ML20085J561
| ML20085J561 | |
| Person / Time | |
|---|---|
| Site: | Fermi  |
| Issue date: | 08/04/1983 |
| From: | Clauss J, Kin J NUTECH ENGINEERS, INC. |
| To: | |
| Shared Package | |
| ML20085J552 | List: |
| References | |
| DET-16-0201, DET-16-201, NUDOCS 8310130232 | |
| Download: ML20085J561 (160) | |
Text
DET-16-0201 Revision 2 50.4016.0201
?
INSERVICE TESTING PROGRAM ENRICO FERMI ATOMIC POWER PLANT l
UNIT 2 Prepared for:
The Detroit Edison Company Prepared by:
NUTECH Engineers Chicago Prepared by:
Issued by:
milr &
D L P L-(
J. W/ Kin, P.E.
J. f. Kin, P.E.
l Profect Engineer Pro 3ect Manager l
Approved by:
".^:
Date:
) k $9hb K M. Clauss, P.E.
/
Engineering Manager s
8310130232 831004 PDR ADOCK 05000341 A
R3 vision Control Shset
Title:
Inservice Testing Program Enrico Fermi Atomic Power Plant, Unit 2 J r, '-W.
Kin, P.E.
Senior Engineer N
~
NAME/ TITLE INITIAL R. C. Bean Consultant II 18CA NAME/ TITLE INITIAL Effective Accuracy Criteria Page(s)
Revision Prepared Check Check ii to iv 2
A6 JW NA iii 2
1-1 to 1-2 2
2-1 to 2-4 2
\\
1 Pump IST Listing 2
(4 pages)
[
3-1 to 3-64 2
Valve IST Listing 2
(
(73 pages)
V y
dOk MA l
l l
DET-16-0201 11 Revision 2
TABLE OF CONTENTS l
Page
-.. ~
LIST OF TABLES iv
1.0 INTRODUCTION
1-1 2.0 INSERVICE TESTING PROGRAM FOR PUMPS 2-1 2.1 General Information 2-1 2.2 Relief Requests for Inservice 2-5 Pump Testing Program 2.3 Inservice Pump Testing Program 2-15 3.0 INSERVICE TESTING PROGRAM FOR VALVES 3-1 3.1 General Information 3-1 3.2 Relief Requests for Inservice 3-11 l
Valve Testing Program
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3.3 Inservice Valve Testing Program 3-61 1
9 DET-16-0201 iii Revision 2
LIST OF TABLES k
Table Title Page
3 and EX Pumps 3.1-1.
Inservice Valve Tests 3-6 3.1-2 Test Frequency 3-9 3.3-1 List of Systems Included in Fermi Unit 2 Valve Program Listing 3-62 1
Valve IST Inservice Testing Program Listing ISI Class 1, 2,
3 and EX Valves I
l 1
DET-16-0201 iv Revision 2
l.0 INTRODUCTION
(
Revision 2 of the Enrico Fermi Atomic Power Plant, Unit 2 (EF2) ASME Inservice Testing Program for pumps and valves will be in effect for a 120 month period which commences with plant fuel load.
The period of time this revision of the program is ef fective represents the first 120 month (10 year) inspection interval.
This program will be updated prior to the start of the second 120 month interval in accordance with the requirements of 10CFR50.55a (g ).
The program contained herein outlines the Inservice Testing (IST) requirements for the Enrico Fermi Atomic Power Plant, Unit 2 (EF2).
This program is based on the requirements of Section XI of the ASME Boiler and Pressure Vessel Code, 1980 Edition through the Winter 1980 Addenda.
All references to IWP or IWV in this document correspond to Subsection IWP or IWV of ASME Section XI, 1980 Edition through the Winter 1980 Addenda unless otherwise noted.
This IST program was developed using the ISI l
classification boundaries and the following documents:
Title 10, Code of Federal Regulations, Chapter 50 Division 1 Regulatory Guides Standard Review Plan 3.9.6,
" Inservice Testing of Pumps and Valves" Division 1 Draft Regulatory Guide and Value/ Impact Statement, " Identification l
of Valves for Inclusion in Inservice Test Programs" i
DET-16-0201 1-1 Revision 2
"NRC Staff Guidance for Preparing Pump
(
and Valve Testing Programs and Associated Relief Request", January 1978 Final Safety Analysis Report, Enrico
-
- r-Fermi Atomic Power Plant, Unit 2 Technical Specification, Enrico Fermi, Unit 2 Interpretation XI-1-7S-19.
The inservice tests identified in this program will verify the operational readiness of pumps and valves whose functions are required for safety.
Pumps and valves which function to mitigate the consequences of an accident or to bring the reactor to a stable condition have been included in this program.
The IST classification of each pump and valve matches the ISI classification indicated on the ISI, P& ids with one exception, pumps and valves in the IST program which are not within the ISI classification boundaries are indicated as El, E2, E3 or E4 where the E signifies that this component is located on piping with no ISI classification and the number (i.e. 1, 2, 3, 4) refers to the design class taken from the P&ID's and the master valve lists.
s I
DET-16-0201 1-2 Revision 2
2.0 INSERVICE TESTING PROGRAM FOR PUMPS i
2.1 General Information
- 7.1.1 Applicable Code This Inservice Testing Program for ISI Class 1,2,3 and non-ISI classed pumps meets the requirements of Subsection IWP of Section XI of the ASME Boiler and Pressure Vessel Code, 1980 Edition through the Winter 1980 Addenda.
Where these requirements are determined to be impractical, specific requests for relief have been written and are included in Section 2.2.
2.1.2 Pump Program Tables The tables in Section 2.3 list all pumps inc'luded in the Enrico Fermi Unit 2 IST Program.
The data contained in these tables identifies all pumps subject to inservice testing, the inservice test quantities, the inservice l
testing interval, and any applicable remarks.
The column l
headings in these tables are listed and explained below:
PUMP NUMBER:
The Plant Identification System (PIS) number PUMP NAME CLASS:
The ISI classification as shown on the color l
coded classification boundary diagram.
For pumps l
listed on lines with no ISI classification, an El, E2, E3 or E4 is indicated where the number refers to design Class A, B, C and D, taken from the P&ID's.
P&ID NUMBER:
The DECO drawing number for the P&ID DET-16-0201 2-1 l
Revision 2
Y COOR:
The coordinate location on the P&ID where the i I pump appears.
SPEED, INLET PRES, DIFF PRES, FLOW RATE,-VIBRATION and BEARING TEMP:
Inservice Test Quantities to be
- r*
measured in accordance with Table IWP-3100-1 TEST INTERVAL:
The frequency of IST as prescribed in IWP-3400 REMARKS:
The data in this column includes any general information pertaining to the pump.
2.1.3
" Inservice Test Quantities" Columns When the letter "Y" appears in a particular test quantity column, that quantity will be measured during inservice testing in accordance with Subsection IWP.
If a modified test is planned or if the letter "N" appears in a particular test quantity column, a request for relief number will be referenced.
Requests for relief are abbreviated PR-The actual request for relief is attached to Section 2.2.
2.1.4 Measurement of Inservice Test Quantities Speed:
Per IWP-4400, shaft speed measurements are not applicable (NA) for pumps coupled to I
synchronous or induction type drivers.
For variable speed drives, pump speed shall be set at the reference speed per IWP-3100.
Inlet Pressure:
For pumps taking suction from a tank or the RHR Service Water Complex basin, inlet pressure will be calculated (using appropriate density corrections) from a measured tank or basin level.
Section 2.2, Relief Request ER-3 addresses pumps whose inlet pressure will be calculated.
(
All other inlet pressure measurements will be taken using pressure instruments at or near the i
DET-16-0201 2-2 Revision 2 m -
l 1
pump in1st unless a relief request states I
otherwise.
Differential Pressure:
Most differential pressure measurements will be calculated from inlet and discharge pressure measurements.
In some cases, a differential pressure gauge will be used.
Flow Rate:
Pump discharge flow rate shall be measured.
Vibration:
In accordance with Section 2.2, Relief Request No. PR-1, EF2 proposes to measure vibration velocity rather than vibration amplitude.
Bearing Temperature:
In accordance with Section 2.2, Relief Request PR-2, EF2 will not measure bearing temperatures.
2.1.5 Allowable Ranges of Test Quantities The allowable ranges specified in Table IWP-3100-2 will be used for differential pressure and flow measurements.
Should the measured test quantity fall outside the allowable range, the corrective action specified in IWP-3230 will be taken.
For more information, see Interpretation XI-1-79-19.
2.1.6 Bearing Lubricant As specified in Table IWP-3100-1, the pump bearing lubricant level, pressure, or flow will be observed during inservice testing.
I DET-16-0201 2-3 Revision 2
2.1.7 Exempted Pumps within Systems Classified for ISI I.
The reactor recirculation centrifugal pumps have been exempted from the IST program because they do not perform t"
a safety function.
The reactor recirculation jet pumps have been exempted from the IST program because Subsection IWP is applicable to centrifugal and positive displacement pumps only.
These pumps have been exempted in accordance with IWP-1100.
i l
i DET-16-0201 2-4 Revision 2
(
- s SECTION 2.2 RELIEF REQUESTS FOR INSERVICE PUMP TESTING PROGRAM DET-16-0201 2-5 Revision 2
RELIEF REQUEST NO. PR-1
(
P PUMP:
All pumps in the IST program.
- PUMP NO:
See Inservice Testing Program.
ISI Class 1, 2, 3 a id EX Pumps
{ LASS:
2, 3, E3 and E4 FUNCTION:
Reactor shutdown without control rods, emergency core cooling, emergency equipment cooling, supply fuel oil to the diesel.
SECTION XI REQUIREMENT:
Vibration amplitude displacement shall be measured quarterly during inservice testing.
(Table IWP-3100-1 and IWP 3400(a)).
l BASIS FOR RELIEF:
Enrico Fermi Atomic Power Plant proposes an alternate program which is believed to be more comprehensive than that required by Section XI.
The proposed program is based on vibration readings measured in velocity units rather than vibration amplitude in mils j
displacement.
This technique is more sensitive to small changes that are indicative of developing mechanical problems and hence more meaningful.
Velocity measurements detect not only high amplitude vibrations that indicate a major mechanical problem, but also the equally harmful low amplitude, high f requency vibrations resulting f rom misalignment, imbalance, or bearing wear that usually go undetected by simple displacement measurements.
In conclusion, the foregoing reasons demonstrate that the proposed program of vibration measurements is a more practical method of testing which meets the intent of the
- (
ASME Code requirements.
DET-16-0201 2-6 Revision 2
1 RELIEF REQUEST PR-1 (Continued) i ALTERNATE TESTING:
Pump vibration measurements will be taken in
~
vibration velocity (in/sec).
The evaluation of the N'
readings will be as follows:
Acceptable Range:
less than.236 inches /sec Alert Range:
greater than or equal to.236 inches /sec less than.314 inches /sec j
l Required Action Range:
greater than or equal to
.314 inches /sec.
i l
l I
DET-16-0201 2-7 Revision 2
r I
RELIEF REQUEST NO. PR-2 I
l PUMP:
All pumps in the IST program.
tPUMP NO.
See Inservice Testing Program Class 1, 2,
3 and EX Pumps
)
CLASS:
2 3, E3 and E4 FUNCTION:
Reactor shutdown without control rods, emergency core cooling, emergency equipment cooling, supply fuel oil to the diesel SECTION XI REQUIREMENTS:
Bearing temperature shall be measured, yearly during inservice testing (Table IWP-3100-1 and IWP-3300).
s.
BASIS FOR RELIEF:
Enrico Fermi Atomic Power Plant proposes an' alternate program which is believed to be more I
comprehensive than that required by Section XI.
The' proposed program is based on vibration readings measured in velocity units.
This technique is sensitive to small changes that are indicative of developing mechanical problems and hence more meaningful.
In addition, these readings go far beyond the capabilities of a bearing l
temperature monitoring program.
A bearing will be seriously degraded prior to the detection of increased.
I heat at the bearing housing.
Quarterly vibration velocity, readings will achieve a much higher probability of detecting developing problems than annual bearing temperature readings.
Finally, IWP-3500 requires "three successive readings taken at ten minute intervals that do not vary more than l
three percent."
Meeting this requirement for pumps having no recirculation test loop would be very dif ficult because DET-16-0201 2-8 Revision 2
)
s RELIEF REQUEST NO. PR-2 (Continued) i the system water temperature, and consequently the lubricant temperature, are expected to drift more than
- ^
three percent during 20 minutes.
Also, the temperature of the lubricating fluid will vary with ambient conditions and make meaningful data trending impractical.
As described above, a program of bearing temperature trends and the evaluation of the results would in some casos be dif ficult to analyze.
Improper interpretation of resul.ts could result in unnecessary pump maintenance.
In addition, it is impractical to measure bearing i
temperatures on many of the pumps in the program.
Some specific examples are as follows:
(1)
Core Spray:
The pump bearings are lubricated by emergency equipment cooling water flow.
Changes in emergency equipment cooling water system temperature 4
would seriously affect the accuracy of trends.
(2)
Same as (1) above.
(3)
High Pressure Coolant Injection:
This pump is driven
'~
by a steam turbine which exhausts steam into the l
pressure suppression chamber.
Extended run times to stabilize bearing temperatures could heat the suppression pool water to a temperature exceeding the Technical Specification limit of 105'F (Technical Specification paragraph 3.6.2.1.a.2.a).
p i
.i s
s DET-16-0201 2-9 Revision 2
RELIEF REQUEST NO. PR-2 (Continued) k.
In conclusion, the foregoing reasons demonstrate that the proposed program of vibration measurements is a more I
practical method of testing which meets the intent of the ASME Code requirements.
ALTERNATE TESTING:
Pump vibration measurements will be taken in vibration velocity units (in/sec).
The evaluation of the readings will be per the ranges given in Relief Request PR-1.
Temperature measurements will not be taken.
DET-16-0201 2-10 Revision 2
N RELIEF REQUEST NO. PR-3 i
l PUMP:
Residual Heat Removal, Emergency Equipment and Diesel Generator Service Water
- 5 PUMP NO.:
E1151C001A, Ell 51C001B, E1151C001C, Ell 51C001D; Residual Heat Removal Service Water P4500C002A, P4500C002B; Emergency Equipment Service Water R3001C005, R3001C006, R3001C007, R3001C008; Diesel Generator Service Water CLASS:
3 FUNCTION:
Emergency Equipment, RHR Heat Exchanger, and Diesel Generator Cooling.
SECTION XI REQUIREMENTS:
Inlet pressure (Pi) shall be measured quarterly during inservice testing (Table IWP-3100-1 and IWP-3400(a)).
2 BASIS FOR RELIEF:
The pump impellers of the subject pumps are submerged in the RHR reservoir.
The inlet pressure at the impeller is simply the hydrostatic head.
Because there is no instrumentation at the pump inlet, the hydrostatic head will be computed from the reservoir level.
The inlet pressure measurement, by computation of j
hydrostatic head developed from the reservoir level, is a practical method of testing, given the placement of the impellors in the RHR reservoir l
1.
ALTERNATE TESTING:
The inlet pressure measurement will be based on reservoir level.
DET-16-0201 2-11 Revision 2 l
i RELIEF REQUEST NO.
PR_4__
4 PUMP Standby Liquid Control
' PUMP No:
C4103C001A, C4103C001B CLASS:
2 FUNCTION:
To provide a method of shutting down the reactor without the use of control rods.
SECTION XI REQUIREMENTS:
Differential pressure and suction pressure shall be measured quarterly during inservice tesing (Table IWP-3100-1 and IWP-3400(a)).
BASIS FOR RELIEF:
No suction tap or inlet pressure instrumentation is provided for the Standby Liquid Control i
l purps.
Suction pressure when testing is small compared to discharge pressure (less than 3 psig compared to 1190 psig).
The pumps are positive displacement pumps and since the suction pressure is low, the differential pressure is essentially equal to discharge pressure (1107 psig vs. 1190 psig).
The suction pressure is less than one percent of discharge pressure and can be considered insignificant.
ALTERNATE TESTING:
Discharge pressure, flow rate and vibration l
will be measured during inservice testing.
Check adequate l
suction head to ensure safe pump operation by determining liquid level in the storage tank.
l l
l DET-16-0201 2-12 l
Revision 2
~
RELIEF REQUEST NO. PR-5 l'
PUMP:
Diesel Fuel Oil Transfer
, PUMP NO.:
R3000C001, R3000C002, R3000C003, R3000C004, R3000C009, R3000C010, R3000C011, R3000 Coll CLASS:
E3 FUNCTION:
The diesel fuel oil transfer purps start automatically when the emergency diesel generator starts.
These pumps run continuously during emergency diesel generator operation to ensure that the diesel fuel oil day tanks are kept full.
Because the transfer pumps provide more fuel than the diesels can consume, overflow oil is directed back into the main storage tank.
SECTION XI REQUIREMENTS:
Inlet pressure (Pi), Differential pressure (AP) and Flow rate (Q) shall be measured quarterly during inservice testing (Table IWP-3100-1 and IWP-3400(a)).
BASIS FOR RELIEF:
No flow control or instrumentation is provided for the diesel fuel oil transfer pumps.
In addition' flow rate cannot be indirectly measured based on diesel fuel oil day tank level changes with time since the diesel fuel oil day tank cannot be drained back into the main storage tank.
Therefore, flow race cannot be measured quarterly during inservice testing.
Because flow cannot be l
l controlled and cannot be measured, repeatability and hydraulic ranges cannot be established for dif ferential pressure.
No instrumentation exists for measuring inlet pressure.
ALTERNATE TESTING:
The diesel fuel oil day tank level will be I
monitored during the emergency diesel generator test.
If DET-16-0201 2-13 Revision 2
{.
RELIEF REQUEST NO. PR-5 (Continued) the diesel fuel oil day tank is always full, the diesel fuel oil transfer pump flow rate is adequate.
The
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emergency diesel generator's rate of fuel consumption is less than the flow rate of the diesel fuel oil transfer pumps.
I DET-16-0201 2-14 Revision 2
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SECTIOli 2.3 INSERVICE PUMP TESTING PROGRAM l
P i
l DET-16-0201 2-15 Revision 2
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m PREPARED III : NUTECH T E DETMDIT EDISAM Co rANY
,g o to hY INSERVICE TESTING Mt0 GRAM
%y REVISION 2 O I ISI CLASS 1, 2, 3, Am EX PUES DATE 06/05/63 3h ENRICO FERNI ATONIC POWER PLANT UNIT 2 PAGE I 0F 4 mg INSERVICE TEST QUANTITIES PtMP PalD INLET DIFF FLOW IIRG TEST NiseER PUW MAE CLASS EM721-COOR SPEED PRES PRES RATE VIBRA TEW INTERVAL REMARKS C4103C001A STANDBY LIQUID CONTROL 2
2002 J-7 NA N:PR-4 Y:Rt-4 Y
Y:PR-l N:PR-2 QUARTERLY C4103C001B STANDBY LIQUID CONTROL 2
2062 K-7 NA N:PR:4 Y:PR-4 Y
Y:PR-1 N:PR-2 QUARTERLY E1102C002A RESIDUAL HEAT RD OVAL 2
2064 L-4 NA Y
Y Y
Y:PR-1 N:PR-2 QUARTERLY 1
l E1102C002B RESIDUAL HEAT REWVAL 2
2003 K-9 NA Y
Y Y
Y:PR-1 N:PR-2 QUARTERLY I
E1102C002C RESIDUAL HEAT RENOVAL 2
2004 L-2 NA Y
Y Y
Y:PR-1 N:PR-2 QUARTERLY 1
m E1102C0023 RESIDUAL N AT REMOVAL 2
2003 K-Il NA Y
Y Y
Y:PR-1 N:PR-2 QUARTERLY 1
Ell 5tC001A RESIDUAL HEAT RENOVAL 3
N2052 D-6 NA Y:PR-3 Y
Y Y:PR-1 N:PR-2 QUARTERLY SERVICE MATER FilSIC0018 RESIDUAL HEAT RENDVAL 3
N205) D-2 NA Y:PR-3 Y
Y Y PR-1 N:PR-2 QUARTERLY SERVICE WATER i
Ell 5tC001C RESIDUAL HEAT RENOVAL 3
N2052 D-6 NA Y:PR-3 Y
Y Y:PR-1 N:PR-2 QUARTERLY SERVICE WATER Ell 51C0010 RESIDUAL M AT RENOVAL 3
N2053 D-2 NA Y:PR-3 Y
Y Y:PR-1 N:PR-2 QUARTERLY SERVICE WATER E2101C001A CORE SPRAY 2
2034 H-6 NA Y
Y Y
Y:PR-1 N:PR-2 QUARTERLY j
E2101C0018 CORE SPRAY 2
2034 H-9 NA Y
Y Y
Y:PR-1 N:PR-2 QUARTERLY
h PREPARED BY : NUTECH T E DETR0lf EDISON COW NfY ta tu
$f INSERVICE TESTING 19t0 GRAM O*
REVISION 2 o
ISI CLASS 1, 2, 3, AM) EX PUMPS DATE 08/05/83 3
EWtlCO FEftel ATOMIC PONER PLANT UNIT 2 PAGE 2 0F 4 kJ O INSERVICE 7FST QUANTITIES l
Ptse P&lD INLET DIFF FLOW BRG TEST NtNIER lJr NAE CLASS 6N721-C00R SPEED f9tES 99tES RATE VIBRA TEW lNTERVAL REMARKS E210lC00lc CORE SPRAY 2
2034 H-7 NA Y
Y Y
Y PR-l N:PR-2 QUARTERLY E2101C0010 CORE SPRAY 2
2034 H-Il NA Y
Y f
Y:PR-1 N:WZ-2 QUARTERLY E410lC001A Hl(M PRESStftE COOLANT 2
2043 E-9 Y
Y Y
Y Y:N.I N:PR-2 QUARTERLY INJECTION - BOOSTER E410lC0018 HIGH PRESSURE COOLANT 2
2043 E-7 Y:PR-l N:PR-2 QUARTERLY Y
INJECTION - MAIN H
I P4400C001A EE RGENCY EQUIPE NT 3
2027 C-5 NA Y
Y Y
Y:PR-1 N:PR-2 QUARTERLY COOLING WATER U
P4400C0018 EERGENCY EQUIPENT 3
2027 D-5 MA Y
Y Y
Y:PR-l N:PR-2 QUARTERLY
)
COOLING WATER P4500C002A EE RGENCY EQUIPMENT 3
N2052 D-5 NA Y:PR-3 Y
Y Y:PR-1 N:PR-2 QUARTERLY SERVICE WATER P4500C002B ENERGENCY EQUIPMENT 3
N2053 D-3 NA Y:PR-3 Y
f Y:PR-1 N:PR-2 QUARTERL) l SERVICE WATER l
R300C001 DIESEL FUEL OIL E3 N2048 8-3 NA h:PR-5 N:PR-5 N:Pr.-5 Y:PR-N:PR-2 QUARTERLY TRANSFER 1
8THE WCl MIN AND BOOSTER PLMPS ARE TESTED SINULTANEOUSLY
e PREPARED BY : NUTECN THE DETR0lf EDISON CorAffY t) tn hY INSERVICE TESTING IROGRAN
-]
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REVISION 2 O I ISI CLASS 1, 2, 3, Ale EX PurS DATE 08/05/83 "h
EfetlCO FERNI ATONIC PONER PLANT LHIT 2 PAGE 3 0F 4 m3 ese INSERVICE TEST QUANTITIES PtM' PalD INLET DIFF FLOW BRG TEST NUleER PUr NAIE CLASS 6N721-COOR SPEED NES FRES RATE VIGRA TEF INTERVAL RENARS R3000C002 DIESEL FUEL OIL E3 N2048 B-6 NA N:PR-5 N:FR-5 N:lR-5 Y PR-1 N:PR-2 QUARTERLY TRANSFER i
R3000C003 DIESEL FUEL OIL E3 N2048 B-3 NA N:PR-5 N:PR-5 N:PR-5 Y PR-1 N:PR-2 QUARTERLY TRANSFER R3000C004 DIESEL FUEL OIL E3 N2048 B-6 NA N:PR-5 N:PR-5 N:PR-5 Y:PR-1 N;PR-2 QUARTERLY TRANSFER N
1y R3000C009 DfESEL FUEL OIL E3 N2043 B-3 NA N:PR-5 N:PR-5 N:PR-5 Y PR-1 N:PR-2 QUARTERLY j
TRANSFFR R3000C010 DIESEL FUEL OIL E3 N2049 B-6 NA N:PR-5 N:PR-5 N:PR-5 Y PR-I N:PR-2 QUARTERLV TRANSFER l
R3000C0ll DIESEL FUEL OlL E3 N2049 B-3 NA N:PR-5 N:PR-5 N:PR-5 Y:PR-1 N:PR-2 QUARTERLY TRANSFER R3000COI2 DIESEL FUEL OIL E3 N2049 B-6 NA N:PR-5 N:PR-5 N:PR-5 Y:PR-1 N:PR-2 QUARTERLY TRANSFER f
R3001C005 DIESEL GENERATOR 3
N2052 D-4 NA Y:PR-3 Y
Y Y:PR-1 N:PR-2 QUARTERLY SERVICE WATER i
R3001C006 DIESCL ENERATOR 3
N2052 D-5 NA Y:PH-3 Y
Y Y:PR-1 N:PR-2 QUARTERLY SERVICE WATER I
emeeeeeeeee me me
PREPARED 81 : NUTECH TIE DETRolf EDISON COWmplY
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h.Y INSERVICE TESTING PROGtAM
$, 7 REVISION 2 O I ISI CtASS 1, 2, 3, AeO EX PUWS DATE 08/03/83
- 8 Elftim FERMI ATONIC PONER PLANT UNIT 2 PAGE 4 OF 4 NoW lNSERVICE TEST QUANTITIES PtteP PalD INLET DIFF FLOW BRG TEST NtteER PU W NA8EE CLASS 6N729-CDOR SPEED IRES fRES RATE VilftA TEW INTERVAL RDGfES R3001C007 DIESEL GENERATCR 3
N2053 D-3 NA V:PR-3 Y
Y Y:PR-1 N:PR-2 QUARTERLY SERVICE ETER R3001C006 DIESEL GENERATOR 3
N2053 D-4 NA Y:PR-3 Y
Y Y:PR-l N:PR-2 QtmRTERLY SERVICE ETER T4100C040 CHILLED MTERA:ONTROL E4 4325 D-3 NA Y
Y Y
Y:PR-1 N:PR-2 QUARTERLY CENTER AC w
I T4100C041 CHILLED MTERA:0NTROL E4 4325 D-5 NA Y
Y Y
Y:PR-1 N:PR-2 QUARTERLY CENTER AC
l J
3.0 INSERVICE TESTING PROGRAM POR VALVES k
9 3.1 General Informat' ion This Inservice Testing Program for ISI Class 1, 2, 3 and
- S non-ISI Class Valves meets the requirements of Subsection IWV of Section XI of the ASME Boiler and Pressure Vessel Code, 1980 Edition through the Winter 1981 Addenda.
Where these requirements are determined to be impractical, specific requests for relief have been written and included in Section 3.2 The tables in Section 3.3 list all ISI Class 1, 2,
3 and non-ISI Class valves that have been assigned valve categories.
Valves exempt per IWV-1200 are not listed.
The following information is included for each valve:
VALVE NUMBER:
The valve identification numbers.
Two identification numbers are shown for each valve:
the first number utilizes a Plant Identification I
System (PIS) prefix; the second has a Detroit Edison procurement prefix.
In most cases, both identification numbers are shown on the P&ID's.
COORDINATE:
The coordinate location on the P&ID where the valve appears.
CLASS:
The ISI Classification of the valve.
For valves located on lines with no ISI classification, l
An El, E2, E3 or E4 is indicated where the number i
refers to design Class A, B, C or D taken from the P&ID's and the master valve lists.
VALVE CATEGORY:
The category (s) assigned to the valve based on the definitions of IWV-2200.
Four (4) separate categories are defined in the Code:
(
DET-16-0201 3-1 l
P.evision 2
CATEGORY A - valves for which seat leakage is
(
limited to a specific maximum amount in the closed position for fulfillment of their safety function.
CATEGORY B - valves for which a specific amount of leakage in the closed position is not measured but which require stroke testing to verify their ability to fulfill their safety function.
CATEGORY C - valves which are self-actuating in response to some system characteristic, such as
' pressure (relief valves) or flow direction (check valves).
CATEGORY D - valves which are actuated by an energy source capable of only one operation, such as rupture disks or explosive-actuated valves.
VALVE SIZE:
The nominal pipe size of the valve in inches.
VALVE TYPE:
The valve body design as indicated by the following abbreviations:
ANGLE ANG BALL BAL BUTTERFLY BTF CHECK CK EXCESS FLOW CHECK XFC GATE GA GLOBE GL MODULATING CONTROL CV NEEDLE NDL NOTCHED GLOBE NGL PLUG PLG RELIEF RV RUPTURE DIAPHRAGM RPD SAFETY / RELIEF SRV i
DET-16-0201 3-2 Revision 2
SHEAR SH SPECIAL CONTROL ASSEMBLY SCA STOP CHECK SCK 3-WAY 3WY
.n 4-WAY 4WY.
ACTUATOR TYPE:
The type of valve actuator as indicated by the following abbreviations:
AIR OPERATOR AO AIR PILOT OPERATOR AP DIAPHRAGM OPERATOR DO EXPLOSIVE ACTUATOR EXP HYDRAULIC OPERATOR HO MANUAL M
MOTOR OPERATOR MO SELF ACTUATED SA SELF ACTUATED &
SAM MOTOR OPERATED SELF ACTUATED &
SAP PILOT OPERATED SELF ACTUATED, SAS SPRING ASSISTED, CHECK SELF ACTUATED, SAT TESTABLE CHECK SPECIAL CONTROL ASSEMBLY SCA SOLENOID OPERATOR SO SELF ACTUATED, SST SPRING ASSISTED, TESTABLE CHECK MULTIVARIABLE UA l f DET-16-0201 3-3 Revision 2
NORMAL POSITION:
The normal position of the valve I
during plant operation.
This is specified as follows:
tm OPEN O
CLOSED C
FAIL CLOSED FC FAIL OPEN FO KEY LOCKED, FAIL CLOSED KC KEY LOCKED KL LOCKED OPEN LO LOCKED CLOSED LC NORMALLY ENERGIZED NE NORMALLY DE-ENERGIZED ND SYSTEM DEPENDENT S
STROKE DIRECTION:
The direction which an active valve must stroke to perform its safety function.
This is the direction in which the valve will be stroked to satisfy the exercising requirements of IWV-3412 or IWV-3522.
This may be specified as:
C
- Close O
- Open O&C - Open & Close PAS - Passive (This valve does not have to change position to fulfill its safety function)
TEST:
The test (s) that will be performed to fulfill the requirements of Subsection IWV.
The test definitions and abbreviations used are identified in Table 3.1-1.
DET-16-0201 3-4 Revision 2
(
TEST FREQUENCY:
The frequency at which the above mentioned tests will be performed.
Test frequencies are defined in Table 3.1-2.
- -s MAXIMUM STROKE TIME
The limiting value of full stroke time, in seconds, for power operated valves in Category A or B.
MAXIMUM LEAKAGE:
The maximum leakage allowed during the specified leak test.
The abbreviations for the units of measurement are:
C Standard cubic centimeters per minute G
Gallons per minute M
Milliliters per hour W
Inches of water per minute pressure decay RELIEF REQUEST:
The reference to a relief request in
~
Section 3.2 for valve testing that is considered impractical to implement.
Relief requests are also provided to justify valve testing at a frequency other than what is specified in Section XI.
REMARKS:
The remarks column provides comments and Clarification.
i DET-16-0201 3-5 Revision 2 1
yn TABLE 3.1-1 cj y INSERVICE VALVE TESTS
- r. i
).
D[
TEST TEST NAME TEST DESCRIPTION AT-1 Type C Air Leak Test The containment isolation valves on lines which "5
connect directly to containment atmosphere and on lines i
which enter primary containment in the drywell or torus airspace (except lines which terminate below the torus i
minimum water level) will be seat leak tested with air in accordance with Technical Specification requirements and 10CFR50, Appendix J.
The acceptance criteria for this test is defined in Relief Request No. VR-ll.
AT-2 Type C Water Leak Test The containment isolation valves on lines which connect directly to the torus below torus minimum water level and on lines which penetrate the torus in the airspace but terminate below the torus minimum water level will be seat leak tested with water in accordance with Technical Specification requirements and 10CFR50, e
Appendix J.
The acceptance criteria for this test shall be in accordance with Technical Specification requirements (Ref. paragraph 3.6.1.2.d) and is defined in Relief Request No. VR-42.
AT-3 Excess Flow Check Excess flow check valves will be tested in accordance Valve Test with Technical Specification Paragraph 4.6.3.4.
AT-4 Bypass Leakage Valve Bypass leakage valves will be tested to verify that the Leak Test total potential bypass leakage does not exceed 4% of the design primary containment leakage (See Relief Request No. VR-27).
For further information, see the EF2 Safety Evaluation Report (NUREG-0798) Supplement 2, Page 6-2 and Detroit Edison letter EF2-55,512.
AT-5 DELETED AT-6 DELETED AT-7 DELETED
._._24 i
, n TABLE 3.1-1 i
gy INSERVICE VALVE TESTS (continued)
}
i Ma 8 OZ TEST TEST NAME r
TEST DESCRIPTION ne"O AT-8 Purge / Vent Isolation In addition to Type C tests for the purge / vent isolation i
Valve Leak Test valves, leakage integrity tests are required every 92 days by Branch Technical Position CSB 6-4 and the EF2 i
j Safety Evaluation Report (NUREG-0798), Supplement 1, Page 6-3.
For further information, see Relief Request l
No. VR-31 and Technical Specifications Paragraph 4.6.1.8.1.
e i
AT-9 MSIV Leak Test The main steam isolation valves (MSIV) are exempted from Type C tests because EF2 has a pressurized seal system, MSIV Leakage Control (Refer to 10CFR50, Appendix J, Section III.C.3).
The allowable combined leak rate for all four main steam lines shall be in accordance with j
Technical Specification, Ref. Paragraph 3.6.1.2.c.
Y AT-10 Pressure Isolation Pressure isolation valves (PIVs) will receive periodic
{
Valve Leak Test leakage tests in accordance with Technical Specification l
requirements.
For further information, see Relief i
Request Nos. VR-7 and VR-8 and Technical Specification Paragraph 3.4.3.2.d.
'I i
BT Full Stroke Exercise Exercise testing, verified by stroke time measurements, Test (IWV-3412 and will be performed to confirm the full stroke capability I
3413) of each valve.
The stroke direction (s) tested and timed j
will be based on the direction the valve disk must j
travel to fulfill its safety function.
BTE DELETED l
BTP Partial Stroke Exer-Partial stroke exercise tests will be performed, when 2
cise Test (IWV-3412) possible, for valves that cannot be full stroke exer-i cised during normal operation.
a l
l
~
mo TABLE 3.1-1
$y INFERVICE VALVE TESTS (continued) g.
v-l 4
0.e" TEST TEST NAME TEST DESCRIPTION CT-1 Check Valve Exercise Check valves will be exercised full open and/or full
~
Test (IWV-3412) closed depending on the safety function of the valve.
l Verification of accepable system flow through a check valve shall be adequate demonstration that the valve is j
full open.
CT-2 Relief Valve Set Point Relief and safety / relief valve set points will be i
Verification Test verified in accordance with IWV-3510.
(IWV-3510)
DT Rupture Disk and Explosive valves will be tested in accordance with Explosive Valve Test IWV-3610.
Rupture disks will be replaced on a periodic (IWV-3610) cycle in accordance with manufacturer's instructions.
FST Fail-Safe Test All valves with fail-safe actuators will be tested to u,
4 (IWV-3415) verify proper fail-safe operation upon loss of actuator power.
j PIT Posi. tion Indication All valves stroke timed with position indicators will j
Check (IWV-3300) be checked to verify that remote valve indicators accurately reflect valve operation.
l 1,
e 1
4 9
l 4
4
TABLE 3.1-2 yetj y TEST FREOUENCY (1)
O$
TEST OPERATIONAL FREQUENCY g
FREQUENCY CONDITION OF TESTING w
OP Power Operation At least once per 92 days CS Cold Shutdown See (2) Below RR Refueling Reactor refueling is expected to occur every 18 months.
Article IWV-3422 requires leak testing every two years.
SP See applicable See applicable relief request relief request 2Y No operational Every two years (See Article IWV-3300) w condition limitations 4
3Y Refu'eling One valve every three years (See Article IWV-3610)
SY No operational Every five years (See Articles condition limitations IWV-3511 and IWV-3610)
MR No operational Per nianufacturer's recommendation condition limitations (See Article IWV-3620)
(1)
Operational conditions are defined in the EF2 Technical Specifications, Table 1.2.
(2)
Inservice valve testing at cold shutdown is valve testing which commences within two i
hours after the plant reaches a cold shutdown condition but in no case later than 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> af ter cold shutdown is reached.
This testing continues until all valves are tested or the unit is ready for start-up.
Completion of all testing is not a pre-requisite to plant start-up.
Valve testing which is not completed during a cold shutdown shall be completed during subsequent cold shutdowns that may occur before refueling to meet the code specified testing frequency.
In the case of frequent cold l
l
xc TABLE 3.1-2 TEST FREOUENCY (Continued)
}
shutdowns, valve testing need not be performed more of ten than once every three months for Category A, B,
and C valves.
g In the case of longer planned cold shutdowns, the testing need not be started within the 48 hour5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> limitation.
However, in these instances, all valve testing must be completed prior to start-up.
It should be noted that the NRC dif ferentiates, for valve testing purposes, between the cold shutdown mode and the refueling mode.
That is, for valves identified for testing during cold shutdowns, it is expected that the tests will be performed both during cold shutdowns and each refueling outage.
However, when relief is granted to perform tests on a refueling outage frequency, testing is expected only during each refueling outage.
In addition, for extended refueling outages, tests being performed are expected to be maintained as closely as practical to the Code-specified frequencies.
NOTE:
It is expected that the required testing will normally be completed in 96 hours0.00111 days <br />0.0267 hours <br />1.587302e-4 weeks <br />3.6528e-5 months <br /> o
following cold shutdown.
However, completion of all valve testing during cold shutdown is not required if plant operating conditions will not permit the testing of specific valves.
e
i SECTION 3.2 RELIEF REQUESTS FOR INSERVICE VALVE TESTING PROGRAM t
DET-16-0201 3-11 Revision 2
- =..
RELIEF REQUEST NO. VR-1 i
SYSTEM:
MAIN AND REHEAT STEAM and NUCLEAR BOILER i
CO'MPONENT :
B21-F041A (V17-2100)
B21-F041C (V17-2101)
~
B21-F041B (V17-2102)
B21-F041D (V17-2099)
CATEGORY:
B i
FUNCTION:
These valves are blocking valves for the MSIV leakage control system.
They need to close properly to allow the MSIV leakage control system to function properly.
TEST REQUIREMENT:
Exercise and time valves every three months (BT).
I BASIS FOR RELIEF:
Full stroke testing these valves during normal reactor operation requires isolating one of the four main steam lines.
Isolation of these lines results in primary system pressure spikes, reactor power fluctuations, and increased flow in the unisolated steam lines.
This unstable operation can lead to reactor scram.
In addition, pressure transients resulting from stroke i
testing MSIVs increase the chances of actuating primary system safety / relief valves.
It is proposed that full stroke testing be performed at cold shutdowns.
This request also contributes to a reduction of the relief valve challenge rate as recommended in NUREG-0626.
ALTERNATE TESTING:
These valves will be full stroked exercised and timed during cold shutdown.
J
')
DET-16-0201 3-12 Revision 2
RELIEF REQUEST NO. VR-2
{
SYSTEM:
~
- 6MPONENT:
B21-F010A(V8-2008)
B21-F076A(V8-2002)
C B21-F0103(V8-2007)
B21-F076B(V8-2001)
CATEGORY:
A/C FUNCTION:
Valver B21-F010A&B and B21-F076A&B close for containment isolation.
Valve B21-F010A opens for HPCI injection.
l TEST REQUIREMENTS:
Exercise check valve in the close direction every three months (CT-1).
BASIS FOR RELIEF:
These check valves cannot be tested for operability to the closed position during reactor operation because the feedwater system is needed to maintain primary coolant inventory.
If a feedwater isolation valve was closed during operation, the feedwater nozzle and spargers would undergo a savere thermal shock when feedwater was restored.
This thermal shock could cause cracking and possible f ailure of the spargers and nozzles.
Finally, the air operators on the testable check valves cannot close the valves against feedwater flow.
When normal feedwater flow is established, these valves are confirmed open.
1 Although the air operated check valves can be tested l
during cold shutdown, the spring-to-close check valves must be tested during reactor refueling.
There is no l
means of confirming valve position other than during the l
AT-1 test.
li i
l DET-16-0201 3-13 Revision 2 e
RELIEF REQUEST NO. VR-2 (Continued)
(
ALTERNATE TESTING:
The testable check valves (B21-F010A&B) will be exercised closed during cold shutdown.
The non-exercisable, spring-to-close check valves (B21-F076A&B) will be exercised during reactor refueling.
I l
l l
DET-16-0201 3-14 Revision 2 k
RELIEF REQUEST NO. VR-3
(
SYSTEM:
CLOSED COOLING WATER AND EMERGENCY EQUIPMEllT COOLING WATER to COMPONENT:
P44-F601A (V8-2323)
P44-F601B (V8-2314)
P44-F603A (V8-2324)
P44-F603B (V8-2315)
CATEGORY:
B FUNCTION:
These valves must close to isolate the non-safety related Reactor Building Closed Cooling Water (RBCCW) from the safety related Energency Cooling Water (EECW) System.
TEST REQUIREMENT:
Exercise and time valves every three month's (BT).
BASIS FOR RELIEF:
During power operation, the RBCCW system supplies cooling water to components inside the drywell, including the reactor recirculating pumps and motors.
Closing the subject valves would interrupt cooling water flow to the reactor recirculating pump and motor l
bearing.
These valves will not be exercised during normal l
operation because interruption of flow would cause damage to the pump and motor.
ALTERNATE TESTING:
These valves will be exercised and timed during cold shutdown, i
DET-16-0201 3-15 Revision 2
RELIEF REQUEST NO. VR-4 9
SYSTEM:
CLOSED COOLING WATER AND EMERGENCY EQUIPMENT COOLING WATER COMPONENT:
P44-F182 (V8-2429)
P44-F604 (V8-2425)
CATEGORY:
0; P44-F604 (V8-2425) and C; P44-F182 (V8-2429)
FUNCTION:
These valvos must close to isolate the non-safety related, non-seismic piping supplying cooling water to the CRD drive pumps from the EECW system.
TEST REQUIREMENT:
Exercise and time valves every three months (BT).
Exercise check valve in the close direction every three months (CT-1).
BASIS FOR RELIEF:
During power operation the RBCCW system supplies cooling water to the CRD drive pumps.
Closing the subject valves would interrupt cooling water flow to the CRD drive pumps.
These valves will not be exercised during normal operation because interruption of flow would cause damage to the pump.
l ALTERNATE TESTING:
These valves will be exercised and timed during cold shutdown.
l l
DET-16-0201 3-16 Revision 2 t
RELIEF REQUEST NO. VR-5 f.
SYSTEM:
CLOSED COOLING WATER AND EMERGENCY EQUIPMENT COOLING ta s
COMPONENT:
P44-F606A (V8-2486)
P44-F282A(V8-3888)
P44-F606B (V8-2484)
P44-F282B(V8-3887)
P44-F607A (V8-2485)
P44-F615(V8-3889)
P44-F607B (V8-2483)
P44-F616(V8-3890) l CATEGORY:
A/C; P44-F615, P44-F616 and A; all others i
FUNCTION:
These valves are primary containment isolation valves for the four EECW lines.
TEST REQUIREMENT:
Exercise and time valves every three months (BT).
Exorcise check valve in the close direction every three months (CT-1).
BASIS FOR RELIEF,2 During power operation, the RBCCW system supplies cooling water to components inside the drywell, including the reactor recirculating pumps and motors.
Closing the subject valves would interrupt cooling water flow to the reactor recirculating pump and motor bearings.
These valves will not be exercised during normal cperation because interruption of flow would cause damage to the pump and motor.
ALTERNATE TESTING:
These valves will be exercised and timed during cold shutdown except for P44-F282A and B which will be verified to close during the AT-1 test every reactor refueling cycle.
t DET-16-0201 3-17 Revision 2
1 RELIEF REQUEST NO. VR-6
('
SYSTEM:
ALL SYSTEMS i
COMPONENT:
All solenoid operated valves.
CATEGORY:
A and B FUNCTION:
System dependent TEST REQUIREMENT:
Stroke time evaluation per IWV-3413(b).
BASIS FOR RELIEF:
It is impractical to apply the requirements of IWV-3413(b) to valves with very short stroke times (i.e.<
5 seconds).
Solenoid operated valves typically have full stroke times under one second.
For these short stroke time valves, variances of 50 percent or more can occur in the measured times for reasons that are in no way related to valve performance, for example, operator reaction times.
In these specific cases, verifying that the valve's stroke time does not exceed 5 seconds would be sufficient to evaluate valve performance.
i ALTERNATE TESTING:
For solenoid operated valves where position indication is provided, the measured stroke time shall not exceed 5 seconds.
(
DET-16-0201 3-18 Revisicn 2 i
. ~ -, _ _ _
RELIEF REQUEST NO, VR-7 k
SYSTEM:- RESIDUAL HEAT REMOVAL, CORE SPRAY, HIGH PRESSURE COOLANT INJECTION, and REACTOR CORE ISOLATION COOLING COMPONENT:
Ell-F008 (V8-2092)
Ell-F023 (V8-2171)
Ell-F009 (V8-2091)
Ell-F608 (V8-3407)
Ell-F015A (V8-2161)
E21-F005A (V8-2021)
Ell-F015B (V8-2162)
E21-FC05B (V8-2022)
Ell-F022 (V8-2172)
E41-F006 (V8-2194)
E51-F013 (V8-2228)
CATEGORY:
A FUNCTION:
These valves are designated as pressure toolation valves (PIVs).
Pressure isolation valves are defined as valves which isolate the portions of a system designed.for low pressure service from the portions of a system connected to the RCPB which are designed for high pressure service.
For additional information, see NUREG-0677.
TEST REQUIREMENT:
Exercise and time valves during normal operation (BT).
BASIS FOR RELIEF:
According to the EF2 Safety Evaluation Report (SER), page 3-30, inadvertent opening of these valves is prevented by interlocks which require the primary system pressure to be below the secondary system design pressure prior to opening.
The SER also states that the applicant has proposed to full stroke exercise the pressure isolation l
valves at each cold shutdown and not quarterly because t
routinely stroking these valves during power operation would place the plant in a degraded or unsafe condition.
ALTERNATE TESTING:
Exercising and timing tests will be performed i i-during cold shutdown.
DET-16-0201 3-19 Revision 2
RELIEF REQUEST NO. VR-8 k
SYSTEM:
RESIDUAL HEAT REMOVAL, CORE SPRAY, HIGH PRESSURE COOLANT INJECTION, and REACTOR CORE ISOLATION COMPONENTL Ell-F050A (V8-2163)
E21-F006B (V8-2024)
Ell-F050B (V8-2164)
E21-F006A (V8-2023)
CATEGORY:
A/C FUNCTION:
These valves are designated as pressure isolation valves (PIVs).
Pressure isolation valves are defined as valves which isolate the portions of a system designed for low pressure service from the portions of a system connected to the RCPB which are designed for high pressure service.
For sdditional information, see NUREG-0677.
TEST REQUIRSMENT:
Exercise check valves Ell-F050A&B and E21-F006A&B in the open and close direction every three i
I months (CT-1).
BASIS FOR RELIEF:
According to the Safety Evaluation Report (SER), page 3-30, inadvertant opening of these valves is prevented by interlocks which require the primary system pressure to be below the secondary system design pressure prior to opening.
The SER also states that the applicant has proposed to full stroke exercise the pressure isolation valves at each cold shutdown and not quarterly because routinely stroking these valves during power operation would place the plant in a degraded or unsafe condition.
ALTERNATE TESTING:
Check valves Ell-F050A&B and E21-F006A&B will be exercised during cold shutdown.
I i
DET-16-0201 3-20 Revision 2
~
RELIEF REQUEST NO. VR-9 SYSTEM:
NUCLEAR BOILER, REACTOR RECIRCULATION, REACTOR CORE i
ISOLATION COOLING, CORE SPRAY, and HIGH PRESSURE
- ^
COOLANT INJECTION COMPONENT:
Excess flow check valves CATEGORY:
A/C FUNCTION:
Excess flow check valves limit leakage from the RCPB due to instrumentation piping f ailures to 2.5 gpm and perform a containment isolation function.
TpST REQUIREMENT:
Exercise check valve in the close direction every three months (CT-1).
DASIS FOR RELIEF:
Excess flow check valves cannot be exercised without isolating instrumentation downstream of the excess flow check valve.
Isolating instruments during normal operation would produce erroneous instrument readings which could lead to a degraded or unsafe plant condition.
l ALTERNATE CONDITION:
Excess flow check valves will be exercised in the close direction at the end of each refueling outage.
The exercise test and seat leakage test (AT-3) for these valves will be performed simultaneously.
I t
DET-16-0201 3-21 Revision 2
RELIEF REQUEST NO. VR-10
(.
SYSTEM:
HIGH PRESSURE COOLANT INJECTION
~
bOMPONENT:
E41-F045 (v8-2203)
CATEGORY:
C FUNCTION:
This valve is designed to prevent backflow into the suppression pool in the event of pump suction shift from the contaminated condensate storage tank (CCST) to the suppression pool.
The safety related stroke direction of this valve is in the open direction to provide suction flow to the HPCI pump.
TEST REQUIREMENT:
Exercise check valve every three months (CT-1).
BASIS FOR RELIEF:
There is no convenient method for verifying the ability of this valve to swing to the full open position.
The system test circuits utilize the CCST for pump suction rather than the suppression pool.
Taking suction from the suppression pool during testing is undesirable because torus water would be transferred to the condensate storage tank.
Since torus water is not l
demineralized, the entire condensate storage tank inventory would have to be processed af ter the test.
In lieu of the Code required full stroke test, valve operability will be demonstrated by disassembling the valve and verifying that the valve disk swings f reely to the full open position.
Since this valve has no function during normal operation, no wear-induced degradation of l
the valve internals is expected.
Il DET-16-0201 3-22 Revision 2 t
RELIEF REQUEST NO. VR-10 (Continued) k ALTERNATE TESTING:_ Valve disassembly and inspection ~will occur at every refueling outage until sufficient data can be accumulated to adequately monitor valve degradation.
The maximum inspection interval will be determined based on the results of that data.
DET-16-0201 3-23 Revision 2
RELIEF REQUEST NO. VR-ll I,
SYSTEM:
ALL SYSTEMS PENETRATING PRIMARY CONTAINMENT
'C6MPONENT:
Valves subject to ASME Section X1, Category A, Containment Isolation Leakage Tests (AT-1).
CATEGORY:
A and A/C FUNCTION:
The subject valves perform a containment isolation function as defined in 10CFR50, Appendix A, Criterions 55, 56, and 57.
TEST REQUIREMENT:
Measure valve seat leakage and compare the measured leakage to a specific maximum leakage for each valve (IWV-3426).
BASIS FOR RELIEF:
A specific maximum leakage per valve is not applicable to containment isolation valve leakage testing.
As long as the sum of the 10CFR50, Appendix J, Type B and C leakage is less than 0.6La, the requirements of 10CFR50, Appendix J will be satisfied.
ALTERNATE TESTING:
The sum of the 10CFR50, Appendix J, Type B and C leakage shall be less than 0.6La.
DET-16-0201 3-24 Revision 2
RELIEF REQUEST NO. VR-12 SYSTEM:
CONTROL ROD DRIVE COMPONENT:
Cll-ll4 Cll-126 C11-ll5 Cll-127 Cll-ll7 C11-138 C11-118 CATEGORY:- B and C FUNCTION:
For a scram to occur, check valve Cll-ll4 opens, check l
valves _Cll-ll5 and 138 close, diaphragm operated valves Cll-126 and 127 open, and air supply solenoid valves Cll-ll7 and 118 de-energize.
The valves listed above can be found on each CRD hydra'ulic control unit.
There are 185 CRD hydraulic control units',
one for each CRD.
TEST REQUIREMENT:
Exercise and time valves every three months (BT).
Exercise check valves every three months (CT-1).
BASIS FOR RELIEF:
The proper operation of each of these valves is demonstrated during scram testing.
During scram testing, each drive's scram insertion time is measured and a fail-safe actuator test is performed.
The Technical Specifications provide a limit for individual CRD scram insertion times to specific values (Technical Specification paragraphs 3.1.3.3 and 3.1.3.4).
If a particular CRD's scram insertion time is less than the specified limit, the above mentioned valves are functioning properly.
t.
DET-16-0201 3-25 Revision 2 L-
RELIEF REQUEST NO. VR-12 (Continued)
ALTERNATE TESTING:
The f requency of individual scram? insertion tests is:
- 1) 100% of control rod drives following core
^
alterations or af ter a reactor shutdown greater than 120 days with reactor power equal to or less than 40% and 2) 10% of control rods at least once every 120 days of operations, per Technical Specification paragraph 4.1.3.2.
l 9
DET-16-0201 3-26 Revision 2 L
-~-
l RELIEF REQUEST NO. VR-13
(
DELETED i
DET-16-0201 3-27 Revision 2 L
RELIEF REQUEST NO. VR-14 SYSTEM:
NUCLEAR BOILER COMPONENT:
S/RV ADS Valves PIS No DECO No B21-F013R (V22-2048)
B21-F013E (V22-2052)
B21-F013J (V22-2064)
B21-F013H (V22-2058)
B21-F013P (V22-2070)
CATEGORY:
B/C FUNCTION:
The functions of the S/RVs are:
- 1) act as a primary system safety valve which actuates on high system pressure, 2) open upon receipt of an auto depressurization signal to blowdown reactor, and 3) act as a primary system relief valve which can be manually actuated from the Control room.
l TEST REQUIRMENTS:
Exercise and time valves every three months (BT).
BASIS FOR RELIEF:
Relief is requested from the Section XI required testing frequency of once every three months.
These valves will be exercised once every eighteen (18) months as specified in Technical Specification paragraph 4.5.1.d.2.
DET-16-0201 3-28 Revision 2
RELIEF REQUEST NO. VR-14 (Continued) k In addition, relief is requested from the stroke timing requirements of Section XI.
It is impractical to measure stroke times for a S/RV since the stroke times are on the order of 100 mS.
Steam flow measurements and/or turbine bypass valve position will verify that the S/RVs have performed their function in less than or equal to 5 seconds.
Time "zero" for this stroke time measurement l
corresponds to the instant the S/RV hand switch is aligned in the "open" position.
ALTERNATE TESTING:
These valves will be exercised at least once per 18 months when the reactor is operating at sufficient power to bypass a quantity of steam through the turbine bypass valve (s) equal to or greater than the capacity of a S/RV.
Since the turbine bypass valves respond automatically to RPV dome pressure, the actuation of a S/RV will result in rapid closure of the turbine bypass valves.
Conversely, closing the S/RV will be accommodated by rapid opening of the turbine bypass valves.
A change in turbine bypass valve position can be directly j
associated with a certain steam flow rate.
This flow rate would be equal to the quantity of steam discharged by the S/RV.
No stroke time measurements will be performed.
An abrupt change in turbine bypass valve position or steam line flow (per Tech. Spec. 4.5.1.d.2) within 5 seconds will be adequate to demonstrate valve operability.
i i
DET-16-0201 3-29 Revision 2
RELIEF REQUEST NO. VR-15 k
SYSTEM:
NUCLEAR BOILER
~
COMPGNENT:
B21-F022A (V17-2003)
B21-F022B (V17-2001) i B21-F022C (V17-2002)
B21-F022D (V17-2004)
B21-F028A (V17-2007)
B21-F028B (V17-2005)
B21-F028C (V17-2006)
B21-F028D (V17-2008)
CATEGORY:
A and B FUNCTION:
These valves (MSIVs) are the primtry containment isolation valves for the main steam lines.
1 TEST REQUIREMENT:
Exercise and time valves every three months (BT).
BASIS FOR RELIEF:
Full stroke testing these valves during normal reactor operation requires isolating one of the four main steam lines.
Isolation of these lines results in primary system pressure spikes, reactor power fluctuations, and increased flow in the unisolated steam lines.
This unstable operation can lead to a reactor scram, and as discussed in NUREG-0626 pressure transients resulting from full stroke testing MSIVs increase the chances of actuating primary system safety / relief valves.
(
DET-16-0201 3-30 Revision 2
. ~.
i l
(.
RELIEF REQUEST NO. VR-15 (Continued)
It is proposed that only partial stroke testing be performed during power operation and that full stroke
- ^
testing be performed at cold shutdowns.
These valves are provided with the circuitry to permit partial stroking to a 10% closed position.
This partial stroke exercising provides an acceptable means of verifying valve performance during plant operation without affecting safety margins.
This request also contributes to a reduction of the relief valve challenge rate as recommended in NUREG-0626.
ALTERNATE TESTING:
These valves will be part stroke exercised every three months and full stroke exercised during cold shutdown.
i DET-16-0201 3-31 Revision 2
RELIEF REQUEST NO. VR-16
(
SYSTEM:
NUCLEAR BOILER t0MPONENT:
B21-F024A (V4-2097)
B21-F029D (V5-2059)
B21-F024B (V4-2099)
B21-F036A (V4-2101) 821-F024C (V4-2110)
B21-F036B (V4-2102)
B21-F024D (V4-2111)
B21-F036C (V4-2098)
B21-F029A (V5-2056)
B21-F036G (V4-2103)
B21-F029B (V5-2057)
B21-F036E (V4-2100)
B21-F029C (V5-2058)
CATEGORY:
C FUNCTION:
These valves must close upon loss of normal air or nitrogen supply to the S/RV ADS accumulators and the MSIV accumulators.
These valves will open when the safety related control air system starts up af t+r the loss of normal air or nitrogen supply.
TEST REQUIREMENT:
Exercise valves in the open and close direction every three months (CT-1).
?
BASIS FOR RELIEF:. The position of these simple check valves cannot be verified during normal operation or cold shutdown since special testing will be required.
In addition, access to these valves is limited since they are inside the drywell.
ALTERNATE TESTING:
These valves will be exercised during refueling.
f DET-16-0201 3-32 Revision 2
RELIEF REQUEST NO. VR-17 e
(
SYSTEM:. NUCLEAR BOILER COMPONENT:
B21-F037A (V22-2111)
B21-F037J (V22-2102)
B21*F037B (V22-2100)
B21-F037K (V22-2103)
B21-F037C (V22-2101)
B21-F037L (V22-2106) 821-F037D (V22-2104)
B21-F037M (V22-2097)
B21-F037E (V22-2105)
B21-F037N (V22-2108)
B21-F037F (V22-2107)
B21-F037P (V22-2110)
B21-F037G (V22-2079)
B21-F037R (V22-2109)
B21-F037H (V22-2098)
CATEGORY:
C FUNCTION:
During a S/RV discharge, these valves must be closed.
After a S/RV discharge, the steam remaining in the S/RVDL will condense and try to draw a vacuum in the S/RVDL.
These check valves (vacuum breakers) open and admit air to the S/RVDL thus relieving the vacuum condition.
TEST REQUIREMENT:
Exercise check valve in the open and close direction every three months (CT-1).
BASIS FOi' RELIEF:
These check valves have no external means of actuation for exercising.
The only practical method for exercising these valves open and closed is by manually pushing the disk from its seat.
Since this requires access to the valves, which are located in the drywell, the test must be deferred to cold shutdowns if the primary containment is de-inerted.
ALTERNATE TESTING:
These ' check valves will be verified to freely swing to their full open and closed positions during cold shutdowns when the drywell is de-inerted.
(
DET-16-0201 3-33 Revision 2 7
_. _ _.. ~,.
RELIEF REQtIEST NO. VR-18 i'
SYSTEM:
REACTOR RECIRCULATION
. COMPONENT:
B31-F014A (V8-3710)
B31-F016A (V8-3767)
B31-F014B (V8-3590)
B31-F016B (V8-3768)
CATEGORY:
A and B FUNCTION:
The main valves are primary containment isolation valves on the CRD seal water injection lines to the reactor recirculation pumps.
TEST REQUIREMENT:
Exercise and time valves every three months j
(BT).
BASIS FOR RELIEF:
Exercising these valves during normal operation would require isolating the seal water flow to the reactor recirculation pumps.
Isolating the seal water
. flow to these pumps could potentially damage the pump.
ALTERNATE TESTING:
These valves will be exercised and timed during cold shutdown.
l l
DET-16-0201 3-34 Revision 2
RELIEF REQUEST NO. VR-19
(
DELETED l
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DET-16-0201 3-35 Revision 2
RELIEF REQUEST NO. VR-20 SYSTEM:
~
hdMPONENT:
C41-F006 (VR4-2011)
C41-F007 (VR4-2012)
CATEGORY:
A/C FUNCTION:
The safety functions of these check valves are to open upon system injection and to close for containment isolation.
TEST REQUIREMENT:
Exercise valve every three months (CT-1).
BASIS FOR RELIEF:
The air operators on these testable check valves cannot move the valve disk to the full open position with the reactor coolant system at 1000 psig.
ALTERNATE TESTING:
These valves will be exercised during cold shutdown.
i l
DET-16-0201 3-36 Revision 2
RELIEF REQUEST NO. VR-21
(-
SYSTEM:
REACTOR RECIRCULATION ICOMPONENT:
B31-F031A (V8-2203)
B31-F031B (V8-2004)
CATEGORY:
B FUNCTION:
During a reactor recirculation loop pipe break loss of coolant accident, one of these valves will close depending on the location of the pipe break.
LPCI loop selection logic determines which valve must close.
TEST REQUIREMENT:
Exercise and time valves for operability every three months (BT).
BASIS FOR RELIEF:
These valves cannot be full stroke tested during normal operation since isolation of a recirculation loop would cause a recirculation pump trip.
One loop operation is restricted by Technical Specification paragraph 3.4.1.1.a.
ALTERNATE TESTING:
These valves will be full stroke exercised i
during cold shutdown.
(
DET-16-0201 3-37 Revision 2 L
W RELIEF REQUEST NO. VR-22 to DELETED i
l i
DET-16-0201 3-38 Revision 2
=
RELIEF REQUEST NO. VR-23 k.
SYSTEM:
ALL SYSTEMS bSMPONENT:
Valves equipped to fail open or closed.
CATEGORY:
A and B FUNCTION:
Upon loss of electrical power, the valve must stroke to its fail-safe position.
TEST REQUIREMENT:
Solenoid valves which control the air supply to air operated valves and direct solenoid operated valves must stroke to their fail-safe position upon interruption of their electrical supply (FST).
BASIS FOR RELIEF:
De-energizing the solenoid valve has the satae effect as loss of electrical power.
Therefore, stroking the valve from the control room (BT) to its fail-safe position constitutes a Fail-Safe Test (FST).
No additional testing is necessary.
ALTERNATE TESTING:
Normal stroking (BT), to the fail-safe position, of valves equipped to fail open or closed constitutes a Fail-Safe Test.
No additional testing is necessary.
t f
DET-16-0201 3-39 Revision 2
RELIEF REQUEST NO. VR-24
(
SYSTEM:
NUCLEAR BOILER
- DMPONENT:
B21-F022A (V17-2003) 821-F028C (V17-2006)
C B21-F022B (V17-2001)
B21-F028D (V17-2008)
B21-F022C (V17-2002)
B21-F022D (V17-2004)
B21-F028A (V17-2007)
B21-F028B (V17-2005)
CATEGORY:
A FUNCTION:
These valves are the primary containment isolation valves for the main steam lines.
TEST REQUIREMENT:
Measure valve seat leakage and compare the measured leakage to a specific maximum leakage for each valve (IWV-3426),
i l
BASIS FOR RELIEF:
A specific maximum leakage per valve is not i
applicable for the MSIV seat leakage (AT-9) tests.
As long as the combined leakage from the four main steam lines is less than 100 scfh, then the requirements of Technical Specification Paragraph 3.6.1.2.c. are satisfied.
ALTERNATE TESTING:
The combined leakage from all MSIV's shall be less than the maximum allowable combined leakage of 100 scfh.
DET-16-0201 3-40 Revision 2 l
RELIEF REQUEST NO. VR-25 SYSTEM:
NUCLEAR BOILER dOMPONENT:
B21-F003 (V17-2038)
B21-F004 (V17-2039)
CATEGORY:
B FUNCTION:
These valves are used to vent the reactor vessel head and main steam line "A" during startup.
TEST REQUIREMENTS:
Exercise and time valves for operability every three months (BT).
BASIS FOR RELIEF:
Exercising one of these valves during normal operation leaves the other valve as the only barrier between the reactor vessel and the drywell sump.
Any leakage through the closed valve could potentially I
l pressurize the drywell.
This is an unnecessary risk for the sole purpose of testing a valve.
Finally, operating procedures prohibit operation of these valves during power operation.
See Relief Request VR-6 for stroke time information.
l l
ALTERNATE TESTING:
These valves will be full stroke exercised during cold shutdown.
I r
DET-16-0201 3-41 Revision 2 L_
i i
RELIEF REQUEST NO. VR-26
(
DELETED DET-16-0201 3-42 Revision 2
RELIEF REQUEST NO. VR-27 SYSTEM:
NUCLEAR BOILER, SUMP PUMP-RADWASTE, HIGH PRESSURE COOLANT INJECTION, and REACTOR CORE ISOLATION COOLING tb COMPONENT:
Valves subject to ASME Section XI, Category A, Bypass Leakage Tests (AT"4),
B21-F016(V17-2009)
E51-F022(VC-2232) l B21-F019(V17-2010)
E51-F007(V17-2030)
E41-F002(V17-2020)
E51-F008(V17-2031)
E41-F003(V17-2021)
Gil-F003(V9-2005)
E41-F006(V8-2194)
Gil-F004(V9-2044)
E41-F008(V8-2198)
Gil-F018(V9-2022)
E41-F0ll(V8-2200)
Gil-F019(V9-2023)
E41-F600(V17-2088)
CATEGORY:
A and A/C FUNCTION:
The subject valves perform a bypass leakage isolation function.
TEST REQUIREMENT:
Measure valve seat leakage and compare the measured leakage to a specific maximum leakage for each valve (IWV-3426).
l BASIS FOR RELIEF:
A specific maximum leakage per valve is not applicable to bypass leakage isolation valve testing.
As long as the sum of the leakage from all bypass leakage paths is less than 0.04La, the requirements of Branch Technical Position CSB 6-3 will be satisfied.
This position has been reviewed and approved by the NRC I'
DET-16-0201 3-43 Revision 2
i
{,
RELIEF REQUEST NO. VR-27 (Continued) in the EF2 Safety Evaluation Report (NUREG-0798),
Supplement 2, pg, 6-1.
See Technical Specification Paragraph 3.6.1.2.a for the definition of La.
Bypass leakage valves subject to Type C tests (AT-1) need not have an additional bypass leakage test (AT-4) performed.
The results from the Type C test can be used to determine a particular valve's contribution to the total bypass leakage maximum of 0.04La.
ALTERNATE TESTING:
The sum of the leakage from all bypass leakage paths shall be less than 0.04La.
c DET-16-0201 3-44 Revision 2
RELIEF REQUEST NO. VR-28 DELETED i
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l
/
t DET-16-0201 3-45 Revision 2 m
G
(
RELIEF REQUEST NO. VR-29 r,
DELETED O
l DET-16-0201 3-46 Revision 2
{
RELIEF REQUEST NO. VR-30 i
DELETED 9
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DET-16-0201 3-47 Revision 2
RELIEF REQUEST NO. VR-31 k
SYSTEM:
NITROGEN INERTING and STANDSY GAS TREATMENT AND PRIMARY CONTAINMENT PURGE COMPONENT:
Valves subject to ASME Section XI, Category A, Purge and Vent Valve Leakage Test (AT-8).
T46-F400 (VR3-3015)
T48-F408 (V4-2060)
T46-F401 (VR3-3016)
T48-F407 (VR3-3012)
T46-F402 (VR3-3023)
T48-F409 (V4-2061)
T46-F411 (VR3-3026)
T48-F410 (V4-2063)
T46-F412 (VR3-3019)
T48-3F601 (VR3-3011)
T48-F404 (VR3-3013)
T48-3F602 (VR3-3024)
T48-F405 (VR3-3014)
CATEGORY:
A FUNCTION:
The subject valves perform a containment isolation function in the primary containment purge and vent system.
TEST REQUIREMENT:
Measure valve seat leakage every two years (IWV-3422) and compare the measured leakage to a specific maximum leakage for each valve (IWV-3426).
l BASIS FOR RELIEF:
A specific maximum leakage per valve is not applicable to purge and vent valve leakage testing.
The leakage criteria for purge and vent valve leakage testing l
specifies that seat leakage shall not be greater than 1.2 times the previous 10CFR50, Appendix J, Type C (AT-1) containment isolation valve leak test result.
Since the containment isolation valve leakage test does not have a specific maximum leakage per valve (Relief i
l
{
l l
DET-16-0201 3-48 Revision 2
RELIEF REQUEST NO. VR-31 (Continued)
Request No. VR-ll), the specific maximum leakage for an AT-8 test cannot be established until af ter the Type C (AT-1) test has been performed.
This position has been reviewed and approved by the NRC in Supplement 1 of Enrico Fermi's Safety Evaluation Report (NUREG-0798), pg.
6-3.
ALTERNATE TESTING:
Purge and vent valve seat leakage shall not be greater than 1.2 times the previous 10CFR50, Appendix J, Type C containment isolation valvo leakage test result.
The test shall be conducted every 92 days per Technical Specification, Paragraph 4.6.1.8.1.
DET-16-0201 3-49 Revision 2
RELIEF REQUEST NO. VR-32
{
SYSTEM:
CLOSED COOLING WATER AND EMERGENCY EQUIPMENT COOLING WATER s -,
COMPONENT:
P44-F246 (V8-3056)
P44-F274 (V8-2488)
CATEGORY:
C FUNCTION:
These valves isolate the Quality Group D (non-class) penetration cooling jackets and the drywell sump heat exchanger from the balance of the system.
TEST REQUIREMENT:
Exercise valves to the full closed position every quarter (CT-1).
BASIS FOR RELIEF:
Because these valves are non-testable check valves inside primary containment, they can only be
~~
g verified closed by a leak test.
This test can only be performed during reactor refueling.
ALTERNATE TESTING:
These valves will be leak tested during reactor refueling to confirm their close position.
1 i
DET-16-0201 3-50 Revision 2
RELIEF REQUEST NO. VR-33
(
DELETED l
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l DET-16-0201 3-51 Revision 2 E_
RELIEF REQUEST NO. VR-34
(
DELETED l
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t 1
DET-16-0201 3-52 Revision 2 t
RELIEF REQUEST NO. VR-35 N.
SYSTEM:
RESIDUAL HEAT REMOVAL COMPONENT:
Ell-F412(V5-2546)
Ell-F413(V5-2547)
Ell-F414(V5-2548)
Ell-F415(V5-2549)
CATEGORY:
A FUNCTION:
These valves isolate the Reactor Protection System f rom Primary Contaiment Atmosphere.
TEST REQUIREMENT:
Exercise and time valves in the close direction every three months (BT).
BASIS FOR RELIEF:
These valves cannot be full stroke tested during normal operation since isolation of these lines could cause a reactor scram and ECCS initiation.
See Relief Request VR-6 for stroke time information.
ALTERNATE TESTING:
These valves will be full stroke exercised during cold shutdown.
i l
l
?
DET-16-0201 3-53 Revision 2
RELIEF REQUEST NO. VR-36 k
SYSTEM:
SUMP, PUMP - RADWASTE REACTOR CORE ISOLATION COOLING I"
HIGH PRESSURE COOLANT INJECTION REACTOR WATER CLEANUP EMERGENCY EQUIPMENT COOLING WATER j
COM PONENT:
Gil-F018(V9-2022)
P44-F608 (V8-2487)
Gil-F600(V9-2044)
P44-F614 (V8-3058)
E41-F002(V17-2020)
G33-F001(V17-2252)
E51-F007(V17-2030)
CATEGORY:
A and B FUNCTION:
These valve serve as inboard containment isolation valves, EECW drywell sump c$oling and EECW penetration
~'
(
jacket isolation valves.
TEST REQUIREMENT:
Exercise and time valves in the~close direction every three months (BT).
BASIS FOR RELIEP:
These valves cannot be full-stroke tested during normal operation since failure of these valves during exercising at power operation would result in a plant shutdown to correct the problem.
ALTERNATE TESTING:
These valves will be full stroke exercised during cold shutdown.
I DET-16-0201 3-54 Revision 2 l
f s
RELIEF REQUEST NO. VR-37 k_
SYSTEM:
HIGH PRESSURE COOLANT INJECTION i
bOMPONENT:
E41-F076(V11-2015)
E41-F077(V11-2016)
CATEGORY:
C FUNCTION:
These valves function to relieve vacuum in the HPCI turbine exhaust line.
TEST REQUIREMENT:
Check valves will be exercised fully open and fully closed every three months (CT-1).
BASIS FOR RELIEF:
These valves will be exercised during the HPCI pump / turbine performance test.
Based on the present valve configuration, the following indirect means of position verification is being used.
The absence of a vacuum condition in the turbine exhaust line after the turbine has been tripped will confirm that both of these valves have stroked open.
The absence of steam in the torus airspace, as indicated by the containment monitoring system, during the HPCI pump / turbine performance test will confirm that one of the two valves has closed properly.
ALTERNATE TESTING:
Both valves will be confirmed open by the absence of a vacuum in the turbine exhaust line and one of the two valves will be confirmed closed by the absence of steam in the torus air space.
((
l
\\
DET-16-0201 3-55 Revision 2 i
RELIEF REQUEST NO. VR-38 SYSTEM:
TRAVERSING IN-CORE PROBE b'OMPONENT:
CSlJ009 CATEGORY:
A/C FUNCTION:
This valve functions to prevent loss of containment integrity.
TEST REQUIREMENT:
Check valves will be exercised fully open and fully closed every three months.
BASIS FOR RELIEF:
During normal operation the purge system supplies nitrogen to the TIP System to prevent corrosion.
The only method of exercising this valve closed is by Isak testing which can only be performed during reactor refueling.
ALTERNATE TESTING:
This valve will be exercise tested during reactor refueling.
I l
DET-16-0201 3-56 Revision 2
RELIEF REQUEST NO. VR-39
(
SYSTEM:
COMBUSTIBLE GAS CONTROL dOMPONENT:
T48-F001A (FV8-2002)
T48-F001B (FV8-2001)
CATEGORY:
B FUNCTION:
These valves open to allow RHR water to en.tt'r the water-spray cooler in the combustible gas control system and they close to isolate the water-spray cooler from the RHR water supply.
TEST REQUIREMENT:
Exercise and time valves in the open and close directions every three months (BT).
BASIS FOR RELIEF:
These valves automatically open upon initiation of the combustible gas control system.
There is no manual means of stroking these valves.
Therefore, these valves will be exercised and timed during the j
combustible control gas system operability tests, which are performed every six (6) months (Technical Specification paragraph 4.6.6.1).
ALTERNATE TESTING:
These valves will be exercised and timed every six (6) months.
I DET-16-0201 3-57 Revision 2
RELIEF REQUEST NO. VR-40 k
. SYSTEM:
~
C'OM PONENT:
E21-F029A (V8-2053)
E21-F029B (V8-2057)
E21-F030A (V8-2051)
E21-F030B (V8-2055)
CATEGORY:
C FUNCTION:
These check valves prevent back flow into the keep fill system.
TEST REQUIREMENT:
Exercise check valve in the close direction every three months (CT-1).
BASIS FOR RELIEF:
The E21-F029A and E21-F030A valves are placed in series as are the E21-F029B and E21-F030B valves.
There are no taps between these valves and no manual lifting levers to indicate disc position.
The only way to verify valve closure is to check for reverse flow leakage, which will confirm that one out of two valves closed.
The valves are exercised to the open position during the vent and fill portion of the core spray system operatility tests.
ALTERNATE TESTING:
One of the two valves will be confirmed closed by the absence of reverse flow leakage.
I 9
l DET-16-0201 3-58 Revision 2 t
I
RELIEF REQUEST NO. VR-41
(
SYSTEM:
~
- COM PONENT :
Ell-F089 (V8-2179)
Ell-F184 (V8-2491)
Ell-F090 (V8-2180)
Ell-F185 (V8-2492)
CATEGORY:
C 1
FUNCTION:
These check valves prevent back flow into the keep fill system.
TEST REQUIREMENT:
Exercise check valve in the close direction every three months (CT-1).
BASIS FOR RELIEF:
The Ell-F089 and Ell-F090 valves are placed in series as are the Ell-F184 and Ell-F185 valves.
There are no taps between these valves and no manual actuating levers to indicate disc position.
l The only way to verify valve closure is to check for reverse flow leakage, which will confirm that one out of two valves closed.
The valves are exercised to the open position during the vent and fill portion of the residual heat removal system operability tests.
ALTERNATE TESTING:
One of the two valves will be confirmed closed by the absence of reverse flow leakage.
i DET-16-0201 3-59 Revision 2
w RELIEF REQUEST NO. VR-42 SYSTEM:
ALL SYSTEMS PENETR ATING PRIMARY CONTAINMENT EOMPONENT:
Valves subject to ASME Section XI, Category A, Containment Isolation Leakage Water Tests (AT-2).
CATEGORY:
A and A/C FUNCTION:
The subject valves perform a containment isolation function as defined in 10CFR50, Appendix A, Criterion 57.
TEST REQUIREMENT:
Measure valve seat leakage and compare the measured leakage to a specific maximum leakage for each valve (IWV-3426).
BASIS FOR RELIEF:
A specific maximum leakage per valve is not applicable to containment isolation valve water leakage testing.
As long as the sum of the water leakage is less than 5 gpm the requirements of Technical Specification Paragraph 3.6.1.2.d. will be satisfied.
ALTERNATE TESTING:
The sum of the water leakage from. containment isolation valves shall be less than 5 gpm.
DET-16-0201 3-60 Revision 2
.__ _ _m.__ _._ -. _.
__-__.._x t 'm SECTION 3.3 INSERVICE VALVE TESTING PROGR.W
/
k DET-16-0201 3-61 Revision 2
TABLE 3.3-1 k,
=
a LIST OF SYSTEMS INCLUDED IN FERMI UNIT 2 t r>
VALVE PROGRAM LISTING REFERENCE SYSTEM P&ID REV.
PAGE Index & Legend of Abbreviations 6M721-2000 C
NA Legend of Symbols & Instrument 6M721-2001 E
NA Identification for Plant System Diagram Traversing In-Core Probe System 6I721-2145-66 A
1 Post Accident Sampling 61721-2400-10 0
2 Primary. Containment Mor.itoring 61721-2679-1 G
4 System Main and Reheat Steam Systems 6M721-2002 0
7 Station and Control Air System 6M721-2015 N
8 Feedwater System 6M721-2023 N
9 Sump Pump - Radwaste System 6M721-2032 R
10 Core Spray System 6M721-2034 N
11
~
High Pressure Coolant Injection 6M721-2035 N
14 System High Pressure Cool.
6 Injection 6M721-2043 H
17 System (Barometric,
. denser)
Reactor Core Isolation Cooling 6M721-2044 M
'f8~
System I
a DET-16-0201 3-62 Revision 2 L
- =.... -.. _ ~..
TABLE 3.3-1 (continued)
(
LIST OF SYSTEMS INCLUDED IN FERMI UNIT 2 VALVE PROGRAM LISTING
'I' REFERENCE SYSTEM P&ID REV.
PAGE 1
Reactor Core Isolation Cooling 6M721-2045 J
20 (Barometric Condenser)
Reactor Water Clean-Up 6M721-2046 M
21 Fuel Pool Cooling & Clean-Up 6M721-2048 G
22 System Control Rod Drive Hydraulic 6M721-2081 K
23 System Stand-By Liquid Control System 6M721-2082 M
25 Division II Residual Heat Removal -
29 Division I Station Air Risers 6M721-2085 E
32 Combustible Gas Control System 6M721-2087 E
33 Nuclear Boiler System 6M721-2089 I
35 Nuclear' Boiler System 6M721-2090 F
__43 (Instrumentation)
Demineralized Service Water 6M721-2679 0
46 Risers Reactor Building & Auxiliary 6M721-2707 D
47 Building Ventilation System Reactor Recirculation System 6M721-2833 H
48 Main Steam Isolation Valve 6M721-3045 E
51 Leakage Control System Nitrogen Inerting System 6M721-3445 H
52 Torus Water Management System 6M721-4100 H
56 i
l DET-16-0201 3-63 Revision 2
~
TABLE 3.3-1 (continued) k' LIST OF SYSTEMS INCLUDED IN FERMI UNIT 2 VAL M ING Ib REFERENCE
{
SYSTEM P&ID REV.
PAGE Water Side Control Center A/C 6M721-4325 I
57 Interruptible and Non-6M721-4615 B
58 Interruptible Control Air Primary Containment Pneumatic 6M721-5007 B
59 Supply System Emergency Equipment Cooling 6M721-5357 A
60 kater - Division II
!;mergency Equipment Cooling 6M721-5444 A
62 Water - Division I Control Rod Drive Hydraulic 6M721-5449 0
54 System - Part 2 Diesel Generator System 6M721N-2046 M
61_
Division I - R.H.R. Complex Diesel Generator System -
66 Division II - R.H.R. Complex Diesel Fusl Oil System & Lube 6M721N-2048 S
67 Oil System - Division I -
R.H.R. Complex Diesel Fuel Oil System & Lube 6M721N-2049 T
68 Oil System - Division II -
R.H.R.
Complex R.H.R. - Service Water System -
69 Division I - R.H.R. Complex R.H.R.
- Service Water System -
70 Division II - R.H.R. Complex Service Water, Make-Up, De ca r.t,
71
& Overflow Systems Standby Gas Treatment and 7M721-2709 F
72' Primary Containment Purge i
System DET-16-0201 3-64 Revision 2
~.
n j
f INSERVIE TESTING PROGlWI PREP M B Bf 8 IRHEEN TE KIR0li EDISON ISI CLASS 1 2, 3, AhJ EI RWS 4(NWir ElmICO FERMI ATOMIC POER PLANT L9ili 2 J
I 1
i P&lB 61721-2145-66 PAE :
I f
SYSTEM TRMEE:lE IIKolE PROIE EVISION: 2. 08/05/83 j
MAI!!UI R VE RVE RVE RVE ACTimitR IGNL STR0re TEST STROKE MIlftM RELIEF l
IH9ER ColRDIMTE CLASS CATEGIRY SIZE TYPE TYPE POSITI0lt DIRECTION TEST FREDEICY TIME _ LEAL't0E K0EST EMRS C51-J004A E2 A
BAL S0 C
C AT-1 RR m
VR-il IBALL I
BT CP 5
VR-6 PIT 2Y C51-J0044 E2 0
SH EIP 0
C DT 5Y ISEAR I
BAL SO C
C AT-1 RR E
VR-Il C51-J004B E2 A
(BALL
)
BT OP 5
VR-6 i
PIT 2Y l
C51-J0048 E2 0
DI EIP O
C DT SY (SEAR
)
}'
C51-J004C E2 A
BAL S0 C
C AT-1 RR M
VR-Il i
Itu.L
)
BT OP 5
VR-6 l
PIT 2Y C51-J004C E2 0
SH EIP O
C DT 5Y i
(SEAR I
C51-J004D E2 A
BAL SO C
C AT-1 RR NA VR-il (BALL I
BT OP 5
VR-6 PIT 2Y C51-J0040 E2 D
SH EIP 0
C DT 5Y (SEAR 3
1 C51-J004E E2 A
BAL S0 C
C AT-1 RR M
VR-il (BALL 1
BT OP 5
VR-6 PIT 2Y C51-J004E E2 D
SH EIP O
C DT SY ISEAR
)
C51-J009 E2 A/C
.38 OK SA S
C AT-1 RR NA VR-Il (CECK
)
CT-1 RR VR-38
m O
INSERVICE TESTING FR00 RAM PEPMB BY WTEDI TE ETRolf EDISM ISI CUtSS 1. 2. 3. AM EI MVES COPPANY EMICO FDIMI ATOMIC FOLER F1MT HIIT 2 PLID 61721-2400-10 PACE 2
SYSTDI : POST ACCIDDIT SAPPLil:3 EVISION : 2, 68/05/83 MIlltpl M vE M VE VALVE KYE ACTUATGt NOltlAL STIIOKE TEST STROKE MIIIRBI IELIEF MfEIER C0(51DIMTE (1 ASS CATE0 gly SIZE TYPE TYFE POSITIGl DIECTI(pl TEST FE0lEEY TIE LEAKAGE E0lEST lEIWWItS
- = = = = = = = = = = = = = = = = = = = = = = = =
=== -
- = = - = = = = = = = = = = = = = =
P34-F401A E-6 i
A
.75 GL S0 C
C AT-1 IIR M
VR-il (V13-7360 i BT OP 5
VR-6 PIT 2Y P34-F4018 D-6 1
A
.75 G.
S0 C
C AT-1 IIR M
VR-il (V13-7361 i BT OP 5
VR-6 PII 2Y P34f402A C-6 2
8
.75 OL S0 C
C BT OP 5
VR-6 (V13-7362 1 PIT 2Y P34-F4029 B-6 2
B
.75 G.
SO C
C BT OP 5
VR-6 (V13-7363 i PIT 2Y P34-F4034 E-4 E2 A
.75 GL S0 C
C AT-1 RR M
VR-il (V13-7364 i BT OP 5
VR-6 PIT 2Y P34-F40T, E-4 E2 A
.75 01.
SO C
C AT-1 IIR M
VR-il (V13-7365 1 BT OP 5
VR-6 PIT 2Y P34-F404A E-3 E2 A
.75 G.
S0 C
C AT-1 IIR M
VR-il (V13-7374 )
BT OP 5
VR-6 Pli 2Y P34-F404B E-3 E2 A
.75 GL S0 C
C AT-1 RR M
M-Il (V13-7375 i BT OP 5
VR-6 PIT 2Y P34-F405A D-4 E2 A
.75 CL S0 C
C AT-1 RR M
VR-il (V13-7366 i BT OP 5
VR-6 PIT 2Y P34-F405B D-3 E2 A
.75 GL 00 C
C AT-1 m
M VR-il (V13-7367 i BT CP 5
VR-6 Pli 2Y
v n.
e IllSulVIE TESTilEl Pil00RAf!
PflEPMD N BRITEDI T E ETR0!I EDISGI ISI CUISS 1. 2. 3. Als EI VAINES COIRUN EMtICO FERMI ATOMIC POER FtANT LUIT 2
~
I41D : 61721-2400-10 PAGE : 3 SYSTI.M : ftlST ACCIIDif SMLING llEVISIGl : 2 08/05/83 ltA!IltM
%^1VC R VE R VE R VE ACTUATWt N0lllVIL STROE TEST Stil0KE MIlltM IELIEF FAGUI C00RDIETE CU!SS CATEGGlY SIZE TYPE TYPE POSITI0ll DIllECTION TEST FEQUENCY TIE LEFAGE EREST IBIRS
-===== --------================== ----
P34-F406A D-3 E2 A
.75 GL S0 C
C AT-1 FR E
VR-11 IV13-7376 )
BT 0F 5
W-6 PIT 2Y P344406B C-3 E2 A
.75 G.
S0 C
C AT-1 RR E
VR-il (V13-7377)
BT OP 5
Vit-6 i
FIT 2Y P344407 C-3 2
A
.75 E
$0 C
C AT-2 lut M
W-42 (V13-7368 )
BT GP 5
VR-6 4
Pli 2Y P34f408 9-3 2
A
.75 E.
$0 C
C AT-1 IIR m
VR-6 PIT 2Y P34f439 C-4 2
A
.75 G.
SO C
C AT-2 IIR M
VR-42 (V13-7378 )
BT OP 5
VR-6 FIT 2Y P34-F410 B-3 2
A
.75 Q.
S0 C
C AT-1 RR E
W-II (V13-7379 )
VR-6 i
a FIT 2Y j
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I i
J j
i
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L 1
i
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C liGNICE TECTING FROCM PREPARED BY : MEDI TIE Dalloti EDISGI ISI CLASS 1. 2 3. ABE) EI RES CCirAW EielCO FERiil ATOMIC POER PLANT Lilli 2 P&lD 61721-2679-1 PAGE : 4 SYSTEM : PRIllRRY CSITAlifElff IDilitRIM E VISION : 2. 08/05/83 MIlltM RW RW MW MVE ACTilATIR IDHIL STIMEE TEST STROKE MIlltM IEl.IEF IMWt COWIBIMTE Q. ASS CATE05tf SIZE TYPE TYPE POSITION DIilECTI0ff TEST FRE0lDCY TIE LEAKAGE flEGLEST REMIES
- = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = -
= = = = = = = = = = = = = = = = = - -
= = = = = - - - - = = = = = = =
i E41-F400 B-3 E2 A
GL SO O
C AT-1 RR M
VR-il i
(V5-2550 )
BT OP 5
VR-6 l>
Pli 2Y t
01.
SO O
C AT-2 RR M
VR-42 E41-F401 B-3 E2 A
(t3-2551 )
BT OP 5
VR-6 Pli 2Y E41-F402 C-3 E2 A
G.
SO O
C AT-1 RR la VR-il (V5-2552 )
BT OP 5
VR-6 FIT OY E41-F403 B-3 E2 A
G.
SO O
C AT-2 RR M
VR-42 (V5-2553 )
BT OP 5
VR-6 PIT 2Y 1
BAL A0 CEC C
AT-1 IIR 11 4 VR-il 150-F401A F-2 E2 A
(V5-2151 )
BT OP FST OP VR-23 Pli 2Y t
BAL A0 CEC C
AT-1 IIR NA VR-il T50-F401B F-3 E2 A
IV5-2159 )
BT OP FST OP VR-23 FIT 2Y I
T50-F402A F-2 E2 A
DAL A0 CXC C
AT-1 12 la VR-il (V5-2152 )
BT OP FST OP VR-23 Pli 2Y 150-F402B F-0 E2 A
BAL A0 CXC C
AT-1 KR la VR-II (V5-2160 1 BT OP FST CP VR-23 PIT 2Y T50 F40'M F-2 E2 A
AT-1 RR Im VR-il (V5-2150 1 BT OP FST OP VR-23 Pli 2Y
v
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INSEllVIE TESTIIIG PR00Mll llE ENDIT EBISWI PREPMED BY IllTECH ISI (1 ASS 1. 2. 3. Als EI KYES CSElgly ElRICO FElBil ATORIC poler PUNT IMIT 2 PASE : 5 PnID 61721-2679-1 lEVISI0ll 2
08/05/83 SYSTEM PRIMRY CONTAIISElliIDitTORING MIIMUN RVE KVE R VE VALVE ACitMTOR IGML STROKE TEST STR0lI MIllHI IELIEF IUZG COORD!! ATE CLASS CATEGORY SIZE TYPE TYPE POSITION DIRECTION TEST F1E0VENCY Tite LEf4EE IEQUEST IEMit:S
,,o
_.._.__,=mm,
_=_m_.,
,=m o
ou__ =
==,__u
,=u,,
,,mm_
m ___....,=.____......
150-F4038 F-3 E2 A
BAL A0 C/FC C
AT-1 RR M
VR-!!
BT OP (V5-2161 i FST OP VR-23 PIT 2Y BAL AC C/FC C
AT-!
RR M
VR-il T50 F;04A F-2 E2 A
BT UP (V5-2154 )
FST OP VR-23 PIT 2Y BAL A0 C/FC C
AT-1 IIR m
tR-il T50-F404B F-3 E2 A
BT OP (V5-2162 )
FST 6P W-23 PIT 2Y BAL A0 C/FC C
AT-1 IIR m
W-il 150-F4054 E-2 E2 A
BT SP (V5-2155 )
FST UP
%R-23 Pli 2V T50-F405B E-3 E2 A
BAL A0 C/FC C
AT-1 flR M
VR-II BT OP (Ta-2163 )
FST OP VR-23 FIT 2Y T50-F404A E-2 E2 A
Et1 A0 C/FC C
AT-1 RR ta VR-il BT DP (VS-2155 )
FST OP VR-23 Pli 2Y 150-F4068 E-3 E2 A
BAL A0 C/FC C
AT-1 RR IM VR-!!
BT OP (V5-2164 )
FOT CP VR-20 PIT 2Y 150-F407A L-2 E2 A
EAL A3 C/FC C
AT-1 RR G
1,n !!
BT OP (V5-2157 )
r l
INCERVIE TESTING PR00MM ITEPATED BY 8 IRITECH TIE ETROIT EDI9IN ISI CLASS 1. 2. 3. Als EX VALVES ColMlf EMICO FEllMI ATOMIC POWER FLANT (911T 2 j
T U D : ?!721-2477 1 PAGE : 6
_, _,SgTEM : FTilTARY CGITAllKNT MONITOR!!C REVISION: 2. 08/05/83
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PAIlr1Url M "E VALVE VALVE VALVE ACRQTOR NORML STri3I TEST STROI Pt.Iltitt RELIEF IUSER COWIDIMTE CLASS CATEGGtY SilE TYPE TYPE POSITION DIREC110N TEST FREQ'ETCY TirI LE?sACE FIGtIEST rir1 ARKS
- - - = = = = = = = = = =
- - - - - = = = = = = = = = = = = =
======:------- - - - - - = = = = = = = = = = = = = = = - - - - - - = = = = = = = = = = =
T50-F4078 D-4 E2 A
BAL A0 C/FC C
AT-1 RR flA VR-!!
(V5-2165 )
BT OP FST OF VR-23 FIT 2Y T50 F403A D-2 E2 A
DAL A3 C/TC C
AT-1 FR I;A VR 11
( & 2153 )
BT OP FOT OP VR-23 Pli 2Y T50 F4005 D4 E2 A
DAL A3 C/TC C
AT-1 RR M
VR-il (V5-21*, 1 BT OP FST OP VR-23 FIT 2Y T50-F412A C-3 E2 A
GL SO O
C AT-2 IIR M
Vit-42 (V5-2555 )
BT OP 5
VR-6 PIT 2Y 1
T50-F4123 C-3 E2 A
G.
SO O
C AT-2 lut M
VR-42 (V5-2556 )
BT CP 5
VR-4 PIT 2Y T50-F420A E-2 E2 A
BAL A0 0
C AT-1 IIR M
VR-Il IV5-2230 )
BT OP FST OP VR-23 PIT 2Y T50-r420B E-3 E2 A
DAL A3 0
C AT-1 m
la VR-!!
IVS 2:31 1 LT 07 FOT OP VR 23 FIT 2Y i
l t
\\
.y DCERVI E TESTUC PR00R21 FTSED 3Y IUTEul TE ETK0li EDISON 101 CU!SS 1 2. 3. E EI RVES COlFANY CEICO FEF311 ATOMIC FOLUt Ft#.'T UNIT 2 T&lD : #1721-2002 FAE : 7 C'.",TDI : t%IN #1D REEAT STEM MVISIM 2. 08/05/83 MIlltfl R VE RE R VE R E ACTUATWt IDWt.
STIEBlE TEST STIERE MIlltfl IELIEF MAGER C00RDIMTE CLASS CATEGORY SIZE TYPE TYPE POSITIOli DIECTIM TEST FEGLEEY TIE LEAKAGE E0 TEST IEIIURS
-_-=
==,,_,,.
=,
.m
.=
821-F041A D-5 2
B 24 GA M
0 C
BT CS W-1 (Vl7-2100 )
PIT 2V B21-F0418 s-5 2
8 24 04 IE) 0 C
BT CS R-1 (Vl7-2102 )
PIT 2Y B21-F04tC D-5 2
B 24 OA M
0 C
BT CS VR-1 (V17-2101 1 Pli 2Y B21-F041D D-5 2
B 24 UA M0 O
C BT CS VR-1 (VI;-2079 )
PIT 2Y
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p
,+
-)
==...__..
_ _ _.... _ _ _...... =
I:tETNICC TESTI:10 TROC0AI FTIPf4ED BY : RJiECH TIC LETROIT ECISGI 101 CLAOS 1. 2. 3. AND EI VMS CrrA!Y DGICO TErJ11 ATCMIC COLIC TUJ4T l%11T 2 FLID : ?,lT/21 20!$
PA00 : 8 OY Tat : OTAil0N AIS CONTROL AIR S'.";TUI REVISION : 2 08/05/83 t
NAtlitfl VM VALVE R VE VALVE ACTUATOR IGNE.
STROFE TEST STil0KE NAtlitM IELIEF It#CER J00l31NATE (1 ASS CATE00RY SIZE TYFE TYFE POSIT 10ll DIllECTION TEST FIEGLEIEY TIIE LEAKAGE lEIREST IElWW:S
.. - - - - - - = = = = = = = = = = = = = = = = = = = = = = = = = -
- = =
==
= = = = = = - = = = = = = = - - - - -
F50-F2077.
A-10 E4 C
.75 RV SA C
NA CT-2 5Y (V22-2551 1 P50-F2078 A-8 E4 C
.75 RV SA C
NA CT-2 SV (V22-2560 i P50-F2004 C-10 E3 C
3 (X
SA S
0 CT-1 (F
(V5-2537 1 P50-F2088 C-7 E3 C
3 CK SA S
0 CT-1 GP (V5-2536 i P50-F219A D-12 E3 C
3 CK SA S
0 CT-1 OP (V5-2523 1
_ - - =
050 T217B C-11 E3 C
3 CK CA S
0 CT-1 OP
('r:2527 1 F50 r:20A E-12 E3 C
R'1 SA C
NA Ci-2 SY (C-2517 )
i F50-F20~,B E-10 E3 C
P','
CA C
('.'22-251!, 1 050 i402 D-7 E3 D
3 CL A0 0/TC C
DT CP
(5 2523 )
F0T CP VR-23 FIT 2Y F50 f440 C0 E3 B
3 OA A0 0/FC C
BT OP (V; 2040 1 FST CP VR-23 PIT 2Y F50-f441 D-C E3 D
3 CA A0 0/FC C
BT OP (V5-2541 1 FST (P
VR-23 PIT 2Y
-=
~
4
.4 4
I IllSERVIE TESTilm PIIDIRM ITEPAllED BY Isf!EDI IIE E1110tf EBISWI ISI (1 ASS 1. 2. 3. Als EI RVES ColFfulf EMtICO FElifil AittlIC POIER PLANT testi 2 ItID Of721-2023 PA(E 9
SYSTDI FEEDWATER LEVIS 10ll : 2. 08/05/83 t
flRI!!Of VALVE VALVE VALVE VAL W ACTUATOR ICRMAL STROKE TEST STR01;E flAIlltM IELIEF i
IA2IIR COGRD!l&TE CLASS CATEGORY SIZE TYPE T)TE POSITIGl DIRECTION TEST FRE0lCNCY Tite LEAL. AGE E C E ST REICilkS
..........,__,.___.om
=,,,_ _, _
.....__..___..__m=,
B21-1 A/C 1
ETC SA 0
C AT-3 RR 2.5 G i
(V13-2392 )
CT-1 RR W-9 B21-1 A/C 1
ETC SA 0
C AT-0 RR 2.50 (V13-2393 I CT-1 TR VR-9 B21-F010A D ~l 1
A/C 20 m
SAT S
Ott AT-1 RR la VR-11 (V12-2000 1 CT-1 00 VR-2 i
PIT 27 02: T010C D2 1
A/C 20 E
0AT 0
C AT 1 rR I;A VR-11 (V12 2007 )
CT-1 CS VR-2 PIT 2Y B21-TG7ta D2 1
A/C 20 m
SAS S
C AT-1 RR IM VR-il (V12-2002 )
CT-1 RR VR-2 FIT 2Y B21-TC76D D2 1
A/C 20 m
SAS S
C AT-1 IIR NR VR-it IV12-2001 1 CT-1 RR VR-2 PIT 2Y 4
4
y a
J FREFfillED BY IllTECH ISI CLASS 1 2 3. AIEl EI VIUES M E W IT B1511 i
ElstlC0 FERMI ATMC POER PulliT LMIT 2 CIBMit FtID D:721-2032 S73TDI : SUlt' PtW-RADUASTE FACE : 10 4
IEVISION : 2. 06/05/83 VALW V;1VC vfl W VALVE ACitit.TO:'. TUT /L STT.0 'E TEST STP0iI PAllitM llELIEF ilAII*J1 EtroCR C00r.DilaiE CUGS CATECORY SIZE TYPE T.TE
...'.._. m _....r0SITIO: DITICT 31 TEST FEQlDCY TII LEA:!/.C REOLEST IErJJIKS
____..____._,mm um
,m,=,,
._ __. mm,m _ _ _ _.., ;,.., mmm.........
,m u m m m Gil-F003 B-4 E2 A
3 C4 A3 C
C AT-1 RR
!Q 1
M-2005 I AT T2 W-27 LT 0?
15 TST GP VR-23 FIT 27 C11 FC:0 T-4 C
A 0
CA l10 0
C AT-1 m
IC W-11 M-2022 I t.T-4 RR la VR-27 LT CS 15 W-36 r!T 2Y 011 r019 T-4 C
A 3
CA A0 C
C AT-1 RR R
VR-Il M-A'": 1 AT-4 RR R
VR-27 BT OP 15 FST (P
W 23 PIT 2Y Gil-r600 B-3 E2 A
3 CA HD 0
C AT-1 lut m
tR-II (V9-2044 i AT-4 lut M
Vit-27 BT CS 15 Vlt-36 Pli 2Y I
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1, w w.,
= -.....
Cl-F0003 D9 2
C 12 0'
OA S
O'C CT-1 OP (V3-2010 1 Cl r00)C T-7 C
12 0'
SA S
OLC CT-1 (P
...._- 2017 1 (VO C21-r0030 D !!
2 C
12 CK SA S
OLC CT-1 GP
('.C-2016 )
Cl-F004A E-5 2
B 12 GA le 0
0 ST OP (V3-2019 I PIT 2Y E21-F004B C-5 2
B 12 CA fl0 0
0 BT OP
('.0-1020 1 Pli 2Y Cl T005A C5 1
A 12 CA I:0 0
0'.C AT-1 RR
!M VR-!!
i (VO-2021 1 AT 10 I,n 1.0 C BT CO 12 T.-7 FIT 2Y C1-T0000 04 1
A 12 Ct.
!!O C
CLC AT-1 C::
VR !!
!'i>2022 3 AT-10 r"
- 0G CT CO 12
' 71 7 TIT IV Cl r00:1.
D0 1
A/C 12 0'
OAT 0
OLC AT-1 r,R im Vit-!!
('/0 20'O 1 AT-10 RR I.0 0 2
CT-1 CS VR-8 PIT 2Y Cl-0000B C ':
1 AIC 12 CK SAT S
06C AT-1 lut 11 4 VR-il
('.0-2024 )
AT-10 flR 1.0 0 CT-1 CS VR4 PIT 2Y J
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STROIE TEST STil0BlE IIRE!!RIl IELIEF 4
CDWIDill4T
__.E_CU__ISS CATEGWif, SIZE,,,,, TYPE,,,, TYPE ___ POSITIM DillECTI0lt TEST FRE0tEEEY
_,,,EAl: AGE IIEEEST IEMIBlS Tit
,,,_E L
,m,
,=,m
=,
6 l
DI-F011A E-7 2
A/C 2
RV SA C
Olc AT-2 lift M
Vit-42 l
2 (V22-2120 1 CT-2 SY l
1 J
i Dif0llB C-7 2
A/C 2
RV SA C
084 AT-2 lift M
Vit-42 l
IV22-2119 i CT-2 5Y i
J E21-F012A E-7 2
A/C 2
RV SA C
OtC AT-2 lut NA VR-42 1
(V22 2016 1 CT-2 SY E21-F012B B-3 2
A/C 2
RV SA C
Ott AT-2 IIR la Vit-42 i
l (V22-2017 I CT-2 5Y
{
i E21f015A T-5 2
A 10 E.
fB C
C AT-2 lut im VR-42
{
IV3-2033 I N
F 150 j
PIT 2Y l
E2tf015B D-5 2
A 10 E.
le C
C Ar-2 IR Im Wl-42 (VB-2034 I N
150 PIT 2Y i
Dl-F02M H
E2 C
3 K
SA S
C CT-1 F
VING l
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Li E214029B H
E2 C
3 m
SA S
C CT-1 F
tit-40 l
(V9 2057 3 1
)
E21f030A H
2 C
3 m
SA S
C CT-1 WHO 1
(V8-2051 )
i l
E21-F0300 H
2 C
3 K
SA S
C CT-1 F
Vit-40 (V8-2055 1 E214031A H-6 2
A 3
CA IID 0
Olc AT-2 IIt Im W-42 (V3-2031 i BT OP 15 FIT 2Y E214031B F-8 2
A 3
CA fl0 0
OLC AT-2 13t
!!A VR-42 (V3-2032 i BT CP 15 PIT 2Y t
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VKVE RVE RVE EVE ACitmTOR IGNIL STIO5 TEST STROKE IInItilft MI.IEF It29ER CON:DINATE CLAS0 CATEGORY SIZE TYE TYPE POSITI0lt DilECTIolf TEST FIEGLBCY TIfE LEMAW: IEIREST IElWEB
= = - - -. - ========_:======-------========================
- = = = = = = = = - - - - - - - - - - - -
E21-F032A J-?
2 A/C 1
RV SA C
OIC AT-2 IIR m
W-42
]
(V22-2019 i CT-2 5Y E21-F0328 J-10 2
A/C 1
RV SA C
OSC AT-2 lut M
W-42 (V22-2004 )
CT-2 5Y E21-F0364 (V8-2007 )
~K-4 2
A 20 CA Im 0/13.
C AT-2 lut im m-42 BT UP 50 PIT 2Y Cl-F005B L-4 2
A 20 GA fl0 0/KL C
AT-2 IIR ta VR-42 i
(VB-2006 )
BT OP 50 i
FIT 2Y i
E21-F0384 F-6 2
C 3
CK SA S
Obc CT-1 OP (V8-2044 I I
E21-F0388 E-9 2
C 3
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INSERVICE TESTING PROIRM PEP M B SY : It#EDI TE ETRDIT EDISWI ISI CLASS 1. 2. 3. A W EI R VES ColHINY ElftICO FEMI ATOMIC POER PLANT LMIT 2 1
PnID W121-2035 PAGE : 14 i
SYSTEM HI9t PRESSt#E C00UBIT IIECTINI flEVISION : 2 08/05/83 I
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l (V22-2033I CT-2 5Y Elif0308 16 9 2
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OIC AT-2 lut im Vll-42 l
IV22-2037 i CT-2 5Y Ell 40300 ft-11 2
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B 24 E
19 0
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A/C 24 m
SAT S
Olc AT-1 lut im Vit-il (V8-2164 i AT-10 lut 1.0 6 CT-1 CS Vit-g Plf-2Y
INSERVICE TESTING PROGWI PEPAfED BY t WTECH TE IETROlt DIStBI 151 (1 ASS 1. 2 3. A2 EI VALVES COPPANY 00t100 FERMI ATOMIC POWER PLANT LIMIT 2 i
i P&lD I 6H721-2003 PAGE 28 SYSTEM I ESIMs. EAT REMOYAL EVISION I 2. 08/05/93 MAXIMLM VALVE VALVE VALVE VALE ACTUATOR WRMAL STREE TEST STROKE MAllitM E LIEF NUMKR COORDINATE CUtSS CATE0 m Y SIZE TYPE TYFE POSITIM DIRECTION TEST FREQUENCY TIE LENAGE E0 TEST IEMARKS
==
====
Ell-F073 K-4 3
B 12 GA M0 C/KL C
BT OP
[
(V15-2015 )
FIT 2Y Ell-F078 E-4 2
C 12 CK SAT S
C CT-1 0F I
(V15-2017 1 PIT 2Y Ell-F079B H-3 2
B
.75 GL A0 C
C ET OP (V8-3193 )
FIT 2Y Ell-F089 B-9 E2 C
4 CK SA S
C CT-1 OP VR-41 (V3-2179 )
Ell-F090 B-9 2
C 4
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C CT-1 OP VR-41 (V8-2180 )
l Ell-F412 E-9 E2 A
I G.
SO O
C AT-1 RR NA VR-!!
i (V5-2546 )
BT CS 5
VR-35 FIT 2Y t
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i E l-F001A J-8 2
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60 PIT 2Y Filf0064 J-4 2
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B 24 G.
M0 O
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0 CT-1 CP l
(V15-2021 )
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12 OA 19 C
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8 INSDIVIE TESTIE PROGRAM PflEP M B BY : M ECH TE DETR0lT EDIS0ll ISI CLASS 1. 2. 3. AW EI RVES CO R NY ElstICO FEllMI ATOMIC POER PLANT LMIT 2 PtilD : 6M721-2004 PA(E : 31 SYSTEM : RESIDUAL EAT REMOVAL llEVISION : 2. 08/05/83 MAIIMUM VALVE VALVE R VE R VE ACTllATOR NDML STROKE TEST STROKE MA!! M RELIEF NUMBER COORDINATE (1 ASS CATEGORY SilE TYPE TYPE POSITION DIRECTION TEST FREGtDCY TIE LEWAGE REQUEST EMRS
_____=
.._======
=
==_
=_=
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==
Ell-F0464 L-5 2
C 3
m SA S
OIC CT-1 OP (V8-2125 1 Ell-F046C K-3 2
C 3
CK SA S
OLC CT-1 OP (V8-2127 1 Ell-F047A H-7 2
B 20 GA MD 0/KL 0&C BI OP (V8-2137 i PIT 2Y Ell-F048A F-7 2
B 24 GL MD 0
OLC BT OP (V8-2139 1 PIT 2Y Ell-FO"4A D-3 1
A/C 24 CK SAT S
OLC AT-10 RR I.0 G (V8-2163 1 AT-1 RR NA VR-Il CT-1 CS VR-8 PIT 2Y Fil-F079A J-10 2
9
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C 2
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1 GL SO O
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T48-F001A E-5 2
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T48-F6058 34 2
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C 6
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C 6
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0 CT-2 SV (V22-2068 I 8214013H H-7 1
B/C 6
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B214013J J-7 i
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H-7 1
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0 CT-2 5Y I
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(V22-2138 )
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(V22-2140 )
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(V22-2124 )
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C (V22-2125 1 821-F0318 N-8 D
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C RV SA C
0 CT-2 5Y (V22-2139 i t
821-F031D M-12 O
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014 CT-1 lut Vit-16 (V4-2100 1 821-F036G N-!!
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B21-F037A M-3 2
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SA S
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C 10 m
SA S
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C 10 CK SA S
014 CT-1 CS VR-17 (V22-2101 )
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821-F037H M-3 2
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C 10 m
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SA S
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C 10 m
SA S
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821-F037R N-3 2
C 10 CK SA S
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(V22-2109 1 B21-F039A N-12 D
C RV SA C
0 CT-2 5Y (V22-2127 1 1
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(V22-2128 )
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0 CT-2 5Y (V22-2123 )
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C RV SA C
0 CT-2 5V i
(V22-2129 i B21-F039K N-Il D
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0 CT-2 5Y (V22-2126 )
I B21-F000A E-Il 2
8 2
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PIEPAED BY : IllTEDI TIE IET110li EBI9ill ISI CutSS 1. 2. 3. AW EI RVES C0fuWlY ERICO FElWII AT(IIIC PIBER PUIIT (fili 2 P&ID : &lf721-2089 PA(E : 41 SYSTEM IllCLEAR 80llSt lEVISI(BI 2, 08/05/83 MAllitst RVE RVE R VE R VE ACTilATGt 10554.
STIIIRE TEST STIIOKE flAIlltpl IELIEF M MIER C0(IIDillATE Cl. ASS CATEGIEY SIZE TYPE TYPE POSITI0lt DillECTI0lt TEST FEGlEICY TIPE LEAKAGE IIE0lEST IElllWES i
=== = = = -----
=-
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B21-F000C J-il 2
B 2
Cf.
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A/C 1
IFC SA 0
C AT-3 RR 2.5 0 (V13-2302 1 CT-1 RR VR-9 B21-F501C F-13 1
A/C 1
IFC SA 0
C AT-3 IIR 2.5 0 (V13-2303 i CT-1 IIR VR-9 i
B21-F501D F-13 1
A/C 1
IFC SA 0
C AT-3 RR 2.5 G (V13-2304 i CT-1 RR VR-9 B21-F502A E-10 1
A/C 1
IFC SA 0
C AT-3 IIR 2.5 G (V13-2305 i CT-1 RR VR-9 B21-F502B F-13 1
A/C 1
IFC SA
'0 C
AT-3 lut 2.5 G (V13-2306 )
CT-1 lut VR-9 B21-F502C F-13 1
A/C 1
IFC SA 0
C AT-3 RR 2.5 G (V13-2307 )
CT-1 RR Vit-9 B21-F502D F-13 1
A/C 1
IFC SA 0
C AT-3 IIR 2.5 G (V13-2308 i CT-1 RR VR-9 B21-F503A D-10 1
A/C 1
IFC SA 0
C AT-3 RR 2.5 G (V13-2309 )
CT-1 IIR VR-9 B21-F503B F-13 1
A/C 1
IFC SA 0
C AT-3 IIR 2.5 0 (V13-2310 i CT-1 IIR
'At-9 B21-F503C F-13 1
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C AT-3 IIR 2.5 0 (V13-2311 1 CT-1 lut VR-9
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==
- = = = = = - - = = = = = = = = = = = = = = = = = -
=
-======= -
B21-F503D F-13 1
A/C 1
IFC SA 0
C AT-3 RR 2.5 0 (V13-2312 )
CT-1 RR Vit-9 B21-F504A D-10 1
A/C 1
IFC SA 0
C AT-3 IIR 2.5 0 (V13-2313 )
CT-1 RR VR-9 B21-F5048 F-13 1
A/C 1
IFC SA 0
C AT-3 IIR 2.5 0 (V13-2314 )
CT-1 RR VR-9 B21-F504C F-13 1
A/C 1
IFC SA 0
C AT-3 RR 2.5 0 (V13-2315 I CT-1 RR VR-9 B21-F504D F-13 1
A/C 1
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C AT-3 IIR 2.5 0 (V13-2316 i CT-1 IIR VR-9 1
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n INSERVIE TESTING Fil00llpfl PIEPffED Bf IllTEDI M lie 11EffT EDISM ISI CLASS 1. 2. 3. Als EI VALVES CINellt ElftICO FEIUU ATWilC POIER PUU(T L211T 2 PllD Alf721-2090 PAE : 44 SYSTEM IllCLEAR BOILER EVislW 2. 08/05/83 IRIlltst ME R VE MVE MVE ACTLATWt ISIK STIERE 1EST STillRE MIlltfl IELIEF lif8ER COIIIBilmTE tlASS CATE05tf SIZE TYPE TVPE POSITIGI DilECTIGl 1EST FIEGLBCY Tile LEAKAIE lEEEST IElIIItB
.w--
i 821-F514C H-14 1
A/C
.75 IFC SA 0
C AT '1 lut 2.5 6 q
(V13-2330 i CT-1 III VR4 B21-F514B H-13 1
A/C
.75 IFC SA 0
C
',T-3 lut 2.5 6 i
(V13-2331 i CT-1 Ill VR-9 4
B21-F5154 H-14 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 6 (V13-2332 I CT-1 III VR-9 321-F515B H-13 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 6 (V13-2333 i CT-1 lut VR-9 R21-F513C H-14 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 6 (V13-2334 i CT-1 151 Vll-9 i
321-F5150 H-13 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 0 (V13-2335 i CT-1 III VR-9 B21-f515E H-14 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 6 (V13-2336 I CT-1 IUt VR-9 B21-F515F H-13 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 6 (V13-2337 i CT-1 IUt VR-9 B21-f515G H-14 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 6 (V13-2338 i CT-1 lut VR-9 B21-F515H H-13 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 G j
(V!3-2339 i CT-1 lut VR-9 l
B21-F515L H-14 1
A/C
.75 IFC SA 0
C AT-3 IUt 2.5 0 t
(V13-2340 1 CT-1 mt WR-9 B21-F515H H-13 1
A/C
.75 IFC SA 0
C AT-3 lift 2.5 G (V13-2341 1 CT-1 IIR VR-9 B21-F515N H-14 1
A/C
.75 IFC SA 0
C AT-3 IIR 2.5 G (V13-2342 I CT-1 IIR VR-9
IIEERVIE 1ESTilli M100 Rill PIERWED BY : IRllEDI 11E ElllDIT EDISM ISI CUISS 1. 2 3. fBEl EI RES CINFluff ElftICO FElWII ATWIC POER PUWIT tmIT 2 P&lD eff121-2090 PAGE 45 SYSTEM MREAR 80lt.ER IEVISIM i 2. 08/05/83 MAllmM MVE RVE R VE R VE ACTUATOR M0lgut.
STillRE TEST STROKE MAIllUI IELIES IUBER C00RD111 RTE CutSS CATEGORY SIZE TYPE TYPE POSIT!0ll DIECT!W TEST FEclEICY TIE LEAKAGE IEREST IElrJES B21-F515P H-13 1
A/C
.75 IFC SA 0
C AT-3 Ilit 2.5 G (V13-2343 i CT-1 IIR V11-9 j
B21-F515ft H-14 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 0 j
(V13-2344 I CT-1 IIt Vit-9 B21-F515S H-13 1
A/C
.75 IFC SA 0
C AT-3 lut 2.5 G j
(V13-2345 1 CT-1 IUt Vit-9 j
B21-F515T IF14 1
A/C
.75 E
SA 0
C AT-3 lut 2.5 6 (V13-2326 i CT-1 IIR Vlt-9 B21-F515U IF13 1
A/C
.75 E
SA 0
C AT-3 15t 2.5 6 (V13-2347 I CT-1 lut Vit-9 B21-F516A J-10 1
A/C 1
E SA 0
C AT-3 lut 2.5 6 i
(Y13-2348 )
CT-1 IUt WR-9 1
321-F5168
+5 1
A/C 1
IFC SA 0
C AT-3 m
2.5 6 I
(V13-2349 I CT-1 ist VR-9 B21-F516C K-5 t
A/C I
XFC SA 0
C AT-3 IUt 2.5 6 (V13-23OB 1 CT-1 lut WH 321-F517A e5 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 0 1
(Vl3-2350 i CT-1 lut VIF9 321-F517B e5 i
A/C 1
IFC SA 0
C AT-3 lut 2.5 6 (Vl3-2389 i CT-1 IUt Ylb9
)
l 321-F517C e5 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 0 l
(V13-2390 )
CT-l 151 VIF9 B21-F517B J-10 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 6 1
(V13-2391 1 CT-1 III Vit-9 i
m IlWlVIE 1ESTIE PRDBWI my,g Elft!b khc POLER T2 PllB t W 21-2678 png a g j
SYSTEM BENIIElst.IZEB MilVIE Il41ER RISEltS IEVISIM i 2, 08/05/83 MW ME M W M E ACTUATilt IEIput.
SillDRE TEST T
MIlltfl IELIiF lif9ER C00EIM?E RASS CATE01Blf SIZE TYPE TVPE POSITim BIECTIGI 1EST FEREICY TIE LEAKAGE lEREST leggets Af*k N
M h ll Pf&
C-2 E2 A
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C/l.C PAS AT-1 lut M
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STRRE TEST STROKE MIlltM IELIEF lif9ER C00RDIll4TE CutSS CATEGORY SIZE TYPE TYPE POSITI(M DIECTI0ld 1EST FEGLEICY TIE LEAKAGE EREST IElWRS q'
a o -
- = =..- -.,.
.o. = =
.= = - - = =
- -----= - -
T41-F008 D-5 E4 B
72 BTF A0 0/FC C
BT OP (VR3-3027 i FST (F
VR-23 PIT 2Y T41-F009 C-5 E4 3
72 BTF A0 0/FC C
BT 0*
(VR3-3028 )
FST OP W-23 1
PIT 2Y T41-F010 D-5 E4 3
72 BTF A0 0/FC C
BT OP l'
(VR3-3029 )
FST OP VR-23 PIT 2Y T41-F0ll C-5 E4 B
72 BTF A0 0/FC C
BT OP (VR3-3030 )
FST OP VR-23 1
PIT 2Y I
l i
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PIEPAIED N : IllTEDI IIE IETROIT JEBISWI ISI CLASS 1. 2. 3. N e EI M VES CWWWN i
ElftICO FElWII ATWilC PSER Pugli IRIT 2 PhlO 2 721-2833 PelE 48 SYSTEM EACTWt IECIlllRATim IEVISIM : 2. 08/95/03 flMlltM M VE MW M W M VE ACTimTWI Issut.
STIERE 1EST Sill (RE IIMllul IELIEF IUSER (IlWIBim1E (LASS CATEGMY SIZE TIFE TYPE POSITim BilECTIM TEST FIEltEIEN Tile
!BuullE IEEEST 1E18555 B31-F014A 9-5 E2 A
.75 E
A0 0
C AT-1 lut m
VR-il (V8-3710 )
BT CS 5
Vit-is PIT 2Y B31-F0148 A-4 E2 A
.75 E
A0 0
C AT-1 IUt M
VR-il (V8-3590 )
BT CS 5
VR-19 Pli 2Y B31-F016A D-6 E2 A
.75 E
A0 0
C AT-1 lut M
Vit-il i
(Y8-3767 )
BT CS 5
VR-18 PIT 2Y B31-F0168 A-4 E2 A
.75 E
A0 0
C AT-1 IIR m
VR-II (V8-3768 )
BT CS 5
VR-18 PIT 2Y B31-F019 D-5 i
A
.75 E
A0 C/RI.
C AT-1 IIR m
.VR-11 (V!7-2077 )
BT GP 11 Pli 2Y 331-F020 D-7 i
A
.75 E
A0 C/*1.
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VR-il (V17-2078 )
BT OP 11 l
PIT 2Y l
B31-F03tA D-3 i
B 28 GA MO 0
C BT CS VR-21 l
(V8-2003 )
PIT 2Y 831-F031B A-4 i
B 28 GA M0 O
C BT CS Vit-21 (V8-2004 )
PIT 2Y B31-F501A F-5 i
A/C 1
IFC SA 0
C AT-3 IIR 2.5 0 (V13-2351 )
CT-1 RR vit-9 B31-F5018 F-5 1
A/C 1
IFC SA 0
C AT-3 RR 2.5 0 (V13-2353 )
CT-1 flR VR-9 t-B31-F501C F-5 1
A!0 1
IFC SA 0
C AT-3 RR 2.5 0 (V13-2352 )
CT-1 IIR VR-9
c i
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EIIIICO FElut! A191IC PIRER Fulli IIIIT 2 P615 8 411728-2833 FRE 49 i
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i INilBBl RUE ME R VE M E ACRulTW IEUUUL STIM E 1EST STilRE INIIMI EIEF 188Elt COWWIMIE GASS CATEGWlf SIZE TVPE TVPE POSITIM DIECTIM TEST FIEEEICY TIE LEAKAGE lEEEST lEIBES
============================== -
=
- -======= -
B31-F5015 F-5 1
A/C 1
IFC SA 0
C AT-3 lift 2.5 6 (V13-2354 I CT-1 lut VIF9 i
B31-F502A E-5 1
A/C 1
E SA 0
C AT-3 lut 2.5 8 j
(V13-2355 1 CT-1 IUt VIF9 B31-F502B E-5 1
A/C 1
E SA 0
C AT-3 lut 2.5 8 i
(V13-2356 i CT-1 lut Vib9 i
i 831-F502C E-5 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 8 j
(V13-2357 )
CT-1 lut WF9 i
B31-F5029 E-5 1
A/C 1
IFC S4 0
C AT-3 lut 2.5 0 l
(V13-2358 )
CT-1 lut WR 9 l
331-F503A D-3 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 0 (V13-2359 )
CT-1 IUt VIF9 i
B31-f503B C-3 1
A/C 1
E SA 0
C AT-3 lut 2.5 6 (V13-2360 )
CT-1 lut W9 331-f504A D-3 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 8 j
(V13-2361 1 CT-1 lut W-9 l
B31-F504B C-3 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 6 (V13-2362 i CT-1 lut VIF9 B31-f505A E-3 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 6 (Vi3-2363 )
CT-1 IUt Vibt l
331-F505B C-3 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 6 i
(V13-2364 i CT-1 lut 4 11-9 i
331-F506A B-3 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 6 i
(V13-2365 i CT-1 lut WR-9 1
331-F5068 C-3 1
A/C 1
IFC SA 0
C AT-3 IUt 2.5 8 l
(V13-2366 )
CT-1 lut
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ISI Cul8S 1. 2. 3. AW EI MVES ColRulf ElstICO FEltll AftBilC PERER PUBIT Luli 2 PLIB : 6ff721-2B33 PA(E 50 SYSTEll IEACTOR IECIlllIAATIN lEVISim 2. OB/05/B3 MIlltfl MYE MVE M VE M VE ACitlATR 1 9 5118.
STIDE TEST STil(EE IIAIlltfl IELIEF lifEER COMDilgl1E (UISS CATEGIUlf SIZE TVPE TYPE POSITIM BilECTIM TEST FIEGLEICV TIIE LEAKAIE IEGLEST IGNURS i
B31-f5104 B-3 1
A/C 1
IFC S4 0
C AT-3 IIR 2.5 0 (VIF2367 )
CT-1 III VR-9 i
B31-f510B A-3 1
A/C 1
E SA 0
C AT-3 lut 2.5 6 j
(Vl3-2368 )
CT-1 IWt Vit-9 l
831-F5tlA E -3 1
A/C I
E S4 0
C AT-3 lut 2.5 6 l
IV13-2369 )
CT-1 lut Vit-9 331-F5118 A-3 1
A/C 1
E SA 0
C AT-3 lut 2.5 6 j
(V13-2370 i CT-1 filt Vit-9 831-F512A C-6 i
A/C 1
IFC SA 0
C AT-3 lut 2.5 G i
(V13-2371 )
CT-1 IIR Vit-9 B31-F5128 C-6 1
A/C 1
IFC SA 0
C AT-3 lut 2.5 G j
(V13-2372 )
CT-1 IIR Vit-9 i
B31-F515A C-7 El A/C 1
E SA 0
C AT-3 lut 2.5 6 j
(V13-2373 1 CT-1 III Vit-9 B31-F515B A-3 El A/C 1
E SA 0
C AT-3 IIR 2.5 G (V13-2374 )
CT-1 lift VR-9 B'l-F516A C-7 El A/C 1
IFC SA 0
C AT-3 IIR 2.5 6 4
(V13-2375 )
CT-1 lut VR-9 i
B31-F5t&B A-3 El A/C 1
E SA 0
C AT-3 lut 2.5 0 (V13-2376 )
CT-1 lut VR-9 I
i 4
2 6
4 f-1 J
IIEEllVICE TEST!W PRomist i
PEPMB BY WTEDI IIE E1110!T EDISIBl l
IST CutSS I. 2. 3. Ale EI MWES (XpHWir EIRIC0 FElgli ATWIC PSER PUBIT LIllT 2 P&lo I eld 21-3045 PAIE t 51 SYSTEM t H51V LEERE (XBml0L IEVISIM i 2. 08/05/83 j
1 8 I19881 RVE RVE M VE R VE AC151 tit legBL STIME TEST STIIRE IRIllRSI IELIEF l
MBEER COIIBilm1E CutSS CATEGEY SI.ZE TIPE TYPE POSITIM BilECTIM TEST FIEEEICY. TIEI.ERAE EMEST IElBNS I
B21f431 E-6 D
B 1
E S0 C/FC C
N OP 5
Wit-6 (V5-2291 )
FST VR-23' i
i PIT 2Y B21f432 F5 D
8 1
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N OP 5
VR-6 (Y5-2292 )
FST OP W!-23 PIT 2Y B21-F433 F5 D
B 1
E SD C/FC Cic BT (P
5 VR-4 iV5-2293 )
FST (F
VR-23 PIT 2Y B21f434 D-5 1
A 1
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(V5-2294 )
N OP 5
VR-6 FST (P
Vit-23 j
Pli 2Y B21-F435 D-3 D
B 1
BT OP 5
VII-4 (V5-2263 )
FST OP VR-23 PIT 2Y
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821-F436 E-2 E3 B
I E
SO C/FC OIC N
VR-4 (V5-2264 )
FST CP VR-23 Pli 2Y B21f437 9-3 2
B 1
G.
90 C/FC OIC BT OP 5
VR-4 (V5-2297 )
FST OP VR-23 i
Pli 2Y B21-F438 D-3 D
B 1
VR-6 (V5-2298 )
FST OP VR-23 J
PIT 2Y I
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FIEPlWEB W t IGHECH 1E ETlWII EDISW ISI CulSS 1. 2. 3. AIS EX MVES Col m tf Elftl(XI FEltfl ATWIC POIER Pugli LIIIT 2 P61D t 411721-3445 PAK : 53 SYSTEN : Niil100EN IIERTIM IEVISIS : 2. 08/05/83 MIlltM i
M VE MYE M YE M VE ACTLN Gt 15555.
STIIRE TEST STillRE MIlltM IELIEF lifEER C0tBIDINATE CulSS CATEGIItY SIZE TVPE TYPE POSIT 10ll DIECTIGl TEST FKolEICY TIE LEAIGIE lEREST IElWURS T23-F410 C-3 E2 A
20 BTF A0 C/F0 OEC AT-1 RR IIA VR-il 4
(V21-2016 )
BT OP 8
FST CP VR-23 PIT 2Y T23f4504 C-3 E2 A/C 20 m
SAT S
01C AT-1 flR NA VR-il (V21-2013 )
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SAT S
DEC AT-1 lut NR VR-il (V21-2014 i CT-1 OP Pli 2Y T48f408 D-4 E2 A
10 BTF AD C/FC C
AT-1 R
M VR-il l
(V4-2060 )
FST (P
VR-23 l
PIT 2Y T49f409 D-4 E2 ' A 6
BTF A0 C/FC C
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l FST OP VR-23 PIT 2Y l
T48-F410 D-2 E2 A/C 6
BIF A0 C/FC C
AT-1 IIR NA VR-il (V4-2063 i AT-8 SP NR VR-31 BT OP 5
I FST OP VR-23 PIT 2Y i
T48f416 C-2 E2 A
1 01.
A0 C
C AT-1 IWt NA VR-!!
IV4-2036 I BT UP 15 PIT 2Y T48-F417 B-3 E2 A
1 G.
A0 C
C AT-1 IIR NA VR-il (V4-2065 )
BT (F
15 l
PIT 2Y l
4 INSEWICE TESTIIIG F1101 Nim PIEPfilED BY IGRECH TIE IETICIT EBISM ISI (1 ASS 1. 2. 3. NW EI MVES CWFMY EmlCO FEMI ATRIC P0lER PUNT LIIIT 2 PtilD eff721-3445 PAGE : 54 SYSTEN MITil0EEN IIERTIS lEVISIM i 2, 08/05/83 IRIlltal MVE MW M VE M YE ACTimTINI IENW.
STIME TEST SHil*E M Ilitst R IEF lif9ER COINDISTE CUISS CATEGORY SIZE TVPE TTPE POSITIM DilECTIGI TEST FIERBEY TifE LEAMIE lEREST IBUIES TEf418 9-3 E2 A
1 E
A0 C
C AT-1 flit im Vit-il (V4-2075 I BT (F
15 PIT 2Y T49f419 9-3 E2 A
1 E
A0 C
C AT-1 Im im Vit-il (V4-2077 I BT OP 15 PIT 2Y T49f420 5-3 E2 A
1 E
A0 C
C AT-1 IUt im W-il (V4-2062 )
BT UP 15 Pli 2f T4&f421 B-3 E2 A
1 E
A0 C
C AT-1 lut 11 4 VR-11 (V4-2004 )
BT OP 15 PIT 2Y T49-F422 8-3 E2 A
1 E
A0 C
C AT-1 lut im Vit-11 (V4-2006 I BT OP 15 PIT 2Y T40-F423 A-3 E2 A
1 E
A0 C
C AT-1 lut ilm Vit-il j
(V4-2008 i BT OP 15 j
PIT 2Y T48f424 A-3 E2 A
1 E
A0 C
C AT-1 IUt 11 4 Vit-il (V4-2090 1 BT OP 15 i
l PIT 2Y T48f425 A-3 E2 A
1 GL A0 C
C AT-1 IUt 11 4 VR-11 l
(V4-2092 )
BT OP 15 PIT 2Y T484426 A-3 E2 A
1 E
A0 C
C AT-1 IIR NR VR-Il (V4-2094 )
BT OP 15
(
PIT 2Y T48f427 A-3 E2 A
1 E
A0 C
C AT-1 lut N4 VR-II (V4-2096 )
BT OP 15 Pli 2Y
e
.s
)
INSERVIE TESTIM PROGRM PIEPAED Bf a MJfEDI TIE IETROIT EB19tpl ISI R ASS 1. 2 3. AIS EI R VES CWFAlff ElstICO FENil ATGl!C poler PUBIT (Bili 2 P&lD Alf721-3445 PAIE : 55 SYSTEM NITIIOGEN IIERTils IEVISIGI : 2, 08/05/83 MIllUI RVE RVE R VE R VE AC11mitR 10555.
StillRE TEST SilllEE MIlltfl IELIEF IUSER C00181MTE RASS CATEGORY SIZE TTPE TYPE POSIT 10lf BIECTIG1 TEST FIEEENCY TIE LEAKAIE BEEEST IENUES T48-F451 E-2 E2 A
1 E
A0 0/FC C
AT-1 IIR M
Vit-11 (V4-2185 )
BT OP l
FST (P
VR-23 Pli 2Y T48f453 D-4 E2 A
1 E
A0 0
C AT-1 lut M
VR-11 (VR3-2823 )
BT (P
5 Pli 2Y T48f454 D-4 E2 A
1 E
A0 0
C AT-1 lut M
VR-il (VR3-2824 )
BT UP 5
.l PIT 2Y j
T48f455 D-4 E2 A
I E
A0 0
C AT-1 lut M
VR-11 (VR3-2825 )
BT OP 5
PIT 2Y T48-F456 D-2 E2 A
1 E
A0 0
C AT-1 lut M
m-!!
(VR3-2826 )
BT (P
5 i
PIT 2Y l
T48-F457 D-2 E2 A
1 E
A0 0
C AT-1 lut M
VR-11 i
(VR3-2827 )
BT OP 5
PIT 2Y T48-F458 D-2 E2 A
1 E
A0 0
C AT-1 lut im Vit-11 (VR3-2828 )
BT IF -
5 j
PIT 2Y 4
..j IlllEllVIE 1ESTIls PilomlWI 4
PIEPflED BY IEJIEDI IIE ETilCIT EB19131 ISI CUISS 1. 2 3. Als EI MYES CIErnfly ElRIC0 FEllfil A1WIIC FSER PUllit ImlT 2
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PnlO W 21-4100 PAGE : 56 SYSTEM TolluS 1861ER IGNilEIEllT IEVISIGI : 2. 08/05/83 11AI11181 MVE MW MVE MYE ACitm19t 185358.
STillRE TEST STIIIRE Igntiftfl IELIEF 1
IGNSER CCW WI ETE Q. ASS CATE051Y SIZE===
- - ---. =
TYPE TYPE POSIT 10ll DIECTIGI TEST FEglEICY TIE LBlKH(E EREST IElWUBS
= = - -.
051-F600 E-6 E2 A
6 GA fl0 0
C AT-2 IIR m
YR-42 (V8-3832 i ST OP 30 PIT 2Y 051 4 601 E-6 E2 A
6 GA fl0 0
C AT-2 lut m
VR-42 1
(V8-3834 i BT (P
30 j
PIT 2Y G51-F602 C-5 E2 A
6 04 fl0 0
C AT-2 lut m
UR-42 (V8-3831 i BT OP 30 PIT 2Y G514603 C-5 E2 A
6 GA fl0 0
C AT-2 IIR M
VR-42 (V8-3833 i BT OP 30 PIT 2Y G514604 E-5 2
A 4
GA 11 0 0
C AT-2 flR M
VR-42 (V8-3849 I BT OP 20 Pli 2Y i
G51-F605 E-5 E2 A
4 GA m
0 C
AT-2 lut M
VR (V8-3847 I BT OP 20 l
PIT 2Y G51-F606 C-7 2
A 4
GA PIO O
C AT-2 flit M
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BT C
20 PIT 2Y G51-F6C7 C-7 E2 A
4 GA fl0 0
C AT-2 lut M
VR-42 (V8-3848 I BT OP 20 PIT 2Y
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INSERVICE TESTING PROGRM PREPAED BY WTECH TE BETR0li EDISDN ISI CLASS 1. 2 3. Ale EI RVES C0rFANY ElftICO FEMI ATOMIC POER PLANT IJNIT 2 PtID 8 6M721-5007 PAGE 59 SYSTEM t PEIMATIC StPPLY llEVISION : 2. 08/05/83 MIlltM M VE R VE R VE R VE ACitlATOR N0llMill STROKE TEST STROKE MAtlltM IIELIEF IMEER COORDINATE CLASS CATEGORY SIZE TYPE TYPE POSITION DIECTI(BI TEST FEGLBEY TIE LEM/4E E0lEST REM E S
.======:-
= = = = = = = = = = = = = = = = _ _ =
= = =
-=.=====
= _ _ _
T49-E-7 E2 A
1.5 GL A0 0/FC C
AT-1 RR M
VR-II (V4-2079 )
BT OP 8
FST OP VR-23 Pli 2Y T49-G-7 E3 C
1.5 CK SA S
C CT-1 OP (V4-2167 i T49-E-7 E2 A
1.5 EL M
C/LC PAS AT-1 RR NA VR-!!
(V4-2172 )
T49-D-7 E2 A
1.5 GL A0 0/FC C
AT-1 RR NA VR-ll (V4-2187 )
BT OP FST OP VR-23 PIT 2Y T49-E-8 E3 C
1 CK SA S
C CT-1 OP (V4-2228 i T49-F-7 E3 8
1.5 GL A0 C/FC OIC BT OP (V5-2610 )
FST OP VR-23 Pli 2Y T49-D-7 E2 A
1.5 EL M
C/LC
. PAS AT-1 RR M
VR-11 (V8-4140 )
749-F601 E-6 E2 A
1.5 R.
MO 0
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VR-il (V4-2080 )
T49-F602 D-6 E2 A
1.5 G.
MD 0
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_=.....
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'U MAL STROKE TEST siv.tf MAXI!Ut RELIEF MIPER C00RDINATE CLAS3 CATEGORY 51IE TiFE TYFE POSITION CIFECTION TEST FREC'JENCY T;,"E LEAVACE REREST FEt%RVS
-... =============.====================.-. ----.....====-=.,
s P14-F0038 G-7 3
C 8
CK IA 3
0 CT-!
GP (VS-2?03 )
P44-F021B G-7 3
C 8
CK SA S
0 CT-1 CP (V8-2334 )
P44-F111B E-3 3
C 1.5 CK SA S
C CT-1 kP (V3-2430 1 P44-F116B C-6 3
C 3
CX SA S
0 CT-1 (V3-2332 )
P44-F125B E-7 3
C 1
RV SA C
NA CT-2 SY (V22-2077 )
!14-Fl:6B E-7 3
C 1
RV SA C
NA CT-2 SY (V22-2076 )
P44-F165 D-6 3
C 6
CK SA S
0 CT-1 (V8-2428 )
P44-F182 D-5 3
C 2
CX SA S
C CT-1 CS VR-4 (V8-2427 )
P44-F274 E-1 3
C 2.5 CK SA S
C CT-1 RR VR-32 (V8-2433 )
P44-F282B E-2 3
A/C 6
CK SA S
C AT-1 FR NA VR-l!
(V8-3887 )
CT-1 RH VR-5 (V8-2314 )
C BT CS VR-3 P44-F601B C-7 3
B 10 GA fl0 0
PIT 2Y 4
P44-F6023 D-7 3
B 8
GA fl0 C
0 BT OP (V8-2322 )
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E INSERVICE TESTING FROMAM FREF4 RED BY : ?#JTECH
~d' DETROIT EDI5ON ISI C A3S 1. 2. 3-AND Et VAL'ES (CNANY E'RICO FEFMI ATCMIC POLER FLt.NT '. NIT 2 I
FSID : 6M721-5444 FACE : 62 SYSTEM : EECW. DIV 1 REVISION : 2. 08/05/83
~
MAIIMUM VALVE "ALVE VALVE '.'ALVE ACTUATOR NOPMAL STROKE TEST STROKE MAXIttM RELIEF tc BER CGCSDINATE CLASS CATEGORY SIZE TYPE TYPE RtSITION DIRECTION TEST FREQUENCY TIRE LEAKACE REQUEST REMARKS F444003A C-7 3
C 8
CK SA S
0 CT-1 GP (V3-2335 )
F44-F021A B-7 3
C 8
CK SA S
0 CT-1 OP (V3-2336 )
P44-F038 F-6 3
C 1.5 CK SA S
C CT-1 OP (VS-3055 )
F44-F051 G-5 3
C 6
CK SA S
0 CT-1 OP (V3-2431 1 P44fillA D-4 3
C 2
CK SA S
C CT-1 OP
('!3-2433 1 P444116A H-5 3
C 6
CK SA S
0 CT-1 (V8-2432 1 F44f125A E-7 3
C 1
RV SA C
NA CT-2 SY
('/22-2589 )
P44-F126A E-7 3
C 1
RV SA C
NA CT-2 SY (V22-2075 )
P44-F246 E-2 3
C 2
CK SA S
C CT-1 RR VR-32 (V8-3056 )
P44-F282A G-3 3
A/C 8
CK SA S
C AT-1 RR NA VR-il (V8-3888 )
CT-1 R'd VR-5 P444601A H-6 3
8 8
GA MO O
C BT CS VR-3 (VB-2323 )
PIT 2Y P44fa028 9-7 3
5 8
GA fB C
0 N
l PIT 2Y (V9-2325 1 P44f603A A-7 3
3 8
8A le 0
'C BT CS VR-3 (V8-2324 1 PIT 27
~
i INSERVICE TESTING FROGRAM TE !ETROIT EDISON PREPARED BY : NUTECH ISI CLASS 1. 2. 3. A2 El VALVES CCflPANY ENRICO FEFt11 ATCMIC PCWER PLANT tHIT 2 FACE : 63 F&lD : eM721-5444 RE'llS 0N : 2. 03/05/83 SYSTEM : EECW. DIV 1 MAIIM.m VtGE VAL'E V W VALVE ACTUATOR NORMAL STR0KE TEST STF0KE MAtl4M FELIEF TYPE POSITION DIPECTION TEST FFED.iENCY TIE LEAKAGE CE7 JEST REMARKS NLMBER COORDINATE CLASS CATEGORY SIZE, = TYPE
.a,
=,_,
P44-F604 G-7 3
B 2
CL M0 O
C BT CS
' 'R-4 PIT 2Y (V3-2425 )
P44-F605A C-4 3
8 2
CL M0 O
C BT OP PIT 2Y (V3-2427 )
P44-F6064 H-3 3
A 6
C4 NO O
C AT-1 RR NA VR-Il BT CS 30 VR-5 (V3-2436 )
FIT 2Y T44 F607A 0-3 3
A 6
C4 f10 0
C AT-1 RR NA VR-il BT CS 30 VR-5
('#-2485 )
PIT 2Y P44-F613 E-6 3
B 1.5 CL M0 O-C BT OP PIT 2Y (V3-3057 )
P44-F614 D-3 3
9 2
C4 NO O
C BT CS VR-36 PIT 2Y (V3-3058 )
F44-F616 H-3 3
A 6
C4 2
0/KL C
AT-1 RR NA VR-11 BT CS VR-5 "C-3390 )
PIT 2Y A
e i
a f
s 1
IIEEWICE TESTIIE PROUWWI NN8N TIE ETROIT EBIS31 ISI (1A8S 1 2 3. NS EI MES COWMY EMICO FElWII ATWIC poler PUNIT INIT 2 P&IB t 6M721-5449 PME: 64 j
SYSTEM CWITROL 113 RIVE imIWH.IC IEvtsim a 2. 08/05/83 Mrilem M VE RW MVE KVE ACitmTGt N STERE TEST STERE MIIMM MLIEF IRf9ER COGIBillflTE (LASS CATEGGtY SIZE TYPE TYPE POSITIGl DIECTI0lt TEST FIEEDEY TIE LEAKAGE IEREST IEUNICS
==
. = = = = = = = = = =. - - - -. -
=,,
Cll-F010 It-5 2
B 1
G.
DO 0/FC C
BT OP (V8-2073 )
FST OP Vit-23 PIT 2Y i
Cit-F0ll E-7 2
B 1
G.
DO 0/FC C
BT OP (V8-2006 )
FST OP Vit-23 Pli 2Y l
Cll-F012 2
C
.75 RV SA C
186 CT-2 5Y (V22-2027 )
C11-180 H-5 2
B 2
G.
A 0/FC C
BT OP l
(V8-3876 )
FST OP VR-23 i
PIT 2Y i
j C11-181 E-7 2
8 2
G.
A0 0/FC C
BT OP (V8-3877 i FST OP VR-23 PIT 2Y i
i i
4 IllSERVIE TESTIldi PROGulft FIEPAIED BY : IllTEDI T6E ETRolf EDISOll ISI (1 ASS 1. 2 3. Aldi EI MES Caniff ElftICO FEilrII AT0filC poler ftAlli LMIT 2 P&ID : alf72116-2046 PAK t 65 SYSTEM DIESEL ElWTolt IEVISIM : 2. 08/05/83 IIAII:tal RVE RVE R VE R VE ACTimTGt ISUE STIERE TEST STROKE HAtlitti IELIEF IUSER COGIDIllATE CutSS CATEGGtY SIZE TYPE TYPE POSITIGI DIECTIGI TEST FE0lEICY TIfE LEarKE EREST IEluURS
=
,=a, a----
==
a-,-,. -
m,===
R30-F0314 B-2 E3 C
.75 CK SA S
C CT-1 OP (V5-2006.)
R30-F031C B-5 E3 C
.75 CK SA S
C CT-1 (P
(V5-2098 1 R30-F0324 B-2 E3 C
.75 CK SA S
C CT-1 OP (V5-2090 i R30-F032C B-4 E3 C
.75 CK SA S
C CT-1 OP (V5-2102 )
R30-F0354 C-2 D
C
.75 RV SA C
0 CT-1 5Y (V5-2008 1 R30-F035C C-5 E3 C
.75 RV SA C
0 CT-2 5Y (V5-2100 1 R30-F036A C-2 E3 C
.75 RV SA C
0 CT-2 5Y (V5-2092 )
R30-F036C C-4 E3 C
.75 IIV SA C
0 CT-2 5Y (V5-2104 )
R30-F0504 D-2 D
B 1.5 31 #
SO C
0 BT OP 5
VR-6 (V-1 i
R30-F050C D-5 E3 8
1.5 3tN SO C
0 BT UP 5
VR-4 (V-2
).
R30-F051A D-2 E3 8
1.5 31 #
S0 C
0 BT OP 5
VR-4 (V-3
)
R30-F051C D-4 E3 B
1.5 31 #
S0 C
0 BT (P
5 VFr 4 (V-4 1
a
d IIEENIE 1ESTIIS PilDiBugl FIEPNED F IRITEDI M ETIl0!T Ells $1 ISI Cul861. 2. 3. NW EI MWS CorNIf ElRIC0 FBUII ATMIC poler Pugli WIT 2 P&lO W2tl6-2047 PAIE E
SYSTEM DIESEL (ElEllATR ggVIstm : 2. 08/05/83 MAttitM MW MW M WE M VE ACTIRT(R IUDIE.
STidRE TEST STillRE HulltM IEllEF IDElER C00llDifflTE tutSS CATEGGlY SIZE TYPE TYPE POSITIGli DillECTI(Bl TEST FilEREICY TIE LEAKAGE E0lEST llDuuRS
- = = = = = - - = = = = = = = = = = = = = = = = = = - - -, =
=====.
_.,=======
R3 H 031B B-2 E3 C
.75 CK SA S
C CT-1 OP (V5-2062 )
~
R30-F031D B-5 E3 C
.75 (K
SA S
C CT-1 (P
(V5-2074 i R30-F0328 D-2 E3 C
.75 CK SA S
C CT-1 (P
(V5-2066 i R30-F0320 5-4 E3 C
.75 CK SA S
C CT-1 OP (V5-2078 )
l R3&F0358 C-2 E3 C
.75 RV SA C
0 CT-2 SY (VS-2064 i R30-F035D C-5 E3 C
.75 RV SA C
0 CT-2 5Y (V5-2076 i R30-F036B C-2 E3 C
.75 RV SR C
0 CT-2 5Y (V5-2068 i R30-F0360 C-4 E3 C
.75 RV SA C
0 CT-2 5Y (V5-2000 )
l R3 H 050B D-2 E3 B
1.5 31N S0 C
0 BT OP 5
VR-6 (v-i i
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