ML20215E179

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Rev 11 to Spec X3AJ04, Spec for Instrument & Specialty Cable for Vogtle Electric Generating Plant,Burke County,Ga. Rev 3 to App EA, Qualification Requirements for Safety- Related Equipment,Devices & Instrumentation, Encl
ML20215E179
Person / Time
Site: Vogtle  Southern Nuclear icon.png
Issue date: 05/06/1986
From:
BECHTEL GROUP, INC.
To:
Shared Package
ML20215E151 List:
References
NUDOCS 8612170374
Download: ML20215E179 (213)


Text

{{#Wiki_filter:SPECIFICATION FOR INSTRUMENT AND SPECIALTY CABLE FOR THE GEORGIA POWER COMPANY V0GTLE ELECTRIC GENERATING PLANT BURKE COUNTY, GEORGIA SPECIFICATION NO. K3AJ04 REVISION 11 4 DATE OF ISSUE MAY 6, 1986 PROJECT CLASS 12E, 62E PAV-5772 PAV2-267 PAV-3080 PAV2-128 PAV-26294 JOB 9510 BECHTEL POWER CORPORATION WESTERN POWER DIVISION NORWALK, CALIFORNIA 8612170374 86120S PDR ADOCK 05000424 E PDR Bechtel Power Corporation ENGINEERS - CONSTRUCTORS SAN FRANCISCO LOS ANGELES

SPECIFICATION FOR INSTRUMENT AND SPECIALTY CABLE FOR THE GEORGIA POWER COMPANY V0GTLE ELECTRIC GENERATING PLANT BURKE COUNTY, GEORGIA SPECIFICATION No. X3AJ04 REVISION 11 - DATE OF ISSUE MAY 6, 1986 PROJECT CLASS 12E, 62E JOB NUMBER 951o BECHTEL POWER CORPOR ATION NORWALK. CALIFORNI A d 12-16-83 Revised Technical Provisions Page 3, 4, 10, 10s, 18 and 20, O Incorporated SDDR 1057 (Page 10) and SDDR 1089 (Page 10). M 7-22-83 Revised Technical Provisions Page 11, 3, 4 (Added Page 4a), 6, 9, 10, d 10s, 13, and 15 through 18, Added Attachment EA (EA-1 through EA-4, A EA-15. EA-62, EA-65 and EA-67 through EA-72), Updated Appendix EA to A Rev. 3 M 12-30-82 Revised Technical Provisions Pages 3, 4, 5, 9, 11,15, 18 & Added 44. A 5-17-82 General Revision of Technical Provisions A ,

                ,i- e - Ro General Ann  FA t Revision nouv..A n,ana.of Tech. 1Prov.

pao..and To IncorpI? An i Add. Nos. 1 & 2, Updated

     /3\ 5-9-78               Issued for Bid "EV yo          OATE                                         REVISIONS l
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X3AJ04 A 2-21-84 Ravised Technical Provisions Pagss 3 end 14. Incorporated SDDR 1179 A (Page 14). A 8-1-84 Added PAV Nos to Cover Page. Revised Technical Provisions (Pages 3, 4, A 4a 5, 18, 19 and 20) Incorporated SDDR's 1231, 1232, and 1233. A 3-11-85 Revised Paragraphs 4.3.1 (Page 11) and 5.3.3.3.A (Page 17). A 6-27-85 Incorporated MSCN No. 1 (Proposal Page 13) A 12-12-85 Revised Tech. Prov. Pages 3, 4, 4a, 5, 11, 12 thru 16 (changes and A valked copy only) and added 16a. Incorporated REA 1-85-0963, A SDDR 1443, 1465. Added pressurizer heater cable and metal-clad A cables. Added PAV-26294 to Cover Page. A 5-6-86 Revised Tech. Prov. Page 11, (added iii) and Updated Attachment EA to A Rev. 6. RRF 22-F3 Already existing in the specification. A A i A . A ! A . A i A l ^ A A A A A A A A A A A A A A A A A A . A A ag ... .ev s, . 2 of 2

X3AJ04 Rrv. 2 l V0GTLE ELECTRIC GBERATING PIANT l INSTRUMENT AND SPECIALTY CABLE l l SECTION TITLE PAGE Instructions to Bidders for Electrical Equipment and/or 1-15 Material Technical Provisions 1-22 2 Proposal Form 1-49

  -                                -_      _ _ _ _ _ - - _ _ _ _ _ _ _ _ _                                             }

BECHTEL POWER CORPORATION. AGENT Los Angeles Power Division for GEORGIA POWER COMPANY INSTRUCTIONS TO BIDDERS

                             .               for ELECTRICAL EQUIPMENT AND/OR MATERIAL General
1. The Contractor shall state any exceptions taken to the Instructions of Bidders and/or specifications in his Proposal. The Manufacturer and/or Supplier must obtain the Purchaser's approval in writing before such excep-tions are binding upon the Purchaser.

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2. The original and 7 copies of Bidders Proposal shall be submitted in exact conformance with the Proposal Form to the Procurement Department, Bechtel Power Corporation, Los Angeles Power Division, P. O. Box 60860, Terminal Annex, Los Angeles, California 90060, Atta: (Designee of Bid Request Cover Page) or delivered via messenger to Bechtel Power Corporation, Los Angeles Power Division, 12400 Imperial Highway, Norwalk, California not later than the data specified in the inquiry letter.
3. The Purchaser reserves the right to reject any or all bids, and to waive any informalities therein.
4. The term " Contractor" and the term " Manufacturer" are hereby defined as meaning the Contractor responsible for furnishing the equipment and work specified.
5. The term " Purchaser" is hereby defined as meaning the Georgia Power Company or its Engineers, inspectors, or other authorized representatives as named in the Proposal Form.

Accepted Proposal

6. The successful Bidder shall furnish 11 copies of a written Accepted Proposal for the performance of work included in the specifications. This Proposal will includa the detail specifications of the equipment and/or material furnished.

Proposal Drawings and Description

7. Each Bidder shall submit with each proposal complete specifications, description of equipment, drawings and illustrations showing in detail the equipment or materials he proposes to furnish, and dimensions to show the clearances of his equipment. He shall submit a description of all major 7 MAR 77 1 l

I

equipment in sufficient detail to enable the Purchaser to check the rela-tive merits of the various bids. It is extremely important that all pro-posals be complete in this respect and that any exceptions be clearly stated. Contractor's Design Drawings

8. Upon award of the business confirmed by the Purchaser's commitment and/or Purchaser's order and in accordance with the specification Drawing and Data Requirements, the Manufacturer and/or Supplier shall prepare all necessary drawings for the manufacturer and installation of the equipment or materials supplied by him, including necessary details for the design of proper supporting structures, and showing all features and details including assembly drawings, parts lists, installation, operation and maintenance instructions, and other details for which the Purchaser must provide to secure the proper installation, operation and successful performance of the equipment.
9. The Contractor shall furnish Bechtel Power Corporation, in accor-

, dance with the Specification Drawing and Data Requirements, all complete and final approved drawings. The Contractor shall also submit preliminary ! sketches and notes on all unsettled details to the Purchaser for consider- - ation and approval in ample time to enable the Contractor to comply with i the specifications.

10. All Manufacturer's drawings shall be subject to the Purchaser's approval for general design, general dimensions and apparent suitability.

The Purchaser's approval shall not relieve the Contractor of any respon-sibility for supplying material and equipment which meets the requirements of the specifications and which will operate satisfactorily under the specified conditions, nor will it relieve him from responsibility for detail dimensions. , Purchaser's Drawings Submitted With Specifications 1

11. Where the equipment and/or materials are to be installed in a new plant or in an existing plant where there are no building limitations, the Bidder shall offer a layout and arrangement which are conducive to best performance and lowest over-all installation cost. Where the equipment ,

and/or materials are to be installed in existing plants or in restricted locations, the physical limitations will be described in Purchaser's i Specifications and drawings will be included by Purchaser to show the general arrangement, dimensions, floor levels, etc., to which the Contractor must adhere as closely as possible. I l Correspondence Pertaining to Design and Specifications 1

12. All questions or correspondence with reference to the inquiry and specifications, shall be referred to the Procurement Department, Bechtel Power Corporation, Los Angeles Power Division, P.O. Box 60860, Terminal Annex, Los Angeles, California 90060, Atta: (Designee on Bid Request Cover Page). All such correspondence shall be submitted in original and i 7 copies.

7 MAR 77 2

1 Delivery ,

13. Delivery dates desired and acceptable are shown in the specifications.

In the event the delivery dates as set out in the specifications cannot be met, the Bidder shall so state in his exceptions. The Bidder shall also state in his Proposal: (1) the submittal schedule for the required engineer-ing drawings and data, (2) the date when manufacturing must be started to meet the specified jobsite delivery date, (3) the date when delivery will be made. It is of utmost importance that the Contractor maintain the speci-fied delivery date. If any delays appear likely, it is the responsibility of the Contractor to immediately inform the Purchaser. The providing of such information shall in no way relieve the Contractor from compliance with the specified delivery date. l l Labor Dispute Notification Provisions

14. In the event of any delay or threatened delay to the Contractor's performance of its Services because of any strike or labor dispute, the Contractor shall immediately notify Purchaser in writing of such an event.

Such written notice shall include a description of the nature, cause, date of commencement, and expected duration of any such delay or threatened delay and shall indicate whether it is anticipated that the completion dates will _ be affected thereby. Payments

15. All equipment and material shall be quoted and shipped on an F.O.B.

destination basis and full payment will be made by Purchaser within 30 days following receipt of complete material and invoice. Invoices pertaining to partial shipments will not be honored.

16. It shall be understood and agreed that the completion of all pay-l ments for the work done and materials used, and the Purchaser's final acceptance, shall not relieve the Manufacturer and/or Suppliet or its surety from its obligations and responsibilities under the terms of the agreement and in accordance with the attached specifications, or of making good any latent defects without additional cost to the Purchaser.

Tests and Inspection

17. The Purchaser may appoint inspectors to follow the progress of the work, the manner in which it is being done, materials in process of manu-facture or at point of delivery, and with authority to reject defective materials at either source of supply or point of delivery at any time, or to suspend any work not being properly done, or not in accord with the plans and specification.
18. The Purchaser shall have the right to conduct source inspection and quality assurance program surveys and audits at the supplier plants. The Purchaser shall have free access to work, and to all parts of the Contractor's plant engaged in work on equipment and/or materials to be supplied the Pur-chaser, at all times while work on this Contract is being performed. The 7 MAR 77 3

Contractor shall afford the Purchaser free of cost all facilities for the convenience of the Purchaser in order that the Purchaser may be satisfied that all materials and workmanship are in accordance with the specifications. The same free access privileges to the Purchaser shall extend to all Con-tractors subtier Suppliers plants and facilities supplying material, fabri-cation, components, systems, or services, hereunder.

19. The Purchaser shall have the right, at any time within 180 days after the complete erection of the equipment, to make, at his own expense, such tests as he may deem proper or necessary to satisfy himself that the equipment meets the requirements of the specifications in every respect.

The Contractor shall, if he so desires and at his own expense, have the right to have a witness present at such tests to see that the equipment is properly operated and to make such observations as he may desire. Should this test show that the equipment does not meet all the requirements of the specifications or guarantees, the Contractor shall, at his own expense, make such other tests as may be necessary to the fulfillment of the Contract.

20. In event of the equipment failing to meet the requirements of the specifications or guarantees in any respect, the Contractor shall within a reasonable time and at his own expense, make such alterations and or replace-ments as may be necessary in order that the equipment and its performance ,

i shall conform to the requirements of the specifications and guarantees; and the Contractor shall, at his own expense, make such additional tests as

the Purchaser may require to show the effects of such alterations and replacements on the equipment and its performance.

Patents

21. The Contractor shall indemnify, save harmless, and defend the -

Purchaser with regard to all claims, suits, and proceedings against the Purchaser based on the contention, whether groundless or not, that any apparatus, or part thereof, furnished under the Contract (regardless of by whom designed, fabricated, or manufactured) constitutes an infringemer.t of any patent. The Contractor shall pay all costs and expenses of investi-gation, defense, and settlement or judgment of any such claim, suit, or proceeding. In case the said apparatus, or any part thereof, is held in any suit to constitute infringement and the use of said apparatus or part is enjoined, the Contractor shall, at its own expense, either (1) procure for the Purchaser the right to continue using said apparatus or part, (2) replace same with non-infringing apparatus, or (3) modify same so that it becomes non-infringing. If the Contractor is unable to comply with any of the alternatives in the preceding sentence, then the Conenactor may, upon terms and conditions satisfactory to the Purchaser, remove said apparatus and refund the purchase price and the transportation and instal-lation costs thereof. This provision shall take precedence over Paragraph 6 of any Purchase Order which Purchaser may issue her'eafter, insofar as said Paragraph 6 relates to patents. l 1 7 MAR 77 4 1 1

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Taxes

22. All Federal, State or other governmental division taxes and contri-bution for unemployment compensation, or old age benefits, etc., now or hereaf ter effective shall be included in the prices quoted with the exception of the State of Georgia Sales or Use Tax which the Purchaser shall be responsible for, by authority granted by the State of Georgia Revenue Department, in accordance with the permit for operating under Rule 16 of the Rules and Regulations of Georgia Sales and Use Tax.

Alternates

23. Any alternates to the specifications which the Contractor desires to bid upon, shall be clearly indicated as such, and shall be set apart from the bid covering only the Purchaser's Specifications.

Proposal Form

24. Contractors shall submit their bids in exact conformance with the Proposal Form if such is contained in the specifications. Any alternates other than those called for in the specifications shall follow the completed Proposal Form. ,

Contractor's Supervisory and Service Personnel

25. The Contractor's erection supervisors, service men, startup men or any similar employees for whom the Purchaser will be invoiced on an hourly on per dien basis and/or for expenses must report to the Purchaser's Project Superintendent and Field Office Supervisor or their authorized representative before beginning any such services at the site. They must also report before leaving the jobsite due to a temporary suspension of their work, when returning to the jobnite af ter a temporary suspension of their work, and at the completion of their work.
26. The Purchaser must know of all Contractor's ear loyees at the job site whose time and/or expenses are not included in the lump sua equipment price in order to verify invoices and time and expenses. Failure of the j Contractor to comply with these requirements will be cause for rejection of I any invoice for such time and/or expenses.

Domestic Materials

27. All materials and equipment to be furnished under this Inquiry shall be of domestic manufacture unless otherwise noted as an " Exception" in the Contractor's Proposal.

Price Adjustment

28. Bidder shall quote current prices in effect on the bid closing date. Whenever the current prices quoted are not firm, Bidder shall quote current prices which shall be subject to adjustment (upward or downward) 7 MAR 77 5

at ties of shipment. The following information shall be included under the Price Adjustment section of the Proposal Form and shall be subject to the conditions stated in that section.

a. The indices to be used.
b. Starting date of adjustment.
c. Ending date of adjustment.

Definition of the final shipment should it affect the end date of adjustment.

1. For equipment shipments of I carload or less, the date of the bill of lading shall be used for the date of adjustment.

l 2. When equipment delivery involves several carload shipments, the Bidder shall define the end date of adjustment as the I date of the bill of lading on a certain specified item of equipment.

d. When using an index averaging method for adjustment based on equipment fabrication dates, the Purchaser shall be advised ,

as soon as possible when the actual starting and ending dates for fabrication become known.

e. The maximum limit of adjustment.

Warranty

29. The Contractor warrants to the Purchaser that the equipment described herein and to be furnished in connection with this purchase will be of the <

kind and quality described herein, free of defects in design, workmanship, and meterial, and shall conform to and perform in accordance with the characteristics and specifications referred to herein. The foregoing warranties shall be in lieu of all statutory warranties except for the warranty of title and against infringement.

30. Contractor shall promptly make all adjustments, repairs or replace-ments necessary, including direct rail or truck transportation charges, to '

remedy any failure or deficiency in the equipment furnished hereunder resulting from the defects in the design, workmanship or materials used in , producing the equipment which shall appear within 12 months from the date  ! the equipment and/or material is placed into service, or within 18 months from the date of shipment, whichever occurs first. The Purchaser shall assist in every manner in minimizing the expense of such repair work includ-ing removal from service and loading for shipment, any equipment and/or material which must be returned to the factory. Where repaired or replacement parts or additional work are furnished, they shall be subject to the same warranties, the same conditions, and the same remedies provided for the original equipment; provided that the warranty period for repaired or replacement parts or for additional work shall be 7 MAY 77 6

for the same period as the original part or work extending from date of installation of repaired or replacement parts or from performance of the additional work.

31. The rights and liabilities imposed under these paragraphs under
   " Warranty" shall be in addition to the rights and liabilities imposed in other paragraphs and nothing stated herein shall be deemed to affect or alter the liability assumed by the Contractor under other paragraphs.

Liability of the Contractor

32. The Contractor shall defend, indemnify the save harmless the Purchaser, its representatives, agents, and employees from and against all i demands, claims, suits or actions of any character, including costs of investigation and defense on account of death or injury to persons (including i representatives, agents and employees of either of the parties) or damage to property (including property of either of the parties) resulting from any act of negligence of the Contractor or his agents or employees of either, whether or not constituting negligence, which act or omission occurs in the performance of any of the obligations imposed herein. The Co1 tractor further agrees to defend, save harmless, and indemnify the Purchaser against any loss or expense as aforesaid resulting from any breach of the provisions -

of Paragraph 16,above.

33. In addition to the Contractor's express warranty of the equipment as set forth in the warranty clause applicable thereto, if any portion of the equipment shall prove to be damaged as a direct result of negligent technical direction of or assistance in installation, inspection, or instruc-tion within 1 year from the date equipment is placed into service, the Con-l

' tractor, when notified therof, shall correct such damage at its own expense, including the cost of any necessary labor by repairing or replacing the parts directly affected by such defective technical direction, or assistance, i inspection, or instruction. The Contractor is liable and responsible for technical direction or assistance, of inspection, installation and instruc-tion or for any claims of any kind arising out of or connection with technical direction or assistance, inspection and instruction whether in contract, tort (including negligence), or otherwise. Assignment

34. The Purchase Order shall not be assigned by the Contractor by operation of law or otherwise without the prior written consent of the Purchaser. The Purchaser Order shall not be deemed an asset of the Contrac-tor and at the option of the Purchaser, and upon 5 days notice, shall termin-ate in the event of any voluntary or involuntary receivership, bankruptcy, or insolvency proceedings affecting the Contractor.

Defaults

35. Time is of the essence. If the Contractor fails to perform any of its obligations hereunder, the Purchaser will be entitled to all remedies provided by law and without limitation to recover any replacement and repair 7 MAR 77 7

i costs. If Contractor fails to give Purchaser adequate assurance of perform-4 ance after written d*=and therof when reasonable grounds for insecurity arise, then Purchaser will be entitled to cancel the Purchase Order in whole or in part, without liability for any cancellation of other charges or for any of the Apparatus unshipped at the time of such cancellation. In the event of any such cancellation, Purchaser may procure the Work elsewhere similar to that which should have been shipped hereunder. The Contractor shall be liable for the difference between the cost of such procured work and the Purchase Order price together with all damages suffered by Purchaser. Purhcaser may withhold any money otherwise payable to Contractor and apply the same to the payment of any suas which Contractor may owe to Purchaser. Purchaser's failure to notify Contractor of a rejection of the Apparatus or to specify with particularly any defect in the Apparatus af ter rejection or acceptance thereof will not bar Purchaser from any remedies therefore which it may otherwise have. Changes

36. No changes shall be made in this specification unless authorized in writing by the Purchaser. The Purchaser may, by written change order, make any changes, including additions or omissions in quantities ordered, or in the specification. If any such change affects the amount due or the _

j time of performance hereunder, an equitable adjustment will be made. The

            ' Purchaser may at any time by written change order cancel the Purchase Order as to all or any portion of the Apparatus then not shipped, subject

, to an equitable adjustment between the parties as to the Apparatus then !~ in progress, provided that no such adjustment shall be made in favor of the Contractor with respect to any of the Apparatus which is Contractor's e standard stock. No such cancellation shall relieve the Purchaser or the Contractor of any of their obligations as to any of the Work furnished hereunder. Any claim for adjustment hereunder must be asserted by the j Contractor in writing within 30 days from the date when the change or cancellation is ordered. l l Signature

37. If the proposal is made by an individual, it shall be signed with I his full name, and his address given. If it is made by a partnership, it shall be signed with the partnership name by a full partner, who shall also sign his full name and his address, and the names and addresses of all other partners shall be given. If it is made by a corporation, the name of the corporation shall be stated and the Corporate Seal affixed to the

[ Proposal Bidding Sheet. ' l Scope of Work

38. The Bidder shall make his Proposal with the understanding that the j specification and applicable drawings are intended to cover all of the

! work to be furnished and, unless expressly excluded, any and all labor and materials not indicated therein but which may be necessary to complete i any part of the Work in a proper, substantial and workmanlike manner, are j to be furnished by the Contractor without additional cherge or cost to the Purchaser. 7 MAR 77 8

Proprietary Information

39. This invitation and all drawings, design, specifications and other data appended or related thereto are furnished only as information necessary to preparation of a proposal or to complete the Work and are the property of the Purchaser and shall not be used for any purposes other than the perfor-mance of this proposal or any resulting Purchase Order. The drawings and data submitted by the Bidder shall become the property of the Purchaser and will not be used for any other than the instant purpose.

Assembly and Shipping

40. The Apparatus shall be shipped in assembled units consistent with good shipping practice. When items must be disassembled for shipment they shall be matchmarked. All units and their containers shall be piece marked and show the Purchase Order and item number. Machined and other unpaiated surfaces shall be fully protected from impact and weather damage with all holes and nozzles plugged or covered.

Method of Shipment

41. Delivery at the jobsite via rail and motor carrier is available. -

The Purchaser may specify the carriers and routing to be used providing the carrier (s) or routing specified does not increase Contractor's cost; however, Contractor shall not modify Purchaser's instructions in this respect without prior approval by the Purchaser. Contractor agrees to furnish Purchaser realistic estimates of net and gross weights, expected shipping points and shipping classifications. Cooperation and other Manufacturers

42. The Contractor shall cooperate with other manufacturers furnishing associated equipment or equipment connecting directly thereto. The Con-tractor shall exchange with other manufacturers all necessary drawings, dimensions, templates, gauges and other information required to insure a combined installation that is most suitable in every respect within the intent of the specification, and to eliminate delays in manufacture or ins tall ation. The Contractor shall keep the Engineer informed of all such -

coordination by copy of his correspondence to other manufacturers. Expediting ! 43. The Purchaser shall be allowed access to the Contractor'% shops and those of the Contractor's suppliers to expedite the work. Contractor

'                        shall furnish Purchaser, at no additional cost, semi-monthly progress reports and scheduling information in sufficient detail to facilitate realistic evaluation of Contractor's performance. The reports and/or schedules must cover the complete status and progress of engineering, fabrication, submaterials and/or labor. Contractor shall furnish unpriced
<                         copies of purchase orders to Subsuppliers upon request.

7 MAR 77 9

l l Right to use Apparatus Requiring Corrections l 3 44. If, after the Apparatus has been installed, it is discovered that it or any part thereof may require correction, the Purchaser shall never-theless have the right to use such Apparatus until such time as it is convenient that such Apparatus be removed from service for correction. t Quality Assurance and Quality Control

45. The Bidder and contractor shall verify conformance to quality requirements by furnishing documentation that is identified in the specifi-cation, and in Part C, Drawing and Data Requirements, of the Proposal Porm.

When nuclear safety class items are involved the same requirements will apply and, in addition, the Bidder and Contractor will be required to have written procedures that comprise his quality program. The written procedures shall conform to the Nuclear Regulatory Commission Regulation 10 CFR 50, Appendix B as defined in ANSI N45.2-1971 Quality Assurance Program Requirements for Nuclear Plants. Specific criteria of ANSI N45.2 to which the Bidder and Contractor must furnish procedures are identified in the Quality Program Raquirements section of Part C of the Proposal Form. l The Purchaser shall have free access to the work and to all parts of the Contractor's plant engaged in work on equipment and/or materials to be supplied the Purchaser, at all times while work on this Contract is being performed. The Contractor shall afford the Purchaser free of cost, all facilities for the convenience of the Purchaser in order that the Purchaser may be satisfied that the Quality Program and all materials and workmanship are in accordance with the specifications. The same free access privileges provided to the Purchaser shall also extend to all Contractors subtier suppliers plants and facilities supplying material, fabrication, components, systems or services hereunder. The Purchaser shall have the right to conduct surveys and audits of the suppliers Quality Program of all functional groups that have an effect on quality. Audits may be conducted by one individual or by a team of auditors, ! and will take place when deemed necessary by the Purchaser. The same survey i and audit privileges shall extend to all subtier Contractor's plants and ! facilities. Bidder's Knowledge

46. The Apparatus will be used in and become a part of a nuclear-electric generating station. Bidder shall be knowledgeable of conditions that may arise during the design, construction, startup and operation of a nuclear-electric generation station, and shall make his Propsoal consistent with such conditions.

l 7 MAR 77 10

Correspondence

47. Subsequent to notification of award, the successful Bidder shall forward all correspondence, in original and 7 copies, relating to price, terms or schedule to Georgia Power Company, c/o Bechtel Power Corporation, Procurement Department, Los Angeles Power Division, P.O. Box 60860, Terminal Annex, Los Angeles, California 90060, Attention: (Designee on Bid Request Cover Page).

Correspondence relating to engineering shall be forwarded in original and 7 copies, to Bechtel Power Corporation, Los Angeles Power Division, Attention: J. D. Duffin, Project Engineer, at the address shown above. The Purchaser reserves the right to designate additional persons and locations to which copies of all correspondence relating to the Work shall be forwarded by the Contractor. Insurance

48. Insurance to be provided by Purchaser. Purchaser shall maintain,

, at its own espense for itself, each Contractor and each Subcontractor, the following forms of insurance in the amounts specified. This insurance . will apply to the operations of and for each Contractor and Subcontractor (unless expressly excluded by name or class) at the project site only (and not at any other place). The insurance will terminate upon completion of the work except that Completed Operations Liability Insurance will continue for a period of 3 years from the acceptance of the total job by , the owner.

a. Insurance coverage for the legal liability of the contractor, and his Subcontractors, for claims for personal injuries to the Contractor's or his Subcontractor's employees engaged in this work and for death resulting therefrom under the Georgia Workmen's Compensation Act.
b. Insurance coverage for the legal liability (including contractual) of the Contractor, and his Subcontractors who may be engaged in this work, for claims or damages for personal injuries or for death resulting therefrom arising out of the work to be performed by the Contractor or his Subcontractors, to persons other than employees of the Contractor or Subcontractors engaged in the work in an amount of $10,000,000 for any one occurrence.
c. Insurance coverage for the legal liability (including contractual) of the Contractor, and his Subcontractors who may be engaged in this work, to pay claims for damages to property belonging to other than such Contractor, or his Subcontractors, in the amount of $10,000,000 for any one occurrence.

1 i' 7 MAR 77 11

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d. Insurance coverage for physical loss or damage to Contractor's I equipment on the jobsite for the following amounts:

Actual cash value of equipment at time of loss.

e. The Purchaser will obtain direct damage (All Risk Builder Risk) insurance and cause the Contractor and his Subcontractors who may be engaged in the work, to be named as an insured. As evidence of this insurance, and prior to the beginning of any work the Purchaser shall submit to the Contractor a certificate providing the above coverage and which verifies that the said j policies .have been properly endorsed to meet the above require-ments.

The Contractor represents and warrants that no cost of insurance, indemnifications, waivers or reserves for contingencies is or will be included in any bid for costs or will otherwise be changeable to the Purchaser, except as to automobile liability I insurance to be provided by Contractor.

49. Insurance to be provided by Contractor. Prior to the commencement ,

of any work, the Contractor and his Subcontractors shall procure and thereafter maintain during the life of the contract, Automobile Liability Insurance for not less than the following limits: Bodily Injury $250,000 Each Person

                                   $500,000 Each Person

( Property Damage $250,000 Each Accident l The insurance will apply to all owned, non-owned or hired automobiles to be used by the Contractor or Subcontractor in the performance of work on his job. Each Contractor or Subcontractor,shall furnish a certificate of this insurance which shall contain a provision for 10 days prior notice of cancellation or material change to Georgia Power Company, which notice shall be in a form provided by or suitable to Georgia Power Company. Any insurance not described herein which the Contractors or Subcontractors desire for their own protection shall be their own responsibility and at their sole expense. Drawins and Data Submittals

50. It is of utmost importance that the Contractor commence preparation ,

of the required engineering drawings and data immediately upon notification of award and that he prosecute the Work in a manner that will insure submittal of this technical data on or before the dates established by the Purchaser. 7 MAR 77 12 1

i l l Specification or Bill of Material

51. The Invitation to Bid, General Provisions (where applicable),

Instructions to 51dders, Specific Conditions, Technical Provisions, Appendicas, Proposal Form and any supplements, drawings, sketches and Data Sheets attached thereto, or referenced therein, and any addenda thereto comprise the complete Specification or Bill of Material and the resulting Purchase Order or Contract shall incorporate and be based on these documents. Location

52. The Alvin W. Vogtle Nuclear Plant site is located in Burke County, Georgia approximately 34 miles South East of Augusta, Georgia on River Road approximately 5 miles N.E. of State highway 23.

Transportation Facilities

53. The Alvin W. Vogtle Nuclear Plant will be served by rail freight with'a siding at Greens Cut, Georgia and by motor freight by those carriers authorized to serve this area.

Delay in Manufacture or Delivery

           ~54. The Manufacturer shall not be liable for damages resulting from delays in delivery or failure to manufacture or deliver where such delays or failure result from (1) acts of God, acts of the Purchaser, acts of civil or military authority, priorities, fires, strikes, flocds, epidemic, war, riot, (due to causes beyond its reasonable control) to obtain materials necessary for the manufacture of the equipment herein described.
55. However, in the event of any occurrence which the Manufacturer considers may cause a delay in the manufacture or delivery of the equipment herein described and which will extend the delivery date(s), the Purchaser shall be so notified in writing promptly. If such delay will extend the delivery date so as to make it impossible for the Purchaser to comply with the requirements or orders of a regulatory commission having jurisdiction or if such dalay will cause Purchaser to default on a Contract or obliga-tion for service to its customers or to the public with respect to which it has a duty to serve, the Manufacturer shall consult with the Purchaser to determine if and by what means another delivery date could be established whereby the Purchass.r could utilize such equipment without violating such orders of such regulatory commissions or defaulting on such Contracts or other service obligations.

Subcontracts

56. The Manufacturer shall not award any portion of this work to any Subcontractor nor employ any Subcontractor to assist in the performance of the work without first obtaining the written approval of the Purchaser.

7 MAR 77 13

57. In the event the Manufacturer obtains the Purchaser's approval to sublet any part of the work, then the Manufacturer agrees to bind the Subcontractor to the terms of these Instruction to Bidders and General Conditions and the specifications and other documents comprising a part of the Contract between the Manufacturer and the Purchaser as far as applicable to the Subcontractor's work. The Manufacturer shall be as fully responsible to the Purchaser for the acts and omissions of his Subcontractors and of the persons'either directly or indirectly employed by his Sub-contractors as he is for the acts of the persons directly employed by himself. The Manufacturer shall in any event remain subject to all the terms, conditions and obligations of the Contract and the execution of a Subcontract shall not relieve him therefrom.

Cancellation

58. With respect to the successful Bidder for the equipment covered by this Inquiry, it shall be understood and agreed that the Purchaser will retain the right to cancel the order at any time up to the time at which the Contractor must order materials and begin manufacture of the equipment specified. In the event of cancellation, the Purchaser will pay for the actual engineering expenses incurred by the Manufacturer, plus a nominal .

sua for overhead. The Bidder's Proposal shall clearly state the latest date that the equipment can be cancelled by the Purchaser without incurring any expenses other than those stated above. The Bidder shall also clearly outline the basis for determining any engineering and overhead expenses that might be chargeable to the Purchaser by reason of this provision. The Bidder shall understand in connection with the cancellation provision that it shall not in any way interfere with the normal preparation of drawings and commencement of engineering which shall begin immediately upon award of this business and shall proceed at a rate that will not delay , the Contractor in supplying the Purchaser with drawings and complete l engineering information. i Deferment

59. With respect to the successful Bidder for the equipment covered by this Inquiry, it shall be understood and agreed that the Purchaser will retain the right to defer shipment, provided the Contractor is notified of such deferment 1 year prior to scheduled shipment. In the event of deferment up to but not beyond 1 year after scheduled shipment, the Bidder shall state what effect if any, such deferment will have on any of the prices and/or pricing provisions contained in the base proposal.. All other terms and conditions shall remain unchanged unless modified by mutual agreement. In the event of deferment beyond 1 year after scheduled shipment, the order shall be cancelled unless mutually satisfactory terms and conditions can be agreed upon.

7 MAR 77 14

Qualification of Bidders

60. The equipment offered in response to this Inquiry shall be of highest quality in materials and workmanship and shall be capable (from demonstrated experience) of full compliance with the specification require-ments as related to capacity, performance and design adequacy. In order to receive full and equal consideration each Bidder must be able to show that he has manufactured and placed in satisfactory and regular operating service equipment similar in design and equivalent in size, capacity, general design, etc., to that covered by this Inquiry. A list of installation similar to the equipment bid upon shall accompany each bid.

l l 7 MAR 77 15

TECHNICAL PROVISIONS FOR INSTRUMENT AND SPECIALTY CABLE FOR THE GEORGIA POWER COMPANY V0GTLE ELECTRIC GENERATING PLANT BURKE COUNTY, GEORGIA SPECIFICATION NO. X3AJ04 REVISION 2 MAY 17, 1982 PROJECT CLASS 11E, 62E 2 l i l l 1

e .- --- -,--- X3AJ04 R v. 2 TABLE OF CONTENTS 1.0 SCOPE 1.1 WORK INCLUDED 1.2 WORK NOT INCLUDED 2.0 APPLICABLE DOCUMENTS 2.1 ABBREVIATIONS 3.0 CNARACTERISTICS 3.1 PHYSICAL 3.2 PERFORMANCE 3.3 ENVIRONMENTAL CONDITIONS 4.0 DESIGN AND CONSTRUCTION 4.1 DESIGN REQUIREMENTS 4.2 MATERIALS AND PROCESSES _ 4.3 IDENTIFICATION AND MARKING 4.4 WORKMANSHIP 5.0 INSPECTION AND TESTS 5.1 GENERAL 5.2 INSPECTION 5.3 TEST 6.0 PREPARATION FOR DELIVERY 6.1 EQUIPMENT LEVEL 6.2 PACKAGING 6.3 SHIPPING i

X3AJ04 Rev. 11 ATTACHMENTS ATTACHMENTS EA ENVIRONMENTAL CONDITIONS EA-1 CONTAINMENT BUILDING, REV. 6 EA-2 CONTAINMENT BUILDING, REY. 6 EA-3 CONTAINMENT BUILDING, REY. 6 EA-7 AUXILIARY BUILDING, REV. 6 EA-8 AUXILIARY BUILDING, REY. 6 EA-13 AUXILIARY BUILDING, REV. 6 I EA-14 AUXILIARY BUILDING, REV. 6 EA-16 AUXILIARY BUILDING, REV. 6

                                                                                                                        ~

l ! EA-17 AUXILIARY BUILDING, REV. 6 l EA-18 AUXILIARY BUILDING, REV. 6 EA-19 AUXILIARY BUILDING, REV. 6 11 EA-20 AUXILIARY BUILDING, REV. 6 EA-21 AUXILIARY BUILDING, REV. 6 EA-22 AUXILIARY BUILDING, REY. 6 EA-23 AUXILIARY BUILDI"G, REV. 6 EA-25 AUXILIARY BUILDING, REV. 6 EA-27 AUXILIARY BUILDING, REV. 6 EA-28 AUXILIARY BUILDING, REV. 6 EA-29 AUXILIARY BUILDING, REV. 6 EA-30 AUXILIARY BUILDING, REY. 6 i EA-31 AUXILIARY BUILDING, REY. 6 EA-33 AUXILIARY BUILDING, REV. 6 EA-37 AUXILIARY BUILDING, REV. 6 EA-38 AUXILIARY BUILDING, REV. 6 l 11

13AJ04 Rev. 11 EA-39 AUXILIARY BUILDING, REY. 6 EA-40 AUXILIARY BUILDING, REY. 6 EA-41 AUZILIARY BUILDING, REV. 6 EA-42 AUIILIARY BUILDING, REV. 6 EA-43 AUXILIARY BUILDING, REV. 6 EA-76 RADWASTE TRANSFER BUILDING, REV. 6 EA-77 RADWASTE SOLIDIFICATION BUILDING, REV. 6 EA-78 RADWASTE SOLIDIFICATION BUILDING, REY. 6 EA-79 RADWASTE SOLIDIFICATION BUILDING, REV. 6 EA-80 RADWASTE SOLIDIFICATION BUILDING, REY. 6 11 EA-81 RADWASTE SOLIDIFICATION BUILDING, REY. 6 - FIGURE 1 TEMPERATURE CONDITIONS FOR EQUIPMENT QUALIFICATION IN THE AUXILIARY BUILDING, REV. 6 FIGURE 4 TEMPERATURE CONDITIONS FOR EQUIPMENT QUALIFICATION IN THE AUXILIARY BUILDING, REY. 6 i FIGURE 6 PRESSURE CONDITIONS FOR EQUIPMENT QUALIFICATION IN THE AUZILIARY BUILDING, REY. 6 l FIGURE 7 TEMPERATURE CONDITIONS FOR EQUIPMENT QUALIFICATION INSIDE MSIV OR MFIV AREA, REV. 6 FIGURE 8 PRESSURE CONDITIONS FOR EQUIPMENT QUALIFICATION INSIDE MSIV OR MFIV AREA, REV. 6 FIGURE 9 TEMPERATURE CONDITIONS FOR ENVIRONMENTAL QUALIFICATION INSIDE CONTAINMENT (VAPOR REGION), REY. 6 FIGURE 10 TEMPERATURE CONDITIONS FOR EQUIPMENT QUALIFICATION INSIDE CONTAINMENT (SUMP REGION), REV. 6 FIGURE 11 PRESSURE CONDITIONS FOR EQUIPMENT QUALIFICATION INSIDE CONTAINMENT, REY. 6 APPENDIX APPENDIX EA QUALIFICATION REQUIREMENTS FOR SAFETY-RELATED EQUIPMENT, DEVICES, AND INSTRUMENTATION REV. 3 til

X3AJ04 Rev. 2 1.0 SCOPE 1.1 WORK INCLUDED This specification covers the design, manufacture, inspection, shop testing, and delivery of instrumentation and specialty cable on a " Contingent Pur-chase Order" basis. The quantities as shown represent estimated require-ments and may be subject to change (increase / decrease) according to actual job requirements. Upon receipt of " Release to Ship" order, Contractor is to ship the quantities requested. The order is to stay open until January 1985. 1.2 WORK NOT INCLUDED This specification does not include the following:

1. Receiving, unloading, handling, and storage of cable at jobsite.
2. Installation and connection of cable at the jobsite.
3. Field testing, unless otherwise indicated. ,

2.0 APPLICABLE DOCUMENTS The following documents of the issue in effect on date of notification of award form a part of th's specification except where dates are specially noted. CODES AND STANDARDS ANSI MC96.1 American National Standard for Temperature Measurement Thermocouples ANSI N45.2.2-1972 Packaging, Packing, Shipping, Receiving, Storage and Handling of Items for Nuclear Power Plants , ASTM B 8 Concentric-Lay-Stranded Copper Conductors, Hard, ! Medium-Hard or Soft l ASTM B 3 Specification for Soft or Annealed Copper Wire ASTM B 33 Tinned Soft or Annealed Copper Wire for Electrical Purposes ASTM D 2671 Testing Heat-Shrinkable Tubing ASTM D 2863 Testing for Flammability of Plastics Using the Oxygen Index Method I t l t 1

X3AJ04 Riv. 2 ICEA S-68-516 Cable Rated 0-35,000 Volts and Having Ozone-resistant 2l Ethylene Propylene Rubber Insulation MIL-W-22759/16 Wire, Electric, ETFE, Fluoropolymer, Insulated Medium Weight, Tin-Coated Copper, 600 Volts MIL-C-27500 Cable, Electric, Shielded and Unshielded Aircraft and Missile NEMA WC-21 Non-returnable Reel 2 IEEE 323 IEEE Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations IEEE 383 IEEE Standard for Type Test of Class 1E Electric Cables, Field Splices, and Connections for Nuclear Power Generating Stations ICEA S-19-81 Rubber-Insulated Wire and Cable for the Transmission and Distribution of Electrical Energy 2 ICEA S-61-402 Thermoplastic-Insulated Wire and Cable for the Trans- - mission and Distribution of Electrical Energy ICEA S-66-524 Cross-Linked Thermosetting Polyethylene-Insulated Wire and NEMA and Cable for the Transmission and Distribution of WC7 Rev 5 Electrical Energy Oct. 1976 MIL-C-17 Cables, Radio Frequency; Coaxial, Dual Coaxial, Twin Conductor and Twin Lead Omission of any Codes and Standards does not relieve the manufacturer of his responsibility to follow all applicable Codes and Standards. 2.1 ABBREVIATIONS The abbreviations listed below shall have the following meanings where used: ANSI American National Standards Institute i ASTM American Society for Testing and Materials i AWG American Wire Gauge MIL Military Specification IEEE Institute of Electrical and Electronic Engineers 2l ICEA Insulated Cable Engineers Association 2

1 l 13AJ04 Rev. 10 ISA Instrumentation Society of America 4 NEMA National Electrical Manufacturers Association 3.0 CHARACTERISTICS 3.1 PHYSICAL A. The cable shall be suitable for installation indoors and outdoors in conduit, metal trays, and underground duct banks using American Colloid Co. slip I 300 or American Polywater cable pulling lubricant and Gem Gravure ink Type HCP. Outdoors, the cable may be exposed to direct sunlight, rain, etc. B. All cables shall be class 1E cables unless otherwise specified. - C. All cables offered under this specification shall have a desitn life . expectancy of 40 years, plus one year post DBA qualification. D. Unless otherwise specified, cable shall be suitable for continuous use at conductor temperature not exceeding 90 C, (75 C for coaxial and triaxial cables) emergency overload temperature rating of 130 C, and short-circuit temperature rating of 250 C in an ambient temperature of 40 C or 50 C. - Continuous temperature of 90 C shall not prevent the cable fece successfully performing its intended function. E. Pressurizer heater cables shall be designed for an installed life 10 expectancy of 20 years at the specified service and environmental conditions. 3.2 PERFORMANCE i l 3.2.1 Ratinas i I All cables offered under this specification shall have a 600-volt insulation rating as defined by ICEA Publication No. S-19-81, ICEA Publication No. S-68-516, ICEA Publication No. S-66-524, whichever shall apply, except coaxial or triaxial cable. Coaxial and triaxial cables shall have a minimum nominal insulation voltage rating of 800 volts and 2 kV de respectively; and minimum dielectric withstand voltage of 2 kV de and 3 kV de for 1 minute respectively. l 3.2.2 Punctional Requirements I A. Instrumentation cables shall be suitable for low energy signal transmission. B. Thermocouple extension cables will be used for thermocouple omf transmission. ! C. Coaxial and triaxial cables will be used for noise-free transmission of low-level signals.

D. Switchbosed wire will be used for internal panel wiring.

l l ! 3 4

     , - - - . . - ,         . , , . . , . . -             . , - - . - - . - . _ - ,                   ...- - - - - -..., _ _ -,, -- - ,. -._~ .. _ , --.         . ._-

K3AJ04 Rev. 10 3.3 ENVIRONMENTAL CONDITIONS The cable shall be capable of normal operation during or af ter exposure to any of the ' allowing conditions. The cable will be subjected to outdoor ambient tempers ires and dust during construction, and start-up at which time it will be in weevice. Class IE cables shall be subjected to environmental conditions as described in Attachments EA-1 through EA-3 and Appendix EA except Class lE triaxial / coaxial cables shall be subjected to DBA/ Post DBA temperature of 320 F as shown on Figure 7 of Attachment EA, and switchboard wire for which the Attachments EA-4 and EA-15, with the exception for environmental designators in which the integrated radiation dosage is 2.0 x 108 rads (including 10 percent margin) shall be used. Class 1E triaxial / coaxial cables shall meet Attachments EA-2 and EA-3 for sump region only. The portion of Appendix EA that refers to Appendix QG is not applicable to this specification. 3.3.1 Altitude of Jobsite Altitude of jobsite, 220 feet above sea level; barometric pressure, 14.7 psia. I 3.3.2 Temperature The atmospheric temperatures at the jobsite are as follows: -

1. Maximum Suruner Temperature: 98 F dry bulb (82 F wet bulb).
2. Minimum Winter Temperature: 17 F dry bulb.

3.3.3 Humidity The relative humidity ranges from 45 to 100 percent, the average being 72 percent. 3.3.4 Indoor Service Conditions A. All Class 1E cables shall be suitable for use in the containment building under the following service conditions:

1. Continuous operation in a 120 F ambient temperature at 50 percent

! relative humidity.

2. Forty years integrated radiation dosage of 2.0 x 108 rade (including 10 percent margin).
3. A containment atmospheric pressure regulated between 13.2 psia and 17.7 psia. This atmosphere may consist of either oil-free gaseous nitrogen with not more than 5 percent by volume of oxygen, or of filtered free air.

B. Switchboard wire and all Non-Class 1E cables shall be suitable for use in the containment building under the following service conditions:

1. Continuous operation in a 120 F ambient temperature at 50 percent relative humidity.

4

13AJ04 Rev. 10

2. Forty years integrated radiation dosage of 2.0 x 10 6 rads (does not include 10 percent margin).

C. Insulation level for pressuriser heater cables shall be 2 kV (133 percent level), suitable for use in the containment building under the following conditions:

1. System: 480V, 3-phase, 3-wire, 60 Hertz, ungrounded delta. ,
2. Maximum conductor temperature: 200 C continuous.
3. Forty-year integrated radiation dosage of 2.0 x 10 6 rads (does not include 10 percent margin).
4. A containment pressure regulated to between 13.2 psia and 17.7 psia.

3.3.$ DBA Conditions All Class 1E cables shall, at any time during thsic 40 year expected lifetime, be able to withstand (maintain electrical integrity during and after) the 1 conditions for Design Basis Accident (DBA) as described in Appendix EA and . Attachments EA-1 through EA-3, except Class II triaxial / coaxial cables shall be subjected to DBA/ Post DBA temperature of 320 F as shown on Figure 7 of Attachment EA, and switchboard wire which the Attachments shall be EA-4 and EA-15, with the exception for envirenmental designators in which the i l integrated radiation dosage is 2.0 x 108 rads (including 10 percent margin). 4.0 DESIGN AND CONSTRUCTION i 4.1 DESIGN REQUIREMENTS j 4.1.1 General A. All cables specified herein shall conform to the applicable require-ments of ICEA, IEEE, ANSI, MIL, and NEMA. B. No asbestos shall be used in the construction of cables. C. No Polyvinyl-Chloride (PVC) compounds shall be used in the con-struction of cables. D. The pressurizer heater power cables are non-Class-1E. . 10 E. The metal-clad cables are non-Class-1E. As

X3AJ04 Rev. 10 4.1.1.1 Insulation (Does apply to coaxial or triaxial cable) A. The standard insulation shall consist of flame-retarding, moisture, radiation, and ozone-resisting thermosetting compounds (with the exception that specific non-thermosetting compounds identified in Paragraph B are acceptable) meeting the test requirements of Paragraph 5.3. B. Acceptable materials for insulation are Flame-Retardant Ethylene-Propylene (FR-EP), Flame-Retardant Cross-Linked Polyethylene (FR-KLPE), Flame-Retardant Ethylene-Propylene Rubber (EPR) Tefzel (ETFE), and Flame-Retardant Cross-Linked Polyolefin (FR-KLPO). Nominal thickness for FR-EP, FR-XLPE, and EPR insulation shall be 30 mils. Insulation thickness for FR-KLPO shall be 25 mils. C. The minimum insulation thickness at any point shall not be less than 90 percent of the nominal thickness (80 percent for switchboard wire). The maximum wall thickness at any point shall not exceed 112 percent of the nominal thickness (not applicable to metal-clad cable). l10 D. The minimum thickness for Tefsel insulating material shall be 20 mils. E. Insulation thickness shall conform to the requirements of ICEA . Publication No. S-19-81 Part 3 and Table 3.2, ICEA Publication No. S-66-524 10 Part 3, Table 3.1, Section 7.7.3.2, and Table 7.32. ICEA Publication No. S-68-516 Part 3 and Table 3.1, and MIL-W-22759/16, whichever shall apply. F. Insulation shall be free-stripping from the conductor. 4.1.1.2 Binder Tape (Dons not apply to coaxial or triaxial cable) Multiconductor cables shall be wrapped with a glass reinforced tape treated for moisture and flame resistance. The wrap shall have a minimum of 12.5 percent overlap. 4.1.1.3 Cabling and Fillers (Does not apply to coaxial or triaxial cable) All cables shall be of round construction. The conductors of all multi-conductor cables shall be cabled and where necessary the interstices filled to provide a firm, circular cross-section. The fillers shall be of a material compatible with the other components of the cable. They shall be non-wicking, flame-retardant, not sticky, nonhygroscopic, and shall not adhere to the individual conductors or the separator or binder tape. A tape separator or binder shall be applied between the individual cabled conductors, and the common overall jacket. The tape shall not affect color coding of the conductors. 5

X3AJ04 R;v. 4 4 4.1.1.4 Jacket (Does not apply to coaxial or triaxial cable) A. The standard jacket shall consist of flame-retarding, moisture, radiation, and ozone resistance thermosetting compounds (with the exception that specific non-thermosetting compounds identified in Paragraph E are acceptable) that will neither support combustion nor propagate flame, and shall meet the test requirements specified in Paragraph 5.3. B. Jacket thicknesses shall conform to the requirements of ICEA Publica-tion No. S-19-81, Paragraph 4.13.9, or ICEA Publication No. S-66-524 Paragraph 4.3.3, ICEA Publication No. S-68-516 Paragraph 4.4.10, MIL-C-27500, whichever shall apply. C. The minimum jacket thickness at any point shall not be less than 80 percent of the nominal thickness. D. PVC is not acceptable for jackets on any cables covered by this specification. E. Acceptable jacketing materials are Chlorosulfonated polyethylene (Hypalon), Chlorinated polyethylene (CPE), and Tefzel. F. Jackets shall not be coated with or contain any compounds which will interfere with field painting and marking of the cable. G. All cables shall be non-armored. I 4.1.2 Shielded Instrumentation Cable 4.1.2.1 Cable Construction A. Individual conductors shall be insulated, and twisted into pairs, triads, quads, etc. the minimum lay for pairs, triads and quads shall be 2 to 2-1/2 inches. B. Each twisted pair, triad, or quad shall be shielded. For multiple pairs, etc. cable, shields shall be isolated from each other. C. Cable assemblies shall be provided with an overall Jacket. D. Cable assembly with an overall shield shall consist of individual insulated conductor with an overall jacket. 4.1.2.2 Conductors A. Wire shall be soft or annealed tinned copper in accordance with ASTM B 33. l 6

X3AJ04 Riv. 2 B. Conductor stranding shall be Class B in accordance with ASTM B 8. C. Solid wire is not acceptable. D. Sizes and number of conductors for cables are listed in the Proposal Form, Items 1 through 21. 4.1.2.3 Insulation Cable insulation shall be in accordance with Paragraph 4.1.1.1. The insulation shall be rated 600 volts as defined by ICEA S-19-81, ICEA 2 j S-66-524, ICEA S-68-516 and MIL-W-22759/16. 4.1.2.4 Shielding Single pair cables shall be provided with drain wire not less than two AWG sizes smaller than the insulated conductors, to a minimum drain wire size of No. 20 AWG. Multiconductor cables shall have an overa ll shield with drain wire sized not less than the size of the smallest con-ductor in the cable. The drain wire shall be in contact with an overall copper foil tape not less than 3 mils thick, or copper-backed sylar tape, - or aluminum-backed sylar tape, with 25 percent overlap to provide l 100 percent shield coverage. Tinned, or untinned tightly woven copper braid ! with minimum 85 percent shield coverage, and copper drain wire may also be j used. Drain wires must be in intimate contact with the metal shield. Nylar i tapes shall be wrapped with the metallic side against the drain wire. 4.1.2.5 Jacket All multiconductor cable core assemblies shall be covered with an overall Jacket in accordance with Paragraph 4.1.1.4. 4.1.2.6 Color Coding A. For pairs one conductor shall be white and the other conductor shall follow the color sequence of Table 5-2 from ICEA S-19-81 omitting white. l2 B. For triads one conductor shall be white, one black, and the third 4 conductor shall follow the color sequence of Table 5-2 from ICEA S-19-81 l2 omitting white and black. i l C. For quads one conductor shall be white, one black, one red, and the 1 fourth conductor shall follow the color sequence of Table 5-2 from ICEA S-19-81 omitting white, black, and red. l2 D. Conductor marking shall' appear at intervals not to exceed 6 inches along the entire length of the cable. Color coding for multi-conductor cable pairs, triads, and quads shall be in accordance with ICEA S-19-81 2 Section 5.6.3.1.1. Multiconductor cables other than pairs, triads, and quads shall be color-coded per ICEA Method 1, non-repeating. 7

X3AJ04 R:v. 2 4.1.3 Unshielded Instrumentation Cable Deleted 4.1.4 Rod Position Indication Cable , l 4.1.4.1 Cable Construction This cable shall consist of a shielded, 22-conductor cable No. 20 AWG and a l shielded. 2-conductor cable No. 12 AWG with the shields isolated. An overall Jacket shall enclose the two shielded cables. 4.1.4.2 Conductors A. Wire shall be soft or annealed tinned copper in accordance with ASTM B 33. B. Conductor stranding shall be Class B in accordance with ASTM B 8. s C. Solid wire is not acceptable. D. Sizes and number of conductors for cables are listed in the Proposal Form, Item 26. 4.1.4.3 Insulation Cable insulation shall be in accordance with Paragraph 4.1.1.1. The insulation shall be rated 600 volts as defined by ICEA S-19-81, ICEA 2 Publication No. S-66-524. ICEA Publication No. S-68-516, or MIL-W-22759/16, whichever shall apply. The insulation maximum nominal thickness shall be 30 mils for No. 12 AWG, and 25 mils for No. 20 AWG conductors. 4.1.4.4 Shielding Single pair cables shall be provided with a drain wire not less than two AWG sizes smaller than the insulated conductors, to a minimum drain wire size of No. 20 AWG. Multiconductor cables shall have an overall shield with drain wire sized not less than the size of the smallest con-ductor in the cable. Drain wire shall be in contact with an overall copper foil tape not less than 3 mils thick, or copper-backed sylar tape, or aluminum-backed sylar tape, with 25 percent overlap to provide 100 per-cent shield coverage. Tinned, or untinned tightly woven copper braid with minimum 85 percent shield coverage, and copper drain wire may alst be used. Drain wires must be in intimate contact with the metal shield. Mylar tapes shall be wrapped with the metallic side against the drain wire. 4.1.4.5 Jacket All multiconductor cable core assemblies shall be covered with an overall Jacket in accordance with Paragraph 4.1.1.4. 8

X3AJ04 R2v. 4 4.1.4.6 color Coding Individual conductors of multiconductor cables shall be color coded using Method 1 of ICEA S-19-81, Section 5.6.3.1. Conductor markings shall appear at intervals not to exceed 6 inches along the entire length of the cable. 4.1.5 Coaxial and Triaxial cable A. Triaxial cable shall have performance characteristic similar to Type RG11/U Item 27 in the Proposal Form, and be suitable for use in the containment environment, with maximum outside diameter of 0.475 inches and compatible with Amphenol Triaxial Plug PN53175 and Triaxial Jack PN52975 or equal. B. Coaxial cables shall have performance characteristics similar to RG-58C/U, 59B/U, RG-6/U or RG-11/U as required. In addition, cable RG-6/U shall have a maximum outside diameter of 0.270 inches. C. Shields shall be tinned, tightly woven copper braid with a minimum 85 percent shield coverage. D. The cable shall be in accordance with Mil-C-17D and ICEA S-66-524 , 4 Paragraphs 3.6.1, 3.6.3 and 4.3.2, and as indicated below: E. Triaxial cable de resistance shall meet the following:

1. Conductor 7.2 ohms per 1000 feet, maximum.
2. Inner shield 5.9 ohms per 1000 feet, maximum.
3. Outer shield 4.1 ohms per 1000 feet, maximum.

F. Insulation breakdown voltage shall be a minimum 2500 volt dc. When applied between center wire and inner shield, there should be no evidence of breakdown for 1 minute. G. Insulation resistance as measured by a 500 volt de megohameter for a 1000 feet of cable shall be a minimum as follows:

1. Triaxial Cable:
a. Center wire to inner shield 1013 ohm feet minimum
b. Inner shield to outer shield 1011 ohm feet minimum
c. Outer shield to ground 108 ohm feet minimum
2. Coaxial Cable:
a. Center wire to shield 1012 ohm feet minimum
b. Shield to ground 108 ohm feet minimum 9

X3AJ04 Riv. 5 H. Corona extinction shall be as follows:

1. Triaxial / coaxial cable similar to RG-11/U 3000 Volt ras, minimum
2. Coaxial cable similar to RG-6/U 2700 Volt ras, minimum
3. Coaxial Cable similar to RG-58C/U 1900 Volt ras, minimum
4. Coaxial Cable similar to RG-59B/U 2300 Volt ras, minimum I. Tests shall be performed in accordance to MIL-C-17D with the specific requirements as indicated above and to ICEA S-66-524 Paragraph 6.4.11, 6.4.12 and 6.6 (the average stress of 80 and 40 volts per mil shall be changed to 80 and 40 volts per mil maximum stress at the conductor).

J. When tested in accordance with Paragraph 4.1.5.I, the jacket and the insulation shall meet the following requirements:

1. Physical requirements:

Tensile strength, minimum psi: 1500 5 Elongation at rupture, minimum percent: 250 ,

2. Aging requirements:

After air oven test at 121 C 11 C for 168 hours, tensile strength and elongation at rupture, minimum, percentage of unaged value: 70 4.1.6 Thermocouple Extension Cable 4.1.6.1 Cable Construction Individual conductors shall be insulated and twisted together into pairs with a minimum lay of from 2 to 2-1/2 inches. Each twisted pair shall be shielded. For multiple pair cables, the shields shall be isolated from each other. 4.1.6.2 Conductors A. Conductors shall be solid. No. 16 AWG wire shall be provided for single-pair and two pair cable, and No. 20 AWG wire shall be provided for multiple-pair cable. B. Chromel-Alueel extension wires shall be Type "KX", premium grade with limits of error of 12.2 C over a temperature range: 0 to 200 C in accordance with ANSI MC96.1, Table VIIIa. C. Copper-Constantan extension wires shall be Type "TX", premium grade with limits of error of 11.0 C over a temperature range: -60 to 100 C, in accordance with ANSI MC96.1, Table VIIIa. D. Chromel-Constantan extension wires shall be Type "EX", standard grade with limits of error of it.7 C over a temperature range: 0 to 200 C, in accordance with ANSI MC96.1, Table VIIIa. 10

X3AJ04 Rsv. 5 E. Iron-Constantan extension wires shall be Type "JX," standard grade with limits of error of 12.2 C over a temperature range: 0 to 200 C in accordance with ANSI MC96.1, Table VIIIa. F. Sizes and number of conductors for cables are listed in the Proposal Form, Items 28 through 38. 4.1.6.3 Insulation Chromel-Alumel, Copper-Constantan, Chromel-Constantan and Iron-Constantan wire - Each single conductor shall have extruded cross-linked polyethylene, or cross-linked polyolefin compounds, or ethylene-propylene rubber, or silicon rubber insulation. 4.1.6.4 Shield Chromel-Alumel, Copper-Constantan, Chromel-Constantan and Iron-Constantan pairs shall have an aluminum backed mylar tape shielding. A No. 20 AWG copper drain wire shall be beneath and in direct contact with the shield. 4.1.6.5 Jacket

                                                                               ~

, Chromel-Alumel, Copper-Constantan, Chromel-Constantan and Iron-Constantan pairs shall have extruded Hypalon jacket. 10=

I3&J04 Rev. 10 4.1.6.6 Color Coding Chromel-Alumel, Copper-Constantan, Chromel-Constantan and Iron-Constantan - Insulations and jackets shall be color coded in accordance with ANSI NC96.1. 4.1.7 Pressurizer Hester Cable Pressurizer heater cable shall be single conductor with silicone-rubber insulation covered by glass braid, and an overall flame and abrasion resistant jacket. Jacket shall be non-asbestos. 4.1.8 Metal-Clad Cable 4.1.8.1 Cable Construction A. Individual conductors shall be insulated, and twisted into pairs, triads, 10 quads, etc. Conductors and drain wires shall be tin or lead alloy coated stranded copper. B. Cable shall be suitable for continuous use of conductor temperature not exceeding 90 C, emergency overload temperature of 130 C, and short-circuit , temperature rating of 250 C. C. Insulation level shall be 600V (133 perc3nt level). Insulation shall be flame-retardant Ethylene-Propylene Rubber (EPR) or approved equal. D. Metallic sheath shall be interlocking galvanized steel. 4.2 MATERIALS AND PROCESSES 1 4.2.1 Materials All materials used in fabrication shall be new and meet the requirements of

)

this specification, and shall be subject to the acceptance of the Purchaser. All materials, supplies, and articles not fabricated or manufactured by the j Contractor shall be the products of recognized reputable manufacturers who j shall be required to maintain a quality program and supply documentary j evidence of quality compliance with the requirements of this specification. i 4.2.2 Defective Katerial i A. After the cable has been installed, if it is discovered that it or any part thereof requires correction, the Purchaser shall immediately notify the Contractor and shall have the right to use such cable until such time as it is convenient to the Purchaser that such cable be removed from service for

correction.

B. If it is determined that defective cable was not damaged during ship-ping or installation, but the defect (s) occurred in the manufacturing pro-I cess, the cost of repairing and/or replacing such cable shall be borne by the manufacturer. 11 i

13AJ04 R;v. 10 4.3 IDgNTIFICATION AND MARKING 4.3.1 Identification of Manufacturer The cable jacket shall incorporate a durable lifetime identification which shows the manufacturer's name, year of manufacture, cable type and cable code (see proposal pages for cable codes) at intervals not to exceed 3 feet. For this purpose, embossing, engraving, or printing on the surface of the cable may be used. (Cable code marking is not required for switchboard cable) 4.3.2 Cable Length Indications A. Sequential foot markings are numbered for each cable reel. Besinning with the lowest number at the end adjacent to the reel center, footage markings shall appear at a maximum of 3-foot intervals. Beginning and ending numbers shall be noted on the reel tag. Sequential foot markings are not required for switchboard wire. B. Finished cables shall not contain any splices. C. Splicing of completed cable to meet required shipping lengths is pro-hibited except the Seller is allowed to ship 75 percent of the total quantity , in maximum lengths with no reel less than 1500 feet. If the total quantity is less than 1500 feet then the length tolerance does not apply. 4.3.3 Field Paintina of Cables t A. The Bidder shall include in his Proposal recommendations for specific

types of paint or ink which are compatible with his cables and the accept-able application techniques. It shall be the Contractor's responsibility to insure that the outer surface of all cables shall not be coated with or contain any compounds which will interfere with the field painting of the cables.

, B. All cables shall be black. ! 4.4 WORXMANSHIP l ' The details of workmanship shall be of the highest quality consistent with the intentions of this specification. 5.0 INSPgCTION AND TESTS 5.1 GENERAL After award but prior to the beginning of manufacture, fabrication or installation of materials, systems, or components, witness and hold points i shall be established by the Purchaser to observe the performance of l manufacturing processes, inspections, or tests to verify compliance with requirements of this specification and applicable Codes or Standards, i Purchaser's Supplier Quality Representative (SQR) shall designate to the i Contractor those witness and bold points in which he or the Purchaser shall i participate. l l l l 12 1

 - - , - - - - - - - , - - - - - -        w ,             ,y,        .--.,.e..,-._,------,-m, . - , , , - , - - - - - - - - - . . .
13AJ04 Rev. 10 5.1.1 Witnessina i A. Witness points are defined as critical steps in manufacturing and testing whereby the Contractor is obligated to advise the SQR 3 to 5 days in advance
of the operation so that it may be witnessed by the SQR, but the Contractor l may proceed with the work past the witness point if the SQR is not available j at the appointed time.

i j B. Hold points are defined as critical steps in manufacturing and testing { whereby the Contractor is obligated to advise the SQR 3 to 5 days in advance  : of the operation so that it may be witnessed by the SQR and the Contractor may

not proceed with the work past the hold point except by written agreement from j the Purchaser.

. 5.1.2 Field Teste I If performance tests are to be made in the field, they shall be made at times and under conditions to be mutually agreed upon by the Purchaser and the Contractor. 5.2 INSPECTION Inspection of the cable may be done at the Contractor's factory or upon receipt at destination,-as decided by the Purchaser's duly authorized

representative. The cable shall not be prepared for shipment or shipped l before the Purchaser's duly authorized representative has either inspected the

{ cable or waived inspection. The waiving of inspection at the factory shall in no way relieve the contractor of the responsibility of furnishing cable in accordance with this specification. 5.3 TEST Completed cables and cable materials (insulation and jacket) shall be factory-tested in accordance with all applicable tests of ICEA S-19-81, 3 ICEA S-68-516. ICEA S-66-524, or Section 4.1.5.I whichever applies, and shall ! meet all requirements set down therein. These teste shall include, j but not be limited to, physical and aging test, high voltage dielectric test (ac and de), conductor resistance measurements, insulation resistance 4 measurements, corona extinction level, and moisture absorption test. Completed cables shall pass all type tests required by IEEE 383. Individual

conductors shall pass the flame test of ICEA S-19-81, Paragraph 6.19.6.

In addition, the completed cables shall pass the Flame Test of Para-l graph 5.3.3.3 (except coaxial / triaxial cable), and LOCA Survival Tests, etc. l of Paragraphs 5.3.3.4 and 5.3.3.5 (except non class 1E cables). Certified test reports of the Contractor's tests showing that all cables l are suitable for operation under the service conditions described herein will be required. Documentation according to IEEE 383 shall be included. Documentation for IEEE 383 qualification of Tefsel insulation systems 3 must specifically identify the manufacturer's cable in the test results. Generic documentation from the insulation manuf acturer will not be acceptable. 5.3.1 Insulation Tests i i 5.3.1.1 Physical Insulation Tests (does not apply to coaxial or triaxial cable) 13 1

13AJ04 Rev. 10 i Physical insulation tests shall be performed in accordance with Para-graphs 6.4.11 and 6.4.12 of ICEA S-66-524, Paragraphs 6.4.13 and 6.4.14 of 4 ICEA S-19-81, or Paragraphs 6.4 through 6.10 of ICEA S-68-516, whichever applies. 5.3.1.1.1 Initial Requirements

1. Tensile strength, minimum PSI: 700 i
2. Elongation at rupture, minimum percent: 250 (all cables except pressurizer heater cable)

I

3. Elongation at rupture, minimum percent
300 (pressurizer heater 10 cable)
4. The Contractor shall meet the requirements of Paragraph 5.3.1.1.1.3a or 5.3.1.1.1.3b.
a. Heat distortion test, 121 C 11 C for 1 hour (or at 150 C for 10 minutes) with the following parameters:

ILP0 Insulation: 30 percent 400 grams - Hypalon Jacket: 15 percent at 2000 grams

b. Set in 2-inch gauge length, maximum inches, 1/2.

1 5.3.1.1.2 Physical Requirements Af ter Accelerated Aging i A. After Air Oven Test (168 hours at 121 11 C or at 100 11 C for ILPO i insulation) - The air oven test shall be performed in accordance with l Paragraph 6.4.12 of ICEA S-66-524 or Paragraph 6.4.14 of ICEA S-19-81, l whichever applies.

1. Tensile strength, minimum percent of original: 75.
2. Elongation, minimum percent of original: 75.

B. Af ter Air Pressure Heat Test (42 hours at 80 psi,127 C 11 C).

1. Tensile strength, minimum percent of unaged value: 50 (all cable except pressurizer heater cable).
2. Tensile strength, minimum percent of unaged value: 85 (pressurizer heater cable).

10 3. Elongation at rupture, minimum percent of unaged value: 30 (all cable except pressurizer heater cable).

4. Elongation at rupture, minimum percent of unaged value: 75 (pressurizer heater cable).

14

X3AJ04 Rev. 10 5.3.1.1.3 Ozone ResLJtance Exposure to an osone concentration of 0.025 to 0.030 percent by volume for a continuous period of 3 hours shall not produce cracks in insulation. 5.3.1.1.4 Moisture Absorption Tests Moisture absorption tests shall be performed in accordance with ICEA S-19-81, Sections 3.13.3, 6.9, or ICEA S-66-524, Section 3.6.3, 6.6 and ICEA S-68-516, Section 3.6.3.2 and 6.21, whichever applies, and the following requirements:

1. For Ethylene-Propylene-Rubber insulated wire and cable the following applies:
a. Electrical Method (Lemersed at 75 C 1 C tested at an average stress of 80 volts per mill, 60 hertz)

(1) Dielectric constant, specific inductive capacitance (SIC) after 24 hours immersion, maximum 4.0. (2) Increase in SIC, 1 to 14 days, maximum percent: 3.5. (3) Increase in SIC, 7 to 14 days, maximum percent: 1.5. (4) Stability factor after 14 days, maximum: 1.0.

b. Gravimetric Method (immersed for 168 hours at 70 C il C).

Moisture absorption, maximum milligrams per square inch: 5.

2. For Cross-Linked-Polyethylene insulated wire and cable the following applies:
a. Electrical Method (immersed at 75 C 11 C tested at an average stress of 80 volts per mill, 60 hertz)

(1) Dielectric constant, specific inductive capacitance (SIC af ter 24 hours 1:mnersion, maximum, 6.0. (2) Increase in SIC,1 to 14 days, maximum percent: 3.0. (3) Increase in SIC, 7 to 14 days, maximum percent: 1.5. (4) Stability f actor af ter 14 days, maximum: 1.0. 5.3.1.2 Electrical Insulation Tests (does not apply to coaxial or triaxial cable) Each individual length of insulated conductor, after a minimum of 6 hours immersion in water, shall meet the high voltage and insulation resistance tests specified below. 15

X3AJ04 Rev. 10 5.3.1.2.1 High Voltage AC A. Each length of insulated conductor shall pass the following ac Electrical Voltage Test at 60 Hz: No. 14 AWG and Larger - 5 minutes at 5.0 kV (4.0 kV for switchboard wire) No. 16 AWG and Smaller - 5 minutes at 2.5 kV B. Test voltage for metal-clad cables shall be as specified in ICEA S-66-524: No. 8 AWG and larger - 5 minutes at 5.5 kV ac No. 9 AWG thru No.14 - 5 minutes at 3.5 kV ac No. 16 AWG and smaller - 5 minutes at 2.5 kV ac 5.3.1.2.2 Insulation Resistance Each length of insulated conductor, following the 5-minute ac voltage test, shall show an insulation resistance, corrected to 15.6 C (60 F) of not less - than the value of R as calculated from the following formula: R=K logio R = insulation resistance in magohns per 1000 feet K = 20,000 D = diameter over insulation d = diameter under insulation 5.3.1.2.3 0xygen Index Test i The oxygen index test shall be performed with specimens of insulation material in accordance with ASTM D 2863-70, and the results shall appear in the l Bidder's Proposal. l l 5.3.1.2.4 Copper Mirror Test l I The copper mirror test shall be performed with specimens of insulation material in accordance with ASTM D 2671-10, Appendix A1, Corrosion Testing, and the results shall appear in the Bidder's Proposal. The test shall be l performed at 175 C for the primary insulation and 135 C for the jacket. 5.3.1.3 Coaxial and Triaxial Cable Test l l Coaxial and triaxial cable insulation shall be tested in accordance to Section 4.1.5.I. 16 l

13AJ04 Rev. 10 5.3.2 Jacket Tests 5.3.2.1 Physical Jacket Tests (does not apply to coaxial or triaxial cable) Physical jacket tests shall be performed in accordance with Para-graphs 6.4.11 and 6.4.12 of ICEA S-66-524, Paragraphs 6.4.13 and 6.4.14 of ICEA S-19-81, or Paragraphs 6.4 to 6.20 of ICIA S-68-516, whichever applies. 5.3.2.1.1 Initial Physical Requirements

1. Tensile strength, mininnan psi, 700.
2. Elongation at rupture, minimum percent, 250.

5.3.2.1.2 Physical Properties After Accelerated Aging After Air Oven Test (168 Hours at 100 iC)

1. Tensile strength, retained 85%
2. Elongation, retained 65%
3. Heat distortion test, at 150 C for 10 minutes with the following .

parameters: XLP0 Insulation: 30 percent at 400 grams Hypalon Jacket: 15 percent at 2000 grasw 5.3.2.1.3 Moisture Absorption, Gravimetric Method (Immersed for 168 Hours at 70 C) Moisture absorption, maximum, milligrams per square inch: 20. l l \ 16a 1

   ,,- , , _      - - . . . , -     ,.,,-,.-,_g        7, ,-, w,.. ----,. - - - - - , - . , - .         - , - - - - - . . -
                                                                                                                            ----n..w   . , - - , , - - - . - - . , , -

X3AJ04 Rtv. 8 5.3.2.1.4 0xygen Index Test The oxygen index test shall be performed with specimens of jacket material in accordance with ASTM D 2863-70, and the results shall appear in the Bidder's Proposal. 5.3.2.1.5 Copper Mirror Test The copper mirror test shall be performed with specimens of jacket material in accordance with ASTM D 2671-70, Appendix A1, Corrosion Testing at 135 C, and the results shall appear in the Bidr!.3r's Proposal. 5.3.2.2 Coaxial and Triaxial Cable Jacket Tests Coaxial and triaxial cable jacket tests shall be performed in accordance to Section 4.1.5.I. 5.3.3 Tests of Completed Cables 5.3.3.1 Conductor Continuity Each length of finished cable shall be tested for conductor continuity. . 5.3.3.2 Cold Bend Test The completed cables shall comply with a cold bend requirement of minus 25 C, tested in accordance with the procedure indicated in ICEA Stand-ard S-19-81, Paragraph 6.19.3. For coaxial and triaxial testing requirements see MIL-C-17D. 5.3.3.3 Flame Test A. The requirements of IEEE 383 shall apply with the cable samples heat aged at a temperature taken from an Arrhenius plot for the manufacturers cable for 168 hours prior to flame test. Specifically, Paragraphs 2.5 through 2.5.4.4.4 and 2.5.5 through 2.6 of IEEE 333 shall apply. The alternate flame source is not acceptable. (Paragraph 2.5.6 is not applicable 8 for switchboard cables) B. In addition to the prototype flame test called for in Para-graph 5.3.3.3A, Contractor shall provide a prototype flame test report using a 210,000 BTU gas burner flame source, if available. Data on the 70,000 BTU test is required (except for coaxial or triaxial cable). 5.3.3.4 Qualification Test The Contractor shall submit data from long tinie tests made on Class 1E cable similar to cables which are to be furnished under this specification. Data requirements shall include but need not be limited to the following. 17

X3AJ04 Rsv. 7 5.3.3.4.1 Long Tern Moisture Absorption Test (Does not apply to coaxial / triaxial cable)

1. Long term moisture absorption tests shall be performed on completed cable, and individual conductor elements of multiple conductor cable by immersing cable for 52 weeks in water maintained at 90 il C.
2. Specific inductive caricity and power factor values for 52 weeks immersion in water at a temperature equal to the rated temperature of the insulation at a load of - 600 Vdc.

5.3.3.4.2 Test for Normal Operation and for Operation During and After DBE All Class IE cables shall be qualified to meet the following service conditions. The samples tested should contain the conductor, insulation, fillers, jacket, binder tape, and overall Jacket. 5.3.3.4.2.1 Normal Service

1. Thermal Aging: Cable samples will be oven-aged for 168 hours ~

(100 hours for coaxial and triaxial cables) at a temperature taken from an Arrhenius plot for the manufacturer's cable.

2. Radiation Exposure:
a. Form suitable lengths of insulated conductor into test coils so that the effective section of each coil under I test will not be less than 10 feet.
b. Subject the coils to circulating air oven aging at a temperature and time developed by plotting data using the Arrhenius technique or other method of proven validity to simulate installed life.
c. The specimens with conditioning as covered in Paragraph b should be subjected to gamma radiation such as Cobalt 60 to a dosage of 5.0 x los rads at a rate not greater than 1.0 x 10s rads per hour,
d. After the radiation exposure of Paragraph c the specimens should be straightened and recoiled around a mandrel with a diameter of approximately 20 times the insulated conductor diameter and immersed in tap water at room temperature.

While still immersed, these specimens should pass the 5 minute voltage withstand test at 2 kV or 80 volts sex stress 7I at center conductor surface. l l l 18 t- - - _ . . - -

i f X3AJ04 Rsv. 7

 - 5.3.3.4.2.,2              Design Basis Accident (DBA), Loss-of-Coolant Accident                              ,

5.3.3.4.2.2.1 Radiation Exposure - Total Expose the specimen (heat aged at a temperature using the Arrhenius plotting technique of Paragraph 1.3.5.2 of IEEE 383) to the maximum total cumulative radiation dosage expected over the installed life plus one LOCA exposure to radiation, the total exposure required is 2 x los rads (including l 10 percent margin). The rate of exposure shall be not greater than 1 x 10s rads l7 per hour. Table 1 RECOMMENDED SIZES FOR CABLE TYPE TESTS

  • Type Test Paragraph Size 600V Ir.stru- DBA Simulation 5.3.3.4.2.2.2 All cable types, mentation Cable
  • NOTE: The cable sizes listed in this table are not mandatory, nor are they intended to limit range of conductor sizes that may be subjected to Type Qualification Tests.

Table 2 POSTULATED NORtiAL OPERATING CONDITIONS Parameter Average Maximus Temperature 60 - 140 F 120 - 150 F (15 - 60 C) (50 - 65 C) Pressure (1 10.3) psig +1.3 psig . Relative Humidity 10 - 50% Radiation Dose Rate 100 rads /hr Radiation Total Dose 5.0 x 10 5 rads Over 40 Year Plant Life 19

X3AJ04 RIv. 7 5.3.3.4.2.2.2 DBA Simulation A. Test irradiated specimens in a pressure vessel so constructed that they can be operated under rated voltage and load while exposed to the pressure, temperature, humidity and chemical spray of an DBA event. Chamber designs should have provisions for monitoring and varying tempera-ture and steam pressure, for determining vapor pressure, for recycling chemical spray and for electrically loading the specimens as specified herein. B. After conditioned specimens are installed inside the pressure vessel, they should be energized at rated voltage and loaded with current to 7l develop a 90 C (75 C for coaxial and triaxial cables) conductor temperature while under the average normal operating condition. Then the specimens should be exposed to the environmental conditions as described in Paragraph 3.3.5. C. The cable should function properly throughout its exposure to the environmental extremes within the specified electrical parame:ers. 5.3.3.4.2.2.3 Post DBA Simulation Test Upon completion of the DBA simulation, the specimens should be straight- - ened and recoiled around a mandrel with a diameter of approximately 40 times the insulated conductor diameter and immersed in tap water at room temperature. While still immersed, these specimens should again pass the same voltage withstand test performed under 5.3.3.4.2.1.2b except the voltage should be reduced to 80 percent of that value. 5.3.3.5 DC Proof Tests The Purchaser will conduct de proof tests on the cable after installation and after the cable has been in service for some time. The manufacturer is required to list a specific value of de voltage for each type of cable for these proof tests. 5.3.4 Independent Testina Organizations The Contractor shall state whether or not there would be any objection to the factory tests being witnessed by inspectors from an independent engineering organization or testing laboratory, should these services be retained by the Purchaser. 5.3.5 Test Reports The manufacturer shall furnish a certified record of all of the above tests. The test reports shall also contain verification that the cable will pass the flame test specified. 20

X3AJ04 Rsv. 2 6.0 PREPARATION FOR DELIVERY

 >    6.1    EQUIPMENT LEVEL The equipment covered by this specification is Level D in accordance with ANSI N45.2.2.

6.2 PACKAGING The applicable packaging requirements of ANSI N45.2.2 Level D shall apply in addition to the following:

1. The cable shall be placed on standard NEMA non-returnable reels in lengths as specified in the attached proposal. Reels shall be of substantial construction to withstand multiple handling in transit and during ordinary storage and handling operations.

They shall have drums with diameters at least 12 times the outside diameter of the cable shipped thereon, and the cable reel flange shall extend 3 inches beyond the last wrap of cable. The Contractor shall be responsible for any damage to the cable and/or the reels during transit resulting from improper packing, sealing, or blocking. Care shall be exercised to insure that no

nails or foreign objects extead through the covering or lagging which might puncture or penetrate the cable.
2. Cable reels shall be shipped upright on reel flanges unless the reels are 18 inches or less in diameter and weigh 50 lbs or less. Reel will not be off-loaded by Purchaser unless this requirement is met.
3. All cable ends shall be taped or otherwise sealed to prevent the entrance of moisture.

6.2.1 Cleaning Cleaning prior to packaging shall insure a minimum of site-cleaning. Any dirt, oil residue, or other contamination shall be removed. The Contractor l shall eliminate all material that is defective according to this specification. 6.2.2 Marking A. Each cable reel shall have metal tag identification imprinted and securely attached thereto bearing the purchase order number, item number, length of cable on reel, and tag number if a tag number is included in the requisition. Reels shall be plainly marked with the Contractor's name, description of cable including number of conductors and size, conductor material, voltage rating, type and thickness of insulation jacket, gross weight, purchase order number, item number, cable code, and destination. The reel number and the above information shall be stenciled on the same reel. 21

X3AJ04 Rnv. 2 B. Wooden cable reels will require a special device to permit " burning" identification marks into the reels by the Purchaser. The Bidder shall supply the name, model number, manufacturer, and description of such a device in his Proposal. 6.3 SHIPPING The applicable shipping requirements of ANSI N45.2.2 level D shall apply. 6.3.1 Reordering The cable delivered shall be supplied in continuous reel lengths as tabu-lated in the proposal. However, in his quotation, the Contracr.or may state the minimum quantities that he will accept for reordering if different from those quantities indicated. This information will be assessed during bid evaluation. 22

U iS TABl2 2 ENVTRONMENTAI. CONDTTIONS (Sheet. 1 of R4) RELATIVE NORMAL A8NORml TESTIII DBA/ POST-DSAI2I leMIDIIY MAX ENVIR. TDP INT. TEMP *F TEMP INT. NORmt DBA DESIGNATOR LMIT *F PRESS DOSE-RADS MX/ MIN PW55 *F PRESS DD5E-RADS 1 1 I. SMtAWO VAPOR REGIGI 18-R-301H 1/CEM 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 IS-A-302H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 18-R-101H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 18-R-102H 1/CIM 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100

                                                                      >    18-R-10E       1/00M   120   17.7-13.2 psia           2 x 106                   120/60   60 psig Fig. 9    Fig. 11   2 x Idl     50      100 N    IB-R-104H      1/QM    120   17.7-13.2 psia            2 x 106                  120/60   60 psig Fig. 9    Fig. 11   2 x 108     50      100 i

g 18-R-105H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x IOS 50 100 75 l~ !E 18-R-106H 1/00M 129 17.7-13.2 psia 2 x 10% 120/60 60 psig Fig. 9 Fig. 11 2 x 108 Sn 100 4& ! 18-R-111H 1/GM 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 S h IB-R-A0lH 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. Il 2 x 108 50 100 l

2. UNSPRAWD VAPOR REGION IB-R-107H 1/00M 120 17.7-13.2 psla 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100

. 18-R-108H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 IBM-110H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 100 50 100 IB-A-115H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x ICS 50 100 18-R-A02H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 j IB-R-A03H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 18-R-A04H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 18-R-A05H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 H = Harsh environment Note: If any one of the following condition exists, the roan is classified as in harsh environment. i

1. Temperature increases due to the pipe break. l
2. T.I.D > 1 x 10 rad m

CONTAINMFNT BUTI.DiNC(3) (Sheet 1 of 3) , I l 1 i 1

l l 4 i I$ TABLE 2 g ? u> ENHIRONMRIfTAL CONDITIONS I i (Sheet. 2 of 84) I RELATIVE NORMAL ABNORMAL TESTIII DBA/ POST-DSA(2) EstIDIIf RAK ENVIR. 7Er INT. TEMP *F TEfr INT. IEENIRL 084 l , DESIGNATOR IMIT *F PRESS DOSE-RADS MAX / MIN PRESS *F. PRESS DO5E-RADS 1  % 2 x l# IB-A-A06H 1/ 0 31 120 17.7-13.2 psia 2 x 104 120/60 60 psig Fig. 9 Fig, il 50 100 IS-N-A07H 1/GNI 120 17.7-13.2 psia 2 x l@ 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 t IS-R-AGIDI 1/00R 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 Is-R-A09H 1/00M 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. Il 2 x 108 50 100 I IS-A-003H 1/GNI 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 l Is-R412H 1/GBl 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. 11 2 x 108 50 100 ! 18-R410H 1/COM 120 17.7-13.2 psia 2 x ICE 120/60 60 psig Fig. 9 Fig. Il 2 x 108 50 100 i h IS4413H 1/GNI 120 17.7-13.2 psia 2 x 106 120/60 to psig Fig. 9 Fig. 11 2 x 108 50 100

                                                                                                                                         ,, g i            Is-R 414H       1/COM   120 17.7-13.2 psia   2 x 106       120/60    e psig  Fig. 9    Fig. Il   2 x 108      50     100     $

l w 13-R415H 1/00R 120 17.7-13.2 psia 2 x 106 120/60 60 psig Fig. 9 Fig. Il 2 x 108 50 100 a l 3. 5 tsp RECH31(4)

          *IA-R-801H        1/GM    120 17.7-13.2 psia   2x500         120/60    60 psig Fig. 10   Fig. 11   2 x 1#       50     100
       "  *IA-R-802H        1/GM    120 17.7-13.2 psia   2 x 104       120/60    60 psig Fig. 10   Fig. 11    2 x l@      50      10 0 l          *IA-A-8044        1/GM    120 17.7-13.2 psia   2 x 106       120/60    60 psig Fig. 10   Fig. Il    2 x Id      50      100
          *IA-A-805H        1/COR   120 17.7 13.2 psia   2 x 106       120/60    60 psig Fig. 10   Fig. Il    2 x 108     50      100
          *IA-A-806H        1/00R   120 17.7-13.2 psia   2 x 106       120/60    60 psig Fig. 10   Fig. 11    2 x 1#      50      100
          *IA 4-407H        1/G31   120 17.7-13.2 psia   2 x 104       120/60    60 psig Fig. 10   Fig. 11    2 x 108     50     100          *
          *IA-A-801Bt       1/GM    120 17.7-13.2 psia   2 x 106       120/60    60 psig Fig. 10   Fig. Il    2 x 1@      50     100 i         *IA-A-809H        1/GM    120 17.7-13.2 psia   2 x 106       120/60    60 psig Fig. 10   Fig. 11    2 x 108     50      100 I          *IA-N-811H        1/Gyl   120 17.7-13.2 psia   2 x 104       120/60    60 psig Fig. 10   Fig. 11    2 x 108     50      100
          *IA-N-816H        1/COM   120 17.7-13.2 psia   2 x 106       120/60    60 psig Fig. 10   Fig. 11    2 x 108     50      100
          *IA-N-CODI        1/COR   120 17.7-13.2 psia   2 x 106       120/60    60 psig Fig. 10   Fig. 11    2 x 108     50     100
          *IA-R-C10H        1/GM    120 17.7-13.2 psia   2 x 106       120/60    60 psig Fig. 10   Fig. 11    2 x 108     50      600 ps D.
         *If equipment is located above flood level, Figure 9 shall be used for temperature (Flood level is 181'2")                    l H = Harsh environment i                                                            CONTAINMENT BUII.DINC(3)

I (Sheet. 2 of .l)i 1 l l

U.

  $                                                                                                                                                                                      TABLE 2 ENVIRONMENTAL CONDITIONS (Sheet 3 of 84)

NOTES

1. The containment test pressure is 60 psig.
2. Includes normal doses.
3. Chemicals - spray solution, boric acid (2000 ppm floron) plus sufficient sodiin hydroxide solution (30-35 wt1 NaOH) to achieve the desired pH.
4. Spray Exposure The containment building consists of three general regions, these regions are defined as:

h wx e g aved Vapor heelon - That area above the operating deck that would be exposed to the direct effects of the $ hM spray system. o N C* e unsprayed Vapor Reelon - That area of containment that is below the opera (ing deck and above the containment g flood level that may be exposed to the indirect effects of the spray system. ', 'd i f t e Susp Reg M - That area of contaltvoent that would be flooded post-accident. i e Sprayed and unsprayed - Time = 0 - 100 mins - 10.5. j wapor region pH Time = 100 mins - 24 hrs - 8.5 !l e Suny region pH - Time = 0 mins - 24 hrs - 8.5. l

   ?1 s
!
  • CONTAINMENT BUILDINC(3)

I (Sheet 3 of 3) 9 l l

U TAHLF. 2

  %                                                       ENVIRONMENTA1, CONDITIONS l$

l (Sheet 7 of 84) 1 RELATIVE a ORA / POST-08A DEMIDIlY MAX W NORMAL ARNORMAL TEST l l TEM INT. NORMAL DBA ENVIR. TEM INT. TEM *F IMIT *F PRESS OftSE -RADS MAX / MIN PRESS *F PRESS DOSE-RAOS  %  % DESIGNATOR l LEVEL 0 (Cont) VIII-R-020H 2 100 #ata 5 x 105 104/40 ata - - 5 x 105 60 100 l *VIII-A-021H 2 100 sata 1 x 101 100/40 ata - - 5 x 10I 60 -

                                            # ate       1 x ICI        100/40        ata                         5 x 10I               60                           -

l

          *VIII-A-022H    2       100 VIII-A-023     Vold VIII-II-024H    2      100       sata       5 x 105         120/40        ata    -            -          1 x 108            60                           -
     >                                                                                                              I x 108            60 d     VIII-A-025H     1/ M   100       sata       5 x 105         120/40        ata    -            -                                                          -
     >     VIII-R-026H     1/(XM  100       #atm       5 x 105         112/40        ata    -            -          1 x 108            60              100                                                EU 5 x 105          120/40       ata  Fig. 5    Fig. 6C         I x 108            60               100                                                 D N        VIII-A-027H     1/00M  100       sata VIII-R-029H     2      100       sata       5 x 105          120/40       ata    -            -          I x 108            50                           -

S VIII-A-029H 2 100 sata 5 x 105 120/40 ata - - 1 x 108 60 - VIII-A-030H 2 100 #ata 5 x 104 120/40 ata - - 5 x 105 60 100 Q VIII-R-031 Void L ata. 1 x 103 60 100 VIII-A-032 1/ M 100 # ate 1 x 103 110/40 - - 5 x 105 120/40 ata 1 x 108 60 - VIII-A-0336 2 100 sata - - VIII-A-034H 1/0W1 100 #ata 5 x 105 120/40 ata Fig. 5 Fig. 6C 1 x 108 60 - VIII-A-035H 1/00M 100 #ata 5 x 105 120/40 ata Fig. 5 Fig. 6C 1 x 108 60 - VIII-A-036H 1/0ml 100 # ate 1 x 109 120/40 ata - - 1 x 109 60 - VIII-A-037H 1/(XM 100 # ate 1 x 109 120/40 ata - - I x 109 60 - I VIII-R-03Si 1/CDM 100 sata 5 x 104 120/40 atm Fig. 5 Fig. 6C 5 x 104 60 100

                                             #atm       5 x 105         120/40       ata                  -           1 x 108          60                               -

VIII-R-039H 1/00M 100 - l 1

  %
  • Indicates rooms that are served by Class IE envirorwental steport systems.

4 f SWithin negatlwe pressure boundary. 4 m H = Harsh envircrunent AllXII,I ARY BilII.DTNG t (Sheet 2 of 40)

i l l IU TABI.E 2 l% ENVIRONMENTAI, CONDITIONS lg l (Sheet 8 of 84) I i IIELAIIVE g i NORRAL ABNORMAL IESI DRA/POSI-DSA M MIDIIY MAX l ENVIR. TEfr INT. IEMP *F IFRP INT. NORMAL DBA DESIGNAIOR LBIII *F PRESS DOSE-RADS MAX / MIN PRESS *f PRESS 005E. RADS  %  % LEVEL 0 (Cont) ! VIII-8t-040H 1/COR 100 #ata 5 x 105 120/40 ata - - I x 108 60 - , VIII-a-Del 2 100 #ata I x 103 110/40 sta - - 5 x 103 60 100 l VIII-II-042H 1/CIM 100 #ata 5 x 104 120/40 atm Fig. 5 Fig. 6C 5 x 104 60 - j VIII-A-04 E 1/mM 100 #ata I x 103 120/40 ata Fig. I Fig. 6C 1 x 103 60 100 j p VIII-R-044 1/WR 100 #ata I x 103 120/40 ata - - 1 x 103 60 - j Q VIII.a-I,45H 1/00R 100 #atm 5 x 105 102/40 atm Fig. 2 Fig. 6C 1 x 108 60 100 VIII-It-046H 1/WR 100 sata 5 x 105 120/40 ata - - 1 x 108 60 - pb

                                                                  #ata       5 x 105           120/40            Fig. 2    Fig. 6C   1 x 108      60       100   *:

om VIII-R-04 M 1/COR 100 ata

                               *VIII-A-0434    1/00R   100        # ate      1 x 107           100/40       ata      -        -      5 x 10I      60        -

_g 5 x 107 60 -

                               *VIII-A-049H     1/COR  100        sata       1 x 10I           100/40       ata      -        -                             -
                           @    VIII-A-050H     1/GR   100        #ata       5 x 105           120/40       ata      -        -       1 x 108     60        -

l, VIII-a-051H 1/COR 100 sata 5 x 105 120/40 ata - - 1 x 108 60 - 4 VIII-R-052H 1/mR 100 # ate 1 x 103 116/40 ata Fig. 2 Fig. 6C I x 103 60 100 l WIII-It-0531 1/00R 100 #ata 1 x 103 110/40 ata Fig. 5 Fig. 6C 5 x 103 60 100 I VIIJ-a-054H 1/GR 100 # ate 5 x 105 120/40 ata Fig. 5 Fig. 6C 1 x 108 60 - I VIII-R-055H 1/00M 100 #ata 5 x 105 120/40 ata Fig. 5 Fig. 6C 5 x 105 60 100 VIII-R-056H 1/COR 100 # ate 1 x 103 110/40 ata Fig. 5 Fig. 6C 1 x 103 60 100 VIII-R-057H 1/00R 100 #ata 5 x 105 120/40 ata - - 1 x 108 60 - VIII-a-05EB4 1/mR 100 sata

  • x 105 120/40 ata Fig. 5 Fig. 6C 1 x 108 60 -

I ] I

  • Indicates remos that are served by Class IE environmental support systems.

jg 8Within negattwo pressure boundary. I c: H = Harsh envirtzuent

  • AIIIII,I ARY BIITI. DING (Sheet 3 of 40) e l

i I

U,

     )

I TARI.E 2

     $                                                     ENVIRONMENTAL CONDITIONS 4

(Sheet 13 of 84) NOPML ARNORML TE5I DRA/POSI-DRA RELATIVE R#lIDIIY Mall l ENVIR. TEFF INT. IFMP 'F TEMP INT. N(NWIAL DRA DESIGNATOR t#1If 'F PRESS DOSE-RADS ftAX/ MIN PRESS *F PRESS DOSE-RADS  %  % tEVEL D (Cont) VIII-UCD02H 1/(EM 120 #ata 5 x 105 170/40 ata - - 1 x 108 60 - VIII-UCD03H 1/(XIR 120 sata 5 x 105 120/40 ata - - 1 x 100 60 - VIII-UCD04H 1/00M 120 # ate 5 x 105 120/40 atm - - I x 108 60 - VIII-UC005H 1/(XIM 120 #atm 5 x 105 170/40 stm - - I x 108 60 -

       >    VIII-UCD06H     1/00M  120       # ate      5 x 105           120/40      ata    -          -      1 x 108      60      -

l N VIII-UC007H 1/00R 120 #atm 5 x 105 120/40 ata - - I x 108 60 -

       #                                                                                                       1 x 108      60           :a x VIII-UCDC8H     1/(XIM 120       # ate      5 x 105           120/40      ate    -          -                           -

Q 1 x 108 60 C g VIII-UCD09H 1/00M 120 #ata 5 x 105 120/40 ata - - -

                                                                                                                                         "c o{
                                             #ata       5 x 105           120/40      ata                      1 x 108      60      -

g VIII-UCD10H 120 - - 1/CDM VIII-UCDIIH 2 120 #ata 5 x 105 120/40 ata - - 1 x 108 60 - C# LEVEL C I' eVIII-R-001H 2 100 #ata 5 x 105 100/40 atm Fig. 2 Fig. 6A 5 x 105 60 100

          *VIII-4t-002H     2      100       sa'm
                                                .        I x 10I          100/40      ata  Fig. 2    Fig. 6A   1 x 10I      60     100 l          eVIII-A-CIG4     2       100       #ata        I x 103          100/40      ata  Fig. 2    Fig. 6A   1 x 104      60     100 i            VIII-4t-0048    2      100       sata       5 x 105           105/40      atm  Fig. 2    Fig. 6A   5 x 105      60     100 l
  • WIII-R-C05H 2 100 sata 5 x 105 100/40 atm Fig. 2 Fig. 64 5 x 10I 60 100 l l VIII-A-006H 2 100 sata 1 x 103 120/40 ata - - 5 x 104 60 -
          *VIII-R-C07H      2      100       #ata        1 x 103          100/40      ata    -          -      5 x 104      50       -
  • Indicates rooms that are served by Class IE environmental support systems.

ty #Within negative pressure boundary. H = Harsh envirtmunent e AllXII.I ARY BUII. DING (Sheet 8 of 40)

i !U

g TABLE 2 lg ElfV!ROINGENTAL CONDITIONS i (Sheet 14 of 84) l ilELATIVE g unRmt ARNnR EL TEsi DRA/rosi-DRA 1481IDIIY MX e

! EfRflR. TER INT. TEMP *F TER INT. NORmt DRA j oEsicanTOR imII r m ss nose-Raos nar/nIN enEss *F rnEss 00sE-Ra0s s s i LEVEL C (cont) VIII-A-alse 2 100 # ate 1 x 103 120/40 ata Fig. 2 Fig. 6A 1 x 103 60 100 l

            *VIII-a-C09H     2            100         #ata                5 x 105                10G/40       ata        -         -      1 x 10i       60         -

' *WIII-A-C10H 2 100 #ata 5 m 105 100/40 ata - - I m lof 60 100 l 4 VIII-R-CllH 2 100 #ata 5 m 105 104/65 ate - - 1 x 10I 60 -

         >    VIII-a-Cl2H    2            100         # ate               5 m 105                104/40       ata        -         -      1 m 107       60         -

N VIII-a-Cl3 2 100 #ata I x 103 120/40 ata - - 5 x 103 60 - ED l VIII-R-Cl4 2 100 #ata I m 103 120/40 ata - - 5 x 103 60 -

                                                                                                                                                                            . D.

l- # VIII-a-C15 2 100 # ate 1 x 103 120/40 ata - - 5 x 103 60 - E i VIII-A-Cl6H 2 100 #ata 5 x 105 100/65 ate - - 1 m 107 60 - l VIII-A-C11H 2 100 #ata 5 x 105 100/65 ata - - 1 x 107 60 - ! E VIII-4-CISO 2 100 #ata 5 x 105 100/65 ata - - 1 x 106 60 - b VIII-A-C19H 2 100 # ate 1 x 103 106/40 ata - - 5 x 108 60 100 i VIII-R-C20 2 100 # ate 1 x 103 120/40 ata - - I u 103 60 - l VIII-R-C21H 2 100 # ate 1 m 103 120/40 ata Fig. 4 Fig. 64 1 x 103 60 100 l VIII-A-C22H 2 100 #ata 5 x 108 120/40 ata Fig. 3 Fig. 6A 5 x 108 60 100 i

            *VIII-A-C2DI     2            100         # ate               5 m 105                104/40       ata     Fig. 3 Fig. 3 Fig. 6C   1 x 107       60        100 l VIII-A-C24H    2            100         # ate               1 x 103                120/40       sta               Fig. 6A   1 x 104       60        100 I              VIII-a-C25H    2            100         # ate               1 x 10I                104/40       ate        -         -      5 x 10I       60         -

l VIII-a r36H 2 100 # ate 1 x 107 104/40 ate - - 5 m 107 60 - l i

  • Indicates reams that are served by Clats IE environmental support systems.

l@ SWithin negatlwe pressure boundary. ]4 H = Harsh environment )m AIIKTLIARY BtIII. DING (Sheet 9 of 40) e

i 3

_ ... _ .I

i j 5 TABIE 2 j% ENVIRONMENTAI,CONDTTIONS jg ' (Sheet 16 of R4) j IELATIVE DBA/ POST-ORA MstIDIIY IWut  ! NOIUML A8N015ML TEST INT. TE M *F TEW INT. IEFWIAL 818A Elftf!R. TEfF 005E-fM05  % 1 00SE-RA05 IWut/RIN PIIF55 *F PRESS DESIGIRATOR Lslli *F PIIE55 j LEVEL C (Cont) J 100 sate 5 x 105 120/40 ata - - I x 108 63 - VIII-A-C4M4 2 60 sata 5 x 105 120/40 ata - - 1 x 109 - l VIII-R-C4SH 1/GIR 100 100 fate 1 x 103 113/40 ata Fig. 4 Fig. 6A I x 103 6C 100 I VIII-R-C49H 2

                                                            '-'                   sata        5 x 105          107/40       ata    -           -      I x 108      60       -

VIII-R-C50H 2 60

         >                                                   A                    sata        5 x 105          100/40       ata     -          -      5 x 105               -

VIII-R-C51H 2 N 100 sata 5 x 105 104/40 ata - - I x 108 60 - VI!!-A-C52H 2 msg 1/ api 100 sata 5 x 105 12cfan ata - - I z 108 60 - Q VIII-A-C53H *g E 1 x 109 120/40 ata - - I x 109 60 - I-  % VIII-R-C544 2 100 sats Fig. 3 Fig. 6A 1 x 108 60 - o

  • 5 x 105 120/40 ata g VIII-A-C55H 2 100 sate 5 x 105 105/40 ata Fig. 3 Fig. 6A I x 108 60 - -

l VIII-R-C56H 2 100 sate ata Fig. 3 Fig. 6A 5 x 104 60 - } 5 VIII-R-C57H 2 100 sata 5 x 104 120/40 Fig. 6A 1 x 103 60 100 b VIII-R-C584 1/00R 100 sata 1 x 103 120/40 ata Fig. 3 I I x 103 120/40 ata - - 1 x 103 60 100 l VIII-: -C59 1 / 0[31 100 sata 60 100 sata 5 x 105 120/40 ata Fig. 4 Fig. 6A 5 x 106 100 i VIII-R-C60H 1/00R 1/00R 100 sata 5 x 105 120/65 ata Fig. 1 Fig. 6A 1 x 1$ to 100 i VIII-R-C61H 100 sate 5 x 104 120/40 ata Fig. I Fig. 6A I x 105 60 100 I VIII' C62H 1/00R 100 sata 5 x 105 120/40 ata Fig. 1 Fig. 6A I x 108 60 100 VIII-4t-C63H 1/00R f 129/65 Fig. I Fig. 6A I x 108 60 100 VIII-R-C64H 1/COM 100 sata 5 x 105 ata i I l l Iy shfithin negative pressure boundary. 4 H = Harsh enviremmer.t as AIIIII.I ARY BilII.DileG (Sheet. 11 of 40) 8 I l l r

u". TABLR 2 ij

 $                                                                             ENVIRONMENTAL CONDITIONS (Sheet 17 of 84)

RELATIVE a NORMAL ABNORMAt TEST DBA/ POST-DRA 44MIDIIY MAX B 1 ENVIR. TEfF INT. TEMP 'F TEMP INT. NORMAL DBA DESIGNATOR tNIT *F 19E55 00SE-RADS MAX / MIN PRESS 'F PRF55 DDSE-RADS 1  % LEVEL C (Cont) VIII-R-C65H 1/(XM 100 satm 5 x 105 118/65 atm Fig. I Fig. 6A 1 x 100 60 100 VIII-A-(16H 1/QM 100 sata 5 x 105 124/40 ata Fig. 1 Fig. 6A 1 x 108 60 100 VIII-a-5 7H 1/00M 100 sata 5 x 165 121/40 ata Fig. I Fig. 6A 1 x 108 60 100 VIII-R-C6db4 1/(IM 100 sata 5 x 105 110/40 ata Fig. 3 Fig. 6A 1 x 100 60 -

         >     VIII-A-C69H      1/WM            100   sata                   5 x 105        120/40        ata  Fig. 3     Fig. 6A    1 x IOS     60       -

N VIII-A-C70H 1/00M 100 sata 5 x 105 120/40 ata Fig. 3 Fig. 6A 1 x 108 60 - VIII-R-C71H 1/(XM 100 sata 5 x 105 120/40 ' ata Fig. 3 Fig. 6A 1 x ICS 60 - EU

 "             VIII-A-C72H      1/004       'l00      sata                   5 x 105        105/40        aim  Fig. 3     Fig. 6A    1 x 108     60       -

4D VIII-a-C73H 1/00M 100 sata 5 x 104 120/40 ata Fig. 3 Fig. 6A 5 x 104 60 - S i VIII-A-C74H 1/00M 100 sata 5 x 105 120/40 atm Fig. 3 Fig. 6A 1 x 108 60 - 5 VIII-A-C75H 1/(XM 100 sata 1 x 109 120/40 atm I x 109 60 - l b VIII-A-C76H 1/00M 100 sata 5 x 105 120/40 ata - - 1 x 10S 60 -

              *VIII-a-C77H      1/00M           100   sate                   5 x 105        100/40        ate      -          -      1 x 108     60       -

VIII-R C78H 1/00M 100 sata 5 x 105 120/40 ata - - 5 x 105 60 - VIII-a-C79H 1/MM 100 site 5 x 105 107/40 atm Fig. 3 Fig. 6A 1 x IOS 60 - l VIII-A-010H 1/CCM 100 sate 5 r 105 120/40 sta - - 1 x 108 60 - i VIII-R-GlH 1/GM 100 sata 5 x 105 120/40 ata - - 1 x 108 60 - VI!!-R-Ol2H 1/00h 100 satm 5 x 105 120/40 ata - - I x 108 60 - VIII-R-C83H 1/(XM 100 sata 1 x 103 104/40 ata Fig. 3 Fig. 6A 1 x 103 60 100 l l

  • Indicates rooms that are served by Class IE envirormental sigert systems.

j $ 8Within negative pressure boundary. f H = Harsh environment m AUXII.I ARY BIIII. DING (Sheet 12 of 40) , i

( .

  %                                                                                                                                               TABLE 2
  • ENVIRONMENTAL CONDITIONS (Sheet la of 84)

RELATIVE NORn4L ARNORMAL TFST ORA /POSI-ORA M mI0lly MAX l ENVIR. TER INT. Tir *F Tfr INT, NORMAL DBA DESIGNATOR IMIT *F PRESS DOSE-RADS mad / MIN PRESS *F PRESS DOSE-RADS 1  % LEVEL C (Cont) l VIII-R-Olet 1/00M 100 sata 1 x 10I 104/40 ata - - 5 x 10I 60 - VIII-R-Ol5H 1/GM 100 # ate 1 x 103 120/40 ata Fig. 3 Fig. 6A 5 x 103 60 100 i VIII-A-Ol6H 1/00N 100 fata 5 x 105 120/40 ata - - 1 x 108 60 - l VIII-R-dI7H 1/00M 100 fata 5 x 105 120/40 atm Fig. 3 Fig. 6A 5 x 105 60 100 I > VIII-R-G E 1/00R 100 fata 1 x 103 120/40 ata - - 5 x 103 60 - N *VIII-A-Gl9H 1/00M 100 fata 5 x 104 100/40 ata - - 5 x 106 60 - I

                                                   *VIII-A-C90H      1/GM                                    100  #atm           1 x 107           100/40        ata    -          -

5 x 10I 60 - ED l" *VIII-R-C91H 1/GM 100 sata 1 x 10I 100/40 ata - - 5 x 107 60 -

                                                                                                                                                                                                                                                          .D i

g VIII-R-C92H 1/00R 100 # ate 5 x 104 104/40 ata - - 5 x 10I 60 - S VIII-A-C93H 1/0M 100 #ata 5 x 105 120/40 ate Fig. 3 Fig. 6A 1 x 108 60 - E VIII-R-C94H 1/GM 100 #ata 5 x 105 120/40 ata Fig.'3 Fig. 6A 1 x 108 60 - 0

                                                   *VIII-A-C95H      1/00R                                   100  sata           5 x 105           100/40        ata Fig. 3    Fig. 6C    1 x 10I     60      100
                                                   *VIII-R-C96H      1/GM                                    100  fata           1 x 10I           100/40        ata    -          -      5 x 107     60       -

VIII-R-C97H 1/CDR 100 fate 1 x 103 120/40 ata Fig. 3 Fig. 6A 1 x 104 60 100 VIII-R-C91M 1/GM 100 #ata 1 x 103 120/40 ata Fig. 4 Fig. 6A 1 x 103 60 100 VI'II-R-C99H 1/00M 100 sata 5 x 104 120/40 atm Fig. 3 Fig. 6A 5 x 104 60 100 VIII-A-C100 1/00R 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - VIII-R-C101 1/GM 100 # ate 1 x 103 120/40 ata - - I x 103 60 - VIII-A-C102H 1/UM 100 # ate 1 x 103 120/40 atm Fig. 4 Fig. 6A 1 x 103 60 100

  • Indicates rooms that are served by Class IE environmental support systems.
  @                                               SWithin negative pressure boundary.
  ?                                               H = Harsh environment AtiXII.I ARY Btfit.DTNC (Sheet 13 of 40)       ,

1 U

    $                                                                  TABLE 2
    $                                                      ENVIROINEElfTAL CONDTTIONS (Sheet 19 of 84)

RELATIVE g a NORMAL ARunRMat TEST ORA / POST-OtA lastID!!Y MAM u I I ENVIR. TEr INT. TE r 'F TER INT. NIButAL DBA DESIGeATOR LEIII 'F PRF55 005L-RADS MAX / MIN PRF55 *F PRESS DD5E-RA05  %  % l LEVEL C (Cont)

         *VIII-A-C1034    1/C(31   100      #ata       5 x 105         100/40        ata  Fig. 2     Fig. 6A     5 x 10I      60      100
.          VIII-A-C1044   1/CEBt   100      sata        I x 103         120/40       ata     -           -       5 x 108      60       -

WIII-A-C105H 1 / 0131 100 #ata 5 x 105 105/40 ata Fig. 2 Fig. 6A 5 x 105 to 100

*VIII-A-CIOEM 1/ 0131 100 # ate 1 x 103 100/40 ata Fig. 2 Fig. 6A 1 x 104 60 100

, > *VIII-A-CIO1H 1/00M 100 sata 5 x 105 100/40 ata Fig. 2 Fig. 6A 5 x 105 60 100 N *VIII-A-ClGB4 1/CIBI 100 # ate 1 x 10I 100/40 ata Fig. 2 Fig. 6A I a 10I 60 100 < *VIII-A-C109H 1 / 0131 100 sata 1 x 103 100/40 ata - - 5 x 108 60 - EU 1G VIII-a-Cliet 1/0131 100 sata 1 x 103 120/40 atm Fig. 2 Fig. EA 1 x 103 60 100

  • D I *VIII-a-C111H 1/CDR 100 sate 5 x 105 100/40 ata - - 1 x lof 60 -

E i *VIII-A-Cll2H 1/0131 100 # ate 5 x 105 100/40 ata .

                                                                                                         -       1 x 103      60       -

l 5 VIII-A-CllDe 1/COM 100 # ate 1 x 103 109/40 ata Fig. 3 Fig. 6A I x 10I 60 100 ! M

         *VIII-A-C!14H    1/COR    100      sata       5 x 105          100/65       ata     -           -       1 x 107      to       -

I *VIII-a-Cll5H 1/(X51 100 sata 5 x 105 100/65 ata - - 1 x 107 60 - VI!!-A-Cll6 1/Ct31 100 # ate 1 x 103 120/40 ata - - 5 x 103 to - VIII-A-CII7 1 / 0136 100 sata 1 x 103 120/40 ata - - 5 x 103 60 - I *VIII-a-C1194 1/ CON 100 sata 5 x 105 100/65 ata - - 1 x 10I 60 - I *VIII-a-C119H 1/ 0136 100 # ate 5 x 105 100/65 ata - - I x 100 60 - I VIII-a-Cl284 1/(XBl 100 # ate 1 x 103 106/40 ata - - 5 x 108 to 100 ' VIII-R-Cl21 1/00M 100 sate 1 x 103 120/40 ata - - 5 x 103 60 - l ,

  • Indicates rooms that are served by Class IE envirtwunental support systnes.

! E sWithin negatlwe pressure boundary. H = Harsh envircrunent ( .# AtfNILIARY BilII. DING (Sheet. 14 of 40) , i

M TABLE 2 j ENVIRONMFNTAL CONDITIONS (Sheet 20 of 84) RELATIVE g NORMAL A80KIRMAL IEST DRA/ POST-DRA 548tIDIIY MAX u I ENVIR. TEfr INT. TEMP *F TEM INT. NORMAL DAA

,                                          DESIGat4TGt                   talIT   *F  PIT 55   DOSE-RADS       MAX / MIN    PRF55   *F        PRESS    DDSE-RADS   %         %

l LEVEL C (Cont) l VIII-R-Cl22H 1/Q38 100 #ata 5 x 105 120/40 ata - - 5 x 106 '60 - l VIII-R-Cl23H 2 100 #ata 1 x IDI 104/40 ata - - 5 x 10I 60 - l VI!!-R-Cl24H 2 100 #ata 5 x 105 120/40 atm Fig. 2 Fig. 6A 1 x 10I 60 100 i VIII-R-Cl25H 1/G31 100 fata 1 x 10I 120/40 ata Fig. 2 Fig. 6A 1 x 10I 60 100

                                       >   VIII-A-Cl26H                  2      100   #ata    5 x 105          104/40        ata Fig. 2    Fig. 6A    5 x 10I     60       100 N   VIII-A-C127H                  2      100   # ate   1 x 10I          104/40        ata   -           -      5 x 10I     60        -

VIII-A-Cl2154 2 100 fate 5 x 105 104/40 atm Fig. 2 Fig. 6A 5 x 10I 60 100 EU N VI!!-R-Cl29H 2 100 # ate 1 x 103 120/40 ata Fig. 2 Fig. 6A 5 x 10I 60 100 D g VIII-A-Cl30H 1/C(31 100 #ata I x 103 120/40 ata Fig. 2 Fig. 6A 5 x 10I 60 100 S

                                          *VIII-A-Cl31H 1/00M                   100   #ata    5 x 105          100/40        ata Fig. 2    Fig. 6A    5 x 10I     60       100
                                       $    VIII-R-Cl32 Void                                                                                                                   l b  *VIII-R-Cl33H 1/00M                   100   fata    5 x 105          100/40        ate Fig. 2    Fig. EA    5 x 10I     60       100 VIII-A-Cl34H 1/G31                  100   #ata    5 x 105          120/40        ata Fig. 2    Fig. 6A    1 x 10I     60       100 l

l VIII-R-Cl35H 2 100 #ata 1 x 107 120/40 ata Fig. 2 Fig. 6A 1 x 10i 60 100 VIII-R-Cl36 void

VIII-R-Cl37 void j VIII-A-C13154 2 100 # ate 1 x 109 120/40 ata - - 1 x 109 60 -

.l VIII-R-C139H 2 100 #ata I x 109 120/40 ata - - I x 109 60 - VIII-R-Cl40H 2 100 fate 1 x 109 120/40 ata - - 1 x 109 60 - I j

  • Indicates rooms that are served by Class 1E envirosamental support systems.
      $                                  #Within negative pressure boundary, f                                 H = Harsh envirotunent l' cn                                                                                                  AtlKII.I ARY BIIII.DINC I                                                                                                       (Sheet. 15 of 40)           e l

i i i H TABLR 2

 $                                                  ENVIRONMENTAL CONDITIONS (Sheet. 21 of 84)

RELATIVE g NORMAL ABNORMAL TF51 DRA/ POST-ORA famIDIIY MAX EWIR. TER INT. TEMP 'F TER INT. NORMAL DBA DESIGNATOR LBIIT *F PRESS 005E-RA05 MAX / MIN PRF55 *F PRESS DOSE-RADS  %  % LEVEL C (Cont) VI!!-It-C141H 1/00M 100 sata 1 x 109 120/40 ata - - 1 x 109 60 - VIII-R-C142H 1/GM 100 satm 1 x 109 120/40 ata - - 1 x 109 60 - VIII-A-C143H 1/GM 100 #ata I x 109 120/40 ata - - I x 109 60 - , VIII-4t-C144H 1/00M 100 satz 1 x 109 120/40 ata - - 1 x 109 60 - ! > VIII-4t-Cl45H 1/GM 100 #ata 1 x 109 120/40 ata - - 1 x 109 60 - ! N VIII-It-Cl46H 1/00M 100 #ata I x 109 120/40 ata - - I x 109 60 - 1 x 109 60 EU 1 x 109 120/40 ata l j VIII-A-Cl47H 2 100 sata - - ! w h VIII-R-Clas Spare fg VIII-A-C149H 2 100 # ate 1 x 109 120/40 ata - - 1 x 109 60 -

                                                                                                                                        ~S h  VIII-UCC0lH     1/00M  130        #ata     5 x 105       130/40       ata   -         -      1 x 108     60       -

5 VIII-U(IO2H 1/GM 130 sata 5 x 105 130/40 ata - - 1 x 108 60 - b VIII-UD003H 1/00M 130 sata 5 x 105 130/40 ata - - I x 108 60 - VIII-UD004H 1/00M 130 sata 5 x 105 130/40 ata - - 1 x 108 60 - VIII-UC005H 1/GM 130 #ata 5 x 105 130/40 ata - - 1 x 108 60 - VIII-UCC06H 1/COM 130 #ata 5 x 105 130/40 sta - - 1 x 108 60 - VIII-4fCC01H 1/GM 130 fata 5 x 105 130/40 ata - - 1 x 108 60 - VIII-Utrost 1/GM 130 #atm 5 x 105 130/40 ate - - 1 x 108 60 - VIII-UCGMH 1/00M 130 sata 5 x 105 130/40 ata - - 1 x 108 60 - VIII-UCC10H 1/GM 130 #ata 5 x 105 130/40 ate - - 1 x 108 60 - VIII-UCC11H 1/GM 130 sata 5 x 105 130/40 ata - - 1 x 108 60 -

 $    8Within negatlwe pressure boundary.
 $    H = Harsh environment cn AUKILIARY BtlTLDINC (Shect. 16 of 40)     ,

I TABLE 2

,y                                                                                              ENVIRONMENTAL CONDTTIONS (Sheet 72 of 84)

RELAIIVE a NORMAL ARNORMAL IFST nRA/ POST-DRA F47HDlIV RAX E ENVIR. TEW INT. IEW *F IEMP INT. NORMAL DBA DESIGNAIOR talli *F PRESS 005E-RA05 MAX / MIN PRF55 *F PRESS DDSE-RA05  %  % LEVEL C (Cont) VIII-UtX:12H 1/COR 140 sata 5 x 105 140/40 ata - - 1 x 10S 60 - VIII-UtX:131 1/00R 140 sata 1 x 109 140/40 ata - - I x 109 60 - VIII-UDCl4H 1/00R 130 sata 5 x 105 130/40 ata - - I x 108 60 - VIII-UCC15H 2 130 sata 5 x 105 130/40 ata - - 1 x 108 60 -

                                  >   VIII-UCC16H    2         140         sata               5 x 105        140/40       ata      -         -      1 x 108     60                    -

VIII-UCCl?H 2 140 sata 1 x 109 140/40 ata - - 1 x 109 60 - px

                                                                                                                                                                                           .m Q    LEVEL 8                                                                                                                                             ,4 g

)w g o j" g VIII-A-801 1/CINI 100 sata 1 x 103 120/40 ata - - 1 x 103 60 - l~

  • VIII-R-802H 1/CINI 100 sats 1 x 104 120/40 ata - - 5 x 105 60 -

5 *VIII-R-803H 1/CIIM 100 sata 1 x 10I 104/40 ate - - 5 x 10I 60 - b

                                     *VIII-R-804H     1/(XIR   100         sata               5 x 104        104/40       ata      -         -      I x 105     60                    -

1 *VIII-R-805H 1/00R 100 sate 5 x 105 104/40 ata - - 1 x 107 to -

                                     *VIII-R-806H     1/CIIR   100         sate               5 x 105        100/40       ata      -         -      1 x 10I     60                    -

VIII-R-807H 1/00R 100 sata 5 x 105 104/40 ata Fig. 2 Fig. 6C 5 x 105 to 100 ! *VIII-R-80154 1/00M 100 sata 5 x 105 104/40 ata Fig. 2 Fig. 6C 5 x 105 60 100 i *VIII-A-809H 1/CIIM 100 sata 5 x 104 104/40 ata - - 1 x 10I 60 - ! VIII-R-810H 1/COR 100 sata 5 x 104 120/40 ata - - 1 x 108 60 -

                                     *VIII-R-811H     1/00M    100         sata               5 x 105        100/40       ata      -                1 x 10I     60                    -

l l l

  • Indicates rooms that are served by Class IE envirtweental support systems.

i@ sWithin negatlwe pressure boundary.

      ,4                            H = Harsh environment e

AtIKII.T ARY BtlII, DING (Sheet 17 of 40) 8

l l

   %                                                                      TABLE 2
   @                                                        ENVIRONMENTAL CONDITTONS (Sheet. 23 of 84)

RELATIVE E l NORMAL ARNORMAL TEST DAA/ POST-0BA M IDIIY MAX e l i ElfVIR. TEfr INT. TEMP *F TEMP INT. NORMAL OSA OESIGNATOR LBIIT *F PRESS DOSE-RADS MAX / MIN PRF55 *F PRESS DDSE-RADS  %  % l l LEVEL 8 (Cont)

          *VI!!-A-812H     1/LilM      100     sata       5 x 104          104/40        ata      -            -                               1 x 10I     60          -
          *VIII-R413H      1/(Xyl       100    sata       5 x 104         104/40         ata      -            -                               5 x 106     60          -
          *VIII-k J14H     1/00M        100    sata       5 x 105          104/40        ata      -            -

I x 108 60 -

          *VIII-R-815H     1/00M        100    satm       5 x 105         104/40         ata      -            -                               5 x 106     60          -

l > VIII-R-816H J.741 100 satm 1 x 103 104/40 ata - - 1 x 105 60 - ( N

          *VIII-R417H
          *VIII-R4181 Iicyl 1/(IIM 100 100 sata sata I x 103 5 x 105 100/40 100/40 atm '

ata 5 x 106 1 x 108 60 60 l EU w

          *VIII-A-819H     1/(XIM     '100     sata       5 x 105         100/40         ata      -            -                               5 x 106     60          -                                .D
          *VIII-A-820H     1/(X1M      100     sata       1 x 10I         100/40         ata      -            -                               5 x 10I     60          -

S VIII-A-821H 1/00M 100 sata 1 x 103 120/40 ata - - 5 x 106 60 - E VIII-R-822H 1/(IIM 100 sata 1 x 103 112/40 ata - - 5 x 10' 60 - da VIII-R-823H 1/00M 100 sata 5 x 105 111/40 ata - - I x 10I 60 - VIII-R-824H 1/00M 100 Wate 1 x 103 115/40 ata - - 5 x 105 60 -

          *VIII-A-825H     1/0t31      100     sata       5 x 105          100/40        ata      -            -                               1 x 108     60          -
  • Vill-R-826H 1/00M 100 sata 5 x 105 100/40 atm Fig. 5 Fig. 6A 5 x 106 60 100 VIII-41-827 1 / 0131 100 sata 1 x 103 120/40 ata - - 1 x 103 60 -

VIII-R-828 1/00M 100 sata 1 x 103 120/40 ata - - 1 x 103 60 - VIII-R-82gH 1/00M 100 sata 1 x 103 120/40 ata - - 1 x 106 60 - I VIII-A-830H 1/00M 100 sata 5 x 104 120/40 atal Fig. 5 Fig. 6A 5 x 106 60 100 I I I

  • Indicates rixuss that are served by Class IE environmental support systems.

l$ 8Within negatlwe pressure boundary.

   .4    H = Harsh environment i m j                                                                AIIKII.T ARY BilII.DINC (Sheet 18 of 40)            e
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ATTACHMENT EA-25 25 REV. 6 l 25MR86

w TABLE 2 - oo ENVIRONMENTAL CONDTTIONS (Sheet 27 of 84) RELATIVE E NORMAL ARNORMAL TESI DRA/ POST-ORA temIDIIY MAX u ENWIR. TEpr INT. TF r 'F TEPP TNT. NORMAL DRA DESIGNATOR lalIT *F PRESS 005E-RA05 MAX / MIN PRESS *F PRESS 005t-RA05  %  % LEVEL 8 (Cont) VIII-R-890H 2 100 #ata 5 x 105 370/4a at. _ _ y , gas 60 - l VIII-A-891H 2 100 #ata 5 x 105 120/40 ata - - 1 x 108 60 - VIII-A-892 2 100 #ata I x 103 120/40 ata - - 1 x 103 60 - VIII-A-893 2 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - I > VIII-R-894H 2 100 #ata 5 x 104 120/40 ata Fig. 5 Fig. 6A 5 x 105 60 100 N VIII-A-895 2 100 #ata I x 103 120/40 ata - -. I x 103 60 - VIII-R-896H 2 100 # ate 1 x 103 120/40 ata - - 1 x 106 60 -

                                                                                                                                                             @5 g      VIII-A-897H    2       100        #ata    5 x 104          120/40        ata    -          -

1 x 108 60 - 4& N VIII-R-898H 2 100 sata 5 x 105 120/40 ata - - 1 x 108 60 - ,_. S VIII-R-899H 2 100 #ata 5 x 105 120/40 sta - - I x 108 60 - N VIII-R4100H 2 100 #ata 5 x 105 120/40 ata - - 1 x 108 60 - b VIII-R-810lH 2 100 sata 5 x 105 120/40 ata - - I x 108 60 - VIII-A-3102H 2 100 #ata 5 x 104 120/40 ata - - I x 105 60 - VIII-A-81038 2 100 # ate 5 x 104 120/40 ata - - 5 x 104 60 - VIII-A-8104H 2 100 #ata 5 x 104 120/40 ata - - 1 x 105 60 - VIA-A-8105 2 100 #ata 1 x 103 120/40 ata - - 5 x 103 60 - VIII-A-8106H 2 100 # ate 1 x 10I 104/40 ata - - 1 x 100 60 - VIII-R-8107 2 100 # ate 1 x 103 120/40 ata - - 5 x 103 60 - VIII-a-81084 2 100 #ata 1 x loi 104/40 ata - - 1 x 108 60 - VIII-A-8109 2 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - g sWithin negative pressure boundary.

 . H = Harsh environment
 .c AIIXII.IARY BilII. DING (Sheet 22 of 40) t

U

                     %                                                                                                                                            TARI.E 2
  • ENVIRONMENTAI. CONDITTONS (Sheet. 28 of 84)

RELATIVE g N0fMAL ARNORMAL TEST DRA/ POST-0BA MstIDITY MAX u ENVIR. TER INT. TE M *F TEfr INT. NORMAL DRA DESIGNATOR tsIII *F 19E55 00SE-RADS MAX / MIN PRF55 *F PRESS COSE-RADS 1  % LEVEL 8 (Cont) j VIII-A-8110H 2 100 sata 5 x 105 120/40 ata Fig. 4 Fig. 6C 5 x 107 60 100 5 x 106 VIII-A-8111H 2 100 # ate 1 x 103 120/40 ata - - 60 - VIII-A-Sll2H 2 100 fate 1 x 103 115/40 ate - - 5 x 105 60 - VIII-R4113H 2 100 fata 5 x 105 III/40 ata - - I x 10I 60 - l VIII-A-8114H 2 100 fate 1 x 104 112/40 ata - - 5 x 106 60 - l VIII-R-8115H 2 100 fata 5 x 105 104/40 ata - - 1 x 108 60 -

                                                                                                                                                                                                                                   ,x
                                                                  >      VIII-R4116H 2            100               fate                          1 x 107         104/40        ata    -          -      5 x 10I     60       -

i VIII-R-Sil)H 2 100 #ata 5 x 105 104/40 ata - - 5 x 106 60 - o "N Q " l i;3 VIII-R-all8H 2 100 fata 5 x 105 104/40 ata - - 1 x 108 60 - O*

                                                                  $      VIII-R4119H 2              100             # ate                         5 x 105         104/40        ate    -          -      5 x 106     60       -
                                                                       *VIII-R-8120H 2
                                                                       *VIII-A-al21E    2 100 100
                                                                                                                    #atm fata 5 x 105 5 x 105 100/40 100/40 ata ata 1 x 108 5 x 106 60 60 l

3

                                                                  $      VIII-R-8122H 2             100             #ata                          1 x 103         104/40        ata    -          -      I x 105     60       -

VIII-R-8123H 2 100 fata 5 x 104 104/40 ata - - 5 x 106 60 - VI{I-R4124H 2 100 #ata I x 10I 104/40 ata - - 5 x 10I 60 - VIII-R-al25H 2 100 sata 5 x 104 104/40 ata - - I x 105 60 - VIII-R4126H 2 100 #ata 5 x 105 104/40 ata - - 1 x 107 60 - VIII-R4127H 2 100 fata 5 x 105 104/40 ata - - 1 x 10I 60 - VIII-R 412BH 2 100 #ata 5 x 104 120/40 ata - - 1 x 108 60 - VIII-R-8129H 2 100 #ata 5 x 105 104/40 ata - - 1 x 10I 60 -

                   @                                                  8Within negatlwe pressure boundary.

4 H = Harsh envirtmunent

  • Indicates rooms that are served by Class IE environmental support systems. l AllKII.T ARY HUlt. DING (Sheet 73 of 40) I

g TABLE 2 g ENVIRONMENTAL CONDITIONS (Sheet. 29 of 84) REtATIVE g NORML ABNORMAL TFST ORA /POSI-DRA M9tinIIY MAX u ENVIR. TEM INT. TE M 'F TFMP INT. NORMAL IBA DESIGNAIOR LBIII *F PRESS DOSE-RADS MAX / MIN PRF55 *f PRESS DDSE-RADS  %  % LEVEL 8 (Cont) VIII-24130H 2 100 #ata 5 x 105 100/40 ata Fig. 2 Fig. 6C 5 x 105 60 100

         *VIII-A-813)H    2       100        sata       5 x 105         104/40        atm  Fig. 2    Fig. 6C    5 x 105     60      100 l VIII-R-8132H   2       100        sata       5 x 104         104/40        ate      -         -      1 x 10I     60        -

VIII-A-31334 2 100 sata 5 r 105 104/40 ate - - 1 x 10I 60 - i

     >     VIII-A-3134    2       100        #ata       I x 103        .j20/40        ata     -          -      1 x 103     60       -

N VIII-A-8135H 2 100 #ata I x 103 120/40 ata - - 5 x 105 60 - l VIII-R-8136H 2 100 # ate 1 x 103 120/40 ata - - 5 x 105 60 - Rd 'u *VIII-R-8137H 1/CWI ~100 #ata 5 x 105 100/40 ata Fig. 5 Fig. 6C I x IOS 60 100 4D '* *VIII-A-813De 2 100 sata 5 x 105 100/40 ata Fig. 5 Fig. 6C I x 108 60 100 l

                                                                                                                                          '-~

S VIII-A-8139H 1/COM 130 sata 5 x 105 130/40 sta - - 1 x 10I 60 - 5 VIII-A-3140H 1/00M 120 #ata 5 x 105 120/40 ata - - 1 x 107 60 - da VIII-A-8141H 1/00M 120 #ata 5 x 105 120/40 ata - - I x 10I 60 -

  • 60 VIII-A-8142H 1/00M 120 #ata 5 x 105 120/40 ata - -

1 x 107 - VIII-A-8143H 1/(X]M 120 # ate 5 x 105 120/40 ata - - I a 10I 60 - VI!!-A-8144H 1/(X]R 130 sata 5 x 105 130/40 ata - - 1 x 10I 60 - VII'!-A-8145H 1/00M 130 # ate 1 x 109 130/40 ata - - 1 x 109 60 - VIII-A-8146H 1/00M 120 #ata 1 x 109 120/40 ata - - 1 x 109 60 - VIII-A-8147H 1/OOM 120 sata 1 x 109 120/40 ata - - 1 x 109 60 - VIII-R-81454 1/00M 120 # ate 1 x 109 120/40 ata - - I x 109 60 - l

  • Indicates rooms that are served by Class IE environmPatal support systems.

g 8Within negative pressure boundary.

 ,c'    H = Harsh environment
  • AllIII.T ARY Bifil, DING (Sheet. 24 of 40) e

l l !o t l TABLE 2 e RNVIRONMENTAI. CONDITIONS (Sheet 30 of 84) RELATIVE g NORMAL ARNORMAL TEST DRA/ POST-DRA lamIDIIY MAX u I l ENVIR. TEW INI. TFr *F TEMP INT. NORMAL DBA r DESIGNATOR talif *F PRESS 005E-RA05 MAX / MIN PRF55 *F PRESS DD5E-RADS  %  % i l LEVEL 8 (Cont) r VIII-A-8149H 1/00M 120 satz 1 x 109 120/40 ata - - 1 x 109 60 - VIII-R-8150H 1/Clyt 130 sata 1 x 109 130/40 ata - - 1 x 109 60 -

                                 *VIII-R-8151H                                 1/mM     100  sata                                             I x 109        100/40       ata   -         -      I x 109     60       -
                                 *VIII-A-8152H                                  1/00M   100  satm                                             I x 109       100/40        ata   -         -

1 x 109 60 -

                              >  *VIII-R4153H                                   1/00R   120  sata                                             1 x 109        100/40       ata   -         -      1 x 109     60       -

N VIII-R-Sl544 1/(X31 120 sata 1 x 109 120/40 ata - - I x 109 60 -

                                 *VIII-4t-8155H                                 1/00M   100  sata                                             1 x 109        100/40       ata   -         -      I x 109     60       -

ps g )w VIII-R-Sl56H 1 /0131 140 sata 1 x 109 140/40 atm - - 1 x 109 60 - Eg l0 g VIII-R-8157H 1/00R 155 sata 1 x 109 155/40 ata - - 1 x 109 60 - o l *VIII-A-81584 1/00R 100 sata 5 x 105 100/40 ata - - 1 x 10I 60 - O# N *VIII-R-8159H 1/00R 100 sata 5 x 105 100/40 abe - - 1 x 10I 60 - ! b VIII-R4160H 1/GNI 120 sata 5 x 105 120/40 ata - - I x 10i 60 - VIII-R-8161H 1/ Qui 120 sata 5 x 105 120/40 ata - - 1 x 107 60 -

                                  *VIII-R-8162H                                 1/00M   100  sata                                             5 x 105        100/40       ata    -        -       1 x 10I     60       -

VIII-R41634 1/ 0 31 140 sata 5 x 105 140/40 ata - - 1 x 107 60 - VIII-3t4164H 1/00M 155 sata 5 x 105 155/40 ata - - 1 x 10I 60 - VIII-R-8165H 2 130 sata 5 x 105 130/40 ata - - 1 x 107 60 - i VIII-R-8166 Spare VIII-R4167 Spare !

  • Indicates rooms that are served by Class IE envirtmuental support systems, g AWithin negatlwe pressure boundary.
   <:                           H = Harsh envirtueent
  • AUKII.IARY BIIILDING i

(Sheet 25 of 40) I i i t

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                                         .-    w    ===============.=====                                  n W $    E E E EE E E E E E E E E E E E E E E E                 =.

Ez ATTAC10ENT EA-31 25MR86 31 REV. 6

                                                       . _ _ -             _ _ - .      __       _-_                    _       ~                  . _ _ . _ _ _

i i i w I h TARIE 2 m ENVIROIWlENTAL CollDITIONS 1 (Sheet 33 of 84) RELAIIVE

!                                                                     NOMMAL                          ARNDRMAL TEST               ORA / POST-084                 malIGIIY Mar  l l

l ENWIR. TEfF INT. TEMP *F TEW INT. NORMAL DRA l DESIGle4TGt talIT *F PRESS 005E-RA05 MAX / MIN PRESS *F PRESS 005E-RA05  %  % i l LEVEL A (Cont) i VIII-A-A04 1/00M 100 sata I x 103 120/40 ata - - I x 103 60 -

 !                          *VIII-A-A05          im            10 0  # ate         1 x 103            100/40        ate      -           -       I x 103           60       -

l *VIII-A-A07H 1/Ctm 100 sata 1 x 107 100/40 ata Fig. I Fig. 6C 5 x 10I 60 100 1 *VIII-41-AOSI 1/COM 100 #ata 5 x 105 100/40 ata Fig. 1 Fig. 6C 1 x 108 60 100

              >             *VIII-A-A09H         1m            100   sate          5 x 105            100/40        ata   Fig. 2     Fig. 6C     1 x IOS           60     100 N               VIII-A-AlG4        1/COM         100   Sata          1 x 108            111/40        ata   Fig. 4     Fig. 6C     1 x 108           60     100
                            *VIII-a-A130         t/COM         100   sata          5 x 105            100/40 ata      -           -       5 x 107           60       -

7d 4 w VIII-A-AISO 1/COM iOO sata 5 x 108 112/40 ata - - 5 x 105 60 -

                                                                                                                                                                                      ? D.
  • Vill-a-AIS 1/COM 100 # ate 1 x 103 100/40 ata - - 1 x 108 to -

S , VIII-a-A16H 1/COR 10 0 sata 5 x 105 120/40 ata - , - 1 x 10 7 to - ! E VIII-A-Alf 1/CIM 100 # ate 1 x 103 112/40 ata - - 1 x 108 60 - I w *VIII-A AleH 2 100 sata 5 x 105 100/40 ata - - 5 x 10I 60 -

                            *VIII-a-AlgH         1/GM          100   sata          5 x 108            100/40        ata      -           -       1 x 10I           to       -

VIII-A-A21 1/CIM 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - VIII-a-A22 1m 100 sata 1 x 103 120/40 ata - - 1 x 103 60 - , VIIi-A-A23 1/00M 100 sata 1 x 103 120/40 ata - - 1 x 103 60 - l VIII-A-A24H 1/GBI 100 sata 1 x 103 120/40 ata Fig. 5 Fig. 64 5 x 103 60 100 VIII-A-A25H 1/COM 100 #ata 5 x 105 120/40 ata Fig. 5 Fig. 6A 5 x 106 60 100

                            *VIII-A-A26H         1/CWI         100   #ata          5 x 105            100/40        ata      -           -       1 x 108           60       -
  • Indicates teams that are served by Class IE environmental support systems.

l@ SWithin negative pressurv boundary. l ,4 H = Harsh environment i 1m

;                                                                                          AUIll.I ARY RUTI.DINC                                                                                  .

(Sheet 28 of 40) , l i

l t PJ i TABLE 2

 ; cn                                                           ENVIRONMENTAL CONDITIONS (Sheet 37 of 84)

RELATIVE g a NORMAL ARNORMAL TFST ORA / POST-ORA tamI0lIY MAK = 1 ENWIR. TEfr DJT. TEMP 'F TEMP INT. NORMAL 084

 )          DESIGNA1Gt     telli    *F      PRESS             E05E-RA05     MAX / MIN    PRF55    'F       PRESS     DOSE-RADS   %         1 LEVEL A (Cont) 1 VIII-a-AS4H    2      100         #atm            5 x 105       120/40        ata     -           -      1 x 105     60        -

VIII-A-A85H 2 100 #ata 5 x 105 120/40 ata - - 1 x 108 60 - VII! 4-A96H 2 100 sata 5 x 105 120/40 ata - - 1 x 108 60 - VIII-R-A01H 2 100 #ata 5 x loi 120/40 ata - - 1 x 108 60 - VIII-R-ASBN 2 100 #ata 5 x 105 120/40 ate - - I x 108 60 - VIII-R-A89 2 100 # ate 1 x 103 y20/40 ata - - 5 x 103 60 - VIII-R-A90 2 100 # ate 1 x 103 120/40 ata - - 1 m' 103 60 - g$ vi!!-A-A91H 2 100 # ate 1 x 104 104/40 ate - - 5 x 105 60 - <

                                                                                                                                                            ,t g

N VIII-R-A92 2 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - gg 1 x 103 5 x 103 60 " l VI!!-a-A93 2 100 # ate 120/40 ata - - - 5 VIII-A-A94 2 100 #ata 1 x 103 120/40 ata - - 1 x 103 60 - b VIII-A-A95 2 100 # ate 1 x 103 120/40 ata - - 1 x 403 60 - ! VIII-A-A96 2 100 # ate 1 x 103 104/40 ata - - 1 x 103 60 - VIII-A-A91 2 100 # ate 1 x 103 120/40 atm - - 1 x 103 60 - l VIII-A-A98 2 100 #atm 1 x 103 104/40 ate - - 1 x 103 60 - evlII-A-A100H 2 100 #ata 1 x 10I 100/40 atm Fig. 2 Fig. 6C 5 x 107 60 100 i *VIII-A-A101H 2 100 tam 5 x 105 100/40 ata Fig. 2 Fig. 6C 1 x 108 60 100 i VIII-A-A102H 2 100 s.tm 6 x 103 111/40 ata Fig. 4 Fig. 6C 1 x 104 60 100

           *VIII-A-A1034   2       100        #atm            5 x 105        100/40       atm  Fig. 2    Fig. 6C     1 x IOS     60       100 l

l

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!g sWithin negative pressure boundary. i g H = Harsh environment

  • AtiX1LI ARY Billi DINC (Sheet. 32 of 40) 9

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  $                                                                              TABLE 2                                                                                  ,
;$                                                                  ENVIRONMENTAL CONDITIONS i                                                                          (Sheet 3R of 84)

I KtATIVE l MORMAL ARNORMAL IFST DRA/ POST-OSA mmIDIIY IWut E i ENWIR. TER INT. TFMP *F TEW INT. NORMAL OSA I K SIGNAICR l#1IT *F PESS DDSE-RADS MAX / MIN PRF55 "F PRESS D05E-RA05  %  % LEVEL A (Cont) VI!!-A-A106H 2 100 sata 5 x 105 120/40 ata - - 1 x 105 60 - VIII-R-A108 Vold l VIII-A-A109H 1m 100 sata 5 x 105 120/40 ata - - 1 x 103 60 . -

;            VIII-R-A110H 2                     100   pata       5 x 105          120/40       ata      -             -      1 x 10I             60      -

l > VIII-R-A111H 1/COM 100 # ate 1 x 109 120/40 ata - - 1 x 109 60 - i N vill-R-All2H 1m 100 sata 1 x 109 120/40 ata - - 1 x 109 60 - VI!!-A-AllW 1/00M 100 # ate 1 x 109 120/40 ' ata - - 1 x 109 60 - 75 w VIII-R-Allet 1/00M 100 # ate 1 x 109 120/40 ata - - 1 x 109 60 - 4& VIII-A-A115H 1/COM 100 #atle 1 x 109 120/40 ata - - 1 x 109 60 -

                                                                                                                                                              ~$

i VIII R-All6H 1/COM 100 sat.a 1 x 109 120/40 ata -

                                                                                                                      -      1 x 109             60      -

} N VIII-R-AllW Im 100 #ata 1 x 109 120/4fl ata - - 1 x 109 66 - b

      "       VIII-A-Allet 1/00M                 100  #ata       1 x 109          120/40       ata       -            -      1 x 109             60      -

VIII-A-All1H 1/00M 100 fata 1 x 109 120/40 ata - - 1 x 109 60 - VIII-A-Al20H 1m 100 #ata 1 x 109 120/40 ata - - 1 x 109 60 - VIII-A-Al2 M 1m 100 # ate 1 x 109 120/40 ata - - I x 109 60 - l VIII-A-A122H l Im 100 sata 1 x 109 120/40 ata - - 1 x 109 60 - i VIII-A-Al2D 2 100 # ate 1 x 109 120/40 ata - - I s 109 60 - l VIII-A-Al24H 2 100 # ate 1 x 109 120/40 sta - - 1 x 109 60 - l VIII-A-A125H 2 100 # ate 1 x 109 I20/40 ata - - 1 x 109 60 - l VIII-A-A126H 2 100 pate 1 x 109 120/40 ata - - 1 x 109 60 - I 1 )E #Within negatlwe pressure tmundary. j .4 H = Harsh environment .i e j AUN11.IARY BtIII.DiNC ] (Sheet 33 of 40) l

3 iw ' TABLE 2 4 m ENVIRONHENTAL CONDITIONS (Sheet 39 of 84) I RELATIVE 3 N0lW4AL ARNORMAL TFsi DRAh asi-ORA M8610lly RAx a ENV!R. TERP INT. TERP F TERP INT. NOINIAL D34 r j nEsicRAvoR mir r m ss nost-aA0s RAx/RiN PRrss m ss nost-RA0s s s l LEVEL A (Cont) f VIII-4t-Al21H 2 100 #ata I x 103 120/40 ata - - I a 109 60 - j VIII-41-Al294 2 100 # ate 1 x 109 120/40 ata - - 1 x 109 60 - VIII-ft.Al294 2 100 #ata I x 109 120/40 ata - - 1 x 109 60 - I VIII-4t-A13mt 2 100 #ata i n 109 120/40 dim - - 1 x 109 60 -

    >    VIII-4t-A131H  2            100   sate             # x 109         T20/40       a%        -            -      1 x 109      60        -

d VIII-It-A132H 2 100 # ate 1 x 109 120/40 ata - - 1 x 109 60 -

  • VIII-4t-A1330 2 130 # ate 1 x 109 130/40 ata - - I m 109 60 -

d 7*' jg VIII-a-A134H 2 130 pate 1 x 109 130/40 ata - - 1 x 109 60 - f[

  • VIII41CA0lH 1/COR 130 #ata 5 x 105 130/40 sta - - I m 100 60 - ,g I VIII-41CA02H I/00R 130 #ata 5 x 105 130/40 ate -
                                                                                                                -      1 x 108      60        -

' @ VIII-UCA03H 1m 130 #ata 5 x 105 130/40 ata - - 1 x 1# 60 -

d. VIII-UCA04N 1/CCR 130 #ata 5 x 105 130/40 ata - - 1 x 108 60 -
    *                                      # ate            S x 105           130/40     ata                           1 x 100      60 i         VI!!-UCA05H    1/COM        130                                                           -            -                             -

! VIII-UCA06H 1/CDR 130 #ata 5 x 105 130/40 ata - - 1 x 108 60 - ! VIII-UCA01H 1/COR 130 #ata 5 x 105 130/40 ata - - 1 x 108 60 - VIO-4fCAGS4 1/COM 130 #ata 5 x 105 130/40 ata - - 1 x 108 60 - , l y , jag i VIII-UCA0ft im 130 #ata 5 x 105 33ofeo ,,, _ _ 60 VIII-UCAIGN 1/CDR 130 # ate 5 x 105 33ofeo ,,, _ _ y , ggp 60 - ( VIII-UCAllH 1m 120 #ata 5 x 105 120/40 atm Fig. I Fig. 68 1 x 1@ 60 100 l VIII-UCA12H 1m 120 sata 1 x 10I 120/40 ata Fig. 2 Fig. 6C 5 x 107 60 100 I i t g sWithin negative pressure boundary. . c H = Harsh envirtwunent I: !* AtIKII,I ARY Bil11.DINC ! (Sheet 34 of 40) i e i a ) m.

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      @                                                                     TABI.E 2 j $                                                          EIIVIROINERNTAL COIfDITIONS j                                                                    (Sheet 40 of 84) l I                                                                                                                               RELATIVE NORML                      ABNORMAL TEST              DBA/ POST-OBA           lastIDIIY IWut !

Einf!A. TEr INT. TE M *F TEr INT. NORMAL DRA DESIGIIATOR LSliT T PRESS DOSE-RADS mx/ MIN PRF55 T PRESS OD5E-RADS  %  % i LEVEL A (Cont) 4 VIII-UcA13H 2 120 sata 5 x 105 120/40 ata Fig. 1 Fig. Em 1 x ICS 60 100 VIII-UCA144 2 120 Fate 1 x 107 120/40 ate Fig. 2 Fig. 6C 5 x 107 60 100 LEVEL 1

          >    VIII-a-101       1/G31    100    # ate      1 x 103           120/40       ata      -          -

1 x 103 60 - N VIII-R-102 1/GNI 100 #ata 1 x 103 120/40 ata - - - I x 103 60 - I VIII-A-103 1/ 0 31 100 sata 1 x 103 120/40 ata - - I x 103 60 - g$ 4 I a- VIII-A-104 1/Gol 100 sata 1 x 103 10R/40 ata - - 1 x 103 60 - h VIII-A-105 1/GBt 100 # ate 1 x 103 107/40 ata - - 1 x 103 60 - ,o 5 m loi - i *VIII-A-106N 1/00M 100 # ate 1 x ISI 100/40 ata -

                                                                                                              -                  60        -

5 *VIII-R-10lH 1/Gyl 100 sata 5 x 105 100/40 ata - - 1 x 108 60 - l [ VIII-A-109 Void VIII-R-110H 1/ 0 31 100 #ata 5 x 104 104/40 ata - - 1 x 105 60 - i VIII-R-ill 1/00M 100 sata 1y 103 120/40 ata - - 1 x 103 60 - VIII-A-112 1 / 0138 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - ! VIII-a-113 1/00M 100 sata 1 x 103 120/40 ata - - 1 x 103 60 - l VIII-A-114 1/G34 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 -

.              VIII-A-115        1/00M   100    satm        1 x 103          120/40       atm      -          -      1 m 103     60        -

l *VIII-a-116 1/00M 85 sata 1 x 103 100/40 ata - - 1 x 103 60 - l I j -

  • Indicates rooms that are served by Class IE environmental sipport systems.

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.U TABLE 2 ig ENVIRONMENTAL CONDITIONS (Sheet 42 of 84) RELATIVE a ABNORMAL TEST 08A/ POST-08A 6amIDIiv MAX ' NORM L ENVIR. TER INI. IEMP *F TEM INT. NORRAL DBA DESIGNAT(Et (MII *F PRESS DOSE-RADS MAX / MIN PRESS *F PRESS DDSE-MADS  %  % i LEVEL 1 (Cont) l l VIII-A-137 2 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - ) VIII-A-13B 2 100 sata 1 x 103 120/40 ata - - 1 x 103 60 - VIII-A-139 2 100 sata I x 103 120/40 ata - - 1 x 103 60 - l l VIII-n-140 1/CIM 100 #ata I x 103 120/40 ata - - 1 x 103 60 - VIII-A-141 1/00M 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - VIII-R-142 1/COR 100 #ata I x 103 120/40 ata - - 1 x 103 60 - h

                     >                                           sata        1 x 103           120/40       ata                      1 x 103          60            mx VIII-A-143           2      100                                                          -            -                               -
.c                   h   VIII-A-144           2      100         # ate       1 x 103           120/40       ata   -            -     1 x 103          60       -

I" N VI!!-R-145 2 100 #ata 1 x 103 120/40 ata - - 1 x 103 60 - a M VIII-a-146 2 100 sata 1 x 103 120/40 at. - - i x 103 60 - O* g VIII-a-147 2 85 sats 1 x 103 104/40 ata - - 1 x 103 60 - e VIII-A-148 2 100 sata 1 x 103 120/40 ata - - 1 x 103 60 - E VIII-A-149 2 85 sata 1 x 103 104/40 ata - - I x 103 60 - VIII-R-150 2 100 sata 1 x 103 120/40 ata - - I x 103 60 - VIII-a-151 2 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - VIII-R-152 2 100 sata 1 x 103 10B/40 sta - - 1 x 103 60 - . VIII-A-153 2 100 saem 1 x 103 107/40 ata - - 1 x 103 60 - l *VIII-a-154H 2 100 #ata 1 x 10I 100/40 ata - - 5 x 101 60 - l *VIII-A-155H 2 100 sata 5 x 105 100/40 ata - - I x 108 60 - l 4 i

  • Indicates rooms that are served by Class IE environmental support systems.

g sWithin negative pressure boundary. jp H = Harsh environment i* AtIIII.I ARY BilII.DINC (Sheet 37 of 40) , l I

aw TARI.E 2 cn EllV1RONMENTAt, CollDiTIONS !* (Sheet 43 of 84) RELATIVE g i IIORMAL ABN0fulAL TFST DBA/ POST-DBA 54#1I0lIY MAX l l Elfv!R. TEfr INT. TERP - T TEfr INT. II0lWIAL 08A DESIGIIATGt tBIIT *F PRESS DOSE-RAOS MAN / MIN PRESS T PRESS DDSE-RADS  % 1 1 j LEVEL 1 (Cont) j VIII-A-156 2 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - I vi!I-A-157H 2 100 sata 5 x 104 104/40 ata - - 1 x 135 60 - l VIII-A-158 Void

          *VIII-st-16SI   2       100          # ate          1 x 107         100/40        ata     -           -      5 x 10I       60       -
          *VIII-A-161H    2       100          #ata           5 x 105         100/40        ata     -           -      1 x 108       60       -

VIII.4t-162 2 100 sata I x 103 120/40 ata - - 1 x 103 60 - h ' EU j $ LEVEL 2 sto

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I x 103 120/40 ata 1 x 103 60 - !" N VIII-A-201 1/COR 100 sats - - N . N VIII-A-202 1/0131 100 #ata 1 x 103 107/40 ata 118 - 1 x 103 60 - VIII-A-203 100 sats 1 x 103 107/40 ata 114 ' - I x 103 60 - g 1/COR 1 x 103 120/40 ata 1 x 103 60 e VIII-R-204 1/031 100 # ate - - - O VIII-R-205 1/CDR 100 sata 1 x 103 120/40 ata - - 1 x 103 60 - VIII-A-206 1/COM 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 - i *VIII-R-207 1/G31 100 sata 1 x 103 104/40 ata - - 1 x 103 60 -

VIIi-ft-208 1/COR 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 -
          *VIII-A-20W4     1/00M  100          #atas           1 x 103         100/40       ata      -          -       1 x IM       60       -
          *VIII-A-210H     1/G31  100          fate            1 x 103         100/40       ata      -          -      1 x 10%       60       -

VIII-st-211 1/GBl 100 # ate 1 x 103 120/40 ata - - 1 x 103 60 -

  • indicates rooms that are served by Class IE environmental support systems, fg 8Within negative pressure boundary.
,4 H = Harsh environment AUNII.T ARY BtITI.DINC (Sheet 38 of 40) i i

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ElfVIROINERNTAL CONDITIONS (Sheet 76 of 84) fELATIVE a le(ButAL ASNORMAL IESI IBM / POST-804 lastIDIIY ftAM 8 f EIIVIA. TEfr INI. IffF *F TEfr INf. IE55tAL 134 OESIGn410R LEIII *F PRESS DOSE-AADS MAN / MIN PRESS *F 1 1 l PRESS DO5E-ftADS 1 LEVEL 1 XIII-A-10lH 1/CDM 104 sata 5 m 109 104/40 ata - - 5 m 109 - - MIII-A-102 1/Gsl 80 sata 1 m 103 104/40 ata - - I a 103 - l XIII-a-1034 1/ Gut 104 sata 5 m 1010 104/40 ata - - 5 m 1010 60 - i XIII-A-104H 1/ CON 104 sata 5 m 10I 104/40 ata - - 5 m 10I 60 - MIII-a-105H 1/COR 104 sata 5 m 107 104/40 ata - - 5 a lei 60

         >    XIII-A-106H     2       104       sata                          104/40 5 m 108 l              XIII-R-107AH    2       104       sata           1 m 106        104/40 ata      -           -

5 m 108 60 - mg ata - - I a 106 60 -

                                                                                                                                                          *g I
 ,    y       XIII-a-1070H    2       104       sata            1 m 106       104/40         ate     -           -

I m I@ to o I MIII-a-10704 2 104 sata 5 m 105 104/40 ata - - 5 m 105 60 - C# ) MIII-A-l e t 2 104 sate 5 m 105 104/40 ate - - 5 m 105 60 - MIII-a-109 1/G3B 104 sata 1 m 103 104/40 ata - - I a 103 60 - XIII-ft-lle 1/G31 104 sata 1 m 103 104/40 ata - - I a 103 60 -

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.l MIII-A-20lH 2 104 sata 5 m 106 104/40 ata - -

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5 m Idb - - MIII4-202H 2 104 sata 5 m 10S 104/40 ata - - 5 m 18 - - LEVEL 3 1 I MIII-a-30164 1/ 0 31 104 sate 5 m 105 104/40 ata - - 5 m 105 - - i itIII-ft-302 1/GNI 80 sata I a 103 104/40 ata - - I a 103 60 - XIII-ft-3036 I/GNI 104 sata 5 m 106 104/40 ata - - 5 m Id - - 1 MIII-a-304 1/ Gut 104 sata 1 m 103 104/40 ata - - I a 103 - - I MIII-A-305 1/ 0 31 104 sata I a 103 104/40 ata - - I a 103 - - I

      ,4   8Within negative pressure bon.ndary.

j , H = Harsh egwiressent ] RADWASTE TRANSFER BUII.D]NC (Sheet 1 of 1) i I'

i a I O i j TARLE 2 1 $ E31VIRONMENTAt, CONDITIONS (Sheet. 77 of 84) l l AELATIVE 3 NDRRE ASNORMAL TESI ORA / POST-CBA MSIl0ITY RAK W ENWIR. TEfr INT. TERP "F TEM INT. N0 lute DBA j DESIGIATGt LBIIT *F PRESS DD5E-AADS MAX / MIN PRESS *F PRESS OD5E-AA05 1 1 l

,                                        LEVEL A 1

! XIII-a-A01 1/G31 104 sata l n 103 104/40 ata - - I m 103 - - l XIII-A-A02 1/0131 104 sata 1 x 103 104/40 ata - - I a 103 - - XIII-a-A03 1/clys 164 sata 1 m 103 104/40 ata - - I a 103 - - ! XIII-A-A04 1/Ctpl 30 sata 1 m 103 104/40 ata - - I a 103 - - I XIII-a-A05 1/CIst 80 sata 1 m 103 104/40 ata - - I a 103 40 - ! > XIII-A-A06 1/C131 00 sata 1 m 103 104/40 ata - - I z 103 60 - I XIII-A-A07 1/G31 104 sata I a 103 104/40 a'ta - - I a 103 - - U

                           ~             XIn-a-Ass      i/oDR    104       sats            1 m 103          104/40             ate                      -         -      i n 103           -         -     ?E XIII-A-A09H     1/013e   75       sate I m Id           104/40             ata                      -         -      I m Id            -         -     eS XIII-a-AIGN     1/00R   104       saem           5 x 105           104/40             sta                      -         -      5 m 105           -         -     I XIII-a-AIM 4    1/Gpt   104       sata            I a id -         104/40             ata                      -         -      I a 106           _         _

XIII-a-Al2H 1/CDR 104 sata 5 m 105 104/40 ata - - 5 m 105 . . U XIII-a-A13 1/GBq 104 sata 1 m 193 104/40 ata - - I a 103 - - j XIII-a-A14H 1/03t 75 sata 5 m 10I 104/40 ata - - 5 m 10I - - { XIII-a-AI5H 1/ 0 38 104 sata 5 m 16 104/40 ata - - 5 m Id - - XIII-a-A14H 1/GBI 104 sata 5 m 10I 104/40 ata - - 5 m 10I - - XIII-A-AllH 1/G31 104 sata 5 m 108 104/40 ata - - 5 m 109 - - XIII-as'18 1/COR 104 8. eta I a 104 104/40 ata - - I m 108 - - XIII-a-ats 1/G31 104 salm I a 104 104/40 ata - - I a 108 - -

                                        .XIII-A-A2tBt    1/00R   104       sata            1 m 1010         104/40             ata                      -         -      I a 1010          _         _
                           @           sWithin negatlwe pressure boundary.
                           ,4          H = Harsh environment e

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1 l APPENDIX EA QUALIFICATION REQUIREMENTS FOR SAFETY-RELATED EQUIPMENT, DEVICES, AND INSTRUMENTATION FOR THE ALVIN W. V0GTLE NUCLEAR PLANT BURKE COUNTY, GEORGIA REVISION 3 i t J i ! 10 JAN 83

APPENDIX EA Rsv. 3 Pa ragraph Page 1.0 SCOPE EA-1 2.0 CODES AND STANDARDS EA-2 3.0 PRINCIPLES OF QUALIFICATION EA-4 4.0 EQUIPMENT ENVIRONMENT AND PERFORMANCE EA-12 5.0 ACCEPTABLE PROGRAMS BY CATEGORY EA-13 6.0 DOCUMENTATION EA-17 FIGURES: 1 Title Page EA-21 3 2 Revision Page EA-22 T l i l 10 JAN 83 EA-i i

APPENDIX EA Rsv. 3 APPENDIX EA , QUALIFICATION REQUIRENENTS FOR SAFETY-RELATED EQUIPMENT, DEVICES, AND INSTRUMENTATION 1.0 SCOPE 1.1 GENERAL A. This Appendix identifies qualification methods and requirements for Safety-Related Equipment (Mechanical Equipment, and Class IE Equipment) hereinafter called Equipment, using the guidance given in IEEE Standard 323-1974 to verify that Equipment can perform the specified

            . safety functions when subjected to normal, abnormal and design basis event environmental conditions and can adequately perform this function before, during, and after the specified event. This document also i             provides the general requirements for development of qualification plan (s), procedure (s) and report (s). Compliance with the general require-                                           ,

ments of developing qualification plans / procedures / reports and the utilization of the specific procedure shall be in accordance with this document. The availability of information will be taken into account during such reviews. B. It further requires the Contractor to describe his qualification pro-gram and from it to demonstrate, by appropriate tests and/or analyses with adequate justification, a period of qualified life (41 years) for the Equipment and its components offered. If a qualified life of 41 years for the Equipment ites or component has not been demonstrated, the Contractor shall state the methods by which he will qualify the Equipment. C. Equipment varies considerably in size and complexity. This Appendix, therefore, addresses the major Equipment categories and specifies acceptable programs for these categories. D. Quality assurance program requirements which apply to the Purchaser's Specification shall also apply to this Appendix. E. Where there are conflicts between the IEEE Standards, U.S. NRC Regulatory Guide (s) and this Appendix the conflict shall be resolved by the Purchaser. I 1.2 INTENT A. This Appendix defines environmental qualification acceptance criteria l for equipment that must conform to IEEE Standard 323 as supplemented by U.S. NRC Regulatory Guide 1.89. Seismic qualification requirements are stated in Seismic Appendix "QG". i 10 JAN 83 EA-1

  . - - , ,      - ._._._ _ __________,,_ ._.._____. , _ _ _ _ _ _ _ . . _ _ ~ . _ _ .                            _

APPENDIX EA Rsv. 3 B. For electrical, control and instrumentation equipment strict compliance to IEEE Standard 323-1974 and it's daughter standards is mandatory. For l3 mechanical equipment the principles and criteria used in IEEE Standard 323-1974 are mandatory. 1.3 RESPONSIBILITIES A. The Purchaser is responsible for defining the environmental conditions and for specifying appropriate performance or functional requirements for Equipment to be supplied. B. Environmental and operational qualification of Equipment shall be in accordance with the procedures and methods of this Appendix and shall be the responsibility of the Contractor. C. If an ongoing qualification program is proposed, the Contractor shall state specifically his involvement and limits of liability for such a pro-gram in his Proposal. D. In some cases Equipment may be provided by others for inclusion in or attached to the Contractor's equipment. When such Equipment is provided, the Contractor shall have the full responsibility for providing the qualifi- , cations to the Purchaser, including qualification for any interface (s) associated with the Equipment, the interfaces will be described by the Purchaser. E. The Contractor is responsible for providing technical assistance to the Purchaser as required to defend and justify the methods used to all parties required in order that an Operating License be issued for the VNP. Technical support after the issurance of an operating license will be negotiated between the Purchaser and the Contractor. 2.0 CODES AND STANDARDS 2.1 GENERAL A. The Purchaser's Specification to which this document is attached contains a list of referenced Codes and/or Standards. All work activities and documentation shall conform to applicable portions of the latest issue of all Codes and Standards in force at the date of award of the Purchase Order. Adoption of any subsequent issues shall be subject to Purchaser's approval prior to implementation. B. Equipment shall meet the requirements of the Codes and/or Standards listed as applicable and as supplemented by the U.S. NRC Regulatory Guides. Those Codes and Standards not supplemented by a Regulatory Guide shall satisfy NRC Regulatory Guide No.1.89, dated November 1974, titled

 " Qualification of Class IE Equipment for Nuclear Plants," that implements and modifies certain portions of the referenced standards.

C. The Contractor shall provide to the Purchaser a listing of Codes, Standards, and Specifications (identifying the effective issue by date) 10 JAN 83 EA-2

APPENDIX EA RIv. 3 which govern the work performed within the scope of this document. Codes and Standards referenced within this Appendix include, but are not limited to, the following: ANSI N 45.2 - 1971 Quality Assurance Program Requirements for Nuclear Power Plants IEEE Standard 1 General Principles for Temperature Limits in the Rating of Electric Equipment IEEE Standard 98 Guide for the Preparation of Test Pro-cedures for the Thermal Evaluation and Establishment of Temperature Indices of Solid Electrical Insulating Materials IEEE Standard 99 Guide for the Preparation of Test Pro-cedures for the Thermal Evaluation of Insulation Systems for Electrical Equipment IEEE Standard 101 Guide for the Statistical Analysis of Thermal Life Test Data , IEEE Standard 317 IEEE Standard for Electric Penetration Assemblies in Containment Structures for Nuclear Power Generating Stations IEEE Standard 323 IEEE Standard for Qualifying Class IE Equipment for Nuclear Power Generating Stations IEEE Standard 334 IEEE Standard for Type Tests of Continuous Duty Class IE Motors for Nuclear Power Generating Stations IEEE Standard 344 IEEE Recommended Practices for Seismic Qualification of Class IE Equipment for Nuclear Power Generating Stations IEEE Standard 380 Definitions of Terms Used in IEEE Nuclear Power Generating Station Standards IEEE Standard 381 IEEE Standard Criteria for t Class IE Modules Used in Nuc*ype Tests of lear Power Generating Stations IEEE Standard 382 IEEE Trial Use Guide for Type Test of Class IE Electric Valve Operators for Nuclear Power Generating Stations IEEE Standard 383 IEEE Standard for Type Test of Class IE Electric Cables, Field Splices, and Connections for Nuclear Power Generating Stations 10 JAN 83 EA-3

APPENDIX EA Rev. 3 IEEE Standard 420 IEEE Trial-Use Guide for Class IE Control Switchboards for Nuclear Powered Generating Stations IEEE Standard 535 IEEE Standard for Qualifying Class IE Lead Storage Batteries for Nuclear Power Generating Stations IEEE Standard 650 IEEE Standard for Qualification of Class IE Battery Chargers and Solid State Inverters for Nuclear Power Generating Stations ASME BOILER AND PRESSURE 3 VESSEL CODE, SECTION III 3.0 PRINCIPLES OF QUALIFICATION 3.1 GENERAL A. Equipment. qualified by methods acceptable under this Appendix must have its design (safety-related) functions demonstrated while subjected to normal, abnormal (includes ASME Boiler and Pressure Vessel Code upset - and emergency conditions) and Design Basis Event (DBE) environmental conditions. Satisfactory performance of design functions is required before, during, and after a DBE. B. The nuclear plant in which the Equipment will be used has a design ' life of 41 years, therefore, the qualified life goal of the Equipment is 41 years or more. Any exceptions shall be identified and clearly described in the Proposal, and the Contractor shall define the method of qualification proposed for reaching the qualified life. C. When the Contracter's standard qualification requirements are more stringent than all postulated circumstances specified for the Equipment, and the' Contractor has documented evidence of performance consistent with the requirements of Section 8 of IEEE Standard 323-1974, he may submit this evidence in lieu of the additional testing requirement specified in this Appendix. D. " Qualified Life" is defined as the operating period deduced from his-torical performance data and/or actual test data, including the effects of aging, after which the Equipment can satisfactorily withstand the Design assis Event and Post-Design Basis Event operation. The tests are delineated by Items 5, 6, and 7 of the sequence given in Paragraph 6.3.2 of IEEE 323-1974. Extrapolation from previous test data must be supported by appropriate evidence to justify the technique used. E. If the limiting factor in the qualified life is deterioration under normal operating conditions of items such as insulation, gaskets, diaphrages, motor brushes, etc. , which are replaceable at maintenance intervals, the Contractor shall state the optimum length of such intervals, based on actual environmental test data. A list of the components which may have to be replaced in this time period shall be provided. 10 JAN 83 EA-4

APPENDIX EA R:v. 3 F. With all of the following qualification methods, the end result must be documentation that demonstrates the equipment's adequacy to perform its required safety-related function. This documentation must be in a form that allows verification by competent personnel, other than the qualifiers, and should contain as a minimum the performance require-ments, the method used, the results, and the justification as outlined in Section 8 of IEEE Standard 323-1974. G. To satisfy the requirements of this Appendix, a qualified life of definable period shall be demonstrated, using one or more of the qualifi-cation methods described in Sections 3.2, 3.3, 3.4, 3.5, and 3.6 of this Appendix. H. The qualification of safety-related equipment shall include documen-tation that adequate margin as recommended by Section 6.3.1.5 of IEEE Standard 323-1974 has been applied. The following indicates some typical methods of demonstrating margin:

1. Increasing the levels of testing.
2. Increasing the number of test cycles.
3. Increasing test duration. -
4. Increasing the number of stress reversals in analysis.
5. Increasing or decreasing (e.g. , line voltage for some plant conditions. The voltage at the equipment terminals may be as low as 75 percent of nominal) service conditions to provide more severe conditions.
6. Various combinations of 1 thru 5 above.

I. Manual logging of data shall not be allowed, unless justified by the 3 Contractor. The Purchaser may specifically waive this requirement on a case-by-case basis after review of the Contractor's test plan. 3.2 TYPE TESTS, AGING AND MARGIN 3.2.1 Type Tests A. Type testing of actual Equipment per IEEE Standard 323-1974, Paragraph 6.3, is the method preferred to demonstrate the ability of the Equipment to perform its required safety-related function for a definable period. The type test shall include, as a minimum, thermal and mechanical aging, and exposure to extremes of environmental conditions, seismic and vibration effects. Type testing shall be done with samples of the production line equipment and simulated service conditions, in accordance i 1 I I 10 JAN 83 EA-5

APPENDIX EA Rtv. 3 with the sequence indicated in IEEE Standard 323-1974 to the VNP specified service conditions, including margin, and shall take into account normal, abnormal plant operation , Design Basis Events,(DBE) and Post DBE opera-tions. B. Type Testing shall include adequate service condition margins as recommended by Section 6.3.1.5 of IEEE Standard 323-1974 over the most severe specified (by Purchaser) service conditions. There is no requirement to test a large number of samples (to support probability analyses). Margins must allow for manufacturing tolerances and normal variations in manufacture, plus an additional margin. The information presented in Attachment EA 3 (Environmental Conditions) does not include any margin. Therefore, margin shall be identified by the Contractor and included in his test program. Any Standard (s) and/or Codes which include operational cycling as a life 3 consideration shall be considered not to include margin. C. The Contractor shall prepare and submit to the Purchaser a test procedure, compatible with the equipment specification, tc describe the required tests and provide an auditable link between the specification and the test results in accordance with Paragraph 6.3.1.1 of IEEE Standard 323-1974. D. Equipment shall be mounted and cannected in a manner, and in a position that simulates or deplicates the actual installation. A description of the mounting and external connections shall be provided by the Purchaser. Any deviation from the m ual installation and/or connection shall be justified. . Equipment that c a be installed in more than one position shall be tested in all installation positions that the Purchaser specifies, unless justification is provided that such position-ing will not affect the equipment performance. If such justification is not provided, qualification will be acceptable only for the installation that was tested. Throughout the tests, the venting path of all pneuma s devices shall represent the actual installed configuration (vents with exhaust within the test chamber). E. In any testing program, particular attention shall be given to the sequence of tests performed. Synergistic effects shall be considered in any testing program. The most severe sequence shall be determined (subject to Purchaser review) by using the guidance of Section 6 of IEEE Standard 323-1974. Generally Section 6, Paragraph 6.3.2 of IEEE Standard 323-1974 is considered the most severe sequence of type te ting and should be performed in the following sequence, unless another v.:quence would be more severe for the specific equipment. The Contractor shall provide complete justification that the sequence used is the most severe for the item being tested.

1. Inspection to confirm that there are no shipping or handling damages and that the equipment conforms to the Purchaser's Specification, and also to determine the basic dimensions.

10 JAN 83 EA-6

                                                                         - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -- J

APPENDIX EA Rav. 3

2. Operation under normal service and environmental conditions through the entire operating range and record base line data.
3. Operation through the extremes of all performance and electrical characteristics (excluding DBE and post-DBE conditions) and record data to confirm that those requirements have been satisfied.
4. Aging, either natural or accelerated, to put the equipment in the expected end-of qualified life condition; radiation may be included in this step or in Step "6" below.
5. Vibration to both seismic (per Seismic Appendix "QG") and plant mechanical service levels. Recording of data to confirm that the functional requirements have been satisfied before, during, and after the vibratory event.
6. Operation through the extremes of performance and electrical characteristics over the entire operating range while exposed to simulated DBE events. Record data to prove that functions which must be performed during such conditions are performed.
   .       7. Operation through the extremes of all performance and electrical characteristics over the entire operating range while exposed to post-DBE conditions immediately following the DBE conditions and record data to prove that functions that mu t be performed during such conditions are performed.
8. For equipment that is not exposed to DBE environmental conditions, the simulated environmental conditions used shall represent 3 the extreme environmental conditions that each equipment may be exposed to at the actual installed location.
9. Disassemble and inspect to determine the condition and status of the equipment and record the findings.

l l F. Tests shall be monitored, using suitable equipment that detects ! changes in the variables and that was calibrated to traceable and auditable standards traceable to the National Bureau of Standards in accordance with Paragraph 6.3.1.4 of IEEE Standard 323-1974. G. Before, during, and after the type test, safety-related control or indicating functions shall be recorded. The equipment shall be operated over its specified range while varying the powering media (e.g. , air, electric) through its extremes or the Contractor shall justify the operational range. H. Contractor's program shall identify all critical components and mate-rials that are subject to aging or wear. Critical components and materials, for the purpose of this Appendix, are components and materials whose l 10 JAN 83 EA-7 l

APPENDIX EA Rev. 3 degradation could cause equipment to fail to perform its required safety-related function. Identify and establish life cycles for these components and materials. I. All electrical, mechanical, and hydraulic / pneumatic components shall perform their safety-related functions throughout the test, with no error exceeding the required tolerance values. If this requirement cannot be satisfied the Contractor shall advise the extent to which performance is degraded during,'and subsequent to, any portion of the test. Accessory components shall be tested as assembled to the basic equipment, or justification shall be provided for acceptance of separate test results. J. Contractor shall justify and document any exceptions to any of the tests, by reason of such factors as size, aging, radiation tolerance limits, tad effects on performance. Fail-safe justification shall not be acceptable. K. The qualification requirements listed in this Appendix describe the service and environmental conditions at the equipment location. It is recognized that the qualification test facility may be limited in some way. The extent of any such limitations shall be described clearly in the pro-posal in a section titled " Qualification Facility Limitations". The Con-tractor shall propose alternate methods to compensate for such limitations. - L. The Contractor shall provide documentation of any off-normal conditions, abnormal events and any departure from procedural requirements that occur during any portion of the qualification program. This documentation shall include justification which describes how the validity of the program was not violated. The Purchaser reserves the right to declare the program unacceptable if the justification is not adequate. M. The Contractor shall use the same production line test sample in all portions of the sequence described in Section 3.2.1.E of this Appendix. 3.2.2 Aging A. The objective of aging is to put the equipment in a condition equiva-lent to end-of qualified-life before performing the functional tests under design basis event and post-design basis event environments. It is acknowledgcd tbt the state-of-the-art regarding aging for some equipment is core advanced than others. It is expected that known technology will be utilized in any aging program by the Contractor. Optionally, and especially where the state-of-the-art is limiting, aging as part of the qualification program may be addressed by analysis, or comt:ined qualification as detailed in Section 5.3, and 5.4 of IEEE 323-1974. B. As an example, a typical aging procedure designed to put equipment into an advanced or end-of-life age prior to design basis event testing could include, as appropriate, the following:

1. Operational (functional) cycling (electrical / mechanical) at '

service loads. 10 JAN 83 EA-8

APPENDIX EA Rzv. 3

2. Power Source (high and low voltage or air pressure) cycling.
3. Extreme ambient temperature and humidity increase and cycling.
4. Ionizing radiation exposure.
5. Ozone concentration.

Other methods may be considered when provided with full justification in the test plan. C. In order to be useful, an aging procedure description should include an auditable analysis that defines the time compression factor. The aging procedures are applied for a specific time. Providing that the equipment passes the subsequent design basis event tests, the aging time multiplied by the time ccepression factor would be the equipment qualified life. "The qualified life shall be based upon the known limits of extrapolation of the time dependent environmental effects if an accelerated aging test was used to determine the mathematical model" (Ref. IEEE 323-1974, Paragraph 6.5.4). D. The post-DBE conditions including the time factor will be specified by the Purchaser. - E. Further clarification of aging as it is applied to major equipment categories is addressed in Section 5 of this Appendix. 3.3 PREVIOUSLY QUALIFIED EQUIPMENT The Contractor's basis for justifying equipment qualification for a qualified life period, number of operations, number of hours, or other time of opera-tion, shall include the following information, particularly when reference is made to previously qualified equipment. A. Identify the conditions upon which the qualified life is based, but not limited to the following: maintenance procedures and intervals, replacement of component items and intervals, and operational requirements (running time, number of operations, load cycles, etc.), under normal operation, elapsed time may not in itself be the critical element of equipment ' degradation. B. Manufacturers who have previously qualified equipment of the same design as that to be supplied for this purchase may submit copies of the previous qualification including a statement of applicability to the Purchaser's Specification in lieu of requalifying the equipment. The previous qualification must have used procedures consistent with the requirements of this Appendix and must have subjected the Equipment to environmental l3 10 JAN 83 EA-9

APPENDIX EA Rev. 3 conditions which exceed those required by the Purchaser's Specification. In cases where differences in the equipment design, service, and/or environmental conditions exist between the previous qualification and l Purchaser's Specification, extrapolation of results from the previous l qualification is required. The Contractor shall submit an analysis i justifying the extrapolation, and the tests used as the basis. Such an l analysis shall, as a minimum, identify the differences, describe the i method of extrapolation, and justify the qualification. ' l C. Where equipment of a similar design has been previously qualified, the Contractor may submit previous qualification data in lieu of requalifying the equipment. The previous qualification must have used procedures consistant with the requirements of the Purchaser's Specification. Differences in the equipment design, service, and environmental conditions that exist between the previous qualification and the Purchaser's Specification shall be addressed and extrapolation of results of the previous qualifi-cation shall be justified. 3.4 ON-GOING QUALIFICATION A. The Contractor shall state the extent of his responsibility and partici-pation in any on-going qualification program, including but not limited to . the following in accordance with Paragraph 6.6 of IEEE Standard 323-1974.

1. Furnish original qualification report for review to assure compliance with the requirements of the Purchaser's Specifi-cation.
2. Furnish for review a test procedure, specification, and objectives including specific features to be demonstrated by the tests.
3. Furnish specialized test equipment, tools, and technical services, if the program is to be carried out at the jobsite.
4. Provide technical services for interpretation of test results and preparation of preliminary, intermediate and summary reports of conclusion and recommendations.
5. Where a qualification program is underway for like equipment and for service conditions the same as or more severe than the speci-fied service conditions of this project, such program may be pro-posed in lieu of a new program.
6. State the optimum intervals for replacement of equipment components that limit the qualified life under normal operating conditions, i.e., bearings, diaphrages, gaskets, contacts, springs, etc. These intervals shall be based on test data or analyses. If an analyses is used it shall be justified.

10 JAN 83 EA-10

APPENDIX EA RGv. 3 B. When the qualified life of the equipment is less than 41 years, the Contractor shall propose a detailed maintenance program, replacement criteria, and a test procedure to requalify the Equipment, including it's seismic qualifications. C. Modification to the Equipment shall be in accord with Paragraph 6.8 of IEEE Standard 323-1974. 3.5 ANALYSIS A. Qualification by analysis must include justification of the methods, theories, and assumptions used. In general, equipment is too complex to be qualified bj analysis alone, although it may be effective in the extrapola-tion of test data and determination of the effects of minor design changes to equipment that was previously tested. B. Qualification by analysis must consist of mathematical or logical proof based on actual test data, that the Equipment meets or exceeds its specified performance when subjected to normal, abnormal, and Design Basis Event envir-onnental conditions, in accordance with Paragraph 6.5 of IEEE Standard 323-1974. 3.6 OPERATING EXPERIENCE , Where equipment has been in service for a period of time in more severe conditions, the Contractor may qualify the equipment covered by the Purchaser's Specification for a like period of time provided the equipment in service is seismically and environmentally qualified by testing, or analysis (when pertinent) after aging. Acceptance of this method of qualification is dependant upon the Contractor submitting in detail all of the items listed below to the Purchaser. If he does not provide complete and detailed data the information will be considered as not having been submitted. Documentation shall be provided to verify the operating experience as follows:

1. Identification of plant (s) in which the equipment has been in se rvice.
2. Date installed and length of time the equipment has been in i se rvice.

i 3. Comparison and identification of differences in design, specified service conditions and environmental conditions between the equipment in service and the proposed equipment, and an analysis to justify any extrapolation involved due to minor differences.

4. Identification and history of failures of the equipment in service (random failure, wear out, etc.), and the cost and time associated with returning the equipment to service.

l 10 JAN 83 EA-11

APPENDIX EA Rov. 3

5. Preventive maintenance program. Identification of the preventive maintenance program followed for the equipment in service (together with recommended changes) and that will provide assurance that the qualified life of the proposed equipment will equal or exceed the life of the reference equipment, and the cost of the program.
6. Seismic Test Reports on the equipment that has been in service.

4.0 EQUIPMENT E.WIRONMENT AND PERFORMANCE 4.1 GENERAL A. Environmental Designators (Attachment EA) identify the normal, l3 abnormal, and Design Basis Event environmental conditions that can be expected in the various plant locations where safety-related equipment will be installed. B. The location (as indicated by the appropriate Environmental l3 Designator) of each item of equipment will be identified by the Purchaser in the Specification. Equipment performance through the normal, abnormal, Design Basis Events, and Post-Design Basis Events shall be in accordance with the Purchaser's Specification. , C.' Devices for service inside or outside the containment shall be tested under environmental conditions that are at least as severe as those identified by the applicable Environmental Designator. 4.2 PERFORMANCE A. Before, during, and after the testing, all required safety-related functions shall be operated under the most severe operating conditions and also over the entire range and recorded. Throughout the DBE conditions the supply and venting lines of all pneumatic equipment shall be routed in a manner which represents the actual plant installation (vents with exhaust within the test chamber). l B. Acceptance requires that malfunctions as discussed in Subpara- ! graphs 4.2.C, below, as applicable, shall not occur. Whenever any of l these criteria are not met, specific deviation data shall be formally sub-mitted to the Purchaser for comment. C. All equipment and devices must perform their safety-related function before, during, and after the DBE with no error greater than the required tolerance. This shall include but not be limited to consideration of:

1. Loss of performance characteristics, e.g. ability to change state, maintain pressure boundary, modulate or control.
2. Spurious, erroneous, or inaccurate outputs.

l 10 JAN 83 EA-12

l APPENDIX EA Rev. 3

3. .loisture leakage into sealed enclosures.
                    '                                                                                  l
4. Equipment failure in the safe direction (fail-safe) shall not be used for justification or acceptance.
5. 'loltage drop at the equipment terminals (s) to 75 percent of nominal.

D. Sufficient instrumentation shall be provided to monitor any variation in performance to assure that it does not exceed the requirements as indi-cated in the Purchaser's Specification. The instrumentation used shall be calibrated using standards which are traceable to the National Bureau of Standards. These records shall be supplied at no additional costs and shall be available (for audit) by the Purchaser, and shall demonstrate that the sensitivity, accuracy and repeatability of the instrumentation is suitable for the application. 5.0 ACCEPTABLE PROGRAMS BY CATEGORY 5.1 GENERAL Any of the following categories may be used in combination with any other ~ category, if the equipment contains material (s), component (s) or equipment that are applicable to other category (ies). 5.2 WIRE AND CABLE Wire and cable shsll be qualified for the environment specified in the 3 Purchaser's specification. Contractor's program shall include type testing in accordance with the direction given in IEEE Standard 383-1974. NRC Regulatory Guide 1.131, dated August 1977, and the requirements of Section 3 of this Appendix. Aging shall be in accordance with Section 1.3.5.2 of IEEE Standard 383-1974. 5.3 MOTORS Each motor shall be qualified for the environment specified in the Purchaser's Specification. The Contractor's prograre shall include type testing in accordance with the direction given in IEEE Standard 334-1974 and the requirements of Section 3 of this Appendix. Aging shall be in accordance l with Section 9 of IEEE Standard 334-1974. 5.4 BATTERIES , Batteries shall be qualified for the environment specified in the Purchaser's Specification. Contractor's program shall include type testing in accordance with the directions given in IEEE Standard 535 and the requirements of this Appendix. Aging shall be in accordance with the requirements of IEEE Standard 535. 10 JAN 83 EA-13

APPENDIX EA Rcv. 3 5.5 CHARGERS. INVERTERS, AND REGULATORS Chargers, inverters and regulators shall be qualified for the environment specified in the Purchaser's Specification. Contractor's program shall include type testing in accordance with the direction given in IEEE Standard 650 and the requirements of the Appendix. Aging shall be in accordance with the requirements of IEEE Standard 650. 5.6 SWITCHGEAR, LOAD CENTERS AND MOTOR CONTROL CENTERS A. Equipment shall be qualified for the environment specified in the Specification. B. Type tests to establish qualified life shall meet the requirements of Section 3 of this Appendix. C. The effects of aging (thermal, mechanical, and radiation) shall be established and documented by a combination of test and analysis or by actual aging of the Equipment. D. The program shall establish a qualified life for the specified condi-tions. Qualified life in years may be approached through a maximum number of ~ operations. When the established period of qualified life is less than 41 years, the program shall identify those components which are subject to aging and wear and shall provide a schedule and criteria (on going l maintenance) to replace those components in order to re-establish the l equipment qualified life. Should testing be required to identify the I degree of component deterioration, the test program's pass-fail criteria and the replacement criteria shall be supplied by the Contractor at no , extra cost. E. Protective and Auxiliary Relays which are a part of this equipment shall be qualified for the environment specified in the Purchaser's Specifi-cation and any increases due to the effects of its inclusion into the equipment, and tested in accordance with IEEE Standard 323-1974. 5.7 ELECTRIC PENETRATION ASSEMBLIES Electric Penetration Assemblies shall be qualified for the environment specified in the Purchaser's Specification. Contractor's program shall include type testing in accordance with the directions given in of Section 6 of IEEE Standard 317-1976, U.S. NRC Regulatory Guide 1.63, Revision 2, dated July 1978 and the requirements of this Appendix. 5.8 ELECTRIC VALVE ACTUATORS Electric valve actuators shall be qualified for the environment specified by the Environmental Designator on the Valve Data Sheet attached to the Purchaser's Specification. Contractor's program shall include type testing in accordance with the direction given in Section 4 of IEEE 10 JAN 83 EA-14

APPENDIX EA ) RGv. 3 Standard 382-1972 and the requirements of this Appendix. The procedure for aging simulation shall be in accordance with Part II of IEEE Standard 382-1972 with the exception of the 500 operating cycles. The number of required operating cycles shall be in accordance with the requirements in the Purchaser's Specification. 5.9 CONTROL SYSTEMS AND ACTIVE MECHANICAL EQUIPMENT A. Type testing in accordance with the requirements of Section 3.2 of this Appendix is the preferred method of demonstrating qualification. Qualifica-tion by analysis, or by combination of methods, may be accepted by the Purchaser after review of the Proposal. B. The following Equipsent is included for this type of qualification:

1. Instruments - Such items as pressure switches, process trans-mitters, and display (readout) instruments.
2. Miscellaneous Devices - Items not covered above, such as switches, relays, solenoid valves, and limit switches.
3. Valve Appurtenances. _
4. Motor-Operated Valves.
5. Pumps.
6. Fans.
7. Air Coaditioning Units.
8. All other safety-related Equipment - Items not covered above.

5.9.1 Unique Equipment Qualification (or combination of different types of qualification methods) 5.9.1.1 Panel or Rack Assemblies ! A. It is not necessary to environmentally qualify the panel or rack structures since they are constructed of suitable metals and are suitably coated to prevent corrosion. Only seismic qualification of the panel or rack structure is necessary. However, devices mounted in or on the panel or rack assembly shall be environmentally qualified in accordance with Subparagraph 5.9.A. B. This type of equipment is unique because they are assemblies of many components mounted on a framework or structure. For this reason, a building block approach may be acceptable. Thus, individual devices or assemblies may , be qualified separately and included in the system. Such individual qualifi- ! cation shall be justified in detail, with particular attention to interfaces and consequences to adjacent or related equipment in case of failure. The total system analysis shall include the effects of the components on each 10 JAN 83 EA-15

APPENDIX EA Rcv. 3 other and on the structure. Non-Class IE devices shall not cause the failure of any Class IE equipment mounted in the same rack or panel per IEEE Standard 420-1973, and U.S. NRC Regulatory Guide 1.29, Revision 3, dated September 1978. 5.9.1.2 Valve Bodies and Actuators A. Qualification of the valve bodies (metallic parts only), are covered by other standards. The " soft" parts of the valve assemblies - e.g., packing, diaphragas, elastomers, degrade with age. Therefore, the " soft" parts shall be environmentally qualified to determine an overall " Qualified Life" for each valve assembly. Previous qualification may be used to satisfy this requirement, provided it is in accordance with the requirements of this Appendix. B. For this type of equipment, the building block approach may be accept-able. The valve assembly is composed of individual devices or subassemblies that may be qualified separately and included in the system. Such individual qualification shall be justified in detail, with particular attention to interfaces and consequences to adjacent or related devices or subassemblies in case of failure. The total system analysis shall include the effects of the individual devices or subassemblies on each other and on the total ~ performance of the valve assembly. At least one representative test , sample of each valve type (non-metallic portion of the body, actuator, and appurtenances) shall be type tested in accordance with Subparagraph 5.9.A, including aging to its Qualified Life. This is necessary to determine the validity of the assumptions made in the analysis. C. Electric valve actuators shall be qualified for the environment specified in the Purchaser's Specification. The Contractor's program shall include type testing in accordance with the requirements of Section 4 of IEEE Standard 382-1972 and the requirements of this Appendix. The procedure for aging simulation shall be in accordance with Section 5.8 of this Appendix. 5.10 MODULES Modules shall be qualified for the environment specified in the Purchaser's 3 specification. Contractor's program shall include type testing in accordance with the direction given in IEEE Standard 381-1977, and the requirements of Section 3 of this Appendix. Aging shall be in accordance with Section 3.2.2 of this Appendix. 5.11 PLANT VIBRATION Plant vibration effects shall be addressed in the qualification of equipment as follows:

1. For floor or wall mounted equipment, subject them to a minimum of five (5) OBE's prior to the application of SSE (as required by Appendix QG).

10 JAN 83 EA-16

APPENDIX EA Rev. 3

2. For pipe or line-mounted equipment, the vibration aging shall be a sinusoidal motion of 0.75g or such reduced acceleration necessary at low frequencies to not' exceed 0.025 inches double amplitude with the frequency sweeping from 5 Hz to 200 Hz to 5 Hz at a rate of 1 octaves per minute or equivalent, justifiable on 3 a case by case basis. Ninety minutes of vibration shall be applied along each orthogonal axis.

6.0 DOCUMENTATION 6.1 PROPOSAL STATEMENT - QUALIFICATION PLAN A. The Bidder shall provide a Plan with his Proposal which describes how the equipment to be furnished complies with the requirements of this Appendix and the Purchaser's Specification. Exceptions, where taken, shall be listed with a justification for each. The justification shall include the methods of qualification delineating the steps to establish and maintain qualification. This will be considered in evaluating the proposal. B. This Plan shall address at least the following items:

                                                                                             ~
1. A description of the methods utilized that establish conformance with this Appendix.
2. Documentation of qualified life.
3. Identification of organizations which'will perform any portion of the tests and/or analyses and the organizations capabilities (including any test facilities).
4. A description of any analytical methods used in extrapolations and the testing used as a basis.
5. Information identified in Section 6.3.C.9 of this Appendix.
6. Where an ongoing qualification program is proposed, the Bidder shall specify any anticipated participation by the Owner and state specifically his involvement and limit of liability for such a program. This will be considered in the evaluation of the proposals.
7. The Bidder shall identify all equipment interfaces in his plan.
8. Purchaser will evaluate qualification programs for conformance to this Appendix.
9. Where published standard equipment generic qualification certifies that the equipment is suitable for environmental and service conditions at least as severe as those called for by this Appendix and the Purchaser's Specification, Bidder shall submit test and/or analytical data on which his qualifications are based.

EA-17 10 JAN 83

APPEND 1X EA Rev. 3 C. If previous qualifications are used, the applicability of the previous qualifications to the requirements of this Appendix and the Purchaser's Specification shall be justified. D. The plan shall have a title page and revision page with the information 3 specified on Figure 1 and Figure 2 respectively. 6.2 AFTER PURCHASE ORDER AWARD - QUALIFICATION PROCEDURE A. After purchase order award, the Contractor shall submit his procedure for Purchaser's review. Failure to receive a Status 1 or 2 for test procedures shall not be considered justification for increased costs or delay in delivery. Sufficient detail shall be included to demonstrate adequacy of the selected method and that the requirements of this Appendix have been satisfied including acceptance criteria. Qualified life shall be established by the Contractor's qualification program, if the equipment has not been previously qualified to the objectives of this Appendix. B. Contractors that have not previously supplied the information required by Paragraph 6.1 above as a part of the original Proposal shall submit the information as a part of his initial response to Paragraph 6.2.

                                                                               ~

C. The procedure shall have a title page and revision page with the 3 information specified on Figure 1 and Figure 2 respectively. 6.3 ENGINEERING DOCUMENTATION - QUALIFICATION REPORT A. Qualification documentation of safety-related equipment shall be auditable. The procedure for qualifying equipment and the documentation submitted in the equipment qualification report shall be presented (by the Contractor to the Purchaser) in a readily understandable and traceable manner. B. The Contractor shall submit his qualification procedure, and test and/or analyses results, in a report for Purchaser's review. Sufficient detail shall be given to demonstrate adequacy of the selected method, and that the requirements of this Appendix have been satisfied. C. A qualification package for each type of equipment to be supplied shall be submitted to the Purchaser prior to shipment, and it shall demonstrate that the requirements of this Appendix have been satisfied. As applicable, the documentation shall consist of, but not be limited to:

1. Purchase Order Number.
2. A listing of all Equipment (by manufacturer (s) and model numbers including any ccaponents, i.e. , relays, switches, or modules),

supplied by the Contractor en the purchase order, and the method (s) of qualification selected and including justification that the 10 JAN 83 EA-18

i APPENDIX EA Rev. 3 l test sequence is the most severe for the Equipment. The ' information shall be presented as listed in Paragraphs 8.3, 8.4, 8.5, and 8.6 of IEEE Standard 323-1974, depending upon the qualification method used.

3. The detailed data shall be supplied but not limited to the following:
a. Illustrations (photographs, drawings, etc.,), and a description of the equipment to be tested including equipment performance specifications.
b. Test or operational facility identification and its capabilities and limitations.
c. Test set-up, instrumentation, calibration records and traceability of its standards to the National Bureau of Standards.
d. Plan and objectives, including identification of safety-related functional requirements to be demonstrated.
                                                                                                                                                  ~
e. Previously reviewed and accepted procedures, test, and/or analyses, inspection results.
f. Test data to include copies of all raw data such as computer tapes, charts, any written records, etc.
g. Statement of qualified life,
h. Summary, conclusions, and recommendations.
i. A description of all computer programs used shall be pro-vided, together with the program capabilities, its name and source and the verification document. Computer output shall be treated the same as any other part of the design calculations submitted for review. At least the lead sheet of the output shall be signed and/or stamped by the responsible Engineer. All the pages of the output shall be numbered.

All output quantities shall be labeled and all the quantities shall be identified by the units individually. All computer output shall contain an input data print-out. Computer output shall be treated as a part of the overall analytical calculation and shall be identified in the index. j 4. Supporting data and references, including data on operating experience as specified in Section 3.6 and 6.3.C.S of this Appendix.

5. Analysis data, including (and the test data used as a basis) that used for extrapolation to devices other than those tested.

10 JAN 83 EA-19

APPENDIX EA Rev. 3

6. Description of any analytical method used, and analysis data including all extrapolations.
7. Identification of specified tolerances for critical components and materials subject to aging or wear.
8. Verification of operating experience, as follows:
a. Identification of plant in which the equipment has been in service,
b. In-service data and length of time the equipment has been in service.
c. Identification of differences in design requirements and the actual service conditions including seismic between the equipment in service and the proposed equipment and an analysis to justify any extrapolation involved due to these differences.
d. Identification and history of failures of the equipment in service. ,
e. Identification of the preventive maintenance program followed for the equipment in service and a recommended preventative maintenance program that will provide assurance that the qualified life of the proposed equipment will equal or exceed the life of the reference equipment.
9. Contractor's recommended program (if required) to maintain qualification by replacing critical components identified in Contractor's qualification program.
10. Contractor's recommended program (if required) to requalify equipment to establish a further period of qualified life and the Contractor's participation in the program, his liability, and the anticipated Owner participation.
11. Contractor's statement that each item of Equipment to be shipped contains (Manufacturers Catalog or Type Number, materials, etc.,

i etc., etc.) the same type and make as that which was qualified and reviewed by the Purchaser. D. Report summary sheet listing the page(s) on which each of the above listed items may be found. E. Contractor's Environmental Qualification Report shall include as a minimum a certification that the equipment satisfies or exceeds the requirements of this Appendix and the Specification. The report shall have a title page and revision page with the information specified on Figure 1, and Figure 2 respectively, including the Certificate of 3 Compliance as specified by Figure 1. l l . 10 JAN 83 EA-20 1

APPENDIX EA Rev. 3 ENVIRONMENTAL QUALIFICATION * (Identification of Equipment) FOR THE GEORGIA POWER COMPANY ALVIN W. V0GTLE NUCLEAR POWER PLANTS 1 & 2 BURKE COUNTY, GEORGIA TO PURCHASE ORDER NO. SPECIFICATION NO. REVISION DATE PROJECT QUALITY CLASS

    ** I hereby certify that the (name of equipment) for the Alvin W. Vogtle Nuclear Generating Station has been designed, manufactured, and qualified in full accordance with the requirements of Purchaser Order No.

and is qualified to withstand without loss of the required function due to the environmental conditions specified pro-vided in the Purchaser's Specification. The calculations ~ and/or test has been supervised, witnessed, and reviewed by me. Signature Date Registered P.E. Number , County of , State of P.E. Stamp Prepared by (Signed Signature, Date ) (Typed Name, Title, Date) Approved by (Signed Signature, Date ) (Typed Name, Title, Date) (Contractor's Name, Address, etc.) l l l

  *Either Plan, Procedure or Report
 ** Required only on the Report.

3 FIGURE 1 l l 10 JAN 83 EA-21 I

APPENDIX EA R:v. 3 REVISION RECORD

  • Specification No.

3 Rev. Page of l REV. PAGE PARAGRAPH DESCRIPTION APPROVAL /DATE A. Each page shall indicate at the top the latest revision number to that page. The change made to the page shall be identified by a vertical line in the margin with the revision number included next to the line. B. Each page after the title page shall be numbered consecu-tively. The last sheet of the document shall be identified as the final page. If a page(s) is added in a revision, the added pages will be identified by using the preceding page number and a suffix from A to Z. The added pages should be iden-tified on the revision page. C. *Pages where Revision 0 apply are not included. 3 FIGURE 2 10 JAN 83 EA-22

PROPOSAL FOR INSTRUMENT AND SPECIALITY CABLE FOR THE GEORGIA POWER COMPANY V0GTLE ELECTRIC GENERATING PLANT BURKE COUNTY, GEORGIA SPECIFICATION No. X3AJ04 REVISION 0 MAY 9, 1978 PROJECT CLASS 11E i FROM NAME OF BIDDER I t I fc/em 7 FEB 78

PROPOSAL FORM FOR INSTRUMENT AND SPECIALTY CABLE FOR THE GEORGIA POWER COMPANY l V0GTLE ELECTRIC GENERATING PIANT BURKE COUNTY, GEORGIA SPECIFICATION NO. X3AJ04 MAY 9, 1978 Paragraph Title - 1.0 Special Instructions for Completing Proposal Fora 2.0 General PART A. PRICE AND SCHEDULE DATA 3.0 Prices 4.0 Price Adjustment 5.0 Cancellation and/or Deferment 6.0 Authorized Representatives 7.0 Georgia Representatives 8.0 Code Authorisations 9.0 Deviations 10.0 Delivery Schedule 11.0 Return of Surplus Material PART B. ENGINEERING DATA 12.0 Cable Data PART C. DRAWING AND DATA REQUIREMENTS , 13.0 General 14.0 Submittal Schedule to Engineering Office 15.0 Quality Verification Documents 16.0 Quality Program Requirements 17.0 Reporting of Defects and Noncompliance 18.0 Representation and Execution of Contract fc/em 7 FEB 78 i

X3AJ04 1.0 SPECIAL INSTRUCTIONS POE COMPLETING PROPOSAL POEM In order for Bidder's Proposal to be considered it must be submitted on the attached form and in accordance with the following instructions:

1. Where a specific response is requested of the Bidder, the Bidder shall include such response in the space provided or shall type in "See Attached," "None," " Included Above," or like words to indicate that he has read and understands the requirement.

! Bidder's Proposal will not be considered responsive unless com-plated in this manner.

2. The types and quantities of " Drawing and Data Requirements," along with the submittal schedule, is included in Part C of this form.

Each Bidder shall include all necessary costs of Drawing and Data Requirements in his Proposal and shall indicate his promised delivery in the appropriate space on the " Submittal Schedule to Engineering Office," Paragraph 14.

3. Under Paragraph 9, " Deviations," it is imperative that Bidder include any deviations and/or exception to the Instructions to -

Bidders, Technical Provisions or Design Specification, and Proposal Porm included in the Bid Request. 2.0 GENERAL Proposal is hereby made to furnish all labor, materials, tools, and equip-ment, and to perform all operations and incidentals necessary to furnish, detail, fabricate, and deliver for unloading by others, all equipment, and accessories in accordance with this Specification X3AJ04, Dated May 9, 1978 -. It is understood that payment in accordance with the prices set forth shall constitute complete payment for the work specified. 1 l fc/em 7 FEB 78 I

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

X3AJ04 PART A. PRICE AND SCHEDULE DATA 3.0 PRICES A. Bidder shall quote current prices in effect on the bid closing date (see Price Adjustaent below). Prices quoted shall exclude Georgia State Sales /Use Tax. B. In bidding the equipment covered by this specification, Bidder herewith submits current prices f.o.b. destination, by type and quantity for Unit 1 and Unit 2 on the following Page 3 through Page 26. i fc/em 7 FEB 78 2

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  • MINIMUM ESTIMATED REORDER MINIMUM TOTAL DELIVERED QUANTITY INITIAL CONTINUOUS IT M CABLE QUANTITY PRICE AT QUOTED DELIVERY LENGTH.

NO. CODE CABLE TYPE (FEET) PER 1000 L.F. PRICE (FEET) PER REEL 28 HE6 Copper-Const. TC 6,000 6,000 6,000 2/C No. 16 AWG Shielded Twisted Pair - 1 Fair i 29 HG6 Copper-Const. TC 1,500 1,500 1,500 _, 2/C No. 16 AWG o Shielded Twisted d Pair - 3 Pairs t; 30 HI6 Copper-Const. TC 1,500 1,500 1,500 2/C No. 16 AWG Shielded Twisted Pair - 6 Pairs 31 HT67 Copper-Const. TC 1,000 1,000 1,000 2/C No. 16 AWG Shielded Twisted Pair - 36 Pairs 32 GE6 Chromel-Const. TC 3,000 3,000 3,000 2/C No. 16 AWG i Shielded Twisted l Pair - 1 Pair l

um INSTRUMENT AND SPECIAL CABLE mE THERMOCOUPLE EXTENSION CABLE ALVIN W. VOGTLE NUCLEAR PLANT, UNIT 1 u

  • MINIMUM ESTIMATED REORDER MINIMUM TOTAL DELIVERED QUANTITY INITIAL CONTINUOUS PRICE AT QUOTED DELIVERY LENGTH ITEM CABLE QUANTITY (FEET) PER 1000 L.F. PRICE (FEET) PER REEL NO. CODE CABLE TYPE Chromel-Const. TC 4,500 4,500 4,500 33 GF6 2/C No. 16 AWG Shielded Twisted Pair - 2 Pairs Chromel-Const. TC 1,500 1,500 1,500 34 GH6

< - 2/C Fo. 16 AWG Shielded Twisted Pair - 4 Pairs , 35 GI6 Chromel-Const. TC 1,500 1,500 1,500 h j 2/C No. 16 AWG _

;                          Shielded Twisted                                                   

! Pair - 6 Pairs Chromel-Const. TC 1,000 1,000 1,000 36 GL6 2/C No. 16 AWG / Shielded Twisted j Pair - 12 Pairs _ Chromel-Alueel TC 6,000 6,000 6,000 37 FE6 2/C No. 16 AWG Shielded Twisted 1 Pair 600 600 600 j 38 FR67 Chromel-Alumel TC 2/C No. 16 AWG Shielded Twisted 4 l I Pair - 14 Pairs l

um INSTRUMENT AND SPECIAL CABLE SWITCHYARD INSTRUMENTATION AND CONTROL CABLE g{ ALVIN W. V0GTLE NUCLEAR PLANT, UNIT 1 to a 5 MINIMUM ESTIMATED REORDER MINIMUM TOTAL DELIVERED QUANTITY INITIAL CONTINUOUS ITEM CABLE QUANTITY PRICE AT QUOTED DELIVERY LENGTH NO. CODE CABLE TYPE (FEET) PER 1000 L.F. PRICE (TEET) PER REEL 39 CE6 2/C No. 16 AWG 10,000 10,000 5,000 Shielded Twisted . Fair - 1 Pair

40 C169 4/C No. 16 AWG 5,000 5,000 2,500 Shielded Twisted

_. Quad - 1 Quad w x 41 C2A 2/C No. 9 AWG Shielded 5,000 5,000 2,500 (o 42 C4A 4/C No. 9 AWG 2,500 2,500 2,500 Shielded 43 C6A 7/C No. 9 AWG 2,500 2,500 2,500 Shielded 44 C2C 2/C No. 6 AWG 2,500 2,500 2,500 Shielded 45 C4C 4/C No. 6 AWG 2,500 2,500 2,500 Shielded 46 C6C 7/C No. 6 AWG 1,500 1,500 1,500 Shielded l e

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 $$                                 ALVIN W. V0GTLE NUCLEAR PLANT, UNIT 2 u
 "                                                                     MINIMUM ESTIMATED                       BEORDER             MINIMUM TOTAL      DELIVERED       QUANTITY   INITIAL   CONTINUOUS ITEM   CABLE                      QUANTITY        PRICE         AT QUOTED  DELIVERY    LENGTH NO. CODE      CABLE TYPE         (FEET)     PER 1000 L.F.       PRICE    (FEET)    PER REEb 1   CE6    2/C No. 16 AWG      300,000                                  100,000   15,000 Shielded Twisted Pair - 1 Fair 2   CF6    2/C No. 16 AWG        3,000                                    3,000    3,000 Shielded Twisted Pair - 2 Pairs N    3     C567   2/C No. 16 AWG        3,000                                    3,000    3,000      g Shielded Twisted                                                                   &

Pair - 5 Pairs g 4 C667 2/C No. 16 AWG 1,000 1,000 1,000 Shielded Twisted Pair

  • 7 Pairs 5 C767 2/C No. 16 AWG 700 700 700 Shielded Twisted Pair - 9 Pairs 6 CL6 2/C No. 16 AWG 1,500 1,500 1,500 Shielded Twisted Pair - 12 Pairs 7 CR67 2/C No. 16 AWG 1,500 1,500 1,500 Shielded Twisted Pair - 14 Pairs 9

um INSTRUMENT AND SPECIAL CABLE mE SHIELDED INSTRUMENTATION CABLE

  $$                                 ALVIN W. VOCTLE NUCLEAR PLANT, UNIT 2 u   -
  "                                                                     MINIMUM ESTIMATED                      REORDER             MINIMUM TOTAL       DELIVERED      QUANTITY  INITIAL   CONTINUOUS PRICE        AT QUOTED DELIVERY    LENGTH i        ITEM  CABLE                      QUANTITY CODE       CABLE TYPE        (FEET)      PER 1000 L.F. PRICE    (FEET)    PER REEL NO.

8 C168 3/C No. 16 AWG 60,000 60,000 10,000 Shielded Twisted

Three - 1 Triad

, 9 C268 3/C No. 16 AWG 3,000 3,000 3,000 l Shielded Twisted Three - 2 Triads G x 10 C468 3/C No. 16 AWG Shielded Twisted 1,500 1,500 1,500 {a Three - 4 Triads 1 11 C668 3/C No. 16 AWG 3,000 3,000 1,500 Shielded Twisted ! Three - 7 Triads l 12 C768 3/C No. 16 AWG 1,500 1,500 1,500 j Shielded Twisted Three - 9 Triads 13 C169 4/C No. 16 AWG 15,000 15,000 7,500 1 Shielded Twisted

!                   Quad - 1 Quad 1

1 $ I

4

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  ~
  "                                                                                      MINIMUM ESTIMATED                      REORDER             MINIMUM TOTAL       DELIVERED      QUANTITY   INITIAL  CONTINUOUS ITEM  CABLE                                    QUANTITY         PRICE        AT QUOTED  DELIVERY   LENGTH NO. CODE                CABLE TYPE             (FEET)      PER 1000 L.F.      PRICE    (FEET)   PER REEi 1

14 C269 4/C No. 16 AWG 1,000 1,000 1,000 i Shielded Twisted

Quad - 2 Quads
15 C469 4/C No. 16 AWG 1,000 1,000 1,000 Shielded Twisted i Quad - 4 Quads e x

{ i ! 16 CP69 4/C No. 16 AWG 1,000 1,000 1,000 Shielded Twisted o Quad - 8 Quads f j 17 C66 7/C No. 16 AWG 1,000 1,000 1,000 Shielded Overall 18 C86 12/C No. 16 AWG 1,500 1,500 1,500

Shielded Overall 19 C96 15/C No. 16 AWG 33,000 33,000 3,000 Shielded Overall l

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1 j um INSTRUNENT AND SPECIAL CABLE i mE THERMOCOUPLE EXTENSION CABLE I EE ALVIN W. V0GTLE NUCLEAR PLANT, UNIT 2 u MININUM i ESTIMATED REORDER HINIMUM I TOTAL DELIVERED QUANTITY INITIAL CONTINUGUS ITEM CABLE QUANTITY PRICE AT QUOTED DELIVERY LENGTH NO. CODE CABLE TYPE (FEET) PER 1000 L.F. PRICE (FEET) PER REEL l j I 28 HE6 Copper-Const. TC 6,000 6,000 6,000 2/C No. 16 AWG

Shielded Twisted 4 Pair - 1 Pair 29 HG6 Copper-Const. TC 1,500 1,500 1,500 2/C No. 16 AWG M Shielded Twisted g

{o Pair - 3 Pair 30 HI6 Copper-Const. TC 1,500 1,500 1,500 2/C No. 20 AWG Shielded Twisted . Pair - 6 Pairs

31 HT67 Copper-Const. TC 1,000 1,000 1,000 2/C No. 20 AWG Shielded Twisted Pair - 36 Pairs 32 GE6 Chromel-Const. TC 3,000 3,000 3,000 2/C No. 16 AWG

! Shielded Twisted 4 Pair - 1 Pair i I

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                                                                                                                                      +

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35 GI6 Chromel-Const. TC 1,500 1,500 1,500 o 2/C No. 20 AWG Shielded Twisted Pair - 6 Pairs j 36 GL6 Chronel-Const. TC 1,000 1,000 1,000 j

2/C No. 20 AWG Shielded Twisted Pair - 12 Pairs ) 37 FE6 Chromel-Alumel TC 6,000 6,000 6,000 2/C No. 16 AWG , Shielded Twisted { 1 Pair 4 i 38 FR67 Chromel-Alumel TC 600 600 600 ! 2/C No. 20 AWG Shielded Twisted Pair - 14 Pairs I l

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  ,,E                             SWITCHYARD INSTRUDGNTATION AND CONTCOL CABLE EO                                    ALVIN W. V0GTLE NUCLEAR PLANT, UNIT 1 3  u
  • MINIMUM i
!                                           ESTIMATED                      REORDER           MINIMUM TOTAL      DELIVERED      QUANTITY  INITIAL  CONTINUOUS ITEM  CABLE                         QUANTITY        PRICE        AT QUOTED DELIVERY    LENGTH NO. CODE       CABLE TYPE           (FEET)     PER 1000 L.F.      PRICE    (FEET)   PER REEL j       39    CE6    2/C No. 16 AWG          10,000                                 10,000   5,000 2                   Shielded Twisted Pair - 1 Fair 40    C169   4/C No. 16 AWG           5,000                                  5,000   2,500 l                    Shielded Twisted 1                    Quad - 1 Quad                                                                      x w 41    C2A    2/C No. 9 AWG            5,000                                  5,000   2,500      b Shielded                                                                           E

\ 42 C4A 4/C No. 9 AWG 2,500 2,500 2,500 Shielded 43 C6A 7/C No. 9 AWG 2,500 2,500 2,500 Shielded

44 C2C 2/C No. 6 AWG 2,500 2,500 2,500 i

Shielded i 45 C4C 4/C No. 6 AWG 2,500 2,500 2,500 Shielded 46 C6C 7/C No. 6 AWG 1,500 1,500 1,500 Shielded l l l

                                         =

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                                                .\3AJ04 linit #1                                      Unit #2 C. Freight incInded in abovc prices S                                                           $

Rate Bacis Truck _ _ _ _ Rail _ Other (specify) D. Proposals must be firm for acceptance within 90 calendar days from the stated bid due date or until notification of award is made verbally or by receipt of a Purchase Order, whichever occurs first. Bidder hereby agrees that his Proposal is firm for calendar days from the stated bid due date. E. The Bidder shall provide information for the services of a field Engineer as follows:

1. Number of maa-days included at no cost . .
2. Number of days (estimated) a Field Engineer is required days / unit.
3. $
                                        / hour for an 8-hour day.
4. S / hour for overtime rate.
5. $
                                        / hour for Saturday, Sunday and holiday.
6. $ / hour .

(Other)

7. Travel expenses, lodging, meals, etc. $ .

3.1 TERMS OF PAYMENT l fc/em 7 FEB 78 25

X3AJ04 4.0 PRICE ADJUSTMENT Whenever the current prices quoted above are not firm, Bidder shall quote current prices which shall be subject to adjustment (upward or downward) at time of shipment in accordance with a recognized industry index. Bidder shall clearly indicate below the industry index on which his bid is based and/or shall state the maximum percentage the current prices quoted may be adjusted for the delivery dates specified. (Note: The "maximus" adjustment quoted will be a serious consideration in the evaluation of all proposals submitted in response hereto. Price adjustments, if any, shall be substantiated and invoiced separately.) 4.1 INDICES TO BE USED (Provide Base Date Index Value on which Bid is based for each of the following:) LABOR: MATERIAL: _ OTHER: (Freight) 4.2 PERCENT BREAKDOWN FOR LABOR / MATERIALS 4.3 STARTING DATE OF ADJUSTMENT 4.4 ENDING DATE OF ADJUSTMENT 4.5 LIMITS OF ADJUSTMENT 4.6 METHOD OF CALCULATING ADJUSTMENT fc/en 7 FEB 78 26

X3AJ04 5.0 CANCELLATION AND/OR DEFERMENT A. The latest date for cancelling this contract without incurring charges other than engincering and overhead is

1. Unit 1
2. Unit 2 _ _ _ _ .

B. Cancellation charges beyond those dates specified above will be calculated as follows:

1. Unit 1
2. Unit 2 _. _ . _ .

C. In the event of deferment up to 12 months as covered in the specifications, the price adjustment will be 6.0 AUTHORIZED REPRESENTATIVES The Bidder shall designate below a representative authorized to make binding and enforceable decisions and assume financial responsibility on , behalf of the Bidder in all matters relating to the administration and performance of any resultant purchase order. Such matters include, but are not limited to backcharges, freight claims, insurance claims, change orders and extra work orders. The Bidder's representative to be contacted regarding any resultant purchase order is: Name:

Title:

Business Address: Home Address: Business Phone: Home Phone: l fc/em 27 7 FEB 78

X3AJ04 7.0 GEORGIA REPRESENTATIVES If the Bidder's Proposal has been prepared by a representative or an agent of the Bidder other than the representative or agent normally servicing the Georgia Power Company, Bidder shall designate below the proper Georgia representative or agent through which the purchase order may be placed. It is understood that all provisions of Bidder's Proposal shall *oe binding on such designated representative or agent. Company Name:

Contact:

Address: -- _ . _ . . . _ _ Telephone: __ _ _ _ . 8.0 CODE AUTHORIZATIONS Bidder shall list all Code Authorizations for which he is certified. Copies-of Certificates of Authorization shall be attached to Bidder's Proposal. 9.0 DEVIATIONS The following is a list of all deviations from, and additions, supplements, and exceptions to, Instructions to Bidders, Technical Provisions or Design Specification, and Proposal Form on which this bid is based. There are no others. The Bidder affirms that any provisions in the bid, incon-sistent with provisions in the specification which are not here expressly described or referred to, will be construed as though such inconsistent provisions do not exist. 9.1 INSTRUCTIONS TO BIDDERS e fc/em 7 FEB 78 18

X3AJ04 9.2 TECHNICAL PROVISIONS OR DESIGN SPECIFICATIONS 9.3 PROPOSAL FORM 10.0 DELIVERY SCHEDULE The Bidder shall, with due regard to jobsite delivery dates required by the Purchaser and indicated herein, furnish the following delivery information on the specified items. 10.1 DRAWING AND DATA REQUIRDENTS Bidder to provide delivery information under column titled VENDOR PROMISED DELIVERY included on attached Submittal Schedule to Engineering Office, Paragraph 14. It shall be understood that delivery promises shall be based on earliest notification of award, including verbal awards. It shall be understood and agreed that failure to furnish " Drawing and Data Require-ments" as promised, for causes within Bidder's control, shall be considered a breach of Contract, and the Purchaser shall be entitled to the remedies shown under the paragraph titled " Defaults" contained in the Instructions i to Bidders included in this specification. 4 l 10.2 MANUFACTURING The Bidder shall state below the date(s) by which manufacturing must be started to meet the required delivery shown below. Ites Unit Start Manufacturing i I fc/em 7 FEB 78 29 l

X3AJ04 10.3 JOBSITE DELIVERY DATE , Required by Promised by Item Unic Purchaser Bidder All Items 1 April 1, 1979 All Items 2 April 1, 1980 10.4 DELIVERY ACCEPTANCE Delivery dates earlier than 30 calendar days prior to required dates are subject to Purchaser approval before shipment is made. 10.5 POINT OF SHIPMENT , . 10.6 PLACE OF NANUFACTURE , . 10.7 COMMERCIAL OPERATION For purposes of the warranty provisions required in the Instructions to Bidders, the "date the equipment and/or material is placed into service" shall be considered the date of CONNERCIAL OPERATION as follows: l - UNIT DATE Unit 1 November 1,1984 Unit 2 November 1, 1985 11.0 RETURN OF SURPLUS MATERIAL (Where Applicable) Bidder shall state the conditions under which materials ordered in excess of job requirements may be returned for credit. i i fc/em

 ;                      7 FEB 78                              30

X 3!.104 PART B. ENGINEERING DATA 12.0 CABLE DATA A. The following data shall be furnished for each type of cable of each ennductor size specified:

1. Voltage Rating.
2. Wire.
a. Size.
b. Number of strands.
3. Number of Conductors.
4. Cable Construction (Provide full descriptive information.)
5. Overall diameter of finished cable, both nominal and guaranteed ,

maximum.

6. Weight per 1000 feet of finished cable.
7. Insulation.
a. Chemical or Type Name.
b. IPCEA Designation.
c. Bidder's Trade Name.
d. Insulation Thickness (mils).
8. Individual Jacket.
a. Chemical or Type Name.
b. IPCEA Designation.
c. Bidder's Trade Name.
d. Jacket Thickness (mils).
e. Permanent Set (inches).
f. Resistivity (segohns).

fc/es 7 FEB 78 33

X3AJ04

9. Outer Jacket.
a. Chemical or Type Name.
b. IPCEA Designation.
c. Bidder's Trade Name.
d. Jacket Thickness (mils).
e. Permanent Set (inches).
f. Resistivity (segohns).
g. Paints and/or inks suitable for field marking jackets.
10. Binding Tapes.
a. Chemical or Type Name.
b. Thickness.
11. DC resistance in ohns per 1000 feet at 20 C for each cable.
12. 60-hertz ac impedance (60-hertz ac resistance and inductive reactance % ) for two conductors (1 phase) at 75 C for the following c5aditions for each cable,
a. In air or non-metallic conduit with insulation and jacket thickness separation only.
b. In metallic conduit with insulation and jacket thickness separation only,
c. In air with a 12-inch spacing between conductors.
13. Ampacity Data - Submit in tabulation form to cover each type of cable to be furnished. Data shall include ampacities in air in conduit, and duct bank for 90 C conductor temperature with 30 C ambient. Derating factors shall be provided for ambients of 40 C, 50 C, 60 C, and 80 C.
14. Minimum bending radius, multiple of diameter.
15. Weight of reel and cable for each ites.
16. Maximum pulling tensions.
17. Cable splicing and terminating instruction manuals.

fc/en 7 FEB 78 32 l - . I

X3AJ04 ,

18. Method of coding individual conductors.
19. Storage Restrictions.

B. The following information shall also be furnished for the cable insulation proposed.

1. Initial Characteristics.
a. Tensile strength, minimum, psi.
b. Elongation at rupture, minimum, percent.
2. Aging Requirements.
a. After air oven test at 121 il C for 168 hours:
1. Tensile strength, minimum, percentage of unaged value.
2. Elongation at rupture, minimum, percentage of unaged value. ,
b. After air pressure heat test (42 hours at 80 psi, 127 C):
1. Tensile strength, percent of unaged value.
2. Elongation at rupture, percent of unaged value.
3. Heat distortion, 121 11 C, maximum, percent of unaged value.
4. Ozone Resistance.
a. Ozone concentration percent by volume, 0.025 to 0.030.
b. Duration of test, 3 hours.
5. Permeability - Indicate the volume of gas per unit area trans-mitted through the cable insulation and jacket material for the following conditions and gases:

I a. Conditions.

1. Exposure time - 6 Hours.
2. Gas pressure - 1/8 inch water gauge.
3. Ambient temperatures - 70 F.
b. Gases and gas concentrations.
1. C12 - 45 mg/m3,
2. H S - 750 mg/m3 ,

2 fc/em 7 FEB 78 33

 . - _ = _ _ _ _ _ - . _ . _ _ _ . . _ _

X3AJ04 3

3. CO I#*

tokalvolumeof- 1 percent by 100,000 ft volume;3 r 1000 ft 2of CO

6. Moisture Absorption Tests.
a. Electrical method (immersed in water at 75 C 1 C, tested at an average stress of 80 volts per mil 60 Hz);

Dielectric constant after 1 day, maximum increase in capacitance, maximum, percent. I to 14 days. 7 to 14 days. Stability factor after 14 days maximum.

b. Gravimetric method (immersed for 168 hours at 70 C):

Mechanical water absorption. After 7 days in water at 70 C maximum, mgs/ square inch.

7. Insulation resistance constant minimum at 60 F.
8. AC Test.
a. Voltage (kV).
b. Duration (minutes).
9. Description of cold bend test.
10. Qualification Test
a. SIC for 12 months, minimum.
b. Description of insulation properties after air-oven aging.

C. Indicate that samples of all cables specified herein have passed the flame test described in Paragraph 5.3.3.3. i fc/em 7 FEB 78 34

X3AJ04 PART C. DRAWING AND DATA REQUIREMENTS 13.0 GENERAL

                                 . A. The Bidder / Contractor herewith provides his submittal schedule for drawings and data. Purchaser's requirements and those of regulating government agencies for type, quantity, and quality of submittals are to be provided in accordance with the submittal schedules and as defined in Items B through I in this paragraph.

B. Drawings or data shall be submitted for each unit (s) as separata drawing (s), indicating on the drawing for which unit it is applicable. Drawings or data shall be submitted as one full-size black-on-white vellum. Submittals may be rolled but shall not be folded. The black-on-white vellum must be of a quality that is acceptable for microfilming by the Purchaser. Drawings and data 18 x 24 inches or smaller shall be capable of being microfilmed at a 14.5X reduction factor. Drawings and data larger than 18 x 24 inches, but not exceeding 36 x 48 inches, shall be capable of being microfilmed at a 29.01 reduction factor. Any drawings or data submitted that are not acceptable for microfilming will - be rejected or, at the Purchaser's option and Contractor's expense, upgraded by either drafting or other techniques to permit microfilming. C. The Purchaser may consider the Contractor's reasonable request for restriction of proprietary information; however, it may become necessary to make disclosure to the following: NRC; Department of Health, Education, and Welfare; bonafide interveners; and/or other regulating governmental agencies. l l D. Drawings or data submitted by the Contractor will be processed by the Engineer within 30 calendar days after receipt, and returned in any one of the following forms: blackline vellum, blueline, or 35-am microfilm aperture card, as mutually agreed between the Purchaser and the Contractor, with the status of the drawing or data marked as follows: STATUS 1. WORK MAY PROCEED. STATUS 2. REVISE AND RESUBMIT, WORK MAY PROCEED SUBJECT TO INCORPORATION OF CHANGES INDICATED. STATUS 3. REVISE AND RESUENIT, WORK MAY NOT PROCEED. STATUS 4 INFORMATION ONLY. Contractor shall incorporate changes, as required by comments on the drawing and resubmit corrected drawings for review, within 30 calendar days. Contractor shall not change Status 1 drawings without notifying the Purchaser and resubmitting the drawing. fc/en '45 7 FEB 78

X3AJ04 E. Assignment of a Status 1 to the drawings by the Purchaser shall not relieve the Contractor of any part of his obligation to meet all of the requirements of the specification and other Contract documents, or of his responsibility for the correctness of such drawings, and the adequacy and suitability of materials and equipment represented thereon for the intended function. F. Fabrication prior to the Purchaser's assigned Status 1 or 2 shall be at the Contractor's risk. G. Drawings submitted after Contract award shall show the Purchaser's equipment number, purchase ,rder number, specification number, and equipment title. H. Drawings and data are to be accompanied by a letter of transmittal, and shall be forwarded as follows:

1. Drawings and data, with the original and one copy of the transmittal letter, are to be sent to:

Bechtel Power Corporation Los Angeles Power Division P.O. Box 60860 Terminal Annex _ Los Angeles, California 90060 Attention: Drawing and Data Control (Building 45) Alvin W. Vogtle Nuclear Power Plant

2. One copy of the transmittal letter is to be sent to the above address to the attention of:

J. D. Duffin, Project Engineer

3. Copies of Instructions (Erection Installation, Operation, and Maintenance) and Complete Parts Lists are to be sent to l

Bechtel Power Corporation, Los Angeles Power Division at address listed in Paragraph H.l. above. I. Bidder shall supply with his Proposal, one copy each of the informa-tion as indicated required by Paragraph 14.0, Data Description Items 1, 2, and 3, to establish current qualification for work covered by this bid request. Failure of Bidder to submit required information will be con-sidered nonresponsive and may be cause for rejection of Bidder's Proposal. fc/es 7 FEB 78 36

X3AJ04 ALVIN W. VOGTLE NUCLEAR PLANT DRAWING AND DATA REQUIREMENTS 14.0 SUBMITTAL S'CilEDULE TO ENGINEERING OFFICE (1 of 4) 1 ELECTRICAL / MECHANICAL imocavaav X , , , , , , , , , , , , , , , , , r on.. mos venoon sma66 comessus venoon enemisse oeuven, cocuma ve inoecavs mis eso osa6 roa est,ivsm.,.o.ciricatio= ano oava esovinse av oscurs6. a66 seen omva s 66couro =voesowinsi.s=vsoseineoinsoo or SECMTEL REQUIREMENTS SU TTAL g'EC AFTER PROMISED

                                                                                               "                          A OELIVERY
     ,,"h C

DATA DESCRIPfl0N PARA ,, AWARO AA0

90. apre centyp appo centro oty Type oty Yvre pon pon con con e o Lavouf CONSTA Layout CONSTA

. u 1. Supplier 160 1 D - - Questionnaire

2. ASME Certificate (s) of Authorization
3. Experience List 43 1 D - -
4. Outline Dimensions (With Motors) -
5. Foundation Dimensions C 6. General Arrangement

. O 7. Erection Drawings.  : 1

3. Detail Drawings with Parts List and Cross-Reference to Erection Drawings l b 9. Internal Arrangement 52 1 C - -

Detail b 10. Published Descriptive 52 1 C - - Bulletins of Equipment

11. One-Line Diagrams
12. Wiring Diagrams 0 13. Elem.ntary DiaEram.

O 14. togic Diagram.

15. Control Circuit Diagrams O i6. Terminst Connectio.

Diagrams , [ 17. Schematic Piping and I

   ;                   Instrument Diagram l   :                   (Flow Sheet)

! I e Yves or suenservat

a = stusLine on eLacutine paint c - soumo soons g ,, ,

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l X3AJ04 ALVIN W. VOGTLE NUCLEAR PLANT DRAWING AND DATA REQUIREMENTS 14.0 SUBNITTAL SCHEDULE TO ENGINEERING OFFICE (2 of 4) ELECTRICAL / MECHANICAL i n.ac ... . , X , , , , , , , , , , , , , , , , , L ,. l

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                                                                           . .. A BECNTEL REQUIREMENTS VENDOR S       AL           PROMISE 0 SPEC                                   AFTER c                                                                                                  C"        AWARO M A TER                DELIVERY OATA DESCRIPTION                        PARA                                                 ,gg
     ,a                                                                                  0       PR 0m NO.                                             ,,,, eg,y,o         ,,,,        eg,,,o QTV TYPG OTY TYPE           pon     FOR          POA           FOR
                                                                                                           *
  • LAYOUT CONsTR LAYOUT CONSTA O 18. in erument Bo.r4 arr.n.e.

ment Drawings O 19. tn.crum.ne rn.e.t1.eton DetaLts l C 20. Swo, D.e.its . O 21. Etecerte notor D.e. E 22. Specifications 47 1 C - -

               @ 23. Suppiter Quality Vertitca-160         1       D       -

tion Documentation List-Summary (SQVDL-S)

24. Electrical Tests 173 1 C 25.

O 26.

     $                                                                              $ TYPE OP SusamtTAL
A = stueuwe on stacuuwa Pai=T c soumosoous g e etaca.os>wmTe vsLtuas Ano one seP:A o uneoumo Paoas fc/em 7 FEB 78 38

i i l X3AJ04 j Rev. 1 ALVIN W. VOGTLE NUCLEAR PLANT DRAWING AND DATA REQUIREMENTS 14.0 SURMITTAL SCHEDULE TO INGINEERING OFFICE (3 of 4) ELECTRICAL / MECHANICAL suges6TTAL REtumtesENTs casca safa mnMim Asco ouasefiry asso scMsouts Yvet O 27. Drawins tists Preliminary 1 copy 30 days after award B Updates 1 copy within 15 days after B requested Complete 1 copy at time of shipment B

28. Code Certificates - ASME, 1 original at time equipment D is shipped C 29. Design Calculations 1 copy within 15 days after B completion
30. Stress Reports (Certified) 5 certified copies within 15 days C/D after completion
31. Seismic calculations 1 copy within 15 days after B completion
32. Instructions (Erection, Installation, 13 copies as soon as completed C Operation, and Maintenance) and (aaf ar to Paragraph 13. GENERAL, Complete Parts Lists ites H for delivery requirements) ,
33. List of Special Tools 1 copy 30 days before shipment B 34 List of Subvendors (Final) I copy 30 days after award Bl b 35. Welding Procedures I copy 30 days before use B i t

i O 36. werd a. pair aeports t copy within t5 days after s, repairs are completed I t O 37. tist of v dor-Reco ended Spare i copy with proposal 8 Parts, Including Prices . ,

38. Special Process Procedures 1 copy 30 days beforause/ E fabrication ,
39. Quality Program Manual 1 copy 30 days after award for C/C!

(Controlled Copy) approval,fter 4 additional copies approved by 30 days a Bechtel PSQD-TS/PE

         @     40. Conformed Equipment Data Sheets                     1 copy 21 days after notification                      D

, a by Purchaser

41. Non-destructive Examination Procedures 1 copy 30 days before tests B
 $       ]     42. Deleted                                           .
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X3M04 ALVIN W. VO I.E NUCLEAR PLANT DRAWING AND DATA REQUIREMENTS - 14.0 SU3MITTAL SCHEDULE TO ENGINEERING OFFICE (4 of 4) ELECTRICAL /MECEANICAL emoscars av X oava avsees aseuenso g OATA oEsCRiefloN QUANTITY ANo sCMEcuLE . TYPE u M 1 43. Supplier Deviation Disposition 1 copy within 15 days af ter D Requests (For approval) occurrence (After work has been done and I copy at time equipment is D accepted) shipped

44. List of Codes and Standards 1 copy with proposal (Including applicable revision) 1 updated copy 30 days after award X 45. Standard Tests (5.3TP) 1 copy within 15 days after D occurrence l
        @    46. Qualification Procedure (EA)                      1 copy with proposal                    D i

l X 47 Qualification Report (EA) I copy 15 days after completion lD i l l l l l 3 i l . I i t i i l l I

                                                                                                         .           I
                                                                                                         !           l i
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5 1 tves or sucesiTTat

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X3AJ04 15.0 QUALITY VERIFICATION DOCLRENTS A. The Contractor shall provide, and deliver to the jobsite, quality verification documents (such as test reports, radiographs, chemical analysis, etc.) as defined throughout the specification. B. The cover-page of each such quality verification document shall include, as a minimum:

 ,                   1. Document title.
2. Contractor's or subcontractor's name.

I i

3. Manufacturer's name.
4. Project name.
5. Name of item.
6. Serial or batch number of item.
7. Reference to appropriate part of specification that identifies need for documentation. -

Documents of a like kind may be bound together using one cover page. C. At award, Bechtel will furnish the Contractor with blank Supplier Quality Verification Documentation List-Summary (SQVDL-5) forms. The Contractor will list on these forms a summary of the quality verifica-tion documents he will deliver to the jobsite in accordance with the specification requirements. Within 30 days after award, the Contractor will submit completed, certified SQVDL-S forms to Bechtel. Bechtel will review the completed SQVDL-S forms and return approved copies to the Contractor. The approved forms will be the official checklist for the i Purchaser's Supplier Quality Representative (SQR) review of the documenta-tion, or for the receiving inspector's review where there is no source inspection. D. At the start of fabrication, Bechtel will furnish the Contractor with blank Supplier Quality Verification Documentation List-Detailed (SQVDL-D) forms on which the Contractor will list and specifically identify each individual quality verification document including Bechtel-accepted non-conformance reports (see Paragraph 15.0.G4) to be delivered to the jobsite. , The Contractor shall certify on the SQVDL-D that each document applies, as required, to the appropriate procurement ites. The Purchaser's source SQR then will verify the acceptability of each document, and will indicate his approval by signing the SQVDL-D, adjacent to the Contractor's certification. fc/en 7 FEB 78 41

X3AJ04 R3v. 1 E. Following fabrication, the Contractor shall certify on the SQVDL-D that all documents listed on the form apply to and meet the requirements of the specification. The Purchaser's source SQR then will ensure that each document listed on the SQVDL-D is in the package for jobsite delivery. The SQR's acceptance signature on the form confirms that the Contractor has met the quality verification requirements. The SQR cannot release the equipment or material for shipment until the documents have been sent, or y are attached to the related item as part of the packaging. The completed SQVDL-D forms shall accompany the shipment, with SQVDL-D serving as the transmittal for the documents. The SQR shall attach a copy of the SQVDL-D to his Quality Surveillance Report. When the procurement is for more than one item or batch, and when these are to be delivered { at different times, the applicable verification documents and forms shall accompany each delivery. i F. When the Purchaser does not have a SQR, the Contractor shall prepare I and certify the SQVDL-D and deliver it to the jobsite with the equipment l or material and related verification documents. The Purchaser shall l review the delivered documents at the jobsite and return an approved copy of the form to the Contractor. l G. Approved nonconformance reports are quality verification documents and - 1 will be processed as follows: ( 1. Quality verification documents include nonconformance reports (NCR) that have had the Contractor's recommended " repair" or j "use as is" disposition approved by the Purchaser's Engineer.

2. The deviation request nonconformance report form used by any Contractor must be approved by Bechtel prior to use by the Contractor. However, the existing Supplier Deviation Disposition Request (SDDR), Bechtel Form LA0 0790, may be used by the Con-tractor in lieu of the Contractor's form. At the start of fabri-cation, Bechtel will furnish the Contractor with blank SDDR Forms.
3. Within 15 days after the occurrence of a nonconformance, the Contractor shall submit to Bechtel a NCR requesting disposition approval. Bechtel will review the report and accept, reject, or reject with instructions to the Contractor to resubmit. All accepted deviation disposition request and NCR's will be signed by the Contractor to verify that the accepted disposition was correctly accomplished. The SQR's acceptance signature on the form confirms that the Contractor has correctly accomplished the i

accepted disposition. l

4. All accepted deviation requests and NCR's become documentation generated in support of the quality verification requirements of this procurement and shall be listed on the SQVDL-D. (See Para-graph 15.0.D.) At the time equipment is shipped, one copy of the NCR will be included in the document package to be delivered to the jobsite, fc/em 42 l

7 FEB 78 l l

_ _. _ _ _ - . _ ~ _ _ - . _ - - . . _ _ _ . _ - . __ l l wE PAGE OF l SUPPLIER QUALITY VERIFICATION DOCUMENTATION LIST -

SUMMARY

i

  • 1 8 (sovot-si BECHTEL JOS NO j ECUIPMENT N AME
,   M j           ECulPMENT TAG MO                                                                                                                                        SPEC /PO NO.

M sees v a u c Tecess as EQUIPMENT SERI AL MO. osesacetsaog PACKING LIST NO

.i w

j 8" SUPPLIER N AME CATEGORY l ou ALsTV WEmeFec ATeose DocusesseY suesesamy spEcarec ATeoes REFEREsect ] c Y caTsoesev- ! ossemeeveoes oc esovesso oocuessnes cseasess om saasate.o se c u seos pasasmaen soo seseeagu as omit

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ym IIBSTRUCTloess FOR PREPARlleC ,Q SUPPLIER QUALITY VERIFICATiosi 90CIASIITAT10E LIST-StastEV r4 = (SQVDL-S) to S 9 The supplier shoulJ complete the entries at top of the form and fill in summary and reference columns " as described below. Entries in the sery culumn may be categorized, such as " Welder Qualification Certificates." If a category contatas several dif f erent types of documentation, such as Inspection Reports, specifac types should be listed under the sategory. 14 SCRIPT 10m 0F REQUIRED Enter title, description or category of documents. 30CIAEJITS mawT og sgg1AL 000. Enter change or serial number only if supplier has other doceents with the tone title that do not apply to this procurement. SECTIOes; PARAGRArti Nu. Enter section of specification and paragraph number in that section that the listed doceents and/or categories are intended to espport.

  &                                                                                                                        M W

t O G 9

         -                  __ - _ _ _ _ -         - _ . _ _ ~ _ _ _ _ . _           _ - _ - _ .        __.     .      .-    . __           . ..          .-     . . - .            _               ,    .

1 J i, 4 i l " PAGE OF E SUPPLIER QUALITY VERIFICATION DOCUMENTATION LIST - DETAILED D isQVDL-D) ECUIPMENT N AME SECHTEL JOS NO ) I M j q EQUlPMENT TAG MO. SPEC /PO NO , ses IseSTRUCTeoses 1 8' ECUIPMENT SERI AL NO oss s a c K soo E PACKING LIST NO. 1 y l on SUPPLIER N AME CATEGORY l l C-. E C E.T e,88. S. .C . ..S . .. .es Sc en P""" j OR AwsNs om coCuestserS ePECereC Aveces stCreces " ' eSesa' sesse nvues onTS eseve ak oats i I 4 i 3 } M Up i O 1

                                                                                                                                                                                                      *=

1 l 1 1 . t i 1 i l SUPPL 8ER CERYtreC ATsoM PURCH ASER'S INSPECTom ACCEPT ANCE ueS CSevery Teem 7 Tees mocuenSesTs LestSo ces TeseS remes esSST weeSee secoe seempSCTeoes es eso7 mSeuseSp. mewsSe weLL Test GU A L87 T W S BeF eC A TeGee SS GueSSGSSMT S OF Tee $ SPSC ef eC a eS esaOS AT Tees JOSSETS AS PART OF WSCSeveceS Teose. Assab FWATMSW. TM AT S ACM DeCuesesef LetTSS APPLeSS eeBSPE C T eOM SPECeFsC ALLY TO TMS PSOCUSSeBSNT eOSesTeFeet See TeseS FO#ee DATE 8 ACCSPTSOSV DATE SwerteSS seSP TeTLE TsTLE PF e4Ss99etteJFe

INSTRUCTIONS E08 PREPARING n"* SUPPLIER QUALITY VESIFICATIon 20C18ElfTATIou LIST-DETAILED w (SqvDL-D) I The supplier should list all documentation generated in support of the quality verification requirements u ot thas procurement, ancluJing Sechtel-accepted acaconformance reports and as shown on the Supplier

 , Qualary verification Documentation List-Summaary (SQVDL-S) form for jobsite delivery. t!se a separate m   page for each category of documentation even though a single entry may be on11 that is required. The headtag of the form is self-esplanatory and all available data should be entered. Enter data on the y   remainder of the form as shoun belou.

CATEGuaY Ent er t he cat egory of t he doc ement at ion t ha t w111 be listed on the form, suc h as. *1 aspect aon Reports". DaAW1hc sE 80CInt3fT Ent er t he : a !es of t he Jrav aarm and Iw!!t v wer i .a t ion Jocument s to be deltwared to the jobsite. CHANCE OR SLAIAL IstaeEm Enter the- change or serial number of t he Jrawlag or document. SPECIFICAT!ose SECTIOW; FASA Eater the section of the spectitcation and the paragraph number in EMt utteER section aha tw lasted docuneet is antended e suppert. CERTIFIED BY The contr.wtor representattwe sagas opposite each cr.t ry, af ter verif ying that the spe. ific document listed applies lire tly c tu the equipment shown g 3 on ahe f rm. L.s FtJACMASER'S INSFECTot Furchaser's taspector must review and sign ea6h document listed. After b O, rewtow he initials the form opposite the contractor's certification. NOTE lAnen a source inspector is not assigned, this column rematas bleak. SWFLIER CERTIFICAT10m Contractor representattwe signs form, af ter rewtowing complete list and is satisfied that all documentation required is listed. EasSPEC10s ACCEPTANCE Purchaser's taspector signs form, after rewtowing it to ensure that each has been certified by the contractor and reviewed by Purchaser's taspec-tion, and that a!! decimentation listed is packaged for delivery to the jobsite. INTE This space will be blank when there is no source inspector. Receiving taepection shall review the form and documsats and uhen satisfied, sign the INSPECTOR ACCEPTANCE line, and f orward a copy to the contractor. 8

X3AJ04 16.0 QUALITY PROGRAM REQUIREMENTS 16.1 PROPOSAL QUALITY PROGRAM REQUIREMENTS A. A written description of the quality program plan to be implemented that conforms to the requirements, identified in Paragraph 16.3, Quality Program Requirements, of this Appendix must be submitted with the proposal. B. If an effective quality program manual is being implemented and meets the requirements, identified in Paragraph 16.3, it,may be submitted in lieu of a quality program plan. 16.2 QUALITY PROGRAM REQUIREMENTS AFTER AWARD Within 30 days after award of the Contract a documented quality program, l including procedures for the Contract of quality related activities, shall be submitted for the review and acceptance by the Purchaser. l 16.3 QUALITY PROGRAN REQUIREMENTS

The quality program submitted must comply with criteria appearing in ANSI
W45.2-1971, " Quality Assurance Program Requirements for Nuclear Power Plants." The attached list of subjects required to be included in the quality program is numbered and titled on " Quality Program Requirements"

{ to correspond with the applicable sections in ANSI N45.2-1971. An "X" i in the block preceding each number and title indicates that the section ! requires coverage in the program plan; a " " (dash) in the block signifies no requirement. The extent to which the individual sections and elements apply is established by the nature and scope of work of this specification. 16.4 QUALITY PROGRAM CROSS INDEX It is required that a cross-index table or listing of the quality program , f manual procedures be provided with each manual to identify the criteria 4 of ANSI N45.2-1971 which each of the individual procedures addresses. i 16.5 QUALITY PROGRAM DOCUMENTS Documents, records, correspondence, etc. are considered valid only if . stamped, iuitialed, signed or otherwise authenticated and dated by authorized personnel. Initials and stamps shall be traceable to the individual. Printed names and printed initials are unacceptable. In addition, all quality assurance documents and documsats submitted for quality assurance review, shall be validated by using black ink. On materials where the use of bisek ink is impractical (mylar and vellum) j standard drafting methods may be used for validation. I l l i fc/en 47 [ 7 FEB 78 i

I X3aWO4 i l QUALITY PROGRAM REQUIREMENTS l l l ANSI N 45.2-71 i REQ'D SECT TITLE 2 Quality Assurance Program Ub 3 Organization 4 Design Control Ub 5 Procurement Document Control X 6 Instructions, Procedures and Drawings x 7 Document Control x 8 Control of Purchased Material, Equipment, and Services x 9 Identification and Control of Material, , Parts, and Components X 10 Control of Special Processes X 11 Inspection 12 Test Control 13 Control of Measuring and Test Equipment 14 Handling, Storage, and Shipping 15 Inspection, Test and operating Status 16 Nonconforming Items

  • 17 Corrective Action 18 Quality Assurance Records 19 Audits
  • NOTE: Procedures for the control of nonconforming items shall include provisions for the approval by the Purchaser's engineer of " repair" or "use as is" dispositions made for materials, parts, or com-ponents that do not conform to drawings, specifi-cations, or other purchase documents. Submittals by the supplier shall include the recommended disposition and technical iustification.

OTHER QUALITY PROGRAM REQUIREMENTS fc/en 7 FEB 78 48

X3AJG4 17.0 REPORTINC OF DEFECTS AND NONCOMPLIANCE 1 The work to be performed in accordance with this specification is subject to regulation 10 CFR Part 21, " Reporting of Defects and Noncompliance." The Purchase Order (s) to be written for the award of this work shall con-tain a clause entitled "Special Condition" to include the provisions of regulation 10 CFR Part 21. 18.0 REPRESENTATION AND EXECUTION OF CONTRACT The undersigned hereby declares, as Bidder, that the only persons or parties interested in this proposal as principals are those named herein; that this bid is made without any connection with any other person or party making a bid for the same purpose; that this bid is in all respects fair and without collusion or fraud; and that he agrees that if his bid, as submitted on this Proposal Form be accepted, he will perform the work and complete same within the time specified therein; and that he will accept in full payment therefore the prices quoted in this Proposal Form. Date Bidder Bidder's Address By: Title I fc/es 7 FEB 78 49

VMastol Cml,e f(M M y g y f f - 3 .L., uv;rs, service 7,g , g/ sa Georgia Power Comorny Alvi 3 W. Vogtlo Nuclear Plcnt Soecification No. I3AJ04 Cable cog g , y,g, ari .na .= .nst.c .0a . x. l ' jr 3 , gl M5 M___ - i - _i

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f ' 2nd . locket 2nd $hteld 1st Jocket 1st Shield 2nd Insulation 1st insulation Conductor Descriction Construction fietails . Conductor 18 Alfr. Tin Caated Copner (7:261 to A$m 313 & BBS 1st Insulation bckbestos Polw er LE 2nd Insulation Padiation Cross Linked '4dified Pol.volefin

                                     ~

ist Shield 36 AWr Tin Coated Cnaper to PSM R33. 9ftf ('ttn.) Coverste 1st Jacket P4df atten Cross Linked. Ptn-rarrosive. F1_eae Petardant 'indiffed polvolefin 2nd $hteld 34 AWP. Tin tested Conner to ASTit 833. err' Fin. Caverane 2nd .lacket s 8tadiatto.1 Cross Linked. *1on-Correstre. Flame e tardant 'indifled(Polvolefin) fke W., al R*EWu Qe_c,tr,1 cal Pronertfes o., rthj6G.,Iki% **IOsl si lonedance Capacitance 73 etees (nominal) 1 M M '*M S ** 21.2 nf/f t, fneminal) 1 For Fnefneerine Cler k.W

 ,        Velocity                                        647 nominal                                 *eference en ly J

nielectric Constant 2.3 neelnal[ e i p,g) .4

  • Corona [stinction 1 volts (rses) (mintamm
        ' Insulation Peststance                           1 menoPuns for 100) f t. l }etnians)                                 ir\rfg
  • Dielectric lif thstand 571n volts (res etniansel IfW) volts (rus etnleman[ hetwen s>felds NS.!!.a,1,,Proeert f e.,s, Weinht 116 lb/Inon ft. (nominal)

Pinimam Send Padfus 5.0 inches for neriennent testa 11atten fmfrofgntal Properties Cold tend 40*C on a 4.5 fnch eendrel Flaamability PCIA S In-A1. Wtten 8.19.F (SenteeNr In??) This cable is suitable for Class If service in nuclear generattan stations and ents annitcable requirements of 1Ftt 3831974 tintess otherwise spectfled. printed legend stil include 'Rocibestos R$$ 6109/Lt.191s.* l Oteenstant are in faches and are nominal unless other= tse desinnated. Pecufred tests to te rwn in accordance with 'lockbestos Test Procedures.

      *Productfen Tests Jacket Print: "Rockbestos RSS 6-199/t.E *"

1800 Apart Sequential Footage " Cable Code J3"

  • Tear of Manufacture
 /

t Tas woexuesros ciour%NY NEW HAVEN CONNECTICUT 06404 USA TELEPHONE:(203) 772 2250 TELEX: 710-465. 2149

  • ' ~
   ,      C asial Catle                                       Mv rse servie*                                               s n
                                .195 f,.004             .137                    .116 + .064             .051          .035 t                       a t

Jacket $hteld 2nd Insulation 1st Insulation conductor Descrintion Construction Details Conductor 21 AWG Tin Coated Concer (10:33) to A$T'1 R33 8 R286 1st Insulation P.cckbestos Polvmer LE 2nd Insulation Radiation Cross. Linked !iodified Polvolefin Shield 36 4WG Tin Coated Conner to e5T't 833, 9M (min.) Coversee Jacket Radiation Cross Linked. Flame itetardant. Non-Corrosive 'bdified Polyolefin [1,e_ct1 1 eal Properties fanedance 48 otes (nominal) 'l Capacitance 32.8 pf/ft. (nominal) h For Fngineerino Velocity 651(nominal 1 Peference only Ofelectric constant 2.4 (nominal h

                      *Corone [attnction              1      volts (   )(mintmm)
  • Insulation Resistance I mesotes for 1000 f t, minime)
  • Dielectric Withstand 4000 volts (rus) (mintsum
            ,Phygical Properties Weight                         25.2lb/1000ft.(nominal) liinimum Bend P.adius          2.5 inches for normenent installation F,nvirormental Properties Cold Bend                      -40'C on a 2.0 inch mandrel
. Flamnability *!PCEA 5-18-81. Sec. 6.le.6 ($eatseer 1877)

This cable is suitable for Class 1C service in nuclear eenerettnn stations and meets aelicatle renutrements of

           .Ir(( 3831974 Unless otherwise specified legend will include 'Rochbestos R15 6-100/LE.1933.*

Dimensions are in inches and are nominal unless otherwise designated. Pe<tutred tests to be run in accordance with encthestos Test Procedures.

            *Prnduction Tests Georgia Power Company Alvin W. Vogtle Nuclear Plant S:ecification No X3AJ04 Cable Code: V2 Jacket Print: " Rockbestos RSS-6-100/t.E"
  • 180* Aoart Sequential Footage " Cable Code V2"
  • Year of Manufacture O THE 1ROCKBESTOS COMPANY NEW HAVEN, CONNECTICUT 06604 USA TELEPHONE:(203) 772 2250 TELEX: 710 465 2149

Coaxial Cable AK3AJ0@-N.I..,<vic, Ds;oN3

                      .242 + .004                .173                                                       .146 1 004                                                               .048          .n32
                            %                        v e*

Jacket Shield 2nd Insulation 1st Insulation Conductor Descrintion Construction Sata 11e Conductor 22 AWP Tin Coated Concer (19:34) to PST" P13 '. p?h 1st Insulation anckbastos Polywwr Lt 2nd Insulation "adiation Cross. tinted. % dified Polyolefin Shield 34 A% fin Coated Concer to AST* B33. 96* ("inimum) Coversne

          .lacket                      radiation Cross. Linked. Flame fletardant. Non. Corrosive Ndified Polvolefin s

riectrical properties Imsedance 62 o'us (nomteal) ) Canacitance 25.7 af/f t. (nominal) 1 rar rnqineerino Velocity 64 ' nominal) [ "eference N1y Dielectric Constant 2.4 nominal) *

  • Corona Catinction 23f)n volts (rms) (minimum)
  • Insulation resistance 100 rwoohms for 1000 f t. (minimum)
               *0telectric Withstand           5000 volts (res) (minimum
     , Physic,a1 Proaerties ,

Weight 36.6 lb/100f1 Ft. (nominal)

                'finimum Bend Radius           3.0 inches for aerwanent installation EnvjreneentalProperties Cold Bend                      .40*C on a 2.5 inch mandrel
, Flasunability *!PCFA 51131. Dec. 6.19.6 (%eateder 1977)

This cable is suitatle for Class If service in nuclear eenerating ttations and meets aanticable reeutrements

   . of Itt! 333 1974 Unless otherwise specified, printed legend will include "Rockbestos R55 6 104/Lt. 19XX.*

Dimensions are in inches and are nominal unless otherwise desionated. Sequired tests to be run in accordance with flocktestos Test Proced.res.

  • Production Tests Georgia Power Company Alvin W. Vogtle Nuclear Plant Soecification No. X3AJ04 Cable Coder M2 Jacket Print: "Rockbestos RSS 6104/I.E *"

180' Apart: Sequential Footage Cable Code M2"

  • Year of Manufacture ROCKBESTOS OMFhNY OTHE NEW HAVEN. CONNECTICUT 06604 USA TELEPHONE:(203) 772 2250 TELEX: 710 465 2149
,             o CHANGES _

b& W I GEtNt0IA PONER COWANY ALVIN W. 900TLE NUCLEAR PLANT BBCNTEL PONER ODAPORATION SPECIFIC INSYRUMNT & 3PECIALTY CABLE ITEM NUMERt -1914 102 r CABLE CODE's CL67 1I52-68610-0 DEIORON PART NUMER: UCTOR3 I CNE (1) FAIR OF SIITREN (16) GAUDE, 3EVEN RY (7)INSUL- STRAND TINNE WITH ATION; TNIRTT COLOR'(DDDI (30)BLACE MIL ILF0AND NNITE; (CROSS-LNEED 00NDUCTORS WITN AN L POLTOLEF TNISTD 100E , LON & 1 EIGHTEEN (18) GAUGE, SITEN (7) STRAND TIN ) 1 (CNLOR03ULF0NAT E POLTITNTLENE) EETRUD E OUTER J . J l 0.361 H CNES MAXIWM 0.D. 60.5 POUNDS NET NEIGHT F M WT. 2.166 INCRES ' NINIWM BINDING RADIUS 54.2 POUND 3 MAIIMUM FULLING TENSION 0.5 l 10,000 FEET 00 EFFICIENT OF FRICTION 0 0 MAXIMUM COIL La 0TH -400C (-400F) TO +90 C (+194 F) > AMBIENT TEMPERATURE ASNGE -15cc (+50F) l MINIMUM INSTALLATION TEMF n ATURE JACEET LEGEND: DRORON 1 P Iit 16 AND SEIELDED CL67 EATO , (SEQUENTIAL FOOTAGE) , e 8 9 S'S s . ' 4 INIII- 1 FRODUCT DRAWING l f 5AMUE M00tf Als CD. i Awore, owe . N l' M -s0 l"" 1152-6861&D '

i. '

4x.s4Jo# ..s-/ - - - '- b_ -

  . - - - _ . _ _ . - _ _                                                -.==-
    ', CMANGES                                                                                                                                    *
                                                                                                                                                               \
                                                                                                                                                               \

OSORCIA POWER CINANY ALVIN W. V00TLE NUCLEAR PLANT BECNTEL POWER CORPORATION SPECIFICATION I3AJ04 i GEORGIA POWER PURCHASE ORDER PAV-3080 & PAV2-128 J INSTRUMNT & SPECIALTY CABLE , IT M NUM ER: 102 & 202 CODE CABLE CW7 l I I DEKORON PART NUS ER: 1I74-60267-0 ' t i UCTORS UL-

TWO (2) PAIR OF SIITIEN (16) GAUGE, OF EACH SEVEN l

ATION; COIAA CDDR PER IPCEA 3-19-81 PARAGRAPN H THE SEQ- 7.8.5 3 (ON [ PAIR ACH l UENCECOLOR OF THE CODE FIRST 21'WITE* CONDUCTORS AND TMGIVEN QTEER IN NEDTABLE CONDOC 5-2 O ) PAIR TWIST E TOGETNER WITE AN EIW TEEN (18) APE OAODE, SE l COPPER DRAIN WIRE; EACN PAIR SEIELDED WITH SEIELD A 0.05 MIL A 3HIELD (255 OVERLAF); EACE 3EIELDD PAIR COVERE WITN A l1 ISOLATION TAPE (255 OVERLAP); INDIVIDUALLT (16)SEIELDED P FIVE (5 0) MIL SILICONE RUBBB FIBROLA38 FIMBARRIER TAPE i GAUGE, SEVEN (7) STRAND TIN D COPPER BRAIN WIRE:F); 3IITY (60) MIL BLA

                   . ALUMINUM TAPE SEIELD DVBALL (255 OVpLA                                                                                               I
                   -(CHLOR 03ULF0NATED POLTETNFLINE) IITRUDO OUTER J
  • i I
                                                                                                  /                                        .

k 0.640 INCats MAXIMUM 0.D. 155 5 P0053 Nrf WEIGHT PER WT. l 3 840 INCMS MINIMUM BENDING RADIOS 129 1 P0053 MAXIW M PULLING TENSION 0.5 00EFFICIE7 0F FRICTION 10,000 FEET MAXIMM (X)IL LENGTE -40'C ( 40*F) TO +90*C (+194 F)

          -umme      AWIENT TENERATURE RANGE                               -15'C (+5'F)

MINIWM INSTALLATION TENERATWE T e- JAMET IJOIND: DEKORON 2 PAIR.16 AW MIELDED CM67 E 4  :  : (SEQUMTIAL P00TAGE) y . g 1 - -- 't - rRoDUCT DRavING h887-f SAMUE M M AW W. A PP D.

                                  *-,=                            ,.P    lpAft 24.0    lP ART me. ixx. -
              !                                       A X SA ,104- 4t./                                                                         .
 -~                       _ _ ~ _                         -- - -
        *y a CHANGES .-

4 GB(IIGIA PONER (XNFANY ALT H W. 10GTLE NUCLEAR PLANT

!                        BBCNTEL PONER CORPORATION SPECIFICATION I3AJ04 i

GBORGIA PONER PURCHASE ORDER PAV-3080 & PAV2-128 tl D3FRUMNT & SPECIALTY CABLE , . ITEM NtBSER: 103 & 203

  • CABLE CODE: CD67 i l

l DEE0RON PART NUteER: 1I74-60467-0 i POUR (4) PAIR OF SIITEIN (16) GalNN, SETIN (7) STRAND TINNED CSPPD CONDUC-i ! TORS WITH THIRTY (30) MIL ILP0 (CROSS-LINEED POL 10LIFIN) IITRUDE PRIMARY M3ULATION; COIAR CODE PER IPCIA S-19-81 PARAGRAPH 7.8.5.3 (out CONDUCTOR i 0F EACs pan COLOR C00ED =NRIfr AND TsE OTEER CONDUCTOR IN ACCORDANCE WITH T M SB00ENCE OF TB FIRST 21 CONDUCTORS GIVEN IN TABLE 5-2 OMITTING WHITE); l ' EACH PAIR TNISTED TOGETHER WITL' AN IIONTEM (18) GAUGE, SEVEN (7) STRAND TMND COPPER 3 RAM VIRE; EACE PAIR SEIELDED WITN A 0.85 MIL alt 4ENUM/ MYLAR TAPE MELD (255 OnRuP); EACs SEIELDD PAIR C0729 WITH A 1.5 MIL MYLAR l SEIE.D ISOLATION TAPE (255 OVERLAP); NDIVIDUALLT SHIELDED PAIRS CABLED 10-

 !                        OITER; FIVE (5 0) MIL SILICONE RUBBER FTarant au FIRERARRIER TAPE; A SIX-1                         TEEN (16) GAUGE, SEVEN (7) STRADD T NN E COPP D DRAIN WIRE; 1 7 MIL                                                                     I alt 3GNUN/ MYLAR /ALISt3UM TAPE SEIELD OVERALL (255 OVERLAP); SIITY (60) MIL
                       ~

BMCI (CMLOROSULP(3f ATE POLTETHYLDE) IITRUDE OUTER JACHT.

                                                              .\.-

I i MAXIMUM 0.D. 0 748 INCEES NET WEIGNT PER WT. 142.4 POUNDS I MINIMUM BINDING RADItB 4.488 INC ES l ! MAXIM M PULLN G TENSION 237.6 P0 NDS COEFFICIENT OF FRICTION 0.5 l 8,050 Fut t l MAIIm M COIL LENGTu A MIENT TBfERATURE RANGE -400C (-400P) 70 +90*C (+194 F) ' " -15'c (+5'F) i MIN'JWM INSIALLATION TEWERATURE

                                                                                                                      ~.

l ' T JACERT LEGEND: DEEORON 4 PAIR 16 ANG SEIELD S C067 EATON CORP. ! DEE0RON DIV. AURORA, 05. (TEAR OF WG) (LOT 30.) , O g (3800ENTIAL P00TAGE) , l - j 4 D 1 0F I SHEET _ j gg M AS @, PRODUCT DRAWING P&#T ### AP99. DATE i A4N995,00008 3-4-80 1I74-60467-0 l f 1WP

 ;                                                                 A t3 AJoy-r-/                                _
        -       CHANGES _--

1 f r GEW OIA PCNER 00N ANT ALYN W. V00TLE NUCLEAR PLANT 3llCETEL FONER CORPORATION SPECIFICATION X3AJ04 OR0RGIA POWD FURCHASE ORDER FAV-3080 & FAV2-128 . INSTRUDEWT & SPECIALTY CABLE ITEM NUDBER: 104 & 204 ' CABLE CODE: CR67 DEIORON PART NUDSER 1I74-60767-0 . SEVEN (7) FAIR OF SIITEEN (16) GAUGE, SEVEN (7) STRAND TIM E W PPER CONDUCTORS WITH THIRTY (30) MIL ILP0 (CROSS-LINEED POLYOLIFIN) EXTRU

PRIM &RY INSULATION: COLOR 000D PER IPCEA 3-19-81 FARAGRAFN 7.8.5.3 (

i- CONDUCTOR OF EACH FAIR COLOR CODD 'NNITE' AND THE OTHER CONDUCT  ! ACCORDANCE NITH THE SEQUN CE OF TNE FIRST 21 CONDUCTORS OIVEN H TABLE 5-2, j i OMITTING WHITE); EACE FAIR TMISTD TOGETER WITH AN EIGHTIEN (18) GAUGE, ' SEVEN (7) STRAND TMNED COPPER DRAN WIRE; EACH FAIR SEIE.DED WITH A 0.85 i MIL ALlatINUN/ MYLAR TAPE SEIELD (255 OVERLAF); EACE BRIELDD FAH COVER E VITH A 1.5 MIL MYLAR SEIELD ISOLATION TAFE (25% OVERLAF); INDIVIDUALLT , SEIELD E FAIRS CABLED TOGETHER; FIVE (5.0) MIL SILICONE RUBBER FIBER 0 LASS ! FIREBARRIER TAFE; A SIITMN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER

                  . DRAIN WIRE; 1.7 MIL ALUMMUN/ MYLAR / ALUMINUM TAFE SEIE12 OPDALL (255
                  '. 0VERLAF); SIITY (60) MIL BLACE (CELOROSULF0NATE POLTETETLENI) EXTRUDE                             G l

i OUTER JACEET. MAXIW M 0.D. 0.882 INCES NET NEIGHT FB WT. . 365.8 POUNDS 5 292 HCn3 [ MINIW M BENDING RADIUS 400.3 POUNDS MAXIMUM FULLUG TENSION COEFFICIENT OF FRICTION 05 5,350 FEET *

             -        MAIIMUM COIL LENGTH ADSIENT TEWERATINtB RANGE
                                                               -400C (-400F) TO +90*C (+194'F)                                               ;

MINIMUM INSTALLATION 79fERATURE

                                                               -15'c (+5*F)                                                                  <

l 7 E JACERT LEGEND: DEKORON 7 FAIR 16 AWO SEIELDED CR67 EATON CORP. . DEKORON DIV. AURORA, ON. (TEAR OF W G) (LDE

  • NO.)

h (SEQUENTIAL 700TAGE) , 4 g Q I 0F I l M E M AE @. PRocucT DRAWING APPO. DATE P A A f NO. lSMEET Awwe, M tyy 3 4 80 1I74-60767-0 A K sA Jog. 4. / - 1

o CMAMGE5_ GEORGIA PONER 00W ANY ALVIN V. V00TLE NUCLEAR PLANT l BECHTEL PO M R 00RPORATION 3FECIFICATION X3AJ04 CEORGIA PONER PURCNA3E ORDER PAV-3080 & PAV2-128 INSTRUMNT & SPECIALTY CABLE IBM NUMER: 105 & 205 , , i CABLE CODE: C168 f

                                                                                                                                                <    l
                                                                                                                                                !     l 1

i ,

'                         DEKORON PART NUDEBER:

1I62-68610-0 - I CNE (1) TRIAD OF SIITREN (16) GAUGE, 3EVEN (7) STRAND TINND COP i l l TORJ NITN THIRTY INSULATIOW; 00 LOR 00D D (30) MIL ILPO (CROSS-LINKED POLYO WITN AN EIGHTEEN (18) GAUDE, SEVEN (7) STRAND TINNED 00PP Di D e BLACE MYPALON (CMLOR03ULFONATE POLYETH I ' l 4 . l l 0 381 INQiES ! MAKIWM 0.D. 75.7 POUNDS l . NET WEIGNT PER MFT. 2.286 INCRES

  • MDIIWM SENDING RADIUS 74.8 POUNDS MAIIMUM PULLING TENSION 0.5 '

COEFFICIENT OF FRICIION 10,000 PERT

                   '                                                                             0 MAIIMUM COIL !al0TN                         -400C (-400F) 10 +90 C (+194'F)

AMIENT TEW ERATURE RANGE' -15 C (+50F) , MINIMUM INSTALLATION TEMF DATURE i JACKET LEGEND: DEKORON 1 TRIAD 16 AW SNIELDED C168 EATON CORP. DEKORON DIV. AURORA, ON. (YEAR OF WG) (LOT NO.) (SEQUENTIAL P00TAGE)

               -=

t 2 . i

I OF I

a $NEET_ g gg g g g PRODUCT DRAWING APPO. I i. Amove,Olile zvPl SATE 3-4-s0lPARTMO. 1x62-6 *

   -  ._                                      ._                                   _                                      __a

l

7. MANGES l 4-16-sn M 4/8
                                          % ,4.<an 1                                                                                                                                                 }

f

      . r       -

Il

        ;      GEORGIA POWD COW ANY ALVIN W. -V0GTLE NUCLEAR PLANT BECHTEL POWER CORPORATION SPECIFICATION K3AJ04 GEORGIA POWER PURCBASE ORDB PAV-3080 & PAV2-128                                                                                                                                   ,

INSTRUENT & SPECIALTY CABLE - ITEM NUMBER: 106 & 206 , CABLE CODE: C468 i i 1X84-60467-0 DEKORON PART NUMBER: 1 UC- , FOUR (4) TRIADS OF SIITEEN (16) GAUGE, SEVEN Y(7)OF STRAND TIN ' i TORS INSULATION; WITHCOLOR THIRTY CODED (30)PER MILIPCEA XLPO3-19-81 (CROSS-LINDD PARAGRAPH E OF POL 5.6.3 EACH TRIAD WHITE, ONE BLACE AND THE THIRD CONDUCTOR N PER IAD TABLE 5-2 OMITTING WHITE AND ERLAP); BLACE); EACE EACH , SHIELDED WITH A 0.85 MIL ALUMINUM / MYLAR TAPE SHIELD SHIELDED TRIAD COVERED WITH A 1.5 MIL N (7) MrLAR 3aI OVERLAP); INDIVIDUALLY SHIELDED E3IELD TRIADS e CA STRAND TINNED COPPER DRAIN WIRE; 1.7 MIL ALIDtINUM/ MYLAR /A O r ' OVDALL (255 OVERLAP); SIXTY (60) MIL BLACE BYPALON (CHLORl 05UL  : POLYETHYLENE) EXTRUDED OUTER JACEET. l 0.817 INCHES MAXIMUM 0.D. 306.7 POUNDS NET WEIGHT'PER W T. , 4.902 INCHES MINIMUM BENDING RADIUS ' 320.1 POUND 3 MAXIW M PULLING TENSION 0.5 COEFFICIENT OF FRICTION 6,450 FEET MAXIW M COIL LENGTH -40 C (-40 F) TO +90 C (+194 F)

     -               AWIENT TEMPERATURf RANGE                                       -15 C (+5 F)

MINIEM INSTALLATION TDfERATURE . . T JACET LEGEND: DRORON DEE0RON DIV. 4 TRIADS AURORA, 1608. AMG (YEAR SEIELDID OF MFG) (LOT C468NO.) GTON COR (SEQUENTIAL FOOTAGE) I(SA 304- A ~5 . k 1 I  ! ggggy_ _OF_ , a _ PRODUCT DRAWING g gg g g g, 5 Auvergs, Ohle 9 fi-so f"'1EBA-60A67-0 Hmo+ - e-s

 %.-  m..-           --,,--r,---e---vvw.y                              m--             -=. _---e      ---           - ----          e---    -- --- --                                       -
                                          ~            --                .        ._.   .    . _ _      _ .       - -_
  • CMANGES GEORGIA PONER (IHfANY ALV 3 W. V0GTLE NUCLEAR PLANT BECHTEL POWER CORPORATION SPECIFICATION I3AJ04 GEORGIA POWR PURCHASE ORDER FAV-3080 & PAY 2-128 INSTRUMNT & SPECIALTY CABLE ITEM NU MER: 107 & 207 -

CABLE CODE: C169 ' DEEORON PART NUMER: 1135-60462-0 ONE (1) QUAD OF SIITEM (16) GAUGE, SEVZN (7) STRAND TIIDIED COPPER CONDUCTORS WITH THIRTY (30) MIL ILP0 (CROSS-LINEED POLYOLEFIN) EXTRUDED PRIMARY INSU ATION COLOR (DDE: BLACE, WHITE, RE AND GREEN; CDNDUCTORS 1WISTE TOGETHER; 2 35 MIL ALIMINUM/ MYLAR TAPE SHIELD OVERALL (255 OVERLAF); A SIKTEEN (16) GAUGE, SEVEN (7) STRAND TIIDIE COPPM DRAIN WIRE; FIVE (5 0) MIL SILICONEd_ RUBBER FIBERGLASS FIRBARRIER TAPE; FORTY-FIVE (45) MIL BLACE HYPALON (CHLOROSULFCBIATE POLYETHYLENE) EITRUDE OUTER JACKET. MAXIMUM 0.D. 0.452 INCES j ,y p [ NET WEIGHT PER WT. 105 9 P00NDS// i MINIMUM BINDING RADIUS 2.712 INCHES MAIIM M PULLING TENSION 103 20 POUNDS j COEFFICIENT OF FRICTION 0.5 ' MAXI W M COIL L D GTH 10,000 FEET i AMRIENT TEMPERATURE RANGE -400C (-400F) TO +90 C (+194 F) MDIIEM INSTALLATION TEMPERATURE -15 C (+5'F) JACEET LEGEllD: DMORON 1 QUAD 16 AWO SHIELDED C169 EATON CORP. BEKORON DIT. AMORA, 08. (YEAR OF WG) (LOT NO.) (SEQMNTIAL FOOTAGE) T 3 S ' J, . Q I op I gggy g gg g g g, PRODUCT DF. AWING a , ohi. ~fe, l*i'l-80 1x35-60462-0 AX3AJoy- 9 / .

                - - ~ ~

t i . CHAM,ES GEORGIA POWER 00WANT ALVIN W. TOGTLE NUCLEAR PLANT i

                          ~BECHTEL POWER (I)RPORATION SPECIFICATION 13AJ04                                                                          !

GEORGIA POWER PURCHASE O D E PAY-3080 & PAV2-128 INSTRUW NT & SPECIALTT CABLE ITEM NUWER: 108 & 208 ' CABLE CODE: C469 i DEKORON PART NUWER: 1I90-9 POUR (4) QUADS OF SIITEEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER CONDUC-TORS WITH THIRTY (30) MIL ILP0 (CROSS-LINIID POLTOLEFIN) EXTRUDED PRIMARY INSULATION; 00 LOR CODD PER IPCEA S-19-81 PARAGRAPH 5.6.31 (ONE CONDUCTOR OF EACH QUAD WHITE, ONE BLACE, ONE RD AND THE FOURTH CONDUCTOR PER THE COLOR i SEQUINCE OF TABLE 5-2 OMITTING WHITE, BLACK AND RB); EAG QUAD TWISTE To-GETHER WITH AN EIGHTEEN (18) GAUGE, SEVEN (7) STRAED TINEED (X)PPER DRAIN i VIRE; EACH QUAD SHIELDED WITH A 0.85 MIL ALUNINIB(/MILAR TAPE SEIELD (255 OVERLAP); EAW SHIELDE WUAD COVERD WITH A 1.5 MIL MrLAR SHIELD ISOLATION TAPE (255 OVERLAP); INDIVIDUALLY SHIELDED QUADS CABLED TOGETHER; FIVE (5.0) MIL SILICONE RUBBER FIBERGLASS FIREBARRIER TAPE; A SIITIEN (16) GAUGE, SEVEN (7) STRAND TINNE COPPER DRAIN WIRE; 17 MIL ALI3tINUM/ MYLAR /ALI3tINUM TAPE SHIELD OVERALL (255 OVERLAP); EIGHTY (80) MIL BLAM BYPALON (CELOROSULFONATED (-

                        , POLTETETLENE) EITRUD D OUTER JACEET.

MAXIMUM 0.D. 0.947 INCHES NET WEIGHT PER WT. 430.1 POUNDS MINIMUM BENDING RADIUS - 5.682 INCHES MAXIM M PULLING TENSION 402 7 POUNDS COEFFICIENT OF FRICTION 0.5 MAXI W M COIL LENGTH 4,700 FIET

               -           AMBIENT TEMPERATURE RANGE                             -400C (-40*F) To +90oC (+194*F)

MINIWM IN5TALLATION TEMPERATURE -15'C (+5"F) JAMET LEGEND: DEIORON 4 QUADS 16 AWG SHIELDED C469 EATON CORP.

                    ;                            DEIORON DIV. AMORA, 08. (TEAR OF NG) (LOT NO.)-

g (SEQUENTIAL FOOTAGE) y n SMEET 1 0F 1 i SAMUE MOORE Alt CO. PRODUCT DRAWING APPD. DATE P ART me.

                !,                 Aurore, Ohle                             TvP   3-4-80             II90-9 AX 3A J04t- /0 ~/                                                   _
               ^
   .                   CHANGES l

I I GEORGIA POWER COW ANT l ALVIN W.10GTLE NUCLEAR PLANT 1 BECNTEL POWER CORPORATION SPECIFICATION Z3AJ04

GEORGIA POWER PURCHASE ORDER PAV-3080 & PAV2-128 '

l INSTRUENT A SPECIALTY CABLE ITEM NUISER: 109 A 209

  • CABLE CODE: C76
  • 4 j

DEKORON PART NUMBER: 1I35-60762-0 . SEVEN (7) 00NDUCTORS OF SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNE COPPER f WITH THIRTY (30) MIL ILPO (CROSS-LINEED POL 10LEFIN) EXTRUDE PRIMARY INS ]

 !                                ATION COLOR CODE: BLACE, WHITE, RD, GREEN, ORANGE, BLUE, AND WHITE WITH A BLACE TRACER (IPCEA 3-19-81 PARAGRAPH 5.6.31 MTBOD No.1); CONDUCTORS CABLE IOGETHER; 2.35 MIL ALIMINIM/ MYLAR TAPE SEIELD OVERALL (255 OVERLAP);

l A SIITIEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER DRAIN WIRE; FIVE (5.0)

~

MIL SILIMNE RUBBER FIBERGLASS FIREBARRIER TAPI; PORTY-FIVE (45) MIL BLACE # -

           '.                     RYPALON (CHLOR 05ULP0NATED POLTETETLENE) EITRUDED OUTEP JACKET.

l l l l 0.509 INCEES bMAXIWM0.D. 147.4 POUEDS NET WEIGHT PER MFT. MINIWM BENDING RADIUS 3 054 INCEES 165.1 POUNDS MAXIMUM PULLING TENSION CORFICIENT OF FRICTION 0.5 10,000 FEIT MAXIMUM COIL LENGTH AISIENT TEMPERATURE RANGE

                                                                                   -400C (-40'F) 70 +90 C (+194 F)

MINIMUM INSTALLATION TEN ERATURE

                                                                                   -150C (+50F)
               .---                 JACEET LEGEND:    DEKORON 7/C 16 AW SHIELDED C76 EATON CORP.                                                      ,

DEKORON DIV. AURORA, OH. (IEAR OF MFG) (LOT NO.) (SEQUENTIAL FOOTAGE) - T" S A I a 2 *

  • ME MRI AW W. PmODuCT DRAvinc !5"887 f APPO. PART#De Aween, OMe 3-4-s0 II35-60762-0 E

twP lDATE A X3AJO y-U- / .

   ~
  /,. -

CM M ES ,I GEORGIA POMR (INANY ALVIN W. V0GTLE NUCLEAR PLANT 4

                  - BBCVTEL POWER CORPORATION SPECIFICATION I3AJ04 GEORGIA'PO MR PURCHASE ORDER PAV-3080 & PAY 2-128         -

INSTRUMNT & SPECIALTY CABLE ITEM NUMER: 110 & 210 . CABLE CODE: CB6 DEKORON PART NUMER: 1I35-61262-0 TNELVE (12) CONDUCTORS OF SIITEEN (16) GAUGE, SITEN (7) STRAND TINNG 00 PPD WITH THIRTY (30) MIL ILP0 (CROSS-LINKED POLTOLIFIN) IITRODD PRIMARY INSUL-ATION 0014R (X)DE: BLACE, WHITE, RED, GREEN, ORANGE, BLUE, AND WHITE WITH . A BLACE TRAGR, RD WITH A BLACE TRACER; BIN WITE A BLAG TRACER, ORANGE 1 WITH A BLACE TRACER, BLUE WITH A BLACE TRACER; AND BLAG WITH A WHITE TRACER (IPCEA 3-19-81 PARAGRAPH 5.6.3.1 MTBOD NO.1); COEDUCTORS CABLE TOGETHER; 2 35 MIL ALIB(INtBt/ MYLAR TAPE SHIELD OVERALL (255 OVERLAP); A SIITEEN (16) GAUGE, SEVEN (7) STRAND TINMD COPPER DRAIN VIRE; FIVE (5 0) MIL SILICONE RUBBER FIBDGLASS FIREBARRIER TAPE; SIITY (60) MIL BLAM ETPALON (CELORO- 0 l SULF 0NATED POLYETHYLENE) EITRUDE OUTER JACEET. i MAII M M 0.D. 0.693 INCE S NET WEIGHT PER MFT. ! 249.0 PotRIDS i MINIMM BENDING RADIUS 4.158 INCRES . MAXIMUM PULLING TENSION 268.3 POUNDS C0 EFFICIENT OF FRICTION 0.5 MAIIMUM COIL LENGTH ~ 9,600 FIET l ABIENT TEN ERAftatt RANGE -400C (-40aF) To +90*C (+194 F) j MINIMUM INSTALLATION TEMPERATURE -15'C (+5*P) l l m JACKET LEGEND: DEE0RON 12/C 16 AWG SHIELDED G6 EATON CORP. l DEKORON DIV. AURORA, OH. (YEAR OF WG) (LOT NO.) l (SEQUENTIAL POOTAGE)

                                                                                       ?

l

        ,             .. -,. ai.                        PRDUCT D-                    I-DT       1 -   i l

i Aware,Ohle APPO. typ lDAfg34-solPA8tf880. 1I35-61262-0 Ay3A J04- /2-/ -

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  ,**       CHANGES GEORGIA POWER COW ANY ALVIN W. V0GTLE NUCLEAR PLANT
             - BECHTEL POWER CORPORATION SPECIFICATION I3AJ04 GEORGIA POWER PURCHASE ORDER PAV-3080 & PAV2-128 INSTRUENT & SPECIALTY CABLE ITDI NUMER:      111 & 211                                      ,

CABLE CODE: CE6 DEKORON PART NUMBER: 1I35-61962-0 NINETEEN (19) CONDUCTORS OF SIITEEN (16) GAUGE, SEYM (7) STRAND TINNE COPPER WITH THIRTY (30) MIL ILP0 (CROSS-LINEED POLYOLEFIN) EITRUDED PRIMARY INSULATION; COLOR COD E: BLACK, WHITE, RE , GREEN, ORANGE, BLUE, AND WHITE WITH A BLACE TRACER, RED WITH A BLACK TRACER; GtEEN WITH A BLACE TRACER, ORANGE WITH A BLACE TRACER, BLUE WITH A BLACK TRACER, BLACE WITH A WHITE TRACER, RE WITH A WHITE TRACER, GREN WITH A WHITE TRACER, BLUE WITH A WHITE TRACER, BLACE WITH A RE TRACER, WHITE WITH A RED TRACER, ORANGE WITH A R E TRACER, AND BLUE WITH A R E TRACER (IPCEA 3-19-81 PARAGRAPH 5.6.3 1 MTNOD NO. 1); CONDUCTORS CABLED TOGETHER; 2 35 MIL ALtamIUM/MrLAR TAPE l SHIELD OVDALL (25% OVERLAP); A SIITEEN (16) GAUGE, SEVEN (7) STRAND TINNED l COPPER DRAIN WIRE; FIVE (5.0) MIL SILICONE RUBBER FIBERGLASS FIREBARRIER IAPE; SIITY (60) MIL BLACK HIPALON (CHLOROSULPCNATE POLYETETLENE) EXTRUDED 6 j i ObtER JACEET. MAII M M 0.D. 0.797 INCES NET WEIGHT PER MFT. 355.9 POUNDS MINIMM BENDING RADIUS ' 4.782 INGES MAIIMUM PULLING TENSION 412.8 POUNDS COEFFICIENT OF FRICTION 0.5 MAXIMUM COIL LENGTH 6,850 FEET

      -        AMBIENT TEWERATURE RANGE                     -400C (-40'F) TO +90 C (+194 F)

MINIMUM INSTALLATION TEW ERATURE -15 C (+50F) T JACERT LEGEND: DEKORON 19/C 16 AWG SHIELDED CE6 EATON CORP. O DEKORON DIT. AURORA, 05. (YEAR OF WG) (IAT NO.)- h (SEQUENTIAL POOTAGE)  ? A [ R

          ~                                                                                                 1 I         0F i        5AMUE M0 ORE AIS W.                  PRODUCT DRAWING PARTNO.

5HEET APPO. DATE l Awore, Ohio wP 3-4-s0 1x35-61962-0 A X3Ato p/y ,

CHANGE 5__

            ~

g GEORGIA F0VER COMPANY ALVIN W. V0GTLE NUCLEAR PLANT BECHTEL POWER CORPORATION SPECIFICATION I3AJ04 GEDRGIA POWER PURCHASE ORDD PAV-3080 & PAV2-128 INSTRUMENT & SPECIALTY CABLE ITEM NUMBER: 112 & 212 ., CABLE CODE: CH3A DEKORON PART NUMBER: 1190-9 l TWO (2) CONDUCTORS OF TWELVE (12) GAUGE, SEVEN (7) STRAND TINNE THIRTY (30) MIL ILPO (CROSS-LINKED POLYOLEFIN) EXTRUDED PRIMARY INS BLACK AND WHITE; CONDUCTORS IWISTE TOGETHER WITH A POURTEEN l COLOR (DDED: (14) GAUGE, EEVEN (7) STRAND TINNED COPPER DRAIN WIRE; 0.85 MIL l A MYLAR SHIELD (255 OVERLAP); CABLED OVER THE (I)RE ARE TWENIT-TWO (2 TORS OF TWENTY (20) GAUGE, SEVEN (7) STRAND TINNE COPPER WITH TH MIL ILP0 (CROSS-LINKED POLIOLEFIN) EITREE PRIMART INSULATION; CX) LO BLACK, WHITE, RE, GREEN, ORANGE, BLUE, WHITE WITH A BLACK TRACER, BLACK WITH A WHITE TRACER, RED WITH A WHITE TRA GREEN WITH WHITE TRACER, BLUE WITH A WHITI TRACER, BLACK WITH A R WHITE WITH A RD TRACER, ORANGE WITH A rid TRACER, BLUE WITH A RE TR j R E WITH A' GREEN TRACER, ORANGE WITH A GREEN TRACER, AND BLACK FIRSTFIVE NO.1); TRACER (5.0) MIL AND RD SECOND SILICONE TRACER (IPCEA RUBBER FIBERGLASS FIREBARRIER S-19-81 PA TAPE

                  - (20) GAUGE, SEVEN (7) STRAND TINNE COPPER DRAIN WIRE;                                                4: - 1.7 MIL A
                  ' /ALIB(INUM TAPE SHIELD OVERALL (25$ OVERLAP); SIITY (60) MIL BLACK HY BLACK HYPALON (CHLOROSULFONATED POLTETHILENE) EITRUD y e 'p          t,.

l ,,7 p ,- 0 753 INCHES 9 til / i M 0.D. _ 458.4 POUNDS l ' NET WEIGHT PER MFT. 4 518 INCHES MINIlWM BENDING RADIUS 325.0 POUNDS MAXIMUM PULLING TENSION 0.5 C0 EFFICIENT OF FRICTION 7,844 PERT 0

       -              MAIIMUM COIL LINGTH                         -400C (-4g8F) TO +90 C (+194 F)

AMBIENT TElfERATURE RANGE -15 C (+5 F) MINIMUM INSTALLATION TEMPERATURE JACIET LEGEND: DEKORON 22/C 20 AWG 2/C 12 ANG SHIELDE CH3A T EATON CORP. DEKORON DIV. AURORA, 08. (TEAR _pF IfG) g . 5 (LOT NO.) (SEQUENTIAL P00TAGE) I 1 SHEET 0F_ -_ PRODUCT DRAWING g gg gg g @, APPO. DAfg P ART NO. 3-4-s0 1190-9

           !                    Auvers, owe               we 4 x3 A .loy- /V- /

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CMANGES GEORGIA POWER (IM*ANY ALVIN W. V0GTLE NUCLEAR PLANT l

                        'BECHTEL POWER CORPORATION SPECIFICATION 13AJ04                                           '

GEORGIA POWER PURCHASE ORDER PAV-3080 & PAY 2-128 INSTRUENT & SPECIALTY CABLE ITEM NUISER: 114 & 214 ' CABLE CODE: HL67 i DEEORON PART NUMBER: 1I02-65610-0 CNE (1) PAIR OF SIITEEN (16) GAUGE, TYPE TI (CDPPER/CONSTANTAN), SOLID PRE-MIUM GRADE CONDUCTORS WITH THIRTY (30) MIL ILPO (CROSS-LINEED POLYOLEFIN) 4 EITRUDE PRIMARY INSULATION; (IMAR (I)DD: BLUE (CDPPER LEG) R D (CONSTANTAN 12G) PER ANSI C96.1 STANDARDS; CONDUCTORS TWISTED TOGETHER VITH AN EIGHTEEN (18) GAUGE, SOLID TINNE COPPER DRAIN WIRE; 0.85. MIL ALIB(INUM/MILAR TAPE SHIELD (255 OVERLAP); FORTY-FIVE (45) MIL HTPALON (CELOROSULFONATE POLY-d::-- ETHYLENE) EITRUDE OUTER JACKET, 001AR CODD: BLUE PER ANSI C96.1 STANDARDS. MAXIMUM O.D. 0 347 INCHES

                      . NET WEIGHT PER W T.                             58.7 POUNDS MINIMUM BENDING RADIUS                      2.082 INCHES MAXIM M PULLING TENSION                      54.24 POUNDS 0.5 l                           COEFFICIENT OF FRICTION MAXIW M COIL LENGTH                          10,000 PEET AMBIENT TEMPERATURE RANGE                    -400C (-40'F) TO +900C (+1940F)

MINIW M INSTALLATION TEWERAftRE -15 C (+50F) ( ! JACKET LEGDID: DEKORON 1 PAIR 16 AWG TK SHIELDED EL67 IAT(31 CORP., DEKORON DIV. AURORA, 0E (TEAR CF WG) (LOT NO.) (SEQUENTIAL FOOTAGE) o ~

             .f 3

0 4 R .? I 0F I PR@UCT DRAWNG l$NEET

j. SAMUE MOORE AND CO. '

PARTNO. APPO. lDATE E Amers,Ohle 1XO2-65610-0

Tvr l3-4-s0 Ax3AJochtr / -

g-y CHANGES GEORGIA POWER COW ANY ALVIN W. 90GTLE NUCLEAR PLANT BECHTEL PONER CORPORATION SPECIFICATION 23AJ04 GEORGIA PONER PURCHASE ORDER PAV-3080 & PAV2-128 INSTRUMNT & SPECIALTY CABLE ITEM NUMBER: 115 & 215 CABLE CODE: 2 37 DRORON PART NUMER: 1I24-004F7-0

;                 POUR (4) PAIR OF TWENTY (20) GAUGE, TYPE TX (CDPPER/CMSTANTAN), SOLID PRE-
+

MIUM GRADE CONDUCTORS NITH THIRTY (30) MIL ILP0 (C3035-LINED POLYOLEFIN) IITRUDD PRIMARY INSULATION; COLOR CODE: BLUE (COPPER IJG) RE (CONSTANTAN IAG) PER ANSI C96.1 STANDARDS, WITH TE BLUE LEG OR EACH PAIR NUMBERED; EACH PAIR TWISTE TOGETED WITH A IWENTY (20) GAUGE, SOLID TIMED COPPER DRAIN WIRE; EACH PAIR SHIELDD WITH A 0.85 MIL ALIBEINUM/MILAR TAFE 3EIED (255 OVERLAP); EACH SHIELDED PAIR COVERED WITH A 1.5 MIL MILAR SHIELD ISOLATION

    .             TAPE (255 OVERLAP); INDIVIDUALLY SHIELDE PAIRS CELED TOGETHER; FIVE (5.0)

MIL SILICONE RUBBER FIBERGLASS PIREBARRIER TAPE; A TWENTY (20) GAUGE, SEVEN , (7) STRAND TINNE COPPER DRAIN WIRE; 1.7 MIL ALINGEt3f/MILAR/ALIBf!NUM TAPE l SHIELD OVERALL (255 OVERLAP); SIITY (60) MIL HTPALW (CELOROSULPONATE &

POLYETHYLENE) EXTRUDE OUTER JACEET, COLOR CODED
BLUE PER ANSI C96.1
              . STANDARDS.

MAIIM M 0.D. 0.624 IN GES NET WEIGHT PER MFT. 153 6 POUNDS MINI M M BENDING RADIUS ~ 3 744 INCHES MAIIMUM PULLING TENSION 106.0 POUNDS 00 EFFICIENT OF FRICTION 0.5 MAXIMtBt COIL LENG111 10,000 F ET

        -        AM IENT TEWERATURE RANGE                    -400C (-400F) TO +900C (+194 F)

MINIMtM INSTALLATION TEMPERATURE -150C (d oF) i JACHT LEGMD: DMORON 4 PAIR 20 AWG TI SHIELDED B37 E EATON CORP., DEEORON DIV. AURORA, 5 y (YEAR OF WG) (LOT NO.) (SEQUENTIAL POOTAGE) J, . u I I [ gg gg g g APPO. PRODUCT DRAWING DATE PART30. SMEET 0F l , Aurers, owe IwP 3-4-80 1124-004r7-0 A K3AJO V- /J-l

                                           =--               .

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     ,      CHANGE 5__

Revimion I 4-16-80 M # [ . I GEORGIA POWER COMPANY ALVIN W. V0GTLE NUCLEAR PLANT BECHTEL POWER CORPORATION SPECIFICATION I3AJ04 GEORGIA POWER PURCHASE ORDER PAV-3080 & PAV2-128 ' INSTRUMENT & SPECIALTY CABLE ITEM NUMBER: 116 & 216 ' CABLE CODE: GL67 1102-61610-0 DEKORON PART NUMBER: t ONE (1) PAIR OF SIITEEN (16) GAUGE, TYPE EI (CHROEL/CONSTANTAN DUCTORS WITH THIRTY (30) MIL ILPO (CROSS-LINEED PO INSULATION; COIDR CODE: PURPLE (CHROEL LEG) RED (CX)NSTANTAN LIG) PER . C96.1 STANDARDS; CONDUCTORS TWISTED TOGETHER WITH AN EIGHT i SOLID TINNED COPPER DRAIN NIRE; 0.85 MIL ALUMINUMe- /MILAR TAPE OVERLAP); FORTY-FIVE (45) MIL NYPALON (CHLOROSULPONATED POLTET EITRUDED OUTER JACKET, COIAR CODED: PURPLE PER ANSI C96.1 STANDARDS. 0 347 INCHES MAXIMUM 0.D. 58.7 POUNDS

                  - NET WEIGHT PER ffT.                         2.082 INCHES MINIMUM BENDING RADIUS                     54.24 POUNDS MAXIMUM PULLING TENSION                    0.5 l                     COEFFICIENT OF FRICTION                    10,000 FEET MAXIMUM COIL LENGTH                        -40 C (-40 F) 70 +90 C (+194 F)

AMBIENT TEMPERATURE RANGE -15 C (+5 F) MINIMUM INSTALLATION TEMPERATURE JACEET LEGEND: DEEORON 1 PAIR 16 AWG EK SHIELDED GL67 EATON CORP., DEEORON DIV. AURORA, OH i (YEAR OF MFG) (LOT NO.) (SEQUENTIAL POOTAGE) l

              ?
             .3                                                                      =

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              ~                                       FMCT NM                         WEET_

i SAMUE MOORE AIS CD. ^' 3-4-g0 "" 1102-61610-0 Aufers, O le g3p04-17-3

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          ,              CMAMGE5
        ,#                                                                                                                              1 l

l GEORGIA POWER CX)MANY ALV H W. V0GTLE NUCLEAR PLANT BECHTEL POWER CORPORATION SPECIFICATION 13AJ04 i GEORGIA POWER PURCHASE ORDER PAV-3080 & PAV2-128 l INSTRUMNT & SPECIALTY CABLE ITEM NUMER: 117 & 217 ,. CABLE CODE: 0037 t DEIORON PART NUMBER: 1124-004B7-0 FOUR (4) PAIR OF TWENTI (20) GAUGE, TYPE EE (CERGEL/CONSTANTAN), SOLID CON- , DUCTORS WITH THIRTY (30) MIL ILPO (CROSS-LHEED POLTOLEFIN) IITRUDE PRIMARY INSULATION; (I) LOR CODE: PURPLE (CHR00EL LEG) R D (CONSTANTAN LEG) PER ANSI C96.1 STANDARDS, WITH THE PURPLE LEG OF EAG PAIR NUDSERED; EAG PAIR TWISTED TOGETHER WITH A TWENTY (20) GAUGE, SOLID TDulE (BPPER DRAIN WIRE; EAG PAIR SHIELDE WITH A 0.85 MIL ALUMINUM / MYLAR TAPE SHIELD (255 OVERLAP); EACH SHIELDED PAIR CX)VERED WITH A 1.5 MIL MILAR SEIELD ISOLATION TAPE (255 OVER-LAP); INDITIDUALLY SHIELDED PAIRS CABLED TOGETER; FIYE (5.0) MIL SILICONE RUBBER FIBERGLASS FIRIBARRIER TAPE; A TWENTY (20) GAUGE, SEVEN (7) STRAND TINNE COPPER DRAIN WIRE; 1.7 MIL ALIMINUM/ MYLAR /ALIMINIM TAPE SEIE12 OVER-ALL (255 OVERLAP); SIITY (60) MIL HTPALON (CELOROSULFONATED POLYETHYLENE) e EXTRUDE OUTER JACEET, COLOR CODE: PURPLE P D ANSI C96.1 STANDARDS. MAXI W M 0.D. 0.624 H CERS NET WEIGHT PER MPT. 153.6 POUNDS MINI E M BENDING RADIUS 3 744 H GES MAXIMUM PULLING TENSION 106.0 POUNDS COEFFICIENT OF FRICTION 0.5 MAIIMUM CQIL LENGTH 10,000 FEET ABIENT TEW ERATURE RANGE -400C (-409) TO +900C (+1940F )

              ---==         MINIHLM INSTALLATION TEMPERATURE                               -15cc (+50F) i JACEIT LEGEND: DEIORON 4 PAIR 20 AWG EK SEIELDED 0037 j                   9 m                                              EATON CORP., DEIORON DIY. AURORA, OB E                                              (YEAR OF W G) (LOT NO.) (SEQUENTIAL P007 AGE)      .
                                                                                                             =

l 8 N b i e PRODUCT DRAWIGN SMEET I 0F 1 i SAMUR MOORE AIS CD.

                                                                              . ..        .m Auvers, Ohle
twP 3-4-80l.. 1124-004B7-0 A x.yAJ04/- ]f- / _ ___.
              ,     / CHANGES i

GEORGIA POWER COW ANY ALVIN W. YOGTLE NUCLEAR PLANT

                       . BECHTEL POWER CORPORATION SPECIFICATION Z3AJ04 GEORGIA POWER PURCHASE ORDER PAV-3080 & PAY 2-128                                '

IPSTRUENT & SPECIALTY CABLE ITEM NUMRR: 118 & 218 CABLE CODE: FL67 DEKORON PART NUM ER: 1X02-63610-0 ONE (1) PAIR OF SIITEEN (16) GAUGE, TYPE II (CHROFA/ALUEL), SOLID CONDUC-TORS WITH THIRTY (30) MIL ILPO (CROSS-LINEED POLYLLEFIN) EXTRUDE PRIMARY IN3ULATION; COIAR CODE: TELLOW (CHROEL LEG) RE (ALIM2, LEG) PER ANSI C96.1 STANDARDS; CONDUCTORS TWISTD TOGETHER WITH AN EIGHTEEN (18) GAUGE SOLID TINNE COPPER DRAIN WIRE; 0.85 MIL ALIMINtWMILAR TAPE SEIELD (255 OVERLAP); FORTT-FIVE (45) MIL HYPALON (CHLOR 05ULFONATED POLYETETLENE) e-EITRUDED OUTER JACEET, COIAR CODE: TELLOW PER ANSI C96.1 STANDARDS. MAXIMUM 0.D. 0 347 INCHES NET WEIGHT PER WT. 58.0 POUNDS

,                        MINIMUM BENDING RADIUS                        2.082 INCHES MAXI E M PULLING TENSION                      54.24 POUNDS COEFFICIENT OF FRICTION                       O.5 10,000 FEET MAXIMJM COIL LENGTH AMBIENT TEMPERATURE RANGE                     -400C (-400F) TO +900C (+194 F)

MINIE M INSTALLATION TEMrERATURE -150C (+50F) JACKET LEGEND: DEKORON 1 PAIR 16 AWG KI SEIELDG FL67

             ~                              EATCBI CORP., DEKORON DIV. AURORA, OH (TEAR OF W G) (LOT NO.) (SEQUENTIAL FOOTAGE)                            .
         ,      o S       E I'       T                                                                                  .

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i SAMUE MOORE AIS CO. PRODUCT DRAWING SHEET I 0F I ' E APPO. DATE P ART NO.

             ;                 Auvers, Chie                   TwP     3-4-80              '1x02-63610-0
        .         .                       .       -h.$.Y..          Y~ $~l             ..

4 [ ' - CHANGES-GEORGIA POWER COWANY ALV H W. 70GTLE NUCLEAR PLANT

                -BECHTEL POWER mRPORATION SPECIFICATION 13AJ04 GEORGIA POWER PURGASE ORDER PAV-3080 & PAY 2-128 INSTRUENT & SPECIALTY CABLE ITEM NINSER: 119 & 219 CABLE CODE: FY37 DEIORON PART NUISER:                   II24-013D7-0 THIRTEEN (13) PAIR OF TWENTY (20) GAUGE, TIPE II (CER0EL/ALIMIL), SOLID CON-DUCTORS WITH THIRTY (30) MIL ILPO (CROSS-LINEED POLTOLEFIN) IITRUDED PRIMARY H SULATION; COLOR CODD: YELLOW (CHROEL LEG) R D (ALtBIEL LEG) PER ANSI C96.1 STANDARDS, WITH TB YELLOW LEG OF EAG PAIR NIMIERD; EACH PAIR TWISTE TO-GETHER WITH A TWENTY (20) GAUGE, SOLID THNID WPPER DRAIN WIRE; EACH PAIR SHIELDE WITH A 0.85 MIL ALUMINUM / MYLAR TAFE SHIELD (255 OVERLAP); EACH SHIELDED PAIR WVERED WITH A 1.5 MIL MILAR SHIELD ISOLATION TAPE (255 OVER-LAP); INDIVIDUALLY SHIELDD PAIRS CABLED TOGETED; FIVE (5.0) MIL SILICONE RUBBER FIBDGLASS FIREBARRIER TAPE; A TWINTY (20) GAUGE, SEVEN (7) STRAND TINND COPPER DRAIN WIRE; 1.7 MIL ALUMINUM / MYLAR / ALUMINUM TAPE SHIELD OVER-ALL (255 OVERLAP); EIGHTY (80) MIL HYPALON (CELOROSULFONATED POLYETETLENE)
  • EXTRUDE OUTER JACKET, COLOR CODED: YELLOW P D ANSI C96.1 STANDARDS.

MAII W M 0.D. O.996 INCHES NET WEIGHT P D MFT. 421.9 P0pHDS MINIMJM BENDING RADIUS 5.976 H m ES MAXIMUM PULLUG TENSION . 326.4 POUNDS WEFFICIENT OF FRICTION 0.5 , MAXIMUM COIL LN GTH 4,250 FEET AISIENT TEN ERATURE RANGE -400C (-40*F) 70 +90 C (+194 F) MINDDI USTALLATION TEMPDATURE -15*C (+5 F) JACIET LEGEND: DEKORON 13 FAIR 20 AWG II SHIELDED FV37 - EATON CORP., DEKORON DIV. AURORA, OH 9 3 (YEAR OF W G) (LOT NO.) (SEQUENTIAL P00TAGE) - m

             .e                                                                                                                                +

Q I I 0F g

             ~

gg gg g g, PRODUCT DRAWING P AftT 100. SHEET APPO. Auvers, OM* lDAfg 3-4-s0 1124-013D7-0

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               ,                                                     w su              e wp eu n-w u wu w                                                                           3y0 Chang:s Bl - v EEGIA POWER C0iFANY                                                                                                                              .

ALVIN W. V0GTLE MELEAR PLANT

  • E04TEL POWER CCRP(RATION SPECIFICATION X3A234
  • ECRGIA POWER PLRCHASE OfER PAV-3080 & PAV2-128 INSTRLDENT & SPECIALTY CABLE ITEM MeeER: 120 CABLE CG)E: ES4D DEMORON PART M.46ER: 1X90-90105 GE (1) PAIR OF FOURTEEN (14) GAUGE, SEVEN (7) STRAec TIMED CGFER COPOUCTMS WITH THIRTY (30) MIL XLP0 (CROSS-LINKED P(LYOLEFIN) EXTRLCED PRIMARY INSLA.ATION APO SEVEN (7) PAIR OF EIGHTEEN (18) GAUGE, SEVEN (7) STRAPO TIMED COPPER CONOLETORS WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LIMED POLYOLEFIN)

EXTRLDED PRIMARY INSLA.ATION, COLCR CG)ED PER IPCEA S-19-81, PARAGRAPH 7.8.5.3 . (OPE CONOLETCR OF EAOi PAIR COL (R C(X)ED " WHITE APO ltE OTER COM1ETOR IN AO CRDANCE WITH THE SEQLENCE OF THE FIRST 21 CGOUCT(RS GIVEN IN TABLE 5-2  ; i OMITTING WHITE), If0IVIOUAL PAIRS TWISTED TOGETIER, GE (1) PAIR FOLRTEEN (14) GAUE CSF0 PENT TWISTED TO THRE (3) IfCH MAXIMM LAY AfC TE SEVEN (7) PAIR EIQiTEEN (18) GAUGE CG@0PENTS TWISTED TO A TWO (2) INCH MAXIMLM LAY, TWISTED PAIRS CABLED TOGETHER, MYLAR BAfRIER, FOLRTEEN-(14) GAUGE; $EVEN (7) STRAPO, TIpeED COPPER (RAIN WIRE, rl.7 MIL ALLMIMM/ MYLAR /ALLMIMM TAPE SHIELD OVERALL (25% DVER.AP), EIGHTY (80) MIL BLACK HYPAL(N (OL(ROSLLFG44TED PG.YETHYLEE) e

                                                 . EXTRLDED OUTER JACKET.

MAXIMLM OUTSIDE DIA>ETER .908 IMNES 327.8 POLAOS ET EIGHT PER WT. MINIMLM 800110 RADIUS 5.45 IfCHES MAXIR M PULLIPO TENSION 280.1 POLAOS COEFFICIENT F FRICTION 0.5 MAXIMLM COIL LENGTH 6,000 FEET U ApeIENT TEWERATLRE RANGE -40*C (-40%) to +90 C (+194 F) MINIRM INSTALLATION TDPERATLRE -15*C (+5 F)

           .                        .                 s                .      .

l JADET LEGEND: DEMRON POLYSET 1 PAIR 14 MG 7 PR 18 AWG SHIELED ES4D EATON AURCRA, CHIO (YEAR OF WG) (LOT 90.) (SEGLENTIAL.FOOTAE) Eaton Corporation ' 1 1 PRODUCT ORAWIDO Sheet Of Process Control Components Division Approved Date IPert No. a 1X90-90105  ;

                     }                             Aurora, Ohio                           gLA         11/30/84l                                                                                     "

ams cr=

          . c.. Changes BECHTEL POWER CORPORATION GEORGIA POWER COMPANY ALVIN W. VOCTLE NUCLEAR PLANT
                   .         SPECIFICATION NO. X3AJ04 CABLE CODE IM67 DEKORON PART NUMBER 1X24-602C8-001 IWO (2) PAIR OF SIXTEEN (16) AWG, SOLID JX CONDUCTORS WITH THIRTY (30)

MILS XLP0 PRIMARY INSULATION, COLOR CODED PER ANSI STANDARD, 0.85 MIL ALUMINUM / MYLAR PAIR SHIELD WITH EIGHTEEN (18) AWG SOLID TINNED COPPER DRAIN WIRE, 5.0 MIL SILICONE RUBBER FIBERGLASS FIRE BARRIER, SIITEEN (16) AWG SEVEN (7) STRAND TINNED COPPER DRAIN WIRE WITB A 1.7 MIL ALUMINUM /MYIAR/ ALUMINUM OVERALL SHIELD AND A PORTY-FIVE (45) MIL j HYPALON OUTER JACKET. & -

;                           JACKET LEGEND TO INCLUDE                                    .

MANUFACTURER NAME ~ YEAR OF MANUFACTURER 16 AWG 2 PAIR SHIELD IM67 SEQUENTIAL FOOTAGE MAXIMUM 0.D. 0.580 INCHES WEIGHT PER MFT. 150 POUNDS

                           ' MINIMUM BEND RADIUS 3.30 INCHES
                                                                                             ?
                                                                                             -?

Eaton Corporation Process Control Components PRODUCT DRAWBIG Sheet 1 Of I Division Approved Date Part No.

       }          Aurora. Ohio                      -

JEK g 8-9-82 1124-602C8-001

      % :ir>= g.,                                                                                                % .us.

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                .       Chang:s GEORGIA F0WER C(MFANY                                                                                           ~

ALVIN W. V0GTM NUCMAR FIANT BECMTEL F0ER CORPORATION SPECIFICATION 13AJ04 GEORGIA F0WER PURCHASE ORDER FAV-3080 & PAV2-128 INSTRUMElff & SPECIALTY CAB 12 CAB 12 CODE: C168

                 .                 ITEM #127                                                                                                                                               ,,,

DEIORON PART NUMBER: 1X62-68310-0 ONE (1) TRIAD OF SIITEEN (16) GAUGE, SEVEN (7) STRAND TIl0ED COFFER CONDUCTORS

  • WITE .IWENTY-FIVE (25) MIL XLP0 (CROSS-LINEED FOLTOLEFIN) EXTRUDED FRIMARY -: .

INSU1ATION; COLOR CODED: SIACK, WHITE AND RED; CONDUCTORS TWISTED TOGETHER  ; WITH AN EIGHTEEN (18) GAUGE, SEVEN (7) STRAND TINED CDPPER DRAIN WIRE; 0.85 MIL ALIMIIEJN/MYIAR TAFE SEIELD (25% OVERIAF); FORTY-FIVE (45) MIL BIACK l BYFAIDN (GLOROSUIJONA1ED FOLYETHYIKK) EXTRUDED OUTER JACEIT. C MAIIMIM 0.D. 0.377 INCRES NET WEIGHT PER MFT. 74.8 FOUNDS MINIMUM RENDING RADIUS 2.262 INCRES i i MAXIMUM FULLING TENSION 74.8 FOUNDS i . , , , , , ,, COEFFICIENT OF FRICTION 0.5 . ,

                                       . MAXIMUM COIL LENGTH                                                              10,000 FEET AMBIENT TEMPERATURE RANGE                                                        -40 C (-40*F) to +90*C (+194*F)

MINIMUM INSTALIATION TEMPERATURE -15'c (+5'F) JAMET IAGEND: DEEDRON POLYSET 1 TR 16 AWG"SRIELDED (CABLE CODE) EATON m s ., . . . - . AUROBA, ORIO (YEAR OF MFG) (IAT 30.)- .. . . .s . .

                                                                                                                                                                    ?

Eaton Corporation Pa00UCT DRAWING REVISED 1 1 Process Control Components M Of s Division A rowed Date 1 Part No. I  ; Aurora, Ohio (2 3/Jitjkfg/ 1x62-68310-0

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GEORGIA POWER COMPANY ALVIN W. V0GTIE NUCIAAR FIANT MCETEL POWER CORPORATION SPECIFICATION 13AJ04 GEORGIA POWER PURCEASE ORDER PAV-3080 & PAV2-128

                          -     INSTRUNENT & SPECIALTY CABLE
                              . CAB 12 CODE: C169
  • ITEM (128 DEMORON PART NUNBER: 1X35-60432-0 OE (1) QUAD OF SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER CONDUCTORS WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LINKED POLY 0LEFIN) EXTRUDED PRIMARY "

l INSU1ATION C01AR CODED: 31 ACE, WHITE, RED AND GREEN; COSUCTORS TWISTED TOGETHER; 2.35 MIL ALUMINUM /MY1AR TAPE SEIELD OVERALL (251 OVERIAP); A SIXTEEN l (16) GAUM, SEVEN (7) STRAND TINNED COPPER DRAIN WIM; FORTY-FIVE (45) MIL (' BIACK HYPAIDN (CMLOROSU170NATED POLYETHY12M) EXTRUDED OUTER JACEET. C l l MAXIMUM 0.D.

                                                                               -          0.427 INCEES NET WEIGHT PER MFr.                                 103.9 POUNDS MINIMUM SENDING BADIUS                              2.562 INCRES MAXIMUM FULLING TENSION                             103.20 POUNDS COEFFICIENT OF FRICTION                             0.5 MAXIMUM COIL LENGTH                                 10,000 FEET AMBIENT TEMPERATURE EANGE                           -40'C (-40'F) to +90*C (+194*F)

MINIMUM INSTALLATION, TEMPERATURE -15*C (+5*F) JACKET 1AGEND: DEEDRON POLYSET 1 QUAD 16 AWG SHIELDED (CABLE CODE) EATON .

                                                         .AUROBA, 0510 (YEAR OF MFG) (IAT NO.)
                ~               -   (
                                                       . (M QW NTIAL P00TAGE)

Eaton Corporation Pa0 DUCT DRAWING M VISED 1 1 Process Control Components Sheet Of a Division Ap rowed , Date Part No. Aurora, Ohio d, s/g 1135-60432-0

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  • COMPANY ALVIN W. V0GT12 NUCLEAR FIANT M WTEL PonER CORPORATION SPECIFICATION 13AJ04 MORGIA POWER PURCHASE ORDER PAV-3080 & PAV2-128 INSTRIRENT & SPECIALTY CABLE
                                    -CASIA CODE: CE6                   ~                                            -

2 TEM #129 4. p. DEKORON PART NUMEER: 1135-61932-0 ' MIIETEEN (19) COMUCTORS OF SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LINKED FOLTOLEFIN) EXTRUDED PRIMARY INSULATION; COLOR CODED: BIACK, WHITE, RED, GREEN, ORANGE, BLUE, AND WHITE

                                - WITH & BIACK TRACER, .MD WITH A 31AM TRACER; CREEN WITH A ELACE TRACER,                                                                              ;g..

ORANE WITH A BIACK TRA31, BLUE WITH A SLAM TRAGE, SIACE WITH A WHITE TRACER, RED WITH A WRITE TRACER, GREEN WI111 A WRITE TRAGE, BLUE WITH A WHITE TRAGE, RIAM WITH A RED TRACER, WHITE WITE A RED TRAGR, ORANGE WITH A RED TRACER, AND RLUE WITH A RED TRAGR (IPCEA S-19-81 PARAGRAPH 5.6.3.1 ISTHOD NO.

                                   .I); ColBUCTORS CAB 12D TOGETER; 2.35 MIL ALIBLIIEnt/ MYLAR TAPE SHIELD OVERALL (251 OVERIAP); A'SIETEEN (1.6) GAUGE, SEVEN (7)'STRAIID TINNED COPPER DRAIN                                                                              -

WIRE; SIXTY (60) MIL BIACK RYPALON (CEIARDSULFONATED POLYETHYLENE) EXTRUDED e OUTER JACEET. i i l

                                                                                                          .770 INCES ,
             ,                           - MAIDilRt 0.D. .. .            ,,, ,, ,    . . . ,                                                  ,,

NET WEIQtT PER MFT. 357.2 POURS MINIMitt SENDING RADIUS 4.620 INCES MAIIMlat PULLING TENSION 412.8 POUNDS 00 EFFICIENT OF FRICTION 0.5 nwat COIL 12NGTH 8,250 FEET AMBIElrf TEMPERATUM RANGE -40*C (-40*F) to +90'C (+194*F) -

           .         ...         : 5 ,t.MINIINRI INSTAL 1ATION. TEMPERATURE                             -15'c (+5',F)                 , ,,          , , . ,                        ,            ,

l i - l JAMET MGEND: DMORON POLYSET 19/C 16 AMG SEIELDED (CA314.00DE) EATON AURORA, OHIO (YEAR OF MFC) (IAT E0.)  ? ( (SEQUENTIAL FOOTAGE) { , Eaton Corporation PRODUCT DRAWING M VISED 1 1 Process Cuntrol Components Sheet Of I N. Approved Date l Pert No. Aurora, Ohio $7gd .7/.Fojtf 1135-61932-0

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                                   ~ ALVIN W. V0GT12 NUCLEAR FIANT BECHTEL POWER CORPORATION SPECIFICATION 13M04 GEORGIA POWER PURCHASE ORDER PAV-3040 & PAV2-128 INSTRUDENT & SPECIALTY CABLE

' CAB 12 CODE: CL67

                                     " ITEM 9130             -       -                                                 -                        -

eryi DEKORON PART NUMBER: 1152-68310-0 OBE (1) PAIR OF SIXTEEN (16) GAUGE, SEVEN (7) STRAND TIMMED COPPER CONDUCTORS WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LINEED POLYOLEFIN) EXTRUDED PRIMARY

!                                      INSUIATION; C01AR CODED: BIACE AND WHITE; CONDUCTORS TWISTED TOGETHER WITH AN EIGHTEEN (18) GAUGE, SEVEN (7) STRAMD TIMIED COPPER DRAIN WIRE; 0.85 MIL ALl2(IIRJM/ MYLAR TAFE SHIELD (25% OVERLAP); FORTY-FIVE (45) MIL SLACE MYPALON k                                                                  '

i- (CEIARDSULF0NATED POLYETHYLENE) EXTRUDED OUTER JACEET. i . 0.358 IIICRES ! . MAXIMUM 0.D. , l NET WEIGHT PER MFT. 59.5 POUNDS MINIMtti BEllDING RADIUS 2.148 IIICEIS

                          ~

MAXIMUM PULLING TENSION 54.2 POUNDS COEFFICIENT OF PRICTION 0.5

                                       m C0 11. 'IE N GTE - -
                                                                                                        . 10,000 PIET                  -

AMBIENT TEMPERATURE RANGE -40'C (-40*F) to +90*C (+194 F) MINIMUM INSTAL 1ATION TEMPERATURE -15'C (+5'F) JAMET IAGEND: DERORON POLYSET I PR 16 AUG SRIELDED (CABIA CODE) EATON .

                                                         . AURORA, OMIO (YEAR OF MFG) (IAT 110.)
                                *                         (sEquRNTIAll 700TAGE) ' -
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Eaton Corporation g ,ggg g PRODUCT DRAWIIIG REVISED g 1 Of 1

                #              DMolon                      .                 Approveo                   Oste          IPert No. 1E52-68310-0 J              Aurora, Ohio                                    % (42                    W,3999/l                                                                                ,

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GEORCIA POK R COMPANY ALVIN W. V0GTM NUCLEAR PLANT MWTEL POIER CORPORATION SPECIFICATION 13M04 GEORGIA POWER PURMASE ORDER FAV-3080 & FAV2-128 INSTRUIENT & SPECIALTY CABLE CABIE CODE: CM67 * ' ' ITEM #131 DEEORON PART IRINBER: 1X74-60237-0 TWO (2) FAIR OF SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COFFER CONDUCTORS WITH IVENTY-FIVE (25) MIL XLFO (CROSS-LINED FOLYOLEFIN) EXTRUDED FRIMARY INSU7ATION; COIAR CODED PER IFCEA S-19-81 FARAGRAPH 7.8.5.3 (ONE CONDUCTOR OF EACH FAIR C01AR CODED " WHITE" AND TM OTER CONDUCTOR IN ACCORDANCE WITH TM. SEQUENCE OF THE FIRST 21 CONDUCTORS GIVEN IN TABLE 5-2 OMITTING WHITE); EACH FAIR TWIS1ED TOGETHR WITH AN EIGHTEIN (18) GAUGE, MVEN (7) STRAND TINNED COFFER DRAIN WIRE; EAG PAIR SRIELDED WITH A 0.85 MIL ALWINUN/ MYLAR TAFE . SHIELD (25I OVERIAF); INDIVIDUALLY SRIELDED FAIRS CARIED TOGETHER; 1.0 MIL l MYIAR BIEER TAFE, A SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COFFER DRAIN

              .                         WIRE; 1.7 MIL ALIRLIIRRI/ MYLAR / alt 2tINUM TAFE SRIELD'0VERALL (252 OVERIAF);

FORTY-FIVE (45) MIL B1AM MYFALON (CRIAROSULFONATED FOLYETEYMNE) EXTRUDED & OU1ER JACKET. i l MAXIMlat 0.D. .564 INCHES

                                            '? MET WEIET PER MFT.'*                       131.3 POUNDS MINIMtB( M EDING BADIUS                    3.384 INCHES MAEIMUM FULLING TENSION                   129.1 FOUNDS COEFFICIENT OF FRICTION                   0.5 MAIDEN ( COIL LENGTE                       10,000 FUT AMBIENT TEMPERATURE RANGE                  -40*C (-40*F) to +90*C (+194 F)

MINIMDM INSTALIATION TEMPERATURE -15'c (+5'F)

           ..     .a         ....              . i. , . . .       ...-    ...  -

JAMET IAGEND: DEEOROM F0LYSET 2 FR 16 AUG SEIELDED (CABLE CODE) EATON AURORA OMIO (YEAR OF MFC) (LOT NO.) 3 ( MquBNTIAL FOOTAGE) y , 0 h g, Fa0 DUCT DRAWING M VISED sheet i Of 1 1x74 4 237-0 l ror Ohio d. /Ef/ ~" wou=f= A @g- g -/

            , Chang:s M ORGIA POWER COMPANY ALVIN W. V0GTLE NUCLE 41 PIANI                                                .

BECMTEL PotER 00RPORATION SPECIFICATION X3AJ04 ) GEORGIA POWER PURGASE ORDER PAV-3040 & PAV2-128 INSTRIASNT & SPECIALTY CASIX

                  .       CAS12 CODE: C067                                                                                                          '
                     .. ITEM #132                                                                        .                           .

i I i 1 M EORON PART NUMBER: 1X74-60437-0 FOUR (4) PAIR OF SIXTEEN (16) GAU2 , SEVEN (7) STRAND TIMMED COPPER CONDUCTORS WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LINEED POLYOLEFIN) EXTRUDED PRIMARY INSULATION; COL 0R CODED PER IPCEA S-19-81 PARAGRAPH 7.8.5.3 (ONE CONDUCTOR OF

                         .EACE PAIR COLOR CODED " WHITE" AND THE OTHER CONDUCTOR IN ACCORDANCE WITH THE                                           ,

SEQUENCE OF THE FIRST 21 CONDUCTORS GIVEN IN TABIA 5-2 OKITTING WHITE); EACH PAIR TWISED TOGETHER WITM AN EIGRTIEN (IS) GAUGE, SEVEN (7) STRAND TINNED COPPER DRAIN WIRE; EAN PAIR SEIELDED WITH A 0.85 MIL ALWIIBM/ MYLAR TAFE - SHIELD (25I OVERIAP); INDIVIDUALLT SEIELDED PAIRS CASIAD TOGETHR; 1.0 MIL MY1AR SIIBER TAPE, A SIKTEEN (16) GAUGE, SEVEN (7) STRAND TIlOED COPPER DRAIN.

     .                   WIRE; 1.7 MIL ALMIIRM/MYIAR/ ALIMIN3( TAPE SEIELD OVERALL* (25I OVERIAP);
  • SIXTY (60) MIL RIam (CELORDSUIJONATED POLTETNTLEM) EXTRUDED OUTER JACKET.&-

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                                . MAXIMUM 0.D.                            O.706 INGES IET WEIGHT PER MFT.                     233.4 POUNDS WINIMtM SEIIDIllG BADIUS'               4.236 INCMES MAIIMUM PULLIIIG TENSION                237.6 POUNDS COEFFICIElff OF FRICTION                0.5 MAIIMIM COIL IANGTH                     10,000 FEET ANSIElff TEMPERATURE RANCE              -40*C (-40*F) to +90'c (+194 F)

MIllIMIM INSTALIATION TEMPERATURE -15'c (+5'F)

  =

l .4 c. s A ,f . s. . .* . . JamIT 12GEllD: IIEEORON POLYSET 4 PR 16 AUG SEIELMD (CARIA 000E) EATON AURORA, 0510 (TEAR OF MFG) (LOT NO.) 3 (SEQLENTIAL FOOTAGE) - f O I g, P30 DUCT DRAWING REVISED ghegg 1 Of

Division Ap owed Dat9 s Part No 1174-60437 } Aurora, Ohio ef(2 F/Sydf7
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McRCIA POWER CGtPANY ~ ' ' ' ALVIN W. V0GTE NUCLEAR PMNT BESTEL POWER CORPORATION SPECIFICATION 23AJ04 S.ORGIA POWER PURGASE ORDER PAV-3040 & PAV2-128 INSTRUMENT & SPECIALTY CABIZ CASIA CODE: GL67 ITEM #133 . DEKORON PART NUMBER: 1102-61310-0 OIE (1) PAIR OF SIXTEEN (16) GAUGE, TYPE EX (CHRONEL/CONSTANIAN), SOLID CONDUCTORS WITE TWENTY-FIVE (25) MIL XLP0 (CROSS-LINKED POLYOLEFIN) EXTRUDED

                               ' PRIMARY INSULATION; ODIAR CODED: PURPLE (CERONEL IAG) RED (CONSTAirIAN LEG) FER                                                  -

ANSI C96.1 STANDARDS; ODMDOCTORS TWISTED TOGETHER WITE AN EICETEEN (18) GAUGE i SOLID TIIAED COPPER DBAIN WIRE; 0.85 MIL ALittINUN/MYuR TAFE SHIELD (25% OVERMP); PORTY-FIVE (45) MIL MPAIAN (CMLORDSULF0NATED POLYETHYLENE) EXTRUDED #e- )- ) OUTER JAMET, COLOR CODED: SIACK. l *..

                                     .            ~                                                      ,

MAXIMUM 0.D. 0.342 IMOIES ET WEIGHT PER MFT. 56.9 POUNDS l l MINIMUN BENDING RADIUS 2.052 INCES I MAXINUM PULLING TENSION 54.24 POUNDS

        -*                      n       CDEFFICIENT 4F FRICTION           -                  0 . 5 . .. , . . . ..      ..

MAXINUM COIL 12NGTH 10,000 PEET AMBIENT TEMPERATURE RANGE -40'C (-40'F) to +90*C (+194 F) MINDRM INSTALMTION TEMPERATURE -15'c (+5'F)

                                 -JA MET 12GEND: DEEORON POLYSET 1 PR 16 AWG EX SRIELDED (CASLE CODE) EATON
     -          &              c....,               .. Ana0RA, 0510 (YEAR OF MFG) (147.30.)                         .       ,

(SEqusNTIAL Pc0TAGE) 3 Eaton Corporation Pa0 DUCT DRAWING REVISED 1 1 Procoes Control Components Sheet Of s Division Approm o.t. E I Aurora, Ohio y 42 -Vap/gy l Pan No.1102-61310-0 gg gg,,gg j.

                                                                                                                                                 ~""

('l ,; Changes GEORGIA POWER COMPANY ALVIN W. V0GT12 NUCLSAR PLANT BEG 1EL POWER CORPORATION SPECIFICATION X3AJ04 GEORGIA POWER PUR GASE ORDER PAV-3080 & PAV2-128 INSTRUDENT & SPECIALTY CABLE CAB 12 CODE: EL67 ITEM #134 , , , , , , , DEEORON PART NUMBER: 1X02-65310-0 ! ole (1) PAIR OF SIX1EEN (16) GAUGE, TYPE TX (COPPER /CONSTANIAN), SOLID PREMIUM GRADE CONDUCTORS WITH TWENTY-FIVE (25) MIL XLFO (CROSS-LINEED POLYOLEFIN) EXTRUDED PRIMARY INSUIATION; C014E CODED: BLE (COFFER 12G) MD (CONSTANTAN < LEG) PER ANSI C96.1 STANDARDS; CONDUCTORS TWISTED TOGETMER WITM AN EIGHTEEN (18) GAUGE, SOLID TIltlED COPPER DRAIN WIRE; 0.85 MIL ALIDtIIRIM/ MYLAR 1 APE SRIELD (25I OVERIAP); FORTY-FIVE (45) MIL MYPAIAN (CHLOBOSULFOMATED & FOLYETNYLEIE) EXTRUDED OUTER JACEET, C01DR CODED: 5 LACE. t

                                                                            ,                                  . T.                  -

MAXIMUM 0.D. 0.342 INCEES l l E T WEIGHT PER MFT. 56.9 FOUNDS MINIMIDI BENDING RADIUS 2.052 INCMES MAXIM 12t FULLING IENSION 54.24 FOUNDS

                                  .    . 0DEFFICIEart OF FRICTION                                            0.5      ,.                .  .                  . .. ..

MAXIM 12t COIL 32NGTH 10,000 FEET AMBIElrI TEMPERATURE RANGE -40*C (-40*F) to +90*C (+194 F) MINIMUM INSTALLATION TEMPERATURE -15"C (+5*F)

                        -           JAMET 12GEND: DEKORON FOLYSET 1 FR 16 AWG T1 SRIELDED (CABLE CODE) EATON
. w . ~. - . . , w t .:ADB0aA, 0510 (YEAR OF MFG) (IAT NO.) . . . .

(SEQUENTIAL FOOTAGE)

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Eaton Corporation 1 l Process Control Components FAODUCT DRAWING REVISED Sheet 1 Of . J Division A rovea ost, IPart No.

                 }            Aurora, Ohio                                                 Q            3/JD/gyl                          1x02-65310-0 m wm oe                                                                                                                                                            *~ a n

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                 .                 EmGIA P0tER COWANY ALVIN W. V0GTLE NLCLEAR PLANT BECHTEL P0bER CmPmATION SPECIFICATION X3A304 GEORGIA POWER PURCHASE Of0ER PAV-3000 & PAV2-128 INSTRLDENT & SPECIALTY CABLE ITEM NUMBER: 1 25
                              ' CABLE CCDE: IM67 arr CENm0N PART MD6ER: IX24-60277-00                                                                                      .

TWO (2) PAIRS OF SIXTEEN (16) GAUCE, SOLID TYPE JX (IRON /CONSTANTAN) CONOLETORS WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LIteED POLYOLEFIN) TYPE BE-8 EXTRLDED PRIMARY IN5LA.ATION; EAm PAIR COLOR CCDED: WHITE (POSITIVE IRON LEG)' APO ED (PEGATIVE, CONSTANTAN LEG) PER ANSI STApOAROS Af0 MbeERE0; EACH PAIR l OF INSLLATED COrOUCTmS TWISTED TOGETHER WITH AN EIGHTEEN (18) GAUGE SOLID tit #ED COPPER DRAIN WIRE; EAm PAIR SHIELIED WITH A 0.85 MIL ALLMIMM/ MYLAR TAPE SHIELD (252 OVER.AP); ISOIVIOUALLY SHIELDED PAIRS CABLED TOGETER; 1.0

                                . MIL MYLAR BItOER TAPE: A SIXTEEN (16) GAUGE, SEVEN, (7) STRAPO TIP#EC COPPER                                        ,

ORAIN WIRE; 1.7 MIL ALLMIMM/ MYLAR /ALLMIMM TAPE SHIELD DVERALL (252 DVERLAP); A FORTY-FIVE (45) MIL BLACK HYPALON (Ot.OROSULf0NATED POLYETHYLEE) EXTRLOED c OUTER JACKET. l t MAXIMLM OUTSIDE DIMETER .564 IICHES NET WEIGiT PER WT. 131.3 POLAOS

                                       ' MINIPLM EEf0IPO RADIUS                              3.384 IPCHES MAXIDLM PULLING TENSION ~                           129.1 POUPOS COLFFICIENT OF FRICTION                             0.5 MfDIMM COIL LENGTH                                  10,000 FEET U

AMiIENT TEWERATURE RANGE -40 C (-40 F) to +90 C (+194 F) MIhIMM INSTALLATION TEWERATLRE -15 C (+5 F) i JADET LEGDO: DEMORON POLYSET 2 PAIR 16 AWG JX SHIELDED,(CAELE CEE) EATON AURMA, ONIO (YEAR OF WG) (LOT 90.) (SEEENTIAL FOOTAGE) Eaton Corporation . Process Control Components PRODUCT ORAWIts Sheet 1 Of 1 s Division Approved Date IPert No. l Aurora, Ohio JLA 1x24-60277-00

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ECRGIA POWER CCNANY ~ ALVIN W. V0GTLE NLELEAR PLANT ECNTEL POWER CSPEATION SPECIFICATION X3A304 EORGIA POWER PL204ASE Of0ER PAV-3080 & PAV2-128 INSTRLMNT & SPECIALTY CABLE

                                    - CABLE CCDE: CR67 ITEM fG GER: #                                                                                              .7.

I EKORON PART POGER: 1X74-60737-0 i

!                                          SEVEN (7) PAIR OF SIXTEEN (16) GAUGE, SEVEN (7) STRAPO tit @ED COPPER CX)NOLETORS WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LI*ED POLYOLEFIN) TYPE 8E-8 EXTRLDED PRIMARY INSULATION; COLOR CODEO PER ICEA S-19-81 PARAGRAPH 7.8.5.3 .: .

(OE (1) COMXETCR OF EACH PAIR COLOR CCDED " WHITE" MO TE OTHER C0f0

;                                         ACCCRDAPCE WITH THE SEQLEPCE OF THE FIRST TWENTY-0E (21) C0pOUCTCRS GIVEN IN TABLE 5-2 OMITTING WHITE); EACH PAIR OF INSULATED COMACTCRS TWISTED TOGETHER.

WITH AN EIGHTEEN (18) GAUE, SEVEN (7) STRAPO tit #ED CCFPER CRAIN WIFE, EACH PAIR SHIELDED WITH A 0.85 MIL ALLMIP4M/ MYLAR TAPE SHIELD (252 DVERLAP) j

                     -                    IPOIVIOUALLY SHIELED. PAIRS CABLED TOGETHER,1.0 MIL MYLAR 81f0ER TAPE, A                                .

i - SIXTEEN (16) GAUGE, SEVEN (7) STRAPO TIpef.D CX)PPER ORAIN WIRE; 1.7 MIL I ALLMIPOM/ MYLAR /ALLMIMM TAPE SHIELD OVERALL (252 DVERLAP); A SIXTY (60) MIL BLACX HYFALON (CHLCROSULFONATED POLYETHYLEE) EXTRLCED OUTER JACKET. e 1 MAXIMLN OUTSIDE DIA>ETER' O.820 IICHES NET WEIQiT PER MFT. 344.1 POUNDS

                                                 'MINIMLM BDOING RADIUS                           4.92 IPCHES MAXIttM PULLING TENSION                         400 POUPOS COEFFICIENT OF FRICTION                         0.5 MAXIMLN COIL LENGTH                             7,900 FEET U                     0 A>6IENT TDFERATLSE RANGE                        -40 C (-40 F) to +90 C (+194 F)
                          '                  '                                                                      0
                                                                                                  -15 C (+5 F) -
                                                 "MINIntM INSTALLATION TDFERATLRE JACXET LEGDO: DENCRON POLYSET 7 PR 16 AWG SHIELDED (CABLE CCDE) EATON AURCRA, CHIO (YEAR OF DFG) (LOT NO.) (SEQENTIAL FOOTAGE)
Eaton Corporation PRODUCT ORAWING 1 1 Process Control Components Sheet Of f Division . Approved Date Port No.

Aurora, Ohio JLA 10/2/84 1X74-60737-0

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EmGIA POER COFANY ALVIN W. V0GTLE MILEAR PLANT BECHTEL POER CmPWATION SPECIFICATION X3AJ04 GEmGIA POWER PLRCHASE Of0ER PAV-3000 & PAV2-128 INSTRt4ENT & SPECIALTY CABLE

               - ITEM MMEER: 106 & 206 CMLE CCDE: C468                                                                                     ,,

EKORON PART NJteER: 1X84-60437-0 FOUR (4) TRIADS OF SIXTEEN (16) GALA'd, SEVEN (7) STRAiO TIteED COPPER CDNOLETES WITH TWENTY-FIVE (25) NIL XLP0 (CROSS-LIP 4ED PG.YOLEFIN) TYPE 8E-8 . l EXTRLDED PRIMARY INSLAATION; COLOR CCDED PER IPCEA S-19-81 PARAGRAPH 5.6.31) OE CONDLITm 0F EACH TRIAD WHITE, OE BLACK Af0 TE THIfC CopOLETm PER THE

f. COLE SEQLEPCE OF TABLE 5-2 CNITTIto WHITE APO B.ACK); EACH TRIAD TWISTED TGIETHER WITH AN EIGiTEEN (18) GAUGE, SEVEN (7) STRADO TIpeED COPPER ORAIN WIRE; EACH TRIAD SHIELDED WITH A 0.85 MIL ALLMINJWNYLAR TAPE SHIELD (255 '

DVERLAP); IPOIVIOUALLY SHIELDED TRIADS CABLED TOGET$3L: 1.0 MIL MYLAR'BIPOER i TAPE; A SIXTEEN'(16) GAUGE, SEVEN (7) STRAP 0 tit #ED CmPER DRAIN WIRE; 1.7 MIL ALLMIMM/ MYLAR /ALLMIMM TAPE SHIELD OVERALL (255 OVERLAP); SIXTY (60) NIL BLACX HYPALON (CHL30SLLF(NATED PCLYETHYLEE) EXTRLDED GJTER JACKET. C MAXIMUM OUTSIDE DIAETER .770 INDES ET WEIGHT PER WT. 300 POUPOS MINIMM BENDING RADIUS . _ 4.62 IPOES MAXIKM PULLIto TENSION 320 POUPOS COEFFiCIENTOFFRICTION 0.5 MAXIMM COIL LENGTH 6,000 FEET 0 U Ap6IENT TEW ERATLSE RANGE -40 C (-40 F) to +90 C (+194 F) 8 MINIMM INSTALLATION TD@ERATLRE -15'C (+5 F) P JACMET LEGDO: DOGON PG.YSET 4 TRIADS 16 AWG SHIELDED (CABLE'CCDE) EATON AURORA, CNIO (YEAR OF WG) (LOT 90.) (SEQtENTIAL FOOTAGE) Eaton Corporation Process Control Components PRODUCT ORAWING sheet 1 Of I YL Y/2/84 1X84-60437-0 l or Ohio A)(3A30*l-54-l -

                                                                                                                 -    ~ "" \
                                                                                                      ~     ~

d,516 Ry3AJ04-5(o-l -

                                                                                                                    ~ oof~ l
     ^

Chang:s d EGtGIA POER CSFANY ' ALVIN W. V0GTLE MELEAR PLANT E01TEL POWER CmPGLATION SPECIFICATION X3AXM EGtGIA POER PtRO4ASE (NCER PAV-3000 & PAV2-128 - INSTRLSENT & SPECIALTY CABLE

                      . ITEM N.NER: 10P                                                                                     ;

4ABLE CG)E: C76 ww i 1 EKORON PART MMIER: 1X35-60732-002 SEVEN (7) COPOUCTSS OF SIXTEEN (16) GAUGE, SEVEN (7) STRAPO TIl#ED C&PER CONOLCTORS WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LIPSED POLYQ.EFIN) TYPE 8E-8 EXTRLEED PRIMARY INSLLATION; CG.m CGED SLACK, WHITE, RED, GMEN, MAMIE, ELE APO WHITE WITH BLACK TRACER (IPCEA S-19-81, PARAGRAPH 5.6.3.1, ETHCD 1), COPOUCTGLS CABLED TOGETHER, 2.35 MIL ALLMIMM/ MYLAR TAPE SHIELD DVERALL (255 j OVERLAP), A SIXTEEN (16) GAUGE, SEVEN (7) STRAPO TDeED CWPER ORAIN WIRE, i FGtTY-FIVE -(45) MIL ELAO( HYPALON (CHLGtOSLLFONATED PS.YETHYLDE) EXTRLDED 6 i ' ' 0UTEitJACKET. - 4 l

                              . MAXIMLM OUTSIDE DIAPETER                .481 DCHES
                 /              NET EICHT fER WT.                     144 POLDOS MINIMLM SDOIPC RADIUS                 2.89 DCHES MAXIMUM PULLING TENSION               165 POUPOS COEFFICIENT F FRICTION                0.5 MAXIMUM COIL LENGTH              -

10,000 FEET 0 U AteIENT TDfERATLf4E RANGE -40 C (-40 F) to +90 C (+194 F) 0 MINIMLM INSTALLATION TDPERATLRE -15 C (+5 F) { JADET LEGDO: , DEKMON POLYSET 7/C 16 AWG SHIELED C76 EATON AURGIA, (HIO (YEAR F WG) (LOT NO.) (SEQLENTIAL F00TAE) Eaton Corporation

  • Process Control Components PRODUCT TRAWIPC Sh##l I Of I
         ;          DMalon                         -

Approved oste [ Port No.

         }          Aurora, Ohio                        JLA        11/30/84 I                IX35-60732-002 e wme om,                                                                                                 - usn Ii

95l0 R>c5AToc-5N ool.

 . .          Changes EmGIA POER CGPANY ALVIN W. VNITLE DUCLEAR PLANT BECHTEL POWER CSPEATION SPECIFICATION X)A2M EmGIA POWER PLSCHASE 20ER PAV-3080 & PAV2-128 INSTRUENT & SPECIALTY CABLE .

ITEM MDGER: 121

                ~ CABLE CGE:       IL67                                                                   ..

DEKORON PART PODGER: 1XO2-62310-004 OPE (1) PAIR OF SIXTEEN (16) GAUGE, TYPE JX (IRON /CONSTANTAN) SOLID COMXETORS WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LIMED POLYOLEFIN) EXTRLDED PRIMARY INSLLATION; COLm CG)ED WHITE (IRON LEG) APO RED (CONSTANTAN LEG) PER ANSI C96.1 STAPOARDSl CONOUCTORS TWISTED TOGETHER WITH AN EIGHTEEN (18) GALGE, SOLIO TIP0ED COPPER ORAIN WIRE, 0.85 NIL ALLMIMM/ MYLAR TAPE SHIELD (255 OVERLAP) FETY-.FIVE (45) MIL HYPALON (CM.OROSULFONATED POLYETHYLEE) EXTRLIED

  • OUTER JACMET, COLm CEED ELACK.

MAXIMM UTS5'OE DIADETER, .

                                                                    .342 IPOES             -

ET WEIGHT PER WT. 57 POUM)S MINIMM BEPOING RADIUS 2.05 IPOES [ MAXIMLM PALLIto TENSION 54.24 POLDOS COEFFICIENT CF FRICTION 0.5 MAXIMLM COIL LEPOTH . 10,000 FEET U A>61ENT TDFERATLAE RANGE -40 C (-4d"F) to +90 C (+194 F) 0

                      / MINIMM INSTALLATION TDFERATLRE              -15 C (+5 F)

JAmET LEGEM): (EKm0N POLYSET 1 PR 16 AWG JX SHIELDED IL67 EATON AURORA, OHIO (YEAR OF >FG) (LOT NO.) (SEQLENTIAL FOOTAGE) I Co o h Division b PRODUCT ORAWING Approveo ost. ghoet 1 Of I s Pen No.

       }       Aurora, Ohio                          JLA          11/30/84            1XO2-62310-004 e., . m. <> ,                                                                                          wsa e

9570-AX3R00Y-{ph { 0b/ n2 .-. .. _ ... . . l GEORGIA POWER COMPANY i ALVIN W. V0GTLE NUCLEAR PLANT l BECHTEL POWER CORPORATION SPECIFICATION X3AJ04 GEORGIA POWER PURCHASE ORDER PAV-3080 & PAV2-128 INSTRUMENT & SPECIALTY CABLE CABLE CODE: 138 ITEM C16 s' ' DEKORON PART NUM8ER: 1X35-60732-002 [C )( { . SEVEN (7) CON 00CTORS OF SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER CONDUCTORS WITH TWENTY-FIVE (25) MIL XLP0 (CROSS-LINKED POLYOLEFIN) TYPE 8E-8 EXTRUDED PRIMARY INSULATION; COLOR CODED BLACK, WHITE, RED, GREEN, ORANGE, BLUE AND WHITE WITH BALCK TRACER (IPECA S-19-81), PARAGRAPH 5.6.3.1, METHOD 1), CONDUCTORS CABLED TOGETHER, 2.35 MIL ALUMINUM / MYLAR TAPE SHIELD OVERALL (25% OVERLAP), A SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER DRAIN WIRE, FORTY-FIVE (45) MIL BLACK HYPALON (CHLOROSULFONATED POLYETHLENE) EXTRUDED OUTER @ JACKET. 5 [ MAXIMUM 0.D. .481 INCHES ' NET WEIGHT PER MFT. 144 POUNDS MINIMUM BENDING RADIUS 2.89 INCHES MAXIMUM PULLING TENSION 165 POUNDS - l COEFFICIENT OF FRICTION 0.5 i MAXIMUM COIL LENGTH 10,000 FEET AMBIENT TEMPERATURE RANGE -40 DGR.C(-40 DGR.F) TO +90 . DGR.C (+194 DGR.F) MINIMUM INSTALLATION TEMPERATURE -15 DGR.C (+5 DGR.F)

                                                                                                                                               ?                                   l
JACKET LEGEND
DEKORON POLYSET 7/C 16 AWG KX SHIELDED C76 EATON i ,

AURORA, OHIO (YEAR OF' MFG) (LOT NO.) (SEQUENTIAL FOOTAGE) Eaton Corporation PRODUCT DRAtl!NG l Industrial Polymer Products Sheet 1 OfI l rora ONo E Yl/30/34 IX35-61732-002 1

  - -+ we    -,._-       ,--,.,___.._-.%,,,,.._                  _ ,_,, _ , _ , , _ _ , _ , , , _ _ , _ _ , , _ , _                ,

N34DWI 00/ cn:egeS Georgia Power Company . Alvin W. Vogtle Nuclear Plant Bechtel Power Corporation 3XAJ04 Georgia Power Purchase Order: PAV-3080 Change #29 Instrument & Specialty Cable Item Number 146 Cable Code: CG77 Dekoron Part Number IX35-42262-001 , Twenty-two (22) conductors of fourteen (14) gauge, seven (7) strand tinned copper conductors with thirty (30) mils XLP0 (cross-linked polyolefin) extruded primary insulation; color coded condmetors fl-black, #2-brown, #3-red,

                            #4-orange, #5-yellow, #6-green, #7-blue, #8-purple, #9-white, fl0-white with                                                                                                                                     i black stripe, #11-white with brown stripe, fl2-white with red stripe, #13-white                                                                                                                                  I with orange stripe, #14-white with yellem stripe, fl5-white with green stripe,
                            #16-white with blue stripe, #17-white with violet stripe, #18-yellow with black stripe, #19-yellow with brown stripe, #20-yellow with red stripe, #21-yellow with orange stripe, #22-yellow with green stripe; the insulated conductors are cabled with a fourteen (14) gauge tinned copper drain wire and shielded with a 2.35 mil       aluminuWMylar tape shield overall; eighty                                                                                                              (80) mil      Hypalon e (chlorosulfonated polyethylene) extruded outer jacket.

i Maximum 0.D.: 1.034 Inches i  !

               ~

Net Weight Per Mft.: 619.4 Pounds Minimum Bending Radius: 6.204 Inches t Maximum Pulling Tension: 756 Pounds Coefficient of Friction: 0.5 Maximum Coil Length: 3,500 Feet Ambient Temperature Range: -40 degree C (-40 degree F) I to +90 degree C (+194 degree F) Minimum Installation Temperature: -15 degree C (+5 F) Jacket Legend: Dekoron Polyset 22/ Con 14AWG shielded CG77 Eaton, Aurora, Ohio (YR OF MFG) (LOT #) (SEQ FTG) s .  !

            ?                                                                                                                                                                                "
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  • A Ind.ntrial Polymer Products S hee t _._ __ Of_ _.

5 0 u ,:- ' ' j'

                                  ,.-o JRM             03/27/86                                                                                   IX35-42262-001                 l r--       , , , . , - - ,                        - - - - - - - - - - . , - - - - , - .       , , - -      . - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - . - - - -                          - - - - - -   - - - -
                                            $1'.$hTCb&& *l                                                                                                                                             y C- ges Georgia Power Ccepany Alvin W. Vogtle Nuclear Plant Sechtel Power Corporation 3XAJ04 Ceorgia Power Purchase Order: PAV-3080 Change #29 Instrument & Specialty Cable Item Number 141 Cable Code: CJ67 Dekoron Part Number IX70-61637-005                                                            ,

Sixteen (16) pairs of sixteen (16) gauge, seven (7) strand tinned copper conductors with twenty-five (25) mil XLP0 (cross-linked polyolefin) extruded primary insulation; color coded pairs #1-black and white with black stripe, 4

                                         #2-brown and white with brown stripe, #3-red and white with red stripe,
                                         #4-orange and white with orange stripe, #5-yellow and white with yellow stripe,
                                         #6-green and white with green stripe, #7-blue and white with blue stripe,
                                         #8-purple and white with purple stripe, #9-black and yellow with black stripe,
                                         #10-brown and yellow with brown stripe, fil-red and yellow with red stripe,
                                         #12-orange and yellow with orange stripe, fl3-purple and yellow with purple                                                                                               :

stripe, #14-green and yellow with green stripe, fl5-blue and yellow with blue stripe, #16-white and yellow with white stripe; the insulated and twisted pairs are cabled together with a one (1) mil Mylar binder tape; a sixt'een (16) gauge, seven (7) strand tinned copper drain wire; 1.7 mil aluminunVMylar/ aluminum tape

!                                        shield overall; eighty (80) mil black Hypalon (chlorosulfonated polyethylene) e i                                         extruded outer jacket.

Maximum 0.D.: 1.100 Inches ,  : Net Weight Per Mft.: 617.4 Pounds Minimum Bending Radius: 6.600 Inches Maximum Pulling Tension: 681.12 Pounds Coefficient of Friction: 0.5 Maximum Coil Length: 3,500 Feet Ambient Temperature Range: -40 degree C (-40 degree F) to +90 degree C (+194 degree F) Minimum Installation Temperature: -15 degree C (+5 F) I Jacket Legend: Dekoron Polyset 16 PR 16AWG shielded CJ67 Eaton, Aurora, Ohio (LOT f) (SEQ. FTG) (YR OF MFG)

                                   $                                                                                                    3
                                   ?                                                                                                   :
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                                                     ^

F .2  : ::c w . : r PRODUCT DRAWING 1 1 l R incastrie' Polymer Products Sheet _ _ _ Of 2 \ C , r : -. - . i

                                                       ^
                                                            .                             JRM         03/27/86                                            IX70-61637-005 4-,-----   . . - - - - - - - - -                          - - - - - - - .                             ,.----_-..-..w..                  w.._ , , . . . , , , , , - - ~ . - - - . - - - - - - - - - -
                                                                                                                                                                  .    ~
                           . JHMOf'-67-l                                                                                                                     gw Char.ges Georgia Power Company Alvin W. Vogtle Nuclear Plant Bechtel Power Corporation 3XAJ04 Georgia Power Purchase Order: PAV-3080 Change #29 Instrument & Specialty Cable Item Number 143 Cable Code: CJ678 Dekoron Part Number IX70-61637-004                                                                                ,

Sixteen (16) pairs of sixteen (16) gauge, seven (7) strand tinned copper conductors with twenty-five (25) mil XLP0 (cross-linked polyolefin) extruded , primary insulation; color coded pairs fl-black and white with black stripe, .

                         #2-brown and white with brown stripe, #3-red and white with red stripe,                                                                            i
                         #4-orange and white with orange stripe, #5-yellow and white with yellow stripe,                                                                    I
                         #6-green and white with green stripe, #7-blue and white with blue stripe,                                                                          .

4 #8-purple and white with purple stripe, #9-black and yellow with black stripe,

                         #10-brown and yellow with brown stripe, ill-red and yellow with red stripe, i                         #12-orange and yellow with orange stripe, fl3-purple and yellow with purple                                                                        i
stripe, #14-green and yellow with green stripe, fl5-blue and yellow with blue i stripe, #16-white and yellow with white stripe; the insulated and twisted pairs -

-l are cabled together with a one (1) mil Mylar binder tape; a sixteen (16) gauge, seven (7) strand tinned copper drain wire; 1.7 mil aluminum / Mylar / aluminum tape shield overall; eighty (80) mil brown Hypalon (chlorosulfonated polyethylene)e extruded outer jacket. Maximum 0.D.: 1.100 Inches

Net Weight Per Mft.: 617.4 Pounds Minimum Bending Radius: 6.600 Inches Maximum Pulling Tension: 681.12 Pounds Coefficient of Friction: 0.5

, Maximum Coil Length: 3,500 Feet ! Ambient Temperature Range: -40 degree C (-40 degree F) to +90 degree C (+194 degree F) Minimum Installation Temperature: -15 degree C (+5 F) Jacket Leg'end: Dekoron Polyset 16 PR 16AWG shielded CJ67B Eaton, Aurora, Ohio i (LOT #) (SEQ. FTG) (YR OF MFG) I l l l  ! 1 ! A . G  ! Ea'r Corporation PRODUCT DRAWING 1 1 } @ Sheet Of I R Industrial Polymer Products _

5 Divisor, n. .s A. ' ra Ov. JRM 03/27/86 IX70-61637-004
  .-.r_.y.-----_                   -- _.. . - , _ . _

_ . . . . . , _ _ , . - __,-_--.,m_____ _.,_____.-..-.,,.-----.,.m.. - --

_ ppJo+484 osi Cmges Georgia Power Company Alvin W. Vogtle Nuclear Plant Bechtel Power Corporation 3XAJ04 4 Georgia Power Purchase Order: PAV-3080 Change #29 Instrument & Specialty Cable Ites Number 144 Cable Code: CJ67G Dekoron Part Number IX70-61637-002 . Sixteen (16) pairs of sixteen (16) gauge, seven (7) strand tinned copper conductors with twenty-five (25) mil XLP0 (cross-linked polyolefin) extruded primary insulation; color coded pairs #1-black and white with black stripe,

                                     #2-brown and white with brown stripe, #3-red and white with red stripe,
                                     #4-orange and white with orange stripe, #5-yellow and white with yellow stripe,
                                     #6-green and white with green stripe, #7-blue and white with blue stripe,
                                     #8-purple and white with purple stripe, #9-black and yellow with black stripe,
                                     #10-brown and yellow with brown stripe, ill-red and yellow with red stripe,
                                     #12-orange and yellow with orange stripe, #13-purple and yellow with purple                                                                             j; stripe, #14-green and yellow with green stripe, #15-blue and yellow with blue                                                                               !

stripe, #16-white and yellow with white stripe; the insulated and twisted pairs are cabled together with a one (1) mil Mylar binder tape; a sixteen (16) gauge, seven (7) strand tinned copper drain wire; 1.7 mil aluminusVMylar/ aluminum tape shield overall; eighty (80) mil green Hypalon (chlorosulfonated polyethylene)e extruded outer jacket. Maximum 0.D.: 1.100 Inches Net Weight Per Mft.: 617.4 Pounds Minimum Bending Radius: 6.600 Inches' Maximum Pulling Tension: 681.12 Pounds , Coefficient of Friction: 0.5 l , Maximum Coil Length: 3,500 Feet l l Ambient Temperature Range: -40 degree C (-40 degree F) to +90 degree C (+194 degree F) , Minimum Installation l Temperature: -15 degree C (+5 F)

                                                        .                                                                                                                                  i l

l i Jacket Legend: Dekoron Polyset 16 PR 16AWG shielded CJ67G Eaton,: Aurora, Ohio ) (LOT #) (SEQ. FTG) (YR OF MFG)

                               ~                                                                                                              .

, 8  : \  ? s 9 Er :- C: poraSr" PRODUCT DRAWING 1 1 ll; P houstrial Polymer Products Sheet _ Of 5 D.:uor ~ i

1. : t O: JRM 03/27/86 IX70-61637-002
 . . . , - , . - - - - , -              e-.-,,-, -
                                                   --..,,,,-,,,%,-...._                    _ - ,    --r    .v,-,-      ,,_.,.-n             - , , _            , _         . . . - - . - -
            ,A/54 fpf (99--/                                                              g0/

C- ge. Georgia Power Company l Alvin W. Vogtle Nuclear Plant Bechtel Power Corporation 3XAJ04 Georgia Power Purchase Order: PAV-3080 Change #29 Instrument & Specialty Cable Item Number 142 Cable Code: CJ67L Dekoron Part Number IX70-61637-003 , Sixteen (16) pairs of sixteen (16) gauge, seven (7) strand tinned copper conductors with twenty-five (25) mil XLP0 (cross-linked polyolefin) extruded primary insulation; color coded pairs fl-black and white with black stripe,

        #2-brown and white with brown stripe, #3-red and white with red stripe,
        #4-orange and white with orange stripe, #5-yellow and white with yellow stripe,
        #6-green and white with green stripe, #7-blue and white with blue stripe,                   ,
        #8-purple and white with purple stripe, #9-black and yellow with black stripe,
        #10-brown and yellow with brown stripe, ill-red and yellow with red stripe, fl2-orange and yellow with orange stripe, fl3-purple and yellow with purple stripe, #14-green and yellow with green stripe, fl5-blue and yellow with blue stripe, fl6-white and yellow with white stripe; the insulated and twisted pairs are cabled together with a one (1) mil Mylar binder tape; a sixteen (16) gauge, seven (7) strand tinned copper drain wire; 1.7 mil aluminusVMylar/ aluminum tape shield overall; eighty (80) mil blue Hypalon (chlorosulfonated polyethylene)e extruded outer jacket.

i Maximum 0.D.: 1.100 Inches [ Net Weight Per Mft.: 617.4 Pounds Minimum Bending Radius: 6.600 Inches Maximum Pulling Tension: 681.12 Pounds Coefficient of Friction: 0.5 Maximum Coil Length: 3,500 Feet Ambient Temperature Range: -40 degree C (-40 degree F) to +90 degree C (+194 degree F) Minimum Installation Temperature: -15 degree C (+5 F) Jacket Leg'end: Dekoron Polyset 16 PR 16AWG shielded CJ67L Eaton, Aurora, Ohio (LOT #) (SEQ. FTG) (YR OF MFG) i

    ?                                                                     -

2

    ?   Ee      .~ : J : T : -             PRODUCT ORAWING                           1        1 R   in::s stNi Polymer Products                                          Sheet _ . ._  Of 5   0 . s::-

A JRM 03/27/86 IX70-61637-003 i

y a.y -

                                                -)))).'@f~70-/

f 00l w. l Georgiai Power Company Alvin W. Vogtle Nuclear Plant Rechtel Power Corporation 3XAJ04 Georgia Power Purchase Order: PAV-3080 Change #29 J" Instrument & Specialty Cable Item Number 145 Cable Code: CJ67Y Dekoron Part Number IX70-61637-001 , 2 Sixteen (16) pairs of sixteen (16) gauge, seven (7) strand tinned copper conductors with twenty-five (25) mil XLP0 (cross-linked polyolefin) extruded primary insulation; color coded pairs #1-black and white with black stripe, ,

                                              #2-brown and white with brown stripe, #3-red and white with red stripe,                      !
                                              #4-orange and white with orange stripe, #5-yellow and white with yellow                      l stripe, #6-green and white with green stripe, #7-blue and white with blue stripe, #8-purple and white with purple stripe, #9-black and yellow with black e                                           stripe, #10-brown and yellow with brown stripe, ill-red and yellow with red stripe, #12-orange and yellow with orange stripe, fl3-purple and yellow with purple' stripe, #14-green and yellow with green stripe, #15-blue and yellow s wf th blue stripe, #16-white and yellow with white stripe; the insulated and                    i twisted pairs are cabled together with a one (1) mil Mylar binder tape; a e                                sixteen (16) gauge, seven (7) strand tinned copper drain wire; 1.7 mil aluminum / Mylar / aluminum tape shield overall; eighty (80) mil yellow Hypalone          -

m ' (chlorosulfonated polyethylene) extruded outer jacket. .

               %                                                   Maximum 0.D.:                    1.10 Inches Net Weight Per Mft.:            617.4 Pounds I                                                                   Minimum Bending Radius:         6.600 Inches Maximum Pulling Tension:        681.12 Pounds                          -

Coefficient of Friction: 0.5 i Maximum Coil Length: 3,500 Feet a Ambient Temperature Rang'e: -40 degree C (-40 degree F) to +90 degree C (+194 degree F) l ! Minimum Installation ! Temperature: -15 degree C (+5 F)

                                                        .                                                                             I l                                               ~

l , , Jacket Legend: Dekoron Polyset 16 PR 16AWG shielded CJ67Y Eaton, Aurora, Ohio { (LOT *) (SEQ. FTG) (YR OF MFG) l 8 = l l "  ; ; I 2 !.  ? Ea' - C- c a -- PRODUCT DRAWING 1 1 l R inaustria: Polymer Products Sheef . O! l Di nd:m. . .

                                        , J-        - 0" e                          JRM       03/27/86                 IX70-61637-001 l

yhf0f-7/-/ gpO/ e,a r.ges l I Georgia Power Company I.- Alvin W. Vogtle Nuclear Plant Bechtel Power Corporation 3XAJ04 Georgia Power Purchase Order: PAV-3080 Change #29 Instrument & Specialty Cable Item Number 148 Cable Code: CQ67 Dekoron Part Number IX74-62433-002 , 4 Fourteen (14) pairs of sixteerc (16) gauge, seven (7) strand tinned copper conductors with twenty-five (25) mil XLP0 (cross-linked polyolefin) extruded primary insulation; color coded pairs #1 black-white with black stripe, #2 brown-white with brown stripe, #3 red-white with red stripe, #4 orange-white with orange stripe, #5 yellow-whita with yellow stripe, #6 green-white with green stripe, #7 blue-white with blue stripe, #8 purple-white with purple stripe, #9 black-yellow with black stripe, #10 brown-yellow with brown stripe,

                             #11 red-yellow with red stripe, #12 orange-yellow with orange stripe, #13 i                             purple-yellow with purple stripe, #14 green-yellow with green stripe; each pair                                                                       '

" is twisted with an eighteen (18) gauge seven (7) strand tinned copper drain wire; the pair shield is 1.35 mil aluminum / Mylar tape; the overall binder tape is one (1) mil Mylar tape; and an eighty (80) mil black Hypalons:- (chlorosulfonated polyethylene) extruded outer jacket. i Maximum 0.D.: 1.165 Inches [ Net Weight Per Mft.: 654.8 Pounds , Minimus Bendir.g Radius: 6.990 Inches , > Maximum Pulling Tension: 759 Pounds . Coefficient of Friction: 0.5 Maximum Coil Length: 3,500 Feet l -40 degree C (-40 degree F) Ambient Temperature Range: to +90 degree C (+194 degree F) s Minimum Installation i Temperature: -15 degree C (+5 F) Jacket Leg'nd: e Dekoron Polyset 14 PR 16AWG shielded CQ67 Eaton, Aurora, Ohio (YR OF MFG) (LOT #) (SEQ FTG) I I N 5 k 2 Ea:cr Corporat.on 1 1

                     '?                                                                                               PRODUCT DRAWING R        Industrial Polymer Products                                                                                            Sheet                Of _  {

5 Dmuon . . OTc

                                 - d                                                                               JRM        03/27/86                        1X74-61433-002   l
 ._,.,.,.,w._.m,          _.m-       ,_ _ _ . _ _ _ _ , _ _ . _ _ _ , _ _ _ _ _ , _ _ - _ . _ , . . - . _ , . , , _                       . _ ,        _ , . _ _
                .                 .NJAJof- Zh/                                                                  0N y.m s Georgia Power Company Alvin W. Vogtle Nuclear Plant Bechtel Power Corporation 3XAJ04 Georgia Power Purchase Order: PAV-3080 Change #29 Instrument & Specialty Cable Item Number 147 Cable Code: CZ67                                                                                                .,

Dekoron Part Number IX35-64832-001 , , Forty-eight (48) conductors of sixteen (16) gauge, seven (7) strand tinned copper with twenty-five (25) mil XLP0 (cross-linked polyolefin) extruded primary insulation; color coded conductors #1-black, #2-brown, #3-red,

#4-orange, #5-yellow, #6-green, #7-blue, #8-purple, #9-white, #10-white with i black stripe, fil-white with brown stripe, fl2-white with red stripe, #13-white with orange stripe, #14-white with yellow stripe, fl5-white with green stripe,
                            #16-white with blue stripe, #17-white with violet stripe, #18-yellow with black stripe, #19-yellow with brown stripe, #20-yellow with red stripe, #21-yellow with orange stripe, #22 yellow with green stripe, #23-yellow with blue stripe,
                            #24-yellow with violet stripe, #25-red with white stripe, #26-red with orange stripe, #27-red with yellow stripe, #28-red with green stripe, #29-red with blue stripe, #30-red with violet stripe, #31-red with black stripe, #32-orange with white stripe, #33-orange with yellow stripe, #34-orange with green stripe,
                            #35-orange with blue stripe, #36-orange with violet stripe, #37-orange with black stripe, #38-green with yellow stripe, #39-green with white stripe, i                            #40-green with blue stripe, #41-green with violet stripe, #42-green with black stripe, #43-blue with green stripe, #44-blue with white stripe, #45-blue with

[ violet stripe, #46-blue with red stripe, #47-blue with orange stripe, #48-blue with black stripe; the insulated conductors are cabled with a sixteen (16) l gauge tinned copper drain wire and shielded with a 2.35 mil aluminum / Mylar tape , shield overall; eighty (80) mil Hypalon (chlorosulfonated polyethylene) e l extruded outer jacket. l l Maximum 0.D.: 1.168 Inches j Net Weight Per Mft.: 834.2 Pounds l Minimum Bending Radius: 7.008 Inches Maximum Pulling Tension: 1,611 Pounds l ' I l Coefficient of Friction: 0.5 t Maximum Coil Length: 3,000 Feet l Ambient Temperature Range: -40 degree C (-40 degree F) . to +90 degree C (+194 degree F) j Minimum Installation , i Temperature: -15 degree C (+5 F) i j i Jacket Legend: Dekoron Polyset 48/ Con-16AWG shielded CZ67 Eaton, Aurora, Ohio, (YR OF MFG) (LOT #) (SEQ FTG) f M .

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                    ?        L      . ~: rc. ten                  PRODUCT DRAWING                         1           1 8       In::at e a' Polymer Products                                           Sheet  . _ _  Of                    l-21:.-                                                   .

l-  : - JRM 03/27/86 1X35-64832-001 (

( Changes GEORGIA POWER COMPANY ALVIN W. V0GTLE NUCLEAR PLANT BECHTEL POWER CORPORATION SPECIFICATION X3AJ04 GEORGIA POWER PURCHASE ORDER PAV-3080 & PAV2-128 INSTRUMENT & SPECIALTY CABLE CABLE CODE: CL67H ITEM #149 DEKORON PART NUMBER: 1H52-68610-001 ONE (1) PAIR OF SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER CONDUCTORS WITH THIRTY (30) MIL FR-EPDM (FLAME RETARDANT ETHYLENE PROPYLENE DIENE MONO INSULATION; COLOR CODED: BLACK AND WHITE; CONDUCTORS TWISTED TOGETHER WITH A SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER DRAIN WIRE; 0.85 MIL ALUMINUM / MYLAR TAPE SHIELD (25%* OVERLAP); FORTY-FIVE (45) MIL BLACK HYPALON e (CHLOROSULF0NATED POLYETHYLENE) EXTRUDED OUTER JACKET. MAXIMUM 0.D. 0.379 INCHES NET WEIGHT PER MFT. 69.5 POUNDS

           ,-                    MINIMUM BENDING RADIUS                2.27 INCHES MAXIMUM PULLING TENSION              61.92 POUNDS COEFFICIENT OF FRICTION                  0.5 MAXIMUM COIL LENGTH                  10,000 FEET AMBIENT TEMPERATURE RANGE           -400C (-400F) TO +900C (+1940F)

MINIMUM INSTALLATION TEMPERATURE -150C (+50F) MAXIMUM SIDEWALL PRESSURE 500 POUNDS l JACKET LEGEND: DEKORON ELASTOSET I PAIR 16 AWG SHIELDED (CABLE CODE) EATON i AURORA, OHIO (YEAR OF MFG) (LOT NO.) (SEQUENTIAL FOOTAGE)

                                                                                ?

Eaton Corporation Industrial Polymer Products PRODUCT DRAWINGS Sheet 1 Of 1 j DivislOn Approved Date Part No. i Aurora, Ohio JLA 9/5/86 1H52-68610-001

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Changes 1 GEORGIA POWER COMPANY ALVIN W. V0GTLE NUCLEAR PLANT BECHTEL POWER CORPORATION SPECIFICATION X3AJ04 GEORGIA POWER PURCHASE ORDER PAV-3080 & PAV2-128 INSTRUMENT & SPECIALTY CABLE ITEM: 150 CABLE CODE: C169H DEKORON PART NUMBER: 1H35-60462-001 l FOUR (4) CONDUCTORS OF SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER , CONDUCTORS WITH THIRTY (30) MIL FR-EPDM (FLAME RETARDANT ETHYLENE PROPYLENE DIENE MONOMER) EXTRUDED PRIMARY INSULATION; COLOR CODED BLACK, WHITE, RED, GREEN, (IPCEA S-19-81), PARAGRAPH 5.6.3.1, METHOD 1), CONDUCTORS CABLED s TOGETHER, 2.35 MIL ALUMINUM / MYLAR TAPE SHIELD OVERALL (25% OVERLAP), A SIXTEEN (16) GAUGE, SEVEN (7) STRAND TINNED COPPER DRAIN WIRE, FORTY-FIVE (45) MIL BLACK HYPALON (CHLOROSULFONATED POLYETHLENE) EXTRUDED OUTER JACKET. " MAXIMUM 0.D. .440 INCHES l NET WEIGHT PER MFT. 107.6 POUNDS b MINIMUM BENDING RADIUS 2.64 INCHES MAXIMUM PULLING TENSION 103.20 POUNDS COEFFICIENT OF FRICTION 0.5 MAXIMUM COIL LENGTH 10,000 FEET AMBIENT TEMPERATURE RANGE -400C (-400F) TO +900C (+1940F) MINIMUM INSTALLATION TEMPERATURE -150C (+50F)

    ~

MAXIMUM SIDEWALL PRESSURE 500 POUNDS JACKET LEGEND: DEKORON ELASTOSET 4/C 16 AWG SHIELDED (CABLE CODE) EATON AURORA, OHIO (YEAR OF MFG) (LOT NO.) (SEQUENTIAL , FOOTAGE) Eaton Corporation PRODUCT DRAWING 1 1 Industrial Polymer Products Sheet Of

    ;             Division                                        Approved    Date          Part No.
    ,i            Aurora, Ohio                                       JLA       9/5/86                           1H35-60462-001
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