Equipment Evaluation Rept, Partial Review.List of Equipment Requiring Addl Info &/Or Corrective Action Encl

ML17340A783
Person / Time
Site:	Turkey Point
Issue date:	02/11/1981
From:	Office of Nuclear Reactor Regulation
To:
Shared Package
ML17340A782	List: ML17340A781 ML17340A783
References
NUDOCS 8103040994
Download: ML17340A783 (64)
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Text

Partial Review EQUIPMENT EVALUATION REPORT.BY THE OFFICE OF NUCLEAR REACTOR R""7:ON EQUIPMENT QUALIFICATION BRANCH FOR FLORIDA POVER AND LIGHT COMPANY TURKEY POINT UNITS 3 AND 4 DOCKET NO.

50-250/251

I

Pariia;.

Review EQUIPMENT EVALUA: 'ON REPORT'Y THE OFFICE OF NUCLEAR REACTOR REGULATION EQUIPMENT QUALIFICATION BRANCH FOR FLORIDA PGVER 8

LIGHT COMPANY TURKEY POINT UNITS 3 AND 4 DOCKET NO. 50-250/251 3

STAFF EQUIPMENT EVALUATION The staff evaluation of the licensee's response included an onsite inspect>on of selected Class IE equipment and an examination of the licensee's report. for cd-.;pleteness and acceptability.

The criteria described in the DOR guidelines anc in NUREG-0588, in part, were used as a basis for he staff evaluation of

-.he adequacy of the licensee's qualification program.

.The tiRC Office. of Inspection and Enforcement performed '(1) a preliminary evaluation of the licensee's

response, documented in a technical evaluation re".ort (TER) and (2) an onsite verif'.cation inspection (end of May and the week of October 6, 1980, for Units 3 and 4, respectively) of selected safety-related elec:rical equipment.

The component cooling and containment ventilation systems were inspected at Unit 3; the chemical and volume con-.olii safety in.-:e."tion, and residual heat removal systems were inspected a

.'nit 4.

The in=-poction at both units verified proper installation of equi nt, overall

'.;,=.=,"face integrity, and manufacturers i nameplate data.

The ufactur er' na;.,e and model number from the namepia-e data were compared nformatiori

='.e.; in the Component Evalua.ion Ro."k Sheets (CES) of the 1'ee's report.

.=

=-i e inspection is documentec fo" ;nits 3 and 4 in report

= 50-250/8"-18

=--,= "51/80-19, respectively.

No def c'encies were noted for

>it 3 for I..-.-: 4, the only differences nc.=ed be-.~'een onsite inspection Oat'a and the data

=-e licensee's submittal are in '.;:= model number for flow :ransmitters

=.--;-9 2 and FT-4-933.

These ciscre a"cies had also been identified by 'he

=e-;see and corrective meassures na= "een taken.

For this review, the

""= '-,ents referenced above have

." er. factored i nto the overal

. staff a=ion Completeness of Safety-..".e.:-:ec

=" ioment

n accordance with IEB 79-018, the licensee was directed'o (1) establish a

iisi of systems and equipment, that are required to mitigate a

LOCA and an HELB anc (2) identify components needed to Derform the function of'afety-related cia=:ay information, post-accicent s=-,.=ling and monitoring, and radiation

-.o;"~-.ori ng.

.,".= staff developed a gener',c master 1-'.st based upon a review of plant safety

=;,a..ses and emergency procecures.

The instrumentation selected includes

-a;.=.-..eters to monitor. overall plant performance as well as to monitor the per-

=c-.-..=nce of the systems on the list..he systems list was established on the pasis of the functions that must be performed for accident mitigation (without re=ard to location of equipment relative to hostile environments).

Th list of safety-related systems pro.ided by the licensee was reviewed a

= inst the staff-developed master

'1 i s=.

I

~

~

Based upon information in the licensee's submittal, the equipment location references, and in some cases subsequent conversations with the licensee, the staf has verified and determined that the systems included in the licensee's submittal are those required to achieve or support:

(1) emergency reactor sh 'tdown, (2) containment isolation, (3) reactor core cooling, (4) containment heat removal, (5) core residual heat removal, and (6) prevention of signifi-cant release of radioactive material to the environment.

The staff therefore concludes that the systems identified by the licensee (listed in Appendix D) are acceptable, with the exception of those items discussed in Section 5 of his report.

Oisplay instrumentation which provides information for the reactor operators

o aid them in the safe handling of the plant was not specifically identified by the licensee.

A complete list of all display instrumentation mentioned in

-.he

'OCA and.HELB emergency procedures must be provided.

Equipment qualifi-ca-ion information 'in the form of summary sheets should be provided for all

.co...ponents of.the display instrumentation exposed to harsh environments.

nstrumentation which is not considered to be safety related but which is

'entioned in the emergency procedure should appear on the list.

For these instruments, (1) justification should be provided for not considering the instrument safety related and (2) assurance should be provided that its su'equent failure. will not mislead th'e operator or adversely affect the mi-.gation of the consequences of the accident.

The environmental qualifi-ca=ion of post-accident sampling and monitoring and radiation monitoring eq 'i"ment is closely related to the review of the TMI Lessons-Learned mo"i-ications and will be performed in conjunction with that, review.

.'",= ;icensee

.identified 337 items of, equipment which were assessed by the st:-f-..

Because Units -3 and 4 are nearly identical, the, review can be per-

=c"mad as one.

Oifferences in the units will be identified by a parenthetical

=x=ression, with the applicable unit number enclosed.

Service Conditions

c-.:.-,.-',ssion Memorandum and Order CLi-80-21 requires that the OOR guidelines and

-.= '.For Comment" NUREG-0588 are to be used as the criteria for establishing

r=- adequacy of the safety-related electrical equipment environmental quali-

-.i =a=ion program.

These documents provide the option of establishing a bounding pressure and temperature condition based on plant-specific analysis identified in the licensee's Final Safety Analysis Report (FSAR) or based on generic profiles using the methods identified in these documents.

"r. --.is basis, the staff has

assumed, unless otherwise noted, that the an-=:..sis for developing the environmental envelopes for Turkey Point Units 3

=n=: -'., relative to the temperature,

pressure, and the containment spray caus-

=.-;"s, has been performed in accordance with the requirements stated above.

The

=--=--.-.

has reviewed the qualification documentation to ensure that the quali-

-.':ca~ion specifications envelope the conditions established by the licensee.

Du-ing this review, the staff assumed that for plants designed and equipped wi=h an, automatic containment spray system which satisfi'es the single-failure cr erion, the main-steam-line-break (MSLB) environmental conditions are en',eloped by the large-break-LOCA environmental conditions.

The staff assumed,

a. " requires the licensee to verify, th'at the containment spray system is not

0

subjected to a disabling single-component failure and therefore satisfies the reouirements of Section 4.2.1 of the DOR guidelines.

Equipment submergence has also been addressed where the possibility exists that flooding of equipment may result from HELBs.

3. 3 Tem erature Pressure and Humidit Conditions Inside Containment The licensee has provided the results of accident analyses as follows:

('

LOCA.

llSLB 276 212 50 not provided 100 100 The staff has concluded that the minimum temperature profile used in the

.specifications for equipment qualification purposes should include a margin to account for higher-than-average temperatures in the upper regions of the con-ta nment that can exist due to stratification, especially following a postulated HS'.

Use of the steam saturation temperature corresponding to the total building pressure (partial pressure of steam plus partial pressure of air) versus time will provide an acceptable margin for either a postulated LOCA or tlS', whichever is controlling, as to potential adverse environmental effects on ecuipment.

The licensee's specified temperature (service condition) of 276'F does not sa=isfy the above requirement.

A saturation temperature corresponding to the pr=ssure profile (298'F peak temperature at 50 psig) should be used instead.

,h=.icensee should update his equipment summarv tables,to reflect this change.

tnere is any equipment that does not meet the staff position, the licensee must o. ovide either justification that the equioment will perform its intended

=,,u;e:ion under the specified conditions or propose corrective action.

Tem erature Pressure.

and Humiditv Conditions Outside Containment icensee has provided the temperature, pressure.

and humidity associated

".=,"> an HELB outside containment, as well as app'amicable radiation levels asso"iated with equipment in the proximity of recirculating fluid lines.

The fo:lowing area outside containment has been addressed:

(1)

Auxiliary building

he,=taff has verified. that the parameters identified by the licensee for the (AS

= are acceptable..

Tne maximum submergence levels 'have.been established and assessed by the licensee.

Unless otherwise

noted, the. staff assumed for this review that the me:hodology employed by the licensee is in accordance with the appropriate cr.'eria as established by Commission l1emorandum and Order CLI-80-21.

-3"

~

~

The licensee's value for maximum submergence is 19 ft 0 in. inside containment.

Equipment below this level has been identified by the licensee, along with the pr cposed cor rective action.

The licensee identified 12 safety-related electrical components for Unit 3 and 13 for Unit 4 as having the potential for becoming su"verged after a postulated event.

As a corrective action, the licensee proposes replacing some of these components; in other cases, the licensee is considering relocation of the components.

Based on its review of the licensee's submittal, the staff concurs with the proposed resolution.

The licensee stated further that some of the components will perform their functions before becoming submerged.

In these

cases, the licensee should provide an assessment of the failure modes associated with the submergence of the components.

The licensee should also provide assurance that the subsequent fa; lure of these components will not adversely affect any other safety functions or m;:slead an operator.

Additionall'y, the licensee should discuss operating time, across the spectrum of events, in relation to the time of submergence.

If the results of the licensee's assessment are acceptable, then the components ma'.

be exempt from the submergence parameter of qualification.

The licensee's FSAR value for the chemical concentration is 2030 ppm boric ac-.d solution; the concentration, and pH values of the boric acid solution used by several vendors for their qualification testing cannot be established by

-.ne licensee's submittals.

Therefore, for the purpose of this review, the ef-.ects of chemical spray will be, considered unresolved.

The staff will rev'ew the licensee's response when it is submitted and discuss the resolution

=-

s pplemental report.

~A"in

e=,o."

7 of the DOR guidelines does not require a qualified life to be estab-isned for all safety-related electrical equipment.

However, the following ac=',cns are required'.

!':ake a detailed. comparison of existing equipment and the materials identi-

ea in Appendix C of the DOR guidelines.

The first supplement to IEB-79-OlB requires licensees to utilize the table in Appendix C and identify any additional materials as the result of their effort.

(2)

Establish an ongoing program to review surveillance and maintenance records to identify potential age-related degradations.

C

{"-:;

Establish component maintenance and replacement schedules which include considerations of aging characteristics of the installed components.

"= ;icensee identified a number of equipment items for which a specified c =-'.'.;';ed life was established

{for example, 5 years, 15 years, or 40 years).

~n ts assessment of these submittals,.the staff did not review the adequacy of the methodology nor, the basis used to arrive at these values; the staff has assumed that the established values are based on state-of-the-art technology an"'re acceptable.

~i 0

For this review, however, the staff requires that'he licensee submit supple-mental information to verify and identify the degree of conformance to the above requirements.

The response should include all the equipment identified as required to maintain functional operability in harsh environments.

The,icensee indicated that this phase of the.response is outstanding and that the review is in progress.

The staff wi 11 review the licensee's response when it is submitted and discuss its evaluation in a supplemental report.

3. 8 Radiation (Inside and Outside Containment)

The licensee has provided values for the radiation levels postulated to exist foll.owing a LOCA.

The application and methodology employed to determine these values were presented to the licensee as part of the NRC staff criteria con-ia',ned in the DOR guidelines, in NUREG-0588, and in the guidance provided in IE="-79-01B, Supplement 2.

Therefore, for this review, the staff has assumed

.hat.

unless otherwise

noted, the values provided have been determined in acco,"dance with the prescribed criteria.

The staff review determined that the values to which equipment was qualified enveloped the requirements identified by the licensee.

The value required by the licensee inside containment is an integrated dose of 4 x :0~ rads.

This value envelopes the DOR guideline requirements and is therefore acceptable.

Requ-':red values outside containment of 7.5 x 106 rads in the RHR pit and i0~ rads in the RHR pump area have been used by the licensee to s'pecify li;.i:ing radiation levels within the auxiliary building.

These values appear

" c"nsider the radiation levels influenced by the source term methodology

-ssc=iated with post-LOCA recirculation fluid lines, and are therefore

=c"e:.able.

'"~n'F ICATION OF E(UIPHENT

-.= =ollowing subsections present. the staff's assessment, based on the licensee's

-=a=;-.'::al, of the qualification status of safety-related electrical equipment.

The =--:aff has separated the safety-related equipment into three categories:

(1) equipment requiring immediate corrective action, (2) equipment requiring additional qualification information and/or corrective action, and (3) equip-ment considered acceptable if the staff s concern identified in Section 3.7 is sa=,'s actorily resolved.

n '.:s assessment of the licensee's submittal, the NRC staff did not review

=".=" -ieihodology employed to determine the values established by the licensee.

Ho~ever, in reviewing the data sheets, the staff made a determination as to

h=- stated conditions presented by the licensee.

Additionally, the staff has nc: ;ompleted its review of supporting documentation referenced by the licen-see (for example, test reports).

It is expected that when the review of test

",e=".rts is complete, the environmental qualification data bank established by the staff will provide the means to cross reference each supporting document c

=ne referencing licensee.

If s"pporting documents are found to be unacceptable, the licensee will be rec ired to take additional corrective actions to either establish qualifi-ca-ion or replace the item(s) of concern.

This effort will begin in early An a"pendix for each subsection of his report provides a list of equipment for munich additional information and/or corrective action is required.

Mhere appropriate, a reference is provided in 'the appendices to identify. deficiencies.

It should be noted, as in the Commission Hemorandum and Order, that the deficien-cies identified do not necessarily mean that equipment is unqualified.

However, they are cause for concern and may,require further case-by-case evaluation.

4.~

. Eau-,pment Reauirin Immediate Corrective Action 4.Z Equipment Re uirina Additional Information and/or Corrective Action A"=e.-.d-:.x

=. identifies equipment in this category, including a tabulation of

."~=icienc-es.

The deficiencies are noted by a letter relating to the legend

-:="'elow), indicating that the information provided is not sufficient

=;;=-

= =--lification parameter or condition.

J

~ ~

RC' i,l Ofl

- temperature cualification time

- ".equired 'time

- pressure

- chemical spray

- ma.erial-aging evaluation; replacement scnedule; ongoing equipment surveillance S

- submergence N

- margin HELB evaluation outside containment not completed

- qualification method

.";.-"t' equipment relocation or replacement; adequate schedule not provided

=r".ti - exempted equipment justification inadequate S:-!i - separate-effects qualification justification inadequate

- qualification information being developed

.";."-:- - equipment relocation or replacement schedule provided

.s noted in Section 4, these deficiencies do not necessarily mean that the ec

'.>men is unqualified.

However, the deficiencies are cause for concern and rec':re further case-by-case evaluation.

The staff has determined that an

--le basis to exempt equipment from qualifica ion, in whole or part, can

be established provided the following can be established and verified by the licensee:

(1)

Equipment does not perform essential safety functions in the harsh environ-

ment, and equipment failure in the harsh environment will not impact safety-related functions or mislead an operator.

(2a) Equipment performs its function before its exposure to the harsh environ-

ment, and the adequacy for the time margin provided is adequately justified, and (2b) Subsequent failure of the equipment as a result of.the harsh environment

. does not degrade other safety functions or mislead the operator.

(3)

The safety-related function can be accomplished by some other designated equipment that has been adequately qualified and satisfies the single-failure criterion.

(4),

Equipment will not be subjected to a harsh environment as a result of the postulated accident.

The licensee is, therefore, required to supplement the information presented by providing resolutions to the deficiencies identified; these resolutions should include a description of the corrective action, schedules for its completion (as applicable),

and so forth.

The staff will review the licensee's

response, when it is submitted, and discuss the resolution in a supplemental re-ort.

t should be noted that in cases where testing is being conducted, a condition ma'; arise which results in a determination by the licensee that the equipment do=s not satisfy the qualification tes requirements.

For that equipment, the i"ensee will be required to provide tne proposed corrective action, on a

=i;,e y basis, io ensure thai qualification can be establ'ished'y June 30, 9""2.

Equi ment Considered Acceptable or Conditionally Acceptable Eased on the staff review of the l.icensee's submittal, the staff identified the equipment in Appendix C as (1) acceptable on the basis t,hat the qualifi-cation program adequately enveloped the specific environmental plant parameters, or (2) conditionally acceptable subject to the satisfactory resolution of the staf; concern identified in Section 3.7.

C

or

-.-he equipment identified as conditionally acceptable, the staff determined

~hat the licensee did not clearly (1) s'ate that an equipment material evaluation,was.conducted to ensure that no known materials susceptible to degradation because of aging have 'been

used, (2) establish an ongoing program to review the plant surveillance and main-tenance records in order to identify equipment degradation which may be age related, and/or (3) propose a maintenance program and replacemert schedule for equipment identified in item 1 or equipment that is qualified for less than the life of the plant.

The licensee is, therefore, required to supplement the information presented for equipment in this category before full acceptance of this equipment can be established.

The staff will review the licensee's response when it is sub-mitted and discuss the resolution in a supplemental report.

5 DEFERRED REQUIREMENTS IEB 79-01B, Supplement 3 has relaxed the time constraints for the submission of the information associated with cold shutdown equipment and TMI lessons-learned modifications.

The staff has required that this information be provided by February 1, 1981.

The staff will pt ovide a supplemental safety eva:uation addressing these concerns.

li I

APPENDIX 8 Equipment Requiring Additional Information and/or Corrective Action (Category 4.2)

LEGiND:

Oesionation for Oeficienc R - Radiation T ; Temperature QT - Qualification Time RT - Required Time P - P'ressure H - Humidity CS - Chemical spray A - Materi'al aging evaluation, replacement

schedule, ongoing equipment surveillance S

-. Submergence M - Margin I -

HELB evaluation outside containment not completed QM - Qualification method RPt. - Fquipment relocation or replacement, adequate schedule not provided EXN - Exempted equipment justification inadequate SEt' Separate effects qualification justification inadequate

- Qualification information being developed RPS - Equipment relocation or replacement schedule provided Equipment Oes:; iDtion Manufacturer Com onent No.

Oeficienc Pressure Transmitter Fischer 8; Porter Pressure Transmitter Fischer 8 Porter Pressure Transmitter Fischer

<5 Porter Pressure Transmitter Fischer f. Porter Pressure Transmitter

-Fischer 8: Porter Pressure Transmitter Fischer 8; Porter Level Transmitter Barton PT-3-405 PT-3-406 PT-3-404 PT-3-455 PT-3-456 PT-3-457 LT-3-459 Prcssure Transmitter Fischer 8: Porter PT-3-403 R,QT,A,QM,S, RPN P,A,QM,S,RPN A,QM,S,RPN A,QM,S,RPN RT,H,CS,A,QM RT,H,CS,A,QM RT,H,CS,A,QM R,H,CS,A,QM, RPN

APPENDIX B (Continued) cqu)pment Descri tion Manuiacturer Com onent No.

Deficienc Level Transmitter Level Transmitter Barton Barton LT-3-460 LT-3-461 R,H,CS,A,QM, RPN R,H,CS,A,QM, RPN Resistance Tem-perature Detector Resistance Tem-

.perature Detector Res.istance Tem-perature Detector Resistance Tem-perature Detector

.",esistance Tem-ce. ature Detector

.esistance Tem-

erature Detector

'.= ve Motor

".o=rator Rosemount Rosemount Rosemount Rosemount Rosemount Rosemount Operator-Limitorque Motor-Peerless TE-3-4128 TE-3-412D TE-3-422B TE-3-422D TE-3-4328 TE-3-432D HOV-3-535 A,QM A,QM A,QM A,QM A,QM A,QH P,H,A

',=- ve Motor

oe. ator Operator-Limitorque Motor-Peerless MOV-3-536 P,H,A Resistance Tem-perature Detector

.=,esistance Tem-

-er~-.ure Detector Rosemount Rosemount, TE-3-410 TE-3-413 A,QM A, Ql'1

.;esistance Tem-

e. ature Detector Rosemount TE-3-420 A,QM

=.esistance Tem-

"erature Detector Rosemount TE-3-423 A,QM Resistance Tem-perature Detector Rosemount TE-3-430 A,QM B-2

APPENDIX 8 (Continued) qulpment Descri tion Resistance Tem-perature Detector Solenoid Valve Limi.t Switches Limit Switches Limit Switches Limit Switches

'imit S~itches

=o enoid Valve So:enoid Valve So.enoid Val,ve

=o e,",oid Valve Electric Pneumatic Transducer

';-. i: Switches So.enoid Valve Manufacturer Rosemount Automatic Switch Company NAMCO NAMCO NAMCO NAMCO NAMCO Automatic Sw',tch Company Automatic Switch Company Automatic Switch Company Automatic Switch Company Fisher Governer Co.

NAMCO Automatic Switch Company Com onent No.

TE-3'-433 SV-3-310A no tag no.(Assoc.

w/CV-3-310A) no tag no.(Assoc.

w/CV-3-3108) no tag no.(Assoc.

w/CV-3-200A) no tag no.(Assoc.

w/CV-3-2008) no tag no.(Assoc.

w/CV-3-200C)

SV"3"3108 SY-3-200A SV-3-2008 SV-3-200C no tag no.(Assoc.

w/HCV-3-121) no tag no.(Assoc.

w/HCV-3"121)

SV-100 Deficienc A,QM R,T,QT,P,H,CS, A,QM,RPN R,T,QT,P,H,CS, A,QM,M,RPN R,T,QT,P,H,CS, A,QM,M,S,RPN R, T,QT,P,H,CS, A,Q,M,S,RPN R,T,QT,P,H,CS, A,Q,M,S,RPN R,T,QT,P,H,CS, A,Q,M,S,RPN R,T,QT,P,H,CS, A,Q,M,S,RPN R,T,QT,P,H,CS, A,Q,M,S,RPN R,T,QT,P,H,CS, A,Q,M,S,RPN R,T,QT,P,H,CS A,Q,M,S,RPN T,QT,P,H,A,QM, M

T,P,H,A,QM T,P,H,A,QM Temperatur e Indicator Foxboro Controller TIC-100 T,QT,P,H,A,QM, M

8-3

4i

APPENDIX 8 (Continued) quspment Descri tion Level Controller Flow Transmitter Charging. Pump Motor Charging Pump Motor Charging Pump Motor Local Control Station Local Control Station Local Control Station Local Control Station

'cal Control Station

'cal Control Stail on Pressure Switch Pre~sure Switch Pressure Switch Motor for Boric

'Acid Transfer Pump Motor for Boric Acid Transfer Pump Manufacturer United Electric Controls Co.

Foxboro Mestinghouse Mestinghouse Westinghouse Mackworth G.

Rees Div.

Mackworth G.

Rees Div.

Mackworth G.

Rees Div.

Mackworth G.

Rees Div.

Mackworth G.

Rees Div.

Mackworth G.

Rees Div.

United Electric Control s Co.

United El ectri c Controls Co.

United Electric Controls Co.

Chem Pump Chem Pump Com onent No.

LC-101 FT-3-110 3-P201A 3-P201B 3" P201C 3N201A 3N201B 3N201C 3N203A 3N2038 3N206 PS-3-201A PS-3-201B

-PS-3-201C 3-P203A 3-P203B Deficienc T,P,H,A,QM T,QT,P,H,A,QM, M

T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,OM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,'A,QM

APPENDIX B (Continued) quipment Descri tion Boric Acid Batch Tank Mixer Valve Motor Operator Manufacturer Dayton Operator-Limitorque Motor-Reliance Com onent No.

T206 MOV-3-350 Deficienc T,QT,P,H,A,QM, M

T,P,H,A,QM Flow Transmitter Fischer 8 Porter Pressure Transmitter Fischer 8 Porter

.Pressure Transmitter Fischer 8 Porter Flow Transmitter Flow Transmitter Flow Transmitter Fischer 8 Porter Fischer 8 Porter Fischer 8 Porter Flow Transmitter Fisher 8 Porter Flow Transmitter RHR Pumo t1otor RHR Pump t1otor Va'.ve t1otor Operator Fisher 8 Porter Westinghouse Westinghouse Operator-Limi torque Motor-Reliance Valve t1otor Operator Operator-Limitorque Motor-Reliance FT-3-122 PT-3-940 PT"3"943 FT-3-940 FT"3-943 FT-3"932 FT-3-933 FT-3-605 P-3-210A P-3-210B NOV-3-744A MOV-3-744B T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM QT,P,A,Qt1,S,N, RPN QT,P,A,Qt1,S,N, RPN T,P,H,A,Qtl T,P,H,A,QN T,P,H,A,QN R,T,P,H,CS,A R,T,P,H,CS,A Valve tlotor Operator Operator-Limitorque MOV-3-750 Motor-Reliance Valve t1otor Operator Operator-Limitorque NOV-3-751 Motor Reliance P,A,QN P,A,QM Valve Motor Operator Operator-Limitorque Motor Reliance MOV-3"843A T, P,H,A,QM

'Valve Motor Operator Operator-Limitorque NOV-3-843B Motor Reliance T,P,H,A,QM B-5

Oi

APPENDIX 8 (Continued) quspment Description Valve Motor Operator Valve Motor Operator Manufacturer Operator-Limitorque Motor-Peerless Operator-Limitorque Motor-Peerless Com onent No.

MOV-3-860A NOV-3-8608 Deficienc T,P,H,A,QM T,P,H,A,QN Valve Motor Operator Operator-Limitorque Motor-Peerless

'MOV-3-863A T,P,H,A,QM Val.ve Motor Operator Valve Motor Operator Operator-Limi torque Motor-Peerl ess Operator -Limitorque Motor-Peerless MOV"3-8638 MOV"3-866A T,P,H,A,QM P,H,A,QM Valve Motor Operator Operator-Limitorque Motor-Peerless MOV-3-8668 P,H,A,QM Val ve Motor Operator Operator-Limitorque Motor-Peerless MOV-'-867A T,P,H,A,QN Val ve Motor Operator Operator-Limitor que Motor-Peerless NOV-3-8678 T,P,H,A,QN Valve No+or Operator Operator-Limitorque Motor-Reliance NOV-3-87SA T,P,H',A,QN Valve Motor Operato~'perator-Limitorque Motor-Peerless MOV-3-8788 T,P,H,A,QN Valve l5otor Operator Operator-Limitorque Motor-Peerless MOV-3-SSOA T,P,H,A,QN Valve Motor Operator Operator-Limitorque Motor-Peerless MOV-3-8808 T,P,H,A,QN Vali: Motor Operator Operator-Limitorque Motor-Peerless NOY-3-869 T,P,H,A,QN Valve Motor Operator Operator-Limitorque Motor-Peerless NOV-3-872 T,P,H,A,QN Safety Injection Pump Motor Westinghouse 3P215A T,P,H,A,Ql5 8-6

APPENDIX 8 (Continued) qu>pment Descri tion Safety Injection Pump Motor Containment Spray Pump Motor Containment Spray Pump Motor Pressur'e Controller Pressure Controller Manufacturer Mestinghouse Mestinghouse Mestinghouse United Electric Controls Co.

United Electric Controls Co.

Com onent No.

3P215B P-3-214A P-3-214B PC-3-600 PC-3-601 Deficienc T,P,H,A,Ql1 T,P,H,A,QM T,P,H,A,QM T,QT,A,Qt1,h1,P, H

T,QT,A,QM,t1,P, H

Pressure Controller Barton Pressure Controller Barton

."-ressure Controller Barton Pressure Controller Barton PC-957A PC-957B PC-957C PC-957D R,T,QT,P,H,A, QM,M R,T,QT,P,H,A, QM,M R,T,QT,P,H,A, QM,M R,T,Q,T,P,H,A, Qt1,M

'vel Switch

e;e Switch t1aonetrol t1agnetrol LS-3-1570 LS-3-1571 R,T,QT,P,H,CS, A,QM,S,h1,RPN R,T,QT,P,H,CS, A,QM,S,M,RPN Local Control Station Mackworth G.

Rees 3N215A Div.

ocQ Lo a I Control Station t1ackworth G.

Rees 3N215B Div.

Control Station Mackworth G.

Rees 3N214A Div.

Local Control Station Mackworth G.

Rees 3N214B Div.

Local Control Station t1ackworth G.

Rees 3N210A Div.

T,P,H,QT,A,QM, M

T,P,H,QT,A,QM ta T,P,H,QT,A,QM tl T,P,H,QT,A,QM M

T,P,H,QT,A,QM t1 B-7

~I

APPENDIX B (Continued) o" )pment Descri tion Manufacturer Com onent No.

Deficienc 3N210B T,P,H,QT,A,QM M

T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM So',enoid Valve So.enoid Valve So:enoid Valve So,enoi d Valve So'.enoid Valve Solenoid Valve So:enoid Valve So.enoid Valve So:enoid Valve

-:,:itSwitches

i..i-.Switches

~ i-.i-Switches Automatic Switch Co.

SV-3-2920 Automatic Switch Co.

SV.-3-2921 Automatic Switch Co.

SV-3-2922 Automatic Switch Co.

SV-3-2923 Automatic Switch Co.

SV-3-2924 Automatic Switch Co.

SV-3-2925 Automatic Switch Co.

SV-3-2810 Automatic Switch Co.

SV-3-,2812 Automatic Switch Co.

SV-3-2814 Assoc.

w/CV-3-2810 T,P,H,A,QM Assoc.

w/CV-3-2812 T,P,H,A,QM Assoc.

w/CV-3-2814 T,P,H,A,QM NAMCO NAtlCO NAMCO Local Control Station Mackworth G.

Rees Div.

"c-ponent Cooling t1otor

',pcnent Cooling

~";." t1otor Component Cooling Pu;.,p t1otor Westinghouse Westinghcuse Westinghouse 3P211A 3P211B 3P211C T,P,H,A,Qt1 T,P,H,A,QM T, P,H,A,Ql'1 Fl"w Transmitter Fischer 6 Porter

'=='ontrol Station Mackworth G.

Rees Div.

'=al Control Station Mackworth G.

Rees Div.

Lc=al Control Station Mackworth G.

Rees Div.

3N211A 3N211B 3N211C FT.-3"613A T,QT,P,H,A,QM, M

T,QT,P,H,A,QM, M

T,QT,P,H,A,Qtl, M

T,P,H,A,QM B-8

~i

APPENDIX B (Continued)

Eq 'ipment Descri tion Manufacturer Com onent No.

Deficienc Flow Transmitter Pressure Controller Fischer 8 Porter United Electric Controls Co.

FT-3"613B PC-3-611 PT-3-474 PT-3-475 PT-3-476 PT-3-484 PT-3"485 PT-3-486 PT-3-494 PT-3-495 PT-3-496 PT-3-464 PT-3"466 PT-3-468 FT-3-475 FT-3-484 FT-3-485 FT-3-494 FT-3-495 FT-3-474 Pr=s:-ure Transmitter Fischer

& Porter

?r=ssure Transmitter Fischer

& Porter Fischer

& Porter Fischer

& Porter Fischer 8; Porter Fischer 8 Porter Fischer 8; Porter Fischer 8: Porter Fischer 8: Porter Pressure Transmitter

. Transmitter

1"w Transmitter Flow Transmitter Fl"w Transmitter Fl 'Transmitter So enoid Valve So e,",oid Valve So.enoid Valve Automatic Switch Co.

SV-3-2604 Automatic Switch Co.

SV-3-2605 Automatic Switch Co.

SV.-3-2609 Pressure Transmitter Fischer

& Porter Pressure Transmitter Fischer 8 Porter Pressure Transmitter Fischer 8 Porter Pressure Transmitter Fischer 8 Porter Pressure Transmitter Fischer 8: Porter Pressure Transmitter Fischer 8 Porter Pressure Transmitter Fischer 8 Porter Pressure Transmitter Fischer

& Porter Pr=ssure Transmitter Fischer & Porter T,P,H,A,QM T,QT,P,H,A,QM, M

T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QYi T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM R,A,QM R,A)QM R,A,QM R,A,QM R,A,QM R,A,QM T,OT,P,A,QH,M T,QT,P,A,QM,M T,QT,P,A,QM,M B-9

J

APPENDIX 8 (Continued) quipment Description Solenoid Valve Solenoid Valve Solenoid Valve Limit Swi tches Limit Switches Manufacturer Com onent No.

Deficienc Automatic Switch Co.

SV-3-2610 Automatic Switch Co.

SV-3-2614 Automatic Switch Co.

SV-3-2615 T,QT,P,A,QM,M T,QT,P,A,QM,N T,QT,P,A,QM,M NAMCO NAMCO

= Assoc.

w/POY-3-2604 T,QT,P,A,QH,N Assoc.

w/POV-3-2605 T,QT,P,A,QN,M

.Valve Motor Operator Valve h1otor Operator Operator-Limitorque Motor-Peerless Operator-Limitorque Motor-Peerless MOV-3-1403 h10V-3-1404 T, QT, P,'K,A, QH T,QT,P,H,A,QM Va1 ve 'Motor Operator Operator-Limitor que Motor-Peer'less MOV"3-1405 T,QT,P,H,A,QM Level Transmitter Level Transmitter Leve'; Transmitter Level Transmitter Level Transmitter

'.e',,ransmitter Level Transmitter Level Transmitter Level Transmitter C

SolenoId Valve.

So;enoid Valve

'Solenoid Valve Fischer

& Porter Fischer

& Porter Fischer

& Porter Fischer

& Porter Fischer

& Porter Fischer

& Porter Fischer

& Porter Fischer

& Porter Fischer

& Porter Automatic Switch Co.

Automatic Switch Co.

Automatic Switch Co.

LT-3-474 LT-3-475 LT-3-476 LT-3-484 LT-3-485 LT-3-486 LT-3-494 LT-3-495 LT-3-496 SV-3-2900 SV-3-2902 SV-3-2904 QT,P,A,Qh1 QT,P,A,QN QT,P,A,QM QT,P,A,QN QT,P,A,Oh1 QT,P,A,QN QT,P,A,QN QT,P,A)QM QT,P,A,Qh1 T,QT,P,A,QM,M T,QT,P,A,Qhj,H T,QT,P,A,QN,N B-10

~I

APPENDiX B (Continued) aq'pment Descri tion Manufacturer Com onent No.

Deficiencv Differential Pressure Barton Switch Differential Pressure Barton Switch Di j ferential Pressure Barton Switch DPS-3-2900 DPS"3"2901 DPS-3"2902 T,QT,'P,A,QH,M T,QT,P,A,Q!1,M T,QT,P,A,Q!1,M Valve Motor Operator Valve Motor Operator Operator-Limitorque Motor-Reliance Operator-Limitorque Motor-Reliance MOV"3-1410 HOV-3-1411 T,A,QM,M T,A,QH,M Va'I ve Motor Oper ator Operator-Limitor que Motor-Rel iance HOV-3-1412 T,A,QM,H

!.oca! Central Station

'o"a. Central Station Local Central S- 'or Hackworth G.

Rees Div.

t1ackworth G.

Rees Div.

t4ackworth G.

Rees Div.

.3N1410 3N1411 3N1412 T,QT,P,A,Q!1,M T,QT,P,A,Qti,M T,QT,P,A,Q!1,M So.e;".o;d Valve Sc e.-.oid Valve So; e,".o i d Valve Solenoid Valve So:enoid Valve Sc e;-,oi d Yal ve

'utomatic Switch Co.

SV-3-2914 Automatic Switch Co.

SV-3-291 Automatic Switch Co.

SV-3-2916 Automatic Switch Co.

SV-3-2917 Automatic Switch Co.

SV-3-2918 Automatic Switch Co.

SV-3-2919 T,QT,P,A,Q!i,tl T,OT, P,A,QI:;,!1 T,QT,P,A,Q!1,M T,QT,P,A,Q!1,H T,QT,P)A,O!1,M T,QT,P,A,Qh,M Te-.:p.

=1 ement

-t.-.ermocoup1 e Temp.

Element

-thermocouple Te;.p. El ement

-thermocoupl e Conax Corp.

Conax Corp.

Conax Corp.

TE-3-3440 TE-3-3441 TE-3-3442 R,T,QT,P,H,CS, A,QH,!1 R,T,QT,P,H,CS, A,Ql1,M R,T,QT,P,H,CS, A,QH,H

0

. I W

'a t

APPENDIX 8 (Continued) quspment Descri tion Temp.

Element

-thermocouple Temp.

Element

-thermocouple Temp.

Element

-thermocouple Temp.

Element

-thermocouple

~

Temp.

Element

-thermocouple Temp.

Element

-thermocouple Temp.

Element

-thermocouple Temp.

Element

-thermocouple Temp.

Element

-thermocouple Tem".

Element

-thermocouple Tem:.

Element

-thermocouple

~

Temp.

Element

-thermocouple Tem:,.

Element

-th='rmocouple-Temp.

Element

-thermocouple Temp.

Element

-thermocouple Temp.

Element

-thermocouple Manufacturer Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

'Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Com onent No.

TE-3-3443 TE-3"3444

-TE-3-3445 TE-3-3446 TE-3-3447 TE-3"3448 TE-3-3449 TE-3-3450 TE-3-3451 TE-3-3452 TE-3-3453 TE-3-3454 TE-3-3455 TE-3-3456 TE-3-3457 TE-.3-3458 Deficienc R,T,QT,P,H,CS, A,QM,H R,T,QT,P,H,CS, A,QM,H R,T,QT,P,H,CS, A,QM,M R,T,QT,P,H,CS, A,QM,M R,T,QT,P,H,CS, A,QM,H R,T,QT,P,H,CS, A,QM,H R,T,QT,P,H,CS, A,QM,H R,T,QT,P,H,CS, A,QM,H R,T,QT,P,H,CS, A,QH,H R,T,QT,P,H,CS, A,QH,H R,T,QT,P,H,CS, A,QH,H R,T,QT,P,H,CS, A,QM,M R,T,QT,P,H,CS, A,QM,H R,T,QT,P,H,CS, A,QM,H R,T,QT,f,H,CS, A,QH,H R,T,QT,P,H,CS, A,QH,H 8-12

APPENDIX B (Continued) to"~pment Descriotion Thermal Element

-thermocouple Thermal Element

-Thermocouple Thermal Element

-thermocouple Thermal Element

.-the.mocouple" Thermal Element

-thermocouple Manufacturer Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Conax Corp.

Com onent No.

TE-3-3459 TE-3-3460 TE-3-3461 TE-3-3462 TE-3-3463 Deficienc R,T,QT,P,H,CS, A,QM,M R,T,QT,P,H,CS, A,QM,M R,T,QT,P,H,CS, A,QM,M R,T,QT,P,H,CS, A,QM,H R,T,QT,P,H,CS, A,QH,M Reference Junction Consolidated Ohmic TB-3115 Devices Inc.

R,T,QT,P,H,CS, A,QM,M,RPN Raciation Detector

.".a"ia ion Detector Cnrt imerg Filter Fa;, t',otor Tracer Lab.

Tracer Lab.

Joy Engineering RD-3"11 RD-3-12 3V3A T,P,H,A,QM T,P,H,A,QM A,QH Cn.-~ Emerg Filter Joy Engineering 3V3B A,QH "n;= "merg Filter

==- ~'o:or Joy Fngineering 3Y3C A,QM Cn:-t Emerg Filter Fan ttoior Joy Engineering 3V30A A,QH Cnmt Emerg Filter

,Fa.-, t'oior I

Cn;: =merg Filter Fa- !lotor Joy Engineering Joy Engineering 3V308 3V30C A,QM A, Qt 1 Ai" Flow Switch

'Air Flow Switch Ball Engineering Co.

FS-3-1422 Ball Engineering Co.

FS-3-1423 R,T,QT,P,H,CS, A,QM,M R,T,QT,P,H,CS, A,QM,M 8-13

Oi V

APPENDIX B (Continued)

Equipment Description Manufacturer Com onent No.

Deficienc Air Flow Switch

" Air Flow Switch Air Flow Switch Air Flow Switch Solenoi'd Valve Solenoid Valve Solenoid Valve So.:enoid Valve So.eno',d Valve So,enoid Valve So.enoid Valve So enoId Valve So.e;:o'~d Valve Sc e.".c'.d Valve Solenoid Valve So;avoid Valve So.eno-id Valve So enoid Valve So'.enoid Valve Ball Engineering Co.

FS-3-1424 Ball Engineering Co.

FS-3-1425 Ball Engineering Co.

FS-3-1426 Ball Engineering Co.

FS-3-1427 Automatic Switch Co.

SV-3-2905 Automatic Switch Co.

SV-3-2906 Automatic Switch Co.

SV-3-2907 Automatic Switch Co.

SV-3-2908 Automatic Switch.-Co.

SV-3-2909 Automatic Switch Co.

SV-3-2910 Automatic Switch Co.

SV-3-2911 Automatic Switch Co.

SV-3-2912 Automatic Switch Co.

SV-3-2913 Automatic Switch Co.

SV-3-2601 Automatic Switch Co.

SV-3-2804 Automatic Switch Co.

SV-3-2603 Automatic Switch Co.

SV-3-2806 Automatic Switch. Co.

SV-3-2819 Automatic Switch Co.

SV-3-3709 R,T,QT,P,M,CS, A,QM,M R,T,QT,P,H,CS, A,QM,H R,T,QT,P,H,CS, A,QM,M R,T,QT,P,H,CS, A,QM,H R,A,QM,H R,A,QM,M R,A,QM,M R,A,QM,M R,A,QH,M R,A,QH,M R,A,QM,H R,A,Qtd,H R,A,QH,M R,T,QT,P,H.

CS,A,Qtj) RPti R,T,QT,P,H, CS,A,QM,RPN R,T,QT,P,H, CS,A,QM,RPtl R,T,QT,P,H, CS,A,QH,RPti R,T,QT,P,H, CS,A,Qtl,RPN R,T,P,H,A,QM B-14

0

APPENDIX B (Continued) qu>pment DescriDtion Manufacturer Com onent No; Deficienc Solenoid Valve Automatic Switch Co.

SV-3-3713 PT-3-1622 PT-3-1623 PS" 3-2007 Pressure Switches

.Pressure Switches

'ressure Switches Pressure Switches Pressure Switches Limit Switches Static 0 Ring Static 0 Ring Static 0 Ring Static 0 Ring Static 0 Ring NAt1CO PS-3-2008 PS-3-2009 PS-3-2056 PS-3-2057 PS-3-2058 Assoc.

w/POV-3-2601 Pressure Transmitter Westinghouse Pressure Transmitter Westinghouse Pressure. Switches Static 0 Ring R,T,P,H,A,Qt1 R,T,P,H,A,QM R,T,P,H,A,QM R,T,P,H,A,QM R,T,P,H,A,QM R,T,P,H,A,Qt1 R,T,P,H,A,QM R,T,P,H,A,Qti R,T,P,H,A,QM R, T,P,H,A,Ot"1, RPN Li-;it Switches Liri'. Switches NAMCO NAMCO Assoc.

w/POV-3-2603 Assoc.

w/POV-3-2819 R,T,P,H,A,QM, RPN R,T,P,H,A,O!1, RPN Re-'acement Solenoid'utomatic Switch Co.

NP831654 Jes (t1ode.l No. )

."e:

i = ament Solenoid Automatic Switch Co.

NP831665V Va. ves (tlodel No. )

A,QM A,QM Replacement Limit NAMCO Switches EA-180-11302 (Model No. )

CS,A,QM Hea". Shrinkable Insu ~aiing Sleeve Heat Shrinkable

=-'Jl ating Sleeve Raychem Corp.

Raychem Corp.

WCSE Thermofit A,QM Sleeves (Model No.)

RNE-100 (Model No.)

R,T,P,H,A,Qti, M

Heat Shrinkable

'Insulating Sleeve Thermal Blocks AMP/Raychem GE N/A EB-5 (tlodel No.)

T,QT,P,H,A,QM, t1 R,T,QT,P,H,A, QM,M

r k

APPENDIX B (Continued)

Equipment Oescri tion Electr ical Tape Penetration Penetration Penetration Penetration Penetration Feretration

.=eretration Pane.ration

..onetration or-" ration Penetration Pon"-.-'.rati on Penetration Penetration Penetration Manufacturer Grouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Com onent No.

Scotch-23 (Model No.)

T3P41 T3P42 T3P43 T3P51 T3P53 T3P11 T3P12 T3P22 T3C11 T3C12 T3C13 T3C21 T3C22 T3C23 T3I11 Deficienc QT,P,A,QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M

~~,

~

APPENDIX 8 (Continued)

~quspment Descri tion Penetration Penetration Penetration

=

Penetration Penetration Penetration Penetration

=-b e

Cable Car.e acD l Cable Instrument Cable

nstrc-ent Cable

.nst: ument Cable Thercocouple Extension Mire Manufacturer Grouse-Hinds Grouse-Hinds Crouse-Hinds Crouse-Hinds Crouse-Hinds Grouse-Hinds Crouse-Hinds Okoni-te Co.

Okonite Co.

Okoni te Co.

Okonite Co.

Okonite Co.

Okonite Co.

Okonite Co.

GE GE Continental Mire Corp.

Thermo Electric Co. Inc.

Com onent No.

T3I14 T3I15 T3I21 T3I22 T3I23 T3I24 T3I12 Cable Code N47 Cable Code N50 Cable Code N52 Cable Code N53 Cable Code N54 Cable Code N55 Cable Code N56 Cable Code N60, Cable Code N61 Cable Code N61 Cable Code N77 Deficienc T,QT,P,CS,A, QM,N T,QT,P,CS,A, QM,N T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M T)QT~PiCStAs QM,M T,QT,P,CS,A, QM,M T,QT,P,CS,A, QM,M CS,A,QM CS,A,QM CS,A,QM CS,A,QN CS,A,QM CS,A,QM CS,A,QM T,P,CS,A,QN T,P,CS,A,QM T,P,CS,A,QM P,A,QM Power Cable General Cable Corp.

Cable Code N6 T,P,H,A,QM

I

APPENDIX B (Continued) qu)pment Descri tion Power Cable Power Cable Power Cable Cab 1.e Cable Cable Cable Cable Cable Ca" le Cab.l e Manufacturer Okonite Co.

Okonite Co.

Okonite Co.

Okonite Co.

Okonite Co.

Okonite Co.

Okonite Co.

Okonite Co.

Okonite.Co.

Okonite Co.

Okonite Co.

Okonite Co.

Com onent No Cable Code N7 Cable Code N19 Cable Code N20 Cable Code N21 Cable Code N22 Cable Code N23 Cable Code N24 Cable Code N25 Cable Code N26 Cable Code N63 Cable Code N64 Cable Code N80 Deficienc T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM T,P,H,A,QM Ca" le Samuel Moore 8: Co.

Cabl e Code ilP A,QM Terminal Box (3) e"minal Box (3)

Terminal Box (3)

Te: minal Box (3)

Field Fabricated per Bechtel Dwg 56'0-E-308 Field Fabricated per Bechtel, Dwg 5610" E"308 Field Fabricated per Bechte'i Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 TB3044 TB30o5 TB3067 TB3122 R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM No~e:

3 Unit 3 B-18

APPENDIX B (Continued) quipment Description Terminal Box (3)

Terminal Box (3)

Terminal Box (3)

Terminal Box (3)

Terminal Box (3)

Terminal Box (3)

Termina'.

Box (3)

Terminal Box (3)

Terminal Box (3)

Ter;!'nal Box (3)

Terminal Box (3)

Manufacturer Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-i-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Com onent No.

TB3123 T$3124 TB3125 TB3126 TB3127 TB3115 TB3134 TB3135 TB3143 TB3144 TB3145 Deficienc R,T,QT,P,H,A, Qni

',T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM,RPN R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM No~e:

3 Unit 3 B-19

APPENDIX B (Continued) quspment Description Terminal Box (3)

Terminal Box (3)

Terminal Box (3)

Terminal Box (3)

Terminal Box (3)

Terminal Box (3)

Terminal Box (3)

Te".minal Box (4)

Terminal Box (4)

Te.;

nal Box (4)

Term-'.nal Box. (4)

Manufacturer Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabri'cated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Component No.

TB3150 TB3208 TB3213 TB3301 TB3303 TB3305 TB3306 TB4389 TB4367 TB4368 TB4369 Deficienc R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, QH R,T,QT,P,H,A, QM R,T,QT,P,H,A, QM R,T,QT,P,H,A, Qna

',T,QT,P,H,A, QM R,T,QT,P,H,A, QH No-e:

3 Unct 3

(4) Unit 4 B-20

0 P

P

~

~

~.

APPENDIX B (Conti'nued) quspment Descri tion Terminal Box (4)

Terminal Box (4)

Terminal Box (4)

Manufacturer Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E-308 Field Fabricated per Bechtel Dwg 5610-E" 308 Com onent No.

TB4371 TB4372 TB4379 Deficienc R,T,QT,P,H,A, QM,RPN R,T,QT,P,H,A, QM,RPN R,T,QT,P,H,A, QM,RPN Note:

3 Un>t 3 (4) Unit 4 B-21

APPENDIX C

Equipment Considered Acceptable or Conditionally Acceptable (Category 4.3) quipment Descri tion Manufacturer Com onent No.

Oeficienc Ho equipment in this category.

~',

APPENDIX 0 Safet Related S stems List~

unction Sy'tem Emergency Reactor Shutdown

.Containment Isolation Reactor Core Cooling Reactor Protection Engineered Safeguards Actuation Chemical and Volume Control Reactor Coolant Main Steam Main Feedwater Containment Ventilation Auxiliary Feedwater Chemical and Volume Control Safety Injection Residual Heat Removal Containment Spray Containment Ventilation Containment Sump Component Cooling Mater Intake Cooling Mater Safety Injection Residual Heat Removal Accumulators

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staff recognized that there are differences in nomenclature of systems because of plant vintage and engineering design; consequently, some systems

'erforming identical or similar functions may have different names.

In those instances it was necessary to verify the function of the system(s) with the responsible IE regional reviewer and/or the licensee.

0-1

1 APPENDIX 0 (Continued)

Function System Containment Heat Removal Containment Spray Containment Heat Removal and Fission Product Removal (Emergency Containment Cooler System)

Core Residual Heat Removal Preven-ion of Significant Release of R:-cioactive Material to nvi"onmen Su--. =rting Svstems Containment Sump Recirculation Residual Heat Removal Reactor Coolant Power Operated Relief Valves Main Feedwater Auxiliary Feedwater Main Steam Steam Dump Component Cooling Mater Intake Cooling Mater Containment Heat Removal and Fi'ssion Product Removal Combustible Gas Control Containment Radiation Monitoring Containment Radiation Sampling Emergency Power Control Room Habitability Safety Equipment Area Yenti la-.ion D-2

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