ML17348A981
| ML17348A981 | |
| Person / Time | |
|---|---|
| Site: | Turkey Point  |
| Issue date: | 07/08/1991 |
| From: | FLORIDA POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML17348A980 | List: |
| References | |
| NUDOCS 9107120109 | |
| Download: ML17348A981 (12) | |
Text
ATTACHMENT 2 PROPOSED TECHNICAL SPECIFICATION Marked-up Technical Specifications Pages.
2-5 3/4 3-23 3/4 3-24 3/4 3-25 3/4 3-26 Note:
Values which have changed as a result of this review are shown as "ballooned" changes.
The other changes shown were submitted previously under letter L-90-417.
9107120109 910708 PDR ADOCK 05000250 P
0 0
TABLE 2.2 (Continued)
REACTOR TRIP SYSTEH INSTRUMENTATION TRIP SETPOINTS FUNCTIONAL UNIT ALLOWANCE TA Z
S TRIP SETPOINT ALLOWABLE VALUE 12.
Steam/Feedwater Flow Nis@atch Coincident Mith Steam Generator Mater Level-Low 13.
Undervoltage - 4.16 kV Busses A and 8 14.
Underfrequency - Trip of Reactor Coolant Pump Breaker(s)
Open 15.
Turbine Trip a.
Auto Stop Oil Pressure tw 40 P
+Ps +
g.c 7 7,344 q,
33',]2.
u,4',P p
+,D Feed Flow ~~ ~
below stean flow
>15K of narrow range instrument span 7op~ Pcs l484p4 ch-knss
>56.1 Hz
>45 psig Feed Flow+ ~3.~+>
below steaa flow f9 2.
g-~.f n-range instrument span 9~ ya/%pc
~eh-bus W1
>~ Hz psig b.
Turbine Stop: Valve Closure 16.
Safety In)ection Input from ESF
)7.
Reactor Trip System Interlocks a.
Intermediate Range Neutron Flux, P-6 N.A.
H.A o N.A, N.A ~
H.A. H.A.
N. A.
N.A.
x 10-~o amp gyp/D Fully Closed """
Fully Closed <<~
Limit switch is set when Turbine Stop Valves are fully closed.
57zw~ ~~
i5hznr Ju rg Fi'gg, g,t% 'S~aub 4d~+c~R~wxw~ ZFS
>r ++ ~~~ ~'s~ie
l Pl t
E' g
TABLE 3.3-3 ENGINEERED SAFETY FEATURES ACTUATION SYSTEH
@ FUNCTIONAL UNIT ALLSfANCE TA Z
S TRIP SETPOINT ALLOWABLE VALUES EA Qo bb 00I Col
'i
(
I Safety -Injection (Reac0
- Trip, Turbine Trip, Feebler Isolation, Control Rooa Ventilation Isolation, Start Diesel Generators, Contain-aent Phase A Isolation (except Nanual SI), Containment Cooling Fans, Containment Filter Fans, Start Sequencer, Coeponent Cooling Water, Start Auxiliary Feedwater and Intake Cooling itater)
- a.
Nanual Initiation b.
Autoaatic Actuation Logic c.
Containment Pressure-High d.
Pressurizer Pressure-Low e.
High Differential Pressure Be@men the Steaa Line Header and any Steaa Line.
f.
Steaa Line Flaw-High Z-3 + ~p~
few Q~ ~sa~.
l3. p N.A lg.o
+-+.
+4, l4.'y lo,3 N.A N.A
.A N.Aa.o 8.+
I.+
I.<7 +(c +
N.A.
N.A.+.o psig laaa
>&&psig leo
<%0-psi Z.8C
<A function defined as follows:
A hp corresponding to
+c lo Sfea 4t ~
at lC load increa-ing linearly 4e-a-corres onding tp
~Zc simba 4'i u at ull load.
psig ter Z, WWps3g II+
W~psi (t<<<Wv) 4 A f~~c4'~<
Aevi'~ed
~s (et(~us:
A
'De(4
~ries
~<~g
<o +g t
2
~+
Co
+ 4
+c.
LZZ,. 4
~
Ske~ 4'4u a4 ~[(
gree
V I~Q Ca, j
.mvC <<l c v
~
~
Cf~ ~(e~
~ ~
C s ques ae'PlL'< f<
C) g ~ ~ Mfi+k 4
~
~~ [f
<wc'+'~
tgg@C7g %q 44gg~
~~
~~
lay O~
)Ct cp I
4 0 JA'6 C ~ ~ ~+ ~ P~~$ 4'/ ~
l
$ O g g ~
'w p~ J>>/
- SHAW tc~
e~~"i~
< Ot~
4"a%~~
p< "c Po ~
(5'~ ~,~
- tmt,
~ gav.~
~ ~
Qo r~g~
(.n cr p,vs~
l 7 'g~(v'.
>gpwq
~ ~ ~w ~r~ee<<e~e
~
( f~gc ~J )
qt t%'~
egg~
~~
r
~ a Og c
~~
~~~~o
~ply 3
e
% 0
)>> o, 5'8, 0
0 c~ ~~+
~
t ICICLE (0 g t(+
o e
e e
o~ "+
c"-'-~
~
TABLE 3. 3-3 (Continued)
ENGINEEREO SAFETY FEATURES ACTUATION SYSTEH I
EA Ob Qo Coincident sith:
Steaa Generator Pressure Ler or T -Lee C)
@ FUNCTIONAL UNIT ALLOWANCE TA 1 S.o Z
S l.tp 2.0 1.0 TRIP SETPOINT 4(+
>QS psig
>543'F ALL(NABLE VALUES S88
++ psig
>542.5'F 2.
Autoaatic Actuation Logic and Actuation Relays CabI 3.
b.. Containaent Pressure High-High Coincident Hth:
Contairaent Pressure-High Contairaent Isolation a.
Phase "A" Isolation 1)
Nanual Initiation 2)
Autoaatic Actuation Logic and Actuation Rel~s N.A N.A N.A.
Zl-3 Z-7 N. A N.A lo. $
N.h. N.h.
N.A. N.A.
N.A.
Zc>.o
<39-.$ psig q:o
<6-.0 psi g N.A.
N.A.
N.A.
N.A.
N.
sig psig 3)
Safety Injection see itea 1 See Itea 1 above for all Safety Injection Trip Setpoints and Alltwable Values.
b.
Phase "8" Isolation 1)
Nanual Initiation N.A.
N.A. N.A.
N.A.
N.A.
I
+V; t
~
ag I Q l~
~
Q I
Q
~l
~p o~a e
/t hi(
, f~n
~
0 I ci
TABLE 3.3-3 (Continued)
ENGINEEREO SAFETY FEATURES ACTUATION SYSTEH
~ FUNCTIONAL UNIT ALLO/ANCE TA Z
S TRIP SETPOINT ALLOWABLE VALUES I
g 3.
Centerment Ieolet140'Ironed)
CA 2)
Autoaatic Actuation Logic Ca>
and Actuation Relays 3)
Containment Pressure-High-High Coincident Ath:
Contairaent Pressure-High c.
Containaent Ventilation Isolation 1)
Containeent Isolation Nanual Phase A or Manual Phase B
N.A.
N.A.
? 1-3 R.7 N A. N.A.
0+ 6,O lc. 3 N.A. N.A.
N.A.
70 O
<39-.0 psi g
+ O
<6-.8 psig N.A.
N.A.
~~sig psig N.A.
2)
Autoaatic Actuation Logic and Actuation Relays 3)
Safety Injection N.A.
see itea 1 N.A. N.A.
N.A. e.A N.A.
N.A.
See Itea 1.
above for all Safety Injection Trip Setpoints and Allowable Values.
4)
Contairaont Radio-activity-High (1) 5
~ 4.
SteaN Line Isolation a.
Nanual Initiation C7 N.A.
Particulate (R-ll)
<6.1 x 10s.CPH t'aseous (R-12)
See (2)
( <ws6g.w)
N.A. N.A.
N.A.
N.A
+av'heebie (R-l<3 ~
a B x to+ gt~
4a.se,ou.~
(.w-la. )
gee.
(. a-)
~ )
~ >>
4>>
~r P k Pc%
ya g'r
~
~
rI I I
~ y
~
~
'I
~
l ~
I ~
- ~
I, ~
~
a P
C
~,>>
TASLE 3.3-3 (Continued)
ENGINEEREO SAFETY FEATURES ACTUATION SYSTEN
~ A.<~~~~'o<
a~u,~ea
~~"""
< aV a ~~spo~O~~g
+-
~~~asi
~[
t,'
'-~.~~~ vt IZp, ( +/
~ FUNCTIONAL UNIT I
Q4 M
CA Ob Qo Stem Line Isolation fgiiaCinued) b.
Automatic Actuation Logic and Actuation Relays c.
Contairaent Pressure-High-High Coincident with:
Containment Pressure-High f.
Stem Line Flow-High ALLOWANCE TA N.A.
Z S
'2.7 N.A N.A.
tl Z.sb P.w TRIP SETPOINT ALLSOSLE VALUEg N.A.
7o.o
<%48-psi g 9:o psig N.A..
2Z
~
psig
+. 5 psig
<A function defined [
3 as follows:
A hp corresponding to 9.o / sk~ (tow at OX load increas-ing linearly 4o-a Zo
(~ l~aJ 4 a. va.tw corres onding to lZO (e
g fcwd g5.
Coincident with:
Stem Line Pressure-Low or T -Low Feedwater Isolation I 3'.o
+-w 4.0 l V Z3 2.0 1.0 at full load.
4 t'F
>688 psig
>5434F S88
~~psig
)542. 54F 5
8 a.
Automatic Actuation Logic and Actuation Relays b.
Safety Injection N.A.
see item 1 N.A N.A.
N.A.
N.A.
See Itea 1.
above for all Safety Injec't$ on Trip Setpoints and Allowable Values.
R C
~e
\\Jt
~ ga A
I 0 CA 0
0 0