Text

Chem & Vol Control ISO Revisions.Sheet 1 of 1
	ML18022A907
Person / Time
Site:	Harris
Issue date:	10/12/1992
From:	; CAROLINA POWER & LIGHT CO.
To:	;
Shared Package
ML18010A852	List: ML18010A851; ML18010A853; ML18010A854; ML18010A855; ML18010A856; ML18010A864; ML18010A865; ML18022A904; ML18022A905; ML18022A906; ML18022A907;
References
	5-G-140-141, NUDOCS 9210300066
	Download: ML18022A907 (330)
	v • d • e

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Title:

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Title:

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MOD NO.

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CL3 / Rug@a ntlRRB PY/902HZ Affected Criteria:

Class No. Description of Influence Pages attached af fecting components.

Resultant Duality Class Analyst:

Title:

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Title:

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MOD NO.

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Class No. Description of Influence Pages attached affecting components.

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Class No. Description of Influence Pages attauhed affecting components.

Resuitant Qua!it Class

'AIMLlyst:

Title:

WW. Mrna%. Date: P-BZ-PP Reviewed:

Title:

geigOT'4th, Date: <lagan.

Approved:

Title:

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Title:

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-ol 2166- 8- Ho Pages attached sf!ecting components.

Resultant li Class A Analyst:

Title:

SA'PEC Date: 'p-/< 'PZ j

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ee Delete ~ Add Change Data (Adds and Changes complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3. ew Changed Data: do

4. Basis:

5. Component Data:

a. Is the component part of the plant security system7 Yes ~ No

b. Is the component part of the Fire Protection/Detection: Yes ~ No

o. Lotatlon: Bldg Elev Row/Col Ft.N B E W or Badaoth Radlua

d. Drawings: P&ID SFD CWD Emdrac Other

e. Tech Manuals:

Tech Specs

g. Procedure Numbers:

Requested By: Group: ~~~i~ Date:

Print Name Signature Phone: ~~~ Due Fill ~M* in the above information and send to Harris EDBS Coordinator.

Reviewed By: Group: Date:

Is this component in the ISI program7 Y N S P V Is this component in the VR program 7 Y N ISI Group Approval:. Date:

Is this component in the NPRD program7 Y N U F P NPRD Group Approval: Date:

Is this component part of the RRIL: Y N System Eng Approval: Date:

Approved By:

Completed By:

Form TMM-102-3-3

EQUIPMENT DATA BASE REQUEST FORM MOP NCL see eslNII se~

EDBR ¹

1. Component Tag Number or Master Key: Unit:~ System: ASSED Equip: ~~ Speo-ZD:

Delete ~ Add Change Data (Adds and Changes complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3, Ne Changed Data:

4, Basis:

5. Component Data:

a. Is the component part of the plant security systems Yes ~ No

b. Is the component part of the Fire Protection/Detection: Yes + No

c. Location: 'ldg Elev Row/Col Ft.N S E W or Azimuth Radius

d. Drawings: P&ID SFD CWD Emdrac Other

e. Tech Manuals'ech Specs ge Procedure Numbers:

Requested By:

Print Name Signature Group:

Phone:

~=a'~

g~~ Date:

Due

~~~

Fill in the above information and send to Harris EDBS Coordinator.

~~%'+%'~*'Jpk***

Reviewed By:

Is this component in the ISI program?

/

Y Group:

N S P Date:

V

~~

Is this component in the VR program 7 Y

~~

N ISI Group Approval: Date:

Is this component in the NPRD program2 F

~~

Y N U P NPRD Group Approval: Date:

Is this component part of the RRIL: Y

~~

N System Eng Approval: Date:

Approved By:

Completed By: GrouP: Date:

Form TMM-102-3-3

MOD Hh RKLD RQ%ION NL EQUIPMENT DATA BASE REQUEST FORM EDBR ¹

1. Component Tag Nunber or Masrsr Ksy:

Delete ~

Uuir:~ Sysrou:

Add

/~ Equip: ~

Change Data (Adds and Changes Spoc-ZD:

complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3. Ne Changed Data:

4. Basis:

5. Component Data:

a. Is the component part of the plant security system'? Yes ~ No

b. Is the component part of the Fire Protection/Detection: Yes ~ No

c. Location: Bldg Kiev Row/Col Ft.N S E or Aristuch Radius

, d. Drawings: P&ID SFD CWD Emdrac

e. Tech Manuals:

Tech Specs Procedure Numbers:

Requested By:

Print Name Signature Group:

Phone:

~~

g~~ Date:

Due

~~

Fill in the above information and send to Harris EDBS Coordinator.

~*~%%+~**

Reviewed By:

s Is this component in the ISI program? Y Group:

N S P Date:

V

~~

Is this component in the VR program '? Y N ISI Group Approval:

Is this component in the NPRD program? Y U F Date: ~~

~~

N P NPRD Group Approval: Date:

Is this component part of the RRIL: Y N System Eng Approval: Date:

Approved By:

Completed By: Group: Date:

Form TMM-102-3-3

I. Component Tag Number EQUIP MENT DATA BASE REQUEST FORM INN NL wo Recce EDBR ¹ NL 9

~

ihl&t ": eso Delete ~ Add Change Data (Adds and Changes complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3. Ne Changed Data:

4. Basis;

5. Component Data:

a. Is the component part of the plant security system7 Yes ~ No

b. Is the component part of the Fire Protection/Detection: 'es Q No

c. Location: Bldg Elev Row/Col Ft.N B E W oz Azimuth Radius

,. d. Drawings: P&ID Emdrac Other

e. Tech Manuals:

Tech Specs

g. Procedure Numbers:

Requested By:

Print Name Signature Group:

Phone:

~~~

g~+g Date:

Due

~~~

~t ~%'~~%*~PA~~*~+~*~

Fill in the above information and send to Harris EDBS'Coordinator.

~~~**++***

Reviewed By:

Is this component in the ISI program7 Y Group:

N S P V Date: ~~

Is this component in the VR program ? Y N ISI Group Approval:

Is this component in the NPRD program7 Y F Date: ~~

~~

N U P NPRD Group Approval: Date:

Is this component part of the RRIL: Y N System Eng Approval:

Approved By:

Date: ~~

Approved By: Group: Date:

Completed By:

Form TMM-102-3-3

MOO IKL laeeeeeeee~

EQUIP MENT DATA BASE REQUEST FORM EDBR ¹

1. Component Tag Number or Master Key: Unit:~ Systee: /~Equip: ~~ Spec-ID:

Delete ~ Add Change Data (Adds and Changes complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3. Ne Changed Data:

4. Basis:

5. Component Data:

a. Is the component part of the plant security system? Yes + No

b. Is the component part of the Fire Protection/Detection: Yes ~ No

c. Location: Bldg Elev Row/Col FtN S E W or Azimuth Radius

d. Drawings: P&ID Emdrac Other e, Tech Manuals:

Tech Specs g ~ Procedure Numbers:

~ Requested By:

Print Name Signature Group:

Phone:

~~~

g~gc~ Due Date:

Fill in the above information and send to

%.%%.~*~~~**~~%~~~++k~*~**

Harris EDBS Coordinator.

~**~~***********

Reviewed By: Group: Date:

Is this component in the ISI program? Y N S P V Is this component in the VR program ? Y N ISI Group Approval: Date:

Is this component in the NPRD program7 N U F P NPRD Group Approval: Date:

Is this component part of the RRIL: Y N System Eng Approval: Date:

Approved By:

Approved By: Group: Date:

Completed By: Group; Date:

Form TMM-102-3-3

INO HQ, FKLD RKNSON NL EQUIPMENT DATA BASE REQUEST FORM EDBR ¹

1. Component Tag Number

aas " 'ass Delete ~ Add Change Data (Adds and Changes complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3. Ne Changed Data:

4. Basis:

5. Component Data:

a, Is the component part of the plant security system? Yes ~ No b, Is the component part of the Fire Protection/Detection: Yes ~ No

c. Location: Bldg Elev Row/Col FtN S E W or Azimuth Radius

. d. Drawings: P &ID SFD Other

e. Tech Manuals:

f. Tech Specs

g. Procedure Numbers:

Requested By:

Print Name Signature Group:

Phone:

~~<-

~++ Date:

Due

~~~

~* Fill in the above information and send to Harris EDBS Coordinator.

~*~*~~*~**

Reviewed By: Group: Date:

Is this component in the ISI program'? Y N S P Is this component in the VR program 7 Y

~~

N ISI Group Approval: Date:

Is this component in the NPRD program2 Y U F

~~

N P NPRD Group Approval: Date:

Is this component part of the RRIL: Y

~~

N System Eng Approval: Date:

Approved By: Group: Date:

Approved By:

Completed By:

Form TMM-102-3-3

MOO N(L RELD RNSfON NO.

EQUIP MENT DATA BASE REQUEST FORM PAQEN(L EDBR ¹

1. Component Tag Number

": aw "': coa ccoaw' Delete ~ Add Change Data (Adds and Changes complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3. ew Changed Data:

4, Basis:

5. Component Data:

a. Is the component part of the plant security system7 Yes ~ No

b. Is the component part of the Fire Protection/Detection: Yes + No

c. Location: Bldg Elav Row/Col Ft.N g E W or Azimuth Radius

, d. Drawings: P&ID Emdrac y Other

e. Tech Manuals:

Tech Specs ga Procedure Numbers:

Requested By:

Print Name Signature Group:

Phone:

~<~

g~~ Date:

Due Fill in the above information and send to Harris EDBS Coordinator.

%%*~**++*******

Reviewed By: Group: Date:

Is this component in the ISI program7 Y N S P V Is this component in the VR program 7 Y N ISI Group Approval: Date:

Is this component in the NPRD program7 Y N U F P NPRD Group Approval: Date:

Is this component part of the RRIL: Y N System Eng.Approval: Date:

Approved By:

Approved By. Group: Date:

Completed By:

Form TMM-102-3-3

Ol MOO NQ RaO RNÃNON iKL EQUIPMENT DATA BASE REQUEST FORM PAGE NO EDBR ¹

1. Component Tag Number or Master Key:

Dele~ ~

Unit:~ System:

Add

~ ~ Equip:

Change Data (Adds and Changes Spec-ID:

complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc,)

3. Ne Changed Data:

Basis:

5. Component Data:

a. Is the component part of the plant security system? Yes + No

b. Is the component part of the Fire Protection/Detection: Yes Q No

c. Location: Bldg Elev Row/Col Ft.N S E W or Azimuth Radius

d. Drawings: P&ID Other e.

f. Tech Specs g- Procedure Numbers:

Requested By:

Print Name Signature Group:

Phone:

~ate:

g~~ Due Fill in the above information and send to Harris EDBS Coordinator,

~*****+++**~***%~%~***~~**~~~~~ ~*~***********

Group: Date:

Is this component in the ISI program2 Y N S ' V Is this component in the VR program 7 Y N ISI Group Approval: Date:

Is this component in the NPRD program7 Y N U F P NPRD e

Group Approval: Date:

Is this component part of the RRIL: Y N System Eng Approval: Date:

Approved By: Group: Date:

Completed By: Group: Date:

Form TMM-102-3-3

MOD No.

ID Rmloe m EQUIPMENT DATA BASE REQUEST FORM EDBR 5 Component Tag Number or Master Key:

Delete ~

Ucit:~ System: ~QOEquip:

Add

~

Change Data (Adds and Changes Spec-ID:

complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3. New Changed Data:

4. Basis:

5. Component Data:

a. Is the component part of the plant security system? Yes ~ No

b. Is the component part of the Fire Protection/Detection: Yes + No

c. Location: Bldg Elev Row/Col FtN S E W or Azimuth Radius

d. Drawings: P&ID Emdrac Other

e. Tech Manuals:

Tech Specs ge Procedure Numbers:

Requested By:

Print Name Signature Group:

Phone:

d~~

g-rsii~

Date:

Due

~~~

~~l.~Fill in the above information and send to Harris EDBS Coordinator.

~4%+%%%%%+++%*

Reviewed By:

Is this component in the ISI program7 Y Group:

N S P Date:

V

~~

Is this component in the VR program 7 Y N ISI Group Approval: Date:

Is this component in the NPRD program? Y U F

~~

N P NPRD Group Approval: Date:

Is this component part of the RRIL: Y

~~

N System Eng Approval: Date:

Approved By:

Completed By:

Form TMM-102-3-3

MOD NO.

FIELD RB%IOH NO, PAGE NO.

EQUIPMENT DATA BASE REQUEST FORM EDBR ¹

1. Component Tag Number or Master Key: Unit:~ System: ssdrs~EquiP: dIMa SPec-ID:

Delete ~ Add Change Data (Adds and Changes complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc. )

3. New Changed Data:

'4, Basis:

5. Component Data:

a. Is the component part of the plant security system7 Yes Q No

b. Is the component part of the Fire Protection/Detection: Yes + No

c. Location: Bldg Elev Row/Col FtN S E W or Azimuth Radius

d. Drawings: P6:ID SFD CWD Emdrac Other I

e. Tech Manuals:

Tech Specs

g. Procedure Numbers:

~

Requested By: Group: Date:

Print Name Signature Phone: Due Fill in the above information and send to Harris k~%"kk~****'k%"kk++%%'~~*~*+%+~*

EDBS Coordinator.

~*~'k9f*%+%'*****

Reviewed By; Group: Date:

Is this component in the ISI program7 Y' S P V Is this component in the VR program 7 Y N ISI Group Approval: Date:

Is this component in the NPRD program7 Y N U F P NPRD Group Approval:

Is this component part of the RRIL: Y N Date: ~~

System Eng Approval:

Approved By:

Date: ~~

Approved By:

Completed By:

Form TMM-102-3-3

I PLANT MOD. NO.

FIELD FIEV. NO.

EQUIPMENT DATA BASE REQUEST FORM PAGE NO. 0 2S EDBR ¹ Component Tag Number :

or Eascer Key: Dnir: ~

syscem: 2~(o Equip.'~9 Spec-LD: ~~ 2 Delete ~Add Change Data (Adds and Changes complete Section 5)

(

3. New/Changed Data:

Basis: 7'C R - 54 oM lke.rv, W S'm

5. Component Data:

a. Is the component part of the plant security system? Yes M No

b. Is the component part of the Fire. Protection/Deception: Yes M No

c. Location: Bldg ~RA Elav ~2 Row/Col ~Z7 Pt.g S E Q

'adius o ~

or Azimuth

d. Drawings: PENED - - 4 SPD - B 4 GSD laae-

e. ~ Tech Manuals:

Tech Specs

~

g. . procedure Numbers:

++

S Requested By:. Group: NGD Date: ~)I ~dl ~2 Print Name Signature Phone: A- o/ Due:

"Fill in the above information and send to Harris EDBS Coordinator.

y:

Is this component in the ISI programs Y' Group:

S P Date:

V

~~

Xs this component in the VR program f Y N ISI Group Approval:

Is this component in the NPRD programs Y N U F Date:

'I

~~

~

P NPRD Group Approval: Date:

Is this jjj component part of the RRIL: Y N System Eng Approval:

Approved By:

Date: ~

Approved By: Group: Dace:

Completed By: Group: Dace:

Form TMM-102-3-3

PLANT MOD. NO, 5> 7 FIELD REV. NO.

PAGE NO, 2

~UIPM12iT DATA BASE BLUEST FORM-EDBR ¹ Component Tag Number :

or Nester Eey: Unit:

Delete ~Add I Systen: g'gbgquip:

Change Data (Adds and Changes

+ Spec-ZD: -05298<

complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3. New/Changed Data:

tA 0vw4 5

5. Component Data:

a. Is the component part of the plant security system? Yes ~No

. b. Is the component part of the Fire Protection/Deteption: Yes MNo

c. location: Bldg ~P/! Elev ~24 Ros/Col Z//! Pt.N S E W or Brinuth Sadius .

d. Drawings: P&ZD. 'PD - - 4- CWD

. g-Tech Manuals:

Tech Specs Procedure Numbers:

I . s ~

Requested By: Group: ~ED Date: ~d~dl g2 Print Name Signature Phone: N~c4c!,-Due Fill in the above information and send to Harris EDBS Coordinator.

Is this component in the ISI program? Y' Group:

S P Date:

V

~~

Is this component in the VR program 2 Y N ISI Group Approval:

Is this component in the NPRD program? Y N U F Date:.

P

~~

NPRD Group'pproval:

Is this component part of the RRIL: Y N.

Date: ~~

System Eng Approval:

Approved By:

Date: ~~

Approved By:

Completed By:

Form TMM-102-3-3

PLANT MOD. No, FIELD REV, NQ.

EQUIPMENT DATA BASE REQUEST FORM PAGE NO. Z C-Component Tag Number :

or Nester Key: Unit:~ System:2~& Equip: ~T Spec-lD: q- tJ Delete ~ Add Change Data (Adds and Changes complete Section 5)-

2. Data Field Name: (Specify Tag, Description, RRIL, et:c.)

3. New/Changed Data:.

4. Basis:

5. Component Data:

a. Is the. component

b. Is the component part of the plant security systems part of the Fire Protection/Deteqtion:

Yes / No Yes V No

c. Location: Bldg RA& Elev K~4 Row/Col ~Z Ft.N S E W or ariruth Radius

d. Drawings: PSID 4 SFD I'5 4 CWD

e. Tech Manuals:

f.

g.

Requested By:

Fill in Tech Specs Procedure Numbers:

Group: h4E Phone: ~+to the above information and send to Harris 6

Ca EDBS I

Date:

-Due: jj

~/

Coordinator.

Date: ~~

Qjl '~2 Is this component in the ISI program? Y' S P V Is this component in the VR program 7

~~

Y N ISI Group Approval: Date:

Is this component in the NPRD programs F

~~

~

Y N U P NPRD Group Approval: Date:

Is this component part of the RRIL: Y N Syst: em Eng Approval: Date:

Approved By:

Completed By:

Form Tt9i-102-3-3

RELD REV. NO.

EQUINOX DATA BASE REQUEST FORM PAGE NO. Z5 Component Tag Number :

or Master Delete Key:'Unit:~ Systan:

~ Add 2jK+ Equip:

Change Data {Adds and Changes

~ Spec-ZD: C complete Section 5)

2. Data Field Name: (Specify Tag, Description, RRIL, etc.)

3. Nev/Changed Data:

4. Basis: R- (a5 7

5. Component Data:

~

a. Is the component part of the plant security system? Yes &No

b. Is the component part of the Fire Protection/Detects.on: Yes MNo

c. Location: Bldg~A Blew 7~4 Row/Col Ft M .S E W

or Arinuth Radius

d. Drawings: P&LD - 4 SFD 5- - 13 CWD I

Emdrac / - & 4 Other

e. Tech Manuals:

f. Tech Specs ge Procedure Numbers:

Requested By:

Print Name 'S ignature ~

Group: hlED Phone .'54 6/g~g/ Due Date: ~/8 ~l 82.

Fill in the above information and send to Harris EDBS Coordinator.

Is this component in the ISI program? Y' Group:

P Date:

V

~~

Is this component in the VR program ? Y N ISI Group Approval:

Is this component in the NPRD program? Y N U F Date:

P

~~

NPRD Group Approval: Date.'~

Is this component part of the RKIL: Y N System Eng Approval:

Approved By:

Date: ~~

Approved By:

Form TMM-102-3-3

. ~6+7 FlELD REV. NO.

EQUIPMENT DATA BASE ~VEST FORM PAGE NO. 25 6 Component Tag Number or Nester Key: Unit:

Delete ~ Add I System: 2~ Equip: ~

Change Data (Adds and Changes

'Spec-ZD: 8 /

complete Section 5)

Al

2. {Specify Tag, Description, RRIL, etc.)

3. New/Changed Data:

4. Basis: P R.

5. Component Data:

a. Is the component part'of the plant security system? Yes ~ No

b. Is the component part of the Fire Protection/Deteqtkon: Yes No

c. Loceticn: Bldg ghrB Elev 2~4 Ror/Col ~k pt.N S E W "or Atimuth Redius

d. Drawings.'P&ID SFD - - 5 CWD Emdrac I '3 g Other e.'ech Manuals:

Tech Specs

~

Procedure Numbers'.

Requested By: SGroup. %CD Phone'~4,-~i Date:

Due

~~Pl ~Z Fill in the above information and send to Harris EDBS Coordinator.

s s

'"y: P Group: Date: ~~

Is this component in the ISI program'P Y' N S P V Is this component in the VR program V Y N ISI Group Approval:

s Is this component in the NPRD programs '

N U F Date: ~~

NPRD Group Approval:

Is this component part of the RRIL:

Date: ~~

System Eng Approval: Date.'~

Approved By:

s Form TMM<<102-3-3

p~~l'+du eO FIELD REV. NO.

PAGE NO.

EQUIPMENT DATA BASE. REQUEST FORM Component Tag Number: C or Natter Kay: Unit: Syatem: Equip: Spat-XD:

~Delete Add Change Data (Adds and Changes complete Section 5)

2. (Specify Tag, Description, RRIL, etc.)

3. New/Changed Data:

4. Basis:

5. Component Data:

a. Is the component part of the plant security system? Yes No

b. Is the component, part of the Fire Protecti.on/Deteqtion: Yes No

c. Location: Bldg Elev Row/Col FtN S E W or Azimuth Drawings: P&ID Emdr ac Other

e. Tech Manuals:

Tech Specs procedure Numbers:

Requested By:. Group: N GD Date: ~d~d/

Print Name SiSn enure'Phone: g~4 4b/ D-ue Fill in the above information and send to Harris EDBS Coordinator.

Is this component in the

/

ISX program? Y' Group:

S P Date:

V

~~

Is this in the program Y component

~~

VR ? N ISX Group Approval: Date:

Is this in the Y F

~~

component NPRD program? N U P NPRD Group Approval: Date:

Is this part of the RRIL: Y component

~~

N System Eng Approval: Date:

Approved By:

Completed By:

Form TMM-102-3-3

PLANT MOD. NO.

FIELD REV. No.

PAGE NO.

EQUIPMENT DATA BASE REQUEST FORM EDBR ¹

1. Component Tag Number : C or Master Key: Unit: System: Equip: Spec-XD:

~Delete Add Change Data (Adds and Changes complete Section 5)

2. Data Field Name: (Specify Tag Descr'iption RRIL etc.)

New/Changed Data.'.

Basis: 9

5. Component Data:

a. Is the component part of the plant security system? Yes No s

b. Is the component part of the Fire Protection/Detection: Yes No

c. Location: Bldg Elev Row/Gol Ft.N S E W or Azimuth Radius

d. Drawings: P&ID Emdrac Other Tech Manuals:

i Tech Specs

g. Procedure Numbers:

Requested By:

Fill in Is this component in the ISI program?

Is this component in 'the VR program ?

ISI Group Approval:

Is thi.s component in the NPRD program?

Y' Y

Y i Group: suuiei the above information and send to Harris

/

N e

~kD U

EDBS P

s F

Date: j/d Coordinator.

V Date: ~~

~ill

~~

N P NPRD Group Approval: Date:

Is this component part of the RRIL: Y ~ N System Eng Approval: Date:

Approved By:

Completed By:

Form TMM-102-3-3

t e hdd neo valve Delete valve Fief Rev. Na C hange vilve infocmation aw Change affects more than one valve. See the attached list.

VALVE LIST CHANCE FORM ITKH

~l NG. 1. Valve numher2- CS-Lf-5'ZQSg-00[

2. Valve is on line numberg-gS- OQZ. 000- gg5- gg- JO 3~ tu . leo

5. Nominal site 0 03. 12 620 6. Ends coda gP 7. Group code

8. Design pressure 2 &DO 9. Design Temperature g 00

10. Seismicg-0 11. Pressure standard/hNSX rating

12. P.O. number 13. P.O. item number Material class 6 15. Type f P5gf Ogg /P Simplified Flou Diagram Dug. f 2168- S l 3 0 $ Sht (ahcnra unique valve numbers)

17. Simplified Plov Diagram Valve t

18. Design G drauing 2165 G - g 0$ Sht. location (, )

19. Emdrac or vendor dog. 6 1364 - DgQ+g

20. 'Valve elevatfou 2$ $ ft. 0 in. 21. Floor cle'ation g4 2'ft. O height from floor 2 ft. 0 'alve 2Q PLhHT LOCATIOh

$9 ft gin. .Sastl g uest7 of Column E

. 8 ft. ' in. South? /North? oi Column g7 REMARKS um Lot4 LI E'5 . 0

Add new valve Q Delete valve PC - s4 Fidd Rer. Na Change valve information RW Change affects more than one valve. See the attached list.

VALVE LIST CHANCE FORM 1TEH

'alve

~i ND. 1. numherg - PS -g-5gggg-00)

Valve is on 2~

line numhcr 2- Q$ -00$ +.'0fp- . 7g(5 g ( 0 3~ SII . Iee,.

5. Nominal size 00$ . gO 06. Ends code Q IN 7. Croup code

8. Design pressure g & DO 9. Design Temperature Z00

10. SeismicZ-H ll. Pressure standard/ANSI rating

12. P.O. number 13. P.O. item number

14. thtcrial class g 15. Type g g 5gg Og f I L

16. Simplified Plov Diagram Dvg. 6 2165- S ) 3 0 g Sht.

(shovs unique valve numbers)

17. Simplified ilov Diagram Valve 0

18. Design G draving 2166- G - 8 0$ Sht. locacion (, )

19. Smdrac or vendor dvg. a 1364 - 67~~++

20. Valve el evat ?os 2$g f t. g in. 21 ~ floor le tati -2on4 p ft.

e 4~7 ~ Valve height from floor 5 ft. 0 62'X.

PLANT LOCATION 5 ft. 3 in. East? g West? of Column g g ft 0i.n. Sou:h? If Norrh? of Column f8 2(. RE.'~RKS G, u ~ P Wg L C'SP', 0 IF/CC

S Q .add nev valve

~ Delete valve Chan'Se valve iniornarion 0 Change affects more than one valve. See the attached list.

VALVE LIST CHANGE FORH ITEH NO. 1 ~ Valve nonner 2 - C' - R -5 57,S)- dl 0g 2~ Valve is on line number 3~ Valve Saf .ty Train 4. P/M thickness/sch

5. Nominal size 6. Ends code 7. Group code

e. Design pressure 9. Design Temperature

10. Seismic 11. Pressure standard/ANSI rating

12. P.O. number 13. P.O. item number 14.

16.

Material class Simplified Flov Diagram 15.

(shoes unique valve numbers)

Type DMg. f 216 -S- 'ht.

17. Sinpliiied Pion Diagran Valve O'I -C'& - 744 lee Design G-drawing 216 - G - Sht. location ( . )

19. Emdrac or vendor ding. / 1364-

20. Valve elevatina f t. in. 21. Floor elevation f t.

Valve height from floor ft.

2Q PLANT LOCATION ft. in. East? Vest? of Column ft. in. South? North? of Column REMARKS

,,hdd nev valve

~ Delete valve Change valve inforaation Change affects nore than one valve. See the attached list.

VALVE LIST CHANCE FORM ITEM NO. 1 ~

2~

Valve noaher Valve is on 2- C S-g -55'Qa2g -fPO j line number 3 ~ Valve Saf .ty Train 4. P/M thickness/sch

5. Nominal size . 6. Ends code 7. Croup code e

ga Design pressure 9. Design Temperature

10. Seismic 1 l. Pressure standard/hNSX rating

12. P.O. number 13a P.O. item 'number

14. class 15.

16.

'aterial Sfnplfffeg Floe Dfagran Dvg.

Type F 216J -S- Sht ~

(ahcws unique valve numbers) 17.

18.

Sinplifiai Floe Design G-draving 216 Diagraa Valve

- 6 -

fJ - ~

Sht.

- 7'S$

location ( , )

19 Emdrac or vendor dvg. I- 1364-ZO, Valve elevatina ft. in. 21. Floor elevation ft.

Valve height from f loor ft.

23 PLANT LOCATIOÃ ft.

it.

in.

East?

South?

Mesc?

North?

'f of Column Column

24. REMARKS

Add nev valve Delete valve 7

g Change valve lnfoenaelon Cbange affects more than one valve. See the attached list.

VALVE LIST CHANGE FORM ITEM NO. 1 ~ Valve number - CS - L/ - 74 - 00 I 2~ Valve is o line nnnbe 'I -g$ -$ 00. ggg- QQQ-+- I0 3~ Valve Saf. ty Train

$ /g 4. P/M thickness/sch

5. Nominal size . 6. Ends code 7. Croup code

8. Design pressur g 0D 9. Design Temperature g00

10. Seismic 11. Pressure standard/ANSI rating

12. P.O. number

13. P.O. item number Material class 15. Type Simplified Flov Diagram Dvg. t 216 -S-(she@a unique valve numbers) Sht.

17. Simplified Floe Diagram Valve t

18. Design G-draving 216 - G - Sht. location ( , )

19. Emdrac or vendor dvg. 0 1364-

20. Valve elevatina f t. in. 21. Floor elevation f t.

Valve height from floor 2X PLANT LOCATION ft. in.

24a ft. 'n. East?

South?

Mest?

North?

of of Column Column REMARKS

p Aea nev valve p Qeleee valve phd FmR Mod.

g Change valve intoeaaefon o Change valve.

affects See more than one the attached list.

VALVE LIST CHANGE FORM ITEM NO. 1 ~ Valve nuabezQ7- C 5 - /- gL2 - g 0 I 2~ Valve is on line numbe g - g5 - g DO. 250- 788 -go 3~ Valve Sai..ty Train g 4. P/M thickness/sch

5. Nominal sire 6. Ends code 7. Group code

8. Design pressure gQg Design Temperature g00 Seismi 11 'ressure standard/hRSI rating

12. P.O. number 13a P.O. item number

14. Material class 15 a Type

16. Simplified Flov Diagram Dvg. f 216 - S - Sht.

(shovs unique valve numbers)

17. Simplified ilov Diagram Valve t

18. Design G-draving 216 - G - Sht. Location ( , )

19. Emdrac or vendor dvg. /: 1364-Valve elevatina it. in. 21. FLoor elevation P

Valve height from floor ft.

2Q PLhNT LOCATIOÃ ft. in. East? Vest? oi Column ft. in. South? North? of Column 2C. R E~ARKS

Add nev line kE-c P7 Delete existing line 9[6 D p8/ 0 fp&8 D 3s Change line information Change affects more than one line-see attached for list of lines LINE LIST CHANGE FORM ITEM HO.

Line numbers -CG - 2.

2~ Line category 3. Hominal size

4. Safety train

5. Secondary unit 6. Last rev. no. + + + (automatic entry) 7 ~ P/W thickness/sch 8. Special pipe O.D.

9. Design pressure 28'D~ 10. Design temperature Pressure standard/ANSI rating

12. Maximum oper. pressure 13. Maximum oper. temperature

14. System hydro test pressure 15. In-service inspection

16. Insulation group 17. Identity

18. Class 19. Pipe code 20, Pipe material

21. Seismic stress analysis 22. Thermal analysis 23, Re..ark'nrr PLLCFC-F

Add nev line et=( P1 Delete existing line Pi& g P8$ 0 fP&8 o ~c Change line information Change affects more than one line-see attached for list of lines LINE LIST CHANGE FORM ITEM NO.

1.ine numberZ -CS - 2 ~ DO+ - Z> 7 - +Al - fg

2. Line category Nominal size

4. Safety train

5. Secondary unit 6. Last rev. no. > + ~ (automatic entry) 7 ~ P/W thickness/sch 8. Special pipe O.D.

Design pressure I

ZQC~ 10. Design temperature Pressure standard/ANSI rating

12. Maximum oper. pressure 13. Maximum oper. temperature

14. System hydro test pressure 15. In-service inspection

16. Insulation group 17. Identity

18. Class 19. Pipe code 20. Pipe material

21. Seismic stress analysis 22. Thermal anzlysis

23. Re"...-:rkm Fnrm PR.L CFC- F /1

Add ne~ line ee-c &'1 Delete existing line Fi& D g8ll <

f8~~ D>>7 Change line information Change affects more than one line-see attached for list of lines LINE LIST CHANGE FORH ITEM NO.

Lane sumberZ -CS - 2. @QQ - Z>B -+Al - /D

2. Line category 3. Nominal size 4 ~ Safety train

5. Secondary unit 6. Last rev. no. > + ~ (automatic entry)

P/M thickness/sch 8. Special pipe O.D.

9. Design pressure 2g'O~ 10. Design temperature Pressure standard/ANSI rating

12. Maximum oper. pressure 13. Maximum oper. temperature

14. System hydro test pressure 15. In-service inspection 16; Insulation group 17. Identity

18. Class 19. Pipe code 20. Pipe material

21. Seismic stress analysis 22. Thermal analysis

~ u ~ Pe, aTk!

Form P1.LCTC-F/1

Add Change nev line Delete existing line line information Change affects mc'te than one line ATTACQAah f'4 Field Rev. Na Page Ha 0

aee attached for liat of lines LIRE LIST CHAKlsK FORK ITW NO.

gina nesbe I-CS - ooo.

Line careaery 7 g5'0- lgI-+-

l0 3 ~ Neainai aire g OO p 50 c, Safety craf Secondary unft 6. Lect rev. no. e e e (eutoaatic entry)

P/M thtckaesalach 8. Special pfpe O.D.

9.. Deafen pre!sure 3 0 0 10. Deafen teayerature 2 0 0 pressers sranearalailpI racing g OO

12. Naxfae oper. preaaure 2 7 0 13. Maxfaa oper. teapereture I90

14. Syetea hydro teat pressure 9 00 15. Iawerrtce inspection

16. Inaulatfoa group kl identity 8 Q l 5 8 - 3 18.

l.

Clan Q

Seiasic lp. pipe coca 2D. yips narerial 2 aaress analysis Q 0 J 22. Tharsal analysis g

23. RrsanKs ES Cohl . oyy1 L/ dS2,- 3-

Add nev De le a e ea Change Change Jfnt tet in' fne 11ne Lnfomaefon effects mere then one a TTWQCg f'4 Fold Rev. Na 0 etc ~ ccached for lian of LINK LIST CHAhGE fORN ITQt NO.

Dna nnsnar Line category 7-g CS 3.

OOO. gpss Hcnminal aiae 7gg 0g 0 p 5g

+- j O Salary arai gpss 5 ~ Secondary unit 6. Lect rav. no. e e e (eutoeatic entry)

P fM thickneea/ach 8. Special pipe O.D.

Deeign preeeure 3 Q 0 10. Deeiga teayerature 2 0 0

11. Preeeare etandardlARSI retinS Q Og

12. Naxiam oper. preeeure 27 b 13. Max~ oyer. teaperature I 90

14. Syetea hyctro teet preeeure 9 0 0 15. Iawervfce iaeyectioa

16. Ineulet ion group 17. Zdeatit & 3 1 ~ 1 "3

2}.

22.

Claee qasanSS 19.

E5 Pipe cod Seiaeic etreee anelyeia 5 0 CONAI.

56 f

RON L 22.

20.

E Nye aeterial Thsrss1analy,sis C 2 g

7'l4-~l

Rant Mad Fold Rev. Na ATTMHhCN1 Page Na Add nev ifne Q i De ~ te ex teti ee line Change leone fnforget ion D Change effects acre then eee etteched for lf,et of one LIÃK LIST CHhhQK FORM ITEM NQ.

1 ~ t.ine nnneer 2 - 0 S - 0 0 2. 0 Qo- /f3- -$0 2e Line eetegery g 3. Nenin al site 0 0 2 - 000 4, Safety train Secondary unit 6. Last tev. no. e e ~ (autoaatic entry) y, p/M thickness/sch d. Special yiye 0.1.

g. Design pressure 10. Design teaperatut 2 0 0 l l. tressure standard/ASST rating

12. Maxi'pet. presaute 13. Maximus oyer. teayetatur l 3 0 l4. Syatea hydro teat pressure 15. Za service tasyectioa l6. Insu1atioa group 17. identity

18. Class 19. Pipe code 20. tfpe Iatetial 2 l. Se iseic stress analysis 22. Thereal analysis

23. /Olla /K' 0 r2CS- .M.52B~Shl IOPTLET-

Field Rav. No. 0 ATTMHhCN7 Page Na Add nev l Inc

~ j De ~ Le IxiIC1nI 11>t line Anfottaation Change n Change ~ ffecta acre than see attached for liat of one line LIÃK LIST CHAKGK FORM ITQf NO.

1 ~ Line nuaber g - CS 002. ooo- Zg4 go 2~ Liaa caeagory z 3. Noah@ al site C20g-00g

4. Safety train 5 ~ Secondary unit 6. Last rev. no ~ e e ~ (auttic entry}

7, P/M thickness/sch d. Special piye O.D.

9. Design pressure lo. Desiin teaperatur 2 00

?resaure standard/ANSI retina l2. Naxiaa oper. pressure l3. Max1aa oyer. teaperature I 3 0 l4. System hydro test pressure 15 Inmesvtce inspection lb. Insulation group 17 ~ Identity

18. Class l9. Pipe code 20 Pipe eateries

21. Seismic stress analysis 22. Theraal analysis

23. ResaaK$ N/A// At/ ! IAf& 7P 70S 3'

, d. 2 05- M5'Z Shf uL-E

CAPP Bp L~seasA~+)

COMPONENT LEVEL -LIST CHANGE FORM Equipment Data base - Quality Classification Analysis Plant Unit ~Sstem ~Ei ment ~Sec. I.D. T~aNo. (Optiona!)

dp 3 I &c o c+-Q79Z im- >gal, Affected Criteria'lass No. 'Descri tion of Influence ry(

Pages attached atlecting components Resultant li Class Analyst: itlet '~g'A)N Date: Q/2 7J92 Reviewedt~

Title:

5++/dg /+Ed~ Datet f- Zito-gg Approved'itles / @cJ M6P Dates V- 2 8 -9Z

line ee-c P>

Pi~D PS/ 0 Add nev Q Delete extettet gjee Change line information

(~8 D<3 Change affects more than one line-see attached for list of lines LINE LIST CHANGE FORM ITEM NO.

Line numbers -CS - 2.

2. Line category 3. Nominal size

4. Safety train

5. Secondary unit 6. Last rev. no. + e + (automatic entry) 7~ P/M thickness/sch 8. Special pipe O.D.

Design pressure ZQO~ 10. Design temperature Pressure standard/ANSI rating

12. Maximum oper. pressure 13. Maximum oper. temperature

14. System hydro test pressuie~~ 8+ 15. In-service inspection

16. Insulation group 17. Identity

18. Class 19. Pipe code 20. Pipe material

21. Seismic stress analysis 22. Thermal analysis Form Pi.L('FC-F 'l'

line ee-c P~:

-Add nev P1$ D P8$ 0 Q Delete esiseing line PP~~ Z>W

~ Cnsnge 1ine infoenseion Change affects more than one line-see attached for list of lines LINE LIST CHANGE FORM ITEM HO.

Line numbers -CS - 2. O'OQ - Z+ 7 -'SAI - /O

2. Line category 3. Hominal size

4. Safety train

5. Secondary unit 6. Last rev. no. + e + (automatic entry) 7~ P/W thickness/sch 8. Special pipe O.D.

RE$ 46 Design pressure ZQO~ 10. Design temperature Pressure standard/ANSI rating

12. Maximum oper. pressure 13. Maximum oper. temperature

14. System hydro test pressure +~090 15. In-service inspection

16. Insulation group 17. Identity

18. Class 19. Pipe code 20. Pipe material

21. Seismic stress analysis 22. Thermal analysis Form PlLC'FC-F ')

Add ne~ line kg-6 P I Delete existing line 91MD P8b~ <

Change line information Oa~ c+~

0 Change affects more than one see attached for list of lines line-LINE LIST CHANGE FORM ITEM NO.

Line numbers -C6 - 2 ~ ddQ - Z>8 -SAI - I 0

2. Line category 3. Nominal size

4. Safety train

5. Secondary unit 6. Last rev. no. + + ~ (automatic entry) 7~ P/W thickness/sch 8. Special pipe O.D.

9. Design pressure ZQO~ 10. Design temperature Pressure standard/ANSI rating

12. Maximum oper. pressure 13. Maximum oper. temperature

14. Systen hydro test presser $ g4'd.

CI Zn-service inspection

16. Insulation group 17. Identity

18. Class 19. Pipe code 20. Pipe material 2). Seismic stress analysis 22. Thermal analysis s

23. Bee a k

~

Add neo line Delete existing line o BAWD tsl line information Change r &8 i"u'~

affects more than one line << f AttD~~ fBP FLttdtt COAHSVI l

~Change see sttsehed fur list uf lines P gg g~

LINE LIST CHANGE FORM ITEM NO.

l. Line number Z -C6 - Z. POdZ - 78$ -~W - )g 2~ Line category 3. Nominal size 4, Safety train II 5~ Secondary unit 6. Last rev. no. + e + (automatic entry)

P/M thickness/sch 8. Special pipe O.D.

Design pressure Z8'~+ 10. Design temperature s pp Pressure standard/ANSI ra ing p(QM&I7 Maximum oper. pressure SD84 13. Maximum oper. temperature

14. System hydro test pressure 15. In-service inspection

16. Insulation group 17. Identity

18. Class -

19. Pipe code 20. Pipe material

21. Seismic stress analysis 22. Thermal analysis

-<<) c Form Pi.!.CFC-F/!

S ATTACHMENT VALVE/LINE LIST(S) MULTI-CHANCE SHEET maa rex

~ -Z~a- ~-zE8~8-L Pigs Na CapDM~ tW AlW g ~~a gQ ~ c VALVE NO J - 8 c 6 - Q- 75 g6 g LINE NO.

S.C c c 78+ &A/ J c VALVE NO.

LINE NO.

VALVE NO.

LINE NOi VALVE NO.

I -z.cs LIKE .':C.

Z c+ I., ~oo -$ 8 VALVE NO pcs g Z4C+A LINE NO.

8-c5.-

C~-i/ a->o ex L-VALVE NO.

L

hTThCHMENT VALVE/LINE LIST(S) NJLTI-CHANGE SHEET p

Fgkl Re( Na page Na LINE NO. n'og ee8m>~~>

VALVE NO.

LINE NO.

VALVE NO.

LINE NO.

VALVE NO.

LINE NO.

VALVE NO.

g zzs&A- /

LINK "q ~

VALVE NO, LINE NO.

VALVE NO.

LINE NO.

ATTACHMFhT VALVE/LINE LIST(S) MULTI-CHANCE SHEET g-gee -g-g,//~AI )

LINE NO. Cene Pea &w4m~>)

VALVE NO ~

LINE NO.

VALVE NO.

. / g-~ d SSWW4- /

LINE NO.

VALVE NO.

g,c.e Ll 4ZZ&Q- J LINE NO.

VALVE NO.

/ -gC+ -~-@ran l&Q-g LIYK .':C.

VALVE NO+

LINE NO.

-j VALVE NO.

Q pcs g-dpi+8 LINE NO.

~ y, ~ ~~ yaw p ea

ATTACHMENT VALVE/LINE LIST(S) MULTI-CHANGE SHEET Y -&u~wg LINE NO.

VALVE NO ~

g-z~~-f-LINE NO.

l +~4 I-VALVE NO

-<~-2-c~z~A -l.

LINE NO.

. VALVE NO, VALVE NO, LINK .':C VALVE NO+

LINE NO.

VALVE NO.

LINE NO.

g} add nev valve (kg t lAW l+Q Q Deltte valve <P'-,t MW r, i

Change valve infatuation : i".a!~ Kx V..'.

I pa~ t4kL Change affects nore than one valve. See the attacheci list.

VALVE LIST CHANGE FORM ITEM NOe 1~

2~

Valve nuaher Valve ia on L - /CD - f - ga( - dpcp I line nuaher7 -d'5 - ~ 'Zg - 8Zt2-Valve Saf ty Train 4. thickness/sch HC

~ lg+

3~ P/M

Ãoninal size . 7+ 6. Ends cade 7. Croup code

8. Design pressure g~D 9. Design Eenpsraturs 10o 12 P.O. number 13. P.O. item number CM86

'4

~ Hatarfal elean g 15. Type 16 ~ Sinplifisd Flov Diagran (shove unique valve numbers)

Dvg. ~ 2166 S - I'5'ht

17. Sfnplfffed Flov Dfagran Valve 6 L -W - 79Z 18 Design Gdravi-ng 216$ - G -/ID'ht. location (4. 0 )

'9.

Endrac or vendor dvg. I 1364 -9)6 54

20. Valve elevation Z50 it. & in. 21. Floor tie'ation P 7 ft.

Valve height from'loor ft.

LOChTIOh

'LANT ft. 7 in. Eastl g vasty of Coluan gg fr in..South? )C horth? of Column 24 ROMPS o

Phnt Mock i'eagf' F>>kf Page Rev.

Na Na Add nrv 11" ~ CF&// P~+Mil44ER~W)

Delete ex i at ing line Change line informat ion CI Change affecta cora than one line-aae attached for liat ot linea LINE LIST CHAhGE FOlN ITBf NOo I.ine nushar 7 -<'$- Hgd /0 ifne cetatory2 3 ~ Noufnal af*. - 7&

Safety train S~ Secondary unit 4 6. Last rev. no. e e e (mcoaaclc entry)

P/11 thfehnees/seh 80 S. Speefal pips O.D.

9. Deailn preaiure SOD 10. Design teaperaguro )~+

11. Pressure standard/Ahpf ratfns QOO

12. hanfuuu opet pre.ssure Z)C7 13. 11asfnun oper ten.parature I Og Ia. Syetes hydro test pressure 'g dye 15. 2cwetufcs inspection g

16. Insulation Stoup 17. ldaneity $ 8I J IC. Class '9. Pipe code 55 P 20. Pfys satarisl A Slg fP $

~D QO W'1.

Sefsnfc stress analysis 22. Therual analysis

23. gexa IKEY L d8 ~ 1ce5- 794'-

Installation Package Mod. No. PCR-6547 Installation Instructions Field Rey. No. 0 Pa e No. El SECTION E INSTALLATIONINSTRUCTIONS

~ ~

Plant Modification Mod. No. PCR-6547 Installation Instructions Field Rev. No. 0 Page No. E2 This design change introduces modifications to PIC protection cabinets 1 6 4 as well as Solid State Protection output bays 1 and 2. Due to the nature of these modifications and affected plant systems, it is recommended that operations be contacted prior to the performance of any modification.

1.1 Follow all applicable site operations, maintenance, and QA procedures during installation of this modification.

1.2 Ensure adequate cleanliness precautions are observed when working inside electrical panels.

1.3 If de-energizing any equipment is necessary for the installation of this modification, inform Operations and follow the proper clearance procedures.

1.4 Make use of existing internal panel panduits and cable routing techniques to install internal wiring. Separation standards shall be maintained on any Solid State Protection System wiring changes.

1.5 Exercise care when accessing the "26" panel within the PIC cabinets.

The cover is awkward and could easily short circuit or damage the enclosed connector's.

1.6 Prior to pulling any primary or backup DC power supply fuses in the 7300 process cabinets, note the particular control loops affected and inform the Shift Foreman.

Plant Modification Mod No. PCR>>6547 Installation Instructions Pi.eld Rev. No. 0 Page No. E3 1.7 If the PIC cabinet wiring is performed with the card frame energized, use partiwular caution to prevent inadvertant contact with card frame pins 1 and 2 which provide the primary and backup DC bus voltage to the frame.

1.8 Utilize cable routing techniques and observe separation standards when installing A.C. PIC cabinet circuits.

2.1 This modification directly affects RCS wide range pressure instrument loop 3 (P-402). This loop originates in Appendix "R" cabinet 17.

2.2 Control systems possibly affected by the removal of power from card frame 5 are as follows:

a. Pressurizer pressure (P-455)i

b. Pressurizer level (L-459)g

c. Reactor coolant temperature (T-413, T-423< & T-433)g

d. Boric acid tank level (L-106) .

2.3 Install the wiring changes per the attached PIC cabinet "ADD-DELETE" sheets for cabinet 1.

2.4 Install an NALl card in slot 01-0531 (PB-402A1).

2.5 Wire circuit 2 of existing NAS card 01-0936 (PY/402A3).

3.0 PIC CABINET 4 3.1 This modification directly affects RCS wide range pressure instrument loop 1 (P-403).

Plant Modification Mod. No PCR-6547 Installation Instructions Field Rev. No. 0 Page No. E4 3.2 Control systems possibly affected by the removal of power from card frame 2 are as follows:

a. Component cooling HX P2 discharge temperature (T-675)g

b. Component cooling HX P2 discharge pressure (P-650)g

c. Component cooling surge tank level (L-676)p

d. RWST level (L-993)y

e. Containment pressure (P-953)~

f. First stage turbine pressure (P-447) 3.3 Install the wiring changes per the attached PIC cabinet "ADD-DELETE" sheets for cabinet 4.

3.4 Install an NALl card in slot 04-0256 (PB-403B).

3.5 Install an NAS1 card in slot 04-0936 (PY/403B) 4.0 SSPS OUTPUT BAY 1 TRAIN A 6 B 4.1 This modification spares contact 3 6 4 of safety injection relay K636 in output bay 1< train A 6 B.

4.2 Perform the necessary wiring changes per the attached "ADD-DELETE" sheets for output bay 1.

5 0 SSPS OUTPUT BAY 2 TRAIN 6 B 5.1 The 118 VAC power for the new K711 relays will originate from vital bus Pl (train A) and vital bus g4 (train B) via TB711. If fuses FU61 and FU62 in output relay'abinet 2 cannot be removed for performance of this

Plant Modification Mod. No. PCR-6547 Installation Instructions Field Rev. No. 0 Page No. E5 modification, extreme caution should be taken when performing wiring additions'.

5.2 Install the PQB rotary relays into the K711 designated area of SSPS output relay cabinet 2, train "A" and "B". The relays shall be mounted with g6-32 machine screws and helical spring lock washers (B.O.M. g 6A 6 7A) and tightened snug tight.

5.3 Install wiring per "ADD-DELETE" sheets for SSPS output bay 2. All wiring shall be made with 14 AWG 600V switchboard wire.

NOTE: When routing internal wiring, SSPS wiring separation standards shall be observed. Additionally, note that the "N.C." contact f4 of the K711 k

relay shall be wired'.

~ ~

h t

5.4 For relays with g5 terminal screws, the use of g6 lugs/studs is acceptable.

6' 'IMITOR UE VALVE LIMIT SWITCH 6.1 Jumpers are to be installed within the valve limit switches of 2CS-V757SA-1 and 2CS-V759SB-1. These Jumpers are to be installed on terminal blocks as shown on SK-6547-Z-001 and SK-6547-Z<<002 utilizing 12 AWG sis wire.

MOD NL RELD RENSION RL Shearon Harris Nuclear Power Plant pgGp Cabinet 01 Card Frame 05 DELETE DELETE ADD ADD Comments From To From To 05-003-02 05-031-26 05-003-01 05-031-27 05-031-08 05-031-22 05-031-09 05-005-11

Shearon Harris Nuclear Cabinet 01 Power Card Frame Plant 08 MOD NG RLVSlall Na pgGggQ

~

DELETE DELETE ADD ADD Comments From To From To 08-017-11 08-010-27

MOD NO.

FlELD lKNOION Nk Shearon Harris Nuclear Cabinet 01 Power Card Frame Plant 09

~-

DELETE DELETE ADD ADD Comments From To From To 09-002-27 09-036-06 09-036-36 09-003-05 09-036-38 09-003-06

MOD NO.

RELD REVS'O.

Shearon Harris Nuclear Power Plant pAQEgp.

Cabinet 01 Card Frame 26 DELETE DELETE ADD ADD Comments From To From To 26-083-05 26-108-01 26-083-06 26-108-02

MOD NQ, FIELD REVSION NO.

Shearon Harris Nuclear Pover Plant Cabinet 04 Card Frame 02 DELETE DELETE ADD. ADD Comments From To From To 02-008-19 02-056-26.

02-008-09 02-056-27 02-056-08 02-056-22 02-056-09 02-002-29

MOO IKL FIE1D R98QON NO.

Shearon Harris Nuclear Power Plant puff+ /

Cabinet 04 Card Frame 08 DELETE DELETE ADD ADD Comments From To From To 08-003-29 08-004-25

MOD NG, RELD RKNNNI NO.

Shearon Harris Nuclear Power Plant ~Egg Cabinet 04 Card Frame 09 DELETE DELETE ADD ADD Comments From To From To 09-001-25 09-036-04 09-036-39 09-003-01 09-036-41 09-003-02

Shearon Harris Nuclear I'ELD Power Plant MOD NCL RKWQOH NO.

PAGANO.

Cabinet 04 Card Frame 26 DELETE DELETE ADD ADD Comments From To From To 26-083-01 26-108-01 26-083-02 26-108-02

MOO NO.

BELD REVSQN NO.~

PAGE lKL Shearon Harris Nuclear Pover Plant Cabinet SSPS OUTPUT BAY 1 TRAIN A & B DELETE DELETE ADD ADD Comments From To From To K636-3 TB636-11 K636-4 TB636-12

Shearon Cabinet Harris Nuclear Power Plant SSPS OUTPUT BAY 2 TRAIN A t B MOD IKL RBD RBhSION NO. ~

DELETE DELETE ADD ADD Comments From To From To TB711-2 K7 11-6 TB711-6 TB711-10 TB711-10 TB702-2 K711-5 TB702-1 TB702-3 K711-3 K711-4 K740-13 K740-14 TB702-4 TB702-5 K711-1 K711-2 K740-11 K740-12 TB702-6

Installation Package Mod. No. PCR-6547 Installation Instructions Field Rev. No. 0 Page No. /6

~ g-Q5.

ER 1.0 Res nsibilitias 1.0 All work to be implemented in accordance with MAP-004, EM-003 AND MMM-012.

2.0 S ecial Installation Instructions 2~1 Install conduit supports as recommended on attached civil sketches.

2.2 Install conduits 10317N-SA-2.0" and 10319N-SB-2.0" as shown on design sketch SK-6547-E-3300 and conduit installation sketch 3402.

2' Reroute cables 10317F-SA and 10319F<<SB from equipment SSP-OUTPUT gl to SSP-OUTPUT g2 train "A" and "B" respectively. New cables 10317N-SA, 10317P-SA, 10319N-SB and 10319P>>SB shall be routed to equipment as shown on attached sketches Sk-6547-E-3400 and 3401.

2.4 All cables"E"mentioned above will require penetration to be breached see section of this PCR for breach reseal information.

2.5 Terminate cables as shown on attached CWD sketches provided in this PCR~ t

Mod. No. PCR-~5~

Field Rev.

Pa e No.

<%>4N><~<,'~K%ÃPENETR'ATIONSlnBREACHED'~ Breach'..andNresea'1+ er~CMP>>.'10')"".5'"'%24Ni~P+

CABLE NO. RACEWAY ELEC DWG PENET. SEAL DWG REMARKS PP's/Location NO. NO. NO.

10317F-SA CB0151-SA 6-G-332 E590 7.S-027 S08 Sol CB0150-SA E589 N 10317P-SA CA0110-SA 6-G.332 E612 7-S-025 S06 C1301-SA 6.G-318 E3770 7.S-140 3200, 3212 Sol II II E456 7-S-005 CB0151-SA 6-G-332 E590, 7-S-027 S08 S01 10319P-SB CA0111-SB 6-G-332 E603 7-S-025 S06 C1807-SB 3060 3012 6-G-317 Sol

'766 7-S-037 C1810-SB 6-G-318 E2513 7-S-027 3147 3316 S01 SOl PIPING LINE. PIPE DWG. PENET. SEAL DWG.

NO. NO. NO. NO.

2CS2-296-SN-1-0 5-G-140 P415 7-S-012 Penetrnt ion seel should be P415a relnstnlled Slush to the floor.

Supplenentnl sleeve should protrude only enough to support boot >nstnllntlon 2CS2-298-SN-1-0 5-G-140 P426 7-S-012 P426a 2CS2-297-SN-1-0 5-G-140 P418 7-S-012 Relnstnll boot to suit NOTE: These penetrations have been identified as requiring sealing following cable installation. No other penetrations are to be breached w/o approval.

Installation Package Mod. No. PCR-6S47 Testing Requirements Field Rev. No. 0 Pa e No. Fl SECTION F TESTING REQUIREMENTS

PLANTMao.m.QZ-C >

FlELD REV. NO.

PAGE NO, TESTING OF FLOW PERFORMANCE OF RESTRXCTION ORIFICES WILL BE PERFORMED JOINTLY BY THE PLANT (TECT. SUPPORT) AND NED.

FLOW TESTING OF RESTRICTXVE ORIFICES WILL BE PERFORMED USING ULTRASONIC FLOW METER. THE TYPE OF METER IS A TRANSXT-TIME UNIT DESIGNED FOR USE WITH CLEAN WATER.

ESTABLISH SEAL INJECTION <31 GPM WHILE FLOW TESTING OF ORIFICES.

TEST FLOW OF ORIFICES 60 CPM -4/+30 6 26000'EAD PIPING WILL BE OBSERVED BY EXPERIENCED NED PERSONNEL DURING TESTXNG OF ORZFICES AND A QUALATATIVE ASSSESSMENT OF ABNORMAL PIPING MOVEMENT OR VIBRATION WILL BE MADE. INSTALLATION/TESTING PACKAGE SHALL PROVIDE SZGNOFF FOR NED.

HYROTEST PIPING USING APPROPRIATE PLANT PROCEDURES.

D OT BO D E HYDROTEST BOUNDARIES DEFINED BY CLOSING THE FOLLOWING VALVES: 1CS-745, 1CS 753'CS 752'CS 746'CS 194'CS 180'CS 182'CS 210~ 1CS 196, 1CS-195, 1CS-181 AND 1CS-214. OPEN VALVES 1CS-747, 1CS-748, 1CS-749, 1CS-750~ AND 1CS-751. PRESSURIZE THROUGH 1CS-209 AND 208.

Plant Modification Mod. No. PCR-6547 Testing Requirements Field Rev. No. 0 Page No. F3 Testing of wide range pressure loop (P-402 and P-403) bistables shall be performed in accordance with the applicable maintenance surveillance tests as deemed necessary (MST-I0080 and MST-I0081 represent the survei.llance tests for P-402 and P-403, respectively). Performance of newly introduced relay K711 should be verified by bistable testing.

Actuation of SSPS relay K740 should be verified through the performance of the

. appropriate plant surveillance tests. OST-1083 and OST-1084 are presently utilized for testing of the K740 relays.

In order to simulate SI actuation coincident with the RCS pressure permissive

. for the purpose of verifying correct MOV operation, jumpers shall be placed within the SSPS output bays as follows:

Valve o e in verificatio Valve closi verification From TB702-5 to TB702-6 From TB702-3 to TB702-4 Exercise care when assuring power availability and observe the appropriate plant procedures concerning jumper installation.

ORIGINAL FORINT 2RA Pg Qe~

pg o

f1ODIFlCATlON REVlEW AND APPROVAL FOR PCR PROJECT MANAGER CHECKLIST A TITLE: < her 0 m, F'(om B DESIGN ORGANIWTION DISPOSITION: 1 Q ACCEPT 2 0 REJECT Q N/A C. MODIFICATIONPACKAGE INVOLVES CHANGES WHI H REQUIRE ACTION IN ACCORDANCE WITH AP-011 (REFERENCE MOD-204 SECTION 5.3.4)

Q N/A D. THE FOLLGWING WRSA's ARE INITIATED TO INSTALL AND TEST THIS MODIFICATIONPACKAGE;

<<<<<<<<<<):

(USE SKILL CODE = SS AND TROUBLE TAG = PCR

'R3 -AtYlA H(

E. MODIFICATION PACKAGE CONTENTS:

FORM 2; EFFECTIVE PAGES Q N/A FORM 2CS; PAGES F. TESTING SPECIFIED DURING HPOS REVIEWS TO BE PERFORMED TO VERIFY THE ACCEPTABILITYOF THE DESIGN AND MODIFICATION:

1 0 N/A Q PRIOR TO RETURNING THE EQUIPMENT TO OPE RATIONS -

CONTROL (TURNOVER)

PAoi) 2.o c. + 5'e H ro 5 s zOOE

~Sdc ueI. eg+ 48

2. Q N/A 0 NOT REQUIRED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER)

PROJECT MANAGER DATE SYSTEM ENGINEERING CHECKLIST A DISPOSITION' gf CONCUR 2 0 CONCUR WITH COMMENTS 3 0 REJECT B. Q N/A QfYES QNO THE TESTING SPECIFIED INPART 1, ITEMF ABOVE IS ADEQUATE TO VERIFY THE ACCEPTABILITYOF THE DESIGN AND MODIFICATION IF NO, THE FOLLOWING CHANGES/ADDITIONS ARE REQUIRED TO VERIFY.THE ACCEPTABILITY'F THE MODIFICATION:

I~ P PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER)

Q MOD-204 ACCEPT TEST 2 0 NOT REQUIRED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER)

Q MOD-204 ACCEPT TEST C. COI'1MENTS:

~

DaAz SYSTEM ENGINEER DATE PERVISOR DATE 7a IZc V/c~

Q N/A QA/QC REVIEW: /0- V-WO 8cc~~i zwO DATE SUPPLEMENT CS NUMBER OF P4GrS 0 REJECTION OVERRULED 0 APPROVED TG INSTALL O~

0 REJECTION APPROVED QAPPROVED FGR CLOSURE GENERALNANAC<R-HARRISPLANfOROESIGNEE GATE Q WORKING COPY ISSUED IAW MOD-204; 0 SPECIAL DISTPIBUTIGN:

FORM MOD-204-4-2

8 Installation Package Mod. No. PCR-6547 Plant Documentation Revisions Field Rev. No. 0 Pa e No. Gl SECTION G PW&lT DOCVMENTATION REVISIONS

Form 8 MOD NO.PCR-6547 PLANT DOCUMENT REVISION SHEET FIELD REVISION NO. 1 PAGE NO. G1A sg%PP 4qj~g+'<

.":UPDATE',Fg )jPRECORDj',OPj".'"j

'(BEFORE':,",.:<

<OPERA';.".','"i:".;.

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MST-I0080 RCS WIDE RANGE PRESSURE P-0402 YES MST-I0081 RCS WIDE RANGE PRESSURE P-0403 YES VM-BJS CROSBY VALVE AND GAGE VENDOR MANUAL NO FSAR FIGURE 9.3.4-02 NO FSAR FIGURE 9.3.4-03 NO POM PLANT OPERATING MANUAL EDBS E UIP. DATA BASE SYS. NO 2165-S-2241 COMPONENT LEVEL -LIST NO FSAR SECTION 6.3.2-1 NO FSAR SECTION 6.3.2.2.5 NO FSAR SECTION 7.3.1-5 NO OST-1825 SAFETY INJECTION: ESF RESPONSE TIME TR A OST-1826 SAFETY INJECTION: ESF RESPONSE TIME TR B OST-1083 ESFAS TRAIN "A" SLAVE RELAY TEST OST-1084 ESFAS TRAIN "B" SLAVE RELAY TEST C- e 6'/

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For later in tracking completion of the revision.

NPMP - REV. 4

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6.3.2

~ ~ SYSTEM DESIGN SlL'HAPP PS'OD NO.

IUI MISttNI PAGE NO.

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The ECCS components are designed such that a minimum of two accumulators, one charging pump and one residual heat removal pump together with their associated valves and piping will assure adequate core cooling in the event of a design basis LOCA. The redundant onsite standby diesel generators assure adequate emergency power to at least one train of electrically operated components in the event that a loss of offsite power occurs simultaneousLy with a LOCA.

6.3.2.1 Schematic Pi in and Instrumentation Dia rams FLow diagrams of the ECCS are shown in Figures 6.3.2-1 through 6.3.2-3.

Pertinent design and operating parameters for the components of the ECCS are given in Table 6.3.2"l. The codes and standards to which the individual components of the ECCS are designed are listed in Table 3.2.1-1.

The component interlocks used in different modes of system operation are listed belo~:

a) The safety injection signal, "S", is interlocked with the following components and initiates the indicated action:

1) Centrifugal charging pumps start on "S" signals

2) Refueling water storage tank suction valves to charging pumps open on "S" signal.

3) Boron injection tank suction and discharge parallel isolation valves open on "S" signals

4) Normal charging path valves close on "S" signals

5) Normal charging pump miniflow valves close on "S" signals

6) te t n ow a v s e cLdSK oh! "S" S I GM AL COIhICl bENT @JIB RGB PRKRGURE.

7) esx ua eat removal umps star on S" signa ~

8) Any closed accumulator isolation vaLves open on "S" signal.

9) Volume control tank'utlet isolation valves close on "S" signals b) Switchover from injection mode to recirculation involves the following interlocks'.

1) The suction valves from the containment sump open when two out of four low level transmitters indicate a low-low leveL in the RWST in conjunction with an "S" signal.

2) The charging pump suction (recirculation line) isolation valve from the RHR pump discharge line cannot be opened unless one of the RHR suction isolation valves from the RCS hot legs is closed.

Amendment No. 22

6. 9 .2.-1

SHNPP FSAR For other system pumps, or for RHR pump NPSH when operating in other modes, this equation becomes:

4M fii~<JL-C~ g7

~ h NPSH available ambient pressure +,h static head Ff5d Q@t. f:.. g

-h -

line losses h vapor pressure Page Na The net positive suction head of the residual heat removal pumps is evaluated Eor>>ormal plant cooldown operation, and for both the injection and recirculation modes of operation Eor the design basis accident. Recirculation operation gives the limiting net positive suction head requirement and the net positive suction head available is determined from the containment water level relative to the pump elevation and the pressure drop in the suction piping Ernm the sump to the pumps.

The residual heat removal pumps are discussed further in Section 5.4.7. A pump design performance curve is given in Figure 6.3,2-8.

6.3.2.2.5 Centrifugal Charging Pumps Tn the event of an accident, the charging pumps are started automatically on receipt of an "S" signal and are automatically aligned to take suction from the refueling water storage tank during injection. During recirculation, suction is provided from the residual heat removal pump discharge.

These high head pumps deliver flow through the boron injection tank to the RCS at the prevailing reactor coolant system pressure. Each centrifugal charging pump fs a multistage diffuser design, barrel-type casing with vertical suction and discharge nozzles.

A minimum flow bypass line is provided on each pump discharge to recirculate flow to the pump suction after cooling via the seal water heat exchanger during normal plant operation. Each charging pump has double valve isolation on the minimum flow bypass line. Safety injection signal closes the valves to isol.ate the normal charging line and volume control tank and opens the charging pump-refueling water storage tank suction valves to align the high head portion of the ECCS for injection. The charging pumps may be tested during power operation via the minimum flow bypass line or the normal charging line.

The two operable charging pumps are each provided with an alterna e path which is automatically aligned on receipt of an "S" signal 7L-u'w&c~ FR<~

EfC.&ASSI < NlgII l Simultaneously, the normal miniflow paths are isolated. Each of t >

miniflow motored operated is lation valves is powered from the same train as the pump it is protecting. p,A aaieic~ is provided in each alternate miniflow path to prevent the c>arg ng pump from reaching a deadhead condition.

Pck-CS+7 Net positive suction head design considerations Eor the charging pumps are similar to those for the RHR pumps discussed in Section 6.3.2.2.4.. The net positive suction head for the centrifugal charging pumps is evaluated Eor both the injection and recirculation modes of operation for the design basis 6.3.2-5 Amendment No. 19

TABLE 6.3.2-3 (Continued)

MOTOR OPERATED ISOLATION VALVES IN THE EMERGENCY CORE COOLING SYSTEH Valve Automatic Position Location Identification Interlocks Features Indication Alarms Charge Pump 8132A,B None None HCB Yes-out of Discharge 8133A,B position Crossover 26 Charging Pump 8489A,B "S" signal OPEhl/CLOSE ON S'SIGHRL+RCS PRESS MCB No 4J Alternate 8490A,B with LHSI ne MCB No I

'iniflow crossover isolates 8706A,B to prevent recirc. water from entering RWST sQ 0

TABLE 7 3 1"5 ESF ACTUATION SVSTB45-SAFETY INJECTION SIGNAL(5)

REFERENCE EQU I 84ENT ACTUATION SCHBIAT I C/LOG I C+

I OENT IF I CAT ION SERV ICE CHANHEL- ACTION F I GURE HN 8ER NU4BER APCH (IA-Sh) Chnrqlnq/Safety InJect Ion Pump A A Star t Note 1 6,3,4-3 NSSS - CSIP1A APCH (18-SB) Charqlng/Safety InJectlon Pump 8 8 Start Note > 6,3, 4-3 NSSS - CSIP18 APCH (1C-SAB) Charqlnq/Safety InJectlon Pump C AM Start Note 1 6+ 3m 4-3 NSSS - CSIPIC AHRP (lA-SA) Residual Heat Reeaval Puny A A Start Note 1 5,4-7-1 NSSS - RHIPIA AHIP (IB-SB) Residual Heat Removal Pump 8 8 Start Wte > 5 4-7-1 NSSS - RHRP18 APCC (1A-Sh) Component Cooling Puny A A Start Note 1 9,2;2-1 HSSS - CCP1A APCC (18-SB) Component Coollnq Pump 8 8 Start Note 9,2,2-1 NSSS - CCPIB APCC (1C-SAB) Component Cooling Pump C AIS Start Note 1 9,2,2-1 NSSS - CCPIC 2CS-V585SA-1 Chnrqlnq/Safety InJectlon Nlnlmum Flow I so I at lon Close 9,3 4-3 HSSS - )-Bi06 2CS-V60058 1 Charglnq/Safety InJectlon Puny A Mln.

F lcm Isolation Close 9,3, 4-3 HSSS - I"Bi09A 2CS-V602SB-1 Charglnq/Safety InJectlon Pump B HIn, F lcm Isolation Close 9 3 4"3 NSSS - 1<<8>098 2CS-V601SB-1 Chnrglnq/Safety InJectlon Puny C Hln, F lcm Isolation 8 Close 9,3,4"3 NSSS- 1-8>09C 2S I "V537SA"1 S~ I~ Accumulator A Dl scharqe A Open 6,3,2-2 NSSS- >-880 8h 2S I "V53658-'I S~I~ Accumulator 8 Olscharqe 8 Open 6,3,2-2 HSSS- 1-880M 25 I "V535SA-1 5 ~ I~ Accumulator C Dl scharqe A Open 6,3,2 I NSSS- 1-880 8C 2S I "V503SA-> Boron InJectlon Tank Inlet Isolation A Open 6,3,2-1 NSSS- ~-8803h 25I V5048-I Boron InJectlon Tank Inlet Isolation 8 Open 6,3,2-1 NSSS- 1-88038 2S I-V5065 A-'I Boron InJectlon Tank Outlet Isolation h Open 6,3,2 ~ NSSS 1-880'.A 2S I-V505SB-1 Boron InJectlon Tank Outlet Isolation 8 Open 6,3 2-4 NSSS- t-880 i8 2C 5-V 6105 A-1 Chnrqlnq Pump to Reactor Coolant System Iso let Ion Close 6,3,4-3 HSSS->-Bi07 2CS<<V60958- > Charqlnq Puny to Reactor Coolant System cs Isolation C ose 6,3,4 3 HSSS->-8>08 g) g Q 0

2CS-V757SA-I CVCS Hlnl f Iow Isolation Opeq(CLOSE h!OTE6 2CS-V75958-1 CVCS Hlnl f lm Iso let lon OpegCLOSE garE6 a

O

TABLE 7.3,1-5 (Continued)

ESF ACTUATION SYSTEMS-SAFETY INJECTION SIGNAL(S)

Et)U I PMENT ACTUATION REFERENCE SCHEMAT I C/LOG I CI I DENT IF I CAT > ON SERV I CE CHANNEL ACT ION F I GURE NUMBER NUMBER 2SP-V405SA-I Cont, Atmos, Rad, Monitor Isol ~ Close 2SP-V304SA"I Cont. Atmos, Sys. Cont, Isol ~ Close 2SP-V302SB-I Cont. Atmos, Sys, Cont, Isol ~ Close 2SP-V303SB-I Cont, Atmos, Sys, Cont. Isol ~ Close 2SP-V305SA-I Cont, Atmos, Sys, Cont, Isola Close AH-85(IA-SA) D.G, Elect, Equip, Air Handling Unit Start Note I 9 ' '-2 CAR-2166-B-430SH31.182A AH-85(IC-SB) D,G, Elect. Equip, Alr Handling Unit Start Note I 9 '.5-2 CAR-2166-B-430SH31 ~ 1828. 40 IAIA-SA 6,9 KV Emer, Bus IA-SA to Transf ~ IAI A Open Note I IB IA-SB 6.9 KV Emer, Bus IB-SB to Transf ~ IBI B Open Note I Note': Equipment started via the emergency load sequencer of Its respective safety train.

Note 2: Equipment indirectly started as slave of other equipment actuated by the safety signai ~

Note 3: Equipment operations are initiated via the control room isolation signal ~

Note 4: One fan per unit started as selected by lead fan selector switch, Note 5: Valves open on SIAS coincident with RMST Lo-Lo Level fJOTg6- VRLVFS OP CLOSE OM'S" f Of fdCI ba'hfT'JfVH RC9 PRESSORE'.

For NSSS supplied equipment the number Is the valve number from ~bleb the schematic/logic can be found,

<S-sA let . ~ erv Reviewer Date g PPlsc. Rema~ Rgc)ilgp Original safety evaluation has been revised.

S ety Reviewer QUALXI'YASSUIUACE

+May/Project Engineer Date APPROVAL Date NPMP - REV. 4

PLANT MOD. NO.

ORIG NNAL FOEHN 2CS FIELD REV. NO.

PAGE NO.

CONl1ENT SHEET TO PCR PAGE OF TO: DATE ROUTED: 4 DATE DUE:

0 N/A REVIEWER LISTS BELOW PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED. ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED; ALSQ INDICATE THOSE PROCEDURES THAT MUST BE CHANGED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK, g sc-w-a~

r ~ oca 0 0

Q N/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.

0 N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM:

n, ERFRG 4i.~ e '

Q N/A REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.

ALSO INDICATE THOSE TESTS THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.

'0 0 0 0 Q N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAM 0 N/A GENERAL

~-

COMMENTS ON THE DESIGN DETAILS AND INSTALLATIONINSTRUCTIONS:

SEE co ..- 8~ u REVIEWED BY: 9P.

NA E / TITLE ORGANIZE ION DATE RETURN TO MODIFICATIONMANAGEMENT RESOLUTION:(IF THERE ARE NO COMMENTS. THE PREPARER IS NOT REQUIRED TO ACKNOWLEDGE THE REVIEW RESULTS)

PREPARED BY:

NAME / TITLE DATE FORM MOO-204"3-3

PLANT MOO. NO. gS-p

.. ORlGINAL RELD REV. NP PAGENO, .

TO: S' C ~ tlMENT SHEET TO PCR ~7 FORM ZCS

~9.2 *-
PAGE Q N/A REVIEWER LISTS BELOW, PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED, ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED'LSO INDICATE THOSE PROCEDURES THAT MUST 5E CHANGEO PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCI'.
Pf N/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
~N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILI.ANCE TRACKING SYSTEM(
Q N/A REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTAlLED.
f ALSO INDICATE THOSE TfSTS THAT MUST BE Pf RFORMED PRIOR TO RETURNING THE QUIPMENT TO OPERATIONS CONTROL'(TURNOVER) BY CHECKING THE BLOCK.
N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAI'I Q N/A GEN RAL COI1MENTS 0 T E DESIGN DETAILS AND INSTALL TION INSTRUCTIONS:
/ za a.'
n.
REVIEWED BY; NAME / TITLE ORGANIZATION ATE RETURN TO MODIFiCATION MANAGEMENT RESOLUTION:(IF THERE ARE NO COMMENTS. THE PREPARER IS NOT REQUIRED TO ACKNOWLEDG THE REVIEW RESULTS)
PREPARED BY:
NAME TITlE DATE FORM MOD-204-3-5
~ ~
~ ~
~
I FIELO REV. NO.
PAGE NO.
I
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PLANT MOD. NO. KM 7 OR!atNAL FIEI.D REV. No.
PAGE NO.
~l- *:~7 FORM 2t:S COMMENT SHEET TO PCR PAGE O.=
TO: "I
~/A REVIEWER LISTS BELOW PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED. ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED; ALSO INDICATE THOSE PROCEDURES THAT MUST 5E CHANGED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK,
/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK, GLN/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKINS SYSTEM:
I
/A.REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFO'RMED AFTER THIS MODIFICATION IS INSTALLED.
ALSO INDICATE THOSE TESTS THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAM 5 ~ ~4 Q N/A
/V~ i ~gag ~
GENERAL COMMENT
S ON THE DESIGN DETAILS AND INSTALLATIONINSTRUCTIONS:
r~Ã -g ~c g yg //vr)
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REVIEWED BQr NAM /TITI E ORGANIZA ON DATE RETURN TO MODIFICATION MANAGEMENT RESOLUTION:(IF THERE ARE NO COMMENTS, THE PREPARER IS NOT REQLIIRED TO ACKNOWLEDGE THE REVIEW RESULTS)
PREPARED BY:
NAME / TITLE DATE FORM MOD-204-5-3
PLANT MOD. NO. 4S 7
.ORIG I NAL FIELD REV. NO.
PAGE NO.
FORINT 2CS COllf1ENT SHEET TO PCR PAGE O.""
TO: e I DATE RCUTED: - 2( -'9 N/A REVIEWER LISTS BELOW PROCEDURES TO Bf REVISED AFTER THIS MODIFICATION IS INSTALLED, ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED; ALSO INDICATE THOSE PROCEDURES THAT MUST BE CHANGED PRIOR TO RETLIRNING THE EOIJIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECI'ING THE BLOCK.
N/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM:
/A REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.
ALSO INDICATE THOSE TESTS TFIAT MUST BE PERFORMED PRIOR TO RETURNING'THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAM 0 N/A
GENERAL COMMENT
S THE DESIGN DETAILS AND INSTALLATIONINSTRUCTIONS:
ON c - &0 l m.il b c~ecetl~l Ce. i ',a< o4 +4; m 84,on REVIEWED BY:
NAI'1E / TITLE ORGANIZATION DATE RETURN TO MODIFICATION MANAGEMENT RESOLUTION:(IF THERE ARE NO COMMENTS. THE PREPARER IS NOT REQUIRED TO ACKNOWLEDGE THE REVIEW RESULTS)
PREPARED BY:
NAME / TITLE DATE FORM MOD"204-3-5
PLANT MOD. NO.
ORlGlNAL FORl1 2CS FIELD REV NO NO.
g'AGE COMMENT SHEET TO PCR PAGE OF TO: Mc DATE ROUTED: 2 6- DATE DUE: P-2 7 /2.
Jjg N/A REVIEWER LISTS BELO'W PROCEDURES TO BE REVISED'AFTER THIS MODIFICATION IS INSTALLED, ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED; ALSO INDICATE THOSE PROCEDURES THAT MUST l5E CHANGED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
Q N/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
Q N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM:
Q N/A REVIEWERl ISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AF TER THIS MODIFICATION IS INSTALLED.
ALSO INDICATE THOSE TESTS THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAM Q N/A
GENERAL COMMENT
S ON THE DESIGN DETAILS AND INSTALLATIONINSTRUCTIONS:
0 75 REVIEWED BY:
NAME / TITLE ORGANIZATION DATE RETURN TO MODIFICATION MANAGEMENT, RESOLUTION.'(IF THERE ARE NO COMMENTS, THE PREPARER IS NOT REQUIRED TO ACKNOWLEDGE THE REVIEW RESULTS)
PREPARED BY:
NAME / TITLE DATE F ORM MOD-204 "5-5
I PLANT MOD. NO. KS ORIGINAL FIELD REV. NO.
TO:
P N/A COMMENT SHEET TO PCR
FORl1 2CS
~Z PAGE No, PAGE REVIEWER LISTS BELOW PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED. ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED; ALSO INDICATE THOSE PROCEDURES THAT MUST BE CHANGED PRIOR TO RETURNING THE EOIJIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECI'ING THE BLOCK.
OF P See, /I ])~e 4EE 2 p
P N/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
gg ATT n~ ui p P N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM: T. ~ . 5 3 e Q N/A REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.
ALSO INDICATE THOSE TESTS THAT MUST Bf PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCk.
Q ~4 R~va.lie+ f. Q Vax. V4lV p 7
p N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAM P N/A
GENERAL COMMENT
S ON THE DESIGN DETAILS AND INSTALLATIONINSTRUCTIONS:
(ih 5KCA t'PkASXA L S4ou.49 be. c Mfa,M 4a ~e 4le~f. 44~ (web o4 o4 fT-'to3. + I'1-eo3 REVIEWED BY: P 8" IE / TITLE ORGANIZATION DATE RETURN TO MODIFICATION MANAGEMENT RESOLUTION'. (IF THERE ARE NO COMMENTS. THE PREPARER IS NOT REQLIIRED TO ACKNOWLEDGE THE REVIEW RESULTS)
PREPARED BY:
NAME / TITLE DATE FORM MOD-201-3-3
PLANT MOO. NP.
FIELD REY. NQ.
PAGE NQ, PROCEDURES TO BE REVISED The following EOPs should be revised prior to entry'nto MODE 4:
EOP-User s Guide EOP-PATH-1 EOP-PATH-2 EOP-GUIDE-1 EOP-GUIDE-2 EOP-EPP-882 EOP-EPP-883 EOP-EPP-888 HOP-EPP-889 EOP-EPP-818 EOP-EPP-812 EOP-EPP-815 EOP-EEP-817 EOP-EPP-818 .
EOP-EPP-819 EOP-EPPW28 EOP-EPP&21 EOP-EPPW22 EOP-FRP-H. 1 EOP-FRP-P. 1 EOP-FRP-I. 1 EOP-FRP-I . 2 EOP-FRP-I . 3 (2) OMM-884 must be revised to account for the position of alternate miniflow isolation valves versus RCS pressure. The procedure should be revised prior to entry into MODE 4.
g3 ~[o <
(3) OST-18@5 and OST-1864 must be revised base on removal of K633 relay.
The procedures must be revised prior to next scheduled performace of the tests.
(4) OST-1825 and OS'2-'1826 must be revised base on removal of relief valves.
(The procedure currently says they are replaced by spool pieces.) Also, the WST Switchover Signal must be reset to allow control of miniflow isolation valves. The procedures must be revised prior to next scheduled performace of the tests.
(5) An CNP needs to be added to CNP-ESF for failuri; of PT-482 and PT-483 since failure of the pressure transmitters causes the associated alternate miniflow isolation valve and high head SI train to become inoperable. The QP should specify the condition and position in which to place the miniflow isolation valves. The procedure should be in place prior to entry into MODE 4.
(6) A surveillance test must be developed to verify operability of the two alternate miniflow isolation valves. This procedure must be developed and performed prior to turnover of the modification.
ozielNAL PLANT MOD. NQ.
FIELD REV. NO.
PAGE NO.
FORM 2CS COlltlENT SHEET TO PCR C.
~~
PAGE OF TO:
Q N/A REVIEWER LISTS BELOW PROCEDURES TO BE REVISED AFTER'THIS MODIFICATION IS INSTALLED. ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED; ALSO INDICATE THOSE PROCEDURES THAT MUST 5E CHANGED PRIOR TO RETURNING THE EOUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
g c pg 4 Cl a gf N/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
Q N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM:
Q N/A REVIEWER LISTS TEST PROCFDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.
ALSO INDICATE THOSE TESTS THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
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N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAM Q N/A
GENERAL COMMENT
S ON THE DESIGN DETAILS AND INSTALLATIONINSTRUCTIONS 7 Edda r'-V~<
REVIEWED BY:
NAME / TITLE ORGANIZATION DATE RETURN TO MODIFICATION MANAGEMENT RESOLUTION:(IF THERE ARE NO COMMENTS. THE PREPARER IS'NOT REQUIRED TO ACKNOWLEDGE THE REVIEW RESULTS)
PREPARED BY~
NAME / TITLE ATE FORM MOD"204"5-5
FIELD REV. NO.
ORIG INAL- PAGE NO.
FORt1 2CS corlNENT sHEET To P(-R PAGE OF TO: DATE ROUTED: - - Z. DATE DUE:
Q N/A REVIEWER LISTS BELOW PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED. ANY NEW PROCFPURES REQUIRED APE AI SQ LISTED; ALSO INDICATE THOSE PROCEDURES THAT MUST 5E CHANGED PRIOR TO RETLIRNING THE EOJJIPMENT TO OPERATIONS CONTROL (TURNOVER3 BY CHECKING THE BLOCK.
Q N/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
N N/A REVIEWER LISTS BEI OW IMPACTS TO SURVEII LANCE TRACKING SYSTEM:
Q N/A REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.
ALSO INDICATE THOSE TESTS THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERA710NS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
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N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAM Q N/A
GENERAL COMMENT
S ON THE DESIGN DETAILS AND INSTAI LATION INSTRUCTIONS:
REVIEWED BY:
NAI'1E / TITL ORGANIZATION DATE RETURN TO MODIFICATION MANAGEMENT RESOLUTION:(IF THERE ARE NO COMMENTS. THE PREPARER IS NOT REQUIRED TO ACKNOWLEDGE THE REVIEW RESULTS)
PREPARED BY:
NAME / TITLE DATE FOPM MOD-204-3-5
~ /~M ~~ ~~~~r M C- PLANT MOD. NO.
FIELD REV. NO.
FORH 2CS PAGE NO. />
COflf1ENT SHEET TO PCR PAGE OF TO: DATE ROUTED: *
{j9 N/A REVIEWER LISTS BELOW PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED. ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED; ALSO INDICATE THOSE PROCEDURES THAT MUST DE CHANGED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
[jfN/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST OE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BI.OCK.
0 E3 gf N/4 PEVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM; Q N/A REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS'INSTALLED.
ALSO INDICATE.THOSE TESTS THAT MUST Bf PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCI'.
D Q D C3 N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQLIIRING ADDITION TO THE PM PROGRAM Q N/A
GENERAL COMMENT
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/r S r 7a lM P Cr4. r Crt~ <&% A)eMg oM MWd
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NA ITL ORGANIZATION DATE RETURN TO MODIFICATION I'1ANAGEMENT RESOLUTION:(IF THERE ARE NO COMMENTS. THE PREPARER IS NOT REQUIRED TO ACKNOWLEDGE THE REVIEW RESULTS)
PREPARED BY NAME / Tl LE DATE FORM MOD-204 "3-c
PLANT MOD. NO.
ORtGINAL FIELD REV. NO.
PAGE NO.
\
FORt1 2CS COMt1ENT SHEET TO PCR PAGE l OF TO: 'Lc,~ DATE ROUTED: -2C- *
~ N/A REVIEWER LISTS BELOW PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED. ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED: ALSO lNDICATE THOSE PROCEDURES THAT MUST 5E CHANGED PRIOR TO RETURNING THE EOIJIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
Q N/A CONTROL (TURNOVER) BY CHECKING THE BLOCK.
0 +~E'- $ L/~
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Gig N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM;
+ N/A REVIEWER ALSO INDICATE I.ISTS TEST THOSE PROCEDURES TESTS TRAT MUST THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.
BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCk.
N/A SYSTEM ENGINEER IDENTIFY COMPON NTS REQUIRING ADDITION TO THE PM PROGRAM Q N/A GFNERAL.COMMENTS H s'n ON THE DESIGN DETAILS AND INSTALLATIONINSTRUCTIONS:
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NAME / TITLE DATE FORM MOD-204 "3-5
PLANT MOD. NO.
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PAGE'NO. C} IP ag FORl1 2t:5 CDMMENT SHEET TD PCR PAGE OF ~
TO: A DATE ROUTED: DATE DUE: - 2 Q N/A REVIEWER LISTS BELOW PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED. ANY NEW PROCEDURESREGUIRED ARE ALSO LISTED; ALSO INDICATE THOSE PROCEDURFS THAT MUST 5E CHANGEO PRIOR TO RETURNING THE EQUIPMENT TO'OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
Q N/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATIONIS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK ~
~~mP Q Q N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM; Q N/4 ALSO REVIEWER LISTS TEST PROCEDURES'THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.
INDICATE THOSE TESTS THAT MUST Bf PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
Ql N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAM Q N/A
GENERAL COMMENT
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4 st Sh~e)I%i-~ ~ 5- ~ <&SR-oo ance'S'4utl n h a Qo her c REVIEWED B: C nm'iE / TITLE ORGANIZATION DA E RETURN TO MODIFICATIONMANAGEMENT RESOLUTION.'(IF THERE ARE NO COMMENTS. THE PREPARER IS NOT REQUIRED TO ACKNOWLEDGE THE REVIEW RESULTS)
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FORINT 2CS COMMENT SHEET TO PCR PAGE ~ OF TO: 4.
Q N/A REVIEWER LISTS BEI.OW PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED, ANY NEW PROCEDURES RFQUIRED ARE AI.SO LISTED: ALSO lND)CATE THOSE PROCEDURES THAT MUST 5E CHANGED PRIOR TO RETURNING THE EOlJIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BI.OCK.
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Cl N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM: T45 I-
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C3'/A REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.
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Q Z. 7=4m c - < ., Q C3 0 N/A SYSTEM ENGINEER IDENTIFY COMPONENTS
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LC PREPARED BY: -9z NAME / TITLE DATE FORM MOD-201-3-3
PLANT MOD. NO. K~ W 7 FIELD REV. NO.
PAGE NO.
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TO: Su DATE DUE:
- 2 Q N/A REVIEWER LISTS BELOW PROCEDURES TO BE REVISED AFTER THIS MODIFICATION IS INSTALLED. ANY NEW PROCEDURES REQUIRED ARE ALSO LISTED; ALSO INDICATE THOSE PROCEDURES THAT MUST l5E CHANGED PRIOR TO RETLIRNING THE EO1JIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
Q N/A REVIEWER LISTS BELOW TRAINING TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
Q N/A REVIEWER LISTS BELOW lt1PACTS TO SURVEILLANCE TRACKING SYSTEM:
Q N/4 REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.
ALSO INDICATE THOSE TESTS THAT t1UST BE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCk.
0 n 0 D N/A SYSTEM ENGINEER IDENTIFY CO 1PONENTS REQLIIRING ADDITION TO THE PM PROGRAI'1 Q N/A GFNERAL'OI1MENTS ON THE DESIGN DETAILS AND INSTALLATIONINSTRUCTIONS:
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O N/A REVIEWER LISTS BELOW TRAINLNG TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED. ALSO INDICATE TRAINING THAT MUST BE PERFORMED PR'IOR TO RETURNING THE EQUIPMENT TO OPERATIONS CONTROL (TURNOVER) BY CHECKING THE BLOCK.
C3 N/A REVIEWER LISTS BELOW IMPACTS TO SURVEILLANCE TRACKING SYSTEM:
Cl N/A REVIEWER LISTS TEST PROCEDURES THAT ARE TO BE PERFORMED AFTER THIS MODIFICATION IS INSTALLED.
ALSO INDICATE THOSE TESTS THAT MUST RE PERFORMED PRIOR TO RETURNING THE EQUIPMENT TO OPERATIONS'CONTROL'TURNOVER) BY CHECKING THE BLOCK.
N/A SYSTEM ENGINEER IDENTIFY COMPONENTS REQUIRING ADDITION TO THE PM PROGRAM Q N/A GENERAL COt MENTS ON THE DESIGN DETAILS ANO INSTALLATIONI STRUCTIONS:
o~ ~em REVIEWED BY;r /PE c7UCr Ace> /W Xo/P~w7 NAME / TITLE ORGANIZATION DATE RETURN TO MODIFICATION I'lANAGEMENT RESOLUTION:(IF THERE ARE NO COMMENTS. THE PREPARER IS NOT REQUIRED TO ACKNOWLEDGE THE REVIEW RESULTS)
PREPARED BY: AQ7 NAME / TITLE DATE FORM MOO-204-3-5
PLANT MOD. hU.
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HHP HAS AT LEAST FOUR KHOHH CASES IIHICH FIT THE COHFIGURA-PLANT MOD. NO.
ACTUAL RESOLVE DATE: STATUS: PRELINRY CLOSE OUT: VOIDED: FIELD REV. NO.
DATE RECEIVFD: 848"t92 ELEC: LAST USER: RHS ATP DATE:
PAGE NO.
APPLY DISTRIBUTIOH: DOCUNEHTS UPDATED DATE CONMEHTS: TIOH HOTED IH IH-9I-56.
HOTES:
TO ADD HEM ITEM EtITER Y: + DISC HEXT: PSM/ICR: XXX X XX XXXX 99999 X XX
. TO ADD REVISIOH EHTER ITEM + REV HO. FCR/DCH/PHP: XXX XX XXX 999999 XX
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Design Package Mod. No. PCR-6547 Field Rev. No. 0 Cover Sheet ELECTRICAL DESIGN PACKAGE
Design Package Mod. No. PCR-6547 Contents Control Field Rev. No. 0 Cover Sheet CONTENTS CONTROL
Design Package Mod. No. PCR-6547 Contents Control Field Rev. No. 0 List of Effective Contents Page No. 1 SECTION REVISI N/DATE TOTAL PA(~E CONTENTS CONTROL Effective Contents List................. 0 ...... ~ ~ ~ .. 1 DESIGN BASIS Design Basis References/Revisions ......... 0 ........... 1 DESIGN IMPACT EVALUATIONS EleCtr1Cal o ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 0 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 3 C'1V11'1 o ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 0 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 DESIGN DOCUMENTATIONREVISIONS Drawing Revision Sheet 0 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 Design Document Revision Sheet 0 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 SELF-ASSESSMENT RECORDS Fire Protection of Safe Shutdown Form 09/16/92 ~ ~ ~ ~ 1 Discipline Design Verification Record ~ ~ 12/12/91 ~ ~ ~ ~ ~ 3 IRR ¹HE-626 (CIVIL) 09/21/92 16 IRR ¹HE-628 (APPENDIX "R") . ~ ~ ~ . 09/21/92 IRR ¹HE-624 (DAC-1) . 09/16/92 87 Memo To File 9/23/92 ~ ~ ~ ~ ~ 1
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9/~s/ye I
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Design Package Mod. No. PCR-6547 Design Basis Field Rev. No. 0 Covex Sheet DESIGN BASIS
Design Package Mod. No. PCR-6547 Design Basis Field Rev. No. 0 Desi n Basis References/Revisions Pa e=No. 1 1.0 The cables which feeds the Charging Safety Injection Pump (CSIP) DBD 8104 and related system Chemical & Volume Control, Boron Thermal Regeneration and Boron recycle DBD //103 are not specifically mentioned in DBD gl04 and related DBD 5'103. However, the cables changed by this PCR comply with the requirements of the DBD's therefore there are no changes required for DBD's 109 and 104. Also, there are no changes required to Cable and Raceway Systems DBD g200 for the cables mentioned in this PCR.
Design Package Mod. No. PCR-6547 Design Impact Evaluations Field Rev. No. 0 Cover Sheet DESIGN IMPACT EVALUATIONS
Design Package Mod. No. PCR<<6547 Design Impact Evaluations Field Rev. No. 0 Discipline Design Impact Statement Page 1 Page 1 of 3 1.0 Electrical Disci line Desi n Im act Statement Modifications to the operating logic of valves 2CS-V757SA-1 and 2CS-V759SB-1 requires cables 10317F-SA and 10319F-SB to be rerouted from equipment SSP OUTPUT fl to SSP OUTPUT f2 train "A" and "B" respectively. New cables 10317N-SA, 10317P-SA, 10319N-SB, and 10319P-SB have been added to complete the circuit changes for the operating logic of the valves indicated above.
Conduits 10317N>>SA-2.0" and 10319N-SB-2.0" have been added to comPlete the cable runs for the related cables and to avoid overloaded trays.
All electrical changes mention in the modification are considered acceptable.
The drawings which are affected by this change are CAR-2166-B-043S01 and CAR-2166-G-322.
ELECTRICAL DESIGN IMPACT EVALUATION Z. 9 Page ~ of ~
zl~l<<
The changes to the CVCS Miniflow Valve 2CS-V757SA-1 and CVCS Miniflow Valve 2CS-V759SB-1 control circuits, as described in the marked up control wiring diagrams attached to IRR-HE-624, have been reviewed for their impact on existing calculations.. The following calculations are associated with this equipment:
E5518.10 "CVCS Miniflow Va. 2CS-V757SA-1" E5518.134 "CVCS Miniflow Va. 2CS-V759SB-1" E5-001/CPL-MOV-051 "Analysis of Overload Protection and Motor Torque Output for AC Motor Operated Valves (MOVs)."
E5-001/CPL-MOV-053 "Analysis of Overload Protection and Motor Torque Output for AC Motor Operated Valves (MOVs)."
24-JRG '"120VAC Class 1E Inverter Load Tabulation" Calculation E5518.10 analyzes the control circuit of the CVCS MiniflowValve 2CS-V757SA-1 for proper operation during maximum and minimum system voltage conditions. The model of the circuit, which was evaluated using the NETWORK 3.2 program, was modified to reflect the changed circuit configuration. The conclusions, based on the revised NETWORK 3.2 print out, are that the circuit will operate properly for all expected distribution system voltage extremes. Therefore, the revised circuit configuration is found to be acceptable.
Calculation E5518.134 analyzes the control circuit of the CVCS Miniflow Valve 2CS-V759SB-1 for proper operation during maximum and minimum system voltage conditions. The model of this circuit was also modified to reflect the changed circuit configuration and it was found that the circuit will operate properly for all expected distribution system voltage extremes. Therefore, the revised circuit configuration is found to be acceptable.
Calculations E5-001/CPL-MOV-051 and E5-001/CPL-MOV-053 perform design evaluations to determine the appropriate overload heater sizes and the minimum and maximum motor torques for the subject MOVs. No changes are required to these calculations, and the sizing of the thermal overloads remains adequate. Since the overload heaters are bypassed during a LOCA, they will not disrupt the operation of the valve during a LOCA accident. The thermal limits of the motor will not be exceeded when the heaters are bypassed since the duty cycle identified in IRR-HE-633 is bounded by the duty cycle evaluated in the subject calculations, (two
ELECTRICAL DESIGN IMPACT EVALUATION 3 Page ~of ~
m~ 1M/<
strokes within the first 80 seconds followed by a 320 second time delay before stroking again).
Calculation 24-JRG contains the load tabulation for the 120 Vac Class 1E Inverters. The addition of one potter & Brumfield model MDR-4103-1 relay each to circuit 7 of IDP-1A-S1 and circuit 8 of IDP-1B-S4 has been evaluated. The addition of these relays will increase the loading on inverter channel I from 74.514 to 74.85%
and on inverter channel IV from 80.014 to 80.35% of the rated loads. The additional loading is found to be acceptable and the calculation has been marked to incorporate these changes.
Cable Sizing data sheets have been evaluated for the additional loading to the SSP(A) and SSP(B) output bays. The loading on the cables is found to be acceptable.
This Electrical Design Impact Evaluation was prepared by D.E.Miller DATE elan 0g
Design Package Mod. No. PCR-6547 Design Impact Evaluations Field Rev.'o. 0 Discipline Design Impact Statement Page 1 2.0 Civil Structural Disci line Desi Zm act Statement IMPACT:
THIS MODIFICATION WILL INSTALL CONDUIT AND CABLE FOR THE CISP ALTERNATE MINI-FLOW SYSTEM. THE CIVIL ASPECTS OF THIS MODIFICATION INCLUDE THE SUPPORT OF CONDUIT AND THE ADDITION OF ELECTRICAL CABLE TO EXISTING CABLE TRAYS. THIS INCLUDES EVALUATION OF EXISTING CONDUIT SUPPORTS EVALUATION OF THE EXISTING CABLE TRAY SUPPORTS TO ASSURE THAT THE ADDITION OF NEW CABLES DOES NOT REDUCE THE STRUCTURAL INTEGRITY OF THE CABLE TRAY FRAMES. THE ELECTRICAL DETAILS CONSIST OF SUPPORTS DESIGNED FOR AUXILIARY BUILDING ON ELEVATION 305'0" SHOWN ON DRAWING SK-6547-C-1000.
SOME OF THESE SUPPORTS WILL BE ATTACHED DIRECTLY TO THE CABLE TRAY FRAMES WITH UBOLTS, SOME WILL CONSIST OF ATTACHMENTS TO EXISTING SUPPORTS INSTALLED UTILIZING 2166-B-060 WHICH HAVE ADDITIONAL CAPACITY. THE QUALIFICATION FOR THE CABLE TRAY FRAMES IS INCLUDED ZN THE EVALUATION OF D.C.B.F. FOR IRR-HE-626 INCLUDED ZN CALULATION LV.50 ATTACHMENT gl.
ALARA DESIGN GUIDE 001 WAS CONSIDERED DURING THE WALKDOWN AND DESIGN PHASES OF THIS PROJECT.
IMPACTED DESIGN DOCUMENTS:
DRAWINGS/CALCULATIONS: SK-6547-C.1000; SK.6547-E-3300; LV-50 ATTACHMENT gl; 2168-G-7065; 2166-G-7066; DESIGN CHANGE ACCEPTABILITY:
THE ADDITION OF THE D.C.B.F. EVALUATION TO CALCULATZON. LV.50 ATTACHMENT 4'1 PROVIDED ACCEPTANCE TO ADD 2" DIAMETER CONDUIT TO EXISTING CONDUIT SUPPORTS IN THE AUXILIARY BUILDING AND TO ADD CABLES 10317N AND 10319P TO EXISTING CABLE TRAYS IN THE AUXILIARY BUILDING.
DESIGN LIMITATIONS:
THERE ARE NO LIMITATIONS ON THE SUPPORT DESIGNS PROVIDED THEY ARE INSTALLED ZN ACCORDANCE WITH THE TOLERANCES SPECIFIED ON THE DESIGN DRAWINGS AND AS LISTED IN MMP-4, 2166-B.060.
Design Package Mod. No. PCR-6547 Design Documentation Revisions Field Rev. No. 0 Cover Sheet DESIGN DOCUMENTATION REVISIONS
Form 6 MOD NO. PCR-6547 DRAWING REVISION SHEET FIELD REVISION NO 0 PAGE NO.
DOCUMENT DOCUMENT UPDATE ,*RECORD OF
'UMBER TITLE BEFORE REVISION OPERA-BILITY CAR-2166-B- CABLE AND CONDUIT LIST NO 043S01 CAR-2166-G- REACTOR AUXILIARY BUILDING CONDUIT, TRF.YS NO 322 GROUNDING EL. 305.0'HEET 1 UNIT 1
+For later use in tracking completion of the revision.
NPMP - REV. 4
Form 7 MOD NO. PCR-6547 FIELD REVISION NO. 0 PAGE NO.
DOCUMENT DOCUMENT UPDATE +RECORD OF NUMBER,. TITLE BEFORE REVISION OPERA-BILITY DAC-1 AUXILIARY SYSTEM LOAD STUDY NO E-6001 LOAD FACTOR STUDY FOR SHNPP NO E5518.10 CVCS MINIFLOW VA. 2CS-V757SA-1 NO E5518.134 CVCS MINIFLOW VA. 2CS-V759SB-1 NO 24-JRG 120VAC CLASS 1E INVERTER LOAD TABULATION NO NPMP - REV. 4
Design Package Mod. No. PCR-6547 Sel~-Assessment Records Field Rev. No. 0 Cover Sheet SELF-ASSESSMENT RECORDS
CAROLINA POWER & LIGHT COMPANY FIRE PROTECTION OF SAFE SHUTDOWN CAPABILITY REVIEW FORK FOR ggg~ PLANT Plant/Project Date
Title:
File No.
Document No.: Document Type:
Lead Engineer: Organisation:
Yes
1. Does the change affect Safe Shutdown (SSD) components, cables, flowpaths, boundaries, or performance functions of Safe Shutdown Systems, including SSD power distribution systems.
2. Does the change affect the operating mode, active logic or normal/
emergency status of a SSD component?
3. Are the plant cosmunications systems modified?
4. Is installation or removil of any plant structures (or portions, thereof (e.g., walls, floors, doors, damper)) contained within safe shutdown related areas involved?
5. Is the rating of a fire barrier being changed within SSD related areas (e.g., penetration seals, walls, floors, wrap, dampers, doors, fire breaks/stops)?
6. Mill there be the installation of potential obstructions to Emergency Lighting Pass (including battery pack units), sprinkler and detection systems (including possible overlapping obstructions) and access paths (including door status changes) to and from Safe Shutdown Equipment.
7. Are any curbs or drains modified or added in SSD related areas?
8. Are fire detection or suppression systems (area coverapes or set points) affected within SSD related areas?
Is there any modification to HVAC flow rates or direction within SSD related areas? 0
10. Mill any combustible or flassnable materials (e.g., cable insulation, lubrication oil, diesel fuel, wood, plastics) be introduced within SSD related areas (or removed) by the change?
11. Vill any SSD related Emergency Lighting Unit be modified.
Lead Engineer C l'f the response to all items noted above is No', an 'Appendix R compliance review is not required.
PR3.17/R42
DISCIPLINE DESIGN VERIFICATION RECORD Page 1 I. Instructions to Verification Persarnel Plant S P p4 Q (Class A)
Project I I I Q [ ] Seismic (Class 8) iiie oo. R " -& Level [ ] FP-Q (Class O)
Oooooeoe eo. Rev [ ] Other ZP.P. -H ~-(-lb)
Design verification should be done in accordance with ANSI HC5.2.11, Section 6, as amended by Regulatory Guide 1.6C, Rev. 2.
Special Instructions:
Discipline Project Engineer Il~ Vel'Iflcat'ion Ooclsaentat'ion Applicability Disci line Disci line Mechanical [) Civil Structural []
HVAC [) Seismic Equip. Qual. [)
Electrical Civil Stress [)
ICC [) Fire Protection Enviromentai Qualification [)
Hunnn Factors []
Materials [)
[)
Other Verification Methods Used:
[ ] Design Review [ ] Alternate Calculations [ ) Qualification Testing Design Oocunent AC--"~->> -- ~-- ~ ~
vane ts attached.(~/<
Design Verifier Date 0 2'3 9Z Acknowledgeme---
(OPE)
I II. Resolution of Caamentst Ccmnents Resolved (See Attached):
(RE) Date ACtien taken e' ieeeeeeeaee loo aeeteelelae Design Verif Date V ~. 'f2 (DPE) Date -RoL.
Proc. 3.3 Rev. 38
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ile f Page 1 of NED INTERDISCIPLZNE REVIEW REQUEST (IRR)
IRR P: HE-626 MOD/RET/PCR/PCN P: PCR-6547 Plant SHNPP To: Unit/Subunit CIVIL From: Unit/Subunit HESS ELECTRICAL This form is uses ~ a interdisci line review documentation.
Details of Review Request:
PLEASE PROVIDE CONDUIT SUPPORTS FOR NEW CONDUZTS 10317Ng 10319N AND 16288P WHICH ARE REQUIRED TO COMPLETE THE ROUTES FOR CABLES 10317Ng 10319Ni 10319'EW CABLES 10317P AND 10319P ARE ROUTED THROUGH TRAY SECTIONS WHICH ARE OVERLOADED BY WEIGHT. ALL WORK ZS ASSOCIATED WITH THE CSIP ALTERNATE MINI-FLOW SYSTEM INTEGRITY. SEE ATTACHED CABLE ROUTE SKETCHES PROVIDED FOR YOUR ZNFORMATZON
THIS ZS AN OUTAGE MOD ***
Response Required By: 9 17 92 Responsible Supervisor/Date:
Authorized Man-hours 30 Charge Number H82L MAPS Project No.:
Response/Justification:
BIJPPDR7& ARE XDcUN EAIT ED DQ sK- C5e7- d.- oooo Information Design Verified: No Attachments ( list):
Responsible !
Supervisor/ ate Actual Man-hours expended Distribution:
Page 2 Rev. 4
LM RRMClNRX ch
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REVISION 3 l.OCPR50 59 PROC~ MARUT ATTACHMENT A CP&L SAFETY REVIEW PACKAGE Page 1 of 8 SAFETY REVIEW COVER SHEET ~ ~ r ~.)J DOCUMENT NO. REV. NO.
I DESCRIPTION OR TITLE: C e'.
d7 W pe//spy
-Assigned Responsibilities:
Safety Analysis Preparer:
Lead 1st Safety Reviewer:
2nd Safety Reviewer:
Safety Analysis Preparer: " ~""~PART I, SUETY ANw-Safety Analysis Preparer -5'z-L Lead 1st Safety Reviewer: mplete Part II, Item Classification.
4. Lead 1st Safety Reviewer:
2 Part is "yes," then Part IV is not required.
III may be completed. If either question 1 oz
5. Lead 1st Safety Reviewer: Determine which DISCIPLINES are requized for review of this item (xncluding own) and mark the appropriate block(s) below.
DISCIPLINES Re uired' ature Date Ste 7
[) Nuclear Plant Operations
[] Nuclear Engineering f] Mechanical
[] Electrical f) Instrumentation & Control I S true tural
[] Metallurgy f ) Chemistry/Radiochemistry
[) Health Physics f) Administrative Controls A QUALIFIED SAFETY REVIEWER will be assigned for each DISCIPLINE marked listed in step 5 and his/her name printed in the space provided. 'Each person shall perform a SAFETY REVIEW and provide input into the Safety Review Package.
7. The Lead 1st Safety Reviewer will assure that a Part completed (see step 4 above) and a Part VI if III or Part IV is required (see 9.d of Part II).
Each person listed in step 5 shall sign and date next to his/her name in step 5, indicating completion of a SAFETY REVIEWS 2nd Safety Reviewer: Pe~~" :dance with Section 8.0 2nd Safety Pmviewcr Date DISCIPLINE:
PNSC review required?
below:
If "yes," attach Part V and mark reason Yes No Potential UNREVIEWED SAFETY QUESTION
[]
]
) Question 9 of Part. IV answered "Yes" Othez (specify):
(Form AP-Oil-6-A-1)
10CPR50 S9 PROGRAM jgiNUAL REVISION
~ ~
~
3 ATTACHMENT A CP&L SAFETY REVIEW PACKAGE Page of PART I: SAFETY ANALYSIS (See instructions in Section 8.4.1)
(Attach additional sheets as necessary.)
DOCUMENT NO. 2 RP - At= -6 Z( REV . NO.
IOSI7M-5A-2 ei IOSi I 4-52-Z.'ter= il II QoQbU iTC T'4 inc DESCRIPTION OF CHANGE:
RQLl Aub .SUPP&.TED )u RAE AN> GAEL& IO3l77 8 /OUI l 9 Ai2E TD HE AOIIED i 0 i=)<I5Tltd 6 QABLC I RA.VS Ihl WAR.
4 ANAI.YSZS: TF/E'AJ57ALL47IOAIS Ot= QOAIZLlI 75 I OSI "I Ai-SA- Z.
/DSi l Rl-55-2 'mb EABLI:-5 JQSI'7P ~ l03I IP A'i'LEQUIIZ.EX WDk OPERA IOu OC. THE Q.SIP ALTER)4ATC= hh.lhLl b'LDW 5'Q7&IL .
TAF IUC i AI LAT'IOM k AUY klEW Si3/'IDES AND/Dk ADDI'7ibN& Wo EXIST'Ird d 6d PPOK75 \J ILL L4EY CODE REQUIRE N.C=hlT 5 IIJHCkL IhlPmM&lED, THE IU5TALLAT'ID'/=THE5E LOMB)l3/TS SljPIOLTX ArJD BABLE WiTH foal Pb,RAU 1-:i E'i26 OF THIS ZRR UJ]Lz klor TV.PAL7 i HE 'FQIJd TIDkl Dt=
AJJ Y 605t ERA. OIZ CQ.IjlP'M.EMT IFJ5 i ALLE'0 Pl2IOR. TD TFI I S hAODiw I EATI DAJ ~ I F/ESE JFJ57ALLA Tickled UIILL 6 c'ILIA. IQEIQ& I HL REROLL>XIL DiJ7A C E UPHILL 1 HE PLAaT IS I)JDPZV'A Ii L/= tdFIIEI-I ELIZA IIJ A i E5 I /IG'HAdd.E bk /AAI ACT 2/fLJSCZ) hQE 7O &Alzrdud/7N/
DQP L)RI IJ& IIJ i F/Lr A2B. OJ= SAP EW IZELATG3 EQIjIPALB/7
/kl XL/AAAhAPY~ THE ANALYSIS PERWOEAA~ P'QP l AE SLIPPDRi& WDP THE. Lcd QUITS Akli) C A QLE TRA Y5 ASSLIKE.S mn'/PL I A 4'dE Id/7 8 t IL.CAJ5IVC ape.L/~l:-/Jr eO~E PEaulal-=~LA/ iS ~dHId I /hl i LJL~AI ASSLIKE.ES iWE 57JPVZTLIOII l IAITI:-L'.ITY Qt- 7/ICAL MAAPOAIi=IJTS A/J6 Z LPVIPME ALT'AI20 (THUD i Ll2ES Util Hi hl IREIR. Ikl FLLIFFJ~
> 1 REFERENCFS:
WSA.IZ 7 ABLE. D~ W~rzuTS
'.5 '. /, I3 /5;0 i EC.H.
AP-JJ
&PCS; MmP C IIJXCX
'/tFF 3'M ool 'M co2'pi -ooa'r P sol (Form AP-011-6-A-1)
REVZSZON 3 10CPR50 59 PROGRAM MANUAL
~ ~
~
ATTACHMENT A CP&L SAFETY REVIEW PACKACE Page of PART ZZ: ITEM CLASSZFZCATZON DOCUMENT NO. REV. NO.
Yes No
1. Does this item represent:
a. A change to the facility as described in the SAFETY [)
ANALYSIS REPORT2
b. A change to the procedures as described in the SAFETY [)
ANALYSIS REPORT?
c, A test or experiment not described in the SAFETY ANALYSIS REPORT?
2. Does this item involve a change to the individual plant Operating License or to its Technical Specifications2
3. Does this item require a revision to the FSAR7
4. Does this item involve a change to the Off-Site Dose Calculation Manual?
5. Does this item constitute a change to the Process Control Program?
6. Does this item involve a ma)or change to a Radwaste Treatment System7
7. Does this item involve a change to the Technical Specification Equipment List (BSEP and SHNPP only)?
8. Does this item impact the NPDES Permit (all 3 sites) or constitute an "unreviewed environmental question" (SHNPP Environmental Plan, Section 3.1) or a "significant environmental impact" (BSEP)?
9. Does this item involve a change to a previously accepted:
a. Quality Assurance Program
b. Security Plan (including Training, Qualification, and Contingency Plans)7
c. Emergency Plan2
d. Independent Spent Fuel Storage Installation license?
(If "yes," refer to Section 8.4.2, "Question 9," for special considerations. Complete Part VI in accordance with Section 8.4.6)
SEE SECTION 8.4.2 FOR INSTRUCTIONS FOR EACH "YES" ANSWER.
REFERENCES. List FSAR and Technical Specification references used to answer questions 1-9 above. Ident.'"y specific reference sections used for any "Yes" answer.
(Form AP-011-6-A-1)
REVISION 3 J.OCPR50 ~ 59 PROGRAM MANUAL ATTACHMENT A CP&L SAFETY REVIEW PACKAGE Pa g e 4 of PART ZZZ: UNREVISED SAFETY QUESTION DETERMINATION SCREEN DOCUMENT NO. Z~i.k- L REV. NO.
Yes Ho
1. Is this change ~fu 1 addressed UNREVIBKD SAFETY QUESTION determination2 by another completed (See
[) I Sections 7.2.1, 7.2.2.5, and 7.9.1.1)
REFERENCE DOCUMENT: REV. NO.
Yes No
2. For procedures, is the change a non-intent change which ~o 1 (check all that apply): (See Section 7.2.2.3) [) I f] Corrects typographical errors which do not alter the meaning or intent of the procedure; or,
[] Adds or revises steps for clarification (provided they are consistent with the original purpose or applicability of the procedure); or,
[) Changes the title of an organizational position; or,
[] Changes names, addresses, or telephone numbers of persons; or,
[) Changes the designation of an item of equipment where the equipment, is the same as the original equipment or is an authorized replacement; or,
[) Changes a specified tool or instrument to an equivalent substitute; or,
[) Changes the format. of a procedure without altering the meaning, intent, or content; or
[) Deletes a part or all of a procedure, the deleted portions of which are wholly covered by approved plant procedures2 If the answer to either Question 1 or Question 2 in PART III is "Yes," then PART IV need not be completed.
(Form AP-011-6-'A-1)
REVZSZON 3 10CPR50 59 PROGRAM MANUAZ
~
~
ATTACHMENT A CP&L SAFETY REVIEW PACKAGE Page of 8 PART ZV: UNREVIEI?ED SAFETY QUESTION DETERMINATION V
DOCUMENT NO. J E- REV. NO, Using the SAFETY ANALYSIS developed for the change, test or experiment, as well as other required references (LICENSING BASIS DOCUMENTATION, Design Drawings, Design Basis Documents, codes, etc.), the preparer of the Unreviewed Safety Question Determination must directly answer each of the following seven questions and make a determination of whether an UNREVIEWED SAFETY QUESTION exists.
A WRITTEN BASIS ZS REQUIRED FOR EACH ANQKR Yes No May the proposed activity increase the probability of occurrence of an accident evaluated previously in the l) I SAFETY ANALYSIS REPORT' THE AhIALYSI& bF THE 5i3PPO/LTC, ANb THE'IJblllT TA?OZ ?UPS I l4 6 RITY N'HE 5 Y5 IBA l NAINTAIIJc Li AAJD IZEVII=V/5 155ijkE MI)F IIPLlANCE F'P A WA hAAiIJT/iINEO
2. May the proposed activity increase the consequences of an accident evaluated previously in the SAFETY ANALYSIS REPORT?
[) I AS SYATCQ l~ e1. PiebVF 'THE 50/IPOR7 AQALY5IS AQO )2CViem/5 A55I'RC 7//Al'HE 5AAAE 5~icri/RAL INTEdizITY'S MAlhlTAlhlEb P - TH/5 N obi Fi<ATIQ/J E M 0 ImekESSE QOMSEQdEMC E5
3. May the proposed activity increase the probability of [) M occurrence of a malfunction of equipment important to safety evaluated previously in the SAFETY ANALYSIS REPORT?
II5 Di5cvd5ED )~ 0 < ~-u 2 A8ovd THE 5TRLtcri/cAL iNTEL.BITY REMAiu5 LINcII/l//lED Pub Tug 5dPPO&a IIAVE WO EP'PENT DMEddIPME:Ur 7Il&.Et=ORE TIIERC.
Id AIO bdCI?.CA5E JIJ PPJ)BABILI7Y'/= /? AAAL/=/jNCTIDhl
4. May the proposed activity increase the consequence malfunction of equipment important to safety evaluated of a () I previously in the SAFETY ANALYSIS REPORT?
THE i)lszi/blois /M 4.3 Adoi/E co>.LoIos THAr a'D ZII/luau /d SI~cr& II//'EC P./P/')V b 5UPPDI?.75 HA I//A/6 Alo /=/='EC7 Qu E'Qij/PIifGAIT 7 /N m~SEnDL~e.LS ~
A'X'IJ O/= ~L/=IraC.TIO
5. May the proposed accident of a activity create different type than the possibility of any evaluated an previously
() I in the SAFETY ANALYSIS REPORT?
At D CPMTE Al'I ~
Tl/E FL3hlcLTiou o/= T/lc SuPPolvz ANY PJEEt/IOV5LY EY/I LDPJ 7 -
'HOW
)I
/IAi/E Raw PPEVIOLl5LY EIIALuArED sub AQLIDLAIT D/- 8 Z) FF<7~7 TY I= TFIAA/
5o (Form AP-011-6-A-1)
REVISION 3 10CPR50 ~ 59 PROGRAM MliHUAL ATTACHMENT A CP&L SAFETY REVIEt: PACKAGE Pa g e 6 of 8 PART IV: (Continued)
DOCUMENT NO. Z LR. HF Lo 2 4 REV. NO.
Yes No
6. May the proposed activity create the possibility of a W malfunction of equipment important to safety of a different type than any evaluated previously in the SAFETY ANALYSIS REPORT?
A5 5rrISD /~45 77IC'un'ZnOJJ Ok ruE SuA'ddt hAS Hml MyiOV5t Y'YAJ.IJJIJ LD 6Mb 17 7 N TY 2- A mdtJ=alnJe.TJo
- 10U5
7. Does the proposed activity reduce the margin of safety defined in the basis of any Technical Specification?
as . [) I 7 HC CQPCDRT An/ALYCIC AnfQ REuizuS SarJ>RY ALL LJC ~~Sw/6 70pdymEAli
8. Based on the answers to questions 1 - 7, does this item []
result in an UNREVIEWED SAFETY QUESTION? If any of the questions 1-7 is "Yes," then the item is the answer to M
considered to constitute an UNREVISED SAFETY QUESTION."
9. Is PNSC review required for any of the following reasons? [) N If, in answering question 1 or 3 "No," it was determined that the probability increase was small relative to the uncertainties; or, in answering question 2 or 4 "No," it was determined that the doses increased, but the dose was still less than the NRC ACCEPTANCE LIMIT; or, in answering question 7 "No," a parameter would be closer to the NRC ACCEPTANCE LIMIT, but the end result was still within the NRC ACCEPTANCE LIMIT; then PNSC revie~ is required.
REFERENCES'his Unreviewed Safety Question Derermination is for the following DISCIPLINEQ):
(Additional Part IV forms may be 'x.eluded 'as appropriate.)
Nuclear Plant Operations g Structural Nuclear Engineering [) Metallurgy Mechanical [) Chemistry/Radiochemistry Electrical [) Health Physics Instrumentation & Control [) Administrative Controls (Form AP-011-6-A-1)
REVZBZON 3 l.OCPR50 ~ 59 PROGRAM MANUAL ATTACHMENT A CP&L SAFETY REVIEW PACKAGE Page 7 of 8 PART V: PNSC REVZEV DOCUMENT NO. Z R.R. H I= 6 2. (u REV. NO. 0 Determination/Evaluation:
Action Taken:
Basis:
PNSC Chairman: Date:
(Form AP-Oll-6-A-1)
REVISION 3 10CP'R50 59 PROGRAM 87LHUAL ATTACHMENT A CP&L SAFETY REVIEW PACKAGE Page 8 of 8 PART VI: ISFSI CHANCES (10CFR72.48)
DOCUMENT NO. Z'RR.AE l Z( REV. NO.
Yes No Does this represent
a. A cha e the In pendent pent Fuel Storage E) [)
Ins ta atio (ISFS as des ibed in the ISFSI Safe Analy s Re rt?
b. A ch e to th r l edur as described in the l) ()
ISFSI afety Ana s s Re ort? .
A tes or experime n t descri d n the ISFSI [) l)
Safety Analysis Repor ?
2. Does rhis item involve a hange to the licens [) [i conditions incorporated n the IS SI Operating icense?
3. Does this item result in a si ficant increase in I) f) occupational exposur
4. Does this item result in a significant unrevieved [) [)
environmental impact?
SEE SECTION 8.4.6 FOR INSTRUCTIONS FOR EACH "YES" ANSWER.
l andList above.
ISFSI and Technical Specification references used to ansver REFERENCES. SAR questions 2 Identify specific reference sections used for any "Yes" ansver.
(Form AP-011-6-A-1)
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/D-o QUALITY I.EVEL:
+ ~ NO<LEAK Anger 7'amA7:=a QE h~ 4 LOCATIDhl DF IhlSTALI.ATIDAI 2.QNc.,& t=dP 5VPPDRT5 SHowv AGRIC CAROLINA POWER & LIGHT COMPANY NUCLEAR ENGINEERING DEPARTMENT PLANT: HAPPIS h/UC,t FAZi 7'mN'- SChLE: RON=
I I I TITLE: QnIJi s~lr <VI."PggTC D'OR Qgu Dg ITZ
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CIVIL DESIGN IMPACT EVALUATION IRR-HE-626 FOR PCR 6547 IMPACT'HIS MOD1FICATION WILL INSTALL CONDUIT AND CABLE FOR THE CISP ALTERNATE MINI-FLOW SYSTEM. THE CIVIL ASPECTS OF THIS MODIFICATION INCLUDE THE SUPPORT PF CONDUIT AND THE ADDITION OF ELECTRICAL CABLE TO EXISTZNG CABLE TRAYS. THIS INCLUDES EVALUATION OF EXISTING CONDUIT SUPPORTS AND EVALUATION OF THE EXISTING CABLE TRAY SUPPORTS TO ASSURE THAT THE ADDITION OF NEW CABLES DOES NOT REDUCE THE STRUCTURAL INTEGRITY OF THE CABLE TRAY FRAMES. THE ELECTRICAL DETAILS CONSIST OF SUPPORTS DESIGNED FOR THE AUXILIARY BUILDING ON ELEVATION 305'0" SHOWN ON DRAWING SK-6547-C-1000.
SOME OF THESE SUPPORTS WILL BE ATTACHED DZRECTLY TO THE CABLE TRAY FRAMES WITH UBOLTS, SOME WILL CONSIST OF ATTACHMENTS TO EXISTING SUPPORTS INSTALLED UTILIZING 2166-B-060 WHICH HAVE ADDITIONAL CAPACITY. THE QUALIFICATION FOR THE CABLE TRAY FRAMES IS INCLUDED IN THE EVALUATION OF D.C.B.F. FOR IRR HE-626 INCLUDED IN CALULATION LV-50 ATTACHMENT gl.
ALARA DESIGN GUIDE 001 WAS CONSIDERED DURING THE WALKDOWN AND DESIGN PHASES OF THIS PROJECT.
IMPACTED DESIGN DOCUMENTS:
DRAWINGS/CALCULATIONS: SK-6547-C-1000; SK-6547.E-3300; LV-50 ATTACHMENT gl; 2168-G-7065; 2166-G.7066;
. DESIGN CHANGE ACCEPTABILITY:
THE ADDITION OF THE D.C.B.F. EVALUATION TO CALCULATION LV-50 ATTACHMENT gl PROVIDED ACCEPTANCE TO ADD 2" DIAMETER CONDUIT TO EXISTING CONDUIT SUPPORTS IN THE AUXILIARY BUILDING AND TO ADD CABLES 10317N AND 10319P TO EXZSTING CABLE TRAYS IN THE AUXILIARY BUILD1NG.
DESIGN LIMITATIONS:
THERE ARE NO LIMITATIONS ON THE SUPPORT DESIGNS PROVIDED THEY ARE INSTALLED IN ACCORDANCE WITH THE TOLERANCES SPECIFIED ON THE DESIGN DRAWINGS AND AS LISTED IN MMP-4, 2166-B 060.
Page of NED INTERDISCIPLINE REVIEW REQUEST (IRR)
IRR g: HE-628 MOD/RET/PCR/PCN f: PCR-6547 Plant SHNPP To~ "nit/Subunit APPENDIX "R" From: init/Subunit HESS ELECTRICAL This form is used to rovide xnz~~~~sci line review documentation.
Details of Review Request:
NEW CABLES 10317N, 10317P, 10319N AND 10319P ARE ASSOCZATED WITH THE CSIP ALTERNATE MINZ-FLOW SYSTEM INTEGRITY. PENETRATIOP ARE REQUIRED TO BE BREACHED AS INDICATED ON THE ATTACHED BREACH FORM. CABLES 10317F AND 10319F HAVE BEEN REROUTED FROM SSP OUTPUT-1 TO SSP OUTPUT-2 RESPECTIVELY. SEE ATTACHED SKETCHES AND FOR ADDITIONAL INFORMATION.
'*** THIS IS AN OUTAGE MOD. *~*
Response Required By: 9 17 92 Responsible Supervisor/Date:
H82L
~ A~ca~i Authorized Man-hours 30 Charge Number MAPS Pro)ect No.: Activity:
Response/Justification: g~ +77Xlgggyi QQ ~gap 5 Qg~
Information Design Verified: Yes No Attachments (list): BREA' 5AM Responsible Supervisor/Date Actual Man-hours expended /
Distribution:
/ /
Page 3 Rev. 4
CAROLINA POWER & LIGHT CGNPANY FIRE PROTECTION OF SAFE SHUTDOWN FOR ~~
CAPABILITY REVIEW FORA PLANT plant/Project Date
Title:
File No.
Document No.:
CR,- &~ Document Type:
Lead Engineer: Organisation:
Yes Ni Does the change affect Safe Shutdovn (SSD) components, cables, flovpaths, boundaries, or performance functions of Safe Shutdovn Systems, including SSD power distribution systems?
2. Does the change affect the operating mode, active logic or normal/
emergency status of a SSD component? c
3. Are the plant communications systems modified? 0 K
4. Is installation or removal of any plant structures (or portions, thereof (e.g., valls, floors, doors, damper)) contained within safe shutdovn related areas involved?
Is the rating of a fire barrier being changed vithin SSD related areas (e.g., penetration seals, valls, floors, vrap, dampers, doors, fire breaks/stops)?
6. Vill there be the installation of potential Lighting Pass (including battery pack units),
systems (including possible overlapping obstructions to Emergency sprinkler and detec'tion obstructions) and access paths (including door status changes) to and from Safe Shutdown Equipment. CI
7. Are any curbs or drains modified or added in SSD related areas? 0
8. Are fire detection or suppression systems (area coverayes or set points) affected vithin SSD related areas?
Is there any modification to HVAC flov rates or direction vithin SSD related areas? Cl E.
10. Vill any combustible oz'lasznable materials (e.g., cable insulation, lubrication oil, diesel fuel, vood, plastics) be introduced vithin SSD related areas (or removed) by the change?
Will any SSD related Emergency Lighting Unit be modified?
Lead Engineer C If the response to all items noted above is No', an 'Appendix R'ompliance review is not required.
PR3.17/R42
t 1 Plant Modification Mod No. g.-( 47 Installation Instructions Field Rev. No. 0 Page No. E IRR No. Prepared By PENETRATIONS BREACHED (Breach and Reseal Per CMP-10)
CABLE No. RACEWAY ELEC DWG No. PENET. No. SEAL DWG No.
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Pl ant Modi f ication Mod No. 7e.R-&
Installation Instructions Field Rev. No.-
Page No. E IRR No. Prepared By PENETRATZONS BREACHED (Breach and Reseal Per CMP-10)
CABLE No. RACEWAY ELEC DWG No. PENET. No. SEAL DWG No.
PP's/Location z.'P P C I gga-gbP ~M/
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NOTE: These penetrations have been identified as requiring sealing following cable installation. No other penetrations are to be breached w/o Approval.
k SSI> 4 48ie I lC~ctcal flc. <<r0, 'Plc cl pic - col Plc - P4 I lc-<l f'l c - a o l I l c. - cid. P<c -ciuI I lc,-c.>+l Plc.-c k ~~lq L +SIS g 552!
Ch.i w ig,>a+ 0 u<<l a<<i ruf I'ut' rt rW r<<
lc '3l'7 < s 4, -4 CONSTRUCTION NOTE:
1. CONDUIT ROUTING INDICATED ABOVE IS FOR CLARiFICATION PURPOSES ONLY.
PLANT PERSONNEL SHALL COORDINATE PROFESSIONAL ENGINEER WITH CIVIL FOR EXACT LOCATION.
SAFETY RELATED CAROLINA POWER 8c LIGHT COMPANY BASE DUG. CAR-2!66 G-322 REV. 16 NUCLEAR ENGINEERING DEPARTMENT CelR.L PLANT: HARRIS NUCLEAR PROJECT-UNIT l SCALE: NGNE TITLE:
REACTOR AUXILIARY BUILDING CONDUIT, TRAYS 8 GROUNDING EL. 305.00'HEET 1 UNiT 1 ISSU: 'OR ?C?--547 LC RE I~a GE CR'.PTION WH OSH CHK DPE OPPE PLANT Dwo. NO. CAR-2166 G-322 IRW. 16 SHT: - OF 65473300 MOD zv>rg N SK-6547-'3300
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CABLE=103 19N (ROUTED) SEP=SB B/M QTY=l BM=D50-11 CKTLEN= 117 RTn=
( RELEASED FOR CONSTRUCTION)
FROM=0157/SSP(B) OUTPUT42 TO=0094/PIC-P4 REELS= H1SYSTEM= REV= PULLED REV= LKD~X WHOLKD=HLC C15NOTE=PCR-6547 B2COMMENT=PCR-6547 ENTRY TRAY SECTION= 7905 EXIT TRAY SECTION= 7903 ROUTE CA0157 SB/C1810 SB/ 3321 i 3320 3318 i 3314 /
3313, 10319N-SB CABLE=10319P (ROUTED) SEP=SB B/M QTY=1 BM=D50-ll CKTLEN= 322 RT"=
( RELEASED FOR CONSTRUCTION)
FROM=0111/MTC 1B SB TO=0157/SSP(B) OUTPUTC2 REELS= H1SYSTEM= REV= PULLED REV= LKD=X WHOLKD=HLC C15NOTE=PCR-6547 B2COMMENT=PCR-6547 ENTRY TRAY SECTION= 7167 EXIT TRAY SECTION= 7905 ROUTE CA01 1 1 SB/ C1807 SB/ 3058/ 3059/ 3060/3012/.
~'3 184'/ 3 182 i 16284V SB/ C1869 SB/ 3 18 1 i 3 174 i 3173/3172/3171/3141/3106/3105/16278ASB/
C1810 SB/ 3104 / 3103 / 3102/3156/315@ 3147 3316/3315/ 3314 i 3318/3320/3321/ CA0157-SB PROFESSIONAL ENGINEER ZAFEIY RELATED B-043 CAROLINA POWER Ec UGHT COMPANY}
NUCLEAR ENGINEERING DEPARTMENT(
~~
~~
BASc. DUG. CAR-2166 S01 PLANT: HARRIS NUCLEAR PROJECT-UNIT I IS~: N CABLE AND CONDUI L'S ISSUE FOR PCR-6S47 LC DESCRIPTION DSN CHK CV DPE DPPE OwO NO CAR 2166-B-043 6335CCL NOD K ('H NAo SK-6547 E 3401
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Mod. No. PCR-+~
Field Rev.
Pa e No. E IRR No. ~HE- 2 Prepared by
",:;::,l"."".:::.".",,"."-.;:!4~8PENETRATXONS;.".BREACHED' B'ie'ach":.'and"': reseal"::,'r"'CMP-.10)'l,* '.',".-"" -'"'
CABLE NO. RACEWAY ELEC DWG PENET. SEAL DWG REMARKS PP's/Location NO. NO. NO.
10317F-SA CB0151- SA 6-G-332 E590 7-S-027 S08 S01 N II CB0150-SA N N E589 10317P-SA CA0110-SA 6-G-332 E612 7-S-025 S06 C1301-SA 6-G-318 E3770 7-S-140 3200, 3212 S01 E456 7-S-005 CB0151-SA 6-G-332 E590 7-S-027 S08 S01 10319P-SB CA0111-SB 6-G-332 E603 7-S-025 S06 C1807-SB 6-G-317 E766 7-S-037 3060, 3012 S01 C1810-SB 6-G-318 E2513 7-S-027 3147 3316 S01 S01 NOTE: These penetrations have been identified as requiring sealing following cable installation. No other penetrations are to be breached w/o approval.
ile g Page 1 of NED ZNTERDISCZPLINE REVIEW REQUEST (ZRR)
IRR /: HE-624 sb Sgl ~1 ~>
MOD/RET/PCR/PCN g: PCR-6547 Plan SHNPP Toe iit/Subunit From: ..>it/Subunit HESS ELECTRICAL This form is used to rovide i.nterdisci li.ne review documentation.
Details of Review Request:
PLEASE REVIEW THE ATTACHED CABLE SIZING SHEETS FOR NEW SAFETY RELATED CABLES 10317Ng Pg 10319N, P, AND REROUTED CABLES 10317F AND 10319F. THESE CABLES ADD ADDITIONAL LOAD TO MCC 1A21-SA AND MCC 1B21-SB WHICH ARE ASSOCIATED WITH CSIP ALTERNATE MINI FLOW SYSTEM INTEGRITY
THIS IS AN OUTAGE MOD ***
Response Required By: 9 ~92 Responsible Supervisor/Dat Authorized Man-hours Charge Number H31XXX-524-H521 MAPS Project No.: Phase: Activity:
ZX (r
Response/Justification:
EVc) ~~
See. aQ~~4.k q/<~4n'<<l Qe5ig) %mph k P( Aq Information Design Veri. fied: No Attachments (list):
Responsible Supervisor/Date ~ctual Man-hours expended Distribution:
Page 1 Rev. 4,
ELECTRICAL DESIGN IMPACT EVALUATION 9 Page ~of ~
em 1 Ma-,
strokes within the first 80 seconds followed by a 320 second time delay before stroking again).
Calculation 24-JRG contains the load tabulation for the 120 Vac Class 1E Inverters. The addition of one Potter & Brumfield model MDR-4103-1 relay each to circuit 7 of IDF-1A-S1 and circuit 8 of IDP-1B-S4 has been evaluated. The addition of these relays will increase the loading on inverter channel I from 74.514 to 74.854 and on inverter channel IV from 80.014 to 80.354 of the rated loads. The additional loading is found to be acceptable and the calculation has been marked to incorporate these changes.
Cable Sizing data sheets have been evaluated for the additional loading to the SSP(A) and SSP(B) output bays. The loading on the cables is found to be acceptable.
This . '"+~ical Design Impact Evaluation was prepared by D.E.Miller DATE:
Design Guide DG-V.4 APPENDIX E n ee~is+ Ad bv s Dates CAROLINA POWER & LIGHT COMPANY I/D e
~ s Pg. 1 of 1 Rev.0 Pro'ect
Title:
Alternate Miniflow Redesi n Titles PCR-6547 CABLE SIZING INPUT DATA FORM Cable Numbers 10623A-SRl
'TO'quipments IDP-1A-Sl
'FROM'quipments SSP A INPUT Voltage Class: P Circuit Length: CCL cable len th =207 ft. Estimate/Cut Length/Actual Length Types of Raceway: Conduit & Tra Power Trays Covered Trays> N A Wrapped Trays: N A 30t Fills N A Wrapped Conduit: N A Voltage Level: 120 Vac Full Load Current: 11.45 er Calculation 24-JRG rev.5 item 3 Breaker/Fuse Ratings N A Comments/Misc. Informations The current draw from IDP 1A-Sl to the SSP(A) Input Channel 1 is shown in calculation 24-JRG to be 49.34A inrush and 11.45 A steady state. Based on DG-V.24, the resistance per 1000 ft of 2 AWG stranded cable at 25'C is 0.1690, so the cable resistaqpe iss (0.169A X 207 ft)/1000ft = 0.0350A Per DG-V.24, the cable resistance this is a will be corrected for 90'C for conservatism since feeder cable. The resistance temperature correction factor for copper conductors, from the design guide, is 1.250, thus the 90 C resistance of the cable would be 0.04370.
With the given steady state current, the voltage drop across this cable is:
0.0437Q X 11.45 A (steady state) = 0.5007V This number is well below the Electrical design criterion 21 allowable voltage drop of 2%.
The cable is adequately sized for the load current per Electrical Design Criterion 8
21. ~
Cable Type and B/Ms ~ 2-1 c 2 BM D59-04 Revision 3 Page V.4-12 (Files CALCFORM.DG4/mab-1/SSP5.1)
Design Guide DG-V.4 APPENDIX E rteesnsstoR bv s Date:
9 23 92 CAROLINA POWER & LIGHT COMPANy Che~'-~ Date: Pg. 1 of 2 Rev.O 9 cy's Pro'ect
Title:
Alternate Mini.flow Redesi n
Title:
PCR-6547 CABLE SIZING INPUT DATA FORM Cable Numbers 10623L-SR1
'TO'quipments SSP A OUTPUT 2
'FROM'quipments SSP A INPUT Voltage Class! P Circuit Lengths CCL cable len th ~ 46ft. Estimate/Cut Length/Actual Length Types of Raceway: Conduit 6 Tra Power Trays-Covered Trays: N A Wrapped Trays: N A
> 30% Fill: N A Wrapped Conduit: N A Voltage Level: 120 Vac Full Load Current: SEE BELOW Breaker/Fuse Rating: 10 A Comments/Misc. Informations The total length for this circuit is unknown. However, the current draw from the SSP(A) Input Channel 1 to the SSP(A) Output g2 can be estimated based on calculation 24-JRG sheets 14 and 15. Assumi.ng that the loads on SSP(A) input channel 1 and 3 are roughly equivalent, the portion of the load which flows from the input channel 1 to the output channel 1 would be di.fference between the two (reference control wiring diagrams CAR2166-B-401 sheets 623 and 630)s Sum of Inrush currents Sum of stead state currents Channel 1 46.9A 10. 8A Channel 3 20.0A 4. OA Difference 26.9A 6.8A If we increase these value to account for the known addition of loads, the current in this cable would be:
Sum of Inrush Currents + Additional loads 26.9 + 2.82 = 29.72A Sum of Steady State Currents + Additional loads = 6.8 + 0.645 = 7.445A Revision 3 Page V.4-12 (Files CALCFORN.DG4/mab-1/WPS. 1)
Design Guide DG-V.4 APPENDIX E
~ <~el Qy e Date:
92 CAROLINA POWER & LIGHT COMPANY pL 1 A 1 ~
Pg. 2 of 2 Rev.O Pro'ect
Title:
Alternate Miniflow Redesi n
Title:
PCR-6547 Based on DG-V.24, the resistance per 1000 1.08A, so the cable resistance is:
ft of 10 AWG stranded cable at 254C is
{1.08A X 46 ft)/1000ft ~ 0.0497A Per DG-V.24, the cable resistance will be corrected for 90'C for conservatism since this is a feeder cable. The resistance temperature correction factor for copper conductors, from the design guide@ is 1 250'hus the 90'C resistance of the cable would be 0.0621A.
If we assume, worst case, that each device in the panel is picking up at the same time, the voltage drop would then be:
0.0621A X 29.72A {inrush) = 1 ~ 846V If we combined add this voltage drop to the voltage dropped on cable 10623A, the total voltage drop will be 1.846V + 0.5007V = 2.246V, which maintains the 2%
allowable voltage drop.
The fuse for the circuit has not been changed, so the coordination will not be affected. Also, the addition of these loads will not exced the fuse rating.
The cable is adequately sized for the load current per Electrical Design Criterion Ã 21.
Cable Type and B/Mt 1-2 c 10 BM D50-01 Revision 3 Page V.4-12 (File: CALCFORH.DG4/mab.1/WP5.1)
Design Guide DG-V.4 APPENDIX E Comnuted bv: Date:
92 CARCLINA POWER & LIGHT COMPANY nate: Pg. 1 of 1 Rev.0 Pro'ect Titlet Alternate Miniflow Redesi n
Title:
PCR-6547 CABLE SIZING INPUT DATA FORM Cable Number: 10632E-SR4
'TO'quipment: IDP-1A-S4
'FROM'quipment: SSP B INPUT Voltage Class: P Circuit Lengths CCL cable len th =216 ft. Estimate/Cut Length/Actual. Length Types of Raceway: Conduit & Tra Power Trays-Covered Trays! N A Wrapped Trays: N A 30% Fill! N A Wrapped Conduit: N A Voltage Levels 120 Vac Full Load Current: 11.45 er Calculation 24-JRG rev.5 item 3 Breaker/Fuse Ratings N A Comments/Misc'nformation:
The current draw from IDP 1A-s4 to the SSp(B) Input Channel 4 is shown in calculation 24-JRG (rev. 5 item 3 ) to be 49.34A inrush and 11.45 A steady state. Based on DG-V 24'he resistance per cable resistance is:
1000 ft of 2 AWG stranded cable at 25 C is 0.169A, so the (0.1690 X 216 ft)/1000ft ~ 0.0365A Per DG-V.24, the cable resistance will be corrected for 90'C for conservatism since this is a feeder cable. The resistance temperature correction factor for copper conductors, from the design guide, is 1.250, thus the 904c resistance of the cable would be 0. 04560.
Assuming, (worst case), that all of the devices are picking~ up at the same time, the voltage drop across this cable would be 0.0456A X 49.34 A 2.25V Hence, it can be seen that if each device in the panel were to pick up at the same time, the voltage drop will stay within the 2% limit established in Electrical Design Criterion f21. The cable is also adequately sized for the load current per Electrical Design Criterion 121.
Cable Type and B/M: 2-1 c 2 BM D59-04 Revision 3 Page V.4-12 (File: CALCFORM.OG4/mab.1/WP5.1)
Design Guide DG-V.4 APPENDIX E
~ < > Los ~ Date:
CAROLINA POWER & LIGHT COMPANY i se
~
~
~ Pg. 1 of 2 Rev.0 Pro'ect
Title:
Alternate Miniflow Redesi n
Title:
PCR-6547 CABLE SIZING INPUT DATA FORM Cable Number: 10632H-SR4
'TO'quipment: SSP B OUTPUT 2
'FROM'quipment: SSP B INPUT Voltage Class: P Circuit Length: CCL cable len th ~ 95ft. Estimate/Cut Length/Actual Length Types of Raceway: Conduit & Tra Power Trays Covered Trays: N A Wrapped Trays: N A 30't Fillt N A Wrapped Conduit: N A Voltage Level: 120 Vac Full Load Current: SEE BELOW Breaker/Fuse Rating: 10 A Comments/Misc. Information:
The total length for this circuit is unknown. However, the current draw from the SSP(B) Input Channel 4 to the SSP(A) Output g4 can be estimated based on calculation 24-JRG sheets 16 and 17. Assuming that the loads on SSP(B) input channel 2 and 4 are roughly equivalent, the portion of the load which flows from the input channel 4 to the output channel 4 would be difference between the two (reference control wiring diagrams CAR2166-B-401 sheets 626 and 632):
Sum of Inrush currents Sum of stead state currents Channel 4 46. SA 10.8A Channel 2 20. OA 4.0A Difference 26.5A 6.8A If we increase these value to account for the known addition of loads, the current in this cable would be:
Sum of Inrush Currents + Additional loads 26.5 + 2.82 = 29.32A Sum of Steady State Currents + Additional loads ~ 6.8 + 0.645 ~ 7.445A Revision 3 Page V.4.12 (Fiie: CALCFORH.DG4/mab-1/WP5.1)
Design Guide DG-V.4 APPENDIX E
' ->~8 bye Date:
24 92 CAROLINA POWER a LIGHT COMPANY Date: Pg. 2 of 2 Rev.0 CP Pro'ect
Title:
Alternate Miniflow Redesi n
Title:
PCR-6547 Based on DG-V.24, the resistance per 1000 ft of 10 AWG stranded cable at 25'C is 1.08A, so the cable resistance is:
(1.08A X 95 ft)/1000ft = 0.10260 Per DG-V.24, the cable resistance will be corrected for 90'C, for conservatism, since this is a feeder cable. The resistance temperature correction factor for copper conductors, from the design guide, is 1.250. Thus the 90'C resistance of the cable would be 0.12830.
If we assume, worst case, that each device in the panel is picking up at the same time, the voltage drop on the cable would then be:
0.12830 X 29.32A (inrush) = 3.76V The voltage drop to SSP(B) output Bay 2 will be the combined voltage drop of cables 10632E and 10632H. since the circuit logic prevents the devices from all picking up at the same time, the total voltage drop to the outputmaximum bay will be less than 2.25V + 3.76V ~ 6.01V. This value represents a 5.27% voltage drop to the output bay, which, given the stability of the Inverter output, will maintain the voltage at each load device within i10% as specified in Electrical design criterion 421.
The cable is adequately sized for the load current per Electrical Design Criterion f21.
Cable Type and B/M: 1-2 c 10 BM D50-01 Revision 3 Page V.4-12 (File: CALCFORN.DG4/mab. 1/WPS. 1)
Design Guide DG-V.4 APPENDIX E te:
/92 CAROLINA POWER & LIGHT COMPANY
-L~">ed b~ Date: Pg. (
of ~
Rev. Q Pro 'ect
Title:
PCR-6547 Title!
CABLE SIZING INPUT DATA FORM Cable Numbers 10317F-SA
'TO'quipment: SSP A OUTPUT 2
'FROM'quipment: MTC 1A SA Voltage Class: CONTROL Circuit Length: 191'-0 Estimate/Cut Length/Actual Length Types of Raceway: TRAY Power Trays-Covered Trays: N A Wrapped Trays: N A 30% Fill: N A Wrapped Conduit: N A Voltage Level: 120V AC Full Load Current: <2 AMPS Breaker/Fuse Rating: N A Comments/Misc. Information:
THIS CABLE IS JUSTIFIED FOR VOLTAGE DROP BY CALCULATION E5518.10 THIS CABLE ZS ADEQUATELY SIZED FOR AMPACZTY BY ELECTRICAL DESIGN CRZTERION 418 CONCLUSION CABLE 2/C f16 ZS ACCEPTABLE Cable Type and B/M: 1-2 C 16 B M NO. 1-D50-11 P
Revision 3 Page V.4-12 (File: CA1.CFORM.DG4/nab-1/LIPS.1)
Design Guide DG-V. 4 APPENDIX E bv1 Date:
i5 92 CAROLINA POWER 6 LIGHT COMPANY Ck sate: Pg. ) of i Rev. 0 Pro'ect
Title:
PCR-6547
Title:
CABLE SIZING INPUT DATA FORM Cable Number: 10317N-SA
'TO'quipment: PZC-Pl
'FROM'quipment: SSP A OUTPUT 2 Voltage Class: CONTROL Circuit Length: 73'-0 Estimate/Cut Length/Actual Length Types of Raceway: EXPOSED CONDUIT Power Trays-Covered Trays: N A Wrapped Trays: N A 30% Fillt N A Wrapped Conduit: N A Voltage Level: 120V AC Full Load Current: (2 AMPS Breaker/Fuse Rating: N A Comments/Misc. Information:
THIS CABLE ZS JUSTIFIED FOR VOLTAGE DROP BY CALCULATION E5518.10 THIS CABLE IS ADEQUATELY SZZED FOR AMPACITY BY ELECTRICAL DESIGN CRITERZON iF18 CONCLUSION CABLE 2/C 116 ZS ACCEPTABLE.
Cable Type and B/M: 1-2 C 16 B M NO. 1-D50-11 Revision 3 Page V.4-12 (F 1 le: CALCFORN.OG4/mab-1/MP5. 1)
Design Guide DG-V.-4 APPENDIX E Date:
'92 CAROLINA POWER 6 L GHT COMPANY Pg. )
of ( Rev. ()
Pro 'ect
Title:
PCR-6547
Title:
CABLE SIZING INPUT DATA FORM Cable Numbere 10317P-SA
'TO'quipment: SSP A OUTPUT 2
'FROM'quipment: MTC 1A SA Voltage Class: CONTROL Circuit Length: 201'-0 Estimate/Cut Length/Actual Length Types of Raceway: TRAY Power Trays Covered Trays: N A Wrapped Trays: N A 30% Fillt N A Wrapped Conduit: N A Voltage Level: 120V AC Full Load Current: <2 AMPS Breaker/Fuse Rating! N A Comments/Misc. Information:
THIS CABLE ZS JUSTIFIED FOR VOLTAGE DROP BY CALCULATION E5518.134 THIS CABLE ZS ADEQUATELY SIZED FOR AMPACZTY BY ELECTRICAL DESIGN CRITERION 118 CONCLUSION CABLE 2/C jF16 IS ACCEPTABLE.
Cable Type and B/M: 1-2 C 16 B M NO. 1-D50-11 Revision 3 Page V. 4- 12 (File: CALCFORH.DG4/mab-1/WP5. 1)
Design Guide DG-V.4 APPENDIX E Pace@ ~ 4 oA her ~ >ate:
5 92 CAROLINA POWER & LIGHT COMPANY I, ~
1
~
og hei ~
~ Date: pg, ~
of / Rev. g Pro ect
Title:
PCR-6547
Title:
CABLE SIZING INPUT DATA FORM Cable Number: 10319F-SB
'TO'quipment: SSP B OUTPUT 2
'FROM'quipment: MTC 1B SB Voltage Class: CONTROL Circuit Length: 375'-0 Estimate/Cut Length/Actual Length Types of Raceway! TRAY Power Trays Covered Trays: N A Wrapped Trays: N A 30% Fill: N A Wrapped Conduit: N A Voltage Level: 120V AC Full Load Current: <2 AMPS Breaker/Fuse Rating! N A Comments/Misc. Information:
THIS CABLE IS JUSTIFIED FOR VOLTAGE DROP BY CALCULATION E5518.134 THIS CABLE IS ADEQUATELY SIZED FOR AMPACITY BY ELECTRICAL DESIGN CRITERION,g18 CONCLUSION CABLE 2/C 116 IS ACCEPTABLE.
Cable Type and B/M: 1-2 C 16 B M NO. 1-D50-11 Revision 3 Page V.4-12 (File: CALCFORH.DG4/mab-1/WP5.1)
Design Guide DG-V.4 APPENDIX E
~uted by: Date:
"'15 92 CAROLINA POWER & LIGHT COMPANY Date: Pg. ) of I Rev ~
Q ppf'+
Pro'ect
Title:
PCR-6547
Title:
CABLE SIZING INPUT DATA FORM Cable Number: 10319N-SB
'TO'quipment: PIC-P4
'FROM'quipment: SSP B OUTPUT 2 Voltage Class: CONTROL Circuit Length: 117'-0 Estimate/Cut Length/Actual Length Types of Raceway: EXPOSED CONDUIT AND TRAY Power Trays-Covered Trays: N A Wrapped Trays: N A 30% Fill: N A Wrapped Conduit: N A Voltage Levels 120V AC Full Load Current: <2 AMPS Breaker/Fuse Rating: N A Comments/Misc. Information:
THIS CABLE ZS JUSTIFIED FOR VOLTAGE DROP BY CALCULATION E5518.10 THIS CABLE ZS ADEQUATELY SIZED FOR AMPACITY BY ELECTRICAL DESIGN CRITERION f18 CONCLUSION CABLE 2/C 116 IS ACCEPTABLE.
Cable Type and B/M: 1-2 C 16 B M NO. 1-D50-11 Revision 3 Page V.t -12 (File: CALCFORH.OG4/mab-1/WPS. 1)
0(
0
Design Guide DG-V.4 APPENDIX E
<nmouted by: Date:
/15 92 CAROLINA POWER & LIGHT COMPANY Date: Pg. ) of I Rev.
r Pro'ect Title> PCR-6547
Title:
CABLE SIZING INPUT DATA FORM Cable Number: 10319P-SB
'TO'quipment: SSP B OUTPUT 2
'FROM'quipment: MTC 1B SB Voltage Class: CONTROL Circuit Length: 322'-0 Estimate/Cut Length/Actual Length Types of Raceway: TRAY Power Trays >>
Covered Trays! N A Wrapped Trays: N A 30% Fill: N A Wrapped Conduits N A Voltage Level: 120V AC Full Load Current: (2 AMPS Breaker/Fuse Rating: N A Comments/Misc. Information!
THIS CABLE ZS JUSTIFIED FOR VOLTAGE DROP BY CALCULATION E5518.134 THIS CABLE ZS ADEQUATELY SIZED FOR AMPACZTY BY ELECTRICAL DESIGN 'CRITERION f18 CONCLUSION CABLE 2/C 816 ZS ACCEPTABLE.
Cable Type and B/M: 1-2 C 16 B M NO. 1-D50-11 Revision 3 Page V.4-12 (File: CALCFORH.DG4/mab-1/WPS. 1)
AUXILIARYSOLID STATE RELAY (NAS) CARD (STY LE 2838A89G01)
GENERAL ~ Capacitive load: None permitted
~ Isolation: +48 Vdc, +130 Vdc, or 130 Vac The NAS Card provides the interface between a 24 Vdc switching device and up to 120 devices requiring 118 applied in either common or normal Vac, such as BF relays. An application block diagram mode is shown in Figure 1. Beck motors, split phase motors, capacitive loads, and large resistive loads should not CIRCUIT DESCRIPTION be used with this card. The NSS Card (Style 2840A45) should be used instead. The NAS Card assembly drawing and schematic diagram are shown in Figures 3 and 4. The NAS card contains six identical circuits, each containing a relay (M222)
CIRCUIT SPECIFICATIONS and a Triac (S35).
The Triac is a bidirectional device that conducts on each INPUT REQUIREMENTS positive and negative half cycle of the a c voltage: it does
~ Relay Coil: Voltage: 24 Vdc not conduct from -7 to+7 volts. The minimum holding nominal; 20 Vdc current during this time is 30 mA rms at O'C. When the minimum; 30 Vdc maximum input relay deactivates, the Triac shuts itself off within DIM Load Resistance (per relay): one. half cycle of the a-c voltage.
3.1 K ~20%
CeUtiott For Energize Conditions:
Minimum Voltage = 20 V For relays other than the BF44, be Maximum Voltage = 30 V careful that inductive load current Nominal Voltage = 26 V spikes do not exceed fuse capability.
Nominal Current = 8.1 mA CARD TEST For De<nergize Conditions:
Minimum Release Current = 0.6 mA GENERAL Minimum Release Voltage = 2.8 V This card is factory tested before shipment; however, if it becomes damaged, or is suspected of being defective, OUTPUT CAPABILITIES perform the test procedures given below.
~ Resistive load: 1.5 A rms maximum at 118 Vac 10% EQUIPMENT REQUIREO 40 mA rms minimum at 118 Vac ~ Simpson Voltmeter
+10/o
~ Variable de power supply (0 to 20 Vdc) capable
~ Inductive load: 1.5 A rms maximum at 118 Vac of delivering 2 A load current
+10%
5 A rms maximum peak surge TEST PROCEOURES current (one cycle (<<60 Hz)
Use the bill of material (See Table I) and the assembly
~ Incandescent load: 0.5 A rms maximum at 118 drawing (See Fig. 3) to locate pin connections. Connect Vac ~20% the card and equipment as shown in Figure 2.
Rev.
7/78 7/78 NAS-I
PAGE 1 OF 2 Page l of 2 NED ZNTERDZSCZPLINE REVIEW REQUEST (ZRR)
ZRR a. H Pc&-Q( 581 ZR. 04 MOD/RET/ C /PCN Plam HARRIS To: Unit/Subunit From: Unit/Subunit This form is used to orovide xnteLLJisci line review documentation Details of Review Request:
P/ P.PgP Ploy/gg yN V') C I PR7ED OPERR7/6 6/ 7R RhS/FNT c,y cLpSF'p~ vR<vFS l c 5-7+ 6 4 7 52 Response Required By: v/~e) 92 Responsible Supervisor/Date:
Authorized Man-hours H HEED E Cttarge Number 3J X/A - S + - 2 MAPS Project No.: C - G5 7 Phase: 'll Act'ity:
Response/Justification:
SgE /~t e iloiocV i/~ v'(-
Q< O scca, C( uw(.= .AV g 0 sec >, ~0 rQ-oPC~
~CCS Ii!7O -rHC H &4~,
In ormation Design Verified: Yes No Attachments (list):
Responsible Supervisor/Date Actual Man-hours expended
'2 Distribution NED Guideline E-24/Revision 6
PAGE 2 OF 2 NED INTERDISCIPLINE REVIEW REQUEST (IRR)
CONTINUATION SHEET ZRR Details of Review Request (Continued)
Response/Justification (Continued):
The most limiting accident scenerio for Motor Operated Valve cycle considerations (accident that requires maximum valve strokes in shortest time duration) is the Inadvertent Operation of the Emergency Core Cooling System at Power. The RCS pressure will spike to approx. 2300 psia in approx.'0 seconds after inadvertent SI actuation, due to cold water addition, and drops to approx. 2100 psia around 60 seconds after the pressure spike.
Pressure gradually increases from that point, to approx. 2300 psia about 400 seconds into the event. Operators will more than likely terminate the flow prior to the last actuation.
Reference:
Burnett, T. W. T.,et. al., "LOFTRAN Code Description," WCAP-7907, June 1972 FSAR Figure 15.5.1-2 NED Guideline E-24/Revision 6
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~w.ac. +~~= (Q5>h~)to,Bish)~ aq,7 vA OPERATE VQLTACE:
kf LEASE VOLTACE: weua%.
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2 Il-Q.74< %Y.
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((\rvrc.)( <>. Ipr.l YA tOsKR (STEADY STEED.:. 6-S.w~%
lNRUSH CURRENT: 0 Cav ~~wax (STEADY STATE): O.+SAWN r.+
9%Oh%'URRENT 0$ ERATE T le: e %be RELEASE TlHE: so wave.hi CONTACT RAT 3NC5: 4 5 l NCLE CON TAC TS A O
AHPS is% VAC 50% vc AHPS 't% VDC 1ESlST3 VE aa, ALPS a~ VOC RES?ST3VE THO CONTACTS
'h ww ALPS ASS ~
lN SERlES wa VAC 501
<e,c. ~4Pv ov W'S ~S 1LLW VDC RES 3 ST 3 VE ENDURANCE CATEGORY: b, $ 400,00m czc~w$
TEMPERATURE RANCE: 0 c--e +4~ r..1 CoiX WSuu Yiou CVN S,aa'r.
V4KIQH T ~ 1 LS '5 0%.
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NOTE ELECTR3CAl VALUES C3VEN ASOVE HEASURED AT APPROXl MATELY 25 DECREES C. SLl &ST Dl FFEIENCES NJST SE EXPECTED DUE TO HOlWAL HANUfhCTLlkfNC VAR l AT1ONS ~ COLL %lC IrC.~ ~-~.
COL'11'%%4yaOA
DISCIPLINE DESIGN VERIPICATION RECORD Page Trmtrcs:ti csea to Verification Persocnel Eg Plant 5 Np T)Cf Q (Class A)
Project ( ) Seismic (Class 8)
File No. Level [ ] FP-Q (Class 0)
Oocccaent Ho. Rev ( ] Other Design verificc tion should be done in accordance <<ith AHSl H45.2.11, Section 6, as amenoed by Regulatory Guide 1.64, Rev. 2.
Special lnstructlonsc ll. Verification Documatation Discipline Project Engineer ~
Applicability Disci Itne Disci line Hechanical () Civil Structural ()
HVAC (] Seismic Ecuip. Qual. (]
Electrical N Civil Stress ( ]
1LC Fire Protection l )
Envi roraental Qualification Hcsctan Factors C]
Haterials (]
l ]
Other ()
Verification Hethods Used:
pC) Design Revie<< l ) Alternate Calculations ( ] Qualification Testing Design Ooccgcectt Design Verifieh Date Ackno<<ledge (OPE) Date ill. Resolution of C~st CcgcaentS Re ~~< (See AC;tached)c (RE) Date cF/~/g2 Action tak~e Design Veri fiei Fl Date ~ Z < / E- ~
(DPE)
'7 z RED proceciure 3.3/Re"'~
Page 2 OISCIPLIRE OESIQI VERIFIClTICal RECCRO CQHHKMT SHEET Plane Project g/p7 ~<+ rCr
-42'ile Mo.
oocuaenc Mo. /4rr ZA~ A'Xa Rev 0 This sheet is onlv reauired Pen eoerents are being made.
Comaent ResoLved Mo. Cotnaent Resolution Initial/Date Clay( I >
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wrrAX 2 </Z P."oc. 3. 3 Rev. 40
OISCIPLIXE OESICX VERIFICATICal RECXND CCt%EHT SHEET Plant 5 rIrpj'> Qui 7 Project CH 4J Y> ~~~ AW "gz ~
File Ho.
Oocunent Ho. F4C4'+~ ~ >+~ Rev This sheet is onlY reauired ~hen conments are being made.
Consent Resolved Ho. Conaent Resolution Initial/Date
~
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Page cf OISCIPLIRK DESIQI VERIFICATICaI RECCRD CLIENT SllEKT Plant a~r X Project cZ'My u~ i'm -da M File xo.
Oocunent xo. g'@wan. jL~ wZ This sheet is oniv reauired vhen conments are being made.
Comnent Resolved Mo. Ccnsaent Resolution Initia(/Date DJt Pi-'spy n~ flu /g>
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NED Guideline E-4 ATTACHMENT G (u'l( >u~, n 3S- 3~~&
Z)c~ 3 Pn~c ~
Mod Number C. -04 597 FR Number Calculation Affected Drawing Affected CITES Reason for Change:
4'~ 4 u r4~ 4 o( 4~; 44~ g 0 - 4(03-l J IE 7 ~ vc~
Justification for Change Approval:
Minor Change (i.e., editorial, reference dimension, etc.). Supplementary Calculations are not attached.
Other (provide basis, attach supplementary calculations) uo:E'er 4h 4 u c.4\ eXv on
~~< 4 ask A< n4 DPE*
Signatures indicate design verification has been performed in accordance with NED Procedure 3.3. This form serves as the design verification record.
Page Rev.
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DISCIPLINE DESIGN VZZZPICATION RECORD Page 1 fnatfLRClcta to Veri ffcatfon PefscxTal Plant C 6J 0'gP - PJS. 68<
~ Seismic O (Class A)
Project ~
O ( ] (Class 8)
File No. Level [ ) FP O (Class 0)
Oocuaent No. Rev ( ) Other Oesign verification should be done in accordance Nfth ANSl NC5.2.11, Section 6, as amended by Regulatory Guide 1 '4, Rev. 2.
Speci ~ 1 lnstructionst Ofscipline Project Engineer ll. Verfffcatfon Oocsaaentatfon Appl i cabi l i ty Oisci line Oi ci lfne Nechanical () Civil Structural ()
HVAC () Sefslfc Equip. Oual. (]
Electrfcal P(i Civil Stress ()
1l C () Fire Protection ()
Envfroreental Oualffication ()
Hman Factors ()
Naterlals (]
()
Other ()
Veriffcatfon Nethods Used:
Oesfgn RevleM ( ) Alternate Calculations [ ) Owlffication testing Design Ooaunenc ttached.
Oesign Verfffe Oate ~- ZS FZ Acknoul edgemen .-.. n (OPE) O.
111. Resolution of C~tst Ccmnents Resolved csee attach&) ~
(RE) Oate 'P>
Action t .... ...
Oesign Verfffek Oate Oate Proc. 3.3 Rev. 38
Zm3 (
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+ 4 Page 2 ~gg,~
OISCIPLIXE OESIGX VERIFICATICW RECCNO CONTEXT SHEET Plant Project C< A-ij P8Z -us-4zV File No, OociJAent No, Rev This sh~et is only required shen camnents are being made.
Conment Resolved Xo. Corment Resolution tni tiel/Oate
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Page g
DlSCTPLlXE DESLQI VERlflCATlOI RECtXtD 5t.
CQOlEXT SHEET Plant S QA/Qrr Our 7 Proj ect lcd. s "5 p ~ ad- ~z-c z y Pile Xo.
Docunent No.
This sheet is only reauired vhen careents are being made.
Comnent Resolved Xo. Comment Resolution tnitial/Date rj
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SYSTEMS CALC. TYPE CAROLINA POWER & LIGHT COMPANY
( CALCULATION jg )
FOR
'VCS MZN F OW V . -V757 (TITLE INCLUDING STRUCTURE/SYSTEM/COMPONENT)
FOR S EARON HARRIS NUCLEAR POWER P T UNIT 1 PROJECT AND/OR PLANT NAME & APPLICABLE UNIT)
YES NO SAFETY RELATED: 8 0 SEISMIC 0 W APPROVAL REV. PREPARED BY VERIFIED BY PROJ. ENGINEER PRIN. ENGINEER NO. DATE DATE DATE DATE 0
+It7 %8 2-5/' g, REASON FOR CHANGE:
REASON FOR CHANGE:
REASON FOR CHANGE:
comouted by: Date: CAROLINA POWER & LIGHT COMPANY Calculation ID:
17 92 E5518.10 Pg. of Rev.
1 6 0 CALCULATION SHEET TAR/PID No.: H0604 File:
Pro'ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT Calculation
Title:
CVCS MINIFLOW VA. 2CS-V757SA-1 Status: Prelim. Final Void LIST OF EFFECTIVE PAGES PAGE REV PAGE PAGE REV ATTACHMENTS
"+ed bv i Date: CAROLINA POWER & LIGHT COMPANY Calculation ID:
92 E5518.10 II Q ~ Pg. of Rev.
2 6 0 CALCULATION SHEET TAR/PID No.: H0604 File:
Pro'ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT Calculation
Title:
CVCS MINIFLOW VA. 2CS-V757SA-1 Status: Prelim. Final Void TABLE OF CONTENT Section Title Pacae No.
List of Effective Pages Table of Contents ~ ~ ~ 2 aeons I. Purpose ~ ~ ~ 3 II. List of References ~ ~ ~ 3 III. Body of Calculation ~ ~ ~ 3 IV ~ Conc lus ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ o ~ ~ ~ 4 ATTACHMENT A i'CIRCUIT VOLTAGE ANALYSIS (20 pages)
ATTACHMENT B "DISCIPLINE DESIGN VERIFICATION RECORD" (+pages)
C'nuns st- oR >v'a+o'- CAROLINA POWER & LIGHT COMPANY Calculation ID:
E5518-10 no+ o ~ Pg. of' Rev.
3 0 CALCULATION SHEET TAR/PID No.: H0604 File:
Pro'ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT Calculation
Title:
CVCS MINZFLOW VA. 2CS-V757SA-1 Status: Prelim. Final Void I. ~Pur oee The purpose of this calculation is to give assurance that there is sufficient power available, and that the control power transformer and control fuse are sized adequately, to operate the CVCS MINIFLOW VA. 2CS-V757SA-1.
1.0 This calculation will=assure that the terminal voltage at each of the magnetic control devices will remain sufficient to pick-up and hold-in the device under minimum voltage conditions.
2.0 This calculation will assure that the control power transformer is not overloaded during the circuits maximum steady state power draw.
3 ' This calculation will assure that the control fuse can withstand both maximum steady state current and maximum inrush current due to a SIAS under degraded bus voltage conditions.
II. List of References 1.0 Calculation E-5518.0 2.0 CAR-2166-B-401 s 317.
3.0 PCR 6547 .entitled "Alternate Miniflow Redesign" III. Bod of Calculation 1.0 See attachment A.
2.0 This calculation incorporates the changes to revision 5 of the subject control wiring diagram as defined in the response to IRR-HE-624 to be implemented with PCR-6547.
3.0 Five cases were evaluated for this circuit. The first case evaluated was that of the valve in the full closed position when an "open" was initiated through the control switch at the main control board under minimum voltage conditions.
The second case evaluated was that of the valve in the full open position when a "shut" was initiated from the control switch at the main control board under minimum voltage conditions. The third case evaluated was that of the circuit in steady state operation with the valve in mid-
Date: CAROLINA POWER & LIGHT COMPANY Calculation ID:
E5518.10 L. Piaf no M~ Pg. of Rev.
CALCULATION SHEET 6 0 "AR/PID No.: H0604 File:
?ro 'ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT "alculation
Title:
CVCS MINIFLOW VA. 2CS-V757SA-1 Dtatus: Prelim. Final Void stroke at maximum voltage. The open contactor was arbitrarily selected for the steady state evaluation as the circuit length and makeup are identical to the close contactor circuit. The fourth case evaluated was that of the 42-0 contactor picking up due to an SI signal coincident with high RCS pressure. The fifth case evaluated the picking up of the 42-S contactor due to an SI signal and no high RCS pressure signal.
Conclusions 1.0 Worst Case Required Voltage (from attachment A):
387.46 Vac Evaluation of the worst case voltage drop circuit alignment shows that there may be insufficient terminal voltage at the terminals of the safety related control components to assure proper operation of the circuit under degraded voltage operation. Therefore, an analysis of the failing case, (path 1), was conducted to identify the restrictive components and determine if this component can automatically actuate during the ESS loading period.
The most restrictive component for case 1 was determined to be the 42-0 Gould A-20 size-1 contactor. For this circuit alignment, the 42-0 requires 61.6 Vac to pick up the contacts, but the circuit will only deliver 58.506'volts to the terminals of this device with 368 Vac applied to the high side of the control power transformer (CPT). The print out shows that 387.46 Vac is required at the high side terminals of the control power transformer to deliver sufficient power at an adequate voltage to pick up the contactor.
The 42-0 contactor has a series of permissives for manual operation, including the bypass closed '(bc) valve limit switch contacts of five other valves. The circuit alignment analyzed for path 1 took the most severe combination of these five valves, resulting in the highest loop resistance, (valves 2RH-V506SB-1, 2RH-V507SA-1, and 2CS-V758SB-1 closed), and resulted in the greatest required voltage at the terminals of the control power transformer.
AROLINA POWER & LIGHT COMPANY Calculation ID:
E5518.10 nate: Pg. of Rev.
5 6 0 CALCULATION SHEET
~
TAR/PID No.: H06u~ File:
Pro'ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT Calculation
Title:
CVCS MINIFLOW VA. 2CS-V757SA-1 Status: Prelim. Final Void The CVCS miniflow valve 2CS-V757SA-1 circuit also has an automatic SIAS signal which is generated by the K740 contact in the solid state protection panel. When the circuit operates, (in either direction), due to coincident K740 and K711 contact closure, the limit switches from the five permissive valves are bypassed and the CVCS miniflow valve 2CS-V757SA-1 begins to stroke. These circuit alignments were analyzed in cases four and five and were found to be acceptable by the more restrictive 754 of 460 Vac criteria.
Since the CVCS miniflow valve 2CS-V757SA-1 has been shown to operate satisfactorily under SIAS conditions, the valve will be analyzed against= the minimum continuous MCC bus voltage to establish that it will operate when manually actuated.
The minimum continuous voltage as established in reference calculation E5518.0 section III.3.6.1, is 904 of 460 Vac, or 414 Vac. Since the required voltage at the CPT high side terminals for case one is 387.46 Vac, the circuit is found to be acceptable.
2.0 PRIMARY PRIMARY CIRCUIT CPT RATED VOLTAGE CURRENT VA VA 508.00 VAC .1708 A 86.77 VA 100 VA Based on the steady state circuit evaluation, the control power transformer is not overloaded and is properly sized.
3.0 Steady State Secondary Current Draw (from attachment A):
.6211 A Rated fuse ampacity: 2.0 A Based on the steady state circuit evaluation, the fuse on the secondary side of the control power transformer is properly sized for steady state operation.
~ ~
e: CAROLINA POWER & LIGHT COMPANY Calculation ID:
92 E5518.10 li Pg. of Rev.
CALCULATION SHEET 6 6 0 TAR/PID No.: H0604 File:
Project
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT Calculation
Title:
CVCS MINIFLOW VA. 2CS-V757SA-1 Status: Prelim. Final Void Based on the SIAS evaluations, (paths 4 and 5), the circuit will have adequate voltage to satisfy the pick-up and hold-in voltage requirements of each SIAS related component in the circuit, even under degraded bus voltage conditions.
Therefore, this circuit is exempt from SEN-80 fuse sizing issues.
This print-out was run on: CALCULATION E5518.10 NETW RKv r' ATTACHMENT A revision 0 effective date:
created b CTA 5 1p 9$ 5:2$
Inc.
Page i of 20 CAROLINA POWER & LIGHT AC CLASS lE CONTROL LOOP ANALYSIS SHNPP 1 CVCS MINIFLOW VA. 2CS-V757SA-1 INCORPORATING PCR-6547 CHANGES CALCULATION E5518.10
'CIRCUIT VOLTAGE ANALYSIS CIRCUIT ID: CWD 317 A. PATH 1 SOURCE NODES ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ o ~ ~ ~ ~ ~
~ Hl, H2 SOURCE VOLTAGE APPLIED (Va): 368.00 VAC SOURCE VOLTAGE REQUIRED (Vr): 387.46 VAC TRANSFORMER PRIMARY CURRENT (Vsource = Va): 0.5138 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Va): 1.8685 Amps TRANSFORMER PRIMARY CURRENT (Vsource = Vr): 0.5410 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Vr): 1.9673 Amps CIRCUIT IMPEDANCE: ........(36.698 + j27.107) 45.624 Ohms CAUTION: Transformer May Be Overloaded. Check Manufacturer's Data.
COMPONENT VOLTAGE:
COMPONENT NODEP1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S Tl Hl H2 599.515 391.763 368.000 387.462 Tl Xl X2 45.338 29.627 85.250 89.759 FU Xl MCC-1 0.550 0.000 0.029 0. 031 JUMPER MCC-1 MCC-53 0.000 0.000 0.000 0. 000 CR3C NOSW MCC-53 MCC-54 Open 1.496 l. 575 JUMPER MCC-54 MCC-23 0.000 0.000 0.000 0.000 CBL B-WB MCC-23 MOV-22 0.867 0.000 0.000 0.000 BC5 NC SW MOV-22 MOV-10 0.000 0.000 0.000 0.000 C TO18 NCSW MOV-22 MOV-10 0.000 0.000 0.000 0.000 C TC17 NCSW MOV-10 MOV-36 0.000 0.000 0.000 0.000 C Aol NO SW MOV-10 MOV-36 Open 0.000 0.000 0 B04 NC SW MOV-22 MOV-21 0.000 0. 000 0.000 0. 000 C CBL B-0 MOV-21 MCC-5 0.867 0.000 1.520 1.600 CBL C-0 MCC-5 MTC-26 0.600 0.000 1.051 1.106 JUMPER MTC-26 MTC-H 0.000 '0. 000 0.000 0.000 CBL D-RB MTC-H MCB-H 0.750 0.000 1.313 1.383 CS-3171A MCB-H MCB-J 0.000 0.000 0.000 0.000 CBL D-GB MCB-J" MTC-J. 0.750 0.000 1.313 1.383 JUMPER MTC-J MTC-27 0.000 0.000 0.000 0.000 CBL M-W MTC-27 V506-F 4.128 0.000 7.232 7.615 BC20-2 NC V506-F V506-E 0.000 0.000 0.000 0.000 CBL M-B V506-E MTC-54 4.128 0.000 7.232 7.615 CBL L-W MTC-54 V507-34 2.337 0.000 4.094 4.310 BC20 NCSW V507-34 V507-33 0.000 0.000 0.000 0.000 CBL L-B V507-33 MTC-52 2.337 0.000 4.094 4.310 CBL K-B MTC-52 V758-A 2.337 0.000 4.094 4.310 BC20-1 NC V758-A V758-B 0.000 0.000 0.000 0.000 CBL K-W V758-B MTC-53 2.337 0.000 4.094 4.310 JUMPER MTC-53 MTC-50 0.000 0.000 0.000 0.000 CBL H-B MTC-50 L520-33 1.577 0.000 0.000 0.000 BC20 NCSW L520-33 L520-34 Open 8.188 8.621 CBL H-W L520-34 MTC-51 1.577 0.000 0.000 0.000 E5518.10 ( file: 317r5. ckt) Page 1
'-OMPONENT VOLTAGE:
OMPONENT NODEg1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S
. UMPER MTC-51 MTC-52 0.000 0. 000 0.000 0. 000
".BL J-B MTC-50 L521-C 1.022 0. 000 0.000 0.000
'C20-1 NC L521-C L521-D Open 8.188 8.621 BL J-W L521-D MTC-51 1.022 0.000 0.000 0.000 JUMPER MTC-50 MTC-48 0.000 0.000 0.000 0.000 "BL F-W MTC-48 702-6 0.930 0. 000 0.000 0.000 (740 NOSW 702-6 K Open 0.000 0.000 (711 NOSW K 702-5 Open 0.000 0.000
"-Bl F-B 702-5 MTC-30 0.930 0. 000 0.000 0.000 JUMPER MTC-30 MTC-N 0.000 0.000 0.000 0.000
".BL D-RW MTC-N MCB-N 0.750 0. 000 .0. 000 0.000
"-S-3 172A MCB-N MCB-M Open 0. 000 0.000 0
"-BL D-BW MCB-M MTC-M 0.750 0.000 0. 000 0.000 i UMPER MTC-M MTC-26 0.000 0.000 ~
0.000 0.000
BL C-B MTC-48 MCC-4 0.600 0.000 1.051 1.106
'2-0 NOSW MCC-5 MCC-4 Open 35.568 37.449 a2-S NCSW MCC-4. H 0.000 0. 000 0.000 0.000
) 2-0 H X2 17.400 28.500 58.506 61.600 61.6 P
~AMP-W X2 A 700.000 0. 000 0.004 0.004 RES A MCC-19 2500.000 0. 000 0. 014 0.015
-BL C-RB MCC-19 MTC-21 0.600 0. 000 0.000 0.000 JUMPER MTC-21 MTC-B 0.000 0. 000 0.000 0.000
-BL D-W MTC-B MCB-B 0.750 0. 000 0.000 0.000 P-W MCB-B C 700.000 0. 000 0.'04 0.004 RES C MCB-A 2500.000 0. 000 0. 014 0.015 RES MCB-A B 2500.000 0. 000 66.451 69.965 P-G B MCB-D 700.000 0. 000 18.606 19.590 BL D-G MCB-D MTC-D 0.750 0. 000 0.020 0. 021 JUMPER MTC-D MTC-23 0. 000 0. 000 0.000 0.000
-BL C-G MTC-23 MCC-17 0. 600 0. 000 0. 016 0.017
-BL B-G MCC-17 MOV-18 0.867 0. 000 0. 046 0.049 BO3 NC SW MOV-18 MOV-9'OV-8
0. 000 0. 000 0. 000 0.000 WC7 NO SW MOV-9 Open 85.157 89.660 "BL B-R MOV-8 MCC-18 0.867 0. 000 0.000 0.000 "BL C-R MCC-18 MTC-22 0.600 .0. 000 0.000 0.000 JUMPER MTC-22 MTC-C. 0.000 0. 000 0.000 0.000 BL D-R MTC-C MCB-C 0.750 0. 000 0.000 0.000
~AMP-R MCB-C D 700.000 0. 000 0.004 0.004 RES D MCB-A 2500.000 0. 000 0.014 0.015
~AMP-R X2 E 700.000 0. 000 0. 004 0.004 RES E MCC-18 2500.000 0. 000 0 ~ 014 0.015 LAMP-G X2 F 700.000 0. 000 18.622 19.607 RES F MCC-17 ~
2500.000 0. 000 66.507 70.024 JUMPER X2 MCC-10 0.000 0. 000 0.000 0.000 BL C-W MCC-10 MTC-20 0.600 0. 000 0.016 0.017 JUMPER MTC-20 MTC-A 0.000 0.000 0.000 0.000 BL D-B MTC-A MCB-A 0.750 0.000 0.020 0. 021 42-S X2 G 72.000 318.000 0.000 0.000 D 42-0 NCSW G MCC-6 0.000 0.000 0.000 0.000 C E5518.10 (file: 317r5. ckt) Page 2
COMPONENT VOLTAGE:
COMPONENT NODE¹l NODE¹2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S 42-S NOSW MCC-6 MCC-7 Open 84.023 88.467 CBL C-WB MCC-6 MTC-29 0.600 0.000 0.000 0.000 JUMPER MTC-29 MTC-L 0.000 0.000 0.000 0.000 CBL D-UB MTC-L MCB-L 0.750 0.000 0. 000 0.000 CS-3171B MCB-L MCB-K Open 84. 023 88.467 CBL D-OB MCB-K MTC-K 0.750 0.000 0. 000 0.000 JUMPER MTC-K MTC-28 0.000 0.000 0. 000 0.000 CBL C-U MTC-28 MCC-7 0.600 0.000 0. 000 0.000 CBL P-W MTC-29 702-4 0.978 0.000 0. 000 0.000 K740 NOSW 702-4 L Open 84.023 88.467 0 K711 NCSW L 702-3 0.000 0. 000 0.000 0.000 C CBL P-B 702-3 MTC-28 0.978 0.000 0.000 0.000 74 X2 MCC-3 320.000 903 000 F 85.250 89.759 66.0 E CBL B-U MOV-36 MCC-7 0.867 0.000 0. 000 0. 000 CBL B-W MOV-10 MCC-3 0.867 0.000 1 ~ 520 1. 600 CBL B-B MOV-9 MCC-1 0.867 0.000 0 ~ 046 0. 049 49 MR NC Xl J 0.000 0.000 0. 000 0.000 CSTEST NC J MCC-2 0.000 0.000 0. 000 0.000 JUMPER MCC-2 MCC-55 0. 000 0.000 0. 000 0.000 CR3C NCSW MCC-55 MCC-56 0.000 0.000 0.000 0.000 , C JUMPER MCC-3 MCC-56 0.000 0.000 0.000 0.000 74 NC SW MCC-1 MCC-19 Open 85.203 89.709 NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE Xl 85.250 89.759 0. 00 MCC-1 85.221 89.728 0.00 MCC-53 85.221 89.728 0. 00 MCC-54 84.023 88.467 0.61 MCC-23 84.023 88.467 0. 61 MOV-22 84.023 88.467 0.61 MOV-10 84.023 88.467 0. 61 MOV-36 84.023 88.467 0.61 MOV-21 84.023 88.467 0. 61 MCC-5 82.806 87.185 1.23 MTC-26 81.970 86.305 1.67 MTC-H 81.970 86.305 1.67 MCB-H 80.932 85.212 2.24 MCB-J 80.932 85.212 2.24 MTC-J 79.903 84.128 2.82 MTC-27 79.903 84.128 2.82 V506-F 74.394 78.328 6.31 V506-E 74.394 78.328 6.31 MTC-54 69.204 72.863 10.33 V507-34 66.435 69.948 12.88 V507-33 66.435 69.948 12.88 MTC-52 63.809 67 '83 15.64 V758-A 61.344 64.588 18.63 V758-B 61.344 64.588 18.63 MTC-53 59.060 62.184 21. 87 MTC-50 59.060 62.184 21.87 L520-33 59.060 62.184 21. 87 L520-34 63.809 67.183 15.64 MTC-51 63.809 67.183 15. 64 L521-C 59.060 62.184 21.87 L521-D 63.809 67.183 15. 64 MTC-48 59.060 62.184 21.87 702-6 59.060 62.184 21. 87 K 0.000 0.000 0.00 702-5 0.000 0.000 0. 00 MTC-30 0.000 0.000 0.00 MTC-N 0.000 0.000 0. 00 MCB-N 0.000 0.000 0.00 MCB-M 81.970 86.305 1. 67 MTC-M 81.970 86.305 1.67 MCC-4 58.506 61.600 22.74 H 58.506 61.600 22.74 E5518. 10 (file: 317r5. ckt) Page 3
NODE VOLTAGE:
NODE ID V (Vs=Va) V (Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE X2 0. 000 0. 000 0. 00 A 0. 004 0. 004 0.00 MCC-19 0. 018 0.019 0.00 MTC-2 1 0. 018 0. 019 0.,00 MTC-B 0. 018 0.019 0.00 MCB-B 0.018 0 ~ 019 0. 00 C 0. 022 0.023 0.00 MCB-A 0.036 0. 038 0.00 B 66. 487 70.003 0.00 MCB-D 85.093 89.593 0.00 MTC-D 85.113 89.614 0 F 00 MTC-23 85.113 89.614 0. 00 MCC-17 85.129 89.631 0.00 MOV-18 85.175 89.679 0.00 MOV-9 85.175 89.679 0.00 MOV-8 0.018 0.019 0.00 MCC-18 0.018 0.019 0.00 MTC-22 0.018 0. 019 0. 00 MTC-C 0.018 0.019 0.00 MCB-C 0.018 0. 019 0.00 D 0.022 0.023 0.00 E 0.004 0. 004 0.00 F 18.622 19.607 0.00 MCC-10 0.000 0. 000 90.00 MTC-20 0.016 0.017 0. 00 MTC-A 0.016 0. 017 0.00 G 0.000 0.000 90.00 MCC-6 0.000 0. 000 90.00 MCC-7 84.023 88.467 0.61 MTC-29 0.000 0.000 0.00 MTC-L 0.000 0.000 90.00 MCB-L 0.000 0.000 0.00 MCB-K 84.023 88.467 0.61 MTC-K 84.023 88 '67 0.61 MTC-28 84.023 88.467 0.61 702-4 0.000 0.000 0.00 L 84.023 88.467 0.61 702-3 84.023 88.467 0.61 MCC-3 85.250 89.759 0.00 J 85.250 89 '59 0.00 MCC-2 85.250 89.759 0.00 MCC-55 85.250 89.759 0.00 MCC-56 85.250 89.759 0.00 B. PATH 2 SOURCE NODES ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Hl, H2 SOURCE VOLTAGE APPLIED (Va): 368.00 VAC SOURCE VOLTAGE REQUIRED (Vr): 294.48 VAC TRANSFORMER PRIMARY CURRENT (Vsource = Va): 0.6652 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Va): 2.4189 Amps TRANSFORMER PRIMARY CURRENT (Vsource = Vr): 0.5323 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Vr): 1.9357 Amps CIRCUIT IMPEDANCE: ........(20.969 + j27.037). 34.215 Ohms CAUTION: Transformer May Be Overloaded. Check Manufacturer's Data.
COMPONENT VOLTAGE:
COMPONENT NODE¹1 NODE¹2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S T1 H1 H2 391.521 390.837 368.000 294.484 T1 X1 X2 29.609 29.557 82.765 66.231 FU X1 MCC-1 0.550 0.000 0.028 0.023 JUMPER MCC-1 MCC-53 0.000 0.000 0.000 0.000 CR3C NOSW MCC-53 MCC-54 Open 1.983 1 '86 JUMPER MCC-54 MCC-23 0.000 0. 000 0.000 0.000 CBL B-WB MCC-23 MOV-22 0.867 0.000 0.000 0.000 BC5 NC SW MOV-22 MOV-10 Open 0.000 0.000 E5518.10 ( file: 317r5. ckt) page 4
COMPONENT VOLTAGE:
COMPONENT NODEgl NODE/2 RESIST REACT V (Vs=Va) V (Vs=Vr) V-RQD S TO18 NCSW MOV-22 MOV-10 0.000 0. 000 0.000 0.000
'TC17 NCSW MOV-10 MOV-36 0. 000 0. 000 0.000 0.000 AO1 NO SW MOV-10 MOV-36 0. 000 0. 000 0.000 0.000 BO4 NC SW MOV-22 MOV-21 Open 0.000 0.000 CBL B-0 MOV-21 MCC-5 0.867 0. 000 0.000 0.000 CBL C-0 MCC-5 MTC-26 0.600 0. 000 0.000 0.000 JUMPER MTC-26 MTC-H 0.000 0.000 0.000 0.000 CBL D-RB MTC-H MCB-H 0.750 0.000 0.000 0. 000 CS-3171A MCB-H MCB-J Open 0.000. 0. 000 CBL D-GB MCB-J MTC-J 0.750 0. 000 0.000 0. 000 JUMPER MTC-J MTC-27 0.000 0. 000 0.000 0.000 CBL M-W MTC-27 V506-F 4.128 0. 000 0.000 0.000 BC20-2 NC V506-F V506-E 0.000 0. 000 0.000 0.000 CBL M-B V506-E MTC-54 4.128 0.000 0.000 0.000 CBL L-W MTC-54 V507-34 2.337 0.000 0.000 0.000 BC20 NCSW V507-34 V507-33 0.000 0.000 0.000 0.000 CBL L-B V507-33 MTC-52 2.337 0.000 0.000 0.000 CBL K-B MTC-52 V758-A 2.337 0.000 0.000 0.000 BC20-1 NC V758-A V758-B 0.000 0.000 0.000 0.000 CBL K-W V758-B MTC-53 2.337 0.000 0.000 0.000 JUMPER MTC-53 MTC-50 0.000 0.000 0.000 0.000 CBL H-B MTC-50 L520-33 1.577 0.000 0.000 0.000 BC20 NCSW L520-33 L520-34 0.000 0.000 0.000 0.000 CBL H-W L520-34 MTC-51 1.577 0.000 0.000 0.000 JUMPER MTC-51 MTC-52 0.000 0.000 0.000 0.000 CBL J-B MTC-50 L521-C 1.022 0.000 0.000 0.000 BC20-1 NC L521-C L521-D 0.000 0.000 0.000 0.000 CBL J-W L521-D MTC-51 1.022 0.000 0.000 0.000 JUMPER MTC-50 MTC-48 0.000 0.000 0.000 0.000 CBL F-W MTC-48 702-6 0 '30 0.000 0.000 0.000 K740 NOSW 702-6 K Open 0.000 0.000 K711 NOSW K 702-5 Open 0.000 0.000 CBL F-B 702-5 MTC-30 0.930 0. 000 0.000 0.000 JUMPER MTC-30 MTC-'N 0.000 0. 000 0.000 0.000 CBL D-RW MTC-N MCB-N 0.750 0. 000 0.000 0.000 CS-3172A MCB-N MCB-M Open 0.000 0.000 CBL D-BW MCB-M MTC-M 0.750 0. 000 0.000 0.000 JUMPER MTC-M MTC-26 0.000 0.000 0.000 0.000 CBL C-B MTC-48 MCC-4 0.600 0.000 0. 000 0.000 42-0 NOSW MCC-5 MCC-4 Open 0.000 0.000 42-S NCSW MCC-4 H 0.000 0. 000 0.000 0.000 42-0 H X2 72.000 318.000 0.000 0.000 LAMP-W X2 A 700.000 0. 000 0.004 0.003 RES A MCC-19 2500.000 0. 000 0.014 0.011 CBL C-RB MCC-19 MTC-21 0.600 0. 000 0.000 0.000 JUMPER MTC-21 MTC-B 0.000 0. 000 0.000 0.000 CBL D-W MTC-B MCB-B 0.750 0. 000 0.000 0.000 LAMP-W MCB-B C 700.000 0. 000 0.004 0.003 RES C MCB-A 2500.000 0. 000 0.014 0.011 E5518.10 (file: 317r5.ckt) page 5
COMPONENT VOLTAGE:
COMPONENT NODE/1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S RES MCB-A B 2500.000 0. 000 0. 014 0.011 LAMP-G B MCB-D 700.000 0. 000 0. 004 0.003 CBL D-G MCB-D MTC-D 0.750 0. 000 0.000 0.000 JUMPER MTC-D MTC-23 0.000 0. 000 0.000 0.000 CBL C-G MTC-23 MCC-17 0.600 0.000 0.000 0.000 CBL B-G MCC-17 MOV-18 0.867 0.000 0.000 0.000 BO3 NC SW MOV-18 MOV-9 Open 82.674 66.158 0 AC7. NO SW MOV-9 MOV-8 0.000 0.000 0.000 0. 000 C CBL B-R MOV-8 MCC-18 0.867 0.000 0.045 0. 036 CBL C-R MCC-18 MTC-22 0.600 0.000 0.015 0. 012 JUMPER MTC-22 MTC-C 0.000 0.000 0.000 0. 000 CBL D-R MTC-C MCB-C 0.750 0.000 0.019 0.015 LAMP-R MCB-C D 700.000 0.000 18.064 14.455 RES D MCB-A 2500.000 0.000 64.513 51.625 LAMP-R X2 E 700.000 0.000 18.079 14.467 RES E MCC-18 2500.000 0.000 64.568 51.669 LAMP-G X2 F 700.000 0.000 0.004 0.003 RES F MCC-17 2500.000 0.000 0.014 0.011 JUMPER X2 MCC-10 0.000 0.000 0.000 0.000 CBL C-W MCC-10 MTC-20 0.600 0.000 0.015 0.012 JUMPER MTC-2 0 MTC-A 0.000 0.000 0.000 0.000 CBL D-B MTC-A MCB-A 0.750 0.000 0.019 0.015 42-S X2 G 17.400 28.500 76.978 61.600 61 .6 P 42-0 NCSW G MCC-6 0.000 0.000 0.000 0.000 C 42-S NOSW MCC-6 MCC-7 Open 6.221 4.978 0 CBL C-WB MCC-6 MTC-29 0.600 0.000 1.382 1.106 JUMPER MTC-29 MTC-L 0.000 0.000 0.000 0.000 CBL D-UB MTC-L MCB-L 0.750 0.000 1.728 1.383 CS-3171B MCB-L MCB-K 0.000 0.000 0.000 0.000 CBL D-OB MCB-K MTC-K 0.750 0.000 1.728 1.383 JUMPER MTC-K MTC-28 0.000 0.000 0.000 0.000 CBL C-U MTC-28 MCC-7 0.600 0.000 1.382 1.106 CBL P-W MTC-29 702-4 0.978 0.000 0.000 0.000 K740 NOSW 702-4 L Open 3.456 2.766 0 K711 NCSW L 702-3'TC-28 0.000 0. 000 0.000 0.000 C CBL P-B 702-3 0.978 0.000 0.000 0.000 74 X2 MCC-3 320.000 903.000 82.765 66.231 66.0 E CBL B-U MOV-3 6 MCC-7 0.867 0.000 2.000 1.600 CBL B-W MOV-10 MCC-3 0.867 0.000 2.000 1.600 CBL B-B MOV-9 MCC-1 0.867 0.000 0.045 0. 036 49 MR NC X1 J 0.000 0.000 0.000 0.000 C CSTEST NC J MCC-2 0.000 0.000 0.000 0.000 C JUMPER MCC-2 MCC-55 0.000 0.000 0.000 0.000 CR3C NCSW MCC-55 MCC-56 0.000 0.000 0.000 0.000 JUMPER MCC-3 MCC-56 0.000 0.000 0.000 0.000 74 NC SW MCC-1 MCC-19 Open 82.719 66.194 E5518 10
~ (file: 317r5. ckt) Page 6
lDE VOLTAGE:
3DE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE 82.765 66.231 0. 00 Mcc-1 82.736 66.208 0.00 1
C-53 82.736 66.208 0.00 Mcc-54 81.564 65.270 l. 12 C-23 81.564 65.270 1.12 MOV-22 81.564 65.270 1. 12 OV-10 OV-21 81.564 0.000 65.270 0.000 1 '2 0.00 MOV-36 Mcc-5 81.564 0.000 65.270 0.000 1 ~ 12 0 F 00
'Tc-2 6 0.000 0.000 0.00 MTC-H 0.000 0.000 0.00
'CB-H 0.000 0.000 0.00 MCB-J 0.000 0.000 0.00
'Tc- J 0.000 0.000 90.00 MTC-27 0.000 0.000 90.00 506-F 0.000 0.000 90.00 V506-E 0.000 0.000 90.00 Tc-54 0.000 0.000 90.00 V507-34 0.000 0.000 90.00 507-33 0.000 0.000 90.00 MTC-52 0.000 0.000 90.00 758-A 0.000 0.000 90.00 V758-B 0.000 0.000 90.00 "7C-53 0.000 0.000 90.00 MTC-50 ~
0.000 0.000 90.00
~ 520-33 0.000 0.000 90.00 L520-34 0.000 0.000 90.00 "7C-51 0.000 0.000 90.00 L521-C 0.000 0.000 90.00
~ 521-D 0.000 0.000 90.00 MTC-48 0.000 0.000 0.00 02-6 0.000 0.000 0.00 K 0.000 0.000 0.00 02-5 0.000 0.000 0.00 MTC-30 0.000 0.000 0.00 Tc-N 0.000 0.000 0.00 MCB-N 0.000 0.000 0.00
'CB-M 0.000 0.000 0.00 MTC-M 0.000 0.000 0.00
CC-4 0.000 0.000 90.00 H 0.000 0.000 90.00 2 0.000 0.000 0.00 A 0.004 0.003 0.00
'CC-19 0.017 0.014 0.00 MTC-21 0.017 0.014 0.00 Tc-B 0.017 0 '14 0.00 MCB-B 0. 017
'0. 035 0.014 0.00 0.021 0.017 0.00 MCB-A 0.028 0.00 0.021 0.017 0.00 MCB-D 0. 017 0.014 0.00
'Tc-D 0.017 0.014 0.00 MTC-23 0. 017 0.014 0.00
'CC-17 0.017 0.014 0.00 MOV-18 0.017 0.014 0.00
'OV-9 82.692 66.172 0.00 MOV-8 82.692 66.172 0. 00
'CC-18 82.647 66 '36 0.00 MTC-22 82.631 66.124 0.00 ETC-C 82.631 66.124 0.00 MCB-C 82.612 66.108 0.00 64.548 51.653 0.00 E 18.079 14.467 0.00 0.004 0.003 0.00 Mcc-10 0.000 0.000 90.00
'Tc-20 0.015 0.012 0.00 MTC-A 0.015 0.012 0.00 76.978 61.600 6.05 Mcc-6 76.978 61.600 6.05
'CC-7 80.395 64.335 2.26 MTC-29 77.707 62.184 5.18
Tc-L 77.707 62.184 5.18 MCB-L 78.644 62.933 4.12
'CB-K 78.644 62.933 4. 12 MTC-K 79.607 63.703 3.08
'TC-28 79.607 63.703 3.08 702-4 77.707 62.184 5.18 79.607 63.703 3.08 702-3 79.607 63.703 3.08
'tCC-3 82.765 66.231 0.00 J 82.765 66.231 0.00 lCC-2 82.765 66.231 0.00 Mcc-55 82.765 66 '31 0.00 lcc-56 82.765 66.231 0.00
5518. 10 ( file: 317r5. ckt) Page 7
0
~
g
PATH 3
)OURCE NODES ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 0 ~ ~ ~ ~ ~ ~ ~ ~ Hl, H2 SOURCE VOLTAGE APPLIED (Va): ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 508.00 VAC SOURCE VOLTAGE REQUIRED (Vr): 247.24 VAC "RANSFORMER PRIMARY CURRENT (Vsource = Va): 0.1708 Amps
".RANSFORMER SECONDARY CURRENT (Vsource = Va): 0.6211 Amps
RANSFORMER PRIMARY CURRENT (Vsource = Vr)

0.0831 Amps
".-RANSFORMER SECONDARY CURRENT (Vsource = Vr): 0.3023 Amps "IRCUIT IMPEDANCE: ........(109.03 + jl89.17)........... 218.34 Ohms "OMPONENT VOLTAGE:
"OMPONENT NODEgl NODEg2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S
1 Hl H2 1555.938 2534.809 508.000 247.237 E Xl X2 117.668 191.695 135.611 66.000 E
.U Xl MCC-1 0.550 0.000 0.093 0.045 O'UMP ER MCC-1 MCC-53 0.000 0.000 0.000 0. 000 R3C NOSW MCC-53 MCC-54 Open 0.351 0. 171 JUMPER MCC-54 MCC-23 0.000 0. 000 0.000 0. 000 BL B-WB MCC-23 MOV-22 0.867 0. 000 0.000 0. 000 BC5 NC SW MOV-22 MOV-10 Open 0.000 0.000 0 TO18 NCSW MOV-22 MOV-10 0.000 0.000 0.000 0.000 C TC17 NCSW MOV-10 MOV-36 0.000 0.000 0.000 0.000 Aol NO SW MOV-10 MOV-36 Open 0.000 0.000 BO4 NC SW MOV-22 MOV-21 0.000 0.000 0.000 0.000 CBL B-0 MOV-21 MCC-5 0.867 0.000 0.360 0.175 CBL C-0 MCC-5 MTC-26 0.600 0.000 0.000 0.000 JUMPER MTC-26 MTC-H 0.000 0.000 0.000 0.000 CBL D-RB MTC-H MCB-H 0.750 0.000 0.000 0.000 CS-3171A MCB-H MCB-J Open 0.000 0.000 CBL D-GB MCB-J MTC-J 0.750 0.000 0.000 0.000 JUMPER MTC-J MTC-27 0.000 0.000 0.000 0.000 CBL M-W MTC-27 V506-F 4.128 0.000 0.000 0.000 BC20-2 NC V506-F V506-E 0.000 0.000 0.000 0.000 CBL M-B V506-E MTC-54 4.128 0.000 0.000 0.000 CBL L-W MTC-54 V507-34 2.337 0.000 0.000 0.000 BC20 NCSW V507-34 V507-33 0.000 0.000 0.000 0.000 CBL L-B V507-33 MTC-52 2.337 0.000 0.000 0.000 CBL K-B MTC-52 V758-A 2.337 0.000 0.000 0.000 BC20-1 NC V758-A V758-B 0.000 0.000 0.000 0.000 CBL K-W V758-B MTC-53 2.337 0.000 0.000 0.000 JUMPER MTC-53 MTC-50 0.000 0.000 0.000 0.000 CBL H-B MTC-50 L520-33 1.577 0.000 0.000 0.000 BC20 NCSW L520-33 L520-34 0.000 0.000 0.000 0.000 CBL H-W L520-34 MTC-51 1.577 0.000 0.000 0.000 JUMPER MTC-51 MTC-52 0.000 0.000 0.000 0.000 CBL J-B MTC-50 L521-C 1.022 0.000 0.000 .0.000 BC20-1 NC L521-C L521-D 0.000 0.000 0.000 0.000 CBL J-W L521-D MTC-51 1.022 0.000 0.000 0.000 JUMPER MTC-50 MTC-48 0. 000 0.000 0.000 0.000 E5518.10 (file: 317r5. ckt) Page 8
COMPONENT C VOLTAGE:
COMPONENT NODEg1 NODE/2 RESIST REACT V (Vs=Va) V (Vs=Vr) V-RQD S CBL F-W MTC-48 702-6 0.930 0. 000 0.000 0.000 K740 NOSW 702-6 K Open 0.000 0.000 K711 NOSW K 702-5 Open 0.000 0.000 CBL F-B 702-5 MTC-30 0 '30 0.000 0.000 0.000 JUMPER MTC-30 MTC-N 0.000 0.000 0.000 0.000 CBL D-RW MTC-N MCB-N 0.750 0.000 0.000 0.000 CS-3172A MCB-N MCB-M 0.000 0.000 0.000 0.000 CBL D-BW MCB-M MTC-M 0.750 0.000 0.000 0.000 JUMPER MTC-M MTC-26 0.000 0.000 0.000 0.000 CBL C-B MTC-48 MCC-4 0.600 0.000 0.000 0.000 42-0 NOSW MCC-5 MCC-4 0.000 0.000 0.000 0.000 42-S NCSW MCC-4 H 0.000 0.000 0.000 0.000 42-0 H X2 72.000 318.000 135.450 65.922 47.3 E LAMP-W X2 A 700.000 0.000 0.012 0.006 RES A MCC-19 2500.000 0.000 0. 044 0.022 CBL C-RB MCC-19 MTC-21 0.600 0.000 0. 000 0.000 JUMPER MTC-21 MTC-B 0.000 0.000 0. 000 0.000 CBL D-W MTC-B MCB-B 0.750 0.000 0.000 0.000 LAMP-W MCB-B C 700.000 0.000 0.012 0.006 RES C MCB-A 2500.000 0.000 0.044 0.022 RES MCB-A B 2500.000 0.000 105.568 51.379 LAMP-G B MCB-D 700.000 0.000 29.559 14.386 CBL D-G MCB-D MTC-D 0.750 0.000 0.032 0.015 JUMPER MTC-D MTC-23 0.000 0.000 0.000 0.000 CBL C-G MTC-23 MCC-17 0.600 0.000 0.025 0.012 CBL B-G MCC-17 MOV-18 0.867 0.000 0.073 0.036 BO3 NC SW MOV-18 MOV-9 0.000 0.000 0.000 0.000 AC7 NO SW MOV-9 MOV-8 0.000 0.000 0.000 0.000 CBL B-R MOV-8 MCC-18 0.867 0.000 0.073 0.036 CBL C-R MCC-18 MTC-22 0.600 0.000 0.025 0.012 JUMPER MTC-22 MTC-C 0.000 0.000 0.000 0.000 CBL D-R MTC-C MCB-C 0.750 0.000 0.032 0.015 LAMP-R MCB-C D 700 000 F 0.000 29.559 14.386 RES D MCB-A 2500.000 0.000 105.568 51.379
'LAMP-R X2 E 700.000 0.000 29.596 14.404 RES E MCC-18 2500.000 0.000 105.702 51.444 LAMP-G X2 F 700.000 0.000 29.596 14 '04 RES F MCC-17 2500.000 0.000 105.702 51.444 JUMPER X2 MCC-10 0.000 0.000 0.000 0.000 CBL C-W MCC-10 MTC-20 0.600 0.000 0.051 0.025 JUMPER MTC-20 MTC-A 0.000 0.000 0.000 0.000 CBL D-B MTC-A MCB-A 0.750 0.000 0.063 0.031 42-S X2 G 72.000 318.000 0.000 0.000 D 42-0 NCSW G MCC-6 0.000 0.000 0.000 0.000 C 42-S NOSW MCC-6 MCC-7 Open 135.530 65.961 0 CBL C-WB MCC-6 MTC-29 0.600 0.000 0.000 0.000 JUMPER MTC-29 MTC-L 0.000 0.000 0.000 0.000 CBL D-UB MTC-L MCB-L 0.750 0.000 0.000 0.000 CS-3 171B MCB-L MCB-K Open 135.530 65.961 0 E5518.10 (file: 317r5. ckt) Page 9
COMPONENT VOLTAGE:
COMPONENT NODE/1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S CBL D-OB MCB-K MTC-K 0.750 0.000 0.000 0.000 JUMPER MTC=K MTC-28 0.000 0.000 0.000 0.000 CBL C-U MTC-28 MCC-7 0.600 0.000 0.000 0.000 CBL P-W MTC-29 702-4 0.978 0.000 0.000 0.000 K740 NOSW 702-4 L Open 135.530 65.961 0 K711 NCSW L 702-3 0.000 0. 000 0.000 0.000 C CBL P-B 702-3 MTC-28 0 '78 0. 000 0.000 0.000 74 X2 MCC-3 320.000 903.000 135.611 66.000 66.0 E CBL B-U MOV-36 MCC-7 0 '67 0.000 0.000 0. 000 CBL B-W MOV-10 MCC-3 0.867 0.000 0.360 0 ~ 175 CBL B-B MOV-9 MCC-1 0 ~ 867 0.000 0.147 0. 071 49 MR NC Xl J 0.000 0.000 0.000 0. 000 CSTEST NC J MCC-2 0.000 0.000 0.000 0.000 JUMPER MCC-2 MCC-55 0."000 0.000 0.000 0. 000 CR3C NCSW MCC-55 MCC-56 0.000 0.000 0.000 0.000 JUMPER MCC-3 MCC-56 0.000 0.000 0.000 0.000 74 NC SW MCC-1 MCC-3.9 Open 135.461 65.927 NODE VOLTAGE:
NODE ID V (Vs=Va) V (Vs=Vr) ANGLE NODE ID V (Vs=Va) V (Vs=Vr) ANGLE Xl 135.611 66.000 0. 00 MCC-1 135.518 65.955 0. 00 MCC-53 135.518 65.955 0.00 MCC-54 135.530 65.961 0. 15 MCC-23 135.530 65.961 0.15 MOV-22 135.530 65.961 0. 15 MOV-10 135.530 '65.961 0.15 MOV-36 135.530 65.961 0. 15 MOV-21 135.530 65.961 0. 1'5 MCC-5 135.450 65.922 0. 30 MTC-26 135.450 65.922 0.30 MTC-H 135.450 65.922 0.30 MCB-H 135.450 65.922 0.30 MCB-J 135.450 65.922 0.30 MTC-J 135.450 65.922 0.30 MTC-27 135-450 65.922 0.30 V506-F 135.450 65.922 0.30 V506-E 135.450 65.922 0.30 MTC-54 135.450 65.922 0.30 V507-34 135.450 65.922 0.30 V507-33 135.450 65.922 0.30 MTC-52 135.450 65.922 0.30 V758-A 135.450 65.922 0.30 V758-B 135.450 65.922 0.30 MTC-53 135.450 65.922 0.30 MTC-50 135.450 65.922 0.30 L520-33 135.450 65.922 0.30 L520-34 135.450 65.922 0.30 MTC-51 135.450 65.922 0.30 L521-C 135.450 65.922 0.30 L521-D 135.450 65.922 0.30 MTC-48 135.450 65.922 0.30 702-6 135.450 65.922 0.30 K 0.000 0.000 0.00 702-5 135.450 65.922 0.30 MTC-30 135.450 65.922 0.30 MTC-N 135.450 65.922 0.30 MCB-N 135.450 65.922 0.30 MCB-M 135.450 65.922 0.30 MTC-M 135.450 65.922 0.30 MCC-4 135.450 65.922 0.30 H 135.450 65.922 0.30 X2 0.000 0.000 0.00 A 0.012 0.006 0.00 MCC-19 0.057 0.028 0.00 MTC-21 0.057 0.028 0.00 MTC-B 0.057 0.028 0.00 MCB-B 0.057 0.028 0.00 C 0.069 0.034 0 00 F MCB-A 0.114 0.055 0.00 B 105.682 51.434 0.00 MCB-D 135.241 65.820 0.00 E5518.10 (file: 317r5. ckt) page 10
NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE MTC-D 135.273 65.835 0. 00 MTC-23 135.273 65.835 0.00 MCC-17 135.298 65 '48 0. 00 MOV-18 135 '71 65.883 0.00 MOV-9 135.371 65.883 0.00 MOV-8 135.371 65.883 0.00 MCC-18 135.298 65.848 0.00 MTC-22 135 '73 65.835 0.00 MTC-C 135.273 65.835 0.00 MCB-C 135.241 65.820 0.00 D 105.682 51.434 0.00 E 29.596 14 '04 0.00 F 29.596 14.404 0 F 00 MCC-10 0.000 0.000 90.00 MTC-20 0.051 0.025 0.00 MTC-A 0.051 0.025 0.00 G 0.000 0.000 90.00 MCC-6 0.000 0.000 90.00 MCC-7 135 '30 65.961 0.15 MTC-29 0.000 0.000 0.000
0. 00 0.00 MTC-L 0.000 0.000 90.00 MCB-L 0.000 MCB-K 135.530 65.961 0.15 MTC-K 135.530 65.961 0.15 MTC-28 L
135.530 135.530 65.961 65.961 0 '5 0.15 702-4 702-3 0.000 135.530 0.000 65.961 0.00 0.15 MCC-3 135.611 66.000 0.00 J 135.611 66.000 0.00 MCC-2 135.611 66.000 0.00 MCC-55 135.611 66.000 0.00 MCC-56 135.611 66.000 0.00 D. PATH 4 SOURCE NODES ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ o ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Hl, H2 SOURCE VOLTAGE APPLIED (Va): 368.00 VAC SOURCE VOLTAGE REQUIRED (Vr): 303 '3 0.6467 VAC TRANSFORMER PRIMARY CURRENT (Vsource = Va): Amps TRANSFORMER SECONDARY CURRENT (Vsource = Va): 2.3516 Amps TRANSFORMER PRIMARY CURRENT (Vsource = Vr): 0.5332 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Vr): 1.9390 Amps CIRCUIT IMPEDANCE: ........(22.655 + j27.020) 35.261 Ohms CAUTION: Transformer May Be Overloaded. Check Manuf acturer ' Data.
COMPONENT VOLTAGE:
COMPONENT NODEgl NODE@2 RESIST REACT V(VS=Va) V(Vs=Vr) V-RQD S Tl Hl H2 413. 814 390.611 368.000 303.435 Tl Xl X2 31. 295 29.540 82.919 68.371 FU Xl MCC-1 0.550 0.000 0.028 0. 023 JUMPER MCC-1 MCC-53 0.000 0.000 0.000 0. 000 CR3C NOSW MCC-53 MCC-54 Open 1.923 1.585 JUMPER MCC-54 MCC-23 0.000 0. 000 0.000 0.000 CBL B-WB MCC-23 MOV-22 0.867 0. 000 0.000 0.000 BC5 NC SW MOV-22 MOV-10 0.000 0.000 0.000 0.000 C T018 NCSW MOV-22 MOV-10 0.000 0.000 0.000 0.000 C TC17 NCSW MOV-10 MOV-36 0.000 0.000 0.000 0.000 C Aol NO SW MOV-10 MOV-36 Open 0.000 0.000 0 BO4 NC SW MOV-22 MOV-21 0.000 0. 000 0.000 0.000 C CBL B-0 MOV-21 MCC-5 0.867 0. 000 1.941 1.600 E5518.10 (file: 317r5.ckt) Page 11
COMPONENT VOLTAGE:
COMPONENT NODEg1 NODEg2 RESIST REACT V (Vs=Va) V (Vs=Vr) V-RQD S CBL C-0 MCC-5 MTC-26 0.600 0. 000 1.342 1. 106 JUMPER MTC-26 MTC-H 0.000 0.000 0.000 0.000 CBL D-RB MTC-H MCB-H 0.750 0.000 0. 000 0.000 CS-3171A MCB-H MCB-J Open 7.515 6.196 CBL D-GB MCB-J MTC-J 0.750 0.000 0.000 0.000 JUMPER MTC-J MTC-27 0.000 0.000 0.000 0.000 CBL M-W MTC-27 V506-F 4.128 0.000 0.000 .0. 000 BC'20-2 NC V506-F V506-E 0.000 0.000 0.000 0.000 CBL M-B V506-E MTC-54 4. 128 0.000 0.000 0.000 CBL L-W MTC-54 V507-34 2.337 0.000 0.000 0.000 BC20 NCSW V507-34 V507-33 0.000 0.000 0.000 0.000 CBL L-B V507-33 MTC-52 2.337 0.000 0.000 0.000 CBL K-B MTC-52 V758-A 2.337 0.000 0.000 0.000 BC20-1 NC V758-A V758-B 0.000 0.000 0.000 0.000 CBL K-W V758-B MTC-53 2.337 0.000 0.000 0.000 JUMPER MTC-53 MTC-50 0.000 0.000 0.000 o.ooo CBL H-B MTC-50 L520-33 1.577 0.000 0.000 0.000 BC20 NCSW L520-33 L520-34 0.000 0.000 0.000 0.000 CBL H-W L520-34 MTC-51 1.577 0.000 0.000 0.000 JUMPER MTC-51 MTC-52 0.000 0.000 0.000 0.000 CBL J-B MTC-50 L521-C 1.022 0.000 0. 000 0.000 BC20-1 NC L521-C L521-D 0.000 0.000 0. 000 0.000 CBL j-W L521-D MTC-51 1.022 0.000 0.000 0.000 JUMPER MTC-50 MTC-48 0.000 0.000 0.000 0.000 CBL F-W MTC-48 702-6 0.930 0.000 2.080 1.715 K740 NOSW 702-6 K 0.000 0.000 0.000 0.000 K711 NOSW K 702-5 0.000 0.000 0.000 0.000 CBL F-B 702-5 MTC-30 0.930 0.000 2.080 1.715 JUMPER MTC-30 MTC-N 0.000 0.000 0.000 0.000 CBL D-RW MTC-N MCB-N 0.750 0.000 1.677 1.383 CS-3172A MCB-N MCB-M 0.000 0.000 0.000 0.000 CBL D-BW MCB-M MTC-M 0.750 0.000 1.677 1.383 JUMPER MTC-M MTC-26 0.000 0.000 0.000 0.000 CBL C-B MTC-48 MCC-4 0.600 0.000 1 '42 1.106 42-0 NOSW MCC-5 MCC-4 Open 10.198 8.409 42-S NCSW MCC-4 H 0.000 0. 000 0.000 0.000 42-0 H X2 17.400 28.500 74.707 61.600 61.6 P LAMP-W X2 A 700.000 0.000 0.004 0.003 RES A MCC-19 2500.000 0.000 0.014 0.011 CBL C-RB MCC-19 MTC-21 0.600 0.000 0.000 0.000 JUMPER MTC-21 MTC-B 0.000 0.000 0.000 0.000 CBL D-W MTC-B MCB-B 0.750 0.000 0.000 0.000 LAMP-W MCB-B C 700.000 0.000 0.004 0.003 RES C MCB-A 2500.000 0.000 0.014 0.011 RES MCB-A B 2500.000 0.000 64.634 53.294 LAMP-G B MCB-D 700.000 0. 000- 18.097 14.922 CBL D-G MCB-D MTC-D 0.750 0.000 0.019 0.016 JUMPER MTC-D MTC-23 0.000 0.000 0.000 0.000 CBL C-G MTC-23 MCC-17 0.600 0.000 0.015 0.013 E5518.10 (file: 317r5.ckt) Page 12
0 COMPONENT VOLTAGE:
COMPONENT NODEgl NODEg2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S CBL B-G MCC-17 MOV-18 0.867 0. 000 0. 045 0.037 B03 NC SW MOV-18 MOV-9 0.000 0. 000 0. 000 0.000 AC7 NO SW MOV-9 MOV-8 Open 82.828 68.296 CBL B-R MOV-8 MCC-18 0.867 0. 000 0.000 0.000 CBL C-R MCC-18 MTC-22 0.600 0. 000 0.000 0.000 JUMPER MTC-22 MTC-C 0.000 0.000 0.000 0.000 CBL D-R MTC-C MCB-C 0.750 0.000 0.000 0.000 LAMP-R MCB-C D 700.000 0.000 0.004 0.003 RES D MCB-A 2500.000 0.000 '0.014 0.011 LAMP-R X2 E 700.000 0.000 0.004 0.003 RES E MCC-18 2500.000 0.000 0.014 0.011 LAMP-G X2 F 700.000 0.000 18.113 14.935 RES F MCC-17 2500.000 0.000 64.688 53.339 JUMPER X2 MCC-10 0.000 0.000 0.000 0.000 CBL C-W MCC-10 MTC-20 0.600 0.000 0.015 0.013 JUMPER MTC-20 MTC-A 0.000 0.000 0.000 0.000 CBL D-B MTC-A MCB-A 0.750 0.000 0.019 0.016 42-S X2 G 72.000 318 000 F 0.000 0.000 D 42-0 NCSW G MCC-6 0.000 0.000 0.000 0.000 C 42-S NOSW MCC-6 MCC-7 Open 81.692 67.359 0 CBL C-WB MCC-6 MTC-29 0.600 0.000 0.000 0.000 JUMPER MTC-29 MTC-L 0.000 0.000 0.000 0.000 CBL D-UB MTC-L MCB-L 0.750 0.000 0.000 0.000 CS-3171B MCB-L MCB-K Open 81.692 67.359 CBL D-OB MCB-K MTC-K 0.750 0.000 0.000 0.000 JUMPER MTC-K MTC-28 0.000 0.000 0.000 0.000 CBL C-U MTC-28 MCC-7 0.600 0.000 0.000 0.000 CBL P-W MTC-29 702-4 0.978 0.000 0.000 0.000 K740 NOSW 702-4 L Open 81.692 67.359 0 K711 NCSW L 702-3 0.000 0. 000 0.000 0.000 C CBL P-B 702-3 MTC-28 0.978 0. 000 0.000 0.000 74 X2 MCC-3 320.000 903.000 82.919 68.371 66.0 E CBL B-U MOV-36 MCC-7 0.867 0.000 0.000 0.000 CBL B-W MOV-10 MCC-3 0.867 0.000 1.941 1.600 CBL B-B MOV-9 MCC-1 0.867 0.000 0.045 0.037 49 MR NC Xl J 0.000 0.000 0.000 0.000 C CSTEST NC J MCC-2 0.000 0.000 0.000 0.000 C JUMPER MCC-2 MCC-55 0.000 0.000 0.000 0.000 CR3C NCSW MCC-55 MCC-56 0.000 0.000 0.000 0.000 C JUMPER MCC-3 MCC-56 0.000 0.000 0.000 0.000 74 NC SW MCC-1 MCC-19 Open 82.873 68.333 NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE Xl 82.919 68. 371 0. 00 MCC-1 82.891 68.348 0.00 MCC-53 82.891 68.348 0. 00 MCC-54 81.692 67.359 1.05 E5518.10 (file: 317r5. ckt) Page 13
NODE VOLTAGE:
NODE XD V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE MCC-23 81.692 67.359 1.05 MOV-22 81. 692 67.359 1.05 MOV-10 81.692 67 '59 1.05 MOV-36 81. 692 67.359 1.05 MOV-21 81.692 67.359 1.05 MCC-5 80.493 66.371 2. 13 MTC-26 79.681 65.701 2.89 MTC-H 79.681 65.701 2.89 MCB-H 79.681 65.701 2.89 MCB-J 75.415 62.184 7.46 MTC-J 75.415 62.184 7.46 MTC-27 75.415 62.184 7.46 V506-F 75.415 62.184 7.46 V506-E 75.415 62.184 7.46 MTc'-54 75.415 62.184 7.46 V507-34 75.415 62 '84 7.46 V507-33 75.415 62.184 7.46 MTC-52 75.415 62.184 7.46 V758-A 75.415 62.184 7.46 V758-B 75.415 62.184 7.46 MTC-53 75.415 62.184 7.46 MTC-50 75 '15 62.184 7.46 L520-33 75.415 62.184 7.46 L520-34 75.415 62.184 7.46 MTC-51 75.415 62.184 7.46 L521-C 75.415 62.184 7.46 L521-D 75.415 62.184 7.46 MTC-48 75.415 62.184 7.46 702-6 76.546 63.116 6.15 K 76.546 63.116 6. 15 702-5 76.546 63.116 6.15 MTC-3 0 77.716 64.081 4.87 MTC-N 77.716 64.081 4.87 MCB-N 78.687 64.882 3.87 MCB-M 78.687 64.882 3.87 MTC-M 79.681 65.701 2.89 MCC-4 74.707 61.600 8.33 H 74.707 61.600 8.33 X2 0.000 0.000 0.00 A 0.004 0.003 0.00 MCC-19 0.017 0.014 0.00 MTC-2 1 0.017 0.014 0.00 MTC-B 0.017 0.014 0.00 MCB-B 0.017 0.014 0.00 C 0.021 0.018 0.00 MCB-A 0.035 0.029 0.00 B 64.669 53.323 0.00 MCB-D 82.766 68.245 0.00 MTC-D 82.785 68.261 0.00 MTC-23 82.785 68.261 0.00 MCC-17 82.801 68.274 0.00 MOV-18 82.846 68.311 0.00 MOV-9 82.846 68.311 0.00 MOV-8 0.017 0.014 0.00 MCC-18 0.017 0.014 0.00 MTC-22 0 '17 0. 014 0.00 MTC-C 0.017 0.014 0.00 MCB-C 0.017 0. 014 0.00 D 0.021 0.018 0.00 E 0.004 0.003 0.00 F 18.113 14.935 0.00 MCC-10 0.000 0.000 90.00 MTC-20 0.015 0.013 0. 00 MTC-A 0.015 0.013 0.00 G 0.000 0.000 90.00 MCC-6 0.000 0.000 90.00 MCC-7 81.692 67.359 1.05 MTC-29 0.000 0.000 0. 00 MTC-L 0.000 0.000 90.00 MCB-L 0.000 0.000 0.00 MCB-K 81.692 67.359 1. 05 MTC-K 81.692 67.359 1.05 MTC-28 81.692 67.359 1. 05 702-4 0.000 0.000 0.00 L 81.692 67.359 1.05 702-3 81.692 67.359 1.05*
MCC-3 82.919 68.371 0.00 J 82.919 68.371 0.00 MCC-2 82.919 68.371 0.00 MCC-55 82.919 68.371 0.00 MCC-56 82.919 68.371 0.00 E5518.10 ( file: 317r5. ckt) page
E. PATH 5 SOURCE NODES ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ t ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ t ~ ~ ~ ~ ~ ~ Hl, H2 SOURCE VOLTAGE APPLIED (Va): 368.00 VAC
.SOURCE VOLTAGE REQUIRED (Vr): 296.66 VAC TRANSFORMER PRIMARY CURRENT (Vsource = Va): 0.6606 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Va): 2.4022 Amps TRANSFORMER PRIMARY CURRENT (Vsource = Vr): 0.5325 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Vr): 1.9365 Amps CIRCUIT IMPEDANCE: ........(21.384 + j27.032)........... 34.468 Ohms CAUT'ION: Transformer May Be Overloaded. Check Manufacturer's Data.
COMPONENT VOLTAGE:
COMPONENT NODE/1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S Tl Hl H2 397. 014 390.774 368.000 296.662 Tl Xl X2 30. 024 29.552 82.798 66.747 FU Xl MCC-1 0.550 0.000 0.028 0.023 JUMPER MCC-1 MCC-53 0.000 0.000 0.000 0.000 CR3C NOSW MCC-53 MCC-54 Open 1.968 1.586 0 JUMPER MCC-54 MCC-23 0.000 0.000 0.000 0.000 CBL B-WB MCC-23 MOV-22 0.867 0.000 0.000 0.000 BC5 NC SW MOV-22 MOV-10 Open 0.000 0.000 0 T018 NCSW MOV-22 MOV-10 0.000 0.000 0.000 0.000 C TC17 NCSW MOV-10 MOV-36 0.000 0.000 0.000 0.000 C AO1 NO SW MOV-10 MOV-36 0.000 0.000 0.000 0.000 C BO4 NC SW MOV-22 MOV-21 Open 0.000 0.000 0 CBL B-0 MOV-21 MCC-5 0.867 0.000 0.000 0.000 CBL C-0 MCC-5 MTC-26 0.600 0.000 0.000 0.000 JUMPER MTC-26 MTC-H 0.000 0.000 0.000 0.000 CBL D-RB . MTC-H MCB-H 0.750 0.000 0.000 0.000 CS-3171A MCB-H MCB-J Open 0.000 0.000 CBL D-GB MCB-J MTC-J 0.750 0.000 0.000 0.000 JUMPER MTC-J MTC-27 0.000 0.000 0.000 0.000 CBL M-W MTC-27 V506-F 4.128 0.000 0.000 0.000 BC20-2 NC V506-F V506-E 0.000 0.000 0.000 0.000 CBL M-B V506-E MTC-54 4.128 0.000 0.000 0.000 CBL L-W MTC-54 V507-34 2.337 0.000 0.000 0.000 BC20 NCSW V507-34 V507-33 0.000 0.000 0.000 0.000 CBL L-B V507-33 MTC-52 2.337 0.000 0.000 0.000 CBL K-B MTC-52 V758-A 2.337 0.000 0.000 0.000 BC20-1 NC V758-A V758-B 0.000 0.000 0.000 0.000 CBL K-W V758-B MTC-53 2.337 0.000 0.000 0.000 JUMPER MTC-53 MTC-50 0.000 0.000 0.000 0.000 CBL H-B MTC-50 L520-33 1.577 0.000 0.000 0.000 BC20 NCSW L520-33 L520-34 0.000 0.000 0.000 0.000 CBL H-W L520-34 MTC-51 1.577 0.000 0.000 0.000 JUMPER MTC-51 MTC-52 0.000 0.000 0.000 0.000 CBL J-B MTC-50 L521-C 1.022 0.000 0.000 0.000 BC20-1 NC L521-C L521-D 0.000 0.000 0.000 0.000 CBL J-W L521-D MTC-51 1.022 0.000 0.000 0.000 E5518. 10 ( f ile: 317r5. ckt) Page 15
COMPONENT VOLTAGE:
"OMPONENT NODE)f1 NODEg2 RESIST REACT V (Vs=Va) V (Vs=Vr) V-RQD S JUMPER MTC-50 MTC-48 0.000 0. 000 0. 000 0.000 CBL F-W MTC-'48 702-6 0 '30 0.000 0.000 0.000 K740 NOSW 702-6 K Open 0.000 0.000 K711 NOSW K 702-5 Open 0.000 0. 000 CBL F-B 702-5 MTC-30 0.930 0.000 0.000 0.000 JUMPER MTC-30 MTC-N 0.000 0.000 0.000 0.000 CBL D-RW MTC-N MCB-N 0.750 0.000 0.000 0.000 CS-3172A MCB-N MCB-M Open 0.000 0.000 CBL D-BW MCB-M MTC-M 0.750 0.000 0.000 0.000 JUMPER MTC-M MTC-26 0.000 '0.000 0.000 0.000 CBL C-B MTC-48 MCC-4 0.600 0.000 0.000 0.000 42-0 NOSW MCC-5 MCC-4 Open 0.000 0.000 0 42-S NCSW MCC-4 H 0.000 0. 000 0.000 0.000 42-0 H X2 72.000 318.000 0.000 0.000 D LAMP-W X2 A 700.000 0.000 0.004 0.003 RES A MCC-19 2500.000 0.000 0.014 0.011 CBL C-RB MCC-19 MTC-21 0.600 0.000 0.000 0.000 JUMPER MTC-21 MTC-B 0.000 0.000 0.000 0.000 CBL D-W MTC-B MCB-B 0.750 0.000 0.000 .0. 000 LAMP-W MCB-B C 700.000 0.000 0.004 0. 003 RES C MCB-A 2500.000 0.000 0.014 0.011 RES MCB-A B 2500.000 0.000 0.014 0.011 P-G B MCB-D 700.000 0.000 0.004 0.003 CBL D-G MCB-D MTC-D 0.750 0.000 0.000 0.000 JUMPER MTC-D MTC-23 0.000 0.000 0.000 0.000 CBL C-G MTC-23 MCC-17 0.600 0.000 0.000 0.000 CBL B-G MCC-17 MOV-18 0.867 0.000 0.000 0.000 B03 NC SW MOV-18 MOV-9 Open 82.708 66.674 AC7 NO SW MOV-9 MOV-8 0.000 0.000 0.000 0.000 CBL B-R MOV-8 MCC-18 0.867 0.000 0.045 0.036 CBL C-R MCC-18 MTC-22 0.600 0.000 0.015 0.012 JUMPER MTC-22 MTC-C 0.000 0.000 0.000 0.000 CBL D-R MTC-C MCB-C 0.750 0.000 0.019 0.016 LAMP-R MCB-C D 700.000 0.000 18.071 14 '68 RES D MCB-A 2500.000 0.000 64.539 52.028 LAMP-R X2 E 700.000 0.000 18.086 14.580 RES E MCC-18 2500.000 0.000 64.594 52.072 LAMP-G X2 F 700.000 0.000 0.004 0.003 RES F MCC-17 2500.000 0.000 0.014 0.011 JUMPER X2 MCC-10 0.000 0.000 0.000 0.000 CBL C-W MCC-10 MTC-20 0.600 0.000 0.015 0.012 JUMPER MTC-20 MTC-A 0.000 0.000 0.000 0.000 CBL D-B MTC-A MCB-A 0.750 0.000 0.019 0.016 42-S X2 G 17.400 28.500 76.413 61.600 61 .6 P 42-0 NCSW G MCC-6 0.000 0.000 0.000 0.000 C 42-S NOSW MCC-6 MCC-7 Open 7.222 5.822 0 CBL C-WB MCC-6 MTC-29 0.600 0.000 1.372 1.106 JUMPER MTC-29 MTC-L 0.000 0.000 0.000 0.000 CBL D-UB MTC-L MCB-L 0.750 0.000 0.000 0.000 E5518.10 (file: 317r5.ckt) Page 16
COMPONENT VOLTAGE:
COMPONENT NODEgl NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S CS-3171B MCB-L MCB-K Open 4.478 3.610 CBL D-OB MCB-K MTC-K 0.750 0. 000 0. 000 0.000 JUMPER MTC-K MTC-28 0.000 0.000 0. 000 0.000 CBL C-U MTC-28 MCC-7 0.600 0.000 1 '72 1.106 CBL P-W MTC-29 702-4 0.978 0.000 2.239 1.805 K740 NOSW 702-4 L 0.000 0.000 0.000 0.000 K711 NCSW L 702-3 0.000 0.000 0.000 0.000 CB~~ P-B 702-3 MTC-28 0.978 0.000 2.239 1.805 74 X2 MCC-3 320.000 903.000 82.798 66.747 66.0 E CBL B-U MOV-36 MCC-7 0.867 0.000 1.985 1. 600 CBL B-W MOV-10 MCC-3 0.867 0.000 1.985 1. 600 CBL B-B MOV-9 MCC-1 0.867 0.000 0. 045 0. 036 49 MR NC X1 J 0.000 0.000 0. 000 0. 000 CSTEST NC J MCC-2 0.000 0.000 0. 000 0. 000 JUMPER MCC-2 MCC-55 0.000 0.000 0.000 0. 000 CR3C NCSW MCC-55 MCC-56 0.000 0.000 0.000 0. 000 JUMPER MCC-3 MCC-56 0.000 0.000 0.000 0. 000 74 NC SW MCC-1 MCC-19 Open 82.752 66.710 NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ZD V(Vs=Va) V(Vs=Vr) ANGLE X1 82.798 66.747 0. 00 MCC-1 82.770 66. 724 0. 00 MCC-53 82.770 66.724 0. 00 MCC-54 81.590 65. 774 1. 10 MCC-23 81.590 65.774 1. 10 MOV-22 81.590 65. 774 1. 10 MOV-10 81.590 65.774 1. 10 MOV-36 81.590 65. 774 1. 10 MOV-21 0.000 0.000 0.00 MCC-5 0.000 0. 000 0.00 MTC-26 0.000 0.000 0.00 MTC-H 0. 000. 0. 000 0.00 MCB-H 0.000 0.000 0.00 MCB-J 0.000 0. 000 0.00 MTC-J 0.000 0.000 90.00 MTC-27 0.000 0. 000 90.00 V506-F 0.000 0.000 90.00 V506-E 0.000 0. 000 90.00 MTC-54 0.000 0.000 90.00 V507-34 0.000 0. 000 90.00 V507-33 0.000 0.000 90.00 MTC-52 0.000 0. 000 90.00 V758-A 0.000 0.000 90.00 V758-B 0.000 0. 000 90.00 MTC-53 0.000 0.000 90.00 MTC-50 0.000 0. 000 90.00 L520-33 0.000 0.000 90.00 L520-34 0.000 0. 000 90.00 MTC-51 0.000 0.000 90.00 L521-C 0.000 0. 000 90.00 L521-D 0.000 0.000 90.00 MTC-48 0.000 0. 000 0.00 702-6 0.000 0.000 0.00 K 0.000 0. 000 0.00 702-5 0.000 0.000 0.00 MTC-30 0.000 0. 000 0.00 MTC-N 0.000 0.000 0.00 MCB-N 0.000 0. 000 0.00 MCB-M 0.000 0.000 0.00 MTC-M 0.000 0. 000 0.00 MCC-4 0.000 0.000 90.00 H 0.000 0. 000 90.00 X2 0.000 0.000 0.00 A 0.004 0 ~ 003 0.00 MCC-19 0.017 0.014 0.00 MTC-21 0.017 0 ~ 014 0.00 MTC-B 0.017 0.014 0.00 MCB-B 0. 017 0. 014 0.00
0. 021 0.017 0.00 MCB-A 0. 035 0. 028 0.00 E5518.10 (file: 317r5.ckt) Page 17
NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE B 0 '21 0. 017 0. 00 MCB-D 0. 017 0.014 0.00 MTC-D 0 '17 0. 014 0. 00 MTC-23 0. 017
0. 017 0.014 0.014 0.00 0.00 MCC-17 0.017 0. 014 0. 00 MOV-18 MOV-9 82.725 66.688 0. 00 MOV-8 82.725 66.688 0.00 MCC-18 82.680 66.652 0. 00 MTC-22 82.665 66.640 0.00 MTC-C 82.665 66.640 0. 00 MCB-C 82.645 66.624 0.00 D 64.574 52.056 0. 00 E 18.086 14.580 0.00 F 0.004 0.003 0. 00 MCC-10 0.000 0.000 90.00 MTC-20 0.015 0.012 0.00 MTC-A 0.015 0.012 0.00 G 76.413 61. 600 6. 63 MCC-6 76. 413 61.600 6.63 MCC-7 80.413 64.825 2.23 MTC-29 77.137 62 184
~ 5.76 MTC-L 77.137 62.184 5.76 MCB-L 77.137 "62.184 5.76 MCB-K 79.618 64.184 3.03 MTC-K 79.618 64.184 3.03 MTC-28 79.618 64.184 3.03 702-4 78.355 63.166 4.37 L 78.355 63.166 4.37 702-3 78.355 63 '66 4.37 MCC-3 82.798 66.747 0 F 00 J 82.798 66.747 0.00 MCC-2 82.798 66.747 0.00 MCC-55 82.798 66.747 0.00 MCC-56 82.798 66.747 0.00 DEVICE DESCRIPTION:
Switches: CR3C NOSW, BC5 NC SWg TO18 NCSWg TC17 NCSW/ AO1 NO SW BO4 NC SW, CS 3 17 1A/ BC20 2 NC~ BC20 NCSWJ BC20 1 NC BC20 NCSW, BC20 1 NCg K740 NOSWg K7 1 1 NOSW/ CS 3 172A 42-0 NOSW, 42 S NCSWi BO3 NC SWi AC7 NO SWi 42 0 NCSW 42-S NOSW, CS 3 17 lBJ K740 NOSWi K7 1 1 NCSW/ 49 MR NC CSTEST NC, CR3C NCSW, 74 NC SW Cables: CBL B-WB 12 Awg 460 Ft T= 50 C R=0.8674 X=0.0000 CBL B-0 12 Awg 460 Ft T- 50 C R=0.8674 X=0.0000 CBL C-0 12 Awg 318 Ft T= 50 C R=0.5997 X=0.0000 CBL D-RB 16 Awg 154 Ft T= 5Q C R=0.7496 X=0.0000 CBL D-GB 16 Awg 154 Ft T- 500C R=0.7496 X=0.0000 CBL M-W 16 Awg 848 Ft T= 5Q C R=4.1279 X=0.0000 CBL M-B 16 Awg 848 Ft 500C R=4.1279 X=0.0000 CBL L-W 16 Awg 480 Ft 5Q C R=2.3365 X=0.0000 CBL L-B 16 Awg 480 Ft T= 500C R=2.3365 X=0.0000 CBL K-B 16 Awg 480 Ft T= 500C R=2.3365 X=0.0000 CBL K-W 16 Awg 480 Ft T= 500C R=2.3365 X=0.0000 CBL H-B 16 Awg 324 Ft T= 50 C R=1.5772 X=0.0000 CBL H-W 16 Awg 324 Ft 500C R=1.5772 X=0.0000 CBL j-B 16 Awg 210 Ft T= 500C R=1.0222 X=0.0000 CBL J-W 16 Awg 210 Ft T= 500C R=1.0222 X=0.0000 CBL F-W 16 Awg 191 Ft T= 500C R=0.9297 X=0.0000 CBL F-B 16 Awg 191 Ft T= 50 C R=0.9297 X=0.0000 CBL D-RW 16 Awg 154 Ft T= 5Q C R=0.7496 X=0.0000 CBL D-BW 16 Awg 154 Ft 500C R=0.7496 X=0.0000 E5518.10 ( file: 317r5. ckt) Page 18
DEVICE DESCRIPTION (Cont'd):
Cables: CBL C-B 12 Awg 318 Ft T= 5Q C R=Q. 5997 X=0.0000 CBL C-RB 12 Awg 318 Ft T- 5Q C R=0.5997 X=0.0000 CBL D-W 16 Awg 154 Ft T= 50 C R=0.7496 X=0.0000 CBL D-G 16 Awg 154 Ft T= 500C R=0.7496 X=0.0000 CBL C-G 12 Awg 318 Ft T= 50 C R=0.5997 X=0.0000 CBL B-G 12 Awg 460 Ft T= 5Q C R=0.8674 X=0.0000 CBL B-R 12 Awg 460 Ft T= 500C R=0.8674 X=0.0000 CBL C-R 12 Awg 318 Ft T= 500C R=0.5997 X=0.0000 CBL D-R 16 Awg 154 Ft T- 50 C R=0.7496 X=0.0000 CBL C-W 12 Awg 318 Ft T= 500C R=0.5997 X=0.0000 CBL D-B 16 Awg 154 Ft T= 500C R=0.7496 X=0.0000 CBL C-WB 12 Awg 318 Ft T= 50 C R=0.5997 X=0.0000 CBL D-UB 16 Awg 154 Ft T= 500C R=0.7496 X=0.0000 CBL D-OB 16 Awg 154 Ft T- 500C R=0.7496 X=0.0000 CBL C-U 12 Awg 318 Ft T= 5Q C R=0.5997- X=0.0000 CBL P-W 16 Awg 201 Ft T= 5Q C R=0.9784 X=0.0000 CBL P-B 16 Awg 201 Ft T= 500C R=0.9784 X=0.0000 CBL B>>U 12 Awg 460 Ft T= 50 C R=0.8674 X=0.0000 CBL B-W 12 Awg 460 Ft 50 C R=0.8674 X=0.0000 CBL B-B 12 Awg 460 Ft 500C R=0.8674 X=0.0000
, Relays: 74 GOULD J10 RI=90.30 XI=86.50 Vpu=102.0 RH=320.0 XH=903.0 Vdo=66.00 Contactors: 42-0 GOULD A20-SIZE 1 RI=17.40 Vpu=61. 60 RH=72.00 XH=318.0 Vdo=47.30 42-S GOULD A20-SIZE 1 0%'I=28.50 RI=17.40 XI=28.50 Vpu=61.60 RH=72.00 XH=318.0 Vdo=47.30 Transfrmer: T1 GOULD SIZE 1 100 VA 480-120 Volts R=6 ~ X=1. 75> Comp=104 E5518.10 (file: 317r5.ckt) Page 19
- dS ZP. PP cl DISCIPLINE DESICN VERIPIChXION RECORD /<cr4,y 8 '2 Page 1 oC Ifatflaticaa Co Veri f icaticsl Perstsslel Plant $4 pl~ ocu~~y s v'7 M O (Class A)
Project Z/4-Pgcsyg I ) Seisls'IC (Class $)
File Ko. Level I ) FP O (Class 0)
Oocuaent Ko. R v l ) Other Design verification should be done in accordance uith AKSI K45,2.11, Section 6, as Ellended by Regulatory guide 1.64, Rev. 2.
Spec'l ~ l lnscrucc'lone'ittipiinp Prpicct EnEfnear I I. Veri f ication Docamentatilsl Applicability Disci line I ci line Hechanical () Civil Structural I )
HVAC () Seislsic Equip. Dual.
Electrical M Civil Stress I )
ISC l) Fire Protection I)
Envirorwental Owlification I )
Hman Factors I)
Hater isis I )
I)
Other I)
Verification Hethods Used:
D() Design Revieu I ) Alternate Calculations [ ) Oualification Testing Design Oocllllent tlents at Cached Design Verifier Oa'te EP r.
Acknoul edg (DPE) Date III~ Resoiutilxl of
'<<l CcsMEfCs Ccclllents ' "-- ~
(RE)
Ac'Cion taken rpaa Date 9 mls)
Design Verifi Date (DPE) Date proc. 3.3 Rev. 38
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Page 2 ~$ 2.
0 ISCIPLIXE DES ICÃ VERI F ICATIQI RECCIO CCsolEHT SHEET Plant MWAr r /
Project f i le Ho.
Docunent Ho.
this sheet is only reauired vhen conments are being made.
Connent Resolved Ho Com>>nt Resolution Initial/Date c ~o C >/4'g C~ CWgp<<~ Ci 4V(P~
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SYSTEMÃ CALC. TYPE B CAROLINA POWER & LIGHT COMPANY (CALCULATION f)
FOR CVCS MZ IF OW VA. C -V759 (TZTLE INCLUDING STRUCTURE/SYSTEM/COMPONENT)
FOR SHEARON ARRIS NU PROJECT AND/OR PLANT NAME & APPLICABLE UNIT)
YES NO SAFETY RELATED: ~ 0 SEISMIC o r APPROVAL PRIN. ENGINEER REV.
NO.
PREPARED BY DATE ~VERIFIED DATE BY PROJ. ENGINEER DATE DAgE 9/t vlf>
REASON FOR CHANGE'EASON FOR CHANGE:
REASON FOR CHANGE:
--,te: CAROLINA POWER & LIGHT COMPANY Calculation ID:
i . 92 E5518.134 Pg. of Rev.
1 5 0 CALCULATION SHEET TAR/PID No.: H0604 File:
Pro'ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT Calculation
Title:
CVCS MINIFLOW VA. 2CS-V759SB-1 Status: Prelim. Final Void LIST OF EFFECTIVE PAGES PAGE PAGE PAGE REV ATTACHMENTS
Date: CAROLINA POWER & LIGHT COMPANY Calculation ID:
'17 92 E5518.134
~" ~
Date: Pg. of Rev.
2 5 0 CALCULATION SHEET TAR/PID No.: H0604 File:
Pro ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT Calculation
Title:
CVCS MINIFLOW VA. 2CS-V759SB-1 Status: Prelim. Final Void TABLE OF CONTENTS Section Title Pacae No.
List of Effective Pages Table of Contents 2 Purpose 3 IZ. List of References 3 IZI. Body of Calculation
~ 3 ZV.
~ Conclusions 4 ATTACHMENT A "CIRCUIT VOLTAGE ANALYSIS" (20 pages)
ATTACHMENT B itDZSCIPLINE DESIGN VERIFICATION RECORD ( l pages)
Date: CAROLINA POWER & LIGHT COMPANY'alculation ID:
L7 92 E5518.134 ate: Pg. of Rev.
3 5 0 CALCULATION SHEET TAR/PID No.: H0604 File:
. Pro'ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT I
i Calculation
Title:
CVCS MINIFLOW VA. 2CS-V759SB-1 I Status: Prelim. Final Void T. .~Pur ose The purpose of this calculation is to give assurance that there is sufficient power available, and that the control power transformer and control fuse are sized adequately, to operate the CVCS MINIFLOW VA. 2CS-V759SB-1.
1.0 This calculation will assure that the terminal voltage at each of the magnetic control devices will remain'ufficient to pick-up and hold-in the device under minimum voltage conditions.
2.0 This calculation will assure that the control power transformer is not overloaded during the circuits maximum steady state power draw.
3.0 This calculation will assure that the control fuse can withstand both maximum steady state current and maximum inrush current due to a SIAS under degraded bus voltage conditions.
II. List of References 1.0 Calculation E-5518.0 2.0 CAR-2166-B-401 s 319.
3.0 PCR 6547 entitled "Alternate Miniflow Redesign" III. Bod of Calculation 1.0 See attachment A.
2.0 This calculation incorporates the changes to revision 5 of the subject control wiring diagram as defined in the response to IRR-HE-624 to be implemented with PCR-6547.
3.0 Five cases were evaluated for this circuit. The first case evaluated was that of the valve in the full closed position when an "open" was initiated through the control switch at the main control board under minimum voltage conditions.
The second case evaluated was that, of the valve in the full open position when a "shut" was initiated from the control switch at the main control board under minimum voltage conditions. The third case evaluated was that of the circuit in steady state operation with the valve in mi'd-
wow+'ag 4V ~
Date: CAROLINA POWER 6 LIGHT COMPANY Calculation ZD:
17 92 E5518.134 her ~ Pg. of Rev.
sY p'c 4 5 0 CALCULATION SHEET TAR/PID No.: H0604 File:
Pro'ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT Calculation
Title:
CVCS MINIFLOW VA. -2CS-V759SB-1 Status: Prelim. Final Void stroke at maximum voltage. The open contactor was arbitrarily selected for the steady state evaluation as the circuit length and makeup are identical to the close of contactor circuit. The fourth case evaluated was that the 42-0 contactor picking up due to an SI signal coincident with high RCS pressure. The fifth case evaluated the picking up of the 42-S contactor due to an SI signal and no high RCS pressure signal.
'V. Conclusions 1.0 Worst Case Required Voltage (from attachment A):
346.61 Vac For each circuit configuration evaluated, including the worst case voltage drop loop, the required voltage at the terminals to the control power transformer did not exceed the applied voltage during a transient. (Since this circuit is fed from MCC 1B21-SB, the minimum applied voltage during a transient in accordance with reference calculation E5518.0 section III.3.6.2, is 368.0). Therefore, there will be sufficient voltage at the terminals of each of the safety related control components to assure proper operation under degraded voltage operation.
2.0 PRIMARY PRIMARY CIRCUIT CPT RATED VOLTAGE CURRENT VA VA 508.00 VAC .1706 A 86.66 VA 100 VA Based on the steady state circuit evaluation, the control power transformer is not overloaded and is properly sized.
+ > 4 ~ ~ ~ 'Date o CAROLINA'POWER & LIGHT COMPANY Calculation ID:
I 92 E5518.134 Date: Pg. of Rev.
ZP' x. 5 5 0 CALCULATION SHEET TAR/PID No.: n~604 File:
Pro'ect
Title:
AC & DC CIRCUIT LOOP ANALYSIS PROJECT Calculation
Title:
CVCS MINIFLOW VA. 2CS-V759SB-1 Status: Prelim. Final Void 3.0 Steady State Secondary Current Draw (from attachment A):
.6203 A Rated fuse ampacity: 2.0 A Based on the steady state circuit evaluation, the fuse on the secondary side of the control power transformer is properly sized for steady state operation.
Based on the SIAS evaluations, (paths 4 and 5), the circuit will have adequate voltage to satisfy the pick-up and hold-in in voltage requirements of each SIAS related component the circuit, even under degraded bus voltage conditions.
Therefore, this circuit is exempt from SEN-80 fuse sizing issues.
This print-out was run on: CALCULATION E5518. 134 ETW RK v r i n 2 A revision 0 i
'TTACHMENT effective date: 5 10 9 5:21 m Page of 20 created b CTA Inc.
CAROLINA POWER & LIGHT AC CLASS 1E CONTROL LOOP ANALYSIS SHNPP 1 CVCS MINIFLOW VA. 2CS-V759SB-1 INCORPORATING PCR-6547 CHANGES CALCULATION E5518.134
CIRCUIT VOLTAGE ANALYSIS C1RCUIT ID: CWD 319 A. PATH 1 S OURCE WN o NODES' ~ ~ ~ o ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ H1, H2 SOURCE VOLTAGE APPLIED (Va): 368. 00 VAC SOURCE VOLTAGE REQUIRED (Vr): 346.61 VAC TRANSFORMER PRIMARY CURRENT (Vsource = Va): 0.5702 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Va): 2.0735 Amps TRANSFORMER PRIMARY CURRENT (Vsource = Vr): 0.5371 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Vr): 1.9530 Amps CIRCUIT IMPEDANCE: ........(30.217 + j27.012)........... 40.531 Ohms CAUTION: Transformer May Be Overloaded. Check Manufacturer's Data.
COMPONENT VOLTAGE:
COMPONENT NODE¹1 NODE¹2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S Tl H1 H2 513 814~ 390.509 368. 000 346.613 Tl X1 X2 38.857 29.532 84.041 79.157 FU X1 MCC-1 0.550 0.000 1.140 1.074 49MR NCSW MCC-1 A 0.000 0.000 0.000 0.000 C CSTEST A MCC-2 0.000 0.000 0.000 0.000 C 74 MCC-3 X2 320.000 903.000 83.194 78.359 66 .0 E 74 NCSW MCC-1 MCC-19 Open 83.179 78.345 0 JUMPER MCC-1 MCCC-57 0.000 0.000 0.000 0.000 CR3C NOSW MCCC-57 MCCC-58 Open 2.319 2.185 JUMPER MCCC-58 MCC-23 0.000 0.000 0.000 0.000 JUMPER MCC-2 MCCC-61 0.000 0.000 0.000 0.000 CR3C NCSW MCCC-61 MCCC-62 0.000 0.000 0.000 0.000 JUMPER MCCC-62 MCC-3 0.000 0.000 0.000 0.000 CBL B-W MCC-3 MOV-10 1.184 0.000 2.319 2.185 AO1 NOSW MOV-10 MOV-36 Open 0.000 0.000 CBL B-U MOV-36 MCC-7 1.184 0.000 0.000 0.000 42S NOSW MCC-7 MCC-6 Open 81.489 76.753 CBL C-U MCC-7 MTC-48 0.520 0.000 0.000 0.000 CBL P-B MTC-48 702-3 1.567 0.000 0.000 0.000 K711 NCSW 702-3 L 0.000 0.000 0.000 0.000 C K740 NOSW L 702-4 Open 81.489 76.753 0 CBL P-W 702-4 MTC-49 1.567 0.000 0.000 0.000 JUMPER MTC-4 8 MTC-K 0.000 0.000 0.000 0.000 CBL D-OB MTC-K MCB-K 0. 613 0.000 0.000 0.000 CS319 1B MCB-K MCB-L Open 81.489 76.753 CBL D-UB MCB-L MTC-L 0.613 0.000 0.000 0.000 JUMPER MTC-L MTC-49 0.000 0.000 0.000 0.000 CBL C-WB MTC-49 MCC-6 0.520 0.000 0.000 0.000 420 NCSW MCC-6 C 0.000 0.000 0.000 0.000 C 42S C X2 72.000 318.000 0.000 0.000 D CBL B-B MCC-1 MOV-9 1.184 0.000 0.061 0.058 B03 NCSW MOV-9 MOV-18 0.000 0.000 0.000 0.000 E5518.134 (file: 319r5.ckt) Page 1
0 COMPONENT VOLTAGE:
COMPONENT NODEg1 NODE/2 RESIST REACT V (Vs=Va) V (Vs=vr) V-RQD S CBL B-G MOV-18 MCC-17 l. 184 0.000 0. 061 0.058 0.013
. CBL C-G MCC-17 MTC-43 0.520 0.000 0. 014 JUMPER MTC-43 MTC-D 0.000 0.000 0.000 0.000 CBL D-G MTC-D MCB-D 0.613 0.000 0.016 0.015 LAMP G MCB-D F 700.000 0.000 18.159 17.104 RES F MCB-A 2500.000 0.000 64.853 61.084 CBL D-B MCB-A MTC-A 0.613 0.000 0.016 0.015 JUMPER MTC-A MTC-40 0.000 0.000 0.000 0.000 CEL C-W MTC-40 MCC-10 0.520 0.000 0.013 0.013 JUMPER MCC-10 X2 0.000 0.000 0.000 0.000 RES MCC-17 D 2500.000 0.000 64.899 61.128 LAMP G D X2 700.000 0.000 18. 172 17.116 AC7 NOSW MOV-9 MOV-8 Open 83. 118 78.288 0 CBL B-R MOV-8 MCC-18 1.184 0. 000 0.000 0.000 RES MCC-18 E 2500.000 0. 000 0.011 0.011 LAMP R E X2 700.000 0.000 0.003 0.003 CBL C-R MCC-18 MTC-42 0.520 0.000 0.000 0.000 JUMPER MTC-42 MTC-C 0.000 0.000 0.000 0.000 CBL D-R MTC-C MCB-C 0.613 0.000 0.000 0.000 LAMP R MCB-C H 700.000 0.000 0.003 0.003 RES H MCB-A 2500.000 0.000 0.011 0.011 RES MCB-A G 2500.000 0.000 0.011 0.011 LAMP W G MCB-B 700.000 0.000 0.003 0.003 CBL D-W MCB-B MTC-B 0.613 0.000 0.000 0.000 JUMPER MTC-B MTC-41 0.000 0.000 0.000 0.000 CBL C-RB MTC-4 1 MCC-19 0.520 0.000 0.000 0.000 RES MCC-19 B 2500.000 0.000 0.011 0.011 LAMP W B X2 700.000 0.000 0.003 0.003 CBL B-WB MCC-23 MOV-22 1.184 0.000 0.000 0.000 TO18 NCSW MOV-10 MOV-22 0.000 0'. 000 0.000 0.000 BC5 NCSW MOV-10 MOV-22 0.000 0.000 0.000 0.000 B04 NCSW MOV-22 MOV-21 0.000 0.000 0.000 0.000 CBL B-0 MOV-21 MCC-5 1.184 0.000 2.319 2.185 CBL C-0 MCC-5 MTC-46 0.520 0.000 1.019 0.960 JUMPER MTC-46 MTC-H 0.000 0.000 0.000 0.000 CBL D-RB MTC-H MCB-H 0.613 0.000 1.201 1. 131 CS319 1A MCB-H MCB-J 0.000 0.000 0.000 0.000 CBL D-GB MCB-J MTC-J 0.613 0.000 1.201 1 ~ 131 JUMPER MTC-J MTC-47 0.000 0.000 0.000 0.000 CBL M-W MTC-47 VLS-F 0.894 0.000 1.751 1.649 329 NCSW VLS-F VLS-E 0.000 0.000 0.000 0.000 CBL M-B VLS-E MTC-74 0.894 0.000 1.751 1.649 CBL L-W MTC-74 VLS-34 0.585 0.000 1.145 1.078 330 NCSW VLS-34 VLS-33 0.000 0.000 0.000 0.000 CBL L-B VLS-33 MTC-72 0.585 0.000 1.145 1.078 JUMPER MTC-72 MTC-71 0.000 0.000 0.000 0.000 CBL K-B MTC-72 VLS-A 3.252 0.000 6.369 5.999 320 NCSW VLS-A VLS-B 0.000 0.000 0.000 0.000 CBL K-W VLS-B MTC-73 3.252 0.000 6.369 5.999 E5518.134 (file: 319r5. ckt) Page 2
.OMPONENT VOLTAGE:
OMPONENT NODEgl NODEg2 RESIST V(Vs=Va) V(Vs=Vr) V-RQD S
>UMPER MTC-73 MTC-70 0.000 0. 000 0. 000 0.000
BL J-W MTC-71 VLS-D 0.925 0. 000 0. 000 0.000
?43 NCSW VLS-D VLS-C Open 12.737 11.997 BL J-B VLS-C MTC-70 0.925 0.000 0.000 0.000 "BL H-W MTC-71 L521-34 1.042 0.000 0.000 0.000
'245 NCSW L521-34 L521-33 Open 12.737 11.997 BL H-B L521-33 MTC-70 1.042 0.000 0.000 0.000 TUMPER MTC-70 MTC-75 Oo000 0.000 0.000 0.000 "BL F-W MTC-75 702-6 1.825 0.000 0.000 0.000 (740 NOSW 702-6 K Open 0.000 0.000 0
<711 NOSW K 702-5 Open 0.000 0.000 0 BL F-B 702-5 MTC-50 1.825 0.000 0.000 0.000 JUMPER MTC-46 MTC-M 0.000 0.000 0.000 0.000 "BL D-BW MTC-M MCB-M 0.613 0.000 0.000 0.000 "S319 2A MCB-M MCB-N Open 0.000 0.000 "BL D-RW MCB-N MTC-N 0.613 0.000 0.000 0.000 O'UMPER MTC-N MTC-50 0.000 0.000 0.000 0.000 BL C-B MTC-75 MCC-4 0.520 0.000 1.019 0.960 420 NOSW MCC-4 MCC-5 Open 22.970 21 '35 0 42S NCSW MCC-4 J 0.000 0.000 0.000 0.000 C 420 J X2 17 '00 28.500'.000 65.401 61.600 61 .6 P TC17 NCSW MOV-10 MOV-36 0.000 0.000 0.000 C NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE Xl 84.041 79.157 0. 00 MCC-1 83.194 78.359 0.52 A 83.194 78.359 0.52 MCC-2 83.194 78.359 0.52 MCC-3 83.194 78.359 0.52 X2 0.000 0.000 0.00 MCC-19 0.015 0.014 0.52 MCCC-57 83.194 78.359 0.52 MCCC-58 81.489 76.753 1.62 MCC-23 81.489 76.753 1.62 MCCC-61 83 '94 78.359 0.52 MCCC-62 83.194 78 '59 0.52 NOV-10 81.489 76.753 1.62 MOV-36 81.489 76.753 1.62
'4CC-7 81.489 76.753 1.62 MCC-6 0.000 0.000 90.00
'ITC-4 8 81.489 76.753 1.62 702-3 81.489 76.753 1.62 81.489 76.753 1.62 702-4 0.000 0.000 0.00 i'ITC-4 9 0.000 0.000 0.00 MTC-K 81.489 76.753 1.62 MCB-K 81.489 76.753 1.62 MCB-L 0.000 0.000 0.00 MTC-L 0.000 0.000 90.00 C 0.000 0.000 90.00 NOV-9 83.133 78.301 0.52 MOV-18 83.133 78.301 0.52 NCC-17 83.071 78.243 0.52 MTC-43 83.058 78.231 0.52 NTC-D 83.058 78.231'1. 0.52 MCB-D 83.042 78.216 0.52 F 64.883 112 0.52 MCB-A 0.029 0.028 0.52 NTC-A 0.013 0. 013 0.52 MTC-40 0.013 0.013 0.52 MCC-10 0.000 0. 000 90.00 D 18.172 17.116 0.52 MOV-8 0.015 0. 014 0.52 MCC-18 0.015 0. 01.4 0.52 0.003 0.003 0.52 MTC-42 0.015 0. 014 0.52 E5518.134 (file: 319r5. ckt) page 3
NODE VOLTAGE:
NODE ID V (Vs=Va) V (Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE MTC-C 0. 015 0.014 0 ~ 52 MCB-C 0.015 0. 014 0. 52 H 0. 018 0.017 0. 52 G 0.018 0.017 0.52 MCB-B 0. 015 0.014 0.52 MTC-B 0.015 0.014 0.52 MTC-41 0. 015 0.014 0.52 B 0.003 0.003 0.52 MOV-22 81.489 76.753 1.62 MOV-21 81.489 76.753 1.62
'CC-5 79.815 75.177 2.76 MTC-46 79.090 74.493 3.27 MTC-H MCB-J 79.090 78.243 74.493 73.696 3 '7 3.90 MCB-H MTC-J 78.243 77.406 73.696 72.908 3.90 4.53 MT~-47 77.406 72.908 4.53 VLS-F 76.204 71.775 5.48 VLS-E 76.204 71.775 5.48 MTC-74 75.023 70.663 6.46 VLS-34 74.263 69.947 7. 12 VLS-33 74.263 69.947 7.12 MTC-72 73.513 69.241 7.79 MTC-71 73.513 69.241 7.79 VLS-A 69.537 65.496 11.77 VLS-B 69.537 65.496 11.77 MTC-73 65.938 62.106 16.22 MTC-70 65.938 62.106 16.22 VLS-D 73.513 69.241 7.79 VLS-C 65.938 62.106 16.22 L521-34 73.513 69.241 7.79 L521-33 65.938 62.106 16.22 MTC-75 65 '38 62.106 16.22 702-6 65.938 62.106 16.22 K 0. 000 0.000 0.00 702-5 0.000 0.000 0.00 MTC-50 0. 000 0.000 0.00 MTC-M 79.090 74.493 3.27 MCB-M 79.090 74.493 3.27 MCB-N 0.000 0.000 0.00 MTC-N 0.000 0.000 0.00 MCC-4 65.401 61.600 16.98 65 '01 61.600 16.98 B. PATH 2 SOURCE NODES ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ H1, H2 SOURCE VOLTAGE APPLIED (Va): 368.00 VAC SOURCE VOLTAGE REQUIRED (Vr): 298.21 VAC TRANSFORMER PRIMARY CURRENT (Vsource = Va): 0.6570 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Va): 2.3892 Amps TRANSFORMER PRIMARY CURRENT (Vsource = Vr): 0.5324 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Vr): 1.9361 Amps CIRCUIT IMPEDANCE: ........(21.703 + j27.035). 34.668 Ohms CAUTION: Transformer May Be Overloaded. Check Manufacturer's Data.
COMPONENT VOLTAGE:
COMPONENT NODEg1 NODEg2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S Tl Tl FU CSTEST 74 74 NCSW JUMPER
'l X1 X1 49MR NCSW MCC-1 A
MCC-3 MCC-1 MCC-1 H2 X2 MCC-1 A
MCC-2 X2 MCC-19 MCCC-57 401.227 30.343 0.550 0.000 0.000 320.000 Open 0.000 390.808 29.555 0.000 0.000 0.000 903.000 0.000 368.000 82.829 1.314 0.000 0.000 82.013 81.998 0.000 298.207 67.120 1.065 0.000 0.000 66.459 66.447 0.000 66.0 C
C E
0 E5518.134 (file: 319r5. ckt) Page 4
COMPONENT VOLTAGE:
COMPONENT NODE/1 NODE/2 RESIST REACT V (Vs=Va) V (Vs=Vr) V-RQD S CR3C NOSW MCCC-57 MCCC-58 Open 2. 696 2.185 JUMPER MCCC-58 MCC-23 0.000 0. 000 0.000 0.000 JUMPER MCC-2 MCCC-61 0. 00.0 0.000 0.000 0.000 CR3C NCSW MCCC-61 MCCC-62 0.000 0.000 0.000 0.000 JUMPER MCCC-62 MCC-3 0.000 0.000 0.000 0.000 CBL B-W MCC-3 MOV-10 1.184 0.000 2.696 2.185 AO1 NOSW MOV-10 MOV-36 0.000 0.000 0.000 0.000 CBL B-U MOV-36 MCC-7 1.184 0.000 2.696 2.185 42S NOSW MCC-7 MCC-6 Open 5.162 4.183 CBL C-U MCC-7 MTC-48 0.520 0.000 1.185 0.960 CBL P-B MTC-48 702-3 1.567 0.000 0.000 0.000 K711 NCSW 702-3 L 0.000 0.000 0.000 0.000 K740 NOSW L 702-4 Open 2.793 2.263 0 CBL P-W 702-4 MTC-49 1.567 0.000 0.000 0.000 JUMPER MTC-48 MTC-K 0.000 0.000 0.000 0.000 CBL D-OB MTC-K MCB-K 0.613 0.000 1.396 1 '31 CS319 1B MCB-K MCB-L 0.000 0.000 0.000 0.000 CBL D-UB MCB-L MTC-L 0.613 0.000 1.396 1~ 131 JUMPER MTC-L MTC-49 0.000 0.000 0.000 0.000 CBL C-WB MTC-49 MCC-6 0.520 0.000 1.185 0.960 420 NCSW MCC-6 C 0.000 0.000 0.000 0.000 42S C X2 17.400 28.500 76.017 61.600 61.6 P CBL B-B MCC-1 MOV-9 1.184 0.000 0.061 0.049 BO3 NCSW MOV-9 MOV-18 Open 81.938 66.398 CBL B-G MOV-18 MCC-17 1.184 0.000 0.000 0.000 CBL C-G MCC-17 MTC-43 0.520 0.000 0.000 0.000 JUMPER MTC-43 MTC-D 0.000 0.000 0.000 0.000 CBL D-G MTC-D MCB-D 0.613 0.000 0.000 0.000 LAMP G MCB-D F 700.000 0.000 0.003 0.003 RES F MCB-A 2500.000 0.000 0.011 0.009 CBL D-B MCB-A MTC-A 0.613 0.000 0.016 0.013 JUMPER MTC-A MTC-40 0.000 0.000 0.000 0.000 CBL C-W MTC-40 MCC-10 0.520 0.000 0.013 0.011 JUMPER MCC-10 X2 0.000 0.000 0.000 0.000 RES MCC-17 D 2500.000 0.000 0.011 0.009 LAMP G D X2 700.000 .0. 000 0.003 0.003 AC7 NOSW MOV-9 MOV-8 0.000 0.000 0.000 0.000 CBL B-R MOV-8 MCC-18 1.184 0.000 0.061 0.049 RES MCC-18 E 2500.000 0.000 63.978 51.844 LAMP R E X2 700.000 0.000 17.914 14.516 CBL C-R MCC-18 MTC-42 0.520 0.000 0.013 0.011 JUMPER MTC-42 MTC-C 0.000 0.000 0.000 0.000 CBL D-R MTC-C MCB-C 0.613 0.000 0.016 0.013 LAMP R MCB-C H 700.000 0.000 17.901 14.506 RES H MCB-A 2500.000 0.000 63.932 51.807 RES MCB-A G 2500.000 0.000 0.011 0.009 LAMP W G MCB-B 700.000 0.000 0.003 0.003 CBL D-W MCB-B MTC-B 0.613 0.000 0.000 0.000 JUMPER MTC-B MTC-41 0.000 0.000 0.000 0.000 E5518.134 (file: 319r5. ckt) Page 5
COMPONENT VOLTAGE:
COMPONENT NODE/1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S CBL C-RB MTC-41 MCC-19 0.520 0.000 0.000 0.000 RES MCC-19 B 2500.000 0.000 0.011 0.009 LAMP W B X2 700.000 0.000 0.003 0.003 CBL B-WB MCC-23 MOV-22 1. 184 0.000 0.000 0.000 TO18 NCSW MOV-10 MOV-22 0.000 0.000 0.000 0.000 C BC5 NCSW MOV-10 MOV-22 Open 0.000 0.000 0 B04 NCSW MOV-22 MOV-21 Open 0.000 0 000 0 CBL B-0 MOV-21 MCC-5 1.184 0.000 0.000 0.000 CBC C-0 MCC-5 MTC-46 0.520 0.000 0.000 0.000 JUMPER MTC-46 MTC-H 0.000 0.000 0.000 0.000 CBL D-RB MTC-H MCB-H 0.613 0.000 0.000 0.000 CS319 1A MCB-H MCB-J Open 0.000 0.000 CBL D-GB MCB-J MTC-J 0.613 0.000 0.000 0.000 JUMPER MTC-J MTC-47 0.000 0.000 0.000 0.000 CBL M-W MTC-47 VLS-F 0.894 0.000 0.000 0.000 329 NCSW VLS-F VLS-E Open 0.000 0.000 CBL M-B VLS-E MTC-74 0.894 0.000 0.000 0.000 CBL L-W MTC-74 VLS-34 0.585 0.000 0.000 0.000 330 NCSW VLS-34 VLS-33 Open 0.000 0.000 CBL L-B VLS-33 MTC-72 0.585 0.000 0.000 0.000 JUMPER MTC-72 MTC-71 0.000 0.000 0.000 0.000 CBL K-B MTC-72 VLS-A 3.252 0.000 0.000 0.000 320 NCSW VLS-A VLS-B Open 0.000 0.000 CBL K-W VLS-B MTC-73 3.252 0.000 0.000 0.000 JUMPER MTC-73 MTC-70 0.000 0.000 0.000 0.000 CBL J-W MTC-71 VLS-D 0.925 0.000 0.000 0.000 243 NCSW VLS-D VLS-C'TC-70 Open 0.000 0.000 CBL J-B VLS-C 0.925 0.000 0.000 0.000 CBL H-W MTC-71 L521-34 1.042 0.000 0.000 0.000 245 NCSW L521-34 L521-33 Open 0.000 0.000 CBL H-B L521-33 MTC-70 1.042 0.000 0.000 0.000 JUMPER MTC-70 MTC-75 0.000 0.000 0.000 0.000 CBL F-W MTC-75 702-6 1.825 0.000 0.000 0.000 K740 NOSW 702-6 K Open 0.000 0.000 0 K711 NOSW K 702-5 Open 0.000 0.000 0 CBL F-B 702-5 MTC-50 1.825 0.000 0.000 0.000 JUMPER MTC-46 MTC-M 0.000 0.000 0.000 0.000 CBL D-BW MTC-M MCB-M 0.613 0.000 0.000 0.000 CS319 2A MCB-M MCB-N Open 0.000 0.000 CBL D-RW MCB-N MTC-N 0.613 0.000 0.000 0.000 JUMPER MTC-N MTC-50 0.000 0.000 0.000 0.000 CBL C-B MTC-75 MCC-4 0.520 0.000 0.000 0.000 420 NOSW MCC-4 MCC-5 Open 0.000 0.000 0 42S NCSW MCC-4 J 0.000 0.000 0.000 0.000 C 420 J X2 72.000 318.000 0.000 0.000 D TC17 NCSW MOV-10 MOV-36 0.000 0.000 0.000 0.000 C E5518.134 (file: 319r5. ckt) Page 6
NODE VOLTAGE:
NODE'D V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs Va) V(Vs Vr) ANGLE X1 82.829 67.120 0.00 MCC-1 82.013 66.459 0.72 A 82.013 66.459 0 '2
'2 MCC-2 82.013 0.000 66.459 0.000 0.72 0.00 MCC-3 82.013 66.459 0 X2 MCC-19 0.014 0.012 0.72 MCCC-57 82.013 66.459 0.72 MCCC-58 80.392 65.145 2.24 MCC-23 80.392 65.145 2.24 MCCC-61 82 '13 66.459 0.72 MCCC-62 82.013 66.459 0.72 MOV-10 80.392 65. 145 2.24 MOV-36 80.392 65.145 2.24 MCC-7 78.830 63.880 3.82 MCC-6 76.017 61.600 7.02 M'li"-48 78.163 63.339 4.53 702-3 78.163 63.339 4. 53 L 78.163 63.339 4.53 702-4 76. 641 62.106 6. 27'.53 MTC-49 76.641 62.106 6.27 MTC-K 78 163
~ 63.339 MCB-K 77.393 62.715 5.39 MCB-L 77.393 62.715 5.39 MTC-L 76. 641 62.106 6.27 C 76.017 61.600 7.02 MOV-9 81.952 66.410 0.72 MOV-18 0.014 0.012 0.72 MCC-17 0.014 0.012 0.72 MTC-43 0 '14 0.012 0.72 MTC-D 0.014 0.012 0.72 MCB-D 0.014 0.012 0.72 F 0.018 0.014 0.72 MCB-A 0.029 0.023 0.72 MTC-A 0.013 0.011 0.72 MTC-40 0.013 0.011 0.72 MCC-10 0.000 0.000 90.00 D 0.003 0.003 0.72 MOV-8 81.952 66.410 0.72 MCC-18 81.891 66.360 0.72 E 17.914 14.516 0.72 MTC-42 81.878 66.350 0.72 MTC-C 81.878 66.350 0.72 MCB-C 81.862 66.337 0.72 H 63.961 51.831 0.72 G 0.018 0.014 0.72 MCB-B 0.014 0.012 0.72 MTC-B 0.014 0.012 0.72 MTC-41 0.014 0.012 0.72 B 0.003 0.003 0.72 MOV-22 80.392 65.145 2.24 MOV-21 0.000 0.000 0.00 MCC-5 0.000 0.000 0.00 MTC-46 0.000 0.000 0.00 MTC-H 0.000 0.000 0.00 MCB-H 0.000 0.000 0.00 MCB-J ,0. 000 0.000 0.00 MTC-J 0.000 0.000 0.00 MTC-47 0.000 0.000 0.00 VLS-F 0.000 0.000 0.00 VLS-E 0.000 0.000 0.00 MTC-74 0.000 0.000 0.00 VLS-34 0.000 0.000 0.00 VLS-33 0.000 0.000 0.00 MTC-72 0.000 0.000 .0.00 MTC-71 0.000 0.000 0.00 VLS-A 0.000 0.000 0.00 VLS-B 0.000 0.000 0.00 MTC-73 0.000 0.000 90.00 MTC-70 0.000 0.000 0.00 VLS-D 0.000 0.000 0.00 VLS-C 0.000 0.000 0.00 L521-34 0.000 0.000 0.00 L521-33 0.000 0.000 0.00 MTC-75 0.000 0.000 0.00 702-6 0.000 0.000 0.00 K 0.000 0.000 0.00 702-5 0.000 0.000 0.00 MTC-50 0.000 0.000 0.00 MTC-M 0.000 0.000 0.00 MCB-M 0.000 0.000 0.00 MCB-N 0.000 0.000 0. 00 MTC-N 0.000 0.000 0.00 MCC-4 0.000 0.000 90. 00 J. 0.000 0.000 90.00 E5518.134 (file: 319r5.ckt) Page
PATH 3 SOURCE NODES: ............................o..
SOURCE VOLTAGE APPLIED (Va):
Hl, H2 508.00 VAC SOURCE VOLTAGE REQUIRED (Vr): 247.56 VAC TRANSFORMER PRIMARY CURRENT (Vsource = Va): ~ ~ ~ 0.1706 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Va): 0 '203 Amps TRANSFORMER PRIMARY CURRENT (Vsource = Vr): 0.0831 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Vr): 0.3023 Amps CIRCUIT IMPEDANCE: ........ (109. 82 + j 189. 01) 218.60 Ohms CCHPONENT VOLTAGE:
COMPONENT NODE/1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S Tl Hl H2 1566.401 2532.594 508.000 247.564 E Tl Xl X2 118.459 191.527 135 '03 66.083 E FU Xl MCC-1 0.550 0.000 0.341 0.166 49MR NCSW MCC-1 A 0.000 0.000 0.000 0.000 C CSTEST A MCC-2 0.000 0.000 0.000 0.000 C 74 MCC-3 X2 320.000 903.000 135.432 66.000 66. 0 E 74 NCSW MCC-1 MCC-19 Open 135.384 65.977 0 JUMPER MCC-1 MCCC-57 0.000 0.000 0.000 0.000 CR3C NOSW MCCC-57 MCCC-58 Open 0.491 0.239 JUMPER MCCC-58 MCC-23 0.000 0.000 0.000 0.000 JUMPER MCC-2 MCCC-61 0.000 0.000 0.000 0.000 CR3C NCSW MCCC-61 MCCC-62 0.000 0.000 0.000 0.000 JUMPER MCCC-62 MCC-3 0.000 0.000 0.000 0.000 CBL B-W MCC-3 MOV-10 1.184 0.000 0.491 0.239 AO1 NOSH MOV-10 MOV-36 Open 0.000 0.000 CBL B-U MOV-36 MCC-7 1.184 0.000 0.000 0.000 42S NOSW MCC-7 MCC-6 Open 0.000 0.000 CBL C-U MCC-7 MTC-48 0.520 0.000 0.000 0.000 CBL P-B MTC-48 702-3 1.567 0.000 0.000 0.000 K711 NCSW 702-3 L 0.000 0.000 0.000 0.000 K740 NOSW L 702-4 Open 0.000 0.000 CBL P-W 702-4 MTC-49 1.567 0.000 0.000 0.000 JUMPER MTC-48 MTC-K 0.000 0.000 0.000 0.000 CBL D-OB MTC-K MCB-K 0.613 0.000 0.000 0.000 CS319 1B MCB-K MCB-L Open 0.000 0.000 CBL D-UB MCB-L MTC-L 0.613 0.000 0.000 0.000 JUMPER MTC-L MTC-49 0.000 0.000 0.000 0.000 CBL C-WB MTC-49 MCC-6 0.520 0.000 0.000 0.000 420 NCSW MCC-6 C Open 0.000 0.000 0 42S C X2 72.000 318. 000 0.000 0.000 D CBL B-B MCC-1 MOV-9 1.184 0. 000 0.200 0.097 B03 NCSW MOV-9 MOV-18 0.000 0. 000 0.000 0.000 CBL B-G MOV-18 MCC-17 1.184 0. 000 0.100 0.049 CBL C-G MCC-17 MTC-43 0.520 0. 000 0.022 0.011 JUMPER MTC-43 MTC-D 0.000 0. 000 0.000 0.000 CBL D-G MTC-D MCB-D 0.613 0.'00 0.026 0.013
~ LAMP G E5518.134 MCB-D (file:
F 319r5.ckt:)
700.000 0. 000 29.529 14.390 Page 8
COMPONENT VOLTAGE:
COMPONENT NODEg1 NODEg2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S RES F MCB-A 2500.000 0.000 105 460
~ 51. 394 CBL D-B MCB-A MTC-A 0.613 0.000 0. 052 0.025 JUMPER MTC-A MTC-40 0.000 0.000 0. 000 0.000 CBL C-W MTC-40 MCC-10 0.520 0.000 0. 044 0.021 JUMPER MCC-10 X2 0.000 0.000 0.000 0.000 RES MCC-17 D 2500.000 0.000 105.572 51.448 LAMP G D X2 700.000 0.000 29.560 14. 406 AC7 NOSW MOV-9 MOV-8 0.000 0.000 0.000 0.000 CBL B-R MOV-8 MCC-18 1.184 0.000 0.100 0.049 RES MCC-18 E 2500.000 0.000 105.572 51.448 LAMP R E X2 700.000 0.000 29.560 14 '06 CBL C-R MCC-18 MTC-4 2 0.520 0.000 0.022 0.011 JUMPER MTC-42 MTC-C 0.000 0.000 0.000 0.000 CBL D-R MTC-C MCB-C 0. 613 0.000 0.026" 0.013 LAMP R MCB-C H 700.000 0.000 29.529 14.390 RES H MCB-A 2500.000 0.000 105. 460 . 51.394 RES MCB-A G 2500.000 0.000 0.037 0'. 018 LAMP W G MCB-B 700.000 0.000 0.010 0.005 CBL D-W MCB-B MTC-B 0.613 0.000 0.000 0.000 JUMPER MTC-B MTC-41 0.000 0.000 0.000 -0. 000 CBL C-RB MTC-41 MCC-19 0.520 0.000 0.000 0. 000 RES MCC-19 B 2500.000 0.000 0.037 0. 018 LAMP W B X2 700.000 0.000 0.010 0.005 CBL B-WB MCC-23 MOV-22 1.184 0.000 0.000 0.000 T018 NCSW MOV-10 MOV-22 0.000 0.000 0.000 0. 000 BC5 NCSW MOV-10 MOV-.22 Open 0.000 0.000 B04 NCSW MOV-22 MOV-21 0.000 0.000 0.000 0.000 CBL B-0 MOV-21 MCC-5 1.184 0.000 0.491 0 '39 CBL C-0 MCC-5 MTC-46 0.520 0.000 0.000 0.000 JUMPER MTC-46 MTC-H 0.000 0.000 0.000 0.000 CBL D-RB MTC-H MCB-H 0.613 0.000 0.000 0.000 CS319 lA MCB-H MCB-J Open 0.000 0.000 CBL D-GB MCB-J MTC-J 0.613 0.000 0.000 0.000 JUMPER MTC-J MTC-47 0.000 0.000 0.000 0.000 CBL M-W MTC-47 VLS-F 0.894 0.000 0.000 0.000 329 NCSW VLS-F VLS-E 0.000 0.000 0.000 0.000 CBL M-B VLS-E MTC-74 0.894 0.000 0.000 0.000 CBL L-W MTC-74 VLS-34 0.585 0.000 0.000 0.000 330 NCSW VLS-34 VLS-33 0.000 0.000 0.000 0.000 CBL L-B VLS-33 MTC-72 0.585 0.000 0.000 0.000 JUMPER MTC-72 MTC-71 0.000 0.000 0.000 0.000 CBL K-B MTC-72 VLS-A 3.252 0.000 0.000 0.000 320 NCSW VLS-A VLS-B 0.000 0.000 0.000 0.000 CBL K-W VLS-B MTC-73 3.252 0.000 0.000 0.000 JUMPER MTC-73 MTC-70 0.000 0.000 0.000 0.000 CBL J-W MTC-71 VLS-D 0.925 0.000 0.000 0.000 243 NCSW VLS-D VLS-C Open 0. 000 0.000 CBL J-B VLS-C MTC-70 0.925 0.000 0. 000 0.000 CBL H-W MTC-71 L521-34 1.042 0." 000 0.000 0.000 E5518.134 (file: 319r5.ckt) Page 9
COMPONENT VOLTAGE:
COMPONENT NODE/1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S 245 NCSW L521-34 L521-33 Open 0.000 0. 000 CBL H-B L521-33 MTC-70 1.042 0.000 0.000 0.000 JUMPER MTC-70 MTC-75 0.000 0.000 0.000 0.000 CBL F-W MTC-75 702-6 1.825 0.000 0. 000 0.000 K740 NOSW 702-6 K Open 0. 000 0.000 K711 NOSW K 702-5 Open 0.000 0.000 CBL F-B 702-5 MTC-50 1.825 0.000 0.000 0.000 JUMPER MTC-4 6 MTC-M 0.000 0.000 0.000 0.000 CEm D-BW MTC-M MCB-M 0.613 0.000 0.000 0.000 CS319 2A MCB-M MCB-N 0.000 0.000 0.000 0.000 CBL D-RW MCB-N MTC-N 0.613 0.000 0.000 0.000 JUMPER MTC-N MTC-50 0.000 0.000 0.000 0.000 CBL C-B MTC-75 MCC-4 0.520 0.000 0.000 0.000 420 NOSW MCC-4 MCC-5 0.000 0.000 0.000 0.000 42S NCSW MCC-4 J 0.000 0.000 0.000 0.000 420 J X2 72.000 318.000 135.211 65.893 47.3 TC17 NCSW MOV-10 MOV-3 6 0.000 0.000 0.000 0.000 NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE X1 135.603 66.083 0. 00 MCC-1 135.432 66.000 0. 12 A 135.432 66.000 0. 12 MCC-2 135.432 66.000 0. 12 MCC-3 135.432 66.000 0. 12 X2 0.000 0.000 0. 00 MCC-19 0.048 0.023 0. 12 MCCC-57 135.432 66.000 0. 12 MCCC-58 135.321 65.946 0.33 MCC-23 135.321 65.946 0.33 MCCC-61 135.432 66.000 0.12 MCCC-62 135.432 66.000 0.12 MOV-10 135. 321 65.946 0.33 MOV-36 135.321 65.946 0.33 MCC-7 135. 321 65.946 0.33 MCC-6 0.000 0.000 0.00 MTC-48 135. 321 65.946 0.33 702-3 135.321 65.946 0.33 L 135.321 65.946 0.33 702-4 0.000 0.000 0.00 MTC-49 0.000 0.000 0.00 MTC-K 135.321 65.946 0.33 MCB-K 135.321 65.946 0.33 MCB-L 0.000 0.000 0. 00 MTC-L 0.000 0.000 0.00 C 0.000 0.000 0.00 MOV-9 135.232 65.903 0.12 MOV-18 135.232 65.903 0.12 MCC-17 135.132 65.854 0.12 MTC-43 135.110 65.843 0.12 MTC-D 135.110 65.843 0.12 MCB-D 135 '84 65.831 0.12 F 105.555 51.440 0.12 MCB-A 0.096 0.047 0.12 MTC-A 0.044 0.021 0.12 MTC-40 0.044 0.021 0.12 MCC-10 0.000 0.000 90.00 D 29.560 14.406 0.12 MOV-8 135.232 65.903 0.12 MCC-18 135.132 65.854 0.12 E 29.560 14.406 0.12 MTC-42 135.110 65.843 0.12 MTC-C 135.110 65.843 0.12 MCB-C 135.084 65.831 0.12 H 105.555 51.440 0.12 G 0.058 0.028 0.12 MCB-B 0.048 0.023 0.12 MTC-B 0.048 0.023 0.12 MTC-41 0.048 0.023 0.12 B 0.010 0.005 0.12 MOV-22 135.321 65.946 0.33 MOV-21 135.321 65.946 0.33 E5518.134 (file: 319r5. ckt) page 10
NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE MCC-5 135. 211 65.893 0.53 MTC-4 6 135 211
~ 65.893 0. 53 MTC-H 135 211
~ 65.893 0.53 MCB-H 135 211
~ 65.893 0. 53 MCB-J 135'11 65.893 0.53 MTC-J 135.211 65.893 0. 53 MTC-47 135-211 65.893 0.53 VLS-F 135.211 65.893 0. 53 VLS-E 135 211 65.893 0.53 MTC-74 135.211 65.893 0.53 VLS-34 135-211 65.893 0.53 VLS-33 135.211 65.893 0.53 MTC-72 135 211
~ 65.893 0.53 MTC-71 135 '11 65.893 0.53 VLS-A 135. 211 65.893 0.53 VLS-B 135.211 65.893 0.53 MTC-73 135 211
~ 65.893 0.53 MTC-70 135.211 65.893 0.53 VLS-D 135. 211 65.893 0.53 VLS-C 135.211 65.893 0.53 L521-34 135.211 65.893 0.53 L521-33 135.211 65.893 0.53 MTC-75 135. 211 65.893 0.53 702-6 135. 211 65.893 0.53 K 0.000 0.000 0.00 702-5 135 211
~ 65.893 0.53 MTC-50 135.211 65.893 0 ..53 MTC-M 135.211 65.893 0.53 MCB-M 135.211 65.893 0.53 MCB-N 135 '11 65.893 0.53 MTC-N 135.211 65.893 0.53 MCC-4 135.211 65.893 0.53 J 135.211 65.893 0.53 D. PATH 4 SOURCE NODESe ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ Hl, H2 SOURCE VOLTAGE APPLIED (Va): 368.00 VAC SOURCE VOLTAGE REQUIRED (Vr): 316.22 VAC TRANSFORMER PRIMARY CURRENT (Vsource = Va): 0.6217 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Va): 2.2607 Amps TRANSFORMER PRIMARY CURRENT (Vsource = Vr): 0.5342 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Vr): 1.9426 Amps CIRCUIT IMPEDANCE: ........(25.006 + j27.008) 36.807 Ohms CAUTION: Transformer May Be Overloaded. Check Manufacturer's Data.
COMPONENT VOLTAGE:
COMPONENT NODEgl NODEg2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S Tl Hl H2 44 4.908 390.456 368.000 316.223 Tl Xl X2 3 3.646 29.528 83.208 71.501 FU Xl MCC-1 0.550 0.000 1.243 1.068 49MR NCSW MCC-1 A 0.000 0.000 0.000 0.000 C CSTEST A MCC-2 0.000 0.000 0.000 0.000 C 74 MCC-3 X2 32 0.000 903.000 82.368 70.779 66 .0 E 74 NCSW MCC-1 MCC-19 Open 82.354 70.767 0 JUMPER MCC-1 MCCC-57 0.000 0.000 0.000 0.000 CR3C NOSW MCCC-57 MCCC-58 Open 2.542 2.185 JUMPER MCCC-58 MCC-23 0.000 0:000 0.000 0.000 JUMPER MCC-2 MCCC-61 0.000 0.000 0.000 0.000 CR3C NCSW MCCC-61 MCCC-62 0.000 0.000 0.000 0.000 JUMPER MCCC-62 MCC-3 0.000 0.000 0.000 0.000 E5518.134 (file: 319r5.ckt) Page ll
COMPONENT VOLTAGE:
COMPONENT NODEP1 NODEg2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S CBL B-W MCC-3 MOV-10 1. 184 0.000 2.542 2. 185
~ A01 NOSW MOV-10 MOV-36 Open 0.000 0. 000 CBL B-U MOV-36 MCC-7 1.184 0.000 0.000 0. 000 42S NOSW MCC-7 MCC-6 Open 80.688 69.335 CBL C-U MCC-7 MTC-48 0.520 0. 000 0.000 0.000 CBL P-B MTC-48 702-3 1.567 0.000 0.000 0.000 K711 NCSW 702-3 L Open 0.000 0.000 K740 NOSW L 702-4 Open 0.000 0.000 CBL P-W 702-4 MTC-49 1.567 0.000 0.000 0.000 JUMPER MTC-48 MTC-K 0.000 0.000 0.000 0.000 CBL D-OB MTC-K MCB-K 0.613 0.000 0.000 0.000 CS319 1B MCB-K MCB-L Open 80.688 69.335 CBL D-UB MCB-L MTC-L 0.613 0.000 0.000 0.000 JUMPER MTC-L MTC-49 0.000 0.000 0.000 0.000 CBL C-WB MTC-49 MCC-6 0.520 0.000 0.000 0.000 420 NCSW MCC-6 C 0.000 0.000 0.000 0.000 42S C X2 72.000 318.000 0.000 0.000 CBL B-B MCC-1 MOV-9 1.184 0. 000 0.061 0.052 BO3 NCSW MOV-9 MOV-18 0.000 0. 000 0.000 0.000 CBL B-G MOV-18 MCC-17 1. 184 0. 000 0.061 0.052 CBL C-G MCC-17 MTC-43 0.520 0.000 0.013 0.011 JUMPER MTC-43 MTC-D 0.000 0.000 0.000 0.000 CBL D-G MTC-D MCB-D 0.613 0.000 0.016 0.014 LAMP G MCB-D F 700.000 0.000 17.979 15.449 RES F MCB-A 2500.000 0.000 64.209 55.175 CBL D-B MCB-A MTC-A 0.613 0.000 0.016 0.014 JUMPER MTC-A MTC-40 0.000 0.000 0.000 0.000 CBL C-W MTC-40 MCC-10 0.520 0.000 0.013 0.011 JUMPER MCC-10 X2 0.000 0.000 0.000 0.000 RES MCC-17 D 2500.000 0.000 64.255 55.214 LAMP G D X2 700.000 0.000 17.991 15.460 AC7 NOSW MOV-9 MOV-8 Open 82.293 70.714 CBL B-R MOV-8 MCC-18 1.184 0.000 0.000 0.000 RES MCC-18 E 2500.000 0.000 0.011 0.010 LAMP R E X2 700.000 0.000 0.003 0.003 CBL C-R MCC-18 MTC-42 0.520 0.000 0.000 0.000 JUMPER MTC-42 MTC-C 0.000 0.000 0.000 0.000 CBL D-R MTC-C MCB-C 0.613 0.000 0.000 0.000 LAMP R MCB-C H 700.000 0.000 0.003 0.003 RES H MCB-A 2500.000 0.000 0.011 0.010 RES MCB-A G 2500.000 0.000 0.011 0.010 LAMP W G MCB-B 700.000 0.000 0.003 0.003 CBL D-W MCB-B MTC-B 0. 613 0.000 0.000 0.000 JUMPER MTC-B MTC-41 0. 000 0.000 0.000 0.000 CBL C-RB MTC-41 MCC-19 0.520 0.000 0.000 0.000 RES MCC-19 B 2500.000 0.000 0.011 0.010 LAMP W B X2 700.000 0.000 0.003 0.003 CBL B-WB MCC-23 MOV-22 1.184 0.000 0.000 0.000 TO18 NCSW MOV-10 MOV-22 0.000 0.000 0.000 0.000 E5518. 134 (file: 319r5. ckt) Page 12
COMPONENT VOLTAGE:
COMPONENT NODE/i NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S BCS NCSW MOV-10 MOV-22 0.000 0.000 0.000 0.000 B04 NCSW MOV-22 MOV-21 0.000 0.000 0.000 0.000 CBL B-0 MOV-21 MCC-5 1.184 0.000 2.542 2.185 CBL C-0 MCC-5 MTC-46 0.520 0.000 1.117 0. 960 JUMPER MTC-46 MTC-H 0.000 0.000 0.000 0. 000 CBL D-RB MTC-H MCB-H 0.613 0.000 0.000 0.000 CS319 1A MCB-H MCB-J Open 0.000 0.000 CBL D-GB MCB-J MTC-J 0.613 0.000 0.000 0.000 JLAPER MTC-J MTC-47 0.000 0.000 0.000 0.000 CBL M-W MTC-47 VLS-F 0.894 0.000 0.000 0.000 329 NCSW VLS-F VLS-E Open 0.000 0>>000 CBL M-B VLS-E MTC-74 0.894 0.000 0.000 0.000 CBL L-,W MTC-74 VLS-34 0.585 0.000 0.000 0.000 330 NCSW VLS-34 VLS-33 Open 0.000 0.000 CBL L-B VLS-33 MTC-72 0.585 0.000 0.000 0.000 JUMPER MTC-72 MTC-71 0.000 0.000 0.000 0.000 CBL K-B MTC-72 VLS-A 3.252 0.000 0.000 0.000 320 NCSW VLS-A VLS-B Open 0.000 0.000 CBL K-W VLS-B MTC-73 3.252 0.000 0.000 0.000 JUMPER MTC-73 MTC-70 0.000 0.000 0.000 0.000 CBL J-W MTC-71 VLS-D 0.925 0.000 0.000 0.000 243 NCSW VLS-D VLS-C Open 0.000 0.000 CBL J-B VLS-C MTC-70 0.925 0.000 0.000 0.000 CBL H-W MTC-71 L521-34 1.042 0.000 0.000 0.000 245 NCSW L521-34 L521-33 Open 0.000 0.000 CBL H-B L521-33 MTC-70 1.042 0.000 0.000 0.000 JUMPER MTC-70 MTC-75 0.000 0.000 0.000 0.000 CBL F-W MTC-75 702-6 1.825 0.000 3.919 3.367 K740 NOSW 702-6 K 0.000 0.000 0.000 0.000 K711 NOSW K 702-5 0.000 0.000 0.000 0.000 CBL F-B 702-5 MTC-50 1.825 0.000 3.919 3.367 JUMPER MTC-4 6 MTC-M 0.000 0.000 0.000 0. 000 CBL D-BW MTC-M MCB-M 0.613 0.000 1. 317 >>
1~ 131 CS319 2A MCB-M MCB-N 0.000 0.000 0. 000 0. 000 CBL D-RW MCB-N MTC-N 0.613 0.000 1. 317 l. 131 JUMPER MTC-N MTC-50 0.000 0.000 0.000 0.000 CBL C-B MTC-75 MCC-4 0.520 0.000 1.117 0.960 420 NOSW MCC-4 MCC-5 Open 12.706 10.918 0 42S NCSW MCC-4 J 0.000 0.000 0.000 0.000 C 420 J X2 17.400 28.500 71.686 61.600 61 .6 P TC17 NCSW MOV-10 MOV-36 0.000 0.000 0.000 0.000 C NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE 83.208 71.501 0.00 MCC-1 82.368 70.779 0.63 82.368 70. 779 0. 63 MCC-2 82.368 70.779 0.63 E5518.134 (file: 319r5>> ckt) Page 13
NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE .
MCC-3 82.368 70.779 0. 63 X2 0.000 0.000 0. 00 MCC-19 0.015 0.013 0.63 MCCC-57 82.368 70.779 0.63 MCCC-58 80.688 69.335 1.98 MCC-23 80.688 69.335 1.98 MCCC-61 82.368 70.779 0.63 MCCC-62 82.368 70.779 0.63 MOV-10 80.688 69.335 1.98 MOV-36 80.688 69.335 1.98 MCC-7 80.688 69.335 1.98 MCC-6 0.000 0.000 90.00 MTC-48 80.688 69.335 1.98 702-3 80.688 69.335 1. 98 L 0.000 0.000 0. 00 702-4 0.000 0.000 0. 00 MT -49 0.000 0.000 0. 00 MTC-K 80.688 69.335 1.98 MCB-K 80.688 69.335 1. 98 MCB-L 0.000 0.000 0.00 MTC-L 0.000 0.000 90. 00 C 0.000'2.307 0.000 90.00 MOV-9 82.307 70.727 0.63 MOV-18 70.727 0.63 MCC-17 82.246 70.674 0.63 MTC-43 82.233 70.663 0.63 MTC-D 82.233 70.663 0.63 MCB-D 82.217 70. 649 0.63 F 64.239 55.200 0.63 MCB-A 0.029 0.025 0.63 MTC-A 0.013 0.011 0.63 MTC-40 0.013 0.011 0.63 MCC-10 0.000 0.000 90.00 D 17.991 '15 '60 0.63 MOV-8 0.015 0.013 0.63 MCC-18 0.015 0.013 0.63 E 0.003 0.003 0.63 MTC-42 0.015 0.013 .0.63 MTC-C 0.015 0.013 0.63 MCB-C 0.015 0.013 0.63 H 0.018 0.015 0.63 G 0.018 0.015 0.63 MCB-B ~
0. 015 0.013 0.63 MTC-B 0.015 0.013 0.63 MTC-41 0 015 0.013 0.63 B 0.003 0.003 0.63 MOV-22
~
80.688 69.335 1.98 MOV-21 80.688, 78.351 69.335 67.328 1 '8 4.01 MCC-5 79.054 67.931 3.37 MTC-46 MTC-H 78.351 67.328 4.01 MCB-H 78.351 67.328 4.01 MCB-J 0.000 0.000 0.00 MTC-J 0.000 0.000 0.00 MTC-47 0.000 0.000 0.00 VLS-F 0.000 0.000 0.00 VLS-E 0.000 0.000 0.00 MTC-74 0.000 0.000 0.00 VLS-34 0.000 0.000 0.00 VLS-33 0.000 0.000 0.00 MTC-72 0.000 0.000 0.00 MTC-71 0.000 0.000 0.'0 VLS-A 0.000 0.000 0.00 VLS-B 72.275 62.106 10. 50 MTC-73 72.275 62.106 10.50 MTC-70 72.275 62.106 10.50 VLS-D 0.000 0.000 0.00 VLS-C 72.275 62.106 10.50 L521-34 0.000 0.000 0.00 L521-33 72.275 62.106 10.50 MTC-75 72.275 62.106 10.50 702-6 74.435 63.962 7.95 K 74.435 63.962 7.95 702-5 74.435 63.962 7.95 MTC-50 76.734 65.938 5.54 MTC-M 78.351 67.328 4.01 MCB-M 77.536 66.627 4.77 MCB-N 77.536 66.627 4.77 MTC-N 76.734 65.938 5.54 MCC-4 71.686 61.600 11.26 J 71 686
~ 61.600 11.26 E5518.134 ( file: 319r5. ckt) Page 14
E. PATH 5 SOURCE NODES: H1, H2 SOURCE VOLTAGE APPLIED (Va): 368.00 VAC SOURCE VOLTAGE REQUIRED (Vr): 307.51 VAC TRANSFORMER PRIMARY CURRENT (Vsource = Va): 0.6383 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Va): 2.3210 Amps TRANSFORMER PRIMARY CURRENT (Vsource = Vr): 0.5334 Amps TRANSFORMER SECONDARY CURRENT (Vsource = Vr): 1.9395 Amps CIRCUIT IMPEDANCE: ........(23.432 + j27.018). 35.764 Ohms CAUTION: Transformer May Be Overloaded. Check Manufacturer's Data.
COMPONENT VOLTAGE:
COMPONENT NODE/1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S Tl H1 H2 424.094 390.586 368.000 307 '06 E Tl X1 X2 32.072 29.538 83.008 69.362 E FU X1 MCC-1 0.550 0.000 1.277 1.067 49MR NCSW MCC-1 A 0.000 0.000 0.000 0.000 C CSTEST A MCC-2 0.000 0.000 0.000 0.000 C 74 MCC-3 X2 320.000 903.000 82.177 68.668 66 .0 E 74 NCSW MCC-1 MCC-19 Open 82.162 68.656 0 JUMPER MCC-1 MCCC-57 0.000 0.000 0.000 0.000 CR3C NOSW MCCC-57 MCCC-58 Open 2.614 2.185 JUMPER MCCC-58 MCC-23 0.000 0.000 0.000 0.000 JUMPER MCC-2 MCCC-61 0.000 0.000 0.000 0.000 CR3C NCSW MCCC-61 MCCC-62 0.000 0.000 0.000 0.000 JUMPER MCCC-62 MCC-3 0.000 0.000 0.000 0.000 CBL B-W MCC-3 MOV-10 1.184 0.000 2.614 2.185 A01 NOSW MOV-10 MOV-36 0.000 0.000 0.000 0.000 CBL B-U MOV-36 MCC-7 1.184 0.000 2.614 2.185 42S NOSW MCC-7 MCC-6 Open 9.219 7 '03 CBL C-U MCC-7 MTC-48 0.520 0.000 1.149 0.960 CBL P-B MTC-48 702-3 1.567 0.000 3.460 2.892 K711 NCSW 702-3 L 0.000 0.000 0.000 0.000 C K740 NOSW L 702-4 0.000 0.000 0.000 0.000 C CBL P-W 702-4 MTC-49 1.567 0.000 3.460 2.892 JUMPER MTC-48 MTC-K 0.000 0.000 0.000 0.000 CBL D-OB MTC-K MCB-K 0.613 0.000 0.000 0.000 CS319 1B MCB-K MCB-L Open 6.921 5.783 CBL D-UB MCB-L MTC-L 0.613 0. 000 0.000 0.000 JUMPER MTC-L MTC-49 0.000 0. 000 0.000 0.000 CBL C-WB MTC-49 MCC-6 0.520 0. 000 1.149 0.960 420 NCSW MCC-6 C 0.000 0.000 0.000 0.000 C 42S C X2 17.400 28.500 73.718 61.600 61 .6 P CBL B-B MCC-1 MOV-9 1.184 0.000 0.061 0.051 BO3 NCSW MOV-9 MOV-18 Open 82.102 68.605 CBL B-G MOV-18 MCC-17 1.184 0.000 0.000 0.000 CBL C-G MCC-17 MTC-43 0.520 0.000 0.000 0.000 JUMPER MTC-43 MTC-D 0.000 0.000 0.000 0.000 CBL D-G MTC-D MCB-D 0.613 0.000 0.000 0.000 E5518. 134 ( file: 319r5. ckt) page 15
COMPONENT VOLTAGE:
COMPONENT NODEP1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S LAMP G MCB-D F 700.000 0.000 0. 003 0.003 RES F MCB-A 2500.000 0.000 0. 011 0.009 CBL D-B MCB-A MTC-A 0.613 0 F 000 0.016 0.013 JUMPER MTC-A MTC-40 0.000 0.000 0.000 0.000 CBL C-W MTC-40 MCC-10 0.520 0.000 0. 013 0.011 JUMPER MCC-10 X2 0.000 0.000 0. 000 0.000 RES MCC-17 D 2500.000 0.000 0.011 0.009 LAMP G D X2 700.000 0.000 0.003 0.003 AC7 NOSW MOV-9 MOV-8 0.000 0.000 0.000 0.000 CBL B-R MOV-8 MCC-18 1.184 0.000 0.061 0.051 RES MCC-18 E 2500.000 0.000 64.106 53.568 LAMP R E X2 700.000 0.000 17.950 14.999 CBL C-R MCC-18 MTC-42 0.520 0.000 0.013 0.011 JUMPER MTC-42 MTC-C 0.000 0.000 0.000 0.000 CBL D-R MTC-C MCB-C 0 '13 0.000 0.016 0.013 LAMP R MCB-C H 700.000 0.000 17.937 14.988 RES H MCB-A 2500.000 0.000 64.060 53.530 RES MCB-A G 2500'.000 0.000 0.011 0.009 LAMP W G MCB-B 700.000 0.000 0.003 0.003 CBL D-W MCB-B MTC-B 0.613 0.000 0.000 0.000 JUMPER MTC-B MTC-41 0.000 0.000 0.000 0.000 CBL C-RB MTC-41 MCC-19 0.520 0.000 0.000 0.000 RES MCC-19 B 2500.000 0.000 0 ~ 011 0.009 LAMP W B X2 700.000 0.000 0.003 0.003 CBL B-WB MCC-23 MOV-22 1.184 0.000 0.000 0.000 TO18 NCSW MOV-10 MOV-22 0.000 0.000 0.000 0.000 C BC5 NCSW MOV-10 MOV-22 Open 0.000 0.000 0 B04 NCSW MOV-22 MOV-21 Open 0.000 0.000 0 CBL B-0 MOV-21 MCC-5 1.184 0. 000 0.000 0.000 CBL C-0 MCC-5 MTC-46 0.520 0.000 0.000 0.000 JUMPER MTC-46 MTC-H 0.000 0.000 0.000 0.000 CBL D-RB MTC-H MCB-H 0.613 0.000 0.000 0.000 CS319 1A MCB-H MCB-J Open 0.000 0.000 0 CBL D-GB MCB-J MTC-J 0.613 0.000 0.000 0.000 JUMPER MTC-J MTC-47 0.000 0.000 0.000 0.000 CBL M-W MTC-47 VLS-F 0.894 0.000 0.000 0.000 329 NCSW VLS-F VLS-E Open 0.000 0.000 CBL M-B VLS-E MTC-74 0.894 0.000 0.000 0.000 CBL L-W MTC-74 VLS-34 0.585 0.000 0.000 0.000 330 NCSW VLS-34 VLS-33 Open 0.000 0.000 CBL L-B VLS-33 MTC-72 0.585 0.000 0.000 0.000 JUMPER MTC-72 MTC-71 0.000 0.000 0.000 0.000 CBL K-B MTC-72 VLS-A 3.252 0.000 0.000 0.000 320 NCSW VLS-A VLS-B Open 0.000 0.000 CBL K-W VLS-B MTC-73 3.252 0.000 0.000 0.000 JUMPER MTC-73 MTC-70 0.000 0.000 0.000 0.000 CBL J-W MTC-71 VLS-D 0.925 0.000 0.000 0.000 243 NCSW VLS-D VLS-C Open 0.000 0.000 CBL J-B VLS-C MTC-70 0.925 0.000 0.000 0.000 E5518.134 (file: 319r5.ckt) Page 16
COMPONENT VOLTAGE:
COMPONENT NODEg1 NODE/2 RESIST REACT V(Vs=Va) V(Vs=Vr) V-RQD S CBL H-W MTC-7 1 L521-34 1.042 0.000 0. 000 0.000 245 NCSW L521-34 L521-33 Open 0.000 0.000 CBL H-B L521-33 MTC-70 1.042 0.000 0.000 0.000 JUMPER MTC-70 MTC-75 0.000 0.000 0.000 0.000 CBL F-W MTC-75 702-6 1.825 0.000 0.000 0.000 K740 NOSW 702-6 K Open 0.000 0.000 0 K711 NOSW K 702-5 Open 0.000 0.000 0 CBL F-B 702-5 MTC-50 1.825 0.000 0.000 0.000 JUMPER MTC-4 6 MTC-M 0.000 0.000 0.000 0.000 CBL D-BW MTC-M MCB-M 0.613 0.000 0.000 0.000 CS319 2A MCB-M MCB-N Open 0.000 0.000 CBL D-RW MCB-N MTC-N 0.613 0.000 0.000 0.000 JUMPER MTC-N MTC-50 0.000 0.000 0.000 0.000 CBL C-B MTC-75 MCC-4 0.520 0.000 0.000 0.000 420 NOSW MCC-4 MCC-5 Open 0.000 0.000 0 42S NCSW MCC-4 J 0.000 0.000 0.000 0.000 C 420 J X2 72.000 318.000 0.000 0.000 D TC17 NCSW MOV-10 MOV-36 0.000 0.000 0.000 0.000 C NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE X1 83.008 69.362 0.00 MCC-1 82.177 68.668 0. 67 A 82.177 68.668 0.67 MCC-2 82.177 68.668 0. 67 MCC-3 82.177 68.668 0.67 X2 0.000 0.000 0.00 MCC-19 0.015 0.012 0.67 MCCC-57 82.177 68.668 0.67 MCCC-58 80.520 67.284 2.10 MCC-23 80.520 67.284 2.10 MCCC-61 82.177 68.668 0. 67 MCCC-62 82.177 68.668 0.67 MOV-10 80.520 67.284 2.10 MOV-36 80.520 67.284 2.10 MCC-7 78.915 65.943 3.58 MCC-6 73.718 61.600 9.30 MTC-48 78.227 65.368 4.25 702-3 76.222 63.692 6.34 L 76.222 63.692 6.34 702-4 76.222 63.692 6.34 MTC-49 74.323 62.106 8.55 MTC-K 78.227 65.368 4.25 MCB-K 78.227 65.368 4.25 MCB-L 74.323 62.106 8.55 MTC-L 74.323 62.106 8.55 C '73.718 61.600 9.30 MOV-9 82.116 68.618 0.67 MOV-18 0.015 0.012 0.67 MCC-17 MTC-D 0.015 0.015 0.012 0.012 0 '7 0.67 MTC-43 MCB-D 0.015 0.015 0.012 0.012 0.67 0.67 F 0.018 0.015 0.67 MCB-A 0.029 0.024 0.67 MTC-A 0.013 0.011 0.67 MTC-40 0.013 0.011 0.67 MCC-10 0.000 0.000 90.00 D 0.003 0.003 0.67 MOV-8 82.116 68.618 0.67 MCC-18 82.055 68.567 0.67 E 17.950 14.999 0.67 MTC-42 82.042 68.556 0.67 MTC-C 82.042 68.556 0 ..67 MCB-C 82.026 68.543 0.67 H 64.090 53.554 0.67 G 0.018 0.015 0. 67 MCB-B 0.015 0.012 0.67 MTC-B 0.015 0.012 0. 67 MTC-41 0. 015 0.012 0.67 B 0.003 0.003 0. 67 E5518. 134 (file: 319r5.ckt) Page 17
NODE VOLTAGE:
NODE ID V(Vs=Va) V(Vs=Vr) ANGLE NODE ID V(Vs=Va) V(Vs=Vr) ANGLE MOV-22 80.520 67.284 2.10 MOV-21 0. 000 0. 000 0. 00 MCC-5 0.000 0.000 0.00 MTC-46 0. 000 0. 000 0. 00 MTC-H 0.000 0.000 0.00 MCB-H 0. 000 0. 000 0. 00 MCB-J 0.000 0.000 0.00 MTC-J 0.000 0.000 0.00 MTC-47 0.000 0.000 0.00 VLS-F 0.000 0.000 0.00 VLS-E 0.000 0.000 0.00 MTC-74 0.000 0.000 0.00 VLS-34 0.000 0.000 0.00 VLS-33 0.000 0.000 0.00 MTC-72 0.000 0. 000 0.00 MTC-71 0.000 0.000 0. 00 VLG-A 0.000 0. 000 0.00 VLS-B 0.000 0.000 0. 00 MTC-73 0.000 0.000 90.00 MTC-70 0.000 0.000 0.00 VLS-D 0.000 0.000 0.00 VLS-C 0.000 0.000 0.00 L521-34 0.000 0.000 0.00 L521-33 0.000 0.000 0.00 MTC-75 0.000 0.000 0.00 702-6 0.000 0.000 0.00 K 0.000 0.000 0.00 702-5 0.000 0.000 0.00 MTC-50 0.000 0.000 0.00 MTC-M 0.000 0.000 0.00 MCB-M 0.000 0.000 0.00 MCB-N 0.000 0.000 0.00 MTC-N 0.000 0.000 0.00 MCC-4 0.000 0.000 90.00 J 0.000 0.000 90.00 DEVICE DESCRIPTION:
Switches: 49MR N CSWg CSTESTg 74 NCSW~ CR3C NOSWg CR3C NCSWg AO1 NOSW 42S NOSWg K711 NCSWg K740 NOSWg CS319 1Bg 420 NCSW~ BO3 NCSW AC7 NOSW g TO 1 8 NCSW g BC5 NCSWg B04 NCSWg CS3 1 9 1Ag 3 29 NCSW 330 NCSW~ 320 NCSW~ 243 NCSWg 245 NCSW~ K740 NOSWg K7 1 1 NOSW CS3 19 2Ag 420 NOSWp 42S NCSWg TC17 NCSW Cables: CBL B-W 12 Awg 628 Ft 5Q C R=1.1842 X=0.0000 CBL B-U 12 Awg 628 Ft T- 500C R=1.1842 X=0.0000 CBL C-U 12 Awg 276 Ft T= 500C R=0.5205 X=0.0000 CBL P-B 16 Awg 322 Ft T- 5Q C R=1.5674 X=0.0000 CBL P-W 16 Awg 322 Ft 500C R=1.5674 X=0.0000 CBL D-OB ~
16 Awg 126 Ft 5Q C R=0.6133 X=0.0000 CBL D-UB 16 Awg 126 Ft OoC R=0.6133 X=0.0000 CBL C-WB 12 Awg 276 Ft T= 5Q C R=0.5205 X=0.0000 CBL B-B 12 Awg 628 Ft T= 5Q C R=1.1842 X=0.0000 CBL B-G 12 Awg 628 Ft T= 50 C R=l.1842 X=0.0000 CBL C-G 12 Awg 276 Ft T= 500C R=0.5205 X=0.0000 CBL D-G 16 Awg 126 Ft 50 C R=0.6133 X=0.0000 CBL D-B 16 Awg 126 Ft 5Q C R=0.6133 X=0.0000 CBL C-W 12 Awg 276 Ft 50 C R=0.5205 X=0.0000 CBL B-R 12 Awg 628 Ft 500C R=1.1842 X=0.0000 CBL C-R 12 Awg 276 Ft T= QoC R=0.5205 X=0.0000 CBL D-R 16 Awg 126 Ft T= 500C R=0.6133 X=0.0000 CBL D-W 16 Awg 126 Ft T= 500C R=0.6133 X=0.0000 CBL C-RB 12 Awg 276 Ft T= 500C R=0.5205 X=0.0000 CBL B-WB 12 Awg 628 Ft 500C R=1.1842 X=0.0000 E5518.134 (file: 319r5. ckt) Page 18
I DEVICE DESCRIPTION (Cont'd):
Cables: CBL B-0 12 Awg 628 Ft 500C R=1.1842 X=0.0000 CBL C-0 12 Awg 276 Ft 500C R=0.5205 X=0.0000 CBL D-RB 16 Awg 126 Ft 500C R=0.6133 X=0.0000 CBL D-GB 16 Awg 126 Ft 50'C R=0.6133 X=0.0000 CBL M-W 12 Awg 474 Ft 500C R=0.8938 X=0.0000 CBL M-B 12 Awg 474 Ft 500C R=0.8938 X=0.0000 CBL L-W 12 Awg 310 Ft T- 50 C R=0.5846 X=0.0000 CBL L-B 12 Awg 310 Ft T= OoC R=0.5846 X=0.0000 CBL K-B 16 Awg 668 Ft T- 500C R=3.2517 X=0.0000 CBL K-W 16 Awg 668 Ft T= 500C R=3.2517 X=0.0000 CBL J-W 16 Awg 190 Ft T- OoC R=0.9249 X=0.0000 CBL J-B 16 Awg 190 Ft T= 50]OC R=0.9249 X=0.0000 CBL H-W 16 Awg 214 Ft T= 50 C R=1.0417 X=0.0000 CBL H-B 16 Awg 214 Ft T= 500C R=1.0417 X=0.0000 CBL F-W 16 Awg 375 Ft T= 500C R=1.8254 X=0.0000 CBL F-B 16 Awg 375 Ft T= 500C R=1.8254 X=0.0000 CBL D-BW 16 Awg 126 Ft T= 50OC R=0.6133 X=0.0000 CBL D-RW 16 Awg 126 Ft T= 500C R=0.6133 X=0.0000 CBL C-B 12 Awg 276 Ft T= 500C R=0.5205 X=0.0000 Relays: 74 GOULD Jlo RI=90.30 XI=86.50. Vpu=102.0 RH=320.0 XH=903.0 Vdo=66.00 Contactors: 42S GOULD A20-SIZE 1 RI=17.40 XI=28.50 Vpu=61.60 RH=72.00 XH=318.0 Vdo=47.30 420 GOULD A20-SIZE 1 RI=17.40 XI=28.50 Vpu=61.60 RH=72.00 XH=318.0 Vdo=47.30 Transfrmer: Tl GOULD SIZE 1 100 VA R=6.04'80-120 Volts X=1. 754 Comp=10%
E5518.134 (file: 319r5.ckt) Page 19
4r o crt~ Tro MQp~gp
(
DISCIPLINE DESICN VERZPICATION RECORD P Page 1 (natrta-timm to Verif(caticn personnel Plant S HA) ig O <Class A)
Project 6; c l 887 P.- HE. - <o ) Se(5'!c <Class 6)
File No. Level ( ) FP.O <Class D)
Docunent No. E55i8- i5 Rev CP ( J Other Design verification should be done in accordance arith ANSl N45.2.ll, Section &, as anenoed by Regulatory Guide l.&4, Rev. 2.
Special instructions:
Discipline Project Engineer l I. Verificaticn Ooctaaentation Applicability Disci line Disci line Hechanical () Civil Structural ()
XVAC () Seismic Equip. Qual. ( J Electrical pc) Civil Stress ( )
ISC Fire Protection ( J Enviroreental qualification ( J Xnan Factors ()
Haterials ()
()
Other ( J Verification Hethods Used:
Dp Design Reviee ( J Alternate Calculations ( ) Oualification testing Design Oocunent Acc table: Tes Oc) No ( J
~ c ts attached.
Design Verifier Date Z+'" Z Acknowledgement of
<DPE) Date ill. Resolution of C~st Ccaments Resolved <See Attached).
<RE) Date Action taken nekes Design Docuaents Acceptable:
Design Verifier Date
<DPE) Date NED Proceaure 3.3/Rev. :D
C5 SIISO SSEISC IC PLI ll0 lg(r ril L r .
~
44-t)74,$ R2)5 I 1$ 46RSIS I 194<HO92SI+5 7l I VRC ill L (1$
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$ PRSKS RCIISRS SO RORSIL P-58 F-58 X ~IICTOOSI 0 N-58 D $4 ~ ~$ SRLST
~ RIC 4159) 0 RH. 5 (1161 IOOS SILT) ISCUILVcOR I
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~6 St 5I ~ I LI Gls u rOM6 ITT0 51$
SS 14 Sl O'r r
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IQI OSR I~ STIR OK I IRI~ I IIR 10 LR (IR1 I LJ'80V
~!sIC.COI 5 1
~R MCC, ~ 14M SO ~LTCRS II CAPT II>PC 9/
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VA.L<SRI 5rf, ICS ' 1$ 1$ 4 I (I. OC09 Q) fo( sc PI Po 6 PIO 'O 9 le I, K7'IO CLO OI (cSr) 2.CONTACT CLOSSSON NIGST RC5 PRESSURE.
CSASCXI 4RSSVSCRR QSOOSSRCRIATRD 11 L PROff550tRL fROtg(RI OVrcl IV L LI SHIIT 5R PAI 6 sr 6 lo R 4-
'I<SO Oeo 8 CAROLINA POWER 4 LIGHT COMPANY
~~
$ IORR IOR VSLVL $ROT CPeueennXO aaRCR ~ RCV 99 NUCLEAR ENGINEERING DEPARTMENT Wt<&L PIAIII Rrscls Rvclfrc Pcoccl ~ll I 5CNf.
Rllf.
~
CVCS MIN(FLOW VALVE RCVISICSI fOR 2CS-V)S9c& - I r-o 7 PCR 6511 IR OV flail ow: Ro 2)GG-T)-<<I.>>9 UNIT I RIV ~ cil -.R sIOO fffUkORC~K. P Pr 'Allfl<SRI
Page 1 DISCIPLINE TECHNICAL REVIEW of the COMPLETED DESIGN PACKAGE Plant Q (Class A)
Project ("SZP /IOE>.~ieE. Aidi r-f.cd Q [ ) Sexism>c (Class B)
File Ho. R &.w- P- 4 ~ 'f 7 Level [ ) FP-Q (Class 0)
Oocuaent Ho. R -459 7 Rev Q [ ] Other Initial 'each Discipline or Area of expertise addressed by this Discipline Technical Review of the Coayieted Design Package and forward completed sheet to the Lead Engineer. Related discipline reviews may be cabined on one sheet.
Applicable i Appl cable Disci line Yes Ho Initial Disci line Yes Ho Initial Hechanical [) [) Civil Structural [) [)
HVAC [) Seismic Equip. Qual. [) [)
Electrical h%~ Civil Stress [) [)
INC [) [) Fire Protection [)
Envlrom>>ntal Qualification [) [)
Ha@an Factors [) [)
Haterials [] [)
Other (1 ()
Hark each item yes, no, or not applicable and initial each item checked by you.
1. Have design docunents or input from your discipline been properly interpreted and/or incorporated by other discipline? 'fi=& j
2. Does the coapleted design package indicate that the transfer of design information within your discipline has been accurate, ccep[ete and proper?
3. Are the installation instructions consistent with the intent of design docunents or input from your discipline? I
4. Are the installation instructions within the completed design package adequate and correct?
5. Are procedures in place to cover installation if step by step instructions I
were not provided?
6. Are supporting disciplines or areas of expertise appropriately marked above?
7. Is there consistency between drawings?
Indicate additional reviews required. x//+
For each question on the check list not answered yes, explain on page 2. If 'Hot Applicable,'ive re Initial those disciplines reviewed.
Cong[etc Design Package P Discipline Tech Reviewer Date Acknowledgem VICE ~
D.te Resolution of Comments:
Ccoments Resolved (See Attached):
(RE) Date Action taken makes Design Documents Acceptable:
Discipline Tech Reviewer Date (DPE) Date HED Procedure 3.3/Rev. 50
Page 2 DISCIPLINE TECHNICAL aZVZZV COMMENT SHEET Plant Project Q QJ.p A( li KAJ47E /lf,~,
File No.
Document No. PC(2 Q5 9 7 This sheet is onl re uired ~hen comments are bein made.
Comment Accept Resolved No. Y/N Comment Resolution Inxtxal/Date i /
RED Procedure 3.3/Rev. 50
09/28/92 13:27 ~919 548 T854 CPEcL hED @]003/008
~-ab 1992 11 25 FRCPl bib SySteNYX'SWP CFNM f44 HED P. 82 AH543-1
.~IS%7 Page 1 of 10CFR50, APPENDIX R LONG TERM COMPLIANCE PLANT DESIGN CHANGE REVIEW
SUMMARY
, FORM DOCENT TYPE; DOCtNENT TZTZE:
DOCUHENT NO.:
WPF+
P 7 e
~~Z- /
REVZSZON:
~~~/
-O STATUS- ~ PRKLXNXNARY APPROVED FOR CONSTRUCTXON OPRRATXONAL CLOSED OUT RESPONSIBLE ORGANIZATION: ~SPA RESPONSZBLE ENGINEER:
REVIEWER. ZZTZZ: a/A~~
SAFE SHt7TDOWH CAPABZZ ZTY EPACT RKVZEW 1.0 Does design change affect safe-shutdown
~ (ssD) flov diagrams or components? les QQ No Q Does design change affect performance recpzirement of a safe-shutdown function? Yes + No Does design change affect pre- or post fire rackout or manual operation of safe-shutdovn components? Yes +,No 1.3 Does design change delete SSD components'P Yes + No +
1-4 Does design change add nev manual SSD components? Yes + No +
1.5 Does design change add or revise SSD components? Yes + No@
1~6 Does design change affect associated circuits? Yes + No Does design change affect plant radio communications? Yes + No gf 1~B Does design change reguire an Appendix R documentation change? (Are related plant design documents/PsAR not XDFd by designer, impacted? if so list:
Yog, + No
08/28/82 18:
5N'-28 1992 28 11:25 FRL'm ~
~818 548 7854 Systems &g~P CPEcL NED R TO CPSL HNP HH)
@oo4/oo8 P.85 AH543-L
.gyp- 4~7 Page 2 of 2.0 FZRE PROTECTZON IMPACT REVZEW 2
2 ~ 1.1 Does design change affect a vates suppression system? Yes + No 2.1 ~ 2 Does design change affect a gaseous suppression system? Yes + No 2 2 Ct o ct 2 2.1 Does design change affect fire detection system components? Yes ~ No 2.2.2 Does design change affect structural/air flov features that may deflect boat/smoke flow away from detectors? Yes ~ No EI 2~3~1 ie ~ ~ ~~~~~~~A~ ~~ ~~
g~zaes emu-~ paCI~~W Does'esign change roquire breaching 4~
ISA&
sM or modifying any fire barriers? (Yes Qg No +
2i4 P 2 ~ 4-X Does the design add non-ZKEE cables? Yei Q No gf 2 '.2 Does design change affect flame impingement shields, curbs, dQCes, or drains? Yes + No gf 2.5 c 2.5 I Does design change introduce nav or remove combustible .material or equipment containing comlsustiblo lubricants? Yas P No 2+6 c 2.6.1 Does design change affect ex'isting emergency lighting. or establish tho need for nev emergency lighting? Yes Q No gQ
09/28/82 15:28 819 545 7854 CP&L NED QI005/oos SEP-28-1S92 11-25 FRY NJS +st<<:ms Eng-App R TO CPM HNP NED P. S4 2%7 AH543-1 Doc No.
Pape 3 of ~
- 0 4 7 2.7 ~ l Does des1gn change affect plant accessibility for fire fighting efforts or post-fira shutdown operations (including building access:
location of sails, doors, changing of door status from normally unlocked to normally locked; and .ventilation air flo~s- impact on fire-fighting accost)? Yes + No QQ 2'
2.8 1 Does design change affoct the location or type of manual fire suppression equipment? Yes + So gQ 3' DISPOSITION Modificat'ion impacts Appendix R compliance as presently designed: recommended redesign, and/or compensatory measures to establish Appendix R complianco are documented an the attached Afreet(s) .
Modification has no impact on Appendix R compliance as presently designed; no operational impact on any safo shutdown related systems, components, or functions. Ho@aver changes to Appendix R separation analysis documentation are required.
Modification has no effect on Appendix R compliance: no modification redesign or Appendix R compliance documontation update is re<<xuired.
HARK APE%ICABLE, BOX c EI ADDITIONAL COK99ITS ATTACHED Yes Q NO Revievez ..z j 9/24' Date 7 z-'7 Appendix 8 ompliance Lead Engineer Dat
08/28/82 13:28 &818 545 7854 CPScL ScP-29-1992 11-26 f.HCPl HJ5 Systems Eng~p R NED COL HV ~ Qoo5/oo8 P.aS page 4 of 5 MTACENEHT 1 TO SEVXE% SU)999tY FOBÃ FOR ?CR-6S4'f g EXES RRVTSZOH 0 ocume V S PCR-6547 proposes the replacement of safety ingection alternate mini-flow relief valves 2CS-R557SH-1 and 2CS-RSS8SH-1 with restrictive orifices and strainers, upstream of mini-flow isolation valves 2cS-V757-SA and, 2CS-V759-SB. Xn addition, the operating logic of the mini-flow isolation valves is modified such that the valves vill open on "high" RCS pressure signal to provide sufficient flow .to prevent pump damage, and wil1 close on "low" Rcs pressure signal to ensure maximum injection flow.
The replacement/modification to the above safety infection alternate mini-flow valves has no adverse impact on the post-fire operability of the CVCS or SX systems, Since these valves are not credited for achieving and maintaining post-fixe safe shutdown.
consequently, the post fire safe shutdown capability is not impacted by the modification.
Eodifications to tho control logic of valves PCS-V757-SA and 2CS-v759-SB requiro routing of new cables and rerouting of existing cables, thus resulting in the introduction of combustible loading (in the form of cable insulation) to. the Reactor Auxiliary Building. However, since the addeck combustible materials have been enveloped by the worst-case cable tray loading assessment reflected in the combustible 1oading figures shown in the BHP Fire Hazards Analysis, there is no increase in the combustible loading/fire severity in the affected fire areas.
The new cable routings also require breaching of fire barriers.
The impact, if any, on this passive fire protection feature shall be assessed by the NED SSD Unit.
Based on the above, it is concluded that PCR-6547 has no impact cn 10CPRSO, Appendix R, long-term compliance.
09/28/'92 13:30 iSSZ Xi'-ZS
~9/9 F~ ~
545 $ 554 CPEcL NED
~stems Eng~p R TO COL HHP NED
@oorroos P.86 Page 5 of' 2LTTACEHEHT 2 To REVIEW SUE9fARY FORE FCa MR-ISW7, TIES REVISXOÃ 0 Do V No Appendix R compliance documentation update is re~ired.
(F.XNlREVjfNPCR.6547i fRO)
08I28/92 19:90 &818 545 7854 CPS(L NED QOOSroos Page I i)XSCI].LIHZ TZCH)fICAZ. REVQN of the COMPLETED DESIGN PACKAGE Plant [~ ]
(Class A)
Seismic (Class 8)
Project 4 C Filo Now Level C ] FP 4 (CLass 0)
Doc(z(ent Noe C ) Other Initial ecch Oisciplfne or Area of expertise addressed by this Discipline Technical Revfcw of the Co((plcted Design package and forward c(Npleted sheet to the Lead Engineer Related dfscfplfne reviews s(ey be co(((bfned on one sheet.
Applfcablc Appl feeble Y No Ini fa Oi c Line yes No Initial QechanI ca l C) (I civf L structuraL (I ( I NVAC C) (I geist(fc Equip, gust C) C)
E l ectri col C) C) Civil Stress C)
ICC C) (I Fire Protection L' Envir(wx(ental Ouali ffeat ion (I Hu(on Factors (I Nsteri a la ( I ( I Other C) C)
)lark each I tom yes, no, or not sppLfcsble and initial each item checked by you.
1. Hove desfgn docuosnts or input from your discfplfne been properly interpreted and/or iraorporscod by other disofpifne2 Does the cccpletcd design psckogc indicate that the transfer of design inforlotfon wf thfn your discfpLfne has been accurate, coaplctc snd prcpcr2
3. Aro the Installation instructfons consistent with the fntcnt of desfgn docu(sents or fnput fr(xs your dlscfplfnel Are the installation fnstructians within the co((plcted design package adequate and correct2
5. are procedures fn place to cover installation if step by step fnstrunfons vere not provided?
6. Are supportfng dfsciplines ar areas of expertise ngprcprfately s(arkcd abave2
7. Is there consistency between drawings)
Indicate additional revieus required.
For each question on the check list not answered yes, expLain on page Z. If Not App licsble, Dive reason. InftsaL thoso disciplfnec reviewed.
Col(plots oes'Ign pKksge OiscfpLfnc Tech RevfcMes
]~ L( +v >~ ~ r ~ - ~ts attached Date Acknowl-"-
(OPE)
Resolution of Cosuents:
Coanents Resolved (see Attached):
(RE) Date Action taken (sakes Design Docuscnts Acceptaole:
OiscfpLfnc 'Tech Rcvfcver (DPE) Date Proc. 3.3 Rev. 40
0)/28r92 13:2T ~919 546 TS54 CP&,L NED @002/005 CAROL12GL POWER fc LIGHT COMP~ FORM 3(CON'T)
MUCI RLR PL2LlPV [ ] BNP UNIT lRDQLER PROOZCT NUNBER MOQIFICATION NUBBER MQDIPICMION [X] HNP ~p-6547 PCR-6547 TRAVELER(CO%'T) ] RNP DESIOM ORGANIRKTIOS XSTRKQGLL APPROVALS Signaturee below indicate that the appropriate areas of concern for the listed disciplin~/specialty group have boon aatisfactorily incorporated into the above document.
irei line A 1 cable ot icable Si a u te
[X)
[X)
ZtkC [X]
CIVIL/STRUCTURAL [ ) [X]
SKZSHZC [X]
[X]
APPENDIX R [X) ~ QP ENVIRONKENTJLL QUAL. [ ] [X)
HUMAN FACTORS [X)
NPMP - REV. 4
/ '
gg
%.' 4
)g'F(ZEZ)D) f PNPgfPHX ON TBAVELER MQD
+gg TZTLE DESCRIPTION ON 3
"':4 i
P+," .f" I
[fg) HNP
[ ] RNP
/ /2/2al8
~
[ ] BNP UNZT NQ ~
gf- rA cO MODIFICATION NO.
Pc/-d5 < 7
)/'I S f gP U lO CJ gP gr)
FIELD REVISION NO.
r - O'OMS PRELIMZMLRY APP EUDVMH Preliminary Approval Requested per Exhibit J ? Yes [ ] No [W DESIGN ORGANIZATION REVIEWS/APPROVALS (Required Bef ore: )
P RELL(. F INAL NQT APPRQVAI APPROVAL RE P D REVIEW COMPLETED DATE
[]
~
[H ENGZNEER
] DESZGN VER.
] [~] T CH REVIEW
[1 QA This Field Revision does not affect the Sa fety Analysis or Unzeviewed
. Safety Question Determination.
1st SAFETY 2nd SAFETY The Safety Evaluation for this moclification was revised. See Des'gn Package Revision for Safety Review signatures.
This FR requires changes to the Design Package.
PLANT REVIEWS/APPROVALS (Required Be ore: f )
PRELL(. FINAL NOT APPROVAL APPROVAL RE P D REVIEW COMPLETED DATE
[ ] [H g)$ 1FIRE PROT.
[ ] [)r] E)HRC
[ ] M ISZ
[ ]
[ ]
[
[W f MAZNT.-MECH.
MAZNT. -ELEC.
~fgffgfgg &+<gI')0P.HHHTP0NHfHP
[ ] M PNSC
] [ ] SECURITY
[ ] SYSTEM ENG.
[ ] [4 TRAINING/SZM.
Kl [ ] 6THER~<d~iog/ ~/' l~ 1z.
[X] REVIEW COORD.
APP anne.S Desicni Ozcanizatidh Pf9incipal Encrineer Date Plant General Manager(HNP Only)
ZNDEPENDENT SA3'ETY REVIEWS (Required Before: )
IMP LEMEN- CLOSE- NQT TATIQN OUT RE PD REVIEW COMPLETED DATE
[r] CNSR REF:
[ ] [4 CNSR(Review documented on Closeout Sheet Form 15)
NRC REF:
VOID VOID FZELD REVISION Date Reason for Voiding NPMP - REV. 4
Installation Package Mod. No. P PCR-6547 List of Effective'ages Field Rev. No.. 1 Pa e No. Al Pm~Ma P~~ Eaz Al C28 D22 0 GlA 0 A2 C29 D23 0 G2 0 C30 D24 0 G3 0 C31 D25 0 G4 0 Bl C32 D26 0 G5 0 B2 C33 D27 0 G6 0 B3 C34 D28 0 B4 h' 0 C35 D29 0 C36 D30 0 yz C37 D31 0 //ZA C38 D32 0 O'ZD Cl 0 C39 D33 0 C2 0 C40 D34 0 C3 1 C41 D35 0 C4 C4A 0
1 C42 C43 D36 D37 0
0 e~
h' C4B 1 C44 D38 0 C4C 1 C45 D39 0 C4D 1 C45A D40 0 8g C4E C4F 1 C46 D41 0 // f C47 C5 1
0 C48 ///0 g C6 0 C49 El h'//
Cj CS 1 E2 e //8 C8A 1
1 Dl E3 E4 p(z CSB 1 D2 E5 9/~
C9 Clo 0 D3 E6 8/~4 Cll 0
0 D4 D5 E7 ES h(y C12 0 D6 E9 ///YA C13 0 D7 E10 8 C14 0 DS Ell /PS'f/%
C C15 0 D9 E12 C16 0 Dlo E13 e/w c C17 0 Dll E14 // /V-E C18 0 D12 E15 C19 0 D13 E16 C20 0 D14 E17 C21 0 D15 C22 0 D16 C23 0 D17 Fl C24 0 D18 F2 C25 0 D19 F3 C26 0 D20 C27 0 D21 Gl
REVISION 10CPR50 ~ 59 PROGRAM HANU7LL AaiACP'.~la A Cps'AFE:Y REVIE>>'ACKAGE Page '
,C.S SAFETY REPIEV COVER SHEET DOCUMENT NO. REV.= NO.
DESCRIPTION OR TITL=:
Assigned Responsibilities:
Safety Analysis Preparer:
Lead 1st Safety Revt.ewer:
2nd Safety Reviewer:
Safety Analysis Prepaz'er: Complete PART I, SAFETY ANALYSIS /0 2>
Safety Analysis Preparer 9 -2g-9z Uh a Lead 1st Safety Reviewer: Complete Part II. Item Classification.
Lead 1st Safetv Reviewer:
2 t.s "yes, 'hen Part III Par" IV is noc required.
may be completed. If et.ther question '. cr Lead lsc Safetv Reviewer: Determine which DISCIPLINES are requt.red for ".ev e; of this item (Including own) and mark the appropriace block(s) below.
DZSClo~ 4 S Re u ed: t erne 5 acuate/Date (5-e-f J Nucleaz'lant Operatt.ons fj Nuclear Engineering r'0 7 9D g Mechanical Sg fj Electrical fj Instrumentation & Control f) S cruccural f) Metallurgy Chemi s try/Radiochemt.s try f) Health Physics
,f J Administract.ve Controls A QUALIFIED SAFETY REVIE4ER will be asst.gned for name orinced in the space provided.
each DISCIPLINE marked Each person 1'sted seep 5 and his/her shall perform a SAFETY REVIEW and provt.de input into the Safety Review Package.
The Lead 1st Safety Revievez'ill assure that a Par" III completed (see step 4 abave) and a Part VI t.f required (see 9.d of Part'.".
or Par" IV is Eacn pez'son lt.sted in step 5 shall sign and date next to his/her name s=e" 5, indicating completion of a SAFETY REVIEW.
2nd Safety Reviewer: PeaEo~a )SAFETY REVIEV in accordance with Sect'on 8.0.
2nd Safecy Reviewer Dac -Z9'4 Z DISCIPLINE: )/i@~
PNSC below:
review required'7 If "ves, attach Part V and mark reason Yes ~o Pocenr ial UNREVISED SAFZii'UESTION Quescion 9 of Part IV ansvere "Ye Other (specify): 0
Reit Mai Mechanical Safety Analysis FisM ihv. f~
PCR-6547 Wa Page 1 SAFETY ANALYSIS FOR PCR-6547 BACKGROUND This modification replaces the safety injection (SI) alternate miniflow relief valves (1CS-744 and 1CS-755) with orifices and enhanced open/close logic on the motor operated alternate miniflow isolation valves (1CS-746 and 1-CS-752). The isolation valves will receive an open signal on high RCS pressure to ensure minimum flow for protection of the charging/SI (CSIP's) via the new orifices. They will also receive pumps a close signal on low RCS pressure to ensure adequate SI flow is delivered to the core. The purpose of the alternate miniflow sub system is to provide an alternate flow path for protection of the CSIP's for those postulated accidents in which RCS pressure can increase above CSIP shutoff head following SI actuation.
After this modification is implemented, the safety injection system will be capable of performing its design safety functions. The following specific safety functions could be impacted:
1) adequate SI flow must be delivered to the core
2) at least 60 gpm must be delivered by each operating CSIP under the most limiting pump condition and operational lineup ANALYSIS
1) Adequate SI Flow Delivered to the Core Calculation HNP-I/INST-1044, selected a MOV closure setpoint t I of 1750 psig in the RCS as measured by wide range pressure channels ~
P-402 and P-403. The calculation technique made allowances for:
uncertainty associated with the sensing channel (i.e. P-402/P-403),
uncertainty associated with the pressurizer pressure channels which initiate SI, and an additional margin for conservatism. The MOVs will be expected to close only during those accidents where SI is actuated and RCS pressure is expected to increase above the MOV opening setpoint. In these accidents however (inadvertant SI and feedline break) SI flow provides little benefit. Consequently, MOV closure is not critical to ensure satisfactory performance of the SI system. Automatic closure does, however, increase plant safety by providing an additional backup. (See Nuclear Fuels Section Safety Analysis)
2) At Least 60 gpm Delivered by Each Operating CSIP Under the Most Limiting Conditions To ensure their integrity and long-term availability for accident
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Page Na Ha~ Mechanical Safety Analysis PCR-6547 Page 2 mitigation, each operating CSIP must pass at least 60 gpm. First, the new orifices are sized to ensure at least 60 gpm will be passed by each pump in the condition of maximum degradation that will satisfy the ECCS analyses assumptions.
The CSIP performance curve which defines the minimum allowed performance for ECCS analyses was transmitted to CP&L by Westinghouse in letter no. 92CP*-G-0096. At 60 gpm the TDH is approximately 5623 ft. Pressure downstream of the new orifices at 60 gpm is 84 psig or 194 ft (60 psi dynamic plus 24 psi static).
Calculated orifice performance curve shows an expected flow of 56 gpm at 5429 ft TDH (5623 ft minus 194 ft). Seal injection flow to the reactor coolant pumps will be maintained during safety injection. This flow will be sufficient to ensure total CSIP flow exceeds 60 gpm.
Second, the MOV opening setpoint is low enough to ensure at least 60 gpm is passed by the weakest CSIP in the most limiting configuration. Parallel operation of the weakest and strongest CSIP's is the most limiting configuration due to the increased total flow and head loss. From pre-op test data (1-2080-P-04), at 60 gpm the weakest CSZP total developed head (TDH) is 6164 ft.
Also from 1-2080-P=04, the instrument uncertainty associated with this data is .14 of span (0-3000 psi) of 3 psi. Assuming a reading error of 12 ft yields:
(3 psi) (2.31 ft/psi) + 12 ft = 19 ft Therefore, the minimum weak pump TDH at 60 gpm is:
6154 ft 19 ft = 6135 ft With the weak pump delivering 60 flow at the gpm at 6135 same TDH is 177 gpm.
ft, total the maximum strong pump The flow required to ensure at least 60 gpm is passed by the weakest pump is therefore:
60 gpm + 177 gpm = 237 gpm From pre-op 1-2080-P-04, the SI system resistance through FE-943 is k= 7 .8 7.107 x 10 ft/gpm (678.9 gpm)
The head loss through the SI system with the weak pump delivering 60 gpm is:
~h = (7.107 x 10 ft/gpm ) (237 gpm) = 399 ft The head loss from the SI injection points in the cold legs to the pressure transmitter sense line connections in the hot legs is:
1 I
Mechanical Safety Analysis PCR-6547 Page 4 Reactor Core & Internals 105 Reactor Nozzles 28 Reactor Coolant Piping .25 ft.
158 The head gain between the RWST and the SI injection points in the cold legs is:
RWST elev. 266.4 ft RCS C/L elev. ~255. 3 11 t (min level) ft The maximum RCS pressure measured by P-402 and P-403 that will ensure at least 60 gpm is passed by the weakest CSIP during two pump operation is:
P = 6135 ft 399 ft2.31 158 ft + 11 ft ft/psi P = 2419 psig Calculation HNP/INST-1044, selected a MOV opening setpoint of 2300 psig. The instrument channel uncertainty associated with the setpoint is 100 psig. The maximum RCS pressure which ensures protection of the weakest pump is above the nominal setpoint plus instrument channel uncertainty. Very little margin exists, however, for future pump degradation.
Pipe Hanger Anchors CS-H-4400, CS-H-4403, and CS-H-4406 have been redesigned as a result of this modification. Calculations and drawings were revised for each anchor based on loads provided by the pipe stress analysis sub-unit.
The proposed control logic modification will provide power to close and open the valve under both normal and accident conditions. Valve motion will be stopped in the opening direction by the open limit switch and in the close direction by the close torque switch.
Removal of the open torque switch from the control circuit will not affect the operation of the valve. The open torque switch is a backup mechanism to the open limit switch and is routinely bypassed along with the thermal overloads by a safety injection signal.
Failure of the open limit switch backseat is reached, at which time the motor would stall. However, assumed to occur during an accident, if the open limit switch failure is it constitutes the "single active 'failure" and the stall condition is a continuation of this failure. The stall will not render the valve inoperable, because the open limit switch failure would have already done so. A 96%
bypass of the close torque switch will insure full motor capacity is available to close the valve is required.
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NUCLEAR FUELS SECTION SAFETY 'NALYSIS This safety analysis focuses on the impact of the open and close
~ ~ ~
setpoints associated with alternate miniflow valves 1CS-746 and
~ ~ ~ ~ ~
1CS-752 on analysis Performed in the SHNPP FSAR Chapter 15. The
~
valves will open at a wide range RCS pressure between 2405 and 2195
~ ~
psig (reference 1) coincident with a Safety Injection actuation signal. The valves will close at a wide range RCS pressure between 1750 and 2000 psig (reference 1) coincident with a Safety Injection Actuation signal. The open and close pressure ranges overlap; however, this will not cause undue cycling of the valves since the open and close setpoints are established by the same instrument channel such that the setpoints move away from the nominal value in the same direction.
The wide range pressure setpoint to open the valve is established at a low enough RCS pressure to ensure that at, least the minimum required flow is maintained through both operating CSIPs in any Chapter 15 event. This setpoint is above RCS pressures which would occur coincident with a Safety Injection actuation signal. The Safety Injection (SI) actuation signals listed in Technical Specification Table 3.3-4 are High Containment Pxessure, Low Pressurizer Pressure, and Low Main Steam Pressure, and Manual Safety Injection.
The Chapter 15 events in which a Safety Injection actuation occurs are as follows:
Inadvertent Opening of a Steam Generator Relief or Safety Valve (FSAR Section 15.1.4)
2. Steam System Piping Failure (FSAR Section 15.1.5)
3. Feedwater System Pipe Break (FSAR Section 15.2.8)
4. Inadvertent Operation of the Emergency Core Cooling System During Power Operation (FSAR Section 15.5.1.1)
5. Inadvertent Opening of a Pressurizer Safety or Power Operated Relief Valve (FSAR Section 15.6.1).
6. Steam Generator Tube Rupture (FSAR Section 15.6.3).,
7. Loss of Coolant Accidents (FSAR Section 15.6-5)
Events 1 and 2 could actuate Sr via Low Steam Line Pressure. Xn both events, RCS pressure will be substantially below the pressure required to open the alternate miniflow valves at the time of SZ actuation. RCS pressure will increase in the event. only after critical core parameters have been stabilized. Opexators would be expected to secure SZ prior to reaching RCS pressures which exceed that which would open the alternate miniflow valves. Howevex, opening of the valves at this point in eithex event would have no adverse impact.
~
i"nt Mod. g d Re@ Na Pago Ya~C'W NUCLEAR FUELS SECTION SAFETY ANALYSIS Event 3 could actuate SI via Low Steam Line Pressure. The safety injection system has little added benefit in this event. RCS pressure will be significantly below the pressure required to open the alternate miniflow valves at the time of SI actuation. In this-event, RCS pressure increases to the pressurizer relief setpoint some 200 seconds after SI actuation. As a RCS pressure will increase above the pressure necessaryconsequence, to open the alternate miniflow valves. Therefore, shortly after SI actuation occurs, Safety Injection only serves to worsen the event by adding inventory and thereby increasing RCS pressure. As such, opening the alternate miniflow valves during this portion of the event protects the CSIPs (the CSIPs are needed later for long term recovery) and reduces the severity of the event (by decreasing the inventory added to the RCS).
Event 4 may cause an increase in RCS pressure above the RCS pressure required to open the valves coincident with an SI SI flow to the RCS in this event is actually detrimental.
signal.'owever, As such, opening the alternate minflow valve and thereby reducing the amount of SI flow delivered to the RCS would lessen the severity of the event.
Events 5, 6, and 7 will actuate SI at a pressure which is significantly less than the RCS pressure necessary to open the alternate miniflow valves. The amount of SI flow delivered in these events via the CSIPs significantly affects the outcome of these events; however, flow will not be lost through the alternate
,miniflow lines since the isolation valves will remain closed.
The isolation valve close setpoint is based on ensuring that cycling of the Pressurizer Power Operated Relief valves as a result of a increasing pressure event (ie. Feedwater Break, Inadvertent SI) does not cycle the alternate minflow valves. While it is true that the manual safety injection may be actuated in events where low pressurizer pressure occurs somewhat later than the actuating signal (such as low steam line pressure during a main steam line break), operators will not actuate SI manually above an RCS pressure which will open the valves. Operators will manually actuate SI based on plant symptoms such as low Volume Control Tank level, low Reactor Coolant temperature, low steam pressure, and low pressurizer level or pressure. Such symptoms will simply not occur at the RCS wide range pressures associated with opening the valves coincident with an SI actuation (between 2405 and 2195 psig). As such, the RCS wide range low pressure coincident with SI actuation close setpoint serves as an additional backup which exceeds the requirements of the existing licensing bases. Scoping calculations have been performed and qualitative evaluations made (from a probability risk assessment perspective) which indicate that the close setpoint is at a a high enough pressure to preclude core damage in the unlikely case that the alternate miniflow valves opened and SI was actually required to mitigate the event.
NUCLEAR FUELS SECTION SAFETY ANALYSIS References Calculation HNP-I/INST-1044~
I'.
2. FSAR Amendment 43a (see sections referenced above)
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ATTACKtENT A CP&L SAFETY RWI V'ACKAGE Page 5 of 8 PART IV: UNREVIEWED SAFETY, QUESTION DETERMINATlON Doct "ALIT No. I 4 foA "
REV. NO.
Using the SAFETY ANALYSIS developed for the change, tesc or experiment, as we'I as other required references (LICENSING BASIS DOCUMENTATION, Design Drawings, Des gn Basis Documents, codes, etc.), the preparer of the Unreviewed Safety Question Determination must directly answer each of the following seven questions and maice a determinacion of whether an UNREVISED SAFETY QUESTION exists.
A WRITTEN BASIS IS REQUIRED POR EACH ANSQER Yes .'o
1. May the proposed activity increase the probability of occurrence of an accident evaluated previously in the SAFETY ANALYSIS REPORT7 WgT c J
2. May the proposed activity increase the consequences of an accident evaluated previously in the SAFETY ANALYSIS REPORT?
3. May the proposed activity increase the probability of occurrence of a malfunction of equipment importanc to safety evaluaced previously in the SAFETY ANALYSIS REPORT7 rr c
4. May the proposed activity increase the consequence of a malfunction of equipmenc important to safety evaluated previously in the SAFETY ANALYSIS REPORT7
5. May the proposed acrivity create the possibility of an accident of a different cype than any evaluated previously in the SAFETY ANALYSIS REPORT?
(Form AP-OI.1-6-A-1)
Fiefd ~
REVZS ZOH 3 10CPRSO ~ 59 PROGRAM ATTACHM~VE A t4a ~g CP6L SAFETY REVIEV PACKAGE Page 6 of 8 PART IV: (Continued)
DOC'-~EN~ NO. REV. NO. /
Ye s ~1o
6. May the proposed acrivity create the possibility of a [l malfunction of equipment important co safecy of a different type than any evaluated previously in the SAFETY ANALYSIS REPORT?
7. Does the'roposed activity reduce the margin of safety as.
defined in the basis of any Technical Specification?
A-WW
8. Based on the ansvers to questions 1 - 7, does this icem [j !'.
result in an UNREVIEWED SAFETY QUESTION? If any of the questions 1-7 is "Yes," then the item is rhe ansver to considered co constituce an UNREVIEWED SAFETY QUESTION.
9. Is PNSC review required for any of the folloving reasons? [j If, in ansvering question 1 or 3 "No," it vas determined chat the probabi'ir; increase vas small relacive to rhe uncerraincies; or. in answering question 4 "No," ic was determined that the doses increased, but rhe dose vas sc.
'r less than the NRC ACCEPTANCE LIMIT; or, in ansvering question 7 "No," a parameter should be closer to the NRC ACCEPTANCE LIMIT, but rhe end result vas sri,ll within the NRC ACCEPTANCE LIMIT; then PNSC reviev is required.
REFERENCES:
/ ..~ Y4 - 4.c5 This Unreviewed Safety Question Determination is for the following DISCIPLINE(s):
(Additional Part IV forms may be included as appropriate.)
Nuclear Plant Operations S true tura1 Nuclear Engineering Me ta1 lurgy Mechanical Chemis cry/Radiochemistry Electrical Health Physics Inscrumentarion & Concrol Administrative Controls (Form AP-011-6-4-1)
i Installation Package Mod. No. PCR-6547 Safety Review Continuation Page Field Rev. No.
Pa e No. 5.1 SA ti ued (continued)
THIS MODIFICATION MEETS THE DESIGN, MATERIAL, AND CONSTRUCTION STANDARDS APPLICABLE TO THE SYSTEM. ALL COMPONENTS IN THE NORMAL FLOW PATHS TO THE REACTOR FOLLOWING A SAFETY INJECTION SIGNAL ARE DESIGNED IN ACCORDANCE WITH THE ASME BGPV CODE, SECTION III, CLASS 2. THE ALTERNATE MINI-FLOW SYSTEM MOTOR OPERATED VALVES'ETPOINTS WERE CHOSEN TO OPEN VALVES ON A RISING PRESSURE OF 2300 PSIG COINCIDENT OF A SAFETY INJECTION SIGNAL TO PREVENT DEADHEADING OF THE SAFETY INJECTION PUMPS. THIS MODIFICATION DOES NOT CAUSE THE PUMPS/SYSTEM TO OPERATE OUTSIDE ITS DESIGN LIMITS. SYSTEM IS DESIGNED WITH A HIGH POINT VENT TO ENSURE A WATER SOLID SYSTEM AND WILL ALLEVIATE WATER HAMMER POTENTIAL. THIS ACTIVITY WILL NOT INCREASE THE PROBABILITY OF OCCURRENCE OF A PREVIOUSLY EVALUATED ACCIDENT.
(continued)
2. THIS MODIFICATION IS DESIGN TO IMPROVE RELIABILITY OF THE SAFETY INJECTION SYSTEM BY LIMITING THE FLUID FLOW THROUGH THE ALTERNATE MINI.FLOW FLOW LINES TO APPROX. 60 GPM AT 6000'RESSURE HEAD, YET PROVIDES AMPLE PUMP FLO'W AT DEADHEAD CONDITIONS. THIS IS AN IMPROVEMENT IN INCREASING THE SYSTEM'S ABILITY OF MITIGATING THE CONSEQUENCES OF ANALYZED ACCIDENTS. BASED ON THE ABOVE, IT HAS BEEN DETERMINED THAT THIS MODIFICATION DOES NOT INCREASE THE CONSEQUENCES OF A PREVIOUSLY EVALUATED ACCIDENT.
(continued)
3. THE ISOLATION VALVE CLOSE SETPOINT IS BASED ON ENSURING THAT CYCLING OF THE PRESSURIZER POWER RELIEF VALVES AS A RESULT OF AN INCREASING PRESSURE EVENT (IE. FEEDWATER BREAK, INADVERTENT SI) DOES NOT CYCLE THE ALTERNATE MINI-FLOW VALVES. BY ENSURING ADEQUATE PUMP MINIMUM FLOW, THIS ACTIVITY DOES NOT INCREASE THE PROBABILITY OF OCCURRENCE OF A MALFUNCTION OF EQUIPMENT IMPORTANT TO SAFETY.
(continued)
4. THIS MODIFICATION DOES NOT'REDUCE SYSTEM REDUNDANCY AND DOES NOT DOWNGRADE SUPPORT SYSTEM PERFORMANCE NECESSARY FOR RELIABLE OPERATION. THE CONSEQUENCE OF MOTOR OPERATED ISOLATION VALVE ACTUATION CIRCUITRY FAILURE PRESENTS NO GREATER CONSEQUENCE THAN THAT ASSOCIATED WITH EXISTING RELIEF VALVE FAILURE AND WILL NOT RESULT IN INCREASED RADIOLOGICAL CONSEQUENCES.
(continued)
5. MODIFICATION ENSURES CHARGING/SAFETY INJECTION PUMP INTEGRITY AND LONG TERM AVAILABILITYFOR ACCIDENT MITIGATION BY PROVIDING MINIMUM FLOW OF 60 GPM. THE NEW ORIFICES ARE SIZED TO ENSURE AT LEAST 60 GPM WILL BE PASSED BY EACH PUMP IN THE CONDITION OF MAXIMUM DEGRADATION THAT WILL SATISFY THE EMERGENCY CORE COOLING SYSTEM ANALYSES ASSUMPTIONS AND DOES NOT CREATE THE POSSIBILITY OF AN ACCIDENT OF A DIFFERENT TYPE THAN PREVIOUSLY EVALUATED.
Installation Package Mod. No. PCR-6547 Safety Review Continuation Field Rev. No..
Pa e No. 6.1 SA (continued) 6." THE NEW STRAINERS AND ORIFICES ADDED BY THIS MODIFICATION ONLY IMPROVES LON TERM RELIABILITY OF THE CHARGING/SAFETY INJECTION PUMPS. THE NORMAL AND ALTERNATE MINI-FLOW LINES ARE TIED TO A COMMON STRAINER FOR EACH PUMP. THE STRAINERS ARE DESIGNED TO CATCH GROSS FOREIGN MATERIAL AND WILL PREVENT CLOGGING OF THE ORIFICES. THE STRAINERS ARE DESIGNED SO THAT IF THEY ARE CLOGGED BY 80/, THEY WILL NOT HAVE AN ADVERSE IMPACT ON FLOW TO EITHER MINI-FLOW LINE. PERIODIC FLOW TESTING OF THE ORIFICE WILL DETERMINE ANY FLOW DEGRADATION.
(continued)
7. THE CHANGES INTRODUCED BY THIS MODIFICATION DOES NOT IMPACT ANY MARGIN OF SAFETY IDENTIFIED BY TECH. SPEC. BASES.
MOD NO.
gZVXSZON 3 10cPRso.s9 PRoc:~ )cANKG PAGE NO.
ATTACHMHiT h CP&L SAFETY REVIEW PACKAGE Page [ of 8 SAFETY REVIEW COVER SHEET DOCUMENT NO ~ REV. NO.
DESCRIPTION OR TITLE:
Assigned Responsibilities:
Safety Analysis Preparer:
Lead 1st Safety Reviever:
2nd Safety Reviever:
2. Safety Analysis Preparer: Complete PART I, SAFETY ANALYSIS
/ /0-/ ~ -PP Safety Analysis Preparer Lead 1st Safety Reviever: Complete Part II, Item Classification.
4, Lead 1st Safety Reviever: Part III may ba completed. If either question 1 or 2 is yes, then Part IV is not required.
5 ~ Lead 1st Safety Raviaver: Determine which DISCIPLINES are required for reviev of this item (Including own) and mark the appropriate block(s) below.
8 ature ate te
[) Nuclear Plant Operations
[] Nuclear Engineering
'[] Mechanical
[] Electrical g Instrumentation & Concrol N-/2:gc
[] Srructural
[) Metallurgy
[] Chemistry/Radiochemistry
[) Health Physics
[] Administrative Controls
6. A QUALIFIED SAFETY REVIEWER vill be assigned for each DISCIPLINE marked in step 5 and his/her name oriented in the space provided. Each person listed shall perform a SAFETY REVIEW and provide input into the Safety Review Package.
7. The Lead 1st Safety Reviewer vill assure that a Parr.
if III or Part IV is Each person listed in step 5 shall sign and dare next to his/her name in II).
completed (see step 4 above) and a Part VI required (see 9.d of Part 5, indicating complerion of a SAFETY REVIEW. step 2nd Safety Raviever: Perf ~ > saFETY REVIEW in accordance vith Section 8.0.
2nd Safety Reviaver Date L DISCIPLINE:
9. PNSC reviev requirecD belov:
If "yes," attach Part V and mark reason ~es No Po tential UNREVIEWED SAFETY QUESTION Question 9 of Part IV ansvered "Yes" t Other (specify):
(Form AP-Oll-6-A-1)
~
Installation Package Mod. No. PCR-6547
~ ~
Safety Review Continuation Page Field Rev. No. 0i Page No. c99 PART I. AFETY ANALY I ntinued 1.0 DE RIVI'I N F HAN E (continued)
This modification introduces changes to the operating logic of CSIP alternate mini-flow isolation valves 1CS-746 (2CS-V757SA-1) and 1CS-752 (2CS-V759SB-1). The logic of these motor operated valves will be modified such that the valves will open upon high RCS pressure coincident with an "S" signal. If RCS pressure approaches the shutoff head of the pumps, the isolation valves will open and provide sufficient flow to prevent pump damage. Additionally, these isolation valves will close as the RCS depressurizes and in response to a safety injection signal to provide maximum injection flow. This will be accomplished by adding bistable circuitry to RCS wide range pressure loops P-402 and P-403. Comparator cards (NAL) and solid state relay, circuitry (NAS) will be added to protection cabinets 1 & 4. These bistables will energize/de-energize rotary relays (K711-A & K711-B) within the SSPS output bays.
Contacts of these SSPS relays will be installed in series with contacts of safety injection relay K740 to provide automatic valve control.
The subject isolation valves presently receive an "S" signal from relay K636 located in SSPS ouput bay 1. This relay is manually reset early in the transient as directed by the emergency operating procedures. Ifthis signal is reset prior to RCS pressure increasing to 2300 psig, the mini-flow valves may never open. Due to this concern, this modification will substitute a RWST - SI signal, which is not reset until the normal charging header is aligned, for the present SI signal. This design change involves removing the K636 relay from valve circuitry and utilizing the K740 relay (located in SSPS output bay 2) for the safety injection permissive. Similarily, the overload and torque switch bypass relay contacts, located in the 480V MCC's will be replaced with contacts of the K740 relays due to "SI" reset considerations.
2.0 ~AL I ( t')
The intent of this modification is to replace the existing passive pressure control system with an active pressure control system consisting of solid state instrumentation for the purpose of eliminating problematic relief valves possessing high failure potential. The parallel dead head protection valves will be controlled by independent protection instrument loops. RCS wide range pressure loop P-402 via
Installation Package Mod. No. PCR4547 Safety Review Continuation Page Field Rev. No. 0)
Page No. C f3 PART IV IDEAED D RMI ATI N ntinu BA I 7 R (continued)
3. The ECCS system is designed and analyzed to tolerate a single active failure. Table 6.3.1.1 provides a failures modes and effectes analysis which demonstrates the capability of the ECCS to perform following a single active failure. This analysis shows that single failures, such as the loss of a CSIP; do not compromise the ability to prevent or mitigate accidents. This modification introduces suitable redundancy, protective instrumentation, and materials possessing less failure potential of those contained in the existing pressure control system and, therefore, does not augment the failure effects as analyzed.
BA I R TI 4 (continued)
4. Analyzed effects analyses show that the consequences of single active failure will not jeopardize ECCS capabilities to perform required protective functions. This modification does not reduce system redundancy and does,not downgrade support system performance necessary for reliable operation. The consequence of motor operated isolation valve actuation circuitry failure presents no greater consequence than that associated with existing relief valve failure.
BA I R (continued)
5. The equipment/system operating parameters introduced by this design change do not alter the design intent of the CSIP alternate mini-flow system. Although the method of accomplishing adequate pressure control is changed, this improved means of pressure control does not introduce any transients not, bounded by FSAR assumptions. In essence, the Emergency Core Cooling System accident analysis assumptions are satisfied.
Form 5 ua'n::"-'!
BILL OF MATERIAL d.
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Installation Package Mod. No. PCR-6547 Drawing List Field Rev. No. ot Page No. D2, Drawin No. Ref. Dw . No. OVSD REV.
SK-6547-Z-001 2166-B-401 317 YES SK-6547-Z-002 2166-B-401 319 YES SK-6547-2-003 1364-46574 NO SK-6547-Z-004 1364-46577 NO SK-6547-Z-005 2166-S-PRC0402 NO SK-6547-Z-006 2166-S-PRC0403 NO SK-6547-2-007 1364-1328 S29 NO SK-6547-Z-008 1364-1328 S29 NO SK-6547-2-009 1364-10929 S02 NO SK-6547-Z-010 1364-10929 SOS NO SK-6547-Z-011 1364-51840 NO SK-6547-2-012 1364-51840 NO SK-6547-Z-013 1364-51840 NO SK-6547-Z-014 1364-92103 NO SK-6547-Z-015 1364>>92103 NO SK-6547-2-016 1364-92103 NO SK-6547-Z-017 1364-92103 NO SK-6547-2-018 1364-51837 NO SK-6547-Z-019 1364-51837 NO SK-6547-Z-020 1364-51837 NO SK-6547-Z-021 1364-51837, NO SK-6547-2-022 1364-92103 NO SK-6547-Z-023 1364-92103 NO SK-6547-Z-024 1364-92103 NO SK-6547-Z-025 1364>>92103 NO SK-6547-Z-026 1364-2776 S26 NO A SK-6547-Z-027 1364-2776 828 NO SK-6547-2-028 1364-45841 S59 NO A SK-6547-2-029 1364-45841 S58 NO s
Installation Package Mod. No. PCR-6547 Drawing List Field Rev. No. Ot Page No. DQ Drawin No. Ref. Dw . No. OVSD REV.
SK-6547-Z-030 1364-37747 NO SK-6547-Z-031 1364-37747 NO SK-6547-2-032 1364-37747 NO SK-6547-Z-033 1364-37747 NO : I
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SK-6547-Z-034 1364-2776 S30 NO SK-6547-2-035 1364-45841 S49 NO SK-6547-Z-036 1364-37746 NO SK-6547-Z-037 1364-37746 NO SK-6547-2-038 2166-S-2020 S28 YES SK-6547-2-039 2166-B-401 1789 NO SK-6547-2-040 2166-B-401 1790 NO
INSTALLATION PACKAGE MOD. NO. PCR-6547 0 DRAWING LIST FIELD REV. NO. 1 PAGE NO. D4 DRAWING NO. REVISION NO.
SK-6547-M-2000 B OVSD SK-6547-M-2001 B OVSD SK-6547-M-2002 C OVSD SK-6547-M-2003 A OVSD SK-6547-M-2004 A SK-6547-C-1001 PG. 1 B SK-6547-C-1001 PG.2 SK-6547-C-1002 PG.1 A SK-6547-C-1002 PG.2 A g-(
SK-6547-C-1003 PG.1 B SK-6547-C-1003 PG.2 SK-6547-C-1004 B S -65 7-C-1005 B SK- 547-C-1006 PG. 1 B SK-6547-C-1006 PG.2
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TITLE:
HARRIS NUCLEAR PROJECT I SCALE.
REFr ISO'S FOR REVISION CHEM. 8c VOL. CONTROL ICS-650 ICS-651 ISO REVISIONS ICS-150 ICS-151 ICS-152 owQ NGJ 5 G 140 141 REV SHT: I OF I s)(ETON No: SK 6547 M 2001 SHR I OF I

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