ML20008D787
| ML20008D787 | |
| Person / Time | |
|---|---|
| Site: | Midland |
| Issue date: | 01/13/1969 |
| From: | CONSUMERS ENERGY CO. (FORMERLY CONSUMERS POWER CO.) |
| To: | |
| References | |
| NUDOCS 8007300699 | |
| Download: ML20008D787 (7) | |
Text
.
TABLE OF CONTE?,TS Section M
13 INITIAL TESTS AI;L OPERATIO!;
13 1 13 1 TESTS FRIOR TO REACTOR FUELI?i3 1.2 1 13 2 INITIAL CRITICALITY 1.2. _,
13 3 POSTCRITICALITY TESTS 13 1 l
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71:1, pa,e 13-1 P ePaeling Test Prozra:
.; a 13-2 Engineered Safeguards Test Progra:
13-3 Posteriticality Test Progra:
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A cc prehensive field testing progra: fer the Midland Units '. and 2 vill te conducted to insure
- hat equipment and systers perf0r: in accordance with design criteria.
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fueling. As the installation of individual ec:ponents and systems is cc -
pleted, they will te tested and evaluated. H e testing progra: vill te per-ferred acc0rding to detailed predetermined testing techniques and procedures.
Field analysis and =cre detailed Office analysis cf test re:ults vill te made te verify that systems and eceponents are perfor=ing satisfacterily or to recc end necessary correc*ive action,
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electrical, and operaticnal.
Operaticnal tests vill involve actual Operation of the syste and equipcent under design ecnditions er simulated design conditions. Functional tests vill verify that the syste cr equipment is capable of perfeming the fanction for i u.. c.a.
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F.ngineered safeguards of each nuclear unit vill be tested as part of the Fre-P.2eling Test Progra defined a.d sn-e-iced in Table 13-1.
H e engineered I O) safeguards pertions of the planned precritical tests are cutlined in Table
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'~ne Objective of each functional tes is to determine that major cc:ponents are prcperly activated by safeguards signals and : reasure perfer:ance fer cceparison with ec ponent specifications and the syster requirements p. esented
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perferrance cf systers in each cf their operating =0 des.
13 2 IRITIE CRITICALITY Fuel Iceding vill begin when all prerequisite unit tests and cperat. tens have been satisfacterily completed and the facility operating license has been Ot-tained. Core ec penents will te 1:aded in a predetermined sequence.
Changes in ecre suberitical cultiplication vill be reasured and evaluated; a detailed checkcff list vill te followed; and periodic checks vill be made to insure proper status of all equiptent, conditions, and ccre components.
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A ceries Of posteri:1cality testa vill te conducted at ambient and hot zero pcVer and at varicus power levels. Sese tests vill be used to evaluate reactivity coefficients, control red reactivity verths, and the reactivity worth of xenen-135 De reacter c clant system flev vill te evaluated, and the external and in-ccre nuclear instrumentation systems vill te calibrated at various power levels.
~he unit response characteristics to step and ra:p lead changes vill be evaluated, and the centrol syste=s vill te adjusted as Nw 12 1 o;
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required. A cc plete ticlogical shield survey will te conducted. Field analysis and a : Ore detailed Office analysis cf test results vill be made.
Tne posteriticality tests are su.arized in Table 13-3 I
Taile 13-1 P e^aeling Test Progran
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Pan:-
Elec-Opera-Hydre tional trical tional t
1.
Reactor Building and Fenetrations t
Iwak Rate Test x
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Electrical Sys;ess x
x 3
Centrol Bod Drives x
x L.
Cceponent Cooling Syste:
x x
x 5
Ieeay Heat Ee: val Syste:
x x
x x
6.
Pressuriner Qaench Tank x
x T.
Eesctor Coolant Syste Eelief l
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x x
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x x
10.
Makeup and Parificatien Syste:
x x
x x
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Reactor Coclant Panps x
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Reactor Coolant Syste x
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Table 13-1 (Centc) 1:
J Tyre of Test l
Panc-Elec-Opera-Hydro ticnal trical tional
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x x
- 18. Core Flooding Syste:
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x J
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20.
Pael Handling Syste= for Aux-iliary Building x
x x
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Area Radiation Monitoring Syste=s x
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Initial Fuel Leading-x
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Table 13-2 Engineered Saferaards Test Precra:
i 1.
High-Pressure Injection e
Panctional test for initiation and perfor ance of valve operators and a.
pumps.
I b.
Operational test for initiation, delivery cf high-pressure injecticn flow, and syster control in each redundant safeguards operating mode.
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Low-Pressure Injection a.
Panctional test for initiatica and perfor=ance of valve operators, l
pumps, and heat exchangers. Heat exchanger testing vill cover the specified range of flows and te=peratures.
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Operational test of initiation, delivery of lev-pressure injection fic1*, at.d systen control in each redundant safeguards mode and the on-line test node.
3 Service 'n'ater Systems Functional test for initiation and performance of valve operators, a.
pumps, and heat exchangers.
b.
Operational test for initiation and performance of each ecoling loop.
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^ere Floodin:_ Tanks
' Functional test for remote operation cf step valves, opening of check valves, and test of nitregen cover-gas pressure control.
5.
Peactor Building Air Recirculation and Cooling Syste:
Functional test for initiation of valve operators, pumps, and fans.
Occl-ing water flow in each cooler to be verified.
6.
Reactor Building Spray Syste:
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's Functional test for initiation and performance of valve operators and a.
- pumps, b.
Operational test for initiation of spray pu=ps.
Establish proportional rate of spray water delivery to spray headers (with return through test line). De:cnstrate flow through spray heads using air or smoke. De:-
enstrate operation with pump suction taken from borated water storage tank.
T.
Reacter Building Isolation Functional test for closure of all valves on prescribed reactor building penetrations. Test to include operation of valves normally open only for specified short-ter: functions such as in the purge system and the e er-gency sump drain lines. Building leak rate at design pressure to be established.
S.
Inte rated Engineered Safeguards Test Functional test to demonstrate sequencing of active eczponents in high-pressure injection, low-pressure injection, service water cooling, re-actor building air coclers, reactor building sprays, and reactor building air recirculation and cooling in response to actual er simulated signals.
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