Procedure for Performing Task Analysis (& Verification) for Snupps Detailed Control Room Design Review

ML20100E979
Person / Time
Site:	Wolf Creek, Callaway, 05000000
Issue date:	03/31/1985
From:	STANDARDIZED NUCLEAR UNIT POWER PLANT SYSTEM
To:
Shared Package
ML20100E968	List: ML20100E961 ML20100E979
References
PROC-850331, TAC-57369, NUDOCS 8504040181
Download: ML20100E979 (25)
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{{#Wiki_filter:9 9 PROCEDURE FOR PERFORMING ^ TASK ANALYSIS (AND VERIFICATION) FOR THE SNUPPS DETAILED CONTROL ROOM DESIGN REVIEW MARCH 1985 i t 4 1 f $$$40fgK05000482 1 eso4oi F PDR c.; I

L TABLE OF CONTENTS PAGE

1.0 INTRODUCTION

1 2.0 . PROCEDURE 2 ~ 3.0 INPUT DOCUMENTATION 9 ,1 APPENDICES A. FORMS B. - VERB LIST C. SYSTEM ABBREVIATIONS D. EXAMPLE p.

1.0-INTRODUCTION The purpose of the Task Analysis is to identify action and information requirements necessary to perform selected tasks. The SNUPPS Task Analysis is based on a subset of the West-inghouse Owners Group (WOG) Emergency Response Guidelines (ERGS), Revision 1 for the identification of operator tasks. The review team assembled to carry out the task analysis will consist of utility engineering and operations personnel, members of the SNUPPS Staff, and the human factors consultant. Action and information requirements are developed independent of existing control room instrumentation. These requirements are then compared against control room components and hardware to verify that required control and instrumentet.cn are available and compatable with operator needs. Any detected inconsistencies will be treated as findings and handled in a fashion similar to that described in the SNUPPS Summary Report. Findings, resolutions and an implementation - schedule will be reported to the NRC in a closing report, scheduled for submittal in April 1985. 1

2.0 PROCEDURE 2.1 General Instructions The task analysis procedure is a descriptive process which extracts generic operator action and information requirements from systems function data (as represented by the WOG ERGS), converts these requirements to a plant-specific level, and documents the results in an auditable, tabular format for use as an input into the verification process, paragraph 2.2.6. l These procedures are organized into six major activ-ities which are: 1. Develop a list of tasks from the WOG ERGS. 2. Generate a list of generic actions and information requirements for each task, organized by task for ERG's E-0, E-1, E-2, E-3, ECA-0.0, and all the Function Restoration Guidelines (FRGs). 3. Convert the generic list to a plant-specific list. 4. Reorganize the listing so that all action requirements of a given type and all information requirements of a given type are collected together. Type refers to a group of action or information requirements which all have the same system, plant component, and parameter (see detailed procedures, paragraph 2.2). 5. Summarize each action type and each information type in list form. 6. Compare the summary requirements to the existing con-trol room design. 2.2 Detailed Procedures 2.2.1 Collect Materials Obtain a copy of the WOG ERGS, Revision 1 and the four-volume set of related background documents. f 2.2.2 Complete Action-Information Requirements Details (AIRD) l Forms 2.2.2.1 General - Fill out one AIRD form for each step identified from the ERGS as detailed below. Caution and note statements will be included as appropriate. Implied tasks, such as to visually verify that a required action has [. taken place, will also be included as appro-priate. Certain information, particularly plant-specific, technical specification defined l l 2 l

=. [ operating values, will not be available during this step. This information will be obtained when converting the generic AIRD forms to a plant-specific application. Fill in the appro-priate information on the AIRD forms sequentially, starting with the top area of the form first and completing the tabular-information last. Number all AIRD forms sequentially. The following paragraphs explain each blank of the form. 2.2.2.2 Originator - Originator to enter his name and j today's date. 2.2.2.3 Reviewer - Reviewer to enter his name and today's date. The human factors consultant will either be the Originator or Reviewer. 2.2.2.4 ERG Number - Enter the ERG number currently being analyzed. 2.2.2.5 Step Number and Objective _ Enter the ERG step } number and objective for_the step currently being analyzed.. Caution and note statements are considered as a separate step and should be numbered C# or N#, respectively, where # repre-sents the next step number to be encountered. 2.2.2.6 Behavioral Elements - There is at'least one task required for every step listed in the ERG's. The-tasks are divided into two ::ategories: 1. " Action / l Expected Response," and 2. " Response Not Obtained". The AIRD BEHAVIORAL ELEMENTS table separates these two categories of tasks by a horizontal dotted line, to be entered by the Originator. Based upon the ERGS and their related background information, identify all behavioral elements for each task and list each element in the AIRD BEHAV-10RAL ELEMENTS table. A behavioral element is defined by the various behavioral and physical properties of an action requirement or an informa-L tion requirement. Each of the coltan entries are I explained in detail below. Continue making addi-tional behavioral element entries until all elements L I for a task are listed, then proceed to the next b task. Column-entries for each element are: i

1) Action. Number each substep as it appears with-i in the ERG.

Some substeps constitute a single l task, other substeps are made up of more than one task. 3

2) Verb.

Enter a verb from the verb list (in Appendix ^3)whichbestdescribestherequired operator activity. This verb will either describe an action that must be performed or a method for acquiring information. Note that at this level of behavioral definition, a require-ment for an operator to direct someone else to perform an action is considered an action element. You may note in the comments column that an operator directs someone to perform this action, however, maintain strict compliance to the verb list for this column at this stage in the analysis.

3) System.

Enter the abbreviation for the SNUPPS plant system for this element. System abbrevia-tions are listed in Appendix C.

4) Component / Equipment Number.

Enter the plant compon-ent name for this element if applicable. If there is no identifiable component, enter.NA. Do not enter any device, instrument, or control name. Enter the component's' associated equipment number. 5) Parameter. Enter the parameter name for this element. This will usually be a condition or characteristic of the system and/or component such as temperature, pressure, flow, level, amps, volts, watts, etc.

6) Direction. Enter the " condition" of the parameter which may include one of the following:

1. Increasing

3. Greater Than (or Equal to)

2. Decreasing

4. Less Than (or Equal to)

7) State or Value. Enter any identifiable state or value for the parameter. States may include:

1. Stable

5. Off

2. Open

6. Running

3. Closed

7. Stopped

4. On Values may include either a discrete numeric value or a range of numeric values.

8) Units / Rate. Enter the units and/or rate for the parameter's state /value.

Units will be defined by terms such as lbs, psig, in, degrees F, etc. Rate will be units per some time unit (e.g., pounds /sec). 4

9) Precision. Enter the precision at which the infor-mation must be presented or the action must be taken. This will usually be a plus or minus value and unit. In general, the first attempt at deter-mining precision should utilize the following formul a: P = 0.5 A l Where P = Precision, and A = Instrument Channel Inaccuracy This formula is based on the conservative assump-tion that precision should be selected such that it will contribute to less than or equal to 12% of l the total inaccuracy.

10) Trending Required? Enter Y or N for "yes" or "no."

Generally, if the verb used for this ele-ment is " monitor," trending would be required. Also, for information verbs other than monitor which have response times in excess of one or two minutes and changes in rates, trending may be required. If in doubt, enter Y with a question mark (?) as a flag. 11) Comments. Enter any clarifying information or questions, including operating characteristics required by the ERG. This column is also used to cross reference other systems / components e.g. SG 1evel affected by Aux. Feedwater flow)(, indi-cate implicit verify's and explain exceptions to accepted rules from this procedure.

12) On AIRS Sh. No. Leave this colunn blank.

It will be completed under paragraph 2.2.4.2

13) Repeat 1) through 12) for each behavioral element for each task.

2.2.3 Develop Plant-Specific AIRD Forms Working with designated plant personnel, review all AIRD forms and modify them to accurately reflect the plant-specific parameters, values, ranges, units, rates, or other differences from the generic. Enter a brief, concise explanation for all identified plant-specific differences. 2.2.4 Complete Action-Information Requirements Summary (AIRS) Forms 2.2.4.1 General. AIRS forms are used to collect together all behavioral elements of a given type, independent of what ERG, ERG steps, or task they may appear in (i.e. this forms the basis for an instrument and con-trol specification). 5 i - ~ -,

a Behavioral element types that.are the same are defined'as having the following characteristics: . 1) Their verbs agree as to class, e.g., they are either action verbs or:infomation verbs (their verbs may be different within verb class.).

2) Their system, component, and parameter are all the same.

3)' All other distinguishing features may be different. '2.2.4.2 - Transcribe Behavioral Elements onto AIRS Forms - Begin transcribing the detailed information for the-first. behavioral eleme_nt from the AIRD form to the AIRS from in the following manner: 1) Number the firs't sheet as one, and all subsequent l AIRS forms sequentially. From the first AIRD sheet, enter onto the AIRS form in the INDIVIDUAL DETAILS table all the available information con-cerning the first behavioral element on the AIRD. At this time,_ determine the requirements type from the element verb (on the AIRD) and enter. that in the SORT BLOCK of the AIRS form. Also transcribe (from the AIRD) the system, component, and parameter onto the AIRS SORT BLOCK. Leave the SUPNARY OF REQUIREMENTS BLOCK and VERIFICATION

SUMMARY

BLOCK blank-at this time. When you have completed the first behavioral element, transcribe the AIRS sheet number into the last column (On IRS Sh. No.) of the AIRD form in line with that task.

2) Searching sequentially through the AIRD stacks, find the next behavioral element that is of the same type as the_ element that you just completed.

It is the same type if it has the same require-ments type (defined by the_ element verb class) and the same system, component, and parameter. Enter all available information for this element into the INDIVIDUAL DETAILS table of the AIRS form. Transcribe the AIRS sheet number into the last column of that AIRD form in line with that task.

3) Repeat the previous step until you have searched through all AIRD forms, then set that AIRS-form aside.

4) Obtain a blank AIRS form and number it as the-next sheet in the AIRS stack. Repeat steps 1) through

3) for the next type of task. When all tasks on the AIRD forms have AIRS sheet numbers in the last coltsnn of the table, transcribing the elements onto the AIRS forms is complete.

File all AIRD forms. 6

\\

5) Alternatively, a computer program may be utili-zed to sort the AIRD information and provide a printout of the. resultant AIRS forms.

In this case, the ERG number, step number and informa-tion provided by the Behavioral Elements would be entered into a computer data base. The com-puter would then sort the data entries using the following priorities: 1st Sort Requirements Type 2nd Sort System 3rd Sort Component 4th Sort Parameter The

SUMMARY

OF REQUIREMENTS BLOCK and VERIFICA-TION

SUMMARY

BLOCK will be completed later. 2.2.4.3 Summarize Behavioral Elements - For each AIRS form, the human factors consultant (Originator) should I summarize the behavioral element coltsnn entries for Value/ Range, Units / Rate, Precision, anc Trending Required. Enter these summaries in the appropriate places in the AIRS

SUMMARY

OF REQUIREMENTS BLOCK. Also, complete the Response Time entry with appro-priate system or component response times, e.g. time required for a valve to close. When all AIRS forms have this block completed, this step is complete. There should be no entries for the VERIFICATION SUM-MARY BLOCK on the AIRS form at this time. l 2.2.5 Cross Check for Completeness Upon completion of the AIRS forms, the inventory of parameters to be observed and/or controlled will be compared to the inventory of instrumentation and controls developed by West-inghouse in its SRTA (System Review and Task Analysis) of the basic version of the ERGS. This identified inventory differ-ence will be cross compared at the task level, utilizing the task interchangeability data supplied in the SRTA, to Revision 1 of the ERGS. As a result of this comparison, a supplemental analyses will be performed for (1) each plant parameter not already analyzed, (2) each type of task not already analyzed, and (3) each parameter value not enveloped by values already included in the analyses. These supplemental analyses will be performed utilizing the AIRD form fcr the ERGS not previously analyzed. The results will then be transferred to the AIRS forms. 2.2.6 Verify Results Utilizing plant specific documentation, control room simu-lator, etc., complete the VERIFICATION

SUMMARY

BLOCK on each AIRS form by indicating the existing control room instrument or control identification number for that instrument which 7

4 fulfills the action-information requirements listed. In some cases, more than one instrument may be used to satisfy l a set of requirements (e.g. wide and narrow range pressure indicators). Enter the control boaro panel number to indicate the location for that instrument. Check the " Pass" column -if existing instrumentation fulfills the action-information requirements or the " Fail" column if it does not. In the case of " Fail", a Human Engineering Finding (HEF) should be generated for future review by the DCRDR Review Team. A representative completing the verification should enter his name as the Reviewer, and todays date. The human factors consultant will review the results and enter his name and todays date as the Originator. This is done because it was also the human factors consultant to summarize the behavioral elements (paragraph 2.2.4.3). L 1 J' i i i 8

9 3.0 - INPUT DOCUMENTATION

1). Westinghouse Owners Group Emergency Response Guidelines and Back-ground Documentation, Revision 1.

-2) SNUPPS Abbreviation List.

3) System Piping and Instrument Diagrams.

4) Final Safety Analysis Report.

5) Westinghouse Owners Group System Review and Task Analysis Documentation s

6) Other plant-specific documentation, as appropriate.

s 9

0 Y \\ APPENDIX A. FORMS t 4 A-1

1li !,e, lc te e h S E E T T c AA DD )D R IA ( S f L f; IA R a T O E R T E D A f NW y S E I T GI V S I N RE T E OR N j, M E M E E R L I E U L Q A / E R R O I N VA O H IT E A B M

T R

IN O U F N I N O ITCA .~ S P P U cw N S, K E E R a; C EV F I L T O C W E J S

OB K O NO R

T N

A N PP A GEE M L RTT E P ESS R .g l .1 ll l

if. en_:: ACTION-INFORMATION PEQUIFEMENT5 5UMMAR- (AuS-PLANf: SNUPPS (WOLF CREEK.1 Ch1GINATC.: _ _ _ _ _ _.. _. _ _ _ j. a ' E : __ F E V L F w c~ n _ _... _.... -... - - l REQ 5 TYPE: V ALU E / c. ANGE :. SYSTEM: UNITS: _......... _ ! COMPONEN T :

FF201510a: _ _ _ _ _ _ _ _ _ _ _

! PARAMETER: FE5FON5E I : E : _,. _ _, _ _ _, _,.. _ _ _ _, _, REMARKS: VERIIICAfiON SU-MARi - L lJ L t 1.

• See AIRD LE / ICE 1.0.

No l fan L ; bOMt : r t :S S ; ~ s t.. r i _.__..._I..__.. 1*JOI'.f! DUAL _, DETAILS STATE / UNIT 5/ TREND ERG STEP ACT VEPEd O I F-ECT I ON /ALLE RATE FREC REO

CCMMENT, A-3

s APPENDIX B. VERB LIST B-1

l-t o SYSTEM FLNCTION AfC TASK ANALYSIS APPENDIX B BEHAVIORAL ELEMEfff[ VERB LIST;

• ~

Verb Application "DeNnitlen Observe iEtnfo'! Req. To attend visually ic. lee presence of or the status of an object, indica'tlwifer event. I "" N Read InfoTReq.n To examine visually infornstion.:t alck:is presented symbolically. Monitor Info. Req. -:ifa.:. visually ke'ep track of arit object, .!" Indication, or event over time. s Scan Info. Req. .:IU quidkly examine an information source to !!'obtain~a general impression. DetecE Info. Req. To"be. sware Ef the presence or absence of a visual atimulus. Start .iCont. Req. To manus 51y arNertially initiate a almple or complex function, eventspr activity. Stop Cont / Req. To manually or "ver6allf' terminate a simple or complex function, ev.ent,;ar"setlvity. Open Dont/R,sq. To manually or verballyITnitIdn"a simple or complex function, event, orilSctiviti wh.lch ultimately results in a plant compon,ent"or liplant components (e.g., valve (.i ' breaker, tida.mper, etc.) to assume an open state. Close Cont. Req. To manually or verbally initiate a simple or complex function, event, or activity which m o ultimately:itesults in a plant component or plant" components (e.g., valve, breaker, danger, etc.) te; assume a closed state. Adjust ~ Cont. Req. To manuedy"or vEdbally initiate a simple or complex functionjii"ev.er$ or activity which ultimately losults in!"a'ii'lklant component or plant components,iilig,, sili pl. ant conditior., status, or dynamidjto char @e.W' ate. f B-2

( S a APPENDIX C. SYSTEM ABBREVIATIONS C-1 _ ~

SYSTEn NAnE AB MAIN STEAM SUFF LY SYSTEM. AC MAIN TURB1NE S YS TEM. AD CONDENSATE SYSTEn. AE FEEDWAl'EN SYSTEM. AF FELDWATER HEAIER EXTRACTION,DRAING AND VENTS SYS. AN CONDENSATE DENINENAL12ER SYSTEn. AL AUXILIARY FEEDWATER SYSTEM. AN DEMINtRALIZED WATER STORAGE AND TRANSFER SYSTEM. AP CONDENSATE STORAGE AND TRANSFER SYSTEM. AG CONDENSATE AND F EEDWA TER CHEn1 CAL ADDITION SYSTEM. BB REAC TOR COULAN T SiblEM. BG CHEMICAL AND VULUnE CONTROL SYSTEM. BL REAClUR MANEUP WATER SYSTEM. BM STEAM GENERAIOR BLOWDOWN SYSTCM. BN BURAIED REFUELING WATER STORAGE SYSTEM. CA SIEAM SEAL SYdTEM. CB MAIN TURBINE LUBE DIL SYSTEM. CC OENERAION HYDkubEN AND CARBON DIOXIDC SYCTEM. CD GENENATOR SEAL UIL SYGTEM. CE blATOR COOLING WATER SYSTEM. CF LUBE UIL STORAGC, TRANSFER AND PURIFICATION SYGTCM. CG CONDENSEN AIR REMOVAL SYSTEM. CH MAIN TURDINE CON'IROL OIL SYSTEM. CN DA CIRCULATING WATER SYSTEM. EA SERVICE WATEN SYSTEM. EB CLOSED COOLING WATER SYSTEM. EC FUEL POOL CUOLINu AND CLEAN-UP SYSTEM. EF LbSENilAL SERVICE WATER GYSTEn. EU COMPONENT COULINu WAIER SYSTEn. EJ RESIDUAL HEAL REMOVAL SYblEM. EM HIGH PRESSukE C00LANI INJECTION SYSlEM. EN CONIAINNENT SPRAY SYSTEM. EP ACCUMULATOR SAFETY INJELi10N SYSTEn. FA AUAILIARY blLAN GENLRATUR SYSTEn. FH AUAILIARY SitAn SYblEM. FC AUX 1LlARY IUNBlNES. FE AUX 1LIARY STEAM CHLMICAL ADDITION SYOTLM. FS GA PLANT HEATING SYSTEM. GB CEN1RAL CHILLED WATER SYSTEM. GD ESW PUMP HOUSE BLDG HUAC. GE TURBINE BUILDING HVAC. GF MISCELLANEUUS BLDG HVAC. GG FUEL BUILDINu HVAC. GH RADWASTE BUILDING HVAC SYSTEM. GK CONTROL BUILDING HVAC. GL AuxlLIARY BUILDING HUAC. GM DIESEL GENERATOR BUILDING VENTILATION. GN CONTAINMEN T COOLING. GP CONIAINnENI INIEGRA' ICD LEAN RATE TESTING SYSTEM. GR CONlAINMENT AINUbPHERE CONTRUL SYSTEM. US CUNIAINnLN1 HYDk0 BEN CON 1ROL SYSTEM. G1 CONTAlNMENI PUkOL. HA GASEUUS RADWASTE SYSTEM. HB LIQUID RADWASTE SYSTEM. HC SOLID RADWASTE SYSTEM. HD DECONTAMINATION SYSTEM. HE BOR03 RECYCLE SYSTEM.c n

7-1 HF SECONDARY LIQUID WASTE SYSTEM. JE EMERGENCY FUEL OIL SYSTEM. KA COMPRESSED AIR SYSTEM.- KC FIRE PROTECTION SYSTEM. KD DOMESTIC WATER SYSTCM. KE FUEL STORAGE, FUEL HANDLING & REACTOR SERV.SYGTCM. KF CRANESe HOISTS, AND ELEVAlukS. KH SERVICE GAS SYSTEM. AJ STANDBY DIESEL ENGINE SYSTEM. AS BULN CHEMICAL STORAGE ArJD llANDLING GYGTCM. LA SANITARY DRAINAGE SYSTCM. LB ROOF DRAINS SYS TEM. LD CHEMICAL AND DETERGENT WASTE SYSTEM. LE OILY WASTE GYSTEM. LF FLOUR AND EQUIPMENT DRAINS G(G TCM. nA nAIN GENERA TION 5(UTCM. MB EXCITATION & VOLi AGE RCGULA TION $YGiEri. MR STARTUP TRANSFORMCR SYSTEn. NB LOUER MEDIUM VOLI AGE SYU TCH. NE STANDB( GENERAIUR GYGTEM. NF LUAU SHEDDIN6 AND ENERGLNCY LOAD GEQUENCING. NG LOW UULTAGE (4UuV> GYSTCM. NN 12S-VOLT DU bYb!EN. NN INSIRunENI AC POWER SrSTEM 120 V. PA H]GHER MEDIUn VOLTAGE SYGTCn-13.uhV. PB LOWER MEDIUM VOLIAGL (4.leNV) G Y S TCM. PG LUW VOLTabb SY5 ten. PJ JbOV DC Stdidn. PA 125 V DC bruiEd. PN INSTRunEtJT AC l'OLCR GfGTCM. PG UNIN TERRUP 11BLE AC l'UWER G (GTCr1. UA NORnAL LluHiLNG GTSTCn. US SI ANDU f LiuHi tNG S f G ten. uu ENEkbENCY L16HI1NG SfGTCM. OE TELEPHUNE byGTLN. uF PUPLIC ADDRESG SYGIEM. OG GROUNDING SYSTEM. OJ FREEZE PROIECTION GYGTEM. ON n1SCLLLANEUUU EQUIPnCN T u(GTCM. RD METEUR0 LOGICAL INGT RUMCrJTA T10rJ G r G I Cn. RJ BALANCE OF PLANI CunPUTER GYGitn. RK PL AN T ANNUNCI A TOR SYGICM. RL NAIN CONTROL UuARD SYGTCn. RM PROCESS LIuulO GAnPLING GrGTCn. RP MISCELLANCOUd CONTROL PANCLC. RR SAFETY ASSEbbnEN T GYGTEn AND RADI0 ACTIVITY RELEASE INFORMATION SYSTEM. RT EMERGENCY RESPONSE FACILITY INFORMATION SYSTEM. SA BOP ENGINEERED SAFETY FEA TURCG AC TUATION GYGTEM. SB NSSS LSF ALTUATION AND RCACTOR Tku!CCTION GruTCn. SC REACTOR INblRUMENIAT10N 3rGTEM. SD ARCA RADIAiIUN NUN 11URirlG G(GTCM. SE EX-LURE NEU f kON ntJNiiORING SYGICM. bF REAtlOR CtJrJ i kUL GYG TEM. SG SEISMIC INSlRUNENTA110N SYSTEM. SJ NUCLEAR SAMPLINb & POSI ACCIDEN T GAMl' LING GYGTEM. SK POWER BLOCh SECURITf SYSTEM. SP PROCESS AND EFFLUEN T RADIA TION MONITORING GYGTCM. Su LOOSE PARI'S MONI T ORING SYS TEM. SR IN-CORE NEUTRON MONATORING GYSTEM. u

i APPENDIX 0. EXAMPLE e 7 i D-1

8# i of ACTION INFORTATION hcOUIREMENTS DETAILS (AIRD) Sheet WOLF CREEK.SNUPPS U M T* ORWW2 m PLANT: REVIEWER: DATE: ERG NO: E-1 STEP NO: 1 STEP OBJECTIVE: C hec k d R C ? 's should be Stoeped FINAL GENERIC AND PLANT SPECIFIC RE' LARKS: BEHAVIORAL ELEMENTS f vents Componeng Parameter Direction Comments T d Equipment No. [ [ d 0. Ob sc< ve. BG ,[gS k"'*1 -~~ 9g obsetVc E to SI b g3 b wg N -{ ?EMom,B 6, obs.vve. BB RC5 ?sess 4. 13 ro fu3 2r N O 3 50] 6) C. ST-y gg Rc.? s stogea dj V B%ot A,%,c,b Sh ped bl Ingbcit Ve6(3 observe-2B RCTs t vasoia,s,c,t D . m

i 2A ACTION INFORMATION ncOUIREENTS DETAILS (AIRD) Sheet of WOLF CREEK,SNUPPS UNIT: ORIGINATOR: DATE: PLANT: REVIEWER: DATE: E -f ERG NO: CTEP NO: 2 no f fa / fed i CTEP OBJECTIVE: C/ rec A' if S G s a re, FINAL GENERIC AND PLANT SPECIFIC REMARKS: BEHAVIORAL ELEMENTS { f vents componenu Perometer Direction Comments g T d Equipment No, g g [ dgj d O hse we, AB ss, p c,_53 Dec,e.5, o-leo fSg

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n. u orn. A n uw.: i SHEET 101 of ------ ACTION-INFORMATION REQUIREMENTS

SUMMARY

(AIRS) PLANT: SNUFPS (WOLF CREEK) OPIGIN4 TOR: DATE: REVIEWER: -- - --- - - - - --.. D A T E : -. - - -.. SORT BLOCK

sum 01Er OE -EpjgIREM'dN r5 E. C.s REOS TYPE: Infa VA UE/ RANGE: _ _ f n _3_ G '_ _ _ _

SYSTEM: EB

UNITS: _,_,,,,_,,__1,,,,,_,,,,,,,__

COMPONENT: RCS

FRECISION:, _ _ _ _, _ _ f, f,, _ _ _ _ _ _ _

,' PARAMETER: FRS FEEPOWEE ' IllE : _ _. _ M].R. _ _..,. _ _ _ REMARKS: ~~~~~~~555E5ddfibN3UMMdRE~E~UE ~~ ~ ~~ 1.

• See AIRD DEVICE i

I.D. No

PANEL ! BOM# 'N55'E0I

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.A ,1 y l l I INDIVIDUAL DETAILS STATE / UNITse TFEND ERG STEP ACT Yh"b DIRECTION VALUE sa T E PREC PEO COMMEN75 FR-I.3 6 B 095 1800 FSIG 25 N FR-H.1 18 G OE5 1420 PSIG 25 N FR-H.1 7 A 055 1920 PSIG 25 N E-O 35 MON 250 F 51 L-25 N FR-C.2 2 C 095 250 FSIG 25 N E-1 C9 MO. 250 F5IG 25 N FR-C.3 2 C OB5 259 F5IG 25 N E-O 15 D OE5 250 PSIG 25 N -E-! 12 MON 250 P5IGWR 25 N E-3 17 B OE5 RUP SG FSIGwR N FR-P.1 C3 Ob5 5ETFNT FSIG N E-1 1 B OES L1:503 P515 25 N E-3 1 B 095 C1!5v] CEIG 25 N E-O 21 B 095 L1250] FSIG 25 N + E-O 15 B 085 117003 5-51 E: OS N FR-I.0 e B OE5 E19003 PSIG 25 N 3 E-1 C9 MON L250J FFIG 25 N E-2 12 MON [2503 F5IGWR 25 N FR-C.2 2 C OES L2503 FSIG 25 N FR-C.3 2 C OBS E2503 FSIG 25 N E-O 15 D OB5 C2503 FSIG 25 N FR-H.1 1 A 055 FSIG 25 N + FR-I.1 4 A 095 190 PSIG 25 N E-0 75 A 095 250 PSIO 25 N E-1 9 4 Ob5 209 PSIG 25 N E-1 17 A C55 250 FSIG 25 N E-7 12 A Ob5 250 FSIG 25 N E-1 9 A GBs C2503 PSIG 25 N E-! 12 4 MON C2503 PSIG 25 N E-1 1! A 055 E2503 PSIG 25 N FR-P.1 A OE5 ann '400 FSIG 25 N + E-0 25 A OES EETWEEN 0-3000 PSIG 25 N + FR-I.! 6 A OBS EETWEEN v-2000 PSI 25 N + FR-I.3 9 A OBS BETWEEN 0-3000 PSIG 25 N FR-I.3 18 OBS BETWEEN 0-3000 PSIG 25 N + - D-5

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