ML20024B889
| ML20024B889 | |
| Person / Time | |
|---|---|
| Site: | Crane  |
| Issue date: | 08/08/1978 |
| From: | BABCOCK & WILCOX CO. |
| To: | |
| References | |
| TASK-02, TASK-04, TASK-06, TASK-2, TASK-4, TASK-6, TASK-GB 2101-1.1-01, 2101-1.1-1, GPU-2065, NUDOCS 8307110725 | |
| Download: ML20024B889 (72) | |
Text
__
, f
$h
., {':.,.;
r-5.'
}
M A
' y: _ 1
& 4
- v. w ~..r.
N-
.g :.,
sg q
..,.h
.g i
j, e
.. S W.-. %y' y
%r
-o,.
"4 I
y y
O; 4
- h. [
....g.
[ ',;.
fr
- ,@e
. g
,n A.
u W
'e a
t. K g
q[N:W.
$ j.i
. s {N.
.b ' '.
..i.h y
~
- l
'OTy.\\ ' '
..:e : ? {
1
. )-.&
y
-p
% %V.
o.
- w'i..
~ % :.
J: g
4'r.
l o,.
,,.. r.
t.-
v.
4
.g y.
t 1r r
g I.
v n-R;}e f f l ?~.-
..y ~
f
- -l%
\\
p 1,&v.
,.f.: ; ;
- HO. Y 'n 5%
V.y i..iJl f
f* y r
m l3 4
/M,
,%g;4 y;Q ' W)
MU'-'
"g., ' '.
C1.,.
T
.gfg.
F.s p r 7,..
.Q
.o W, n W%:..
- ,,G P3.Q
.i 4
!'l b q
l
', h &
..f j. ; f
\\'.
V.
h k...' ]kd&
je
}
- f
=
4 F
j*,.y; '.W. ;..
'. >..... y....
- c..
'3,f[
j $
(
, ;,..gQ 6
f4 ANY{2 2 1_
~
~,
-r p.
'#[I( ' " '. :, '
'((.k. ; -.,.... a [ ye'.,,f ak 4 &...}3' ss
.,Ma v.
. 4 y..-Q. : ne.
- 3., 4 *,.,. e
.,,-,,_j,g (k
k%
. v,.. [ {. i '.
ic s
..4
, -:. @/.
. L
- c. v -
F. : i. 1 -
.' W Q. W.
- .s :&.. " < y,.... h.
' '. v V.y* g,?. " b :' :L.:CV s..
~..
- c. :
f%g}k.*>cr i T.*d:h.'. :'? + L
,. QL
.J.>
i:,'x
.i h Q.%.5.' M..
L ~:') y.WL m m g.K.; m. g.::t; J.Q@
i '
- '~..
- v...,:,V.d4 h i %'
i T...
- f s
z.,:.v =pp:O. e 4 W..l-% V *.
3y..
s g. d :; v. e ' = >. A b. y. ;
v;n
)
p.,
Y;;.:,
..J '.;
. { ? o' h s ~ k k k. x m
+
- [f Y:l f W e ',(.h,
. ' i f.
.5 '
Y-y., I
'7 y..
f:
',' % ;. ? Y.;D9- ))
nyll.i
[ i 96:..WW' y : Mon ru 7 : ml u
g 4._.w w
a
.m r;n.
.m n., a -y.
4 ym l '.&.. : ',% i [.... Q.@.mm, f.,.fg if...R. l 4 '... ' _.,.
p y.
e.,. n i
l w.
a
..w.,.
.v s.
y
, ae*.eg we.,me~,.'
- .T ff, ll. S. h 1
-?
Y'
?W*
'.$. l l.
Ek yi 7
}4-
~c
,g,s..
ge
- 9-m's. yq.: w<Q%,.Q,..,.,
p r,..
1
,. n n. w+p;. g, \\ y,:
s,. p n, ::
h ~ h;. :. s.,: 3 p.,
I i
.'JN k kht.hk k.h v.,,
.f5 :bk.'t)I QI[
_ m
- 1 ;.::e.~ p. w ; &.y n. c y m..g ;c,.a )ymwg ; 7.; y...
.m.
4 4.
,~9c. 3 :.,;;
v n.:. g. 4 p p y;. m. y a y:... ca m..
...o
..c.
.i.'.;.., ' l?)
?qg.
1
, ; _ g.} G Wt:. ; w.. r.,. p ;,.
g.
kr ;.tv.
b $,,.ys.. +. %W;E. ? W.e n
c.
M.' N. /y;L %
.'.'D,'(,'
- , -.fij.y,m f jjg.g/ $. Sjig..t;ip y f.g y.91p**;AM.....
- -I:.},.] -:... i;
,,, :: 3 Y*.:
t%'WAN?
1 i-- -..' 46-- -. v ~
.o. - h-%
/Jej -.Ja - l l
~9[. f '.. :
L--
.. y[ --
t 6. >
s.
....~
L.s.w. T.-.. 4 %.7.{ 4 y -,'. --.,'8m,,
.t...
..t. ? - ~ O.,m.a... :
, *7,
,l
..' a 4.n..%
..y..s..be.
4,,--
, m.
. a.a m.
p.
g
..a s.
. g
..A
.m 7
...g.
3
'. t, [t. k. ;
[:
.I 5
.fr.
_._c
-. -,. ~. ~..
.-h b.?
. $, Y.
?
i t
w~,..
,...m 4,. ~
., h. 3 ' -
g..,... ;
- c.a..! } :y...g.' *y l w \\.t;,g'd.g:
l j *.;. (.,.... y
^'*l Q.l s-lgjf
- ' ' ; ' ' l.. i.,,.*
N.,y..
{
.ec.c. *q... : n a.w.gg.
' l&. 9..,,4..
- ,. C
~.,...,.....,L 7 y, y,,6.-
.,. a,
m-m.
,.O
..s.
w 8 n n a:.s ;(.
3.?-
n w.
- .w,w_,..,.. t..
e,pe.,,w
- a. ;
Fyp4,
%, a&aw.
.ga Wl%y./.
l f,; ^(y.l s&' $
n e w m.,[
f. ' h.._ ' '.: 1 $ Um t.
TL* E'.f
- i.. +... I:
.W %
l' + n
- e
.l 'l h.
H -
. f f., ?n.f ?.'
z..
~
~
.d.N.
e h -%* ed.98 k h~. y. #
.,...n (1
' ' /p*.j
- x,r.,+. %:
,.,a & v...+g' g *..,e...
>.:. n.
.,<A -s 4.;., - 4 7
..n r.
t u.. g:..
a :s, %:.
- n...
e,., p aA o
u F
-. 9 r J., 8 - 'i M.
c
. h. pfL',ic,* - r
... $ Jat
\\'.._w
' ' s,.i e'.'OME*'8',-f..;,,g.;#'-ifL B.. j (n $ '. W.:
'. 06 y
,y e
<3.. a
.,p.
f.
s,4 h %'y,'i it V J
V
'.;1 F 4>
v 7.- ; % '
'.s s oe'.
~
...4 s*?
I
- ' ' k, b.
,f
- e. -
M..p'd.'..W%,AbN8... g..., + _L.,'.
e'*'*M.'.'.
5
.';-. 9$
I,,
3
/..
...,. t y
..b 2-
....p 2
4 N
s
"..'**. y,1 '-- k s z..; ?. ', - My V.. A }....'.\\
V,
.r%a
- > 4 p.
..,L
.e a? -
.;. ;,,4 ~.
e
~ * ;-: '; '.
';. s i
4,
,..ps Y_
M-3;. 'p.
- W '.. ' '.' $,i,...
g.y.i 4 4 [.4h.
. ve f.
e
'c
'e v 9. *,3
- . O W s.* - Q., s
, $weS.i, d.
..4(..-... '?
4 b.*'
rn -. J.% $
- g
.' &",. [. I.',,. y i g$'g.h. p\\y wW. - w..g.w m m'.' f.+< f }
(y.$t }:, &)
'. [ ' i. h '. '
k 4-j
.q y; e 1. ;.
,o sm
+
T. ENR:ll s b :l i Q. f%r pg Q
y:
m
.,,.y y ;
v
.w.
- '.g
- m',,, _,_*. -h T
- A*
' d
.... i. ; [ %
x;
~
, _ _; 4;.";-
.,. : ;. ;, ' ; y;,. '[..,'; 4..w)
A
- b 4h 3 ' -
-P'-
- *r 4,.,
4+-
~.9:,.'
7-4 : j;,
.r., - _ (..- :
m.. w-3 y p ; yp ~,,,
e g}q3 g
-4*
?
c_y 3[+;
37-
- . p. - d.e, - 7'
.~
^
.; w
. Q..+ }.
,4.&, g.' '.
- n ft s,
j j
~
@t +-'le s.
t.. +.
e.
.r.
r om
. ~..
g.
s v
,a,-.
..;pg;, '
p.s f -,y % ~ 1,
. 1 m
\\
(
z.665
--i gj,;r,,. /
{@ h OLLd-
/
2101-1.1 1
CEhf*ph f,d I
Ravision 4
..d.g'.
n i..' i j.-
08/os m T54REE MILE ISLAND NUCLEAR STATION UNIT #2 OPERATING PROCEDURE 21 01 -1.1 NUCLEAR PLAN 7 LIMIT 5 ANO PRECAU7 IONS Table of Effective Pages
- _Pagg, p,sg
- Revision,
,Pgg, Osa Revision M
Dare Revision 1.0 08'/04 m o
2s.0 M/13/78 2
s1.0 04/18/78 g
2.0 08/04/77 o
27.0 08/08/78 4
52.0 os 8 7_3.
2 3.0 08/04/77 o
28.0 08/04/n 0
33.0
/77 0
4.0 08/04 m 0
29.0 08/04 m 0
54.0 08/04/77 0
5.0 06/28/78 3
30.0 08/04/77 o
55.0 08/04/77 0
e.o 08/04/n 0
31.0 08/04/77 o
ss.O 08/04/77 o
7.0 08/04/77 o
32.0 08/04/77 o
57.0 08/08/78 4
a.o 08/04 m o
33.0 08/04/77 o
5s.0 02/27/78 1
s.0 08/04/n a
34.0 08/04/n a
3s.0 02/27/78 1
10.0 08/04/n o
35.0 08/08/78 4
80.0 08/04/77 0
11.0 08/04/U o
38.0 08/04/n.
o s1.0 08/04/n 0
12.0 os/04/n o
37.0 08/04 m 0
82.0 08/04/77 0
13.0 08/c4/n o
38.0 08/04/77 o
s3.0 08/o4/n 0
14.0 04/18/78 2
3s.0 08/04/77 o
s4.0 08/04/77 0
15.0 c8/04 m o
40.0 08/04/77 o
es.O 08/04/77 o
1 s.0 08/04 m o
41.0 08/04 m o
88.0 08/04/77 o
17.0 c8/o4/77 o
42.0 08/04/77 o
s7.0 08/04/77 0
18.0 08/04/n o
43.0 08/04/n o
88.0 08/04/n es 1s.o os/04/n 0
44.0 08/04/n o
es.O 08/04/77 r) 20.0 08/osm -
o 45.0 08/04 m o
70.0 08/04/n 0
21.0 08/04/n o
es.O 08/04/77 o
71.0 08/04/77 o
22.0 08/04m o
47.0 08/04/77 0
72.0 08/04/77 o
l 23.0 ou 7
4 48.0 08/04/77 o
73.0 08/04/7 o'
l 24.0 dif/04 0
4s.0 08/04/77 o
74.0 08/04/7i o
25.0 03/04/77 o
50.0 08/04/77 o
75.0 08/04/77 0
l Unit 13:aff Recommends Approwl Urdt 2 Staff Recommends Approval Approval d
Oste Approwel I
Date Cognizant ospt. Had Cognizant capt. Head Unit 1 PCMC Recomrnends Approwl Unit 2 PQRC Recommends Appresel US G.)M D.,942 D.,.
Chewmmaof PORC
/Cyrnanpf PORC Unit 1 Superintendentjpproval Unit 2 S peri dont paroval Oate
/
'l th Date,
0
/
/
1 Mar:agea Generation Quality Assurance Approval
/7*f"[
Date
=..
}
g.64$
h{h.
21 01-1.1 1,
hk,"'.: E I
J.
08 78 T54RIE MILE ISLAND NUCLEAR STATION UNIT #2 OPERATING PROCEDURE 21 01 -1.1 NUCLEAR PLANT LIMITS AND PRECAUTIONS Table of Effective Pages
.P,,agt, gge Revision h
0,g, Revision h
Osre Revision 1.0 08'/o4/77 0
2s.0 04/18/78 2
51.0 04/18/78 2
2.0 08/04 m 0
27.0 08/08/78 4
52.0 04 8 71 2
r l
3.0 08/04/77 0
2s.0 08/04/77 0
53.0
/77 o
l 4.0 08/04 m 0
2s.0 08/04/77 o
54.0 08/04/77 0
s.0 06/28/78 3
30.0 08/04/n 0
55.0 08/04 m 0
l s.o 08/04/77 0
31.0 08/04/77 0
se.o 08/o4/77 0
l 7.0 08/04/77 0
32.0 08/04/77 0
57.0 08/08/78 4
s.o 08/04/77 0
33.0 08/04/77 0
58.0 02/27/78 1
s.o 08/04/77 0
34.0 08/04/77 0
as.o 02/27/78 1
l 10.0 08/04 m 0
' 35.0 08/08/78 4
80.0 08/o4 m 0
11.0 08/os m 0
36.0 08/04 m.
O s1.0 08/04/77 0
12.0 08/04/77 0
37.0 08/04/77 0
s2.o 08/04/77 0
l 13.o 08/04/77 0
38.0 08/04/77 0
s3.0 08/04/77 0
14.0 04/18/78 2
39.0 08/04/77 0
e4.0 08/o4 m 0
15.0 08/o4/77 0
40.0 08/o4/77 0
85.0 08/o4 m 0
1 s.0 08/04 m 0
41.0 08/os m 0
es.o 08/04/77 0
17.0 08/04/77 0
42.0 08/04/77 0
e7.0 08/04/77 0
18.0 08/04 m 0
43.0 08/os m o
88.0 08/04/77 0
1s.o OS/04/n 0
44.0 08/04/77 0
6s.0 08/04/77 0
20.0 08/04/U '
O 45.0 08/04 m 0
70.0 08/04/77 0
21.0 08/04 m 0
46.0 08/os/n 0
71.0 08/04/77 0
22.0 08/04 m 0
47.0 -08/04/77 0
72.0 08/04/77 0
23.0 4
46.0 08/os m 0
73.0 08/04 m 0-
&I/o4
- c.,
24.0 0
49.0 08/04 m 0
74.0 08/04/77 0
25.0 03/04/77 0
80.0 08/04/U 0
75.0 08/04/77 0
l l
Unit 1 S:sff Recommends Approwl Unit 2 Staff Recommends Approval Apomval
/
Osts Approval I
Dats CY-== ospt. Head Cognizant 0ept. Head Unit 1 pCRC Recommends Approval Unit 2 PORC Recommends Approval l
90 G.7.M em14??
om i
cm epone ycp(=nft Mac u-!:1 se=erinmeent,geprov.i unit 2 s p[er:
.ne.nt oprovai
.G ' 'Sto/
om kP[k d
4 //-
om, V
O
/
/
a Mar:ase ceneratica cuality tsaurar.cs Acpysi M/"/
Dm l
=s..
?
THREE MILE 15LAHO WCLEAR STATION 2101-1.1
- s_
UNIT f2 OPERATING PROCEDURE 2101-1.1 b ision 0 W CLEd PLAN 7 LIMITS AND PRECAUTIONS me MUC&SAR Pom.3metAfteM Mvt364M ggggm333 TADLE 6F CMTE:liS/ EFFECTIVE PASE UST
.7-zoo:272_oo SECTION E
P.AE DOC. NO.
PURPOSE 6.0 67-1002171-00 1.0 REACTOR COOLANT SY5 TIM 7.0 67-1002171-00 8.0 67-1002171-00 9.0 67-1002171-00 10.0 67-1002171-00 11.0 67-1002171-00 12.0 67-10021M-00 13.0 67-1002171-00 14.0 67-1002171-00 15.0 67-10021D-00 16.0 67-1002171-00 17.0 67-1002171-00 18.0 67-1002171-00 19.0 67-1002171-00 20.0 67-1002171-00 21.0 67-1002171-00 22.0 67-1002171-00 23.0 67-1002171-00 24.0 67-1002171 -
25.0 67-1002171-00 26.0 67-1002171-00 27.0 67-1002171-00 23.0 67-1002171-00 29.0 67-1002171-00 30.0 67-10021M-00 31.0 67-1002171-00 32.0 67-1002171-00 33.0 67-1002171-00 34.0 67-1002171-00 35.0 67-1002171-00 2.0 MAKEUP AND PURIFICATION SYSTE1 36.0 67-1002171-00 37.0 67-1002171-00 38.0 67-1002171-00 39.0 67-1002171-CD 40.0 67-1002171-C0 41.0 67-1002171-00 42.0 67-1002171-00 i.
43.0 67-1002171-00 1
44.0 67-1002171-00 46.0 67-1002171-00 1.0
,,y..,
n
...n.-- - ~-.--, -
e,,v-.---,..,.,,
THREE MILE ISLAND fWCLEAR STATION 21 01-1.1 UNIT #2 CPERATIfG PROCEDURE 2101-1.1 j
08 NUCLEAR PLANT LIf1ITS MID PRECAUTI0t:5 u'x.
.. u n.-.m
==
T5DLE OF CSATEMit/EFFECilVE PAGE LIST
.7 2eenn.co SECTIort TITLE PAGE D0C. f:0.
7.0
$ PERT FUEL C00LIiG SYSTR1 89.0 67-1002171-00
~
90.0 67-1002171-00 91.0 67-1002171-00 I
92.0 67-1002171-00 93.0 67-1002171-00 94.0 67-1002171-00 95.0 67-1002171-00 96.0 67-1002171-00 97.0 67-1002171-00 98.0 67-1002171-00 8.0 INTERMEDIATE COOLING SYSTD1 99.0 67-1002171-00 100.0 67-1002171-00 101.0 67-1002171-00 102.0 67-1002171-00 103.0 67-1002171-00 104.0 67-1002171-00 105.0 67-1002171-00 106.0 67-1002171-00 107.0 67-1002171-00 9.0 WASTE DISPOSAL SYSTD1 108.0 67-1002171-00 109.0 67-1002171-00 110.0 67-1002171-00 l
10.0 INSTRUMENTATION 1T1.0 67-1002171-00 l
11.0 GEIERAL MECHANICAL 112.0 67-1002171-00 e
i 3.0
-.-,-.w,--c.-
--m..
v-..-.
,r--.-,,-,-,n--e.
..em.m.-,
c
.-,----,-,,n-.c--..-
-e.---e.e.,-
~.r.,.,,.--.w%,-,
2101-1.1 Revision 3
'.*u einema n e n o m sio n mamana TABLE OF C0!l TENTS / EFFECTIVE PAGE UST 87-ico2171-co src71ss' 717u past nec, nn.
List of Fir::res (Cont'd) 2.0-22.3 Minimen Recommended RC Pressure vs. RC Temperature (100-300 F) s: Va=ious Dissolved Gas concentrazians g7 1002171-00 1.0-22.4 Limiting conditions for Venting CRD's 1.2-03 Minimum Pressurizer Level when CHtical 67-1002171-00 1.3-Og Method to Calculate 0T38 Average Shell 67-1002171-00 Temperature Tsay 1.6-14 Minimus Allowable RC Pressure vs. RC Temperature for Tripping or Operating 67-1002171-00 Control Rod Drives 2.0-02 Maximus MJ Tank Pressure vs. Level 67-1002171-00 (For Emergency Injection) 3.0-03 Reactor Coolant Water Level Required 67-1002171-00 to Avoid Vortex Formation.and Provide NPSH Requirements for OH Pumps 3.0-04 Maximum-Minimum RC Pressure Ouring Operation of DH System with No RC 67-1.002171-00 Pumps Running 4.0-01 solubility of Boric Acid in Water 67-1002171-00 e
5.0
-.- - - :- '. -- - - - - - - -. ::=. -. -
2:
- =- -
- ~ ~
2101-1.1 s
Aggo
' u ar a as a
_,...e.
w e.
=.-e e TEC22!:AL G8:3tiHT 57-icc21n-00
(
1.0 REACTOR CDOLMT SYST51 Desian Conditions A.
Pressure 2500 PSIG S.
Te=perature (except possu=iser) 450 F Press wizar 670 F Normal coerstine Conditions A.
Presswa (at the presswo tap) 2155 PSIG 3.
Temperature Ofot Les) 404 7 (Cold Leg) 354 F (AveraSe) 542 F (Pressuri=ar) 447 7
+
C.
ECS Yolume (5427); Pressuriser at 85,852 GALS 220 la.
11.477.5 CD-7T t
l 3C5 Volume (3327); Preisu=isar at 85,819 GALS 220 In.
11,473.1 CD-77 C
2C5 Volume (1407); Pressta:isar at 85,437 GALS 220 la.
11.420.0 CU-FT ACS Yolume (707); Pressu=isar a:
85,349 GALS 220 la.
11,413.0 CU-77 Li=its and Precautiens 1.0-01 Refer to TMI-2 Technical SpeciScations for heatup, cooldown and pressure limita= ions.
02 Refer to TII-2 Technical Specincations for i
allowaale Reactor Coolant System activity, some chemistry limits and minimum component l
operational requirements.
l 03 Maximum allowable differential tenyerature between Reactor Coolant hot leg and the pres-suri=ar is 7.
410 F 3C73: For =azi=m:n allowable differe=.ial ta:grerature ac=ess the Pressuriser sp.sy no: le, refer :s SC-2 Technical Specificatic=s.
f-7.0
,.,,,------=v-----
w--ev~-
---' ' ' " * - ' - - " - - - - ' ' - ~ - ' " ' ' - " ~ ~ ~ " ' ' ~ ~ ~ ~ ' ' '
- ^ ^ ^ ^
l 2101-1.1 Revision 0
.. m a -%v.
08/04/77
..w,,,e...... no-emme TEC}iNICAL DOCUMENT 47-1002171-00 C
u Se fuel assemblies shan not be ab.
jected to an ex.orsal Pressure above i
PSIG during no= mal steady state i
Erstionorabove PSIG during 2245 PSIG transiests.
2500 PSIG 12 Unless otherwise limited by 2MI-2 Technical Specifications, the nazi =na l
. coolant tempersture change, for RC temperatures below the range associated with power operation', shall not ezseed
_ F/HR.
100 F/HR 13 De Rescuer Csolant Systen shall be vented under the es}1owing circumstances within pressure / temperature limits of vent paths or dictated by personnel safety:
MTI: If the RC Systen is cooled with one or more RC pamps idle, the idle piumps must De operated prior to venting.
13.1 7o11oving complete En or reflu from
(
a partially filled sendi. ion of the
~
RC System.
13.2.Following initial operation of Reactor Coolant Pumps after any fin.
MTI: 5 min =ces of operation for each RC pia:p is a minizans.
13.3 Following an off-scale (lor) indication of Pressurizer level.
13.4 Following se=idental or deliberate depressuri:ation of the RC systen below the pressure shown in See Figure Figure 1.4-14 13.5 If the RC pressure is below the See Figures minimum pressure reqrized sa keep 1.0 22.1.o dissolved gases in s Intion.
1.0-22.3 13.6 Fo11ering a loss of pressure indias-tion d=isg which it cannot be shown that 13.4 above has not been violated.
f b
9.0 l
- - - - - - - - - - - - - - - ~ - - - - - - - ~ - - ~ ~ ~ - ~ ~ - ~ ~ ~ ~ ~ ~ ~ ~ ~ ^ ~
~
2101-1.1 Revision 0 08/04/77 th4CoCI 4 wtLCo2
,,ea m..... o..uno emma-
- e....
TECHNICAL DOCUMENT 67-ioo1171-oo
(
17 In ordar to opers:e control rod drives, do not exceed a maximum of std.-
es/litar of water dissolvedWes in 100 std.
the Reactor Coolant systas es/litar la If the Reactor Coolant tamperature is greater than F and RC pumps are inoperakle, a natural ci%. tion cooldown must be started to prevent sold water===a1= tion in low points in the systen and to provide core decay hans removal.
250 F 19 For the period of het ihnesional and zero power physics testing the RC
- temperature any be greater than F with no pumps operable for a naziman of hour for the purpose of conducting tests or operations eich any be necessary under these conditions. Dirling this period, the seal injection to the Reastor 250.7
- Coolant Pumps should ba reduced to 1 Mour a minimum fler of GPM per pump.
s GPM/ pump
(
MM2: When the Rosetor Coolant Systen l
temperature is above F
~
l sad there is no Reactor Coolant flow, accumlation of injection I
wter at the point of injection and lower elevations sas.st be pro-vaated by reducing Reactor Coolant Pumps seal injectim to the misiana value and stopping makeup except for the minium bypass flow of 250 F
_ GPM.
1 GPM 20 If for any reason the Reactor Cool a t
~
i system is stagnant der greater than hour then naturs1 cirenistion must h started or a Rasator Coolant Pump anst be started. Cirenistion shall be
' continued until it can be ascertained that complete loop sizing has occurred, i.e., lit and Te have became uniform or decreasing and a Del.a 7 across the CT5G of F is not ex=eeded.
During this one hour of stagnant son-di:1ons if it should be desirable to add makeup water.o the Ac5 it should
(,
not be added at greater than _ GPM 11.0
~
2101-1.1 i
Revision 0 08/04/77 sascoe 4 w,scos
,, e.
.,s......n
-.m. -
.e....
TECHNICAL DOCUMEili 6 -1:enn-oo s
t.
analyses are out of theRc5pressuremaySscissation, e answed to incesse to the minima pressure to operste RCP(s) in order to effect cleanup of RC5, including Pressurizar.
,This presswo unst not be exceeded until the RCS, incInding Pressuriser, is within specification.
hou=s are allowed
$se cleanup. Zi T anup can not be effected within this time period, the RCS mst be reta=ned to ambient en di-tions.
32 Bours N:IT2: Basis for the 32 hour3.703704e-4 days <br />0.00889 hours <br />5.291005e-5 weeks <br />1.2176e-5 months <br /> period is:
4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> to an ow time to ascertain that the chemical analyses a==
correct and to locate the sourse
'of contamination, and 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> for corrective action to be effaced.
~
'B Minizan presswization tamperature ftre 2
the. ini.ial RCS hyRrost'atic test is F with a =ar'mm snowable presswa 176 F et _ PSIG below this temperature.
350 PSIG
(
23 Water chemist =y sampling and analytical procedures shan be in accordance with ac=epted standard methods (ASTM or standard methods for water and waste water or 34W chemistry annual BAN 1383).
i 9
l l
l
(
13.0 O
' 'K,.: ~, n - :-""~ --, T L --, O T,~T - ---
"Y-
- ~ ~ ~ ~ ~ ~ " ' ~ ~ -
2101-1.1 Revision 0
- i 08/04/77
-,o.
as w. u n = = -
-e-a=
nc3 !!AL 3903DT 47 100:171-oc
\\
07 The CRA safety groups will always be at their upper limits whenever positive zoac.ivity is being inserted by either boren, zenon, reactor temperature or motion af part length cont =ol rods er ih11 length zods other than safety zod groups. The fs11 swing essey 1ons to this rule any be applied:
07.1 The Reactor Coolant Systen has basa
~
borated to the bot shutdown borsa cancent=stion and is being maintai-d at hot shutdown.
07.2 The Reactor Coolant Systen has been borated to the sold shutdown boven concentration and the plat is being cooled down.
NOrt: Ynen possible, it is desirable to asistain the safety groups a= their gper limits eder the above sendi-tiens as addi.tional margin.
gives the procedure Abr salculas.n
(.,
- **"***"*""**"*"***g safety rods ou boron concentration vs. life.
DP 1103 15 Og All suberitical soluble boson changes in the Reactor Coolant Systes will be verified by chenLeal analysis at least every predicted PPN.
30 PPM 09 Reactor power shall not exceed
'per-esat of rated power miess sommal operating temperature, pressure and mod canSgurazions are established.
1 Pe==ent NOTI: Normal operating temperstwes and Figures pressures are defLand in 1.0 07.*1 Figures _.
1.0-07.10 I
l NC:2: No= mal rod positions are deAned la --
, Power Operations.
DF 1102 04 10 Durimg operation beween 15 - 100 percent power, maintain peer imbalance to perten. as nesswed on.he ez. core as:ac: ors, a 4 Percent e
15.0
,-.,--_..,n
i.l i
.1 2101-1.1 N/0)fb" s4scoer s =ncom IsWCISAS.pgwgs stageartges esv'SeoM wumasa TECHNICAL DOCUhlENT 87-100:171-00
(
1.2 PRI53URIZEIL GAM AND WILCCZ)
Desi m conditions A.
Pressure 2300 PSIG 3.
Teeperature 470 F C.
Volume of taak 1502 CU-Fr 11,230 Gals D.
Volume per inch ta=k height 24.0 GAL /IN 3.21 CU-PT/IN Normal Coeratine Canditions A.
Pressure 2133 PSIG 5.
Temperature 647 7 C.
sF:37 flow taken actuated)
~
1s0 GPM D.
Syysas spray flow (actual value determined by heat balance) 0.75 to 3.0 GPM 1.
Volume (liquid) 5844 GAIS 800 CU-PT F.
Volume (steam) 700 CD-77 G.
Level (as indicated on level 4a_ 4..,4 -)
220 IN E.
Upper end of heater bundles (as indits:sd as level indicarian) sa6 IN Limits and Precautions 1.2-01 Absolute E=*4== pressuri ar level at any time the reactor is critical is inches.
383 Inches NllT!: This water level is the anzimum l
RCS investery used in the safety analysis for Reactor building over-pressure followi=g a LOCA. It is also the ="--- Zwel at which the system can aces:snodate a t== hine f'
trip wi.hout causing the pressuriser safety valves te open.
17.0"
.=-e...--.----w-wg wyeev ww m-w w w-y-w-.---
we w-wwv,ww,-ww eeewmv--w-ww r
\\
1 21 01-1.1 navision o ca....e.
os/04/n u u.....n e....no e
e-
,,s....
TECHNICAL DOCU$ LINT a7-loo:171-oo
(
11 Nitrogen injected la the Pressuriser mas not decrease de injection ne'zle s
temperature below MrfT + GO F if the M pressure is above PSIG. MDTT 554 PSIG ef de injectisa nozzToTs _ F.
38 F i
12 Pressuri=or flushing oyer,stian ahmsta l
be limited to no more than once per day to,.....i; me-1ation of baron in the Pressuri:ar.
NFTI: Pressurizer flushing should be svelded unless the deviation in i
l borou cancentratim between the E system and the Pressuri:er essoods PPM during steady state opers:ian.
50 PPM -
13 Following a load transient, the deviation in boron concentrati m between the E system and the P:sssuri:er may exceed PPM until steady state cheatst:y j
M tions are teached.
50 PPM
(-
14 Do not actuate the syrsy valve during
,1 thm=,tr.l s as a hetwee. e.
presswiser and the E system is less thsa er equal to 250 F unless required for plant safe =y.
8 e
\\
19.0 s
e m--,---,-
r- -,, -. - - - - - - ~ - - - - -
- - - ~ ~ ~ ~ " * = ' ~ ~ ' ' ' ' ' " * " ' ' ' ~ ~ ^ ^ ' ~ ~ ' ~ ~ ~ ' ' ^ ^ ^ ^ ^ ^ ^ ^ ' ' ^
i 2101-1.1
. Revision 0 034g477,----
s4.coca s wacon j
..cu.are-n. n ae= e.m -
TECHNICAL DOCUnlENT e7-200217140
.-i 04 xaxt:m=a opmting water level is Percent of opeting range W11 cable during power operation).
82.5 Persant OS During h., and ahndswa when Reactor power is s percent the OT5G water level shon1 M maintained high enough to flood the main feed water nozzles to i
prevent cyclis st:ssses on the nostles.
5 Persant 05.1 A continuous feedwater flow of a GPM shon1d be maintained i.L.
i the Mch bypass line when RC5 ta=perature is a F.
This bypass feedwater flow should be maintained 52 GPM until reactor power az=eeds _ percent 180 F ITP.
5 Persant i
05.2 The minianas temperature of the feedwater for it to be fed to the CT5G's should be l
2 7.
Although not -datory, a l
=4 M feedwater tempers.ure of F
90 F is roccamended a 3C$ temperatures ex.
185 7 seeding _ F.
230 F C
NYTI: During plant s.*ns.down, if it is planned to So into a dry larup condi. ion 075G 1evel should not be reduced until EC taperature is below _ F.
500 F 06 When blowing an'OT5G secondary d=y, do act exceed a primary side Del.a T of
_ F.
10 F i
07 The following limits syyly for fLiling l
the secondary side prior to er during l
bestup:
1 NYII: These limits do not apply during system sooldown.
l 07.1 Maximum RC temperature is 7.
200 F 07.2 AC pressurs any be between sad 0 PSIG PSIG.
485 PSIG l
l e
(
l 21. 0 1
1
.E....
21 01-1.1 Revision 4 i
sucoca a wuco 08/08/78 aun eo-e. eineo no
.mio-w...
TECHNICAL DOCUMENT a7-10c2171-Co 5
09 Average shall to:npefature shall be deter:nineid as specified in the attached See Figure figure.
1.3-09 10 When cooling down the Reactor Coolant System under other than normal conditions (normal-two 073G's operating), the maximum allowable tamoerature difference between the average 0756 shallanditsassociatedreactogcoolantloop average tamperature is F.
100 F 11 When filling the Of5G 1%r wet layup, the feedwater temperature shall be 50 F between and F and RC ten-225 F perature less than F.
350 7 12 Above F Reactor Coolant cold leg temperature, the auxiliary nozzles most be used for filling the 075G from a,
dry condition.
200 F 15 Mini =um expected operating water level is inches on the startup level 24 inches instrumentation. fee Figure Figure 1.0-07.7 14 The poir.t of nitrogen injection for secondary side blanketing mast be in the steam outlet piping.
15 For normal plant heatup and cooldown sonditions the==vinum Delta T between l
the feedwater line temperature and steam generator lower downconer tenyerature is F when using the main feedwater mostles.
440 F NOTI: For transients as turbine trip, the minimum feedwater tenyerature is F.
185 F,
16 The steam generator shall be considered dry when startup range level indication decreases to inches or less. This condition will require manual actuation of auxiliary feedwater and injection of same through the auxiliary nozzles until mininua level is established, at which time nor..a1 feedwater flow th:ough the main no::les may be restored. The main feedwater no::les are no: to be used
(
when the 075G is in the d:y condition as this may cause ther=al shocking of the lower tubesheet.
10 Inches 23.0
21 01-1.1 Revision 0 nascocs a wacos u u.s o-u se n no-emsio-e..a TECHNICAL. DOCUMENT s7-1062171-00 1.4 REACTOR COOLANT PetPS GINGHAM)
Desirn conditiens (Naaspisse)
A.
Pressure 2500 PSIG 3.
Tempersture 450 F C.
Flow S2, @ GPM Nor=al Coersting conditions (100 persent Power and Flow)
A.
Pressure (Suction) 2150 PSIG CDischarge) 2250 PSIG 3.
Temperature 534 7 C.
Flow 92.400 GPM D.
Head 371 Ft.
Limits and Precautions
~
(
1.4-01 The systen pressure that must be See Figure amin.ained for required Reactor 1.0-05.1 to Coolant Pump 3PSH is _ PSIG.
1.0-05.4 02 Seal injection water flow and inter.
mediate cooling water to the Reactor Coolant Pumps mast be established o
before starting any of the Reactor Coolant Pugs.
03 Seal injection water flow must be started at least minutes prior to sta= ting a ReaTc Coolant Pu=p.
30 Min.
04 Seal injection water flow is required to all Reactor Coolant Pumps when Reactor Coolant temperature is above F, except when operating in the loss of injection ande.
200 7 05 Loss of seal injection flow during 3C puny operation does not require shutdown of the RC y=nys as long as intermediate cooli=g water is being supplied. When he pump is
(
25.0
..n,--...r----
.--,.--,,,n--------
.o.-.
nan,-
2101-1.1 Revision 4' s.scoes a wacos 08/08/78
' eet:4a powes osassanom omssoa w
monasa TECHNICAL DOCUMENT s7-ioo2 m -oo 13 Verify the controlled bledoff valves close if:,
13.1 Injection is lost den pump is idle.
13.2 Both seal injection and cooling water l
are lost..
1 1
l NUZI: Yalves should be opened.
l seconds prior to motor l
anargization.
30 Seconds, i
l 14 The controlled bleedoff valve should be closed whsa the Reactor Coolaar pressure is below PSIG.
130 PSIG l
13 Mmm seal staging flow is GPM 1
with two lower seals failed.
1.9 GPM
~
16 Maximum Reactor Coolant Pump seal i
leakage (upper seal Isakage plus i
return flow) is GPM.
1.5 GPM l
17 Maximium frame vibration during Reactor
(
Coolant Pump operation is inch.
.003 Inches I
l IS Shaft Vibration SSN Engineering shall be notined when Reactor Coolant Pump vibration measured at the pump coupling reaches siis peak to peak amplitude.
13 Mils
~
1C72: Shaft vibration of 20 mils is permissible for a period not to exceed 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.
19 Upper seal bleedoff tsoperature above F may result in damage to seals E the pump must be stopped.
185 7 '
20 The pump should not be uncoupled from the motor until. the Reactor Coolant Systas pressure is less than or equal to 40 osig.
Do not start the injection system when the pump is uncoupled.
21 M - seal injection temperature h
F.
IM F 27.0
_n_,-_
_n-....-,,,,n,--
2101 1.1 l
Revision 0 unaa s nau 08/04/77 ausu.,s.......me e.mie-
,,e....
TECHNICAL DOCUMENT 67-100nn-00 k.
1.5,
REACTOR C00 Luff PUMP McTCRS CAEIS CHADEP.O Desirn Conditions A.
Eersepower 9000 MP s.
synchronom speed uc0 aPN c.
Fan toad speed uns RPM D.
Phase 3 Phase I.
Frogeancy 40 Hert:
F.
Volts 6600 Volts G.
Anps 678 Amps R.
Locked Rotor Aups (100 portant voltage) 3800 Amps.
at 20% Power Fasts =
tinits and Precam ions 1.5-41 Maximus answahle volta'ge variation
(
is partsst.
- 10 Percent
(
l 02 Mazianum allowable hequency vazia-
[
ti m is _ perset.
t 5 Persant Maxi =um allowable voltage [hequency 03 variation is _ partsst.
San
- 10 Pe==est 04 Naziam time hr locked rotor without damage at 100 persant voltage is sec.
11.3 Sec.
IC75: Time to th11 speed hem zero speed-100 persant voltage with no reverse roaster coolans flow is _ sees.
8 Sec.
NTTI: Time to hal. speed from se=o speed-100 percent voltage wi h reverse Reactor'Coelant flow (3 pumps operating and star.ing ftmrth ymp) is _ sec.
11 Sec.
i 29.0 I
t 2101-1.1 Revision 0 eassocs a wnces 08/04/77 -
=vasta ec=se armesano= emsica TECHHicA1. 00CUMENT s7-100nn-oc
(
Possible reduced power factor which mar oscar for severs 1 ziantes follering 640 Amps, the start of the pump.
700 Amps MIT2: A power factor of 0.9 er greater is considered to be==rmal.
14 Do not escoed a RCP noter vibratian I
of _ it.
.003 In.
13 Maxima cooling water fisw to each 3C pump motor air seeler is GPM.
H ere are 2 coolers per asto 7rwith comen inlet and outlet, or a nazimas flow of _ GPM Per pump notar, for 110 GPM air coolers.
220 GPM la Nazimum socling water flew to Inbe oil sociars is GPM per cooler.
75 GPM 17 Maxima cooling water flor to lower bearing cooler is..
GPM.
12 GPM 18 Se high pressure lift pumps should C'
be in=ned off after the asia actor has reached _ EPM.
1998 RPM 19 The RCP may be started after the high pressure lift and the back4 stop lubrication pump been running for _ seconds.
60 Sec.
20 Maxinus cooling water temperature to ECF Motor air and Inbe oil coolers is _ F.
105 F O
e 9
Op(
s1.0 l
e n, _... _..,.. _ _ _,. _ _. _ _ _ _. _..
,,,_.,,_-_,w,----y.---m_,_
,-,_-__._,w,-,.,.r.-,-.r
,..-.,,.-,,,--.e.,c---
w--
2101-1.1 Revision 0 sascoes a wucom 08/04/77
=ves 4s towns cease.no= eivision TECHNICAL DOCUMENT 87-Ico2171.co
(
02 A Control Rod Drive s be de-energited immediately if the stator thermocouple tamperam exceeds, F.
IM F NDTI:
F is the high temperature alarm poist. Operation between 7 and F is unlimitad 160 7 Dat is considered a= ala::n con-160 F dition and should be monitored 180 F closely.
03 Frior to energizing the C2::Ms a
=4*
.of GPM intermediate cooli=g watMow mst be p:svided to the CR21s
, 134 GPM 04 Deleted 05 M=W w = rod travel.is inches /Hr.
420 Inches /Hr.
(
06 Ma*== C23 running time is minutes /Mr.
30 Minutas/Hr.
s 07 During ce=pling and uncouplits of axial power shaping rods during refueling or saintenance, the motor i
tube may not be filled with water.
As lubrication for the s11er nuts is req,uired when the Isadscrew is being moved, reactor coolant 3rade water should be fed i=to the open motor tube to provide lubrication.
Dining.his operation the following limits apply:
07.1 An average =4nimm cooling water fist of 2 GPM per stator =ust be established pric;; and du:".sg the time the stator is energited.
07.2 At Isast five minutes prior to and during :..ning the drives up or down, a lubricsting flow sf reacter grade water at a flow rate of GPM ts GPM aust be 1.0 GPM provided.
1.3 GPM
(
33.0 l
=
I e
l
- _ _ - =.
navtsson 4
a*:csca a wncas 08/08/78 -
ucy e powns sometanow emmew m.
TECHMicAL DOCUNENT a7-2oe=272 co event which is listed in Section 1.5-13 of 2101-1.1 and which requires venting of the RCS occurs subsequent to CRCM venting, the CR34 must not be tripped.
to check for accumulated gases.The center CADM shall be vented doubt exists all CROM's should be vented.If positive indication of gas or Figure 1.6-14 15.
No CRD shall be operated or tripped unless venting as required in
- 13. above has been accomplished.
during an, event requiring venting, drive (not trip), the rod toIf a control r i
the in limit unless a trip is indicated or required by safety considerations.
I 16.
The CRCM should not be vented unless RC system tamparature is less200F than F and RC pressure is less PS and 300 Pisa Tech TiiE". Figures are being foM.IG and Figure Figure 1.0-22.'
NOT2:
The 300 psig applies to venting for removal of gases.
through 12.10.*
It is acceptable to vent the control rod drive mechanism up to the pressure limit established in the control. rod
, drive mechanism manual to eliminate vent valve leakage.
17.
A visual inspection of stator cooling water and stator electrical connections should be made prior' to operation of the CRIlM.
The inspection should be for evidence of leaks, damaged cabling or loose connection.
18.
Stator cooling water is required only when the stator is energized or when the stator t;..auple temperature exceed F.
l 200 F l
- 19. The voltage supplied to the CRDM must not exceed volts at the 130 Volts l
stator terminals.
20.
Prior to CRDM removal, ensure the RCS water level is below the closure head nozzle flange and that the CRCM has been vented.
21.
Prevent any water spillage on the PI assembly and the stator assembly.
9 l
35.0
_____._,.,.._,,_-___.,.--__m.__
2101-1.1 Revision 0
- s4.cecs a wttcos f*R/04 /77 wou nowe. ou.ei.ne-simie-i.e...
TiCHNICAL DOCUMENT n.10azin-co
(
08 Before i-itiating cooling water Sow on either side of heat enchange:s er coolers in this syst e: the cooler, all connecting piping and camponents shall be Elled sad vested by reduced Saw rates (preferably gravity Row).
Ms Dis precaution 'is necNsa=y to prevenz tapaat er water hammer forces on tubes and baffles.
~
09 When changing Cows on both sides of a heat exchanger in this systaa, verify that anzima allowable Sows are not exceeded.
M: Ca heat exchangers where no flow instrumentation is in-stalled, calculations shall l
be unde, l
10 If the flow is stepped downstream of the makeup tank, with * - letdown
(,
, flow, the askeup tank will be over pressurized in apprezimately
_ minuses.
3 Min.
Il To prevent overpressurization of the IM removal system or RCS, open and lockout the breakers for the two makeup pu=ps not required d en RCS pressure is less than PSIG.
130_PSIG NDTI:
F-i=* =trative control is required to prevent inadvertent E5 actuatica. Open and lockout breakers for the third makeup pump after it is no longer needed.
12 De leb flow control valve should not be used at Sow rates less thaa or equal to _ GPM 10 GPM 13 Mh'-- required back pressure for the letdown block orifice is PSIG.
13 PSIG 37.0
..._____-._,.-- _._,..........- _ _ m m----.
.. ~, _ _. _ -
1 2101-1.1 Revision 0
.coca a wuces 08/04/77
.cu.
ese=*ne emus-TECHNICA1. DOCUMENT 87-1002171-00 Limits and P eesutions 2.1-01 Maximum allowable pu=p radial bearing temperature is _ F.
170 F 02 Maxt:mm allowable pump sear bearing tamperstars is _ F h r:
02.1. Fump and.
145 F 02.2 Fump Casser.
145 F 02.3 Motor Sad.
165 7 02.4 Motor Centar.
.las F 03 Maniata allowable pump thrust and radial bearing temperature is
_ F.
170 F 64 Minimum allowable askeup taak pressure to satisfy pump NP5K requiruseets is PSIG h r W pump Sows less than 0 PSIC GPM ad W tank Isvol greater 300 GPM E
inches.*
18 Zaches
(.
. NOTE: These values do not take into assount possible degasifLastion af hydrogen in the pump suction.
should prolonged operation at the limiting flow exist, observe t
pump far signs of saviations.
Correst, if necessary, by n ow reduction er.M tank level las:sase.
05 Minism allowable Saw per W pump
,is _ GPM 95 GPM 04 Maximum allowable flow during normal operation is _ GPM.
500 GPM 07 The recircularisa now path for each W pump should be open at all times except when operating in the 35 high pressuis injection mode.
Os ~
This pu=p any not be deadhes.ied for a period of more thaa _ seconds.
10 Seconds
(
39.0
.,. -.- --.,-..-, ~--,-.-_..--. -.---,-,-,... -, -,-
,-..,_,,-. - ~,..
--- -~~-.
2101-1.1 Revision 0 sascocs a wucos 08/04/77
.cu 4eewn osan*ne-e.vice-
~'
-.=
TECHNICAL Doct!NINT 67-1002171-o0
(
2.2
==, ===s m.smcamsm destra Cenditions A.
Eersepower 700 EF 3.
synchronous Speed 1800 RPN C.
Phase 3 Phase E.
Yelts 4000 Yol.s F.
Amps 39 q Normal Doe'ratist Conditians A.
Bearing Tap 160 7
\\
3.
Bearing Ta:perature (Cear Ind) 160 F C.
Stator Tempers =ars 100 C
~~
211 y
(
Limits and Precautions 2.2 01 W-a11swable bewing tamperature is _ F 190 F 02 Maximum allowable statar tam-
- perature is _ C.
120 C 264 7 03 Maximum allowable bearing temperat=re (goar end) is _ F.
190 F 04 Minima starting voltage is persant of rated voltage.
80 Persent 05 Maxi==a allowable voltage variation is __
portsat of rated vol. age.
- 10 Persant i
06 Maximum allowable frequency variation I
is persant
- 3 Forsant 07 M e time far locked rotor without damage a= 100 pertant vel.ags is
_ Sec.
7 Ses.
l l
l.
41.0 l
re-,
,--,---,-----,---,------m
w
2101-1,1 Revision 0 saecees a wees 08/04/77 esa.,e...ei..ae-.ms l
TECHHicAL DOCUMENT
- '7-1 " 1171- "
1 2.3 m
2.3.1 LT20WN C00uRS (GRARAM Desira Canditions e
A.
Pressure (Tabe) 2500 PSIG (shell) 200 psIG 3.
TempeM (Tube) 500 F (Shell) 330 7 c.
Flow crnbe) 3s,000 u/un 70 GFH (Shell) 200,000 U/En 400 GPM O.
East Transferred C5ervise) 16,100,000 BTU /Rd I.
Nest T nasfer Rate (5'errian) 397 SW/IR/P/34-FT F.
Mean Tarperature Differential 120.7 7
('
S.
Area 339 34-77 Nor=al Ceersting Conditions A.
Pressure (Tube) 2125 PSIG (Shell) 100.PSIG 3.
Temperature Inlet (Tube) 535 F (Shell) 95 F C.
Temperature Outlet (Tabe)
<120 F (5he11) 182 7 D.
Flow (Tube) 45 GPM
~
22 s00.u/un (Shell) 400 GPM 200,000,u/EE Limits and Precautions 2.3.1-01 Maxim a allowable letdown flew through each cooler is GPM based on it.line downstream components.
73 GPM f
02 Caeli g water mst be in sorrise
(
before allowing lettown flew through cooler.
43.0 e
..,n.---
..,e..
-n,-__------n.,-
. - -,,,, - - -,a-a,-
,,,,_,,r--,----
w-,,..,-.,,,m_
.,r---
i 2101-1.1 Y,1sfen.0 uncscx a wuces
.nu. m-u...une-.....
TECHNICAL DOCU!AENT c-loonn oo 1
07 So.h let/.own coolers should be operated in persnel far nomal as well as maximas letdown senditions.
/
08 If the intermediate closed cooling water systaa cannot acesmodsta both coolers operating contianously, the operate one saoler coadaususly (another in s.andhy) and avoid un.
ascessary switching of coolers.
e e
e e
&G
(.
e l
1 1
i e
1 I
s 45.0 l
e e---,,.--,-.---,-.---,-n--no--m-----
m--w---~-
w--
~
I l
2101-1.1 Revision 0 08/04/77 a.acscs a wncos
.veu. ee-n os o*ne-m ice-e-
TECHNICAL. DOCUMENT s.loonn-co 04 Decrease in de seeler haan wensic and/or decrease in the eselse heat -
tansfe= :ste below design valzas ind?=s es fouling a d should be justiA sation to initiate ales =ing.
1 MMI: Father justificaties to initiate slaaning can be obtained.*.sa the following: shock tamperatures and pressures of both fluida so.oring and leaving the enchangw and amo.
pare with es..w,- ding values asasured when the unit was fi.st installed. These comparisms indica.e de her the mit if h ac.ioning properly. per esample, a decrease in tempe m range through an asshanger indiss=as either f-"=g of the unhos er e as h ion of non-esadessables in see er both dircui.s. An sacrease in pressure d=ep is ei.her circuit indicates sa **-1=**ea of samle in that sirs =it.
{%
03 Beds =e thitiating cooling water flow en either side of coolers: the emelar, all sonnecting piping, and components shall be filled and vented by reduaed flow rates (prefarably g=avity fisw).
Mn3: This pr----'= is necessa=y.s prevent impas. er water hammer Ar=es a tsbes.
04 When ^=-9! flow an either side of the aseler, ve=ddy that =azimum allowable flows are so. esseeded.
MKI: On soelers where no flow i= sus-mentatism is installed, cale=la-tiens shall be ande.
47.0 C.
6 i
2101-1.1 Revision 0
-u. seas s. ae, cato4ln au.,e-u so..une-e.+.me-TECilNICAL DOCUMENT 87-2002171-00
(
04 Bleeding to the RC bleed taks 1.s not eM if 2 tak level is below inches.
33 Inches MTI: Sis a an=gia for the t la 2.4.04.
OS Pressure in the NU task should be less than PSIG to prevent gas fras entertag the pasps in the event See Figure of IP emergency injection.
2.0-02 04 Minimus allowable level when the roaster is, critical is _ inches.
40 Inshes NTI: D is value will give the operator minutes to start adding waE ethe= vise level will be lost during a reactor trip.
8 Min.
(
e
(
I G
W O
O 9
l 9
k 49.0 O
l
- ---w'
- " * " ' " ' " " ' " ' " ' ' ~ ~ " ~ ~ ~ ' ' "
~
l t
2101-1.1 Revision 2 s.acoca a wiscos 04/18/78 i
- $4ctsaa mwia esmesano= emsion mu ain TECHNICAL DOCUMENT 47-2002171-00 g-2.3.2 SEAL RITURN FTLTERS C PALL-TRINITY 1 Design conditions A.
Pressure 330 PSIG B.
Clem Pressure Drop at Desi n Flow 1 PSI S
C, 7mperature 200 F D.
Flaw 20 EPM L
Filtracia 3 Micron Nominal 23 Micron Absolute Nomal Coersting Canditions A.
Pressure 73 PSIG S.
Pressure Drop 1 to 25 PSIG C.
Temperatu;M 135 7
~~
D.
Flow 12 GPM
-(
Limits and Precautions 2.5.2-01 Maximum allowable Sow per filter d en clean is GPM 20 GPM 02 When the pressure drey across the Siter reaches PSI, the fLiter element should be removed and cleaned.
5 to 25 PSI 9
0 O
e 51.0 e
age e
G l
j.....
/
4 2101-1.1 Revision 0
..cocs a wucum 08/04/77
.c..,e... e... ne..
TECHNICAL DOCUMilli s7-toc 2171-co
(
2.3.4 MAIEP FRIFILTERS (ILL-TRINITT)
Desi n Canditions A.
Press e e 130 751g 5.
C1ssa Presswo Drop at Design Flow 38 PSI l
C.
Temperam -
200 F g
D.
Flow 40 GPM e
I.
Filtration 10 Mie=en (100 Porsent Removal) l' Micron
@8 Percent Removal)
Nozmal Osersting conditions A.
Press us 30 to 75 PSIG B.
Pressure Drey 5 to 25 PSI C.
Tempersta=e 12D F
(
. D.
Flow 45 to 80 GPM Limits and Precautions
~
2.3.4-01 Maximca allowable flow per Elter d en clean is GPM.
80 GPM 02 when the pressus d=op across the A lter reaches PSI the Elter element should Frene.e,d.
25 PS:
1 i
53.0
-e.
21 01-1.1 Revision 0 08/04/77 saecoes a wuca i,ema,e... siw...ne-e.=e-
- w....
TECHNICAL DoctlMENT 4 -toozin-00
(-
2.6 PURIFTCATION DSMINIltALIZI!ts OLLINDIS WATIR TRIATGNT)
Desirn Conditions A.
Presseurs 150 PSIG 3.
Tsupersture 200 7 C.
Yolume (a,,. A s) 74 CD-FT D.
Resia Tolume 50 CD-FT IO W Not.m1 Coe-stiar Conditicas A.
Pressure so to 75 PSIG 3.
Tampersture 120 F C.
Flow 45 GPM Limits and Preesutions
(
2.6-01 Deniserslizar anzimum fisw rate with no requirement on water quality is GPM.
150 GPM 02 Maximan allowable
- Sow rate through each domine.-slizar is _ GPM.
123 GPM 03 Minimum allowable Cow rate through each domineralizar is _ GPM.
25 GPM 04 Maxima allowable temperst=re is 'the 1esdown header upstream of the puri-125 F-resis Scation desineralizar is F.
200 P-tank 05 Maxianam allowable pressure in the letdown header ups.reas of the pu=i-Station demiserslizer is PSIG.
130 PSIG 04 Maximas allowable backflow through the unit and out the top Internis is GPM.
13 GPM NOTI: Backflow time shocid be 11=ited to _ minutes.
5 Min.
k 54.0
__m
_,, _ _ -, ~ _.. _ _, _, _ _. _,.
..s.
_,.1.M-,_,,.^,,
- w
..m
s 2101-1.1 Revision 0 sa. seer a wuco 08/04/77
.ecu. ee-u osaeune
.= e-i.e.a.
TECHNICAL DOCUMENT n-loonn-ce aboat 20 cvgt) t sodina hyd=oaue and it would not take auch solutisa to crease a se=ious contaminazion problau.
CADTICH: If the Reactor Caelaas Syst e is opened e r refuelias
(
ar amintenance the* flew of I
water hem the berated water storage tank or from the sodian hydroxide tank will canse zeaster vessel er refueling canal water levels to rise endangering plant personnel sad /or estuipmast.
07 Refere i=itiating asoling water flow a either side of heat exchangers er eseless in this systaa: the cooler, l
all connecting piping, and camponents shall be filled and vented by reduced flow rates (preferably gravity flow).
1CTI: This preems'tioni is secassa=y to prevent '.apaat or water h-l forces as tubes and baffles.
08 When changing flows en both sides of i
a heat exchanger in this sytem, veri-t that maxhzza allowable flows are not ERCeeded.
3CTI: Cet heat exchangers where no flow.
instrumentation is installed, salonistiens shalT Ve iisife.'
09 Mazians and minisua allowabIe Renator Ceolant pressures da=1: si=nitaneous operatise of the Resster Coelaat Pe ps and Dessy Heat pumps is provided in Figures _.
See Figures 1.0-05.4 i
10 Lockout the breakers for the core
~
flood isolation valves (CF-VIA and 0-713) before placing.he Dessy Nest system in operation to prevent over pressurisation of the Decay Heat systan.
56.0 l
7_-7----
-, - - - - - - - - - - - - -,, - - - - - - - - - - - - -. - - - - - - - - - = - - - ~ - - ~ - - - - - - - - - - - -
r
' e 2101-1.1 Revision 1 sascoca r witcos 02/27/78 l
Lunsas rowes saneaano emsion numsen TECl{P.lCAl. DGCilh1Eili 67-1o01171-o0 3.1 DECM HIM RDm'AL INJICTION Pit @S (BABCOCK AND WII.CCX CANADA LTD.):
Design Canditions A.
Pressure 47D/505 PSIG 3.
Ta p 300/250 7
=
C.
Flow 3000 GFM D.
NPSE (at design flaw) 14 Ft 3.
Total Developed Read 350 Ft Marmal coersting Conditions A.
Pressure (5 action)
O'to 300 PSIG (Discharge) 150 to 450 PSIG 3.
Tamperatfare 120 to,280 F
~
C.
Flow 3000 GPM
~
D.
Bearing Tamparature
'150 F I.
Flush Water supply Pressure 175 PSIG F.
Supply Pressure Cyclone Separstar 175 PSIG j
, G.
Return Pressure Cyclone Separator 30 PSIG H.
, Plush Water Supply Mechanical Seal 30 PSIG Run out condition A.
Flow 4100 GPM, 3.
Developed Head 260 Ft Limits and Precautions l
3.1-01 Maxi =un allowable pump bearing tam-perarure is F..
160 F r
02 Minimum allowable conti=uous flow Per DH*pu=p is GPM.
80 GPM 03 Maxiz=a allowable flow per pump is GPM.
3900 GPM 58.0
,-...---.---,-....ww---------,---n.,
j 21c1-1.1 54Y
...e.
,e.u.....ne
.mme.
HMICAL DOCUMENT s7-loo 11n-Oo
~
.2 IIECAY MEAT REDVAL DUICTION PUNP MlmR Otta. M ih s)
Desira Condities A.
Eersepower 250 EP 3.
Synchronous Speed 1800 AFM C.
Phase 3 Phase I.
Yelts 4000 Yelta F.
Amps 44 Amps G.
7.H = 7 60 Es Normal Canditions A.
, Stator Temperssure 100 C 212 F
= - -
3.
- Searing Temperature 160 F C.
Searing Teperature (Pump End) 160 F Limits and Precautions 3.2-01 Maximus allowa.tle bes=ing temperature is _ F.
ISO F 02 Mazissa allowable stator temperat=re 130 C l
La _ C.
266 7 03 Maximum allowable bearing tamperature (pump and) is _ F.
180 F l
04 Minimum starting voltage is per-sent of rated voltage.
40 Persant 05 Maximum allowable voltage variation is _ perssat of rated voltage.
2 10 Persant 06 Maximum s11swahle frequency variation is _ portant.
- 5 Pe=ss=t 07 Maximum ti=e for locked roter W.thout damage at 100 per=ect vel. age is
_ sec.
7 Sec.
80.0
)
---~
. - - u- :.. -
2101-1.1 Revision o
.l. e a. = ce.
ca/os/77
, eau re-n es,.e.ae en.me-
, e....
TECHHicAL DOCUMENT s -toonn-00
(
Desien Candi.i es A.
Pressme (Tabe) 520PskG (Shen) 130 psis 3.
Tempers.are CTabe) 250 F (shou) 2s0 7 C.
Flor (Tube) 1,500,000 U/ER 3000 GPM (Shen) 1,500,000 U/MR-300 GPM s
D.
Ness Transferred (Se= vise) 30x10 370/HR I.
Nest Transfer Asse (Service) 407 STU/ER/F/54 7T F.
Mean Temperature DiMerential 22 F
't G.
Area (E Eective)
- 3350 3q-77 Normal Oserati.! Conditions
(
A.
Pressure (Tube) 500-130 FSIG (syyrox.)
(shou) 80 PSIG a.
Temperature Inlet CTube) 140 F (shen) s3 F XITI:
Nasr'- allowable Delta T between tube and shell is
_ F.
200 F C.
Temperature Outlet (Tube) 120 F (Shen) 115 F.
D..
Flor (Tube) 1,500,000 U/MR 3000 GPM (Ehell) 1,500,000 U/NR -
3000 GPM I
u nits and Preca=tions
- 3. 3-0,1 Max 1=u= allseable flew per cooler 1,875,000 U /MR is _ GPM.
3730 GPM l
u.o
-=r u=.=--
~
i 21 01-1.1 Revision 0 os/o4/77 a....
s.
,e........n.- e....-
TECHNICAL DOCU!iENT 67-10021n-co
(
3.4 soitArm n za smtAGa Tmtr can easien Canditi es A.
Pressure Tea foot sole n of water above tank top.
3.
Tamperature 150 F C.
Tank Yol m e 453,600 GAL D.
Dese Yolme (Tagent Line to Over Fles) 5115 CU-FT 54,260 GAL 3.
Yolnes/Ft Tank Neight 1104.5 C3-FT/FT 8281 GAL /FT i
F.
Location of Level Tap (from Tank Bettan) 4 Inches Normal Coe-sting Conditions g,
pg.
3 3.
Tempersta=e not less than 30 F
(-
l C.
Volume (Total to overflow) 439,600 GAL i
(Usable - from top df 20 inch outlet to everfisw) 54,130 CD-FT 434,817 GAL D.
Level 54.1 Ft I.
Scron Concent=stica 2270 FPM8 Limits and Precautions 3.4-01 Refer to Plant Technical Specifiestions for mininua usable water volume and minimum boron concent=s-don.
02 Maximum allowable boren concentration See Figure is PPM.
4.0-01 u.o c
n,,,-, -.,,..,
n,,-,-,- -. -
.._,a_a,-.__,n-.n,-,-
1 e
2101-1.1
- '~
Revision 0 08/04/77 u.coes. wnces
.,en..,e.. o..une-e.m...
.e....
TECHNICAL DOCllMEllT n-loonn-co
(
4.0 OWGCAL ADDITION AND SAFPttNG SYST51 Limits a d Precazztions 4.0-01 Minimum allowable temperature for boris see Figure acid salusions is F.
4.0-01 02 Rest tracing mast be in ayerstian at all thes.
03 Refere initiating cooling water flow en either side of heat exchangers or emelers in this system: the cooler, all eennecting piping, and compensstr shall be filled and vented by reduced flow rates (preferably gravity flow).
3 MTI: This precautisa 1s necassary to prevent impset or water hamnar Arcas on tubes and baffles.
04 When changing flows en be.h sides of a host exchanger in this systa=, verift that anziasm allowable fisws are not maa Nrft: On heat exchangers where no flow instrumentation is installed, cal-amistions shall be made.
e
[
l e
O q
u.0 w-e---
.w
-r,+,%-..gm
,,ww-.w.----'-W=rrwn-
e"r eerwNwN-"'"r-------"rr'
'r'-*
- e
-m-*w
21 01-1.1 Revision 0 uncocs a wacos
,,xa.a,o.... w.uno
.o.
TECJINICAL MSUMGT s7-10011n-oO 4.1.2 MYDRAIDS 791P AND MOTOR (! APP)
Design Conditions (Ptamp)
A.
Pressure 250 PSIG 3.
Tempersta=e 200 F C.
Flow O to le GPM D.
Total developed head internal relief valve setting is _ PSIG.
150 PSIG
- l ICTI: The internal relief valve on the hydraulic system is Sold set to open at the piping design pressure of the system to which the pump discharges, or the pump design pressure, whichever is
. Iower.
Desirn Conditions 04stor)
~
A.
Norsepower 1/2 MP t
l S.
Phas,e 3 Phase D.
Volts 230/440 Volts Normal Doerati=r Conditions A.
Pressure As required for -
syitam.r...k 3.
Temperature Amb. F C.
Flow 10 GPH or as required for system operation Limits and Precautions
~
4.1.2-01 Nazimas allowable time for operation af the pump on recirculation is sec.
Continuous 02 Maxi==a allowable flow is _ GPH.
10 GPM 03 Mini =um allowable flow is _ GPH.
O GPH 48.0 l
l.__._,_=___-_.,
i.
\\
2101-1.1 Revision 0
/77
....coca a wness
,,,,m u,e.........n o -..mie.
TECHNICAL DOCUME!!T 87-1002171-00 4.1.4
,CAMTIt'M2OS A.MD 9cmmsT. APP) i Design Conditions (Pump)
A.
Pressure 130 PSIG 3.
Temperstw o 200 F C.
Flow O to 2 GPM D.
Total developed head internal relief valve setting is PSIG.
100 PSIG Mf72: The laternal relief valve on the hydraulic system is Seid set to open at the piping design presswo af the system to which the pump discharges, or the pump desigs presswe, whichever is lower.
Design Conditions (Motor).
A.
,Borsepower 2 EP 3.
C.
Phase 3 Phase D.
Volts 230/440 Yol.s Normal coersting Condi. ions A.
Pressw o As resp: ired for syst e operation 5.
Temperature 70 F C.
Flow 2 GPN er as required for system opera. ion Limits and Precam ions 4.1.4-01 Maxim =a allowable flow is _ GPM.
2 GPM 02 Minimum allowable flow is _ GPM.
d *GPM 03 Maximm allowable time far operation of the pumps on retir=lation is sec.
Canti== sus 70.0 9
-,y,-----
.-,--,,---y.-
,----------w--------4
(
21 01-1.1 Revision 0 0s/04/77 coca a wness e.a..
n.
. e-
,,s....
ECilNICAL DOCUMENT 47-ioo2171-oo.
as nec=.as. sa m so.ier heet = asi.e and/or decreas. in m so.lar heat transfer rate below design values sadiatas fouling and should be justiscation to initiate cleanlag.
NOTE: Further j a tin sation to initissa elesning saa be obtained from the following: check temperat=es and.
pressures of both fluids entering and leaving the exchanger ad esa-pare with
..w =*: values measured who the unit was S=st installed. These comparises indica-a whether the unit is functioning properly. For smaaple, a decresad la tamperature zange through sa - 9 car indicazas either fouling of the abes or sa assumulation of non-enadensables in me or both ed,rsuits. An increase in presr.:== drop la either sirsuit indicates an aesmulatina of scale in that sirs =it.
04 Befsre initiating cooling water flow on either side af coolers: the cooler, all cannecting pipias, and componsats shall be filled and vented by reduced flow rates (prefershly gravity flow).
1 bis precaution is necessa=y to M:
prevent impact or water han=ar forces on tubes.
OS When changing flow on ei.har side of the cooler, verify that azi=un allowable flows are not exceeded.
M: On coole=s where no flow inst =m-aantation is installed, calcula-tions shall be made.
e e
72.0 n
,,,,n_
i I
21 01 -1.1 Revision 0 08/04/77 nascess a wnsez cum.
...n.. mn e->
TECHNICAL DOCUMENT
- 37. loo 2271 co os secrease in n o eseler sea. tra ssir and/or decrease in the eeeler heat trasfer rate below d= iga valans indiestu +- u e and should n.
justiScaties in initiate sleenias.
317 3 : Further justiScation to faitiana elaaning saa be obtained from the As11 swing: check temperatures and pressures of both fluids entertag med leaving the exchanger and eespare with eezresponding values asasured when the mit was Erst installed. These wisens indiante whether the mit is fastissing properly. Per example, a deersase in tem through en --^==perature range,
ger dadiantes either 8-a"
- et the abes or a accumulaties of aan-sendensables
. La see er both circuits. An in-crease in pressure drop in either aircuit indicates en accumulation af saale in that circuit.
~
04
,lefers initiating ca.11ag water fisw en,either side of seelers; the cooler, -
all asaaecting piping, and supenants shall be filled and vented by reduced flew rates (preferably gzavity flew).
310T3: This pressution is assessary to prwent impact er water hammer forces sa tubes.
Og When changing flew en either side of the es ler, verify that anzima allevable flows are set esseeded.
180T2: On coolers where ao flow instro-mentatism is installed, calculations shall be made.
- f e
t l
l l
74.0 *
.i 2101-1.1 Revision 0 08/04/77 me.us s7-1002171-00 JGl (EFFALO TMfC 10 Feet N 0 2
above tank teF 200 7 7954 GAL 2043 CD-FT.
Iltz 4a.s sAytx.
=hes from 24 Inches Atmos. PSIG 105 to 115 F 12 ts 130 1 aches
- yerstwo for See Fig =s is _ F.
4.0-01 energized if in.
5 Inches ital Specifiss-oric acid wlume d Caster than it 75.0.
~ * * ' ",
- T*****"'*'.'
- ~ '
.--,.T L-
e i
e 2101-1.1k ses a wacos
,,,.... e.. u n...m u.-
.n HMICAL DOCUMBT c-10021n-co 4
grew, An ervan mu.rza ains)
Desinn conditions h.
Pressure CReducing 3r **em) 100 PSIA CAnalyzer) 2.5 PSIA 5.
Temperature 120 F Norssa Coersting Condi. ions A.
Pressure 10 in water 5.
Temperature 4120 7 e
Limits and Precautions 4.4-01 Maziana measurable hydzosen asnam-tration.
3 Peroest 02 Maximum meisurable oxygen concen-tration.
3 Percent 03 W== allowable hydrogen consan-tration.
4 Persant 04 M== allowable oxyIon consen-.
tration.
5 Percent 05 M-N allowable vent header pressure.
5 la water
.O e
e e
e e
78.0 -
\\
2101-1.1 Revision 0 l
08/04/77 un.
e.,m.-
me.u.
UNEliT 87-1002171-00 CDRE FIAODING TRG3 N ** S AND WIICOX1
(
Ira conditions Pressure 700 PSIG Temperature 300 7 Yolume.
1410 CU-PT 10,547 GALS Yolums/7t Tank Height 809.7 GALS /PT Distance between Level Tays 14 Ft.
al Opersting Conditions Pressure 600 PSIG Temperature 115 7 Volume Orster) 1040 Cp-pr 7779 GALS Otitrosen) 370 CD-FT
[
Level 13.0 Ft.
Baron Concentration 2270 PPNB ts and Precautions See TMI-2 Technicat Specifications for tank water volume, minimme boten concentration, pressure and sampling frearmsy.
For normal cooldown (depressurization) isolate the CF tanks when Reactor Coolant pressure decreases to below 7to PSIG PSIC, but greater than.
PSIG.
Too PSIG l
During startup, the core flood tank isolazion valves must be opened when Reactor Coolant increases to
750 PSIG e
30.0
,_m._,,
.,--_m-___
21 01 -1.1 Mf77 c.a
,en oswananon meseow munaan L DOCUEUT s7-loo 2171-oo RIACTOR EDTI. DING SPRAh SY5TBI IJaits and L w iens B-01 On minima systen operability, testing, and see TMI-2. Technical Specifications for limits allowed shutdown of equipment Ser maint===nen wi h continued power operation.
02 Never sprarf into the Reactor Building except as ratuired by high Reactar Building possure. Inadvertent operation of the systen is highly undesirabia and the operator should take every pecantion to pavent unnecessary introduction of syrsy into the containment.
03 To insure proper o'peration, pump suctions must be flooded and all lines filled solid with berated water - except spray headers.
ICTI: This poesution is necessary to pavent W or water hammar forces en the piping.
04 When operating the pumps, a hish flow alsra will annunciste at GPN/ Pump.
At this point, the flow sMd be throttled between GPM to limit 1700 GPN/P=np l
pump msnout and to satisfr pu=p NPSH 1500 to requi sments.
1700 GPM 05 When the Reactor Coolant System has been shutdown and depressurized.
isolate the Reactor Building spray system to prevent accidental actua-tion of the* Reactor Building spray i
l systen.
e 82.0
21 01-1.1 Revision 0 08/04/77 ses a wuces
,a,s.u si u.ns simie.
-u MICAL DOCUMENT 57-loonn.co 04 k zimum allowable time for operssian af the pu=ps at a flow of less than 40 GPM EPM is _ see.
40 Sec.
Os -
Maximum flush" water su; ply pressure is _ PSIG.
25 PsIG 06 Maximum supply pressure syslone separatar is PSIG.
230 PSIG 07 Haxisca flush wa ar supply mechanical seal pressure is PSIG.
85 PSIG 08 Maximum retnpa pre [ssure syslose separator is PSIC.
85 PSIG e
e 9
l i
e 6
e t
9 6
e e
e e
o 84.0
.,,-,,,,.,.___n
,.m,
---.--v,,,
,,n,
1 l
1 2101-7.1 I/k/g o
.o.
......... n e, em..
,,e....
AL DOCUMENT s7-loc 22n-co Os Jemmber of allowed successive starts with motor initially at sabient tam-i perature is starts. 3emaber of allowed suesassive starts with motor initially at normal temperature is 2 Starts starts.
2 Sta=ts 3CII: When'the motor stator tempera-ture drops F below the normal operating tagerature value, it any be restarted.
13 F 08 It is recommended that operation as percent rated witage be 80 Percent linTtE to a anzias:a of minutes.
30 Minutes 10 Minizza oooling water flow to the motor heat exchanger is GFM at 20 CFM a nazimum pressu=g..d.op of _ 75I.
2 PSI O
e l
l e
e e
e O
e 86.0 e
~ ~ ~ ~ ^
~ ~
~
- ,,,,..,_:..~i'*i_,'~~T~~~:
t l
21 01-1.1 Revision 0 08/04/77 31 n.un..
o.
a OCUMENT 57-loc 2171-co Tank collapse during initial Alling
~ is possible-if cool solution is pumped into the wszz vapor space of the tank.
l Where possible, it is strongly recan-monded that the E11 solution be pumped t
into the tank through the batt e recir-onlation connection and that the tank vest be maintained *nlly open during the Ell operation. Where it is pos-sible.to fill the tank anly through the top. recirculation connection, it is recomended that the aanway be main-tained flalir open during the all operation.
GG*
9 e
9 e
8 d
e O
e e
e e
- 38.0 e
n.
r
-,----c,,
y
,,w.
-,-.---n, - - -,,,,
am,...
e a---
= -- ------- -.
2101-1.1 Revision 0 08/04/77 a acocs a wncez u cuas **= t a 88w"*"*" 8'***"
wman TECHNICAL DOCUME!!T 47-100nn-Oo 7.1 PUMPS 7.1.1 SP!NT PUIL PUNPS i
GAF"N*E AND WTICQI CANADA L'!D.1 l
Desira conditi es A.
Pressure 125 PSIG 3.
Temperature,
250 F C.
Flow 1600 GPM DJ MPSM (at design flow) 19 Pt.
i i
I.
Total developed head 100 Ft.'
Norms! Doersting Canditions A.
Pressure (dischargel 100 PSIG
- 3.
- Tempersnare 120 to 200 F l
C.
Flow 1000 GPM l
Rain'Out Condition t
A.
Flow 1300 GPM 3.
Developed Head 92 Ft.
Limits and Precautions 7.1.1-01 Minimum flow through this pump m a continuous basis is GPM.
100 GPM 02 Flow through this pump between GPM 100GiX ad GPM is limited to a max:.mias 50 GPM
~
of _~ seconds.
40 Sec.
03 This pu=p any not be dead headed for a period of more than seconds.
30*Sec.
04 Maximum allowable flow is _ GPM 1400 GPM 90.0 e
e------
- -, - - - ~,, - - -
en-,r wn.,,,-,--,,,,-n, -,, - - - - -,,
-a n w,,-_,,,,,,---,--w-,-w,-,--,_-,v,_m---v,,---
- 2101-1.1 Revision 0 08/04/77 s
...une..mme e.u.
3CUMBT 57-loo 22n-c0 s0 urso wAT H RECIRCU MTION PWe CBASCDCE AND WTIC0% C#fADA LTD.)
mira conditions Pressure-125 PSIG Temperature 230 F F1sw 180 GPM To a1 Developed Head 140 Pt.
was1 Coerating Conditions Pressure (Discharge)
As resteired depending
- PeaSw @
Temperature 120 F 71mv s 180 GPM
'mits and Precautions Minimum now through this pasp on a sentinuous basis is GPM.
18 GPM 2
Flow through this pump between GPM 18 GPM and GPM is limited to a asumma 9 GPM of _ seconds.
40 Sec.
3 This pump may not be dead headed for a period of more tha=
seconds.
30 Sec.
t i
l l
92.0 l
=
21 01 -1.1 Revision 0 08/04/77 me. as 67-1002171-00 DEL C00GR5 OG!ITLOCO
)
125 FSIG 2) 150 PSIG abe) 250 F hen) 250 F 500,000 u Act 1000 GPN 500,000 LSAGL 1000 GPM ed Clervice) 8,750,000 STUAGL Iste (Servies) 410 STUADL/7/54-FT re Differential 14.5 F c) 1470 Sq-F'T itions
)
he Chahe) 150.5 F (Shall) 95 7
tiet Chabe) 112 7
(
(Shell) 112.5 7 500,000 L3/E1 1000 GFN 500,000 LEADL 1000 GPM sn
~
l flow to each cooler B "d=
of GFN 625,000 L3ADL Feriod only).-
1250 GPM l
94.0 O
~-
y
--w
-y-w g,
,w--
-v-
+9---9,9
--w-- - -
---w-
--m v-
,m-'e-----
2101-1.1 I/k/Y i
c.... n.
e..
OCUMENT 67-1002171-00 SPENT FUIL STORAGE 700L IN does not have enginecing responsiblity for this systs.
rstam limits and precazzions are by others. 34W reco=nends sat the following limits a=d precautions be considered esirn Condi.d.ans Fressure Atans. PSIG Temperature 200 F Volume 885,000 Gals Yolme per inch of pool height l
i
(
1,425 GALS /IN t
- ==al coersti t Candi *6ns Pressure Atmos. PSIG Tampera=ure 120 7 Yolme 625,000 GALS Level 344'8" Ft.
Wits and Precautions See ~2C-2 Technical Specification for =4-* = boron concentrations.
I Maxi==a allowable temperat==e of pool water is _ F.
205 F i
M***-
allowable pool water level Sa _ feet of elevation.
344 7t. 6 laches 96.0 t
1
. - -.==----==-----==-:----
2101-1.1
\\
Revision 0 08/04/77 sasesex s =ncos
,,e.a,............no-emme-TEC.HfICAL D0CUtd!!!T e7-1002171-00 7.5 SPINT FOII, UEEG!tALIIIR fTLLINCIS WA72R TREAT)CDfQ Desina Conditions A.
Pressure 125 752G 3.
Temperazure 250 F C.
Flow 180 GPM D.
Volume 34.7 CU-PT I.
Resia Volume 21 CU-FT Ncr=al Coerating Conditions A.
Pressure 40 PSIG 3.
Temperature 120 F C.
F1.-
1:0 GPM Limits and Preca tier.s 7.5-01 Hazimum allowable temperature of coolant entering the domineralizar is _ 7.
135 F C2 Maximum allowable S ow through the domineraliser is _ GPM.
,200 GPM 03 M**i allowable flow through the domineralizar is _ GPM.
14 GPM 04 The recs =sended flowrate for back.
flushing is GPM 5 GPM 05 Maximum allowable floweste flor back-flushing of each demiseralizer is 15 GPM
_ GPM h r _ min.
3 Min.
98.0
2101-1.1 81VoilM0 as
- e..un.
- e. c o-e-..
OCUMEli 87-2002171-ce O
R4='m povar supply mast be available to the inter =ediate cooling system when any Reestor Coolant Pimps are running.
3 Ref:are initiating cooling water flow on either side of heat ex= hangers or coolers in thiis system: the cooler, all connecting piping, and components shall be filled and vented by reduced flow rates (preferably 3rsvity flow).
2cTI: This pecar= inn is necessa=y to p event impac or water ha=ner.
ftrrtes on tubes and baffles.
l
.1 Whe= changing flows on both sides of i
a heat exchanger in this system, verify i
that anzinum allowable flows are not l
- asceeded.
On heat exdsagers where no flow XTTE:
insw.-tation is installed, cal-calations shall be ande.
2 Seversi components in this systus ars const=u=:ed of carbon steel.
Ayy. y.iste steps should be taken to pavent co=osion by unirsated destne.slized water or other cor:ssive fluids.
e 1
e e
a 100.0 0
.__..___U7~.._'[_'__,.__.,..__[______.,...__,.
..U_..,____.,.__,
~
~
2101-1.1 Revision 0 08/04/77
- scia a wncez
.c m a m. sa semes. n e = o m sie w a
EcliHICAL DOCUMENT s7-ioo2272.co os now w this pump between 2e a e and e is zinis.4 ma to a anziam of seconds.
40 Sec.
07 his pump any not be dead headed A r a period of more than seconds.
30 Sec.
g o
S e
9 O
eo+
9 0
O e
G O
e l
e 102.0 9
-..,-- _ _,._-n._ _, _,
,.-.--.,__-..e.,
.....,_,.,,na...-.
\\
2101-1.1 Revision 0 08/04/77 eacs a wucss
,,,,,e... e
...ne-e e.
e.u.
CHNICAL DOCllMEllT 47-1002171-00
.3 xxnmeurs Co0tas oeuTudi Desirn Conditions A.
Pressure (Tabe)
130 PSIG 3.
Temperature (Tabe) 300 F (Shell) 225 7
~
C.
Flow (Tube) 451,300 L3/HR 1300 GPN (3 hell) 394,000 L3/RR 790 GPK
- D.
Heat Transfez;ed (Servise) 19,100,000 I W/MR I.
East Transfer Rate (Serrice) 375 STU/ER/7/54-77 7.
Nasa Taepersta=, Differential 23.3 F l
C.
Area Gff$ctive) 2133 SQ/FT NeTsal Coeta.'sr Condit* ons -
A.
Pressure (Tube) 100 PSIG (3 hell) 45 751G 3.
Teperar=re Inlet Chabe) 85 F
(Shell) 148.3 F C.
Toaperat=== Or.let (Tube) 114.1 F (Shell) 100 F
D.
Flow (Tube) 451.300 U/NR 1300 GPM (3 hell) 394,000 U/NR 790 GPM limits and Preesutions 8.3-01 Nazi===a a11owable inte=ediate flow through each cooler is GPM 984 GPM (inte==1stant period en E 493.000 L3/HR 02 Coeling water =ust be in sorri=e before allwing is e=ediata f1=w l
through cooler.
l 03 Cseli=g water fisw to each cooler is 1625 GPM 1' 'ted to a max 1==m of _ GPM.
313,000 L1/HR
~
10a.0
21 01-1.1 I/0h/N ces a wness u.
... e.... n.
e.=...
HHICAL DOCUMENT 47-i0c11n-oc arrmalm coottna Tm NFFALD TMfC 4
Desirn Conditions A..
Pressure Atmosphe.8a 3.
Temperature 200 F C.
Task Volume C7otal) 39.4 CU-FT 444 GM.
(Usable - from lower to apper level taps) 37.7 CU-FT 282 GAL D.
Volume / Inch Tank Height 1.05 CU-FT/IN 7.4 GAL /IN L
Distance between Upper and Lower Level Taps 34 Inshes Nersal Coersting Conditions A.
Pressure Atans. PSIG 3.
Temperature 100 F C.
Water Volume 19.4 cD-FT (Above Lower Level Tay)*
144.3 GAL 3.
Level 18.5 Inches 18-dts and Precautions 8.4-01 Maximum allowable water temperkture l
l is F.
200 7 i
i 02 Mindaus allowable water level is t
_ in.
O Incher 03 Maximum allowable water level is
_ in.
34 lashes 04 Naz1==a tank pressure is 7513.
Statis head of full ta=k 106.0 O
21 01-1.1 Revision 0 08/04/77 BasCSCE & wnCO2
.Cua
...n eme.n -.mii.-
TECHNICAL DOCUMENT a7-ioo:271 co 9.0 WAST 2 DISPCSAL SYST54 Mns:
Saw does not have engineertig responsibility for this system.
System !***.s and F - dans a=s by others.
e ee e
q O
e
=
9 g
O 108.0
l 2101-1.1 Revision 0
' ~
08/04/77 a wncos
........uno
.m.-
= =..
AL DOCUMGT s7-Iconn-oo l
RC IIRA.IN TANE (RICD)
MW does not have engineerids responsibility for this systas.
System limits and prw-d ons are by others.
P eo O
f G
j O
a e
e 6
e e
9 4
e 109.0
.--..,--.,-m..-
_. - - - - -, -. - - - - -, - - -. -. -, -.. -.. - -.. -.. -. -,. - + -.
e-.,.
---.-,.,-....-wc,
.,-,-.--v.-.-
.i.
l 2101-1.1 Revision 0 08/04/77 a wncos
.. a v.e u na~ e m uo~
e...
ICA!. DOCUMEMT 87-loo in-co EBERAL MM h3 TOR OPD AT E VALVES Limits and 7..-Teiens e
1 1-01 Do not use wrenches, wheel wrenches, or helpers to apply additional ta=que to valve operator handwheels.
02 De not apply excessive ammal force to valve operator handwheels. Due to the bearings, only w nmi physi.a1 offert is requi.ed to achieve =azim=a closing fierce on the seat or backseat. Pu=ther movement of the handwheel is unnecessa7 -
after the initial resistance is felt.
03 A suggestion any be made that all operator ha=dwheels.be removed and stored until -Jw construction area is clear and ready for testing.
e e
e 9
e o
l 112.0 e
e
,- - - - + - -. - - - - - + - -. -,.. - - - - - -.
e
l
,..w---
r-
.f.J.' T..L. 0F...R 0...?.RE. 55 ',wM A
.5 72. P E!?A.7 M.
Ri.. YE. R5!J,M.LTdau~
!"aM.2. D. u. a' N &.
f
.i y am,(p nf 7MM i -l i
D.:.
_1;.
- 7. 1
...-i:t- -l.:al. :w:.i t;; ir=t=r - :1 =1
... i. -
.i
.s.. 1 i : I.! " f==l.
I F:.1..
i.l. 1. :!,P: l' :.
i
. is Wi-1 :i-"t"if l=:!?:P".l:frfifki-P=:id@
!.8 -
- i. 1. er:.
nC l=il-.1:1!;:i.j ;il =- i: !c 9
O.
. L I"i P.. l -f l.P'. I,.!.".,1g 1..i I X
- !r, I. i 1..!t.;:.=.! + fYi.-i =..t.... In..t
.f...!=... CV;. ?
- =-
- .. I i..I ! !
l i
=-. -
i
! I" i::.1 :( l.4 -t:el N
li.I. i=. l =-i:r 1:i. !r I;!ii-1i:t.; t ri af!.,I :-
--er.i.*:ia-l +-i ri..J =il:,g i
- .n ri..;.. t=ri =l aEi i ii:iir.r;..;.:- =ri= pr i:=
i i
N
.!..le!.lj :l 't. I t !
bri..)N a
jgt-C #sey'd,4 f C
- ' Idm,.i=. !.!!.:.:1;:;!=:=b !=if.I..!
t _.
- t. i.i.;1.ie:i=1 ::.i=*rr
- -+.
- 1. J
+
n. p.h
.! "i.!. P. :
- .:f.a b- !i. IT I. /
_a...=. l. a..l. g.4.
_ :=.l= r-a...;
.i-i-- =...:
.=.A i.-
e c-
- -r=-
=:n..
.=::-=
A-d!.- 1. _! : i i :- it'tiit.:! TI
- I.-i!!;l f:i"..'i=WI i.;:lt;5:fr::3!n : i :.-
...l...... l. _.
- !.r. =5 : W,
- I.
i!=.. - h-. :=. -
mJ =.:. ? :r
- le= =i-f : t..=
1 i
E--
t i
.: -!5 i : ' Pt I T i i I L* be=, 4 "-a:r I"c!f= Ufil:i=t." i i.
.. i. ::
!1 J._ s
- p Q, A.. :.. I ;.l;;ig.l..ir;i.e.; -
= r:.
- e.,.. A
..i;._.
u:.:.=.. ::. : r
. s.=_.r :.. =:
..J. :.:...r..
o.
... r... e.. =_
- .n.
1
_.... =.....
-.m_
.l..=.,,.=_r.
r..a. r...r =. =r..=,==-....
- . -r..=. x...-.
1._... _
=.. =..
1 r:.. ::
. g.!: !.
2 W.u.
- 3...c I.
... 3...:..l _=_:..n...
n_.h=. - i.:.a.:=- u:a =. f.:._e ::=.=
._:===.
=
=r
_u..
1_..
.e..r;.a. :.=. i.v..._r..g;j__.;i
=2_..... i.ie.e:t..:..j:ws.isp
= =. :
3.+:i : ;. i - ?.t. t\\.;.m4,.d..: -.i.:.-~ Mini!!; 1? ="r=s=!.iElii:= lie = Ei!" *is n
,ein..,.
=.-.=.-==;._._,.
- .__.=...-;=,.=.n..__.
a.hg_.=_==_._=_.=._.__=..=.=..=...==.r==,,=_=.....=.__...=...i.,.
.u
_.-y.-
..-3, a iI
--= :er:...
.-.ne........
- . -=r..:
r - -
.-.- = :r: s cr=.h=-=:_ ::L.=. h===.r.=_ =: -=. === =- - - - - -. _u _=_.:
a=u...a m=-
- =
- : =-.
. =.
= =. _ _
=m=.=.e
..= u__ _.=. __ _.__.==_ =_.:x L.=. u - - __ _ _._
_. r: e.,,..
. =. _ _.
.. =
gr.=;;.=m:; g.=,= _
. N 2 e= -----
.f..
== g =:_=--
.g., - - - _ -
-. 3:3.prga
==::=== t-
=
a = =.rm
+:=- :._.=:=.
.___-:._m-
_.._.... 7jr.ie, *.
_._.=..r,4..N_7 =__,=1. _ -.....=.
.._ = =r
_=..4=.,.,.....r,..__,...___
.f
====l. 4.,.4..g ::.;=. _..
- ==... =.,....
2,
.... _.......el 4:.............
a,,
r 5.s.v
a e r. 1.
d
._ =.==... _. _
- - - - -. = =. _.
u'M.. =.=. = =. _
. !--- - 1 :.=:,.jg::==.,_ =..= =a_==i
__,_,.=:n: a=:.;==_=_:
- =,n..=.:.
=..=...=. = __..== =.. = _. -_ ;. /.. L=.a :=:===..,a. _. =_=_r
=w a=: a :
38ra::.
. -:. =.==.
- r.4.:
r m -r s_
=:\\i 4;= n._.,,,.:= =..,_
=
- s =: __..
=,==., c,;.,1
... -- r=
--._g
.g:.syg. a==:rr.:-- - : := :::.=:= a:+
p-a
- _.:.._... -- -/ = gg.;=:r---- -I:nu =a r = r=--
- == u =_=:==s< %
- ... r= =.: r-:.
- = ---...
- a
- .,;.
r.=-....
g=g= =;,
.,,;= _ =, _=..=.,ge{\\. l8;=;;
p,
- ,,,,a u - - _,.: = g = = =.=.
=!!:....m,
.,,.,,, = =.
.. =
..,.,,.. = =.
- 2. g =.=.u=-r =..:=r =.=:.w:. -,ts....3.g..a.r=.=.; -.m a.====::r --- ;===sj.. -
- .:,=:r :1 :.au p:.. c..
e r
... _ =
- =.=,:.,.
. =.. =-
v =:.:..:== :n
=
- a- :
g
.-..l...=
. I
.a:l.==...au.;.:=a: =..==.: --..=:e== :Ni.f..rg t s= --
r
- =_::a:;g;g: A::c j
= ---_.=,3....,,,:.=u;=::l:a*.:= :n
=
.. h. t.=... l.i=. -
......g....
u_..-
=r n-e
...1.. =... i.=.-._=...=..===..!!__.._....=..=..._.....
r.
- =_
a a:
,p
... ~.. _ -. =. =. _.
.. _... ~.:.
....=._r__=..=.s.=_-:v
._=._=_ -. :=- =
.. =.... :..
't=s
=l"~u=.:r=::.=.:=:.g=-- _._.. w.=.al.p:==:=a...ua...I=.!!=.. "..
u.I!*,f.
I. =g.=N==,= b=..=.,.=.v... d *d=:=..,..
. = =......
.. u
.=l' =.
=:
.:a=L.
= =: ::=-
.:.M. --i:
"i:i:il:t-i:.21:!!!!t;itiisil=.Y i::.li. i!!Eli?tiiini;i Lif W/id:liiinhi:1:iWi#hlii!!Eli:Jr-P. ! -i
..g -~ g 9:r]..;;j:=r:., b:r g.%: 7 :=\\rl 3,!.:rgl --- =~ - :==. ;. :,s/,.j= =!!!::r:=E::::,gi.gn[=-~
I -
p.r:a:4. -
- d
~,
n=:.=
.. :..,==-
.. =
~l-), ::.r= l -
.~
%:. v - s s
s-
.::= :.=--
W
... : = i.=!=- a; :/d =.==- +=:n=:==l!=Inil!: I : g.
I i. 2 r.
m:: ::=
g,,
g,
- g. ea. 3 Y I :.:
.l.. ~l..-
s :i.: l =..,.uglusa=rl p,
. :a::
.:::g;;;; ;=..g:.. 4:...:=:g.u ig.. 1 :*.
= := -
- . l.. =..
r-2
...).. l,,.t : -l I.:
... ::= : =:
l1 1: lq ;% @,.,.
l g........,u ppw =m : r Er.d=.....p:....;;.y =p-8
.. 8 r
j
=
I'?
i-I M-i. /@.4dur'jf."Ad~i#"J'M=KiifETiiiiiEliii*idi-i"* i#:li-I 'i'-
~
1 i 1 -I. l.~i-1 J.i/4.=i.!= :=l.: 1 ib i/X.: I"i. i.bi AW.i/#Pti !
I jf.L. "#
=t=: l : f :( =P=ii+t-dy.J #__
4.. h()Mdr! I is:
.i ' -
- =l=t## =-
_l,,goe 1: '
-l t-
' l l I Ii I !.
1:1.r,
?
S,}.
_'yde i I swie i sgo,1
'z i
u.i..
- I I de
- f 1I1- _.!.
! l 1.-
.i:
!III i C U*AM/.I i l i l i
- l-i
' f.lI j
_.I. i l l.. l.. ;.I : M ' 1 F SP.47D
- l" I.
- 1. -
i i
. I I,!.
.;L. r
/cvp/ gd+ '/-
r: T~
1 i Li
- i r:r i
r e
i i
i
.i i.I 1 i
i
..i.
- ~ ~
m.o m
a.m.,
m--,
e w y. w t wy-it.w-q
,.,----w--.,y
,w-,wwy
--.w-.-wm-
-v'.e--w 4--w a.
- - " ' - =
^ ' - ^ -
--d
- ijd ~.k)bhSEuMCN.f'.IAC.. pot >ib.
N N[W~XIMtJV' R.C~E2E130?"' 2.Wi!9Nf.r.
\\.~
" t. '
I*
505SL.
2 mHMr EQr6%'tt.!.sW?tMi.%t/q E.5.!.: W.} *,-'
=
..I ca m AdQ_I l.2-.2 0 412.CDM 1.qPb93 a
%g_
.. J
> gag ::n r
,.: i'g c..:r
- l;:r-"im::. q:.gg.g:;
j
- in n:
.d.: + +.:.!r "
g i
. p-1
.l,
.1.,-
,{,g,,gg,,
- ;;l n:l r
- , r, h...!2 g
~
m.
- g
- m 7 ;,., -}..
fdy;.!]. ! pp.=:*:
.;; Ei.if.~i.' 15"fipi.%gg; t;l. p.:-
'" ).
- r-D.
ir5
=.!n t~r
..:w.tM y.
~a.....
..ti=_
i..
.i+e M2.4 j.y rparis
,e
_..v#iP..':.r.=in=lHE i': := "
.Iir y..
"i i-i @ii i:iiiniip fis! isi!!iiigiisn. t;i:
P.=
e.P.:
.rr te.a-c s
i-
- 4 3"EiE -NC I'i:!! M uli5l~:ilEI ":i3 EN 5inilN!! 5 i-!
lii:
88?.c:l.=:l.en.::p ?:le=:= =.=..r==
g51 :..,. P,..,
=TC17 :-::1.= :=.
=.:
.e
.a -a T.-.
ea
.._a..-n ::.
- ~.
-r.
rwn.':-
- . :~r.:: ur
~--nu.I~n an.. :!
.e : 1er-l..*
. :: u.
~a,w.,.a.,...u4
- :n-
. r.r: :mi--
..ar:
u.
.. =:
e s sn
.'.jr-ag,.ggri : a,s,,gi: ;, Egg;. igigg,gggg; :ggj,3.j;;g gr,gg.p; p ;g j
, r.
2 28
- =r".a
.- =. =.. =.....=..-.n..a..
- .s.u...r....
..I n....Ia...... :.=. :.:.:
- .n.n. u..:..
=..~i=.r:....
.1
^
~.....
~..
a.
N E 5EE!!EIiiiPH i '.M Fif25SiigSEOli5 diU!.E:
.II'tiSt'_s!...
.,r,.
!r".3 r a
....r:.r _.. m --:-=o au..rlia:I : _ g. _,,_,l__.,._.g. =..,,. - =-
- = r.r. -...===: u
!! :,w 3*
a:nr::l.... _.....;;;= :.:
us.ji,.a.::._n. gag.:p.u::: -)usiangm-,mu=:ra.. -..::-. i-- = :-===:-=.,:=n,,..
.:.=n-a. _a: :
.=a,.n.
_r.
==
, =., _
Per m,, v,,...,,A....
..m,,,,,,,,,;=_ v:.=:=n:==:.:gr.:.-. m.:.. s u
a s.f y.e g,, 2 c p in :===_ uar:
8T -n:===.=..a =.s 4
7 :""r'.h:m a -m v.:. u.---n.i..=mu-e1=:n:_,a..
: l===u=._m t
. n.
.r sm c:----i s:
r===
m i
et/
.--=.-n g3 -
....-...-. p,g. ;;; = aggg.g -.. n : : =::- a -: a.:.= =.= g :=:_ gw - - _=== = _ _
..:n..,.,..
g 3
- au iR.,.
- O.. -== a..... =..._..
. :.=. ni 3..T\\ M. Mi1 4.\\.\\.T3+
M;\\.9
. m=n = -i-
.,+ #
."TTWW t.w-@inNWTGET=e'.!!iir-;is!Eiiiisisu
=c m.
.t.r.tt%=E=3..
..__..-..=r.=f-
.s,
=
e,:u..
. F.g:yu..tw rY, m-v n.,. g1
.m.
- u. n 2
T-1
- * = = *
,I\\.' M, T, -D.w"M*..). M.,-M*,. M. ;,M.RG. h.. rs--
=
.==-= __"-=
= = -
2. '.-
.im V6:t.1n.!'t.rm.. w tim.y (in...s.h*\\i=
.-.. _--m=
=r.e =.
A ilMiMMMMM!NiWiMM9.H:\\*- a --- y di E@BMMiWV.TWI!AEl W.t........ - :-==L:L..
.e..',-
l Pt!ctWr4.nYM\\944 T.'.=H=.sFA!=
"!!== --E i...e..=.=r - =.== r N.r I. :i.- 9
\\..
GE. T m m.m.m ii M..w iit a...=\\w. =..c e
- =is:E
..U.......
i'TiW'\\dMIMT\\'i\\" W ATM @%!Gw M... \\l\\.. n._. =.,-m.. =---
1 M:... _........... a.. =.=. =. s. -..-. =. p :f -
I ir:t -
\\ n. G. _
.i t
.=m=:-! =.r-=:r==!! ann!!r-* re i ~
TTL,\\ U, M.N VM.A..
- 1\\WMEIWt W \\iW\\WuTsiWEifinfrailM N a
TTI W. W\\M.VtuW:GM YMYiminPLvyM;iErdhe. e
\\
,,7,. ; e s s o m m u.\\ s \\g*isisgag:=igingeir-erP-r-
.........=.........m.....:... m.l:=...g/l.g,.ap. p. p. y gggggr.:s,,, ;
sgsun.: n_g......;
y....l....
= " * * -
unt :r' y'f
=- %'- ~,s
"..t r~ ::l::m=I:"=~.l. c-r n
- r...E.'m.usr*.u:#iWI.-
n s
- .::r:=-
~~
.s
?
n:it4-
.. = n: :.-
4 -~. * =
.an r
mi. i:t.
5 f:in. ::-W-== m.lu
.n C'a :. l.::.t.
.n.... l... im...1...'
.P.,,..,...i. b. mar =. r."1l i~=~.ca s:as n
-=
s w-
... !....... l..=rm. -
t-
-..-v-f
, t %s4gl,,,j, m l.u,ka=f.:ri=.I :
mI..c..u..-
1%-.r 8-
.-mn j
'i t
l"il N if 'ilS"liiiilIEiEEiliiUI.*lS! li:Eli!N f
I -19fiI l~"l".#lil". I
.'. l -.1.:alaufm:ni. :.g..4.::::l:n
-1
.gae 1. I...'l v n.n.
. n.:- :.
5
- -1.. l -
- l*
i.*={;r:g : :t-g* ;;g*.::3 : : : g: :) *:. ":
- . a
. m ee 4
6 8
8 e
I t
.J t
3
- _ u._do 0.z20.1
.iuo 1rco.
' :ifiF r 3-r t
.r.
l m,.
I l-l r ' rl. l l~~.
I l
~.
{
I I l i -i l f 1 :l =7i ' Hiir-li:I:
.1.
1-i 1 "'1 s
..l f i l.
,y
--} -4 f.0.
0m..,..1 e.r.- n-.n s-=
6..
~
~
, I.
L,
. ::.. =...=.!!!!N=; :p:. :-
I. i... r l.
.;r:
r-11g.0 su L -100.T 1-00
~
_m.._
m __
m 21 01-1.1 l
I
=
M Il l
i g
a l
l I
I I
(
=_
=
~
r u_. _ _ _ w.---@
=__
_u
-_+,a=
pzw:m' ^--"-
=h - = ;^ ;M_M -C
= __
- __ =_
^
I l
\\
=
=
3-32-77 SI3C.AL: 47-1002171-C0 118..0....
.... ~
1 1
+ -,- - -...-
,,m
~
7101-1.1 i
i I
f i
i
- urr
==
~
I l
i 1
, m
, a
.,,a.
'i l
i l
1 l
=
1 n
_^ &- _.- -&~- - '
i 2
i
_ _ x__ x. - _
NWwM5_Li
-!C ---'W=:-
_. 5km-2--
~:-
- .c M__.,
_ _ = - = _ _ ~ D 4,-
=
-n M.0 sIEAL: 47 1002171-00
(
mwmw=v' wr w-
, ewwm* wwe m wmw w _
em u
.--mw~~=
- ~ - -
i 1
i s
1 2101.1.1
>.. n i
I i
l
~
1
\\
i I
l i
1 1
E glI I
I I
I I
l l
g g
I I
I I
i n'
,I' q
)
i s
I n'M i'I I
j u
I's i
e i
I,i,
I I
I HF' h
I
- pe ,,
I',
4 W
h u
1
=
I l
m
=_ -
..,g.
I MADa-#1w * *Awcac. E _
"_9 T-l
=~_-
l i
I 122.0 saa:AL: 47-iocnn.co
,,..,,.-,-n-
.,,n n.
l 21 01 -1.1 l
i l
I
~
\\
h 1
i i
I t
E l
l l
i
_ 3_
_,- - = 3 - ;_ _,
=
- _ _g:
_- - _ _-_ 5 + < ~ :
- j_ _
_-E-
_-b=-
^
i
=
l 3"I: J-31-77 SERIA: 67-100:171 00 124.0 i
I
,s_. _,,, _
m__
ea4 L
m_
a
--A
- - - - _ +
,e+
P e
e g
b g
8 71 01-1.1 4 6 _ w._
,1 g
L
_%lf i
I k
1 1
l J
I
.i l
I
}
i n
,t 3
i
=
y
=
r i
i 1
l 1
-w-l
--~
w I
I l
.j
^
g, g
~- ^
{
8 g
t t
s e.
- I- _
e
^ ^-
_9, e
G i
B 3
l eiro q m --
66 s
Nm-e G*
N-
- 6 --
I N
b31-77 125.0 -
sa:AL: a;.:cc::;.co I
O
- n. nm..
l sinians men:Lt Pttssitt :33;13 FOR C:313LT!D 513 in 0 01-1.1.
3: sin!= t1 c1.zasts)
Revisieri 0 i
C8/04/77 1 as..... i. ~...
i
- .. :. ::. r.......
a.,.' n*s. :..
1
.r.. : :..;=.. ::.n. r..e.. ;:.=. :n. =.:::.:n... n...i...,.I:n. :r.. r.: :n.::
i
=......
...: r.. n.. p:.a..-
6
.g..a_................ :::.
r_..: :: ::.--...........- :: :,.:.=. :.. :.;r...:..j:.... r. :...
1........:;
li :..u
.urt n:ur :
.u::u... :.u.:g:_..i.m. u u..,a: :l:.am...t::. u:::.:;... 8'
- a.n::,::..
r.=an.
- n:..... :
u. r:.n t a-~~:::::=
33g.s.:.-.!..-
s.:v.6-
,:... :I r.:an :..
r.n:=u : ;=.a a:.:.a -::......... f.=a.nairl v;.a::::::.=
- =ca: e.
-. ::.=-:==r: ::. : : :=.c
.r=::a :::r i
5 nan.:q; : a j; ir:anar.: :::: staen=.am.== ans: p: ;>:gusaa.:ny4:e u::=r:=-s i
.e::.a:r...:..e.... n::::.
.--r u a = n
=r. 2
=:=.=. =.
. ni~ r- :
.aa. ~.=:- *
(
b.s: r.5=r:.::.*=n =
=:.:=v ;.:..:
2r.v: -
r-:r.e.:.2.:==== a: :
a-e:a;l: :~ -+-
a
. =. =.!.=...=.h..=.....=..=.=..._....
u : =.s
- - :...... r.==m. :- =. :m -
....0
.. u.n..
....s.s.... s.. m. r.i; :.ar =. _....._...
r..m m _:m:1-.
...2
.: i -
_a gg
.i. s..
s
.... ;e3jgd.i.;ir. _qlE.C..-;-,
m.........._;
_,=_,gr_=.=:a.
..... ~
, 2..g+3.:s r.=_==arn.
......._.s.=._
u
=.. -. m..n.:..r.......,....
m.a. a..s.... ara. m. :,,a.:.a. 3,
- n.,,. m=r.e.:
a_
.n..s._:==ra. a.l.. _4:r.
-,=,;;.=.;..._,..?.r:a_:m x;. -:h. 3,:...... _=
.... =
_.s.e...
..a Esi.n.T.r.3.;i.!*7..":i..-- h r:=s.*.._=4i.f.r;;=_._*
- =...!.!*. i.is. ie.n..P..fh.:i.H=.z- _
--'=8 gg.,.. =
8._.-..--._
2
_.._..=_u1.=.-_~,
2.
_=3 gg, _,,,
3:gygg, i
=
am
~._
= - -
..._== castas c=ms:33333 w asawtasias -
---e 4.r.osaa.EPsEssist ErstvE3 7_-"--_'-
~.;;-,
7 screase assasuars 1
_9 l
Pat.32stt mes.3WEET
~
~~"."2 gygygg pegggggg P-m_
_amg 3. 35 33554 Im PREIRsett east ar--
4
====r:.
en,, gu
- 3. 35 gesce tes ?tspgpa"URt GAst.,,..
.=
.J
=
- _~
3
====,,
I g
r==sr -
-=== r=: - -
.=
t
=
l"...=z i.:g r :-
r l
a.
- r.
l g, 35 -- iC.;:._.=ygi:..
~.'-
.. : =- =:. _ _ :. -
.. c. -. s :..=.
r m.. ;:.:.,... =
- -..:r..,x
.g.... w.s,;;p,p.r. __..... _
..==;-an
. -aar.~.= :?. :z. - _.
=_.
l _.
.=
.,===
As3 sasam.vta sas cancantaavisa,
= p=.
tars. cuas se S===r - __== ~_
l!b.......g raut gi:: sus a.= m...,_
, _,..,,..;i=,,,,,.ac
=
l'I.':...sg:=.r.i sp, ig : :
a.___..:------_._=.r.---.-
r...
.=..._ _
r.
ggg r.:..;:=g;..:.y i.;...; : p:r.::q.==..: = M :==-..__- =.r===r=.
s..
- s. n. :.
=r
=
=....
K-4 ; #i Eif"=fi!W#iWeG:- liiE-IC _. -
E.1_
_=5
/
El E:aJr,;,4. l T-K_{' Jr r.fifp:.y.d:"9;@G.E._,.7-
,, _ - = = = =
i I ::.::, sc< (,...,:r..:. r.a.
"- f
..^. igin:'.;r.,,._8=: g.i : an...=.P.:' ;=.z-'.~_ ;::-" _
ud-nurr :
3, a
e.
33 p..:yr
- r..g
.=..l: ri..,,,,,,,,m:r.r:.u.r r-eg.;..p:: u:::.i;g ~er.:= = ::.:r= =
..z-na s
- s. -.-s
......ne:: an:.::.:n.................. _ _ "..
u.: _
=rar :fr n
.. n..,.m.a....u. _-. -.. :u. =..:a..a.. rn..t.........,.Bi......=.._===r
.......r.
- a..u.. u_..
e
..r....--
nen=3:
- ,8if*l...;8F.i
- . ~.
.:n.
s.
.m: : 8,.y
=.:.g=_,:,3..
..:...,.,:;.:=a.;3::,==2. :_:
a..... u. u w =: =:r _mo
.. r-r.
e r."e P..- -
r~ :
.. u.. ::..:..::..: r..:a.".r :".,.:r".. +.n.s,-
u.";.".u... g:
. :...:e m...;;: "
- 3:::u. *.a........
I
.a..--...
ggg f=m:pa., : a
-l.. u :l:....a.:;:rg:an:la.....u..==:.. a=::18! :r!:.i::=:=ugn==:r a:.ne. d
- :s:. m::. : :: :: ::rn m: :==--
.:n nn
=:n....
a tas 2se ass ses ses sas feestestars.*f M G # E !. n - 2 2. 1
~
- 2
- 3-n.: ;
sI2 E: 4Moonn-Co
I s.
1 l
m s_,
1
.:..}.:.id !..*:: $ i. I. :!7.la T T..U.:I":4* lldI.'..'!."3 ~ l'..I 5 !IE.:I R
- H 5 h m i 0 i.-
...-{_.s..i :..
.g.
g
- +
6
- v..,._._,.;._..._,_.e_,.n s..a.3. e.s m._...i.
- l. :.......
. :f wis9 w"*f 8 8.I...... :1i
_...).....-l ::...;l;.,::,vs. M a=,e._u., g.g..., ss.,f.r M:_Wh.l.3j. j...::. ::;l.1.. ::.}..i.._.i. i.
- v. e
.n..
.. l... I...... -d.....g,, _:: e :*==: ste.==s... u.. l:r=..... _
.n
.. 8
.: =... g.:; -
I i: =:.:.
.. 1.**.................[...3...._..l...!...
.~
. 1...... *..:
- -~
.. e :...,
i.a it -
...J....,.
..,...,.........~:..,..
q.
u._ _..
._s_~_...
(
._ s _ i.
_.._.A.._..,_
i.. ;
MSI. ::.:: :::
.::::.:.:.:._.a:.:t. :: :41 :: r=:_=_..
...... :._ i._. _ u l.
i
.._;.:.=.:..
i
- .:=t:;.:. :.. :.. -
l
.::P :: :.. : :.a.a :......,
,3...
n res1 o.._ j......,.i,..,.,._y l
a :
=st:r.:=====.....,..._.,.....j._......
- .:.1:.::.:-
u==.:~:.....
-:,:r !:..._-
.a=:r-).: ::r..-
l.
2..4.n.= j2...
A.."r'.="*,.ps:l,. a.s *er.r. ::ar,gd.4..s..e',a.c2.:a,dett._v,. i,g._:.tr.=1 - 9_:=..: :. :.
.....s...
w
.........,... w...
...........y...
. _ t. _ _... _ _..... __._. -
.m
_ r=-.._ r..
.._._e_
..__a.._.......
, _. _. _.___,_,..g._-____.........__j._,.
_...t._.
......g
..g
..m.....
._-_]._____....
.=_.=.,:=.m _,,r
.._....n_
...._._.t__
-t s_. _
a
_ =
3
- f.._.
_.i.
.i_
1 l
_,,,=_.g.
_. _...6.m_.m
...--_E.
7
=,_
.I -
i
_3 J...
l
.l__._-_._
- g..
.d f
. =.
.r. -
..... r f
I
,.s
_t__
____i
__a
. __s l
._,'*;"= _._ _.,_
= _.
_l
._.,_..,,g ge
. = =.. =.
g
,._.__..__s
_.-..,s__._..._
.i_-.
1_
t._.... _ -......____...___i.
=..
.I _..... :. _..._..:_.__........_....._s.....
t._..
.... _... t........ _. _.....
- r........
s......
.i _a. _.........,
...._..._._...._.~.~s........___,....,....
_ a..
1_...
i _...........
.........t
..............=..t. \\...
......\\
...... u,..
- s..
1.
l......... l.. :.... l....._.......:..
~..........,..........
.....j............
g 3..
i
...s..
..... s
.g
_I.
3
- e..
t..
l t......
t.
. l...........
r
_.... _..:. _..203,.
r,
..t....
.i..CC
. i...
~
s.s g -.-
i
..l
.e
.i i.
l I
r i
...)
_.I l-3tc..a. =.a se: re.t..F. 1...
l'
_.3.
i a
1 g...
i I
..l'!
'l"
.g "
irtsv.e,! /.c !9.T
- 1.E 4'"
m *2*-
ca.' 0CU.~.1.s2b 130.0
- w. _.
2101 1.1 1
i
\\
t 1
4 I
I I
I
-=_.-._.., _ -. _ _ _.
- _ s._ g
_2 -
l
-L,
=
I l
l l
l i
r i
I I
=-_-
==m
\\
1
_fj
= _ _. _-
mn=:s._
1
)
I i
sh: 47-m :171. a 1.31.0 I,
S 4..__-,.,,._
..v-
-..~..
y-_,_,.
,_ -, __ __..~,__........ _-,._.,-
(
,m it !:-iii..hi: :. CAU T/GN..N.o.i.nsr p tiv7 g m 7s g ;,p e_+t.;m s g
.4,_ag2.,.t.sa.,,,,:l
,,.x w.
.........,.....j__.
.g. ;.:.. :.;,
..- =
.. :.;= _.. u,. :,8 =. a ;.
- . - *;;= * *: * : ** ;3.;.. :.. a _ _ o. 2.- =M 28
.a f
g, 9
g.
............,l........ "=. _.
n a
.....n......
................l.............
................s.
............g..._-
..............................t.........
...........4....
t..hx At.Lawa*:.t. Pr **w.ust 15 Pa s...v w : % s p.
- r n...eust.:s rw,.... =np.seau,.
i
.i i
......l.............. -.....,.. :..................
. _.s...
............. _..s
... _..g
.s.
...................s._.......:...._._.t...........
I_.......
..........i............._...a..
.... !.. e................ _.... _.............._ _......................
.3
..... _..... ~........
................... 3......
......_..._._.s.....
1.. _.............t.,......_...........s.....$
_...............x. _.... _....... _. _.._. _....
.s
......._.......n.
s
... ~.....
.__.i a_
CAL _
G
......u........
..... __-.-.._..........i
\\
~............
. _........... _.-............ 1.
...r
.t.......,_......
.. _._..... _.u..
l
,......s.... _...
.. ~
.... m...._.....
._._.........._.._._..............._........_....._.._..s....._
._.._..._.i
_..n.....
_._.._. _......_.r.__.
... m
_ e._
. _...... r. _......... _._.. _.. _.. _....... _..._,
_ o. _...... _.....
p.
_ _:.m......
._==.4.,.n
. p.... _. :.._...
.._.4....
......._......s t..
....m...
._.... _......_.. _.. _.. _. _.a _... _.. _.. _..... _............. _. _.
_. s.. _........_....s...........
..s.
k.
.......... _...._..._-._._=...t_.....
..._.=t.
s.
/..._.._..........
_.-t.
.......... t.
.!a
..... __............. _..........__._......____.:_._.e.
.l..... _. _......
....._._.........1
- %....+"....
_...q..
o.. _..
. 9
._. 4
_.._._.. a..
4
.w
.1
- 4..
.....s...._.._..._...=__....... _... _.. _..,
..t
...........,._._...._.._.._..:1, n
.. a...
......... r
._._._._......4+..e_
..,.t...._._._1_._._s..__..._.... _. _ -
. _ _.....A,.
......._ _.._._..........r.._...-.-..
-.W"._._.
r
....s
.t...
....._s-....._....._.._..
9....n
..v..._..
.1
.. 1_ _.
.....-..:__.._......t
._...a.._.
.:.9p....
....i.._._.__._._.
_ n._.. _.
_......._......_. _... p..,. su p
.......:..i
....r.=_....
. e ait
......._. r......... _ _............ _........... _.
......_.=r
. _ _w. :,., t. - f..
..h_......
..rn see
.....................d.
........_.._... i................. :::
.........~........~.r..
........._.._.s....r.n
....:_._...._.I.....,
.... m...
.. v.....
...._.............. s.......
...1.._..... _,. -...... _...
..-- Ms=......
.t....._..........._.r.~_......_..._.....s......s
....s.......l..."T..........
_........... 1
.u _.....
... -.s
........ 4..._._.,........ :
_.._...t 8 _..............
7..
. t.................
........ 3rd.. M. $g7,,'J
.3..
.f...
.....t....
._)..
......,3.......8..........
....I..
........ 8....
.*l
..v...
a.
I:l.:.:.:. 'i':iDo.o.::.... Iz.a. :. if.o. /de. fr. a D.o 228. 240 :.29 : 2Sc +38c.::::.:. j: ::.:: ji.~.:. :: :.l
- - } "..
g
..........l...
..g
- s
- s : enti e :=
1 eggs-=vtar.'f1 nu Zv.s-En
- .S t~
~
- :1-l
.........:..... s.
......t.
- M. d.i u 3 M r.v)p_ &.
Sesst.g@g,,,,,,')28.t.&0 Gge.emw ' C ar :,
.l
.i j
l 2'.)Hj,_,$,y*gr g i _ M p./RC, No :
i i'3i-
._,A Cj A
.,c5 O..-? &. M...
G-
.. i,.sa.
r,,
.s..
...s...
t
. i.
...:..............a__.
~-
l
. n;a: s_n.rr M: G-W.W 333,n
..,--....._--.,.._,,_-__,___.-~.,_m_
2102-1.1 nevitten 1 p;
- e...t.. ; #4...,..,
y _. 3
- 8.. _ty_. = =.
. 3..,.
.-y. _..q g-.._. 8_ E.&..._.
_.es. 4 -, _=.. y,..
.e e
.=t
~
,. g e s..e.d s...
j
.*..gg.,6
- 0 yl
- s......y......
... lm J
.e
...1..,,7..,,..a..,_...
g
..s
- L.
. v.
..._ _.. - - '. 9,.. e _ - +.i+..r.
...'. *.. -. * * ~-.. r.4 _.~.. *. 31...,g %.
.,v p.r.... *..
..,...... w... m-
-.J.
..I
..,I
. -,,.., j _.q
....gp g..
A t.. y;.,
s. g ; g: r;,,,..; :.
j 3.
..r-...
.,. -A... -,... i _., t _.
_g _..... _,. _ _.,.. %,.. t _
g.
g4 -Qhu: i....Q~,....... ;
..... 3
- =.
.- - =.
=l-=:1.:s.
- 3..= n n m-wJ.=
., r. _.
s.
g
.m
=S..y.u u wag.
. _ ~-.... _.
-__r..__.....t..,._.
._m.., i _. _.._ e.. _3. _. c-. _ m_.. _..o._._g. -,.
.., m.&.
a_
._.E.
.,.h,
.._. -_ r-..
._t.... _. _. _.._,. L._n.a g...,_.
n%_
-._a._._,_,
_..__,._.i..-.-----
-n= u..dg....,.,,
x:=_c mr6- -
w n s m =c
- -~1 a y
.y..
=-:.:M
....._.t.
--i r-y,..,
=.Tm %. s.d
_p -
,_.;gy.w.g g3 1
..t t=0 -
- - ~ - - -
.._r.-_-
___i. _.
w.w -
+-
_ -.~.- &~m.,,*.
..e-==*.====.e.a.e
_ 8G "
r qMg,, y= e_
g* r.
-M
_f w.ig;m-g -. w a g,,_ -
E
. Til"21
-JWr Jgg69C.a--. n /" r r 6.C=t,imis_==g, 7
-w
_ u_.
7_-_-
g i--
-e
,. h.~
n_-
- ==.- !
.,.g, _
i
- s.
-.i r
l t
- =4
.r.._
t.-
._ a
.. a
.: :- - =-=.:1:.--
..r
,, _. -+
,r
- -4
=_ -_
. = ;; =.
m -.,.
_.,,,,., p.g.
Q,
..I.,.
t_
_ L - - -
,.4 6.-
a
.g
. - ---e g
g.,,_ z:a,y.-
. s. q,.
t.
g
_.J..
t=:b..
l
&., ___i.
l
. ~ ~ -,.g "I-
. -... -. -.--.. ~4.,1
.c j
,J...g
-.a t
- f_..;=. 3_
=.
..g.-..,---
.t.-.. ~.
.i...
1.,..,
=t-
_w
- e n,-.,,_
-s
.M. - -..s-.
44
.- p
,r_--_
.m
.. s
.-.b
. 3
.v..e..., -.
,.3
,.* i.,_,,,.
.-C-
.m W 4
- t..,
._,, I 4
-=
f.*
.4 it a
f -
.y.,.
4, (
- m...
-e_
-l -
g.
p.
.f.g.
.J g- -.,, ". U a.
g,,, J =*"- M % w g=,. gL c 4.
9
--t
.-.. a.
w-s
_==
d 4-
- *. =
... -. - = =.
.-.=P._.
w
,. =.
=
J.-
= --
=i,.
, - = ' _
==
.a y-T
~
-.=.!=
-1,
-.==*
-s.
--e
-"'*1_----
.s--
.4-
.s 8
d.
== :
Mb- :
'i -
+
.8 t=.-.
_ ""r --*
===C w a -
====t
- m., _ _.w.- e. e.
.-s e
m.4.
M g -...o, m.
<4..--._
4
.t.
..s--
}-
=-
._< w J
-4
. _. -=.,...
s._
t
. q g
,-.""T,..
, y. m...._ -- -_ -
4 4.
.J=
.__!.4..,
.9
.a.
r.
. 7..
3
.e g
.a
., --.a i.-...,.. -
.,~7.-
. _-}
4..,... p.,
.J.. -m.. -....
e.
]".*. y. +..
6..
_._..,.!=..,,...,,..,
..a
- 2. m... _-..
.g.g
=al,
_.)
0
.....1
..l.
L.T=*1
...ti..._.....L.....s..4..-..
..."I.'
- a
..i.,,,
.a
.. L. 2 s4a t,,*
........=.....
=*
.. g
..i
~I l.
'I
.,...g s=.. - :=.,
. _ M...
f*.
T _.....
L.... J
.. h.. Q.
.. 7.3.,. g a.........
....3.
T...T ~ "N. *.T: * :.T... - 6 2.C..'". 4. -.:... t 4..C...s -.g
. '. p...g *
- s :-.*-_.a.
N. J 4,. - -ll 3... *gL..y-.. :... f.. ;.
7,.
s..........e....f
. y 8
.g
.e e
h.--.
- g. wl.........
..l..
e
........e....
.m.,, 6..g 3..a 6...,g...
...=. 3. l.. Mg.. g.
g o.
....4
. g.
.1
...,....g,. s.s.. e.e..sms. L.. t...
- g. g *
- k. ag.
es r
- L.
g;.***=*I..-...h.......
-...... s k..
=.t.,_. k.. h t ".".4
.# *g p=* p. ' *G.1 *J.. t, -..
.... * *..,..... s. 3* *:
i**,p*
..l* :.
..a" j*...
'.s s.
.{.......
......:...~.-... *..
+
.6
? :. * -g
- 6. -[,,,
t
- .=, p.
,f
.g. a
.6 y,.,...s...
- t...
e
.a 1*C..a J U
~ -. -
,,.c
1 new.x1. _e9
- J::. I......_:._.. i.. t:... l.... L.
...:1c.J.:.....:.. :.m:.:..:n. :i : :..:.fr...~
a....:..
..l.::.,. 6m d. :. a. _....
.. i... _.._.. :. :..
s n
.. 3..g..i..
... s,.,..... :..,s.
.....l
.. i.
...,....e.
... l.
..../,.
. w,....
....,.. g.
.4
..l.........
..i._......
g...
.3......,.
/
.[...
...l.......i..t.
nC
.. i
...i.
.. i....
l.
3.
. _. i...... :..... t..... E.
._ s._."C.~2'.LP..::"'tt:snynG'a.. ::.
...! _r.. r.
l.
i
..i...
...,.. : - '.. r. l :. l.. l. :.. l.... l...- l.. l...m.,......,.....S..W,. _:.l.:.: :
...:l.:..:l..:.:i. :l... :.:::l...... l -- i.
r ".
e..
.... s
._.f.
...:........t.
,a. _._..__. s...
....t.
.. _.........s_......,....
_. s.
.l. _.:. i.'.:w. ::..;:
i _. _.. _._.._..._.. __..l.
. _.l: ;...:.. _..
. i._. _..
=..__:3_.
_...,.r............_....
._. _.....i__.__...:._. _. _...,
...._ l
.._ 2 _._. t _..
___;.i....._.._.._.._...i... _. _. _ r......
... _..r....
(
_...t_.. _....
1
- . _...._,.._. _. _ _ __. _..._. _ I. _..__...
. _. _ _ _.. _............_s_.....-1_.
..:s.
.....s...........:
.... t._..
_ _ _...__..._i_.
....s r
._=....i...._
__ _1..
._ c
. _._. s--.
s..
r__..__._-_.._.s_.__.....
..x
. _. __s p.
_ ~. _.. _.. _. _ _....._ _.. _,. _.
i
__.__.====:_
r
_ _, _. _... _ __ e _.
..d-
_.m.
m
__5 I.
"""-~'**1
_I_
i.._.
_m
__.e
._ d mm..
mm..
.._.m.
=
.qd _
.m 9,
..c..
__..m._
r M_ _aA3.y &.Wt..._._ __..
_.m.
.-m
..r 6
.._% e.mm.
mm.,
m.
N_
-g e
e g er I._._.-
6, _.w g
m..m I"."_
.__..m m
.mm e_
==_.tm'_--.
m g.m..
.m.m...
.,.mmmme m
M_
."""""1 e
_ M_._. _
. __ s
.m_.__
._ m.
.=l--
_ _3
_ _ = _. _- vu l.4..._,L :.12-.*.ums.*_.._.e la.__.=}_-=_L.=r =.-E I _.~.. =..=I._...__._1._._._:.=_:.
m
-_s
~
x.m __
_ _8
...i.__.__._l....,_._.__1..___._-
._.._.r........
._ =.
........_. _....f.
l...
=. : : sol :. /.i s.ee._,s.4 s :-"_. rs
."a,* t.p- ".'
."... E.e r.s.t. _a.n
.a.;.
s..ar.s a s.* a=3_.;. : :.;.; w" i ;;
a
. t
....... It....
- 4........ _
.-._.i._.....
... SS.h3
. E _. t.&....2....,.
....e
.c.1. _e l. ek t _3 _...
._ l..
.)
_. l _,..... _...
_.. [... [..................,...
1......
. l..
.l=.
... i
.....l.l.
. g................g I'*.
- l. *...
.... -..i 1
..i....
..a
...l..
.t l..
.. 8.,,...l
.g..
__ 4 g,
,4 a
.g g,,
,3 g
i e.
_ _. _i. _ _...
.a
- l..
- f..
....._t._
e t
i I
l j..
l
...s.
e
.I.
- l..
, i........e 3.
.l.
.8 1
l 8
- - -- _ t. --
i e
l
.I i
l_ I. !
l l
4
.l*
l 8
l
...i i
a -. g. 7... I...I.
l.
I l
I I
e I
SIRIAL: "U11CO2171:00'*
,_-_m._.-
-