ML20206T726
| ML20206T726 | |
| Person / Time | |
|---|---|
| Site: | Cooper  |
| Issue date: | 03/13/1986 |
| From: | Black R, Brungardt R NEBRASKA PUBLIC POWER DISTRICT |
| To: | |
| Shared Package | |
| ML20206T643 | List: |
| References | |
| 6.3.5.1, TAC-54682, NUDOCS 8607080214 | |
| Download: ML20206T726 (17) | |
Text
w Q'SURVEILLANCEPROCEDURE 6.3.5.1 RHR TEST MODE SURVEILLANCE OPERATION
, a C..i I. PURPOSE A. To provide a detailed instruction for station personnel to assess the operational readiness of the RER system in the LPCI Mode.
II. DISCUSSION A. The RHR pump flow rate, pressure, and vibration amplitudes are verified during this test using the RHR system test flow path. Pump suction is from the suppression pool, through the RHR pump, through the test flow line, bypassing the heat exchanger, and back to the suppression pool.
If during this test either low reactor water level (-145.5") or high drywell pressure (+2 psig) occur, which are the system initiation signals, the RUR system test valve closes and the RHR system returns to auto initiation lineup in the LPCI Mode. The system has four pumps, each of which will pump at least 7700 gpm if in single pump operation, while two pumps operating in a single loop will deliver at least 15,000 gpm to the reactor vessel at 20 psid above drywell pressure. This test'
, shall be run quarterly and all data recorded. Surveillance Procedure 6.3.5.5, RER Pump Operability Test, will be performed for monthly pump operability or when another safety related system is declared inoper-able, which requires RHR pump operability demonstration, however, it is not required when this procedure is performed.
~ $ III. REFERENCE MATERIAf .
A. USAR.
- 1. Volume II,Section IV, Subsection 8.0.
- 2. Volume II,Section VI, Subsections 4.4, 5.2.5, and 5.3. '
- 3. VolumeIII,SectionVII,Subsectiod4.3.5.
B. Flow Diagrams.
- 1. B & R Drawing 2040; RHR System.
- 2. G.E. Process Flow Diagram 729E211BB.
C. Vendor Manuals.
- 1. G.E. Operations and Maintenance Instruction Volume V, Book 1.
- 2. G.E. Operations and Maintenance Instruction Volume IX, Book 3.
8607080214 860630
~.
/--
PDR ADOCK 00000298 P PDR Revised By/Date Reviewed By/Date pproved By/Date Rev Procedure Page 1 Of R. Black 2/27/86 R. Brungardt 3/6/86 c
, __. J /h., 21 6.3.5.1 8 Pages
l (j 3. Instruction Manual E-66-31-2; RER Pump Motor.
4 Instruction Manual E-66-31-4; RHR Pump Bingham Pump Company.
D. Electrical Diagrams.
- 1. B & R Drawing 3002; Auxiliary One Line Diagram.
- 2. B & R Drawing 3007; Auxiliary One Line Diagram.
- 3. B & R Drawing 3010; Vital One Line Diagram.
- 4. B & R Drawing 3024; Elementary Diagram.
- 5. B & R Drawing 3059; DC Panel.. Schedule.
- 6. B & R Drawing 3139; Reactor Building Lighting Panel Schedule.
- 7. G.E. Functional Control Diagram 730E140BB, Sheets 1, 2, and 3.
- 8. G.E. Elementary Diagram 791E261.
E. Maintenance Procedures.
- 1. Maintenance Procedure 7.2.36; Vibration Analysis Program.
7;.75 F. Miscellaneous. -
(Ji! "
j 1. CNS Inservice Testing Program.
IV. PREREOUISITES A. The Reactor Building closed cooling water system in service supplying cooling water to the RHR pump seal water coolers and room FCUs. .
B. The RHR service water system available for service.
C. The area FCUs available for^ service.
D. The condensate transfer system available for keeping the RHR system \
piping full.
E. The suppression pool water level normal or adequate for pump suction as-required.
F. The Reactor Building equipment drain sump pumps in ~ service.
G. The Reactor Building floor drain sump pumps in service.
H. The _ RHR system lined up for normal operation . per ' System Operating Procedure.2.2.69, RHR System.
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- p. ,, , - ~ . . - .n-- . . ...-.e -
.@rocedure Number 6.3.5.1 Date o Revision 21 Page 2 'Of 8 Pager sf-/ t{-f f
- - = ,,- < .- . - - , ,. -
V. LIMITATIONS
( ,
A. Surveillance Requirements - Technical Specification Sections 4.5.A.3.b.,
4.5. A.3.d. , 4.5.G. l . , 4.5.H. , and 4.6.G. (IST) .
- 1. Every month check pump operability.
- 2. Every month, when required, operable discharge piping vented at high point and water flow observed.
- 3. The unit coolers for the RHR pumps shall be checked for operability during surveillance testing of the associated pumps.
- 4. Pump flow rate frequency is once per 3 months.
- 5. During single pump LPCI operation, each RHR pump shall deliver at least 7700 gpm, but no more than 8400 gpm against a system head equivalent to a reactor vessel pressure of 20 psid above the drywell pressure with the water level below the jet pumps. At the same conditions, two pumps LPCI flow shall be at least 15,000 gpm.
B. Administrative Limits.
- 1. All discrepancies shall be recorded in the Shift Supervisor's log.
- 2. Attachment "B" shall be used to record the test and filed as part of the station records.
- 3. All testing shall be coordinated with the Control Roda Operator.
VI. PRECAUTIONS J
A. Exercise extreme care that the drywell is not inadvertently sprayed..
Be especially careful during periods of testing or other off-normal conditions. Remember that even with the RHR pumps shut down the keep-full pressure will cause drywell spraying if both valves are opened simultaneously.
t B. Maintain the suppression chamber temperatures < 90*F during all modes of operation. I C. Always maintain the RHR piping full of water, unless the systen is removed from service.
D. Do not allow the pump motors to overheat during operations. Area FCUs are required for extended pump operation.
E. Avoid pump runout; maximum pump motor current is 157 amps.
VII. TEST EQUIPMENT A. Model 306 or Model 308 hand held IRD vibration meter.
(3 .
Procedure Number 6.3.5.1 Date J,/?-?G Revision 21 Page 3 Of 8 _'Pages-
VII
I. PROCEDURE
Note: For inservice testing the following check valves shall have been exercised upon a successful surveillance test. A successful test is one in which there are no discrepancies; RHR-CV-10, RHR-CV-11, RHR-CV-12, RHR-CV-13, RHR-CV-14, ' RHR-CV-15, RHR-CV-16, RHR-CV-17, RHR-CV-18, RHR-CV-19, RHR-CV-24, and RHR-CV-25.
Recording of the exercised , check valves (IST Review) shall be recorded at least once every 3 months.
If during the course of this procedure the total dynamic head (TDH) is found to be low, valve RHR-MO-34A (RHR-MO-34B) (loop suppression pool inboard throttle) should be throttled until either total dynamic head is within specifications or the minimum allowable flow rate is reached.
_A. RHR Test Mode Surveillance Operation.
- 1. Obtain permission and signature from the Shif t Supervisor before starting the test.
1
- 2. Assure the proper indication for the test condition is displayed on the safety system status panel.
- 3. Open valve RHR-138 (head spray line high point vent). '
0 rp 4.
Observe the water flows freely, indicating the piping is filled.
- 5. Close valve RHR-138 (head spray line high point vent).
- 6. Open valve RHR-124 (RHR heat exchanger 1A inlet high point vent).
- 7. Observe the water flows freely, indicating the piping is filled.
- 8. Close valve RHR-124 (RHR heat exch 9 nger 1A inlet high point vent).
- 9. Open valve RHR-125 (RHR heat exchanger IB inlet high point vent).
- 10. Observe the water flows freely, indicating the piping is filled.
- 11. Close valve RHR-125 (RHR heat exchanger IB inlet high point vent).
- 12. Check valves RHR-MO-13A, RHR-MO-13B, RHR-MO-13C, and RHR-MO-13D (pump suction) from the suppression pool open.
- 13. Close valves RHR-MO-15A, RHR-MO-15B, RHR-MO-15C, and RHR-MO-15D (pump suction) from recirculation Loop A.
- 14. Open valves RHR-MO-66A and RHR-MO-66B (heat exchanger bypass).
- 15. Close valves RHR-MC-12A and RHR-MO-12B (heat exchanger outlet).
- i. c ,
G.
Procedure Number 6.3.5.1 Date 8 l? O/o Revision 21 Page 4 Of 8 Pages
[ .
(,.jg 16. Check closed valves RHR-MO-34A and RHR-MO-34B (Loops A and B
\er suppression pool inboard throttle).
- 17. Open RHR-M0-39A (Loop A suppression pool test line outboard iso-
, lation).
- 18. Secure Loop A pressure maintenance system, if the pump (s) will be run for any length of time, to prevent filling the torus.
Pages 3 and 4.
- 20. Start RHR Pump 1A.
- 21. Check that minimum flow valve RHR-MO-16A opens + 10 seconds af ter the pump starts.
Note: Obtain the flow reading from RHR-FR-143. DO NOT use the flow indicator. Use of the flow indicator'E3uld result in erroneous data.
- 22. Open RHR-MO-34A (Loop A suppression pool inboard throttle valve) to obtain close to the reference values for the flow (use RHR-FR-143)
, and head as indicated on Attachment "B", Page 3. Hold for 5 minutes and record data on Attachment "B", Page 3.
g 23. Verify that the flow and head are within acceptable limits before
$j.,- continuing.
3
- 24. Check' that minimum flew valve RHR-MO-16A closes as flow increases (at
- 2500 gpm).
- 25. Check that FCU FC-R-lJ for RHR Pump 1A and RHR Pump IC has started and TCV opens to control the temperature. .
- 26. Visually inspect the pump for oil or. water leaks .and excessive' vibration.
\
Note: Obtain the flow reading from RHR-FR-143. DO NOT use the flow indicator. Use of the flow indicator'could result in erroneous data.
- 28. Open RHR-MO-34A (Loop A suppression pool inboard throttle valve) to obtain 15,500 gpm system flow and record data on Attachment "B",
Page 3.
- 29. Verify that the flow and heed are within acceptable limits before continuing.
Procedure Number 6.3.5.1 Date t?./ / #5 Revision 21 Page 5 Of 8 Pager f
- +
. l 1
- 30. Close - RHR-MO-34A (Loop A suppression pool inboard throttle valve) to obtain 8000 gpm system flow.
C:s;Y . ,
- 31. Visually inspect the pump for oil or water leaks and excessive vibration.
Note: Obtain the flow reading from RER-FR-143. DO NOT use the flow indicator. Use of the flow indicator could result in erroneous data.
- 32. Place the control switch fo'r RHR Pump 1A to STOP. Ensure close to the reference value for RHR Pump IC flow. Hold for 5 minutes and ,
record data for RER Pump IC on Attachment "B", Page 4. '
- 33. Verify that the flow and head are within acceptable limits before continuing.
- 34. Close valve RHR-MO-34A (Loop A suppression pool inboard throttle).
- 35. Check that minimum flow valve RHR-MO-16A opens after
- 10 second time delay.
- 37. Close minimum flow valve RHR-MO-16A.
- 38. Close RHR-MO-39A (loop A suppression pool test line outboard isolation). .
- 39. Restore Loop A pressure maintenance system to normal:
- 40. Open RHR-M0-393 (Loop B suppression . pool test line outboard iso-lation).
j .
- 41. Secure Loop B pressure maintenance system, if the pump (s) will be run for any length of time, to prevent filling the torus.
"B", Pages 5 and 6.
1-
- 43. Start RHR Pump 13.
44 Check that minimum flow valve RHR-MO-16B opens
- 10 seconds af ter i the pump starts.
Note: Obtain the flow reading from RHR-FR-143. DO NOT use the flow indicator. Use of the flow indicator could result in erroneous data.
- 45. Open RHR-MO-34B (Loop B suppression pool inboard throttle valve) to obtain close to the reference value for RHR Pump 1B flow (use RHR-FR-143) as indicated on Attachment "B", Page.5. Hold for 5 minutes and record data on Attachment "B", Page S.
,w i kdh Precedure Number 6.3.5.1 Date .;$ /SES4 Revision 21 Page 6 Of. 8 Pages i
- -_ . _ _ . . _ . . . , . . ~ , . ,_. ._; _ _ _ . - .,_m. . _ , _ . . . - _ . , , , _ _ _ . ,
M 46. Verify that the flow and head are within acceptable limits before (W 7 continuing.
- 47. Check that minimum flow valve RHR-MO-16B closes as flow increases (at
- 2500 gpm).
- 48. Check that FCU FC-R-lH for RHR Pump 1B and RHR Pump ID has started and TCV opens to control the temperature.
- 49. Visually inspect the pump for oil or water leaks and excessive vibration.
- 50. Start RHR Pump ID.
Note: Obtain the flow reading from RHR-FR-143. DO NOT use the flow indicator. Use of the flow indicator E uld result in erroneous data.
~
- 51. Open RHR-MO-34B (Loop B suppression pool inboard throttle valve) to obtain 15,500 gpm system flow and record data on Attachment "B" ,
Page 5.
- 52. Verify that the flow and head are within acceptable limits before continuing.
- 53. Close valve RHR-MO-34B (Loop B suppression pool inboard throttle)
.s to obtain 8000 gpm system flow.
54 Visually inspect the pump for oil or water leaks and excessive vibration. -
, Note: Obtain the flow reading from RHR-FR-143. DO,NOT use the flow indicator. Use of the flow indicator could result in erroneous data. .
- 55. Place the control switch for RHR Pump.IB to STOP. Ensure close to the reference value for RHR Pump ID flow. Hold for 5 minutes and record data on Attachment "B", Page 6.
- 56. Verify that the flow and head are within acceptable limits before \
continuing.
- 57. Close valve RHR-MO-34B (Loop B suppression pool inboard throttle).
- 58. Check that minimum flow valve RHR-MO-16B opens after S 10 second time delay.
- 59. Place the control switch for RHR Pump 1D to STOP.
- 60. Close minimum flow valve RHR-MO-16B.
h.O t
Procedure Number 6.3.5.1 Date d-//- M Revision 21 Page 7 Of 8 Page:
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- 62. Open valves RHR-MO-12A and RHR-MO-12B (heat exchanger outlet) .
, 63. Restore Loop B pressure maintenance system to normal.
64 Restore RHR Loop A and RHR Loop B to standby status as per System Operating Procedure 2.2.69, Step VII.A.I.
- 65. Restore the safety system status panel to normal.
- 66. Notify the Shift Supervisor that the test has been completed and obtain signature. -
IX. ATTACHMDITS A. Not Applicable.
B. RHR Test Mode Operation Functional Test Data Sheets.
C. Figure I, Pump Curve Graph.
, D. Figure II, Data Point For Vibration Data.
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ATTACHMENT "B" SURVEILLANCE PROCEDURE 6.3.5.1 RHR TEST MODE SURVEILLANCE OPERATION FUNCTIONAL TEST C;3 ;?
PROCEDURE DATA CHECK
- 1. Obtained permission to start test. ,
- 2. Verified safety system status panel indicates test condition.
- 3. Opered RHR-138. - - - -
, 4. Observed water flowed freely. L
- 5. Closed RHR-138. '
i
- 6. Opened RER-124. -
l 7.
Observed water flowed freely.
- 8. Closed RHR-124.
- 9. Opened RHR-125. -
- 10. Observed water flowed freely.
l 11. Closed RHR-125. !
- 12. Che,cked RER-MO-13A, RHR-M0-13B , RHR-MO-13C, and RHR-M0-13D -- XXXXXXXXXX ,
open. '
- 13. Closed RHR-MO-15A, RER-MO-15B , RHR-MO-15C, and RHR-MO-15D.
- 14. Opened RHR-MO-66A and RHR-MO-66B. -
l
- 15. Closed RHR-M0-12A and RHR-M0-123.
- 16. Verified RHR-MO-34A and RHR-MO-34B closed.
- 17. Opened RHR-MO-39A. -- -- - -
- 18. Secured Loop A pressure maintenance, if necessary. '
~
- 19. Recorded RER Pump 1A and RHR Pump 1C inlet pressure. i
- 20. Started RHR Pump 1A. -
21.. Checked that RHR-MO-16A opened after + 10 second time delay.
g 22. Opened RHR-MO-34A, ensured system flow and head approximately XXXXXXXXXX ,
Qir equal to reference flov and head for RHR Pump 1A, held for 5 "- nnxYuXX minutes, and recorded data (flow obtained,from RHR-FR-143). <
- 23. Verified that flow and head are within acceptable limits.
- 24. Checked that RHR-MO-16A closed. - -- -
- 26. Visually inspected pump for oil or water leaks and excessive - -
XXXXXXXXXX vibration.
- 28. Opened RHR-MO-34A, ensured system flow and head"approximately -
XXXXXXXXXX i equal to reference values, and recorded data (flow obtained XXXXXXXXXX ,
r from RHR-FR-143).
- 29. Verified that flow and head are within acceptable limits. - - - ---- ,
- 30. Closed RHR-MO-34A; system flow 8000 gpm.
- 31. Visually inspected pump for oil or water leaks and excessive XX nx"YYX ,
vibration. - - - - - -- -
- 32. Stopped RHR Pump 1A, ensured approximately reference flow and XXXXXXXXXX head for RHR Pump IC, held for 5 minutes and recorded data XXXXXXXXXX '
(flow obtained from RHR-FR-143). - -
- 33. Verified that flow and head are within acceptable limits.
- 34. Closed RHR-MO-34A.
- 35. Checked that RHR-MO-16A opened af ter + 10 second time delay. --
- 37. Closed RHR-MO-16A.
- 38. Closed RHR-MO-39A. - - -- I
- 39. Restored Loop A pressure maintenance to normal.
b- /n 40. Opened RHR-MO-39B.
i Procedure Number 6.3.5.1 Date S. /8-#,., Revision 21 Page 1 Of 7 Pages
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6.3.5.1- RHR TEST MODE SURVEILLANCE OPERATION .
?-y'D N ' ,':<~;w TRVEILLANCE PROCEDURE ;,33 .' .,
- u -
FUNCTIONAL TEST .-
s
[.. .
DATA CHECK . . :. ; x., f ~
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PROCEDURE _
. Loop B pressure maintenance, if necessary. .
L-E;/4C _h@d.g
o ' ; * ; ::
- i RHR Pump 1B. -- _XXXXXXXXXX s .-
I that RHR-MO-16B opened held forafter 5' --
- 10 second time l
[ delay.RHR'NN$hff
.'N . .. h XXXXXXXXXX y
)
to reference flow and head for Pump 1B,s, and recorded data (flow - - - -
..,. f..
ob ed that flow and head are within acceptable limits. - - - - '
XXXXXXXXXX m . .. ,t 2: . ;
d that RHR-MO-16B closed. - l ' M .m - ~.b.
E
XXXXXXXXXX ._ A*C;:m.~.w, m-w- - .y m;;
ratura.
Lly inspected pump for oil or water leaks and excessive [ , f.' V f M ;- S 7
_XXXXXXXXXX e
. ion.
WSP.j,y,g%
-- c ad RHR Pump ID. - XXXXXXXXXX N .'. %. . ..
d RHR-MO-34B, ensured system flow and b i head approxictately - -
d y '.,
to reference values, and recorded data (flow o ta ne _
- ,y.
RHR-FR-143).
fitd that flow and head are within acceptable limits. ~ XXXXXXXXXX_
,f .gi %y ..g id RHR-M0-34B, system flow 8000 gpm. leaks and excessive MW6 '@
.m,,. f ..g. g v w tily inspected pump for oil or water -- -
G27.bg.
_ XXXXXXXXXX w ..
ition. - XXXXXXXXXX gy pad RHR Pump IB, ensured approximately reference ,
l flownaad (Q[NMh g j.- gope g y %..
f en;m.~. m.,<, g.r (flow obtained from RHR-FR-143). - table limits. g g g g .fi?.
.fied that flow and head are within accep W 3.P.: t'$
delay.
4d RER-MO-34B.
- kad that RER-MO-16B opened af ter
- 10 second time
~
cMNMh
- i.MQ7,y ' ' , .
aptd RER Pump ID. l_
tW 7%
3rd RHR-MO-163. --- '
sid RHR-MO-39B. -
~
'~
'[M. '%..Sn.N,2 . 22,C .c,/
nid RHR-MO-12A and RER-MO-128. l
$$YJ5M' torzd Loop B pressure maintenance to norma . - -
urnsd RHR systems A and B to standby status. j
$ r f*g;? QI ;
- cored safety system status panel to nor=al. l ted,
~
. SW?e QfHj&h
- ified Shif t Supervisor that test is comp e O cr t.4.Wif .i ..
INITIALS 3%p$h.hk $h%!
IR FLOW TECHNICAL SPECIFICATIONS LIMIT .T$ MEN.
IVED FROM Discharge Piping Vented At High *
~
Point And Water Flow Observed : 21N8?Nf.
e RHR-138 XD x x xLLLLLun _xi Discharge Piping Vented At High 'l, u.sW3.,.y 7. %v.
Point And Water Flow Observed .;{ ~ t XLLLLLLLLLun x xi Discharge Piping Vented At High j , f c. .f, <M~ #-
e RHR-124 !
.t Point And Water Flow Observed
- a RHR-125 I x.ux.uXXu x x x x x xX 1
h /. (;h INITIALS -.
l TECHNICAL SPECIFICATIONS LIMIT __
ag ,g. %rf FCU Unit Cooler Checked For Ooerability f j FC-R-1J Operates Normally Unit Cooler Checked For Operability j
N*. gf.e.v; s M.y hN:
s Operates Normally r5?.p.Eb.,,.@ .
FC-R-1H .y.,.,,..
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Page 2 _ Of 7 __ Pages M M .> .$
Revision 21 _
tus.bsr 6.3.5.1 _
Date d /8-8b
- - . _ , , , ,~ ~ ,n u v_ ,a m :;w
. - - - - .- - . ~ _ - . _- .- - . . -
) fQ g 7
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8 b. . , 4 .
f "et my o FUNCTIONAL TEST LOOP A 05,
- 2. '
REQUIRED INITIALS ,
c PUNP IA ' ALERT g
' g ' ACTION RANGE 7
ACCEPTABLE HANGE g REFERENCE p.
RANGE (b)
.F T VALUE None Required ACTUAL None Required p 8( ^ PARAMETERS 5_psig None Required 5" Hg Vac < Pi
< 0 psig; Pi < 5" Hg Vac g
m ump Inlet Pressure, Fib P
,(Before Start) 20 psig < Pi < Pi > 30 psig y c ,
3 O psig < Pi < 30 psig o g g 3 psip 7 ,_20_psig None Required _g g l
4 Pump Inlet Pressure, Pia t None Required None Required 7700 > Q > _ gm x v +
(After Start) 183 psig 8400 E>
2 Pump Discharge Pressure, _ 8000 gpm 7700 < Q < XXXXXXXXXXXXXX _
~
j 8400 .314 < V < E j
Pd (c) ~
~~
V > .628 -
E
.628
~
f _
V < 314
~
u g .25 in/sec .314 4 ~~ V < ~
V > .628 g Pump Flow Race, qPump Vibration Amplitude (VI) '
.628 '
- k V < .314' .314 < V <
~
P I Velocity in/sce (a) ~ ~
V > .628 '
E I i Pump Vibration Amplitude 628 ~
(V2) l V < .314 Range Not -
~
r velocity in/sec (a) 80 > A > 140
. "u Pump Vibration Amplitude I
- i
' Range Not Required ~
(V3) . Required ~1 62 < AP < 167 f> Io Velocity in/sec (a) 132 A 162 5 AP > 186 E f
';I O ~ 184 < AP < 186 g w
~
180 psid 167 < AP < 184 < 380 i '
Amps ._
, XXXXXXXXXXXXXXJ Tutt hg l
i ?; ~ TDH > 380 Pump AP ; 413 ft t l o
[ 1 M
IE E Total Dynamic Head, TDH* l REQUIRED INITIALS l j.j g j PUMP IA AND PUMP IC ' ACCEPTABLE ACTION RANGE g
- Tbil (f t) = AP x 2.3 W j [di f 7 REFERENCE VALUE RANGE (b)
None Required 1
~
,o 4 !? -f F
ACTUAL 3 psig 3_psig None Required h[
Ih l Ls,y M
}
PARAMETERS
_ Pump Inlet Pressure, 192 psig 192 psig None Required None Required
_y i gy Pi(A) /PI(C) < 15,000 __
o "s
Pump Discharge Pressure, 1 15,000 _
y, 15,500 gpm
![>M h Pd( A)/Pd(C) 134 A 133 A None Required None Required g!
g l
Pump Flow Rate, Q None Required jo, 189 paid None Required l $/[
189 psid i
_1
/ t@'i o Amps _(A/C) (TDH < 415 j gj J ; TDH 1 415 I
-i f w Pump AP (A/C) 1 435 ft t.fo; ]
f Ufk 7
hl j
y S
j Total Dynamic Head, TDH*
/ *TDil (f t) = [ AP(A) + AP(C)] .
1 Ml
~~:v x -
m.k. g.w g g_ _
(-
M.
g.
ggg maggy
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- . 6,. *~..gg; +~'r ' _> .
in i
@ bSLY H
- .o =
E FUNCTIONAL TEST LOOP A 08 t
l 7, ;
y,
-~
- U REQUIRED {
PUMP IC I
INITIALS Q E ACCEPTABLE I ALERT ACTION RANGE y .
'l REFERENCE f
RANGE 7
& I RANGE (b) p{
f g VALUE None Required f_ ACTUAL None Required PARAMETERS None Required 5" !!g Vac i Pi n M
4 psig
, ~
Pump Inlet Pressure, Pib i 0 psig; 20 psig < Pi <
Pi < 5" Hg Vac y 7 g (Before Start) Pi > 30 psig O
[
O psig < Pi <
- 20 psig 30 psig y ;
Pump Inlet Pressure, Pia 2 psig None Required None Required g ?
M g None Required 7700 > Q >
(After Start) 182 psig 8400 fp Pump Discharge Pressure, 8000 gpm 7700 1 Q 1 XXXXXXXXXXXXXX _
Pd 8400 .314 < V < >
y _ (c) 628 V> .628 o g Pump Flow Rate. Q V < .314 .
.314 < V <
' Pump Vibration Amplitude .2 in/sec - ~
V > .628 y E.
(VI) .628 y p.
Velocity in/sec (a) V < .314 .314 i V i _
5
}> ~ Pump Vibration Amplitude V > .628 L (V2) .628 E l
Y Velocity in/sec (a) V < .314 Range Not _
- r
~ Pump Vibration Amplitude Range Not 80 >*A > 140
'YJ Required g h O Velocity in/sec (a) (V3) Required 162 < AP < 167 130 A 162 > AP > 186 n>
gg 184 7 AP <_ 186 f Amps 180 psid 167 < AP < 184 I i
TDH < 390 N
- 2 i
XXXXXXXXXXXXXX Pump AP TDH 1 390 l
t , 413 ft i
> r i *
( LTotal Dynamic Head. TDlI*
h# yps
- TDli (ft) = AP x 2.3 i if
- h r'
y I Notes: ibration readings for each individual pump, Technical hS p< if p 17 .g "D" for location to take v See Attachment tance ranges must be met to sat s y I k. ( (a)
Pump flow rate and total dynamic head a cep E
s will be valid.
Obtain r
h p-
- $~ (b) l
- j f[ , 4.5.A.3.d. d to ensure the required pressure and AP va ue Use of the flow o j DO NOT use the flow indicator. #*
This value must be accurately duplicatecurate reading.
R (c) the flow from RHR-FR-143 to get an ac 2 f h} 9 could result in erroneous data. \
4
?$
vu U,(h -
+
i_k ,q. > , -
t[i ' n' f;. r
?. ':4'1
- ~k'- l ll, *-Q , Y l -
~
- :q i,Q } , ,..
\ ."y f
p d a n M
y g a-FUNCTIONAL TEST LOOP B
< rg. PUMP IB e
l y REFERENCE ACCEPTABLE ALERT REQUIRED i
- {; PARAMETERS ACTUAL VALUE RANGE (b) RANCE ACTION RANGE INITIAT.S g
}
, Pump Inlet Pressure, Pib .
Q i[q - y (Before Start) 5 psig None Required None Required None Required y a
m 5" lig Vac i Pi p
. < 0 psig; 20 psig < Pi <
,j Pump Inlet Pressure, Pia O psig < Pi < Pi > 30 psig d M
h (After Start) 4 psig 20 psig 30 psig Pi < 5" Hg Vac ib Pump Discharge Pressure, y-
- f Pd 184 psig None Required None Required None Required Q y
j g Pump Flow Rate. Q 8000 gpm (c) 7700 < Q <
8400 XXXXXXXXXXXXXX 7700 > Q >
8400 g-la g M Pump Vibration Amplitude -
.314 < V <
j*l Velocity in/sec (a) (VI) .13 in/sec V < .314 .628 - V > .628 il 62 Pump Vibration Amplitude .314 < V <-
j O Velocity in/sec (a) (V2) V < .314 .628 - V > .628
- y 9 Pump Vibration Amplitude . .314 < V < < ,
ij Velocity in/sec (a) (V3) V < .314 .628 V > .628 L.
- ( Range Not Range Not *
- .j Amps 136 A Required Required 80 > A > 140 -
]I j3 Pump AP . 180 psid 167 i AP < 184 162 i AP < 167 184 < AP i 186 162 > AP > 186 g
E
,' h 3 E 7 Total Dynamic Head, TDil* 413 ft TDH 1 380 XXXXXXXXXXXXXX TDil < 380 W
[ *TDH-(ft) = AP x 2.3 h PUMP IB AND PUMP ID j{j
, $ REFERENCE ACCEPTABLE REQUIRED ACTION RANGE INITIALS M
, . PARAMETERS ACTUAL VALUE RANCE (b) g i )/ ) None Required None Required f., g arge Pressure, None Required None Required 1 >
- a m
1 g
Pump Flow Rate. Q 15,500 gpa 2 15,000 < 15,000
!{
- f O Amps (B/D) None Required None Required h k* u Pump'AP (B/D) None Required None Required o
- 4 l{* TDH < 415 7 y Total Dynamic Head, TDH* 436 ft TDit )_ 415
- a. -. _,. ". _ ._ _ _ _
. , . l ji;, f 0en* k '.*
N y FUNCTIONAL TEST LOOP B "1' I
m h '
n a ~
I REQUIRED INITIALS $ ,
PUNP ID- ALERT ACTION RANGE Q
$ l REFERENCE I ACCEPTABLE RANGE i
VALUE RANGE (c) None Required p{
$) '
ACTUAL None Required n None Required 5" lig vac i Pi .;
PARAMETERS 6 psig lM
, Pump Inlet Pressure, Pib i0psig; 20 psig < Pi <
Pi < 5" lig Vac _
y@
n Pi > 30 psig @
(Before Start) .
O psig < Pi < 30 psig y p 20 psig_ g x f
4 psig__ None Required None Required m *p Pump Inlet Pressure Pia -
None Required 7700 > Q > c (After Start) 184 psig 8400 7700 i q i E
}
Pump Discharge Pressure, 8000 gpm XXXXXXXXXXXXXX ~
~
b 8400 .314 < V < ~
V > .628
g Pd (c) 628
~
e 5
g: V < .314 .314 < V < 628
~
I Pump Flow Rate Q .12 in/sec ~
V> '
[ $,
~
d i l , Pump Vibration Amplitu e 628 2-Velocity in/sec (a) (VI) V < .314 .314 < ~ V < ~
V > .628 fu Pump Vibration Amplitude 628 c
(V2) V < .314 F
h8 -
f Velocity in/sec (a) _
Range Not 80 > A.> 140 Range Not Required i
5 h D Pump Vibration Amplitude Required _
g 7 4
Velocity in/sec (a) (V3) 162 < AP < 167 3 131 A 167 ~< AP <- 184 _
184 T AP <- .186 -
162 > AP > 186 _!
jgm [
180 psid TDil < 380 H i
- j ~
Amps 1 l
- _ j XXXXXXXXXXXXXX 3
g TDil 1 380 hm
~
-I E Pump AP 414 ft g m Total Dynamic Head, TDH* g
.' ha d
i;
- TDll (f t) = AP x 2.3 8
@h e M dividual pump. ha
- I vibration readings for each in
- c. Notes: take
, f};.
o for location to Section g
(a) See Attachment "D"
?
Rl. tisfy Technical Specifications lh h b : y m ,
y IRD Vibration Heter Instrument Num erhead acceptance ranges must be met Obtain to sad
- Q r 9 (b)
Pump flow rate and total dynamic and AP values will be valid.
.,[v- 3 4.5.A.3.d. licated to ensure the required pressureDO NOT use the flow indicato l,d. (
m This value must be accurately dupet an accurate reading. J
- -l
u (c) the flow from RllR-FR-143 to g j! .
l .. t i y could result in' erroneous data. ,
5,i -
E'-
. / w .' ., l
.qQ. r,)..,; .:.;<..
-..., ". .n Q ,
y9:th '. ;
y ' ,s , .c J e'g[. :
- 'gV. .- . .,y
- ~ cr '
!. f.9.*
[ tuurta aucucas stativa urcantions naauan ATTACNMENT"B"SURVEILLANCEPROCEDURE 6.3.5.1 RHR TEST MODE SURVEILLANCE OPERATION FUNCTIONAL TEST Discrepancies:
Operator -
/
Date Shift Supervisor / Permission To Sta,rt Date Shift Supervisor / , Test Complete And Reviewed
~Date Shift Supervisor / NCR Written If Required Date Work Item (s) Initiated If Required Reviewed By / _
Date IST Review / Analysis Of Test Data, Comparing Date To Allow Ranges IST Review / Summary Of Corrective Actions If Date Required IST Review / Subsequent IST And Confirmation Of Date Operational Adequacy NN!-
Procedure Number 6.3.5.1 Date .# /,f'-5)6- Revision 21 Page 7 Of 7 Pager
f .
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- COUPtn NULLEAM 31A11Ua Urrna11063 c:anuat, ATTACHMENT "D" SURVEILLANCE PROCEDURE ' 6.3.5.1 RHR TEST MODE SURVEILLANCE OPERATION FIGURE II DATA POINT FOR VIBRATION DATA
< m e; \ /
Vd B
.' f 3 6 i Horizontal * (V2) L Horizontal * (VI )
( )
Vertical (V3) ,
1=
. l .
Suction Discharge I I
- Vi And V2 Are 90" Apart
? \
i l
Procedure Number 6.3.5.1 Date d E(a Revision 21 Page 1 Of 1 Page- )
i
. . . . _ _ . _ . _ - . . _.-. . . . .- - ---.. .