Rev 2 to 23A1900AA, RHR Sys.

ML17277B733
Person / Time
Site:	Columbia
Issue date:	12/28/1983
From:	WASHINGTON PUBLIC POWER SUPPLY SYSTEM
To:
Shared Package
ML17277B732	List: ML17277B731 ML17277B733 ML17277B734
References
23A1900AA, TAC-55579, NUDOCS 8505140466
Download: ML17277B733 (20)
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(EIS IDENT: RHR SYS N<ai,RAR.RNRR+v C E N E R A LE L E CT R I C r BUSINF.SS OPERATlONS REVISION STATUS SHEET 23A1900AA SH NO REV 2 SYS.9 DOCUMENT TITLE RESIDUAL HEAT REMOVAL SYSTEM LEGEND OR DESCRIPTION OF GROUPS TYPE DESIGN SPEC DATA SHEET THE SUPPLY SYSTEM IS RESPONSIBLE FOR DESIGN CHANGE CONTROL OF THIS DOCUMENT MPL ITEM NO.E12-4010 Document Contxol Txansfex Per PHA 3608KK DMC-2429 REVISIONS I c PER TASK 5970: FDI-15I-0 Dwp.Transferred To Supply System Control As Per Work Order 4SOO EMR-M")566 Revision lO 25 85 Fyrt.Ithtrr BURNS AND ROE Burns&Roe ls Responsible Only For That Information lt Hos Added To This Drowinp In Accordance With Supply System Okection By The Above Revisions.

BURNS&ROE FILE NO, g/7-g5QQ SUPPLY SYSTEM CVI Number CVI Sheet Qep.Sheet 682A 754MR hIADE BY~M MON'IOYA 7-/Z-8~JK SAKABE PRINTS TO NED SAN JOSE B r~~/~T(RECK-z2-P Hco 401 A IRcv, 0 0/el)FM IKEMO l 883 CONT ON SHEET 2 SH NO.1 R f 850 5 1 05000B397 P

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Thl3IS 1 (Continued)

Di f f creat i a 1 Pre ssaro Indicating Switch, Minimum Flow Valve 812-N010 RAl%8 (1)0-1500 gpm (b)ACCIACY (2)80 gpm.(b)CALlBRATI(N (3)20 gpm (b)DRIFT (4)150 gpm (b)NISP (5)800 gpm (b)(6)ANALYTICAL-LlhKT (7).(b)(b), (o)650 gpm(b), 550 gpm(b)()950 gpm 1050 gpm Flow Element.Head Spray Line 812-N012 0-1000 gpm 20 gpm Flow Transmitter, Head Spray Line Flow Element.Main Process Line 812-N013 0-1000 g pm E12-N014 0-10,000 gpm Seo R607 100 gpm Floe Transmitter, Main Process Line 812~15 0-10,000 gpm Seo R603 Pressure Switch, Pump Discharge (ADS Interlock)

E12-N016 10-240 psi g 6 psi 2 psi 10 psi 125 psig 115 psig 135-psig 100 psig 150 psig Pressuro Switch, Shutdown Cooling Suction (Alaxm High)812-N018 20-260 psig 6 psi 2 psi 10 psi 200 psig (a)220 (a)Specific value must account for elevation differences between instrument tap and low point on system (elevation head duo to water (column);by AE.(b)Prcssure corresponding to the specified flcnr ratos.(c)A flow rate groater than tho smaller of tho two values spocified is required for adequate pump cooling.A flow rate less than tho largest flow rate specified is roqaired to assuro acceptably high system discharge prossure for initiation of core cooling.C'L Chj 2 23A1900AA SH.NO.

~~

TABLE 1 (Continued)

RPKTI(N Prcssure Switch.Pump Discharge (ADS Interlock)

ACCORACY (2)E12-N019 10-240 psig 6 psi CALID RATI(N (3)2 psi DRIFl'4)10 psi Nlsp (5)125 psig (6)115 psig 135 psig ANALYTICAL-LIMIT (0)100 psi8 150 psig Prcssure Indicating Switch.Main Process Linc (Alarm High,'onductivity Element.Discharge to Radia-tion Waste E12-N022 0-500 psig 6 psi E12-N025 0-25 pmho/cm See R006 2 psi 10 psi~i r~500 psig Prcssure Transmitter, Steam Inlet to Heat Exchanger E12-N026 0-600 psig Soe R606 Temperature Element, Main Process Lino 12-N027 40-500oF Seo R601 Pressure Transmittor.

Heat Exchanger Condensate Discharge Differential Pressaro Indicating Switch Brcak Detection E12-N028 0-100 psig Soe R605 E12-N029-5/0/%psid 0.2 psi 0.12 psi 0.3 psi Change of (d)0.5 psid 0.8 psid (d)1.1 psid Conductivity Indi-cating Transmitting Switch, Heat Exchanger Shell Sido Outlet (Alarm High)E12-N030 0-1 0 pmho/cm 1.0 pmho/cm See R611 Fi cld (a)Specific valao mast account for olevation differences bebroen instrument tap and 1cnr point on system (elevation head dao to eater (column)l by AE.(d)Change is in the direction that causes the broken lino pressure to decrease.23A1900AA SH.NO.REV 2

~0~0~'l Thill J?I (Cont inued)IWNCMM Temperature Element, Discharge to Radia-tion Waste 812-%31 RANGE (1)40-5004 F ACCORACT (2)See R601 CALIBRATI(N (3)D RIFI'4)(5)'SL (6)ANALYf ICAL LBllT (7)Pressure Switch, Reactor Stcam (F087 Interlock) 812-N032 200-1200 psig 12 psig 4 psig 20 psig 465 psig (a)485 psig (a)500 psig (a)Prcssure Switch, Reactor Steam (F087 Interlock) 200-1200 psig 12 psig 4 psig 20 psig 465 psig (a)48$psig (a)500 psig (a)Pressure Transmitter, Pumn Discharge (TDAS)E12-%37 (e)(e)(e)(e)(e)(e)(e)Prcssure Indicator, Downstream of LPCI Mode Injection Valve 812-%38 0-1000 psi,g 20 psi Prcssure Indicator, Pump Suction 812-R002-10 to 250 psig 2 psi.Conductivity Indi-cator, Discharge to Radiation Waste 812-R006 0-2$pmho/cm 1,0 pmho/cm Temperature Recorder Switch, Water Temperature 812-R601 40-500oF 104F 30F 10OF 420oF%04 (a)Specific value must account for elevation differences between.instrument tap and low point on system (elevation head due to water (column): by AE.(e)Tbc Transient Data Acquisition System (7DAS)supplied by Others.%he instrument setpoints (Range, Accuracy, Calibration l?rror, Allowable Drift, Naniual Trip Setpoint, Allowable Value and Analytical Limit)for the instrument loop containing prcssure transmitter MPL E12-N037 provided by Others.23A1900AA sH.wo.11 REV.Q

~0 i O,y NUCLEAR ENERGY BUSINESS OPERATIONS GENERAL I ELECTRIC 23A1900AA SH NQ, 13 REV 2 NOTES: Tl process to which the process sensing instrument and/or trip devices are to be calibrated.

2, Instrument Accazac-The quality of freedom fsom error of the complete instrmnent channel from the sensor input thsoagh the trip device output including the combined conformity, hysteresis, and rcpeatability errors.The value specifiod is the mazimam value for two standard deviations (2e)of thc prob'ability distxibution of instrmnent a accuracy.9.Calibration Accurse-The quality of freedom from crxor to which the trip setpoint is calibrated vith xospoct to the tsae desired setting, including both calibration instrmncntation accuracies and calibration procedure allowances.

When associated

<<ith the calibration instxu-ments, thi.s term is sometimes sefexxod to as"Resolution." The value specified is the mazimam value for two standard deviations (2a)of the c probability distribution of calibration accuracy, 4~Instrument Drift-The chango in the value of tho process variable, at vhich the trip action vill actually oocur, between the timo the naninal trip sotpoint'is calibrated and a subsequent surveillance test, dao to all causos, as moasusod in terms of the instsmnentation indicator scale, The valuo of tho procoss variable at which the trip action vill actually occur at the time.of calibration is taken to be thc intonded nominal tsip set point valuo.The valuo spocified is the mazimmn valuo for two standasd deviations (2ed)of tho probability distribution of instrmnont drift ST Nominal Txi Set Points NTSP-Tho intended calibration point at which a trip action is set to operate, commonly thc center of an accoptable range of trip operation.

6~Technical S ecification Limit TSL-The limit prescribed as license condition on an important process variable.'7~Anal tical Limit-The valuo of the sensed process variablo established as part of tho safety analysis, priox to which a desixed action is to be initi.atod to prevent the psocess variable from reaching the associatod design safety limit.8.Tho canbined instsmnont channol accuracy in this loop (tempesatuxe elements, controller, transmittos, indi,catox', convextes, switch pover supplies and A%WAS;as applicablo) shall not ezceed this value.Nce 007 A IRcv.T 0/ST I 02-1.2~&C ,'I l 4'2 DYilG SHT yO~W I rl

~%1~~o FRAME 4 OF 4.I~NUCLEAR ENERGY 8USINESS OPERATIONS GENERAL ELECTRIC 23A1900AA s""0 14 REV 2 FINAL NOTES: (oootiotod) 9.The combined channel calibration accuracy in this loop (temperature elements, controller, transmitter, indicator, converter, switch power supplies and AVGAS;as applicable) shall not ezceed this value.10.The combined channel drift in this loop (temperature elements, controller, transmitter, indicator, converter, switch power supplies and AVifAS;as applicable) shall not ezceed this value, NCO d07 A IACV.10/d11:1 e (y~1 i INSTRUMENT SETPOINT SPEC)FICATION BASIS SE'I POINT/Llt.I ITS t I OP tanX OPEIIATING POINT TS TRIP SETPOINT fTECM SPEC)AV ALLOWABLE VALUE-fTECH SPECI AI ANALYTICAL L It.1 IT SL SAFETY LIMIT/CRIT E R I A OPERA-PROCESS SAFETY MARGINS FOR:-TIOWAL--AVAILABILITY

-+-+-NON LER flANGE--READOUT M<<-AtIALYSIS-TI I A WS I L'N TS ACCIJIIACY TRANSIEIITS A.SENSOR AND SIGNAL CONI)I'CIOIIIWG DRIF'fS BE'I WEL'N SURVEILLANCE (CALIBIIATION)

TESTS.FACTORS DETEAt1IWII4G A.I'EflTURBATIONS I)1 1l I I N Ci f'A N T hlANEUVEflS, B.PROCESS NOISE.C.CONSIOEfl II'IS'Cf\U-MENT TlhlE RESPONSE.A.SEt4SOR AND SIGtJAL A.SENSOR AND COWOI1 IOt4ING DRIFTS COMPOWEtl T BETWEEN SURVEILLANCE ACCURACY.(CALIBRATION)

TESTS.i~A.I.lhIITlt46 TIIANSIENT 0.CONSIDER I t45 T R Uh1 EN T Tlt.1L-RESPONSE.C.ALLOWANCE FOR CALCULA.TIOtlAL h1ODEL UWCEIITAINI IES yO f J W.o.No.Oravving No.By'itle DATA SHEET Checked.".--""'----'-.=--.-"'" Approved Page No.t Sheet'ont.on Sheet'URNS AND RQE, INC.E}f}J}t}1Y, 3I Hp<<easrsrtsrs Office-Oradell, N J, steB'j 99$)MFG/MODEL 9b 8 0/INST'ANGE 2.FUNCTION SPm Oa]A z~P 8M s GOT TEP 3 IF YES, COMPLETE STEPS 7, 12&13.FY METHODOLOGY IN REMARKS tt}TECH.SPEC.OE PROTECTIVE LIMIT~YES NO}IF YES 0 S B)PROCESS FUNCTION, ALARM OR INDICATION YESNO C)OTHER (YESNO IF YES.JOSTI (STEP 13).3.ALLOWABLE VALUE REFERENCE (TECH SPEC ONLY)TRIP SETPOINT SEE INSTRUCTION.

IF NO ACCEPTABLE REFERENCE COMPLETE STEPS 4-13.OTHERWISE GO TO STEP 13.'>~SLf--l B@75 2 lrr 4.PROCESS READOUT ACCURACY COMPONENT MFG/MODEL ACCURACY (%)CALIBRATED INSTRUMENT RANGE ACCURACY REFERENCE~gycrrft.P4-3jJ'-I 8f'8 R~gN-Oi-7ec'LV-TS-l6 t EV 7+S~n'en e TOTAL LOOP ACCURACY 5.INSTRUMENT DRIFT ALLOWANCE 6.RESET DEADBAND 7.NORMAL OPERATING POINT/RANGE, 8.0 MAXIMUM/0 MINIMUM OPERATING POINT (VALUE TOWARD LIMITING CONDITION)

/~/(inc),02.-.2 Lrbc<77 H a" rs,pga f y 7vS~~~q.e.9.ANALYTICAL LIMIT (AL)10.ALLOWABLE VALUE (AV)(STEP 9+STEP 4)ll.TRIP SETPOINT LIMIT (STEP 10+STEP 5)g~rc'5 M-~/12.TRIP SETPOINT REFERENCE'728 SEE INSTR fs,~'EE INSTRUC"'SEE INSTRUCTS..;Y 13.CONCLUSIONS:

TRIP SETPOINT 97.(PROCESS UNITS)ON: INCREASE/~ma~(INSTRUMENT UNITS)REMARKS: LOAJ 7anvP-J=oat-OaJr~CJ

>OC.

1 1h>A'P e W.O.No.Drawing Np.<Bp Tjtie VNSTRUCTION EXIIIBIT III BURNS AND ROE, IN Headquarters Office-oradell, N J.Date'-"-*~-'~, Book No.Gale.No.Checked:~"-

'.-~"---"--.-=-'pproved Page No.~Sheet'ont.,on Sheet STEP 1.Complete all required information.

'f not applicable, mark NA.STEP 2.Explain the function of the switch.Complete one of the following.

A)Identify if a Technical Specification applies or if the switch fuction is a protective limit.A protective limit is one which results in equipment damage or an unsafe condition if exceeded.A tech.spec.or protective limit can also be in the form of a process function, alarm or indication, however, this step must be complied with.B)Identify setpoints which are to control process functions, alarm that a condition exists or provide an indication.

In-struments in this catagory are operator aids and are not tech.spec.or protective limit.C)Identify and e~lain any additional catagories of instruments and select appropriate calculation method.STEP 3.Enter allowable values (tech.spec.only)and trip setpoints as defined in definitions.

Reference their respective engineering documents (e.g.drawing, calculation, vendor information).

If this data is unavailable, STEPS 4-13 must be used to derive these values.STEPS 4-9.Enter the required information and references.

See Definitions.

STEP 10.Calculate the Allowable Value (AV).If a minimum limit (STEP 8)then, AV=STEP 9+STEP 4, if a maximum limit, AV=STEP 9-STEP 4.STEP 11.Calculate the Trip Setpoint Limit.This value as calculated is as close as the setpoint can be to (AL).This value can be the actual setpoint or it may be established using the guidelines in STEP 12.STEP 12.Setpoints must be established to perform the required function yet minimize inadvertent tripping due to operational transients.

The following guidelines should apply or an improper instrument may be applied.e STEP 8 (mz)+STEP 4+STEP 6<TRIP SETPOINT, OR STEP 8 (MIN)+STEP 4-STEP 6>TRIP SETPOINT If STEP 2B, or, possibly 2C, is used, reference the source of or method used to determine the setpoint.Continue in Remarks section if necessary.

STEP 13.Enter the Trip Setpoint, both in process and instrument units, the Allowable Value (Tech.Spec.only), and note any Remarks which may be helpful in understanding how this calculation was completed.

5W h/I ql ,~t P I K 1 i'l'~4 W.O.No.,Drawing Nq Sv Title~DEFINITIONS Approved EZhlSIT IV, BURNS AND ROE, INC.Headrtuarters Office-orarfell, N J.Date Book No.Cafe.No, Checked Page No.Phpyt Cant.an Sheet-1)Accuracy

Manufacturers rated accuracy in percent full scale.2)Accuracy, Total Loop: The sum'f the instrument accuracies or, if desired, the square root of the sum of the squares of the instrument accuracies.

3)Analytical Limit (A.L.): The value of the sensed process vari-able prior to which a desired action is to be initiated to prevent the process variable from reaching the associated design/safety limit.4)Allowable Value: Analytical Limit minus Total Loop Accuracy.5)Instrument Drift-Estimated change in instrument setpoint between calibrations.

6)Maximum Operating Point-Normal plant process operating point plus normal operating transients.

7)Minimum Operating Point-Normal plant process operating point~inus normal operating transients.

8)NO/NC Contact-Normally Open/Normally Closed contact used for switch function.9)Reset Deadband-Contact deadband between trip setpoint and contact reset (return to normal).10)Switch No.&Circuit No.-Identifies the switch and circuit within the instrument as identified by the instrument manufacturer.

ll)Trip Setpoint Limit-This value is as close to the Analytical Limit as the instrument can initially be set.

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