ML20086N721
| ML20086N721 | |
| Person / Time | |
|---|---|
| Site: | San Onofre  |
| Issue date: | 07/19/1995 |
| From: | SOUTHERN CALIFORNIA EDISON CO. |
| To: | |
| Shared Package | |
| ML20086N716 | List: |
| References | |
| NUDOCS 9507250309 | |
| Download: ML20086N721 (77) | |
Text
i 1
l ATTACHMENT "A" EXISTING SPECIFICATIONS UNIT 2 l
d 9507250309 950719 PDR ADDCK 05000361 P
v.
E TABLE 3.3-3 (Continued)
ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUMENTATION 5
MINIMUM H
TOTAL NO.
CHANNELS CHANNELS APPLICA8LE ro FUNCTIONAL UNIT OF CHANNELS TO TRIP OPERABLE MODES ACTION 9.
CONTROL ROOM ISOLATION (CRIS) a.
Manual CRIS (Trip Buttons) 2 1
1 All 13*#
b.
Manual SIAS (Trip Buttons) 2 sets of 2/ unit 1 set of 2 2 sets of 2/ unit 1, 2, 3, 4 8
c.
Airborne Radiation m) 1.
Particulate / Iodine 2
1 1
All 13*#
- 11. Gaseous 2
1 1
All 13*#
d.
Automatic Actuation U
Logic 1/ train 1
1 All 13*#
10.
T0XIC GAS ISOLATION (TGIS) a.
Manual (Trip Buttons) 2 1
1 All 14*#, 15*#
b.
Chlorine - High 2
1 1
All 14*#, 15*#
c.
Ammonia - High 2
1 1
All 14*#, 15*#
d.
Butane / Propane - High 2
1 1
All 14*#, 15*#
(
e.
Automatic Actuation Logic 1/ train 1
1 All 14*#, 15*#
l 55 5
=
=
,e
+
- e.
~
P.
i E
TA8LE 3.3-3 (Continued)
E ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUNENTATION w
MINIMUM TOTAL MO.
CHANNELS CHANNELS APPLICA8tE OF CNANNELS TO TRIP _
OPERABLE MODES ACTION E
M FUNCTIONAL UNIT N
- 11. FUEL HANDLING ISOLATION (FHIS) 16*#
Manual (Trip Buttons) 2~
1 1
a.
b.
Airborne Radiation 16*#
1 1
l 1.
Gaseous 2
Automatic Actuation 16*#
Logic 1/ train 1
1 c.
i w
5
- 12. CONTAINNENT PURGE ISOLATION w
(CPIS)
Manual (Trip Buttons) 2 1
1 6
17b*#
ce a.
b.
Airborne Radiation (2RT7804-1 or 2RT7807-2)
. 2 1
1 1,2,3,4 17a 1.
Gaseous 6
17ba#
- 11. : Particulate 2
1 1
1,2,3,4 17a 6
17b*#
111. Iodine 2
1 1
6 17ba#
Radiation (Gamma) 2 1
1 1,2,3,4 17 c.
' Containment Area 6
17b*#
k (2RT78%-1 or 2RT7857-2) k Logic 1/ train 1
1 1,2,3,4 17 l
d.
Automatic Actuation 6
17b*#
5 5
6 4
s
_ _. _ _ _... _ - _ _ _ _, ~ _ _..
.4
.e m
E.
6E O
- g TABLE 3.3-4 (Continued)
'i'p ENGINEERED SAFETY FEATURE ACTUATION SYSTEN INSTRUMENTATION TRav VALUES G
w ALLOWABLE
+
FUNCTIONAL UNIT TRIP VALUE VALUES 9.
CONTROL ROOM ISOLATION (CRIS) a.
Manual CRIS (Trip Buttons)
Not Applicable Not Applicable b.
Manual SIAS (Trip Buttons)
Not' Applicable No~t App 1'idible;'
c.
Airborne Radiation
)$
i.
Particulate / Iodine 5 5.7 x 104 cpm **
$ 6.0 x 104 cpm **
2
[
ii. Gaseous
$ 3.8 x 102 cp,=*
$ 4.0 x 10 cp,==
d.
Autamatic Actuation Logic Not Applicable Not Applicable 10.
T0XIC GAS ISOLATION (TGIS) a.
Manual (Trip Buttons)
Not Applicable Not Applicable b.
Chlorine - High 5 14.3 ppe i 15.0 ppm c.
Ammonia - High 5 97 ppm 5 100 ppe d.
Butane / Propane - High
$ 193 ppm 5 200 ppm h
e.
Automatic Actuation Logic Not Applicable Not Applicable me C#
95
-l up
=
. y..
m E
TABLE 3.3-4 (Continued)
H ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUMENTATION TRIP VA m
i ALLOWABLE VALUES E
TRIP VALUE 4 FUNCTIONAL UNIT
- 11. FUEL HAN0 LING ISOLATION (FHIS)
Manual (Trip Buttons)
Not Applicable Not Applicable a.
b.
Airborne Radiation (8)
(8) e 1.
Gaseous Automatic Actuation Logic Not Applicable.
Not Applicable w) c.
- 12. CONTAINMENT PURGE ISOLATION (CPIS)
Not..ppilcable Not Applicab1e A
Manual (Trip Buttons) a.
b.
Airborne Radiation (6)(7)
(6)(7) 1.
Gaseous (6)(7)
(6)(7) 11.
Particulate (6)(7)
(6)(7) 111. Iodine
< 325 mR/hr -(MODES 1-4)
< 340 mR/hr (MODES 1-4)
' Containment Area Radiation (Ganur.a) 32.4mR/hr(MODE 6) 32.5mR/hr(MODF6) k c.
5 Not Appilcable Not Appilcable M5 d.
Automatic Actuation Logic 5
e.
eS e
w 4vm m.
y
= - +_ -- -
,e.
%e
.e
S1DQ)
III6C "0N* TH/Ill Zt'CT ti/10 TABLE 3.3-4 (Continued)
TABLE NOTATION (1)
Value say be decreased manually, to a minimum of greater than or equal to 300 psie, as pressurizer pressure is reduced, provided the margin between the pressurizer and this value is maintained at less than or equal to 400 psia 1
pressarizer pressu;*e is increased until the trip setthe setpoint s r
Trips say be bypassed when pressurizer pressure is < point is reached.
400 psia shall be automatically removed before pressurizer pressure exc. Bypass i
eeds 500 paie (the corresponding bistable allowable value is s.472 psia.
i (2) value may be decreased manually as steam generator pressure is reduced provided the margin between the steam generator pressure and this value, is maintained at le'ss than or equal to 200 psi increased automatically as steam generator pres;*sure is increased untilt the trip setpoint is reached.
(3)
% of the distance between steam generator upper and lower level instrument nozzles.
(4)
Deleted.
(5)
Actuated equipment only; does not result in CIAS.
i (6)
The trip setpoint shall be set sufficiently high to prevent spurious I
alarms / trips yet sufficiently low to assure an alarm / trip should an inadvertent release occur.
(7)
Prior to the completion of DCP 53N, the setpoints for Containment i
Airborne Radiation Monitor 2RT-7804-1 shall be determined by the 00CM.
(8)
The trip setpoint shall be set sufficiently high to prevent spurious alarm / trips yet sufficiently low to assure an alarm / trip should a fuel handling accident occur.
- Variable setpoints are for use only during normal, controlled plant heatups and cooldsuns.
.i
- Above norms) background.
SAN ONOFRE - UNIT 2 3/4 3-26 Amendment No. 55,313,120
9' Table 3.3-5 (Continued)
RESPONSE TIME (SEC)
INITIATING SIGNAL AND FUNCTION J
(-
13.
Control Room Toxic Gas (Butane /Peooane) i
' \\.
.TGIS Control Room Ventilation -
36 (NDTE 5) f Isolation Mode f
14.
Fuel Handlina Buildina Airborne Radiation FHIS Fuel Handling Building Post-Accident Not Applicable Cleanup Filter System 15.
Containment Airborne Radiation CPIS 2 (NOTE 2)
Containment Purge Isolation l
16.-
Contai.: at Area Radiation CPIS 2 (NOTE 2) l Containment Purge Isolation NOTES:Response times-include movement of valves and attainment of pump or blower 1.
discharge pressure as applicable.
Response time includes emergency diesel generator starting delay 2.
(applicable to A. C. notor-operated valves other than containment purge Refer to Table 3.6-1 valves), instrumentation and logic response only.
for containment isolation valve closure times.
(
All CIAS-actuated valves except MSIVs, MFIVs, and CCW Valves 2HV-6211, 3.
2HV-6216, 2HV-6223 and 2HV-6236.
CCW noncritical loop isolation Valves 2HV-6212, 2HV-6213, 2HV-6218, and 4a.
2HV-6219 close.
4b.
Containment emergency cooler CCW isolation Valves-2HV-6366, 2HV-6367, 2HV-6368, 2HV-6369, 2HV-6370, 2HV-6371, 2HV-6372 and 2HV-6373 open.
Response time includes instrumentation, logic and isolation damper closure 5.
times only.
The provisions of Specification 4.0.4 are not applicable for entry into 6.
MODE 3.
7.
Include HV4762 and HV4763 following implementation of DCP 195J.
Prior to completion of DCP 6234 valve closure is manually initiated.
8.
Following completion of DCP 6234, valves are to close automatically on a l
RAS coincident with a high-high containment sump signal.
Response time is for step voltage loss from nominal voltage to 0.0 volts l
9.
Emergency diesel generator starting delay (10 sec.) and sequence loading delays for SIAS are included.
(
Emergency diesel generator starting delay (10 sec) is included.
SAN ONOFRE - UNIT 2 3/4 3-30 AMENDMENT NO. GG, 118
_+
TABLE 4.3-2 (Continued)-
ENGINEEREDSAFETYFEATUREACTUATIONSYSTEMINSTRUNENTATIONSURVEII.LANCERIOU
~
m.
CHANNEL MODES FOR WHICH
[
CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE g
CHECK CALIBRATION TEST IS REQUIRED-FUNCTIONAL UNIT l
m 7.
LOSS OF POWER (LOVS, SDVS, or DGVSS) g a.
4.16 kV Emergency Bus a
Undervoltage (Loss of Voltage S
(6)
(6) 1, 2, 3, 4 m
b.
4.16 kV Emergency Bus Undervoltage (Degraded Voltage S
(6)
(6) 1, 2, 3, 4 B.
Manual (Trip Buttons)
N.A.
N.A.
(6) 1, 2, 3 a.
b.
SG Level (A/B)-Low and t'
AP (A/B) - High S
(6)
Q 1, 2, 3 c.
SG Level (A/B) - Low and No i'
Pressure - Low Trip (A/B)
S (6)
Q 1, 2, 3 M
d.
Automatic Actuation Logic N.A.
N.A.
Q(3),SA(4) 1, 2, 3 CONTROL ROOM ISOLATION (CRIS) )
9.
a.
Manual CRIS (Trip Buttons N.A.
N.A.
R N.A.
b.
Manual SIAS (Trip Buttons)
N.A.
N.A.
R N.A.
c.
Airborne Radiation
- i. Particulate / Iodine S
R H
All (i. Gaseous S
R M
All d.
Automatic Actuation Logic N.A.
N.A.
R(3)
All y
- 10. T0XIC GAS ISOLATION (TGIS)
Manual (Trip Buttons)
N.A.
N.A.
R
'N.A.
a.
b.
Chlorine - High S
R M
All E
c.
Ammonia - High S
R M
All
.d.
Butane / Propane - High S
R M
-All e.
Automatic Actuation Logic N.A.
N.A.
R(3)
All y
C
=
I
- 4 l
l TABLE 4.3-2 (continued)
E ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUNENTATION SURVEILLANCE REQU E
CHANNEL M00ES FOR WICH l
CHANNEL CHANNEL FWCTIONAL SURVEILLANCE l
r;i CHECK CAllBRATION TEST IS REQUIRED g
FUNCTIONAL UNIT
- 11. FUEL HANDLING ISOLATION (FMIS) a.
Manual (Trip Buttons)
N.A.
N.A.
R N.A.
t b.
Airborne Radiation S
R M
1.
Gaseous c.
Automatic Actuation Logic N.A.
N.A.
R(3) l
- 12. CONTAI MENT PURGE ISOLATION (CPIS)
~ N. A."
^
a.
Manual (Trip Buttons)
N.A.
~
M.A.
(6)'
~
i-b.
Airborne Radiation S-(6)
M 1,2,3,4,6 1.
Gaseous 11.
Particulate W
(6)
M 1,2,3,4,6 W
(6)
M 6
111. Iodine w
Containment Area Radiation 3
c.
S (6)
M 1,2,3,4,6 (Gamma) d.
Automatic Actuation Logic
,N.A.
N.A.
(3),(6) 1,2,3,4,6 w
TABLE NOTATION I
(1) Deleted.
Deleted.
(2) Te' sting of Automatic Actuation Logic shall include energization/de-energization of each initiation (3) relay and verification of the OPERABILITY of each initiation relay.
A subgroup relay test shall be performed which shall include the energization/de-energization o (4) subgroup relay and verification of the OPERASILITY of each subgroup relay.
during plant operation shall be limited to only those relays associated with plant eq cannot be operated during plant operation.during each COLD SHUTDO W exceeding 2 z
$5 (5) Actuated equipment only; does not result in CIAS.
5 (6) At least once per refueling interval.
With !rradiated fuel in the storage pool.
g e
.,_-...-,_-s, a..
+
-________________.__,._______.______m_
~
.. r' f.--
7 TABLE 3.3-6 E
RADIATION MONITORING INSTRUMENTATION 8,,
MINIMUM CHANNELS APPLICABLE ALARM / TRIP MEASUREMENT OPERABLE
, MODES SETPOINT RANGE ACTION iR INSTRUMENT cg 1.
Area Monitors u
a.
Containment - High 2
1,2,3
'10 R/hr 1-10' R/hr 18, 18a 4
10 R/hr 19
-Range (2RT-7820-1 and i.
2RT-7820-2) b.
Containment - Purge 1
1,2,3,4 10 8-105 mR/hr 97 17b 6
Isolation (2RT-7856-1 or 2RT-7857-2)
)
c.
Main Steam Line 1/11ne 1,2,3 1 mR/he (low.; 10 8-104 mR/hr; 18 u
1 R/hr (high)
A Channel consist of 19 d,
2RT-7874A and 4
- mR/hr (low);
w 1 R/hr (high) 2RT-7875A or 2RT-78748 and 2RT-78758 2.
Process Monitors a.
Fuel. Storage Pool Airtsrne (2RT-7822-1 cpm 16 or 2RT-7823-2) 101 -107
- 1.
Gaseous 1
R b.
Containment Airborne (2RT-7804-1 or-1.
Gaseous 1
1,2,3,4 101 - 107 cpm 17a E
2RT-7807-2) 17b "4'
6 cpm 17a
- 11. Particulate 1
1,2,3,4 10s - 107 17b 6
cpm 17b E
111. Iodine 1
6 101 - 107 Control Room Airborne c.
(2/3 RT-7824-1 or 2/3 RT-7825-2) cpm 13 1.
Particulate 1
All lot - 107 cpm 13 lot - 107
- 11. Gaseous 1
All
- - ?
~
p..
f' m
E TA8tE'4.3-3 RADIATION MONITORING INSTRUNENTATION SURVEILLANCE REQUIREENTS m
CHANNEL M00ES FOR WHICH CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE E
TEST 15 REQUIRED Q
INSTRUE NT CHECK CALIBRATION I
1.
Area Monitors a.
Containment.- High Range S
(2)
M 1, 2, 3, 4 (2RT-7820-1,2RT-7820-2)
(2)
M 1,2,3,4,6 l
b.
Containment - Purge Isolation
(
(2RT-7856-1,2R1-7857-2)
)
c.
. R M
1,2,3,4 w
(2RT-7874A,2RT-7875A, 2RT-78748,2RT-78755) g 2.
Process Monitors s.
Fuel Storage Pool Airborne i
I (2RT-7822-1,2RT-7823-2) 1.
Gaseous
't b.
Containment Airborne
- F2RT-7804-1,2RT-7801-2) 1.
Gasecus 1,2,3,4,6 1,2,3,4,6
- 11.. Particulate W.
111. Iodine 6
' ' ~ ' '
2 c.
Control Room Airborne
~
3 (2/3RT-7824-1, 2/3RT-7825-2) 5 1.
Particulate All i
- 11. Gaseous All
.e 4
L 9
+
u.
g-e
.-e-m e
1 4
i L
a ATTACHMENT "B" EXISTING SPECIFICATIONS UNIT 3 r,
o P
4p
- j.x ;
g TABLE 3.3-3 (Continued) y ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION 2
m E
MINIMUM 5
TOTAL NO.
CHANNELS CHANNELS
' APPLICABLE
[
FUNCTIONAL UNIT OF CHANNELS TO TRIP
,0PERABLE M00ES ACTION l
9.
CONTROL ROOM ISOLATION (CRIS) l a.-
Manual CRIS (Trip Buttons) 2 1
1 All 13*#
h.
' Manual SIAS (Trip Buttons) 2 sets cf 2/ unit I set of 2 2 sets of 2/ unit 1, 2, 3, 4 8
c.
Airborne Radiation 1.
Particulate / Iodine 2
1 1
All 13*#
w
)
- 11. Gaseous 2
1 1
All
-13*#
d.
Automatic Actuation w
g Logic 1/ train 1
1 All 13*#
10.
T0XIC GAS ISOLATION (TGIS) a.
Manual (Trip Buttons) 2 1
1 All 14*#, 15*#
b.
Chlorine - High 2
1 1
All 14*#, 15*#
c.
Asunonia - High 2
1 1
All 14*#, 15*#
d.
Butane / Propane - High 2
1 1
All 14*#, 15*#
e.
Automatic Actuation 14*#, 15*#
Logic 1/ train 1
1 All 5
TABLE 3.3-3 (Continued) v.
E ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION o5 E
NININUM TOTAL NO.
CliANNELS
- HANNELS AFPLICA8tE E
OFCHANNFM TO TRI?_
OPERABLE MODES ACTION Q FUNCTIONAL UNIT w
- 11. FUEL HANDLING ISOLATION l
(FHIS) 16*#
Manual (Trip Buttons) 2 1
1 16*#
1
)
a.
b.
Airborne Radiation i
2 1-1 1
1.
Gaseous 16*#
Automatic Actuation 1/ train 1
1 c.
Logic w
- 12. CONTAINNENT' PURGE ISOLATION w,'.
(CPIS)
Manual (Trip Buttors) 2 1
1 6
17ba#
=
m.
b.
Airborne Radiatleri 2
1 1
1,2,3,4 17a (3RT-7804-1 or 3RT-7807-2 6
17b*#
1.
Gaseous
- 11. - Particulate 2
1 1
1,2,3,4 17a 6
17b*#
2 1
1 6
17ba#
111. Iodine c.
Containment Area 1
1 1,2,3,4 17 Radiation (Gamma) 2 6
17b*#
g (3RT-7856-1 or 3RT-7857-2) 1/ train 1
1 1,2,3,4 17 5
d.
Automatic Actuation 6
17b*#
jF, Logic 1
5 4
ee 9
y
- -g 7,...
.r
. - p. -- p s,._9.g.,,
1
.)
TABLE 3.3-4 (Continued)-
2 ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION TRIP VALUES i-o.
ALLOWABLE A
TRIP VALUE VALUES a
FUNCTIONAL UNIT l
5 9.
CONTROL ROOM ISOLATION (CRIS)
]
a.
Manual CRIS (Trip Buttons)
Not Applicable Not Applicable b.
Manual SIAS (Trip Buttons)
Not Applicable Not Applicable-c.
Airborne Radiation i.
Particulate / Iodine 1 5.7 x'104 cpm **
$ 6.0 x 10* c p**
i ii.-Gaseous 5 3.8 x 102 cpm **
5 4.0 x 102 cpm **
w1 d.
Automatic Actuation Logic Not Applicable Not Applicable w
E 10.
T0XIC GAS ISOLATION (TGIS) a.
Mantal (Trip Buttons)
Not Applicable Not Applicable b.
'High
$ 14.3 ppm i 15.0 ppe c.,
Ammonia High 1 97 ppm 1,100 ppa
-d.
Butane / Propane - High i 193 ppm 1 200 ppe e.
Automatic Actuation Logic Not Applicable Not Applicable I
3.
O!.
c_..
$Em H.
E rA 4:
t i
.-n
-a
~
v~~
., -,. +... _ -, _,
l3l TABLE 3.3-4 (Continued) h ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUNENTATION TR 5
E rn ALLOWABLE VALUES _
TRIP VALUE E FUNCTIONAL UNIT Q
- 11. FUEL HANDLING ISOLATION (FHIS) w Not Applicable Not Applicable Manual (Trip Buttons) a.
b.
Airborne Radiation (8)
[
(8) 1.
Gaseous Not App 11 cable Automatic Actuation Logic Not Applicable c.
wk
- 12. CONTAINNENT PURGE ISOLATION (CPIS)
Not. Applicable Not Applicable w
O Manual (Trip Buttons) a.
b.
Airborne Radiation (6)(7)
(6)(7) 1.
Gaseous (6)(7)
(6)(7)
- 11.. Particulate (6)(7)
(6)(7) 111. lodine
< 340 mR/hr (MODES 1-4)
< 325 nR/hr (MCSES 1-4)
Containment Area Rtdiation (Gamma) 32.4.nR/hr(Mone6) 32.5mR/hr(MODE 6) c.
k Not Applicable Not Appilcable-2:
k d.
Automatic Actuation Logic 5
5 t
4
- 4
-n
0C09 (146C
- 0N X8/1.1.1 Z?:CI II/40-IABLE 3.3-4 (Continued)
IABLE NOTATION (1)
Value may be decreased manually, to a minimum of greater than or equal to 300 psia the press,urizar and this value is maintained at less than or 400' psia;* the setpoint shall be increased automatically as pressurizer pressure is increased until the trip setpoint is reached.
{
Trips may be bypassed when pressurizer pressure is < 400 psia. Bypass shall be corresponding bistable allowa
>1e value is 5 472 psta). automatically removed before aressurizer pressure exceeds 500 psia (the i
(2)
Value may be decreased manually as steam generator pressure is reduced provided the margin between the steam generator pressure and this value, is maintatried at less than or equal to 200 psi;* the setpoint shall be increased automatically as steam generator pressure is increased until the trip Jetpoint is reached.
(3)
X of the distance between steam generator upper and lower level instrument nozzles.
(4) Deleted.
(5) Actuated equipment only; does not result in CIAS.
(6)
The trip setpoint shall be set sufficiently high to prevent spurious alarms / trips yet sufficiently low to assure an alarm / trip should an inadvertent release occur.
(7) Prior to the completion of OCP 53N, the setpoints for Containment Airborne Radiation Honitor 3RT-7804-1 shall be determined by the ODCH.
(8)
The trip-setpoint shall be set sufficiently high to prevent spurious alarm / trips yet sufficiently low to assure an alarm / trip should a fuel handling accident occur.
- Variable setpoints are for use only during normal _, controlled plant heatups and cooldowns.
- Above normal background.
1 SAN ONOFRE - UNIT 3 3/4 3-26 Amendment No. 15,107, 109
l Table 3.3-5 (Continued)
-INITIATING SIGNAL AND FUNCTION RESPONSE TIME (SEC) 7 13.
Control Room Toxic Gas (Butane /Pronane)
TGIS Control Roon Ventilation -
Isolation Mode 36 (NOTE 5) 14.
Fuel Handlina Buildina Airborne Radiation FHIS Fuel Handling Building Post-Accident l
Cleanup Filter System Not Applicable 15.
Containment Airborne Radiation l'
CPIS Containment Purge Isolation 2 (NOTE 2) 16.
Containment Area Radiation l
CPIS Containment Purge Isolation 2 (NOTE 2)
NOTES:
l l.
1.
Response times include movement of valves and attainment of pump or i
blower discharge pressure.as applicable.
2.
Response time includes emergency diesel generator starting delay l
(applicable to AC motor-operated valves other than containment purge -
valves), instrumentation and logic-response only. Refer to Table 3.6-1 for containment isolation valve closure times.
3.
All CIAS-Actuated valves except MSIVs, MFIVs, and CCW valves 3HV-6211, 3HV-6216, 3HV-6223 and 3HV-6236.
l 4a.
CCW noncritical loop isolation valves 3HV-6212, 3HV-6213, 3MV-6218 and 3HV-6219.
j 4b.
Containment emergency cooler CCW isolation valves 3HV-6366, 3HV-6367, 3HV-6368, 3HV-6369, 3HV-6370, 3HV-6371, 3HV-6372 and 3HV-6373 open.
5.
Response time includes instrumentation, logic, and isolation damper j
closure times only.
6.
The provisions of Specification 4.0.4 are not applicable for entry into MODE 3.
7.
Include HV4762 and HV4763 following implementation of DCP 195J.
8 Prior to completion of DCP 6234, valve closure is manually initiated.
Following completion of DCP 6234, valves are to close automatically. on a RAS coincident with a high-high containment sump signal.
' 9.
Response time is for step voltage loss from nominal voltage to 0.6 I
volts.
l Emergency diesel generator starting delay (10 seconds) and sequence loading delays for SIAS are included.
Emergency diesel generator starting delay (10 seconds) is included.
j SAN DNOFRE - UNIT 3 3/4 3-30 Amendment No. 44, joy
- w:n: -.--
7?
g a
TABLE 4.3-2 (Continued) vi ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION SURVEILLANCE REQUIREMENTS o*
CHANNEL MODES FOR WHICH o
"]'
CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE FUNCTIONAL UNIT CHECK CALIBRATION TEST IS REQUIRED Z
7.
LOSS OF POWER (LOVS, SDVS, or DGVSS) w a.
4.16,kV Emergency Bus Undervoltage (Loss of Voltage)
S (6)
(6)
I, 2, 3,.4 b.
4.16 kV Emergency Bus Undervoltage (Degraded Voltage S
(6)
(6) 1, 2, 3, 4 8.
Manual (Trip Buttons)
N.A.
N.A.
(6) 1, 2, 3 b.
SG Level (A/B)-Low and w2 AP (A/B) - High S
(6)
Q 1, 2, 3 w
c.
SG Level (A/B) - Low and No a
Pressure - Low Trip (A/B)
S (6)
Q 1, 2, 3 d.
Automatic Actuation Logic N.A.
N.A.
Q(3) SA(4) 1, 2, 3 9.
CONTROL ROOM ISOLATION (CRIS) a.
Manual CRIS (Trip Buttons)
N.A.
N.A.
R N.A.
b.
Manual SIAS (Trip Buttons)
N.A.
N.A.
R N.A.
c.
Airborne Radiation
- i. -Particulate / Iodine
.S R
M All
.ii. Gaseous S
R M
All d.
Automatic Actuation Logic N.A.
N.A.
R(3)
All k
- 10. ~T0XIC GAS ISOLATION (TGIS)
R a.
Manual (Trip Buttons)
N.A.
N.A.
R N.A.
B b.
Chlorine - High S
R M
All c.
Ammonia - High S
R M'
All d.
Butane / Propane - High 5
R M
All 2
P e.
Automatic Actuation Logic N.A.
N.A.
R(3)
All E
..m...
. s' p
TABLE 4.3-2 (Continued) k E
ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION SURVEILLANC
~
CHANNEL MODES FOR WICH CHAMEL CHANNEL FUNCTIONAL SURVEILLANCE g
CHECK CAtl8 RATION TEST
-IS REQUIRED y
FUNCTIONAL UNIT
- 11. FUEL HANDLING ISOLATION (FHIS) a.
Manual (Trip Buttons)
N.A.
N.A.
R N.A.
b.
Airborne Radiation S
R M-1.
Gaseous Automatic Actestion Logic M.A.
N.A.
R(3) c.
- 12. CONTAINMENT PURGE ISOLATION (CPIS)
N.A.
a.
Manual (Trip Buttons)
N.A.
N.A.
~ (6)'~
~
b.
Airborne Radiation S
(6)
N 1,2,3,4,6
" 1;2;3,4,6 1..
Gaseous
- 11. Particulate W
(6)
M w
111. Iodine W
(6)
M.
6
)
Containment Area Radiation 5
(6)
M 1,3,3,4,6 mg, c.
d.
Automatic Actuation Logic M.A.
N.A.
(3),(6) 1,2,3,4,6 (Gasma) w TABLE NOTATION I
-(1) Deleted.
Deleted.
Testing of Automatic Actuation Logic shall include energLtation/de-energization of each (2)
(3) relay and verification of the OPERABILITY of each initiation relay.
(4)' A subgroup relay test shall be performed which shall include the energization/de subgroup relay and verification of the OPERA 81LITY of each subgroup relay.
3@
during plant operation shall be limited to only those relays associated with g
cannot be operated during plant operation.during each COLD SHUTOU W exceed m4 E
(5) Actuated equipment only; does not result in CIAS.
8 (6) At least once per Refueling Interval.
With irradiated fuel in the storage pool.
1 E#,
TABLE 3.3-6 E
k RADIATION MONITORING INSTRUMENTATION O
m MINIMUM CHANNELS APPLICA8tE ALARM / TRIP MEASUREMENT OPERA 8tE MODES SETPOINT RANGE ACTION E
Q INSTRUNENT w
1.
Area Monitors Containment - High 2
1, 2, 10 R/hr 1-108 R/hr 18, 18a 19 4
10 R/hr a.
Range (3RT-7820-1 and'3RT-7820-2) 10 1-105 mR/hr 17 b.
Containment - Purge 1
1,2,3,4 17h 6
Isolation w)
(3RT-7856-1 or 3RT-7857-2)
J, c.
Main Steam Line 1/line 2, 3 1 mR/hr (low);
10 1-104 mR/hr; IB y
1 R/h.- (high)
A channel consists of' 1 mR/hr (low);
19
'3' 4
3RT-7874A and 3RT-7875A or 1 R/hr (high) 3RT-78748 and 3RT-18758 2.
Process Monitors a.
Fuel Storage Pool Airborne (3RT-7822-1 or 3RT-7823-2) 10 '-10. cpm 16 8
7 1.
Gaseous' 1
- I b.
Containment Airborne k
(3RT-7804-1 or 3RT-7807-2) 1.
Gaseous 1
1,2,3,4 101 -107 cpm 17a 17b 6
E 11.
Particulate 1
1,2,3,4 108 -107 cpm 17a k
17b 6
P 111.
Iodine 1
6 108 -10 cpm 17b 7
E c.
Control Room Airborne (2/3 RT-7824-1'or 2/3 RT-7825-2) 108 -107 cpm 13 1.
Particulate / lodine 1 All cpm 13 11.
Gaseous.
1 All 108 -107
. m..
m.
c-
-w.
m,- - -. -
TA8tE 4.3-3 h
RADIATION MONITORING INSTRUNENTATION SURVEILLANCE REQUIREMENTS g
2 CHANNEL MODES FOR WHICH CHANNEL.
CHANNEL FUNCTIONAL SURVEILLANCE m
CHECK CAL 18 RAT 10N TEST IS REQUIRED g
INSTRUMENT _
[
1.
Area Monitors Containment - High Range S
(2)
H 1,2,3,4 w
a.
(3RT-7820-1,3RT-7820-2) b.
Containment - Purge Isolation S
(2)
M 1,2,3,4,6 (3RT-7856-1,3RT-7857-2)
S R
H
' 1; 2, 3, 4 c.
Main Steam Line (3RT-7874A,3RT-7875A, 3RT-78748,3RT-78758)
.}
[
2.
Process Monitors an Fuel Storage Pool Airborne a.
(3RT-7822-1,3RT-7823-2) 1.
Gaseous b.
Containment Airborne (3RT-7804-1,3RT-7807-2) 1,2,3,4,6 1.
Gaseous 1,3,3,4.6 6
11.
Particulate ill.
Iodine 4
E Control Room Airborne c.
g (2/3RT-7824-1,2/3RT-7825-2)
All 3
1.
Particulate All iI. Gaseous 5
w-w
--o
3 L
t i
r ATTACHMENT "C" PROPOSED SPECIFICATIONS UNIT 2 i
TABLE 3.3-3-(Continued) yz
.g
. ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUMENTATION sa x*
MINIMUM TOTAL.NO.
CHANNELS CHANNEL APPLICABLE E
FUNCTIONAL UNIT OF CHANNELS TO TRIP OPERABLE.
MODES
. ACTION N
9.
CONTROL ROOM ISOLATION (CRIS) a.
Manual CRIS (Trip Buttons) 2.
I 1
All 13*#.
b.- Manual SIAS (Trip I set of 2 2 sets of 2/ unit.
1,2,3,4 8
Buttons) 2 scets of 2/ unit c.
ContFolLRossi Airborne Radiation
'l t'
i".-~"P6t'icUlate/ Iodine 2-1 1
.All
.13*#
.I-ii. Gaseous 2.
I 1
All 13*#.
Y d.
Automatic Actuation O
Logic 1/ train 1
1
'All 13*#
10.
T0XIC GAS ISOLATION (TGIS) a.
Manual (Trip Buttons) 2 1
1 All 14*#,15*#;
b.
Chlorine - High 2
1 1
All 14*#,15*#
c.
Ammonia - High 2
1 1
All 14*#,15*#
d.
Butane / Propane - High 2-1 1
All 14*#,15*#
e.
Automatic Actuation Logic' 1/ train' 1
1 All 14*#,15*#-
5
~
)
i TABLE 3.3-3 (Continued) b ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUMENTATION oE' MINIMUM 2
TOTAL N0.
CHANNELS CHANNEL APPLICABLE FUNCTIONAL UNIT OF CHANNELS TO TRIP OPERABLE MODES ACTION-t E
11.
FUEL HANDLING ISOLATION Z
(FHIS)
N a.
Manual (Trip Buttons) 2 1
1 16*#
b.
Airborne Radiation
- i. Gaseous 2
1 1
16*#
.c.
Automatic Actuation Logic 1/ train 1
1 16*#
12.
CONTAINMENT PURGE ISOLATION (CPIS) a.
Manual (Trip Buttons) 2 1
1 6
17b*#
Y b.
Cont ~hihmeht Airborne Radiation l
5
'('2RT780421"or 2RT7807-2) i.
Gaseous 2
1 1
1,2,3,4 17a 6
17b*#
ii. Particulate 2
1 1
1,2,3,4 17a 6
17b*#
3 iii. Iodine 2
1 1
.6 17b*#
c.
Contai= cat Ar dDelifed Radi ation (C:=:)^"~*~~~
2 1
1 1,2,2,4 17 (2RT7355 I cr 2RT7857 2) 5 17b*"
d.
' Automatic Actuation Logic 1/ train 1
1 1,2,3,4 17-6 17b*#
E"i 5
e-e7-4 T-9*~-
W P
WM'
'- - - - ^ " - - " - " - " - - ' "^ ^
-~
~ ' ^ ^ ~ ~
~
O v>
E TABLE 3.3-4 (Continued) g ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUMENTATION TRIP VALUES m
ALLOWABLE.
E FUNCTIONAL UNIT TRIP VALUE VALUES
.i N
9.
CONTROL ROOM ISOLATION (CRIS) a.
Manual CRIS (Trip Buttons)
Not Applicable Not Applicable b.
Manual SIAS (Trip Buttons)
Not Applicable Not Applicable ContpljRjomAirborneRadiation c.
i.
Particulate / Iodine 5 5.7 x 10" cpm **
5 6.0 x 10
- cpm
- l ii.
Gaseous s 3.8 x 10 M j Q)]
2 5 4.0 x 10 -epm [Q)]
d.
Automatic Actuation Logic Not Applicable Not Applicable 10.
T0XIC GAS ISOLATION (TGIS) a.
Manual (Trip Buttons)
Not Applicable Not Applicable b.
Chlorine - High 5 14.3 ppm 5 15.0 ppm.
c.'
Ammonia - High 5 97 ppm 5 100 ppm 1
d.
Butane / Propane
.High 5 193 ppm s 200 ppm g
e.
Automatic Actuation Logic Not Applicable Not Applicable-
=
5
. ~ ma...--.u
..~. m A
m.m
-- m
-e m
. m..m e
u.--
re
.-a
,-.me--
.w.-,,,,
m.
-*m.
n.--r-r=
-e..
A er.-
hp
', w TABLE 3.3-4 (Continued) y,
-E ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUMENTATION TRIP VALUES c,
5 9
"1 ALLOWABLE FUNCTIONAL UNIT TRIP VALUE VALUES e
h 11.
FUEL HANDLING ISOLATION (FHIS)
N a.
Manual (Trip Buttons)
Not Applicable Not Applicable b.
Airborne Radiation i.
Gaseous (8)
(8)
C.
Automatic Actuation Logic Not Applicable Not Applicable
- 12. CONTAINMENT PURGE ISOLATION (CPIS) a.
Manual (Trip Buttons)
Not Applicable Not Applicable Es b.
C_ontli,nm.e_nt Airborne Radiation w
i.
Gaseous (6)t7)
(6)f7t 11.
Particulate (6)t7f (6)t7f lii. Iodine (6)t74 (6)t7f i
t c.
Contain=cnt ^.re; hdiatica (C;=:)
1 325 Mr/hr ("00ES I i) 1 340 =R/hr ("00ES I 4)
<. l,eted, De-
.m
-< 2.1 :P/hr ("00E 5)
-< 2.5 :P/hr ("00E 5) j d.
Automatic Actuation Logic Not Applicable Not Applicable z
9 5
~
?
,m..,,4._
-,,..m.,
,#~
..--,..-,...._..,_,,.......e
-,.-,,.....J,
..-,,._..~~m...__
TABLE 3.3-4 (Continued)
TABLE NOTATION (1)
Value may be decreased manually, to a minimum of greater than or equal to 300 psia, as pressurizer pressure is reduced, provided the cargin between the pressurizer and this value is maintained at less than or equal to 400 psia;* the setpoint shall be increased automatically as pressurizer pressure is increased until the trip setpoint is reached.
Trips may be bypassed when pressurizer pressure is < 400 psia.
Bypass shall be automatically removed before pressurizer pressure exceeds 500 psia (the corresponding bistable allowable value is 5 472 psia).
(2)
Value may be decreased manually as steam generator pressure is reduced, provided the margin between the steam generator, pressure and this value is maintained at less than or equal to 200 psi; the setpoint shall be increased automatically as steam generator pressure is increased until the trip setpoint is reached.
(3)
% of the distance between steam generator upper and lower level instrument nozzles.
(4)
Deleted.
(5)
Actuated equipment only; does not result in CIAS.
(6)
The trip setpoint shall be set sufficiently high to prevent spurious alarms / trips yet sufficiently low to assure an alarm / trip should an inadvertent release occur.
(7)
Prior to tte completion of DCP 53N, the ctpcint: for Ocntainment Airborne Radiat4cn Monitor 2RT 7801 1 shall be determined by the 00CM.
The?tpipisetpointishall beTsetTssfffdisntli;high7tojrevent;spnpi6ds alarms / trips'yet-: sufficiently{ low to;' assure:::an' alarm /tripito Lisolatetthe control-room for habitabilityjduringiandffollowing_ accidentMonditions)
(8)
The trip setpoint shall be set sufficiently high to prevent spurious alarms / trips yet sufficiently low to assure an alarm / trip should a fuel handling accident occur.
- Variable setpoints are for use only during normal, controlled plant heatups and cooldowns.
- Above normal background.
SAN ON0FRE - UNIT 2 3/4 3-26 AMENDMENT NO.
Table 3.3-5 (Continued 1 i
INITIATING SIGNAL AND FUNCTION RESPONSE TIME (SEC)
{
13.
Control Room Toxic Gas (Butane / Propane)
TGIS Control Room Ventilation -
Isolation Mode 36 (NOTE 5) 14.
Fuel Handlina Buildina Airborne Radiation FHIS Fuel Handling Building Post-Accident Cleanup Filter System Not Applicable 15.
Containment Airborne Radiation CPIS Containment Purge Isolation 2 (NOTE 2) 16.
Centainment faca Radi 44WDelet.ed i
Contain cat Nrge helation 2 (NOTE 2) i NOTES:
l 1.
Response times include movement of valves and attainment of pump or blower discharge pressure as applicable.
2.
Response time includes emergency diesel generator starting delay (applicable to A. C. motor-operated valves other than containment purge valves), instrumentation and logic response only. Refer to Table 3.6-1 for containment isolation valve closure times.
3.
All CIAS-actuated valves except MSIVs, MFIVs, and CCW Valves 2HV-6211, 2HV-6216, 2HV-6223 and 2HV-6236.
4a.
CCW noncritical loop isolation Valves 2HV-6212, 2HV-6213, 2HV-6218, and
)
2HV-6219 close.
4b.
Containment emergency cooler CCW isolation Valves 2HV-6366, 2HV-6367, 1
2HV-6368, 2HV-6369, 2HV-6370, 2HV-6371, 2HV-6372 and 2HV-6373 open.
]
5.
Response time includes instrumentation, logic and isolation damper closure times only.
6.
The provisions of Specification 4.0.4 are not applicable for entry into MODE 3.
7.
Include HV4762 and HV4763 following implementation of DCP 195J.
8.
Prior to completion of DCP 6234 valve closure is manually initiated.
Following completion of DCP 6234, valves are to close automatically on a RAS coincident with a high-high containment sump signal.
I 9.
Response time is for step voltage loss from nominal voltage to 0.0 volts.
Emergency diesel generator starting delay (10 sec.) and sequence loading i
delays for SIAS are included.
1 Emergency diesel generator starting delay (10 sec) is included.
SAN ON0FRE - UNIT 2 3/4 3-30 AMENDMENT N0.
W TABLE 4.3-2 (Continued)
ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUMENTATION SURVEILLANCE REQUIREMENTS m
E CHANNEL MODES FOR WHICH-o CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE y
FUNCTIONAL UNIT CHECK CALIBRATION TEST IS REQUIRED
- =
7.
LOSS OF POWER (LOVS, SDVS, or DGVSS) a.
4.16 kV Emergency Bus c
Undervoltage (Loss of zZ Voltage)
S (6)
(6) 1, 2, 3, 4 N
b.
4.16 kV Emergency Bus Undervoltage (Degraded Voltage)
S (6)
(6) 1, 2, 3, 4 8.
Manual (Trip Buttons)
N.A.
N.A.
(6) 1,.2, 3 b.
SG Level (A/B) -Low and AP (A/B) -High S
(6)
Q 1, ~ 2, 3 R
c.
SG Level (A/B) - Low and No Pressure - Low Trip (A/B)
S (6)
Q-1, 2, 3
[
d.
Automatic Actuation Logic N.A.
N.A.
Q(3),SA(4) 1, 2, 3 N
9.
CONTROL ROOM ISOLATION (CRIS) a.
Manual CRIS (Trip Buttons)
N.A.
N.A.
R N.A.
b.
Manual SIAS (Trip Buttons)
N.A.
N.A.
R N.A.
c.
ContpolERobis Airborne Radiation l
C~Pdt'iculate/ Iodine S
R M
All ii. Gaseous S
R M
All d.
Automatic Actuation Logic N.A N.A.
R(3)
All
- 10. T0XIC GAS ISOLATION (TGIS) a.
Manual (Trip Buttons).
N.A.
N.A.
R N.A.
g b.
Chlorine - High S
R.
M All my c.
Ammonia - High S
R M
All d.
Butane / Propane - High S~
R M
All m
. 'i d.
Automatic Actuation Logic N.A N.A.
R(3)
All l
W*+,n
- m m
--s--w
-+e---
_,-e--
s, ee-
+,
wi.-~
,__--e-ws, wa-,
3-+-em,~
v
,e.g
..m-a ri e
wi.e, m-.vm--wwi,
,w=
w<
y
-s y
e-.
,..-5
,~-d-,
,-..-,.e%wp
.-6...--..-
g._ dr
TABLE 4.3-2 (Continued) y, ENGINEERED SAFETY FEATURE ACTUATION SYSTEM INSTRUMENTATION SURVEILLANCE REOUIREMENTS 3
CHANNEL H00ES FOR WHICH CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE eg FUNCTIONAL UNIT CHECK CALIBRATION TEST IS E0VIRED 5
11.
FUEL HANDLING ISOLATION (FHIS) a.
Manual (Trip Buttons)
N.A.
N.A.
R N.A.
E b.
Airborne Radiation q
- i. Gaseous S
R M
c.
Automatic Actuation Logic N.A.
N.A.
R(3) y
- 12. CONTAINMENT PURGE ISOLATION (CPIS) a.
Manual (Trip Buttons)
N.A.
N.A.
(6)
N.A.
b.
Containment Airborne Radiation l
i.
Gaseous S
(6)
M 1,2,3,4,6 ii.
Particulate W
(6)
M 1,2,3,4,6 iii. Iodine W
(6)
M 6
w2 c.
Centainment Arca Radiation l
y (Ca=0)l Deleted S
(5) 1,2,3,4,5 1
g d.
Automatic"Actdation Logic N.A.
N.A.
(3),(6) 1,2,3,4,6 TABLE NOTATION (1) Deleted.
(2) Deleted.
(3)
Testing of Automatic Actuation Logic shall include energization/de-energization of each initiation relay and verification of the OPERABILITY of each initiation relay.
(4) A subgroup relay test shall be performed which shall include the energization/de-energization of each subgroup relay and verification of the OPERABILITY of each subgroup relay.
Relays exempt from testing during plant operation shall be limited to only those relays associated with plant equipment which cannot be operated during plant operation.
Relays not testab'le during plant operation shall be test during each COLD g
SHUTDOWN exceeding 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> unless tested during the previous 6 months.
(5) Actuated equipment only; does not result in CIAS.
]
(6) At least once per refueling interval.
P With irradiated fuel in the storage pool.
m s
h 5
. TABLE 3.3-6' TADIATION MONITORING' INSTRUMENTATION i
z MINIMUM i
g-CHANNELS APPLICABLE ALARM / TRIP MEASUREMENT i
g INSTRUMENT OPERABLE MODES SETPOINT RANGE-ACTION:
- =
1.
Area Monitors h
8 i
Range 4
10 R/hr 18, 18a a.
Containment - High 2
1,2,3 10 R/hr 1-10 R/hr.
2 19 (2RT-7820-1 and w
.2RT-7820-2)
N b.
Contain ent Purg:
1 1, 2, 3, '
10d-401 ="/hr 17 helation7"DeletWd S
17b
=
RT 7355 r'W ~
2RT 7857 2) c.
Main Steam Line 1/line 1, 2, 3 1 mR/hr (low);
10-1-10' mR/hr; 18 A Channel consist of 1 R/hr (high) w1 2RT-7874A and 4
1 mR/hr (1ow);
19 2RT-7875A or 1 R/hr (high) w a,
2RT-78748 and m
i 2RT-7875B 2.
-Process Monitors a.
Fuel Storage Pool Airborne (2RT-7822-1 or 2RT-7823-2)-
I 7
i.
Gaseous 1
- 10 cpm 16 b.
Containment Airborne
.(2RT-7804-1 or-2RT-7807-2) 1 7
E i.
Gaseous 1
1, 2,.3, 4 10 -10 cpm 17a g
6 17b 1
7 g
ti.
Particulate 1
1,2,3,4 10 -10 cpm 17a m
6 17b' 1
7 E
iii Iodine
-1 6
10 -10 cpm 17b 8
-c.
Control Room Airborne (2/3 RT-7824-1 or 2/3 RT-7825-2) 1 7
i.
Particulate 1-
All 10 -10 cpm 13 1
7 ii. Gaseous 1
All 10 -10 cpm 13
__.u,
.2..
,...__..._.____....._._..__...__..._...,..a._
..-.. r
%?
TABLE 4.3-3 5;
RADIATION MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS A
CHANNEL MODES FOR WHICH
- 2E CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE
-o INSTRUMENT CHECK CALIBRATION TEST IS REQUIRED N
1.
Area Monitors a.
Containment - High Range S
(2)
M 1, 2, 3, 4 (2RT-7820-1,2RT-7820-2) i b.
Ccatain= cat Purgc I:clation S
(2)
M 1, 2, 3, ', 5 (2RT78551,2RT78572)lDjleged c.
R M
1, 2, 3, 4 (2RT-7874A, 2RT-7875A, u,
2RT-78748,2RT-7875B) m 2.
Process Monitors a.
Fuel Storage Pool Airborne (2RT-7822-1, 2RT-7823-2) 1.
Gaseous b.
Containment Airborne (2RT-7804-1,2RT-7807-2) 1.
Gaseous-1,2,3,4,6 3;
ii.
Particulate f.
1,2,3,4,6 g
iii.
Iodine 6-E rn c.
Control' Room Airborne 5
(2/3RT-7824-1, g;
2/3RT-7825-2) i.
Particulate All.
ii. Gaseous All
- s i
9 I
l 1
ATTACHMENT "D" PROPOSED SPECIFICATIONS UNIT 3 c
6
)
m..
E en 3E TABLE 3.3-3 (Continued)
ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION m
MINIMUM si TOTAL NO.
. CHANNELS CHANNEL APPLICABLE
- q FUNCTIONAL UNIT OF CHANNELS TO TRIP OPERABLE MODES ACTION w
9.
CONTROL ROOM ISOLATION (CRIS) a.
Manual-CRIS (Trip Buttons) 2 1
1 All 13*#
b.
Manual SIAS (Trip Buttons 2 sets of 2/ unit 1 set of 2 2 sets of 2/ unit 1,2,3,4 8
3d c.
C6ntFol R66s Airborne Radiation l
l'.~""Pi tiEQlate/ Iodine 2
1 1
-All 13*#-
i"
- 11. Gaseous 2-1 1
-All 13*#.
t3 d.
Automatic Actuation Logic 1/ train 1
1 All 13*#
10.
T0XIC GAS ISOLATION (TGIS) a.
Manual (Trip Buttons) 2 1
1 All.
14*#,15*#.
b.
Chlorine - High 2
1 1
All-14*#,15*#
c.
Ammonia - High 2
1 1
All 14*#,15*#-
d.
Butane / Propane - High 2
1 1
All 14*#,15*#.
e.
Automatic Actuation 30 Logic 1/ train 1
1 All 14*#,15*#
1 E
si 9
.P
- =.
-..-..-. --..-.-..-....a.....-..-.......-.---.
m TABLE 3.3-3 (Continued)
ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION
' EE 58 MINIMUM E'
-TOTAL N0.
CHANNELS CHANNELS APPLICABLE FUNCTIONAL UNIT OF CHANNELS TO TRIP OPERABLE MODES ACTION
- 11. FUEL HANDLING ISOLATION
-d (FHIS) u, a.
Manual (Trip Buttons) 2 1
1 16*#
- b. -Airborne Radiation
- i. Gaseous 2
1 1
16*#
c.
Automatic Actuation Logic 1/ train 1
1 16*#-
- 12. CONTAINMENT PURGE ISOLATION (CPIS) u, 2
u, a.
Manual (Trip Buttons) 2 1
1 6
17b*#
5 b.
Containment' Airborne Radiation l
'(3RT;780421 or 3RT-7807-2) i.
Gaseous 2
1 1
1,2,3,4 17a 6
17b*#
ii.
Particulate 2
1 1
1,2,3,4 17a 6
17b*#
iii. Iodine 2
1 1
6 17b*#
- c. Contain=ent Art:3DeTeted
~
Radiation (C::::i"""~'"
2 1
1 1,2,3,4 17 35 (3RT 7355 1 or 3RT 7857 2) 5 17b*?
gg
- d. Automatic Actuation gg logic 1/ train 1
1 1,2,3,4 17 gg 6
17b*#
5 E
- m..
mm.m m-.-.-..,
e-
,.,,4w-.
.vw--s m.
w
. u.
t "1
jg TABLE 3.3-4 (Continued) 2 l
ENGINEERED SAFETY' FEATURES ACTUATION SYSTEM INSTRUMENTATION TRIP VALUES i
2 7
ALLOWABLE FUNCTIONAL UNIT TRIP VALUE VALUES cz l
Z 9.
CONTROL ROOM ISOLATION (CRIS) w I
a.
Manual CRIS (Trip Buttons)
Not Applicable Not Applicable.
b.
Manual SIAS (Trip Buttons)
Not Applicable Not ' Applicable I
CpntyJ{RoongAirborneRadiation c.
i.
Particulate / Iodine 5 5.7 x 10' cpm **
5 6.0 x 10
- cpm **
5 ii.
Gaseous s 3.8 x 10 --epm **[(7)]
s 4.0 x 10 -epm jQ M l
2 i
w g
d.
Automatic Actuation Logic Not Applicable Not Applicable 10.
T0XIC GAS ISOLATION (TGIS) a.
Manual-(Trip Buttons)
Not Applicable Not Applicable b.
Chlorine - High 5 14.3 ppm 5 15.0 pp;;i c.
Ammonia - High 5 97 ppm s 100 ppm 3
d.
Butane / Propane - High 5 193 ppm s 200 ppm Ng e.
Automatic Actuation Logic Not Applicable Not. Applicable E9 I
i
..,.., _ - ~ _. ~ -. -. _ _. -
_.. -. - -,.. ~,.. - -.,.... _.,.. _.. -, _ _.. - -.
TABLE 3.3-4 (Continued)
ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION TRIP VALUES o5 ALLOWABLE
'g FUNCTIONAL UNIT TRIP VALUE VALUES
- 11. FUEL HANDLING ISOLATION (FHIS)
E
]
- a. Manual (Trip Buttons)
Not Applicable Not Applicable b.
Airborne Radiation
- i. Gaseous (8)
(8) c.
Automatic Actuation Logic Not Applicable Not Applicable
- 12. CONTAINMENT PURGE ISOLATION (CPIS)
{
a.
Manual (Trip Buttons)
Not Applicable Not Applicable i'
b.
_Containme_nt Airborne Radiation m
m i.
Gaseous (6)t7}
(6)t7) ii.
Particulate (6)t7f (6)t73 iii. Iodine (6) W (6){,7f
-c.
Cent:in= cat Arc; Radiatica (C = :)
1 325 =R/hr ("00ES I 4)
- 310 =R/hr ("00ES 1 i)
D,.el_ete.m.
d
< 2.4 ="y'hr (Mode 5)
- 2.5 =R/hr ("00E 5) d.
Automatic Actuation Logic Not Applicable Not Applicable E
I9
F TABLE 3.3-4 (Continued)
TABLE NOTATION (1) Value may be ' decreased manually, to a minimum of greater than or equal to r
300 psia, as pressurizer pressure is reduced, provided the margin between 1
the pressurizer and this value is maintained at less than or equal to 400 psia;* the setpoint shall be increased automatically as pressurizer j
pressure is increased until the-trip setpoint is reached.
Trips may be bypassed when pressurizer pressure is < 400 psia.
Bypass shall be automatically removed before pressurizer pressure exceeds 500 psia (the corresponding bistable allowable value is 5 472 psia).
(2) Value may be decreased manually as steam generator pressure is reduced, provided the margin between the steam generator, pressure and this value is maintained at less than or equal to 200 psi; the setpoint shall be increased automatically as steam generator pressure is increased until the trip setpoint is reached.
l (3) % of the distance between steam generator upper and lower level instrument nozzles.
l (4) Deleted.
(5) Actuated equipment only; does not result in CIAS.
(6) The trip setpoint shall be set sufficiently high to prevent spurious l
alarms / trips yet sufficiently low to assure an alarm / trip should an inadvertent release occur.
(7)
Pricr tc the cc=phtien cf DCP 53N, the cet:cint: fcr Ccatcin cat Airbcrne 5dictica Mcniter 3T 78041 :hc"
- det=.ined by the 00CM.
Thej tFifhet p;bi ntHhilli bsisetissffIEisiit1FI highitsTppiVentispiiHb;iii il arms /noom.sje tssu f fi ci est1pil owtt6tas surelanj al ars/t ri p ?tosi sol ateltWE trip con trc.. l
_ sfod h. ~a._bi t_abi_l i.m.y;!duri_ng thhd i fo_l l c_u_i nsi ac.m.m nt_n_sndit_i on.sF i
t cide m
-s.
mv m.m m.
m
.m (8) The trip setpoint shall.be set sufficiently high to prevent spurious
)
alarms / trips yet sufficiently low to assure an alarm / trip should a fuel handling accident occur.
I 1
1
- Variable setpoints are for use only during normal, controlled plant heatups and cooldowns.
- Above normal background.
SAN ON0FRE - UNIT 3 3/4 3-26 AMENDMENT NO.
Table 3.3-5 (Continued)
INITIATING SIGNAL AND FUNCTION RESPONSE TIME (SEC) 13.
Control Rocm Toxic Gas (Butane /Pronane)
TGIS Control Room Ventilation -
Isolation Mode 36 (NOTE 5) 14.
Fuel Handlina Buildina Airborne Radiation FHIS Fuel Handling Building Post-Accident Cleanup Filter System Not Applicable 15.
Containment Airborne Radiation CPIS Containment Purge Isolation 2 (NOTE) 16.
Centainment /\\rca Radiation Deleted GMS Containment Purge bokt4cn 2 (NOTE 2)
!LOIEli:
1.
Response times include movement of valves and attainment of pump or blower discharge pressure as applicable.
2.
Response time includes emergency diesel generator starting delay (applicable to AC motor-operated valves other than containment purge valves), instrumentation and logic response only.
Refer to Table 3.6-1 for containment isolation valve closure times.
3.
All CIAS-Actuated valves except MSIVs, MFIVs, and CCW valves 3HV-6211, 3HV-6216, 3HV-6223 and 3HV-6236.
4a.
CCW noncritical loop isolation valves 3HV-6212, 3HV-6213, 3HV-6218 and 3HV-6219.
4b.
Containment emergency cooler CCW isolation valves 3HV-6366, 3HV-6367, 3HV-6368, 3HV-6369, 3HV-6370, 3HV-6371, 3HV-6372 and 3HV-6373 open.
5.
Response time includes instrumentation, logic, and isolation damper closure times only.
6.
The provisions of Specification 4.0.4 are not applicable for entry into MODE 3.
7.
Include HV4762 and HV4763 following implementation of DCP 195J.
8.
Prior to completion of DCP 6234, valve closure is manually initiated.
following completion of DCP 6234, valves are to close automatically on a RAS coincident with a high-high containment sump signal.
9.
Response time is for step voltage loss from nominal voltage to 0.0 volts.
Emergency diesel generator starting delay (10 seconds) and sequence loading delays for SIAS are included.
Emergency diesel generator starting delay (10 seconds) is included.
SAN ON0FRE - UNIT 3 3/4 3-30 AMENDMENT NO.
TABLE 4.3-2 (Continued)
ENGINEERED SAFETY FEATURES ACTUATION-SYSTEM INSTRUMENTATION' SURVEILLANCE REQUIREMENTS m
CHANNEL --
MODES FOR WHICH 3E CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE g
FUNCTIONAL UNIT CHECK CALIBRATION TEST-IS REQUIRED o
i j
7.
LOSS OF POWER (LOVS, SDVS, or DGVSS) a.
4.16 kV Emergency Bus Undervoltage (Loss of c5 Voltage)
S (6)
(6) 1, 2, 3, 4 w
b.
4.16 kV Emergency Bus Undervoltage (Degraded l
Voltage)
S (6)
(6) 1, 2, 3, 4 -
8.
Manual (Trip Buttons)
N.A.
N.A.
(6) 1, 2, 3 l
b.
SG Level (A/B) -Low and AP (A/B) -High S
(6)
Q 1, 2, 3 c.
SG Level (A/B) - Low!and No w2 Pressure - Low Trip (A/B)
S (6)
Q 1, 2,'3 d.
Automatic Actuation Logic
-N.A.
N.A.
Q(3),SA(4) 1, 2, 3 w
9.
CONTROL ROOM ISOLATION (CRIS) a.
Manual CRIS (Trip Buttons)
N.A.
N.A.
R
-N.A.
b.
Manual SIAS (Trip Buttons)
N.A.
N.A.
R N.A.
c.
CohtVol; Room Airborne Radiation l'
~"Pd6 e/ m e
-S R
M m
ii.
Gaseous S
R M
All d.
Automatic Actuation! Logic N.A N.A.
R(3)
All l
- 10. T0XIC GAS ISOLATION (TGIS) a.
Manual (Trip-Buttons)
N.A.
N.A.
R N.A.
3; b.
Chlorine - High S
R M
All m
c.
Ammonia --High S
R M
All-5 d.
Butane / Propane - Hi.gh S
R M-All d.
Automatic Actuation Logic N.A N.A.
R(3)
All 5
TABLE 4.3-2 (Continued) z g
ENGINEERED SAFETY FEATURES ACTUATION SYSTEM INSTRUMENTATION SURVEILLANCE REQUIREMENTS 2
CHANNEL MODES FOR WHICH CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE FUNCTIONAL UNIT CHECK CALIBRATION TEST
_{S REQUIRED Z
II. FUEL HANDLING ISOLATION (FHIS) w a.
Manual (Trip Buttons)
N.A.
N.A.
R N.A.
b.
Airborne Radiation
- i. Gaseous S
R M
c.
Automatic Actuation Logic N.A.
N.A.
R(3)
- 12. CONTAINMENT PURGE ISOLATION (CPIS) a.
Manual (T.r.ip Buttons)
N.A.
N.A.
(6)
N.A.
b.
Contalhment Airborne Radiation
~
i i.
^ Gaseous S
(6)
M 1,2,3,4,6 w
ii.
Particulate W
(6)
M 1,2,3,4,6 1
iii. Iodine W
(6)
M 6
w c.
Centainment Arca-Radiatica la (Cam =) Deleted S
(S)
M 1,3,3,4,6 d.
AutomatTc" Actuation Logic N.A.
N.A.
(3), (6) 1,2,3,4,6 TABLE NOTATION (1) Deleted.
(2) Deleted.
(3) Testing of Automatic Actuation Logic shall include energizatior/de-energization of each initiation relay and verification of the OPERABILITY of each initiation relay.
(4) A subgroup relay test shall be performed which shall include the energization/de-energization of each'
- g-subgroup relay and verification of the OPERABILITY of each subgroup relay.
Relays exempt from testing during plant operation shall be limited to only those relays associated with plant equipment which G
cannot be operated during plant operation.
Relays not testable during plant operation shall be tested ih during each COLD SHUTDOWN exceeding 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> unless tested during the previous 6 months.
5 (5) Actuated equipment only; does not result in CIAS.
2 P
(6) At least once per Refueling Interval.
j l
With irradiated fuel in the storage pool.
l TABLE 3.3-6 RADIATION MONITORING INSTRUMENTATION MINIMUM
- g CHANNELS 5.PPLICABLE ALARM / TRIP MEASUREMENT m
INSTRUMENT OPERABLE MODES
_SETPOINT RANGE' ACTION c:
- 1. Area Monitors E5 8
a.
Containment - High 2
1,2,3 10 R/hr 1-10 R/hr 18,J18a-Range 4
10 R/hr 19 m
(3RT-7820-1 and 3RT-7820-2) b.
Containment Purge?Delet'ed 1
1, 2, 3, '
f 10d-FO! nR/hr 17
"~~~""~~
-1sclation S
?
17b (3RI 7055 1 ^r 3RI 7S57 3) c.
Main Steam Line 1/line 1, 2,.3 1 mR/hr (low);10'l-10' mR/hr; 18 A channel consists of 1 R/hr (high) ig 3RT-7874A and 3RT-7875A or 4
1 mR/hr (low);
19 e=
3RT-7874B and 3RT-7875B 1 R/hr (high) w E>
- 2. Process Monitors a.
Fuel Storage Pool Airborne (3RT-7822-1 or 3RT-7823-2)-
1 7
- i. Gaseous-1 10 -10 cpm 16 b.
Containment Airborne (3RT-7804-1 or 3RT-7807-2) 1 7
i.
Gaseous 1
1,2,3,4 10 -10 cpm 17a 6
17b 2
7 ii.
Particulate 1
1,2,3,4 10 -10 cpm 17a 6
17b 1
7 LlE iii.
Iodine 1
6 10 -10 cpm 17b z
E c.
Control Room Airborne E2 (2/3 RT-7824-1 or 2/3 RT-7825-2) 1 7
i.l Particulate / Iodine 1
'All 10 -10 cpm 13 1
7
'.!5 ii.' Gaseous 1
All 10 -10 cpm 13 i
....-~.-w.
- -.,..,,,....~ -
y 50 TABLE 4.3-3
.x RADIATION MONITORING INSTRUMENTATION SURVEILLANCE REOUIREMENTS
-8 A
CHANNEL ~
MODES FOR-WHICH c
CHANNEL CHANNEL FUNCTIONAL SURVEILLANCE j".
INSTRUMENT CHECK CALIBRATION TEST IS REQUIRED j
1.
Area Monitors a.
Containment - High Range S
(2)
M-1,2,3,4
~
(3RT-7820-1,3RT-7820-2) b.
Containment Purg I:cl tica S
(2)
M 1, 2, 3, i, 5 (3RT78551,3RT7S57-2fDe,let~ed u,
c.
R M
1,2,3,4 2:
(3RT-7874A, 3RT-7875A, 3RT-78748,3RT-78758) u, L,
2.
Process Monitors a.
Fuel Storage Pool Airborne (3RT-7822-1,3RT-7823-2) 1.
Gaseous b.
Containment Airborne (3RT-7804-1,3RT-7807-2) i.
Gaseous 1,2,3,4,6 ii.
Particulate 1,2,3,4,6 3;
iii.
Iodine 6
9 gg c.
Control Room Airborne gg (2/3RT-7824-1, 2/3RT-7825-2)
-4 jg i.
Particulate All ii. Gaseous All
+
~
p ENCLOSURE 2 POST TECHNICAL SPECIFICATIONS IMPROVEMENT PROGRAM (PCN-299)
SPECIFICATIONS AND PCN-405 k
[
i i
1 l
l 4
/
~
i l
1 i
i l
i l
ATTACHMENT "E" EXISTING SPECIFICATIONS i
UNIT 2 x
CPIS 3.3.8 i
3.3' INSTRUMENTATION l
3.3.8 Containment Purge Isolation Signal (CPIS) l LC0 3.3.8 One CPIS channel shall be OPERABLE.
l APPLICABILITY:
' MODES 1,'2, 3, and 4 During CORE ALTERATIONS, During movement of irradiated fuel assemblies within containment.
NOTE----------------------------
Only required when the penetration is not isolated by appropriate closed and de-activated automatic valve (s),
closed manual valve (s), or blind flange (s).
t ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME I
A.
CPIS Actuation Logic, A.I Enter _ applicable Immediately or one or more Conditions and required channels of Required Actions for containment area affected valves of radiation monitors LC0 3.6.3, j
inoperable in MODES 1,
" Containment 1
2, 3, and 4.
Isolation Valves,"
made inoperable by l
CPIS instrumentation.
B.
Required Action and B.I Be in MODE 3.
6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> associated Completion Time not met in ANJ MODE 1, 2, 3, or 4.
B.2 Be in MODE 5.
36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> j
(continued) l SAN ON0FRE--UNIT 2 3.3-35 AMENDMENT'NO.
1
CPIS 3.3.8 ACTIONS (continued)
CONDITION REQUIRED ACTION COMPLETION TIME C.
One or more require.d C.1 Enter applicable Immediately channels of airborne conditions and radiation monitors required actions of inoperable in MODES 1, LC0 3.4.15, "RCS Leak 2, 3, and 4 Detection."
.____.....-NOTE------------
D.
CPIS Manual Trip, The provisions of LC0 3.0.3 Actuation Logic, or are not applicable.
one or more required channels of radiation D.1 Place and maintain Immediately monitors inoperable containment purge during CORE supply and exhaust ALTERATIONS or valves in closed movement of irradiated position.
fuel assemblies within containment.
08 D.2.1 Suspend CORE Immediately ALTERATIONS.
AND D.2.2 Suspend movement of Immediately irradiated fuel assemblies in containment.
SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.3.8.1 Perform a CHANNEL CHECK on required 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> containment area and gaseous radiation 1
monitor channel.
(continued)
SAN ON0FRE--UNIT 2 3.3-36 AMENDMENT N0.
CPIS 3.3.8 SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY SR 3.3.8.2
NOTE--------------------
This SR is applicable in MODES 1, 2, 3, and 4 only.
Perform a CHANNEL FUNCTIONAL TEST on each 92 days required containment radiation monitor channel. Verify setpoint Allowable Value is in accordance with the following:
Containment Gaseous Monitor: 5 2X background Containment Area Gamma Monitor: 5 340 mR/hr SR 3.3.8.3
NOTE--------------------
This SR is only applicable during CORE ALTERATIONS or during movement of irradiated fuel assemblies within containment.
Perform a CHANNEL FUNCTIONAL TEST on 92 days required containment radiation monitor channel. Verify setpoint Allowable Value is in accordance with the following:
Containment Gaseous Monitor: 5 2X background Containment Area Gamma i
Monitor: 5 2.S mR/hr (continued)
SAN ONOFRE--UNIT 2 3.3-37 AMENDMENT NO.
t SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY SR 3.3.8.4
NOTE--------------------
Surveillance of Actuation Logic shall include the actuation of each initiation L
relay and verification of the proper l
operation of each initiation relay.
Perform a CHANNEL FUNCTIONAL TEST on 24 months required CPIS Actuation Logic channel.
SR 3.3.8.S Perform a CHANNEL CALIBRATION on required 24 months containment radiation monitor channel.
SR 3.3.8.6 Verify that response time of required CPIS 24 months channel is within limits.
i SR 3.3.8.7 Perform CHANNEL FUNCTIONAL TEST on required 24 months CPIS Manual Trip channel.
i SAN ON0FRE--UNIT 2 3.3-38 AMENDMENT N0.
CRIS 3.3.9 3.3 INSTRUMENTATION 3.3.9 Control Room Isolation Signal (CRIS)
LC0 3.3.9 One CRIS channel shall be OPERABLE.
APPLICABILITY:
MODES I, 2, 3, 4, 5, and 6, During movement of irradiated fuel assemblies.
ACTIONS
_________________.N0TE-----------------------------
The provisions of LC0 3.0.3 are not applicable.
CONDITION REQUIRED ACTION COMPLETION TIME A.
CRIS Manual Trip, A.1
NOTE---------
Actuation Logic, or Place Control Room one required channel Emergency Air Cleanup of particulate / iodine System (CREACUS) in or gaseous radiation isolation mode if monitors inoperable in automatic transfer to MODE 1, 2, 3, or 4.
isolation mode j
Place one CREACUS I hour train in emergency i
mode.
(continued)
SAN ONOFRE--UNIT 2 3.3-39 AMENDMENT NO.
i n
i I
CRIS 3.3.9 1
ACTIONS (continued)
CONDITION REQUIRED ACTION COMPLETION TIME B.
CRIS Manual Trip, B.1
NOTE---------
)
Actuation Logic, or Place CREACUS in required particulate /
isolation mode if J
iodine or gaseous automatic transfer to i
radiation monitors isolation mode inoperable in MODE 5 inoperable.
or 6, or during movement of irradiated fuel assemblies.
Place one CREACUS Immediately train in emergency mode.
OE B.2.1 Suspend movement of Immediately irradiated fuel assemblies.
AND B.2.2 Suspend positive Immediately reactivity additions.
SURVEILLAl;CE REQUIREMENTS SilRIblLANCE FREQUENCY SR 3.3.9.I Perform a CHANNEL CHECK on the required I2 hours control room radiation monitor channel.
(continued) 1 1
SAN ON0FRE--UNIT 2 3.3-40 AMENDMENT NO.
CRIS 3.3.9 SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY
)
SR 3.3.9.2 Perform a CHANNEL FUNCTIONAL TEST on 92 days required CRIS radiation monitor channel.
Verify CRIS high radiation setpoint is s 4E2 cpm above normal background.
NOTE-------------------
Surveillance of Actuation Logic shall include the verification of the proper operation of each initiation relay.
Perform a CHANNEL FUNCTIONAL TEST on 18 months required CRIS Actuation Logic channel.
SR 3.3.9.4 Perform a CHANNEL CALIBRATION on required 18 months CRIS radiation monitor channel.
SR 3.3.9.5 Perform a CHANNEL FUNCTIONAL TEST on 18 months required CRIS Manual Trip channel.
l SAN ONOFRE--UNIT 2 3.3-41 AMENDMENT N0.
('
r-ATTACHMENT "F" EXISTING SPECIFICATIONS UNIT 3 J
m-.
-~ - - - ~
i CPIS 3.3.8 3.3 INSTRUMENTATION 3.3.8 Containment Purge Isolation Signal (CPIS)
LC0 3.3.8 One CPIS channel shall be OPERABLE.
APPLICABILITY:
MODES 1, 2, 3, and 4, During CORE ALTERATIONS, During movement of irradiated fuel assemblies within containment.
_________________________---NOTE----------------------------
Only required when the penetration is not isolated by appropriate closed and de-activated automatic valve (s),
closed manual valve (s), or blind flange (s).
ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A.
CPIS Actuation Logic, A.1 Enter applicable Immediately or one or more Conditions and required channels of Required Actions for containment area affected valves of radiation monitors LC0 3.6.3, inoperable in MODES 1,
" Containment 2, 3, and 4.
Isolation Valves,"
made inoperable by CPIS instrumentation.
B.
Required Action and B.1 Be in MODE 3.
6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> associated Completion Time not met in AND MODE 1, 2, 3, or 4.
B.2 Be in MODE 5.
36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> (continued)
SAN ON0FRE--UNIT 3 3.3-35 AMENDMENT NO.
CPIS 3.3;8 I
ACTIONS (continued) j CONDITION REQUIRED ACTION-COMPLETION TIME' C.
One or more required C.1 Enter applicable Immediately channels of airborne conditions and radiation monitors required actions of i
inoperable in MODES 1, LC0 3.4.15, "RCS Leak 2, 3, and 4 Detection."
j
NOTE------------
l D.
CPIS Manual Trip, The provisions of LC0 3.0.3 Actuation Logic, or are not applicable.
t one or more required channels of radiation D.1 Place and maintain Immediately monitors inoperable containment purge during CORE supply and exhaust ALTERATIONS or valves in closed r
movement of irradiated position.
fuel assemblies within containment.
OJ D.2.1 Suspend CORE Immediately ALTERATIONS.
AND l
D.2.2 Suspend movement of Immediately irradiated fuel assemblies in containment.
SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY l
SR 3.3.8.1 Perform a CHANNEL CHECK on required 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> I
containment area and gaseous radiation monitor channel.
l l
(continued) 4 SAN ONOFRE--UNIT 3 3.3-36 AMENDMENT NO.
i I
CPIS 3.3.8 SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY SR. 3.3.8.2
NOTE--------------------
This SR is applicable in MODES 1, 2, 3, and 4 only.
Perform a CHANNEL FUNCTIONAL TEST on each 92 days required containment radiation monitor channel.
Verify setpoint Allowable Value is in accordance with the following:
Containment Gaseous Monitor: 5 2X background Containment Area Gamma Monitor: 5 340 mR/hr SR 3.3.8.3
NOTE--------------------
This SR is only applicable during CORE ALTERATIONS or during movement of irradiated fuel assemblies within containment.
Perform a CHANNEL FUNCTIONAL TEST on 92 days required containment radiation monitor channel. Verify setpoint Allowable Value is in accordance with the following:
Containment Gaseous Monitor: 5 2X background l
Containment Area Gamma Monitor: 5 2.5 mR/hr (continued) i SAN ONOFRE--UNIT 3 3.3-37 AMENDMENT NO.
CPIS 3.3.8 SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY SR 3.3.8.4
NOTE--------------------
Surveillance of Actuation Logic shall include the actuation of each initiation relay and verification of the proper operation of each initiation relay.
Perform a CHANNEL FUNCTIONAL TEST on 24 months required CPIS Actuation Logic channel.
SR 3.3.8.5 Perform a CHANNEL CALIBRATION on required 24 months containment radiation monitor channel.
SR 3.3.8.6 Verify that response time of required CPIS 24 months channai is within limits.
Sd 3.3.8.7 Perform CHANNEL FUNCTIONAL TEST on required 24 months CPIS Manual Trip channel.
SAN ON0FRE--UNIT 3 3.3-38 AMENDMENT NO.
CRIS 3.3.9 3.3 INSTRUMENTATION 3.3.9 Control Room Isolation Signal (CRIS)
LCO 3.3.9 One CRIS channel shall be OPERABLE.
APPLICABILITY:
MODES 1, 2, 3, 4, 5, and 6, During movement of irradiated fuel assemblies.
ACTIONS
NOTE-----------------------------
The provisions of LC0 3.0.3 are not applicable.
CONDITION REQUIRED ACTION COMPLETION TIME A.
CRIS Manual Trip, A.1
NOTE---------
Actuation Logic, or Place Control Room one required channel Emergency Air Cleanup of particulate / iodine System (CREACUS) in or gaseous radiation isolation mode if monitors inoperable in automatic transfer to MODE 1, 2, 3, or 4.
isolation mode inoperable.
Place one CREACUS 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> train in emergency mode.
(continued)
SAN ONOFRE--UNIT 3 3.3-39 AMENDMENT NO.
i i
CRIS 3.3.9 ACTIONS (continued)
CONDITION REQUIRED ACTION COMPLETION TIME B.
CRIS Manual Trip, B.1
NOTE-----
Actuation Logic, or Place CREACUS in required particulate /
isolation mode if iodine or gaseous automatic transfer to radiation monitors isolation mode inoperable in MODE 5 inoperable.
or 6, or during movement of irradiated fuel assemblies.
Place one CREACUS Immediately train in emergency mode.
og B.2.1 Suspend movement of Immediately irradiated fuel assemblies.
AND B.2.2 Suspend positive Immediately reactivity additions.
SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.3.9.1 Perform a CHANNEL CHECK on the required 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> control room radiation monitor channel.
(continued)
SAN ONOFRE--UNIT 3 3.3-40 AMENDMENT NO.
I CRIS 3.3.9 SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY SR 3.3.9.2 Perform a CHANNEL FUNCTIONAL TEST on 92 days required CRIS radiation monitor channel.
Verify CRIS high radiation setpoint is 5 4E2 cpm above normal background.
NOTE-------------------
Surveillance of Actuation Logic shall include the verification of the proper operation of each initiation relay.
Perform a CHANNEL FUNCTIONAL TEST on 18 months required CRIS Actuation Logic channel.
SR 3.3.9.4 Perform a CHANNEL CALIBRATION on required 18 months CRIS radiation monitor channel.
SR 3.3.9.5 Perform a CHANNEL FUNCTIONAL TEST on 18 months required CRIS Manual Trip channel.
SAN ON0FRE--UNIT 3 3.3-41 AMENDMENT N0.
t 9
ATTACHMENT "G" PROPOSED SPECIFICATIONS l
Unit 2 I
.l 1
.1 CPIS' 3.3.8 3.3 INSTRUMENTATION 3.3.8 Containment Purge Isolation Signal (CPIS) l LC0- 3.3.8 One CPIS channel shall be OPERABLE.
APPLICABILITY:
MODES 1, 2, 3, and 4, During CORE ALTERATIONS, During movement of irradiated fuel assemblies within j
containment.
NOTE----------------------------
Only required when the penetration is not isolated by appropriate closed and de-activated automatic valve (s),
closed manual valve (s), or blind flange (s).
1 1
ACTIONS l
CONDITION REQUIRED ACTION COMPLETION TIME
}
l i
A.
CPIS Actuation Logic, A.I Enter applicable Immediately or one or more Conditions and i
required channels of Required Actions for containment wea affected valves of airborne radiation LC0 3.6.3, nidMtops inoperable in
" Containment l
MODES 1, 2, 3, and 4.
Isolation Valves,"
made inoperable by l
CPIS instrumentation.
+
2 B.
Required Action and B.1 Be in MODE 3.
6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> j
associated Completion Time not met in AND
{
MODE 1, 2, 3, or 4.
B.2 Be in MODE 5.
36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> l
t (continued) j J
SAN ON0FRE--UNIT 2 3.3-35 AMENDMENT NO.
l 4
CPIS 3.3.8
]
ACTIONS (continued)
CONDITION REQUIRED ACTION COMPLETION TIME C.
One or more required C.1 Enter applicable-Immediately channels of conditions and containnsnt? airborne required actions of l
Pudi~at'ibrimonitors LCO 3.4.15, "RCS Leak inoperable in MODES 1.
Detection."
2, 3, and 4 i
NOTE------------
D.
CPIS Manual. Trip, The provisions of LC0 3.0.3 Actuation Logic, or are not applicable.
l one or more required channels of D.1 Place and maintain Immediately containm6nt hirbbrns containment purge l
Fadiatidd'nionitor5~^
supply and exhaust inoperable during CORE valves in closed ALTERATIONS or position.
movement of irradiated fuel assemblies within E
containment.
-l D.2.1 Suspend CORE Immediately l
ALTERATIONS.
i i
AND l
D.2.2 Suspend movement of Immediately irradiated fuel assemblies in i
containment.
SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.3.8.I Perform a CHANNEL CHECK on required 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> containment area =d g:secusgffb6rne l
radiation monitor channel.
1 (continued)
SAN ON0FRE--UNIT 2 3.3-36 AMENDMENT N0.
i m
t CPIS.
3.3.8 SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY f
SR 3.3.8.2 "0TE T. k.. t.,. e n..
- 4.,
.--,.4.,k,..-
- 4.. u,,nn e.e i.,
.e, e
rr vum
==A A
.m, a.. l..o, i
Perform a CHANNEL FUNCTIONAL TEST on each 92 days required containment ifrborne radiation monitor channel.
Veriff"tripsetpoint Alle :ble " 'uc is in acc6Fdance with the following:
Containment C::ccus AirbdFni?Ridfiti6ii Monitor:5 2X backgr:End highitoipeVsht[spdfibils(setisufficisntly s uffi ci entlyfl'ow stofas supsf an f al aF#ps fyet f alarms /tri i
should[ar6w:na.dveFten.in:ms.mttreleseloccurf~^"p" tvi i
v' - x - :nx wa v: a anonw<>.a.
m~
s>&.u:
e.v i 5.s 4 s ssi 4
m, A-m, t' -
4 us w ru wu u usissia
. A, n D / k m Ma Jem..
c n
CRIS 3.3.9 ACTIONS (continued)
CONDITION REQUIRED ACTION COMPLETION TIME B.
CRIS Manual Trip, B.1
NOTE---------
Actuation Logic, or Place CREACUS in i
required-paet4eulate/
isolation mode if
]
4cdinc cr gasecus automatic transfer to control 1 room ^a'irborne isolation mode radiation ~inonitors inoperable.
inoperable in MODE 5 or 6, or during movement of irradiated Place one CREACUS Immediately fuel assemblies.
train in emergency mode.
OR B.2.1 Suspend movement of Immediately irradiated fuel assemblies.
AND B.2.2 Suspend positive Immediately reactivity additions.
SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.3.9.1 Perform a CHANNEL CHECK on the required 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> control room 'airbornetradiation monitor channel.
(continued)
SAN ONOFRE--UNIT 2 3.3-40 AMENDMENT N0.
m r
i CRIS 3.3.9-i SURVEILLANCE REQUIREMENTS (continued) l SURVEILLANCE FREQUENCY
-SR 3.3.9.2 Perform a CHANNEL FUNCTIONAL TEST on 92 days required CRIS WirboFrid radiation monitor
.l
" " " " " ~
el.
i Verify CRIS high radiation setpoint is 5 ?E2 cp: Ob:;; : rma' b :kgrc=d754t' isffi6ient1V41ghitWiWiVsntEsiisFi6ss slarms/tripssstnuffiiftsntlyllent6isisEFi aifil arWtri pito%f s01 atiitherc6nts1W6ci" f66shabitstiil;ftysdurisglandifollbeis ~~~
f4jjentjephytisnsP "~~~ ~g~
NOTE-------------------
Surveillance of Actuation Logic shall include the verification of the proper operation of each initiation relay.
Perform a CHANNEL FUNCTIONAL TEST on 18 months required CRIS Actuation Logic channel.
SR 3.3.9.4 Perform a CHANNEL CALIBRATION on required 18 months CRIS hj%opi radiation monitor channel.
l i
SR 3.3.9.5 Perform a CHANNEL FUNCTIONAL TEST on 18 months required CRIS Manual Trip channel.
i i
l 1
1 SAN ON0FRE--UNIT 2 3.3-41 AMENDMENT N0.
i
s ATTACHMENT "H" i
PROPOSED SPECIFICATIONS Unit 3 I
l l
i
CPIS-l 3.3.8 l
l l
.3.3 INSTRUMENTATION l
3.3,8 Containment Purge Isolation Signal (CPIS)
One CPIS channel shall be OPERABLE.
APPLICABILITY:
MODES 1, 2, 3, and 4, During CORE ALTERATIONS, During movement of irradiated fuel assemblies within containment.
_____._______.....-N0TE-----------------------------
Only required when the penetration is not isolated by appropriate closed and de-activated automatic valve (s),
closed manual valve (s), or blind flange (s).
ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A.
CPIS Actuation Logic, A.1 Enter applicable Immediately or one or more Conditions and required channels of Required Actions for containment-erea affected valves of airborne radiation LC0 3.6.3, monitors inoperable in
" Containment MODES 1, 2, 3, and 4.
Isolation Valves,"
made inoperable by CPIS instrumentation.
B.
Required Action and B.1 Be in MODE 3.
6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> associated Completion Time not met in AND MODE 1, 2, 3, or 4.
B.2 Be in MODE 5.
36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> (continued)
SAN ON0FRE--UNIT 3 3.3-35 AMENDMENT NO.
CPIS 3.3.8 ACTIONS (continued)
CONDITION-REQUIRED ACTION COMPLETION TIME t
C.
One or more required C.1 Enter applicable Immediately channels of conditions and Wontainment airborne' required actions of l
FAdfition" monitors LCO 3.4.15, "RCS Leak inoperable in MODES 1, Detection."
2, 3, and 4
NOTE------------
D.
CPIS Manual Trip, The provisions of LC0 3.0.3 Actuation Logic, or are not applicable.
one or more required channels of D.1 Place and maintain Immediately containment!airboFns containment purge l
fadfat' ion"monitbFi" supply and exhaust I
inoperable during. CORE valves in closed i
ALTERATIONS.or position.
movement of irradiated i
fuel assemblies within og containment.
D.2.1 Suspend CORE Immediately ALTERATIONS.
AND D.2.2 Suspend movement of Immediately irradiated fuel assemblies in containment.
l l
SVRVEILLANCE REQUIREMENTS SVRVEILLANCE FREQUENCY SR 3.3.8.1 Perform a CHANNEL CHECK on required 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> containment. crc; ar.d gasecus airborni l
radiation monitor channel.
(continued) i SAN ONOFRE--UNIT 3 3.3-36 AMENDMENT N0.
. =.
CPIS 3.3.8 SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY a
i SR 3.3.8.2 "0TE T, u, 4,,,
.e n, 4..
u r y. 4 s, u.,. a
- 4...u.nn E.e,
- i.,
S, S,
u 1
_A A,
,a,,,,m,.
y
....s.
Perform a CHANNEL FUNCTIONAL TEST on each 92 days required containment hirbornd radiation i
monitor channel.
Verifftdpsetpoint i
Alle=ble " 1ue is in accb?dsnce with the following:
I i
Containment 0 :ccu: AiFbbfnsiRidiation i
Monitor " '--' riinMetlisffihiently high? tdThirsilintVspupibsils) ams/tFipsliyst suffisisntl.y-}lo its.[ai -
esoccur shou. l.d. <i, an%./.in,g a..dvs ten.t...suEel..sh, i,ali.pWt_ hip er ireleas.
y g
y ggf. Ypg f,
..g,<..
-4
.. g y.
g;,,g, t u 1
P a,4. 4, m
,a m. e b Am.
P.
e
. br 3 bu t arr w T13 hu Le uuuuuus a M..a
- 4. e.a. -
S. A A.,
..n,,/ k,,
i
.e, n, S.S.u.S M.AT. E
.o s
This cR is caly applicable during CORE r i u. E Du i s. nu e At T A?f A..
4,mm.m. a n a - a.. e.
.a t.
am a.
vii w vi uus s sy w w w
>>w 4 m m, A4.4 A taal us, L14m,._. 4 4 L, 4,
ei uw,ussu i ww w.iru ivs 1,
a v.
i.
c cr,t c i n=c r,t.
Dam.f,,a, m.
P. U...A.M..M.. E t E. l.lM.P.T. T. AM...A.1 T. E C,T.
a,,,
n,,S A%ue
. m
... u
- s. u.r.,
required cor.tair. cr,t r:diaticr. =cr.itor channel.
Verify act:cint Alle=bic Value is in acccrdance wit; the fellcwing:
ca_+ a...-_+
r,, a a...,
....u......w
.un 4+am.
- Sv n, a ca ma... A mu.,
.u.
vv 1 vvi.
an uusrsys v u. u Centain=cnt Arca C:=:
.Mam44
- S. E, D,f s u s e
/km svis e 6 v s s.
surs t
(continued)
P i
i i
SAN ONOFRE--UNIT 3 3.3-37 AMENDMENT N0.
2
r
)
CPIS i
3.3.8 SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY 3
l 1
SR 3.3.8. 1
NOTE--------------------
Surveillance of Actuation Logic shall include the actuation of each initiation relay and verification of the proper operation of each initiation relay.
Perform a CHANNEL FUNCTIONAL TEST on 24 months required CPIS Actuation Logic channel.
4 SR 3.3.8. Perform a CHANNEL CALIBRATION on required 24 months i
containment airborne radiation monitor g
5 SR 3.3.8. Verify that response time of required CPIS 24 months channel is within limits.
6 l
SR 3.3.8. 7 Perform CHANNEL FUNCTIONAL TEST on required 24 months CPIS Manual Trip channel.
i SAN ON0FRE--UNIT 3 3.3-38 AMENDMENT NO.
CRIS 3.3.9 3.3 INSTRUMENTATION 3.3.9 Control Room Isolation Signal (CRIS)
LCO 3.3.9 One CRIS channel shall be OPERABLE.
APPLICABILITY:
MODES 1, 2, 3, 4, 5, and 6, During movement of irradiated fuel assemblies.
ACTIONS
---NOTE-----------------------------
The provisions of LC0 3.0.3 are not applicable.
CONDITION REQUIRED ACTION COMPLETION TIME A.
CRIS Manual Trip, A.1
NOTE---------
Actuation Logic, or Place Control Room one required channel Emergency Air Cleanup ofparticulatc/icdir.c System (CREACUS) in ee-gaseous control _
isolation mode if room 1 airborne automatic transfer to radiation monitors isolation mode inoperable in MODE 1, inoperable.
2, 3, or 4.
Place one CREACUS 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> train in emergency mode.
(continued) 4 SAN ON0FRE--UNIT 3 3.3-39 AMENDMENT NO.
i i
l
g CRIS 3.3.9 ACTIONS (continued)
CONDITION REQUIRED ACTION COMPLETION TIME B.
CRIS Manual Trip, B.I
NOTE---------
Actuation Logic, or Place CREACUS in required pat 4icuhtc/
isolation mode if iodinc cr gesecus automatic transfer to controliroom~ airborne isolation mode Fadiatidii'moriitors" inoperable.
inoperable in MODE 5 or 6, or during movement of irradiated Place one CREACUS Immediately fuel assemblies.
train in emergency mode.
OR B.2.1 Suspend movement of Immediately irradiated fuel assemblies.
AND B.2.2 Suspend positive Immediately reactivity additions.
SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY SR 3.3.9.1 Perform a CHANNEL CHECK on the required 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> control room airborne radiation monitor l
channel.
(continued)
SAN ON0FRE--UNIT 3 3.3-40 AMENDMENT N0.
r CRIS 3.3.9 I
SURVEILLANCE REQUIREMENTS (continued)
SURVEILLANCE FREQUENCY SR 3.3.9.2 Perform a CHANNEL FUNCTIONAL TEST'on 92 days requiredCRISiirbyphyradiationmonitor l
channel.
Verify CRIS high radiation setpoint is E 4E2 cpm bove normal back rcund[sst puffi?iehtlj7hish]tb?ppepen5?ipiif f ou;s al arms /tri ps} yet9u ffici ently110wito fkissFi anhalarnVtrip;ity/durinto3isolatsithe M6h &ol % s!"
fobhabitabil.
de. n tn.i.ond, i t,i 6n C'g $ndifol l owi ns""~~
~ '"*" """ ~
acci u.
NOTE-------------------
Surveillance of Actuation Logic shall include the verification of the proper operation of each initiation relay.
Perform a CHANNEL FUNCTIONAL TEST on 18 months required CRIS Actuation Logic channel.
SR 3.3.9.4 Perform a CHANNEL CALIBRATION on required 18 months l
CRISiirbof((radiationmonitorchannel.
l i
SR 3.3.9.5 Perform a CHANNEL FUNCTIONAL TEST on 18 months required CRIS Manual Trip channel, t
i i
l SAN ON0FRE--UNIT 3 3.3-41 AMENDMENT NO.
L