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

ing

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

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607812ec6ad

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607812adb1a

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607812ddd2a

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607812230e7

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607810307b2

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607810ddb4d

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607812ec6ad

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607812adb1a

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960781318511

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

-19-

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

ing

Pipi

ng.

MP3

-18-

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

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607812ddd2a



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

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780f9ef09

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780a61267

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780fa2d34

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960781081d46

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607810a20d2


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

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780e9c667

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780e25bde

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780eb0e6c

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780d6ffa1

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780c3b24d

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780cae7c6

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

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pres

sor a

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air

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r pow

ered

by

a di

esel

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nera

tor t

hat w

ill b

e co

nnec

ted

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P3 In

stru

men

t A

ir Sy

stem

(IA

S).

MP3

-15-

0113

7

Rev

isio

n 31

—06

/28/

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ontin

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Rev

isio

nR

evis

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Rel

ease

Dat

eC

hang

e A

ctiv

ityD

ocum

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ffec

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(Sec

tions

, Tab

les,

Figu

res)

Sum

mar

y D

escr

iptio

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Cha

nges

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http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780bd8b79

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http://ecmnucweb/nucweb.jsp?durl=qcur=090296078096b45a

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607809e353e

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607809e353f

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780ba198a

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)

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isio

nR

evis

ion

Rel

ease

Dat

eC

hang

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ityD

ocum

ent E

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(Sec

tions

, Tab

les,

Figu

res)

Sum

mar

y D

escr

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http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780beb362

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780b3add3

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-

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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

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Rev

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Rel

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Dat

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ocum

ent E

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ents

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(Sec

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les,

Figu

res)

Sum

mar

y D

escr

iptio

n of

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nges

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http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780aa842a

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780aa8429

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780ac5e49

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780ae91de

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780a7dd18

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780a08bc6

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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

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ule

with

draw

al sc

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le fr

om p

age

5.3-

6 an

d in

corp

orat

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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


http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780a2576d

http://ecmnucweb/nucweb.jsp?durl=qcur=09029607809e353d

http://ecmnucweb/nucweb.jsp?durl=qcur=0902960780a61265

http://ecmnucweb/nucweb.jsp?durl=qcur=090296078096916f





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


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



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



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



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 10................................................................................... 7.5A-10






Section Title Page






















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



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



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



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



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



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


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 2.1-9 Population Distribution 1985 (0-80 km)

Table 2.1-10 Population Distribution Within 50 Miles of Millstone - 1990 Census





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



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 2.1-28 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



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



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



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



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



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



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







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



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



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 *



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



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



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



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



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



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



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



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



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



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



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 6.2–26 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 6.2–31 Mass and Energy Release Rates for a Spray Line DER in the Pressurizer Cubicle


Table 6.2–32A Mass and Energy Release Rates for a Surge Line DER in the Pressurizer Cubicle



Number Title

Table 6.2–33 Pressurizer Cubicle Peak Differential Pressures


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 6.2–36A 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 6.2–37A 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 6.2–41 Deleted by PKF FSC MP3-UCR-2009-006


Table 6.2–43 Subcompartment Design and Maximum Calculated Differential Pressures

Table 6.2–44 Omitted






Number Title












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 6.2–67 Hydrogen Recombiner System Design Parameter




Number Title


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 6.2–75 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



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



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 8.3–2 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 8.3–6 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



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



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



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 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



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



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)



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



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.1-13 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)



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 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



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



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 15.5–1 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



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 15.6–12 Assumptions Used for the Control Room Habitability Analysis


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 15.6–21 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



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 15.7–2 Table Relocated to Table 11.3-13 by FSARCR 04-MP3-017






Table 15.7–8 Parameters for Postulated Fuel Handling Accident


Table 15.7–10 Deleted by PKG FSC 07-MP3-056


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

RE

1.2–

2Pl

ot P

lan

2521

2-10

002

aN

/A

1.2–

3FI

GU

RE

1.2–

3(S

heet

s 1-3

) Pip

ing

& In

stru

men

tatio

n D

iagr

am L

egen

d25

212-

2690

0 (a

)1

OF

3

1.2–

3FI

GU

RE

1.2–

3(S

heet

s 1-3

) Pip

ing

& In

stru

men

tatio

n D

iagr

am L

egen

d25

212-

2690

0 (a

)2

OF

3

1.2–

3FI

GU

RE

1.2–

3(S

heet

s 1-3

) Pip

ing

& In

stru

men

tatio

n D

iagr

am L

egen

d25

212-

2690

0 (a

)3

OF

3

2.1–

1FI

GU

RE

2.1–

1G

ener

al S

ite L

ocat

ion

N/A

N/A

2.1–

2FI

GU

RE

2.1–

2G

ener

al V

icin

ityN

/AN

/A

2.1–

3FI

GU

RE

2.1–

3Si

te L

ayou

tN

/AN

/A

2.1–

4FI

GU

RE

2.1–

4Si

te P

lan

N/A

N/A

2.1–

5FI

GU

RE

2.1–

5To

wns

With

in 1

0 M

iles

N/A

N/A

2.1–

6FI

GU

RE

2.1–

619

85 P

opul

atio

n D

istri

butio

n 0-

20 k

mN

/AN

/A

2.1–

7FI

GU

RE

2.1–

7Po

pula

tion

Sect

ors f

or 0

-10

Mile

sN

/AN

/A

2.1–

8FI

GU

RE

2.1–

8C

ount

ies w

ithin

50

Mile

sN

/AN

/A

2.1–

9FI

GU

RE

2.1–

919

85 P

opul

atio

n D

istri

butio

n 0-

80 k

mN

/AN

/A

2.1–

10FI

GU

RE

2.1–

10Po

pula

tion

Sect

ors f

or 0

-50

mile

sN

/AN

/A

2.1–

11FI

GU

RE

2.1–

11R

oads

and

Fac

ilitie

s in

the

LPZ

N/A

N/A

2.1–

12FI

GU

RE

2.1–

12LP

Z Po

pula

tion

Sect

ors D

istri

butio

nN

/AN

/A

2.2–

1FI

GU

RE

2.2–

1M

ajor

Indu

stria

l, Tr

ansp

orta

tion

and

Mili

tary

Fac

ilitie

sN

/AN

/A

2.2–

2FI

GU

RE

2.2–

2In

stru

men

t Lan

ding

Pat

tern

s at T

rum

bull

Airp

ort

N/A

N/A

2.2–

3FI

GU

RE

2.2–

3A

ir La

nes A

djac

ent t

o M

illst

one

Poin

tN

/AN

/A

2.2–

4FI

GU

RE

2.2–

4N

ew L

ondo

n C

ount

y-St

ate

Hig

hway

s and

Tow

n R

oads

N/A

N/A

Rev

isio

n 33

—06

/30/

20M

PS-3

FSA

RPa

ge 2

of 7

6

2.2–

5FI

GU

RE

2.2–

5Pr

opan

e C

once

ntra

tion

Out

side

and

Insi

de th

e C

ontro

l R

oom

N/A

N/A

2.3–

1FI

GU

RE

2.3–

1To

pogr

aphy

in th

e V

icin

ity o

f Mill

ston

e Po

int

N/A

N/A

2.3–

2FI

GU

RE

2.3–

2To

pogr

aphi

cal P

rofil

es w

ithin

5 M

iles o

f Site

N/A

N/A

2.3–

3FI

GU

RE

2.3–

3To

pogr

aphi

cal P

rofil

es w

ithin

5 M

iles o

f Site

N/A

N/A

2.3–

4FI

GU

RE

2.3–

4To

pogr

aphi

cal P

rofil

es w

ithin

50

Mile

s of S

ite (S

heet

1)

N/A

1 O

F 2

2.3–

4FI

GU

RE

2.3–

4To

pogr

aphi

cal P

rofil

es w

ithin

50

Mile

s of S

ite (S

heet

2)

N/A

2 O

F 2

2.3–

5FI

GU

RE

2.3–

5To

pogr

aphi

cal P

rofil

es w

ithin

50

Mile

s of S

ite (S

heet

1)

N/A

1 O

F 2

2.3–

5FI

GU

RE

2.3–

5To

pogr

aphi

cal P

rofil

es w

ithin

50

Mile

s of S

ite (S

heet

2)

N/A

2 O

F 2

2.3–

6FI

GU

RE

2.3–

6G

ener

al T

opog

raph

y - 5

0 M

iles (

Shee

t 1)

N/A

1 O

F 2

2.3–

6FI

GU

RE

2.3–

6G

ener

al T

opog

raph

y - 5

0 M

iles (

Shee

t 2)

N/A

2 O

F 2

2.3–

7FI

GU

RE

2.3–

7M

eteo

rolo

gica

l Ins

trum

ent a

nd D

ata

Qua

lity

Ass

uran

ce

Flow

Dia

gram

N/A

N/A

2.4–

1FI

GU

RE

2.4–

1Fa

cilit

ies L

ocat

ed o

n th

e Si

teN

/AN

/A

2.4–

2FI

GU

RE

2.4–

2Pu

blic

Wat

er S

uppl

ies w

ithin

20

Mile

s of S

iteN

/AN

/A

2.4–

3FI

GU

RE

2.4–

3Lo

catio

ns o

f Hyd

rogr

aphi

c Fi

eld

Surv

ey S

tatio

ns, J

une

to O

ctob

er 1

965

N/A

N/A

2.4–

4FI

GU

RE

2.4–

4Ti

dal C

urre

nts M

easu

red

by E

ssex

Mar

ine

Labo

rato

ryN

/AN

/A

2.4–

5FI

GU

RE

2.4–

5B

otto

m P

rofil

es E

stab

lishe

d by

Ess

ex M

arin

e La

bora

tory

N/A

N/A

2.4–

6FI

GU

RE

2.4–

6Fr

eque

ncy

of T

idal

Flo

odin

g at

New

Lon

don,

C

onne

ctic

utN

/AN

/A

2.4–

7FI

GU

RE

2.4–

7Si

te G

rade

and

Dra

inag

e B

asin

s for

PM

P R

unof

f A

naly

sis

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

of 7

6

2.4–

8FI

GU

RE

2.4–

8B

otto

m P

rofil

e A

long

Pat

h of

Max

imum

Sur

face

Win

dsN

/AN

/A

2.4–

9FI

GU

RE

2.4–

9C

oinc

iden

t Wav

e an

d Su

rge

Slow

-Spe

ed P

roba

ble

Max

imum

Hur

rican

eN

/AN

/A

2.4–

10FI

GU

RE

2.4–

10C

oinc

iden

t Wav

e an

d Su

rge

Med

ium

-Spe

ed P

roba

ble

Max

imum

Hur

rican

eN

/AN

/A

2.4–

11FI

GU

RE

2.4–

11C

oinc

iden

t Wav

e an

d Su

rge

Hig

h-Sp

eed

Prob

able

M

axim

um H

urric

ane

N/A

N/A

2.4–

12FI

GU

RE

2.4–

12Lo

cus o

f Hur

rican

e Ey

e, H

urric

ane

Type

: Lar

ge R

adiu

s, Sl

ow S

peed

of T

rans

latio

nN

/AN

/A

2.4–

13FI

GU

RE

2.4–

13Lo

cus o

f Hur

rican

e Ey

e, H

urric

ane

Type

: Lar

ge R

adiu

s, M

ediu

m S

peed

of T

rans

latio

nN

/AN

/A

2.4–

14FI

GU

RE

2.4–

14Lo

cus o

f Hur

rican

e Ey

e, H

urric

ane

Type

: Lar

ge R

adiu

s, H

igh

Spee

d of

Tra

nsla

tion

N/A

N/A

2.4–

15FI

GU

RE

2.4–

15W

ave

Tran

sect

s on

Long

Isla

nd S

ound

N/A

N/A

2.4–

16FI

GU

RE

2.4–

16A

reas

Und

er E

ffec

t of W

ave

Shoa

ling

and

Wav

e R

efra

ctio

nN

/AN

/A

2.4–

17FI

GU

RE

2.4–

17W

ave

Ref

ract

ion

Dia

gram

, Blo

ck Is

land

Sou

nd G

ridN

/AN

/A

2.4–

18FI

GU

RE

2.4–

18W

ave

Ref

ract

ion

Dia

gram

, Mill

ston

e G

rid, A

ngle

of

App

roac

h So

uth

30 D

egre

es E

ast

N/A

N/A

2.4–

19FI

GU

RE

2.4–

19W

ave

Ref

ract

ion

Dia

gram

, Mill

ston

e G

rid, A

ngle

of

App

roac

h W

est 8

5 D

egre

es S

outh

N/A

N/A

2.4–

20FI

GU

RE

2.4–

20W

ave

Ref

ract

ion

Dia

gram

, Mill

ston

e G

rid, A

ngle

of

App

roac

h W

est 4

5 D

egre

es S

outh

N/A

N/A

2.4–

21FI

GU

RE

2.4–

21W

ave

Ref

ract

ion

Dia

gram

, Mill

ston

e G

rid, A

ngle

of

App

roac

h W

est 1

7 D

egre

es S

outh

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

e Lo

catio

nN

/AN

/A

2.4–

23FI

GU

RE

2.4–

23In

take

Tra

nsec

t AN

/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

RE

2.4–

26W

ave

Cla

potis

at I

ntak

eN

/AN

/A

2.4–

27FI

GU

RE

2.4–

27In

puts

to O

ne D

imen

sion

al S

etdo

wn

Mod

elN

/AN

/A

2.4–

28FI

GU

RE

2.4–

28La

rge

Rad

ius,

Prob

able

Max

imum

Hur

rican

e Is

ovel

Fi

eld

N/A

N/A

2.4–

29FI

GU

RE

2.4–

29La

rge

Rad

ius,

Slow

Spe

ed o

f Tra

nsla

tion

Tim

e V

aria

nt

Win

d Fi

eld

- Mill

ston

eN

/AN

/A

2.4–

30FI

GU

RE

2.4–

30Se

tdow

n V

ersu

s Win

d Sp

eed

N/A

N/A

2.4–

31FI

GU

RE

2.4–

31B

ound

ary

of th

e M

odel

ed A

rea

N/A

N/A

2.4–

32FI

GU

RE

2.4–

32O

nsite

Wel

l Loc

atio

nsN

/AN

/A

2.4–

33FI

GU

RE

2.4–

33Pr

obab

le S

eepa

ge P

ath

From

Bor

on R

ecov

ery

Tank

and

W

aste

Dis

posa

l Bui

ldin

g to

Lon

g Is

land

Sou

ndN

/AN

/A

2.4–

34FI

GU

RE

2.4–

34Sc

uppe

r Det

ails

- C

ontro

l, H

ydro

gen

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

elT

itle

Dra

win

g N

umbe

rSh

eet

Rev

isio

n 33

—06

/30/

20M

PS-3

FSA

RPa

ge 2

1 of

76

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

win

g N

umbe

rSh

eet

Rev

isio

n 33

—06

/30/

20M

PS-3

FSA

RPa

ge 2

2 of

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

RE

5.1–

1(S

heet

s 1-6

) P&

IDs R

eact

or C

oola

nt S

yste

m25

212-

2690

2 (a

)SH

1

\5.1

–1FI

GU

RE

5.1–

1(S

heet

s 1-6

) P&

IDs R

eact

or C

oola

nt S

yste

m25

212-

2690

2 (a

)SH

2

\5.1

–1FI

GU

RE

5.1–

1(S

heet

s 1-6

) P&

IDs R

eact

or C

oola

nt S

yste

m25

212-

2690

2 (a

)SH

3

\5.1

–1FI

GU

RE

5.1–

1(S

heet

s 1-6

) P&

IDs R

eact

or C

oola

nt S

yste

m25

212-

2690

2 (a

)SH

4

\5.1

–1FI

GU

RE

5.1–

1(S

heet

s 1-6

) P&

IDs R

eact

or C

oola

nt S

yste

m25

212-

2690

2 (a

)SH

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

–1FI

GU

RE

5.1–

1(S

heet

s 1-6

) P&

IDs R

eact

or C

oola

nt S

yste

m25

212-

2690

2 (a

)SH

6

\5.1

–2FI

GU

RE

5.1–

2R

eact

or C

oola

nt S

yste

m P

roce

ss F

low

Des

ign

N/A

N/A

\5.1

–2N

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

egio

n M

ater

ial

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

uatre

foil

Tube

Sup

port

Plat

esN

/AN

/A

\5.4

–5FI

GU

RE

5.4–

5(S

heet

s 1-3

) P&

IDs L

ow P

ress

ure

Safe

ty In

ject

ion

/ C

onta

inm

ent R

ecirc

ulat

ion

2521

2-26

912

(a)

SH 1

OF

3

\5.4

–5FI

GU

RE

5.4–

5(S

heet

s 1-3

) P&

IDs L

ow P

ress

ure

Safe

ty In

ject

ion

/ C

onta

inm

ent R

ecirc

ulat

ion

2521

2-26

912

(a)

SH 2

OF

3

\5.4

–5FI

GU

RE

5.4–

5(S

heet

s 1-3

) P&

IDs L

ow P

ress

ure

Safe

ty In

ject

ion

/ C

onta

inm

ent R

ecirc

ulat

ion

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

win

g N

umbe

rSh

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

FINAL SAFETY ANALYSIS REPORT · 2020-08-04 · FIGURE 2.5.4–12 Geologic Map of Final Grade,...

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Transcript of FINAL SAFETY ANALYSIS REPORT · 2020-08-04 · FIGURE 2.5.4–12 Geologic Map of Final Grade,...