ML20004E027
| ML20004E027 | |
| Person / Time | |
|---|---|
| Site: | Cooper  |
| Issue date: | 06/08/1981 |
| From: | Office of Nuclear Reactor Regulation |
| To: | |
| Shared Package | |
| ML20004E025 | List: |
| References | |
| IEB-79-01B, IEB-79-1B, TAC-42486, NUDOCS 8106100634 | |
| Download: ML20004E027 (35) | |
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SAFETY EVALUATION REPORT BY THE OFFICE OF NUCLEAR REACTOR REGULATION EQUIPMENT QUALIFICATION BRANCH FOR NEBRASKA PUBLlc POWER DISTRICT COOPER NUCLEAR STATION DOCKET NO. 50-298 l
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1 CONTENTS Page 1
Introduction...............................................
1 2
Background.................................................
1 2.1 Purpose...............................................
2
- 2. 2 Scope.................................................
2 3
Staff Evaluation...........................................
2 3.1 Completeness of Safety-Related Equipment..............
2 3.2 Service Conditions....................................
3 3.3 Temperature, Pressure, and Humidity Conditions Inside Containment....................................
4 3.4 Temperature, Pressure, and Humidity Conditions Outside Containment...................................
4 3.5 Submergence...........................................
5 3.6 Chemical Spray........................................
5 3.7 Aging.................................................
5 3.8 Radiation.............................................
6 4
Qualification of Equipment................................
6 4.1 Equipment Requiring Immediate Corrective Action.......
7 4.2 Equipment Requiring Additional Information and/or Corrective Action.....................................
7 4.3 Equipment Considered Acceptable or Conditionally Acceptable............................................
9 5
Deferred Requirements......................................
9 6
Conclusions................................................
9 APPENDIX A Equipment Requiring Immediate Corrective Action APPENDIX B Equipment Requiring Additional Information and/or Corrective Action APPENDIX C Equipment Considered Acceptable or Conditionally Acceptable APPENDIX D Safety-Related Systems List iii
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B SAFETY EVALUATION REPORT BY THE OFFICE OF NUCLEAR REACTOR REGULATION EQUIPMENT QUALIFICATION BRANCH FOR NEBRASKA PUBLIC POWER DISTRICT COOPER NUCLEAR STATION DOCKET NO. 50-298 ENVIRONMENTAL QUALIFICATION OF SAFETY-RELATED ELECTRICAL EQUIPMENT 1 INTRODUCTION General Design Criteria 1 and 4 specify that safety-related electrical equip-ment in nuclear facilities must be capable of performing its safety-related function under environmental conditions associated with all normal, abnormal, and accidal plant operation.
In order to ensure compliance with the cri-tsrfa, the NRC staff required all licensees of operat.ing reactors to submit a i
reevaluation of the qualification of safety-related electrical equipment which l
may be exposed to a harsh environment.
l 2 BACKGROUND On February 8, 1979, the NRC Office of Inspection and Enforcement (IE) issued to all licensees of operating plants (except those included in the systematic evaluation program (SEP)) IE Bulletin IEB 79-01, " Environmental Qualification of Class IE Equipment." This bulletin, together with IE Circular 78-08 (issued on May 31, 1978), required the licensees to perform reviews to assess the adequacy of their environmental qualification programs.
Subsequently, Commission Memorandum and Order CLI-80-21 (issued on May 23, 1980) states that the 00R guidelines and portions of NUREG-0588 (which were issued on January 14, 1980, as enclosures 4 and 5 to IEB-79-018) form the requirements that licensees must meet regarding environmental qualificaticn of safety related eleutrical equipment in order to satisfy those aspects of 10 CFR 50, Appendix A, General Design Criterion (GDC)-4. This order also requires the staff to complete safety evaluation reports (SERs) for all operating
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plants by February 1,1981.
In addition, this order requires that the licensees have qualified safety-related equipment installed in their plants by June 30, l
1982.
Supplements to IEB 79-01B were issued for further clarification and definition of the staff's needs. These supplements were issued on February 29, September 30, and October 24, 1980.
In addition, the staff issued orders dated August 29, 1980 (amended in September 1980) and October 24, 1980 to all licensees. The August order required that the licensees provide a report, by November 1, 1980, documenting the qualification of safety-related electrical equipment. The October order required the establishment of a central file location for the maintenance of all equipment qualification records. The central file was mandated to be established by December 1, 1980. The order also required that all safety-related electrical equipment be qualified by June 30, 1982.
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s response, the licensee submitted information by a letter dated October 31, 1980 and January 28, 1981.
2.1 Purpose The purpose of this SER is to identify equipment whose qualification program does not provide sufficient assurance that the equipment is capable of per-forming the design function in hostile environments. The staff position relating to any identified deficiencies is provided in this report.
2.2 Scope The scope of this report is limited to an evaluation of the equipment which must function in order to mitigate the consequences of a loss-of-coolant accident (LOCA) or a high-energy-line-break (HELB) accident, inside or outside containment, while subjected to the hostile environments associated with these accidents.
3 STAFF 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 and acceptability. The criteria described in the DOR 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 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 onsite verification inspection of selected safety-related electrical equipment. Components of the automatic depressurization and the high pressure coolant injection systems were inspected. The inspec-
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tion verified proper installation of equipment, overall interface integrity, location with respect to floed level for equipment inside the containment, and manufacturers' nameplate data. The manufacturer's name and model number from the nameplate data were compared to information given in the Component Evalua-tion Work Sheets (CES) of the licensee's report. The site inspection is documented in a May 12, 1980 report. No deficiencies were noted.
For this l
review, the documents referenced above have been factored into the overall staff evaluation.
2.1 Completeness of Safety-Related Equipment In accordance with IEB 79-018, the licensee was directed to (1) establish a list of systems and equipment that are required to mitigate a LOCA and an HELB l
and (2) identify components needed to perform the function of safety-related display information, post-accident sampling and monitoring, and 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 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 -
8 basis of the func.tions 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 information 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) prevent'on of significant release of radioactive material to the emironment.
The staff acknowledges the licensee's effort to include only those safety-related systems 7
located in a poter*Jally harsh envi' onment. However, this review requires the r
listing of all safety-related systems, both inside and outside potentially harsh environments. The iist of safety-related systems submitted by the licensee is included in Appendix D.
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 ;hould be provided for not contidering the instrument safety related and (2) assurance should be provided that its subse-quent failu e will not mislead the operator or adversely affect the mitigation of the consequences of the accident.
The environmental qualification of post-accident sampling and monitoring and radiation monitoring equipment is closely related to the review of the TMI Lessons-Learned modifications and will be performed in conjunction with that review.
The licensee identified 491 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 l
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.
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On this basis, the staff has assumed, unless otherwise noted, that the analysis l
for developing the environmental envelopes for Cooper Nuclear Station, 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 l l l
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e specifications envelope the conditions established by the licensee.
0heing this review, the staff assumed that for plants designed and equipped with an automatic containment spray system which satisfies the single-failure cri-terion, the main-steam-line-break (MSLB) environmental conditions are
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enveloped by the large-break-LOCA environmental conditions. The staff assumed, and requires the licensee to verify, that the containment spray system is not l
l subjected to a disabling single-component failure and therefore satisfies the requirements of Section 4.2.1 of the 00R guidelines.
Equipment submergence has a?so been addressed where the possibility exists that flooding of equipment may result from HELBs.
3.3 Temperature, Pressure, and Humidity Conditions Inside Containment The licensee has provided the results of accident analyses as follows:
Max Temp (*F)
Max Press (psia)
Humidity (%)
LOCA 340 56 100 The staff has concluded that the minimum temperature profile for equipment qualification purposes should include a margin to account for analytical uncertainties in the calculated temperature profiles for postulated accidents.
A margin of 20'F above steam saturation temperature is considered to be appropriate 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 include a margin at least as large as would result from the staff's recommendation.
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 envh onment associated with HELBs outside containment. The following areas outside containment have been addressed:
(1) Main steam tunnel (2) NW, NE, and SE Quads, elevation 859 ft 9 in, and 881 'ia 9 in.
(3) Torus area, elevation 859 ft 9 in, and 881 ft 9 in.
(4) South RHR quad, elevation 859 ft 9 in.
(5) HPCI rcom, elevation 859 ft 9 in.
(6) South RHR quad, elevation 881 ft 9 in.
(7) Torus area, elevation 903 ft 6 in.
(8) RHR heat exchanger rooms, elevation 903 ft 6 in, and 931 ft 6 in.
(9) RWCU pump room and torus area, elevation 931 ft 6 in.
(10) RWCU heat exchanger room, elevation 931 ft 6 in.
(11) Reactor building, elevation 958 ft 5 in. and 976 ft (12) Turbine building heat bay area (13) Turbine building condenser area (14) Turbine building operating floor, elevation 932 ft 6 in. _.
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i (15) Turbine building, elevation 882 ft 6 in.
(16) Injection valve room, elevation 903 ft 6 in.
(17) RCIC quad, elevation 859 ft 9 in, and 881 ft 9 in.
(18) RWCU pump room, elevation 931 ft 6 in.
(19) RHR quads, elevation 859 ft 9 in.
(20) RHR quads, elevation 881 ft 9 in.
(21) Injection valve room, elevation 903 ft 6 in.
(22) Torus area, elevation 903 ft 6 in.
(23) Reactor building, elevation 958 ft 5 in and 976 ft 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 esta'blished 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.
The licensee's value for maximum submergence level inside containment is 16 in. The licensee has not identified any equipment inside containment below this level.
In the event of a feedwater line break in the steam tunnel, the NE corner compartment at elevation 859 ft 9 in, would experience a flood level of approximately 19 ft.
The licensee has identified two Static-0-Ring pressure switches as having the potential for becoming submerged in this area. The licensee has stated that the B side of the core spray system would be unaffected by this break and could be used should these pressure switches fail.
In this regard, the licensee should provide an as yssment of 3he failure modes associated with the submergence of the pressure switches. The 1Icensee should also provide assurance that the subseque < failure of there components will not adversely affect any other safety. ;nctions or mislead an operator. Additionally, the licensee should discuss operating time, across 1,he spectrum of events, in relation to the time of submergence.
If the results of the licensee's assess-ment are acceptable, then the components may be exempt from tile submergence parameter of qualification.
It is not clear from the information submitted that submergence of safety-related electrical equipment in all areas outside of containmer.t was addressed. The licensee should address this area more specifically in the 90-day response and upgrade the CES as appropriate.
3.6 Chemical Spray The licensee has not identified containment spray as a safety-related system and credit has not been taken in the analysis. The system is manually operated and uses domineralized water. Because spray is available and could be used, any equipment upon which it impinges must be qualified for the spray paramater.
The licensee should provide additional information to resolve this concern.
l 3.7 gi_ng n
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: '
s' (1) Make a detailed comparison of existing equipment and the materials identified in Appendix C of the 00R guidelines.
The first supplement to IEB-79-018 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 aumber 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 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 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 iategrated dose of 4.4 x 107 rads. This value envelopes the 00R guideline require & nts and is therefore acceptable.
1 A required value outside containment of 1.84 x 10s rads has been used by the licensee to specify limiting radiation levels within the steam tunnel.
This value appears to consider the radiation levels influenced by the source term methodology associated with post-LOCA recirculation fluid lines and is there-fore 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. -.
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The staff has separated the safety-related equipment into three categories:
1 (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 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 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 required. Where appropriate, a reference is provided in the appendices to identify deficiencies.
It should be noted, as in the Commission Memorandum and Order, that tha 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 Appendix A identifies equipment (if any) in this category. The licensee was asked to review the facility's safety related electrical equipment. The licensee's review of this equipment did not iaentify any requiring immediate corrective action.
In this review, the staff has not identified any safety-related electrical equipment which is not able to perform its intended safety function during the time in which it must operate.
4.2 Equipment 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 me RT - required tirs P
pressure H
- humidity CS - chemical spray -
A
- 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 just*fication inadequate SEN - separate-effects quall'ication justification inadequate 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.
(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 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 Equipment Considered Acceptable 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 l
established. The staff will review the licensee's response when it is sub-mitted and discuss the resolution in a supplemental report.
I 5 DEFERRED REQUIREMENTS l
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 raquired that this information be pro-vided by February 1,1981. The staff will provide a supplemental safety evaluation addressing these concerns.
6 CONCLUSIONS The staff has determined that the licensee's listing of safety-related systems and associated electrical equipment whose ability to function in a harsh environment following an accident is required to mitigate a LOCA or HELB is complete and acceptable, except as noted in Section 3 of this report. The staff has also determined that the environmental service conditions to be met by the electrical equipment in the harsh accident environment are appropriate, except as noted in Section 3 of this report. Outstanding information identi-fied in Section 3 should be provided within 90 days of receipt of this SER.
The staff has reviewed the qualification of safety-related electrical equip-ment to the extent defined by this SER and has found no outstanding items which would require immediate corrective action to ensure the safety of plant operation.
However, the staff has determined that many items of safety-related electrical equipment identified by the licensee for this review do not have l.
adequate documentation to ensure that they are capable of withstanding the harsh environmental service conditions. This review was based on a comparison of the qualification values with the specified environmental values required by the design, which were provided in the licensee's summary sheets.
i Subsection 4.2 identified deficiencies that must be resolved to establish the qualification of the equipment; the staff requires that the information lack-ing in this category be provided within 90 days of receipt of this SER.
Within this period, the licensee should either provide documentation of the missing qualification information which demonstrates that such equipment meets the D0R guidelines or NUREG-0588 or commit to a corrective action (requalifi-cation, replacement, relocation, and so forth) consistent with the requirements to establish qualification by June 30, 1982.
If the latter option is chosen, the licensee must provide justification for operation until such corrective action is complete.
Subsection 4.3 identified acceptance and conditional acceptance based on noted deficiencies. Where additional information is required, the licensee should respond within 90 days of receipt of this SER by providing assurance that these concerns will be satisfactorily resolved by June 30, 1982.
The staff issued to the licensee Sections 3 and 4 of this report and requested, under the provisions of 10 CFR 50.54(f), that the licensee review the deficiencies enumerated and the ramifications thereof to determine whether safe operation of the facility would he impacted in consideration of the deficiencies. The licensee has completed a preliminary review of the identified deficiencies and has deter-mined that, after due consideration of the deficiencies and their ramifications, continued safe operation would not be adversely affected.
Based on these considerations, the staff concludes that conformance with the above requirements and satisfactory completion of the corrective actions by June 30, 1982 will ensure compliance with the Commission Memorandum and Order of May 23, 1980.
The staff further concludes that there is reasonable assurance of continued safe operation of this facility pending completion of these corrective actions. This conclusion is based on the following:
(1) that there are no outstanding items which would require immediate correc-tive action to assure safety of plant operation (2) some of the items found deficient have been or are being replaced or relocated, thus improving the facility's capability to function following a LOCA or HELB (3) the harsh environmental conditions for which this equipment must be qualified result from low probability events; events which might reasonably be anticipated during this very limited period would lead to less demanding service conditions for this equipment..
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APPENDIX A Equipment Requiring Immediate Corrective Action (Category 4.1)
[quipment Manufacturer Model Deficiency No equipment in this category.
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APPENDIX B Equipment Requiring Additional Information and/or Corrective Action (Category 4.2)
LEGEND:
Designation for Deficiercy 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 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 Description -
Manufacturer Component No.
Deficiency Temperature Switch Fenwal Inc.
TS-101A P,M,QM,A l
Temperature Switch Fenwal Inc.
TS-101B P,M,QM,A Temperature Switch Fenwal Inc.
TS-102A P,M,QM,A Temperature Switch Fenwal Inc.
TS-102B P,M,QM,A Temperature Switch Fenwal Inc.
TS-103A P,M,QM,A Temperature Switch Fenwal Inc.
TS-103B P,M,QM,A l
Temperature Switch Fenwal Inc.
TS-104A P,M,QM,A l
i Temperature Switch Fenwal Inc.
TS-104B P,M,QM,A Valve Motor Controls General Electric M0-17-STR QT,R,A,QM,QI Valve Motor Controls General Electric M0-58-STR QT,R,A,QM,QI I
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s APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Pressure Switch Static-0-Ring HPCI-PS-84-1 P,A,QM,M,R,QI Pressure Switch Static-0-Ring HPCI-PS-85 P,A,QM,M,R,QI Pressure Switch Static-0-Ring HPCI-PS-97A P,A,QM,M,R,QI Pressure Switch Static-0-Ring HPCI-PS-97B P,A,QM,M,R,QI Pressure Switch Barksdale HPCI-PS-68A QT,T,P,H,R,A,QM,M Pressure Switch Barksdale HPCI-PS-688 QT,T,P,H,R,A,QM,M Pressure Switch Barksdale HPCI-PS-68C QT,T,P,H,R,A,QM,M Pressure Switch Barksdale HPCI-PS-68D QT,T,P.H,R,A,QM,M Differential Pressure Barton HPCI-DPIS-76 QT,T,P,H,R,A,QM,M,QI Indicating Switch Differential Pressure Barton HPCI-OPIS-77 QT,T,P,H,R,A,QM,M,QI Indicating Switch Turbine Control Box Woodward Governor HPCI-CBX-2792 QT,R,A,QI Hydraulic Actuator Woodward Governor HPCI-CHA-2792 QT,R,A,QI Remote Servo Motor Woodward Governor HPCI-CRSM-2792 QT,R,A,QI Turbina Signal Woodward Governor HPCI-SC-2792 QT,R,A,QI Converter Magnetic Speed Pick-Up Woodward Governor HPCI-SE-2792 QT,R,A,QI Solenoid Valve ASCO HPCI-AVSPV-275 QT,T,P,H,R,A,QM,M,QI Solenoid Valve ASCO HPCI-AVSPV-550 QT,T,P,H,R,A,QM,M Solenoid Valve ASCO HPCI-AVSPV-565 QT,A,R,QM Solenoid Valve ASCO HPCI-AVSPV-566 QT,A,R,QM Solenoid Valve ASCO HPCI-AVSPV-782 QT,A,R,QM Solenoid Valve ASCO HPCI-AVSPV-783 QT,A,R,QM Limit Switch NAMCO HPCI-275AV-LS QT,T,P,H,R,A,QM,M,QI
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APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Limit Switch NAMCO HPCI-782AV QT,A,R,QM Limit Switch NAMCO HPCI-783AV QT,A,R,QM Limit Switch Microswitch 565AV QT,A Limit Switch Microswitch 566AV QT,A Flow Transmitter General Electric HPCI-FT-82 QT,T,P,H,R,A,QM,M,RPN Motor Operator Limitorque HPCI-M0-14 QT,T,H,R,A,QM,M,QI Motor Operator Limitorque HPCI-MO-15 T,H,R,QM,M,A Motor Operator Limitorque HPCI-M0-17 QT,R,A,QM,QI Motor Operator Limitorque HPCI-MO-19 QT,T,H,R,A,QM,M,QI Motor Operator Limitorque HPCI-M0-20 QT,R,A,QI Motor Operator Limitorque HPCI-M0-21 QT,R,A,QI Motor Operator Limitorque HPCI-MO-24 QT,R,A,QI Motor Operator Limitorque HPCI-MO-25 QT,R,A,QI Motor Operator Limitorque HPCI-M0-57 QT,T,A,QM,M Motor Operator Limitorque HPCI-M0-58 QT,R,A Aux. Oil Pump Motor General Electric Unknown QT,R,A,QI Aux. Oil Pump Motor General Electric Unknown QT,R,A,QI Motor Starter l
Motor Operator Control General Electric MO-14-STR R,QT,A,QI l
Motor Operator Control General Electric HPCI-M0-19-STR QT,R,A,QI l
Motor Operator Control General Electric _ HP.CI-RO-20-STR'QT,R, A,QI Motor Operator Control
-Gen 6Fi1Te~c[ric HPCI-MO-21-STR QT,R,A,QI
--MoGr Operator Control General Electric HPCI-M0-24-STR QT,R,A,QI Motor Operator Control General Electric HPCI-M0-25-STR QT,R,A,QI i
l B-3 1
,,w
-w-, -
,,-e-w,w
.-e.,-
APPENDIX B (Continued)
Equipment Description Manufacturer Compon6nt No.
Deficiency Pressure Switch Barksdale RCIC-PS-87A QT,T,P,H,R,A,QM,M Pressure Switch Barksdale RCIC-PS-878 QT,T,P,H,R,A,QM,M Pressure Switch Barksdale RCIC-PS-87C QT,T,P,H,R,A,QM,M Pressure Switch Sarksdale RCIC-PS-370 QT,T,P,H,R,A,QM,M Pressure Switch Static-0-Ring RCIC-PS-88 P,A,QM,M,R,QI Pressure Switch Barksdale RCIC-PS-72A P,A,QM,M,R Pressure Switch Barksdale RCIC-PS-728 P,A,QM,M,R Pressure Switch Barksdale RCIC-PS-67 P,A,QM,M,R Motor Operator Control General Electric RCIC-MO-18-STR QT,T,P,H,R,A,QM,M,QI Motor Operator Control General Electric RCIC-MO-30-STR QT,T,P,H,R,A,QM,M,QI Motor Operator Control General Electric RCIC-MO-33-STR QT,T,P,H,R,A,QM,M,QI -
Motor Operator Control General Electric M0-20-STR QT,T,P,H,R,A,QM,M,QI Motor Operator Control General Electric M0-21-STR QT,T,P,H,R,A,QM,M,QI Motor Operator Control General Electric MO-27-STR QT,T,P,H,R,A,QM,M,QI Motor Operator Control General Electric MO-16-STR QT,T,P,H,R,A,QM,M,QI Motor Operator Control General Electric MO-131-STR QT,T,P,H,R,A,QM,M,QI Flow Indicating Switch Barton RCIC-FIS-57 QT,T,P,H,R,A,QM,M,QI Differential Pressure Barton RCIC-DPIS-83 QT,T,P,H,R,A,QM,M,QI Indicating Switch
-~~~ ~~ ~ ' __- __. _.- -..
Differential Pressure Barton RCIC-DPIS-84 QT,T,P,H,R,A,QM,M,QI Indicating Switch Pressure Switch Barksdale RCIC-PS-78 P,A,QM,M,R EGM Control Box Woodward Governor RCIC-CBX-3067 QT,T,P,H,R,A,QM,M,QI Turbine Control Woodward Governor RCIC-CHA-3067 QT,T,P,H,R,A,QM,M,QI Hydraulic Actuator B-4
,n
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Turbine Control Woodward Governor RCIC-CRSM-3067 QT,T,P,H,R,A,QM,M,QI Remote Servo Motor Signal Converter Woodward Governor RCIC-SC-3067 QT T,P,H,R,A,QM,M,QI Speed Mag Pickup Woodward Governor RCIC-SE-3067 QT,T,P,H,R,A,QM,M,QI l
Electrical Overspeed Ruggles-Klingeman RCIC-ST-3068 QT,T,P,H,R,A,QM,M,QI Trip l
Motor Operator Limitorque RCIC-MO-15 T,R,M,A,QI Motcr Operator Limitorque RCIC-MO-16 T,M,A Flow Transmitter General Electric RCIC-FT-58 QT,T,P,H,R,A,QM,M,RPS Motor Operator Limitorque RCIC-MO-21 T,M,A,QT,M Motor Operator Limitorque RCIC-MO-41 R,QM,A,QT,M Motor Operator Limitorque RCIC-MO-18 R,QM,A,QT,M l
Solenoid Valve ASCO RCIC-AVSPV-780 QT,T,P,H,R,A,QM,M Solenoid Valve ASCO RCIC-AVSPV-781 QT,T,P,H,R,A,QM,M l
Limit Switch NAMCO RCIC-780-AV-LS QT,T,P,H,R,A,QM,M,QI Limit Switch NAMCO RCIC-781-AV-LS QT,T,P,H,R,A,QM,M,QI Motor Operator Limitorque RCIC-MO-33 A,QT,M Differential Pressure Barton RHR-DPIS-125A QT,P,A,QM,M,QI Indicating Switch Differential Pressure Barton RHR-DPIS-125B QT,T,P,A,QM,M,QI E-~ ~~
7FidTcitihg'5GiE n l
Flow Transmitter General Electric FT-109A QT,T,P,H,R,A,QM,M,RPN Flow Transmitter General Electric FT-1098 QT,T,P,H,R,A,QM,M,RPN Pressure Switch Static-0-Ring RHR-PS-270 P,A,QM,M,R,QI Motor Operator Limitorque RHR-MO-15B T,QM,M,A Motor Operator Limitorque RHR-MO-150 T,QM,M,A B-5
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deff.iency Motor Operator Limitorque RHR-H0-13B T,QM,M,A Motor Operator Limitorque RHR-M0-130 T,QM,M,A l
l Solenoid Valve ASCO RHR-AVSPV-312 QT,T,P,H,R,A,QM,M,QI Solenoid Valve ASCO RHR-AVSPV-332 QT,T,P,H,R,A,QM,M,QI Motor Operator Limitorque RHR-H0-17 T,R,QM,M,A,QT,QI Motor Operator Limitorque RHR-M0-18 QT,T,P,H,R,QM,M,A,QI Motor Operator Limitorque RHR-MO-25A P,QM,M,A,T Motor Operator Limitorque RHR-MO-25B P,QM,M,A,T Motor Starter ITE RHR-MO-25A QT,T,P,H,A,QM,M,QI Motor Starter ITE RHR-MO-258 QT,T,P,H,A,QM,M,QI Motor Operator Limi! torque RHR-M0-65A T,QM,M,A Motor Operator Limitorque RHR-MO-658 T,QM,M,A Motor Operator Li nitorque RHR-MO-66A T,QM,M,A Motor Operator Limitorque RHR-M0-668 T,QM,M,A Motor Operator Limitorque RHR-M0-274A QT,T,P,H,QM,M,A,QI l
Motor Operator Limitorque RHR-M0-274B QT,T,P,H,QM,M,A,QI Motor Operator Limitorque RHR-MO-12A T,QM,M,A Motor Operator Limitorque RHR-M0-128 T,QM,M,A Motor Operator Limitorque M0-16B T,QM,M,A l
Motor Operator Limitorque M0-34B T,QM,M,A Motor Operator Limitorque M0-38 T,QM,M,A Motor Operator Limitorque M0-398 T,QM,M,A Pump Motor General Electric RHR-P-1A P,H,R,A,QM,M Pump Motor General Electric RHR-P-1C P,H,R,A,QM,M l
B-6
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Pump General Electric RHR-P-1B T,P,H,R,A,QM,M Pump General Electric RHR-P-1D T,P,H,R,A,QM,M Motor Operator Limitorque M0-31A P,QM,M,A,T,QI Motor Operator Limitorque M0-31B P,QM,M,A,T,QI Motor Operator Limitorque MO-26A T,P,R,QM,M,A,QI Motor Operator Limitorque M0-268 T.P,R,QM,M,A,QI Motor Operator Limitorque M0-32 T,R,QM,M,A,QI Motor Operator Limitorque M0-21A T,QM,M,A Motor Operator Limitorque M0-218 T,QM,M,A Pressure Switch Static-0-Ring CS-PS-37A P,A,QM,M,S,R,T,QI Pressure Switch Static-0-Ring '
15-PS-378 P,R,A,QM,M,QI Pressure Switch Static-0-Ring PS-44A P,R,A,S,QM,M,QI,T Pressure Switch Static-0-Ring PS-44B P,R,A,QM,M,QI Solenoid Valve ASCO CS-AVSPV-L' 4 QT,T,P,H R.A,QM,M,QI j
Pump Motor General Electric CS-P-1A T,P,R,A,QM,M,S Pump Motor General Electric CS-P-18 P,A,QM,M Motor Operator Limitorque CS-MO-5A P,QM,M,A,T Motor Operator Limitorque CS-MO-58 P,QM,M,A,T Motor Operator Limitorque CS-MO-7A P,QM,M,A,T i
Motor Operator Limitorque CS-M0-78 P,QM,M,A,T Temperature Switch Fenwal Inc.
TS-101C A,M,QM Temperature Switch Fenwal Inc.
TS-101D A,M,QM Temperature Switch Fenwal Inc.
TS-102C A,M,QM Temperature Switch Fenwal Inc.
TS-1020 A,M,QM B-7
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Temperature Switch Fenwal Inc.
TS-103C A,M,QM Temperature Switch Fenwal Inc.
TS-103D A,M,QM Temperature Switch Fenwal Inc.
TS-104C A,M,QM Temph, e Switch Fenwal Inc.
TS-104D A,M,QM Temperature Switch Fenwal Inc.
TS-125A A,M,QM j
Temperature Switch Fenwal Inc.
TS-1258 A,M,QM Temperature Switch Fenwal Inc.
TS-125C A,M,QM Temperature Switch Fenwal Inc.
TS-1250 A,M,QM Temperature Switch Fenwal Inc.
TS-126A A,M,QM i
Temperature Switch Fenwal Inc.
TS-126B A,M,QM Temperature Switch Fenwal Inc.
TS-126C A,M,QM Temperature Switch Fenwal Inc.
TS-1260 A,M,QM Temperature Switch Fenwal Inc.
TS-127A A,M,QM i
Temperature Switch Fenwal Inc.
TS-1278 A,M,QM Temperature Switch Fenwal Inc.
TS-127C A,M,QM Temperature Switch Fenwal Inc.
TS-1270 A,M,QM Temperature Switch Fenwal Inc.
TS-128A A,M,QM Temperature Switch Fenwal Inc.
TS-1288 A,M,QM Temperature Switch Fenwal Inc.
TS-128C A,M,QM Temperature Switch Fenwal Inc.
TS-128D A,M,QM Temperature Switch Fenwal Inc.
RCIC-TS-79A A,M,QM Temperature Switch Fenwal Inc.
RCIC-TS-798 A,M,QM Tamperature Switch Fenwal Inc.
RCIC-TS-79C A,M,QM Temperature Switch Fenwal Inc.
RCIC-TS-79D A,M,QH B-8 l
t
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Temperature Switch Fenwal Inc.
RCIC-TS-80A A,M,QM Temperature Switch Fenwal Inc.
RCIC-TS-80B A,M,QM Temperature Switch Fenwal Inc.
RCIC-TS-80C A,M,QM Temperature Switch Fenwal Inc.
RCIC-TS-800 A,M,QM Temperature Switch Fenwal Inc.
RCIC-TS-81A A,M,QM Testperature Switch Fenwal Inc.
RCIC-TS-81B A,QM,M Temperature Switch Fenwal Inc.
RCIC-TS-81C A,QM,M Temperature Switch Fenwal Inc.
RCIC-TS-81D A,QM,M Temperature Switch Fenwal Inc.
RCIC-TS-82A A,QM,M Temperature Switch Fenwal Inc.
RCIC-TS-82B A,QM,M Temperature Switch Fenwal Inc.
RCIC-TS-82C A,QM,M Temperature Switch Fenwal Inc.
RCIC-TS-820 A,QM,M i
Motor Operator Limitorque RCIC-MO-30 A,QT,M Motor Operator Limitorque RCIC-MO-131 A,QT,M Motor Operator Limitorque RCIC-MO-20 A,QT,M Motor Operator Limitorque RCIC-MO-27 A,QT,M Motor Operator Limitorque RCIC-MO-36A A,QT,M Motor Operator Limitorque RCIC-MO-36B A,QT,M i
Temperature Switch Fenwal Inc.
RHR-TS-150A A,QT,M 1
l Temperature Switch Fenwal Inc.
RHR-TS-1508 A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-1500 A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-1500 A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-152A A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-152B A,QT,M B-9
\\
\\
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Temperature Switch Fenwal Inc.
RHR-TS-152C A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-1520 A.QT,M Temperature Switch Fenwal Inc.
RHR-TS-153A A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-1538 A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-153C A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-1530 A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-154A A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-154C A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-155A A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-155C A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-156A A,QT,M
~
Temperature Switch Fenwal Inc.
RHR-TS-156C A,QT,M Temperaure Switch Feraal Inc.
RHR-TS-157A A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-157C A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-1548 A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-154D A,QT,M l
Temperature Switch Fenwal Inc.
RHR-TS-1558 A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-155D A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-156B A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-156D A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-157B A,QT,M Temperature Switch Fenva 1ac.
RHR-TS-157D A,QT,M Temperature Switch er #1 nc.
RHR-TS-158A A,QT,M Temperature Switch Fenwal 2,re.
RHR-TS-158C A,QT,M i
B-10
APPENDIX B (ContiliJed)
Equipment Description Manufacti!rer Component No.
Deficiency Temperature Switch Fenwal Inc.
RHR-TS-159A A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-159C A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-160A A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-160C AQT,M Temperature Switch Fenwal Inc.
RHR-TS-161A A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-161C A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-158B A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-1580 A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-159B A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-159D A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-160B A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-1600 A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-161B A,QT,M Temperature Switch Fenwal Inc.
RHR-TS-161D A,QT,M Solenoid Valve ASCO RHR-AVSPV-69A A,QM Solenoid Valve ASCO RHR-AVSPV-69B A,QM Solenoid Valve ASCO R:iR-AVSPV-70A A,QM Solenoid Valve ASCO RHR-AVSPV-708 A,QM Limit Switch Microswitch RHR-LCV-69A A,QM Limit Switch Microswitch RHR-LCV-70A A,QM Limit Switch Microswitch RHR-LCV-698 A,QM Limit Switch Microswitch RHR-LCV-70B A,QM Motor Operator Limitorque CS-M0-11-B T,P,QM,M,A Motor Operator Limitorque CS-MO-12A T,P,QM,M,A B-11
o APPENDIX B (Continued)
Equipment Description Manufact'lar Component No.
Deficiency Motor Operator Limitorque CS-M0-15A T,P,QM,M,A Motor Operator Linritorque CS-M0-15B T.,P,QM,M,A Motor Operator Limitorque CS-MO-26A P,QM,M,A Motor Operator Limitorque CS-M0-26B P,QM,M,A Solenoid Valve ASCO CS-AVSPV-678 QT,T,P,H,R,A,QI Differential Pressure Barton CS-DPIS-43A QT,T,P,H,R,A Indicating Switch Differential Pressure Barton CS-DPIS-43B QT,T,P,H,R,A Indicating Switch Flow Transmitter GE CS-FT-40A QT,T,P,H,A,QI Flow Transmitter GE CS-FT-408 QT,T,P,H,A,QI Solenoid Valva AVC0 ADS-RV-71(A-H)
QT,T,P,H,R,QI
~
Motar Operator Limitorque MS-MO-74 QT,T,P,QM,M,QI,A Motor Operator Limitorque MS-M0-77 QT,T,QM,M,A Motor Operator Limitorque MS-MO-78 T,QM,M,A Solenoid Valve AVC0 MS-SPV-2-AG(#-D) P,A Limit Switch NAMCO MS-MSIV-LS T,P,A Limit Switch NAMCO MS-MSIV-LS T,P,A Differential Pressure Barton MS-DPIS-116(A-D) T,P,QM,M,A Indicating Switch Differential Pressure Barton MS-DPIS-117(A-D) T,P,QM,M,A Indicating Switch Differential Pressure Barton MS-DPIS-118(A-D) T,P,QM,M,A Ir.dicating Switch Differential Pressure Barton MS-DPIS-119(A-D) T,P,QM,M,A Indicating Switch Temperature Switch Fenwal MS-TS-121(A-D)
QT,P,R,QM,M,A B-12
. ~..
1 APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Temperature Switch Fenwal MS-TS-122(A-D)
QT,P,R,QM,M,A Temperature Switch Fenwal MS-TS-123(A-D)
QT,P,R,QM,M,A Temperature Switch Fenwal MS-TS-124(A-D)
QT,P,R,QM,M,A Pressure Switch Pressure Controls MS-PS-300(A-D)
QT,T,P,H,R,A,QI Inc.
Temperature Element Omega Engineering MS-TE-114(A-C)
QT,T,P,H,R,A,QI Pressure Switch Barksdale NBI-PS-55(A-D)
T,P,R,QM,M,A Pressure Switch Barksdale NBI-PS-52(A-B)
T,P,R,QM,M,A Pressure Switch Barksdale NBI-PS-51(A-D)
T,P,R,QM,M,A Pressure Indicating Barton NBI-PIS-52(B,0) T,P,R,QM,M,A Switch Level Indicating Barton N8I-LIS-101(A-D) T,P,R,QM,MA Switch Level Indicating Yarway NBI-LIS-57(A,B) R,QM,M,A Switch Level Indicating Yarway NBI-LIS-58(A,B) R,QM,M,A Switch Level Indicating Yarway NBI-LIS-72(A,D) R,QM,M,A l
Switch Level Indicating Yarway NBI-LIS-83(A,B)
R,QM,M, A Switch Level Indicating Yarway NBI-LITS-73(A,B) R,QM,M,A Transmitter Switch Level Transmitter GE NBI-LT-61 QT,T,P,H,R,QI,A Pressure Switch Static-0-Ring NBI-PS-102(A-D) T,P,R,QM,M,A Motor Operator Limitorque RR-MO-53(A,B)
QT,T,P,H,R,A,QI Motor Operator Limitorqua RR-MO-54(A,B)
QT,T,P,R,QM,M,QI,A i
l M.0. Control ITE RR-MO-53(A,B)STR QT,T,P,H,A,QI Motor Operator Limitorque RWCU-MO-15 QT,7,P,R,A,QI B-13
APPENDIX B (Continued)
Equipment Description Manufacturer Compor, ant No.
Deficiency Motor Operator Limitorque RWCU-MO-18 QT,T,P,H,R,A,QI M.0. Operator GE RWCU-MO-18-STR QT,T,P,H,R,A,QI Temperature Switch Fenwal RWCU-TS-81(A-H) QT,M,R,QM,A Differential Pressure Barton RWCU-DPIS-170 T,P,QM,M,R,QI,A Indicating Switch (A-B)
Pressure Switch Barksdale RWCU-PS-171(A-B) P,R,QM,M,A Differential Pressure Dwyer SGTS-DPIS-534A R,A,QI Indicating Switch Differential Press'Jre Dwyer SGTS-DPIS-5348 R,A,QI Ino kating Switch Differential Pressure Dwyer SGTS-DPIS-531A R,A,QI Indicating Switch Differential Pressure Dwyer SGTS-DPIS-5318 R,A,QI
~
Indicating Switch Differential Pressure Dwyer SGTS-DPIS-530A R,A,QI Indicating Switch Differential Pressure Dwyer SGTS-DPIS-530B R,A,QI Indicating Switch Differential Pressure Dwyer SGTS-DPIS-536A R,A,QI l
Indicating Switch l
Differential Pressure D> yer SGTS-DPIS-5368 R,A,QI Indicating Switch Differential Pressure Barton SGTS-DPIS-543A R,A,QI Indicating Switch l
Differential Pressure Barton SGTS-DPIS-5438 R,A,QI Indicating Switch Differential Pressure Dwyer SGTS-DPIS-538A R,A,QI Indicating Switch Differential Pressure Dwyer SGTS-DPIS-5388 R,A,QI Indicating Switch Moisture Transmitter Honeywell SGTS-ME-533A R,A,QI B-14
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Moisture Transmitter Honeywell SGTS-ME-5338 R,A,QI Moisture Transmitter Honeywell SGTS-ME-535A R,A,QI Moisture Transmitter Honeywell SGTS-ME-5358 R,A,QI Limit Switch NAMCO SGTS-AO-249-LS QM,A Limit Switch NAMCO SGTS-AO-250-LS QM,A Limit Switch NAMCO SGTS-AO-251-LS QM,A Limit Switch NAMCO SGTS-AO-252-LS QM,A Limit Switch NAMC0 SGTS-AO-255-LS QM,A Limit Switch NAMCO SGTS-AO-256-LS QM,A Limit Switch NAMCO SGTS-AO-270-LS QM,A Limit Switch NAMCO SGTS-AO-271-LS QM,A Differential Pressure Honeywell SGTS-DPT-543A R,RPN,A Transmitter Differential Pressure Honeywell SGTS-DPT-5438 R,RPN,A Transmitter Temperature Element Claud S. Gordon Co.
SGTS-TE-532A R,QI,A Temperature Element Claud S. Gordon Co. SGTS-TE-5328 R,QI,A Temperature Element Claud S. Gordon Co.
SGTS-TE-537A R,QI,A Temperature Element Claud S. Gordon Co.
SGTS-TE-5378 R,QI,A Temperature Element Burns SGTS-TE-533A R,QI,A Temperature Element Burns SGTS-TE-5338 R,QI,A Temperature Element Burling Inst. Co.
SGB-TE-539A R,QI,A Temperature Element Burling Inst. Co.
SGB-TE-5398 R,QI,A Temperature Element Thermo-Electric Co. SGTS-TE-547 R,A,QI Solenoid Valve ASCO SGTS-AVSPV-255 QM,A Solenoid Valve ASCO SGTS-AVSPV-256 QM,A B-15
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Limit Switch NAMCO SGTS-dPCU-546A QM,A Limit Switch NAMCO SGTS-dPCU-5468 QM,A Flow Transmitter Milton Roy SGTS-FT-545 T,P,H,R,A,QI Fan Motor GE SGTS-EF-R-1E QM,A Fan Motor GE SGTS-1F-MOT QM,A Solenoid Valve ASCO SGTS-AVSPV-249 QM,A Solenoid Valve ASCO SGTS-AVSPV-250 QM,A Solenoid Valve ASCO SGTS-AVSPV-251 QM,A Solenoid Valve ASCO SGTS-AVSPV-252 QM,A Solenoid Valve ASCO SGTS-AVSPV-255 QM,A Solenoid Valve ASCO SGTS-AVSPV-256 QM,A Solenoid Valve ASCO SGTS-AVSPV-270 QM,A Solenoid Valve ASCO SGTS-AVSPV-271 QM,A Solenoid Valve ASCO SGTS-dPCVSPV-546A QM,A Solenoid Valve ASCO SSTS-dPCVSPV-546B QM,A Solenoid Valve ASCO CRD-50-31A QT,T,P,H,R,A,QM Solenoid Valve ASCO CRD-50-318 QT,T,P,H,R,A,QM Solenoid Valve ASCO CRD-50-140A QT,T,P,H,R,A,QM Solenoid Valve ASCO CRD-50-1408 Qi,T,P,H,R,A,QM Solenoid Valve ASCO CRD-50-29 QT,T,P,H,R,A,QM Solenoid Valve ASCO CRD-50-117 QT,T,P,H,R,A,QM Solenoid Valve ASCO CRD-50-118 QT,T,P,H,R,A,QM Level Switch Robertshaw PC-LS-91A T,P,H,R,A,QI Level Switch Robertshaw PC-LS-919 T,P,H,R,A,QI Pressure Transmitter Honeywell PC-PT-513 QT,T. P, H, R, A,QI B-16
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Pressure Transmitter Honeywell PC-PT-512A QT,T,P,H,R,A,QI Pressure Transmitter Honeywell PC-PT-512C QT,T,P,H,R,A,QI Pressure Transmitter Honeywell PC-PT-20 QT,T,P,H,R,A,QI Differential Pressure Barton PC-DPIS-516A R,QI,A Indicating Switch Differential Pressure Barton PC-DPIS-516B R,QI,A Indicating Switch Level Transmitter Honeywell PC-LT-10 QT,T,P,H,R,A,QI Level Transmitter Honeywell PC-LT-11 QT,T,P,H,R,A,QI Level Transmitter Honeywell PC-LT-12 QT,T,P,H,R,A,QI Level Transmitter Honeywell PC-LT-13 QT,T,P,H,R,A,QI Pressure Switch Barton PC-PS-16 T,P,QM,M,A,R,QI
~
l Pressure Switch Static-0-Ring PC-PS-12(A-D)
T,P,R,A,QM,M,QI l
Pressure Switch Static-0-Ring PC-PS-100(A-D)
T,P,R,A,QM,M,QI Pressure Switch Static-0-Ring PC-PS-101(A-0)
T,P,R,A,QM,M,QI Resistance Temperature Yellow Springs Inst. PC-TE-500(A-D)
QT,T,P,H,R,A,QI Detector Resistance Temperature Yellow Springs Inst. PC-TE-501(A-D)
QT,T,P,H,R,A,QI Detector Resistance Temperature Yellow Springs Inst. PC-TE-502(A,B)
QT,T,P,H,R,A,QI Detector Resistance Temperature (ellow Springs Inst. PC-TE-503(A,B)
QT,T,P,H,R,A,QI Detector Resistance Temperature Yellow Springs Inst. PC-TE-505(A-E)
QT,T,P,H,R,A,QI Detector Resistance Temperature Yellow Springs Inst. PC 'E-506(A,C,0) QT,T,P,H,R,A,QI Detector B-17
APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Resistance Temperature Yellow Springs Inst. PC-TE-508(A,B,C) QT,T,P,H,R,A,QI Detector Resistance Temperature Yellow Springs Inst. PC-TE-509 QT,T,P,H,R,A,QI Detector Flow Transmitter GE SW-FT-97A QT,T,P,H,R,A,QI Flow Transmitter GE SW-FT-978 QT,T,P,H,R,A,QI Flow Transmitter Honeywell (Vutronik) SW-FT-387A QT,T,P,H,R,A,QI Flow Transmitter Honeywell (Vutronik) SW-FT-3878 QT,T,P,H,R,A,QI Motor Operator Limitorque SW-MO-89A QT,T,P,H,R,A,QI Motor Operator Limitorque SW-MO-898 QT,T,P,H,R,A,QI Motor Operator Crane-Teledyne SW-886-MV QT,T,P,H,R,A,QI Motor Operator Crane-Teledyne SW-887-HV QT,T,P,H,R,A,QI Motor Operator Crane-Teledyne SW-888-MV QT,T,P,H,R,A,QI l
Motor Operator Crane-Teledyne SW-889-MV QT,T,P,H,R,A,QI l
Motor U.S. Electric Motor REC-1A T,P,R,QM,M,A Motor Emerson Motor REC-1B T,P,R,QM,M,A Motor Emerson Motor REC-1C T,P,R,QM,M,A Motor Emerson Motor REC-10 T,P,R,QM,M,A Motor Operator Limitorque REC-695 MV QT,T,P,H,R,A,QI Motor Operator Limitorque REC-700 MV QT,T,P,H,R,A,QI Motor Operator Limitorque REC-702 MV QT,T,P,H,R,A,QI Motor Operator Limitorque REC-709 MV QT,T,P,H,R,A,QI Motor Operator Limitorque REC-711 MV QT,T,P,H,R,A,QI l
l Motor Operator Limitorque REC-712 MV QT,T,P,H,R,A,QI Motor Operator Limitorque REC-713 MV QT,T,P,H,R A,QI Motor Operator Limitorque REC-714 MV QT,T,P,H,R,A,QI B-18 l
4 APPENDIX B (Continued)
Equipment Description Manufacturer Component No.
Deficiency Motor Operator Limitorque REC-721 MV QT,T,P,H,R,A,QI Motor Operator Limitorque REC-722 MV QT,T,P,H,R,A,QI Motor Operatur Limitorque REC-1329 MV QT,T,F,H,R,A,QI Pressure Transmitter Honeywell REC-PT-452 QT,T,P,H,R,A,QI Pressure Transmitter Honeywell REC-PT-472A QT,T,P,H,R,A,QI Pressure Transmitter Honeywell REC-PT-4728 QT,T,P,H,R,A,QI Solenoid Valve ASCO RW-AVSPV-732 T,P,H,QT,R,QM,A Solenoid Valve ASCO RW-AVSPV-733 T,P,H,QT,R,QM,A 1
Solenoid Valve ASCO RW-AVSPV-765 T,P,H,QT,R,QM,A Solenoid Valve ASCO RW-AVSPV-766 T,P,H,QT,R,QM,A Solenoid Valve ASCO REC-AVSPV 703 R,QM,A l
Solenoid Valve ASCO REC-AVSPV 704 R,QM,A Solenoid Valve ASCO REC-AVSPV 705 R,QM,A
' Solenoid Valve ASCO REC-AVSPV 706 R,QM,A Solenoid Valve ASCO REC-AVSPV 707 R,QM,A Solenoid Valve ASCO REC-AVSPV 708 R,QM,A Ion Detector GE PRM-17-230(A-D) R,QI,A Sensor and Convertor GE PRM-17-430A R.QI,A Scintill,ation Detector NMC/GE PRM-17-332 R,QI,A Scintillation Detector NMC/GE PRM-17-334 R,QI,A Pulse Preamplifier GE PRM-17-333 R,QI,A Pulse Preamplifier GE PRM-17-335 R,QI,A l
.ansor and Convertor GE ARM-Channel 1-19 QT,T,P,H,R,A,QI H Analyzer Beckman CM-H Analyzer R,QI,A 2
2 2
2 Analyzer R,QI,A 0 Analyzer MSA CM-0 l
B-19
. ~..
_ _ _ _ _. _. _. _ ~.,. _ -. _. - _ _ ___
APPENDIX B (Continued) 1 Equipment Description Manufacturer Component No.
Deficiency l
Limit Switch NAMCO DPV-AO-237 QM,A Limit Switch NAMCO DPV-AO-238 QM,A Limit Switch NAMCO DPV-AO-243 QM,A Limit Switch NAMCO DPV-A0-244 QM,A Limit Switch NAMCO DPV-AO-245 QM,A Limit Switch NAMC0 DPV-A0-246 QM,A Limit Switch NAMC0 DPV-AO-235 QM,A I
Limit Switch NAMCO DPV-AO-236 QM,A l
Solenoid Valve ASCO DPV-AVSPV-235 QM,A Solenoid Valve ASCO DPV-AVSPV-236 QM,A Solenoid Valve ASCO DPV-AVSPV-237 QM,A Solenoid Valve ASCO DPV-AVSPV-238 QM,A Solenoid Valve ASCO DPV-AVSPV-244 QM,A Solenoid Valve ASCO DPV-AVSPV-245 QM,A i
l Solenoid Valve ASCO DPV-AVSPV-246 QM,A l
Solenoid Valve ASCO CPV-MSPV-240 QM,A l
Solenoid Valve ASCO DPV-AVSPV-243 QM,A Motor Reliance H&V-1-FC-R-1H QT,T,P,H,R,A,QI Motor Reliance H&V-1-FC-R-1E QT,T,P,H,R,A,QI Motor Reliance H&V-i-FC-R-1F QT,T,P,H,R,A,QI Motor Reliance H&V-1-FC-R-1J QT,T,P,H,R,A,QI Motor U.S. Motor H&V-1-FC-R-1G QT,T,P,H,R,A,QI Terrainal Blocks GE Mucellaneous T,R,P,A,QM,M Terminal Blocks GE Miscellaneous T,QT,R,QM,M,A Terminal Blocks Buchanan Miscellaneous T,P,R,H,A,QM,M B-20 1
APPENDIX B (Continued)
Equipaent Description Manufacturer Component No.
Deficiency Cable BIW Miscellaneous T,P,M,QT,A Cable BIW Miscellaneous T,P,M,QT,A Cable Kerite Miscellaneous P,QT,A Cable Cerro Miscellaneous P,QT,A Cable Raychem Miscellaneous QT,T,P,A Panel Board GE CPP-CA,CB,2 QT,T,P,H,R,A,QI Electrical Penetrations GE X100 A,B,D,E, P,QT,A F,G,H Electrical Penetrations GE X101 C,0,F P,QT,A Electrical Penetrations GE X102 P,QT,A Electrical Penetrations GE X103 P,QT,A Electrical Penetrations GE X104 A,B,D,E P,QT,A Electrical Penetrations F2 X105 A,C,0 P,QT,A Electrical Penetratio1s GE X230 P,QT,A Motor Control Center.
ITE MCC-S,Q,Y,R,RB,K QT,T,P,H,R,A,QI Motor Control Center ITE MCC-CA QT,T,P,H,R,A,yl Motor Ce trol Center ITE MCC-RA QT,T,P,H,R,A,Q1 B-21
l APPENDIX C Equipment Requiring Additional Information and/or Corrective Action (Category 4.3)
LEGEND:
Designation 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 5 - 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 inadequat-SEN - Separate effects qualification justification inadequate l
QI - Qualification information being developed l
RPS - Equipment relecation or replacement schedule provided Equipment Description Manufacturer Component No.
Deficiency Motor Operator Limitorque HPCI-MO-16 A
l Motor Operator Limitorque RHR-M0-27A A
l Motor Operator Limitorque RHR-MO-278 A
l Motor Operator Limitorque RHR-MO-16A A
Motor Operator Limitorque RHR-M0-34A A
Motor Operator Limitorque RHR-M0-38A A
i Motor Operator Limitorque RHR *0-39A A
l Motor Operator Limitorque RHR-M0-15A A
Motor Operator Limitorque RHR-MO-15C A
F l
l C-1
._ _ ~ _ - - - _ _, _.. - - -, - - - -.
4 APPENDIX C (Continued) i Equipment Description Manufacturer Component No.
Deficiency Motor Operator Limitorque RHR-MO-13A A
Motor Operator Limitorque RHR-MO-13C A
Motor Operator Limitorque CS-MO-11A A
Motor Operator Limitorque CS-M0-128 A
Motor Operator Limitorque DPV-M0-230 A
Motor Operator Limitorque DPV-M0-231 A
Motor Operator Limitorque DPV-MO-232 A
Motor Operator Limitorque DPV-MO-233 A
Motor Operator Limitorque ACAD-1301MV A
Motor Operator Limitorque ACAD-1302MV A
Motor Operator
.ditorque ACAD-1303MV A
Motor Operator Limitorque ACAD-1304MV A
Motor Operator Limitorque ACAD-1305MV A
Motor Operator Limitorque ACAD-1306MV A
Motor Operator Limitorque ACAD-1308MV A
l l
Motor Operator Limitorque ACAD-1310MV A
Motor Operator Limitorque ACAD-1311MV A
Motor Operator Limitorque ACAD-1312MV A
Solenoid Valve ASCO ADS-SV-256(A-H) A Solenoid Valve AVC0 MS-SPV-2-86(A-D) A O
C-2 i
APPENDIX 0 SAFETY-RELATED SYSTEMS LIST 1 Function System 2
Reactor Protection 8 Emergency Reactor Shutdown 3
Engineered Safeguards Control Rod Drive Containment Isolation 2 High Pressure Coolant Injection Reactor Core Isolation Cooling Residual Heat Removal Core Spray Reactor Core Cooling High Pressure Coolant Injection Residual Heat Removal (LPCI)
Core Spray Automatic Depressurization Containment Heat Removal Residual Heat Removal (Torus Cooling and Containment Spray)
Service Water Core Residual Heat Removal Residual Heat Removal Service Water Reacton Core Isolation Cooling Prevention of Significant Release Containment Atmosphere Dilution of Radioactive Material to Process Radiation Monitoring Environment Area Radiation Monitoring Drywell Purge and Vent Standby Gas Treatment Supporting Systems Heating and Ventilating 2
General Equipment 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.
2 Additional information necessary for completeness review.
3 Components compri:ing system contained in several systems.
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ENVIRONMENTAL QUALIFICATION OF SAFETY-RELATED
. ELECTRICAL EQUIPMENT IEB 79-01B TECHNICAL EVALUATION REPORT COOPER NUCLEAR STATION DOCKET NO. 50-298 Dated: December 12, 1980 Licensee:
Nebraska Public Power District Type Reactor:
General Electric Size:
778 MWe Prepared by:
n = l-Daniel Mcdonald Engineering Support Section Reactor Construction and Engineering Support Branch, RIV 1
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