Text

Forwards Data Point Library & Plant Attribute Library,Per Rev 1 to NUREG-1394 as Part of Emergency Response Data Sys
	ML20090L658
Person / Time
Site:	Hatch
Issue date:	03/11/1992
From:	Beckham J; GEORGIA POWER CO.
To:	; NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
	RTR-NUREG-1394 HL-2104, NUDOCS 9203230020
	Download: ML20090L658 (65)
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HA'is ud HL-2104 003099 March 11. 1992 U.S. Nuclear Regulat ry Commission ATTN: Document Control Desk Washington, D.C. 20555 _

PLANT HATCH - UNITS 1, 2 NRC DOCKETS 50-321, 50-366 y OPERATlHG LICENSES DPR-57, NPF-5 10 CFR 50. APPENDIX E, SECTION VI EMERGENCY RESPONSE DATA SYSTEM DATA POINT LIBRARY AND PLANT ATTR18UlE IIBRARY Gentlemen:

By letter dated October 25, 1991, Georgia Power Company (GPC) submitted the Emergency Response Data System (ERDS) implerentation program plan for Plant Hatch Units 1 and 2 as required by 10 CFR 50, Appendix E, Section VI.

In that letter, GPC committed to submitting the Data Point Library (DPL) and Plant Attribute Library (PAL) as described in NURLG 1394, Revel,

Emergency Response Data System (ERDS) Implementation," to the NRC by . [.

March 13, 1992.

Enclosed are the DPLs for Plant Hatch Units 1 ar.d 2 as described in Appeadix C of NUREG-1394, Rev. 1, and the PAL for Plant Hatch Units 1 and 2 (parts 3 and 4 of the ERDS Communications Description and Survey Questionnaire, Apr,endix B of NUREG-1394, Rev. 1). Following the Unit 2 DPL is a list defining abbreviations and acronyms used in the Unit I and 2 DPLs.

Should A . have any questions, please advise.

Sincerely, f y'f N

/ J. T. Beckham, Jr . ' <

MCM/cr I

Enclosure:

LER 50-366/1991-001 cc: (See next page.)

b b 9203230020 920311 POR ADOCK 05000321

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'l Geary,blbwer U.S. Nuclear Regulatory Commission March 11, 1992 Page.Two cc: Etp1913 Pows.t_(pma.itqy Mr. H. L. Sumner. General Manager - Nuclear Plant NORMS l

LL__liut ear Rtqulatory Commh110L_hhint1(.9amDJa.

Mr. K. Jabbour, Licensing Project Manager - Hatch lLL_Nmitar Re_gitlatory C.gmAmion. Region li Mr. S. D. Ebneter, Regional Administrator Mr. L. D. Wert, Senior Resident 'pecter - Hatch 003099 wn -

E 1. HATCH - UNIT 1 NRC - EMERGENCY RESPONSE DATA SYSTEM Data PoinLUAtey TABLE Of CONTENTS lit.ls f#10.

RCIC Flow 1 HPCI flow 2 LPCI Flow D 3 LPCI Flow 6 4 Main feedwater Flow B 5 Main feedwater I' low 6 6 Core Spray flow H 7 Core Spray Flow a 8 Suppression Pool Water Level 9 Reactor Vessel level 10 Stability Class 11 Wind Direction 12 Wind Speed 13 Effluent Gas Rad (Main Stack Radiation) 14 Effluent Liquid Rad (Radwaste Effluent Radiation) 15 Effluent liquid Rad (PSW Effluent Radiation) 16 Effluent Gas Rad (Reactor Building Stack Radiation) 17 Drywel1_ Radiation a 18 Hydrogen Concentration (Drywell) 19 Drywell Radiation B 20 Reactor Pressure 21 NI Power Range (APRM - Ave. Power) 22 Oxygen Concentration (Drywell) 23 (Attach)

NI Source Range (SRM Average Reading) 24 Drywell Temperature 25 Suppression Pool Temperature (Water Space).' 26 Drywell Pressure 27 Condensat.e Storage Tank Level 28

Hydrogen Concentration (Torus) 29 l 0xygen Concentration (Torus) 30 (Attach) l SF/f')5

i. ]

- . ~ . . . - - - - .- -- . --~ . - . - . . - - - . ~ ,

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+- ,

E.1,linigh_Enit 1 .

1 of 30 HRC - EmeroencyJpAQtjse Data Jyf tem Data PoluL,ldbrary Date: 02/11/92 Reactor Unit. HTl Data Feeder: N/A NRC ERDS Paramotor: RCIC FLOW Point I.D.:.RCIC Plant-Specific Point

Description:

RCIC FLOW Generic / Condensed

Description:

RX CORE ISOLATION COOLING FLON Analog / Digital _: A Engineerinej Units or Digital States: GPM Engineering Units Conversion : SQUARE ROOT Minimum Instrument Range: 0

-Maximum Instrument' Range: 500 Zero Reference Point: N/A Referenco Point Notes: N/A Proc or Sens: S Number of Sensors: 1-How Processed: SINGLE VALUE Sensor. Locations:=ON PUMP DISCHARGE LINE Alarm or Trip'Setpointa: HI RX LEV TRIP = lil .5 IN.

i :NI' Detector Power Supply: Cut-off Power Level: N/A

NI Detector Power Supply Turn-On-Power Level: N/A

' Instrument: Failure Mode:-LON Temperature Compensation.

p for DP-Transmitters: N'

. Level Reference Leg: N/A t.

Unique System

Description:

;THIS' POINT PROVIDES REFERENCE INFORMATION TO THE OPERATOR.

/ 'NO^ QUALITY TAG WILL DE PROVIDEC; IF VALUE RECEIVED ASSUME L QUALITY == GOOD, ELSE ASSUME BAD. THE RCIC TURBINE DRIVEN PMP l IS DESIGNED TO PRODUCE 400 GPP AT APPRCXIMATELY 1050 PSIG 'RX PRESS. IT WILL AUTO START AT ~35 IN R7, LEVEL (REF= INST ZERO).

. NORMAL SUCTION SOURCE % CST. SUCTION WILL AUTO SWAP TO THE

-SUPP POOL AT APPROXIMATELY 10,000 GAL. IN THE CST.

l 1-i l

l'E

-~ -.

E.I.llatch~ Unit 1 2 of 30' l

IfRg - Emersens.y_Sennglao Data synce l

. Data. Point Librjiry Date: 02/11/92

-Reactor Unit: NTl Data Foodort N/A NRC ERDS Paramotor: HPCI FLOW Point I.D.: #PCI Plant-bpecific Point

Description:

HPCJ FLOW Generic / condensed

Description:

HP COOLANT INJECTION FLOW ,

knalog/ Digital :_A Engincoring-Units or Digital Statos: GPM Enginacring Units Conversion : SOUARE ROOT Minimum Instrument Rango: 0 Maximum Instrument Range: 5000 t; Zero Reference Point: .N/A Reference Point Notes: N/A l

.Pr 1 or Sens:-S..

Utn&er of Sensors: .1

'How Processed: SINGLE VALUE Sonsor Locations:-PUMP DISCHARGE PIPE h1 arm or Trip'Satpoints: HI RX WTR LEV = 51.5 IN (TRIP)

NI Detector Power Supply Cut-Off-Power Lovel: N/A u

NI; Detector Power Supply Turn-On Power Loyol: N/A Instrument Failure Mode: LOW

Temperature Compensation for DP Transmitters:- .N D jLevel Reference Log: N/A. ;

Unique System'Descriptlon: .

u

.THIS-INFORMATION IS FOR OPERATOR REFEPENCE NORMAL HPCI FLOW REQUIREMENTS ARE TO DELIVER 4250 GPM INTO THE REACTOR VESSEL

AT A' PRESSURE OF .GE,'1080 PSIG. HPCI HAS AN: AUTO START' CAPABILITY ON LOW: WATER LEVEL i (-35 IN, FROM INST. ZERO)-AND HZ DRYWELL PRESSURE (1.85 PSIG) . QUALITY -POINT NOT PROVIDED.

' ASSUME A DELIVERED VALUE = GOOD / NO VALUE s BAD NORMAL SUCTION = CST WITH AUTO SWAPOVER TO THE SUPP POOL AT APPROX 10,000 GAL CST' LEVEL.

l=

i

. - , a.._: .u,_.,_._ _ _ . ._ _. ______ __ ___ _ ____ J

Tula.!!atch Unit _1 3 of 30

. IIRC_.._lantaca.cxJannontts._ Data SyAtta Qata Point _Librat:.y Dato: 02/11/92 Reactor Unit RTJ

Data Feeder N/A HRC ERDS Paramotor LPCI FLOW Point-I.D.: RHRB Plant-specific Point Doncription RHR PLOW D LOOP 3eneric/condonsod Description LP COOLANT 1NJECTION FLOW Analog / Digital : A ;

Engincoring Units or Digital Statos: GPN Engineering Units conversion : SQUARE ROOT Minimum Instrument Rango: 0

!!aximum Instrument Range: 25000 Zero Referenco Points N/A '

Referenco-Point Hotes: N/A

-Proc or Sonst.S Humber of-Sonsors: 1- .

6 How Processod SINGLE VALUE / NO QUALITY POINT PROVIDED ;

Sensor-Locat 'st COMMON DISCHARGE LINE FOR BOTH PUMPS Alarm or Tri i atpoints: NONE ,

NI Detector Power Supply Cut-Off Power Levell N/A HI Detector Power Supply Turn-On Power Lovel N/A Instrument Failuro Modos-LON Temperature Compensation for DP Transmitters -N Level Reference Lop N/AI

~ Unique System Descriptions- .

THIS VALUE PROVIDES THE FLONRATE FOR ONE OF R40 LOOPS OF THE RESIDUAL HEAT REMOVAL SYSTEM. THE LOOP (OR DIVISION) HAS Bf0 ->

REDUNDANT PUMPS (EITHER OR BOTH CAN BE RUN) DISCHARGING INTO A COMMON HEADER. DIVISIONS;(OR LOOPS) ARE ISOLATED FROM EACH OTHER. MAX FLONRATE ALLOWED WITH HEAT EXCH BYPASS-OPEN =

17000 lWITH IT' SHUT =11500-GPH, SINGLE PUMP FLOW MAX RANGE =

7700 TO 8200.' LPCI OPERATIONAL MODE IS AUTOMATIC UPGN A LOCA SIGNAL (DWPRESS=1.BS PSIG OR-RNL a ~101 IN REF TO INST ZERO)

LPCI INJECTION VALVES WILL NOT ALIGN FOP INJECTTON UNTIL RX PRESS .LE. 449 TSIG. LPCI THROTTLE IS-POSS. AFTER TIME DELAY ;

1

-..-_o..._.-._ .- _ - . _ . _ . , . . _u..__..- . _ _ _ _ . - . _ . _ . _ - .,,......--__...i.a.

ih L11atch_ Unit _1 4 of 30 ,

unc - rmer.uenty_Jlnnuonno_DatfLSy. Dica >

utta Poin*, Libraary i Datot'02/11/92 Reactor Unitt HT1 Data foodort N/A ;

NRC ERDS Paramotor: LPCI FLOW r Point I.D.* RHRA I Plant-Specific Point Doncriptiont RUR FLOW A LOOP ,

Gonoric/Condonsed Doncriptiont LP COOLANT INJECTION FLOW ;

Analog / Digital : A Engincoring Units or Digital Statost GPH Engineering Units-Conversion 1 SOUARE ROOT .

Minimum Instrument Rangot 0 -

Maximum Instrument Range 25000 ,

Zero Rotorenco Pointt N/A i Referenco Point Notost N/A l 4

Proc or Sonst S Number of Sensors 1 .

MGM Processedt SINGLI VALUE / NO QUAL 1TY POINT PROVIDED Sonsor Locationst COMMON DISCHARGE LINE FOR BOTH PUMPS Alarm or Trip Sotpointst NONE NI. Detect 9r Power Supply Cut-Off Power-Loyal: N/A NI Detector Power Supply Turn-on Power Lovel1.N/A

-Instrument-Failuro Moder LON Tamporature Componsation !

for DP Transmitterst N ,

Loyal- Rof orenco -- Log : N/A

Unique System Descriptions

- THIS-VALUE PROVIDES THE FLOWRATE FOR ONE OF 'n90 LOOPS OF THE RESIDUAL HEAT REMOVAL SYSTEM. .THE LOOP (OR DIVISION) HAS 7WO

' REDUNDANT PUMPS (EITHER OR BOTH CN1 DE RUN) DISCHARGING INTO _

A COMMON HEADER. DIVISIONS JOR LOOPS) ARE ISOLATED FROM EACH

'OTHER. MAX FLOWRATE ALLOWED WITH HEAT EXCH BYPASS-OPEN =

17000-lWITH IT SHUT =11500 GPM. SINGLE--FUMP FLOW MAX RANGE =

-7700 TO 6200. LPCI OPERATIONAL MODE IS AUTOMATIC UPON A LOCA-SIGNAL (DWPRESS=1.85 PSIG OR RWL = -1012N REF TO INST SERO)

LPCI INJECTION _ VALVES WILL NOT ALIGN FOR INJECT 10N UNTIL RX '

PRESS ,LE. 449 PSIG. LPCI THROTTLE IS POSS. AFTER TIME DELAY

-a. -- . :.=--.-...---..- - - . . a. .-.a.=-.=.--

LLilatch_Dott_1 5 of 30 HBc - rmatuency_ mapuan_ Data _EY.n.tmD Ettta ' t_ abrary Datos 02/11/92 Reactor Unitt #T1 Data Fooder N/A NRC CRDS Paramotors MAIN FD FLOW

-Point I.D.: MffB f Plant-Specific Point

Description:

B FEEDWATER PLOW Gonoric/Condonsod Doncription. Di FLOW INTO RX SYSTEM i

Analog / Digital : A ;

Engincoring Units or Digital Statost LD/UR ;

Engincoring Unito Conversion LINEAR Minimum Instrument Rango! 0 [

Maximum Instrument-Rango 6.0 EE+6 Zoro Roforenco Point N/A l I

.Raforenco Point Notes: N/A Proc-or Sona S

- Number of.Sonsors: 1 llow Proconsod: SINGLF VALUE Sensor Locationn: NOZZLES = ELL 4 7FTMSL, XHTRS = EL130FTMSL ,.

Alarm or Trip Sotpoints: NONE NI Detector Power Supply Cut-off Power Lovel N/A 5 NI Detector. Power supply Turn-on Power Lovol N/A Instrument Failuro Modo: N/A- ,

Temperaturo Componaation <

for DP Transmitters: N Lovel Reforonce I agt N/A ,

Uniquo-System'

Description:

.THIS VALUE-IS THE MEASURE OF Di FLOW THROUGH ONE OF 1190' FEED

WATER SUPPLY LINES TO THE VESSEL. TOTAL Mi FLOW WIbb REQUIRE O .THE ADDITION OF THIS VALUE TO ITS COUNTERPART WHICH IS LIKD4ISE PROVIDED. 10RMAL VALUE FOR TOTAL 200% Rf FLON IS-

--ABOUT 10.0 EE+6 LB/HR. THIS IS-A REFERENCE VALUE AND HAS NO QUALITY FT. WITH IT. IF A VALUE IS RECEIVED ASSUME GOOD QLTY ELSE ASSUME ban. THE TRANSMITTER USED FOR MEASUREMENT IS CALIBRATED FOR NORMAL POWER OPERATION TEMPERATURE.

?

_ _a.. __.__;_._. - _.__.._..._._ _..~.. - -.,_ _

E . I . llnich._Un i t _1 6 of 30 LUlt. __1MersentY llerDonac_DatLlyJ11tm DAlfLL'91nt .LibrJtrl Date: 02/11/92 Reactor Unit HT1 Data Feodor: N/A IIRC ERDS Paramotor: MAJN FD FLOW Point I.D.: M/FA Plant-Specific Point c arription: A FEEDNATER FLOW Gohcrio/C.ondanced Doncript1on: Di FLOW 1NTO RX SYSTEM Analog / Digital : A Engineering Units or Digital Statos: LD/HR Engincoring Unita Convorolon : LINEAR Minimum Inutrument Range 0 Maximum Instrument Rango 6.0-EE+6 Zero Referenco Point: -N/A Roforenco Point flotos: N/A Proc or Sono: S Number of Sonsoro: 1 llow Proconnod: SINGLE VALUE Sennor Locationn: NO22LFS = EL147FTMShe XMTRS = EL130FTMSL Alarm or Trip Sotpointa: NONE NI--Dotector Power Supply Cut-Off Power Loyol N/A' i HI Detector Power Supply Turn-on Power-Loyol N/A Instrument'Failuro Modo:-N/A l-Tomparaturo Compensation l for-DP Transmitters: N

- Level Reference Log: N/A.

h '

Unique System

Description:

TH15 VALUE IS -THE MEASURE OF FW FLOW THROUGH ONE OF 7h'O FEED HATER SUPPLY LINES TO THE VESSEL. TOTAL FW FLOW WILL REQUIRE

,- .THE ADDITION--OF THIS VALUE TO ITS COUNTERPART WHICH IS LIEDfISE PROVIDED. NORMAL VALUE FOR-TOTAL 200% Di FLOW IS

.ABOUT 1030 EE46 LB/HR. THIS IS A REFERENCE VALUE'AND HAS NO-QUALITY PT. W1TH IT. .IF A VALUE IS RECEIVED ASSUME GOOD QLTY ELSE ASSUME BAD. THE TRANSMJTTER USED FOR MEASUREMENT IS CALIBRATED FOR^ NORMAL POWER OFERATION TEMPERATURE.

,-.,....-o . . . ~ ~ ------w -em,-

I

. 1 Ll.A.Ik1kblifSib-.1 7o 30

}pc - PrrgrgengyJcDuqlMLilatLSYA101D i Data l'olnt L132rAIY !

Datot 02/11/92 ;

- Reactor Unitt NTI l Data Fooder !

N/A NRC_ERDS Paramotor CR SPRAY FL

- Polnt I.D.: CSD !

Plant-Specific Point

Description:

CORK SPRAY h FLON Gonoric/Condonucd Descriptions CORE SPRAY COOLING SYSTEM FLOW Analog / Digital 1 A Engincoring Units or Digital Statost GPM !

Engineering Unito Conversion : SQUARE ROOT I Minimum Instrument Rango 0. ;

Haximum Instrument Range 7000 Zoro Referenco-Point N/A Referenco Point flotes: N/A f

. Proc or Sorr;-S ,

Nunbor of Sonoors: 1 ;

. Ilow Processed SINGLE VALUS ;

Sonsor Locationut PUMP DISCHARGE -

Alarm or Trip Sotpointos-NONE

- NI Detector-Power Supply Cut-Off Power Loyal N/A ;

~

MI Detector Power Supply Turn-On Power Lovol N/A

-i Instrument Failuro Modo LON Temperaturo componsation

. for EP Transmitters: N

- Lovel Reference Log N/A Onique System Doncription:

REFERENCE INFORMATION FOR ONE DIVISION OF CORE SPRAY. NORMAL '

FLONRATE VARIES WITH INJECTION NEEDS.- SYSTEM IS CAPABLE OF AUTO' START FROM LOCA SIGNAL (DWPRESS=1.85 PSIG AND/OR RX WTR ;

'LVb = -101 IN )' INJECTION VALVES WILL NOT AUTO OPEN UNTIL RX

-PRESS IS LESS THAN 445 PSIG. INTERLOCK PREVENTS OPENING BOTN INJECTION VALVES AT SAME TIME UNTIL RX-PRESS RESTRICTION IS- '

-MET (MANUAL OR AUTO OPERATION). THROTTLING CAPABILITY IS IMMEDIATE ONCE INJECTION VALVES ARE OPEN. NO QUALITY POINT ;

PROVIDED. IF VALUE IS RECEIVED ASSUME: GOOD QUALITY. ELSE

ASSUME BAD.

r i

y - . . . - - . . , ~ . . me,--,,m~.. -~m,,7,,,,-,,,--,,.,,--,---,-7,,.,-m~,.,..,m-,.ie,.r--- -

r a r m - ,* w -e v--v er erre. 7. w we=%-+-- - - - - - - + + - re-.-e-e --ww.---r=-t-*--*e-m.2

. . - . . . _ - - ~ . _ . - . - . _ . - . . - . . ,

L_L.llfitch Unit._1 8 of 30 line - Lvxgeltcymnnnne_no1LDymn Data Point L$brary

-Datot 02/11/92 Roactor Unitt HT1 Data Fooder N/A 1

NRC ERDS Paramotor CR SPRAY FL ,

Point I.D. CSA Plant-Specific PoAnt Descriptient CORE SPRAY A FLOW !

i Gonoric/ Condensed Descriptions CORE SPRAY COOLING SYSTEM FLOW l Analog / Digital t A i Engincoring Units or Digital Statost CPM Engincoring Unito Conversion SOUARE ROOT Minimum Instrument Rangot 0 Maximum Instrument Rangot 7000 ;

Zero Reforonco Pointt N/A

,Referenco Point Notest N/A f Proc or Sonst S ;

--Number of Sunsorst 1 llow Procossodt SINGLE VALUE Sensor Locationst PUMP DISCHARGE

-Alarm'or Trip _Sotpoints: NONE ,

NI Detector Power Supply cut-off Power Lovel N/A NI Detector Power Supply Turn-on-Power Loyol N/A i Instrument Failuro Modos LON !

Temperature Compensation '

for DP Transmitters: N Loyol--Reference Logt N/A -

Unique System Doncription:

REFERENCE INFORMATION FOR ONE DIVISION OF CORE SPRAY, NORMAL FLONRATE VARIES WITH INJECTION NEEDS. SYSTEM IS CAPABLE OF t

- AU1D START FROM LOCA SIGNAL (DWPRESS=1.85 PSIG AND/OR RE WTR

'LVL = ~101 IN.)' INJECTION VALVES WILL NOT AUTO OPEN'UNTIL RX l PRESS IS LESS THAN 445 PSIG. INTERLOCK PREVENTS OPENING BOTH INJECTION VALVES AT SAME TIME UNTIL RX PRESS RESTRICTION IS

--MET (MANUAL OR AUTO OPERATION) . THROTTLING CAPABILITY IS IMMEDIATE ONCE INJECTION VALVES ARE OPEN. NO QUALITY PO1NT

'PROVIDED. IF VALUE IS RECEIVED ASSUME GOOD QUALITY, ELSE

. ASSUME BAD.. [

LJA.tch Unit 1 9 of 30 ifRC. - rwersims.Y_Sepponne Data _Synten D_ata Point Library Dato 02/11/92 Roactor Unitt HT1 Data Fooder N/A NRC ERDS Paramotort SP LLVEL Point 1.D. SMfL I

- Plant-Specific Point Descriptions TORUS IVATER LEVEL l i

Gonoric/Condonood Doncriptions SUPPRESSION POOL IfATER LLTEL !

Analog / Digital-t A i

Engincoring Units or Digital Status JNCHES Engineering Unita Convaruton t-2 RANGES (133 TO 163) AND (O TO 300) i Minimum Instrument.Rango: 0 Maximum Instrument Rango: 300 '

n" Zero Roforence Point TNKSOT

~

Rnfcronco Point Notoat NORM LEV = 148; HI/LO ALARM = COMMON FLAG >

Proc or Sonus P Number of Sensors: 4 -;

flow Proconned NUMERICAL AVERAGE I Sonaor Locational ATTACHED TO SIDE OF SUPPRESSION CHAMBER Alarm or Trip Sotpoints: 150 HI /14C LO - COMMON NO QUAL TAG SENT

- NI-Detector-Power Supply-Cut-Off Power Loyol: N/A ;

' NI Detector Power Supply Turn-on Power Lovel: N/A - l t

Instrument Failuro Modo N/A Tomparcture Compensation for.DP Transmitterat. N

- Lovel Referenco Lagt ifET -

Unique System

Description:

4 DIFF PRESS TRANS FOR 2 RANGE OF MEASUREMENT. NORMALLY THE :

NARROFI- RANGE -IS USED BY TAKING THE AVERAGE OF THE 2 READINGS.

IF AVAILABLE -(LOGGED IN AND If1 THIN CONVERSION RANGE) . QUAL TAGS'USED = 0 (BOTH NARRolf RANGE AVAIL DIFF BEBfEEN 2 ACCEPT AVG NOT H1/ lot 1 NARROff RANGE AND 1 OR 2 IfIDE AVAIL DIFF f BETifEEN NARROff 'AND EITHER 1/IDE ACCEPT NARROd READING NOT HI/

JLO! NO NARROff BUT 2 IfIDE AVAIL If1TH DIFF BETifEEN ACCEPT AND ;

AVG NOT HI/LO)t ut (DIFF READING BEDfEEN SENSORS NOT ACCEPT!

^ ONLY'1 IfIDE RANGE AVAIL: ONLY 1 NARROff RANGE AVAIL - IN EACH ,

CASE RSADING NOT HI/LO); = 3 (NO SENSORS AVAIL) . -

i Er-- , ,c , J -, n..i,,,---,,:,..._,, .,------- ---.. .,w w ,-.-~, ,--n.,+,.. ,, ,n- - , ,n., --nn.,n n a.,m ,---

Ed.dlatnlLVniL1 10 of 30

!!BC - Energengy_Iteppontic_thsta_ fly.11tra Data _l'nint._LiL>rar3 Dato: 02/11/92 Roactor Unit: HT1 Data Foeder: N/A flRC ERDS Parameter: REAC VES LEV Point I.D.: RNL Plant-Specific Point

Description:

RTV WATER LLVEL Generic /Condenned Doncription: REACTOR VESSEL WATER LEVEL Analog / Digital : A Enginocring Units or Digital. States: INCHES Engineering Unito Conversion : REFERENCE = INSTRUMENT 3ERO Minimum Inntrument Rango -317 INCH 14aximum Instrument Range: 4400 INCH Zero Reference Point: COMPLX Rotorenco Point floton: INSTR ZERO IS BOTTOM OF STEAM DRYER Proc or Sonr:

!! umber of Sennoro: 13 tiow Procer, cod: NORMAL- WEIGHTED AVG / NOT NORM- NUM AVG Sancor Locationu: TRANSMITTERS OUT OF DRYWELL/REF LEGS IN Alarm or Trip Sctrointa HIa42"450 PSIG RX PRESS; LO=32 TAF=-164" llI Detector Power Supply Cut-Off Power Level: N/A llI Detector Power Supply Turn-On Power Lovel: N/A Instrument Failure 14cdo: N/A Temperature Componnation f or DP Transmi'Ltern: Y Level Referenco Leg: NET Unique System Doncript. ion:

5 OVERLAPPING RANGESo ~317 TO -17, -317 TO 60, ~150 TO 60, O TO 60, O TO 400 INCHES MEASURED BY 13 INSTRUMENTS. EACH INPUT COMPENSATED FOR DRYWELL TEMP AND RX WTR DENS 1TY CHANGE

. IF COMPENSATION DATA IS NOT AVAILABLE NUMERICAL AVERAGING TS USED. QUALITY TAGS USED= 0; 2= (ONLY 0 TO 400" BE1NG USED AND NOT IN REFUEL OR SHUTDOWN; ONLY 1 INST AVAIL / NOT C TO 400 / AND LEVEL NOT HI/LO);3. ALARM SET POINTS PROVIDED

HI/LO COMMON FLAG TO OPERATOR / NO QUALITY TAG PROVIDED.

l 1

4 E.I.lfatch; Unit _1 11 of 30 11EC - EmerJ1nnsy_Rennonne Data sylttna Data Point L.lbrary, Dato 02/11/92 Hoactor Unitt #T1

- Data Foodort-N/A HRC ERDS Paramotort STAB CLASS i Point I.D. AS1 .

f Plant-Specific Point Descriptions AIR STABILITY l Canovic/Condenced Douctiptions AIR STABILITY AT THE RX SITE Analog / Digital t A Engineering Units or Digital Statoat STABA i

- Engincoring Unito Conversion t N/A !

Minimum Instrument Rangot -10.0 Maximum Instrument Rangot +10.0 Zero Rotorenco Points JON :

Reforanco Point Notout MET 2WR BASE AT APPROXIMATELY 135 ' MSL Proc.or Sonst S Humber of:Sonsorst- 1

liow Prococcodt TIMED AVERAGE OF READING Sansor Locationut 100 METER PT ON MET -2WR (REF= 10 METERS) 3 Alarm or Trip Sotpoints: NONE NI'Dotector Power Supply Cut-Off Power Lavolt N/A HI Detector Power Supply Turn-On Power Levolt N/A Inntrument Failuro Modos.COMPLX Tomparaturo compensation .

.for DP Transmitters: N ;

Level-Reference-Logt N/A

- Unique System Doncriptions DIFF TEMP IS COMPUTED BETWEEN 100 & 10 METERS. THIS VALUE IS <

AVERAGED OVER TIME AND USED DIRECTLY IN SOFTWARE TO PROVIDE A PASQUILL STABILITY CATEGORY AS FOLLOWS - (A= DT .LE. -3.1 >

-DEGF; B= DT^.LE. -2.8 DEGF; C= DT .LE. -2.4 DEGF; D= DT .LE.

-0.8 DEGF; E= DT .LE. 42.4 DEGF; F=-DT .LE. +6.5 DEGFi G= DT-

.GT. +6.5 DEGF).-NO QUALITY PT INFO PROVIDED, PT IS REF ONLY (IF VALUE PRESENTED ASSUME GOOD QUAL ELSE ASSUME BAD) . FOR' ;

CONVERSIO,'l OF SIGNAL,10 METER VALUE IS DEDUCTED. 100 METER VALUE PROVIDED FOR ELEVATED RELEASE INFORMATION.

r-,',-- y o,,m~,.- . ----..,,w,,-,--,,3--w,w[ . ,.y-_w,, 3. r g- .-.-.m., m,.v,.-~m ,mm ,e,g.-y. --.y.-,-e-

Lidiattitl' nit __1 12 of 30 liRC - rmersency_ReproigitilatLEyrAcn IhnLl'P_ilit L1Igary Dato: 02/11/92 Roactor Unit UTl Data Feodor: N/A IIRC ERDS Paramotor: NJND DIR Point I.D.: UD1 Plant-Specific Point

Description:

NIND DIRECTION 100 METERS Generic /Condenced Doncription: UIND DIR AT THE REACTOR SITE Analog / Digital : A Engincoring Units or Digital Statou: DEGFR Engineering Unito Conversion : N/A Minimum Instrument Rango: 0 Maximum Instrument Rango: 540 Zero Referenco Point NORTH Ratotenco Point 140tca: MET 7UR BASE AT APPROXIM ATELY 135 ' MSL Proc or Sena: S llumber of Sonnors: 2 liow Proconacd TIMED AVERAGE OF READING Sonnor Locationa: 100 METER POINT ON MET TOWER Alarm or Trip Sotpoints: NONE 11I Detector Power Supply Cut-Of f Power Lovel: N/A 11I Detector Power Supply Turn-On Power Lovel: N/A Instrument Failure Modo: LO6/

Temperaturo Compencation for DP Transmittern: N Lovel Reference Leg: N/A Unique System

Description:

TIMED AVG OF WIND DIR PROVIDED BY A SINGLE SENSOR. MET 7WR IS APPROX 0.75 MILES FROM PLANT. PLANT ELEVATED RELEASE PT =

120 METERS HIGH (REF = 119.5 ' MSL) . THIS SENSOR MEASURES 0 TO 540 DEG BY SUBTRACTING 360 DEG VOLTAGE VALUE FOR SIGNALS PAST 3 60 DEG. THE SENSOR IS ON TRUE NORTH AND MEASURES THE DIR THE WIND COMES FROM. (O DEG = 360 DEG = NORTH; 90 DEG =

450 DEG = EAST; 180 DEG = 540 DEG = SOUTH; 2 70 DEG = WEST)

QUAL PTS NOT PROVIDEDe PT PROVIDES REF INFORMATION. IF VALUE RECE1VED, QUAL PT = GOOD ELSE QUAL PT = BAD. 100 METER VALUE PROVIDED FOR ELEVATED RELEASE INFORMATION.

E.X.IIntch_ Unit 1 -13 of 30 NRC -~Emergenev_licangntic_ Data Svntem Data Point LIbraEy. ,

-Dato: 02/11/92 Reactor-Unit: NT1 Data Fooder: N/A HRC ERDS Paramotor: NIND SPEED Point I.D.: WS1 i Plant-Specific Point Descriptiont NIND SPEED 200 METERS ,

Gonovic/Condonned Doncription: WIND SPEED AT THE REACTOR SITE Analog / Digital : A I

Engineering Unito or Digital Statout MPN Engincoring Unito conversion : N/A j Minimum Instrument Rango 0 Maximum Instrument Rango: 100 ;

Zero Referenco Point: N/A .

Referenco Point-Notout MET TWR BASE AT APPROXIMATELY 13S' MSL Proc or Sona S 1

Number of Sensoro: 1 How Proccused: TIMED AVERAGE OF READING a Sensor Locationa: 100 METER PT ON-MET TOWER Alara or Trip Sotpointa: NONE

-NI Detector Power Supply Cut-Off Power Loyol N/A-NI Detector Power Supply Turn-on Power Lovel: N/A

InstrumentTFailure Mode: LOW

.Tomparaturo Compensation for DP Transmitterat N' Loval Reference Log: N/A

-Unique System

Description:

TIMED AVERAGE OF WIND SPEED AT 100 METER CALCULATED FROM A

' SINGLE SENSOR.. TOWER LOCATION APPROX 1MATELY 0.75 MILES FROM PLANT. PLANT ELEVATED RELEASE POINT = 120' METER HIGN REF TO. -

-119.5' MSL. QUALITY. POINT'INFORMATION NOT PROVIDED. POINT IS ;

REFERENCE INFORMATION.~IF VALUE IS PROVIDED ASSUME QUALITY =

GOOD, ELSE QUALITY m BAD. 100 METER VALUE PROVIDED FOR ELEVATED RELEASE INFORMATION..

_._-..._._.. ..a.._ . . _ . . _ . _ _ . . . _ _ _ _ _ , - _ _ . _ . . _ _ , _ _ . _ _ _ . - _ . _ . _ . _ , _ . . . . . . . ._

LJallatch_Mnit_1 14 of 30 HBC - JDfE901tgyq1er. ppg o Data _Tayatem Pltt a 1%11L_Livrary Date: 02/11/92 Reactor Unit: NT1 Data reeder: N/A NRC ERDS Parameter: EFF GAS RAD Point I.D.: MSTK Plant-Specific Point

Description:

MAIN STACK RADIATION Generic /Condenced

Description:

RADIOACTIVITY OF RELEASED GASSES Analog / Digital : A Engineering Units or Digital S ites: UCI/CC Engineering Unito Conversion : LOG BASE 10 CO!/ VERSION Minimum Instrument Range: COMPLEX Maximum Instrument Range: 1.0 EE+5 Zero Reference Point: N/A Reference Point Noten: NORM RNG = CPS CONVERTED; WIDE = UCI/CC Proc or Sens: P Humber of Sencors: 3 How Procasued: NUMERICAL AVG OF NORM RNG; WIDE = 1 VALUE Sensor Locations: INTERNAL TO MAIN STACK h1 arm or Trip Setpoints: WHEN AUTO SWAP TO l!IDE RANGE OCCURS HI Detector Power Supply Cut-Off Power Level. N/A HI Detector Power Supply Turn-On Power Level: N/A Inatrument Yailure Mode: LOW (NO INR; NO FLOW / LOW BACKGROUND)

Temperature Compensation for DP 7 ancmitters: N Level Reterence Leg: N/A Unique System

Description:

3 INSTRUMENTS ( 2 AT 1. 0EE-1 TO 1.0EE+6 CPS; 1 AT 5.0EE-3 TO

1. 0EE+5 UC1/CC) . WIDE RNG NOT USED UNTIL HI-HI SET PT OF EITHER NORM RNG IS MET. ALL CPS VALUES CONVERTED TO UCI/CC INITIALLY BY SOFTWARE. ALL SET PTS NID DWNSCALE VALS DEPEND l ON CALIBRATION CONSTANTS. THESE VARY OVER FUEL CYCLE. AVAIL

= WITHIN CONVERSION RNG. QUAL PTS USED = 0 (2 NORM AVAIL, DIFF BETWEEN IS ACCEPT AND NOT ON WIDE RNG - AVG OF 2 IS USED) ; =2 (1 NORM AVAIL OR 2 AVAIL WITH UNACCEPT DIFF l BETWEEN); =3 (NO NORM RNG AVAIL - NOT ON WIDE RNG / ON WIDE l RNG BUT IT IS NOT AVAIL); =6 (ON WIDE RNG AND IT IS AVAIL).

L X.liGish Unit-1 15 of 30 IBC - Pmergency_htRcEDQt11LLData syntcJn Data Pp Library Dato: 02/11/92 Reactor Unitt HTl Data Fuadort N/A >

HRC ERDS Paramotort EFF LIO RAD -

Point I.D.* RW Plant-Specific Point

Description:

RADWASTE EFFLUENT RADIATION Conoric/Condanced Deacriptiont RADIOACT1VITY OF RELEASED LIQUID Analog / Digital -A Engincoring Units or Digital Statos CPS EngincorIng Units Convorcion : LOG DASE 20 CONVERSION Minimum Instrument Rango: 1.0 EE-1 Maximum Inotrument Rango 1.0 EE+6 Zoro-Referenco Point N/A

' Ref erenco Point 110 ton: N/A Proc.or Sons: S Number of Sensorat 1 Ilow Processod: SINGLE VALUE Soncor Locationat IN RADNASTE LIQUID DISCHARGE LINE Alarm or Trip Sotpointut HI SET PT CALCULATED FOR EACH DISCHARGE

!!I Detector Power Supply Cut-off. Power Lovel: N/A NI Detector Power Supply Turn-On Power Lovel: N/A Instrument Failuro Modo: LON '

-Tomparaturo Compensation for DP Transmitters: N Lovel. Reference Log: N/A

' Unique System-Description:

INSTRUMENT-DOWNSCALE-= 3 CPS. SET POINTS CALCULATED FOR'EACH DISCHARGE PERM 1T THEN INPUT BY RADWASTE OPERATOR. UNIT PROVIDES FOR AUTOMAT 10 ISOLATION OF DISCHARGE LINE AT HIGH SET POINT. NO QUALITY POINTS ASSOCIATED WITH THIS VALUE.

IF READING IS PRESENTED ASSUME GOOD, IF NOT PRESENTED ASSUME BAD.-

0 L

.,,-,.+--.-,.-----,._.,-.-r. -

I.

L.L.llo t ch_ Unit _1 16 of 30 tilW - Emernen.cylenpunncJatLUynt_en Dato_l'oint_ Library Datot 02/11/92 Reactor Unitt NTl Data rouder N/A 11RC ERDS Paramotor: EFF LIO RAD PL ..it I.D.I PSU P1 ' -Specific Point Doncription: PSN EFFLUENT RADIATJON Generic /Condonocd Doucriptions RAD 10ACT1V1TY OF RELEASED LIQU1D Analog / Digital : A Engineering Unito or Digital Statout CPS Engineering Unita Conversion : LOG BASE 10 CONVERSION Minimum Instrument Rangot 1.0 EE-1 Maximum Instrument Ranget 1.0 EE46 Zero Reference Pointt N/A Dcference Point Note 91 N/A Proc or Senn S Ilumber of Sensorat 1 flow Proconned SINGLE VALUE Sensor Locationst P3W TURDINE BLDG DISCNARGE LINE Alarm or Trip Sctpointat VARIABLE / CALCULATED DY CNEMISTRY DEPT liI Detector Power Supply Cut-Off Power Lavalt N/A 11I Detector Power Supply Turn-On Power Level N/A Instrument Failure Modo LON Temperature Compensation for DP Transmitters: N Level Reference Leg N/A Unique System Description INSTRUMENT DOWN SCALE = 3 CPS. SET POINTS CNECKED AND CAN BE RECALCULATED PERIODICALLY. UNIT PROVIDES ALARM FUNCTION AND INFORMATION ONLY. NO QUAL 1TY POINTS DIRECTLY ASSOCIATED WITN TNIS VALUE. READING IS JUST PRESENTED OR NOT PRESENTED. NO READING ASSUME BAD POINT, ELSE ASSUME GOOD POINT.

I

. t Tu.JuliatG Unit i 1 *1 of 30 i HBC - EmerItency_lineDsnat_DatAJiyateln t Data Poillt_idbrAty Datol 02/11/92 ;

Reactor Unitt NT1 Data Foodort N/A 11RC ERDS Paramotor! EFF GAS RAD Point I.D.t RBI

)

P1 ant-Spacific Point-Danctiptions REACTOR BLDG STACK RADIATION l

Conoric/Condanced Doociiptions RAD 10ACT1V1TY OF RELEASED GASSES Analog / Digital : A Engincoring Units or Digital Statost UCI/CC Engineering Unita Convornion 1 LOG BASE 10 CONVERSION r Minimum Instrument Rangot COMPLEX Maximum Instrument'Rangot 1.0 EE+S i Zero Roforanco Point N/A Referenco Point ltotont NORM RNG = CPM CONVERTED i IIIDE = UCI/CC Proc or Sonst P Humber of Soncorst 3 ,

ilow Froccanods NUMERICAL Ahi OF NORM RNGi IVIDE =1 VALUE :

Sensor Locational INTERNAL TO REACTOR BLDG STACK hlarm or Trip Botpointot'WHEN AUTO S14AP TO llIDE RANCE OCCURS NI Detector Power Supply Cut _Off Power Lovel: N/A-11I Detector _ Power Supply Turn-On Power Loval: N/A Inotrument Failure Modos LOli (NO PlfRi NO FLOli / LOW BACKGROUND) ;

Temperaturo Componnation ,

for DP Transmittorot N i LLoyol-'Roforenco Log 1 N/A Unique-System Description.t 3 INSTRUMENTS (2 - AT l'. 0EE+1 TO 1. 0EE+6 CPMi 1 - AT 5. 0EE-3 TO '

1.0EE+5 UCI/CC)-IfIDE RNG NOT USED UNTIL HI; SET PT OF EITHER NORM RNG IS-MET. ALL CPM VALUES-CONVERTED:TO UCI/CC INITIALLY BY SOFTifARE. ALL SET PTS AND DIVNSCALE VALS- DEPEND ON CALIBRATION CONSTANTS.'THESE VARY OVER FUEL CYCLE. AVAIL

= IfITHIN CONVERSION RNG. QUAL PTS USED'= 0-(2 NORM AVAIL DIFF BEBIEEN'IS ACCEPT AND NOT ON llIDE RNG ~~ AVG OF 2 IS USED), #2- (1 - NORM AVAIL OR 2 AVAIL If1TH NONACCEPT DIFF BERIEEN), =3 (NO NORM RNG AVAIL - NOT ON IfIDS RNG / ON lf1DE RNG BUT IT IS NOT AVAIL), =6 (ON llIDE-RNG AND IT IS AVAIL). -

4 im -

,, , w#w.6 ,_m.,.m.m.w.-%.g.,,__m,so..,.,._m_ .

.-, . , . - ...~ s_ .,._.m._,,,,_ m __r,..m,,.

Eddintgb _ Unit _1 18 of 30 julC - Em.ertiency JJLoaoonuo_ Data fd.D.t2E _

Data Polnf Librar.y Datet 02/11/92 Reactor Unitt HTl Data Foedart N/A l

NRC EROS Paramotor DW RAD c Point I.D. DURA i Plant-Snecific Point Description NIDE RANGE DR11/ ELL RADIATION A i i

Gonoric/ Condensed Descriptions RADIATION LEVEL IN THE DRYNELL l Analog / Digital A Engincoring Units or Digital Statost R/HR Engincoring-Unite Conversion LOG BASE 10 CONVERSION I Minimum Instrument Rango 1 Maximum Instrument Ranget 1.0 EE+7 Zoro Referenco Point N/A t

.'Referenco Point Hotest N/A ,

Prop or Sonst S ,

Number of Sonsors: 1

'Now Processedt SINGULAR VALUE Sensor Locationa IN DRYNELL Alarm or Trip Sotpointst HI SET PT VARIABLE ; HI TRIP = 100 R/HR HI Detector-Power Supply Cut-Off Power Loval N/A NI Detector PoWor Supply Turn-On Power Lovel: N/A Instrument Failuro Modo LON

Temperature compensation for DP Tran1mitterst N -

, Levol-Reference Logt N/A '

Unique System Description ONE OF 7%'O IDENTICAL WIDE' RANGE DW ACCIDENT GM DETECTORS.

THESE DEVICES PROVIDE INFORMATION TO OPERATOR AND CAUSE THE

.LARGE (18 IN.): VENT AND-PURGE VALVES FOR THE DU TO STAY CLOSED AT OR ABOVE 100 R/HR. AS WITH MOST RAD MONITORS THE

' ALARM SET PTS ARE' CHECKED AND RECALCULATED, IF NECESSARY, ON

.A PERIODIC BASIS BY CHEM / HP PERSONNEL. NO QUALITY POINTS.

ASSOCIATED WITH THIS VALUE. IF VALUE IS PRESENTED ASSUME GOOD,- IF-VALUE NOT PRESENTED ASSUME BAD.

. . - . . . - - . , . . . . . . . . . . - , , , . . . . , - . . . . - - . . . . , . , ,. ...~~,..--..-.-.--.-.,_r,,~,,,,...,---n~, , , . -

E.I.llatch Unit i 19 of 30 1]R.C - Emer.GRDCY_.ERDppnse Data System Data Point Library Dato 02/11/92 Reactor Unitt HT1 Data Foedert N/A NRC ERDS Paramotor: HP CONC Point I.D.: H2D Plant-Specific Point

Description:

HYDROGEN CONC. (DRYNELL)

Gonoric/condonned Doncriptiont DW HYDROGEN CONC.

Analog / Digital i A Enginocring Units or Digital'Statost % (PERCENT)

Engincoring Units-Conversion : POLYNOM 2 % = 1% #2 Minimum Instrument Ranget 0 Maximum Instrument Ranget 30 Zero Hoforence-Point N/A Referenco Point Notest 2 RNG (O TO 10) / (0 TO 30) ONLY WIDE USED Proc or Sonst P Number of Sensordt 2 How Procensedt-HIGHEST IF BOTH SAMPLING SAME POINT Sonsor Locations: DW EXTERNAL SAMPLE LINES Alarm or Trip Sotpoints: 2.5%.HI NI Detector Power-Supply Cut-Off Power Levolt-N/A HI Detector Power Supply Turn-On Power-Loyolt N/A Instrument Failuro Modo N/A Temperature Compensation.

for DP Transmitters: N Level Referenco Legt N/A Unique System Description 2 INSTRUMENTS, EACH MEASURING H2 AND 02, CAN DE ALIGNED BOTH

TO SUPP CHAMBs BOTH TO DW, -- OR 1 TO - DW AND 1 TO SUPP CHAMB ,

AVAIL = SENSORS -- (INST) ALIGNED TO SMPL-PT;-IN ANALYZE OR LOCA OVERIDEj SENSORS NOT OUT OF CONVERSION ENG. QUAL PTS =0(BOTH

l. 'H2 SENSORS AVAIL DIFF BETWEEN 2 IS-ACCEPT - IF A' VAL .GE. B USE A, ELSE USE B IF BOTH ALIGNED TO.SAME PT, ELSE USE INDIV VAL - / VAL NOT HI) ; - u 2 1 SENSOR AVAIL VAL NOT HI; 2 SENSORS AVAIL' DIFF NOT ACCEPT / (VAL USED NOT- HI);=3 (NO SENSORS AVAIL ^

OR SENSORS SAMPLING SAME POINT THEREFORE OTHER POINT NOT AVI.TL BY DEFAULT); #6 (VALUE PROVIDED=HI)'

E.I.llatsb Unit 1 20 of 30 IUtc - EmoLGCDCYJEDnggae Data Syrttna Data _ Point Library Duto: 02/11/92

=Roactor Unit HTl L.

Data Foodor: N/A NRC ERDS Paramotor: Dil RAD Point I.D.: DivR8 Plant-Specific Point

Description:

IIIDE RANGE DR11tELL RADIATION B Conoric/Condonned

Description:

RADIATION LEVEL IN THE DRWELL Analog / Digital : A Engincoring Units or Digital Statost R/HR Engineering Units Conversion : LOG BASE 10 CONVERSION Minimum Instrument Rango 1 Maximum Instrument Range: 1.0 EE+7 l Zero Reference Point: N/A l

-Rotorenco Point Notos: N/A Proc or Sons: S Number of.'Sonsors: 1 HOW Procassod: SINGULAR VALUE Sonsor Locations: IN DRWELL Alarm or Trip Sotpoints: HI SET PT VARIABLEi HI TRIP = 100 R/HR HI Detector Power Supply Cut-Off Power Loyol: N/A NI' Detector Power Supply Turn-On Power Level: N/A Instrument Failuro Modo LJif f Temperaturo. compensation for-DP Transmitters: N Level _Roforence Log N/A .;

-Unique System

Description:

ONE OF 1110 IDENTICAL IIIDE BANGE Dil-ACCIDENT GM DETECTORS.

THESE DEVICES' PROVIDE INFORMATION TO OPERATOR AND CAUSE THE LARGE (18 IN.) VENT AND-PURGE VALVES FOR THE Dil-TO STAY -

CLOSED AT OR ABOVE 100 R/HR. AS 141TH MOST RAD MONITORS THE ALARM SET PTS ARE CHECKED-AND RECALCULATED, IF NECESSARY, ON A PERIODIC BASIS BY CHEM / HP PERSONNEL. NO QUALITY POINTS ASSOCIATED IfITH THIS VALUE. IF VALUE IB PRESENTED ASSUME GOOD, IF_VALUE NOT PRESENTED ASSUME BAD.

- _ . _ . . . . . , - - , _ - - - _ _ . - - . . . _ _ ~ . _ . . - - . - - . _ . , , , _ . _ . . . . . _ . . . _ _ . . _ . . . . ~ . . _ - _ - , . - _ .

E i I . Ilatc.lLU111t_1 21 of 30 i 1]RC - Entr_goncy Rem 1pnoe Data Syn.iigfg I Data Point liibrary Date: 02/11/92 Reactor Unitt HT1 Data Poodert N/A NRC ERDS Paramotor: RCS PRESSURE Point 1.D t RXPR Plant-Specific Point Doncriptiont RFACTOR PRESSURE

'Genorio/Condanned Donctiptiont REACTOR COOLANT SYSTEM PRESSURE Analog / Digital : A Engineering Units or Digital States PSIG ,

Engincoring Unita conversion LINEAR !

Minimum Instrument Rangot 0 Maximum Instrument Range 1500 (

Zero Roforonce Points N/A Reforenco Point flotos: N/A Proc or Sonst P ,

Number of Sennorst 2 How Proconno'dt NUMERICAL AVERAGE Sonsor Locationes SENSED BETWEEN VESSEL AND MSIVS Alarm or Trip Sotpointas HI= 1054.00 PSIG (UI PRESS SCRAM = 1042)

NI Detector Power Supply Cut-Off Power.Lovel: N/A .

NI Detector Power Supply Turn-on Power Loyalt_N/A ;

Instrument Failure Modo LOW (LOSS OF PONER)

Temperature Conponsation for DP Transmittoral N Loval Referenco_Logt N/A

Uniqua-System Do'scription: . . .

1840 PRESS TRANS NUMERICALLY AVERAGED FOR SINGULAR YALUE OF RX VESSEL PRESS. READINGS ARE AVAIL IF-LOGGED 1N. QUAL-TAGS ;

USED =0 (BOTH SENSORS AVAIL,- IN CONVERSION RANGE,-NOT HI IN:

VALUEj ONLY ONE SENSOR IN RNG,.NOT HI IN VALURi'-BOTH SENSORS OUT OF RANGE IN SAME DIRECTION, NOT HI IN VALUE, HIGHEST r READING SENSOR USED)l =2 (ONLY 1 SENSOR IS AVAIL, NOT HI IN.

VALUEi DIFF BETWEEN SENSOR READINGS _.GT. 50 PSIG, HIGHEST-READING SENSOR USED, VALUE NOT HI); =3 (BOTH SENSORS NOT AVAIL i BOTH SENSORS OUT OF RNG IN OPPOSITE DIRECTIONS)i ~6 (USED WHEN VALUE IS .GT. HI--VALUE) .

.. _ _ _ ..__._ .. _ ._ .. _ . _ _. _-.__u.._,._.-..__

t EddiattlL_ Unit _1 22 of 30 llRC_.__EncrunnsyJ1toponas._ nata _ Syntra

- unta l'oint Library i Dato: 02/11/92 i Reactor Unit HT1 i

Data Foodor N/A L i

NRC ERDS Paramotor: NI POWER RNG i Point I.D.: APRN Plant-Specific Point

Description:

APRM AVERAGE READING - % POWER Gonoric/condonned Doncription: NUC INST PUR RNG Analog / Digital : A

{

Engincoring Units or Digital Statost % (PERCENT) I Engincoring Units /':nvorsion : 1% = 1 PERCENT PONER Minimum Instrument Rangos O Maximum-Instrument-Rango: 125 Zero Reforonco Points N/A

Rotorenco Point Motos: 93 FISS CHMDRS AVERAGED BY G APRMS L Proc or Sens P Number of Sensors: 6 How Processed: NUMERICAL AVERAGE OF AVAILABLE APRMS Soncor Locations: FISS CHMBR IN 4 CORE QUADS AT 4 HEIGHTS h1arn or Trip'Sotpoints: ' SCRAM = FLOW BIASo CLAMP =117.0%;120%;15% NI

-NI-Detector Power-Supply Cut-Off Power Lovo1: DONNSCALE = 3% t

'HI. Detector Power Supply Turn-On-Power Loyols GREATER THAN 3%

Instrument Failure Modo: LOW = J%; .LE. 11 LPRMS/ POWER Temperature Compensation !

for DP Transmitters # "

Lovo11Roforance-Log N/A Unique System-Doscriptions-APRM READINGS ARE NUMERICALLY AVERAGED FOR VALUE. QUAL TAGS

- USED _" 0; =2 (LESS THAN 5 APRMS AVAIL AND READING NOT AT

- TRIP POINT) ; =3 - NO APRMS AVAIL; ~6 (APRM - AVERAGE POWER .GE.

SET POINT) . TRIP SET POINTS-ARE BIASED IN THE RUN MODE FOR RECIRC FLOW; CLAMP AT 117.0%, TIME DELAY FOR'THIS TRIP.'

NI POWER TRIP (NO DIAS, NO DELAY) = 120%. UNIT OUT OF RUN MODE SET POINT = 15%. NO QUALITY TAG FOR 220% TRIP. >

E.1.llatch Unit 1 33 of 30 11E0 - EmcraentyJ1coponne Data Syntem Data Point Library Dato: 02/11/92 -;

l Reactor Unit NT1 l

Data Feodor N/A 11RC ERDS Paramotor: 02 CONC Point I.D.: 02D Plant-Specific Point

Description:

OXYGEN CONCFNTRATION (DRYllELL)

Genoric/ Condensed

Description:

Dif OXYGEN CONC

-Analog / Digital : A l Engincoring Units or Digital Statost % (PERCENT) .

Engincoring-Units Conversion : NONLINEAR TO 11% THEN LINEAR, CURVE ATT Minimum Instrument Range 0 ;

Maximum Instrument Rango: 30 Zero Reference Points N/A-Referenco Point 1 lotos: N/A l Proc or Sons: P

~

llumber of Sensors: 2 llow Processod: HIGHEST IF BOTH SAMPL1NG SAME POINT-

. Sonsor Locations: Dil EXTERNAL SAMPLE LINES Alarm or Trip.Sotpoints: 4.0% HI NI Detector Power Supply Cut-Off Power Loyols N/A

- til Detector Power Supply Turn-On Power Loyol: N/A Instrument Failuro Modo: N/A Temperatura Componsation for DP Transmitters: N-Lovel Reference Log N/A

- Unique 1 System

Description:

SAME 1990 INSTRUMENTS USED FO;t 02 MEASUREMENT THAT ARE USED FOR:H2: MEASUREMENT. . EACH UNIT IS A COMBINED H2 -/ O2 ANALYZER

.-OUALITY POINT INFORMATIO'l SAME AS FOR H2 DATA POINT.

SOF714ARE ROUT 1NE IS CALLED ONCE FOR BOTH H2 POINTS AND ONCE FOR BOTH O2: POINTS. READOUT CURVE ATTACHED.

L l

m, ,-o,--, -,+r-e-vv,e.wo-v,--,.e-,-,w-u,r,-- -

,--,-+=-,,--*.-cwn,-w-,ree,av , -

, ;: , f ,-(;!; iltiIii;I:[rII;!i II i i'.!. !ItI ~!'l' i!$ I' 0 .

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!a ;i l!l4 !!i:ii j i i i 1! i]!1 4 ]! ' 2 t1i i' i)i 1 1lj[ii!tii ii

L 1 ,jin t c h ,,yj) 1.t _ 1 24 of 30 HRC - Emenicilcy_ ScDDonun_ Data _fWnita DaLLl'QlnL_ld)2rAl2 Date: 02/11/92 Reactor Unit: NT1 Data reeder: N/A NRC ERDS Paramotor: NI SOURC RNG Point I.D.: SRMS Plant-Specific Point Deccription: AVERAGE SRM READING Generic /Condenced

Description:

NUCLEAR INSTRUME'NTS, SOURCE RANGE Analog / Digital : A Engineering Units or Digital States: CPS Engineering Unito Conversion : LOG BASE 10 OF CONVERTED VALUE Minimum Instrument Range 1.0 EE-1 CPS Maximum Instrument Range: 1.0 EE+6 CPS Zero Reference Point: N/A Reference Point Notes: N/A Proc or Sens: P Humber of Sensors: 4 How Proccooed: NUMERICAL AVERAGE Sensor Locations: MOVABLE DETECTORS 1 IN EACH CORE QUAD Alarm or Trip Setpointo: NONE NI Detector Power Supply Cut-Off Power Level: .LE. 5 CPS NI Detector Power Supply Turn-On Power Level: .GT. 5 CPS Instrument railure Mode: LON / DUE TO PONER OR INPUT Temperature Compensation for DP Transmitters: N Level Reference Leg: N/A Unique System

Description:

FOUR GAMMA DISCRIH1NATED PROPORTIONAL DETECTORS.

READINGS AVAIL 1F DETECTOR FULL IN OR FULL OUT; NOT LOGGED OUT. QUAL:TY POINTS = 0 OR 3. 3 = AVAILABLE SENSORS NOT FULL IN OR FULL OUT OR D1GITAL STATUS NOT AVAILABLE TO DETERMINE POSITION. DETECTORS ARE RETRACTED DURING STARTUP TO HOLD BETWEEN 1.0 EE+3 TO 1.0 EE+5 CPS. WHEN PROPER INTERMEDIATE RANGE OBTAINED DETECTORS ARE FULLY RETRACTED.

i

g.1.Hatsb Unt? 1 25 of 30 )

llRC - Pmornonev_Regggj;pe Data SVStfl0 Data Point Library Datos 02/11/92 Reactor Unitt HTl Data Feodor N/A NRC ERDS Paramotort DW TEMP Point I.D.I Di/TE ]

Plant-Specific Point

Description:

DRMVELL TEMPERATURE l l

Gonoric/ Condensed Doucriptions DRMfELL TEMPERATURE '

. Analog / Digital s A i Engincoring Units or Digital Statost DEGF j Engincoring Units Conversion s N//

Minimum Instrument Rangot 0 !

Maximum Instrument Rango '500 Zero Reforance Points'N/A :

Referenco Point'Notest INST = RTDS, 32 DEGF = LO RANGE

-Proc or Sons! P Number of Sensorst- 14 I How Processeds NEIGNTED NUMERICAL AVERAGE .

.SonsoriLocationst INSIDE DRM9 ELL-Alarm or Trip'Sotpointst 135 DEGr NI

'NI Detector Power-Supply Cut-Off Power Levolt N/A NI Detector Power Supply Turn-on Power Lovels N/A Instrument Failure Modot iHIGH

.Tomparature Compensation r for DP Transmitterst N

-Level. Reference Legt N/A ,

Unique System Descriptions: . .

FOURTEEN RTDS FROM VARIOUS AREAS OF DRYWELL, AVERAGED-TO

. PROVIDE SINGULAR DRM4 ELL' TEMP READING. INSTR'S ARBITRARILY PLACED IN 3 GROUPS-FOR CALCULATION. AVAIL INSTRUMENT = LOGGED. -

IN AND WITHIN CONVERSION RANGE. QUALITY TAGS USED-=0 (AT LEAST 2. INSTRUMENTS AVAIL PER GROUP AND; AVERAGE NOT HI); =2 (1TfD GROUPS - ONLY HAVE AVAIL SENSORS AND AVERAGE NOT HI; 3 GROUPS HAVE AVAIL SENSORS BUT ONE OR MORS ONLY HAVE ONE AVAIL SENSOR AND AVERAGE NOT HI); #3 (NO GROUPS OR ONLY ONE i'

- GROUP HAVE AVAIL SENSORS)i =6(AVAIL AVERAGE READING IS H;G .

_ . . _ _ . _ _ , - _ . . _ . . _ _ _ . . _ _ . _ , _ _ _ - _ . _ - - . . _ . _ . . _ - . _ . __ . _ . _ . ~ , - -

I:. I . lintch_UniL 1 26 of 30 UAC n.lmergency Resnonan_12atn_ System i Data l>gint LitAtary

Dato 02/11/92

' Reactor Unitt HT1 Data'Foedert N/A-NRC ERDS Paramotort SP TEdP Point I.D.: STh'T Plant-Specisio Point Doccriptions TORUS WATER TEMP GGnsric/Condensod Descriptions SUPPRESS 10N POOL TEMPERATURE Analog / Digital : A Engincoring Units or Digital Statout DEGF Engineering Unita Convorcion 2 SENSOR RANGES USED (50 - 250; O - 500)

Minimum-Instrument Rango 0 Maximum Instrument Range: 500 Zero Roferenco Point N/A

= Reference Point.Notos: N/A Proc or Sonst P i Number of Sensorst 15 th>4 Processed s NUMERI:AL AVERAGE '

Sensor ^Locationas UE AND LOW AREAS OF POOL WATER SPACE Alarm or. Trip Sotpoents: 100 DEGF HI (ALARM)

NI Detector Power Supply Cut-Off Power Levol N/A '

NI Detector Power Supply Turn-On Power Levolt-N/A Instrument Failuro Modo: HIGH i iomparature' Compensation "for DP Transmitters: N Level Reference Leg N/A >

Unique System

Description:

15 RTDS SPACED CICUMFERENTIALLY THROUGHOUT THE TORUS V' ATER SPACE-AT 2 LEVELS. THE READINGS ARE CHECKED FOR AVAILABILITY V (SENSORS WITHIN; CONVERSION RANGE) . THE^READINGSLARE' AVERAGED.

f NUMERICALLY BASED ON^2 GROUPINGS OF SENSORS. 11 SENSORS HAVE A 50 TO 250 DEGF RANGE AND TEND TO MEASURE THE LONER AREA WTR. ' 4: SENSORS ARE O TO S00 DEGF AND MEASURE UPPER. QUAL PTS USED =0(ALL SENSORS IN UPPER LEVEL AVAIL, UP TO 2 NOT AVAIL IN LOW GROUP, RESULT NOT HI); 2 (1 SENSOR NOT AVAIL. IN UPPER -

GROUP OR MORE THAN 2 NOT AVAIL. IN LOW GROUP AND AVG. NOT ,

HI); 3(NO SENSORS AVAIL OR NONE IN GP2); 6(RES: AVG HI) i

L.LilitCILll011_1 27 of 30 lHLC,_. Emorgpnny,JKnp 11 0 . Data Synten Data _Poluk b1Arl Dato: 02/11/92

-Roactor Unitt HT1 Data Foodert #/A

!!RC ERDS Paramotor: DW PRESS t

Point I.D.* DNPR Plant-Specific Point

Description:

DR)*WELL PRESSURE Gonoric/ Condensed Doncriptiont DR)WELL PRESSUR."

Analog / Digital t A Engir.ocring Units or Digital Statost PSIG Engineering Units Conversion-t 3 RANGES OF PPESS REFERENCED TO O PSIG l Minimum Instrument Range! -10 PSIG I Maximum' Instrument Rangot 250 PSIG Zoro Rotorenco Pointt N/A Referenco Point Notest N/A Proc or Sons: P Humber of Sensorst 6 llov Processed 1 NUME'RICAL AVG OF 2 SENSORS IN 1 RANGE '

Sensor Locationst PRESS SENSED DIRECT FROM IM/ INST OUTSIDE Alarm or Trip Sotpointus XI 1.92 PSIC(P,X SCRAM /ECCS AT 1.85 PSIG)

HI Detector Power Supply Cut-Off Power Lovalt N/A-NI Detector Power Supply Turn-On Power Lovelt.N/A Instrumont Failuro Modat LON .

.Temperaturo componsation for DP Transmitters: N

.Lovel Roforenco Legt N/A Unique System Descriptions.

3 PRESS RANGES SENSED BY 6 TRANS RANGES = ~5 TO 5o -10 TO 90 o -O TO 250-PSIG. TWO TRANS READINGS PER RANGE AVERAGED FOR-SINGLE'VALUE (LOWEST RANGE USED IF AVAIL, IF NOT , AVG THE 2 TRANSMITTER READINGS FOR THE NEXT RANGE AND SO ON). QUAL PTS USED "- 0 (2 SENSORS AVAIL / LOGGED IN - WITHIN RANGEi 1 SENSOR AVAIL ~AND WITHIN ACCEPTED DIFF OF-1 AVAIL-SENSOR IN NEXT IMMEDIATE RANGE - IN BOTH CASES READING NOT HI); #2 (BOTH SENSORS AVAIL BUT DIFF BETWEEN THEM IS NOT WITHIN ACCEPT LIMIT; ONLY'1 WIDE RANGE SENSOR AVAIL, VALUE NOT HI); =3 (NO SENSORS AVAIL); =6 (CALC VALUE IS HI) .

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DJitt.13LLnLkunty i Dato! 02/11/92 t Reactor Unitt NTJ -

\

Data Fooder N/A ,

ilRC ERDS Paramotors CST LEVEL Point 1.D. CS i Plant-Specific Point Doncription: CST LEVEL ;

-Generic /Condonned DoncrAptions CONDENSATE STORAGE TANK LEVEL -

Analog / Digital A Engineering Units or Digital Staton! FEET Engincoring Unita Conversion t l' APPROXINATELY a TO 12,730 GALLONS ;

Minimum' Instrument Ranget 0 I Maximum Instrument Ranget 40 2oro.Referenco Point EL 130 Rotorenco Point Hotout - EL 130' IS GRADE ELEV FOR TANK / 40 *n1'r 0 i Proc or Sons: S l

Number of Sansorst 2

[

Uou Processedt SINGLE SENSOR Sonsor Locations: ON CST Alarm or Trip Setpoints: 40 = 3 4 " !

NI Detector PoWor Supply Cut-Off Power Levolt N/A :

NI Detector Power Supply Turn-on Powar.Loyolt N/A >

Instrument-Failuro Modo! LOff ;

Temperaturo Componaation I Jor DP Transmitters: N i Level ReferencolLegt N/A Unique System Descriptiont .

TANK APPROXIMATELY S00,000 GALLON-CAPACITY. NORMAL OPERATING '

--PROCEDURE LIMITS LE'!EL TO iS' MINIMUM. 34 INCH LOW LEVEL IS .'

ACTUALLY SWAPOVER POINT FOR HPCI/RCIC NORMAL-SUCTION SOURCE.

SWAP IS TO SUPPRESSION POOL.-OUALITY POINTS NOT ASSOCIATED WITH THIS VALUE. THESE ARE USED ONLY WITH COMPOSED POINTS.

VALUES PRESENTED OR NOT PRESENTED. IF VALUE IS NOT PRESENTED AT ALL:- A BAD QUALITY-IS ASSUMED, ELSE A GOOD QUALITY IS

. ASSUMED. EL 130' IS 130' ABOVE MEAN SEA' LEVEL.

1

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LLllatch_ Midi _1 29 of 30

!!EC - Entrunnev Re.apners_ Data Jiy.01sm DALD,.. Po i nt._idhr3I.Y.

Dator 02/11/9%

hoactor Unit #T2 Data Fonder N/A NRC ERDS Paramotor: R2 CONC' Point-1.D.: H2T Plant-Spacific Point Doncription: HYDROGEN CONC. (TORUS)

- Conoric/Condonsed Description TORUS HYDROGEN CONC.

Analog / Digital : A Engineering Units or Digital Statost % (PERCENT)

Engincoring Units conversion FOLYNOH 1% = 1% H2 .

f Minimum Instrument.Rango: o .

Maximum Instrument.Rango 30 ,

Zoro Referenco Point: N/A Re.torenco Point Notcat 2 RNG (O TO 10) / (O TO 30) ONLY WIDE USED ?

Proc or Sonst P-

!! umber of Sonnorst 2 llow Proconnedt HIGHEST IF BOTH SAMPLING SAME POINT

~

Sonsor Locationus SUPP CHAMBER EXTERNAL SAMPLE LINES Alarm or Trip Sotpoints: 2.5% HI t L. - HI: Detector Power Supply Cut-Off Power Lovela N/A

{

p = NI Detector Power'Supp1*' Turn-On Power Lovell N/A , i Instrument Fa11uro Modo: N/A Temperaturo compensation i for DP Transmitters: N :

1 Level Reference Log: N/A

- Unique = System Doncription:

-2 INSTRUMENTSo EACH MEASURING H2 AND 02, CAN BE ALIGNED BOTH -

TO SUPP CHAMBr DOTH TO DWo - OR .I TO [M AND 1 TO SUPP CHAMB.

AVAIL = SENSORS (INST) ALIGNED TO SMPL PTi IN ANALYCE OR LOCA ,

OVERIDEi SENSORS NOT OUT OF CONVERSION RNG. QUAL PTS =0(BOTH- +

-H2 SENSORS AVAIL DIFF BE N EEN 2'IS ACCEPT - IF A VAL GE. B .

USE Ao'ELSE USE D IF'BOTH Ab1GNED TO SAME PT, ELSE USE INDIV V

VAL /-' VAL NOT HI); = 2 (1 SENSOR AVAIL VAL NOT HIi 2 SENSORS AVAIL DIFF-NOT ACCEPT / VAL USED NOT HI)i=3 (NO SENSORS AVAIL ,

OR SENSORS SAMPLING SAME POINT THEREFORE OTHER POINT NOT AVAIL BY DEFAULT); =6 (VALUE PROVIDED=HI) . +

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E.I. Hatch Unit 1 .30 of 30

,NRC'- Emeraency Resconse Data EyJ193 Data Point Library Datet-02/11/92

~

=Roector Unit: HT2 ,

Data Feeder: N/A NP.C ERDS Parameter: 02 CONC Point I.D.:-02T Plant-Specific Point

Description:

OXYGEN CONCENTRATION (TORUS)

Generic / Condensed

Description:

TORUS OXYGEN CONC

. Analog / Digital : A Engineering Units or Digit-3 States: % (PERCENT)

Engineering Units Conversion ' NONLINEAR TO 11% THEN LINEAR, CUisVE ATT

. Minimum. Instrument-Range: 0 Maximum Instrument Ranget.30

-Zero Reference Point:~N/A .

Reference Point Nota.s: N/A.

-Proc or Sens: P Number =of Sensors: -2 How Processed: HIGHEST IF BOTH SAMPL:NG SAME POINT

-Sensor Locations: SUPP CHMBR CXTERNAL SAMPLE LINES Alarm or= Trip Setpoints: 4.0% NI NI Detector Power Supply Cut-Off Power Level: N/A. _

NI Detector Power Supply Turn-On Power Level: N/A 1 Instrument ~ Failure Mode: N/A Temperature Compensation-for DP Transmitters:- 'N ,

Level Reference Leg: N/A Unique-Sy' stem

Description:

SAME 7WO INSTRUMENTS. USED FOR O2 MEASUREMENT THAT ARE USED FOR H2 MEASUREMENT. EACH UNIT IS A COMBINED H2 / O2 ANALY2ER

. QUALITY POINT INFORMATION SAME AS'FOR H2 DATA POINT.

SOFTWARE-ROUTINE IS CALLED ONCE FOR BOTH H2 POINTS AND ONCE

'FOR BOTH 02 POINTS.-READOUT CURVE ATTACHED.

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E. I MATCH - UNIT 2 NRC - EMERGENCY RESPONSE DATA SYSTEM D31LE9_inklibrRY TABLE OF CONTENTS 11112 EA92 RCIC Flow 1 HPCI Flow 2 LPCI Flow D 3 LPCI Flow a 4 Main feedwater Flow B 5

, Nater Flow 6 6 tors Clew B 7 C" >

flow a 8 Pool Water Level 9

,sel Level 10

.y Class 11 Wind Direction 12 Wind Speed 13 Effluent Gas Rad (Main Stack Radiation) 14 Effluent Liquid-Rad (Radwaste Effluent Radiation) 15 Effluent Liquid Rad (PSW Ft fluent Radiation) 16 Effluent Gas Rad (Reactor Building Stack Radiation) 17 Drywell Radiation 6 18 Hydrogen Concentration (Drywell)- 19 Drywell Radietion B . 20 Reactor Pressure 21 NI Power Range (APRM - Ave, Power) 22 0xygen Concentration (Orywell) 23 (Attach)

NI Source Range _(SRM Average Reading) 24 Drywell Temperature 25 Suppression Pool Temperature (Water Space) 26 Drywell Pressure 27- 4

-Condensate Storage Tank Level 28 Hydrogen Concentration-(Torus) 29 0xygen Concentration (Torus) 30 (Attach)

SF/505-3

l

'l l

E.I. Hatch Unit 2 1 of-30 l NRC - Emergency Ropponse Data _SygicJn Data _ Point Libraty :

Date: 02/11/92 Reactor Unit: HT2 Data-Feodor: N/A NRC:ERDS Parameter: RCIC FLOW Point I.D.: RClv Plant-Specific Point

Description:

LCIC FLON Genetic / Condensed

Description:

RX CORE ISOLATION COOL *NG FLOW Analog / Digital : A Engineering Units or Digital States: GPM

- Engineering Units Conversion : SQUARE ROOT Minimum Instrument Range: 0 Maximum Instrument Range: .500 Zero-Referenco-Pcint: N/A Reference-Point Notes: N/A Proc or Sens: S-Number of Sensors: 1 How-Processed;-SINGLE VALUE Sensor' Locations: ON PUMP DISCHARGE LINE Alarm or Trip-Setpoints: HI :1Ui LEV TRIP = 52. 7 IN.

NI Detector Power Supply Cut-off Power Level: N/A l -NI Detector Power Supply Turn-On. Power Level: N/A

- Instrument-Failure Mode: LON l:

Temperature Compensation .

for DP Transmitters: N Level-Reference Leg: N/A Unique System

Description:

l THIS POINT PROVIDES REFERENCE INFORMATION'TO THE OPERATOR.

l .NO QUALITY TAG WILL-BE PROVIDED; IF VALUE' RECEIVED ASSUME

' QUALITY = GOOD, ELSE ASSUME BAD. THE RCIC TURBINE DRIVEN PMP IS-DESIGNED'TO PRODUCE 400 GPM AT APPROXIMATELY 1050 PSIG RX

PRESS. IT WILL AUTO' START AT -35 IN RX LEVEL (REF= INST ZERO)

\

. NORMAL SUCTION SOURCE = CST. SUCTION WILL AUTO SWAP TO THE SUPP POOL AT APPROXIMATELY 10,000 GAL. IN THE CST.

--e w., e m-- - - - - --e

E. I.lintch Uni t 2. 2 of 30 Response Data _Bysten

-URC - Emergangy_lnt pata Po Library i

'Date: 02/11/92 Reactor Unit: -HT2 Data Feeders-N/A.

NRC ERDS Parameter: NPCI FLON Point I.D.: HPCI Plant-specific Point

Description:

HPCI FLON Generic / Condensed

Description:

HP COOLANT' INJECTION FLON Analog / Digital : A Engineering Units.or Digital States: GPM l

' Engineering Units Conversion : SOUARE ROOT Minimum Instrument Range: 0 Maximum Instrument Range: 5000 Zero Reference Point: N/A I Reference Point Notes: N/A Proc ~or Sens: S Number of Sensors: 1 How Processed:-SINGLE VALUE Sennor Locations: PUMP DISCHARGE PIPE Alarm or' Trip Setpoints: HI LEV TRIP = 51.7 IN RX LEVEL HI' Detector l Power Supply Cut-Off Power Level: N/A NI Detector Power Supply Turn-On-Power Level: N/A' Instrument Failure Mode: LOW Temperature Compensation for DP Transmitters: N-Level Reference-Leg::N/A Unique System

Description:

THIS INFORMATION;IS FOR OPERATOR REFERENCE NORMAL HPCI FLOW REQUIREMENTS ARE TO DELIVER 4250 GPM INTO THE REACTOR-VESSEL AT A' PRESSURE OF .GE. 1080 PSIG. HPCI HAS AN AUTO START CAPABILITY ON LOW WATER LEVEL (-35 IN. FROM INST. 2ERO) AND

.HI DRYWELL-PRESSURE (1. 85 PSIG) . GUALITY POINT NOT PROVIDED.

ASSUME'A DELIVERED VALUE = GOOD / No VALUE = BAD. NORMAL SUCTION =~ CST WITH AUTO'SWAPOVER TO THE SUPP POOL AT APPROX

'10,000 GAL CST LEVEL.

l l:

E.T. Hatch Unit a _ 3 of 30 NRC - Emerr:ency Resp _onse Data-Sypigm Rata Point L'ibrary L

'Date:-02/11/92-Reactor -. Unit:- HT2 Data Feeder: N/A NRC ERDS-Parameter: LPCI FLON Point-I.D.: RHRB Plant-Specific _Foint

Description:

RHR FLON B LOOP Generic / Condensed

Description:

LP COOLANT INJECTION FLOW Analeg/ Digital : A Enginocring Units or Digital States GPM Engineering' Units Conversion : SQUARE ROOT Minimum-Instrument-Range: 0 Maximum Instrument Range: 25000 Zero Reference Point: _N/A Reference Point Notes: N/A

-Proc-or'Sens: S

-Number of Sensors:- 1

^

How Processed:' SINGLE VALUE /'NO QUALITY POINT PROVIDED Sensor Locations: COMMON DISCHARGE LINE FOR BOTH PUMPS 7 Alarm or TripsSetpoints: -NONE 7

NIzDetector PowerJSupply_ Cut-Off Power Level: N/A-NI Detector ~ Power Supply Turn-On Power Level: N/A Instrument Failure Mode: 1XXV L 'TemperaturoLCompensation l for DP Transmitters: -N Level Reference Leg: N/A i-Unique: System-Description:

THIS VALUE'PROVIDES THE FLOWRATE FOR ONE OF:TWO LOOPS OF THE

-RESIDUAL-HEAT REMOVAL SYSTEM. THE LOOP (OR ' DIVISION) HAS TWO REDUNDANT PUMPS - (EITHER OR BOTH CAN BE RUN) DISCHARGING'INTO A^ COMMON HEADER. 2.TISIONS (OR LOOPS) ~ ARE ISOLATED FROM EACH-

? OTHER. MAX FLOWRATE ALLOWED WITH HEAT EXCH BYPASS.OPEN ='

17000-;WITH IT' SHUT =11500 GPM.-SINGLE PUMP FLOW MAX RANGE =

l 7700 TO 8200. LPCI OPERATIONAL ^ MODE IS; AUTOMATIC UPON A LOCA i

SIGNAL (DWPRESS=1.85 PSIG-OR RWL = ~101 IN REF TO INST ZERO)

LPCI INJECTION VALVES WILL^NOT ALIGN FOR INJECTION UNTIL RX PRESS uLL. 425 PSIG. LPCI THROTTLE IS POSS. AFTER TIME DELAY i

lI

. . .~ , . . - .

ExI. Hatch Unit _2 4 of 30 NRC - EmeIctoncv__RefroDpe Data-SypLtsa pata Point Library Date:: 02/11/92 Reactor Unit:JHT2 Data Feeder N/A NRC ERDS Parameter: LPCI FLOW Point I.D.: RRRA Plant-Specific Point

Description:

RHR FLOW A LOOP Generic / Condensed

Description:

LP COOLANT INJECTION FLOW Analog / Digital : A Engineering Units or Digital States: GPM Engineering Units Conversion : SOUARE ROOT

-Minimum Instrument Range: O Maximum Instrument Range: 25000

-Zero-Reference Point: N/A Reference Point Notes: N/A-

' Proc or-Sens: S

-Number of Sensors: 1 HOW Processed: SINGLE VALUE / NO QUALITY POINT PROVIDED Sensor Locations: COMMON-DISCHARGE LINE FOR BOTH PUMPS

Alarm-or-Tripfsetpoints: NONE-

NI Detector Power Supply Cut-Off Power Level: N/A NI Detector Power Supply Turn-On Power Level: N/A Instrument Failure Mode: LOW

^

Temperature compensation for DP Transmitters: N

Level Reference Leg: N/A Unique" System

Description:

THIS VALUE PROVIDES TflE FLOWRATE FOR ONE OF TWO LOOPS OF THE RESIDUAL HEAT REMOVAL SYSTEM. THE LOOP (OR DIVISION) HAS WO

REDUNDANT PUMPS (EITHER'OR BOTH CAN BE RUN) DISCHARGING INTO A-COMMON HEADER +' DIVISIONS (OR LOOPS) ARE ISOLATED FROM EACH OTHER. MAX FLOWRATE ALLOWED WITH HEAT EXCH BYPASS OPEN =

'17000 ;WITH IT SHUT =11500'GPM. SINGLE PUMP FLOW MAX RANGE =

7700 TO G200,-'LPCI OPERATIONAL MODE IS' AUTOMATIC UPON A LOCA SIGNAL ' (DWPRESS=1.85 PSIG OR RWL = -101 IN REF TO INST ZERO)

LPCI INJECTION VALVES WILL NOT ALIGN FOR INJECTION UNTIL RX' PRESS:.LE. 425 PSIG.-LPCI THROTTLE IS POSS. AFTER TIME DELAY

E111 Hatch Unit 2 5 of 30 Nnc - nm_qtgency_Respgnse Data Synt;.cm Data Point Library Date: 02/11/92 Reactor Unit: HT2 Data Feeder: N/A NRC ERDS Parameter: MAIN FD FLON Point I.D.: FNFB Plant-Spacific Point Dascription: B FEEDWATER FLON Generic / Condensed

Description:

M/ FLON INTO RX SYSTEM Analog / Digital : A Engineering Units or Digital States: LB/HR Engineering Units Conversion : LINEAR Minimum Instrument Range: 0 Maximum Instrument Range: 6.0 EE+6 Zero Reference Point: N/A hefererce Point Notes: N/A Prce or Sens: S Number of Sensors: 1 How Proccased: SINGLE VALUE Sensor Locations: NOEELES = EL147FTMSL, XMTRS = EL130FTMSL Alarm or Trip Setpoints: NONE NI Detector Power Supply Cut-Off Power Level: N/A NI Detector Power Supply Turn-On Power Level: N/A Instrument Failure Mode: N/A Temperature Compensation for DP Transmitters: N Level Reference Leg: N/A

' Unique System

Description:

THIS VALUE IS THE MEASURE OF FW FLOW THROUGH ONE OF TWO FEED WATER SUPPLY LINES TO THE VESSEL. TOTAL Di FLON WILL REQUIRE THE ADDITION OF THIS VALUE TO ITS COUNTERPART WHICH IS LIKEWISE PROVIDED. NORMAL VALUE FOR TOTAL 200% FW FLOW IS ABOUT 10.0 EE+6 LB/HR. THIS IS A REFERENCE VALUE AND HAS NO QUALITY PT. WITH IT. IF A VALUE IS RECEIVED ASSUME GOOD QLTY ELSE ASSUME BAD. TUE TRANSMITTER USED FOR MEASUREMENT IS CALIBRATED FOR NORMAL POWER OPERATION TEMPERATURE.

g. - - .. - - - - - . . - . - . - - . . . - _ - . - . . -

E. I.llatch Unit 2 6 of 30-NRC - Engr _9ED.QY_lh1Eponse Data Systen) pata Point Library

Date: 02/11/92 iReactor Unit: RT2 Data Foeder: N/A

-NRC ERDS Paramotor: MAIN FD FLON

__ Point I.D.: FWFA Plant-Specific Point

Description:

A FEEDNATER FLON Generic / Condensed

Description:

M/ FLON INTO RX SYSTEM Analog / Digital : A-Engineering Units or-Digital States: LB/HR Engineering Unita Conversion : LINEAR '

Minimum Instrument Range: O Maximum-Instrument-Range: 6.0 EE+6 Zero' Reference Point: N/A

-Reference' Point Notes: N/A Proc or Sens: S Number of Sensors: 1 How Processed: SINGLE VALUE Sensor-Locations: NOZZLES = EL147FTMSL, XMTRS = EL130FTMSL Alarm. or: Trip Sotpoints: .NONE NI-Detector-Power Supply Cut Off. Power Level: N/A NI-Detector Power Supply Turn-On Power Level: N/A

-Instrument-_ Failure Mode:.N/A Temperature Compensation.

l for DP Transmitters: N L . .

l' Level Reference Leg: N/A L

, -Unique ~ System

Description:

I THIS VALUE-IS THE MEASURE OF FW FLOW THROUGH ONE OF 'RVO FEED l, WATER SUPPLY-LINES TO THE VESSEL. TOTAL FW' FLOW WILL REQUIRE THE, ADDITION-OF THIS VALUE TO ITS COUNTERPART WHICH IS

.LIKEWISE PROVIDED. NORMAL,VALUE FOR TOTAL 100%;FW FLOW IS ABOUT:10.0'EE+6 Lh/HR. THIS IS A REFERENCE VALUE AND HAS NO

~ QUALITY PT. WITH I2'. IF A VALUE IS RECEIVED ASSUME GOOD QLTY ELSE ASSUME BAD.^ THE TRANSMITTER USED FOR MEASUREMENT 1S

. CALIBRATED FOR NORMAL' POWER OPERATION TEMPERATURE.

EJ2intch UnLt_2 7 of 30 llRC - Emo tg efLqy_ lump opne_nn.ta_fd s t om Dittn_l'.plnLLd2rAty Date: 02/11/92 Reactor Unit: HT2 Data Feeder: N/A NRC ERDS Parameter: CR SPRAY FL Point I.D.: CSB Plant-Specific Point

Description:

CORE SPRAY B FLON Generic / Condensed

Description:

CORE SPRAY COOLING SYSTEM FLOW Analog / Digital : A Engineering Units or Digital States: GPM Engineering Units Conversion : SQUARE ROOT Minimum Instrument Range: 0 Maximum Instrument Range: 7000 Zero Reference Point: N/A Reference Point Notes: N/A Proc or Sens: S Number of Sensors: 1 How Processed: SINGLS VALUE Sensor Locations: PUMP DISCHARGE Alarm or Trip Setpoints: NONE NI Detector Power Supply Cut-Off Power Level: N/A NI Detector Power Supply Turn-on Power Level: N/A Instrument Failure Mode: LON Temperature Compensation for DP Transmitters: N Level Reference Leg: N/A Unique System

Description:

REFERENCE INFORMATION FOR ONE DIVISION OF CORE SPRAY. NORMAL FLOWRATE VARIES WITH INJECTION NEEDS. SYSTEM IS CAPABLE OF AUTO START FROM LOCA SIGNAL (DWPRESS=1.6S PSIG AND/OR RX- WTR LVL = -101 IN.) INJECTION VALVES WILL NOT AUTO OPEN UNTIL RX PRESS IS LESS THAN 425 PSIG. INTERLOCK PREVENTS OPENING BOTH INJECTION VALVES AT SAME TIME UNTIL RX PRESS RESTRICTION IS MET (MANUAL OR AUTO OPERATION). THROTTLING CAPABILITY IS IMMEDIATE ONCE INJECTION VALVES ARE OPEN. NO QUALITY POINT PROVIDED. IF VALUE IS RECEIVED ASSUME GOOD QUALITY. ELSE ASSUME BAD.

l

s E.I. Hatch-Unit 2 8 of 30 :

NRC - Emerciency- Respj2Doo Data Syrd;fD D3.1;p Poi nt __ Li bra ry Date: 02/11/92 Reactor Unit: HT2 Data Feeder:-N/A

~ NRC ERDS Parameter: CR SPRAY FL Point I.D. CSA-Plant-Specific Point

Description:

CORE SPRAY A FLOW Generic /Condenced

Description:

CORE SPRAY COOLING SYSTEM FLOW Analog / Digital : A Engineering-Units or Digital-States: GPM Engineering Units Conversion : SQUARE ROOT '

-Minimum Instrument Range: 0 Maximum Instrument Range: 7000 Zero Reference Point: N/A Reference Point Notes: _N/A Proc or-Sens: S Number of Sensors: 1 How Processed: SINGLE VALUE Sensor Locations: PUMP DISCHARGE Alarm or Trip-Setpoints: NONE-NI Detector Power Supply Cut-Off:-Power Level: N/A

'NI' Detector Power-Supply Turn-On Power Level: N/A

-Instrument' Failure Mode: LON Temperature Compensation-for DP Transmitters: N

' Level Reference Leg: N/A:

Unique System

Description:

REFERENCE INFORMATION FOR ONE DIVISION OF CORE SPRAY. NORMAL FLOWRATE VARIES WITH INJECTION NEEDS. SYSTEM IS CAPABLE OF .

AUTO START FROM LOCA SIGNAL (DWPRESS=1.85 PSIG AND/OR RX WTR

.LVL = ~101 IN.) INJEC"' ION VALVES WILL NOT AUTO ' OPEN ' UNTIL RX -

PRESS IS LESS THAN 425 PSIG. INTERLOCK PREVENTS OPENING BOTH INJECTION VALVES AT SAME TIME UNTIL RX PRESS RESTRICTION IS -

MET (MANUAL OR AUTO OPERATION) . THROTTLING CAPABILITY IS IMMEDIATE_ONCE INJECTION VALVES ARE OPEN. NO QUALITY POINT

'PROVIDED. IF VALUE IS RECEIVED ASSUME GOOD QUALITY. ELSE

-ASSUME BAD,

E.I.Hatph Unit 2 9 of 30 NRC - Emeroency Rosponse Data Systen Raja Point Library.

Date: 02/11/92 Reactor Unit: HT2 Data Fooder: N/A NRC ERDS Parameter: SP LEVEL Point I.D.: SPNL Plant-Specific Point

Description:

TORUS WATER LEVEL Generic / Condensed

Description:

SUPPRDSSION POOL WATER LEVEL Analog / Digital : A Engineering Units or Digital States: INCHES Engineering Unita Conversion : 2 RANGES (133 TO 163) AND (O TO 300)

Minimum Instrument Range: 0 Maximum Instrument Range: 300 Zero Reference Point: TNKBOT

-Reference Point Notes: NORM LEV = 148; HI/LO ALARM = COMMON FLAG Proc or Sens: P Number of Sensors: 4 Hou Processed: NUMERICAL AVERAGE Sensor Locations: ATTACHED TO SIDE OF SUPPRESSION CHAMBER ,

~

Alarm or Trip Setpoints: 150 RI /146 LO - COMMON NO QUAL TAG SENT NI Detector Power Supply Cut-Off Power Leval: N/A NI Detector Power Supply Turn-On Power Level: N/A Instrument Failure Mode: N/A Temperature Compensation for DP Transmitters: N Level Reference Leg: WET Unique System

Description:

4 DIFF PRESS TRANS FOR 2 RANGE OF MEASUREMENT. NORMALLY THE NARROW RANGE IS USED BY TAKING THE AVERAGE OF THE 2 READINGS IF AVAILABLE (LOGGED IN AND WITHIN CONVERSION RANGE) . QUAL TAGS USED = 0 (BOTH NARROW RANGE AVAIL DIFF BETWEEN 2 ACCEPT AVG NOT HI/LO: 1 NARROW RANGE AND 1 OR 2 WIDE AVAIL DIFF BETWEEN NARROW AND EITHER WIDE ACCEPT NARROW READING NOT HIf LO: NO NARROW BUT 2 WIDE AVAIL WITH DIFF BETWEEN ACCEPT AND AVG NOT HI/LO): =2 (DIFF READING BETWEEN SENSORS NOT ACCEPT:

ONLY 1 WIDE RANGE AVAIL: ONLY l NARROW RANGE AVAIL - IN EACH CASE READING NOT HI/LO); = 3 (NO SENSORS AVAIL).

. - . . - , . . -- . - . . ~

E.I. Hatch Unit 1 10 of 30 NRC - Emeroency_Resnonse Data System Data Point Library Date: 02/11/92 Reactor Unit HT2 Data-Feeder: N/A NRC ERDS Parameter: REAC VES LEV Point I.D.: RWL Plant-Specific Point

Description:

RPV NATER LEVEL Generic / Condensed

Description:

REACTOR VESSEL WATER LEVEL 3.talog/ Digital : A Engineering Units or Digital States: INCHES Engineering Units Conversion : REFERENCE = INSTRUMENT ZERO Minimum Instrument Range: -317 INCH Maximum Instrument Range: +400 INCH Zero Reference Point: COMPLX Reference Point Notes: INSTR ZERO IS BOTTOM OF STEAM DRYER Proc or Sens: P Number of Sensors: 13 How Processed: NORMAL- WEIGHTED AVG / NOT NORM- NUM AVG Sensor Locations: TRANSMITTERS OUT OF DRYWELL/REF LEGS IN

-klarm'or Trip Setpoints: HI=42"+50 PSIG RX PRESS; LO=32 TAF=~164" NI Detector Power Supply Cut-Off Power Level: N/A NI Detector Power Supply Turn-On Power Level: N/A Instrument Failure Mode: N/A Temperature compensation for DP Transmitters: Y Level Reference Leg: NET Unique System

Description:

5 OVERLAPPING RANGES, ~317 TO ~17, -317 TO 60, ~150 TO 60, O TO-60, O TO 400 INCHES MEASURED BY 13 INSTRUMENTS. EACH INPUT COMPENSATED FOR DRYWELL TEMP AND RX WTR DENSITY CHANGE

. IF COMPENSAT10N DATA IS NOT AVAILABLE NUMERICAL AVERAGING

^

IS USED. QUALITY TAGS USED= 0, 2= (ONLY 0 TO 400" BEING

'USED AND NOT IN-^ REFUEL OR SHUTDOWN, ONLY 1 INST AVAIL / NOT 0 TO 400 /' AND LEVEL NOT HI/LO);3. ALARM SET POINTS PROVIDED

HI/LO COMMON FLAG TO OPERATOR / NO QUALITY TAG PROVIDED.

.. . - -- - - . ~ - .. . - . . - . - - . - - - . . . - -_ - - . - . . _ . _ - - - - -

E.I.lfatch Unit a

_ . Lil of 30 NRC - Emeroency Respqnse Data System Data-Point Library Date: 02/11/92 Reactor-Unit: HT2 Data-Feeder: N/A

- NRC ERDS' Parameter: STAB CLASS Point I.D.: ASl Plant-Specific Point

Description:

AIR STABILITY Generic / Condensed

Description:

AIR STABILIIY AT THE RX SITE Analog / Digital : A Engineering _ Units or' Digital States: STABA Engineering Unita Conversion : N/A Minimum Instrument Range: -Ja.0-

. Maximum-Instrument T.ange: +10.0 Zero Reference Point: 10M-Reference Point Notes:-MET TWR BASE AT APPROXIMATELY 135' MSL Proc or Sens: S Number-of Sensors: l How' Processed: TIMED AVERAGE OF READING Sensor Locations:-100 METER PT ON MET BfR (REF= 10 METERS)

Alarm or Trip Setpoints: NONE NI, Detector. Power Supply Cut-Off Power Level: N/A

- NI Detector Power: Supply' Turn-On Power-Level: N/A Instrument ~ Failure-Mode: COMPLX TemperaturefCompensation

'for DP Transmitters: -N

Lovel Reference Leg:-N/A Unique System--Description:-

DIFF TEMP IS COMPUTED BEBfEEN 100 & 10 METERS. THIS VALUE IS

-AVERAGED OVER TIME AND USED DIRECTLY-IN SOFTWARE TO PROVIDE A PASQUILL- STABILITY CATEGORY- AS FOLLOWS- (A= DT .LE. -3.1

- ~DEGF; B= DT .LE. ~ -2 . 8 DEGF; C= : DT . LS. -2.4 DEGF; D= DT .LE.

-0.8 DEGF; E= DT .LE. +2.4 DEGF; F= DT .LE. +6.5 DEGF; G" DT

.GT. +6.5 DEGF) . NO QUALITY PT INFO PROVIDSD, PT IS REF ONLY-

. (IF VALUE PRESENTED ASSUME GOOD QUAL ELSE ASSUME BAD) . FOR CONVERSION OF SIGNAL, 10-METER VALUE IS DEDUCTED. 100 METER VALUE PROVIDED FOR ELEVATED RELEASE INFORMAT10N.

H e er . ,- 4

_ _ _ . _ . m . . - . -- . _ _ _ . - . _ _ _ . . _ . _ _ _ _ . _ _ _ _ _ . _ . _ _ _ .

E.I. Hatch Unit 2 l12 of 30 NRC - Emorooney_Renponse Datetsyften Data Point Libr,qry,

.Dato: 02/11/92 Reactor' Unit: HT2 Data Feodor N/A NRC ERDS' Parameter: WIND DIR Point I.D.: ND1 Plant-Specific. Point

Description:

WIND DIRECTION 100 METERS Generic / Condensed

Description:

WIND DIR AT THE REACTOR SITE Analog / Digital : A-Engineering units or Digital Statos: DEGFR Engineering Units Conversion : N/A Minimum Instrument Range: 0 Maximum Instrument Range: 540 Zero Reference Foint: NORTH Referenco-Point' Notes: MET TWR BASE AT APPROXIMATELY 135 ' MSL Proc or Sens: S Number of Sensors: l' llow Processed: TIMED AVERAGE OF READING Sensor Locations: 100-METER POINT ON MET TOWER Alarm 1or Trip Sotpoints:'NONE NI Detector Power Supply Cut-Off Power Levol: N/A

-MI Detector Power Supply Turn-On Power-Lovel: N/A Instrument Failure Mode: LOW-

' Temperature Compensation '

-for DP Transmitters: N-Level Reference Leg:;N/A Unique System

Description:

TIMED AVG OF WIND DIR PROVIDED BY A_ S1NGLE SENSOR. MET TWR IS APPROX 0.75 MILES FROM PLANT. PLANT ELEVATED-RELEASE PT =

120 METERS HIGH (REF = 119.5 ' MSL) , THIS SENSOR MEASURES O 2X) 540 DEG- BY SUBTRACTING 360 DEG VOLTAGE 'VALUE FOR SIGNALS PAST 3 60 DEG. THE SENSOR'IS ON TRUE NORTH AND MEASURES THE DIR THE WIND COMES'FROM. (O DEG = 360 DEG = NORTH; 90-DEG =

'450 DEG'= EAST;;180 DEG = 540 DEG n SOUTH; 270 DEG = WEST)

-QUAL PTS NOT PROVIDED. .PT PROVIDES REF INFORMATION.-IF VALUE RECEIVED, QUAL PT:= GOOD ELSE QUAL PT = BAD. 100-METER VALUE PROVIDED FOR ELEVATED RELEASE INFORMATION.

'E.T.llatch Unit 2 13 of 30 NRC - Emernencv1Rgsnonse Data System Data Point'Libraty' Date: 02/11/92

_ Reactor: Unit: HT2 i Data Feeder: N/A

- NRC ERDS Parameter:'NIND SPEED Point I.D.: 2S1 Plant-Specific Point

Description:

NIND SPEED 100 METERS Generic / Condensed

Description:

WIND SPEED-AT THE REACTOR SITE Analog / Digital : A Engineering Units or Digital States: MPH Engineering Units Conversion : .N/A Minimum Instrument Range: 0

Maximum Instrument Range: _100 Zero: Reference. Point: N/A Reference Point Notes: MET TWR BASE AT APPROXIMATELY 135' MSL Proc or Sens: S

Number of Sensors: 1 How Processed: TIMED AVERAGE OF READING Sensor: Locations: 100 METER PT ON MET TOWER Alarm:or Trip Setpoints: NONE NI Detector Power Supply Cut-Off Power-Level: N/A NI' Detector-Power Supply. Turn-On Power Level: N/A

'll

- Instrument Failure Mode: -LOW:

L . Temperature Compensation '

l for DP-Transmitters: N Lc'vol, Reference Leg: N/A-l

' Unique System 1

Description:

TIMED AVERAGE OF WIND SPEED AT 100 METER CALCULATED FROM A

SINGLE SENSOR. TOWER LOCATION APPROXIMATELY 0.75 MILES FROM; PLANT. PLANT ELEVATED RELEASE POINT = 120 METER HIGH REF TO l 119.5 MSL. QUALITY POINT INFORMATION NOT PROVIDED. POINT IS

[ . REFERENCE-INFORMATION.--IF VALUE IS PROVIDED ASSUME QUALITY'

/ =, GOOD, ELSE-QUALITY u BAD. 100' METER VALUE PROVIDED FOR ELEVATED: RELEASE INFORMATION.

on. - - - e aw

_ _ _ . . ..m . . _ _ _ _ . _ _ . _ ._ .-_ _ -- - _ _ __ _ _._..__ . _-.__

i E.I.' Hatch Unit 2 14 of 30 URC - Emernency _Responso Data System j Data Point Library j i

Date: 02/11/92 Reactor Unit: HT2 Data Feeder:'N/A NRC ERDS Parameter: EFF GAS RAD Point I.D.: MSTK Plant-Specific Point

Description:

MAIN STACK RADIATION Generic / Condensed

Description:

RADIOACTIVITY OF RELEASED GASSES Analog / Digital : A E7ngineering Units or Digital States: UCI/CC Engineering Units Conversion : LOG BASE 10 CONVERSION Minimum Instrument Range: COMPLEX Maximum Instrument Range: 1.0 EE+5 Zero Reference Point: N/A

Reference:

Point Notes: NORM RNG = CPS CONVERTED; WIDE ~ UCI/CC Proc or Sens: P Number of Sensors: . 3 How Processed: NUMERICAL AVG OF NORM RNG; WIDE = 1 VALUE

' Sensor Locations: INTERNAL TO MAIN STACK Alarm or'Tri9 Setpoints; WHEN AUTO SWAP TO NIDE' RANGE OCCURS

-NI Detector Power Supply-Cut-off Power Level: N/A.

NI' Detector Power Supply Turn-On Power Level: N/A IInstrumentIFailure Mode: LOW (NO ' PWR; NO FLOW / LOW BACKGROUND)

LTemperature Compensation

.for DP Transmitters:. N Level' Reference Leg: N/A Unique. System

Description:

3 INSTRUMENTS ( 2 AT 1. 0EE-1 TO ' 1. 0EE+ 6 CPS; 1 AT 5.0EE-3 TO 1.0EE+5 - UCI/CC) . WIDE RNG NOT USED UNTIL HI-HI SET PT OF EITHER NORM'RNG IS MET. ALL CPS VALUES CONVERTED TO UCI/CC INITIALLY-BY SOFTWARE, ALL SET PTS AND DWNSCALE VALS DEPEND ON-CALIBRATION CONSTANTS. THESE VARY OVER FUEL CYCLE.' AVAIL

+

-= WITHIN CONVERSION RNG. QUAL PTS USED = 0 (2 NORM AVAIL, DIFF BETWEEN IS ACCEPT AND NOT ON WIDE RNG - AVG OF 2 IS I

USED); =2. (1 NORM AVAIL OR 2 AVAIL WITH UNACCEPT DIFF BETWEEN); =3 (NO NORM RNG-AVAIL - NOT ON WIDE RNG / ON WIDE RNG BUT 'IT IS NOT AVAIL); =6 (ON WIDE RNG AND IT IS AVAIL).

- r yW w g+e-44r+-T *7"'*TfYCT-*I

-.. ,.~.~.

. .i E.I. Hatch Unit 2 .1L-of-30 l NRC - Emeroency-Response Data System DatJl_Po i nt' Li bra ry -

Date: 02/11/92- ,

~

-Reactor Unit: HT2 Data Feeder: N/A b -:

NRC ERDS Parameter: EFF LIO RAD Point I.D.:fRN Plant-Specific Point

Description:

RADWASTE EFFLUENT RADIATION Genotic/ Condensed

Description:

RADIOACTIV1TY OF RELEASED LIQUID Analog / Digital : A Engineering Units or Digital States: CPS Engineering Units Conversion : LOG BASE 10 CONVERSION Minimum Instrument Range:.l.0 EE-l Maximum Instrument Range: 2.0 EE+6 Zero-Reference Point: N/A Reference Point Notes:-_N/A Proc or Sens: S Number of Sensors: 1 How Processed: SINGLE VALUE Sensor Locations: IN RADWASTE LIQUID DISCHARGE LINE

. Alarm or Trip Setpoints: HI SET PT CALCULATED FOR EisCH DISCHARGE NI> Detector Power Supply Cut-Off-Power-Level: N/A NILDetector Power Supply Turn-On Power Level:.N/A

-Instrument Failure Mode: LON Temperature compensation for.DP. Transmitters:= N

' Level-Reference Leg: N/A LUnique System

Description:

INSTRUMENT DOWNSCALE'= 3 CPS. SdT POINTS CALCULATED FOR EACH DISCHARGE PERMIT THEN INPUT-BY RADNASTE OPERATOR. UNIT PROVIDES FOR AUTOMATIC ISOLATION OF DISCHARGE LINE AT HIGH SET POINT. NO QUALITY POINTS ASSOCIATED WITH THIS VALUE.

IF READING IS PRESENTED ASSUME GOOD, IF NOT PRESENTED-ASSUME

' BAD.

]

E.T. Hatch Unit 2 16 of 30 NRC - Emorooney Hospongs Data System Data Point Library Dates-02/11/92 Reactor' Unit: HT2 Data Feeder N/A NRC ERDS Parameter: EFF LIO RAD <

Point I.D.: PSV Plant-Specific Point

Description:

PSW EFFLUENT RADIATION Generic / Condensed

Description:

RADIOACTIVITY OF RELEASED LIQUID Analog / Digital : A Engineering Units or Digital States: CPS Engineering Units Conversion : LOG BASE 10 CONVERSION Minimum Instrument Range: 1.0 EE-l Maximum Instrument Range: 1.0 EE+6 Zero Reference Point: N/A Reference Point Notes: N/A Proc or Sens: S Number of Sensors: I Haw Processed: ' SINGLE VALUE-Sensor Locations: PSW TURBINE BLDG DISCHARGE LINE hlarm or Trip Setpoints: VARIABLE / CALCULATED BY CHEMISTRY DEPT NI. Detector Power; Supply Cut-off Power Level: N/A

.10[ Detector Power Supply Turn-on Power-Level: N/A

" Instrument' Failure Mode: LON-Temperature Compensation p- for'DP Transmitters: N l LLevel Reference Leg: N/A Unique System'

Description:

-INSTRUMENT DOWN SCALE = 3 CPS.-SET POINTS CHECKED AND CAN BE RE:ALCULATED PERIODICALLY.-UNIT PROVIDES ALARM FUNCTION AND INFORMATION ONLY. NO QUALITY POINTS DIRECTLY ASSOCIATED WITH THIS VALUE. READING =IS JUST PRESENTED OR NOT PRESENTED. NO READING ASSUMEIBAD POINT,-ELSE ASSUME GOOD POINT.

i w ou-, - -

E.I. Hatch Unlt 2- '17 of 30-NRC - Emeroency ResDoDne Data System-

~

Dhta Point Library Date: 02/11/92 Reactor Unit: RT2' x ? Data _ Feeder: N/A NRC ERDS Parameter: EFF GAS RAD Point I.D.: RB2

' Plant-Specific Point

Description:

REACTOR BLDG STACK RADIATION Generic / Condensed

Description:

RADIOACTIVITY OF RELEASED GASSES Analog / Digital : A Engineering Units or Digital States: UCI/CC ,

Engineering Units Conversion : LOG BASE 10 CONVERSION Minimum-Instrument Range: COMPLEK Maximum Instrument Range: 1.0 EE+5 Zero. Reference Point: N/A Reference Point Notes: NORM RNG = CPM CONVERTED ; WIDE = UCI/CC Proc:or Sens: P Number of Sensors: 3

.How Processed: NUMERICAL AVG OF NORM RNG; WIDE =1 VALUE Sensor-Locations: -INTERNAL TO REACTOR BLDG STACK h1 arm or Trip ~Setpoints;=WHEN AUTO SWAP TO WIDE RANGE OCCURS NI Detector Power Supply Cut-off-Power Level: N/A

'NI' Detector: Power Supply Turn-On' Power Level: .N/A

-Instrument failure Mode: LOW (NC PWR; NO FLOW / LOW BACKGROUND)

Temperature Compensation-for DP.-Transmitters: N Level' Reference-Leg: N/A JUnique System

Description:

3-INSTRUMENTS (2 AT ' 1. 0EE+1 TO 1. 0EE+6 CPM; 1 \T 5.0EE 3 TO

[ '1'. 0EE+5 - UCI/CC) WIDE RNG'NOT USED UNTIL HI SET PT OF

EITHER NORM RNG IS MET. ALL CPM VALUES CONVERTED TO UCI/CC

( INITIALLY BY SOF1 WARE. ALL SET PTS AND DWNSCALE VALS DEPEND ON. CALIBRATION CONSTANTS. THESE VARY OVER FUEL CYCLE. AVAIL l = WITHIN CONVERSION RNG. QUAL PTS USED = 0 (2 NORM AVAIL l DIFF BETWEEN IS ACCEPT AND NOT ON WIDE RNG - AVG OF 2 IS

. USED) , n2 (1 NORM-AVAIL OR 2 AVAIL WITH NONACCEPT DIFF BETWEEN) ,- =3 (NO' NORM RNG AVAIL - NOT ON WIDE RNG / ON WIDE RNG BUT IT IS NOT AVAIL), =6 (ON WIDE RNG AND IT IS AVAIL).

L-o

L.LJiatch UnLt_2 18 of 30 ,

NRC - Emeroone.y__ Reoponag___ Data,_S.Witna Data-Point Librarv

.Dato: 02/11/92

'Roactor Unit HT2 Data Feodor: N/A NRC ERDS Parameter:'DN RAD Point I.D.: DNRA Plant-Specific Point.

Description:

NIDE RANGE DRHfELL RADIATION A Generic /Condensod Deocription: RADIATION LEVEL IN THE DRnfELL Analog / Digital ~: A Engi'ncering Units or Digital States: R/HR-Engineering-Units Conversion : LOG BASE 10 CONVERSION Minimum Instrument Rango: 1

. Maximum Instrument Range: 1.0 EE+7 LZoro Reference Point: N/A-

.Roferenco Point Noton: .N/A Proc or Sens: S Number of Sensors: 1 How Processed:-SINGULAR VALUE

'Soncor Locationa: EL 156' IN DRDfELL (REF ~ MSL)

Alarm or Trip Satpointa: HI SET PT VARIABLE ; HI TRIP

100 R/HR

-NI-Detector Power Supply Cut-Off Power Lovol: N/A NI~ Detector Power Supply Turn-On Power Lovel: N/A Instrument:Failuro Modo: LON Temperature. Compensation

.for DP Transmitters: N Level Reference. Leg: N/A ,

-Unique System

Description:

ONE OF 2WO -IDENTICAL WIDE RANGE DW ACCIDENT GM DETECTORS.

TRESE DEVICES PROVIDE INFORMATION TO OPERATOR AND CAUSE THE LARGE (18 JIN.) VENT AND PURGE VALVES FOR THE DW TO STAY

-CLOSED AT OR ABOVE 100-R/HR. AS WITH MOST RAD MONITORS THE ALARM SET PTS ARE CHECKED'AND RECALCULATED,-IF NECESSARY, ON

.A. PERIODIC BASIS BY CHEM };HP PERSONNEL. NO QUALITY POINTS ASSOCIATED WITH THIS VALUE. IF VALUE IS PRESENTED ASSUME GOOD,_'IF VALUE NOT PRESENTED ASSUME BAD.

_. - - . _ . . - - . - . - . .. . . - - _ , ~ . _ . _ . . .- ..

~*

LLXatch UnLt_2 19 of'30 HRC - Empraency Resoonqe Data System Data Point Library Date: 02/11/92 Reactor Unit: HT2 Data Fooder: N/A NRC-ERDS-Parameter: H2 CONC Point I.D.: h2D Plant-Specific Point

Description:

HYDROGEN CONC. (DRYWELL)

Generic /Condenced

Description:

DW HYDROGEN CONC.

LAnalog/ Digital : A Engineering Units or Digital States: % (PERCENT)

Engineering Units Conversion : POLYNOM 1% = 1% H2 Minimum Instrument Range: 0 Maximum Instrument Range: 30 LZero Reference Point: N/A Reference Paint Notes: 2 RNG (O TO 10) /(O TO 30) ONLY WIDE USED Proc or Sens: P

-Number of Sensors: 2 How Processed: HIGHEST IF BOTH SAMPLING SAME POINT Sensor Locations: DW EXTERNAL SN!PLE LINES Alarm or Trip Setpoints: 2.5% RI NI Detector Power Supply Cut-Off Power Level: -N/A NI Detector 1 Power Supply Turn-On: Powor- Level: N/A Instrument Failure Mode: N/A Temperature Compensation for DP Transmitters:- -N

-Level Reference Leg N/A.

Unique Syster.

Description:

~

2 INSTRUMENTS, EACH MEASURING H2 AND'02, CAN BE ALIGNED BOTH

. TO SUPP CH. WB, BOTH TO ^ DW, OR-1.TO DW AND-1 TO SUPP CHAMB.

AVAIL = SENSORS (INST) - ALIGNED TO SMPL PT; IN ANALYEE OR LOCA OVERIDE; SENSORS NOT OUT OF ' CONVERSION RNG. - QUAL PTS =0 (BOTH H2 SENSORS AVAIL DIFF BETWEEN 2 IS ACCEPT - IF A VAL .GE. B USE A, ELSE USE B IF BOTH ALIGNED TO SAME PT, ELSE USE INDIV VAL / ' VAL NOT HI) ; = 2 (1 SENSOR AVAIL VAL NOT HI; 2 SENSORS AVAIL DIFF NOT ACCEPT / VAL USED NOT HI);=3 (NO SENSORS AVAIL OR SENSORS SAMPLING SAME POINT THEREFORE OTHER POINT NOT AVAIL BY DEFAULT) ; =6 (VALUE PROVIDED=HI) .

Lidiatsh_JJnit;_Z 20 of 30 NRC - Emergengy_JAtsponse Dpta Svotem Data Point;_._Idhryn Date: 02/11/92 Reactor Unit: HT2 Data Feeder: N/A NRC ERDS Parameter: DV RAD Point I.D.: DNRB Plant-Specific Point

Description:

NJDE RANGC DRYNELL RADIATION B Generic /Condenced

Description:

RADIATION LEVEL JN THE DRYUELL Analog / Digital : A _

Engineering Units or Digital States: R/HR Engineering Units Conversion : LOG BASE 10 CONVERSION Minimum Instrument Range: 1 Maximum Instrument Range: 1.0 EE+7 Zero Reference Point: N/A Reference Point Notes: N/A Proc or Sens: S Number of Sensors: 1 How Processed: SINGULAR VALUE Sensor Locations: EL 156' IN DRYNELL (REF = MSL)

Alarm or Trip Setpoints: HI SET PT- VARIABLE; N' TRIP = 100 R/HR NI Detector Power Supply Cut-Off Power Level: N/A NI Detector Power Supply Turn-On Power Level: N/A Instrument Failure Mode: LON Tenperature Compensation for DP Transmitters: N Level Reference Leg: N/A Unique. System

Description:

ONE OF TWO IDENTICAL WIDE RANGE Mi ACCIDENT GM DETECTORS.

THESE DEVICES PROVIDE INFORMATION TO OPERATOR AND CAUSE THE LARGE (18 IN . ) VENT AND PURGE VALVES FOR THE DW TO STAY CLOSED AT OR ABOVE 100 R/HR. AS WITH MOST RAD MONITORS THE ALARM SET PTS ARE CHECKED AND RECALCULATED, IF NECESSARY, ON A PER10DIC BASIS BY CHEM / HP PERSONNEL. NO QUALITY POINTS ASSOCIATED WITH THIS VALUE. IF VALUE IS PRESENTED ASSUME GOOD, IF VALUE NOT PRESENTED ASSUME BAD.

E.I. Hatch Unit 2 21Lof 30 NRC - Emeroency Response Data System Data Point Library Date: 02/11/92 Reactor Unit: HT2 Data Feeder: N/A

-NRC ERDS Paramotor: .RCS PRESSURE Point I.D.: RXPR Plant-Specific Point

Description:

REACTOR FRESSURE Generic / Condensed

Description:

REACTOR COOLANT SYSTEM PRESSURE Analog / Digital : A Engineering Unite or Digital States: PSIG Engineering Units Conversion : LINEAR Minimum Instrument Range: 0 Maximum Instrament Range: 1500 Zero Reference Point: N/A Reference Point Notes: N/A Proc-or Sens: P Number of Sensors: 2 How Processed: NUMERICAL AVERAGE

Sensor; Locations:' SENSED ^BETWEEN VESSEL AND MSIVS !

- Alarm;or Trip Setpoints: HI= 1054.00 PSIG (HI PRESS SCRAM =-1042)

-NI Detector Power Supply-Cut-Off Power-Level: N/A NI Detector,PowerLSupply Turn-On Power Level: N/A Instrument Failure Mode: LON (LOSS OF PONER) l-Temperature Compensation for DP: Transmitters:- N

-Level = Reference Leg:LN/A-Unique System-Description:

DVO PRESS'TRANS NUMERICALLY AVERAGED FOR SINGULAR VALUE OF

-RX-VESSEL PRESS.-~ READINGS ARE AVAIL IF LOGGED IN, QUAL TAGS USED =0 (BOTH SENSORS AVAIL, IN CONVERSION RANGE, NOT HI IN

, VALUE; ONLY ONE SENSOR IN RNG, NOT HI IN'VALUE; BOTH-SENSORS

.OUT OF RANGE:IN SAME DIRECTION, NOT HI IN VALUE, HIGHEST READING SENSOR USED); =2 (ONLY 1 SENSOR IS AVAIL, NOT HI IN

'VALUE; DIFF DERVEEN SENSOR READINGS .GT. 50 PSIG, HIGHEST

' READING SENSOR USED, VALUE. NOT HI) ; =3 ~ (BOTH SENSORS NOT AVAIL i BOTH SENSORS OUT OF RNG IN OPPOSITE DIRECTIONS); =6 (USED WHEN VALUE IS .GT HI VALUE) .

a

. ,_ _ -. ~~ . , , . .

._. . . _ - _.._m _. ._ -_-_ - _ . _ _ . _ _ _ _ _ _ , _ . _ __ _

-E.I. Hatch Unit 2 5. of-30

NRC - Emorcency Resnonse Data System Data Point' Library Datet 02/11/92 Reactor Unit: HT2

' Data Feeder: N/A NRC-ERDS Parameter:=NI PONER RNG Point I.D.:.APRM Plant-Specific Point

Description:

APRM AVERAGE READING - % POWER Generic / Condensed

Description:

NUC INST PNR RNG Analog / Digital : A Engineering Units or Digital States: % (PERCENT)

Engineering Units Conversion : 1% = 1. PERCENT PONER

-Minimum Instrument Range: 0 Maximum Instrument Range: 125 Zero' Reference Pointt N/A Reference Point Notes: 93 FISS CHMBRS AVERAGED BY 6 APRMS Proc or Sens:. P Number of Sensors:- 6 ,

How Processed: NUMERICAL AVERAGE OF AVAILABLE APRMS

. Sensor Locations FISS CHMBR IN 4 CORE QUADS AT 4 HEIGHTS h1arn or Trip Setpoints: SCRAM = FLOW BIAS CLAMPu113.5%;118%;15% HI I

NI Detector Power Supply Cut-Off-Power Level: DOWNSCALE = 3%

NI Detector Power Supply Turn-On Power Level: GREATER THAN 3%

Instrument: Fat 1ure Mode: LOW =-3%; .LE. 11 LPRMS;-POWER-L -Temperature compensation for DP-Transmitters: N Level-Reference Leg: N/A l-L LUnique1 System'

Description:

l APRM: READINGS ARE NUMERICALLY-AVERAGED FOP VALUE. QUAL TAGS USED = 0; =2 (LESS THAN 5 APRMS AVAIL AND READING NOT AT -

TRIP POINT)'; =3 NO APRMS AVAIL; =6(APRM AVERAGE POWER .GE. '

SET POINT) . TRIP SET POINTS ARE BIASED IN THE-RUN MODE FOR RECIRC FLOW; CLAMP AT 113.5%, TIME DELAY FOR THIS TRIP.

HI POWER TRIP (NO BIAS, NO DELAY) = 118%. UNIT OUT OF RUN MODE SET POINT = 15%. NO QUALITY TAG FOR 118% TRIP.

m, ,

E.I. Hatch Unit _2 23 of 30 ljRC - Emoraency RosapApo Dqta System Data Point Library l

Dato: 02/11/92-

-Reactor Unit: HT2 -

Data Feodor: N/A NRC ERDS Parameter:--02 CONC Point.I.D.: 02D Plant-Specific Point

Description:

OXYGEN CONCENTRATION (DRYWELL)

Generic / Condensed

Description:

DW OXYGEN CONC

-Analog / Digital : A Engineering Units or Digital States: % (PERCENT)

Engineering Units Conversion : NONLINEAR TO 11% THEN LINEAR, CURVE ATT Minimum Instrument Range: 0

' Maximum Instrument Range: 30 Zero Reference Point: N/A LReference Point Notes: N/A

Proc or Sons: P

-Number of Sensors: 2 How Processed: HIGHEST IF BOTH SAMPLING SAME POINT Sensor Locations: DW EXTERNAL SAMPLE LINES

' Alarm or Trip Setpoints E4.0% HI ,

NI' Detector Power Supply-Cut-Off Power Level: N/A NI-Detector" Power Supply Turn-On Power Level: .N/A InstrumentrFailure Mode: LN/A Temperature Compensation for DP-Transmitters:- N Level Reference Leg: N/A Unique System

Description:

SAME TWO INSTRUMENTS USED FOR O2 MEASUREMENT THAT.ARE USED FOR-H2 MEASUREMENT. EACH' UNIT IS A COMBINED H2 / 02'ANALYHER

.; QUALITY POINT INFORMATION SAME AS FOR H2 DATA POINT.

SOFTWARE ROUTINE 13 CALLED ONCE FOR BOTH H2 POINTS-AND ONCE FOR BOTH O2' POINTS. READOUT CURVE ATTACHED.

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24 of 30-HRC - Emergency Response Data System Data doiD1 Library, Date: 02/11/92

' Reactor Unit: NT2

. Data Feeder N/A NRC=ERDS Paramotor: NI SOURC RNG Point I.D.: SRMS Plant-Specific Point

Description:

AVERAGE SRM READING Generic / Condensed

Description:

NUCLEAR INSTRUMENTS, SOURCE RANGE Analog / Digital : A Engineering Units or Digital States: CPS Engineering Units Conversion : LOG BASE 10 OF CONVERTED VALUE Hinimum Instrument Range: 1.0 EE-1 CPS i

Maximum Instrument Range: 1.0 EE+6 CPS Zero' Reference. Point: N/A Reference PointLNotes:.N/A Proc or Sens:- P h

Number of Sensors: 4 1

.Mou Processed: NUMERICAL AVERAGE 1

Sennor' Locations: MOVABLE DETECTORS I' EACN CORE QUAD q

"Alarmor{TripSetpoints: 3.0 EE+5 CPS REFUEL MODE ONLY j NI DetectorlPower Supply Cut-Off Power Level: .LE. 5 CPS t

.NI? Detector, Power Supply Turn-on Power Level:-.GT. 5 CPS Instrument Failure Mode: LOW /-DUE TO POWER OR INPUT Temperature' Compensation 0

-far DP Trr asmitters:. N-Level Reference Leg:.N/A-Ur.ique Syst'em

Description:

FDUR GAMMA DISCRIMINATED PROPORTIONAL DETECTORS. REFUEL ^ TRIP ONLY IN SINGLE COINCIDENCE LOGIC - UNIT 2 ONLY. READINGS AVAIL IF DET FULL.IN OR FULL OUT; NOT; LOGGED OUT.' QUAL PTS

= 0'OR 3. 3= AVAIL SENSORS NOT FULL IN OR FULL OUT OR DIGITAL

' STATUS NOT AVAIL TG DETERMINE POSITION. DETECTORS ARE RETRACTED DURING STARTUP TO HOLD DE2 WEEN 1.0 EE+3 TO 1.0 EE+5 CPS. WHEN PROPER INTERMEDIATE RANGE OBTAINED '

-DETECTORS'.'PE FULLY RETRACTED.'

- - . - . - . - . . . . - - - _ . - - - . . . . ~ . - - - . - . - - - - - . - - - - - ,

E.1.llatch Unit 2 35 of 30 !

tme - tmorsenny.lcEnunne Data Sysica .

Data l'oint Library !

Deto: 02/11/92 .

Reactor Unit #T2 :

1 Data Fooder: N/A l IIRC ERDS Paramotor: DN TEMP Point I.D.: DNTE i Plant-Specific Point

Description:

DR119 ELL TEMPERATUR#

Conoric/Condon00d

Description:

Drd1VELL TEMPERATURE ,

Analog / Digital : A ,

Engineering Units or Digital Statos: DEGP

- Engineering Units Conversion N/A ,

Minimum Instrument Range: 0 Maximum Instrument Range: 400 Zero Refern'ico Point N/A Referenco Point Notes: 1NST = RTDS, 32 DEGF = LO RANGE Proc-or Sons: P Number of Sensors: -14 How Processedt WEIGHTED NUMERICAL AVERAGE Sensor Locations: INSIDE DR17/ ELL

' Alarm-or Trip Sotp7ints: 135 DEGF HI '

NI Detector Power dupply Lut-Off PoWor Loyoli N/A [

HI Detector Power. Supply Turn-On Power Loyol: N/A Instrumelse Failuro Modo: HIGH l Temperature Compensation :

for DP Transmitters: # ;

Loyol Reference Legt:N/A f

Unique System

Description:

FOURTEEN-RTDC'FROM VARIOUS ARES OF DRkTVELL, AVERAGED TO.

. PROVIDE SINGULAR DR194 ELL TEMP READING. INSTR'S.ARb1TRARILY-

.-PLACED IN:? GROUPS FOR CALCULATION. AVAIL INSTRUMENT = LGGGED IN AND WITHIN CONVERSION RANGE. QUALITY TAGS- USED no (AT

' LEAST -2. INSTRUMENTS AVAIL PER GROUP AND AVERAGE NGT HI); 'c2 (1490' GROUPS ONLY HAVE AVAIL SENSORS'AND AVERAGE NOT HIi 3 GROUPS HAVE AVAIL SENSORS BUT ONE OR MORE ONLY HAVE ONE .

AVAIL SENSOR AND AVERAGE NOT C)! w3 (NU GROUPS OR ONLY ONE GROUP HAVE AVAIL SENSORS) y =6 pW1L' AVERAGE READING IS HI) . i l.

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LL llatuC]LUnM 26 of 30 11Rc - 1:mer>9tuny_Bennnntto nata svatem Data Point Library

~Datot 02/11/92 Reactor Unitt HT2 Data Foodart N/A HRC ERDS Paramotort SP TEMP Point I.D.: SPWT Plant-Specific Point Dr.,toription: TORUS NATER TEMP Generic /Condanced Doncriptions SUPPRESSION POOL TEMPERATURR Analog / Digital : A Engincoring-Units or Digital Statost DEGF Lysninooring Unita Convoraion : 2 SENSOR RANGES USED- (50 - 250; O - 400)

Niplmup Instrument Ranget 0

-Hax'num i Instrument Ranget 400 Zaro' Reference Point N/A Rotorenco Polat Notout N/A

-Proc or Sonst P Number of Sensors: 15 llov Procaaned t - HUMERICAL AVERAGE o -*

Sensor Locationat UP AND LOW AREAS 0F POOL WATER SPACE

. Alarm or Trip Sotpoints: 100 DSGF HI (ALARM) '

N1 Detector Power Supply Cut-Off Power'Lovolt N/A NI Detector Power. Supply Turn-on Power Loyalt N/A Instrutnont Failuro Modo: HIGN

Temperaturo Componnation for DP:Transmitterat N Lovel Reference Logt N/A' Unique System Doncription 15 RTDS SPACED CICUMFERENTIALLY THROUGHOUT THE TORUS WATER SPACE AT 2- LEVELS. THE READINGS - ARE CHECKED FOR " AVAILABILITY (SENSORS WITHIN CONVERSION RANGE) . :THE READINGS ARE AVERAGED NUMERICALLY BASED ON 2 GROUPINGS 0F SENSORS.'11 SENSORS HAVE A 50 TO 250 DEGY RANGE-AND TEND TO MEASURE-THE LOWER AREA WTR. 4 SENSORS ARE O TO 400 DEGF AND MEASURE UPPER. QUAL PTS USED =0(ALL SENSORS 1R UPPER LEVEL kVAIbe UP TO 2.NOT AVAIL JN: LOW GROUP, RESULT' NOT HI); 2 (1 - SENSOR NOT AVAIL. TN UPPER GROUP OR MORE THAN 2 NOT AVAIL. IN LOW GROUP AND AVGr NOT

.HI); 3 (NO SENSORS AVAIL OR- NONE 1N GP2);6 (RES AVG RI) mu ui i e usuie M

_ _ _ _ _ m.._ _ _ _ _ .

E.1. Hatch Unit 2 27 of 30

[{BC - Emotgency Responno Data SyDtem l Data Point LiktnEy Dato 02/11/92 Reactor Unitt HT2 Data Foodort N/A URC ERDS Paramotor D9 PRESS Point I.D.: DNPR Plant-Specific Point

Description:

DRYNELL PRESSURE Generic / Condensed

Description:

DRYNELL PRESSURE

-Analog / Digital's A Engineering Units or Digital Statos PSIG Cngincoring Unita Convorcion t 3 RANGES OF PRESS REFERENCED TO O PSIG

-Minimum' Instrument Range -10 PSIG Maximum Instrument Range: 250 PSIG Zero Rotorenco Point N/A Referenco Point Hotest N/A Proc or Sons: P Humber of Sensoral C Mou Proconoodt NUMERICAL AVERAGE OF SENSORS IN 1 RANGE Sensor Locationst PRESS-SENSED DIRECT FROM DW/ INST OUTSIDE Alarn or Trip Sotpointat XI 1.92 PHIG(RX SCRAM /ECCS AT 1.85 PSIG)

HI Datoctor Power Supply Cut-off Powor_Loyolf N/A l' 'NILDetoctor Power Supply Turn-on Power Lovell N/A t

Instrument Failure Modo: LOW L Temperaturo compensation P for-DP Transmitters: N Lovel Reference Logt N/A Unique System

Description:

L 3 PRESS RANGES SENSED BY 6 TRANS RANGES = ~5 TO 5, ~10 TO 90 l- ,

O TO 250 PSIG. TWO TRANS READINGS PER RANGE AVERAGED FOR

' SINGLE VALUE-(LOWEST RANGB USED IF AVAIL, IF NOT , AVG THE 2 TRANSMITTER READINGS FOR THE NEXT RANGE AND SO ON) .- QUAL PTS j USED =10(2 SENSORS AVAIL / LOGGED IN ~ WITHIN RANGE; 1 SENSOR L

'AVRTL-AND WITHIN-ACCEPTED DIFF OF I AVAIL SENSOR IN NEXT

^IMMEDIATE RANGE ~' IN BOTH CASES READING NOT HI); #2 (BOTH SENSORS AVAIL BUT D1FF BENEEN THEM IS NOT WITHIN ACCEPT

'LIMITi ONLY 1 W1DE RANGE SENSOR AVAIL, VALUE NOT HI); =3 (NO SENSORS AVAIL); =6(CALC- VALUE IS HI) ,

ihL11ntch_ Unit _2 20 of 30 11FC - 1:me r g enc y_.Re r,pon u!1_DAt a_Syrie ra Data Point _ Library Dato: 02/11/92 Roactor Unit: HT2 Data Fooder N/A URC ERDS Paramotor: CST LEVEL Point I.D.: CST Plant-Specific Point Doncription: CST LEVEL Gonoric/Condonood Doucription: CONDENSATE STORAGE TANK LEVEL Analog / Digital : A Engincoring Units or Digital Statout FEET Engincaring Units Conversion : l' APPROXJMATELY = TO 11,341 GALLONS Minimum Instrument Range: 0 Maximum Instrument Rango: 44 Zero Referenco Point: EL 130 Roforanco Point Notout EL 130' IS GRADE ELEV FOR TANK / 44'=174 Proc or Sonst S Humber of Sonooro: J llow Processed: SINGLE SENSOh P

Sensor Locations: ON CST Alarm or Trip Se*pointa HI = 43' / 10 = 34" NI Detector Power Supply Cut-Off Power Lovol N/A

{

HI Detector Power Supply Turn-On Power Lovel: N/A Instrumont Failuro Modo: LOW Temperaturo componnation for DP Transmittero: N Lovel Reference Log: N/A Unique System

Description:

TANK APPROXIMATELY 500,000 GALLON CAPACITY. NORMAL OPERATING PROCEDURE LIMITS LEVEL TO 15' MINIMUM. 34 INCH LOW LEVEL IS ACTUALLY SWAPOVER POINT FOR HPCI/RCIC NORMAL SUCTION SOURCE.

SWAP IS TO SUPPRESSION POOL. QUALITY POINTS NOT ASSOCIATED WITH THIS VALUE. THESE ARE USED ONLY WITH COMPOSED POINTS.

VALUES PRESENTED OR NOT PRESENTED. IF VALUE IS NOT PRESENTED AT ALL - A BAO QUALITY IS ASSUMED. ELSE A GOOD QUALITY IS ASSUMED. EL 130' IS 130' ABOVE MEAN SEA LEVEL.

- -. . - - .--~..=_ ..~.. . - . - . - . - - . . - - - . - - - - . - - - . -

Ed.i.llatth_ Unit 2 29 of 30 nRc - rmersency J1cononanJata_Ily_aten i 1)AtA Point Lif2rary Datot 02/11/92 Reactor Unit RT2 '

i Data roodor N/A ;

NRC ERDS Paramotor: H2 CONC Point I.D.: #2T Plant-Specific Point Doncription: HYDROGEN CONC. (TORUS) !

Gonoric/Condonood Doncription: TORUS HYDROGEN CONC.

Analog / Digital : A Engincoring Unito or Digital Statost % (PERCENT)

Engincoring Unita Convorolon : POLYNON 1% = 1%, #2 Hinimum Instrument Rango 0 ;

Haximum Instrument Rango: 30 Zoro Referenco. Point N/A i Rotoranco Point Notos: 2 RNG (O TO 10) / (0 TO 30) ONLY WIDE USED '

Proc or Sons: P Number ~of Sensorn 2 How ProceDDod: HIGHEST IF DOTH SAMPLING SAME POINT Sonsor Locationat SUPP CHAMBER EXTERNAL SAMPLE LINES Alarm or Trip Sotpointa: 2.5% HI HI Detector Powor. Supply Cut-off Power Lavo]: N/A HI Detector Power Supply Turn-On Power Lovol N/A Instrument Failuro Mode: N/A Temperature Componnation i for.DP Transmitters: N Lovel Reference Log: N/A Unique System Doncription:

2 INSTRUMENTSo EACH MEASURING H2 AND 02, CAN-BE ALIGNEC BOTH TO SUPP CHAMBr BOTH TO DW, OR 1 TO DW AND 1 TO SUPP CHAMB.

AVAIL = SENSORS (INST)- ALIGNED TO- SMPL PT; IN ANALYZE OR LOCA OVERIDEi SENSORS NOT OUT OF CONVERSION RNG. QUAL PTS =0(BOTH H2 SENSORS AVAIL DIFF BE7 WEEN 2 IS ACCEPT ~ 1F A VAL .GE. -B USE A, ELSE USE B IF BOTH ALIGNED TO SAME PT, ELSE USE INDIV VAL / VAL NOT HI); = 2 (1 SENSOR AVAIL VAL NOT HI; 2 SENSORS AVAIL DIFF NOT ACCEPT / VAL USED NOT HI)l=3 (NO SENCORS AVAIL ,

OR SENSORS' SAMPLING SAME POINT THEREFORE OTHER POINT NOT AVAIL BY DEFAULT)l =6(VALUE PROVIDED=HI).

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L.L11atch_Un.Lt_2. 30 of 30 URC . . Enernency4LeoponelLDn11LDynten DATA _1 mint _ Library I? ate: 02/11/92 Roactor Unit: UT2 Data Feedcr: N/A 11RC EhDS Parametor: 02 CONC Point I.D.: 02T Plant-Specific Point

Description:

OXYGEN CONCENTRATION (TORUS)

Generic /Condonced

Description:

TORUS OXYGEN CONC Analog / Dig it'al : A Engincoring Units or Digital Staten % (PERCENT)

Enginocring Units Convernion : NONLINEAR TO lit THEN LINEAR, CURVE ATT liinimum Instrument Range: O liaximum Instrument Range: 30 Zero Reference Point: N/A Reference Point tiotes: N/A Proc or Sens: P 11 umber of Sensors: 2 llow Procesacd: HIGHEST IF BOTH SAMPLING SAME POINT Sensor Locations: SUPP CHMBR EXTERNAL SAMPLE LINES Alarm or Trip setpointa: 4.0% HI til Detector Power Supply Cut-off Power Level: N/A 111 Detector Power Supply Turn-On Power Level: N/A Instrument Failuro 14 ode N/A Temperature Compensation for DP Transmitters: N Level Reference Log: N/A Unique System

Description:

SAME 7WO INSTRUMENTS USED FOR O2 MEASUREMENT THAT ARE USED FOR H2 MEASUREMENT. EACH UNIT IS A COMEINED H2 / O2 ANALYZER

. QUALITY POINT INFORMATION SAME AS FOR H2 DATA POINT.

SOF7 WARE ROUTINE IS CALLED ONCE FOR BOTH H2 POINTS AND ONCE FOR BOTH O2 POINTS. READOUT CURVE ATTACHED.

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E. 1. HATCH UNITS 1 AND 2 NRC EME"GENCY RESPONSE DATA SYSTEM QAtLEqjlti library ohluyltthni following is a itst of abbreviations and acronyms used in the Hatch Units 1 and 2 Data Point Libraries (DPL) and the corresponding terms. Included are all abbreviations and acronyms which are not defined at some point in either the DPL ,

er NUREG 1394, Rev. 1.

ACCEPT Acceptable APPROX Approximately APRM Average Power Rarne Monitur AUTO Automatically AVAll Available AVE Average AVG Average BLDG Building CALC Calculated CHAMB Chamber CHEM Chemistry CHMBR Chamber CONC Concentration DEPT Department Olff Difference or Differential ,

DIR Direction DT Difforential Temperature DW Drywell

-ECCS Emergency Core Cooling System EE Scientific Notation for X 10 EL Elevation ELEV Elevation EXCH Exchanger flSS. Fission FW feedwater

.GE. Greater Than or Equal To GM Geiger Muller l .GT. Greater Than HP Health Physics HI High INDIV Individual INFO Information INST Instrument INSTR Instrument

.LE. Less.Than or Equal To LEV Level LO Low LOCA Loss of Coolant Accident

I E, 1. liA1CH UNIT 1 NRC EMERGENCY RESPONSE DATA SYSTEM Data Point Librarf

$1httY1Ll10D1 LPRM Local Power Range Monitor LVL Level l MAX Maximum HET Meteorological i MSly Main Steam Isolation Valve MSL Mean Sea level l NONACCEPT Nonacceptable NORM Normal NUC Nuclear NUM Numerical PHP Pump .

POSS Possible PRESS Pressure PSW Plant Service Water PT Point PWR Power QLTY Quality QUAD Quadrant QUAL Quality RECIRC Recirculation System RLF Reference RNG Range RPV Reactor Pressure Vessel RTO Resistance Temperature Detector RWL Reactor Water Level RX Reactor SMPL Sample SMP Sample SRM Source Range Monitor SUPP Suppression TAF- Top of Active fuel 1EMP Temperature TRANS Transmitter TWR Tower UNACCEPT Unacceptable VAL- Value WTR Water XHTR Transmitter I

i l

.-. - -- ~ - . - - - . . - . - - , , . - - - _ - - - - - - - - .

E.1. IIA 10H - Utills 1 AND 2 NRC - EMERGEl4CY RESPONSE DATA SYSTEM l'LAtiLAll!UIWlLLIMARY I

NUREG l?94 REV. 1 APPEl4DlX B SECTION 111. SELEC110N Of DA1A FEEDERS A. How many data feeders are there (six maximum)?

Two; one per plant unit. Systems are identical except for plant unit -

number, i B. identify the selected data feeders and provide the following for each:

(1) A short description of the categories of data points it will provide (e.g., tact, rad, or plant data points, by unit) and (2) The rationale for selecting it if another system can also provide its categories of data points, fresently installed SPDS/ERF computers will feed information to new NRC-ERDS microprocessors. The NRC-ERDS data feeders will provide information on all categories in the Critical Safety function Parameters List for BWRs as well as the similar BWR Parameter List.

Computer burden was the rationale for selecting new microprocessors to convert and transmit the NRC data.

C. Which data feeder is the site time determining feeder? This should be the feeder which is providing the majority of the data points.

The NRC-ERDS microprocessors will be the site-time determining devices.

3073 t---________.___-____________._________________

E. 1. HATCH - UNITS 1 AND 2 NRC EMERGENCY RESP 0llSE DATA SYSTCH 11 ANT ATTRIMILLlDM NUREG 1394 REV. 1 APPEND'.X B SECTION 111. SEEEC110N Of DATA FEEDERS A. How .aany data fceders are there (six maximum)?

Two; one per plant unit. Systems are identical except for plant unit number.

B. Identify the selected data feeders and provide the following for each:

(1) A short description of the categories of data points it will provide (e.g., met, rad, or plant data points, by unit) and (2) The rationale for selecting it if another system can also provide its categories of data points.

Presently installed SPDS/ERF computers will feed information to new NRC-ERDS microprocessors. The NRC-ERDS data feeders will provide information on all categories in the Critical Safety Function Parameters List for BWRs as well as the similar BWR Parameter List.

Computer burden was the rationale for selecting new microprocessors to convert and transmit the NRC data.

C. Which data feeder is the site time determining feeder? This should be the feeder which is providing the majority of the data points.

The NRC-ERDS aicroprocessors will be the site-time determining devices.

3073

. . - _ . _ _ _ _ _ _ . , _ _ . _ __ _ . _ _ _ - _ .~ ___ _ _. _ __-.__ _ _ _ .

T

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NVREG 1394 REV. 1 APPENDIX B SECTION IV. DATA FEEDER INFORMATION Note: A new Section IV must be filled out for each feeder system selected.

(The following applies to both plant units)

General QJestions

1. Identification of Data feedec ;

a. What is the name in local parlance given to this data feeder (e.g.,

Emergency Response Information System)? Please give both the acronym end the words forming it.

NRC-ERDS System Nuclear Regulatory Commission-Emergency Responso Data System '

b. Is this the site time determining feeder 7 yes

o. How often will this feeder transmit an update set to the ERDS (in tv,'nds)?

Every 15 seconds

2. Hardware / Software Environment

a. Identify the manufacturer and model number of the data feeder hardware.

Data General Corporation MV/9300 - ECLIPSE

b. Identify the operating system, i A05/VS 11

c. What method-of timekeeping is implemented on this feeder system !

(Daylight Savings, Standard, Greenwich)?

Central Standard Time

d. In what time zone is this feeder located?

Eastern 3073

54 NUREG 1394 REV. 1 ApPENDlX B SECTION IV. DATA FEEDER INFORMATION (Continued)

3. Data Connunication Details

a. Can this data feeder provide asynchronous serial data connanications (RS-232-C) with full-modem control?

Yes

b. Will this feeder transmit in ASCII or EBCDIC?

ASCll

c. Can this feeder transmit at a serial baud rate of 2400 bps? If not, at what baud rate can it transmit?

Yes

d. Does the operating system support XON/XOf f flow control?

Yes

1. Are any problems foreseen with the NRC using X0k/XOff to control the transmission of data?

No

e. If it is not feasible to reconfigure a serial port for the EROS linkup (i.e., change in baud rate, parity, etc.). please explain why.

Not applicable

f. Do any ports currently exist for the ERDS lirkup?

Yes

1. If not, is it possible to add additional ports?

2. If yes, will the port be used solely by the ERDS te sharri with other nonemergency-time users? Give details.

The serial port will be dedicated to the NRC. 1he serial controller is multi-ported, and with computer intcrf ace, capable of supporting several users concurrently.

3073

e 'o NUREG 1394 REV. 1 APPENDIX ll

, SEC110N IV. DATA FELDER INf0RMA110N (Continued)

4. Data feeder Physical Environment and Management

a. Where is the data feeder located in terms of the 150, EOF, and control room?

Main Control Room

b. Is the data feeder protected from loss of su;, ply of electricity?

The power supply for Unit I and Unit 2 NRC-ERDS computer systems is intended to be the same as that aresently used for SPDS at Plant Hatch, inverter backup is used in tais case.

c. Is there a human operator for this data feeder?

Only to initiate the data link to the NRC if required, lhe system is designed to remain "on-line".

1. If so, how many hours a day is the feeder attended?

3073

______-_________ _ _ _ _ _ - _- _ -_________ _ _ - - -_ -

HL-2104, Forwards Data Point Library & Plant Attribute Library,Per Rev 1 to NUREG-1394 as Part of Emergency Response Data Sys

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