Text

Unit Startup & Power Escalation Test, Revision 0
	ML19308B785
Person / Time
Site:	Crane
Issue date:	03/25/1978
From:	Gatts C; GENERAL PUBLIC UTILITIES CORP.
To:	;
Shared Package
ML19308B775	List: ML19308B774; ML19308B781; ML19308B785;
References
	TASK-TF, TASK-TMR SP-800-21, NUDOCS 8001170307
	Download: ML19308B785 (105)
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FRELI.*'I :ARY REVIEW MEETII;G: Date MI!!UTES OF F.EETI!;G NU".3ER L G ATFF.DVAL FOR PEr,FO.:.A::Cc-r

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v TEST RESULTS: Acceptable with the following test excepticas and ceficiencies-2 1-W Technical Engineer

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v TWG AFPROVAL OF TEST RESULTS:

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A-E TWG Representative ET; CLOSURES:

1.

Test Execption and Deficiency List 2.

Fever Escalatien Eequence 3.

Mechanical 2nuvering Limits 4

Fewer Level Extrapolatiens 5.

Pressuri cr Level vs F.CS TAVE 6.

F.cactineter E ekup 7.

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c' N 1.1 To provide a requence for testing during pcuer cccciction hich ctver the entn:stien of the rea: cr and total unit p -cr f rem 0 to 100 pc ccnt full pcwer. The rpecific nethods s.nd precedures

!6 sed to cpercte Unit II during escalation and detailed c.cecptance f

criteria cre cet forth in the :pprepriate cperatif.g and test procedures.

s 1.2 To previde a pcwer escalation sequence that is officient in ter.,s of execution tine and : eets requirc=cnts of the i:?.C initial start-up program test guide.

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"Dil L51T Il SP 600/21 Effective Page O Panc 'l l

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- o' 2'.0 L TIPI?.D:CES

-2.1-Tcs: Procedures 2.1.1~

SP 6*:0/28 C:ntrelling Trocedure for HPT

' 2,.1. 2 TP 710/1 "cro Power Plysics Tc.st l'

?.1.3-SP 710/2 Centrolling Procedure for Test Puel Lead Pre-Critical Testing

.2.1.4 TP 500/3-'

Initial Radiochemistry Test t

2.1.5 TP 800/2 1:ucicar Instrumentation Calibration at Power 2.1.6 TP 600/3 Diolchical Shield Survey

. 2.1.7 TP S00/5 Reactivity Coefficients at Power 2.1.8 TP 800/7 Feed System Operation and Testing 2.1.9

.SP E00/8

. ICS Tuning at Power 2.1.10 TP S00/9 Turbine Cencrator Operation and Testing 2.1.11 TP 800/11 Core Power Distribution

_ 2.1.12 TP E00/12 Unit Load Steady State Test 2.1.13 TP 800/14 Turbine /ncactor Trip Tests 2.1.14 TP 800/17-Unit Acceptan'ce Test 2.1.15 TP S00/18 Power Imbalance Detector correlation Test 2.1.16 TP B00/20 Rod Reactivity 'n' orth Measurement

.2.1.17 TP 800/22

!;SS heat Ealance 2.1.13 TP S00/23 1* nit Lesd Trensient Test OFtiCiAL FED CCF

' 2.1.19 TP.500/24 Incore Detecotr Testing 2.1.20 TP 800/31 Tscudo Dropped Rod Test

- 2.1*.21 TP 800/32 Loss of off-Site Pcwer g

Duplicek Pega 2.1.22 TP'800/33 Pseudo Rod Ejection Test TMI C!IT II-SP 800/21 Effective Page 0 Page '2-Seh e et ee' e, Ms eeg g sm eo fw.,,,,

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.2.'O' RIIIFINCES~(Cent'd;)

2.1.23 TP 500/24

[Cencrator' Trip Test

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2.1.24' TP EC0/35' Effluent end Effluent Mon?tering Syste: Test

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2.T.25 ~TP ED0/36'

?shutdern frc: Outside_ccntrel Room 12.1.26 Sr 147.25 OTSG Data Collection

-2.1.27 SP 193.21 TG Initial Operatien 2.1.2S TP 211/l Secondary Plcnt Sampling System Tunctienal Test 2.1.29 SP-365/2 Loose Parts Monitor 3'aseline Data Acquisition 2.2

. Operating Procedures 2.2.1

.2101-1.1 Nuclear Plant Limits and Precautions 2.2.2 2102-1.3

' Unit Startup.

2.2.3 2103-1.10 Heat Ealance 2.2.4 2103-1.9

' Reactivity Eclance

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2.2.5 2103-1.11 Eand Calculaticas for Quadrant Pcwer Tilt and Icbalance 2.2.6 2106-3.1 Turbine Generator 2.2.7 2106-2.1-

' Condensate System 2.2.8-

.2106-2.4 Feed System 2.2.9 2106-1.4 Gland Steam C *E 5[ C: E'.!-.P C i ] (' U g' v N-

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'Energency/ Abnormal Procedures 2.3.1 2203-2.1 Lead Rejection DapHeate page O

2.3.2 2202-2.1 Station Blackout

.2.3.3 2203-2.2 Turbine Trip 2.3.4 2202-1 l-Reactor Trip-2.3.5~

2202-1.10 Shutdown Pres outside Centrol Room TMI UNIT II l

SP E00/21-Effective Page 0 Page_3-7.-...-..

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2.4 T c-T.c:;uisite List sr Initial Criticality cnd Pcwcr C eratien 7

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..= 3 2.6 US ;hC T,cgulctory Guide 1.68 - Pre-Opcretienal and Initial startup Test Fregre. for hter Cooled Fcuer T.cscters, ':evc-ber 1973 2.7 TMI-II Technical Specifications.

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. s-4.*0- ilz?.IQZ EITES 4.1 Tests 4.1.1

-SP 600/28 - Centro 11ing Prociedere for EFT completed cnd cny cutstanding de" cic.c'.s included in SP E00/21.

Signature Date 4,,/

7 p-4.1.2 TP 710/1 - Scro ?cuer Th; sics Test ec=pleted and zny outs.tanding deficiencies included in SP E00/21.

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4.1.3 SP 710/2 - Centrolling Procedure f or Post Fuel Lead Precritical Testing cc pleted and any outstanding deficiencies included in SP S00/21.

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4.2

. Construction Cc=pletion Status Construction co=pletion is as specified in the Frerequisite List for Initial Criticality and Power Escalation Signature 0:O 8&$YE Date Y. / 7-7 Y

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j' 4.3 Environmental Conditions Ambient Signature N-C' + _

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4.2 Censtruction Cecpletion Status Construction conpletion is as specified in the Prerequisite List for Initial. Criticality and ?cuer Escalation 4!r 7 [)[

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4.3 Environnental Cenditions 12bient 9 f() f3 V Signature y

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i 5.0 TEST EQUIIICIE 5.1 1.s ret;utred by ir;dividual test procedurcS-1

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610 ' I 2:IT/sT10::S A::D~ FnICA*cT1C::S 6.1; As required by the individual test procedures, and the nernal unit
-eperating procedures.
6.2 Rated care thernal eutput is defined as 2772 !GI (100:). The heat
' r.put from cach RC pap is 4 ST.
Therefore, the total power to the i
CTSC(s) is 27SS ET at 100 full'pewer.
'6.3.
Each power level centioned in this procedure is the actual cora thernal output as determined by a heat balance calculathn.
In order to ensure that the nuclear instrumentation prevides an
' accurate indication of actual core power, the power range nuclear instruments should be recalibrated in accordance with :uclear Instrumentation Calibration at Power, TP 800/2, or Met-Ed Surveillance Procedure whenever they disagree by more than 2% FP from the heat balance derived core power value.
6.4 In the event that any criterion is not met or a test yields question-e able.results, an evaluation vill be made before proceeding with power escalation..
6.5 Pcwer escalation rate from one power level to the next power level shall be f, Encicsure 3, Mechanical Maneuvering T.ecc =endatiens, until the ICS settings are verified or adjusted to within acceptable limits by' TP '800/8, ICS Tuning at Power, and the initial escalation is
. completed. Afterwards, a rate of one-half percent FP/cin. =ay be s
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6.0 1.IX1TATIONS J.U. P?dCalTIONS-(Cont'd.)
exceeded'enly if it is a specific requirc=ent cf an efficially app:eved tect procedure and the' designated ICS tuning cc-ordinator las evclusted ICS perfcr=ance at the ncv rate.
5 6.6
-In general, do not chance 1 cad on the turbine generator at a rate greater than one-half percent FT/=in. c less explicitly alicwed by an of ficially approved test procedure, and without censulting the 1 cad change curves in the - turbine manual.
6. 7 --
Prior to escalation to the next power plateau, overpcwer trip
-setpoints should be adjusted to trip at the indicated reactor power levels listed below, in accordance with TP 800/2, NI Calibration at Power.
Test Power Plateau Overpower Trip Setpoint (Percent FP)
(Percent FP) 15 50 40 50 75 85 '
100 104.75 6.8 Sefore escalating from one major power plateau to the next~ (cajor l
power plateaus are 15, 40, 75 and 100: FP), ceasured value of-
=ax.
linear. hcat rate must be extrapolated to the overpower trip setpoint of the next major pewer plateau by f ollowing the pro-
.cedure in Enclosure 4.
Operation nust be limited to the power level specified in Enclosure 4.
Measured va1ue of F and F[h at cach najor q
pcuer plateau nust be within the acceptable regien of its respective
. Enclosure '4 curve prior to power escalation.
6.9-Tnuns operating both letdown coolers, both intermediate cooling pumps and inter cdiate coolers cust be in operation.
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a 6:0 L2'ITATIC"S.'5D I FICAUTIC"5 (C:nt 'd.)
.6.10 Quadrant tfit shall he tenitored on a mininen frequency of ence every 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months during pcver cperatica above 15% FP.
- 6.11 The reactor centrol rod perition and baron concentration shall be
=rintained such that th'e reactor vill be have at 1 cast 2% delta k/k shutdcen nargin wish the most rcsetive control rod stuck cut whenever the reactor is critical.
' 6.12 - For operatien belew 5% reactor pcuer, maintain OTSG level at the low level linit.
At the same th=e, fully open the bypass line around the feedwater control valves, and control level by the lever tubesheet drains, turbine bypass valves or feedwater startup valves as required.
6.13 In order to have as ' accurate a record as possible of any spuricus or unplanned trips or power excursions, the reacti=eter should 'be centinually recording data in accordance with Enclosure 6 whenever
neutron power is in the power range except when its use is required for the preparation / execution / data processing of a particular test.
P 6.14 The specifications for the secondary plant te=porary strainers are listed belev. These strainers should' int c1 caned at first opportunity f
A.
when the' respective delta-p dictstes.
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Strainer -
PSID Requires-MAX
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Location CLEAMING PSID k]I
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Condensate Pc:p'Suetion-5 20 nJ L2J Condensate Booster Suction 10 30 o
LL tn Heater Drain Suction
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Feedvater Suct, ion 10 30 t[(.
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' Turbine Throttle Valves 88.5 0
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' Effective Page O Page 10
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s-6.D LNGTATIO ;S A'O PT.ICAuTlCNS (Cont'd.)
6.15 Tech Specs. specify certain requirements which r.ust be observed except during the perfcmance. cf special physics tests. The tests
, in this pcwer escalatica pregra.i which are defined as physics tests ara TP. 500/31 and I? S00/33.
6.16 In the event of a reactor trip, the reactor trip report will be cenpleted prior to restarting the reactor. An investigation into the circu= stances of. the trip will be conducted and concurrence from the unit Superintendent or his designate that reactor startup can proceed safely shall be obtained. The reactor trip report will list the causes of the trip-(if knova) and give the corrective actiens taken to prevent recurrence.
6.17 Notify the load dispatcher whenever the electrical lead is to be changed.
i 6.18 Note that unless otherwise specified, the following tolerances should be observed for all reactor powers specified as a steady state power level in this procedure and in the individual 800 series procedures:
(a) For-reactor powers below 100% FP. tolerance is "specified pouer" l
i 2% FP (b) - At '100% full pcwer, the tolerance is - 100% + 0%/-2% FP
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17t0' IL/ d STAT'JS:
d.l. ' Set up the ICS per.2105-1.4 c>:c cp t as f ollc s :
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High Load ' Limit -
1 E 5 ?".'e Lead F. ate of Change 0% O!'n. Vclue)
NOTE: The~ high load limit chall be raised to alle cscalation to proceed to the rc>:t plateau but not c::cced that platesu by
~
more than '10% full pcuer.
. Load rate of. change vill be established by the mechanical 6
nanueve-ing limits cnd the ICS tuning coordinator
. Signature '. %
Date,,/7 / b i
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-7.2.
Set pressurizer ivel setpoint at 100 inches.
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7.1' Set _up the ICS per 2105-1.4-except as follevs:
?.ig' Lead Linit I ? 5 L'e -
Load Tate of Change 0% G'in. Value)
HGri.: The high -1 cad li=1t shall be raised to allev escalatien to proceed to the next platcau but not cxceed that pir.tcau by mere than 10% full power.
Lead rate'of change vill be established by the z.echanical
.anuevering lir.its and the ICS tu.ing ceerdina tor.
Signature et/ h (_
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u 7.2-Set pressurizer level s tpoint at 100 inches.
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E.0 P*.ET,EQUISITE SYSTEM CCNDITICNS
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2
-S.1 The rcactor is critical at abcut 10-8 acperes en the inte= edinte
'rense nucIcar instr =.catetica with the follovi :g centrol rod
~
- configuratica:
- Creups 1 three;;h 5 100:: withdrawn Groups 6/7 c40:: vithdrawn Croup 3-
=37. 5 : withdrawn (M'aintain 0 imbalance)
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Signature
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8.2 One main feed ate-rpr:p is in e cratien.
Signatur&
Date # / 7 <[
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8.3 CAUTION
IF EDTH LETDOW COOLERS ARE IN SERVICE, 50Tii INTEF. MEDIATE COOLING PUMPS AN'D COOLERS MUST SE IN OPERATION.
Both letdown coe ers, (if available), have been place in service.
i l
Signature L _ ~
Date N7 7,F l
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8.4 The capability of the unit computer to' support the power escalation tests has been verified by the MIX 36 series co=puter system tests.
Signature A 5Wb.jYi V- / ? -) V Date l
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8.5
' OTSG levels being maintained at the low level limit i
ith the bypass. line around the f eedwater control valves f ully open t
-w
- and controlling 1e.cl by opening the le'ver tubesheet drains, turbine bypass valves c
.edwater sta tup valves as required.
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FiS 0 C O P Y TMI l' NIT II s-SP 800/21 l
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? (0 -??II.IQU! SITE SYSTEM CON 31TICNS 8.1 The reactor is critical at abcut 10-8 anperes en the inter ediate range nucicar instr =entatics with the fellcuing centrol rod configuraticn :
Groups 1 throu;;h 5 100% vithd r n
>5a Ed Creups 6/7 6-9E vi:hdrrun Group 8 c37.5% vithdrawn (Paintain 0 inhalance)
Signature
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/e Este Y' l S? T 8.2 One nain feedvater punp is in operation.
Signature M2-Date 9 -/f' 77 0
8.3 CAUTION
.IF 30TH LETDOWN COOLERS A?2 IN SERVICE, 30!H INTE?.MEDLCE COOLING ? UMPS AND COOLERS MUST BE IN 0?ERATION.
Both letdown coolers, (if available), have been placed in se:vice.
Signature
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8.4 The capability of the unit conputer to support the pever escalatica tests has been verified by the 1GX 36 series cenputer systeri tests.
Signature C.
Date
9. / F-77 U
8.5 GTSC levels being caintained at the icv level linit with the bypass line around the feedvater control valves fully open and controlling level by cpening the icver tubesheet drains, turbine bypass valves or f eedwater startup valves as recuired.
Signa:ur e Mk
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8. 6. All ICS-control'stetiens are in r.anual and their dczands set at
=cro vith the exception of the felleving: Main and Startup feedvater vrives. (in auto),' the turbine bypass valves (in auto), and the c$ergency I
' %cdvater valves ' (En.*-V11A,3). (in cuto).
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1 8.7 All portions of initial radiochesistry test, TP 500/3, are being perforced daily or as specified (to be conduc~ted throughout power escalation. testing).
Date YI> 7 Signature k
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u 8.8-The turbine driven energency feedwater pump and two half-sized motor-driven emergency feedwater pumps are operable by main'.ining SP 2303-M14A/B/
e/"MJ505 -#78 dat Date
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8.0
?r.:.r.:.yvasu. S'iS IM CC:DIT ONS (Cent 'd.)
18.6 All ICS c:= trol staticas are '- -- nal and their denands set at ne.ro vith the en:cptien of the follering:
.'hin cad Stcrtup feedvater 4cives (in t.uto), the turbine bypass valves (in cute), cnd the c.ers,cncy
~~
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feedvater valves (E%. '-711A,3) (in auto).
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Signature
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3 ate 9-I Y-7 9 S.7 All pertiens of initial radioche=ist y test, T? 300/3, are being performed daily or as specified (to be cenducted throughcut pcver escalation testing).
Signature
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Date 9 -1 i-? 7 8.8 The turbine dr ven emergency feedvater pu=p and two half-sized motor-driven emergency feedvater punps are operable by maintaining SP 2303-M14A/B/C Wg 256'3-//E 78 8 4 Signature d h.
A.0 Date bif-79 l
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Ps" 9.0 TEST: P.ITHOD 4
' D y,t._ial.escalction of power frem :ero to 100 percent full power will be detailedLin this test procedure rather than the normal startup
.-I-cperating procedure. Once a te'st power level has.been reached, the normal 1
cperatinr, procedure mcy be'used to return to the test il2erlevelshould any unit' test' require a shutdown or reduction in power. The testing will be accomplished at four major power plateaus, VIZ., 15, 40, 75, and 100 percent full pcuer. This program is sufficient to ccmply with technical specifications and the AEC initial startup test guide. The tests run during power escalation represent all unit and physics para-meters necessary for experimental verification to assure that continued operation of the reactor is within the limits of the technical specificationa.
The following general requirements apply to the entire program.
(a) Notify the dispatcher prior to any change in electrical load.
(b) k'henever a. piece of test equipment (e.g. Recorder, DVM, etc.)
is'used to gather data, note on the test procedure or chart the serial number of the instrument used.
-(c)' Boron samples of the RCS (Makeup tank, Pressurizar,and letdown)
~
shall be drawn within the preceding 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months of any test that
.will cause a system upset.
If mixing is required ( >30 ppmB
' difference between points) it should be completed prior to commencing the test.
Otherwise a normal sampling frecuency is: sufficient.
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9.0 TEST. METi:0D.
(Cont'd.)
^
.(d)
!.ny time a'secticn of chart er recorder data is required or
.decired in a Test Procedure, it must have written on it, the Test Procedure number, paragraph, date, time, units and source of data, speed,.and be signed by the person rcnoving it.
The part lef t behind shall shew where the missing piece may be found and who removed it.
(e) 'Various points in this procedure require monitoring the the Secondary plant strainers. In reality this.is required during-all power changes and any evolution which upsets the plant.
(f) Note that the use of the tech. spec. physics test exception.
requires periodic use of Enclosure 4.
This will be mainly in 800/31 & S00/33.
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9.1 - O to 15% Power Escalation-CAUTION: ~ Observe' Mechanical Maneuver Limits of Enclosure 3.
Maximum rate of power increase blow 20% is 10% per hour.
' ~
-NOTE: The power range channels are initially set to be conservative
'by a factor of 10.
800/2 and 800/22 will raise power in steps and remove the conservatism until actual power equals indicated. power at a level of fron 5 to 7% full power.
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guay Q fy} g}y aw SP E00/21- ',.1Zki:N..i.f.. .Iffective Page 0 } i,. j,,-. q.., .Page 16 b liC0iG Pciga O' P L p..; i e
r. -i ./ i. 9.0 TIST >2TECD (Cent ' d. ) 4 (d) .by time a sectica cf chart or recorder data is required or desired in a Test Frctedure, it cust have written en it, the Test Procedure nu=ber, paragr ph, date, time, units and scurce of data, speed, and be signed by the persen rencving it. The part lef t behind shall show where the missing piece nay be found and who rencved it. (e) Varicus points in this procedure require acnitoring :he the Seccedary plant strainers. In reality this is required during all' power changes and any evolution which upsets the plant. i (f) Note that the use of the tech. spec. physics test exception 4 requires periodic use of Enclosure 4. This will be mainly in S00/31 & S00/33. / h$ STr STE STD STD f f/[ s A/ STD ~ ST bYA $5 hh.69%em y 9.1 0 to 15% Power Escalation CA" TION: Observe Mechanical Maneuve. Limits of Ecclesure 3. hr& l'axinun rate of power increase h 20% is 10~ per heur. yn.
Z uTe ac % l NOTE:
The power range channels are initially /"- set to k em : r-- t i cc ,,.p.y p,,. :n rt; W J'M T/'14 er N f h- ^_a..._^ 10. S00/2 and 800/22 will raise pcuer in f.* IN
t s ar:1 cd %r unti1+ actual pcwer equals s eps r-d
-- --- -ka - ~ = - - - - ' - - indicated power at a -level of frca 5 to 7% full pever. [A. hfb.h : COF/- TMI CNIT II . C[ j SP S00/21 .7 Effective ?cge 0 Page 16 Duplicate Page 2
.7) ) ^~ ~ 9 '. ' TEST METHCD' (Cont'd.) 9.1.1-F.ecord taseline data per 500/12 UI.SST section 9.1. .SignatureN / Date 4 l' 7[ f / / 9.1.2 Ferform initial NI' settings and set ove: power trip to 50% p$r 800/2 NI'C'libration Sect 1cn 9.1. Signatur / Date / /[ 7[ f ~ '/ / 9.1.3 With t.e Dia acnd panel in P.anual, raise indicated power by {0 the highest channel to DO NOT EXCEED A KEACTOR AT OF 4 g,f. s-DEGREES WITH 4 RCP'S OPERATING. NOTE: Until stable at TAVE of 582, as the reactor coolant system expands due to heatup; maintain presrurizer level {-d in accordance with Enclosure 5 by increasing letdown flow and adjusting pressurizer level setpoint. Divert letdown flow as necessary to maintain the make up tank Icvel within the normal operating range. Date,' [ I Signature f f 9.1.4 Ferform 800/22 Heat Balance Section 9.1. First Heat Ealmce =
3. N
% power. Dat f/ ~~/ Signature., / M.,,,,,9.1.5 Perfore the appropriate paragraph of section 9.2 of 800/2 NI Calibration-based up.the Heat Balance results. If the actual power found was less than 5 to 7%, after performing 500/2 raise the indicated power to 15% and repeat 9.1.4 & ~ O?RCML FIELD COPY mt "" " SP 800/21 '?, '.: Ef f ective Page 0 Page 17 ~ Dupliccio Page 0
9.0 : TEST PETE0D '(Cent'd.) 9,1.1 P.ecord beseline data per 500/12 ULSST section 9.1. S*gnature 'Av$ U.I cw Date. 9 - ( C' ~) Y 9.1.2 Perfors 'ritial NI settings and set everpower trip to 50% g.19-per 500/2 NI Calibratic: Sectica 9.1) Sb/ i'I' N Signature l t Date 9-/E-7f U 9.1.3 **'ith the Dia= cad panel in Manual, raise indica.ed pcwer by 6 70 10 g.ly ' the highest channel to E DO NOT EXCIED A RI.'.CTOR AT OF + DEGREES WITH 4 RCP'S OPERATING. NOTE: Until stable at TAVE of 582, as the reactor coolant systes expands due to heatup; maintain pressurizer level in accordance with Enclosure 5 by increasing letdown flow and adjusting pressurizer level setpoint. Divert . letdown flow as necessary to maintain the make up tank ' level within the nor=al operating range. Signature cd 4Nba Date 9-t f-W U l 9.1.4 Perform 800/22 Eeat Ealance Section 9.1. First Eeat Ealance = d./4[76 % power. Signature . u.!t Y. MM a Date ?-/ V-7 l' i -9.1.5 Perforn the appropriate paragraph of section 9.2 of 600/2 NI Calibration based up the Heat Ealance results. If the i \\ actual pcwer found was less than 5 to 7, after perforcing g.a 6% S00/2 rais'e:the indicated pcwer to l'E and repeat 9.1.4 & m a i.$ r-. m n - p,E s%:,% 2;%. IL i' M'l 1} G : },. ~f J u TMI UNIT II - - f SP-800/21 6,~ Effective Page O dupliCQiG Pcge f -Page 17 i '1 y . _ _ Q: a.
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a- ) 3 .9.0 ' ? TEST liET'd3D (Cent'd.) 9.1.5 (Cont 'd. ) 9.1.5.until actual rever eqr.als indicated at s' stable pcwer level of 5 to 7%. DonotexceedM6,; degrees reactor t.T. MOTE: ' h '!" } S Signature 'Ac. fL A o, s,Date D 9.1.6 Ferform Eypass Valve tuning per 800/8 ICS tuning Section 9.2.1 & 9.2.2 for 5 to 7% pcuer. Repeat as necessary. Signature 0 AfWW lDate % /P- ? V ~ / / l 9.1.7 At the Diamond panel, raise power-to 10%. Signature M ?_. cQA Date YWW 9.1.8 Perform the following sections of 800/8 ICS tuning: Repeat as necessary. Section 9.2.1.8 and 9.2.1.9 Bypass tuning at 10%. Signature 0A O ^8W0 ' Date %/P-7 Y ( / N1.9PlacetheDiamondpanel,startupfeedvatervalvesandfeed-6[ h vater demand in AUTO (if not already there). Isolate the" feedwater hypass lines to the OTSG's, and secure the het drain cooler if it was in use to raintain OTSG 1evel. (Since it is intended to have the ICS in fully autenatic by 15%, eny other stations may be placed J hg -., : 4 L. f"5 i. L I.> r ' v,h* ps/ .g c: -: n-N;,% j. b 8 Til LEIT II l,~. SP 800/21 l ,i ' Effective Page 0 0 r e 18 Dupliccie Page 1 1 !) ~ '4*9+ e*w
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.p r*\\ .J J L -1 9.0' ~IST MI~20D - (ccat ' d. ) 9.1.5 (Cent 'd. ) 9.1.5 until actual pcver c'qusis indicated at a c:able ;cuar level cf 5 to 7t. /0 NOTE: Do not cr.ceed 4 degrees resctor LT. Signatureb Alb.Nt)r$ut b Date $"l E*l$ )r. b ehL d' ' I$. CH bM V 9.1.6 Perfor= 3ypt.ss Valve tuning per 200/8 ICS tuning Secticn 9.2.1 & 9.2.2 for 5 to 7" pcver. Repeat as necessary. Date 0-f.f"?Y Signature .a.: U/ 9.1.7 At the Diamend panel, raise pcuer to 10%. tj Signatures c ~ /r / AF Date 9 - / F-7[ 9.1.8 Perfoh the fo11 cuing sections of 800/8 ICS tuning: Repcat / -as necessary. ection 9.2.1.8 and 9.2.1.9 Bypass tuning at 10%. A Date 9 ~lf ' l Signature f / e m 9.1.9 Place t. e Dianend panel, start up f eedvater valves and feed-l -\\ vater dc and in AUTO (if- :ot already there). Isolate the / l feedvater bypass lines to the OTSO's, and secure the hot drain cooler if it was in-use to a intain OTSG 1evel. (Since it is intended to have the ICS in fully aute:atic by 15%, any other stations may be placed - 1 OFFMAl Rs.g copy ,,, m y SP 200/21 Iffective ?nge 0 j Page 18 -l ' Duplicate Page I -j -h* 4 - g
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- ( } 7 - i. ' 9.0. TEST :ETlioD. >(Cont'd.) l 9.1. 9 : (Cent 'd. ) ^. 1n Auto if the plant remains stabic and the ICS tuning coordi- . nator agrces). Signature Date /f T/ 4_ [. 9.1.10 trnile performing 500/12 UI.ssT section 9.2, increase reactor power to 15%. Adjust and repeat as necessary to obtain satisfactory data. !;0TE: _It may not be possible to obtain rated.TAVE at this time.due to the low feedwater temperature. If not this paragraph may be performed after 800/7 is dohe 'at the 40% p wer plateau. Signature Date 4 9. 11 When stable at 15% power, place all ICS stations except Unit load demand and the turbine-in AUTO (place the FW l, ~ pump in AUTO when 1 minimum speed if necessary, to maintain '35 psid:across the FW valves) .9.1.12-tTnile stable atc15% determine what the exact speed regulred l-tol maintain 35 psid across the Pr.' valves is. FN-P.13-Sp a to maintain 35 psid _.8[)8-O RPM. J / / Signature M n <, w Date /C/7/ j f 'f 'l 7 u. l ' N M,)i..,@v.DV lye %I50.:s 6 a o i. TMI U:IT II .SP 800/21 Effective Page 0 iDuplicate Page 8 19' . N + DM M N s**<. _ A -.h M ~.b 7, 'a w
'T ./. rN ) j - 9.0 TEST MITECD (Cant'd.). . 9.1. 9. ? (Cent 'd. ) in 'uto if the pl:nt rcnains stable and the ICS tuning cocrdi nater agrees). s fl/ Datefd0if Signature ,. w. x 9.1.10 While perforning 500/12 ULSST Section 9.2, increase reactor po.er to 15%. Adjust and repeat as necessary to obtain satisfactory data. NOTE: It =ay not be possible to obtain rated TAVE at this ti=e due to the low feedwater temperature. If not this paragraph =ay be perfor=ed after 800/7 is done at the 40% power plateau. Signature M/ b Date 9 l 9 I h n g3 9.1.11 When stable at 15% power, place all ICS stations except g,{$ Unit load de=and and the turbine in AUTO (Place the W pu=p in AUTO when ). =ini=u= speed if necessary, to maintain . 35 psid across the W valves). C -2.3 9.1.12 raile stable at 15: deter =ine what the exact speed required to maintain 35 psid across the W valves is. W-P.1 Speed to caintain 35 psid RPM. Signature Date Q C '::.t1 $.I'. t m.,T i :D.*' Y A r T-v. h a s :; L -2 3. ef F. 3,7 v377 77 SP 800/21 Effective Page 0 -Tage 19 Duplicole Page - g.. n . > \\ WM*h t>T IMW' ' % /hw _4M mM M % g e.1g ML,M4e-s.e_4 44 % p 5'
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(::e n t ' d. ) - 4 1.13 Perform the follcwing: 9.1.13.1 Tche the secend lerdcun cooler of f the line if no longer required. h '9.1.13.2 Transfer Gland steam to Main Stecm 9.1.13.3 Transfer the Feed pu:p to Main Steam 9.1.13.4 Flace the EF pumps and valves in AUTO if not already ~ ther Signature. A w Date.492[ 9.2 15% Plateau The following Rod configuration should be maintained by beration/ deboration. CP 1-5 100% WD -'CP 6/7 S'7% WD GP 8 3 29% UD, Maintain imbalance -0.16 + 2% 4 9.2.1 Perform 600/22 Heat Balance Section 9.2. fi.HeatEalance= [2,73 !!pewer. p f Co1puter Calculated =_ % power. ! J/ }[ pignnturc tw,fL ,g& Date .M,',c % ~s.L' f4 /J, 2. s,. / 5. Q C'cymQ [s N. Y .S. - Q C5 pu& L--x W 8 4.L'.Tdr "f f ?.?./ 78 f 9.2.2 Pefform 800/2 NI Calibration Section 1.3 if required. Upon completion, adjust reactor power to 15% if necessary. -NOTE: For all NI adjustments not donc per 500/2 record the required infernation on F.nclosure 2 of 500/2. ,uds [N M Signature-Date y YLO. d' 5* 2 -[ (,Y g N' .fi / TMI UNIT II O, E *./"'L % 5. 7 "i T / 'T! I "W 2.:.f.1 ft % i., ua: u~ SP B00/21 / lj ~ Etfcet1.c Par,e 0 (- Par.c 20 Duplicate Page N-J " ~ ~
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.-.s . w + en .m +...
k ._) 9.0 'TIST :G: HOD-(Ce nt ' d. ) 9.1.13 7eric: the fellering: d.1.13.1 Take-the second letdown cooler off the line if no longer required'. -j 9.1.13.2 T: nsfer Glcad s cam to X:in Steam ./.1.13.3 Trensfer the Feed pu=p to Main Steas '9 Il.13.4~PlacetheIFpumpsandvalvesinAUTOifnotaircady there. Signature 80 W w Date k-ll'Of \\ 9.2 15% Plateau The following Rod configuratica should be =aintained by boration/ deboration. GP 1-5 100" k'D GP 6/7 87% G GP 8 ^- 29% k'D Maintain inhalance -0.16 + 2" ~ 9.2.1 Perform 800/22 Eeat Balance Secticn 9.2. Heat Balance = f' " power. Cc=puter Calculated = lYsM %pewer. Signature LI, WNA,m Date 9 'lI C.2.2. Perform S00/ NI Calibration Section 9.3 if required. Upon completion, adjust reactor power to 15% if necessary. NOTE:.?or all NI adjustments not dene per S00/2 record the - quired infor=ation on Inclosure 2 ef 500/2. . Signature _ 6sk _ ru b s Date 9 -d "7[f b"*%[.
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'N 9.0 TEST 'E E0D-(Cont'd.) N. D w 9.2.3 Eecord NI cverlap data fe,r Int'c=ediate and power range ch:nnels en Enclesure (7). 6-Date 07/ Signature jf. .4. / / 'l 4 9.2.4 Start the following procedures to be co:pleted when she n on ,Enclesure (2). Sign off as they are cc:pleted. ~ 9.7.4.1 365/2 Loose' Parts Enseline Data ld(.J. A,_e_. L ~ Date,-2<-29 Signature f 500/3IniX}alEsdioe i 9.2.4.2 v istry Section 9.2.1 - 3 & 9.2.7 n Signature cr@.d .d Date [-73 N 9.2.4.3 500/35 Effluent & Eff1 ent Monitoring Signaturej E-r Date4.-7.3-8 f ._a 9.2.5. S00/8 ICS tuning Section 9.4 to be performed if oscillations are present at the ICS tuning coordinators discretion. NOTE: 1. From now thru the entire PET recorders will be [ placed to monitor ICS perfermance per 800/8 Section 9.3. Ensure these re. corders are cennected and running. 2. If at any time the plant becemes unstable, place ICS stations in hand or reduce power to achie e. stability and then cperate the. plant per the ICS . tuning coordinator's requests until the problem is resolve Signature [/ .cdb Date M-23 M[ j og-idAL Fis.D COPY .s; TMI UNIT II / Q .SP 500/21 ",.c,; ; Effective Page O Dhpliccie Page _ race 21 3 d r- _.,.._,m_; _j - c. j
7- /\\ .m. .) .} ~- 9.0 iTIST YI! E D (Cent'd.) 9.2.3 pacerd NI everlap data for Internediate and pcVer :cnge chcnnels en taclocure G). Signature .6 t. .e A-%t % Date 9 - l r ~ 7 __ 1 U ~ 9.2.4 Ftart the following procedures to be cenpleted when shewn en P Inclosure (2). Sign off as they are cenpleted. 9.2.4.1 265/2 Loese Parts Esseline Data Signature)/ 7ar< -bs. Date b /[ 8 ~ 9.2.4.2 500/3 Initial Radioc.enistry Section 9.2.1 - 3 6 9.2.7 Signature $ Ad Date ?~/$?'l$ pff 0.2.'.2' *00/:5 Iffluent i Efflu:n; 1..it ring- .e., > //14 ...~u.. w<io b l - 9.2.5 800/8 ICS tuning Section 9.4 to be perforced if oscillaticas 6 are present at the ICS tuning coordinators discretion. l' NOTE: 1. From now thru the entire PET recorders will be placed to nonitor ICS perfornance per E00/8 Section 9.3. Ensure these recorders are connected and running. 2.. If at any tLne the plant becones unsrable, place ICS stations in hand or reduce power to achieve stability and then operate the plant per the ICS . tuning coordinator's requests until the problen Jis resolved, - M-70 Signature
A cv w w Date C'iwes i L. ' T;r.
m d..Y J r r i 2 uM
4 2.i./ t j,L DfI UNIT II
. )' S? 800/21 Effective ? age O Dupliccie)Page b p
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U 3 9t.D TEST ".E~ HOD (Cont'd.)' .g. 9.2.6 Pcrfor= 500/9.TG eperatiens section 9.2 thru 9.6. Cencurrent ' " s.% vith bringing the unit to rated speed, clear deficiencies f and prcb2cm rcperts listed on Enc 1csure (2) for SP 193.21. Also, cemplete section 9.4 cf SP 193.21.,., 30 E: This is a plc.nt upset. Menitor secondary plart strair.crs i, closci Signature w.l; /w lVtm Date 4 2/- 78 -/' Q/ 9.2.7 Perfom 500/7 Feedwater operations Section 9.2 as soon as there is sufficient water in the coisture separators frem performance of,800/9 TG operation. P Signaturc5'.r'nl?' !!- - w t* 1. Date $ ~ 'l ?I ' 7S L )' EW 9.2.8 Perform 800/8 ICS tun ng Feed foreward data collection Section 9.1. Y - 2 3 -2[ 42-, Date Signature /- 9.2.9 Perform 800/12'ULSST Section 9.3. M,k / e Date */ -2./-7 F Signatrre 9.2.10 Perferm 600/24 Incore testing Section 9.1. -5 Date / 4 d. O Signature .t, -/ / 9.2.11 Perfom 200/11 core po.cr distriburien Section 9.2 and ' extrapolate data to 50% power using Enclosure 4 of this procedur' Signature -/ 4E [ Date d'2 3 78 ./ TMI CIT II o?RCIAL RED COPY E'l'1 cSe 0 Page 22 e h= D.'.p)iccia Page e I y g r -w g
s f' y /i .i ~ cl.O TIST }.~."IIOD (Cc at ' d. ) 9.2.6 Ferfer= E00/9 TG eperatiens section 9.2 thru 9.6. Ccncurrent <-A*\\ 0 with brin;ing the unit to rated speed, clear deficir.ncies i f *O and prebica reports listed en Inclosure (2) for SP 193.21. 9 Also, cempletc. section 9.4 of SP 193.21. NOTI: This is a plant upset. l'cnitor seccndary plant strainers clcsely. riAdh Date 4-/ 9-/ h Signature U-9.2.7 Ferfo= 500/7 Teedwater cperations Section 9.2 as soon as A% G there is sufficient water in the moisture separators frca 3 perfor:ance of 500,/9 TG operation. Signature OA b_ %,,,Am Date ? 14 ') Y O V 9.2.8 Perform S00/8 ICS tuning Feed foreward data collection Section 9.1. Date N - [i - ) Signature 9.2.9 Perform S00/12 UI.SST Section 9.3. Signature a d, 'Mdn,M Cate 4 -/ 9-) [ y. (/ 9.2.10 Perform 800/24 Incor testing Section 9.1. Signature 0 /$f. % b Date f-/ T-W 9.2.11 Ferforn S00/11 core pcwer distribution Section 9.2 and extrapelate data to 50 pcwer using Inclosure 4 of this procedure. Signature ' As hhd&fM Date Q-/q-J V k T'E UNIT 11 S? S00/21 Iffectite Pa e 0 F]ur.. -.,. I s -. r., a a :i,D., r.a:~' y( .v.i: tm ?:re 22 V J '.d / Dup!icateTcye - ( m -=E.M,+3.-, E g e+.* -, - + =. .-e*. .+.m _s
-. = +, - -
+ - * - - - 3, &
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J -+ s- ,,) 9';0 TEST l'.ET)!OD (cont'd.) 'D 9.2.12 Perfera 300/36 Shutdown frem outside the Control Kocm. Signature Date' i! l l (.2.13 Recever the plant per !!et-Ed OP D 2102-1.3. During escal tion, 4 when at 5-7% pcwcr repeat 800/S 9.2.1 & 9.2.2 if ree.uired by f's ]. the ICS tuning Coordinator. Stabili::e the plant at 15% power in full ICS with the turbine on the line. NOTE: This is a pl:nt upset, m:nitor strainer.',P clesely. Signature Date 9.2.14 Perform 800/32 Locs of Power test h Signatur tche Date_ [" 22-7 [ _U 9.2.15 Recover the plant per !!ct-Ed OP 2102-1.3. Perform 800/8 sections as required by the ICS tuning coordinator during ?[./ ' the escalation.. Signature. Date #/ #3 N w 9.2.16'The Unit is at 15% power with the turbine on the line in full ICS auto. 15% Enclosure (4) data has been reviewed tyTVGandapprovalreceivedtoegalstepowerto40%. Shift Test Director Date # Y ). C s'v e n 4 g w.ua. ;,, 77,w., y T f. N b'5$,'S : /s'fC jln li'lfC c 4 g g %.c s 4 ;;rg u:o whu.. A N W1gl %'G.%O-u k-Q{,D .Q. ~ T!il U:;1T. II l. SP S00/21 .g.upyicas pcy3 - -Q tff,c,1y, y,c, g Page 23 *'OPr' ...g MMW d S x $6aapy y, pg w. _p,,-
A, ',,) ) 9.0 TIST XITHOD (Cont'd.) 9.2.12 Ferfc n 500/36 Shutdewn f c eutside the Centrol Roes. Signature ~ k W.It. l 4 '\\. F L % tate k -).d -7[ J 9.2.13 Recover the plant per Met-Ed 0? 2102-1.3. During escalation, ..ca at 5-7% p,wer repeat 500/S 9.2.1 & 9.2.2 if required by the ICS tuning Coordinator. Stabilize the plant at 15% g 'L3 pcwer in full ICS with the turbine on the line. t NOTI:. This is a plant u set, neniter strainer.t? clesely.
/ [2 r,[h' Signature
[ Date sJ W a..m _,* .c.f. y..- r
a*ge c
... _.. A.. -u ...-~... f'l1 Ciy.-...s 9 M S,__._._... m, ...s c..... r_ec... ,..a. .citoi ovw o - sec.:!.-e n-o uhed b th; ICE "nin; :::.linct r 'uring is s ( h'h t h iaci a. Eh nn'~~e 2::: 9.2.16 The Unit is at 15% power with the turbine on the line in full ICS auto. 15% Inclosure (4) data has been reviewed by T'JG and approval received to escalate pewer to !.0%. /i, "k' .; l'. *' ' Shift Test Director Date ~' '. ~ w -) (- /,,, * ' (. f ~ o r . 'J.. ' ]
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~ \\ ,) p.'O. TEST METdOD -(Cont'd.). -9.3 15 to 40% Eseclation. l M9TE: 1. Begin boration/deborat?cn necessary to obtain the Centrol l - Rod configuration required by Section 9.4 at 40% pcwer with [- equilibrium Xenon. 2. During the pc.wer escalation, clesely tenitor strainerOP. CAUTION: OBSERVE MECPA';ICAL MIL LIMITS OF I:;Ci_0SURE (3). UP TO i 20% POWER LIMIT PATE TO 10%/ER. ABOVE 20%. LIMIT PATE TO j 30*:/HR. i 1 Raise power to increase turbine load to 20% (185 MWe) but do notexceed25%powg y-c Signature _. v Date f f ') 7I j l l L ' 9.3.2 Perform 800/9 T-G eperations Section 9.7. e Signature Data 9.3.3 Start' a second condensate / condensate booster pu=p pair, and additional Cire. Water pu=ps'if required. Adjust power to 25%. Signature Date 1 -b[g 9.3.4 Perform.800/14 turbine trip Section 9.1 and SOO/S ICS tuning [ section 9.3 concurrently. Signature Date 1 l OFECIAL E! ELD. copy Oil D;IT II i-SP 800/21 , F.ff ective Page 0 i. Nup}icals Fogg Panc'26 1 h 1-
4 e ) / 9*.'0 TIST MIT'iOD (Cent'd.) 9.3 15 t: 40" Escalatien 50TE: .l. Eegin loraticn/deberatien necescary to cbtain the Centrol Rod configuration required by Section 9.4 at I.0% power with equilibrius Ienen. 2. During the p:ver escalation, clcsely =enitor strainer AP. CAUTION: OESERVE MECEANICAL Y_W. LIMITS OF ENCLOSURE (3). L'? TO 20% P0k?.R LD1IT RATE TO 10%/ER. A30VE 20% LD11T ?. ATE TO 30"/ER. <7 9.3.1 Kaise power to increase turbine load to 20% (185.We) but do not exceed 25% pcwer. Signature Date /7 //' 9.3.2 Ferform S00/9 T-G operations Section 9.7. Signature Date 9.3.3 Start a second condensate / condensate booster pu=p pair, j, -l 7 g and additicnal Cire. L'ater punps if required. Adjust power l 1 gg,.. to'.252 7 It g'g ;, / ~ s .0,'" , -' ' J r - ! )lY'
5;y Q U l % d
~q < 5 /<-7 [ .S gnature,, i , '_'. 5= .w Date 0,,7e f - > W 7 f... Ferfc..M00/14 turbine trip Section 9.1 and 800/81CS tuning 9.3.4 (. '- 4,..y v . P J f..v section 9.3 concurrent y. Signature Y
s Y Y-2?Sh
-1 Date ( / (* b b l -. I b U. nj, v ~, m I 31 c;1717 -g: -- -. SP 800/21 ( g--' ~ ~ -.. - Effective Page 0 ? age 24 Dupliccie Pige l 4.*-- t-y '-.... - _ : +. ~ ~. - ~ - ~ ~ ~ - ~ - - ~ ~ - - - ~~- ~
9'. D 'IEST ' E!!!OD (Cont'd.) /f 9.3.5 Ecccver the turbine cnd raise power to 30'.' turbine load G (27S ?,7c) but do not exceed 40* pcwer. Signcture Date 9.3.6 Ferfo m E00/9 7 G ererations Section 9.8. //.f / t' _ jf c / D tc Q'.,7/ "jf Signature,.e m 9.3.7 Esise pcVer to F*.' + 2* and stabilize. Signature / ', / / Date / C 7/ 7 / / y,a g, -- n t#V f,I!(3 A ! I* T.I" 2. bVi 1 s--* J
% 25% -
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L ' y. g,- ,f j q. (, 9..,0 TEST XETEOD . (Cent'd.)' ~%b 40% Platcau The follcwing Centrol Rod.Cenfiguration should be naintained by 1/:atioS/dchoration. GP 1'-5 100*a.t GP 6/7 S5% WD UP S 2::19% WD M:intain I balance + 1.17 _+ 2%
9..
Perform E00/22 Heat Salance Section 9.2. Heat Ealance = , 7 5" % power. Computer Calculated = Yd. 6 7 % pcwer. Signature-k _O NCb.v4 u 2 Date 9-M-7I G o 4.2. Perform 800/2 NI Calibration Section 9.5.1-3 if required. ~ Upon completion, adjust riactor power to 40% if necessary. NOTE: For all NI adjustments not done per 800/2, record the required information on Icsure 2 of 800/2. Signature k'E. '~7 9hih' Date Y [7 -- 9.4.3 Start the following procedures to be completed when shown on Enclosure'(2). Sign off as they arc ~cc pleted. 'f-9.4.3.1 800/7 FW cperations Section 9.2.3 6 9.2.4. Signature - )~ DateIGfl'l,lS ^ei i x 9.4.'3.2 800/3 Shield ? Survey Section 9.3. Signature 2 Date' / O - / n OFFICIAL RsLD copy ,,, u SP E00/21 Ef fcctive Pa;;c Q Page 26' Du,0!!cci3 Pega () [ a.:-. - .] e =
s 940' TEST Pi.THOD (Cent 'd.) ,N N- -9.4.3.3 500/3 Ir.it'al F.aciochesistry Sectica 9.2.1.3 & 9.2.7. h Signaturc. h. < "' Date /M 3--Y 9.4.3.4 000/35 Eff3 cnt & Effluent 1:enitoring Signaturc h f/4 2 Date /Y' YSf s 9.4.3.5 365/2 1.cose 54rts Easeline $~ 30-b Signature.h/ , s m Date ga3 9.4.3.6 211/1 Secon:'ary Sa=pling Funct'. Test Section 9.5 ( 9.4 g 27 S1 nature Dete 9.4.3.7 After 48 hours of operation at 40': power, shift the f,,. / g - operating f eedwater pu=* and verify the ccupling align-O cent. Af ter 48 hours of operation on the second punp shif t pt:.ps tgain, and verify the coupling alignment. k Of / 7/7 6 FWP-1A Signature \\ Date k J Date / / /7N TWP-1B Signature e ) t ~ 9.4.4 Perf orm 800/8 ICS Tuning Sectica 9.4 to be perforced if oscillations are present at the ICS tuning coordinators discretion. b / Date 'Kh 22 Signature e O.e i s .s O'. U 9.4.5 Feric>m 800/8 ICS Tuning Sc:ctions 9.2.5 to .7, cnd.10 to.14 O AI.n / / -# Date / } Signature ed v .f1J Y,". O,
9. 4. 6 Ferform 800/8 ICS Tunin reed Foreward Data Collection.Section 9.1 3
5- - b Signature '1 Date ll lY / u o T.) - 2 a n., 4, .9
9.4.7 Perforc 800/12 " SST Section 9.5 Signaturc q Datef.FS-7[
Q TdI C;IT II SP 800/21 Effective Tage O Page 27 y----.-
,\\- j. / 9.0 TEST F.tIHOD (Ce n t '. d. ). t-9.4.8 Establish 3D equilibriu: Xenon conditiens with the centrol rods in the configu--tien specifie r at the start of Section 9.4. Signature f Da t e M.E::P-7/ [ ~ 9.4.9. Perfor:a,500/24 Incore "Itector Testing Sectica 9.3. Signature iCTC2wlwE Q-30 *]S Date 9.4.10 Perform S00/11 Core Power distributien Section 9.2 and extrapolate data using E closure 4 to 85% power. 9-3dOh Signature / aM,z Date 9.4.11 Perforu S00/18 Power c$slanceSections9.1&9.2. Signature [<, M.c Nm Date [ ~/- N 9.4.12 If necesst - insert the new "K" value into the Nuclear instrumentation per 800 Section 9.5.4. Signature O Date M b / O - 45 C 9.4.13 Concurrently conduct the fo11 cuing tests. 9.4.13.1 800/5 Reactivity Coefficients at power. b ~2. ")[ [ ti .,s Date Signature w -T 9.4.13.2 S00/20 Ro orth at Power. /,[ wh[c-7 Cate /O Signature c, / .' q:t",1 mi h. v ' p :3V . L O ciu g1 p-r r v-i . ~. i. T;' _-P;. 4.; pgy t.377 77 .i,( - SP 500/21 t Q' Eff ective Page O DupliCCIS2099 - Page 28-f -:--n_- y ^
g .9.0: TEST r.ITH;D (Cent'd.). ? '
4r.h.~m-
'^^,+M% m C 7.2 t. ; Cd C?-I3 ---(L%. r_y.. c - __. a - -9.4.15 Perfo m 800/31 Dropped Red test.Section 9.1 and 9.2 /c /ff[- Sisnaturek __.S. h. hp,,, Date f i 9-9 ~ . 9.4.16 Perfctm 600/23 Unit! ? oad transient testing Section 9.1. Perfo m only these 7'ragraphs required by the ICS tuning coordinator. Concurrently perform 600/8 ICS tuning section 9.3 p as required. NOTE: This is a plant upset. Monito: strainera P closely. /0[/7/76 n_b _Date Signature n 9.4.17 Ferfo m 800/14 Reactor trip Section 9.2. Concurrently perfem 800/S ICS tuning Section 9.3 as necessary. NOTE: This s a plant upset. -Monitor strainer 4 P closely. Signature Ak O-Nb e Date t o-f- 7 8 ~ f V ,. y ~' 9.4.18 Recover the unit per 2102-I.3. Perfo m 800/9 TG operations .section 9.9 when closing the gene.rator breakers. Stabilize at 40% power. NOTE: If not previously perfomed, 800/12 section 9.2 may be erfomed and signed off in paragrcph 9.1.10. i c[/ 7[79; Signature __ Ca k u" Date I I d=-*meu.;s~-jinncoa-a- TMI UNIT 11 > 1; i..i. SP 800/21. 1.ffective Page 0 Page 29 g2.01:.0ab Page Q
~ d - 9:0 TEST Y2 F.oD (cent'd.) 9.4.19 The unit is stable at-40% peuer in full ICS and the secondary plant aligned for 100*! power with the peccibic cxception of the second feed punp & heater drain pumps. The T.?G has 7 cvaluated the 40% and Enclecure 4 data and app cved escalation to 75%. power. s% Ic//7/78 ~ ) 3) Date Shift. Test Director c. N / / 4 9.4.~ Ferform 500/2 NI Calibration Se:tien 9.5.5 to set the ever-power trip to 85%. lC!/7!/h Signature 'r m t Date i 9.4.21 start the second feedwater pump and secure deserating steam if not already done. f Signature . 41 AMApr Date /6 ll / 9 .n ,, 7 - ( )- - w.,A l f' -ve y D CO?y n.m. TMI UNIT II SP S00/21 Effective Page 0 2.'Y i0 $ fa P c g 3 .Q Page 30 -e* w b46 >4-. 6-e-t 4s ap*=f==ne-%.--m m e=
s ' / - 9.0- TEST Mr~EOD . (Ce nt ' d. ) ; 9.5. 40 to 75%.Escr.lation t NOTE: 1. Begin boration/deberatien necessary to estchlish the Centrol Rod configuration required by section 9.6 at 75% equilibrium Xenon. 2.. During the power escalation conitor strainerfa? closely. CAUTION: OBSERVE THE MECHN;ICAL MAN. LIMITS OF ENCLOSURE (3) A30VE 20% Pok'ER SUT EElekt 75*' POWER LIMIT RATE TO ~0%/HR. 9.5.1 Raise power to 50% and stabilize. Signature catk Q. A Date /O ' N"' O 9.5.2 Terforn 800/9 TG operations section 9,10. Signature ) Date f/ !/7 y 4 L ' {,(/ ' ' / 9.5.3 Terform 800/8 ICS tuning section 9.2.15. May be cencurrent g with 600/9~1f ICS coordinator agrees. g/i ~) Signature Date 9/ 9.5.4 If both feedpu=p turbines are not above minimum speed, upon completion of 800/9 increase power until they are and perform 800/8 section 9.2.8 and 9.2.9. Signature wb' ( -=&th Hm Date / O ~/l*~? E 6 9.5.5. Raise pover'to 75 1 2% and stabilize. Signature ,-tn.'/0/r-cr Date ' /d - W7. [u a r" r*: A 8%f.M b s*h" W.i Q Z w TMI U';IT II .,,m. ' M &..;,- (;,.,,, SP S00/21 .,,.,".). Effective Pace 0 Duplicate page 0 ~ 8 4 4946 g e 4ph th*Ma 4 4D D' s**hbe 6%.=. A 4-
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W pe.es e 4pe w e h. -m-=*e4*a+e-
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m_ k- } -A3-s. 4 9.6 TEST P.ZTEOD .(Cent'd.) l l 9.6 75% Picteau 2,c fellcaing Centrol Red Configuraticn should bc ::intained by r -bcr:tien/deboration. i GP 1-5 100% WD O GP 6/7 WD CP 8
16% WD' Maintain I=halance G +.59 + 2%~
i 9.6.1 'crform 500/22 Heat Salance sectien 9.2 2 Heat Balance = '73.'13 % power. Cocputer Calculated = '7 9. / F % power. hh, fChw DAte Jr k'2 l} V Signature .x A g 7 9.6.2 Perform 800 NI Calibration section 9.7.1-3 if required. t l.. Upon comp'letion adjust reactor power to 75% if necessary. NOTE: For al1 NI adjustments not done per S00/2, record the required infor=ation on Enclosure (2) of 800/2. Signature bM kim Date /0/SJ/> 7 Q ' \\I i /~ 9.6.3 Start the following procedures to be ccapleted when shesn on 4 - r Inclosure (2). Sign off as they are cczpieted. i 9.6.3.1 500/7 FW cperations section 9.2.5. - 1 Signature b <t d. d I ae.- Date /0'7d'7E j 9.6.3.2 500 Initial Radiochemistry section 9.2.1-3 & 9.2.6-7 (Section 9.2.4 6 9.2.5 should also be perforr,ed
if prercquisites are satisfied).
S'ignature ud h / V4 Date ( k1k~ 2 k v V O TM1 L' NIT II. 3. m. y. O b"E% N-73L-iD COPY sr 8*/21 Effective Page-0 [ ~ Page 32 l[ 1r e aspy - ~0-s ~ I '? -,m ,=-~.
'N. ~ 9.'0 TEST METEOD (Cent'd.) 9.6.3.3 200/35 Effluent & Effluent Monitoring d" h-e Date l o " 2 b ' N __ Signature ,D / 363/2s Lc\\. se, Parts Ecseline 9.6.3.4 ..i n/ Date k) ' ${ - ] V Signature ( .S SL. 9.6.3.5,S00/9 TG Operatien section 9.11 Signature k _D e A t h% Date /n N./.~2 - 9.6.4' 500/8 ICS Tuning sectien 9.4 to be perforned if esci12ations arc present at the ICS tuning coordinators discretion. Signature Date 10 W 9.6.5 Perform 800/8 'CS :uning sections 9.2.5 - 7 & 9.2.10 - 14. Date /t -#-4 '/[ Signature, ;,% / 9.6.6 Perform 800/8 ICS tuning feed foreward Data collection section 9.1. t Signature c% Date' l D ' 3W~l 4 9.6.7 Perform 800/12. S T section 9.6 Datefr.2 3 - 7 / Signatur _w L /' ~~m x. 9.6.8~ Establish 3-D Xenon conditicns with the Control rods in the [ *,, configuration epecified at the start of cection 9.6. 1 f jf-Signatur,, c A f , / /e w,_ Date n.15 '7[ -[ 'M t" *i A.. l
p*
4 u ~..- n:LD COPY TMI UNIT II kl,D iOOb Pcgra 0 SP 800/21 Effective Page 0 Pagc 33 g-._ _......a.._. r-
,= : Y.*O TEST XITEOD-(Cc at ' d.) 9.6.9 Perfer F00/24 Incere detector testing Secticn 9.4 ...... /jf}.,... .l 3 bvh Date /t.~97[ i Signatures',y x t t 9.6.10 Perform 800/11 Core Power distribution section .2 and /e?'I g-h cxtrapolate data using Encicture (4) to L +E. Signatute . t % b t' usj C Date j ~ /J ~1f () U 7 '/ ' 9.6.11 Perform 800/18Powerkr.balcncesection9.3&4. Note that .uncatisfactory data will require a repeat. Date l' A~2 ] ~7 8 Signature e,.c.,k h. - %'td.,%w 0 9.6.12 If necessary insert the_new "K" factor into the nuclear instrumentation per 800/2 section 9.7,4. Signature Wh Date fo/,.2&; f) 7 .i / / 9.6.13 Concurrently conduct the fo11cwing tests. 9.6.13.1 800/5 Reactivity coefficients at power Signature hb k, A.La,h Date u /3(/7 [' 9.6.13.2 S 0/20 Rod Worth at pouer Signature w % 9. u,,. Date_ ]p s ff7 Y 9.6.14 Perform 800/23 Unit load transient testing sectiens 9.2 6 9.3 Perform only those paragraphs required by the ICS tuning coordinator. Concurrently perform 800/8 ICS tuning section 9.3 E opMc!AL MEi.D COPY .!. ; ', * ' ~. '., M",4.
TMI UNIT II
-J. ' T'. V SP 500/21. ..',,,s.y;. ;' Effective Page O Dup'15COYG2CNB Page 34 _,y
e, 1 . 9 0 IEST. MET;iOD -(Cent'd.)
9. 6.14 (Cont ' d. )
NOTE: :This is a plant upset. Penitor strainer LP closely. .b,_, Date In S r 7 ?" . Sign ture O -q r' '.-~ '7 9.6.15 The Unit is stabic at 75% pcver in full ICS /.uto. The TJO has evaluated the 75% and Enclosure (4) data and approved escalatica to 100" p. &#. m pate /c. 7, ~7-7 7 S';nsture < M.t 9.6.16 Perfo m 80 /2 NI Calibratien section 9.7.5 to set the over-power trip to 104.75%. Signature- _i e.- Date 10-M-T N. '), [., ) },, l. h5: s'.n f r*j. ]. ] y
t. ?!C.O.':. ' N s I
's .t b.Y..'*. Y. l. ll .. I;. s ,1,'...s ;;. ~l os e = *.% n,.,J..,.Tn. n t. ? ;. : h. s* *..; ; < al'.! 4 ,.,... e mW :T:....I9:'2L-)7.
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+ (Cont'd.). 9.0- TEST.25THOD 4 -9.7 75 to 100% E.scalation 1;b7E: 1.- Ecgin Loration/deboration neccesary to establish the Centrol red configuration re< uired to satisfy technical cpecif'catiens to allev attaining power 1cvel cutoff. - 2. During pcuer escalation, nonitor straincr AP closely. CAUTION: OBSIT.'.'E 12CPeO;ICAL !!AN. LDtITS OF E'iCLOSURE (3). ABOVE 73% LI?:IT P.CE "To 3% FIP. E03. TEE FIVE ECG EOLDS SPECIFIED IN ENCLOSURE 3 WILL SE TE C; AT 75% 6 90%. Note: Due to the slow rate of power increase required by Enclosure (3), the Xenon everride method of power es-calation should be considered. 9.-7tl-Raise pever to-80% and stabilize. - Signature ~ ~ -- Date 1<: j 1^ m. l 9.7.2-Ferform E00/9 T-C operations section 9.12. f 1 Signature - Date l l 9.7.3 Eaise power to 00% 2% and stabilize. dwl. Date /d - M 7 f Signature ' % a m ,fr-N' 4/ A ' //// -n - Q pwm /'-s /.1y %'- 9.7.4 Ferfo:: c00/22 Heat !al.ance section 9.2. s e .-r-v y e... : '.O-Gy OA
no Heat Eslance =
///< , -.n ve - A power t Computer Calcu ste ' = Y[<M3 7A, i % pcuer - Signs tur m. Date /0- d [ 'T[ /4 m -W T !3a. i': 01 D C 3-.O'[ O g:g rp.,;t .s n -. 2 'n!I L741T II SP 300/21 Eff'ective Ps.gc 0 Dt:pliccie hG3 0 ""8> 36 g# ..i 1 .s. _
e.eem'are. see.y. osa.
...**y , e, ow -.p.. +, .r.4-.+.3 + C. _:1.
. e e ,q 9.0' TESI 22TN3D -(Ccat'd.) m DN9. 7 75 to 200~ Escal:. tion NOTE:
1.. resin beratien/deberatien no:ercary to establish the Centrol a
-{ -red.configuratica requifed to catisfy technical specificatiens to allow attaining po er. level cutoff.'* .2. During power escalation, r.cnitor streiner i? c.'escly. t CAUTION: OBSERVE 12Ci!ANICAL,114.N. LDi1TS OF ESCLCSUFI (3). ABCVE 75% LI!!IT FJ,TE 70'3* TER HOUR. THE FIVE IiOUR HOLOS SPECIFIED IN ESCLOSUF2 3 WILL IE TAKEN AT 75% & 90%. ? Note: Due to the slow rate of power increase required by Enclosure (3), the Xenon override nethod of pever es-calation'should be censidered. ej t.7.1 Tsi.w r m.- u ::'l cnf :::bilize. 4..,- a __ De n ~ l 6~M o,,, m3, m,- .u..vu ,,, op e t o u.... o m. m... 4 (c t .s r+,;.: ure
=%
t 9.7.3 naise power to 0: + 2% and stabili:e. Signatur / / A.e Date/,/3 l 9.7.4 Terform 600/22 Ucat Eslance section 9.2. licat Balance = NO 80 % peuer Computer Calculated =
7.2 MM
% po er i Signature / Date //.5-7 7 .O ~ l* i Q.T ".i.?.1 I
"1 a IT.C's D' (w'av~[>
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Effective Panc 0 .E0pb.CQie Pc.ga s Page 36 ?.: t + 7 M4 bw wDeA* e '1 ^ ._j
e I 9[b. TEST 2:ETii3D (C:nt'd.) P 9.7.5 Ferform C00/2 NI calibratien section 9.8. if required. U;on ccmpletica adjust reactor pewer to c0% if necessary. ECTE: Tor all NI adjustments not dcne per 500/2, record the required infor.ation en Enclesure (2) of 500/2. Signsture M/ Date ~ /c g px g a &r / 9.7.6 Perform t,00/12 U._ST secticn 9.7. Signature /Ihh.n Date it 7V ,j . ),.j Perform 800/9 T-G ope ations section 9.13. I:.. "/, / 2. 9.7.7 ~' Signature O Dat e /[I-NOTE: The follo -ing tests will be perfcrmed 'at the discretion of the STD. If the moderator temperature coefficient has been verified to be negative at 75% proceed to step 9.7.10. 9.7.8 2stablish equilibritra Xenon conditions.
j
. r. 1 'Ng gpq u Signature Mfd s v.a W ' ' ~/ ' Da t e Q ,Jcwed il-TD V [ 9.7.9 Perform S00/20 Rod worth at poirer. and 800/5 Reactivity coefficients section 9.1 thru l.. Signature M i" ~ ~ Date i a. u .O?RCIAL FED COW 'Cil U?!IT II Duplicate Paga_ ff],,p,,9 5 21 Page 37 i Q. 4.- 3 s A% '. a... a -.. ~.,.. ti )
24 9i0 TEST MIT!!OD. (Cent'd.) N -. m7'DQ 9. 5 erf or= 800/2 !;I Calibration sect'en 9.8 if rec,uired. 1*pe-c: ;Qc;tica adjust resctor power to 90*. if nece"-.y. 1 0'"E : Eor all NI a'djustments not d- - per 800/2, roccrd the s requirebinfer=a tien.. Enclosure (2)ofE00/2. f.g s /. 7 Sier.ature Date 9.7.6 Perform 80" 12 ULSST.s'ection 9. \\ Signemore Late N r 9.7. Perform 800/9 T-G cperations section-9.13. Signature Date N !;0TE: The following tests will be performed ati the discretion of the STD. If the moderator te=perature coefficient has been verified to be negative at 75% proceed to step 9.7.10. 9.7.8 Establich equilibrium Xenon conditions. Signature -h
f. f.Nyl gate l2-%-W U
goo /r TCN-/ h p 9.7.9 Perform 899/-20-Rod worth at pcuer and 200/5 Reactivity coefficients 7 section9.$:- thru -4. TN Date /b OS-7a* Si;;na ture s U q e OFRC!.M. FIE!.D COPY 5 4 ' Dupliccie Page /- T.MI m;IT II l SP 300/21 Ef fective Page 0 Page 37 i
-r -]. 9.0 TEST MET 1DD (Cent'd.) 9.7.10 Verify the tech. rpec. requirc cats of 3.1.1.3 cnd 3.1.3.9 and the five hour reak of raciccure (3) have been saticfied. Sisnature hs $.lb' Dstc lA - 0 7' lS~ .v Gs
9. 7.11 ?.a 's c p ewe r t-; l'::,,7 at 8 =aximum rate of 3:: per hour.
hhm $ f$$ Dite l%- 2 3-7? Signcture V NOTE ' Swe< lnc rease w:]I oc.,ees) as Lil. w.s : a a, Vec;4 RCs Slow ah90 7s RTP pclce '$0 es*IAI=n. ~ y g y57 mg reg,:ee. mens o S Ar-..J. Er Tecl, T a. 3.2s y 5;,g,,e -jd,J/%2 i'd< ' ' ~ "' b, \\?u.* y Rc$ Siew it 'l590 RTf <lc< 'l'a enI'A*"' f a s,,, t h:s le ve I, R c 1 1:~u MusT mee1 ee1< """S ,-g pme,a. Er rea. S ee. 3,2,5~ t sy,a~<e AA W fA') Dah 2#- c* pe NcT-e,1ceed el%er 98 Yo RTP o r WO "#' .Sw's- PwR Mc a & KG-,,, wk.'e.h evee comes s1.gte kl}FANt _ D de I*' "~?? 3 R w & m a k u.s allewdle fwe N'" ), g e,;.5 y ( e:c s f to% na,:n:s%tlve oc Teal. Spa j,,a swlayd 12. He Tech. Spec. -tic.e cloch, 5;9g; tac e y,! A c N F A U D $e ]2'* W t Y: - M3h"i A I 5*tI,.! M *~~ /~*: CV c.va 2 ; w.-ta b.:.:u Lwn a TMI W IT II Dbplicate Pcge 0 Effective Page O se eco/21 Page 38 "a u
3-s t 9.'O TEST METH3D (Cent'd.) 9.8' 300~ Tlateau The foll'oving Ccatrol rod configuratica cheuld bc mair.tsined by beration/ debcration. CP 1-5 100% kT CP 6/7 ~92% km GP 8 (19% kD Maintain I balance +0.93 + 2% 9.8.1 Perform E00/22 Heat Salance section 9.2 & 9.3. ~ M..- f Heat Ealance = '5 '.15 % power Computer Calculated = -? ' 6't' % power Signature
1.,
'P. 0/_r~- Date .:-t"- W h/ /2~Z$'?[
6 ~ 0 9.8.2 Perform 800/2 NI Calibration if required and adjust power to
100% if necessary.
NOTE: For al) NI adjustments not done per 800/2, record the required inf ormation on Enclosure (2) of 800/2. SignatureSa-9.l$~~^ Date ' t- ' 'l - 7 ? . }',,g"/4?ru144 JE-:H1-?f 9.8.3 Start the folloding procedures to be completed when shewn on Enclosure (2). Sign off as they are cenpleted. 9.8.3.1 800/35 Efflue & Effluent Monitoring Signaturch /2~2-7"Y ..o e Date 1 9.8.3.2 - 800/9 T-G'Oper tiens section 9.14 Signature k a herbNw l2~Y'Y Date m -e n'm1. *i t\\ lh=H M&Dt -C . ~ -, 2 ' TMI UNIT II SP S00/21 . Effective Page 0 - D.,--yw2.3 Paq.. 0. Page 39 ~." 3 4 '8"'Se WO-MM sg gW '@Se-se -p q)g w. mgg b-e mm.,p%. p ,mpggg,,, ,_g -- - ~. -
q l. 9.0 TEST 1271?OD - (Cont'd.)
Q4 9.8.3 (Cent'd.)
g ll 9.8.3.3 500/7 Teedwater operatiens cection 9.2.6.l9.2,7 I' Signature b k -r b< $ w /2-E$~~Y Date - 9.8.3.4-800/3 Shield S vey Section 9.4 Signature / A.</hdo Date /E' 27-Y t 9.8.3.5 500/3 Initial P.adiochenistry section 9.2.1 .3. 7 and 9.2.4 5 .5. Signature ) $ i a Date l2~~Z O Y .c 9.8.3.6 365/2 Loos Parts Saseline. Signaturh 7 @~~b */> Date /.2-E S O f 9.8.3.7 211/1 Secen ary Sanpling funct. Test sectian 9.6 Signature S $ $ ,u< .' d Date /E-2 D Y jf~-3T 9.8.4 800/8 ICS Tuning section 9.4 to be performed if esci11ations are present at the ICS tuning coordinators discretion.. Signaturch / .:vb:.sss Date l$~2?' Y f,3f 9.8.5 Ferfom 800/8 ICS Tun g feed fore.eard data collection Section 9.1. Signature 6:Ah Date /l-3,b g-f[ 9.8.6 Frzfom 600/12 UtsST ection 9.8. Signature k fk i e ~ Date / E - 2 5-7 t U..W.'^.1A.] 2 01 D ((= W.<h ^ / n :, N. a n. 8 TMI UNIT II O SP 800/21 tfr u t ae raae 0 g,o.
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, h 9.8.7 Establish 3-D equilibriu:. ::caen cenditiens wit.h the centrcl rods l
j at the conf f uratica specified at the start of 9.8. Cignature .%tlAk J-4 Da e e_ \\1-N ;~_ 0~~ j f/},' h hh.D .q./2 - 2 S 'O 9.S.8 Tcrform E00/11 Core re.er dis:-ibutien section 9.2. -Signature k l /A N Date /2'24 0 3 i 9.8.9 Concurrently cceduct the f elleving tests: fcAr/ 9.8.9.1 800/5 Ecacti*ity coefficients at power. 4 Signaturej ad Date /2 ' 24 87 tDo/5 MI 9.8.9.2 CL/00 Rod vo th at pcVer. Signature $/h.h4 Date /2 '2b'~ll 9.8.10 Perform 800/23 unit 1 cad transient testing sections 9.4 thru 9.6. "+ Perform only those paragraphs required by the ICS Tuning coordi-nator. Concurrently perform 800/8 ICS tuning Section 9.3 as re-quired. liOTE: This is a plan
upset: Nonitor strainer hP closely.
Date /2 7[ Signatur d u < ~~% k the '- t w- +- a m* e s ** eemsommem =*eme -~~
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Q 9.0 ' TEST MITHOD - (Cont'd. ) afjf>f. i go% a .~~"Nyd Screen eutage and resteratien to ei.5 pc. er. ~~~. ~~ fs ') c',9.1 Rc=ove the screens frcm the folh.ing cc:ponents. Turbine .c TVfliNb WS2 h'i TV!3 51 WP4 @i
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~~ $.P. Step 4 4 Tk'-P-1B H.P.Stoph'h .P. Stop M f T' Date/2~/- Signature _ , s /o <~o u p 3b 9.9.2 Rc=ove the six (6) temporary gauges installed on the T-G stcan chest per Pzoblem eport 2244. Signature / tft .iet.4 Date /2 -/ --2 p @ 9.9.3 Return the plant to Met-Ed control. Proj ect ec=plete. Me t-Ed h'y esT al!,w.ble [-4/ restore plant to '.00.5 ower. Date /2-Z V-?S Signature cs 1 L. e . L'% *c,* ' 3 [.A,. 6,a C . b9 ^ P 8. = , y THI ("i1T II SP E00/21 0 mective Page O
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.a --a. _ ,.,e SP 203/_21-EXCTFTIO:t #7 n 1. Curing HFT-conducted TP. 600/20 Lc:s of Electrical Load and SP 600/36 Shutdcwn frcm.0utside the Control Room. Both tests verified capability. ' to' perform test - only' change is reactor core. 2. The Met-Ed Surveillance Procram conducted in accordance with Std. Tech. Specs. ' insures the continued operability of all required systets and - cc.penents. 3. The four-(4) pump flow conditions will be nore representative of expected nornal operating conditicns. 4 1lill be-incorporated in the test program upon return to 15 FP with four (4) - RCP's, i.e., tests are only deferred, not deleted. e The change in sequence has no nuclear safety implications. '~Tl .b) bf WrX ~.:m-, _,.^ P. n.e...,,y:a, : : ~ u-y &w 'Gj'% s K 9 - c~ sOLj.,zl_Q$' ~ pupliccie Pccje.~.'- g rocjz{ fec< Z m ' geni q n e. ran aj da = 9 4> 4 M4f m--4 4 -W 'tv 6M 6 - 4w h
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'b. During the initial power escalatien at cycle startup or ir.nediately c 11 ou.<..3"a e c..'w. ol. o d 4.n'.e.-c....ea., 'ke 4..4'4_-' e s e - ' e '._' o. .'o . a. w m c, c-- t.M.. 7 p~ " '"' '- --, cuc'.- sha.'_' b= _14_4 ' c^ ' o V,, r. 5..ou"_, "_' '". - f #_. c>. ( 4, ) bour hold c',, 'ha..::ove _' <.-va_' c"^o ".. "."..- s.= i..., _' A s c - n."" ". ~. a ~.. "_.. c '.. ' "s l g "k.=..e a.M 3 -b_'c. /' . vi th *~..hni .a.1 c e._4'ica'.4c.". b..o_' 4- .e. -- - _ .5. With the en:eption of ite: h a'ceve, no restricticns cr,c placed on - L required physics startup tests. r s g s. .b m.. i i..,......,.. I 6. L1 .f . u. - t, I g. 'DfI WIT II 5? S00/21 g.W: w'.1.,s g..,.,..t,.. a. .m s ,,,.s ,a g e a. . 3 c_ a -4.- m c:3 6%
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-s 5311-F2 I Revision 0 l 07/15/77 TiiREE MILE ISLAND ::UCLEAR STATION-UNIT !2 SURVEILLA.';CE PROCEDURE 2311-f2' POWER DISTRIBUTION Table of Contents 1.0 PURPOSE 2.0 APPLICABLE SURVEILLAt;CE FREQUEi;CY A!'D MODES 3.0 LIMITS AND PRECAUTIONS 4.0 LOCATION OF SYSTEM /ASSD3 LIES 5.0 EOUIFi!ENT REQUIRED 6.0 PROCEDURE 7.0 ACCEPTANCE CRITERIA s %, f).G M r* r^t DV Qf[i% 5,'A I i F m y ~'r=" suu %w a n Dupliccia FCC3 bq TMI LC;IT II SP E00/21 Enclesdre 4 1.0 page 1 of 34 1 .=gw __ m,
.ig.. ,J },' y- ] 2311-F2 Y~ Revision 2 1. - 12/13/77 N'N THREE MILE lSLAND NUCLEAR STATION S Q L* NIT #2 SURVEILLANCE i'ROCEDURE 2311-F2 POL.'ER DISTRIBUTION l 9-1.0- PURFOSE ~ l
~~Todcmanstrate:.anacceptablecorepowerdistributhnduringpc.er cperation by assuring cc,mpliance with THI Unit 2 Technical Specifications,~~
'1 '1.1-Section. 4.2.2.1 which states:. . i'uclear. Heat Flux Hot Channel Factor (F ) shall be determined to be q within its limits by using the incore detectors to obtain a pc.;er distribution map. l.2 Section;4.2.2.2 which states: .The measured F of TS 4.2.2.1 shall be increased by 1.4% to account q for manufacturing tolerances and further increased by 7.5% to account for ceasurement uncertainty, t 1.3 Section.4.2.3.1 which states: Huclear Enthalpy Rise Hot Channel Factor (F g) shall be determined to be within.its limit by using the incore detectors to obtain a power distribution map, i 1.4 Section 4.2.3.2 which states: i l N' ls ._ q. The measured F7,g of.TS 4.2.3.1 shall be increased by 5% for ceasure:.ent ,c c. % '\\; Oncertainty, e m ,,,) p_ g and to; assure that: D 1.5-The tiaximum Linear Heat Rate at core level (i) (MLHRi) does not %. a , L'.3 exceed the LOCA KW/ft limits in Table 1, Cata Sheet #2, (S.I. 5/97, o w.- . ',o 4/21/17). .-t t a
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~~[dM Sl.6L The Der.rture from Nucleate Boiling Ration ( DNGR) is createi than ira c- !.Th~~
~~S; 1.'30 during steady-state operation and anticipated tre.nsients.~~
TMI ImIT'II ,y J,3 (ESAR.4.4.lb). SP S00/21 Enc 3csure 4 hec 2 of 1:. n. 2.0 g -..a..
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~ 2311-F2 c. Revision 0 07/15/77 L 2.0 ' APPLICABLE SORVEILLAt:CE FREQUEllCY AND l! ODES i* 2.1 ~ Prior.to operation above 75 percent of RATED THER'uL PO'.?ER after cach fuel loading. 2.2_ At least once:per 31 Effective Full Pc,er Days (EFPD). !!GTE: This procedurs should be performed whenever the required data has been retrieved from the computer (e.g. FD0 every 10 EFPD). This assures that 2.2 will be met if an unexpected ~ computer outage occurs. l 2.3.Within 72 hours if a control rod is inoperable and action is tak ). Q. I per T.S. 3.1.3.1.C.2.. Q. j.. G. ?.J. 2.4 At least every two h'ours during physics test. T.S. 4.10.1.2. 7.t..p-O 2.5 flode 1 .a L'.J ~. / %.- NOTE: Tne provision of S.R. 4.0.4 are not applicable. m
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[ d 3.0 Lli41TS AND PRECAUT10 tis .l :. ' o 3.1 All control rods shall be within 3% of their respective group E] o .2 average. ,rg 'E b 3.2 There shall be no change in rod position or core power for 1 houi l before data taking. 3.3 Sufficient tir.e must be allowed for computer sampling and cciculation of data before the data are available. The time will vary with the data called. g 3.4 The plant shall be > 15% (minimum) po. er, however, reactor power should be as high as practicable for best data iesults. i 4.0 - LOCATIC:: GF - SYSTU'/ASSE:13 LIES -4.1 : Data uill be obtained at the operators console of the Plant Cc puter or the~ twenty-four point recorders in the control room. ??d.I U.51T II SP E00/21 Enc 1ccure 4- -3.0 ?* 3 f 14 g-
s^. x ,c 2311-F2 Revision 0 - b, 07/16/77 5.01EQ'jlFMEt!T REOUIRED -X,The Plant Computer or the 24 point recorders must % available fo i
~~5.1~~
- usdinthis' test. l'.. - 6.0 PROCEC'JRE. (Verify ~ccepleted steps en Data Sheet #1) ~ 6.1-50btain a printout of Group 3a, 3-D Power liap (R. values). 6.2 Obtain a printout of Group 26',. Fuel Assembly to' Average Fuel Assembly Fower Ratios. ~ 6.3 Obtain a printout of Group 20, Worst Ca'se Thermal Conditions. '6.4 ' Obtain a printout of Group 32, ': cat Balance. r 6.5 Record on Data Sheet il: OE:!Cbt FED CO,0Y Boron Concentration. ID Point 1750, CORPW. O Core Power % full power. Dupliccie Page . 6.6 Record'all incore detector outputs available on the 24 point recorders on Data Sheet fl. 6.7 Forward all data to the fluclear Engineer. 7.0 ~ ACCEPTAtiCE CRITERI A 7.'l Yerify that all control rods in each group are within'3% of the group average. Compare the R values (segment pcuer in ?4M) in symmetric locations throughout the core to assure that no real or f .indic,ated-anomalous power distribution exists within the core. Initial Data Sheet #2.
~~7.2 LCalculate~~
~~-Rave = (CORPW) 3,,y,3 Record on Data Sheet !2 -41 wir 11 SP E00/21-4.0 P3TA 4 of 14 "M %..ra[- .gy.q,.,sfd.~~
V:
~~e - Id... i. y,- ,~s .e ~:- 2311 72 Revision-3 ~. 03/15/78 7.3 Calculation of F : 9 7.3.li Scan the Power Map for the maximum-R Valve. Record R cax and location of Cata Sheet !2.~~
~~7.3.2 Divide R (Max) by li (ave) and plot en Figure'l. Verify that the value. is within the acceptable. region.~~
??OTE: If F eiceeds the TS limit, take the required aciton q of TS 3.2.2a, b and c. y 7.3.3 - ' Figure; 1 is based upon the. following calculations: F = (R max /Ti ave)'X C (which satisfies TS 4.2.2.2) q where: C = 1.24 pr'oduct of a. Axial local peak - 1.026 b. Radial l'ocal peak - 1.056 c. Hot Channel Factcr - 1.'014 d. Radial Peak Uncertainty - 1.05 e. Axial Peak Uncertainty 1.024 f. Peak to Ave. segment power - 1.04 'v f;0TE: anufacturing tolerance and measurement uncertainty, of 4.2.2.2, are included in factors c, d, and Y e of C. Both power uncertainty and densification 3 (" ' factors are included in the F limit. q .TS 3.2.2)_ ( 27;3.4. ' The Technical -Specification limit:
~~dyiciAL FIELD COPY.~~
~~~ 5.0 ~~~
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~~],, ' = 1 2311-F2 Revision 3 ~ 03/15/78' 4 Ff,<.. (2. 85) p where: THERMAL P0' DER P = RATED THEiF.AL PO' DER.and P < 1~~
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~ N' 7.4 -Calculation of F3g : 7.4.l' Find the maximum value of' Fuel Assy'. to Ave Fuel Assy Power Ration frcm Group 35 and' record on ' Data Sheet !2. 7.4.2-Plot the. u xinua value frca step 7.4.1 on Ficure 2. \\*eri fy - ' that the value is within the acceptable region. N NOTE: If F exceeds the TS limit take the required action AH of TS 3.2.3a, b, and c.
~~7. 4. 3 -~~
Figure 2 is~' based upon the following calculations: N F3g = Max. Fuel Assy. to Ave Fuel Assy. Power Ratio X C l (which satisfied TS 4.2.3.2) where: C = 1.119 = product of: a. Radial Uncertainty = T.05 b. Radial local Peak = 1.066 NOTE: Measurement uncertainty of 4.2.3.2 is included in factor a of C. The hot channel, pcuer uncertanity and densification factors are included in the F 1imit. g
6
~~.6.0 p;*' M Ts l ag;, A;Asu.. E n CO*PY-mt = 1I SP 803/21-Enclosurc 4 Pa;;c 6. of 14 0-CupiiCCiG G7G .-_..-.----J. ..:-.~~--.. ~ --- a - ~ -.. -~~

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~~^ -N r 2311-F2 Fevision 3 03/15/78 17. 4. 4 -~~
~~The Technical Specification limit: (TS 3.2.3) lF g.< (1.78) '(1 + 0.6 (1-P))~~
~~THER'iAL PONER .T,*here P~= RATED THERMAL POWER and P < l.0 7.5 Calculation of Maximun Linear Heat Rate (MLHRi): 17.5.1~~
~~Scan the Power Map and determine the maximum value at each of l~~
the.seven levels '(Ri (max)). Record en Data Sheet !2. -7.5.2 ' Calculate MLHRi = ALHR x TPi x C = 3.521 Ri (max) ~ where: MLHR. = Maximum Linear Heat Rate at Level i (i = 1., 2,.. 7) 1 ALH'R = Average linear Heat Rate in KN/ft 3 = (.973 x CORPM x 10 )/(177 x 208 x 12) a. .973 = Fraction Power generated in. fuel 3 b. 10 = Conversion MW to KW ' c. - 177 = No. of-Fuel Assemblies d. -208 = No. of Fuel Rod / Assembly p_ [- e. 12 = Length.of-fuel -rod in f t. I? I TP.i;= Total peak.on level i 5k () = RiL (max)/fave_ = Ri (max)/(CORPW/177 x 7) O ~ -g
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~C = l.29 = A conservative factor which.is the product of: ! I '. E L41 !t . ??" a. ' Axial local peak = 1.026 -== o a en ,<J : 0 b. . Radial local peak-= 1.066 ' 04 - os Y""3 .SL "c. . Hot Channel' Factor =' 1.014 4s .c-
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ida qq Ld. -Power. Uncertainty =.1.02 1 ([) (h ~. Densification Factor c 1.02 e III LIT II -SP 800/21 -7. 0 - r.nclosure 4 l Par.c 7 of 14 ...l- ~.- - e. . - ~ - -.. L.. 1
em.. 2311-F2 ~ Revision 3 ~ 03/15/78 k' f. Rcdial Peak Uncertainfy = 1.05 Mg 9 Axial Peak _ Uncertainty = 1.024 h. Average Segment Pot er to Peak = 1.04 3 0.973 X CORPW x 10 Ri (max) "SI
T7TTMS x 12

CORPN/Tl /7x77

I

9 3
, Ri (tr.n) x 10 .973 x 7 x 1.29 203 x 12 =*3.521 Ri (max) 7.5.3 Record the calculate-d MLHRi on Data Sheet !!2. - 7.5.4 Verify that the calculated MLHR$ are less than the LOCA KW/f t limit for level i by comparing the calculated 1LHRi !ith the LOCA KW/ft limit on Data Sheet #2. '7.5.5 If any calculated MLERi is greater than LOCA l~n'/f t linit for that level, verify that the MLu for that level is less than SP 800/I g the Fuel Melt limit. Record results on Data Sheet 2. fif'ch:traplate MLERi to the next overpower trip setpoint and 7.5.6 SP 800/21 record results on Data Sheet 2. 7.6 Evaluation of D::ER.
~~7. 6.1~~~
Record the minimum value of D:i3R'from Group 20 on Data Sheet 2. 7.6.2 Verify that D:;3R from Group 20 is greater than its limit. p"?bn$.HL NED (Q@'( m ag -.,r '-E ' [- Du_:licatz. pcae 0 4 7:;I C;IT II SP S00/21 , Enclosure 4 8.0 Pop,c<8 of 14 pe;4. ~.. ,4
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DATA SHEET 1 f, 2 gn 0 Paragraph Readino 07/15/77 .q'%~ -6.1' Group.34 Printout (Initiql) ~ r : qQ.2. Group 36 Printout - (Initial) '6~Y Group 20 Printout (Initial) 6.4 Grcup 32 Printout (Initial') f 6.5 B6ron Concentration ppmb ~ lbPoint1750,CORPW
~~6. 5~~
!<it 6.5 Core Pewer _ % FP 6.6 Record incore detector readings (Initial)' Recorder 1 Recorder 2 St. fio. Location (Level) Reading Location (Level)i Reading 1 G-ll (6) M-7 (6) 2 H-8 (6) - K-5 (6) 3 -F-3 (6) G-5 (6) 4 G-ll (4) E-7 (6) 5 H-8 (4) E-9 (6) 6 F-3 (4) __ H-9 (6) 7 G-ll (2) H-9 (4) 8 H-8 (2) H-9 (2) 9 F-3.(2) F-13 (6) 10 C-6 (2) L-13 (6) 11 C-10 (2) L-3 (6) 12 F-13 (2) F-13 (4) 13 L-13 (2) V,-ll (4) 14 0-10 (2) L-3 (4) 15 0-6 (2) G-5 (4) 16 L-3 (2) G-5 (2) 17 -K-ll (6) V-5 (2) 18 M-9 (6) K-11 (2) 6.6 Return to iluclear Engineer.' [4 -Completed by' Date/ Time 1 Approved by . Date/ Time (,,e!,9? m%i cm13 COPY j j.u WI D;IT II 9.0-SP 800/21 .Q-Dd,liccti F.cgt M"9 fM g.i vrhA e. 4 eM ar e. -h.=.- ee.w w - e we
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[+ ~;, "c,. a' 2311-F2 /- Rcvisien 0 DATA SHEET 2 07/15/77 CORE AGE (Group 32. -'"best estimate this cycle" X 4.404 X 10-9) = EFPD, S D/ Paracraph Value Reading 7.1
~~All control' rods are within 3% group average (initial) fio core Anomalous Power Distribution exists (Initial)-~~
~~-R ave = {(CORPH) 7.2 ~ 1,77x7)~~
~~7. 3.1.~~
Frax =- Location = 7.3.2 F is within acceptable region of Figure 1 q NOTE: If FQ exceeds the TS liaits, take the required action of TS 3.2.2a, b, & c. 7.4.1 fiax Fuel Assy to Ave Fuel Assy Power Ratio = N 7.4.2 F is within acceptable region of Figure 2 3g fiOTE: .If F exceeds the TS limit, 'ake the t H required. action of TS 3.2.3a, b, & c. Table 1
~~7. 5.1 Level~~
~~'P.i (max) location MLHRi LOCA Kh'/FT Limit g 1 14.7 U-0 -2 15.6 a .a fJJ 3 16.7 7td. c. e 4 18.0 J C C( 5-17.2~~
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8 6 16.2 8A ,=: 1 1 2* 7 15.4 8 O. 6 l1 7.6.1 r D:BR > 1.30 !!0TE: If the above quantities exceed their-limits, reduce power until all values are within limits. Ferformed by Date/ Tina . Checked by 'Date/ Time 'D!I l' 'IT II 10.0 SP 800/21 Enclosurc 4 p.... - i n, s i s.
{b. c. . x s-.. ^ s. s y 'l ' 4'. ~.. 'i.-' EATA Slit T 2 ~ 7.5.5 - Adjusted Mc:::: em Linear 1 cat F. ate C:Lla ) at a given Icvel using i . the folic iag: Adjusted Value = MLiag x 1,055 x1 Cf -i MLiiR x K - = g i where: MI.imi is obtained from Table 1 i s' a icvel conversion f actor C i i Ki is a constant incorporating the,1.055 and level ~ conversion factors Table 2 Fuel Melt
~~Level MLIIRf Ki Adjusted Value IOv/?' Limit 1~~
1.0107 20.4 2 1.0234' 20.4 3 1.0350 20.4 4. 1.0455 20.4 5 -1.0571-20.4 - 6 1.0577 .20.4 7 1.0793-20.4 t 7 1 . h.. - -) 4 I m,, 1. .:-e q*;- n. - L.,,. f gwp n . v..... u, 4_., 6 .,;2 II i-O. rnt tmtr 11 4
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3 ~ 7.5.6-Extrcpolate 1:axhum Linear Heat P.ste (MLE;) at a given pover : level ushg the' f olleving: Extrapolated Value - MLlag x Extrapolated ?cuer Fover - where: MLEi is,obtained frcs Table 1 x Extrapolated Fever is new overpower trip setpoint .?cuer is pcuer level existing value of MLEi was measured at 1 Table 3 LOCA 1 Extrapolated Extrapolated W/Ft Power Power W/F t Limit I Level MLEg l 14.7 l 'l l i 15.6 2 1 16.7 l 3 18.0 .4 l 17.2 l 5' 16.2 6 l f' 15.4 7 a-1 l5 I.. NOTE: The Extrapolated value must-bed LOCA W/Ft Limit. If not, calculate l power Icvel where the LOCA limit will be met and set overpower trip - J 6 this power level. t l' L,C'f,$v-t -- : a su-Q (My AI. CA ~ .si vs 3 7 ty17 77 SP E00/21' Encloqurc 4 Page 12 of 14 O Dupliccie Pcge_ 1
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ENCLOS'.*RE 7 of SP 300/21 1 I .THIS DATA SiiKET IS TO EE FILLED OUT AT STEP 9.2.3 TO VERIFY FROPER GYER. LAP EET.:EEN NI I!!!EF25DI. ATE /2 D PO'T.R RANGES. EDTH I!!TEFF.EDIATE.{W;GE Cl!.'.!'NELS SiiTLD EE CN SCALE. EEAT EAIX;CE PO*?ER* I INTEP.'2DIATE FJ2;CE NI -3 CO:: SOLE INDICATION 8.4 ' 0 i NI -3 LOO AMPLIFIER I;;DICATIOL-2.50'( -3 !!ust be i 1 x 10 ' a peres l g NI -4 CONSOLE INDICATION J A/O f NI -4 LOG A!:PLIFIER 'I!;DICATION/g /0 i PO*.*ER PA GE NI -S. CONSOLE I;DICATION / NI -5 Sib AMPLIFIER INDICATIONIA NI -6 C0" SOLE INDICATION /d / Must' be 2 10% FP NI -6 5121 Ali?LIFIER INDICATION /.3 ~ 'NI-7C0!; SOLE' INDICATION [f { NI -7 SIM l.' PLITIER INDICATIC:: /M / /D NI -3 Co!:SOLR INDICATInhi O NI -B S13! /J!PLIFIER INDICATION /@ DupliCCie Fac;a_ lg SATISTACTORY OVERLAP OESERVED: YES NO DATE ' /0 ~79 SIGNATURE: C,%. - - f,.' I l TMI UNIT II SP B03/21 -Enclo.4ure 7 P.M;c I of 1 'E
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sic:;ATURE:. 'i... t ff. '... ( DATE'Ib"///i' 1 _I .s oAWw T-IP7f \\gM. r-C,J w.s-1} M :: a:P) e,m.1 '[ 'r r T y %r' eL t. %.s -TxI t3IT II SF S00/21 /- Enclesure 7 Page 1 of 1 . Dbpa. cote rage 4 n- .s
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), ' ETRO POlli/s N ED!SCN C C l,6.P A N Y t..:. % e c,. a n.a..t.. as c...,,, 1 ?d.,4ct TMI i' ;I T I I - TE S T I.Q u' ?J.M !. JDI T to ;;;cn TMI ::uelear Staticn M.iddle tcwn, Fe nr.a. C;;e J necry 16, 1979 To .P. A. LE'in;E FETr!.1:;CE : P. Levine to J. Flint - tcle;L:ne es11 en 01-15-79 The Pc er Erc21stica Test Pro;;rca at TMI-2 ucs cc=pleted pe r 37500/21 a t nir.c ty-eight (9S) perecnt full pc,we r. As of 12-28-78, pisnt operations were limited to ninety-eight .(ES) percent FP or 959.2 3r.ie, whichever came first, due to Icw Rcs flew sad *:estingh:use f Turbine Generator loading. Any further plant t+ sting requircrtnts abeve ninety-eight (?S) percent FP will Ec defined by Met-Ed Licensing s1.ould both power restricticas be resolved. If you have any further questions concerning the ab we, plecse centact me. / 4 (i.:.231.r~ EE~'*Tr.~--g Iest si$Eihlrbent Ext. 227 or 290 T19.!/pa s cc: G. J. Troffer D. E. Hetrick R. N. Trabhakar C. P. Miller s \\ l l i ~er- ,g Un :p;i o } _ A r ~:2 n (DD'f 6 a: U -a ' Ni@.2% ~ Dt:pliccie.nrage m
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ML19308B785

Text

8.3 CAUTION

8.3 CAUTION

.

Subject:

7.2 LCalculate

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