ML19309B139
ML19309B139 | |
Person / Time | |
---|---|
Site: | North Anna |
Issue date: | 04/02/1980 |
From: | VIRGINIA POWER (VIRGINIA ELECTRIC & POWER CO.) |
To: | |
Shared Package | |
ML19309B136 | List: |
References | |
2-ST-7, NUDOCS 8004030190 | |
Download: ML19309B139 (31) | |
Text
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Page 1 of 2 _sT. 7 1 VIRGINIA ELECTRIC AND POWER CCMPANY aey;3;en no.: o Cate:
! SPECIAL TEST PRCCEDURE FCR NORTH A!mA PCWER STATICN UNIT # 2 7 t yt,3 : FORCED CIRCULATICN CCOLDOWN Precared Sv: E. R. SMITH, JR. Date:
Engineering Recermended Accreval: Date: )
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STATICN NUCLEAR SAFETf ANO CPERATING CCMMITTEE APPRCVAL CF PRCCECURE:
Chairman's Signature: Date:
All perscnnel condue:ing actual testing in acecreance wi:n :his precedure will verify by : heir signature :na: : hey have read it in I:s entirety prior to cemencing any testing:
d TEST RESULT 3 AEVIEWED BY ENGINEERING: g l
TEST RESULTS APCROVED BY STATION NUCLEAR SAFITf AND CPERATING CCMMIMEE: - !'--
Cha i rman ' s S i ena tu re: Date: 1 l
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2-ST-7 Page 1 of 8 VpiGINIA ELECTRIC AND POWER COMPANY NORTH ANNA POWER STATION UNIT NO. 1 FORCED CIRCULATION COOLDOWN INITIALS
REFERENCES:
- 1. Precautions, Limitations, and Setpoints for Westinghouse NSSS
- 2. Unit 2 Technical Specifications
- 3. WCAP-8747, North Anna Nuclear Design Report
- 4. Station Curve Book 1.0 Purpose Determine an excore detector indicated power correction factor as a function of the average cold leg temperature.
2.0 Initial Conditions ;
2.1 The following initial conditions exist: ,
1 2.1.1 Reactor power is at approximately 3% RTP. j 2.1.2 Forced circulation on all three loops is established.
2.1.3 Steam generators are being fed by the auxiliary feed water system. Level is being maintained at approximately 33%.
2.1.4 Steam generators are steaming via the condenser or atmospheric steam dumps. (Preferred is to condenser for SG pressure equilization).
l 2.1.5 Pressurizer pressure control is automatic and l l
maintaining normal operating pressures. l 2.1.6 RCS temperature is approximately 550*F.
2-ST-7 Page 2 of 8 INITIALS 2.0 Initial Conditions (cont.)
2.1.7 Shutdown banks are fully withdrawn and control banks are at least at their insertion limit. Rod control system is in manual. (Preferably all rods are out and control bank D is at
- 160 steps).
2.1.8 Pressurizer level control in AUTO and maintaining programmed water level.
2.1.9 The RCS and Pressurizer boron concentrations are within 50 ppm.
2.2 The reactivity computer has been checked out and flux, reactivity, Teold, Thot are being recorded on the strip chart recorders.
2.3 Sufficient water is available to provide makeup for the expected cooldown to 450*F.
2.4 Set up the following test signals on brush recorders.
NOTE: Exact recorder / channel / parameter matching is not necessary.
2.4.1 Recorder No. 1 Channel Parameter 1 Przr Pressure 2 Pr:r Level 3 LP A Hot Leg Temp 4 Lp B Hot Leg Temp 5 LP C Hot Leg Temp 2.4.2 Recorder No. 2 Channel Pa rameter 1 LP A Cold Leg Temp 2 LP B Cold Leg Temp 3 _P C Cold Leg Temp 4 LP A Flow I
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2-ST-7 Page 3 of 8 INITIALS 2.0 Initial Conditions.(cont.)
2.4.3 Recorder No. 3 Channel Parameter 1 LP A SG Level 2 LP B SG Level 3 LP C SG Level 4 LP B SG Flow 5 LP C SG Flow 2.4.4 Recorder No. 4 Channel Parameter 1 LP A SG Press 2 LP B SG Press 3 LP C SG Press 2.6 Trend the following parameters on the process computer at
- 5-minute intervals.
- Wide range cold legs Wide range hot legs Steam generator levels i
Loop Flow
- Write in AP number.
2.7 Obtain the wide range a T carrection factors using Appendix D.
2.8 Perform the reference (REF) portion of the primary calorimetric Appendix A and a M/D trace simultaneously, Appendix A, Part B.
Use the output of the primsry calorimetric to set the M/D Power Monitor Program.
29- Notify the Shift Supervisor on duty of the test and coordinate its performance impending through him.
2-ST-7 Page 4 of 8 INITIALS 3.0 Precautions 3.1 Do not exceed 5% RTP. Caution should be used in maintaining the desired power level because of flux shadowing of the excore detectors. Don't depend on the excore detectors. Use as many methods as possible to determine actual core power.
3.2 During the cooldown the isothermal temperature coefficient will be small but may be of either polarity. Care should be taken ;
when changing reactivity using control rods or boron concentration because at scme point the temperature cofficient polarity could change.
l 3.3 Maintain control bank D at s 160 steps if possible. This same suggested minimum limit will be used during the natural corcul-ation test. This height will minimize the effect of rod shadowing of the excore detectors and insure uniformity between forced and natural circulation test.
4.0 Instructions 4.1 Cooldown 4.1.1 Verify that the CVC5 will provide auto makeup.
NOTE: Depending on rod position and magnitude and polarity of the isothermal temperature coefficient dilution and/or boration may be required.
4.1.2 Verify that the system is in equilibrium with respect to power, RCS temperature, pressure and boron concentra-l tion. l Pressurizer pressure ~ 2235 50 psig l
S/G Pressure ~ 1005 psig l RCS -PRZR boron ccacentration within 5* ppm l Successive boron concentration within 10 ppm '
Reactivity is approximately zero and constant
2-ST-7 Page 5 of 8 INITIALS 4.1.3 Start the test recorders on slow speed (5mm/ min).
Record on the charts, the date, time, recorder ID, parameters measured, measurement range, and test being performed.
4.1.4 .rt prucess computer trend block.
4.1.5 Obtain a thermocouple map,' per Appendix C, Part C, and repeat every 10*F during cooldown.
4.1.6 Record excore detector data on Data Sheet I and repeat every 10*F. One of the P.R. channels is disconnected so record the Keithley amplifier output for that particu-lar channel on Data Sheet 1. (cooldown) & Data Sheet 3 (heatup).
NOTE: Mark out "N- " and write in "KA."
4.1.7 Initiate the program for obtaining M/D trace data and record on Data Sheet 2 (cooldown) and Data Sheet 4 (heatup). Repeat every 10*F during cooldown. Use applicable portions of Appendix A.
4.1.8 Initiate the primary side calorimetric and repeat every 10*F. Use applicable portions of Appendix A.
4.1.9 Initiate a cooldown by slowly increasing the rate of s, tam dump and proceed to approximately 450 F core inlet temperature. 'The rate should be approximately 30*F per hour. When Tavg is reduced to less than 543 F byp.ess the steam dump inter ;Joi i
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2-ST-7 Page 6 of 8 INITIALS 4.0 Instructions (cont.)
4.1.10 Use the control rods and soluable boron as necessary to maintain core power approximately constant. Core power is determined by the primary side calorimetric and the M/D trace data. Refer to Appendix A, Parts A and B.
NOTE: Control bank D should be maintained at approximately 160 steps if possible.
4.1.11 Upon reaching approximately 450*F terminate the cooldown and allow th RCS to come to an equilibrium condition.
Continue to obtain data.
4.2 Heatup 4.2.1 Allow the RCS to heatup at the same rate indicated above. Obtain the same data at the same temperature plateaus.
4.2.2 Upon reaching approximately 550*F terminate the heatup and allow the RCS to come to an equilibrium condition.
After one set of data has been obtained at a 550*F the test is over. Attach data to this test.
4.3 Data Reduction NOTE: This reduction must be performed and an excore detector indicated power correction factor as a function of temperature determined before proceeding to 2-ST-(Boron Mixing and Cooldown).
4.3.1 Use both the cooldown and heatup data. If for some reason the data was not obtained at exactly the required temperature plateaus mark through that temperature and record the actual measurement temperature. '
2-ST-7 Page 7 of 8 INITIALS 4.0 Instructions (cont.)
Excore Data: Sue the top and bottom currents for the 3 (Data Sheet 1) service and enter under sum. The Keithley amp output should be in sum column. Transfer the data to the Calculation Sheet.
M/D Data: Transfer the calculated power level to (Data Sheet 2) the Calculation Sheet.
Primary Calor. : Transfer the power level obtained from (Appendix C) the primary calormetric to the Calculation Sheet.
Average Power: Using the incare data and primary calor-(Calculation imetric data determine the actual core Sheet) power at each temperature plateau. A straight average should be used unless one method or the other proves unreliable.
Power Normalization: Divide the average power obtained to REF Average Power at each temperature plateau by (Calculation Sheet) to correct the excore outputs.
Power Corrected: Divide the measured excore detector Excore Currents & currents by the power normalization Keithley Amp Output factor. This in effect corrects all data for flucuations in core power. The resulting currents then will only be a function of the cold leg temperature.
Excore Current: Divide the power corrected excore Multiplier as a currents obtained at each temperature Function of Cold plateau into the excore current Leg Temperature: obtained at the REF condition.
NOTE: the factors should increase as T decreases. Plot the correc-tion # factors as a function of T for each detector. The plots will be used in the natural circulation cooldown phase of this test.
s Completed by:
Date:
2-ST-7 Page 8 of 8 5.0 Acceptance Criteria 5.1 An excore detector indicated power correction factor has been determined.
6.0 Attachments s
6.1 Data Sheet 1 6.2 Data Sheet 2 6.3 Calculation Sheet 1 !
6.4 Data Sheet 3 6.5 Data Sheet 4 6.6 Calculation Sheet 2 6.7 Appendix A 6.8 Appendix B 6.9 Test Equipment data sheet 4
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2-ST-7 Attachmant 6.7 Page 1 of 10 APPE:'D 2 A Cu line I. C :a ? ver ::e:ar d_ cati:n A. ?:1=ar7 Sida Calori=atric (?c :ad Cir:u12:i:n C=17 )
- 1. Rafarance (
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- 2. Neu-rafarasca 'a==erstura Calori===:1: (Cecid:w=)
a) Cu:put used a: avery ta=pers:ura pla:aan as a con:1:ucus cera pcwer =cniter.d=g scheme.
b) Cu:pu: is used is conju=c:ien wi h de cupu: of de M/D Pcwer hent::: ? :g:s= := assign a bes: asc1=s:a cera pcvar s: each
- ampers:ura placasu. ne powers are used : ac -C ':a de em ::a da:acter cu:pu:s which in :u:= ara plantad as a f:=c 1:s of :he cera =la Ca=cera:ura.
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Care ?cuer Oe:a =1:2:ie PART 3: M/3 ?: var Meni::: ?:=g ss
- 1. Set up de ovable detac::: system for a 1 pass par.121 core flux .~.ap. Salac: flus :hinbles as per the esble belev for de flux =ap.
Drive 10-?sch ?csi:1en Core loca:1:n A
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Attachm:nt 6.7 Page 4 of 10 A2?E:C::]: A (C:::inuad)
Care ?cwer Oacarsina:10:
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- 3. 7erif7 da: de ?-250 para =a:ars lis:ad in de fc11 ving :able have da pr:ps: value and that de P-250 :1:a and da:e are curra==.
Upda:a as requirad.
Addrass 7alue Fune:1en K0901 1 See de ecuer .c:--n:s:10 fae ::
3elec:s :r.e =cdifiad K5525 1 "T1um Mae ?-ine" ereera=s K0eC0 0 I:1: dated Fass Nu=ber p Calibra:10: CO:stan: for M/3 K0864 7ariable ~) Pever Menitor
(~' ) 7ariabla: The vaha as:ared is a ra:1c of de Pri=ary Caleri=acric Indica:ad ?:ver (I:am 8 = 04:2 Shee: A.1) :o the M/D calculated pcver (UC906) :1=as de curras: value e :arad is (KCS64). If no va ha has been e :arad in:o (K0864) en:ar 0.25.
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ET:.: Sa -='-~'*:ad pcvar (UC9C6) is p:1 :ad af:a each pass and
=ay be ::acded by de ?-250 if desirad. ha indiridual datae or scr-= ad is:agrals are also pristad.
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2-ST-7 Attachment 6.7 Page 5 of 10 AP?r.IDIZ A F1Cf.A3.7 SIDE CALOFOC 2.*C 3AIA S'a'u- " A.L Leen 1 11 12 13 14 15 16 17 18 j Approx. EL CL T ECS *a=p Loop y) Leopriew Lcepa=.Pir '
\i)
, 12-13 14+c.f.(3) 15xcp J6 x 17
? vel:s.*hIII M s.? *? % 3eu/lb 10(4) lb /hr 10*3:u/hr
$50(227) l l' iS40 I i e i i I '
I ( l 030 I i i ! I i t i i (520 t i t i I i i I
- !510 I i e 1 i i
_ t i 1500 i t t i l i ) I i i490 1 I I i e i i i I
, 4d0 t 6 i i i e i t i
! '470 I i t i t i i i i 1460 i i i t i i i i i
!450 i i i l i ! I I I 460 i e i i t i i i n 4
!470 I I I i t i ; i i l 14J0 i i e t i i i e i I490 t i i i i i i t i 4300 t i i i , t t i i
!5 10 t i e I I I I i i i i
{520 i i I i i l I I i )
1530 t i i i ! I I I i }
1540 ' ' I t i i i t i i
!350 e i i e i i i I (1)
(,)?::= appr:pris:a s T dccu=en:.
(3)?::= Appendd.: B.
A-1 Ra= arks:
(;)=Cp f :=!able f::= *abl4A-1 Da:2 by:
Date:
4
2-ST-7 j Attach =snt 6.7 i
Page 6 of 10 A??E!DI'C A PRO",Al? SZ:I CALORO"'.i.""EC (CO 7"Zici J)
OA"'A S*m. A.1 Les r 2 79 710 111 112 713 via y L5 715 A99:n. EL CL 2 Lcce E Lecpriew LcceR=P.::
l
' lACS To:pl r
,, (1) C y( -) f~1C-411 C- 112"2.f.(2, C
2 jL3zep(3) j;ixd15 l vel:s *: - vel:3 ' u/lb 10{4) lb/hr 10'3:u/he 550(IIT l 1540 t i f I ! i i l 1530 t i i '
- i e i i 1520 t i i T i e i i 510 t t t i e i i 500 6 i i i l i t i i i fa90 t i e i i
!450 1 6 i
I i f i i i
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i t i l 15C0 4 i i i : l ;
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2-ST-7 Attachment 6.7 Page 7 of 10 A??CDIZ A PR':i G T S C I d OR*:C"RIC (C:::4._. w )
DATA SEIII A.1 Lcco 3 -
1 '. 7 i/13 719 #20 721 122 423 124 l
Apprc . 'dL CL T Lecp 2 Locpilev l o c p M :-l RCS Ta:p 13-419 #2C% .f.( } d21=Cp }
122xd24
- ? 7el:s ?? ) 10f4) vel:s ? ? *:u / lb lb /hr 10*3:u/hr 550(?r!)
3540 e i i i i 1 i i i 1530 i i i i i i i 1520 t i i t i i i t i 1510 I I I i i i i i I (500 4 i t i i i t i M90 l I t i i l I i t i 14d0 I i i i i e 1 i i I 1470 i t i i i i I t e t , i 1460 t i i e i i i t I i
- 430 I i i l i i t I i j 460 r I i i l I i ! ! I i 14 70 l i I I I I
' t I i 1 I4d0 i i i i i i I i i 1490 t i I t I 6 I I i 1300 i t i i i i i t i l510 i l i t i ! i t r i i l520
- I I I i i i e i ;
}330 < 1 1 t I t I i i 1 i3 *O I i i I i i l i I I 3
' 50 ' t i i i t i i t i la=.uks :
2 4
Da:a by:
Date:
, , , , . _ , , , - . - , . - - - - - ..-w
2-ST-7 -
Attache.ent 6.7 Page 8 of 10 APPCDI't A
?R~?.ARY 5~3E CALOR 2ft rc (CCIT!=D)
DATA SF.r.~c.: A.1
- 25 Tecal 426 427 Approx. #28
- al Reac:cr ?cve: '
laac:c: ? ver RCg?Ta=p. 18 + 116 + d24 : Reac:cr ?cwer 10*3tu/hr 426 x 0.29307 427 x 0.02932 Wa -
350(71?)
L540 I i
1530 i
- i 1520 i i j
t i
[5 10 I j
i 1500 l l i i l 490 I i i 9 i 1430 i i
470 i ;
t I i> 0 i l
- l 450 i j g
!460 t i
1470 : ;
- j 1430 i ,
e S90 I i i
4500 1 ,
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j i
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2-ST-7 Attachment 6.7 Page 9 of 10 A??"QII A
?3".A32 SIDE C.lLI.0CII""?.IO (CO:s. sw)
Table A-1 n a Tp. C;: ~) =
7 Stu/lb. 7 #:/hr 560 1.270 3.6229 x 10 I 550(3I7) 1.246 3.6763 x 10' 340 1.221 3.7254 x 10 7 530 1.202 3.7729 x 10 I 52G 1.133 3.3179 x 10 I 510 1.168 3.3621 x 10 7 500 1. 15 2 3.9044 x 10 7 490 1.1i0 3.9436 x 10 420 1.127 3.9837 x 10 470 1.117 4.0213 x 10 I 460 1.107 4.0589 x 10 I 450 1.098 4.0949 x 10 440 1.089 4.1294 x 10
(~')These 'ra?.ues are frc= -J:e 1967 .t9fE 3: a= 7alues ! ablesare. f:: a 9:sssure of 2250 psia.
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2-ST-7 Attach =e.nt 607 Page 10 of 10 APPCD" A (Cen.inued) i .
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2-ST-7 Attachment 6.8 Page 1 of 3 AP?EIDIZ B
, 'JCZ 2.C'GZ a T C03?20 20N B.1 "sa :Je DW.'s and aasura the vol: age a: :he :es: poin:s speciidad for each lecp as rapidly as pessible.
B.2 Use the app: pria:a sm g :o conver: :he D7 vel: ages :o 7.
- 3. 3 2.e correc:1cs fac::: (c.f.) de:e. d ed i= 1:em 5 is used en Da:2 Shee: A.1 c cc::ee: the calcu.la:ad side range c. I for .he a ! across he core genera:ad by the Reac::: Ccolan: Pu=ps.
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- i 2-ST-7 )
Attachment 6.8 l Page 2 of 3 )
A??EIDII B (CC'i 2.w)
'JCI ?.A !G"' .1 CC222C'" CN LCC? L I:e= Fara=e:e L ca:1ca Readin-s Para =ecer No. Rack /Tes: Poin: 7olts *?
Lecp 1 3
.se: Lee (1)
L:cp 1 c t2 ,
-- - az (3)
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1 L op 1 I 3 'J. R . o. - ta- 1-I:-= 2 Lecp 1
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'4. R. 6 I 5 C:- ectienFa : r ::em t.-!:-e 3 c.f.=
LCOP 2 L cp 2 1 He: Lee (,-)
Lecp 2
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2-ST-7 Attachment 608 Page 3 of 3 A2?E'IDII 3 (CO'."I~'*L'ID )
.N ,; e.%%eus.
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- e w a%,.r.%e e .m. .r.
LCOP 3
- = Para:a:er Lacatics leading ?ars=e:::
tic . Rack /Tes: ?cinc Vol:s ?
.cep 6 3 c.c: t.e t (1)
Loop 3
(~3 )
2 Celd Lee L:cp 3 3 *i.R.d * -- '-I:-= 2 Lcep 3 4 tt.R. 6 T (3d
'4. R. 4 T 5 Car ee:1:nFac:=r I:e= 4-I:e= 3 c.f.=
LCCP 4 Lcce 4 l Ec: Les R2 /'"?-44 3E (' }
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Lecp 4 2 Ccid Lee 16/~?-4437 (3)
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2-ST-7 Attachmsnt 6.9 Page 1 of 1 TEST EQUIPMENT DATA SHEET TEST EQUIP.T.NT DESCRIPTION
- MODEL NUMBER EPCO Q NUFJER l
i 4
1 i
l
NOTE: This applies caly to temporarily installed test equipment or instrumentation Permanent instrumentation which is part of the system and shown on drawings should not be included.
Completed By:
Date:
.-. . .