Summary Status Rept of TVA Compliance to 10CFR50.49, `Environ Qualification of Electric Equipment Important to Safety for Nuclear Power Plants,' Sequoyah Nuclear Plant

ML20100G413
Person / Time
Site:	Sequoyah
Issue date:	02/28/1985
From:	TENNESSEE VALLEY AUTHORITY
To:
Shared Package
ML20100G395	List: ML20100G391 ML20100G413
References
NUDOCS 8504080240
Download: ML20100G413 (364)
v • d • e

Text

.

SUMMARY

STATUS REPORT OF TVA'S COMPLIANCE TO 10CFR50.49 ENVIRONMENTAL QUALIFICATION OF ELECTRIC EQUIPMENT IMPORTANT TO SAFETY FOR NUCLEAR POWER PLANTS -*

SEQUOYAH NUCLEAR PLANT - UNITS 1 AND 2 FEBRUARY 1985 8504080240 850326 014313.03 PDR ADOCK 05000327 P PDR

.- s

CONTENTS AND DESCRIPTION h BY SECTION

1. Introduction - A brief snemary of the history, development, and conclusion of this report. I l

2. Additional Infor=ation of 10C7250.49 Coreliance - A discussion of TVA's I compliance to specific sections of 10CFR50.49 and specific NRC questions:  ;

l

a. 10CFR50.49(b)(1) - TVA's methodology for providing assurance that all Design Basis Events (DBEs) which could result in harsh environments were addressed in identifying safety-related equipnent within the scope of 10CFR50.49(b)(1).

b. 10CFR50.49(b)(2) - TVA's methodology for identifying nonsafety-related equip =ent whose failure under postulated environmental conditions could prevent satisfactory accomplishment of safety functions by safety-related equipment.

c. 10CFR50.49(b)(3) - TVA's methodology for identifying certain post-accident monitbrinr(PAMPequip=ent vithin the scope of 10CFR50.49(b )(3) .

d. 10CFR50.49(i) - TVA's methodology for the preparation of JCOs and their applicability to 10CFR50.49(i).

e. 10CFR50.49 Qualification Effort - A general discussion of the status of TVA's 10CFR50.49' Qualification Effort.

f. Surveillance and Maintenance Program - 'A general discussion of TVA's Surveillance and Maintenance Program including handling of information notices, bulletins, etc., regarding equipment qualification.

3. TER Su=narv Table - A su==ary table providing EQ information such as

' component type, manuf acturer/model number, qualification status , etc. ,

t for each TER item number.

4. TER JCOs - JCOs, identified by referenced TER item number, for all TER item numbers in the TER Suc=ary Table which contain equipment for which EQ documentation is not yet complete.

. t.

5. Additionni Eouiement Table - A table providing EQ infor=ation, similar ~

to the TER Su= mary Table, for each piece of saf ety-related equipment that van added and not reviewed in the TER since its issuance.

6. Additional Youipment JCOs - JCOs, identified by JC0 numbers (e.g.,

EEB-1, 2, MZB-1, 2, etc.), for all equipment, in the Additional Equipment Table for which EQ document is not yet complete.

014313.03

-i-

. .-( .

7. Replacecent Listine - A list of equipment TVA has recently received QA field verifiction on or equip =ent that TVA has had verified by plant personnel as being replaced but since the associated work packages are not complete, full QA docu=entation is not yet available.

8. Specific TER Deficienev Tables - Tables listing TER Item numbers grouped under specific TER Categories (I.A, II.A, II.B. etc.). These specific TER tables contain similar EQ information as the tables in sections 3 and 5.

9. TER number /TVA ID Nu=ber Correlation Table - Table correlating TER nt=bers with specific TVA ID numbers.

10. 10CFR50.49 Master List - A master list of electrical equip =ent within .

the scope of 10CFR50.49 required to be qualified.

l l-t l

l

-ii-h 4 014313.03

COMPONENT ABBREVIATIONS l ARDR - 4ir Dryers 4, CTPL - Obntrol Panel . -

CTSW - Control Switch ,

CVRG - Current / Voltage Regulator _

DPSW -1 Differential Pressure Switch DPXR - Differential Pressure Transmitter DSPL - Distribution Panel EFIC - Electronic Flow Indicator ELCA - Electric Cable ELCS - Electric Cable Splice -

ELHR - Electric Heater ELHVAC - Electrohydrauli_c_. Valve Actuator ELM 0 - Electric Motor ELPN - Electric Penetration EREL - Electric Relay FLCT - Flow Controller

. FLSW - Flow Switch FLXR - Flow Transmitter H2RE - Hydrogen Recombiner HMCT - Humidity Control System ox HMSR - Humidity Sensor HMTR - Humidity Transmitter HNSW - Handswitch HYAN - Hydrogen Analyzer IPXR - Current-to-Pressure Transducer i G- JCBX - Junction Box LMSW - Limit Switch '

LV3W - Level Switch LVTR - Level Transmitter MSRT - Motor Starter MVAC - Motorized Valve Actuator PRTR - Pressure Trancmitter PSCT - Pressure Controller PSSW - Pressure Switch PWSP - Power Supply RADM - Radiation Monitor REPL - Relay Panel SCCV - Signal Converter SNDV - Solenoid Valve TCPL - Turbine Control Panel TPEL - Temperature Element TPPL Duct Heater Control Box and Panel TPSW - Temperature Switch TRBK - Terminal Block XDCR - Transducer XFMR - Transformer XFSW - Transfer Switch iii

, .g, , ,

QL DE03;TERRPT

l 1.0 Introduction s

On April 26. 1983, the Tennessee Valley Authority (TVA) received the Safety Evaluation Report (SER) regarding the Environmental Qualification of Safety-Related Electrical Equipment at Sequoyah Nuclear Plant Unita 1 and 2 (SQN). The SER contained a Technical Evaluation Report (TER), written by Franklin Research Center under contract to the NRC, which noted a number of environmental qualification deficiencies for safety-related electrical equipment at SQN. On May 10, 1984, a meeting was held with members of your staff to discuss TVA's proposed method of resolution for each of those deficiencies and the present status of TVA's Environmental Qualification (EQ) program for SQN including additional equipment .

added to the program since the issuance of the TER.

The proposed resolution, as discussed with your staff, for each of the environmental qualification deficiences in the TER and the present status for the EQ program are contained in the tables of this report.

These tables contain listings for Justifications for Continued Operation (JCOs) for all equipment for which the documentation of environmental qualification is not yet completed. In addition, they provide test report numbers for qualified devices and manufacturer /

model numbers and test report numbers for devices which are being replaced, if known.

There were also discussions at the meeting regarding general ,,

methodology for compliance with 10CFR50.49, " Environmental Qualification of Electric Equipment Important to Safety for Nuclear Power Plants." The purpose of this report is to provide documentation of the information requested by the NRC at the May 10 meeting with regard to TVA's compliance to 10CFR50.49.

It is TVA's position that the environmental qualification documentation maintained in the SQN EQ files, and summarized in this report, complies with the requirements of 10CFR50.49 and provides assurance of continued compliance through the EQ program. The JCOs provided in sections 4 and 6 assure that SQN can continue to operate without undue risk to the public health and safety until documentation i

of environmental qualification is completed.

l l

l (1)

{ .-

014313.03

l l

l 2.a Assurance That All Desien Basis Events (DBE) Which Could ResultIn A Harsh Environment Were Addressed In Identifying Safety-Related Eauiement Within The Scope of 10CFR50.49(b)(1) -

All equipment whose funtioning is required to mitigate any design basis event (DBE) for Sequoyah Nuclear Plant which causes a harsh environment identified. for the equipment per 10CFR50.49(b)(1) was initially This equipment was determined by identifying all the systems Report upon are (FSAR) which the safety analyses in the Final Safety Analysis dependent.

Further, any other systems or equipment necessary to support these systems were also identified.

From the safety systems identified above, a survey of the safety-related equipment within the harsh environment area of the DBEs was conducted. This survey was conducted using electrical instrument tabulations, mechanical piping drawings, mechanical heating and ventilation drawings, instrumentation and control drawings, electrical equipment drawings, safety-related and conduit and grounding drawings to identify the components. Verification of the equipment qualification has been accomplished by a field survey of the installed components to certify proper correlation between the qualification documents and the "in-situ" equipment.

The scope of 10CFR50.49(b)(1) encompasses safety-related systems and equipment required for all DBEs which result in harsh environments, including high energy line breaks (BELBs), loss of coolant accident (LOCAs), fuel handling accidents, radioactive tank rupture, moderate energy line breaks, and flooding inside and outside containment.

TVA calculations show that for a Waste Gas Decay Tank (WGDT) rupture approximately 50 percent of the gas released will stay in the WGDT rooms and approximately 35 percent of the gas released will either be exhausted (approximately 28 percent) or diffused to other areas of the auxiliary building. The remainder will stay in the general areas of el 692 between columns Al and A6 and columns Q and The U. calculated dose from normal operation plus that due to WGDT rupture in this general area is below 104 R.

Sequoyah is qualified to at least In general, 104 R. safety-related equipment at Section 4.1.2 of the SQN Electrical Equipment Environmental Qualification Report (EEEQR) provides 'IVA's generic position and justification concerning qualification for radiation environments below 104 R. t The dose rate in the WGDT rooms after a WGDT rupture will actually be less than the normal operating dose would have been for the same time period. The gas that diffuses to other areas of the auxiliary building will have a l lower ccacentration than that of the general area of el 692;

l. therefore, the WGDT rupture will have even less of an impact in those areas.

i The gas that is released to the atmosphere results in an offsite dose that is enveloped by previous offsite dose calculations for a WGDT rupture.

The activity released from a fuel handling accident will be contained in the fuel handling area of the auxiliary building. The volt.me of

') this area is such that the activity released will be diluted to a "

concentration below that used in calculating the post-LOCA airborne dose.

014313.02 2.a-1

TVA examined the environmental effects of all pipe breaks (single-ended ruptures or critical crack, as applicable) which have an impact on the atmospheric environmental conditions of areas both inside and outside containment. Moderate energy lines (i.e., fluid condition less than 2000 F and less than 275 lb/in2g) were not investigated for their environmental effects since their rupture would only cause a liquid water spray condition, which is considered in plant design.

The spray water will be drained away by building drains, stairwells, etc., before it can flood equipment. Spray effects are considered where possible in the design of the equipment. Where equipment cannot be designed to resist spray, shields and barriers are provided as required.

All other design basis accidents (DBAs) listed in Chapter 15 of the SQN FSAR have been evaluated and no new harsh environments or systems and equipment have been identified which are not bounded by and included in the NUREG-0588 HELB and LOCA analysis or that was not previously considered for equipment design and qualification.

Therefore, the TVA submittal specifically addresses the environmental effects due to LOCAs/HELBs and flooding inside and outside containment.

l i

l l

l l

1 l

1 f

(\,

014313.02 2.a-2

1 l

2.b 10CFR50.49(b)(2) - Methodoloey to identify nonsafety-related 1

j electrical ecuipment whose failure under nostulated environmental conditions could prevent satisfactory accomolishment of safety functionn Paragraph (b)(2) of 10CFR50.49 requires environmental qualification of "nonsafety-related electric equipment whose failure under postulated environmental conditions could prevent satisfactory accomplishment of safety functions . . . by the safety-related equipment."

TVA has evaluated the system process and electrical interfrees through which such unacceptable interactions could occur.

For system process interactions TVA has performed a systematic evaluation of the environmental effects resulting from high energy pipe breaks, inside and outside containment, upon nonsaf ety-related systems. This evaluation is documented in the Sequoyah FSAR under "Section 7.3.2.4.3" which resulted from TVA's response to IE Information Notice 79-22 on environmental qualification of control systems. The evaluation discussed the method used to identify potential adverse system process interaction and the required operator accion to ensure safe shutodwn. All potential adverse system interactions were evaluated by studying the transients caused by inappropriate actuation of the final control elements due to environmental induced failures in the associated control circuits. .

The evaluation concluded that there is a possibility for adverse system interaction between safety and nonsafety-related systems.

Ilowever, the consequences were acceptable in all cases for the following reasons:

1. Qualified postaccident monitoring (PAM) instrumentation is available to the operator to provide sufficient indication of an adverse system interaction.

2. Qualifind Class 1E equipment is available to mitigate or isolate the effict of the nonsafety-related system failing in the adverse direction.

3. Adequati time is available for the operator to take corrective action.

For electrical interactions, both direct interfaces (i.e., direct electrical :onnection) and indirect interfaces (i.e., physical proximity) eare considered.

For the prc ection system / control systems interface, TVA reviewed the Westinghouse design requirements for safety-related systems to determine if safety and nonsafety-related systems were properly .

j isolated. In all cases the safety-related systems were isolated from nonsaf ety-related systems through qualified isolation amplifiers. The l

isolation amtlifiers are classiiiod as part of the protection sytem and are located in the analog protection racks. The control signals

( 73

!( ! obtained from the protection channels via the isolation amplifiers are

~j never returned to the protection racks. This design feature meets the .

requirements of Criterion 24 of the 1971 CDC. Where failure of a 014313.02 2.b-1

protective system component can cause a process excursion which requires protective action, analysis performed by Westinghouse has indicated that the protection system can withstand another independent failure without loss of protective function. This desig'n feature meets the design requirements of Criterion 25 of the 1971 GDC.

For the remainder of the electrical interfaces, both direct and indirect, TVA has implemented physical and electrical independence features in the Sequoyah design to prevent unacceptable interactions between nonsafety-related and safety-related systems and components.

TVA's provisions for physical independence were presented in the Sequoyah Final Safety analysis Report (FSAR) section 8.3.1.4 and wire found to be acceptable by the NRC in section 8.5.6 of the Sequoyah Safety Evaluation Report (SER). As a result of our evaluation of the system process and electrical interfaces TVA has identified no additional equipment requiring qualification under 10CFR50.49 paragraph (b)(2).

g-~)s 014313.02 2.b-2 l l

l

2.C .OCFR50,49(b)(3) - Methodoloey to identify cost-ace'. dent monitorine (PAM) ecuipment with the scope of 10CFR50.49(b)(3)

(To be inserted by NUC PR)

I O

V -

l 014313.03 l

2.c-1

2.d Methodoloty for preparatien of the JCOs and their applicability to 10CFR50.49(i)

TVA has provided a justification for continued operation (JCO) for all equipment within the scope of 10CFR50.49 for which documentation to demonstrate full qualification is not presently available. These JCOs are generally based on a technical evaluation of the capability of the ccmponents to perform their safety function under harsh environment conditions resulting from design basis accidents for which they must function or not f ail. These technical evaluations are based on partial test data, manufacturer design specifications, common usage, operating experience, accomplishment of safety function prior to DBA e::posure, etc. If TVA cannot demonstrate, with reasonable assurance, the capability of the equipment to perform its safety function, then auch methods as accomplishing the safety function by alternate aquipment or limited use of administrative controls are applied.

Although all parts of 10CFR50.49 paragraph (i) are not used on all JCOs, all are considered to the extent required for each evaluation.

If, ao a result of an evaluation, it is determined that the equipment in question will fail as a result of the environment caused by the danign basis event for which the equipment is required, then no aignificant degradation of any safety function or misleading information to the operation will occur for that event.

i

/\

014313.02 1

2.d-1 1

1 3

i

+

1 2.e General Status of TVA's 10CFR50.49 Oualification Ef fort i (To be inserted by NUC PR) ~

I  !

m F

1 f

I N

t e

i f

I i

i r

4 i

I  :

i - !,

r i

l i

1 i

i

~ -

014313.03 -

2.e-1 t

4 l

imm-n ..es_ e me m . _ _ _ _ ___ -ew-e-.w.e _ . . . . ~ _ --

1 l

l i

2.i TtA ' s surveillance and mintenance orpernm includine handline of j information notices, bulletins etc.. regardine equipment cualificatiqn, (To be inserted by NUC PR)

• ~

014313.03 2.f-1

~

l

.e.

3.0 TER Summary Table l

l 014313.03

1 RESOLUTIONS REFERENCED IN TER SUlmARY TABLE

1. Replace

~

This equipment has been detemined to lack sufficient documentation to prove qualification according to 100FR40.49. TVA has determined that the best course of action is either to replace this equipment with qualified equipment or to relocate the equipment to a mild environment.

2. Hild Environment Equipment no longer considered to be within the scope of 10CFR50.49. The equipment has been reevaluated and been detemined to be in a mild environment for the accident it is required to mitigate.

3. iiUREG-0588, Category C Equipment no longer considered to be within the scope of 10CFR50.49. This equipment will experience environmental conditiens of design basis accidents through which it need not function for mitigation of said accidents, and whose failure (in any mode) is deemed not detrimental to plant safety or accident uitigation, and need not be qualified for any accident -

environment, but will be qualified for its non-accident service anvironment.

4. Equipment Not in the Scope of 10CFR50.49.

This equipment has been detemined not to 'be within the scope of 10CFR50.49 as a result of the equipment no longer perfoming a safety-related function, equipment being replaced with nonelectrical devices, equipment being removed from safety circuit, etc. (Note: TVA has chosen to use a separate designation for equipment locked in a mild environment or category C per tiUREC-0588. See resolution items 2 and 3.)

5. Confimatica of Similarity This equipment consists of motorized valve actuators manufactured by Limitorque (Model SMB; Size 000). Based on previous qualification efforts by Limitorque and infomal data provided by Limitorque, TVA feels the actuators are qualified and has classified them as such. However, at the present time, official confirmation of the applicability of the Limitorque information has not been received by TVA.

9 DE03;TERRPT (1)

RESCLUTIONS REFERENCED IN TER

SUMMARY

TABLE (Continued)

6. This equipment has been qualified to the requirements of 10CFR50.49. Documentation of qualification is available, in an auditable form, in TVA's files.

7. This equipment is in TER category I.A, " Equipment Qualified." No resolution is required for this equipment.

8. This equipment is in TER category III.A, "Equipmen't Exempt f rom Qualification." No resolution is required for this equipment.

9. This equipment is in TER category III.B. " Equipment Not in the Scope of the Review.d No resolution is required for this equipment.

O s .; .-

L DE03;TERRPT (2)

e O 4 TE2 SUM:2RY TAtL1:

TEP. TCt Item No. Coreonent Mr.nnfacturer thdel C . tea iry Resolution I KVAC Link-Belt TN200/TN200 II.A 1 JCO 2 HVAC Link-Belt TH200/TN200 II.A 1 JCO 3 MVAC Chicago Fluid Power TVA-01-0577 IV 6 4 MVAC Chicag Pluid Pawar TVA-01-0577 IV 6 5 ELHVAC MEA MEA 119 K2 II.A 4 6 MVAC Limitorque SMB II.A 6 7 MVAC Limitorque SMB II.A 6 8 MVAC Limitorque SMB II.A 1 JC0 9 MVAC Limitorque SMB II.A 6 10 MVAC Limitorque SMB II.A 6 11 MVAC Limitorque SMB II.A 6 12 MVAC Limitorque SMB II.A 6 13 MVAC Limitorque SMB II.A 6 14 MVAC Limitorque SMB II.A 6 15 MVAC Limitorque SMB II.A 5 16 MVAC Limitorque Sl!B II.A 6 17 MVAC Limitorque SMB II.A 5 18 MVAC Limitorque SMB II.A 1,2,6 JC0 DE03;TERRPT .

e O TER SICHREY TABLE O

TER TEE Item No. Connonent lir.nu fac turer Ibdel Ca t ea n ry Rr* solution 19 MYAC Limitorque SMB II.A 6 20 MVAC Limitorque SMB II.A 2 21 MVAC Limitorque SH3 II.A 2 22 MVAC Li=ito rqua SI:3 II.A 3 23 MVAC Limitorque SMB II.A 1,3 JC0 24 MVAC Limitorque SMB II.A 3 25 MVAC Limitorque SMB II.A 1 JC0 26 ELMO Reliance 3Y361108 I.B 6 27 ELMO Reliance X-328203 II.A 6 28 ELMO Lincoin T2557 II.A 6 29 ELMO Lincoin T2523 I.B 6 30 ELMO Lincola T2518 I.B 6 31 ELMO Lincola T2518 I.B 1 JC0 32 ELMO Lincoln T2518 I.B 6 33 ELMO Lincoin T2556 I.B 6 34 ELMO Reliance 3Y32208 I.B 6 35 ELMO Westinghouse 76055052 I.B 2 36 Eut0 Lincoln T2518 I,B 6 DE03;TERRPT . -

-s TER SU2:iiiRf TiELI:

TER 7pp

-Iter No. Component Hanufacturer Ibdel CJ tUcry Resolution 37 EDIO Lincoln T2523 I.B 6 38 ELMO Lincoln TDUP I.B 3 39 EDIO Westinghouse 5809P24 I.B 6 40 ELHO Vestinghouse TBDP I.B 6 41 ELMO Allie-Chalmers 30R56 I.B 6 42 ELMO Lincoln -

I.B 6 43 ELMO Ceneral Electric SK256AN205 I.B 2 44 EDIO Siemens-Allis I.B 1 JC0 45 ELMO Vestinghouse HSUI II.A 6 46 ELMO Westinghouse 0524H4-SDBP-IfKB I.B 6 47 HNSW Cutler-Hatamer 10250T I.B 6 48 HNSW Cutler-Hanener 10250T I.B 6 49 IFSW Electro Switch Series 24 III.B 9 50 DPSW Barton 288 I.B 3 51 PSSV Dwyer 3301 I.B 2 52 PPSW Barton 288 I.B 4 53 FLSW Barton 288 I.B 2

• 54 PSSV Custom Component 604C I.B 1,2 JC0 DE03;TERRPT .

TER SmJal:Y TELL TER TEL Item No. Coeponent Iknu f ac turer }bdel C i rcnory Resolution 55 PSSV Dwyer 1627 II.A 2 56 FLSU Dwyer 1627 1.B 2 57 FLSW Dwyer 1627 I.B 2 58 PSSW Barton 28SA I.B 1 JCO 59 PSSW Dwyer 1627 I.B 1,3,2 JCO 60 PSSW Custom Component 604G 1,3 I.B JC0 61 DPIR Bailey 555 I.B 1 JC0 62 DPIR Foxboro E13DL I.B 1 JC0 63 DPIR Bailey 555 I.B 3 64 DPIR Bailey 555 I.B 1 JC0 65 DPIR Barton 764 Lot 2 IV 6 66 PSCT Johnson Controls PL-4000-2 I.B 2 67 SGCV Transmation SW123-IT I.B 2 68 ARDR Pall Trinity 10lHAl-64D9810-331 I.B 2 69 DSPL Power Electric CCB IV 4 70 TCPL Terry CS-2 I.B 2 71 CTPL Ingersol-Rand 7I4 EV-IP-NL-2 I.B 2 72 ELER E. L. Wrigan 04265379001 I.B 3 DZ03;TEREPT .

Trd SU12Mi TABLE TEE TE" Item No. Corponent Menufacturer }b3 c1 Steco r Resolution 73 IDCR ITT Har::nel Dahl T25 I.B 2 74 IPIP Masoneilan 8005 I.B 6 75 IPIP Robertshav 445-C3 1.B 4 76 REFL International -

III.A 8 Switchboard 77 ELCS Raychem WCSF (N) II.C 6 78 ELCA Americ Insulstion -

II.A 6 79 ELCA Rockbestoes -

II.A 6 80 ELCA Anaconda / Continental II.A 6 81 ELCA Anaconda /Continen tal -

II.A 6 82 ELCA Rockbestos -

II.A 6 83 ELCA ITT Surpernant -

II.A 6 84 ELCA Brand Rex -

II.A 6 85 ELCA ITT Surpernant Triaxial III.B 9 86 ELCA General Electric Vulkene I.A 7 87 ELCA - -

I.A 7 88 ELCA -- --

I.A 7 89 ELCA Okonite - II.A 6 DE03;TERRPT . .

TER SU;2u27 TLELE TER TER It em No . Cormonent Manufacturer thdel Ca t eaor;. Resolution 90 ELCA - -

II.A 6 91 ELCA - -

II.L 6 92 FLCA -

II.A 6 93 ELPN Westinghouse WI-32198 thru II.A 6 WI-32212 94 ELCA -

II.A 6 95 ELCA -

III.A 8 96 JCBI TVA -

III.A 8 97 TREK - -

II.A 6 98 IFliR Westinghouse Liquid Filled I.B 2 99 SNDY AVC0 C5439 II.A 1 JC0 100 SNDV AVC0 C5439 II.A 1 JC0 101 SNDV ASCO 832QA19 I.B 2 102 SNDV ASCO HT8300 I.B 1 JC0 103 SNDV ASCO HT8302B25RF I.B 2,3,6 104 SNDY ASCO HT8300 I.B 6 -

105 SNDV ASCO HV202-300-IRV I.B 1 JC0 ,

106 SNDV ASCO HV-200-924-2F I.B 1 JC0 DE03;TERRPT .

TEE SUMuiRY TAnLL TER TEE Iten No. Component Manufacturer Ibdel Cctermry Resolution

~

107 SNDV ASCO HTI 8320 122V I.L 1 JC0 108 SNDV ASCO HT8300 1.E I JC0 109 SNDV ASCO WPI-HV-202-301-IF I.B 1 JC0 110 SNDV AdCO HB8300 I.B 1 JC0 111 SNDV ASCO HB8300 I.B 1 JC0 112 SNDV ASCO HV-200-921-lRF I.B 1 JC0 113 SNDV~ ASCO 8300 and 8302 1.B 1,2 JC0 114 SNDV ASCO 832654 I.B 3,5,6 115 SNDV ASCO 831654 I.B 2,6 116 SNDV ASCO LB8300B64RU I.B 3 117 SNDV ASCO HT831654 I.B 4 118 SNDV ASCO LB831654 I.B 6 119 SNDV ASCO LB831654 I.B 6 120 SNDV ASCO HB8300C58RU I.B 6 121 SNDV ASCO HT8300 Series I.B 1 JC0 WPIHV20230ll 122 SNDV ASCO 8320 I.B 6 123 SNDV ASCO 8300 1.B 1 JC0 DE03;TERRPT

• TER S TABLE Item No. _ Component TER Manufacturer Model Category Resolution 124 SNDV ASCO 206-381-3RF I.A 7 125 SNDV ASCO 206-381-3RF I.A 7 126 SNDY ASCO

• ~'

NP831654E I .A 7 127 SNDY ASCO 206-381-3RF I.A 7 128 SNDV ASCO 206-381-3RF I.A 7 129 SNDV ASCO HV-206-380-1RVU II.C 6 130 SNDV ASCO 206-280 and II.C 6 206-381 131 SNDV ASCO 206-381 II.C 6 132 SNDV ASCO 206-281-3RF II.C 6 133 SNDV ASC 206-381 I.A 7 134 SNDV Target Rock 775001 I.A 7 135 (Unit 1) LMSW NAMCO EA170 II.A 135 (Unit 2) 1RSW NAMCO 1 JC0 EA 180 II.A 6 136 LMSW NAMCO EA-170-302 I.A 4 137 LMSW NAMCO EA180

~

II.A 6 138 LMSW NAMCO EA180 II.A 6 139 IRSW NAMCO EA180 II.A 4 140 LMSW NAMCO APDAR 7905 II.A 1 JLO

- DE03;TERRPT .,

TER SU1J:ARY Tai,LE TER TER

_ Item No. Component Mcnu fa c turer thdel C>tetory Resolution 9

141 LMSV NAMCO EA700 I.B 1 JC0 142 IMSW NA!!CO EA700 II.A 3,6 143 LMSV NAMCO EA700 I.B 1,3 JC0 144 IMSW NAMCO EA170 II.C 3,6 145 LMSW NAMCO EA170 I.B 1,3,4 JC0 146 IMSW NAMCO EA740 II.A 6 147 IRSW NAMCO EA740 II.A 6 148 RADM General Atomic -

I.B 2 149 PRTR Bailey 556 1.B 4 150 LVSW Hercoid 2036810C1160 I.B 3 151 TPSW Penn A19BAC I.B 1,3 JC0 152 TPSW Honeywell T675A1540 I.B 2 153 TPSW Fenval 27120-50 1.B 1 JC0-154 TPSW Fenval 18003-7 I.B 2,3 155 TPSW Fenval 17323-0 I.B 2 156 TPSW Honeywel1 T675A1540 I.3 3 ,

157 TPEL Rosemount 176KS I.B 6 158 HYAN Comsip K-lllM I.B 6 DE03;TERRPT .

V TEIl SUiciiHY TABLC TER TEL Item No. Component Hanufacturer Model Ca t e_ gory Resolution 159 PRTE Foxboro ElIQ1 I.B 4,6 160 LVTR Foxboro E-13DH (MCA) IV 6 161 TPEL Rosemunt 176 KF II.A 6 162 SNDV Valcor V70900-301 I.A 7 163 PUSP Westinghouse -

III.B 9 164 PRTR Foxboro EllO! (MCA) II.A 6 165 PRTR Foxboro EllCH (MCA) II.A 6 166 PSCT Johnson Controls PC-4000-2 I.B 2 167 LVTR Barton 764 Lot 2 II.A 6 168 LVTR Barton 763 Lot 2 II.A 6 169 (Ul) LVTR Barton 764 Lot 2 II.A 6 169 (U2) LVTR Barton 764 Lot 2 II.A 6 170 (U1) LVTR Barton 764 Lot 1 1.B 6 170 (U2) CTSW Cult er-Hamer 10250T I.B 6 171 (Ul) LVTR Barton 764 Lot 1 I.B 6 171 (U2) CTSW Cult er-Hamer 10250T I.B 6 172 (Ul) PRTR Barton 763 Lot 1 I.B 6 172 (U2) FLSW Dwyer 1627 I.B 3,2 DE03;TERRPT .

N.]

TER SUID' DRY TABLE TER TER Item No. Component llanufacturer liodel Crtenory Resolution 173 (U1) SNDV ASCO 206-381 1.A 7 173 (U2) TPSW Honeywell T675A 1540 I.B 2 174 (U1) LMSW NAHCO EA1/0 I.B 4,6 174 (U2) TPSU Fcnusi 18003-7 1.B 2 175 (U1) LMSW NAMCO EA-080 I.B 1 JC0 175 (U2) ELCA Eaton Corporation II.A 6 176 (U1) LVTR Barton 764 Lot 1 I.B 6 176 (U2) ELCA Samual Moore --

II.A 6 177 (U2) ELCA Samual Moore --

II.A 6 178 (U2) ELCA Anaconda --

II.A 6 179 (U2) LMSW NAMCO EA-170 II.A 6 180 (U2) LMSW NAMCO EA-170 I.B 4,6 181 (U2) LMSW NAMCO EA700 I.B 1 JC0 182 (U2) LMSW NAMCO EA700 I.B 3 183 (U2) SNDV ASCO 206-381 I.A 7 t

5 DE03;TERRPT i

1 SPECIFIC EQUIP;1EliT DEFICIEHCIES

! CATEGORY II.C l

(EQUIPMEliT SATIFIES ALL REQiiIRDailTS EXCEPT QUALIFIED LIFE OR REPLACIRENT SCliEDULE JUSTIFIED)

TER No. Manufacturer /Model No. Deficioney Resolution 77 Raychem Hodel WCSF (N) Aging Qualified, Wyle Test Report 58442-1 129 ASCO Model HV-206-380 Aging Qualified; ASCO 2RVU Report AQS-21678/TR-Supp. 3 130 ASCO Models 206-380 Aging Qualified; ASCO 206-381 Report AQS-21678/TR-Supp. 3 131 ASCO Model 206-381 Aging Qualified; ASCO Report AQS-21678/TR-Supp. 3 132 ASCO Model 206-381-3RF Aging Qualified; ASCO Report AQS-21678/TR-Supp. 3 144 HAMCO Model EA170 Aging FCV-65-8, 47A, 47B - Equipment no longer considered to be within the scope of 10CFR50.49 (category C per NUREG-0588) FCV-65-28A, 28b, 51 (Qualified with NAMCO Model EA-100; Qualified by Report No. QTR-150); LS on FCO-65,10, 30, 52, 53 (Components replaced by FSV-65-10, 30, 52, 53; See TER item 142)

(1)

.0 TER Justifications for Conti % operation (JCO),

l l

I

( -

014313,03

c.

TER ITEM NO. - I r Manuf acturer/Model No. - Link-Belt /TN 200/TN 2000 TVA ID_No.

.-~ Status 1-FCV-67-81 ~

2-FCV-67-81 Not in the scope of 10CFR50.49

• l-FCV-67-82 Not in the scope of 10CFR50.49 2-FCV-67-82 Not in the scope of 10CFR50.49 l-FCV-67-83 Not in the scope of 10CFR50.49 2-FCV-67-83 To be replaced - See note 1 1-FCV-67-88 Replaced with a qualified actuator 2-FCV-67-88 To be replaced - See note 1 1-FCV-67-91 Replaced with a qualified actuator 2-FCV-67-91 To be replaced - See note 1 1-FCV-67-96 Replaced with a qualified actuator 2-FCV-67-96 To be replaced - See note 1 1-FCV-67-99 Replaced with a qualified actuator 2-FCV-67-99 To be replaced - See note 1 1-FCV-67-104 Replaced with qualified actuator 2-FCV-67-104 To be replaced - See note 1 1-FCV-67-107 Replaced with a qualified actuator 2-FCV-67-107 To be replaced - See note 1 1-FCV-67-ll2 Replaced with a qualified actuator 2-FCV-67-ll2 To be replaced ~ See note 1 1-FCV-67-123 Replaced with a qualified actuator 2-FCV-67-123 To be replaced - See note 1 Replaced with a qualified actuator 6- 1-FCV-67-124 2-FCV-67-124 1-FCV-67-125 To be replaced - See note 1 Replaced with a qualified actuator To be replaced - See note.1 2-FCV-67-125 1-FCV-67-126 Replaced with a qualified actuator 2-FCV-67-126 To be replaced - See note 1 '

1-FCV-67-127 Replaced with a qualified actuator 2-FCV-67-127 Not in the scope-of 10CFR50.49 1-FCV-67-128 Not in the scope of 10CFR50.49:

2-FCV-67-128 Not in the scope of 10CFR50.49 2-FCV-67-146 Not in the scope of 10FRR50.49 2-FCV-67-147 To be replaced - See note 1 0-FCV-67-151 Not in the scope of 10CFR50.49 0-FCV-67-152 Not in the scope of 10FRR50.49 Replaced with a qualified actuator Note 1 - The equipment has been procured and is onsite awaiting a unit outage to allow installation.

in,-)l '

1

. 1 l

, uti;ication for Continued Operation - Unit 1 Since this equipment will not experience chemical spray, it is our opinion that this will only increase the life of the actuators.

l We feel the manuf acturer has adequately addressed the issue of arcing '

across the motor leads in his test report and that field installation ,

l does not fall under the scope of equipment testing for class lE service. In addition, while environmental temperatures may not have returned to normal in 600 seconds, most environments have gone through any abnormal peaks. Therefore, this should not be a factor.

The valve motor operators are qualified by test of a model TN-200 motor operator in Franklin Institute Research Laboratories Report No. F-C2883.

The test sequence was as.follows:

1. Radiation 1 x 108 RADS

2. Seismic

3. 6-Day steam and simultaneous 5-hour chemical spray exposure starting at 90 psig/3303 F and reduced gradually to 5 psig/2250F.

This test does not qualify these actuators for a 100-day accident but the test conditions do envelope the required. operating time for these actuators. Based on the above, these actuators are qualified for continued operation until replacement.

Unit 2 - See attached EQS No. MEB-67-005-II y

Prepared by: D.F. COX/ 6-20-84 Reviewed by: J.W. HODGES/ 6-20-84 REVISION R1 R2 TRW Q@f PREPARED BY nots +4  ? 8 &S REVIEWED BY CI.M DE02; LEON.25 , o. ,c. m th/Ts l

l /'s h

O G

Unit No. I Revision  ;, EOS No. ME3 N -I 5.:aareNDate TVA ID No.

yootr----- --hi[ * ^"*I Reviewer /Date 1,t. en. :- -

S SON EOUIPMENT OUALIFICATION SHEET (R31 ~

$anuf acturer and Model No. U nk- hit T': 200 & TN 2000 (eaa W W x 1)

Verification of Table Information (Table _See Armend i v 1 I X

Eouiement Tyoe - The equipment has been identified as per TVA ID number designations (such as, MOV, 50V).

X Location - The location has been identified (such as, inside primary containment, annulus, individually cooled rooms, general spaces, or area X affected by HELB outside primary containment). -

A Comoonent - A unique TVA ID number has been assigned (such as,1-FSV-68-308).

Function steam - A functional generator blowdown). description of the component has been given (such as, X

_ Contract No., Manuf acturer, and Model No. - The contract number, manuf act ano mooel numoer nave been given.

X Abnornal or Accident Environment - All abnormal or accident environmen conditions applicaole to this equipment have been identified either in tables c X

by references to figures from tables.

Environment to Which Oualified - The environment .to which the equipnent has bee qualified attached. is addressed in either the tables or the environmental analysis X

- Cateacrv - A category of a, b, c, or d has been defined for the equipment.

X -

Ooeration and Accuraev Recuired and Demonstrated - The operation

~

ano accuracy requireo and cemonstrateo have Deen defined.

0ualification Status-(check if aoolicable, NA if not)

Qualified Life (If equipment is qualified, indicate the- qual.ified life with a numerical entry):

x Gualification Report and Method - A qualification report and the method of x qualification has been identified on the Table Input Data Sheet (TIDS).

Envircnmental Analysis - An environmental-analysis-has-been-done, attached to NA the EQS, and inoepenoently reviewed by the responsible organization.

_0ualification by Similarity (If applicable) - A justification for qualification by similarity to referenced is attacneo to_the_EOS__tonsider.ing_aLL-the-above-f the appropriate tables. actors and X

_0ualification of Several Exact Ccrnoonents (If_ applicable) . _When an EQS is for more than one item, a list of all exact components is given as an appendix with all references censidering to appropriate all the above fact ~ ors. tables with justification for q.ualification l AA l Interim Oualification (If applicable) - (0 pen item) - Component has been determined to be qualified only4cr a-limited-interim operatian EfrNCR has been witten, and plan of action has been detennined to yield a qualified ccrnponent.

Term of Interim Qualification NCR No.

_X

! _Uncualified Comoonent - (0 pen item) - (If applicable) - Component has been y- determined to be unqualified; the following is attached to EOS:

- reason for non-qualification, and justification of continued operation.NCR number, -

NCR No. SONMEB820lR8 EQS D

DI Append x }

Revision 1 N 's TVA Ib No. Model No. Table / Sheet No.

1-FCV 67-123 TN 2000 3.11-6/6 & 3.11-8/22 1-FCV 67-125 TN 2000 1-FCV 67-146 3.11-6/6 6 3.11-8/22 TN 200 3.11-6/6 6 3.11-8/22 1-FCV 67-152 TN 200 3.11-6/6 6 3.11-8/22 1-FCV 67-126 TN 2000 3.11-7/3 6 3.11-8/29 l-FCV 67-124 TN 2000 3.11-7/3 6 3.11-8/29 l-FCV 67-93 TN 2000 3.11-5/3 1-FCV 67-88 TN 2000 3.11-5/3 1-FCV 67-91 TN 2000 3.11-5/3 1-FCV 67-96 TN 2000 3.11-5/3 1-FCV 67-99 TN 2000 3.11-5/3 1-FCV 67-104 TN 2000 3.11-5/3 1-FCV 67-107 TN 2000 3.11-5/3 1-FCV 67-112 TN 2000 3.11-5/3 Prepared by: hI [N /-/5 65 Reviewed by: NI 4:2n 4/p'[83 ~

0 5

- Sheet No. MEF 67-00r Append:x 2 R1 Sheet *

~

e a.

The valve cotor operators are qualif:ed by test of codel TN-20~.

Tne mode'. TN-200? is cualif t ed by e:::va:ance te the TN-??-

o;.erato . The test : der:r;:,e- in tne Trhne..ir Institate Pesearer. LaScra'or er Rep:rt Nr. F-025??.

t. The testing sequence was as follows:

• c

. Radiatior 1 by 10 rat

". St.s .

}. 21 t ca;. stes ar.d sicaltaneoar 5 near ene :ca'. spray ex;:r;re starting at 90 psig/330 F and redaced gradaally to 5 pt: -

22507. ,

c. Tne test sut,4erted the actuator tr the te:PeratJre prerru e pr~f:le l'lustrate: in attach er.t 1.

d. The test conditions correspond to those for saturated stea er 100 percent relative humidity.

e. The above test conforts to the requirements set forth in IEEE-323-1971 and NUREG-0588, section 2.2, all applicable paragraphs for the application.

~

f. The operating conditions to which these operators will be subjected

~ - - - ~ ~ ~ ~ ~ ~ ~ ' ' ~

are within tested para:eters.

g. Operating time - The subject test report does not specifically address this, however, the test parameters (see above) are significantly more severe than our worst case environ =ent (1500F, ATM Press, 100 percent f()

R A and 5 by 107 rads), therefore, it's our engineering judg ent the test is sufficient to meet the required operatinE ti:e.

Prepared by: h Reviewed by: _%_ J uj l RJP8 1

e s_

o l e. b J. *

..U Jef fl) L SY N M M. %a.T \

O *O .

g .

. O.

.- c .n. n. n

e. N *;* c. p 4.,.

i .

-m .

,. - c -

g

. . WD 2 , .

C 6" b n .

• H %.,. a 2 ..

t

. W L

., a e j

$ t. t*

L: s-l ,5 : -f Q

t.s - .

. e v

. 20 4' s) - t e

. C C s- L' w p t~ r !* l "

.* g h N$ t' W

• CJ ec-g,

=

. U L'

e-Q O

• d t

.- eJ et .

p g.

I V. is c> .

C.

X

.

• U n. s. g .) L.;

e e' C I

b g3 y

• 1

..l' #-

N rJ

. C P- L-g . 6 s 6. ,,

~ t C ,

b A DDb - . , <

L.? gn g g. - rd r

• C g g n- . rj D s 8 U

s

.- a c.s

- au- ta. 5'*

a

.. w cww , ,o e

L. >-

• f.e .. .c A t tJ

- g q

- . - I .e-- e I :[. n.,

. c. o c o- l

. 7, l 3 i 4J

. l l g .N .

. v.

s. / 8 O

//j>

6

.]~ .

C

.:/ 1

t.

• E

'  % s. m

/ [ .

{ g

./ /[

./

• f O r T a-y 2a oo an

[ ( CJ

• b I s l -

o 4.- o .

e*

M. D N

, , J.

• C t

- c .

<p f' .

0,***'g s.

~.

u ,E

, *. ce o E .,;,

lol

. u o

e ll ,

(.-

k g .c <~n .

. P g e_ o

%u b.

y

. . et .-  % .

1 . m r4

• \ . .

t ,

. o . -

..g,'%

(

\

o, *' *"" *1s i :. p. - . .*m *,

.! !4~ .. e. .. ...l.,

O O O O O * -

(t s G *w is o o

u. . s.w. - **

. . . (Mil Wa* S W. , ,

~-

. . ~}/-

4 e .

. f. .f e .l . Tit . ... I,. 1 !......

.. . .. ...T . I 1., .,.. .. ...' .. . ! l .. .. % .. ... O.. ...I'/. .

Revision;, ,

Unit No.

! ECS No.

ME3-e7-005-I Preparer /Date w' '

TVA ID No.

, 3,3, pggt7 {g /. / / see mem 1 Reviewer /Date 1,t, ggtn

[ ((

SON ECUIPMENT 00ALIFICATION SHEET (R3) ,

Nanuf acturer and Model No. Limitorque: sME-000 Verification of Table Information (Table See Accendix 1 I x

Ecuioment Tvoe - The equipment has been identified as per TVA ID ntmoer designations (such as, MOV SOV).

x location - The location has been identified (such as, inside primary containment, annulus, individually cooled rooms, general spaces, or area x

affected by HELB outside primary containment). -

>. Comoonent - A unique TVA ID numoer has been assigned (such as, 1-FSV-68-30 function - A functional steam generator description of the cmponent has been given (such as, blowdown).

x Contract No.. Manuf acturer, and Model No. - The contract number, manuf actu and moael numoer nave oeen given.

x Abnomal or Accident Enviroment - All abnormal or accident environment concitions applicable to this equit: ment have -been identified either in tables c by references to figures from tables.

x Environment to Which Oualified - The environment to which the equipment has b qualified attached. is accressea in either the tables or the environmental analysis x

Cateoorv - A category of a, b, c, or d has been defined for the 6'_x.. equipment.

Doeration an.d Accuraev Recuired and Demonstrated - The operation and accuracy required ano oemonstrated nave Deen defined.

0ualification Status (check if apolicable. NA if notl Qualified Life (If equipment is qualified, indicate the qualified life with a numerical entry): 40 vears x -

_0ualification Reoort and Method - A qualification report and the method of

x. qualification has been identified on the Table Input Data Sheet (TIDS).

Environmental Analysis - An environmental analysis has been done, attached t x the EQS, and indepencently reviewed by the responsible organization.

_0ualification by Similarity (If applicable) - A justification for qualification by similaritytoisthe referenced attacnea to thetables.

appropriate EOS considering all the above factors and A Qualification of Several Exact Co conents (If applicable) - When an EQS is used for more than one item, a list of all exact components is given as an aDpendix with all references considering to appropriate all the above factors, tables with justification for qualification a _ Interim Oualification (If applicable) - (0 pen item) - Ccmponent has been detemined to be qualified only for a limited interim operation, an NCR has been written, and plan of action has been determined to yield a qualified component.

Term of Interim Qualification NCR No. -- --

_N A

_Uncualified Comoonent - (0 pen item) - (If applicable) - Cmponent has been determined to be unqualified; the following is attached to EOS: ~-

reason NCR No. for non-qualification, and justification of continued operation.NCR number, EQS .

Shem. Jo. m B 6', 005-II Appendix 1 Revision 1 "o

TVA ID'No. Table Location 2-FCV 67-81 Not in the scope of 10 CFR50.49 2-FCV 67-82 Not in the scope of 10 CFR50.49 2-FCV 67-S3 3.11-5/3 Ann 2-FCV 67-86 3.11-5/3 Ann 2-FCV 67-91 3.11-5/3 -

Ann 2-FCV 67-95 3.11-5/3 Ann 2-FCV 67-99 3.12-5/3 Ann 2.-FCV 67-104 3.11-5/3 Ann 2-FCV 67-107 3.11-5/3 Ann 2-FCV 67-112 3.11-5/3 Ann 2-FCV 67-123 3.11-6/6 & 3.11-8/22 714/Al 2-FCV 67-124 3.11-7/3 & 3.11-8/29 690/A19 2-FCV 67-125 3.11-6/6 & 3.11-8/22 714/Al 2-FCV 67-126 3.11-7/3 & 3.11-8/29 690/A19 2-FCV 67-127 Not in the scope of 10CFR50.49 2-FCV 67-128 Not in the scope of 10CFR50.49 2-FCV 67-146 3.11-6/6 & 3.11-8/22 714/Al 2-FCV 67-147 Not in the scope of 10CFR50.49 ,

2-FCV 67-151 Not in the scope of 10CFR50.49 2-FCV 67-152 3.11-6/6 & 3.11-8/22 714/Al. .

Not in the scope of 10CFR50.49

~

2-FCV 67-205 2-FCV 67-208 'Not in the scope of 10CFR50.49 2-FCV 67-223 Not in the scope of 10CFR50.49 Prepared by: ofv5-69 Reviewed by: M J//f!f[

LI i

s

? -

a DE04:G05045.01

Sheet No. MEB 67-005-I:

Appendix 2 Rev 2 Sheet 1 The actpators located in the annulus are required to operate in the

• f ollowing environments as shown on Sequoyah drawing 47E235-47_RO, and au::marized below. --

Operational 40-Year Temp Rel. Pressure Radiation Integrated Acc.

Condition OF Hum (PSIA) (RADS) Dose (RADS) 1 AVG 105 55 ATM (-) NA NA MAX 110 80 ATM (-) 2 x 107 NA MIN 50 30 ATM (-) NA NA 2 MAX 120 90 ATM (-) NA NA MIN 40 10 ATM (-) NA NA 3 150 100 ATM (-) NA 5 x 107 5 NA NA 11.4 NA NA 6 NA NA 12.4 NA NA Operational Condition Definitions -

1 Normal .

2 Abnormal 3 LOCA/HELB Inside Primary Containment 5

Tornado (Sudden pressure drop) 6 Inadvertant Containment Spray Initiation The actuators appendix arereport to test qualified by Limitorque test report 6004_5_6,_which_is_.an B0058. -

that the subcomponents are similar to those in the test report.Each actuator

. ..The_lest accident environment is summarized as follows: _

Temperatures 3000F j

Pressure 70 PSIG Relative Humidity 100%

Radiation 8 2.04 x 10 RADS

?\

DE04;C05045.02

Sheet No. MIB-67-005-II Appendix 2 Rev 2 Sheet 2 s

Equip =eht located in the annulus is not affected by a maximum level flood of 723.3 ft, and these actuators are located above the flood level caused by actuation of the containment spray system.

The nonmetallic switch material used is a molded phenolic with a temperature index of 1500C. With a 600C ambient aging temperature, the physical properties of this material can be estimated to degrade to 50 percent of their original values in 3.07 x 107 hours0.00124 days <br />0.0297 hours <br />1.76918e-4 weeks <br />4.07135e-5 months <br />, which is well over the 100-day requirement.

.Limitorque has stated that absolute sealing of these actuators against the ambient conditions is not required for qualification of these components.

Based on the above, these actuators are qualified for 40 years of operation, after which they will be replaced.

Prepared by: h I b f./.f.ge ,,

Reviewed by: /) O f M 4 /I) oT O

\  ! -

DE04;C05045.02

Sheet No MEB 67-005-11

Appendix 2 Rev 2 Sheet 3

~

w The actur. tors located at 690/A19 and 714/A1 are required to operate in the following environments as shown on Sequoyah drawings 47E235-49 R0, 50 R1, 59 RO, and 60 R1, and su==aried below.

40-Year Operational Temp Rel. Pressure Condition Radiation Integrated Acc.

OF Hum (PSLA) (RADS)- Dose (RADS) 1 AVG B0 55 ATM (-) NA NA MAX 104 80 MIN ATM (-) 1 x 106

• NA 60 30 ATM (-) NA NA 2 MAX 110 90 ATM (-) NA NA MIN 50 10 ATM (-) NA NA 3 110 NA NA NA < 1 x 104 4 197** 100 14.40 NA NA 5 NA

, NA 13.30 NA NA

~

• 5 x 10 2 RADS for 714/A1 '

• • 1280F for 714/A1 Operational Condition Definitions t

1 Normal ,

2 Abnormal 3 LOCA/HELB Inside PrLsary Containment 4 EELB outside Primary Containment 5 Tornado (Sudden Pressure Drop of 3 PSI).

Actuators which is aninappendix these locations to test are qualified by Limitorque test report B0003, report B0058. Each actuator has been inspected to verify that its subcomponents are similar to those in the test report. The test accident environment is su=marized as follows.

Temperature 2500F Pressure 25 PSIG Relative Humidity 100%

Radition 7 2 x 10 RADS O_ ~

DE04;G05045.03

- Sheet No. MEB 67-005-I1 Appendix 2 Rev 2 Sheet 4 The nonmetallic switch material used is a molded phenolic with a temperature index of 1500C. With a 600C ambient aging temperature, the physical properties of this material can be estimated to degrade to 50 percent of their original values in 3.07 x 107 hours, which is well over the 100-day requirement.

Limitorque has stated that absolute sealing of thes'e actuators against the ambient conditions is not required for qualification of these components.

Based on the above, these actuators are qualified for 40 years of operation, af ter which they will be replaced.

Prepared by: / [ /f-85

/

Reviewed by: h kar, J'/!fkf f/

~

l s

DE04;G05045.03

TER ITEM NO. - 2 TVA ID NO.

0-FCV-70b1 Replaced with a qualified actuator 1 -FCV-70,-2 2-FCV-70-2 Not in the scope of 10CFR50.49 per NCR SQNMEB8201

• 1-FCV-70-3 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 2-FCV-70-3 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 1-FCV-70-4 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 2-FCV-70-4 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 1-FCV-70-8 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 1.-FCV-70-9 Not in the scope of 10CFR50.49 per NCR SQNMEBB201 1-FCV-70-10 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 0-FCV-70-11 Replaced with a qualified actuator 0-FCV-70-12 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 1-FCV-70-13 2-FCV-70-14 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 2-FCV-70-15 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 2-FCV-70-16 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 2-FCV-70-18 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 0-FCV-70-22 Not in the scope of 10CFR50.49 per_ _NCR S.QNMEB8201 1-FCV-70-23 .

1-FCV-70-25 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 1-FCV-70-26 Not in the scope of 10CFR50._49_pe.r_NCR ,SQNMEB8201 1-FCV-70-27 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 2-FCV-70-28 2-FCV-70-29 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 Not in the scope of 10CFR50.49 per NCR SQNMEB8201

' 0-FCV-70-34 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 -

0-FCV-70-39 0-FCV-70-40 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 Replaced with a qualified actuator 0-FCV-70-41 1-FCV-70-64 Replaced with a qualified actuator . ~

Not in the scope of 10CFR50.49 per NCR SQNMEB8201 1-FCV-70-74 1-FCV-70-75 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 2-FCV-70-75 2-FCV-70-76 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 2-FCV-70-78 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 1-FCV-70-92 To be replaced - see note 1 2-FCV-70-92 Replaced with a qualified actuator 0-FCV-70-111 Replaced with a qualified actuator 1-FCV-70-139 2-TCV-70-139 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 1-FCV-70-140 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 To be replaced - see note 1 2-FCV-70-140 Replaced with a qualified actuator 1-FCV-70-143 To be replaced - see note 1 2-FCV-70-143 Replaced with a qualified actuator 1-FCV-70-153 To be replaced - see note 1 2-FCV-70-153 Replaced with a qualified actuator 1-FCV-70-156 To be replaced - see note 1 i'

1

TVA ID NO.

f

• 2-FCV-70-156 Replaced with a qualified actuator 1-FCV-70-168 2-FCV-7D-168 Not in the scope of 10CFR50.49 per NCR SQhMEB8201 0-FCV-79-193 Not in the scope of 10CFR50.49 per NCR SQ5HEB8201 Replaced with a qualified actuator 0-FCV-70-194 Replaced with a qualified actuator

• 2-FCV-74-195 Not in the scope of 10CFF.50.49 per NCR SQSMEB8201 2-FCV-70-196 Not in the scope of 10CFR50.49 per NCR SQNMEB8201 0-FCV-70-197 Replaced with a qualified actuator 0-FCV-70-198 Replaced with a qualified actuator Note 1 - The equipment has been procured and is onsite awaiting a unit outage to allow installation.

Justification for Continued Operation - Unit 1 Since this equipment will not experience chemical spray, it is our opinion that this will only increase the life of the actuators.

We feel the manufacturer has adequately addressed the issue of arcing across the motor leads in his test report and that field installation does not fall under the scope of equipment testing for class 1E service. In addition, while environmental temperatures may not have returned to normal in 600 seconds, most environments have gone through any abnormal peaks. Therefore, this should not be a factor.

The valve motor operators are qualified by test of a model TN-200 motor

, operator in Franklin Institute Research Laboratories Report No F-C2883._

The test sequence was as follows:

1. Radiation 1 x 108 RADS

2. Seismic 3.

6-Day steam and simultaneous 5-hour chemical spray exposure starting at 90 psig/3300F and reduced gradually to 5 psig/

225oF.

The test does not qualify these actuators for a 100-day accident but the test conditions do envelope the required operating time for these actuators.

Based on the above, these actuators are qualified for continued operation until replacement.

Unit 2 - See attached EQS No. MEB-70-004 R4.

Prepared by: h/d/ //r,#5

~

Reviewed by: Z 5 fl~

f /

DE02: LEON.70

/

1

Unit N3. 1 I' t * :1on 4 EOS No, ME3-70-oo4-I TVA ID No.

Preparer /Date g,;, poott g' g [ / / See m en m 1 Reviewer /,Date 1.L. Belt:

((

_ SON EOUIPMENT 00ALIFICATION SilEET (R31 Manuf acturer and Model No.

Verification of Table Infomation (TaoleLinkbelt see noencTNu 1 200 & TN 2000 1(See Ann X

Ecuioment Tyoe - The equipment has been identified as per TVA ID number X

designat1ons (such as, MOV, 50V).

Location - The lccation has been identified (such as, inside primary containment, annulus, individually cooled rooms, general spaces, or at1

_af_fected_by_JiELS_outside.arimary containment).

x x

Comoonent - A unique TVA ID number has been assigned (such as,1-FSV-68-308).

Function - A functional description of the ccmponent has been given (such as, steam generator blowdown).

X Contract No., Manufacturer, and Model 'No. - The contract number, manufacturer, anc mocel numoer have oeen given.

x Abnormal or Accident Environment - All abnormal or accident environmental conditions applicaole to this equipment have been identified either in tables e by references to figures from tables.

X Environment to Which Oualified - The environment to which the equipment has bee qualifiea is accresseo in eitner the tables or the environmental analysis attached.

X Cateoorv - A category of a, b, c, or d has been defined for the equipment.. -

m X .

_Doeration and Ac~ curacy Recuired and Demonstrated - The operation- ~

ano accuracy requirea ano demonstratea have Deen defined.

Qualification Status (check 'if aoolicable, NA if not) -

_ Qualified Life (If equipment is qualified, indicate the qualified life with a X

numerical entry):

• Oualification Reoort ana Method - A qualification report and the method of x qualification has been identified on the Table Input Data Sheet (TIDS).

Environmental Analysis - An environmental analysis has been done, attached to X the EOS, and indepencently reviewed by the responsible organization.

_0ualification by Similarity (If applicable) - A justification for qualification by similarity is attacnea to the EOS considering all the above factors and referenced to the appropriate tables.

• x Oualification of Several Exact Canoonents (If applicable) - When an EOS is used for more tnan one item, a list of all exact ccmponents is given as an appendix with all references to appropriate tables with justification for qualification considering all the above factors.

NA Interim Oualification (If applicable) -(0 pen itEnT T C~ cmp 5iie~nt has been detemined to De qualified only for a limited interim operation, an NCR has been written, and plan of action has been detemined to yi_ eld a qualified ccmponent.

Term of Interim Qualification .

' NCR No.

x Uncualified Comoonent - (0 pen item) - (If applicable) - Ccmponent has been O' -- deteminea to De unqualified; the following is attached to EOS: NCR number, reason for non-qualification, and justification of continued operation.

NCR No. s0NMEB8201 i

EQS

Sheet No. MEB-70-004-I Appendix 1 Revision 1 Sheet 1 of 1 "a

TVA ID NO.

Table / Sheet T mber '

l-FCV-70-2 l-FCV-70-3 Not in scope of 10CFR50.49 l -FCV-70-4 Kat in scope of 10CFR50.49 l-FCV-70-8 Not in scope of 10CFR50.49 Not in scope of 10CFR50.49 l-FCV-70-9 Not in scope of 10CFR50.49 1-FCV-70-10 Not in scope of 10CFR50.49 .

l-FCV-70-13 Not in scope of 10CFR50.49 1-FCV-70-23 Not in scope of 10CFR50.49 l-FCV-70-25 Not in scope of 10CFR50.49 l-FCV-70-26 Not in scope of 10CFR50.49 l-FCV-70-27 Not in scope of 10CFR50.49 l-FCV-70-64 Not in scope of 10CFR50.49 l-FCV-70-74 Not in scope of 10CFR50.49 l-FCV-70-75 Not in scope of 10CFR50.49 l-FCV-70-92 1-FCV-70-139 3.11-7/3 and 3.11-8/35 Not in the scope of 10CFR50.49 l-FCV-70-140 1-FCV-70-143 3.11-7/3 and 3.11-8/35 1-FCV-70-153 3.11-7/3 and 3.11-8/35 1-FCV-70-156 3.11-6/6 and 3.11-8/5 6 1-FCV-70-168 3.11-6/6 and 3.11-8/5 Not in the scope of 10CFR50.49 -

Prepared by: _ //d.e f./S-#S Reviewed by: /4 2!/

/

DE02:RJP10

(- -

I

Sheet No. ME3 70-00h Appendix 2 R1 Sheet 1 ~

1. Mohbr-Operated Valves (MOV) - Link-Belt Electrodyne Model TN-200 -

__ and. TN-2000 -

a. The valve =otor operators a.e qualified by test of model TN-200.

The model TN-2000 is qualified by equivalence of the TN-200 operator. The test is described in the Franklin Institute Research Laboratories Report No. F-C2833 D. The testing sequence was as follows:

1. Radiation 1 by 108 rads

2. Seismic 3

El 6 day steam and simultaneous 5 hour5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> chemical spray exposure starting at 90 psig/330 F and reduced gradually to 5 psig/

225 F.

c. The test subjected the actuator to the temperature pressure profile illustrated in attachment 1. ,

d. The test conditions correspond to those for saturated steam or 100 percent relative humidity,

e. The above test conforms to the requirements set forth in IEEE-323-1971 and NUREG-0588, section 2.2, all applicable paragraphs for the application.-

f.

The operating conditions to which these operators will be subjected -

are within tested parameters.

g.

Operating time - The subject test report does not specifically address this, however, the test parameters (see above) are significantly more severe than our worst case environment- (2020F, ATM-Press, 100-percent ptg RH and 5 by 107 rads), therefore, it's our engineering judgment the test is sufficient to meet the required operating time.

Prepared by: . h. h -

Reviewed by: /

RJP10 g

/

e .

=>

- (! 13Un ' u3drf;3 .

Me6 7 o o ct. Ag O

l

f. W. .o C f* e

" ~ co .: A o w

tsaa-

• I i 6 i 4 g

~

&J l . .

aU

• . O <- - o r= U e

.C o.C, -

Fv e g4 g

. WO 2 ad g*

d s. H c

.

• uw 9

4 9 - c

• fp . 2D . ,

U C .

. y ,

• O *

. T* A8 a

6 - i o.e*8c w

.. e wew

- ,-u -

e e2nou

• b 2 g

. * ~

w *%

32 . o>t*.

" n.

6 1

• nd

. 6 .

. V < >. e>

Z H tJ .

• c.

X El *

""'E - "

• u 6- "o I

w MO -= MY. h rs C e L cs

• 8 .'8 w vJ c.

. agg3 - m

k. SJ > > - N e-=

a p-

• c <eec t% u . r3 l Suwg u m t. v. -

. - - w  :: nY .o a

c w ws G

c. H .- e .c

<a U

I -- ~

p *-. e

• 004D t.

lh s

h

- i- .-

l'i1 l :

h _ . .m-s l  %

/ > . _ O $

. o

. . . i i . .

• I e/ u s.-- >- .E.,

. t . 4 u C' 6 C1 C I

.l,/. V ,7'*

• Y a

<- - e a.,.

A,. I ,

o H

• j . . n o .

t y. n, , _ ,-

x A. g .o t, r.

sW* <-v h

e e

. u.-

.C=1 ll .

- o , t- .

o w -

ky .

e--. n . -

r: *

-o n .

V C e r , 4o ,

. . .a . .

?- .

~ u 1 -

s .

o , . l,

l. ... .

t.l g- ,~ %,

t e  %.

I  : ...-O.m...,---_- ..

2 fi 'S o o r~N,

.- S.

G

. ($'in 3:;ns;38d S e, j

, , .14 , ,

. J e j 1

~

I;* I'llM *!*ll!I l%"l* *.! C' I!!!E.1CCl! l..*.LO.*..T*. Of.'l'.9 -

e Unit No. 2 Revis{ .)

- EOS No. v = n nat-:

Preparer /Date TVA ID No.

%[- [ /

~

~

g. 3. pooie See Aprendix !

Reviewer /,Date I. :.. Beltz h(([

SON EOUIPMENT 00ALIFICATION SHEET (R3) -

Manuf acturer and Model No. u -M eereue u n del sm-non Verification of Table Infomation (Table see A%eneix 1 )

x Eouiement Type - The equicrnent has been identified as per TVA ID numer designations (such as, MOV, 50V).

X Location - The location has been identified (such as, inside primary containment, annulus, individually cooled rooms, general spaces, or area affected by HELB outside primary containment). -

x X

Comoonent - A unique TVA ID number has been assigned (such as, 1-FSV-68-308).

Function - A functional description of the cmponent has been given (such as, steam generator blcwdown).

x Contract No., Manufacturer, and Model No. - The contract number, manuf acturer, and model numoer nave been given.

x Abnomal or Accident Environment - All abnomal or accident environmental concitions applicaDie to this equicrnent have been identified either in tables .

by references to figures frcm tables.

x Environment to which Oualified - The environment to which the equipment has be4 qualifiea attached.

is accresseo in either the tables or the environmental analysis X

Cateacry - A category of a, b, c, or d has been defined for the equipment. -

X -

Ooeration and Accuraev Recuired and Demonstrated - The operation -

and accuracy required ana cemonstratea nave Deen defined.

_0ualification Status fcheck if acolicable, NA if not)

Qualified Life (If equipment is qualifiea, indicate the qualified life with a numerical entry): I.0 vears

• x Gualification Reoort ana Method - A qualification report and the method of X qualification has Deen ident1fied on the Table Input Data Sheet (TIDS).

Environmental Analysis - An environmental analysis has been done, attached to X the EOS, and independently reviewed by the responsible organization.

Oualification by Similarity (If applicable) - A justification for qualificatior by similarity is attacnea to the EOS considering all the above factors and referenced to the appropriate tables.

NA

_0ualification_ of Several Exact Canoonents (If applicable) - When an EOS is uset for more tnan one item, a list of all exact components is given as an appendix with all references to appropriate tables with justification for qualification considering all the above factors.

NA Interim Oualification (If applicable) - (0 pen item) - Component has been determinea to De qualified only for a limited interim operation, an flCR has been written, and plan of action has been detemined to yield a qualified component.

Tem of Interim Qualification NCR No. - -

' 2 Unau~alified Cmoonent - (0 pen item) - (If applicable) - Ccrnponent has been .

determined to De unoualified; the following is attached to E05: NCR number.

reason for non-qualificatiJn, and justification of Continued operatiCn.

NCR No.

EQS

Sheet :io . MEB 004-I I Appendix 1 Revision 1 Sheet 1 of 1 TVA ID NO. Table / Sheet Number Location '

0-FCV-70'-l 3.11-7/16 2-FCV-70-2 714/A1 Not in scope of 10CFR50.49 2-FCV-70 -3 Not in scope of 10CFR50.49 2-FCV-70-4 Not in scope of 10CFR50.49 0-FCV-70-11 3.11-6/6 and 3.11-8/22 0-FCV-70-12 714/A1 Not in scope of 10CFR50.49 2-FCV-70-14 Not in scope of 10CFR50.49 2-FCV-70-15 Not in scope of 10CFR50.49 2-FCV-70-16 Not in scope of 10CFR50.49

.2-FCV-70-1B Not in scope of 10CFR50.49 0-FCV-70-22 Not in scope of 10CFR50.49 2-FCV-70-28 Not in scope of 10CFR50.49 2-FCV-70-29 Not in scope of 10CFR50.49 0-FCV-70-34 Not in scope of 10CFR50.49 0-FCV-70 -3 9 Not in scope of 10CFR50.49 0-FCV-70-40 3.11-6/6 and 3.11-8/22 0-FCV-70-41 714/A1 3.11-6/6 and 3.11-8/22 714 /A1 2-FCV-70-75 Not in scope of 10CFR50.49 2-FCV-70 -76 Not in scope of 10CFR50.49 2-FCV-70-78 Not in scope of 10CFR50.49 2-FCV-70-92 3.11-7/3 and 3.11-8/35 .690/A29 0-FCV-70-111 3.11-6/6 and 3.11-8/11 2-FCV-70-139 669/A1 Not in scope of 10CFR50.4_9 2-FCV-70-140 3.11-7/3 and 3.11-8/35 2-FCV-70-143 690/A29 3.11-7/3 and 3.11-8/35 690/A29 2-FCV-70-153 3.11-6/6 and 3.11-8/5 2-FCV-70-156 690/A1 2-FCV-70-168 3.11-6/6 and 3.11-8/5 690/A1 Not in scope of 10CFR50.49 0-FCV-70-193 0-FCV-70-194 3.11-6/6 and 3.11-8/22 714/A1 2-FCV-70-195 3.11-6/6 and 3.11-8/22 714/A1 Not in scope of 10CFR50.49 2-FCV-70-196 Not in scope of 10CFR50.49 0-FCV-70-197 3.11-6/6 and 3.11-8/22 714/A1 0-FCV-70-198 3.11-6/6 and 3.11-8/22 714/A1 Prepared by: hI dv E5-6'S Reviewed by: M 2h& ' /

DE02;STRW1 e

Sheet No. MEE 70-004.-11 Appendix 2 Revision 2 Sheet 1 of 2 The actuators located at 690/A29,_6_69/A1, and 714/Al are required to

• operate 'in the following environments as shown on Sequoyah drawings 47E235-64R0, -65RO, -49RO, and -50R1, anc summarized below:

Operational Temp Re l . Pressure 40 Year Integrated Ace Condition 0F Hum. ( PS IA) Radiation (rads) Dose (rads) 1 Avg. 80 55* Atm(-) NA NA Max. 104 80% Atm(-) 1 X 106

• NA Min. 60 30% Atm(-) NA NA

.2 Max. 110 90% Atm(-) NA NA Min. 50 10% Atmf-) NA NA 3 110 NA NA NA < 1 x 104 **

4 154*** 100% 14.40 NA NA 5 NA NA 13.30 NA NA

• 5 x 102 rads for 714/Al

• • 1 x 104 rads for 690/A29

• • • 1280F for 714/Al Operational Condition Definitions

1. Normal

2. Abnormal

3. LOCA/HEL3 inside primary containment

4. HELB outside primary containment

5. Tornado (sudden pressure drop of 3 PSI) -

Actuators which is aninappendix these locations are qualified to test report B0058. byEachLimitorque test report B0003, actuator has been inspected to verify that its subcomponents are similar to those in the test report. The test accident environment is summarized as follows.

Temperature 2500F Pressure 25 psig _______ ___________

Relative Humidity 100%

Radiation 2 x 107 rads

/

(

The of nonmetallic switch material used is a molded phenolic with a temperature index 1500c.

With a 600C a=bient aging temperature the physical properties of this material can be estimated to degrade to 50*. of their original values in 3.07 x 107 hours0.00124 days <br />0.0297 hours <br />1.76918e-4 weeks <br />4.07135e-5 months <br />, which is well over the 103-day requirement.

Limite- le has stated that absolute sealing of these actuators against the ambient, conditions is not required for qualification of these components.

• Based on the above these actuators are qualified for 40 years of operation, after which they will be replaced.

Prepared By: h / 8/ # E-#S Reviewed By: 'i E

/ /

6!#

m STRW1

O- S 1

l l

l

TER ITEM NO. 8 STATUS: See below TVA ID Nos. Status 1-PCV-72-2 To be replaced

• 2-FCV-72-2 Replaced 1-FCV-72-20 To be replaced 2-FCV-72-20 To be replaced 1-FCV-72-21 To be replaced 2-FCV-72-21 Replaced 1-FCV-72-22 To be replaced 2-FCV-72-22 Replaced 1-FCV-72-23 To be replaced 2-FCV-72-23 To be replaced - - - - ~-

1-FCV-72-39 To be replaced 2-FCV-72-39 Replaced 1-PCV-72-40 To be replaced --

2-FCV-72-40 To be replaced 1-FCV-72-41 To be replaced 2-FCV-72-41 Replaced Justification of Continued Oeeration - -*

The equipment referenced is similar to equipment tested in Limitorque Test Report F-C3271 as stated in contract 31rL7-828215 (attached). This was the noted deficiency in the TER.

Prepared by: r,!f I Y g i

)

Reviewed by: t0

,# # 4.idv#

la i

C24172.01 D

%vst N":e- 54

( -

k i

,, ATTACHMENT 2 Item TVA ID No. Unit No. Serial No.

6 1 FCV-70-90 172697 2 FCV-70-90 172701 1

FCV-70-133 172694 .

2 FCV-70-133 172693 1

FCV-70-134 220278 ~s 2 FCV-70-134 220277 1

FCV-70-183 172695 2 FCV-70-183 172692 0 FCV-70-206 265540 0 FCV-70-208 265546 7 1 FCV-72-13 222414 2 FCV-72-13 222411 1

FCV-72-34 222413 2 F CV-72-34 8 1 FCV-72-2 159384 2 FCV-72-2 159388-1 FCV-72-20 159150-2 FCV-72-20 -

159153 -

1 FCV-72-21 159381-2 FCV-72-21 159333 1 F CV-72-22 159382i 2 FCV-72-22 159387:

1 FCV-72-23 159152-2 FCV-72-23 159151' 1

FCV-72-39 159385' 2 FCV-72-39 159386 -

1 FCV-72-40 159156' 2 FCV-72-40 159154-1 FCV-72-41 159155 2 FCV-72-41 159155 9 1 FCV-3-116A 176253 2 FCV-3-116A 176256 1 FCV-3-1163 177691 2 FCV-3-116B 176255 1

FCV-3-126A 177690 2 FCV-3-126A 177693 1

FCV-3-126B 176254

, 2 FCV-3-126B 177692 1

FCV-3-136A 173492 2 FCV-3-136A 1

232908 FCV-3-136B 173737 2 FCV-3-136B

- 232909 1

FCV-3-179 A 173493

[, g 2 FCV-3-179A 232910

(( ,/ 1 FCV-3-179B 173736 2 FCV-3-179B 232911

I '4 Schedule of Prices No. Six t7-828215 Page No. i

';'." a e ,i cu e o. . . ,ic i . . ... . . . .. .

.. . ... . i ov. ,m I v i, [ voir .. c e l . ..., ,

~

, iu . .. ... .. .- . ,

. Limitorque Limitorque Limitorque Order ho. Serial No. Report Fe.

345804-U , 123440 F-C3271 345804-U ..

123441

.' 345804-U 123442 -

, 345804-U . 123443

~

345804-U 123444 345804-U 123445 -

345804-U 123446 .

345804-U 123447 .

/

345804-U 123448

.345804-U 123449 345804-U 123450 345804-U 123451 345804-U 123452 345804-U 123453

, 345804-U 123454 345804-U 123455 345804-0 123456

,' 345804-U 123457 g 345504-U 12*458 345804-U 12 459

• 345804-U 12:460 s' 345804-U 123461 366346-A 159381 -

366346-A 159382 ~

366346-A ~159383 -

366346-A  !! ? 384

,, 366346-A  !!**E5 -

'l, ' . -

366346-A  !!' E6 366346-A  !**357 366346-A 1 -386

• 366346-8 '50 *

, 366346-8 2151 366346-3 152 -

366346-8 5153 366346-C . 5154 366346-C 159155

.' 366346-c 159156

. 366346-C 159157-

353883-A . 137180 353883-A 137181 600198 353883-A ' '

137182 '

'. . 353883-A

• 137183 *

.Gc .

.. l.

/.NA s es I go.+ sq . .

..ooe. Lmrm, vat con;o;wnen

. -. e 1

1

%.. d Justification for Continued Operation TER Item No. 18 For the following equipment:

l 2 FCV-63-175 l These operators do not have the proper nameplate data to permit qualification. Qualified operators are being procured and will be installed during the next outage of sufficient duration, once they are received, but no later than November 1985. Inspection of the operators and procurement records shows that these operators are similar to operators supplied by Limitorque and qualified by Limitorque Test Report B0003 and B0058.

Su= nary All of these valve operators are for use outside contain=ent. They are similar to valves qualified by a series of tests and by analysis and similarity arguments performed by the manufacturer. Analysis and .*'

similarity allow tests to be applied to different sizes of operators, to operators with design modifications unrelated to equipment quiaification, and to various combinations of environmental conditions.

Environmental Conditions All Limitorque valve operators outside containment are qualified as one. The worst combination of environmental conditions, enveloping the conditions of each separate valve, are shown below. (For any one valve, this approach may be conservative, and there may be more margin than is claimed.)

Normal Accident 115 I

216 Temperature Pressure (1b/in(F{)

a 16.0 Atyg)

Relative Humidity (%) 90 Radiation (rad) 1 x 106 (40 yr) 1 x 10 7 Qualification

a. Documentation and General Qualification Reference 1, report B0058, compiles applicable test reports in its appendices. It provides an overview of the design and test

{ programs and shows how the several independent tests are mutually .

E64191.01

supportive, by supplementing the test reports with separate-effects and partial-type-test data, by adding information about )

design practices, and by analysis and similarity arguments.

Appendix D, which is also known as report B0003, is a key part of this process, being a reasonably complete type test consistent i l

with HUREG-0588. In the discussion which follows, B0003 will be used as the pri=ary source of data.

However, the balance of report B0058 also provides assurance of design adequacy to the extent that is demonstrates additional design, testing, and operating experience.

A detailed review of all the above information has been made.

This information is judged to be adequate to fully qualify the operators.

b. Test Temperature, Pressure, and Humidity The reference 1 (B0003) environmental test was at 2500F for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and at over 2000F for 15 days more, not including an initial transient cycle. The maximum accident temperature persists for only 15 minutes and declines to normal in 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

These tests were performed at saturated pressures corresponding to those temperatures (25 to 10 lb/in2 g) and 100 percent rela t ive humidity. Hence, the test conditions are extremely conservative,

c. Radiation The test irradiation level of 2 x 107 rads is in excess of the combined normal 40-year dose of 1 x 106 1x107 rada.

and the accident dose of

d. Aging Thermal aging was performed at 1650F (73.90C) for 200 hours0.00231 days <br />0.0556 hours <br />3.306878e-4 weeks <br />7.61e-5 months <br />.

Reference 9 70 1 also points out that the test motor was kept at over C for 144 hours0.00167 days <br />0.04 hours <br />2.380952e-4 weeks <br />5.4792e-5 months <br /> during mechanical cycling (which is taken to mean the temperature at the critical location in the insulation during operation). To the extent that the number of mechanical cycles is in excess of design requirements, some credit could be taken for additional aging. Furthermore, the extra 15 days at 2000F (93.30C), beyond the time required for the accident itself, could be credited to aging. However, the most optimistic, nonconservative use of these conditions would lead to only 700 days of aging at an equivalent temperature of 1550F, using the 100C rule. Even disregarding the 1150F ambient, which is after all only present 1 percent of the ti=e, aging would not equal the 40 years plus 100 days (40-year design life plus 100 days postaccident) required at the normal maximum allowed continuous temperature of 1040F, E64191.01 9 ~

l Reference 1 (B0058) introduces an Arrhenius analysis which shows that at 500C the life of the limiting material, the class B insulation, is 3074 years. Limitorque concludes that " artificial life aging of Limitorque class B motors for purposes of environmental qualification would be unnecessary." In addendum A

;qart B0003 (reference 2), the appropriateness of this approach is discussed and additional information is presented.

For example, the fact that the insulation is the life-limiting material is established by noting that " thermal, aging of the terminal blocks, switches, and seals was deemed unneessary since they are rated for over 180oF ambient continuous." Wiring, lubricant, and other materials are also discussed.

The data and arguments discussed above are generally accepted.

They are consistent with common design practice, which by NEMA standards permits hot-spot temperatures of 120 to 130oC for class B motors operating continuously. The Limitorque operators are normally not operating, hence the capability for operation at 120-130cc indicates long-term capability to just stand by at 400C or less.

Mechanical aging (over 2000 cycles) and seismic testing were performed in addition to thermal aging discussed above.

e. Test Methods As previously indicated, reference 1 tests were not complete.

Adequate thermal aging in the integrated type test was lacking.

(However, the tests do seem consistent with standards and requirements existing at the time.) The analysis and similarity arguments used to supplement the testing, while perhaps not the preferred method of qualification per NUREG-0588, seem to be based in sound engineering principles and supported by industry experience with these operators.

f. Justification for Continuous Operation Based on the statements above, we conclude that this provides us with justification for continued operation until we replace these operators. Qualified oeprators have been procurred.

References

1. J. B. Drab, "Limitorque Valve Actuator Qualification for Nuclear Power Station Service," Limitorque Corporation, Report B0058, January 11,1980 (NEB 820421 203).

2. J. B. Drab, " Addendum A Outside Containment Service B0003,"

October 6, 1978 (Revision C, November 15, 1979) (part of NEB 820421 203).

(7 3. Limitorque letter to I. L. Beltz (TVA) dated December 11, 1981 i 'J (MEB 811215 508).

l E64191.01 l

l

4. Limitorque letter to C. A. Chandley (TVA) dated January 8,1982 (MEB 820111 583).

5. Limitorque letter to I. L. Beltz (TVA) dated June 1,1982 (MEB 820604 547).

l E64191.01 1

i O -

Jus tification for Continued Operation TER Item No. 23 For the following equipment:

1& 2 FCV-63-172 (MOV)

This valve is for inboard isolation on the RHR hot leg injection lines. This valve would normally be closed at the time of the accident. Its intended use is to provide a path (i.e., the valve be opened) at abo ut 15 hours1.736111e-4 days <br />0.00417 hours <br />2.480159e-5 weeks <br />5.7075e-6 months <br /> af ter a LOCA to allow RER hot leg injection.

However, as stated in Wes tinghous e letter TVA-6808 (MEB 770923 598),

it is suf ficient to have simultaneous hot leg recirculation from the safety injection pe=ps and cold leg recirculation f rom the RHR pumps .

This is acknowledged in FS AR Table 6.3-3 which says the path may be used "if RHR hot leg injection is desired." Thus, postaccident operation of this valve is not essential. Qualified operators have been procured and will be replaced at next outage of suf ficient duration. TVA concludes that this provides us with jus tification f or continued operation.

Reference:

EN DES Calculation (t:E3 811201 251)

E44171.06 l

l 1

/'T .

t )

I 1

Jus tification for Continued Operation -

TER Item No. 25 For the following equipment:

1&2 7CV-68-332, 333 These valves are the pressurizer PORY block valve. If the PORV should stick open, it is desirable to close the associated block valve to isolate the loss of primary fluid. However, a s tuck-open PORV is within the scope of the plants small LOCA analysis (WCAP-9600 and 9639). No plant accident analysis calla for the opening of a closed block valve. The desirable but nonessential naturr of the postaccident closure capability of the block valves is reflected by the NRC in NUREG-0737 and 0660. The NRC has state > that the operability of the block valves needs to be demonstrated, but that operability is not considered required for safe shutdown.

Our investigation showed that either the postaccident operation of the valve was not required for safe shutdown, or that the limited environ:sental qualification of the operators was suf ficient for safe shutdown. We have, however, procured qualified valve operators and they will be installed at the next outage of suf ficient dur at ion.

Reference:

EN ES Calculation (NEB 811201 251)

E44171.06 l

l l

n N) -

i SEQUOYAH NUCLEAR PLANT -

JUSTIFICATION FOR CONTINUED OPERATION:

" SIS PUMP COOLER MOTORS" TER ITM4 NO. - 31 TVA ID NO. -

2-MTR-30-179 Manufacturer /Model No. - Unit 2: Lincoln T2518 Status - IV: 2-MTR-30-179 Justification for Continued Operation -

Status IV: 2-MTR-30-179 is scheduled to be replaced with &

Reliance 1E qualified motor (already onsite) by no later than November 214, 19a5.

For JCO, see attached appendix I EQS No. NEB-ECS-6 Revision Rha Prepared by: v '[44, e -

Reviewed by: _d I. 4/2o/A4 '#Ud /H 0221171.09

?

AccendIX . J- *"'"***^W &~L'fW

(....__ c TVA 10 No. f7g & a c ezar C_ ' . , '% ,

4 f:)f/ ' sdrffH 7_. m : ; o /? l

. T .. . .. ~ i - .

. EQUIPMENT CUALIFICATION SHEET (EOS) (REV 1)~ . . , '

. - f_. . . _ _ l Manufacturer and model number Lidcolef 7') c/ f Verificatien of Table Information (Table 7.// 7 ' Sheet [o )

doutoment Tyoe - The equipment has been identif'ied as per TVA 10 number designations (Ex. MOV, 50V, etc.).

=

1 t/ Location - The location has been identified (Ex. Inside Primary  !

Containment Annulus, Individually Cooled Rooms,' General Spaces, or area effected by HELB outside primary containment).

. -gComoonent-AuniqueTVA-IDnumberhasbeenassigned(Ex.FSV-68-308).

/ Function - A functional description of the component has been given .

[Ex. Steam Generator, Blowdown).

V Contract No. , Manufacturer, and Model No. - The contract number.

manufacturer, ano mooel numoer nas been given.

~. ." : .

~:

, . . . / Abnormal or A.ccident Environment - All abnormal or accident environ-ps:E- mental conoitions applicable to this equipment have been identified

.,'. .either in tables or by references to figures from table. ..

Environment to Which Oualified - The environment to which the equipment

• has ceen qualified to is accressed in either the tables or the environ-mental analysis attached. .

~

/ Cateoory - A cateogry of a, b, or c has b'een defined for the equipment.

/0 Operation and Accuracy Reouired and Demonstrated - The operation and accuracy requireo and demonstrated has been defined.

Qualification status (check if apolicable, NA if not)

//4 Qualification Report. and Method - A qualification re;iort and~the' methof of qualification has been identified.

Environmental Analysis - An environmental analysis has been done. .

attacned to the EQS, and independently reviewed by the responsible organization.

N Qualification by Similarity - (If Applicable) - A justification for qualification by similarity is attached to the EQS considering all the above factors and referenced to the appropriate table. .

M Qualification of Several Exact Comoonent - (If Applicable) - When an EQS is used for more than one item a list of all exact components is given as an attachment with all references to appropriate tables i C -

with jus,tification for qualification considering All the above factors. --

l dnterimOualification-(IfApplicable)'-(0penItem)-Componenthas I

. been determined to be qualified only for a limited interim operation, an NCR has been written and a' qualification or replacement plan is -

, attached. (Nkf fpd di=0 2010) ,

l .

l

. n

.C95ldD2-Ets~ b fes l EQUIPMENTOUAt.IFICATiONSHEET(E05{(Continued) 5

• 7 l- l i

/[A Unoualified Cecconent (Ocen Item) - (If Applicable) - Component has been determ1nec to oe unqualifieo; the following is attached to EQS: NCR number, reason for non-qualification, and definition of TVA's qualifi-cation or' replacement plan.

at(-4 : ,

6 Q /: W M p y CE6 fo //o 7 931 h:,,bd6,/&fmu, g.

Cypu! ',.

2. : W 3 y ,

f w A dc5

+

20

_4 l4.L 2. L 3. .

Y- .-

g- . .. .

e 9

e o ;e.,ee,,. Jc est

~

. t, .

/

QA Acceptance: .

e ,

l l

• " =: y .; .

1

, . g s i d e s - e c.3 G EEB '80 1107 '9 5 L .

c' UED ST.'.TES COVER.N?.!E.NT -

j j .. -, .

. c??i O 1 T h d u m . .. g y g y . j . TENNESSEE VALLEY AT'THORITY ::. -

o  : Those listed unn  : F. W. Chandler, Chief. Electrical Engineering Branch, W8C125 C-K ATc  : November 5., 1980 cruccT: SEQUOYAH NUCLEAR PLANT UNITS 1 AND 2 NU REG 0588 REPORTING ON CLASS 1E 110 TORS .

h.

==

w w

'W,

References:

1. MCR SON 5EB 8010 Contracts 71C30-92646, 71C30-92695, and 73C38-83532 E "II5.'

g ,g'%,}M4 .

2. NCR 50d EEB 8015  %

. Contracts 75K36-83716, 73C31-83582, and 72C30-92610 _

. , ..,,t:

u . .

.I ~. 3. Memorandum from me to Those listed dated October 24,1980N['d l_.j.jf.. ~_. p.. . (EEB801037936). J .:n.

T The attached calculation's and ' explanation are submitted for inclusion E Fc 8/o

'~'

in your Evaluation Qualification Sheets as required by the NRC for

. reporting environmental qualification of Class 1E electrical equips: ant for Sequoyah Nuclear Plant per NUREG-0583. This represents a revision of tha document transmitted by reference 3. This revision includes calculations for motors provided under contracts 73C31-83582 and 72C30-92610. . .

} /Y/}2Hr /

F. W. Chandler C. A. Chandley, W10D224 C-X - A copy of these calculations was hand carried by D. F. Ackerly to your t.. A. Johnson on '

27/80 and your J. Hodges on 10/28/80.

• J.A.Raulston.jl10C126C-X-Ac. of these calculations was hand carried ._

Ackerly to your B. F. Crosslin on

~

l

)Tg DFA:SJD *

. Att '

R. W. Cantrell, 204 GB-X (2)

%g*cc:achment MEDS, E4037 C-X G. G. Stack, Sequoyah CONST (4) *

g. ,

O M. H. Sprouse W11A9 C-X V .

O h{ ,

l Page 3 of 16 SEQUOYAH NUCLEAR PLANT October II, 1980 NCR SQN EEB 8010 . Revision 1 NCR SQN EEB 8015 October 27, 1980 NCR SQN FEB 8008 Revision 2

. December 30, 1950 Justification for continued Safe Operation of

. Class IE Motors in the Subject NCR's

• INTRODUCTION .

~

The approach used to establish that the motors listed in NCR SQN EEB S010,

, NCR SQN EEB 8015, and NCR SQN ?EB 8008, which is addressed in these calculations, are safe for continued operaEion pending full qualification combined partial test data with verbal and sometimes written information on motor materials to support analytical assumptions and conclusions reached. This same approach was used to' determine aging effects on the motors for their given operating and accident environments. The environments considered were temperature, humidity, and radiation.

.. Temocrature '

.:.n .

W,;'E.c~ Tec:p'e'rature rise test data are available for some motors. For those motor f;~#

L. F. for which we do not have temperature rise test data, we assumed a mari:xum .'

,,.. rise as specified by the contract. Using this value and the most severe J.= temperature condition the cotor would experience, the maximum operating W ~.~

temperature of the motor was determined. This temperature was compared to a p~. , . normal ambient of 40'C at which all motors are rated (EEMA HG-1). The 10'C c Rule (an approximation of Arrhenius's Law as applied to insulation materials)

. . ' was used to establish the operating life of the motor. (Ve assumed, conservatively, a five year life for the motors based on 40'C ambient and

. motor temperature rise.) The 10*C Rule states that for each 10'C ris'e in

~., temperature above some reference temperature at which the material is able

, to operate without degradation (in our case 40*C plus the allowable tempera-

,, ture rise) the useful life of the material is halved. Therefore, a 20*C

. temperature rise above the maximum allowable temperature of the material would reduce the life to 2.5 years. Using this approach we can establish the motor aging due to temperature effect.

Humidity " -

All the motors listed on NCR 8010 operate in ' environments of 80 percent humidity or less. Years of motor operating experience and assurances from motor manufacturers attest to the fact humidity at these low levels will not cause the motors to be functionally inoperable sor degrade motor performance. The one motor addressed on NCR 8015, the Chilled Water Pumps

.. for Shutdown Board Room Contract 83716, must operate in a 100 percent

, humidity environment. Since this motor is of open dripproof construction measures must be taken to insure that moisture is not absorbed into the winding insulation. No problem exists when the motor is operating. However, -

h to prevent moisture absorption when the motor stands Hie for long periods, an administrative procedure will be established that causes the motor to be operated at regular intervals to drive out excess motsture.

DN6 ,

s*

Page 2 of 16 Radiation i -

2 The materials for all motors in environments greater than 104 rads (considered negligible) were identified and their radiation damage threshold compared to j

. the operating and accident environments. In all cases the radiation damage - '

th--ehald af the materials was equal to or, higher than the combined 40 year normal dose and the integrated accident dose. The motors were therefore -

considered ateeptable for the radiation environments in which they were to operate.

Revision 1 (October 27,1980f .

This revision contained format changes in pages 3 through 13 and added pages i 14, 15, and 16. ,

Revision 2 (December 10,1980)

! 5. .

' l Revision 2 expands the scope of the document to include NCR SQN }EB 8008. This h.. XCR was written on the Auxiliary Feedwater Pump Motors, which were improperly

.~ reported on page 14 of Re. vision 1 to have been covered by NCR SQN EEB 8015.

( .

This.. revision also includes corrected information on items 11 and 12 on page 7.

. y,_ .

=,. -

L-

. 't 3

• . - e 4

O e

e O

e

. g e - '

, 9 O.

I e .

9 -

6 8

-,__.-r-,_

P:4- d, . :, .

Page 3 of 15 SEQUOYAH NUCLEAR PLAhT October 11, 19S0 NCR SQN EIB Solo Revision 1 October 27, 1930 Justification for Continued Safe Operation of IE Motors on the Subject NCR Puroose -

The following calculations support TVA's contention that the motors of the noted contracts will operat.e in their respective ambient and accident environments as listed in the SNP FSAR paragraph 3.11.2.3. This constitutes justification for continued safe operation.

• Assumotions - are noted in each section Contract 72C38-92802 (NEB) .

%ta

.. 1. Spent Fuel Pit Pu=p AHU - Lincloln Electric frame T2523, SHP. "

L .1. * ~ - 30/460v, 60Hz, 3ph, Class B insulation Max Temp. rise 80*C @ *

z- 40*C ambient (TEFC) .

. r . \ '

kerating Environment: Temp. 43.3'c (110'F)

.\ Humidity 30-807, Radiation los rads (40 ear nomal dose)

. , , 's.

N o accident. dose.

Calculations

'\*

, Radiation - The materia \l composing the motor

• ave a radiation damage thresnold that exceeds theN.aximum 40 year n al dose plus the integrated accident 1 year

• dose. MinimuA material th shold = 4.5 x 107 rads.

. Therefore, the motor is qualifted for 5 ars life as far as radiation exposure is concerned. (5 years 'a bit ily chosen as conservative estimate of insulation life).

Temocrature - Motor was specific to h A Standard MG-1-1967. For motors operating above a referenced 4 C ambien MG-1-1967 (as modified in February 1971) allows a temp sture rise i accordance with the fomula:

Temperature rise = .9(T - T,) where: 3 = hot spot temp. = 130'C hs T, = ambient te = 43.3*C Maximum a ovable temp. rise =0.9(130-43.3)'q78'corroundedto nearest 'C = 80*C

• Motor ma rials per Vendor

'o)

! . Radiat n' Threshold per EEB Cable group: Lead wire - polyet lene .

l (4.5 107 rads), propalene (5 x 107 r), magnet vire insulatio -

.cla F film code copper Essex Themetex (3 x 10' r), slot insul ion

! E xy saturated Dacron fiber Duroid (5 x 107 r), phase insulation-

! ramid fiber Nomex ($ x 107 r), sleeving Acrylic coated fiberglass l

l (1 x los r) .

?a ge .' c f . , -

Page 4 of 16 The temp rise per the manfacturer's test report was 80*C at a S.F. of 1.15 Therefore we have a O'C margin. This motor can operate at an overall mperature of 80*C + 43.3'C = 123.3*C i.e., the c:otor may operate in an am ent of up to 123.3'C -80*C = 43.3*C continuously without exceeding its maxi t.m overall temperature li=itations. (5 year life).

Humidiev - This c:otor is totally enclosed fan cooled (TIFC) and is therefore .

immune t humidity effects. .

/

Data ,

.; j.

2. CCS Pu=p an AFW Pu=p XHU - Lincoln Electric frame T2556,15 HP 230/

460 V, 60 Hz, 3 ph, Class B insulation, Maximum temperature rise 80'C @ a 40*C mbient (TEFC) f' Operating enviro ent - same as item 1.

• b Radiation - Justif cation same as 1.

.a. . . . . .

T.f-' } Calculations -

- - ?.

/ .

i f' : Te=perature - Same as 1 exc t: Temperatu(e rise by report was 72*C, L'e have an 8'c margin. This mobr say operate in an overn11 te=perature of

' 80' + 43.3*C = 123.3'c i.e., e motor may operate in an ambient of up to

~" * '

123.3' - 72*C = 51.3*C without xceedin'g its maxicium overall temperature.

(5 year life) .

Humidity - Same as 1.

Data , ,

3. Penetration Room Cool rs - Lincoln lectric frame 72523, 5 HP,(TEIC) 230/460V, 60 H:, 3 gli, Class B insul tien, maximu:n temperature rise 80'C @ 40'C ambien . .

Calculations .

Duplicate motor to item 1, same operating envir ment, ju'stified same as item 1, same test data applies. (5 year life)

Data .

4. ATV and Boric Acid Pum:p AHU - Lincoln Electric fra. T2523, 5 HP, l 230/460V, 60.Hz, 3 Ph, Class B insulated, msximum te crature rise .

l .

80*C'@ 40'C ambient (TEFC).

1 ,

d r.'2 : ..

leulations .,

Dup cate motor to item 1, same operating environrent, justified same as/it:m 1, sa test data applies. (5 year life) j Data -

,f

5. Contains t Spray Pump AHU Lincoln Electric frame 72523, 5.EP, 230/

460V, 60 , 3 Ph, Class B Insulation, maximum tem:perature' rise 80*C

@ 40'C ambi t (TT.JC). ,

Operating env1 onment T mperature 43.3'C Humidity 30-80 percent Radiation 8.8 x 108 rads (4 year dose 1 x 108 + 7.8 lo saccident)

Cocmutations, Radiation - Justification sa e as item 1 - .

Temperature - Same a's ite 1 except, temp rature ddta is not available.

Thus, we ass e the maximum, allowabic heat rise per the specifications and ndards i.e., 80*C. Using the same calculatichs as i 1, the maxi =:um ambient temperature in which the motor e operate is 43.3'C. (5 year life)

. Humidity - Same as item 1. '

i,'

Data N

N

6. Pipe Chase AHU - Lincoln Electric frame]2557, 20 HP, 230/460 V, 60 Hz, 3 Ph, Class B ffisulation, maximum emperature rise 80*C

@ 40*C ambient (TEF ).

Operating enviro,cment: Ter:perature 43.3*C

/ 1htmidity 30-80 per eat

/

, Radiation 1 x 10' ra - (40 year dose) no acciden do'se Calculations Nplicate motor to item 5, justification is the same as for item 5. (5 yeae life)

--- .--~~

l ,

2 .: .

Page 6 of 16 Data

7. Emergency Gas Treatment AHU - I.incoln Electric frame T2518, 3 HP, 230/

. (60 V, 60 Hz, 3 Ph, Class B insulation, maximum temperature rise 8 'C 0 40'C ambient (TETC). ,

Ope ting environment: Temperature 43.3*C Hu=idity 30-80gercent ,

Radiation 1 x 10 rads (40 year dose)

/*

no accident dose

/

Calculations 4

Radiation -

Just ications same as item 1 Temper,ature -

No tem ature data available. Maxim rise of 80'C assumed, sing the same calculations as in 1 the maximum ambient t . ature allowable is 43 . *C.

Humidity -

Same as item 1. (5 year life. *

. Data

8. RER Pu=p Cooler - Iincoin Elec c frame T2118 3 HP, 230/460V, 60 Hz, 3 Ph, Class B insulat maximum temp \ ,ature rise 80*C

@ 40'C ambient (TEFC)

Operating environme'n Te=perature 43.3'C Humidity 30-80 Percent Radiation 8.5 x 108 rads (1 N os go year + 7.5 x 10 8ac'cident dose)

\.

Calculati s

\,

or is a duplicate of item 7 and the justifications is the same as

' (5 year life)

/o'r item 7.

Data

~

9. SIS Pump Cooler AHU - Lincoln Electric frame 72518, 3 HP, 230/460 V, 60 Hz, 3 Ph, Class B insulation, caximum temperature rise 80'C 9 40' ambient (TEFC). .

Operating environment: Temperature 43.3*C Hu=idity 30-80 percent i Radiations 6.6 x 108 (1 x 108 40 year +  !

. 5.6 x 108 accident dose) ,

I Calculations This motor is a, duplicate of item 7 and justification is the same as for item 7.k.(5, yea ~r. life).

1 l

l

m. .; '- -

Page 7 of 16 j Data s

Ik Central Charging Pu=p Cooler AHU - I.incoln Electric frame T2518, 3 h?,

N230/460V, 60 Hz, 3 Ph, Class B insulation, maximum temperatur,e rise 80'C 0 40' ambient (TEFC).

~\yeming enviro =ent: Temperature 43.3'C - '

Humidity 30-80 percent

. Radiation 7.6 x 108 s 40 year +

6.6x10{1xlo ambient dose')

Calculations

( This motor is a dup q'cate of item 7 and justification is the s e as for

. item 7. (5 year lifeT

~ ~~~~~~~~~~~

cohiiAh~75c[8-85527 Dat.

~1-T~~~~~~~~~~~~~~

(

p..

f;. 5; 11.& Emergency Gas Treatmen Fan and Auxiliary Bui ing gas treatment fan-

12. Reliance Motors - 20 HP, 230/460V, 60 Hz, 3 h, Class B insulation,

1. .t[,. ' -

'g. frame 265T, (open drippre f) 57=1.15

.' I. Operating Environ =ent: T erature 4 .3'C (110'7) i Hu=i ity 0-80 percent

[,i . -

Radia ion 108 rads (40 year dose),

7

{ ',

No accident dose -

Calculations

't

~

Radiation - The materials compos' g the otor* have a radiation damage

thresnold tha't equal or exceed he maxim 40 year nomal dose plus the integrated accident 1 year do e. Minimum aterial threshold = 1 x 108 -

to 1 x 107 (fiberglass impr nated with pol ster resin). Therefore, the motor is qualified for a 5 ear life as far a radiation exposure is concerned.

Temocrature - Motors u re specified to NEMA Stand d MG-1-1967. For motors operating above a ref'erenced 40*C ambient MG-1-196 (as modified in February

1971) allows a tem frature rise in accordance with t e for=ula:

Temperatur rise = 0.965 (Ths - T,) her Ths = hot spot temperature = 140'c T, = am ient temperature = 43.3'C The fore, maximum allowable tec:perature rise = 0.965 140 - 43.3) =

93 or rounded to nearest 5'C = 95'C .

e. temperature rise (per verbal communications with the tor vendor .

. and NEL personnel and not yet verified) was 65'C @ a SF of'.15.

Since ve have no verified data ve assu=e the maximum allowab temperature rise per the specifications and standards which i O'C.

h. i.. -

u -

Page 8 of 16 ,

i Therefore, we have a 5'c =argin. This motor can operate at an  ;

overall temperature of 95* + 43.3*C = 138.3*C i.e., the motor may  :

N s operate in an ambient of up to 138.3 C - 90* = 48.3*C without exceeding it's maximum overall temperature limitations. (5 year life).

~

• Mo\ tor materials per Vendor (Verbal not verified in writing) 6 h

nagueg wire - heavy polyester (8 x 10 r) or polyesterimide-amide-imide . i overcoa (3 x 10 87 r) lead cable - EXAR 350 (2 x 10s r), slot liner - Nomex  :

polyeste (5 x 10 r) coil lead in-Acrylic resin fiberglass (1 x 10 r), 8 8

top wedge .(stick) - fiberglass impregnated polyester' resins (1 x'10 to r)\s 1 x 107 . i

~

liidsti'ck - Nomex 410 (2 x 10' r), film stick slot spacer olyester glass (1 x lo sr) adhesive tape - glass tape ac (1 x 108), phase

~

insulation-varnishedglasscloth(1x10glicadhesivr), corrge' tion insulation-acrylic resins fibergl'ags (1 x 10' r), tie tape-trepted glass (woven glass type - 1 x lo sr) Fi'rst and last lamination of stator polyester i'mprggnated 3

fiberglass (1 x lo st hi x 107 r) resins on vind~ngs 2 epoxies (1 x 10 r) n.. A

2. ? . Humidity - These motqrs operate in an atmosphere of 80 percent .

r:is c... ,. ., humidity maximum. Huydityatthese1 levels will not contribute

@ ~ ~, . . . . -

to moisture accu =ulation in the moto windings and subsequent ic ---.- insulation breakdown. \

- .. , -m . - s sg

\

E _ , ., , Contraet 76K35-83673-1 (NEB)* .

r.- - -

.i o s.

\

g3gg

• g 3 .

\, ,

s

13. 480-VBoardRoomAHU-ystinghouseframe254T,15HP,230/460V, 60 Hz, 3 Ph, Class B in'sulation. (opentdripproof) SF=1.15

s -

f Operating Environment: Temperature 46.I'C (115'F)

Humidity 30-80. percent

. Radiation Negligible

/ '

Calculation ',

s Radiation - Negl gible, materials are qualified for full life as far as radition is concerned. /(5 year life)

Temeerature Motors was specified to NEMA HG-1-1972. Fo'r motors operating above a r 'erenced 40'C smbient MG-1-1972 allows a temperature rise in accordan . with the for=ula:

- s T rature rise - 0.9 (Ths -

T,) where Ths = hot spot temp'erature =

h, T, =. ambient temperature = 46.1 \,

~.

. \

\

l

2M .

Page 9 of 16 i

Therefore maximum allovable temperature rise = 0.9 (140-46.1) = 85'C k'e do j hethaveheatrisedataandthereforeassumingthemaximumallowablerise i by the specification and the standard of 90'C we get a - 5'c margin i.e., }

at 46.1*C we are 5'C over our maximum allowable rise. If we apply the i 10'C Rule (an approximation of Arrhenius's Law as applied to insulation -

materials) to determine the aging effects on the cotor. If we assume a -

very conservitive life of 5' years for the motor insulations then we could .

operate up\to 95'c (85'c + 10*C) and still have one-half of five or 2.5 years of motor inhalation life. '

s.

Humidity .Th)se motors operate in'an at=osphere of a maximum of 80 percent humidity and as'n,eted for mot'or number 11 and 12 this presents no problem. -

\ '

_____________j/_____________ ~

Contract 71C30-92695 -(HEB)

Data-.

\

N N .

, s ,, , 14. Co=ponent Cooling Water Su=ps - Allis ,C almers type F0D, Model 012, frame 587U3 460V, 60 Hz, Ph, Clas9/B insulation, S.F. = 1.0, 350 HP

~ ' Operating Environ =ent: Te=p ature 117'? (47'C) at 20 seconds, Ill*?

(44*C) at 100 seconds, 116'F (47'C) r at 4 minutes, 121*F (49'C) at 10 4.. . . . . ; . .-l. . . '

.- minutes, linear decline in 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />

• to 104*F (40*C) continuous Humidity g100 percent Radiation negligible Calculations /

Radiation - Negligible, ma rials are qualifie or full life as far as radiation is concerned. (5 years life) N Humidity - Motor has 500 watt space heaters which wi.11 operate any time the .

motor is idle. This/willpreventanymoistureproblemsinthewindings.

Temocrature - TheAtery short term ambient te=perature. rise to 49'C should not be long enough to allow the motor to stabilize at that higher temperature.

However, from a. conservative point of view we will assume that the 9'C rise in ambient is continuous duty. These motors were specified to' NEMA Standard MG- 1967. Our ambient is 49'C. Therefore, tec:perature rise = 0.9 (130 - 49) = 73' rounded to nearest 5*C = 75'C. According to the manufa This is wellbelow/turersthetemperatureriseis45'cataSFof1.08.

our maximum allowable temperature rise. Thus, the motor is satisfa f.ory for full life as far as temperature is concerned. (5, year life)

-\ l l

\

I l

d' i' If Page 10 of 16 Contract 73C38-83532

\

• Data 15.\ Component Coolleg Vater Booster Pu. ps - Allis- Chalmers, Type RG,

, Model 113, 230/460V, 60 Hz, 3 Ph,15 HP Class B insulation, SF =

1.15 - - -

N -

Opera, ting Environment: Temperature 104*F (40'C) .

Humidity 98 percent '

\ . Radiation Negligible Calcul'tions a . - -

Radiation - Negligigle, materials are qualified for 'ull life as far as radiation is concern d. , (10 year life) -

Humidity-MotorhasSkvattspaceheaterswhi will operate when the motor is idle. This will prevent \any moisture proble- in the windings.

.- .-- 'y ,

,, . Te=oerature - Maxi =um allow ble temperatur- rise is 70*C at rated n==erlate ir." ,

b.p.

haveorno90'C testat 1.15 data service s(oactor available f weboth/

assu=ereferenced the motors to ahave 40*C ambient. We a te=perature

~ "

rise'of 90'C at SF of 1.15 the ill )n' satisfactory for full life of the

~

insulation. Even if the motors end the maximum allowable rise by as

,; such as 10'C i.e., to 100'C they v)11 still have a useful life of 1/2 .

E ,, .

of the full life value (see item 13) Assuming a five year life this yields .

an effective life of 2.5 years.

'.'- Contract 71C30-92646 ( -

Data

16. Containment Spray Pumps - Westinghouse type C frame 6808-S, model ESW1,6600V,Iationspecified60 Class B insu Hz, 3C Ph, 700 HP, insultaion \ , la Operatin avironment: Temperature 110*F (43.3' ~

f Humidity '30-80 percent Radiation 8.8 x 108 rads (4 year normal dose 1 x 1 plus 7.8 x 106 e integrated

, accident dose) rads 1 y \ ,

cale ations N R iation and Humidity - The insulation material in these motors v A tested 'to s

x lo ra.ds and for humidity in accordance with the procedures of IEEE 275. .

See West.inghouse Qualification Reports VCAP-8754 Rev.1 and VCAP-7829 'pages 15, 16, 40, and 54. These levels exceed our operating and accident environment.

\

\

)

l Page II of 16 emperature - In accordance with the above noted qualification reports the insula-ion material is qualified for a 40-year life at continuous operation at 105'C.

Ou'r s motors will operate at a temperature of 111'C (68'C rise per test' report plus 43*C\ ambient). However, this is only infrequent operation. Each motor will be tested eight ti=es per year for two hours per test. This test tide plus a conservative margin of 50". for other possible tests equals to only 32 hours3.703704e-4 days <br />0.00889 hours <br />5.291005e-5 weeks <br />1.2176e-5 months <br /> per year.or 53 days over a 40 year period. Moreover, the 2-hcur operating time is not su(fitient for a motor of this size to reach its continuous operating temperatures Four to six hours would be required for the motor to reach its normal operar ng temperature. ..

Therefore the o erall aging effect due to temperature is neg'ligible and the motors are qualil ed for a full 40 years.

/

Sources of Infomat n '

Materials in motors - nufacturer test reports and rbal contact between

. EB/EB and Vendors \

. .i * .

\

] Temperature rise li=its - EMA Standard MG-1 rious dates ,

I ,

Envi[on=ents-SNPFSARPara ph 3.11.2.3 and EE3 Nuclear Staff -

Conclusions ,

% All motors on the above contracts a considered safe for interim operatica i, , in their nomal and accident envir9:$1 tents for periods from 5 to 2.5 years F

~"

asnotedundereachcontrctdesi.gnatiga. The Containment Spray Pux:p Motors -

Contract 71C30-92646 are tully 6alified for a 40-year life in their operating envircement. -

9

\,

\ -

\

/ '\.

4 l ,

( . '..\ .

%i

h( *: -

. Page 12 of 16 NEQUOYAHNCRSQNEEB8015 Just,ification for continued Safe Operation of IE Motors on Contract 75K36-83716 Only .

s -

'l- Puioo~s . .

~

The follewib; calculations support TVA's contention that the motors of the noted contrac will operate in their respective ambient and accident environments a listed in the SNP FSAR paragraph 3.11.2.3.fThis constitutes justification fo continued safe operation.

j'

~ ~

Assumotions f Motor life is a conse ative 5 years in normal opera ting/ environment i.e. ,

radiation - negligible $104 rais), temperature - 40*C vith temperature

. . . rise 5 maximum allowable isebyNEMAHG-1 Stand /rd, humidity 580 percent.

t . . . ..'-  :

n. . -

Dath l-Ei;'.b:. . x.s

• E E'T Contraet-75K36-83716 (MEB) ,

5- d1 Chilled water pu.ps for 'shutdo Board Ro m AC systems el. 734.0 Lincoln .

0 7 ." Electric Company, frame 2567, 20 JP, 230V, 60 Hz, 3 ph, SF = 1.15 E '; class B insulation, open dripproo NEMA MG-1 1972 applies.

4 .I t y.'i

~

.9 #

.: Operating Environ =ent: Tempera re 115'F (46.1*C)

• W. :7 .# 4.97!: .

Humidity 100 percent

• e ". : -

. F': Radiation -

Negligible

..- /

.g- __

q: . Csiculations 5: .- .

t~ Radiation - Negligible, mm)terials are qualifi d for full life (5 years) -

. as far as radiation is concerned.

Humidity s

Since this motor i[of open' dripproof design measures.,must be taken to insure th.st moisture is not absorbed into the winding insulation. No problem .

exists when the tor is operating since the heat gener'ated in normal service precludes mois,t re absorptions. However, during periods \when the motor is idle, moisture could be absorbed in the winding. Therefore, an administrative procedure vu l be established such that the motor is operated at regular intervals not to exceed 1 week) to drive out any excess moisture.

Temoe ture .

Ho r was specified to hT.MA Standard MG-1-1972. For motors operating above a referenced 40*C ambient MG-1-1972 allow a temperature rise in accordance -

ith the formula:.

(e .

Temperature rise = 0.9 (Ths - 7,) where Ths = hot spot temperature =

\ -

i45'C, T, = ambient tempe rature = 46.1'C \

Therefore maximum allowable temperature rise = 0.9 (140 - 46.1) = 85'c

~

- i~' . Page 13 of 16 Qetemperatureriseofthemotorperthemanufacturer'stestreport was 90*C at a SF of 1.15. This means we have exceeded our allowable temperature rise by 5'C. Applying the 10*C Rule (an ap of Nrrhenius's Law as applied to insulation materials) proximation allows us to determine the aging effects on the motor. Using the assumed 5 year <

motor life we can operate up to 95'C (85'c + 10'C) and still have one [

h .lf :f fi-( or 2.5 years of motor insulation life. . .

.l N..  ;

Sources of Irtformation i'

\ -

i' Temperature ris - manufacturer test reports Temperature rise - NEMA HG-1-1972 /  !

Environments -and / 3.11.2.3 SNPhEB Nuclear StaffFSAR Paragraph  !

f ~

conclusions ~

The motors on contract 75K 6-83716 are considerp adequate to operate in their nor=al and accident environ _hnts for a period >2p to a minimum of 2.5 years.

Temperature is the limiting factor. It should be noted that any normal maintenance as required by the anufacturer will need to be performed to -

ensure full motor life. ,

j p .

=

Reviewed by: A,hfL! e/n/5s QA Acceptance: /

\

'\

\

'\

/ \,

\ -

9 N

(,

t '

\

i

i l

. 1 de'~ Page 14 of 16 SQN EEB 8015 October 27, 1950 N Justification for Contin"ed safe Operation of IE ,

N Motors on the Subject NCR

\

' U I'D 0 5 E *:, * .

N* -

The following calculations support TVA's contention that the motors', cited in NCR SQN EEB 8015 will operate in their respective ambient and ac.cident environments aslistedintheSNPFSARparagraph3.11.2.3. This constitutes. ' justification for continued safe dperation. This supplements infomation prov ded by B. M. Gore

( ', , in his~ submittal' dated October 11, 1980, on the subject. N

~ s

. \ .

Assumotions .

Motor life is a conservative 5 years in normal operat' g environ =ent i.e.,

4 17.;.

radiation-negligibley10 rads), temperature - 4 C with temperature ri:e 5 maximum allevable rise y NEMA MG-1 Standard, h dity n 80 percent.

. c ... . &.

. . .

G[. g. ..,Da ta'  ;. . .. .~,. ~. :. ..: :. . . ,

d. . . Contract 73C31-83582 *

' E '.".'.. t .*.e u . ' .. :

?. ', ' Auxiliary Air Cocpressors, Gener 1 Electric, 20 HP, SF=1.15, 460 volt ac, F' .60 E:, 3 phase, Class 3 insulatie open/d rippro.ff enclosure, frame 256T,

• y,..t.NEMAMG1-1972 w.'  : :g Operating Environ -

. applies. .

.g , . . . =ent: Temperature 115'F(46.1*C)

?T  ;- Relative Humidity 100 percent

. t.

t..... .

. Radfation \%

Eegligible

'3 l Calculations \. ~

. s.

Radiation - Negligible, materials are qualifigd for full life (5 years) as far a radiation is conce'rned. 'g .

\

Humidity .

Since this motor is of open dripproff design, measures must be taken to insure that moisture is 6ot absorbed into the winding insulation. No problem exists when the motorff s operating since the heat generated in nomal service precludes moistureabsgtptions. However, during periods when' the motor is idle, moisture could be abporbed in the winding. Therefore, an administrative procedure will be establifhed such that the motor is operated at regular intervals (not to exceed week) to driv 4 out any excess moisture. '

l .

Tempe sture

( ,

Mo rs were specified to conform to NE!!A !!C1-1972. The allobble temperature ..

ri e was specified not to exceed 90'C above an ambient teeperature of 40'C.

This requirement is identical to the maximum temperature rise allowed by NEMA HG1-12.42 for a Class B insulation system with a SF of 1.15g O

ee

[* ' i ', . Page 15 of 16 Motors operating above a referenced 40*C ambient are allowed a temperature rise i

\ n accordance with the following formula from paragraph 12.42 of NE.MA MG1-1972:

\., Temperature rise = 0.9 (Ths - T,) ,

.~

\.. where the hot spot temperature, T =14d*C '

and the ambient te=perature, T, =hl6.1'C .

Therefore <he maximum allowable temperature rise is 85'C. Thehe$trundata was not available for these motors; however, the motors were alloded a 90'C rise by the siecification. . Assuming the canufacturer supplie'd a motor that conformed to thq specified temperature rise requirements, we would exceed ,

the maximum allokable temperature rise for an ambient of 46.1*C by 5'C.

, Applying the 10*C'Eule (an approximation of Arrhenius's' f.aw as applied to insulation material'Q allows us to determine the aging effects on the motor.

Using the assumed 5-tear motor life we can operate ,up to 95'c (85'c + 10'C)

~ and still have one hal' 'of five or 2.5 years of motor ihsulation life.

/

Sources of Information ,/

/

Temperature rise - Contract 73C31-83582 Temperaturerise-NEMA $G1-172 Environments-SNPFSARParagrke 311.2.3 and ti!.B Contract Engineers

. .. - ------------- J'

- Data / \

Contract 72C30-9'2610(MEB,),

Auxiliary Feedwater Pumps, Allis-Chalmers; 500 HP, SF=1.15, 6600-volt ac, 60-Hz, 3 phase, Class.F insulation, open dripproff enclosure, framc30RS6; NEMA M01-1967 applies'. .

/ 1 Operating E v'ironment: Temperature 120'I (48.9'C) .

Relative Hu=idity 100 percent I Radiation '

s Negligible Calculations Radiati !- Negiigible, materials are qualified for full life (5' years) as far as radiation is concerned. \

Humidity

• 0 S(nee this motor is of open dripprotf design, measures mult be taken to insure hat moisture is not absorbed into the winding insluation. yo problem exists when the motor is operating since the heat generated in normal service precludes .

moisture absorptions. However, during periods when the motor is idle, moisture ,

could be absorted in the winding. Therefore, an administrative procedure '

will be established such that the motor is operated at regular intervals (not to exceed 1 week) to drive out any excess moisture.

1

hS

• Page 16 of 16 The motor temperature rise requirements at the nameplate rated horsepover were specified not to exceed 70'C over a 40'C ambient. A 90*C rise at a SF of 1.15  ;

was specified for short-time service only. This corresponds to the maximum 1 Class B temperature rise allowed under hT.XA MGI-12.42 dated February 1971.

The qse of a Class F insulation while limiting the allovable temperature rise to thht of a Class B system, is one method of providing a conservative motor design. Motors operating above a 40*C ambient are allowed a~ temperature rise .

in accor nc& with the following for=ula:

Tempe ure rise = 0.9 (Ths - T,)

• where.the opspot temperature T 140'C for.a Class B insulation system

, ahd the amb attemperatureT,N.=9'C ,

Therefore, the maxi um allowable temperature ris'e above the listed operating temperature for a Cl s B system is 82'C at s'SF of 1.15. The tem'perature rise of the motor cecordin o' the manufacturer's' test report was 45*C at a SF of 1.15 which is substantially ss than the maxi p allowable temperature rise.

.r. . .

I. ' Sources of Infor=ation '

?- .

Tehaturerise-manufactu 's t t report dated 9/27/72 n- -

• )" ' Temperature rise - EMA HGl-196 -

. -5 ,

y 11.' Environments - SNP FSAR Parag ph g311.2.3 and EB Contra'ct Engineer.

N- 7' ConclIsions

~

\

4, . .

\.,

' The motor on contracts 73 31-83582 and 72C30-92610 are considered adequate to operate in their no 'al and accident environments outside contain=ent for a minimum period of 2.5 nd 5 years respectively, it should be noted that any normal maintenance at required by the manufacturer vill need to be performed to ensure full motor life. r l

l ere,are,b ,

Revieued by '

1Owm k. hj/cyk

~4,s du/.es '

i l

m g, .

\.

\

m, , .. ...,.. .,

BFL' yC C M3 ~~ (.9 S h-T I o" 2 yag4 I

.umTro srArts corrnnts.vr MFCW/SiX

.s> ~ . . . . . . . i 0

2_. 3 '@,],210 263 Wl C117.07611G14111' 3 / %c -

TENNESSEE VALLEY AUTHORITY To i F. W. Chandler, Chief, Electrical Engineering Branch, U8C126 C-K FROM  : John A. Raulston, Chief Nuclear Engineer, W10C126 C-K DATI:  : DE0101980 EUDJrcr: SEQUOYAH NUCLEAR PLANT UNITS 1 AND 2 - CLASS IE REPLACEMENT MOTORS FOR HVAC EQUIPMENT - EUREG-0588 COMPLIANCE n

?

As a result of NUREG-0588 compliance review, a number of drive cotors for fans from the auxiliary area ECS were identified as having less than 40-year life wh'en subjected to normal and postulated abnorcal

?. environments. These motors are identified below by horsepower, Ne:a

, j. frame size, and equipment cark numbers. All motors shall be 460-volt,

..y 3-phase, 60-Hertz, 1750-r/ min motors. Please take the necessary

._id ;.. acticn to procure nuclear grade, IE replace =ent cctors. These cotors

[7

.c-

~ abould be installed at the first refueling outage and not later than . .

July 1982 (actual interim-use lifo of the existing motors can be found

@ in your EEB 801107 951). Required delivery dato is thus July 1,

r'... 1982. Required motors are as follows:

g- ~

P -

SQN d.? p, Cty NEMA Frame Equiement Mk No. Function Unit

.- 1 3 182T 47A373-27 ECTS AHU 1

?' 1 3 182T 47A373-28 EGTS MiU 2

. :, 1 5 184T 47A373-40 Spent Fuel Pit AHU 1

' 3.^ 1 5 184T 47A373-41 Spent Fuel Pit AHU 2 2 3 182T 47A373-15 RHR Pu=p Cooler 1 m,2. ..

3 1827., _., 47A373-16 RHR Pump Cooler 2 m t .: 3 182T / 47A373-19 SIS Pump Cooler j 1 ,'

,2- 3. 182T 47A373-20 SIS Pump Cooler -

2 2 3 182T 47A373-42 Centrifugal 1- -

Charging Pu=p Cooler 2 3 182T 47A373-43 Centrifugal 2 Charging Pu=p i

Cooler 1 5 184T 47A373-25 AFW & Doric Acid 1 Pump Cooler 1 5 1847 47A373-26 AFV & Doric Acid 2

. Pump Cooler 1 15 254T 47A373-23 . . CCW & AFW Pump 1 Cooler's l ,

1 15 254T 47A373-24 CCW & AFW Pu=p 2 Coolers

• I l

5771 2- QW .

l

• • . '. i i * .

l F. W. Chandler DEC101980

~fSEQUOYAH .

. NUCLEAR PLANT UNITS 1 AND 2 - CLASS IE REPLACEME:TI HOTORS FOR

. HVAC ECUIPMENT ,

- NUREG-05.88 CCMPLIANC' .

.y. .

Scs

.i Qty E NEMA Frame Equiement Mk No. Function bit

• 'T -

.A i '.i!- 2 20 256T ~ 47A373-29 Pipe Chase AHU 1

'. I 2 20 256T 47A373-30 Pipe Chase AHU 2 r A. 2 5 184T 47A373-17 Containment Spray 1

";V Pump ABU d.. $ 2 '

5 184T 47A373-18 Containment Spray 2 E 4- Q - ' - Pump AEU

.is @

• 1 55 "

184T 47A373-31 Penetration Does 1

$.-.;-_-5 Coolers gr . .

3; i1- . . . ..

184T 47A373-32 Penetration Room 2 -

. y.w ..

~

Coolers -

i g E f : .': J i 5 , 184T 47A373-33 Penetratica P.oom . 1 -*

d '- I .: Coolers

.* yJ1.t W.T' .-~ .T 'j, .' ,1 '3; 5 184T 47A373-34 Penetration Room _. 2 Coolers g.'a. ' *2'. 5 184T 47A373-35 Penetration Room  ;

'1 .

Coolers

. rg.g. -

E'. 2 5 184T 47A373-36 Penetration Room 2

• 3. - Coolers

" ~$ti- 2- 5 184T 47A373-37 Penetration Room 1 7j ~'

Coolers .

.; 2 5, 184T 47A373-38 Penetration Room 2

. Coolers i, 20 1 256T 47A370-92

• ABGTS Fan 1 1 20 256T 47A370-93 ABGTS Fan 2 1 20 256T 47A370-94 EGTS Pan . 1 1 20 256T 47A370-95 EGTS Fan 2 The notors cast be of the same frame ' size as shown above in order to interface with the existing driven equipment. Service factor nhall be 1.15. Motors shall be equal to Reliance Duty Master X-T TEFC ao motors, with type RH insulation, qualified to IEEE334-1974 in 6

l

. ., . - J it / .,s =#* s

. '3

,F. W. Chandler ~

i npc101980

3'QUOYAH NUCLEAR PLANT UNITS 1 AND 2 - CLASS IE REPLACEMENT MOTORS FOR HVAC EQUIPHENT - NUREG-0588 C0!GLIANCE acccrdance with Reliance Report NUC-9 8 year life at (1) total integrated radiation dosage of 2 x 10 rads; (2) relative humidity of

, 100 percent; (3) maxi =us operating temperature of 175 C (80 C caximum rise); and (4) pressure oT plus or minus 10 inches water gauge.

This request was coordinated with your Barry Gore.

. ' ',- { g ~' , .

/ if,,f. John A. Raulston

%-[,

t .: . BFC:McR -[c'c:'*R.W.Cantrell,204GB-K(2)

.. QP. . . T. G. Chapman, W10C165 C-K q . .. . ...g 7.. R. A. Costner, W11D190 C-K 8.i F '. {

.: ' r.: - . r '

L. W. Lau, W9C143 C-K C. A. Myers, W9C135 C-K Q . : , O K :.}_';'. . , .. ,

i ': ' . ' ~~. . ePlease provide EEB with a PR for these replacement motors and prepare

~

..( an ECN as required. NCR SQNEEB8010 is applicable. Coordinated with j, JCK.

7...u..

~

RWC:HGR -

cc: MEDS, E4B37 C-K G. G. Stack, Sequoyah CONST (4)

E40340.06 l

i

SEQUOYAH NUCLEAR PLANT JUSTIFICATION FOR CONTINUED OPERATION "CCS PUMP MOTOR" TER ITEM NO. - 44 TVA ID No. Status 2-MTR-70-33 To be replaced ,

. 1-MTR-70-38 Replaced 1-MTR-70-46 Replaced 1-MTR-70-51 Replaced 2-MTR-70-51 To be replaced 2-?frR-70-59 To be replaced For JCO, see attached EQS No. MEB-70-024 R2 and EQS No. MEB-72-025 R1 Prepared by: - a u 8 * #!

Reviewed by: C'f7 - -

SM V'~ V I

l

%u Ybf

.2 ,,..Q,

~

• Sheet No. MIB 70-024

, TVA ID No. ccS Pu=f Motor Revision No. >

Q.

Ebulp!'ENT OUALIFICATIC*l SHEET (EOS)(REV 2)

ManufacturU and Model Number Allis Chal=ers Model 012 Tvee F0D Verification of Table Infon ation (Table 3.11-7 t, 8 Sheet 18 and 5 )

x Eauioment Tyoe - The equipment has been identified as per TVA ID number ,

designations (e.g., MOV, SOV, etc.).

x Location - The location has been identified (e.g., Inside primary Containment, Annulus, Individually Cooled Rooms, General Spaces, or area affected by HELB outside primary containment).

X Comoonent - A unique TVA ID number has been assig'ned (E.g., FSV-68-308).

X Function - A functional description of the component has been given (e.g. , Steam Generator Blowdown).

x Contract No., Manufacturer, and Model No. - The contract number, manuf acturer, cnd mocel number has been given. .

x Abnormal or Accident Environment - All abnormal or accident environ-mental conottions applicable to this equipment have been identified either in. tables or by references to figures from tables.

X Envirenment to Which Oualified - The environment to which the equipment has been qualifieo is acoressed in either the tables or the environmental analysis attached.

x Cateoory - A category of a, b, or c has been defined for the equipment.

=- x Operation and Accuracy Recuired and Deronstrated - The operation and

=

accuracy required ano oemonstratea nas been oetined.

Qualification Status (check if aoolicable, NA if not) '

NA Qualification Resort and Method - A qualification report and the method of qualification has been icentified.

x Environmental Analvsis - An environmental analysis has been done, attached to tne EQS, ano independently reviewed by the' responsible organization.

NA Oualification by Similarity (If applicable) - A justification for qualificaticn oy similarity is attached to the EQS considering all the above factors and referenced to the accropriate tables.

! NA Oualificatic, of Several Exact Commenents (If aoplicable) - When an EQS is used for mere tnan one item, a list of all exact components are given as an appendix with all references to accropriate tables with justification for qualification considering all the acove facters.

x Interim Oualification (If applicable) - (0 pen item) - Component has been cetermined to :e qualified only for a limited interim operation, an NCR has been written, and a qualification or replacement plan is attached.

NCR Ho. SQN II3 8010 n Unoualified Co conent-(Open item) (If applicable) - Component has been determined to be unqualified; the following is attached to EQS:

I p) i NCR number, reason for non-qualification, and definit',on of TVA's qualification or replacement plan. ~

I-NCR Ho. m An Prepared by: NYd Reviewed by: /

QA Acceptance: O

~~ HEB 70-024 R 2 Appendix I R 2 .

Refer to,NCR SQNEEB80 0. _ . .

These motors have-been determined by ar.alysis to be qualified for a limited interts period (see 1E3 72-025 Appendix II lTGK %)

Hotors will be replaced with fully qualified units as seca as possible raf ter reccipt of replacedents.

.~

I Prepared by-Revic. ecd by: N' .'I )

b O

.m m . . .

(f\ @ 75L-C2.5 E)a m now

, TVA .ID !!o.CMhinn;It c'~gQ

_EOUIPl21:T 00ALIFICATIO t S!!EET (EOS) (CEV 1) .

(_ Manufacturer and modci number f dEShmhM" 449tM Verification of Table Information (Table 3.U '? Sheet ~7 )

/ Ecuiement Tvoe - The equipment has been identified as per TVA ID number ,

designations (Ex. liOy, 50V, etc.). .  ;

. Location - The location has been identified (Ex. Inside: Primary containment, Annulus, Individually Cooled F.coms, General Spaces, or area effected by HELB outside primary containment).

Component - A unique TVA ID number has' been assigned (Ex. FSV-63-308).

.  ! Function - A fun'ctional'. description 'of the component has been given . .

(Ex. Stetm Generator Blowdown). .

Contract No. 14anufacturer, .and P.odel Ifo. - The contract number, manufacturcr, ano mocei numoer nas been given. ~,

Abnorcal or Accident Environment - All abnormal or accident environ-mental concitions applicaci.a Ic this equipment have been identified either in tables or by references to figurcs from table.

Environmnt to Which Oualified - The environment to which the equip. ment c

• has ceen quailfied to is accressed in .either the tables or the environ- ,

EE mental analysis attached. -

"/ Catecory - A cateogry of a, b, or c has bean defined for the equipment. ,

/ 05eration and Accur.g Fecuired and Demonst-ated - The operation and '-

accuracy requireo uno ccmonstrai.cc nas ocen ceT1ned.

Qualificatica rte.tus (check if acclienble, !!A if nnt) .

Oualifict. tion P.ecort. and !iethod - A qualification report and the meth6d of quali11 cation nas been icentified.

] Environrental Analvsis - An envircnmental analysis has been done, cttacneo to Ine @, and independently reviewed by the responsible orgar.ization. ,

MA 0.salificatien bv Sinilaritv - (If A::plicable) - A justification for '

qualificctio.n by sialicrity is attach 2d to the EOS cor.sidering all the above factors and rcferenced to the appropriate table. ~

MA Oualification of Several Exact Co .nenent - (if Applicable) ; When an EQ51s useo f or core Incn one itc= a list of all exact com;onents is' given as an attachment with all references to appropriate tables -

l

. with justification for qualification considering all the cbove factors. ,

l

' 5E '1A Interim na.slificatien - (If A;plicable) - (0 pen item) - Component has i

b:en cetenaineo tu be qualified only for a limited interim one-ation, an li;3. has been written cnd a qualification or replaccrent plan is attached. -

l e s MES 7 2 '02.5 P.I EQUIN !:T QL'M.ITICt.TIO:: SilEET (ECS) (Continued) _

S HT- 2 0F 2.

Qq~

NA Unau:lified Cormenent (Onen Iten) - (if Appl-i'cabid) - Component has been

. detemine'J to be un4t:7. lTiicd; tiid folletting is attached to EOS: l'CR number, reason for non-qualifiention, justification- for continued safe operation, and definition of TVA's qualification or replace:r.ent. plan.

. .* . 9 W

=

i Prepared by: L., ,

Revicued by:

9 -

' ~ ~

QA Acceptance:

/ ,

1

9

~

MEB

• 72-025 RI f

Appendix I Rt ogT g of I L--- . .

.- . g .

Westinghouse HSWI These motors have been deter =ined by analysis to be fully qualified for the service intended (see Appendix II ITER W)

~ -

e

• e

=

ee 4

Prepared by: h.,

Reviewed by: - /

n

• me

'#O 6g we ,

,. .w um, .7 .,

sheer 1 of 16 SEQUUYAH NuttEAR PLANT October 11, 1950 NCR SQN EED 8010 Revision 1

• T NCR SQN EEB 8015 October 27, 1950 1

,  !"7.C'.'r' ^P . . .

The approach u' sed to establish that the motors listed in NCR SQN EEB 8010 and the one motor (Chilled Water Pumps for Shutdown Board Room Elevation 734),

of NCR SQN EEB 8015 which is addressed in these calculations, are safe for continued operation pending full qualificacion combined partiisi test data with verbal and sometimes written information on motor materials to support analytical assumptions and con'clusions reached. This same approach was used to determine aging effects on the motors for their given operating and accident envirec=ents. The environments considered verc temperature, humidity, and radiation. .

Temocrature Temperature rise test data are available for s me motors. For those cotors for which we do not have temperature rise test data, we assumed a maximum ,

rise as specified by the contract. Using this value and the cost severe temperature condition the motor would experience, the maximum operating temperature of the motor was determined. This temperature was ce= pared to a -

normal ambient of 40*C at which all motors are rated (PRIA MG-1). The 10*C Rule (an approximation of Arrhenius's Law as applied to in:ulation materials) was used to establish the operating life of the motor. (We assumed,

= conservatively, a five year life for the motors based on 40'C ambient and motor temperature rise.) The 10'C Rule states that for each 10*C rise in teeperature bove some reference temperature at which the caterial is able to operate without degradation (in our case 40*C plus the allovable tempera-ture rise) the useful life of the material is halved. Therefore, a 10*C temperature rise above the maximum allowable temperature of the material vould reduce the life to 2.5 years. Using this approach we can establish the motor aging due to temperature effect.

Humidity .

All the motors listed on NCR 8010 operate in environments of $0 percent bunidity or less. Years of motor operating experience and assurances .

from motor manufacturers attest to the fact humidity at these low levels will not cause the motors to be functionally ineperable nor degrade ciotor performance. The one rc.otor addressed ou XCR S015, the Chilled Water Pumps for Shutdo en Board Roca Centract S3716, must operate in a 100 percent humidity environment. Since this motor is of open dripproof constructien

.cieasures must be taken to insure that moisture is not absorbed into the vinding insulation. No problem exists when the motor is operating. !!ovaver,

, to prevent moisture absorptien when the motor stands idle for long. periods, l an administrative procedure vill be establuhed that causes the matc,r to be l operated at regular intervals to drive out excess moisture. i e

DN6

123 72-025 P.ls;

• Appendix II ll y .>

Sheet 2 of 16 k Radiation -

h The materials for all motors in environaents greater than 10 4 rads (considered negligible) were identified and their radiation damage threshold compared to the operating and accident environments. In all cases tha radiation damage threshold of the materials was equal to or higher than the cc=bined 40 year normal dose and the integrated accident dose. The '

cotors were tSerefore considered acceptable for the radiation environ =ents in which they were to operate. I I .

9

? -

9 9

e e

e 0

e G

1 O

e l

~ l (b '

')

l l

';2 l l

e e

i ME3 72-025 R1 {

Appendix II R1 SEQUOYAH NUCLEAR PI. ANT Sherc 3 of 16 NCR SQN' EES 8010 -

Octobet 11, 1980 ,

t-- Revision l'

. October 27, 1980 Justification for Contihued Safe Operation of IE Motors on the Subject NCR Purcose l

The following calculations support TVA's contention that the motors of the noted contracts will operate in their respective aebient and accident -

environments as listed in ti.e SNP FSAR paragraph 3.11.2.3. This constitutes justification for continued safe operation.

Assurmtions - are noted in each section Contract 72C38-92802 (NEB')

Data 1.

Spent Tuel Pit Pump AHU - Lincloln Electric frame T2523, SEP.

230/460v, 60H:, 3ph, Class 3 insulation Max Te:p. rise 80'C @

40'C ambient (TEFC) ,

Operating Environ =ent: Temp. 43.3*C (110'F)

Humidity 30-807, Radiation 108 rads (40 year =or=al dese) 5 Calculations -

No accident dose.

• Radiation The materials composing the ciotor* have a radiation damage accident 1 year exceeds thre:. hold that dose. the caximus 40 year normal dose plus7the integrated Minimum material threshold = 4.5 x 10 rads.

Therefore, the motor is qualified for 5 years life as far as radiation exposure is concerned. (5 years arbitarily chosen as conservative estimate of insulation life).

Te=cerature - Motor was specified to NEMA Standard MG-1-1967. For motors operating.above a referenced 40'C smbient MG-1-1967 (as modified in February 1971) allows a te=perature rise in accordance with the formula:

Temperature ri::e = 0.9(T '

hs - T,) where: Ths = hot spot temp. = 130'C -

T, = ambient temp = 43.3*C Haximum allowable te=p. rise = 0.9 (130-43.3) = 78'C or rounded to neares.t 5'c = 80'c

• Motor materials per Vendor Radiation Threshold per EEB Cable group: Lead wire polycthelene (4.5 x 107 rads), propalene (5 x 107 r), magnet wire insulation -

/

-) class F film code cepper Essex Thernetex (3 x 10 S r), slot insulation .

22 Epoxy saturated Dacron fiber Duroid (5 x 10 7 r), phase insulation-Arantid fiber Ne=ex ($ x 10' r), sleeving Acrylic coated fiberglass l

(1 x 10' r)

\

.- ru.o , 6 v.., n.

Appendix II tl'

, . , Sheet 4 of 16 The temp time per the cianfactutet's test uport was 80'C at a S.F. of 1.13 Therefore we have a O'C margin. This motor can operate at an overall

(_=---

temperature of 80*C + 43.3'C = 123.3*C i.e. , the motor may operate in an ambient of up to 123.3*C -80'C = 43.3'C continuously without exceeding its maximum overall teeperature limitations. (5 year life).

numicity - ants motor is totally enclosed fan cooled (ir.zC) and is therefore immune to hu:nidity effects. ,

Data 2 .' CCSPu=pandAWPump[HU-LincolnElectricframe 72556, 15 HP 230/

460 V, 60 Hz, 3 ph, Class' B insulation, Maximum temperature rise 80'C 0 a 40'C ambient (TEFC)

Operating environment - same as item 1.

Radiation - Justification same as 1.

Calculations Te=perature - Same as 1 except: Temperature rise by report was 72*C. We have an 8'C margin. This motor may operate in an overall temperature of 80* + 43.3*C = 123.3'C i.e., the cloter may operate in an ambient of up to 123.3* - 72*C = 51.3*C without exceeding its maximum overall temperature.

_ (5 year life) 3..

Humidity - Same as 1.

Data

3. Penetration Room Coolers - Lincoln Electric frame 72523, 5 HP, (TEFC) 230/460V, 60 Hz, 3 ph, Class B insulation, maxi =um temperature rise 80*C,@ 40'C ambient.

Calculations Duplicate motor to item 1, same operating environment, justified same as item 1, same test data applies. (5 year life)

Data -

4. AFV and Boric Acid Pump AHU - Lincoln Electric frs=e T2523, 5 HP, 230/460V, 60 Hz, 3 Ph. Class B insulated, maximum temperiture rise

80*C @ 40'C ambient (TEFC).

~

l ..

1 l

l l

Append,ix II R1 ,  ;

, Sheet 5 of 16 l l

,. Calculations .. . .. .. . -

(T

~

Duplicate cotor to item 1, same operating enviroc:ent, justified same as item I, sa:e test data applies. (5 year life)

Data - '

5. Containment Spray Pump AHU Lincoln Electric f rame T2557, 20 EP, 230/

460V, 60 Hz,'3 Ph, Class.B Insulation, maxi =um temperatu're rise 80'C

@ 40*C ambient (TEFC).

i ..

Operating environment Temperature 43.3*C Humidity 30-80 percent Radiation C.8 x 106 rads (40 year dose

. 1 x 106 + 7.8 x 106 accident)

Comeutations Radiation - Justification same as ite: 1 Teeperature - Same as item I except, temperature data is not available.

Thus, we assume the maxicum allowable heat rise per the specifications and standards i.e., 80*C. Using the

, same calculations as in 1, the maximum 2:bient temperature

___ in which the motor can operate is 43.3'C. (5 year life)

r .

~

Humidity .Same as. item 1.

Data

6. Pipe Chase AHU - Lincoln Electric fra=e T2557, 29 HP, 230/460 V, 60 Ez, 3 Ph, Class 3 insulation, caximum te=perature rise E0*C

@ 40',C ambient (TEFC).

Operating envirorsent: Temperature 43.3 C llumidi ty 30-80 percent Radiation 1 x 10' rads (40 year dose) no accident dose Calculations Duplicate motor to item 5, justification is the same as for item 5. (5 year life)

N

/

MES72-023 R1 Appendix II

, Sheet 6 of 16 Data

7. Emerger.cy Cas Treatment ANU - Lincoln Electric frs=e 72518, 3 HP, 230/

== 460 V, 60 Hz, 3 Ph, Class B insulation, caximum te=perature rise 80'C @ 40'C ambient (TEFC).

nr a-aring environment: Te=perature 43.3*C -

~

Humidity 30-80 percent '

Radiation 1 x 10' rads (40 year dose) no accident . dose

' Calculations -

Radiation -

Justification'*s same as item 1 Temperature -

No te=perature data available. Maximum rise of 80'C assumed. Using the same calculations as in 1 the caximum ambient temperature allowable is 43.3.'C.

Humidity -

Same as item 1. (5 year life)

Data ,

8. RER Purp Cooler - Lincoln Electric frame T2518, 3 HP, 230/460V,

• 60 Hz, 3 Ph, Class B insulation, maxicum tecperature rise 80'C .

G.40'C ambient (TEFC)

Ip Operating environment: Temperature 43.3'c Humidity 30-80 Percent Radiation 8.5 x 105 rads (1 x 108 40 -

S Y. ear + 7.5 x IO ,,ac, cide,nt dose)

Calculations This cotor is a duplicate of item 7 and the justifications is the same as for ite: 7. (5 year life) -

Data ,

9. SIS Pump Cooler AHU - Lincoln Electric frame T2518, 3 HP, 230/460 V, 60 H:, 3 Ph, Class D inculation, maximum temperature rise 80'C @

40* a=bient (TEFC).

Operating environment: Te perature 43.3*C g Humidity 30-80 percent Radiations 6.6 x 106 (1 x IOC 40 year +

5.6 x 105 accident ' dose)

Calculations '

II! This motor is a duplicate of item 7 and justification is the same as for I -

item 7. (5 year life) \

\

l 1

m.., , - . , ~

Appendix II R1 ,

Sheet 7 of 16 Data p .. . . . .. . - -

• ? 10. Central Charging Pump Cooler AHU - Lincoln Electric fra=e T2518, 3 EP, l230/460V, 60 Hz, 3 Ph, Class B insulation, c:axitum temperature rise 80*C @ 40' ambient (TEFC).

vpe m ius environment: Temperature 43.3'C

. Humidity 30-80 percent -

Radiation 7.6 x 106 (1 x 108 40 year +

6.6 x 108 ambient dose)

Calculations .

~

This motor is a dup'licate of item 7 and justification is the same as for item 7. (5 year life)

Data 11.& Emergency Gas Treatment Fan and Auxiliary Building gas treatment fan-

12. Reliance Motors - 20 HP, 230/460V, 60 Hz, 3 Ph, Class B insulation, frace 26ST, (open dripproof) SF=1.15 Operating Environ =ent: Temperature 43.3*C (110*F)

Humidity 30-80 percent Radiation 108 rads (40 year dose),

g ,

No accident dose Calculations Radiation - The materials composing the motor

• have a radiat-ion damage threshold that equal or exceed the maximum 40 year normal dose plus the integrated accident 1 year dose. Mini =um material threshold = 1 x IOS to 1 x 107 (fiberglass impregnated with polyester resin). Therefore, the motor is qualified for a 5 year life as far as radiation exposure is concerned. .

T_gperature - Motors were specified to NEMA Standard MG-1-1967. For =otors cperating above a referenced 40 C ambient MG-1-1967 (as modified in February 1971) allous a temperature rise in accordance with the formula:

Temperature rise = 0.965 (Ths - T,) her Ths = hot spot teeperature = 140*C T, = ambient temperature = 43.3*C Therefore, maximum allowable temperature rise = 0.965 (140 - 43.3) =

93.3 or rounded to nearest 5'c = 95'C i

The temperature rise (per verbal con =unications with the Iotor vendor and NEB personnel and net yet verified) was 65'C @ a SF of 1.15.

Since we bave no verified data ve assume the ca:<imum allowable k temperature rise per the specifications and standards which is 90'C. ~

9

I MEB 72-02) R1 Appendix II R1

. Sheet 8 of 16 Therefore, we have a 5'C margin. This motor can operate at an f=_ overall temperature of 95* + 43.3*C = 138.3*C i.e., the motor may W operate in an cmbient of up to 138.3'C - 90' = 48.3*C without exceeding it's caximum overall temperature licitations. (5 year life)

• Motor caterials per Vendor (Verbal not verified in writing)

Magnet vire - heavy polyester (8 x 106 r) or polyesterimide-aside-imide ,

overcoat (3*x 108 r) lead cable - EX.Ut 350 (2 x los r), slot liner - Nomez 7 S polyester (5 x 10 r) coil lead in-Acrylic resin fiberglass (1 x IO r),

top vedge (stick) - fiberglass impregnated polyester resins (1 x 106 to 1 x 107 r) .

Midstick - Nomex 410 (2 x 10 9 ?r), film stick slot spacer polyester glass (1 x 108 r) adhesive tape - glass tape acr (1 x 108), phase insulation-varnishedglasscloth(1x10glicadhesive r), correction insulation-9 acrylic resins fiberglass,(1 x 10 r), tie tape-treated glass (voven glass type - 1 x 10s r) First and last lamination of stator polyester impregnated 6

fiberglass (1 x 10 to 1 x 107 r) resins on windings 2 epoxies (1 x los r)

Humidity - These motors operate in an atmosphere of 80 percent humidity maxieum. Humidity at these low levels vill not contribute to coisture accumulation in the motor vindings and subsequent ' ,

insulation breakdown.

Contract 76K35-83673-1 (NEB)

""~ '

Data

13. 480-V Board Room Alm - k'estinghouse frame 254T,15 HP, 230/460 V, 60 H:, 3 Ph, Class B insulation. (open-dripproof) ST=1.15 Operating Environ =ent: Temperature 46.1*C (11S*T)

Humidity 30-80 percent Radiation Negligible Calculation Radiatien - Negligible, materials are qualified for full life as far as radition is concerned. (5 year life)

Tenerature - Motors was specified to NE:'4 :10-1-1972. For motors operating above a referected 40*C ambient MG-1-1972 alicus a temperature rise in accordance with the formula:

Temperature rise - 0.9 (T hs - T,) where Ths = hot spot temperature =

140 C T, = ambient temperature = 46.1 ,

(.I

h . 's N Y MEB 72-025 R1 -.--...._

Q' Appendix II R1

.e d Sheet 9 of 16 -_._, l" s-----__ '

Therefore maxi =um allowable temperature rise = 0.9 (140-46.1) = 85'C Ve do -

x_ not have heat rise data and therefore assuming the maximum allowable rise \

by the specification and the standard of 90'C we get a - S'C margin i.e.,

at 46.I'C we are 5'C over our maximum allowable rise. If we apply the s 10*C Rule (an approximation of Arrhenius's Law as applied to insulation  ;

caterials) to determine the aging effects on the =otor. If we assu=e a ,

very conservative life of 5 years for the motor insulations then we could operatt. up to 95'C (85'C + IO*C) and still have one-half of five or 2.5 years '

of motor insulation life.

Hu=idity - These 'otors operate in an ateosphere of a maximuni of 80 percent humidity and as neted for motor at=ber 11 and 12 this presents no problem. j l

l Contract 71C30-92695 ($3) /

Data W-

14. Component Cooling L'ater Pumps - Allis-Chalmers type F0D,,Model 012, frs=e 587US 460V, 60 Hz, 3 Ph, Class B insulation, S.F. = 1.0, 350 EF Operating Enviren=ent: Temperature 117*F (47'C) at 20 seconds, 111 F -'

(44*C) at 160 seconds, 116*F (47*C) at 4 minutes,121'T (49'C) at 10 minutes, linear decline in 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> to 104'T (40*C) continuous W Ru=idity 100 percent Radiation negligible Calculations .

Radiatien - Negligible, caterials are qualified for full life as far as radiation is concerned. (5 years life)

Humidity - Motor has 500 watt space heaters which will operate any time the motor is idle. This will prevent any moisture problems in the windings.

Te:perature - The very short ter= achient temperature rise to 49*C should not be long enough to allcw the cotor to stabilize at that higher temperature.

However, from a conservative point of view we will assume that the 9'c rise in ambient is a continuous duty. These cotors were specified to NEMA Standard MG-1-1967. Our ambient is 49*C. Therefore, temperature rise = 0.9 (130 - 49) = 73* rounded to nearest 5'c = 75'C. According to the manufacturers the temperature rise is 45'c at a SF of 1.08. This is well below our' maximum allowable tecperature rise. Thus, the motor is satisfactory for full life as far as temperature is concerned. (5-year life)

N

~

I

. l l

nzo os-uss na '

Appendix II R1

• Sheet 10 of-16 Contract 73C38-83532 Data

{~2F  :

15.! Co:ponent Cooling Water Booster Pumps - Allis Chalmers, Type RG, Model 113, 230/460V, 60 Hz, 3 Ph,15 E? Class B insulation, SF =

1 1%

Operating Environment: Temperature 104*F (40*C)

Humidity 98 percent Radiation Negligible Calculations

?

Radiation - Negligible, materials are qualified for full life as far as radia'tfon is concerned. . (10"yfar' life)~ - ~ ~~~ ~'~~~

Eu:idity - Motor has 50 datt space heaters which will operate when the cotor is idle. This will prevent any moisture problems in the vindings.

Tetperature - Maxicum allevable temperature rise is 70'C at rated nameplate h.p. or 90'C at 1.25 service factor both referenced to a 40'C a=bient. We have no test data availabic so if we assume the motors have a temperature rise of 90*C at SF cf 1.15 they will be satisfactory for full life of the insulation. Even if the motors exceed the maximum allowable rise by as cuch as 10'C i.e., to 100*C they will still have a useful life of 1/2 of the full life value (see item 13). Assnming a five year life this yields an effective life of 2.5 years.

h _______________________________..________

~

Contract 71C30-92646 (HEB)

Data

16. Containment Spray Pumps - Westingbouse type LAC, frame 6808-S, codel ESW1, 6600V, 60 Hz, 3 Ph, 700 HP, insultaion - Class F, ST=1.15 Class B insulation specified Operating Environ =ent: Te:perature 110*F (43.3'C)

Humidity 30-80 percent Radiation 8.8 x 105 rads (40 year normal dose 1 x 105 plus 7.8 x IOS rads 1 year integrated accident dose)

Calculatiens ,

Radiation and Hemidity - The insulation caterial in these cotors was tested to 2 x 108 rads and for humidity in accordance with the procedure's of IEEE 275.

See Vestinghouse Qualification Reports WCAP-8754 Rev. I and VCAP-7829 pages 15, g 16, 40, and 54. These levels exceed our operating and accident environment. ,

1=

, HIB 72-025 R1 ,

Appendix II El, Sheet 11 of 16 Temperature - In accordance with the above noted qualification reports the in:ula-f~:: tion catcrial is qualified for a 40-year life at continuous operation at 105 C.

Our cotors will operate at a temperature of 111*C (63*C rise per test report plus 43*C ambient). However, this is only infrequent operation.. Each motor will be tested eight times per year for two hours per test. This test time plus a conservative margin of 50% for other possible tests equals to only 32 hours3.703704e-4 days <br />0.00889 hours <br />5.291005e-5 weeks <br />1.2176e-5 months <br /> per year or 33 days over a 40 year period. Moreover, the 2-hour operating ti=e '

is not .tufficient for a motor of this size to reach its continuous operating te=perature. Four to six hours would be required for the motor to reach its nor=al operating temperature.

[

Therefore the overall aging effect due to temperature is negligible and the motors are qualified for a full 40 years. '

S'ources of Infor=ation Materials in motors - Manufacturer test reports and verbal contact between NEB /MEB and Vendors ,,,

Te=perature rise limits - NIMA Standard MG-1 various dates Environments - SNP FSAR Paragraph 3.11.2.3 and EEB Nuclear Staff Conclusiens All cotors on the above contracts are censidered safe for interi= operation c: _ in their normal and accident environments for periods from 5 to 2.5 years E;T as noted under each contract designation. The Centain=ent Spray Punp Hetors Contract 71C30-92646 are ful.ly qualified for a 40 year lif.e in their operating environ =ent.

e e

I

. l 1

HEB 72-Q25 R1 .

Appendix II R1 Sheet 12 of 16 SEQUOYA!! NCR SQN EEB 8015 s..

Justification for continued Safe Operation of IE l Motors on Contract 75K36-83716 Only I I

a..-...

7 The following calculations support TVA's contention that the motors of the noted contract will operate in their respective ambient and accident environments as listed in the SNP FSAR paragraph 3.11.2.3. This constitutes justification for continued safe operation.

Assumotions  ?

Hotor life is a conservative 5 yaars in nor=al operating environment i.e.,

radiation - negligible (f.104 rads), temperature - 40'C with temperature rise 5 caximum allowable rise by NEllA MG-1 Standard, humidity 5 80 percent.

Data

. Contract 75K36-S3716 (MEB)

Chilled water pumps for shutdown Board Room AC syste=s el. 734.0 Lincoln Electric Cc=pany, frame 256T, 20 HP, 230V, 60 Hz, 3 ph, SF = 1.15 class B insulation, open dripproof, NEMA MG-1 1972 applies. '

Operating Enviroc. ment: Tenperature 115'T (46.1*C) .

Humidity 100 percent 5 Radiation Negligible Calculations Radiation - Negligible, caterials are qualified for full lif'e (5 years) as far as radiation is concerned.

Humidity Since this notor is of open dripproof design ceasures cust be taken to insure that coisture is not absorbed into the vinding insulation. No problem exists when the motor is operating since the heat generated in nor=al service precludes moisture absorpticos. However, during periods when the cotor is idle, eoisture could be absorbed in the vinding. Tcerefore, nn administrative procedure vill be established such that the motcr is operated at regular intervals (not to exceed 1 week) to drive out any excess moisture.

Tereerature Motor was specified to NEMA Standard MG-1-1972. For motors eperating above a referenced 40'C a:bient MG-1-1972 allow a te perature rise :in accordance with the formula: N Temperature risc = 0.9 (T hs - T,) vbere Ths = bot spot tecperature =

140'C, Ta = ambient ter perature = 46.1*C Therefare nr.imun allevable troperature riec = 0.9 (140 - 46.1) = 85'C

MES72-025 R1 Appendix II R1

,. Sheet 13 of 16 The temperature rise of the motor per the manufacturer's test report g- was 90*C at a SF of 1.15. This means we have exceeded our allowable w temperature rise by 5"C. Applying the 10*C Rule (an approxic:ation of Arrhenius's Law as applied to insulation =aterials) allows us to.

determine the aging effects on the =otor. Using the assu=ed 5 year

t:r lif: e can operate up to 95'c (85*C + 10*C) and still have one half of five or 2.5 years of motor insulacion life. ,

Sources of Information Temperature rise - manufacturer test reports Temperature rise - NEMA MG-1-1972 Environments - SNP FSAR Paragraph 3.11.2.3 and EEB Nuclear Staff -

Conclusion:

The motors on contract 75K36-83716 are considered adequate to operate in their normal and accident environments for a period up to a minimum of 2.5 years.

Te=perature is the limiting factor. It should be noted that any nor=al maintenance as required by the manufacturer vill need to be perfor=ed to

' ensure full motor life.

e

/f. y dL8pI w/v//p Reviewed by:

QA Acceptance:

e e

~

i

MEB 72-UD tu Appendix II (ftl- i

. . Sheet 14 of 16 '

~

_ SEQUOYAH NUC1. EAR PLANT is NCR SQN EEB S015 October 27, 1980 Justification for Continued Safe Operation of IE Hotors on the Subject NCR Purpos e .

The following calculations support TVA's contention that 'the motors cited in NCR SQN EEB 8015 vill operate,in their respective ambient and accident environments as listed in the SNP FSAR paragraph 3.11.2.3. This constitutes justification for continued safe operation. Thig supplements information provided by B. M. Gore in his submittal dated October'll, 1980, on the subject NCR.

Assu otions Hotor life is a conservative 5 years in normal operating environment i.e.,

radiation - negligible (510 4rads), temperature - 40'C with temperature rise S caximum allowable rise by NEMA MG-1 Standard, humidity S 80 percent.

Data Contract 73C31-83582 -

Auxiliary Air Compressors, General Electric, 20 HP, SF=1.15, 460 volt ac, 60 Hz, 3 phase, Class B insulation, open dripprotf* enclosure, frame 256T, z NEMA HG1-1972 applies.

=

Operating Enviren=ent: Temperature 115' F (46.1'C)

Relative Humidity 100 percent Radiation ,

Negligible calculations Radiation - Negligible, materials are qualified for full life (5 years) as far as radiation is concerned. ,

Humidity -

o Since this motor is of open dripproff design, measures must be taken to insure that moisture is not absorbed into the vinding insulation. No problem e::ists when the motor is operating since the heat generated in normal service precludes coisture absorptions. However, during perieds when the motor is idic, moisture could be absorbed in the vinding. Therefere, an administrative procedure vill be established such that the motor is operated at regular intervals (not to exceed I week) to drive out any ex ess coisture.

Tenperature Hotors were specified to conform to NE!LA M01-1972. The allowable temperature

(_)/ risc v.ss specified not to execed 90*C above an ambient temperature of 40*C. _

This requirement is identical to the maxircun temperature rise allowed by NEli\ MG1-12.42 for a class B insulation . system with a ST of 1.15.

• MEB 72-025 R1 Appendix II Al .

Sheet 15 of 16

}fotors operating above a referenced 40*C ambient are allowed a temperature rise

/1 in accordance with the following formula fro's paragraph 12.42 of NEtu MGI-1972:

! Temperature rise = 0.9 (Ths - 7,)-

where the hot spot temperature, T = 140*C an.d the ambient te=perature, T, =hE6.1*C '

Therefore the ciaximum allowable temperature rise is 85'C. The heat run data was not available for these motors; however, the motors were allowed a 90'c rise by the specification. Assuming the cianufacturer supplied a motor that conformed to the specified temperature rise requirements, we would exceed the maximum allowable temperature rise for an ambient of 46.1*C by 5'C.

Applying the 10'C Rule (an approximation of Arrhenius's Law as applied to insulation materials) allows us to determine the aging effects on the ciotor.

Using the assumed 5-year cotor life we can operate up to 95'c (85'C + 10*C) and still have one half of five or 2.5 years of ciotor insulation life.

Sources of Inforciation

. Temperature rise - Contract 73C31-83582 Temperature rise - NEta MGI-1972

~

Environments - SNP ISAR Paragraph 3.11.2.3 and }EB Contract Engineers Data Contract 72C30-9'2610 (}EB) . ,

Auxiliary Feedwater Pumps, Allis-Chalcers, 500 HP, SF=1.IS, 6600-volt ac, 60-Hz, 3 phase, Class F insulation, open dripproff enclosure, fract:30RS6; KEMA MG1-1967 applies.

6perating Environ::ent: Temperature .120'I (48.9'C)

Relative Humidity 100 percent Radiation Negligible Calculations Radiation - Negligibic, caterials are qualified for full life (5 years) as far as radiation is concerned.

Numidity .

o Since this motor is of open dripprolf design, measures must be taken to insure that moisture is not absorbed into the vinding insluation. No* problem exists

,, when the motor is operating since the heat generated in r.ormal service precludes j moisture absorptions. Ilowever, during periods when the ciotor is idle, moisture -

could be absorted in the winding. Therefore, an administrative procedure vill be est.1blished such that the motcr is operated at regular intervals (not to exceed I wech) to drive out any excess moir.ture.

. .. MES72-025 R1

. Appendix II R1

, . Sheet 16 of 16 The motor temperature rise requirements at the nameplate rated horsepower were specified not to execed 70*C over a 40'C ambient. A 90*C rise at a SF of 1.15 (p- was specified for short-time service only. This corresponds to the maximu.

Class B teeperature rise allowed under h7.MA HC1-12.42 dated February 1971.

The use of a Class F insulation while limiting the allevable te=perature rise to that of a Class B system, is one cethod of providing a conservative motor

""ars operating above a 40'C ambient are allowed a teeperature rise in accordat.ce with the following formula: '

Te:perature rise = 0.9 (T hs - T,)

' vbere the hopspot temperature T = 140*C for a Class B insulation system and the ambient teciperpture T, .h.$.9'C Therefore, the maximum allcwable temperature rise above the listed operating temperature for a Class B system is 82'C at a SF of 1.15. The tempercture rise of the motor according to the canufacturer's test report was 45"C at a SF of 1.15 which is substantially less then the ca.xi=u= allevable te..perature rise.

Sources of Information

. Te:perature rise - manufacturer's test report dated 9/27/72 Temperature rise - hT.UA bGI-1967 .>

Enviro.=ects - SNP FSAR Paragraph 3.11.2.3 and MIB Contract Engineer.

, _ . Conclusions i.2 The motor on contracts 73C31-835S2 and 72C30-92610 are considered adaquate to operate in thcir normal and accident environments outside contain: cst for a minicium period of 2.5 and 5 years respectively. It should be noted that any norcal c:aintenance as required by the manufacturer will need to be perfor=ed to ensure full motor life.

• Prepared by Lb bdn <e/n/3, M Revicwed by hf. bfch da/n QA Accepta.ce -

l O -

e l l

l

TER ITEM No. 54 TVA ID NO. 1, 2-PS-3-140A, -150A, -139A, -139B, -139D, -144A, -144B,

-144D MANUFACTURER /H00EL NO. -

ASCO/ Hod 51sSB11AK*/TG13A42RandSB31AKR/ID30A32R STATUS IV JUSTIFICATION FOR CONTINUED OPERATION:

I. For pressure switches 1 2-PS-3-140A, -150A

1. Pressure switches 1, 2-PS-3-140A, -150A are located in the Auxiliary Building, Elev. 714. Rooms A5, A9. They are required not to fail in a manner detrimental to plant safety for 100 days following a LCCA and for 1 month followin an RHR, CVCS, Auxiliary Feedwarer, or Auxiliary Boiler line break.

2. The pressure switches are required to operate in the following environments 2:

Nor=al Abnormal Accident -*

Temperature: 104o7 1100F 1950F Pressure: ATM ATH N/A Relative Humidity: 80% 90 N/A Radiation: U1 3.5x104 rads N/A 1x104 rads (40 yr TID)

U2 3.5x102 rada (40 yr TID)

Spray / Flooding: N/A N/A N/A

3. The manufacturer has tested these switches to the following conditions as documented in ASCO test report AQR-101083/Rev.1.

Temperature: 21007 Pressures 2.2 psig Relative Humidity: 100:

Eadiation: 18.7 x 106 rads

4. ASCO has tested these switches and has shown that they are fully qualified for the environmental conditions given in section 2 above. However, there is not sufficient seismic test data to l

consider these devices fully qualified. TVA is currently awaiting '

further seismic test data frca ASCO.

I8ee CE Calculation (NEB 840213 221).

2See SqN Environmental Data Drawings 47E235-51, -52.

A

~

l

5. The seismic DBE f ailure node for these cwitches as documented in ASCO's September 26,1984 (EZB 840927 019), letter is, "The ASCO ,

,Tri-Point pressue switch will produce a change of state of the l

? fectrical output in response (to) a process input as this process input signal approaches the set point. The electrical output )

' signal vill be maintained af ter the change of state occurs, if the i process signal is maintained at the same level or at a level past '

the point of change." It has been determined that these switches will have performed their safety requiremant so long as a change of state of the electrical output to the tripped condition does not occur above 500 psia. These switches are set at 100 psia and have a 200 psi upper range limit since the process is not approaching the set point at 500 psia a change of st.ste would not occur.

The above information shows that these switches will perform their intended safety function. Cceplete resolution will be as determined at NCR SQNEEB8408 II. For pressure switches 1, 2-P3-3-139A, -139B, -139D, -144A, -144B, -144D

1. Pressure switches 1, 2-PS-3-139A, -139B, -139D, -144A, -144B, -144D ',

are located in the Auxiliary Building Elee. 690, Room A1. They are required to operate for 100 days fo11cwing en RHR, CVCS, Auxiliary Feedwater, or Auxiliary Boiler line break.I

2. The pressure evitches are required to operated in the following environments.3 Normal Abnormal Accident Temperature 1040F 1100F 1280F Pressure: ATM(-) AT!!(-) ATM Relative Humidity: 80% 90% 100%

Radiation: 5x102 rada N/A 1x104 rada (40 yr TID)

Spray / Flooding: N/A N/A N/A

3. The manufacturer has tested these switches to the following conditions as documented in ASCO test report AQR-101083/Rev. 1.

Temperatures 21007 Pressures 2.2 psig Relative Humidity: 100%

l Radiation: 18.7x106* rads l

l 4. ASCO has tested these switches and has shown that they are fully qualified for the environmetal conditions given in section 2 above.

However, there is not sufficient seismic test data to consider f) these devices fully qualified. TVA is currently awaiting further seismic est data from ASCO.

1

5. The seismie D3E failure e. ode for these switches as documented in ASCO's letter of September 26, 1984 (EEB 840927 019), is "The ASCO Tri-Point pressure switch will produce a change of state of '

ghe electical output in response (to) a process input as this process input signal approaches the setpoint. The electrical output signal will be maintained after the change of state occurs, if the process signal is maintained at the same level or at a level past the point of change." These switches perform a AFW pump to ERCW switchover. If the process pressure is approaching the setpoint during a seismic event, the setpoint of the switches could be shif ted resulting in initiation of ERCW flow to the AFW pumps at a higher than normal setpoint pressure. At that time the switches would remain in the actuated state as long as the system process pressure remains at or below the point at which the switch actuated. This is acceptable frem a safety standpoint.

6. The above information shows that these evitches will perform their intended safety function. Complete resolution will be as determined by NCR SQNEEB8408.

054286.04 1

1 I

t

) ~

s-TIR Item No. 38 TVA TD No.

1,2-PS-30-461, -47A, -48A 1,2-PS-30-44B -473, -48B Manufseturerh!odel No.

Barton/2881 -

Status IY Justification for Continued Ooerstion

1. Pressure switches 1,2-PS-30-46A -463 -471, ~47B, -4BA, -48B are located in the annulus elev 797. They are required to operate fer 5 minutes and not to f ail in a manner detrimental to plant safety for 100 days following a LOCA.

2. The pressure,svitches are required to operate in the following environ =ents*:

Horns 1 Accident Temperature: 1100F 15007 Pressure: Atm Atm Relative Eunidity: 80% 100%

Radiation: 2x107 tads 5x107 rads Spray / Flooding: N/A D/A I See EN DES Calculations NEB 830228 221 25ee SQN Environmental Data Drawings 47E235-47

3. The manufacturer's specification for the solenoid valves are:

Temperatures 20007 Pressure: Atm Relative Humidity: Not specified Radiation: 2s10B rads

4. Material breakdown analysis reveals the presence of switches, wires, and 0 rings. These components have been replaced with new parts that have been tested to 1x108 rade without any damaging effect to their operation. Reference letter f rom ITT 3arton (EEB 801204 034), to F. W. Chandler.

5. See generic position 4.1.5 for radiation and 4.1.3 for relative humidity.

O- 014165.02 l

l l

l

. 4

6. Since the operating environment is within the manufacturer's specifications, the above infor=ation shows justification for continued use of the pressure switches. However due to lack of sufficient docu=entation to demonstrate envircumsntal qualification. TVA vill replace the pressure switches with qualified devices as deternised by the resolution of UC2 SQNIK38009.

.=

014165.02 i

i i

1 l

l

l TER NO. 59 TVA ID NO. ,1, 2-FS 194, -195, -196, -197 MANUFCTURER/MODEL NO. Dwyer Instru:sent/Model 1627-1 STATUS IV '

s i JUSTIFIC' TION FOR C0hTINUED 07ERATION:

1. Flow switches 1, 2-FS-30-194, -195 are located in the Auxiliary Building, Elev. 714, Rooms AS, A9. Flow switches I, 2-FS-30-196, -197 are located in the Auxiliary Building, Elev. 690, Rooms A6, A19. Flow switches are required to operate for 1 month following RRR, CVCS letdown, AFW pump turbine stets supply or AUX Boiler line breaks. Flow switches are not required to ope { ate and a failure is not detrimental to plant safety following a LOCA

2. The flow switches are required to operate in the following environment 2 For flow switches 1, 2-FS-30-194, -195 Normal Accident Temperature: 104Cp 184 7 Pressure: Atm Atm Relative Humidity: 50% 100%

Radiation: U1 3.5x100 rads N/A (40 yr. TID)

UI 3.5x102 rada (40 yr. TID)

Spray / Flooding: N/A N/A For flow switches 1, 2-FS-30-196, -197 Normal Accident Temperature: 104 E Pressure: 196 F Atm Atm Relative Humidity: SO: 100%

Radiation: U1 1.75x103 rads N/A (40 yr. TID)

U1 3.5x104 rads

, (40 yr. TID)

Spray / Flooding: N/A N/A I

2 See EN DES Calculations NEB 830228 221.

See SQU Environmental Data Drawings 47E235-51 for 1, 2-FS-30-194, -195 47E235-59 for 1, 2-FS-30-196, -197 i

i I' ')/ ~

Page 1 of 2 6/12/84:MEDS:054164.02 i

3.

The Dwyer model No. 2627 differential pressure switch is qualified for the following enviroment3:

Temperature: 180"F Pressure: Atm Relative Humidity: 90%

Radiatiqn: 1x107 rada ,

4. The temperature profiles 4 for a RHR line break, which is the worst esse DBE, denotes that the temperature reaches a maximum of 194 F for 1, 2-FS-30-194, -195 and a maxir_t.m of 196 F for 1, 2-FS-30-196, -197 within C 600 seconds and then decreasing linearly t'o a maximum normal of 104 F within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

5.

The flow switches are not used under normal operation. All pentration room coolers start on an ARI signal. There are no procedures to manually put the coolers in the standby mode. The flow switches are tied into the operation of companion coolers, 194 with 195 and 196 with 197.

The flow switches are needed only if the coolers are put into the s tandby mode.

Since the coolers are not normally in the standby mode, failure of one cooler will not cause failure of equipnent in the penetration rooms. If af ter a DBE, the operator does put a cooler in the standby mode and its companion cooler fails, then the operator can manually start the cooler which is in the standby mode.

6.

The above infomation shows justifiestion for continued use of the flev -'

switches. However, due to lack of sufficient documentstion to demonstrate envircr::nental qualification, TVA vill replace switches with qualified devices as detarmined by the resolution of NCR SQNEED8036.

3 Wyle Laboratories Test Report No. S17460-AR-10 Dated November 20, 1981.

'See SQ1 Environmental Data Drawinds 47E235-52 for 1, 2-FS-30-194, -195 47E235-60 for 1, 2-FS-30-196, -197 9 ~

Page 2 of 2 6/12/84:NEDS:054164.02

• l TER Item No. 60 TVA ID No.

1,2-PS-3-148, -156, -164, -171, -1381, -138B t-Manufacturer /Hodel No.

ASCO/Models SB11AKR/TG13A42R and SB11AKR/TL10A321 Status IV Justification for Continued Operation I. For Pressure Switches 1,2-PS-3-148, -156. -164. -171

1. Pressure switches 1,2-PS-3-148, -156, -164, -171 are located in the auxiliary building, elev 714, room A1. They are required to

,perate for 100 days following a LOCA and for 1 month following RER, CVCS, Auxiliary Feedvater, or Auxiliary Boiler line break.1

2. The pressure switches are required to operate in the following environments 2 Nor ul .Abno r-.a 1 Accident .

Temperature: 1040F 1100F 1280F Pressure: Atm(-) Atm(-) Atm Relative Humidity: 80% 90% 100:

Radiation: 5x102 rads N/A 1x104 rada (40 yr TID)

Spray / Flooding: N/A N/A N/A

3. The manufacturer has tested these pressure switches to the following conditions as documented in ASCO test report

~

AQS-101083/Rev. 1.

Temperature: 2100F Pressure: 2.2 psig Relative Humidity: 100%

Radiation: 18.7 x 106 rads l 4. ASCO has tested these switches and has shown that they are fully qualified for the environmental conditions given in section 2 above. However, there is not sufficient seismic test data to consider these devices fully qualified. TVA is currently avaiting further seismic test data frca ASCO.

?)

~

014165.01

5. The seismic DBE failure = ode of these switches, as documented in ASCO letter dated Septe:nber 26, 1984 (EE3 840927 019), is as follows: "The ASCO Tri-Point pressure switch will produce a change of state of the electrical output in response to a process input es ,

this process input signal approaches the set point."

L' ,

The function of these switches is to perform a "avitch-over" from a 4" LCV to a 2" LCV. If, due to a seismic event, switch-over to the 2" LCV occurs at a pressure above 470 psia..the Auxiliary Feedvater pumps will not be able to supply rated flow at rated head.

However,10 minutes is available for the operator to determine lack of rated flow and manually switch back to the 4" LCV. This is based on SQN FSAR section 10.4.7.2.3 which states that if the Auxiliary Feedvater System did not respond for 10 minutes, the systen d-livers the required flow (880 gpm) to perform the system function.

I 2 See EN DES Calculations HEB 840213 221.

See SQN Environmental Data Drawings 47E235-49 014165.01

t 1 d

II. For Pressure Switches 1,2-PS-3-138A, -138B

1. Pressure switches 1,2-PS-3-13SA, -138B are located in the Auxiliary Building elev 669, rooms A6, A26. They are required to operate for 5 minutes following a LOCA and to not fail in a manner .

, detrimental to plant safety for 100 days thereafterl. -

2. The pressure switches are required to operate in the following environment:3:

Hormal Abnormal Accident Temperature: 1040F 1100F 11CfF Pressure: Atm(-) Atm(-) Atm Relative Humidity: 80% 90% 100%

Radiation: 5x102 rads N/A < 1x104 rads (40 yr TID)

Spray / Flooding: N/A N/A N/A

3. The manufacturer has tested these pressure switches to the following conditions as documented in ASCO test report AQS-101033/Rev. 1.

Temperature: 2100F Pressure: 2.2 psig Relative Humidity: 100%

Radiation: 18.7 x 106 rada -'

4. ASCO has tested these switches and has shown that they are fully qualified for the environmental conditions given in section 2 above. However, there is not sufficient seismic test data to consider these devices fully qualified. TVA is currently awaiting further seismic test data from ASCO.

5. The seismic DBE failure mode of these switches, as documented in ASCO letter dated September 26, 1984 (EEB 840927 019), is as follows: "The ASCO Tri-Point pressure switch will produce a change of state of the electrical output in response to a process input as I

this process input signal approaches the set point. The electrical output signal will be maintained after the change of state occurs, if the process signal is maintained at the same level or at a level past the point of change." It has been determined that these switches will have perforned their safety requirement so long as a change of state of electrical output to the tripped condition does not occur above 500 psia. These switches are set at 100 psia and have a 200 psi upper range limit. Since the process is not approaching the set point at 500 psia a change of state would not occur.

6. The above information shows that these switches vill perform their intended safety function. Complete resolution vill be as determined by NCR SQNEZBB408.

3 See Environmental Data Drawing 47E235-71, -72.

~

014165.01

TER ITEM NO. 61 TVA ID No. 1, 2-ry-3-142 MANUFACTC2ER/MODEL NO. Bailey /Hodel 555 STATUS IV JUSTIFICATION FOR CONTINUED USE:

1. Differential pressure transmitters 1, 2-FT-3-142 are located in the Auxiliary Building Elev. 669, Rooms A6, A26. They are required to operate for 100 days following a LOCA and for 1 month following RER, CVCS letdown or AUX boiler line breaks1 .

2. The transmitters are required to operate in the following environments 2 Normal Accident T emperature: 104 y 170 F Pressure Atm Atm Relative Humidity: 801 1002 Radiation: 5:102 rads 1:104 rada (40 yr. TID)

Spray / Flooding: R/A N/A

3. The manufacturer's specifications for the transmitters are T emperature: 185*F Pressure Atm Relative Humidity: Not specified Radiation: Not specified

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative humidity.

5. Since the operating environment is within the manuf acturer's specificaions, the above information shows justification for continued use of the transmitters. However, due to lack of sufficient documentation to demonstrate environmental qualification, TVA vill replace switches with qualified devices as determined by the resolution of NCR SQNEEB8032.

l t

! I 2

See EN ECS Calculations NEB 830713 219.

See SQN Environmental Data Drawing 47E235-71.

I

(<n) 1 Pase 1 of 1 6/12/84:HEDS 054164.02

TER ITEM No. 62 TVA ID No. 1, 2-F M 80, -82, -90, -97 MANUFACTURER /MODEL NO. Foxboro/Model E13DL STATUS IV JUSTI7ICATION FOR COWINUED OPERATION:

1.

Differential pressure transmitters 1, 2-PDI-65-80, -82, -90, -97 are located in the Auxiliary Building, Elev. 714, Roces AS, A9. They are required to operate for 100 days fellowing a LOCAl .

2.

The transmitg:ers environ =ents are required to operate in the following Normal Abnormal Accident Te=perature: 104cF 110 4 110CF Pressure: Atm Atm N/A Relative Humidity: 80 90 N/A Radiation: U1 3.5x104 rada N/A 1x100 rads (40 yr. TID)

U2 3.5x102 rada (40 yr. TID)

Spray / Flooding: N/A N/A N/A

3. The manufacturer's specifications for the transmitters are:

Tempera ture: 180 F Pressure: Atm Relative Humidity: NEMA 4 Enclosure Radiation: Not specified

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative humidity.

5. Since the operating envirocment is within the manufacturer's specifications, the above information shows justification for continued use of the pressure transmitters. However, due to lack of sufficient doctnentation to demonstrate envirotnental qualification, TVA will replace pressure transmitters as determined by the resolution of NCR SQNEEB8025.

l ,

i I

2 See EN ES Calculationa NEB 830217 221.

See SQN Environmental Data Drawing 47E235-51.

I l

Page 1 of 1 6/12/84:MEDS 054164.02

I I

\

. 1 TER ITEM No. 64 I

TVA ID No. 1, 2-FT-72-13, -34 MANUFACTURER /MDDIL Mo. Bailey /Model No. 555 STATUS IV JUSTIFICATION FOR CONTINUES OPERATION 1.

Flow transmitters 1, 2-FT-72-13, -34 are located in the Auxiliary Building, Elev. 690, Rooms A28, A29. They are required to operate for 100 days following a LOCA .I 2.

The transmitters are required , i operate in the following environments , 2 Normal Abnormal Accident T e:nperature: 104'T 110CF 110 F Pressure: A tm Atm N/A Relative Humidity: 802 90% N/A Radiation: 3.5x100 rads N/A 1x100 rads Spray / Flooding: (40yr.}ID)

N/A N/A N/A -,

3. The manufacturer's specifications for the transmitters are:

Te:nperature: 185CP Pressure: At:n Relative Humidity: Not specified Radiation: Not specified

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative busidity.

5. Since the operating envirorement is within the manufacturer's specifications, the above infornation shows justification for continued use of the flow transmitters. However, due to lack of sufficient documentation to demonstrate enviro:::nental qualification, TVA will replace pressure transmitters as determined by the resolution of NCR SQtE.EB8034.

1 2 See EN IES Calculations NEB 830923 221.

See SQN Environmental Data Drawing 47E235-64.

A

\'~)

~

Page 1 of 1 6/12/84 HEDS 054164.02

I 1

TER ITEM NO. - 99 Manufacturer /Model No. - AVCO/C5439/SMB.000 .

TVA ID NOS. -

PSV-30-8 FSV-30-17 FSV-30-10 FSV-30-40

• FSV-30-50 FSV-30-56 FSV-30-52 FSV-30-20 '

FSV-30-15 PSV-30-58 STATUS: To be replaced Justification for Continued Oeeration:

While we are unable to obtain qualification docu=entation for this valve, we have obtained manufacturer's literature which shows that this valve is manufactured from bronze and viton. For the evnironments that this valve will be exposed to these materials should not experience debilitating degredation.

Installation of replacements is scheduled as follows:

Unit 1 - no later than cycle 3 fuel outage period (November 1985) as previously requested in exemption from 10CFR50.49 rules Unit 2 - no later than the end of cycle 2 fuel outage -

November 24, to84.

g(fcxwiar H A ,uos s as o.osert Prepared by: C r,ftof84 Reviewed by: (()

. . h, h [ 28 l 024172.03 l

1 9 -

l 1

9

TER ITEM NO. - 100 Manufacturer /Model No. - AVCO/C5439/SMB-000 TVA ID N05.

• FSV-30-2 FSV-65-28A FSV-30-5 FSV-65-28B FSV-30-60 FSV-65-47A FSV-30-61 PSV-65-47B -

FSV-65-7 PSV-65-50 FSV-65-8 PSV-65-51 STATUS - To be replaced Justification for Continued Deeration -

While we are unable to obtain qualification documentation for this valve we have obtained manufacturer's literature which shews that this valve is manufactured from bronze and viton. For the environments that this valve will be exposed to these materials should not experience debilerating degradation. ,-

Installation of replacements is scheduled as follows: -

Unit 1 - no later than cycle 3 fuel outage period (November 1985) as previously requested in exemption from 10CFR50.49 rules pnit U* 2

• " *" - no later than the end of cycle 2 fuel outage -

Novembei- 24, 1984 g en*< sme.ar m a,e s.a s ss wsvre Prepared by: _

fd &fldfrY ,

~

Reviewed by: M*M/ -

/

f %#!h[ '

024172.04

(")

( =

l

o *' ..

~

o TER ITEM NO. 102 TVA ID NO. 1, 2-FSV-61-192, -194, -122, -97 MANUFACTURER /MODEL HO. ASCO/Hodel No. HT8300 STATUS IV JUSTIFICATION FOR CCh'rINUED OPERATION:

1. Solenoid valves 1, 2-FSV-61-192, -194, -122 are located inside containment, upper compartment. Solenoid valves 1, 2-FSV-61-97 are located inside contain:nent, lover compartment. Valves are required to operate plant for 5for safety minutes following 100 days a Ly. and not to fait detrimental to thereafter Valves are required to operate for 5 minutes following a main steam or feedvater line b to faildetrimentaltoplantsafetyfor100daysthereafter{eakandnot . Valves are required to operate for 5 minutes following a RHR or CVCS line break and not to fail detrimental to plant safety for 1 month thereaf terl .

2. The solenoid2 valves are required to operate in the following environments ,

Solenoid valves 1, 2-FSV-61-192, -194, -122 Normal Accident T e=pera ture: 1100F 160*F Pressure 14.7 psia 26.4 psia Relative Humidity: 80% 100%

Radiation: 2x107 rads 1x108 rads (40 yr. TID)

S pray / Flooding: Spray only Spray only Solenoid valves 1, 2-FSV-61-97 Normal Accident Temperature: 110CF 3274 Pressure: 14.7 psia 26.4 psia Relative Humidity: 80% 100%

Radiation: 2x107 rada 1x108 rads (40 yr. TID)

Spray /T1ooding: Spray only Spray only

3. The manufacturer's specifications for the solenoid valves are Temperatures 176*F Pressura: Ata Relative Etasidity: Not spgelfied Radiation: 4.5x10 rads 1

2 See EN IES Calculations HIB 830208 222.

See SQN Environmental Data Drawings 47E235-44 for 1, 2-FSV-61-192, -194,

-122; 47E235-45 for 1, 2-FSV-61-97.

l q Page 1 of 2 I

) 6/12/84:HEDS 054164.02

'e

4. The solenoid valves 6ust change positica (deenenergize) to allow the associated contain:ne'it isolation valves to close. The solenoid valves must not fail such tr.st air can be ad:sitted to the valve operator causing the valve to open. Failure of the solenoid valve during the first 5 minute.s follwing a D3E will result in the valve deenergizing to it's "f ail-se,f e" position. Failure of the solenoid valve during the

• 0 ' f followini a D3E, due to degradstion of elastomeric ccaponeta, will not result in cen: trol air being admitted to the isolation valve operator.

5. The above information shows justification for continued use of the solenoid valves. However, due to lack of sufficient docesentation to demonstrate environmental qualification TVA vill replace solenoid valves as determined by the resolution of NCR SQiEE38120..

4 Page 2 of 2 6/12/84 HEDSt054164.02

TER Item Ho,105 TVA TD No.

1,2-FSV-81-12 Macufacturer/Model No.

ASC0/Model No. BU200-300-1RV Status IV Justification for Continued Doeration

1. Solenoid valves 1,2-FSV-81-12 are located in the auxiliary building, elev 690, room A28 and A29 . They are required to operate for 5 minutes following a LOCA and not to fail ' detrimental to plant safety for 100 days thereafterl .

2. The solenoid valves are required to operate in the following environments 2:

Normal Abnor_al Accident Tenperature: 1040F 1100F 12807 Pressure: Atm Atm N/A Relative Humidity: 80 90: B/A .

Radiation: 3.5x105 rads 1x10'rnds (40 yr TID)

Spray / Flooding: N/A N/A N/A I

2 See EN DES Calculations NE3 840120 226 See SQN Environmental Data Drawings 47E235-64

3. The manufacturer's specification for the solenoid valves are:

Temperature: 1760F Pressure: Atm Relative Humidity: Not specified Radiation: 4x105 rada

4. See generic position 6.1.8 for relative humidity.

5. Since the operating environment is within the manufacturer's specifications, the above information shows justification for continued use of the solenoid valves. However due to lack of sufficient docunentation te demonstrate environmental qualification, TVA vill replace the solenoid valves with qualified devices as determined by the resolution of NCR SQNEE38015.

) 014166.02 ~

l TER ITEM NO. 106 TVA ID NO. 0-FSV-12-79 MANUFACTURER /MODEL No. a  ?/Hodel No. HV200-924-2F STATUS IV .

JUSTIFICATION FOR COh7INUED OPERATION:

1.

Solenoid valve 0-FSV-12-79 is located in the Auxiliary Building, Elev.

690, Room A1 (Volu:ne 9). It is required to operate for 5 minutes following a LOCA or AFW pu:np turbine steam supply line break and not to fail detrimental to plant safety f or 100 days following a LOCA or for 1 month following AFW pump turbine steam supply line break .

• 2.

The solenoid valves are required to operate in the following environ:nents2 ,

Hormal Abnomal Accident Tempera ture: 104 F 110"F 110"F Pressure A tm Atm Atm Relative Humidity: 80% 90% 100*

Radiation: 5x102 rads N/A 1x10' rads (40 yr. TID)

Spray / Flooding: N/A N/A N/A

3. The manufacturer's specifications for the solenoid valves are:

Temperature: 14007 Pressure: A tm Relative Hu:sidity: Wategtightenclosure Radiation: 7x10 rads

4. Since the operating environment is within the manuf acturer's specifications, the above infomation shows justification for continued use of the solenoid valves. However, due to 1sek of sufficient documentation to demonstrate environ:nental qualification, TVA vill replace solenoid valves as determined by the resolution of NCR SQE.EB8050.

1 2 See EN DES Calculalons NEB 830923 220.

See 501 Environ:nental Data Drawing: 47E235-55 -37.

I

/) .

U Page 1 of 1 6/12/84 MEDS 054164.02

TER ITEM NO. 107 TVA ID NO. 1, 2-FSV-90-107, -111, -113, -117 HANUFACTURER/MODEL NO. ASCO/Hodel No. HTI8320A22V ,

m vne sv JUSTIFICATION FOR C0h' rih"JED OPERATION:

e

1. Solenoid valves 1, 2-FSV-90-107, -111, -117 are located inside Annulus, Elev. 718. They are required to operate for 5 minutes following a LOCA, main stean line break or feedvater line b{eak and not to fail detrimental to plant safety.for 100 days thereafter . They are required to operate for 5 minutes following a RER or CVCS line break and not to fail detrimental to plant safety for 1 month thereafter . l

2. The solenoid, valves are required to operate in the following environments'.

Nor=al Accident Te=perature: 110er 150*F Pressure Atu Atm Relative Hu=idity: 802 1002 Radiation: 2x107 rads 5x107 rads (40 yr. TID) -'

Spray / Flooding: N/A N/A

3. The manuf acturer's specifications for the solenoid valves are Temperatures 200er Pressure: Atm Relative Huidity: Water tight enclosure Radiation: 7x106 rade

4. See generic position 4.1.8 for relative humidity.

5. The solenoid valves must deenenergize to close their associated contairrnent air monitor islation valves on a containment vent isolation signal. The solenoids cannot fail such the control air will be admitted to the FCVs causing them to remain open. Failure of the solenoid valve during the first 5 minutes following a DBE will result in the valve deenergizing to it's "f ail-safe" position. Failure of the solenoid valve during the 100 days following a DBE, due to degradation of elastomeric components, will not result in control air being admitted to the isolation valve operator.

6. The above information shows justifiestion for continued use of the solenoid valves. However, due to lack of sufficient documentation to demonstrate envirotznental qualification, TVA vill replace solenoid I valves as determined by the resolution of NCR SQNEEB8044.

2 See EN CES Calculalons NEB 830923 220.

See SQN Environmental Data Drawings 47E235-55, ~57.

O

\ > -

Page 1 of 1 6/12/84:HEDS 054164.02

I*

TER Itee No. 108 TVA ID No.

1,2-LSV-3-148, -156, -164, -171, -172, -173 Manufacturer /Model No,

!.CCO/.M: del No. HT8300358RU Status IV Justifiestion for Continued Operation _

I. For Solenoid Valves 1,2-Lsv-3-148, -156, -164. -171

1. Solenoid valves 1,2-LSV-3-148, -156, -164, -171 are located in the auxiliary building, elev 714, room A1. They are required to operate f or 100 days f ollowing a LOCA and for 1 month following RER, CVCS letdown or aux boiler line breaks.

2. The solenoid valves are required to operate in the following environ =ents2 :

Normal Accident 1040F 1280F Temperature: Atm Pressure: Atn 1001 Relative Humidity: 80%

1x104rads Radiation: 5x102 rads (40 yr TID)

N/A N/A Spray / Flooding:

I ee S EN DES Calculations NE3830713 219 2See SQN Environnental Data Drawings 47E235-49

3. The manuf ac*urer's specification for the solenoid valves are:

Temperature: 1760F Pressure: Atm Relative Humidity: Water Tight Enclosure Radiation: 4.5x105 rada

4. See generic position 4.1.8 for relative humidity.

5. Since the operating environnent is within the manuf acturer's specifications, the above inf ornation shows juscification for continued use of the solenoid valves. Bovever due to lack of I sufficiant documentation to demonstrate environmental qualification. TVA vill replace the solenoid valves with qualified l devices as determined by the resolution of NCR SQNIE38048.

I I Oj .

014165.01 l

~;;. .

II. For solenoid valve: 1,2-LSV-3-172, -173

1. Solenoid valves 1,2-LST-3-172 -173 are located in the auxiliary I building elev 714, rooms A6, A10. They are required to operate for 5 minutes following a LOCA and not to f ail detrimental to plant safety for 100 days thereafterl . They are required to operate f or 5 minutes f ollowing RHR, CVCS letdown or aux boiler line breaks and not to f ail deteri= ental to plant safety for 1

• month thereafterl.

2. The solenoid valves are required to operate in, the following environ =ent3:

Nor=_al Accident Temperature: 1040F 1940F Pressure: Atm Atm Relative Hu=idity: 80% 100%

Radiation: 1x106 rads 1x104 rads (40 yr TID)

Spray / Flooding: N/A N/A

3. The manufacturer's specification for the solenoid valves are:

Te=perature: 1760F Pressure: Atm -

Relative Hu=idity: Water Tight Enclosure Radiation: 4.5x105 rads

4. See generic position 4.1.8 for relative humidity. ,

5. Following a DBE, the solenoid valves must go to the deenergized state so that the associated LCV's go to the modulate mode. The solenoid valves must remain in the deenergized state so that the LCY's do not close and isolate the flow of AW to any steam generator. Failure of the solenoid valve during the first five minutes following a DBE will result in the valve deenergizing to its " Fail-Safe /Hodulating" position. Failure of the solenoid valve during the 100 days following a PBE, due to degradation of elastomeric co=ponenets, will not result in loss of control air to the modulator.

6. The above information shows justification for continued use of the solenoid valves. However, due to the lack of sufficient documentation to demonstarate environmental qualification, TVA vill replace the solenoid valves with qualified devices as deter =ined by the resolution of UCR SQNIEBB046.

3 See SQR environmental data drawing 47E235-83.

014165.01 t

,TER Item No. 109 TVA ID No.

1,2-LSV-3-148A, -156A, -164A, -171A, and 1,2-7S7-77-128 Manufacturer /Model No.

ASCO/Model No. WPI-HV-202-301-IF Status IV Justification for Continued Operation I. For Solenoid Valves 1,2-LSV-3-148A, -156A, ~164A, and -171A

1. Solenoid valves 1,2-LSV-3-148A, -156A, -164A, and -171A are located in the auxiliary building, elev 714, room 11, volume 12. They are required to operate for 100 days following a LOCA and for 1 month following RER, CVCS, auxiliary feedvater, or auxiliary boiler line breaks.1

2. The solenoid valves are required to operate in the following environ =ents2:

Nornal Accident _ ,,

Te=perature: 1040F 1290F Pressure: Atm Atm Relative Hu=idity: 801 100%

Radiation: 5x102 rads 1x104 rads (40 yr TID) (LOCA)

Spray / Flooding: N/A N/A I See EN DES Calculations EEB 830713 219 2See SQN Environmental Data Drawings 47E235-49R0 and -50R0.

3. The manufacturer's specification for the solenoid valves are Temperature: 1760F Pressure Atm Relative Humidity: NEMA 4 2nclosure Radiation: 7x106 rads

4. See generic position 4.1.5 for radiation and 4.1.8 for relative humidity.

5. Since the operating environment is within the manufacturer's specifications, the above information shows justification for continued use of the solenoid valves. Bovever due to lack of sufficient documentation to demonstrate environmental

qualification, TVA vill replace the solenoid valves with qualified I devices as determined by the resolution of NCE SQNIEB8049.

l 014165.01 l

1 i

l

., .; . . ror soienote valve:

1,2-FSV-77-128 3

1. Solenoid valves 1,2-FSV-77-128 are located in the auxiliary building elev 690, rooms A28 and A29, respectively, volume 17.

They are required to operate for 5 minutes and not to fail in a manner detrimental to plant safety for 100 days following a LOCA3 .

2. The solenoid valves are required to operate in the following environments' Normal Accident ,

Temperature: 1040F 1290F Pressure: Atm(-) Atm Relative Humidity: 80% 100I Ladiation: 5x102 rads 1x104rada (40 yr TID) (LOCA)

Spray / Flooding: N/A N/A

3. The manuf acturer's specification for the solenoid valves are:

Temperature: 1760F Pressure: Atm Relative Hu=idity: NEMA 4 Enclosure Radiation: 7x106 rads

4. See generic position 4.1.5 for radiation and 4.1.8 for relative humidity. ,

5. Since the operating environment is within the manufacturer's specifications, the above information shows justification for continued use of the solenoid valves. However, due to lack of sufficient documentation to demonstrate environmental qualification. TVA vill replace the solenoid valves with qualified devices as determined by the resolution of RCR SQNEEB8049.

3See EN DES Calculatione NEB 830208 225 4See SQN Environmental Data Drawing 47E235-6410 i

l l

1

("h) c14165.01

TER It em No.110 TVA ID No.

1,2-FSV-67-342. -344, -346. -348, -350. -352 -

1,2-FSV-70-35 Itinufacturer/Hodel No.

For solenoid valve 1,2-FSV-67-342 ASCO/H383'0081RU For solenoid valve 1,2-FSV-70-85 ASC0/HT8300358RU For solenoid valve 1,2-FSV-67-344 ASC0/H38300C58RU

-346,-348 -350,

-352 ,

Status IV Justification for continued Ooeration I. For Solenoid Valves 1,2-FSV-67-342. -344. -346. -343

1. Solenoid valves 1,2-FSV-67-342, -344. -346. -348 are located in the auxiliary building, elev 669, rooms A7 and A25. They are required to operate for 100 days following a LOCA and for 1 month following -,

an auxiliary boiler line break, auxiliary feedvater line break RHE and CVCS accidents.

2. The solenoid2 valves are required to operate in the following environments :

Torng1 Accident Temperature: 1040F 1100F Fressure: Ata(-) Ata(-)

Relative Bumidity: 80% 100%

Radiation: 1.75x102 rads (unit 1) 1x104rada 3.5x104 rads (unit 2) (LOCA)

(40 yr TID)

Spray / Flooding: N/A N/A I

See EN DES Calculations DEB 830829 220 for essential raw cooling water 2

system and HEB 830829 221 for component cooling system.

See SQN Environmental Data Drawing reference: I - 47E235-69,70,20 II - 473235-64 R0 i

III - 473235-59,60,10 l

1

11. For solanoid valves 1,2-FSV-70-85

1. Solenoid valves 1,2-FSV-70-85 are located in the auxiliary building, elev 690, room A28 and A29. They are required to operate for 5 minutes following a LOCA. Additionally, they must not fail in a manner detrimental to plant safety for 100 days -

thereafter.

014166.03

2. These solenoid valves are required to operate in the following environments 2,

,, Nor al Accident D

Tamperature: 1040F 1100F (14cA)

Pressure: Atm(-) Atm(-)

Relative Humidity: 80I N/A Radiation: 3.5x105 rads 1x104rada (40 yr TID)

Spray / Flooding: N/A N/A III. For solenoid valves 1,2-FSV-67-350, -352,

1. Solenoid valves 1,2-FSV-67-350. -352 are located in the auxiliary building at elev 690, room A6. They are required to operate for 100 days following a LOCA and one month following an auxiliary feedvater line break, auxiliary boiler line break, CVCS and RH1 accidents.

2. The solenoid, valves are required to operate in the following environments *.

Fo m 1 Accident Temperature: 1040F 1960F (REL2)

Preaauret Ata(-)

Relative Humidity:

Ata(-)

80: N/A Radiation: 1.7x103 rada (unit 1) 1x104rads

' 3.5x10% rada (unit 2)

(40 yr TID)

Spray / Flooding: N/A N/A

3. The manufacturer's specification for the solenoid valves are Temperature 1400F Pressure Atu Relative Bumidity: NDR 1 Enclosure Radiation: 4x105 rads

4. See generic position 4.1.5 for radiation and 4.1.8 for relative humidity.

014166.03

h a

5. The above information shows that the valves are not qualified.

These solenoids operate the ERC'J control valves which supply cooling water to the penetration room coolers located on elevations 490 and 714. The solenoids are normally in the energized position, which keeps the control valves closed. Upon receipt of a penetration room cooler fan start signs 1, the solenoid valves will deenergize to supply cooling water to the room coolers. The maximum design temperature for these solenoid valves is 140*7.

This temperature will be exceeded in approximatley 1-1/2 minutes after an RER line break (this is an RHR line break in the auxiliary building, which can be isolated). However, the cooling fans are set to start at 95'F so the solenoid valves will complete their safety function (deenergizing to allow control valve to open) before failure occurs. No failure mode is foreseen that will cause solenoid reenergitation (causing the control valve to close). If the temperature subsides to where the fan turns off, the failure of the solenoid to reenergize will not compromise plant safety. TVA vill replace the solenoid valves with qualified devices as determined by the resolution of HCR SQNEEB8046.

i i

l l

l l (o -

014166.03

TER It em No.111 TVA ID No.

1,2-F8V-67-168,170,176,182,184,186,188,190, 213, 215, 354, 356

• Nanufacturer/Model No.

For solenoid valves 1.2-PSV-67-168, 170, 176, ASC0/E38300C58RU 182,188,190, 213, 215, 354, 356, and 1-787-67-184 For solenoid valves 2-FSV-67-184 ASC0/EV-200-921-1RF

' Status IV Justification for Continued Ooerstlen

1. For Solenoid Valves 1,2-FSV-67-168, 170

1. Solenoid valves 1,2-FSV-67-168, 170 are located in the auxiliary building, elev 669, room A1. They are required to operate for 100 days following a LOCA and for 1 month following RER, CVCS letdown, AW pump turbine steam supply or aux boiler line breaks.

4 2. The solenvid, valves are required to operate in the following environments *:

For-al Accident Temperature 1040F Pressure: 1430F Ata(-) Ata(-)

Relative Humidity: 801 1001 Radiation: 5x102 rade Ax104 rade (40 yr TID) (LOCA)

Spray / Flooding: N/A N/A 1

2 8ee EN DES Calculations NES 330029 220 See SQN Environmental Data Drawings 47E235-65, 68

3. The manufacturer's specification for the solenoid valves are:

Temperature: 1400F Pressure: Ata Relative Bumidity: NIMA 1 Enclosura Radiation: 4x105 rads 4

See generic position 4.1.5 for radiation 4.1.8 for relative humidity.

014166.03

5. Since the operating environment is within the manufacturer's specifications, the above information shows justification for continued use of the solenoid valves. However due to lack of sufficient documentation to demonstrate environmental qualification. TVA will replace the solenoid valves with qualified .

devicae as determined by the resolution of liCR SQNEE38046.

11. For solenoid valves 1,2-7S7-67-176, 182 1.

Solenoid valves 1,2-FSV-67-176, -182 are located in the auxiliary building elev 669, room A1. They are required to operate for 5 minutes following a LOCA3 .

2.

The solenoid 3 valves are required to operate in the following environment Nornal Accident, Tempers. ore 1040F Fressure N/A Atm(-) N/A Relative Humidity: 80%

Radiation: N/A 5x102 rads 1x104 rada (40 yr TID)

Spray / Flooding ti/A N/A

3. The inanufacturer's specification for the solenoid valves are:

Temperatures 1400F Pressures Atm Relative Humidity: NZMA 1 Enclosure Radiation: 4x105 rada

4. See generic position 4.1.5 for radiation and 4.1.8 for relative humidity.

5. Since the operating environment is within the manufacturer's specifications, the above information shows justification for continued use of the solenoid valves. However, due to lack of suf ficient documentation to demonstrate environmental qualification. TVA will replace valves with qualified devices as detornined by the resolution of HCR SQHEE38046.

Ill.

For solenoid valves 1,2-FSV-67-134 -186, ~188 -190 1.

Solenoid valves 1,2-FSV-67-134. -186, -188, -190 are located in the auxiliary building, olev 653, room A1. 1,2-FSV-67-184 -186 are required to operate for 30 days following a LOCA.

1,2-FSV-67-188, following a LOCA5-190

, are required to operate for 100 days 9 ~

014166.03

(( 2. The solenoid valves are required to operate in the fo11cving envircement:6,

,. _for 21 Accident Temperature: 1040F 3/A Pressure: Ats(-) U/A Relative Humidity: 80% N/A 2adiation: 3x102 rads 1x104rads (40 yr TID)

Spray / Flooding: N/A N/A

3. The manufseturer's specifications for the solenoid valves are:

Temperature: 1400F Pressure Ata Relative Humidity: NEMA 1 Enclosure Radiation: 4x105 rada

4. See generic position 4.1.5 for radiation and 4.1.8 for relative humidity.

5. since the operating environment is within the nanufacturer's specifications, the above information shows justification for continued use of the colenoid valvos. However, due to lack of sufficient documentation to demonstrate environmental qualification, TVA vill replace these valves with qualified devices as determined by the resolution of HCR CQNEE38046.

IV. For solenoid valves 1-FSV-67-213. -215

1. Solenoid valves 1-75V-67-213, -215 are located in the auxiliary building, elev 714, room A1. They are required to operate for 100 days following a LOCA and for 1 month following 2HR, CVCS letdown, ATV pump turbine steam supply or aux boiler line breaks}

2. The solenoidB valves are required to operate in the following environments :

For tal Accident Temperature: 10407 1280F Pressure Ats(-) 14.4 psia Relative Humidity: 802 100:

Radiation: 5x102 rads 1x104rado I

(40 yr TID) (LOCA)

Spray / Flooding: N/A N/A 78ee EN des cateulation HEB 830829 220 8

i 1

See SqN Environmental Data Drawings 472235-49 -50 (Q._J .

014166.03

1

3. The manufacturer's specifiestions for the solenoid valves are:

Temperature: 1400F Pressure: Atn )

~ Relative Bumidity: UZMA 1 Enclosure Radiation: 4x105 rada *

4. See generic position 4.1.5 for radiation and 4.1.3 for relative humidity.

5. Since the operating environment is within the manufacturer's specifications, the above information shows justification for continued use of the solenoid valves. However, due to lack of suf ficient documentation to de:nonstrate environmental qualification, WA vill replace these valves with qualified devices as determined by the resolution of NCE SQNEEB8046.

Y. 7or solenoid valves 1,2-787-67-354, -356

1. Solenoid valves 1,2-75V-67-354 -356 are located in the auxiliary building, elev 714, rocus A5 and A9. They are required to operste for 100 days following a LOCA and for 1 month fo11cving RH2, CVC3 letdown, AW pump turbine steam supply or aux boiler line breaks).

2. The solenoid vsives are required to operate in the following environmenta10:

Form 1 Accid et Temperature: 1040F 1940F Pressure: Ata(-) 14.4 ps!a Relative Bumidity: 801 100%

Radiation: 3.5x104 rads 1x104 rads (40 yr TID unit 1) (LOCA) 3.5x102 rads '

(40 yr TID unit 2)

Spray / Flooding: N/A N/A I See EN DES Calculation HIB 830829 220 10 See SQN Environmental Data Drawings 47E235-51, -52

3. The manufacturer's specifications for the solenoid valves are:

Temperature: 1400F Prassure: Ata Relative Humidity: DIHA 1 Enclosure Radiation: 4x105 rads

, 4. See seneric position 4.1.5 for radiation and 4.1.8 for relative humidity.

l 014166.03

l l

5. The above information shows that the valves are not qualified.

These solenoids operate the ERC'4 control valves which supply cooling water to the penetration room coolers located on elevations s690 and 714. The solenoids are normally in the energized position, vbich keeps the control valves closed. Upon receipt of a penetration room cooler fan start signal, the solenoid valves will deenergize to supply cooling water to the roca coolers. The maximum design temperature for these solenoid valves in 140*F.

This temperature will be exceeded in approximatley 1-1/2 minutes after an RER line break (this is an RER line break in the auxiliary building, which can be isolated). However, the cooling fans are set to start at 95'F, so the solenoid valves will complete their safety function (deenergizing to allow control valve to open) before failure occurs. No failure mode is foreseen that will cause solenoid reenergization (causing the control valve to close). If the temperature subsides to where the fan turns off, the failure of the solenoid to reenergize will not compromise plant safety. TVA vill replace the solenoid valves with qualified devices as determined by the resolution of NCR SQNEEB8046.

.=

(~)

J l

014166.03 i

i I

l l

TIR Item No. 112 l

TVA ID No.

2-75V-67-184 Manufacturer /Model No.

ASC0/Hodel No. HV-200-921-1RF Status IV Justifiestion for Continued Overation

1. Solenoid valve 2-FSV-67-184 is located in the auxiliary building, elev 653, room A1. It is required to operate for 30 days following a LOCA.

2. The solenoid, valve is required to operate in the following environ =ents':

Nor_al Accident Te=perature: 1040F N/A Pressure: Ats(-) N/A Relative Humidity: 80% N/A Radiation: $zl02 rada 1x10% ads Spray / Flooding: N/A N/A ISee EN DES Calculations NEB 830829 220 for Essential Rav Cooling Water 2

See SQN Environ = ental Data Drawings 47E235-73R0

3. The manufacturer's specification for the solenoid valve is:

Temperature: 1400F Pressure: Ata Relative Eumidity: NIMA 1 Enclosure Radiation: 4.0x105 rada

4. See generic position 4.1.5 for radiation and 4.1.8 for relative humidity.

5. Since the operating environment is within the manufacturer's specifications, the above infomation shows justification for continued use of the solenoid valve. However due to lack of sufficient documentation to demonstrate environ = ental qualification T7A vill replace the solenoid valve with qualified devices as determined by the resolution of NCR SQNEE38046.

, n .

I )

014166.02

TIR Item No. 113 TV4 TD Mo.

2-FSV-61-96, and -110 Manufacturer /Model Mo.

ASCO/Model No. HT8300D58RF Status IV Justification for Continued overation

1. Solenoid valves 2-FSV-61-96, and -110 are located in the auxiliary building, elev 734, room A16. They are required to operate for 5 minutes and not f ail in a manner detri= ental to plant safety for 100 days following a LOCAl .

2. The solenoid valves are required to operate in the following environments2 :

Nornst Accident Temperature: 1040F 1100F Pressure: Atm Atm Relative Humidity: 80% 3/A -

Radiation: 3.52102rada 3x10' rads (40 yr TID) (LOCA)

Spray / Flooding: N/A N/A I See EN DES Calculations NEB 830208 222 2See SQN Environmental Data Drawings 47E235-8120

3. The manufacturer's specification for the solenoid valves are:

Temperature: 1400F Fressure: Ata Relative Humidity: NEMA 4 Enclosure Radiation: Not specified 4 See generic position 4.1.8 for relative humidity. The solenoid valves must change position (DE-ENERGIZZ) to allow the associated containnent isolation valves to close. The solenoid valves must not fail such that air can be admitted to the valve operator causing the valve to open.

The solenoid valves vill not see the full 3x107 rads within the first 5 minutes of the LOCA. Failure of the solenoid valves due to degradation of elastomeric components during the 100 days following a LOCA will not result in control air being admitted to the isolation valve operator.

5. The above information shows justification for continued use of the

! solenoid valves. Dovever, due to lack of sufficient documentation to demonstrate environmental qualification TVA will replace. solenoid valves as determined by the resolution of NCE SQNEEB8007.

(~ ) 014165.01 .

1

Tn tt u !To.121 i  :

TVA TD 'fo.

1,2-FST-1-131, -132. -133, -104; 1,2-737-77-127; 1,2-737-90-105, -109,

-110. -114. -115 -116 14nufseturer/Pe44 'fo.

For 1,2-F8Y-1-181. -183, -184; 2-F87-1-182 ASCO/Model No. BT3300858E For 1-787-1-182 ABC0/Model No. LB83003641U For 1,2-787-77-127 ASCO/Hodel No. 'JPZH7202-301-1 For 1,2-FSY-90-108, -109, -110, -114. -115. -116 ASC0/Uodel Do. HT:3320A227 11 Alga 17 Justif tentien Se centhuad %-rnt .es3

1. Solanoid valves 1,2-737-1-131, -102. -103. -104; 1,2-737-77-1271 1,2-737-90-103, -109, -110. -114, -115 -116 are located is the containment, lower ccupartment. Solanoid valves are required to operate for 5 minutos following a LCCA, main steam line break or feedvater line break and not to fait detrimental to plant cafety for 100 days thereaftarl.

2. The solenoid, valves are required to operate in the following environments

• M Accident Temperature 12007 3270F Pressure: 14.7 psia 26.4 psia Relative Unnidity: 80% I Radiation: 2x107 rads - 1x10g01 rads (40 yr TD)

Spray /71oodins: Spray Caly Spray only I For 1,2-F3Y-1-131. -132, -135. -104 see E2 DES Calculations NEB 340213 219 For 1,2-787-77-122 see C2 DZ3 Csiculations DH2 040213 219 For 1,2-F3Y-90-103.-109, -110 -114 -115 -115 see C2 DES Calculatica UEB 030223 227 2

l 3ee 343 Eavironmental Data N -tings 473235-45 l *

~

014164.02

3. The manufacturer's specification for the solenoid valves are:

Model No(a). HT8300B581U, WPInV202-301-1 Temperature: 1760F Pressure: Atm Relative Humidity: HT3300B58RU IEMA 1 VPIEV202-301-1 Watertight Enclosure Radiation: 4.5x105 rads.

Model No. 1.38300B64RU Temperature: 1400F Pressure: Atm Relative Humidity: NEMA 1 Radiation: 4x105 rads Model No. HTIB320A22V Temperature: 2000F Pressure: Atm Relative Humidity: Watertight Enclosure Radiation: 7x100 rads ..

4. See generic position 4.1.3 for relative humidity.

5. Following a DBE, solenoid valves 1,2-FSV-1-181, -182, -183, -184 must go to the deenergized state and remain in that position to prevent an open path to outside containment.

Following a DBE, solenoid valves 1,2-FSV-77-127 must deenergize to close their associated FCV's on a phase A containment isolation signal or high radiation. The solenoids cannot fail such that control air vill be admitted to FCV(s) causing them to remain open.

Following a DBE, solenoid valves 1,2-FSV-90-108, -109, -110 -114

-115. -116 must deenergize to close their associated FCVs on a l

containment vent isolation signal. The solenoids cannot fail such that control air will be admitted to FCV(s) causing them to remain open.

Failure of the solenoid valves during the first five minutes following a DBE vill result in the solenoid valve deenergizing to its " Fail-Safe" position. Failure of the solenoid during the 100 days following a DBE, due to degrndation of elastomeric components, should not result in control air being admitted to the valve operator and reopening the valve.

t

6. The above information shows justification for continued use of the T

(M solenoid valves. However, due to lack of sufficient documentation ~

to demonstrate environmental qualification, TVA will replace the solenoid valves with qualified devices as determined by the resoluticn of NCR SQNEEB8039.

014166.02

l

, TZR Itea No. 123 TVA ID 'fo.

1,2-PSV-1-7, -14. -25, -32. -147, -148, -149, -150 Manufacturer /$o' del *?o.

m u/noceA mo.,uT830035SIU

. Status IV Justifiestion for Continued Operation

1. Solenoid valves 1,2-FSV-1-147. -150, -7, -14. -25, -32 are located in the auxiliary building, elev 706, rooms A1, All. Solenoid valves 1,2-FSV-1-148,, -149 are located in the auxiliary building, elev 706, rooms A2, A10 Solenoid valves are required to operate for 5 minutes following main steam or feedvater line breaks and not to fail detrimental to plant safety for 100 days thereafterl.

2.

The solenoid valves are requirod to operate in the following environ =ents2:

For solenoid valves 1,2-78V-1-147. -150, -7, -14. -25. -32

tor *al Ace W et Temperature

13007 Pressure 307ey Ata 22.9 psia Relative Humidity: 502 Radiation: 3.5x104 rads IQO:

1x10* rads (40 yr TID)

Spray / Flooding: N/A D/A For solenoid valves 1,2-FSV-1-148. -149 norwl Aceident Temperature:

1300F 2990F Fressure: Ata Relative Humidity: 24.4 psia 50%

Radisticn: 1.75x103 rads 100%

1x10% ads (40 yr TID)

Spray / Flooding: D/A N/A I

2 See EN DES Calculaticus NEB 830217 219 See 8QN Environmental Data Drawings 472235-79 i

014165.02 O. -

i

3. The manufacturer's specification for the solenoid valves are:

Temperature: 1760F

s. Pressure: Atm Relative Hu=idity: Uater Tight Enclosure Radiation: 4.5:105 rads

4. See generic position 4.1.8 for relative humidity.

5. Fo11cving a DBE, solenoid valves 1,2-FSV-1-7,'-14. -25, -32 must go to their deenergized position to close their associated isolations valves and remain deenergized so that the valves remain closed to prevent an uncontrolled loss of water from the steam generators.

If the steam generator varming valves are open when a DBE occurs, solenoid valves 1,2-FSV-1-147, -148 -149, -150 must go to the deenergized position to close their associated valve to isolate the loss of main steam, and the solenoids must remain deenergized to keep the valves closed. If the warming valves are not in use when the event occurs (varming valves are closed), the solenoids must remain in the deenergized state to keep the valves closed. Failure of the solenoids valves during the first five minutes following a D3E will result in the valve deenergizing to its " Fail-Safe" position. Failure of the solenoid valve during the 100 days following a DBE, due to degradation of elastc=eric components, -

should not result in control air being admitted to the valve operator and reopening the valve.

6. The above information shows justification for continued use of the solenoid valves. However, due to the lack of sufficient documentation to demonstrate environmental qualification, TVA vill replace the solenoid valves with qualified devices as determined by the resolution of NCR SQNEEB8048.

1 014165.02

TER ITEM NO. 135 MANUFACTURER /MODEL NO. - Namco EA-170 TVA ID_ FCV-90-107(LS), -111(LS) , -Il3 (LS), -ll7(LS)

STATUS - IV JUSTIFICATION FOR CONTINUED OPERATION (JCO)

The limit switches are in the seal-in (control) circuit for the contain=ent upper and lover compartment air monitors outboard containment isolation valves. These valves close upon receipt of a containment vent isolation signal. After an accident inside containment, the limit switches may fail in the closed position allowing the associated valves to reopen (if open at time of accident) vben the containment vent isolation signal is reset.

Taking a single failure of the inboard isolation valve (failing open), a path to outside primary containment (into the annulus) would exist. After a Loss of Coolant Accident (LOCA), the increased containment pressure may cause airborne pressurize radioactivity to be released into the annulus, and may also the annulus. We believe that justification for continued operation is provided for the following reasons:

1.' It is highly unlikely that the spring-loaded fail-closed inboard valve (which receives the same signal as the outboard valves) would fail in the open position.

2 Resetting the containment vent isolation signal is included in s

emergency procedure ES-0.2, "SI Termination." After a large break LOCA, SI (Safety Injection) vill not be terminated until very late in the event. By this time, containment pressure vill be reduced to near normal and any radiation leakage into the annulus will be filtered through the Emergency Gas Treatment System (EGTS).

3.

ES-0.2 cautions the operator to determine whether, after a LOCA, the contain=ent ventilation systems should be returned to normal alignment.

It is highly unlikely that the operator vill reset containment vent isolation if there is any significant release of radiation into the containment.

Note: SQN drawing 47W611-88-1 shows that the valves associated with the subject limit switches receive a " phase B" containment isolation signal. This reflects a change required by ECN L-5966. This ECN changed the valve closure signal from " containment vent" to " phase B." Up to this time, the ECN has never been implemented.

Therefore, the valves still receive a containment vent isolation signal instead of a phase B signal, which is the closure signal upon which this JC0 is based. If the ECM change is implemented before theseislimit 3C0 null switches and void,are replaced with qualified components, this r3 Prepared by k d MdEw._ L4dt'I ~

Reviewed by [ [ b '

~ M/P//C 1

i l 055042.02 l

~

TER ITFM NO. - 140 Manufacturer Model No. - MicroSwitch OPDAR 7905

---

3TATUS r See belev------ ---- - -- -

TVA lu NO. STATUS '

1-FCV-313-222 Replaced 2-FCV-313-222 Replaced -

1-FCV-313-223 Replaced 2-FCV-313-223 Replaced 1-FCV-313-224 Replaced 2-FCV-313-224 Replaced 1-FCV-313-225 Replaced 2-FCV-313-225 Replaced 1-FCV-313-229 Replaced 2-FCV-313-229 To Be Replaced 1-FCV-313-230 Replaced 2-FCV-313-230 To Be Replaced 1-FCV-313-231 Replaced 2-FCV-313-231 To Be Replaced 1-FCV-313-232 Replaced 2-FCV-313-232 To Be Replaced -

Justification for Centinued Oeeratien -

MicroSwitch has a line of standard basic switches which have a wide range of operating characteristics, temperature tolerances, and sealing materials. Their basic switch is comprised of phenolic, beryllium copper, and silver with capabilities of 4000 F. Based on standard manufacturer's specifications and past experience we believe these switches are qualified for operation until their replace =ents can be installed.

Installation. of replace =ents is scheduled as follows:

no later than the' end.of _ cycle 2 fuel outage -

November 24, 1984 d E A Ac.dasi.J 7 asAA r4Ls4L 65 e steTC j Prepared by: @ ~ 6[7d2Y

• / /

Reviewed DY # .

'r' '

(/ m G24172.05 f$af g -

.a TIR It es No. 141 TVA ID No.

1-FCV-32-80, -102, -0110 Manufacturer /Model No.

KAXCC Controls / Model No.21-700 Srstus IV Justification for continued Deeratien

1. Limit swit ches 1-FCV-32-80, -102, -110 are located in the annulus at elev 707. They are required to operate f or 5 minutes following a LOCA, main steam line break, feedvater line break, RER, and CYCS accidents. Additionally, they must not f ail in a manner detrimental to plant safety for 100 days af ter a LOCA,, main steam line break, feedvater line break, and 1 month af ter a RER or CVCS accident.

2. The IL=it switches are required to operate in the following envirotments2:

Nor-al Accident Te=perature: 1100F 1500F

~

Pressure: Atm(-) Atm(-)

Relative Besidity: 802 1002 Radiation: 1x107 rads 5x107 rads (40 yr TID)

Spray / Flooding: N/A N/A ISee EN DES Calculations NE3 830208 220 for control air system 2See SQN Environmental Data Drawings 47E135-4720

3. The manufacturer's specification for the solenoid valves are:

Temperature: 1940F Pressure: Ata Relative Humidity: NEMA 4 Radiation: Rot specified 4 See generic position 4.1.5 for radiation and 4.1.8 for relative humidity.

5. Since the operating environment is within the manufacturer's specifications, the above information shows justification for continued use of the limit swit ches. However due to lack of sufficient documentation to demonstrate environmental qualification. TVA vill replace the limit switches with qualified l devices as determined by the resolution of NCE SQNEE38104 I

i 014165.02

1 l

,TER I t em No. 143 e

• TVA ID No.

1,2-FCV-1-147 (LS), -148(LS), -149(LS), -150(L3)

Manufseturer/ Modal No. l l

NAHC0 controls /Model No. ZA-700 Status IV Justifiestien for Continued 03eration

1. Limit swit ches 1,2-FCV-147. -148. -149, -150 are located in the auxiliary building, elev 706, rooms Al, A2, A10, and 111. They are required to operate for 5 minutes following a main steam line break and feedvater line break. Additionally, they must not fail in a manner detrimental to plant safety for 100 days following a main steam line break and auxiliary feedvater line break.

2. The limit switches are required to operate in the following environments 2:

Nornal Accident _

Temperature: 1300F 2990F East (EEL 3) ,.

3070F Uest Pressure: Atm(-) 24.4 psia (East) 22.9 psia (Uest)

Relative Humidity: 50% 1002 Radiation: 1.75x103 rads East Izl0 4rads 3.5x10' rads Vest Spray / Flooding: N/A N/A I See EN DES Calculations NE3 830217 219 for main steam system 2See SQN Environmental Data Drawing 47E235-7910

3. The manufacturer's specification f' or the limit rvitches are:

Temperature: 1940F Pressure: Atm Relative Hunidity: NIMA 4 Enclosure Radiation: Hot Specified

4. See generic position 4.1.5 for radiation and 4.1.8 for relative humidity.

014166.03

,N

%/

l

. .s ,

f A Justification for Continued Operation TER Ice = No. 145

w. .u. aviloving equipcent:

LS's on 2-FCV-62-69 2-FCV-62 2-FCV-62-77 2-FCV-63-3 2-FCV-63-4 2-FCV-63-175 The limit switches on 2-FCV-62-69 and 70 are used to seal in the auto =atic closure signal on low pressurizer level in the event of a CVCS letdown line break. If the CVCS letdown line break were to occur inside contain=ent, the limit switches could cause these associated valves to reopen each ti=e the pressurizer level was restored to the ,

nor=a) level b-; the e= erg ncy core cooling pu=ps. Under these conditions, the RCS would continue to experience a LOCA. Although it is good engineering design to isolate a LCCA, if possible, it is not ',

essential to plant safe ty. The plant is designed to mitigate the effects of a vide spectru= of LOCAs, including the ef fects of single f ailure, without jeopardizing the public health and safety. If the CVCS letdown line break were to occur outside contain=ent, the li=it switch on 2-FCV-62-77 could cause its associated valve to take inappropriate action. However, since the event occurs outside contain=ent, FCV-62-69 and 10 vill not be af fected by the harsh environ =ent and vill isolate the letdown line on low pressurizer level.

The li=it switches on 2-FCV-63-3, 4, and 175 are used to provide on open permissive signals to FCV-63-8 and 11. These limit switches are required to be qualified for the radiation af fects due to a LOCA. The radiation effects are only significant when the Safety Injection Syste= is placed in the recirculation = ode of operation. In order to l urtablish the recirculation = ode of operation, FCV-63-8 and 11 =ust initially be open. Theref ore, the li=it switches on FCV-63-3, 4, and 175 vill perfor= their intended safety functions prior to significant  !

changes in the environ =ent for which the switches are qualified. I Therefore, it is concluded that whether or not the above li=it swiches function, plant safety will not be jeopardized in the interi=.

These li=it switches are onsite and scheduled to be replaced during the next refueling outage in Septe=ber 1984 l r~h

(,,) E64173.20 ~

\

l l

I

SEQUOYAH NUCLEAR PLANT JUSTIFICATION FOR CONTINUED OPERATION:

" TEMPERATURE SWITCHES - COOLERS" TER ITEM NO. - 151 TVA ID NO. TS-30-186, -187, -190, -191, - 196, -197, -201, & -202 .

2-TS-30-186, -187, -196, -197, -201, & -202 0-TS-30-192, & -193 Manufacturer /Model No. - Penn A19BBC-2 Status - IV Justification for Continued Deeration -

Subject temperature switches are to be replaced with 1E qualified switches (already onsite). Installation of replacements is scheduled as follows:

Unit 1 - no later than cycle 3 fuel outage period (November 1985) as previously requested in exemption from 10CFR50.49 rules Unit 2 - no later than the end of cycle 2 fuel outage -

November 24, 1984 For JCO, see attached appendix I_ -

EQS No. MEB-30-64 Prepared by: -

% k2MGv-V Reviewed by: [ d h et/04 l

l l

G24171.11 l

[.. #

MY

~

Unit No.  !

'/ .

Revision g/ ,

EOS No. NEM . M- Q  !

TVA 10 No.

Preparer /Datef,<f&L /9/gfg)ll/' / q nocem % Id1 Reviewer /DateQy,() t;plfyl lll fE N SON ECUIPMENT CUALIFICATION SHEET (R3)

Hanufacturer and Model No. MM A /9886 - @

Verification of Table Information ( L &MM.cohja ewr 9:'c9_ M )

• L' Ecuitment Tvoe - The equipment has been identified as per TVA ID number designations (such as, HOV, SOV).

/ Location - The location has been identified (such as, inside primary containment, annulus, individually cooled rooms, general spaces, or area affected by HELB outside primary containment).

/ Ccrnoonent - A unique TVA ID number has been assigned (such as,1-FSV-68-303).

g Function - A functional description of the component has been given (such as, steam generator blowdown).

7 _ Contract No.. Manufacturer and Model No. - The contract numeer, manufacturer, anc moael numoer nave oeen given.

7 Abnormal or Accident Environment - All abnormal or accident environmental conaitions applicaole to this equipment have been identified either in tables o by references to figures from tables.

/ Environment to Which Oualified - The environment to which the equipment has bee qualified is accressea in eitner the tables or the environmental analysis attached.

[ Catocorv - A category of a, b, c, or d has been defined for the

/ equipment.Coeration and Accuracy Reoufred and Demonstrated - The operatio and accuracy requirec anc cemonstrated nave Deen defined.

Qualification Status (check if acolicable. NA if not)

Qualified Life (If equipment is qualified, indicate the qualified life with a numerical entry):

AIA Oualification Report ana t4ethod - A qualification report and the method of

• / qualificat1on nas been identified on the Table Input Data Sheet (TIDS).

Environmental Analysis - An environmental analysis has been done, attached to A/A Oualification by Similaritythe tiQS, ano indepencently reviewed by the responsible cr (If applicable) - A justification for qualification by similarity is attacnea to the EOS considering all the above factors and

, f referenced to the appropriate tables.

V Dualification of Several Exact Ccmoonents (If applicable) - When an EQS is used for more than one item, a list of all exact ccynpanents is given as an nopendix with all references y considering to appropriate all the above factors. tables with justification for qualification V

Interim Oualification (If applicable) - (0 pen item) - Ccmponent has been determinea to De qualified only for a limited interim operation, an hCR has been written, and plan of action has been determined to yield a qualified ccmponent.

Tem of Interim CuaT1fication Oc, 4/n v UnaualifiedGGAl/M66 830/

f UCR no.

Ccrnoonent - (0 pen item) - (If applicaole) - Ccmponent has oeen a

x .) determinea to ce unqualified; the following is attached to EOS: NCR number, -

reason for non-gualification, and justification of continued operation.

NCR Ko. SGAI/>fGr3 8%/

EQS '

.f : Appendh Z

._ ADDITICNAL EQUIPMENT o

Tc=p erature. Suitches TV A ID N o . - = ^ - ^ ^ ^ ^ ^ '

1-TS-30-186 and.-187 2-TS-30-186 and -187 1-TS-30-190 and f191 0-TS-30-192 and -193

:- ^:" -- -:

i-TS-35-196'and-197 2-TS-30-196 and -197 Manufacturer /Model No. - Penn A19BBC-2 Status - IV .

Justification for Continued Ooeratien and/or Resolution of Deficiencies -

The temperature switches are subjected to the following accident .

conditions (worst car,e - penetratien room el 7114.0 - HELB):

1IO*F trtDr ( Soclays, msg- L.ot A)

Te:perature W30F caxi=um(dfag,as Pressure - 113. psia maxi =um b14cTevu4-br.f.) b Relative Humidity - 100% caximum bl.4 hr. rr1Sg)

Radiation - a'- l x [o4 rd@, G cM

.The temperature switches functions are to start the pipe chase coolers to provide cooling to the motor operated valves in pipe chase.

{

The switches can operate at a maximum temperature of 1tl00F (see attachment 1). Per Johnson Controls: since 100% relative humidity occurs only over a 223 hour0.00258 days <br />0.0619 hours <br />3.687169e-4 weeks <br />8.48515e-5 months <br /> time period, there would be no adverse affects on subject switches. The maximu= temperature of 1930F; however, could have adverse affects on the switches. This maximum temperature occurs during a residual heat re= oval pipe rupture and is an extre=ely conservative figure. Frobability of occurrence is extremely low.

It is our engineering judgement that due to the mass of the valves and the short duratien of the line break, the valves will not

) significantly be affected by failure of the te=perature switches to confinue to provide cooling. The subject switches can operate for all other line breaks; th2refore, we feel the te=perature switches can continue to operate until they 'are replaced with qualified temperature switches.

! t,eing implemented to rectify thisAsituation. replacement schedule is inmediately Ref. SS,s.a

nM Envinr,mersk/ so,sq 3 7o tyg g"$s 47E295- 49 tk gg ,

e d

Appendk .2T

/

ADDITICMAL EQUIPMENT Te=perature Switches TVA ID No. TS-30-201 and -202 2-TS-30-201 and -202

?

Manufacturer /Model No. - Penn A19BBC-2 Status - IV Justification for Continued Deeration and/or Resolutien of Deficiencies -

The te=perature switches are subjected to the following accident conditions (eel.B):

0 Te=perature y Pressure - 14 4- psia 209=axi=u=

F =axi=u=[fd/r /MSX)) //98 hod;;y m:gy. [,c44)

Relative hu=idity Radiation - CR Ac.cidhf,100'.*.(24

< fx hr

/C4fy7ax)ds ra . , (L ccA)

The te=perature switches functions are to start the pipe chase coolers to provide cooling to the =otor operated valves in pipe chase.

The switches can operate at a maxi =u= te=perature of 1400F (see attachment 1). Per Johnson Controls: since 100% relative hu=idity occurs only over a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> ti=e period, there would be no adverse affects on subject switches. The maxi =u: te=perature of 2090F; however, could have adverse affects on the switches. This =axi=u=

te=perature occurs during a residual heat re= oval pipe rupture and is an extre=ely conservative figure. Probability of occurrence is extremely low.

It is our engineering judgement that due to the cass of the valves and the short duration of the line break, the valves will not -

significantly be affected by failure of the te=perature switches to continue to provide ecoling. The subject switches can operate for all other line breaks; therefore, we feel the te=perature switches can continue to operate until they'are replaced with qualified te=perature switches. A replace =ent schedule is i==ediately being i=ple=ented to rectify this situation.

Raf. : TtM Enusonmenfat Ds/a d,m ' g 4_75ggg_yg j 7,3 LEON.4 foe SQAl . -

AIU-5thitb I t h11't K n i u n t b uiii n u t a me.m u. 3 -

c 1

C0llED BULB THERMOSTATS ,

r c, u

s ~ * ~.. c u.,. - eo. , , e, e

.m u, W

,m. a.e.

n ~ u, g-

,* , jj ,

VENTILATING, HEATING -

'Ij -

AitAs. 1 .U.",e. " *,." *.'.. as i. 's ei?w l '"O 'T s .6  !.*b#, . is v'

'.h

• A13AC.1 l spot se w tie l r[.d ' *NE'" E**b Y.b$.j e3 g^ ,

8 8 AnsAr. samt :en.tio pu,, j 'hU3 7 ab i ts COOLING

1. " *"*" 3#

> Ai9 s,s C.2 sept -soi.41ao a se12 3My,8/~ ** *'a~i.i Y.8[i.i as..i 6.r .p. .i.14ee.l THERMOSTAT FOR PORTABLE HEATERS Catajog No. A19 BAG.I is a sturdi. coropan to cantar SpecI!y Caiajog Number c,nly.

g thermosist tit.h visible sisle and adjusti2g l

knob. Desiped sc. sale besit dan use to st:CtalCAL aatlNGS i ,,) countesed ir, portable hesier applications. Liquia;

""***"'" i '?: '-

rat. T chasCed. cooper coiled air bulo for rapid ^C ' '2' Q tesponse and dependsbilin. 6 long ezicassoc ' ' ' ' " ' ^ " "

^( * * * * * ' ' " * * ^ - " ' **

c.O+f cord sii.h rubber costred polarised 5 prong p p!st and ' series" socLes for 120 V. se rs ace. ****a..... ise w.n. i g% IS Amp. rinag. 7* besded chais hamper supplied e .'o < .a . - :s va 24 . i2:

• A c. 1 ,,

.p tl V to permis supporting the shermostas in c.ny conver.aent locauom.

[

hw D $',",", a t. s.) parm.ie.i g. a.: ,

T.'.

th.

&#51 .

At9 s AC.) Op.nM.ek 33 e. 93 3'h*- 3J

""****~'**6**

A11 LAC.1 Ah.awnem b.Ib eaap.e.se., n.140' f.

AUTOMATIC CHANGE 0VER Chamreeser control for nese with combinsilon A!<AC 2 may be mounied direnly en either pU beating and toolint, thermostais. Centrol feels sutical or horirostal pipe by moundag s.rsp

4. II*. water sernpersiure and automaticalb seier:6 cor. sc-hed siih ecoiro!. A19CAC.I has remote 8 .fe s een abermostat function. Recommended for con. b.!v for steater siring and mounting ecoven.

,enors. fan coiJs and blass coil naits. etc. -

!} f c.y ,.fi

,ne s te.

. e. .. c... A u. ' ,. m,.e.t ., ie .r.

s a'.... Seasias Ele.aeat tempereiece: 250* 7.

Q'.

Q ly g'*e y,',','

',7. ,' f,'j sa , 5hippiao weIsht: 1.2 lbs. each.

4 D 10 ORDER: Specify Catalog Nuznber cidy.

I se e. 10 4 AnCAC.) Scot C.2*

l

) 9a i Fa* *d

• It!CtalCAL ttATING5

?l ,J!, '"'*'""*

seet

. AltCAC.1 AneAc.2 o ..

- A.C. T.,ts t e A=.e to o ".o a -

(te i. 34 Met) A.c. a .w e e.. a .. ao .  ;.e .o ,

. e..e o.ar - a 2

• v A.. 6n Jso v. 4..;.

( ~

.,s.. Pea 4 b

• l on.,q, ss...

Wel*x Epna.9 [ aco e,;, k. y,,14y_g, h pw *v l

TER Item No. 153 TVA ID Mo.

0-TS-12-91A, -913. -92A, -92B , -93A, -93B , -94A, -943 -9 5A, -95B , -96A,

-963, -97A, -973, -98A, -983, -99A, and -99B

~

Hanufseturer/Model No.

Fenval/Model No. 27120-50 Status IV Justification for Continued Operation

1. Temperature switches listed above are located in various areas rd elevations of the auxiliary building. They are required to operate for 5 minutes after an auxiliary boiler line break'.

2. A composite set of environmental conditions enveloping all the maximum values the temperature switches are required to operate in is detailed below:

Noreal Accident Te=perature: 1040F 1430F Pressure: Ata(-) 14.55 psia Relative Eumidity: 80I 100:

Radiation: 1.75:103 rads N/A (40 yr TID)

Spray / Flooding: N/A N/A I See EN DES Calculations NIB 830923 220

3. The manuf acturer's specification for the temperature switches are as follows:

Temperature: 5000F Pressure: Atn Relative Humidity: Switch is hermetically sealed Radiation: Not specified 4 See seneric position 4.1.5 for radiation and 4.1.8 for relative humidity.

5. Since the operating environment is within the manufacturer's specifications, the above infor=ation shows justification for continued use of the temperature switches. However due to lack of sufficient documentation to demonstrate environmental

! qualification TVA vill replace the temperature switches with qualified devices as determined by the resolution of UCR SQNZEB8201.

014165.02 l C .

i l

l l

TER Item No. 175 TVA ID No.

1-ZS-30-46 , 48 w--a**erurer/Hodel No.

NAMCO Controls /;iodel No. EA-080

-Status IV Justification for Continued overation

1. Limit switches 1-ZS-30-46, -47, -48 are located in the annulus at elevation 823. They are required to opera'.e for 5 minutes following a LOCA, main steam line break, feedvater line break, CVCS and RER accidents. Additionally, they must not fail in a manner detrimental to plant safety for 100 days following a LOCA, main steam line break, feedvater line break, RER, and CVCS accidents.

2. The limit switches are required to operate in the following environ =ents2:

Normal Aefident_

Temperature: 1100F 1500F -'

Pressure: Ats(-) Ata(-)

Relative Humidity: 80% 1002 Radiation: 2z107 rada 5x107 rsds (40 yr TID)

Spray / Flooding: N/A N/A ISee EN DES Calculations NEB 830228 221 for the containment ventilation system 2 See SQN Environmental Data Drawings 47E235-4710

3. The manufacturer's specification for the solenoid valves are:

Temperature: 19407 Pressure: Atm Relative Humidity: NElu 4, 12 Enclosure Radiation: 1x106 rads

4. See generic position 4.1.5 for radiation and 4.18 for relative I humidity.

5. Since the operating environment is within the manuf acturer's specifications, the above infor=ation shows justification for continued use of the limit swit che s. However due to lack of sufficient documentation to demonstrate environmental qualification, TVA vill replace the solenoid valves with qualified devices as determined by the resolution of NCR SQNEEB8117.

p 014165.01 .

1 l

i I

lER Item No. 131

_TVA TD No.

2-PCV-32-81(LS), -103(LS), -111(LS)

Macufneturer/Medel No.

1 NAM 00 Controls /Model No. ZA-700 Status IV l

Justification for Continued Ooerstion

1. Limit switches 2-FCV-32-81, -103, -111 are located in the annulus at elevation 707. They are required to operate for 5 minutes following a LOCA, main line break, feedvater line break, RER and CVCS accidents. Additionally, they must not fail in a manner detri= ental to plant safety for a LOCA, main steam line break, and feedvater line break and 1 month following a RER or CVCS accident:

2. The limit switches are required to operate in the following environments 2:

Normal Accident Te=perature: 1100F 150eF(LOCA) .-

Pressure: Ats(-) Atm(-)

Relative Humidity: 80% 1002 Radiation: 2x107 rads 5:107rads (40 yr TD) (LOCA)

Spray / Flooding: N/A ' N/A I

2 See EN DES Calculations NIB 830208 220 for the control air system See SQN Environmental Data Drawings 47Z235-4710

3. The manuf acturer's specification for the limit svitebes are:

Temperature: 1940F Pressure: Ata Relative Eunidity: NI!n 4 Radiation: Not specified 4

See generic position 4.1.5 for radiation and 4.1.8 for relative humidity.

5. Since the operating environment is within the manufacturer's specifications, the above information shows justification for continued use of the lie.it switches. However due to lack of sufficient documentation to demonstrate environmental qualification. TVA vill replace the limit switches with qualified devices as determined by the resolution of RCR SQNIE38102.

014165.01 0

t) -

5.0 Additional Equip =ent e

I I

I e

e 014313.03

ADDITION 4 TIPMENT h

_TVA ID No. _ Component

_ Manufacturer Model No. Status

~

1-PSV-1-13A SNDV ASCO 206-381-2RVU Qualified; Report No. AQS21678/TR, Rev. A 2-PSV-1-13A SNDV ASCO 206-381-2RVU Qualified; Report No. AQS21678/TR, Rev. A -

s' l-PSV-1-13B SNDV ASCO 206-381-2RVU Qualified; Report No. AQS21678/TR, Rev. A 2-PSV-1-13B SNDV ASCO 206-381-2RVU Qualified; Report No. AQS21678/TR, Rev. A 1-PT-1-23 PRTR Foxboro EllGM Qualified; WCAP-8541 2-PT-1-23 PRTR Foxboro EllCM Qualified; WCAP-8541 1-PSV-24A SNDV ASCO 206-381-2RVU Qualified; Report No. AQS21678/TR, Rev. A 2-PSV-24A SNDV ASCO 206-381-2RVU Qualified; Report No. AQS21678/TR, Rev. A 1-PSV-24B SNDV ASCO 206-381-2RVU Qualified; Report No. AQS21678/TR, Rev. A 2-PSV-24B SNDV ASCO 206-381-2RVU Qualified; Report No. AQS21678/TR, Rev. A 1-ZS-1-181 LMSW NAMCO EA-740 Qualified; Qualification of NAMCO controls limit switch model EA-740 to IEC standards 344 (1975), 323 (1974),

and 382 (1972), revision 1, February 22, 1979. -

DE03;TERRPT .

,e e

ADDITIONA IPMENT f g TVA ID ..o. Component Manufacturer Model No. Status 2-ZS-I-181 DISW NAMCO EA-700 Replace with NAMCO !!odel EA-740; Qualified by Report No. QTR-Ill: JC0 No. EEB-1 1-ZS-1-182 LMSW NAMCO EA-740 Qualified; Qualification of NJMCO controls limit switch model EA-740 to IEE standards 344 (1975), 323 (1974),

and 382 (1972), revision 1 February 22, 1979.

2-ZS-1-182 U!SW NAMCO EA-700 Replace with NA!!CO Ifodel EA-740; Qualified by Report No. QTR-Ill: JC0 No. EEB-1 1-ZS-1-183 DISW NAMCO EA-740 Qualified; Qualification of NAMCO controls limit switch model EA-740 to IEE standards 344 (1975), 323 (1974),

and 382 (1972), revision I, February 22, 1979, 2-ZS-1-183 UfSW NAMCO EA-700 Replace with NAMCO Model EA-740; Qualified by Report No. QTR-111: JC0 No. EEB-1.

1-ZS-1-184 UtSW NAMCO EA-740 Qualified; Qualification of NAMCO controls limit switen model EA-740 to IEE standards'344 (1975), 323 (1974),

and 382 (1972), revision 1 February 22, 1979.

2-ZS-1-184 UfSW NAMCO EA-700 Replace with NAMCO Model EA-740; Qualified by Report No. QTR-Ill: JC0 No. EEB-1. '

l-FT-3-3 5A F1.XR Foxboro E13DM Qualified; WCAP-8541 DE03;TERRPT O

q) IPMENT i ADDITION 4*

g TVA ID ..o. _Compon en t_ Manufacturer Model No. Status 2-FT-3 -3 5A FLXR Foxboro E13DH Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 1-FT-3-35B FLIR Foxboro E13DM Equipment no longer considered

• to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 2-FT-3-35B FLXR Foxboro E13DM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 1-FT-3-48A FLXR Foxboro E13DM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 2-FT-3-48A FLXR Foxboro E13DM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 1-FT-3-48B FLXR Foxboro E13DM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 2-FT-3-4BB FLXR Foxboro E13DM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 1-FT-3-90A FLXR Foxboro E13CM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 2-FT-3-90A FLXR Foxboro E13CM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588)

DE03;TERRPT ..

O

, ADDITIONAF sFMENT g

TVA ID no. Component Manufacturer Model No. Status 1-FT-3-90B FLXR Foxboro E13CM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 2-FT-3-90B FLXR Foxboro E13CM Equipment no longer consideref'to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 2-LT-3-93 LVTR Barton 764 Lot 7 Qualified; WCAP-8687, Supp 2-E03 2-LT-3-94 LVTR Barton 764 Lot 7 Qualified; WCAP-8687, Supp 2-E03 1-LT-3-98 LVTR Barton 764 Lot 2 Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 2-LT-3-98 LVTR Barton 764 Lot 2 Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 1-FT-3-103A FLXR Foxboro E13DM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 2-FT-3-103A FLXR Foxboro E13DM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 1-FT-3-1033 FLXR Foxboro E13DM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 2-FT-3-103B FLXR Foxboro E13DM Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588)

DE03;TERRPT ,

t v

m

)

IIPMENT ADDITIONp g

TVA It, . ,s . Component Manufacturer Model No. Status 2-LT-3-110 LVTR Barton 764 Lot 7 Qualified; WCAP-8687, Supp 2-E03 1-PS-3-121A PSSW Custom Components 6046 Replace with ASCO model SB21AR/TD20A2R; Qualified by Report No. AQR-101083, Rev. 0: - JCO Sb. EEB-2 2-PS-3-121A PSSW Custom Components 6046 Replace with ASCO model SB21AR/TD20A2R; Qualified by Report No. AQR-101083, key. 0: JC0 No. EEB-2 1-PS-3-121B PSSW Custom Components 6046 Replace with ASCO model SB21AR/TD20A2R; Qualified by Report No. AQR-101083, Rev. 0: JC0 No. EEB-2 2-PS-3-121 B PSSW Custom Components 6046 Replace with ASCO model SB21AR/TD20A2R; Qualified by Report No. AQR-101083, Rev. 0: JC0 No. EEB-2 1-PS-3-121D PSSW Custom Components 6046 Replace with ASCO model SB21AR/TD20A2R; Qualified by Report No. AQR-101083, Rev. 0: JC0 No. EEB-2 2-PS-3-121D PSSW Custom Components 6046 Replace with ASCO model SB21AKR/TD20A32R; Qualified by Report No. AQR-101083, Rev. 0: JC0 No. EEB-2 1-PT-3-122A PSSW Bailey 556 Equipment no ' longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588).

2-PT-3-122A PSSW Bailey 556 Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per UUREG-0588).

• DE03;TERRPT 9

ADDITIONA/ 'IPMENT j TVA ID no. Component Manufacturer Model No, Status 1-PX-3-142 PWSP Lamda LCS-2-04 Equip =cnt no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

2-PX-3-142 PWSP Lamda LCS-2-04 Euqipment no longer considereJato be within the scope of 10CFR50.49 stocated in a mild environment).

1-FM-3-142A SGCV Beckman 8950 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

2-FM-3-142A SGCV Beckman 8950 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

1-FT-3-147 FLXR Bailey 555 Replace with Rosemount Model 1153D85; Qualified by Report No. 108025: JC0 No. EEB-3 2-FT-3-147 FLXR Bailey 555 Replace with Could Model PD3200-400-18-22-36-59; Qualified by Report Nos.

528-0994 and 528-1006: JC0 No. EEB-3 1-LCV-3-148 IPXR Masoneilan 8012 Testing in progress to confirm qualification.: JC0 No. EEB-4 2-LCV-3-148 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 1-FT-3-155 FLXR Bailey 555 Replace with Rosemount Model 1153D85; Qualified by Report No. 108025: JC0 No. EEB-3 DE03;TERRPT . .

B

ADDITION 4 JIPMENT j

TVA ID no. Component _ Manufacturer Model No. Status 2-FT-3-155 FLXR Bailey 555 Replace with Gould Model PD3200-400-18-22-36-54; Qualified by Report Nos.

528-0994 and 528-1006: JC0 No. EEB-3 1-LCV-3-156 IPXR Masoneilan 8012 Testing in progress to confige qualification: JC0 No. EEB-4 2-LCV-3-156 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 1-PS-3-160A PSSW Custom Components 6046 Replace with ASCO Model SBilAKR/TG13A42R; Qualified by Report No. AQR-101085, Rev. 0: JC0 No. EEB-5 2-PS-3-160A PSSW Custom Components 6046 Replace with ASCO Model SBlIAKR/TG13A42R; Qualified by Report No. AQR-101085, Rev. 0: JC0 No. EEB-5 1-PS-3-160B PSSW Custom Components 6046 Replace with ASCO Model SBilAKR/TG13A42R; Qualified by Report No. AQR-101085, Rev. 0: JC0 No. EEB-5 2-PS-3-160B PSSW Custom Components 6046 Replace with ASCO Model SBilAKR/TG13A42R; Qualified by Report No. AQR-101085, Rev. 0: JC0 No. EEB-5 1-FT-3-163 FLXR Bailey 555 Replace with Rosemount Model 1153D85; Qualified by Report No. 108025: JC0 No. EEB-3 2-FT-3-163 FLXR Bailey 555 Replace with Could Model PD3200-400-18-22-36-59; Qualified by Report Nos.

528-0994 and 528-1006: JC0 No. EEB-3 1-LCV-3-164 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JCO No. EEB-4 DE03;TERRPT .

5

ADDITIONA IPMENT i f g

_TVA ID . . Component Manufacturer Hodel No. Status 2-LCV-3-16 4 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 1-PS-3-16 5A PSSW Custom Components 6046 Replace with ASCO Model SBilAKR/TG13A42R; Qualified by* Report No. AQR-101083, Rev. 0: JC0 No. EEB-5 2-PS-3-16 5A PSSW Custom Components 6046 Replace with ASCO Model SBllAKR/TG13A42R; Qualified by Report No. AQR-101083, Rev. 0: JC0 No. EEB-5 1-PS-3-165B PSSW Custom Components 6046 Replace with ASCO Model SBilAKR/TG13A42R; Qualified by Report No. AQR-101083, Rev. 0: JC0 No. EEB-5 2-PS-3-165B PSSW Custom Components 6046 Replace with ASCO Model SB11AKR/TG13A42R; Qualified by Report No. AQR-101083, Rev. 0: JC0 No. EEB-5 1-FT-3-170 FLXR Bailey 555 Replace with Rosemount Model ll53DB5; Qualified by Report No. 108025: JC0 No. EEB-3 2-FT-3-170 FLXR Bailey 555 Replace with Gould Model PD3200-40 22-36-59; Qualified by Report Nos.

528-0994 and 528-1006: JC0 No. EEB-3 1-LCV-3-171 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 2-LCV-3-171 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 1-LCV-3-17 2 IPXR Hasoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 DE03;TERRPT I

ADDITIONAJ IPMENT g

TVA ID ho. _ Component Manufacturer Model No. Status 2-LCV-3-172 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 1-LM-3-172 SGCV Beckman 8952 Equipment no longer considered to be within the scope of 10CFR50.40*

(Located in a mild environment).

2-LM-3-17 2 SGCV Beckman 8952 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

1-LCV-3-173 IPXR Masoneilan 8012 Testing in progress confirm qualification: JC0 No. EEB-4 2-LCV-3-173 IPXR Masoneilan 8012 Testing in progress confirm qualification: JC0 No. EEB-4 1-LM-3-174 SGCV Beckman 8012 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

2-LM-3-174 SGCV Beckman 8012 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

1-LCV-3-174 IPXR Hasoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 2-LCV-3-174 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4.

1-LCV-3-175 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 2-LCV-3-175 IPXR Masoneilan 8012 Testing in progress to confirm qualification: JC0 No. EEB-4 DE03;TERRPT .. .

9

ADDIT. . EQUIPMENT TVA ID No. Component _ Manu f ac turer Model No. Status 1 -FCV-3 0-2 LMSW NAMCO (LS) EA-180 Qualified by Report No. QTR-105 2-FCV-3 0-2 LMSW NAMCO (LS) EA-17 0 Replace with NAMCO Modeli fi80; Qualified by Report No. QTR-105: aC0 No. MEB-101 1-FCV-30-5 LMSW NAMCO (LS) EA-180 Qualified by Report N.. QTR-105 2-FCV-30-5 LMSW NAMCO (LS) EA-17 0 Replace with NAMCO EA-180; Qualified

, by Report No. QTR-105: JC0 No. MEE-101 1-FSV-30-7 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E:.

Qualified by Report No. AQS21678/Tt:

Rev. A: JC0 No. MEB-102 2-FSV-30-7 SNDV +9C0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 1-ZS-30-7 LMSW NAMCD EA-180 Qualified; NAMCO Report No. QTR-105 2-ZS-30-7 LMSW NAMCO EA-17 0 Replace with NAMCO Model EA-180; Qualified by Report No. QTR-105: JC0 No. MEB-101 1-ZS-30-8 LMSW NAMCO EA 18011302 Replace with NAMCO Model EA 740; Qualified by NAMCO Report QTR-Ill:

JC0 No. MEB-105 2-ZS-30-8 LMSW NAMCO EA 74020100 Qualified; NAMCO report No. QTR-ll!

DE03;TERRPT 8

l I~ (

ADDIT 1. \

EQUIPMENT TVA ID No. Component Manu fac turer Model No. Status l -FSV-3 0-9 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 2-ISV-30-9 SNDV AVC0 go C-5439 Replace with ASCO Hodel NP8316A74D; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 1-ZS-30-9 LMSW NAMCO EA-180 Qualified; NAMCO Report No. QTR-105 2-ZS-30-9 LMSW NAMCO EA-180 Qualified; NAMCO Report No. QTR-105 1-ZS-30-10 LMSW NAMCO EA 18011302 Replace with NAMCO Model EA 740; Qualified by NAMCO Report QTR-lll:

JC0 No. MEB-105 2-ZS-30-10 LMSW NAMCO EA 74020100 Qualified; NAMCO report No. QTR-lli 1-FSV-30-12 SNDV ASCO C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 2-FSV-30-12 SNDV ASCO C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. HEB-102 1-FSV-30-14 SNDV AVCO C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 ,

2-FSV-30-14 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR,

• Rev. A: JC0 No. MEB-102 1-ZS-30-14 LMSW NAMCO EA-180 Qualified; NAMCO Report No. QTR-105 DE03;TERRPT I

v

I ADDl'. .L EQUIPMENT TVA ID No . Component Manu fac turer Model No. Status 2-ZS-30-14 LMSW NAMCO EA-170 Replace with NAMCO Hodel EA-180; Qualified by Report No. QTR-105: JC0 No. MEB-101

.. go 1-ZS-30-15 LMSW NAMCO EA 18011302 Replace with NAMCO Model EA 740; Qualified by NAMCO Report QTR-lll*

JC0 No. MEB-105 2-ZS-30-15 LMSW NAMCO EA 74020100 Qualified; NAMCO report No. QTR-!

l-FCV-30-16 LMSW NAMCO EA-180 (LS) Qualified; NAMCO Report No. QTR 2.vi 2-FCV-30-16 LMSW NAMCO EA-17 0 (LS) Replace with NAMCO Model EA-180; Qualified by Report No. QTR-105: Jo No. MEB-101 1-FSV-30-16 SNDV ASCO 8316 Replace with ASCO Model NP8316A7L Qualified by Report No. AQS21678/i..,

Rev. A: JC0 No. MEB-103 2-FSV-30-16 SNDV ASCO 8316 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-103 1-FSV-30-19 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/i. ,

Rev. A: JC0 No. MEB-102 2-FSV-30-19 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 1-ZS-30-19 LMSW NAMCO EA-180 Qualified; NAMCO Report No. QTR-105 DE03;TERRPT ..

t v

f.~d l ADDI1 .L EQUIPMENT )

TVA ID No._ Component _ Manu fac turer Model No. Status 2-ZS-30-19 LMSW NAMCO EA-17 0 Replace with NAMCO Model EA-180; Qualified by Report No. QTR-105: JC0 No. HEB-101 1-ZS-3 0-20 LMSW NAMCO g.

EA 18011302 Replace with NAMCO Model EA 740; Qualified by NAMCO Report QTR-Ill; JC0 No. MEB-105 2-ZS-30-20 LMSW NAMCO EA 74020100 Qualified; NAMCO report No. QTR-Ill 2-FCO-30-22 LMSV NAMCO (LS) EA 740020100 Qualified; NAMCO report QTR-105 2-FSV-30-22 SNDV ASCO 206-381-2 RUV Qualified; ASCO AQS21678/TR, Rev. A 1-FCV-3 0-37 LMSW NAMCO EA-180 (LS) Qualified; NAMCO Report No. QTR-11.

2-FCV-30-37 LMSW NAMCO EA-170 (LS) Replace with NAMCO Model EA-180; Qualified by Report No. QTR-105: 5C0 No. MEB-101 1-FSV-30-37 SNDV ASCO NP 8316 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-103 2-FSV-30-37 SNDV ASCO NP 8316 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No, MEB-103 1-PDT-30-42 DPXR Foxboro E11CM Qualified; WCAP-8541 2-PDT-30-42 DPXR Foxboro EllCM Qualified; WCAP-8541 1-PDT-30-43 DPXR Foxboro EllCM Qualified; WCAP-8541 DE03;TERRPT 9 .

I

ADDI1 .L EQUIPMENT TVA ID No. Component Manu fa c turer Model No. Status 2-PDT-3 0-43 DPXR Foxboro EllCH Qualified; WCAP-8541 1-PDT-30-44 DPXR Foxboro EllGM Qualified; WCAP-8541 2-PDT-30-44 DPXR Foxboro g.

EllCM Qualified; WCAP-8541 1-PDT-30-45 DPXR Foxboro EllGM Qualified; WCAP-8541 2-PDT-30-45 DPXR Foxboro EllCM Qualified; WCAP-8541 1-ZS-30-50 LMSW NAMCO EA 18011302 Replace with NAMCO Model EA 740; Qualified by NAMCO Report QTR-lll:

JC0 No. MEB-105 2-ZS-3 0-50 LMSW NAMCO BA 74020100 Qualified; NAMCO report No. QTR-Ill 1-FSV-30-51 SNDV ASCO NP 8316A74E Qualified; ASCO Report No.

AQS21678/TR, Rev. A 2-FSV-30-51 SNDV AVC0 C-5439 Replace with ASCO }bdel No.

NP8316A74E; Qualified by JC0 No. FEB-102 1-ZS-30-51 LMSW NAMCO EA-180 Qualified; NAMCO Report No. QTR-105 2-ZS-30-51 LMSW NAMCO EA-170 Replace with NAMCO Model EA-180; Qualified by Report No. QTR-105: .J No. MEB-101 1-ZS-3 0-52 LMSW NAMCO EA 18011302 Replace with NAMCO Model EA 740; Qualified by NAMCO Report QTR-lll:

JC0 No. MEB-105 2-ZS-30-52 LMSW NAMCO EA 74020100 Qualified; NAMCO report No. QTR-lll DE03;TERRPT 6

i t'"' /

ADDIT 1, . EQUIPMENT i

TVA ID No. Component _ Manu fa cturer Model No. Status 1-FSV-30-53 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. HEB-102 2-FSV-30-53 SNDV g.

AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 1-ZS-30-53 LMSW NAMCO EA-180 Qualified; NAMCO Report No. QTR-105 2-Z S-30-53 LMSW NAMCO EA-170 Replace with NAMCO Model EA-180; Qualified by Report No. QTR-105: JC0 No. MEB-101 1-FCV-30-54 LMSW NAMCO EA-180 (LS) Qualified; NAMCO Report No. QTR-105 2-FCV-30-54 LMSW NAMCO EA-170 (LS) Replace with NAMCO Model EA-180; Qualified by Report No. QTR-105: JC0 No MEB 101 1-FSV-30-54 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A47E; Qualified by Report No. AQS21678/TF

. Rev. A: JC0 No. MEB-101 2-FSV-30-54 SNDV AVC0 C-5439 Replace with ASCO M0 del NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 1-ZS-30-56 LMSV NAMCO EA 18011302 Replace with NAMCO Model EA 740; Qualified by NAMCO Report QTR-Ill:

JC0 No. MEB-105 2-ZS-30-56 LMSW NAMCO EA 18011302 Qualified; NAMCO report No. QTR-lll DE03;TERRPT .

f ADDI*. JL EQUIPMENT TVA ID No. Component Manu fac turer Model No. Status 1 -FS V-3 0-57 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A743; Qualified by Report No. AQS21678/TR, Rev. A: JCO No. MEB-102 2-FSV-30-57 SNDV AVC0 g.

C-5439 Replace with ASCO Model NP8316A743; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 1-ZS-30-57 LMSW NAMCO EA-180 Qualified; NAMCO Report No. QTR-105 2-Z S-3 0-57 LMSW NAMCO EA-170 Replace with NAMCO tbdel EA-180; Qualified by Report No. QTR-105: JC0 No. MEB-101 1-ZS-30-58 LMSW NAMCO EA 18011302 Replace with NAMCO Model EA 740; Qualified by NAMCO Report QTR-lll:

JC0 No. MEB-105 2-ZS-30-58 LMSW NAMCO EA 74020100 Qualified; NAMCO report No. QTR-lli 1 -FSV-30-59 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 2-FSV-30-59 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 1-ZS-30-59 LMSU NAMCO EA-180 Qualified; NAMCO Report No. QTR-105 2-ZS-30-59 LMSW NAMCO EA-170 .

Replace with NAMCO Model ATR-105; Qualified by Report No. QTR-105: JC0 No. MEB-101 DE03;TERRPT O

l ADDITI EQUIPMENT TVA ID No. Component Manufacturer Model No. Status 1-FCV-30-61 LMSW NAMCO EA-180 (LS) Qualified; NAMCO Report No. QTR-105 2-FCV-30-61 LMSW NAMCO EA-170 Replace with NAMCO Model EA"180; (LS)

Qualified by Report No. QTR-105: JC0 No. MEB-101 1-FSV-30-61 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 2-FSV-3 0-61 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. HEE-102 1-FCV-3 0-62 LMSW NAMCO EA-180 Qualified; NAMCO Report No. QTR-105 (LS) 2-FCV-30-62 LMSW NAMCO EA-170 Replace with NAMCO Model EA-180; (LS)

Qualified by Report No. QTR-105: JC0 No. MEB-101 1-FSV-3 0-62 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. HEB-102 2-FSV-30-62 SNDV AVC0 C-5439 Replace with ASCO Model NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. MEB-102 1-FSV-30-87 SNDV ASCO 206-3 81 -2RVU Qualified; ASCO Report No. AQS21678/TR Rev. A 1-FCO-3d-87 LMSW NAMCO EA74020100 Qualified; NAMCO Report No. QTR-lli (LS)

DE03;TERRPT .. .

f y

ADDI'. .L EQUlFMENT TVA TD No. Component _Manu fa c turer Model No. Status 2-FSV-30-109 SNDV ASCO 206-3 81-2RVU Qualified; ASCO Report No.

AQS21678/TR, Rev. A 1-FCO-30-107 LMSW NAMCO EA 74020100 (LS) Qualified; NAMCO Report #e. QTR-lli 2-FCO-30-109 LMSW NAMCO EA 74020100 (LS) Qualified; NAMCO Report No. QTR-Ill 0-FS-30-147 FLSW CEMCO Rill 5-05-D 1 Qualified; Nutherm Report N-166-R 0-TC-30-147 TPPL Edwin L. Weigand & 126-027959-001 Qualified; Nutherm Report N-166-R Nutherm International 0-TS-30-147 TPSW Thermo-Disc 60T-Il Qualified; Nutherm Report N-166-R 0-FS-30-156 FLSW CEMCO Rill 5-0 5-D1 Qualified; Nutherm Report N-166-R 0-TC-30-156 TPPL Edwin L. Weigand & 126-027959-001 Qualified; Nutherm Report N-166-R Nutherm International 0-TS-30-156 TPSW Thermo-Disc 60T-Il Qualified; Nutherm Report N-166-R 2-FSV-30-157A SNDV ASCO 206-380-2RUV Qualified; ASCO Report No.

AQS21678/TR, Rev. A 2-MTR-30-184 ELMO Reliance 2YF882998 Qualified; Reliance Test Report NUC-9 2-TS-30-184 TPSW Penn A19BBC-2 Replace with Static-0-Ring Model 20lTA-13125-JJTTX6; Qualified by Report Nos. 17344-82N-C, 18577-83N, 17344-82N-C, and 18441-83N: JC0 No, MEB-17 2-MTR-3 0-185 ELMO Reliance 2YF882998 qualified; Reliance Test Report HUC-9

~

' DE03;TERRPT

-l8-GP

ADDITI EQUIPMENT TVA ID No. Component _  ?'anu fa c turer Model No. Status 2-TS-3 0-185 TPSW Penn A19BBC-2 Replace with Static-O-Ring Model 20lTA-13125 - JJTTX6; Qualified by Report Nos. 17344-82N-C, 18577-83N, 17344-82N-D, and 18441-83tp JC0 No.

MEB-17 1-TS-3 0-194 TPSW Penn A19BBC-2 Replace with Static-0-Ring Model 20lTA-13125 - JJTTX6; Qualified by Report Nos. 17344-82N-C, 18577-83 N, 17344-82N-D, and 18441-83N: JC0 No.

MEB-17 2-TS-3 0-194 TPSW Penn A19BBC-2 Replace with Static-0-Ring Model 20lTA-1325 - JJTTX6; Qualified by Report Nos. 17344-82N-C, 18577-83N, 17344-82N-D, and 18441-83N: JCO No.

MEB-17 1-TS-3 0-195 TPSW Penn A19BBC-2 Replace with Sta tic-0-Ring Model 20lTA-1325 - JJTTX6; Qualified by Report Nos. 17344-82N-C, 18577-83N, 17344-82N-D, and 18441-83N: JC0 No.

MEB-17 2-TS-3 0-195 TPSW Penn A19BBC-2 Replace wi.th Static-0-Ring Model 20lTA-1325 - JJTTX6; Qualified by Report Nos. 17344-82N-C, 18577-83N, 17344-82N-D, and 18441-83N: JC0 No.

MEB-17 1-MTR-3 0-201 ELMO 9eliance SYF882998 Qualified; Reliance Test Report NUC-9 ,

2-MTR-30-201 ELMO Reliance SYF882998 Qualified; Reliance Test Report NUC-9 l-HTR-30-202 ELMO Reliance SYF882998 Qualified; Reliance Test Report NUC-9 DE031TERRPT , .

I

ADDITI EQUIPMENT TVA ID No. Component Manu fa c turer Model No. Status 2-MTR-30-202 ELMO Reliance 5YF882998 Qualified; Reliance Test Report NUC-9 l-MTR-3 0-214 ELMO Reliance 726977 Equipment no longer considered to be within the scope of 10GFR%ps49 (Located in a mild environment) 2-MTR-3 0-214 ELMO Reliance 726977 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 1-STR-3 0-214 MSTR ITT P202Cl2 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 2-STR-3 0-214 MSTR ITT P202Cl2 Equipment no longer considered to be within the scope of 10CCFR50.49 (Located in a mild environment) 0-MC-30-319 HMCT Nutherm International N/A Qualified; Nutherm Report N-166-R 0-ME-30-319 HMSR liy-Cal HS-3 552-B-8-120ll5 Qualified; Nutherm Report N-166-R 0-MM-30-319 UMTR Hy-Cal CT-82211-11-0-100X Qualified; Nutherm Report N-166-R 0-MS-30-319 CVRG Rochester ET-1219 Qualified;,Nutherm Report N-166-R 0-MC-30-320 llMCT Nutherm International N/A Qualified; Nutherm Report N-166-R 0-ME-30-320 llMSR Hy-Cal lis-3 552-B-8-120ll5 Qualified; Nutherm Report N-166-R 0-MM-30-320 llMTR lly-Cal CT-82211-II-0-100X Qualified; Nutherm Report N-166-R 0-MS-30-320 CVRG Rochester ET-1219 Qualified; Nutherm Report N-166-R DE03;TERRPT . .

4

ADDI'a .sL EQUIPMENT TVA ID No. Component Manu fac turer Model No. Status 1-FCV-43-2 LMSW MICR-SWITCH LSC4L (LS) Equipment no longer considered to '>e within the scope of 10CFR50.49 (Equipment removed from safety circuit). -

g' 2-FCV-43-2 LMSW MICR-SWITCH LSC4L (LS) Equipment no longer considered to be within the scope of 10CFR50.49 (Equipment removed from safety circuit).

1-FCV-43-11 LMSW MICR-SWITCH LSC4L (LS) Equipment no longer considered to be within the scope of 10CFR50.49 (Equipment removed from safety circuit).

2-FCV-43-11 LMSW MICR-SWITCH LSC4L (LS) Equipment no longer considered to be within the scope of 10CFR50.49 (Equipment removed from safety circuit).

I-FCV-43-22 LMSW MICR-SWITCH LSC4L (LS) Equipment no longer considered to be within the scope of 10CFR50.49 (Equipment removed from safety circuit).

2-FCV-43-22 LMSW MICR-SWITCH LSC4L (LS) Equipment no longer considered to be within the scope of 10CFR50.49 (Equipment removed from safety circuit). ,

1-FCV-43 -34 LMSW MICR-SWITCH LSC4L (LS). Equipment no longer considered to be within the scope of 10CFR50.49 '

(Equipment removed from safety circuit).

DE03;TERRPT .. .

I v

I ADD! .tL EQUIPMENT TVA ID No._ Component Manu fac turer Model No. Status 2-FCV-43-34 LMSW MICR-SWITCH LSC4L Equipment no longer considered to be (LS) within the scope of 10CFR50.49 (Equipment removed from safety circuit). .-

g.

l-FCV-43 -75 LMSW MICR-SWITCH LSC4L (LS) Equipment no longer considered to be within the scope of 10CFR50.49 (Equipment removed from safety circuit).

2-FCV-43 -75 LMSW HICR-SWITCil LSC4L (LS) Equipment no longer considered to be within the scope of 10CFR50.49 (Equipment removed from safety circuit).

1 -FS V-43 -75 SNDV ASCO 206-3 81-3RF Qualified; ASCO Report No.

AQS21678/TR, Rev. A 2-FSV-43 -75 SNDV ASCO 206-3 81-3 RF Qualified; ASCO Report No.

AQS21678/TR, Rev. A 1-FSV-43-207 SNDV ASCO 206-3 81-3 H4F Qualified; ASCO Report No.

AQS21678/TR, Rev. A 1-FSV-43-208 SNDV ASCO 206-3 81-3H4F Qualified; ASCO Report No.

AQS21678/TR, Rev. A 4

1-RLY-46-1 EREL NUTHERM MDR 138-8 Qualified; NUTIIERM International report No. N-109-00R, revision 3 DE03;TERRPT

~

/

s O

ADDITIONAL -,JIPMENT

\

TVA ID No. Component Manu fac turer 6

Model No. Status 2-RLY-46-1 EREL NUTHERM MDR 138-8 6 Qualified; NUDIERM International report No. N-109-00R, revision 3 1-ISW-46-1 AC IFSW Powell Electrical Equipment no longer consideredito be 6 Manufacturing Company within the scope of 10CFR50.49 (Located in a mild environment). 6 2-ISW-46-1AC IFSW Powell Electrical Equipment no longer considered to be Manufacturing Company within the scope of 10CFR50.49 6

(Located in a mild environment).

1-ISW-46-IDC IFSW Powell Electrical Equipment no longer considered to D'e Q Manufacturing Company within the scope of 10CFR50.49 (Located in a mild environment).

2-ISW-46-IDC IFSW Powell Electrical k Equipment no longer considered to be Manufacturing Company within the scope of 10CFR50.49 (Located in a mild environment). 6 1-RLY-46-2 EREL NUTHERM MDR 138-8 Qualified; NUTHERM International report No. N-109-00R, revision 3 6 2-RLY-46-2 EREL NUTHERM MDR 138-8 Qualified; NUTHERM International report No. N-109-00R, revision 3 6

1-RLY-46-3 EREL NUTHERM MDR 134-1 Qualified; NUTHERM International report No. N-109-00R, revision 3 4

2-RLY-46-3 EREL NUTHERM MDR 134-1 Qualified; NUTHERM International report No. N-109-00R, revision 3 g 1-RLY-46-4 EREL NUTHERM MDR 134-1 Qualified; NUTilERM International report No. N-109-00R, revision 3 g4 2-RLY-46-4 EREL NUTHERM MDR 134-1 Qualified; NUTilERM International report No. N-109-00R, revision 3 6

DE03;TERRPT l

4 i

1

ADDITIO1 .QUIPMENT TVA ID No. Component Manufacturer Model No. Status 1-RLY-46-5 EREL NUTHERM MDR 134-1 Qualified; NUTilERM International report No. N-109-00R, revision 3 2-RLY-46-5 EREL NUTHERM HDR 134-1 Qualified; NUTIIERM Internatjenal report No. N-109-00R, revision 3 1-RLY-46-6 EREL NUTHERM MDR 134-1 Qualified; NUTIIERM International report No. N-109-00R, revision 3 2-RLY-46-6 EREL NUTilERM MDR 134-1 Qualified; NUTilERM International report No. N-109-00R, revision 3 1-FIC-66-57 EFIC Beckman 8952-02 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

2-FIC-46-57 EFIC Beckman 8952-02 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

1-XS-46-57 CTSW Electroswitch Series 24 Qualified; Electroswitch report 2392-2 PN24909B-2 2-XS-46-57 CTSW Electroswitch Series 24 Qualified; Electroswitch report 2392-2 PN24909B-2 s 1-ZS-46-57A SGCV Beckman 8952-02 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

2-ZS-46-57A SGCV Beckman 8952-02 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

1-FSV-6 2-69 SNDV ASCO NP8316A74E Qualified; ASCO Report No.

AQS21678/TR, Rev. A DE03;TERRPT ..

i ADDITIO. 2QUIPMENT TVA ID No. Component _Manu fa c turer Model No. Status 2-FSV-62-69 SNDV ASCO NP8316A74E Qualified; ASCO Report No.

AQS21678/TR, Rev. A 1-MTR-63-10A ELMO Westinghouse 69F43503 Qualified; WCAP-8754 - ga 2-MTR-63-10A ELMO Westinghouse 69F43503 Qualified; WCAP-8754 1-MTR-63-15B ELMO Westinghouse 69F43503 Qualified; WCAP-8754 2-KIR-63-15B ELMO Westinghouse 69F43503 Qualified; WCAP-8754 2-FSV-63-71 SHDV ASCO NP8316A74E Qualified; ASCO Report No.

AQS21678/TR,,Rev. A 2-FSV-65-4 LMSW NAMCO EA-170 (LS) Qualified; NAMCO TR EA-170 2-FCV-65-4 SNDV ASCO 206-381-3RF Qualified; ASCO Report No.

AQS21678/TR, Rev. A 2-FCV-6 5-5 LMSW NAMCO EA-170 (LS) Qualified; NAMCO TR EA-170 1-FSV-65-5 SNDV ASCO 206-3 81-3 RF Qualified; ASCO Report No.

AQS21678/TR, Rev. A 2-FSV-65-5 SNDV ASCO 206-3 81-3 R F Qualified; ASCO Report No.

AQS21678/TR, Rev. A 2-FSV-65-9 SNDV ASCO 206-3 81-3 RF Qualified; ASCO Report No.'

AQS21678/TR, Rev. A 0-MC-65-16 HMCT Nutherm International N/A Qualified; Nutherm Report N-166-R 0-ME-65-16 HMSR Hy-Cal HS-3552-B-8-120H5 Qualified; Nutherm Report N-166-R DE03;TERRPT 9

l

I ADDITIC ZQUIPMENT TVA ID No t Component Manu fac turer Model No. Status 0-MM-65-16 HHTR Hy-Cal CT-822H-H-0-100K Qualified; Nutherm Report N-166-R 0-MS-65-16 CVRG Rochester ET-1219 Qualified; Nutherm Report N-166-R 0-MS-65-17 TPPL Indeeco & Nutherm N/A Qualified; Nutherm Report N-166-R International 0-MS-65-17 TPSW Thermo-Disc 60T-ll Qualified; Nuthern Report N-166-R 0-FSV-65-24 SNDV ASCO 206-381-3RF Qualified; ASCO Report No.

AQS21678/TR, Rev. A 0-FS-65-25A/ B FLSW ITT Barton 288 Replace with Fluid Component Model 12-64-3/S; Qualified by Report No.

708053: JC0 No. EEB-6 0-FS-65-25B/A FLSW ITT Barton 288 Replace with Fluid Component }bdel 12-64-3/S; Qualified by Report No.

708053: JC0 No. EEB-6 2-FSV-6 5-29 SNDV ASCO 206-3 81-3RF Qualified; ASCO Report No.

AQS21678/TR, Rev. A 0-FS-65-31A/B FLSW ITT Barton 288 Replace with Fluid Component tbdel 12-64-3/S; Qualified by Report No.

708053: JC0 No. EEB-6 0-FS-65-31 B/A FLSW ITT Barton 288 Replace with Fluid Component Model 12-64-3/S; Qualified by Report No.

708053: JC0 No. EEB-6 0-MC-6 5-36 HMCT Nutherm International N/A Qualified; Nutherm Report N-166-R 0-ME-65-36 HMSR Hy-Cal llS-3 552-B-8-120H5 Qualified; Nutherm Report N-166-R DE03;TERRPT ,

9

I ADDITIC EQUIPMENT TVA ID No. Component Manu fa cturer Model No. Status 0-MM-65-36 HMTR Hy-Cal CT-822H-H-0-100I Qualified; Nutherm Report N-166-R 0-MS-65-36 CVRG Rochester ET-1219 Qualified; Nutherm Report N-166-R 0-MS-65-37 TPPL

. ge Indeeco & Nutherm N/A Qualified; Nutherm Report N-166-R International 0-MS-65-37 TPSW Thermo-Di sc 60T-11 Qualified; Nutherm Report N-166-R 0-FSV-65-43 SNDV ASCO 206-380-2 Qualified; ASCO Report No. AQS21678/TR 0-FS-65-44A/B FLSW ITT Barton 288 Replace with Fluid Components Model 12-64-3/S; Qualified by Report No.

~

708053: JC0 No. EEB-6 0-FS-65-44 B/A FLSW ITT Barton 288 Replace with Fluid Components Model 12-64-3/S; Qualified by Report No.

708053: JC0 No. EEB-6 2-FSV-65-45 SNDV ASCO 206-382-2 Qualified; ASCO Report No. AQS21678/TR 2-FSV-65-46 SNDV ASCO 206-382-2 Qualified; ASCO Report No. AQS21678/TR

'l-FCV-65-52 LMSW NAMCO EA-170 (LS) Qualified;.NAMCO Report No. QTR-105 0-FS-65-55A/B FLSW ITT Barton 288 Replace with Fluid Components Model 12-64-3/S; Qualified by Report No.

708053: JC0 No. EEB-6 0-FS-65-55 B/A FLSW ITT Barton 288 Replace with Fluid Components Model 12-64-3/S; Qualified by Report No.

708053: JC0 No. EEB-6 DE03;TERRPT .. .

t ,

ADDITIO 2QUIPMENT \

TVA TD No. Component Manu fac turer Model No. Status 0-FS-65-56A/B FLSW ITT Barton 288 Replace with Fluid Components Model 12-64-3/S; Qualified by Report No.

708053: JC0 No. EEB-6 0-FS-65-56 B/A FLSW ITT Barton 288 go Replace with Fluid Components Model 12-64-3/S; Qualified by Report No.

708053: JC0 No. EEB-6 1-FSV-67-162 SNDV ASCO HB 8300 Replace with ASCO Model 206-380/2RU; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. EEB-8 1-FSV-67-164 SNDV ASCO HB 8300 Replace with ASCO Model 206-3 80/ 2RU; Qualified by Report No. AQS21678/TR, Rev. A: JC0 No. EEB-8 1-FCV-67-223 MVAC Electrodyne TN200 Replace with Limitorque SMB-000.

Qualified by TR B0003: JC0 No. MEB-104 2-FCV-67-223 MVAC Electrodyne TN200 Replace with Limitorque SMB-000.

Qualified by TR B0003: JC0 No. MEB-104 2-PT-6 8-66 PRTR Barton 763 Lot 2 Qualified; WCAP-9885 1-IE-68-334 IDCR ENDEVCO 2273A Qualified; 517-TR-01 2-IE-6 8-334 IDCR ENDEVC0 2273A Qualified; 517-TR-01 1-IT-68-334 SCCV TEC 504A Qualified; 517-TR-01 2-IT-6 8-334 SGCV TEC 504A Qualified; 517-TR-01 1-IE-68-340A IDCR ENDEVC0 2273A Qualified; 517-TR-01 DE03;TERRPT O

( /

ADDITI EQUIPMENT k TVA ID No. Component _ Manu fac turer Model No. Status 2-IE-68-340A IDCR ENDEVC0 2273A Qualified; 517-TR-01 1-IT-6 8-340A SCCV TEC 504A Qualified; 517-TR-01 2-IT-68-340A SCOV

.. g.

TEC 504A Qualified; 517-TR-01 1-IE-68-3 63 IDCR ENDEVC0 2273A Qualified; 517-TR-01 2-IE-68-3 63 IDCR ENDEVC0 2273A Qualified; 517-TR-01 1-IT-6 8-363 SGCV TEC 504A Qualified; 517-TR-01 2-IT-68-363 SCCV TEC 504A Qualified; 517-TR-01 l-IE-6 8-364 IDCR ENDEVC0 2273A Qualified; 517-TR-01 2-IE-68-364 IDCR ENDEVC0 2273A Qualified; 517-TR-01 1-IT-68-364 SCCV TEC 504A Qualified; 517-TR-01 2-IT-68-364 SCCV TEC 504A Qualified; 517-TR-01 1-IE-6 8-3 65 IDCR ENDEVC0 2273A Qualified; 517-TR-01 2-XE-68-365 IDCR ENDEVC0 2273A Qualified; 517-TR-01 1-IT-6 8-365 SCCV TEC 504A.

Qualified; 517-TR-01 2-IT-6 8-36 5 SCCV TEC 504A Qualified; 517-TR-01 1-IE-6 8-366 IDCR ENDEVC0 2273A Qualified; 517-TR-01 9

2-IE-68-366 IDCR ENDEVC0 2273A Qualified; 517-TR-01 1-IT-68-366 SGCV TEC _

.. _504 A. Qualified; 517-TR-01 DE03;TERRPT .. .

O

t  !

ADDITIt EQUIPMENT TVA ID No. Component Manu fac turer Model No. Status 2-IT-68-366 SGCV TEC 504A Qualified; 517-TR-01 1-LT-6 8-367 LVTR Barton 752 Equipment no longer considered to be within the scope of 100FR59249 (Located in a mild environment) 2-LT-6 8-3 67 LVTR Barton 752 Equipment no longer considered to b-within the scope of 10CFR50.49 (Located in a mild environment) 1-LT-68-368 LVTR Barton 752 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 2-LT-6 8-3 68 LVTR Barton 752 Equipment no longer considered to b; within the scope of 10CFR50.49 (Located in a mild environment) 1-LT-6 8-369 LVTR Barton 752 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 2-LT-6 8-369 LVTR Barton 752 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 1-LT-6 8-370 LVTR Barton 752 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 2-LT-68-370 LVTR Barton 752 Equipment no longer considered to be within the scope of 10CFR50.49 -

(Located in a mild environment)

DE03;TERRPT I

9

l ADDITIO. ZQUIPMENT \

TVA ID No. _ Component _ Manufac turer Model No. Status 1-LT-68-371 LVTR Barton 752 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 2-LT-6 8-371 LVTR Barton .

4, 752 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 1-LT-6 8-372 LVTR Barton 752 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 2-LT-6 8-372 LVTR Barton 752 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 1-TE-6 8-373 TPEL Hinco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-6 8-373 TPEL Hinco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-6 8-374 TPEL Hinco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-68-374 TPEL Hinco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-6 8-375 TPEL Hinco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-68-375 TPEL Hinco S8809 Qualified; WCAP-8687, Supp -2 E42A 1-TE-6 8-376 TPEL Hinco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-6 8-376 TPEL Hinco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-6 8-377 TPEL Hinco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-68-378 TPEL Hinco S8809 Qualified; WCAP-8687 Supp 2 E42A EE03;TERRPT 9 9 9

(

o f

ADDITIt \

EQUIPMENT TVA ID No. Component Manu fac turer Model No. Status 2-TE-68-378 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-68-379 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A g.

2-TE-68-379 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-6 8-3 80 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-68-380 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-68-381 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-68-381 TPEL Minco S8dO9 Qualified; WCAP-8687, Supp 2 E42A 1-TE-6 8-3 82 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-6 8-3 82 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-68-3 83 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-6 8-3 83 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-6 8-3 84 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-68-384 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 1-TE-6 8-3 85 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-6 8-3 85 TPEL Minco S8809 Qualified; WCAP-8687, Supp,2 E42A 1-TE-6 8-3 86 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-68-386 TPEL Minco S8809 Qualified; WCAP-8687, Supp 2 E42A I-FSV-6 8-3 96 SNDV Target Rock 79AB-003 Qualified; WCAP-8687, Supp 2-HE-10C DE03;TERRPT .. .

9

l ADDIT 1,

\ .

. EQUIPMENT h g

TVA ID No. Component Manu fac turer Y Model No. Statun t$

2-FSV-6 8-3 96 SNDV Target Rock 79AB-003 Qualified;WCAP-8687,Supp2-HE-10Ck 1-FM-6 8-3 96 FLCT Target Rock 300592-1 Equipment no longer considered to be-Q within the scope of 10CFR5fa.49 (Located in a mild environment) 2-FM-6 8-3 96 FLCT Target Rock 300592-1 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 1-FM-6 8-3 97 FLCT Target Rock 300592-1 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 2-FM-6 8-3 97 FLCT Target Rock 300592-1 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 1-FSV-6 8-3 97 SNDV Target Rock 79AB-003 Qualified; WCAP-8687, Supp 2-HE-10C 2-FSV-68-397 SNDV Target Rock 79AB-003 Qualified; WCAP-8687, Supp 2-HE-10C 1-TE-6 8-3 98 TPEL Minco 58809 Qualified; WCAP-8687, Supp 2 E42A 2-TE-68-398 TPEL Minco 58809 Qualified; WCAP-8687, Supp 2 E42A 1-FCV-70-85 LMSW Masoneilan 496-2 Replace with NAMCO Hodel EA-180; Qualified by Report No. QTR-105: JC0 No. EEB-7 2-FCV-70-85 LMSW Masoneilan 496-2 Replace with NAMCO Model EA-180; Qualified by Report No. QTR-105: Jw '

No. EEB-7 0-FSV-77-241 SNDV ASCO HB 8300 Equipment no longer considered to be within the scope of 10CFR50.49 DE03;TERRPT (Lucated in a mild environment) 9

l ADDITI EQUIPMENT \

_TVA TD No. Component Manu fac turer Model No. Status 1-HTR-83-1A H2RE Westinghouse 546-CXF-175205-EM Qualified; WCAP-7709L, Supp 7 2-HTR-83-1A H2RE Westinghouse 546-CXF-175205-EM Qualified; WCAP-7709L, Supp 7 1-HTR-83-2B H2RE Westinghouse ..

546-GXF-175205-EM Qualified; WCAP-7709L, Supp 7 2-HTR-83-2B H2RE Westinghouse 546-CXF-175205-EM Qualified; WCAP-7709L, Supp 7 1-RE-90-271 RADM CA Technologies Inc. (see note 1) Qualified; CA test report E-254-960, rev 2-RE-90-271 RADM CA Technologies Inc. (see note 1) Qualified; CA test report E-254-960, rev 1-RE-90-272 RADM CA Technologies Inc. (see note 1) Qualified; CA test report E-254-960, rev 2-RE-90-272 RADM CA Technologies Inc. (see note 1) Qualified; CA test report E-254-960, rev 1-RE-90-273 RADM CA Technologies Inc. (see note 1) Qualified; CA test report E-254-960, rev 2-RE-90-273 RADM CA Technologies Inc. (see note 1) Qualified; GA test report E-254-960, rev 1-RE-90-274 RADM CA Technologies Inc. (see note 1) Qualified; CA test report E-254-960, rev 2-RE-90-274 RADM CA Technologies Inc. (see note 1)

Qualified; CA test report'E-254-960, rev CSA Conax Corporation ECSA Qualified; Various Conax Test Reports Conduit ServicAir Corporation 5563 Qualified; Wyle Labs Report NES 26303 Note 1: Detector model RC-23; readout model RP-2C; power supply model RP-23; panel bin assembly model RP-20-01.

DE03;TERRPT .. .

t

i i

6.0 Additional Equipment JCOs i

l l

O .

014313.03

• '/

l l

JC0 No. EEB-1 TVA ID NO. 2-24-1-181, -182, -183, -184 HANUFACTURER/MODEL No.

Namco Controls /Model EA700 t STATUS IV JUSTIFICATION FOR C0!TtINUED OPERATION:

1. Limit switches 2-ZS-1-181, -182, -183, and -184 are located in the reactor building, lower containment, Elev. 712. They are required to CPerate for 5 minutes af ter start of an accident and not to fail in a manner detrimental to plant safety for 100 days thereafter (depending on which accident occurs).

2.

Limit switches are subject to LOCA/HELB conditions. They are required to operate and not to fail in the following environment:

Normal Abnormal Accident Temperature: 120"F Pressure:

130*F 3270F 14.7 psia 14.7 psia 26.4 psia Relative Humidity: 80 100% 100%

Radiation: 2x107 rads N/A 1x108 rads (40 yr. TID)

Spray / Flooding: N/A Spray only

3. The manufacturer's specifications for the switches are:

Temperature:' 194'T Pressure: Atm Relative Humidity: NEMA 4 Enclosure Ruiation: Not specified 4.

The above information indicates that the limit switches are not qualified for their required operating accident environ =ent.

5.

Limit switches 2-ZS-1-181, -182, -183, and -184 are part of the control circuit for the steam generator blevdown containment isolation valves.

Following an event inside containment it is possible for these unqualified limit switches to fail in the closed position, allowing the inboard isolation valve to reopen when the Phase A containnent isolation signal is reset. In the event of a main steam line or feedvater line break, no radiaiton is released, therefore, containnent integrity is not of vital concern. In the event of a LOCA, RER, or CVCS line break, there is a radiation release. However, the blevdown lines inside containnent are Class B piping and are considered part of the containnent boundary with no direct consnunication with the Reactor coolant System. Therefore, failure of the inboard blevdown islation valvee to close vill not result in any significant release of radioactive material outside containnent even with a single random failure of the respective outboard containment isolation valve.

Page 1 of 1 e -

6/12/84:MEDS 054164.02

~

l

e JCO NO. EEB-2 TVA ID NO. 1, 2-PS-3-121A, -1213, -121D MANUFACTURER /MODEL NO. Custom Ccuponents/Model 604G STATUS IV JUSTIFICATION FOR CO!TIINUED OPERATICN

1. Pressure switches 1, 2-PS-3-121A, -121B, and -121D are located in the auxiliary building (669 A6, A26). They are required to operate for 100 days af ter the start of a LOCA/REL3 inside contaicsent.

2. The pressure switches are subject to HELS (Volume 5) and LOCA conditio ns. They are required to operate in the following environments:

Normal Accident Temperature: 104 F 110 F Pressure: A tm Atm Relative Humidity: 80: 90%

Radiation: 5x102 rads 1x104 rads (40 yr. TID)

Spray / Flooding: N/A N/A

3. The manufacturer's specifiestions for the switches are: -

Temperature: 160Cp Pressure: A tm Relative Humidity: NEMA 4 Enclosure Radiation: Not specified

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative humidity.

5. The above information shows that the pressure switches vill function Properly as required and are, therefore, qualified for an interim period. However, due to the lack of documentation required by NUREG-0588, TVA vill replace these devices, as determined by NCR SQNCEB8303.

l l

l l

Page 1 of 1

'/"'T 6/12/84:HEDSIO54164.02 1

) .

JCO NO. EEB-3 TVA ID NO. 1, 2-FT-3-147, -155, -163, -170 I

NANUFACTURER/MODEL NO. Bailey /Model 555 STATUS IV JUSTIFICATION FOR C0YrINUED OPERATICN:

1. Flow Transmitters 1, 2-FT-3-147 and -155 are located in the auxiliary building (714/A6, A10). Flow transmitters 1, 2-FT-3-163 and -170 are located in the auxiliary building (690/A6, A19). They are required ta operate for 100 days after the start of a LOCA/HELB inside containment and for 1 month af ter the start of all REL3s outside containment.

2. Flow transmitters 1, 2 *T-3-147 and -155 are subject to HELB (Volu=e

14) and LOCA conditions. They are required to operte in the following environments:

Normal Accident Temperature: 1048 ) 192*F Pressure: A tm Atm Relative Humidity: 80: 100 Radiation: 3.5x100 rads 1x100 rads (40 yr. TID) (LOCA)

Spray / Flooding: N/A N/A Flow transmitters 1, 2-FT-3-163 and -170 are subject to HELB and LOCA conditions (Volume 15). They are required to operate in the following environments:

Normal Accident Temperature: 104Cp 196*F Pressure: Atm Atm Relative Humidity: 80% 100 Radiation: U1 - 1.75n103 rads 1x104 rads (40 yr. TID) (LOCA)

U2 - 3.5.10 rada (40 yr. TID)

Spray / Flooding: N/A N/A

3. The manufacturer's specifications for the flow transmitters are:

Temperature:

-20"V to 185*t Pressure Atm Relative Humidity: N't specified*

Radiation: Not specified

• Rated for all outdoor installatioca.

Page 1 of 2

,, -~3 6/12/84 NEDS:054164.02 i) .

e . -

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative hianidity.

5. The maximiza normal operating temperature is 104 F. During an HELB, the I 8

temperature will rise to 196 7 within 625 seconds, and then decrease linearly 0

to the maxi =u:s nomal operating temperature within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

The 11 F temperaure rise above the manufacturer's specified maximum operating temperature of 185 F is of such short duration that it will not effect the operation of the transmitters.

6. The above infor=ation shows that the flow transmitters will function properly as required and are, therefore, qualified for an interim period. However due to the lack of documentation required by NUREC-0588, TVA will replace these devices as determined by NCR SQNEEB8308.

Page 2 of 2 g 6/12/84:MEDS 054164.02 -

l JC0 NO. EER-4 TVA ID NO. Positioners on 1, 2-LCV-3-148, -156, -164, -171, -172, -173,

-174, -175 l

MANUFACTU2ZR/letIL !?O. 1(asonellan/ !odel 0012 STATUS III l

JUSTIFICATION FOR CONTINUED OPERATION I. 1. Positioners on each of 1, 2-LCV-3-148, -156, -164, and -171 are located in the auxiliary building (714/A1). They are required to operate for 100 days af ter the start of a LOCA/HELB inside containment and for 1 month af ter the start of all HELBs outside contairsment.

2. The positioners are subject to HELB (Volume 12) and LOCA conditions. They are required to operate in the following environmentals Normal Accident Temperature 104*F 129"F Pressure: Ata Ata Relative utssidity: 801 100%

Radiation: 5x100rads 1s100 rads (40 yr. TID) (LCCA) l Spray / Flooding: N/A N/A

3. The manufacturer's specifications for the positioners are:

Temperature: 180*F Pressure Ata Relative Humidity: NEMA 4 Enclosure Radiation: Not specified

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative htssidity.

5. An accident simulation test to temperatures in excess of 320 F has been performed at Wyle Laboratories and ha s shown that these positioners will function properly as. required and are, therefore, qualified for an interim period. Further testing is being done at Wyle Laboratories in Huntoville, Alabama, to provida qualification documentation as required by BUREG-05S8.

II. 1. Positioners on each of 1, 2-LCV-3-172, and -173 are located in the auxiliary building (714/A6, A10). They are required to operate fer 100 days af ter the start of a LOCA/HEL3 inside contairnment and for 1 month af ter the start of all 12LDs, except for an AFW ptasp I

See SQN/WBM Environmental Data Drawing 473235-49, -50.

I Page 1 of 3 O */12/84 === os4264 o2 -

l l

l

turbine steen line break, outside contaitzment. For an AFU ptemp turbine steam line break, positioners are classified category C.

2. The positioners are subject to HZL3 (Voluna 14) and LOCA conditions. They are required to operate in the folleving ,

environments 2, Nornal Accident '

Temperature: 104*F 192*F Pressure Atn Atn Relative Humidity: 80Z 100%,

Radiation: 1x106rads 1x104 rads (40 yr. TID) (LOCA)

Spray / Flooding: N/A N/A

3. The manufacturer's specifications for the positioners are:

Temperature: 180*F Pressure: Atm Relative Humidity: NEFA 4 Enclosure Radiation Not specified

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative htanidity.

5. An accident simuistion test to temperatures in excess of 320 F has been perfor=ed at Uyle Laboratories and has shown that these positioners will function properly as required and are, therefore, qualified for an interim period. Further testing is being done at Wyle Laboratories in Huntsville, Alabama, to provida qualification documentation as required by NU2XG-0538.

III. 1. Positionera om each of 1, 2-LC7-3-174, and -175 are located in the auxiliary building (west valve vaults, 706/A1, All). They are required to operate for 100 days af ter being subjected to a main steam lins break or a feedwater line break inside valve vaults.

l

2. The positioners are required to operate in the following envirotunenta3 Norssi Accident l Tempera ture 130*F 3078F Pressure Ata Atm Ratative Humidity: 507 100%

Radiation: 1x75x103 rads N/A l (40 yr. TID) (LOCA)

Spray / Flooding N/A U/A 2

3 See SQN/UEN Environmental Data Drawing 47E235-83, -52.

See SQN/U3M Environmental Data Drawing 47E235-79.

Page 2 of 3 j -

6/12/84:HEDS:054164.02 l

l

3. The manufacturer's specifications for the positioners are:

Temperature: 100"I Pressure Ata Relative Huisidity: ITEin 4 Ecc1(,sure Radiation not specified

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative htamidity.

5. An accident simulation test to ecmperatures in excess of 320 F has been performed at Wyle Laboratories and has shown that these positioners will function properly as required and are, therefore, qualified for an interim period. Further testing is being done at-Wyle Laboratories in Huntsville, Alabama, to provide qualification documentation as required by NUREG-0588.

1 0

i i 6/12/84:NEDS8054164.02 -

JCO NO. EEB-5 TVA ID NO. 1, 2-PS-3-160A, -1605, -165A, -165B A MANUFACTURER /MODEL ' 0. Cuatca Components /Hodel 604G

~

STATUS IV JUSTIFICATION FOR CCITTINUED OPERATION:

1. Pressure switches 1, 2-PS-3-160A, -160B, -165A, and -165B are located in the auxiliary building (west valve vaults, 706/A1, All). They are required to operate for 5 minutes af ter being subjected to a main steam line break or a feedvater line break inside valve vaults and not to fail detrimental to plant safety for 100 days thereafter.

2. The pressure switches are required to operate in the following environments :

Normal Accident Temperature: 130*F 307*F Pressure: Atm 22.9 psia Relative Humidity: 50% 100 Radiation: 1.752103 rads N/A (40 yr. TID)

Spray / Flooding: N/A N/A .

3. The manufacturer's specification for the pressure switches are:

Temperature 1600F Pressure: Atm Relative Humidity: NEMA 4 Enclosure Radiation: Not specified i

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative hmidity.

5. The above information indicates that these switches are not qualified for their accident enviroment. 1, 2-PS-3-160A, -160E, -165A, and

- 1655 are cennonents used to sense low stars generator pressure and to isolate the turbine driven euxiliary feedvater (TDAFW) supply to the faulted steam generators (SC). The actamatic closure of these feeduatet valves freu the pressure switeben is not taken credit for in any TVA accident analysis. FSAK Table 10.4.7-9, " Auxiliary Feedwater Flos to Steam Cenerators Following an Accident / Transient With Selected Single Failure," states that for the two events which will cause PS-3-160, etc., to fail (main feedvater and main steam line breaks) 10 minute operator action is required to isolate the AFW flow to the faulted SG (this table does not take credit for the autcmatic isolation of the TPAFW supply valves). E01-2, " Loss of Secondary Coolant,"

1 Sea SQN/WBN Environmental Drawing 473235-79.

i Page 1 of 2

/O t

-) 6/12/84:MEDS:054164.02 ~

~

.. ~ -

instructs the operator to isolate AFW flow to the faulted SC,

.) -

therefd,re, the TDAFW supply valve will be closed by the operator even d" if the valve does not autcmatically close freen the ppressure switch input. -

~ '

'Thise 'siitches vill be relocated to a less harsh envirornent and replaced with fully qualified devices as deter:sined by the resolution of NCR SQNEEB8004.

I

\

l l

l n Page 2 of 2 .

• ) , 6/12/84:MEDS:054164.02 s r.

1

JCO NO. EEB-6 TVA ID NO. 0-FS-65-25A/S, B/A; ~31A/B, -313/A; -44A/B, -44B/A;

-55A/B, -553/A; -5EA/3, -56B/A vammar tan /MODEL NO. ITT 3arton/Model 288 STATUS IV JUSTIFICATION FOR COh*IINL'ED OPERATION:

1. For flow switches 0-FS-65-25A/B 0-FS-65-25B/A 0-FS-65-31A/B 0-FS-65-31B/A 0-FS-65-44A/B 0-FS-65-44B/A 0-FS-65-55A/B 0-FS-65-55B/A 0-FS-65-56A/B 0-FS-65-56B/A 2.

Flow switches are located in the auxiliary building (734/A16). They are required to operate for 100 days filoving a LOCA inside contaicsent. .For all HELBa, flow switches are classified category C.

3. Flow switches are required to operate in the folleving envirecsentsl M Abnomal Accident Temperature: i 104CF 110Cp 110 *F Pressure: A tm Atm N/A Relative Hunidity: 80% , 90: N/A Radiation: 3.5x10' rads N/A 1x107 rads (40 yr. TID)

Spray / Flooding: N/A N/A N/A

4. The manufacturer's specificatiena for IL:it switches are as follows:

Temperature: 2000 t Pressure: Atm Relative Humidity: NEMA 4 Enclosure Radiation: Not specified 5.

See generic position 4.1.8 for relative humidity.

6. Flow switches are not qualified for their accident radiation environment. TVA will electrically remove (per ECN L-5124) flov '

switches from control circuit to eliminate their safety function until environmentally qualified replacementa are installed by NCR SQNEEB8031.

I See SQN/W3N Environmental Data Drawing 47E235-81.

s f- s Page 1 of 1 ,

) 6/12/84:MEDS:054164.02

~

i ki e

e i

JCO NO. EEB-7 TVA ID No. Limit switches on 1, 2-FCV-70-85 .

MANUFACTURER /MODEL NO. Masoneilan/Hodel 496-2 l STATUS._ IV JUSTIFICATION FOR CONTINUED OPERATION: Fct equipment added to SQN 10CFR50.49, Table ii.

1. Limit switches associated with 1, 2-FCV-70-85 are located in the auxiliary building (pipe chase area, Elev. 690/A28, A29). They are -

required to operate for 5 minutes af ter the start of an accident and not to fail detrimental to plant safety for 100 days thereafter. '

2. Limit sitches are required to operaate in the following environmentsl :

Normal Abnormal Accident T emperature: 104 V 110Cy .110"F Pressure: Atm Atm N/A Relative Humidity: 80% 90% N/A 4 Radiation: 3.5x105 rada N/A 1x100 rada (40tyr. TID) (LOCA)

Spray / Flooding: N/A N/A N/A

3. The manufacturer's specifications for li=it switches are as folleva:

T emperature: , 180CF Pressure: Atm Relative Humidity: NEMA 4 Enclosure Radiation: Not specified

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative h umidi ty.

5. The above information shows that the limit switches will function properly as required and are, therefore, qualified for an interim period. However, due te the lack of docc=entation required by NUREC-0583, TVA vill replace these devices as decermined by NCR SQNEEB8302.

1 I

i v

I See SQN/WBN Environmental Data Drawing 47E235-64.

Page 1 of 1 -

gs 6/12/84:MEDS:054164.02 ,

)

s 4

JCO NO. EEB-8 TVA ID No. 1-FSV-67-162, 1-FSV-67-164 MANUFACTURER /MODEL NO. ASCO IG8300C582U STATUS IV JUSTIFICATION FOR CONTINUED OPERATION: '

1. Solenoid valves 1-FSV-67-162 and 1-FSV-67-164 are located in the auxiliary building (Elev. 690//A1). They are required to operate for 100 days af ter the start of a LOCA and for 1 month following an HELB outside of containment.

2. The valves are required to operate in the following environmentsI :

Normal Abnormal Accident Temperature: 104 F 110 *F 116"F Pressure: A t=t Atm ^N/A Relative Humidity: 80: 90% 100:

Radiation: 5x102 rada "4 1x104 rada (40 yr. TID) (LOCA)

Spray / Flooding: N/A N/A N/A

3. The manufacturer's specifications for valves are as follows: -

Temperature: 140*F Pressure: Atm Relative Humidity: Not specified Radiation: Not specified

4. See generic positions 4.1.5 for radiation and 4.1.8 for relative humidity.

5. The above information shows that the valves vi;1 function prcperly as required and are, therefore, qualified for an interi:s period. However due to the lack of documentation required by NU.2-0588, TVA vill replace these devices as decemined by NCE SQNE138046.

1 l

i 1

i 1

I S<ee SQN/WBN Enviremental Data Drawing 47E235-55, -58.

p h4 Page 1 of 1 -

6/12/84:MEDS:054164.02

(

\

(

HEB-17 SEQUOYAH NUCLEAR PLANT JUSTIFICATION FOR CONTINUED OPERATION:

"TDfPERATURE SWITCHES - COOLERS"

"" Tn un. TS-30-184, 2-TS-30-185

. 1-TS-30-194, 1-TS-30-195 .

2-73-30-194, 2-TS-30-195 Manufacturer /Model No. - Penn A19BBC-2 Status - IV Justification for Continued Oeeration -

Subject te=perature switches are to be replaced with 1E qualified switches (already onsite). Installation of replacements is scheduled as

, follows:

Unit 1 - no later than cycle 3 fuel outage period (November 1985) as previously requested in exemption from 10CFR50.49 rules.

Unit 2 - no later than the end of cycle 2 fuel outage -

November 24, 1984.

For JCO, see attached appendix _I, -

EQS No. MEB-10-64.

Prepared by: . .%

G 2*h Reviewed by: [ =1m $/Ec/gg G24171.05 (o

_) .

I l

I

/

Unit No. Mf

,/' t.

Revision g/ EOS No. M EE v). Q TVA ID No.

Preparer /Date&&g /g&&ml ll 6a ;;om& Ek0

. Reviewer /Date h y ,/ g

(( ', ((4

, SONEOUIPMEMYCUALIFICATIONSHEET(R3)

Manufacturer and Model No.

Verification of Table Infomation (L Om A /9866 - f goz ///c/.m/Wh &#.

e49_ s l'

. y -

/ Ecuiement Tvoe - The equipment has been identified as per TVA ID number designations (such as, MOV, SOV).

/ Location - The location has been identified (such as, inside primary containment, annulusi individually cooled rooms, general spaces, or area affected by HELB outside primary containment).

[ Comoonent - A unique TVA ID number has been assigned (such as, 1-FSV-68-308).

g Function - A fun',ctional description of the component has been given (such as, steam generator blowdown).

7 Contract No., Manufacturer, and Model No. - The contract number, manuf acturer, and mooel numcer have been given.

r/ Abnormal or Accident Environment - All abnomal or accident environmental cono1tions applicable to this equipment have been identified either in tables c by references to figures from tables.

/ Environment to Which Oualified - The environment to which the equipment has bet qualified is adoressed in either the tables or the environmental analysis attached.

[ Catecory - A category of a, b, c, or d has been defined for the ,

equipment. .

/ Ooeration and Accuracy Recuired and Demonstrated - The operation and accuracy requireo ano oemonstrateo have been defined.

Qualification Status (check if acclicable, NA if not)

Oualified Life (If equipment is qualifico, inoicate the qualified life with a numerical entry):

A/A Oualification Reoort ano Method - A qualification report and the method of l

Qualification has been ident1 tied on the Table Input Data Sheet (TIDS).

/ Environmental Analysis - An environmental analysis has been done, attached to the EOS, and independently reviewed by the responsible crganisation.

l A/A Oualification by Similarity (If applicable) - a justification for qualificatior cy similarity is attacneo to the EOS considering all the above factors and referenced to the appropriate tables.

F/ Oualification of Several Exact C m oonents (If applicable) - When an EQS is usec f or more than one item, a list of all exact cenponents is given as an aopendix with all references to appropriate tables with justification for qualification

_ / considering all the above factors.

V Interim Oualification (If applicable) - (0 pen item) - Component has been detemined to oe qualified only for a limitad interim operation, an NCR has been written, and plan of action has been detemined to yield a qualified I cmponent.

l

' Tem of Interim Quat 1fication Oc, ,Qg.,

NCR No. GON/MG.6 830/

[ Uncualified Ccnoonent - (0 pen item) - (If applicacie) - Component has been deteminea to De unqualified; the following is attached to EQS: NCR number, reason for non- ualification, and justification of continued operation.

NCR No. /tfE883Of ~

EQS

A,apendh / .

.m a b.T ADDITIONAL EQUIPMENT

.:t 7.$ i

...J

]'

I Tecperature Switches ..3

.. - .; };J 3

E..

TVA ID No. TS-30-184' and -185

~- .

,_- r- .$ ,

. .. :. .n, - '

i2_:: ~ t. L .: ... -

b ,

- g 1-TS-30-194,and -195 .~

.3 1

2-TS-30-194,and -195---

_u _ - -

- - 4

- ,t .]

Manufacturer /Model No. - Penn A19BBC-2 -[8

.- 2.

3 G,1 Status - IV .

?

Justification for Continued Ooeration and/or -;

Resolution of Deficiencies - e d

c

." The te=perature switches are subjected to the following accident .

conditions (worst case - penetration rocs el 714.0 - HELB): .L

~

days m W-LOC N Temperature ito*pcaxi=um 1930F usag ( deaus,m3 fo I4o*F ene 4-br. (@ y%

psia maxi:::um S

~

Pressure - 14. ri Relative Humidity - 100% maximu= ('IA hr. rns Q Radiation - 4 l x 104 ra h (Lee.AD f The temperature switches functions are to start the pipe chase j];

coolers.to provide cooling to the motor operated valves in pipe chase. t.

The switches can operate at a maximu= temperature of 1400F (see h attachment 1)._Per Johnson Controle: since 100% relative hu=idity ,

occurs only over a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> time period, there would be no adverse l' K

affects on subject switches. The maxim'.12 temperature of MSOF; however, could have adverse affects en the switches. This maximum [

temperature occurs during a residual hsat removal pipe rupture and is ;_-

an extremely conservative figuNr. Probability of cecurrence is

~

[J.

extremely low. .

- It is our engineering judge =ent that due to the mass of the valves f and the short duration of the line break, the valves will not 2 significantly be affected by failure of the temperature switches $

to continue to provide cooling. The subject switches can operate 7

- for all other line breaks; therefore, we feel the te=perature [

switches can continue to operate until they'are replaced with i qualified temperature switches. A replacement schedule is immediately }

l

being imp. '

emented to rectify this situation. s 7 [-

a b-)! _

(

g Ref. : 7VA Envirarsmerda/ Dgh g,gg7,475ggg_ g 49 ,,,J gg

• Q SS Mro 60, 69 2 7o Fu l

f f.

m./. . Al3-5LI(IU U U M i n U 1. o I95 1 tlill' t R R I U n L m . -r a ~. . .

. (

4 2e pis 7 N - _-

1 7 C0llED Bulb THERMOSTATS .

(,

t.. . , ....

.c ,

c..,e,. . . co

...,. c a ., . ,.,. %g+e

.. A. -.

nim.-. .c .

--. .. .. 1 1

? W .! VENTILATING, HEATING e- n. #

'f v'$, s'.'Si . l '8 K-6 A n's AS .3 l -il.'k. '".[.'.C. l 38 8* '8 l L *c".fi.[ l I

,'.j -

imac.; l ==>

l =a no l , *n, . ** 2 a.7 i  :-6 l s'fai H u y amu.i l unt u .. no l ,f., '*a.*r ( =~> j ,*. 6 l u C O O ttN G

^"'** , m,i e., uin -=4= . .. u n;;y yg~ ll:S u u.i- 6 i. ...,.... . a ue --.~

,. l e

THERMOSTAT FOR PORTABI.E HEATERS Cat:Jos No. A19 BAG. is a sturdr. cor: pact To otett SpecI!y CaiaJos h*ucaer only.

thermostas with visible seals and adjassics knob. Desiped to es.Le hensy do,rv use en; gLICitlC AL RATINGS j

countered an portable hemier ap;.h,eauons. Ls,quio *****'" ' "'V- I

!M:g.-

% charged, co per coiled air ba!o for rapid *"'***" ' '80

• response and dependabilirv. C lo g exte= sic: ' '** '

• M.i Pd cord shh rubber covered retarh.ed 5 pro:s

^ ' '"' " ** ^" "

• -w-.-. t e r w.m 4

R. plug and ">< ties ** socies for 12 V. service.

15 Aep. rating. 7* bended chai ha=rer supplied e.m r~.. - m vi 24 .. m v 4 .c. J

,,,'i 9'i" to permit supporting the thermostat is any

' ,r3 consensent locauct

-L

>em :1.H.- .,

h ) - ,

4s' 2 ( f.) D;ff ..r tg.f.)

ses1 33 Op.a M.s 6 Si f3 Wa A4.

u alt 8 AG.1 -e4..si... - P . . i....

Agg ggg.)

n. - s. ,... ,, u,. a.

AUTOMATK CHANGE 0VER A!* TAC.7 may 1:. anouritd dines!y can either Chanfeoser comrol for wie with co:nbinatio.. wni af or borir atti pipe by snousting strap Q 3;N d '.

beating a.nd coolinc thersnostasi. Control feeb inier armperatore and suiematically selecia cor.

rett thescoostat funcii>n. Recommended foi con.

s.;: lied with c tro'. A19CAC 1 has semane la.a lor greate s wi.img ar.d counting ccmwo-W .fe i ,ico e.

I

,ectors. Ian ecIJs and blast coil amiss. etc.

p !]d r .teg Come A ,a3.tegt te mperetves: 340*,7.

4* '

A'.ta . fre na' g Element Temperstvees 250* F.

'yy Sh;Faias W.%ht: 1.2 lbs. each.

@. N'*M D,D *.$'j m.asias 10 CSDtt: Specify Cat: Jog Nacher caly, l

eo - sc 4 i

AIICAC'I IPEI C.2-s. rticiticAt mat Ncs

) to Fised to aa. e *.aei i tro v. i in v. i eo i. D;#

AliEAE*I SPDt 90 fis.d g g Ag gggg,y c.....-e........ , eo uo

c. .. a 4,n - e.m o , - a 2 s v A.. us an v.a.c.

~

6 .

O -

, - ,..s. .

Paa De ONc ,

'Jerfe e Env,unee, l , gen px. 6e.sefc.;f ,s gS.Zl..) c, n - t ~r e ' .

JC0 NO. MEB-101 TVA ID NO. SEE ATTACHMENT MANUFACTURER /MODEL NO. - NAMCO/EA 170 STATUS - TO BE REPLACED Justification for Continued Deeratien: - - - - - - - -

~

These IE=it switches are similer 'to' limit switches tested in Na5'e~o'~s test report for model EA 170-302 lim.tt switches. The switching mechanis=s are the same,' but the EA 170-100 has an aluminum housing instead of. zinc and is sealed with BUNA-N instead of EPDM and VITON. These limit switches are required to operate for 5 minutes, a;fter which they are " fail as is". For 3 years of operation ~and accident the radiation level is less than or equal to 2.5 x 106 RADS. Materials analysis shows that the above materi,als are capable of surviving for the required period of time. Based on the above, we consider these switches qualified for operation until they can be replaced.

4 Prepared by:

w 4[d< j -,

Reviewed by: [h , [ /[$- [ ff

(~e /

G24171.12

()

,J

JC0 NO. MEB-101 ATTACHMENT I SHEET 1 OF 1 c- C,*.~-30-2 (LS ) ,

2-FCV-30-5 (LS) 2-2S-30-7 2-FCV-30-16(LS) 2-23-30-51 2-23-30-53 2-FCV-30-54(LS) 2-23-30-57 2-Z3-30-59 2-FCV-30-61(LS) 2-FCV-30-62(LS) 2-2S-30-19 2-FCV-30-37(LS) 1

.j O

Reviewed by: ,[O y , .. . ,// /t_ [ !t o f f

- Rt T8[.ae4f eb 4 9

1

. . l O

G24171.12 ',

i O  : -

t

JC0 NO. MEB-102 TVA ID NO. SEE ATTACHMENT MANUFACTURER /MODEL NO. AVC0/C-5439 STATUS: TO BE REPLACED Justification for Continued Operation:

While we are unable to obtain qualification documentation for this model valve, we have obtained r_anufacturer's literature which shows that this valve is manufactured from bronze and viton. For the environments that this valve will be exposed to these materials should not experience debilitating degredation.

Prepared by: -

/[7< 8 7

Reviewed by: h) '

0*,. h l -'

G24171.14

~

1

. s 2

l JC0 NO. MEB-102 .

ATTACHMENT I .

SHEET 1 0F 1 1-PSV-30-7 2-FSV-30-7 1-FSV-30-9 2-FSV-30-9 1-FSV-30-12 2-FSV-30-12 1-FSV-30-14 2-FSV-30-14 1-FSV-30-19 2-FSV-30-19 1-FSV-30-53 2-FSV-30-53 1-FSV-30-54 2-FSV-30-54 1-FSV-30-59 2-FSV-30-59 1-FSV-30-61 2-FSV-30-61 1-FSV-30-62 2-FSV-30-62 1-FSV-30-51 .'

2-FSV-30-51 1-FSV-30-57 '

2-FSV-30-57 r

Prepared by: .__

6 //

Reviewed by: //) l /

- o- [e_ [7 7d/7f

- , f n G24171.14

~

JC0 NO. MEB-103 TVA ID NO. - SEE ATTACHMENT l MANUFACTURER /MODEL NO. ASCO/8316 STATUS - TO BE REPLACED Justification for Continued Oeeration:

This model solenoid valve was subjected to environmental testing in ASCO Test Report AQS21678/TR Revision A; and survived a 3460 F temperature transient, 5 x 107 RADS Radiation and 1005 Relative Humidity. While not covering a 100 day accident, these conditions cover the time required to perform the safety function of this valve.

Prepared by: 4[A II q Heviewed by:

, //)...k. , /./., &M G211171.13

~

2 JCO NO. MEB-103 j N ATTACIDENT 1 -

SHEET 1 0F 1 1-PSV-30-16 2-FSV-30-16 1-FSV-30-37 2-FSV-30-37

.4 4,

'/l Reviewed by:

//. ,b. , %d l

G24171.13 i

JC0 NO. MEB-104 TVA ID NO. - SEE ATTACHMENT MANUFACTURER /MODEL NO. - ELECTRODYNE/TN 200 STATUS - TO BE REPLACED Justification for Continued Oneration:

The valv'e motor operators are qualified by test of a codel TN-200 motor oprator in Franklin Institute Research Laboratories Report No. F-C2883 The test sequence was as follows:

1. Radiation 1 x 108 RADS

2. Seismic 3 6-Day steam and simultaneous 5-hour chemical spray exposure starting at 90 psig/3300 F and reduced gradually to 5 psig/2250 F.

nor This test doesAqualify these actuators for a 100-day accident but the test conditions do envelope the required operating time for these actuators.

Based on the above, these actuators are qualified for continued operation until replacement.

Installation of replacements is scheduled as follows:

Unit 1 - no later than cycle 3 fuel outage period (November 1985) as previously requested in exemption from 10CFR50.49 rules Unit 2 - no later than the end of cycle 2 fuel outage -

Novembei- 24, 1984.

Prepared by: # A [f** 8/

iij Reviewed by: (h g. d - ((c< d'

~.

('

0 G24171.15 O

C/ .

I

2 JC0 NO. MEB-10!I ATTACHMENT I '

SHEET 1 OF 1 1-FCV-67-223 2-FCV-67-223 Prepared by: 6 frt!8/

Reviewed by: '87 ei i [#f kJ. /

l l

l 024171.15 -

l -

i JC0 No. MEB-105 TVA ID No. - See Attachment Manufacturer /Model No. - Namco/EA 180 Status, - To be replaced e

JUSTIFICATION FOR CONTINUED OPERATION The liinit switches are in the seal-in (control) circuit for the containment purge supply and exhaust isolation valves. These valves close upon receipt of a containment vent isolation signal. After an accident inside containment, the limit switches may fail in the closed position allowing the associated valves to reopen (if open at time of accident) when the containment vent accident signal is reset. Taking a single failure of the outboard isolation valve (failing open), a path to outside containment would exist. Although there are isolation valves downstream which receive the same closure signal, there is a rubber expansion joint in the line which is only rated to 3 lb/in 2g. We believe JC0 is provided until the next refueling outage for the following reasons.

1. It is highly unlikely that spring-loaded fail-closed valve in the annulus (which receives the same closure signal as the inboard valve) would fail in the open position. Only one pair of containment purge isolation valves would be open with the unit in modes 1, 2, 3, and 4.

In addition, operation with purge valves opened is limited to less than or equal to 1,000 hrs /yr.

2. Resetting the containment vent isolation signal is included in emergency procedure ES-0.2, "SI Termination." Af ter a large break less

~

of ~cooolant accident (LOCA), safety injection (SI) will not be -- --

~, s terminated until very late in the event. By this. time, containment pressure will be reduced below the 3 lb/in2g rated limit of the expansion joint. The downstream isolation valve will be closed, and any radioactive leak-off in the annulus will be handled by the emergency gas treatment system (ECTS).

3.

Af ter a small break LOCA, SI will be terminated (and subsequently containment vent isolation reset) af ter reactor coolant system (RCS) pressure re-established. The small break LOCA g though, will only result in pressures of approximately 2-3 lb/in's, which is within the limits of the expansion joints.

4.

ES-0.2 cautions the operator to deteruine whether, after a LOCA, the containment It ventilation systens should be returned to normal aligament.

is highly unlikely that the operator will reset containment vent isolation if there is any significant release of radiation into the containment.

Prepared by: 12[3[8A Reviewed by:

i '

!W REVISION I -

k

• PREPARED BY/DATE

~

REVIEkTD BY/DATE _

w

JC0 No. MEB-105 Attachment 1

,_ Sheet 1 of 1

<( .

Unit Tag No.

1 2S-30-8 1 ZS-30-10 1 25-30-15 1 ZS-30-20 1 2S-30-50 1 ZS-30-52 1 ZS-30-56 1 ZS-30-58 Prepared by: I_ t Y /Zb!d Reviewed by: [ ' AF W

& m >3e.e,

~

l

6 1

e-

y. .-

&pendh I

- - AD0!TIONAL EQUIP E NT Te:perature Switches

^ ^ ' '-

TVA ID No.

- -- ^^

1-TS-30-185 and. -187 2-TS-30-186 and -187 1-TS-30-190 and >191 0-TS-30-192 and -193 1-73-30-196 and -197 2-TS-30-196 and -197 Manufacturer /Model No. - Penn A19330-2 - _. ._

Status - IV .

Justificatien for Continued 0 eratien and/or Pesciutien of Deficiencies -

The te=perature switches a e subjected to the folleving accident conditiens (vorst car.e - penetratien rec: el 7124.0 - HEL3):

I to'G nwe ( Sodsys ,rn3g- Lot..:D Te:perature W3CF =axt:= (dtag2S jg o yo' f em 4- N Pressure - 1!;.4 psia =axi=u:

Relative Hu=idity - 100% =axi=u: [7 4 h r . r@)

hadiatien - d. l x [od rade, G.cM

.The temperature switches functions are to start the pipe chase coolers to provide cooling to the motor operated valves in pipe chase.

The switches can operate at a caxi=u: te:perature of 140C7 (see attach =ent 1). Per Johnson Controls:

occurs only over a 24 hour time period, since there 1005 relative would be no hu=idit:.

adverse aff ects on subject switches.

The maxi =u: te=perature of (33 07;-

however, ceuld have adverse affects on the suite'es. This taxi =.r-te=perature occurs durin5 a residual heat re= ova. pipe rupture and is an extre=ely conservative figure. Probability of occurrence is extre:ely lov.

It is our engineering judge:ent that due to the = ass of the valves 2 and the sho-t duratien of the line break, the valves vill not significantly be affected by failure of the te:perature switches to confinue to provide cooling. The subject switches can operate for all other line breakt; therefore, we feel the te:Perature

! switches can continue to operate until they 'are replaced with qualified te=perature switches.

beir4 imple:ented to rectify this situation.A replacement schedule is i= ediately.

hf. : TVA Endronmental 02h drus"m 47E295-- 49 tha GE 55 / Ara 60 s69270 8

/Appendh .Z7' '

n/

ADDITIONAL EQUIPMENT Temperature Switches TVA ID No. 73-30-201 and -202 2-73-30-201 and -202 Manufacturer /Medel No. - P'enn A19EEC-2 Status - IV .

Justifie:tien for Continued Oceratien and/or Resolutien of teficiencies -

The te:perature switches are subjected to the following accident conditions (EEL 3):

Te:perature - 209c3 Pressure - 14 Jr gaxtzu: (g4 )y tyggx}.,jJ F f. go f g ,,z(;l_

psia =ax1=u:

Pelative hu:idity

,100%

P.adiatien - CD. Accidhf *. (24 hr gjax)d

< lx 104 re C (Lec.A)

The te=perature switches functions are to start the pipe chase

. ccolers to provide cooling to the motor operated valves in pipe chase.

The switches can operate at a maximu= te perature of 1400 ? (see attachment 1). Per Johnson Centrols:

since 100% relative hu=idity occurs only over a 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> ti:e period, there would be no adverse affects en subject switches.

The =axi=u te=perature of 2090?;

however, ceuld have adverse affects on the switches. This =axi=u temperature cecurs during a residual heat re Oval pipe rupture and is an extre:ely conservative figure. Probability of occurrence is extremely low.

It is our engineering judgement that due to the mass of the valves and the shert duratien of the line break, the valves will net '

significantly be affected by failure of the te=perature switches

' to continue to previde cooling. The subject switches can operate for all other line breaks; therefore, we feel the temperature switches can continue to operate until they 'are replaced with qualified te:perature switches.

being i=ple:ented to re:tify this situatien.A replacement schedule is 12:ediately h[. :

,m

)

'TVA

.Sp- EnwIonmenfs/ Ds/a Jci,gwQ gyg_gf h

$QAf .

s LEON.4 V ~

l 6

I

i A l U - S till t b I lla l' t R A i U lt t b uii l l1 U t a m.m.3

, .:m-- - - - ,

l

~ ~'-

COllED Bulb THERMOSTATS .

a. Des s.a. T "'  %. -

c.

s .. .a s -** '" -

r s. r :J c6,

, t.

u.

ts tnv. a r m C-c:"- :- s 1y VENTILATING, HEATING -

. *,.',si

,;, c . ',, l as - es l ,31 sl At tia s.s l'by,87 l sa l E',j , l AmAc. L e-ia *

• uci l , 1 .I ; 27 l w l n'.i l e g ,,

9 01 s Ansar.) l :o = 150 l ,,, a sky- l g. l ag\ .

~

COOLING m.

A ,,8,1e.,

v,, -=-+,= s-n 'su.>y y c~~ uL% lu

- - - -THERMOSTAT FOP, ' PORTABLE HEATERS

--Catajog-No. AISEAG 1 is s trurdi, corepart 10 catst: SycUy CaiaJos Number cely.

i.b e r rnosis i s-ith ,isible unie and adusdag I. Eneb. Desirced tr' tale braq d u rs use en IttcitaCat I ATINC5

? g* p coucieved iri poruble hesier applicauoos Liquid

. . "= u. .A charged. coppe r coiled air balo for npid *

• .; ;;'. 9 res pecse and deperidabilin. 6' le=g erie sioc ^' ' * ' * * * ' ^ - * *

• rord sith rubber resered polariard 5 proeg L ?.

,, N plug and eries sociti for 120 Y. se rs ic s. *+-+-..n.. u : = .a. 3 u IS Ac:p. rating. 7* bended chai: ha: pes sappised e.m s~.. - . 's v a 2.i.u:* c )

."'T.

no permis s-*pporting the th ermostat in may

. coovczden ' acmUc.m.

~ D, a.-

ch J 5) w

[M N ,

Saw I' IJ Nf-i i t' fa .

th.

ses: '

A196AC-1 03.. ei.: h as w 93 3'4 u Altt&C-1 I  %* '* - P e **.* ^d' ha b.ti, m ,. b tc* p.

AUTOMATIC CHANGE 0VER p5 Cha2remer conire! for wie with retnbination A"CAC 2 etsy be enounied dinnly ce either Qg . beating and cooling theranostais Control feels mai-a! or horisostal pipe b) caounting strup I ., water arenperature and automanicall? 6 elects cor. a.: -! sed sith contro!. A19CAC 1 has remase

. f]*a'fe 5 rect thermostat funcieon Errommenced for ron. b !: for gresict 3irieg and mounting cocrven l J ',} ,' vectors, las cuUs and blast coU naits, ear. jeae. .= .

,N

[

a

..A . F,s .. Cese Am,ble.;t Te mp e enture

.... ..;. , n.

340',1,

..i.se - ,. ~ s...,2 w r.

6 7,1 l

e = .;:;.f. g, s u .;.. w.i.s.: i.: n,< mt.

10 ORDit: Specil) C.atajcg Numbet cm3y.

I j A M CAC.) MDI e,e,n l ,,,10 g l 4*r g*.

. . j q g f tf C1RICAt R ATINGS

. Ai ,u c., Au:Ac. sent I***l,,'Lle.. .

m , .i. . e . . ..

, "".8"- , m

..3 A .,, m.,_.-a.....-..- i . i m >

r . .+ . - z ~ v a.. s n ~ w. . u. ~}

p '

s j -

~a -

s, en.6 a s.r3..-- *- eda 3d hjg

. ',' r -

• ) O2 ic. 5,... t,_

1f. . .

l I , ,

7.0 Replacement Listing P

(

~

014313.03 l

l

g REPLA# .I LISTING  %

TVA ID No._ Mariu fa c turer Model No. Qualification Report TER No.

1-PSV-1-6A ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 104 (Note 1) 2-PSV-1-6A ASCO 206-381 -2RVU AQS21678/TR, Rev. A 104 (Note 1) 1-PSV-1-6B ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 104 (Note 1) 2-PSV-1-6B ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 104 (Note 1) 1-FSV-1-7 ASCO 206-3 81-3RFV/ AQS21678/TR, Rev. A 206-381-2RVU 123 (Note 2) 2-FSV-1-7 ASCO 206-3 81-3 RVU AQS21678/TR, Rev. A 123 (Note 1) ,

1-PSV-1-13A ASCC 206-381-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 2-PSV-1-13A ASCO IIV206-3 81-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 1-PSV-1-13B ASCO 206-3 81-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 2-PSV-1-13B ASCO IIV206-3 bi-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 1-FSV-1-14 ASCO 206-381-38FV/ AQS21678/TR, Nev. A 123 (Note 2) 206-3 81-2RVU 2-FSV-1-14 ASCO 206-381-3RVU AQS21678/TR, Rev. A 123 (Note 1) 1-PSV-1-24A ASCO 206-3 81-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 2-PSV-1-24A ASCO IIV206-3 81-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 1-PSV-1-24B ASCO 206-3 81-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 2-PSV-1-24B ASCO IIV206-3 81-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 1-FSV-1-25 ASCO 206-381-3RVF/ AQS21678/TR, Rev. A 123 (Note 2) 206-381-2RVU DE03;TERRPT a 9 4

[' REPLAl f LISTING I TVA TD No. Manu fac turer Model No. Qualification Report TER No.

2-FSV-1-25 ASCO 206-3 81-3RVF AQS21678/TR, Rev. A 123 (Note 1) 1-PSV-1-31A ASCO 206-381-2RVU AQS21678/TR, Rev. A i

104 (Note 1) '

2-PSV-1-31A ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 104 (Note 1) l-PSV-1-31B ASCO 206-381-2RVU AQS21678/TR, Rev. A 104 (Note 1) )

2-PSV-1-31B ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 104 (Note 1)

! l-FSV-1-32 ASCO 206-381-3RFV/ AQS21678/TR, Rev. A 123 (Note 2) i 206-3 81-2RVU 2-FSV-1-32 ASCO 206-381-3RFV AQS21678/TR, Rev. A 123 (Note 1) 1-FSV-1-147 ASCO 206-3 81-3RFV/ AQS21678/TR, Rev. A 123 (Note 2) 206-381-2RVU )

2-FSV-1-147 ASCO IIV206-3 81-2RVU AQS21678/TR, Rev. A 123 (Note 2) 1-FCV-1-147 (LS) NAMCO EA 740-20100 QTR-lll 143 (Note 2) 2-FCV-1-147 (LS) NAMCO EA 740-20100 QTR-111 143 (Note 2) 1-FSV-1-148 ASCO 206-3 SI-3RFV/ AQS21678/TR, Rev. A 123 (Note 2) 206-381-2RVU )

j i

2-FSV-1-148 ASCO 206-381-2-RVO AQS21678/TR, Rev. A 123 (Note 1) 1-FCV-1-148 (LS) NAMCO EA 180 QTR-Ill 143 (Note 1)  !

2-FCV-1-148 (LS) NAMCO EA-740 QTR-lll 143 (Note 1) 1-FSV-1-149 ASCO 206-3 81-3RFV/ AQS21678/TR, Rev. A 123 (Note 2) 206-381-2RVU DE03;TERRPT '

, 4

j/ REPLA/ T LISTING I TVA ID No._ _Manu fa c turer Model No. Qualification Report TER No.

2-FSV-1-149 ASCO HV206-3 81-2RVU AQS21678/TR, Rev. A 123 (Note 1) 1-FCV-1-149 (LS) NAMCO EA 740-20100 QTR-lll 143 (Note 2}

2-FCV-1-149 (LS) NAMCO EA 740-20100 '

QTR-111 143 (Note 2) '*

l-FSV-1-150 ASCO 206-381-3RFV/ AQS21678/TR, Rev. A 123 (Note 2) 206-3 81-2RVU 2-FSV-1-150 ASCO 206-381-2RVU AQS21678/TR, Rev. A 123 (Note 1) 1-FCV-1-150 (LS) NAMCO EA 740-20100 QTR-Ill 143 (Note 2) 2-FCV-1-150 (LS),

143 (Notes 2 and 3) 1-FSV-1-181 -ASCO 206-3 81-3RF AQS21678/TR, Rev. A 121 (Note 1) 2-FSV-1-181 ASCO 206-381 -3RF AQS21678/TR, Rev. A 121 (Note 1) 2-ZS-1-181 NAMCO EA-740 QTR 111 Add Equip 1-FSV-1-182 ASCO 206-381-3RF AQS21678/TR, Rev. A 121 (Note 1) 2-FSV-1-182 ASCO 206-3 81-3 RF AQS21678/TR, Rev. A 121 (Note 1) 2-ZS-1-182 NAMCO EA-740 QTR 111 Add Equip 1-FSV-1-183 ASCO 206-3 81-3R F AQS21678/TR, Rev. A 121 (Note 1) 2-FSV-1-183 ASCO 206-381-3RF AQS21678/TR, Rev. A 121 (Note 1) 2-ZS-1-183 Add Equip (Notes 263) ,

1-FSV-1-IC4 ASCO 206-381-3RF AQS21678/TR, Rev. A 121 (Note 1) 2-7SV-1-184 ASCO 206-381-3RF AQS21678/TR, Rev. A DE03;TERRPT 121 (Note 1) 9 4

\

\

[- REPLA' iT LISTING I

_TVA TD No. Manu fac turer Model No. Qualification Report TER No.

2-ZS-1-184 Add Equip (Notes 2 & 3) 1-LT-3-39 Barton 764 WCAP-9885, WCAP-8687 171 (Ul) (Note 1)

Supp. 2-E03A, , ,

WCAP-8587 Supp. I-

• EQDP-ESE-3A 1-LT-3-42 Barton 764 WCAP-9885, WCAP-8687 171 (Ul) (Note 1)

Supp. 2-E03A, WCAP-8587 Supp. I-EQDP-ESE-3A 1-LT-3-52 Barton 764 WCAP-9885, WCAP-8687 171 (Ul) (Note 1)

Supp. 2-E03A, WCAP-8587 Supp. I-EQDP-ESE-3A 1-LT-3-106 Barton 764 WCAP-9885, WCAP-8687 171 (U1) (Note 1)

Supp. 2-E03A, WCAP-8587 Supp. I-EQDP-ESE-3A 1-PS-3-138A ASCO TG13A42R AQR-101083, Rev. 0 60 (Note 1) 1-PS-3-138B ASCO TG13A42R AQR-101083, Rev. 0 60 (Note 1) 1-PS-3-139A ASCO SBil AKR/TG13A42R AQR-101083, Rev. 0 54 (Note 2) 2-PS-3-139A ASCO SB31AKR/TD30A32R AQR-101083, Rev. 0 54 (Note 1) 1-PS-3-13 9B ASCO SBil AKR/TG13A42R AQR-101083, Rev. 0 54 (Note 2) 2-PS-3-139B ASCO SB31 AKR/TD30A3 2R AQR-101083, Rev. 0 54 (Note 1) 1-PS-3-13 95 ASCO SBilAKR/TG13A42R AQR-101083, Rev. 0 54'(Note 2)

DE03;TERRPT 9 #

_/

TVA ID No.

REPLA IT LISTING \

Manufacturer Model No. Dualification Report TER No.

2-PS-3-13 9D ASCO SB31 AKR/TD30A32R AQR-101083, Rev. 0 54 (Note 1) 1-PS-3-140A ASCO TG13A42R AQR-101083, Rev. 0 54 (Note 1) 1-PS-3-140B ASCO SBilAKR/TG13A42R AQR-101083, Rev. 0 ~

54 (Note 2) l-FT-3-142 Rosemount Il53DB5PB Report 108025 61 (Note 1) 2-FT-3-142 Rosemount Il53DB5PB Report 108025 61 (Note 1) 1-PS-3-144A ASCO SB31AKR AQR-101083, Rev. 0 54 (Note 1) 2-PS-3-144A ASCO SB31AKR/TD30A32R AQR-101083, Rev. 0 54 (Note 1) 1-PS-3-144 B ASCO SB31AKR AQR-101083, Rev. 0 54 (Note 1) 2-PS-3-144B ASCO SB31AKP/TD30A32R AQR-101083, Rev. 0 54 (Note 1) 1-PS-3-144D ASCO SB31AKR AQR-101083, Rev. 0 54 (Note 1) 2-PS-3-144D ASCO SB31 AKR/TD30A32R AQR-101083, Rev. 0 54 (Note 1) 1 -FT-3-147 Rosemount Il53DBSPB Report 108025 Add Equip (Note 1) 2-FT-3-147 Rosemount Il53DB5PB Report 108025 Add Equip (Note 1) 2-LCV-3-148 Add Equip (Notes 2 6 3) 1-LSV-3-148 ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 108 (Note 1) 2-LSV-3-148 ASCO 206-381-2RVU AQS21678/TR, Rev. A 108 (Note 1) 1-PS-3-148 ASCO TL10A32R AQR-101083, Rev. 0 60 (Note 1) 1-LSV-3-148A ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 109 (Note 1)

DE03;TERRPT 9

p/ REPLN iT LISTING \

TVA ID No. Manu fa ctu rer Model No. Dualification Report TdR No.

2-LSV-3-148A ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 109 (Note 1) 1-PS-3-150A ASCO TG13A42R AQR-101083, Rev. A 54 (Note 1) 1-PS-3-150B ASCO SBilAKR/TG13A42R AQR-101083, Rev. A '

54 (Note 2) l-FT-3-155 Rosemount 1153DBSPB 108025 Add Equip (Note 1) 2-FT-3-155 Rosemount 1153DBSPB 108025 Add Equip (Note 1) 2-LCV-3-156 Add Equip (Notes 2 & 3) 1-LSV-3-156 ASCO IIV206-3 81 -2RVU AQS21678/TR, Rev. A 108 (Note 1) 2-LSV-3-156 ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 108 (Note 1) 1-PS-3-156 ASCO TL10A32R AQR-101083, Rev. 0 60 (Note 1) 1-LSV-3-156A ASCO IIV206-3 81-2RVU AQS21678/TR, Rev. A 109 (Note 1) 2-LSV-3-156A ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 109 (Note 1) 1 -FT-3-163 Rosemount 1153DBSPB 4 108025 Add Equip (Note 1) 2-FT-3-163 Rosemount 1153DBSPB 108025 Add Equip (Note 1) 2-LCV-3-164 Add Equip (Notes 2 6 3) 1-LSV-3-164 ASCO 206-381-2RVU AQS21678/TR, Rev. A 108 (Note 1) ,

1-LSV-3-164 ASCO IIV206-3 dl-2RVU AQS21678/TR, Rev. A 108 (Note 1) 1 -PS-3 -164 ASCO TL10A32R AQR-101083, 10 60 (Note 1) 2-PS-3-164 ASCO TL10A32R AQR-101083, 10 60 (Note 1)

DE03;TERRPT t

9

l REPL/ iT LISTING h TVA ID No. Manufacturer Model No. Qualification Report TER No.

1-LSV-3-164A ASCO 206-381-2RVU AQS21678/TR, Rev. A 109 (Note 1) 2-LSV-3-164A ASCO HV206-381-2RVU AQS21678/TR, Rev. A 109 (Note 1) 1-FT-3-170 Rosemount 1153DB5PB 108025 Add Equip (No'te'1)'

2-FT-3-17 0 Rosemount 1153DB5PB 108025 Add Equip (Note 1) 2-LCV-3-171 Add Equip (Notes 2 & 3) 1-LSV-3-171 ASCO 206-381-2RVU AQS21678/TR, Rev. A 108 (Note 1) 2-LSV-3-171 ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 108 (Note 1) 1-PS-3-171 ASCO TL10A32R AQR-101083, Rev. 0 60 (Note 1) 1-LSV-3-171A ASCO 206-3 81-2RVU AQS21678/TR, Rev. A 109 (Note 1) 2-LSV-3-171A ASCO 206-381-2RVU AQS21678/TR, Rev. A 109 (Note 1) 2-LCV-3-172 Add Equip (Notes 2 & 3) 1-LSV-3-17 2 ASCO 206-381-2RVU AQS21678/TR, Rev. A 108 (Note 1) 2-LSV-3-172 ASCO' HV206-3 81-2RVU AQS21678/TR, Rev. A 108 (Note 1) 2-LCV-3-173 Add Equip (Notes 2 & 3) 1-LSV-3-173 ASCO 206-381-2RVU AQS21678/TR, Rev. A 108 (Note 1) 2-LSV-3-173 ASCO HV206-3 81 -2RVU AQS21678/TR, Rev. A 108 (Note 1) 2-LCV-3-174 .

Add Equip (Notes 2 & 3) 2-LCV-3-17 5 Add Equip (Notes 2 & 3)

DE03;TERRPT .

4 .

4

l' REPLA! f LISTING I TVA ID No. Manufacturer Model No. Qualification Report TER No.

0-FSV-12-79 ASCO 206-380-2RU AQS21678/TR, Rev. A 106 (Note 1) 2-TS-12-91A 153 (Notes 2 & 3) 2-TS-12-91B 153 (Notes 2 &' 3)

2-TS-12-92A 153 (Notes 2 & 3) 0-TS-12-92B Fenwall 18023-7 17509-1 153 0-TS-12-93A Fenwall 18023-7 17509-1 153 0-TS-12-93B Fenwall 18023-7 17509-1 153 0-TS-12-94A Fenwall 18023-7 17509-1 153 -

0-TS-12-94B Fenwall 18023-7 17509-1 153 0-TS-12-95A Fenwall 18023-7 17509-1

^

153 0-TS-12-95B Fenwall 18023-7 17509-1 153 0-TS-12-96A Fenwall 18023-7 17509-1 153 0-TS-12-96B Fenwall 18023-7 17509-1 153 0-TS-12-97A Fenwall 18023-7 17509-1 153 0-TS-12-97B Fenwall 18023-7 17509-1 153 0-TS-12-98A Fenwall 18023-7 17509-1 153 0-TS-12-98B Fenwall 18023-7 17509-1 153 0-TS-12-99A' Fenwall 18023-7 17509-1 153 DE03;TERRPT . .

t e B

'~

' lQ L) REPLA f LIST M \

TVA ID No. Manufacturer Model No* Qualification Report TER No.

0-TS-12-99B Fenwall 18023-7 17509-1 153 1-FCV-30-2 (LS) NAMCO EA180 QTR-105 Add Equip (Note 1) 2-FCV-30-2 (LS) NAMCO EA180

, QTR-105 Add Equip (Not'e"l) 2-FSV-30-2 100 (Notes 2 & 3) 1-FCV-30-5 (LS) NAMCO EA180 QTR-105 Add Equip (Note 1) 2-FCV-30-5 (LS) NAMCO EA180 QTR-105, Add Equip (Note 1) 2-FS V-3 0-5 100 (Notes 2 & 3) 2-FCV-30-7 Add Equip (Notes 2 & 3) 2-FSV-3 0-7 Add Equip (Notes 2 & 3) 1-ZS-30-7 NAMCO EA180 QTR-105 Add Equip (Note 1) 2-Z S-3 0-7 NAMCO EA180 QTR-105 Add Equip (Note 1) 2-FSV-30-8 ASCO NP8316A74E AQS-21678/TR, Rev. A 99 2-FCV-30-9 Add Equip (Notes 2 6 3) 2-FSV-30-9 Add Equip (Notes 2 & 3) 1-ZS-30-9 NAMCO EA180 QTR-105 Add Equip (Note 1) 2-FSV-30-10 ASCO NP8316A74E AQS-21678/TR, Rev. A 99 1-FCV-30-12 (IS) NAMCO EA180 QTR-105 140 (Note 1) 2-FCV-3 0-12 '

Add Equip (Notes 2 6 3)

DE03;TERRPT 4 S a=

I'~ REPLA[ f LISTING I TVA ID No. _ Manufacturer Model No. Qualification Report TER No.

2-FSV-30-12 NddEquip(Notes 2&3) 2-FCV-30-14 Add Equip (Notes 2 & 3) 2-FSV-30-14 ASCO NP8316A74E AQS-21678/TR, Rev. A Add, Equip (Not'es 2 %'3) 1-ZS-30-14 NAMCO EA180 QTR-105 Add Equip (Note 1) 2-FSV-30-15 ASCO NP8316A74E AQS-216/8/TR, Rev. A

< 99 1-FCV-30-16 (LS) NAMCO EA180 QTR-105 Add Equip (Note 1) ~

2-FCV-30-16 (LS) Add Equip (Notes 2 & 3) 2-FCV-30-16 Add Equip (Notes 2'& 3) 2-FSV-30-16 '

Add' Equip (Notes 2 & 3) 2-FSV-30-17 99 (Notes 2 & 3) -

2-FCV-30-19 Add Equip (Notes 2 & 3) 2-FSV-30-19 Add Equip (Notes 2 & 3) '

1-ZS-3 0-19 NAMCO EA180 QTR-105 Add Equip (Note 1) 2-ZS-30-19 -

Add Equip (Notes 2 & 3) 2-FSV-30-20 99 (Notes 2 & 3) 2-FSV-30-22 ASCO 206-381-2R AQS21678/TR Rev. A Add Equip (Note 1) 2-FCO-30-22 (LS) NAMCO EA740-20100 _ QTR-ll! Add Equip (Note 1) 1-FCV-30-37 (LS) NAMCO EA180 QTR-105 Add Equip (Note 1)

DE03;TERRPT .

,9  %

0

• gs REPLAf a* LISTING TVA ID No. Manu f ac turer Model No. Qualification Report TER No.

2-FCV-30-37 (LS)

Add Equip (Notes 2 & 3) 2-FCV-30-3 7 Add Equip (Notes 2 & 3) 2-FSV-30-37 Add Equip (Notes" 2 5'3) 2-FSV-30-40 99 (Notes 2 & 3) 2-PS-30-46A SOR 12TA-BB4NKCIAJJX6 17344-82N-C, Rev. 1 58 2-PS-30-46B SOR 12TA-BB4NKC IAJJX6 17344-82N-C, Rev. I 58 1-ZS-3 0-46 NAMCO EA180 QTR-105 175 (Ul) (Note 2) 2-PS-30-47A SOR 12TA-BB4NKCIAJJX6 17344-82N-C, Rev. 1 58 2-PS-30-47B SOR 12TA-BB4NKCIAJJX6 17344-82N-C, Rev. 1 58 1-ZS-30-47 NAMCO EA180 QTR-105 175 (Ul) (Note 2) 2-PS-30-48A SOR 12TA-BB4NKCIAJJX6 17344-82N-C, Rev. 1 58 2-PS-30-48B SOR 12TA-BB4NKCIAJJX6 17344-82N-C, Rev. 1 58 1-ZS-3 0-48 NAMCO EA180 QTR-105 175 (Ul) (Note 2) 2-FSV-30-50 ASCO NP8316A74E AQS-21678/TR, Rev. A 99 2-FCV-3 0-51 Add Equip (Notes 2 & 3) 2-FSV-30-51 Add Equip (Notes 2 & 3) 1-Z S-3 0-51 NAMCO EA180 QTR-105 Add Equip (Note 1) 2-ZS-30-51 NAMCO EA180 QTR-105 Add Equip (Note 1)

DE03;TERRPT

g #

REPLA eT LISTING b

-TVA ID No._ Hanu fac turer Model No. Qualification Report TER No.

2-FS V-30-52 ASCO NP8316A74E AQS-21678/TR, Rev. A 99 2-FCV-3 0-53 Add Equip (Notes 2 & 3) 2-FSV-30-53 Add Equip (Note's 2'$ 3) 1-ZS-30-53 NAMCO EA180 QTR-105 Add Equip (Note 1) 2-Z S-3 0-53 Add Equip (Notes 2 & 3) 1-FCV-30-54 (LS) NAMCO EA180 QTR-105 Add Equip (Note 1) 2-FCV-30-54 (LS)

Add Equip (Notes 2 & 3) 2-FCV-30-54 Add Equip (Notes 2 & 3) 2-FSV-30-54 ASCO NP8316A74E AQS-2167 8/TR, Rev. A Add Equip (Notes 2 & 3) 2-FSV-30-56 ASCO NP8316A74E AQS-21678/TR, Rev. A 99 2-FCV-3 0-57 Add Equip (Notes 2 & 3) 2-FSV-3 0-57 ASCO NP8316A74E AQS-21678/TR, Rev. A 99 l-Z S-3 0-57 NAMc7 EA180 QTR-105 Add Equip (Note 1) 2-ZS-30-57 NAMCO EA180 QTR-105 Add Equip (Note 1) 2-FSV-30-58 ASCO NP8316A74E AQS-21678/TR, Rev. A 99 2-FCV-30-5 9 Add Equip (Notes 2 & 3) 2-FSV-30-59 Add Equip (Notes 2 & 3) 1-ZS-30-59 NAMCO EA180 QTR-105 Add Equip (Note 1)

DE03;TERRPT 9

lw/ REPLAC' LISTING TVA ID No. Manufacturer Model No. Qualification Report TER No.

2-Z S-3 0-59 Add Equip (Notes 2 & 3) 2-FSV-30-60 100 (Notes 2 & 3) 1-FCV-30-61 (LS) NAMCO EA180 QTR-105 Add Equip (Note 'l) "'

2-FCV-30-61 (LS)

Add Equip (Notes 2 & 3) 2-FCV-3 0-61 Add Equip (Notes 2 & 3) 2-FSV-30-61 100 (Notes 2 & 3) 2-FSV-3 0-61 Add Equip (Notes 2 & 3) 1-FCV-30-62 (LS) NAMCO EA180 QTR-105 Add Equip (Note 2) 2-FCV-30-62 (LS) NAMCO EA180 QTR-105 Add Equip (Note 2) 2-FCV-30-62 Add Equip (Notes 2 & 3) 2-FSV-3 0-62 Add Equip (Notes 2 & 3) 1-FSV-30-87 ASCO 206-381-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 1-FCO-30-87 (LS) NAMCO EA740-20100 QTR-lll Add Equip (Note 1) 1-FSV-30-107 ASCO 206-381 -2RVU AQS21678/TR, Rev. A 103 (Note 1) 1-FCO-30-107 (LS) NAMCO EA740-20100 QTR-Ill 103 (Note 1) 2-FSV-30-109 ASCO 206-3 81-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 2-FCO-30-109 (LS) NAMCO EA740-20100 QTR-Ill Add Equip (Note 1) 0-Htr-3 0-146 A Reliance 4YF-882998 NUC-9 34 (Note 1)

Electric Co.

DE03;TERRPT 9

4

( REPL/ (T LISTING  %

TVA ID No._ _ Manufacturer Model No. Qualification Report TER No.

1-FSV-3 0-146A ASCO 206-380-2RVU AQ"21678/TR, Rev. A 122 (Note 1) 1-FSV-3 0-146 B ASCO 206-380-2RVU AQS21678/TR, Rev. A 122 (Note 1) 0-FS-30-147 CEMCO RH15-05-01 ~

N-166-R Add Equip #

0-TC-3 0-147 Edwin L. Weigand 126-027959-001 N-166-R Add Equip

& Nuthern International 0-TS-30-147 Thermo-Disc 60T-Il N-166-R Add Equip 0-FS-30-156 CEMCO RH15-05-D1 N-166-R Add Equip 0-Htr-30-156B Add Equip (Notes 2 & 3) 0-TC-30-156 Edwin L. Weigand 126-027959-001 N-166-R

& Nuthenn Add Equip International 0-TS-30-156 Thermo-Dis c 60T-ll N-166-R Add Equip 2-FSV-30-157A ASCO lil8320A185 AQS21678/TR, Rev. A 128 (Note 1) 2-FSV-30-157B ASCO H18320A185 AQS21678/TR, Rev. A 128 (Note 1) 0-M tr-3 0-157B Reliance 4YF-882998 NUC-9 Electric Co. 34 (Note 1) 1-Mtr-3 0-17 5 Reliance lYF-882998 NUC-9 Electric Co. 30 (Note 1) 2-Mtr-30-175 Reliance lYF-882998 NUC-9 Electric Co. 30 (Note 1)

DE03;TERRPT .

. 9 E

f~ REPII iT LISTING TVA ID No. Manufseturer Model No. Qualification Report TER No.

1-M t r-30-176 Reliance lYF-882998 NUC-9 Electric Co. 30 (Note 1) 2-Mtr-30-176 Re1iance lYF-882998 NUC-9 Electric Co. 30 (Note 1) "

l-Mtr-30-177 Reliance 2YF-882998 NUC-9 28 (Note 2)

Electric Co.

2-Mtr-30-177 Reliance 2YF-882998 NUC-9 Electric Co. 28 (Note 1) 1-Mtr-30-17 8 Reliance 2YF-882998 NUC-9 28 (Note 2)

Electric Co.

2-Mtr-3 0-17 8 Reliance 2YF-882998 NUC-9 Electric Co. 28 (Note 1) 1-Mtr-3 0-17 9 Re1isnee lYF-882998 tmC-9 31 (Note 2)

Electric Co.

2-Mtr-3 0-17 9 Reliance lYF-882998 NUC-9 31 (Note 2)

Electric Co.

1-Mtr-30-180 Reliance lYF-882998 NUC-9 31,(Note 1)

Electric Co.

2-Mtr-30-180 Reliance lYF-882998 NUC-9 31 (Note 1)

Electric Co.

1-Mtr-3 0-182 Reliance 2YF-882998 NUC-9 Electric Co. 32 (Note 1) 2-Mtr-30-182 Reliance 2YF-882998 NUC-9 32 (Note 1)

Electric Co.

DE03;TERRPT 9  %

h e

\

( REFLAl r LISTINC \

TVA ID No. Manufacturer Model No. Qualification Report TER No.

2-Htr-30-183 Reliance 2YF-882998 Electric Co.

NUC-9 32 (Note 1) 2-Mtr-30-184 Reliance 2YF-882998 NUC-9 Add Equip (Note.1) .

Electric Co.

2-TS-30-184 Add Equip (Notes 2 & 3) 1-Mtr-30-185 Reliance 2YF-882998 NUC-9 Electric Co. 32 (Note 1) 2-Mtr-30-185 Reliance 2YF-882998 NUC-9 Electric Co.

Add Equip (Note 1) 2-TS-30-185 Add Equip (Notes 2 & 3)

_ .. r-3 0-186 Reliance 2YF-882998 NUC-9 29 (Note 1)

Electric Co.

1-Mtr-30-187 Reliance 2YF-882998 NUC-9 Electric Co. 29 (Note 1) 2-Mtr-30-187 Reliance 2YF-882998 NUC-9 Electric Co.

29 (Note 1) 2-TS-30-187 151 (Notes 2 & 3) 1-Mt r-30-190A Reliance 3YF-882998 NUC-9 33 (Note 1)

Electric Co.

1-Mtr-3 0-191 B Reliance 3YF-882998 NUC-9 Electric Co. 33 (Note 1) 0-Mer-30-192 Reliance 2YF-882998 NUC-9 37 (Note 1)

Electric Co.

DE03;TERRFT .

.9

REPLACEMENT LISTINC .

TVA ID No, Manufret~r^r Model No. Ou,lific"ti n R~ port TER No-0-Mtr-30-193 Reliance 2YF-882998 NUC-9 37 (Note 1)

Electric Co.

2-FS-30-194 Fluid Components FR72-4R 708053 W/ Add. C 59 ,

1-Mtr-30-194 Reliance 2YF-882998 Electric Co. NUC-9 29 (Note 1) 2-Mtr-30-194 Reliance 2YF-882998 NUC-9 29 (Note 1)

Electric Co.

2-TS-30-194 Add Equip (Notes 2 & 3) 2-FS-30-195 Fluid Components FR72-4R 708053 W/ Add. C 59 l-Mtr-30-195 Reliance 2YF-882998 hUC-9 Electric Co. 29 (Note 1) 2-Mtr-3 0-195 Reliance 2YF-882998 NUC-9 Electric Co. 29 (Note 1) 2-TS-3 0-195 Add Equip (Notes 2 & 3) 2-FS-30-196 Fluid Components FR72-4R .

708053 W/ Add. C 59 l-Mtr-30-196 Reliance 2YF-882998 NUC-9 Electric Co. 29 (Note 1) 2-Mtr-30-196 Reliance 2YF-882998 NUC-9 29 (Note 1)

Electric Co.

2-TS-30-196 151 (Notes 2 & 3) 2-FS-30-197 Fluid Components FR72-4R 708053 W/ Add. C 59 DE03;TERRPT

REPLAf T LISTING 1 TVA ID No. Manu facturer i Model No. Qualification Report TER No.

. i 2

1-Mtr-30-197 Reliance 2YF-882998 NUC-9 29 (Note 1)

Electric Co.

j 2-Mtr-30-197- Reliance 2YF-882998 NUC-9 29 (Note 1)

Electric Co. .. 8,

. 2-TS-30-197 151 (Notes 2 & 3) 2-Mtr-30-200 Reliance 4YF-882998 NUC-9 36 (Note'1)

Electric Co. ,

i l-Mtr-30-201 Reliance 5YF-882998 NUC-9 Electric Co. Add Equip (Note 1) 2-Mtr-30-201 Reliance 5YF-882998 NUC-9 Electric Co. Add Equip (Note 1)  !

i 2-TS-30-201 151 (Notes 2 & 3) 1-Mtr-30-202 Reliance SYF-882998 NUC-9 1

Electric Co. Add Equip (Note 1) 4 t 2-Mtr-30-202 Reliance SYF-882998 NUC-9 i

i Electric Co. Add Equip (Note 1) t 2-75-30-202 151 (Notes 2-& 3) 2-Mtr-30-207 Reliance 4YF,882998 NUC-9 j Electric Co.

• Add Equip (Note 1) 0-MC-30-319 Nuthern N/A N-166-R Add Equip International

{ 0-ME-30-319. Hy-Cal HS-3 552-B-8-120ll5 N-166-R Add Equip MM-30-319 Hy-Cal CT-822H-H-0-100X t

N-166-R Add Equip DE03;TERRPT i

I i

_ . - . < - - - . .. . . . . . - = = - - - , ,m .. - -

( REPL[ .sT LISTINC  %

TVA ID No, Manufacturer Model No. Qualification Report TER No.

2-FSV-61-192 ASCO 206-3 81-3RF AQS2167 8/TR, Rev. A 102 (Note 1) 1-FSV-61-194 ASCO 206-381-3RF AQS21678/TR, Rev. A 102 (Note 1) 2-FSV-61-194 ASCO 206-3 81-3RF '

AQS21678/TR, Rev. A 102 (Note 1)

2-FSV-62-6 9 ASCO NP831654E AQS21678/TR, Rev. A Add Equip (Note 1) 1-FCV-62-69 (LS) NAMCO EA180 QTR-105 145 (Note 1) 2-FCV-62-69 (LS) NAMCO EA180 QTR-105 145 (Note 1) 1-FSV-62-70 ASCO NP831654E AQS21678/TR, Rev. A 119 (Note 2) 2-FSV-62-70 ASCO NP831654E AQS21678/TR, Rev. A 119 (Note 1) 1-FCV-62-70 (LS) NAMCO EA180 QTR-105 145 (Note 1) 2-FCV-62-70 (LS) NAMCO EA180 QTR-105 145 (Note 1) 1-FSV-62-74 ASCO LB83654 AQS21678/TR, Rev. A 119 (Note 1) 2-FSV-6 2-74 ASCO NP831654E AQS21678/TR, Rev. A 119 (Note 1) 1-FCV-62-77 (LS) NAMCO EA180- QTR-105 145 (Note 1) 2-FCV-62-77 (LS) NAMCO EA180 QTR-105 145 (Note 1) 1-FCV-63-3 (LS) NAMCO EA180 QTR-105 145 (Note 1) 2-FCV-63-3 (LS)

Add Equip (Notes 2 & 3) 1-FCV-63-4'(LS) NAMCO EA180 QTR-105 145 (Note 1) 2-FCV-63-4'(LS) NAMCO EA180 QTR-105 145 (Note 1)

DE03;TERRPT

{ REPLA' T LISTING \ '

TVA ID No. Manu f ac turer Model No. Qualification Report TER No.

2-FSV-63-71 ASCO HT831654 AQS21678/TR, Rev. A Add Equip (Note 1) 2-FCV-63-172 l . 23 (Notes 2 & 3) 1-FCV-63-175 (LS) NAMCO EA180 QTR-105 145 (Note 1) '

2-FCV-63-175 18 (Notes 2 & 3) 1-LT-63-176 Barton 764 WCAP-9885, WCAP-8687, 170 (Ul) (Note 1)

{ Supp.-2-E03A, WCAP-8587, Supp. EQDP-ESE-3A 1-LT-63-177 Barton 764 WCAP-9885, WCAP-8687, 170 (Ul) (Note 1)

Supp.-2-E03A, WCAP-8587, Supp. EQDP-ESE-3A 2-FSV-65-4 ASCO 206-3 81-3RF AQS21678/TR. Rev. A Add Equip (Note 1)

l-FSV-65-5 ASCO 206-381-3RF AQS21678/TR, Rev. A Add Equip (Note 2) 2-FCV-65-7 100 (Notes 2 & 3) 2-FSV-65-7 ASCO NP8316A74E AQS21678/TR, Rev. A 100 I l-FCV-65-8 (LS) ASCO 206-381-3R F AQS21678/TR, Rev. A Add Equip (Note 1)  !

2-FSV-65-8 100 (Notes 2 & 3) 2-FSV-65-9 ASCO 206-3 81-3RF AQS21678/TR, Rev. A Add Equip (Note 1) 2-FCo-65-10 142 (Notes 2 & 3) 1-FSV-65-10 ASCO 206-3 81-3RF AQS21678/TR, Rev. A

, 122 (Note 1)

' DE03;TERRPT ..

l

REPLAf hLISTING I TVA ID No. Mhnu fac turer Model No. Qualification Report TER No.

0-MC-6 5-16 Huthern N/A N-166-R Add Equip International 0-ME-65-16 Hy-Cal HS-3552-B-8-120H5 N-166-R Add Equip ,,

0-MM-65-16 Ily-Cal CT-822H-II-0-100X N-166-R Add Equip 0-MS-65-16 Rochester ET-1219 N-166-R Add Equip 0-TC-65-17 Indeeco & N/A N-166-R Nuthens Intern. Add Equip 0-TS-65-17 Thermo-Dis c 60T-11 N-166-R Add Equip 0-Mt r-65-23 A -Reliance 2YF-882998 NUC-9 Electric Co. 26 (Note 1) 1-FSV-65-24 ASCO 206-3 80-2RVU AQS21678/TR, Rev. A Add Equip (Note 1) 0-FS-65-25A/B Fluid Components 12-64-3 708053 Add Equip (Note 1) 2-FCO-65-26 142 (Notes 2 & 3) 2-FCO-6 5-27 142 (Notes 2 & 3) 0-FCV-65-28A (LS) NAMCO EA180 QTR-105 144 (Note 1) 0-FCV-65-288 (LS) NAMCO EA180 QTR-105 144 (Note 1) 0-FSV-65-28A ASCO NP8316A74E AQS-21678/TR, Rev. A 100 0-FSV-65-28B ASCO NP8316A74E AQS-21678/TR, Rev. A 100 2-FSV-65-28A 100 (Notes 2 & 3) 2-FSV-65-28B DE03;TERRPT 100 (Notes 2 & 3)

D e

REPLAI T LISTING TVA ID No.

Manu fa c tu rer_ Model No. Dualification Report TER No.

2-FSV-65-29 ASCO 206-3 81-3RF AQS21678/TR, Rev. A Add Equip (Note 1) 2-FCO-65-3 0 142 (Notes 2 & 3) 0-FS-65-31A/B Fluid Components 12-64-3 708053 Add Equip (Not'e'l) 8' 0-MC-65-36 Nutherm N/A N-166-R International Add Equip 0-ME-65-3 6 Hy-Cal HS-3552-B-8-120H5 N-166-R Add Equip 0-MM-65-36 Hy-Cal CT-822H-H-0-100X N-166-R Add Equip 0-MS-6 5-3 6 Rochester ET-1219 N-166-R Add Equip 0-TC-65-37 Indeeco & N/A N-166-R Add Equip Nutherm Intern.

0-TS-65-37 Thermo-Disc 60T-11 N-166-R Add Equip 0-Mtr-65-42B Reliance 2YF-882998 NUC-9 26 (Note 1)

Electric Co.

1-FSV-65-43 ASCO 206-380-2RVU ' AQS21678/TR, Rev. A Add Equip (Note 1) 0-FS-65-44A/B Fluid Components 12-64-3 708053 Add Equip (Note 1) 2-FSV-65-45 ASCO 206-382-2 AQS21678/TR, Rev. A Add Equip (Note 1) 2-FSV-65-46 ASCO 206-382-2 AQS21678/TR, Rev. A Add Equip (Note 1) 0-FSV-65-47A ASCO NP8316A74E AQS-21678/TR, Rev. A 100 0-FSV-65-47B ASCO NP8316A74E AQS-21678/TR, Rev. A 100 DE03 1TERRPT W

(- ' REPLACf LISTING '\

TVA ID No. Manu fa cturer Model No. Qualification Report TER No.

2-FSV-65-47A 100 (Notes 2 & 3) 2-FSV-65-47B 100 (Notes 2 & 3) 2-FSV-65-50 ASCO NP8316A74E ,

AQS-21678/TR, Rev. A 100

• 2-FSV-65-51 142 (Notes 2 & 3) 1-FCV-65-51 (LS) NAMCO EA180 QTR-105 144 (Note 1) 2-FCo-65-52 142 (Notes 2 & 3) 2-FCO-65-53 142 (Notes 2 & 3) 0-FS-65-55A/B Fluid Components 12-64-3 708053 Add Equip (Note 1) 1-PDT-65-80 Rosemount Il53DB3PB Report 108025 62 (Note 1) 2-PDT-65-80 Rosemount Il53DB3PB Report 108025 62 (Note 1) 1-PCV-65-81 (LS) NAMCO EA180 QTR-105 Add Equip (Note 1) 1-PDT-65-82 Rosemount 1153DB3PB Report 108025 62 (Note 1) 2-PDT-65-82 Rosemount 1153DB3PB Report 108025 62 (Note 1) 1-PCV-65-83 (LS) NAMCO EA180 QTR-105 Add Equip (Note 1) 1-PCV-65-86 (LS) NAMCO EA180 QTR-105 Add Equip (Note 1) 1-PCV-65-87 (LS) NAMCO EA180 QTR-105 Add Equip (Note 1) 1-PDT-65-90 Rosemount Il53DB3PB Report 108025 62 (Note 1) 2-PDT-65-90 Rosemount 1153DB3PB Report 108025 62 (Note 1)

'DE03;TERRPT 4

[ REPII .4T LISTING \

TVA ID No. Manu facturer Model No. Qualification Report TER No.

1-PDT-65-97 Rosemount Il53DB3PB Report 108025 62 (Note 1) 2-PDT-65-97 Rosemount Il53DB3PB Report 108025 62 (Note 1) 2-FCV-67-83 Limitorque SMB-000 ~'

Limitorque 600456 1 2-FCV-67-88 Limitorque SMB-000 Limitorque 600456 1 2-FCV-67-91 Limitorque SMB-000 Limitorque 600456 1 2-FCV-67-96 Limitorque SMB-000 Limitorque 600456 1 2-FCV-67-99 Limitorque SMB-000 Limitorque 600456 1 2-FCV-67-104 Limitorque SMB-000 Limitorque 600456 1 2-FCV-67-107 Limitorque SMB-000 Limitorque 600456 1 2-FCV-67-112 Limitorque SMB-000 Limitorque 600456 1 2-FCV-67-123 Limitorque SMB-000 Limitorque B00003 1 2-FCV-67-124 Limitorque SMB-000 Limitorque B00003 1 2-FCV-67-125 Limitorque SMB-000 Limitorque B00003 1 2-FCV-67-126 Limitorque SMB-000 Limitorque B00003 1 2-FCV-67-146 Limitorque SMB-000 Limitorque B00003 1 0-FCV-67-152 Limitorque SH3-000 Limitorque B00003 1 1-FSV-67-162 ASCO 206-380-2RU AQS21678/TR, Rev. A Add Equip (Note 1) 1-FSV-67-164 ASCO 206-3 80-2RU AQS21678/TR, Rev. A Add Equip (Note 1)

DE03;TERRPT -

1. \

f REPil IT LISTING I TVA ID No. Manu facturer Model No. Qualification Report TER No.

1-FSV-67-168 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 2-FSV-67-168 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 111 (Note 1) 1-FSV-67-170 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 111 (Note 1) 2-FSV-67-17 0 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 1-FSV-67-176 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 2-FSV-67-17 6 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 1-FSV-67-182 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 2-FSV-67-182 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) .

1-FSV-67-184 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 2-FSV-67-184 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 111 (Note 1) 1-FSV-67-186 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 2-FSV-67-186 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 1-FSV-67-188 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 2-FSV-67-188 ASCO 206-380-2RU AQS21678/TR, Rev. A 111 (Note 1) 1-FSV-67-190 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 111 (Note 1) 2-FSV-67-190 ASCO 206-380-2RU AQS21678/TR, Rev. A

~

111 (Note 1) 1-FSV-67-213 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 111 (Note 1) 2-FSV-67-215 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 111 (Note 1)

DE03;TERRPT ..

'. ' REPLA0 i LISTING I TVA'ID No. Manu f acturer Model No. Qualification Report TER No.

2-FSV-67-217 ASCO 206-380-2RU AQS21678/TR, Rev. A 120 (Note 1) 2-FSV-67-219 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 120 (Note 1) 2-FCV-67-243 Add Equip (Not'es" 2 l'3) 2-FSV-67-336 ASCO 206-380-2RVU AQS21678/TR, Rev. A 120 (Note 1) 2-FSV-67-33 8 ASCO 206-3 80-2RVU AQS21678/TR, Rev. A 110 (Note 1) 1-FSV-67-342 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 110 (Note 1) 2-FSV-67-3 42 ASCO 206-380-2RU AQS21678/TR, Rev. A 110 (Note 1) 1-FSV-67-344 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 110 (Note 1) 2-FSV-67-344 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 110 (Note 1) 1-FSV-67-346 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 110 (Note 1) 2-FSV-67-346 ASCO 206-380-2RU AQS21678/TR, Rev. A 110 (Note 1) 1-FSV-67-3 48 ASCO 206-380-2RU AQS21678/TR, Rev. A 110 (Note 1) 2-FSV-67-348 ASCO 206-380-2RU AQS21678/TR, Rev. A 110 (Note 1) 1-FSV-67-350 ASCO 206-380-2RU AQS21678/TR, Rev. A 110 (Note 1) 2-FSV-67-3 50 ASCO 206-380-2RU AQS21678/TR, Rev. A 110 (Note 1) 1-FSV-67-3 52 ASCO 206-380-2RU AQS21678/TR, Rev. A 110 (Note 1) 2-FSV-67-352 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 110 (Note 1) s 1-FSV-67-354 ASCO 206-3 80-2RU AQS21678/TR, Rev. A 111 (Note 1)

DE03;TERRPT ..

t v

( REPIl iT LISTING I TVA ID No. Manu f a c tu rer Model No. Qualification Report TER No.

2-FSV-67-3 54 ASCO 206-380-2RU AQS 21678/TR, Rev. A 111 (Note 1) 1-FSV-67-356 ASCO 206-380-2RU AQS 21678/TR, Rev. A 111 (Note 1) 2-FSV-67-356 ASCO 206-3 80-2RU '

AQS 21678/TR, Rev. A 111 (Note 1) l-TE-68-1 Weed N900lS-2A-240 548-8854-2, Rev. B 157 (Note 2) 1-TE-6 8-18 Weed N900lS-2A-240 548-8854-2, Rev. B 157 (Note 2) 1-TE-68-24 Weed N900lS-2A-240 548-8854-2, Rev. B 157 (Note 2) 1-TE-68-41 Weed N900lS-2A-240 548-8854-2, Rev. B 157 (Note 2) 1-TE-6 8-43 Weed N900lS-2A-240 548-8854-2, Rev. B 157 (Note 2) 1-TE-68-60 Weed N900lS-2A240 548-8854-2, Rev. B 157 (Note 2) 1-TE-68-65 Weed N900lS-2A240 548-8854-2, Rev. B 157 (Note 2) 1-PT-68-66 Barton 763 WCAP-9885, WCAP-8687, 172 (Ul) (Note 1)

Supp 2-E01A 1-PT-6 8-69 Barton 763 WCAP-8587, Supp 172 (Ul) (Note 1) 1-EQDP-ESE-1A 1-TE-68-83 Weed N900lS-2A-240 548-8854-2, Rev. B 157 (Note 2) 1-LT-6 8-3 20 Barton 764 WCAP-9885; WCAP-8687, 176 (Ul) (Note 1)

Supp. 2-E03A; WCAP-8587 Supp. 1-EQDP-

, ESE-3A 2-FCV-6 8-33 2 25 (Notes 2 & 3) 2-FCV-6 8-333 DE03;TERRPT 25 (Notes 2 & 3)

O w

g REPLACI LISTINC \

TVA ID No. Manu fa c turer Model No. Qualification Report TER No.

1-PSV-6 8-334 Target Rock 82UU-001 3543 118 (Note 1) 1-PSV-6 8-334 Target Rock 82UU-001 3543 118 (Note 1) 1-PSV-68-339 Barton 764 WCAP-9885; WCAP-8687, 176 (Ul) (Note'I')

Supp. 2-EQ3A; WCAP-8587, Supp. 1-EQDP-ESE-3A 1-PSV-6 8-340A Target Rock 82UU-001 3543 118 (Note 1) 1-PSV-68-340A Target Rock 82UU-001 3543 118 (Note 1) 1-PSV-6 8-340AB Target Rock 82UU-001 1543 118 (Note 2) 0-FCV-70-1 Limitorque SMB-000 B0003 2 0-FCV-70-Il Limitorque SMB-000 B0003 2 0-FCV-70-3 4 Limitorque SMB-000 B0003 2 1-M t r-7 0-38 Seimens-Allis 8-5110-90396-1 TVA Evaluation and 44 (Note 1)

NQ-8-90396-1 0-FCV-70-39 Limitorque SMB-000 B0003 2 (Note 1) 0-FCV-70-40 Limitorque SMB-000 B0003 2 0-FCV-7 0-41 Limitorque SMB-000 B0003 2 1-Mtr-70-46 Seimens-Allis 8-5110-90396-1 TVA Evaluation and 44 (Note 1)

NQ-8-90396-1 1-Mtr-70-51 Seimens-Allis 8-5110-90396-1 TVA Evaluation and 44 (Note 1)

NQ-8-90396-1

'DE03;TERRPT O

p' s REPl/ JT LISTING TVA ID No, Manu facturer Model No. _ Qualification Report TER No.

2-Mtr-70-51 44 (Notes 2 & 3) 2-Mtr-70-59 1 -FSV-70-85 44 (Notes 2 & 3)

ASCO 206-3 81-2RVU AQS 21678/TR, Rev. A 110 (Note 1)

~

2-FSV-70-85 ASCO 206-3 81-2RVU AQS 21678/TR, Rev. A 110 (Note 1) 1-FCV-70-85 (LS) NAMCO EA-180 QTR 105 Add Equip (Note 2) 2-FCV-70-85 (LS) NAMCO EA-180 QTR 105 Add Equip (Note 2) 2-FCV-70-92 Lititorque SMB-000 B0003 2 0-FCV-70-Ill Limitorque SMB-000 B0003 2 2-FCV-70-140 Limitorque SMB-000 B0003 2 2-FCV-70-143 Limitorque SMB-000 B0003 2 2-FCV-70-153 Limitorque SMB-000 B0003 2 2-FCV-70-156 Limitorque SMB-000 B0003 2 0-FCV-70-193 Limitorque SMB-000 , B0003 2 0-FCV-70-194 Limitorque SMB-000 B0003 2 0-FCV-70-197 Limitorque SMB-000 B0003 2 0-FCV-70-198 Limitorque SMB-000 B0003 2 9

2-FCV-72-2 Limitorque SB-1 B0003 8 (Note 1) 1-FT-72-13 Rosemount Il53DB4PB Report 108025 64 (Note 1)

DE03;TERRPT t

• REPL/

\

. NT LISTING TVA ID No. Manu fac tu rgr Model No. Qualification Report TER No.

2-FT-7 2-13 Rosemount Il53DB4PB Report 108025 64 (Note 1) 2-FCV-72-20 8 (Notes 2 & 3) 2-FCV-72-21 Limitorque SB-1 B0003

• 8 (Note 1) 2-FCV-72-22 Limitorque SB-1 B0003 8 (Note 1) 2-FCV-7 2-23 8 (Notes 2 & 3) 1-FT-7 2-3 4 Rosemount 153DB4PB Report 108025 64 (Note 1) 2-FT-7 2-34 Rosemount 153DB4PB Report 108025 64 (Note 1) 2-FCV-7 2-3 9 Limitorque SB-1 B0003 8 (Note 1) 2-FCV-72-40 8 (Notes 2 & 3) 2-FCV-72-Ill Limitorque SB-2 B0003 8 (Note 1) 1-FSV-77-127 ASCO 206-381-2RU AQS 21678/TR, Rev. A 121 (Note 1) 2-FSV-77-127 ASCO IIV206-3 81-2RU AQS 21678/TR, Rev. A 121 (Note 1) 1-FSV-77-128 ASCO 206-3 81-2RVU/ . AQS 21678/TR, Rev. A 109 (Note 2) 206-3 81-2RU 2-FSV-77-128 ASCO 206-3 81-2RVU AQS 21678/TR, Rev. A 109 (Note 1) 1-FSV-81-12 ASCO 206-3 81 -3 RFV AQS21678/TR, Rev. A 105 (Note 1) 2-FSV-81-12 105 (Notes 2 & 3) 1-FSV-90-lb7 ASCO 206-3 81-2RU AQS 21678/TR, Rev. A 107 (Note 1) 2-FSV-90-107 DE03;TERRPT 107 (Note 1)

.. . i

'e ,

REPLA' .T LISTING TVA ID No. Manu fac turer Model No. Qualification Report TER No.

1-FSV-90-108 ASCO 206-3 81-2RU AWS 21678/TR, Rev. A 121 (Note 1) 2-FSV-90-108 ASCO 206-381-2RU AWS 21678/TR, Rev. A 121 (Note 1) 1-FSV-90-109 ASCO 206-3 81-2RU ~

AWS 21678/TR, Rev. A 121 (Note 1) '

2-FSV-90-109 ASCO 206-381-2RU AWS 21678/TR,, Rev. A 121 (Note 1) 1-FSV-90-110 ASCO 206-3 81-2RU AWS 21678/TR, Rev. A 121 (Note 1) 2-FSV-90-Il0 ASCO 206-3 81-2RU AWS 21678/TR, Rev. A 121 (Note 1) 1-FSV-90-Ill ASCO 206-3 81-2RU AQS 21678/TR, Rev. A 107 (Note 1) 2-FSV-90-111 ASCO 206-381-2RU AQS 21678/TR, Rev. A 107 (Note 1) 1-FSV-90-ll3 ASCO 206-301-2RU AQS 2167 8/TR, Rev. A 107 (Note 1) 2-FSV-90-113 ASCO 206-3 81-2RU AQS 21678/TR, Rev. A 107 (Note 1) 1-FSV-90-114 ASCO 206-3 81-2RU AQS 21678/TR, Rev. A 121 (Note 1) 2-FSV-90-Il4 ASCO 206-381-2RU AQS 21678/TR, Rev. A 121 (Note 1) 1-FSV-90-Il5 ASCO 206-3 81-2RU AQS 21678/TR, Rev. A 121 (Note 1) 2-FSV-90-ll5 ASCO 206-3 81-2RU AQS 21678/TR, Rev. A 121 (Note 1) 1-FSV-90-Il6 ASCO 206-3 81-2RU AQS 21678/TR, Rev. A 121 (Note 1) 2-FSV-90-Il6 ASCO 206-3 81-2RU AQS 21678/TR, Rev. A 121 (Note 1) 1-FSV-90-117 ASCO 206-381-2RU AQS 21678/TR, Rev. A 107 (Note 1) 2-FSV-90-117 ASCO 206-3 81-2RU AQS 21678/TR, Rev. A 107 (Note 1)

DE03;TERRPT ..

4

p REPL/ .4T LISTING TVA ID No. Manu f acturer Model No. Qualification Report TER No.

1-FSV-313-222 ASCO 206-3 81-3RF AQS 21678/TR, Rev. A Add Equip (Note 1) 2-FSV-313-222 ASCO IIV206-3 81-3RF AQS 21678/TR, Rev. A Add Equip (Note 1) 1-FCV-313-222 (LS) NAMCO EA 180 ~

QTR-105 140 (Note 1) 2-FCV-313-222 (LS) NAMCO EA 180 QTR-105 140 (Note 1) 1-FSV-313-223 ASCO 206-3 81-3RF AQS 2167 8/TR, Rev. A Add Equip (Note 1) 2-FSV-313-223 ASCO IIV206-3 81-3 RF AQS 21678/TR, Rev. A Add Equip (Note 1) 1-FCV-313-223 (LS) NAMCO EA 180 QTR-105 140 (Note 1) 1-FSV-313-224 ASCO 206-3 81-3 RF AQS 21678/TR, Rev. A Add Equip (Note 1) 2-FSV-313-224 ASCO llV206-3 81-3RF AQS 21678/TR, Rev. A Add Equip (Note 1) 1-FCV-313-224 (LS) NAMCO EA 180 QTR-105 140 (Note 1) 2-FCV-313-224 (LS) NAMCO EA 180 QTR 105 140 (Note 1) 1-FSV-313-225 ASCO 206-3 81-3 RF AQS 21678/TR, Rev. A Add Equip (Note 1) 2-FSV-313-225 ASCO llV206-3 81 -3 R F AQS 21678/TR, Rev. A Add Equip (Note 1) 1-FCV-313-225 (LS) NAMCO EA 180 QTR-105 140 (Note 1) 2-FCV-313-229 140 (Notes 2 & 3) 1-FSV-313-229 ASCO 206-381 -3 RF AQS 21678/TR, Rev. A Add Equip (Note 1) 2-FSV-313-229 ASCO IIV206-3 81-3RF AQS 21678/TR, Rev. A Add Equip (Note 1) 1-FCV-313-229 (LS) NAMCO EA 180 QTR-105 140 (Note 1)

DE03;TERRPT ,

1

~

( REPLA .I LISTING I TVA ID No. Manu fac turer Model No. Qualification Report TER No.

2-FCV-313-230 140 (Notes 2 & 3) 1-FSV-313-230 ASCO 206-3 81-3RF AQS 21678/TR, Rev. A Add Equip (Note 1) 2-FSV-313-230 ASCO IIV206-3 81-3RF

~

AQS 21678/TR, Rev. A Add Equip (Note l) #

l-FCV-313-230 (LS) NAMCO EA 180 QTR-105 140 (Note 1) 2-FCV-313-231 140 (Notes 2 & 3) 1-FSV-313-231 ASCO 206-381-3RF AQS 21678/TR, Rev. A Add Equip (Note 1) 2-FSV-313-231 ASCO 11V206-3 81-3RF AQS 21678/TR, Rev. A Add Equip (Note 1) 1-FCV-313-231 (LS) NAMCO EA 108 QTR-105 140 (Note 1) 2-FCV-313-23 2 140 (Notes 2 & 3) 1-FSV-313-232 ASCO 206-381-3RF AQS 21678/TR, Rev. A Add Equip (Note 1) 2-FSV-313-23 2 ASCO IIV206-381-3 RF AQS 21678/TR, Rev, A Add Equip (Note 1) 1-FCV-313-232 (LS) NAMCO EA 180 QTR-105 140 (Note 1) 0-Mtr-313 -3 03 A Reliance 2YF-882997 NUC-9 Electric Co. 42 (Note 2) 0-Mtr-313-33 8A Reliance 2YF-882997 NUC-9 Electric Co. 42 (Note 2) 4 2-FCV-90-107 (LS) NAMCO EA 180 QTR-105

~

135 (Note 1) 2-FCV-90-111 (LS) NAMCO EA 180 QTR-105 135 (Note 1)

DE03;TERRPT .. .

I

s

,m.- ,

)

REPLACE.- T LISTING TVA ID No. _Manu fa c tu rer Model No. _ Qualification Report TER No.

2-FCV-90-113 (LS) NANCO EA 180 QTR-105 135 (Note 1) 2-FCV-90-117 (LS) NAMCO EA 180 QTR-105 135 (Note 1)

Note 1: This equipment has our files. been replaced and QA field verification documentation is available in Note 2:

Thisavailable.

yet equipment has been replace'd but full QA field verification documentation is not Note 3:

This information documentation will be added to our QA files when the QA field verification is received.

5

?

f: DE03;TERRPT L ~ ~

1 4

8.0 Specific TER Deficiency Tables for TER Categories I.A. 1.B II.A, 1I.3, II.C, III.A, III.B. IV 014313.03 f

[ .

l

SPECIFIC EQUIPMENT DEFICIENCIES CATECORY I.A (EQUIPMENT QUALIFIED)

_TER No. Manufacturer /Model No. Deficiency Resolution _

86 General Electric Model None N/A Vulkene 87 Not Given None N/A 88 Not Given None N/A 124 ASCO Model 206-381-3RF None N/A 125 ASCO Model 206-3 81-3RF None N/A 126 ASCO Model NP831654E None N/A 127 ASCO Model 206-381-3RF None N/A 128 ASCO Model 206-3 81-3RF None N/A 133 ASCO Hodel 206-381 None N/A 134 Target Rock Model 775001 None N/A 136 NAMCO Model EA-170-302 None , Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

162 VALCOR Model V70900-301 None N/A 173 (UI) ASCO Hodel NP831654E None N/A 183 (U2) ASCO Model 206-381 None N/A DE03;TERRPT ,

i SPECIFIC EQUIPMENT DEFICIENCIES CATEGORY I.B i (EQUIPMENT QUALIFICATION PENDING MODIFICATION)

TER No. Manufacturer /Model No. Deficiency -

> Resolution 26 Reliance Model 3Y362208- Documentation Qualified: Reliance Electric Company Model 2YF-88 2998; Qualified by Report No. NUC-9 29 Lincoln Model T2523 Documentation Qualified: Reliance Electric Company Model 2YF-88 2998; Qualified by Report No. NUC-9 30 Lincoln Model T2518 Documentation Qualified: Reliance Electric Company Model 1YF-882998; Qualified by Report No. NUC-9 31 Lincoln Model T2518 .,acumentation Replace with Reliance Electric Company Model 1YF-882998; Qualified by Report No. EUC-9 32 Lincoln Model T2518 Documentation Qualified: Reliance Electric

, Company Model 2YF-882998; Qualified by Report No. NUC-9 33 Lincoln Model T2556 Documentation Qualified: Reliance Electric Company Model 3YF-882998; Qualified by Report No. NUC-9 34 Reliance Model 3Y362208 Documentation Qualified: Reliance Electric -

Company Model 4YF-882998; Qualified by Report No. NUC-9 DE03;TERRPT '

~

l

'y

G i

_TER No. Manufacturer /Model No. Deficiency Resolution 35 Westinghouse Model Documentation Equipment no longer considered to 76D55052 be within the scope of 10CFR50.49 '

(Located in a mild environment) 36 Lincoln Model T2518 Documentation Qualified: Reliance Company Model

• 4YF-882998; Qualified by Report No.

NUC-9 37 Lincoln Model T2523 Documentation Qualified: Reliance Electric Company Model 2YF-882998; Qualified by Report No. NUC-9 38 Lincoln Model TDUP Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 39 Westinghouse Model 5809P24 Documentation Qualified; WCAP-8754 40 Westinghouse Model TBDP Documentation Qualified; TVA evaluation 41 Allis-Chalmers Model 30R56 Documentation Qualified; TVA evaluation /Siemens-Allis report No. NQ-8-90396-1 42 Lincoln Documentation Qualifed; Reliance Company Model 2YF-882997; Qualified by Report No.

NUC-9 43 General Electric Model Documentation Equipment no' longer considered to SK256AN205 be within the scope of 10CFR50.49 (Located in a mild environment).

44 Siemens-Allis Documentation Replace with Seimens-Allis Model 8-5110-90396-1; Qualified by TVA evaluation and report No. NQ .

90396-1 DE03;TERRPT . .

i TER No. Manufacturer /Model No. Deficiency Resolution f

46 Westinghouse Model Documentation Qualified; WCAP-8754 0524H4-SBDP-MKB 47 Cutler-Hammer Model 10250T Documentation Qualified; Wyle test report 17503-1 48 Cutler-11ammer Model 10250T Documentation Qualified; Wyle test report 17503-1 50 Barton Model 288 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 51 Dwyer Model 3301 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 52 Barton Model 288 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (No longer considered safety-related) 53 Barton Model 288 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 54 Custom Component Documentation PS-32-62, 82, 85, 88 - Equipment no Model 604G considered to be within the scope of 10CFR50.49 (Iocated in a mild environment); PS-3-140A,150A, 139A ,139 B, ,139D , 144A , 144B, 144D ,

140B, 150B (replace with ASCO Model SB11AKR/TG13A42R; Qualified by Report No. AQR-101083 Rev. 0) 56 Dwyer Model 1627 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) -

DE03;TERRPT ' '

TER No. Manufacturer /Model No. Deficiency .

Resolution 57 Dwyer Model 1627 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 58 Barton Model 288A Documentation Replace with Static-O-Ring Model 12TA-B4-NX-CLA-JJTTX6; Qualified by Report Nos. 17344-82N-C, 18577-83N, 17344-82N-0, and 18441-83N 59 Dwyer Model 1627 Documentation FS-30-146,157, 202 - Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment); FS-30-200, 207 -

Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) FS 194,195,196,197 (replace with FCI Model FR72-4; Qualified by Report No. 70805) 60 Custom Components Documentation PS-70-209, 210; Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588); PS-3-148, 156, 164, 171,13BA,138B (replace with ASCO Models SB11AKR/TL10A32, SB11AKR/TCL3A42R; Qualified by Report No. AQR-101083, Rev. 0) 61 Bailey Model 555 Documentation Replace with Rosemount Model 1153DB3; Qualified by Report No.

108025 DE03;TERRPT .

4

l t

) TER No. Manufacturer /Model No. Deficiency Resolution l

(

62 Foxboro Model E1306 Documentation Replace with Rosemount Models 1153DB3 and 1153DB5; Qualified by Report No. 108025 e 63 Bailey Model 555 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (

(Category C per NUREG-0588) 64 Bailey Model 555 Documentation Replace with Rosemount Model  :

Il53D84; Qualified by Report Fo.

108025 66 Johnson Controls Documentation Equipment no longer considered to Model PL-4000-2 be within the scope of 10CFR50.49 (Located in a mild environment) 67 Transmation Model Documentation Equipment no longer considered to SW123-1T be within the scope of 10CFR50.49 (Located in a mild environment) 68 Pall Trinity Model Documentation Equipment no longer considered to 10lHAl-64D9810-331 be within the scope of 10CFR50.49 (Located in a mild environment) 70 Terry Model CS-2 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 71 Ingersol-Rand Model Documentation Equipment no longer considered to 7X4 ESV-IP-NL-2 be within the scope of 10CFR50.49 (Located in a mild environment) 72 E.L. Wrigan Model Documentation Equipment no longer considered to 04265379001 be within the scope of 100FR50.49 (Category C per NUREC-0588)

DE03;TERRPT e

J I TER No. Manufacturer /Model No. Deficiency Resolution f

73 ITT Hammel Dahl Model T-25 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 i (Located in a mild environment) 74 Masoneilan Model 8005 Documentation Qualified; Wyle test No. 17506-1 i 75 Robertshaw Model 445-C3 Documentation Relocate to mild environment 98 Westinghouse Model Liquid Documentation Equipment no longer considered to Filled be within the scope of 10CFR50.49 (Located in a mild environment) '

101 ASCO Model 8320A19 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment);

102 ASCO Model HT8300 Documentation Replace with ASCO Model 206-381-3RFV; Qualified by Report No.

AQS21678/TR, Rev. A 103 ASCO Model HT8302B25RF Documentation FSV-30-106 - Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) FSV-30-122,123,102 -

Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588); FSV-30-129,130 -(No longer considered to be within the scope of 10CFR50.49) FSV-30-107 (Qualified with ASCO Model 206-381-2RU; Qualified by Report No.

AQS21678/TR, Rev. A)

DE03;TERRPT i

m) i TER No. Manufacturer /Model No. Deficiency Resolution 104 ASCO Model HT8300 Documentation Qualified: ASCO Model 206-381-2RU; Qualified by Report No.

AQS2178/TR, Rev. A 105 ASCO Model HV202300LRV Documentation Replace with ASCO Model 206-380- -

2RVU; Qualified by Report No.

AQS21678/TR, Rev. A 106 ASCO Model HV-200-924-2F Documentation Replace with ASCO Model 206-381-2RU; Qualified by Report No.

AQS21678/TR, Rev. A 107 ASCO Model HTX8320 Documentation Replace with ASCO Model 206-381-2RVa; Qualified by Report No.

AQS21678/TR, Rev. A 108 ASCO Model HT8300 Documentation Replace with ASCO Hodel 206-381-2RVa; Qualified by Report No.

AQS21678/TR, Rev. A 109 ASCO Model Documentation Replace with ASCO Models 206-381-WPX-HV-202-301-IF 2RUV and 206-381-2RU; Qualified by Report No. AQS21678/TR, Rev. A 110 ASCO Model HB8300 Documentation Replace with ASCO Models 206-381-2RUV, 206-380-2RU, 206-380-2RVU, 206-380-2R4; and 206-381-2RUV; Qualified by Report No.

AQS21678/TR, Rev. A 111 ASCO Model HB8300 Documentation Replace with ASCO Model 206-380-2RU; Qualified by Report No. .

AQS21678/TR, Rev. A DE03;TERRPT .

• TER No. Manufacturer /Model No. Deficiency Resolution 112 ASCO Model HV-200-921-1RF Documentation Replace with ASCO Hodel 206-380-2RU; Qualified by Report No.

AQS21678/TR, Rev. A 113 ASCO Models 8300 and 8302 Documentation 2-FSV-61-96,110 (replace with ASCO Hodel 206-381-3RFV; Qualified by AQS21678/TR, Rev. A); FSV-30-279, 280; FSV-61-191A, 193A, 1-FSV 96, 110 - Equipment no longer considered to be within the scope of 10CFR50.49 (Iocated in a mild environment) 114 ASCO Hodel 832654 Documentation FSV-62-143, 144 - Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588); FSV-62-120 (Equipment no longer considered to be within the scope of 10CFR50.49); FSV 38; FSV-77-20 (qualified, analysis NS-CE-755) 115 ASCO Model 831654 Documentation FSV-87-9, 10 - Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environmcat); FSV-62-77; FSV 305; FSV-63-23, 41, 42, 64, 84 (qualified; analysis NS-CE-755) 116 ASCO Model LB8300B64RU Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per HUREC-0588) 117 ASCO Model HT831654 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 ,

(Located in a mild environment)

DE03;TERRPT . .

a TER No. M~nufsetur r/Modsl Ns. Deficiency Resolution 118 Target Rock Model 82UU-001 Documentation Qualified: Target Rock Model 82UU-001; Qualified by Report No.

3543 119 ASCO Model NP831654E Documentation Qualified: ASCO Model NP831654E; Qualified by Report No.

AQS21678/TR, Rev. A 120 ASCO Model HB8300C58RU Documentation Qualified: ASCO Models 206-380-2RUV and 206-380-2RV; Qualified by Report No. AQS21678/TR, Rev. A 121 ASCO Model HT8300 Documentation Replace with ASCO Models 206-381-Series /WPX11V20230ll 3RVF and 206-381-2RV; Qualified by Report No. AQS21678/TR, Rev. A 122 ASCO Model 8320 Documentation FSV-30-3, 6, 60, 69 - Equipment no longer considered to be within the scope of 10CFR50.49 (Power has been disconnected); FSV-30-146A, 146B; FSV-65-10; (Qualified: ASCO Model 206-380-2RVU; Qualified by Report No. AQS21678/TR, Rev. A) 123 ASCO Model 8300 Documentation Replace with ASCO Models 206-381-3RFV and 206-381-2RVU; Quaified by Report No. AQS21678/TR, Rev. A 141 NAMCO Model EA700 Documenta tion Replace with NAMCO Model EA-740; Qualified by Report No. QTR-105 DE03;TERRPT .

I

_T_F2 No .' M nufreturer/Model No. Deficiency Resolution i

143 NAMCO Model EA700 Documentation FCV-1-7, 14, 25, 3 2 - Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588); FCV-1-147, 148, 149, 150 (replace with NAMCO Model EA-740; Qualified by Report No. QTR-111) 145 NAMCO Model EA-170 -

FCV-61-192, FCV-62-69, 70, 77 FCV-63-3, 4,175, (replace with NAMCO Model EA-180; Qualified by Report No. QTR-105); FCV-68-307, FCV 10, 17, 19, 20. FCV-74-3, 21, ZS-63-1, 5, 67, 80, 98 118 - Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588); FCV-61-96, 110, 191,193, FCV-63-23, 38, 41, 42, 64, FCV-87-21, 22, 23, 24; FCV 8, 11 - Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 148 Ceneral Atomic -

Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 149 Bailey Model 556 -

Equipment no longer considered to be within the scope of 10CFR50.49 150 Mercoid Model 2036810C1160 -

Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREC-0588)

DE03;TERRPT '. 1

g TER No. Manufacturer /Model No. Deficiency Resolution _

t 151 Penn Model A19BAC -

TS-30-175, 176, 177, 178, 179, 180, 182, 183 - Equipment no longer considered to be within the scope i of 10CFR50.49 (Category C per NUREG-0588); TS-30-190, 191, 192, 193, 186, 187, 196, 197, 201, 202 (replace with Static-0-Ring Model 201TA; Qualified by Report No.

18441-83N) 152 Honeywell Model T675A1540 -

Equipment no longer considered to be within the scope of 10CFR50.49 (located in a mild environment) 153 Fenwal Model 27120-50 -

Replace with Fenval Model 18023-7; Qualified by Report No. 17509-1 154 Fenwal Model 18003-7 -

TS-30-103 - Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment); TS-30-214 - Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 155 Fenwal Model 17323-0 -

Equipment no longer considered to be within the scope of 10CFR50.49 (Iocated in a mild environment) 156 Fenwal Model T675A1540 -

Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 157 Rosemount Model 176KS -

Replace with Weed RTD; Qualified by Report No. 548-8854-2, Rev. B ,

DE03;TERRPT ' '

l .

e TER No. Manufacturer /Model No. Deficiency Resolution 158 Comsip Model K-111M -

Qualified; The analyzer is qualified to IEE 323-1971 as demonstated by Comsip "K" systems specifications dated September 1981 supplemented by Wyle test report 17502-1. As a result of the supplemental test, TVA has decided to move a portion of the analyzer to a mild environment.

159 Foxboro Model EllGM -

PT-1-2A, 27A, 5 (qualified; WCAP-8541); PT-1-30 (Equipment no longer considered to be within the scope of 10CFR50.49) 166 Johnson Controls Model -

Equipment no longer considered to PC-4000-2 be within the scope of 10CFR50.49 (Located in a mild environment) 170(U1) Barton Model 764 (Lot 1) Aging, Qualification Life, Aging, Replace with Barton Model 764 Lots Program, Accuracy 2 and 7; Qualified by Report Nos.

WCAP-9885, WCAP-8687, Supp.-2-E03A,

, and WCAP-8587 Supp.-1-EQDP-ESE-3A 170(U2) Cutler-Dammer Model Documentation Qualified; Wyle test report 17503-1 10250T 171(U1) Barton Model 764 (Lot 1) Aging, Qualification Life, Aging, Replace with Barton Model 764 Lots Program, Accuracy 2 and 7; Qualified by Report Nos.

WCAP-9885, WCAP-8687, Supp.-2-E03A and WCAP-8587 Supp.-1-EQDP-ESE-3A 171(U2) Cutler-Hammer Model Documentation Qualified; Wy.e test report 17503-1 10250T DE03;TERRPT l l

t i

TER No. Manufacturer /Model No. Deficiency Resolution 172(U1) Barton Model 763 (Lot 1) Aging, Qualification Life, Aging, Replace with Barton Model 763 Iots Program, Accuracy 2 and 4; Qualified by Reports Nos.

WCAP-9885, WCAP-8687 Supp.-2-E01A, and WCAP-8587 Supp.-1-EQDP-ESE-1A 172(U2) Dwyer Model 1627 Documentation FS-30-200, 207 - Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588); FS-30-157, 184, 185 -

Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment) 173(U2) Honeywell Model Documentation Equipment no longer considered to T675A 1540 be within the scope of 10CFR50.49 (Iocated in a mild environment) 174(U1) NAMCO Model EA-170 -

Replace 1-FCV-81 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment); l-PCV-68-334, 340A - Qualified: Target Rock Model 8244-001; Qualified by Report No. 3543 174(U2) Fenwal Model 18003-7 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (located in 'a mild environment) 175(U1) NAMCO Model EA-080 -

Replace with NAMCO EA-180; Qualified by Report No. QTR-105 176(U1) Barton Model 764 (Lot 1) Aging, Qualification Life, Aging, Qualified: Barton Model 764 Lots Program, Accuracy 2 and 7; Qualified by Report Nos. ,

WCAP-9885, WCAP-8687, Supp.-2-E03A, and WCAP-8587 Supp.-1-EQDP-ESE-3A DE03;TERRPT . .,

TER No. Manufacturer /Model No. Deficiency Resolution 180(U2) Target Rock Model 8244-001 Humdity, Aging, Margin 2-FCV-72 Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment); 2-PCV-68-334 (Qualified: Target Rock Model 8244-001; Qualified: Target Rock Report No. 3543); 2-FCV-63-72, 73 (Qualified; NAMCO Report No. QTR-105) 181(U2) NAMCO Model EA700 Documentation Replace with NAMCO Model EA-740; Qualified by Report No. QTR-111 182(U2) NAMCO Model EA700 Documentation Equipment no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 5 DE03;TERRPT

• 4 SPECIFIC EQUIPMENT DEFICIENCIES ,

CATECORY II.A (EQUIPMENT QUALIFICATION NOT ESTABLISHED) i TER No. Manufacturer /Model No. Deficiency Resolution 1

Link-Belt Models TN200/ Similarity, Aging, Qualified Life, Replace with Limitorque Model SMB- t TN2000 Aging Simulation 000; Qualified by Report No. B0003 2 Link-Belt Models TN200/ Similarity, Aging, Qualified Life, Replace with Limitorque Model SBM-TN2000 Aging Simulation 000; Qualified by Report No. B0003 5 MEA Model MEA 119 K2 Documentation Function being replaced with non-electrical devices, therefore, not in scope of 10CFR50.49 6 Limitorque Model SMB; Similarity, Aging, Qualified Lif e, Qualified; Limitorque Report No.

Sizes 00,000 (Peak Temperature and B0003 Pressure FCV-70-133 and 134) 7 Limotorque Model SMB; Similarity, Aging, Qualified Life, Qualified; Limitorque Report No.

B0003 8 Limitorque Model SMB; Similarity, Aging, Qualified Life, Replace with Limitorque Models SB-1 Sizes 1, 2 Radiation 00 and SMB-2; Qualified by Report No.

B0003 9 Limitorque Model SMB; Similarity, Aging, Qualified Life, Qualified; Limitorque Report No.

B0003 10 Limitorque Model SMB; Similarity, Aging, Qualified Lif e, Qualified; Limitorque Report No.

Size 00 Peak Temperature and Pressure B0003 11 .Limitorque Model SMB; Similarity, Aging, Qualified Life, Qualified; Limitorque Report No.

Size 4 Peak Temperature and Pressure F-C3271, B0003, B0027, and B0058 DE03;TERRPT . .

(

_TER No. Manufacturer /Model No. Deficiency Resolution i

12 Limitorque Model SMB; Similarity, Aging, Qualified Life, Qualified; Limitorque Report No.

B0003.

13 Limitorque Model SMB; Similarity, Aging, Qualified Life, Qualified; Limitorque Report No. I Size 000 Peak Temperature and Pressure 600456 14 Limitorque Model SMB; Similarity, Aging, Qualified Lif e, Qualified by Limitorque Report No. F- (

C3271 15 Limitorque Model SMB; Similarity, Aging, Qualified Life, Awaiting vendor documentation of (

similarity 16 Limitorque Model SMB; Similarity, Aging, Qualified Life, Qualified; Limitorque Report No. I Size 4 Peak Temperature and Pressure F-C3271, B0003, B0027, and B0058 17 Limitorque Model SMB; Similarity, Aging, Qualified Life, Awaiting vendor documentation of .

Size 000 Peak Temperature and Pressure similarity 18 Limitorque Model SMB; Similarity, Aging, Qualified Life, FCV-62-90, 91, 98, 99, FCV-63-4, 152, 153, 156, 157; FCV-74-3, 12, 21, 24; 1-FCV-63-175 (qualified; Limitorque reports B07003 and B0058); 2-FCV 1; FCV-63-5, 6, 7, 47, 48, 1; FCV 63 (qualified; Limitorque test report F-C3271); FCV-63-72, 73 (qualified; Limitorque reports 600198 and 600376); FCV-63-8; 1-FCV-63-1; 2-FCV-63-11,175 (replace, Manuf acturer and Model No. of replacement' equipment is not presently available); FCV-63-22, 25, 26, 39, 40, 93,94; FCV-62-135, 136; Equipment no longer considered within the scope of 10CFR50.49 (Located in a mild environment)

DE03;TERRPT '

, i TER No, Manufacturer /Model No. Deficiency Resolution i

19 Limitorque Model SMB; Similarity, Aging, Qualified Life, LCV-62-132,11 (qualified; Limitorque test reports F-C3271 and B-003); LG-62-152,153 (do not exist) i 20 Limitorque Model SMB; Documentation Equipment no longer considered within Size 00 the scope of 10CFR50.49 (Located in a  :

mild environment) 21 Limitorque Model SMB; Documentation Equipment no longer considered within Size 00 the scope of 10CFR50.49 (Located in a mild environment) 22 Limitorque Model SMB; Similarity, Aging, Qualified Life, Equipment no longer considered within the scope of 10CFR50.49 (Category C per NUREG-0588 with Limitorque Model SMB-00; Qualified by Report No. B0003 23 Limitorque Model SMB; Similarity, Aging, Qualified Life, FCV-63-172 (replace); FCV-63-67, 80, 98, 118 - Equipment no longer considered within the scope of 10CFR50.49 (Category C per NUREG-0588); FCV-62-61 (Qualified; Limitorque Report No. B0058).

24 Limitorque Model SMB; Similarity, Aging, Qualified Life, Equipmet no longer considered to be within the scope of 10CFR50.49 (Category C per NUREG-0588) 25 Limitorque Model SMB; Similarity, Aging, Qualified Life, Replace with Limitorque Model SBM-00; Qualified by Report No. B0003 27 Reliance Model X-328203 Documentation, Similarity Qualified; Joy Manufacturing Company Test X-604 .

DE03;TERRPT

• I TER No. Manufacturer /Model No. Deficiency Resolution l

1 28 Lincoln Model T2557 Documenta tion Replace with Relitnce Electric company Model 2YF-882998; Qualified by Report No. NUC-9 e 45 Westinghouse Model HSW1 Similarity Qualified; WCAP-8754 and supplemental information d 55 Dwyer Model 1627 Radiation, Temperature, Pressure, Equipment no longer considered to be Qualification Time, Humidity, within the scope of 10CFR50.49 .

Aging, Margin, Qualification (Located in a mild environment)

Method, Qualification Information 78 American Insulated Wire Similarity Qualifiedl Test report No. F-C5119 79 Rockbestos Similarity Qualified; Rockbestos report

" Qualification of FIREWALL SR, Class IE Cables" 80 Anaconda / Continental Similarity, Aging, Qualified Life, Qualified; Anaconda Continental Peak Temperature report No. 79117 81 Anaconda / Continental Similarity Qualified; Franklin Institute report No. F-C4836-3 82 Rockbestos Similarity Qualified; Rockbestos report,

" Qualification of FIREWALL III, Class IE Cables, 2/17/77" and Clarification of Certain Matters Related to Class IE Qualification of Rockbestos cables, 3/7/78 83 ITT Surprenant Similarity Qualified; Isomedix test report Nos.

375-02.and Franklin Institute Research Laboratories F-C3961

=

DE03;TERRPT ' '

i TER No. M nufacturer/Model No. Deficiency Resolution 84 Brand Rex Similarity Qualified; Franklin Institute report No. F-C4113 89 okonite similarity Qualified; Okonite test report Nos.

6-3 and Franklin Institute report F-C4836-3 90 Various Similarity Qualified; Wyle test report Nos.

43854-3; Franklin Institute test reports F-C4113, F-C5120-1, F-C5285-1, etc.

91 Various Similarity Qualified; Various test reports as referenced in TER 92 various Documentation, similarity Qualified; Okonite test reports Nos.

K-0-1 and " Engineering Report No.

344, revision 1" 93 Westinghouse Types WI- Aging, Qualified Life, Spray, Qualified; Okonite Engineering Report 32198 through WI-32212 Radiation, Margin, Qualification No. 141 and Franklin Institute Report Method No. F-C2709 94 Not Given Similarity Qualified; Various Franklin Institute reports; Wyle test report No. 43854-

, 3; and Essex report No. PE-53 97 Various Documentation Qualified; Wyle Test Report 17503-1 99 AVC0 Model C5439 Documentation Replace with ASCO Ifodel NP8316A74E; Qualified by Report No. AQS21678/TR, Rev. A 100 AVC0 Model C5439 Documentation Replace with ASCO Model NP831 A746; Qualified by Report No. AQS21678/TR, ,

Rev. A DE03;TERRPT

• TER F M~=ufreturer/Mrd91 Ns. R saluti-135 NAMCO Model EA170 Peak Temperature and Pressure, '

Limit switch on 0-FCV-12-79 is no Duration, Steam Exposure, Test longer within the scope of Sequence 10CFR50.49. Replace switch 90 limit switches with NAMCO Model EA 180; Qualified by Report No. QTR-105 137 NAMCO Model EA-180 Similarity, Duration Qualified; TVA evaluation 138 NAMCO Model EA180 Similarity Qualified; TVA evaluation 139 NAMCO Model EA180 Similarity, Submergence Equipment no longer considered to be

, within the scope of 10CFR50.49 140 Micro Switch Model Documen ta tion OPDAR 7905 Replace with NAMCO Model EA180; Qualified by Report No. QTR-105 142 NAMCO Model EA700 Documenta tion LS on FCD-65-26, 27 and LS on FCO-65-10, 3 0 on TER item No. 144 replaced by FSV-65-10, 30 on this TER. Not within scope of 10CFR50.49 (Category C); LS on FCO-65-52, 53 on TER item No. 144 replaced by

~ FSV-65-52, 53 on thio TER, qualified by Test Report QTR-150.

146 NAMCO Model EA740 Similarity, Dura tion Qualified; TVA evaluation 147 NAMCO Model EA740 Similarity, Aging, Qualified Life, Qualified; TVA Evaluation 161 Rosemount Model 176KF Aging, Qualified Life, Profile, Qualified; WCAP-9157 Functional Testing, Accuracy, Spray DE03;TERRPT .

N

RNA Manufacturer /Model No. ,

Deficiency Resolution 135 NAMCO Model EA170 Peak Temperature and Pressure, Duration, Steam Exposure, Test Qualified; NAMCO letter dated Sequence November 9, 1979 137 NAMCO Model EA-180 Similarity, Duration Qualified; TVA evaluation 138 NAMCO Model EA180 Similarity 139 Qualified; TVA evaluation NAMCO Model EA180 Similarity, Submergence Equipment no longer considered to be 140 within the scope of 10CFR50.49 Micro Switch Model Documentation O!DAR 7905 Replace with NAMCO Model EA180; 142 Qualified by Report No. QTR-105 NAMCO Model EA700 Documentation LS on FCO-65-26, 27 and LS on FCO-65-10, 30 on TER item No. 144 replaced by FSV-65-10, 30 on this TER.

Not.'within scope of 10CFR50.49 (Category C); LS on FCo-65-52, 53 on TER item No. 144 replaced by FSV-65-52, 53 on this TER, qualified 146 by Test Report QTR-150.

NAMCO Model EA740 Similarity, Duration i 147 Qualified; TVA evaluation

\ NAMCO Model EA740 161 Similarity Aging, Qualified Life, Qualified; TVA Evaluation Rosemount Model 176KF Aging, Qualified Life, Profile, Qualified; WCAP-9157 Functional Testing Accuracy, Spray S

DE03;TERRPT I

a

%/

TER No. Manufacturer /Model No. Deficiency Resolution 164 Foxboro Model E11CM (MCA) Aging, Qualified Life, Aging Program, Qualified; Westinghouse letter Peak Temperature and Pressure, NS-PLC-5023 Duration, Profile, Steam Exposure, Radiation, Test Sequence, Accuracy, Test Duration Margin 165 Foxboro Model E11CM (MGA) Aging, Qualified Life, Aging Program, Qualified; Westinghoure letter Radiation, Test Sequence, Accuracy NS-PLC-5023 167 Barton Model 764 (Lot 2) Aging, Qualified Life, Aging Program, Qualified; WCAP-9885 Radiation, Accuracy 168 Barton Model 763 (Lot 2) Aging, Qualified Life, Aging Program, Qualified; WCAP-9885 Radiation, Accuracy 169 (U1) Barton Model 764 (Lot 2) Aging, Qualified Life, Aging Program, Qualified; WCAP-9885 Radiat!cn, Accuracy 169 (U2) Barton Model 764 (Lot 2) Aging, Qualified Life, Aging Program, Qualified; WCAP-9885 Radiation, Accuracy 175 (U2) Eaton Corp. Similarity Qualified; Franklin Institute report No. F-C4113 176 (U2) Samuel Koore Similarity Qualified; Isomedix qualification reports dated June 1978 and January 1980 177 (U2) Samuel Moore Similarity Qualified; Isomedir qualification reports dated June 1978 and January 1980 178 (U2) Anaconda Similarity Qualified; Franklin Institute' report No. F-C4836-3 DE03;TERRPT i

TER No. Manufacturer /Hodel No. Deficiency Resolution 179 (U2) NAMCO Model EA 180/740 Peak Temperature and Pressure, Dura- Qualified; Either HAMCO EA 180 tion, Steam Exposure, Test Sequence qualified by Test Report OTR-105 or NAMCO EA-740 qualified by Test Report Q7R-lll will be installed during the Present unit 2 outage a

DE03;TERRPT ' '

SPECIFIC EQUIPMENT DEFICIENCIES CATEGORY II.B (EQUIPMENT NOT QUALIFIED)

Franklin Research Center's evaluation did not result in any equipment being categorized as category II.B.

DE03;TERRPT

SPECIFIC EQUIPMENT DEFICIENCIES CATEGORY III.A (EQUIPMENT EXEMPT FROM QUALIFICATION)

TER No. Manufacturer /Model No. Deficiency Resolution 76 International Switchboard N/A Exempt f rom Qualification 95 Not Stated N/A Exempt from Qualification 96 TVA N/A Exempt f rom Qualification DE03;TERRPT (1) ,

e

i SPECIFIC EQUIPMENT DEFICIENCIES CATECORY III.B (EQUIPMENT NOT IN Tile SCOPE OF TIIE REVIEW) I TER No. Manufacturer /Model No. Deficiency Resolution i 49 Electro Switch Model N/A Equipment no longer considered to be Series 24 within the scope of 10CFR50.49 (Located in a mild environment).

85 ITT Supernant Model N/A Equipment no longer considered to be Triaxial within the scope of 10CFR50.49 (Located in a mild environment).

163 Westinghouse N/A Equipment no longer considered to be within the scope of 10CFR50.49 (Located in a mild environment).

DE03;TERRPT (1)

SPECIFIC EQUIPMENT DEFICIENCIES CATECORY IV (DOCUMENTATION NOT MADE AVAILABLE)

TER No. Manufacturer /Model No, Deficiency Resolution 3 Chicago Fluid Power Documentation Qualified; Atwood & Morrill test Model TVA-01-0577 report 201-39500 4 Chicago Fluid Power Documentation Qualified; Atwood & Morrill test Model TVA-01-0577 report 201-39500 65 Barton Model 764 Lot 2 Documentation Qualified; WCAP 9885 69 Power Electric Model CCB Documentation Equipment no longer considered to be within the scope of 10CFR50.59 (Located in a mild environment) .

160 Foxboro Model E-13DM Documentation Qualified; Documentation made available by Westinghouse letter No. NS-PLC-5023 DE03;TERRPT (1) g

9.0 TER Number /TVA ID Number Correlation Table x _.

014313.03 i

l

TER No. Ecuipment Cateeory TVA Identification Nos.

1 Motorized Valve Actuator II.A FCV-67-123, 125, 127, 128, l

146, 147, 151, 152, 233, 205, 208, 81, 82, 126, 124, ,

83, 88, 91, 96, 99, 104, l 107, 112, l 2 Motorized Valve Actuator II.A FCV-70-2, 3, 4, 8, 9, 10, 11, 12, 15, 40, 41, 193, 194, 195, 196, 197, 198, 13, 22, 23, 25, 26, 27, 34, 39, 64, 74, 14, 16, 18, 28, 29, 75, 168, 76, 78, 111, 153, 156, 92, 139, 140, 143, 1 3 Motorized Valve Actuator IV FSV-1-4A, 4B, 4D, 4E, 4F, 4G, 4H, 4J, 29A, 29B, 29D, 29E, 29F, 29G, 29H, 29J 4 Motorized Valve Actuator IV FSV-1-11A , 11 B , 11D , 11E ,

11F, 11G, 11H, 11J, 22A, 22B, 22D, 22E, 22F, 22G, 22H, 22J

$ Electrohydraulic Valve II.A PM-3-122, 132 Actuator 6 Motorized Valve Actuator II.A FCV-70-183, 90, 206, 207, 208, 133, 134 7 Motorized Valve Actuator II.A FCV-72-13, 34 8 Motorized Valve Actuator II.A FCV-7 2-2, 3 9, 20, 23, 21, 22, 40, 41 9 Motorized Valve Actuator II.A FCV-3-116A , 116 B, 126A ,

126B; FCV-3-136A, 136B, 179A, 179B 10 Motorized Valve Actuator II.A FCV-1-15, 16, 17, 18 11 Motorized Valve Actuator I.B FCV-3-47, 87 12 Motorized Valve Actuator II.A FCV-26-240, 241, 242, 243, 244, 245 13 Motorized Valve Actuator .II.A FCV-67-87, 95, 103, 111, 295, 296, 297, 298 14 Motorized Valve Actuator II.A FCV-67-424

~

DE03;TERRPT TER No- Equipm*nt Categorv TVA Identification Hos.

15 Motorized Valve Actuator II.A FCV-67-130, 131, 133, 134, 138, 139, 141, 142 16 Motorized Valve Actuator I.B FCV-3-33, 100 17 Motorized Valve Actuator II.A FCV-70-87, 89 18 Motor t . zed Valve Actuator II.A LCV-62-135, 136; FCV-74-3, 21; FCV-63-4, 175, 47, 48, 72, 73, 152, 153, 156, 157, 93, 94, 22, 25, 26, 39, 40; FCV-62-63, 98, 99, 90, 91; FCV-63-1, 3, 5, 6, 7, 8, 11; FCV-74-12, 24-19 Motorized Valve Actuator II.A LCV-62-152, 153, 132, 133; FCV-74-33, 3 5 20 Motorized Valve Actuator II.A FCV-87-21, 24

. 21 Motorized Valve Actuator II.A FCV-87-22, 23 22 Motorized Valve Actuator II.A FCV-62-138 23 Motorized Valve Actuator II.A FCV-62-61; FCV-63-67, 80, 98, 118, 172 24 Motorized Valve Actuator II.A FCV-74-1, 2 g 25 Motorized Valve Actuator II.A FCV-68-332, 333 26 Electric Motor I.B Emergency Gas Treatment Fan Motor 27 Electric Motor II.A 30-1AAA, IBBB 28 Electric Motor II.A Containment Spray Pump AHU Motor 29 Electric Motor I.B Pentration Room Cooler Motor 30 Electric Motor I.B RHR Pump Cooler Fan Motor 31 Electric Motor I.B SIS Pump Cooler Fan Motor 32 Electric Motor I.B Centrifugal Charging Pump Cooler Fan Motor 33 Electric Motor I.B CCS Pump and AFP Pump AHU Motor l

l m3,,_P, 2  ;

1 l

l

~

TER No. Ecuipm nt Citreory TVA Identification N*s.

34 Electric Motor I.B Auxiliary Building Gas Treatment System Fan Motor 35 Electric Motor I.B 480V Board Room AHU Motor A 36 Electric Motor I.B Emergency Gas Treatment AHU Motor 37 Electric Motor I.B Spent Fuel Pit Pump AHU Motor 38 Electric Motor I.B MTRB-62-230A , 232B 39 Electric Motor I.B MTRA-74-10A, 20B 40 Electric Motor I.B MTRD-78-35T, 12A, 9B 41 Electric Motor I.B Auxiliary Feed Pump Motor (1A-A , IB-B, 2A-A , 2B-B) 42 Electric Motor I.B El 734 A/C Pump Motor (A-A, B-B) 43 Electric Motor I.B Auxiliary Air Compressor Mo tor (A-A, B-B) 44 Electric Motor I.B Component Cooling Water Pump Motor 45 Electric Motor II.A Containment Spray Pump Motor (IAA, 13B) 46 Electric Motor I.B MTRB-6 2-108A-A , 104A-B 47 Handswitch I.B Local Control (Various)

Auxiliary Building 48 Handswitch I.B Local Control (Various)

Containment 49 Transfer Switch III.B Transfer Switch (Various)

Auxiliary Building 50 Differential Pressure I.B FIS-70-81, PDIS-313-305, 340 Switch 51 Pressure Switch I.B PDIS-30-148, 149 52 Pressure Switch I.B PDIS-1-17, 18 O .

( ,/ DE03;TERRPT TER No- Ecuipm nt Catecory TVA Identification Nos.

53 Flow Switch I.3 FIS-74-12, 24 54 Pressure Switch I.B PS-32-62, 82, 85, 88; PS 140A , 150A , 13 9A , 13 9 B, 139D, 144A, 144B, 144D, 140B, 150B 55 Pressure Switch II.1 FS-3 0-184, 185, 190, 191, 192, 193 l

56 Flow Switch I.B FS-30-201 57 Flow Switch I.B FS-30-186, 187 l 58 Pressure Switch I.B PS-30-46A, 46B, 47A, 47B, 48A, 48B 59 Pressure Switch I.B FS-30-146, 157, 194, 195, 196, 197, 200, 202, 207 60 Pressure Switch I.B PS-3-148, 156, 164, 171, 138A,138B, PS-70-209, 210 61 Differential Pressure I.B FT-3-142 Transmitter 62 D/P Transmitter I.B PDT-65-80, 82, 90, 97 63 D/P Transmitter I.B FT-70-81A, 81B, 81D, 81E -'

64 Flow Transmitter I.B FT-7 2-13, 3 4 65 D/P Transmitter IV FT-1-3A , 3 B, 10A , 10 B, 21A ,

21B, 28A, 28B 66 Pressure Controller I.B FC-3 0-148, 149 67 Signal Converter I.B FM-30-148A, 149I 68 Air Dryers I.B Essential Control Air Dryers A and B 69 Distribution Panel IV B/U-1A-A, IB-B, IC , ID 70 Turbine Control Panel I.B Panel 326, 381 71 Control Panel I.B Auxiliary Control Air Control Panel DE03;TERRPT

~

TER No. Eouipm*nt Cat +?orv TVA Id*ntification Nos.

72 Electric Heater I.B Backup Pressurizer Heater Elements (Various )

73 Transducer I.B FM-30-148, 149 1

74 I/P Transducer I.B LM-3-148A , 156A , 164A , 171A 75 I/P Transducer I.B PDM-65-80, 82 76 Relay Panel III.A Reactor Coolant Pump Undervoltage Relay Boards (IA, IB, 2A, 2B) 77 Electric Cable Splice II.C Cable Connection and Termination 78 Electric Cable II.A SROAJ Cable (Electrical Distribution) 79 Electric Cable II.A SROAJ and SROAJ-H (Electrical Distribution) 80 Electric Cable II.A Electrical Distribution (SROAJ and SROAJ-H) 81 Electric Cable II.A Electrical Distribution (WA and WC) 82 Electric Cable II.A Electrical Distribution -

(WA) 83 Electric Cable II.A Electrical Distribution 84 Electric Cable II.A Electrical Distribution (WC(ILPE))

85 Electric Cable III.B Instrument Cable 86 Electric Cable I.A Control and Instrumentation (CPJ) 87 Electric Cable I.A Electrical Distribution 88 Electric Cable I.A Instrument Cable (CPST) 89 Electric Cable II.A EPSJ 90 Electric Cable II.A Various (PXJ) 91 Electric Cable II.A Electric Distribution (XLPE)

~

DE03;TERRPT l

TER N4 Equirc*nt Cate70ry TVA Id*ntifiertion Nos.

l 92 Electric Cable II.A Electrical Distribution (Special Cable) 93 Electric Penetration II.A Pressure Boundary and Electrical Continuity l

94 Electric Cable II.A Various (PXNJ) 95 Electric Cable III.A Electrical Distribution (PJJ) 96 Junction Box III.A Protect Electrical Ter:sination 97 Teminal Block II.A Electrical Temination 98 Transfomer I.B Backup Pressurizer Heater Power Supply 99 Solenoid Valve II.A FSV-30-8, 10, 50, 52, 15, 17, 40, 56, 20, 58 100 Solenoid Valve II.A FSV-30-2, 5; FSV-65,7, 8, 28A, 28B, 47A, 47B, 50, 51 101 Solenoid Valve I.B FSV-30-86, 137, 138, 140, 141, 160, 161, 166, 167, 271, 272, 275, 276 102 Solenoid Valve I.B FSV-61-192, 194, 122, 97 103 Solenoid Valve I.B FSV-3 0-129, 130, 106, 107, 122, 123, 102 104 Solenoid Valve I.B PSV-1-6A , 6B, 31A, 31B 105 Solenoid Valve I.B FSV-18-12 106 Solenoid Valve I.B FSV-12-79 107 Solenoid Valve I.B FSV-90-107, 111, 113, 117 108 Solenoid Valve I.B LSV-3-148, 156, 164, 171, 172, 173 109 Solenoid Valve I.B LSV-3-148A , 156A , 164A ,

171A; FSV-77-128 110 Solenoid Valve I.B FSV-67-338, 344, 346, 348, 350, 352, 342; FSV-70-85 e

l DE03;TERRPT TER No. Equier nt Cateeorr TVA Identificetion Non, l

111 Solenoid Valve I.B FSV-67-168, 170, 176, 182, 184, 186, 188, 190, 213, 215, 354, 356 112 Solenoid Valve I.B 2-FSV-67-184 113 Solenoid Valve I.B FSV-30-279, 280; FSV 191A,193A, 96,110 114 Solenoid Valve I.B FSV-77-20; FSV-62-143, 144, 120; FSV-63-38 115 Solenoid Valve I.B FSV-87-9, 10; FSV-62-77; FSV-68-305; FSV-63-23, 64, 84, 41, 42 116 Solenoid Valve I.B FSV-62-140A, 140B 117 Solenoid Valve I.B FSV-87-11 118 Solenoid Valve I.B PSV-68-334A, 334B, 340AA, 340AB 119 Solenoid Valve I.B FSV-62-70, 74 120 Solenoid Valve I.B FSV-67-336, 338, 217, 219 121 Solenoid Valve I.B FSV-1-181, 182, 183, 184; FSV-77-127; FSV-90-108, -

109, 110, 114, 115, 116 122 Solencio Valve I.B FSV-65-10; FSV-30-3, 6, 60, 69, 146A, 146B 123 Solenoid Valve I.B FSV-1-7, 14, 25, 32, 147, 148, 149, 150 124 Solenoid Valve I.A FSV-77-18, 9 125 Solenoid Valve I.A FSV-68-307 126 Solenoid Valve I .A FSV-87-7, 8; FSV-62-73, 72 127 Solenoid Valve I.A FSV-77-16 128 Solenoid Valve I.A FSV-65-52, 53, 30, 26, 27; FSV-30-157B DE03;TERRPT TER No. Ecuipm nt Catezorv TVA Id*ntification Nos, i

129 Solenoid Valve II.C FSV-3 2-81A , 81 B , 103A ,

Illa, 111B, 103B 130 Solenoid Valve II.C PSV-65-81, 83; FSV-32-80A, 80B , 102A , 102B, 110A ,

110B; FSV-43-77, 3,12, 23, 35; FSV-68-308 131 Solenoid Valve II.C LSV-3-174, 175 132 Solenoid Valve II.C FSV-65-52, 53, 30, 26, 27 133 Solenoid Valve I .A FSV-43-2, 11, 22, 3 4, 74, 201, 202, 308 134 Solenoid valve I.A FSV-30-134, 135 135 Limit Switch II.A FLV-90-107, Ill, 113, 117; FCV-12-79 136 Limit Switch I.A FCV-87-9, 10, 11 137 Limit Switch II.A Position Indication (Various) 138 Limit Switch II.A FCV-63-72, 73 139 Limit Switch II.A FCV-62-72, 73, 74; FCV 16; FCV-87-7, 8 ~

h 140 Limit Switch II.A Annulus Isolation Valve (Not Defined) 141 Limit Switch I.B Reactor Building Isolation (Not Defined) 142 Limit Switch II.A Unit 1 Shield Building Exhaust (Not Defined) 143 Limit Switch I.B FCV-1-147, 148, 149, 150, 14, 32, 7, 25 144 Limit Switch II.C FCV-65-47A, 47B, 28A, 28B, 8, 51; FCO-65-10, 30, 52, 53

(~)/ .

DE03;TERRPT l

TER Ns. Ecuiernt Cetecorv TVA Identification Nos.

145 Limit Switch I.B FCV-61-96, 110, 191, 192, 193; FCV-62-128, 140, 143, 144, 69, 70, 77; FCV-63-3, 4, 8, 11, 23, 38, 41, 42, 64, 84, 175; FCV-68-305, 307; FCV-74-3, 21; FCV 10, 17, 19, 20; FCV-87-21, 22, 23, 24; ZS-63-1, 5, 67, 80, 98, 118 146 Limit Switch II.A FCV-77-127 147 Limit Switch II.A FCV-77-128 148 Radiation Monitor I.B RE-90-13 0, 13 '1, 102, 103 ,

106, 112, 140, 141, 133, 134 149 Pressure Transmitter I.B PT-3-132A 150 Level Switch I.B LS-313-3 05, 340 151 Temperature Switch I.B TS-30-190, 191, 192, 193, 175, 176, 177, 178, 179, 180, 182, 183, 186, 187, 196, 197, 201, 202 152 Temperature Switch I.B TS-30-103A 153 Temperature Switch I.B TS-12-91A, 91B, 92A, 92B, 99A, 99B, 96B, 97A, 97B, 98A, 98B, 94A, 94B, 95A, 95B, 96A, 93A, 93B 154 Temperature Switch I.B TS-30-103, 214 155 Temperature Switch I.B TS-1-17A, 17B, 18A, 18B 156 Temperature Switch I.B TS-74-43, 44, 45, 46 157 Temperature Element I.B TE-68-1, 18, 24, 41, 43, 60, 65, 83 158 Hydrogen Analyzer I.B Hydrogen Monitor 159 Pressure Transmitter I.B PT-1-2A, 27A, 5, 30 160 Level Transmitter IV LT-3-148, 156, 164, 171, 172, 173, 174, 175 DE03;TERRPT TER N*. Equipm nt Catezorv TVA Id7ntification Nos.

161 Temperature Element II.A TE-68-2A , 2B, 14, 25, 37, 44, 56, 67, 79 162 Solenoid Valve I.A FSV-30-46A, 47A, 48A 163 Power Supply III.B Hydrogen Recombiner Power Supply 164 Pressure Transmitter II.A PT-1-23, 27B 165 Pressure Transmitter II.A PT-1-9A, 9B, 20A, 20B,12, 23 166 Pressure Controller I.B FC-30-148, 149 167 Level Transmitter II.A LT-3-43, 49, 56,111 168 Pressure Transmitter II.A PT-68-322, 323, 334, 340 169(U1) Level Transmitter II.A 1-LT-63-179 169(U2) Level Transmitter II.A 2-LT-3-38, 39, 42, 51, 52, 97, 106, 107; 2-LT-63-176, 177,178,17 9; 2-LT-68-320, 335, 339 170(U1) Level Transmitter I.B 1-LT-63-176, 177, 178 170(U2) Control Switch I.B Local Control (Various) #

171(U1) Level Transmitter I.B 1-LT-3-3 8, 3 9, 42, 51, 52, 55, 93, 94, 106, 107, 110 171(U2) Control Switch I.B Local Control (Various) 172(U1) Pressure Transmitter I.B 1-PT-68-66, 69 172(U2) Flow Swite'h I.B FS-30-157,184,185, 200, 207 173(U1) Solenoid Valve I.A FSV-62-69; FSV-63-71 173(U2) Temperature Switch I.B TS-30-140A 174(U1) Limit Switch I.B 1-FCV-81-12; 1-PCV-68-334, 340A 174(U2) Temperature Switch I.B TS-30-140 175(U1) Limit Switch I.B 1-ZS-30-46, 47, 48

.v DE03;TERRPT TER No. Eriu ipment Cateeorv TVA Identification Nos.

175(U2) Electrical Cable II.A Electrical Distribution (WA) 176(U1) Level Transmitter I.B l-LT-68-320, 33 5, 33 9 176(U2) Electrical Cable II.,A Electrical Distribution (WA) 177(U2) Electrical Cable II.A Electrical Distribution (WVA) 178(U2) Electrical Cable II.A Electrical Distribution (WA (FREP))

179(U2) Limit Switch II.A 2-ZS-30-46, 57, 48; FCV-81-12 180(U2) Limit Switch I.B 2-FCV-63-72, 73; 2-FCV-81-12; 2-PCV-68-334, 340A 181(U2) Limit Switch I.B FCV-32-81, 103, 111 182(U2) Limit Switch I.B ZS-67-217, 219, 336, 338 183(U2) Solenoid Valve I.A 2-FSV-43-207, 208 D.

J DE03;TERRPT l

I(h '

l l

l 10.0 10CFR50.49 MASTERLIST l

014313.03

(

S?OUO'iH MASTE2 LIST OF ELEC"" ! CAL ZOUT?mi - 10C7R50.l.9 Unit TVA TD No.

1 PT -

1- 2A (PAM) 2 PT -

1- 2A (PAM) 1 PT -

1- 2B (PAM) 2 PT -

1- 2B (PAM) 1 PT -

1- 3A 2 FT -

1- 3A 1 FT -

1- 33 2 FT -

1- 3B 1 PSV -

1- 4 '

A,B, D,I,F, -

G,E,J 2 FSV -

1- 4 A,B,  ;

D,E,F, '

C H,J , ,

l PCV -

1- 5 (LS) 2 PCV -

1- 5 (LS) 1 PT -

1- 5 2 PT -

1- 5 1 PSV -

1- 6A 2 PSV -

1- 6A 1 PSV -

1- 6B 2 PSV -

1- 63 O DE05;TBLII.BR 1

O# *g$ ~

l,

.( ". ,. . .*i ' - ,% N * *'?.*?

I i s.

(

l 1

SED W AH MAST'2 LIS* OF E E0*2TCAL 20UIPMEN* - 10C7250.49 -

Ucit TVA ID Mo.

1 'FSV -

~1 ~7 2 PSV -

1- 7 1 PT -

1- 9A (PAM) 2 PT -

1- 9A (PAM) 1 PT -

1- 95 (PAM) 2 PT -

1- 93 (PAM) 1 r; -

1- 10A 2 FT -

1- 10A ~s g 1 FT -

1- 103 2 FT - 1- 103 1 FCV - 1- 11 (LS) 2 FCV - 1- 11 (LS) 2 FSV - 1- 11 A.B D, E,F.G,H,3 1 FSV -

1- 11 A,B, D,E,F G,H,J 1 ZS -

1- 11F 2 IS -

1- 11F 1 ZS -

1- 11J 2 ZS 1-11J

( ,.

Dt05;TELII.11 2

e ".",,* ,

_SEOUDYAR MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.40

._w_._.-- - -

~-

Unit

• TVA TD No.

1 PCV -

1 - 12 '

(LS) 2 PCV -

1- 12 (LS) 1 PT -

1- 12 2 PT -

1- 12 1 PSV -

1- 13A 2 PSV -

1- 13A 1 PSV -

1- 13B 2 PSV -

1- 13B 1 FSV -

1- 14 2 FSV -

1- 14 s 2 FCV -

1- 15 1 FCV -

1- 15 1 FCV -

1- 16 (TMI) '

2 FCV -

1- 16 (TMI) 1 FCV -

1- 17

.. (TMI) 2 FCV -

1- 17 (TMI) 1 FCV -

1- 18 (TMI) 2 FCV -

1- 18 (THI) 1 TS -

1- 18A .

2 TS -

1- 18A '

'/~~T i

\

) .

l D U5;TBLII.BR 3

G

,-( e

(

SEOC0YAE MASTER LIST OF ELECT 2:CAI. YO"!?mi - 10C7R50.49 a

1. 9 .

Unit TVA ID No, Q

l TS -

1- 183 2 TS -

1- 183 1 PT -

1- 20A (PAM)

(

2 PT -

1- 20A (PAM)

(

1 PT -

1- 203

(

(PAM) 2 PT -

1- 203

(

(PAM) 1 FT -

1- 21A (

2 FT - 1- 21A 1 FT -

1- 213 2 FT -

1- 213

• 2 FCV -

1- 22 (LS) 1 FCV -

1- 22 (LS) 1 FSV -

1- 22 A.B.

D,E.T G,H,J 2 FSV -

1- 22 A,B, D E,7 G,H.J l ZS -

1- 22F 2 ZS -

1- 22F 1 ZS -

1- 22J p 2 ZS - 1- 22J

') .

DE05;TBLII.31 -

4

+ t.4_

e.

• WI' 4

k 4

SEOUOYAH MASTER LIST OF ELEC RICA1 eor!? E NT - 10CTR50.IA

. Q

_ Unit TVA TD No.

Q 1 PCV -

1- 23 (LS) 0 2 PCV -

1- 23

-(LS)

(

1 PT -

1- 23 2 PT -

1- 23 (

1 PSV -

1- 24A

(

2 PSV -

1- 24A 1 FSV -

1- 24B I 2 FSV -

1- 2LB

(

l FSV -

1- 2.1 2 FSV -

1- 25 4 1 PT -

1- 27A (PAM) (

2 PT -

1- 27A (PAM) i

(

1 PT -

1- 27B (PAM) (

2 PT -

1- 273 (PAM) (

1 FT -

1- 28A

(

2 FT -

1- 28A

• 1 FT -

1- 28B 2 FT - 1- 28B

(

l FCV -

1- 29 (LS)

~(

C)

~

/

DE05;T3LII.31 (

5 .

(

SE0"0YAR e MASTER LIST OF YLIO 2: CAL 20UIPer - 10C7250.49 e F Unit' TVA ID No.

1 FSV -

1- 29 A,3,

.D,r,r C,u,J 2 FSV -

1- 29 A,3, D,E.F.

C,H,J 1 ZS - 1- 297

. .2 ZS - 1- 29F 1 ZS -

1- 29J 2 IS -

1- 29J 1 PCV -

1- 30

. (LS) .*

2 PCV -

1- 30 (LS) .

1 PSV -

1- 31A 2 PSV -

1- 31A 1 PSV -

1- 313 2 PSV -

1- 313 1 FSV -

1- 32 2 FSV -

1- 32 1 FCV -

1- 147 (LS) 2 FCV -

1- 147 (LS) 1 FSV -

1- 147 2 FSV -

1- 147 1 PCY -

1- 148 (LS)

(<-

'"' DZO5;T3L11.31t 6

i

. . .. $ . -)

-_SEOUO7G MASV!3 LIS?-OP EEC 2ICAL EOUTPMENT - 10CFR50.49 .

Unii _vvA-ID No.

2 FCV -

1- 148 (LS)

FSV -

1- 148 FSV -

1- 148 FCV -

1- 149 (LS)

FCV -

1- 149 (LS) 1 FSV -

1- 149 2 FSV -

1- 149 1 FCV -

1- 150 (LS) 2 FCV -

1- 150 '

(LS) 1 FSV -

1- 150 2 PSV -

1- 150 1 FSV -

1- 181 2 FSV 181 1 ZS -

1- 181 2 ZS -

1- 181 1 PSV -

1- 182 2 FSV -

1- 182 1 ZS -

1- 182 2 ZS -

.1- 182 1 PSV -

1- 183 2 FSV -

1- 183 .

DZO5;T3LII.st 7

235.:::

SEOTOYAH, MASTER LIST OF ELECTRICAL EQUIPMIST - 10CFR50.49 Unit

• T7A ID No.

1 ZS --

1 .183 2 ZS -

1- 183 1 FSV -

1- 184 2 FSV -

1- 184 1 ZS -

1- 184 2 ZS -

1- 184 2 FC7 -

1- 29 (LS) 1 FCv -

3- 33

2. FC7 -

3- 33 1 LT *'

3- 38 .

(PAM-TMI) 2 LT -

3- 38 (PAM-TMI) 1 LT -

3- 39 (PAM- '

TMI) 2 LT -

3- 39 (PAM-TMI) 1 LT -

3- 42 (TMI) 2 LT -

3- 42 (TMI) 1 FCV -

3- 47 2 FCV -

3- 47 I t

1 LT -

3- 51 (PAM- )

m)

, )

Dt05;T3LII.31 '

8

'. ~ * ' '

_S!OU0YA3

. _ - yAS T LIST 07 ELTCTRICAL EQUTPFEhi - 10CFR50.l.0 Unit TVA TD No.

2 LT -

3- 51 gpg_ - . . .

TMI) 1 LT -

3- 52 (PAM-TMI) 2 LT -

3- 52 (PAM-TMI) 1 LT -

3- 55 (TMI) 2 LT -

3- 55 (TMI) 1 FCV -

3- 87 2 FCV -

3-87 -

1 FSV -

3- 87 '

2 FSV -

3- 87

<1 LT -

3- 93 (PAM- i THI) '

t 2 LT -

3- 93 (PAM-THI)

' 1 LT -

3- 94 (PAM-TMI) 2 LT -

3- 94 (PAM-THI) 1 LT -

3- 97 (TMI) 2 LT -

3- 97 '

(TMI) s O

x,) DE05;T3LII.31 .-

9 I e h i e4

j(. _SIOUOTAE=

MS 22 LIST 0? YL2CTICAL EOUI? MENT - 10CF150.l.0 e -

M TVA ID No.

1 707 -

3- 100 2 FC7 -

3- 100 1 -LT '- 3- 106 (PAM-TMI) 2 LT -

3 - 1 06 (PAM-TMI) 1 LT -

3- 107 (PAM-TMI) 2 LT -

3- 107 (PAM-TdI) 1 LT -

3- 110 (PAM-TMI) 2 LT -

3- 110 (TMI) 1 FCV -

3- 116 i A&3 (TMI) 2 FC7 -

3- 116A (THI) 2 FC7 -

3- 1163 (TMI) 1 MTR -

3- 118 (TMI) 2 MTR -

3 - 118 (TMI) 1 PS -

3- 121 A,B,D (TMI) 2 PS -

3- 121

, A,3,D (TMI)

DE05;T3LII.31 10

/

I SIOUoYAH WAST!R- LIs cy-!tte 21 CAL IOUTPwri - 10CT??0.t.9 M IVA 7') No .

1 PM -

3- 122 Being removed (TMI) -

2 PM -

3- 122

~ Being removed (TMI) '

1 PT -

3- 122A Being removed

. (TMI) 2 PT -

3- 122A Being removed (TMI) 1 FCV -

3- 126 A&B (THI) 2 FCv -

3- 126A (TMI) 2 FCV -

3- 1263 (TMI) 1 MTR -

3- 128 (TMI) 2 MTR -

3- 128 (TMI) 1 PM -

3- 132 Being removed (TMI) 2 PM -

3- 132 Being removed (TMI) 1 PT -

3- 132A (TMI) Being removed -

2 PT -

3- 132A Being removed (TMI) 1 FCV -

3- 136A (TMI) 2 FCV -

3- 136A (TMI) 1 PCV -

3- 136B (TMI)

/'S ,.

DE05;T3tII.31 11

, ::: 4'.

_SE000Yes MAST!2 LIST OF EL!O 2TCAL ?OUT?vYNT - 100FR50.44 .

h _TVA ID h ,

2 PCV -

3- 1363 (TMI) 1 PS -

3- 138A (TMI) 2 PS -

3- 13BA (THI) 1 PS -

3- 1383 (TMI) 2 PS -

3- 1383 (TMI) 1 PS -

3- 139 A,3,3 (TMI) 2 PS -

3- 139 -

A,3,D -

(TMI) 1 PS -

3- 140A (TMI) 2 PS -

3- 140A (TMI)

PS -

3- 1403 2' PS -

3- 1403 1 TT -

3- 142 (TMI) 2 PT -

3- 142 (TMI) 1 PS -

3- 144 A,3,D (TMI) 2 PS -

3- 1 44 A,3,D (TMI)

\

d DE05;T3LII.31 S

12 G

A

SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 I

Unit TVA ID No.

I ,

q ---w----..--_ _ . _ . -

1 FT -

3- 147 -

(PAM)(TMI) ,

2 FT -- 147 (PAM)(TMI)

Positioner on:

1 - LCV. -

3- 148 (TMI)

Positioner on:

2 LCV -

3- 148 (TMI) 1 LSV -

3- 148 (TMI) 2 LSV -

3- 148 (TMI) 1 LT -

3- 148 2 LT -

3- 148 1 PS -

3- 148 (TMI) 2 PS -

3- 148 (TMI) 1 LM -

3- 148A 2 LM -

3- 148A 1 LSV -

3- 148A (TMI) 2 LSV -

3- 148A (TMI) 1 PS -

3- 150A (TMI) 2 PS -

3- 150A (TMI) 1 PS -

J- 150B

,_ 2 PS -

3- 150B DE05;TBLII BR 13-

-~-TI

_SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 Unit . TVA ID No, w

1- FT-3- 155 *

• (PAM)(TMI) 2 FT -

' 3- 155 (PAM)(TMI)

Positioner on:

1- LCV -

3- 156 (TMI)

Positioner on:

2 LCV -

3- 156 (TMI) 1 LSV -

3- 156 (TMI) 2 LSV -

3- 156 (TMI) l' LT -

3- 156 2 LT -

3- 156 _

1 PS -

3- 156 (TMI) '

2 PS -

3- 156 (TMI) i 1 LM -

3- 156A 2 LM -

3- 156A 1 LSV -

3- 156A 2 LSV -

3- 156A 1 PS -

3- 160A (TMI) 2 PS -

3- 160A (TMI) 1 PS -

3- 160B (TMI) ~

2 PS -

3- 160B fs (TMI)

) .

DE05;TBLII.BR I

, , . ~~

SEQUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 Unit , _TVA ID No.

w -

l 1 FT -

3- 163 -

l (PAM)(TMI) - '

2 FT - -

3- 163 (PAM)(TMI)

Positioner on:

1 LCV -

3- 164 (TMI)

Positioner on:

2 LCV -

3- 164 (TMI) 1 LSV -

3- 164 2 LSV -

3- 164 1 LT -

3- 164 2 LT -

3- 164 1 PS -

3- 164 (TMI) 2 PS -

3- 164 (TMI) 1 LM -

3- 164A i 2 LM -

3- 164A 1 LSV -

3- 164A 2 LSV -

3- 164A 1 PS -

3- 165 A&B (TMI) 2 PS -

3- 165 A&B (TMI) 1 FT -

3- 170 (PAM)(THI) -

2 FT -

3- 170 g~'s (PAM)(TMI) i t, >)

~

~

l DE05;TBLII.BR is

FqU,0YAH i

MASTER LIST OF ELECTRICAL EQUIPMENT - 10CFR50.49 Unit _ TVA ID No.

Positioneronh '

1 LCV 3- 171 -

(TMI)

Positioner on:

2 LCV - 3- 171 (TMI) 1 LSV - 3- 171 2 LSV - 3- 171 1 LT - 3 '171 2 LT -

3- 171 1 PS -

3- 171 (TMI) 2 PS -

3- 171 (TMI) 1 LM -

3- 171A 2 LM -

3- 171A 1 LSV -

3- 171A 2 LSV - 3- 171A Positioner on:

1 LCV -

3- 172 (TMI)

Positioner on:

. 2 LCV -

3- 17 2 (TMI) 1 LSV -

3- 172 2 LSV -

3- 17 2 1 LT -

3- 172 2 LT -

3- 172 Positioner on: ~

1 LCV -

3- 173 b (TMI)

L]

DE05;TBLII.BR 1 _ - - - _ _ _ _ _ - _ - _ _ _ _ _ _ _ _ _ _

C t) .: V ; *i . n >6 . O V : J. . .: * . - . .: j- .*

.. e,s

$ECUOYAH MASTER LIST OF ELE _CTRICAL EOUIPMENT - 10CFR50.49 Unit _ --- -TVA ID ?fo.

Positioner on:

2 LCV -

3- 173 (THI) 1 LSV -

3- 173 2 LSV -

3- 173 1 LT -

3- 173 2 LT -

3- 173 Positioner on:

1 LCV -

3- 174 (TMI)

Positioner on:

2 LCV -

3- 174 (THI) 1 LSV -

3- 174 s.w 2 LSV -

3- 174 1 LT -

3- 174 2 LT -

3- 174 Positioner on:

1 LCV -

3- 175 (TMI)

Positioner on:

2 LCV -

3- 175 (TMI) _-

1 LSV -

3- 175 t

2 LSV -

3- 175 1 LT -

3- 175 2 LT -

3- 175 1 FCV -

3- 179A (THI) .

2 FCV -

3- 179A -

(THI)

O k.

DE05;T3LII.BR 17

.. ' :k Q y;,;:. ***

SECUDYAll t% STER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 Unit TVA ID No.

D 1 FCV -

3- 1793 (TMI) .

2 FCV -

3- 179B (TMI) 0 FCV 79

-(LS) 0 FSV 79 0 TS 91A 0 TS 91B 0 TS 92A 0 TS 92B 0 TS 93A 0 TS 93B -

0 TS 94A 0 TS 94B 0 TS 95A 0 TS 95B 0 TS 96A 0 TS 96B O TS 97A O TS 97B 0 TS 98A 0 TS 98B 0 TS 99A O TS 99B .

1 FCV 240 lll 2 FCV 240 .

DE05;TBLII.BR 18 ,

_SE0UOYAH MASTER J'.S-y2 ,f.TRIC.s'. E0"IPMENT - 10CFR50.49

_ Unit

_TVA ID No.

5e '

1 FCV 241 .

2 FCV 241 1 FCV 242 2 FCV 242 1 FCV 243 2 FCV 243 1 FbV 244 2 FCV 244 1 FCV 245 2 FCV 245 1 FCV 2 (LS) t 2 FCV - 3 0- 2 (LS) 1 FSV - 3 0- 2 2 FSV 2 i 1 FCV 5 (LS) 2 FCV - 3 0- 5 (LS) 1 FSV - 3 0- 5 2 FSV - 3 0- 5 1 FSV 7 2 FSV - 3 0- 7 1 ZS - 3 0- 7 2 ZS 7

,_ 1 FSV - 3 0- 8 .

2 FSV - 3 0- 8 DE05;TBLII.BR

SE000YAE .

V.AS*I2 !.!ST 07 P!C"2 CAI. E0t'IPMENT - 10C7R50.l.9 P

Unit' TVA ID No.

1 ZS 8 2 ZS 3 1 PSV - 3 0- 9 2 FSV - 3 0- 9

]

1 ZS 9 2 Z3 - 3 0- 9 1 FSV - 3 0- 10 2 FSV - 3 0- 10 1 ZS 10 2 ZS - 3 0- 10 1 FC7 - 3 0- 12 (LS) '

2 FC7 - 3 0- 12 1 PSV - 3 0- 12 2 FSV - 3 0- 12 1 FSV - 3 0- 14 2 FSV - 3 0- 14 1 ZS - 3 0- 14 2 ZS - 3 0- 14 1 FSV - 3 0- 15 2 FSV - 3 0- 15 1 ZS - 3 0- 15 2 IS - 3 0- 15

- 3 0-

' 1 FC7 16 (LS)

<s

(,,) DZ05;TELII.3R -

20

- j l

. l l

l SEOUCYAH MST!R '.!ST O' ELE 0"2ICAL TOUI?g - 10c7150.t.9 w

Uni T"A T3 Ne, 2 FCV - 3 0- 16 (LS) 1 F57 - 3 0- 16 2 FSV - 3 0- 16 1 FSV - 3 0- 17 2 FSV - 3 0- 17 1 FSV - 3 0- 19 2 FSV - 3 0- 19 1 ZS - 3 0- 19 2 ZS - 3 0- 19 1 FSV - 3 0- 20 2 FSV - 3 0- 20 -

- 3 0-1 ZS 20 2 ZS - 3 0- 20 2 FC0 - 3 0- 22 (LS) 2 FSV - 3 0- 22 1 FCV - 3 0- 37 (LS) 2 FCV - 3 0- 37 (LS) 1 FSV - 3 0- 37 2 FSV - 3 0- 37 1 MTRA - 3 0- 3BA l

2 Kr2A - 3 0- 38A 1

MIEB 393 .

' 1

()

/

nzos;:stri.3a

• 21 a'v0L

I SIct'CYAH MASTr2 ttsr 07 Ft2cT2: cat 20TI? MINT - 10c7R50.49 1

e r ,

Unit TVA ID Mn.

2 M2?.3 - 3 0- 393 i i

1 F57 - 3 0- 40 2 FSV - 3 0- 40 1 PDT - 3 0- 42 2 PDT - 3 0- 42 1 PDT - 3 0- 43 2 PDT - 3 0- 43 1 PDT - 3 0- 44 (PAM) 2 PDT - 3 0- 44 (PAM) p- 1 PDT - 3 0- 45 (PAM) 2 PDT 45 (PAM) 1 PS - 3 0- 46 A&B i 1 ZS - 3 0- 46 2 ZS - 3 0- 46 1 FSV - 3 0- 46A 2 FSV - 3 0- 46A 1 PS - 3 0- 46A 2 PS - 3 0- 46A 1 PS 46A 2 PS - 3 0- 463 1 PS - 3 0- 47 '

A&B cs

'd DE05;T3LI2.3R 22

- ltr

lk .SEOUOT

• G MAST 22 1.IST.07. EI.ICCICAL EOUI? m i. J0C7250.44 Unit . TVA ID No.

1 ZS 47 2 IS - 3 0- 47 1 FSV - 3 0- 47A 2 FSV - 3 0- 47A 2 PS - 3 0- 47A 2 PS 473 1 PS 48 A&E 1 IS - 3 0- 48 2 ZS 48 1 FSV - 3 0- 4SA 2 FSV - 3 0- 48A 2 PS 48A 2 PS 483 1 FSV - 3 0- 50 2 PSV - 3 0- 50 1 ZS - 3 0- 50 2 ZS 50 1 FSV 51 2 FSV - 3 0- 51 1 ZS - 3 0- 51 2 ZS - 3 0- 51 1 FSV 52 2 PSV - 3 0- 52 .

n.

J DZO5;TSLII.3R 23

- . . ,i

1 1

1 l

SIO"c?AH 'o MAST 22 LIST 07 Yt!OT2TCAL EOUTPMINT - 10C??50.49 i

• , l

• 2311 T7A TD Fe,  ;

1 1 ZS - 3 0- 52 l 2 IS - 3 0- 32 1 FSV - 3 D- 53 2 FSV - 3 0- 53 1 ZS - 3 0- 53 2 ZS 53 1 FC7 54 (LS) 2 FC7 - 3 0- 54 *

(LS) 1 FS7 - 3 0- 54 2 FSV 54 1 FSV - 3 0- 56 2 FSV - 3 0- 56 1 IS - 3 0- 56 2 IS - 3 0- 56 '

1 FS7 - 3 0- 57 -

2 FSV - 3 0- 57 1 ZS - 3 0- 57 2 ZS - 3 0- 57 1 FSV - 3 0- 58 2 FS7 - 3 0- 58 1 ZS - 3 0- 58 2 ZS - 3 0- 58 1 FS7 - 3 0- 59 f

U DZ05;T3LII.3R

24

l l

l

\

g

( s20gn vism uS mnemerf659mr Tocnso ea - -

9 . .

- 'hCk$ _ Y.k i Oe 2 F57 - 3 0- 59

' \

1 :S - 3 0- 59 i

~

- 2 IS 59 1 FC7 - 3 0- 61

- (LS) 2 FCV - 3 0- 61

. (LS) 1 FSV - 3 0- 61 2 FS7 - 3 0- 61

- 1 FC7 - 3 0- 62 (LS) 2 .-

FC7 - 3 0- 62 *

(LS)

• _ 1 PSV - 3 0- 62 2 PSV 62 1 FSV - 3 0- 86 t

1

• FC0 - 3 0- 87 i

(LS)

. 1 FSV - 3 0- 87

• 1 FC0 107

(; 3) 1 FSV 107 2 FC0 109 (LS) 2 FSV 109 1 FSV 134 2 FSV 134 v

DE05;*3LII.31 25 t

l .

SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50,49 Unit TVA ID No.

1 FSV 135 '

~

2 FSV 135 1 FSV 146 A&B 0 FS 147 0 TC 147 0 TS 147 0 FS 156 0 TC 156 0 TS 156 2 FSV 157A 1 MTR 146A 2 MTR 157B 2 FSV - 3 0- 15'i B 1 MTR 175 2 MTR 175 1 MTR 176 2 MTR 176 1 MTR 177 2 MTR 177 1 MTR 178 2 MTR 178 1 MTR 179 2 MTR 179 -

1 MTR 180

) 2 MTR 180 "

DE05;TELII.BR 26

=

l SEOUOYAH MASTER LIST OF ELECTRICAL EOUTPMENT - 10CFR50.49 Unit TVA TD No .

k 1 MTR 182 .

2 MTR 182 1 HTR 183 2 MTR 183 2 MTR 184 2 TS 184 2 MTR 185 2 TS 185 1 MTR 186 2 MTR 186 1 TS 186 2 TS 186 -

1 MTR 187 2 MTR 187 1 TS 187  ;

2 TS 187 1 MTR 190A 1 TS 190 1 MTR 191 1 TS 191 0 MTR 192 0 TS 192 0 MTR 193 O TS 193

, 1 FS 194 2 FS 194 DE05;TBLII.BR

- 27 -

.SEOUDYAH M4 STER LIST OF ELECTRICAL EOUTFMENT - 10CFR50.49 Unit , TVA ID No.

A w -

1 MTR 194 -

2 MTR 194 1 TS 194 2 TS 194 1 FS 195 2 FS 195 1 MTR 195 2 MTR 195 1 TS 195 2 TS 195 1 FS 196 2 FS 196 1 MTR 196 2 MTR 196 1 TS 196 2 TS 196 1 FS 197 2 FS 197 1 MTR 197 2 MTR 197 1 TS 197 2 TS 197 2 MTR 200 1 MTR 201

("%

DE05;TBLII.BR

,, . ;b::: t

SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 Unit .

TVA ID No.

~ . _ _ . . .

2 MTR 201 ,

1 TS 201 2 TS 201 1 MTR 202 2 MTR 202 1 TS 202 2 TS 202 2 MTR 207 1 PT 310 (PAM+, TMI) 2

~

PT 310 (PAM+, TMI) 1 PT 311 -

(PAM+, THI) 2 PT 311 (PAM+, TMI) 0 Mc 319 0 ME 319 0 MM 319 0 MS 319 O MC 320 0 ME 320 0 MM 320 l 0 MS 320 1 FCV - 3 2- 80 l (LS) .

1 FSV - 3 2- 80 A&B i

'~'

2 FCV - 3 2- 81 (LS)

DE05;TBLII.BR 1 9, ..  !

-e i

.S? ' $U' .'tSTER LIST OF ELFCTRICAL FOUIPMENT - 10CFR50.49 Unit TVA ID No.

5e 2 FSV 81A .

2 FSV - 3 2- 81B 1 FCV 102 (LS) 1 FSV 102 A&B 2 FCV 103 (LS) 2 FSV - 3 2- 103A 2 FSV 1033 1 FCV 110 (LS) 1 FSV 110 A&B 2 FCV 111 (LS) 2 FSV 111A 2 FSV 111B 1 FSV 2 2 FSV 2 i FSV 3 2 FSV 3 1 FSV 11 2 FSV 11 1 FSV 12 2 FSV 12 I FSV 22 2

<cs+ FSV 22

\/

1 FSV 23 DE05;TBLII.BR 30 - -

• W'

SEQUOYAH MASTER LIST OF ELECTRICAL EOUTPMENT - 10CFR50.49 Unit _TVA ID No.

N 2 *FSV 23 1 FSV 34 2 FSV 34 1 FSV 35 2 FSV 35 1 FSV 75 2 FSV 75 1 FSV 77 2 FSV 77 1 HA2 200 (TMI) 2 HA2 200 (TMI) 1 FSV 201 2 FSV 201 1 FSV 202 (TMI)  ;

2 FSV 202 (TMI) 1 FSV 207 (TMI) 2 FSV 207 (TMI) 1 FSV 208 (TMI) 2 FSV 208 (TMI) 1 HA2 210 .

(TMI) g~

\,_/ -

DE05;TBLII.BR

. 31

SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 Unit _ TVA ID No, s 2 *HA 2 210 -

, (TMI) -

1 RLY 1 2 RLY 1 1 RLY 2 2 RLY 2 1 RLY 3 2 RLY 3 1 RLY 4 2 RLY 4 1 RLY 5 2 RLY 5 1 RLY 6 '

2 RLY 6 1 FSV 96 2 FCV 96 (LS) 2 FSV 96 1 FCV 97

, (LS) 2 FCV 97 (LS) 1 FSV 97 2 FSV 97  !

i

[

' t -

~>

i i

DE05;TBLII.BR l 32 }'

i 1

__ a._. . . . . - - - -

S!OOOYAH ~ v.AS"Il L!S*_0F EL!C 1: CAL IOUIPvZNT - 1007R50.40 w

{(, '

Unii 7"A ID Me.

. t

2. FC7 110 (LS) 2 FSV 110 1 FC7 122 (LS) 2 FC7 122 (LS) 1 FS7 122 2 FSV 122 1 FC7 192 (LS) 2 FC7 192 (LS) 1 FS7 192 '

2 FS7 192 1 FC7 194 (LS) 2 FC7 194 (LS) 1 FSV 194 2 737 194 1 FC7 - 6 2- 61 2 FC7 61 1 FC7 - 6 2- 63 2 FC7 - 6 2- 63 1 FC7 69 (LS) 2 FC7 .

69 (LS) l

-O

!s ,) DE05;73LII.;2 33

• p ' .

• S!2"0?AE .

MASTE2 LIST 07 EL2CTRICAL EO"!?MENV - 10C7R50.49 D

Utit 7"A ID No, 1 FSV 69 2 FSV 69 1 FCV 70 (LS) 2 FCV 70 (LS) 1 FSV 70 2 FSV - 6 2- 7,0 1 FCV - 6 2- 72 (LS) 2 FCV - 6 2- 72 (LS) 1 FSV - 6 2- 72 -

2 FSV 72 1 FCV - 6 2- 73 (LS) 2 FCV 73 i

- (LS) ,

1 FSV - 6 2- 73 2 FSV 73

• i FLV - 62'- 74 (LS) 2 FCV 74 1 PSV 74 2 FSV - 6 2- 74 1 FCV 77 (LS) 2 FCV - 6 2- 77 (LS)

(x -

DZ05;T3LII.31 34

's

SEGUOYAH ~

MAST!? t!ST OF ELEC"I! CAL ? OUI? MENT - 10c7250 l.o

-~

- . ~ . - . - . . - . - . , . . . . . _ . .

ELil ~7A T3 Fo,

• 1 FS7 77 2 FSV 77 1 FC7 - 6 2- 90 2 FC7 90 1 FC7 - 6 2- 91 2 FC7 - 6 2- 91 1 FC7 98 2 FC7 98 1 FC7 99 2 FC7 99 1 MT?3 104B 2 MTR3 1043 1

M*PA 10EA (FAM) 2 MT?J. 108A 1 LC7 132 l

. 2 LC7 132 1 LC7 133 2 LC7 133 1 FC7 1 2 FC7 1 1 FC7 3 2 7C7 3 2 FC7 3 (LS) -

DE05;73LII.31 .

- . . . ..G.d$1

s

(

% SEQUOYAE FAS*?? LIS* 0? E1?C 21CtL EOUI?vD r - 100r210.40

'o -

M. IVA ID No.

f 1 FCV 4 -

1 FCV 4 '

- (LS) 2 FCV 4

-2 FCV 4 '

(LS) 1 FCV 5

. 2 FCV 5 .

1 FCV 6 2 FCY 6 1 FCY 7 2 , FCV 7 5

1 rCt - 63 '3 '

2 FCV - '8 1 ER 10A -

(PLM) ' '

2 MIR 10A -

'(PLM) ,

1 FCV 11 2 , FCV 11

-a 1" ER - 63, 153 2 ER 153 1 FCV 22

\

2 707 ~ 22

1 FSV 23 i

2 717 i

23  !

DE05;;3 tit.at i

36 r .

1

\

j b ,

~ j

.6,4, , .,

.'o . ,

.8 * ,% -

SEOUOYAH MASTIR LIST OF ELIOTEICAL EOUI? MINT - 10C7R50.49 w -

Unit TVA T3 No.

1 FCY 25 2 FCV 25 1 FCY 26 2 FCV 26 1 PSV 38 2 FSV 38 1 FCV 39 2 FCV 39 1 FCV 40 2 FCV 40 1 FSV 41 h 2 FSV 41 1 FSV 42 2 FSV 42 1 FCV 47 t

2 FCV 47 1 FCV 48 2 FCY 48 1 FSV 64 1

2 FSV 64 i

1 FCV 71 (LS) i 2  ;

FCY 71 (LS) 1 FSV 71 r~%

(,) DZO3;T3LII.31 -

37

-&.C2

i l

_SEOU0?AB MAST!R LIST OF YL?CT2ICAL E0UT? MINT - 10C7R50.49 Unit- TVA TD Fo.

2 FSV 71 1 7CV 72

'l FCV 72 (LS) 2 FCV 72 2 FCV 72 (LS) 1 FCY 73 1 FCV 73 (LS) 2 FCV 73 2 FCV 73 (LS) ~

l FSV 84 2 FSV 84 1 FCV 93 i

2 FCV 93 1 FCV 63- 94 2 FCY 94

, 1 FCV 152 2 FCV 152 1 FCV 153 2 FCV 153 1 FCV 156 2 FCY 156 I FCV 157 (3 .

't./ DZ05;VELII.BR 38 e

, .z*

,,y9.h"jM O M. E*..b b. # 55 IODE

i SEOUOYAE MAS *"ZR I.IST OF P 2C 2TCAL EOUIPMENT - 10CFR50.I.0

( ,

• P

, Unit _,TVA I No.

2 . FCV 157 1 FCV 172 "

. 2 FCV 172 1 FCV 175 I FCV 175 (LS) 2 FCV 175

• 2 FCV l'75 (LS) 1 LT 176 (TMI)(FAM) 2 LT 176 (TMI)(FAM) 1 LT 177 (TMI)(FAM)

• 2 LT 177 (TMI)(PAM)

• 1 LT 178  !

(TMI)

• 2 LT 178 (TMI)

• ' ' 1 LT 179 (TMI) 2 LT 179 (TMI) 2 FCV 4 (LS) 2 FCV 5 (LS) 1 FSV 5 DE05;T3LII.3R 39

.-.eid

.f;r"[ *($fiQE.~::'

E(* N

SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50,49 Unit TVA ID No.

2 FSV 5 -

2 '. FSV - 6 5- 7 1 FCV 8 (LS) 1 FSV - 6 5- 8 1 FSV - 6 5- 9 2 FSV 9 1 FSV 10 0 MC 16 0 MI - 6 5- 16 0 MM 16 0 MS 16 ,

O TC 17 0 TS 17 .

O MTR 23A 0 FSV 24 i 1

0 FS 25 A/B, B/A 1 FSV - 6 5- 26 -

1 FSV 27 0 FC0 28 A6B (LS) 0 FSV - 6 5- 28 A&B 2 FSV - 6 5- 29 1 FSV 30

,y LJ -

DE05;TBLII.BR

- ......1,.

. 40 ;j.:p .a;..-uu.L A//#WJ

_ SF.0UOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49

. Unit ~ _TVA-ID No .

O FS 31 .

• A/B,B/A ,

0 MC 36 0 MI 36 0 EM 36 0 MS 36 0 TC 37 0 TS - 65'- 37 0 MIR 42B 0 FSV - 6 5- 43 0 FS 44 A/B B/A 2 FSV 45 2 FSV 46 0 FC0 l' A&B (LS) 1 0 FSV 47 A&B 2 FSV 50 1 FCV - 6 5- 51 (LS) 1 FSV 51 1 FCV 52 (LS) 1 FSV 52 1 FCV - 6 5- 53 (LS)

, ~ ,

()

1 FSV 53 .-

DE05;TBLII.BR

- At .. -;;.fi: . .v: .1: . - JA,$55"<

SEOUOYA3 MASTER LTST OF ELECTRICAL EQUIPMENT - 10CFR50.49 Unit TVA ID No.

\ 0 FS 55

~

~

,A/B

• B/A O FS 56 A/B _ _

B/A 1 PDT 80 2 PDT 80 1 PCV 81 (LS) 2 PCV 81 1 PSV 81 2 PSV 81 1 PDT 82 ggg 2 PDT 82 1 PCV - 6 5- iG (LS) 2 PCV 83 .

(LS) '

1 PSV 83 2 PSV 83

)

1 PCV 86 (LS) 2 PCV 86 (LS) 1 PCV 87 2 PCV 87 (LS) 1 PDT - 6 5- 90

- 2 PDT 90

,J DE05;T3LII.BR

- 42 ~5 CMk'

l SEOUOYAH MASTF?gia. ' g.' qLECT2ICAL.[0UIPMENI - 10CFR50.49 Unit TVA ID No.

l i -

( l PDT 97 .

2 PDT 97 1 FCV 83 2 FCV 83 1 FCV 87 2 FCV 87 1 FCV 88 2 FCV B E-1 FCV 91 2 FCV 91 1 FCV 95 2 FCV 95 1 FCV 96 2 FCV 96 1 FCV 99  ;

2 FCV 99 1 FCV 103 2 FCV 103 1 FCV 104 2 FCV 104 1 FCV 107 2 FCV 107 1 FCV 111 2 FCV 111 l

(,3, 1 FCV 112

{(,\((/ 2 FCV 112 DE05;TBLII.BR

. gg

• JEOUOYAH MASTER U"T_0F ELECTRICAL EQUIPPENT - 10CFR50.49 Unit TVA ID No .

1 F.CV 123 '

2 FCV 123 1 FCV . ,67- 124 2 FCV 124 1 FCV 125 2 FCV 125 1 FCV 126 2 FCV 126 1 FCV 130 2 FCV 130 1 FCV 131 2 FCV 131 1 FCV 133 2 FCV 133 1 FCV 134 2 FCV 134 '

1 FCV 138 2 FCV 138 1 FCV 139 2 FCV 139 I

l y, -

DEO5;TBLII.BR .

?:

, ,$ f, ai.4 8A '

SEQUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 Unit TVA ID No.

1 FCV 141 -

1 2 FCV 141 1 FCV 142 2 FCV 142 '

1 FCV 146 2 FCV 146 0 FCV 152 1 FSV 162 1 FSV 164 1 FSV 168 2 FSV 168 1 FSV 170 _

2 FSV 170 1 FSV 176 2 FSV 176 1 FSV 182 '

2 FSV 182 1 FSV 184 2 FSV 184 I FSV 186 2 FSV 186 (D

>/

~

l DE05;TELII.BR

. 45 . ;.t?

_SEOUOYAH FASTER LIST OF ELEC'".3,IF E.0,U ' q T ,,10_CFR50.lA l M TVA ID No.

1 FSV 188 2 FSV 188

{

1 FSV 190 1 2 FSV 190 1 FSV 213 1 FSV 215 2 FSV 217 2 ZS 217 2 FSV 219 2 ZS 219 2 FCV 223 1 FCV 223 .*

h 1 FCV 295 2 FCV 295 1 FCV 296 2 FCV 296 '

1 FCV 297 2 FCV 297 1 FCV 298 2 FCV 298 2 F ',V 336 2 F3V 338 s

t, DE05;TBLII.BR 4s . 4:. ,

SEOUOYAH MASTER- LIST-OF ELECTRICAL EOUIPMENT - 1097R50 A9 I Unit TVA -ID- No .

k .

1 FSV 342 2 FSV 342 1 FSV 344 2 FSV 344 1 FSV 346 2 FSV 346 1 FSV 348 2 FSV 348 1 FSV 350 2 FSV 350 1 FSV 352 2 FSV 352

- 1 FSV 354 2 FSV 354 1 FSV 356 ,

2 FSV 356 1 TE 1 (PAM-THI) 2 TE 1 (PAM-TMI) 1 TE 2A 2 TE - 6 8- 2A 1 TE 2B 2 TE - 6 8- 2B DE05;TBLII.BR

- 47 . .! " . : -a iSi

SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 Unit TVA ID No .

1 TE 14A

~

2 '. TE - 6 8- 14A 1 TE 143 2 TE - 6 8- 14B 1 TE 18 (PAM) 2 TE 18 (PAM) 1 TE 24 (TMI)(PAM) 2 TE 24 (TMI)(PAM) 1 TE 25A 2 TE 25A 1 TE 25B 2 TE - 6 8- 25B 1 TE 37A 2 TE - 6 8- 37A 1 TE 373 2 TE - 6 8- 37B 1 TE 41 (PAM) 2 TE 41 (PAM) 1 TE 43 (PAM) 2 TE 43 -

(PAM)

I /";

~

L,)

DEOS;TBLII.BR 48

- ~-'

SEOUOYAH MASTER LIST OF ELECTRICAL EQUIPMENT - 10CFR50.49 Unit TVA ID No, 1 TE 44A -

2 '. TE - 6 8- 44A 1 TE 44B 2 TE 44B 1 TE 56A 2 TE - 6 8- 56A 1 TE 56B 2 TE - 6 8- 56B 1 TE 60 (PAM) 2 TE 60 (PAM) 1 TE 65 (PAM) 2 TE 65 (PAM) 1 PT 66 (PAM-TMI) 2 PT 66 (PAM-THI) 1 TE 67A 1 TE - 6 8- 67B 2 TE 67A 2 TE - 6 8- 67B 1 PT 68 (PAM)

) .

DE05;TBLII.BR 49

SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.44 Unit _ TVA ID No.

( 2 PT 68 -

. (PAM) '

1 PT 69 (PAM) 2 PT 69 (PAM) 1 TE - 6 8- 79A 2 TE 79A 1 TE 79B 2 TE 79B 1 TE 83 (PAM) 2 TE - 6 8- 83 (PAM) gg I FSV 305 2 FSV 305 1 FSV 307 2 FSV 307 1 FCV 308 (LS) 2 FCV 308 (LS) 1 FSV 308 2 FSV 308 1 LT 320 (PAM) 2 LT 320 (PAM) -

r~x

%) -

DE05;TBLII.BR 50 . - . .

SEOUOYAH MASTER LIST OF ELECTRICAL EQUIPMENT - 10CFR50.49 Unit TVA ID No.

1 PT 322 '

2 PT 322 1 PT 323 2 PT 323 1 FCV 332 2 FCV 332 1 FCV 333 2 FCV 333 1 PCV 334 (LS)

(TMI) 2 PCV 334 (LS)

(TMI) 1 PT 334 2 PT 334 1 XE 334 (TMI) 2 XE 334 (TMI) 1 XT 334 (TMI) 2 XT 334 (TMI) 1 PSV 334 (TMI) 2 PSV 334 (TMI) 1 LT 335

~

(PAM)

,~s,

(,,,)

• DEOS;TBLII.BR 51 . 'i:::

. si2:t.

SEOUOYAH FASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 l

Unit TVA ID No.

( 2 LT 335 ~

, (PAM)

• 1 LT 339 (PAM-TMI) ,

2 LT 339 (PAM-TMI) 1 PSV - 6 8- 3 40A (TMI) 2 PSV - 6 8- 3 40A (TMI) 1 PI 340 2 PT 340 1 XE 340A (TMI) i 2 XE 340A (TMI) 1 XT - 6 8- 3 40A (TMI) 2 XT 340A (TMI) 2 PSV - 6 8- 340AB (TMI) 1 XE 363 (TMI) 2 XE 363 (THI) 1 XT 363 (TMI) 2 XT 363 -

(TMI) f^)

f J

~

DE05;TBLII.BR 52 -

1 l

SEQUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49 Unit TVA ID No.

l( -

1 XE 364 .

- (TMI) ,

2 XT 364 (TMI) 1 XT 364 (TMI) ~ ~

2 XT 364 (TMI) 1 XE 365 (TMI) 2 XE 365 (TMI) 1 XT 365 (TMI) 2 XT 365 (TMI) 1 XE 366 (THI) 2 XE 366 (THI) 1 XT 366 (TMI) 2 XT 366 (TMI) 1 TE 373 (TMI) 2 TE 373 (THI) 1 TE 374 (TMI) 2 TE 374 '

(THI) .

/

DE05;TSLII.BR

!'7,Q,U^***H FASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.4Q Unit TVA TD No.

I k 1 " TE 375 ~

. (TMI)

• 2 TE 375 (TMI) 1 TE 376 (TMI) 2 TE 376 (TMI) 1 TE 377 (THI) 2 TE 377 (TMI) 1 TE 378 (TMI) 2 TE 378 (TMI) 1 TE 379 (TMI) 2 TE 379 (TMI) 1 TE 380 (TMI) 2 TE 380 (T1R) 1 TE 381 (TMI) 2 TE 381 (TMI) 1 TE 382 (THI) l 2 TE 382 *

(THI) i DE05;TBLII.BR 54 L'% 'l*

SE0UOYAH MASTER t 'ST OF ELECTRICAL EOUIPMENT - 10CFR50,49 Unit .TVA TD No, l

1 TE 383 ^

, (THE ) '

2 TE 383 (TMI) )

1 TE 384 (TMI) 2 TE 384 (TMI) 1 TE 385 (TMI) 2 TE 385 (TMI) 1 TE 386 (TMI) 2 TE 386 -

(THI) 1 FSV 394 2 FSV 394 1 FSV 395 2 FSV 395 1 FSV 396 2 FSV 396 1 FSV 397 2 FSV 397 1 TE 398 (TMI) 2 TE 398 (TMI)

O FCV - 7 0- 1

(a -

.]

DEOS;TBLII.BR i

55 - '

l SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50.49, i

Unit TVA ID No.

k 0 FCV - 7 0- 11 0 MTR - 7 0- 33 0 1cR 38 0 FCV - 7 0- 40 0 FCV - 7 0- 41 0 MTR - 7 0- 46 0 MTR - 7 0- 51 0 MTR 59 1 FSV - 7 0- 85 2 FSV - 7 0- 85 1 FCV 85 (LS) 2 FCV - 7 0-85 W (LS) 1 FCV - 7 0- 87 2 FCV - 7 0- 87 1 FCV - 7 0- 89 2 FCV - 7 0- 89 1 FCV - 7 0- 90 l

DE05;TBLII.BR 56 ,

SEOUOYAH MASI",]ST OT,_E_LvCTRIC\L_EOUIPMENT

- 10CFR50.,49_

I fh Unit TVA ID No.

k

• 2 FCV 90 1 FCV - 7 0- 92 2 FCV - 7 0- .92 0 FCV 111 1 FCV 133 2 FCV 133 1 FCV 134 2 FLV 134 1 FCV 140 2 FCV 140 1 FCV 143 2 FCV 143 (q

x,,) 1 FCV 153 2 FCV 153 1 FCV 156 2 FCV 156 1 FCV 183 2 FCV 183 0 FCV 193 0 FCV 194

\

=

I

[)

DE05;TBLII.BR 57

• i

SEOUGYAH MASTER LTST OF EVJCTRICAL 20UIPMENT - 10CFR50.49 h Unit TVA ID No.

l k "FCV 0 197 '

0 $FCV 198 0 FCV 206 1 FCV 207 2 FCV 207 0 FCV 208 1 FCV - 7 2- 2 2 FCV - 7 2- 2 1 MTR 10 2 MTR - 7 2- 10 1 FCV 13 2 FCV - 7 2- 13 1 FT - 7 2- 13 2 FT - 7 2- 13 1 FCV 20 2 FCV - 7 2- 20 1 FCV - 7 2- 21 2 FCV - 7 2- 21 1 FCV 22 2 FCV - 7 2- 22 1 FCV 23 2 FCV 23 i .

~

l i DE05;TBLII.BR SB ~~

i SEOUOYAH MASTER LIST OF ELECTRICAL EQUIPMENT - 10CFR50.49 Unit TVA ID No .

<fh 1 MTR 27 '

2 '. MTR - 7 2- 27 1 FCV - 7 2- 34 2 FCV - 7 2- 34 1 FT 34 2 FT - 7 2- 34 1 FCV - 7 2- 39 2 FCV - 7 2- 39 1 FCV 40 2 FCV - 7 2- 40 1 FCV - 7 2- 41 2 FCV - 7 2- 41 1 FCV - 7 4- 3 2 FCV 3 1 MTRA - 7 4- 10A 2 MTRA 10A 1 FCV 12 2 FCV 12 1 MTRA - 7 4- 20B 2 MTRA 20B 1 FCV 21 2 FCV 21 DEOS;TBLII.BR 59 >;'

SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMrNT '-0CFR50,49 Unit TVA T D No .

e

• 1 FCV 24 -

2 FCV 24 1 FCV 9 (LS) 2 FCV 9 (LS) 1 FSV 9 2 FSV 9 1 FSV 10 2 FSV 10 1 FCV 16 (LS) 2 FCV - 7 7- 16

(LS) 1 FSV 16 2 FSV 16 1 FSV 17 2 FSV 17 1 FCV 18 (LS) 2 FCV 18 (LS) 1 FSV 18 2 FSV 18 1 FSV 19

(^h

\J ~

DE05;TBLII.BR 60 -

SE000YAH MASTER LIST OF ELECTRXCAL EOUIPMENT - 10CFR50,49 I

h Unit TVA ID No.

k 2 'FSV 19 I '. FSV 20 2 FSV 20 1 FCV 127 (LS) 2 FCV 127 (LS) 1 FSV 127 2 FSV 127 1 FCV 128 (LS) 2 FCV 128 (LS) 1 FSV 128 2 FSV 128 0 MTRB - 7 8- 9B 0 MTRB - 7 8- 12A 0 MTRB - 7 8- 35C 1 FSV 12 2 FSV 12 1 HTR 1A 2 HTR 1A I

1 HTR 2B l

DE05;TBLII.BR l l

61 .

..:- 1

SEOUOYAH MASTER LIST OF ELECTRICAL EQUIPMENT - 10CFR50.49 Unit TVA ID No.

A 2 HTR 2B '

1 .FSV 7 2 FSV 7 1 FSV 8

. 2 FSV 8 1 FCV 107 (LS) 2 FCV 107 (LS) 1 FSV 107 2 FSV 107 1 FCV 108 (LS) 2 FCV 108 (LS) 1 FSV 108 2 FSV 108 1 FCV 109 (LS) 2 FCv 109 (LS)

. 1 1

l l

l DE05;TELII.BR l

62

+ &+ o D

1. + +/ IMAGE EVALUATION [j/jgj <!I(p

, 77// \[ f/// TEST TARGET (MT-3) KY 6,jf dg'

+  %$  %

I l.0 'f a m E 5 RE jj ll i,i [

OLM l.8 1.25 1.4 1.6

< 150mm >

< 6" >

1. * % ,, /* 4%

$7

+7lgjf.5,,f77>77 '<3,y.f;g s

SEOUOYAH MASTER LIST OF ELECTRICAL EOUIPMENT - 10CFR50,49 h Unit -TVA-ID No .

I 1 FSV 109 2 FSV 109 1 FCV 110 (LS) 2 FCV 11^

(LS) 1 FSV 110 2 FSV 110 1 FCV 111 (LS) 2 FCV 111 (LS) 1 FSV 111 2 FSV 111 1 FCV 113 (LS) 2 FCV 113 (LS) 1 FSV 113 2 FSV 113 1 FCV 114 (LS) 2 FCV 114 (LS) 1 FSV 114 2 FSV 114 1 FCV 115 (LS) '

,I

,-S

) -

DE05;TBLII.BR 63

r .

1 1

SEOUOYAH MASTER LIST OF ELECTRICAL EQUIPMENT - 10CFR50.49 h Unit TVA ID No.

l( 2 *FCV 115

, (LS)

• 1 FSV 115 2 FSV 115 1 FCV 116 (LS) 2 FCV 116 (LS) 1 FSV 116 2 FSV 116 1 FCV 117 (LS) 2 FCV 117 (LS) 1 FSV 117 2 FSV 117 1 RE 271 (PAM)(TMI) 2 RE 271 (PAM)(TMI) 1 RE 272 (PAM)(TMI) 2 RE 272 (PAM)(TMI) 1 RE 273 (PAM)(THI) 2 RE 273 (PAM)(TMI) 1 RE 274 -

(PAM)(TMI)

/

,-~

) -

DE05;TBLII.BR 64 .-

SEOUOYAH MASTER LIST _OF ELECTRICAL EQUIPMENT - 10CFR50,49

. Unit TVA ID No, k 2 RE 274 '

. (PAM)(TMI)

• 1 FCV -313- 222 (LS) 2 FCV -313- 222 (LS) 1 FSV -313- 222 2 FSV -313- 222 1 FCV -313- 223 (LS) 2 FCV -313- 223 (LS) 1 FSV -313- 223 2 FSV -313- 223 -'

1 FCV -313- 224 (LS) 2 FCV -313- 224 (LS) 1 FSV -313- 224 2 FSV -313- 224 1 FCV -313- 225 (LS) 2 FCV -313- 225 (LS) 1 FSV -313- 225 2 FSV -313- 225 1 FCV -313- 229 (LS) 2 FCV -313- 229 -

/ (LS)

(r%

L/'

DEOS;TELII.BR 65

l SEQt.f0YAH MASTER LIST OF ELECTRICAL EOUTPMENT - 10CFR50.4Q i

( Unit TVA ID No._

l k I "FSV -313- 229 ~

2 ' FSV l

-313- 229 '

1 FCY -313- 230 (LS) 2 FCV -313- 230 (LS) 1 FSV -313- 230 2 FSV -313- 230 1 FCV -313- 231 (LS) 2 FCV -313- 231 (LS) 1 FSV -313- 231 2 FSV -313- 231 h 1 FCV -313- 232 (LS) 2 FCV -313- 232 (LS) 1 FSV -313- 232 2 FSV -313- 232 0 MTR -313- 303 B-A O FSV .

-313- 305

.c 0 LS -313- 305 0 HTR -313- 338 B-A 1 FSV -313- 340 O LS -313- 340 DEOS;TBLII.BR i

66

SE0UOYXu MASTER T,IST OF ELECTRICAL EQUIPMENT - 10CFR50.49

{( '

Unit -

TVA ID No.

Terminal Blocks

-, _ ,_Handswitches Cable (all types)

Junction boxes Cabic splices Penetrations (all types)

Conduit Seal Assemblies -

Stainless Steel Flexible Conduit e

0

/

/O

' ,b .

• DEOS;TBLII.BR 67 er

Notes:

1. (Limitorque Motor-Operators) - West I provide additional analysis informa use is being requested to operators. TFA expects this analys for these valve motor-give adequate qualificatica -

icformation on reco==endations for fic parts replacement.

Analysis and evaluation (and, if re

• co=pleted by : April 1984 d, parts replacement) vill be

2. (Target Rock Solenoid Valves) - Wes the needed information for qualific ouse has co=mitted to provide TVA by August 1983. of these solenoid valves, to

3. (Westinghouse Power Range Detectors to provide additional analysis info estinghouse is being requested operation during a main steam time on, as to the requirements of

, and the qualification docu=entation for these detectors. ipt of this information is expected by September 1983.

DE05:TBLII.PB e

e

~

DE05;TBLII.BR 68