ML20085C592
| ML20085C592 | |
| Person / Time | |
|---|---|
| Site: | Saxton File:GPU Nuclear icon.png |
| Issue date: | 08/17/1961 |
| From: | SAXTON NUCLEAR EXPERIMENTAL CORP. |
| To: | |
| Shared Package | |
| ML20083L048 | List:
|
| References | |
| FOIA-91-17 304C, NUDOCS 9110040030 | |
| Download: ML20085C592 (8) | |
Text
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8/17/61 PRE. OPERATIONAL TEST NO. 304C CC300tGNT COOLING SYSTDI OPERATIONAL TEST I.
Purpose To test the operational performance and the maximum capabilities of the Component Cooling Byste:n.
II. General Test Method Operate the component cooling pumps, checting all system instrumentation including automatic controls.
III. Conditiono
.r 1.
he component Cooling System has been hydrostatically tested and the safety valves checked for perfomance.
2.
Se system has been filled and vented with chemically correct water.
3 Control air is available.
4.
AC and DC power supplies are energir.ed.
5 Re River Water System is available f or service.
6.
he following equipment has been checked out:
Manual Valves
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n40 V153 V171 V390 141 155 172~
391 142 156 177 396 143 157 178 397 144 158 180 398-145 159 271 399 146 160 272 405 148 162 273 406 149 163 274.
423 4%
130 168 261 423 152 169 345 V-4,_
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l Component Cooling Burge hnk indication and alarm.
Flow, pressure, and temperature channela.
local indicating temperature Enge8-W 21 W 22 W 23 W 24 he strainer - It m 412-3 Component Cooling Pumps No.1 and No. 2 IV.
Procedure l
i A.
he Main Coolant System is in a cold condition.
1.
Follow the valve line-up as listed in the pre-etartup check-off list for Operating Instruction No. 422, Operation of the Component Cooling System.
(No. 1 Ca ponent Cooling Heat Exchanger in operation-No. 2 valvedoff).
I 2.
Adjust the temperature controlled valves in the Component t
l cooling outlet lines from the non-regenerative heat exchanger and abutdown cooling heat exchanger'to full open.
3 Start up No. 1 Ccaponent Cooling Pump.
4.
Observe indicating lights on the console change green off -
l red on.
l 5
observe flow alam lishts clear.
6.
Position No. 2 Component Cooling Pump selector switch to
" automatic".
7 observe and record all flow, pressure and temperatua readings 2
on the' data sheet.
(Bubsequently to be referred to as "Take l
readings").
8.
Set the flow to the main coolant pump jacket to 30 gps.
9 Close the component cooling inlet valve to the non-rennerative
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heat exchanger.
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- 10. Take re nsa.
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- 11. Open the component cooling inlet valve to the non-regenerative heat exchanger; close the component cooling inlet valve to the almtdovn coolant heat exchanger.
- 12. Take readings.
13 Open the componet cooling inlet valve to the shutdown cooling-heat exchanger; fully open component cooling to main coolant Pump.
- 14. Place No. 2 component coolant heat exchanger in service parallel to No. 1.
15 Take readings.
- 16. Remove No. 1 component coolant heat exchanger from service.
17 Take readings.
- 18. Slowly reduce flow from component cooling pump No.1 by closing l
the valve in the discharge line of the pump.
19 Observe and record the flov at which component cooling pump No. 2 automatically starts.
20.
Observe the component cooling ppap No. 2 indicating lights on the console changet green goes off, red comes on.
- 21. Acknowledge flov alarms.
22.
Stop component cooling pump No. 1 before heating and flashing occur.
23 observe component cooling pump No. 1 indicating lights on_the-db console change: red goes off, green ecues 3
- 24. Observe flow alarus clear.
gg 25 Open component cooling pump No. 1 discharge valve.
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- 26. Fesition component cooling pump No. 1 selector switch to
-.g "autcentic".
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30kC:4 8/17/61 27 Take reading 8.
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- 28. Set the flow to the main coolant ptusp jacket at 30 gym.
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29 Close the component cooling inlet valve to the non-regenerative heat exchanger.
- 30. Take readings.
- 31. Open the component cooling inlet valve to the non-regenerative heat exchanger; close the component cooling inlet valve to the o
"' D' shutdown cooling heat exchanger.
- 32. Take readings.
33 Open the component cooling inlet vnive to the shutdown cooling heat exchanger; fully open component cooling to the main coolant puro.
34.
Place No.1 component cooling heat exchanger in service parallel to No. 2.
35 Take readings.
- 36. Remove No. 2 component cooling heat exchanger from service.
l 37 Take readings.
+
- 38. slowly reduce flow from No. 2 component coolant pump by closing l
l the valve in the discharge line from the pump.
l 39 Observe and record the flow at which No. 1 component coolant
. pump autcanatically starts.
40.. Observe the No.1 component coolant pump indicating lights on H9tiv
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the console change: green goes off, red ccanes on.
ig - 41. Acknowledge flow alama.
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- 42. Stop No. 2 component coolant pump before heating and flashing ;
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occur.
I 43.* '. observe component coolant pump No. 2 indicating' lights'on the [ D l
console change: red goes off, green camey 3.-
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..y, 44 Open component cooling pump No. 2 discharge valvt h5 Start component cooling pump No. 2.
- 46. Take readings.
47 Place companent coolant heat exchanger No. 2 in service
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parallel to component coolant heat exchanger No.1.
- 48. Take readings.
49 Re:nove cceponent coolant heat exchanger No.1 frcan service.
50.
Take readingc.
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- 51. Shutdown the Component Coolant Bystems; place control valras a.g44t.
TIC 21 and 22 in automatic.
MI' B.
'1he Main Coolant System is in a Hot condition.
1.
Start up the Cmponent Coolant System with Component cooling pump No I and ccamponent coolant heat exchanger no.1 in service.
2.
Adjust coc ponent cooling flow to the main coolant paap to 30 gpn.
3 Fully open the valves in the inlet line to the radiation monitor RIC 4; fully open the valve inside the vapor container.
f in the outlet line frca the monitor, and throttle the flow to l
about 1/2 using the globe valve in the outlet line located l
l outside the vapor container.
l 4.
Provide various feed and bleed raten using the Charging flystem for the following steps.
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Take reading::.
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6.
De-energize component cooling pump No.1; component cooling pump No. 2 vill start. Racobtheflow.
- MIN 7
Take readings.
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8.
Place component coolant heat exchanger No. 2 in servise and
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remove component coolant heat exchanger No.1 from service.
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Take readinge.
De.ener6 tc component cooling pump No. 2; ecaponent cooling 1
10.
pump No. 1 vill start. Record flov.
- 11. Tnke readingc.
Position the selector evitch for the three-vay valve in the feed 12.
(TIC 2W) to " AUTOMATIC in order to by-pass the regenerative linc beat exchan6er (see 0. 1. 407 - Reactor Cooldown).
wi Take readin6s for the various, feed and bleed flows as provided 13 Line up the various compaaent coolant in Step h preceeding.
system components an in Steps 1 through 11.
- 14. Reposition the three-vay valve to normal.
When the Main Coolant System conditicru 1.armit, start up the 15 Shutdown and Coolirg Byutes.
- 16. Take readings.
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~2. No. 1 pump; No. 1 Heat Exchanger Flov to Secondary Coolant 10 30
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- 3. No.1 pump; No.1 Haat Exchanger Flow to Non-Regenerative 12 30 Heat Exchenp r
- 4. No. 1 pump; No. 1&2 Heat :hchanger; Pull 15 Plow
- 5. No.1 pump; No. 2 Heat Exchanger Full 17 Flow
- 6. No. 2 pump START 19
- 7. No. 2 pump; No. 2 Heat Exchanger g7 Full Flow DI No. 2 pump; No. 2
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.9est Exchanger Flov to Secondary Coolant 30 30
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- 9. No. 2 pump; No. 2 Hest Exchanger Flow to Non Regenerative 32 30 H:st Exchanger
- 10. No. 2 pump; No. 2&l Heat Exchanger Full 35 Flov l 11. No. 2 pump; No. 1 i
Heat Exchanger Full 37 Flov
- 12...No. 1 pump START 39
- 13. No. 1&2 Pumps; No. 1 gg3 Esot Exchanger Full M
Flov "NNYs l 11. No. lA2 pumps; No.1&2 Exchanger, Full 48 sg
- 15. No.1&2 pumpa; No. 2 Rest hahmer Full 50 Flov
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Manyr Flow to Non-5b 10 Regenerative Beet Sc 15 ~
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