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UNITED STATES

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[ % e q' j NUCLEAR REGULATORY COMMISSION s...g.M e

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f,m Ug [g Mr. Bart D. Withers

• O Vice President Nuclear Portland General Electric Company 9

,g h fA <s 121 S.W. Salmon Street bO Portland, Oregon 97204 4g

Dear Mr. Withers:

SUNECT: ENVIRONMENTAL QUALIFICATION OF SAFETY-RELATED ELECTRICAL EQUIPPENT RE: TRCUAN NUCLEAR i'LANT, LICENSE NO. NPF-1

Reference:

Order for Modification of License Concerning the Environmental Qualification of Safety-Pelated Electrical Equipment, October 24, 1980.

This letter transmits the preliminary results of our review of environmental qualifications of safety-related electrical equipment at your facility.

This evaluation was based on your submittals received over the past months.

The facility license was modified by the referenced Order of October 24, 1980, to require that all safety-related electrical equipment be qualified to specified requirements not later than June 30, 1982.

In addition, the Order noted that a licensee is obligated to madify or replace inadequate equipment promptly.

The staff's review of your submittals has resulted in our identifying a number of potential equipment deficiencies involving a lack of proper documentation, inadequate justification of assumed environmental conditions following an accident, and/or inadegnte environmental testing of equipment, such that conformance to the DOR guice.ilnes, as required by the OMer, cannot be demonstrated. You are requested to review our identified d?fi-ciencies, and their ramifications, and provide us your overall finding regarding continued safe operation of your facility. Accordingly, in order to determine whether your ifcense should be modified or suspended, you are required pursuant to 10 CFR 50.54(f), to p ovide within 10 days of receipt of this letter, a written statement, signed under oath or affirmation sup-porting the safe operation of your facility, that takes into account the NRC staff's preliminary list of deficiencies.

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. The purpose of this statement is to provide the NRC with needed assurance, by the licensee, regarding the continued safety of the facility until you can provide an item-by-item reevaluation in a detailed documented manner at a later date. A negative finding on your part concerning the safety of continued operation would result in a unit shutdown, and should be reported as a Licensee Event Report (LER) within twenty-four (24) hours of the deter-mination to the appropriate NRC Regional Office.

Include in the LER the actions you have taken for the immediate resolution of the matter. A copy of any such LER should be sent to the Director, Division of Licensing, Office of Nuclear Reactor Regulation.

Please submit a copy of your reply to us via telecopy.

Sincerely,

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Tliomas M. Novak, Assistant Director for Operating Reactors Division of Licensing

Enclosure:

Evaluation Report cc w/ enclosure:

See next page I

Portland General Electric Corpany cc: Mr. J. W. Durham, Esquire Senior Vice President and Corporate Counsel-Portland General Electric Cocyany 121 S. W. Salmon Street Portland, Oregon 97204 Multnomah' County Library Social Science and Science Departnent 801 S.W.10th Avenue Portland, Oregon 97205 Michael-Malmros, Resident Inspector U. S. Nuclear _ Regulatory Commission Trojan Nuclear Plant P. O. Box 0 Rainier, Oregon 97043 Robert M. Hunt, Chairman Board of County Commissioners Columbia County St.. Helens, Oregon 97501 Director, Criteria and Standards Division Office of Radiation Programs (ANR-460)

U. - S. Envi ronmental Protection Agency Washington, D. C.

20460 Donald W. Godard, Supervisor Siting and Regulation Oregon Department of Energy Labor'and Industries Buildir 3 Room 111

Salem, Oegon 97310-O y

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PARTIAL REVIEW

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EQUIPMENT EVALUATICN REPORT BY THE OFFICE OF NUCLEAR REACTOR REGULATION FOR ' PORTLAND GENERAL ELECTRIC COMPANY TROJAN NUCLEAR PLANT C0CKET NO. 50-344 3 STAFF EQUIPMENT EVALUATION The staff evaluation of the licensee's response included an onsite inspection i

of selected Class IE equipment and an examination of the licensee's report for completeness and acceptability.

The criteria described in the 00R guidelines and in NUREG-0588, in part, were used as a basis for the staff evaluation of the adequacy of the licensee's qualification program.

The NRC.0ffice of Inspection and Enforcement performed (1) a preliminary evaluation of the licensee's response, documented in a technical evaluation report (TER) and (2) an onsite verification inspection (April 16-18 and October 27-31, 1980) of selected safety-related electrical equipment. The safety injection system was inspected.

The inspection verified proper installation of equipment, overall interface integrity, and manufacturers' nameplate data.

The manufacturer's name and model number from the nameplate i

data were compared to information given in the Component Evaluation Work Sheets (CES) of the licensee's report.

The first and second site inspections are documented in reports IE 50-344/30-08 and 344/80-27, respectively. No deficiencies were noted.

For this review, the documerts referenced above have been factored into the overall staff evaluation.

3.1 Completeness of Safety-Related Eouioment In accordance with IES79-018, the licensee was directed to (1) establish a list of systems and equipment that are required to mitigate a LOCA and an HELS and (2) identify components needeo to perform the function of safety related display-information, post-accident sampling and monitoring, arJ radiation monitoring.

The staff developed a generic master list based upon a review of plant safety analyses and emergency procedures.

The instrumentation selected includes parameters to monitar overall plant performance as well as to monitor the per-formance of the systems on the list.

The systems list was established on the basis of the functions that must be performed for accident mitigation (without regard to location of equipment relative to hostile environments).

The list of safety-related systems provided by the licensee was reviewed against the staff-developed master list.

Based on the licensee's submittal, the staff has concluded that the into*mation on safety-related systems included in the submittal is insufficient to verify that those systems are all the systems required to achieve or support:

(1) emergency reactor shutdown, (2) containment isolation, (3) reactor core cooling,

(4) containment heat removal, (5) core residual heat removal, and (6) prevention of significant release of radioactive material to the environment.

The staff acknowledges the licensee's effort to include only those safety-related systems located in a potentially harsh environment.

However, this review requires the listing of all safety related systems, both inside and outside potentially harsh environments.

The list of safety-related systems submitted by the licensee is included in Appendix D.

Disolay instrumentation which provides information for the reactor ocerators to aic them in the safe handling of the plant was not specifically identified by the licensee.

A complete list of all disclay instrumentation mentioned in the LOCA and HELB emergency procedures must be proviced.

Equipment qualifi-cation information in the form of summary sheets should be provided for all components of the display instrumentation exposed to harsh environments.

Instrumentation which is not considered to be safety related but which is mentioned in the emergency procedure should appear on the list.

For these instruments, (1) justification should be providea for not considering the instrument safety related and (2) assurance should be provided that its subsequent failure will not mislead the operator or adversely affect the mitigation of the consequences of the accident.

The environmental qualifi-cation of post-accident sampling and monitoring and radiation monitoring equipment is closely related to the review of the TMI Lessons-Learned modifica-tions and will be performed in conjunction with that review.

The licensee identified 416 items of equipment which were assessed by the staff.

3. 2 Service Conditions Commission Memorandum and Order CLI-80-21 requires that the 00R guidelines and the "For Comment" NUREG-0588 are to be used as the criteria for establishing the adequacy of the safety-related electrica equipment environmental quali-fication 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.

On this basis, the staff has assumed, unless otherwise noted, that the analysis for developing the environmental envelopes, relative to the temperature, pressure, and the containment spray caustics, has been performed in accordance with the requirements stated above. The staff has reviewed the qualification documenta-tion to ensure that the qualification specifications envelope the conditions established by the licensee. During this review, the staff assumed that for plants designed and equipped with an automatic containment spray system which satisfies the single-failure criterion, the main-steam-line-break (MSLB) environmental conditions are enveloped by the large-break-LOCA environmental conditions.

The staff assumed,. and requires the licensee to verify, that the containment spray system is not subjected to a disabling single-component failure and therefore satisfies the requirements of Section 4.2.1 of the 00R guidelines.

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

3.3 Temoerature, Pressure, and Humidity Conditions Inside Containment The licensee has provided the results of accident analyses as follows:

Max Temo ( F)

Max Press (osig)

Humidity (%)

LOCA 286 60 100 MSLB not provided not provided 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 containment that can exist due to stratification, especially following a postulated MSLB.

Use of the steam saturation temperature corresponding to tne 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 MSLB, whichever is controlling, as to potential adverse environmental effects on equipment.

The licensee's specified temperatu e (service condition) of 286 F does not satisfy the above requirement. A saturation temperature corresponding to the pressure profile (307 F peak temperature at 60 psig) should be used instead.

The licensee should update his equipment summary tables to reflect this change.

If there is any equipment that does not meet the staff position, the licensee must provide either justification that the equipment will perform its intended function under the specified conditions or propose corrective action.

3.4 Temperature, Pressure, and Humidity Conditions Outside Containment The licensee has provided the temperature, pressure, and humidity associated with an HELB outside containment, as well as applicable radiation levels asso-ciated with equipment in the proximity of recirculating fluid lines.

The following areas outside containment have been addressed:

(1) Auxiliary building (2) Main steam support structure between turbine and containment building (3) Outside area between containment building and main steam support structure (4) Piping penetration area between fuel building, containment building, and auxiliary building.

The staff has verified that the parameters identified by the licensee for the

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MSLB are acceptable.

3.5 Submergence The maximum submergence levels have been established and assessed by the licensee.

Unless otherwise noted, the staff assumed for this review that the methodology employed by the licensee is in accordance with the appropriate criteria as established by Commission Memorandum and Order CLI-80-21.

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The licensee stated tnat all equipment required for post-LOCA/MSLB long-term operation has either been relocated above flood level, or replaced by equipment qualified for submergence, or is scneduled for replacement by equipment quali-fied for submergence.

However, the licensee's value was not reported in his submittals.

In view of the fact that maximum flood level inside containment cannot be established by the review of licensee submittals, submergence will be considered as an open item for this evaluation.

Components having the potential to be submerged can be exempt from sucmergence aualification if tne licensee can provide an assessment of the failure moces associated with these comoonents.

The licensee should also provide assurance tnat the suosecuent failure of this component will not adversely affect any other safety functions or mislead an operator. Additionally, 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 acceptacle, then these components may be exemot from the submergence parameter of qualification.

3.6 Chemical Soray The licensee's FSAR value for the chemical concentration is not mentioned in his submittals; however, the pH value quoted in the TER for spray inside containment is 4.9-10.0.

Therefore, for the purpose of this review, the effects of chemical spray will be considered unresolved.

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

3.7 Aging Section 7 of the 00R guidelines does not require a qualified life to be estab-lished for all safety-related electrical equipment. However, the following actions are required:

(1) Make a detailed comparison of existing equipment and the materials identi-fied in Appendix C of the 00R guidelines.

The first supplement to IEB-79-01B 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.

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

The licensee identified a number of equipment items for wh h a specified qualified life was established (for example, 5 years, 15 years, or 40 years).

In its 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 and are acceptable.

For this review, however, the staff requires that the licensee submit supple-mental information to verify and identify the degree of conformance to the 4

above requirements.

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

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

The staff will 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 costulated to exist following a LOCA.

The application and methodology employed to determine these values were presented to the licensee as part of the NRC staff criteria con-tained in the 00R guidelines, in NUREG-0588, and in the guidance provided in IEB-79-018, Supplement 2.

Therefore, for this review, the staff has assumed that, unless otherwise noted, the values provided have been determined in accordance with tne prescribed criteria.

The staff review determined tnat 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 2.1 x 107 rads.

These values do not envelope the 00R guideline requirements and therefore are not acceptable.

The radiation service condition provided by the licensee is lower than provided in the guidelines for gamma and beta radiation.

The licensee is requested to either provide justification for using the lower service condition or use the guidelines for both gamma and beta radiation.

If the former option is chosen, then the analysis--including the basis, assumptions, and a sample calculation--should be provided.

A required value outside containment of 2.1 x 107 rads has been used by the licensee to specify limiting radiation levels in areas containing recirculating reactor coolant in the auxiliary building.

This value appears to consider the radiation levels influenced by the source term methodology associated with post-LOCA recirculation fluid lines, and is therefore acceptable.

4 QUALIFICATION OF EQUIPMENT The following subsections present the staff's assessment, based on the licensee's submittal, of the qualification status of safety-related electrical equipment.

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

(1) equipment requiring immediata 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 satisfactorily resolved.

In its assessment of the licensee's submittal, the NRC staff did not review the methodology employed to determine the values established by the licensee.

However, in reviewing the data sheets, the staff made a determination as to the stated conditions presented by the licensee.

Additionally, the staff has not completed its review of supporting documentation referenced by the licen-

. See (for example, test reports).

It is expected that when the review of test reports is complete, the environmental qualification data bank established by 5

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the staff will provide the means~to cross reference each supporting document to the referencing licensee.

If supporting documents are found to be unacceptable, the licensee will be required to take additional corrective actions to either establish qualifi-cation or replace the item (s) of concern.

This effort will begin in early 1981.

An appendix for each subsection of this report provides a list of equipment for which additional information and/or corrective action is recuired.

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

It should be noted, as in the Commission Memorandum 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.

4.1 Ecuioment Reauirino Immediate Corrective Action Deliberately left blank.

4. 2 Ecuioment Requiring Additional Information and/or Corrective Action Appendix B identifies equipment in this category, including a tabulation of deficiencies. The deficiencies are noted by a letter relating to the legend (identified below), indicating that the information provided is not sufficient for.the qualification parameter or condition.

Legend R

- radiation T

- temperature QT qualification time RT - required time P

pressure H

- humidity 6

CS - chemical spray A

material-aging evaluation; replacement schedule; ongoing equipment surveillance 5

submergence M

margin I.

- HELS evaluation outsice :antainment not completed QM qualification method RPN equipment relocation or replacement; adequate schedule not provided EXN exempted equipment justification inadequate SEN - separate effects qualification justification inadequate QI qualification information being developed RPS equipment relocation or replacement scnedule provided As noted in Section 4, these deficiencies do not necessarily mean that the

-equipment is unqualified.

However, the deficiencies are cause for concern and require further case-by-case evaluation.

The staff has determined tnat an acceptable basis to exempt equipment from qualification, 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 axposure to the harsh environ-ment, and the adequacy f,r the time margias 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 campletion (as applicable), and so forth. The staff will review the licensee's response, when it is submitted, and discuss the resolution in n supplemental report.

It'should be noted that in cases where testing is being conducted, a condition may arise which results in a determination by the licensee that the equipment

-does not satisfy the qualification test requirements.

For that equipment, the licensee will be required to provide the proposed corrective action, on a timely basis, to ensure that qualification can be established by June 30, 1982.

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4.3 Eouipment Considered Acceptable or Conditionally Acceptable Based on the staff review of the licensee's submittal, the staff identified the equipment in Aopendix C as (1) acceptable on the basis that the qualifi-cation program adequately enveloped the specific environmental plant parameters, or (2) conditionally acceptable suoject to the satisfactory resolution of the staff concern identified in Section 3.7.

For the equipment -identified as conditionally acceptable, the staff determined that the licensee did not clearly (1) state 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 replacement 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-OlB, 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 provide a supplemental safety evaluation addressing these concerns.

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

LEGEND:

Desionation for Deficiency R - Radiation T - Temperature QT - Qualification time RT - Required time P - Pressure H - Humidity CS - Chemical spray A - Material aging evaluation, replacement schedule, ongoing equipment surveillance S - Submergence M - Margin

! - HELS evaluation outside containment not completed QM - Qualification method RPN - Equipment relocation or replacement, adequate schedule not provided EXN - Exempted equipment justification inadequate SEN - Separate effects qualification justification inadequate QI 0ualification information being developed RPS - Equipment relocation or replacement schedule provided Equipment Component Description Manufacturer Model No.

No.

Deficiency Motor Operated Valve Limitorque SM8-0.

M08801A QT,A Motor Operated Valve Limitorque SMB-0 M088018 QT,A Motor _ Operated Valve Limitorque SMB-0 M08802A QT,A Motor Operated Valve Limitorque SMB-0 M088028 QT,A

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Motor Operated Valve Limitorque SMB-0 M08803A A

Motor Operated Valve, Limitorque SMB-0 M088038 A

Motor Operated Valve Limitorque SMB-00 M03290 A

Motor Operated Valve Limitorque SMB-00 M03291 A

Motor Operated Valve Limitorque SMB-00 M03292 A

Motor. Operated Valve Limitorque SMB-00 M0329a A,T,CS B-l'

APPENDIX B (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Motor Ocerated Valve Limitorque SMB-00 M03296 A,T,CS Motor Operated Valve Limitorque SMB-00 M03300 A,T,CS Motor Operated Valve Limitorque SMB-00 M03301A A,T,CS Motor Operated Valve Limitorque SMB-00 M03301B A,T,CS Motor Opera:ea Valve Limitorque SMB-00 M03302A A,T,CS Motor Operated Valve Limitorque SMB-00 M033028 A,T,CS Motor 0perated Valve Limitorque SMB-00 M03305A A,T,CS Motor Operated Valve Limitorque SMB-00 M033058 A,T,CS Motor Operated Valve Limitorque SMB-00 M03306B A,T,CS Motor Operated Valve Limitorque SMC-00 M03309A A,T,CS Motor Operated Valve Limitorque SMB-00 M033098 A,T,CS Motor Operated Valve Limitorque SMB-00 M033108 A,T,CS,QI-Motor Operated Valve Limitorque SMB-00 M03313A A,T,CS Motor' Operated Valve

- Limitorque SMB-00 M033138 A,T,CS Motor Operated Valve Limitorque SMB-00 M03314A A,T,CS Motor Operated Valve Limitorque SMS-00 M03314B A,T,CS Motor Operated Valve Limitorque SMB-00 MC3346 A

Motor Operated Valve Limitorque SMB-00 M0112B A

Motor Operated Valve Limitor ue SMB-00 M0112C A

Motor Cceratec Valve Limitor:ue SMB-00 MC8100 A

Motor C:eratec Valve Limitorque~

SMS-00 MC8105 A

Motor 0:erated Valve Limitorace-SMS-00 MC8106 A

v tor'::erate: Valve Limitor: e SMS-00 uCS110 A

o w tor ::erate: Valve Limitor ;e SMB-Od-MC5111 A

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APPENDIX B (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Motor Operateo Valve Limitorque SMB-00 M08813 A

Motor Operated Valve Limitorque SMB-00 M08814 A

Motor Operated Valve Limitorque SMB-00 M0882'1A A

Motor Operated Valve Limitorque SMB-00 M088213 A

Motor Operated Valve Limitorque SMB-00 M02050A A,QM Motor Operated Valve Limitorque SMB-00 M020508 A,GM Motor Operated Valve Limitorque SMB-00 M08000A A,P,CS,QM Motor Operated Valve Limitorque SMB-C0 M080008 A,P,CS,QM Motor Operated Valve Limitorque SMB-000 M03299 T,CS,A Motor Operated Valve Limitorque SMB-000 M03320 T,CS,A Motor Operated Valve Limitorque SMB-000 M03347 P,CS,QM,A Motor Operated Valve Limitorque SMB-000 M010013 P,CS,QM,A Motor Operated Valve Limitorque SMB-000 M010016 P,CS,QM,A Motor Operated Valve Limitorque SMB-000 M02218 CS,QM,A Motor Operated Valve Limitorque SMB-000 M02228 CS,QM,A Motor Operated Valve Limitorque SMB-000 M02238 CS,QM,A Motor Operated Valve Limitorque SMS-000 M02248 CS,QM,A Motor Operated Valve Limitorque SM8-000 M03210A QT,A,M Motor Operated Valve Limitorque SMB-000 M032108 QT,A,M Motor Operated Valse Limitorque SMB-000 M05663 QT,A,M Motor Operated Valve Limitorque SMB-000 M05672 P,CS,QM,A Motor Operated Valve

.Limitorque SMB-000 M05673 P,CS,QM,A Motor Operated Valve Limitorque SM8-000 M05674 P,CS,QM,QI Motor Operated Valve Limitorque SMB-000 M05673 QT,A,M,A B-3 y

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AoPENDIX 8 (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Motor Operated Valve Limitoroue SMB-000 M05676 QT,A,M,A Motor Operated Valve Limitorque SMB-000 M05677 QT, A,M, A Motor Operated Valve Limitorque SMB-000 M05678 QT,A,M,A Motor Operated Valve Limitorque SMB-000 M02056A A

Motor Operated Valve Limitorque SM8-000 M02056B A

Motor Operated Valve Limitorque SM8-000 M05651A P,CS,QM,A Motor Operated Valve Limitorque SM8-000 M056518 P,CS,QM,A Motor Operated Valve Limitorque SMB-000 M05651C P,CS,QM,A Motor Operated Valve Limitorque SMB-000 MC56510 P,CS,QM,A Motor Operated Valve Limitorque SMB-000 M05671 QT,A,M-Motor Operated Valve Limitorque SMB-000 M05654 P,CS,QM,A Motor Operated Valve Limitorque SMB-000 M05656 P,CS,QM,A Motor Operated Valve Limitorque SMB-000 M05658 P,CS,QM,A-Motor Operated Valve Limitorque SMB-000 M04005,

P,CS,QM,A Motor Operated Valve Limitorque SMB-000 M05660 P,CS,QM,A Motor Operated Valve Limitorque SM8-000 M04180 P,CS,QM,A

. Motor Operated Valve Limitorque SMB-000 M04300 P,CS,QM A Motor Operated Valve

-Limitorque SMB-3 M02069A QT,T,P,H,A,QM,QI Motor Operated Valve Limitorque SMB-3 M020698 QT,T,P.H,A,QM,QI Motor Operated Valve Limitorque SMB-3 M08812 P,CS,QM,A Motor.0perated Valve Limitorque SMB-3 M08835 QT,A,M Motor Operated Valve Limitorque SMB-2 M08701 T,QT,CS,M,A Motor Operated Valve Limitorque SMB-2 M08703 T,QT,M.A Splices Raychem WCSF-N CS,A B-4

b APPENDIX B (continued) i Equipment Compor.ent Description Manufacturer Model No.

No.

Deficiency Feedtnrough Conax N11001-33 T,P,H,CS,A

- Cable Okonite 350MCM,5KV,E?

A13 QT,P,H,A Terminal Block GE EB-5 AT3409 QT,H,A Terminal Block GE EB-5 ATB440 QT,H,A Terminal 31cck GE EE-5 AT2425 QT,H,A Terminal Block.

GE EB-5 AT2460 QT,H,A Limit Switch NAMCO EA17011302 IS8814 H.A,QM,P Limit Switch NAMCO EA170 IS8152 H,A,QM,P Limit Saiten NAMCO EA170 ZS8811A J,A,QM,P Limit Switch NAMCO EA170 ZS88118 H,A,QM,P Limit Switch NAMCO EA17011302 Z58813 H,A,QM,P Limit Switch NAMCO EA17011302 ZS8883 H,A,QM,P Limit Switch NAMCO EA17011302 IS8954 H,A,QM,P Limit Switch NAMCO EA17011302 Z58028 H,A,qM,P Instrument Cable Rockbestos 2C,#15,500V, KD2 QT,P,H,A,QM,R,T XLPE Pressure & Differential Pressure Transmitters Barten 754 LT517 CS,A,QM,H Pressure & Differential Pressure Transmitters Barton 754 '

LT528 CS,A,qM,H Paessure & Differential

?-essure Transmitters Sart:n 754 LT515 CS,A QM,H Pressure & Differential Pressure Transmitters 3arten T54 LT523 CS,A,QM,H 3-5

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APPENDIX B (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Pressure & Differential Pressure Transmitters Barton 764 LT529 CS,A,CM,H Pressure & Differential Pressure Transmitters Barton 764 LT537 CS,A.QM,H Pressure & Differential Pressure Transmitters Barton 764 LT538 CS,A,QM,H Pressure & Differential Pressure Transmitters Barten 764 LT539 CS,A,QM,H Pressure & Differential Pressure Transmitters Barton 764 LT548 CS,A,CM,H Pressure & Differential Pressure Transmitters Barton 764 LT549 CS,A,QM,H Pressure & Differential Pressure Transmitters Barton 389 PT403 R,T,QT,P,H,CS, A,QM,5 Pressure & Differential Pressure Transmitters Barton 763 PT455 H,CS,A,QM Pressure & Differential Pressure Transmitters Barton 763-PT456 H,CS,A,QM Pressure & Differential Pressure Transmitters Barton 763 PT457 H,CS,A,QM j

RTO Rosemount 176KF TE410A H,CS,A RTO Rosemount 176KF TE4108 H,CS,A RTO Rosemount 176KF

. TE411A H,CS,A RTO Rosemount-176KF TE4118 H,CS,A RTO Rosemount 176KF TE413A.

H,CS,A RTO Rosemount 176KF TE4138 H,CS,A

-RTO Rosemount 176KF TE420A H,CS,A RTO Rosemount 176KF

.TE4208 H,CS,A B-6

APPENDIX B (continued)

Equipment Component Description Manufacturer hdel No.

No.

Deficiency RTD Rosemount 176KF TE421A H,CS,A RTD Rosemount 176KF TE421B H,CS,A RTD Rosemount 176KF TE423A H,CS,A RTD Rosemount 176KF TE4238 F,CS,A RID Rosemount 176KF TE430A H,CS,A RTD Rosemount 176KF TE430B H,CS,A RTD Rosemount 176KF TE431A H,CS,A RTD Rosemount 176KF TE4318 H,CS,A RTD Rosemount 176KF TE433A H,CS,A RTD Rosemount 176KF TE4338 H,CS,A RTD Rosemount 176KF TE440A H,CS,A RTD' Rosemount 176KF TE4408 H,CS,A

~ RTD Rosemount 176KF TE441A H,CS,A RTD Rosemount 176KF

.TE4418 H,CS,A RTD_

Rosemount 176KF TE443A H,CS,A

. RTD Rosemount 176KF TE4438 H,CS,A Motor Allis-Chalmers Type GV MP204A T,QT,P,H,A,QM Motor Allis-Chalmers Type GV MP2048 T,QT,P,H,A,QM Solenoid Valves ASCO NP831654E

'SV8149A P,H,CS,A

-Solenoid Valves ASCO NP831654E SV8149Al P,H,CS,A Solenoid Valves ASCO-NP831654E SV81498 P,H,CS,A Solenoid Valves ASCO-NP831654E SV8149B1 P,H,CS,A Solenoid Valves ASCO NP831654E SV8149C P,H,CS,A Solenoid Valves ASCO.

~ NP831654E SV8149C1 P,H,CS,A B-7

l APPENDIX B (continued)

Equi;; ment Component Description Manufacturer Model No.

No.

Deficiency Solenoid Valves ASCO NP831554E SV455AA P,H,CS,A Solenoid Valves ASCO NP83165aE SVJ55AB P,H,CS,A Solenoid Valves ASCO NP831654E SV456A P,H,CS,A Solenoid Valves ASCO NP831654E SV456B P,H,CS,A Solenoid Valves ASCO NPS3 54E SVS026 P,H,CS,A Power Cables General Cable 2C,#14,600V,EP NO2 R,CS,A Power Cables General Cable 2C,#12,600V,E?

N02 CS,A, Power Cables General Cable SC,#14,600V,EP NC5 CS,A,QM,5 Power Cables General Cable 7C,#14,600V,EP N07 CS,A,QM,5 Power Caoles General Cable 9C,#14,600V,EP N09 CS,A,QM,5 Power Cables General Cable 1C,#4/0,600V,EP P05 CS,A,QM,5 Power Caoles General Cable 1C,#1/0,600V,EP P07 R,T,QT,P,H,CS, A,QM,5 Power Cables General Cable 3C,#8,600V,EP P15 CS,A Power Cables General Caole 3C,#8,600V,E?

P15 CS,A,QM,5 Power Cables General Cable 3C,#10,600V,EP P16 CS,A,QM,5 Power Cables General Cable 3C,#1?,600V,EP P17 CS,A,qM,5 Power Cacies General Caole 3C,#6,600V,E?

Pla CS,A,0M,5 Power Cacles.

General Cacle 2C,#12,600V,E?

P20 R,T,QT,P,H,CS, A,0M,5 Cacle American Wire 2C/S,#16,300V, 02 P,CS,A,CM,5,M

& Canle E?

Cacie American dire AC/S,#16,300V, ICA P,CS,A,QM,5,M

& Cacle E?

3-3

APPENDIX 8 (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Cable American Wire 2C/S,#16,300V,

$02 P,CS,A,CM,S,M

& Cable EP Cable American Wire 2C/S,#16,300V, Z02 P,CS.A,QM,S,M

& Cable EP Cable American Wire JC/S#16,300V, ZO4 P,CS,A,QM,5,M

& Cable EP Limit Switch NAMCO EA180 258701 H,CS,A Limit Switch NAMCO EA180 ZS8702 H,CS,A Limit Switch NAMC0 EA180 ZS8026 H,CS,A Limit Switch NAMCO EA180 ZS8871 H,CS,A Limit Switch NAMCO EA180 ZS455A H,CS,A Limit Switch NAMC0 EA180 ZS456 H,CS,A Solenoid Valves ASCO WPLS8300864RF SV8870A A,QM

' Solenoid Valves ASCO WPLB8300864RF SV8870B A,QM Solenoid Valves ASCO WPLB8300864RF SV8871 CS,A,QM Solenoid Valves ASCO WPL88300864RF SV8875A CS,A,QM l

Solenoid Valves ASCO WPLS8300864RF SV88758 CS,A,QM Solenoid Valves ASCO WPLS8300864RF SV8875C CS,A,QM

' Solenoid Valves ASCO WPL88300864RF SV88750 CS,A,QM solenoid Valves ASCO WPLS8300864RF.

SV8877A CS,A,QM Solenoid Valves ASCO WPLB8300864RF SV88778 CS,A,QM Solenoid Valves ASCO WPLS8300864RF SV8877C CS,A,QM Solenoid Valves.

ASCO WPLS8300864RF SV88770 CS,A,QM Solenoid Valves ASCO WPLB8300864RF SV8878A CS,A,QM Solenoid Valves ASCO WPLS8300864RF SV88788 CS,A,QM i

8-9 i

APPENDIX B (continued)

Equipment Component Description' Manufacturer Model No.

No.

Deficiency Solenoid Valves ASCO WPLB830CB64RF SV8878C CS,A,CM Solenoic Valves ASCO WPL38300864RF SV887SD CS,A,QM Solenoid Valves ASCO WPL38300864RF SV8879A CS,A,QM Solenoid Valves ASCO WPLB8300864RF SV88798 CS,A,qM Solenoid Valves ASCO WPLB8300864RF SV8879C C5,A,QM Solenoid Valves ASCO WPLS8300864RF SV88790 CS,A,QM Solenoid Valves ASCO WPLB8300864RF SV8881 CS,A,QM Solenoid Valves ASCO WPLB8300864RF SV8883 A,QM Solenoid Valves ASCO WPLS8300B64RF SV8964 A,QM Solenoid-Valves ASCO FT80033 SV22978 A,R,QM Solenoid Valves ASCO FT831J654 SV8880 A,QM

. Solenoid Valves ASCO FI831654 SV8152 A,QM Solenoid Valves ASCO HT80073 SV2297A A,R,QM Solenoid Valves ASCO HT8033 SV1783 A,QM Solenoid Valves ASCO HT8320A36 SV2295A A,R,QM Solenoid Valves ASCO HT8320A36 SV22958 A,R,QM Solenoid Valves ASCO 8320A90HT SV1782 A,QM Solenoid Valves ASCO LS831054 SV8888 A,QM Solenoid Valves ASCO

.L3831554

.SV8033 A.0M Solenoic Valves ASCO 3316C35HT

.SV10001 A,R,QM Solenoid Valves

.ASCO:

3316C35HT SV10004 A,QM

-Solenoic Valves ASCO.

3316C35HT SV10014 A,QM Solenoid Valves A5CO 3315C3:m, 2V10015 A,0M 3-10

APPENDIX B (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Solencia Valves ASCO 8602826 SV4006 A,QM Solenoid Valves ASCO FT8320101 SVS02S A,QM Solenoid Valves ASCO HT8302828RU SV4000 A,QM Solenoid Valves ASCO 8302C2GRU SV4181 QT,T,P,H,CS, R,A,S,QM Solenoid Valves ASCO 8302C2GRU SV4301 QT,T,P,H,CS, R,A,5,QM Level Transmitter Fisher & Porter 1302493 LT2069A A,QT,T,P,H,QM, QI,RPS

' Level Transmitter Fisher & Porter 1302493 LT20698 A,QT,T,P,H,QM, QI,RPS Level Transmitter

. Fisher & Porter 1082495 FT3043C A,H,QT,QM,RP Level Transmitter Fisher & Porter 1082495 FT30430 A,H,QT,QM,RP Penetrations Amphenol N/A AZ01 A,QT,T,P,H,CS, QM,QI,RPN Penetrations Amphenol N/A AZO 3 A,QT,T,P,H,CS, QM,QI,RPN Penetrations Amphenol N/A AZ05 A,QT,T,P,H,CS, QM,QI,RPN Penetrations Amphenol N/A AZ06 A,QT,T,P,H,CS, QM,QI,RPN Penetrations-Amphenol-N/A AZO 7 A,QT,T,P,H,CS,

~

QM,QI,RPN Penetrations Amphenol-N/A BZ01 A,QT,T,P,H,CS, QM,QI,RPN Penetrations Amphenol N/A BZ03 A,QT,T,P,H,CS, QM,QI,RPN Penetrations Amphenoi N/A BZ05 A,QT,T,P,H,CS, QM,QI,RPN B-11

APPENDIX 8 (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Penetrations Amphenol N/A BZ07 A,QT,T,P.H CS, CM,QI,RPN Penetrations Ampnenol N/A-CZ07 A,QT,T,P.H,CS, QM,QI,RPN Penetrations Amphenol N/A 0207 A,QT,T,P,H,CS, QM,QI,RPN Level Switch Fisner & Porter LS38365 LS2074 QT,T,P,H,CS,R, A,S,QM,RPS Level Switch Fisher & Porter LS38365 LS2075 QT,T,P,H,CS,R, A,5,QM,RPS I/P Converter Fischer 546 FY606 QT,T,P,H,R,A,QM, QI,RPS I/P Converter

.Fischer 546 FY607 QT,T,P,H,R,A,QM, QI,RPS Flow Indicating Barton 288A FIS3004A1 QT,T,P,H,R,A,QM, Switch QI,RPS Flow Indicating Barton 288A FIS3004A2 QT,T,P,H,R,A,QM, Switch QI,RPS Flow Indicating

'Barton 288A FIS300481 QT,T,P,H,R,A,QM, Switch QI,RPS Flow Indicating Barton 288A FIS300482 QT,T,P,H,R,A,QM, Switch QI,RPS Flow Indicating Barton 288A FIS3004C1 QT,T,P,H,R,A,QM, Switch QI,RPS Flow Indicating Barton-

-288A FIS3004C2 QT,T,P,H,R,A,QM, Switch QI,RPS Fl_ow Indicating-Barton 288A FIS3004D1 QT,T,P,H,R,A,QM, Switch QI,RPS Flow Indicating Sarton

-288A FIS300402 QT,T,P,H,R,A,QM, Switch QI,RPS Pressure Transmitter Foxboro E130H LT459 T,P,H,CS,A,QM, QI,RPS B-12

APPENDIX B (continued)

Equipment Component DescriptionM Manufacturer Model No.

No.

Deficiency Pressure Transmitter Foxboro E13DH LT460 T,P,H,CS,A,QM, QI,RPS Pressure Transmitter Foxboro E130H LT461 T,P H,CS,A,QM, QI,RPS RTD Burns POR-320 TE463 QT,T,P,H,CS,R, A,CM,QI,RPS RTD Burns POR-320 TE464 QT,T,P,H,CS,R, A,QM,QI,RPS RTD Burns POR-320 TE465 QT,T,P,H,CS,R, A,qM,QI,RPS RTD Burns POR-320 TE466 QT,T,P,H,CS,R, A.QM,QI,RPS Acoustic Monitor TEC 500 SE1189A QT,T,P,H,CS,R, A,QM,QI Acoustic Monitor TEC 500 SE11898 QT,T,P,H,CS,R, A,QM,QI

' Acoustic Monitor TEC 500 SE1189C QT,T,P,H,CS,R, A,QM,QI Radiation Monitor Victoreen 847-1 RE6101 QT,T,P,H,R,A,QM, QI,RPS Radiation Monitor Victoreen 847-1

.RE6102

" QT,T,P,H,R,A,QM, QI,RPS Hydrogen Recombiner Westinghouse Electric RE318A QT,P,H,CS,A,QI, RPS Hydrogen Recombiner Westinghouse Electric RE3188 QT,P,H,CS,A,QI, RPS Fan Motor Westinghouse Type SBDP MV251A QT,T,P,H,A,QM, QI,RPS Fan Motor Westinghouse Type SBDP MV2518 QT,T,P,H,A,QM, QI,RPS Fan Motor Westinghouse Type SBDP MV252A QT,T,P,H,A,QM, QI,RPS B-13

APPENDIX B (continued)

Ecuipment Component Description Manufacturer Model No.

No.

Deficiency Fan Motor Westirgnouse Type SBDP 4tV2525 QT,T,P.H.A,QM, QI,RPS Fan Motor Westingnouse Type SBDP MV253A QT,T,P,H,A,qM, QI,RPS Fan Motor Westinghouse Type SBDP MV2538 QT,T,P,H,A,GM, QI,kPS Fan Motor Westingnouse Type SBDP MV254A QT,T,P,H,A,QM, QI,RPS Fan Motor Westinghouse _

Type SBDP MV2548 QT,T,P,H,A,QM, QI,RPS Solenoid. Valves R.G.Laurence 125434W SV2216A QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV22168 QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV2216C QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV2216D QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV2236A QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV22363 QT,T,P,H,R,A, QM,QI,RPS' Solenoid Valves R.G.Laurence 125434W SV2236C QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV22360 QT,T,P.H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV2256A DT,T.P,H,R,A, QM,QI,RPS Solenoic Valves R.G.Laurence 125434W SV22563 QT,T,?,H,R,A, QM,QI,RPS 3.4

APPENDIX B (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Solenoid Valves R.G.Laurence 125434W SV2256C QT,T,P,H.R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV22560 QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV2276A QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV22768 QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV2276C QT,T,P,H,R,A, QM,QI,RPS Solenoid Valves R.G.Laurence 125434W SV22760 QT,T,P,H,R,A, CM,QI,RPS Terminal Board GE EB-5 DTB465 T,P,H,CS,R,A, QI Terminal Board Square 0 828 ATB203 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 ATB204 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 ATB205 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square D 828 ATB206 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square D 828 ATB207 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 ATB208 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 ATB209 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 ATB210 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square D 828 BTB203 QT,T,P,H,CS,R, A,QM,QI,RPS B-15

1 APPENDIX B (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Terminal Board Square D 828 BTB204 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square D 828 BTB205 QT,T,P,H,CS R, A,qM,QI,RPS Terminal Board Square D 828 BTB206 QT,T,P,H,CS,R, A,QM,QI,RPS

. Terminal Board Square D 828 BTB207 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 BTB208 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 BTB209 QT,T,P,H,CS,R, A,0M,QI,RPS Terminal Board Square 0 828 BTB210 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square D 828 CTB203 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 CTB204 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 CTB205 QT,T,P,H,CS,R, A,QM,0I,RPS Terminal Board Sq'uare D 828 CTB206 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square D 828 OTB203 QT,T,P,H,CS,R,

~~

A,QM,QI,RPS Terminal Board Square D 823 DTB204 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square 0 828 DTB205 QT,T,P,H,CS,R, A,QM,QI,RPS Terminal Board Square D 828 OTB206 QT,T,P,H,CS,R, A,QM,QI,RPS e

APPENDIX B (continued)

Equipment Component Cescription Manufacturer Model No.

No.

Deficiency Motor Westingnouse Type HSDP MP202A QT,T,P,H,A, QM,QI*

Motor Westingnouse Type HSDP MP202B QT,T,P,H,A, QM,QI*

Motor Westinghcuse Type HSDP MP205A QT,T,P,H,A, QM,QI*

Motor Westinghouse Type HSOP MP205B QT,T,P,H,A, QM,QI*

Motor Westinghouse Type HSDP MP203A QT,T,P,H,A, QM,QI*

Motor Westinghouse Type HSDP MP2038 QT,T,P,H,A, QM,QI*

1 Motor Reliance Series 2000 M220A QT,T,P,H,CS,A, QM,QI*

Motor Reliance Series 2000 M2208 QT,T,P,H,CS,A, QM,QI*

Motor Reliance Series 2000 M201A

-QT,T,P,H,CS,A, QM,QI*

Motor Reliance Series 2000 M2018 QT,T,P,H,CS,A, QM,QI*

i -

Motor Reliance Series 2000 M202A QT,T,P,H,CS,A, QM,QI*

Motor Reliance Series 2000 M2028 QT,T,P,H,CS,A, QM,QI*

Motor Reliance Series 2000 M203A QT,T,P,H,CS,A, QM,QI*

Note:

" Replace lubricant and insulation with qualified ones by June 1982.

3-17

APPENDIX 3 (continued)

Equipment Component Description Manufacturer Model No.

No.

Deficiency Motor Reliance Series 2000 M2028 OT 7,3,H.CS,A, CM.QI*

Motor Reliance Series 2000 M204A QT,T,P,H,CS,A, QM,QI*

Motor Reliance Series 2000 M2048 QT,T,?.H.CS,A, CM,Q!'

Motor Operated Valve Limitorque SMB-00 CV3004A1 QT,T,P,H,R,A, QH,RPS Motor Operated Valve Limitorque SMB-00 CV3004A2 QT,T,P,H,R,A, QM,RPS Motor Operated Valve Limitorcue SMB-00 CV300481 QT,T,P,H,R,A, QM,RPS Motor Operated Valve Limiterque SMB-00 CV300482 QT,T,P,H,R,A, GM,RPS Motor Operated. Valve Limitorque SMB-00 CV3004C1 QT,T,P,H,R,A, QM,RPS Motor Operated Valve Limitorque SMB-00 CV3004C2 OT,T,P,H,R,/.,

QM,RPS Motor. Operated Valve Limitorque SMB-00 CV300401 QT,T,P,H,R,A, QM,RPS Motor Operated Valve Limitorque SMB-00 CV300402 QT,T,P,H,R,A, GM,RPS Motor Operated Valve Limitorque SMB-00 M03306A T,CS,A,RPS,QI Motor Ocerated Valve Limitorque SMB-00

.%3310A T,CS,A,RPS,QI Motor Operatec Vaive

'Limitorque SMB-2 T3702 T,CS,A,RPS,QI Motor Operated Valve Limitorque SMB-000 M03293 T,?,R,M,A,QI, RPS No;e:

"seoiace luoricant anc insulation with cualified ones by June 1982.

3-18

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

t I

APP 5NDIX B (continued) t Squipment Comconent Description Manufacturer Mocel No.

No.

Deficiency i

Motor Operated Valve Limitorque SMB-COO M03298A T,?,R,M A.01, RPS Motor Operated Valve Limitorque SMB-000 M032958 T,P,R,M,A,QI, RPS Motor Operated Valve Limitorque SMB-000 M03298C T,P,R,M,A,QI, RPS i

Motor Operated Valve Limitorque SMB-000 M032980 T,P,R,M,A,QI, RPS Motor Operated Valve Limitorque SMS-000 M08112 T,P,CS,R,M,A,QI, i

RPS Motor Operated Valve Limitorque SMB-000 M05653 T,P,CS,R,M,A, QI,RPS

-Level Transmitter Barton 764 LT527 T,P,H,CS,A,QM, QI Flow Transmitter Barton 764 FT512 T,P,H,CS,A,QM, QI Flow Transmitter Barton 764 FT513 T,P,H,CS,A,QM, QI Flow Transmitter Barton 764 FT522 T,P,H,CS,A,QM,-

QI Flow Transmitter Barton 764 FT523 T,P,H,CS,A,QM, QI Flow Transmitter Barton 764 FT532 T,P,H,CS,A,QM, OI-Flow Transmitter Barton 764 FT533 T,P,H,CS,A,0M, QI Flow Transmitter

.Barton 764 FT543 7,P,H,CS,A,QM, QI Tape Scotch 23 N/A QT,T,P,H,R,

-A,0M,QI B-19'

APPENDIX B (continued)

Equipment C;cconent Description Manufacturer Model No.

No.

Deficiency Tape Scoten 70 N/A QT,7,0.H R.A.CM,0!

Flow Transmitter Barton 38 FT917 QT,T,?,H.CM R.A,QI,RPS Pressure Transmitter Barton 345 PT947 QT,T,P,H,R, A.CM.9PS B-20

APPENDIX C Equipment Considered Acceptable or Conditionally Acceptacle (Category 4.3)

Equ1;: ment C e s c rio'.4 :n Var.u f ac*.Jre r Ccm0cre",t No.

Def#ciency No eouipment in this category.

we.-

APPENDIX 0 Safety-Related Systems List System Generic (com::enents common to many systems)

Component Cooling Water System Heating and Ventilating Fuel and Reactor Auxiliary Buildings Feedwater System RHR System Chemical and Volume Control System Safety Injection Systsm Engineered Safeguards Actuating System Primary Containment Heating and Ventilating Containment Containment Spray System Steam Generators RCS, Including Pressurizer Primary Makeup Water System Clean Radwaste System Dirty Radwaste System Gaseous Radwaste System Process Sac '.ing System Radiation-Monitoring System Reactor Nonnuclear Instrumentation Main Steam System b

?-1