ML20106D463
| ML20106D463 | |
| Person / Time | |
|---|---|
| Site: | Beaver Valley |
| Issue date: | 03/13/1992 |
| From: | DUQUESNE LIGHT CO. |
| To: | |
| Shared Package | |
| ML20106D461 | List: |
| References | |
| NUDOCS 9210090393 | |
| Download: ML20106D463 (185) | |
Text
..
DUQUESNE LIGHT COMPANY Beaver Valley Power Station Unit 1 INSERVICE TESTING (IST) PROGRAM FOR PUMP AND VALVES O
issue 2 Revision 8 Pagesissued OSC Review Date Effective Date
/
? -77. -
2 3'(/ - 9 T ( ~
Unit Operations Manager Review /Date
/-/8
/6-FA
) /0 SNM' Approved by Date 9210090393 920925 PDR ADOCK 05000334 P.
s nour Station Unit 1 issue 2 Beaver Valley Revision 8 INSERVICE TESilNG (IST) PROGRAM FOR PUMPS AND VALVES Page i List of Effective Pages Page Revision Page Revision i
8 40 8
o 8
41 8
in 8
42 8
iv 8
43 8
1 8
44 8
2 8
45 8
3 8
46 8
4 8
47 8
5 8
48 8
6 8
49 8
7 8
50 8
8 8
51 8
9 8
52 8
10 8
53 8
11 8
54 8
12 8
55 8
13 8
56 8
e 14 8
57 8
O 15 8
58 8
16 8
53 8
17 8
60 8
18 8
61 8
19 3
62 8
20 8
63 8
21 8
64 8
3 22 8
65 8
23 8
66 8
24 8
67 8-25 8
68 8
26 8
69 8
27 8
70 8
28 8
71 8
29 8
72 8
30 8
73 8
31 8
74 8
32 8
75 8
33 8
76 8
34 8
77 8
35 8
78 8
36 8
79 8
37 8
80 8
O 38 8
81 8
39 8
82 8
.._.__.=m__m
Beaver Valley Power Station Unit 1 issue 2 Revisica 8 O.-
INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Pageu.j List of Effectivo Pages _(Continued)
Page Revision Page Revision 83 8
126 8
84 8
127 8
85 8
.28 8
83 8
129 8
87 8
130 8
83 8
131 8
89 8
132 8
90 8
133 e
91 8
134 8
92 8
135 8
93 8
136 8
94 8
137 8
95 8
138 8
96 8
139 8
97 8
140 8
's8 8
141 8
99 8
142 8
100 8
143 8
101 8
144 8
102 8
145 8
103 8
146 8
104 8
147 8
'95 8
148 8
'6 8
149 8
iv7 8
150 8
108 8
151 8
109 8
152 8
110 8
153 8
111 8
154 8
112 8
155 8
113 8
156 8
114 8
157 8
115 8
158 8
116 8
159 8
117 8
160 8
118 8
161 8
119 8
162 8
120 8
163 8
121 8
164 8
122 8
165 8
123 8
166 8
O 124 8
167 8
l 125 8
163 8
._, - - - ~ -..
- -. ~. - - - -
.----_..-w--.-
sA Beavor Valley Power Station
. Unit 1 -
_ issue ?
Revisior,. 8
'l l: INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND val.VES
-Page ui-j List of Effective Pages (Continued)
LPage
- Revision Page
. Revision 169 8
170 8
171 8
172 8
173 8
i' 174 8
l 175 8
4 -
176 8
[
177 8
178 8
l 179 8
l 180 8
r.
i l
f 6
O t
n
('-
7 3
^m'e r
4 t-wr-w-
m-www
+
'misv
'=
-ww an#t wra w-1iv-u--w-w'www w
er' v-vty
--iM+-'y
-e-yw p rw1 fM-0C We
-'r*
O
.. -..,.... =.
. Beaver Valley P. wer Station.
Unit i Issue 2'
' Revision 8
-lNSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page tv--
TABLE OF CONTENTS SECTION I:
PUMP TESTING REQUIREMENTS 1_
SECTION ll:
PUMP TESTING OUTLINES,
SECTION lil:
PUMP TESTING RELIEF REQUESTS 38 SECTION IV:
VALVE TESTING REQUIREMENTS 47 ~
SECTION V:-
VALVE TESTING OUTLINES 54 SECTION VI:
VALVE TESTING COLD SHUTDOWN JUSTIFICATIONS-117 L
l SECTION Vil:
VALVE TESTING RELIEF REQUESTS 137 O-I l
JO
~
o
'T Beave Vahsy Power Station Unit 1
~
Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS-AND VALVES Page ' i of -180.
O SECTION l:
! PUMP TESTING' REQUIREMENTS l L
i r
l.
oO l
II L
.j
'~
-n-,
Beaver Valley Power Station Unit 1 tssue 2 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Revision 8 Page 2 of 180 The Inservice. Test (IST) Program for pumps at Beaver Valley Power Station (BVPS), Unit 1, is based on subsection !WP - Inservice Testing of Pumps of the ASME Boiler and Pressure Vessel Code,Section XI,1983 ocition through the summer 1983 addenda (the code) and Generic Letter 89-04, " Guidance on Developing Acceptable Inservice Testing Programs" The pumps included in this program are all ASME " class 1,2 or 3 centrifugal or displacement type pumps that are required to perform a specific function in shutting down the reactor or in mitigating the consequences of an accident, and that are provided with an omeigency power source" at BVPS, Unit 1.
The raquirements of the code will br followed at all times unless specific relief has been greated by the NRC. An inservice test, run quarterly, to measure or observe the test quantities listed in Table IWP-3100-1, below, is required for all pumps in the IST Program by the code.
Table IWP-3100-1 INSERVICE TEST QUANTITIES Quantity Measure observe Speed N (if variable speed)
J Inlet pressure P, J(1)
Differential pressure AP J
Flow rate Q Vibration amptatude V proper lubricant level or pressure J
8 earing temperature T b d
NOTE:
(1) Measure before pump startup and during test.
Table IWP-3100-2 shows the allowable ranges for test results that will be used to determine if corrective action is required following performance of BVPS-1 Surveillance Tests. The test data will be compared to the ranges applied to the reference values for each parameter. If these ranges cannot be met, reduced range limits that allow the pump to fulfill its function will be used in lieu of the ranges given in Table IWP-3100-2.
Table IWP-3100-2 A_L_LOWABLE RANGES OF TEST QUANTITIES Alert Range Required Action Range Test Acceptable
- N Quantity Range Low Values High Values Low Values High Values P,
[ Note (2)]
[ Note (2)]
[ Note (2)]
[ Note (2)]
[ Note (2)]
AP 0 91102AP, 0 90-0 93 AP, 1.021.03 A P,
< 0 90AP,
> 1034P, Q
0 941.02Q, 0 9004Q, 1.021.03Qr
< 0.90Q,
> 103Qr V when 0$V,f0 5 mils 0-1 m#l None 115 mils None
> 1.5 mils V when 0.5 mils <V 2 0 mits 0-2V,mits None 2V e, mils None
> 3V, mils r
r V when 2 0 mils < v,5s O mits 0-(2 + V,) mits None (2 + V H4 + V,) uils None
>(4 + V,)mits r
V when v, > s O mens 0-14v,mits None 1.4v,-1 sV,msis None
>1 BV mits r
T
[ Note (3)]
[ Note (3)]
[ Note (3)]
[ Note (3)]
[ Note (3)]
b NOTES:
(1) see IWP a230.
(2) P, shalt be within the limits specified by owner in the record of tests UWP 6000).
(3) Tb shall be within the limits specified by owner in the record of tests (IWP4000) t h
. Beaver Valley Power Station tJnit 1 Issue 2 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Revision 8 Page 3 of 180 6
Corrective action shall be taken if necessary using the following:
1.
If deviations fcil within the " Alert Range" of Table IWP-3100-2, the frequency of-testing shall be doubled until the cause of the deviation is determined and corrected and either the existing reference values reverified or a new set established.
2.
If the deviations fall within the " Required Action Range
- of Table IWP-3100-2, the pump shall be declared inoperative immediately and an evaluation of the pump's condition with respect to system operability and technical specifications'shall be -
made as follows:
If the inoperable pump is specifically identified in the technical specifications, a.
. then the applicable technical specification action statements must be
- followed, b,
if t m inoperable pump is in a system covered by a technical specification, an assessment of its condition must be made to determine if it makes the system inoperable. If the condition of the pump renders the system inoperable, then the applicable system technical specification action statements must be followed.
Cctrective action shall be either replacement or repair per IWP 3111, or shall c.
be an analysis to demonstrate that the condition does not impair pump operability and that the pump will still fulfill its function. A new set of reference values shall be established after such analysis, d.
Nathing in the ASME Boiler and Pressure Vessel Code shall be construed to supercede the requirements of any technical specification.
3.
When tests show deviations greater than allowed (see Table IWP-3100-2) the
-instruments involved may be recalibrated and the test rerun. This is an alternative to replacement or repair, not an additional action that can be taken before declaring the pump inoperable.
4.
The pump shall not be returned to service until the condition has been corrected.
The corrective action shall be considered completed when a satisfactory inservice test has been conducted in accordance with IWP-3111.
L Per (WP-3500 each pump shall run at least 5 minutes under conditions as stable as the system permits prior to measurement of the specified parameters (when bearing temperature measurements are not required). When bearing temperature measurements are required, each pump shall be run umil the bearing temperatures stabilize prior to -
making the specified measurements. A bearing temperature is considered stable when three successive readings taken at 10 minute intervals do not vary by more than 3%
Bearing temperature measurements are required annually (normally in August).
At certain times plant conditions may preclude returning a pump to the same reference condition for its normally scheduled surveillance. Since IWP 3112 permits the
,L~
_ establishment of additional sets of reference values, a pump curve which is merely a graphical representation of these reference values will be used.
i
?
Beaver Valley Power Station Unit.-
Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 1 of 180 Records of the,results of inservice tests and corrective actions as required by subsection IWP-6000 are trended in tabular form, Pump performance characteristics will be examined-for trenas.
The following two sections of this document are the
- Pump Testing Outlines" and " Pump-Relief Roquests* sections. The "Pumo Testing Outlines
- section is a listing of all the pumps in the IST Program, their testing requirements, and their specific relief request reference numbers. The pumps are arranged according to system and pump mark number. The following abbreviations and designations are used on the Pump Testing Outlines and throughout the IST Program for pumps:
1.
Under Parameter column a.
(N)
- Speed b.
(Pi)
- Inlet Pressure c.
i '\\ P)
- Differential Pressure d.
(Q)
- Flowrate e.
(V)
- Vibration f.
(Tb)
- Bearing Temperature g.
(L)
- Lubricant Level or Pressure 2.
Under 10ST column a.
(1BVT)
- Unit 1 Beaver Valley Test b.
(10ST)
- Unit 1 Operating Surveillance Test c.
(Q)
- Quarterly Test Frequency d.
(A)
- Annual Test Frequency e.
(CSD)
- Cold Shutdown Frequency f.
(R)
- Refueling Test Frequency 9 (NA)
- Not Applicable 3.
Under Req'c! coiurr n i
a.
(RR)
- Relief Request b.
(X)
- Meets or exceeds ASME requirements c.
(E)
- Exempt d.
(NA)
- Not Applicable The ' Pump Relief Requests" section contains the detailed technical description of particular conditions and equipment installations prohibiting the testing of some of the characteristics of safety-related pumps. An alternate test method and the frequency of revised testing is also included to meet the intent of 10CFR50.55a. The relief request (s) for a specific pump is referenced by the number (s) listed on the pump's testing outline sheet.
i
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 5 of 180
, SECTION 11:
PUMP TESTING OUTLINES h
O O
P
?
PUMP TESTING OUTL.lNE Irl y
- e-x o
' Pump Pump Code Dwg. OM No.: 7-1 System: 7 Chemical and Volume Control 5
Name: 1/ Charging Pump Number: ICH-P-1 A Class: 2 Dwg. Coord.: C-4
--4 o
Function: To provide normal RCS inventory and Type: Centrifugal Remarks: See RR1 and RR2 Hi Head Safety injection d
8 S- -
Z
- E O
R Ps'a neter '
10ST R eg'd Comments g
(Frequency) d E
N NA NA Constant speed induction motor.
3 O
1 O
I Pi 7.4 RR2 No installed instrumentation to measure suction pressure Install temporary test gauge at pump 2
l (O) suction (local) or calculate P using VCT level indicator [Lt-1CH-115] and VCT pressure indicator N
j
[PI-1CH-117] or RWST level indicator [Lf-10S-100A], Control Room.
n O
AP 7.4 X
AP is calculated using the pump discharge pressure indicator [PI-1CH-151]. local.
x j
(O) and the calcu!ated Ps. Control Room T
c Q
74 X
Summation of flow rates from RCP Seal injection Flow Indicators [F1-1CH-130]. [F1-1CH-127]
5 (G) and [Fi-1CH-124] or Charging Flow indicator [F1-1CH-122A] and RCS Loop Filt Flow Indicator 3
C
[F1-1CH-160]. Control Rcom, and assumed flow thru minnflow inne.
5:
Z V
74 RR1 Portable monitorir g equipment us#ng velocity units.
O (Os r-Tb NA RR1 Annual pump bearing temperature measurements will not be taken since vebration is measured g
In velocity units.
u)
L 7A X
Lubricant oil filter pressure gauge [F1-1CH-161 A1]. local. Sightglass on oil reservoir, local.
(0) m ra C
O x k __
O 5$
'o=
a 3 o O C0 93 e
e
. O-
p\\
}V
(
BVPS 1 tST E-PUMP TESTING OUTLINE Pump l Pump Code Dwg. OM No.: 7-1 System: 7 Chemical and Volume Control 5
x-o' Ntmc: IB Charging Pump Number: 1CH-P-1 B Class: 2 Dwg. Coord.: D-4
-4 o
Function: To provide normal RCS inventory and Type: Centofugal i Remarks: See PRI and RR2 Hi Head Safety injection w
d 2
Z
- E Parameter 10ST Req'd Comments Q
o (Frequency) g N
NA NA Constant speed induction motor.
~4 m
C
.m o
3 P6 7.5 RR2 No insta!!ed instrumentation to measure suction pressure Install temporary test gauge at pump h
(O) suction (local) or calculate Pt using VCT level inoicator [LI-1CH-115] and VCT pressure indicator XI
[Pi-1CH-117] or RWST lovel indicator [Lt-1CS-100A]. Control Room k-AP 7.5 X
AP is calculated using the pump discharge pressure indicator [PI-1CH-152], local.
]
(O)
' and the calculated Pi, Control Roorn.
x i Summation of flow rates from RCP Seal injection Flow Indicators [F1-1CH-130]. [F1-1CH-127].
2 Q
7.5 X
(O)
' and [F1-1CH-124] or Charging Flow Indicator [F1-1CH-122A]. and RCS Loop Fill Flow Indicator
[F1-irH-160]. Control Room, and assumed flow thru miniflow line.
tX Co V
7.5 RR1
' Portable moriitoring amdpment using velocity units (O)
O Tb NA
'RR1 Annual pump beanng temperature measurements well not be taken since vitration is measured y
sn velocity units,
<m L
7,5 X
LubncaM oil filter pressure gauge [F1-1CH-161Bt]. local Sightglass on oil reservoir, local.
(O) c O x
~2_
O 5
" 6' $c
.3 CD o c. m
b)
PUMP TESTING OUTLINE Ci O
Q rn Pump' l Pump o
Code Dwg. OM No.: 7-1 System: 7 Chemi/ al and Volume Control 5
Nrme: 1C Charging Pump NumW 1CH-P-1C Class:
Function: To provide normai RCS inventory and Dwg. Coord.: E4
-4 o
Type: Centrifugal Retearks: See RR1 and RR2 Hi Head Safety injection d
8 Parameter !
10ST l
Req'd Comments g
Z
- E Q
(Frequency)
~
.R N
NA NA Constant speed induction motor.
-4 os
~
- r. -
5~
- o 3
PI 7.6 RR2 No installed instrumentation to measure suction pressure. Instalt temporary test gauge at pump h
(0) suction (local) or calculate Pi using VCT leve; indicator [Lt-1CH-115] and VCT pressure indicator x
PI-1CH-117] or RWST level indicator [Li-10S-1C0A] Control Room.
k AP 7.6 X
AP ss calculated using the pump discharge pressure indicator [PI-1CH-153]. local, (O) and the calculated Fi, Control Room.
y x
Q 7.6 X
Summation of flow ra'es from RCP Seal injection Flow Indscators [FI-1CH-130], [F1-1CH-127].
k (O) and T1-1CH 124] or Charging Flow lod cator [F1-1CH-122A]. and RCS Loop Fall Flow Indicator E
i
[F1-1CA-160]. Control Room, and assumed flow thru miniflow line 3
C V
7.6 RR1 Portable monitoring equipment using velocity units.
(On O
Tb NA RR1 Annual pump bearmg temperature measurements will not be taken since v:bration is meatured y
in velocity units g
L 7.6 X
Lubricant oil filter pressure gauge [F1-1CH-161C1]. local. Saghtglass on o4! reservoir, local.
(O) o O %
=2_
oE$
]88
~~
e e
0-
.N
+
(
- 1 w
BVPS-1 IST tp PUMP TESTING CUTLINE
- i D.
Pump Pump ~
Code Dwg. OM No : 7-3 System: 7 Chemical and Voturre Contec o
Na ne: 2A Boric Acid Transfer Pump Number: 1CH-P-2A Class: 3
' Function: Chemical Shim and Emergency Boration Supply ^
Dwg. Coord.: C-3
-4 e
Type: Centrifugal Remarks: See RR1, RR2 and RR3 v
Paran*eter 10ST.
Req'd Comments 2,
8 z
1 o
o (wrequency)
~
Ui 5?
N tlA NA Co#>stant speed induction motor.
e 7
O D.
3 Pi 7.1 (O)
'RR2 No installed instrumentation to measura suction pressure. Calculate ?i from the level in the O
Boric Acid Storage Tank, [LI-1CH 106(161)]. Control Room.
7,13 (.R)
RR2 No installed instrumentation io measure suct.on pressure. Calculate Pi from the level in the
>r Boric Acid Storage Tank. [Li-1CH-106(161)]. e.ontrol Room.
mO AP 7.1 (O)
X AP is calculated using the pump discharge p essure indicator {Pi-1CH-110]. tocal.
E and the calculated Pi, Control Room 7
C 7.13 (R)
X AP is calculated using the pum > discharge pressure indrcator [PI-1CH-110] local.
k and the cafculated Pi Control Room '
m C
Q 7.1 (O)
RR3 No installed instrumentation to measure flow rate quarterly.
- s-e t
~^
O 7.13 (R)
X Flow rate measurement by tank level change over time performed at refuehngs.
V..
7.1 (Q)
RR1 Portable monitoring equipment using velocity units.
s m
m
' 7.13 (R)
' RR1-Portable monitoring equipment using velocity units.
' 7b NA-RR1 Annual pump bearing temperature rneasurements will not be taken since vibration is measured in velocity units.
L 7.1 (O)
X-Beanng housing provided with sightgtass at oil level reservoir, locat 7.13 (R)
X Bearing housing provided with sightglass at cil l<; vel reservoir, local.
t ceom Ck-t O E$
[
'O~ c sB o o=m t
.i.....
E
=
I PUMP TES11NG OUTLINE Pf I
^O o
Pump
- Pump, Code l Dwg. OM No.: 7-3
' System: 7 Chemical and Volume Controf 5
Ntme: 2B Boric Acid Transfer Pump NumL ar: 1CH-P-2B Class: 3 Dwg. Coord.: G-3 Function: Chemical Shim and Emergency Boration Supply Type: Centrifugat Remarks: See RR1, RR2 and RR3 m
4 7
Parameter 10ST Req'd Comments (Frequency)
N NA NA Constant speed induction motor.
a 2
3 Pi 7.2 (O)
RR2
. No installed mstrumentation to measure sucteen pressure Calculate Pi from the levet m the O
Boric Acid Storage Talk. [LI-1CH-106(161)]. ContrtA Room.
7.14 (R)
RR2 No installed instrumentation to measure suction pressure. Calculate Pi from the level m the
>g Boric Acid Storage lank. [Ll-1CH-106(161)]. Control Room.
mO AP 7.2 (O)
X AP is calculated using the pump discharge pressure ind;cator [PI-1CH-105A]. local, 2
and the calculated di, Control Room.
7C 7.14 (R)
X AP is calculated using the pump discharge pressure indicator [Pi-1CH-105A]. local, h
and the calculated Pi, Cor. trol Room.
{-
O Q
7.2(O)
RR3 No installed instrumentation to measure flow rate quarterfy.
Z O
7.14 (R)
X Flow rate measurement by tank level change over time performed at refuelings.
V 7.2 (O)
RR1 Portable monitoring equipment using velocity units.
rn m
7.14 (R)
RR1 Portable monitoring equipment using velocity units.
Tb NA RRI Annual pump Learing temperature measur-ments wi'.) not be taken since vibration is measured in velocity units.
L 7.2 (O)
X Bearing housing provided with sighinlass at oil le~el reservoir, local.
7.14 (R)
X Bearing housing provided with sightglass at oil level reservoir, local.
8 o
O
-^ C o s_
otC
'oc 4 3 C o c. m
r
}'
Q_
0
' J.
BVPS-1 IST
)'
E'.^f PUMP TESTING OUTLINE 8*
m -.
2 m
Pump Pump Code Dwg. OM ido. 10-1 System: 10 Residual Heat Removal 5
T Nsme: 1 A Residual Heat Removal Pump Number: 1 RH-P-1 A Class: 2 Dwg. Coord.: E-3
-4 o
Function: Long Term Decay Heat Removal Type: Vert;ca!
Remarks: See RR4. Pump is tested quarterly durirq -
v cold shutdowns and refueling outages, d
o Z
- E Pcrameter
. 10ST Req'd Comments O-(Frequency)
$' g N
NA NA Constant speed induction motor.
-4 ni 2
m o
x.
3 Pi 10.1
.X No permanently installed suction pressure gauge, temporary test gauge installed on h
(CSD.R)
[1RH-200] for test, local.
x.
AP.
10.1 X
Calculated using pump discharge pressure indicator [PI-1RH-600], local, and pump suction pressure 5
(CSD,R)
(local) or from temporary AP gauge insta!!ed between [lRH-200] and [1RH-213]. local.
]
Q 10.1 X
Flow indicator [F1-1RH-605] Control Room.
2.'-
(CSD,R)
V 10.1 X
Portable monitoring equipment.
E m
(CSD.R) h.
Tb 10,1 X
Pump bearings in driver. Portable monitoring equipment required (i e. contact pyrometer) y (A) or Control Room computer address points for thermocouples provided for bearsogs. Motor inboard bearing (T0686A) Motor Outboa.d bearing (T0687A).
r-L NA NA No lubricant level or pressure to observe. Lubrication is by the fluid being pumped.
M V) c -
e..
C' 4
3s.,
a EEa
. 8 g-
- i Bom m
.. m.
a-u
.m.
. q BVDC-1!ST E
G PUMP TESTING OUTLINE h
M e
Pump Pump Code Dwg. OM No.: 10-1 System: 10 Residual Heat Removal 5
Nzme: 1B Residual Heat Removal Pump Number: 1 R H.P-1 B Cfass: 2 Dwg. Coord.: F-3 m
-4 o
Function: Lcog Term Dacay Heat Removal Type: Vertical Remarks: See RR4 Pump is tested quarterly during m
cold shutdowns and refuebng outages d
8 w
Z
- E '
O o
Pzrameter 10ST Req'd Comments (Frequency) co
-1 nr N
NA NA Constant speed induction motor _
=
~
o o
x 3
0 Pi 10.1 X
No permanently installed suction pressure gauge, ten.porary test gauge instatied on 9
(CSO.R)
[1RH-200] for test, local.
W h
AP 10.1 X
Calculated using pump discharge pressure indicator [PI-1RH-601], local, and pump suction pressure E
(CSD R)
(local) or from temporary AP gauge installed between [1RH-200] and [1 RH-213]. tocal O".
Q 10.1 X
Flow indicator [F1-1RH-605). Control Room (CSD,R)
$r V
10.1 X
' Foriable rionnoring egnpment, m
h
~
(CSD,R)
Tb 10.1 X
Pump bearings in driver. Portable monitoring equipment required (i e., contact pyrometer) h a
(A) or Control Room computer address pomts for thermocouples provided for bearmgs. Motor l
Inboard bearing (T0696A), Motcr Outboard bearing (TOS97A).
p L
NA NA No lubncant level or pressure to observe. Lubncation is by the fluid being pumped rk f.o 2
o "O1-0, OTC C
3 CD o=~
e 9
G~
i.
4 BVPS-1 IST E
?
PUMP TESTING OUTLINE ed I
e Pump Pump Jode Dwg. OM No.: 11-1 System: 11 Safety injection 5.
Name: 1A Low Head Safety injection Pump Number: ISI-P-1 A Class: 2 Dwg. Coord.: F-2
-4 o
Function: Low Pressure - High Volume Safety injection Type: Vertical Remark s: Sec RR2 Pump is tested quarterly on recirculation C
-d 8
and Long Term Recirculation Ocw and at futt flow dunng refuehng outages.
l Z
4 Parameter 10ST R eg'd Comments O
C m
(Frequency) to
~
r N
NA NA Constant speed induction motor.
m O
x 3
Pi 11.1 (O)
RR2 No installed instrumentation to measure suction pressure. Calculate Ps usmg RWST h
W level indicators [Ll-105-100A-D]. Control Room 11.14 (R)
RR2 No installed instrumentation to measure suct.on pressure Calculate Ps using RWST C
level indicators {U-1CS-100A-D]. Control Room.
g l
AP 11.1 (0)
X AP is calculated using the pump discharge pressure indicator (PI-1SI-943]. local.
c"-
l and the raiculated Pi. Control Room.
l 3:"
l 11.14 (R)
X AP is calculated using
- e pump discharge pressure and!caton [Pl.1Sf-943]. toc #,
m h
l and the calculated Pi. Control Room.
D Q
11.1 (O)
X Flow indicator [FI-1St-941]. local. (Meni flow and test line flow Aor) g a
11.14 (R)
X Flow indscator [FI-1SI-941], local and [F1-1SI-945] Control Room.
m*
V 11.1 (O)
X Portable monitormg equ:pment - Fixed vibration probes on pump shaft-l l
11,14 (R)
X Portabte monitoring equipment - Fired vibration probes on pump shaft.
l l
Tb 11.1 (A)
X Control Room computer address points for thermocouple provided for pump beanngs i
Top pump bearing (T0911 A).
NA NA Not required during refueling test Bearing terrperatures are obtained in quarterly test annually.
L NA NA No lubricant level or pressure to observe-Lubrication is by the fluid being pumped
?
e Os-otG88 8~
BVPS-1 IST E
g
~
PUMP TESTING OUTLINE x
a Pump Pump Code Dwg. OM No.: 11-1 System: 11 Safety injection 5
Name: IB Low Head Safety injection Pump Number: 1SI-P-1 B Class: 2 Dwg. Coord.: F-4
-4 5
Function: Low Pressure - High Volume Safety injection Type: Ver tical Remarks: Sae RR2. Pump is tested quarterly on recirculation and Long Term Recirculation flow and at full flow during refueling outages f
@d 8 Z
- E Parameter 10ST Req'd Comments O
o (Frequency) 3 m
N NA NA Constant speed induction motor.
O o
O m
I' Pi 11 2 (O)
RR2 No installed instrumentation to measure suction pressure. Calculate Pe using RWST h
levet indicators [Li-105-100~D]. Ccntro! Room m>
t 1.14 (R)
RR2 No instaifed instrumentation to measure suction pressure. Calculate P using RWST 5
level indicators [Lt-105-100A-D]. Control Roorn O
AP 11.2 (0)
X AP is calculated using the pump discharge pressure indicator [P!-1Sb944]. local, and the calculated Pi. Control Room 2
7 11.14 (R)
X AP is calculated using the pump discharge pressure indicator [PI-151-944). local, 26 and the calculated Ps. Control Room.
O 11.2 (O)
X Flow indicator [F1-1SI-941] local (Mini flow and test line flow indicator) a 11.14 (R)
X Flow indicator [F1-1SI-941] local and [FI-1SI-946]. Control Room.
m V
11.2 (O)
X Por+able monitoring equ:pment - Fsxed vibration probes on pump shaft.
11.14 (R)
X Portable monitoring equip-ant - Fixed vibration probes on pump shaft.
Tb 11.2 (A)
X Control Room computer address points for thermocouple provided for pump bearings.
Top pump bearing (T0921 A).
LA NA Not required curing refueling test Bearing temperatures are obtained in quarterly
+
test annt. ally.
L NA NA No lubricant level or presLure to observe. Lubrication is by the fluid being pumped.
r3 O
O
!D
~ 1. -
oE$
288 c"2 m ~
O O
O-
O:
G)
PUMP TESTING OUTLINE h
x a
Pump Pump Code Dwg. OM No.: 13-1 System: 13 Containment Depressurization 5
Name: 1 A Quench Spray Pump Number: 10S-P-1 A Class: 2 Dwg. Coord.: D-5
-4 o
Functioni To provide a flow of borated water for '
Type: Centrifugal Remarks: See RR1 and RR2
- ~
- containmerit depressurization foHowing a DBA' d"
8 Z
- E Perameter 10ST R eq'd Comments O
{ Frequency)
(n N
NA NA Constant speed induction motor.
-a ra r
o O
^A)
Pi 13.1 RR2 No instaited instrumentation to measure suction pressure. Install temporary test gauge at pump h
(O) suction (loca!) or calculate Pi using RWST tevel indicator [Li-105-100A-D]. Control Room.
2>
AP 13.1 X
AP is calculated using the pump d:scharge prersure indicator [PI-10S-101 A) loca!.
5 (O) and the calculated Pi Control Room
]
Q 13.1 X
Total flow calculated by summing flow rates from spray line flo-indicator [F1-105-104]
' (O) and recirculation line flow indicator [FI-10s-103] locat.
2 7
V 13.1' RR1 Portable monitoring equipment using velocity units.
~6 l
(O)
E z
Tb
-NA RR1 Annual pump bearing temperature measurements will not be taken since vibration :.neasured h
in velocity units, L
13.1 X
Level indication provided at constant 'evel oilers (tocal) on each bearing housing r-J (O) mm c
O
-*=Cs-Ot$
'oc gao ca c. m 1
BVPS-1 IST E
PUMP TESTING OUTLINE T
C Pump Pump Code Dwg. OM No.: 13-1 System: 13 Containment Depressurkation 5
N tme: IB Ouench Spray Fump Number: 105-P-18 Class: 2 Dwg. Coord.: D-6 g
Function: To provide a flow of borated water for Type: Centrifugal Remarks: See RR1 and RR2 containment depressurization following a DBA d
8 w
Z 4
P:rameter 10ST Req'd Comments O
(Frequency) g N
NA NA Constant speed induction motor
~4 m
l r
~
'I o
O x
Pi 13.2 RR2 No installed instrumentation to measure suction pressure install temporary test gauge at pump O
(O) suction (local) or calculate Pi *> sing RWST level indicator [U-10S-100A-D]. Control Room W>
AP 13.2 X
AP is calculated using the cump discharge pressure ind+cator [Pf-10s-1018). local.
K (O) and the calculated Pi, Control Room O
q 13.2 X
Total flow calculated by summing flow rates irem spray line flow indicator [Fi-10s-104]
(O) and recirculation line flow indicator [F1-10S-103]. locat c
V 13.2 RR1 Portable monitoring equipment using velocity units.
(O)
E
=
Tb NA RR1 Annual pump bearing teroperaturc measurements w!!! not be taken since vibration is measured h
in velocity units.
L 13.2 X
Level inaication prc%ded at constant kevel oilers (local) on each bearing housing y
r-(O) m v>
c O
^
- i O. E $-
O C
- D a=~
I e
O O-
BVPS-1 IST E
?
Pump Pump Code Dwg. OM No.: 13-1 Sy stem. 13 Containment Depressurization--
$,o : $
PUMP 'fESTING OtJTLINE o
.S Name: 4A Chemical injection Pump Number-10S-P-4A Class: 2 Dwg. Coord.: F-10 4
o Function: Chemical injection during Containmen' Type: Postive
. R emarks: See RR1 and RRS.
@ ' 8 Depret -urization.
Displacement
,d Parameter 10ST Req'd Comments O
(Frequency) 3 m
i N
NA NA Constant speed induction motor.
-t
. w m
O x
Pi 13.10A RR5 Positive displacement pump. No suction pressure indication provided h
(O) x>
RR5 Positive displacement pump Based on pump discharge pressure indicator [PI-10S DCA), 6ocal.
E iO) f I
Q 13.10A -
X Will check using recirculation line flow indicator [Ft-10s-108]. inca!.
1 i
(O)
,o c
r V
13.10A Portable monitoring equipment using velocity units 3
(O)-
to Csg Tb NA RR1 Annual pump bearing temperature measurements will not be taken since vibration #s neasa ed in velocity units.
L NA NA No lubricant leve! or pressure M observe. Bearings are grease lubricated r-<rn W
3 t
b r
4C C -
'O
~s$
oE
~oe gao o c. u
+
BVPS-f IST E
?
PUMP TESTING OUTLINE Pump Pump l Code x
Dwg OM ido.: 13 1 System: I? Containment Depressunzat,on 5
N;me: 48 Chemical L-tion Pump Number: 105-i
! Class: 2 j
Dwg Ccordc F-Q h
=
Function: Chemical injecton during Containment Type Fos.tive Remarkt See RR1 and RPS
-4 e
Depressunzatton Displacement d
2 P rameter 10ST
- ' (d Comments O
2 2
s (Freq-oney.
~
3 (n
N NA NA Constant speed induct:(., motor, w
mr 2
3 Pi 13.108 RRS Posative displacement pump No suction pressure indicat:on provided O
(O) x>
AP 13.10B RRS Positive displacement pump Based on pump discharge pressure mdicator [PI-10SMB}. tocal 5
(O)
O" Q
13.108 X
Will r. hec' < sing rearculation line flow indicator [Fi-10510S]. local (O) mc V
13.10B RP1
^ nrtable monitorng equepment using veioaty units 4
?
(O,s to Ca Tb NA RR1 Annual pump t=tnng ten,perature measurements will not t>e tr. ken s nce vibrate is measured h
in valoaty un.
~
,y L
NA NA No lubricant level or pressure to observe Beanngs are grease lubncated
'7 ri ch 7u C
G i
-a m s_
C.L T C O C y3 0 t
= m n !-
e e
O~-
I l
$ $e' h 'n* [:s2 gmrO3 E=.
5Co ~
McifO: m s
5$xSQ eEdrO $4~ mxOgE>E O",d:is" >@ <>r<mtl 3
~
s
^ Ro rCC L
iI n
o i
taz rius serp e
D la M
c r
~
t e,
to n
u s
r
]
a r
A e
n i
0 m
a 04 o
5 is tn n
C 0
o.
1 ta 3
i r
P
[
b 2
m r
v o
d e
e e
t t
a c
t s
c m
a y
d i
s irc S
S e
d P
d n
b n
R i
i
!a v
e c
lu e
k d
o r
o a
e n
s r
u L
p s
t s
a t
0 n
s
]
e a
1 n
e 3
b e
1 1
1 e
o r
0 r
R m
i p
1 G
R m
a t
1 t
g o
e 5
n e
e o
c.
g 0
t a
r o
N d.
e C
d r
a 1
S m
a t
w s
r o
h M
o e
c F
s g
t s
o E
O C
s s
[
e t
r n
n g
k u
d r
N g
a s
p r
s o
u e
a 3
U w
w m
e y
m e
ta B
m c
i e
t T
D D
e p
u i
c r
r U
T d
le o
u S
O-R p
n n
s e
a v
I G
2 o
n r
v r
i o
w e
e 1
t t
N S
I e s e
u d
lo g
m s
n c
n b
TS d s s
e f
is e
o PV ola m
o as e
r u
E CC e e m
u o
r B
T
,)
t ipa to N
B i
t t
t c
P ev n
a e
o n
e r
4 m
p p
o e
r M
s s
u U
oi m
m i
m p
t s
PD n
u u
a p
n o
i r
s P
4 e
i p
p lu u
e e
C t
c q
t r
t t
p c
r e
g P
p u
n n
y d
e e
o g
m o
r S
T n
m m
e n
r l
r a
0 e
e ri e.
e i
d c
c g
o s
v 1
bt e
a a
m r
e ip lp s
r pn le t
i u
pb s
i s
u o
m u e
p s
i n
t mm t
d o
k m
uy a
c pt c
n e
e e
le c
n i
uu t
a e
s t
i h
b l
o b
v v
a l e
PN n
t i
t c
a ue l
i i
t r
m n
s s
i o
n o
C P
P Wt t
nv o
o o
n P
Ain N
ia tnoC d
5 5
1 1
g
'q A
R R
X R
R A
p n
e N
R R
R R
N m
i R
r u
u P
d n
n o
o n.
r io i
)
t tc ct y
e e a r
In tr i
T n A
A A
A uz j
S e A
0) 0
)
0) 0)
A A
r la las 0q N
1 O O
O 1 O u
u 1
1 N
N 3(
3(
3 3(
(
1 O
ic cs e
1 1
1 1
ie r
m mr F
(
e ep h
h e C
CD r
C e
t 4
n e
P b
o m
N P
A Q
V L
6 pe:
i T
t a
c r
mm n
a ua u
P PN f
4 i}
j i
i
=
t3 h
PUMP TESTING OUTLINE D
o Pump Purnp Code Dwg. OM No; 13-1 l System: 13 Containment Depressunzation 5
Nome: 4D Chemical injection Pump Number: 10S-P 4D Class: 2 Dwg. Coord.: G-9 I
w e
Fuaction: Chemical injection dunng Containment Type: Positive Remarks: See RR1 and RR5 Depressuriration.
Displacement d
2 z
- E Parameter 10ST Req'd Comments O
C (Frequency)
]
g N
NA NA Constant speed ir, duction motor.
csr m
O x
3 Pt 1310B RR5 Positive displacement pump No suction pressure indicatton provided h
(O) 2>
AP 1310B RR5 Positive displacement pump Based on pump discharge pressure indecaior [PI-10S 4LTBJ, local E
(U) 3 Q
13.10B X
W,tl check using recirculatton line flow ;ndicator [Fi-10S-10Sj. local (C) mcs V
13.108 RR1 Portable monitonng equipment using veioc:ty units m
(C) h
=
Tb NA RR1 Annual pump beanng temperature measurements will not be take. s:nce vibrat;on es measured m ve!ocity units.
L NA NA No tubncant level or pressure to observe Beanngs are grease lubricated r-<
rn M
Te CJ 1l3o Nqos-O?$
0 C
-* 3 o oan 9
O O-
?
1 T
\\
)
SVPS-1 IST I
g(
5 PUMP TESTING OUTUNE rTi j
Pump Pump lNe Dwg. OM No.: 13-1 System: 13 Cmtm. ment DepressuntaPon n
a Nrme: 1A Inside Recirculation Sprey Pump Number: 1 RS-P-1 A
_ss: 2 Dwg. Coord> E2
(
m Function:- Circulate containment sump water for long term Type: Vertical
-4 o
lRe See RRI.RR2 & RR6 Pump is normany f marks:
contMnment depressurization.
2 tested dry in Modes i through 4, with
-4 l
flow during refueling outages only
[
P rameter 10ST Req'd Comments (Frequency).
j tr,
-4 c3 N
NA NA Constant speed induction motor.
3 O
O Pi 13.3 (0)
RR6 Pump run dry for not more than 60 seconds and stopped when 100 rpm is reached O
i, I*
C 1BVT RR2 Calculate Pi us ng the level in the ump. local m
1.13.5 (R)
O m
' 13.3 (O)
RRS Pump run dry for not more than 60 seconds and stopped when 100 rpm es reached
@s 1BVT X
AP is calculated using the installed discharge pressure test gauge and the calculated Pi, local.
3 C
1.13.5 (R)
Q 13 2 (O)
RR6 Pump run dry for not more than 60 seconds and stopped when 100 rpm is reached
'Oz i
1 B'. T X,
Recuculation test ime flow measured by d6tferential pressure across local flow onfice_
1.13 5 (R)
Q m
us 3
V 13.3 (O)
RR6 Pump run dry for not more than 60 seconds and stopped when 100 rpm is reached.
IBVT RR1 Portable morutoring equipment using velocity units.
1.13.5 (R)
Tb NA RR1 Annual pump bearing temperature measurements well not be taken since vibration is measured in velocsty units.
L NA NA No lubricant level or pressure to observe. Lubncabon is by the flud being pumped.
m u
to Mo a
- C o_ r S-O C 3 O ca = m
t BVPS-1 IST l
E
?
PUMP TESTING OUTUNE x
e Pump Pump Code Dwg. OM No.: 13-1 Syste m.
13 Containment Depressur<zation 5
Nime: 1B inside Rwircu!adon Spray Pump Number: 1 RS-P-18 Clast 2 M
I Dwg. Coord_:
3 t-
-a e
Function: Circulate containment sump water for long term! Type: Vertical Remarks: See RRt.RP2 6 RR6 Pump is normany conta.nment depressunzat;on.
I tested dry en Modes i throcch 4 with d
8 f
flow durmg refuehng outages only h
Parameter 10ST R eq'd Comer ents g
(Frequency) d E
NA Constant speed induction mc,!or.
3 l
N NA O
I O
Pi 13 4 (O)
RR6 Pump run ory for not more than 60 seconds and stopped when 100 rpm is reached I>
's 1BVT RR2
. Calculate Pi using the fevel in the sump tocal m
h 1.13 5 t R) I AP 13 4 (O)
R6 l Pump run dry for not more than 60 seconds and stopped wnen 100 rpm.s reached y
I c
1BVT X
! AP es ca!cutated usmg the mstaMed d:schage pressure test gauge and the calculated Pi. tocat 3
C f
y 1 13 5 (Rf Q
13 4 (O)
R R6 l Pump run dry for not more than 60 seconds and sN, sped when 100 rprn is reached b
l Rearculatton test hne flow measured by d;tferential pressure across local f:en orace Q
1SVT X
1.13 5 (R) mm V
13 4 (On RR6 Pump run dry for not more than 60 seconds and stopped when 100 rpm is rexhw 1BVT RR1 Portable monitormg equ pment usmg velooty un.ts.
1.13 5 (R)
Tb NA RR1
. Annual pump bearmg temperature measurements will not be taken smce v brat:on is measured en velocity units
(
I L
NA NA No lubrtcant level or pressure to observe. Lubricatron is by the flurd bemg pumpM T
C E
O M
<j $_
- 0. CT c
$2 j
0 o ai ~
~
I e
I
_.m s...
'~
g
- ~ '
l t
l 34,!lj;)
- e nIe} _=
f gE Cg~
- _$Co PJ O
' c$ fos m
. % y!-
d[ $* 3OC"1 O $~~
Ox 2C?{nC <g5r*
,uCC NW O C
N k
l l i' td h
l;
~
n o,
taz nusse rp e
C de e
e e
e r
t s
s s
s u
-e a
a a
a s
m h
e e
e e
a n.
tyt r
r r
r e
i c
c a
ia w m
m l.
c c
m n
m4.ly i
n a
e s
tn r
n t
n c
n n
e 2
wh o a
a a
o gs g
d g
to a
a n
e C
g g
o p
t m
m m
3 s ue m
e n
J b
1 e
og H
e A
a u
e v
v v
r u
m mt ta 6
r ph r
r b
p r
t r
u e
s e
5 e
e g
s s
1 s
s v
e u1 o m
b b
S b
b e
m t
P g
o e
e o
o c
(
s s
R y
e n lf R o e lly g
a a
- y 1
y ly m
b S
7 d h u
!a F
a la d
a s
u RMf u
g u
r
[
u u
n u
e s,
s e
e s
t f
r i
k i
s d mr v
~t v
a e
v o
v e
n g
s a
r r
h t
t r
t r
ayn r
n e
y e
1 dc m
a a
a d
ft te e
c e
t 1 d n.
e t
f r
b b
y 3
eu R
f i.
a a
b 1
F R e m
d o
d i
d d
o s
r r
t n
s o
es w e
p e
e e
}
e n
t o
p m
p r
p A
p N
d.
eeic C
p e
p u
o 7
p d
e r
St f
o 5
o w
o o
o s
M o
t s
t E
O C
s e.
t s
t 1
N r
d g
d P
d d
n ts a
's s
s e
s t
c r
S i
n m
k n
u n
n R
n u
e g
g a
t U
w a
m a
a a
e a
1 a,
t L
g y
m u
T sn g
s n s n i
s n i
e D
D e
r F
U d o e
d o a n d o d o c
r T
i i
i
[
c s
e Off R
nt r
nt h o nt nt I
llj-oa u
oa ci oa o
oa lo u
S r
e v
a G
2 ct s
ct s t ct ct v
r 1
e o s
e o e
c r
r D u e o ta e o m
e N
s e
s r
s c
s r g
i s
S I
e r s
r t
r t
T s
0f p
0f d
0f d
0f m
b t
e t
P S
d a
e o
V ol l
r.
6 a 6 a ep 6 a E
h n
h n m h
t 6 a s
o r
h u
u o
CC ns o
ns a u B
T I
a o
ns ns t
t P
c h p t
p s p a
w a
a i
a t
t c
h h p o
h p n
a t
e r
m u
e t
m nt t
m l
t m
e r
M t
t m
r eu eu r
p u
r.
F eu s
eu i a e
U s
V n
r p r p e e r p l
r p p
m s
P A
o o
d o
h g
o a
o w
e e
n te c
i md ta ga md u
md lo md q
p t
2
- e t
t r
n n
n c
t a
t a
e g
t a
P p
u d
n e sl) t a
o mg o
g o
g m
o t
y o
r a
ne s
g u e n e is r
n n e S
T n
g m
g g
n r
le a
a.
R i
or ftnn y p ta e yp y p ni bt r
r a r a r
a a
r m
d yl o
d u o
u o
r r
o e s v
1 r
s f
f r
e e
(
f e
e f
s e
d e
i le t
e e
y p e
pn r
t p
d m eo r
r r
nt d m lup d m d
d m o
m r
r u
t e
g s
a n
i a
a r
a m
uy a
pb n
n ac n
u u lo n
ut m u, ur lc l
n o
n mm t
pt c
aa ur ur i
a r o r
r to cc r o e
r c le c
er t
r lao b
b PN r
t t
r t
o o
s po ep po isl po po a
ue lu l
mmpm mm d
rm w
mm f
n t
n s r
o p
r o
u ou u
P r
n l
u o
n o
n u
e n
n m
C P
e N p P i Aa P i F
P m P
A m N
t u
a P
wn po i
a mt d
r a
7 7
7 7
1 1
S s i
'g A
R X
R X.
R X
R R
R A
p ut e
N P
R R
R R
R N
ru R
t n
ns o
es i
t mre la n p if5li u
ie
)
a y
c d
t r
c
)
)
)
)
c on T n O
R(
O(
R(
O)
)
O)
R) nt a
R e
ce S e A
(
(
(
(
I A
A u
R e
tem 0q N
5 7
5 7
5 7
5 7
N N
d tain e
3 3
3 3
3 3
3 3
1 r
1 1
1 1
1 1
1 1
s u a t
c t
F i
(
n u
rio li O
Cc r
A e
2 t
n e
i P
pe io m
N P
A Q
V b
L t
a T
c r
mm n
a ua u
P PN F
I l
l
(
- lll,
,l,!l
- 'l{l l!
,l
BVPS-1 IST
=
c PUMP TESTING OUTLINE bi rn Pump l Pump Code Dwg. OM No : 13-1 l System: 13 Containment Depressurizat+on 5
R
=
Nrme: 2B Outside Recirculation Spray Pump Number: 1 RS-P-28 Class: 2 l
Dwg. Coord.: F7 m
Function: Circuiate containment sump water for long term! Type: Verticai Remarks: See RR1 and RR7 Pump is norma!!y
-4 o
contanment depressurization.
v tested dry en fJtodes i through 4, with d
o flow ducir*g refuehng outages only
[
Pcrameter 10ST Req'd Comments (Frequency) g cn N
NA NA Constant speed induction motor.
3 3
I O
Pi 13640)
RR7 O
Pump run dry for not more than 60 seconds and stopped after visually observmg an increase m
en motor amperage and pump shaft rota;+on.
D s
13.7 (R)
X No permanently installed suction pressure gauge. temporary test gau-- installed at y
pump suction (local).
AP 13 6 (O)
RR7 Pump run dry for not more than 60 seconds and stopped after visually obserumg an encrease v
t-in moto amperage and pump shaft rotahon 5
7 13 7 (R)
X AP is calculated using the installed Discharge Pressure Indicator [FI-1RS-1568]. loca!.
f and local pressure gauge at pump suct on
-D Q
13 6 (O)
RR7
~*
Pump run dry for not more than 60 seconds and stopped after visua:!y observing an encrease en motor amperage and pump shaft rotatron.
13 7 (R)
X Fion recorded using local Flow Indicator (FI-1RS-157B]
r.n V
13 6 (O)
RR7 Pump run dry for not more than 60 seconds and sicW after visually observing an encrease in rnotor amperage and pump shaft rotation.
13 7 dR)
RR1 Portable monitoring equipment useng velocity units Tb NA RR1 Annual pump bearing temperature measurements wdl not be taken since vibration is measured in velocity units L
NA NA No lubricant level or pressure to observe. Lub7 cat >on is by the 'lu+d being pumped 7
mi Ce 2
M. o b
<~
0, ? O O C 2 o o=m i.
I e
9 9-
BVPS-1 IST E
g PUMP TESTING OUTLINE y
m Pump Pump Code Dwg. OM No.: 15-1
. System: 15 Reactor Piant Component 5
M o
Nrme: 1 A Component Cootmg Water Pump Number: 1CC-P-1 A Class: 3 k
Dwg. Coord.: E4 ng W ater Om a
5 Function: To provide cochng water to RX Plant Type: Centrifugal Remarks: See RR1 Components.
M 2
z-s Pcremeter 10ST Req'd Comments O
C (Frequency) m N
NA NA Constant speed induction motor.
a as
~
~
m B
I 3
i Pi 15.1 X
Local suctton pressure indicators [Pi-1CC-181.183. or 185].
O (O)
AP 15.1 X
Calculated using dacharge pressure endicator [P1-1CC-100A] and pump suction pressure. local 5
(O)
O Q
15.1 X
Summation of total flow from indecators [Fl.1CC-f17]. [FI-1CC-113] and [Fi-1CC-119].
10)
Control Room, or local gages.
c V
15 1 i
RR1 Portable rnonitoring equipment usmg velocity urwis_
K 7
(O)
E Tb NA RR1 Annual pump bearing temperature measurements wel not be taken smce vsbration is measured k
en velocity unstsJ g
a L
15.1 X
Bearing housing provided with sightgtass at od level reservoir end,cator, locat 3>
(O) g m
us i
o O
M@
= s-E *. E Oc g3 o
o c. =
1
BVPS-1 IST E
E?
PUMP TESTING OUTLINE 9
x 6
Pump Pump Code Dwg. OM No; 15-1
. System; 15 Reactor Plant Component 5
N:me: 1B Component Cochng Water Pump homber: ICC-P-1 B Class: 3 Dwg. Coord; E-7
'"9 "I"'
Ft.nction: To provide coohng water to RX Plant Type: Centniugaf Remarks: See RP1.
w e*
Components.
2
?
Z E
Pr.rameter 105T Req'd Comments i
O 2
(Frequency)
~
g N
NA NA Constant speed induction motor.
m
~
T O
x 3
Pi 15 2 X
Local suction pressure indicators [PI-1CC-181.183. cr 185]
O (o) m>
AP 15 2 X
Calculated using discharge pressure indicator [PI-1CC-1000] and pump suction pressure. local "I
(0)
]
Q 15 2 X
Summation of total r.ow tium indicators [Fi-1CC-117]. [F1-1CC-118] and [FI-1CC-119],
iO)
Control Room or local gages.
c V
15 2 RR1
. Portable rnonttoring eqwpment using vetooty units.
C T
(0) ra C
3 Tb NA RR1 Annual pump bearing temperature measurements will not be taken smce vibration is measured h
in velocity u:uts L
15 2 X
Bearing housing provided with sightgtass at ott levet reservoir ind2cator, local (O) l r-M w
3 nr tOo M
=s$-
O E O C
-= 3 o a=~
e 9
9-
BVPS-1 IST m
e PUMP TESTING OUTLINE Pump Pump Code Dwg. OM No.: 15-1 System: 15 Reactor Plant Compcnent 5
M a
N me: 1C Component Cochng Water Pump Number: ICC-P-1C -
Class: 3 Dwg Coord: E-B 9# ****
Function: To provide cooling water to RX Plant Type: Centrifugal
' Remarks: See RRt.
m x
Components.
m
-f 8
i Z
- E P rameter 10ST Req'd Comments O
R (Frequency) g N
NA NA Constant speed induction motor.
-4 r,
4
~
r
'o O
x Pi 15.3 X
Local suction pressu e mdicators [P!-1CC-181.183. or 165]
O (O) l.
M>
AP 15 3 X
Calculated using discharge pressure in6cator [F1-1CC-10CC] and pump sucta pressure. local 5
(O)
]
Q 15.3 X
Surnmation o' tctat flow from indecators [Fi-1CC-117]. [Fi-1CC-118] and [F1-1CC-119],
(O)
Control Room, or local gages 2
V 15 3 -
RR1 Portable monitoring equipment usmg velocity units.
Tr
?
(O) h
=
Tb NA RR1 Annual pump be.aring temperature measurements w I! not be taken since vibration is measured m atooty units.
L 15.3 X
Bearog houseng provided with sightglass at al level feservor ind+cator_ locat.
(O) g m
M a
~if
~s_
o.t, E E 8E
- a=m
~
1 BVPS-1 IST E
?
PUMP TESTING OUTLINE M
h x
e:i Pump Pump iCode Dwg. OfA ho.: 24-2 System: 24 Auchary Feedwater 5
Name: Steam Dnven Aunt.ary Feed Pump Number: I FW-P 2 Class: 3 Dwg. Coord.: F-7 m
-e e
Function: Provide emergency make-up dunng any loss Type: Centnfugal Remark s: Se RR1 and RR3 Pump is tested quarterly on of normal feedwater reorculation flow and at full flow dunng cold l
o shutdowns and refueimg outages.
[
Parameter iOST Reg'd Comments 3
g e
(Frequency) d j
N 24.4 (0)
X No insta: led rpm indication Use portatse monitoong equipment-stroboscope 3
3 O
i O
-+
74 9 X
No instatted rpm indication Use portab:e monitonng equipment-stroboscope I
(CSD.R)
{
Pi 24 4 (O)
X Local suction pressure mdicator [PI-1FW-156]
O I
24 9 X
. Local suction pressure md cator [P!-1FW-156]
[
(CSD.R) g o
{
AP 24 4 (O)
X
. Calculated usmg discharge pressure mdicator [Fi-1FW-155] and pump suction pressure, local c) 2-2 t
E 24 9 X
Calculated using d:scharge pressure indicator [Pb1FV' 155] and pump suction pressure. local.
O (CSD R6 2
Q 24 4 (O)
RR8 Fion measurement performed at cold shutdowns and refuehng cutages E
m tn 24 9 X
Summation of flow to Steam Generators through flow indicators [F1-1FW-100A. B and C] Control Room (CSD.R)
V 24 4 (O)
RR1 Portable monitoring equipment us4 rig veloaty un !s.
24 9 RR1 Portable monitonng equipment using velooty units (CSD.R 6 Tb NA RR1 Annual pump beanng temperature measurements will not be taken since vibrat<on is measured l m velocity unets L
24 4 (O)
X Visual check of oil level in o I pump suction line y
o O
24 9 X
Visual check cf oil levet m oil pump suction ime.
y (CSD.R) a' <
o@$
~oc 3 C a=m e
O O'
O v
BVPS-1 IST E
Q
- PUMP TESTING OUTUNE h
Pump Pump Code Dwg. CM No.: 24-2 System: 24 Auxiliary Feedwater 5
x e
Nrme: 3A Motor Driven Auril ary Feed Pump Number: 1 FW-P-3A Class: 3 Dwg. Coord.: F-2 6
Function: Provide emergency make-up dunng any loss Type: Centrifugal Remarks: See RR1 and RR8. Pump is tested qi arterly on of normal feedwater d
8 recirculation flow and at fuff flow dusing cold l
shutdowns and rduehng outages.
h Parameter 10ST.
Req'd Comments g
(Frequer.cy) d g
N NA NA Constant speed induction motor.
3 O
O Pi
- 24 2 (O)
X Local suction pressure indicator [PI-1FW-156A]
Ox>E 24 8 X
Local suction pressure indicator [P!-1FW-156A}
m (CSD,R)
Ox AP 24 2 (O)
X, Calculated using discharge pressure indicator [PI 1FW-15SA] and pump suction pressu<e, local C
24 8 X
Calculated using discharge pressure inricator [PI-1FW-155A.] and pump suction pressure, local.
3 C
(CSD,R) z Q
24 2 (O)
RRB Flow measurement pe. formed at cold shutdowns and refueling outages.
O 24 8 X
Summation of flow to steam Generators through flow indicators [Fl.1FW-100A, B and C), Control Room.
Q (CSD.R) m tr.
V 24 2 (O)
RRt.
Portable monitoring equipment using velocity units.
24 8 RR1 Portable monstoring equipment using velocity units.
(CSD.hp Tb NA RR1 Annual pump beanng temperature measurements will not be tal.en since vibration is measured on velocity units.
L 24.2 (O)
X visual check of oil level in oil pump suction line.
4 24 8 X
Visual check of ost Icvel in oil pump suction line (CSD,R) y*
S
~ 5'
=s-O?E O C
-s 3 o c2 = m
)
s
'V s
BVPS-1 IST E
?
PUMP TESTING OUTLINE D
o Pump Pump Code Dwg. OM No.: 24-2 System: 24 Auxi3ary Feedwater 5
Nrme: 3B Motor Driven Aunhary Feed Pump Number: 1 FW-P-3 B Class: 3 Dwg. Coord.: F-5 m
-4 o
Function: Provide eme-wy make-up during any loss Type: Centrifugal Remarks-See RR1 and RR8 Pump is tested quarterly on "w
of normal fe5 iter v
recirculation flow and at full flow durmg l
y o
cold shutdowns and refuelmg outages.
3 Pcrameter 10ST Req'd Comments (Frequency) h 9
-4
=
N NA NA Constant spew induction motor.
o O
m
- s O
Pi 24.3 (O)
X Local suction pressure indicator [Pi-1FW-15GB]
O I>E 24.8 X
Local suction pressure indicator [PI-1FW-156B]
(CSD.R) g x
AP 24.3 (0)
X Calculated using discharge pressure indicator [PI-1FW-1552] and pumn suction pressure, local.
C 24 8 X
Calculated us;ng :sischarge pressure indecator [PI-1FW-155B] and pump suction pressure, locat c
(CSD R)
Q 24 3 (Q)
RR8 Flow rneasurement performed at cold shutdowns and reluchng outages.
O=
24 8 X
Summation of flow to Steam Generators through flow endicators [FI-1%-100A, B and C], Control Room Q
(CSD R) i m
us 1
24.3(O)
RR1 Portable monitoring equipment using velocity units, 24.8 RR1 Portable monitoring equipment using velocity units.
(CSD,R)
Tb NA RR1 Annual pump bearing temperature measurements will not be taken since vibration is measured in velocity units.
L 24.3 (O)
X visual chick of of level in oil pump suction Inne-24 8 X
Visual check of oil level in al pump soction line.
(CSD R) y*
c Q
Wo s-OOEE C
g:3 o o=m i
i l
l BVPS-1 IST E
?
PUMP TESTING OUTLINE 2
o Pump Pump Code Dwg. OM No.: 30-1 System: 30 River Water 5
Nrme: 1 A River Water Pump Number, 1WR-P-1 A Class: 3 Dwg. Coord : B-1 H
o Function: To provide a source of water during Type: Vert: cal Remarks: See PRI and RR2 normal and emergency condittons to y
8 w
primary plant heat exchangers and eqwpment.
l Pzrameter 10ST Req'd Comments g
(Frequency) d n!.
i N
NA NA Constant speed induction motor.
3 O
O Pi 30 2 RR2 No snstalled mstrumentatton to measure suction pressure Calculate Pi using the I
(O)
Ohso river level recorder [LP-1CW-101). local l
[-
AP 30 2 X
AP ss calculated using the pump Ctharge pressure indicator [P!-1RW-101 A] and
]
l (O) the calculated Pa. local.
m Q
30 2 X'
Flow indicator [F1-1RW-102A]. Control Room 2
E (O) m E
O V
30 2 PRI Portable monitoring equipment using velocity units.
D l
(O)
I 0
Tb NA RR1 Annual pump bearing temperature measurements will not be taken since vibratron is measured j
in velocity units g
L NA NA No lubricant level or pressure to observe Lubrication es by the fluid being pumped.
m j
m r.1 Oo D
u tu
'1-o9$
~oc "3
o o c= m e
G G'
~
O v
BVPS-1 IST l
{
E
?
PUMP TESTING OUTLINE x
e Pump Pump Code Dwg. OM No.: 30-1 System. 30 Rrver Water 5
. Name: 1B River Water Purnp Number: 1WR-P-1 B Class: 3 I
Dwg. Coord.: C-1 m
' Function: To provide a source of water dwing Type: Vertical Remarks: See RR1 and RR w
o S-normal and emergency conditions to d
8 primary plant heat exchangers and equ6pment.
[
Pcrameter 10ST Reg'd Comn ents
~
h (Frequency).
d g
N NA NA Constant speed induction motor.
3 3
O l Ohio river level recorder [LR-1CW-1Gt]. local.
Pi 30.3 RR2 O
No installed instrumentation to measure suction pressure Calculate Ps uung the 2
(O) l h
?.P 30.3 X
AP is calculated using the pump d:scharge pressure indicator [Pl-1RW-101B] and y
(O) the calculated Pi, local m
Q 30 3 X
Flow indscator [Fi-1RW-1028] Control Foom.
k (O) 5
)
n 4
V.
30 3 RR1
. Portalde monitoring equipment using irelooty units (O)
~
=
Tb NA RR1 Annual pump bearing temperature measurements will not be taken since vibrata is measured O
rn velooty unds.
r-L NA NA No lubrir et level or pressure to observe. Lubrication as by the flwd being pomped mm a#
"S-QtC O C
-* 3 o o=m
BVPS-1 IST E
?
PUMP TESTING OUTLINE x
o Pump Pump Code Dwg. OM No.: 30-1 l1ystem: 30 Rrver Water 5
Name: 1C Rsver Water Pump Number: 1WR-P-1C Class-3 Dwg. Coord.: D-1 Function: To provide a source of water durmg
' Type: Vertical Remarks: See RR1 and RR2.
-4 o
normal and emergency conditions to v
d 8
primary plant beat exchangers and equipment.
h Parameter 10ST R eq'd Comments
]
g (Frequency) d E
N NA NA Constant speed mduction motor.
3o Pi 30 6 RR2 No installed mstrumentatson to measure sucta pressure. Calculate Pt usmg the O
I j
(O)
Ohio river level recorder [LR-ICW-101]. locat l
h AP 30 6 X
AP is calculated using the pump discharge pressure indicator [Pi-1RW-101C] and (O) the calculated Pa, local Om Q
30 6 X
Flow indicator [F1-1RW-102A or D] Control Room.
2 (O)
E m
V 30 6 RR1 Portabb monitormg equipment using velooty units 40) h Tb NA RR1 Annual pump bearmg temperature measurements writ not be taken smce vibrat:en is measured
~~
C m velocity uruts.
L NA NA No lubricant level or pressure to obse.
Lubrication is by the fluid be.ng pumped o
TD
'C 2
Oo W
w s_
O, O1E C
g2 o
om e
9 9-
\\
s f
~;
tn
^
e PUMP TESTING OUTLINE x
a Pump Pump Code
' Dwg. OfA No.- 36 System; 36 Station Serv,ce 4hV Nr;me: 1 A DG #1 Fuel Transfer Pump Number: 1 EE-P-1 A :
Class: 3 Dwg_ Coord.: B-4 o-Function: Transfer fuel from the underground Type: Positive Remarks See RRt. AR9 and RR10. Pump is tank to the day tank.
Displacement normal!y tested monthly d
8 v
z
- E Parameter 10ST Req'd Comments O
C (Frequency) j g
N NA NA Constant speed induction motor.
-a
~re
~
7 0
x x
3 Pi 36.1 RR9 No suction pressure at pump due to physu 'ocation of svttion tank (underground) Pump is self h
(O).
pnmmq and no suct on pressure gauge is instaued Apos4tive displacement pump)
M AP 36.1 RR9 AP across a posative displacement pump is meanergtess in determining pump degradatiort E
(O)
- Based on pump discharge pressure mdicator [PI-t EE-101A] local O
Q 36 1 RR10 No instrumentateon proveded - Level change over time in 7 e day tank weit be n casured (O) and converted to flowrate.
c I
V 36.1 RR1 Portabtv monstoring equipment using velocity units.
E m
10)
E Tb NA RR1 Annual pump beanng temperature measurements wdf n st be taken smce vibration is measured D
E i
in velocity un6ts_
g l
t L
NA.
'NA No lubricant level or pressure to observe _ Lubricatron is by the flu +d bemg pumped r-<
I
,u 4
C m
M't-OEC O C awn
-...~,-.-
BVPS-1 IST I
E E
PUMP TESTING OUTLINE mx e
Pump Pump Code Dwg. OM No.: 36-2 System: 36 Station Servwe 4KV 5
Home: IB DG #1 Fuel Transfer Pump Number: 1 EE-P-18 Class: 3 Dwg. Coord.: A-4 Function: Transfer fuel from the underground Type: Positrve I Remarks: See RRt. RR9 and RR10_ Purrp es o
tank to the day tank Desp!acement f normally tested mcmthly d
8 Z
- E Parameter 10ST Req'd Comments O
(Frequency) j g
N NA NA Constant speed enduction motor.
-4 u
[
O n
"X3 3
Pi 36.1 RR9 No suction pressure at pump due to physical location of suction tanA (underground) Pump is self
}
h (Q) priming and no suction pressure gauge is installed (positrve displacement pumpk N>
AP 36.1 RR9 AP across a positive displacement pump is meanmgless in determining pump degradation 5
(O)
Based on pump discharge pressure ind,cator [Pi-1EE-101 A]. local
'O Q
36.1 RR10 No instrumentation provided - Levet thange over time en the day tank will be measured (On and converted tr flowrate.
E 7
V 36 1 RR1 Portable morutoring equipment using veiocity units
'6 (O)
E t
=
Tb NA RR1 Annual pump bearing temperature measurements mil not tre taken since vibration is measured g
in velocaty units e-L NA NA No lubncac+ teve! or pressure to observe. Lubrecat6on is by the fluid bemg pumped d
y r-<
(f)
'U
, na O
C "X7 i
w?_
c, a :
'6C 3 o a c= m I
e O
O'
- (
. {
BVP31LST E
?
PUMP TESTINO OUTLINE m" (
x o
Pump Fump Cede Dwg. Ont Po; 36-2 System: 36 Station Service 4KV 1
lNssne: 1C DG #2 Feet dansfer Pump Number: 1EE-P-1C Class: 3 lDwg. Coo,d; F 4 l
w o
Function: 7 ansfer fuel from the underground Type: Fos +tive :
Remarks: See RRI. RR3 and RR10 Pump is
!ank to the day tank.
De*,)lacement normally testea monthly,.
d o
~
f Ftrameter TOST Req'd Comments O
2I a
(Frequency)
(n l
,j N
NA NA Constant speed enduction mc. tor.
y r*
3 b
Ps 3C 2 RR3 No suction eiressure at pump due to physicas location of suctron taak (undergroundi Pump *s self h
(O; priming and no section pressure gauge is insta!ted (pr sitive displacement pump) x>
A?
06 2 RR9 AP across a pos4tive despiacement purrp is meaningless en determenmg p>mp degradation.
C (O)
Based on pump discharge pressure ind>cator [FI-1LE-102A. locas.
y 3
-Q 36 2 RR10 No instrumentation prov ded - Leve, enange over teme in the day tank will be measured (O) a?4 converted to ficarate.
i c
V 36 2 RR1 Portable moniformg equipment using ve!ncsty unets.
5m (O)
"> hI l
=
Tb NA RR1 Anntsat pump bearing temperature measurements wd1 not be taken since vibrateon is measured j
en velocity urwis.
d L
NA I'
NA No lubricant level or pressure to observe. Lubrecabon is by the fluid being pumped I
c-I t
J I
j mw 4
4 4
I.
?
o M C
=s-otC
- oC
-= *3 o c> - ~
.m
~...,..
. a
B7K t IST A
E f'
PUMP TESTING OUTLINE m
~w
- .o a
Pump Pump Code Dwg. OM Nor 3o-2 Sy:. tem: 36 Station Ser&.e 4KV 5
N rme: 1D DG //2 Fuel Transfer Pump Number-1 EE-P-1 D Class: 3 Dwg. r, :>rdc E-4 l
-~
a r,
Function: Transfer fue; from the underground Type: Posawe Remai See R'11 RR9 and RR10. Pamp is y
~
tank to the day tank.
Desplacement noroady fewed montNy.
ld z
t Pcrameter 10ST Req'd Comments g,i O
(Frequency)
.$.3 g
N NA NA Constant speed inductron motor.
~m
~
t 6
'n 3
Pi 36.2 RR9 No suction pressed at pump due to physecallocation of suction tank furwkpaur4 Pump is self h
(C) priming ard nc, suction pressere gauge is mstalled (posatsve displacement u np) i 2>
AP 36 2 RR9 AP ac oss a positsve disp acement cump is mearwrsiess in determerung pt.mpd. gret.o-i 5
(C)
Based on pump discharge pressure end:cator [F!-1ES-102Al scca!.
Q 33 2 RR10 No mstrumentation proveded - Level change over time in the day tank wi!! be measurw
{
]"
l (O) and converted to flowrate 2
V 36 2 RRt Portable mon +toring equipment using velooty units (OJ Tb NA RR1 Annua! pump bearing temperature measurements wd! not be taken sance vibration is measured h
sn velocity untts.
L NA NA No tubricant leven or pressure to observe Lubrication es by IM fiued bemg pumpect i
r-<
sn W
7 v.r
~
o G 2 w e I. ~
onS
- oe a 3 o U:
O as PJ,
l e
e O'
4 Beaver Vallo/ Power Station
'Jnit 1 Issue 2 ReWsion 8 I
ItJSERVICE TESTING (IST) PROGRAM FOR PUMPS AfJD VALVES Page 38 of 160 SECTION lil:
PUMP TESTING RELIEF REQUESTS O
4 O
t
Beaver '/ alley Power Station Unit 1 tssue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 39 of iso RELIEF REQUEST 1
Pump Mark No(s).:
1CH P-1 A 10S P-4 A 1RS P-20 1WR P 1 A 1CH P-18 10S P-4B 1CC-P 1 A 1WR-P-1 B 1CH P 1C 1QS-P-4C 1CC P 1B 1WR-P 1C 1CH P 2A 10S P-4D 1CC P-1C 1EE-P 1 A 1CH-P-2B 1RS P 1A 1FW P 2 1EE P 18 1QS-P-1 A 1RS.P 1B 1FW P-3A 1EE-P 1C 1QS P418 1RS-P 2A 1FW P-3B 1 E E.P-1 D Code Test Requirement:
Quarterly Vibration amplitude measurements in mils and annual Bearing Temperature Measurements.
Dasis for Relief:
The mechanical characteristics of a pump can be better determined by taking vibration measurements in velocity units than by taking the vibration measurements in displacement units and by bearing temperature measurements taken annually.
Vibration severity is a function of both displacement and frequency. Therefore, v;bration in velocity units is the more accurate description of the vibration, in addition, velocity measurements are more sensitive to small changes that are indicativc of developing mechanical ptoblems and hence more meanin0ful than displacement measurements. Velocity measurements ietect not only h',
amplitude vibrations that inti!cate a major mechanical pe rh!om, i,M also the eaually harmful low amplitude high frequency vibrations due to misali nment, imbalance or bearinD wear that usually go 0
undetected by simple displacement' measurements. Also, a bearing will be ceriously degraded prior to the detection of increased heat at the bearin0 housing. Quarterly vibration velocity readings should achieve a much higher probability of detecting developin0 problems than the once a year reading of 'caaring temperatures. Therefore, relief is equested from measuring bearing temperatures annually and from measuring pump vibration in displacement units (mils).
Alternate Test:
Obtain pump vibration measurements in accordance with the vibration measurement requirements and corrective actions of ANSI /ASMF OM 6, and measure vibration in velocity units (in/sec) using the ranges listed in OM-6 (revision 8) as acceptance criteria. (See the attached table). Annual pump bearing temperature measurements will not be taken.
b i
Deaver Valley Power Station -
Unit 1 tssue 2 Revision 8 i
lt4 SERVICE TESilt4G (IST) PRC 7 RAM FOR PUMP 3 AtJD VALVES Pago 40 of 180 Q
y, RELIEF REQUE.ST i
TABLE RANGES _OElEST PAR AMEIERS (')
TEST ACCEPTABLE ALERT REQUIRED PUMP TYPE PARAMETER
_8 AJ{G E_
BANGE ACILofLBAEGJ Centrifugal (2)
Vv 52.5 Vr
> 2.5 Vr to 6 Vr
> 6 Vr and Vertical but not
' but not Line Shaft (3)
> 0.325 in/sec
> 0.70 in/sec Reciprocating (4)
Vv 52.5 Vr
> 2.5 Vr to 6 Vr
> 6 Vr Notes:
1.
Vv represents the peak vibration velocity. Vr is vibration reference value in the selected umts.
2.
On centrifugal pumps, measurements shall be taken !n a plano approximately n
perpendicular to the rotatin0 shaft in two orthogonal directions on each accessible pump bearing housing. Measurernent also shall be taken in the axial direction on each accessible pump thrust bearin0 housin0 3.
On verticalline shaft pumps, measutomonts shall be taken on the uppor motor bearing howin0 in three orthogonal directions, one of which is the axial direction.
4.
On reciprocating purnps, the location shall be on the bearing housing of the crankshaft, approximately perpendicular to both the crankshaft and the lino of plunDor travel, i
l
' O l
i t
)
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 41 of 180 0 RELIEF REQUEST
_2 Pump Mark No(s),:
- 1CH P-1 A 1CH P-26
- 1CH P-1B 1st P-1 A 1RS-P-1 A 1WR P-1B
- 1CH P 1C 1SI-P-18 1RS-P 1B 1WR P 1C ICH P-2A
- 10S P 1 A
- Interim relief is granted for these pumps until 9R only.
Code Test Requirement:
Measurement of pump suction pressure before pump startup and durmy test.
Basis for Relief:
No mstalled instrumentation exists to measure suction pressure, therefore, relief is requested frorr this requirement.
Alternate Test:
The static head from tanks or the Ohio River elevation will be used to calcutate suction pressure, once per test.
RELIEF REQUEST 3
Pump Mark No(s).:
1CH-P 2A 1 C H-P-2 B Code Test Requirement:
Measurement of flow and AP, Basis for Rc!!cf:
These pumps are tested in fixed resistance recirculation lines. Therefore, either the measured flowrate or the measured differential pressure can be considered constant and at its reference value. The other test quantities may then be measured or observed and recorded.
Alternate Test:
Test quarterly through their recirculation lines while measuring pump AP per 10ST-7,1 & 2. Test during refueling outages per 10ST 7.13 & 14 by measuring pump AP and by calculating flow. F:aw will be calculating by transferring water between boric acid tanks and measuring the change m tank lovel over time, when technical specifications requiro only one of two boric acid sources and flow paths to be operable. Testing in this manner will require partially draming down one tank to make room for the transfer.
I s
'~
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 l INSERVICE TESTING (IST) PRO (c,..ni FOR PUMPS AND VALVES Page 12 of 180 i
RELIEF REQUEST 4
Pump Mark No(s).:
1RH-P-1 A 1RH-P-10 Code Test Requirement:
Quarterly pump testing.
Basis for Relief:
Testing the RHR pumps quarterly would require making an entry into the subatmospheric containment. In addition, any testing done at power would.be limited to the pump recirculation flow path due to pressure and temperature interlocks between the RHR and RC Systems which prevent lining up the two systems at power. The pump recirculation flow path lacks the necessary instrumentation to measure pump flow rate.
Alternate Test:
These pumps will be tested quarterly during cold shutdowns and refueling outages per 10ST-10.1.
RELIEF REQUEST 5
Pump Mark No(s).:
~
IQS P-4D Code Test Requirement:
Measure suction pressure, AP and l'ow.
Basis for Relief:
The function of these pumps is to provide NaOH water to the suction of the quench spray pumps during an accident.
Since these pumps are positive displacement, flow rate and differential pressure are independent varial;ies. Unlike centrifugal style pumps, it is not necessary to measure both parameters to assess the hydraulic performance of these pumps.
Alternate Test:
Pump discharge pressure and flow rate will be utilized for evaluating pump performance.
O I
l
o Beaver Valley Power "tation Unit 1 issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVE 3 Page 43 of 180 RELIEF REQUEST 6
Pump Mark No(s).:
1RS-P-1 A 1RS P 1B Code Test Requirement:
Quarterly pump testo.
Basis for Relief:
The function of these pumps is to take suction on the containment sump and discharge io the spray rings on the z-containment ceiling during a DBA. In order to test these pumps, a ternpc.ary dike must be installed in the containment around the sump to ensure adequate NPSH for l
each pump. Quarterly testing at power in this manner is a safety concern since it would block off the sump from the containment in the event of an accident. Pump testing during cold shutdowns, while not involving the same safety concern, would increase personnel radiation exposure, create over 2.000 gallons of additional radioactive wasta, divert ma.ntenance from higher priority items, and could extend the length of a plant shutdown due to the extensive preparatory work required to properly install the dike.
Alternate Test:
Dry run quarterly per 10ST 13.3 and 13.4 for not more than 60 seconds and stopped when they reach 100 rpm. Also, run on recirculation per 1BVT 1.13.5 during refueling outages.
(
t O
Beaver Valley Power Station Unit 1 Issue 2 f
Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 41 of 180
)
J RELIEF REQUEST 7
Pump Mark Co(s).:
1RS-P-2A 1RS P-28 Code Test Requirement:
Quarterly pumps test.
Basis for Relief:
The function of these pumps is to take suction on the containment sump and discharge to the spray rings insido containment. The pumps are designed with a recirculation flow path for testing; however, the pipin0 arrangement and required valve lineup for post test system rostoration prevents dr-!ning the pump casing and suction lines without returning some water to the sump in the containment l
building. As a result, a containment entry is required to pump the sump down. Performing this test also creates radioactive waste, increases personnel radiation exposure and could in'3 ease Ino maintenance required on the pump suction and discharge MOVs which must be cycled closed to
- /~~
perform this test placing a differential pressure across these
\\
valves not normally seen under either normal or accident conditions.
Alternate Test:
Run dry quarterly per 10ST-13.5 and 13.6 for not more than 60 seconds and stopped after visually observing an increase in motor amperage and pump shaf rotat!on. Also, run on recirculation per 10ST 13,7 during refueling outages.
Beaver Valley Power Station Unit 1 issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 45 of 180 0
RELIEF REQUEST 8
Pump Mark No(s).:
1 FW-P-2 1FW P-3A 1FW P-38 Code Test Requirement:
Measuremer.t of flow and AP.
Basis for Relief:
These pumps are tested in fixed resistance recirculation lines. Therefore, either the measured flowrate or the measured differential pressure can be considered constant and at its reference value. The other test quantities may then be measured oi observed and recorded.
Alternate Test:
Test quarterly through their recirculation lines while measuring pump AP per 10STs 24.2. 3. & 4. Test during cold shutdowr. and refueling outages when plant conditions permit directing flow to the steam generators. Measure pump AP and flowrate using the flow instrunientation in the S/G supply headers per 10STs 24.8 & 9.
RELIEF REQUEST 9
Pump Mark No(s).:
1EE-P 1 A IEE-P 1B 1EE-P-1C I EE-P-1 D Code Test Requirement:
Measure suction pressure and AP.
Basis for Relief:
Relief i= requested from measuring suction p essure and differential pressure due to a lack of insts.lled instrumentation, Also, these are positive displacement pumps and the flowrate is more indicative of pump degradation than the pressures are.
Alternate Test:
Discharge pressure is recorded and trended as a further indication of pump performance.
O h
Beaver Valley Power Station Unit 1 Issue 2 x
Revision 8 y
INSERVICE TESTING (IST) PROGRAM FOR P'JMPS AND val.VES Page 46 of 180
.q V
RELIEF REQUEST 10 Pump Mark No(s).:
1 EE-P-1 A 1 EE-P-1 B 1EE-P 1 1EE4 0 Code Test Requirement:
Flowrate shall be measured uting a rate or quantity meter installed in the pump test circuit.
Basis for Relief:
There is no installed instrumentation.
Alternate Test:
The level change over tima in the floor mounted day tank will be measured and convened to the flowrate.
1 s'x t
Beaver Valley Power Station Unit 1 tssue 2 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES
. Revision B Page 47 of 180 SECTION IV:
VALVE TESTING REQUIREMENTS j
O O
t
Beaver Valley Power Station Unit 1 issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM TOR PUMPS AND VALVES Page 48 of 180
-n.h The Inservice Test (IST) Program for valves at Beaver Valley Power Station (BVPS), U' nit 1, is based on subsectica IWV - Ir, service Testing of Valves of the ASME Boiler and Pressure Vessel Code,Section XI,1983 edition through the summer 1983 addenda (the code) and Generic Letter No. 89-04, " Guidance on Developing Acceptable Inservice Testing-Programs". The valves included in this section are all ASME " Class 1,2, or 3 valves (and their actuating and position indicating systems) which are required to perform a specific function in shutting down the reactor to cold shutdown or in mitigating the consequences of an accident" at BVPS, Unit 1.
The requirements of the code will be followed at all times unless specific relief has been granted by the NRC.
A.
Category A valves are valves for which seat leakage in the closed position is limited to a specific maximum amount for fulfillment of their function. Category B valves are valves for whict eeat leakage in the closed position is inconsequential for fulfi!! ment of their function. Category A and B valves will be exercised at least once every three months to the position required to fulf!!! their function unless such operation is not practical during plant operation.. If only limited operation is practical during plant operation, the valves will be part-stroke exercised at power and full-stroke exercised.
during cold shutdowns. In the case of frequent cold shutdowns, these valves need not be tested more often than once every three months. For a valve in a system declared inoperable or not required to be operable. the exercising test schedule need not be followed. Within 30 days prior to return of the system to operable status, the valves shm! be exercised and the schedule resumed.
The time to full-stroke exercise each power-operated valve will also be measured and compared to a hmiting stroke time. Full-stroke time is that time interval from initiation of the actuating signal to the end of the actuating cycle. The stroke time of all power-operated valves shall be measured to at least the nearest second, for stroke times 10 seconde or less, or 10% of the specified limiting stroke time for full-stroke times longer than 10 seconds, whenever such a valve is full-stroke tested. Position indication lights on the control board are used for valve stroke indication for all testing.
of power-operated valves with remote positiun indicators. In addition, valves with remote position indicators will be observed at least once every 2 years (normally at refuelings) to verify that valve operation is accurately indicated.
Exception is taken to part stroke testing motor-operated valves, unless specifically -
stated. This is necessary because the motor-operated valve circuitry prevents throttling of these valves. Under normal operation, the valves must travel to either the full open or shut position prior to reversing direction.
The necessary valve disk movement shall be determined by exercising the valve while observing an appropriate indicefor, which signals the required change of disk position, or observing indirect evidence (such as changes in system pressure, flow rate, level, or temperature), which reflect stem or disk position.
All valves with fail-safe actuators (ie., air-operated valves) that are applicable to this -
program are tested from the Control Room by the remote operating switch. By placing the control switch to the closed position, or de-energizing the control power, air is V
vented off of the valve actuator thus positioning tha valve in the fail-safe position.
f
. Beaver Valley Power Station Unit 1 tssue 2 INSERVICE TESTING llST) PROGRAM FOR PUMPS AND VALVES Revision 8 Page 49 of 180 Correctivq action shall be taken if necessary, using the following:
1.
If the stroke time of a power-operated valve exceeds its previous stroke time by 25% for valves with full-stroke times greater than 10 seconds, or 50% for valves with full-stroke times less than or equal to 10 seconds, the test frequency will t:
increased to monthly. 5troke times of the valves will be examined for trends.
During the trend review, it will be determined if corrective action is necessary for any valve based on its stroke time history. When either the corrective action is complete or the review determines it is unnecessary, the original test frequency will be resumed.
2.
If a valve fails to exhibit the required change of valve stem or disk position or exceeds its specified ASME limiting value of full stroke time. : hen the valve shall be declared inoperable immediately and an evaluation of the valve's condition with respect to system operability and technical specifications shall be made as follows:
If the inoperable valve is specifically identified in the technical specifications, a.
then the applicable technical specification action statements must be followed.
b.
If the inoperable valve is in a system covered by a technical specification, an assessment of its condition nuist be made to determine if it makes the system inoperable. If the condition of the valve renders the system inoperable, then the applicable system technical specification action statements must be followed, Corrective action (ie., MWR) shall be initiated immeolately for the valve's c.
repair or repiacement, d.
Nothing in the ASME Boiler and Pressure Vessel Code shall be construed to supercede the requirements of any technical specification.
If the valve is not covered by any techr,ical specifications and the condition e.
of the valve cannot be corrected within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, then the valve shall be declared inoperable per ASME.
3.
When a valve or its control system has been replaced or repaired or has undergone maintenance that could affect its performance, and prior to the time it is returned to service, it shall be tested to dernonstrate that the performance parameters, which could be affected by the replacement, repair, or maintenance, are within acceptable limits. Examples of maintenance that could affect valve performance parameters are adjustment of stem packing, removal of the bonnet, stem essembly, or actuator, and disconnection of hydraulic or electrical lines.
The ASME limiting valve stroke time is based on the following criteria:
1.
The Technical Specification value.
2.
ESF Response Time requirements.
3.
Establish _ing a five (5) second limit for valves with stroke times under two (2) seconds.
4.
The average of past stroke times plus 100% for valves with stroke times less than or equal to ten (10) seconds.
f
^
Beaver Valley Power Station Unit 1 Issue 2 l
Revision 8 I
INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 50 of 180 5.
The qverage of past stroke times plus 50% for valves with stroke times greater than ten (10) seconds.
6.
The design time listed in the UFSAR, in addition, Category A valves are leak rate tested at the same (or greater) frequency as scheduled refueling outages, not to exceed every two years, if the leak rate exceeds the allowable limit, the valve will be repaired or replaced.
B. Category C valves are valves which are self-actuating in response to some system characteristic, such as pressure (relief valves) or flow direction (check valves;.
Category C valves are divided into two groups; safety or relief valves and check valves.
Safety and relief valves are setpoint tested in accordance with ASME PTC 25.31976 at least once every five (5) yer s, with a portion of the valves from each sydem included in the IST Program tested during each refueling outage. If any valves fall thu setpoint test, additional valves from that system must be tested in accordance with Table IWV 3510-1. If a safety or relief valve fails to function properly during a test, it will be repaired or replaced.
Check valves will be exercised to the position required to fulfill tireir function every three months, unless such operation is not practical during plant. 2ral' if only limited operation is practical during plant operation, the check valve will se part-stroke exercised at power and full-stroke exercised every cold shutdown, not to exceed more O
than once every three months. Check valves that are normally open during plant operation and whose function is to prevent reversed flow shall be tested in a manner that proves that the disk travels to the seat promptly on cessation or reversal of flow.
Check valves that are normally closed during plant operation and whose function is to open on reversal of pressure differential shall be tested by proving that the disk moves prompt ly away from the seat when the closing pressure differential is removed and flow through the valve is initiated, or when a mechanical opening force is applied to the disk.
If a check valve fails to exhibit the required change of disk position by this testing, inen the check valve shall be declared inoperable immediately and an evaluation of the check valve's condition with respect to system operability and technical specificctions shall be made as follows:
1.
If the inoperable check valve is specifically identified in the technical specifications, then the applicable technical specification action statements must be followed.
2.
If the inoperable check valve is in a system covered by a technical specification, an assessment of its condition must be made to determine if it makes the system inoperable. If the condition of the check valve renders tne system inoperable, then the applicable system technical specification action statements must be followed.
3.
Corrective action (ie., MWR) shall be initiated immediately for the check valve's repair or replacement.
4.
Nothing in the ASME Boiler and Pressure Vessel Code shall be construed to supercede the requirements of any technical specification.
h
Beaver Valley Power Station Unit 1 Issue 2 Revision 8
'lNSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 51 of 180 i If the check valve is not covered by any technical specifications and tile condition s
of the check valve cannot be corrected within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, then the check valve shall be declared inoperable por ASME.
Before returning the check valve to service after corrective action, a retest showing acceptable operation will be run.
C.
Category D valves are valves which are actuated by an energy source capable of only one operation, such as rupture disks or explosively actuated valves. There are no ASME Class 1,2, or 3 Category D valves at BVPS, Unit 1.
All the inservice testing requirements for each different category of valve in the IST Program are summarized in Table IWV 3700-1. This table lists the subarticles of the code that apply to each different type of valve.
Table IWV 3700-1 IN5ERVicE TEST QUANTITIES (1)
Valve Exercise Special Function leak Test Test Test Category (IWV-2100)
Procedure Proceoure Procedure A
Active IWV 3420 IWV 3410 None A
Passive IWV-3420 None None B
Active None IWV-3410 None C Safety Active None IWV 3510 None
& Relief C. Check A tive None IWV 3520 None D
Active Norw None IWV-3600 NOTE:
(1) No tests regured for Category B, C and D passive valves.
Passive valves are valves which are not required to change position to accomplish a specific function. As stated in the table, passive valves are not required to be exercised.
Therefore, relief is not required from exercising any passive valve and no testing requirement is listed in the outline section except whei remote position verification is required.
Certain exemptions from the valve testing requirements of the ASME code defined by subsection IWV-1200 are listed below:
1.
Valves used only for operating convenience (ie., manual vent, drain, instrument and test valves);
2.
Valves used only for system control (ie., pressure, temperature or flow regulating valves);
3.
Valves used only for maintenance; and 4.
External control and protection systems responsible for sensing plant conditions and providing signals for valve operation.
Records of the results of inservice tests and corrective actions as required by subsection IWV-6000 are maintained in tabular form. Stroke times of valves will be reviewed for developing trends.
l l
Beaver Valley Power Station Unit 1
' Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES-Page 52 of 180 if a question op valve testability exists, the IST program should be the controlling document since each component is individually assessed for testability and inclusion in the JST Program. If a valve is specifically called out in the Tech. Specs. (ie., specific valve mark number or uniquely specified by valve nomenclature) to be tested at one frequency and the IST Program andorses another frequency, then the more restrictive test frequency would be applicable.
The following three sections of this document are the " Valve Testing Outlines" " Cold Shutdown Justifications" and " Valve Relief Requests" sections, A.
The " Valve Testing Outlines" section is a listing of all the valves in the IST Program, their class, category, size, type, NSA, drawing number and coordinates, testing requirements, specific cold shutdown justification reference numbers, relief request reference numbers, and test procedure numbers and comments.
1.
The valve class will be 1,2 or 3. corresponding to the safety classifications.
2.
The category of the valve will be A, B, C or D in accordance with the guidelines of subsection lWV-2200. In addition, combinations of categories may be utilized if the valve is not required to change position during an accident or bring the reactor to a cold shutdown condition, the fact that it is Passive (P) will also be 2
indicated. For example, a containment isolation check valve that does not change position would be a category A/C/P valve. From the valve mark number given, the valve actuator can be determined from the list of abbreviations below:
FCV - Flow Control Valve HCV - Hand Control Valve LCV - Level Control Valve MOV - Motor Operated Valve NRV - Non Return Valve PCV - Pressure Control Valve Rt!
- Relief Valve SOV - Solenoid Operated Valve j.
- Safety Valve TV
- Trip Valve D
- Damper 3.
The normal system arrangement will be listed using the abbreviations below:
NSA - Normal System Arrangement O
- Open S
- Shut A
- Automatic T
- Throttled LO
- Locked Open LS
- Locked Shut 4.
The drawing number and coordinates will be the ones used in the Operating
)
Manual.
f
Beaver Valley Pcwor Station Unit 1 tssue 2 Revision 8 -
INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 53 of 180 5.
The tpst requirements will be listed using the abbreviations below:
QS
- Quarterly Stroke QST - Quarterly Stroke & Time LT
- Leak Rate Test SPT Set Point Test LM
- Leakage Monitoring POS - Position Verification NA
- Not Applicable 6.
The specific Cold Shutdown Justification (CSJ) reference nurnber or the Relief Request (RR) reference number will be listed.
7.
The specific test procedure number, frequency, type of testing, and any comments will be listed using the abbreviations below:
10M - Operating Manual (Unit 1) 1BVT - Beaver Vclley Test (Unit t) 10ST - Operating Surveillance Test (Unit 1)
CMP - Corrective Maintenance Procedure CSD - Cold Shutdown Frequency R
- Refueling Frequency SA
- Semiannual Frequency Q
- Quartere, Frequency M
- Monthly Frequency W
- Weekly Frequency S
- Shiftly Frequency FS
- Full Stroke PS Partial Stroke FD
- Forward Direction RD
- Reverse Direction RPV Remote Position Verification normally at Refueling B.
The " Cold Shutdown Just.fication" section contains the detailed technical description of conditions prohibiting the required testing of safety-related valves and an alternate test method to be performed during cold shutdowns. Cold Shutdown valve testing will commence within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> of reaching cold shutdown conditions, but need not be completed more often than once overy 92 days. Attempts will be made to complete testing prior to entering Mode 4. However, completion will not be a Mode 4 requirement. The testing will resumo where left off when next entering Mode 5. For planned cold shutdowns, where ample time is available to complete testing on all valves identified for the cold shutdown test frequency, exceptions to the 48 hour5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> requirement can be taken.
BVPS Unit I reactor containment is maintained subatmospheric as required by technical specifications. The subatmospheric condition presents a hazardous working environment for station personnel and is considered inaccessible for surveillance testing. Surveillance testing that requires reactor containment entry will be performed at cold shutdown and refueling.
C.
The " Valve Relief Requests
- section contains the c'etailed technical description of conditions prohibiting the required testing of safety-related valves, an alternate test method and frequency of revised testing.
)
<< p
- Beaver Valley Power Station.
. Unit 1 -
'(ssue'2' 1 Revision 8 -
! INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES'
- Page ' 54 of t 180 SECTION V:
~ VALVE-TESTING OUTLINES y
- l.
I t
l l-C c
1 i
I l
I.
1 e---
-~
s w
wp e-isw
SVPS-1 IS T (D
bi O
VALVE TESTING OUTLINE rn SYSTEM NAME: Reactor Ccem n
e SYSTEM NUMBER. 6 valve Drawsng CSJ or n
E_
m V;lve Mark Valve Valve Size Valve Test Rehef y
g Number Class Category 6:1)
Type NSA CM No Coord Requ.rement Requests CG.i.miits w
a 1 RC-68 2
AiC 3/4 Cneck 6-2 B-3 QS R C2 1BVT 1.47.5-FS, RD by Lear Test (R!
E h
-4 T
O t>
LT RR1 1BVT 1.47 5-Leak Test (R) 9 E
1 RC-72 2
A/C 3
Check 6-2 C-3 QS RR3 1BVT 1.47 5-FS, RD by Leau Tes! (R) h O
O LT RR1 18VT 1.47S-Leak Test (Rj x>$
TV-1 RC-101 2
A 3/4 Giobe S
6-2 B -2 QST 1 CST-47.3A(38) Strche & Time Closed (Q) (RPV) mO 71 LT RR1 1BVT 147.5-Leak Test (R)
DCE SOV.1 RC-102 A 1
8 1
Gicbe LS 6-2 A-1 QST CSJ1 1 CST-110-StrcAe & Time Open (CSD)
]
C 1051 -6.9 (RPV) 3 SOV-1 RC-102 B 1
B 1
G'ote LS 6-2 A-1 QST CSJ1 10ST-1.10-Stro6e & i.me Open (CSD) h 10S T-6.94 R PV) 4 SOV 1RC-103A 1
0 1
Globe LS 62 A-2 QST CSat 10ST-110 Siroke & T:me Open (CSD) 3>
r-105 T-6.9 ( 4 PV) h SOV 1RC.-1038 1
8 1
G!oce LS 6-2 A-2 QST CSJ1 10ST 1.10-Stro6e & Time Open (CSD) 10ST-6 9.q RPV)
SOV-1 RC-104 1
B 1
GloDe LS 6-2 A-3 QST CSJ1 10ST-1.10-Stro.e & Time Open (CSD) 105T 6 9-(RPV)
SOV-1 RC-105 1
B 1
GioDe LS 6-2 B-2 QST CSJ1 10ST-110-Stroke & Time Open (CSD)
TOST-6 9-(RPV) 1 RC.277 2
A/P 1/8 Needie 5
6-2 F-10 LT RR1 1BVT 1.47.5 Lea 6. Test (R)
+
1 RC-278 2
A/P 1/8 G!oce S
62 E-10 LT RR1 1BVT 147.5-Lear Test (4}
D PCV-1RC 455C 1
B 3
Piug A
6-2 B-10 QST CSJ2 10ST4 6-Stroke & Time Open (CSD)(RPV)
C os m
PCV-1RC-455D 1
B 3
Plug A
6-2 C-10 QST CS32 10ST-6.6-St<cs e & Time Open (CSD) (RFV) i 7
- cp
~
8 3
Plug A
6-2 C-10 OST CSJ2 10ST-1.10-Stro6e & Tsme Open (CSD) (RPV) g,y s 3 O e
G G-
e e
0-BVPS-1 IST (I) bi VALVE TESTING OUTUNE m
D o
SYSTEM NUMBER 6 SYSTEM NAME: Reactor Cooiant O
Valve Drawing CSJ or m
E Valve Mark Valve Valve Size Valve Test Rehef
-4 o~
Number Class Category (in )
Type NSA OMNo Coord Requirement Requests Comments f
TV-1 RC-519 2
A 3
6-2 C-1 OST 10ST-47.3A(3BFS'roke & Time Cu sed (Q),(RPV)
O
,o LT RR1 1DVT 147.5-Leak Test (R) h 9
B 3
G#e O
62 B9 CST 10ST-6 6-Str&e & Time Closed Q) 1C3T-6 8 Stroke Ody CR sed (CSD) (RPV)
O O
MOV-1 RC-536 1
B 3
Gate O
62 C-9 QST 10ST-6 6-Strcke & Time Closed tQ) 2 10ST 1.10-Stroke & Time Closed (CSD) (RF/)
D s
MOV-1RC-537 1
8 3
Ga'e O
62 C-9 QST 10ST-6.6-Strok e & T.e Crosed (Q) m 10S1-6 S Stroke Ordy Closed (CSD) (RPV)
RV-1 RC-551 A 1
C 6x6 Rehef 62 C -6 SPT 1BVT 160.5-(R) 7C C
RV-1 RC-551 B 1
C 6x6 Rehef 62 C-7 SPT 1BVT 1.60.5-(R) b C
E E
RV-1 RC-551r 1
C 6x6 Rehef 6-2 C-8 SPT 1BVT 160 5-(R) 6 a
.___.)
y k
m W
l CJ oo W
m s_
O. r. E O C
.a
_, e b on FO
$'g0_FxTOfk smCO3 Cb "
-$eG o e
3 G
Mms?O:
- A s
O gx>K O" TCK7m >ZO '<>~r<mw 7mCC m~ O' gO Z h<3m 4m Z
ss~ 7M n U 9
7 R
EB M
U N
M E
T
)
S R
Y
(
S ts s
e tn T
e.
k n
a m
g g
g e
)
lo ru to L
R(
o
)
e e
e Q
(
f
(
R(
C)
R v
v v
b t
D)
C
)
Q)
)
Q(
(
- a
- a
!a D
T
)
C(
y
)
Q s
A e
S
(
D D
Q)
D D
I R
D D
v v
v R
01 D
R F
(
R d
k F
F S,
D D
F d
O M
a e
S e
D S
S S
F S
S, te F
F, a
4
- a F.-
t F
S.
F F
F.
F F
F e
e e
1 1
S, S
S S
F P
6) 4 P
6) 4 P
5) 4 s
s s
1 1
P 4
5; 1
4(
1 4;
1 r
r r
7 7
0 5,
6 o
o o
4 4
1 1
1 1
1 7
7 1
7 7
7 7
1 o
d d
1 1
7 1
e e
e T
T T
T T
T T
T T
T, T
T T
S S
5 S
S S
S S
4 d
hc c
V V
S S
i 0
0 0
0 O
0 0
0 0
o o
o B
B 0
0 1
1 1
1 i
1 1
1 1
L L
L 1
1 1
s rf t ce s S l e
4 4
4 5
3 J i u R
R R
R J
e q
R R
R R
S C R e C
R
,}
tnen E
t s
S S
S S
S S
S S
S 3
T S
S s
S 5
S N
e I
es L
T i C
C Q
Q Q
C Q
Q Q
O 7
O u
P i
C L
Q C
T q
U e
TO R
S I
G 1 N l
I ST PS d
VE o
3 3
2 2
2 1
4 r
3 BT o
C D
E C
D E
C C
g C
E n
V i
L w
A a
V r
D o
N 1
1 1
1 1
1 1
3 M
7 7
7 7
7 7
7 7
O A
S O
O O
N L
L L
e e k
k o
e e
k k
c c
vp e
e e
ta ta te c
c lay a
h h
a e
e VT C
C C
G G
G t
h C
C lo r
tn e e) v o
z lain 3
3 3
3 3
3 3
2 C
i Vs(
e mo y
to eor V
lvg P
P P
C c
a t C
C C
e
/
/
/
/
C n
Va 8
B 8
A.
a C
lac i
es m
vsa 2
e lal 2
2 2
2 2
2 3
h VC C
e E
M kr A
a re N
Mb M
em vu 2
3 4
5 6
7 1
5 E
2 2
laN J
2 2
2 2
3 7
T S
V H
H H
H H
H H
H Y
C C
C C
C C
C C
S 1
1 1
1 1
1 1
1 f
s
- O O
D" BVPS-1 IST g;
..h VALVE TESTING OUTLfNE Z
SYSYTM NAMil: Chemical ar.d Vo6ume Control m
SYSTEM NUMBER. 7 x
Valve Draweng CSJ or g
Valve Mark Valve Valve Size Valve Test Re8ief m
E Nurnber Class Category (in )
Coord Requirement Requests Ca. aments I
y -
1CH 76 3
C Check 7-3 G-4 QS 10ST 72-PS, F 9 (Q)
.T y._
z s
QS CSJ3 10ST-1.10-FS, FD (CSD) fE rn 52 1CH-84 3
C 1
. Check 7-3 E-7 QS CSJ9 10ST-1.10-FS, F D (CSD)
'[-
3
- D 3
FCV-1CH-113A 3
8 2
Globe A
73 E-7 QST 10ST-47.3A(30) Strok e & Time Open (Q) (RPV)
O g
- U>
UOV-1CH-1158 2
B 6
Gate S
7-1 E-6 QST 10ST-47.3Af 39bstroke & Time Open (Q)(RPV) 1 O
8 4
Gate O
7-1 G5 QST CSJ4 10ST 1.10~ Strok e & Time Closed (CSD) (RPV) 2 TC MOV-1CH-115D 2
8 8
Gate S
71 E-6 QST 10ST-47.3A(3Bbstroke & Time Open (Q) (RPV) 5 h
C MOV-1 C H-115 E 2
8 4
Gate O
71 F-5 QST CSJ4 10ST-1.10-Strove & Time Closed (CSO) (RPV)
D E
'3 b
1CH-135 3
0 1
7-3 E-B QS 10ST-47.3A(3BFStroke Ordy Open (Q) h i
E
' 1CH-4 36 3
C 1
Check 7-3 F-8 QS CSJ9 10ST-1.10-FS, FD (CSD) 1CH-141 2
C 2
Check 7-3 G-8 QS CSJS 10ST-1.10-FS, FD 1.CSD)
MOV-1CH-142 2
A/P 2
Globe S
7-1 A-9 LT RR1 1BVT 147.5-Leak Test (R), (RFV) 1CH-152 2
C 2
Cr'eck 7-1 C-3 QS 10ST-7.4-FS, FD (Q) i e
QS 105T-7.5(6FFS, RD (Q) 1CH-153 2
C 2
Check 7-1 D-3 QS 10ST-7.5-FS. FD (Q)
2 too QS 10ST-7.4i6FFS, RD (Qj c.n h
- i-9,o eTJ E
. g3 @
o=m e
em$'<E y=O *.Jyo C32 "
..C
_$ca M es?Oo m b=$<gm4 zfi-]aOg" >$ OW TC5$ hO hr<]
]oG oe O]b ls 4
)U n
s G
7 R'
E B
)
)
M V
V U
P P
N R(
R M
Q)
()
T
(
Q(
E S
)
)
)
d d
R e
e Y
r
(
Rt R(
s s
S o
)
t t
ts lo lo f
s s
ts dR e
e e
C C
e te(
T T
T n
t e
e.
c s k
k k
n rr m
ee a
a a
)
T e
e g
g
)
g r
e e
e i
)
)
mo to lo R(
to r
t L
R(
L
(
L
(
R)
T R
R C
)
e e
s e
e b
s b
s b
s e
(
R) ox t
c a y
t y
t y
t
(
)
Q(
la fa T
la g
D T
0 T
D T
o e
o e
e v
v e
v el e
e e
v s
v ts t
g Q(
RD v
v v
a n k
k i R
9 R
T tr T
F S,
d d
a d
ar e
S, e
S, k
tr x
k a
a a
s S
D e
e u S
e p
ta a
ta a
e 1 P L
F L
F L
3 e
8) t e
e e
- a L
3 L
t L
L d F
e S,
F e
e 1
1 1
1 1
1 1
5 A(
5 b
s s
1 s
1 o 1,
1 1
1 1
A F
5 r
r 7
r 7
7.
7 7
7 7
7 3
7 3
7 6
4(
o o
4 o
4 la 4
4 4
4 4
4 7
4 7
4 d
d 1
d Ln 7
7 1
1 1
1 1
1 4
1 4
1 T
T e
e T
e o.
Tt T
T T
T T
T T
T T
7 S
S b
V kc Vc V
V V
V V
V S
V S
V c
t 0
0 o
o B
o 8n 8
3 8
8 B
8 0
B 0
B u
1 1
L L
1 L
1 f 1
1 1
1 1
1 1
1 1
1 oe ts rf 7
7 s
R R
i e 6
6 6
Jl u R
R R
R, R,
e S
q R
R R
1 1
C R e R
R R
R R
tne m
E t
e S
S S
S S
s T
T IN O
T S
T S
T S
T er O
Q O
O T
G S
T S
T L
L Q
L Q
L Q
L L
T iu P
P P
L L
Q Q
T q
U e
TO R
SI G 1 N I
ST PS dr 3
VE o
3 3
3 3
2 4
4 4
5 4
DT o
E C
D G
E G
B D
G A
A g
C
. E n
V i
L w
A a
V r
D o
N 1
1 1
1 1
4 4
4 1
1 M
7 7
7 7
7 7
7 7
7 7
7 O
A S
O O
O S
N L
L L
S O
e e k
e e
e k
k k
k e
e vp c
t t
b e
c c
c c
b b
e a
a ay h
lo ta e
e e
e l
VT C
G G
G G
n h
n h
lo lo C
C C
C G
G to r
f e
r e) v o
z lain 2
3 3
2 3
2 2
2 2
2 2
C i
V S(
e r
ru y
!o eo P
r V
v g P
P P
P
/
C C
C d
lae C
/
i t
/
C
/
/
B B
A 8
/
A A'
A A
A n
Vt a A
a C
lac i
es m
vsa 2
2 2
2 2
1 2
2 2
2 2
e lal h
VC C
e EM kr 0
A a r 6
A 8
e N
Mb C
0 1
0 0
M em 4
8 9
H 2
2 1
0 1
2 3
vu 5
5 5
C 6
7 8
8 8
H H
E laN
~1 1
1 1
1 1
1 1
T C
C S
V H
H H
V H
H H
H H
1 1
Y C
C C
C C
C C
C C
C C
S 1
1 1
F 1
1 1
1 1
T T
i,l!,f!
l
e l
4 BVPS-1 iST h
2 VALVE TESTING OUTLINE O
at SYSTEM NUMBER. 7 SYSTEM NAME. Chemical anc Volume Contro!
7 Drawing CSJ or 3
l Valve g
Valve Mark Valve Vafve Size Valve Test Rehef m
Number Class Category (en )
Coord Requirement Requests Comments y
g TV-1CH-200C 2
A 2
Glote S
7-1 A-7 QST iOST-47 3At38)-Stroke & Time Oused !Q)tRPV) 3 U
E O
LT R R1,R R 7 1BVT 1.47.5-Leak Test (R) w 52
-~4 cs RV-1CH-203 2
A!C 2x3 Rehef 7-1 A-5 SPT 1BVT 160 5-(R)
]
2g m
~
O LT RR1 1BVT 1.47.5-Lea 6 Test (R) g)
D i
1 Gate O
7-1 B-10 QST CSJ6 10ST-1.10-S: rue & Teme Cosed (CSDXRPV) l TV-1 CH-204 2
A 2
O LT RR1 1BVT 147.5-Leak Test (R)
"U "U
C RV-1 CH -209 2
C 2x3 Rehef 71 D 10 SPT 1BVT 160.54R)
C b
C 3
RV-1C H -257 2
C 3x4 Renef 73 B8 SPT 1BVT 100.5--(R) 6 MOV-1CH 275A 2
0 2
Glote O
71 C-3 QST 10ST-47.3A(38)-Stro&e & Time Cosed (Q)(RPV) y r-<
, MOV-1 CH-2758 2
0 2
Glote O
7-1 D-3 QST 10ST-47.3Ai3G) Stro*e & T#me Closed (Q;(RPV)
Q MOV-1CH-275C 2
8 2
Gicoe O
7-1 E-3 QST 10ST47.3A(30FStroe & Tirre Oosed (Q)(RPV)
MOV-1CH-289 2
A 3
Gate O
7-1 D-1 QST CSJ6 TOST-1.10-stroke & Time Dosed (CSOHRPV)
LT 1BVi 1.4711-Ls Test (R) l l
MOV-1CH-308 A 2
A 2
Glote O
7-4 B-3 QST RR10 103T-1.10-strc+e & Teme Oosed (CSDMRPV)
LT 1BVT 147.11-Leak Test (R) y to O
MOV-1CH-308B 2
A 2
Globe O
74 D-3 QST RR10 10ST-1.10-Stro&c & T*me Oosed (CSD)tRPV) e[
O i *-
O tw LT 1BVT 1.47.11-Leak Test (R)
'O c
3 e o r, m w
y
i ha$' <G_
yEO5cy=
CsE **
22
$g h1nO
- l bEm<gm y Z[U-]xOc)D>E O% %C53 Db hr<]
8% m" o] O S1 n
O 7
R E
B
)
)
V)
V V
M
)
P V
U V
V)
P R(
V)
P P
)
)
N P
P R(
P X
(
V)
V R
R M
R R(
R)
R R
R)
P P
R R
E t
(
H H
M 4
T D
D}
Q(
D)
D)
D D
D D;
E S
S S
n S
S.
S S
S S
S
(
C e
R)
C(
C(
C(
C(
C(
C(
Y C
(
O
(
p t
o d
t d
o d
d d
d s
e e
s e
e e
e e
e n
s s
e e
s s
s s
s s
e o
o r
T o
o o
o to o
r m
C e
C C
C
)
C
)
C C
m R)
C T
ka
)
e e
e R
e e
e R
e R
e e
o n
(
m L
(
m i
m
(
m
(
m m
t m
t C
i e
Ti k
y s
T T
Tr t,
i t
i T
r s
e T
T s
T i
T o
b e
e e
t D
r T
T T
x e
a e
S k
e e
e k
e k
e e
R, k
e k
)
S e
o o
o e
o e
R)
R(
R(
t t
a k
k k
a n
a
)
k k
o L
r o
0 r
o o
r r
t r
t 1
t 3
F L
t t
t 5
1 A
r L
r L
i S
S 1
5 S
S S
S 5
5 5
5 S
S 0
7 0
3 7.
7 0
0 0
7 0
7 0
3 0
0 0
1 4
1 7
4 4
1 1
1 4
1 4
6 6
6 1
1 1
1 1
4 1
1 1
1 1
1 1
1 1
1 1
1 T
T T
T T
T T
T T
T T
T T
1 T
T 5
V S
S V
V S
S S
V S
V V
V V
S 0
B 0
C B
B O
0 0
B C
B B
B B
0 1
1 1
1 1
1 i
1 1
1 1
1 1
1 1
1 1
s rf t 9
9 o e 0
7 R
s 1
8 2
R 2
7 7
8 ie 1
J R
R.
1 R.
1 J
1 1
J J
J u
R S
R S
9 R
R S le q S
S 1
1 C Re R
C R
R R
R C
R R
R C
C R
R R
tne m
E t
e T
S S
S T
T T
T T
T T
T T
T T
T T
s N
O I
er S
S S
S T
S T
P P
P S
S L
T i Q
C Q
Q L
L L
L u
Q Q
Q Q
S S
S Q
Q T
q U
e TO R
SI G 1 N I
ST PS dr 3
4 9
8 8
8 0
VE o
2 7
1 1
2 3
2 BT o
G 6
G D
0 E
D F
C C
A A
E C
E gn V
L i
w A
a V
r D
o N
4 1
3 4
4 4
4 4
4 4
1 1
1 M
7 7
7 7
7 7
7 7
7 7
7 7
7 O
A S
O O
S O
O O
O O
O N
e e e
e k
f f
f lay lo t
te e
e v p t
c ta te te ta le e
e lo lo e
e e
e e
b b
a a
e a
a h
h VT G
G G
h G
G G
G C
R R
R G
G to r
e r
e) 3 3
4 o
v 4
/4 4
4 4
rn C
la1 i 2
3 2
/
3 3
3 3
/
/
/
x x
x 2
2 V $(
3 2
2 3
+r ru y
lo eor V
lvg C
e A
o a t B
8 B
0 A
A C
C C
B 8
/A n
Va a
C lac i
es m
vsa 2
1 3
2 2
2 2
2 2
2 2
1
?
e lal r
VC r
0 1
5 7
7' 7
8 A
B 0
0
. t-C
- E C
M k
S 0
0 0
8 1
A 8
A a r 3
8 8
8 4
4 e
3 3
3 3
3 3
2 2
3 6
6 N
Mb H
H H
M H
H H
3 3
3 M
em C
C C
9 C
C C
C H
H H
C C
6 H
H vu 1
1 1
E 1
C C
C 3
1 1
1 C
V
_n laN V
V V
V V
V V
1 1
V T
1 1
S V
H 1
Y O
O O
O O
O O
V V
V C
C S
M M
M M
M M
M R
R R
L L
1
f "N
,n,
{
/
i
%)
BVPS-2 IST VALVE TESifNG OUTLINE GYSTEM NAME; Reactor Plant Vents and Drains (Aera:ed)
SYSTEM NUMBER. 9 y
Valve Valve Mark Valve Valve Size Valve
~
Drawing CSJor g
T est Relief m
E Number Oass Category (in ) '
Coord Requirement Requests C(,,- e/s y'
TV-1 DA-100A 2
A 2
Globe A
9-1 G-4 QST 10ST-47.3A(38)-Stroke & Time Cosec (QXRPV) y z
s LT RR1 1BVT 1.47.5-Leak Test (R) k i5 52 TV-1 DA-1008 2
A 2
Giotw.
O 9-1 G-4 QST 1 CST-47.3A(38)-Stroke & Time Oosed (QMRPV) -
m ay x
=
LT R41 1BVT T 47.5-Leak Test (R)
I
-l 22>
E n
Ox 7C 5m in C
b O
r-
<m LO to O
o'.
x-m o "1-O, f. O O C g 3_O o=m
,m i
BVPS 1 IST VALVE TESTING OUTUNE e
SYSTEM NAME; Reactor Prant Vents and Orains (Non-Aerated) h SYSTEf140VBER 9 Vaive Drawing CSJ or 3
Vrive Mark Vafve Valve Sire Valve Test Rehef m
W Nurnber Class Category (in )
Coord Requirement Requests Cormr.c -*ts
]
TV-1DG-108 A 2
A 2
Globe O
9-1 F-9 QST 1 CST-473At33)-Stro6e & Time Ocsed (Q4 RPV) v T
O Z
LT RR1 1BVT 1.47.5-Lets Test (R) f k
(f) 1 U) c; l TV-1DG 108B 2
A 2
Globe O
91 F 10 QST 10ST-47.3A(3BFStroke & Titre Ousec (QgRPV) yl
-4 73 D
O LT RR1 1BVT 1.47.5-Lea 6 Test (RJ g
TV-1DG -109A1 2
A 1%
Gloce A
91 E-9 QST 10ST-47.3A(30)-Stroke & T4me Ocsed (CNRFV)
K I
l l
n
}O I
LT RR1 1BVT 1.47.5-Leak Test (R) n TV-1 DG.109A2 2
A 1%
Glooe A
9-1 E-8 QST 10ST-47.3A(3BFStro6e & Terre Cosed (Q;(RPV)
C3
'o Us C
3 LT R R1 1BVT 1.47.5-Lea 6 Test (R) g
,7 3>
r-<m 01 1
Te tO C
m%
o
$. ~
O tE O c
-: ~
Q CD h3 e
O 9-
,.s %
(*%
\\
j
\\
\\
t Q
'm/
BVPS-2 IST VALVE TESTING OUTLINE E
o (n
SYSTEM NAME. Residual r<e it Remova!
SYSTEM NUMBER,10 e
Valve Drawing CSJ or g.<
Valve Mark Valve Valve Size Valve
{
Test Retief m
Q3 Number Class Category Dni Type NSA CM No ' CoonJ Requirement Requests Comments
-4 q
1R M-3 2
C 10 Ctsesk 1G-1 E-3 QS CSa10 10ST-10.1-FS,FD,R D (CSD,6 7
h Z
1R M-4 2
C 10 Check 10-1 F-3 QS CSJ10 10ST-10.1-FS,F D,R D (CSD)
O O
US 9
1 R H-14 2
A/P 6
Gate S
10-1 D-6 LT RR1 1BVT 1475 Leak Test (R)
]
y-
-4 c.?
n-3 1 R H-15 2
A/P C
Gate 5
10 1 0 -8
'. T RR1 1BVT 1.47 5-Leak Test (R) oO D>
1 R H-16 2
A/P 4
Bau S
10-1 C-9 LT RR1 1BVT 1.475 Leak Test (RI E
r O
MOV-1 R H-700 1
A 14 Gate S
10-1 F-1 QST CSJ11 10ST-10 4.Strat e & T me Open (CSD)(RPV)
M 7C LM 10ST-10 5-Leakage Monitoreng (R; 5m ris C
MOV-1 R H -701 1
A 14 Gate S
10 1 F-2 QST CS J11 10ST-10 4-Stroke & Time Open (CSDgRPV) h D*
O Lu 10ST-10.5-Leavage Monito irg (a) y r-<
. MOV.1 R H-720A 1
A 10 Gate 5
10-1 C9 CST CSJ11 10ST-10.4-Stro+ e & Time Open (CSDi(RPV)
LM Continuous Monitor.ng of RHR Sysiem Pressure MOV-i R H-720B 1
A 10 Gate S
10-1 C9 QST CSJ11 10ST-10_4 Stroke & Time Open (CSDKRPV)
LM Contenuous Monitoring of RNR System Pressure RV-1 R H-721 2
C iv. 4 o-,
l 1BVT 1.60 5 (R) i l
cs C
3 O O
^ 1-N O
'a
~oc 3 O o c. ~
k =$'<9.Ix y go' 0r0o3 E.
-MCD e t,I 5o C
oiEO3 co am<gr Mm$Z-Q _6-]2OoI>C nO2 TCs gg g r<mU t
54 3
3 Tr.OOm"0.-go i
a
+
,I 1
I 1
R EB M
U N
r r
M e
e E
p p
U) i
)
cP)
R(
R(
n e
o
)
)
i t
t S
s cR t
e(
a:
t t
n p
s s
e.
sM pM e
e s
T T
in1 K
in1 K
k a
)
k d C d C a
e R
e R) e n
n
)
t
(
L
(
C a
a Q(
R(
Q)
Q(
D
(
6
(
b
(
T
(
T E
E H
H
)
)
R)
)
R) y
)
t y
l t
y yC R
s R
s
_ mO mO F.
D
(
(
Q i;
iC b -
C e
b e
l b -
D D
D D
D
_ eC eC S
F, D
D D
D F,
F, R,
F, R,
F, k
k s Y sY P
S F.
R, S
R, F.
a a
S S
S e
S S
e sO sO F
F S
S F
S S
F 6
6 4
6 sA sA 4
F.
F P
F F
L F
F L
aL aL 2
P i
i 4
4 6
4 D -
D -
1(
1 1
2 1
1 2
1 1
5 5
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 e7 e7 T
T T
T T
T T
T T
T T
T T
1 1
1 P
pD T
1 1
1 1
1 1
1 1
1 1
vM mM S
S S
S S
S S
S S
5 S
S S
S aC aC 0
0 0
0 0
0 0
0 0
0 0
O 0
0 S1 S1 1
1 1
1 1
1 1
1 1
1 1
1 1
t; s
rf t ee s 3
3 4
5 5
6 6
6 6
i e 1
1 1
1 1
1 1
1 1
Jt u R
R R
R R
R R
R R
S eq R
R R
R R
R R
R R
C R eR tne m
E ts e S
S S
S S
S S
S S
S S
S T
S S
T N
I er Q
Q Q
Q Q
Q Q
Q Q
Q Q
Q L
Q Q
L L
T su T
q U
e T O R
SI G 2N I
ST PS d
VE o
3 2
2 4
8 8
r 3
BT o
G G
G E
E D
D g
C E
n V
L iw A
a V
r D
o N
1 1
1 1
1 1
1 1
1 1
1 1
1 1
M 1
1 1
1 1
1 1
O A
SN ee k
k k
k k
k k
c c
c c
c c
c vp e
e e
e e
e e
lay h
h h
h n
h h
VT C
C C
C C
C C
e e) v 2
2 2
0 O
z i 1
1 1
1 i
lain 6
6 V S(
y e
e o d
vg o
la e C
C c
t C
C C
C C
/
t#
Va A
A enj C
i y
es vs te lala 2
2 2
2 2
1 1
fa VC S
E M
kr A
a re N
Mb M
em vu E
fan 2
5 6
7 1
0 1
T 1
S V
1 5
5 s
5 1
1 Y
5 8
1 t
1 1
S 1
1 1
1 1
5 S
1 1
U e
i BVPS 2 tST k
Z VALVE TESTihG OUTLINE w
m SYSTEM MUMBER 11 SYST5M NAME. Sa'ety miectron Vaive f
Drawing CSJ or g
l Test Reher m
S__.
Valve Mark Vafve Valve Size Valve Numtier Class Category (in )
Type NSA OMNo Coord Requerement Requests Comments
-4 o
m 1Sbf2 1
AC 6
Cr'ec k 11-1 C-8 CS RR16 1 CST 111645.RD Dy Leak Test (R)
}
T o
m Z
f CS RRi6 1 CST-11.14 FS,F C (R) m
$2
--4 e
LT 10S T -11.16-Le am Test (R) m O
X 3
O 1Fl-n 2
A/C/P 6
Cneck 11
- F-7 LT 1BVT 1.47,11-Leas Test (R) g T>
1S1-14 2
A/C/ P 6
Check 11-1 F-7 LT iBVT 1.47.1*-Le w Test (R) mO 1
A C/P 6
Crect 1%1 F-9 LT 10ST-11.19-Leas Test (9)
W bi-15 TC l
1 Si-16 1
A/C/P 6
Creck 11 1 F-9 LT 10ST-11.19-Leak Test (R)
C 7m C
3 4
x 151-17 1
A/CiP 6
Cr.ec k-11 1 F-9 LT 10ST-11.19-Lea Test (R)
Z O
.~
15120 1
C 6
Cr ed 11-1 F-10 QS RR17 iOST-11 *4 FS.FD (R) j i
r-
~ 1 S1-21 1
C 6
Chec*
11-1 F-10 QS RR17 i OS T-11,14J Sf D (R)
]
l l
1Sb22 1
C 6
Check 11 1 F-10 QS RR17 10ST 1114-FSf D (R) 1 1Sb23 1
A'C 6
Cteca 11 1 C-10 OS RR18 10ST-11.16-FS.RD by Leak Test (R; I
C)S RR18 10ST 11.14 FSfD (R; l
LT 10ST-11.16-Leak Test (R) 1Sb24 1
A*C 6
Cr.eck 11-1 D-10 CS RR18 10ST-1).16 FS,RD by Leak Test (R) 2 too o"
QS RR18 10ST-11.14-FS.FD (R) c3
=
s$-
LT 10ST-1116-LeaA Test (R)
O t
- O c
-p o
a O CO PJ
.._._._--.L L-l l
a
[,<Q_.6W Thk9ag.3 Cb -
$cC M 3
s g1to3 o n
$<gm Hm Z
5A T gE>g OT 7CK$ >5 <>r<g n
7rC( e" O' a O a D G
1 1
R E
B M
U N
M E
T
)
s S
i R
S
(
T Y
S s
t W
t s
n e
R e
T f
m i
s m
a
)
s, g
)
R o
e R)
Qp fo
)
R R(
(
)
)
R C
L
(
Dm
)
)
Q Q(
Q) ra e
e
(
T
(
T
(
e
(
(
y
)
t u
t t
)
t
)
t b
(
T Sg
(
Q
)
)
v R
s F
e
, p R
s s
R s
R s
e e
R, F.
- g
'O
(
(
(
v T
l D
D P n O
O u
i D
C D
O c
k k
k k
a 6
e a
a F.
F, a
a S
S e
c R.
F, F.
ia r
e e
S e
S e
r a F
F L
F S
5 S
S L
L F
L F
L oh F
e 6
4 6
c 4
F F
F s
5 5
3 B
3 8
1 1
1 5g 1
1 2
1 2
r 7
7 1
4 4
1 4 n o
4 4
1 1
1 1
1 1
1 1
1 1
7 i 1
1 1
1 1
1 1
T 1
1 1
d 1
1 1
1
- y T
T T
T e
T T
T T
T T tp T
c T
T S
5 S
S p S
S S
S S
k V
V S
V S
0 0
0 0u 0
0 0
0 0
o B
B 0
B 0
s t
1 1
1 1 s 1
1 1
1 1
L 1
1 1
1 1
1 s
rf o
ts J ie B
8 9
9 0
0 e
1 1
1 1
1 1
2 2
u R
R R
R R
R S le q
R R
R R
R R
R R
C R e R
R R
tne m
E ts e S
S T
S S
S S
S S
S N
e P
I er Q
Q L
Q Q
Q Q
Q Q
O T
T S
T S
T G
L L
Q L
Q L
L T u T
q U
e TO R
SiG 2N I
ST PS d
0 ro a
4 2
6 5
2 2
VE 1
BT o
D G
F F
D D
C E
g C
E n
V L
i w
A a
V r
D o
N 1
1 1
1 1
1 M
1 1
2 2
2 2
1 1
1 1
1 1
1 1
1 1
1 1
O A
S S
N L
e e k
k k
e k
k k
i.c c
c c
o c
c c
lv p e
e e
e.
lo e
e e
a y h
h h
r h
h h
VT C
C C
C G
C C
C ev e) z laim 6
8 2
2 1
1 1
1 2
2 V S(
y r
eo n
vg C
P P
I C
C o
lae A
C C
C
/
C i
/A A'
t Vt A
/
c a
e A
nj C
i y
es t
v i fe la 2
2 2
2 2
1 1
1 a
VU S
e E
M kr A
a re N
Mb M
em vu E
5 7
8 9
1, 2
8 9
laN 2
2 2
2 4
4 4
4 T
S V
1 I
1 1
1 1
t 1
Y 5
S 5
5 5
S s
5 S
1 1
1 1
1 1
1 1
y l
I Y
2 gg$'<g
" Uo% k 5 c {-3 Cb a.
2a
$ce,o
)
e1w6' :
o
. =
- g$<gm4 Z
.U~
s4 o
x>E,iO2 CK $ > O { r<m Dmo @ m~ O' go l
f 1
y 1
R E
B M
U N
M E
T S
Y S
s t
ne m
)
R(
(
R(
R R
R)
R(
R)
) -
)
)
)
m
)
R
(
(
t t
t t
o
(
(
C
)
t
)
t
)
t
)
t
)
e e
)
e
)
s s
s s
s R
s R
s R
s R(
T T
(
T
(
T
(
T
)
e e
e R
R R
e
)
e
(
D D
D D
D k
D k
(
T R{
T R(
T
(
D k
O k
O k
k F.
F, F,
a F.
v a
a k
a a
a F,
e f
e F.
e F,
e F.
a a
S e
'F 1
1 1
1 e
S e
S e
S L
S L
S L
S L
S F
L L
F L
F L
F F
F F
F 3
8 3
A 3
A 3
A 4
1 4
1 4
1 4
1 4
1 4
1 4
4 4
1 7
1 7
1 7
1 1
1 7
1 1
1_
1 1
1 1
1 1
4 4
4 1
4 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
L T
T T
T T
T T
T T
T T
T T
T T
T V
S V
S V
S V
S S
V S
V S
V S
V S
B 0
B 0
B 0
8 0
0 6
0 B
0 0
B 0
O_'
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
s rf t s
0 O
O O
1 1
2 2
7 oeie 2
2 2
2 2
2 2
2 1
Jt u R
R R
R R
R R
R R
e S
q C Re R
R R
R R
R R
R R
R t
i s,
E t
s s e S
T S
T S
T S
T S
T S
T S
T S
T S
N er L
T i Q
L Q
L Q
L Q
L Q
L O
L Q
L Q
L Q
I n
u T
q r
U e
TO R
VE o
2 2
2 7
7 7
7 9
BT o
G C
E G
E F
B A
A g
C E
n V
L i
w A
a V
rD o
N 2
2 2
2 1
1 1
1 1 -
1 1
1 1
1 1
1 1
1 -
M 1
1 1
1 1
1 1
1 1
O A
S N
k k
k k
k k
k k
k e e c
c c
c c
c c
c c-vp e
e e
e e
e e
e e
tay h
h h
h h
h h
h h
VT C
C C
C C
C C
C C
e e) v z 2
2 2
2 lain 3
3 3
3 2
i 1
1 1
1 Vs(
y r
eo n
vg C
C C
C C
C C
C o
la t A
A A
A A
A A
A
/
/
/
/
/
i
/
/
i e
C tc Va e
inj C
ty es vs e
a 1
1 1
i 1
1 2
2 1
f lal a
VC S
~
E r
M kr A
a re N
Mbn M
e s vt 0
E 0
1 2
3 3
4 4
5 0
laN 5
5 5
S 8
8 9
9 1
T S
V I
5 5
S S
S S
5 S
Y S
1 3
I 1
I I
1 i
S i
1 1
1 1
1 1
1 1
v t
w-BVPS-2 IST VALVE TESTING OUTLfhE SYSTEM NAME: SafeIy injection SYSTEM NUMBER. 11 i
)
Valve Drawing C5J or 3
VEtve Mark Vatve Valve Size Valve Test Reiser m
L._
Number Cluss Category (en )
Coord Requirement Requests Comments y
151-101 1
C 2
Check 11 1 A-9 QS RR17 10ST-11.14-FS,FD (R)
T
.O Z
TV-1 St-101 -1 2
A 1
Globe S.
11-2 86 QST 10ST-47.3Ai38J-Stroke & Time C!osed (QRRPV)
O u) 92 cu LT RR1 1BVT 1.47.5-Leak Test (R)
]
j x
3 TV-1 SI-101-2 2
A 1
Glote 5
11 2 B5 QST 10sT-47.3At3BFStroke & Time Closed (O)tRPV)
Oc)
D>
LT RR1 1BVT 1.47.5-Lea 6 Test (R) g 1SI-102 1
C 2
Check it-1 99 QS RR17 10ST-11.14-FS,FD (R) x 151-447 2
B/P 3/4 GloDe LO 11 1 F-3 POS Locked or sealed valve log 5
C M
C 1S8-448 2
B/P 3/4 Globe LO 11-1 F-3 POS Locked or seaaed valve log 2
3 g
1 SI-451 2
B/P 3/4 Giobe LO 11-1 F-3 POS Lodm2 or seated vans log
[
r-151-452 2
BIP 3/4 Globe LO 11-1 F-3 POS Lod ed or seated valve log MOV-1SI-836 2
A 3
Gate S
11-1 A4 QST CSJ12 10ST-1.10-Stro6e & Time Closed (CSD8RPV)
LT 1BVT 1.47.11-Leak Test (R)
MOV-1 SI-842 2
A 2
Globe S
11-2 E-5 QST 10ST-47.3A(38)-Stroke & Time C:osed (Q)(RFV)
LT RR1 1BVT 1.475-Lean Test (R)
RV-1SI-845 A 2
C
%x1 Relief 11-1 D-2 SPT 13VT 1.60 5-(R)
]
o O
RV-1 SI-845 B 2
C
%x1 Rel.ef 11-1 D-2 SPT 1BFT 160 5-(R) cn os-O tE RV-1 SI-845C 2
C
%x1 Rehef 11 1 D-4 SPT 1 BVT 1.00.5-(R)
]O g 8-~
g h
h"
BVPS-2 iST
[
VALVE TESTING OUTLINE SYSTEM NAME: Satety in;ection SYSTEM NUMBER 11 Valve Drawing CSJ or g
Valve Mark Valve Valve Size Valve Test Relief m
C._
Number Class Category (in )
Coord Requwement Requests Comments y
o RV-1 SI-857 2
C
% x1 Rehef 11-1 6 -6 SPT 16VT 100 5 (R)
T o
Z f
2 RV-1 SI-858 A 2
C 1x2 Rehef 11-2 A-2 SPT 1BVT 160.5-(R)
$2 ro
~4 tv RV-1 SI-858 B 2
C 1x2 Renet 11-2 C-2 SDT 1BVT 160 5-(R)
{
m a
O RV-1SI 858C 2
C 1x2 Relief 11-2 E-2 SPT 1BvT 160 5 (R)
C)
D>
MOV-1Sb800A 2
A 12 Gate S
11-1 r-3 QST CSJ13 10ST 1.10-stros e & Time Oten (CSDMRPV) ~
ri O
LT 18Vi 147.11 Leak Test (R)
M 0
i C
l 1 CST 1.10 Stroke & T me Open (CSD)!RPV)
A 12 Gate S
11.1 f3 QST CSJ13 i
3 C
l 3
1 LT 1BVT 147.11 Leak Test (R)
D E3 MOV-1Sb8G2A 2
8 12 Gate O
11 1 G-3 QST 10ST-47.3A(B) Stro6 e & T+me Closed (Q)(RPV) f r-<
MOV.1 SI-862 B 2
8 12 Gate O
11-1 G-3 QST 10ST-47.3AiB)-StrcA e & Time Closed (QnRPV)
MOV-1SI-863A 2
8 6
Gate S
11 1 E-1 QST 10ST-47.3A(B)-Stroe e & Tme Open (Q)(RPV)
)
MOV-1SI-8638 2
8 6
Gate S
11-1 E-5 QST 10ST-473A(B)-Stro6e & Time Open (QMRPV)
MOV-1S b864A 2
8 10 Gate O
11-1 D-2 QST 10ST-47.3A(B)-Stro6 e & Time Open (QXRPV)
MOV-1SI 8648 2
0 10 Gate O
11-1 D-4 QST 10ST-47.3A(Bj-StrcAe & Time Open (QMRPV)
MOV-1 SI-865A 2
B/P 12 Gate O
11-2 B-2 POS 10M-54 Log L-5 (S) & OST-11.9 (M) ca 1BVT 1.113--(RPV) y x MOV 1SI-8658
'2 BiP 12 Gate O
11-2 E-2 POS 10M-54 Log L-5 (S) & OST-119 (V) yg 1BVT 1.11.3-tRPV)
- v7 0,35 R y, MOV-1She65C 2
B/P 12 Gate O
11-2 G-2 POS 10M-54 Log L 5 (S) & OST-119 (M) a 1BVT 1.11.3-(RPV)
Oo, g g
I j
BVPS-2 IST Z
VALVE TESTING OUTLINE c
M ca SYSTEM NAME Safe!y injection SYSTEM NUMBER-11 Valve Drawing CSJor 3
of Valve Mark Valve Valve Size Valve Test Refief m
Number Class Category (in )
Type NSA OM No Coord Requarement Requests Comrnents y
p MOV-151-867A 2
8 3
Gate S
11-1 A-2 QST CSJ32 10ST-1,10-Stro6 e & Time Own (CSDHRPV) y 7
z
- E N
k MOV-1 SI-8678 2
B 3
Gate S
11-1 A-2 QST CSJ32 10ST-1.10-Stro6e & Time Open (CSDs(RPVi in 9
-4 tu VOV-1 SI-867C 2
A 3
Gate S
11-1 B6 CST RR24 10ST-1114-Strof e & Time Open (RnRPV)
]
[
x
=
O LT 1BVT 1.47.11 Leak Test (R) o
'O>
MOV-1S14670 2
A 3
Gate S
11-1 B-6 QST RR24 10sT-11.14-Stros e & Time Open (Rj(RPV) nO LT 1BVT 147.11-Leak Test (R)
N TC MOV-1SI-869A 2
A 3
Gate 5
11-1 E-6 QST CSJ12 10ST-1.10-Stroke & Time Closed (CSOMRPV)
E A
r C
3 LT 1BVT 1.47.11-Leak Test (R) b l
MOO 1 S t4698 2
A 3
Gate S
11-1 E-6 CST CSJ14 10ST-110-Stros e & Time Closat (CSDMRPV) p r-<
i LT 1BVT 1.47.11-Leak Test (R) y f
TV-1Si 884 A 2
B 1
G;oce O
11 1 C-5 QST 10ST47.3A(38)-Strose & Time Closed (CHRPV)
TV-1 SI-884 8 2
B 1
Glot;e O
11-1 C5 QST 10ST-47.3A(38)-Stro6 e & Time Closed (QHRPV)
TV-1SI-8840 2
B 1
Globe O
11-1 C-4 QST 10ST-47.3A(3BFStro6e & Time Closed (Ql{RPV)
MOV-1SI-885A 2
8 2
Glote O
11-1 F-4 QST 10ST-47.3A(33)-Stro6e & Time Closed (Q)(RPV) 10ST47.3A(3BFStro' e & Time Closed (Q)(RPV)
[
MOV-1SI-e858 2
B 2
Globe O
11 1 F-4 QST C
MOV-isi 885C 2
B 2
Giobe O
11 1 F-5 OST 10ST-47.3A(38)-Strc6e & Time Closed (QHRPV)
J e s$-
?
O M OV-1 SI -8 850 2
B 2
Giobe O
11-1 F-5 QST 10ST-47.3At3BFStroke & Time Closed (Q)(RPV)
_Qj O Co M
~
a e
9 9~
m s
..-s l'!
s' v.
g l[ g i ?
. f. *
=
3*..
BVPS-2 IST VALVE TESTING OUTLINE -
='. U2 M' ' - -o-SYSTEM NAME: Safety' injectrorr-
' SYSTEM NUMBER it g
$l $
Valve e..,.
i.
VLive Mark Valve
. Valve '
Size Valve
. Drawing CSJor 3 ; '<
Test Relief m-O_
Number Class Category
- (in )
Coord Requirement Requests Comments m ~."X~
-4 '
C
?'
TV-151-889 2
A' 3/4 Gate S
11-1 G-8 QST 10ST-47,3A(38) Strok e & Time Civsed (CSD)(RPV).
I_.U v
i 0-Z-.
- E
.k-LT RRt 1BVT'1.47.5-Leak Test (R) iT) : 92 MOV 1SI-890A 2
A/P 10 Gate S.
11-1 D3 LT 1BVT 147.11-Leak Test (R)(RPk) '
.-~ C
-4 m
m O-p-
- :3.
A/P TO Gate S.-
11-1 D-5 LT-1BVT 1 A7.11-Leak Test (R)(RPV)
O g) 2-MOV-1S1-890C 2~
'A 10 Gate
-0 11-1 D-6
' QST
. CSJ15 10ST-1.10-Stroke & Time Open (CSD)(RPV) o E'
.m O
l LT -
1BVT 1.47.11-Leak Test (R)'
2' C'
5.
m C
- g. :b w
p.-
r:
m g.-
3-s s
m i, O'
t
's a
"U -
4 m.
Se
..O, OE5-c-
ce. o
- * ;3 O CD M
]
4
= y; # p
-mh-j
=
qrr +-
g r'
+--g-i-q I
g-m J
.a v 3s 9
'e e
.e ee, m-rWE -e
=
j
]
y,<
yek9a@=
Csx -
s
"$o. m x 1a o= =
Z
<3 z
U-i4 xhx>5 Ox CK$ &6 [e<y
}oC n
2 t
t y" o" go D
9 2
1 R
E B
J M
V)
V P
P U
R(
R N
)
X
)
)
)
)
M Q
(
(
(
(
E
(
Q Q
Q(
Q(
Q Q(
Q)
T d
o d
d d
d c
d S
e e
e e
e e
e e
Y s
s s
s s
s s
s o
o o
c c
o lo o
S O
O O
ts O
)
O n
V V
V)
O
)
C
)
O
)
)
V V
V e
e e
e P
e P
e P
e P
e.
P e
P n
m i
i R
m u
i m
R m
R(
e
(
m Rt u
R m
m T
)
T
)
T
)(
T
)
T
)
T j
T
(
Ti R(
)
i R
R R
R R
R R,
)
R(
o
(
(
(
(
(
(
R C
(
(
t t
t t
t t
t t
e s
e s
e s
e s
e s
e s
e s
e ts s
v e
v e
k e
6 e
b e
e h
e k
e e
o T
o T
o T
o T
o T
M T
c T
o r
r r
r r
r r
r T
T t
k t
k t
k t
s t
k t
k t
k k
k S
a S
S S
a a
S a
S e
)
a
)
L B)
L B
L 3
L L
a S
a S
a a
B) e.
L Bt 5
(
1 A(
5 A
5 A(
5 At 5
5 e
e e
)
e A(
5t B(
5 A
A
(
L B) e P
e e
L 8
A 3
7 3
7 3
7 3
7 3
7 3
7 3
7 3
7 7
7 4
7 4
7 4
7 4
7 4-7 4
4 7
4 4
7 4
1 4
1 4
1 4
1 4
1 4
1 4
1 4
1 1
T T
T T
T T
T T
T T
T T
T T
T T
T S
V S
V S
V S
V S
V S
V S
V S
V V
0 G
0 B
C B
0 B
0 B
0 0
0 B
0 8
6 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
s 0
0 1
1 r
t o
i 4
4 4
4 1
1 1
1 R
R R
R J
R R
R R
R, R.
R, R,
R 1
S g
R R
R R
1 1
1 1
R C
e R
R R
R R
R R
R R
t tne E
T T
T T
T T
T T
N S
T S
T S
T S
T 9
S T
S T
S T
S T
T L
L L
L L
L L
L L
I u
L i
Q Q
Q O
Q Q
Q Q
T q
U e
TO R
SI G 1 N I
S T PS dr 6
4 8
VE o
7 7
S 4
7 7
DT o
0 D
E E
F F
E E
F g
C E
n V
L i
w A
a
~
V r
D o
N 1
1 1
1 1
1 1
1 1
2 M
2 2
2 2
2 2
2 2
1 1
1 1
1 1
1 1
1 O
A S
O 0
O O
O S
O S
N L
e e
e e
e e
e e
e ly b
c b
0 b
b b
o r
f lo IO lo 6
lo io lo ao e
0 T
G G
G G
G G
G G
'u t
B I
ew V
in 1
1 1
1 2
2 2
2 B
fa muuca g
V A
A A
A A
A A
A P
e
/
t t
A n
a e
C mn ia tn 2
2 2
2 2
2 2
2 2
o c
9 C
E M
A 8
0 0
0 0
5 1
A B
C D
A 1
1 1
2 2
N 0
0 0
0 5
5 5
5 b
1 1
V M
1 1
1 1
1 1
1 E
V V
V V
V V
V V
C T
C C
C S
1 1
lC C
C C
C 1
1 1
1 1
1 V
Y V
V V
V V
V V
C S
T T
T T
T T
T H
j a
V 4
' 8vPS-1 IST VALVE TESTING OUTUNE
~;;
C2 e
M on SYSTEM NAME: Contamment Vacuum SYSTEM NUMBER _ T2 h, y l
Valve Dramirr; CSJor g
Vatve Mark Valve Varve Size Vatve Test Retief g
m Ntah Cass Category (ers )
Coorst Requerement Recuests Cornrricetts g
Q
-I HCV-1CV-151-1 2-A/P 8
Bu:1erfiv LS 12-1 F-T LT RRt
.1BVT
- 475 Lee Test (84)
[
7o Z
O o'
f 3
E.
7 Ce T
3 t
O O
2 4
>E i
O
.x
- 2
. C E
4 7W C
g i
C, r-m W
1 W
ta IC2 O
N No
$_5~
OOE c p3 o oau i.
BVP54IST VALVE TESTING OUTUhE
[
SYSTEM NAML Leahap VWormg SYSTEM NUMBER. Ul
${
T Valve j j
Drawwvg CSJor i
{
g
(
'/atve Mark Vasve Vahre Sete 1 Valve j
g Test Act.cf m
E Nurrter Oass Category (m ) j Type NSA i OMNo. j Coord Requremerd Requests !
Comments
~4 E
TV-11.M-10CA1 J
A 19 G.Obe
$ i m
x 12 T S2 CST I
l *^S T47 % 9F5Pc6 e & Tme Ocs-c IO.4PV';
3_
7o, E
kl LT u-i t e."T
- C5-:.ea. int t a t a
e t
I 9l l
{
I b.
ui s-Tv-tu-swA2 2
4 re w-s
-2 :
a2
}
cst i-cs w w ars~ciea rm cos m :-s m j
=+
ei I
3 l
i i
'L h
b f Ix i
d i>
l
!5 O
N 3C l
ls=
U2 D
l M 1 i
C l
p L1 l
,u iC
[G 2 I
w o
[
th O fE
~O C
"3 C
&Q OC to O
O O-
O BVPS-1 IST W
e VALVE TESitMG OUTUNE E
th o,
n SYSTEM NAME: Contwnment CWessurizatioa (QuevM Spray)
SYSTEM NUMr,gg 13
- ]
g 1
Valve Drawmg CSJor f
g Vs.lve Mark Valve Valve Size Valve Test Reteef rn t
I humber Class Category '
(m) in.
NSA OM No Coord Requerement Requests Comments
-4 c~
I fri X
i, 1QS 3 2
Ar 10 Check 13-1 B4 QS CSA6 1 CST-1.1345,FD :y vechamcas Exe-caser (CSO) l 3
7 4
0l Z
Tr LT RR1 1BVT i 47.5-Leak Test (R) yf
.f k
.t 4
-i s
a 1
j 1QS-4 7
A/C 10 Check 13-1 A4 CS CSr6 103T-110LFS,FD cy Mect amcal Exe c ser (CSD)
II
-4 as
~
C
}
t5 7
0 b
M 3
LT RR1 1EsVT 1.47 5-Lean. Test (R; l
h I:a-MOV-1QS-100A 2
8 12 Gate O
13-1 D6 QST 10ST47,3A13Bpstro6 e & Tm= Open (QF RSV)
E-w O
MOV-1QS-1000 2
8 12 Gr.D O
13-1 D-6 QST
- 10ST-473Af 3Bi Stro*e & Time Open (CMRPV) 2 M
RV-1QS-iOCA 2
C 1%
Rebef 13-1 F-10 SPT 1BV1 160 54 R)
RV 1QS-1000 2
C 1%
Rehef 13-1 F-9 SPT TavT 160 5 'R; l]h x2%
,c K'
n2%
O MO'/-IQS-101 A 2
'A 10 Gate S
13-1 B-5 QST 10ST47,3ty38;-Stroke & Tm.e Cg o (Q tRPV) p E
LT RRi 1BVT 1.47 5-Leak Test (R)
Q MOV tQS-1CrtB 2
A 10 Gate S
13-1 A4 QST 10ST47.3A(3BFSt-cee & Tme Open (Q;tRPV) i LT RR1 1BVT 1.475 Lean Test (R) 3 g
1 7
s MOV-1QS 103A 2
0 10 Ga e 0
13-1 C-5 QST TOST 47.3A(3BFStec6e & Ture Closec (QMRPV) i MOV-1QS-1038 2
B 10 Gate 0
13-i C4 QST 10ST-47,3A(38F5troke & Tee Chrans (Q4RPV) i 1
f MOV-1QS-104A 2
8 3
Dapewagm S
13-1 E-9 QST 1 CST 13 TCA-Stro6e & Tee Open (CX4PV)
]
[
c.
I.
I MOV-1QS-1048 2
D.
3 Dapbraryn S
13-1 E4 QST iOST-13.100-Strose & Time Cm (QHRPV)
- s[ E-i oE
'O=
i l
c~
l l
BVPS-1 IST I
l VALVE TESTING OUTUNE e
c3 J
{
g g
SYSTEM NAME. CWaven' Depres5 Arakr. C e e Srsravj M
1 f
SYSTEM MUMBER C:
y
$ I Vafve l
Drawrig l
CSJcr y
3 Vahre Mark Valve Van Seze Va!ve Test Rehef m
SL 1 Number Cass Category (m)
Type 1 8.S A l CM No Coord R ety.prement f Requests !
.i CWs 7
m x
1 RS-100 2
A 'C 10 Creck 13-1
>4 CS I
CS / C f *0STM iO f S FD ty Vac'ece E =**cw (CSO!
ll$_
v 7
[
c E
-o o
I ti EM i
- B'/T 14 7 5 Lea int ( 3 l
f s
La e:
-+
ti-l 1 RS-101 2
]
A/C
- O CWJ 133 C4 CS CSTE
! iOST-1.ta FS.FO cy V*creca Eme c se iCSD)
!l
]
{
I l
x 3
i i
i LT EL1
' iBvT T C 5 Lea. Test (R; O
I t
o I
x U OV.i R S-155A 2
8 12 Ga'e O
13-1 G-5 CST 3
8 105T47.3A,3B;-Susa & Tc* Ce f 0 t;FVi E
l I
e MOV-t R S-iS58 2
B
- 2 l
Gate j O
- 3-1 G7 OST l
i 105T47 3A;3BrStrc>e & Tee Om iC = 4PV#
'x O
f.
l.
7 UOV 1RS-15CA 2
8
- 0 l
Gate O I 13-1 E-5 05T j
'OST47A33;-St c-e & T, + Cm :C:< En')
5 1
c t
i 4
7m c!
VOV-i RS-iSCB 2
9
- D Gate O
i31 E-5 f
I 'OST-47.3A3Bi-Suc e & Tr-e Om (0:6 eV1 D
j QST 3
i i,
j i
I O
+45 i57 2
B 6 j Gaie t_S i31 E6 05
{
- CST 47 3A 33 rSuc+e CWy Cpan iC)
I h
l t
r**
1
- R S-15e 2
C 6
Crmk 13-t i
E-6 CS j
EMS SaMe Dsassa-cy aN m:ec pa-l y
j l
CVD it2 75-VELAN CHEC< *V :R)
{
1RS159 2,'
B 6
Gate LS 13-1 E-7 f
CS l *OST47 3N38;-SPc'e C"y Oben t0; l
I I
145-160 2
C 6 l Crac*
'31 E-7 GS i
l EC5 Samoe Dsasse-cy av rse ty w CMP t?H5MLAN CHEC0tV iR) l k
7c C
O D
y -
N I. _
oG$l
~.* b' C
- 2 O j g
O ct Mf f
5 e
G 9-
{
I BVPS-1 IST tD l I
c:
VALVE TESTi4G OUTUME c"1 p
SYSTEM NAME Reactor Ptart Samrve f
S -eitM NUMBist
- 4A y
Vafve Drawmg l
CSJcr Vatve Mark Valve Vatve Size Valve Test Reber
{
g-m Number pass. Category (m )
Type NSA OM No Coord Requiremerrt i Requests {
Cornmertes
- y y
TV-1SS-10CA1 2
A 3/4 Globe O
14AM D-3 CST I103T4734331 Strc+ e A Tr~+ Cesel (Gin ?V) d "U
O 4
k 4 L3 o!
5 I
LT ENT i
- BVT
- d ' 5 Le2* T*St f f* I
'* g i
f to y i
-4
' *3 s
TV-1SS-1% A2 2
A 31 4 Gicte O
14A
- D3 GST l
iOS T 47 3A 3Bi Stec.e & T,ne Cosec iOMV)
[
[
I 5
3 O
LT Rat
'sv7147 5 Lw Test (Ri o
D L
C
- OST-47 3A 38) Sirc e & Te-- Cesed Q TV-1 S S-t C2 A1 2
A 3 '4 Glote O
14A7 A3 CST 4
4
,1 O
t ll0 r R' iBVT 147 5-Lee Te5! 14,sRPV)
LT e
t' l
C TV S$--iO2 A2 2
A 34 Gboe O
14A-1 A-3 Gsi iOST-47 3A09t 5troke & Tee CKnad dG' s
T 07 9
i LT RRi iBVT 147 5-Lea Test (MtR5VJ g
6 6
j TV-1 S S-103A1 2
A 3/4 Gicoe O
14 A - 1 D-3 CST l
l TOST-47 3A 3arst os e & Tre Oose r0 Arv) l l
i t
r-
\\
m i
LT Rat l 'avi 147.5 Lee Test t' L?
I b -
g l
TV-1 SS-iC3A2 2
A 3/4 Glooe 0
14A - 1 0-3 GST
- OST473A 39; S!?ose & Tic e Cosec ;CHGPV)
LT
( Ri 10VT 1475Leaa rest tR1 l
nt1SS-104A1 2
A 3/4 Glooe O
14A-1 C-3 OST GST-47 %3Bc5trte e & Tme Cosed (O;;4 PVi i
LT RR1
( 18VT 1.475Les tem (R t l
TV-1SS-104A2 2
A 3/4 Globe C
14A-1 C-3
'75T tOS T47.3At391-S&c'e & T<ma Cos-c (C3RFv>
7u
%Q O
L.T RR1 164T 147 5-Lea. Test (4; y
i y
i i
l d$
O-oc
-e 3 C }
tM
=
Q OF M l
t.-
' ' ' = ' ' '
BVDS-1 IST
{
VALVE TESTIMG OUTLINE C
C3 e
M SYSTEM NAME: Reac*or P! ant Samme SYSTEM NUMBER 14A m
h y
V*)ve Drammg CSJor
-c3 Vatve Mark Valve Valve Seze Vafve Test Res.cf m
O_.
Number Cass Category (my Type NSA CM No Coord Requwement Requests Comments
-4 o~
m x
TV-1SS-105A1 2
A 3/4 Giote O
14A-1 B-3 CST l 105T47 3A 3d; Stec6 e & Ter Co_.c (g; f.y 7f y
t Z
- E l
LT RE1 iBvT 1471Leaa Test "R1RFV)
Q c
55 Y
TV-1SS-105A2 2
A 3/4 Gk ce O
14 A-1 8-3 OST 103 T-47 3At38) Stro.e & Tre Cicsed iC1
~-4 or i Tol 7
.2 3
{
O LT HR1 19VT i 47 S Leak Ted. W PV) g 2
TV-1 SS-109A1 2
A 3/4 Glote C
14 A-1 E-3 QST 1 CST 47.3AOS) S?cae & Tee Cme ;CJRPV)
C
)>
m O
LT E R1 18VT i 47 5-Leas Test (E)
'U T
TV-1SS-109A2 2
A 3,4 Giooe O
14A-1 E-3 CST iOST47.3At38; Stroke & Tim-Oosed :On;cv) s C
"w U1 C
2 LT 441 1BVT 147_S-Lea Test (4) b n
Z O
TV-1SS-111 A1 2
A 3/4 G!ote 0
14A 1 D-3 OST 105T 47.3A(33) Strcee & Tiny Cusec f Cs R AV) g r-I LT 491 1BVT 147 S Lea = tem ;4) m i
C TV-1SS-111 A2 2
A 3/4 G:ote O
14A-1 D-3 QST 105T-47 3A43Bi-Stro.e & Tre Cosec tOu WPv)
LT RR1 18VT t 47.5-te.p Tes* [4; Tv-1 SS-112 A1 2
A 3/4 Gacte O
14A-1 E3 CST TOST-47 3At Nhstreee & Trme Om.ac (OaRFV1 LT A41
- 1BVT 147} Lea 6 Tast tR) i TV-1SS-112A2 2
A 3/4 G2cce O
14A-1 E-3 C3T 1057-47 3Ai3BMirc,6 e & T.me Ce.1 (Gh WV) 7m to O
LT RRt 1BVT 147 5-Lea 6 Test?9)
- [
l y
5-TV-1SS-117 A 2
0 3'4 Gioce O
14A-1 G-2 CST 10ST47.3A!38t-Stro.e & Tane Ceed (O IR5v)
' 5 c {.
o
- m E i^
-- a o
- o e ro l
l e
O O'
i i 1l Illll'lil)<
ll i\\1l gf
!Ii,.E
~
id f;
kyy 4i6~ y1a mD,5=
9."
_:ll C O N 7
Zc<EQD @
.Z'3h<3m dmyzQ _3M mnOcRb E mo= 7CC,M >~ O <>r<mU J
2 7cCC R c~ acD i
o
.o i.I
. i i,
t i
A 4
?
R i
y; E
v B
r r
M E
f r
J N
C C;
M d
d e
a E
s s
T e
a SY D
D -
s S
4 e
e
- m M
~,
T s
C a
e, u
o e
r tS 8
8; i
3 3I A(
A 3
3 7
7 4
4 T
T S
S C
C i
S s
rt t s
o e e J h u S eq C R eR w
E t
T T
s e te S
S eW C
C u
T T
U T O R
SI G ME 1
ST f
F S tr 2
4 VE o
0 F
BT o
g C
E m
V e
L v
A a
V rD o
1 1
M A
A M
4 4
i 1
O A
S O
O N
e e e
e wp b
t ay io o
f e
VT G
G e e) v 4
4 z
S (m l
/
/
ai 3
3 V
ep
'i m
e "o r
aS twg a t B
e 8
tn Va ia C
P ro es t
vs c
a 2
2 a
la e
VC R
E M
i t
8 C
r A
a re 7
7 N
Mb 1
1 1
1 M
em vu S
S E
fan S
S T
1 1
S V
V Y
V S
T T
l
.l!;l!!r?r\\l!l lll l,
11
BWS-1 IST f_
)
a VALVE TESTING OUTUNE Z
ks $.
in SYSTEM NAME: Aear.for Plant Co-gym Ccmrq Wav l.
SYSTEM NUMBER
- 5 Valve -
Drawmg CSJ or i<
1, g Valve Mad Valve Vafwe Ssze Vafe Test Retwf l
m R
Number Cisss Category (at )
Type NSA OM No Coord j Requwerwed Requests -
Comments
-d 5
1CCR4 3
C 18 Cr*o 15-1 E -6 m
x l
(
' 10$T *5 TJS r0 C 7,
w l
e 1
CS 1057-15 2:3rcSSO c!
- l. _a e
l-cn l ~3 E'
1CCR-5 3
C 18 Check 15-1 E7 CS 1057 i5 2 FS.'D @
?I C l m
3 i
I o
a I
1CCR4 3
C is Cteck 15-1 E4 C5 TC ST-i t3 s s : D sC3 C
i C
GS T OS 7-15.H2 H S E D 4 0; I
TV-1CL-z G3A 2
A 6
G2c*a 0
15-5 A6 OST E c26 TOST-1.*3 5t o.e & T
.e Co-c vCSOv a a EN)
C C
i 3c C.
2 LT 44*
iBVT
- 47 5-Lea. Tes* j R; g
=
1 6
TV-1CC *03A1 2
A 6
Glooe O
- S-5 B6 CST E4;6 iCST-1.10 Some & T.-e Crcsad (CSOnEn47.0 r-LT RET 7 9VT i 4754ea. Test (a)
I m
cn TV-1CC-iO3B 2
A 6
G4cce C
iS $
A4 CST ER25 P iOST-UG-$N0*e & Tre Cc5ed tCSCyDjADVI 4
i LT RRi tBVT 1475 ea. Tes* (R j
i l
~V-tCC-10381 2
A 6
Glote O
15-5 84 CST r
f' i05T-t to St cue & T,- e C:ctec iCSOr 4X;PV)
R 426 i
LT Eat SBVT 1475 Leav Te:r R; l
t TV-1CC-103C 2
A 6
Grace O
15-5 A-3 CST E 426 CST-ttSStue & Tm C:cse: (CSCsh EPv6 7
l i
s
?O
'O LT GRT
' iBVT T 47 5-Leas Test (RJ m
t
=
I I
-~ - I
\\
O, ! w g.
O C
i c,3 an i
m C ti-PQ i
e O
O-
m i
I
^l l
3 BVPS-1 IST VALVE lESTING OUTumE l
~
SYSTEM NAME: Reactor Hart Cenwer:t Coo 4mg Wa*er SYSTtu NUMBER iSJ l$
~2 Va've Dravstg CSJor g
Vaive Marit Valve
. Valve Site Valve Test Retief m
28 Nnatber Class Category (wt)
Type NSA CM Nc Coord Requerecert Requests Commerits 4
F~'
m x
TV-1CC-103C1 2
A 6
Globe O
15-5 i
B-3 QST E926 tOSTM 70-Stro6e & T.me CeAd (CSCle4xR:'V) 7 l
E y
[
LT AR1
~18VT 1.475 Lea Test (R)
/
l G
62 i
TV-1CC-7C501 A
6
. Globe O
l 15-5 F4 CST 9 R26
.1 CST-1.t3 S:r:>e & Tr-e Cosed (CSDX ANEPV)
)]-4
{
ca I
I n
3 LT R R1 1BVT 1475-Leek Test (RJ
,sx w
t>
j.
TV-iCC-10502 2
A 6
Gobe 0
15-5 C-6 QST RR2s 10ST-1.745trose & Ttre Ceseo (CSOnRMRPV)
A
{E I.
~
- O j.
LT E41 1BVT 1.4?Ste46 Tes:(9) j 2
j U
C TV 1CC-10SE1 2
A 4
Gobe O
15 5
. F-5 QST 4;26 iCST-1.to-Suo+e & Trme Cknac (CSDMAREPV)
?
7 tn Cs LT RRT
- BVT t.475Lem Test (9)
=
TV-1CC-105E2 2
A 4
Gooe 0
155 G4 QST 4 42S TCST-1.145trtse & Tee Cunec (CSCnRXRPV) _
U l
y l
r-LT I
401 TBVT 147 Steam: Test (4) m i
TV-TCC-?O7A 3
8 2
Gooe O
15-5 C -6 QST R R.M 105T-1 to-Strose & Trme Ocwo (CSDh RH 4PV) i TV-tCC-1070 3
8 2
Gobe O
15 5 D-6 CST R R26 10ST-1.10 Stroke & Time Ocseo (CSDxR;tqPV)
TV iCC-107C 3
8 2
Gcbe O
15-5 F-6 QST RR26 10ST-1.10-Stro6e & T*me Cosed (CSOy4);49V) a TV-1CC-10701 2
A 3
Gooe O
15-5 Fa QST R R25 TOST-1.t3 Strose & Time Oosed (CSOM4N RPV) 4 LT RRt igVT :.475Leaa Test (aj y
i so I' &
C TV-1CC-107D2 2
A:
3 Gooe O
15-5 G4 GST E R26 1 CST-1.145tros e & Tee Ocsec (CSOkRMRPV)
-l ~ [
g_
oe$
LT 49t
- 1BVT t.475 Leak Test (R)
'oc-
- h o a, u
(
j_.
k BWS-1 (ST h
VALVE TESTING CUTLtNE y'
rs SYSTEM MAME' Reptor F! ant C7wM Cotus Wsee f-SYSTEM N8JMBER
- 5 y<
I CSJor I
g Vafwe Drawmg
{ Requests pe*eef
,m E
Vaive Mark Valve Vafve Saze
- arve Test Comr ets I*
6 Number Class Category (en )
Type NSA OM No Coord Requeremaret rn x
TV-1CC-107E1 2
A 2
G+obe C
is 5 r-3 Csi RRM
- C5T-1 os: c4 e & T.~e Cese tc50v9 gRPV) y 7o E
Q C
LT RRt 1BVT t 475Le w Test R)
U5
'A
~*
su TV-1CC-107E2 2
A 2
Grobe O
155 G-3 CST ER26
- 105T-t *0-3 *we & Tm CL2s -J (CSDsqRFV)
]
{
x O
LT RRt iBVT t475 Lea 6 Tast (R)
.p D>
RV-1CC-109 3
C
'a n 1 R **ef 152 E-7 597 i BVT 160 5, O C
RV-1CC-110 3
C
'a x 1 Rebet iS{
EE
<FT t BVT t 60 5-t m i
E t
l
,y 1
c-t TV-1CC-1100 2
A B
Gicoe O
29 2 E-9 C5T C5 Jia 105T i.10-5'rme & Tre Coac (CSOp RPV)
{
l m
C 2
LT 997
- L* S W Test (4)
K b
"* J TV-1CC-110E2 2
A 8
GMe O
29 2 A2 CST CSJt3
?OSI-t_tJ St r.4e & Twe CicsN SCS OB R PV)
[
r-<m LT RR1 i2VT 147.Steaa Test (;)
TV-1CC-110E3 2
A e
Giot*
O 29-2 A3 CST Cla9 1D*T-1.10-stros e & Tm Dosec tCSCh45V)
LT RR1 TOVT t.473-Leak Test (m i
TV-1CC-110F1 2
A/P 8
Gebe S
29 2 E-TC LT R R T,E R2 7
- BVT 147 5 Leas Test (4 H R9VJ TV 1CC-110F2 2
A 8
Giooe O
29-2 F-10 CST CSM9
- CST-1.tastroae s Tee CosN (CSOrRPV)
LT ART 1BVT i 475Leah Test f %
[
o C
l RV-1CC-111 A 3
C
'. m 1,
Reef 152 86 SPT
- 187T 160 S(H j m,N
> w 5. ;_ g Ioe
.- s l
~ D' c a 2 C
- M
.O*
l j
e G
G-
]
~ ~ ' ~ ~ ' ' ' ~ ~
j
'~
r f'
[tt!!y5!>}. I;!i'i'
.fr ;, L!
eI,
t-i!Fi.
t*'!,i; tt y
l
,i l>l.'I,!
t-,
F I ri i!'
.i
,l liI; f I5ta
%,<E6x7oao 9 moo 3 C3x
- 7.eo N
%g 5 o2 2
_$$<3m *~ m"._zC _6 ~ 7Io,2>g MOI 7 7,n >rC <>r<Mo
)
]c.0 3* % - -mO g
r c
t J
A i j('
u,f '
,1;'
I.
j1 je{
iii,r lfl i
l* I i
3ll Il
~ {!
b[
_5
.^
R EB t
}
)
U V
V)
V W
V V
)
s
)
F F
R D
?
P 4
G N
E A
x h
M E
t L
T S
S S
S O
E C
C O
C t
Y
(
C(
C(
m m
S C
C S
s:: e c
c c
O O
e a
e s
s s
e e
c e
e
~-
T m
D 1
O
)
O O
l T
}
4 a
e 9
e
(
e
(
m t
R{
e t
4 e
4 W
C e
ts T
s T
s T
s m
n t
t t
e t
t T
s w
e e
e e
e e
t T
T T
r T
T t
S e
e e
e S
e.
e e
Ri 3:
e e
a a
n a
o.
a e
c e
- j o
e c
e 9
Pi 3
L 3
1
(
8 e.
m r
L
?
L L
l tS 5
S 5
S; S
5 S
F 5
5 A!
}
5 t
4 5
5 O.
0 0
3 7
0 3
7 O
7 o
7 7
7 4
?
4 s
t.
4 4
6 6
7 4
6 7
4 s
t t
t
?
t 1
1 4
1 4
1 i
6 T
T T
T 7
i T
T i
T T
T 7
T T
T 5
v S
V v
S V
S v
V V
S 7
S V
V 0
s O
9 s
O B
0 8
E 8
O E
8 O
B a
1
?
T 1
1
?
?
?
t j
- l.
!{,'
l4I jj j! :
iis ll.
{,
l*i ii] -
s rf t s 7
7 T
7 o e u 2
m J
9 J
9 a
E R
e e t
t T
1 t
t 1
t J teq S
A S
4 S
4 S
4 E
E SC R e C
C C
C R
!f.
lf
.ff I I sI tn w
E t r T
T r
T T
T T
T T
T T
s e T
T ew S
T.
S p
S S
T M
L L
L G
S S
T, D
S T
. U T u G
i O
S C
O S
S C
(,
S O
s L
T q
U e
TO R
S G I
1 4 l
.i i!
Ii?
i#
it
.i11 i
ST PS dr 4
6 4
4 4
i 7
1 7
4 VE o
BT o
8 B
B F
G 3
C A
E F
a g
C E
ni V
L w
A a
r V
D o
N 3
3 2
3 3
2 2
5 2
5 2
M 5
5 5
5 9
5 M
5 9
5 n
1 1
1 1
2 2
1 C
,l;fEl I,#t AS O
O O
O 5
3 N
r y
y e e e
e f
e e
?
M f
t t
a e
o c
e e
e r
e W
wp o
c i
o
- c n
r e
tay c
e L
e e
m e"
e e'
r.
g VT G
G L
G G
h N
c m
E B
o o
},-
l,1 2
t, C
e e) 1 1
T
?
1 v
n z
laim 6
6 m
6 6
m m
6 E
8 x
e 1
1 V S(
e w-
{-
M y
r O
eo vg ae A
A C
A A
C C
A A
C l
d Va t
Pta C
o es
- 5 r
t vs c
a 2
2 3
2 2
3 3
2 3
2 3
a la e
VC 4
2 3
E A
A M
k T
2 i
2 1
2 2
2 r
A A
B D
C A
A A
3 A
a r t
t 1
1 1
t i
2 2
i 2
i 2
e N
Mb 1
1 1
1
?
1 t
1 vu C.
1 1
1 1
i i
c C
1 1
1 M
em C
C C
C C
C C
C C
C E
laN C
C C
C C
C C
C C
1 t
T S
V 1
t 1
1 t
V T
v 1
?
Y V
V V
V-V V
V O
V o
v S
T T
R T
T R
E U
N v
a
.+
yi I
i
.,1i-
- <3I,
<r 1i t
l i
1<I 1'
4
f',
li
- f li1 l
l$l iII f ug
<b __5< 7c?o' suCO3 C3A a 0$&
f e
mc1r3 @
.he a<3m *m " ZQ _r, e~ 7%Ogx>$ *OW 7C57o, &g jr<A 2 C &* 01
,,O C
t l,
l lf i
lf l
I&
s m
t
-S
)
M V
V)
P F
u 6
E G
e M
C C
E T
m S
e Y
C O
S s
e.
e e
e
~
T i
Ta C
e
(
R; 4
(
e.
t t
e s
s c
e o
e
?
T t
T 5
S e
)
a
)
)
i B) e 3
e R
R)
E f
(
4
(
4 4
4 4
5 A
5 5
A 4
H
(
M 4)
)
R H
9 Rt d
i 5
5 5
5 5
5 5
5 5
5 5
5 R
L 3
L 1
C 2
7 0
3 7
0 3
c 0
0 0
3 0
0 0
0 7
4 6
T 4
6 G
c 6
6 0
6 0
6 6
6 6
1 4
?
i 4
1 1
1 t
1 1
1 1
1 t
1 1
T T
T T
T T
T i
T T
T T
T T
T T
T V
5 V
v S
V
/
v V
V V
V V
V V
V V
B 0
S 1
O 3
5 B
B 6
B B
B B
B B
B 8
1 1
1 1
1 1
1 1
1 ll[,l I^
li;f-i s
t f
s 0 e J
s e
1 1
u 3
A S ie q
4 R
C R e R
,ll ii Is l^
E t
I T
T T
T T
T T
T T
T T
i T
'5 s
s T
P S
T N
e-P P
P P
P P
D P
P P
e P
w.
L L
S C
S Q
S S
S S
S S
S S
S S
S U
T T
U e
T O R
5 G
l 1
1 NI
-ST PS dr 4
8 4
8 6
6 4
2 5
4 4
4 4
3 3
VE o
3 A
E F
B D
E 0
0 C
B D
E C
D BT o
g E
t C
V w
L w
A ar V
D o
M 2
5 2
5 2
2 2
3 3
3 5
5 5
5 5
9 5
9 5
9 9
9 5
5 5
5 5
5 5
5 M
2 1
2 1
2 2
2 1
1 1
1 1
1 1
1 O
A S
5 5
N te
- y te e
e e
e e
e e
t e,
y f
f e e e
f'r e
r e
f
?
?
f f
?
f f
t t
f m
vp t
E e
t e
t n
n s
n n
h s
u la y e
e e
e e
e e
e e
e e
e
'e q
VT E
E R
G R
R k
G R
R R
R R
B B
r tooC e
i 1
1 1
1 1
i 1
1 1
1
?
1 e) t v z m
9 s
8 m
x x
=
m m
x m
a x
n lain e
1 1
S (e a
V r
?
ep j
yr o
eo C
t lvg ae C
A C
A C
C C
C C
C C
C C
C C
-s Va t
P:a C
ro es c
vs a
ia 3
2 3
2 3
3 3
3 3
3 3
3 3
3 3
al e
VC R
2 3
E 8
8 1
2 1
2 M
k 2
2 r
0 8
C C
C A
B C
A 8
C A
G 1
1 A
a r 2
1 2
1 2
2 2
3 3
3 5
5 5
G C
e N
Mb C
C 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 r
M er C
C C
C C
C C
C C
C C
C C
C C
vu 1
1 E
laN C
C C
C C
C C
C C
C C
C C
T V
Y V
v 1
1 1
1 1
1 1
1 1
1 1
1 S
V O
V o
V V
V V
V V
V V
V V
V S
R M
R u
R R
R R
R R
R R
R R
R s
f I
{'
n -.
~
r I
i L
b o
^
i
?
K BVPS-1 IST VALVE TESTING OUTLINE k
f
(
SYSTEM MAME; Reactor Piant Comporent Coobng wa:er L-F
$,y, i
SYSTEM NUuSER 15 f Vatve Drawmg CSJ cr i
2 Valve Marie, Vatve Vatve size Valve Tes.t Re#+et g
m G_
]
Number Class Category (arv )
Type NSA OMNo.
Coord Requerement Requests C...,..;s d
6
. RV-1CC-116C 3
C
% x1 Rahef 15 5 E-3 SPT 18VT 100 5-(R)
[
m x
7
[
O y
?
e Z
E RV-1CC-117 3
C
%m1 Raeef 15 4 C-9 SPT 1BVT 1 Sa SqR)
O
- a s
I E.
O f
RV-1CC-118 -
3 C
% 21 Reief 154 C-9 SDT 1BVT 160 544)
=
[
j x
2 i RV-1CC-119A 3
C
%=1 Re!,ef 15-5' C-7 SPT 1BVT 16G %(4)
C l
l O
A t
RV-1CC-119B 3
C
% x1 Rebef 15 5 E-8 SPT iBvi 160 54 RI R
t a
,e O
1 V-1CC-121-1 3
8 2
Glotn O
154 B1 QST I TOST-473A138pStroke & Tem Cosed (QMRPV)
A f
t C
i TV-iCC-121 2 3
8
' G1cte Q
154 F-2 QST 10ST473A(30pStrr,Se & Time Cosed (QH RPV)
E
,4 U
to C
TV-1CC-125 3
O G
G!cte 0
152 A-3 CST 10ST473A;3BFSucAe & Time Ckrsed (Q!tRPV) p 2-b TV-1CC-125-i 3
B
'6 Glote O
15-1 F3 CST 1 CST-473A(38FStro6e & Time Oosec (QHRCV) f t-l TV 1CC *25-2 3'
B 6
Globe O
15-1 F-5 CST 1 CST 473A00FStro6e & Time Closed (QHRPV) i t
TV-CC-126 3
3 8
Globe O
15-2 A4 QST 1 CST 473A(3BbStro.e & Teme Closed (Ch4PVJ I
g i
TV _1CC-126-1 3
3 8
Glote 0
15 1 G-7 QST 105T47.3A(38bstrose & Time Cosed (CHRPV)
TV-1CC-126-2 3
8 8
Glebe' O
15-1 G-e QST 1 CST 473A(38) Strc+e & Tswe Ocsec (C)tRPV)
[
t e
TV-1CC-127 3
B B
Globe O
152 45 QST 10ST473A(3BFStrc6 e & Terre Oosed (QgRPV)
'l t
[
TV-1CC-127-1 3
8 8
Glote 0
141 F-9 QST 10ST47.3A(3Bbstrc*e & Tee Cosed (QMRPV) i t
c C
TV-1CC-127 -2 3:
B 8
Glote 0
15-1 E-9 QST 10ST-473Ai38FStroke & Terre Cosed (CHRFV)
- t x
E; i
TV-1CC 128 3
B:
,8 Giote O
15-2 86 QST 105T-47 3A438estrc*e & Time Open (0:(NPv;
- o. 3 $
l l
o>
C) 22 fV I
6-
[
I Ei f
L s
)'
lilll11 lli 1!l ll hc$"4E Uoke mLfo=
C
_;5 n s
t Do ah a
_2*$<3m yU ZO _ M4]NOOI>5 mO% T$ 's, D8 s$ <h TtoD $o mc u
r u
s o
l t.l! 9 5
,^!i-i
~
ill 1
I}
N #+d R
E
)
)
vi
)
B V
V b
V V)
V)
V)
V)
)
V) 1
)
V Y
M F
p F
1
)
P F
d.
a g
P S
a W
)
P P
P.
P W
P R
a R
V V
R
- R E
U s
R A
N a
3 O
a 0;
O(
C(
O C
0 G
0(
M
(
ci O
e R
C f
i
(
t E
d c
d D
D d
c d
c o
d o
c d
T e
e e
S S
e e
e a
e a
a a
a S
s s
s C
s s
s s
s s
S O
c C
(
C4 C
C C
C C
O Y
o o
a o
o e
o e
o n
s s
c c
C O
O w
e ts e
e e
s e
e e
e e
e e
e i
C C
T i
m me m
i c
v r
e w
o e
i T
T T
T T
T T
T m
r r
e r
e m
r m
T T
T m
me o
m e
e e
e e
e e
e e
C e
e.
e r-T T
k
+
t
+
n ac o
c o
o c
o o
e c
o c
t t
t t
t t
t t
t t
t r
r r
r r
r r
r r
r S
S S
e e
S S
S S
S S
S S
p r
E L
)
5
)
0
)
B 8
8:
J t
b F
8 8;
B
'c c
B B
8 8
9 8
)
R(
f 3
3 A
R 3
3 3
t t
3 3
3 3
3 3
3 i
4 e
A; 4
4 S
S.
A A
At A
As 4
5 5
A A
A 5
3 3_
3 0
3 3
3 3
3 3
3 0
3 3
3_
3 0
+
1 7
7 7
7 7
7 6
6 7
7 7
6 7
7 7
4 4
4 t
4 4
4 4
4 4
1 1
1 4
4 4
i T
T T
T T
T T
T T
T T
T T
T T
T S
5 S
S S
S S
S S
S S
V V
S S
S V
C C
O C
C O
0 C
C C
0 B
B C
O C
D 1
1 i
1 1
i 1
1
?
1 1
1 i
i 1
l1.f' rf ts oe s 0
3 e
2 2
J h u J
J e
S q
S S
C R e C
C R
tne m
E t
r 9
T T
T T
T T
T T
T r
T T
T T
T T
T se k
er S
S S
S S
S S
S S
S S
P P
S S
S E
u T u Q
Q C
C C
C O
C Q
C G
S S
C C
C S
~
T q
U e
TO R
SI G 1 N I
I ST PS d
0 o
0 r
6 7
9 G
VE o
a E
E G
J 7
8 5
1 4
A B
2 1
6 1
1 i
G A
B D
B D
E B
BT o
A B
E F
g C
E t
V w
L w
A a
l' V
rD o
h 2
2 2
2 2
2 2
2 2
2 2
5 5
5 5
5 4
5 5
5 5
5 5
5 5
5 S
5 5
5 5
5 5
5 M
1 1
1 1
1 1
1 1
i 1
1 1
1 1
1 C
A S
O O
O O
0 0
0 O
O C
0 O
O S
N
-e
'a ee e
e e
e e
+
e o
e e
e t
f e
e e
f v p b
b b
c b
o t
o t
t i
w e
o o
b e
W la y eo o
lo n,
- o
!c (c
to fc
- o io c
e e
io lo
- o he g
VT G
G G
G G
G G
G G
G G
R R
G G
G R
MooC l
e e) i 1
1 t
v
'/.
'=-
n iun 6
6 6
6 3
6 2
m x
a i
2 x
V S(
1 1
1 1
1 1
c p
m yr o
eo C
twg re ae 8
8 8
8 0
8 8
8 0
8 8
C C
8 8
8 C
t Vta Pla C
ro es t
vs c
a 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
a la e
VC e
R E
M k
1 2
r 2
3 1
2 4
A B
A 8
A A
a r 9
0 2
3 3
4 4
4 6
6 0
7 7
7 9
9 9
e N
Mb 2
2 2
3 3
3 3
3 3
3 3
3 3
3 3
3 3
1 1
vu C
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 M
em C
C C
C C
C C
C C
C C
C C
C C
C E
laN C
C C
C C
C C
C C
C C
C C
C C
C C
T S
V 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
M 1
Y V
V V
V V
V V
V V
V V
V V
V V
V v
S T
T T
T T
T T
T T
T T
R R
T T
T R
v ll ll ll ll1l
[I l!
If L
Ii iI ytj k.$ <i ox 7oEc' 9w{m C
_:$ J P
DgE@
m c
Zw$<8m dmyZO _3e nOox>E,O2 *UE17c. D6 hr<h 2cv g g,.mO n
c Il f*
8 O
,11ll i
]
s R
EBMU N
M E
T S
Y S
s t
m me moC R)
R(
4 R(
5t R) 4 4) 4)
)
)
t
)
}
)
0
}
5 5
5 5
5 5
F(
(
5(
R6 4) 4)
R; R
R(
RJ A(
4 4
4 5
5 5g 1
(
4
(
(
5 5
5 5
5 0
1 0
0 3
0 C
G 0
0 0
1 0
0 0
3 0
6 6
6 6
6 6
S 6
6 6
6 6
6 6
5 6
6 1
1 1
t 1
t 1
1 1
1 1
t 1
1 1
1 W
V V
V V
v V
V V
V V
V V
V V
V V.
T T
T T
i T
T T
T T
T T
T T
T T
B B
B B
B B
B O
B B
B B
B 8
8 B
B 1
1 T
T 1
1 1
t 1
1 1
1 1
1 1
1 s
rt t oe se J b u S eq C R eR 4
.m E
t -.
T T
T T
T T
T T
T T
T T
T T
T T
T s a N
P D
S P
P C
P D
P v
P P
F P
D P
P e-U S
S S
S S
S S
S S
S S
S S
S S
S S
T t
T g
U e
TO R
S G I
- N 1 I ST PS dr 4
d D
E E
E F
F F
G D
D C
C B
e G
6 4
4 4
4 4
4 4
6 4
6 6
3 VE o
BT o
8 o
C g
E C
V m
L m
A a
V r
o t
N 4
4 4
4 4
4 4
4 4
4 4
4 4
4 4
4 4
5 5
5 5
5 5
5 5
5 5
5 5
5 5
5 0
5..
M 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
,O A
S N
re f
f t
t
?
f t
f t
f t
f
?
t f
f t
e e e
e e
e e
e e
e e
e e
e e
e e
e e.
ta vp w
b f
n c
h u
s e
9 h
h b
tay
~e e
e e
te se e
e e
e e
4e e
e e
e e
g VT R
R R
R C
R R
R R
R R
R R
R R
R R
e m
X
- C e e) 1 1
1 1
1 i
1 1
1 1
t i
1 1
1 1
1 t
v u a
m x
n a
m m
a m
m m
m x
x s
n e
S (m t
la y
V i
p m
p o
e s C
lae C
C C
C C
C C
C C
C C
C C
C C
C C
v s tn Vat Pla C
y es d
vs i a 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
a al e
VC O
R E:
M kr 3
C 0
E c
G H
4
)
L M
N P
4 A
6 A
a r 9
9 9
9 9
9 9
9 9
3 9
9 9
9 9
G 0
e M
Mb 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
4 4
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 M
em vu C
C C
C C
C C
C C
C C
C C
C C
C C
E tan C
C C
C C
C C
C C
C C
C C
C C
C C
TS V
1 1
1 1
1 1
i 1
1 1
1 1
1 1
i Y
V V
V V
V V
V V
V V
V V
V V
V V
V S
R R
R R
R R
R R
R R
R R
R R
R R
R s
w 1
jj
11 l
l l'
k,$, <E o 7Gz.o' 9 c [ a C
hcN i
Moiy= W i4 i
1$<gm yyzo _U-] DOOM >E MOM 7kbb D6 <yr<mm 7ncQ m* O.
mC t
gI' 1-G 3
2 5-
}
/
R E
B uu M
M E
T 1
SY O
S S
s C(
~.
m
)
C 4
C y
(
n ts O
e T
e
)
)
s R) 9t R(
R)
Rt Rt 1
}
)
J r
a 5
5 5
5 5
S(
R, R) j R)
R R.
R)
R R
e e
(
4
{
5 S
5 5
5 5
5 i
i 4
4
(
4 4
5 L
5 A
5 0
3 0
0 3
0 C
c 0
0 0
0 0
O 7
6 6
6 6
6 6
6 0
6 6
6 6
5 G
4 4
1 1
1 1
1 1
1 1
t 1
1 1
1 0
1 4
T T
T i
T T
T T
i T
T T
T T
T V
V V
v V
V V
v v
V V
V V
V 9
V S
G 8
a B
B G
B a
9 B
8 8
B 0
S 1
1 1
1 1
t 1
1 1
1 s
rf t s oe 8
e 1
u
'J J te R
5 q
S R
CR e C
R m.
E t
T T
T T
T T
T I
T T
T T
T T
s t
G N
S T
c P
P P
P P
C P
P P
O P
e 5
S S
S S
S S
S S
L S
S S
S C
L U
T T
g U
e TO R
S G I
1 N l
lif I
ST PS dr 3
a 3
3 3
3 3
3 3
3 3
3
?
E o
3 3
V, T o
6 C
D E
E E
F F
F G
D O
C C
I g
E C
V m
L m
A a
V rD 04 4
J 4
4 3-4 5
5 5
5 5
5 5
5 4
4 4
4 4
4 4
4 5
5 5
5 5
5 5
M 1
1 1
1 1
1 1
1 1
1 1
1 C
A S
S N
L i]
te y
?
f t
f t
f f
f f
f f
f f
f r
e e e
e e
+
e ie e
e e
ie e
e e
e vp h
n n
n e
e e
ay fe e
e
+
'e e,
e e
e e
c 6
h
?
W e
f q
VT R
R R
k R
R F
R R
s R
R R
R r
B acoC e e) 1 1
i 1
1 1
1 i
1 i
1 1
1 tn v
l t
x x
m.
p x
m m
a m
x m
x n
x 8
ain v
V S (e e
a i
a 1
t.
a t'.
i t
?
t
?
t p
m yr o
eo C
vg ae C
C C
C C
C C
C C
C C
C C
C A
l tn t
Va la C
P c.
es J
la vs F
a 3
3 3
3 3
3 3
3 3
3 3
3 3
3 2
e VC e
R E
M t
C D
E F
G H
e 2
J L
V N
P R
r A
a r 0
C 0
0 0
0 0
0 0
0 0
0 C
0 N
Mb 4
4 4
4 4
4 4
4 4
4 4
4 4
4 1
1 1
1 1
1 1
1 1
1 1
1 1
7 M
e r:
4 E
vu C
C C
C C
C C
C C
C C
C C
C 2
T aN C
C C
C C
C C
C C
C C
C C
C O
f S
V 1
i 1
1 1
1 1
1 1
1 1
1 1
C Y
V V
V V
V V
V V
V V
V V
V V
C S
R R
R R
R R
F(
R R
R R
R R
R 1
y
~
['
i ;
i 6
BVPS-1 IST VALVE TEsilMG OUTLfME SYSTEM NAME' Reactor Fiart Croor.ent Coorg Wa?*<
Sv5 FEM NUMBEst 15 Vaive Dravverig I
C3Jor e
Valve Mark
' Vafve Valve Site Vafve.
Test R* bet 3
4 m
EL Number Class Category (in )
Type NSA OM Mo Coord Regnaremerit Requests C..
.arits y
_o 1CCR 248 2
A 18
. BWertry LS 15 5 A--8 Q3 CSJ ? 9 TOU 10 4 A-Stoe @y Ccen (CSD)
NJ
=
2 LT RR1 16VT 147 5-Lea Tas!(R) o e
i y
Ui 9
1CCR-2 1 2
A 18 B#erty L3 15-5 G4 C3 CSJ15 10M-1C 4 A-st o e C-ay Csen iCSDs 5
-4 a
l]O g
y 3
tT RA1 18VT t 47_5-Lea + Test (R) g W
1CCR-252 2
A 18 BAerty LS l 15 5 G-8 CS CSJie ICV-10 4 A S: oe Cay Cten (CSD)
E O
LT
- 91 1BVT 1475tf as Test (R)
M 7
1CCR-2e3 3
C 2
Cr'eck 15-5 C-3 CS R R2*
1BVT 1 G3 TJS RO ty lea Test (R) iC
.J:
c 4
~2
\\
W C
1CCR 290 3
C 2
Cr:ec6 15-5 D-3 CS R R28 1BVT 160 7-FS.RD ey teaa Tesi tRf a
3 7
I g
1CCR 291 3
C 2
C* ect 15 5 F-3 Os s 429 18VT t 60 T SS.RD ey t.eet Test (Q) y 1
m i
M I.
~]
i m
m C
O N
c e
- 6. ~
0EE
~oc a 3 O Cur O CD PJ i
e 1
. ry 9
t e
e..-
. e..
e-m ww-
7OEm,9c=Os C3E "
x,CC m a
U*5 ROD c.
- _.hmy 3m y* ZO_5H xOgM>5 mO% 7C57U &b <>r<mO 2
U
(
$ o_ so uCf>
It I
G 01-R.
EB MU N
M E
T S
Y S
- s m
i v
R
)
C
(
R(
R)
)
t R(
t t
t t
s s
s s
e e
e e
T T
T T
g g
g g
s n
o a
o a
e o
a L
e L
e L
e L
e L
v e
e L
e L
L 5
5 e
5 n
5 ia 7
ia 7
fa 7
v a
7 V
4 V
4 d
1 d
1 d
1 d
t e
T e
e T
e T
T o
V V
k b
V o
V o
B a
B G
e G
L L
1 L
L 1
s rf t
o ete 1
1 i
1 e
J l u
R R
R S eq R
R R
R C R e R
.c c.
E t
S S
S S
s ;
T T
G N
I er O
O C
T C
T L
L L
L L
T e P
P P
P t
T g
U e
TO R
S G I
1 N l
I ST PS dr 8
VE o
7 e
7 BT o
0 D
D D
g E
C V
m L
w A
a V
rD oN 1
1 1
1 4
0 4
3 M
2 2
2 2
O A
S S
S S
S L
L L
L N
e e
- a ta a
vp 1
t a
ta tay B
B B
B n
VT o
ta c.#r e e) u v
z faim 6
6 6
6 P
4 Vs(
F p
g p-n e
P P
P P
i v
lo lae A
A A
A
/
/
/
/
o Vt a C
C looP es vsa 2
te tal 2
2 u
VC E:
e F
M kr A
a re N
Mb M
em vu 0
7 8
E laN 9
1 3
3 T
S V
C C
C C
Y P
P P
P S
1 1
T T
s 1(
l o
DVP5-1 IST (D
VALVE TESTING OUTUNE h
o" m
SYSTEM MAME Urn Steam l -
SYSIEM NUUBER 21 y
y i
Vaive Dravrmg C5J or g
Vafwe Mark Valve Valve Sue Vatve Test Retief m
Ei.
1
- Coord Requwement Requasts,
Corwnents
-4
,C Number Clas*,
Category (m)
m 1 M S-15 2
3 3
Gate LC 21 i B4 CS CSJ21 iC5T-24 4 5t eb e Cm y Cue-I C 7
f
?OST 24 9 Strc6e Oniy CMM 6C30i E
h u
O e
T V S-16 2,
B 3
Gate LO 21-1 O4 CS CS;21 j iCST 24 4 Sirc.e Orcy OmN ic
{
l 1037-24 9 S*rc6 e CW y C"cM :CSO:
65 9
-4 e
21 i F-3 CS CSJ21 1C57 24 4 Sin >e Coy CTm G
}
[
l 1U S-17 2
B 3
Gate LS
- Cst 14 3-St-ce CWy Ore (CSO) x
- 2 i
G iMSMS 2
C 3
Creo 21 1 G -4 05
-03T-24 4 PSfD (C9 o
D y
QS R4N TOb t 24%FS s0 iCSCt 5
i O
CS E4 9 tGVT-1 su 755 90 cy Lea. Tes: W2 I
4 T
i C
1 M S-19 2
C 3
Cteo 27-1 G-4 CS I
SOST-24 4 ?S.FO iCi C
f U
(n C
3 GS A R29 l iOST 24 2 FS.FD ICSO;
=
h O
R429
? OvT-1 CO 7 FS.4 D t>v t.ea* Tes' (R !
Qs i
r-<
m iMS20 2
C 3
Cheo 21-1 G-4 CS TOST-24 4SSf D ic)
CD QS E 429 10ST 24 955.5 01CSDf j
l C5 R R29
-BvT.: CC 7 is R3 ty ten Ie/ Fi 1MS40 2
C 3
C*co 21 1 C7 OS R R';O Samo e Disassetu/ n2 mt;at,cn TCur-75-C4ANE CHECK-tet4; j
i M S-61 2
C 3
Creo 21-1 C-7 QS h 4?O Sam;>e Disasse-c.Ay ec in;nte P 1CVD-75GANE CHEC0W,4!
i us-82 2
C 3
Cheo 21-1 1
E-7 CS E 930 Save Disassemc!y ro m%vt:c,:v
]
{
1CvP-7%C R ANE CHEC01V;4 i c
1 C
l 2
j uOV-1 MS-iO* A 2
8 2
Glooe 5
21-1 C-8 QST 1C5T-47.3AGBEstrcLe & Tee Ocw:IQ :4M e e N < _
i OE$
N OV-1 V S-101 A 2
EFC 32 Cre.k O
21-1 Be CS CSJ22 iCST-1.iG-FS.R0 (CSDW RFV; I
~Oc E
-- 3 c i
O CD PJ
i f
BVPS-1 IST k
VALVE TESTING OUTLfME E*
- a SYSTEM MAME. vam Steam SYSTEM WUMEER 21 Valve Drawmg C5Jor g
Valve MaA Vafve -
Valve See Vatwe Test Rehe*
m E
Numtper Class Category (m)
Type NSA OM No Cooro R ecurremef*t Fequests Cornmeelts
-4 6
m w
-[
6 Gobe A
2? 1 A-5 OST CS J23 iO7T
- iO Stros e & T w Ct=-o ;C'~ > 20V) 3 7
1 h
o
- c lE O
o SV-1 MS-101 A 2
C 6 m 10 A &ef 21 1 84 S?T I 1t.3/i 12 ? or 18VT
- 217. O ci t
l b
E TV-1MS *01 A 2
B/C 32 inverse O
21-1 BS QST CSJ21 1105T-214-Strme & Tee C?cs-2 (CSCH RFV)
]
[
om I
m a
O M OV-1 M S-1018 2
B 2
Gote S
21-1 E4 CST 105T-47 3A:3BLSuo e & Tec Ccsed (OFJ om>
re RV-1 V S-1018 2
B/C 32 Check O
21 1 D6 CS CSJ22 l 1 CST-1 iO4 5 40 (CSSn40V; l
5 i
8 6
Gobe A
21 1 C5 QST CSJ23 I SOST-t to Stroke & Tere Cm (CSCx4PV7 l
[
T l
C 1
SV-1 MS-1018 2
C 6 s *O kw e*
21
- D4 SDT f 'BVT 12117 TBVT 1212 (4) 5 l
}
7 m
C
, CST 215-5 ro-e & T-rre Cecsac (CSDMMPV)
D P/-1 MS 4018 2
B/C 32 e verse O
?
Cred d
9 o
1 MOV 1MS 1010 2
8 2
Gote 5
21 i G4 CST
- OS T47.3At 3Br Str% e & Tm Ctec (0,t RPV) l r-<
l N RV-1 MS-101C 2
S/C 32 Check O
21-1 F4 OS CSJ22 1057-1*3 FS RD (CSOr43Vr PCV-1 M S-101C 2
8 6
Grot.e A
21-1 E5 CST CSJ23 iCST-1 TO-St-o.e & Ir e Cw (CSSI4PV' i
SV-1 M S-101C 2
C 6 x 10 l Eer e!
21 1 E -4 SPT
- BVT 1211 cw
- E IT 1212 6)
TV-1 M S-101C 2
B,C 32 Inve<se O
21-1 F-8 QST CSJ24 TOST 21 S S!ro-e & Tme C)ew C5 Ch R"-N)
Creck SV-1MS 1C2A 2
C 6 a 10 Renef 21-1 B4 SPT 1BVT 12tt ce *BvT i 2 ? 2 ;R)
SV-t us-102 B 2
C 6 m10 Renef 21-1 0-4 SPT iBvT i 2*.1 er GVT 125 244) 2 o
fD m
1' r:
SV-1M S-102C 2
C 6 m 10 Re'ef 21-1 E4 SPT 1 BVT T 21 1 or t BVT 121.s W
"" 5. _
orO SV-1 M S-103A 2
C 6s10 Re +f 21-?
84 SPT 1BVT 121 t or 18VT T 212 (R!
O$
O tl2 1%3 e
e 9-
b
'} -
r.
G BVPS-1 IST VALVE TESTING OUTUME E
h at
' SYSTEM MAME-Mam Steam SysTEu asuidBER 21 Valve
+
Vtive Mark Vafve Vatve -
Size Vatve.
Drammg CSJer g
Test Rebet m
22 Number Class Category (en )
Type 9tSA OM tao Coord Requerement Requests Corm f
-4 o~
m x
SV-t M S-1039 2
C 6 x to Cehef 21-1 D4 SDT 1F/T 121.1 ce tFIT t 212 4Cl y
s.
7o Z
E SV-1 MS-103C 2
C
- 6) to Rebe?
21-1 E4 SPT tBYT ?21.1 or iBVT T 2124;)
2 Q'
e Ui 50
-4 cr SV-tMS-104A -
2 C
6 x 10 Rehef 21 1 43 SPT
?F/T 121.1718VT 121244)
]
{
2 3
O SV-1 MS-104B 2
C 6 x10 Rewf 21-1 3-3 SPT 1BVT 1213 or 1BVY t 71244) c)
2>
SV-1MS-iO4C -
2 I'
C 6 xto
. Reef 21 -t E-3 SPT I iBVT 1.21.1 or TBVT 12i.2-i4)
E O
C 6x10 Rebe!
&1 3-3 SPT 1BVT t.21,1 or 1BVT 12t 2 R) 2 T
C SV-1 MS-tC58 2
C 6 xto Re"e*
21-1 D-3 SPT j TBVT t 21.1 w 18V712124Ei?
5 7
tn C
3 SV-1MS-105C C
6 x10 2ebef 21 1 E-3 SPT
? BvT ? 21.1 or fBVT uil iR -
A O
TV 1MS-105A 3
B.
3 Gate 5
21-1 G4 CST
' 1 CST-28 4-Sm e & Ten Ot-n G GPv1 h
F<
' Tt 1MS-tO58 3
8 3
Ga'e S
21-1 G-5 CST 1C57-24 4-Stre'e & Tee CW (O;:SiPV) i MOV-1MS-105 3.
B 3
Gate O
21 1 G4 CST iCST47 3A13 Bps %ose & Tm Cren (Op4PV) __
TV-1 MS-111 A 2
B l1%
Gate O
264 E-1 CST
?OST47.3Ai3BFSt?me & Tr~e Cicsed IO)(RFV}
l TV-1 M S-11 :B 2
B 1%
Ga e C
264 C-1 QST iCST-a7.3A(3aFSt cse & Tvre cosec tCxRF'q 4
TV TVS-111C 2
B 1%
Gate 0-264 A-t CST TOST-4T3Ai3el-Strc*e & Tm Cves rOkRFV)
I L
ra E2 O 2 en M k-oE:
a
O C a 3 O
- w O QB PJ i
I ii kaj
<O OxTOkO !yOO3 Cs a
?
$Ce PJ esrOa O s
E(hggm Hm Z
Ga~ 7XOpM>? nO2 7C57tn DQ hr<$
2oC o= o~
cO n
t e
2
.~
O 4
R EB 41 M
R) 4)
1 1(
t U
(
1 N
1 4
4 4
2 M
2 2
E T
7 T
S 3
5 S
C 0
0 Y
i 1
1 1
S Os Q
j C
Q
(
4 s
1
)
C 4,
(
Q'.
f
(
d 0
C.)
C' o
d w
w a
e m
m m
s 6
e n
+
s a
D:
D lo c
o e
i 1
i w
S S
C C
C O
O O
3 C
Ds D)
C C
)
3 s
L i
3 L
L y
y y
y
- y y
D 3
D S
S r
N a
C O
0 c
m W
n N
S g
S g
g S
Ct
(
R 4
o C
o o
C O
O C
O O
C(
L
(
t C(
L O(
D D
D 0
e e
e e
e e
D 4
D 45 D
45 D
h e
6 5
J R.
F f
c c
o o
m o
f f
J J
S V
S V
S S
S S
r r
r r
i r
S u
F F
F F
S S'
P S
S S
F 0
t t
t S
0 F
0 F
J 1
9 3
9 6
4 2
3 4
2 3
6 B
8 4
1 t
y y
y 4
4 4
4 4
4 4
4 4
4 4
b 4
b 4
e 4
2 2
2 2
2 2
2 2
2 2
2 2
2 2
D D
D T
T T
T T
T T
T T
T T
T T
T S
S S
5 S
S S
S S
S 5
R.
S A
5 R
3 C
C C
C C
C O
C C
C 0
S 0
S 0
S 0
i 1
1 1
T 1
t 1
F 1
F 1
F 1
l}
s rt t s 5
5 5
5 5
5 5
o e e 2
2 2
2 2
2 2
J h u J
J J
J J
J J
S e q S
S S
S S
S S
C R e C
C C
C C
C C
R i.,
tire m
E ts e S
S S
S S
S S
S S
S S
S S
S S
S S
N ew G
C C
C Q
C Q
C C
C C
C C
Q C
C C
O L
T u T
q U
e T O R
SI G
- N 1
I ST PS J'r 7
VE o
2 4
7 2
4 7
2 5
7 7
7 7
BT o
E E
E D
D D
D O
D B
E G
E g
C EV m
L w
A a
V rD o
N 2
2 2
2 2
2 2
2 2
1 1
1 2
4 4
4 4
4 4
4 4
4 4
4 4
4 M
2 2
2 2
2 2
2 2
2 2
2 2
2 O
,l ll A
S O
O S
S S
O P
L L
L e e
)
6
)
k k
k h
e e
e e
e e
vp c
c W
c c
c t
e e
ta e
ta ta
-a a
e e
e e
ta y r
h G
G G
G G
G h
r h
r VT C
C C
C C
C C
< *.-. 6 4
4 6
4 4
6 4
4 3
3 3
1 yr ko s
g ae C
C C
8 8
B B
8 8
C C
C C
t VaC rep w
es v :s 3
3 3
3 3
3 3
3 3
2 2
2 3
d l
e a1 e
VC j7a -
F O
E M
e.
r A
at.
M W~
N M
e 7
4 5
6 7
8 3
0 1
2 3
4 0
v E
law 3
3 3
3 3
4 4,
4 4
4-5 3
TS V
E W
W W
W W
W W
W W
W W
W Y
f F
F F
F F
F F
F F
F F
F i
1 1
1 1
1 1
1 1
1 1
1 v
pr n
d' i
BVPS-1 IST l
VALVE TESTING OUTLIME f
h Z"
SYSTEM MAME. Feedwater SYSTEM NUMBER 24 m
su Valve Draw mg CSJor l
Valve Mark Vaive Valve Ssre Valve Test Reteef 3
fft 2_'
Number Cass Category (in )
Type NSA OMNo.
Coord Requirement Requests Cm.-- as y.
1FW 51 3
.C 1
CrcA 24-2 E2 CS 1057-242 FS.FD (C)
O g
g 1FW-52 3
C 1
Chech 24-2 E-5 CS j *0ST-24 34S.FO tC) 2 U3 9
1FW-66 3
C 1
Chech 24 2 E4 OS 10ST-24 4 FS FO iCi
~4 c.r i
]
y M
=
1FW49 -
3 C
1 Check 24-2 E-2 C5 tCST-24 2 FS.FC (C; O'
o M
1 FW-70 3
C 1
Creck 24-2 E-5 CS TOST 44 3-FS FO G) 5 m.
(
O l
MOV-1 FW-150A 3
8 20 Ga*e O
24-3 C-3 CST CSJ31 TOST-1.10 Strome & Tm Cosec tCSOMRPV; M
7 1
6-MOV 1FW 1508 3
0 20 Ga'e O
24-3 D-3 CST CSJ31 TOST-110 Steche & Tm Ce (CSDftRPv; 5-T un C
MOV-1FW 151 A 2
B 3
Giote O
24 2 C-3 CST 10ST-24.1-Strose & Tce Cw (Cx4FV1 m*
O.
MOV-i FW-1 Si B 2
8 3
Gooe O
24 2 C-?
CST TCST-24 t-S:ro*e & Tee h AAUv)
'h MOV.tFW iStC 2
B 3
Gobe O
24 2 33 CST TOST 24.1-Stroke & Tee Coen @p RPV}
h MOV-1FW-151 D B
3 Gobe O
24 2 B3 CST 1051441-Stro6e & Tre Cten (C;GPV1 MOV-1FW-151 E 2
8 3
Gctse O
24-2 A-3 QST 10ST-24.1-Stroke & T.~e Cm (CxRPV)-
MOV-1 FW-151 F 2
B
~3 Geoe O
24 2-A-3 CST 103124.1-Strose & Trme Open {CARPV)
RV-1FW-15$
2 C
3 st 4 Rebef 24 4 F-7 SPT tBVT 1 GOS (R)
MOV-1 FW-156A 2'
BtC
.16 Cneck O
24 1 B-T QST CSJ26 10ST-1 iO-5: obe & Tme Cknad (CSD)tRPV)
Tm TOST-24.14A - Vert?y cmure by Leam Test (R)
MOV-t FW-15GB 2
B/C 16 Check O
24-1 D-7 CST CSJ26 TOST-130-strose & Tw ocsed (CSDh EPV)
$c
- OSTc4_t49 - Ve dy desure by Leak Test (R) g-{
g uOv-irw-tscC '
2, BrC es
{
Cnea.
O 24 1
- F-r CST Csrs SOsT-tm Stro.e & Tm Cmee tCSocPv
.88 TOSTa414C - veJr we o, te TesnR) gm
~ -
17!if,I hI
!>th>I f i[
- I Lff[Itl.
f r-lthl,l1 f i! l lt{4!i
!i)f r![,;;t t !E 1,
i41i tl;
,fti!
,:.E6x y'{o*L.aCc3 C2 A._
i'} 1lyj:
D 2
.$cp ~
Co c
i xe<bc= =
_,"n $<3m m 3 Z, O G4 ~ mxOOn>5 moa 7C,hd hC hr<]
i!l
- tI!j i.
T2ao cN O-::i._=c9
,lj.1
!rIIiil l
I
,i l;4
,j;
. iaI i
.l i
l ji' J 4
2 R
E B
VJ v3 V)
M D
U V3 E
V) 4
)
P W
V 4
P a
9 d
N 4
0 4
C; 4
O M
i
(
H
(
E D
3 c
0 N
w e
5 T
S S
C C
C S
C c
C
(
1m Y
i c
t o
w C
s t
e e
e n
s s
e e
o.
M c
e m.
c m
C O
T C
T m
e; o
D)
C t
O e
e a
s S
S.
s S
o e
e.
C r-e e.
(
C C{
C c
C
(
C, T
T T
o c
c a
o D
D 0
C t
u u
R r,
S 4
R t
/>
V) e S
S e.
e S
C 0
D 0
D O
hP p
F ai vC 2;
o 9
v 2
F.
r.
- F.
E r
e r ac
- r V4 3
+
N 1"
W
++
3 t
J F
5 J
3 S
S S
5 i
i 4 i(
1 5
S F
W e
o B
G1 o*
J O
1 t
- 4 4 4 4 e 4 7
7.
0 e
e 5
7 4
4 4
a 4
4 2 2 22 Z 2 4
M 4
1 4
2 2
1 i
2 2
n 7
T T T 7 T T T
T T
T T
T T
7 T
2" 5S S5 S3 S
S S
5 s
S S
5 S
s 5
00 O0 00 O
O O
0 O
O C
0 0
0 0
1 1
1 1 1
1 1
1 i [j1 I!.
!)
l\\
I l
-[r l s
rf ts S
9 9
5 S
5 s
s 5
o e e
R 2
2 2
R d
u 2
J h u J
J J
J S e q
S S
S S
S S
i S
C R e C
C C
C C
C C
C C
R
,t l
l fi!i!;
lf[
tne O
m E
t S
S S
T T
T T
T T
s e S
S S
3 S
n er O
O O
S S
3 S
S S
iL T a P
P C
C C
Q C
O C
C C
O 0
Q g
T U
e T O R
51 G 1 N l
l
- I-II.!!i!'I
-STI PS d
- VE o
D G
B A
f D
F F
C C
6 B
A A
r 7
7 OT o
8 7
4 4
4 4
4 4
4 4
4 4
4 4
g C
E n
VL ne A
a l,;
- 1j2fIi V
r D
o N
i 1
1 1
1 1
1 2
2 2
2 2
2 4
4 4
4 4
4 4
4 4
4 4
4 M
4 4
4 2
2 2
2 2
2 2
2 2
2 2
2 2
2 O
ljl
!:ii
{!
A S
O O
O A
5 A
S A
S N
1 i1e1' e e
'e
'e
- a i a
a te e
e e
e a
a h
h o
u v p t
t>
c t
D b
c c
m r
c a
io o
io ac o
e e.
e c
e r
r r
e e.
V T' G
G G
G G
G G
G G
C C
C C
C C
r l!f it1:
.l, l!*
e e) v t
6 6
6 la e
m 3
3 3
4 4
4 3
3 3
3 3
3 1
V S(
y
.}.;'
r eo vg P
P P
B 0
B O
B B
B C
C C
C C
C ta te
/
B B
/
Va r
C te
,l ll4 4
. j1 '
a w
es vs d
lal e
a 2
2 2
2 2
2 2
2 2
2 2
2 2
2 2
ee VC F
j, 4'
E A
B C
M k
8 8
o 6
9 6
9 9
r 5
5 s
A ar N
Mb i
7 7
6 6
G e
1 1
4 4
4 4
4 M
em W
W W
W W
W W
W W
2 3
4 5
6 7
F F
F F
F F
F F
F v u 2
2 2
2 2
E 1
E 6
0 C
6 6
1 1
1 1
1 laN 1
1 T
S V
V V
V V
V V
V V
V W
W W
W W
W Y
C C
C C
C C
C C
C F
F F
f r
F S
H H
H F
F F
F F
F 1
1 1
i 1
a' ji 5i,i4) s a 1(j
, ij
<I1'
.l' i '
f!i' i -
'l II\\I ll>
l4l'l'I1i iiIl1 i1Il' ll.
'i.
e I
i 70Eo' g.m~~ o=
C
_$ c C e.
Cen$~ ga 2
7 Me<553 O T
_ "Mmx<gm y3=*.O _ Mw]xOcx>5 MOW TC5mm DD <>r<mM
)
7QCO eS O' e,O 2
t l
5 i
2 R
)
V)
V V)
V V)
V
)
EB A
V
)
)
)
v u
P P
P F
P P
P P
e W
M
(
Ci R
R Et E
R R
n U
e P
d
-c x
a N
C C
C C
C C;
C.
Q
(
I i
N M
e e
e N
E c
d c
o T
e e
M E
S s
s s
s s
m o
e c
o o
Y o
S C
C C
C' C
C C
C C
s W
e e
e e
e e
e e
e e
e
~.
m m
e m
e r
T T
T T
T T
T T
T mo G
i C
e e
e e
e e
e.
e.
e s
n a
o o
o c-t t
t t
t t
t to r
r r
r c
v o
e r
r r
S S
S S
S S
S S
S 9
r r
i F
i r
9';
G a
8) 0 ai B
B B
(
3 3
3 At A!
A A4 r
3 3
3 O
3 a
A A
A E
3 3
3 3
3 3
3 a
7 7
7 7
7 7
7 7
7 4
4 4
4 4
4 4
4 4
T 7
T T
T T
T T
T s
5 S
S S
S S
S s
O 0
O O
O C
0 C
0 1
1 1
1 t
s rf t oe se J h u S eq C R e R
tne m
E t
T T
T T
T T
T T
T s e N
e I
er S
S S
S S
S S
S S
L T u C
C C
C C
C C
C C
T q
U e
T O R
S G I
- N l;
l).lI!
l.j 1
I ST PS d
VE o
4 4
2 2
2 2
2 2
r 4
BT o
B D
F 8
D D
F n
g C
EV m
L w
A a
if lit f,
V rD oN 1
1 1
1 1
1 1
1 5
5 5
5 5
5 5
5 5
M 2
2 2
2 2
2 2
2 2
O Il, A
S O
O O
C O
0 O
O O
N i
e e e
e e
e e
1 e
e e
v p t
t>
t lay io 6
lo r
'a a
'a e
-a c
VT G
G G
G G
G G
G c
n w
e e) o v u 3
3 3
3 3
3 3
3 3
S (m c
la w
V o
rB 4
g v
e -m t
v y
/
lae B
B 8
B B
0 0
B e
v Va t
C e
G es m
i v s a
2 2
/
2 2
2 2
2 2
e lal VC tS I
E M
k 1
2 1
t 2
r A
8 C
A A
8 C
C A
a r 0
0 0
1
+
0 0
0 o
1 e
1 1
M Mb 0
0 0
0 C
1 1
1 vu D
1 1
1 t
M em D
D D
D 0
C D
D E
fan B
B B
8 8
0 B
B e
T S
V 1
1 1
1 1
1 1
1 V
1
~
Y V
V V
V V
W V
v S
T T
T T
T T
T T
li t1(il[
l1ll l1lrl lill Illl1
!1'lll ll.!I1<
I1
h c<e, <2_
70Ek m c:OO3 C
_$CC M s
l
%c)<E'O3 Q D
_ZW$<gm y@ Z[ wA~ 7xhx>s oW 7CE7u DB <>r<mT n
7cCC oC O' epC 2
t c 0 7
)
2 V
D E
R E
ii B
C v)
Vs u
(
o F
c R
A u
a M
i C't C;
m s
(
c C
E c
2 T
x e
e x
o o
5 s
s v
S O
C C
sa m m i
e e
r m
T
)
)
C 4)
T a
(
(
7 C
e
(
D t
t a
e s
e c
e F,
e t
r T
S T
fe tS F
5 s
e i
e F
3 e
B e
8 8
0 t
3 L
1.
3 i
A 3
A:
S A
Ai 3
7 3
7 3
3 7
4 7
4 7
7 4
4 t
4 4
1 T
T T
T T
S V
S V
S S
O B
C B
C O
i T
1 1
T s
rf t
ee s J i e T
1 u
R R
5 teq E
R C R e R
^
E t
T T
T s
T 5
T N
0.
I er S
S S
L 0
L L
T eu C
O C
T q
U e
TO R
Si G M
1 t
-ST s
PS r
3 0
t 3
VE o
2 BT o
D D
D 0
g C
EV m
L w
A a
l V
rD o
N 4
6 1
1 6
6 7
7 M
2 2
2 2
O A
S S
O C
N e e e
vp c
o e
e ay ic c.
a ta l
r VT G
C G
G e e) v l r n 6
6 8
8 t
aV S (a yr eo vg C
te.
ae A
/
8 8
l A
Vta S
C y
ra es n
w s im al t a 2
2 3
3 u
vC A
e E
M k
A 0
r A
1 1
A t re 0
0 0
K Mb 0
1 1
1 M
em 8
S S
E vu V
7 A
A T
aN S
2 1
1 l
1 S
V S
V W
Y S
A Y
S T
1 N
H y
l l
lr l!ll
<A
-i O
kc$ <E mOEC' ?r~o3 C33 "
_:5 %
r s
)
ygE32 ZW$<gm g Z O _ Il +~ mDOoD>5 mO% *)Eb7u Db <>r<$
m$e 8O
..Q n
t i
0 e
3 1
R EB M
)
U N
M Vt VI V
V)
E P
E F
P T
9 R
R R
S a
X n
N Y
S s
(
C(
Q C(
O t
(
m e,.
e e
n n
n ne 3
m O
0 C
C nreo e
e e
e C
CJ 01 0) m n
mi T
m r
(
1
(
T T
T D
D C
L C
O O
i R.
A R.
t r
t O
D 3
C D
D e
e e
e y
F.
f F.
F F,
F J
N R)
)
b s
5 S
S 3
S 5
4 i
(
R R) o o
Rs S
R c
c R(
r r
r t
t 4
t t
i t
t 5
F F
F F
4 5
5 5
5 S
S 5
S S
5 2
3 6
2 3
6 G
0 0
0 0
2 2
0 3
3 0
^
0 0
0 0
3 G
0 6
6 6
6 0
0 6
0 1
0 3
3 3
3 3
3 t
1 1
1 i
3 3
1 3
O
?
7 T
T T
T T
T T
T T
T 7
T i
T T
T 5
S S
S S
S V
V V
V 5
S v
S S
V O'.
0 C
O O
O O
B B
B B
0 0
a O
O B
1 1
i i
t i
i 1
1 1
1 t
T T
1 s
rf ts o e e
Jn u S eq C R e R
tne m
E t
T T
T T
T T
T T
T T
se S
S S
S S
S N
D D
P P
P S
S S
S P
I ea C
C Q
C Q
C L
T u S
S S
S S
Q Q
C Q
S T
q U
e TO R
S G l
l I
t4 1 i ll l
ST PS d
VE o
3 3
2 2
2 8
S 6
8 2
4 4
2 4
4 2
r 3
BT o
A C
D A
B' C
C E
0 F
C B
A D
C C
E g
C EV m
L w
A a
V r
D o
N
?
1 1
1 1
1 3
3 3
3 3
1 1
3 1
1 3
0 0
0 0
0-0 0
0 0
0 0
0 0
0 0
0 0
M 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
C 1
A S
S 0
S 5
M l
l; y
e fty
!y
- y t
t ee A
A f
t t
t
- e n
M f
?
c c
t c
e f
t e
e w
e e
vp e
=
e r
r e
e r
l i
c e
n e
G R
A
-e n
a y r
P h
h
'e e
e e
e e
e VT C
C C'
C C
C R
E G
R R
tu R
S B
B B
e 1
1 1
1 1
1 e) vfai e 0
0 0
4 4
4 A
m x
a a
0 0
x 0
0 a
zt r
2 2
2 3
3 3
2 2
2 2
/
/
VS(
l yr eo vg a e C
C C
C C
C C
C C
C C
8 B
C 8
B C
t Vta fe C
ta W
es r
vs t
a 3
3 3
3 3
3 2
2 2
2 3
3 3
3 3
3 3
ev al i
VC R
1 2
1 2
E A
A 8
B M
k 2
2 2
2 r
A B
C 0
A 0
0 8
0 0
C A
aM 1
1 1
1 2
1 0
0 0
0 0
0 0
1 2
W 1
1 2
N tsf W
W W
W R
R W
R R
W r
1 1
1 1
4 W
W W
W 1
1 M
er 7
4 9
5 6
7 E
vu 5
1 V
V V
O O
V O
O V
T aN 5
5 9
9 9
R R
R R
R l
1 1
1 1
1 i
1 R
R S
V W
W W
W W
W R
R R
V V
V V
1 V
V-1
~R Y
R R
S 1
1 1
1 1
1 R
R R
R R
U M
R M
M R
y i
I4
- 2 i i i
fi li ll 1
SVPS-1 IST VALVE TESTING OUTUNE SYSTEM NAME. River Water SYSTEM NUMBER 30 Vaive Drawmg CSJor 3
Valve Mark Valve Vaive Sue Vatve Test Rettet m
8,.
Number Class Category (m )
Coord RequereM Requests C..a-.^ s C~
MOV-1RW 102C1 3
8 20 Banerny 5
3ot D-4 CST
".05T-3.] 6-Strc=e & T+me Cren 'C : R PV)
T m
v O
Z MOV-iRW-102C2 3
B 20 Breff y 5
30-1 D-4 CST
' 10ST-30 6-Stese & Tr-e Cran iCerv)
~.
O en Ui 9
MOV-1 RW-103A 3
B 24 Banert y S
30-3 82 CST 10ST-30 4 Stro*e & Tee Cm (Q:iRFV}
7 A
su e
m
=
MOV-1RW-1038 3
8 24 Bunerby S
30 3 82 OST
- OST;30 4-Suo.e & Tu v Or (QA APV) oO X>
MOV-1 RW-103C 3
0 24 B#te fiy S
343 G-2 QST TOST 33 5 St c*e & Tre Cm (Q44?v1 E
m O
MOV-1 NW-103 D 3
8 24 Bfta ty S
30 3 G--2 CST 10ST-30 5-Sutwe & T -e Ore, a Q1RDVt W
7C MOV-1 RW-104 3
B 24 Bane ty S
30-3 E6 CST
.10ST-30 4 ** o-e & Tirne Open (Ch8FV) 5 7(n C
B 14 Bra My O
30-3 C-6 CST 105T-30 4-Strr>e & T tre Ocsed (Ch APV)
D 3
MOV-1 RW-104 B 2
B 14 Bu".er t y O
30-3 54 CST
! 1 CST-30 5-Str oa e A T>ma Coseo :CH EiGV; h
r-<
. uCV,1 RW-104C 2
0 14 Buneefly O
30-3 D-G CST 105T-30 4 St c*e & T.me Oos c ;Q;ikpV)
MOV 1RW 104D 2
8 14 0;te ty O
30 3 G-6 CST
' 1 CST-305 S'rc6 e & itme Ocsec (Qg RFV)
UOV-1 RW-105A 2
0 14 Bunarty O
30-3 C-9 CST 1 CST-30 4-St o+e & Time Oosed (QdRDV; MOV-1RW-105B 2
B 14 But erfty O
30-3 E-9 CST 10ST-30 5 Stroe & T>me Cosed (QsRev)
8 14,
Buner*:y O
30-3 D-9 QST 1037-3.]4 Stro6e & Tme Cosec tQgRPV)
/
m MOV-1RW 1050 2
0 14 Beerfty O
30-3 F-9 CST 10ST-305 S 06e & Te-v Coseo (QMR?V)
C MOV-1 RW-10GA 3
0 24 Bunerfly O
30-3 C-1 QST 1 CST-30 4-Stro6e & Tme Ocsed toni,PV)
$o D
O @$
RV-1 RW-106A 3
C
". m 1 Re"ef 30-1 E-B SDT 1BVT 160 5-tc)
O cm PJ e
G G-
m v.
r, m
O-o l
BVPS 115T 2
VALVE TESTING OUTUNE K;
=
SYSTEM HvMBER 30 y
SYSTd' NA '_l River Wate<
[.
s-I Valve Drawing CSJ or Va:ve Mut Valve Valve S re Valve Test Resief m
S_
Number Class Category
-)
Type NSA OMNo Coord Requirement Requests Comrne nts y
g_
MOV-1 R'v-1060 3
B 24 dxter fly C
30-3 F-1 QST 10S T-30 5. Stro 1 Tirre Cose<1 (QFRPV) 3 70 l
=.-
- E 4
o o
(
RV-1 R W-1069 3
C
%x1 Renef 30-1 E-7 SPT 18VT 160 5 (R) 6 9
l
-A w
1 RW-106 J
C 24 Cr.eck A-9 QS 10ST-30 2(CFFSJ D (Q)
]
5 x
3 O
l QS P R31 1 CST-30 t-Fs.40 t R) o 6
l 1 RW-107 3
C 24 Cneck
'l 30-1 D9 05 10ST-30.3is)-FS,FD (C) l o"
QS R R31 10ST-30 8 FS RD (R)
"O l
7C
+
1 RW-108 3
C 24 Cheo 30-3 E>-4 QS 10ST-30 2{6FS,FD (Q)
K Tm C
3 1RW 109 L
24 Cr et.k 30-3 G-6 QS 103T-30.3(c) FS/D (Q)
K b
1 R W-110 3
C 4
Chech 30-1 F8 QS 10ST 361 PS.FD (Q) h r~<
QS RR32 Sample D iassemtdy and inspation per
]
CMP 1/2-75-WAFER CHECK-1M (R) 1 RW-111 3
C 4-Check 30-1 F-8 QS 10ST.
.-P S,F D (Q.!
QS R R32 Sampie Disa serrb!y arJ inspection per CVP 1/2-75-WAFER CHECK-19 (R) 1RW 112 3
C 4
Check 30-1 G -8 v3 10ST-367 P".,FD (C)
QS R R32 Sample Dt sy urd inspr-ction W CMP T/2-75 4 CHECM 1M (R)
I m
l 1 RW-113 3
C 4
Check 30-1 G8 QS 10ST-36 2 PS.F D (Q) y to
~(
3
"[
QS R R32 Sample Disassembly v4 inspection per CMP 1/2-75-WAFER CMECK-1M (R) 5-O9$
M OV-1 R W-113A 3
8 4
Gate S
30-1 F-10 05T 10ST-30 5-Strce e & Time Open (Q)t RPV)
]O c
3 (D M M l
e
BVr*
'T val *
' +
'W SYSTEM NAME: Rwer Water w
m SYSTEM NUMBER. 30 Vatve T'
l CSJor Valve Mark Valve Valve Size Valve
, est Rehef g
m. El Number Oass Category (an )
-ooro.
Rt quirement Requests r;. w nts y
MOV-1RW 113r3 3
8 4
Gate S
30-1 010 QST 10ST-30 4-Stron e & Time Open (Q4RFV)
$o y
T Z
MOV-1RW 113C 3
0 4
Gate S
'ni Ge QST 10ST-30 S-St'o6e & Time Open (QiNV)
/
O o
US 9
MOV-1 RW-113 D1 3
8 4
Gate S
30-1 G-8 QST 10ST Stroee & T,me Open (QH RPV)
]
{
--4 ce x
=
MCN-1 RW-114 A 3
B 24 Butter fly O
30-3 81 QST 10ST-30 4-Stro6e & T me Ctosed (Qi(RpV)
OO D
t.-
MOV.NW-114B 3
0 24 ButterM y O
30-3 F-1 QST 1 CST-30 5-Stroke & Time Ciosea (Q):RpV)
E mO MOV-1RW 116 3
Es 8
BJter hy S
30-3 D1 QST 10ST-314 St-os e & Tm e Open tONRPV) 2 7C MOV-1 RW-116 A 3
8 24 Baterfly S
30-1 B-10 QST 1057-301A-Strone & Time Open (QWT*PV) 5 7
to C
u CV-1 RW-116B 3
0 24 Bauerf:y S
341 D-10 QST iiCd ~n1B Stroke & Time open !QnqpV)
~
O MOV-1 R W-117 3
8 e
Bret fiy S
30-3 F-1 QST 10S7-30 5-St ose & T.me Open (CARPV) h r-i
^
' 1 RW4 93 2
C 14 Cneck 343 C-7 QS 105T-30.2i6pFS.FD (Q) 1RW 194 2
C 14 Check 30-3 E-7 CS 105 T-30 216)-FS.FD (Qi 1 RW-195 2
C 14 Check 30-3 F-7 QS 10ST 30.3(GFFS,FO (Q) 1 RW-136 2
C 14 Check 30-3 G-7 QS TOST-30 3(6FF S,FD (Q) 1 RW-206 3
8 6
B/te# Dy LS 24-1 F-10 QS 10ST-24.10-Strc6 e Ordy Opan (M)
T 1RW 207 3
B 6
Brertly S
24-1 G-9 QS iOST-2410 S* rov ONy Open (V)
G 1 RW-208 3
a 6
Butterfly 5
24 1 F-8 QS 10ST-24.10-Strc& e Only Open (V t hQ_
x O 3$
1 RW-209 3
3 4
Butter riy 5
24 1 G-2 QS 10ST-241G Strc+ e Oray Open (M) h5 m
O "Je PJ,
v (3
h BVPS-1 IST VALVE TESTING OUTUNr.
SYSTEM MAME: Rsver Water SYSTEM NUMBER ' 30 Valve Drawmg CSJ or
<3 Vs.tve Mark Valve Valve Site Valve Test Rehef m
{_
Number Ctass Category (in )
Reqwrement Requests.
Commer4s y
Q 1RW 210 3
8 4
Bure< fly 5
24-1 F-5 QS 10ST-24.10 Stro* e On'y 0;;*n (V) g'O y
1 RW466 3
C 3
Cneck 30 1 A-2 QS 1 CST-302-F S/ D.RD (QF
~
_O o
E1 9
1 R'W487 3
C 3
Ched-30 1 C-2 QS 10ST-303-FSfD.RD (Q)
]
-4 ca x
3 1 RW-488 3
C 3
Checa 30 1 D2 QS 10ST 30 6-FSfD,RD (Q)
OO X
1RW E15 2
8 1
Bel O
43 2 02 QS 10ST47.3At33)-S:roee Only Gosed (C)
O 1 RW4.;21 2
8 1
Bail O
43 2 D-7
-QS 10ST47.3A{38) Stro6e On'y Closed (Qi 2
0 1 RW-627 2
B 1
Bail O
43 2 F-2 QS 10ST-47.3A(38,bStrcke Ordy Cicsed tC) 6 L
Tm C
1 RW-633 2
8 1
Ba.:
O 43-2 F-7 CS 10ST47.3At3BLStro'e Oniy Ctesed 40)
D E
3 b
1 RW-675 3
C 3/4 Cneck 30-1 A-2
- . 2 RR35 iOST 30 2-FS.FD (R)
,h 1 RWE76 3
C 3/4 Check 30-1 8-2 QS 4R35 1 CST-313 CS,FD (R) 1 RW-677 3
C 3/4 Cned 30-t D2 QS RR35 10ST-30 6 FS/D (R) i ra w3 C
o%
e o
. 6-7 0 *_ w oc a 3 C O Ua M
ll llIl)
,\\llll
'\\jIl
,lll'l 1
j go
' <Ei. G toe m5y3 C3z -
_sco 8%
3
&e<EO3 ca
_ gg
<3m y z
3 1
2M]yOo%>E 7O% 7CE7w >Za gr<mW
,:uCO 'oW o' s *C
~#
l l
33
)
D)
D)
D R
S S
S C
B V
V)
V
(
C(
C(
E
)
)
M P
P P
r r
U t
R R
e e
e R
s N
)
y M
i s
s i
O c
c c
M
(
O(
C(
r r
r e
e e
E o
c c
x x
x T
e e
e E
E E
S s
s s
la la la Y
ic o
c C
C O
c.
c i
S
- s q
n n
e.
e.
e a
a a
h h
r r
r a.
'r re T
)
V
)
M M
u c
c T
)
R) e e
e T
R R
R R
C e
e
(
R(
y
(
y
(
y
(
o
(
e.
ts s
s s
t t
c t
t t
b t
s s
c e
e o
e D
e D
e D
e r
t T
r T
r S
S t
T T
R, R
T T
R.
8) k k
S e
8) e S;
a D
e D
k D
e a
a a
a a
e E,
e F,
e F.
A 3
L 3
L S
L S
L S
L 1
L 3(
5 A(
F
(
5 F
5 7
0 7
3 7
0 7
0 5
A F
5 F
3 7
3 7
7 4
7 4
7 4-1 4
1 4
1 4
4 1
4 1
4 1
1 1
1 1
1 1
T T
T T
T T
T T
T T
T T
5 V
S V
S V
S V
S V
S V
C B
0 8
0 B
0 9
0 B
0 0
1 1
1 1
1 1
1 1
1 1
1 s
rf t s
o s
e 1
1 1
2 i
2 1
2 1
e 7
7 7
u R
R R
J R
J R
J R
J fe S
q R
R A
S R
S R
S R
C R e C
C C
R tne m
E ts e T
T T
e N
i S
T S
T S
T S
T S
T S
T I
e r L
L L
Q L
Q L
O L
L T u Q
Q Q
T q
U e
T O R
S I
G t NI
-ST PS dr 4
'/ E o
4 5
4 4
5 5T o
C C
C D
D D
g C
E n
V i
L w
A a
V r
D o
B B
9 8
B B
N 1
1 1
1 1
1 M
3 3
3 3
3 3
3 O
3 3
3 3
3 A
S 5
S S
N e e lay te te e
t k
6 v p o
c c
c a
a h
h VT G
G lo e
e e
r G
C C
C e e) v z n V Sin 4
4 4
4 4
4 lai y
r eo v
n g
C C
C o
l e
A A
A a
t
/
/
/
i Va A
A A
tce C
te r
es P
vsa 2
2 2
2 2
2 e
lal i
VC r
e F
E M
kr A
a re 5
6 7
N Mb 0
0 0
1 1
M em P
P 0
0 2
vu P
1 0
4 7
E laN
'F F
F 8
8 8
T 1
P S
V 1
1 P
P Y
V V
V F
F F
S T
T T
1 1
1 ll li l
ll
\\l t'
l l.l l!1
,I l'l' 1llll\\'
ll ll I
j1 l4 h, 4D _
79< o' t w E3 C$ -
5eCC N t
o
.~
%o$EO3 @
_[h<gm4 $=aO _g3 7xOON>5,ON Tc57L >~y <>r<Mm Tuc. C *o#' C* s O O
43 R
E B
M U
N M
E T
S Y
S s
tne m
)
m
)
7 R
oC
(
(
t t
s e
e T
T e
a k
e e
L L
5 5
7 7
A 4
1 T
T V
V B
B 1
1 s
rtoe ts 1
1 S
t e
J t
u R
R e
q R
R C R e
R tne m
E t
e T
i s
N er L
L U
T iu T
q U
e TO R
S I
G l+
- N 1
I ST PS d
0 0
r VE o
1 1
BT o
B B
g E
C V
m L
w A
a V
r i
D o
N 1
1 R
4 M
3 O
A S
S L
N e e ta y te u
v p
a e.
VT G
rC 3
A e e) v r
n 8aiS (m 2
2 on V
a tS y
(
e o P
r r4 vg P
O.
D A
la e
/
t A
d Va A
es C
se r
a l
p w t l
m fala 2 2
o VC C
E M
kr A
a re N
Mb M
em vu 4
5 E
laN 1
1 T
S V
A A
Y S
S S
1 i
f l!Il\\lltI' lillll1,ll l'tii lil\\
lllllliIllIll1l.
llllllll tIl Il1
,l
BVPS-1 IST VALVE TESTiteG OUTLINE E
k w
SYSTEM NAME. Compressed Air (instrument Atr)
SYSTEM NUMBER. 34 m
m Valve Drawing CSJ or 1
. V; ave Mark Valve Valve -
Size Va!ve Test Relief 3
m E
Number Class Category (ir- )
Type NSA OM No Coord "equerement Requests Commeo's y
ilA-90 2
A/P 2
Gate LS 34-2 E-2 LT R41 1BVT 1475 Leak Test (R)
'7 o
Z lE ilA-91 2
A/CIP 1
-Creck 34-2 E-3 LT RR6 1BVT 1.47.5 Leak Test (A)
O " o Ui 50 3
E m
6~
"O 3
O Om>$
m Ox U
C5 3
f.D C
b z
O r-
~
w 7o C
Q ON <e -
o *a,E O C a 3 O O CD M e.
O O-
1 lll) l
- lI lll 1
o $'<E 7O1o, $cy3 C32 "
E5M 2i xo5T3 C D
_[$<gm 3 zO _EJ4 xOoZ>5 MOW TC57G O hr<$
D [3c aO* R
=O o
63 R
E B
M N
ly
)y y
)y U
)
}
n N
m N
i t
t t
M o'
r n
n n
o o
o E
T V
V m
v S
~
Y B
B S
s
(
B(
(
B(
t n
n n
n n
e r
e e
e p
t c
p m
g g
O C
O O
mo to lo e
e e
e C
a e
m mi T
T
)
)
e s
ri m
v v
4 T
T C
O(
v
(
O) e
(
C t
v C
D d
D D
d e
e e
e R.
R.
te R,
R, te b
6 k
t
)
)
t t
t t
R)
R RJ R(
4)
R(
R) o o
c o
f a
a r
r r
r S
S e
S 5
e 4
4 4
4 F
F s
F 5
s S
S S
S 5
5 5
5 5
5 5
1 1
r 2
2 r
1 1
2 2
0 0
0 0
0 0
0 o
o 6
6 6
0 6
6 6
6 6
6 6
6 6
6 6
T T
w 3
3 d
3 3
c 3
3 3
3 1
1 1
1 1
1 1
T T
e T
e T
T T
T T
T T
T T
T k
S S
S S
d S
S S
v V
V V
V V
V c
0 O
o 1
O o
0 0
0 0
B G
B B
B B
E 0
2 1
i L
t L
1 1
1 1
1 1
1 1
1 1
s rf t oe s 6
6 6
6 J i e 3
3 3
3 u
R R
R R
le S
q C R e R
R R
R R
tn e
m E
t e
S S
S S
T T
T T
T T
T T
T T
T s
S S
N er Q
C I
e O
Q Q
O S
S S
S P
P P
P P
P F
P Q
Q Q
Q S
S S
S S
S S
L T u P
T q
U e
T O R
S I
G NI 1
ST PS d
VE o
4 3
7 9
8 2
4 7
9 1
1 1
5 5
5 6
r 2
BT o
A A
B A
A B
F F
F F
C D
D C
0 D
C g
C E
n V
i L
w A
ar l
V D
o 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 N
6 6
6 6
6 6
6 6
6 6
S 6
G 6
6 M
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 V
O A
S S
S 5
S 5
S L
L N
c d
d d
t) e e d
d l
d d
o o
o o
fe e
e e
fe e
e i
i f
f f
f f
d r
v p e
e a
e a
a r
r n
n c
n n
n n
n a.
ta la y h
r B
r h
B e
t-VT C
C C
C te o
ie le e
e e
e e
e e
c o
R R
R R
R R
R S
r S
S S
S iA le e
s e) v 4
4 4
4 8
S 5
8 2
2 2
2 2
2 2
r e
l t
n
/
3 3
3 3
3' 3
3 1
1 1
1 1
1 1
S (i
3
/
/
/
/
/
/
/
/
/
/
/
/
/
i a
D(
V 1
1 ec y
v.
r r
e c S
l g
P P/
0 B
8 8
C C
C C
C C
C v
e C
C C
C
/
e a
t B
B Va n
i C
a ta t
es S
vsa 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
3 3
V lal K
VC 4
E M
kr 1
2 3
4 A
B C
A 8
C A
A a re 0
0 0
0 1
1 1
2 2
2 3
N Mb E
E E
2 2
2 2
2 2
2 1
1 0
0 0
0 0
0 0
E 1
1 M
em 0
1 4
0 1
4 v u 0
0 0
3 3
3 E
E E
E E
E E
E E
E E
E 1
1 1
1 1
1 1
1 1
1 E
E E
E E
E E
laN T
'A A
A A
A A
V V
V V
1 1
1 1
1 1
1 S
V Y
D D
D D
D D
O O
O O
V V
V V
V V
V S
1 1
1 1
1 1
S S
S S
R R
R R
R R
R lll Ill l
(
l[i lIf ll llll l
t1lIIl I
1}lllli;i
Beaver Valley Power Station Unit 1 Issue 3 INSERVICE TESTING (IST) PROGRAM FOR PUh'PS AND VALVES Revision 8 Page 109 of 180 0 E
'E 3
3 3
2 Ue>
M e
E 15 oO 5
5 5'
5 5
A h
h h
b a
8 8
8 8
=
c 6
m m
9'=
v
e 8 T, E
?Ih yR sa 3.5,
~
~
~
~
z a
a a
a a
3 n%
v) u)
vi sn u) 2 s
>Q
+
2 U o "E
hh a?
o 9
9 9
ca >
O O
y 6
6 g
k a
6 2
r r
i r
i 3
[
o 4e 2
F.
)$ k k
k k
a a
a a
a si a
a a
a a
s
<t D
D D
U Q
gc g
.=
+
o V
s f{
$ e, U
O O
O O
>5 c
o_
U ee n
n n
m n
v
>U v __
iu 3
1 g
a m
u o
o 8
8 8
3j*
2 9
9 9
9 9
3 U
$2 v
v r
m r
S jo>
a 2
m i
gs f
t
{t I
.[.
4 y
i j
. 7O4O mE#o=
h#*
,, _$e9 m
$' <W.
4 gEo3 a
. w U < g m y % Z f' _
]xO'o2>E,,o2"CSmM $O $t<$
U o o7 go Yc'Ea)O i
63 R:
', +
EBM tt N
M E
T SY
)
Q)
S s
Q(
(
t n'
n ne e
e m
p p
M M
MJ u)
O O
m
').
)
o y
y C
(
(
(
(
O O
ln r
d b
D D
D M
M)
)
R, R,
R.
R.
e e
(
(
k k
D D.
D D
o o
D 0
)
)
f J
f F,
t t
)
r r
f f
R S
S S
S S
S S
S
(
R(
R R) 4
(
F F
F F
A A
F F
5 5
5 5
1 1
2 2
3 3
1 2
0 0
0 0
6 6
6 6
7 7
6 6
6 6
6 6
3 3
3 3
4 4
3 3
1 1
1 t
T T
T T
T T
T T
T T
T T
S S
S S
S S
S S
v V
V v
0 0
0 0
0 0
0 0
B 8
B B
1 1
1 1
1 1
1 1
1 1
1 1
s rf t s e se J
u S teq C Re R
tne m
E tse S.
S S
S S
S S
S T
T T
T N
er P
P P
P f
i Q
Q Q
Q Q
Q Q
Q L
Tu S
S S
S T
q U
e TO R
SI G 1 N I
ST PS d.r S
VE o
5 5
5 5
5 3
3 A
4 4.
4 BT o
B A
E E
8 D
B E
B A
E E
g C
E n
. V i
L w
A a
. V r
D o
N 2
2 2
2
?
2 2
2 2
2 2
2 M
6.
6 6
6 6
6 6
6 6
6 6
G 3
3 3
3 3
3 3
3 3
3 3
3
.O A
S S
S N
n 7,
~
)
ee k
k k
k k
k f
f f
e e
e e
te te c
c c
c c
c e
e e.
e vp
!i a
a e
e h
h h
lay h
h h
h O
VT C
C C
C G
G h
h e
e fe e
C C
R R
R R
!eu F
fe e e )'
1 1
1 t
s v
4-4 4
4
/
/
2 2
x x
x x
4 4
z i
/
/
/
/
e lain
(
V S(
3 3
3 3
3 3
- D e
c y
v r
n eo e
fvg S
a e C
C C
C 8
8 C
C C
C C
C t
i V. C n
a o
ta
~
t es S
vs lala 3
3 3
3 3
3 3
3 3
3 3
3 V
K VC 4
E M
kr A
a r A
8 C
D e
M Mb 0
0 0
0 1
1 1
1 m
1 M
e 1
1 1
v u 0
5 6
5 6
E E
E E
E T
laN 7- -
8.
9 1
1 1
3 3
E E
E E
1 1
1 1
S V
O O
O O
O O
O O
Y F -
F F
F F
F F
F V
V V
V S
1 1.
1 1
1 1
1 1
R R
R R
7
~
i 5
f DVPS-1 IST VALVE TES!!NG OUTUNE SYSTEM NAME= Control Area Ventdation SYST" M NUMBER-44A Valve Draneng CSJ or 3
Volve Mark Valve Valve Size Valve l
Test Pet.sf m
E
(
Number Class Category (in )
Type NSA OH No l Coord Reqwrement R eq.sasts Comments y
RV-1'VS 101 A 3
C
% x1 Rehet 44 A-1 F-2 SPT 1BVT 103 5-(R) 7 y
E 8
O o
TV-1VS-101 A 3
8 i
Gate S
44 A-1 G-3 QST RR37 3BVT 1.44.1 Stro6 0 On!y Oren (Every 18 Months),
U5 9
m
~
C RV-1VS-1018 3
C
%x*
Rehef 44 A-1 F-2 SPT 1BvT 160 5-(R) 7 O
M 3
O TV-1VS-1018 3
8 1
Gate S
44A-1 F-3 QST RR37 33VT t.44.1-Strone Only Open (Ewy 18 Montns)
O
- 0>
RV-1VS-101C 3
C
%x1 Rehe*
44 A-1 E-2 SPT 1BVT 160 5-(R)
O l
44A-1 E-3 QST RR37 38VT 144.1-Stroke On!y Open (Every 18 Montns) i TV-1VS 101C 3
B 1
Gate S
7C l
RV-1VS-1010 3
C
%x1 Repet 44 A.1 02 SPT 1BVT 160 $-(R) 5 3
C TV IVS-1010 3
8 1
Gate S
44 A-1 D-3 QST HR37 38VT 144.1-Stroke Only Open (Every 18 Vorchs) o RV-1 /S-101 E 3
C
%s1 Nehef 44A-1 C-2 SPT 1B' T 1005(R) h
' TV-1vS-101 E 3
8 1
Gate S
4441 C-3 QST RR37 38VT 1441-Stroke Only Open (Every 18 Months) ra Do
- M "o
O. OEE C
a 3-O Cp Q 00 PJ O
O O'
s,
., \\
\\-
im
).
'q ud.
.s BVDS-1 15T h
VALVE TESTING OUTLINE SYSTEM NAME. Containment Area Ven!Pahon SYSTEM 88 UMBER 44C Valve Drawing CSJor
<g VIJve Mark Valve Vafve Size Valve Test Relief m-E Number Class Category (in )
Coord Requirement Requests Comments y.
1VSDS-3A 2
A 42 MOV LS 44C-15 hore QST CSJ23 iOST-1.10-StrtAe & Time Cicsed ICSD){RPV)
"U Damper E
y LT R R1,.R R38 1BVT 1475 Leak Test (R) k 5
59 1VS D-5-3B 2
A 42 MOV LS 44C-15 None QST CSJ26 TOST-1145 rose & Time Closec (CSDARPV)
]
g' s
m-Damper y
3 O
LT Rai,RR38 18VT 1.475 Leak Test (R) g I>
1VS-D-5-5A 2
A 42 MOV LS 440-15 None OST CSJ29 1 CST-1.10-Stroke & Time Cosed ICSDJr,RPV) lE Damper nO LT 9 R1.R R'J9 1BVT 147.5-Leak Test (R)
XI
~
o C
A-42 MOV LS 440-15 Nore CST CSJ28 10ST-1.10-stroke & Tune Cosed (CSD)tRPV)
E Damper
]
C LT R R1,R R 39 1BV71475 Leak Tes! (R; b
,6 1 VS-D- 5-6
?
A/P 8
Manua!
S 44C-15.
Ncne LT R R t.RR39 1GVT 1.475-Leak Test (R)
Dam;er h
g m
U2 -
n>
C C
" 11 O
i-OEE
.'aO c 3 C Co O On PJ
BVPS-1 IST h
VALVE TESTING OUTLINE SYSTEM NAME; Post DBA Hycrogen Coritrol SYSTEM NUMBER. 46 Valve Drawing CSJ or g
Valve Mark Valve Valve Size Valve Test Relief m
g Number Class Category On)
Requerement Requests Comments y
o 1 HY-101 2
A 2
Bati LS 46-1 A-3 QS 1 CST-47.3A:38)-Stroke On!y Open (Q) o w
o Z
LT R R1,R R40 1BVT 147.5-Leau Test (R)
O m
La w
n, 1HY-102 2
A 2
Bait LS 46-1 E-3 QS 10ST-47.3At3BFStrose OnJy Open (Q)
]
y X1 3
LT R R 1,R R 41 1BVT 1475 Leak Test (R) h I>
B 2
Ba!I S
46-1 B -5 QST 1 CST-47.3A(3BpStrche & Time Open (Q){RPV)
E n
O
. SOV-1 HY-102 A1 2
A 3/8 Globe S
46-2 A3 QST 10ST-47.3Ai3B) Stro6 e & Time Oosec (Q)
M 7C LT RR1 1BVT i.475 Leak Test (R)(RPV) 5 U
h SOV 1MY 102A2 2
A 3/8 Giobe S
46 2 6-4 QST 10sT-47.3A(38)-Strc6 e & Time Cosec (C)
O 5
LT RR1 1BVT 1.47.5-Leak Test (Rh RPV) r-<
. MOV;1 HY-1028 2
8 2
Ball S
46-1 E-5 QST 10ST-47.3A(3BFStres e & Time Open (Q;(RPV) f" SOV 1HY '0281 2
A 3/8 G'obe S
46-2 E-3 QST 10ST-47 3A(30pStrcw e & T.me Cosed (C)
LT RR1 1BVT 1.475 Leas Test (N)(RPV)
SOV-1 H Y-102 B2 2
A 3/8 G!obe S
46-2 E-4 QST 10ST-47.3A(3B;-Strok e & Time Cosed (Q)
LT RR1 1BVT 1.47.5-Leak Test (R jtRPV) 7 1 HY-103 2
A 2
Ba!)
LS 4G-1 A-3 QS 10ST 47.3A13Bi-Stroke Only Open (C) g o
LT RR1,RR40 1BVT 1.47 5-Leak Test (R)
",2 C
1-o, c. C O C g2 O
o c= w O
O-
s g
BVPS-1 IST VALVL TEST 8*43 OUTLINE Z
k M
SYSTEM NAME; Fost CBA Hyorogen Corstroi SYSTEM NUMBER. 46 y
s Valve Drawing CSJ or
<3 Vdve Mark Valve Valve Size Valve T est Relief m
C Number Class Category (in )
Type -
Coord.
Requerement Requests Comments
-4 6
I m
A 3/8 Globe S
46-2 B-3 QST 10ST-47.3A(3B)-S.ro6 e & Time Cosec (Q) o 7
f 2
O L!
RR1 1BVT 1.473-Leak lest (R jt R PV)
/
63 9
SOV-1HY 103A2 2
A 3/8 Gate S
46-2 B-4 QST 10ST-47.3A(3B) Strose & Time Closed,
. y
-4 cu x
3 LT RR1
{ 1BV1 1.475 L eak Test (RnRPV) p
- U SOV-1 HY-10381 2
A 3/8 Gate S
4G 2 F-3 QST 10ST-47.3ADSFStr oke & Tstne Closed (O) l
?
J^
m O
LT H R1 1BVT 1473-Leak Test (R)(RPV)
N 7
SOV-1 H Y-10382 2
A 3/8 Gate S
46 2 F4 QST 10ST-47.3A(38pStrose & Tiw Oosed IQi C
C 7M h
LT RR1 16VT 1475 teak Test (RJ(RPV)
E O
1HY 104 2
A 2
Bal LS 46-1 E-3 CS 10ST-473At39)-Stroae Only Open (Q) r-<
LT
. RR1.RR41 1BVT 1475-Leak Test (R) m en SOV-1 HY-104 A1 2
A 3'S Gate S
46-2
- C-3 QST 10ST-473A(3BFStrobe & Titre Closed (Q)
LT RR1 1BVT 147.5-Leak Test (R)(RPV)
SOV-1HY-1G4x2 2
A 3/8 Gate S
46-2 C4 OST 10ST-47.3A(3BFStroL e & Tirrw: Closed (Q) 6 LT RR1 1BVT 147 5. Leak Test (R;iRPV)
SOV-1 HY-10481 2
A 3/8 Gate S
46-2 G-3 QST 10ST-47.3At38)-Stroke & Tire.e Closed (Q)
Tm o
C LT RR1 1BVT 1.475-Leat Test (r,)(RFV)
[%
a<
O E$_
'dC
-s 3 C O co N
BVPS-1 IST h
Z VALVE TESTING OUT1:NE a
e SYSTEM NAME. Post DBA Hycrogen Contro!
SYSTEM NUMBER 46 73<
Valve Drawing CSJ or g
Vilve Mark Valve Valve Size Valve Test Reiset m
0_.3 Number Class Category (in )
Type NSA OM No Coord Requirement Requests Comments y
A 3/8 Gate S
46-2 F-4 CST 10ST-47 3A(3BEStro+e & Time Cfosed (Q) y z
s k
LT RR1 1BVT 1475 Lea 6 Test (R p RPV1 25 50
-t a
1 HY-110 2
A 2
Ball LS 40-1 C-2 Q-S 10ST-47.3Ai3BEStroke Only Cpen (Q)
]
y 3
xO LT RR1 1BVT 1475 Leas Test (R) g 23 1 HY-111 2
A 2
Bau LS 46-1 G-2 QS 10ST47.3A(3aFStrc&e Only Open (Q)
E O
LT RRt 1BVT 1475 tea Test (R) 2)
7 C
1 HY-196 2
A 2
Bah LS 46-1 C-3 QS 10ST-47.3A(3BFStroke Onay Open (Q)
C 7
us C
- s LT R R1 1BVT 1.475 Leak Test (R)
- x b
1 HY-197 2
A 2
Bait LS 46-1 G-3 QS 105T 47.3Ai3Bi Suo* e Only Open (Q) r-<
LT RR1 1BVT 1.475 Leak Test (R) m U) i 7o to CD
^
s$_
o?
'oe a 3 (D O op M e
O O-g - - - -
l
~
ll' lIjj]11lll!
l'
<D_ ox 7OEO,9m[3 CpA a
$CD J C
P n.
~
mn1EOB Co
_Z,$<gm 4m ZO _5H]xOo%>5 MOW,C57m D,& <p~r<$
mwbC ~ "* o_ e cQ o
~
7 a
R E
B M
UN M
E T
5 A)
A) v S(
S(
S s
ts s
t
-s+
e e
T T
r.
)
)
1 e
(
R(
9(
R) a 6
i R
a a
(
e e
C ts t
e t
L L
s s
e e
e e
R a
T T
T T
e e
p p
k 6
m a
a a
y y
e e
e T
T L
L L
t 0
0 1
5 5
5 5
1 7
7 7
7 7
7 4
A 4
4 4
4 1
1 1
1 1
T T
T T
T T
V V
V V
V V
B B
8 G
A A
A A
6 B
1 i
1 1
N N
N N
1 1
i-s oe ts r f 2
2 1
1 1
1 i e 4
4 u
R R
R 4
J le R
R S
q H
R R
R C R e R
R R
tn w
r E
t r
s e T
T T
T T
N i
T A
A A
A.
I er L
L t
L N
N N
i L
L L
T u T
q U
e R
T C S
I G
1 NI
-ST PS d
e e
e e
e e
e e
e e
r r
VE o
o ro c
o o
o o
o o
o r
r r
r n
r r
r BT o
N N
N N
N N
N N
N N
g C
E n
V bw tI LA a
V rD o
J N
5 5
5 5
5 5
5 5
7 7
7 7
7 7
7 7
7 7
7 7
M 4
4 4
4 4
4 4
4 4
4 O
A S
S S
S S
S S
S S
S S
N u-e e i
t.
l n
te t
te te a
i e
vp r
d a
a a
a a
a a
sa l
i la y B
B B
B G
G G
G B
B VT e e) lain
's v
t i
2 2
V S(
1 1
1 1
1 1
i 1
y r
eo v g P
P P
P P
P P
P P
P l
e n
t C
A A
A B
/
/
/
/
L
/
B A
N J
/
a E
B t
Va e
C rr n.
es a
vs i
lala 2
2 2
2 3
3 3
3 2
2 no VC C
E M
kr A
a re N
Mb M
em 7
8 9
0 6
7 8
9 3
4 vu 6
6 6
7 7
7 7
7 8
8 E
laN
'1 1
1 1
1 1
1 T
1 1
1 S
V S
S S
S S
S S
S S
S Y
V V
V.
V V
V V
V V
V S
1 1
1 1
1 1
1 1
1 lll f
l
- 1l1l, il li ll
,1 lil1l 1lIlltIliI
Beaver Valley Powo[ Station Unit 1 issue.2 Revision 8 (NSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 117 of 180 0 SECTION VI:
VALVE TESTING COLD SHUTDOWN JUSTlFICATIONS O
O i
\\
Beaver Valley Power Station -
Unit 1 -
Issue 2 i
Revision 8 INSERVICE TESTit4G (IST) PROGRAM FOR PUMPS AND VALVES Page 118 of 180
,O. I-C/
COLD SHUTDOWN JUSTlFICATION 1
Valve No.:
SOV-1RC 102A SOV-1RC-1028 SOV-1RC-103 A SOV-1 RC-1038
' SOV-1RC-104 SOV-1RC 105 Category B
Class 1-Function:
Reactor coolant system high points vents.
Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
These valves are closed during normal operation and are -
designed to vent the RCS in an emergency to assure that core cooling during natural circulation will not be inhibited by a buildup of noncondensible gases, Periodic strokin0 ef-these valves at power could degrade this system by repeatedly challenging the downstream valves due to a
[
phenomenon known as " burping *, This phenomenon has
\\
been previously described in ASME report " Spurious Opening of Hydraulic Assisted, Pilot-Operated Valves - An Investigation of the Phenomenon", The phenomenon involves a rapid pressure surge buildup at the valve inlet caused by openin0 the upstream valve in a series double solation arrangement or closing a valve in a parallel redundant flow path isolation arrangement. The pressure surge is sufficient enough to lift the valve plug until a corresponding pressure increase in a control chamber above the pilot and disc can create enough downward differential
- pressure to close the valve.
Alternate Test:
Full-stroke exercise and time open at cold sh"tdowns per 10ST 1.10. This frequency is consistent with T.S. 3.4.12-which was written to comply with the requiiements of NUPEG 0737 " Clarification of TMI Action Plant Requirements".
.O v
h
Beaver Valley Power Station Unit i tssue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 119 of 180 COLD SHUTDOWN JUSTlFICATION 2
Valve No.:
PCV-1RC-455C PCV-1 RC-455D PCV-1RC-456 Category _1 Class D
Function:
PORVs Test Requirement:
Quarterly full stroke and time.
Basis io. C3J:
The PORVs are not needed for overpressure protection during power operation since the pressarizer codo safety valves fulfill this function. In the event that a PORV was to fail or stick open while being cycled at power, the potential loss of RCS inventory through this relief path could lead to a forced plant shutdown. Therefore, stroking these valves at power is not considered practical, Additionally, when the plant is shutdown only two of the three valves (LPCV-1RC-455C and D]) are actually utilized to provide protection against exceeding 10CFR50, Appendix G limits during periods of RCS water solid operation. The third PORV ([PCV-1RC-456]) does not have a low pressure set point to the logic controlling it.
Alternate Test:
Full-stroke exercise and timing open will be performed each cold shutdown per 10ST-6.8 for the two valves used for overpressure protection. The third valve will be full-stroke exercised and timed open at the normal cold shutdown frequency per 10ST-1.10.
O 1
h
s Beaver Valley Power Station Unit 1 issue 2
-s Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 120 of 180 0-COLD SHUTDQWN JUSTIFICATION 3
Valve No.:
1CH 75 1CH 76
,A
'l Category C
Class 3
Y Function:
Discharge check valves for the boric acid transfer pumps, Test Requirement:
Quarterly full stroke.
Basis for CSJ:
These valves can only be full-stroke exercised by initiating flow through the emergency boration path and verifying it using the installed flow instrumentation in this flowpath.
Testing in this manner would cause an undesired reactivity transient through the direct injection of 7,000 ppm borated water to the suction of the charging pumps. The resultant over boration of the RCS would cause a temperature transient as Tavo dropped to compensate and could cause a plant shutdown.
Alternate TesP Valves to be full-stroke exercised open during cold shutdown per 10ST-1.10. Valves are part-stroke exercised open quarterly when the boric acid transfer pumps are tested through their recirculation fic,w paths per 10*;T-7.1 & 7.2.
O h
-U
Beaver Valley Power Station Unit 1 issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 121 of 180 0 COLD SHUTDO.WN JUSTIFICATION 4
Valve No,t MOV 1CH 115C MOV-1CH-115E Category B
Class 2_
Function:
Volume Control Tank outlet isolation valves.
Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
These valves are normally open and cannot be exercised during power operation without isolatin0 the Volume Control Tank from the charging pumps. This would result in a loss of normal Reactor Coolant System makeup and reactor coolant pump seal injection water causing possible puinp and system degradation.
Alternate Test:
Full-stroke exorcise and time closed at cold ahutdown per 10S T-1.10.
O
. COLD SHUTDOWN JUSTIFICATION 5
Valve No.:
1CH 141 Category C
Class 2
Function:
Emergency boration line check valve.
Test Requirement:
Quarterly full stroke Basis for CSJ:
This valve is closed during normal operation and can only be exercised by initiating flow through the emergency boration path. Testing in this manner would cause an undesired reactivity transient through the di;act injection of 7.000 ppm borated water to the suction of the charging pumps. The resultant over-boration of the RCS would cause a temperature transient as Tavg dropped to compensate and could cause a plant shutdown.
Alternate Test:
Valve to be full-stroke exercised open during cold shutdown per 10ST-1.10.
E a
~
- Beaver Valley Power Station _
Unit 1 Issue 2 Revis on 81 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES --
l Page 122 of 180 q!
1
~'
' COLD SHUTDQWN JUSTlFICATION 6
Valve No.:
MOS1CH 289 TV-1 CH-204 Category A
Class 2
Function:
Reactor coc! ant makeup and letdown outside containment isolation valves.
Test Requirement:
Quarterly full stroke and time, Basis for CSJ:
Quarterly strokin0 at power of either valve to its closed position would cause an undesirable transient in the reactor coolant makeup and letdown systems. A failure of either valve in the closed position could lead te, loss of pressurizer level control and require a plant shutocwn.
Alternate Test:
Full-stroke exercise and time closed at cold shutdown per 10ST-1.10.
/~
- (
. COLD SHUTDOWN JUSTIFICATION 7 _
f Valve No.:
MOV-1CH 310 LCV-1CH-460A LCV-1CH-4608 Category B
Class 1
Function:
Reactor coolant rnakeup and letdown isolation valves.
Test Requirement:
Quarterly full stroke and time.
l Basis for CSJ:
Quarterly stroking at power to their closed position would l
cause an undesirable transient in the reactor coolant makeup and letdown systems. A failure of one or more valves in the j '
closed position could lead to a loss of pressurizer level control and require a plant shutdown.
Alternate Test-Full-stroke exercise and time closed at cold shutdown per 10ST-1.10.
m
.\\
h I
Beaver Valley Power Station Unit 1 issue Revision 8
- NSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 123 of 180 COLD SHUTDOWN JUSTlflCATION 8
Valve No.:
MOV-1CH-373 Category B
Class 2_ __ _ _
Function:
HHSt pump to VCT miniflow isolation valve.
Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
Quarterly full stroke testing at power is considered impractical since it woul(f cause an undesirable flow perturbation in the reat. tor coolant makeup system. Also the failure of this valve in the closed position could result in damage to all three charging pumps.
Alternate Test:
Full-stroke exercise and time closed at cold shutdown per 10S T-1.10.
Valve No.:
1CH-84 1CH-136 Category C
Class 3
Function:
Alternate Emergency Boration Flow Path Check Valves.
Test Requirement:
Quarterly full stroke.
Basis for CSJ:
These valves must apen to fulfill their safety function to provide an alternate emergency boration flow path from the boric acid tanks to the reactor coolant system. They can only be exercised by initiating flow through the emergency boration path. Testing in this manner would cause an undesired reactivity transient through the direct injection of 7.000 ppm borated water to the suction of the charging pumps. The resultant over-boration of the RCS would cause a temperature transient as Tavg dror. ped to compensate and could lead to a forced plant shutdown.
Alternate Test:
Full-stroke exercised open during cold shutdowns per 10ST-1.10.
f I
s-
!D u 3r Beaver Valley Power Station -
Unit 1
'ssue 2:
x Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page!124 of 180
(
J t % c:
=10 Valve No.:-
1RH 3 1RH 4 Category C
Class,_2 Function:
Residual Heat Removal Pumps Dischar0e Check Valves.
Test Requirement:
_ Quarterly full stroke.
Basis for CSJ:
These valves can only be full stroke exercised wiien o.o RHR-Pumps are running. The RHR Pumps are only run during _
cold shutdowns. Quarterly part stroki g is also not possible-
~
t due to the inaccessibility of the valves and pumps which are-located inside the subatmospheric containment building.
Alternate Test:
Forward and reverse flow exercised per.10ST-10.1 during-cold shutdown.
-3 COLD SHUTDOWN JUSTIFICATION 11 Valve No.:
M'OV-1RH 700 MOV-1RH-701 -
1 s
MOV-1RH-720A MOV-1 R H-7208 -
Category A
Class 1-Function:
Residual Heat Removal System inlet _and Outlet isolation -
valves.
l
- Test Requirement:
Quar %rly full stroke and time.
Basis for CSJ:
Cycib;;inese valves could subject the RHR system to pressure greater than design. = These valves are normally--
-closed and de-energized during power operation and are -
required to be closed during an accident.
Alternate Test:
These valves are full-stroke exercised and timed open each plant cooldown or heatup from cold shutdowr.er 10ST-10.4.
D j
o
r Unit 1 Issue 2 Beaver Valley Power Station Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 125 of 180 COLD SHUTDOWN JUSTtFICATION 12 Valve No.:
MOV-1SI-836 MOV 1SI 860A Category A
Class 2_
Function:
Outside containment isolation valves from the fill and charging headers to the RCS hot and cold legs.
Test Requirement:
Quarterly full stroke and tima.
Basis for CSJ:
These valves are shut at power and are required to remain shut at the onset of an accident. Cycling them at power would thermal shock the RCS cold leg nozzles and compromise system integrity.
Alternate Test:
Full-stroke exercise and time closed at cold shutdown per 10S T-1.10.
COLD SHUTDOWN JUSTIFICATION 13 Valve No.:
MOV-1SI-8608 MOV-1SI-860B Category.
A_
Class 2
Function:
Low Head Safety injection pump containment sump suction-valves.
Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
These valves are containment isolation valves exposed to containment atmosphere. Failure of these valves in the open position during power operation would compromise containment integrity.
Alternate Test:
Full-stroke exercise and time open at cold shutdown per 10S T-1.10.
O 1
h t
4 Beaver Valley Power Station -
Unit 1 issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 126 of 180 COLD SHUTDOWN JUSTlFICATION 14 Valve No.:
Class _2 Function:
Charging header BIT bypass to RCS hot legs outside containment isolation, Test Requircraent-Quarterly full stroke and time.
Basis for CSJ:
This valve is shut during power operation and is not required to change position to fulfill its initial safety function. The valve is only opened during the simultaneous cold and hot leg recirculation phase. In addition, stroking th!s valve would thermal stress the hot le0 njection nezzle.
i Alternate Test:
Full-stroke exercise and time closed at cold shutdown per 10S T-1.10.
COLD SHUTDOWN JUSTIFICATION 15 Valve No.:
MOV-1SI-800C Category A
Class 2___.
Function:
Low Head Safety injection outside containment isolation to RCS cold legs.
Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
This valve is open during normal operation and is required to remain open to fulfill its safety function at the onset of an accident. Foilure of this valve to reopen after exercising would render LHSi cold leg injection from both trains inoperable Alternate Test:
Full-stroke exercise and time open at cold shutdown per 10ST-1.10.
O h
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 127 of 180 0 COLD SHUTDOWN JUSTIFICATION 16 Valve No.:
1QS-3 10S-4 1 RS-100 1 R S-101 Category A/C Class 2
Function:
loside containment isolation discharge check va' es for the quench spray and recirculation spray pumps.
Test Requirement:
Quarterly full stroke.
Basis for CSJ:
These valves are all physically located in the subatmospheric containment building. Also the valves cannot he full-stroked open with fhw since any test requiring -
injccting water through the spray nozzics would cause damage to electrical equipment and result in a significant contamination cleanup effort in the containment building.
Alternate Test:
Full-stroke exercised open by mechanical exerciser utilizing their weighted swing arms at cold shutdown per 10ST-1.10.
COLD SHUTDOWN JUSTIFICATION 17 Valve No.:
TV-1CC-111 A1 TV-1CC-111 A2 TV-1CC-11101 TV-1CC-111D2 Category A
Class 2
Function:
Containment isolation valve for CRDM shroud cooler cooling water supply.
Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
This valve is normally open during power operation and is required to close to fulfill its safety function upon a CIB signal. Full-or part-stroke testing of this valve and iso;ating cooling water while the control or shutdown rods are energized, or the plant is above 250 degrees Fahrenheit, would result in component dama00-i Alternate Test:
Full-stroke exercise ahd time closed at cold shuidown per 10ST-1.10.
i
A:
.s l Beaver Valley Power Station Unit 1
. Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES.
Page 128 of 180 U
COLD SHUTDOWN JUSTIFICATION-18' Valve No.:
1CCR 247.
1CCR-248 1CCR-251 1CCR-252 Category A
Class 2
Function:
Outsi& containment isolation for component cooling water-supoly to the RHR heat exchangers.
Test Requirement:
Quarterly fu!! stroke.
Basis for CSJ:
The,;e valves are normally closed during power operation but-are required to open to place thu residual ' heat removal (RHR) system in service. These valves cannot be stroked quarterly without the possibility of violating containment-integrity.
[
Alternate Test:
Fu!i-stroke exercise open during cold shutdowns per b
Operating Manual Chapter 10.4.A, "Startup of the RHR System" COLD SHUTDOWN JUSTIFICATION 19 Valve No.:
TV-1CC-110E2 TV-1CC-110E3 TV-1CC-110D TV-1CC-110F2 l
Category A
Class 2
l Function:
Cooling water supply and return from the containment air-I recirculatioa cooling coils and instroment air compressors -
containment isolation valves.
Test Requirement:
Quarterly bil stroke and time.
l Basis for CSJ:
These valves are normally open during power operations.
L The failure of any one of these valves in its closed position l
during quarterly stroke testing would result in the loss of.
containment cooling and containment instrument air and require a plant shutdown.
Alternate Test:
Full stroke exercise arid time closed at cold shutdown per 10ST-1.10.
t h-
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 129 of 180 COLD SHUTDOWN JUSTIFICATION 20 Valve No.:
TV-1CC-130 TV-1CC-132 Category B
Class 3
Function:
Cooling water ini !! isolation vatves to the Seal Water and Non-Regenerative heat exchangerr Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
These valves are normally open during power operations and must be stroked closed to test them. Their failure in the closed position would result in the loss of cooling water to either the Seal Water or Non-Regenerative heat exchanger causing an undesirable temperature transient. Such a transient has the potential for damaging the plant domineralizers and the RCP radial bearings.
Alternate Test:
Full-stroke exercise and time closed at cold shutdowns per 10S T-1.10.
COLD SHUTDOWN JUSTIFICATION 21 Valve No.:
1MS-15 1MS-16 1MS-17 Category B
Class 2
Function:
S/G Supply to 1FW-P-2 manual isolation.
Test Requirement:
Quarterly full stroke.
Basis for CSJ:
These valves will be stroked quarterly except in the event of a steam generator tube leak. In this case, the valve from the affected steam generator must remain closed to prevent the spread of radioactivity into the auxiliary feed system.
Alternate Test:
Full-stroke exercise [1MS-15,16] closed and [1MS-17] open quarterly per 10ST-24.4 or during cold shutdowns per 10ST-24.9.
i h
Beaver Valley Power Station UWt i Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 139 of 180 C
COLD SHUTDOWN JUSTIFICATION 21 _
Valve No.:
NRV-1MS 101 A NRV 1MS 101B NRV-1MS 101C Category B/C Class 2
Function:
Main steam non return check valves.
Test Requirement:
Quarterl f
/ ull stroke.
Dasis for CSJ:
Full or part stroke testing t..ese valves at power is not possiblo because these valves must be open in order to remain at power.
Alternate Test:
Full stroke exercise closed at cold shutdown per 10ST 1.10.
COLD SHUTDOWN JUSTlFICATION 23 Valve No.:
PCV-1MS 101 A PCV-MS-1010 PCV 1MS 101C Category _D Class 2
Function:
Atmospheric steam dump pressure ( atrol valves.
Test Requirement:
Quarterly futi stroke and time.
Basis for CSJ:
In order to test these valves, manual isolation valves must first be closed. The mant '.I valves are located in a i
potentially hazardous area and could be damaDod when they are reopened against a 1000 psi Ap, Also, full or partial stroking the PCV valves at power could cause Reactor power transients.
Alternate Test:
Full-stroke exercise and time open at cold shutdown per 10"T 1.10.
d("
h
~ _ _.,__ _ _
Beaver Valley Power Station Unit 1 It, sue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 131 of 180 COLD SHUTDOWN JUSTIFICATION 24 Valve No.:
TV 1MS 101 A TV 1MS-1010 TV-1MS 101C Catesory DiC Class
.2 Function:
Main stoain line isolation valves (pneutnatically opened).
Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
These valves are normally open at power but must close in the event of a hi h energy line break. Stroking these valves 0
fully closed during full power operation would cause a reactor trip with the possibility of a safety injection. A review of plant history also indicates that several forced plant shutdowns have resulted from part stroke testing these valves at power due to their inadvertent closure for reasons not related to valve operability. For these reasons, full-and part+troke testing is not considered practical and will not be perforrned. This change is consistent with Technical l
h Specification Amendment No.162.
Alternate Test:
Full-stroke exercise and time closed in hot standby with Tavg 2 515'F per 10ST-21.4,5 and 6.
O
Beaver Valley Power Station Unit 1 Issue 2 o
Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS ANO VALVES Page 132 of 180 COLD SHUTDOWN JUSTIFICATION _25
(
Valve No.:
1 FW-33 IFW 42 1FW 622 1FW-625 1FW 34 1FW 43 1FW 623 I FW-626 1FW 35 1FW 44 1 FW-624 1FW 627
[
Category C
Class __3 Function:
Auxiliary feedwater pumps discharge and loop check valves.
Te.;t Requ:rement:
Quarterly full stroke.
Basis for CSJ:
The safety position for those check valves is open for auxiliary feed system injection and closed to provide header separation in the event of a linebreak. Theso valves cancol be stroked at power due to the thermal shock at the auxiliary and main feodwater intedace caused by the sudda;n injection of cold water into the steam generators. Also, fo ding the steam Generators with cold water would result in large level transients.
Alternate Test:
All valves are full stroke exercised in the forward direction at C
cold shutdowns per either 10ST 24.8 or 9. Valves [1FW-33 thru 35] and [1FW-622 thru 627] are full stroke exercised in the reverse direction at cold shutdowns per 10ST-24.8.-
Reverse direction testing of [1FW-42 thru 44] will be by monitoring upstream pipe temperatures at least quarterly and by leak test por 10ST-24,11 at refuelings, t
O e
f 1..
}
Y
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) FROGRAM FOR PUMPS AfJD VALVES Page 133 of 180 COLD SHUTDOWN JUSTIFICATION 26 Valve No.:
MOV 1FW-156A MOV-1 FW-156B MOV-1FW 156C Category B/C Class 2
Function:
A, B and C loop foodwater containtnent isolation check valves.
Test Requirement:
Quarterly full stroke and tirne.
Basis for CSJ:
Stroke testing these val =ves durin0 power operation could cause a loss of feedwater resulting in a reactor trip. Also, the motor operator associated with these valves will only operate with a very small or no differential pressure across the valve. It is not for use at power.
Alternate Test:
Full stroke exercise and time closed at cold shutdown per 10ST-1.10, and as an additional test of the check valve i trify closure by a leak test per 10ST-24.14A, B, and C at refuelings.
O 4
I h
s Beaver Valley Power Station Unit 1 Issue 2 Revision 8 It4 SERVICE TESTING (IST) PROGRAM FOR PUMPS AtJD vat.VES PaDe 134 of 180 i
,s O
COLD SHUTDOWN JUSilFICATION 27 Valve No.:
1FP 800 1FP 804 1FP-827 Category A/C Class 2
Function:
Are protection, deluge system to RHR area, to cable panetration area and to containment hose reels inside containment check valves.
Test Requirement:
Quarterly full stroke.
Basis for CSJ:
These valves are normady closed during power operation and are only required to open in the event fire protection wat?r is needed. Full and part stroke exercisin0 s not i
possible during power operation duo to the inaccessibility of the valves.
Alternate Test:
Ful: stroke exerciso open and closed by mechanical 7(-
exerciser utilizing their weighted swing arms at cold shutdown per 10ST-1.10.
COLD SHUTDOWN JUGTIFICATION 28 Valve No.:
1VS-D-5-3 A 1VS D 5-38 1VS-D-5-S A 1VS-D-5-SB Category A
Class _2 Function:
Containment isolation valves for reluoling purge and exhaust lines.
Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
These dampers are shut during power operation and are required to remain shut tc fulfill their safety function. These j
dampers cannot be full or part-stroke exercised during power (3
operation without violating containment inte0rity, b
Alternafe Test:
Full-stroke exercise and time closed at cold shutdown per 10ST-1.10.
1-
.-w-,
Beaver Valley Power Station Unit 9 issue ?
Revis, son 8 ttJSf. RVIC F: TESTING UST) PROGRAM f OR PUt.iPS AND VALVES Page 135 of 1h0 COLD SHUTDOWN JUSTIFICATlON _ 29 _ _
Valve Noc.
F CV 1 FW 471, FCV 1FW 483 FC V-1 FW-498 C a t e g o r y _f) _. _...
Class P
Function:
Steam Generator inain feedwater regulating valves Test Requirement:
Qur' ' > !ull t.troke and tiene.
Gasis for CSJ:
Va a.x Iv,
. durmy power operahon. Their satt v,4 a
- ror feedwater isolation. Full stroke and tiu
- i.. ec
-1 tanut ou performed at power sinco this would inolate feodwater flow to lho steoun generators resulting m plant trip and shutdown.
Alternate Test:
Full stroke exercise arid litno closed at told shuldown per 10ST 1.10.
.____________.______.__________q g
COLD SHUTDOWN JUSTIFICATION _,30._
DELETED 9
m _ _ _
Deaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE 1ESTING (IST) PROGRAM FOR PUMPS AND VALVES Pago 130 of 180-O COLD SHUTDOWN JllSTIFICATION 31 t
Valve No.:
MOV 1FW 150A MOV 1FW 1500 Category B
Class 3
Function:
Main feedwater pump discharge isolation and backup feedwater isolation.
Test Requirement:
Quarter:y full stroke and time.
Basis for CSJ:
During plant operation, these valves are open to supply feedwater flow to the steam Generators, Their safety function is to close for backup feedwater isolation. Full stroke and tirne testing cannot be performed at power since this would isolato feedwater resullin0 in a plant trip and shutdown.
Alternate Test:
Full stroke exercise and tirno closed at cold shutdown per 10ST-1.10.
O
. COLD SHUTDOWN JUSTlFICATION 32 l
Valve No.:
MOV 1SI 867A
~ MOV-1SI 8678 Category B
Class 2
Function:
Boron injection Tank (BIT) inlet isolation valves.
Test Requirement:
Quarterly full stroke and time.
Basis for CSJ:
These valves are shut at power but are required to open to fulfill their safety function in the event of a safety injection.
Stroking these valves fully or partially at power has l
historically caused leakago past the SIT manway flange and the other valves in the system. In addition, stroking these valves would diluto the boron concentration of the BIT, potentially causin0 entry into a technical specification action statement.
l Alternate Test:
Full stroke exercise and time open during cold shutdown per 10ST-1.10.
k
--)
g y
w Y-yw-wm- - -
.awyw a
's9-w-7 yvy-'
g" w'r*,v-vri
Deaver Valley Power Station Unit 1 issue 2
"'"8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 137 of jgo SECTION Vil:
VALVE TESTING RELIEF REQUESTS O
O
\\
L
Beaver Valley Power Station Unit 1 issue 2 e
Revision 8 i
]NSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 138 of 180 O)
(~
RELIEF REQUEST 1
1 Valve No.: Sea list of Containment isolation Valves on next page.
I Category _ A or A/C,_
Class 2
Function:
Containment isolation Test Requirement:
Leak tested per IWV 3420 at least onco every 2 years.
Dasis for Relief:
Thoso containment isolation valves are leak tested in accordanco with 10CFR'io, Appendix J. Type C. Since the acceptance critoria for Appondix J. Typo C is more limiting than ASME Section XI, additional leak testing in accordance with ASME Section XI would be redundant.
Alternate Test:
Leak tested during refueling outages in accordance with 10CFR50, Appendix J. lWV 3426, ana IWV 3427(a) per 10VT 1,47.5. The additional requirements of IWV 3427(b) for valves six inches or targer will not be followed. The usefulness of IWV 3427(b) does not justify the burdon of complying with this requirement. Unnocessary repair or replacemen' of a valvo or additional leak testing, if attempted al cold
[
shutdown, could delay plant startup. Per 10CFR50.55a(a)(3)(li) compliance with the spocified requirements of IWV 3427(b) would result in hardship or unusual difficulties without a compensa'ing increase in the level of quality and safety. For the valves listed on the next page of this relief requet,1, an asterisk to the lef t of the valve mark number indicates its si/o as six inches or larger. As a special test, after niaintenance has boon performed on any Typo C relief valvo, iBVT 2.47.2 may also be performed to leak test the valvo in lieu of 1BVT 1.47.5.
s i
h h
Beaver Valley Power Station Unit 1 istue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 139 of 180 RELIEF REQUEST 1
Conta!nmefat_ Isolation _Va!ves
' M OV-1 C C-112 A2 TV 1CC 107E1 TV 1SS-109A2 1HY 101
'MOV 1CC-112f 3 T V-1CC-105E 1 TV 1LM 100A2
- HY 103
'1CCR-252 TV-1CC-105E2 TV 1SS 111 A1
- HCV-1CV 151
'MOV-1CC-112A3 TV 1CH-200A TV-1SS-111 A2
- HCV 1CV-1SI-1
- 1 CC R-251 TV-1C H-2006 TV-1SS-100 A1 SOV-1HY 10201
'1CCR 248 RV 1CH-203 TV 1SS-102A1 SOV-1HY 103B1 TV-1CC 107D1 MOV-1CH 142 TV-1SS-102A2 SOV 1HY-103B2 TV 1CC-107D2 TV 1CH 204 TV-1SS-105A1 SOV 1H r 104B1
- T V-1 C C-111 D 1 TV 1DG 108A TV-1SS 105A2 SOV 1HY 104B2
- TV-1CC-111D2 TV 1DG 1088
'TV-1CC 103A1 TV-1SS 104A1
' T V-1 C C-110D 1FP 804
- TV 1CC-103A TV 1SS 104 A2
'TV-1CC 110F1 TV 1FP 105
'10S-4 TV-1SS 103A1
- TV-ICC 110F2 I F P-800
' M OV-10S-1018 TV 1SS-103A2 1FP 827 TV-1FP 106
- 1QS-3
- 1PC 38 TV-1 F P-107 TV 1DA 100A
- MOV 10S 101 A
- 1 PC-37
- T V-1 C C-110E3 TV-1DA 1008
- 1RS 101
- 1 PC-9
- TV-1CC-110E2 1SA 15
'1RS 100
'1PC 10
'TV-ICC-111 A2 IS A 14 1HY-196 TV 1SS-112A1
'TV-1CC 111 A1 TV-1CV 102-1 1HY 111 TV-1SS 112A2
'TV-1CC 10381 TV 1CV 102 1HY 197 MOV 1SI 842
' TV-1 CC-1038 TV-1CV-101 A I HY-110 TV 1SI 889
'TV-1CC 103C1 TV 1CV 101B
- TV-1 CC-103C 1RC 72
'VS-D 5-3B SOV-1HY 103A1 1CH-369 ilA 91
'VS-D-5-3 A SOV-1 HY-103 A2 MOV-1CH 381 11A-00
'VS-D-5 58 SOV-1HY 104A1 ISI 12 TV 1DG-109A2
' VS-D-5-5 A SOV-1HY 104 A2 1S1-41 TV-1 DG-109 A 1
' VS-D-5-6 1RC 277
- 1 R H-15 TV-1SI-101-2 TV 1CH 150D IVS-170 l
'TV-1CC-105D1 TV 1St 1011 1HY 104 1VS 167
- TV-1 CC-105D2 TV-1SS 100A1 TV-1CV 1508 IVS 168 I
- Indicates valvo size six inches or larger.
O u
I
I Beaver Valley Power Stahon Unit 1 Issue 2 l Revision h INSERVICE TESilNG (IST) PROGRAM FOR PUMPS AND VALVES Page 140 of 180 g
O RELIEF REQUEST __2 Valve No.:
1RC 68 Category A/_C _
Class.
2 Function:
losido containment isolation on the Nr rnakeup line to the Pressurizer Relief Tank.
Test Requirement:
Quarterly full stroke.
Dasis for Relief:
This valve is normally closed and is opened only during nitrogen rnakeup to the Pressurizer Relief Tank. Its safety position is closed for containment isolation. The only means for verifying closure is during the 10CFR50. Appendix J leak rate test performed at refuelings.
Alternate Test:
Valve closure is verified by a leak test during refueling outages per 1BVT 1.47.5.
RELIEF REQUEST ___3 Valve No.:
1RC-72 Category A/C Class 2
Function:
Inside containment isolation on the primary grade water supply to the Pressurizer Relief Tank.
Test Requirement:
Quarterly full stroke.
Dasis for Relief:
This valve is normally closed and is opened only during makeup to or while depressurizing the Pressurizer Relief Tank, its safety position is closed for containment isolation.
The only means for verifying closure is during the 10CFR50 Appendix J leak rate test performed at refuelings.
Alternate Test:
Valve closure is verified by a leak test during refueling outages per 1BVT 1.47.5.
O 9
h
C eaver Valley Power Station Unit 1 issue 2 Revision 8 IfJSERVICE TESTifJG (IST) PF,0GRAfA FOR PUfAPS AND VALVES Page 111 of 180 RELIEF REQUEST 4
Valve No.:
1CH 22 1CH 23 1CH-24 Category C
Class 2
Function:
Nortnal pump discharge check valves for the chargmg pumps.
Test Requirement-Quar !y full stroke.
Dasis for Relief:
The agn function of these check valves is to prevent revo : flow durin0 pump shutdown and to.,troke full open for safety injection llow. A full design flow test is required to ensure full stroke. However, during normal operation, the charging pump will not develop the required flow. Therefore, relief from quarterly full-stroke exercising is requested during normal operation. Relief is also requested from cold shutdown full strokt exercising because full flow testing could result in a low temperature overpressurization of the RCS.
Alternate Test:
Part stroke exercised open and full-stroke exercised closed quarterly per 10ST 7.4,5 and 6. Full stroke exercise open during refueling outa00s per 10ST-11.14.
RELIEF REQUEST 5
Valve No.:
1CH 31 Category A/C Class 2
Function:
Char 0 n0 header inside containment isolation check valve.
i Test Requirement:
Quarterly full stroke.
l Basis for Relief:
This normally open check valve must close to fulfillits safety function. Valve closure can only be checked by a leak test and there is no instrumentation to monitor upstream pressure. Therefore, relief is requested from quarterly and cold shutdown stroke tests.
l Alternate Test:
Valve closure is verified by a leak test during refueling outa0es per 1BVT 1 A7:11.
I h
Beaver Valley Power Station Unit 1 tssue 2 Revision 8 i
INSERVICE TESTitJG (IST) PROGRAM FOR PUMPS AND VALVES Page 142 of 180
(
\\
REllEF REQUEST 6
Valve No.:
1CH-181 1CH 182 iCH 183
- Category A/C Class 2
Function:
Reactor coolant seal injection inside containtnent isolation check valves.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
These valves are open durin0 power operation but are required to close to fulfill their safety function. Closin0 the valves during power operation, or anytime the system is pressurized to greater than 100 psig, would secure seal injection water to the reactor coolant pump seals, resulting in seal damage. in additic;n, valve closure can only be checked by leak testing since they have no position indication or wei hted arnis. Therefore, relief is requested 0
from quarterly and cold shutdown exercisin0 Alternate Test:
Valve closure is verified by a leak test during refuelin0 outa0es per 1BVT 1.47.11.
o al e
)'
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 it4 SERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 143 of 180 1
i RELIEF REQUEST 7
l Valve No.:
l TV-1CH 200A TV 1CH 2006 l
T V-1C H-200C l
Catc0ory A
Class 2
i Function:
Reactor coolant letdown orifice inside containtnant isolation valves.
Test Regulrcrnent:
IWV-3426 and 3427(a) require Owner specified inaxirnutn j
permissible leanage rates for specific valves as a function of l
valve site and type and provido the corrective action to be followed when those litnits are exceeded.
Basis for Relief:
As shown on the attached figure for penetration #28. the l
configuration of this containtnent penetration (i.e. three l
inside containment isolation valves in parallel) is such that i
individual loakage rates for each specific valve cannot be i
detortnined using the test rnethod of 10CFR50, Appendix J.
in this case, assi0ning snaximum permissible leakago rates for each valve would root be practical.
4 i
Alternate Test:
Assign a maxirnum permissible leakago rate for the entire j
barrier to then be uaed as the criteria for initiating corrective action in accordance with IWV 3427(a).
I i
O h
-.2..
j i
\\
4 i1 7
U2 I
1 G
e t
=
4 m
2 E
o
[
m s
t-n
+
4 e
['
j i
m 2
m m
_e 7
O Z
g F
g 7
)
C O
,o
/
m 230 m
m j
RV-1CH-203
~N Ei i
- =
$. O
.TV-1CH-204 y
TV-1CH-200A
/
O l
g 1
O f Pl l
r i,
m 231 y
8,1 e
~ n e
.b i
/.-
TV-1CH-2006 e
l h'
f
(
1CH-E-3 1
LCV-1CH-4 60A\\
'. _ 232 g,9 7
i (J-TV-1CH-200C l
h, I
Ab db
_H r,-
o g
2 e
M C
i AA-j e
l e
i
' LCV-1CH-4608 W
=.
o e
-H4 i
r--
e 1
e m
i w
1RH-13 MOV-1CM-14 2 4
CNMT e AUXBlac 402 1
403 i
i t
E 7
398.
i 4
1
+
ra SYSTEM DESIGNATION O
i o
(1CH)
_. m u
i
'o PENETRATION
- 28 o3E E
t 5
-oo wQ M *Q L
i i
i p.
Beaver Valley Power Station Unit i Issue 2 Revision 8 INSERVlCE TESTING (IST) PROGRAM FOR PUMPS AND val.VES Page 145 of 180 RELIEF REQUEST 8
Valve No.:
1CH-369 Category A/C Class 2
Function:
Penetration 19 pressure relief check around [MOV 1CH 378]
Test Requirement:
Quarterly full stroke.
Dasis for Relief:
This valve is normally closed during power operation and is required to remain closed to fulfill its safety function. Full stroking can only be verified by the leak test. Thereforo, selief is requested from quarterly and cold shutdown stroke tests.
Alternate Test:
Valve closure is verified by a leak test during refueling outages per 1BVT 1.47.5.
O 4
0 I
h
Beaver Valley Power Station Unit 1 Issue 2 4
Revision 8 INSERVICE TESilNG (IST) PROGRAM FOR PUMPS Af4D VALVES Page 116 of 180 REllEF REQUEST 9
Valve No.:
MOV 1CH 378 1CH 369 Category _Aj A/C Class 2
Function:
RCP seal water return line insido containment isolation valves.
Test Requirement:
IWV 3426 and 3427(a) require Owner specified maximum permissible leakage rates for specific valvos as a function of valvo sito and type and provide the correctivo action to be followed when those limits are exceeded.
Dasis for Relief:
Aa shown on the attached figure for penetration //19, the tenfiguration of this containment penetration (l.o. two insido containment isolation valves in parallel) is such that individual leakago rates for each specific valvo cannot be tietermined using the test method of 10CFR50, Appendix J.
in this case, assigning maximum permissiblo leakago ratos O
for each valvo would not be practical.
Alternate Test:
Assi n a maximum permissible leakago rato for the entire 0
barrier to then be used as the criteria for initiatin0 correctivo action in accordance with IWV 3427(a).
h x
l h
d r
E y
I 52 r-n M
m m
Pi-I CH-134 ( )
T m"
Q q'
r w
m e
O z
373 a
21 A '14 C
o e
I 370 m
9 l
Ui J
i e
-4 o
\\
371
[
5 MOV-1CH-307 s
MOV-1CH-3 78 b
o 2
b
' 4 f- \\
1S r7 MOV-1 CH-381 E
D7 21s
-2 369 8
NJ b$
we O
n x
N f
H X }-{
E x,b, 374 r3 C
l HCV-1CH-3 8 9 35 e
s i
sf4 i
E I~
A 372 2>
MOV-ICH-137 I\\
211 T
g m
7r
-H 1, g
chur eAuxstoc 213 l
e 212 207 bH 210 2ei E>A bH-SYS TEM DESIGNATION T
D t
(1CH) lj
- _. 2
!Oi PENETRATION # 19
!o E f
! _. 3 E
- 18. ~ s i..
1
i Beaver Valley Power Station Unit 1 4
issuo ?
INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND val.VES Revision 8 Page 148 of 180 RELIEF REQUEST -
in Valve No.:
MOV-1CH 308A MOV 1CH 3080 MOV-1CH 308C Category _ A Class R_
Function:
Reactor Coolant Seat injection outsido conlainment isolation motor-operated valves.
Test Requirement:
Quarterly fell stroke and time.
Basis for Rellef:
These valves are open during power operation but are required to close to fulfill their safety function. Closing the valves during power operation would secure seal injection water so the reactor coolant pump seals, resulting in seal damage. In addition, seal injection flow is required anytime the system is pressurl/ed to greater than 100 psig.
Alternate Test:
The MOVs will be full stroke exercised and timed closed i
during cold shutdowns when RCS pressure has been reduced to below 100 psig, and at refueling outages per 10ST 1.10.
RELIEF REQUEST 11 Valve No.:
MOV+1CH-370 Category _13 Class 2
Functiore:
Chargin0 supply isolation to Reactor Coolant Pump Seal injection.
Test Requirement:
Quarterly full stroke and timo, Basis for Relief:
This valve is normally open during power operation; Closino it during power operation would secure seal injection water to the reactor coolant pump seals, resulting in seal damage, in addition, seat injection flow is required any time the system is pressurized to greater than 100 psig.
Alternate Test:
Full-stroke exercise and time closed during cold shutdowne when RCS pressure has been reduced to below 100 psig, and at refueling outages por 10ST-1.10.
b
Deaver Valley Power Station Unit 1 (uun 2 Revision 8 If4 SERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 149 of 180 RELIEF REQUEST _1?
Valve No.:
MOV 1CH 378 MOV-1CH 381 Category _
A Cla ss _2___
Function:
RCP seat w ter return line inside and outside containment isolation valves.
Ter,t Requirement:
Quarterly full stroke and time, Basis for Rollef:
These valves are open during powr operation, but are required to close to fulfill their safety, unction. Exercising at power would secure RCP seal water return causing seal damage. In addition, seal injection flow is required any time the RCS is pressurized to greater than 100 psig.
Alternate Test:
Full stroke exercised and time closed during cold shutdowns when RCS pressure has been reduced to below 100 psig, and at refueling outages per 10ST-1,10.
RELIEF REQUEST 13 Valve No.:
Class
_ _2 Function:
LHSl pump suction check valves from the containment sump.
Test Requirement:
Quaderly full stroke.
Basis for Relief:
These valvoo are normally ulosed during power operation but must open to fulfill their safety function for long term core cooling. Any type of stroke testing at power would violate centamment integrity. Due to the tack of installed or test m.Mrumentation and the impracticality of simulating actual safety injection long-term cooling, relief from quarterly and cold shutdown exercising is requested.
l Alternate Test:
Maintenance is to disassemble and inspect one valve per refueling outa0e per 1 CMP-75-ALOYCO CHECK 1M.
l f
8
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 150 of 180 RELIEF REQUEST 14 __
Valve No.:
1SI 5 Category C
Class 2 _.
Function:
LHSI purnp suction check valve from the RWST.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
The function of this nortnally closed valve is to open to permit flow from the RWST to the LHSI pump suctions. Full stroke capability can only be verified by rated safety injection flow, therefore, relief is requested from quarterly tou stroke exercising. Relief frorn cold shutdown full-stroke exercising is also requested because testing would require full flow injection to the RCS where there is insufficient volumo to receive the additional inventory.
Alternate Test.
Part stroke exercised quarterly in the open direction per 10ST 11.1 and 2. Full stroked exercised open at retuoling outages per 10ST 11.14.
i h
l
\\
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTitJG (IST) PROGRAM FOR PUMPS AfJD VALVES Page 151 of 180 0 RELIEF REQUEST 15 Valve No.:
151 6 iSI 7 Category Q_,
Class 2
Function:
LHSI purnp disc.harge check valves.
Test Requirement:
Quarterly full stroke.
Dasis for Relief:
These valves close when the opposite LHSI purnp "
operating to prevent darnaging the non-running pump seals and purnp suction piping but must be fully open during an accident. These valves are part stroked open and full-stroked closed during the quarterly pump surveillance tests; however, rated safety injection flow is needed to verify full stroke capability. Relief from stroking to the full open position at power is requested due to the iaability of the LHSl pornps to overcome RCS pressure Relief from cold shutdown stroking is also requested because testing would g
require full flow injection to the RCS where there is W
insufficient volume to receive the additional inventory.
- f Alternate Test:
Part stroke exercised quarterly in the open direction per 10ST-11.1 and 2. Full stroke exercised open at refueling outages per 10ST-11.14.
G I
s
- - - = = - -
r Beaver Valley Power Station Unit 1 issue 2
+
Revision 8 INSERVICE TESTING (IST) PROGRAfA FOR PUMPS AtiD VAL.VES Page 152 of 180
(/
RELIEF REQUEST 16
)
Valve No.:
1SI10 ISI11 151-12 Category.A/C Class 1
I Function:
LHSI cold leg branch lino chock valves, i
Test Requirement:
Quarterly full stroke, t
Basis for Rollef:
These check valves are normally shut to prevent reverso flow from the hi0 er p~asuro RCS and HHSI system to the h
LHSt low pressure system during power operation but are required to open in the event of a safety injection, Due to the lack of installed instrumentation, and the relativo system pressures. relief fro" quarterly full and part stroko exercising is requested. In addition, relief is requested from full or part stroke exercising at cold shutdown becauso testing would requiro full flow injection to the RCS where there is insufficient volume to receive the v.dditional l
\\
inventory.
Alternato Test:
Full stroko exercised open per 10ST 11.14 and reverso flow exercised closed by leck test per 10ST 11.16 during refueling outa00s
=
)
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 153 of 180 RELIEF REQUEST 17 Valve No.:
1S120 15121 1S122 1SI-100 1S1101 1S!-102 Category _ _C Class 1
Function:
Si hot and cold leg branch line check valves.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
The safety function for these valves is to open in the event of a safety injection, These check valves cannot be full or part-stroked open at power at any frequency due to the potential for a prernature failure of the injection nozzles caused by the thermal shock from a cold water injection.
Relief from stroke testin0 at cold shutdowns is also requested since this could result in a low temperature overpressutilation of the RCS.
Alternate Test:
Full-stroke exercised open per 10ST-11.14 during refuelin0 OulageS.
O T
r Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND val.VES Pare 154 of 180 RELIEF REQUEST 18 Valve No.:
l 1SI23 ISI 24 1S125 Category A/Q Class 1,,
Function:
Si cold O branch line check valves.
Test Requirement:
Quarterly full stroke, Basis for Relief:
These check valves are normally shut during power operation 10 prevent reverse flow from the higher pressure RCS to the lower f.rossure LHSI system but are required to open in the event o' c safety injection. Due to the lack of installed instrumentation, the relativo system pressures and the potential for a premature failure of the injection nozzles caused by the thermal shock from a cold water injection, tellel from quarterly full or part stroke testing at power is O
requested. In addition, relief from cold shutdown stroke testing is requested since this would require a full flow -
injection to the RCS where there is insufficient volume to l
receive the additional inventory.
Alternate Test:
Full stroke exercised open per 10ST-11.14 during refuelin0 outages and reverse-flow exercised closed by leak per 10ST 11.16 during refueling outages.
4 r
.O I
i ~
Beaver Valley Power Stanon Unit 1 issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 155 of 180 RELIEF REQL iST 19 Valve No.:
1S1 27 Category _
C Class 2
Function:
Hi0h head safety injection purnp suction frorn RWST heck valve.
Test Requirement:
Quarterly full stroke.
Da',es for Relief:
This valve is normally closed during power operation but is required to open at the onset of an accident to fulfill its safety function. A full design flow test is required to ensure full stroke. However, durin0 normal operation the charging pump will not develop the required flow. Therefore, relief from quarterly full-stroke oxercising is requested during normal operation. Pelief is also requested frorn cold shutdown exercising because full-flow testing could result in low temperature overpressurization of the RCS, Alternate Test:
Part-stroke exercised open quarterly if the RWST is supplying the charging pumps per 10ST 7.4. 5 and 6.
Full-stroked exercised open during refueling outages per 10ST 11.14.
O
l Bewer Valley Power Station Unit 1 Issue 2 4
Revision 8 INSERVICE TESTING (ISO PROGRAM FOR PUMPS AND VALVES Page 156 of 180 i
RELIEF REQUEST _20 Valve No.:
1SI-48 1SI 49 1SI-50 1SI-51 1SI52 ISI 53 Category A/C Class 1
Function:
Safety injection accumulator series discharge check valve.
Test Requirement:
Quarterly full stroke.
Dasis for Relief:
These valves are shut during normal power operation but are required to open to fulfill their safety function of allowin0 the accumulators to discharge for core flooding. Relief from full or part-stroke exercising at power is requested due to the high pressure dillerential between the reactor coolant system and the a;cumulators. Relief from exercising during cold shutdown is also requested due to a lack of installed instrumentation and an uncontrolled test volume change needed to achieve the flow required by the safety analysis.
Alternate Test:
Full-stroke exercised open durin0 refueling outa0es per 1BVT 1.11.3. As a special test, af ter maintenance has been performed on any of these valves,10ST-11.15 may be performed to partial-stroke exercise the applicable valve.
A.
I e
l beaver Valley Power Station Unit 1 Issue 2 Revn. ion 8 INSERVICE TESTING (IST) PROGRAM TOR PUMPS AND VAtNES PaDe 157 of 180 REllEF REQUEST P1_
Valve No.:
15183 1S1 84 Catepry A/C Class 2
Function:
HHSI hot leg branch line insido containtnent, solation check valves.
Tet.t Requirement:
Quarterly full stroke.
~
9 Dasis for Relief:
These valves are norinally shut but are required to open to fulfill their safety function to provido long terin recirculation in the event of a safety injection. They cannot be full or part stroked open at power due to the potential for a prernature failure of the injection nozzles caused by the therinal shock froin a cold water injection, Colo shutdown full stroke testing cannot be performed sinco this could result in a low ternperature overpressuritation of the RCS.
Alternate Test:
Full-stroke exercised open du.-ing refuelin0 outages por 10ST-11.14.
O
?
l Beaver Valley Power Station-Unit i lssue 2 I
l Revision 8 INSERVILE TES)...J (IST) PROGRAM FOR PUMPS AND VALVES Page 158 of 180 REllEF REQUEST 22 _
Valve No.:
1SI-94 1SI-95 Category A/C Class 2
Function:
BIT injection and Si fill header line inside containment isolation check valves.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
These valves are normally shut during power operation but p
are required to open to fulhil their safety function in the event of a safety injection. These check valves cannot be full or part-stroked at power at any frequency due tr. '.he potential for a premature failure of the injection nozzles caused by the thermal shock from a cold water injection.
Relief from stroke testing at cold shutdowns is also required sinr;-
ild result in a low temperature overpressu.stion of the RCS.
O Alternate Test:
Full-stroke exercised open during refueling ou* 7's per 10ST-11.14.
RELIEF REQUEST 23 DELETED O
I I
a L--
2_--.-
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 159 of 180 0 REllEF REQUEST 24 Valve No.:
MOV-1SI-867C MOV-1SI-867D Category A
Class 2
Function:
Boron injection Tank (BIT) outlet isolation and outside containment isolation valves.
Test Requirement:
Quarterly full stroke and time.
Basis for Relief:
These valves are shut at power but are required to open to fulfill their safety function in the event of a safety injection.
Quarterly stroking of these valves to their open safetv position could result in some borated, oxygenated water from the BIT entering the piping downstream of these valves.
With no means to flush out these lines, valve closure would then cause a stagnant condition to develop. IE Bulletin 79-17 has identified the combination of these three factors as one which prornotes intergrannular stress corrosion cracking (IGSCC). The ability to flush out the downstream piping to minimize the probability of IGSCC formation is only possible during refuelin0 outages in conjunction with the Si full flow test,10ST-11.14. Therefore, relief is requested from quarterly stroke testing.
Alternate Test:
Full-stroke exercised and timed open during refueling
~
outages per 10ST-11.14.
i G;
I h
Beaver Valley Power Station Unit 1 Issue 2' Revision 8-INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 160 of 180-
/~N RELIEF REQUEST 25 Valve No.:
Class 2
Function:
LHSI putnp and Outside RS pump cross connection check es.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
These valves are nor mally closed during power operation but must open to fulfill their safety function in the unlikely event that the LHSI purnps are unable to supply the HHSl pumps.
No practical me' hod of testing these valves exists. The volume of water used to test the outside RS purr ~ is insufficient to stroke the check valves even if it cou._ ao directed to the suction of the LHSI pumps. In addition, there
-is no installed instrumentation.- Therefore, relief from p
quarterly and cold shutdown exercising is requested.
Alternate Test:
Maintenance is to disassemble and inspect one valve per refueling outage per CMP 1/2-75-VELAN CHECK-1M.
l l
l r
Y I '\\
.)
r h
Beavter Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 161 of 180 RELIEF REQUEST 26 _
Valve No.:
TV-1CC-103A TV-1 CC-103C 1 TV-1CC-105E2 TV-1CC-107D 1 TV 1CC-103A1 TV-1CC-105D1 TV-1 CC-107 A TV-1CC-107D2 TV-1CC-103B TV-1CC-105D2 TV 1CC-1078 TV-1CC-107E1 TV-1CC-103B 1 TV-1CC-105E1 TV-1CC-107C TV-1CC-107E2 TV-1CC-103C Category _A,8 Class
2.3 Function
Component cooling to reactor coolant pump, stator, bearing and thermal barrier isolation valves.
Test Requirement:
Quarterly full stroke and tirne.
Basis for Relief:
Stroking these valves with the reactor coolant pumps running could cause damage to pump bearings, stator and thermal harrier if the valves would fail to reopen, Relief is requested from full or part-stroke exercising during power operation and cold shutdown when the pump is running.
Alternate Test:
Full-stroke exercised and timed closed during cold shutdowns when the reactor coolant pumps are secured, and during retuoling outages per 10ST-1.10.
O f
Beaver Valley Power Station Unit 1 Issue 2-4~
Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES
. Page 162 of 180 REllEF REQUEST 27 Valve No.:
TV-1CC-110F1 TV-1CC-110F2 Category A passive: A Class 2
Function:
Outside containment isolation cooling water return from the containment air recirculation cooling coils to the Chilled Water and River Water Systems.
Test Requirement:
IWV-3426 and 3427(a) require Owner specified niaximum permissible leakage rates for specific valves as a function of valve size and type and provide the e rective action to be followed when these limits are exceeded, Basis for Relief:
As shown on the attached figure for Penetration #11 -the configuration of this containment penetration (i.e., two outside containment isolation valves in parallel) is such that individual leakage rates for each specific valve cannot be
_ (]
determined using the test method of 10CFR50, Appendix J.
V lo this case, assigning maximum permissible leakage rates for each valve would not be practical, Alternate Test:
Assign a maximum permissible leakage rate for the entire barrier to then be used as the criteria for initiating corrective action in accordance with IWV-3427(a).
s.-
l l
h
E
?
'A
- o 39 a
E f
m~
8 j
A CNMT AUX BLDG
,11
=
aa 417 TV-1CC-123-2 M
y r3 b
fD, 420 416 11 n
rp -((;)-
p
=
TV-1CC-110F 1 TV-1CC-110F2 Y 5
v[
8 3
TV-1CC-110D g
ru g,3 gg 4
L J e
g I
a
\\
3>
e
,421 s419 261
[
l
{}p}
h l
256 262 1
b C
l 322 4
~
342 343 344 k
427
/ 423 r-
~
J
.j 312 m
[N 413 414 415 e
310 7
hh h
313 FH 311 SV$ TEM DESIGNATlON 5[314 T(7315 2
I (1AC)
{
Y LOCAL SAMPLE 3 5' __
ca <
l PENETRATION # 11 i
j l
jo=~
- Beaver Valley Power Station Unit 1 tssue 2 4
Revis.on 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 164 of 180 p-
' '0 RELIEF REQUEST 28 Valve No.:
1CCR-289 1CCR-200 I
ICCR-291 Category C
Class 3
Function:
Reactor coolant pump thermal barrier supply check valves.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
The safety function of those valves is to close to prevent reverse flow to the low pressure CCR < ystem in the event a thermal barrier leaks. The only way to test far closure is to -
perform a leak test on the valves or by valve disassembly and inspection. Therefore, relief is requested from quarterly and cold shutdown stroke tests, Alternate Test:
Valve closure is verified by a leak test at refueling outages
-O per 1BVT 1.60.7, V
i t
l l
O Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS Af4D VALVES Page 165 of 160 RELIEF REQUEST 29 Valve No.:
IMS-18 1MS 19 1M S-20 Category _
C Class 2
Function:
Main steam to auxiliary feed pump check valves.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
The function of those valves is to open to allow steam flow to run the turbine-driven auxiliary feedwater pump and to close to prevent steam Generator cross connection in the event of a high energy line break. A full stroke to the opened position can only be verified by a full-flow test of the turbine-driven auxiliary feedwater pump performed during startup from cold shutdown. The quarterly pump test runs l
the pump on recirculation only and does not require full steam flow. A full-stroko to the closed position can only be verif.ed by a leak lost to be performed during refueliro outages.
NOTE:
To prevent the loss of all three steam generators in the event of a line break, one of the manual isolation valves upstream of the check valves is locked shut durin0 normal operation.
Alternate Test:
Two of the valves will be part-stroke exercised open during the quarterly pump test per 10ST-24.4. The third valve will not be part stroke exercised because the manual isolation valve is locked closed.
All three valves will be full-stroke exercised open each startup from cold shutdown when the turbine-driven auxiliary feed water pump is full flow tested per 10ST-24.9.
The valves will be full-stroke exercised closed durin0 refuelin0 outages by leak test per 1BVT 1.60.7.
O
o
- Beaver Valley Power Station Unit 1 -
Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 100 of 180
\\
j v~
RELIEF REQUEST -
30 Valve No.:
1 MS-80 1 MS-81 1MS 82 Category C
Class 2
Function:
The A, B and C loop residual heat release reverse flow -
Test Requirement:
Quarterly full stroke.
Basis for Relief:
The safety function of these valves is to close to prevent steam generator cross connection in the event of a high energy line break. Relief is requested from at power and cold shutdown full stroke closure testing because there is no installed instrumentation to check for reverse flow and the headers are normally cross connected and pressurized. No way exists to isolate and systematically check operation of p
these valves.
Alternate Test:
Maintenance is to disassemble and inspect one valve per refueling outage per 1 CMP-75-CR ANE CHECK-1M.
RELIEF REQUEST 31 Valve No.:
1RW-106 1RW-107 Category C
Class 3_
Function:
River water supply header check valves.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
The safety function of these valves is to open to permit river water to safety-related components durin0 an accident and to
.close if the auxiliary river water pumps are supplying the river water headers. The closure of these valves can only be verified by valve disassembly and internal inspection or by reverse flow leak testing.
V Alternate Test:
Full-stroke exercised open quarterly per 10ST-30.2,3 and 6 Full-stroke exercised closed during refueling outages in conjunction with 10ST 30.8.
t b
r-Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES _
Page 167 of 180 RELIEF REQUEST 32 Valve No.:
1RW 110 1RW-111 1 RW-112 1 RW-113 Category C
Class 3
Function:
Diesel generator heat exchanger river water inlet check valves.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
The safety function of these valves is to permit river water flow to the diesel generator heat exchangers. In order to tuffill their function, as per IE Bulletin 83-03, the integrity of these valves must be verified. The valve integrity can only be verified through valve disassembly and internal inspection.
Alternate Test:
Part-stroke exercised open quarterly per 10ST-36.1 & 2.
Full-stroke exercised in both the open and closed directions through a sample valve disassembly and inspection program -
per CMP 1/2-75-WAFER CHECK-1M. One to two check valves will be disassembled and inspected every refueling outage not to exceed a S year frequency per IE Bulletin 83-03.
RELIEF REQUEST 33 DELETED O
f I
s
Beaver Valley Power Station Unit 1 issue 2
+
Revision 8 INSERVICE TESilNG (IST) PROGRAM FOR PUMPS AND VALVES Page 168 of 180 l
RELIEF REQUEST 34 DELETED RELIEF REQUEST 35 Valve No.:
1RW-675 1RW-676 1RW-677 Category C
Class 3
Function:
Unfiltered river water supply to the river water pump seals
~
which is the backup to the normal filtered water supply check valves.
Test Requirement:
Quarterly full stroke.
Basis for Relief:
The only rnethod for testin0 the valves in the backup seal water supply system involves putting unfiltered river water into the pump seals, in order to minimize the degradation to the pump seals that this causes and to reduce maintenance, relief is requested from quarteriy and cold shutdown stroke testing.
Alternate Test:
Full-stroke exercised open during refueling outages per 10ST-30.2, 3 and 6.
O
Beaver Valley Power Station Unit 1 tssue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 169 of 180 0 RELIEF REQUE.ST 36 Valve No.:
SOV 1EE-101 SOV-1 EE-102 SOV-1 EE-103 SOV 1EE-104 Category __ B Class 3_
Function:
Diesel Generator Air Start SOVs Test Requirement:
Quarterly full stroke and time.
Basis for Relief:
These valves are quick acting I 'd do not have position indication. The operation of these valves will be monitored by each individual diesel generator's start failure alarm circuit. Malfunctions which will cause the annunciator panet START FAILURE light to come on and the alarm bell to ring are:
1.
Engine fails to crank above 40 RPM within 3 seconds after a start signal is received or 2.
Engine cranks above 40 RPM within 3 seconds, but fails to exceed 2000 RPM within 4 seconds after a start signal is received.
Individual valves will be tested monthly on an alternating frequency by using a different set of air starting motors each month to crank the engine. This will ensure each bank is capable of starting the diesel generator in the.One. rad time and that the air start SOVs are not degrading.
Alternate Test:
Stroked and indirectly timed by the START FAILURE annunciator on an alternating frequency in conjunction with monthly diesel generator 10STs 36.1 & 2 to ensure compliance with the ASME XI requirement for stroke testing on a quarterly frequency.
O I
Beaver Valley Power Station Unit 1 issue 2 Revision 8 i
INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 170 of 180 O\\
RELIEF REQUEST 37 Valve No.:
TV-1VS-101 A TV-1VS-1018 TV-1VS-101C TV 1VS-1GiD TV-1VS 101E Category _
B Class 3
Function:
Control room emergency air bottle outlet trip isolation valves.
Test Requirement:
Quarterly full stroke and time.
Basis for RelSf:
These valve are shut at power but are required to open to fulfill their safety function. Quarterly full or part stroke exercising is not possible without riskin0 violating technical soecification bottle pressure and time requirements, in addition, the air bottles are now shared betwaen Unit 1 and 2, making testing during cold shutdowns impracticable, Also, these valves do not have control switches and lack valve position indicating lights in the control room.
Alternate Test:
Full-stroke exercised but not timed every 18 months per 3BVT 1.44.1.
4 O
t l
e
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 171 of 180 RELIEF REQUEST 38 Valve No.:
1VS;D 5-3A 1VS-D-5-38 Category A
Class 2
Function:
Containment purge exhaust fan containment isolation dampers.
Test Requirement:
IWV-3426 and 3427(a) require Owner specified maximurn permissible leakage rates for specific volves as a function of valve size and type and provide the corrective action to be followed when these limits are exceeded.
Basis for Relief:
As shown on the attached figure for Penetration //90, the configuration of this containment penetration (i.e., a single test connection located between two containment isolation danipers in series) is such thot individual leaka0e rates for each specific damper cannot be determined using the test method of 10CFR50, Appendix J. In this case, assigning maximum permissible leakage rates for each damper would not tre practical.
Alternate Test:
Assign a maximum permissible leakage rate for the entire penetration to then be used as the criteria for initiatin0 corrective action in accordance with IWV 3427(a).
O 9
~ ~
1
'~~N.;..
.: y 7.
03 1
g. '.. o.y m
.x x
e m
5L l '-
4 r..=
o -- <
g.
m
-E "m:
o e
m.:
,g 2 :e t
3 m,
~
r
.. - g m'+
H o-z;
'}
3, j.
e C
O...
m..
En -
e,o.
i H y
E'
=
~,
8 u.
y-'
O i,
e m;
o
' 1VS-D-5-8 O
F-S-D-5-3B t y s-D-5-3,4
~
s '.
1VS-D-5-3C I
O.
O.
O i
r 90 i
ri i
ri
'MANWAY g
'x' V li f
Vi l
Vt g-k 1VS-D-5-4
. LMC m.
C 3
'8 b, J.
. 3:i:
l e.
Iys-o.4 19A' 3
~
s
~~
.lg/ -gl
',t
?
r-8' 3-ir a
m CNMT.e PURGE DUCT ROOM u)
'9 B-t
.t o
g
+
c' t
G ax:
' PENETRATION # 90
';:s ;;
5*
.a..
m CP Op eJ h'
9
.y..
-c-=#-g k,
h $,.
.,._.,b.
m.
Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 173 of 180 0 RELIEF REQUEST 39 Valve No.:
1 VS-D-5-5 A 1 VS-D-5-5B 1VS D-5-6 Category A
Class 2
Function:
Containment pur0e supply fan containment isolation dampers.
Test Requirement:
IWV-3426 and 3427(a) require Owner specified maximum permissible leakage rates for specific valves as a function of valve size and type and provide the corrective action to be followed when these limits are exceeded.
Basis for Relief:
As shown on the attached figure for Penetration #91, the configuration of this containment penetration (i.e., a single test connection located between three penetration isolation ~
dampers) is such that individual leakage rates for each specific damper cannot be determined using the test method of 10CFR50, Appendix J. In this case, assigning maximum permissible leakage rates for each damper would not be practical.
Alternate Test:
Assign a maximum permissible leakage rate for the entire penetration to then be used as the criteria for initiating corrective action in accordance with IWV-3427(a).
O S
I
- 6
n e
f ~
CD o.
m M
x m
o m
5 C
Q-m m
=
E m
- D u>
e m
y J
e O
z-g l
O O
m=
a a
i d
E a
m 6'
u 25 3
l e
o Iji e
c) t ys.D 6 33 IVS-D-5-5B e
IVs-D-5-SC D
o O
s-
-l l
-l MANWAY<
O M
91 vl v" i m
i g
1VS-D-5-5A c
LMC g
e l
C a
s-
. r-CNMT8. PURGE DUCT ROOM M
m ta C
C
-x PENETRATION # 91 r=_
aE:
O c "D
o o=m L
l t
r Beaver Valley Power Station Unit 1 Issue 2 Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 175 of 180 RELIEF REQUEST 40 Valve No.:
TV-1CV-150A TV-1CV-1508 1HY-101 1HY-103 Category A
Class 2
Function:
Containment Vacuum Pump 1 A and Hydrogen Recombiner 1 A suction containment isolation valves.
Test Requirement:
IWV-3426 and 3427(a) require Owner specified maximum permissible leakage rates for specific valves as a function of valve size and type and provide the corrective action to be followed when these limits are exceeded.
Basis for Relief:
As shown on the attached figure for Penetration #93, the configuration of this containment penetration (i.e., two in-series isolation valves in each of two parallel branch linos) is such that individual leakage rates for each specific damper cannot be determined using the test method of 10CFR50 Appendix J. In this case, assigning maximum permissible leakage rates for each damper would not be practical.
Alternate Test:
Assign a maximum permissible leakage rate for the two valve combinations of [TV-1CV-150B & 1HY-101] and
[TV-1CV-150A & 1HY-103] to then be used as the criteria for initiating corrective action in accordance with IWV-3427(a).
I O
l I
.r
[$
In m"
.g
- n.- e m
5-r-
o
. EE m
'M 8
MOV-1HY-tu 1 A.
e
'M m
g y 3-9 Z
- E s
g.
O o
l SOV-1HY-100 A 6 m
CONTAINMENT DOME 1HV-108 1HV-106 d
g
>4 IX}- d X}3
.o O3 8-l dLMC O'
e y
7 8
1HY-101 gG MOV-1HY-102A Q
1HY-103 n
LMC r
y a
93 Tv-1CV-1508
.(TV-1CV-150A h
t m
C 1
.4 B f1 rst e
2.
P J_ V(4 e
VN l
t/ V 1
e z
U U
3 e
94 (INTERNALS REMOVED)
LMC LMC r-e c
e IPAS-20 m-m CNur auxstDa IPAS-2 IP AS-19 hM-
{ 1 PAS-8 di ~
SYSTEM DESIGNATION (1CV) f
- F O
PENETRATION # 93 o 5. '2 SE
- o-~
V a;T
~
g-f,e
-+v-%s
+
i-+s wes
- m a1 1
Beaver Valley Power Station Unit 1 issue [
Revision 8 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page-177 of 180 REllEF REQUEST.
41 Valve No.:
TV-1CV-150C TV 1CV-1500 1 HY-102 1HY 104 Category A
Class 2
Function:
Containment Vacuum Pump 18 and Hydrogen Recombiner 18 suction containment isolation valves.
Test Requirement:
IWV-3426 and 3427(a) require Owner specified maximum permissible leakage rates for specific valves as a function of valve size and type and provide the corrective action to be followed when these limits are exceeded.
Basis for Polief:
As shown on the attached fi ure for Penetration it92, the 0
configuration of this containment penetration (i.e., two in-series isolation valves in each of two parallel branch lines) is such that individual leakage rates for each specific damper cannot be determined using the test method of 10CFR50, Appendix J. In this case, assigning maximum permissible leakage rates for each damper would not be practical.
Alternate Test:
Assign a maximum permissible leakage rate for the two valve combinations of [TV-1CV-150C & 1HY-102] and
[TV-1CV-150D & 1HY-104] to then be used as the criteria for initiating corrective action in accordance with IWV-3427(a).
O h
k 4
E
?
)
X:
E R
r-5
<g m
m' 4
m m
w M
Y O
1 I
O Z
- E C
o o
m
_Ui 59 p
A] MOV< 1HV-1018 u
x 3
O 1HY-109 1HY-107 o
CONTAINMENT DOME SOV-1HY-100B 6 x
1HY-102 1HY-104
~
LMC E
~
D l
6 92
/
2 T v-1CV-150C I9 TY-1CV-1500 r-Q 4
m (INTERNALS REMOVED) bA fsl4 Is1 J
W V1 1
N vN
)l 95 e
i LMC LMC S
8 CNMT AUX BLLG l
l-n j
SYSTEM DESIGNATION y
(1CV)
Of PENETRATION # 92 o 3-g 5E g
e-~
.s
Beaver Valley Power Station Unit 1 issue 2 Rovision 8 ItJSERVICE TESTING (IST) PROGRAM FOR PUMPS AtJD val.VES Page 179 of 180 0 RELIEF REQUEST _42 Valve No.:
1VS-183 1VS-184 Category A
Claus AL_
Function:
Containment laolation (Emergency Air Lock)
Test Requirement:
Leak tested per IWV 3420. In addition lWV 342G and 3427(a)
~
require Owner specified maxitnum permissibia leakago rates for specific valves as a function of valvo sito and type and provide the corrective action to be f allowed when these limits are exceeded.
Basis for Relief:
These containment isolation valves are leak tested in accordance with 10CFR50, Appendix J Type B. Since the a':ceptance critoria for Appendix J. Typo B testin0 s more i
limiting than ASME Section XI, additional leak testing in accordance with ASME Section XI would be redundant. In addition, as shown on the attached figuro for the Emergency Air Lock, the configuration of this containtnent penetration (i.e., a single test connection located in the emergency airlock betwoon two airlock equalization valvos) is such that individual leakago rates for each specific valvo cannot be determined using the test method of 10CFR50, Appendix J.
In this caso, assigning maximum permissible leakago rates for each valve would not be practical.
Alternate Test:
Leak test semi-annually in accordance with Technical Specification 4.6.3.1.b.1,10CFR50, Appendix J and IWV-3426 per 1BVT 1.47.10. In addition, assign a maximum permissible leakage rate for the entire airlock to then be used as the criteria for ini;iatin0 corrective action in accordance with IWV 3427(a).
9 I
I 6
~
1 s
11 Beaver Valley Power Station-Unit 1 issue 2 Revision 8 -
INSERVICE TESTING (IST) FROGRAM FOR PUMPS AND VALVES Page 180 of 180., j
. (,j.
REUEF REQUEST 42 m
-E h jr:f, e
En : ! ** 5 g 5
r\\
r a
I" o 2 N.
_ist r
~
4
~~
15 v.
31
_._f=
- W.7 3
g a
jg t,-
1 F
.==
o k,.l,................ L..h 1,
))
M 1,
r.r ;!
l
. m f i "H_
g i n-g s
!g!I H
J,.
u ll o
^
~
~'
! ll j
it I-E l
c
+
D M
E5I
-h
- l t
4 l},S*ri M
E, j !l <
' gi l.l.rl-l y q tI it
- n e
r Ik~
n
...,. e c* j 8
j mI
- .~
g II kII i!,_ Il y r - -------- - ;
t1
%Hr;t p.
9 q ;
$ 5 4
si i
E
- j-1
{
l,
- o-t 11 U
- "%: ziz i
,zzi hGi
!D
. -e--
S
!..4
.\\,/
g N"
i.,
x c
e-
- 5 $ ' ' *, a k il O
E
~I r.gr51 El ~!as;
- =
~
-r
. a.
.e I13h,5 c,:-
>\\