ML20029B295
| ML20029B295 | |
| Person / Time | |
|---|---|
| Site: | Waterford  |
| Issue date: | 02/28/1991 |
| From: | Burski R ENTERGY OPERATIONS, INC. |
| To: | NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM) |
| References | |
| RTR-REGGD-01.097, RTR-REGGD-1.097 W3F1-91-0019, W3F1-91-19, NUDOCS 9103070016 | |
| Download: ML20029B295 (65) | |
Text
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. _ _ . Entergy fa m o " a u "c-Operations ,
W3F1910019 A4.05 0A February 28,1991 U.S. Nuclear Regulatory Commission ATrN: Document Control Desk Washington, D.C. 20555
Subject:
Waterford 3 SES Docket No. 50-382 License No. NPF-38 NRC Inspection Report 90-16 Implementation of Regulatory Guide 1.97 Gentlemen:
As stated in the reply to inspection Report 90-16 by letter W3P90-1514 dated October 18,1990, we are hereby providing our report describing the implementation of Regulatory Guide 1.97, Revision 3 at Waterford 3 in Attachment 1.
Attachment 2 of this letter is a comparison of the differences between our July 6,1983 letter which implemented the requirements of Regulatory Guide 1.97, Revision 2 and our present submittal (Attachment 1) for Regulatory Guide 1.97, Revision 3.
The implementation of the recorder upgrades was briefly discussed in letter W3P90-1559 dated December 14, 1990. The recorder upgrades are outlined in Table 3 of Attachment 1 of this letter. These upgrades will occur during Refuel 5. This is due to the need to purchase qualified recorders, and the cabling and instrument installation which would require a refueling outage to coinplete. The anticipated completion for work relating to these recorders is January 2,1993. This change in schedule is approximately a six month extension from the previous completion date of June 1992.
0) 9103070016 910228 \
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i W3F1910019 NRC Inspection Report 9016 Implementation of Regulatory Guide 1.97 February 28, 1991 Page 2 The range of the instrumentation for Estimate of Atmospheric Stability Split Sigma.
Temperature Differential will be changed from 5 to + 5 deg C to 5 to +10 deg C.
This range change will require recalibrating the instrument sensor and plant computer range, this work is expected to be completed by March 30,1991.
If you have any questions concerning this submittal, please contact LW Laughlin at (5(M) 739 6331.
Very truly yours,
( .n
&lNAl&
l.F. Burski Director, Nuclear Safety RFB/BGM/ssf Attachments cc: Messrs. R.D. Martin, NRC Region IV D.L Wigginton, NRC NRR E.L Blake R.B. McGehee NRC Resident Inspectors Office
, W3F191-0019 ,
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ATTACIIMENT 1
RESPONSE
TO REO GUIDE 1.97 REV. 3 1
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ENTERGY OPERATIONS INCORPORATED i WATERFORD SES UNIT NO. 3 RESPONSE TO REGULATORY GUIDE 1.97 REV. 3 J Table of ContentsSection I introduction / Background ,
ll - Regulatory Guide 1.97 Revision 3 Criteria Ill Evaluation Criteria -
IV - Evaluation Method V Type A Variables VI Summary Table 1 Waterford+3. Design and Qualification Guidelines of Regulatory Guide 1.97 Rev.3:
Table 2 Response to Regulatory Guide 1.97 Revision 3 Table 3 Watedord 3 Accident Monitoring Instrumentation (AMI) Upgrades to be completed in RF5.
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- l. . INTRODUCTION / BACKGROUND During a recent NRC audit of the Reg. Guide 1.97 program at W3SES (Inspection Report 50 383/90 16), Entergy Operations, Inc committed to update their Reg.
Guide 1.97 submittal to the NRC. This submittal clarifies several of the items identified during the audit which required further information, as well as enhances the 1983 submittal. This new submittalincludes:
- 1) W3SES components which Entergy Operations, Inc. utilizes to monitor Reg. Guide 1.97 variables,
- 2) W3SES conformance to Reg. Guide 1.97, Rev. 3 instead of Rev. 2, and
- 3) Reg. Guide 1.97 points included on the Safety Parameter Display System (SPDS).
This submittal better reflects the status of the W3SES Reg. Guide 1.97 program and allows for easier incorporation of any future changes. The information provided herein meets the requirements of Supplement 1 to NUREG-0737 (Requirements for Emergency Response Capability), Section 6.
Sections ll through VI of this report discuss the requirements of the guide, the evalue.'& i criteria, and the evaluation methods of this report. Table 1 summarizes the evaluation criteria and Table 2 provides a line by line comparison t,f Waterford.
3 to the requirements of the guide, in most cases, Waterford 3 meets the intent of the guide. Table 3 identifies modifications /enhancemets to be completed in 1991.
Should NRC re evaluation of Regulatory Guide 1.97 variables result in any relaxation of the requirements, Entergy Operations, Inc. may elect to appropriately modify certain aspects of the program ao described herein.
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lI. , REGULATORY GUIDE 1.97. REVISION 3 CRITERIA 1 i
The guide groups Post Accident Monitoring Instrumentation into five functional types (Types A, B, C, D and E), and into three categories of design and i qualification requirements (Categories 1,2, and 3). The category assigned to an ;
instrument of a specific functional type depends on its importance i.e., whether it is the key variable for achieving a specific monitoring function, or is a back up or indication to verify the correctness of the key variable.
l The functional types are defined below: l
. Tvoe A Those variables to be monitored that provide tne primary -
information required to permit the Control Room operator to take specific manually controlled actions for which no automatic control is provided and l that are required for safety systems to accomplish their safety functions for design basis accident events. Primary information is information that is essential for the direct accomplishment of the specified safety functions; it does not include those variables that are associated with contingency 3 actions that may also be identified in written procedures.
. Tyoe B Those variables that provide information to indicate whether plant safety functions are being accomplished. Plant safety functions are (1) reactivity control, (2) core cooling, (3) maintaining reactor coolant system integrity, and (4) maintaining containment integrity (including radioactive effluent control). Variables are listed with designated ranges and categories for design and qualification guidelines. Key variables are indicated by design and qualification Category 1.
. Type Q Those variables that provide information to indicate the potential for breaching or the actual breach of tne barriers to fission product releases.- The barriers are (1) fuel cladding, (2) primary coolant pressure boundary, and (3) containment.
l- - .- Tyoe D - Those variables that provide information to indicate the operation-of individual safety systems and other systems important to safety. These variables are to help the operator make appropriate decisions in using the individual systems important to safety in mitigating the consequences of an accident.
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. Jyce E Those variables to be monitored as required for use in determining the magnitude of the release of r3dioactive materials and continually assessing such releases.
Category 1 provides the most stringent requirements and is intended for key variables. Category 2 provides less stringent requirements and generally applies to instrumentation intended for indicating system operating status. Category 3 is intended to provide requirements that will ensure high quality off the shelf instrumentation is obtained and applies to backup and diagnostic instrumentation.
It is also used where the state of the art will r 9t support requirements for higher qualified instrumentation.
Category 1 requires Class 1E, seismic and environmental qualification and applies to all key variables, All Type A and some Type B, C, D and E variables are Category 1. Category 1 equipment is always safety rebted and requires 1E power supply, channelindependence and direct Indication or recording on at least one channel.
Seismic Category 2 instrumentation requires environmental qualification.
qualification, however, is only imposed if it is part of a safety related system. The power supplies need not be Class 1E but should be from a highly reliable source.
Its display may be via a dedicated instrument or it may be processed for display on demand by CRT or other means. Category 2 generally applies to key Type D and E variables.
Category 3 calls for high quality industrial off the shelf instrumentation and generally applies to backup variables for Types B, C, D and E.
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Ill. EVALUATION CRITERIA in many cases a variable may be listed under more than one functional type heading. For example, Core Exit Temperature is listed under Type B variables as a Category 1, and under Type C as a Category 3 instrument. In other cases, a For variable may be listed more than once under the same type heading.
example, RCS Cold Leg Water Temperature, is listed under Type B as a Category J instrumentation for Reactivity Control Verification and as a key variable with co,' sequent Category 1 requirements for detection of Core Cooling. In the above instar ces, conformance to the regulatory guide is based on the more stringent categorization.
.The specific criteria which were used for the evaluation of Waterford 3 against Regulatory Guide 1.97 Revision 3 are summarized in Table 1 of this report and are discussed further below.
Environmental Qualification n
in reponse to NUREG 0588 (Interim Staff Position on Environmental Qualification 3
Yf Sufety Related Electrical Equipment), LP&L submitted to the NRC in December 1981, a document entitled " Response to NUREG 0588" (Revision 2 to this document was submitted in November 1982). On January 4 thru 6,1983, the Nuclear Regulatory Commision performed an Environmental Oualification Audit.
As a result of this review, the commision requested LP&L to provide additional information to demonstrate qualification per 10CFR50.49. This is documented in Supplement No. 5 to the Safety Evaluation Report. As a result of this request, LP&L provided the commission between August 1983 and September 1984, the needed information to demonstrate qualification, in supplement No. 8 of the Safety Evaluation Report, the commission stated that all open items identified in Supplement 5 have been satisfactorily resolved and imposed two Ucensing conditions to be incorporated prior to issuance of a full power Ucense.
in 1985, prior to the issuance of a full power Ucense, the two Ucensing conditions were incorporated.
Currently the Environmental Qualification Program at Waterford 3 is in compliance with 10CFR50.49 and the Equipment Qualification Master List identifies equipment under this program.
All Regulatory Guide 1.97 Revision 3 Category 1 and Category 2 Post Accident Monitoring instrumentation located in a harsh environment have been evaluated and are qualified within the scope of this program.
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Seismic Qualification i
1 The Waterford 3 basic criteria for seismic qualification of electrical equipment and
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2 instrumentation is contained in FSAR Section 3.10. In general original equipment 3
was qualified with IEEE 3441971, although in some cases, it was qualified to IEEE- ,
344 1975. Instrumentation added as a result of the Regulatory Guide 1.97 Rev 3 ,
! guidelines for Category 1 equipment has been qualified to IEEE 3441975.
a Category 2 equipment that is part of the pressure boundary for safety related systems or performs a safety related function other than its Regulatory Guide 1.97 c Rev 3 function is qualified in a similar manner to that of Category 1 equipment.
From August 31 to September 3,1982, the NRC and their consultant from EG&G
- conducted a Seismic Qualification Review Team (SORT) audit at the Waterford 3 l - site. This- consisted of a ~ comparison of the actual installation of selected
. components versus the installation drawings and the seismic qualification test or
- analysis configuration. A review of the seismic test reports was then conducted.
Formal documentation of this audit was documented in Supplement No. 6 of the Safety Evaluation Report dated June 1984.
Power Sucoly Unless justification is provided,- Regulatory Guide 1.97 Revision 3 instrumentation power supplies are as discussed below:
l -Category 1 instrumentation is powered from one of the following:
- 1) Class 1E 120V Vital AC (Uninterruptable)
- 2) Class 1E 120V AC Emergency . Backed by an Emergency Diesel Generator -
L 3) L Class 1E 125V DC 7
W- w-- c- . m em , ,. . . ,c,.we,- ,-to, ,-q,co...-,,www.s, v r-- ~-- +? r* +-+'a-t+m-r4*r*e+-+ *-*+*r"+e-v== e'ws-tmm- as -w w---M -- + ew< w e gr er == a- s- -+ W e g*
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t Category 2 instrumentation is powered, as a minimum from one of the following highly reliable sources:
- 1) Non safety 120V Vital AC (Uninterruptable)
- 2) Non safety 120V AC in many instances, Category 2 instrumentation is powered from the safety.related sources.
A detailed discussion of these systems can be found in FSAR Section 8.3.
QUALITY ASSURANCE Ouality Assurance requirements in accordance with 10CFR50 Appendix B apply to all safety related components, Safety related components are those listed in the Quality Ust with an IEEE Safety Class 1E designation, ASME Safety Class 1,2 or 3 designation or safety class designation of *SR'.
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4 8 IV. EVALUATION METHOD Table 1 of this repod (Design and Qualification Guidelines of Regulatory Guide 1.97 Revision 3) presents a summary of the qualification criterion imposed on Waterford SES Unit No. 3 Accident Monitoring Instrumentation.
Table 2 (Response to Regulatory Guide 1.97 Revision 3) provides a line by line comparison of Waterford SES Unit No. 3 to the requirements of Table 2 of the guide. Column 1 indicates a sequential serial number for each variable listed in column 2. Columns 2 and 3 list the type category and variable as stipulated in the Guide. Columns 4, 5, and 6 list the loop components, their type and location respectively. Columns 7 through 13 provide actual design and qualification information of the loop components used at Waterford 3 in accordance with Supplement 1 to NUREG 0737. Column 14 provides clarification and/or additional information.
Table 3 lists specific upgrades required to meet the recommendations in R.G.1.97, Revision 3.
A subset of variables listed in Teble 2 of this report and Table 3 of the Reg. Guide 1,97 have been determined to meet the definition of Type A variables. These are discussed in Section V.
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V. TYPE A VARIABLES Regulatory Guide 1.97 Rev. 3 defines Type A variables as follows:
"Those variables to be monitored that provide the primary information required to permit the Control Room operator to take specified manually controlled actions for which no automatic controlis provided and that are required for safety systems to accomplish their safety functions for design basis events. Primary information is information that is essential for the direct accomplishment of the specified safety functions; it does not include those variables that are associated with contingency actions that may also be identified in written procedures.'
Type A instruments are therefore those that an operator must refer to before performing some specified, planned, manual action during his response to a design event.
Definition of Design Basis Event The definition of a design basis event, in the context of Regulatory Gude 1.97 Rev 3, is that used in the ANS 4.5 (StandartJ on Accident Monitoring Instrumentation) which formed the basis for the Regulatory Guide. It defines Design Basis Events
. as:
- 1) Those events postulated in the plant safety analyses, any one of which may occur during the lifetime of a particular plant, excluding those events which are expected to occur during a calendar year for a particular plant.
- 2) Those events that are not expected to occur but are postulated in the plant safety analyses because their consequences would include the potential for the release of significant amounts of radioactive material.
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For Waterford 3, therefore, these events equate to those defined in FSAR Chapter l 15 as infrequent incidents or Limiting Faults. However, since it is specifically called !
out in the Reg. Guide 1.97, the ATWS ovent has also been included. Moderate Frequency incidents (also known as Anticipatec Operational Occurrences), which are expected to occur once per year, such as turbine trip, and loss of offsite !
power, are excluded.
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Type A variables, therefore, were determined by reWewing each Emergency Operating Procedures related to an FSAR Chapter 15 Infrequent incident and Limiting Fault, and the ATWS procedure.
Accordingly, the following Emergency Operating Procedures were reviewed for identifica~ tion of Type A variables:
LOCA Excess Steam Demand Loss of AC Power Loss of Main Feedwater SG Tube Rupture As a result of tnis review the following parameters have been identified as Type A:
- 1) RCS Pressure
- 2) RCS Hot Leg Temperature
- 3) RCS Cold Leg Temperature
- 4) Containment Pressure
- 5) Containment Hydrogen Concentration 11 -
'W man. .A__ a -- - - - - - -
, *~.n.em-2----- 444 '
-- J+44.-+- A-J LA a-_--ae'--4_ + A- 4 E.------u---. - + - -.+ --
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A discussion of each of the above parameters which are also part of Table 2 follows: l i
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.RCS Pressure / RCS Hot Leg Temoerature/ RCS Cold Leg TemoeratuLe These three variables are used as inputs for calculating margin to subcooling, if RCS temperature exceeds the saturation temperature corresponding to RCS pressure, the procedures require that the Reactor Coolant Pumps be stopped manually.
As indicated in Table 2, the instrumentation for RCS Pressure, the RCS Hot L Temperature, and RCS Cold Leg Temperature, meet the requirements Category 1.
Containment Pressure During a LOCA, in the absence of a Recirculation Actuation Signal, the Containment Spray Pumps must be manually stopped to avoid reaching minimal containment design pressure.
As indicated in Table 2, the instrumentation for Containment Pressures meets the requirements of Category 1.
I Containment Hydrocen Concentration l This is the primary variable the operator will use in order to decide when to j manually place the hydrogen recombiners into operation. As indicated in Table 2, l this variable meets Category 1 requirements.
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VI. EUMMARY This report demonstrates that Waterford 3 meets the intent of Regulatory Guide 1.97 Revision 3. A considerable number of design changes have been made since issuance of Regulatory Guide 1.97 and NUREG 0737 to facilitate conformance with the recommenoutions and requirements of these docum6nts.
This report should be considered as a response to the documentation requirements of Supplement 1 to NUREG 0737 (Section 6.2). As shown on Table 2, many of the variables are also available on the Waterford 3 Safety Parameter Display System (SPDS), which has displays in both the Technical Support Center (TSC) and the Emergency Operations Facility (EOF).
TABLE 1 WATERFORD - 3 DESIGN AND QUALIFICATION GUIQELINES QE_ REGULATORY GUIDE 1.97 REV 3 DEITERIO.8 CATEGORY 1 CATEGORY 2 . CATEGORY 3 Environmental Yes Yes No Oualification (NUREG 0588) l Seismic Qualification Yes As appropriate No l (in accordance with the :
Criteria of FSAR Section 3.10) J Single Failure Criterion Yes") No No Phyucal independence Yes As appropriate No (Reg Guide 1.75)
Direct Indicating Yes; on at Nd8) Nd')
or Recording Device least one channel 4
. Energized from Emergency Yes NcP No Diesel Generator OA- 10CFR50. . Applicable No Appendix B- Portions of 10CFR50 Appendix ,
B
- NOTES:
(1) : One channel for each redundant division.
(2) The method of display may be dia!, digital, CRT or strip chart recorder.
Effluent radioactivity monitors, area radiation monitors,= and meteorology monitors are recorded.
(3) Should be highly reliable, not necessarily energized from the Emergency Diesel Generator, The non Class 1E Vital (Uninterruptable) supply is acceptable.
PAGE NO. 1 01/23/91 TABLE 2 Entergy Operations Inc.
Waterford SES tmit me. 3 Resperse to Regulatory Guide 1.97, Revisier: 3 RG197 PtW!ER suid COMP SUPPLY OF SFtr$
SERIAt TTPEf LOOP TYPE LOCATION ENV SEIS GA CLASS. RAmM /UulTS CMAmmE L I/O CIFetaTS NURSER VARIABLE CAT CGr0NENT 81 ENIIRFD0001C2 S RC8 A A A 1E V1TAL 2 m/A 001 NFtfTRON FLUM EstlJ10001C I CP-T E-8 TO 1001 RC IURO102A2 R CP-7 2E-8 TO 10C1 St EmilmTD0003D2 S RCS A A A 1E VTTAL 2 m/A 00 NEUTR04 FLUM EmilJI0001D I CP-7 E-8 70 100%
RC 102010252 R CP-T 2E-8 TO 100%
A 1E VITAL FULL 15 - WOT N/A m/A RINudFJ01 TO 0091, DISP ou 002 CTRL RtB POSI e3 GDIREEDxxxx-1 S RCS m/A A FULL In CF2fCRT,5mrerC DISP PAsEL)
CEDIREfexxxx-2 S RCs S RAS C w/A n/A N1E VITAL 0-5000 Paus 1 m/A REftR 70 uott 1 003 RCS R3 CVCIAT020S SOLUBLE CVCIAE0203 S ras 0-5000 F ,
l boron CVCIA10203 I CP-2 0-5 G 79w ComENTRATION A A A TE VITAL T FOR COLD C26237 le ou esPDS 004 RCS COLD At RC ITE0112CA2 S RCS LEG 14 REtte 70 f astE 3 LEG WJER 51 TEMPERATURE 53 A A A 1E VITAL 1 ram COLD C26332 le on csrDS At RC ITE0112CS2 S RCs 00 RCS COLD REFER TO taste 3 RC ITIO112Cs I tp-8 50-750 DEGF tEG 13 LEG WATER 81 TU FERATURE S3 At RC ITE0t22CA2 S RC8 A A A TE VITAL 1 for COLD C262to le os cs795 00 RCS CULD FEFER 70 taste 3 CP-8 30-750 DEGF LEG 2A LEE WATER 51 RC ITID122CA I TEMPERATURE S3 1 Fan Cato C26333 luo em csp 05 A1 RC ITEC122Ca2 S RC8 A A A 1E VITAL 006 RCS COLD REftR TO T5itE 3 AEG 23 LEG WATER 81 TEMPERATLRE 93 1
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1 PAGE mo. 2
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01/23/91
, TAeLE 2 Enterw operations Inc.
j Weterford SES Unit me. 3 j Response to Regutetory Guide 1.97, Revision 3 i
1 RG19T -
POWER NUMBER SERIAL TYPE / LOOP- CDNP SIFPLT OF SPDS NUMER WARI ASLE CAT CDNPOWERT ' TYPE LOCAf tou EWW SEIS 04 . CLASS. .RenGE/uutTS CnAmmEL t/0 CommeTS i
005 RCS COLD LEG El REFER 70 SERI AL WO 4 MTER TEM j -
006 RCS NOT A1 RC ITE01122 2 S RCB A A A 1E VITAL 1 PER N/A REFE2 TO NOTE 14
- LEG WTER 81 RC ITI6112ns I CP-8 50-750 DEGF n0T LEG TEMPERATURE 1&2 l
4 -
l 006 RCS NOT A1 RC ITE0122nA2 ' S' RCS A A A 1E V1TAL 1 PER m/A tup on eSPDS. REMR To uoTE 1
LEG WTER S1 RC IT10122nA 1 CP-8 50-750 DEGF MOT LEG 14 TEMPERATURE 1&2 de RCS NOT A1 RC ITE0122nA1 S RCS A A A TE VITAL 1 PER C26426 REFER TO NOTE 14 Amp TAgtE 3.
j LEG WTER 31 RC ITR0102nA R CP-2 525-675 DEGF NOT LEG C26331
- TE8FERATURE' 1&2 006 RCS NOT At RC ITE0112N41 S RCS A A A 1E VITAL 1 PER C26238 luD Um CSPDS. REFER To e0TE LEG W TER 91 RC ITR0102nA r. CP-2 525-675 DEGF MOT LEG ' C26331 14 Amo taste 3.
TEMPERATURE 1&2 i
, 00 RCS NOT A1 RC ITE0112WA2 S RCB A A A 1E VITAL 1 PER N/A IND m CSPOS. REFER To a0TE I LEG MTER ' bl #0T LEG 14 TEMPERATURE 1&2 1
006 RCS MOT A1 RC ITE0122ns2 S RCS A A A 1E VITAL 1 PER W/A tap on CSPOS. REFER 70 acte LEG WTER St NOT LEC 14 TEMPERATURE 1&2 i
j 007 RCS PRESSURE A1 RC IPT0102A S RCS A A A 1E VITAL 0-3000 PSIA 6 m/A
{ 31 RC IP10102A I CP-? 0-3000 PSIA l C1 RC IPR 0102A R CP-7 0-3000 PStA I
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PAM NO. . 3.
01/23/91 ~
TAeLE 2' Enterw operations Inc.
Ideterford SES Unit to. 3 j-Response to Segutetory Guide 1.97, Revision 3
,.. RG197 POWE4 delgER SERIAL' TYPE / LOOP. N SUPPLT CJ SPOS IEsqBER WARIASLE CAT COMPONEuf TYPE LOCATION ENW SEIS GA CLASS. RARE / UNITS CpammEi I/o CUseuEwis f 007 ' RCS PRESSURE A1 RC IPT0 02s S RCs .A. A A 1E VITAL 0-3000 PSIA 6 m/A j 51 RC IPIO102B CP-T I'
I 0-3000 PSIA C1 '
4
, 00T RCS PRESSURE .A1 RC IPT0102C S RCS A A A TE vtTAL t
O-3000 Psia 6 m/A f 31 RC IPIO102C I CP-T 0-3000 PStA i
C1 l 007 RCs PRESSURE Al RC IPT0102D $ RCS A A A TE WITAL 0-3000 PSIA 6 m/A ,
l 81 RC IP10102D I CP-T 0-3000 PStA F C1 y
007 RCS PRESSURE A1 RC IPT91204 S RCS A A' A TE VITAA_ 9-4000 PSIG & s/A te on css 95 81 PEFTn To most 2 [
CS 2
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008 RCS PRESSURE 31 eEFEe To SERtAL ST t g .
009 #CS P* ESSURE C1 '
REFER To SERIAL 8f 010 RCS PPESSURE C1 SEFER TO SERIAL ST 4
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PAGE No. 6' ,
.01/23/91 TASLE 2 Entersy Operations Inc.
Weterford SEs *W : 2,. 3 Response to Resutet*,y Guide 1.77, Revision 1 RG197' POWER NUMaff SERIAL TYPE / LOOP CDNP SUPPLY OF SPCs Es4SER VARI ASLE CAT .. COMPONENT .TTPE LOCATION ENV sEIS CA class. RANGE / UNITS CumamEL I/O CGeqEmTS RC titTE0131A - 5 ' RCS RC INTE0141A - S - RCs RC INTE02T1A S RCN RC INTE0221A S RCS RC INTE0231A S~ RCs RC INTE0241A s RCs RC It3ff0111A . 5 RCS :
RC IUTE0121A S RCs RC IUTE0131A 5 RCs RC IUTE0141A s RCs RC IUTE0211A S RCs-RC IUTE0221A s RCs .
RC IUTE0231A S . RCs
.s RC IUTE0241A . RCs 013 COOLANT 51 RC ILR2103s1 R CP-7 A A A 1E VITAL' 0-100% 2 H/A luD Ca osPDS. " A 'ERs LEVEL IR RC ILR210352 R CP 0-100% PROVIDE InoICATION OF LEVEL REACTOR RC INTE01115 s RCS f amt 80Tist OF not IEs 70 Top RC INTE01218 s RCS OF VESY4L.
RC INTE01318 s RCs RC INTE01418 s RCs -
RC INTE02118 s RCs RC INTE02215 s - RCs RC INTE02318 s RCS RC INTE02418 s RCs RC IUTE01113 s RCS RC IUTE0121s s RCS -
RC IUTE0131s S RCS .
RC IUTE01413 S RCs RC IUTE0211s s ~ RCS RC IUTE02215 s' RCs
PAGE MO.- 7
~
01/23/91 TA8LE 2 Entergy Operations Inc.
Waterford SES Unit no. 3 Response to Regulatory Guide 1.97, Revision 3
-RG197 POWER MuseER SERIAL TYPE / LOOP COMP SUPPLY OF SPDS NUPCER VARIABLE CAT CDer0NEht TYPE LOCATION EmV SERS QA CLASS. RANGE / UNITS CnAmuEL I/O CopeqEmTS RC IUTE0231s S RCs RC tuTE02418 5 RCs 01 DEGREE OF 52 RC 1712200A1 1 CP-2 A A A 1E VITAL 200 SC-50Sn DEGF 2 C26506 ImPUTS FROM TEMP SENSORS SUSC00LimG RC ITI2200A2 I CP-8 200 SC-50SN DECF C26413 OF RCS MOT & COLD LEG ARE RC IURO101A1 R CP-7 200 SC-800SN DEGF C26508 ALSO USED IN CALCULATIING RC IUR0101A2 R CP-T 200 SC-800$N DEGF C26L15 DEG. OF SubC00LimC. IIe 04 RC ITE0112MA2 .$ RCs cSPDS RC IPT0106A $ RCs 0-3000 PSIA 01 E!! GREE OF 82 RC ITI2200s1 1 CP-2 A A A 1E VITAL 200 SC-50$N DEGF 2 m/A ImPUTS FROM TEMP SENSORS SusC00 Ling RC ITI220082 I CP-8 200 SC-SOSM DEGF OF RCS NOT & COLD LEG ARE RC tut 010181 R CP-7 200 SC-800$n DEGF ALSO USED In CALCULATING RC IURO10152 R CP-7 200 SC-800$n DEGF DEG. OF SUSC00 LING. I40 ON RC ITC0122WB2 S RCS OSPOS RC IPT01068 $ RCS 0-3000 PSIA 015 ECS PRESSURE S1 REFER TO SERIAL #7.'
01 CONTAIMMENT B1 SI ILT7145A 5 RCS A A A 1E v!TAL 0-16 FTW - 2 m/A IIO ON OSPDS SLMP LEVEL - C1 SI ILIT145A- 1 CP-8 0-16 FTW WIDE RANGE 01b CONTAlWMENT' B1 $1 ILT71458 S RCS A_ A A 1E WITAL 0-16 FTW 2 W/A SUMP LEVEL C1 SI ILR71458 R CP-8 0-16 FTW >
WIDE RANGE 01 CONTAINMENT B2 SP ILT6705A .S RCB A A A 1E vtTAL 0-30 FTW 2 C26235 Inc Om OSPDS SUMP LEVEL C2 SP ILI6705A I CP-8 0-30 FTW M*RROW RANGE f
"PAGE NO. 8 01/23/91 .
TA8tE 2 Entergy Operations Inc. , i Idaterford SES Unit No. 3 Response to Regulatory Guide 1.97, Revision 3 RG197 POWER NUMBER SERIAL TYPE / LOOP COMP -SUPPLY OF SPOS NurTR VARIAGLE ' CAT ~ COMP 0 MENT TTPE LOCATION ENV SEIS QA CLASS. RANGE / UNITS CMAmuEt -I/O .CapetENTS.
016 CONTAIMMENT 82 SP ILT67055 -S RCS A
.A A 1E VITAL 0-30 TTu 2 t/A SUMP LEVEL C2 SP ILR67058 R CP-8 0-30 FTW MARROW RANGE 017 CNTMNT SUMP C1 WATER LEVEL C2 REFER 70 SERIAL 816 018 CONTAIMMENT A1 ESTIPT67504 S RCS A A A 1E VITAL 0-70 PSIA 2 N/A PRESSURE 51 CONTAIMeENT DESIGN ESFtPI6750A I CP-8 0-70 PSIA C1 PRESSURE IS 4 PSIC.
018 CouTAtuMENT A1 -ESFIP16750B $ RCS A .A A 1E VITAL .0-70 PSIA 2 h/A CINITAluMEuf DESIGN PRESSURE S1 ESFIPR6750s a CP-8 0-70 PSIA PRESSURE IS 4 PSIC.
C1 019 CMTMT PRESS. B1 '
REFER TO SENIAL #18 020 CNTMNT PRESS C1 REFER TO SERIAL 818' 021 CNTMNT ISOL 31 MS 1250120A S RS- 3 A A 1E EMEPG. CLOSED WOT CLOSED 1/htLVE D55002 MS PvaAA12cA Mate STL m VLV POSITION MOT AVAILASLE I CP-8 CLOSED NOT CLOSED DaAlm. NOTE 3 a .
021 CNTMuf ISOL s1 MS IZS0119A S ' R8 3. A A 1E EMEtc. C10$ED WOT CLOSED 1/ VALVE 055003 #5 MAAA119A seAtu STEM VLV POSITION NCY AVAILASLE I 'CP-8 CLOSED N01 CLOSED DRAlu. WOTE 3 021 CMTMNT ISOL 31 ' MS 12501208 $ ' RS 3 A A 1E EMERG. CLOSED WOT CLOSED 1/vuvE 055007 MS mvaAA120s fute STEM VLV POSITION NOT AVAILABLE
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PACE NO. 13 ,
01/23/91 TABLE 2 Entergy Operations Inc.
i Waterford SES Unit No. 3 Response to Regulatory Guide 1.97, Revision 3 l
l Rfi19T POWER wJMBER SERIAL TYPE / LOOP cmp SUPPLY OF SPDS NL W R VAR!ASLE CAT C M PONENT TTPE toCATION ENV SEIS QA CLASS. RANGE /UNITb CHANNEL I/O COMMENTS
$ R8 A A A 1E EMERG. CLOSED NOT CLOSED 1/ VALVE N/A HRAISV01100, NRAISV01099 AND 021 CNTHNT ISOL 81 NRAISv01108 5 RC8 CLOSED NOT CLOSED MRAISV01268 NTDROMN ANALYZER VLV POSITION HRAISV01098 NRAlsv01268 5 RB CLOSED NOT CLOSED kOTE 7 NOT AVAILASLE I CP-33 CLOSED NOT CLOSED RC8 A A A 1E EMERG. CLOSED NOT CLOSED 1/ VALVE D51005 CAPMvAAA103 CasTAINMENT PURGE 02 CNTMNT ISOL 81 CAPIZS0103/2 S NOT AVAILABLE I CP-18 CLOSED NOT CLOSED INLET. NOTE 4 VLV POSITIEse RC8 A A A 1E EMERG. CLOSED NOT C100,1D 1/ VALVE D51007 CAPMVAAA104 CONTAINMENT PURGE 021 CNTMNT ISOL 81 CAPIZS0104/2 S NOT AVAILABLE I CP-18 CLOSED NOT CLOSED INLET. NOTE 4 VLV POSITION CAPIZS0102/2 5 RCS A A A 1E EMERG. CLOSED NOT CLOSED A/ VALVE 051003 CAPMVAAA0102 CONTAINMENT 02 CNTMNT ISOL 81 I CP-18 CLOSED NOT CLOSED PURGE INLET. NOTE 4 VLV POSITION NOT AVAILASLE R8 A A A 1E EMERG. CLOSED NOT CLOSED 1/ VALVE D44501 St MVAAA602A 51 f ROM SIS SUMP 02h CNTMNT ISOL 81 St IZS0602A S CLOSED NOT CLOSED NOTE 3 VLV POSITION NOT AVAILABLE I CP-8 5 R8 A A A 1E EMERG. CLOSED NOT CLOSED 1/ VALVE 044503 St MvAAA6028 SI fROM SIS SUMP 02 CNTMNT ISOL 81 SI IZS06028 CLOSED NOT CLOSED NOTE 3 VLV POSITION NOT AVAILABLE I CP-8 8 A A 1E EMERG. CLOSED WOT CLOSED 2/ VALVE N/A MS MVAAA124A MAIN STEAM.
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_ T L 0 L 4 L 1 L 1 L 8 L 8 8 L 8 l L 2 3 N I 2 I 6 I 7 I 7 I 1 I 1 1 I 1 l I 0 8 E A 0 A 0 A 0 A 0 A 0 A 0 0 A 0 A A P C W V S V 5 V 5 V 5 V 5 V 5 5 V 5 V V / I O A Z A 2 A Z A 2 A 2 A 2 2 A 2 A A E H P P ! 1 1 1 1 1 1 1 I l L M OO T
O P T A O CO T
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CO T
WO T
W WO T
WO O T T W W F F
_ L C N C N CW C N C N F N F F N F N W E E
_ 7 i
_ 9 E 1 P T G Y A 1 1 1 1 1 1 1 1 1 R T C 8 8 8 8 8 8 8 8 8
- N N N N N N N N N N O L 0 L O L O L O L O L O L O L O L O I
T O 1 O I O I OI O I O I O I OI O I S Y S T S T S T S T S T S T S T S T E I I I I I I I I I I I I I I I I I I I 5 L S S S S S S S S S S
_ 1 B O T O T O T O T O T O T O T O T O T O A P N P N P N P N P N D N P N P N P N P I M M M M M M M M M R V T V T V T v T V T V Y V T V T V T V A L N L N L N t N L N L N L N L N L N L
. 1 V V C V C V C v C V C V C V C V C V C V O9 N / L R 3 A E E 2 I B C / RM . 1 . 1 .1 1 1 . 1 1 - 1 . 1 .
A1 E U 2 2 2 2 2 2 2 2 2 P 0 S N 0 0 0 0 0 0 0 0 0
PAGE No. 16
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01/23/91 TABLE 2 Entergy Operations true.
Waterford SES Unit so. 3 Response to Regulatory Guide 1.97, Revision 3 RC197 POWER NUMBER SERIAL TYPE / LOOP COMP SUPPLY OF SPDS NUMSER VARIABLE CAT COMPONENT TYPE LOCATION ENV SE!! QA CLASS. RANGE / UNITS CHAmuEL I/O CO MENT 5 t
021 CNTMNT ISOL 81 EFWlE/P0223A S Rs B A A 1E VITAL 0-100% 1/ VALVE N/A ErnmVAAA223A EMERENCY !
VLV PCSITION EFWINIC8331A1 I 'CP-8 0-100% FEEDWATIR. NOTE 4 021 CNTMNT ISOL 81 EFWIE/P0224e S Re B A A 1E VITAL 0-100% 1/ VALVE N/A EFnMVAAA2245 EIERGENCY VLV POSITION EFWINICS331A2 I CP-8 0-100% FEEDWATO. NOTE 4 021 CNTMNT ISOL 81 EFW1E/P0223s . 5 RS B A A 1E VITAL 0-100% 1/ VALVE N/A EFnmVAA42238 EMERGENCY VLV POSITION EFWINIC833182 I CP-8 0-100% FEEDWATER. NOTE 4 022 CORE EXIT C1 REFER TO SERIAL 8011-TEMPERATURE 023 RADIOACTIVITY C1 SEE SER!AL 888. Mou!TORED VIA CONCENTRATION GRA8 SM*L FROM PASS. REFER TO F$AR SUBSECTION 9.3.8 ,
. t 024 AMA OF PRIM. C3 SEE SERIAL s98. MONITORED VIA !
COOLANT GRAS SMPL FROM PASS. REFER TO FSAR SUBSECTION 9.3.8 025 RCS PRESSURE C1 REFER TO SERIAL 9007 026 CNTMNT PRESS. C1 REFER TO SERIAL s018 027 CNTMNT Star C1 REFER 70 SERIAL 8016 WATER LEVEL 025 CNTMNT AREA C3 REFER TO SERI AL s070 RADIATION j -
029 RCS PRESSURE C1 REFER TO SERIAL w007
PACE NO. 1F 01/23/91
- TABLE 2 Entergy Operations Irc.
Waterford SES Unit No. 3 Response to Regulatory Guide 1.97, Revision 3 RG197 ' POWER NUM8ER SERIAL TYPE / LOOP COMP SUPPLY OF SPDS NUMBER VARIABLE CAT COMPONENT TYPE LOCATION ENV SEIS QA CLASS. RANGE / UNITS CHANesEL I/O COMMEbfS 030 EFFLUENT C3 tEFER TO SERIAL #75. seostE RADI0 ACTIVITY 3As EFFLUENT FROM COND AIR SEMOWA1 SYSTEM ExwAUST 03 CONTAINMENT Al NRAMANN0001A S RAS A A A 1E VITAL 2 N/A IhST. IS SELF COMPENSATED FOR NYDROGEN C1 NRAIAR$001A R CP-33 0-10% A PRESSURE RANGE OF - 5 PSIG CONCENTRATI0tf TO C04TAlteqENT DESIGN PREstJRE 031 CONTAINMENT A1 HRAMANN00018 S RAS A A A le VITAL 2 C26339 INST. IS SELF COMPENSATED FOR NTDROGEN C1 NRAIAR80018 R CP-33 0-10% A PRES $URE RANGE OF -5 PSIG CONCENTRATION TO CCNTAINMENT DESIGN PRES 5URE 032 CONTAINMENT C1 ESFIPT6755A S R9 A A A 1E VITAL (-)S-195 PSIG 2 A42206 CONT DESIGN PRESSURE IS.
PRESSURE ESFIPR6755A R CP-8 (-35-195 PSIG 44 Pf!G.
032 CONTAIINoENT C1 ESFIPT67558 $ R8 A A A 1E VITAL (-)S-195 PSsG 2 A42209 CONT DESIGN PRESSURE IS PRESSURE ESFIPR67558 R CP E (-)$-195 PSIG 44 PSIG.
033 CNTMNT EFFL. C2 REFER TO SERI AL 8076 RADIOACTIV11Y 035 EFFLUENT C2 REFER TO SERI*18076 RADIDACITVITY 036 SDCS COOLING D2 CC IFT5570A- S ras A A 4 VITAL 0-408 INW .2 N/A C00 LING WATER DESIGN FLOW 15 WATER FLOW CC IFE5570A S RAS 0-7000 GPM 0-3000 GPM. REFER TO SERIAL CC IFI5570A I CP-8 O-7000 GPM #42 FOR SYSTEM FLOW
PACE NO. 18 .,
01/23/91 TA8LE 2 :
Entergy t>.trations Inc. s Waterford SES Unit No. 3 Response to Regulatcry Guide 1.9T, Revision 3 RG197 POWER WJMSER SERIAL TYPE / LOOP CDNP SUPPLY OF SPDS NUNBER VARIABLE CAT' COMPOWENT TYPE LOCATION ENV SEIS QA CLASS. RANGE / UNITS CNANNEL I9 C0petENTS 03 SDCS COOLING D2 CC !FT55708 S RAS A A A 1E VITAL .0-408 INW 2 N/A COOLING WATER DESIGN FLOW IS WATER FLOW CC JiFE55708 5 RAB 0-7000 GPM 0-3000 GPn.
CC IFt55708 I CP-8 0-7000 CPW 037 SDCS NX D2 CS ITLO303x S RA8 A A A .1E VITAL 2 N/A OUTLET CS ITR0303X R CP-8 ' 0-400 DEGF TEMPERATURE CS ITIO303X ! CP-8 0-400 DEGF 037 SDCS MX D2 CS ITE0303Y S. RAS A A A 1E V11AL 2 N/A' OUTLET CS IT10303Y I CP-8 0-400 DEGF TElqPERATURE C38 SAFETY D2 St ILT0311 S RCS A A A NIE VITAL 121.9-2131.2 CU F 1/TAINC N/A INJECTION St ILIO 311 1 CP-8 0-1001 TANIC-LEVEL 5-95% VOL.
03 SAFETY D2 St ILT0321. S RCS A A A NIE VITAL 121.9-2131.2 OJ F 1/TANIC N/A INJEITION SI IL10321 I CP-8 0-1001 TANK-LEVEL 5-95% VOL.
038 SAFETY D2 St ILT0331 S RCS A' A A N1E VITAL 121.9-2131.2 CU F 1/ TAM N/A INJECTION $1 IL10331 I CP-8 0-100%
TANIC-LEVEL 5-95% VOL.
038 SAFETY D2 51 ILT0341 S RCS A 'A A NIE vtTAL 121.9-2131.2 03 F 1/TANC N/A INJECTION SI ILIO 341 1 CP-8 0-100%
TAINC-LEVEL 5-95% VOL.
038 SAFETY D2 St IP10311 : RC8 . A A A N1E VITAL 0-700 PSIG 1/TANC N/A REFER TO NOTE 8 INJECTION St IPIO311 I CP-8 0-700 PSIG
_ _ .~ _
PAGE NO. 19 01/23/91 TABLE 2 Entergy Operations Inc.
Waterford SES Unit No. 3 Response to Regulatory Guide 1.97, Revision 3 POWER NUMBER Rc197 SUPDLY CF SPDS SERIAL TYPE / LO(P CDtP RANGE / UNITS CMANNEL I/O CO9(NTS QIMBER VAR?t*LE CAT CNPmENT TYPE LOCATION ENV SEIS QA CLASS.
l TANK PRESS.
N/A REFER TO NOTE 8 03 SAFETY D2 St IPT0321 S RC5 A A A NIE VITAL 0-700 PSIC 1/ TANK St IP10321 I CP-8 0-700 PSIC l INJECTION TANK PRESS.
1/ TANK N/A REFER TO NOTE 8 D2 St IPT0331 S RC8 A A A N1E WITAL 0-700 PSIG 038 SAFETY St IPIO331 I CP-8 0-700 PSIG INJECTION TANK PRESS.
N/A REFER TO N0ff 8 D2 St IPT0341 $ RC8 A A A NIE v11AL D-700 PSIG 1/ TANK 038 SAFETY St IPIO341 I CP-8 0-700 PSIG INJECTION TANK PRESS.
1/ VALVE N/A FOR VALVE SI 8tWAAA331A D2 SI 17.J331A S RC8 A A A 1E EMERG. OPEN-CLOSED 039 SAFETY INJ.
I CP-8 08'EN-CLOSED TANK 13OL. NOT AVAILABLE VLV POSI.
1/ VALVE N/A FOR WALVE St MVAAA3378 D2 SI 1250331B $ RC8 A A A 1E EMERG. OPEN-CLOSED 039 SAFETY INJ.
I CP-8 OPEN-CLOSED TANK ISOL. NOT AVAILABLE VLV POSI.
1E EMERG, OPEN-CLOSED 1/ VALVE N/A FOR VAIVE St MVAAA332A SI IZS0332A 5 RCS A A A 039 SAFETY INJ. D2 I CP-8 OPEN-CLOSED TANK iSOL. NOT AVAILABLE VLV POSI.
1/ VALVE N/A FOR VALVE St MVAAA3328 5 RCS A A A 1E EMERG. OPEN-CLOSED 039 SAFETY INJ. 02 St 12503329 I CP-8 OPEN-CLOSED TANK ISOL. NOT AVAILABLE VIV POSI.
. REFER TO SERIAL #061 01.0 boric ACID D2 l9
PAGE NO. 20 01/23/91 TABLE 2 Entergy operations Inc.
Waterford SES Unit No. 3 Respnnse to Regulatory Guide 1.97, Revision 3
".RG197 POWER Nt.MBE R SERIAL TYPE / LOOP COMP SUPPLY OF SPDS Ntm8ER VARIASLE CAT CON ONENT TYPE LOCATION ENV SEIS DA CLASS. RANE / UNITS CHAmasEL 1/0 CGe4ENTS CHARGING FL0hl DESIGN FLOW 15 132 GPM.
041 FLOW IN HPSI' D2 St IFE0311 S RAS A A A N1E VITAL 0-500 GPM 1/ LEG D43400 DESIGN FLOW IS 380 GPM SYSTEM TO St IFT0311 5 RA8 0-500 GPM D43600 COLD LEG St IFIO311 I CP-8 0-500 GPM LOOP 1A 041 FLOW IN MPSI O2 St IFE0321 S RA8 A A~ A N1E 1 RIYAL 0-500 GPM 1/ LEG 043500' DESIGN FLOW IS 380 GPM SYSTEM TO St 17T0321 S RAB G-500 GPM i CDLD LEG St IFID321 T- CP-8 0-500 GPM LOOP 15
[
041 FLOW tw 02 St IFE0331 S RAa A A A W1E VITAL 0-500 GPM 1/ LEG N/A DESIGN FLOW IS 380 GPM i MPSI SYSTEM SI IFT0331 S RAS 0-500 GPM TO COLD LEG St IFIO331 I- CP-E 0-500 GPM 041 FLOW IN D2 SI IFE0341 S RAN A A A NIE VITAL 0-500 GPM 1/ LEG N/A 1 0 1GN 6 LOW IS 380 GPM HPSI SYSTEM SI IFT0341- S RAll 0-500 GPM TO COLD LEG St IF10341 1 CP-C 0-500 GPM 041 FLOW IN C2. SI IFE0390A S RAS A A A N1E VITAL 0-500 GPM 1/ LEG m/A CESIGm a LOW IS 190 GPM HPSI SYSTEM St IFT0390A % ras 0-500 GPM TO NOT LEG SI IFIO390A I CP-S 0-500 GPM PUMP A 041 FLOW IN C2 St IFE03908 s RAS A A A N1E VITAL 0-500 GPM 1/ LEG N/A DESIGN FLN IS 190 GPM HPSI SYSTEM St IFT03908 5 RAS 0-500 GPM -
TO MOT LEG St IFIO3908 I CP-8 0-500 GPM I
PAGE NO. /21
- 01/23/91 TAGLE 2 -
Entergy Wetions Inc.
Waterford SES Unit No. 3 Response to Regulatory Guide 1.97, Revision 3 RG197' POWER NUMBER SERIAL TTPE/ LOOP . COMP SUPPLY OF SPDS I NUMBER VARIABLE CAT COMPONENT TYPE LOCATION ENV SEIS GA CLASS. RANGE / UNITS CNANNEL I/O C0INEENTS 4
042 FLOW IN 02 St IFE1307A 5 RAS A A A 1E VITAL. 0-5500 CPM 1/tEC S43101 DESIGN FLOW IS 4050 GPM.
LPSI SYSTEM St IFT13074 S ras 0-5500 GPM SI IFI1307A1 Is CP-8 0-5500 GPM ... .
042 FLOW IN D2 SI IFE1306s S- ras A A A 1E WITAL' 0-5500 GPM 1/ LEG- S43201 DESIGN FLOW IS 4050 GPM.
LPSI STSTEM SI IFT1306s1 .$ RAe 0-5500 GPM ,
SI IFI130681 I CP-8 0-5500 GPM 043 f(EFUELING D2 $1 ILT0305A $ RAS A A A 1E VITAL 0-21 FT. 4 N/A MAX. NEIGNT OF P0UL UP TO TOP WATER STORAGE SI ILIO 305A I CP-7 0-1001 CF LINER IS 20.92 Ft. t POOL LEVEL 043 REftELING D2 SI ILT0305s S ras A A A 1E VITAL 0-21 FT. 4 N/A MAX. NEIGNT OF POOL tr TO TOP WATER STORAGE SI ILID3058 i CP-7 0-1001 0F LINFR IS 20.92 Ft.
POOL LEVEL
[
043 REFLfLING D2 SI ILT0305C .S RAS A A A 1E VITAL 0-21 FT. 4 N/A net. NEIGN1 0F POOL UP TO TOP
POOL LEVEL !
043 REFUELING D2 SI ILT03050 S RAS A A A TE VITAL 0-21 FT. 4 N/A MAX. NEIGNT OF POOL UP TO TOP WATER STORAGE St ILIO 3050 I CP-7 0-1001 0F LimER IS 20.92 ft.
POOL LEVEL 044 RCP STATUS D3 RC EM1A-TC I CP-2 C N/A A N1E 0-12004 1 PER PUMP N/A RCP 1A RC ECT1A-7-1A - S TG8
____m_.- _ _ _ _ _
< c-PAGE NO. 22
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01/23/91-TABLE 2
'Entergy operations Inc.
Waterford SES unit No. 3 Response to Regulatory Guide 197, Rwision 3 RC197 . POWR NUMBE R SERIAL TYPE / LOOP CMP - SUPPLY OF SPDS NUMBER WARIABLE -CAT COMPONENT TTPE LOCATION ENV SEIS QA CLASS. RANGE / UNITS CNANNEL I/O COMMENTS RC ECT1A-7-18 S TG8 RC ECT1A-7-1C S TG8 04 RCP STATUS D3 RC EN18-TC I. CP-2 C N/A A NIE 0-1200A -1 PER PUMP N/A RCP 18 RC ECT18-7-1A S TG8.
RC ECT18-7-18 S TG5 RC ECT18-7-1C S TGa 044 RCP STATUS D3 RC ENIA-8C I CP-2 C W/A A W1E 0-1200A 1 PER POMP N/A RCP 2A RC ECTIA-8-1A S TGs RC ECT1A-8-18 S TGS RC ECT1A-8-1C $ TG8 04 RCP $TATUS D3 RC EN18-8C I CP-2 C M/A A NIE 0-1200A 1 PER PUMP N/A RCP 28 RC ECT!B-1A S TG8 L RC ECT18-19 ,S TG8 RC ECT15-1C S TGs 045 PRESS SAFETY D2 VLPIZE031TA1 S RCS A A 3 N1E VITAL CLOSED NOT CLOSED 2/ VALVE N/A I@ ON OSPDS VLV POSITION VLPIZT031TA1 S RAS CLOSED NOT CLOSED NOT AVAILASLE 'I CP-2 CLOSED NOT CLOSED 045 PRESS SAFETY D2 VtPIZE031TA2 S RCS A N/A 8 W1E VITAL CLOSED NOT CLOSED 2/ VALVE N/A l e ON PLANT COMPUTER VLV POSITION VLPIZT031TA2 S RAS CLOSED NOT CLOSED fPT ID A12207) 04 PRESS SAFETY D2 VLPIZE031781 'S RCs A A 8 N1E VITAL CLOSED NOT CLOSED 2/ VALVE N/A I W ON QSPDS VLV POSITION VLPIZT031791 S RAS CLOSED NOT CLOSED >
NOT AVAILASLE ~I CP-2 CLOSED NOT CLOSED 045 PRESS SAFETY D2 VLPlZE031TB2 S RCS A N/A '8 NIE VITAL CLOSED NOT CLOSED 2/ VALVE N/A I W ON PLANT CM PUTER VLV POSITION VLP!ZT031782 S RAB CLOSED NOT CLOSED (PT 10 A12206)
PACE No. - 23
'01/23/91 TA8tE 2 Entergy Operations Inc.
Waterford SES Unit No. 3
' Response to Regulatory Guide 1.97, Revision 3
.RC197 POWER NuneER SERIAL TYPE / LOOP COMP SUPPLY OF SPDS-MUMBER VARIABLE CAT COMPONENT TYr*E LOCATION ENV SEIS QA CLASS. RANCE/ UNITS CNANNEL I/O COMMENTS 046 PRESSURIZER D1 RC ILT0110X $ RCS A A A 1E VITAL- 28.8-10959.9 G 2 A12200 REFER TO TABLE 3.
LEVEL RC ILIO 110X I CP-2 0-1001 A12201 046 PRESSURIZER D1~ RC ILT0110Y S . RCS A A' A 1E VITAL 28.8-10959.9 G 2 A12202 REFER TO TABLE 3.
LEVEL RC ILIO 110Y I CP-2 0-1001 047 PRESSURIZER D2 RC EM0100-3A I CP-2 C N/A A NIE 0-300A 1 PER N/A DROPORTIONAL RC ECT32A-5C-A S RAS NEATER NEATER STATUS- RC ECT32A-5C-8 5 RAS RC ECT32A-5C-C S~ RAS 047 PRESSURIZER D2 RC EM0100-38 I CP-2 C N/A A NIE 0-300A 1 PER N/A PROPORTI(kAL RC ECT328-5C-A 5 RAS NEATER NEATER STATUS RC ECT328-5C-5 S ras .
RC ECT328-5C-C 'S. ras
~
t 048 QUENCN TANK 03 RC ILTC116 5 RCs N/A N/A N/A N1E VITAL 83.7-2367.3 G 1 N/A LEVEL RC ILIO 116 ' I CP-2 0-1001 049 QUENCH TANK D3 RC ITE0116 5 RCs N/A N/A N/A NIE VITAL 1 N/A I TEMPERATURE RC ITIO116 I CP-2 50-750 DEGF 050~ QUENCN TAMK D3 RC IPT0116 5 as N/A N/A N/A N1E VITAL 0-150 PSIG 1 N/A DESICN PRESSURE IS -
PRESSURE RC IPIO116 I CP-2 0-150 PSIG 130 PSIC.
051 STEAM CEN. 01 SC ILT1113A 5 #CS A A- A 1E VITAL 38.12-159.84 I W 4/SG m/A LEVEL MARROW SG ILI1113A I 'CP-8 0-1001 AANCE SC ILR1113A R CP-8 0-100%
051 STM CEN LEVEL 01 SG ILT1113a S RCs A A A 1E v!TAL 38.12-159.84 I w 4/SG N/A
PAM NO. 24 01/23/91 TAetE 2 Entergy Operations Inc.
Waterford SES unit No. 3 l
Response to Regulatory Guide 1.97, Revision 3 I
RG197 POWER NUMBER C04P SUPPLY OF SPDS SERIAL TYPE / LOOP CJMBER VARIABLE CAT COMPONENT TYPE LOCATION ENV SEIS QA CLASS. RANGE / UNITS CHANNEL I/O COMENTS NARROW RANGE SG ILi11138 I CP-8 0-100%
STM GEN LEVEL DI SG ILT1113C S RC8 A A A 1E VITAL 38.12-159.84 INW 4/SG N/A 05 NARROW RANGE SG ILI1113C I CP-8 0-100%
SG ILT11130 $ RCS A A A 1E VITAL 38.12-159.84 INW 4/SG N/A 05 STM CEN LEVEL D1 NARROW RNAGE SG Ill11130 I CP-8 0-100%
SG ILT11234 S RC8 A A A 1E VITAt 38.12-139.84 INW 4/SG N/A 051 STM GEN LEVEL 01 kARROW RANGE *G ILI1123A I CP-8 0-100%
SG ILT11238 S RC8 A A A 1E VITAL 38.12-159.84 INW 4/SG N/A 05 STM GEN LEVEL D1 kARROW RANCE SG ILI11238 I CP-8 0-100%
A A A 1E VITAL 38.12-159.84 INW 4/SG N, A 051 STM CEN LEVEL 01 SC ILT1123C S RCS kARROW RANGE SG Ill1123C I CP-8 0-100%
RC8 A A A TE VITAL 38.12-159.84 IWW 4/SG N/A 05 STM GEN LEVEL 01 SG ILT11230 S NARROW RANGE SG Ill11230 i LP-8 0-100%
RC8 A A A 1E VITAL 0-40 FT 2/SG N/A REFER TO NOTE 9 AND TABLE 3.
05 SYM CEN LEVEL D1 SG ILT1115A S WIDE RANGE SG ILI1115A2 I CP-8 0-100%
RCS A A A 1E VITAL 0-40 FT 2/SG N/A REFER TO NOTE 9 AND taste 3.
05h STM CEN LEVEL D1 SG ILT11158 S WIDE RANGE SG ILI1115B2 I CP-8 0-100%
RCS A A A 1E VITAL 0-40 FT 2/SG N/A REFER TO NOTE 9 AND taste 3.
05 STM CEN LEVEL 01 SG ILT1125A S WIDE RANGE SG IL11125A2 I CP-8 0-100%
RCS A A A 1E WITAL 0-40 FT 2/SG N/A RffER TO NOTE 9 AND T88tE 3.
05 STM GEN LEVEL D1 SG ILT11258 S t
i
- ' PAGE No.' 25 01/23/91 taste 2 Entergy Operations Inc.
Waterford SES thit No. 3 Response to Regulatory Guide 1.97, Revision 3 RG197 POWER NUMBER SERIAL TYPE / LOOP CDP ' SUPPLY OF SPDS NUMBER YtJ2t AstE CAT CupFONENT TYPE LOCATION ENV SEIS QA ~ CLASS. RANGE /uMITS CNANNEL I/O ComENTS WIDE RANGE SG ILI112582 I CP-8 0-60 FT 052 STEA4 GEN. 02 MS IPT0301A 5 RS A A A N1E VITAL 0-1300 PSIG 1/SG M/A PRESSURE MS IPR 0301A R CP-1 0-1300 PSIG 052 STEAM GEN. 02' MS IPT03018 $ Rs - A A A NIE VITAL 0-1300 PSIG 1/SG N/A PRESSURE MS IPR 03018 R CP-1 0-1300 PSIG 1 .
053 MAIN STEAM D2 MS IFE0300A S RCS A A A NIE VITAL 0-8 MPPM 1/SG N/A FLOW IND. MS IFT0300A S RCS 0-656.13 INW MS IFIO3004 I CP-1 ' 0-8 #FPN 053 MAIN STEAM D2 MS IFE03008 S RCS- A A A NIE WITAL 0-8 MPPN 1/SG N/A FLOW IND. MS IFT0300s S RCS 0-656.13 INW MS IFIO3005 I CP-1 0-8 MPPM 054 hAIN FW FLOW D3 FW IFE1111 S RAS C A A M1E VITAL 0-8 MPPM 2/SG N/A REFER TO NOTE 10 FW IFT2000A $ RA8 0-8 MPPN FW IFI2000A I CP-1 0-8 MPPN Ob MAIN FW FLOW D3 FW IFE1121 S RAS . C A A N1E V!TAL 0-8 MPPM 2/SG N/A REFER 's* G OTE 10 FW IFT20008 S RAS- 0-8 APPM FW IFI20008 I CP-1 0-8 MPaN 054 MAIN FW FLOW 03 FW IFE1111 S RA8 'C A A M1E VITAL 0-8 W PW 2/SG N/A REFER TO NOTE 10 FW IFT1111 S RA8 0-8 MPPM FW IFR1111 R CP-1 0-8 MPPN 054 MAIN FW FLOW . 03 FW IFE1121- S RAS C A A NIE VITAL 0-8 MPPM 2/SG N/A REFER TO NOTE 10 FW IFT1121 S RAS 0-8 MPPH FW IFR1121 R CP-1 0-8 MPPM
PAGE No. 26 01/23/91 TABLE 2 Entergy Operations Inc.
Waterford SES Unit No. 3 Response to Regulatory Guide 1.97, Revision 3 RG197 POWER NUMBER SERIAL TYPE / LOOP COMP SUMPLY OF SPDS NimSER VARIABLE CAT COMPONENT TYPE LOCATION ENV SEIS CA CLASS. RANGE / UNITS CNANNEL I/O CaeqENTS 055 EFW FLOW 02 EFWIFE83304' ~$ RAS A A A 1E VITAL 0-800 GPM 1/SG S10101 PRovtDED RANGE IS 0-114%
EFWIFT8330A S RA4 0-150 IW OF DESIGN FLOW.
EFWIFI8330A2 I CP-8 0-800 GPM 055 EFW FLOW 02 EFWIFE83308 5- RAS A A A' 1E VITAL 0-800 GPM 1/SG S10201 PR0v!DED RANGE IS 0-114%
EFWIFT8330s S ras 0-150 IW OF DESIGN FLOW.
EFWIFt8330s2 I CP 0-800 GPM 056 CONDCASATE D1 EFWILT9013A S RAS A. A A 1E v1Ts5 0-21 FT 2 N/A REFER TO TASLE 3 STORAGE POOL- EFWitt90134. I CP-8 0-1001 i WATER LEVEL
. i 056 CONDENSATE D1 EFWILT90138 5 ' RA3 A A A 1E VITAL 0-21 FT 2 N/A REFER TO TAaLE 3 STORAGE POOL EFWIL19013a I 'CP-8 0-100%
WATER LEVEL 057 CONTAINMENT D2 CS IFE7122A 5 RAS -A A A 1E VITAL 0-2500 CPM 2 S42404 DESIGN FLOW IS 1750 GPM SPRAY FLOW CS'IFT7122A 5 ras 0-200 tw
'CS IF17122A I CP-8 0-2500 GPM 057 CONTAINMENT 02 CS IFE71228 $ RAS A A A 1E VITAL 0-2500 GPM 2 S42504 DESIGN FLOW IS 1750 GPM i SPRAY FLOW CS IFT71225 5 RAS 0-200 Is CS !F171223 I CP-8 0-2500 GPM 058 CCW FLOW D2 CC IFE757041 S Re A A A 1E VITAL 0-1500 GPM 1/C00LER N/A EMERGENCY DESIGN FLOW IS CONTA!NIENT CC IFT757041 S RS 0-200 Iw 1350 GPM FAN COOLERS CC IF1757041 I CP-18 0-1500 GPM 058 CCW FLOW D2 CC IFE7570A2 5 Re A A A 1E VITAL O-1500 GPM 1/C00LER N/A EMERGENCY DESIGN FLOW IS CONTAINMENT CC IFT7570A2 5 RS 0-200 IW 1350 GPM l
l
'PAGE NO. 27 01/23/91 TABLE 2 Entergy Operations Inc.
- Waterford SES Unit No. 3 Response to Reputatory Guide 1.97, Revision 3 RG197 POWER NUMBE R SERIAL TYPE / LOOP COMP SUPPLY OF $PDS NUMBER VARIABLE -CAT COMPONENT TYPE LOCATION ENV SEIS QA CLASS. RANGE / UNITS CMANNEL I/O Cope 4ENTS J
TAN COOLER J IFIF57042.. I- CP-18 1500 GPM 058 CCW FLOW D2 CC IFE7570s1 S RS A A A 1E VITAL 0-1500 GPM 1/C00LER N/A EMERGENCY DEstGN FLOW IS CONTAINMENT CC IFT7570s1 S' Re ' 0-200 IW 1350 GPM l FAN COOLER CC IF1757081 I CP-18 0-1500 CPM 058 CCW FLOW 02 CC IFE757052 S- 28 A A A 1E WITAL 0-1500 GPM 1/000LER N/A EMERGENCY DESIGN FLOW IS CONTAINMENT CC IFT757082 S Re 0-200 tw 1350 GPM FAN COOLERS CC IFI757082 I CP-18 0-1500 GPM 059 CONT. ATMOS. D2 CCSITE5150-1A S RCB .A A A 1E VITAL 0-450 DEGF 1/C00LER A51123 TEMPERATURE CCSITE3150-2A S RCs 0-450 DEGF FAN COOLER CCSITRS$55A. 'R CP-18 .
0-450 DEFF INLET 059 CONT. atmos. '02 CCSITE5152A 5 RCS A A A 1E VITAL. 0-450 DEGF 1/C00LER N/A i
TEMPERATURE CCSITR$155A R -CP-18 0-450 DEGF FAN COOLER CUTLET 059 CONT. ATMOS. 02 CCSITE5155-1A' S RCs A A A 1E VITAL 0-450 0EGF 1/C00LER A51115 TEMPERATURE CCSITE5155-2A S RCs 450 DEGF FAN COOLER CCSITR51504 R CP 0-450 DEGF INLET 059 CONT. ATMOS. -D2 CCSITE5157A S RC8 A A A 1E VITAL 0-450 DEGF 1/C00LER N/A TEMPERATURE ~ CCSITR5150A R CP-18 0-450 DEGF FAN COOLER OUILET 059 CONT. atmos. D2 CCSITE5150-1s S RCs .A A A 1E VITAL 0-450 DEGF 1/C00tER A51127
~
PAGE No. '28 01/23/91 ~-
TAetE 2 Entergy Operations Inc.
' Weterford SES Unit No. 3 Response to Regulatory Guide 1.97, Revision 3 RG197- POWER NUMdER SERIAL TYPE / LOOP - CG8P SUPPLY OF . SPDS NLBGER VARIA8tE CAT COMPONENT TYPE LOCATION ENV SEIS QA CLASS. RANGE / UNITS CMANNEL I/O Co mENTS TEMPERATURE CCSITt5150-2f. S' RCs . 3-450 DEGF FAN COOLER CCSITR51558 R- CP-18 0-450 DEGF INLET-
'059 CONT. ATMo$. 02 CCSITE5152s S RCS 'A A A 1E VITAL 0-450 DECF 1/C00LER ' N/A TDFERATURE CCSITR5155s R. CP-18 0-450 DEGF FAN COOLER QJTLET 059 CONT. ATMDS. D2 CCSITE5155-13 $ RCS A' A A 1E WITAL 0-450 DEGF 1/C00LER A51119 TEMPERATURE CCSITE5155-29 S RCS G-450 DEGF FAN COOLER CCSITR5150s R CP-18 0-450 DEGF INLET
{
059 CONT. ATMOS. D2 CCSITE31579 5 RCS A A A 1E VITAL 0-450 DEGF 1/C00LER N/A TEMPERATURE CCSITR51508 R CP-18 0-450 DEGF FAN COOLER GITLET 060 CONTAINMENT D2 SI ITE7116A S R9 A A A 1E VITAL 32-240 DEGF 2 N/A REFER 70 NOTE 11.
SUMP WATER SI ITIT116A I CP-8 32-240 DEGF TLMPERATURE 060 CONTAINMENT D2 SI ITE71168 .S #9 A A A 1E VITAL 32-240 DEGF 2 N/A REFER 70 m0TE 11.
SupF WATER SI ITRT1168 R CP-8 32-240 DEGF TEFFERATURE 061 CVCS CHARGING D2 CVCIFT0212 S Re A A A N1E WITAL 0-610.74 IW 1 N/A DE51GN FLOW IS 132 GPW FLOW CVCIFE0212 5 RB 0-150 GPM IND Ou QSPOS CVCIFIO212 I CP-4 0-150 CPM
PAGE NO. 29 r
01/23/91 taste 2 Entergy Operations Inc.:
Waterford SES Unit No. 3 Response to Regulatory Guide 1.97, Revision 3 RG197 POWER- NUMBER SERIAL TYPE / LOOP COMP SUPPLY OF SPDS NUMBER VARIABLE . CAT COMPOWENT TYPE LOCAf tou Env SEIS QA CLASS. RANGE /Uu!TS - CMAmWEL' I/O Co mENTS 062 CVCS LETDOWN D2 .CVCIFT0202 S RAS Af A A W1E VITAL 0-100 IW 1 m/A DESIGN FLOW IS 128 GPM.
FLOW-0UT- CYCIFE0202 S RAS 0-150 GPM Ino On OSPDS-CVCIF10202 -I CP 0-150 GPM 063 . VOLUME CTRL D2 CYCILT0226 S. RAS A A A N1E vsTAL 469.8-4410.7 G 1 N/A TAmt LEVEL :CYCIL10226 I. CP-4 0 1001 064 CCW TEMP.10 D2 CC ITI7070A I CP-8 8 A. A 1E VITAL 50-130 DEGF 1/nEADER N/A REFER 70 NOTE 12.
ESF SYSTEM CC ITE7070A S RAS ' 50-130 DEGF 064 CCW TEMP. TO D2 CC 11370708 1 CP-8 8 A A 1E VITAL 50-130 DECF 1/NEADER m/A REFER 70 WOTE 12.
EST SYSTEM CC ITE7070s S ras 50-130 DEGF 063 CCW FLOW 70 D2 CC IFT7070A 5 RA8 8 A A 1E VITAL 0-100 I W ~ 1/NEADER m/A DESIGN FLOW IS 6800 GPM ESF SYSTEM CC IFE70704 S RAS 0-10000 GPM CC IFI7070A1 I CP-8 0-10000 GPM 065 CCW FLOW TO D2 CC IFT70705 'S RAS B A A 1E VITAL 0-100 ImW 1/nEADER N/A DESIGN FLOW IS 6800 GPM.
ESF SYSTEM CC IFE7070s' S RAS 0-10000 GPM CC IF1707051 1 CP-8 0-10000 GPM 066 MIGN LEVEL D3' en ILT0607 S RAS C A A 41E VITAL 1565.5-46576.8 G 1/TAmt w/A RAD LIQUID BM ILIO 607 1 CP-4 0-900E HOLD UP TANC LEVEL 066 HIGN LEVEL D3 '8N ILT0608 $ RAB C A A N1E VITAL 1565.5-46576.8 C 1/TAant . m/A RAD LIQt.f!D BM ILIO 608 i CP-4' 0-1001 HOLD UP TANIC LEVEL
r, .
l Pere NO. 30 01/23/91 taste 2 Entergy operations Inc.
Waterford SES tWilt No. 3 Response to Regulatory Guide 1.97, Revision 3 RG197 PouER NUMBER SUPPLY er spes SERI A!. TYPE / LOOP CDeP 9AJ4EER VARIABLE CAT COMPCNENT TYPE LOCATIOe ENT SEIS CA CLASS. RANGEftselfs C3imaa*EL I/O Cm MENTS i
03 eM ILT0609 $ RAS C A A NIE VITAL 1565.5-46576.8 G 1/ TANK N/A 066 HICM LEVEL RAD LIQUID SM ILIO 609 I CP-4 0-1001 MOLD UP TANK LEVEL D3 aM ILT0610 s RAB C A A N1E VITAL 1565.5-46576.8 G 1/ TANK N/A 066 MIGN LEVEL RAD LIQUID BM ILIO 610 I CP-4 0-100%
NOLD LIP TAkK LEVEL RAB C N/A N/A N1E WITAL 0-600 PSIG 1/ TANK N/A INO ON PLANT C mPUTER. (PT ID 067 RAD CAS DECAY D3 QMIPT6709 S A41301) PROVIDED RANGE IS TANK PRESSLRE 0-158% OF DESIGN PRESSURE N/A N/A N1E VITAL 0-600 PSIG 1/ TANK N/A IND ON PLANT COMPUTER. (PT ID 067 RAS GAS DECAY D3 QMIPT6710 $ RA5 ~C A41302) PROVIDED RANGE IS TAME PRESSURE 0-158% OF DESIGN PRES 50eE C N/A N/A N1E VITAL 0-600 PSIG T/ TANK N/A IND ON PLANT C m PUTER. (PT ID 067 RAD GAS DECAY D3 GuMIPT6711 5 RA5 A41303) PROVIDED RANGE IS TANK PREsstNtE 0-15810F DESIGN PRESSURE TE EMERG. OPE N-Cl0 SED 1 h/A INO ON PLANT CDMPUTER. (PT ID 068 EMER. VENT. D2 NVCIZsG3CCA2 5 RA8 8 A A 0052626, 0052627)
DAMPER POSI NYCIZs0304A1 5 ras i .
1 6 ON PLANT C mPUTER. (PT ID s RAS B A A 1E EMERG. OPEN-CLOSED 1 N/A
! 068 EMER. VENT. D2 MVCIZS030482 0052628, 0052629)
MVCl2S030482 S RAB DAMPER POSI A A 1E EMERG. OPEN-CLOSED 1 N/A CNTRL RM RITCMEN & CONF tm D2 MVCIIs0312A1 $ RAB B 06 EKER. VENT. ExMAUST FAN SYPASS DAMPER.
DAMPER POSI NVtIZ%312A2 s ras OPEN-CL0 SED
PAGE no. 31 01/23/91 ~
TASLE 2 Entergy Operations Inc.
Wterford SES Lhit ho. 3 -
Respcese to Regulatory Guide 1.97, Revision 3 RC197 ' POWER NLMBER SERIAL TYPE / LOOP CONP SUPPLY OF - SPDS supsER VARIABLE CAT CGIPouENT ' TYPE 10 CATION ENv SEIS QA CLASS. RANGE / UNIT!. CNAmeEL- 1/0 CaseqENTS 068 EMER. VENT. D2 NYCl25031231 S RAS -8 A A .1E EMERG. OPEN-CLOSED 1 N/A IW ON PLA7.T CXMPUTER. (PT ID DAMPER POSI NYC125031252 S ras OPEN-CtoSED 052635. D52634) 068 EMER. VENT. D2 NVCIZSO205A1 S RAS S A A 1E VITAL OPEN-CtOSED 1 m/A CuTRL Nm EMERCtrJY FILTRATION DAMPER POSI kvCIZS0205A2 'S RA8 OPEN-CLOSED SYSTEM FAN luTAKE DAMPER.
NOT AVAILABLE 'I CP-18 OPEN-CLOSED s
D68 EMER. VENT. D2 MvCIZS0213A1 $ RAS 8 A A 1E VITAL OPEN-CLOSED 1 E. 4 CNTRL RW EMER FILT STS RETURm DAPPER POSI NYCIZS0213A2 S RAS OPEN-Ctc ID AIR DAMPER. tuo ON PLAmi Coup (PT ID D52733, 052732) .
068 EDEC. VE'JIT. D2 MvC!!S0205a1 S RAS 9 A A 1E VITAL OPEE-CLO5ED 1 m/A CNTRL RM EMER FILT STS FAN DAMPER POSI NvtIZS020582 '! RAS OPEN-CLOSED INLET DAPPER.
NOT AVAILASLE 1 CP-18 OPEN CLOSED 068 EMER. VENT. 02 NYCIIS021381 s ras S A A 1E VITAL OPEW-CLOSED 1 N/A CNTRL MI EMER FILT STS FAN DAMPER POSI NYC12SC21382 S PAS OPEn-CLOSED RETURN AIR DAsiPER. Iso IS ON PLANT CDa1.!TER. (PT ID 052734 D52735) 066 FMER. dNT. D2 WVCIZS0103P.1 5 RAF, 8 A A 1E E8GRG, OPEN-CLOSED 1 N/A CNTIit R9 SUPPtf FAN IuTAKE DAfet2 POS! NYCIZS0103A2 S RAS OPEN-aC9D DAMPER iud Om PLAuf C3mPUTER (PT M 052%0, 052M1) 068 EMER. VENT. D2 FVCIZS010381 5 RAB B A A 1E EMERG. OPEN-CLOSED 1 m/A CNTRL RM !UPPLT Fam INTetf 0AMPER POSI inC1250103C2 S RAB OPEN-CLOSED DAsqPER. IMO ON PLANT CIMPUTER (PT 10 452642, D52643)
EMER. WIII. 02 sVSIZS0105A1 C RAS 8 A A 1C E*qfRf.
c OPEN-CLOSED 1 E/A RECIRC teamFER. ECD Ost PLANT
n
" PAE NO. . 32 '
01/23/91 -
- TABLE 2 Entergy Operatsons Inc.
nieterford SES tJnit No. 3 iterponse to Reputatory cuide 1.97, Revision 3 RG197 " PawtR asuMBER SER!ii . TYPE / LOOP COMP SUPPLY OF SPDS NimeER VARIA8tE CAT COIFONENT TYPE LOCATIDN ENV SEIS QA CLASS." RANCE/ UNITS ~ CHANesEL I/O CDsetENIS l
DAMPER POSI SVSI250105A2 S RA8 OPEN-CLOSE9. CG4P (PT ID 052636, D52637) r 068 EMER. VENT. D2- SVSIZS0105s1 S RAS B A A 1E EMERG. 'OPEN-CLOSED 1 N/A RECIRC DAMPER, IND ON PLANT ,
DAMPER POSI SVSIZS010582 S - RAS OPEN-CLOSED COMP (PT 10 052638, 052639) 068 EMER. VENT. -D2 SVSI250106At S ras a A A 1E EMEPG. OPE 2-CLOSED 1 N/A RECIRC. ~ b T.. AND ON P'WT .
DAMPER POSI ~ SVSI250106A2 'S RAS OP5N-CLOSED C!3e (PT !D 953153, 053164) 068 EMER. VENT. 02 SYSiz$310681 S RAS 8 A A TE IHf?E. 10PE h-C5.DSfD N/A Rf_Ctrt DAMR. Ino Cue PLANT DAsePER POSI SW112$010682 5 RAS OPEN-ZLOSED CDeP (PT ID 053188, 053187) 068 EI8ER. VENT. 62 NVR12$0i21A1 'S RA8 C W/1 N/A CIE O!fRC. OPEN-CLOSED 1 3 /A **G *:DINEAL WEN'I SYSTEst DAMPER'POSI NVRIZSI)121A2 S RAS (PEN-CLOSED EINAUSE (AN !%ET DAMPER IND ON PLANT COMPUTER. (PT 10 05202). 052022) !
i 068 LMER. YENT. D2 MvRI2s0!?2A1 1 ras C W/A N/A N1E EMERG. OPEN-CLOSED 1 N/A rat IsomeAL VENT SYSTEM DAMPER POSI MVR!250122A2 S ras OPEN-CLOS"D ERSAUST FAN OUTLET DAMPER ,
IND ON PLANT CDEPUTER. (PT 10 052025, D52026)
C' EMER. VENT. D2 HvRI250121a1 S nAs C N/A N/A N1E ENERG.' MN-CLOSED 1 N/A RA8 N0 MEAL VENT SYSTEft [
DAMPER POSI ItVal2S012132 S ras OPEN-CLOSED DMAUST FAN INLET DAMPER IC ON PLET COMPUTER. !PT 10 052023, D52024) e Ce EMER. VEtiT. 02 NVR!2s012291 S RA8 C W/A N/A NIE EMERG. OPEN-CLOSED 1 N/A RAS NOllMAL VfC SYSTEst DAMPER POS! WRIZS012232 S RA8 OPEN-CLOSED ExMAUST FAN OUTLET OAMPER IND ON PLANT EDIPUTER. (PT ID 052E27, 052028) t
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i PAGE NO. 35 01/23/91 TABLE 2 Entergy Operetions Ire.
tdeterford SES tmit so. 3 I aesponse to segulatory Guide 1.97, Revistore 3 'f RC197 P0utt WWESER SERIAL TYPE / LOOP CORP SUPPLY Of SPDS i
aR8WER WARIASLE CAT CINetBEeT TYPE LOC'.70s Eww Sets en CLASS. #AmGE/Uu!TS CpanuEL t/O CO M sTS I
i .
068 EMER. VENT. 02 5"#CIZS0307/1 S SAS S A A 1E EME#C. OPfu-CLOSED 1 Confact actpe TOILET EumAUST r/A DMPER POSI 'WWCIZS0307/2 $ aAS
, OPfu-CLOSED FAs E-34 ISOLAftou si m NOT AVAILASLE I CP-15 OPES-CLOSED WALVE. ,
068 E8EER. WENT. D2 SSVIZS01134 S 98 A A A TE EMERG. OPEN-CLOSED 1 m/A SatELD SLDG West FAs E-17 DAMPER POSI n07 AvalLASLE I CP-18 OPES-CLOSED RECIRCULAfton wALVE.
068 EMER. VENT. D2 S3v12301018 $ eS A A A 1E EMERG. OPES-CLOSED 1 m/A S#fELD SLDG WEuf FAs E-17 T*.
DAfrER POSI 507 AVAILASLE I CP-18 OPEW-CLOSED 8 feLET WALWE. i
~
s 068 EMER. ENT. D2 NWRIZS0109/1 $ WS A A A TE ENERG. OPES-CLOSED 1 m/s BAS someAL wEmi SYS ISOLefton DAMPER POSI NWRIZS0109/2 S at OPEn-CLO5ED WALUE.
FOT AWAILABLE I CP-18 OPEN-CLOSED
- I 1
1%8 EMER. WENT. D2 WsRIZS0111/1 S SS A A A 1E EMER4. OPfe-CLOSED 1 a/A aAS somutt Vest STS SUPPtv !
DAfrER POSI WWRIZS0111N S RS OPEW-CLOSED TO PtPE PEmETaAf ton AEDA wiv.
NOT Ava!LASLE t CP-18 OPES-CLOSED
[
068 EMER. wEwf. D2 wveIIS03134 S RAS A A A 1E EERG. JPEs-CLOSED 1 m/A cvas itLTER ft. A OUTLET wtv f DAprER POSI a07 AvallASLE I CP-18 OPEW-CLOSED
m0T AVAILASLE I CP-18 Orta-CLOSED
. l 068 EMER. WENT. D2 EURIIS0306A $ RAS A A A 1E EMEG. OPEG-CLOSED 1 W/A cvas fitter TR. A tutET WLw.
?
i i
I
' PAGE NO. 36 ,
1 01/23/91 l TABLE 2 Entergy Operations Inc.
Weterford SES Lwit es. 3 Response to Reguietory Guide 1.97, Revision 3
- G19T 70MR WUMSER
+ SERIAL TYPE / LOOP CDnP SUPPLY OF 5705 IR8EIER WARIASLE CAT C3 rouENT TYPE LOCATIou Euw SEIS S4 CLASS. RAmE/uutTS CnemuEt t/O CIssuEeTS NOT AWAILASLE a CP-18 OPEu-CLOSED
! 068 EMER. WENT. D2 uwCIZS0386/1 5 MAS S A 4 1E EM RG. OPES-CLOSED 1 m/A CONTaos 80tBI TotLET ENamWST OffrER POSI IrJCl250386/2 S RAS OPE 4-COSED TAs E-34 ISCLAf tcu DIStamaw NOT AVAILASLE I CP-18 OPEn-GOSED WAtwE.
068 EMER. VENT. D2 SSwtZS01105 S RAS A A A 1E EsuERG. OPEu-CLOSED 1 m/4 NSIELD StDG WENT FAs E-1T 78
]- DARPER POSI es0T AVAILASLE I CP-18 OPEN-GOSED 8 OUTLET wiv.
068 02 ENER. WENT. 58v12301148 S RAS A A A 1E EMPG. OPLN-CLOSED 1 N/A SNIELD SLDC WENT f an E-12 DanPER POSI IIOT AVAILASLE I CP-18 CPEu-CLOSED sente DistumRE TO STAOC VALwE 068 EMR DENT D2 NwC1ZS0314/1 S sAS S A A 1E EM eG. (pes-CLOSED 1 s/A Cuist ses uttCmEu & CDettataCE j DisFER POSI NwCtzS0314/2 S RAS (pes-CLOSED se' Esw tas E-Q ISO DIstameE is0T AVAILASLE I CP-18 OPEM-ttOSED WAtwE.
i .
068 EE R VENT D2 Nytt250101/1 S R48 3 A A 1E EMWG. OPf?-CLOSED 1 m/4 CDETWOL e0an suPPty FAm DAWER POSI MwCtZS0101/1 5 aAS OPEu-CLOSED outSIDE tuTAKE a R watwE.
NOT AVAILASLE I CP-18 OPE 4-CLOSED 1
068 ENER VENT D2 Nwnt250110/1 5 98 A A A 1E EsIERG. OPES-ROSED 1 m/A Rm8 auseent Vest STS EnnauST DApeER POSI NvRIZS0110/2 S 98 OPEu-CLOSED 800m PIPE CHASE ASEA WAtwE.
IBOT AWAILASLE I CP-18 OPEu-CLOSED 4
068 seqER WENT D2 INRIZS0106/1 S RAS A A A TE OtERG. OPEW-CLOSED 1 m/A RAS sonethL WEuf SYS ISO VLv.
DAMPER POSI MwRIZS0106/2 $ RAS OPEN-CLOSED IIOT AwAILASLE I CP-18 OPEN-CLOSED 068 EMER VENT 02 INRIZS0108/1 S BS A A A 1E EMRG. OPEE-CLOSED 1 m/s a48 masent wtWT STS ISO wiv. ;
DAfqPER POSI wwRIZS0108'2 5 WS OPEW-CLO5ED MOT AwAILASLE I- CP-18 OPEu-CLOSED '
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- PAGE NO. 38 01/23/91
- TABLE 2 Entergy Operations Inc.
Unterfoed SES unit me. 3 Response to Resulatory Guide 1.97, 9evision 3 RG197 POWER uumeER SERIAL TYPE / LOOP CCpqP SUPPLY OF SPDS NUMBER WARIASLE CAT CtpycENT TYPE LOCATION ENW SEIS GA CLASS. RANGE / UNITS CmAmuEL I/O CIseEeTS q
i 069 STATUS OF D2 EG IEI6907s I CP-1 s A A 1E VITAL 0-7 MW 1 m/A STANDeY POWER EG ECT2366-2A s Ras DG 2 WATTS EG ECT2366-2s s Ras EG ECT2366-2C S Ras EG EPT23664 5 ras 069 STATUS OF D2 EG IE!6908A t CP-1 s A A 1E WITAt. (-)$ TD +5 MWAR 1 N/A STAssef poler EG ECT2316-2A 5 RAS DG 1 VARS EG ECT2316-26 s ras EG ECT2316-2C S Ras EG EPT2316A , s RAS .
~
l 069 STATUS OF 02 EG IE16900s I CP-1 s A A 1E VITAL (-15 TO +5 avAR 1 N/A i
STANDef POWER EG ECT2366-2A $ Ras DG 2 VARS EG ECT2366-2s S Ras i EG ECT2366-2C s ras EG EPT2366A 5 ras
! 069 STATUS OF D2 EG IE!6909A I CP-1 s A A 1E VITAL 0-1000 A 1 N/A j STAsest poler . . EG ECT2316-2A 5 ras j DG 1 LOAD EG ECT2316-2s s Ras CURRENT EG ECT2316-2C s RAS I EG EPT2316A S Ras 069 4TATUS OF 02 EG IE16909s I CP-1 s A A 1E VITAL 0-1000 A 1 N/A STANDeY POWER EG ECT2366-2A s ras OG 2 LOAD EG ECT2366-2s s Ras
} t.' W WT EG ECTZ366-2C S Ras EG EPT2366A $ RAS j 069 STATUS OF 02 EG Ene:TR2328A S ras e A A 1E VITAL 1 N/A t'
m PAGE NO. 39 ,
J1/23/91 TASLE 2 Entergy Operetions Inc.
Waterford SES tmit so. 3 Response to RegrAatory Guide 1.97, Revision 3 RG197 POWER Wl8ESCR SERIAL TYPE / LOOP N' SUPPLY OF SPDS stSISER VARIABLE CAT COMP 0 MENT ' TYPE LOCATION miNV SEIS en CLASS. RamCE/ UNITS' CummuEL I/O CtposEWTS STANDSY POWER EG IEI6911A I CP-1 50-65 N2 DG 1 FREGUENCY Od!kP STATUS OF D2 EG EMstTR2375A 5 RAS S A A 1E VITAL 1 m/A STANDSY POWER EG IEI69115 I CP-1 50-45 mz DG 2 FREQUENCY OEkP STATUS OF D2 DC EENTR4403A S RAS S A A 1E VITAL 1 N/A STAND 9Y POWER DC IEIF01041 I CP-1 0-150 WDC SATTERY A VOLTAGE l
- l 02 DC EENTR44038 $ RAS S A A TE VITAL 1 m/A l 069 STATUS OF DC IEI701081 I CP-1 0-150 WDC l STAseSY POWER SATTERY 8 VOLTAGE 069 STATUS OF D2 - EG EM2317A I CP-1 S A A 1E VITAL 0-5250VAC 1 m/A STAmDSY PonER EG EPT 2316A S RAS DG 1 woLTAGE 02 ' EG EM2367A CP-1 E A A 1E VTTAL 0-5250v4C 1 m/A Of > STATUS OF I STANDSY PohER EG EPT 2366A S RAS DC 2 VOLTAGE 02 IA IPT9700 5 TGS C m/A N/A u1E WITAL 1 m/A 069 STATUS OF STANDSY POWER IA IPI9700 I CP-1 0-125 PSIG INST AIR SPLY PRESSURE
l , ! , I [ (( , r !
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- A A A 8 5 5 0 0 6 8 8 6 8 8 1 2 T 0 0 0 0 0 0 0 0 1 2 1 2 8 5 N 88 9 0 0 9 0 0 A A A sa8 A A E 9 9 6 3 3 63 3 L L S L t S L L u T I S S S S S S E E D E E D E E O P P 1 3 1 L P P3L P P R R F 8R R F 0 R R P O O p I I 0 0 2 2 0
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PAGE NO. 41 01/23/91 TABLE 2 ErtterSy Operations Irn:.
Waterford SES Unit No. 3 Response to Regulatory Guide 1.97, Revision 3 RG197 POWER WUMBER SERIAL TYPE / LOOP COMP SUPPLY W SPDS NUMSER WARIASLE CAT C(NIP 0nENT TYPE LOCATION ENV SEIS QA CLASS.- .RAGGE/ UNITS CnAmuEL t/0 CDeutsTS DC EFDSAS S RAS C1209 I CP-35 AmuUuCIAT10m D0606 I CP-1 C s/A N/A N1E VITAL 1 W/A AmuUNCIATION 069 STATUS & D2 STANDBf POWER .NC ECP214A-1SR S CulLL MITROGEN SYSTEM TRGJBLE 069 STATUS W D2 40EPT3A-12A S RAS S A A 1E EMEWG. i N/A STANDSY POWER 40 EPI 3A-129 $ RAS EMRGENCY SUS 4KVEPT3A-12C S RAS VOLTAGE EG EN23175 I CP-1 0-5250 VAC (3A3-5)
STATUS W D2 4 0EPT30-12A S RAS S A A 1E EMERG. 1 N/A 069 STANDST POWER 4 DEPT 38-125 S RAS EMERGENCY SUS 4 WEPT 38-12C S RAS WOLTAGE EG En23675 I CP-1 0-5250 WAC (383-5)
CuisetT AREA Et ARNIRD54004 5 RCS A A A 1E VITAL 1-ta10E8 R/ut 2 C48017 070 ARRIRE5400A S RCS 1-ta10E8 R/MR C48019 NIGN RANGE C3 RADIATION ARNIR154004 I CP-14 5 RCS A A A 1E VITAL 1-Im10E3 R/M 2 C43022 070 CNienti AREA El ARNIR054003 5 RCS 1-1x10E8 R/M C&8023 NIGH RANGE C3 ARRIRE54003 RADIATION ARMIR154005 I CP-14 S RS C N/A N/A N1E EMERG. 0.1-10000 R/nt i m/A t m & sEconDImG **0wtDED SY 07h RADIATION E2 ARR:RD5204 0.1-10000 R/nt RAD Computer Ret 11 On CP-6 EXPOSURE ARRIRE5204 5 RAS
___ 4
j PAGE NO. 42 l 01/23/91 taste 2
, EnterDy operations Ire.
Meterford SES Urrit me. 3 mesponse to Regutetory Guide 1.97, sevision 5 3
RG197 POWEt uungEW SERIAL TYPE / LOOP CORP SUPPLY OF SPOS treeBER WAalAstE CAT CINHMEtif TYPE LOCATION EWV SEls 04 CLASS. mAsGE/tmitTS CMauEC t/O CtpeuENTS RATE OT1 RADIATION E2 Afgelse5205 S ras C m/A N/A W1E EnERG. 1.1-10000 t/per 1 m/A tap 6 mEConctuG PeavtDED 87 EXPOSURE AINElaES205 s mas 0.1 10000 m/nR ae CasuPUTEe see 11 On CP-6 RATE 0 71 RADIATION E2 Assita05206 5 mas C w/A u/A m1E ONERG. 0.1-10000 t/Mt 1 m/A 380 & NECDSDitG PWOWIDED SY EXPOSURE AssetaE3206 5 Ras 0.1-10000 N/ net se CosePUTER ese 11 Os CP-6 RATE 0 71 Ret ATIDW E2 AnstlRD320T S ras C N/A e/A stE EMERG. 0.1-10000 m/w 1 m/A te & eEEUnDtes pouwtDED ST EXPOSURE AnstleE5207 s ras 0.1-10000 a/ne me CtpePUTEe sur 11 tus EP-6 DATE 0 71 RADIAftast E2 Ansola05208 s ras A m/A 8 NIE EmEWG. 0.1-10000 ?Just 1 m/A le & WECONDioG PWOv;DED BY j EXPO 9JIPE AdulleE5206 S ras 0.1-10000 m/ w me Capu'UTEe out 11 Os CP-6 J
RATE j CT1 RADIATION E2 AssitaD5709 s MAS A N/A B NIE EaEEtG. 0.1-10000 r/ne 1 s/A t e & sEEDPDluG P90y:0E0 ST EXPOSURE AlptIRES209 5 RAS 0.1-10000 m/me ne C0suruTER ess 11 cm C#-6 RATE
. OT* RADIATI0st E2 AnseIm05210 $ ras A N/A S NIE EmERG. 0.1-10000 m/st 1 m/A ?e & #EconDios PSOWIDEO SY EXPOSURE AnsIIRE5210 s aAs 0.1-10000 m/wst Pm CtparuTER mee 11 ou EP-4 aATE 0 72 C4'188T OR E2 PEFEe To SEstAL 8076 PURM EFFL.
073 RCS SNIELD E2 SEFER TO SERI AL 8076 SLDG AlpesutOS
PAGE NO. 43 ,
01/23/91 .
. TABLE 2 Entergy Operations Inc.
Waterford SES tatt No. 3 Response to Regulatory Guide 1.97, Revision 3 i'
RG197 POWER WIDGER SERIAL TYPE / LOOP COMP SUPPLY '
CF SrDS MLSEBER VARIABLE CAT C0w0 MENT TYPE LOCATION ENV SE!S QA CLASS. RANGE / UNITS CMAmWEL 1/0 Cape 4EmTS T
0 74 AUX BLDG E2 mEFER TO Statet sor6 NOBLE GASES
& VENT FLOW RATE I 075 CONDENSER AIR C3 PAMIRD0002 s TGB C m/A m/A NIE EMEaG. 0.1-10E5 UCt/CC 1 m/A eff ta TO mote 13 !
REMOVAL STS E2 PRntRE0002 s TG4
- EXMAUST PanteE0002-1 R CP-52 10E-6-10E5 UCI/CC Peu!RR0002-2 R CP-52 10E-6-10E5 UCI/CE PR417T0002 S TG8 1
~
0 76 PtAmT $ TACK E2 PeM!RD0110 s aA8 A m/A a N1E EMERG. 10E-1-10E5 utt/CC 1 N/A PtAmi STACK DESICN FLOW I5 MONITOR C2 Pentan0110-1 R CP-52 10E-6-10E5 UCT/CC 108 500 SCFM C3 Pamine 0110 $ RAS 10E-1-10E5 UCI/CC PRMIFT0110A1 S ras 0-153938 SC'M I 076 PLANT STACE E2 PRm!N00110 5 RA6 4 W/A S NIE EMERG. 10E-1-10E5 UCI/CC 1 N/A MONITOR C2 Pawlae0110-2 R CP-52 10E-6-10E5 UCT,CC PenIRE0110 s ras 10E-6-10E5 utt/CC PeseIFT0110A1 5 RAS 0-153938 SCfM 077 VENTS Foon E2 ARn!Rc3500A s Rs A N/A B klE EM ec. 1-10E5 mR/NR 1/MS time N/A CALCULAft0N METNODOLOGY IS ATMOS DisqP VA ARNIRE55004 S RAS 1-10E5 mR/NR DESCRIBED IN FSAR SUBSEC NOSLE CASES ARMIRR55004 R CP-52 1-10E5 PS/m 1.9.29.4 RADIATION OTT VENTS FROM E2 AmataD5500s s as A N/A e n1E EMERG.1-1005 mm/t* 1/nS LiuE N/A CALCULATION METn0DOLOGY is I
ATMOS DLsqP VA ARMIRE5500s s aAs t.10E5 pm/pe cEScateED IN TSAR SuesEC WOBLE GASES Amm!RR$500s a CP-52 1-10E5 m /NR 1.9.29.4 RADIATION f
PAGE No. 44 01/23/91 TAttE 2 Entergy Operations Inc.
Weterford SES tmit No. 3 Response to Reguletory Guide 1.97, lievisiers 3 RG197 POWER NUMBER SERIAL TYPE / LOOP CONP SUPPLY OF SPDS NUMBER VARIASLE CAT C0pFONENT TYPE LOCATION ENV SEIS 04 CLASS. RANGC/ UNITS CnANNEL I/O CopeqENTS 0 77 VENTS FR(Bt E2 REFER To SERIAL 8052 & e53 ATMDS DWF WA STM GEN PRES.
& FLOW 0 AIRE 0RNE RAD E2 PRMIR03032 s FNs N/A N/A N/A NIE 10E-1-10E5 ott/CC 1 N/A DESIGN FLOW IS 3472 SCF4 MAT. REL FROR PRRIRE3032 S ins FUEL MANDLING PRMIRR3032-1 R CP-52 10E-6-10E5 Ct/CC
. SLDG PRMIFT3032-31 S FNS 0-8000 SCFM 0 At#90RNE RAD E2 PRM11t03032 $ FMS N/A N/A N/A N1E 10E-1-10E5 UC1/CC 1 N/A DESIGN FLOW IS 3472 SCFM MAT. REL FROM PRmIRE3032 S FNs FUEL MANDLING PRR!RR3032-2 R CP-52 10E-6-10E5 uC /CC BLDG PRet!FT3032-82 S FNs 0-8000 SCTM 0 ALL IDENT. E3 - - -- -
GRAB SJWFLING AS -
N/A REFER TO FSAR 1.9-29 PLANT RELEASE REO. IN NUREC POINTS (PART. 0737.II.F.1 AT i & NAL.) COND. ALL REL. PolNTS VAC PP, FtKL (CONDENSER VACutse HAtc. BLDG Pts 4P, FMS EfERG.
EMGR EXN PLNT E.MN., PLANT WENT j VENT STACK STACK) 080 RAD. EXP. E3 N/A N/A N/A N/A N/A h/A DELETED IN #G 1.97 R/3 METERS 081 AIR 90RNE E3 N/A N/A N/A N/A 10E-9 UC1/CC TO N/A N/A PORTASLE INSTRUMENT RADIONALOGENS - 10E-3 UCI/CC
& PAR 11CULATE 1
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PAGE NO. 46 01/23/91 TAett 2 intergy Operetions Inc.
Waterford SES Unit me. I Response to Regulatory Guide 1.97 Revision 3 >
RG197 POWER NUMBER SERIAL TYPE / LOOP Comp SUPPLY OF SPOS NUMBER WARIASLE CAT COE80 MENT TYPE LOCATION ENV SEIS QA CLASS. RANGE / UNITS CNAmuEL I/O CopenENTS i
066 EST OF eiseOS. E3 EN ITSC0111 5 ~ LOCAL M/A N/A N/A stE -5 To +10 DEGC 1 q m/A luo IS 04 TNE Ptami C04PUTER.
. STAS SPLIT EM IUR0113 R LT.At -5 TO *10 DEGC (PT ID A48506)
SIGMA-TEMP.
DIFF. 1 066 EST OF AYleOS. E3 EM IZ30100 S LOCAL N/A N/A N/A #1E 0-45 DEG 1 m/4 IND IS ous THE PLAmi CauqPUTER STAS SPLIT EM IUR0101 R LOCAL 0-45 DEC (PT ID A48503) ,
l SIGeA-SIGMA !
THETA '
j 066 I EST OF ATMOS. E3 EM 1200133 S LotAL N/A N/A N/A #1E 0-45 DEG 1 N/A luD 13 ON TME PLAuf C3ePUTER STAR SPLIT EN IUR0101 R LOCAL 0-45 DEC (PT ID A48506)
SIGMA-SIGMA THETA
{
066 EST OF AIMOS. E3 EN IZD0113 5 LOCAL m/A N/A m/A stE 0-45 DEG 1 N/A Imo IS On THE PLANT CruePUTER ,
STA5 SPLIT EN IUR0113 R LOCAL 0-45 DEG (PT ID A48509)
SICMA-SIGM THETA 067 GROSS E3 C N/A N/A N1E EPERG.10 UCI/seL- N/A N/A l FSAR SUeSEC 9.3.8 PROVIDES ACTIVITY 10 CI/seL DESCRIPit de OF POST ACCIDENT
' SAMPLleG SYSTEM (PASS) 068 GMeeA E3 C W/A N/A NIE EMERG. ISOTOPIC ANALYSIS N/A N/A FSAR SUEh 9.3.8 PeoWIDES ,
I CESCRIPTION OF POST ACCIDENT SAsePLImG SYSTEM (PASS) f i
{
i
PAGE NO. 47 .
01/23/91 TAaLE 2 Entergy Operations Inc.
Waterford SES tanit No. 3 Response to Retstory Guide 1.97, Revision 3 POWER uuMSER RG197..
SERIAL TYPE / LOOP COMP SUPPLY OF SPDS MUNBER WARIASLE CAT CopWUFNT- TYPE LOCATION EuV SEIS QA CLASS. RAmEiWITS CnamuEl. I/O Co m uTS 0 CMLORIDE E3 C m/A N/A #1E EMERG. 0-20 PPM m/A m/4 FSAR sus 5EC 9.3.8 Pe0VIDES CONTENT DESCTIPTim 0F POST ACCIDEWT SMFLimG SYSTEM (PASS) 091 DIss0LVED E3 C m/A m/A uit r m RG. 0-2000CC(sTP)/KG m/A w/A FSAR suesEC 9.3.8 Pe0 WIDES NYDROEN DESCRIPTION OF POST ACCIDENT SMPLING SYSTEM (Pass) m/A FSAR sussEC 9.3.8 peOWIDts 092 Olss0LVED E3 C m/A m/A u1E EM ec. G-20 PPM m/A ONYEN DESCRIPTttm 0F POST ACCIDENT SMrtimG SYSTEM (PASS)
E3 C N/A N/A N1E EM 9C. 1-13 m/A N/A FSAR sussEC 9.3.8 P90VfDES 093 PM DESCRIPTION OF POST ACCIDENT SAMPLtuG SYSTEM (PASS)
N/A N/A N/A stE EMEG. 0-1C" (0-1001 1 m/A FSAR sueSEC 9.3.8 P90VfDES 09 NYDROGEM E3 lesT. SCALE) DESCRIPTION OF Post ACCIMai CONTENT SWEPLtuG SYSTEM (PASS) m/A N/A W/A W1E EERG. C-3ct (0- T001 1 m/A FsAR suesEC 9.3.8 Pe0VfDES 09h OKYEu E3 te5T. SCALE) DESCRIPitou 0F POST AC01creT CDuTENT smettmG SYSTEe (PASS)
O CmetA E3 w/A m/A m/A ETE EMERG. SUFF. FOR 350T. 1 m/A FsAR suesEC 9.3.8 Peevr3Es )
ANALT515 DESCRIPTtou 0F POST ACCIDEwT l SPECTRtM
!avettuG SYSTEe (PASS) l l
. l l
l
Following notes are referred to in comment section of Table 2.
flOTE 1: For RCS Soluble Boron Concentration, Reg. Guide 1.97, Rev. 3 recommends a range of 0 6000 ppm. However, the provided range at Waterford 3 SES is 0 5000 ppm. This is cufficient because even for the most demanding operating mode the Boron concentration will not exceed 2300 ppm.
NOTE 2: For RCS pressure, Reg. Guide 1.97, Rev. 3 recommends a range of 0-4000 psig. Recorder and indicator have a range of 0 3000 psig. However, a range of 0-4000 psig is provided on the OSPDS which records on a 30 minute rolling buffer with the highest pressure value.
NOTE 3: One containment isolation valve outside the containment is provided for certain lines penetrating the containment through Class C or Class D penetrations. (FSAR subsection 6.2.4.1.2 provides further details).
Dedicated indication for this valve is provided in the control room.
NOTE 4: Two automatic valves are in series. Each valve operator is actuated from a separate and redundant CIAS channel, with power supplied to each valve from a separate Train (bus) and each valve has a dedicated indication in the control room (FSAR Section 6.2.4).
.ttOTE 5: Redundant valve provided for subject line is either a check valve or locked closed valve. Only power operated (pneumatic, electric or solenoid) valve on subject line is provided with a dedicated indication in the control room (Refer to FSAR Section 6.2.4).
NOTE 6: CARS line through penetration #47 has valve CARMVAAA202B outside the containment and its actuator is powered from Train B. Line inside the containment branches into two, with Isolation valves CARMVAAA201B and CARMVAAA2008 on each branch. Actuators of valve CARMVAAA201B is powered from Train B and of valve CARMVAAA200B is powered from Train A. CARS is a back up to Hydrogen Recombiner System. CARS manually operated from main control room only during post accident, and after manually opening the locked closed valve CARMVAAA203B installed downstream of CARMVAAA202B. Valve CARMVAAA202B is also designed to close upon loss of power to operators. Hence, present configuration satisfies the intent of R.G.1.97, Rev. 3 to provide adequate indication of containment isolation.
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RQlfLZ.: Two valves on supply lines are installed, one on each side of penetration.
l Third valve on return line has a redundant check valve inside the i containment. Valves located outside the containment are locked closed during Normal and Shutdown condition and are controlled administratively.
Sensors of three automatic valves are wired in series to a common set of indication and are actuated through a common hand switch. This design !
and administrative controls provide adequate conservatisms to existing ;
configuration to meet the intent of R.G.1.97, Rev. 3.
NOTE 8: For Safety injection Tank Pressure, Reg. Guide 1.97, Rev. 3 recommends a range of 0 750 psig. Provided range is 0 700 psig which is plant specific and equal to 115% of operating pressure of 610 psig. Tank design pressure is 700 psig.
RQTES; For Steam Generator Level, Reg. Guide 1.97, Rev. 3 identifies Steam Generator Level as a Type D Category 1 variable. It specifies a range of "From tube sheet to separators". Furthermore, within Table 1, Item 2 of Reg. Guide 1.97, Rev. 3 it states the following with regard to redundancy, "Within each redundant division of a safety system, redundant monitoring channels are not needed except for steam generator level in two loop plants."
W3SES meets the intent of these requirements using the following independent and diverse channels of instrumentation: ,
- 1. Two qualified channels of wide range steam generator level are utilized for each steam generator. Their range is 0-40 feet which encompasses the distance between the tube sheet ad the separator.
- 2. Four qualified channels of narrow range steam generator level are utilized for each steam generator. Their range encompasses just over ten feet (121.12") encompasses the normal operating range of the steam generator.
- 3. One qualified channel of Emergency Feedwater (EFW) flow per steam generator. Its range is 0 800 gpm which encompasses 0 to 114% of the EFW design flow.
- 4. One qualified channel of main steam flow indication per steam generator.
- 5. One qualified channel of steam generator pressure indication per steam generator.
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- 6. One qualified channel of RCS hot leg and cold leg temperature indication per hot / cold leg.
The Plant Protection System provides protection against loss of primary heat sink by the Low Steam Generator Water Level Trip (LSGLT) Four narrow range instruments per SG are used for this trip signalinitiation (Ins. Loops LT 1113A, B, C. D; LT-1123A, B, C, D for SG1 and 2 respectively). LSGLT set point corresponds to 5% of distance between the two narrow range liquid level pressure taps and is referenced from the lower tap. This set point corresponds to a water level of 27.0 ft. above the tube sheet. The above mentioned instrument loops were also used for actuation of Emergency Feedwater Generator. (Ref. to W3 DBD-012 for further details) and High Steam Generator Level Trip (HSGLT). Whenever the level drops below or exceeds the narrow range level instrument 11 will be monitored by either of the qualified independent channels of wide range SG level. In the extremely unlikely event that at least one wide range SG level indication was not available, the operator could determine level using diverse channels of indication. Using EFW flow coming into the SG, MS Flow going out of the SG and SG Pressure the operator can determine if SG level is increasing, decreasing or stabilized under/above the narrow range SG level.
Similarly, the operator could utilize SG Pressure, RCS Hot Leg temperature and RCS Cold Leg Temperature to determine SG level relative to the narrow range levelindications. Such indications would be adequate until the SG level had returned to the range of the narrow range SG levelinstruments as directed by the EOPs.
NOTE 10: For Main Feedwater Flow, Reg. Guide 1.97, Rev. 3 recommends to measure up to 110% of design flow. Provided instruments at Waterford 3 can measure up to 106% of design flow. Design flow is 7.565 MPPH.
NOTE 11: For Containment Sump Water Temperature, Reg. Guide 1.97, Rev. 3 recommends a range of 50 250 DEGF, Provided range is 32 240 DEGF which is based on plant specific analysis.
NOTE 12_: For Component Cooling Water Temperature to ESF system, Reg. Guide 1.97, Rev. 3 recommends a range of 32 200 DEGF. Provided range is 50-130 DEGF which is based on plant specific analysis. Refer to FSAR Table 9.2-9.
NOTE 13; For Condenser Air Removal Exhaust, Reg. Guide 1.97, Rev. 3 recommends a range of 0-110% of design flow from the flow transmitters. Provided flow value is fixed at a value of 218 SCFM. However during accident conditions the exhaust is routed via the plant stack.
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NOTE 14: For Estimation of Atmospheric Stability Split Sigma - Temperature Differential, Reg. Guide 1.97, Rev. 3 recommends a range of 5 to 10 DEG C. Provided range is 5 to 5 DEG C.
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GUIDE FOR TABLE 2 ENTERGY OPERATIONS, INC.
WATERFORD SES UNIT NO. 3 1 RESPONSE-TO REGULATORY GUIDE 1.97, REVISION 3 )
Column Heading l
Serial Number: Sequential no. for each variable in Reg. Guide 1.97 Variable: Name of the variable as defined in Reg. Guide 1.97.
' RG 1.97 Type / Category: Type and Category of variable as defined in Reg. Guide 1.97.
Loop _ Component: UNID nos, of sensing, indicating and recording devices that are part of the instrumentation loop.
Component Type: - Defines the function of the component as fo!! cwt.
S: Sensing Device I: Indicating Device R: Recording Device .
Location: Provides the building location for sensing device or the Control Panel no. for indicating or recording device. Following symbols are used.
RB: Reactor Building (Wing Area)
RCB: Reactor Containnient Building RAB: Reactor Auxillary Building ANN: Annulus Shield Building CP: Control Panelin Control Room TGB: Turbine Generator Building FHB: Fuel Handling Building CHILL: Chlller Building ENV: Defines Environmental Qualification status of the loop, A: All or part of the instrument loop components fall within the scope of 10CFR 50.49 and NUREG 0588, Loop components located in a harsh environment are qualified for the environment in which they are located.
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B: This instrument loop is Class 1E, is located in a mild l environment and is designed to function in such an i environment. l C: This instrument is non. Class 10 and is designed to withstand its specific service environment.
N/A: Not Applicable SEIS: Defines Seismic Qualification status of the loop. Following notations are used.
A: Applicable components of this loop are se:smically qualified in accordance with the criteria of FSAR Section 3.10.
N/A: Not Applicable OA: Defines Quality Ast;urance level of loop. Following notations are used.
A: Either all or part of the components of this instrument loop are Class 1E or installed on safety class 1,2,3 lines or have an LP&L safety class designation of *SR".
(Ref: 0 List). As such it is subject to quality assurance program requirements in accordance with 10CFR50 Appendix B.
B: This loop is Non Class 1E but it requires Quality Assurance requirements to support EO and/or SO requirements as specified by Reg. Guide 1.97 Rev,3.
N/A: Not Applicable Power Supply Class: Classifles the pt.wer supply of loop components. NOTE: Vital receives power from uninterruptible power source.
Emergency is backed up by Diesel Generator and/or Batteries.
Range / Units: Define the range and the units for the instrument.
Following units have been used, ppm: Parts per Million DEGF: Degrees in Fahrenheit DEGO: Degrees in Celslus PSIA: Pounds per square inch absolute PSIG: Pounds per square inch gage Ft: Feet 53 -
0
- FTW: Feet of Water INW: Inch of Water GPM: Gallons per Minute Cu Ft: Cubic Feet A: Ampere G: Gallons MPPH: Million Pound Per Hour V: Volts MW: Mega Watts MVAR: Mega Volt Amp Reactive Hz: Hertz UCl/cc: Micro Curies per Cubic Centimeter SCFM: Cubic Feet per Minute (Standard) !
DEG: Degrees for Angular Direction !
MPS: Meters per Second KG: Kilo Gram R/HR: Roentgen per hour No. of Channels: Identifies Total number of channels provided for this variable.
This number is indicated on each line item for that variable.
SPDSl/O: Point identification for Safety Parameter Display System.
Comment: Special comments applicable to this loop, e.g. OSPDS stands for Qualified Safety Parameter Display System. PASS stands for Post Accident Sampling System.
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, TABLE 3 '
I WATERFORD-3 N MOONTORING INSTRURENTATION E994AprvaaFNTSTO IME CORrLETED IN RF5
- SER.NO. VARIAELE CURRENT STATUS -
t PROPOSED ENHANCEIWENTS SCHEDULE FOR COMPLETION l.
I j 004; 005 RCS Cold Leg '
l Recorder RC-ITR-115/125 SMR-RC-040 ' has been generated RF5
- WaterTemp and inputs are Non-1E i to upgrade recorder and inputs. ;
j ,- 006 RCS Hot Leg _ Range for recorders is ,
SMR-RC-040 has been generated RF5 i Water Temp. - 525- 675 DEGF. to upgrade recorder..
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Required rany is 50 - 700 i DEGF.
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- . 046 Pressurizer Level No Class 1E Recorders are
SMR-RC-040 has been generated to RF5 i provided. provide a qualified recorder. i 051 Steam Generator No Class 1E Recorders are SMR-EFW-002 has been generated RF5 Level provided. to install qualified 1E recorders.
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- 056 Condensate No recostling capability SMR-EFW-002 has been generated RF5
{ Storage Pool :
i .to provide recording capability Water Level for at least one channel. ,
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I W3F191-0019 l
ATTACilhiENT 2 COhiPARISON BETWEEN i TIIE 1983 REG. GUIDE 1.97 SUBhil' ITAL
-AND TIIE NEW SUBhilTTAL ?
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GENERIC DIFFERENCES The first generic difference between the two subrnittals is that the 1983 submittal is Lased on Reg. Guide 1.97, Rev. 2 and the new subn.ittal is based on Reg. Guide 1.97, e
. Rev. 3. i The new submittal has a comprehensive explanatory guide for Table 2 which is not present in the old submittal. This guide de' fines all the attributes and their contents for ,
Table 2, e.g. all the locations, units, etc., have been defined in this guide All the notes
' which are referred to in Table 2 are explained in this guide. ,
The old submittal uses a reference number for each variable which starts with no.1 every time the variable type changes. The new subrnittal uses a serial number from 001 !
to 096 which is distinct for each variable.
The old submittal does not provide a tag number for any instrument or component.: The new submittal provides all t:1e UNID numbers for tbc sensing, indicating and recording devices along with the applicable information fe,r each componenti For each variable all the applicable loops are defined.-
The old submittal does not show any information about the Waterford 3 Safety -e Parameter Display System (SPDS) which has displavs in both the Technical Support m Center (TSC) and the Emergency Operations Facility (EOF). The new submittal shows ,
all applicable SPDS point ID numbers for all loops..
Notes for Environmental Oualification, Seismic Qualification and Quality-Assurance -
have been revised in the new submittal to show consistency among each other and with the power supply source. -
Table 1.0 of this attachment identifies the significant specific differences between Table L 2 of the 1983 submittal and the proposed new submittal (Attachment 1).
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' TABLE 1.0 DIFFERENCES IN TABLE 2 OF OLD AND NEW SUBMITTAL
_ =:.
SERIAL # VARIABLE NAME OLD SUBMITTAL NEW SUBMITTAL 1 Neutron Flux Number of Channels = 4 Numberof Channels = 2 Range = 10* - 200% Range = 10* - 100%
! 2 Control Rod Position Power Supply = N1E Vital Power Supply = 1E Vital 3 RCS Soluble Boron Range = 10 - 5000 ppm Range = 0 - 5000 ppm Concentration i 4 Cold Leg Water Recorders provided are N1E 1E recorders will be provided.
Temperature for Category 1 variable.
6 Hot Leg Water Recorders provided do not Upgraded recorders will be provided.
Temperature cover the range required by Reg. Guide 1.97, Rev. 3 7 RCS pressure Number of Channels = 4 Number of Channels = 6 i 16 Containment Sump Range = 0 - 20 Ft. Range = 0 - 16 Ft.
Level Wide Range 21 Containment isolation No UNID numbers are This variable provides information about Valve Position provided. all automatic containment isolation valves. Information includes all UNID numbers for sensors and indicators.
3 Total of 75 loops are described.
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TABLE 1.0 DIFFERENCES IN TABLE 2 GF OLD AND NEW SUBMITTAL SERIAL # VAHtABLE NAME OLD SUBMITTAL NEW SUBMITTAL 31 Containment Power Supp!y = 1E Power Supply = 1E Vital Hydrogen Emergency Concentration 34 Radiation Exposure information is provided. No information is provided because this Rcte variable has been deleted from Rev. 3 of Reg. Guide 1.97.
38 Safety injection Tank Range = 12 - 88% of Tank Range = 5 - 95% of Tank Volume Level Volume.
SaStyinjection Tank No UNID Numbers are UNID number for the sensing device is l
39 Valve isolatiion shown. provided.
Position 41 Flow in HPSI system Range = 0 - 400 gpm Range = 0 - 500 gpm to Cold Leg 43 Refueling Water Range = Top to Bottom Range = 0 - 21 FL Storage Poc! Level Pressurizer Safety No UNID Numbers are UNID numbers are provided for the 45 Valve Position shov n. sensing devices.
46 Presserizer Level Range = Lowes' connection Range = 28.8 - 10959.9 Gallons to highest cont. clion.
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TABLE 1.0 D!FFERENCES IN TABLE 2 OF OLD AND NEW SUBMITTAL I
SERIAL # VARIABLE NAME OLD SUBMITTAL NEW SUBMITTAL 47 Pressurizer Power Supply = 1E Power Supply = N1E Proportional Heater Emergency Status 49 Quench Tank Level Range = Top to Bottem of Range = 83.7 - 2367.3 Gallons Tank 51 Steam Generator Level Range = Bottom to Top This variable is divided into wide rangc connection of Steam and narrcw range. j ,
Generator For Narrow Range j l No. of Channels = 4/SG No. of Channels = 4/SG l Range = 38.12 - 159.84 INW !
For Wide Range j No.of Channels = 2/SG j Range = 0 - 40 FL Further details are provMed in No!a 9.
l I 52 Steam Generator Power Supply = 1E Vital & Power Supply = N1E Vitel Pressure i 53 Main Steam Flow No.of Channels = 2/SG Nc.of Channels = 1/SG l Indication P 54 Main Feedwater Flow No.of Channels = 2 No.of Channels = 2/SG 55 EFW Flow No.of Channels = 1 No. of Channe!s = 1/SG _
56 Condensate Storage Range = 0 - 25 Ft. Range c 0 - 21 FL ,
Pool Water Level l s
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t TABLE 1.0 DIFFERENCES IN TABLE 2 OF OLD AND t0EW SUBMITTAi_
s-
! SER!AL # ' VARIABLE NAME OLD SUBMRTBy NEW SU6MITTAL ,
. 57 Containment Spray Range = 0 - 5000 gpm Range = 0 - 2500 gpm l Flow- .
I 58 CCW Flow Fram No. of Channels = 2/ Cooler No. of Channels = 1/ Cooler Containmont Fan Cooiers a 59 Containment No. of Channels = 4 No. of Channels = 1/ Cooler Atmospheric Temp.
63 Volume ContrcJ Tank Gange = Top to Bottom of Range = 469.3 - 4410.7 Galiens Lavel Tank 64 CCW Temperature to Range = 32 - 130 DEGF Range = 50 - 130 DEGF ESF System 66 High Level Range = Top to Bottom of Range = 1565.5 - 46576.8 Gallons i Radioactive Uquid Tank ]
Hold Up Tank Leve!
Emergency Ventilation No UNID numbers are UNID numbers are provided for all ,
G8 Camper Position provided Emergency Ventilation Dampers. TM I of 56 loops are described.
69 Power Supolies DG Rarge = 55 - 65 HZ Mnge = 50 - 65 HZ 1 & 2 Frequency 69 Power Supplies DG Range = 0 - 6 MW Range = 0 - 7 MW 1 & 2 Watts
P TABLE 1.0
of 3reakers Current, Frequency and Power. Another variable has also been added which provides voltage for each of the two Emergeracy Buses. 'Nath all this information available to the operatcr, g there is no need for Loading Sequenu and Status of Breakers.
80 Radiation Exposure information is provided This variable is deleted in Reg. Guide Meters 1.97,Rev.-)
82 Plant and Environs "ange: Photons 10' - 10' Range : Photons 2E(-4) - 10E4 R/hr Radiation R/hr Beta 10E(-3) - 10E4 Rads /hr Beta 10 -- 2.5 x 10' Rads /hr 84 Wind Direction Range = 0 - 360 Degrees Fange = 0 - 540 Degrees ,
86 Est. of Atmos. Stab.
Split Sigma- Temp. Range = -5 to +5 Degrees C Range = -5 !o +10 Degrees C , i Diff.
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