ML20136F047
Text
L.:.-.._ '~:::..., 7~ "-- ~""~ ~" ~~ ~~ ~ ~"~ ~"~~- ~ -
-~ ~~~
[fND7N DISTRIBUTIO:;:
Docket File 50.424 M 05 B Docket File 50-425 (w/o encl)
METB Docket Files METB Reading File (w/o enc 1)
Docket Nos. 50-424/425 CAWillis NOTE TO: Irwin Spickler, Leader Meteorology Section, METB FROM:'
Charges A. Willis, Leader Effluent Treatment Systems Section, METB
SUBJECT:
V0GTLE ELECTRIC GENERATING PLANT, UNIT NOS. 1 AND 2. EFFLUENT RELEASE POINT CHARACTERISTICS
~
As prescribed in SRP 2.3.5, Long-Teru Diffusion Estimates, we have reviewed the points of routine release of radioactive material to the atmosphere and the characteristics of each release point, as described in the Vogtle Electric Generating Plant, Unit Nos. I and 2, FSAR. The results of our analysis are given in Enclosure A for.use in your review under SRP 2.3.5.
The location of the release points relative to adjacent structures is depicted in Enclosures 8 and C.
All releases should be considered continuous except that for the detemination of the "P" factor in C-14 dose calculations. 7 C1/yr/ reactor should be attributed to an annual release duration of 400 hours0.00463 days <br />0.111 hours <br />6.613757e-4 weeks <br />1.522e-4 months <br />, and 1 C1/yr/ reactor should be attributed to continuous releases.
Questions should be directed to Charles R. Nichols (x27634), the cognizant engineer assigned to this facility.
wigenstaneoar aartes A. n2its Charles A. Willis, Leader Effluent Treatment Systems Section Meteorology and Effluent Treatment Branch
Enclosures:
As stated ec:
D. Muller W. Gamill ementenbank C. Nichols A
14o1((0 7
- dir a
.D.Sh,RP,hEU.,,,DS,h,R,D,f.4T3.
"'c 4
,,,h,.........
=~~).cy,1,c,ho,],s 3,dj,,,,,C,Ri,],1,1,s,,,,
C eur). 07/.0.3./.8.4.... 0 7../..y... /. 8. 4...
- u.s. a m n.2-4oo.a.-
OFFICIAL RECORD COPY n
=.ac rocu sia noseoi sacu o24o y
r.._._._.._..._.
ENCLOSURL A ui
' VENT DESIGN INFORMATION AT VEGP Ileight of Efflurnt Ccnditions Rel ase (ft)
Inside Cross Discharge 4
Vent Location Conditions Sea Level Gradey4)
Exit (in.)
Area (ft})
Floy/ min) Temperature Velocif)
Operating Above Abov
~ Dimensions Sectiona ate (ft (DF)
(ft/ mig
) f Plant vent (I)' Containment Normal power 419
, 200 60 x 120 50 144,700(5) 68-92 2890 Uni t 1 generation i
I Refuel in9 419 200 60 x 120 50 154.200
~67-96 3090 l j:
i O) Containment Normal 419 200 60 x 78 33, 85,300 71 2580 jf Plant vent
- i Uni t 2 I
s i
Refueling 41 9 200 60 x 78 33 95,300 68-92 2880 j
Turbine bldg Turbine bldg Normal 344 123
'96 51 120,000 85-104' 2350 ventilationd) Unit.1: if
~
I Turbine bid Turbine bldg Normal
'344 123 96 51 120,000 85-104 2350 iventilation[6)
Unit 2 i
j i
- }j
'{
[,*d Y
Hannal power ' 313 94 17.25 1.62 1,168 131-193 720 s
u ng Unit 1 9'"* F " t I""
1 Normal power 31 3 94 17.25 1.62 1,168 131-193 720 l
as bu ng l
Unit 2 generation ste(3) u i
Normal power 274 55 60 x 60 25 35,000 68-82 1400 r
generation g
j (1) Vent not capped l!
(2) Yent not capped but has 18 inch 180 return elbow 0 from verticil
{
(3) Vent not capped but discharges 90 (4) Nominal building grade' elevation'is appriximately 219 feet
[
(5) Unit 1 flowrate includes addittoral flow from conunon rifueling building g
(6), Typical of nine (9) for each generating unit. All vents have a T-top cap.
q
'I
[
- M 4 i u S.
% a.am'.w -_ -
W
_. _ " +.... - -
we t.us u n.c 8
e e
e
.=s.::,.- - us O.a.
a....
u--
1
~4. -
j-
~
--~P t
- ,.j.. a r--
m s =e -
L M.N-s r-
/
= = "
G
/
=
. ---% -. 3:
j v
.1
. q g,
.w - ;s..a-o 3
.\\
b b
6.
4,
.F Q..,
- 3f.e-.
'g 4...y"
/N
-/
g t'" g' j
1
~
.s s
9
."?WT'"e" b
e I
O
%g-
? MT*
em m
e.
m w
> = u.e.*,s
,.,.i
,1 e.,.t"4 1
~
-;.u n...ht
,m p.
- S*
- w-h yI f'"g
. re.-.~.
me.
i j
1
.::y s
j.. >._-t *,
. p.-
l
- :> J.
t..'
w.
x 4
- il.
G Cu)
~ - ~;'
4 n. :
. ~
'a N'o ;. N. s'fo7",. - N >.s '
.,.. L--(9 6 '
N' r
'1.
.. r.., '.- a..
.e Q \\,$ $ f lb 6
.i. w gs, s 7. h*
a.m 1 m
e e p.e.s n j,L t : --
ng sw.so.
e a
p ;
@i$.J Dwases
.=t
i:
!!,dW ;g ?.i.
I I
ee se st* e.n l
e e
,O
. =:
=.._
n~ne.we =:-m
.a
- - =. * - '
- O ->=..*3.-w s
A e.u.
a e.s..
.- son. rwt s'
, s ee a
.s 5 n,n se. =* :s ow sv u.:ss.e*
4
<a -v.v., e. :.a rt sn.t-~ Aem GeneanaggA Arte arsNe MM Nd M,,r
@ Mauet? EK TAT 41Jff*
l i
I j
1 l
92/42 l
.m...,..
- P I
o,ec= cc.r.L*'. ~ aam s s
s N.
i.
{ '.
-s s
e t
'y
- t H
\\\\
)\\..
,if r
p.
sg_
-:r..
s a,,-
ff
'$_1
'\\.
s cr-
- ~.,. ~~ :
.. m.
~ ~C-. e \\.3 l-t s,...:,
?.
.. w do mamawe Bes sa.wd.
fj
.I* *
,a,
3 l. :
,\\.
o
. e t.r, ~.,.; 7 p
- s s
.,,s
-. s i
.t
.. e.
,,t -
. ac l
- (
Q i
a
.J l
...a b :__., _., w NN
..- ~.J
- 9..,
i
- ~,, - -
)
~..,..
u.
s: @.i l m.h.
s
- 4. r, -
J 5? n
- ",.'-- 4
.1.
. l,..
J i.= m..,
,:a
-r f.D:#.',_ rn ; y _sT-
.h41g
' (__
I.a
=
r -
T_.f:z, 9 E:
- r. _._r -.'. +
w mms:
.=
t.
.~
.a s.
~ l,' Y f E $, ( }'l n G* '"["' F 9 8EP '8=
E
- )
t i3 2 wwi=+
.a
)
.c
- ^'" c ^-* ~- -o ^*2 a
['!
[j]79
'l E I 4Mhi@l $ $ [ =
===e#
i t i1i
=
u T
.u Lb
'.T.r =E =
=
1.m 3
s *
=
' f./ r. T.'ii -1 f i s E 7
'L-N -_-- - T o
~ $ =x i= =? I =E== !
==.-r
/
y
=.T
_ ~= 3: != "::=
I h
s
'. E
).d-B Iq*3 l*
/]
=.*= w w n
.i 5: :
3 K,,.,
e,.' eTr =C 4 :!E
~
=
E:
m c= = = F'. 3 4
E
=-
C
=
g
=e 3-
- v
.g
-N
.I
. ~....
- = r--+:-
N t.
J
.kr I
4
-.ny,,m.
'r 9.
L
=
L,.
VOGTLF SITE PLOT PLAN A
EL ECTRIC GE NE R ATING PL ANT 3
Georg. Powern ia unir uno unit 2 FIGURE 3.1-2 i
p -<-
-* ;- --- - - --c y.,
t,_
,-......y.y.._.,.:--3--
-. - ~
-- -~
_m EN c t.ysu gq;-
(_.
O i
e i
d
,n-t b;
[(V
....=.. g-
, = 'K - M " nl@ %" % &
" ~
- ~.. _.
~
s.=.
~ ~ h.~.~.
N
,,,,s
-& w jp-i
~..
O.2 k/,s{ a,g h s a M T ? h "
t as.
av...
h ig g s
.-1 N
._ 4..
%Ng w
.,,, ww-c,
i
- k.
'Ii
- u. s.
.. e.-
n-
~
i Q_
~
~
I
~~
t.
n x
w
~
+h
_y
%h'%
2
.' _ w
'g m.
Q;g.
N
~
7%cA dR)
^
3.
.~.
m ~
s.,
Fa 9 _2g.
N~g
.,. ng m.
n k%
i l
I
.c.
.p.
i 4
.m
\\
l 'uY
+
l i
l r
- ',.,=,
e 7N
~}
I' yg.g r 5M~
~
I l
p
' a+ir,t/
/
"!"! ill
_~, -
W -
Tg~
M l
L A
p.
~
N 1
i N
i n
n 939 na w
w lYy ;j g 1', ^
g
. ggw yg
'~
+.
f
-e N
we I-MsR$%
q ),4" 'N
~
N
.,.., gi,, :4 '
'e
A.,.
3
'4
^
N N.
h j
, g S': ~.,
l-
- i h.
~.
~
18 ARTIg7 gggggp77gg gp vEGP
^
VOCTLE k
ELECTRIC CENERATING PLANT Georg. Power n a
UNIT 1 AND UNIT 2 FIGURE 3.1-1 g
- ND-p
-g on.
N=.
4e,.
- -m e
e
~
k.
sE
~
5x
'D:-
~
,c
.c y
m s
- =~=:
~
_=.,,
c.
._,i.____.._-__,i. 4 4 I i
i
.._-.g.__
L.. ;._. j _. _..._.. _ _4.... __.. #,._
._s i _j.
....._i._L._,_..____
f a.#.
i._ o.
..-q A,..
7
^
r.w....+ r. cu,.,. ____.
___.,.s..........__..._..r m=m.... L_ -.._..;,. - -...
..q
=
c
.. f _. j -. ! Q _.
_g%_ _. [
..__ H._
j 7._.
_._...,._1{___,___ _ - __ [..
-I
.- L c
... A -_ ~. _~.5_
4______
i
. N _.-..__.,__.__g.___cy l
_ +
.c -t o}_
W
_p,;
_3 _ _y m
e
~.s
,+
_s 1__
.J_ f. m* b.-___ ; _h_. -__ A -- 5"._0Y. --
T~- r._h.- _ fr : 1. _.. _
r__!.._
- r..- ; _: r. -
_ _ }.a.
__ E A
. a y
- ..i a, *s._
t
. _ _ y T r-t.____
ryg t _ ___..-_
, u
. 4..
l l l - al 8
g i
3
}
._s.__
l a.-1'_
4.
x i
-9 __~_.
-t
- 3.,
____f r
. _ * =,
, V)._l o ____-c
!o
+rL
_.
- _ N_ _ _._ _ _ __
I
_.. _7, _._p_. p_._____.+
__g _.__y___.
c.
. _.._ _ g e
i i
r.
.__-_.r_ - - _ - * - - _ -.. _. _ _ _ -
__-_.---1------------1 g
i _..
,. _.,.. _,.. _...'I-~'~-~_p__
4
~
L.7
{*L~~.,____,.
__. g -
L-
"J ~. 'f -
'7
' - ! v'- - : --
.~.; _*. '.--*. r !
-=
B; ; V) -- i+.-.- -
- ;,3... W - - - :
t
-: -- : L= _. _ _
= =. --._- _1_=__t-I. : m
=
=
- - - = = =.
=
a e
'* l,_
.g
._.1..,
_{_.
.., _, _ _ s __ I~J __ - _... g.
_.__p._
___ _. f..
Q._ ?
. _ M,.
_._ m
__ d
..p
.._4-_-_
4_
-6.. - NC 9.
i
_ ?...- f. %_
_q 3
_._..7..
- _ % 4-_
- h_ l ~___4 i
_s, 3v
_. _ _._. _t__..._
-1, n___,__
..r._.._.___._.._.
.s
!_s y
3._._
s
~ f._'_~_.1.'.. C '_'..
_ a i___ _.
\\
M f_ -d..,_.j b.. 'u i
i
___._.I.___..._.___.T~d'
__4__.___.
_*-~_'i__
_ _ _ __4
_._4_. -c 3
\\ _..
g s
I I
..bd'_. b _.__...___._..
_ _ _ + _ _._
_ _ _ _ _ _ __,{
1 c..q..-..._..___t..__ __3_-
(
g N
n 3, _f._._y __.
._.y
,.____.9
.. 4__....g.._____.
..g. g..
.___ _ p r,
,9.-,.._p.._.
.. 2
,.4
_.._..l y.. _..,. _ _ _
ur
_ t. :t : ::. - t -- ---
.===
Q
--H -:.:* ---- -}:=:=: - -=: : _ :.
__u =: = _ _ _; ai ^
p
=t=t_=:= -i--
g, s
-=t
_.zt
.._i...__.
1 N
! J D~~
~'~
_-..}
f
_ _ ~ ' _ _
._!'_.4_
_4. _ k~;___ cr.
....y.1C.___.._.-~"'~_-
x u..-
g q _,__ t..q g
._____.__-_y__
_____._a_.-
- e C.,
_...*__.4.__--t-
+-
--t--
-s p
N.
i l
l
\\
I I
9 I
l-N I
I I
I i
s
=
e q-g
=_
~_-^_
N-m i
C r
i i
r-i e
i I
1 b
e iI hf_I__._
j_
_1_.
C i i i i
I I
e, i
i g
.._g_..
c
~_.y._;. _;. _
y-~+
1 u
C i
C r
_. _. p. _p 4_. __. t_
l
!1
_ __a_
g_
i i i
- i, I
5 O
Oe x ~ e x
m x
d: =~ e c
w m.
m o
(ns/w.) naar wm
l
-~
=. =. ~..
.2
.@ G M..C.3 e O l ROUTING AND TRANSMITTAL SUP Y h)[p n o eno e <,.e el
,D $ @ Q,@ g_g g gy TO:
. ofRee symbol, room nurnber, laitials Date
" ^*"'##
.1'OEi.e e~e e 4 8 e 6 I.A M, I
we.m:e e_e:e1 t
W:e:o:e:ew:ste c:e s'o:o:e e:e:e,.
r
'O's~e:c ee v o-
. - x3gy, s.
N I
9.
/
/hote and Retum (kur.r.
I File WI For Clearance Por _ Conversation nepare Reply As Requested For Correction Ciccestate Fgt Your information See Me 6 ture
/M
/Investigste l
6- =Cnetion Justify
/
'nomans W
ut g, GrcY D0
/ <D 2 O cfb ?/
5 t
f 0SY&
["'
l/3fz~
~..
~
O S C e e c c'c e g' eseCOs Geei O e e C e e e.0 e e ee9eeeoec<
,a g a y,,,33,,,,,,,,ge n,o,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
l Oee@eeeOCC cia'*aca. ad semitar actioas Room No.---Bids.
eeOCeeCCC4 rRou:(n.me, ors. symber. Agency / Pay c o a c c e m o c o.
/g' g,,
enone no.
eeeeeceeee 8043-2c2 Q
FORM 41 (Rev. 7-76)
N" E8
-18 8
- spo: ties o. 3s1 52, ost) 12 2.
kota % Uo kcf/cs YGtga j f,
Q~/ trf liej$sm flt
'N g$
OS 0?O.
O fc. (
^
9 four (l[G~.I t
~
.VEG? _SAR-Q r
Qf2.t Tl K-Ic/f3o Resconse The following responses correspond to the above questions:
A.
In regard to items of table 3.2.2-1:
\\-
1.
Table 3.2.2-1 (sheet 1), 1:em 3, identifies the fuelsassar.blies e.s being centrolled by the QA program.'
g}(
2.
Table 3.2.2-1 (shee: 90) has been revised to include underground Category 1 piping and conduits.
ON 3.
The site drainage system is not Q listed, and k' ~~...eu',.
i AP ' alterations will be evaluated comnensurate with the
[
. s_.e
..-...c-.
._y,__.__m.
. u.. _
a.
- 3 a_
. e o__,,_4.c.,
m
~
- c. e. 4 g n o.c storm drain system is identified in table 3.2.2-1 s
s t
/
(sheet 90).. // r.
i are concrete 4.
P.cof scuppers on Category 1 structures 4
extensions of the Category 1 structures and 'are
..".c."..=_<._'.'.-"..
- u..d a -
.S. a.
.=
conse3~u e...l y
.4.".. ' u d.a. d "e
explicit identification.
The Category 1 structures are listed on sheets 33 and 59 of tab' e 3.2.2..
5,e s, >=~..w.....
....,.a.
.c.
_.-wle
,.2.2 1 (
w.._.
.= s.
- e.., _:., -, - _ -
. z._
_o _nc,u e he c_<t..a_.
- _ c... a.. u....
a
. _ a s
an co..a..
_._=_.... -... ( 4
. _ _a
_t,
_-.,.-. a z,
a
... e..,
.r, respectively).
OK The fuel handling building radiogas radiaticn 6.
=cnitors in the EVAC ~ ducting are Q listed and are These radiation discussed in sectie. mal.5.
monitors are inc,uce in taole e.2.e,
,_ (shee: cz, i
..e.a
'. ). 0 T..h e # "m _ 1a_ > =. n d l'. n. e.
"s "e. _' d _4 - ~
c-e: --...c.s 4
3 listed and are c.iscussed in subsection are non-12.3.4.
These area monitors are included in table 3.222-1'(sheet 82, ite.- 3).
,'. l /.',.
The accident-related metecrological data ecliection 7.
is equipment is non-Q listed..The equipment included in table 3.2.2-1 (sheet 83, item 3) and is discussed in section 7.5.
~N N.
' u.
y f< add an 9. e t r% systw.:
S.
Georgia' Power Cc=pany recognizes ne lap:rtance c:
these items and activities, and they will be closely controlled by approved precedures.
there are no regulatory requirements which
- However, identify these as G items.
I l23 s
Amend. S E 24
-Q262.61-4 g
e
.,..-., ~
t L.
I j
kV65~lM 2 OISTRIBUTION:
Docket File 50-424 APR 2i W Docket File 50-425 (w/o enc 1) 4 METB Docket Files METB Reading File WPGamill 1
Docket Nos. 50-424/425 l
i
' MEMORANDUM FOR: Elinor G. Adensa.;:, Chief I
Licensing Branch No. 4, DL
~
FR0ti:
William P. Gammill, Chief Meteorology and Effluent Treatment Branch, DSI l
SUBJECT:
REQUESTS FOR ADDITIONAL INFORMATION ON METEOROLOGY FOR j.
V0GTLE
}
Enclosed hre requests for additional information (RAI) on meteorology j]
resulting from our review of the Final Safety Analysis Report (FSAR) for 1
the Vogtle Electric Generating Plant. A number of RAIs are identical to those transmitted as part of our acceptance review of the Environmental i
Report (see ny 10/21/83 memorandum to you). The duplicated RAIs are:
[
451.05 (E451.03); 451.06 (E451.05); 451.07 (E451.04); 451.08 (E451.G9);
4 451.09 (E451.10); 451.10 (E451.06); 451.11 (E451.07); 451.12 (E451.11);
j 451.13 (E451.12); 451.14 (E451.13); 451.17 (E451.14); 451.18 (E451.15); and, 4
451.19 (E451.16). We have duplicated the RAIs to maintain continuity on j
our review of the FSAR. Crvss-references to responses to the ER RAIs would be acceptable as responses to the FSAR RAls.
i We are also in the process of extracting meteorological data from a magnetic tape provided by the applicant. Our analyses of these data may result in j
additional RAIs. If so, we will transmit them as expeditiously as possible.
t j
These RAIs were developed by J. Fairobent, meteorology reviewer for this faci lity. Any questions should be directed to Mr. Fairobent at x29427.
4 origina4 v pad Wt j.
31111asF. N R William P. Gammill, Chief j
Meteorology and Effluent Treatment Branch 3
Division of Systems Integration
Enclosure:
C ji If As stated J
cc:
R. Mattson j
D. itu11er 1
R. Capra
}
M. Miller j
I. Spickler M.Fpirobent) a
,i....e..J DSI:R
( ~6SI)RP ~ TBTDS-ETB' '
I i
't l.....
. f f..
..... k...... -
04/>./84..........
04/1f/84..
{
04/
/84 j
..n f "I.!-.. n g r..~.
.. m._ nermi c. i. oec.cori,cnov.
y F
r a
451.0 METEOROLOGY I
451.01 The discussion of lightning in Section 2.3.1.2.7 includes an l
l estimate of the number of f1 ashes to earth per thunderstorm-day
,9.; J.b '
per square kilometer. According to information presented in t.
~**
NUREG/CR-2252, " National Thunderstorm Frequencies for the Contiguous United States," the area of the. Vog'tle site s
experiences about 80 thunderstorms eac'i year. The number of 1u
(
)
I lightning strikes to safety-related structures, systems, and components, is a function of the number of thunderstorms and the
" attractive area" of plant structures (see J. L. Marshall, Lightning Protection, 1973).
4, l.
l ' Provide seasonal and annual estimates of lightning strikes to l
safety related structures,' systems, and ccaponents considering L
the frequency of thunderstonns and the " attractive area" of plant structures. '
5-451.02 The discutsci..ons of snowloads in-Section 2.3.1.2.3 and its 59
,3.l 7
cr'oss-reference to Section 2.4.2.3 indicate different magnitudes of snowload. Provide the bases for the snowload of 30 psf, i
referenced in Section 2.4.2.3 as the snowload " applied to the roofs of all Seismic Category I structures," and provide cross-references to other sections of the FSAR where snowloads are considered in various load combinations for severe
[
environmental and extreme environmental' loadfngs on the roofs of s
(t
. safety-related structures, 1
y j
')
p y
- n z,....
. 7... 7..- -
M"ME. ~. - _...
. P 1..
^ ~
^ - " *-""""~' "
4 451.03 The period of record examined for hurricanes (Section 2.3.1.2.5) ended in 1969.
Identify any hurricanes, tropical storms, or
,y,3,l
,,epressions, which have passed within 100 miles of the Vogtle d
site since 1969.
451.04 a)
Identify meteorological conditions (including extreme temperatures, pressure, humidity, and wind speeds) fjf').I' g considered in the design of safety-related auxiliary systems and components (e.g., the heating, ventilating, and air conditioning system, impulse lines, service water valves, steam isolation valves, and the diesel generator air intake and exhaust system).
b)
Provide the bases for the selected values, including magnitude and duration.
c)
Compare the selected design basis values with severe or extreme meteorological conditions observed in the region through 1983, d)
Compare the selected design basis values with extreme (e.g.,100-year recurrence) meteorological conditions presented in Sections 2.3.1 and 2.3.2, considering magnitude and duration. For extreme temperatures, also compare the selected design basis values with the 100-year recurrence values presented in NUREG/CR-1390, " Probability Estimates of Temperature Extremes for the Contiguous United States."
t.._,.
.._...,__.-y._
. ~.
e)
Provide cross-references to appropriate sections of the FSAR where these meteorological conditions are considered in the design.of safety-related auxiliary systems and components.
451.05 Meteorological data are provided for four separate periods.
According to the text on page 2.3.2-1 of the FSAR, these periods
$Y 1 -
2 are: December 1972-December 1973; April 1977-April 1979; and April 1980-March 1981. However, in Tables 2.3.2-14, 2.3.2-15, 2.3.2-16, and 2.3.2-17, the first period of record is identified as December 1973LDecember 1974. Correctly identify the first period of record and provide the bases for the selection of these periods of record. Provide a discussion of the status of the onsite meteorological measurements program during the intervening periods and indicate whether the instrumentation and data recording and reduction procedures in use during these particular periods allow the data sets to be combined.
If the data sets can not be combined, provide a discussion of the changes in the data I
collection and reduction progran which preclude combining of the various data sets.
451.06 Provide a comparison of monthly and annual precipitation amounts measured at the site with concurrent data from Augusta, GA and jlU"
- 3 2-contrast these observations with the climatological normals for Augusta, GA presented in Table 2.3.2-1 of the FSAR. Also, provide m m.e== = +- w w,.... -..
j, _
,_,,m_
mE
.l_______.___'
O E-
..-.n,.
.-,,,= _ - ~ n -. _
i- !
j s
a discussion of the difficulties in measurement of precipitation i
at the Vogtle site "during the 1980-81 site year" (see page 2.3.2-4
[
of the FSAR). _
1 4
451.07 Based on the information presented in Tables 2;3.2-15 and 2.3.2-19 E
of the FSAR, extremely unstable conditions (Pasquill type "A")-
g 2 0,L occur at an extremely high frequency (almost 19% for the 3-year compositi period presented in Table 2.3.2-15 and almost 17% for the period April.1980-March 1981) at the Vogtle site, based on measurements of vertical temperature dif ference between 150 and i.
i-33 feet.
a)
Provide the distribution of atmospheric stability conditions-e for each period of record included in the composite data set i
presented in Table 2.3.2-15 of the FSAR (see E451.03).
b)
Provide a discussion of the year-to-year variability of I'
stability conditions and discuss the reasonableness of the l
large fraction of extremely unstable conditions observed at the Vogtle site, considering the atmospheric mechanisms for generating thermal instability, the classification scheme used, the location of the meteorological tower and 7
}-
orientation of the temperature sensors, the surface h
characteristics around the tower, and the location of the t
{
site.
L i
4 b
,,...-..~_y_._...
451.08 Table 2.3.2-2 of the FSAR presents the parameters measured on the Vogtle meteorological tower, the heights of measurement, and the instrument and/or sentor characteristics. Provide estimates of 3
2 the overall system accuracy for each parameter, considering p+
errors introduced by the sensor, cable, signal' conditioner, and data reduction process, and compare these system accuracies with tho3e presented in Regulatory Guide 1.23.
451.09 The technique for measuring vertical temperature gradient at the Vogtle site is not clear from the information presented in
~
Table 2.3.2-2 of the FSAR. Vertical temperature gradient is most g'* 2.S 'g often measured directly (e.g., through a resistance bridge circuit) to obtain the measurement system accuracy for this p,arameter specified in Regalatory Guide 1.23.
Generally, the subtraction of two temperature measurements is considerably less 1
accurate than a direct measure of temperature difference. At I
other sites reviewed by the NRC an accuracy of vertical temperature gradient determined by the subtraction of two i
temperatures has often exceeded the specification in Regulatory Guide 1.23.
L a)
Provide an expanded discussion of the measurement of vertical l
[
temperature gradient and clarify the measurement technique.
l b)
If vertical temperature grandient is determined by subtraction of two temperatures,1) indicate whether the I
l
sensors are matched at installation and replacement; ii) indicate the " drift" between sensors found at instrument calibration; iii) identify the average period considered for the determination of temperature difference; and iv) clarify the computational procedures for the determination of temperature difference computed for each interrogation of the sensors or from a ensemble average of temperature measurements?).
451.10 The topographic features within five miles of the plant, as presented in Figure 2.3.2-55 of the FSAR, are dif ficult to discern. Either provide a larger, more legible copy of 7 g,L
$N Figure 2.3.2-55, which includes elevation contours, or provide a plot of maximum el'evation versus distance out to five miles 0
from the center of the station to each of 22-1/2 compass sectors, similar to the topographic profiles presented in Figure 2.3.2-57 of the FSAR only with an expanded vertical scale.
451.11 Provide a large-scale figure of the plant site and immediate Y)3 >
vicinity which identifies the location of the current and proposed (see E451.13) meteorological towers (and all towers used to collect meteorological data at the Vogtle site), the containment buildings and other prominent plant buildings and l'
structures (including the natural draft cooling towers and the l
l l
, ~. - -. _
y, 1
e
y--
1-nuclear service cooling water towers), the exclusion area and site boundaries, and significant terrain and vegetation features wnich could af fect meteorological measurements or atmospheric transport and dif fusion conditions. This figure should identify true north, contain an appropriate scale, and be of sufficient size to permit independent measurements of distance.
451.12 Provide additional information clarifying the data recording and reduction processes discussed on page 2.3.3-1 of the FSAR, 3
particularly the digital data recording and reduction processes,
(%? *3 1
which specifies averaging and sampling (where appropriate) times and which specifies the data quality checi,s used to validate the measurements. Also, clarify the respective roles of the analog (strip charts) and digital data recording systems.
451.13 a)
Provide a detailed description of the calibration procedures (sensors, electronics, and complete system) used at the SI Vogtle plant, and identify the dates of calibration since December 1972.
b)
Identify periods of extended outage since December 1972 and identify the causes of the outages and the corrective actions taken.
451.14 According to the discussion on page 2.3.3-2 of the FSAR, the 3
onsite meteorological measurements program is to be upgraded and
.= -
L-4 l will include installation of a new meteorological tower. Provide a complete description of the meteorological measurements program to be available during plant operation, including instrument specifications and a determination of system accuracy for each 3
parameter compared to Regulatory Guide 1.23.
Identify the date a
i of installation of the new tower, and indicate when one full year i
of data from this tower will be available.
451.15 Calculations of short-term (accident) relative concentration (X/Q) values are to be made at the exclusion area boundary and 1 ) *4 a
a l
SN the outer boundary of the low population zone (LPZ).
Table 2.3.4-1 does not identify the distance or direction for i
5 the calculated X/Q values. Table 2.3.4-2 identifier the *" assumed distance to site boundary in each direction."
a)
Specify the distance and direction for the calculated X/Q values in Table 2.3.4-1, and indicate whether the X/Q values for various time periods at the LPZ distance were calculated with the direction-dependent or direction-independent i
atmospheric dispersion model, b)
Confirm that the boundary distances presented in Table 2.3.4-2 are distances to the exclusion area boundary.
r I
If not, provide the exclusion area boundary distances by
}'
direction using the technique described in Regulatory,
~
Guide 1.145.
i k
y-
-9, 2
451.16 Provide the bases for determining 2368 mi as the value of A, gp3. 3 *
"the smallest vertical plume cross section area of containment."
l-451.17 The discussion of the calculation of long-term diffusion f
estimates presented in Section 2.3.5 of the FSAR requires additional clarification. For example, the statement is made in Section 2.3.5.2.1 on page 2.3.5-1 that "the release is at ground level." However, the discussion in Section 2.3.5.2.3 on page 2.3.5-3 states that "the plant vent release point is elevated." The atmospheric dispersion model presented is for an elevated release.
a)
For each release point identified in Table 2.3.5-3, compare the release characteristics with the criteria in Regulatory Guide 1.111.for the determination of release mode (e.g.,
ground level or a mixture of partially elevated and partially ground icvel). Also, clarify the heights of release pr,esented in this table to heights above ground, provide the heights of adjacent or nearby structures which could entrain effluents released from these locations, and provide the direction of these structures relative to the release locations.
-s
}
y r._
_7
[^
_- _n v
.se_.
a,
n-.
4,
n.-..-
n.
,~. - -..
..m..
+n..
1 I'.
b)
The natural draft cooling towers appear to be less than 2000 feet from the Unit 1 containment structure, and these f
structures could significantly influence low-level airflow
(
in the vicinity of the main plant release, points for a number of wind directions. Furthermore, plant releases.
l l
when the wind is blowing toward the cooling towers, could be entrained into the wake of these structures. For these
[
situations, releases which may have been considered as partially elevated could behave more like ground level releases.
Provide additional information on the influence of the natural draft cooling towers on routine releases of f
j radioactive material to the atmosphere.
i c)
Operation of the nuclear service cooling water towers could also affect releases of radioactive material to the atmosphere. Provide additional information on the frequency of operation of these towers, and provide additional information on the influence of these towers on routine releases of radioactive material to the atmosphere.
i d)
Provide the numerical value(s) used for the parameter "H" discussed on pages 2.3.5-4 and 2.3.5-5 and defined as the i
" height of the tallest structure in the nuclear power plant block."
t 1
I t
v....
- p. n
~u-a i -
451.18 The discussion of the rationale for not adjusting the straight-line atmospheric dispersion model to consider spatial
^3/ ;.S ~
and temporal variations in airflow out to a distance of 50 miles -
l.
from the plant (page 2.3.5-1 of the FSAR) requires further
~
i elaboration, particularly when other sources of information such as the National Weather Service office at Augusta, GA and the Savannah River Laboratory are available. Provide an assessment of airflow trajectories in the region of the Vogtle plant considering additional concurrent (real-time), meteorological information available in the region to determine the appropriateness of the assumption of straight-line transport.
451.19 The high frequency of occurrence of extremely unstable conditions
), I (see E451.04) could increase the likelihood of fumigation if a
$0' large fraction of these conditions are immediately preceded by moderately or extremely stable conditions. Fumigation could then occur a sufficient amount of time to be considered in estimating I
the annual average relative concentration (X/Q) and relative i
l deposition (D/Q) values for releases assumed to be elevated.
Provide an assessment of the occurrences of fumigation conditions 4
at the Vogtle site and provide an estimate of the increase to annual average X/0 and D/Q values, if appropriate.
i l
i h
miam.m -
..\\
t.
m l.
DISTRIRitTION:
f Docket File 50 424 OF.C 0 91S83 Docket File 50 425 (w/o encl) 4 j
METB Docket Files METB Reading File WPGammill Docket ?!os. Sn_424/425 1
MEMORAPID'Jt1 FOR:
G. Ted Ankrun, Chief Ouality Assurance Branch, y
nivision of Ouality Assurance, Safeguards and Inspection Prograns, IE 1
0
~
i FROM:
Willian P. Gannill, Chief Meteorology and Effluent Treatment Rranch Division of Systens Integration, NRR SUR.1ECT:
0-LIST FOR YOGTLE ELECTRIC GE*!ERATIrlG PLANT, lit!IT 405.1 ANO ?
i l
. In response to the Partlow/ftiller r'ecorandun dated t?ovember 29, 1983, we have reviewed Table 3.?. 2-1 of the FSAR for the Voqtle Electric Generating l
Plant, finit Fos. I and 2, with respect to those safety related structures, i
systens, and components within l'ETR area of review for which a Ouality I
Assurance progran is reconnended to satisfy 10 CFo Part 50, Appendix R.
Enclosed are appropriate pages fron Table 3.2.?-1 of the FSAR for the Vogtle Electric Generating Plant with our conrents. !!e found no najor enissions or exceptions except as follows. The accident-related neteorological data collection equipment should he covered by ^,he Ouality Assurance crogran in 4
accordance with the guidelines of Regulatory Guide 1.33, Appendir. A, to be consistent ' ith past practice on other.,perating license applications such l
w
)
as Perry and Hope Creek.
In addition, for completeness, the turbine steam i
sealing systen should be included in the table under Power Conversion System l
(sheet 31).
It would not be a 0-List iten, however.
(
This review was perfomed by J. Fairohent (x29A?7), t'eteorology Fection, and l
C. Nichols (27634), Effluent Treatment Systems Section. Any quastions or I
connents should be directed to the respective reviewer.
Ortginal sidned by:
WilliamP.Gemmill Willian P. Gannill, Chief Meteorology and Ef fluent Treatment Branch Division of Systens Integration Office of Nuclear Reactor Regulation 1
Fnclosure:
As stated cc: See next page
~
(.1,.
n rm Mf1 -~
u se uv? ' { f lunes)
DSI:RP: METE 05 ftETB DSI:RP:METB DSI:RR,:METB DSI:$
............l.e r WPGa n 11 ISp.ick CAWilli
" c u.e)..CN.i chol s :dj JF bent
...............s.....
i 12/; /83 12/ O /83
........(............
........./.. 7.../. 8 3 12/ - /83 12 sus) 12/08/83
.... c, w....
yac mu m no soincu ano OFFICIAL RECORD COPY w u.s.opo ma-oo.m u~
. - ~
- I v
j:
+
s
.1 L..
- a. ! :
I i
TABLE 3.2.2-1 (SHEET 18 OF 97)
'I g'
s s
5
[
[
1 U
(d)
(f)
(g)
(J) 8 M'
(a)
(b)
(c)
VECP (e)
Codes and Principal (i)
Environ-Principal System Location Source of Quality Safety Seismic Standards Construc- (h)
Safety mental (k) cnd Components Unit. 1 Unit 2 Supply Croup Class Category Designator tion Code Q-Li'st Related Designator Comments j
2.
Makeup pump A8-Il22 A8-8114 8
NA 6
2 E
NEMA HC1 N
N Note a j
motors i
. 'I 3.
Degasirier 0
0 8
D 4
2 4
mig N
N I
l
- i vacuum pumps
- I 4.
Degasirier feed 0 0
8 D
4 2
4 mrg N
N jl pump
'I 5.
Dega s i r ie r 0
0 8
D 4
2 4
mrg H
N
- 1 feed / t ransfe r
[
pump
,l 6.
Degastrier 0
0 8
D 4
2 4.
mrg N
N transfer pump l
7.
Vacuum 0
0 8
D 4
2 4
mrg N
N j
degasirier 8.
Makeup water 8
D 4
1 5
Ill-3 N
N Note r P2 O
[
process piping jj and valves to y
I SrP m
1 9.
Dega s i rle r 8
D 4
2 4
831.1 N
N cn l
3.s
-J piping and f
- O valves I
i,
- 10. Instrumentation 8
NA 6
2 J
mrg H
N 3
- 11. Degasirier pump 0 0
8 NA 6
,2 E
NEMA HCI N
N l
- f motors
- 12. All other 8
D 4
2 4
831.1 N
N piping Note w i
WASTE PROCESSING SYSTEM - LIQUID i
l 1.
Waste holdup AB-D63 A8-D13 W
D 4
1 7
111-3 N
N Note r I;
for all tank
! 2.
Waste evapo-A8-D62 AB-014 W
D 4
1 7
111-3 N
N*
417 and I
rator feed 427 com-ponents pump 5
3.
Wasto evapo-AB-D62 A8-014 W
NA 6
2 E
NEMA hcl N
N desig-in tor l'cnal noted nr.
l lil-3 pump motor
- p Is. Waste evapo-A8-8 AB-8 8
0 4
1 7
til-3 N
N retor reed (d
backflushable s
ri t ter housing
- 05. Waste evapo-AB-C67 A8-C43 W
D 4
1 7
118-3 N
N 4. g, rator a
.3 4
O
w
-.- - a m
- .s.
==~~--m-..-.-.n
--.. - n w - - -
.--..,/.~
b I
E.,
.g.
a -
=
3
)
'. i TABLE 3. 2.2-1 (SHEET 19 OP 97)
[4 l
N4 I
n 9.
t.
P (d)
, J! ( r )
(g)
(J)
Codes and Principal (1)
Environ-(a)
(b)
(c)
VEOP (e)
?rincipal System Location Source of Quality Safety Seismic Standards Construc- (h)
Safety mental (k) cod Components Unit 1 Unit 2 Supply _ Croup Class Category Designator tion Code Q-List Related Designator Comments i e 6.
Waste evapo-AB-A32 sha red B
D 4 i.
2.
.?;
7.
Art-650 N
N t
rator concen-
?
j' trates holdup
.. f)4 l
'* t j
tank 2
4?.
, 7 mfg N
N 7.
Waste evapo-AB-A37 sha red B
D
--l!
ra tor concen-trates hnidup r-f; g
'?
V tank piimp
? E NEMA HG1 N
N 1
8.
Waste evapo-AB-A37 sha red 8
NA 6 '*
2.
s 1
l rator concen-
~lq i
trates holdup I.
tank pisap g-motor
?
DI 9.
Waste evapo-AB-C63 A8-C40 W
D 42 2,,
., 74,').
Vill N
N y
rator reagent
.g tank
- . c g
- 10. Waste evapo-AB-C146 A8-C149 W
D is c 2.
'2.
- 7 111-3 N
N m
rator conden-ta sate domin-N eralizer Y
8 o
- 11. Waste evapo-AB-D91 AB-D86 W
D 4,'
2-
$. ' 7 181-3 N
N g,
ra tor conden-c.
sate filter I
k 'i og
,U
- 12. Wasto evapo-AD-D64 AB-D12 W
D 4;
- w 2
J 7 111-3 N
N
'88 rator conden-t a
\\
b sate pump 4
- 13. Waste evapo-AH-D64 AB-D12 W
NA 6'
2
' J.
E NEMA HC1 N
N ra tor conden-
" 1 3)h'.".
T u
sate pump
~
A Q
motor
- 14. Waste evapo-AH-C80 AB-C33 W
D 4
2 1
'J7 111-3 N
N-rator conden-
,.f
- sate tank
- 15. Chemical drain AD-D45 sha red W
D 4-2
+ j U4 Vill N
N
- f *<'is
-l tank
- 16. Chemical drain AD-047 shared W
D la, 2.
> g Vill N
N 4
l l
tank pump f.
4
' 1 17 Chemical d ra t u AD-047 sha red W
NA 6
2' i YE NEMA HG1 N
N tank pump Af..[v7
[ l motor
~
til-3 N
N
- 18. Spent resin AD-D36 AB-D37 W
D 4
1 3
storage tank i :.
t
- 19. Spent resin A!3-D39 AB-D40 W
D 4
1 47 til-3 N
N
'j'y j
slulce pump fC
+
> n l
1 sC l
n_._-
g,~,
=
3 4
3 t
TABLE 3.2.2-1 (SHEET 20 OF 97)
(d)1
-(r)
(g)
(,l )
la)
(b)
(c)
VECP (c)
Codes and Principal (i)
Environ-I Principai System Locatlon Source or QuaIity Sarety Seismic Standa! rd s Construc- (h)
Safety. menta1 (k) end Components Unit 1 Unit 2 Supply Croup Class-Category Designator tion Code Q-List Related Designator Comments
/ 20. Spent resin AB-D39 AB-D40 W
NA 6h
~2 E
NEMA hcl N
N f
sluice pump la il.
I motor 12
- T Vill N
N
{
21 Sample vessels AB-C63 AB-Cl40 B
D 7
mfg N
N t
- 22. Solidification W
D 4.
2 s t ra ine r
- 23. Spent resin AB-3 AB-B B
D 4.-
1 7'
til-3 N
N sluice back-riushable-fil ter housing P4 floor drain AB-346 AB-D24 W
D 4
2 7
118-3 N
N tank
, 2, 7
Ill-3 N
N
- 25. f loor drain AB-350 AB-D29 W
D 4
tank pump t:
?6. rioor drain AB-D50 AB-D29 W
NA 6>
2 E;
HIMA HG1 Il N
g tank pump 8
. l 27. F inor drain
]
sotor AB-D AB-D W
D is,
2 7!
mrq H
N p
tank
- trainer
- 28. F loor drain AB-B AB-B B
D 86 2
7 118-3 H
H
- J I
tank back-l riushable
, 3 ri t ter housing 7
111-3 N
N
- 29. Wa s t e mon i to r AB-C81 AB-C34 W
D 84 2;
tank
& C82
& C35
- 33. Waste monitor AB-D5B AB-D17 W
D 4
2.-
7 IIl-3 N
N w
\\
tank pump
& C59 k D18
!% 31. Waste monitor AB-D58 AB-017 W
NA 6.
2 's,
E NrMA HG1 N
N 1
tank pump k [>59
& Dia motor tank back-
.i '
lli-3 N
N
- 32. Vaste monitor AB-B AB-B B
D 14 2:
7-riushable ri t ter hnusing
- 11. W:i*.te muni tor AR-C1843 AB-C139 W
D fl
?'
- - 7 111-1 N
N tank domin-eralizer
.t AB-D25 sha red W
D 4
2:
7.
' vill N
N 1{
3ts. laundry and hot shower
,I,,,
l tank t.
- 35. Laundry and AB-D26 sha red W
D 4
2
' ', 7 erg N
N hot shower r~ 3
- 9 tank pump
.a.
7; i
y i
l
.d. ;
3 i.
l t
B TABLE 3'.2.2-1 (SHEET 21 OF 97) i.
~
9 (d)'
(r)
(9)
(J)
(&)
(b)
.(c)
VECP (e).
Codes.and Principal (1)
Environ-Principal System Location Source of Quality Safety Seismic Standards Construc- (h)
Safety mental (k) rnd Cnaponents Unit 1 Unit 2 Supply Croup Class Category Designator tion Code Q-List Related Designator Comments O 36. l.aundry and AB-D26 sha red W
NA 6*
2-E.
HEMA HG1 N
N hot shower Lank pump motor
- 37. L aundry and AB-D26 sha red W
D 4
2 7'
fl31.1 N
N hot Shower tank s t ra ine r
- 38. Laundry and AB-088 sha red W
D is 2
7 D31.1 N
N hot shower tank ritter
- 39. Heactor cool-C-171' C-171' W
D 86
- 2 7
111-3 N
N ant drain tank
- 80. Reactor cool-C-171' C-171' W
D 4"
2 7
111-3 N
N ant drain tank M
pump Cl tal. Peactnr cool-C-171' C-171' W
NA 6'
2 E
NIMA hcl N
N y
ant drain tank
,n ourp motar tr.
- 4 2. Peactnr cool-W e
ant drain tank M
fix -
1 Tube side C-171' C-171' D
4-2~
7 IIl-3, N
N
(
[ [ HA-R Shell side, C-171' C-171' D
4 1-5 111-2, N
N Note t ACCW
~
TEMA-R
.. f3. Piping and 8
D 4
2' 7
031.1 N
N 4
valves rrom vaste evap-
' *4 orator and evaporator con-
/*
densate demin-era lizer through a
e vaporator con-deinrato pump f
discharge valvo 119 8
ta k. Piping and 8
D sa 1
7 til-3 N
N valves from l
waste holdup
(
tank to vaste y
eva po ra to r i
t l
c
.y..
l.
s i
O 1
~
4 l
TABLE 3. 2. 2-l * ( SHEET 2;! OF 9 7 )
4 i
s.
s e
1
,'l 4
( d i' Irl 191 (J) 1 (s)
(b)
(c) vtor
..te)
Codes and' Principal (i)
Envi ron-j Principal System Location Source of Qua l i ty Sa f ety. Seismic Standards Construc- (h)
Safety mental (k) l-ry end Components Unit 1 Unit 2 Supply Group Class Category Designator tion Codo Q-List Related Deslanator comments 4 -
h 45. Piping and W,8 D
8: /
1 7'
811-3 N
N valves from spent resin storage tank to valves HV-1 )
1325 and 18s3 I
and from valves
+
liv-7305 and 058 s
to spent resin storage tank
, 2-7 B31.1 N
N l 46 Process piping W,8 0
4 and valves down-
]*
stream or spent resin tank 0"
8 valves Itv-7325 0
0 1
d and 18s) y
,g Is 7.
Piping and 8
D se
~2, 7
B31.1 N
N g,
valves from 3,
tr.
t 1
chemical drain i
a I
t a nl* to radwaste
~,,,
solidrication system
[
g ~*
"*st is 8.
Process piping W,B 3
4
.2
'T B31.1 N
N i r-and valves from i
- A laundry and hot
's J
,\\
shower tank to
!.3 waste monitor J
e s-tank, from
- s4 floor drain 4{
tank to waste
~.'
monitnr tank
.i and demineral-8 2c r.
from i *. ';
dominera l l 7p r to waste anni-tor tank, and
'l discha rge from vaste monitor
,/
I, tanks e.
j 8 9. Reactor coolant W,8 D
4 2'
,7 B31.1 N
N 4
drain tank l
Inlet and dis-
- ~,
charge piping and valves to valve LV-1003
. i.
p O
r i
1
.}
lC TABLE 3.2.2-1 (SHEET 23 OF 97):
j w-g (d).
(f)
(g)
(J)
'l (a)
(b)
( c ).'.
VECPt,(e)
Codes and Principak (i)
Environ-Principal System Location Source of Quality Safety Solsmic Standa rd s Construc- (h)
Safety mental (k) l end Components Unit 1 Unit 2 Sbpply Croup Class Category Designator tion Code Q-List Related Designator Comments
.1
~ e i
- 50. Waste evapo-ra tor package 11 e
coolers:
N N
,i i
Eva po ra to r AB-C66 AB-C41 W
D 4
1 7
'118 ;j t
condenser 4
+
vent condenser AB-C66.A8-C41 W
D' 4
1 7
til-3 N
N Distillate A8-C66 A8-C41 W
D is : -
1 7
111-3 '
N N
t cooler St. Instrumentation W,8 NA
-62 2
J mfg N
N Note s
'j WASTE PROCESSING SYSTEM - CASEOUS j
1 cas decay tanks AB-833 A8-878 W
C 3i 'f I-3 111-3 3 Y
Y VIil 1
t M
836,838 882,883 840.841 884,385
- v. **
O 88s2,843 888,890
]
s I-2.
Cas decay tank AE-835 AS-889 W
D 8e i,
2]
It
, afg N
N
- r2 1
drain pump
. f' f.n 3
- 1 3.
cis decay tank AE.-835 AS-889 W
NA 6,-
-2
- E N EHA. HC'1 N
N l
I dra in pump 2'
N j-f b
i motor 4.
Waste gas drain AE-D95 AB-082 W
D 48 ?
-2' is (Vill N
N I
ritter 5.
Sample vessel AE.-845 A8-879 8
D 42 -
2 '.
4
. Vill,,
M N
's 6.
waste gas com-AB-864 AB-8100 W
C 3f 1
3
' 1 I l.3 "
Y Y
VI11 4.
pressor package & 868 k B101
- /
i 3
AB-858 AB-87ti W
C 31.
1-3
-til-3 Y
Y 1
7.
Catalytic H, d Vill recombiner an k B59 k 876 gas analyzer l
package f
8.
waste gas decay All-846 sha red W
C 3
1 -J 3
..til-3a, Y
Y, vill shutdown tank 4 847 Y
l' 3
t i l - 3 '.,.
t3 9.
Process piping W,8 C
3;,*
il and valves y
G Y
i i
- 10. Drain piping B
D 8 :,
?}
86 1131.1 ~..
N N
8 and valves
..t.
11 Safety-related W
NA 1;
1,s
.E (NEMA MC1 Y
Y i
valve operators
,' jJ arg,.;.
Y Y
Note s
- tt
- 12. Safety-related W
NA 1
1 instrumentation
~
s r'
y t
c,
(
jy S
l 1
.s I
C.
t
( p.
i
, l, S
~
.-__m
.~
)
v i
s.
r *
+
-TABLE 3.2.2-1 (SHEET 24 OF 97)i e
~
4 Er
.8 4
e s.*
r.
j
.P 1
(d)' i (f)
- (g) '.
(,J )
(a)
(b)
(c VECP ? (e)
Codes and P r i nc i pa l*-
(1)
Environ-
,~
Principal System 1.ocation Source of Qual ty Safety. Seismic Standa rds' Construce. (h Safety mental (k) a cod Components Unit 1 Unit 2 Supply Croup Class Category Designator tion Code Q-L st Related Designator Comments e
RADWASTE VOLUME REDUCTION AND SOLIDIFICATION SYSTEM
.h.
, [
Note w
?
for 421 t
?
compo-
- .{
3 nents t
t API 650 3.;
N N
J 1
Evaporator RS8 sha red 8
D 4
2 71 Y
(
concentrates s.
waste reed
<. 7:
'p rg N
N
[
i tanks 2.
Evaporator RSS sha red 8
D 4
2.
4 i
waste recir-
'(
concentrates colating pumps T
N 3.
0 4
,2
.7; org.
N t'2 O
77 API 650.
N N
to. Spent resin RSS 8
D 4
e 2
y i
waste reed 5.
Spent resin RS8 sha red 8
D 4
- 3; nj tanks vaste reed
~.-
N N
us t
2 7.
mig A
5 6.
Solids feed RS8 sha red 8
D is
f pumps N
N
[,,
,2 7-mfg I
.(.'
2 7.,
mfg H
H M 7.
Contaminated R$8 sha roc 8
0 is M
oil skid
., ' E '
c Anrg 3
H N
- ' 8.
MetaI detector RSS shared 8
NA 6
2..'
- *J 9.
Trash shredder R58 sha red 8
NA 6
2;
.6
.sa rg..t N
N N 10. Trash hoppers R$8 sha red 8
NA 6
- 5 2
6 mfg N
N l
36[
.mrg N
N 2,.
l l,; 11. Screw conveyor R$8 sha red 8
NA 6
,, ? 7,
. Vill-N N,
i system C 12. Fluid bed RS8 sha red 8
D 4
2
,;;. ~.
.t.
t 4
d rye r N
N
- 13. Dryer bed RS8 sha red 8
D 4
2.
J1'7
- Vill storage hopper 7'.'
.Vl l.1 N
N 7:
2 f i ts. inc ine ra to r RS8 shared B
D t,
- 15. Incinerator RSS shared B
D is
?;
. 7;
,VIil N
N j
bed storage
,7.
hopper g.7
- 16. Product hopper RS8 sha red B
D 4
2 7.
. Vill..-
N N
}.y. 1
. Vill.,r.
N N
- 17. Cas/ solids RS8 sha red B
D 4
2 sepa ra tor
- 18. Scrubber RS8 sha red B
D 4
2-
.;, I Vill N
N P
p reconcent ra tor
- 19. Secondsry RS8 sha red 8
D, 4
2' 7
Vill
.L M
N sc rubbe r l 20. Condenser RSS shared B
D 4
2 7 ' 4.
Vill N
N
-r _ _
= - _
.l n.
y-
\\
,c V
- {.
,1
~!.!'
.4
. 1'
..s
~
T T AB LE 3.1,. 2-1.' ( SH EET. 2 5f 0F 9 7 ) -
.w I
I.
1,
~
j (g)
(,f )
^*'
'I (d)'. d (r)
.s
)
(a)
(b)
(c)
VEGP U ( e l':
. Codes and: Principal (l)
Env i ron-Principal System Location Source of Quality Safety Seismic'. Standardsf Construc- (h)
Safety mental (k) and Components Unit 1 Unit 2 Supply Croup Class ~ Category Designator tion Code Q-List Related Designator Comments
<a
' ' l 21. Ca s hea te r RSS sha red B
NA 6
2.
E
- - arg/
N N
Housing n
Vill is 427 I
J' Vill N
N 7
- 22. cas filter RSB sha red B
D 4-t 2.
t assemblies i
i
- 23. Dryer ai r RSS sha red B
NA 6
.7 E'
- e
' erg N
N 8
1 heater
?
- 24. Sta rtup heater RSB sha red B
NA 6
'.',2
- v. '
E mfg N
N j
- 25. Dryer bed RSB sha red B
NA 6
.2 :
E' mrg N
N
(
a heater mfg N
N y
.l
- 26. Dryer /
RSB sha red B
NA 6-2 6,
l i nc i ne ra to r l
- 27. Dryer /
RSS sha red B
HA 6
l 2 2 '.
[
E
,.mtg N
N blower 3
M i nc ine ra to r
,4
^
4 l
blower motor
.) ?.
6 mfg N
N 3
- 28. Decontamination RSB sha red B
NA 6
i j
skid n2
}
6 arg N
N to g
(
- 29. Cement drumming RSS sha red B
NA 6
,.2 :
]
y p
r
+
station c
org N
N
', '6
! M. 33. Cement ritt RSS sha red B
NA 6
-2~
g
.,2 *,. 'f )
-}
w
- 4 station mfg N
N j
- 31. Polymer RSS sha red B
NA 6
7 s
- c g
t drumming
. Als station d.
i: '
'm rg N
N i
station r
.3..,6
- N 32. Polymer till RSS sha red B
NA 6
- 2 5.
46 mrg
.e -
N N
0 33. Conveyors RSD sha red B
NA 6
,2*.
- a '*. 7 API 650 N
N
~d C
l'
- 34. Decanting tank RSB sha red B
D 4
2-
'JJ
- 35. Polymer RSS shared B
NA 6
2;
)
m fg -
N N
3 v'
mfg '
N N'
g T
storage tank D: ;$
- 36. Drum inspection RSS sha red B
NA 6-2.
$ f f 'lI station 87 mrg N
N
- 37. Crud transfer RIB sha red B
D 4
2 s '..-
(
pump
- 38. Spent rosin RSS sha red B
D fl 2-
- l7 mrg N
N g
l
- 39. Crud transfer RTS sha red B
D 4
2 hi API 650 N
N transfer pumps tank
- 40. Spent resin RTB sha red B
D 4
2 7
Vill -
N N
t 4.
I transfor tanks RSS 1
- 41. Bridge crane RSS sha red B
NA 6
2 6
CMAA N
N 3
NA 6
2 6
mig H
N i
N N
I 183. Cement storage RSS sha red B
NA 6
2 6
mfg
.+'J sllo 4
.+
c j
l'.
t 1
d I
- i LI l
h TABLE 3.2.2-1 (SHEET 26 OP'97)
'.j i n j
!y 8,
i n
-(
h (dl-(f)
(g)
(J) 1 (a)
(b)
(c)
VECP
-(e)
Codes and
'P r i nc i pa l*,
(1)
Environ-
- 1 Principal System 1.oca t ion Sou rce o f Qua l i ty Sa fe ty Se i smic Sta nda rd s Construc- (h)
Safety mental (k)
..t-rnd components Unit 1 Unit 2 Sucoly Group Class Category Deslenator tion Codn Q-t.lst Related Qes_lgnator Comments u
' D 44 Radvaste RSS sha red 8
D 4
2 7
831.1 N
N
[y*
piping and l:
valves i
- 45. Cther pIptng RSS sha red 8
HA 6
2 6,
' arg k
- Y H
N j
and vaIves ll
- 46. Instrumentation 8
NA 6
2 J'
' arg N
N j
g ent controls ST[AH C[HERATOR BLOWDOWN SYSTEM
.ili 1.
Blowdown HXs AB-C108 AB-C02 W
D 4
2 7
Vi l l,-
N N
i TEMA-C R
l 7
mfg N
N m
2.
Steam gene r-AS-C108 AS-C02 W
D 4
2 O
stor drain T
pump
.f 3.
Blowdown back-AB-8 AS-8 8
D 4
2 7
- Vill;,
N N
k flushable m
.f filters lpe jt 4.
Demine ra l ize rs AB-A AB-A W
D 4
2 7
Vill:
9 N
N
- 0 5.
Spent resin AB-C75 AS-C54 W
D 4
2' 7
VlIl N
N 4W
- I storage tank
~
N N
I 6.
Spent resin A8-C74 AB-C55 W
D 4
2*
7 mrg sluice pump 7.
Spent resin AS-C74 AB-C55 W
NA 6
2' E
NEMA HGi' N
N j
sluice pump motor
.2*
7 VIII N
N 8.
Spent resin AB-A58 AS-A58 W
D 4
i sIulce filter i
L 9.
Process valves W,8 D
4 I
2'
'7.
831.1 N
N cnd piping i
>2 in, outside containment 2
e 7
7 831.1,.
N N
- 19. Process valves 8
D 4
g and piping 1 -
,? In.
- 11. Process valves W,B B
2 0
'1 i 2.
til-2 Y
Y Vill s
and piping in-i
'C side containment 4
2 c
'l through outer 1."
Isolation valves 2
..]
7
.- V i l l ',
- 12. Blowdown tria AB-803 AB-8124 W
D 4
N N
HX 4.
TEMA-C,.
- 13. Steam gener-AB-C108 AS-CO2 W
NA 6
.2 '
i-f&
. NEHA HG1 N
N i
ator drain 1,
A. (, -
e 4.
y f
pump motor e g
('l.
,, /. f 5.
t -
p 2
i
[
?
[
l?
, ~.*.
/
{
x
n -- - ;
. _ - ~ ~ m n - - n.. - - - - - - -
~. -
~. -., -,..
. -. ~. ~, ~.., _.
1 1
s-TABLE 3.2.2-1 (SHEET 31 OF 97) l (d)
(f)
(g)-
(J)
(a)
(b)
(c)
- VEGP, (e)-
Codes and Principal (i)
Environ '
Principas System Location Source of Qua li ty Sa fety Seismic Standards Construc- (h)
Safety mental (k)
' r and Components Unit
- Unit 2 Supply Group Class Category Designator { tion Code Q-List itelated Designator Comments
- 15. Ctter instru-'
S NA 6
2 J
mrg N
N j
eentation and controls
- 16. Sarety-related B
NA 1
1 E
NEMA MC1' Y
Y valve motors
{,
I POWER CONV[RSION SYSTEM 1.
Main turbines18-270' T8-2TO' S
D 4 ' ' 2 4
mrg N
N 2.
Gene ra to r 18-270' TB-270' S
D 4
2-4' arg N
N 1.
Main condensers TB-195' TS-195' S
D 84 4,
~ Vill N
N 2
4.
facdwater 18-220' T8-220' S
D 4
2.
4 Vill N
N
- l. eaters 245' & 245' &
290' 290'
.S.
Hoisture sepa-TB-2TO'18-270' S
D 84 2.
4 Vill N
N en retor relicaters N
N I
6.
Hoistisre sepa-TB-245'18-245.'
S D
4 j2 4
API-650 retnr drain y'O tante s t.
steater drain 18-220' TS-220' S
D 4
2 4
AP(1-650,
N N
7 tanks w
8.
Reheater drain T8-245' TS-245' S
D 4
3, 2..
4 API-650,
N N
tanks j
4 9.
tienter dra in 18-195' T8-195' S
D 4 - 4 2~
4, arg N
N 4
pumps
- 10. steater-dra in 18-195' TB-195' S
NA 6
L 2'-
'E NE'MA hcl N
N i
}
go.ep 50to rs 4.*
~
it. [rtraction 5
D is T.
2, 4,
83.1.1 N
N steam valves C'
r s.
and piping
}
[
2
- 4:
831.1 N
N
- 12. Other valves S
D 4
and piping
- 13. Instrumentation S
NA 6
- j. 2
(
J; carg N
N 78-2T0' T8-270' S
D 8:
.7 2-r,4 VI.ll N
N
- 14. Genera tor H2 rnnier s
I',
Getierator 18-220' IB-220' S
0 84
-?
- 2. -
i.
I-
['
' mfg N
N I
stator cool-J.
ll ant pump
- i i
S
- 16. Generator TS-220' T8-220' S
NA 6
.(
2 E *r.
- NEttA MC1,.
N N
t sta tor cnot-2 ent pump motor-i
- 17. Generator TB-220' T8-220' S
D 4
2. 7[4 IVI11 M
N stator cooler
,.y,.
t
- ~-
o 8
141f 8 I PO M h*A 8My $h f98*
{
e
'll
- i 1. 3
.?
.f N'1 fD$
' [
.b
.. - a. -- -
'g g
l.
o
'fs
=
4 r,
t TABLE 3.2.2-1 (SHEET 32 OF 97)-
t t
?
(d)
Codes and Principal (I)
Environ-(f)
(g)
(J)
(a)
(b),
(c)
VECP.
(e) i i
Principal System Location Sou rce o r Qua l i ty Sa f e ty Se i sm ic. S tanda rd s Construc- (h)
Safety mental (k) rnd Components Unit 1 Unit 2 Supply Croup Class - Category Designator tion Code Q-List Related Designator Comments s
[ CONDENSER AIR EJECTON SYSTEM 1.
Air ejectors TB-220' TB-220' S
D 4
2 4
Vill N
N 2
Air ejector T8-220' T8-220'
-S D
4 2
4
- Vill, N
N condensers TEMA-C j
~l 3.
Vacuum pumps T8-195' T8-195' S
D 4
2, 4
- l arg N
N 4
Vacuum pump T8-195' TB-195' S
NA 6
2 E
NEMA MG1 N
N i
motors f-5. Vacuum pump TB-195' TB-195' S
D 4
2 4
mrg N
N
,i tl g *-
exhaust t r-sliencers i
i is, 6 Vacuum pump T8-195' T8-195' S
D 4
2 4
- Vill, N
N e
s sea t water HXs TEMA-C
+i Jed T.
Sea l water TB-195' T8-195' S
D 4
2 4
mfg N
N Q
lj l' s-pumps
.a st.s 4.
Valves and S
D 4
2 4
831.1 N
N
!l I%
piping NEMA MGI-N N
u) ers l] 9.
Sea t water pump T8-195'18-195' S
MA 6
2 E
s
,j motors
~
] 3( 13. Instrumentation S
NA 6
2,-
.J arg N
N y
!i w
CIRCULATING vfATER SYSTEM e
1.
Circulating 0
0 8
D 4
?
2' 4
mrg N
N water pumps j
2.
Ci rcu l a t i ng 0
0 5
NA 6
2, A
. E NEMA MG1-N N
j i
wa te r pump motors 3.
Condenser TB-195' T8-195' S
D 4
2, 4
mrg N
N
<ilI water box drain pump 9
l' 4.
Condenser TB-195'18-195' S
NA 6*
2 E
NEMA MG1 N
N water box
~-
t d ra i n pump motor L,
5.
Piping S
NA 6'
2 C
mfg N
N 6.
Valves S
NA 6
2 s'
26 831.1 N
N 7.
Ins t rumen ta t ion S
NA 6
2.
4, arg N
N RIVER INTAKE STRUCTURE SYSTEMS t
1' 1
Mixing chamber V8 shared S
NA 6
'2 I
C -
in' g N
N r
2.
River makeup O
sha red S
NA 6
2 l 6, arg N
N and dilution 2
,2
.c pumps j
)*
s i
- , ?.
- \\
-i -
5
~.
~
t Y
s 1
TABLE 3.2.2-1 (SHEET 43 OF 97)*'
I
- i f
Id)
(f)
(g),
(,[ ]
(a)
(b)
(c)
VECP.
(e)
- Codes.and Principal (1)
Environ-i '
Principal System Location Source of Quality Safety Selsmic: Standards Construca (h)
Safety mental (k) rnd Components Unit 1 Unit 2 _ Supply Group Class Category Designator tion Code Q-List Related Designator Comments
=
t 8.
Condenser cir-TB-195' TB-195' S
NA 6
2 E
NEMA MG1 N
N d
culating water j
sample pump motor
\\
9.
Instrumentation S
NA 6
2 J
mrg N
N CON 1ROL BUILDING DRAIN SYSTEM
}
/_
1.
Sump pumps CB-C C8-C B
D 4
2 4
mrg s
N N
2.
Sump pump CB-C CB-C B
NA 6
.2 E
NEMA MCI N
N I
motors 3.
Piping, valves, B
D 4
1 4
B31.1,6 N
N and rioor API 65 r1 drain boxes O
4.
Instrumentation B
HA 6.
2, J
mfg N
N y
y AuxlLIARY Bt88LDING rLOOD RETAINING ROOMS, ALARMS, AND DRAINS
(
1
[SF pump room:
- o Alarm units B
NA 1
1 J
mrg Y
Y l
)
,I Piping to room B
D 4
1 4
B31.1
- N N
L*'
j isolation j
valve 4'
Isolation B
C 3'
. 1 3
111-3 Y
Y valves l'
2.
Penatrailon rooms:
,J L
Alarm units B
NA 6
. 2*
,J mfg N
N t
Valves and B
D 4
.1>
88 B31.1 3.
I ns t rumen ta tion B
NA 6'
2:.
-[
.J N
N
- l piping y
mfg
{
N N
,j
-r O CotiTAINHrNT, AUXfLIARY BUltDING, AND MISCELLANEOUS DRAIN SYSTEMS, s. e ;7 a
t t
]O 1.
Radinactivo AB-055 AB-D20 8
D 88 2
h.
81 arg 7.
N N
4 4
drain sues:
i pumps i,
4
.~
s.
- I L, 2.
Heactor cav-C-171' C-171' B
D 4
. 1.-
.)I '
org N
N ll'N ity sump pumps T
r
]D s.mp pt.mos 4
. :4 -,'
,0 3. Containment C-171' C-171' B
D 4
l i.
arg N
N
- 3
~
5
~
+4 Arg N
N 4.
rene t ra t ion AB-D73 AB-D107
- B D
4 1
li 1 room sump
'j,.
l pumps i..'
P
. i.
I.
f O'
.^j,.i., ' ;
5 i?.
i I
. l.
~
s
a w~
~
-+,
1 4
.j'
{
M TABLE 3.2.2-1 (SHEET 44 OP 97j i
y ji j
- q (d)
(r) gl (J)
(a)
(1:)
-(c)
VECP e)
Codcs and' Pr ncip.I (l)
Environ-t Principal System Location Source of Quality Safety, Category Designator tion Cod'e Q-List Related Designator Comments Se smic Standa rds Construc- (h)
Safety mental (k) eni Components Unit 1 Unit 2 Supply Group Class.
. l $ 5.
- e Aux i l la ry AB-D31 A8-D28 8
D 4
2 4
mrg N
N
- j ;
buiIdlog sump g
p g
pumps
,X 3
6.
Compontnt AB-DT5 A8-DO6 B
D 4
2 II API 650' N
N cooling water
- 1.
drain tank D
7.
Component AB-Df5 AB-D06 5
D 4
2' 4
mfg s
N N
cooling wa ter drain tank pump 8.
Clean water AB-Ol6 AB-032 B
D 4
2 4
erg N
N 4
- e sump pumps 3
g
D 4
21 4
mrg N
N o
sump pumps T
- 10. Diesel elec-VB VB B
D 84 2
4 mrg N
N I
't trical tunnel N
sump pumps
- 11. Main steam VB VB B
D 4
T; 2-4 erg
~
N N
y and reedwater P
tunnel sump I
a w
pumps
'..** 12. Dierset building DB DB B
D 4
- f..
2.:
4 mrg N
N oily vaste surp t
,'f t
API 65h 13.
a ment drain RB shared B
D 4,
2, 4
H N
w tank g 14. rioor drain RB sha red B
D 4
2.-
4 API 65 N
N tank
+
- [,15. Containment, B
HA 6
i
- 1 ~
~
E mrg
?
N N
r reactor cavity, t
.f 4.
and penetration room sump pump
?
, ; I motors
- 16. Al 1.other pump B
HA 6
E NIMA hcl N
N
.2, s
mntors
- 17. Instrumentation B
NA 6
/
2-J mig N
N f
- 18. Drain isolation B
C 3
1 valves for EST 3
114-3 Y
Y
+
Y q
5 pump, HX, and i
s
,,y va ive rooms J
~l l,
.s
}
4 s
.e
y e
l x
+
g i
j 1
,' ~
.l' 1
=-
l TABLE 3. 2. 2 'l. ( S.HEET 4 5 O. F' 97) -.
(g)*
(J)
(d) ;
(r)
(a)
(b)
.(c)
VEGP? (e)
. Codes and I,Principa l (1)
Environ-Princ(paI System Location Source or Qua Iity Sa fetyr SeIsaic. Standa rds,constriac- (h)
Sarety menta1-. (k)
[-
end Components Unit 1 Unit 2 Supply Croup Class Category'Designa tor tion Code Q-List Related Designator Comments 4
) $ 19. All other 8
D 4
{
.1 4
831.1$
H N
valves and all piping
,p -
t R ADWAS T E sot. I D i r t CAT I ON BU I LD l 'iG DRA I N SYST EM
! 4 Equipment RB sha red 8
D 4
7.
2' 4
API 650; N
N draise tank
. ". 2'.
i4 API 6$0 N
N l
2.
Floor drain R8 shared 8
0 4
I tank 4
mrg N
N 3.
Equipment R8 staa red 8
0 8e 2
drain tank pump s,
te. Iloor drain R8 sha red 8
D 4
.2, 4
mfg.
N N
N i
Lank pump O
+
5.
Equipment R8 sha red 8
D 4
2-4 mrg N
N
'O drain stamp l
pumps g
6.
Floor drain R8 sha red 8
D 4
9 2-4
, alfg.
N N
- p sump pumps
{
]
.I p
TURBINE BulLDING DRAIN SYSTEM i
6 td i
1.
Turbine build-T8-195' TB-195' S
D 4
.i
- 2.
4
. A,PI-650' N
N
~
+1 Ing drain tanks 9
2.
Turbine build-TB-195' TB-195' S
D 4
i' 2~
.a4 erg N
N ing drain y,
4 da transfer pumps
. ~.
i
'N 3.
Turbine build-T8-195'18-195' S
NA 6
?
2i
!E
NEMA HG1 N
N
?
ing drain
(
O transfer pump g-1r E i
P' motors
?
4
. A P I -610 -
N N
D 4.
Turbine build-TB-195' TB-1958 S
D 4
- 2.
T ing sump pumps
~
5.
lurbine build-T8-195' TB-195' S
NA 6
- 2:'
E It[MA HQ.1-N N
J'.
Ing sump pump motors C
s-6.
Iurbine build-A8-D93 'A8-D64 W
D 4
,2 i
,. 4 V l l.l.:
- N N
Ing drain dis-5 l
charge filter
/
i 7.
Turbine bulld-A8-C144 A8-C147 8
D 4.'
2; i
- 4 Vill N
N I
Ing mixed bed
& C145 & C148 i
demine ra l i ze rs i
l
- 8 -
8.
Turbine build-A8-D92 A8-D85 8
D 4
2 4
Vill N
N ing drain reed t
filter
[*
.s t
m.- m.
r
,^.
.~.
I
=-m--.~-_
_ ~. ~
. ~ ~ -
j i
.I+
1 TABLE 3.2.2-1 (SHEET 46 OP 97) t j
s e
(d)
(f) __
~(g)
(,j )
}.
,,9 (a)
(b)
(c)
VEGP. (e)
Codes and Principal (1)
Environ-J :, Principal System Location Source of Quality Safety Seismic Standards Const ruc. ' ( h)
. Safety mental (k) 1.,
rnd Componen's Unit 1 Unit 2 Supply Croup Class Category Designator tion Code Q-List Related Designator Comments
-r-
'l -- 9.
Turbiris build-A8-D89 AB-D87 W
D to 2
is
- Vill N
N
{
Q i ng d ra.'n' o l l i-(
8: epa ra to r 4
g 13. Valves and 5,8 D
as 2
4 831.1 N
- N t
piping
~
S,8 NA 6
2 J>
afg N
N strumentation l
IURBINE LUBE OIL STORACE AND l'lLTRATIOli SYSTEM l
j 1.
Main lube oil TB-245' T8-245' Sn NA 6,
2 '
API 650
.N N'
sackage
)
i reservoir t
i h
2.
FW pump turbine T8-220' TS-220'
-NA 6
2 6'
~ API 650 N
N lobe oil o
re se rvo i r N
l j
packages 3.
Clean tube oil O sha red S
NA 6
'2 6
API 650 N
N
]
storage tank
?
+
i API 650 N
N y
j e.
Dirty tube oil 0 sha red S
NA 6
't
,2 6
s
.i storage tank I
s 5.
Lube oil stor-O sha red S
NA 6
2 6
afg N
N ta j
l age tank trans-t l
f e r pump N
N i
6.
Vapor TB-220'18-220' S
NA 6 3 2
6
' arg
(
ex t ra c to rs i
l 7.
Lube oil filter T8-220' TB-220' S
NA 6
2.
6 mfg N
N j
l pumps l'
8.
Pump motors S
NA 6
2*
E NEMA hcl N
N 1
9.
Main Icoe oil TB-220' TS-220' S
NA 6
- 2 6
831.1 -
N N
j I
j 2
cond i t ione r i
.'{.
package
- 1
- 10. FW pump sube TB-195' T8-195' S
NA 6
'2.
~6
' 831.1 N
N i j j.
oil conditioner
}
package t
1
- 11. Oil coolers18-270' T8-2'70' S
NA 6
42 '
6
{ Vill N
N
}
i
- 12. Main tubo oil S
NA 6'
2 6
- . API 650 N
N i
conditioner
+
'5 backflow tank l.
l
~
,6
{ mfg N
N ta
- 13. Lube oil drain TB-195' TB-195' S
NA 6
,' 2 j
'l pump j
lis. Valvea Pr.d S
NA 6
2
,6
'i 1531.1 N
N t
-j piping s
- 15. Inst.umentation S
NA 6
c 2.,
/J
- arg N
N j
y..-
.4
. 4 p,.
j 1
i
.t l
<?
i l
a
m.
,m
- (
-t j
p
.)
'i TABLE 3.2.2-1 (SIIEET 54 OF 97) l N
3 (d)
(f)
~ (g)
(al (b)
(c)
VECP (e)
Codes and iPrincipal (i)
. (J)
! f Environ-l I Principal System Location Source of Quality Safety Seismic Standards.Construc-(h)
Safety mental (kl 8
rnd Components Unit 1 Unit 2 Supply Croup Cla ss. Category Designa tor.t ion Code Q-t i st Re la ted Des igna tor Conment s it. Potable water o
sha red S
NA 6
2 6
API 650 N
N storage tank
- 1
- 17. Pump motors VB sha red S
NA 6
'2 E
.. NEMA hcl N
N 5
t I
CEACIOR COOLANT SYST[M LEAK DETECTION SYSTEM 9
1.
Radiation C'
C W
NA 6
1 J
mfg N
N monitors p
2.
Condensate C
C 8
NA 6
2 J
mig N
N 1
measuring instruments
- I 3.
Condensate C
C 8
NA 4
2 4
831.1 N
N mes siering fy j
piping and y
valves
~
c a.
Itomidity C
C 8
NA 6
2 J
mfg H
N q
n 5.
Tank and C
C 8
NA 6
2 J
mfg H
N (n
sump level J
instruments W
I A HISCELLANEOUS LEAK DETECTION SYSTEM l
1.
Piping and 8
0 4
28 le.
=
831.1 N
N
,3 valves g
e i l-- Fu[L HANDLlHC BUILDING DRAIN SYSTEM j
t c y
- $ Q 1.
0 4
i 2;
4 i arg N
N
"'; e-2.
NA 6
2 E
NEMA MG1 N
- !4 motors B
D 4
1.
4
. 831.1 '
N N'
I.
L ! 3. 3.
Piping and
( -
valves Instrumentation 8
NA 6
L2 J.
[m.rg N
N UTILITY WATER SYSTEM
,f
.h..
g N
N 1.
Utility water VB
'sha red S
NA 6
22 6
' jf afg
+
booster pumps l
l 2.
Utility water V8 shared S
NA 6
2 g
E e.
..1 NEMA MC1 N
N e
booster pump C-r 1
motors
'v
.e.
,}
i:
.g e
. 3 1
b i
-. ~-
i
~. --
s' e
L 3.
l t.
-- ^-
ad
^
c w._.
m
,7
~-
.m 3
1 TABLE '3.2.2-1 (SHEET 55 OF.9"l) 1 (d)
(f)
(g)
(,j )
l (s)
(b)
(c)
YECP
'(e)
Codes and Principal (1)
Environ-Principal System Location Source.or Quality Safety Seismic Standa rd s Construc- (h)
Safety mental (k) and Components Unit 1 Unit 2 Supply Group Class Category Designator tion Code Q-List Related Designator Comments
]
3.
Utility water 0
sha red S
NA 6-2 C
. arg N
N
.foop header i
1 Valves and all S,8 NA 6
2 6
' mfg 4
N N
other piping
?
e-
.i 5.
Instrumentation S
NA 6
2
'J mfg
~,
N N
-N CONTAINHENT AIR C00LINC SYSTEM q
1 Cooling fans C-236' C-236' 8
NA 0 '
1
'5 A*tCA Y
Y 1-8
- f. Tan motors C-236' C-236' 8
NA 1
1 E
NEMA MCl Y
Y 1-8 3.
Coolers C-236' C-236' 8
B 2
1 2
181-2 Y
Y 1-8 l
4 fa. Doctwork C
C S
NA 0
1 5
ANSI N509 Y
Y
]
5.
Dampers C
C B
NA 0
1 5
ANSI H509 Y
Y 1-8 6.
Damper motors C
C B
NA 1.
1 E
NEMA MCI Y
Y g3 7.
Safety-related 8
NA 1
1 J
arg Y
Y Note s
.o J
ins t rueen ta t ion 3
L i
1 en CONTAltHENT LOWER LEVEL AIR CIRCULATINC SYSTEM y
B HA 6
2 6
i AMCA N
N 7
1.
Ians C-171' C-1718 2.
Fan motors C-171' C-171' B
flA 6.
2 E
NEMA MC1 il N
ts 3.
Doctwork B
HA 6
- 2 6
.SMACNA N
N Note p 8
Instrumentation 8
NA 6
'2
~J arg N
N 4
6 ONIAINHENT PREACCESS FILTER SYSTEM 3
1.
Ians C-259' C-259' 8
NA 6 '-
2 '
6
'AMCA N
N 2.
ran motors C-259' C-259' B
tlA 64 2
E NEMA MG1 N
N l
3.
HEPA ritters C-259' C-259' B
NA 6
2
- 6
. ANSI N509 N
N Is. Cha rcoa l C-259' C-259' 8
NA 6.
2 6
1 ANSI N509 N
N-ritters c
5.
Ilea te rs C-259' C-259' S
NA
- 6. '
6.
Moisture C-259' C-259' B
NA 6 ;
- -2
'E 3
UL N
N 2
6 7.
Instrumentation R
NA 6.
ANSI N509 N
N eliminators 2
'J
- arg N
N v
5 L.
1
{. ~
h CONIAINHENT NORNAL PREACCESS PURCE EXHAUST SYSTEM hs
'2 i
1.
Preaccess ES-220' EB-220' 8
NA
,I6 AMCA N
N
- ^
purge ran Preaccess EB-220' EB-220' 8
NA 6
2 7
'E
'a ~ NEMA MC1 N
N i!
(
2.
purge ran 3
L motor
,1 l;
e.'
- n..
R j
.i
'l.
E i
(
f.
/
g J
i
w.a.-. - w--mm n
,=
c I
. j.
~ f!
l (SHEET 56 OP.97) j' l'ABLE 3. 2. 2-1 i
l 3
i 3
.4 f
i s
'(dl' (rl (g)
(,j )
(a)
(b)
(c)
VECP (e)
. Codes and ~rrincipal (I)
Environ-I Principal System Location Source of Quality Safety Seismic = Standards Construc- (h)
Sarety.
mental (k)
I and Components Unit 1 Unit 2 Supply Group Class. Category Designator.tlon Code.Q-List Related Designator Comments q 3.
Minipurge ran E8-220' E8-220' 8
NA ?6i 2
6
.cAMCA N
N as. Minipurge ran EB-220' E8-220' 8
NA 6,
2 E
s' NEMA MC1 N
N l
3 motor s'
N N
~
f 5.
Moisture E8-220' EB-220' 8
NA 6
2 6
~fMSI M509 4
climinators i
j 6.
Heaters E8-220' E8-220' 8
NA
+ 6 '#
-2
.E
[UL N
N i
7.
HEPA filters EB-220' EB-220' 8
NA 6;
2 4
.6
. ANSI N509 N
N 1
f i l te r t.
6-
';AN$1 N509 N
N 1
8.
Charcoal E8-220' EB-220' 8
HA 6?
2 j-9.
Preacce ss purge EB-220' EB-220' 8
NA 6
.1 6
.' ANSI N509 N
N i
~
1 exhaust unit j
~
housing
'i'l Q 10. Containment pene t ra t ion
. ).l l i-2/ i Y
Y 8
8 i2.
'.1 2
s P ducting
AISI 1
r's U
O 1
jN 11. All other 8
NA 6
'2 6
SMACNA.
N N
7
- f ductwork f'-
'f i
eg
d
- 12. Isolation 8
8 2'
(l' 2
'lliv2 Y
Y~
Cn 1 ~4 1 F-dampers 1-E i.iNEMA MC1 Y
Y y
s Y 13. Isolation 8
NA
- -a.
damper motors
,2 i
.6
. ANSI N509 N
N g
1 14. Ol scha rge 8
NA 6'
~
dampers l
8 HA 13
.'.1 J.
.imfg.
Y Y
Note s i
- 15. Instrumentation for conta inment
-N i
'i isolation l 6 16. All other B
NA 6 }.
l2 '
'.' J
- m fg.
N ll instrumentation y
4 ', -
CONIAINHENT NORMAL PREACCESS PURCE SUPPLY SYSTEM
. i.
i
~
~
6 S 2
6
'.'AMCA,i N
N l
'f 1.
Preaccess purge EB-220' E8-220' 8
NA ran L:.
+
't 2.
Preaccess purge E8-220' ES-220' 8
NA 6'
~2-
}
<E
- 1, NEMA MC1 N
N ran motor i
,1 6 IAMCA*:
3.
Minipurgo ran
[8-220' [B-220' 8
NA 6 '<
'2 ~ *F
.E
~,2 NEMA hcl.
N N
as. Minipurge ran EB-220'- E8-220' 8
NA 6i
- 2 N
N t
I 4
motor i
- ;6 6.
Heaters EB-220' E8-220' 8
NA 6
'2 7
'. E
U L N
N I
~AASMAAC' j
5.
Profilters EB-220' EB-220' 8
NA 6-
- 2 N
N
)
7.
Containment B
B 2'
- 1 i'." / 2
. Q l il'-2 s Y
Y j
. ~.
5 ducting 8.
Al1 other 8
NA 6e
.2
. ' '6
.'SHACNA N
N d
.i. ' ' '
i ductwork
^
i'?
++ ;
g'
'..,., J L.'.*
.e
. i' f
.t s
g.
l
.l N
1 i
i t
,1 TABLE 3.2.2-1 (SHEET.57 OF 97) 1 I
t i
1:
(d)
(r)
(g)
(J)
(a)
(b)
(c)
VECP (e)
Codes and Principal (i)
Environ-
,(
Principal System Location Source of. Quality Safety Seismic Standards Construc- (h)
Safety mental (k) j rnd Camponents Unit 1 Unit 2 Supply Group Class. Ca tego ry De s i gna to r t i on Code Q-L i s t Re l a ted De s i gna to r Comment s
~
I 9.
Isolation 8
8 2
1 2
III-?
Y Y
I dampers
- 13. Isolation 8
NA 1
1 E
NEMA MC1 Y
Y l,
dssper motors
- 11. I n i te t - dampe r 8
NA 6
2 6
ANSI N509 N
N l
- 12. Instrumentation 8
NA 1
1 J
mfg Y
Y Note s
'l for conta inment I.
Isolation
- 13. All other 8
MA 6
2 J
mrg N
N instrumentation 9J LCONTAIHMENI POST-LOCA PURGE EXHAUST SYSTEM N
1.
Centaineent B
B 2
1 2
1II-2 Y
Y I'8 g
1 duc t i rig 2.
Walded ductwork 8
NA 6
1 6
SHACHA N.
H e:2
~
+
3.
All other 8
NA 6
2 6
ANSI H509 N
N U)>
ductwork 4.
Isolation 8
8 2
1 2
5 til-?
Y Y
y dampers y
5.
Isolation 8
NA 1
1 E
NENA HG1 Y
Y dssper motors
- 6.
Heaters E8-R20' E8-220' 8
NA 6
2 E
UL N
N 7.
Holsture E0-220' E8-220'-
B NA 6
2-6 ANSI H509 N
N eliminators
-l i 8.
HEPA ritters EB-220' EB-220' 8
NA 6
2 6
ANSI N509 N
N 4 9.
Cd.o rcoa l EB-220' E8-220' 8
NA 6
2 6
ANSI N509 N
N ritters h10. Post-LOCA purge E8-220' EB-220' 8
l'A 6
1 6
ANSI N509 N
N erbaust unit e,4 housing 11 Inlet globo 8
NA 6
2 6
831.1 N
N valve and discharge e
f check valvp
% 12. Instrumentation 8
NA 6
2 J
mi'g
~-N
-N CONTAlHMENT CRDH COOLlHG SYSTEM 1.
Fans C-240' C-240' W
NA 6
2 6
ANCA N
N s
2.
Fan motors C-240' C-240' W
.NA 6
2 E
NEMA HG1 N
N Note a i
i!
3.
Ductwork C
C W
NA 5
2 6
SMACNA N
N 6
] Is. Instrumentation W
NA 5
2-J mfg N
N b
1 I
T q
e-q 1
TABLE 3.2.2-1 (SHEET 59 DP 97) 1W j
]j r
f L
(d) *
(r)
(g)
(J)
(a)
(b)
(c)
.VECP (e)
Codes and Principal (i)
Environ-Principal System Location Source or Quality Safety Seismic Standards Construc- (h)
Safety mental (k) i y d Components Unit 1 Unit 2 Supply Group Class Category Designator I;lon Code Q-List Related Designator Comments 4.
All other B
B. 2
.1 2
..lil-2 Y
Y doctwork I
5.
Sarety-related B
NA 1-
'.1 '
.J arg Y
Y
' Note s instrumentation EQUIPHENIBl[lLDINGHVACSYSTEN
,i 1.
Equipment EB EB B
HA 6
2 6
e AllCA N
N I
building, vent l-lation rans i
2.
Equipment EB EB B
HA 6
.2 E
hEHA HGI N
N building venti-motors
[
- l lation ran H'
N
.a 3.
Tendon ga llery EB EB B
NA 6,
2 6
AMCA o
ventilation rans I
ta. Tendon gallery EB -
EB B
NA 6)
[ 2.
E
,NEHA HG1..
N N
"2 M
ventilation ran
,V motors H509 N
N 7
5.
Ductwork B
NA 62
.' 2 1
6 j} ANSI 8
6.
Dampers B
NA 6'
'2 6
. ANSI H509 N
N w
7.
Damper motors B
NA 6L 2
.E
' NEMA HG1 N
N B.
Instrumentation 8
NA 6 i-
- 2-J
~ arg N
N l'
g.
CONTHOL ROOH llVAC SYSTEM (ESSENTIAL PORTION) a 1.
filter unit CD-312 CB-305 B
NA o!,
' 1
'5 AMCA Y
Y IX rans k 321
& 311
NEHA HG1 Y
Y IX 2.
fiiter unlt CB-312 CB-305 B
NA 1
1.
.. E rans motors k 321
& 311 1
1-a 3.
Return air CB-312 CD-305 B
NA 0'
1 E
5
- e AMCA.
Y Y-IX i
rans k 321
& 311 I"
1
- E
$'N[HAHGI Y
Y IX
,ts. Return gir CB-312 CB-305 B
NA 1
0 rans motor
& 321
& 311
,_A.
Holsture CB-312 CB-305 B
HA Oi climinators
& 321 k 311
'S
.iANSI N509 Y
Y IX f
'.1
,, { 5.
l m
6.
Heaters CB-312 CB-305 B
NA l'
1
.E
' 3. UL Y
Y IX r-
& 321
& 311
.W 7.
HEPA rilters CB-312 CB-305 B
HA 0
1.
- 5
'^NSI N509 Y
Y IX k 321
& 311 Cha rcoa l CB-312 CB-305 B
HA 0
1
.5 l ANSI N509 Y
Y IX J
$['B.
ritters
& 321
& 321 7,
Y Y
IX h
it j9.
Cooling coils CB-312 CB-305 B
C 3
1
-(3
'J l l 1 - 3 '.'
ne' J
~
r-k 521
& 311
- 3 jANSIil509 Y
Y
- 10. Dampers B'
NA 0
1
.Y r
4 A
A, c.
.m 3
ij
- l
- t-4 U.
.i F
M.!
i 1
TABLE 3.2.2-1 '(SHEET 67 OF 97)'
i is
- l j,
1 j.
(d)
(r)
.(g).
(,j )
8 (a)
(b)
(c)
VECP (e)
Codes,and P,rincipal.
(1)
Environ-Principal System Location Source of Quality Safety Seismic Standa rds Construc- (h)
Safety mental (k) end Components Unit 1 Unit 2 Supply Group Class Category Designator. tion Code Q-List Related Designator Comments I
.?
r'U L N
N
',j 8.
Ra i l road cor-AB-127 sha red B
NA 6
2
(*,
2 ridor inf rared
'( '
i heaters 9.
FHB norma l A/C CB-8403 shared B
NA 6
2 d'
'AMCA N
N
,I ran t-4 i
- 10. FHD normal A/C CB-8 03 shared B
NA 6
2 Ei
' NEMA HG1 N
N 4
i ran motor ASIIR'AE ~
N N
~ '
- 11. FIIB norma l A/C CB-403 she red B
NA 6
2 6
[ J prerliters if.
- 12. FHB normal A/C CD-403 shared B
NA 6
2 E-
'.'O k.
N N
I' heatecs
- 13. FHD normal A/C CB-t:03 shared B
NA 6
2 6.
.'AR I N
N coolers i
4 r:3 s
1 FilB exhaust FB-301 sha red B
NA 6
2 6
.AMCA-A/C ran
/
1 N
N C) l
'O l
- 15. FHS exhaust FB-301 shared B
NA 6
2 E
' NEMA hcl N
N 8
(
{
l A/C ran
(
]
j
.i motor s
y e
- 16. FHB exhaust FB-301 sha red B
NA 6
2 6
ANSI N509 N
N
- o l
i l
'g i A/C llEPA i
W l
ritters i
.4 17. FHB exhaust FB-301 sha red B
NA 6
2 l'
.U L N
N j
e A/C heaters
(
,, f 18. FHB exhaust FB-301 sha red B
NA 6
2 6
ANSI N509 N
N
> e -d A/C moisture
'f eliminators I
FB-301 sha red B
NA 6
2 6
ANSI H509 N
N
- jW 19. FHB exhaust s
A/C cha rcoal
. ;Ms filters
'81 20. HEPA ritters FB-301 sha red B
NA 6
2 6
ANSI H509 N
N
- 21. Process duct-B NA 6
2 6
SHACNA/
j
'. work and ANSI H509. N N'
).' y z'
dampers g,-
2 Damper motors B
NA 6
2 E
NEHA HG1 N
N 4
.1
- 3. Nngativo pres-B NA 0
1 5
ANSI N509 Y
Y suro boundary l
penetration ductwork and 4
dampers f
~
is. Inst rumenta tion G
NA 6
2 J
mrg N
N y
i
- 25. FBIB normal FB-301 sha red B
NA 6
2 E
UL M
N i
equipment l
.J reheat coll I
i
m --.
=; - =_ e
. -. - - e.+n l
~
]
^
^
j.
TABLE 3.2.2-1 (SilEET 68 OF 9$7)
~
.i
~
I
- (d)
(f)
(g)
(J)
'}
(a)
(b)
(c)
.VECP (e)
Codes and Principal' (1)
Environ-Principal System Location Source of Quality Safety Seismic Standa rd s Construc- (h)
Safety mental (k) r and Components Unit 1 Unit 2 Supply Group Class Category Designator' tion Code' Q-List Related Designator Comments
- 26. THB accident FB-260' shared B
NA 6,
2 E
. u k.
N N
equipment l
reheat coli s
IUEL HANDLING BUILDING POST-ACCIDENT EXHAUST SYSTEM 1
Fans FB-303, sha red B
HA 0
1 5
- AHQA Y
Y Vil 304 2.
ran motors FB-303, sha red B
NA 1
1-E NENA HG1 Y!
Y Vil 4
304
.1 5
..A.N S I M509 Y
Y Vil 1
3.
Hulsture FB-303, sha red B
NA O.
climinators 304
- ^ 4.
Heators FB-303, sha red B
NA 1
~1 E
UL Y
Y Vil
,,p 304 l m 5.
HEPA ritters FB-303, sha red B
NA O
,I 5
ANSI H509 Y-Y Vil o
i dg 304
.1 5
. ANSI N509 Y.
Y Vil 9
1 6.
Cha rcoa l FB-303, sha red B
HA 0
M O
ritters 304 a $
7.
I Ductwork B
HA 0-1 5
'AtlSI H509 Y
Y Vil j
8.
Dampers E
NA O~
1 5
ANSI H509 Y
Y Vil
.7 i
E 9.
Dampers motors B
NA 1,
1.
E NEMA HG1 Y
Y VII w
.i 1
- 10. Safety-related B
NA 1
<1-J mrq Y
Y Vil Note s Instrumentation AUXILIARY BUILDING OUTSIDE AIR SUPPLY, NORMAL HVAC, RADI.0 ACTIVE
- FILTER EMHAUST,.AND CONTINUOUS EXHAUST SYSTEMS (1.
Exhaust unit AB-210 AB-204 8
NA 6*
22
.6 Ai4CA N
N i
j "T)2 E
rans
(
E>haust unlt AB-210 AB-204 8
NA 6t
.2; E-
. NEMA HGi N'
N ran motors 3.
A/C rans AB-210 AB-204 8
NA
- 6 J2 6
'. A'HCA N
N.
~i, J.
A/C ran motors AB-210 AB-204 8
HA 6
f2
'E
'-NEMA HG1 N
N 5.
HEPA ritters AB-210 AB-204 8
NA 6
- 2 6
ANSI N509 N
N f 6.
Charcoal AB-210 AB-20ts B
NA 6
.2' f
iANSI H509 N
N ritters N
N 7.
Holsture AB-210 AB-201:
B NA 6
.2 6
nirg
.; 4 eliminators l
N N
a b
8.
Electric AB-210 AB-204 8
NA 6-
?
- E
.UL l'4 heaters i e 9.
Cooling coils AB-210 AB-204 B
NA 6
,2
.6
.AR)*
N N
l 85 10. Ductwork B
HA 6
2 6
SHACNA N
N y 11 Dampers, B
HA 6
2 6
ANSI N509 N
N
- 12. Damper motors B
NA 6
2 rE NEHA HG1 N
N
..}..gi 13. Instrumentation B
NA 6
2
?J
- mig N
N L
v l
i 3
-- T e.
y 3-
.fe
' uk i
TABLE 3.2.2,1 (SHEET 73 OF 97) s
}
t till (F)
(9).
(.Il i
(a)
(b)
(c)
VECP (e)'
Codes and P r.i nc i pa l.-
(i)
Environ-Principal System Location Source of Quali ty Safety. Sei smic Standa rds Construc. (h).
Safety mental (k) l end Components Unit 1 Unit 2 Supply Group __ Class Category Designator tion Code Q-List > Related Designator Comments f
y S
- 18. SIP pump and y
HX room croler B:
1 i
i Fen FB-A07 FB-A0ls B
NA 4
1 5
- AMCA Y
Y Vill ran motor FS-A07 FB-A04 S
NA
- 1 1
E*
. NEMA HC1 Y r Y
vill i
N2rmal chilled FB-A07 FB-A04 B
C
'3 1'
3
.311-3 Y
Y, Vill I
water cooling 9
coils 1
3 Ill-3 Y
Y Vill a
C 3
1 J
water cooling t
)
I coils
- 19. Safety-related B
NA
'1 l '.
J arg Y
Y 4
Instrumentation g
3 g
C PIPING PENETRATION VENTILATION SYSTEM 1
.o 1
Restraint VS VS B
NA i6 2'
6 i AMCA'-
N-N
]
q i
L cooling Fans p
2.
Re s t ra i n t VB VB B
NA 16 2.
E NEMA,MG1 N
N Note m p
g I
cooling ran (a
motors 3.
Ductwork B
NA
- 6 2,
6
',' SNACNA.. N N
4.
Backdraf t B
NA
.6 2,
6 ANSI H509' N N
]
dampers 1
5.
Instrumentation B
NA "6
2" J
mfg N
N
~
PING PENETRATION FILTER EXHAUST SYSTEM
'i
.'A t
's -
1.
Fans AB-209 AB-206 B
NA
,0 li 5.
'AMCA Y
Y Vill t
j 2.
Fan motors AB-209 AB-206 B
NA c1 1;
E.
NEMA hcl Y
Y Vlli 3.
Moisture AB-209 AB-206 B
NA l0 1-S 'i jANSI N509, Y
Y Vill eliminators 4.
Electrical AB-209 AB-206 B
NA
- )
- 1. '
E UL.
Y Y
Vill haaters
- Y 5.
I nf ra red AB-209 AB-206 B
NA
-6 2.
E-UL' N
N j
4
.J hontors ik6. IIEPA Filters AB-209 AB-206 8
NA 0
1 5-ANS I' li509 Y
Y Vill o
'g 7.
Cha rcoa l AB-209 AB-206 8
NA 0
1 5;
, ANSI H509 Y
Y Vill 4
,i filters b 8.
Dampers B
NA 0
b 5
' AN'SI M509.
Y Y
g-y 9.
Damper motors B
NA
'1 l
E' i NEMA MG1 Y
Y
- 10. Ouctwork B
NA 0
1 5
' ANSI N509 Y
Y
- 11. Area coolers AB209 AB-206 B
C 3
1' 3\\
' '.. I l j.3 Y
Y Vill
- 12. Safety-related B
HA 1
1 J1
< <m Fg.
Y Y
Note s 1
instrumentation g
= ~ -,,.
l y
1 3
4 i
.?
u.
3
)
. 1.,
I 1
- )
i TABLE 3.2. 2-1: (SilEET 74 0F h)
~.
i
..j
( i i
a j
i i4 (d)
(r)
(g).
(J)
(a)
(b)
(c)
VECP (e). Codes and Principal-(i)
Environ-Principal System Location Source of Quality Safety Seismic Standards Construc- (h)
Safety mental (k) i and Components Unit 1 Unit 2 Supply Group Class Category Designator tion Code Q-List Related Designator Comments 1
7, ELECTRICAL PENETRATION FILTER EXHAUST SYSTEM y
f.
1 rans CB-A60 CB-A3 B
NA
=0 1
5 AMCA Y
Y IX I
k A61
& A6
/.
i 1
2.
ran motors CB-A60 CB-A3 B
NA 1
1 E
.NEHA HG1 Y
Y IX
',i
& A61
& A6 3.
Holsture CB-A60 CB-A3 B
NA
'O 1
5 ANSI H509 Y.
Y IX eliminators k A61 k A6 In Is. Heaters CB-A60 CB-A3 B
HA I
1 E
HEHA'HC1 Y-Y IX
.I k A61 k A6 J
I w 5.
NEPA ritters CB-A60 CB-A3 8
NA
- O 1
5
. ANSI H509 Y
Y IX 3
7,
!f
. N
& A61 k A6
~i 6.
Charcoal.
CB-A60 CB-A3 8
NA
- 0 1
5 ANSI H509 Y,
Y IX ll,ba ritters k A61 k A6 i
tn 7.
Ductwork B
NA j. O 1
5 ANSI H509 Y..
Y C) d [ 9.
8.
Dampers B
NA O
1 5
ANSI-N509 Y'
Y
'O Damper motors B
flA
-1 1
E NEMA HG1 Y
Y 8
- 10. Safety-related B
NA 1
1 J
mrg Y
Y Note s
[
,- L i ns t rumen ta t ion
- p l
- D I
DIESEL CENERATOR BulLDING HVAC SYSTEM w
1.
NA
- O 1
5 AHCA YL Y
IV rans 2.
NA 1
l1 E
NEMA HG1 Y~
Y IV ran motors s
lf' 3.
Non-EST DB DB B
NA 6
2 6
AHCA N ',
N exhaust rans is. Non-EST DB DB B
NA 6 ',
2 E
~NEH5 HG1 N ~
N oxhaust ran totors 5.
Building unit DB DB B
NA 6
.2 C
. U L" N '-
M*
heaters s
6.
EST ductwork B
NA - 0 1
5 ANSI N509 Y
Y 7.
NA 0
1 5
ANSI H509 Y.
Y doctwork
, 6 2
6
- SHACNA N
N 8.
Non-ESF B
NA
)
9.
NA 1
1 E
NEHA HC1' Y
Y motors
- 10. EST Instru-B NA 1
1 J
. mfg.
Y Y
Note s mentation f'
1). Non-EST B
NA 6
2 J
,mrg N
N instrumentation
~
\\
s
.p=
4 e
r;
~
y
?
s
=.
m
._., n
.j
?-
\\
')
~
1 1
TABL5 3.2.2-1 (SHEET 75'OF'97) i-t j
- 1-
- (d)
(f)
(g)
(,j )
(a)
(b)
(c).
.VEGP (e)
Codes and Principal (1)
Environ-Principal System Location Source of Quality Safety Seismic Standa rds Construc. (h)
Safety mental (k)
_ cnd Components Unit 1 Unl+. 2 Supply G roup Class Category' Designator tion Code Q-List Related Designator Comments t
.I TURBINE BUILOING CONDENSER VACUUN EXHAUST flLTRATION SYSTEM 1.
HEPA fIIters TB-2865' TB-:'45' S
NA 6
2 6
'ANS1 N509 N'
N C
2.
Charcoal TB-245' TB-245' S
HA 6
2 6
, ANSI'N509 N
N s
L ritter W.
3.
Demister TB-245' TB-245' S-NA
-6
~2 6
'ANS.I N509 r,'
I4. Heater 18-245' TB-245' S
NA
'6 2
E
.UL H.
N s
i 5.
Piping S
D
- r. 4,
2 4
Vill N
N 8
6.
Oampers S
NA 6
2 6
ANSI N509 N
N g
7.
Instrumentation S
NA
- 6 2
J.
'm f g '
N.
N l
4,
TURBINE BulLDING HVAC SYSTEN 1
-AMCh N;
N t
[
1.
Turbine bulld-TB-220' TB-220' S
NA - 6 2
6 ing supply fans c) 2.
Turbine bulld-TB-220' TB-220' S
HA ? 6' 2
E lNEHA HC1' N'.
N
'ts 1
8 ing supply ran i
s
]
?
motors N.
N 6
'AMC6 3.
Iollet exhauts TB-220' TB-220' S
NA }6
'2 fans i
- o t
.)
4.
Toilet exhaust TB-220' TB-220' S
'NA
,6
'2 E
.NEHA hcl N
N i
be fan motors
..}
5.
Water analysis TB-220' TB-220' S
NA g6-
.2 E
?Nr.HA HG1 N
N I
2 6
AHCA.
N' N
I O
A/C fan 1.
6.
Water analysis TB-220' TB-220' S
NA 6
A/C ran motor
.2 7.
Battery room T8-220' TB-220' S
NA 6,
2 6
-AMC4.
N N
i 1
A/C fan i
B.
Battary room TB-220' TB-220' S
NA 56
.f E
j jNEHA HG1 N.
N 9.
S tc er TB-220' TB-220' S
NA 6
2 6
AMCI N
N.
room level 1 i~
A/C fan
~
- 10. Switchgear TB-220' TB-220' S
NA 6
l2 E
.INEHA HG'1 N
N room level 1 t
A/C (an motor
- 11. Switchgear TB-285' TB-285' S
NA 6
.2 6
AMCh,
N' N
f 1
room lovel 2 n-
)
A/C fan E
$ VMEHA HG1 N
N I
- 12. Swi tchgea r TB-245' TB-245' S
NA 6
i2 room level 2
'. 1 A/C fan motor
- 13. Stalrvell TB-270' TB-270' S
NA 6
.2
^6
...AMCA N
N exhaust fans
,. 3 i
6-i 3
s.
N j
- l'
?
-2 Y
m.,__ -. ~ _ ~ _
3 l~
f
,O
}
s 9
?
^
t 4
1 TABLE 3.2.2-1,(SHjET 79 OF.,97)'
2
.r i
/ p
'b E
l (d)
(()
(g)'
(,j )
(a)
(b)
(c)
VECP (e)
J Codes and Principal (1)
Environ-Principal System Location Source of Quality Safety Seismic
- Standards Construc- (h)
Safety mental (k) and Components Unit i Unit 2 Supply Group Class Categor9 Designator tion : Code, Q-List Related Designator Comments
- j
- 14. Instrumentation B
NA 6
j2 '
J f.infg2 N
N
[
i,
RADWASTE SOLIDIFICATION BUILDING PROCESS AREA HVAC SYSTEM 1.
rans RSS sha red B
HA 6
'2 6
~.k'hMCAl 4
N N
F; 2.
fan motors RSS sha red B
NA 6
- 2 E'
NEMA' hcl N
N 3.
stEPA rilters RSB sha red B
NA 6
2 6
.". ANSI H509 N
N
]
4.
Cha rcoa l RSS sha red B
NA 6
12
'6
, ANSI'N509 N
N Cliters
,e d
i 5.
PrerIIters RSB shered B
HA 6
l2 6
aASNRAE i 44 6.
Itca te rs RSB sha red B
NA 6
+2-
?
- E UL.
~
N N
N N
(iSHACHA.
N N
]w 7.
Cooling coils RSS sha red B
HA 6
- 2 2.
6 AR l '
N N
i h 8.
Ductwork B
NA 6
12 6
N N
M
/t W 9.
Instrumentation B
NA 6
2' y.
.} m fg'.
O
.! N
_j e RADWASTE SOLIDIFICATION BUILDING NONCONTAMINATED AREA HVAC SYSTEM
.;i i
m
'd,
N N
to
^
t' H, {&1.
Fans RSS sha red B
NA 6
.2.
AMCA j
2.
Fan motors RSB sha red B
HA 6
2-JE :
,INEMA MGl N
N 3'
N 3.
IICPA ritters RSS shared B
NA 6
2 6*
- 4 ANSI H509 N
N I
4.
Heaters RSB shared B
NA 6
2 E'
t U L '.
N N
b 3
5.
Cooling colls RSB sha red B
HA 6
2
.;6 7 ARI N
N A
!SMACNA N
N f
6.
Ductwork B
NA 6
2
{
instrumentation B
HA 6
2
, il erg N
N RADWASTE SOLIDIFICATION BUILDING SWITCHGEAR/MCC AIR COOLING SYSTEM 1
1.
Fans RSS shared B
NA 6
2
'1.
N N
6,
'AMCA 2.
Fan motors RSB sha red B
HA 6
2
.E
.NEHA HGI N
N
.E (UL N
N 3.
Heaters RSS shared B
NA 6
2 5.
Instrumentation B
HA 6
2
.J
. mtg '
N N
6 f'. SHACH A 4.
Ductwork B
HA 6
2 N
N RADWASTE TRANSrER BUILDING NVAC SYSTEM i
1 Fans RSS shared B
HA 6
2 6
AMCA N
N 2.
Fan motors RSB
- sha red B
NA 6
2 E
NEMA hcl N
N 3.
llea te r s RSB shared B
NA 6
2 E
UL N
N 4.
Reheat coils RSB sha red B
HA 6
2 E
UL N
N 5.
Cooling coils RSS sha red B
NA 6
2 6
ARI N
N 6.
Ductwork B
NA 6
2 6
SMACNA N
N 7.
Instrumentation B
HA 6
2 J
mfg N
N l
a
.-= m w _ v. -...
w:
.-,n.
-~
-v.
-u-
.i.,
f.
i l
. s L
<?
r,
?'
t <,
TABLE 3;2.2-1 (SHEET 81 OP 97)..
x i,'
c f'
-s a
41
-4
(
(d)
' ( r)
(g)
(J) j' (a)
-(b)
(c)
VEGP (el.
Codes and Principal.
(1)
. Environ-
! Principai System Location Source of Que1ity Safety Seisatc Standa rds Const ruc-I *(ti)
SareLy mentaI (k)
I
-l Knd Components Unit 1 Unit 2 Supply Group Class Category Designator tion Code: Q-l.1 s t ReIated Designator Comments 9
e HISCfII AHf OUS 16VAC SYSTEMS a
i 1.
Hut.lia n i c a l V8 VB B
NA 6,
2
,,6 mfg H
N cozponents 2.
IIcctrical VB VB B
NA 6'
2 C
NEMA HGl' N
N equipmsnt 3.
Instrumentation B
NA 6
2 J
mfg H
N HAIN CONift01 00AHD Notes I.p and S s
1 PAtlS instru-W NA i
1 J
mfg Y-Y 1
Kentation l 2.
N2nd switches W
NA l'
1 J
mrg
" '; - Y Y
and controls h
for sa fe ty-re-a
.o lated equipment 1.
All o ttie r W
NA
(>
1 J
mfg N
N i
"I instruments
[
and controls
.i.
f NUCliAH If4Sil(UNENIATION SYSTEM t.)
1.
All instruments W
NA I
1 J
m r'g f.
Y Y
inputtisig to 4
)
reactor pro-tectinn system f
i a
PitoCISS CofilHOL SYSTEM 3'
t e
1 1155s safety-W NA i
I,'
I.
J
- m r.g Y
Y related instro-Kentation and controls 2.
00P safety re-W NA 1
1
' J
. mrg Y
Y i
lated instru-centation and controls PRO 1ECil0N SYSTEM NSS 7
Y Y
Note s 1.
Protection W
NA 1
1 J
mrg ' i.
instrumentation end controls
- ~.
. ;j
.?
g-a 3
.b.
'm
'o
-g
.~
i s
. -- 3
- 9 n
}K y
u
- r. $
.j 0 7
c 2.
,i '
q
~
c s
q
.e 1: n TABLE 3.2.2-1 (SHEET 83 OP 97)},
y,,
Is 14.
~. '
1 g
i-N c
g s
y I 1.u
'(di (r) -
g ) <,.
4
(.1 )
Pr(t'nc i pa l'.
Jg
-(a)
(b)
(c)
.:VIGP (e)-
Codes and (i)
Environ-l e
Principal System Location Sotsrce or Qua li ty Saf ety Seismic '. Standa rds Construc. ( h.)'
Safety mental (k) 1' and Components _
Unit 1 Unit 2 Supply Croup class Ca tegory Designa tor t ion Code 0-Li st Related Designa tor Comments I.
1
(
- */ -.
f Note p 1
f
[
PUS 1-ACCIDENI. MONITORING SYSTEM
.s n
1.
Sarcty-related W,8 NA i 1-1 J
- mrg.I Y
Y portions 1
a:,'
2.
Nonsafety-W,8 NA 6
1-J
. m rg ' \\.
N.
N j
i related, scismic t
f)
Category 1 I
portions j 'U.
3 Other portions W,8 NA 6
2 J
' meg'Y N;
N
"]
PIANI AUX 1LIARY CONTROL BOARDS h
1.
Sarcty-related W,0 NA i
1
'J mfg Y,
Y Note s portsons o
6.*
2 J
' mrg 7 2.
Nonsarnty-W,8 NA j.
related portions N?
N
- o
?
I M
i j
SAIETY-RELATEDSYSTEMSSYPASS/INOPERABLESTATUSAND'IRIP/MONITORINGINDICATINGLICHTh.
M f
L s
'}
~
.~'
~;
1.
Irip monitoring W
NA 6-1
-J
. mfg ).
N' N
I i
t lights La J
. m fg, (.,
Y.;
Y 2.
Al1 other W,8 NA 1-1 j
portions i
}
]
INCORE INSTRUMENTATION e
. f.
i 6
' m f g .
ti" N
1.
All portions W
NA 6'
1 J
+
4 -
1URDINE PROTECTION SYSTEM Y
,i g
i 1.
All portions S
HA 6
2 J
. ord 3.;.
Nl N-a o
~
}
{
t s
TUHHINE SUPERVISORY INSTRUMENTATION
,?
/
~
i 1.
All portions S
NA 6
2
,J
_, mfg, j, N?
N g
3 LLLC1HONYDHAULIC CONTROL SYSTEM
(
.s a
.J mfg N*.
N 1
EllC panel S
NA 6
1 2.
All other S
NA 6
2
'J
. arg..f N
N portions 7
~
e ti j
"*,.(
s
.;R-v e
j
- A er g
q
.,s.
n*
5 l
- l-
- e t "
2 i,.-
l
- , q-E l
i.
'. b
~
fl
.m t
g TABLE 3.2.2-1 (SHEET 88 OF 97) a t
q s
(' )
(r)
(g)
(J) d (a)
(b)
(c VECP.
(e)
Codes and Principaj
-( l )
Environ-Principal System Location Source or Qual ty Safety Seismic Sta nda rd s Construc- (h)
Safety mental (k) and Components Unit 1 Unit 2 Supply Croup Class. Category Designator tion Code Q-List Related Designator Comments 1
1 Cc SYSTEM - 13.8 kV
^
2 E
mfg N
N l.
13.8-kV buses 8,S NA 6
o p
and switchgoar Y
Y 2.
13.8-kV RCP 8
NA 1
1 E
mfg 1E breakers y
1 HICH VOLTACE SWITCHYARD 2
E mfg l 4
N N
1.
All portions S
NA
,6
-4 l
I 1 STRUCTURES AND BUILDINGS ti 1.
Centainment 8
NA
[0 1
C ASME'Ill,; Y Y
Code iden.
O
]
building Div. 2,+:
tirled is for*u j
CC-3000 design only.
g
'[
2.
Equipment hatch C C
8 NA 0
1 C
I l l-MC i Y
Y See section
.y 3.8.1 for u)
J end personnel i.
details.
+
locks 3.
Liner plate C
C 8
NA
'O 1
C
' ASME.Ill Y
Y W
i 14. Pino t ra t ion C
C 8
NA
- 0 1
.C' D i v'.~2,1 Y
Y
[
4 i
- CC-3000-f essemblics S.
Fuel transfer C,F8 C,r8 8
NA
.0 1
C '-
Ill MCJ Y
Y 3
tube housing and 1
ballows assembly 6.
Equipment 8
NA a6 2
C AISC-69, N:
N i
building
'ACI'318-71 AISC-69, Y
Y 7.
HSCW cooling 8
NA O
1 C.
ACl'318-71 8.
Diesel gener-8 NA 0
'e towers
" Y Y
1 C
ABSC-69, ator building AC1.318-71 l ;)9.
Auxillary 8
NA
,' O 1
C' q AISC-69, ; Y Y
j 1
building ACI 318-71
- 10. Fuel handling 8
NA 0
1 C
AISC-69, Y
Y ACl. 318-7'1 building
}
- 11. Control B
HA 0'
1 C
AISC-69,. Y Y
building
'ACl;318-71
- ', 12. Refuel ing O
O 8
NA 0
1 C.,
AISC-69, Y
Y
- ACI 318-71 water storage
^ t jm tank
,C.
AISC-69, Y
Y 6 13. Condensate 0
0 8
NA 0
1
~
? la storage tank 3
iA
.y.
.'- e
,o
- (J 4
y a
s.
3 G.
4 I
za" 5 *+
i
}
G-t
w y_
_*]
]
,]_ - - -
u--
.A f
\\
s
(
- 2
~
TABLE 3.2.2-1 (SilEET 90 OP 97);.
. i 4
- (d).
(f)
(g)
(J)
P r i nc i p.-al*.
(l}
Environ-(a)
(b)
(c)
.'.V E C P (e)
Codes and Principal System Location Source of Quality Safety seismic Standa rd s Construc ' (h)
Safety mental (k) and Components Unit 1 Unit 2 Supply Croup Class Category Designator tion Code lQ-List Related Designator Comments
- 29. Turbine gener-S NA 6
2 C
AISC-69..
N N
ator pedestal ACI 318-71, UBC-76 5
- 30. Storm drain S
HA 6
2 C
A I SC-69,.-
N N
i,
system ACI 318-7.1, UBC-76 '
- 31. River makeup S
NA i 6 2
C ABSC-69,-
H N
vater piping ACI 318-71, UDC-76 t.
F*'2
"*d"*"'
"^
6*
^'SC-6' ".
solidification i
ACI:318-71, UBC-76 building
~
- 33. NSCW tower B
NA 0'
1 C
AISC-69,s.
N N
{934.Radwaste ACI:318-11 valve house m
B NA 6;
2 C
AISC-69 ?.
N I
t ra n s re r ACl.318-71, "3
building UBC-76 M
i i
- 35. Electrical 8
NA 0..
1 C
AISC-69 Y
Y cable trays and f
supports w
'^
- 36. IIVAC duct B
NA 0:
1 C
AISC-69 Y
Y
^
supports
. l-3 7.
Pipe supports Note p Q8 38. Pipe whip W,8 NA 0.
1 C
AISC-69,
Y Y
p restraints p 39. Water tight 8
NA 0;
1 C.
arg Y.
Y doors and seals u
N
- 10. Waterprooring B
HA 6;
2 C
mfg N
4 g%
and water' stops ta l. Category 1 8
NA 0,*
1 C
mrg.
Y-Y backfill g ;
CONTAlhMENT BUILDlHG POLAR BRIDGE CRANE 1
Mechanical C
C B
NA 6
1 6
mfg ;
N N
Note q
~
components 2; Motors C
C 8
NA 6
2 E
NEHA HG1-..
N N
3.
Instrumen 'tlon 8
NA 6
2 J
mig -'^.;
N N
and conts '
S 4-e Y
.)
\\
s 3
s.>
9
,4 v.
5 1
+
I
\\..
I e
ga
'r~
a w w m : =.:.
=a =.. a. x:.m 4
4 I
G. T. Ankrum DEC 0 91983 i
cc:
R. Mattson D. Muller j
J. Partlow M. Miller l
J. Spraul I. Spickler M
Er31223 cosy C. Nichols 120 4
_