ML20215N400
| ML20215N400 | |
| Person / Time | |
|---|---|
| Site: | Sequoyah  |
| Issue date: | 11/08/1979 |
| From: | Brimer C, Cowan L TENNESSEE VALLEY AUTHORITY |
| To: | |
| Shared Package | |
| ML20215N324 | List: |
| References | |
| M&AI-7, NUDOCS 8611050354 | |
| Download: ML20215N400 (87) | |
Text
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. 000 190.3259DISTRIBUTION .
sequoyah Nuclear Piant 1C Plant raster File Superintendent Assistant Superintendent (Oper.) FDDIFICATION AITD ADDITIONS INSTRUCTION SL A3818t"'.it Superintendent (Maint. ) I __[t) ,_ Administrative Supervisor Maintenance Supervisor (M) Assistant Maintenance.Gupervisor (M) ,
- lC- Maintenance Supervisor (E) l I IBAI-7 Agnistant Maintenance Supervisor (E)
Maintenance Supervisor (I) Results Supervisor l I ELCCTRICAL PE'{ETRATION A?D CABLE SPLICING , IIGTRUCTIG,S f, 7 Operations Supervicor Nfd, Quality Assurance Supervisor
!!calth Physicist l
- Public Safety Services Supv. .
)
Chief Storekeeper Prcop Test Program Coordinator 10 Outarm Director I Chemical Engineer amllochem Laboratory Inntrument Shop g l
!<cactor En61ncer E Instrument Engineer
, Mechanical; Engineer Staff Industrial Engineer
., Training Center Courdingtor Prepared Ey:
. PSO - Chickamauga Engr 6 Unit - SNP s:*a a Cevaa Public Safety Services - SNP Shift Engineer Office Revised Fy: .:/A Unit Control Room I Submitted By: _ ' /g d Suti e rviso r at ysi a Laboratory IU Chief, Nucit!ar Generation Branch 1U P Prod Central Office File
///7 9 1U Superintendent, WDNP I PORC Review:
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Superintendent, DFNP Superintendent, Df?iP I h . ' ,_J.V. EN DES - MEB NEG <, Approved l'y f. isn tN tt o Supv., HPJIPS n08, MG So>crfntendcat NRC-IE:II (' . Power Security Officer, 604 PRB-C I Date ApprovedQ \\ji9
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' Nucicar Materials Coordinator Manager, OP-QA&A Staff 1U P Prod Plant Eng. Branch 1
g . __f.L. 111 G A A ?nt? /?. A Al 3 f c. _ Asst. /Mm 'buA _ _h) :rE.Ginas;(Ifraea baccrg wnmp Rev. flo. Dato Ravised Panca Rev. No. Date Ravised Pages I 9 dh =-
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06110503S4 861031 The lant parc of this instruction is PDR ADOCK 00000327 - g,gg,,,r . M p PDR .
i 000i . SQNP M&AI-7 i I Page 1 of 19 Rev. 0 1.0 PURPOSE The purpose of this procedure is to provide a method of splicing cables on I inboard and outboard sides of the electrical penetrations mounted in the reactor containment vessel valls and cables throughout the plant that are to be spliced. 2.0 SCOPE This procedure includes splice details and requirements for non-CSSC splices I to the electrical penetrations and other areas as well as CSSC.
3.0 REFERENCES
A. Manuals - Westinghouse Specification E2526 dated June 11, 1974. I B. Installation Instruction for Westinghouse Electronic Tube Division, Nuclear Reactor Containment Vessel, Electrical Penetrations; plant Sequoyah #1 and #2, contract 72C61-75164 (TVA) Mor 6.9-kV splicing r only) - C. See appropriate TVA and Westinghouse drawings. TVA 45A860 Series Electrical Penetration drawings , Westinghouse E2492 through E2506 D. C-38, " Installing Insulated Cables Rated Up to 15000 Volts Inclusive with Sequoyah Attachment" I E. Figures - u N I 1. 2. Figure 1: Figure 2: Typical Butt Splice Preparation for Hultiple Conductor Cable Cable Splicing Dimensions '
~
I 3. 4. 5. Figure Figure Figure 3: 4: 5: Multiple Conductor Cable Splice Butt Splice Single Conductor Cable Multiple Conductor / Single Conductor Cable
- 6. Figure SA: Multiple Conductor / Single Conductor Cable (Cascading)
- 7. Figure 6: Multiple Conductor / Single Conductor Cable
- 8. Figure 7: Multiple Conductor Cable-Shielded without Drain Wires
- 9. Figure 8: Multiple Conductor Cable-Shielded without Drain Wires I 10.
11. 12. Figure Figure Figure 9: 10: 11: RAYCifEH Thermofit Cable Breakout Table Thermocoupling Wiring Type E Triax Connectors
- 13. Figure 12: Type F Coax Connectors F. Attachments
- I 1.
2. RAYCHEH WCSF In-Line Field Splice Installation Guide 1050 RAYCHEM WCSF In-Line Multiconductor Field Splice Installation Guide 1060
- 3. RAYCHEM Sleeve Selection Guide i.
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00 9O il YT'b Ff-
. SQNP -
i H&AI-7 Page 2 of 19 Rev. 0 4.0 DEFINITIONS Cable Qualification - Cables shall be considered qualified when the con- ' tinuity and megger tests have been completed in accordance with H&AI-12, l These tests are to be accomplished after the cable penetration splices ) have been completed. CATECORY I STRUCTURES l The Category I structures other than the primary containment structures are I listed as follows:
- 1. Auxiliary-Control Building I
l
- a. Control Bay Portion
- b. Auxiliary.. Building Portion
- c. Vaste Packaging Area
- d. Condensate Demineralizer Waste Evaporator Building Portion
- 2. Condenser Cooling Water Pumping Station and Retaining Walls
- 3. Auxiliary Essential Raw Cooling Water Structures ..
- 4. Diesel-Cencrator Building I 5. CO 2 Storage Building
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- 6. Refueling Wat,er Tanks and Pipe Tunnels Q 7. Class IE Electric.t1 Systems Structures ,,
- 8. East Steam Valve Room
- 9. Essential Raw Cooling Water Pumping Station and Access Cells
- 10. ERCV Discharge Box 5.0 Resp 0NSIBILITIES A. The cognizant engineer shall be responsible for all decisions concerning I substitutions and deviations as outlined in this procedure. He shall be responsible for preparing the workplan and indicating the need for QA inspections.
I B. The electricans shall be responsible for all installations and work performed. I c. QA inspectors shall be responsible for inspections on all CSSC equipment and where stated by the cognizant engineer in the workplan. 2-I
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. SQNP
}!&AI-7 I Page 18 of 19 Fev. 0 6.0 PROCEDURE (Cont.)
- 6. Prepare the individual conductor lengths so that the butt splices I are staggered. Remove the insulation on each conductor to one-half the length of each butt splice sleeve.
- 7. Crimp the correct size butt sleeve to each of the conductors.
- 8. Slide the correct size RAYClfEff WCSF Type N sleeve over each of the conductors.
I 9. Crimp the mating conductor to each butt splice connector.
- 10. Center the RAYCHEff sleeve over the butt splice and shrink in accordance with the manufacturer's instructions.
- 11. Slide the copper braid tubing over the cables as shown on Figure 8.
- 12. Center the RA_YCIIEff Jacket over the splice as shown on Figure 8 and shrink in accordance with the manufacturer's instructions.
7.0 INSPECTION AND DOCUffENTATION REQUIREffENTS A. General Inspections on all CSSC cable splices and all cables spliced in enclosures affixed to CSSC equipment shall be inspected by QA inspectors. All other I " splices may be inspected by the cognizant engindFr or whomever be so des-ignated in the workplan. I ! All splices will be inspected and documented per this instruction and the applicable workplan. Each splice shall be documented on Data Sheet 1 or an equvialent and contained in the applicable workplan. Also, the I cable pull card for the applicable cable shall have the information as given below entered on the back of the card and included in the workplan at the time it is submitted to document control for documentation. This cable has been spliced in accordance with }!&AI-7 R _. Under workplan . Work Performed By I,ocation Electrician Box or Part/ Col / Ele Inspected By Electrician I Foreman Inspector
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Date I
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STANDARD IN-LINE SPLICE 80LT.TOGETHER CONNECTION SLEEVE e2 d ji E i f
.h i ! . D . Escanded Norninal . Application Diameter NOTES: Os
) h mum Mamirnum Wa4 Recovered Range For InContain- ' Part E.panded l3 Recovered lD Thickne'ss Watt Standard et Apolications 1. Select sleeve no.1 wwlth a ma=Imum applicatio.n :2 i Nwnber As Swoolled
, g g 7 After Hestine 220% Thickness Lengtte Manamum uaawnurn ,
g . . l WCSF4*>at .250 .070 . A2 .08 6 48 .14 up the voice diameter to the min 3rnum apptication "vCSF-11548 .350 115 A3 .09 8 13 . 23
- 3. Use of targest stae sleeve that esitt fit a shen estre is 4 6 .750 .200 A3 .11 8.9.12 .22 .40 encommended to obtain maalrnum as instarw eses - t WWCSF,3OO4e 1.300 .300 .04 .17 8.9.12 .33 .60 thkh .
- 4. Splice sleeve length selected should allow for 2""
WWCSF40048 1J00 .500 .05 .17 8.3.12 .55 140 minimum overtap onto v ire innatation. WCSF4504 2A00 .650 45 .17 S.9.12 1.30 4w
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tuCSF-100044 4 3A00 1400 .05 t .17 (p 12.18 1.10 240 ' WWCSF-1500N 4300 9.500 .05 .17 12.13 1.65 3A0 'r
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@ Cim.ps centered. Crimps ay be off center DLIT f407 OFF El4D OF WlHE DARREL. Q Wire size.Bein0 used does not match $ wire O Wito seas teing used matches wire'sl e stamped on s tampod on terminal, splice, or f ool. *< d :
termen41. spilce, and tool. @ Wise not insorted far enough in terminal or splice, I (( C Werc 13.isible through inspr,ction hole of butt s& lice, and calends beyon'J and cf terrnLui wire battel, End of wits must be visible thsough lospection hole of butt splices, and extend beyond end of larminal wire barrel. * {
@ insulation does not enter were barref. l C on parallel splices, tare wire ends must be flush @ Insulation entered barrel of form or splics. ,
with or en tend slighti/ beyond and of barrel. CHECK FOR lHCORRECT STRIP LE Til,
@ Excessive *llssh" on terminal or spfles Indicatee '.f l .-
wrong wire, splice, of tooling combination was l used.
@ NickedortrflNing strands.
[g i l IRE-INStEATED DIAMOND _CRIP (PIDO) ACCEPTANCE CRITZitIA , s 4 2 I
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- 2. Proper terminal for wiro size (Example: AMP 22-16 for AWG 20) '
Proper crimp die Crimp properly usedononterminal pieced terminal (1 dot-red, 2 dots-blue,1 dot-yellow) I 3 14 . Insulation crimp holding. - gripping not cutting 5 Wire flush with tongue end of wire barrel 6. Proper strip length - wire barrel + 1/32-inch ministra to 3/64-inch maximu:n I . , +1
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- l. y)lTEL"0TATES COVERN)1ENT l ' Memorandum '
TENNESSEE VALLEY AUTHORITY I! To : Those listed B45 '86 0 6 2 b 931 l FRO)! : W. S. Raughley, Chief Electrical Engineer, W8 C126 C-K { DATE : June 23,1986 860716S0840
- SL*BJECT
- ELECTRICAL ISSUES - CABLE SIDEWALL PRESSURE (SWP) j PLEASE RESPOND BY JUNE 30,1986 l
l The purpose of this memorandum i to provide guidance for each Lead l l Engineer to determine the adequacy of the Class 1E cable installation with respect to cable SWP. { j Ceneral construction specification C-38, presently defines the procedure 4 for calculating the expected pulling force to ensure that cable sidewall
- pressure values are not exceeded (section 3.2.1.6). These requirements ,
were incorporated into G-38 as outlined in Attachment A. 1
! In July 1985. EEB-EP 22.29. " Procedure to Determine Acceptability of i Sidewall Pressures Exerted on Class 1E Cables in Existing Conduit , Installations at Watts Bar Nuclear Plant," was written to determine if the
. maximum allowable cable SWPs had been exceeded for Class 1E cables. A design calculation to determine the acceptability of SWPs exertes' on Class 1E cables in existing conduit installations at Watts Bar Nuclear Plant was initiated followed by a sampling progree involving approximately i 10,400 conduits. Screening calculations (Reference WBN Document " Sidewall , 1 Pressures of Class 1E Cables in Conduits" (343 860310 936)] reduced the ' t number of conduits to 1914 which were considered potential candidates i for high sidewall bearing pressure. Prom these 1914 conduits, a field l inspection team consisting of OE, OC, and QA/QC personnel conducted a l walkdown of 778 conduits to determine the worst-cases and selected 82 ' j conduits for analysis. The 82 conduits consisted of approximately 20 i conduits each f rom voltage levels V2, V3, V4, and V5. Conduits from i voltage level V1 were not considered as tt.ere are no Class 1E cables in voltage level VI. 1 Based on the isometric sketches furnished by Oc for routing of these 82 4 conduits, tension and SWP calculations were performed analytically for the , j cables in each conduit to determine the worst-case SWP. The calculated ! l SWPs were compared with the SWP limits recommended in the construction ! ! specification C-38. It was noted that 21 cables in 12 of the 82 conduite l exceeded the SWP limits.
- TVA cable SWP testing has just been completed at Central Labs, raising the
- cable SWP limits well above the present limits shown in G-38, which will
[ eliminate the SWP violations at WBN. These results are applicable to the l other projects provided you f all within the worst-case limits. Each respective engineering project, with the exception of WBN, shall develop, issue, and implement a cable SWP sampling procedure using l. Attachment B as a guide consistent with your restart / fuel load schedules. Buy U.S. Savings Bonds Regularly on the Payroll Savings Plan
- - - . - . . - _ - .--- -, _. - __ -_lLJ ' ~ - _ ' . .--
*7 2 ,
Those listed June 23, 1986 ELECTRICAL ISSUES - CABLE SIDEWALL PRESSURE (SWP) The fragnet for resolving the cable SWP issue is Attachment C. This effort should be started innsediately to expedite completion of the cable SWP issue. Please submit your fragnet to me and the Project Engineer by June 23, 1986. b W. S. Raughley J. D. Collins, P-205 SB-K* G. T. Hall, DNE, DSC-A, Sequoyah D. F. Faulkner, A7-BFN ENG J. L. Springer, 9-111 SB-K
! *Please proceed to revise the existing cable SWP calculation using the new cable SWP limits addressing each cable pull in each conduit and cable pulls through flexible onduit.
DLL:RB DLL cc! RIMS SL 26 C-E i D Principally Prepared By: D. L. Leckie, Extension 2081. 046162.03
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y k77AC//NENT~ k o-Pge l of 2 SQN'(CP 5-27-70), VBN (CP 1-23-73), and 31Ji (CP 12-24-74)
, Electrical Cable Issues
.- , Issue: Cable Sidewall Pressure
- In Conduit
, DRE Document DRE i
timeFrame (Section) Reauirement i 7/25/73 to G-38 30 Maximum force not to 10/22/75 (Sect. 3.1.d) exceed 100 times the radius of curvature expressed in feet i 10/22/75 to G-3 8 11 SP ecific instructions 9/15/85 (sect. 3.2.1.2.c) from vendor or 100 times l bend radius in feet for i thru G-38 15 sus 11 inst. cables and (sect. 3.2.1.3.a) 300 times the bend radius
!} in feet for shielded power cables I
9-15-85 to stN-G-38-5, same as NU CON required to calculate 3/17/86 G-38 16 (sect. 3.2.1.6) svP; thru G-38 18 Use vendor's values, or (sect. 3.2.1.6) 300 lb/ft for power and control and 100 lb/ft for signal cables
*Not spe cifically called cable sidewall pressure (SWP) until G-3816 (9-15-85).
l 066118.03 , I 5
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' EFN (CONST Fermit 5/10/67)
Electrical Cable Issues
... Issue: Cable sidewall Pressure
- In Conduit DRE Document BEZ Time Frame (Section) i Raouirement
; 5/10/67 to 1/9/73 G-4, revised No specific 12/15/69 and requirement i
earlier revisions 1/9/73 to C-4, revision 1/15/ 86 Max. strain at dated 1-9-73 a bend not in (Sect. 3.1.d) excess of 100 i times radius of curvature in feet s 1/15/86 to C-38 R7 and 18 3/17/ 86 EU CON required (Sect. 3.2.1.6) to calculate SWF 1 Use vendor's values
; or 300 lb/f t for Power and control cables and 100 lb/ft for sianal cables i
*not(9-15-85). epecifically called cable sidewall pressure until G-38 26 -
l 066118.03 . Cas: - 1 i i
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. A77'kc HMEA/7~ B PROCEDURE TO DETERMINE ACCEPTABILITY OF SIDEWALL PRESSURES EXERTED ON CLA$S 1E CABLES IN EXISTINC CONDUIT INSTALIATIONS AT -
NUCT. EAR PLANT ISSUE DATE: REVIEVED BY: APPROVED BY: Chief Electrical Engineer 1.0 PURPOSE AND SCOPE 1.1 Purpose This procedure establishes a sampling program to determine whether maximum allowable cable sidewall pressures (SWP) have been exceeded for Class IE cables in the environmental qualification program (10CFR50.49) at __NP. The procedure also provides the method for resolution of any SVP violations. 1.2 Scope The sampling program will be limited to Class IE cables included in the environmental qualification program (10CFR50.49) routed in conduits for all units. The sample shall include a minimum of 2 conduits per voltage level per unit. 2.0 PROCEDURE 2.1 DNE shall: 2.1.1 Obtain a listing of all Class IE cables in the scope of the environmental qualification program for all units. 2.1.2 Develop a list of all conduite containing the cables identified in 2.1.1. 1 l 026125.02 _ - _ _ . - _ _ . -_ . __ . . _ _ . _ - - -. - ___.- -_ - . - . r_~ -
PROCZDURE TO DETERMINE, ACCEPTABILITY OF, SIDEWALL PRESSURES rrunTED ON CLASS 1E CABLES IN EXISTING CONDUIT INSTALLATIONS AT ' NUCf. EAR PLANT 2.0 PROCEDURE (Continued) 2.1.3 By analysis of conduit lengths, conduit sizes, cable weights, number of cables, and maximum allowable pulling forces, and by .i use of C-38, Appendix F, reduce the conduit listing to a set defined as those conduits containing Class IE cables whose maximum allowable SWPs have the potential of being exceeded. 2.1.4 Provide the defined set of cor.Juits to a field inspection team consisting of personnel from ONP, DNE, and QA/QC, if possible. 2.2 Field inspection team shall: 2.2.1 Select the sample of conduits which meet the worst-case configurations as defined below. Conduit configurations having the following characteristics between null points (boxes, condulets, termination points, etc.) should be considered for inclusion in the sample: 1 o multiple bends - more than 3600 between pu11 points. o long length - greater than lengths in C-38 Appendix F. o high percentage of cable fill - greater than 301 full. ! o elevation changes The field inspection team shall keep records on the number of conduits walked down, those with a potential of exceeding SWP, and those with the potential of exceeding SVP which did not i meet the above criteria. ! i l i i
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'. 026125.02
- - - m - - _
PROCEDURE TO DETERMINE ACCEPTABILITY OF. SIDEWALL PRESSURES ZIERTED ON CLASS 1E CABLES-IN EXISTING CONDUIT INSTAI.LATIONS AT NUCLEAR PLANT 2.0 PROCEDURE (Continued) 2.2.2 Prepare isometric sketches (similar to figure 1) or provide a tabulation (attachment f1) showing the installed conduit configuration for each of the conduits selected for the sample: NOTE Field measurement tolerances sL11 be within the accuracy of standard measuring devices such as steel tapes, protractors, and slope indicators. 9(f Morizontal Pull Foint Bend - H 450 vertical O. Send o'. g0' 450 of 900 Boriacetal Sand
. 45' Vertical Bend 900 Borizontal ,
Bend-C. g . B 900 Morizontal Bend Y A Conduit No-Finure 1
- nossos n,
1
. 1
- l 1
l PROCEDURE TO DETERMINE ACCEPTABILITY OF.SIDEVALL PRESSURES EXERTED ON CLASS 1E CABLES IN EXISTING CONDUIT INSTAT.flTIONS AT NUCLEAR PLANT 2.0 PROCEDURE (Continued) 2.2.3 Obtain pull cards for all cables in the selected conduits. 2.2.4 Provide pull cards and each isometric sketch or tabulation to the Engineering Project as it is completed. 2.3 DNE shall: 2.3.1 Calculate expected pulling force (T) and SWP for each pull in each conduit. The pull shall be assumed to-have been made in the direction which will result in the higher expected pulling force, unless the direction of the pull is known. 2.3.2 Compare the calculated SWPs to maxi == SVPs obtained from the SWP testing program. 2.3.3 Document the sampling program as a calculations document, as in OEP-07.
3.0 CONCLUSION
3.1 If no violations of maximum sidewall pressure are found in the sample of worst-case examples then it will be concluded that existing installations are adequate and no further evaluation will be required. 3.2 If one or amore violations of maxi == sidewall pressure are found, they will be corrected by reworking the configuration of the conduit system and installing new cables and further sampling will be initiated to determine the extent of the problem. 4.0 REFERENCE OEP-07, Calculations 02M 9s.n?
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ITEM 3 - If the worst-case conduits for tough pulls.have n)t been established, determine the worst-case conduits and provide isometric drawings, pull cards, and work orders for the pulls. If, isometric drawings are not available, the following may be provided in place of the drawings: o a listing of the pull points and type of pull point (condulet [90* or straight], pull box, etc.) o the number of turns between pull points in degrees o the estimated distances between pull points o a listing of any odd configurations in a pull such as flexible conduit o type of cable, size of cable, voltage levels o size of conduit o a listing of any long vertical drops following 90* condulets pull-by information
RESPONSE
SQN is currently in the process of determining the final worst-case conduits. Isometric drawings and the associated and pertinent QA records will be provided in the near future. Two sample work orders are attached for your information. Work orders are not QA records; consequently, they are not readily. retrievable for every cable pull. As discussed with your staff, we believe these work order samples are sufficient for the purpose of your review. l o
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3Z416 Page 1 of 1 l Rev. 5 i Y \ F ATTAC10fENT 1
. CABLE INSTALLATION DATA SHEET D3?B D r _g M $ 4'2.1 [6 Workplan Number MM st 57$
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i Cable released to pull as routed. Reel Number
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W p__ l O L 2 9, PAGED-44 OF 23 signature Date 3 -
ACC. NO.. , FOREMAN _ - - _ _ - , DATE , ENGINEER.,. m .... . CONDUgD CAP LE SCHEDULE SE000YAH NtlCLEAR PLANT / CONOUIT OR N o. TYPE SC ALED CAPtF HO. CO*fNtfT ef7F ff,W u 2 CA*f m tent.Tw EVistcN 1H 3413 B CABLE 1-7 C 10 WFGDI 226.0 R00 ' VOLTAGE LEVEL 11 J FROMt 1-M-1 C.NC 5,73 2 lM32.973,3M N p ; Tot 1-L-571, P NL 5, X A 5, 6 FOR8 POST ACD $ ECH L5200 ~M D i: CONOUIT ROUTING {tQ15 410,MC25988, CONT C ARD 2 ' TRAY ROUTINGt No . .a -u LT -B l RELL NO. $NP , SNP , SNP 1 FIELD C A8 LE LENGTH , J l' ACC. No.. _, FIELD CONDUIT LENGTH I ,A , FL , ACC. NO. , FOREMAN ._, DATE , ENGINE ER i i p
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Cable released to be pulled as routed. Verified by: /4' / 69/7[6 Inspector Reel or Contract No(s). (,</A77-f6 b/73^~ ff%v79 9/)A' $7-2273R7~Date '
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I stRTUWI - 11783 EDI - L6235 Page 1 i. N - 11783 ECN - L6235 00P0Uli MABER - IPP562B CABLE CABLE SIZE LARGEST RABER Fanx lPR WIR IDENTIFIER (AllG) 0.D. CD O. 00 0F C010. (Ibs.) (irrhes) (Inches) IUSER(S) (101)(in.) (incties) IPP562B 2/0 1.117 1.117 3-1C 2555.52 - 13.404 13.404 THE CALCULATED WAXIMAI ALLOWABLE PULLING FORCE FOR YOLR 3 POWER & CCNTROL CABLE (S) IS: 2555.52 lbs. NORXPLAN - 11783 ECH - L6235 CCt0Uli SIZE-MABER 1PP562B FOR TE FOLLOWING CABLE (S): FROW PLLL POINT B TO PULL POINT A 1PP562B OE LENGTH,
,ALUE CASE RADIUS. Tec SVP to. OR CE0REES T(1) 1 3.83 ft. 2.92460715 lbs. O lbs./ft.
T(2) 8 20 deg. 2.741178425737 lbs. 1.236587759826 lbs./ft. R=1.17 ft. T(3) 2 .67 ft. 3.710036541353 lbs. O lbs./ft. 20deg. l
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V(4) 5 20 deg. 4.70121305657 lbs. 2.120789536173 lbs./ft. R=1.17 ft. T(5) 1 3.33 ft. 7.24401770657 lbs. O lbs./ft. l I 1 WP 119 A ~b l 4 OF '^ ~ 2 0 PAG
IUtl(Pl#1 - 11783 ECM - L6235 Page 2
,6) 8 90 deg. 14.30467068153 lbs. 6.453057016293 lbs./ft.
R-1.17 f t. T(7) 2 8.92 ft. 29.04427068153 lbs. O lbs./ft. 90 deg. T(8) 5 5 dog. 30.05944788189 lbs. 13.56027939257 lbs./ft. R-1.17 ft. T(9) 2 2 ft. 34.43634241764 lbs. O lbs./ft. 85 deg. T(10) 8~ 5 deg. 35.05312464794 lbs. 15.81300380753 lbs./ft. R=1.17 ft. T(11) 2 7.83 f t. 51.73102464794 lbs. O lbs./ft. 90 deg. T(12) 5 35 deg. 65.49107594582 lbs. 29.54403191417 lbs./ft. R=1.17 ft. T(13) 2 5 ft. 76.4049743909 lbs. O lbs./ft. 55 deg. T(14) 8 35 deg. 94.6381NmR4 lbs. 42.69273259558 lbs./ft. R-1.17 ft. T(15) 2 2.5 ft. 99.96316586964 lbs. O lbs./ft. 90 deg. Mc=1.195 , WEIGHT OF CABLE (S) 2.13 , CCNDUli 1.D.=4.03 , COEFF. OF FRICT.=.3585 YOUR SIDEWALL PRESSGE VALUE = 42.69273259553 lbs./ft. MAMACTWERS RECC14E10ED SWP=300 lbs./f t. THE EXIMM ALLOWABLE PULLING TENSION FOR I TIE 3 CABLE (5) IS = 664.6381658896 lbs.
............................. . ....... ..... .......*......................... 1 Typ //~l 93
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*RKPLAN - 11783 ECN - L6235 00Mli SIZE-MABER 1PP562B Fm T}E FOLLONING CABLE (S): FRuli PULL POINT C TO PtLL POINT B 1PP562B NN)E LENGTH, VALUE CASE RADIUS. Tem SIF MI. Gt DEEEES T(1) 1 6.67 ft. 5.09324535 lbs. O lbs./ft.
T(2) 4 90 deg. 8.944561588579 lbs. 4.035029341248 lbs./ft. R=1.17 ft. T(3) 3 4.58 ft. 10.69473304518 lbs. O lbs./ft. 10 deg. T(4) 7 35 deg. 13.78575238848 lbs. 6.218964990942 lbs./ft. R 1.17 ft. T(5) 3 3.75 ft. 10.16255049993 lbs. O lbs./ft. 45 deg.
- 6) 4 90 deg. 17.84708031858 lbs. 8.051092502179 lbs./ft.
R=1.17 ft. T(7) 1 14 f t. 28.53755031858 lbs. O lbs./ft. Mc=1.195 , WElGiT OF CABLE (S)= 2.13 , COWUli 1.0.=4.03 , COEFF. OF FRICT.=.3585 Y0lR SICEWALL PRESSURE VALUE = 8.051092502179 lbs./ft. MAMJFACTlRERS RECCHEEED S1F=300 lbs./f t.
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THE MAXI H ALLCWABLE PULLING TENSION FOR THE3 CABLE (S)IS= 664.8470803186 lbs. wp //7 k h P A C'.b 'S .. N
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ERilPLAN - 11783 EIN - L8235 g 4 MAN - 11783 ECN - L6235 Cultuli SIZE-MASER 1PP562B FOR TE FOLL0lllNG CA8LE(S): FROW PtLL POINT 0 TO PULL POINT C 1PP562B N00E LENGTH, VALLE CASE RADIUS, Tem SIP NO. (R DEGtEES T(1) 1 10.33 ft. 7. m 9 lbs. O lbs./ft. T(2) 4 (ideg. 10.45324948408 lbs. 4.71562166149 lbs./ft. R-1.17 ft. T(3) 2 2.8 ft. 15.28689320376 lbs. O lbs./ft. 30 deg. T(4) 4 45deg. 20.25P22835403 lbs. 9.138798475554 lbs./ft. R-1.17 ft. T(5) 1 17 f t. 33.23951335403 lbs. O lbs./ft. T(6) 7 20deg. 38.24388068643lbs. 17.25240294504 lbs./ft. R-1.17 ft. T(7) 3 2.58 ft. 33.21563246873lbs. O lbs./ft. 20deg. T(8) 6 20deg. 42.81345061413 lbs. 19.31380624051 lbs./ft. R=1.11 ft. T(9) 1 3.83 ft. 45.733C5776413 lbs. O lbs./ft. T(10) 7 30 deg. 55.71104567376 lbs. 25.13210979645 lbs./ft. R 1.17 ft. T(11) 3 1.75 ft. 55.00457299856 lbs. O lbs./ft. 30 deg. 1 y,rp //7 D
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4'$f6%Y : 4 . 4 j- IE M PLAN - 11783 ECN - L6235 Page 5-i. 5 M(12) 6 30deg. 65.48784367325lbs. 29.54257378629 lbs./ft. l ~.N R-1.17ft. p T(13) 1' 3.25 ft. 67.QRMYM lbs. O lbs./ft.
'T(14) 8 30deg. 81.47535057831 lbs. 36.75478411281 lbs./ft.
R 1.17 ft. i ! T(15) 2 3.25 ft. 87.nn w onq58 lbs. O lbs./ft.
, 30 dog.
4-j -T(16) - 5 30 deg. 105.9419225248 lbs. 47.79203112666 lbs./ft. 1 R-1.17 ft. 1 { T(17) 1 1.75ft. 107.2782312748 lbs. Olbs./ft. i l T(18) 7 30deg. 129.9582667515 lbs. 58.62617348954 lbs./ft. i R-1.17 ft. - i i T(19) 3. 3.25 ft. 128.646246069 lbs. O lbs./ft. i s q. 4 1
; T(20) 6 30 Cog. 154.3353276675 lbs. 69.62304070045 lbs./ft.
i R=1.17 ft.
- ,T(21) 1 2 ft. 155.8625376675 lbs. O lbs./ft. -
t i 4'* J , Mc=1.195 . WElGHT OF CABLE (S)= 2.13 , CCEUli 1.0.=4.03 , COEFF. OF FRICT =.3585 1 Y0 m Sl0EWALL PRESSW E VALUE = 69.62304070045 lbs./ft. j IMJFACTWERS RECCM)CED S1P-300 lbs./ft. , TE MAXIM ALLOWABLE PULLING TENSION FOR 1 THE3 CABLE (S)IS= 664.3353276675 lbs. 1 i
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NORKPLAN - 11783 ECN-L6235 i .i C0mulT SIZE-N08ER 1PP562B i 1 h 1 J i i WP / /7 PAGE
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- W - 11783 ECN - L6235 -
59 MIT SIZE-MASER IPP563 i FOR THE FOLLONING CABLE (S): FROM PULL POINT E TO PULL P0lNT F 1PP562B-NOCE LENGTH, j- VALLE CASE. RADIUS. Tag SIP M). (R DEGREES T(1) 1 2 ft. 1.52721 lbs. O lbs./ft. T(2) 7 10 dog. 2.156091790939 lbs. .9726461775353 lbs./ft. y R 1.17 ft.
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T(3) 3 4.25 ft. 3.780159190624 lbs. O lbs./ft. {I 10 deg. T(4) 7 80 deg. 5.20437523157 lbs. 2.347773734272lbs./ft. R 1.17 ft. I
; T(5) 3 14 f t. -24.61562476843 lbs. O lbs./ft.
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, h6) 6 15 deg. .3401885607395 lbs. .1534642934198 lbs./ft.
j d R-1.17 ft. ~ 1
; T(7) 3 2.33 ft. -4.33330252883 lbs. O lbs./ft.
j E @. T(8) 7 15 deg. .5624311709223 lbs. .2537213539903 lbs./ft. R.I.17 ft. T(9) 3 13.58 ft. -28.36296882908 lbs. O lbs./ft.
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j .T(10) 4 45 deg. Olbs. 0 lbs./ft. t R 1.17 f t. I I ia T(11) 3 3.33 ft. -4.871229261503 lbs. O lbs./ft. I i 4 .
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ERNPLAN - 11783 ECN - L6235 Page 8 A. n 60 deg. .
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R=1.17ft. J T(13) 3 2 ft. -4.26 lbs. O lbs./ft. 90deg. We=1.195 , NEIQiT OF CABLT(S)= 2.13 , COEuli 1.0.=4.03 , COEFF. OF FRICT.=.3585 Y0 m SIDENALL PRESSLRE VALUE = 0 lbs./ft. MAMJFACTWERS RECOMOED SIF=300 lbs./f t. THE MAXIMJW ALLOWABLE PULLING TENSION FOR
- THE3 CABLE (S)IS=665lbs.
i I NORKPLAN - 11783 ECH - L6235 CCTUli SIZE-NL3eER 1PP562 FOR THE FOLLCWING CABLE (S): FRCW PULL POINT F TO PULL POINT G
.1PP563 -
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J.0CE LENGTH, VALUE CASE RADIUS. Texp SIP ! NO. OR CEGREES i i l T(1) 1 11.58ft. 8.8425459 lbs. O lbs./ft. ! T(2) 8 90deg. 17.11194441265lbs. 7.719461385229lbs./ft. ! R=1.17ft. T(3) 2 2.83 ft. 23.13984441265 lbs. O lbs./ft. 90deg. Mc=1.195 , NElGiT OF CA8LE(S). 2.13 , CCNDUli 1.0.=4.03 , CCEFF. OF FRICT.=.3585 I
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WE9MW5C?WF kAW6 E! E s iE M M3 38#*NEP.sN914~/.?;& WFfViiWJiW A & A i d. WsfN Ni gN .ff#BAM2fM NE S M P.s ii n ?s 3 7]lilj~ E Fi MPLAN - 11783 ECN - L6235 Page 9 h YOLR SIDEllALL PRESSLRE VALUE = 7.719461385229 lbs./ft. g................................................................................ WAMFACTIRERS RECCM10ED SIP =300 lbs./ft. THE MAXIEN ALL0llABLE PULLING TENSION FOR THE3 CABLE (S)IS= 664.1119444127 lbs. CO M NTS
///
INITIAL CALCULATIONS DONE BY: E ^/ /7 8 JillNIZANTA$iGINEER 6 ATE' VERIFIED BY: e - pvxs 4/[/7/df SIGNA DATE
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{5 .. lbs/ft. Weight Correction Factor (W ) /. /ff h, 0 - c K or s(bar o. JJ8C rj. g 0.D. of AWG Cable identifier Cable No. of Largest or Node Case Length of Angle frcrn Angle of R Radius *T E or M Ntober(s) Cond. of Bend 0.0. Conductor fac MCM *MPR Value O (1) / P P SZ;,2. 8 / /s 7 3//c /. //7' /2 1/o
*MTR No. Conduit Horiz. Bend (in ft.) out (dj; ij T, / C.C7* o* - -
hk ,* l O (2) T .2. Y ~ ~ 90* /// '. O (3) TS 3 m .:,s ' /o* - - kb D (<) T9 7 - 5 35# ^/7 p:. O ts) T.h. (. Tr 3 2.75 ' 1s* - - Q:; O (6) T 4. Y - - fo* /. / 7
- h.f{'j j O (7) /Y '
T7 / C #
.h O (ES)
T R'yh l O (9) T sj- , O (10) T o (.), C (11) T 1 i O (12) T D (13) T
]Q
- . p C (14) 'g, T
i,, $ C (15) T
.I
- Calculated St.P Value Ibs/ft. *Maxinnin Allowable Pulling Tension sca a siura nas tina .
'M AS D G "'D " Idif4' . : o)
; -[ '
Ibs. c C ne suo umo... : a) Frcun-(" "3""U- - - - i 03 i*h Q l T- 8 '"^8'*' f~' f'r '# k 1 (casa s)
' -c7 67 l Cab 13 0.D. and 0.D. of 1.srgest conductor should be entered in inches. Lerph of conduit runs 3 (cess o i and bend radius should be entered in feet. All angles should be entered in degrees.
[ ' 'j at e m j m. 3 o) ,
, fj l #This is the FNE value which is the total F value for a single or group cable installation.
giorg A , . . , , , g 3, r ics.t a . .. . . .... .. : (o f '-
'cv f 'h NK -
l I tihese r:1ues nuy be written in by user during program initiation if desired. I
/ J f lC 5 E C .... .. ......: (F) f ics-t o . .. . ..
FOR A !!5if f POINT SGRI INitt..
- (n (9)
{ (cesET) g
.. r.
a umse 8) ci,a pos iin, ,,,c, ve,tscal sena a,oona a [f l
- r. A .'
3 KTp $ 67 Placa " check" in block if cable is shielded.
/ f . A.DLla t3 CC'culf it M. . ..:(10) k-
/F Plac2 an "X" in block if cable is an instrtraentation-type cable. e 'il
'd' Page PAGE _1 ' ' OF of
. _ _ _ _ . - _ _ . - - - . - - - - -- - - - - ' - - ~ ~ ~ ~- '^
Workplan No.
//783 Y'
- ji ECN so. t c.235- Conduit No. +z - /Mo.57-2B er nux (totai for cabiets)) . WI i
Approved SWP Value /OO lbs/ft. g. .,i Weight of Cable (s) .2./3 lbs/ft. ~ Weight Correction factor (W ) _ / /95 K or K O . 3f8 5' c bar 6 0.D. of AWG tength h.* Cable identifier Cable No. of Angle Angle Nmber(s) 0.D. Largest g or Node Case of from of R: Radius of Bend
*T or hh Cond. Conductor fac NCM *MPR *MIR Value f, (1) /PPSG18 / //7 ]//C / //l /.2- !
No. Conduit Horir. Bend (in ft.) out {k, (
*/ O T/ / /O. 33 ' O* ~ "
O (2) T2 9 -- - 5'5* * //7[ O (3) 2 T3 .2. 6 ' So* - -- D (4) $*N T 'Y ~
+'s * /. / 7 O (5) - ' by..
Tr '
/7' o* - -
O (6) T s- 7 - ~
.20 * /./7 '
\ O (1) 7 3 ./. $8' T .zo* - ~ O (8) TB k - O (g)
.a. o # //7 T 9 / # kr) 3.83 O ~ '
O (10) T /0 7 - ~ [mh g (1)) Jo* /. /7 T // .3 /. 7S ' 30* ~ ~ O (12) T /1 6 ~ ~ Jo* f s.
/. / 7 O (13) p 3.25, k ~ ^.
T /3 o* - - C (14) , T/V 8 ~ ~ Jo# / /7 O (15) T/r ,2. .f. Es ' , .Jo * - -
,. 9
- Calculated SWP Value Ibs/ft. *Maxinus Allowable Pulling lension TOR A STAAIGfi RUN thf(R . ...: (1) 1bs. * ^N HG H" 8* I8ER* %
pg g 0.f RARD SLOFO...... ..: (2) ?[ (DCWKd/Jo $ LOPE).... .. ...: (3) g' n: C W'f t.
* * " >c ' f.-~s 8*
Cabl3 C.D. and 0.0. of largest conductor should be entered in ! riches. Length of conduit runs .L (casas) v M f.$ and bend radius should be entered in feet. All angles should be entered in degrees.
", fQA m(A _ -: o) 3 (cess s) pjk sihis is the fstax value which is the total F value for a single or group cable installation, f icst A ..... .........(n ["*
ft eThese values muy be written in by user during program initlation if desired. max floSt 8 ... ... . .... ...: (si r ic ss c .... ... .... ... ( sn ) (caso)
. g.jI :
I tast o . . .. ..~... .. : (s) , y u .) pn
--e.,,ci,4 m is ,ro,c, n,ooo4 . - ;
verascai send
*70R A DEff **"P0llii
" SME - d'a) INi[R...: (3)
^ 5"a J Placa " check" in block if cable is shielded. WP _ // 7 8 3
& Piaca an x" in block if cabie is an instrinnentation-type cabie. -
Page or
'I PAGEg'~#)p 0 g-2_G
'i.
.sl
Q_ Qt;) .... QY., e
~
Workplan No.
?*
// /B3 ECN No. t G 2 3 r Conduit No. 4r- /Pd56.2B nr Approved SWP Value _ 'O lbs/ft. Weight of Cable (s) ,2. /3 lbs/ft.
nux Weight Correction factor (W ) /. /T (Totai for cable (s))
- [ it'V C. . l K or Kg O .JSBf 2, [
0.D. of AWG N Cable Identifier Length Angle Angle R-Radius Cable No. of Largest or. *T or )%:,2 g Node Case of from E Nunber(s) 0.D. of of Bend Cond. Conductor lac MCM *MPR *MIR Value No. Conduit lloriz. Bend (in ft.) out fh
'/sc g (1) / PPSG2 B /.' // 7 (.
/ // 7 12 2/o r f,y)
T ic. - Jo* /. / 7 9 (2) Yy', Tn / A 7E ' O - 9 (3) T es 7 -- - 30 /. /7 7 (4) y jy 3 1.2/* Jo* - - i I k'Iffi 9 (5) - T 20 fo - - Jo* / /7 9 (6) /
.l T4 2' O ~ ~
7m T
] . f 7 (8) T
; J 7 (9) T
( f 7 (10) g, T 7 (11) T 7 (12)_ T {g-{' T y '. 7 (13) p T 7 (14) .. T v. 7 (15) ( : j', T b f Calculated SWP Value Ibs/ft. *Maxinun Allowable Pulling lension r..s iu m . .. , o, Ik o, . D Ibs. 808 ^" *]D]I"TI8' ,, h (0 * #o51cri>-.. ...: 0) 3 c em A erre-f -~ s , [. e. r
. JT 1 3
sbla 0.D. and 0.D. of largest conductor should be entered in inches. Length of conduit runs '
.t (taa s) 3 (cese si t s;,,
y ^ [t b "f " " " and bend radius should be entered in feet. All angles should be entered in degrecs. R
~'s Ihis is the F aux value which is the total FHux value for a single or group cable installation.
gicsg A ,, . . . . ..,,, g 33 f ian s .... . ... .. f . f
- (si s 1hese v:1ues nuy be written in by user during program initiation if desired. f ID EE C .. .. ... .. .....g : (7) [ (c450) ')
~
f *810 .. . . . ~ . . : (t) g usu 4
/ TOR A D$l(( POINT $4001( (NI[R.,.: (9)
--tweetea rumn, ronce are . '
Vestical senJ ; *- . ff P1rcs " check" in block if cable is shielded. 7 Placa cn "X" in block if cable is an instrunentation-type cable. gp- //7 g,g f3 A DetIEED CDcut! AN... ..:(10) L Page of US:CC $ ',,
'h e 26 [
C .' Y ' orkplan No. _ // '/83 ECN No. L 62 3# Conduit No. Y~ /888028 #F (Total for cable (s)) pproved SWP Value /OO lbs/ft. Weight of Cable (s) '3 sklX .
.. [: .
- 2. lbs/ft. Weight Correction Factor (W ) / /95~ K or K ' G' tbs ~
bar . 'I D.D. of AWG Length Cable Identifier Cable No. of Largest or Node Angle Angle R= Radius *T exp or .h' if
+
Case of from of of Bend . Nir1her(s) 0.0. Cond. Conductor fac MCM *MPR *MTR Value No. Conduit floriz. Bend (in ft.) out er $'
] (1)/PPSG28 / // 7 ]bc /. // T /2 E-/O Ts I /O.25 O ~ ~
7 (2) V T 2. ~ ~ 70 /. / 7 .h 7 (3) T3 / '/. 33 ' o# - ~ i 7 (4) T -/ 8 - - Jo //7 f'k 7 (5) ' { . Jo# I' $il T .5~ 2- .2. - - J (s) .7 T r. - -
.J o * //7
- 7 (1) T7 / 3.33' O ~ ~~
r p. 7 (8) T8 'l . ^ ~ So /. / 7 7 (9) T9 / 3' C) ~ ' f 7 (10) T 7 (11) T ( 7 (12) 7 (13) T T h[ [. . 7 (14) T I &
' 7 (15) ]
T I
!alculited SWP Value rm a stastort nun tutta . .....: tu Ibs/ft. *Maxinnan Allowable Pulling Tension 1bs. Im AN HGHE INTE g).
i.05 D (00matARD Sl0Pf).... ....: (3) I' 'y 1 g g rm A ste f -% k , i, ,,,;._ c'/ ; A (casa s) , (cess o - 213 C.D. and 0.D. of largest conductor should be entered in inches. Length of conduit runs a aeo ta . -: 0) fg, ,A e g q ,, and bend radius should be entered in feet. All angles should be entered in degrecs. Ihis is the F value which is the total F value for a single or group cable installation. s icmt A ... ... . . ... .. . . : ( 5) tront a .. .........:(s) [' ;i OklX maK f l0 EE C .. . ... .........: ( F)
,8
, g(casti) v.
ggy g) ( - These v3 lues nuy be written in by user during program initiation if desired. f lu5f D .... .. . - . . : (s) g
-.e.p.ci.4 poi iin, ,,,,, n,oona , / FOR A Ilmf( POINT SA00lf (MIf R., : (9) vertical senJ Im A De(00!O (Deut! RJN. ....:(10) ,,
7 Placa " check" in block if cable is shielded. l: 9 Plac; an"X" in block if cable is an instrtsnentation-type cable. WP_ // ~703 a :: Page of r, L PAGE
- NFb-.-- Ed. $
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5* ' Workplan No. _ / / 783 ECN No. L 6235~ Conduit No. "/1~-/MJ7a28 #F max (Total for cable (s)) . Apprcved SWP Value /00 g, lbs/ft. Weight of Cable (s) _.2./J Ibs/ft. Weight Correction Factor (W ) /. /97~ K or K o.3SBf fi, i 0.0. of AWG Length Cable Identifier Cable No. of Largest or Node Case of Angle Angle R= Radius *T
**E or ".
};
Nunber(s) 0.0. Cond. Conductor from of of Bend 'T fac MCM *MPR *MTR Value No. __ Conduit Horiz. Bend (in ft.) out O (1) /PPS&2.8 f. // 'T 3//c. / // 7 J 2. A/O TI I V O ~ "~ O (2) T 2. 8 - - 90 A / '/ O (3) h. T3 2. 2.83 ' 90 ~~ " 5F D (4) T O (5) ' O (6) T b-a T
- l O (7) -
g-r, __ T D (8) T D (9) T h , J' . O (10) T
. Y:
D (11) T L O (I2) T L i. O (13) h,[ T C (14) T O (15)
'a.
T @' D
- Calculated SWP Value Ibs/ft. *Maxinamt Allowable Pulling Tension im a smann mm totR . ... ..: (U Ibs. rm an sena mes inta- .
From. /2- (ts sAAD stof t)... .....: (H e) (00eNIAAD $l0PE)...........: (3) T= C., g ~s f' rm aete- s, k Lr
,,,- c'/ i. ..
Cab 12 0.D. and 0.D. of largest conductor should be entered in inches. Length of conduit runs .a. (casa s) , (cess o
'" "* ta. _:to i . ::
and bend radius should be entered in feet. All angles should be entered in degrees. an ae ta ,, ! sihis is the Fmax value which is the total F value for a single or group cable installation. I mmt a .. .. . ..........: (5) [ ik ,, max r mat a ... . . . .... .. ... . <s) e,# tihese values say be written in by user during program initlation if desired. r tost c .... ... .. .. . .. (U I n*t 0 ..... { s(uso) , cuy o (n 3
/ r0R a D
--r s co.4 evisin, rose. nround .
westical sena
)' /F Picce
- check" in block if cable is shielded. //'"'7 h 3 ran a pe.4E Palm SADutt teta...:
..:tio)(g)
'l WP tsto cucuir am.... {.
& Place an "X" in block if cable is an instrimentation-type cable. ,
Z ,,. g Page of ',
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SQNP fl&AI-13 Data Sheet 4 Page 1 of 1 Rev. 6 t1R H INSPECTION OF CONDUIT SEALS WORKPLAN # Conduit #, Column, Elev. and gt,q,fo 7/w e b eib ( D Building jfers x A
/2.490 6 0,57 fe # '
EL Geo O t.'/ e r Sou M S, e, JPPT&RB B* 60 9 _ _ ifPStr1 R 6.E.4.b Cleanliness acceptable 8 #Go2 g//'acaux i lOffEr /hatixl' 6.E.4.c or f Cerafiber installed I6////6 Yffns /0Y/f5b . for minimum of 1 inch s fls, uni , //y/Kf6 (1/wwn f /f.7#ff
- 6.E.4.d or g Conduit sealed per Ass / OWfk
/l, hoc t) 45W880-26 c llwK6 (W2/en / loc 6%f4 /- ,
t - &ned s I6#fl6 Conduit 9, Cclumn, Elev. and 7~Aermp legg & ~Th ermo I EL. 490 t e* l ey Wer/As.de R ;i Building 54,490 Ge*f'f ed9/6ouhsdh j 1P_P1&2 B JB '60') > IPPSLT l 6.E.4.b Cleanliness acceptable W 6*foon) / l; R\ <+4f'tof,,[
/dffff(g h/W /_ YYh s /
6.E.4.c or f Cerafiber installed , r~I Eor minimum oE 1 inch //$}/gm,/
~
L
/ 6#' f$r -
/Y24Y ,
6.E.4.d or g Conduit sealed per
/
( a 45W880-26 g/$ayw/ lbf//'[(/ *2 Drawings: & $/Q , / y s
.f Q NOTE: All signature blanks to be signed and dated by QA Inspector.
C fQ Thtse a<< a Il Therma lay e on da le F sea /> DRD V/9/B& ir c
'b 'i i.
3,y s'd g, 1
'h; e
a . _ _ _ _ _ _ . _ _ _ . . _ _ ____________m - _ _ _ _ _ _ _ - _ _ __
m SQNP
!!&AI-13 '!
Data Sheet 4 : Page 1 of 1 $ Rev. 6 INSPECTION OF CONDUIT SEALS MR # WORKPLAN # cd Conduit #, Column, Elev. and swou.,m, N d M T d' M to' d AT. Taas 4 a . .t liv n qw g, Mpa 4 uv Building ( .nt>]..d _ . l Ef bb9 b OMudtIFFSto43 MAJ //P 5Lt 3 .6 6.E.4.b Cleanliness acceptable Nd[ //&//-8J /cL12EE _ / l /2- 7[ 6.E.4.c or f Cerafiber installed f I for minimum of 1 inch 3d/b _ . //Of/'[I S /4-82-f(. f '
. Og /S-72 Fd 6.E.4.d or g ealed per g ,
Conduit #, Column, Elev. and 3
""' ". M . 4 'Da ' '
Le incJe spa'e #* '5 d
- 2'"'#GM
, Building Cen4..1 IPl 3 na das Oswl& ifI. 3nid a86 hie 4 d My,+. i ppSqg F4,,
\
6.E.4.b Cleanliness acceptable z. /4-/2 F4 [ /d /2-16 _jghd /_5 6.E.4.c or f Cerafiber installed for minimum of 1 inch .[gt /J-/2-74 / J-/2-## MM / 4 f, 6.E.4.d or g d t sealed pi r T ,
-e Drauings: i , 0, w I nbN enkb nr 45M822- hok j
d T NOTE: All signature blanks to be signed and dated by QA Inspector. 3 \ a s'. /g/ m (t' y - 7 g
+3 y k e
l SQNP l M&AI-13 Data Sheet 4 Page 1 of 1 [ Rev. 6 l I INSPECTION OF CONDUIT SEALS MR # WORKPLAN # i Conduit #, Column, Elev. and c Fc g 3 II st'No K 4 4 5. I k #M* Building dQbm_T_gDt.3allfh codtwT I PL3083 6 Cswb1 JPf 50. 8 6.E.4.b Cleanliness acceptable )]. Jl:nb l I:/* 7lgf )!,,h.dY / ps/t r!) (~ % 1 h a g [ l 6.E.4.c or f Cerafiber installed
/ 7j/[#
' 1 //
for minimum of 1 inch ' . M. . ~b /,dtr/Y .j/,fM J /f s /, 7 /g' A I 6.E.4.d or g Conduit sealed per 45W880-26 i' 'l, - / re // '//f )Y, M /ia// 7/W' 31 / k/) A gg or j'Rudf af44 /gu s 'D+ As%Wy EL 49o C.ewrify 5 Jc+oud(A T- L* = L ha) Conduit #, Column, Elev. and Sc 7s Fcco t Ec '7s FLo 3 f * " - M ; Building C lok a :Pc si8 to.J e w -T # D4. 13 8 Cmdog f pps-(,4 8 6.E.4.b Cleanliness acceptable / [/ / 'N [ / 3,2 7./ 6 6.E.4.c or f Cerafiber installed for minimum of 1 inch ! / / [ /3 E2 O 6.E.4.d or g Conduit sealed per - 45u880-26 / / ?Y- / 3-24 A(> Drawings: m d
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'l NOTE: All signature blanks to be signed and dated by QA Inspector.
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WP - //7#7 SQNP PAGER.I M&AI-17 Data Sheet OF % 20 Attachment A Page 1 of 2 Date [/
/6/9/g5 Rev. 5 / /
To be filled in by cognizant engineer: Workplan/MR No. // 7 b b
*I.D. No. I- /P P S 6: 2 6 *For sleeve use mark number.
- C 'J Location / Orientation: du Z BLD4 E4 7 3 6'MNA/2+5'tJer)7,*aI Reference Drawings: 6M82 6 - F_ -7 f
/ /%141*d/2 To be filled in by Mechanical QC inspector.
- Section 6.A.1, 6.A.2 .
- 1. Concretesurfacesroughened/freeofdirt, dust,\ /J-M foreign matter, etc. 7 Inspector Date Section 6.A.
at *
< /]Mb /_/870 Complete it /Odofk/ M/f
'/ ' Inspector Date ' Time Inspector Date Time 4
Section 6.B.1 and Attachment A
- 3. Orientation and alignment of baseplate / sleeve acc. :
////d'i&Wwj? / /?305$h Inspector Date Section 6.C.2,7.B
- 4. Type of grout used: 6 f 7 7/ g // [f'/#u A
Inspectob
/ Md#
Date Section 6.C.6,6.C.7 /
- 5. Grout application completed: ffInspector if2e/ //60 Time
/ Date
[8dh Section 6.D.1 /f/ /p/ p - /;
- 6. Forms removed: Side one h , /k' b/of /3 4-%
/ Inspector Time Date Side wo .
Inspector
/no ro / d 8_6 g Time Date Section 7.G
- 7. No visible voids: Side one // ;W//// /_ /j/f/f'/ df/)ff,
' Inspector Time Date -
Side two db /z)a go / J 4 fk' g ' Inspector Time Date k
g p WP_ l/7D M&AI-17 Data Sheet PAGE%2 Op agT,z y - o Page 2 of 2
! Rev. 5 O// o 7 C %C.
Section 6.D.1 thru .8,7.D 9M
- 8. Curing compound applied: Side one / /TimeM 43 4
- ~ I spector Date end/or Side two *y -
/ doff / 3.4. t(
I#spector Time Date Wet burlap applied: Side one //A / / Insfect r Time Date Side two A/ / / In(pe tor Time Date Removed: Side one dM Inspector /
/ /
Time Date Side two M / / Inspectof Time Date VOTE: Any blocks not applicable to inspection require entry of NA. Remarks: M cunmi-(cmpewe ApplirD ~70 ~7 boo $trufl 11/ CPS CcIEfe1) Aq TAM STdit 1 5oCh PcL gLGwl: A f 7f/C Cd3MfC Af/AM. I I 1
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9 SONP . l PHYSI-13 1 ttachment F Page 66 of 78
! Page 8 of 8 Revision 47' PENETRATION FIRE BARRIER AND/OR ABTE SOUNDARY DOOR BREACHING PERMIT l
Date of Issue: b Expira ' Date / PRO mo. Unit No. Permit No. b
*Date and time breach was actually made /MO Rev. Expiration Date I Extenston Date Date Time No fire barrier (including fire doors, fire dampers cable penetratton No AS$CE boundary The precautions and procedures listed below must be followed.
4 t barrters, or thermal fire barrter) shalt be breached except under the controls and restrictions of this procedure.This single perintt can serve to control doors shall be breached except under the controls and restrictions of this procedure and TI-77. Signature and acceptance of this permit impile l breaching of doors which are fire doors. ABSCE doors, or both. The foreman or supervisor is to knowledge of these requirements as outlined in Pnyst-13. Attachment F and those outilned in TI-77. return the ortetnal copy of this permit to the shif t engineer If a fire af ter door theorsatisfactory ABSCE doorperformance was breached ofto$1-233 provideoraccessiblitty SI-261, as (i.e. appitcable, and/or after maintenance as per M&AI-13 has been complete. t l I movement of equipment, running welding leads. etc.) and no door maintenance was required, the permit may be closed by a v SuaThe foreman or su j I inspection promotly that the door was returned to functional status and verif ted by stenature' on Attactanent F.inttlate constraints of TI-77. Penetration No. Penetration barrter identification: Fire Door No. Fire Damper No. Opposite ooor me. Reoutred Operabie g g! OtherA656E CenMM IPP5MAaSCE oor No. levation) Purpose For Breach k 4 h5atton tiding b)?ce $2 II % l
; ~EL (b"34 0,fNrMIL C'WrL' RtGutsted T~ -
by: EU IlsAUrNN 1 Eles Klad / LJM 9 / 'f / 2.M / R(o Moritp13n or MR No.: Il] 8 %
~
foreman or Supervtsor section Phone No. % ate ' Check as Completed or as Appropriate:
)
gt< 1. Appropriate Entry Made in SE Log
- fire watch estabitsbed as required by Tech Spec action statement 3.7.12.1.
Continuous ( ) or roving ( . ! yl< 2. PHYSI-12, Att. C ts re tred tf the door )isRadlos in a CO: protected area. (LCO. 3/4.7.11.3) ) CNT provided and doors capable of closure within four minutes of notification: ( j 3. 4 Continuous door wate estabitsh . ( 8We ! $. Authortzed ay: h Representative
/ Wh& Onte
/
Time
' shift Engineer or
). MLAI-13 ( , $1 261 ( ), or visual inspection ( ).
- 6. Penetration rep r nd tShr* 2n_vertfled hv performance of $1-233 (
/ 7/TO vertfted by:
/ b bb Date. Time
" Cogntaan(' Maint. Representattwe t fire watch released and supplemental protection no longer' required: ( ) 18SCE door watch no longer required:
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Date Sntf t Enea #eer or his Refresentative BQII* The responsible foreman, cogntrant engineer, or supervisor shall place a copy of this permit, as gprovided by .
. ; the shift engineer af ter restoration,
- in the files with the coneleted workplan or NR. j N s ,ny,g g 84 *
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v wp / /~183 Interaction Number: .68 PAGE NA-/ O t t Safety Function / Unit: s RCS INV CONT / Unit One Associated Interaction No(s): None AssociatedSafety[ unction (s): None
)
Location: Auxiliary Building Elev 669, Common Area & Corridor A3-A6, S-T
Description:
An interaction exists between Train A & Train B for centrifugal charging pumps. Train A: IPP550A,IPP552A, (CCP A-A); IPL6145A, IPL6149A (CCP Aux Lube Oil Pump A-A); ' IPL3001A, IPL3003A, IPL3004A (CCP Cooler Fan A-A & FCV-67-168) Train B: IPPS62B, IPP564B (CCP'B-B); IPL6152B, IPL6156B (CCP Aux Lube Oil Pump B-B); IPL3011B, IPL3013B, IPL3014B (CCP cooler fan B-B & FCV-67-170) , Corrective Actica: A) Cables for CCP'(IPP562B and IPP564B) B-B and the CCP i cooler fan B-B (IPL3011B and IPL3013B) will be re-routed to provide adequate separation. Cable 1PL3014B does not require protection; it will be disconnected at junction box 1190. B) Cables for FCV-67-168 (cable 1PL3004A) and FCV-67-170 INTERACTIONS Date: (cable IPL3014B) do not need protection. These valves Pr re will be permanently failed in the open position and APPROVALS MEB the associated cables IPL3004A and IPL3014B will be NEB EE3 disconnected at junction boxes JB1189 and JB1190 NUC PWR FPE - respectively. UUC PWR MOD 8 - L NUCPjJRR C) Cables associated with the auxiliary lube oil pumps ' do not require protection. A bypass switch will be l v.- installed allowing the CCP's to be started without .,
~
the. auxiliary lube oil pumps running. map .
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/f' I SQN - Appandix R Project
~ '
[c< '2-. gy y . INTERACTION IDENTIFICATION pv K, n No. [ T DATE jpjy y(g<j UNIT ' b ,- - Location: /kZ-->A///l.6--> 7~ L/^/c~, ELGVM7eAf M 9, du?Istew Av2a+ f to/?/2/p<:v(, Or Discription of Interaction (list cables / conduit / equipment):
~
j2yv /A/7= /?jan7//**A / A=Tfi < 7C m W" AACVf" ' h0AMM ASWSW h/W s**A /A ~ A>*//) 7?/ 77tJ/> 5A /2 :4 A12"/)/SA Af AJAA.,rm_ ,$e" we w wA asJ
~7Aus 1.4. d oo e.a d~is t.se No orbJ ~ --be- <fm/we wAu2- ' n x r i a
-b Su.sjs] MN Mo.
sa PRO No: Compensatory Action: -
- p. Fi/26 t.uk72// A&tS Al/2EAy 4S&W MM /^/ M/S r'? 2&?9 Suggestive Corrective Action: .
u,> />>>>0 M Ah='O w 7=~ C#/kL 4 M . WF l#D/
- . DCR o: MN ' + /70 -l Aced SignAtur b!a l0 !21! $
I.F. ["~ /% Date i ECN No: /6,.f8[ /_d,.p_3g Date ECN scheduled to be issued
'Date ECM actually issued Discription of Modification: (S#ou -RED c46t_E5 / PPSG Z.,g / P P S'd= ' 6 ; I P/-. ' O v 1>: SbtS F u D. Ilk A S oc o A TS D ca tw a r . id s wd s. t rst poser- i.* H 4 Alfa' s,wr'tfo A s . rds.s co - Ps F-rc t> sJo/K oJ Date field work scheduled to start dcP / 8- S .+. c c P s & $ f .-r e u.4 p-A, ro/e /a s Date field work scheduled to co=plete r'/:'.' c / G/-
List Workplan N.o., i ( /.slae li FCRs etc. associated with this modification: pp // 3-'JZp
,w M/<d. f s9 AW /td %"s ^ > 4. fif V7i> Po(, j;<. d// CCfS' ,
c.sp it '7 2 5 Ced c.z % Ye a '.C. 4 /4M 12 /d UC] ^ / Date field work actually ' complete //I'3d '8 5 / 6/2 0'/$ b'
/
Item closed,,., //, . ] ; I.,[,A
- s. i-Signature
[ / 7 / J-4 ' Date cc: H. 3. Rankin, Sequoyah
-(- R. W. Olsen (Atta: Don Maxwell), Sequoyah J. P. Vineyard (Attn: Norm Black), Sequoyah l
SQN - Appindix R Projset WP/WR NO.1[7f3 M 7 INTERACTION IDENTIFICATION PAGE L 3
]
g No. DATE f * /c/ 22.JX4 UNIT />MF
~ #"
1.ocation: b $ Y Yb hA)2/) hlk%'t A Ni 33v Safety Function }}% JAstg,vsv/ des ty//m/_ ' . Description of Interaction (lis( cables / conduit / equipment): Af/ /A/7)WEhTllad/' E'E/675 Ar~ W AMOL/C lMA72Ms' W lb>M Aby?s An /&/A&-n'L AMS< . Os AWS6~-)$ < *'1- % Z~,A. <:Al-2/ FA,e
,* ~~ 9/1LAmr ~
PRO No: . Compensatory Action: A A~.,fre-os./ A%: A u f/ & / .G fd w s es A Gts rs ry) s ,, nn /er>n-s w . I Suggested Corre /v/d;2/ _ o/1 /h:4 ,e M M MAu~< (T-ou-E e >dle,gtive n) Action:f v M
'/>.t r.l. 4 6 7 u r s ec.4 ~ 75-0 s- e.* /. A c-4 Mapt [arN m!
L.aAJ twit.4 . ' (/ I 47 DCR/FCR No: 3/ Y3 1 { a * [. [ Signature [
~
tuu ' [/2'2. /$'[ Date ECNNo:/6388 4- G235 l Date ECN scheduled to be issued Date ECN actually issued Description of Modification: AEa'N "-Tb e,4d t E5 i
/PP ' : r d I PA C4 M. 4 i 1 h. ? ci z A .J D ss cz i A-Ea n . C.a ,- - ;Jz :-A t t -
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r ul-rr~*'ssi c. . Wi: e o s ta e. E'rt h. Ja 41< od C&n i 6. - d.
- a. r, c4154
/how e e. . E4 7 4,J.
+ cc p i e g, Date field work scheduled to start ee/d /8 5 Date field work scheduled to co=plete c / z c. /m? /c-List Workplan.No., FCRs etc. ,associated JJ P 11 ~T 2 3.
with this modification: d/8// M 9 Ses/ t 2.% 5 Fe f 's z. ss-r/h od B Acid,
/
Date field work actually complete * :- 3/) -c6*')~~ Comments: d(l Clk, (m /, /(.,/ ist..de//hbx )./'f//>/ha.,fScyc
/ ' n 6efd(/ S'f) A./ p,,f , &
Item closed , i'R ,) .)Signature,, b L/j/
\
Date cc: H. R. B.W.Rankin, NUC PR, Sequoyah (please' distribute as you feel necessary) Olson (Attn: bj J. P. Vineyard (Attn: Don Maxwell), Sequoyah (please evaluate' feasibility of modifica Norm Black), Sequoyah (please evaluate feasibility of design change) P. R. Wallace, (Attn: Ed Craigge), Sequoyah -(please provide transient fire load protection) w b
9
/-/# r2 Interaction Number: 66 WP/WR NO. il7f3 PAGE b 4
(] Safety Function / Unit: RCS Inventory Control / Unit 1 Associated Interaction No(s): 27
~ Associated Safety Function (s): ERCW Heat Sink Location: Auxiliary Building, Elevation 734, 6.9 kV shutdown board room A (A3-A4/R-U).
Description:
An interaction exists at the above location for both identified CCP paths. The path 2 (B-Train) cables are routed in trays at the north end of the room- . The
/' following cables interact..
Path 1: CCP A-A - 1PP550A, IPP552A, IPP53A, IPP554A, IPP556A, IPP557A, IPP555A, CCP Auxiliary lube oil pump A-A - 1PL6145A, IPL6146A', IPL6147A, PL6148A;
--- - - - - CCP Cooler Fan A-A and FCV-67-168 - 1PL3002A, INTERACTIONS IPL3003A; CCS pump A-A-1PL4729A; Instrument Date: / / / e/A q-L OP L-70-63A - IPM2236; FCV-67-146 - IV2423A Check d APPROVALS / - IPP564B; CCP Auxiliary lube oil pump B-B, Path 2: CCP B-B MEB IPL6152B, IPL6155B, IPL6156B; CCP Cooler fan i EB NUC PWR FPE - an - - -
; nstrument NUC PWR MOD Loop L-70-99A - IPM2435; CCS pump C-S -
2PL4733B, 2PL4734B, 2PL4737B, IPL4735S, IPL4736S S ,
R Interzetion Number: 66 (Continued) WP/WR NO.,ll7P3
.( ) .
g PAGE_I"5 Corrective Action: 1. CCP B-B cables will be rerouted and wrapped as
.v'e /ph ~
necessary to provide adequate separation.
- 2. Cables associated with CCP auxiliary lube oil pumps
- g. y 4 0 do not require protection. A bypass switch will be 4 installed allowing the CCP's to be started without the auxiliary lube oil pumps running.
/y5 3. The cable 1PL3013B for CCP cooler fan B-B will be rerouted to provide adequate separation. s p, (7} 3 4. Cables 2PL4733B and 2PL4734B will be wrapped y/f in a one-hour fire-rated barrier until 20-foot
-separation is achieved from redundant Train A associated component g h CP pump room cooler
{ gW
,f iN"FN ,I 1A-A cable 1PL3003A will be rerouted to' provide
/ o adequat'e separation from cables and components ,
associated with CCS pump C-S. Cable 1PL3002A is not required to operate the CCP 1A-A room
~--
cooler and does not require protection.
----- /
Cable < INTERACTIONS Date: f/ o/gs' V [ '[N 2PL4737B is for an interlock function and will W,. u t 'j Preoaredt f/)/f i I Checked i (//M j be disconnected at the shutdown board breaker. APPROVALS MEB A),y This cable does not require protection. 1 , NEB /M# l EEB Aldf$ 5. The shutdown logic has determined that loops NUC PWR FPE (P NUC PWR MOD M , L-70-63A and L-70-99A are not required. l,NUCPWRR, e, ,.g,6. 9 Cables for FCV-67-168 and -170 do not require 4# ; Protection. These valves will be permanently
# ,sif3 failed in the open position and associated cables IPL3004A and IPL3014B will be disconnected at
{ junction boxes JB1189 and JB1190 respectively.
~'
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B43 '86 0 9 0 3 9 04 (2/lItecord TO : Those listed . FROM : W. S. Raughley, Chief Electrical Engineer, W8 C126 C-K DATE : September 2, 1986
SUBJECT:
ALL NUCLEAR PLANTS - ELECTRICAL ISSUES - CLASS 1E CABLE BEND RADIUS The purpose of this memorandum is to provide advance direction concerning the I project specific actions which are necessary to resolve the outstanding concerns on the bend radius of Class IE cables. Resolution of these concerns has been tied to plant restart / fuel load and should be scheduled for implementation accordingly. TheElectricalEngineeringBranchhasevaluatedthe[adequacyofthebend radius to which Class 1E cables were installed. The basis for the evaluation was the comprehensive investigation conducted by the Nuclear Safety Review Staff on the same subject during February to April 1985. The measures specified herein are expected to comprise the majority of any project specific corrective actions resulting from this investigation. EEB's final roport documenting the evaluation and providing conclusions and recc=mendations based upon an independent review of our evaluation will be issued in September 1986. Each project should proceed immediately to perform the following inspections, as applicable, and to forward the results to the respective engineering projects.
- 1. The Watts Bar and Bellefonte projects shall inspect the' installed bend radius of all Class 1E medium voltage power cable furnished by The Otonite Company. The cable shall be verified to be installed to a radius equal to 8 times its outside diameter. This inspection need not address the bend radius in standard conduit bends as this has been addressed generically in PIRGENEEB8605. The inspection of the bend radius in condulets is covered in item 2 below. Therefore, provided the project establishes that all cable tray fittings were procured with a radius equal to or greater than 8 times the outside diameter of the largest cable in question and that all conduit bends meet the minimum requirements of DS-E13.1.7. this inspection may be limited to cables in free air (transitions from raceway to raceway or raceway to equipment) and to the points of termination.
All installations which do not conform to the.specified 8 times factor shall be documented as a nonconformance and forwarded to the respective enginesering project for disposition. The documentation shall include the cable and, if applicable the raceway number, the location of the violation, the actual installed bend radius and the rosults of a visual inspection noting any discernible stress on the cable jacket in the area _ .-f: of the bond or any cuts or ripples in the cable jacket which could ";'@ indicate shield deformation. ""
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2 Those listed September 2, 1986 ALL NUCLEAR PLANTS - ELECTRICAL ISSUES - CLASS 1E CABLE BEND RADIUS . Effective immediately, the Vatts Bar and Bo11efonte projects shall take the steps necessary to ensure that all medium voltage power cable furnished by The Okonite Company is installed to a bend radius of 8 times its outside diameter as opposed to the previous direction of DS-E12.1.5. This desi6n standard is being revised accordingly.
- 2. All projects shall perform a field inspection of all conduits containing Class 1E medium voltage power cables for the existence of any
. straight-thru pull box or condulet type (C, ELL, TEE, etc.) raceway fitting or any conduit raceway fitting other than a standard conduit bend around which a cable is bent. The existence of any such fittings, including the raceway number and size, the fitting description, manufacturer (if available) and size, and the location shall be documented as a nonconformance and forwarded to the respective engineering project for disposition.
- 3. All projects shall determine the minimum size conduit that the following coaxial, triaxial, and twinarial cables, if utilized in Class IE applications and routed in conduit, are installed in. If any of these cables are installed in Class 1E applications and in a conduit smaller than indicated below, the project shall perform a field inspection for the existence of condulets of any type (ELL, TEE, etc) in which the cable is bent. The existence of any such fittings, including the raceway number and size, the fitting description, manufacturer (if available) and size and the location shall be documented as a nonconformance and forwarded to the respective engineering project for disposition. In addition, each project shall verify that the following list includes all coaxial, triaxial, and twinarial cables installed in Class 1E applications. A positive statement to this effect or a list of additional cable mark numbers shall be addressed to my attention.
Minimum Condulet Cable Mark No. Description _ Size (Inches) WTJ Coax RG6A/U 2 VIJ-S 1/c #21 Coax Solid Cu Clad Steel 2 WTX #22 Coax RGS9B/U 1-1/2 , WTX-1 Coax RGS9B/U XLP l-1/2 WIL Coax RG216/U Except 3 Shlds 3 WIL-4 Coax SS ohm #22 AWG 1-1/2 WTM Coax RGll4A/U Except 3 Shlds & ST 3 WTM-6 1/c Coax #26, 7 Strands, LOCA 3 WTT-1 #21 AVG, Coax, RGSBC/U 1-1/2 WTU #20 Triax RG ll/U 3 WTN Triax RG-59U #22, 2 Shlds LOCA 2 e WTN-1 Triar Similar to RGil/U LOCA 3 as VIN-2 Twinax RG22B/U 3 WWX TP #22 W/SH TP #20 2'/c #22 2-Coax 3
. .M.Y DNEl - 0594V g.gp
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[ N Those Septem r 2, lifs d 1986 AL UCLEAR PLANTS - ELECTRICAL ISSUES - CLASS 1E CABLE BEND RADIUS -
- 4. The Watts Bar project shall perform a field inspection of all Class 1E coaxial, twinarial, and triarial cables which were installed or modified during the period of May 25, 1979 to May 18, 1981, under the guidance of Design Information Request (DIR) No. E-9. In addition, all projects shall inspect all Class 1E coaxial and twinaxial cables which were installed or modified during the period of September 20, 1983 to April 23, 1986, under the direction of DS-E12.1.5 Rev 0. The cable shall be verified to-be installed to a band radius equal to 8 times its outside diameter. This inspection need not address the bend radius in standard conduit bonds as i this has been addressed generically in PIRGENEEB8605. The inspection of I the bend radius in condulets is covered in item 3 above. Therefore, provided the project establishes that all cable tray fittings were procured with a radius equal to or greater than 8 times the outside diameter of the largest cable in question or that the cable was restricted J to use in conduit and that all conduit bends meet the minimum requirements of DS-E13.1.7, this inspection may be limited to cables in free air l (transitions from raceway to raceway or raceway to equipment) and to the l points of termination. -
l l All installations which do not conform to the specified 8 times factor shall be documented as a nonconformance and forwarded to the respective engineering project for disposition. The documentation shall include the cable and, if applicable, the raceway number, the location of the i violation, the actual installed bend radius and the results of a visual inspection noting any discernible stress on the cable jacket in the area of the bend'or any ripples in the cable jacket which could indicate shield deformation. Each Lead Engineer should prepare a fragnet reflectint, the individual ~ project's approach and schedule for resolving these issues. Please submit a copy of this fra6 net to me for my use and information. l 1 W.S.Raugley4 J. D. Collins, P-205 SB-X G. T. Hall, DNE, DSC-A, Sequoyah D. F. Faulkner, A7-BFN J. L. Springer, 9-111 SB-K , J i
'77fjTMS:TLT /
j cc: RIMS, SL 26 C-K l , R. R. Hoesly, 9-113 SB-K .-.
- J. A. Kletebo, W12 A8 C-K S l M. L. Rayfield, P-104 SB-K ,
, i J. P. $tapleton, DNE A10 Browns Ferry
- +- '
D. W. Wilson, DNE, DSC-A Sequoyah : J. .. Principally Prepared By: T. M. Shea, Extension 2672 - p.y; A 6' I
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ITEM 10 Describe the extent to which different classes of cables were intermixed within a conduit (e.g., V5 with V4, etc.).
RESPONSE
The design maintains separation of.the cables by voltage classification. Design Input Memorandum DIM-SQN-DC-V-ll.3-5, issued March 13, 1986, to SQN Design Criteria SQN-DC-V-11.3, " Power, Control, and Signal Cables For Use In Category I Structures," states that cables routed in conduit shall be separated by voltage levels with two exceptions.
- 1. Cables of different voltage levels may be routed together when a piece of equipment has only one conduit opening. These cables should be separated with respect to voltage levels as soon as possible. Generally .these are very short lengths (less than three feet).
- 2. When the circuit protective device in a radial feeder is capable of interrupting both power and control circuits for a piece of equipment, the associated power and control cables may be routed together in the same conduit.
This DIM was issued to formally document the requirements for separation of voltage levels in conduits which had been explicitly stated for cable trays.
'However, the design reflects that the same voltage level separation has been maintained in conduits as in cable trays since the May 1971 initial issue of -
the design criteria (SQN-DC-V-ll.3). 1 l
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