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PARTIAL REVIEW t

EQUIPMENT EVALUATION REPORT BY THE OFFICE OF NUCLEAR REACTOR REGULATION 4

FOR VERMONT YANKEE ATOMIC POWER COMPANY VERMONT YANKEE ATOMIC POWER-STATION 00".s T NO. 50-271 4

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PARTIAL REVIEW EQUIPMENT EVALUATION REPORT BY THE OFFICE OF NUCLEAR REACTOR REGULATION FOR VERMUNT YANKEE ATOMIC POWER COMPANY VERMONT YANKEE ATOMIC POWER STATION

< DOCKET NO. 50-271 3 STAFF EQUIPME/.T EVALUATION The staff evaluation of the licensee's response included an onsite inspection of selected Class IE equipment and an examination of the licensee's report for completeness ard acceptability.

The criteria described in the DOR guidelines and in NUREG4Ed8, in part, were used as a basis for the staff evaluation of the adequacy of the licensee's qualification program.

The NRC Office of Inspection and Enforcement performed (1) a preliminary evaluation of the licensee's response, documented in a technical evaluation report (TER) and (2) an ensite verification inspection (September 29 - October 2, 1980) of selected safety-related electrical equipment.

The main steam and high pressure ccolant injection systems were 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 data were compared to information given in the Component Evaluation Work Sheets (CES) of the licensee's report.

The site inspection is documented in report IE 50-271/B0-13.

No deficiencies were noted.

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

3.1 Comoleteness of Safety-Related Ecuipment In accordance with IEB 79-01B, the licensee was directed to (1) establish a list of systems and equipment that are required to mitigate a LOCA and an HELB and (2) identify components needed to perform the function of safety-related display information, post-accident sampling and monitoring, and radiation monitoring.

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

The instrumentation selected includes parameters to monitor 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 uppn information in the licensee's submittal, the equipment location references, and in some cases subsequent conversations with the licensee, the staff has verified and determined that the systems included in the licensee's submittal are those 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 signifi-cant release of radioactive material to the environment. The staff therefore

concludes that the systems identified by the licensee (listed in Appendix 0) are acceptable, with the exception of those items discussed in Section 5 of this report.

Display instrumentation which provides information for the reactor operators to 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 the LOCA and HELB emergency procedures must be provided.

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 provided for not considering the instrument safety related and (2) assurance should be provided that its sut, sequent 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 rEvidw of the TMI Lessons-Learned modifications and will be performed in conjunction with that review.

The licensee identified 270 items of equipment which were assessed by the staff.

3.2 Service Conditions Commission Memorandum and Order CLI-80-21 requires that the DOR guidelines and the "For Comment" NUREG-0588 are to be used as the criteria for establishing the adequacy of the safety-related electrical 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 for Vermant Yankee, 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 documentation 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.

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

3.3 Temperature, Pressure, and Humidity Conditiens Inside Containment The licensee nas provided the results of accident analyses as follows:

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Max Temp (*F)

Max Press (psig)

Humidity (%)

LOCA 325 44 100 MSLB (not provided)

(not provided) 100 The staff has concluded that the minimu.n temperature profile for equipment qualification purposes should include a margin to account for analytical uncertainties in the calculated teinperature profiles for postulated accidents.

A margin of 20 F above steam saturation temperature is considered to be appro-priate for either a postulated LOCA or MSLB, whichever is controlling as to potential adverse environmental effects on equipment.

The licensee's minimum temperature profile for qualification purposes includes a margin at least as large as would result from the staff's recom.mendation.

Therefore, the staff concludes that the specified temperature profile is acceptable.

3.4 Temperature, Pressure, and Humidity Conditions Outside Containment The licensee has provided the temperature, pressure, humidity and applicable environment associated with an HELB outside containment.

The following areas outside containment have been addressed:

(1) Steam tunnel (2) Torus area (3) Reactor building (4) HPCI pump room (5) RCIC pump room The staff has verified that the parameters identified by the licensee for the MSLB are acceptable.

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

Unlass 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.

l The licensee's value for maximum submergence is at elevation 239 ft 8 in.

No equipment belcw this level inside the containment has been identified by the licensee.

Hence, submergence is not appliccble for Vermont Yankee.

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3. 6 Chemical Spray l

The licensee stated tnat Vermont Yankee does not use a chemical spray.

Thus, this service requirement is not applicable for Vermont Yankee.

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 i

actions are required:

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(1) Make a detailed corrparison of existing equipment and the materials identified 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 ef fort.

(2) Establish an ongoing program to review surveillance and maintenance records to identify potentia ~ 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 which a specified qualified life was established (for examples, 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 above requirements.

The response should 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 ctaff 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 postulated 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 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 ranging from 6.0 x 107 to 1.0 x 10s rads.

This value envelopes the 00R guideline l

requirements and is therefore acceptable.

l A required value outside containment of 1.6 x 104 rads has been used by the licensee to specify limiting radiation levels around the RHR system in the i

reactor building.

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

4 QUALIFICATION OF EQUIPMENT The following subsections present the staff's assessment, based on the l!censee's submittal, of the qualification status of safety-related electrical equipn. ant.

l The staff 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-1 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 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 ef' ort will begin in early 1981.

An appendix for each subsection of this report provides a list of equipment for which additional information and/or correct'.ve action is required. Where appropriate, a reference is provided in the arpendices 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 Equipment Requiring Immediate Corrective Action 4.2 Eouipment Requiring Additional Information ana/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 fcr the qualification parameter or condition.

Legend R

radiation T

- temperature QT qualification time RT - required time P

pressure H

- humidity -.

CS - chemical spray

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

- submergence M

- margin I

- HELB 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 e-QI qualification information being developed RPS - equipment relocation or replacement schedule 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 that 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.

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(2a) Equipment performs its function before its exposure to the harsh environ-ment, and the adequacy for the time margin provided is adequately justitied, 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 o

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.

4.3 Ecuioment Considered Acceotable or Conditionally Acceptable Based on the staff review of the licensee's submittal, the staff identified the equipment in Appendix C as (1) acceptable on the basis that the qualifi-cation program adequately enveloped the specific environmental plant parameters, or (2) conditionally acceptable subject 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 REQUIREMENT 5 IEB 79-018, 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 D Safety-Related Systems L-istl Function System Emergency Reactor Shutdown Reactor Protection Engineered Safeguards Actuation Standby Liquid Control

'sContainment Isolation Main Steam Reactor Water Cleanup Primary Containment Atmospheric Control Sampling Residual Heat Removal Drywell Sump Discharge Reactor Core Isolation Cooling Containment Isolation 2 Reactor Core Cooling High Pressure Coolant Injection Low Pressure Coolant Injection Automatic Depressurization Core Spray Containment Heat Removal Containment Spray Residual Heat Removal Service and Cooling Water Core Residual Heat Removal Residual Heat Removal Reactor Core Isolation Cooling Service and Cooling Water Standby Coolant Supply Prevention of Significant Containment Atmospheric Dilution Release of Radioactive Post Accident Monitoring Material to Environment Post Accident Sampling Standby Gas Treatment Primary Containment and Atmospheric Control Supporting Systems Emergency Power Heating and Ventilation 1The NRC staff recognized that there are differences in nomenclature of systems because of plant vintage and engineering design; consequently some systems performing identical or similar functions may have different names.

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

20ther systems with isolation valves covered by engineered safeguards actuation system.

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

LEGEND:

R - Radiation T - Te.nperature ~'_

QT - Qualification time RT - Required time P - Pressure H - Humidity CS - Chemical spray A - Material aging evaluation, replacement schedule, ongoing equipment surveillance 5 - Submergence M - Margin I - HiLB 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 - Qualificatior,information being developed RPS - Equipment relocation or replacement schedule provided Equipment Description Manufacturer Component No.

Deficiency Motor Operator Limitorque MOV-70-19A QI Motor Operator Limitorque M0V-70-198 QI Motor Operator Limitorque MOV-70-19C QI Solenoid Oper. Valve Target Rock VG-23 QM,QT,H,A Solenoid Oper. Valve.

Target Rock VG-9A QM,QT,H,A Solenoid Oper. Valve,

Target Rock VG-12A QM,QT,H,A Solenoid Opec. valve Target Rock VG-22A QM,QT,H,A Solenoid Oper. Valve Target Rock VG-33 QM,QT,H,A Solenoid Oper. Valve Target Rock VG-26 QM,QT,H,A Solenoid Oper. Valve Target Rock VG-98 QM,QT,H,A B-1

Appendix B (Continued)

Equipment Descriotion Manufacturer Cosconent No.

Deficiency Solenoid Oper. Valve Target Rock VG-128 QM,QT,H,A Solenoid Oper. Valve Target Rock VG-228 QM,QT,H,A Solenoid Oper. Valve Target Rock VG-34 QM,QT,H,A Scienoid Oper. Valve Target Rock VG-75A3 QM,QT,H,A Solenoid Oper. Valve Target Re:k VG-11A QM,QT,H,A Solenoid Oper. Valve Target Rock VG-13A QM,QT,H,A Solenoid Oper. Valve Target Rock VG-24 QM,QT,H,A Solenoid Oper. Valve Target Rock VG-75A4 QM,QT,H,A Solenoid Oper. Valve Target Rock VG-113 QM,QT,H,A Solenoid Oper. Valve Target Rock VG-138 QM,QT,H,A Solenoid Oper. Valve Target Rock VG-25 QM,QT,H,A Solenoid Oper. Valve Atkomatic F50-109-7581 QM,QT,T,P, HA Solenoid Oper. Valve

.Atkomatic F50-109-75C1 QM,QT,T,P, H,A Solenoid Oper. Valve Atkomatic FSO-109-7501 QM,QT,T,P, H,A Solenoid Oper. Valve Atkomatic FSO-109-7522 QM,QT,T,P, H,A Solenoid Oper. Valve Atkematic F50-109-75C2 QM,QT,T,P, H,A Solenoid Oper. Valve Atkomatic F50-109-7502 QM,QT,T,P, H,A Pre *iure Transmitter Rosemount PT-VG-4 A QM,QT,A Pressure Transmitter Rosemount PT-VG-48 QM,QT,A H Analyzer Oelphi SAFFVG-5 QM,QT,A,T 2

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Appendix B (Continued)

Equipment Description Manufacturer Component No.

Deficiency Solenoid Oper. Valve Atkomatic FSO-109-75A1 QM,QT,T,P, H,R,A Solenoid Oper. Valve Atkomatic F50-109-75A2 QM,QT,T,P, H,R,A Motor GE P46-1A QI Motor GE P46-1B QI Motor Operator Limitorque MOV-14-11A QI Motor Operator Limitorque MOV-14 11B QI Motor Operator Limitorque MOV-14-12A QI Motor Operator Limitorque MOV-14-12B QI Motor Operator Limitorque MOV-14-26A QI Motor Operator Limitorque MOV-14-26B QI Motor Control Center Westinghouse MCC-8E QI Motor Control Center Westinghouse MCC-90 QI Motor Contr'.1 Center ITE MCC-89A QI Motor Control Center ITE MCC-898 QI Uninterruptible Power Sys.

Exide UPS-1A QI Uninterruptible Power Sys.

Exide UPS-1B QI Power Panel GE PP-89 QI Motor Generator Set GE MG-2-1A QI Motor Control Center Westinghouse MCC-98 QI Mctor Control Center Westinghouse DC-2A QI Motor Control Center Westinghouse DC-1A QI Motor Control Center Westinghouse DC-1B QI Motor Control Center Westinghouse DC-28 QI B-3

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Equipment Descriotion Manufacturer Comconent No.

Deficiency Power Panel Westinghouse LT-ITA QI Motor Allis-Chalmers RRU-5' QM,QT,T,P,H,R,A Motor Allis-Chalmers RRU-2.

QM,QT,T,P,H,R,A Mntor Allis-Chalmers RRU-81 QM,QT,T,P,H,R,A Motor Allis-Cnalmers RRU-6~

QM,QT,T,P,H,R,A Motor Operator Limitorque MOV-23-15 QM,QT,T,P,H,R,A Motor Operator Limitorque MOV-23-16 QI Motor Operator Limitorque MOV-23-19 QI Pressure Switch-Barksdale PS-23-68A QM,QT,R,A PS-23}_688 QM,QT,R,A Pressure-Switch Barksdale Pressure Switch Barksdale PS-23-68C QM,QT,R,A Pressure Switch Barksdale PS-23-680 QM,QT,R,A Flow Transmitters GE/MAC PT-23_82 QM,QT,H,R,A Pressure Switch-Barksdale PS-23-84 QM,QT,R,A Pressure Switch Barksdale PS-23-97A QM,QT,R,A Pressure Switch Barksdale PS-23-97B QM,QT,R,A Local Controls Terry QI Motor Operator Limitorque MOV-23-14 QI Motor Operator Limitorque MOV-23-24 QI Motcr Operator Limitorque MOV-23.-17 QI Motor Operator Limitorque MOV-23-57 QI Motor Operator' Limitoroue MOV-23-20 QI Motor Operator.

Limitorque MOV-23-58 QI Motor Operator Limitorque MOV-23-21 QI B-4

Appendix B (Continued)

Equipmer.t Description Manufacturer Component No.

Deficiency Solenoid Valve ASCO 23-50A RPN Motor Operated Valve Limitorque MOV-2-74 QM,QT,R,A Pressure Switch Barksdale PS-2-3-52A QM,QT,R,A Pressure Switch Barksdale PS-2-3-52C QM,QT,R,A Pressure Switch Barksdale PS-2-3-53A QM,QT,R,A Pressure Switch Barksdale PS-2-3-53B QM,QT,R,A Relief Valve Pos. Mon.

GE DWG #112D19433005 QI Pressure Switch Static-0-Ring PS-2-71A QI Pressure Switch Static-0-Ring PS-2-72B QI Pressure Switch Static-0-Ring PS-2-73C QI Pressure Switch Static-0-Ring PS-2-72A QI Pressure' Switch Static-0-Ring PS-2-73B QI Pressure Switch Static-0-Ring PS-2-71D QI Pressure Switch Static-0-Ring PS-2-73A QI Pressure Switen Static-0-Ring PS-2-71C QI Pressure Switch Static-0-Ring PS-2-72D QI Pressure Switch Static-0-Ring PS-2-71B QI Pressure Switch Static-0-Ring PS-2-72C QI Pressure Switch Static-0-Ring PS-2-73D QI Thermocouple Assembly Thermoelectric TE-16-19-30 QI Acoustic Transmitter B&W QI Acoustic Accelerometer B&W QI Radiation Detector Victoreen RD-16-19-1A-QI Radiation Detector Victoreen RD-16-19-1B QI B-5

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Appendix B (Continued) 2 Equipment t

Description Manufacturer Comconent No.

Deficiency r

Level Transmitter GE LT-16-19-38A QI

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Level Transmitter GE LT-16-19-388 QI Temperature Element Thermo-TE-16-19-33A QI Electric 4

l Temperature Element Thermo-TE-16-19-33C QI Electric Pressure Transmitter GE PT-6-53A QM,QT,R,A Pressure Transmitter GE PT-6-533 QM,QT,R,A

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Level Transmitter Rosecount LT-16-19-10A QM,QT,R,A Level Transmitter Rosemount LT-16-19-10B QM,QT,R,A Level Switch Yarway LITS-2-3-73A GM,QT,A I

Level Switch Yarway LITS-2-3-735 GM,QT,A Pressure Transmitter GE PT-16-19-23 QI Teroperature Element Thermo-TE-16-19-34 QI Electric Pressure Transmitter GE PT-16-19-36 QI Temperature Element Thermo-TE-1-149-1 QI Electric Solenoid Oper. Valve ASCO FCV-2-39 QM,QT,A l

Solenoid Oper. Valve ASCO FCV-2-40 RPN Solenoid Pilot Valve ASCO 16-19-11A RPN Solenoid Pilot Valve ASCO 16-19-11B RPN Pressure Switch-Barton dPIS-16-19-32A QM,QT,A Pressure Switch Barton dPIS-16-19-323 QM,QT,A Sensor GE 17-430A QI Sensor GE 17-430B QI B-6 m.

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I Equipment Description Manufacturer Coroonent No.

Deficiency Sensor GE 17-431A QI Sensor GE 17-431B QI Motor Operator Limitorque MOV-13-15 QM,QT,R,A e.

Motor Operator Limitorque MOV-13-16 QI 1

Pressure Switch Barksdale PS-13-72A QM,QT,R,A

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l Pressure Switch Barksdale PS-13-67A QM,QT,R,A Pressure Switch Barksdale PS-13-729 QM,QT,R,A 1

Pressure Switch Barksdale PS-13-67B QM,QT,R,A Pressure Switch Barksdale PS-13-87A QM,QT,R,A Presscre Switch Barksdale PS-13-873 QM,QT,R,A Pressure Switch Barksdale PS-13-87C QM,QT,R,A Pressure Switch Barksdale PS-13-870 QM,QT,R,A Flow Transmitter CE FT-13-58 QI Local-Controls Terry QI Motor Operator Limitorque MOV-2-53A QM,QT,R,A l

Motor Operator Limitorque MOV-2-53B QM,QT,R,A Motor Operator Limitorque MOV-2-54A QM,QT,R,A Motor Operator Limitorque MOV-2-54B QM,QT,R,A I

Motor Operator Limitorque MOV-2-66A QM,QT,R,A Motor Opei ator Limitorque MOV-2-66B QM,QT,R,A Motor Operator Limitorque MOV-12-15 QM,QT,R,A 4

Motor Operator Limitorque MOV-12-18 R,A Motor Operator Limitorque MOV-10-18 QM,QT,R,A Motor Operator Limitorque MOV-10-32 QM,QT,R,A 4

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Appendix B (Continued)

Equipment Description Manufacturer Component No.

Deficiency Motor Operator Limitorque MOV-10-27A QM,QT,R,A Motor Operator Limitorque MOV-10-31A QM,QT,R,A Motor Operator Limitorque MOV-10-13C QM,QT,R,A Motor Operator Limitorque MOV-10-15C QM,QT,R,A Motor Operator Limitorque MOV-10-27B CM,QT,R,A Motor Operator Limitorque MOV-10-31B QM,QT,R,A Motor Cperator Limitorque MOV-10-130 QM,QT,R,A Motor Operator Limitorque MOV-10-15D QM,QT,R,A Motor Operator Limitorque MOV-10-26A QM,QT,R,A Motor Operator Limitorque MOV-10-13A QM,QT,R,A Motor Operator Limitorque MOV-10-15A QM,QT,R,A Motor Operator Limitorque MOV-10-26B QM,QT,R,A Motor Oper.stor Limitorque MOV-10-138 QM,QT,R,A Motor Operator Limitorque MOV-10-15B QM,QT,R,A Motor GE P10-1A QM,QT,T,P,H,R,A Motor GE P10-1B QM,QT,T,P,H,R,A Motor GE P10-1C OM,QT,T,P,H,R,A 4

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Motor GE P10-10 QM,QT,T,P,H,R,A Motor Westinghousa

-P8-1A QM,QT,T,A f

Motor Westinghouse P8-18 QM,QT,T,A l

Motor Westinghouse P8-1C QM,QT,T,A Motor Westinghouse P8-10 QM,QT,T,A f

Motor Operator Limitorque MOV-10-25A QM,QT,R,A i

j Motor Operator Limitorque MOV-10-258 QM,QT,R,A 1

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Appendix B (Continued)

Equipment Description Manufacturer Comoonent No.

Deficiency Motcr Operator Limitorque MOV-10-17 QI Motor Operator Limitorque MOV-10-38A QM,QT,R,A l

Motor Operator Limitorque MOV-10-57 QM,QT,R,A Motor Operator Limitorque MOV-10-89A QM,QT,R,A Motor Operator Limitorque MOV-10-388 CM,QT,R,A Motor Operator Limitorque MOV-10-65A QM,QT,R,A Motor Operator Limitorque MOV-10-89B QM,QT,R,A Motor Operator Limitorque MOV-10-39A QM,QT,R,A Motor Operator Limitorque MOV-10-65B QI,QT,R,A Motor Operator Limitorque MOV-10-183 QM,QT,R,A i

Motor Operator Limitorque MOV-10-398 QM,QT,R,A Motor Operator Limitorque MOV-10-66 QM,QT,R,A Motor Operator Limitorque MOV-10-184 QM,QT,R,A Fan Motor Allis-Chalmers REF-2A QI 4

3 Fan Motor Allis-Chalmers REF-2B QI Solenoid ASCO SB-2A RPN Solenoid ASCO 58-2B RPN Solenoid ASCO SB-3A RPN Solenoid ASCO SB-38 RPN Solenoid ASCO SB-4A RPN Solenoid ASCO SB-4B RPN Solenoid ASCO 58-5 RPN Limit Switch NAMCO A0V-2-86A QM,QT,A Limit Switch NAMCO.

A0V-2-868 QM,QT,A B-9

I Apper. dix B (Continued) t Equipment Description Manufacturer Component No.

Deficiency Limit Switch NAMC0 A0V-2-86C QM,QT,A J

Limit Switch NAMC0 A0V c ?30 QM,QT,A Thermocouple Lewis TE-16-19-30 QM,QT,T,A Engineering i

Power Cable Rome Cable Generick QM,QT,A

)

Penetration Assembly GE Generick QM,QT,A Terminal Blocks Buchanan Generick QM,QT,A Power Cable Rome Cable XLP/PVC QM,QT,T,P,H,R,A

. Power Cable Kerite Generick QM,QT,A Power Cable Collyer P46-1A QM,QT,T,P,H,R,A i

Power Cable Collyer P46-1B QM,QT,T,P,H,R,A Control Cable Rome XLP/PVC/PVC QM,QT,T,P,H,R,A Terminal Block States Type NT QM,QT,R,A Terminal Block States A0V-2-86A QM,QT,R,A Terminal Block States A0V-2-86B QM,QT,R,A Terminal Block States A0V-2-86C QM,QT,R,A l

' Terminal Block States A0V-2-86D QM,QT,R,A l

Instrument Cable Boston Generick QM,QT,T,P,H,R,A i

Insulated Wire Co.

e i

B-10

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

LEGEND:

R - Radiation T Temperature QT Qualification time RT Required time P Pressure H Humidity CS Chemical spray A Material aging evaluation, replacement schedule, ongoing e;uipment surveillance S Submergence M Margin I HELB 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 Qualification information being developed RPS Equipment relocation or replacement schedule provided Equipment Descriotion Manufacturer Component No.

Deficiency Solenoid Oper. Valve ASCO RV-2-71A A

Solenoid Oper. Valve ASCO RV-2-71B A

Solenoid Oper. Valve ASCO RV-2-71C A

Solenoid Oper. Valve ASCO RV-2-710 A

Temperature Switch Fenwall TS-23-101A A

Temperature Switch Fenwall TS-23-102A A

Temperature Switch Fenwall TS-23-103A A

Temperature Switch Fenwall.

TS-23-104A A

Temperature Switch Fenwall TS-23-101-B A

Temperature Switch Fenwall TS-23-102-B A

C-1

Appendix C (Continued)

Equipment Description Manufacturer Component No.

Deficiency Temperature Switch Fenwall TS-23-103-B A

Temoerature Switch Fenwall TS-23-104-8 A

Temperature Switch Fenwall TS-23-101-C A

Temperature Switch Fenwall TS-23-102-C A

Temperature Switch Fenwall TS-23-103-C A

Temperature Switch Fenwall TS-23-104-C A

Temperature Switch Fenwall TS-23-101-0 A

Temperature Switch Fenwall TS-23-102-D A

Temperature Switch Fenwall TS-23-103-D A

Temperature Switch Fenwall TS-23-104-D A

Solenoid Oper. Valve ASCO A0V-2-80A A

Solencid Oper. Valve ASCO A0V-2-80B A

Solenoid Oper. Valve ASCO A0V-2-80C A

Solenoid Oper. Valve ASCO A0V-2-800 A

Solenoid Oper. Valve ASCO A0V-2-86A A

Solenoid Oper. Valve ASCO A0V-2-868 A

Solenoid Oper. Valve ASCO A0V-2-86C A

Solenoid Oper. Valve ASCO A0V-2-860 A

Pressure Switch Barton PS-2-3-528 A

l Pressure Switch Barton PS-2-3-520 A

Level Transmitter Rosemount LT-2-3-72A A

Level Transmitter Rosemount LT-2-3-728 A

Level Transmitter Rosemount LT-2-3-72C A

l Level Transmitter Rosemount LT-2-3-720 A

C-2

(

Appendix C (Continued)

Equipment DescriDtion Manufacturer Comoonent No.

Deficiency Temperature Switch Fenwall TS-13-79-A A

Temperature Switch Fenwall TS-13-80-A A

Temperature Switch Fenws.ll TS-13-81-A A

Temperature Switch Fenwall TS-13-82-A A

Temperature Switch Fenwall TS-13-79-8 A

Temperature Switch Fenwall TS-13-80-8 A

Temperature Switch Fenwall TS-13-81B A

Temperature Switch Fenwall TS-13-828 A

Temperature Switch Fenwall TS-13-79C A

Temperature Switch Fenwall TS-13-80C A

Temperature Switch Fenwall TS-13-81C A

Temperature Switch Fenwall TS-13-82C A

Temperature Switch Fenwall TS-13-790 A

Temperature Switch Fenwall TS-13-800 A

Temperature Switch Fenwall TS-13-81D A

Temperature Switch Fenwall TS-13-820 A

Differential PIS Barton dPIS-13-83 A

Differential PIS Barton dPIS-13-84 A

Limit Switch NAMC0 A0V-2-80A A

Limit Switch NAMC0 A0V-2-80B A

Limit Switch NAMCO A0V-2-80C A

Limit Switch NAMC0 A0V-2-800 A

Control Cable Rockbestos A0V-2-80A A

Control Cable Rockbestos A0V-2-808 A

C-3

Appendix C (Continued)

Equipment Descriotion Manufacturer Ccmccrent No.

Deficiency Control Cable Rockbestos A0V-2-ECC A

Control Caole Reckbestos ACV-2-300 A

C-4