
6.2–
52D
elet
ed b
y FS
AR
CR
05-
MP3
-010
N/A
N/A
6.2–
53FI
GU
RE
6.2–
53P&
ID C
onta
inm
ent M
onito
ring
Syst
emN
/AN
/A
6.2–
54FI
GU
RE
6.2–
54Q
uenc
h Sp
ray
Pum
ps C
hara
cter
istic
Cur
ves
N/A
N/A
6.2–
55FI
GU
RE
6.2–
55D
elet
ed b
y FS
AR
CR
05-
MP3
-010
N/A
N/A
6.2–
56FI
GU
RE
6.2–
56C
onta
inm
ent I
nter
nal S
truct
ure
Ope
ning
sN
/AN
/A
6.2–
57FI
GU
RE
6.2–
57Ex
pect
ed L
ong-
Term
Circ
ulat
ion
Patte
rns i
n C
onta
inm
ent
N/A
N/A
6.2–
58FI
GU
RE
6.2–
58C
onta
inm
ent H
ydro
gen
Mon
itorin
g Sy
stem
N/A
N/A
6.2–
59FI
GU
RE
6.2–
59C
onta
inm
ent P
ress
ure
Lim
iting
Bre
akN
/AN
/A
6.2–
59A
FIG
UR
E 6.
2–59
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
6.2–
60FI
GU
RE
6.2–
60C
onde
nsin
g W
all H
eat T
rans
fer C
oeff
icie
nt L
imiti
ng
Bre
akN
/AN
/A
6.2–
61FI
GU
RE
6.2–
61D
elet
ed b
y PK
G F
SC 0
7-M
P3-0
24N
/AN
/A
6.2–
62FI
GU
RE
6.2–
62D
elet
ed b
y PK
G F
SC 0
7-M
P3-0
24N
/AN
/A
6.3–
1FI
GU
RE
6.3–
1Sa
fety
Inje
ctio
n / R
esid
ual H
eat R
emov
al S
yste
m
Proc
ess F
low
Dia
gram
(She
et1
of2)
N/A
1 O
F 2
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
3 of
76
6.3–
1FI
GU
RE
6.3–
1Sa
fety
Inje
ctio
n / R
esid
ual H
eat R
emov
al S
yste
m
Proc
ess F
low
Dia
gram
(She
et2
of2)
N/A
2 O
F 2
6.3–
1FI
GU
RE
6.3–
1Sa
fety
Inje
ctio
n / R
esid
ual H
eat R
emov
al S
yste
m
Proc
ess F
low
Dia
gram
(She
et2
of2)
N/A
N/A
6.3–
2FI
GU
RE
6.3–
2(S
heet
s 1-2
)P&
ID H
igh
Pres
sure
Saf
ety
Inje
ctio
n25
212-
2691
3 (a
)SH
1 O
F 2
6.3–
2FI
GU
RE
6.3–
2(S
heet
s 1-2
)P&
ID H
igh
Pres
sure
Saf
ety
Inje
ctio
n25
212-
2691
3 (a
)SH
2 O
F 2
6.3–
3FI
GU
RE
6.3–
3R
esid
ual H
eat R
emov
al P
ump
Perf
orm
ance
Cur
veN
/AN
/A
6.3–
4FI
GU
RE
6.3–
4C
harg
ing
Pum
p C
urve
Ass
umed
for S
afet
y A
naly
sis
N/A
N/A
6.3–
5FI
GU
RE
6.3–
5H
igh
Hea
d SI
Pum
p C
urve
Ass
umed
for S
afet
y A
naly
sis
N/A
N/A
6.3–
6FI
GU
RE
6.3–
6R
efue
ling
Wat
er S
tora
ge T
ank
Wat
er L
evel
sN
/AN
/A
6.4–
1FI
GU
RE
6.4–
1C
ontro
l Roo
m A
rea
N/A
N/A
6.4–
2FI
GU
RE
6.4–
2C
ontro
l Roo
m In
take
and
Haz
ardo
us M
ater
ial S
tora
ge
Loca
tions
N/A
N/A
6.5–
1FI
GU
RE
6.5–
1Po
st D
BA
Min
imum
Con
tain
men
t Sum
p pH
N/A
N/A
7.1–
1FI
GU
RE
7.1–
1So
lid S
tate
Pro
tect
ion
Syst
em B
lock
Dia
gram
N/A
N/A
7.1–
2FI
GU
RE
7.1–
2R
eact
or T
rip/E
SF A
ctua
tion
Mec
hani
cal L
inka
ge fo
r D
ual T
rain
Sw
itche
sN
/AN
/A
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4002
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4003
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
4 of
76
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4004
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4005
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4006
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4007
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4008
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4009
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4010
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4011
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4012
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
5 of
76
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4013
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4014
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4015
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4016
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4017
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4018
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4020
7.2–
1FI
GU
RE
7.2–
1(S
heet
s 1-1
9) P
&ID
s Fun
ctio
nal D
iagr
am, R
eact
or T
rip
Syst
em/L
oop
Stop
Val
ve In
terlo
cks/
Pres
suriz
er P
ress
ure
Rel
ief S
yste
m25
212-
3900
1 (a
)SH
4019
\7.2
–2FI
GU
RE
7.2–
2Se
tpoi
nt R
educ
tion
Func
tion
for O
verp
ower
and
Ove
r-te
mpe
ratu
re Δ
T Tr
ips
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
6 of
76
\7.3
–1FI
GU
RE
7.3–
1Fa
ilure
Mod
es a
nd E
ffec
ts A
naly
sis Q
uenc
h Sp
ray
Syst
emN
/AN
/A
\7.3
–2FI
GU
RE
7.3–
2Fa
ult T
ree
Dia
gram
Que
nch
Spra
y Sy
stem
N/A
N/A
\7.3
–3FI
GU
RE
7.3–
3Ty
pica
l ESF
Tes
t Circ
uits
N/A
N/A
\7.3
–4FI
GU
RE
7.3–
4En
gine
ered
Saf
egua
rds T
est C
abin
etN
/AN
/A
7.6–
1FI
GU
RE
7.6–
1Lo
gic
Dia
gram
for R
HS
Isol
atio
n V
alve
sN
/AN
/A
7.6–
1FI
GU
RE
7.6–
1Lo
gic
Dia
gram
for R
HS
Isol
atio
n V
alve
sN
/AN
/A
7.6–
2FI
GU
RE
7.6–
2Fu
nctio
nal B
lock
Dia
gram
of A
ccum
ulat
or Is
olat
ion
Val
ves
N/A
N/A
7.6–
3FI
GU
RE
7.6–
3A
utom
atic
RH
S an
d Q
SS P
ump
Shut
off (
Shee
t 1)
N/A
1 O
F 2
7.6–
3FI
GU
RE
7.6–
3A
utom
atic
RH
S an
d Q
SS P
ump
Shut
off (
Shee
t 2)
N/A
2 O
F 2
7.6–
4FI
GU
RE
7.6–
4R
eact
or C
oola
nt S
yste
m L
oop
with
Loo
p St
op V
alve
sN
/AN
/A
7.7–
1FI
GU
RE
7.7–
1Si
mpl
ified
Blo
ck D
iagr
am o
f Rea
ctor
Con
trol S
yste
mN
/AN
/A
7.7–
2FI
GU
RE
7.7–
2C
ontro
l Ban
k R
od In
serti
on M
onito
rN
/AN
/A
7.7–
3FI
GU
RE
7.7–
3R
od D
evia
tion
Com
para
tor
N/A
N/A
7.7–
4FI
GU
RE
7.7–
4B
lock
Dia
gram
of P
ress
uriz
er P
ress
ure
Con
trol S
yste
mN
/AN
/A
7.7–
5FI
GU
RE
7.7–
5B
lock
Dia
gram
of P
ress
uriz
er L
evel
Con
trol S
yste
mN
/AN
/A
7.7–
6FI
GU
RE
7.7–
6B
lock
Dia
gram
of S
team
Gen
erat
or W
ater
Lev
el C
ontro
l Sy
stem
N/A
N/A
7.7–
7FI
GU
RE
7.7–
7B
lock
Dia
gram
of M
ain
Feed
wat
er P
ump
Spee
d C
ontro
l Sy
stem
N/A
N/A
7.7–
8FI
GU
RE
7.7–
8B
lock
Dia
gram
of S
team
Dum
p C
ontro
l Sys
tem
N/A
N/A
7.7–
9FI
GU
RE
7.7–
9B
asic
Flu
x-M
appi
ng S
yste
mN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
7 of
76
7.7–
10FI
GU
RE
7.7–
10N
ot U
sed
N/A
N/A
7.7–
11FI
GU
RE
7.7–
11N
ot U
sed
N/A
N/A
7.7–
12FI
GU
RE
7.7–
12N
ot U
sed
N/A
N/A
7.7–
13FI
GU
RE
7.7–
13N
ot U
sed
N/A
N/A
7.7–
14FI
GU
RE
7.7–
14Si
mpl
ified
Blo
ck D
iagr
am o
f Rod
Con
trol S
yste
mN
/AN
/A
7.7–
15FI
GU
RE
7.7–
15C
ontro
l Ban
k B
Par
tial S
impl
ified
Sch
emat
ic D
iagr
am
of P
ower
Cab
inet
s 1B
D a
nd2
BD
N/A
N/A
7.8–
1FI
GU
RE
7.8–
1A
ctua
tion
Logi
c Sy
stem
Arc
hite
ctur
eN
/AN
/A
8.1–
1FI
GU
RE
8.1–
1El
ectri
cal O
ne L
ine
Dia
gram
N/A
N/A
8.1–
2FI
GU
RE
8.1–
234
5 kV
Tra
nsm
issi
on M
ap o
f Con
nect
icut
and
Wes
tern
M
assa
chus
etts
N/A
N/A
8.1–
3FI
GU
RE
8.1–
334
5 kV
Sw
itchy
ard
N/A
N/A
8.2–
1FI
GU
RE
8.2–
1D
elet
ed b
y FS
AR
CR
MP3
-UC
R-2
016-
014
N/A
N/A
8.2–
2FI
GU
RE
8.2–
2H
unts
Bro
ok Ju
nctio
nN
/AN
/A
8.2–
2FI
GU
RE
8.2–
2H
unts
Bro
ok Ju
nctio
nN
/AN
/A
8.3–
1FI
GU
RE
8.3–
1R
outin
g of
Red
unda
nt C
ircui
ts (S
heet
1 o
f 4)
N/A
1 O
F 4
8.3–
1FI
GU
RE
8.3–
1R
outin
g of
Red
unda
nt C
ircui
ts (S
heet
2 o
f 4)
N/A
2 O
F 4
8.3–
1FI
GU
RE
8.3–
1R
outin
g of
Red
unda
nt C
ircui
ts (S
heet
3 o
f 4)
N/A
3 O
F 4
8.3–
1FI
GU
RE
8.3–
1R
outin
g of
Red
unda
nt C
ircui
ts (S
heet
1 o
f 4)
N/A
4 O
F 4
8.3–
2FI
GU
RE
8.3–
2O
ne L
ine
Dia
gram
125
VD
C a
nd 1
20V
AC
Dis
tribu
tion
Syst
em -
Com
posi
te25
212-
3007
6 (a
)N
/A
8.3–
3FI
GU
RE
8.3–
312
0V A
C V
ital B
us a
nd S
afet
y R
elat
ed 1
25V
DC
Sy
stem
sN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
8 of
76
8.3–
4FI
GU
RE
8.3–
4Po
wer
Sup
ply
- Thi
rd C
harg
ing
Pum
pN
/AN
/A
8.3–
5FI
GU
RE
8.3–
5Po
wer
Sup
ply
- Thi
rd R
eact
or P
lant
Com
pone
nt C
oolin
g Pu
mp
N/A
N/A
8.3–
6FI
GU
RE
8.3–
6Em
erge
ncy
Gen
erat
or F
uel O
il Tr
ansf
er P
umps
N/A
N/A
8.3–
7FI
GU
RE
8.3–
7R
outin
g of
Pre
ferr
ed O
ffsi
te a
nd S
tand
by O
nsite
Circ
uits
N/A
N/A
8.3–
8FI
GU
RE
8.3–
8N
ot U
sed
N/A
N/A
8.3–
9FI
GU
RE
8.3–
96.
9kV
and
416
0 V
olt S
yste
ms
N/A
N/A
8.3–
10FI
GU
RE
8.3–
10(S
heet
s 1-5
) Em
erge
ncy
Gen
erat
or L
oad
Info
rmat
ion
2521
2-39
241
(a)
SH 1
89
8.3–
10FI
GU
RE
8.3–
10(S
heet
s 1-5
) Em
erge
ncy
Gen
erat
or L
oad
Info
rmat
ion
2521
2-39
241
(a)
SH 1
90
8.3–
10FI
GU
RE
8.3–
10(S
heet
s 1-5
) Em
erge
ncy
Gen
erat
or L
oad
Info
rmat
ion
2521
2-39
241
(a)
SH 1
91
8.3–
10FI
GU
RE
8.3–
10(S
heet
s 1-5
) Em
erge
ncy
Gen
erat
or L
oad
Info
rmat
ion
2521
2-39
241
(a)
SH 1
92
8.3–
10FI
GU
RE
8.3–
10(S
heet
s 1-5
) Em
erge
ncy
Gen
erat
or L
oad
Info
rmat
ion
2521
2-39
241
(a)
SH 1
93
9.1–
1FI
GU
RE
9.1–
1Pi
ctor
ial V
iew
of T
ypic
al R
egio
n 3
Rac
k M
odul
eN
/AN
/A
9.1–
2FI
GU
RE
9.1–
2To
p V
iew
of 6
x6 R
ack
Arr
ay (R
egio
n 3)
N/A
N/A
9.1–
2AFI
GU
RE
9.1–
2AD
elet
ed b
y PK
G F
SC 9
8-M
P3-1
16N
/AN
/A
9.1–
3FI
GU
RE
9.1–
3Si
de V
iew
of 6
x6 R
ack
Arr
ay (R
egio
n 3)
N/A
N/A
9.1–
4FI
GU
RE
9.1–
4N
ot U
sed
N/A
N/A
9.1–
5FI
GU
RE
9.1–
5A
djus
tabl
e Fu
el R
ack
Leve
ling
Pad
(Reg
ion
3)N
/AN
/A
9.1–
6FI
GU
RE
9.1–
6P&
ID F
uel P
ool C
oolin
g an
d Pu
rific
atio
n Sy
stem
N/A
N/A
9.1–
7FI
GU
RE
9.1–
7B
ulk
Pool
Tra
nsie
nt T
empe
ratu
re P
lot (
Full
Cor
e O
fflo
ad)
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 4
9 of
76
9.1–
7AFI
GU
RE
9.1–
7AB
ulk
Pool
Tra
nsie
nt T
empe
ratu
re P
lot (
Emer
genc
y C
ore
Off
load
)N
/AN
/A
9.1–
8FI
GU
RE
9.1–
8C
oold
own
Cur
ve fo
r Nor
mal
Ope
ratio
n (4
Hou
rs L
oss o
f Po
ol C
oolin
g)N
/AN
/A
9.1–
9FI
GU
RE
9.1–
9R
efue
ling
Mac
hine
N/A
N/A
9.1–
10FI
GU
RE
9.1–
10Sp
ent F
uel B
ridge
and
Hoi
stin
g St
ruct
ure
N/A
N/A
9.1–
11FI
GU
RE
9.1–
11N
ew F
uel E
leva
tor
N/A
N/A
9.1–
12FI
GU
RE
9.1–
12Fu
el T
rans
fer S
yste
mN
/AN
/A
9.1–
13FI
GU
RE
9.1–
13D
ELET
ED B
Y P
KG
FSC
00-
MP3
-045
N/A
N/A
9.1–
14FI
GU
RE
9.1–
14Sp
ent F
uel H
andl
ing
Tool
N/A
N/A
9.1–
15FI
GU
RE
9.1–
15N
ew F
uel H
andl
ing
Tool
N/A
N/A
9.1–
16FI
GU
RE
9.1–
16R
eact
or In
tern
als L
iftin
g D
evic
eN
/AN
/A
9.1–
17FI
GU
RE
9.1–
17Q
uick
Act
ing
Stud
Ten
sion
er (s
heet
1)
N/A
N/A
9.1–
18FI
GU
RE
9.1–
18N
ew F
uel V
ault
Layo
utN
/AN
/A
9.1–
19FI
GU
RE
9.1–
19N
ew F
uel V
ault
Elev
atio
n V
iew
N/A
N/A
9.1–
20FI
GU
RE
9.1–
20Fu
el A
ssem
bly
Tran
sfer
Lim
it V
erse
s CC
P Te
mpe
ratu
reN
/AN
/A
9.1–
21FI
GU
RE
9.1–
21M
illst
one
Uni
t 3 S
pent
Fue
l Poo
l Lay
out
N/A
N/A
9.1–
22FI
GU
RE
9.1–
22R
egio
n 1
Blo
ckin
g Sc
hem
e fo
r 3-o
ut-o
f-4
Stor
age
Rac
ksN
/AN
/A
9.1–
22A
FIG
UR
E 9.
1–22
APi
ctor
ial V
iew
of T
ypic
al R
egio
n 1
Rac
k M
odul
eN
/AN
/A
9.1–
22B
FIG
UR
E 9.
1–22
BTy
pica
l Ass
embl
age
of R
egio
n 1
Cel
lsN
/AN
/A
9.1–
22C
FIG
UR
E 9.
1–22
CEl
evat
ion
Vie
w o
f Reg
ion
1 R
ack
Mod
ule
N/A
N/A
9.1–
23FI
GU
RE
9.1–
23N
ot U
sed
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
0 of
76
9.1–
23A
FIG
UR
E 9.
1–23
APi
ctor
ial V
iew
of T
ypic
al R
egio
n 2
Rac
k M
odul
eN
/AN
/A
9.1–
23B
FIG
UR
E 9.
1–23
BTy
pica
l Arr
ay o
f Reg
ion
2 C
ells
N/A
N/A
9.1–
23C
FIG
UR
E 9.
1–23
CEl
evat
ion
Vie
w o
f Reg
ion
2 R
ack
Mod
ule
N/A
N/A
9.1–
24FI
GU
RE
9.1–
24Su
ppor
t Ped
esta
l for
Reg
ion
1 an
d R
egio
n 2
Rac
k M
odul
esN
/AN
/A
9.2–
1FI
GU
RE
9.2–
1(S
heet
s 1-4
) P&
ID S
ervi
ce W
ater
2521
2-26
933
(a)
SH 1
9.2–
1FI
GU
RE
9.2–
1(S
heet
s 1-4
) P&
ID S
ervi
ce W
ater
2521
2-26
933
(a)
SH 2
9.2–
1FI
GU
RE
9.2–
1(S
heet
s 1-4
) P&
ID S
ervi
ce W
ater
2521
2-26
933
(a)
SH 3
9.2–
1FI
GU
RE
9.2–
1(S
heet
s 1-4
) P&
ID S
ervi
ce W
ater
2521
2-26
933
(a)
SH 4
9.2–
2FI
GU
RE
9.2–
2(S
heet
s 1-3
) P&
ID R
eact
or P
lant
Com
pone
nt C
oolin
g Sy
stem
2521
2-26
921
(a)
SH 1
9.2–
2FI
GU
RE
9.2–
2(S
heet
s 1-3
) P&
ID R
eact
or P
lant
Com
pone
nt C
oolin
g Sy
stem
2521
2-26
921
(a)
SH 2
9.2–
2FI
GU
RE
9.2–
2(S
heet
s 1-3
) P&
ID R
eact
or P
lant
Com
pone
nt C
oolin
g Sy
stem
2521
2-26
921
(a)
SH 3
9.2–
3FI
GU
RE
9.2–
3(S
heet
s 1-2
) P&
ID R
eact
or P
lant
Chi
lled
Wat
er S
yste
m25
212-
2692
2 (a
)SH
1
9.2–
3FI
GU
RE
9.2–
3(S
heet
s 1-2
) P&
ID R
eact
or P
lant
Chi
lled
Wat
er S
yste
m25
212-
2692
2 (a
)SH
2
9.2–
4FI
GU
RE
9.2–
4P&
ID S
afet
y In
ject
ion
Pum
p an
d N
eutro
n Sh
ield
Tan
k C
oolin
g Sy
stem
s25
212-
2691
4 (a
)SH
1
9.2–
5FI
GU
RE
9.2–
5P&
ID C
harg
ing
Pum
p Se
alin
g an
d Lu
bric
atio
n25
212-
2690
5 (a
)1
OF
1
9.2–
6FI
GU
RE
9.2–
6P&
ID C
onde
nsat
e D
emin
eral
izer
Liq
uid
Was
te25
212-
2692
9 (a
)N
/A
9.2–
7FI
GU
RE
9.2–
7(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m25
212-
2692
0 (a
)SH
1 0
F 6
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
1 of
76
9.2–
7FI
GU
RE
9.2–
7(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m25
212-
2692
0 (a
) SH
2 0
F 6
9.2–
7(2)
(A)
FIG
UR
E 9.
2–7(
2)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
) F
SAR
Fig
ure
(a)
9.2-
7 SH
. 2(A
)N
/A
9.2–
7(2)
(A)
FIG
UR
E 9.
2–7(
2)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
9.2–
7(2)
(A)
FIG
UR
E 9.
2–7(
2)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
9.2–
7(2)
(A)
FIG
UR
E 9.
2–7(
2)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
9.2–
7(2)
(A)
FIG
UR
E 9.
2–7(
2)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
9.2–
7(2)
(A)
FIG
UR
E 9.
2–7(
2)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
9.2–
7FI
GU
RE
9.2–
7(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m25
212-
2692
0 (a
)SH
3 O
F 6
9.2–
7FI
GU
RE
9.2–
7(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m25
212-
2692
0 (a
)SH
4 O
F 6
9.2–
7FI
GU
RE
9.2–
7(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m25
212-
2692
0 (a
)SH
5 O
F 6
9.2–
7(5)
(A)
FIG
UR
E 9.
2–7(
5)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
) F
SAR
Fig
ure(a
)
9.2-
7 SH
. 5(A
)N
/A
9.2–
7(5)
(A)
FIG
UR
E 9.
2–7(
5)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
9.2–
7(5)
(A)
FIG
UR
E 9.
2–7(
5)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
9.2–
7(5)
(A)
FIG
UR
E 9.
2–7(
5)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
2 of
76
9.2–
7(5)
(A)
FIG
UR
E 9.
2–7(
5)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
9.2–
7(5)
(A)
FIG
UR
E 9.
2–7(
5)(A
)(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m
(TEM
P⁄M
OD
)N
/AN
/A
9.2–
7FI
GU
RE
9.2–
7(S
heet
s 1-6
) P&
ID W
ater
Tre
atm
ent S
yste
m25
212-
2692
0 (a
)SH
6 O
F 6
9.2–
8FI
GU
RE
9.2–
8(S
heet
s 1-3
) P&
ID D
omes
tic W
ater
and
San
itary
Sy
stem
s25
212-
2694
7 (a
)SH
1 O
F 3
9.2–
8FI
GU
RE
9.2–
8(S
heet
s 1-3
) P&
ID D
omes
tic W
ater
and
San
itary
Sy
stem
s25
212-
2694
7 (a
)SH
2 O
F 3
9.2–
8FI
GU
RE
9.2–
8(S
heet
s 1-3
) P&
ID D
omes
tic W
ater
and
San
itary
Sy
stem
s25
212-
2694
7 (a
)SH
3 O
F 3
9.2–
9FI
GU
RE
9.2–
9(S
heet
s 1-3
) P&
ID C
onde
nsat
e Sy
stem
2521
2-26
926
(a)
SH 1
OF
3
9.2–
9FI
GU
RE
9.2–
9(S
heet
s 1-3
) P&
ID C
onde
nsat
e Sy
stem
2521
2-26
926
(a)
SH 2
OF
3
9.2–
9FI
GU
RE
9.2–
9(S
heet
s 1-3
) P&
ID C
onde
nsat
e Sy
stem
2521
2-26
926
(a)
SH 3
OF
3
9.2–
10FI
GU
RE
9.2–
10(S
heet
s 1-2
) P&
ID T
urbi
ne P
lant
Com
pone
nt C
oolin
g W
ater
2521
2-26
934
(a)
SH 1
OF
2
9.2–
10FI
GU
RE
9.2–
10(S
heet
s 1-2
) P&
ID T
urbi
ne P
lant
Com
pone
nt C
oolin
g W
ater
2521
2-26
934
(a)
SH 2
OF
2
9.2–
11FI
GU
RE
9.2–
11P&
ID P
rimar
y G
rade
Wat
er S
yste
m25
212-
2691
9 (a
)SH
1 O
F 1
9.3–
1FI
GU
RE
9.3–
1(S
heet
s 1-4
)P&
ID C
ompr
esse
d A
ir Sy
stem
2521
2-26
938
(a)
SH 1
OF
4
9.3–
1FI
GU
RE
9.3–
1(S
heet
s 1-4
)P&
ID C
ompr
esse
d A
ir Sy
stem
2521
2-26
938
(a)
SH 2
OF
4
9.3–
1FI
GU
RE
9.3–
1(S
heet
s 1-4
)P&
ID C
ompr
esse
d A
ir Sy
stem
2521
2-26
938
(a)
SH 3
OF
4
9.3–
1FI
GU
RE
9.3–
1(S
heet
s 1-4
)P&
ID C
ompr
esse
d A
ir Sy
stem
2521
2-26
938
(a)
SH 4
OF
4
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
3 of
76
9.3–
2FI
GU
RE
9.3–
2(S
heet
s 1-4
) P&
ID R
eact
or P
lant
Sam
plin
g Sy
stem
2521
2-26
944
(a)
SH 1
OF
4
9.3–
2FI
GU
RE
9.3–
2(S
heet
s 1-4
) P&
ID R
eact
or P
lant
Sam
plin
g Sy
stem
2521
2-26
944
(a)
SH 2
OF
4
9.3–
2FI
GU
RE
9.3–
2(S
heet
s 1-4
) P&
ID R
eact
or P
lant
Sam
plin
g Sy
stem
2521
2-26
944
(a)
SH 3
OF
4
9.3–
2FI
GU
RE
9.3–
2(S
heet
s 1-4
) P&
ID R
eact
or P
lant
Sam
plin
g Sy
stem
2521
2-26
944
(a)
SH 4
OF
4
9.3–
3FI
GU
RE
9.3–
3(S
heet
s 1-2
) P&
ID T
urbi
ne P
lant
Sam
plin
g25
212-
2694
3 (a
)SH
1 O
F 2
9.3–
3FI
GU
RE
9.3–
3(S
heet
s 1-2
) P&
ID T
urbi
ne P
lant
Sam
plin
g25
212-
2694
3 (a
)SH
2 O
F 2
9.3–
4FI
GU
RE
9.3–
4(S
heet
s 1-2
) P&
ID R
adio
activ
e G
aseo
us W
aste
Sys
tem
2521
2-26
909
(a)
SH 1
9.3–
4FI
GU
RE
9.3–
4(S
heet
s 1-2
) P&
ID R
adio
activ
e G
aseo
us W
aste
Sys
tem
2521
2-26
909
(a)
SH 2
9.3–
5FI
GU
RE
9.3–
5P&
ID R
eact
or P
lant
Gas
eous
Dra
ins
2521
2-26
907
(a)
N/A
9.3–
6FI
GU
RE
9.3–
6(S
heet
s 1-3
) P&
ID R
adio
activ
e Li
quid
Was
te a
nd
Aer
ated
Dra
in25
212-
2690
6 (a
)SH
1 O
F 3
9.3–
6FI
GU
RE
9.3–
6(S
heet
s 1-3
) P&
ID R
adio
activ
e Li
quid
Was
te a
nd
Aer
ated
Dra
in25
212-
2690
6 (a
)SH
2 O
F 3
9.3–
6FI
GU
RE
9.3–
6(S
heet
s 1-3
) P&
ID R
adio
activ
e Li
quid
Was
te a
nd
Aer
ated
Dra
in25
212-
2690
6 (a
)SH
3 O
F 3
9.3–
7FI
GU
RE
9.3–
7P&
ID R
eact
or C
oola
nt P
ump
Seal
s (Sh
eet 1
)25
212-
2690
3 (a
)N
/A
9.3–
7(1)
(A)
FIG
UR
E 9.
3–7(
1)(A
)R
eact
or C
oola
nt P
ump
Seal
s (TE
MP/
MO
D)
FSA
R F
igur
e (a
)
9.3-
7 SH
. 1(A
)N
/A
9.3–
8FI
GU
RE
9.3–
8(S
heet
s 1-4
) P&
ID C
hem
ical
and
Vol
ume
Con
trol
2521
2-26
904
(a)
SH 1
OF
4
9.3–
8FI
GU
RE
9.3–
8(S
heet
s 1-4
) P&
ID C
hem
ical
and
Vol
ume
Con
trol
2521
2-26
904
(a)
SH 2
OF
4
9.3–
8FI
GU
RE
9.3–
8(S
heet
s 1-4
) P&
ID C
hem
ical
and
Vol
ume
Con
trol
2521
2-26
904
(a)
SH 3
OF
4
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
4 of
76
9.3–
8FI
GU
RE
9.3–
8(S
heet
s 1-4
) P&
ID C
hem
ical
and
Vol
ume
Con
trol
2521
2-26
904
(a)
SH 4
OF
4
9.3–
9FI
GU
RE
9.3–
9(S
heet
s 1-3
) P&
ID B
oron
Rec
over
y Sy
stem
2521
2-26
908
(a)
SH 1
OF
3
9.3–
9FI
GU
RE
9.3–
9(S
heet
s 1-3
) P&
ID B
oron
Rec
over
y Sy
stem
2521
2-26
908
(a)
SH 2
OF
3
9.3–
9(2)
(A)
FIG
UR
E 9.
3–9(
2)(A
)B
oron
Rec
over
y Sy
stem
(TEM
P/M
OD
)FS
AR
Fig
ure(a
)
9.3-
9 SH
. 2(A
)N
/A
9.3–
9FI
GU
RE
9.3–
9(S
heet
s 1-3
) P&
ID B
oron
Rec
over
y Sy
stem
2521
2-26
908
(a)
SH 3
OF
3
9.3–
10FI
GU
RE
9.3–
10(S
heet
s 1-3
)P&
ID P
ost A
ccid
ent S
ampl
e Sy
stem
2521
2-26
955
(a)
SH 1
OF
3
9.3–
10FI
GU
RE
9.3–
10(S
heet
s 1-3
)P&
ID P
ost A
ccid
ent S
ampl
e Sy
stem
2521
2-26
955
(a)
SH 2
OF
3
9.3–
10FI
GU
RE
9.3–
10(S
heet
s 1-3
)P&
ID P
ost A
ccid
ent S
ampl
e Sy
stem
2521
2-26
955
(a)
SH 3
OF
3
9.4–
1FI
GU
RE
9.4–
1(S
heet
s 1-5
) P&
ID C
ontro
l Bui
ldin
g H
eatin
g,
Ven
tilat
ion
and
Air
Con
ditio
ning
2521
2-26
951
(a)
SH 1
OF
5
9.4–
1FI
GU
RE
9.4–
1(S
heet
s 1-5
) P&
ID C
ontro
l Bui
ldin
g H
eatin
g,
Ven
tilat
ion
and
Air
Con
ditio
ning
2521
2-26
951
(a)
SH 2
OF
5
9.4–
1FI
GU
RE
9.4–
1(S
heet
s 1-5
) P&
ID C
ontro
l Bui
ldin
g H
eatin
g,
Ven
tilat
ion
and
Air
Con
ditio
ning
2521
2-26
951
(a)
SH 3
OF
5
9.4–
1FI
GU
RE
9.4–
1(S
heet
s 1-5
) P&
ID C
ontro
l Bui
ldin
g H
eatin
g,
Ven
tilat
ion
and
Air
Con
ditio
ning
2521
2-26
951
(a)
SH 4
OF
5
9.4–
1FI
GU
RE
9.4–
1(S
heet
s 1-5
) P&
ID C
ontro
l Bui
ldin
g H
eatin
g,
Ven
tilat
ion
and
Air
Con
ditio
ning
2521
2-26
951
(a)
SH 5
OF
5
9.4–
2FI
GU
RE
9.4–
2(S
heet
s 1-6
) P&
ID R
eact
or P
lant
Ven
tilat
ion
2521
2-26
948
(a)
SH 1
OF
6
9.4–
2FI
GU
RE
9.4–
2(S
heet
s 1-6
) P&
ID R
eact
or P
lant
Ven
tilat
ion
2521
2-26
948
(a)
SH 2
OF
6
9.4–
2FI
GU
RE
9.4–
2(S
heet
s 1-6
) P&
ID R
eact
or P
lant
Ven
tilat
ion
2521
2-26
948
(a)
SH 3
OF
6
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
5 of
76
9.4–
2FI
GU
RE
9.4–
2(S
heet
s 1-6
) P&
ID R
eact
or P
lant
Ven
tilat
ion
2521
2-26
948
(a)
SH 4
OF
6
9.4–
2FI
GU
RE
9.4–
2(S
heet
s 1-6
) P&
ID R
eact
or P
lant
Ven
tilat
ion
2521
2-26
948
(a)
SH 5
OF
6
9.4–
2FI
GU
RE
9.4–
2(S
heet
s 1-6
) P&
ID R
eact
or P
lant
Ven
tilat
ion
2521
2-26
948
(a)
SH 6
OF
6
9.4–
3FI
GU
RE
9.4–
3(S
heet
s 1-5
) P&
IDs T
urbi
ne P
lant
Ven
tilat
ion
& IS
O
Bus
Duc
t Coo
ling
Syst
ems
2521
2-26
950
(a)
SH 1
OF
5
9.4–
3FI
GU
RE
9.4–
3(S
heet
s 1-5
) P&
IDs T
urbi
ne P
lant
Ven
tilat
ion
& IS
O
Bus
Duc
t Coo
ling
Syst
ems
2521
2-26
950
(a)
SH 2
OF
5
9.4–
3FI
GU
RE
9.4–
3(S
heet
s 1-5
) P&
IDs T
urbi
ne P
lant
Ven
tilat
ion
& IS
O
Bus
Duc
t Coo
ling
Syst
ems
2521
2-26
950
(a)
SH 3
OF
5
9.4–
3FI
GU
RE
9.4–
3(S
heet
s 1-5
) P&
IDs T
urbi
ne P
lant
Ven
tilat
ion
& IS
O
Bus
Duc
t Coo
ling
Syst
ems
2521
2-26
950
(a)
SH 4
OF
5
9.4–
3FI
GU
RE
9.4–
3(S
heet
s 1-5
) P&
IDs T
urbi
ne P
lant
Ven
tilat
ion
& IS
O
Bus
Duc
t Coo
ling
Syst
ems
2521
2-26
950
(a)
SH 5
OF
5
9.4–
4FI
GU
RE
9.4–
4(S
heet
s 1-3
) P&
ID E
SF a
nd M
SV B
uild
ings
Ven
tilat
ion
2521
2-26
952
(a)
SH 1
OF
3
9.4–
4FI
GU
RE
9.4–
4(S
heet
s 1-3
) P&
ID E
SF a
nd M
SV B
uild
ings
Ven
tilat
ion
2521
2-26
952
(a)
SH 2
OF
3
9.4–
4FI
GU
RE
9.4–
4(S
heet
s 1-3
) P&
ID E
SF a
nd M
SV B
uild
ings
Ven
tilat
ion
2521
2-26
952
(a)
SH 3
OF
3
9.4–
5FI
GU
RE
9.4–
5P&
ID C
onta
inm
ent S
truct
ure
Ven
tilat
ion
2521
2-26
953
(a)
SH 1
OF
1
9.4–
6FI
GU
RE
9.4–
6(S
heet
s 1-3
) P&
ID S
ervi
ce B
uild
ing
Ven
tilat
ion
2521
2-26
949
(a)
SH 1
OF
3
9.4–
6FI
GU
RE
9.4–
6(S
heet
s 1-3
) P&
ID S
ervi
ce B
uild
ing
Ven
tilat
ion
2521
2-26
949
(a)
SH 2
OF
3
9.4–
6FI
GU
RE
9.4–
6(S
heet
s 1-3
) P&
ID S
ervi
ce B
uild
ing
Ven
tilat
ion
2521
2-26
949
(a)
SH 3
OF
3
9.4–
7FI
GU
RE
9.4–
7(S
heet
s 1-2
) P&
ID A
uxili
ary
Boi
ler a
nd V
entil
atio
n25
212-
2693
6 (a
)SH
1 O
F 2
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
6 of
76
9.4–
7FI
GU
RE
9.4–
7(S
heet
s 1-2
) P&
ID A
uxili
ary
Boi
ler a
nd V
entil
atio
n25
212-
2693
6 (a
)SH
2 O
F 2
9.4–
8FI
GU
RE
9.4–
8(S
heet
s 1-3
) P&
ID H
ot W
ater
Hea
ting
Syst
em25
212-
2693
7 (a
)SH
1 O
F 3
9.4–
8FI
GU
RE
9.4–
8(S
heet
s 1-3
) P&
ID H
ot W
ater
Hea
ting
Syst
em25
212-
2693
7 (a
)SH
2 O
F 3
9.4–
8FI
GU
RE
9.4–
8(S
heet
s 1-3
) P&
ID H
ot W
ater
Hea
ting
Syst
em25
212-
2693
7 (a
)SH
3 O
F 3
9.4–
9FI
GU
RE
9.4–
9P&
ID T
echn
ical
Sup
port
Cen
ter,
Hea
ting,
Ven
tilat
ion
and
Air
Con
ditio
ning
2521
2-26
956
(a)
SH 1
OF
1
9.5–
1FI
GU
RE
9.5–
1Fi
re P
rote
ctio
n Sy
stem
(Now
in F
PER
Fig
ure
4-1)
N/A
N/A
9.5–
2FI
GU
RE
9.5–
2P&
ID E
mer
genc
y G
ener
ator
Fue
l Oil
Syst
em25
212-
2691
7 (a
)SH
1 O
F 1
9.5–
3FI
GU
RE
9.5–
3P&
ID E
mer
genc
y D
iese
l Rel
ated
Sys
tem
s (Sh
eets
1-5
)25
212-
2691
6 (a
)SH
1 O
F 5
9.5–
3FI
GU
RE
9.5–
3P&
ID E
mer
genc
y D
iese
l Rel
ated
Sys
tem
s (Sh
eets
1-5
)25
212-
2691
6 (a
)SH
2 O
F 5
9.5–
3FI
GU
RE
9.5–
3P&
ID E
mer
genc
y D
iese
l Rel
ated
Sys
tem
s (Sh
eets
1-5
)25
212-
2691
6 (a
)SH
3 O
F 5
9.5–
3FI
GU
RE
9.5–
3P&
ID E
mer
genc
y D
iese
l Rel
ated
Sys
tem
s (Sh
eets
1-5
)25
212-
2691
6 (a
)SH
4 O
F 5
9.5–
3FI
GU
RE
9.5–
3P&
ID E
mer
genc
y D
iese
l Rel
ated
Sys
tem
s (Sh
eets
1-5
)25
212-
2691
6 (a
)SH
5 O
F 5
9.5–
4FI
GU
RE
9.5–
4Fi
re P
rote
ctio
n Sy
stem
(Now
in F
PER
Fig
ure
4-1)
N/A
N/A
9.5–
5FI
GU
RE
9.5–
5P&
ID N
itrog
en a
nd H
ydro
gen
Syst
em (S
heet
s 1-3
)25
212-
2693
9 (a
)SH
1 O
F 3
9.5–
5FI
GU
RE
9.5–
5P&
ID N
itrog
en a
nd H
ydro
gen
Syst
em (S
heet
s 1-3
)25
212-
2693
9 (a
)SH
2 O
F 3
9.5–
5FI
GU
RE
9.5–
5P&
ID N
itrog
en a
nd H
ydro
gen
Syst
em (S
heet
s 1-3
)25
212-
2693
9 (a
)SH
3 O
F 3
9.5–
6FI
GU
RE
9.5–
6N
ot U
sed
N/A
N/A
9.5–
7FI
GU
RE
9.5–
7Si
te W
ater
Fire
Pro
tect
ion
N/A
N/A
10.1
–1FI
GU
RE
10.1
–1Fu
ndam
enta
l Dia
gram
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
7 of
76
10.1
–2FI
GU
RE
10.1
–2R
ated
Hea
t Bal
ance
2521
2-23
050
(a)
SH 9
10.1
–3FI
GU
RE
10.1
–3D
elet
ed b
y PK
G F
SC 0
3-M
P3-0
27N
/AN
/A
10.2
–1FI
GU
RE
10.2
–1P&
ID E
lect
ro-H
ydra
ulic
Con
trol
2521
2-26
940
(a)
N/A
10.2
–2FI
GU
RE
10.2
–2(S
heet
s1-3
) P&
ID T
urbi
ne G
ener
ator
and
Fee
d Pu
mp
Oil
Syst
ems
2521
2-26
941
(a)
SH 1
OF
3
10.2
–2FI
GU
RE
10.2
–2(S
heet
s1-3
) P&
ID T
urbi
ne G
ener
ator
and
Fee
d Pu
mp
Oil
Syst
ems
2521
2-26
941
(a)
SH 2
OF
3
10.2
–2FI
GU
RE
10.2
–2(S
heet
s1-3
) P&
ID T
urbi
ne G
ener
ator
and
Fee
d Pu
mp
Oil
Syst
ems
2521
2-26
941
(a)
SH 3
OF
3
10.2
–3FI
GU
RE
10.2
–3P&
ID T
urbi
ne G
ener
ator
Sup
port
Syst
ems
2521
2-26
942
(a)
SH 1
OF
1
10.3
–1FI
GU
RE
10.3
–1(S
heet
s1-6
) P&
ID M
ain
Stea
m a
nd R
ehea
t25
212-
2692
3 (a
)SH
1 O
F 6
10.3
–1FI
GU
RE
10.3
–1(S
heet
s1-6
) P&
ID M
ain
Stea
m a
nd R
ehea
t25
212-
2692
3 (a
)SH
2 O
F 6
10.3
–1FI
GU
RE
10.3
–1(S
heet
s1-6
) P&
ID M
ain
Stea
m a
nd R
ehea
t25
212-
2692
3 (a
)SH
3 O
F 6
10.3
–1FI
GU
RE
10.3
–1(S
heet
s1-6
) P&
ID M
ain
Stea
m a
nd R
ehea
t25
212-
2692
3 (a
)SH
4 O
F 6
10.3
–1FI
GU
RE
10.3
–1(S
heet
s1-6
) P&
ID M
ain
Stea
m a
nd R
ehea
t25
212-
2692
3 (a
)SH
5 O
F 6
10.3
–1FI
GU
RE
10.3
–1(S
heet
s1-6
) P&
ID M
ain
Stea
m a
nd R
ehea
t25
212-
2692
3 (a
)SH
6 O
F 6
10.3
–2FI
GU
RE
10.3
–2(S
heet
s1-3
) P&
ID T
urbi
ne P
lant
Mis
cella
neou
s Dra
ins
2521
2-26
945
(a)
SH 1
OF
3
10.3
–2FI
GU
RE
10.3
–2(S
heet
s1-3
) P&
ID T
urbi
ne P
lant
Mis
cella
neou
s Dra
ins
2521
2-26
945
(a)
SH 2
OF
3
10.3
–2FI
GU
RE
10.3
–2(S
heet
s1-3
) P&
ID T
urbi
ne P
lant
Mis
cella
neou
s Dra
ins
2521
2-26
945
(a)
SH 3
OF
3
10.3
–3FI
GU
RE
10.3
–3P&
ID C
hem
ical
Fee
d25
212-
2693
1 (a
)SH
1 O
F 1
10.3
–3(1
)(A
)FI
GU
RE
10.3
–3(1
)(A
)D
elet
ed b
y PK
G F
SC 9
8-M
P3-1
26N
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
8 of
76
10.3
–4FI
GU
RE
10.3
–4M
ain
Stea
m Is
olat
ion
Val
veN
/AN
/A
10.4
–1FI
GU
RE
10.4
–1(S
heet
s1-3
) P&
ID C
onde
nsat
e Sy
stem
2521
2-26
926
(a)
SH 1
OF
3
10.4
–1FI
GU
RE
10.4
–1(S
heet
s1-3
) P&
ID C
onde
nsat
e Sy
stem
2521
2-26
926
(a)
SH 2
OF
3
10.4
–1FI
GU
RE
10.4
–1(S
heet
s1-3
) P&
ID C
onde
nsat
e Sy
stem
2521
2-26
926
(a)
SH 3
OF
3
10.4
–2FI
GU
RE
10.4
–2(S
heet
s1-2
) P&
ID C
onde
nser
Air
Rem
oval
Sys
tem
and
W
ater
box
Prim
ing
2521
2-26
927
(a)
SH 1
0F
2
10.4
–2FI
GU
RE
10.4
–2(S
heet
s1-2
) P&
ID C
onde
nser
Air
Rem
oval
Sys
tem
and
W
ater
box
Prim
ing
2521
2-26
927
(a)
SH 2
OF
2
10.4
–3FI
GU
RE
10.4
–3P&
ID E
xtra
ctio
n St
eam
and
Tur
bine
Gen
erat
or G
land
Se
al a
nd E
xhau
st (S
heet
s1-2
)25
212-
2692
4 (a
)SH
1 O
F 2
10.4
–3FI
GU
RE
10.4
–3P&
ID E
xtra
ctio
n St
eam
and
Tur
bine
Gen
erat
or G
land
Se
al a
nd E
xhau
st (S
heet
s1-2
)25
212-
2692
4 (a
)SH
2 O
F 2
10.4
–4FI
GU
RE
10.4
–4P&
ID C
ircul
atin
g W
ater
Sys
tem
(She
ets1
-2)
2521
2-26
932
(a)
SH 1
OF
2
10.4
–4FI
GU
RE
10.4
–4P&
ID C
ircul
atin
g W
ater
Sys
tem
(She
ets1
-2)
2521
2-26
932
(a)
SH 2
OF
2
10.4
–5FI
GU
RE
10.4
–5P&
ID C
onde
nsat
e D
emin
eral
izer
- M
ixed
Bed
(S
heet
s1-5
)25
212-
2692
8 (a
)SH
1 O
F 5
10.4
–5FI
GU
RE
10.4
–5P&
ID C
onde
nsat
e D
emin
eral
izer
- M
ixed
Bed
(S
heet
s1-5
)25
212-
2692
8 (a
)SH
2 O
F 5
10.4
–5FI
GU
RE
10.4
–5P&
ID C
onde
nsat
e D
emin
eral
izer
- M
ixed
Bed
(S
heet
s1-5
)25
212-
2692
8 (a
)SH
3 O
F 5
10.4
–5FI
GU
RE
10.4
–5P&
ID C
onde
nsat
e D
emin
eral
izer
- M
ixed
Bed
(S
heet
s1-5
)25
212-
2692
8 (a
)SH
4 O
F 5
10.4
–5FI
GU
RE
10.4
–5P&
ID C
onde
nsat
e D
emin
eral
izer
- M
ixed
Bed
(S
heet
s1-5
)25
212-
2692
8 (a
)SH
5 O
F 5
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 5
9 of
76
10.4
–6FI
GU
RE
10.4
–6P&
ID F
eedw
ater
Sys
tem
(She
ets1
-4)
2521
2-26
930
(a)
SH 1
OF
4
10.4
–6FI
GU
RE
10.4
–6P&
ID F
eedw
ater
Sys
tem
(She
ets1
-4)
2521
2-26
930
(a)
SH 2
OF
4
10.4
–6FI
GU
RE
10.4
–6P&
ID F
eedw
ater
Sys
tem
(She
ets1
-4)
2521
2-26
930
(a)
SH 3
OF
4
10.4
–6FI
GU
RE
10.4
–6P&
ID F
eedw
ater
Sys
tem
(She
ets1
-4)
2521
2-26
930
(a)
SH 4
OF
4
10.4
–7FI
GU
RE
10.4
–7P&
ID F
eedw
ater
Hea
ter a
nd M
ain
Stea
m R
ehea
t Ven
ts
and
Dra
ins (
Shee
ts1-
3)25
212-
2692
5 (a
)SH
1 O
F 3
10.4
–7FI
GU
RE
10.4
–7P&
ID F
eedw
ater
Hea
ter a
nd M
ain
Stea
m R
ehea
t Ven
ts
and
Dra
ins (
Shee
ts1-
3)25
212-
2692
5 (a
)SH
2 O
F 3
10.4
–7FI
GU
RE
10.4
–7P&
ID F
eedw
ater
Hea
ter a
nd M
ain
Stea
m R
ehea
t Ven
ts
and
Dra
ins (
Shee
ts1-
3)25
212-
2692
5 (a
)SH
3 O
F 3
10.4
–8FI
GU
RE
10.4
–8N
ot U
sed
N/A
N/A
10.4
–9FI
GU
RE
10.4
–9P&
ID A
uxili
ary
Stea
m, F
eedw
ater
and
Con
dens
ate
(She
ets1
-3)
2521
2-26
935
(a)
SH 1
OF
3
10.4
–9(1
)(A
)FI
GU
RE
10.4
–9(1
)(A
)A
uxili
ary
Stea
m, F
eedw
ater
and
Con
dens
ate
(TEM
P/M
OD
3-9
7-06
1)25
212-
2693
5 (a
)SH
1 O
F 3
10.4
–9FI
GU
RE
10.4
–9P&
ID A
uxili
ary
Stea
m, F
eedw
ater
and
Con
dens
ate
(She
ets1
-3)
2521
2-26
935
(a)
SH 2
OF
3
10.4
–9FI
GU
RE
10.4
–9P&
ID A
uxili
ary
Stea
m, F
eedw
ater
and
Con
dens
ate
(She
ets1
-3)
2521
2-26
935
(a)
SH 3
OF
3
10.4
–10
FIG
UR
E 10
.4–1
0M
inim
um A
uxili
ary
Feed
wat
er F
low
to F
our S
team
G
ener
ator
s, Lo
ss o
f Nor
mal
Fee
dwat
er E
vent
N/A
N/A
10.4
–11
FIG
UR
E 10
.4–1
1M
inim
um A
FW F
low
to T
hree
Eff
ectiv
e St
eam
G
ener
ator
s, Fe
edw
ater
Lin
e B
reak
Eve
ntN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
0 of
76
10.4
–12
FIG
UR
E 10
.4–1
2M
inim
um A
uxili
ary
Feed
wat
er F
low
to T
wo
Stea
m
Gen
erat
ors,
Bet
ter E
stim
ate
Loss
of N
orm
al F
eedw
ater
Ev
ent f
or R
elia
bilit
y A
naly
sis
N/A
N/A
11.2
–1FI
GU
RE
11.2
–1P&
ID R
adio
activ
e Li
quid
Was
te a
nd A
erat
ed D
rain
s (S
heet
s 1-3
)25
212-
2690
6 (a
)SH
1 O
F 4
11.2
–1FI
GU
RE
11.2
–1P&
ID R
adio
activ
e Li
quid
Was
te a
nd A
erat
ed D
rain
s (S
heet
s 1-3
)25
212-
2690
6 (a
)SH
2 O
F 4
11.2
–1FI
GU
RE
11.2
–1P&
ID R
adio
activ
e Li
quid
Was
te a
nd A
erat
ed D
rain
s (S
heet
s 1-3
)25
212-
2690
6 (a
)SH
3 O
F 4
11.2
–2FI
GU
RE
11.2
–2C
onde
nsat
e D
emin
eral
izer
Liq
uid
Was
te25
212-
2692
9 (a
)N
/A
11.2
–3FI
GU
RE
11.2
–3Ex
pect
ed R
adio
activ
e Li
quid
Was
te S
ourc
e an
d D
isch
arge
Pat
hsN
/AN
/A
11.3
–1FI
GU
RE
11.3
–1P&
ID R
adio
activ
e G
aseo
us W
aste
Sys
tem
(She
ets 1
-2)
2521
2-26
909
(a)
SH 1
OF
3
11.3
–1FI
GU
RE
11.3
–1P&
ID R
adio
activ
e G
aseo
us W
aste
Sys
tem
(She
ets 1
-2)
2521
2-26
909
(a)
SH 2
OF
3
11.3
–2FI
GU
RE
11.3
–2V
entil
atio
n Sy
stem
Com
posi
te D
raw
ing
Nor
mal
O
pera
tion
N/A
N/A
11.4
–1FI
GU
RE
11.4
–1P&
ID R
adio
activ
e So
lid W
aste
(She
ets 1
-2)
2521
2-26
910
(a)
SH 1
OF
2
11.4
–1FI
GU
RE
11.4
–1P&
ID R
adio
activ
e So
lid W
aste
(She
ets 1
-2)
2521
2-26
910
(a)
SH 2
OF
2
11.4
–2FI
GU
RE
11.4
–2(H
isto
rical
) Rad
ioac
tive
Solid
Was
te S
yste
m E
xpec
ted
Qua
ntiti
esN
/AN
/A
11.4
–3FI
GU
RE
11.4
–3(H
isto
rical
) Rad
ioac
tive
Solid
Was
te S
yste
m D
esig
n Q
uant
ities
N/A
N/A
12.2
–1FI
GU
RE
12.2
–1A
rran
gem
ent -
Ope
ratin
g Pe
rson
nel A
cces
s and
Egr
ess
N/A
N/A
12.2
–2FI
GU
RE
12.2
–2A
rran
gem
ent -
Ope
ratin
g Pe
rson
nel A
cces
s and
Egr
ess
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
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g N
umbe
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eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
1 of
76
12.2
–3FI
GU
RE
12.2
–3A
rran
gem
ent -
Ope
ratin
g Pe
rson
nel A
cces
s and
Egr
ess
N/A
N/A
12.2
–4FI
GU
RE
12.2
–4I 1
31 C
once
ntra
tion
Con
tain
men
tN
/AN
/A
12.3
–1FI
GU
RE
12.3
–1D
esig
n B
asis
Rad
iatio
n Zo
nes f
or S
hiel
ding
(Nor
mal
O
pera
tions
)N
/AN
/A
12.3
–2FI
GU
RE
12.3
–2D
esig
n B
asis
Rad
iatio
n Zo
nes f
or S
hiel
ding
(Nor
mal
O
pera
tions
)N
/AN
/A
12.3
–3FI
GU
RE
12.3
–3D
esig
n B
asis
Rad
iatio
n Zo
nes f
or S
hiel
ding
(Nor
mal
O
pera
tions
)N
/AN
/A
12.3
–4FI
GU
RE
12.3
–4D
esig
n B
asis
Rad
iatio
n Zo
nes f
or S
hiel
ding
(Nor
mal
O
pera
tions
)N
/AN
/A
12.3
–5FI
GU
RE
12.3
–5Th
is fi
gure
mov
ed to
Sec
tion
11.5
(Fig
ure
11.5
-2)
N/A
N/A
12.3
–6FI
GU
RE
12.3
–6D
esig
n B
asis
Rad
iatio
n Zo
nes f
or S
hiel
ding
(Shu
tdow
n/R
efue
ling)
N/A
N/A
12.3
–7FI
GU
RE
12.3
–7D
esig
n B
asis
Rad
iatio
n Zo
nes f
or S
hiel
ding
(Shu
tdow
n/R
efue
ling)
N/A
N/A
12.3
–8FI
GU
RE
12.3
–8D
esig
n B
asis
Rad
iatio
n Zo
nes f
or S
hiel
ding
(Shu
tdow
n/R
efue
ling)
N/A
N/A
12.3
–9FI
GU
RE
12.3
–9D
esig
n B
asis
Rad
iatio
n Zo
nes f
or S
hiel
ding
(Shu
tdow
n/R
efue
ling)
N/A
N/A
12.3
–10
FIG
UR
E 12
.3–1
0R
oute
s to
Post
-Acc
iden
t Vita
l Are
as (S
heet
1)
N/A
SH 1
OF
9
12.3
–10
FIG
UR
E 12
.3–1
0R
oute
s to
Post
-Acc
iden
t Vita
l Are
as (S
heet
2)
N/A
SH 2
OF
9
12.3
–10
FIG
UR
E 12
.3–1
0R
oute
s to
Post
-Acc
iden
t Vita
l Are
as (S
heet
3)
N/A
SH 3
OF
9
12.3
–10
FIG
UR
E 12
.3–1
0R
oute
s to
Post
-Acc
iden
t Vita
l Are
as (S
heet
4)
N/A
SH 4
OF
9
12.3
–10
FIG
UR
E 12
.3–1
0R
oute
s to
Post
-Acc
iden
t Vita
l Are
as (S
heet
5)
N/A
SH 5
OF
9
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
2 of
76
12.3
–10
FIG
UR
E 12
.3–1
0R
oute
s to
Post
-Acc
iden
t Vita
l Are
as (S
heet
6)
N/A
SH 6
OF
9
12.3
–10
FIG
UR
E 12
.3–1
0R
oute
s to
Post
-Acc
iden
t Vita
l Are
as (S
heet
7)
N/A
SH 7
OF
9
12.3
–10
FIG
UR
E 12
.3–1
0R
oute
s to
Post
-Acc
iden
t Vita
l Are
as (S
heet
8)
N/A
SH 8
OF
9
12.3
–10
FIG
UR
E 12
.3–1
0R
oute
s to
Post
-Acc
iden
t Vita
l Are
as (S
heet
9)
N/A
SH 9
OF
9
12.3
–11
FIG
UR
E 12
.3–1
1Fu
el T
rans
fer T
ube
Shie
ldin
gN
/AN
/A
12.3
–12
FIG
UR
E 12
.3–1
2U
pper
Rea
ctor
Cav
ity N
eutro
n Sh
ield
N/A
N/A
12.5
–1FI
GU
RE
12.5
–1Fi
gure
has
bee
n de
lete
dN
/AN
/A
13.1
–1FI
GU
RE
13.1
–1D
elet
ed b
y PK
G F
SC 0
1-M
P3-0
13N
/AN
/A
13.5
–1FI
GU
RE
13.5
–1C
ontro
l Roo
m A
rea
N/A
N/A
14.2
–1FI
GU
RE
14.2
–1St
artu
p A
ctiv
ities
Log
ic D
iagr
ams
N/A
N/A
14.2
–2FI
GU
RE
14.2
–2St
artu
p O
rgan
izat
ion
Cha
rtN
/AN
/A
14.2
–3FI
GU
RE
14.2
–3Te
st P
roce
dure
Pre
para
tion
N/A
N/A
14.2
–4FI
GU
RE
14.2
–4Te
st P
roce
dure
Per
form
ance
N/A
N/A
14.2
–5FI
GU
RE
14.2
–5Pr
eope
ratio
nal T
est P
hase
N/A
N/A
14.2
–6FI
GU
RE
14.2
–6In
itial
Sta
rtup
Test
Pha
seN
/AN
/A
14.2
–6FI
GU
RE
14.2
–6In
itial
Sta
rtup
Test
Pha
seN
/AN
/A
15.0
–1FI
GU
RE
15.0
–1Ill
ustra
tion
of O
verte
mpe
ratu
re a
nd O
verp
ower
ΔT
Prot
ectio
nN
/AN
/A
15.0
–1 A
FIG
UR
E 15
.0–1
AD
elet
ed b
y FS
AR
CR
PK
G F
SC 0
2-M
P3-0
17N
/AN
/A
15.0
–2FI
GU
RE
15.0
–2D
oppl
er P
ower
Coe
ffic
ient
Use
d in
Acc
iden
t Ana
lysi
sN
/AN
/A
15.0
–3FI
GU
RE
15.0
–3R
CC
A P
ositi
on V
ersu
s Tim
e to
Das
hpot
N/A
N/A
15.0
–4FI
GU
RE
15.0
–4N
orm
aliz
ed R
od W
orth
Ver
sus P
erce
nt In
serte
dN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
3 of
76
15.0
–5FI
GU
RE
15.0
–5N
orm
aliz
ed R
CC
A B
ank
Rea
ctiv
ity W
orth
Ver
sus D
rop
Tim
eN
/AN
/A
15.0
–6FI
GU
RE
15.0
–6D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
49N
/AN
/A
15.0
–7FI
GU
RE
15.0
–7A
bbre
viat
ions
N/A
N/A
15.0
–8FI
GU
RE
15.0
–8Ex
cess
ive
Hea
t Rem
oval
Due
to F
eedw
ater
Sys
tem
s M
alfu
nctio
nN
/AN
/A
15.0
–9FI
GU
RE
15.0
–9Ex
cess
ive
Load
Incr
ease
N/A
N/A
15.0
–10
FIG
UR
E 15
.0–1
0D
epre
ssur
izat
ion
of M
ain
Stea
m S
yste
mN
/AN
/A
15.0
–11
FIG
UR
E 15
.0–1
1Lo
ss o
f Ext
erna
l Loa
d/Tu
rbin
e Tr
ipN
/AN
/A
15.0
–12
FIG
UR
E 15
.0–1
2Lo
ss o
f Off
site
Pow
er to
Sta
tion
Aux
iliar
ies
N/A
N/A
15.0
–13
FIG
UR
E 15
.0–1
3Lo
ss o
f Nor
mal
Fee
dwat
erN
/AN
/A
15.0
–14
FIG
UR
E 15
.0–1
4M
ajor
Rup
ture
of a
Mai
n Fe
edw
ater
Lin
eN
/AN
/A
15.0
–15
FIG
UR
E 15
.0–1
5Lo
ss o
f For
ced
Rea
ctor
Coo
lant
Flo
wN
/AN
/A
15.0
–16
FIG
UR
E 15
.0–1
6U
ncon
trolle
d R
od C
lust
er C
ontro
l Ass
embl
y B
ank
With
draw
alN
/AN
/A
15.0
–17
FIG
UR
E 15
.0–1
7D
ropp
ed R
od C
lust
er C
ontro
l Ass
embl
yN
/AN
/A
15.0
–18
FIG
UR
E 15
.0–1
8Si
ngle
Rod
Clu
ster
Con
trol A
ssem
bly
With
draw
al a
t Fu
ll Po
wer
N/A
N/A
15.0
–19
FIG
UR
E 15
.0–1
9N
ot U
sed
15.0
–20
FIG
UR
E 15
.0–2
0N
ot U
sed
15.0
–21
FIG
UR
E 15
.0–2
1R
uptu
re o
f Con
trol R
od D
rive
Mec
hani
sm H
ousi
ng
(Rod
Eje
ctio
n)N
/AN
/A
15.0
–22
FIG
UR
E 15
.0–2
2In
adve
rtent
EC
CS
Ope
ratio
n at
Pow
erN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
4 of
76
15.0
–23
FIG
UR
E 15
.0–2
3A
ccid
enta
l Dep
ress
uriz
atio
n of
Rea
ctor
Coo
lant
Sys
tem
N/A
N/A
15.0
–24
FIG
UR
E 15
.0–2
4St
eam
Gen
erat
or T
ube
Rup
ture
N/A
N/A
15.0
–25
FIG
UR
E 15
.0–2
5Lo
ss o
f Coo
lant
Acc
iden
tN
/AN
/A
15.0
–26
FIG
UR
E 15
.0–2
6C
VC
S Le
tdow
n Li
ne R
uptu
reN
/AN
/A
15.0
–27
FIG
UR
E 15
.0–2
7G
WPS
Gas
Dec
ay T
ank
Rup
ture
N/A
N/A
15.0
–28
FIG
UR
E 15
.0–2
8Fl
oor D
rain
Tan
k Fa
ilure
N/A
N/A
15.0
–29
FIG
UR
E 15
.0–2
9Fu
el H
andl
ing
Acc
iden
t in
Fuel
Bui
ldin
gN
/AN
/A
15.0
–30
FIG
UR
E 15
.0–3
0Fu
el H
andl
ing
Acc
iden
t Ins
ide
Con
tain
men
tN
/AN
/A
15.0
–31
FIG
UR
E 15
.0–3
1Sp
ent F
uel C
ask
Dro
p A
ccid
ent
N/A
N/A
15.1
–1FI
GU
RE
15.1
–1Fe
edw
ater
Con
trol V
alve
Mal
func
tion
N/A
N/A
15.1
–1 A
FIG
UR
E 15
.1–1
AD
elet
ed b
y FS
AR
CR
PK
G F
SC 0
2-M
P3-0
17N
/AN
/A
15.1
–2FI
GU
RE
15.1
–2Fe
edw
ater
Con
trol V
alve
Mal
func
tion
N/A
N/A
15.1
–2 A
FIG
UR
E 15
.1–2
AD
elet
ed b
y FS
AR
CR
PK
G F
SC 0
2-M
P3-0
17N
/AN
/A
15.1
–3FI
GU
RE
15.1
–3D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–4FI
GU
RE
15.1
–4D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–5FI
GU
RE
15.1
–5D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–6FI
GU
RE
15.1
–6D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–7FI
GU
RE
15.1
–7D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–8FI
GU
RE
15.1
–8D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–9FI
GU
RE
15.1
–9D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–10
FIG
UR
E 15
.1–1
0D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–11
FIG
UR
E 15
.1–1
1Ty
pica
l(1) K
effe
ctiv
e V
ersu
s Tem
pera
ture
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
5 of
76
15.1
–12
FIG
UR
E 15
.1–1
2D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–12
AFI
GU
RE
15.1
–12
AD
elet
ed b
y FS
AR
CR
PK
G F
SC 0
2-M
P3-0
17N
/AN
/A
15.1
–13
FIG
UR
E 15
.1–1
3D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
50N
/AN
/A
15.1
–13
AFI
GU
RE
15.1
–13
AD
elet
ed b
y FS
AR
CR
PK
G F
SC 0
2-M
P3-0
17N
/AN
/A
15.1
–14
FIG
UR
E 15
.1–1
4TY
PIC
AL(1
) Dop
pler
Pow
er F
eedb
ack
N/A
N/A
15.1
–15
FIG
UR
E 15
.1–1
51.
4 SQ
. FT.
Ste
amlin
e R
uptu
re O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.1
–15
AFI
GU
RE
15.1
–15
A1.
4 SQ
. FT
STEA
MLI
NE
RU
PTU
RE
OFF
SITE
PO
WER
AV
AIL
AB
LEN
/AN
/A
15.1
–16
FIG
UR
E 15
.1–1
61.
4 SQ
. FT.
Ste
amlin
e R
uptu
re O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.1
–16
AFI
GU
RE
15.1
–16
A1.
4 SQ
. FT.
STE
AM
LIN
E R
UPT
UR
E O
FFSI
TE
POW
ER A
VA
ILA
BLE
N/A
N/A
15.1
–17
FIG
UR
E 15
.1–1
71.
4 SQ
. FT.
Ste
amlin
e R
uptu
re O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.1
–17
AFI
GU
RE
15.1
–17
A1.
4 SQ
. FT.
STE
AM
LIN
E R
UPT
UR
E O
FFSI
TE
POW
ER A
VA
ILA
BLE
N/A
N/A
15.2
–1FI
GU
RE
15.2
–1Tu
rbin
e Tr
ip -
RC
S O
verp
ress
uriz
atio
n C
ase
N/A
N/A
15.2
–1A
FIG
UR
E 15
.2–1
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–2FI
GU
RE
15.2
–2Tu
rbin
e Tr
ip -
RC
S O
verp
ress
uriz
atio
n C
ase
N/A
N/A
15.2
–2A
FIG
UR
E 15
.2–2
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–3FI
GU
RE
15.2
–3Tu
rbin
e Tr
ip–D
NB
R C
ase
N/A
N/A
15.2
–3A
FIG
UR
E 15
.2–3
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–4FI
GU
RE
15.2
–4Tu
rbin
e Tr
ip–D
NB
R C
ase
N/A
N/A
15.2
–4A
FIG
UR
E 15
.2–4
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
6 of
76
15.2
–5FI
GU
RE
15.2
–5Tu
rbin
e Tr
ip–M
SS O
ver p
ress
uriz
atio
n C
ase
N/A
N/A
15.2
–5A
FIG
UR
E 15
.2–5
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–6FI
GU
RE
15.2
–6Tu
rbin
e Tr
ip–M
SS O
ver p
ress
uriz
atio
n C
ase
N/A
N/A
15.2
–6A
FIG
UR
E 15
.2–6
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–7FI
GU
RE
15.2
–7D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
51N
/AN
/A
15.2
–7A
FIG
UR
E 15
.2–7
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–8FI
GU
RE
15.2
–8D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
51N
/AN
/A
15.2
–8A
FIG
UR
E 15
.2–8
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–9FI
GU
RE
15.2
–9Lo
ss o
f Nor
mal
Fee
dwat
er w
ith O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–9A
FIG
UR
E 15
.2–9
ALo
ss o
f Nor
mal
Fee
dwat
er w
ithou
t Off
site
Pow
er
Ava
ilabl
eN
/AN
/A
15.2
–10
FIG
UR
E 15
.2–1
0Lo
ss o
f Nor
mal
Fee
dwat
er w
ith O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–10A
FIG
UR
E 15
.2–1
0ALo
ss o
f Nor
mal
Fee
dwat
er w
ithou
t Off
site
Pow
er
Ava
ilabl
eN
/AN
/A
15.2
–11
FIG
UR
E 15
.2–1
1Lo
ss o
f Nor
mal
Fee
dwat
er w
ith O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–11A
FIG
UR
E 15
.2–1
1ALo
ss o
f Nor
mal
Fee
dwat
er w
ithou
t Off
site
Pow
er
Ava
ilabl
eN
/AN
/A
15.2
–12
FIG
UR
E 15
.2–1
2Lo
ss o
f Nor
mal
Fee
dwat
er w
ith O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–12A
FIG
UR
E 15
.2–1
2ALo
ss o
f Nor
mal
Fee
dwat
er w
ithou
t Off
site
Pow
er
Ava
ilabl
eN
/AN
/A
15.2
–13
FIG
UR
E 15
.2–1
3M
ain
Feed
line
Rup
ture
with
Off
site
Pow
er A
vaila
ble
N/A
N/A
15.2
–13A
FIG
UR
E 15
.2–1
3AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–14
FIG
UR
E 15
.2–1
4M
ain
Feed
line
Rup
ture
with
Off
site
Pow
er A
vaila
ble
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
7 of
76
15.2
–14A
FIG
UR
E 15
.2–1
4AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–15
FIG
UR
E 15
.2–1
5M
ain
Feed
line
Rup
ture
with
Off
site
Pow
er A
vaila
ble
N/A
N/A
15.2
–15A
FIG
UR
E 15
.2–1
5AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–16
FIG
UR
E 15
.2–1
6M
ain
Feed
line
Rup
ture
with
Off
site
Pow
er A
vaila
ble
N/A
N/A
15.2
–16A
FIG
UR
E 15
.2–1
6AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–17
FIG
UR
E 15
.2–1
7M
ain
Feed
line
Rup
ture
with
Off
site
Pow
er A
vaila
ble
N/A
N/A
15.2
–17A
FIG
UR
E 15
.2–1
7AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–18
FIG
UR
E 15
.2–1
8M
ain
Feed
line
Rup
ture
with
Off
site
Pow
er A
vaila
ble
N/A
N/A
15.2
–18A
FIG
UR
E 15
.2–1
8AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–19
FIG
UR
E 15
.2–1
9M
ain
Feed
line
Rup
ture
with
out O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–19A
FIG
UR
E 15
.2–1
9AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–20
FIG
UR
E 15
.2–2
0M
ain
Feed
line
Rup
ture
with
out O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–20A
FIG
UR
E 15
.2–2
0AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–21
FIG
UR
E 15
.2–2
1M
ain
Feed
line
Rup
ture
with
out O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–21A
FIG
UR
E 15
.2–2
1AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–22
FIG
UR
E 15
.2–2
2M
ain
Feed
line
Rup
ture
with
out O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–22A
FIG
UR
E 15
.2–2
2AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–23
FIG
UR
E 15
.2–2
3M
ain
Feed
line
Rup
ture
with
out O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–23A
FIG
UR
E 15
.2–2
3AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.2
–24
FIG
UR
E 15
.2–2
4M
ain
Feed
line
Rup
ture
with
out O
ffsi
te P
ower
Ava
ilabl
eN
/AN
/A
15.2
–24A
FIG
UR
E 15
.2–2
4AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.3
–1FI
GU
RE
15.3
–1Fl
ow T
rans
ient
s, O
ne P
ump
Coa
stin
g D
own
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
8 of
76
15.3
–2FI
GU
RE
15.3
–2N
ucle
ar P
ower
and
Pre
ssur
izer
Pre
ssur
e Tr
ansi
ents
, One
Pu
mp
Coa
stin
g D
own
N/A
N/A
15.3
–3FI
GU
RE
15.3
–3A
vera
ge a
nd H
ot C
hann
el H
eat F
lux
Tran
sien
t, O
ne
Pum
p C
oast
ing
Dow
nN
/AN
/A
15.3
–4FI
GU
RE
15.3
–4D
NB
R V
ersu
s Tim
e, O
ne P
ump
Coa
stin
g D
own
N/A
N/A
15.3
–5FI
GU
RE
15.3
–5C
ore
Flow
Coa
stdo
wn,
Fou
r Pum
ps C
oast
ing
Dow
nN
/AN
/A
15.3
–6FI
GU
RE
15.3
–6N
ucle
ar P
ower
& P
ress
uriz
er P
ress
ure
Tran
sien
ts, F
our
Pum
ps C
oast
ing
Dow
nN
/AN
/A
15.3
–7FI
GU
RE
15.3
–7A
vera
ge &
Hot
Cha
nnel
Tra
nsie
nts,
Four
Pum
ps
Coa
stin
g D
own
N/A
N/A
15.3
–8FI
GU
RE
15.3
–8D
NB
R v
ersu
s Tim
e, F
our P
umps
Coa
stin
g D
own
N/A
N/A
15.3
–9FI
GU
RE
15.3
–9Fl
ow T
rans
ient
s, O
ne L
ocke
d R
otor
N/A
N/A
15.3
–9 A
FIG
UR
E 15
.3–9
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.3
–10
FIG
UR
E 15
.3–1
0R
CS
Pres
sure
, One
Loc
ked
Rot
orN
/AN
/A
15.3
–10
AFI
GU
RE
15.3
–10
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.3
–11
FIG
UR
E 15
.3–1
1N
ucle
ar P
ower
, Ave
rage
and
Cor
e A
vera
ge H
eat F
lux
Tran
sien
ts, O
ne L
ocke
d R
otor
N/A
N/A
15.3
–11
AFI
GU
RE
15.3
–11
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.3
–12
FIG
UR
E 15
.3–1
2M
axim
um C
lad
Tem
pera
ture
at H
ot S
pot,
One
Loc
ked
Rot
orN
/AN
/A
15.3
–12
AFI
GU
RE
15.3
–12
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.3
–13
FIG
UR
E 15
.3–1
3C
ore
Flow
Tra
nsie
nt, F
our P
umps
Exp
erie
ncin
g Fr
eque
ncy
Dec
ayN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 6
9 of
76
15.3
–14
FIG
UR
E 15
.3–1
4N
ucle
ar P
ower
and
Pres
suriz
er P
ress
ure T
rans
ient
s, Fo
ur
Pum
ps E
xper
ienc
ing
Freq
uenc
y D
ecay
N/A
N/A
15.3
–15
FIG
UR
E 15
.3–1
5A
vera
ge a
nd H
ot C
hann
el H
eat F
lux
Tran
sien
ts, F
our
Pum
ps E
xper
ienc
ing
Freq
uenc
y D
ecay
N/A
N/A
15.3
–16
FIG
UR
E 15
.3–1
6D
NB
R v
ersu
s Tim
e, F
our P
umps
Exp
erie
ncin
g Fr
eque
ncy
Dec
ayN
/AN
/A
15.4
–1FI
GU
RE
15.4
–1N
eutro
n an
d Th
erm
al F
lux
Tran
sien
ts fo
r Unc
ontro
lled
RC
CA
With
draw
al fr
om a
Sub
criti
cal C
ondi
tion
N/A
N/A
15.4
–2FI
GU
RE
15.4
–2O
mitt
edN
/AN
/A
15.4
–3FI
GU
RE
15.4
–3Fu
el a
nd C
lad
Tem
pera
ture
Tra
nsie
nts f
or U
ncon
trolle
d R
CC
A W
ithdr
awal
from
a S
ubcr
itica
l Con
ditio
nN
/AN
/A
15.4
–4FI
GU
RE
15.4
–4U
ncon
trolle
d R
CC
A B
ank
With
draw
al fr
om F
ull P
ower
w
ith M
inim
um R
eact
ivity
Fee
dbac
k (1
00 P
CM
/sec
W
ithdr
awal
Rat
e)N
/AN
/A
15.4
–4 A
FIG
UR
E 15
.4–4
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–5FI
GU
RE
15.4
–5U
ncon
trolle
d R
CC
A B
ank
With
draw
al fr
om F
ull P
ower
w
ith M
inim
um R
eact
ivity
Fee
dbac
k (1
00 P
CM
/sec
W
ithdr
awal
Rat
e)N
/AN
/A
15.4
–5 A
FIG
UR
E 15
.4–5
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–6FI
GU
RE
15.4
–6U
ncon
trolle
d R
CC
A B
ank
With
draw
al fr
om F
ull P
ower
w
ith M
inim
um R
eact
ivity
Fee
dbac
k (1
00 P
CM
/sec
W
ithdr
awal
Rat
e)N
/AN
/A
15.4
–6 A
FIG
UR
E 15
.4–6
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–7FI
GU
RE
15.4
–7U
ncon
trolle
d R
CC
A B
ank
With
draw
al fr
om F
ull P
ower
w
ith M
inim
um R
eact
ivity
Fee
dbac
k (1
.5 P
CM
/sec
W
ithdr
awal
Rat
e)N
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 7
0 of
76
15.4
–7 A
FIG
UR
E 15
.4–7
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–8FI
GU
RE
15.4
–8U
ncon
trolle
d R
CC
A B
ank
With
draw
al fr
om F
ull P
ower
w
ith M
inim
um R
eact
ivity
Fee
dbac
k (1
.5 P
CM
/sec
W
ithdr
awal
Rat
e)N
/AN
/A
15.4
–8 A
FIG
UR
E 15
.4–8
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–9FI
GU
RE
15.4
–9U
ncon
trolle
d R
CC
A B
ank
With
draw
al fr
om F
ull P
ower
w
ith M
inim
um R
eact
ivity
Fee
dbac
k (1
.5 P
CM
/sec
W
ithdr
awal
Rat
e)N
/AN
/A
15.4
–9 A
FIG
UR
E 15
.4–9
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–10
FIG
UR
E 15
.4–1
0M
inim
um D
NB
R v
ersu
s Rea
ctiv
ity In
serti
on R
ate
Rod
W
ithdr
awal
from
100
% R
TPN
/AN
/A
15.4
–10
AFI
GU
RE
15.4
–10
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–11
FIG
UR
E 15
.4–1
1M
inim
um D
NB
R v
ersu
s Rea
ctiv
ity In
serti
on R
ate
Rod
W
ithdr
awal
from
60%
RTP
N/A
N/A
15.4
–11
AFI
GU
RE
15.4
–11
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–12
FIG
UR
E 15
.4–1
2M
inim
um D
NB
R v
ersu
s Rea
ctiv
ity In
serti
on R
ate
Rod
W
ithdr
awal
from
10%
RTP
N/A
N/A
15.4
–13
FIG
UR
E 15
.4–1
3D
ropp
ed R
od C
lust
er C
ontro
l Ass
embl
y, M
anua
l C
ontro
lN
/AN
/A
15.4
–14
FIG
UR
E 15
.4–1
4D
ropp
ed R
od C
lust
er C
ontro
l Ass
embl
y, M
anua
l C
ontro
lN
/AN
/A
15.4
–15
FIG
UR
E 15
.4–1
5N
ot U
sed
N/A
N/A
15.4
–16
FIG
UR
E 15
.4–1
6N
ot U
sed
N/A
N/A
15.4
–17
FIG
UR
E 15
.4–1
7N
ot U
sed
N/A
N/A
15.4
–18
FIG
UR
E 15
.4–1
8N
ot U
sed
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 7
1 of
76
15.4
–19
FIG
UR
E 15
.4–1
9N
ot U
sed
N/A
N/A
15.4
–19
FIG
UR
E 15
.4–1
9N
ot U
sed
N/A
N/A
15.4
–21
FIG
UR
E 15
.4–2
1In
terc
hang
e B
etw
een
Reg
ion
1 an
d R
egio
n 3
Ass
embl
yN
/AN
/A
15.4
–22
FIG
UR
E 15
.4–2
2In
terc
hang
e B
etw
een
Reg
ion
1 an
d R
egio
n 2
Ass
embl
y,
Bur
nabl
e Po
ison
Rod
s Bei
ng R
etai
ned
by th
e R
egio
n 2
Ass
embl
yN
/AN
/A
15.4
–23
FIG
UR
E 15
.4–2
3In
terc
hang
e B
etw
een
Reg
ion
1 an
d R
egio
n 2
Ass
embl
y,
Bur
nabl
e Po
ison
Rod
s Bei
ng R
etai
ned
by th
e R
egio
n 1
Ass
embl
yN
/AN
/A
15.4
–24
FIG
UR
E 15
.4–2
4En
richm
ent E
rror
: A R
egio
n 2
Ass
embl
y Lo
aded
into
th
e C
ore
Cen
tral P
ositi
onN
/AN
/A
15.4
–25
FIG
UR
E 15
.4–2
5Lo
adin
g a
Reg
ion
2 A
ssem
bly
into
a R
egio
n 1
Posi
tion
Nea
r Cor
e Pe
riphe
ryN
/AN
/A
15.4
–26
FIG
UR
E 15
.4–2
6N
ucle
ar P
ower
Tra
nsie
nt B
OL
HFP
RC
CA
Eje
ctio
nN
/AN
/A
15.4
–26
AFI
GU
RE
15.4
–26
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–27
FIG
UR
E 15
.4–2
7H
ot S
pot F
uel a
nd C
lad
Tem
pera
ture
ver
sus T
ime -
BO
L H
FP R
CC
A E
ject
ion
N/A
N/A
15.4
–27
AFI
GU
RE
15.4
–27
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.4
–28
FIG
UR
E 15
.4–2
8N
ucle
ar P
ower
Tra
nsie
nt E
OL
HZP
RC
CA
Eje
ctio
n (T
wo
RC
Ps R
unni
ng)
N/A
N/A
15.4
–29
FIG
UR
E 15
.4–2
9H
ot S
pot F
uel a
nd C
lad
Tem
pera
ture
ver
sus T
ime
- EO
L H
ZP R
CC
A E
ject
ion
(Tw
o R
CPs
Run
ning
)N
/AN
/A
15.4
–30
FIG
UR
E 15
.4–3
0R
eact
or C
oola
nt S
yste
m In
tegr
ated
Bre
ak F
low
Fo
llow
ing
a R
od E
ject
ion
Acc
iden
tN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 7
2 of
76
15.5
–1FI
GU
RE
15.5
–1C
VC
S M
alfu
nctio
n th
at in
crea
ses R
eact
or C
oola
nt
Inve
ntor
y, N
ucle
ar P
ower
and
Ves
sel A
vera
ge
Tem
pera
ture
ver
sus T
ime
N/A
N/A
15.5
–2FI
GU
RE
15.5
–2C
VC
S M
alfu
nctio
n th
at in
crea
ses R
eact
or C
oola
nt
Inve
ntor
y, P
ress
uriz
er P
ress
ure
and
Pres
suriz
er W
ater
V
olum
e ve
rsus
Tim
eN
/AN
/A
15.5
–3FI
GU
RE
15.5
–3C
VC
S m
alfu
nctio
n th
at in
crea
ses r
eact
or c
oola
nt
inve
ntor
y, n
ucle
ar p
ower
and
vess
el av
erag
e tem
pera
ture
ve
rsus
tim
eN
/AN
/A
15.6
–1FI
GU
RE
15.6
–1In
adve
rtent
Ope
ning
of a
Pre
ssur
izer
Saf
ety
Val
veN
/AN
/A
15.6
–1 A
FIG
UR
E 15
.6–1
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.6
–2FI
GU
RE
15.6
–2In
adve
rtent
Ope
ning
of a
Pre
ssur
izer
Saf
ety
Val
veN
/AN
/A
15.6
–2 A
FIG
UR
E 15
.6–2
AD
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.6
–3FI
GU
RE
15.6
–3D
elet
ed b
y FS
AR
CR
02-
MP3
-017
N/A
N/A
15.6
.3-1
FIG
UR
E 15
.6.3
-1Pr
essu
rizer
Lev
elN
/AN
/A
15.6
.3-2
FIG
UR
E 15
.6.3
-2R
eact
or C
oola
nt S
yste
m P
ress
ure
N/A
N/A
15.6
.3-3
FIG
UR
E 15
.6.3
-3Se
cond
ary
Pres
sure
N/A
N/A
15.6
.3-4
FIG
UR
E 15
.6.3
-4R
uptu
red
Loop
Hot
and
Col
d Le
g R
CS
Tem
pera
ture
sN
/AN
/A
15.6
.3-5
FIG
UR
E 15
.6.3
-5In
tact
Loo
p H
ot a
nd C
old
Leg
RC
S Te
mpe
ratu
res
N/A
N/A
15.6
.3-6
FIG
UR
E 15
.6.3
-6Pr
imar
y to
Sec
onda
ry B
reak
Flo
w R
ate
N/A
N/A
15.6
.3-7
FIG
UR
E 15
.6.3
-7D
iffer
entia
l Pre
ssur
e B
etw
een
Rea
ctor
Coo
lant
Sys
tem
an
d R
uptu
red
Stea
m G
ener
ator
N/A
N/A
15.6
.3-8
FIG
UR
E 15
.6.3
-8R
uptu
red
Stea
m G
ener
ator
Wat
er V
olum
eN
/AN
/A
15.6
.3-9
FIG
UR
E 15
.6.3
-9R
uptu
red
Stea
m G
ener
ator
Wat
er M
ass
N/A
N/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 7
3 of
76
15.6
.3-1
0FI
GU
RE
15.6
.3-1
0R
uptu
red
Stea
m G
ener
ator
Mas
s Rel
ease
Rat
e to
the
Atm
osph
ere
N/A
N/A
15.6
.3-1
1FI
GU
RE
15.6
.3-1
1In
tact
Ste
am G
ener
ator
s Mas
s Rel
ease
Rat
e to
the
Atm
osph
ere
N/A
N/A
15.6
.3-1
2FI
GU
RE
15.6
.3-1
2Fl
ashe
d B
reak
Flo
wN
/AN
/A
15.6
–4FI
GU
RE
15.6
–4Se
quen
ce o
f Eve
nts f
or L
arge
Bre
ak L
OC
A A
naly
sis
N/A
N/A
15.6
–5FI
GU
RE
15.6
–5D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–6FI
GU
RE
15.6
–6C
ode
Inte
rfac
e D
escr
iptio
n fo
r Sm
all B
reak
LO
CA
M
odel
N/A
N/A
15.6
–7FI
GU
RE
15.6
–7Sm
all B
reak
Pow
er S
hape
N/A
N/A
15.6
–8FI
GU
RE
15.6
–8Li
miti
ng P
CT
Cas
e PC
T an
d PC
T Lo
catio
nN
/AN
/A
15.6
–8 A
FIG
UR
E 15
.6–8
AD
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–9FI
GU
RE
15.6
–9Li
miti
ng P
CT
Cas
e V
esse
l Sid
e B
reak
Flo
wN
/AN
/A
15.6
–10
FIG
UR
E 15
.6–1
0Li
miti
ng P
CT
Cas
e Lo
op S
ide
Bre
ak F
low
N/A
N/A
15.6
–11
FIG
UR
E 15
.6–1
1Li
miti
ng P
CT
Cas
e B
roke
n an
d In
tact
Loo
p V
oid
Frac
tion
N/A
N/A
15.6
–12
FIG
UR
E 15
.6–1
2Li
miti
ng P
CT
Cas
e H
ot A
ssem
bly
Top
Third
of C
ore
Vap
or F
low
N/A
N/A
15.6
–13
FIG
UR
E 15
.6–1
3Li
miti
ng P
CT
Cas
e Pr
essu
rizer
Pre
ssur
eN
/AN
/A
15.6
–14
FIG
UR
E 15
.6–1
4Li
miti
ng P
CT
Cas
e Lo
wer
Ple
num
Col
laps
ed L
iqui
d Le
vel
N/A
N/A
15.6
–15
FIG
UR
E 15
.6–1
5Li
miti
ng P
CT
Cas
e V
esse
l Flu
id M
ass
N/A
N/A
15.6
–16
FIG
UR
E 15
.6–1
6Li
miti
ng P
CT
Cas
e Lo
op 2
Acc
umul
ator
Flo
wN
/AN
/A
15.6
–17
FIG
UR
E 15
.6–1
7Li
miti
ng P
CT
Cas
e Lo
op 2
Saf
ety
Inje
ctio
n Fl
owN
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 7
4 of
76
15.6
–18
FIG
UR
E 15
.6–1
8Li
miti
ng P
CT
Cas
e C
ore
Ave
rage
Cha
nnel
Col
laps
ed
Liqu
id L
evel
N/A
N/A
15.6
–19
FIG
UR
E 15
.6–1
9Li
miti
ng P
CT
Cas
e Lo
op 2
Dow
ncom
er C
olla
psed
Li
quid
Lev
elN
/AN
/A
15.6
–20
FIG
UR
E 15
.6–2
0B
ELO
CA
Ana
lysi
s Axi
al P
ower
Sha
pe O
pera
ting
Spac
e En
velo
peN
/AN
/A
15.6
–21
FIG
UR
E 15
.6–2
1Lo
wer
Bou
nd C
onta
inm
ent P
ress
ure
N/A
N/A
15.6
–22
FIG
UR
E 15
.6–2
2D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–23
FIG
UR
E 15
.6–2
3D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–24
FIG
UR
E 15
.6–2
4D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–25
FIG
UR
E 15
.6–2
5D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–26
FIG
UR
E 15
.6–2
6D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–27
FIG
UR
E 15
.6–2
7D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–28
FIG
UR
E 15
.6–2
8D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–28
FIG
UR
E 15
.6–2
8D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–30
FIG
UR
E 15
.6–3
0D
elet
ed b
y FS
AR
CR
PK
G F
SC 0
7-M
P3-0
54N
/AN
/A
15.6
–31
FIG
UR
E 15
.6–3
1R
eact
or C
oola
nt S
yste
m P
ress
ure
(4 in
ch B
reak
)N
/AN
/A
15.6
–32
FIG
UR
E 15
.6–3
2C
ore
Mix
ture
Lev
el (4
inch
Bre
ak)
N/A
N/A
15.6
–33
FIG
UR
E 15
.6–3
3C
lad
Tem
pera
ture
Tra
nsie
nt a
t Pea
k Te
mpe
ratu
re
Elev
atio
n (4
inch
Bre
ak)
N/A
N/A
15.6
–34
FIG
UR
E 15
.6–3
4C
ore
Exit
Stea
m F
low
Rat
e (4
inch
Bre
ak)
N/A
N/A
15.6
–35
FIG
UR
E 15
.6–3
5C
lad
Surf
ace
Hea
t Tra
nsfe
r Coe
ffic
ient
at P
eak
Cla
d Te
mpe
ratu
re E
leva
tion
(4 in
ch B
reak
)N
/AN
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 7
5 of
76
15.6
–36
FIG
UR
E 15
.6–3
6Fl
uid
Tem
pera
ture
at P
eak
Cla
d Te
mpe
ratu
re E
leva
tion
(4 in
ch B
reak
)N
/AN
/A
15.6
–37
FIG
UR
E 15
.6–3
7R
eact
or C
oola
nt S
yste
m P
ress
ure
(1.5
inch
Bre
ak)
N/A
N/A
15.6
–38
FIG
UR
E 15
.6–3
8R
eact
or C
oola
nt S
yste
m P
ress
ure
(2 in
ch B
reak
)N
/AN
/A
15.6
–39
FIG
UR
E 15
.6–3
9R
eact
or C
oola
nt S
yste
m P
ress
ure
(3 in
ch B
reak
)N
/AN
/A
15.6
–40
FIG
UR
E 15
.6–4
0R
eact
or C
oola
nt S
yste
m P
ress
ure
(6 in
ch B
reak
)N
/AN
/A
15.6
–41
FIG
UR
E 15
.6–4
1R
eact
or C
oola
nt S
yste
m P
ress
ure
(8.7
5 in
ch B
reak
)N
/AN
/A
15.6
–42
FIG
UR
E 15
.6–4
2C
ore
Mix
ture
Lev
el (1
.5 in
ch B
reak
)N
/AN
/A
15.6
–43
FIG
UR
E 15
.6–4
3C
ore
Mix
ture
Lev
el (2
inch
Bre
ak)
N/A
N/A
15.6
–44
FIG
UR
E 15
.6–4
4Fi
gure
s15.
6-44
thro
ugh
62 D
elet
ed b
y FS
AR
CR
PK
G
FSC
02-
MP3
-017
N/A
N/A
15.B
-1FI
GU
RE
15.B
-1Fi
gure
s Del
eted
by
FSA
RC
R 0
2-M
P3-0
17N
/AN
/A
3-1
FPER
FIG
UR
E: 3
-1Fi
re P
rote
ctio
n O
rgan
izat
iona
l Cha
rt (D
elet
ed)
N/A
N/A
4-1
FPER
FIG
UR
E: 4
-1(S
heet
s 1-6
) P&
ID F
ire P
rote
ctio
n25
212-
2694
6 (a
)SH
1 O
F 5
4-1
FPER
FIG
UR
E: 4
-1(S
heet
s 1-6
) P&
ID F
ire P
rote
ctio
n25
212-
2694
6 (a
)SH
2 O
F 5
4-1
FPER
FIG
UR
E: 4
-1(S
heet
s 1-6
) P&
ID F
ire P
rote
ctio
n25
212-
2694
6 (a
)SH
3 O
F 5
4-1
FPER
FIG
UR
E: 4
-1(S
heet
s 1-6
) P&
ID F
ire P
rote
ctio
n25
212-
2694
6 (a
)SH
4 O
F 5
4-1
FPER
FIG
UR
E: 4
-1(S
heet
s 1-6
) P&
ID F
ire P
rote
ctio
n25
212-
2694
6 (a
)SH
5 O
F 5
4-1
FPER
FIG
UR
E: 4
-1(S
heet
s 1-6
) P&
ID F
ire P
rote
ctio
n25
212-
2697
0 (a
)SH
1
77A
FPER
FIG
UR
E: 7
7AFi
re H
azar
d A
naly
sis E
leva
tion
3 Fe
et 8
Inch
es25
212-
2426
0 (a
)N
/A
77B
FPER
FIG
UR
E: 7
7BFi
re H
azar
d A
naly
sis E
leva
tion
24 F
eet 6
inch
es25
212-
2426
1 (a
)N
/A
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet
Rev
isio
n 33
—06
/30/
20M
PS-3
FSA
RPa
ge 7
6 of
76
77C
FPER
FIG
UR
E: 7
7CFi
re H
azar
d A
naly
sis E
leva
tion
38 F
eet 6
inch
es25
212-
2426
2 (a
)N
/A
77D
FPER
FIG
UR
E: 7
7DFi
re H
azar
d A
naly
sis E
leva
tion
52 F
eet 6
inch
es25
212-
2426
3 (a
)N
/A
77E
FPER
FIG
UR
E: 7
7EFi
re H
azar
d A
naly
sis E
leva
tion
(Roo
f Pla
n)25
212-
2426
4 (a
)N
/A
77F
FPER
FIG
UR
E: 7
7FFi
re H
azar
d A
naly
sis E
leva
tion
(Sec
tions
)25
212-
2426
5 (a
)N
/A
8-1
FPER
FIG
UR
E: 8
-1Pr
oces
s Con
trol T
rans
fer S
chem
e (T
ypic
al)
N/A
N/A
8-2
FPER
FIG
UR
E: 8
-2Pr
oces
s Ins
trum
enta
tion
Tran
sfer
Sch
eme
N/A
N/A
a.In
corp
orat
ed b
y re
fere
nce
this
eng
inee
ring
cont
rolle
d dr
awin
g is
, coi
ncid
enta
lly, a
n M
PS-3
FSA
R fi
gure
. Ref
er to
the
cont
rolle
d pl
ant d
raw
ing
for t
he la
test
re
visi
on.
LIS
T O
F E
FFE
CT
IVE
FIG
UR
ES
(CO
NT
INU
ED
)
Figu
re N
umbe
rFi
gure
Lab
elT
itle
Dra
win
g N
umbe
rSh
eet