ML110050414

From kanterella
Jump to navigation Jump to search
CC-AA-309-1001, Rev. 3, Hc Class 1E 125 Vdc Station Battery & Charger Sizing
ML110050414
Person / Time
Site: Salem, Hope Creek  
Issue date: 08/05/2009
From: Samuel D
Public Service Enterprise Group
To:
Office of Nuclear Reactor Regulation
References
LR-N10-0355 CC-AA-309-1001, Rev 3
Download: ML110050414 (99)
v  d  e


Text

{{#Wiki_filter:ATTACHMENT 1 CC*.t>.A-309-1001 Revision 3 Design AnalysIs Major Revision Cover Sheet n ._...... Page 1 of 5 Design Analysis (Major Revision) Last Page No. 0 Enclosure L, Page 1 Analysis No.: 1 E-4.1(Q) RevisIon: 2 16 Tit16:3 HC Class 1E 125 VDC STATION BATIERY & CHARGER SIZING EC/ECR No.: 4 80099393RO E01 RO RevisIon: 5 0 Statlon(s): 7 Hope Creek ! Component(s): 14 Unit No.: B 1 Discipline: 9 Electrical DesGrlp. Code/Keyword: 10 I Safety/QA Class: 11 Q-Safety Related System Code: 12 PK. 125 VDC (Class 1 E) Structure: 13 N/A CONTROLLED DOCUMENT REFERENCES 15 Document No.: FromfTo Document No.: FromlTo See Referenoes, Page 8 Is this Design Analysis Safeguards Information? 16 YasO No !81 If yes, sea SY-AA-101-106 Does this Oeslgn Analysis contain Unverified Assumptions? 17 Yes 0 No l8J If yes, ATIIAR# This Design Analysis SUPERCEDES: lS E-4.1(Q), Rev 15 In its entirety. Description of Revisfon (list affected pages for partials): 19 ThIs revision Is Initialed to incorporate all of the Outstanding ADs as of 07/20/2009. DCRMS was checked on 07/23/2009 to verify that no additional ADs were posted against E-4.1(Q) after 07/20/2009. The inoorporated ADs are listed In the Revision 16 Summary. AddItIonally, adequate margin remains on the batteries to Incorporate the changes in Pending AD 80083637ADE02 as of 07/20/2009. Preparer: 20 Dennis T. Samuel (S&L) ~. (j,~. O~/()-5/(!)? FontN.me SlgnN.me Dale Method of Review: 21 Detailed Review 181 Alternate caICUla~) 0 Testin~sA RevIewer: 22 Emie Sawchuk (S&L) & oS" 09 ~ P~nL Name Sign Name Dal. Review Notes: 2S Independent review 18I Peer review 0 Independent review was performed In accordance with CC-M-309 and CC-AA-S09-1001. /) /,b? A ./ (Fer Exlerlllli Analyses Only) External Approver: 24 Andy Ju (S&L) d£/~~Ih ~£p ~ ~SlsnNam.~ i$le PrinlN.me Exelon Reviewer: 25 .. 5u.6.IJ(&s b 8i:~6mA 9/2/09 ._~_w"1 PlinlNarne Sign Name ./ oft. f Independent 3r~ Party Review Reqd? 2a Yes 0 NO~~!!f,. r2 (~~1 Exelon Approver: 27 ~~$§" f{ ~~ PrinlName // Sign Nama X I Date V ""-J I ATTACHMENT 1 CC*.t>.A-309-1001 Revision 3 Design AnalysIs Major Revision Cover Sheet n ._...... Page 1 of 5 Design Analysis (Major Revision) Last Page No. 0 Enclosure L, Page 1 Analysis No.: 1 E-4.1(Q) RevisIon: 2 16 Tit16:3 HC Class 1E 125 VDC STATION BATIERY & CHARGER SIZING EC/ECR No.: 4 80099393RO E01 RO RevisIon: 5 0 Statlon(s): 7 Hope Creek ! Component(s): 14 Unit No.: B 1 Discipline: 9 Electrical DesGrlp. Code/Keyword: 10 I Safety/QA Class: 11 Q-Safety Related System Code: 12 PK. 125 VDC (Class 1 E) Structure: 13 N/A CONTROLLED DOCUMENT REFERENCES 15 Document No.: FromfTo Document No.: FromlTo See Referenoes, Page 8 Is this Design Analysis Safeguards Information? 16 YasO No !81 If yes, sea SY-AA-101-106 Does this Oeslgn Analysis contain Unverified Assumptions? 17 Yes 0 No l8J If yes, ATIIAR# This Design Analysis SUPERCEDES: lS E-4.1(Q), Rev 15 In its entirety. Description of Revisfon (list affected pages for partials): 19 ThIs revision Is Initialed to incorporate all of the Outstanding ADs as of 07/20/2009. DCRMS was checked on 07/23/2009 to verify that no additional ADs were posted against E-4.1(Q) after 07/20/2009. The inoorporated ADs are listed In the Revision 16 Summary. AddItIonally, adequate margin remains on the batteries to Incorporate the changes in Pending AD 80083637ADE02 as of 07/20/2009. Preparer: 20 Dennis T. Samuel (S&L) ~. (j,~. O~/()-5/(!)? FontN.me SlgnN.me Dale Method of Review: 21 Detailed Review 181 Alternate caICUla~) 0 Testin~sA RevIewer: 22 Emie Sawchuk (S&L) & oS" 09 ~ P~nL Name Sign Name Dal. Review Notes: 2S Independent review 18I Peer review 0 Independent review was performed In accordance with CC-M-309 and CC-AA-S09-1001. /) /,b? A ./ (Fer Exlerlllli Analyses Only) External Approver: 24 Andy Ju (S&L) d£/~~Ih ~£p ~ ~SlsnNam.~ i$le PrinlN.me Exelon Reviewer: 25 .. 5u.6.IJ(&s b 8i:~6mA 9/2/09 ._~_w"1 PlinlNarne Sign Name ./ oft. f Independent 3r~ Party Review Reqd? 2a Yes 0 NO~~!!f,. r2 (~~1 Exelon Approver: 27 ~~$§" f{ ~~ PrinlName // Sign Nama X I Date V ""-J I

t'JTACHMENT 2 CG~p,.'0<}O~} Re\\/;3~on 7' Page 16 ofi6 OW110t's Acceptance Rov1ew Checklist for Exienlf!.t Design Analysis Page 1 of 1 DESIGN ANALYSIS NO. E~4.1 (Q) REV: 16 Yes No N/A

1.

Do assumptions have sufficient rationale? D 0 ~

2.

Are assumptions compatible with the way the plant is operated and with the 0 0 t2 licensing basis?

3.

Do the design inputs have sufficient rationale? lR 0 0

4.

Are design inputs correct and reasonable? ~ 0 0

5.

Are design inputs compatible with the way the plant is operated and with the pj 0 0 licensing basis?

6.

Are Engineering Judgments clearly documented and justified? 0 0 rsa-

7.

Are Engineering Judgments compatible with the way the plant is operated 0 0 ~ and with the licensing basis? B. Do the results and conclusions satisfy the purpose and objective of the ~ 0 0 Design Analysis?

9.

Are the results and conclusions compatible with the way the plant is operated ~ 0 0 and with the licensing basis?

10.

Does the Design Analysis Include the applicable design basis jg 0 0 documentation?

11.

Have any limitations on the use of the results been identified and transmitted 0 0 1);1 to the appropriate organizations?

12.

Are there any unverified assumptions? 0 ~ 0

13.

Do alf unverified assumptions have a tracking and closure mechanism In D 0 0 place?

14.

Have all affected design analyses been documented on the Affected ~ 0 0 Documents List (ADL) for the associated Configuration Change? Do the sources of Inputs and analysis methodology used meet current technical requirements and regulatory commitments? (If the Input sources or r}l 0 0

15.

analysis methodology are based on an out~of~date methodology or code, additional reconciliation may be required If the site has since committed to a more recent code) {

16.

Have vendor supporting technical documents and references (including GE 0 D ~ DRFs) been revIewed when necessary?

17.

Has the vendor supplied the native electronic file(s)? 0 0 ~ PSEG REVIEWER: .f.&-aima / ~ DATE: '1klo j I on ISign I I t'JTACHMENT 2 CG~p,.'0<}O~} Re\\/;3~on 7' Page 16 ofi6 OW110t's Acceptance Rov1ew Checklist for Exienlf!.t Design Analysis Page 1 of 1 DESIGN ANALYSIS NO. E~4.1 (Q) REV: 16 Yes No N/A

1.

Do assumptions have sufficient rationale? D 0 ~

2.

Are assumptions compatible with the way the plant is operated and with the 0 0 t2 licensing basis?

3.

Do the design inputs have sufficient rationale? lR 0 0

4.

Are design inputs correct and reasonable? ~ 0 0

5.

Are design inputs compatible with the way the plant is operated and with the pj 0 0 licensing basis?

6.

Are Engineering Judgments clearly documented and justified? 0 0 rsa-

7.

Are Engineering Judgments compatible with the way the plant is operated 0 0 ~ and with the licensing basis? B. Do the results and conclusions satisfy the purpose and objective of the ~ 0 0 Design Analysis?

9.

Are the results and conclusions compatible with the way the plant is operated ~ 0 0 and with the licensing basis?

10.

Does the Design Analysis Include the applicable design basis jg 0 0 documentation?

11.

Have any limitations on the use of the results been identified and transmitted 0 0 1);1 to the appropriate organizations?

12.

Are there any unverified assumptions? 0 ~ 0

13.

Do alf unverified assumptions have a tracking and closure mechanism In D 0 0 place?

14.

Have all affected design analyses been documented on the Affected ~ 0 0 Documents List (ADL) for the associated Configuration Change? Do the sources of Inputs and analysis methodology used meet current technical requirements and regulatory commitments? (If the Input sources or r}l 0 0

15.

analysis methodology are based on an out~of~date methodology or code, additional reconciliation may be required If the site has since committed to a more recent code) {

16.

Have vendor supporting technical documents and references (including GE 0 D ~ DRFs) been revIewed when necessary?

17.

Has the vendor supplied the native electronic file(s)? 0 0 ~ PSEG REVIEWER: .f.&-aima / ~ DATE: '1klo j I on ISign I I

PSEG NUCl.X!AR HOPE CREEK DESIGN ANALYSIS SHEET REV.l6 PAGE 1 OF 1:-6 --r---- -----C_il~LC. NO: E~4.1((2~\\ 1 __________ --1. ___________ Revision 1f8: (Surnm~of Changes) (A) Revised 125VDC battery end cell voltage to 1.80VDC, and added electrolyte temperature correction factor, of + 50 F for assurance of proper voltage at the load. (B) Revised battery cell sizing work sheets to reflect changes. (C) Revised load tabulation to conform with actual load. (D) Added provision for future load growth, based on battery capacity and/or required DC load terminal voltages. (E) Added enclosure G, H & I. (F) Typed the entire calculation for clarity. Revision #9: (Summary of Changes)

1.

Revised design basis to include S.B.O. load.

2.

Added design guide NUMARC 87-00.

3.

Added additional positive plate values.

4.

Added battery capacity verification section for S.B.O. loads. Revision #10: (Summary of Changes)

1.

Revised electrolyte temperature to 60oF.

2.

Revised battery cell sizing work sheets to reflect changes.

3.

Revised load tabulation to remove max. allowable future load growth. Revision #11

1.

Revised load tabulation to remove allowable load growth from 1AD481, 1AD482 & 10D496.

2.

Revised battery cell sizing work sheets to reflect changes. PSEG NUCl.X!AR HOPE CREEK DESIGN ANALYSIS SHEET REV.l6 PAGE 1 OF 1:-6 --r---- -----C_il~LC. NO: E~4.1((2~\\ 1 __________ --1. ___________ Revision 1f8: (Surnm~of Changes) (A) Revised 125VDC battery end cell voltage to 1.80VDC, and added electrolyte temperature correction factor, of + 50 F for assurance of proper voltage at the load. (B) Revised battery cell sizing work sheets to reflect changes. (C) Revised load tabulation to conform with actual load. (D) Added provision for future load growth, based on battery capacity and/or required DC load terminal voltages. (E) Added enclosure G, H & I. (F) Typed the entire calculation for clarity. Revision #9: (Summary of Changes)

1.

Revised design basis to include S.B.O. load.

2.

Added design guide NUMARC 87-00.

3.

Added additional positive plate values.

4.

Added battery capacity verification section for S.B.O. loads. Revision #10: (Summary of Changes)

1.

Revised electrolyte temperature to 60oF.

2.

Revised battery cell sizing work sheets to reflect changes.

3.

Revised load tabulation to remove max. allowable future load growth. Revision #11

1.

Revised load tabulation to remove allowable load growth from 1AD481, 1AD482 & 10D496.

2.

Revised battery cell sizing work sheets to reflect changes.

I PSEG NUCr~E/-dZ---- HOPE CREEK DESIGN ANALYSIS SHEET CALC. NO: E-4.1(Q) 1 REV. 16 PAGE 2 OF 46 I Revision 1:/:12

1.

Revised battery cell slzlng work sheets to reflect changes in electrolyte temperature from 60° to 72°F based on HC TS Amendment no. 118.

2.

Incorporated the following outstanding CD/S: DCR ID DCP ID REV CD NO. REV 4EC03641 00001 000 E00501 00 4EC03641 00002 000 E00501 00 4EC03641 00003 000 EOOS01 00 4EC03641 00004 000 EOOS01 00 4EC03612 00001 000 EOOS01 00 4EC03612 00002 000 EOOS01 00 4EC03612 00003 000 E00501 00 4EC03612 00004 000 E00501 00 4EC03612 00005 000 E00501 00 4EC03612 00006 000 EOOS01 00 4EC03612 00007 000 EOOS01 00 4EC03612 00008 000 EOOS01 00

3.

Added C&D discharge characteristic curve D-8421 for newly installed KCR cell for battery lCD447 and IDD447 (Encl. D).

4.

PIRS # 980324078/980211192 S. Reformatted calculation heading l no revision bar is used. Revision #13: (Summary of Changes)

1.

Incorporated 4EC-3192 80034532 80035807 4EC-3674 80000916 4EC-3513 the following CDS01 CD501 CD501 CD503 CDS13 CDS27 outstanding CDs: Pkg. 1 Pkg. 0 Pkg. 0 Pkg. 1 Pkg. 0 Pkg. 1

2.

Revised load value for FRVS Control Panels lAC285 and 1BC285 (Enclosure AI Sht. 5 and 6)1 based on the incoming supply fuse rating.

3.

Deleted future load growth for HPCI battery 10D421 (Enclosure HI Sht. 2).

4.

Added Sheet 6 of Enclosure E entitled 'Heat Values, LCU-27 Jar and Cover'. Revision bars were not used due to extensive changes. i I PSEG NUCr~E/-dZ---- HOPE CREEK DESIGN ANALYSIS SHEET CALC. NO: E-4.1(Q) 1 REV. 16 PAGE 2 OF 46 I Revision 1:/:12

1.

Revised battery cell slzlng work sheets to reflect changes in electrolyte temperature from 60° to 72°F based on HC TS Amendment no. 118.

2.

Incorporated the following outstanding CD/S: DCR ID DCP ID REV CD NO. REV 4EC03641 00001 000 E00501 00 4EC03641 00002 000 E00501 00 4EC03641 00003 000 EOOS01 00 4EC03641 00004 000 EOOS01 00 4EC03612 00001 000 EOOS01 00 4EC03612 00002 000 EOOS01 00 4EC03612 00003 000 E00501 00 4EC03612 00004 000 E00501 00 4EC03612 00005 000 E00501 00 4EC03612 00006 000 EOOS01 00 4EC03612 00007 000 EOOS01 00 4EC03612 00008 000 EOOS01 00

3.

Added C&D discharge characteristic curve D-8421 for newly installed KCR cell for battery lCD447 and IDD447 (Encl. D).

4.

PIRS # 980324078/980211192 S. Reformatted calculation heading l no revision bar is used. Revision #13: (Summary of Changes)

1.

Incorporated 4EC-3192 80034532 80035807 4EC-3674 80000916 4EC-3513 the following CDS01 CD501 CD501 CD503 CDS13 CDS27 outstanding CDs: Pkg. 1 Pkg. 0 Pkg. 0 Pkg. 1 Pkg. 0 Pkg. 1

2.

Revised load value for FRVS Control Panels lAC285 and 1BC285 (Enclosure AI Sht. 5 and 6)1 based on the incoming supply fuse rating.

3.

Deleted future load growth for HPCI battery 10D421 (Enclosure HI Sht. 2).

4.

Added Sheet 6 of Enclosure E entitled 'Heat Values, LCU-27 Jar and Cover'. Revision bars were not used due to extensive changes. i

HOPE CREEK DESIGt~ ANALYSIS SdEET CALC. NO: E-4.1(Q) i REV. Ie i PAGE 3 Of 4(; I PSEG NlTciJi!~~R --=r.------ L-____ Revision 14

1.

Incorporated 80046840 80028591 Revision 15 the following outstanding CDs: ADE0001 Pkg. 0 ADE0011 Pkg. 0

1.

Incorporated the following Outstanding ADs: 80040594ROE045RO -Removal of Hope Creek RPV Head Spray 80071938ROE001RO -Add a Time Delay to the "A" RHR Min Flow Valve H1BC-BC-HV-F007A Close Logic 80072434ROE001RO -Add a Time Delay to the "B" RHR Min Flow Valve HIBC-BC-HV-F007B Close Logic 80072435ROEOOIRO -Add a Time Delay to the "C" RHR Min Flow Valve HIBC-BC-HV-F007C Close Logic 80072436ROE001RO -Add a Time Delay to the "D" RHR Min Flow Valve HIBC-BC-HV-F007D Close Logic 80074765ROEOOIRO -To Replace Bailey RTD/V Converter with NUS model RTD2000-7403-02/N Converter 80078163ROE229Rl -Replacement of 480V AKR Breakers 80078171ROE121RO 80078171ROE122RO 80078171ROE124RO 80078171ROE125RO 80078171ROE126RO 80078171ROE127RO -Replacement of 480V AKR Breakers 80081223ROE002RO -Hope Creek "A" & "B" FPC Pump Mods 80085435ROE182RO 80085435ROE183RO 80085435ROE186RO -Replacement of 480V AKR Breakers 80085456ROE601RO 80085456ROE603RO 80085456ROE604RO 80085456ROE609RO 80085456ROE610RO 80085456ROE612RO 80085456ROE614RO -Replacement of 480V AKR Breakers HOPE CREEK DESIGt~ ANALYSIS SdEET CALC. NO: E-4.1(Q) i REV. Ie i PAGE 3 Of 4(; I PSEG NlTciJi!~~R --=r.------ L-____ Revision 14

1.

Incorporated 80046840 80028591 Revision 15 the following outstanding CDs: ADE0001 Pkg. 0 ADE0011 Pkg. 0

1.

Incorporated the following Outstanding ADs: 80040594ROE045RO -Removal of Hope Creek RPV Head Spray 80071938ROE001RO -Add a Time Delay to the "A" RHR Min Flow Valve H1BC-BC-HV-F007A Close Logic 80072434ROE001RO -Add a Time Delay to the "B" RHR Min Flow Valve HIBC-BC-HV-F007B Close Logic 80072435ROEOOIRO -Add a Time Delay to the "C" RHR Min Flow Valve HIBC-BC-HV-F007C Close Logic 80072436ROE001RO -Add a Time Delay to the "D" RHR Min Flow Valve HIBC-BC-HV-F007D Close Logic 80074765ROEOOIRO -To Replace Bailey RTD/V Converter with NUS model RTD2000-7403-02/N Converter 80078163ROE229Rl -Replacement of 480V AKR Breakers 80078171ROE121RO 80078171ROE122RO 80078171ROE124RO 80078171ROE125RO 80078171ROE126RO 80078171ROE127RO -Replacement of 480V AKR Breakers 80081223ROE002RO -Hope Creek "A" & "B" FPC Pump Mods 80085435ROE182RO 80085435ROE183RO 80085435ROE186RO -Replacement of 480V AKR Breakers 80085456ROE601RO 80085456ROE603RO 80085456ROE604RO 80085456ROE609RO 80085456ROE610RO 80085456ROE612RO 80085456ROE614RO -Replacement of 480V AKR Breakers

r PSEG NUCLEAR I HOPE CREEK I L __

2.

Incorporated the following Pending ADs: 80042273ROE036RO -FRVS Heater and Humidity Circuitry Deletion 80078171ROE120RO 80078171ROE123RO -Replacement of 480V AKR Breakers 80078355ROE273RO -Replacement of 125VDC & 250VDC AKR Breakers 80085435ROE175RO B0085435ROE176RO BOOB5435ROE177RO 80085435ROE178RO 80085435ROE179RO 80085435ROE180RO 80085435ROE181RO 80085435ROE184RO 80085435ROE185RO 80085435ROE187RO 80085435ROE188RO -Replacement of 480V AKR Breakers 80085456ROE602RO 80085456rOe605RO 800B5456ROE606RO 80085456ROE607RO 80085456ROE608RO 80085456ROE611RO 800B5456ROE613RO 80085456ROE615RO -Replacement of 480V AKR Breakers 80089827RIE030RO -Hope Creek Turbine Building 137'EL Hot Maintenance Shop Installation

3.

The following additional changes were made: 3.1 To clarify how the loads are tabulated on batteries lAD411, 1BD411, 1CD411 and 1DD411, a new row was added to the battery loading tables providing the total load on panels 1AD417, 1BD417, 1CD417 and 1DD417 (Pages 11, 14, 17, & 20). 3.2 The incorporated ADs inadvertently missed necessary changes in load descriptions in the Determination of SBO Loads for Batteries 1A(B,C,D)D411. This revision makes the necessary changes (pages 33, 34, 36, 37, 39, 40, 42 and 43). 3.3 Enclosure C: This revision transferred pages 4 through 7 to Excel spreadsheets to improve clarity. During this process several minor issues related to Tables II, III, IV and V were addressed

3.3.1 Issue

AD 80042273ROE36RO inadvertently missed deleting the Reactor Building FRVS heating coils. r PSEG NUCLEAR I HOPE CREEK I L __

2.

Incorporated the following Pending ADs: 80042273ROE036RO -FRVS Heater and Humidity Circuitry Deletion 80078171ROE120RO 80078171ROE123RO -Replacement of 480V AKR Breakers 80078355ROE273RO -Replacement of 125VDC & 250VDC AKR Breakers 80085435ROE175RO B0085435ROE176RO BOOB5435ROE177RO 80085435ROE178RO 80085435ROE179RO 80085435ROE180RO 80085435ROE181RO 80085435ROE184RO 80085435ROE185RO 80085435ROE187RO 80085435ROE188RO -Replacement of 480V AKR Breakers 80085456ROE602RO 80085456rOe605RO 800B5456ROE606RO 80085456ROE607RO 80085456ROE608RO 80085456ROE611RO 800B5456ROE613RO 80085456ROE615RO -Replacement of 480V AKR Breakers 80089827RIE030RO -Hope Creek Turbine Building 137'EL Hot Maintenance Shop Installation

3.

The following additional changes were made: 3.1 To clarify how the loads are tabulated on batteries lAD411, 1BD411, 1CD411 and 1DD411, a new row was added to the battery loading tables providing the total load on panels 1AD417, 1BD417, 1CD417 and 1DD417 (Pages 11, 14, 17, & 20). 3.2 The incorporated ADs inadvertently missed necessary changes in load descriptions in the Determination of SBO Loads for Batteries 1A(B,C,D)D411. This revision makes the necessary changes (pages 33, 34, 36, 37, 39, 40, 42 and 43). 3.3 Enclosure C: This revision transferred pages 4 through 7 to Excel spreadsheets to improve clarity. During this process several minor issues related to Tables II, III, IV and V were addressed

3.3.1 Issue

AD 80042273ROE36RO inadvertently missed deleting the Reactor Building FRVS heating coils.

PSEG NUCLEAR I-lOPE CREEK DESIGN ANALYSIS SHEET L _ CALC. NO: E-4.1(Q) II REV. 16 PAGE 5 OF 46 ! Response: delete all of the breakers associated with the Reactor Building FRVS heating coils.

3.3.2 Issue

Breaker Replacent DCPs 80078163, 80078171, 80085435, 80085456 included ADs to change the battery loading calc due to the change in electrical load of the Trip/Close coils and the current sensor. An example of one of those ADs is 80085435ROE175RO. Breaker Replacement DCP 80065876 inadvertently did not include similar ADs. Response: The electrical load represented by the new breakers is slightly less than the original breakers (0.064 A continuous and 1.6A during Trip for each breaker). Since the new load is less, the battery loading margin is increased. The inadvertent omission of the ADs in 80065876 does not negatively impact station equipment. This revision makes the necessary changes to the battery loading calc resulting from replacing all the breakers, including the ones in 80065876. 3.4 Revision 14 of the calculation does not include any "future load growth" margin for the battery load tabulation tables for batteries 1A(B, C, C)411. Therefore, each time that a station modification changes the total load on these tables, the associated lead-acid battery sizing work sheets need to be recalculated. Adding a "future load growth" margin to the tables can reduce the number of times that the battery sizing work sheets need to be recalculated. This revision reduces existing "load growth" margins for various inverters and adds the reduced margin to a new "load growth" margin line item in the battery load tabulation tables. It is important to note that the added and subtracted margins are equal in magnitude and therefore, do not impact the total battery loading. Page 11 in AD 80078355ROE273RO summarizes the margin changes. 3.5 References 8 thru 10 have been added. 3.6 Enclosures J and K have been added. Revision bars are not used in Enclosures J and K. Revision 16 Summary of Changes

1.

Incorporated the following Outstanding Ads: 80095056ROE02RO HPCI vertical Board Add a new Recorder to Display RX Wide Range Level and Pressure Incorporated the addition of load on Table III of Enclosure G (Page 6 of 6) Updated Table titled, "IE Analog" for additional load of Enclosure G (Page 4 of 6) PSEG NUCLEAR I-lOPE CREEK DESIGN ANALYSIS SHEET L _ CALC. NO: E-4.1(Q) II REV. 16 PAGE 5 OF 46 ! Response: delete all of the breakers associated with the Reactor Building FRVS heating coils.

3.3.2 Issue

Breaker Replacent DCPs 80078163, 80078171, 80085435, 80085456 included ADs to change the battery loading calc due to the change in electrical load of the Trip/Close coils and the current sensor. An example of one of those ADs is 80085435ROE175RO. Breaker Replacement DCP 80065876 inadvertently did not include similar ADs. Response: The electrical load represented by the new breakers is slightly less than the original breakers (0.064 A continuous and 1.6A during Trip for each breaker). Since the new load is less, the battery loading margin is increased. The inadvertent omission of the ADs in 80065876 does not negatively impact station equipment. This revision makes the necessary changes to the battery loading calc resulting from replacing all the breakers, including the ones in 80065876. 3.4 Revision 14 of the calculation does not include any "future load growth" margin for the battery load tabulation tables for batteries 1A(B, C, C)411. Therefore, each time that a station modification changes the total load on these tables, the associated lead-acid battery sizing work sheets need to be recalculated. Adding a "future load growth" margin to the tables can reduce the number of times that the battery sizing work sheets need to be recalculated. This revision reduces existing "load growth" margins for various inverters and adds the reduced margin to a new "load growth" margin line item in the battery load tabulation tables. It is important to note that the added and subtracted margins are equal in magnitude and therefore, do not impact the total battery loading. Page 11 in AD 80078355ROE273RO summarizes the margin changes. 3.5 References 8 thru 10 have been added. 3.6 Enclosures J and K have been added. Revision bars are not used in Enclosures J and K. Revision 16 Summary of Changes

1.

Incorporated the following Outstanding Ads: 80095056ROE02RO HPCI vertical Board Add a new Recorder to Display RX Wide Range Level and Pressure Incorporated the addition of load on Table III of Enclosure G (Page 6 of 6) Updated Table titled, "IE Analog" for additional load of Enclosure G (Page 4 of 6)

r---------*--*------*------ ---~E~~-GN-A-~ALYSIS - [---cALC. NO i~~(~, I PSEGNUCLEAR HOPE CREEK SHEET PAGE 6 OF 11 (i J Updated DIS'r. PANEL lAJ482 under "Load Due to lAC655" for additional load 80092738ROEOIRO Hope Creek Remote Shutdown Panel Indicator/Recorder Replacement Incorporated the reduction of load on Ckt. 04 for Panel lAJ481 Incorporated the addition of load on Ckt. 04 for Panel IBJ481 Incorporated the reduction of load on Ckt. 04 for Panel IDJ481 80065305ROE03RO Hope Creek Core Monitoring System Replacement Incorporated the reduction of load on Ckt. 06 for Panel 10J485 Incorporated the increase of load on Ckt. 07 for Panel 10J485 Updated Enclosure L to include, Explanation of Load on 10J485

2.

Updated typographical error in the Header section of Enclosure A (Pages 1, 5-10, & 12) to reflect "CALC. NO" as E-4.1(Q) and not E-7.7(Q) as previously displayed. This typographical error was noted in pending AD 80083637ROE02RO, which has not been incorporated into this major revision.

3.

For clarity, the following pages were converted from Word to Excel: Enclosure A, Pages 5-10. r---------*--*------*------ ---~E~~-GN-A-~ALYSIS - [---cALC. NO i~~(~, I PSEGNUCLEAR HOPE CREEK SHEET PAGE 6 OF 11 (i J Updated DIS'r. PANEL lAJ482 under "Load Due to lAC655" for additional load 80092738ROEOIRO Hope Creek Remote Shutdown Panel Indicator/Recorder Replacement Incorporated the reduction of load on Ckt. 04 for Panel lAJ481 Incorporated the addition of load on Ckt. 04 for Panel IBJ481 Incorporated the reduction of load on Ckt. 04 for Panel IDJ481 80065305ROE03RO Hope Creek Core Monitoring System Replacement Incorporated the reduction of load on Ckt. 06 for Panel 10J485 Incorporated the increase of load on Ckt. 07 for Panel 10J485 Updated Enclosure L to include, Explanation of Load on 10J485

2.

Updated typographical error in the Header section of Enclosure A (Pages 1, 5-10, & 12) to reflect "CALC. NO" as E-4.1(Q) and not E-7.7(Q) as previously displayed. This typographical error was noted in pending AD 80083637ROE02RO, which has not been incorporated into this major revision.

3.

For clarity, the following pages were converted from Word to Excel: Enclosure A, Pages 5-10.

I HOPE CREEK DESIGN ANALYSIS REV 16 I I

PSEG NUCLiA-R---I:----

,'------- CALC. NO: E-4J(Q) I I ___ SHEF_"T ___ --'I_ PAGE 7 OF 46 j WARNING THIS DOCUMENT HAS BEEN PREPARED USING ELECTRONIC MEDIA. FUTURE CHANGES TO 'rHIS DOCUMENT SHALL BE MADE BY RETRIEVING SOFTWARE FROM DCRMS AND SAVING CHANGES TO THE SOFTWARE UNDER THE REVISED DCRMS FILE. MEDIA I.D. NO: REVISION LEVEL: TITLE: MEDIA QUANTITY NO: SOFTWARE TITLE: E-4.1(Q) 15 HC CLASS 1E 125 VDC STATION BATTERY & CHARGER SIZING. 1 MICROSOFT WORD MICROSOFT EXCEL I HOPE CREEK DESIGN ANALYSIS REV 16 I I

PSEG NUCLiA-R---I:----

,'------- CALC. NO: E-4J(Q) I I ___ SHEF_"T ___ --'I_ PAGE 7 OF 46 j WARNING THIS DOCUMENT HAS BEEN PREPARED USING ELECTRONIC MEDIA. FUTURE CHANGES TO 'rHIS DOCUMENT SHALL BE MADE BY RETRIEVING SOFTWARE FROM DCRMS AND SAVING CHANGES TO THE SOFTWARE UNDER THE REVISED DCRMS FILE. MEDIA I.D. NO: REVISION LEVEL: TITLE: MEDIA QUANTITY NO: SOFTWARE TITLE: E-4.1(Q) 15 HC CLASS 1E 125 VDC STATION BATTERY & CHARGER SIZING. 1 MICROSOFT WORD MICROSOFT EXCEL

PSEG NUCLEAR HOPE CREEK DESJ~N AN~-L-Y-S-IS--_[ SHEET CALC. NO: E-4.1 CQ} REV. 16 PAGE 8 OF 46 DESIGN BASIS: All Class 1E 12SV batteyies shall be capable of supplying the continuous and emergency DC loads as well as SBO (Station Blackout) loads for four (4) hours without charger support. Built in load margin, referred to as "future load growth" in this calculation, is incoporated into the battery loading calculation. The built in margins are adjusted when station design changes add or delete load on the battery to keep the total calculated battery load constant. As long as the load changes do not result in any negative load margins, the lead-acid battery sizing worksheet results are conservative and valid. ASSUMPTIONS MADE:

1.

End of discharge cell voltage: 1.80V

2.

Battery voltage limits: 108 volts to 140 volts

3.

Battery & charger are connected to the DC sys. at all times.

4.

Minimum Electrolyte temp: 72°F

5.

Battery recharging time: 12 hrs.

6.

Battery recharging voltage: 2.33V/cell

7.

Design Margin for battery sizing: See sizing calc.

8.

Aging factor for battery sizing: 1.25

9.

Battery floating voltage: 2.25 V/Cell

10.

Rounding of numerical values is used for ease of calculating and to add conservatism (example: tabulated loads used in battery sizing). DESIGN GUIDE: IEEE 485-1978, NUMARC 87-00

REFERENCES:

1.

C&D catalog "switchgear control batteries & chargers" section 12-300 and C&D stationary batteries for swgr. & Aux. pwr. section 12-237.

2.

Gould Cat. GB 3387-B.

3.

Diesel loading chart calc. No. E-9(Q)

4.

GE elementaries for NSSS.

5.

Data from diesel generator vendor drawing (M18(Q)-354(8) 7).

6.

Data from ITE bulletin IB-8.2.7-4 page 9

7.

E-0009-1 sht. 1,2 & 4, E-0006-1 & E-0018-1 sht. 1 & 2, E-0012-1 sht. 1,2,4

8.

VTD 327933, Masterpact NT/NW Universal Power Circuit Breakers

9.

VTD 430588, Engineered Replacement Component for GE AKR-30 Switchgear Circuit Breaker

10.

VTD 430587, Instruction Manual for NLI/Square D Masterpact DC Breaker with Sure-Trip DC-2000 Trip Unit Type LGSB5 PSEG NUCLEAR HOPE CREEK DESJ~N AN~-L-Y-S-IS--_[ SHEET CALC. NO: E-4.1 CQ} REV. 16 PAGE 8 OF 46 DESIGN BASIS: All Class 1E 12SV batteyies shall be capable of supplying the continuous and emergency DC loads as well as SBO (Station Blackout) loads for four (4) hours without charger support. Built in load margin, referred to as "future load growth" in this calculation, is incoporated into the battery loading calculation. The built in margins are adjusted when station design changes add or delete load on the battery to keep the total calculated battery load constant. As long as the load changes do not result in any negative load margins, the lead-acid battery sizing worksheet results are conservative and valid. ASSUMPTIONS MADE:

1.

End of discharge cell voltage: 1.80V

2.

Battery voltage limits: 108 volts to 140 volts

3.

Battery & charger are connected to the DC sys. at all times.

4.

Minimum Electrolyte temp: 72°F

5.

Battery recharging time: 12 hrs.

6.

Battery recharging voltage: 2.33V/cell

7.

Design Margin for battery sizing: See sizing calc.

8.

Aging factor for battery sizing: 1.25

9.

Battery floating voltage: 2.25 V/Cell

10.

Rounding of numerical values is used for ease of calculating and to add conservatism (example: tabulated loads used in battery sizing). DESIGN GUIDE: IEEE 485-1978, NUMARC 87-00

REFERENCES:

1.

C&D catalog "switchgear control batteries & chargers" section 12-300 and C&D stationary batteries for swgr. & Aux. pwr. section 12-237.

2.

Gould Cat. GB 3387-B.

3.

Diesel loading chart calc. No. E-9(Q)

4.

GE elementaries for NSSS.

5.

Data from diesel generator vendor drawing (M18(Q)-354(8) 7).

6.

Data from ITE bulletin IB-8.2.7-4 page 9

7.

E-0009-1 sht. 1,2 & 4, E-0006-1 & E-0018-1 sht. 1 & 2, E-0012-1 sht. 1,2,4

8.

VTD 327933, Masterpact NT/NW Universal Power Circuit Breakers

9.

VTD 430588, Engineered Replacement Component for GE AKR-30 Switchgear Circuit Breaker

10.

VTD 430587, Instruction Manual for NLI/Square D Masterpact DC Breaker with Sure-Trip DC-2000 Trip Unit Type LGSB5

.. -'-.----;..:;-~--'--.----[-.-----.. -.-----... ----,".. *.. ---*-*-~,--,-~--T-.. -:-.:::-t.*-*---:,:;-I I PSEG NUI..-LI:JL I Cjo.IJC.1~O. E-r.l(Q}, HOPE CREEY~ DESIGN ANALYSIS I REV. 16 I SHEET I rAGE 9 OF 46 J _ __. ___________ J_._. __... _. ____________ _ ENCLOSURES:

1.

. Enclosure A - Inverter load on batteries.

2.

Enclosure B - C&D typical discharge characteristic, D-841-0, dated 5-5-86.

3.

Enclosure C - Description of Breaker operation.

4.

Enclosure D - C&D typical discharge characteristic D-842, rev.l, dated 4-2-87 for cell Model: KCR.

5.

Enclosure E - C&D LCU-27 specification memo's.

6.

Enclosure F - C&D KCR-15 specification.

7.

Enclosure G - Letter from Bailey Controls, dated 9/28/84

8.

Enclosure H - HPCI & RCIC control power loads on 125V batteries.

9.

Enclosure I - Determination of 125VDC loads on vertical boards.

10.

Enclosure J - Masterpact DC Breaker Type LGSB5 UV Trip Coil Power Consumption.

11.

Enclosure K - Margin Analysis

12.

Enclosure L - Explanation of Load on 10J485 .. -'-.----;..:;-~--'--.----[-.-----.. -.-----... ----,".. *.. ---*-*-~,--,-~--T-.. -:-.:::-t.*-*---:,:;-I I PSEG NUI..-LI:JL I Cjo.IJC.1~O. E-r.l(Q}, HOPE CREEY~ DESIGN ANALYSIS I REV. 16 I SHEET I rAGE 9 OF 46 J _ __. ___________ J_._. __... _. ____________ _ ENCLOSURES:

1.

. Enclosure A - Inverter load on batteries.

2.

Enclosure B - C&D typical discharge characteristic, D-841-0, dated 5-5-86.

3.

Enclosure C - Description of Breaker operation.

4.

Enclosure D - C&D typical discharge characteristic D-842, rev.l, dated 4-2-87 for cell Model: KCR.

5.

Enclosure E - C&D LCU-27 specification memo's.

6.

Enclosure F - C&D KCR-15 specification.

7.

Enclosure G - Letter from Bailey Controls, dated 9/28/84

8.

Enclosure H - HPCI & RCIC control power loads on 125V batteries.

9.

Enclosure I - Determination of 125VDC loads on vertical boards.

10.

Enclosure J - Masterpact DC Breaker Type LGSB5 UV Trip Coil Power Consumption.

11.

Enclosure K - Margin Analysis

12.

Enclosure L - Explanation of Load on 10J485

[

.-----.-.--.---.---~-----------**-**--*---*-l-*---.... ---.... ---------------.-.'.

PSEG NUCLEAh J__ CALC. NO: E-4.1(Q'; i HOPE CREEI:~ DESIGK ANALYSIS REV. l6 ! I SHEET PAGEIOOF46 I L...______ Typical Discharge Characteristics Battery Type: LCu-27 Ref: C&D D-841-0, dated 5-5 See Encl. Band E AMPS/POSITIVE PLATE (CORRESPONDS TO:

1. 80v FINAL TIME (IN MIN. )

CELL VOLTAGE) 1 108.50 2 108.00 58 66.00 59 65.50 60 65.00 179 36.25 180 36.00 238 29.78 239 29.70 240 29.62 [

.-----.-.--.---.---~-----------**-**--*---*-l-*---.... ---.... ---------------.-.'.

PSEG NUCLEAh J__ CALC. NO: E-4.1(Q'; i HOPE CREEI:~ DESIGK ANALYSIS REV. l6 ! I SHEET PAGEIOOF46 I L...______ Typical Discharge Characteristics Battery Type: LCu-27 Ref: C&D D-841-0, dated 5-5 See Encl. Band E AMPS/POSITIVE PLATE (CORRESPONDS TO:

1. 80v FINAL TIME (IN MIN. )

CELL VOLTAGE) 1 108.50 2 108.00 58 66.00 59 65.50 60 65.00 179 36.25 180 36.00 238 29.78 239 29.70 240 29.62

I PSEG NUCLEAR HOPE CREEK ITEM LOAD DESCRIPTION 1 CL 1E INST AC PWa SUP 11'.0481 2 CL 1E INST AC PWa SUP 1AD482 3 PI'. SYS AC PWa SUP 100496 4.0 125VDC DIST PNL 1AD417 4.a 4.16K1l SWGR 101'.401 CONT PWR 4.b DSL GllN FIELD FLASH PWR lAC420,421,422.423 4.c 480V UNIT SUB 10B410 & 450 CONT PWR 4.d 250voc HPCI SYS NCC 100251 4.e REACT RECIRC PMP BKR TRIP 1AN205,IBN205 4.f DIV I RHR&CS VERT BD IOC617 4.g INBO MN STH ISLO VLV VERT BO lOC622 4.h RPS TRIP SYS VERT BO 10c609 4.i HPCI RELY VERT BO 10C620

4. j DSL GEN CONT PWR lAC420,421,422,423 4.k REACT BLO UNIT COOLR CONT PNL lAC28l 4.1 125VDC SWGR 10D410 CONT PWa 4.m REDliN REACT CONT SYS lOC601 4.n FUTURE LOAD GROWTH TOTAL PNL lA0417 5

BREAKER U/V TRIP COIL RANDOM LOAD TOTAL EQUIPMENT RATING KIll'. lIMPS lIMPS FULL LD INRUSH 20 180.0 20 180.0 20 180.0 1.2 120.0 50.0 50.0 0.9 54.0 0.3 varies 0.2 10.0 3.6 3.6 0.7 0.7 0.4 0.4 7.9 7.9 5.0 5.0 4.5 4.5 0.7 0.7 ~ 8.0 16.0 ~ DESIGN ANALYSIS SHEET CHANNEL "A" 125 VDC LOAD TABULATION FOR BATTERY BANK 1AD'11 LOAD DURATION 0~13 13-60 60-120 2-10 10 40 SEC. SEC. SEC. MIN. MIN. 87.0 87.0 87.0 87.0 87.0 75.0 75.0 75.0 75.0 75.0 49.0 49.0 49.0 49.0 49.0 26.2 121.2 61.2 1.2 1.2 50.0 21.7 54.9 0.9 0.9 0.9 7.6 7.6 3.2 4.9 3.2 10.2 0.2 0.2 0.2 0.2 3.6 3.6 3.6 3.6 3.6 0.7 0.7 0.7 0.7 0.7 0.4 0.4 0.4 0.4 0.4 7.9 7.9 7.9 7.9 7.9 5.0 5.0 5.0 5.0 5.0 4.5 4.5 4.5 4.5 4.5 0.7 0.7 0.7 0.7 0.7 B.O B.O 8.0 8.0 8.0 7.2 2.0 # 2.0 # 2.0 i 2.0 # 153.7 216.7 98.3 40.0 38.3 0.2 0.2 0.2 0.2 0.2 364.9 427.9 309.5 251.2 249.5 40~60 60-240 MIN. MIN. 87.0 98.0 75.0 82.5 49.0 56.0 1.2 1.2 0.9 0.9 5.4 6.4 0.2 0.2 3.6 3.6 0.7 0.7 0.4 0.4 7.9 7.9 5.0 5.0 4.5 4.5 0.7 0.7 8.0 8.0 2.0 i 2.7 40.5 42.2 0.2 0.2 251. 7 278.9 RANDOM I MIN. 8.0 B.O 27.0 35.0 CALC. NO. E~4.1(~) REV. 16 PAGE 11 OF 46 l REFERENCE I ENCL A I ENCL A i ENCL A I I ENCL C PMOI8Q-0354(8) I ENCL C I ENCL H I I PE009-0040-6 I ENCL I I PNI-B21-1090-62 (10, 17) PN1~C71-1020~6(6) I ENCL I I PM018Q-0354{B) PM780AQ-0151 PE121Q-0082 PNI-C22-1050-22(3),RNDM 8A LO FOR INRSIl I I ENCL J ENCL C A RNDM 1 MIN LD OF 35A OCCURS BTIq 10&240 MIN I PSEG NUCLEAR HOPE CREEK ITEM LOAD DESCRIPTION 1 CL 1E INST AC l?Wlt SUP 11'.0481 2 CL 1E INST AC l?Wlt SUP lAD482 3 PI'. SYS AC l?Wlt SUP 100496 4.0 125VDC DIST PNL 1AD417 4.a 4.16K1l SWGR 101'.401 CONT PWR 4.b DSL GllN FIELD FLASH PWR lAC420,421,422.423 4.c 480V UNIT SUB 10B410 & 450 CONT PWR 4.d 250VDC HPCI SYS NCC 100251 4.e REACT RECIRC PMP BKR TRIP 1AN205,IBN205 4.f DIV I RHR&CS VERT BD IOC617 4.g INBO MN STH ISLO VLV VERT BO lOC622 4.h RPS TRIP SYS VERT BO 10c609 4.i HPCI RELY VERT ED 10C620

4. j DSL GEN CONT PWR lAC42D,421,422,423 4.k REACT BLO UNIT COOLR CONT PNL lAC28l 4.1 125VDC SWGR 10D410 CONT l?Wlt 4.m REDllN REACT CONT SYS lOC601 4.n FUTURE LOAD GROWTH TOTAL PNL lA0417 5

BREAKER U/V TRIP COIL RANDOM LOAD TOTAL EQUIPMENT RATING KIll'. lIMPS lIMPS FULL LD INRUSH 20 180.0 20 180.0 20 180.0 1.2 120.0 50.0 50.0 0.9 54.0 0.3 varies 0.2 10.0 3.6 3.6 0.7 0.7 0.4 0.4 7.9 7.9 5.0 5.0 4.5 4.5 0.7 0.7 ~ 8.0 16.0 ~ DESIGN ANALYSIS SHEET CHANNEL "A" 125 VDC LOAD TABULATION FOR BATTERY BANK 1AD'11 LOAD DURATION 0~13 13-60 60-120 2-10 10 40 SEC. SEC. SEC. MIN. MIN. 87.0 87.0 87.0 87.0 87.0 75.0 75.0 75.0 75.0 75.0 49.0 49.0 49.0 49.0 49.0 26.2 121.2 61.2 1.2 1.2 50.0 21.7 54.9 0.9 0.9 0.9 7.6 7.6 3.2 4.9 3.2 10.2 0.2 0.2 0.2 0.2 3.6 3.6 3.6 3.6 3.6 0.7 0.7 0.7 0.7 0.7 0.4 0.4 0.4 0.4 0.4 7.9 7.9 7.9 7.9 7.9 5.0 5.0 5.0 5.0 5.0 4.5 4.5 4.5 4.5 4.5 0.7 0.7 0.7 0.7 0.7 8.0 8.0 8.0 8.0 8.0 7.2 2.0 # 2.0 # 2.0 i 2.0 # 153.7 216.7 98.3 40.0 38.3 0.2 0.2 0.2 0.2 0.2 364.9 427.9 309.5 251.2 249.5 40~60 60-240 MIN. MIN. 87.0 98.0 75.0 82.5 49.0 56.0 1.2 1.2 0.9 0.9 5.4 6.4 0.2 0.2 3.6 3.6 0.7 0.7 0.4 0.4 7.9 7.9 5.0 5.0 4.5 4.5 0.7 0.7 8.0 8.0 2.0 i 2.7 40.5 42.2 0.2 0.2 251. 7 278.9 RANDOM I MIN. 8.0 B.O 27.0 35.0 CALC. NO. E~4.1(c:') REV. 16 PAGE 11 OF 46 1 REFERENCE I ENCL A I ENCL A i ENCL A I ENCL C PMOI8Q-0354(8) I ENCL C I ENCL H I I PE009-0040-6 I ENCL I I PNI-B21-1090-62 (10, 17) PN1~C71-1020~6(6) I ENCL I I PM018Q-0354(8) PM780AQ-0151 PE121Q-0082 PNI-C22-1050-22 (3),RNDM 811 LO FOR INRSll I I ENCL J ENCL C A RNDM 1 MIN LD OF 3511 OCCURS BTIq 10&240 MIN

C~ALC. NO: E-4.1 (Q) DESIGN ANALYSIS REV. 16 SHEET PAGE 12 OF 46 P-SEG NUCLEAR --------~I HOPE CREEK I -L ______

T--------------

428A 310A L 0 A D A M P E R E S BATTERY LOAD PROFILE (SIMPLIFIED) BATTERY 1AD411 (CHANNEL "A") 252A 10 40 TIME IN MINUTES RANDOM ONE MINUTE LOAD OF 35A 279A C~ALC. NO: E-4.1 (Q) DESIGN ANALYSIS REV. 16 SHEET PAGE 12 OF 46 P-SEG NUCLEAR --------~I HOPE CREEK I -L ______

T--------------

428A 310A L 0 A D A M P E R E S BATTERY LOAD PROFILE (SIMPLIFIED) BATTERY 1AD411 (CHANNEL "A") 252A 10 40 TIME IN MINUTES RANDOM ONE MINUTE LOAD OF 35A 279A

OUTSTANDING CHAt~GES MUST 8F~ ATTACHED FOR WORI<ING COpy 20040614 SIZING t..F-AO*ACID BATTERIES FOR GTAIIONARY APPl.ICA'l"IONS 1I1'~~r'1:Ilyt. TftIII. 'r ~.u Voltll9_ t, e'V C.ll "fIJI "1 eel) 'l'YPI t III I~) III

14)

I-gr-Ul ,"cu ClIpaolty n 'I' Mill ""C" Chang ** n Dul'&t..lon Th,. to> llnl! ISIII ~./Po, (R.,I "".d (.0.<1 at P.r1od Qt 8'O~~"l\\ Dr Pnl.Dd ' *..,.1' ** 1 '.lOPern) IlIIinutlll) '.LlNt") IU,): O~IIJ:' 11:0,1 StoHIIJI 1 *. nnt riod only - 1 .~.~.,"uulr tllall Al, Gil-to lIobicm ~. 1 Mo '12.8 jU.~o..... :2!l' Ni-I ToNl-10 fl. 'S(. IS5l': Std 485*1997 E-4.1(Q), REV. 16 ~&l!.: 13 of 46 sind l!y, 1'1 $ fin (/ SA. d. J<} --,..;r-* ~.~ired I.a~ion S~a. 13 I. If AI ~pou elv. Plat ** or (3)111'11)

  • Rn.d Mop Hn P(I' VAlli **

lieg-V""IUII 3.-Q*lr SIC 1 TOU.l I

J,q~

s,cl$~Qn2

  • Plut ""'CI '.rll14. only* Ut.3 j., gr.n.,.. than -'3, gO ~o &fIIU an a.

1 111. II::Ul 111 112. ~ "1-I T-II1+lIh Z 108' t:ltJ ~,Cl b 2 A,2. S/O AlI.Al,oolll! H:/. ,.. Na.. I,IA' ~'"

-6 Ii SIC SUb'l'Oe

..':l,Ql;" I, ~q 2 U .:2 1<1'1'1 '.0 alo:>lij,on J

  • f1ra~ Tn>: ** p,rAOd' OI\\ly - If M
  • I IIrutn ~lIaI> Ill, ItO to lito ~lOl\\

1 1.1.1/.1..'1 I M-O' 1J211' HI- 'I'-HhlU+H'* ItO ,&, ()O

t... I(~

~ .uo ':lJr. ,u*A1*"/IK 112_ I 'I'_tlD- .~" .11.... ~ '.Rn l Ill. :tAr:2 lU-l\\lI- ~"J" Ii' IU. 6 go r....,* Sir T .J. (}r;) -"":1fi2' IH II\\I.b 'l'Ot I;:.,"ilfi-2,"'~ l -oro~jl -~q 9.cI:1~n ~ - palt "our Fer.d, only. %t M U Srutu tlNin M, go t.. lilC~i ~n $, 1 ,\\1. AFO. of'Z loll- 'l'-"1+..* M4- ,,',2. I 't, /.1.:5: 2 /Wo II'J 102-101. "/I 1012. I 'l'.MlI.HHII4. "'70 .'?,,t:1rj J 113. ""'~'ri:S" M3- :<r:t T.Hhllt. "HZ q ;" 4 M' <t M-I\\J* 1-Mt. Ifl" .M ** 0, (;,'15 &lIe Sub 'roc .!It ';!; f:' £> q'J.. 4 'I'ot.r- -11, "_-Q>- S.ctltm ~

  • ri~JIt F1va P....i.<HI. QII Y - Ir M.** 9¥.,,~.. r

~hln 1I!i, 110 to SlotiOn6. AI-AI*O. loll_ '1'-"10.... "$. 2 A:i. ~-'A1' 101.. ""M30f0 I * ~t1I'. 1 Ill* ,\\3.1.3. loll. . ToMl.NhKS* 4 A ** 1.4'1.)- M~_ ,.*114.101$* 5 1\\li. M*..... M~. T.MS. StC allb 'rot S Total Soct10n,

  • f1rtt Six hd<!cli only
  • I, A7.i.. ~r ** ~u than"'. liD to 8.ocion 7.

1 /11. 101'0. Hl_ 'l"-Ml..... H'. ~ A.2. A:i.i\\l. K!j. 'I'.. K.a **** HI_ Ill* M*A2* HI- '1'.. '16-**** HI-4 ,..0 ."';1(). Mb 'r.,"~.KS.Mf' 5 M;- AS-..... MS. '1'."50"'_ M-M-M. T.Hh S.c: Sub 'l'1I~ f 'l'ot:al see~lon.,. l'1ut hv*n Periodil only* U M -ls* gnater than A1, go to Snatl<m 8. ~ Al. Al.. a.. MI. T.M1+, ** H7 2 1\\:1-AlI*AI. H2- 'ToH2. ".M7 l . ~l. Ill-All-MI. '1'_"'3+ *** M' 4 Ii~* M-A]. M~. T-HH... !of1 T AS* 1IS*lIto Hh ,.-Ha+I1l+H1* 6 A6-AS*AS. Mh

  • "-""."7.

7 ~7. '\\1-1.6-M?- ,.-1,\\7_ Sec SUb'l'O~ 7 T"otif Randa.. 8q'U,pun. t..<>.d Only I if no.cltd R AA*.~5 AII"O. :1 ~ HIl-I IT.MI\\. 10P.fio ".';l~ M.'<1mum a."tiol'l Sua lit Q.2"

  • Ran<lbm SoCUQn jfII~ HI)*"

" IInoC","u:Ud SU ** JUffilOI USOI) 1t'¢ K '!'allo>> Co¥"r'UI~)I Duign HAr9IUI~ K -'91119 I'.. ~tortu, ~

  • (15) 1:1.,rj'1.

Whon ~h. con.u.~ 1151 10 great ** than".... ndud cdl ohe, th.. neXt lnUn' ".U 11 req"ULnl1. 1.3 tAl \\of PO.Uiye Plat... lSI - Anltnn HO'lU. I'II_utert ~.ll (17) t.t<<.. 2 Z i. rbquired. ~equ1r.d aoll d.~ !161 JiJtJu: J)#6/~N mil/Min; ~flllt..I. NOr lJiJ 1.£:$:) rNfW I. t>s (Sy.) 'Plilt.IlPSI1I?, Figure 3-Cell sb:lng worksheet OUTSTANDING CHAt~GES MUST 8F~ ATTACHED FOR WORI<ING COpy 20040614 SIZING t..F-AO*ACID BATTERIES FOR GTAIIONARY APPl.ICA'l"IONS 1I1'~~r'1:Ilyt. TftIII. 'r ~.u Voltll9_ t, e'V C.ll "fIJI "1 eel) 'l'YPI t III I~) III

14)

I-gr-Ul ,"cu ClIpaolty n 'I' Mill ""C" Chang ** n Dul'&t..lon Th,. to> llnl! ISIII ~./Po, (R.,I "".d (.0.<1 at P.r1od Qt 8'O~~"l\\ Dr Pnl.Dd ' *..,.1' ** 1 '.lOPern) IlIIinutlll) '.LlNt") IU,): O~IIJ:' 11:0,1 StoHIIJI 1 *. nnt riod only - 1 .~.~.,"uulr tllall Al, Gil-to lIobicm ~. 1 Mo '12.8 jU.~o..... :2!l' Ni-I ToNl-10 fl. 'S(. IS5l': Std 485*1997 E-4.1(Q), REV. 16 ~&l!.: 13 of 46 sind l!y, 1'1 $ fin (/ SA. d. J<} --,..;r-* ~.~ired I.a~ion S~a. 13 I. If AI ~pou elv. Plat ** or (3)111'11)

  • Rn.d Mop Hn P(I' VAlli **

lieg-V""IUII 3.-Q*lr SIC 1 TOU.l I

J,q~

s,cl$~Qn2

  • Plut ""'CI '.rll14. only* Ut.3 j., gr.n.,.. than -'3, gO ~o &fIIU an a.

1 111. II::Ul 111 112. ~ "1-I T-II1+lIh Z 108' t:ltJ ~,Cl b 2 A,2. S/O AlI.Al,oolll! H:/. ,.. Na.. I,IA' ~'"

-6 Ii SIC SUb'l'Oe

..':l,Ql;" I, ~q 2 U .:2 1<1'1'1 '.0 alo:>lij,on J

  • f1ra~ Tn>: ** p,rAOd' OI\\ly - If M
  • I IIrutn ~lIaI> Ill, ItO to lito ~lOl\\

1 1.1.1/.1..'1 I M-O' 1J211' HI- 'I'-HhlU+H'* ItO ,&, ()O

t... I(~

~ .uo ':lJr. ,u*A1*"/IK 112_ I 'I'_tlD- .~" .11.... ~ '.Rn l Ill. :tAr:2 lU-l\\lI- ~"J" Ii' IU. 6 go r....,* Sir T .J. (}r;) -"":1fi2' IH II\\I.b 'l'Ot I;:.,"ilfi-2,"'~ l -oro~jl -~q 9.cI:1~n ~ - palt "our Fer.d, only. %t M U Srutu tlNin M, go t.. lilC~i ~n $, 1 ,\\1. AFO. of'Z loll- 'l'-"1+..* M4- ,,',2. I 't, /.1.:5: 2 /Wo II'J 102-101. "/I 1012. I 'l'.MlI.HHII4. "'70 .'?,,t:1rj J 113. ""'~'ri:S" M3- :<r:t T.Hhllt. "HZ q ;" 4 M' <t M-I\\J* 1-Mt. Ifl" .M ** 0, (;,'15 &lIe Sub 'roc .!It ';!; f:' £> q'J.. 4 'I'ot.r- -11, "_-Q>- S.ctltm ~

  • ri~JIt F1va P....i.<HI. QII Y - Ir M.** 9¥.,,~.. r

~hln 1I!i, 110 to SlotiOn6. AI-AI*O. loll_ '1'-"10.... "$. 2 A:i. ~-'A1' 101.. ""M30f0 I * ~t1I'. 1 Ill* ,\\3.1.3. loll. . ToMl.NhKS* 4 A ** 1.4'1.)- M~_ ,.*114.101$* 5 1\\li. M*..... M~. T.MS. StC allb 'rot S Total Soct10n,

  • f1rtt Six hd<!cli only
  • I, A7.i.. ~r ** ~u than"'. liD to 8.ocion 7.

1 /11. 101'0. Hl_ 'l"-Ml..... H'. ~ A.2. A:i.i\\l. K!j. 'I'.. K.a **** HI_ Ill* M*A2* HI- '1'.. '16-**** HI-4 ,..0 ."';1(). Mb 'r.,"~.KS.Mf' 5 M;- AS-..... MS. '1'."50"'_ M-M-M. T.Hh S.c: Sub 'l'1I~ f 'l'ot:al see~lon.,. l'1ut hv*n Periodil only* U M -ls* gnater than A1, go to Snatl<m 8. ~ Al. Al.. a.. MI. T.M1+, ** H7 2 1\\:1-AlI*AI. H2- 'ToH2. ".M7 l . ~l. Ill-All-MI. '1'_"'3+ *** M' 4 Ii~* M-A]. M~. T-HH... !of1 T AS* 1IS*lIto Hh ,.-Ha+I1l+H1* 6 A6-AS*AS. Mh

  • "-""."7.

7 ~7. '\\1-1.6-M?- ,.-1,\\7_ Sec SUb'l'O~ 7 T"otif Randa.. 8q'U,pun. t..<>.d Only I if no.cltd R AA*.~5 AII"O. :1 ~ HIl-I IT.MI\\. 10P.fio ".';l~ M.'<1mum a."tiol'l Sua lit Q.2"

  • Ran<lbm SoCUQn jfII~ HI)*"

" IInoC","u:Ud SU ** JUffilOI USOI) 1t'¢ K '!'allo>> Co¥"r'UI~)I Duign HAr9IUI~ K -'91119 I'.. ~tortu, ~

  • (15) 1:1.,rj'1.

Whon ~h. con.u.~ 1151 10 great ** than".... ndud cdl ohe, th.. neXt lnUn' ".U 11 req"ULnl1. 1.3 tAl \\of PO.Uiye Plat... lSI - Anltnn HO'lU. I'II_utert ~.ll (17) t.t<<.. 2 Z i. rbquired. ~equ1r.d aoll d.~ !161 JiJtJu: J)#6/~N mil/Min; ~flllt..I. NOr lJiJ 1.£:$:) rNfW I. t>s (Sy.) 'Plilt.IlPSI1I?, Figure 3-Cell sb:lng worksheet

PSEG NUCLEAR HOPE CREEK IceEM LOAD DESCRIPTION 1 CL 1E INST AC PWR SUP INVTR IBD481 2 CL IE INST AC PWR SUP INVTR IBD482 3 125VDC DIST PNL lBD417 3.a 4.16KV IE SWGR 10A402 CONT PWR 3.0 DIESEL GEN. FIELD FLASHING PWR 1BC420. 421.422.423 3.e 480V 1E UNIT SUB 1CB420&460 CONT PWR 3.d RK~CT RECIRC PUMP BRKRS TRIP 1CN.1DN205 3.e DIV II RHR & CS VERT BeARD 10C618 3.f 250VDC RCIC SYS MCC 10D261 3.g RPS TRIP SYS VERT BOARD 10C611 3.h REMOTE SHUTDOWN PNL 1 OC3 9 9 3.i Rcrc RELAY VERT BeARD 10C621

3. j AUTO DEPRESS RELAY VERT ED lOC628 3.k REi'.C BLDG UNIT COOLER CONT PNL 1BC281 3.1 DIESEL GEN CONTL PWR 1BC420.421.422.423 3.m 125VDC SI'JGR 10D420 CaNT PWR 3.n REDUNDANT REACTIVITY CONT SYS 10C602 3.0 aCIC MIN FLOW BYPASS TC SUPPR I

POOL VLV IBD-SV-F019 IPWR FROM 10C399) 3.p FUTURE LOAD GROWTH TOT.',L PNL IBD417 4 BREAKER U/V TRIP COIL RANDOM LOAD TOTAL EQUIPMENT R~TING lNA AMPS AMPS FULL LD INRUSH 20.0 180.0 20.0 180.0 1.2 120.0 50.0 50.0 0.9 54.0 0.2 10.0 3.7 3.7 0.3 VARIES 0.4 0.4 0.5 0.5 8.4 8.4 2.8 2.8 4.5 4.5 5.0 5.0 0.7 0.7 8.0 16.0 1.6 l.6 DESIGN ANALYSIS SHEET o 13 SEC. ~04. 0 86.0 26.2 50.0 18.5 10.2 3.7 5.2 0.* 0.5 8.4 2.8 4.5 5.0 0.7 8.0 1.6 7.6 153.3 0.2 343.5 CFL'I}.'NEL "B" 12 5 VDC LOAD TABULF.TION FOR BATTERY BANK 1BD411 13 60 60 120 2 10 SEC. SEC. MIN. 104.0 104.0 104.0 86.0 86.0 86.0 121.2 61.2 1.2 54.9 0.9 0.9 0.2 0.2 0.2 3.7 3.7 3.7 5.2 3.2 3.7 0.4 0.4 0.4 0.5 0.5 0.5 8.4 8.4 8.4 2.S 2.8 2.8 4.5 4.5 4.5 5.0 5.0 5.0 0.7 0.7 0.7 8.0 8.0 8.0 1.6 1.6 1.6 3.2 3.2 3.2 220.3 104.3 44.8 0.2 0.2 0.2 410.5 294.5 235.0 LOAD DURATION 10 40 40 41 E 60 MIN. MIN. MIN. 104.0 104.0 104.0 86.0 86.0 86.0 1.2 1.2 1.2 0.9 0.9 0.9 0.2 0.2 0.2 3.7 3.7 3.7 4.2 3.7 3.7 0.4 0.4 0.4 0.5 0.5 0.5 8.4 8.4 8.4 2.8 2.8 2.8 4.5 4.5 4.5 5.0 5.0 5.0 0.7 0.7 0.7 8.0 B.O 8.0 1.6 1.6 1.6 3.2 3.2 3.2 45.3 44.8 44.8 0.2 0.2 0.2 235.5 235.0 235.0 60 240 Rl'.NDOM MIN. LOAD 212.5 93.5 1.2 0.9 0.2 3.7 f::.7 0.4 0.5 8.4 2.8 4.5 5.0 0.7 8.0 8.0 1.6 4.2 46.8 8.0 0.2 27.0 253.0 35.0 CALC. NO. E-4.l(Q) R~\\1. 1[} PAGE l/: Of 46 I t I

t'\\l!>t"J51<15NC.!'!J ENCL A ENCL A I

PE120Q-00l3 I ENCL C P11018Q-0354 181 ENCL C PE009-0040-E ENeL I I PNI-C71-1020-6(S} E6604,6067.6C84,6089,SD CAT 1972 ENCL I PN1-B21-1060-63 (I} t FM78'oAQ-0003 I !PM018Q-0354 (8) I PE121Q- 0007 C22-1C50-22141.ruHlH LD OF 8A ?C~ I INRSH PJ603Q-0069-2 mCL J I ENCL C ~ RNDM IMIN LD OF 35A OCRS BTiil 10&240 I MIN I j PSEG NUCLEAR HOPE CREEK I7EM LOAD DESCRIPTION 1 CL 1E INST AC PWR SUP INVTR IBD481 2 CL IE INST AC PWR SUP INVTR IBD482 3 125VDC DIST PNL IBD417 3.a 4.16KV IE SWGR 10M02 CONT PWR 3.0 DIESEL GEN. FIELD FLASHING PWR IBC420. 421.422.423 3.e 480V 1E UNIT SUB lCB420&460 CONT PWR 3.d RK~CT RECIRC PUMP BRKRS TRIP lCN.lDN205 3.e DIV II RHR & CS VERT BOARD 10C618 3.f 250VDC RCIC SYS MCC 10D261 3.g RPS TRIP SYS VERT BOARD 10C611 3.h REMOTE SHUTDOWN PNL 10C399 3.i Rcrc RELAY VERT BOARD 10C621

3. j AUTO DEPRESS RELAY VERT BD 10C628 3.k RID'.C BLDG UNIT COOLER CONT PNL 1BC281 3.1 DIESEL GEN CONTL PWR IBC420.421.422.423 3.m 125VDC SI'JGR 100420 CaNT PWR 3.n REDUNDANT REACTIVITY CONT SYS 10C602 3.0 aCIC MIN FLOW BYPASS TO SUPPR I

POOL VLV 1BD-SV-F019 IPWR FaOM 10C399) 3.p FUTURE LOAD GROWTH TOT.',L PNL 1BD417 4 BREAKER U IV TRIP COIL RANDOM LOAD TOTAL EQUIPMENT R~TING lNA AMPS AMPS FULL LD INRUSH 20.0 180.0 20.0 180.0 1.2 120.0 50.0 50.0 0.9 54.0 0.2 10.0 3.7 3.7 0.3 VARIES 0.4 0.4 0.5 0.5 8.4 8.4 2.8 2.8 4.5 4.5 5.0 5.0 0.7 0.7 8.0 16.0 1.6 1.6 DESIGN ANALYSIS SHEET 0 13 SEC. ~04. 0 86.0 26.2 50.0 18.5 10.2 3.7 5.2 0..;, 0.5 8.4 2.8 4.5 5.0 0.7 8.0 1.6 7.6 153.3 0.2 343.5 CFL'I}.'NEL "B" 12 5 VDC LOAD TABULF.TION FOR BATTERY BANK 1BD411 13 60 60 120 2-10 SEC. SEC. MIN. 104.0 104.0 104.0 86.0 86.0 86.0 121.2 61.2 1.2 54.9 0.9 0.9 0.2 0.2 0.2 3.7 3.7 3.7 5.2 3.2 3.7 0.4 0.4 0.4 0.5 0.5 0.5 8.4 8.4 8.4 2.8 2.8 2.8 4.5 4.5 4.5 5.0 5.0 5.0 0.7 0.7 0.7 8.0 8.0 8.0 1.6 1.6 1.6 3.2 3.2 3.2 220.3 104.3 44.8 0.2 0.2 0.2 410.5 294.5 235.0 LOAD DURATION 10-40 40-41 MIN. MIN. 104.0 104.0 86.0 86.0 1.2 1.2 0.9 0.9 0.2 0.2 3.7 3.7 4.2 3.7 0.4 0.4 0.5 0.5 8.4 8.4 2.8 2.8 4.5 4.5 5.0 5.0 0.7 0.7 8.0 8.0 1.6 1.6 3.2 3.2 45.3 44.8 0.2 0.2 235.5 235.0 4:-60 60-240 Rl'.NDOM MIN. MIN. LOAD 104.0 212.5 86.0 93.5 1.2 1.2 0.9 0.9 0.2 0.2 3.7 3.7 3.7 4:.7 0.4 0.4 0.5 0.5 8.4 8.4 2.8 2.8 4.5 4.5 5.0 5.0 0.7 0.7 8.0 8.0 8.0 1.6 1.6 3.2 4.2 44.8 46.8 8.0 0.2 0.2 27.0 235.0 253.0 35.0 CALC. NO. E-4.l(Q) R~\\1. 1[} PAGE l/: Of 46 t I

Kl!it"J51<15NC.!'!J ENCL A ENCL A I

PE120Q-00l3 I ENCL C P11018Q-0354 181 ENCL C PE009-0040-E ENCL I I PNI-C71-1020-6(S} E6604,6067.6C84,6089,SD CAT 1972 ENCL I PN1-B21-1060-63 (I} t FM78'oAQ-0003 I !PM018Q-0354 (8) I PE121Q- 0007 C22-1C50-22141.ruHlH LD OF 3A FC~ I INRSH PJ603Q-0069-2 I EUCL J ENCL C RNDl1 IMIN LD OF 35/\\ aCRS BT,i 10&240 I MIN I j

I-'-:;~~;::".. -'-':-:-:--;:;--~--*---*---~----------------*--r-*-*----'--(~---1---:;*-~~-:-:-------l 11 k)t'-., l,JU\\~LEAR I I ,JuL, N,). E-Ir,I(Q) ! ! HOP[ CREEK I DESIGN ANALYSIS I' REV, 16 i I I SHEET PAGE 15 OF 46 J

.-----~ ---------~-.-.-----~-

L o A D A M p E R E S 411A 294.5A BATTERY LOAD PROFILE (SIMPLIFIED) BATTERY 1B0411 (CHANNEL:..Jf} 235A TIME IN MINUTES RANDOM ONE MINUTE LOAD OF 35A 253A I-'-:;~~;::".. -'-':-:-:--;:;--~--*---*---~----------------*--r-*-*----'--(~---1---:;*-~~-:-:-------l 11 k)t'-., l,JU\\~LEAR I I ,JuL, N,). E-Ir,I(Q) ! ! HOP[ CREEK I DESIGN ANALYSIS I' REV, 16 i I I SHEET PAGE 15 OF 46 J

.-----~ ---------~-.-.-----~-

L o A D A M p E R E S 411A 294.5A BATTERY LOAD PROFILE (SIMPLIFIED) BATTERY 1B0411 (CHANNEL:..Jf} 235A TIME IN MINUTES RANDOM ONE MINUTE LOAD OF 35A 253A

OUET,tlJ~iJ!NG CHANGES MUSi BE An ACHF.D FOR WORKING COpy 2004061", SIZING LeAD,ACID I3ATTERIt!S F'OR STATIONARY APPI.ICATIONS III (21 ~",,<;r1~l'.t wad '1';'9 to llncl o~ 1I.~tlol\\ 'I' "'in lIat" IfAlIlllipa/Pcl.,1t,.1 or tiP to IIleUan J..< 0 0'0 tD SlaUon I. ."1 Selleion ** fltlt Sil< pu1DdI OI\\ly

  • H 1.7

~. T.Mh",M1 'To1l2+ *** H? l 1\\1. Al*A2-111-or"II4+... II* 1 II? II?*A'- H? T*M?- NoT$': 7)E616-N rIlftRGItJ 61fAI..t. NOT MF t.E$S -rIfflN I. V$" CSX) 1'ERIFSAI{ Figure 3-Coll sl:zln9 worksheet L_"""'mj'moll--jlil-----------------------------rlll_IIIP""'ii'~ I~sr; SId 48[;"1 99'1 E*A.1(Q), 1~t:V. 16 1'11/.' 16 of 46 .... '1"ir'fld Q~o11io" $,,,,, 13). (,..., -klitive ~)Ilt.. or 1311o:1U)

  • ht~ AIIrp

/11'1 POI Valuu NI1l' vaTu.. --:~ '1 'I -Ie*,el'

      • 'R' I.....

'll l? I.h" 2",",}" It. ~'2.. ~*fJl Ii:I--:-CD'j 1;. ~ 'Z. !2 ~/~ ~ -:I, "'1.1 1"2.11'.11' 'llc:P?_ 2;l!50 I).S-o-J4:~H .J:: OJ!7_ t;:. In;;; OUET,tlJ~iJ!NG CHANGES MUSi BE An ACHF.D FOR WORKING COpy 2004061", SIZING LeAD,ACID I3ATTERIt!S F'OR STATIONARY APPI.ICATIONS III (21 ~",,<;r1~l'.t wad '1';'9 to llncl o~ 1I.~tlol\\ 'I' "'in lIat" IfAlIlllipa/Pcl.,1t,.1 or tiP to IIleUan J..< 0 0'0 tD SlaUon I. ."1 Selleion ** fltlt Sil< pu1DdI OI\\ly

  • H 1.7

~. T.Mh",M1 'To1l2+ *** H? l 1\\1. Al*A2-111-or"II4+... II* 1 II? II?*A'- H? T*M?- NoT$': 7)E616-N rIlftRGItJ 61fAI..t. NOT MF t.E$S -rIfflN I. V$" CSX) 1'ERIFSAI{ Figure 3-Coll sl:zln9 worksheet L_"""'mj'moll--jlil-----------------------------rlll_IIIP""'ii'~ I~sr; SId 48[;"1 99'1 E*A.1(Q), 1~t:V. 16 1'11/.' 16 of 46 .... '1"ir'fld Q~o11io" $,,,,, 13). (,..., -klitive ~)Ilt.. or 1311o:1U)

  • ht~ AIIrp

/11'1 POI Valuu NI1l' vaTu.. --:~ '1 'I -Ie*,el'

      • 'R' I.....

'll l? I.h" 2",",}" It. ~'2.. ~*fJl Ii:I--:-CD'j 1;. ~ 'Z. !2 ~/~ ~ -:I, "'1.1 1"2.11'.11' 'llc:P?_ 2;l!50 I).S-o-J4:~H .J:: OJ!7_ t;:. In;;;

PSEG NUCLEAR HOPE CREEK IT3.'1 LOAD DESCRIPTION 1 ST'A SEC SYS AC PiI"R SUP INV OAD4 9 5 2 C:.. 2.E INST AC POWER SUPPLY INV lCD481 3 125 VDC DISTR PNL 1CD417 3.a 4.16KV IE SWGR 10A403 CONT PWR 3.b DIESEL GEN' FIELD FLASH PWR I I 1CC420,421,422,423 3.e 480V lE UNIT SUB 10B430&10B470 CONT PWR 3.0. 125 VDC SWGR 10D430 CONT PWR 3.e DIVISION III RHR & CS VERT BD 10C641 3.f DIESEL GEN CONTL PWR 1CC420,421,422,423 3.g REAC BLDG UNIT COOLER CONT PNL 1CC281 13 -9 FUTURE LOAD GROWTH -!'O'L:!:I.L PNL lCD';;'17 4 3REAK~ U!V TRIP COIL RANDOM LOAD TOTAL EQUIPMENT RATING KVA AMPS A..'1PS FULL LD INRUSH 20.0 180.0 20.0 180.0 1.2 120.0 50.0 50.0 0.9 27.0 0.7 0.7 5.2 5.2 5.0 5.0 4.5 4.5 DESIGN ANALYSIS SHEET CHANNEL "C" 125 VDC LOAD TABULATION FOR BA'I'TERY BANK 1CD411 0-13 13-60 60-120 2-10 SEC. SEC. SEC. MIN. 135.0 135.0 135.0 135.0 86.0 86.0 86.0 85.0 26.2 12:.2

61. 2 1.2 50.0 18.5 27.9 27.9 0.9 0.7 0.7 0.7 0.7 5.2 5.2 5.2 5.2 5.0 5.0 5.0 5.0 4.5 4.5 4.5 4.5 9.6 3.2 3.2 3.2 119.7 167.7 107.7 20.7 0.2 0.2 0.2 0.2 340.9 388.9 328.9 241. 9 LOAD DURATION 10-40 40-41 41-60 MIN.

I1IN. I1IN. 135.0 l35.0 135.0 86.0 86.0 86.0 1.2 1.2 1.2 0.9 0.9 0.9 0.7 0.7 0.7 5.2 5.2 5.2 5.0 5.0 5.0 4.5 4.5 4.5 3.2 3.2 3.2 20.7 20.7 20.7 0.2 0.2 0.2 241. 9 241. 9 241. 9 60-240!RANDOl1 I1IN. LOAD 148.0 93.5 1.2 0.9 0.7 5.2 5.0 4.5 3.7 21.2 0.0 0.2 27.0 262.9 27.0 CALC.NO. E-4.1(Q) REV. 16 PAGE 17 OF t:G I I REFERENCE I ENCL A,& CALC E-4.3 ENCL A I I ENCL C I P~!o18Q-0354 (8) I ErlCL C I PE121Q-0007 ENCL I I PM018Q-0354(S) I Pl1780AQ-C002 I I ENCL J I ENCL C RNDl1 1 MIN LD OF 27l\\ CCRS i ETW 10&248 ~IIN PSEG NUCLEAR HOPE CREEK IT3.'1 LOAD DESCRIPTION 1 S T'A SEC SYS AC PoiR SUP INV OAD4 9 5 2 c~ ~E INST AC POWER SUPPLY INV 1CD481 3 125 VDC DISTR PNL 1CD417 3.a 4.16KV IE SWGR lOM03 CONT PWR 3.b DIESEL GEN' FIELD FLASH PWR I I lCC420,421,422,423 3.e 480V lE UNIT SUB 10B430&10B470 CONT PWR 3.0. 125 VDC SWGR 10D430 CONT PWR 3.e DIVISION III RHR & CS VERT BD 10C641 3.f DIESEL GEN CONTL PWR 1CC420,421,422,423 3.g REAC BLDG UNIT COOLER CONT PNL lCC281 13 -9 FUTURE LOAD GROWTH "!'O'L:!:I.L PNL 1CD417 4 3REAK~ U!V TRIP COIL RANDOM LOAD TOTAL EQUIPMENT RATING KVA AMPS AMPS FULL LD INRUSH 20,0 180.0 20.0 180.0 1.2 120.0 50.0 50.0 0.9 27.0 0.7 0.7 5.2 5.2 5.0 5.0 4.5 4.5 DESIGN ANALYSIS SHEET CHANNEL "C" 125 VDC LOAD TABULATION FOR BA'I'TERY BANK 1CD411 0-13 13-60 60-120 2-10 SEC.

SEC, SEC.

MIN. 135.0 135.0 135.0 135.0 86.0 86.0 86.0 85.0 26.2 12:.2

61. 2 1.2 50.0 18.5 27.9 27.9 0.9 0.7 0.7 0.7 0.7 5.2 5.2 5.2 5.2 5.0 5,0 5.0 5.0 4.5 4.5 4.5 4.5 9.6 3.2 3.2 3.2 119.7 167.7 107.7 20.7 0.2 0.2 0.2 0.2 340.9 388.9 328.9 241. 9 LOAD DURATION 10-40 40-41 41-60 MIN.

I1IN. I1IN. 135.0 l35.0 135.0 86.0 86.0 86.0 1.2 1.2 1.2 0.9 0.9 0.9 0.7 0.7 0.7 5.2 5.2 5.2 5.0 5.0 5.0 4.5 4.5 4.5 3.2 3.2 3.2 20.7 20.7 20.7 0.2 0.2 0.2 241. 9 241. 9 241. 9 60-240!RANDOl1 I1IN. LOAD 148.0 93.5 1.2 0.9 0.7 5.2 5.0 4.5 3.7 21.2 0.0 0.2 27.0 262.9 27.0 CALC.NO. E-4.1(Q) REV. 16 PAGE 17 OF I;CJ I I REFERENCE I ENCL A,& CALC E-4.3 ENCL A i I ENCL C I P~!o18Q-0354 (8) I ENCL C I PE121Q-0007 ENCL I I PM018Q-0354 (B) I P11780AQ-COO2 I I ENCL J I I ENCL C I RNDl1 1 MIN LD OF 27r. CCRS i ETW 10&248 ~IIN I

---,- ~~'--'-'---------------'-T-----------'----'-----------'----------~---------------,

.. ->.):_>-... ~. 1 J

I L ~ . t-'t. 1 ./! , pC'-.-~ N'U'r'l EAR I CAT C j- '0',-, 1 * (Q\\.

I-lOPE CREEK I

DESIGN ANAL )':::lS KEY. J 6 I l _______________ L SHEET I PACE 18 OF 4~ 389A 329A L 0 A D A M P E R E S BATTERY LOAD PROFILE BATTERY1CD411 (CHANNEL "C"l 242A 40 TIME IN MINUTES RANDOM ONE MINUTE LOAD OF 27A 263A 239 240 ---,- ~~'--'-'---------------'-T-----------'----'-----------'----------~---------------,

.. ->.):_>-... ~. 1 J

I L ~ . t-'t. 1 ./! , pC'-.-~ N'U'r'l EAR I CAT C j- '0',-, 1 * (Q\\.

I-lOPE CREEK I

DESIGN ANAL )':::lS KEY. J 6 I l _______________ L SHEET I PACE 18 OF 4~ 389A 329A L 0 A D A M P E R E S BATTERY LOAD PROFILE BATTERY1CD411 (CHANNEL "C"l 242A 40 TIME IN MINUTES RANDOM ONE MINUTE LOAD OF 27A 263A 239 240

OUTST AI'-JDlt'.lG CHANGES MUST BE AT; ACHED FOR WORKING COIJY 20040614 SIZING LEAP-ACID SA'ITERIf;S FOR STAT!ONARV APPLICATIONS Changa in tooad '1'il1l' tD ltId of s,ae1Dn SeetlQ'" \\

  • p~ t~t four pn1c
  • Qluy
  • I
D

~6~t'on ** hut ~lv. P*r~~e DrIly. It "', ~. lIrutlr ehAn MI', AI- . u*o. IU. T-Nl.... 1015

  • 2 M*

... ~.I\\

  • foil*

'1'lII"2+... Hr.- ) 11.- 111*1\\;1-loll. ToKht<<+H5-4 1140 "'-1.3.. M'. T_MhM ** I ... ~. II~*".* H'- or-145* c..~oltY.~ T H!n Ut. 16"1 MlIU I plQI fRo, 1 (I~ Sle ~ Tot. ** S.C lub Tot ~ TO~U go to Sectlon " Slctl.cn 6

  • Jllroe 8U~ penodJ only * :~ 11"1 11 gUlter ~h.n Ai, !It> to SootlO1\\ 7.

Seotion, 1 AI-l 1.3-l M-4 A!" ,I.~. 6 lob A? PI ** r, Sac ~ SIC "I Sub 'rot Toul Sub T(lt I~Eg 8td485*1997 Rlquh.d hellion II!... '131*liA)-P<lt1tivl Plott., Ilr m~I'BI - a..t... Mp Hr. 3tSV ~. S9 3.* bD 1l.L.S~' 3 '-() O:.t!:S ,~ oS 15', q~ t)~!Lz.. I. ~.:2. .s;,~9. riI.2"'" .~. ?<" J~. *s

1../22-
2. qZ

.12"SII. ';l.... "'lL ."I,"lH. .. 'K.,'1. ":L t **

    • t R

,\\II-11.'7 1\\1\\-0.:2 '7 MIl. l '1~~. _J Jlt ff.D C? I. /:)~~05 t ** MAx1mum SIO~llln SU6 181.1f. "oJ

  • ltandlll1l Sect'Olf Sae (91
  • Und!l\\:'r't:tea SUI
  • iUS) IlO)

M01E; 1)PS/Ir/tJ J'Ili'tR&-/A) jHIIU NIJ7' dE L.ll$S rHI1I!J I, oS (51.) Pf/te.I/F'SII R riguro 3-Cell sizing worksheet r OUTST AI'-JDlt'.lG CHANGES MUST BE AT; ACHED FOR WORKING COIJY 20040614 SIZING LEAP-ACID SA'ITERIf;S FOR STAT!ONARV APPLICATIONS Changa in tooad '1'il1l' tD ltId of s,ae1Dn SeetlQ'" \\

  • p~ t~t four pn1c
  • Qluy
  • I
D

~6~t'on ** hut ~lv. P*r~~e DrIly. It "', ~. lIrutlr ehAn MI', AI- . u*o. IU. T-Nl.... 1015

  • 2 M*

... ~.I\\

  • foil*

'1'lII"2+... Hr.- ) 11.- 111*1\\;1-loll. ToKht<<+H5-4 1140 "'-1.3.. M'. T_MhM ** I ... ~. II~*".* H'- or-145* c..~oltY.~ T H!n Ut. 16"1 MlIU I plQI fRo, 1 (I~ Sle ~ Tot. ** S.C lub Tot ~ TO~U go to Sectlon " Slctl.cn 6

  • Jllroe 8U~ penodJ only * :~ 11"1 11 gUlter ~h.n Ai, !It> to SootlO1\\ 7.

Seotion, 1 AI-l 1.3-l M-4 A!" ,I.~. 6 lob A? PI ** r, Sac ~ SIC "I Sub 'rot Toul Sub T(lt I~Eg 8td485*1997 Rlquh.d hellion II!... '131*liA)-P<lt1tivl Plott., Ilr m~I'BI - a..t... Mp Hr. 3tSV ~. S9 3.* bD 1l.L.S~' 3 '-() O:.t!:S ,~ oS 15', q~ t)~!Lz.. I. ~.:2. .s;,~9. riI.2"'" .~. ?<" J~. *s

1../22-
2. qZ

.12"SII. ';l.... "'lL ."I,"lH. .. 'K.,'1. ":L t **

    • t R

,\\II-11.'7 1\\1\\-0.:2 '7 MIl. l '1~~. _J Jlt ff.D C? I. /:)~~05 t ** MAx1mum SIO~llln SU6 181.1f. "oJ

  • ltandlll1l Sect'Olf Sae (91
  • Und!l\\:'r't:tea SUI
  • iUS) IlO)

M01E; 1)PS/Ir/tJ J'Ili'tR&-/A) jHIIU NIJ7' dE L.ll$S rHI1I!J I, oS (51.) Pf/te.I/F'SII R riguro 3-Cell sizing worksheet r

PSEG NUCLEAR HOPE CREEK ITEJ'1 LOAD DESCRIPTION 1 CL E INST AC PWR SUP INV 1DD481 2 ?ZSSS COMP AC PWR SUP INV 10D485 3

. 2 SVDC DIS TR PNL 1DD417
3. c..

4.16KV IE SWGR 10A40'!' CONT Pi'1P. 3.n DIESEL GEN FIELD FLASH P~~ lOC4:LU, 4:Ll, 4:l2 t 4:.:!':s 3.c 480V UNIT SUB 10B440&480 CONT ~~ \\3.d REMOTE SHUTDOWN PNL 10C399 3.e DN IV P.HR & CS VERT BOARD 10C640 3.f ~~ STM OUTED ISOL VLV RLY VERT BD lOC623 3.g AUTO DEPRESS RELAY VERT BD 10C631 3.1: 125 VDC Sl~GR 10D440 CONT P'i;R 3.i DIESEL GEN CONT PWR IDC420.421.422.423 3.j ,,:;:ACT BLDG UNIT COOLER CaNT PNL lDC281 3.k I FUTURE LOAD GROWTH TOTAL PNL IDD417 4 BRE.>'KER UfV TRIP COIL R:u.JN-nOM LOAD TOTALS EQUIPMENT RATING KIlA AMPS AMPS FULL LD INRUSH 20.0 180.0 20.0 180.0 1.2 120.0 50.0 50.0 0.9 27.0 3.1 3.1 5.0 5.0 0.7 0.7 1.6 1.6 0.7 0.7 5.0 5.0 4.5 4.5 DESIGN ANALYSIS SHEET CHANNEL "D" 125 VDC LOAD TABULATION FOR BATTERY BANK lDD411 0-l3 13-60 60-120 2-10 SEC. SEC. SEC. MIN. 86.0 86.0 86.0 86.0 137.0 137.0 137.0 137.0 26.2 121. 2 61.2 1.2 50.0 18.5 27.9 27.9 0.9 3.1 3.1 3.1 3.1 5.0 5.0 5.0 5.0 0.7 0.7 0.7 0.7 1.6 1.6 1.6 1.6 0.7 0.7 0.7 0.7 5.0 5.0 5.0 5.0 4.5 4.5 4.5 4.5 9.6 3.2 3.2 3.2 124.9 172.9 112.9 25.9 0.2 0.2 0.2 0.2 348. : 396.1 336.1 249.1 LeAD DURATION 10-40 40-41 41-60 MIN. MIN. MIN. 86.0 86.0 86.0 137.0 137.0 137.0 1.2 1.2 1.2 0.9 0.9 0.9 3.1 3.1 3.1 5.0 5.0 5.0 0.7 0.7 0.7 1.6 1.6 1.6 0.7 0.7 0.7 5.0 5.0 5.0 4.5 4.5 4.5 3.2 3.2 3.2 25.9 25.9 25.9 0.2 0.2 0.2 249.1 249.1 249.1 60-240!Rfu'ID::m MIN.' LOAD 93.5 148.5 1.2 0.9 3.1 5.0 0.7 1.6 0.7

5. C 4.5 3.7 26.4 0.0 0.2 27.0 268.6 27.0 CALC. NO. E-4.1 (\\))

REV. 16 PAGE 20 OF 46 REFERENCE I I EUCL A I I E-JCL A I I ENCL C I I PM01SQ-0354 (S) I I ENCL C E6604-1.E5086-1.S.D.CAT.19721 IENCL I i PNI-B21-1090(6,10,17) I IPN1-B21-1060-63 (1) i IpEl21Q-0007 ?M018Q-035'1 ta) PM78CAQ-0003 EKCL J EKCL C RNDM 1 MIN LD OF 27A OCES BTN 10&240 HIN PSEG NUCLEAR HOPE CREEK ITEJ'1 LOAD DESCRIPTION 1 CL E INST AC PWR SUP INV 1DD481 2 ?ZSSS COMP AC PWR SUP INV 10D485 3

'25VDC DISTR PNL 1DD417 3.c.

4.16KV IE SWGR 10A40'!' CONT Pi'1P. 3.n DIESEL GEN FIELD FLASH P~~ llX,."42U, 421,422 t 42.:S 3.c 480V UNIT SUB 10B440&480 CONT ~~ \\~.d REMOTE SHUTDOWN PNL 10C399 10C640 ~.e DN IV P.HR & CS VERT BOARD 3.f ~'l STM OUTED ISOL VLV RLY VERT BD lQC623 3.g AUTO DEPRESS RELAY VERT BD 10C631 3.1: 125 VDC Sl~GR 10D440 CONT Pl;R 3.i DIESEL GEN CONT PWR 1DC420.421. 422.423 3.j ":;:ACT BLDG UNIT COOLER CONT PNL 1DC281 3.k I ?"0TURE LOAD GROWTH TOTAL PNL IDD417 4 BRE.>'KER UfV TRIP COIL R~-nOM LOAD TOTALS EQUIPMENT RATING KIlA AMPS AMPS FULL LD INRUSH 20.0 180.0 20.0 180. 0 1.2 120. 0 50.0 50.0 0.9 27.0 3.1 3.1 5.0 5.0 0.7 0.7 1.6 1.6 0.7 0.7 5.0 5.0 4.5 4.5 DESIGN ANALYSIS SHEET CHANNEL "D" 125 VDC LOAD TABULATION FOR BATTERY BANK lDD411 0-l3 13-60 60-120 2-10 SEC. SEC. SEC. MIN. 86.0 86.0 86.0 86.0 137.0 137.0 137.0 137.0 26.2 121. 2 61.2 1.2 50.0 18.5 27.9 27.9 0.9 3.1 3.1 3.1 3.1 5.0 5.0 5.0 5.0 0.7 0.7 0.7 0.7 1.6 1.6 1.6 1.6 0.7 0.7 0.7 0.7 5.0 5.0 5.0 5.0 4.5 4.5 4.5 4.5 9.6 3.2 3.2 3.2 124.9 172.9 112.9 25.9 0.2 0.2 0.2 0.2 348. : 396.1 336.1 249.1 LCAD DURATION 10-40 40-41 41-60 MIN. MIN. MIN. 86.0 86.0 86.0 137.0 137.0 137.0 1.2 1.2 1.2 0.9 0.9 0.9 3.1 3.1 3.1 5.0 5.0 5.0 0.7 0.7 0.7 1.6 1.6 1.6 0.7 0.7 0.7 5.0 5.0 5.0 4.5 4.5 4.5 3.2 3.2 3.2 25.9 25.9 25.9 0.2 0.2 0.2 249.1 249.1 249.1 60-240!Rfu'ID::m MIN. I LOAD 93.5 148.5 1.2 0.9 3.1 5.0 0.7 1.6 0.7

5. C 4.5 3.7 26.4 0.0 0.2 27.0 268.6 27.0 CALC. NO. E-4.1 (\\))

REV. 16 PAGE 20 OF 46 REFERENCE I I ENCL A I I E-JCL A I I ENCL C I PMOlSQ-0354 (S) I I ENCL C E6604-1.E5086-1.S.D.CAT. 1977.1 IENCL I I I PNI-B21-1090(6,10,17) 1 IPN1-B21-1060-63 (1) i IpEl21Q-0007 ?M018Q-035'1 ta) PM78CAQ-0003 EKCL J EKCL C RNDM 1 MIN LD OF 27A OCES BTN 10&240 HIN

P ---__ ----------------r---... ------------ -----~-.----.--------------. -.. -.-- PSEGi\\f(..JSLEI,R! I CALC. NO: EA.l (Q) I HOPE CREEK i

)ESrG~;{~~~LYSIS PAGE ~r6;;~ I

__. _____________ ---1 _________. __________ ._~ __________________ J 396A 336A L 0 A D A M p E R E S BATTERY LOAD PROFILE BATTERY 100411 (CHANNEL "0") 249A TIME IN MINUTES RANDOM ONE MINUTE LOAD OF 27A 269A P ---__ ----------------r---... ------------ -----~-.----.--------------. -.. -.-- PSEGi\\f(..JSLEI,R! I CALC. NO: EA.l (Q) I HOPE CREEK i

)ESrG~;{~~~LYSIS PAGE ~r6;;~ I

__. _____________ ---1 _________. __________ ._~ __________________ J 396A 336A L 0 A D A M p E R E S BATTERY LOAD PROFILE BATTERY 100411 (CHANNEL "0") 249A TIME IN MINUTES RANDOM ONE MINUTE LOAD OF 27A 269A

OUTST ANDlr~G CHi-\\~~GES Iv1UST BE A IT ACi-ED FOR WORKING COpy 20040614 SiZING LF.AD*ACIn ~)tl:ITER!eS FOH STI':t'!OHARY APPLICATIONS SeotiOn,

  • PI ~s~ llftVan PH1Q~8 OIIlY -

Ll M Mb M~. H~' 1'14-M~* H'. M7. IIl1ooollo lUI,upment (,Q~Q On 'f 11 n.. d.~, 'Uru to trtd Ol SlQt~on

1. gUUft\\' ~han ~?,

'1'.1'11+... 1017 /OT.. ~+,t.H7 ",,1013, *** X7 '1'.114, *** 1'17 T.M5.M6ttol

  • T*Ki+M?

T-MI).. Cap.dtl'M 't' Min I\\U~~ ('I,) Amp. I"". (R,.l "X' go co a.o~ on ** .11'0 sllb 'I'OC '3 Tocal SUb Tot Total Sac BuD Tot Total go to 6eat~on D. Sill> Tot Total a.J...... au~~~41.......... IEEe SId 485*1997 E-4.1(Q), REV. 16 Rilquil'lOd SIIe. ti>1> s."., il) * (5A)"Po.1t1vt PIAtu 0<: Ill~16Rl * ~t~ AMI' UfO Pel. _\\'~Lo.\\..IItt!t Va.1U.O

~ !l.tS

'.f

c,",..-

~tz.'l _0.5.5' 3.. h'l b.SS' . ~ LS. .,t:.'~ t;.. '12. I..Y 2-JQ'()_~ ~, '2.11. . 1j".K.C; 1:>1. :'J7

2.,,,,2

~ 9a £I,Sh_

  • .~.. 9'\\'

~.'1¥ R'.qq .t. OUTST ANDlr~G CHi-\\~~GES Iv1UST BE A IT ACi-ED FOR WORKING COpy 20040614 SiZING LF.AD*ACIn ~)tl:ITER!eS FOH STI':t'!OHARY APPLICATIONS SeotiOn,

  • PI ~s~ llftVan PH1Q~8 OIIlY -

Ll M Mb M~. H~' 1'14-M~* H'. M7. IIl1ooollo lUI,upment (,Q~Q On 'f 11 n.. d.~, 'Uru to trtd Ol SlQt~on

1. gUUft\\' ~han ~?,

'1'.1'11+... 1017 /OT.. ~+,t.H7 ",,1013, *** X7 '1'.114, *** 1'17 T.M5.M6ttol

  • T*Ki+M?

T-MI).. Cap.dtl'M 't' Min I\\U~~ ('I,) Amp. I"". (R,.l "X' go co a.o~ on ** .11'0 sllb 'I'OC '3 Tocal SUb Tot Total Sac BuD Tot Total go to 6eat~on D. Sill> Tot Total a.J...... au~~~41.......... IEEe SId 485*1997 E-4.1(Q), REV. 16 Rilquil'lOd SIIe. ti>1> s."., il) * (5A)"Po.1t1vt PIAtu 0<: Ill~16Rl * ~t~ AMI' UfO Pel. _\\'~Lo.\\..IItt!t Va.1U.O

~ !l.tS

'.f

c,",..-

~tz.'l _0.5.5' 3.. h'l b.SS' . ~ LS. .,t:.'~ t;.. '12. I..Y 2-JQ'()_~ ~, '2.11. . 1j".K.C; 1:>1. :'J7

2.,,,,2

~ 9a £I,Sh_

  • .~.. 9'\\'

~.'1¥ R'.qq .t.

PSEC NUCLEAR HOPECRLEK CONCLUSION DESIGN ANALYSIS SHEET

    • -*---r-----

I I I ___. ____. ______.L..._ Based upon the battery load profiles and associated sizing calculations. A 1885 Amp hr. @ 8 hr. 27 plates/cell type LCU-27 C&D battery is required. PSEC NUCLEAR HOPECRLEK CONCLUSION DESIGN ANALYSIS SHEET

    • -*---r-----

I I I ___. ____. ______.L..._ Based upon the battery load profiles and associated sizing calculations. A 1885 Amp hr. @ 8 hr. 27 plates/cell type LCU-27 C&D battery is required.

PSEG NUCLEAR HOPE CREEK -I---.

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

I CALC. NO: E-4-.1(Q) I DESIGN ANALYSIS REV. 16] SHEET PAGE 24 or 46 ____________ 1 ___________ _ II BATTERY lCD447 & lDD447 REF: CCN# 272335 Load profile for lCD447 - :eeds class lE inst. power supply lCD482 - see encl. A t.r.l rLI 0:: rLI 75A ~ ~---------------------~ ~ ~ o H o 6U TIME IN MINUTES lCD447 (CH. 'C') 82.5A ~o Load profile for lDD447 - feeds class lE inst. power supply IDD482-see encl. A NOTES: t.r.l rLI 0:: rLI 75A ~ ~----------------------~ ~ ~ o H o 60 TIME IN MINUTES IDD447 (CH. 'D') 82.5A

1.

lCD447 is connected to class lE instrument power supply inverter lCD482. (Ref: Enclosure A).

2.

lDD447 is connected to class 1E instrument power supply inverter lDD482. (Ref: Enclosure A). PSEG NUCLEAR HOPE CREEK -I---.

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

I CALC. NO: E-4-.1(Q) I DESIGN ANALYSIS REV. 16] SHEET PAGE 24 or 46 ____________ 1 ___________ _ II BATTERY lCD447 & lDD447 REF: CCN# 272335 Load profile for lCD447 - :eeds class lE inst. power supply lCD482 - see encl. A t.r.l rLI 0:: rLI 75A ~ ~---------------------~ ~ ~ o H o 6U TIME IN MINUTES lCD447 (CH. 'C') 82.5A ~o Load profile for lDD447 - feeds class lE inst. power supply IDD482-see encl. A NOTES: t.r.l rLI 0:: rLI 75A ~ ~----------------------~ ~ ~ o H o 60 TIME IN MINUTES IDD447 (CH. 'D') 82.5A

1.

lCD447 is connected to class lE instrument power supply inverter lCD482. (Ref: Enclosure A).

2.

lDD447 is connected to class 1E instrument power supply inverter lDD482. (Ref: Enclosure A).

HOPE CREEK DESIGN ANA.LYSIS REV. 16 IPSEG N~jt:~Lj~.t\\.I~--I:I------------r---------CALC-' NO: E-4.1.. (Q)-* SHEET J PAGE 25 OF 46 L TYPICAL DISCHARGE CHARACTERISTICS Battery type: KCR-15 Ref: C&D battery div.: D-842, rev.I, dated 4-2-87, see encl. D Time (MIN>> 60 180 240 AMPs/positive plate (Correspond to 1.80V final cell voltage) 37.3 19.5 16.3 HOPE CREEK DESIGN ANA.LYSIS REV. 16 IPSEG N~jt:~Lj~.t\\.I~--I:I------------r---------CALC-' NO: E-4.1.. (Q)-* SHEET J PAGE 25 OF 46 L TYPICAL DISCHARGE CHARACTERISTICS Battery type: KCR-15 Ref: C&D battery div.: D-842, rev.I, dated 4-2-87, see encl. D Time (MIN>> 60 180 240 AMPs/positive plate (Correspond to 1.80V final cell voltage) 37.3 19.5 16.3

O:JTST ANDING CHANGES ~WST B~ ATTACHED FOR WORKING COpy 2004*0614 SIZING l..eAD-AQlD BATT1!lRI~S FOR STATIONARY Afli"LlCATIONS tElEE SId 485-1997 E-4.1(Q), REV. 16 PNjm, h1rW'/..S!!!.{i.)~ {;,e /..I!J ~~tJ.~ttl I'lIlJlt

  • 26 of 46

~.l: r;.;;n~7~" C:t~tl~;I!I.,/. f() V Call Khf1 t+D,.11 T)/JIIt. Kef( I'h*<l "'~"'ll~~r*'I\\>I.tJ ll.) (3) IH . If) (5) "I 'rr! '\\'Lila to> znII ot hl!UOII ~pall£1:Y., T IUn lIIu Uf,lAllij).fPOal141 or Pn1C)l\\ I--..~... I (._.... ) ia.!nut ** ) (~IIU,*') 11111: ractClrllt,) bcUan *nra \\)Iu)';u ~. 1rl'lI.~.r tl>lIlf A1 --.0 to _~.DII '" a.etlon

  • 'h.t m.. Hr.l.o(u. omy
  • U M 11

.1 '1\\1,,' At-a. "1_ J Ill-4 1140

  • If '" U

,r~.u ella" M AI- .Do I. T. It,.11" Af; "'l.~. HI-T 1'13+ .M' &1Ib Tot NtJ?6'.' /:>£$16111 MIlIeGMJ 5iMa IJtl1" lJe Ui'.$.S,I/Aft} /. tJS' (SIt) J,rt( VP"'; fir?, Figure 3-CeJl sizing worksh9at ~ __................ u......... ftH.................... ~ ...... *-m

¥I WT r I...

R.l/Uill'1ld I.~".u... (3). ('... ).Ioo.hh. Plat,. 01" UI x !C8 I ;,./IlltK Mop !:'.*,o O:JTST ANDING CHANGES ~WST B~ ATTACHED FOR WORKING COpy 2004*0614 SIZING l..eAD-AQlD BATT1!lRI~S FOR STATIONARY Afli"LlCATIONS tElEE SId 485-1997 E-4.1(Q), REV. 16 PNjm, h1rW'/..S!!!.{i.)~ {;,e /..I!J ~~tJ.~ttl I'lIlJlt

  • 26 of 46

~.l: r;.;;n~7~" C:t~tl~;I!I.,/. f() V Call Khf1 t+D,.11 T)/JIIt. Kef( I'h*<l "'~"'ll~~r*'I\\>I.tJ ll.) (3) IH . If) (5) "I 'rr! '\\'Lila to> znII ot hl!UOII ~pall£1:Y., T IUn lIIu Uf,lAllij).fPOal141 or Pn1C)l\\ I--..~... I (._.... ) ia.!nut ** ) (~IIU,*') 11111: ractClrllt,) bcUan *nra \\)Iu)';u ~. 1rl'lI.~.r tl>lIlf A1 --.0 to _~.DII '" a.etlon

  • 'h.t m.. Hr.l.o(u. omy
  • U M 11

.1 '1\\1,,' At-a. "1_ J Ill-4 1140

  • If '" U

,r~.u ella" M AI- .Do I. T. It,.11" Af; "'l.~. HI-T 1'13+ .M' &1Ib Tot NtJ?6'.' /:>£$16111 MIlIeGMJ 5iMa IJtl1" lJe Ui'.$.S,I/Aft} /. tJS' (SIt) J,rt( VP"'; fir?, Figure 3-CeJl sizing worksh9at ~ __................ u......... ftH.................... ~ ...... *-m

¥I WT r I...

R.l/Uill'1ld I.~".u... (3). ('... ).Ioo.hh. Plat,. 01" UI x !C8 I ;,./IlltK Mop !:'.*,o

D'JTST ANDING CHAI\\jGES IvlUST BE ATTACHED f--OR 'N()Rj(II~G COpy 20040614 SIZING LEAD*ACm SATI'ERIf.S FOR STATIONARY APPLICATIONS ¢h.IIngl in \\J;If,d c.JNlltity... T 14111 Rate 1I1.1M\\l8/f>oj IIL,.I or IEEE Std 48f>.19IJ7 E-4,1(Q), REV, 16 RequlrRd &eution BiM" Il).,,,.I_I>o.iUvt PlAt ** O~ IJIIC('.I

  • Rat" AMp

~l" ~'=? .2,01 S.e Silk! 'I'Ot

II Tot.. ~

~ A, ~Al*~. AJ. 100 TillJ". &.~uon '1'111(1:+ **,"'- 'l'-N24Hh" ** "'3*~.

1013, T*Ml+m-

'1'-114' $a!: Sub Tot T"tIT SeCl).tm 5 - ralt ?l v. Pauectl On4Y

  • H1I6 Ui IInatel' thin M. IJO tit ieot111111 -"

~ "1. '\\1.. 0_ )41* 10"'1+.*. H~' ~ -;u~ ,u-Al' ~. -M2+.,.MS. l Al. I\\).~, IU. 'I""'l~I{HIU. 4 M-Al-M~- ~'I'.Ht.. M~- I A,. .\\5.1.4. MS- 'T..,nll Sac 1I\\1.t1 'I'Ilt. S 'l'ot"T S.I:~Hln ~

  • PHlt &l~ PanoeJ 0\\1 y*U1.'u nUn than Ai, !lO to S.~UCln 7.

~ ~l. 1,l-0. 10110 ""10..,/01.- ~ AJ. AlI-,U. H:l.

  • -':'_N:I **,.H6-l II)*

IIl*AlI. 141. ToNS.... 101,0 \\ 1\\4. M-AJ. T'~+M&*M'. S ... 5. A5~"" loiS- '1'_"1+)1', Ai. "'~*M. 1'1,. 'f.llh s.c SUb Tet onlY' 1/ A8 11 lIu"tar than A

  • 110 to flIohl)lI e.

Hlo "oU'.*. 117

  • T.M~ *. _.M7 ToM ***,.M7 MS.

Nn;;: ;l)e..$;.tN rrJM"/~.sHilL/.. Nttr 13£ tESS 7HAN J.()stS'Y.) PEl? oPJlI1{ Figure 3-Call sizIng worksheet ~_~...................... _~~u:~m6B........ ~...................... 4~........ rn~.r........... D'JTST ANDING CHAI\\jGES IvlUST BE ATTACHED f--OR 'N()Rj(II~G COpy 20040614 SIZING LEAD*ACm SATI'ERIf.S FOR STATIONARY APPLICATIONS ¢h.IIngl in \\J;If,d c.JNlltity... T 14111 Rate 1I1.1M\\l8/f>oj IIL,.I or IEEE Std 48f>.19IJ7 E-4,1(Q), REV, 16 RequlrRd &eution BiM" Il).,,,.I_I>o.iUvt PlAt ** O~ IJIIC('.I

  • Rat" AMp

~l" ~'=? .2,01 S.e Silk! 'I'Ot

II Tot.. ~

~ A, ~Al*~. AJ. 100 TillJ". &.~uon '1'111(1:+ **,"'- 'l'-N24Hh" ** "'3*~.

1013, T*Ml+m-

'1'-114' $a!: Sub Tot T"tIT SeCl).tm 5 - ralt ?l v. Pauectl On4Y

  • H1I6 Ui IInatel' thin M. IJO tit ieot111111 -"

~ "1. '\\1.. 0_ )41* 10"'1+.*. H~' ~ -;u~ ,u-Al' ~. -M2+.,.MS. l Al. I\\).~, IU. 'I""'l~I{HIU. 4 M-Al-M~- ~'I'.Ht.. M~- I A,. .\\5.1.4. MS- 'T..,nll Sac 1I\\1.t1 'I'Ilt. S 'l'ot"T S.I:~Hln ~

  • PHlt &l~ PanoeJ 0\\1 y*U1.'u nUn than Ai, !lO to S.~UCln 7.

~ ~l. 1,l-0. 10110 ""10..,/01.- ~ AJ. AlI-,U. H:l.

  • -':'_N:I **,.H6-l II)*

IIl*AlI. 141. ToNS.... 101,0 \\ 1\\4. M-AJ. T'~+M&*M'. S ... 5. A5~"" loiS- '1'_"1+)1', Ai. "'~*M. 1'1,. 'f.llh s.c SUb Tet onlY' 1/ A8 11 lIu"tar than A

  • 110 to flIohl)lI e.

Hlo "oU'.*. 117

  • T.M~ *. _.M7 ToM ***,.M7 MS.

Nn;;: ;l)e..$;.tN rrJM"/~.sHilL/.. Nttr 13£ tESS 7HAN J.()stS'Y.) PEl? oPJlI1{ Figure 3-Call sizIng worksheet ~_~...................... _~~u:~m6B........ ~...................... 4~........ rn~.r...........

r--**-. --'-'----.---.-... ----------.----....:..--.---.--.. --.... -.... --..... ---.-.-------r-.------. ---.. ---.. ---------.--J Dn'I~'(-' NUCI EAT' I l (-, I, f C N'"\\' £',,1-1 'l(Q\\ I J ~)............. J .....J ~.\\.. I ..... /rl...... J. J. to ) I B.'JPE CREEK I DESIGN ANA.LYSIS REV. 16 ,(" l""I~T P A -'1'::' 28 OF ; r I I .~h0 -:'. /"\\.(J".C ~. ., '+0 L...... CONCLUSION Based upon the battery load profiles and associated sizing calculation. A 577 Amp. hr, 15 plates/cell type KCR-15 C&D battery is required. r--**-. --'-'----.---.-... ----------.----....:..--.---.--.. --.... -.... --..... ---.-.-------r-.------. ---.. ---.. ---------.--J Dn'I~'(-' NUCI EAT' I l (-, I, f C N'"\\' £',,1-1 'l(Q\\ I J ~)............. J .....J ~.\\.. I ..... /rl...... J. J. to ) I B.'JPE CREEK I DESIGN ANA.LYSIS REV. 16 ,(" l""I~T P A -'1'::' 28 OF ; r I I .~h0 -:'. /"\\.(J".C ~. ., '+0 L...... CONCLUSION Based upon the battery load profiles and associated sizing calculation. A 577 Amp. hr, 15 plates/cell type KCR-15 C&D battery is required.

I :?SEG NUCLEAR I HOPE CREEK I I I L_. _______. _____ J

}-------- T--' :-l~--*-;~--;;-~

C/,,~l. NU. L-,+.l(Q) DESIGN ANALYSIS REV. 16 SHEET PAGE 29 OF 46 I ~ ____ ...J DESIGN BASIS: Condition 1 Condition 2 CHARGER SIZING The charger shall be capable of supplying the continuous load, and at the same time recharge the battery in 12 hours at 2.33V per cell, after an emergency discharge. The charger capacity is estimated as follows: Charger capacity: AH X 1.15 +L (ref: 2) RT Where 'AH' is the ampere hours actually removed from the battery, and 'RT' is the recharge time. 'L' is the continuous load on the battery. The charger shall be capable of supplying the continuous load, and test operate the largest equipment in the system, and float charge the battery. BATTERY CHARGER SIZING: Per condition #1: Based upon the battery sizing calculations, battery bank lAD411 has the heaviest loading. Charger sizing for IBD411, lCD411 & IDD411 will be based upon requirements of battery bank lAD411 and all four batteries shall utilize the same battery charger arrangement. Amp-HR. removed during 4 hr. discharge: (ref: load profile) AH

== 428 + 310 + (252) (58) + (279) (180) + 35 60 AH 'REMOVED' during discharge = 1093.5 Re-charge current== 1093.5 x 1.15 = 104.8 Amps ~ 105 Amps 12 Continuous load on batteries: (ref. load tabulation) I :?SEG NUCLEAR I HOPE CREEK I I I L_. _______. _____ J

}-------- T--' :-l~--*-;~--;;-~

C/,,~l. NU. L-,+.l(Q) DESIGN ANALYSIS REV. 16 SHEET PAGE 29 OF 46 I ~ ____ ...J DESIGN BASIS: Condition 1 Condition 2 CHARGER SIZING The charger shall be capable of supplying the continuous load, and at the same time recharge the battery in 12 hours at 2.33V per cell, after an emergency discharge. The charger capacity is estimated as follows: Charger capacity: AH X 1.15 +L (ref: 2) RT Where 'AH' is the ampere hours actually removed from the battery, and 'RT' is the recharge time. 'L' is the continuous load on the battery. The charger shall be capable of supplying the continuous load, and test operate the largest equipment in the system, and float charge the battery. BATTERY CHARGER SIZING: Per condition #1: Based upon the battery sizing calculations, battery bank lAD411 has the heaviest loading. Charger sizing for IBD411, lCD411 & IDD411 will be based upon requirements of battery bank lAD411 and all four batteries shall utilize the same battery charger arrangement. Amp-HR. removed during 4 hr. discharge: (ref: load profile) AH

== 428 + 310 + (252) (58) + (279) (180) + 35 60 AH 'REMOVED' during discharge = 1093.5 Re-charge current== 1093.5 x 1.15 = 104.8 Amps ~ 105 Amps 12 Continuous load on batteries: (ref. load tabulation)

r--l-;SEG--NU CLEAR I FO)'}=< C-'R-I-'EK

r--.

r-------------------- t L CALC. NO: E-4.1(Q) J DESlGN ANA~_YSIS REV. 16 SHEET PAGE300F46 I-'*~ ~~ L During the re-charge period, the inverter power will be supplied by the normal A.C. power supply. Continuous load== 278.9 - (98+82.5+57.5)

== 40.9A _ 41A To meet condition #1 Required charger capacity 105 + 41 146 ~ Per condition #2: Continuous load on battery== 41 amps Load due to float charge of battery: assumed to be negligible. Largest equipment in the system to be test operated: 20KVA Inverter At 20KVA - full load DC current==192A (Ref.: - enclosure A) Charger capacity: 192+41 233 Amps Hence a charger of 300 AmpS is required; however, two (2) 200-amp chargers were selected. CONCLUSION: Since condition #2 calls for a higher capacity battery charger than condition #1, it, is recommended to have two (2) 200-amp chargers, per battery. r--l-;SEG--NU CLEAR I FO)'}=< C-'R-I-'EK

r--.

r-------------------- t L CALC. NO: E-4.1(Q) J DESlGN ANA~_YSIS REV. 16 SHEET PAGE300F46 I-'*~ ~~ L During the re-charge period, the inverter power will be supplied by the normal A.C. power supply. Continuous load== 278.9 - (98+82.5+57.5)

== 40.9A _ 41A To meet condition #1 Required charger capacity 105 + 41 146 ~ Per condition #2: Continuous load on battery== 41 amps Load due to float charge of battery: assumed to be negligible. Largest equipment in the system to be test operated: 20KVA Inverter At 20KVA - full load DC current==192A (Ref.: - enclosure A) Charger capacity: 192+41 233 Amps Hence a charger of 300 AmpS is required; however, two (2) 200-amp chargers were selected. CONCLUSION: Since condition #2 calls for a higher capacity battery charger than condition #1, it, is recommended to have two (2) 200-amp chargers, per battery.

i-i;:BG-1~UCLEAR I HOPE CREEK i L _________ _ CHARGER SIZING lCD444!lDD444 AMP-HR. removed during 4 hr. discharge: (ref: load profile) AH

== (75) (60)+(82.5) (180) 60 AH 'removed' during discharge = 322.5 Re-charge current 322.5 x 1.15== 30.91 ~ 31 AmPs 12 During the re-charge period, the inverter power will be supplied by the normal A.C. power supply; therefore, there is no continuous load on the battery. To meet condition #1; required charger capacity 31 Amps To meet condition #2; Largest load to be test operated: 20KVA inverter. At 20KVA - full load DC current = 192A -(ref: Encl. A) Hence a 200 Amp charger is required. CONCLUSION: Since condition #2 calls for a higher capacity battery charger than condition #1, it is recommended to have a 200 Amp capacity charger. i-i;:BG-1~UCLEAR I HOPE CREEK i L _________ _ CHARGER SIZING lCD444!lDD444 AMP-HR. removed during 4 hr. discharge: (ref: load profile) AH

== (75) (60)+(82.5) (180) 60 AH 'removed' during discharge = 322.5 Re-charge current 322.5 x 1.15== 30.91 ~ 31 AmPs 12 During the re-charge period, the inverter power will be supplied by the normal A.C. power supply; therefore, there is no continuous load on the battery. To meet condition #1; required charger capacity 31 Amps To meet condition #2; Largest load to be test operated: 20KVA inverter. At 20KVA - full load DC current = 192A -(ref: Encl. A) Hence a 200 Amp charger is required. CONCLUSION: Since condition #2 calls for a higher capacity battery charger than condition #1, it is recommended to have a 200 Amp capacity charger.

I PSE'J NUCLEAR l:l'~CRE:K APPROACH: DESIGN ANAL;SIS-------i------------CALC. l~()~-~:~\\;.(?Tl SHEET I PAGE 3.2 OF 46 _____ J VERIFICATION OF BATTERY CAPACITY FOR STATION BLACKOUT (SBO) LOADS US NRC Regulatory Guide 1.155 and NUMARC 87-00 defines Station Blackout as complete loss of alternating current (AC) electric power to the essential and nonessential switchgear buses (i.e., loss of offsite electric power system concurrent with turbine trip and unavailability of on-site emergency ac power system). Station Blackout does not include the loss of available ac power to buses fed by station batteries through inverters, nor does it assume a concurrent single failure or a design basis accident. NUMARC 87-00 states that the station blackout loads on the battery can be estimated from design basis accident loads since they are generally a subset of these loads. Emergency loads supplied by different battery banks during a DBA (LOP and LOCA) which is the most severe plant design basis condition are shown previously on load tabulation sheets. Conservatively these loads are also used for SBO duty cycle except where these are changed for the SBO scenario as explained in following sections: I PSE'J NUCLEAR l:l'~CRE:K APPROACH: DESIGN ANAL;SIS-------i------------CALC. l~()~-~:~\\;.(?Tl SHEET I PAGE 3.2 OF 46 _____ J VERIFICATION OF BATTERY CAPACITY FOR STATION BLACKOUT (SBO) LOADS US NRC Regulatory Guide 1.155 and NUMARC 87-00 defines Station Blackout as complete loss of alternating current (AC) electric power to the essential and nonessential switchgear buses (i.e., loss of offsite electric power system concurrent with turbine trip and unavailability of on-site emergency ac power system). Station Blackout does not include the loss of available ac power to buses fed by station batteries through inverters, nor does it assume a concurrent single failure or a design basis accident. NUMARC 87-00 states that the station blackout loads on the battery can be estimated from design basis accident loads since they are generally a subset of these loads. Emergency loads supplied by different battery banks during a DBA (LOP and LOCA) which is the most severe plant design basis condition are shown previously on load tabulation sheets. Conservatively these loads are also used for SBO duty cycle except where these are changed for the SBO scenario as explained in following sections:

rSEG mlCLEAR

  • T--

-~---.-----.-. -------T------- CALC. N(~-E-.. ~.~:.~i(Q)l l*IOPJ-CI' Fl-I r D""IC'N I NAI YSlc' I I' f'" - ~ I r ..... -'.~~.)~ t:..o J J-\\. ~ u '-..;-: V. 1 U i SHEET I PAGE 3: OF 461

-----------.-----~----------------.-.-

DETERMINATION OF SBO LOADS FOR BATTERY lAD411 Referring to Channel-A 125vDC Load Tabulation For Battery Bank lAD411. Items 1,2&3: Item 4a: Item 4b: Item 4c: Conservatively SBQ loads for entire 4 hours duty cycle for inverters lAD481, lAD482 and 10D496 are assumed to be same as emergency loads. Since there will be no closing of any 4.16KV breaker during 1st minute of SBO, the 1st minute load is assumed to be 26.2A (tripping of five breakers, SX5.0A + 1.2A). For the remaining 238 minutes, load is assumed to be same as 1.2A. For the last minute the SBQ load is assumed to be 6.2A (one breaker closing, lXS.OA+l.2A) to account for the restoration of AC power. The diesel generator field flashing load of 50A is assumed for 1st full minute and included in the last minute SBQ duty cycle to account for the restoration of AC Power. Since there will be no closing of any 480V circuit breaker during a SBQ event, the first minute load is assumed to be 18.SA (tripping of 11 breakers, llXl. 6A+O.9A). For the remaining duration load is assumed to be same as O. 9A. rSEG mlCLEAR

  • T--

-~---.-----.-. -------T------- CALC. N(~-E-.. ~.~:.~i(Q)l l*IOPJ-CI' Fl-I r D""IC'N I NAI YSlc' I I' f'" - ~ I r ..... -'.~~.)~ t:..o J J-\\. ~ u '-..;-: V. 1 U i SHEET I PAGE 3: OF 461

-----------.-----~----------------.-.-

DETERMINATION OF SBO LOADS FOR BATTERY lAD411 Referring to Channel-A 125vDC Load Tabulation For Battery Bank lAD411. Items 1,2&3: Item 4a: Item 4b: Item 4c: Conservatively SBQ loads for entire 4 hours duty cycle for inverters lAD481, lAD482 and 10D496 are assumed to be same as emergency loads. Since there will be no closing of any 4.16KV breaker during 1st minute of SBO, the 1st minute load is assumed to be 26.2A (tripping of five breakers, SX5.0A + 1.2A). For the remaining 238 minutes, load is assumed to be same as 1.2A. For the last minute the SBQ load is assumed to be 6.2A (one breaker closing, lXS.OA+l.2A) to account for the restoration of AC power. The diesel generator field flashing load of 50A is assumed for 1st full minute and included in the last minute SBQ duty cycle to account for the restoration of AC Power. Since there will be no closing of any 480V circuit breaker during a SBQ event, the first minute load is assumed to be 18.SA (tripping of 11 breakers, llXl. 6A+O.9A). For the remaining duration load is assumed to be same as O. 9A.

I PS'j:;C-' '\\" V'Lf';" 1) ,---.. -*---*----*------*'*---*~I---*----'-*-C** A 'I-C--:;(O'~~'-T;. ;,--:--(" ))"1 r\\.J " . Jo'" i. 1 l.c I _.J.J 1.( I...... "--' ~_ l \\. I HOPE CREEl': I'jInN ANALY<'Tr ]""'\\' 1<. I -' :-.) --11 .!'.. \\.~ }.)ll'; ~. ~J.~ _.~ ll:i SHEET P AGb j!, "-It' 'fl) i,_.. _, __... _____________ ~. ___.. _.. ________.. ___

  • ___ J I '------,_.,._----_

Item Llf,k&m: Only loa~ on these panels during a SBO event are indicating lights. As such conservatively 25% of total emergency loads (16.1A) i.e. 4.1A is assumed to be SBO load. Item 4d,e, g,h, i, j,l&n Conservatively SBO loads for entire duration for these panels are assumed to be same as emergency loads. Item 5 The under voltage trip coils on the DC breakers remain connected to the battery during the entire duration of the SBO. Based on above assumptions SBO loads for Battery lAD411 are tabulated as follows: 125VDC Battery lAD411 SBO Duty Cycle ITEM LOAD DESCRIPTION 1 2 3 4 5 CL. 1E Inst. AC Pwr. Supply 1AD481 CL. 1E Inst. AC Pwr. Supply 1AD482 P,A. Sys. AC. Pwr. Supply 10D496 125VDC Distr. Pnl. 1AD417 Breaker D/V Trip Coil TOTAL 0-1 min Amps 87.0 75.0 49.0 141.7 0.2 352.9 LOAD DURATION 1-60 min 60-239 min Amps Amps 87.0 98.0 75.0 82.5 49.0 56.0 28.5 30.2 0.2 0.2 239.7 266.9 239-240 min Amps 98.0 82.5 56.0 85.2 0.2 321. 9 I PS'j:;C-' '\\" V'Lf';" 1) ,---.. -*---*----*------*'*---*~I---*----'-*-C** A 'I-C--:;(O'~~'-T;. ;,--:--(" ))"1 r\\.J " . Jo'" i. 1 l.c I _.J.J 1.( I...... "--' ~_ l \\. I HOPE CREEl': I'jInN ANALY<'Tr ]""'\\' 1<. I -' :-.) --11 .!'.. \\.~ }.)ll'; ~. ~J.~ _.~ ll:i SHEET P AGb j!, "-It' 'fl) i,_.. _, __... _____________ ~. ___.. _.. ________.. ___

  • ___ J I '------,_.,._----_

Item Llf,k&m: Only loa~ on these panels during a SBO event are indicating lights. As such conservatively 25% of total emergency loads (16.1A) i.e. 4.1A is assumed to be SBO load. Item 4d,e, g,h, i, j,l&n Conservatively SBO loads for entire duration for these panels are assumed to be same as emergency loads. Item 5 The under voltage trip coils on the DC breakers remain connected to the battery during the entire duration of the SBO. Based on above assumptions SBO loads for Battery lAD411 are tabulated as follows: 125VDC Battery lAD411 SBO Duty Cycle ITEM LOAD DESCRIPTION 1 2 3 4 5 CL. 1E Inst. AC Pwr. Supply 1AD481 CL. 1E Inst. AC Pwr. Supply 1AD482 P,A. Sys. AC. Pwr. Supply 10D496 125VDC Distr. Pnl. 1AD417 Breaker D/V Trip Coil TOTAL 0-1 min Amps 87.0 75.0 49.0 141.7 0.2 352.9 LOAD DURATION 1-60 min 60-239 min Amps Amps 87.0 98.0 75.0 82.5 49.0 56.0 28.5 30.2 0.2 0.2 239.7 266.9 239-240 min Amps 98.0 82.5 56.0 85.2 0.2 321. 9

OUTSTANDING Cl-iJ,NGES MUST BE A TT ACI-E:D FOR WORKING COpy 20040614 SIZING I.EAO*AGIO BAmRI~S POR SI~iIONARY APPl.ICA'tIONS Ir;;r:!: Std 435*19\\l',' E-4.1(Q), REV, '16 35 of 46 .htl~~1l1)lt1> TWifJ~ 7Z 0F C.ll Voltalli. ;, gO Ml H£g,C..,.b OtU ~,I-Ct/'2'lfftaad ** ~_"/f'

16.

-m-' (31 ~ m 1.1 (5) (6) 7 e~".Q'j,t:y.~ ltoqql-m I/.p~itm SUit 'I' IUn Klta 131"liiAo'~Po,j,ti". ChIn,. in P\\inti(>l'I Ti... to ind ICAlAA1P,/PtI.lR-,l Plat.. wad ~(\\ ot period ot lleoelQn ot ,,~ IH" II

  • Rat..:! AMp 1IJ'1 Period

'1I11\\III'10) I..... n.' IlIIillut'nl (lI.~nut ** ) ".'X l'r.otol'l~) 1'0. valu.. 'II'" VUII.. s.oe on 1 - rUlt r.lOCl glU), - A:!' 'b~II'C'lIl\\t"r tbul' AI-. go to "1:~DI1 a, 1 0\\1.. 3.S,~ M-a *. J,'\\' 3 Xl_ I "'I'iI!l" I /1')J7,rn .~ 2~- -'-eo ~. 'I'C~u -~ ~12~C(' T.. Saouol!1

  • _pu.t 'NO, HrlOli. I)nlY
  • Al n 1II.... ~n tl'Utll l\\.a, 9D to _CIM ).

AI-.\\.5:3 111*0. 55'.1:1 HI-, 'I'-Hl+N2* -;';t!7_ I ~c -tiD -r 7T"i' ~ Al* 3-'tD o\\a.A1. <lJJ'lI H2-,5'q T-Ni- ~ I 6.0(' -:-~ 1,""~ 8tH: IIUll'l'Ot ':..., ~ 1 'j1 2 I'e "1 ....'7/) "0 Beo1:!.DtI 3

  • Pj,u~ lit ** "I:~~ "'"V - U }.t-h vnUntb&n M,go toS~~"1n I

0\\I.~ ~'r~ "l*U *.:lS"::J M1. I T""'l.IC2+M~. Z'" Q -?IJI. U:. II, /r'J ~ A.a_ ~'" I:. A2:.A\\- ~/J. Jj 112. ,~tI r..wa4H)- 7'1,1( !J,~ po

S.9'0 3

IU-2.{"" IU'A!I- ~ K3. /1t1 "'HI. ,., q .-;.6,2.< h .,t. a.a aub Tot r!'L, Ii" T.~K7J' J TOCU v.ICI.! 0" Seat an oj - P rlt,cur' l'4Iricd. or y. M 'L-. !lr.. ~.r lll&n /if. 17" CI(1 a.etlon 5. 1 Al *. '1 1001-0. Mi- '1'-141+ **

  • Hh,:nIO-
Io
:z:

719Z 2 1t2"2-I\\l,Al..... H.lw,,'I T~Ha.M3+H'*2~~ .,h '.? XI l A)* 2-1\\.:J.. "2-M!.,""'Jq 'I'-143+Mh / JIll*' ,'~ 1F.'7.t:;; 4 M- :"1: Itt-A1o I:~ H4. T.IIIN4.. j,

(,l'
.

75<'1 SIC Sill> Tot l'il IV .rr. J(7 oj Tociil~ -Q~'i"" S_OtlOIl S

  • Urlt, ve pu,l.,a. OMy
  • 1t A6 La r..

t'~ thin A~, 11" to Statlan,. 1 A)- At-D. 141. -Mh,. JI'&v 2 1t2. 1t2-1oo1. lola. ..u.... ~"5. A). /I,.~. Ill)' T-IO+H'('tH&

  • 4

"'-AI. Mol. T*HHM&" AS. M-Ao. MI. T*MS-lIee Sub Tot. 5 'I'... t~l' Section' - Firlt St,. l'erlodl only

  • It 10,?.. greuer tn.n"M, II" to secQQIl ?,

I AI. .Ill-D. Hl

  • T-.JoU *.*,101'*

~ /a. M'Ab H2. T-Nh... 146. ) II'. .0.3-1'.2. HI. 'l'-Hl., ** M'. ~ "'*Al-i Mol

  • T-KHMhHb j;

.u. 1>5-0\\.' M~' T.Hh"," ~ 116-A'."~. II," T... I. a.e Sub Tot Total Il~C~lon ? r1r"~ _Y.II Par od. Dn~y

  • U M U IIl'later tlUln A1, go to S.Ilt!oll e, 1

AI. 11\\-0' .. 1. 'I'.MI **** M' 2 AJ. ' Ji.:I~"l. M~. "1'-1012+... M? 1 1.). Al-J.l* M~' ".M1+, *,M1 4 ]i.)' toI ** T*M...... "7 ~ ,1\\5. 1\\!-lIh 115. 'I'*lIa.MltH7. 6 "e. "'-115. foI6. 'I'.MltM'

  • 7 1\\1.

A7-1\\6. M * ""/f

  • SIn IIUII 'I'llt 7

'l'Otil' IIftllllOIll Bqu1J11l.~t Load Only I~e n.. dldl 1\\ AA. /Ill-O* - It\\. -- r'l'*J(R* - H/t~~mum I~;l~n 8in -(H:~....itll1'om Saetion Stu t" .. Unaorreuud Sj x.

  • J.USI 11 0 USILL)

~ Tlnp ConI12). Doalgn Hugllll ~ Aging FaotCll' 11~ I.'..LU. U5) ')tI b, lIn!>n th C Q ~ _11 U.e 1151 i 9 eator tha~ f Itandard coll. R~" nexe lal'II"~ ".11 '4 raqull'Oti. / (III it;osLt,vo PlAta *. Roqu!rod ".11 ai." IlGI ,.I IS)

  • Ampar. !lourl.
  • Therefor.. <Jell 11?) tiC-/(- 22 ia r.qul>1e;t.

N07/;: {)£.$I6-AJ MARG-lrJ 6fffll-l-- Md1 t1.e t,.f.Sj THAI'I I. r)S{S'/.) PE/ t/PJAI{, Figure 3-Cell Sizing workshoat L-__ ------------------------------- tnt rr OUTSTANDING Cl-iJ,NGES MUST BE A TT ACI-E:D FOR WORKING COpy 20040614 SIZING I.EAO*AGIO BAmRI~S POR SI~iIONARY APPl.ICA'tIONS Ir;;r:!: Std 435*19\\l',' E-4.1(Q), REV, '16 35 of 46 .htl~~1l1)lt1> TWifJ~ 7Z 0F C.ll Voltalli. ;, gO Ml H£g,C..,.b OtU ~,I-Ct/'2'lfftaad ** ~_"/f'

16.

-m-' (31 ~ m 1.1 (5) (6) 7 e~".Q'j,t:y.~ ltoqql-m I/.p~itm SUit 'I' IUn Klta 131"liiAo'~Po,j,ti". ChIn,. in P\\inti(>l'I Ti... to ind ICAlAA1P,/PtI.lR-,l Plat.. wad ~(\\ ot period ot lleoelQn ot ,,~ IH" II

  • Rat..:! AMp 1IJ'1 Period

'1I11\\III'10) I..... n.' IlIIillut'nl (lI.~nut ** ) ".'X l'r.otol'l~) 1'0. valu.. 'II'" VUII.. s.oe on 1 - rUlt r.lOCl glU), - A:!' 'b~II'C'lIl\\t"r tbul' AI-. go to "1:~DI1 a, 1 0\\1.. 3.S,~ M-a *. J,'\\' 3 Xl_ I "'I'iI!l" I /1')J7,rn .~ 2~- -'-eo ~. 'I'C~u -~ ~12~C(' T.. Saouol!1

  • _pu.t 'NO, HrlOli. I)nlY
  • Al n 1II.... ~n tl'Utll l\\.a, 9D to _CIM ).

AI-.\\.5:3 111*0. 55'.1:1 HI-, 'I'-Hl+N2* -;';t!7_ I ~c -tiD -r 7T"i' ~ Al* 3-'tD o\\a.A1. <lJJ'lI H2-,5'q T-Ni- ~ I 6.0(' -:-~ 1,""~ 8tH: IIUll'l'Ot ':..., ~ 1 'j1 2 I'e "1 ....'7/) "0 Beo1:!.DtI 3

  • Pj,u~ lit ** "I:~~ "'"V - U }.t-h vnUntb&n M,go toS~~"1n I

0\\I.~ ~'r~ "l*U *.:lS"::J M1. I T""'l.IC2+M~. Z'" Q -?IJI. U:. II, /r'J ~ A.a_ ~'" I:. A2:.A\\- ~/J. Jj 112. ,~tI r..wa4H)- 7'1,1( !J,~ po

S.9'0 3

IU-2.{"" IU'A!I- ~ K3. /1t1 "'HI. ,., q .-;.6,2.< h .,t. a.a aub Tot r!'L, Ii" T.~K7J' J TOCU v.ICI.! 0" Seat an oj - P rlt,cur' l'4Iricd. or y. M 'L-. !lr.. ~.r lll&n /if. 17" CI(1 a.etlon 5. 1 Al *. '1 1001-0. Mi- '1'-141+ **

  • Hh,:nIO-
Io
:z:

719Z 2 1t2"2-I\\l,Al..... H.lw,,'I T~Ha.M3+H'*2~~ .,h '.? XI l A)* 2-1\\.:J.. "2-M!.,""'Jq 'I'-143+Mh / JIll*' ,'~ 1F.'7.t:;; 4 M- :"1: Itt-A1o I:~ H4. T.IIIN4.. j,

(,l'
.

75<'1 SIC Sill> Tot l'il IV .rr. J(7 oj Tociil~ -Q~'i"" S_OtlOIl S

  • Urlt, ve pu,l.,a. OMy
  • 1t A6 La r..

t'~ thin A~, 11" to Statlan,. 1 A)- At-D. 141. -Mh,. JI'&v 2 1t2. 1t2-1oo1. lola. ..u.... ~"5. A). /I,.~. Ill)' T-IO+H'('tH&

  • 4

"'-AI. Mol. T*HHM&" AS. M-Ao. MI. T*MS-lIee Sub Tot. 5 'I'... t~l' Section' - Firlt St,. l'erlodl only

  • It 10,?.. greuer tn.n"M, II" to secQQIl ?,

I AI. .Ill-D. Hl

  • T-.JoU *.*,101'*

~ /a. M'Ab H2. T-Nh... 146. ) II'. .0.3-1'.2. HI. 'l'-Hl., ** M'. ~ "'*Al-i Mol

  • T-KHMhHb j;

.u. 1>5-0\\.' M~' T.Hh"," ~ 116-A'."~. II," T... I. a.e Sub Tot Total Il~C~lon ? r1r"~ _Y.II Par od. Dn~y

  • U M U IIl'later tlUln A1, go to S.Ilt!oll e, 1

AI. 11\\-0' .. 1. 'I'.MI **** M' 2 AJ. ' Ji.:I~"l. M~. "1'-1012+... M? 1 1.). Al-J.l* M~' ".M1+, *,M1 4 ]i.)' toI ** T*M...... "7 ~ ,1\\5. 1\\!-lIh 115. 'I'*lIa.MltH7. 6 "e. "'-115. foI6. 'I'.MltM'

  • 7 1\\1.

A7-1\\6. M * ""/f

  • SIn IIUII 'I'llt 7

'l'Otil' IIftllllOIll Bqu1J11l.~t Load Only I~e n.. dldl 1\\ AA. /Ill-O* - It\\. -- r'l'*J(R* - H/t~~mum I~;l~n 8in -(H:~....itll1'om Saetion Stu t" .. Unaorreuud Sj x.

  • J.USI 11 0 USILL)

~ Tlnp ConI12). Doalgn Hugllll ~ Aging FaotCll' 11~ I.'..LU. U5) ')tI b, lIn!>n th C Q ~ _11 U.e 1151 i 9 eator tha~ f Itandard coll. R~" nexe lal'II"~ ".11 '4 raqull'Oti. / (III it;osLt,vo PlAta *. Roqu!rod ".11 ai." IlGI ,.I IS)

  • Ampar. !lourl.
  • Therefor.. <Jell 11?) tiC-/(- 22 ia r.qul>1e;t.

N07/;: {)£.$I6-AJ MARG-lrJ 6fffll-l-- Md1 t1.e t,.f.Sj THAI'I I. r)S{S'/.) PE/ t/PJAI{, Figure 3-Cell Sizing workshoat L-__ ------------------------------- tnt rr

-PS-EG-NU-CJ~i~~Ai;~---T------ HOPE CREEK. D;~SIGN ANALYSIS I SHEET

1'-------------Ci=LC. NO: E~4.l(ci)l REV. 16 I PAGE360F%i

~----~I-L~ ___________ :J DETERMINATION OF SBO LOADS FOR BA'rTERY IBD411 Referring to Channel-B 125VDC Load Tabulation For Battery Bank IBD411. Items 1&2: Item 3a: Item 3b: Item 3c: Conservatively SBO loads for entire 4 hours duty cycle for inverters IBD481 and IBD482 are assumed to be same as emergency loads. Since there will be no closing of any 4.16KV breaker during 1st minute of SBO, the 1st minute load is assumed to be 26.2A (tripping of five breakers, SXS.OA + 1.2A). For the remaining 238 minutes, load is assumed to be same as 1. 2A. For the last minute the SBO load is assumed to be 6.2A (one breaker closing, lXS.OA+l.2A) to account for the restoration of AC power. The diesel generator field flashing load of 50A is assumed for 1st full minute and included in the last minute SBO duty cycle to account for the restoration of AC Power. Since there will be no closing of any 480v circuit breaker during a SBO event, the first minute load is assumed to be 15.3A (tripping of 9 breakers, 9X1.6A+O.9A). For the remaining duration load is assumed to be same as O. 9A. -PS-EG-NU-CJ~i~~Ai;~---T------ HOPE CREEK. D;~SIGN ANALYSIS I SHEET

1'-------------Ci=LC. NO: E~4.l(ci)l REV. 16 I PAGE360F%i

~----~I-L~ ___________ :J DETERMINATION OF SBO LOADS FOR BA'rTERY IBD411 Referring to Channel-B 125VDC Load Tabulation For Battery Bank IBD411. Items 1&2: Item 3a: Item 3b: Item 3c: Conservatively SBO loads for entire 4 hours duty cycle for inverters IBD481 and IBD482 are assumed to be same as emergency loads. Since there will be no closing of any 4.16KV breaker during 1st minute of SBO, the 1st minute load is assumed to be 26.2A (tripping of five breakers, SXS.OA + 1.2A). For the remaining 238 minutes, load is assumed to be same as 1. 2A. For the last minute the SBO load is assumed to be 6.2A (one breaker closing, lXS.OA+l.2A) to account for the restoration of AC power. The diesel generator field flashing load of 50A is assumed for 1st full minute and included in the last minute SBO duty cycle to account for the restoration of AC Power. Since there will be no closing of any 480v circuit breaker during a SBO event, the first minute load is assumed to be 15.3A (tripping of 9 breakers, 9X1.6A+O.9A). For the remaining duration load is assumed to be same as O. 9A.

i PSEG NUCLEAR I HOPE CREEK T

1------------ -

C/cLC. NO: E-4.1((~) : DESKJl\\ A";fLYSIS REV, 16 i I SHeET PAGE 37 OF 46 I I Item 3e,k&n: Only load on these panels during a SBO event are indicating lights. As such conservatively 25% of total emergency loads (16.2A) i.e. 4.1A is assumed to be SBO load. Item 3d, f, g,h,i,j,l,m,o&p Conservatively SBO loads for entire duration for these panels are assumed to be same as emergency loads. Item 4 The under voltage trip coils on the DC breakers remain connected to the battery during the entire duration of the SBO. Based on above assumptions SBO loads for Battery lBD411 are tabulated as follows: 125vDC Battery IBD411 SBO Duty Cycle LOAD DURATION 0-1 min 1-60 min 60-239 min 239-240 min Amps Amps Amps Amps ITEM LOAD DESCRIPTION 1 CL. 1E Inst. AC 104.0 104.0 112.5 112.5 Pwr. Supply 1BD481 2 CL. 1E Inst. AC 86.0 86.0 93.5 93.5 Pwr. Supply 1BD482 3 125VDC Distr. Pnl. 141.2 33.2 34.8 89.8 1BD417 4 Breaker U/V Trip 0.2 0.2 0.2 0.2 Coil TOTAL 331. 4 223.0 241. 0 296.0 i PSEG NUCLEAR I HOPE CREEK T

1------------ -

C/cLC. NO: E-4.1((~) : DESKJl\\ A";fLYSIS REV, 16 i I SHeET PAGE 37 OF 46 I I Item 3e,k&n: Only load on these panels during a SBO event are indicating lights. As such conservatively 25% of total emergency loads (16.2A) i.e. 4.1A is assumed to be SBO load. Item 3d, f, g,h,i,j,l,m,o&p Conservatively SBO loads for entire duration for these panels are assumed to be same as emergency loads. Item 4 The under voltage trip coils on the DC breakers remain connected to the battery during the entire duration of the SBO. Based on above assumptions SBO loads for Battery lBD411 are tabulated as follows: 125vDC Battery IBD411 SBO Duty Cycle LOAD DURATION 0-1 min 1-60 min 60-239 min 239-240 min Amps Amps Amps Amps ITEM LOAD DESCRIPTION 1 CL. 1E Inst. AC 104.0 104.0 112.5 112.5 Pwr. Supply 1BD481 2 CL. 1E Inst. AC 86.0 86.0 93.5 93.5 Pwr. Supply 1BD482 3 125VDC Distr. Pnl. 141.2 33.2 34.8 89.8 1BD417 4 Breaker U/V Trip 0.2 0.2 0.2 0.2 Coil TOTAL 331. 4 223.0 241. 0 296.0

OUTSTANDil\\jG CHANGES MUST BE ATTACHED FOr~ WORKING COpy 20C)4*CJ614 SIZING LEAD*ACID BATTERIES FOR STATIONARY f~PPLICATIONS S.ct~on 4.' I>l r~t ) 1\\3. Sjljr;t~on £, - F rat FI". P.~\\Q(ja on y 1 IIi. III- ~. Mi. ~ 1\\1. 1\\1~"10 H~* 1 1\\~. -'3.. ",~. Itl. 1\\4. ....-1130 lib M*M* M5~ tr "' I ~ Til.. eo !:)d o(,g.ot1on 9.. *~~.r ~)j.l'\\ M. T-"..,.. MS- ,..K2 *... 1t5. T.ItIo~.I4~* T.M. oMS. T-tot5,. 110 CilpJlohy at 'I' Hln lIal!b HA~ MIp./I>¢. fll.,) "t' $Ie './lU);) '!'at ~ TlltiT t.o S.C't en {,. Sac 5 1IUl:> TOt Section &

  • Firu Blx Period. only' II M h greaur tllan M, go to S.otIQ~ 7.

s." 9111> Tot Sftce em 1 - Pi u t a.van ~ulQ'" on y - It II. i, !fro~t.r than 1,'. go to a.otlon *. "3-1.2-111-M*"lw H4- ..,5-".- Jotlj * ..,'-M-Mf* 117*... '. .1017. NOTE: J)li.5I6N MIt~(yW 511ft/..(.. Nor {j,fJ. tes,S il1AAi l.oS" {$'/.)1'!1I.. l/F3!1f(, Sec 1 Figure 3-Cell siting workshaat tH" otll ill -T IEEE Std 485*199'1 E-4.1(Q), REV. 16 Required S.c~io~ Si*e (3~.I~").. !'¢.1t1v. Plu.. or 1l)'Ilfll)

  • laud Mop Hn Po. Val"..

!till! v, ueo

'lI,hlA

,":I.i1:I#eJ -:0;' II J A*... . ~.II I --;;;J; .'i * "'.f' II./It '1{' 71.7;; n:.~ J/,MR

!J.7;.],;

g.h'" 11.:2..7 '"'.i~ .~ ~-~ } 2.,2.Z ~'7;;'ij C>:~ to. )2. 9f( OUTSTANDil\\jG CHANGES MUST BE ATTACHED FOr~ WORKING COpy 20C)4*CJ614 SIZING LEAD*ACID BATTERIES FOR STATIONARY f~PPLICATIONS S.ct~on 4.' I>l r~t ) 1\\3. Sjljr;t~on £, - F rat FI". P.~\\Q(ja on y 1 IIi. III- ~. Mi. ~ 1\\1. 1\\1~"10 H~* 1 1\\~. -'3.. ",~. Itl. 1\\4. ....-1130 lib M*M* M5~ tr "' I ~ Til.. eo !:)d o(,g.ot1on 9.. *~~.r ~)j.l'\\ M. T-"..,.. MS- ,..K2 *... 1t5. T.ItIo~.I4~* T.M. oMS. T-tot5,. 110 CilpJlohy at 'I' Hln lIal!b HA~ MIp./I>¢. fll.,) "t' $Ie './lU);) '!'at ~ TlltiT t.o S.C't en {,. Sac 5 1IUl:> TOt Section &

  • Firu Blx Period. only' II M h greaur tllan M, go to S.otIQ~ 7.

s." 9111> Tot Sftce em 1 - Pi u t a.van ~ulQ'" on y - It II. i, !fro~t.r than 1,'. go to a.otlon *. "3-1.2-111-M*"lw H4- ..,5-".- Jotlj * ..,'-M-Mf* 117*... '. .1017. NOTE: J)li.5I6N MIt~(yW 511ft/..(.. Nor {j,fJ. tes,S il1AAi l.oS" {$'/.)1'!1I.. l/F3!1f(, Sec 1 Figure 3-Cell siting workshaat tH" otll ill -T IEEE Std 485*199'1 E-4.1(Q), REV. 16 Required S.c~io~ Si*e (3~.I~").. !'¢.1t1v. Plu.. or 1l)'Ilfll)

  • laud Mop Hn Po. Val"..

!till! v, ueo

'lI,hlA

,":I.i1:I#eJ -:0;' II J A*... . ~.II I --;;;J; .'i * "'.f' II./It '1{' 71.7;; n:.~ J/,MR

!J.7;.],;

g.h'" 11.:2..7 '"'.i~ .~ ~-~ } 2.,2.Z ~'7;;'ij C>:~ to. )2. 9f(

r-----

J-------------:;---:;---;::;---;---:::------ ~--l I

CALL,. l'1"V E-4.1 (Q) I DESIGN ANALYSIS REV, ] 6 I I SHEET ________ ~~:_~~_39 OF 46j DETERMINATION OF SBO LOADS FOR BATTERY 1CD411 Referring to Channel-C 12SVDC Load Tabulation For Battery Bank 1CD411. Items 1&2: Item 3a: Item 3b: Item 3c: Conservatively SBO loads for entire 4 hours duty cycle for inverters lCD481 and OAD495 are assumed to be same as emergency loads. Since there will be no closing of any 4.16KV breaker during 1st minute of SBO, the 1st minute load is assumed to be 26.2A (tripping of five breakers, SXS.OA + 1.2A). For the remaining 238 minutes, load is assumed to be same as 1. 2A, For the last minute the SBO load is assumed to be 6.2A (one breaker closing, 1XS.OA+1.2A) to account for the restoration of AC power. The diesel generator field flashing load of 50A is assumed for 1st full minute and included in the last minute SBO duty cycle to account for the restoration of AC power. Since there will be no closing of any 480V circuit breaker during a SBO event, the first minute load is assumed to be 16.9A (tripping of 10 breakers, 10X1. 6A+0. 9A). For the remaining duration load is assumed to be same as 0.9A. r-----

J-------------:;---:;---;::;---;---:::------ ~--l I

CALL,. l'1"V E-4.1 (Q) I DESIGN ANALYSIS REV, ] 6 I I SHEET ________ ~~:_~~_39 OF 46j DETERMINATION OF SBO LOADS FOR BATTERY 1CD411 Referring to Channel-C 12SVDC Load Tabulation For Battery Bank 1CD411. Items 1&2: Item 3a: Item 3b: Item 3c: Conservatively SBO loads for entire 4 hours duty cycle for inverters lCD481 and OAD495 are assumed to be same as emergency loads. Since there will be no closing of any 4.16KV breaker during 1st minute of SBO, the 1st minute load is assumed to be 26.2A (tripping of five breakers, SXS.OA + 1.2A). For the remaining 238 minutes, load is assumed to be same as 1. 2A, For the last minute the SBO load is assumed to be 6.2A (one breaker closing, 1XS.OA+1.2A) to account for the restoration of AC power. The diesel generator field flashing load of 50A is assumed for 1st full minute and included in the last minute SBO duty cycle to account for the restoration of AC power. Since there will be no closing of any 480V circuit breaker during a SBO event, the first minute load is assumed to be 16.9A (tripping of 10 breakers, 10X1. 6A+0. 9A). For the remaining duration load is assumed to be same as 0.9A.

1~~~pG-E-~~~-' ~-~0~'------J'-- DE;I(,~~-A-.N-AI~~~;;-I----- -----(5Al~C.-l~ O~-~l-~J(~ II SHEET PAGE 40 OF 46 _ _ _ _______________ J Item 3e&g: Only load on these panels during a SBO event are indicating lights. As such conservatively 25% of total emergency loads (9.7A) i.e. 2.5A is assumed to be SBO load. Item 3d,f&h Conservatively SBO loads for entire duration for these panels are assumed to be same as emergency loads. Item 4 The under voltage trip coils on the DC breakers remain connected to the battery during the entire duration of the SBO. Based on above assumptions SBO loads for Battery lCD411 are tabulated as follows: 125VDC Battery lCD411 SBO Duty Cycle ITEM ~~hD DESCRIPTION 1 2 3 4 CL. 1E Inst. AC Pwr. Supply 1CD481 Security Sys. AC Pwr. Supply OAD495 125VDC Distr. Pnl. 1CD417 Breaker U/V Trip Coil TOTAL 0-1 min Amps 86.0 135.0 112.5 0.2 333.7 LOAD DURATION 1-60 min 60-239 min Amps Amps 86.0 93.5 135.0 148.0 13.5 14.0 0.2 0.2 234.7 255.7 239-240 min Amps 93.5 148.0 69.0 0.2 310.7 1~~~pG-E-~~~-' ~-~0~'------J'-- DE;I(,~~-A-.N-AI~~~;;-I----- -----(5Al~C.-l~ O~-~l-~J(~ II SHEET PAGE 40 OF 46 _ _ _ _______________ J Item 3e&g: Only load on these panels during a SBO event are indicating lights. As such conservatively 25% of total emergency loads (9.7A) i.e. 2.5A is assumed to be SBO load. Item 3d,f&h Conservatively SBO loads for entire duration for these panels are assumed to be same as emergency loads. Item 4 The under voltage trip coils on the DC breakers remain connected to the battery during the entire duration of the SBO. Based on above assumptions SBO loads for Battery lCD411 are tabulated as follows: 125VDC Battery lCD411 SBO Duty Cycle ITEM ~~hD DESCRIPTION 1 2 3 4 CL. 1E Inst. AC Pwr. Supply 1CD481 Security Sys. AC Pwr. Supply OAD495 125VDC Distr. Pnl. 1CD417 Breaker U/V Trip Coil TOTAL 0-1 min Amps 86.0 135.0 112.5 0.2 333.7 LOAD DURATION 1-60 min 60-239 min Amps Amps 86.0 93.5 135.0 148.0 13.5 14.0 0.2 0.2 234.7 255.7 239-240 min Amps 93.5 148.0 69.0 0.2 310.7

C)lJ iST AI*DING CHANGES MUST BE ATTACHED F02 WORl<iNG COr~Y 2001j*0614 SIZING LEAD*ACID BAiTERIES FOR STATIONARY APPLICATIONS '1'1111 to t1\\d 01 /l4OCion ~""e~ty At 'I' Min IIlte I",) MIP,/PI)I !~) 0.. SlCtl:iI'n 3 - Pi:n~ TlIJ' **,utOdll OIUy - It oM 11 I1r.. tn eluln.u. !1" eo aellc an ". 81c 1J\\lIl 'f<It ~ Total S." SIlb'l'ot 4 Tou S.ctlon, - PLnt F1ve PlriaclB 011 y

  • I 0\\6

, 9ru~..

  • elUm 1.5, 91' eo nci:lon "

1 11\\- Al-Q. Ifl- .~l ***

  • MS.

~ ~a "Jlh.. l. Kh ,.-H,2io" ,)4S.. ) II ** A~*1\\2 * !fl. T_MHM4+I4,5 o ~ ,M-M*M* r<<. 'r-H4>MS-5 /I~' ,/IlI'- loiS_ T-M5-S.ction 6

  • nut s x PorloQ' on y - II,.7 i. greater thin 116, go to Section 7,

'I'OHHH'. S\\lIl Tot 'I'Dtlll ly

  • It liS in gUHlr thin,.7, go 1:0 seoctan a, 111-

'ToMl.+,,.M7 NotE: DCS/f,tJ A1Md-11J Sfl~tL /tja1 /JE u:s~ rill/III /. os (s 1.) P!!~ Vf'.51+~ Figura 3-Coll sizIng worksheet lt! 'If IEee Std 485-1997 E-4.1(Q), REV. 16 ""qUirell JI.ction S~U () I + "I.}. POlltiV. pln.. Dr (3)N16111

  • IlatlHl MP

~n ~.,t:,J1f ..,.,., R' ,", IIF 1.(""1 ,'.\\" 1'1 /.n ,,? ",7 .11,25 .OS ~"2. O,,'i'1f '" if'S .iI.,'4 '" ~,.!r'1 11.2: If' rl, ::i3.. ( ':2 '/ os, ~3 Cj" tlll C)lJ iST AI*DING CHANGES MUST BE ATTACHED F02 WORl<iNG COr~Y 2001j*0614 SIZING LEAD*ACID BAiTERIES FOR STATIONARY APPLICATIONS '1'1111 to t1\\d 01 /l4OCion ~""e~ty At 'I' Min IIlte I",) MIP,/PI)I !~) 0.. SlCtl:iI'n 3 - Pi:n~ TlIJ' **,utOdll OIUy - It oM 11 I1r.. tn eluln.u. !1" eo aellc an ". 81c 1J\\lIl 'f<It ~ Total S." SIlb'l'ot 4 Tou S.ctlon, - PLnt F1ve PlriaclB 011 y

  • I 0\\6

, 9ru~..

  • elUm 1.5, 91' eo nci:lon "

1 11\\- Al-Q. Ifl- .~l ***

  • MS.

~ ~a "Jlh.. l. Kh ,.-H,2io" ,)4S.. ) II ** A~*1\\2 * !fl. T_MHM4+I4,5 o ~ ,M-M*M* r<<. 'r-H4>MS-5 /I~' ,/IlI'- loiS_ T-M5-S.ction 6

  • nut s x PorloQ' on y - II,.7 i. greater thin 116, go to Section 7,

'I'OHHH'. S\\lIl Tot 'I'Dtlll ly

  • It liS in gUHlr thin,.7, go 1:0 seoctan a, 111-

'ToMl.+,,.M7 NotE: DCS/f,tJ A1Md-11J Sfl~tL /tja1 /JE u:s~ rill/III /. os (s 1.) P!!~ Vf'.51+~ Figura 3-Coll sizIng worksheet lt! 'If IEee Std 485-1997 E-4.1(Q), REV. 16 ""qUirell JI.ction S~U () I + "I.}. POlltiV. pln.. Dr (3)N16111

  • IlatlHl MP

~n ~.,t:,J1f ..,.,., R' ,", IIF 1.(""1 ,'.\\" 1'1 /.n ,,? ",7 .11,25 .OS ~"2. O,,'i'1f '" if'S .iI.,'4 '" ~,.!r'1 11.2: If' rl, ::i3.. ( ':2 '/ os, ~3 Cj" tlll

I-

~-c

-~-;-, T CTr-;:--:-J::; 4 1 CQ) I PSEG NUCLEAR HOPE CREEK J I DESIGN ANALYSIS ~A,~~. \\u. ~EV. 16 I l _____ _ SHEET PAGE 42 OF 46 DETERMINATION OF SBO LOADS FOR BATTERY IDD411 Referring to Channel-D 125VDC Load Tabulation For Battery Bank IDD411. Items 1&2: Item 3a: Item 3b: Item 3c: Conservatively SBO loads for entire 4 hours duty cycle for inverters IDD481 and 10D495 are assumed to be same as emergency loads. Since there will be no closing of any 4.16KV breaker during 1st minute of SBO, the 1st minute load is assumed to be 26.2A (tripping of five breakers, 5X5.0A + 1.2A). For the remaining 238 minutes, load is assumed to be same as 1.2A, For the last minute the SBO load is assumed to be 6.2A (one breaker closing, lX5.0A+l.2A) to account for the restoration of AC power. The diesel generator field flashing load of 50A is assumed for 1st full minute and included in the last minute SBO duty cycle to account for the restoration of AC Power. Since there will be no closing of any 480v circuit breaker during a SBO event, the first minute load is assumed to be 16.9A (tripping of 10 breakers, 10xl. 6A+O. 9A). For the remaining duration load is assumed same as O.9A. I-

~-c

-~-;-, T CTr-;:--:-J::; 4 1 CQ) I PSEG NUCLEAR HOPE CREEK J I DESIGN ANALYSIS ~A,~~. \\u. ~EV. 16 I l _____ _ SHEET PAGE 42 OF 46 DETERMINATION OF SBO LOADS FOR BATTERY IDD411 Referring to Channel-D 125VDC Load Tabulation For Battery Bank IDD411. Items 1&2: Item 3a: Item 3b: Item 3c: Conservatively SBO loads for entire 4 hours duty cycle for inverters IDD481 and 10D495 are assumed to be same as emergency loads. Since there will be no closing of any 4.16KV breaker during 1st minute of SBO, the 1st minute load is assumed to be 26.2A (tripping of five breakers, 5X5.0A + 1.2A). For the remaining 238 minutes, load is assumed to be same as 1.2A, For the last minute the SBO load is assumed to be 6.2A (one breaker closing, lX5.0A+l.2A) to account for the restoration of AC power. The diesel generator field flashing load of 50A is assumed for 1st full minute and included in the last minute SBO duty cycle to account for the restoration of AC Power. Since there will be no closing of any 480v circuit breaker during a SBO event, the first minute load is assumed to be 16.9A (tripping of 10 breakers, 10xl. 6A+O. 9A). For the remaining duration load is assumed same as O.9A.

i-T;SSGNUCLEAR ~--------l-~--------~---------I~ i HOPE CREEK I DESIGN ANALYSIS 1 'c-' A-L~~~;:;--N~-O-l~~~-;-l-(Q)~1 ~ \\.___ I -:.,.... /+. REV. ~16 I I SHEET I I ~ PAGE 43 or 461 1_____ -.-1______ .~ --- Item 3e&j: Only load on these panels during a SBO event are the indicating lights. As such conservatively 25% of total emergency loads (9.5A) i.e. 2.5A is assumed to be SBO load. Item 3, d, f, g,h,i,k Conservatively SBO loads for entire duration for these panels are assumed to be same as emergency loads. Item 4 The under voltage trip coils on the DC breakers remain connected to the battery during the entire duration of the SBO. Based on above assumptions SBO loads for Battery IDD411 are tabulated as follows: 125VDC Battery IDD411 SBO Duty Cycle LOAD DURATION 0-1 1-60 60-239 239-240 min min min Amps min Amps Amps Amps ITEM LOAD DESCRIPTION 1 CL. lE Inst. AC 86.0 86.0 93.5 93.5 l:'wr. Supply lDD481 2 NSSS Compo AC Pwr. 137.0 137.0 148.5 148.5 Supply 10D485 3 125VDC Distr. Pnl. 117.9 18.9 19.4 74.4 lD0417 4 Breaker U/V Trip 0.2 0.2 0.2 0.2 Coil TOTAL 341.1 242.1 261.6 316.6 i-T;SSGNUCLEAR ~--------l-~--------~---------I~ i HOPE CREEK I DESIGN ANALYSIS 1 'c-' A-L~~~;:;--N~-O-l~~~-;-l-(Q)~1 ~ \\.___ I -:.,.... /+. REV. ~16 I I SHEET I I ~ PAGE 43 or 461 1_____ -.-1______ .~ --- Item 3e&j: Only load on these panels during a SBO event are the indicating lights. As such conservatively 25% of total emergency loads (9.5A) i.e. 2.5A is assumed to be SBO load. Item 3, d, f, g,h,i,k Conservatively SBO loads for entire duration for these panels are assumed to be same as emergency loads. Item 4 The under voltage trip coils on the DC breakers remain connected to the battery during the entire duration of the SBO. Based on above assumptions SBO loads for Battery IDD411 are tabulated as follows: 125VDC Battery IDD411 SBO Duty Cycle LOAD DURATION 0-1 1-60 60-239 239-240 min min min Amps min Amps Amps Amps ITEM LOAD DESCRIPTION 1 CL. lE Inst. AC 86.0 86.0 93.5 93.5 l:'wr. Supply lDD481 2 NSSS Compo AC Pwr. 137.0 137.0 148.5 148.5 Supply 10D485 3 125VDC Distr. Pnl. 117.9 18.9 19.4 74.4 lD0417 4 Breaker U/V Trip 0.2 0.2 0.2 0.2 Coil TOTAL 341.1 242.1 261.6 316.6

OUTSTANDiNG CHANGES MUST BE A TT I\\CHED FOR WORKI~1G COPY 20040614 SIZING J.EAD*ACID flAmRle;S r:Of~ STATIONARY APPl.ICATIC)NS mEr.: Std 485*1997 E-4.1(Q), REV. 16 11ot:t:&'Oln,.' ~~7t*, CIIil Vol~'l.1 /. g")1 C.ll MfS,. C'; b, 11,,11 ~./..CI{*17s~.td l!Y1 ~ (1) fa) (l) 111 II) 1"1 C&""q~ty at Raqllh:oll see1!itl'l\\ ail. 'I' Min RUe (l).. t(A).. Po.1ci". Chanv. in 1l<I~.~~on TilP to tnd "" I MIJIa/ POa CR,o) 1'1"t ** IMd LoAd of Pnled ot B.at~"n OiL' (J)lClflll-l\\&ldAlllp Hr. pu10d I."P".... ' <."uII (lUAU' ** ' 'Mil\\ute.) Ctll J: 'aator UC,.I POe V.~\\l" "'9'.V'~UIll 5tO~ltm 1

  • ru'n "t>.OCI only *, I.a UlJ'r~uu tll&D 0\\1, _1.0 til ~~ ;~M lI.

1 ,\\1*3'1', I 0\\1.-0_-:1..,'./ 'm_ 1'1'00'"- I )/I:)1r. 71 ':l 141 I .. ne 1 oc~u r~ II,; I... h~~~on~

  • Pirn 1"110 PeriHI only -,[t Al
  • IIrn'tr ~MIl All, liP to ".(jUPIlY_,

1 "l.:~"'J. {.... g ** l!f.{.;' lU-I ""0+""," In"" b!~~d2tJ., l 1.l-211'2.1 1.2.,u- -99 10 *. §"q 'I'oH2* 59 h,;:;,r;o:;. I,SI 1l.1I Sill> 'tot ,oS'" 2.fi I, (" J 2 TOI:U 3,.,41 s'Q~~Qn ~

  • un ne '8Z'

.. olay

  • I M 11.,....tn ~

'J\\; II" tl) SeaUell,. 1 .1Il" rtll.t ,u*O~~..., "~III .:!!!It/Q+~* Z, i<l' 2.9,70 II.~'" ,.2. loa- ~ 112., AJh... Ir;I 1IiI. S' 'I'~- K 29,_71(' '" '52-l ),~. :hJ.f:l. AJ'~/',-(,"'" _L " 'j'o"l_M

7.

.~.". :2Jt; LhS'4/ a.Q 1I\\1.b'l'ot ,L:J."P3 .. ~Il 3 TotaJ _JI,,'v Seot~on ~ - r~ ~.t,our,ar1odl onlY - a II!>.. nner ttllln 114, 9'0 to Seal: on ~. 1 AI. IJ/,/ 1.1-0 ** 1#, I HI-I IJ'-Kl+,, I Mt. Z/}>LJ h"Z.

/..rZ 2

All- ' ~ 2 lU*"I-.. 99- ~ *. -If'4 'I'-MlI~MJ"~" ~!oq , '71':J ~,..,,~ I AJ. 1\\3.1.2' 79 *. f l.n* J-,q T*H~""~* )Jtl'l. , Of? ",.'PI 4 II" !JJ,.h 1.4*... 1. SS' Ht. J T-M4- ,5'1:) n,~/ 51c Sill:> TOt 12 or '7 ~, ~,~ 4 Tot.

q. 'Z ¥
n.

8oct~cn 5

  • r roc I' v. period. only *\\II\\6 18 l1ulUr thln M, 9't! to lI.a~illn,.

1 1,1' 111'0-HL. '1',,,1.,.,.,ft- ~ 1\\:1-Ihl*... l. H2. -M2 *.** H~. 3 1\\3-A~*II:I. M3. 'I'_HHMhH3, 4 "4*... 1. Hi. 'I'.1(4+)I~, A~'M' H5-T-Mi.. 9.~ SIIb 'N.t 6 'ItI~ S.eeioll-'- - I'~!t Six Pe:'Ulllft O1Il.y If "7 11 gnatal' tll.n 11', go to IItOt101\\ 1. 1 AI* 111'0-HI

  • T-Hh **,Hf.

l lU-l\\lw

m.

'I'oH2.,,

  • N5-l Al-A)'-

111. T... M3-+. I.NI-4 ,,~. "'-A3-M4- 'I'wlthNS""'- ~ AS. ""-104-115. 'I'.MSoIII'. G M-A'",,,,S. H" '1'-1011-Sac: sub ro~' Total SectlQn,

  • Flue SIYIII P.~iad~ only' If AB n groater t an "',.J!Il C(lIlIDconi.

l Ill-AI-O-Hl' '1'-1\\10,.,01' 2 102. lhl'A~' H2- ~T.H2+ ** 1M 1 M_ 113.1.l-1>11. TwHl~... II 4 1\\4. M-1>3-1014. 'I'ofol!+... H 5 AS. 1\\1,,,,. 1015-T*!'1!itMhH7. 6 M-M*M*' H._ T-l1hl1? 1 1\\1-111*M. M7" T-M7. Ille III1i>'I'ot 1 Total ~.nuol!\\ BqIIl pmtlnt j,()1.!l Qnw I~ IIftttQaJ1J R All- - ,M.o. _L~ - 'I',,-If!!- - .w. H.lCi~UIII slcevn 8110 10 ~dM\\ a.etlon lUte 191

  • Unllprr.~t. Ctl'rrU21 K Cuign MA'rl1IUI~ II A!I'1nll 'l\\atcr(l41

, - (5) 12 't7L, Whon th~ oell U'" IlSl b 9l'.. ~.. r ~ha""" It.MUd dOU niu, the n.xc larger cell is reqll.r$t!, (1 '. J:'" (,I,)VI'DlIei"oP1AU'. ~.qulr.~ ~.n eiz. ta) * ","po.. HO\\lrl, I'h"retol'lI pdl (111,t.C_ft:2-Z i.t... quirad. Nor£: bJfl-N rYlfI/ltrlN S~/I/U Nor Bli Uf,s,,IINJ I* OS (~Y.) (Jp~ (JF,sAte. Figure 3--Cell sIzing worksheet OUTSTANDiNG CHANGES MUST BE A TT I\\CHED FOR WORKI~1G COPY 20040614 SIZING J.EAD*ACID flAmRle;S r:Of~ STATIONARY APPl.ICATIC)NS mEr.: Std 485*1997 E-4.1(Q), REV. 16 11ot:t:&'Oln,.' ~~7t*, CIIil Vol~'l.1 /. g")1 C.ll MfS,. C'; b, 11,,11 ~./..CI{*17s~.td l!Y1 ~ (1) fa) (l) 111 II) 1"1 C&""q~ty at Raqllh:oll see1!itl'l\\ ail. 'I' Min RUe (l).. t(A).. Po.1ci". Chanv. in 1l<I~.~~on TilP to tnd "" I MIJIa/ POa CR,o) 1'1"t ** IMd LoAd of Pnled ot B.at~"n OiL' (J)lClflll-l\\&ldAlllp Hr. pu10d I."P".... ' <."uII (lUAU' ** ' 'Mil\\ute.) Ctll J: 'aator UC,.I POe V.~\\l" "'9'.V'~UIll 5tO~ltm 1

  • ru'n "t>.OCI only *, I.a UlJ'r~uu tll&D 0\\1, _1.0 til ~~ ;~M lI.

1 ,\\1*3'1', I 0\\1.-0_-:1..,'./ 'm_ 1'1'00'"- I )/I:)1r. 71 ':l 141 I .. ne 1 oc~u r~ II,; I... h~~~on~

  • Pirn 1"110 PeriHI only -,[t Al
  • IIrn'tr ~MIl All, liP to ".(jUPIlY_,

1 "l.:~"'J. {.... g ** l!f.{.;' lU-I ""0+""," In"" b!~~d2tJ., l 1.l-211'2.1 1.2.,u- -99 10 *. §"q 'I'oH2* 59 h,;:;,r;o:;. I,SI 1l.1I Sill> 'tot ,oS'" 2.fi I, (" J 2 TOI:U 3,.,41 s'Q~~Qn ~

  • un ne '8Z'

.. olay

  • I M 11.,....tn ~

'J\\; II" tl) SeaUell,. 1 .1Il" rtll.t ,u*O~~..., "~III .:!!!It/Q+~* Z, i<l' 2.9,70 II.~'" ,.2. loa- ~ 112., AJh... Ir;I 1IiI. S' 'I'~- K 29,_71(' '" '52-l ),~. :hJ.f:l. AJ'~/',-(,"'" _L " 'j'o"l_M

7.

.~.". :2Jt; LhS'4/ a.Q 1I\\1.b'l'ot ,L:J."P3 .. ~Il 3 TotaJ _JI,,'v Seot~on ~ - r~ ~.t,our,ar1odl onlY - a II!>.. nner ttllln 114, 9'0 to Seal: on ~. 1 AI. IJ/,/ 1.1-0 ** 1#, I HI-I IJ'-Kl+,, I Mt. Z/}>LJ h"Z.

/..rZ 2

All- ' ~ 2 lU*"I-.. 99- ~ *. -If'4 'I'-MlI~MJ"~" ~!oq , '71':J ~,..,,~ I AJ. 1\\3.1.2' 79 *. f l.n* J-,q T*H~""~* )Jtl'l. , Of? ",.'PI 4 II" !JJ,.h 1.4*... 1. SS' Ht. J T-M4- ,5'1:) n,~/ 51c Sill:> TOt 12 or '7 ~, ~,~ 4 Tot.

q. 'Z ¥
n.

8oct~cn 5

  • r roc I' v. period. only *\\II\\6 18 l1ulUr thln M, 9't! to lI.a~illn,.

1 1,1' 111'0-HL. '1',,,1.,.,.,ft- ~ 1\\:1-Ihl*... l. H2. -M2 *.** H~. 3 1\\3-A~*II:I. M3. 'I'_HHMhH3, 4 "4*... 1. Hi. 'I'.1(4+)I~, A~'M' H5-T-Mi.. 9.~ SIIb 'N.t 6 'ItI~ S.eeioll-'- - I'~!t Six Pe:'Ulllft O1Il.y If "7 11 gnatal' tll.n 11', go to IItOt101\\ 1. 1 AI* 111'0-HI

  • T-Hh **,Hf.

l lU-l\\lw

m.

'I'oH2.,,

  • N5-l Al-A)'-

111. T... M3-+. I.NI-4 ,,~. "'-A3-M4- 'I'wlthNS""'- ~ AS. ""-104-115. 'I'.MSoIII'. G M-A'",,,,S. H" '1'-1011-Sac: sub ro~' Total SectlQn,

  • Flue SIYIII P.~iad~ only' If AB n groater t an "',.J!Il C(lIlIDconi.

l Ill-AI-O-Hl' '1'-1\\10,.,01' 2 102. lhl'A~' H2- ~T.H2+ ** 1M 1 M_ 113.1.l-1>11. TwHl~... II 4 1\\4. M-1>3-1014. 'I'ofol!+... H 5 AS. 1\\1,,,,. 1015-T*!'1!itMhH7. 6 M-M*M*' H._ T-l1hl1? 1 1\\1-111*M. M7" T-M7. Ille III1i>'I'ot 1 Total ~.nuol!\\ BqIIl pmtlnt j,()1.!l Qnw I~ IIftttQaJ1J R All- - ,M.o. _L~ - 'I',,-If!!- - .w. H.lCi~UIII slcevn 8110 10 ~dM\\ a.etlon lUte 191

  • Unllprr.~t. Ctl'rrU21 K Cuign MA'rl1IUI~ II A!I'1nll 'l\\atcr(l41

, - (5) 12 't7L, Whon th~ oell U'" IlSl b 9l'.. ~.. r ~ha""" It.MUd dOU niu, the n.xc larger cell is reqll.r$t!, (1 '. J:'" (,I,)VI'DlIei"oP1AU'. ~.qulr.~ ~.n eiz. ta) * ","po.. HO\\lrl, I'h"retol'lI pdl (111,t.C_ft:2-Z i.t... quirad. Nor£: bJfl-N rYlfI/ltrlN S~/I/U Nor Bli Uf,s,,IINJ I* OS (~Y.) (Jp~ (JF,sAte. Figure 3--Cell sIzing worksheet

1 1J (~:;-~~--:---,-"-~.-~-------r----~------ -.--~---.-.-----,-- ----~--.-~-.:.: ~:;:;- ------,

  • JJoJ l\\lUCLEAk I

CALC. Nc).,:'--"1.1(Q) I I HOPE CREEK DESIGN ANALYSIS nEV.~6 i SHEET I PAGE 45 OF 46 L....-.. DE'l'EPl'1INAT::;:ON OF SEO LOADS FOR BATTERY lCD447 This battery feeds class lE inst. AC power supply 1CD482 only. Conservatively SBO loads for this battery are assumed to be same as emergency loads. Battery capacity has already been verified in previous section. DETERMINATION OF SEO LOADS FOR BATTERY IDD447 This battery feeds class lE inst. AC power supply 1DD482 only. Conservatively SBO loads for this battery are assumed to be same as emergency loads. Battery capacity has already been verified in previous section. CONCLUSION: Revision 15 incorporated all Pending ADs as well as all Outstanding ADs. The results of this calculation show that, after all Pending and Outstanding ADs are incorporated, all six(6) existing BCGS 1E batteries individually have sufficient capacity to meet respective SBO loads demand for four(4) hours. Several of the Pending ADs incorporated in revision 15 "give back" or increase load margin. Giving back margin makes it possible to incorporate other changes that take margin without overloading the batteries. However, if changes that take margin are implemented before changes that give back margin, there is a possibility that the batteries could be overloaded. Enclosure K was prepared to evaluate the worst case condition where all Pending ADs that were incorporated in revision 15 and that take margin are implemented before any ADs giving back margin are implemented. Enclosure K determined that the worst case condition does not overload any batteries. Therefore, all of the Pending ADs incorporated into revision 15 of this calculation may be implemented in any order without the risk of overloading any batteries. After all of the ADs listed in Enclosure K are implemented, Enclosure K may be deleted from this calculation. 1 1J (~:;-~~--:---,-"-~.-~-------r----~------ -.--~---.-.-----,-- ----~--.-~-.:.: ~:;:;- ------,

  • JJoJ l\\lUCLEAk I

CALC. Nc).,:'--"1.1(Q) I I HOPE CREEK DESIGN ANALYSIS nEV.~6 i SHEET I PAGE 45 OF 46 L....-.. DE'l'EPl'1INAT::;:ON OF SEO LOADS FOR BATTERY lCD447 This battery feeds class lE inst. AC power supply 1CD482 only. Conservatively SBO loads for this battery are assumed to be same as emergency loads. Battery capacity has already been verified in previous section. DETERMINATION OF SEO LOADS FOR BATTERY IDD447 This battery feeds class lE inst. AC power supply 1DD482 only. Conservatively SBO loads for this battery are assumed to be same as emergency loads. Battery capacity has already been verified in previous section. CONCLUSION: Revision 15 incorporated all Pending ADs as well as all Outstanding ADs. The results of this calculation show that, after all Pending and Outstanding ADs are incorporated, all six(6) existing BCGS 1E batteries individually have sufficient capacity to meet respective SBO loads demand for four(4) hours. Several of the Pending ADs incorporated in revision 15 "give back" or increase load margin. Giving back margin makes it possible to incorporate other changes that take margin without overloading the batteries. However, if changes that take margin are implemented before changes that give back margin, there is a possibility that the batteries could be overloaded. Enclosure K was prepared to evaluate the worst case condition where all Pending ADs that were incorporated in revision 15 and that take margin are implemented before any ADs giving back margin are implemented. Enclosure K determined that the worst case condition does not overload any batteries. Therefore, all of the Pending ADs incorporated into revision 15 of this calculation may be implemented in any order without the risk of overloading any batteries. After all of the ADs listed in Enclosure K are implemented, Enclosure K may be deleted from this calculation.

-r-~~ESI~: ANAL YS~~--r----Cf;r,C NC) *i;:~~(~-! ps:eG NUCLEAR HOPE CREEK I SHEET I PAGE 46 OF Au i _____________________ ---.l.____ o __________________ *..J NOTE:

~-

Last minute (240th minute) SBO load on each of the four batteries is greater than the corresponding emergency load due to diesel ~ield flashing and restoration of AC power. Resultant small increase in voltage drop is inconsequential and does not affect operation of any component at the last minute of battery duty cycle. -r-~~ESI~: ANAL YS~~--r----Cf;r,C NC) *i;:~~(~-! ps:eG NUCLEAR HOPE CREEK I SHEET I PAGE 46 OF Au i _____________________ ---.l.____ o __________________ *..J NOTE:

~-

Last minute (240th minute) SBO load on each of the four batteries is greater than the corresponding emergency load due to diesel ~ield flashing and restoration of AC power. Resultant small increase in voltage drop is inconsequential and does not affect operation of any component at the last minute of battery duty cycle.

E PSEG NUCLEAR HO~ECREEK IJ:NER'rER LOAD ON BAr:::'TERIES A survey of the test reports for all eleven of the CL IE inverters that are fed from a CL 1E battery bank indicates that inverter 1AD482 is the most inefficient. Page 2 of encl. A is a plot of D.C. current input vs. load at 120 VDC & 105 VDC. The D.C. current required at a given load for any inverter shall be taken from the plot.* For battery sizing purposes, the inverter is considered drawing current based upon 120 VDC for the first hour; and current based upon 108VDC for the remainder of the discharge cycle. (DC currents at 108vDC relative to the plot have been estimated conservatively. )

  • The D.C. current requirements for inverters 1AD481 & 10D496 shall be taken from curves drawn from their resp. test reports.

(See page 3 & 4 of encl. A) TABULATION OF INVERTER LOADS BATTERY INVERTER LOAD 1ST. HOUR 2ND TO 4TH BANK TAG. NO. CONSIDERED D.C. CURRo HOUR D.C. FOR BATT. CURRo SIZING lAD411 1AD481 8.00 KVA 87A 98A lAD482 5.75 KVA 75A 82.5A 10D496 3.20 KVA 49.0A 56.0A 1BD411 1BD481 9.50 KVA 104A 112.5A lBD482 7.25 KVA 86A 93.5A 1CD411 1CD481 7.25 KVA 86.0A 93.5A OAD495 13.5 KVA 135A 148A 1DD411 lDD481 7.25 KVA 86A 93.5A 10D485 13.75 KVA 137A 148.5A lCD447 lCD482 5.75 KVA 75A 82.5A 1DD447 lDD482 5.75 KVA 75A 82.5A R16 E PSEG NUCLEAR HO~ECREEK IJ:NER'rER LOAD ON BAr:::'TERIES A survey of the test reports for all eleven of the CL IE inverters that are fed from a CL 1E battery bank indicates that inverter 1AD482 is the most inefficient. Page 2 of encl. A is a plot of D.C. current input vs. load at 120 VDC & 105 VDC. The D.C. current required at a given load for any inverter shall be taken from the plot.* For battery sizing purposes, the inverter is considered drawing current based upon 120 VDC for the first hour; and current based upon 108VDC for the remainder of the discharge cycle. (DC currents at 108vDC relative to the plot have been estimated conservatively. )

  • The D.C. current requirements for inverters 1AD481 & 10D496 shall be taken from curves drawn from their resp. test reports.

(See page 3 & 4 of encl. A) TABULATION OF INVERTER LOADS BATTERY INVERTER LOAD 1ST. HOUR 2ND TO 4TH BANK TAG. NO. CONSIDERED D.C. CURRo HOUR D.C. FOR BATT. CURRo SIZING lAD411 1AD481 8.00 KVA 87A 98A lAD482 5.75 KVA 75A 82.5A 10D496 3.20 KVA 49.0A 56.0A 1BD411 1BD481 9.50 KVA 104A 112.5A lBD482 7.25 KVA 86A 93.5A 1CD411 1CD481 7.25 KVA 86.0A 93.5A OAD495 13.5 KVA 135A 148A 1DD411 lDD481 7.25 KVA 86A 93.5A 10D485 13.75 KVA 137A 148.5A lCD447 lCD482 5.75 KVA 75A 82.5A 1DD447 lDD482 5.75 KVA 75A 82.5A R16

FO F< j ;:0 8-!5!5C~!16, 4QO Rev. 16 V\\;:"t};:JL)~~

C11 ~;c,A{aD""" "

1: I>lv~,r'+~e'~,r 'J"~l';\\fv;t c, l) n";e, f*~i" ~+ I z: OV ~)C - N ~ ~.~ 1\\1 '" I ~-~,,"~> "30' 'L C>Q<d , J 'I ""~ (~\\'/A) FO F< j ;:0 8-!5!5C~!16, 4QO Rev. 16 V\\;:"t};:JL)~~

C11 ~;c,A{aD""" "

1: I>lv~,r'+~e'~,r 'J"~l';\\fv;t c, l) n";e, f*~i" ~+ I z: OV ~)C - N ~ ~.~ 1\\1 '" I ~-~,,"~> "30' 'L C>Q<d , J 'I ""~ (~\\'/A)

.r-~"

    • /::-::C).. :y'

~-J-:tsL:V'.;;;'., ** y'_,.. t ~.C~-:' . r6*0 5:5, ';hk e:L\\ \\ i. " ... '< o *. :"'. ;.... ~.. hi,., \\.,;Gt\\. . _-)

"_'.::,1,

< i) ",' k:/'.,-...

..
~f:;:::Ee*... i*

. '; ~ >I?'l(~ 4-

      • t>f,"f~ i 1:5 QH.EC~$D

'1'1)';;:\\1;; ~~:y';'1;f::.

j"'

I C{)~Ii;:~'T \\ 2:0 \\J~x.~ ;":lOk\\t-.li~~l;..* ,~-.. -"'.;.: ___ !--_~""" ... r.M ____ ~~'~** :7. Zb Z.5

1..0'

.r-~"

    • /::-::C).. :y'

~-J-:tsL:V'.;;;'., ** y'_,.. t ~.C~-:' . r6*0 5:5, ';hk e:L\\ \\ i. " ... '< o *. :"'. ;.... ~.. hi,., \\.,;Gt\\. . _-)

"_'.::,1,

< i) ",' k:/'.,-...

..
~f:;:::Ee*... i*

. '; ~ >I?'l(~ 4-

      • t>f,"f~ i 1:5 QH.EC~$D

'1'1)';;:\\1;; ~~:y';'1;f::.

j"'

I C{)~Ii;:~'T \\ 2:0 \\J~x.~ ;":lOk\\t-.li~~l;..* ,~-.. -"'.;.: ___ !--_~""" ... r.M ____ ~~'~** :7. Zb Z.5

1..0'

. /Q ---,~.i

0

)' . *:::Yer~\\iiC.Q~ tt. AXis'.,; . :'~\\()r:;o..J~;+~J: A,){iS ;)~ " ",'; *n*.j . /Q ---,~.i

0

)' . *:::Yer~\\iiC.Q~ tt. AXis'.,; . :'~\\()r:;o..J~;+~J: A,){iS ;)~ " ",'; *n*.j

PSEG NUCLEAR HOPE CREEK CRT NO. 1 2 3 4 5 6 7 8 9 10 LOAD DESCRIPTION DSL GEN CONTROL PNL DSL GEN CONTROL PNL (Alt) SHUNT TRIP COIL FOR MCC BRR REMOTE SHUTDOWN PANEL SACS LOOP 'A' SUPPLY VAI,VE 11SV-2522A) SACS COOLER CTL PNL D.G. HVAC CONTROL PNL 1I2/02 ANALYZER PNL HAD MON INST CABINET FRVS CONTROL PANEL DESIGN ANALYSIS SHEET DISTRIBUTIO~' PANEL 1AJ~81 (FED FROM INVERTER 1AD481) PANEL NOS. LOAD (VA) lAC420A 1302 IAC420A 1302 10B451023 105' 10C399 476.76 lAC657BM 96 lAC281 258 1AC483 312 lAC200 800 10C60411 600 1AC285 661-2 ---'REFEREr1C'F.-- -oM'18 (Q1354 (8) M18(Q1354 (B) ITEcn SPEC E1181Q) APP. G) J201-217) P3051Q)280 CCN#272587 M780A(Q)-214) M780AIQ)-914) J359 IQ 1 -16 PJ373 (Q)320 M780A(Q) 12 (5) Assuming 100% of incoming supply fuse rating 11 FUSE PANEL 1YF401 386 E-1417 SH.* A 12 SACS CONTROL PANEL 1AC201 93 J201- (Q) 5 (4) 13 CL 1E CH 'A' 125V DC SvJGR 10D41014 72 E 0119*' 125V BAT CHG lAD413 & 414 14 CL 1E CH 'A' 4.16RV SWGR 10A40101 132 E-0006** 15 CL lE CH '11' 250V DC SvJGR lATB4047 48 E-0118*' 250V BAT CHG'S 10D45011 10D423 16 1E ELECT. AUX CAB ClI 'A' 1AC6BOC 48 E-1416** 17 DSL GEN LOAD SEQR PNL 1AC428 575 CCN 270418 18 HPCI VERTICAL BOARD 10C620A 300 E21-1040-62(4) B21-1050-64(11 19 DIV I, RHR & CS RELAY 10C617D 1078.36 CI-1040(1) BOARD Ell-1040 (71 E21-1040(5,6,6A) 20 RADIATION MON. SYS. lAC696,691,692, 60 PJ3731QI320 693 21 ATL~S 10C601B 300 CCN230996 22 INBOARD ISOLATION VLV RLY 10C622B 194 B21 1090(10) VERT BOARD TOTAL 7793 ADD FOR GRONTH 207 TOTAL 8000 This load has a duration of less than 2 cycles therefore is excluded from the total. See sht. 14 for transducer load. Based on battery capacity and/or required DC load terminal voltages_ Values less than 1 VA deemed insignificant_ Round up for conservatism. CALC. NO [-7.7(0) Rl,\\! 10 ENCLOSURE: /, PAGE 5 01= 14 IR16 PSEG NUCLEAR HOPE CREEK CRT NO. 1 2 3 4 5 6 7 8 9 10 LOAD DESCRIPTION DSL GEN CONTROL PNL DSL GEN CONTROL PNL (Alt) SHUNT TRIP COIL FOR MCC BRR REMOTE SHUTDOWN PANEL SACS LOOP 'A' SUPPLY VAI,VE 11SV-2522A) SACS COOLER CTL PNL D.G. HVAC CONTROL PNL 1I2/02 ANALYZER PNL HAD MON INST CABINET FRVS CONTROL PANEL DESIGN ANALYSIS SHEET DISTRIBUTIO~' PANEL 1AJ~81 (FED FROM INVERTER 1AD481) PANEL NOS. LOAD (VA) lAC420A 1302 IAC420A 1302 10B451023 105' 10C399 476.76 lAC657BM 96 lAC281 258 1AC483 312 lAC200 800 10C60411 600 1AC285 661-2 ---'REFEREr1C'F.-- -oM'18 (Q1354 (8) M18(Q1354 (B) ITEcn SPEC E1181Q) APP. G) J201-217) P3051Q)280 CCN#272587 M780A(Q)-214) M780AIQ)-914) J359 IQ 1 -16 PJ373 (Q)320 M780A(Q) 12 (5) Assuming 100% of incoming supply fuse rating 11 FUSE PANEL 1YF401 386 E-1417 SH.* A 12 SACS CONTROL PANEL 1AC201 93 J201- (Q) 5 (4) 13 CL 1E CH 'A' 125V DC SvJGR 10D41014 72 E 0119*' 125V BAT CHG lAD413 & 414 14 CL 1E CH 'A' 4.16RV SWGR 10A40101 132 E-0006** 15 CL lE CH '11' 250V DC SvJGR lATB4047 48 E-0118*' 250V BAT CHG'S 10D45011 10D423 16 1E ELECT. AUX CAB ClI 'A' 1AC6BOC 48 E-1416** 17 DSL GEN LOAD SEQR PNL 1AC428 575 CCN 270418 18 HPCI VERTICAL BOARD 10C620A 300 E21-1040-62(4) B21-1050-64(11 19 DIV I, RHR & CS RELAY 10C617D 1078.36 CI-1040(1) BOARD Ell-1040 (71 E21-1040(5,6,6A) 20 RADIATION MON. SYS. lAC696,691,692, 60 PJ3731QI320 693 21 ATL~S 10C601B 300 CCN230996 22 INBOARD ISOLATION VLV RLY 10C622B 194 B21 1090(10) VERT BOARD TOTAL 7793 ADD FOR GRONTH 207 TOTAL 8000 This load has a duration of less than 2 cycles therefore is excluded from the total. See sht. 14 for transducer load. Based on battery capacity and/or required DC load terminal voltages_ Values less than 1 VA deemed insignificant_ Round up for conservatism. CALC. NO [-7.7(0) Rl,\\! 10 ENCLOSURE: /, PAGE 5 01= 14 IR16

P8EG NUCLEAR HOP" CREEK "'C'KTtirO. LoA'b-oEschI PT ION 1 DSL GEN CONTROL PANEL 2 OSL GEN CONTHi5L'PANEL (ALT) 3 SP~~ 4 REMOTE SIIU'rDOWN PANEL 5 SACS LOOP 'B' SUPPLY VLV SV-2522B 6 SACS COOLER CONTROL PNL 7 D.G. HVAC CON'rROl, PNL 8 H2/02 ANALYZER PANEL 9 RAD MON INSTR CAB 10 FRVS CONTROL PANEL 11 FUSE PANEL 12 SACS CONTROL PANEL 13 CL IE CH 'B' 125V DC SWGR 125V BAT CHGS 14 CL IE CH 'B' 4.16KV SWGR 15 CL IE CH 'B' 250VDC SWGR 250V BAT CHG 16 IE ELEC AUX CAB CH 'B' 17 DES GEN LOAD SEQR PNL 18 DIV 2 RHR & CS RELAY VERT BOARD 19 RCIC VERTICAL BOARD 20 RADIATION MON. SYS. 21 ATWS

TOTAl, ADD FOR GROWTH TOTAL DESIGN ANALYSIS SHEET DISTRIBUTION PANEL IBJ481 (PED FROM INVERTER 1BD481)

CALC, NO: t'-~.W)) FU::V.1G ENCLOSURi: 1\\ PAGE () or= 14 PANEL NOS. I~~- '--*---REFERENcE-~-~--~ IBC420A 1302 M-i8(Qi3"'S4(~- 1 BC47.0A 1302 M18(Q)35~ nT~) -_.- 10C399 953.58 J201(Q)7(14) IR16 IBC6~7BB4 96 P305(Q)-280 CCN # 272587 IBC281 258 M780A(Q) 3 (4) IBC483 312 M780A(Q)-9(6) 1BC200 800 J359 (Q) -16 10C604B 661. 2 PJ373(Q)320 IBC285 720 M780A (Q) 12 (8) Assuming 100% of incoming supply fuse rating. lYF402 202 E 1417 SH. 3A IBC201 93 J201(Q)5-(10) 10042014 72 E-0119** IBD413&414 10A40201 132 E-0006** 10046011 48 E 0118** 10D433 IBC680C 48 E-1416** 1BC428 575 CCN 270418 10C618D 928 E11-1040 (7) E21-*1040 (5, 6A, 6) 10C621A 12') B21-1050-64 (1 ) E51-1040-59 (4 ) IBC696 60 PJ373(Q)320 10C602B 300 CCN 230996 7688 1812 9500 See Sht. 14 for transducer load. Based on battery capacity and/or required DC load terminal voltages. Values less than 1 VA deemed significant. Round up for conservatism. P8EG NUCLEAR HOP" CREEK "'C'KTtirO. LoA'b-oEschI PT ION 1 DSL GEN CONTROL PANEL 2 OSL GEN CONTHi5L'PANEL (ALT) 3 SP~~ 4 REMOTE SIIU'rDOWN PANEL 5 SACS LOOP 'B' SUPPLY VLV SV-2522B 6 SACS COOLER CONTROL PNL 7 D.G. HVAC CON'rROl, PNL 8 H2/02 ANALYZER PANEL 9 RAD MON INSTR CAB 10 FRVS CONTROL PANEL 11 FUSE PANEL 12 SACS CONTROL PANEL 13 CL IE CH 'B' 125V DC SWGR 125V BAT CHGS 14 CL IE CH 'B' 4.16KV SWGR 15 CL IE CH 'B' 250VDC SWGR 250V BAT CHG 16 IE ELEC AUX CAB CH 'B' 17 DES GEN LOAD SEQR PNL 18 DIV 2 RHR & CS RELAY VERT BOARD 19 RCIC VERTICAL BOARD 20 RADIATION MON. SYS. 21 ATWS

TOTAl, ADD FOR GROWTH TOTAL DESIGN ANALYSIS SHEET DISTRIBUTION PANEL IBJ481 (PED FROM INVERTER 1BD481)

CALC, NO: t'-~.W)) FU::V.1G ENCLOSURi: 1\\ PAGE () or= 14 PANEL NOS. I~~- '--*---REFERENcE-~-~--~ IBC420A 1302 M-i8(Qi3"'S4(~- 1 BC47.0A 1302 M18(Q)35~ nT~) -_.- 10C399 953.58 J201(Q)7(14) IR16 IBC6~7BB4 96 P305(Q)-280 CCN # 272587 IBC281 258 M780A(Q) 3 (4) IBC483 312 M780A(Q)-9(6) 1BC200 800 J359 (Q) -16 10C604B 661. 2 PJ373(Q)320 IBC285 720 M780A (Q) 12 (8) Assuming 100% of incoming supply fuse rating. lYF402 202 E 1417 SH. 3A IBC201 93 J201(Q)5-(10) 10042014 72 E-0119** IBD413&414 10A40201 132 E-0006** 10046011 48 E 0118** 10D433 IBC680C 48 E-1416** 1BC428 575 CCN 270418 10C618D 928 E11-1040 (7) E21-*1040 (5, 6A, 6) 10C621A 12') B21-1050-64 (1 ) E51-1040-59 (4 ) IBC696 60 PJ373(Q)320 10C602B 300 CCN 230996 7688 1812 9500 See Sht. 14 for transducer load. Based on battery capacity and/or required DC load terminal voltages. Values less than 1 VA deemed significant. Round up for conservatism.

PSEG NUCLEAR HOfJE CREEK DESIGN llNAl YSIS SHEET CALC. NO: E-4.1(0) REV. 16 ENCLOSURE [\\ PAGE 7 OF 1-< DISTRIBUTIOU PANEL 1CJ481 (FED PROM INVERTER 1CD481) CKT NO. LOAD DESCRIPTION PANEL NOS. LOAD (VA) REFERENCE 1 OS1, GEN CONTROL PANEL 1CC420A 1302 M18(Q)354(8) 2 OSL G£N CONTROL PANEL 1CC420A 1302 M18(Q)354(8) (AUl') 3 SHUNT TRIP COIL FOR MCC 10B471014 105 -k TECH SPEC BREAKER E118 (Q) APP. G 4 REMOTE SHUTDOWN PANEL 10C399 50 J201(Q) 7 (35) 5 SHUNT TRIP COIL FOR MCC 10B471023 105* TECH SPEC BKR E118 (Q) APP. G 6 SACS LOOP 'A' SUPPLY 1CC657CCl 96 P305(Q)-280 VLV CNN #272587 1SV-2522C 7 O.G. HVAC CONTROL PNL 1CC483 947 M780A(Q) 10 (4) 8 SACS COOLER CON'l'ROL 1CC281 236 M780A(Q)2(7) PANEL 9 RAD. MON. INST. CAB 10C604C 600 PJ373(Q)320 10 FRVS CON'l'ROL PANL 1CC285 795.4 M780A(Q)-13(4) 11 FUSE PANEL 1YF403 360 E 1417 SH. 4A 12 SACS CONTROL PANEL lCC201 93 J201(Q)1-(2) 13 CL 1E CH'C'125V DC SWGR 10043014 60 £-0119** 125V BAT CHGS 1CD413,414 14 CL 1E CH 'C' 4.16KV 10M0301 132 £ 0006** SWGR 16 1E ELEC AUX CAB 1CC680C 48 E 1416** 17 DSL GEN LOAD SEQR PNL 1CC428 575 CCN 270418 19 RADIATION MON. SYS. 1CC696 60 PJ3739(Q) 320 20 DIV 3 RHR & CS RELAY 10C641C 520 Ell 1040(8) VERT BOARD E21-1040 (6B,6) B21-1050(1) TOTAL (KVA) 5875 ADD FOR GROWTH (KVA) 1375 TOTAL (KVA) 7250 This load has a duration of less than 2 cycles therefore is excluded from the total. See Sht. 14 for transducer load. Based on battery capacity and/or required DC load terminal voltages. Values less than 1 VA deemed insignificant. Round up for conservatism. PSEG NUCLEAR HOfJE CREEK DESIGN llNAl YSIS SHEET CALC. NO: E-4.1(0) REV. 16 ENCLOSURE [\\ PAGE 7 OF 1-< DISTRIBUTIOU PANEL 1CJ481 (FED PROM INVERTER 1CD481) CKT NO. LOAD DESCRIPTION PANEL NOS. LOAD (VA) REFERENCE 1 OS1, GEN CONTROL PANEL 1CC420A 1302 M18(Q)354(8) 2 OSL G£N CONTROL PANEL 1CC420A 1302 M18(Q)354(8) (AUl') 3 SHUNT TRIP COIL FOR MCC 10B471014 105 -k TECH SPEC BREAKER E118 (Q) APP. G 4 REMOTE SHUTDOWN PANEL 10C399 50 J201(Q) 7 (35) 5 SHUNT TRIP COIL FOR MCC 10B471023 105* TECH SPEC BKR E118 (Q) APP. G 6 SACS LOOP 'A' SUPPLY 1CC657CCl 96 P305(Q)-280 VLV CNN #272587 1SV-2522C 7 O.G. HVAC CONTROL PNL 1CC483 947 M780A(Q) 10 (4) 8 SACS COOLER CON'l'ROL 1CC281 236 M780A(Q)2(7) PANEL 9 RAD. MON. INST. CAB 10C604C 600 PJ373(Q)320 10 FRVS CON'l'ROL PANL 1CC285 795.4 M780A(Q)-13(4) 11 FUSE PANEL 1YF403 360 E 1417 SH. 4A 12 SACS CONTROL PANEL lCC201 93 J201(Q)1-(2) 13 CL 1E CH'C'125V DC SWGR 10043014 60 £-0119** 125V BAT CHGS 1CD413,414 14 CL 1E CH 'C' 4.16KV 10M0301 132 £ 0006** SWGR 16 1E ELEC AUX CAB 1CC680C 48 E 1416** 17 DSL GEN LOAD SEQR PNL 1CC428 575 CCN 270418 19 RADIATION MON. SYS. 1CC696 60 PJ3739(Q) 320 20 DIV 3 RHR & CS RELAY 10C641C 520 Ell 1040(8) VERT BOARD E21-1040 (6B,6) B21-1050(1) TOTAL (KVA) 5875 ADD FOR GROWTH (KVA) 1375 TOTAL (KVA) 7250 This load has a duration of less than 2 cycles therefore is excluded from the total. See Sht. 14 for transducer load. Based on battery capacity and/or required DC load terminal voltages. Values less than 1 VA deemed insignificant. Round up for conservatism.

PSE'G NUCLE'.AR HOPl CREt:f~ 'cKT""Ni5~ -, LOAD DESCRIP1~'~ 1 DSL GEN CONTROL PANEL 2 DSL GEN CONTROL PANEL (ALT) 3 SHUNT TRIP COIL FOR MCC BKR 4 REMOTE SHUTDOWN PANEL 5 SPARE 6 SACS LOOP 'B' SUPPLY VLV 1SV-2522D 7 D.G. HVAC CONTROL PNL 8 SACS COOLER CONTROL PANEL 9 RAD.MON.INST.CAB 10 FRVS CONTROL PANEL 11 FUSE PANEL 12 SACS CONTROL PANEL 13 CL IE CH 'D' 125V DC SWGR 125V BAT CHGS H CL IE CH 'D' 4.16KV SWGR 16 1F. ELEC AUX CAB CH '0' 17 DSL GEN LOAD SEQR PNL 19 RADIATION MON. SYS. 20 DIV 3 RHR & CS RELAY VERT BOARD 21 OUTBOARD ISOLATION VLV RELAY VERT BOARD TOTAL ADD FOR GROWTH TOTAL DESIGN ANALYSIS SHE:':; DISTRIBUTION PANEL lDJ481 (FED FROM INVERTER lDD481) PANEL NOS. LOAiJ(VA) IDC420A 13 02 1DC420A 1302 10B441043 105* lOC399 574.76 IDC657BD4 96 1DC483 947 IDC281 236 10C604D 600 1DC285 795.4 lYF404 475 IDC201 93 10D44014 60 IDD413 IDD414 10A40401 132 IDC680C 48 IDC428 575 10D696 60 10C640C 535 10C623B 194 6724 526 7250 REFERENCE 1----- M18(Q)354(8) M18 (Q) 354 (8) TECH SPEC E118(Q) APP.G J201(Q)7(10 13) P305(Q) 280 CNN# 272587 M780A(Q)-10(16) M780A(Q) -3 (7) PJ373(Q)320 M780A (Q) -13 (6) E-1417 SH.5A J201(Q) -1(3) E-0119 H E 0006** E 1416** CCN 270418 PJ373(Q)320 E11-1040 (8) E21-1040(6B,6) B21-1050(1) B21-1090 (10) This load has a duration of less than 2 cycles therefore is excluded from the total. See sht. 14 for transducer load. Based on battery capacity and/or required DC load terminal voltages.

        • Values less than 1 VA deemed insignificant.

Round up for conservatism. CALC. NO: E-4.1(Q) REV. 16 ENCLOSURE A PAGE 8 OF 14 IR16 PSE'G NUCLE'.AR HOPl CREt:f~ 'cKT""Ni5~ -, LOAD DESCRIP1~'~ 1 DSL GEN CONTROL PANEL 2 DSL GEN CONTROL PANEL (ALT) 3 SHUNT TRIP COIL FOR MCC BKR 4 REMOTE SHUTDOWN PANEL 5 SPARE 6 SACS LOOP 'B' SUPPLY VLV 1SV-2522D 7 D.G. HVAC CONTROL PNL 8 SACS COOLER CONTROL PANEL 9 RAD.MON.INST.CAB 10 FRVS CONTROL PANEL 11 FUSE PANEL 12 SACS CONTROL PANEL 13 CL IE CH 'D' 125V DC SWGR 125V BAT CHGS H CL IE CH 'D' 4.16KV SWGR 16 1F. ELEC AUX CAB CH '0' 17 DSL GEN LOAD SEQR PNL 19 RADIATION MON. SYS. 20 DIV 3 RHR & CS RELAY VERT BOARD 21 OUTBOARD ISOLATION VLV RELAY VERT BOARD TOTAL ADD FOR GROWTH TOTAL DESIGN ANALYSIS SHE:':; DISTRIBUTION PANEL lDJ481 (FED FROM INVERTER lDD481) PANEL NOS. LOAiJ(VA) IDC420A 13 02 1DC420A 1302 10B441043 105* lOC399 574.76 IDC657BD4 96 1DC483 947 IDC281 236 10C604D 600 1DC285 795.4 lYF404 475 IDC201 93 10D44014 60 IDD413 IDD414 10A40401 132 IDC680C 48 IDC428 575 10D696 60 10C640C 535 10C623B 194 6724 526 7250 REFERENCE 1----- M18(Q)354(8) M18 (Q) 354 (8) TECH SPEC E118(Q) APP.G J201(Q)7(10 13) P305(Q) 280 CNN# 272587 M780A(Q)-10(16) M780A(Q) -3 (7) PJ373(Q)320 M780A (Q) -13 (6) E-1417 SH.5A J201(Q) -1(3) E-0119 H E 0006** E 1416** CCN 270418 PJ373(Q)320 E11-1040 (8) E21-1040(6B,6) B21-1050(1) B21-1090 (10) This load has a duration of less than 2 cycles therefore is excluded from the total. See sht. 14 for transducer load. Based on battery capacity and/or required DC load terminal voltages.

        • Values less than 1 VA deemed insignificant.

Round up for conservatism. CALC. NO: E-4.1(Q) REV. 16 ENCLOSURE A PAGE 8 OF 14 IR16

PS,:G NUCLEAR HOPe: CREEK DESIGN ANAL Y3IS SHEET DISTRIBUTION PANeL 10J42S (FED FROM INVERTER 10D485) CALC. NO: [-4.1(0) REV 16 C:NClOSURE A PAGE 9 OF 14 rcKT':'NO. LOADDEsC:RIPTIoN PANEL NOS. LOAD(VI~._- REF'ERENc:i-;--c. 1 NSSS COMPo CNTRL. SYS-:" 10Z600 1"0 Load ~,,-- Hardw'";~oved UNIT CAB. ~. NSSS COMPo ANALOG 1/0 10Z613 NO Load Hardware Removed CAB. 3 No Load Hardware Removed 4 NSSS COMPo DIGITAL I/O 10Z620,70S, primary Power CAB. 614 2016 5 6 NSSS COMPo PERIPHERAL 10Z701,702 CONSOLE 738.75 7 CRT UNIT & KEYBOARD 10Z703,704 1743.75 R INST POWER 10C650CA 1800 16 NSSS COMPo ANALOG I/O 10Z705,620 Back-Up Power CAB. 360 19 ROD DRIVE CONTROL CAB. 10c616 6600 TOTAL 13259 ADD !-'OR GROW1'H 742

TOTAL, 14000 Based on battery capacity and lor required DC load terminal volt.ages Values less than 1 VA deemed insignificant. Round up for conservatism
      • Enclosure L REFERENCE
1) ['SSP 324154 2 ) ['SBP 324251
3) VTD 326394
4) VTD 326416 IRiG PS,:G NUCLEAR HOPe: CREEK DESIGN ANAL Y3IS SHEET DISTRIBUTION PANeL 10J42S (FED FROM INVERTER 10D485)

CALC. NO: [-4.1(0) REV 16 C:NClOSURE A PAGE 9 OF 14 rcKT':'NO. LOADDEsC:RIPTIoN PANEL NOS. LOAD(VI~._- REF'ERENc:i-;--c. 1 NSSS COMPo CNTRL. SYS-:" 10Z600 1"0 Load ~,,-- Hardw'";~oved UNIT CAB. ~. NSSS COMPo ANALOG 1/0 10Z613 NO Load Hardware Removed CAB. 3 No Load Hardware Removed 4 NSSS COMPo DIGITAL I/O 10Z620,70S, primary Power CAB. 614 2016 5 6 NSSS COMPo PERIPHERAL 10Z701,702 CONSOLE 738.75 7 CRT UNIT & KEYBOARD 10Z703,704 1743.75 R INST POWER 10C650CA 1800 16 NSSS COMPo ANALOG I/O 10Z705,620 Back-Up Power CAB. 360 19 ROD DRIVE CONTROL CAB. 10c616 6600 TOTAL 13259 ADD !-'OR GROW1'H 742

TOTAL, 14000 Based on battery capacity and lor required DC load terminal volt.ages Values less than 1 VA deemed insignificant. Round up for conservatism
      • Enclosure L REFERENCE
1) ['SSP 324154 2 ) ['SBP 324251
3) VTD 326394
4) VTD 326416 IRiG

PSEG l'IlJC!_EAR HOI::J:~ Cl-~ED( D[SIGN ANALYSiS SHEET REFER ENCL 'G' DISTRIBUTION PANEL, 1AJ482 (FED FROM INVERTER 1AD482) LOAD DUE TO 1AC652: 36.05 A X 120 V 4326 LOAD DUE TO 1AC655: 10.765 A X 120 V 1292 TOTAL ADD FOR GROWTH TOTAL DISTRIBUTION PANEL 1BJ482 (FED FROM LOAD DUE TO 1BC652: 36.93 A X LOAD DUE TO 1BC655: 10.099 A X TOTAL ADD FOR GROWTH TOTAL 5618 132 5750 INVERTER 1BD482) 120 V 4432 120 V 1212 5644 1606 7250 DISTRIBUTION PANEL 1CJ482 (FED FROM INVERTER lCD482) LOAD DUE TO lCC652: 30.35 A X 120 V 3642 LOAD DUE TO 1CC655: 6.49 A X 120 V 779 LOAD DUE TO BATT. CHRGR. 60 A

TOTAl, ADD FOR GROWTH TOTAL X

1 V 60 4481 1269 5750 DISTRIBUTION PANEL 1DJ482 (FED FROM INVERTER 1DD482) LOAD DUE TO IDC652: 34.70 A X 120 V 4164 LOAD DUE TO 1DC655: 6.828 A X 120 V LOAD DUE TO BATT. CHRGR. 60 A X 1 V TOTAL ADD FOR GROWTH TOTAL 841 60 5065 685 5750 R16 C/\\LC. 1')0: E-4.1 (0) REV. 16 L':NCLOSURE A PAGE 10 OF 14 = S.7SKVA = 7.2SKVA = S.7SKVA = 5.75KVA PSEG l'IlJC!_EAR HOI::J:~ Cl-~ED( D[SIGN ANALYSiS SHEET REFER ENCL 'G' DISTRIBUTION PANEL, 1AJ482 (FED FROM INVERTER 1AD482) LOAD DUE TO 1AC652: 36.05 A X 120 V 4326 LOAD DUE TO 1AC655: 10.765 A X 120 V 1292 TOTAL ADD FOR GROWTH TOTAL DISTRIBUTION PANEL 1BJ482 (FED FROM LOAD DUE TO 1BC652: 36.93 A X LOAD DUE TO 1BC655: 10.099 A X TOTAL ADD FOR GROWTH TOTAL 5618 132 5750 INVERTER 1BD482) 120 V 4432 120 V 1212 5644 1606 7250 DISTRIBUTION PANEL 1CJ482 (FED FROM INVERTER lCD482) LOAD DUE TO lCC652: 30.35 A X 120 V 3642 LOAD DUE TO 1CC655: 6.49 A X 120 V 779 LOAD DUE TO BATT. CHRGR. 60 A

TOTAl, ADD FOR GROWTH TOTAL X

1 V 60 4481 1269 5750 DISTRIBUTION PANEL 1DJ482 (FED FROM INVERTER 1DD482) LOAD DUE TO IDC652: 34.70 A X 120 V 4164 LOAD DUE TO 1DC655: 6.828 A X 120 V LOAD DUE TO BATT. CHRGR. 60 A X 1 V TOTAL ADD FOR GROWTH TOTAL 841 60 5065 685 5750 R16 C/\\LC. 1')0: E-4.1 (0) REV. 16 L':NCLOSURE A PAGE 10 OF 14 = S.7SKVA = 7.2SKVA = S.7SKVA = 5.75KVA

I ~ALc..4.. 1 (0) E'N c.t~o 5u~A Bechtel Power Corporation Enqineers*Constructors ~. Jl ~} 11:f~ Rev. 16 P.'O. Box 3965 San Francisco, California 94119 Attention: Mr. C. R. Radnoty Gentlemen, Subjeot: Public Serviee Electric' Gas Hope Creek Generating Station Purchase Order flSOS5-E-04S-AC GAI-Trcnics JO-76D6l Enclosed are the calculations used to arrive at the power consumption of the GAI-Tronics equipment for Unit '1 and Unit '2. This information was requested by Mr.,S. Malik in a conversation of May 27, 1976..._,..,.,, ,L'he results were obtained by adding the number of amplifiers per unit and then calculating the power requirements at HO Signal" and -Max. Signal" *. The totals are listed in both ,watts and V.A. <...a~ PA~~)... The "Maximum Signal Total" is the extreme aituation where all ampl.:l.f1ers are set a.t maximum output and weJ."e 4X'iven" with a steady tone. In actual applications, 25'of this figure ,,~s rarely exceede..:!.. '/ ~ 40' _.... ~ For your calculation purposes we 'have ~rived at -Typioal Total for Practical Applications". It includes the total power required per.un~t and is listed in both watts and V.A. Should there be any further questions, do not hesitate to write or call. Very truly yours, fil !>rJI,Ju, 1U.pt.llu",4Wr.r uu.

1'111.

vn~/tJ ~ ~I.I""

/" ~,.~ 4fwo\\

-... i. Lt.,~. -~ TM/ap Enolosure I. I

  • ,'1 w
  • I

~ALc..4.. 1 (0) E'N c.t~o 5u~A Bechtel Power Corporation Enqineers*Constructors ~. Jl ~} 11:f~ Rev. 16 P.'O. Box 3965 San Francisco, California 94119 Attention: Mr. C. R. Radnoty Gentlemen, Subjeot: Public Serviee Electric' Gas Hope Creek Generating Station Purchase Order flSOS5-E-04S-AC GAI-Trcnics JO-76D6l Enclosed are the calculations used to arrive at the power consumption of the GAI-Tronics equipment for Unit '1 and Unit '2. This information was requested by Mr.,S. Malik in a conversation of May 27, 1976..._,..,.,, ,L'he results were obtained by adding the number of amplifiers per unit and then calculating the power requirements at HO Signal" and -Max. Signal" *. The totals are listed in both ,watts and V.A. <...a~ PA~~)... The "Maximum Signal Total" is the extreme aituation where all ampl.:l.f1ers are set a.t maximum output and weJ."e 4X'iven" with a steady tone. In actual applications, 25'of this figure ,,~s rarely exceede..:!.. '/ ~ 40' _.... ~ For your calculation purposes we 'have ~rived at -Typioal Total for Practical Applications". It includes the total power required per.un~t and is listed in both watts and V.A. Should there be any further questions, do not hesitate to write or call. Very truly yours, fil !>rJI,Ju, 1U.pt.llu",4Wr.r uu.

1'111.

vn~/tJ ~ ~I.I""

/" ~,.~ 4fwo\\

-... i. Lt.,~. -~ TM/ap Enolosure I. I

  • ,'1 w
  • p Sl~-G-NUC1~E0~p:------T HOPE CREEL

I-------c-.. A.L-C~1~O:-1f-4 'lT~5)1 I DESIGN ANALYSIS REV.16 I

SHEET ENCLc?~;URE A PA(31~ 12 or 14 TABULl'.TION OF PA LOADS FED FROM INVERTER 10D4.96 UNI'l' #1 WATTS VA GTC PER PER MODEL MODELJ # SIGNAL MODEL MODEL QUANTrry 701A 0 5 8 204 MAX. 29 35 651E 0 5 7 292 MAX. 28 34 712A 0 5 8 5 MAX. 29 35 601E 1.5 3.6 16 Actual maximum inverter load is 3000 VA based on field measurement (readings of 25 amps at 120V) with the PA System broadcasting. Ref.:Page 13 of this Enclosure. Modifications per DCPs 80000916(*) and 80089827(**) WATTS VA GTC PER PER MODEL MODEL # SIGNAL MODEL MODEL QUANTITY Watts 651E 0 5 7 (2 ) (10) MAX. 28 34 (56 ) 701-204 0 4.5 10 4 18 MAX. 27 50 108 701-204 0 4.5 10 3 13.5 (Note 1) MAX. 4.5 10 3 13.5 751-001 MAX. 27 50 1 27 Existing PA System Max VA (Actual)

=:

3000 DCP 80000916 Max VA (218 x.25) (Note 2)

=:

55 DCP 80089827 Max VA (50 X 0.25) (Note 2) 13 Sub-Total PA System VA 3055 PA Load Growth Margin = 145 Total VA = 3200 Note 1: The speaker amplifier within these units is not being utilized. Per Gia-Tronics, the maximum VA would be equal to or less than the "0" signal VA. Note 2: Demand Factor = 25% per Gai-Tronics 6-8-76 letter. VA (14) (68) 40 200 30 30 50 Note 3: Additional intermittent loads fed from Communications Panel 10C685 (Strobe Light Units, Tone Generator, Merge Isolation unit, & Electro Soundpower System) are considered to be insignificant. R16 p Sl~-G-NUC1~E0~p:------T HOPE CREEL

I-------c-.. A.L-C~1~O:-1f-4 'lT~5)1 I DESIGN ANALYSIS REV.16 I

SHEET ENCLc?~;URE A PA(31~ 12 or 14 TABULl'.TION OF PA LOADS FED FROM INVERTER 10D4.96 UNI'l' #1 WATTS VA GTC PER PER MODEL MODELJ # SIGNAL MODEL MODEL QUANTrry 701A 0 5 8 204 MAX. 29 35 651E 0 5 7 292 MAX. 28 34 712A 0 5 8 5 MAX. 29 35 601E 1.5 3.6 16 Actual maximum inverter load is 3000 VA based on field measurement (readings of 25 amps at 120V) with the PA System broadcasting. Ref.:Page 13 of this Enclosure. Modifications per DCPs 80000916(*) and 80089827(**) WATTS VA GTC PER PER MODEL MODEL # SIGNAL MODEL MODEL QUANTITY Watts 651E 0 5 7 (2 ) (10) MAX. 28 34 (56 ) 701-204 0 4.5 10 4 18 MAX. 27 50 108 701-204 0 4.5 10 3 13.5 (Note 1) MAX. 4.5 10 3 13.5 751-001 MAX. 27 50 1 27 Existing PA System Max VA (Actual)

=:

3000 DCP 80000916 Max VA (218 x.25) (Note 2)

=:

55 DCP 80089827 Max VA (50 X 0.25) (Note 2) 13 Sub-Total PA System VA 3055 PA Load Growth Margin = 145 Total VA = 3200 Note 1: The speaker amplifier within these units is not being utilized. Per Gia-Tronics, the maximum VA would be equal to or less than the "0" signal VA. Note 2: Demand Factor = 25% per Gai-Tronics 6-8-76 letter. VA (14) (68) 40 200 30 30 50 Note 3: Additional intermittent loads fed from Communications Panel 10C685 (Strobe Light Units, Tone Generator, Merge Isolation unit, & Electro Soundpower System) are considered to be insignificant. R16

CaLcJ:li~~ Ii Ql:L~~:_1-.:HQ2 _________________________________________________ _ He Class IE 125 VDC Statio;1 Battery & Charger Sizing Rev. 'fC Enclo:mre A Current and Voltage Readings for HIQF-IO-D-496 8 roadcasting: Vo Itage (VI

12. tJ. tJ

~ _/1)( Current (A) 2.5 "/ Not Broadcasting: Voltage (V) /2.";, I.-' Current (A) __.:-'_O __ Date: £/-r/6 () Paqt? 13 of 14 tnn 1 CaLcJ:li~~ Ii Ql:L~~:_1-.:HQ2 _________________________________________________ _ He Class IE 125 VDC Statio;1 Battery & Charger Sizing Rev. 'fC Enclo:mre A Current and Voltage Readings for HIQF-IO-D-496 8 roadcasting: Vo Itage (VI

12. tJ. tJ

~ _/1)( Current (A) 2.5 "/ Not Broadcasting: Voltage (V) /2.";, I.-' Current (A) __.:-'_O __ Date: £/-r/6 () Paqt? 13 of 14 tnn 1

~ OUTSTANDiNG CHM~G[S rv1UST BE A TT,c.'J :::D ;:-01;; WGF'fCHC' 'COP':'

20040614 I
~:Ple, S:::IFICA nONS (""nDnuecl) 4.1 ((:.))

£NCL05Uf?:~ A -a.M. II-; t'*f I L! Rnv e: c~ Calibration: Zero Span External Power: Voltage Range Burden Frequency Range Outline and Connections Dielectric Test EXCERPT FROfv1 O t; fl" l' fJ M.

  • ";0 \\.\\,

.:Z~1111UPl "'5%.1*5011? 0' I 10

20%

100

  • 130 Vac 12 VA Maximum 50 - 500 Hz

'(.,:; II k ~,..~ See Figure 2.1. page 2-3 1500 Vrms between an inputs, outputs/case (IEEE Std. 472 SWCTest) /0855 - E 109 ~ 175 2-2 n.... ~~~*aum... __ ~ ___________ ~ ___ R---- ~ OUTSTANDiNG CHM~G[S rv1UST BE A TT,c.'J :::D ;:-01;; WGF'fCHC' 'COP':'

20040614 I
~:Ple, S:::IFICA nONS (""nDnuecl) 4.1 ((:.))

£NCL05Uf?:~ A -a.M. II-; t'*f I L! Rnv e: c~ Calibration: Zero Span External Power: Voltage Range Burden Frequency Range Outline and Connections Dielectric Test EXCERPT FROfv1 O t; fl" l' fJ M.

  • ";0 \\.\\,

.:Z~1111UPl "'5%.1*5011? 0' I 10

20%

100

  • 130 Vac 12 VA Maximum 50 - 500 Hz

'(.,:; II k ~,..~ See Figure 2.1. page 2-3 1500 Vrms between an inputs, outputs/case (IEEE Std. 472 SWCTest) /0855 - E 109 ~ 175 2-2 n.... ~~~*aum... __ ~ ___________ ~ ___ R----

0) w, oi oX,

"-'I (/} z r-~,~,~~~1-J o I: ~ 61!J w -,::) lX 6: IG~ C21~ 01° fi3iY llJ °1 0 ~ I ..J I i a.. I W I I ~ I I i= --! 0 I U) I~ I' I 0 L -.La:: I a.. rr:. ill cl...<"l g a... orE: "7 U) 0 rr:.

+

~

t a:x~tLllJ; 0

Uf-N Q w::(>

r:

~~~~~q ~ ~w U) <t

> ~

f> is ~

ul'3
0 (/)
~;;?

~gl~ !:5 CJ

~ rr:.
a..~
0:: ill
l.CI"-
.u ~
>0 oS 0
t::~ :ui~ !l.
10, U)
0::: 0:: I

,Owu.i:::>::;!; n::: td~~3frlU ~ oO~f-D;';; n::: oo::O<l:OV <t

ill a
a:: 0:: c:: :r:

....Jmj-wO"~ 0 G~~~6;u vzldi=;::3 ENe I.. oS liRE' lS. ~ 200 r:~~:';:',:,-,r::~' ": :t :e;,:':"::I' : "T,::,,T --:', ':1:: \\"

'f.: ",,::,:¥ :::-~::d :::::1:::

190 ~~;~~~;;~~L~:,:: :'1,:::':::~L:';:;,4::~'.'::!"::;~+':-:"t:::~:~i::i;~~;:~:~:,h;;:>:r:':::-'i 180 t;~~:;~:-~~:t:~: ::;f'>: ::1' ,,:'.~;:,-:,t:~;;:~,'!,,'--'..:.~-::;:r::::;,~==;'::'~~j:: ';::?~~>:",=l 170 t~~~;~;kili:H~t::NE'd8r;:;f:;-mIr':F::::;;L"~~~~f'::,,::!-;;n~~!i~~~n~~'~m;H-n~!l::.1 160 i~;'~ ~:: ~~TI¥;t':~B~:J, -. ',:: l:;;~:::< :!::::-;::~ p,~..:+" ::: ' r: ': ~~::=e-::::~;;f :";;:;~J~ ';;::: ! 150 nr~l~~~~I:t~Yii~~:J,~.~fr;-,:m;n;, ".* :;.:: ;;-'f~:l,Uf!~f~~ll~~#i}tlj.; 11 140 130 120 110 100 90 $::=:t:3.';tt 80 70 60 50 40 30 20 10 a o 20 40 60 80 100 120 140 160 180 200 220 240 260 280 300 320 340 360 AMPS PER POSITIVE PLATE S; i-l. OF Rev. 16 r-~OTI-~T-r'-----------------S.--------______________________________________________ C_~_.L_C ___ r_~_O~F~-__ ~_~*_\\~{~~Q~~L{ ______ --, ~! I fNCI..OSvRG 0; ~I 2oo~~TIIT~~~~~~~~~7T~~~T7~~~0IT~~~~ ______________________ ~_ itD I 190 if~~?:,$~"---'-+~~+""'~~+o~~-l-'-~~~S~~"f-CAPACITY FACTOR DATA w icc, CELL '-YPE, 1 MIN. 15 MIN. GO MIN 3 If,. 8 H,. ~Oi,~I. l~l~Eml~~~~$~~~mm~~~$~~~:==p=mmmmlll;W~~~~~~ 2t.CR1" 'I 1.000 1.095 1.055 1.000 1.035 "2.0 ZU} t-"'1:_c-1'i -:-:-'"'"'i 2lCR*15 1.000 1.095 1.055 1.000 1.035 I I 170 lCR*13 1.050 1.050 1.035 1.035 1.035 I Q i I lCR*15 1.050 1.USO 1.035 1.035 1.035 W I i t~~~~~~~~~8+~S~*g~8~~+++~~~~~*~~~~~~~~~4++~~ ~~7 1~'~ 1.0H 1.= 1~~ >w- _6 t::: i 160 : lCR-19 1.143 1.113 1.050 1.O~5 1.035 LCR*21 1.143 1.113 1.050 1.035 1.035 n:: t IG~ 150 LCR*23 1.085 1.087 1.050 1.035 1.035 (21~ LCR-15 1.071 1.055 1.040 1.035 1.035 ih Ig llJ lCR.27 1.040 1.050 1.025 1.030 1.035 W a: I-140 lCR-29 1.015 1.035 1.015 1.000 1_000 01° <t LCR.31 1.005 1.005 1.000 1.000 1.000 ..J 130 LCR-33 1.000 1.000 1.000 1_000 1.000 a.. i w r-.~,--~,~:-:--i> >1 i=

lID (j) 0

~i LL ~~--I----~~ffi 0.. l...<"l c) U) <=> <:> 0:: ='; ~

t X

>c;t...- 0 a:X~tLl..lJ'<;j"

r:

~~~~~6 r{ ~

w U)

<t

> ~

~;,: ~ 3 ~

f-

,() tJ;J !~~,()- Of-a: ~i= C/)

<: CJ

,(I) 0::: \\ a:::2 (ffi w ~~~.ft;~

E~ :ui;?l!l..
10'<1),0:::< n::
Oww=:l:c W jo..~o:::ou l-w"->-:::>;:5w n::

oO-.1f-oCJ <t oa: O < c::

wp'O
:O:::< :r:

ImGg:~:r 0

J::;:w:;;cn U 0

~~U::;::;::~ ~ u 100 90 80 70 60 50 40 30 20 10 a o 20 40 60 80 100 120 140 160 180 200 220 AMPS PER POSITIVE PLATE 240 lCU-19 LCU-27 260 1.143 1.113 1.050 1.035 1.000 1.000 '.ODO LOOa 1-.000 1.000 280 300 320 340 1.9 .8 .7 .6 .5 360 o >

DETERMINATION OF 4.16Kv SWITCHGEAR AND 480V UNIT SUBSTATION CONTROL POWER LOADS ON 125VDC BATTERlES

  • RWI M

Calculation E-4.1(Q) Enclosure C 1 7-Sheet------of-*.1--- Rev. 16 DETERMINATION OF 4.16Kv SWITCHGEAR AND 480V UNIT SUBSTATION CONTROL POWER LOADS ON 125VDC BATTERlES

  • RWI M

Calculation E-4.1(Q) Enclosure C 1 7-Sheet------of-*.1--- Rev. 16

CUB NO. 1 J 4 5 6 7 8 9 10 12 Calcl.tlatioH E-4.1 (Q) Enclosure C Q 7-Sheet*.4::....,of----- Rev. 16 a) 4.16KV CLASS 1E SWGR TYPICAL FOR lOA401 T'HRU lOM04 TABU: I BREAKER OPERATION DURING DBA - TIME ** fEEDER 't= 0 t'" 13 t= 19 t... 45 t= 55 t=60 DEseRIP SEC SEC SEC SEC SEC SEC. to 75 R~C MAIN TRIP INCOMING

  • UNIT SUB XFMR SACS PUMP TRIP CLOSE CORE SPRAY CLOSE PUMP RHR PUHP rrRIP (1)

CLOSE DIESEL GEN. CLOSE MAIN INCOMING

  • SERVo WATER TRIP CLOSE PUMP UNIT SUB XFMR WATER TRIP CLOSE CHILLER Two main feeders to each swqr bus - norm., alt. - only one breaker can he closed at a time.

Assume brkr at cub. '1 is

closed, During a DBA all required breaker operation at the 4.16KV class lE SWGR will occur within the first 1S sec.

(1) One load assumed to be under test. Load currents: continuous current: O.lA per cubicle x 12

  • 1.2A Tot.

Tripping current: S.DA per CUbicle Closing current: S.OA per cubicle spring Charging Curr: 60.0A per cubicle (Occurs After Closing) The SA closing current & the GOA spring charging current for a breaker do not occur simultaneously. NOTE: Maximum class lE SWGR line-up is 12 cubicles long. CUB NO. 1 J 4 5 6 7 8 9 10 12 Calcl.tlatioH E-4.1 (Q) Enclosure C Q 7-Sheet*.4::....,of----- Rev. 16 a) 4.16KV CLASS 1E SWGR TYPICAL FOR lOA401 T'HRU lOM04 TABU: I BREAKER OPERATION DURING DBA - TIME ** fEEDER 't= 0 t'" 13 t= 19 t... 45 t= 55 t=60 DEseRIP SEC SEC SEC SEC SEC SEC. to 75 R~C MAIN TRIP INCOMING

  • UNIT SUB XFMR SACS PUMP TRIP CLOSE CORE SPRAY CLOSE PUMP RHR PUHP rrRIP (1)

CLOSE DIESEL GEN. CLOSE MAIN INCOMING

  • SERVo WATER TRIP CLOSE PUMP UNIT SUB XFMR WATER TRIP CLOSE CHILLER Two main feeders to each swqr bus - norm., alt. - only one breaker can he closed at a time.

Assume brkr at cub. '1 is

closed, During a DBA all required breaker operation at the 4.16KV class lE SWGR will occur within the first 1S sec.

(1) One load assumed to be under test. Load currents: continuous current: O.lA per cubicle x 12

  • 1.2A Tot.

Tripping current: S.DA per CUbicle Closing current: S.OA per cubicle spring Charging Curr: 60.0A per cubicle (Occurs After Closing) The SA closing current & the GOA spring charging current for a breaker do not occur simultaneously. NOTE: Maximum class lE SWGR line-up is 12 cubicles long.

Load Cycle Amperes: Ref. Table I At t== 0 sec., battery load== (5 x 5.0A) + (1.2A)== 26.2A t== 13 sec,== t:::: 19 sec, = t== 45 sec, = t = 55 sec, = t== 60-75 sec, = For the 4.16KV SWGR's: (2x60A) + (1.2A) = (1x60A) + (1.2A) = (1x60A) + (1.2A) = (1x60A) + (1.2A)== (1x60A) + (1.2A) = 121.2A 61.2A 61.2A 61.2A 61.2A The maximum current during the first minute occurs at 13 sec. - 121.2A. The maximum current during the second minute occurs between 60 & 75 sec. - 61.2A. For Battery Sizing: Calculation [*-4.1 (0) Enclosure C Sheet 3 of 7 Rev 16 121.2A is considered as a continuous load for the first full minute. 61.2A is considered as a continuous load for the second minute. Similarly, the load cycle ampers are determined for the 480V class 1 E unit substations with: NLi/Square D Masterpact Breakers: (Ref. 8, VTD 327933) Load Currents Continuous: 4.5VA per cubicle (4.5VA/125V== O.036A) Tripping: 200VA per cubicle (200V Al125V = 1.6A) Closing: 200VA per cubicle (200VAl125V = 1.6A) Spring Charging: <27A per cubicle (Ref. 9, VTD 430588) Do not occur simultaneously NOTE: Each battery bank feeds two class 1 E unit substations. Maximum of 12 cubicles per unit substation - 24 cubicles total maximum load on each battery. Load Cycle Amperes: Ref. Table I At t== 0 sec., battery load== (5 x 5.0A) + (1.2A)== 26.2A t== 13 sec,== t:::: 19 sec, = t== 45 sec, = t = 55 sec, = t== 60-75 sec, = For the 4.16KV SWGR's: (2x60A) + (1.2A) = (1x60A) + (1.2A) = (1x60A) + (1.2A) = (1x60A) + (1.2A)== (1x60A) + (1.2A) = 121.2A 61.2A 61.2A 61.2A 61.2A The maximum current during the first minute occurs at 13 sec. - 121.2A. The maximum current during the second minute occurs between 60 & 75 sec. - 61.2A. For Battery Sizing: Calculation [*-4.1 (0) Enclosure C Sheet 3 of 7 Rev 16 121.2A is considered as a continuous load for the first full minute. 61.2A is considered as a continuous load for the second minute. Similarly, the load cycle ampers are determined for the 480V class 1 E unit substations with: NLi/Square D Masterpact Breakers: (Ref. 8, VTD 327933) Load Currents Continuous: 4.5VA per cubicle (4.5VA/125V== O.036A) Tripping: 200VA per cubicle (200V Al125V = 1.6A) Closing: 200VA per cubicle (200VAl125V = 1.6A) Spring Charging: <27A per cubicle (Ref. 9, VTD 430588) Do not occur simultaneously NOTE: Each battery bank feeds two class 1 E unit substations. Maximum of 12 cubicles per unit substation - 24 cubicles total maximum load on each battery.

UNIT SUB 0 ; en 0 ~ 0 LO <j' en 0 ~ Calculation E-4.1 (0) E:nclosul'c C Sheet 4 of 7 Rev 16 b) 480V CLASS 1E UNIT SUBSTATIONS 10B410 & 10B450 TABLE II BREAKERoPE'RA'tToNlSuRING DBA - T~-~~- FEEDER t;: 0 t::: 19 t::: 30 t::: 80 t:::10M~ DESCRIPTION SEC. SEC. SEC. SEC. TO 240 MIN. RACS PUMP TRIP DIG ROOM TRIP CLOSE RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN R/WAREAMCC TRIP CLOSE'- DIG AREA MCC REACT. AREA MCC SPARE (FUT. LOAD) TRIP RIB AIR TRIP HANDLING H2 RECOMB. UNIT SPACE SPACE SPACE REACT. AREA TRIP MCC DIG ROOM TRIP RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN R/W EXHAUST TRIP FAN DIG AREA MCC INTAKE AREA MCC SPACE EMERG. AIR TRIP COMPo DIG AREA UNIT HTR SPACE SPARE (FUT. LOAD) TRIP REACT. BLDG TRIP EXH.FAN LOAD CYCLE AMPERES 21.7 27.9 54.9 0.9 27.9

  • DURING A DBA ALL REQUIRED AUTOMATIC BREAKER OPERATION AT THE 480 V CL 1E UNIT SUBSTATIONS WILL OCCUR WITHIN THE FIRST 80 SEC.
    • OPERATOR MAY MANUALLY ADD LOADS AFTER 10 MINUTES - CONSIDERED AS A SINGLE RANDOM LOAD.

UNIT SUB 0 ; en 0 ~ 0 LO <j' en 0 ~ Calculation E-4.1 (0) E:nclosul'c C Sheet 4 of 7 Rev 16 b) 480V CLASS 1E UNIT SUBSTATIONS 10B410 & 10B450 TABLE II BREAKERoPE'RA'tToNlSuRING DBA - T~-~~- FEEDER t;: 0 t::: 19 t::: 30 t::: 80 t:::10M~ DESCRIPTION SEC. SEC. SEC. SEC. TO 240 MIN. RACS PUMP TRIP DIG ROOM TRIP CLOSE RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN R/WAREAMCC TRIP CLOSE'- DIG AREA MCC REACT. AREA MCC SPARE (FUT. LOAD) TRIP RIB AIR TRIP HANDLING H2 RECOMB. UNIT SPACE SPACE SPACE REACT. AREA TRIP MCC DIG ROOM TRIP RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN R/W EXHAUST TRIP FAN DIG AREA MCC INTAKE AREA MCC SPACE EMERG. AIR TRIP COMPo DIG AREA UNIT HTR SPACE SPARE (FUT. LOAD) TRIP REACT. BLDG TRIP EXH.FAN LOAD CYCLE AMPERES 21.7 27.9 54.9 0.9 27.9

  • DURING A DBA ALL REQUIRED AUTOMATIC BREAKER OPERATION AT THE 480 V CL 1E UNIT SUBSTATIONS WILL OCCUR WITHIN THE FIRST 80 SEC.
    • OPERATOR MAY MANUALLY ADD LOADS AFTER 10 MINUTES - CONSIDERED AS A SINGLE RANDOM LOAD.

Calculation t:-4.1 (Q) EnclosurG C Sheet 5 of I Rev 16 For battery sizing, 56.4A is considered as a continuous load. For the first full minute for the unit substation breakers; 0.9A is considered as a continuous load for the second minute. J\\ random one minute load of 2'7.9 - 0.9 (continuous current) '" 27A occur between 10 & 240 minutes. c) 480V CLASS 1E UNIT SUBSTATIONS 10B420 & 108460 TABLE III BREAKER OPERATION DURING DBA - TIME

  • UNIT FEEDER t'" 0 t '" 19 t '" 30 t '" 80 t '" 10 MIN.

SUB DESCRIPTION SEC. SEC. SEC. SEC. TO 240 MIN. RACS PUMP TRIP DIG ROOM TRIP CLOSE RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN R/WAREA MCC TRIP CLOSE" a DIG AREA MCC N REACT. AREA "<t CO MCC a SPACE RIB EXHAUST TRIP FAN SPACE SPACE SPARE (FUT. LOAD) TRIP SPACE REACT. AREA TRIP MCC DIG ROOM TRIP REGIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN R/W EXHAUST TRIP 0 FAN co DIG AREA MGC "<t co INTAKE AREA 0 MGG SPACE SPACE DIG AREA UNIT HTR SPACE SPARE (FUT. LOAD) TRIP SPACE LOAD CYCLE AMPERES 18.5 27.9 54.9 0.9 27.9

  • See page 4 of Enclosure C
    • See page 4 of Enclosure C

- Continuous first minute load'" 54.9A - Continuous second minute load'" 0.9A - Random one minute load of 27A between 10 min. & 240 min. Calculation t:-4.1 (Q) EnclosurG C Sheet 5 of I Rev 16 For battery sizing, 56.4A is considered as a continuous load. For the first full minute for the unit substation breakers; 0.9A is considered as a continuous load for the second minute. J\\ random one minute load of 2'7.9 - 0.9 (continuous current) '" 27A occur between 10 & 240 minutes. c) 480V CLASS 1E UNIT SUBSTATIONS 10B420 & 108460 TABLE III BREAKER OPERATION DURING DBA - TIME

  • UNIT FEEDER t'" 0 t '" 19 t '" 30 t '" 80 t '" 10 MIN.

SUB DESCRIPTION SEC. SEC. SEC. SEC. TO 240 MIN. RACS PUMP TRIP DIG ROOM TRIP CLOSE RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN R/WAREA MCC TRIP CLOSE" a DIG AREA MCC N REACT. AREA "<t CO MCC a SPACE RIB EXHAUST TRIP FAN SPACE SPACE SPARE (FUT. LOAD) TRIP SPACE REACT. AREA TRIP MCC DIG ROOM TRIP REGIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN R/W EXHAUST TRIP 0 FAN co DIG AREA MGC "<t co INTAKE AREA 0 MGG SPACE SPACE DIG AREA UNIT HTR SPACE SPARE (FUT. LOAD) TRIP SPACE LOAD CYCLE AMPERES 18.5 27.9 54.9 0.9 27.9

  • See page 4 of Enclosure C
    • See page 4 of Enclosure C

- Continuous first minute load'" 54.9A - Continuous second minute load'" 0.9A - Random one minute load of 27A between 10 min. & 240 min.

d) 480V CLASS 1E UNIT SUBSTATIONS 10B430 & 10B470 TABLE IV

-~,.-,=.

BREAKER OPERATiO"N1:iuRiN'GDBA"':"TIME

  • Calculation E-4.1 (0)

Enclosure C Sheet 6 of 7 Rev '16 UNIT FEEDER ~-"O \\=19 t=30 t=60 t=70 t=10MIN. SUB DESCRIPTION SEC. SEC. SEC. ~- CONT. RM. HTG. COIL DIG ROOM TRIP CLOSE RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN CRD PUMP TRIP a DIG AREA MCC M REACT, AREA '<t []) MCC a ~ CONT. EO. RM. HTG. RIB AIR TRIP HANDLING SPACE SPACE SPARE (FUT. LOAD) TRIP SPACE REACT, AREA TRIP MCC DIG ROOM TRIP RECIRC. FAN CONT. EO. RM. TRIP SUPPLY FAN R/W EXHAUST TRIP 0 FAN r-- '<t DIG AREA MCC []) 0 INTAKE AREA ~ MCC SPACE R/W SUPPLY FAN TRIP CONT. AREA MCC TRIP SPACE SPACE SPACE LOAD CYCLE AMPERES 18.5 27.9 27.9

  • See page 4 of Enclosure C
    • See page 4 of Enclosure C

- Continuous load for first two minutes = 27.9A - Random one minute load of 27A between 10 min. & 240 min. SEC. SEC. TO 240 MIN. ~ CLOSE" CLOSE 0.9 27.9 27.9 d) 480V CLASS 1E UNIT SUBSTATIONS 10B430 & 10B470 TABLE IV

-~,.-,=.

BREAKER OPERATiO"N1:iuRiN'GDBA"':"TIME

  • Calculation E-4.1 (0)

Enclosure C Sheet 6 of 7 Rev '16 UNIT FEEDER ~-"O \\=19 t=30 t=60 t=70 t=10MIN. SUB DESCRIPTION SEC. SEC. SEC. ~- CONT. RM. HTG. COIL DIG ROOM TRIP CLOSE RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN CRD PUMP TRIP a DIG AREA MCC M REACT, AREA '<t []) MCC a ~ CONT. EO. RM. HTG. RIB AIR TRIP HANDLING SPACE SPACE SPARE (FUT. LOAD) TRIP SPACE REACT, AREA TRIP MCC DIG ROOM TRIP RECIRC. FAN CONT. EO. RM. TRIP SUPPLY FAN R/W EXHAUST TRIP 0 FAN r-- '<t DIG AREA MCC []) 0 INTAKE AREA ~ MCC SPACE R/W SUPPLY FAN TRIP CONT. AREA MCC TRIP SPACE SPACE SPACE LOAD CYCLE AMPERES 18.5 27.9 27.9

  • See page 4 of Enclosure C
    • See page 4 of Enclosure C

- Continuous load for first two minutes = 27.9A - Random one minute load of 27A between 10 min. & 240 min. SEC. SEC. TO 240 MIN. ~ CLOSE" CLOSE 0.9 27.9 27.9

e) 480V CLASS 1 E UNIT SUBSTATIONS 108440 & 10B480 TABLE V BREAKER OPERATION DURING DBA - TiME' UNIT FEEDER t - 0 t'" 19 t = 30 t'" 60 ~*70 SUB DESCRIPTION SEC. SEC. SEC. SEC. SEC. CONT. RM. HTG. COIL DIG ROOM TRIP CLOSE RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN CRD PUMP TRIP a DIGAREAMCC '<:t REACT. AREA '<:t 1:0 MCC a 'r' CONT. EQ. RM. HTG. RIB AIR TRIP HANDLING SPACE SPACE SPARE (FUT. LOAD) TRIP R/W SUPPLY FAN TRIP REACT. AREA TRIP MCC DIG ROOM TRIP RECIRC. FAN CONT. EQ. RM. TRIP CLOSE SUPPLY FAN SPACE a DIG AREA MCC CO INTAKE AREA 'OJ' 1:0 MCC a 'r' SPACE REACT. EXHAUST TRIP FAN H2 RECOMB. TRIP UNIT SPACE SPACE SPACE LOAD CYCLE AMPERES 18.5 27.9 27.9 0.9 27.9

  • See page 4 of Enclosure C
    • See page 4 of Enclosure C

- Continuous load for first two minutes = 27.9A - Random one minute load of27A between 10 min. & 240 min. Calculation EA.! (0) Enclosure C SheClt 7 of 7 Rev 16 t = 10 MIN. TO 240 MIN. CLOSE" 27.9 e) 480V CLASS 1 E UNIT SUBSTATIONS 108440 & 10B480 TABLE V BREAKER OPERATION DURING DBA - TiME' UNIT FEEDER t - 0 t'" 19 t = 30 t'" 60 ~*70 SUB DESCRIPTION SEC. SEC. SEC. SEC. SEC. CONT. RM. HTG. COIL DIG ROOM TRIP CLOSE RECIRC. FAN RIB FRVS TRIP CLOSE RECIRC. FAN CRD PUMP TRIP a DIGAREAMCC '<:t REACT. AREA '<:t 1:0 MCC a 'r' CONT. EQ. RM. HTG. RIB AIR TRIP HANDLING SPACE SPACE SPARE (FUT. LOAD) TRIP R/W SUPPLY FAN TRIP REACT. AREA TRIP MCC DIG ROOM TRIP RECIRC. FAN CONT. EQ. RM. TRIP CLOSE SUPPLY FAN SPACE a DIG AREA MCC CO INTAKE AREA 'OJ' 1:0 MCC a 'r' SPACE REACT. EXHAUST TRIP FAN H2 RECOMB. TRIP UNIT SPACE SPACE SPACE LOAD CYCLE AMPERES 18.5 27.9 27.9 0.9 27.9

  • See page 4 of Enclosure C
    • See page 4 of Enclosure C

- Continuous load for first two minutes = 27.9A - Random one minute load of27A between 10 min. & 240 min. Calculation EA.! (0) Enclosure C SheClt 7 of 7 Rev 16 t = 10 MIN. TO 240 MIN. CLOSE" 27.9

-I ::;~t(>""';~~;,;~,.~;:;";:~:~~~l~~~:;:~~~/~~.r:~~T~~.=:-* --------r ~,-.... -,;,,1 :>t~.... ~<:>.::; CI.. f.., 00.(;... (;~0Il0,,(;.l" ICl4G........... "'C<"IC~!OC...... n.o.;t 'foe ",.\\'Tr... I .:.......-.c.~~~.\\,~'~".:;.. ;>"Q_'- ~. C4LC:i-/~,4ri,:),J E-4'!icj Rev. 16 1 fiSV1SIONS. _____ --~ =_. ~ 1 OESCj:lIPfloN c.~.......,-- ~ ~~oa~1... 1'y"::',,:, 'i.t.c.;..... "l<..c... ~ Kc...;t. 1-::' f} h {' 110 II J::NC L..o 5upE.D ),:r-I.. l OF..l O~ ~ >> .... m

0
t m,

0

t C

0

n c:

1,1 :n r.1 "

0 m
n 0 "

Ul 0 <: =i - m <: m "tl r " r ni >>-.... m "I +/-t~ ao 70lW 90 . 50 40 GO 20 o

'10 20 CELL MODEL _____ _

NUMBER OF PtA TloS ELECTROLYTE Sp.Gr, __ TEMPERATURE TEST PRoceOURE __ aq --. 40 ~ .< SO 60 10 ao . 90 100 110 120 DISCHARGE A"TE OR t:;EU. SIZING 'CCn1EC'nOtf FACTrns FOR OOE"","".IW'4'G 'NOMCJJN.,. CEu. TYPE. CAP... e~.JTY (JNn~I'OLJ.TE BElwEEN TIME PERIODS) !.!tl

J;I
II-S J("CZ-S

""-1 l.a\\~* l.().,l l.o,t l.oco 1.000 lCl-U l.DCO xt"i-D ~.aoo 1=tl~1~ 1.000 ~_l' 1.,)00 tD-l~ i.GOO rtl-H *l.O!lQ lb, LCU l.:lIS 1.000 ~. DOC 1.000 I.CIJO 1.0l:0 1.000 l.OOO LOOt> OOCHmoEiJ..tE~ lb, lO' W l.DGO I *.JOO '.[po,) t.o", 1.000 I *.". 1.<><>0 l_~O t.OOD l.OC.D l.O'Z J.05t" I.D11. l_oilO LI0: LO.t2 1.0S':' 1.1;114 ~.at6 LlO1 l.ot] 1.1lr,r, I.Q~' (.~-) l.(l~~ 1.G~3 1.0;:.. l.OU 1.101

1. !~:.

1.01$ t.Q~4 l.!n~ L l'JO t.OS! I,Ol!' 1.096 Llo2 I Ij,~ LOt.? t.o~, 1.0}l,* '-Q~S l.J(>>) 1.011

1. flU 1..0.61 LOft.

l.on TO OETI;:"IoIIJot£ T"~ ~l-Rj:OA"''CG: e....... llIlLlTy QF" A MOOE\\. ( f\\"AT'( a. ), *. n'~ 0$\\ i:.A"CITY 114 -,U"-I.U1IS 1. l.AUL.ll!"LY .A~""S OR.... W,.-HRIJ PER PO'ITiY!i 1""t,.A.'i-e-. f"c~ :l?ECI(IE:I '+t1 !

t+i 1+\\

'pi ,. !i+/-J:! 1 '-+-*2.00 1.0-00 I.IY.lIl

I::J:1:!

I.." '11".90 LlO~

11+ I Lil,=

I.", __.11.80 Tl... £ -'-NO \\fOl.TAQ~ **.,. tHI!: APPt.lCAtJLE CO~IH!C.T10" F4CTCq * "'0 C"-lCUl-.r;e HOW lOMa. A Joi"OO£t.. C..... C'\\I'IRY... 1-0"0. nr:~T DrVUIE T.Hf... 0.1) (Iot.llP'S) SY tl-llE.SI'~UCAeL.f: CORl1EC1IOI'I "AC70R i=t+ tJ$,

P:11.70 T

130 140 150 160 170 rt-T'", I T+/- ..l. .:1.

  • .1.11' ttd

-;80 ~{~t~;; 2'-'? iii AMPERES PER POSITlIIE PLATE to WATTS PER POSITIVE PLATE 1.215.:1:.005 ' 71'1' (25*C) 'iEEE Sid 45{)-1980 r . Data U; based 011 125 volt b.attery to""",,,1 volt~ . Standard eel arr;'~ SlaroarCt Inlerceu connector. .lPPROVEQ A,.PAOViO C~

I'OW.R SYSTEMS 3Q~3 WALTON 110.1.0. PLyt.lO\\JT... LlEE1!)o'O."" 'i-te:z DISCHARGE CHAR ACTER1STlCS

- 842 OF Ul t-- ..J 0 > ..J W "'" E z I I I. j 1 I i I-I I I I I i, l I I I ! I t \\' .\\ Ii; L_ 1\\' Ii ~l I i, L I 0 ~ .... m -; ::0 , m

t,

0

t C

0

n c:

1,1 :n r.1 "

0 m
n 0 "

Ul 0 .... =i - m <: m '0 r " r ni > m j 10 ~tH

1+,

100 Jj' ~- ~ l' 't- , 90 ~ ao t-Il I-70 90 Fl' '50 q: 40 GO o =1=_ o

'10 20 CELl.. MODEL _____

~ NUMBER OF PtA TloS ELECTROLYTE Sp.Gr, __ TEMPERATURE TEST PRoceOURE aq.;, C4LC:i/~,4ri,:),J E-4'!icj Rev. 16 I II* 60 10 ao , 90 100 110 120 ~ __ ~ ____ ~ n_EV_I_SI_O~~ ________ ~~~c-- OESCj:lIPfloN t~";:t~ ~~oa~1... 1'"f"t'G 'i.t.<:,;..... "l<..c... 6..... !,l.Jx,,_Z I I:-'L---L----~~~~-f-}----h------~~-----"-----~-----l J::NC L...o 5upE.D ./hLi.,l OF j I DISCHARGE A"TE OR t:;EU. SIZING 'CCn1EC7)()tf FACTrns FOR OOE"","".IW'4'G t~OlV\\CJJN.. CEu. TYPE. CAP... e~.JTY (JNn~I'OLJ.TE BElwEEN TIME PERIODS) OOCHmoEiJ..tE~ '0' 1M 140 150 160 170 1.50

1 '

"f +H- .80 Ul l- ...J o ...J W I I I i I AM?ERES PER POSITIVE PLATE i{C:t~~~/; 2,"2 t 0 WAT,.T... S..."..-"P,..E..,.R"..-P.,.0-rS_IT"!,,V.E,P __ LA_T_E ________===-____ "1 "'1.215.:1::005 '; T ~':, _______ S"~TEMS 77" F (25* C) 'iEEE St~ 450-.:,980, Data is based 011 125 volt b.attery to""",,,1 volt. , Standar~ eel arr~ Slaroar<! InterceU connector. DISCHARGE CHAR ACTER1STlCS .lPPROVEQ 0-842 A,.PAOViO L I !,

,.....,~ STATIONARY BATTERIES F

Dr Switchgear Control and Auxiliary Power SPECIFICATIONS TYPiiS \\U AN!) V':U I'ltuHC.U (LU) 1."d.... nri... lllly 9r)d, I'latlfC

  • P,,"ti~~ *....****..* Noga'ive *.*..*.*.. C.s. N61l0live ****** SPECIfiC ORA-VIN *******. CONTAINERS............. C~U COVER............. s£PAAATOI(S............ ltETAINERS...*..**.*.***. SEPIMENT SPACE...... _.. ELECTROLYTE............ POST5.*..........**.**.* POST SIi"'LS.............. IIcl" to 1.75 1.V. ~ _TH loS" I¥ 15" T2" 15" 12" 1.210 @ 77" F. Thermoplgm.; rn.rl!1Qploslk MluopClt'"l:><n Rubbtt Ii"".,.,. Cilgn Mel> ~., H.igh, "bow; pl,,' ** 2 %" Four I" oq. per c:<oU oYI-Z-d Secl ~n 114eKI"ur ~ .210" .130" tyPES l.U AND leu DIStHARGI: (HJI,RAClERISflCS IW..... ~ 0 b,. a:: ~I Q. ~ W I- <II.. '1 u l!l 0 SPECIFIC GlUVI1'I' 1.210 J,:r 17* r TO 1.1~ FrnAl VOLTAGE JUI'<:]O '3316:50 LU*23; 15; 27 ~CU-23; 25; 27 . :;.' ~
    .,>1
    ,.....,~ STATIONARY BATTERIES F Dr Switchgear Control and Auxiliary Power SPECIFICATIONS TYPiiS \\U AN!) V':U I'ltuHC.U (LU) 1."d.... nri... lllly 9r)d, I'latlfC
  • P,,"ti~~ *....****..* Noga'ive *.*..*.*.. C.s. N61l0live ****** SPECIfiC ORA-VIN *******. CONTAINERS............. C~U COVER............. s£PAAATOI(S............ ltETAINERS...*..**.*.***. SEPIMENT SPACE...... _.. ELECTROLYTE............ POST5.*..........**.**.* POST SIi"'LS.............. IIcl" to 1.75 1.V. ~ _TH loS" I¥ 15" T2" 15" 12" 1.210 @ 77" F. Thermoplgm.; rn.rl!1Qploslk MluopClt'"l:><n Rubbtt Ii"".,.,. Cilgn Mel> ~., H.igh, "bow; pl,,' ** 2 %" Four I" oq. per c:<oU oYI-Z-d Secl ~n 114eKI"ur ~ .210" .130" tyPES l.U AND leu DIStHARGI: (HJI,RAClERISflCS IW..... ~ 0 b,. a:: ~I Q. ~ W I- <II.. '1 u l!l 0 SPECIFIC GlUVI1'I' 1.210 J,:r 17* r TO 1.1~ FrnAl VOLTAGE JUI'<:]O '3316:50 LU*23; 15; 27 ~CU-23; 25; 27 . :;.' ~
    .,>1
    ..... ____. __... __ "~-.=.r.'''~....,,.,. *. :,.__:Q"~~:\\!t.j1I'1~~1llffi.n:ffEr--*----r,z:-U*::tij~9-t:s.:S;;-:---*-~----'-*-* f',I MEMORANOUM aJunt100; 'i Chfqi 8t11nQ Co: Doug......,. (Cap. Iound 8rook, Ny) "'II&('J o.or 0IMt0n (PBe&G. ~ CMiQ IUIJICT: '.' 1UV ba*'Y nave In eddltiorw, d~ mafJIn of 0 tQ WDIM...... to.... ~of poattiYt... Ano. In aoaan:tlnC>> Wfthithl. 8ectlonl tht quote!1 Ttalni woulct MvI..... r CClNIdiratlon for operation at 8QfHI~pldtY.I.3~1 11.. "'. 11.1" and ** a'" ld~ttJOnII margll'l StdIon a.S.1',.qukt. t1C *Tttt~12SV batltry hive 6 to 10~ halWa..d Imp.-haul' Clpa~ rNtiVll10 ti\\f 1800 AH ~:~.' MtlUng thI. IPICIk*IOn -.II,. ** battary hlvtno In I hour 0Ipe0ft)r I"Itlng ~ 'tIIOto1. atnp.hoYrI. \\M'ilch CIMOt bt achieved whh the LCU-27 (1 lee.rnp.hOut). The two NOtionI e", not 111lN.It"Qqmpatlbie btaIuH: (1) T~ LCtJ..27 W41.'~~. <4 hour ~ .... and the ad~1 dtllgn mlll'Oln aPf:lf1ed VtIIf,~ot.~ In an 1IqUI11Tllr;ln at 10m. ~ GUidon. (ll) 'TM LOIJ.t7 n'1ht~ LCn.OfIt...u bIttwtM do not havwa u. Hmt "pelr p_" ... tlng" 10 "'fJQni;f~ 1'nIqJ1n" tha Imp.hour CMpIIQtty Of one rnoct., will not atwaya,..ult k1 hJ._margln I*nQ ftlliad In tht othtr. Of tn. two, 8.3.1 lib mcm.:.'not It ttlltN t) tnt.ctuIIllotd dljlty ~ .., Ind thl4 hOur perfon'nll1CIJ ~ .., ~'Iolda. J ~ If.tOOIIt dlJtdnQ 1.3.7. "nee mHW'lg till' rtqulNrMrtt will requlto not CttI,.lIt;tr bltttry, IXIt.".'arger bIUMy ftc*. ij ~ hive MY qut.liOnI, pII.M;~ mI &t21U,g.,ne. SInO¥lNty. c-a"'t,~~~~ Gnt.ham \\MIllwr ~*' MMlQger, N~r ~l2iiD&ii.... r>>DR,m 7'7'") CALc..Q tt.J (Q:) GN CLOS(..fIU!. E. '~'. ~.,'. ~., 5HT~ 2-of 'I Rev. 16 ."~~'l!>~ JUL 01. 99 09:03 609 339 17 i ..... ____. __... __ "~-.=.r.'''~....,,.,. *. :,.__:Q"~~:\\!t.j1I'1~~1llffi.n:ffEr--*----r,z:-U*::tij~9-t:s.:S;;-:---*-~----'-*-* f',I MEMORANOUM aJunt100; 'i Chfqi 8t11nQ Co: Doug......,. (Cap. Iound 8rook, Ny) "'II&('J o.or 0IMt0n (PBe&G. ~ CMiQ IUIJICT: '.' 1UV ba*'Y nave In eddltiorw, d~ mafJIn of 0 tQ WDIM...... to.... ~of poattiYt... Ano. In aoaan:tlnC>> Wfthithl. 8ectlonl tht quote!1 Ttalni woulct MvI..... r CClNIdiratlon for operation at 8QfHI~pldtY.I.3~1 11.. "'. 11.1" and ** a'" ld~ttJOnII margll'l StdIon a.S.1',.qukt. t1C *Tttt~12SV batltry hive 6 to 10~ halWa..d Imp.-haul' Clpa~ rNtiVll10 ti\\f 1800 AH ~:~.' MtlUng thI. IPICIk*IOn -.II,. ** battary hlvtno In I hour 0Ipe0ft)r I"Itlng ~ 'tIIOto1. atnp.hoYrI. \\M'ilch CIMOt bt achieved whh the LCU-27 (1 lee.rnp.hOut). The two NOtionI e", not 111lN.It"Qqmpatlbie btaIuH: (1) T~ LCtJ..27 W41.'~~. <4 hour ~ .... and the ad~1 dtllgn mlll'Oln aPf:lf1ed VtIIf,~ot.~ In an 1IqUI11Tllr;ln at 10m. ~ GUidon. (ll) 'TM LOIJ.t7 n'1ht~ LCn.OfIt...u bIttwtM do not havwa u. Hmt "pelr p_" ... tlng" 10 "'fJQni;f~ 1'nIqJ1n" tha Imp.hour CMpIIQtty Of one rnoct., will not atwaya,..ult k1 hJ._margln I*nQ ftlliad In tht othtr. Of tn. two, 8.3.1 lib mcm.:.'not It ttlltN t) tnt.ctuIIllotd dljlty ~ .., Ind thl4 hOur perfon'nll1CIJ ~ .., ~'Iolda. J ~ If.tOOIIt dlJtdnQ 1.3.7. "nee mHW'lg till' rtqulNrMrtt will requlto not CttI,.lIt;tr bltttry, IXIt.".'arger bIUMy ftc*. ij ~ hive MY qut.liOnI, pII.M;~ mI &t21U,g.,ne. SInO¥lNty. c-a"'t,~~~~ Gnt.ham \\MIllwr ~*' MMlQger, N~r ~l2iiD&ii.... r>>DR,m 7'7'") CALc..Q tt.J (Q:) GN CLOS(..fIU!. E. '~'. ~.,'. ~., 5HT~ 2-of 'I Rev. 16 ."~~'l!>~ JUL 01. 99 09:03 609 339 17 i DATE.: TO: FROM: 30 June 1999 Cory Morgan Proto-Power Corp. Groton, CT Graham Walker C&D TeChnologies. Inc. Blue Bell, PA

    SUBJECT:

    PSE (a.k.a. PSE&G) Hope Creek Station 125 Volt 1E Class eattery Replacement Confirming our telephone conversation of 19 June 99. MEMORANDUM There is no published data sheet. or catalog cut, for the LCU*27 model cell. This almost 40 year old nomenclature is basically for nuclear plant use only But although the nomenclature is old, the LCU-27 design is as current as the present LCR model. allowing us two (2) qualified 27 plats cells. For referenca. I'm attad'ing a 1962 vintage catalog sheet for the LCU model line. The IEEE*946 calculated Intemal cell resistance (inCluding one set of connectors) and maximum short circuit current for the LCU*27 is. Reslstancs: 0.000112 Ohms Short Circuit Current 17,678 amperes If you have any questions, please contact me at: Tel: Fax: E-mail: Sincerely, 215*619-7846 215-619-7853 gwalker@cdtechno com ~~~W4t-I~ Graham Walker Manager, Nuclear Applications CAL.t. ~. J (fJJJ ~NC&O!f4t1!~ IS. 5HZ,,5 ot f Rev. 16 DATE.: TO: FROM: 30 June 1999 Cory Morgan Proto-Power Corp. Groton, CT Graham Walker C&D TeChnologies. Inc. Blue Bell, PA

    SUBJECT:

    PSE (a.k.a. PSE&G) Hope Creek Station 125 Volt 1E Class eattery Replacement Confirming our telephone conversation of 19 June 99. MEMORANDUM There is no published data sheet. or catalog cut, for the LCU*27 model cell. This almost 40 year old nomenclature is basically for nuclear plant use only But although the nomenclature is old, the LCU-27 design is as current as the present LCR model. allowing us two (2) qualified 27 plats cells. For referenca. I'm attad'ing a 1962 vintage catalog sheet for the LCU model line. The IEEE*946 calculated Intemal cell resistance (inCluding one set of connectors) and maximum short circuit current for the LCU*27 is. Reslstancs: 0.000112 Ohms Short Circuit Current 17,678 amperes If you have any questions, please contact me at: Tel: Fax: E-mail: Sincerely, 215*619-7846 215-619-7853 gwalker@cdtechno com ~~~W4t-I~ Graham Walker Manager, Nuclear Applications CAL.t. ~. J (fJJJ ~NC&O!f4t1!~ IS. 5HZ,,5 ot f Rev. 16

    DATE: 9 July 1999 TO: Cory Morgan Proto-Power Corp. FROM: Graham Walker C&O Technologies, Inc.

    SUBJECT:

    Hope Creek Nuclear Station fi:liEMORANt)UM 125 Volt 1E Class Replacement Batteries for1A/1a/1C/1~-411 C&O Model LCU-27 Information you requested is as follows. Connection Resistance The LCU-27 employs the same terminal post design, and uses the same intercell connectors as-the existing LC/LCR-25 battery. Typical connection between cells in a row is 20 micro-ohms. plus or minus 5 micrcrohms. Hvdrogen Evolution from LCU-27 Cell

    • At 2.22 vpc float, 77°F:

    0.0025 cubic feet per cell per hour At 2.33 vpc equalize, 77°F: 0.0095 cubic feet per cell per hour At 2.33 vpc equalize, 104°F: 0.0280 cubic feet per cell per hour Heat Generated by 125 Volt LCU.27 Battery During nonnal float charging: During normal equalize charging: During duty cycle loadS: During 4 hour performance test: Sincerely. Graham Walker Manager. Nuclear Applications < 0.001 BTU per hour < 0.010 BTU per hour

    1865 STU per hour
    3544 BTU per hour Cr\\~c. 4.1 (Go). It:NCu).rvt(fi. r:::

    51-If; L/ /)r 'I' Rev. 16 JUL 08

    • 99 11; 56 215 619 DATE:

    9 July 1999 TO: Cory Morgan Proto-Power Corp. FROM: Graham Walker C&O Technologies, Inc.

    SUBJECT:

    Hope Creek Nuclear Station fi:liEMORANt)UM 125 Volt 1E Class Replacement Batteries for1A/1a/1C/1~-411 C&O Model LCU-27 Information you requested is as follows. Connection Resistance The LCU-27 employs the same terminal post design, and uses the same intercell connectors as-the existing LC/LCR-25 battery. Typical connection between cells in a row is 20 micro-ohms. plus or minus 5 micrcrohms. Hvdrogen Evolution from LCU-27 Cell

    • At 2.22 vpc float, 77°F:

    0.0025 cubic feet per cell per hour At 2.33 vpc equalize, 77°F: 0.0095 cubic feet per cell per hour At 2.33 vpc equalize, 104°F: 0.0280 cubic feet per cell per hour Heat Generated by 125 Volt LCU.27 Battery During nonnal float charging: During normal equalize charging: During duty cycle loadS: During 4 hour performance test: Sincerely. Graham Walker Manager. Nuclear Applications < 0.001 BTU per hour < 0.010 BTU per hour

    1865 STU per hour
    3544 BTU per hour Cr\\~c. 4.1 (Go). It:NCu).rvt(fi. r:::

    51-If; L/ /)r 'I' Rev. 16 JUL 08

    • 99 11; 56 215 619

    [ 1 DATE: TO: FROM: 5 October 1999 Cory Morgan Proto-Power Corp. Graham walker C&O Tec:hnoIogies, Inc.

    SUBJECT:

    HOpe Cntak NuClear Station 125 Volt 1E Class Repla~mant Batteries for 1AffBl1C11D-411 C&D Model LCU-27

    Reference:

    1014199 Telcon wiith Frank DelCampo For your fUture use, the following data is provided. J.CU..27 DIachaIve Rates to 1.ao Ave..... Volts Per Cell at 77'F Duration OischarR! Current B hours 226.00 amperes 4 hours 385.00 amperes 3 hours 488.00 amperes 2 hours 598.00 amperes 1 hOur 845.00 amperes 30 minutes 1,079.00 amperes 15 minutes 1,248.00 amperas 1 minute ,,410.50 amparas. LCu..27 SiZing... tes to 1..ao A".,.... VOlts Per Cell at TI'" DutY Cycle PeriOd 1 minute 2 minutes 58 minutes 59 minutes 60 minutes 179 minutes 180 minutes 238 minutes 239 minutes 240 minutes C/H. (!

    • Ampere!lf.ositiv! Plate 108.50 108.00 66.00 65.50 65.00 3S.2S 36.00 29.78 29.70 29.62 I..), I{G.) E/V(,L~SfAf'(1f E.

    51+T.. 5-", Or 7-Rev. 16 OCT 135 '99 10: 15 215 6J9 . ::"t}rE [ 1 DATE: TO: FROM: 5 October 1999 Cory Morgan Proto-Power Corp. Graham walker C&O Tec:hnoIogies, Inc.

    SUBJECT:

    HOpe Cntak NuClear Station 125 Volt 1E Class Repla~mant Batteries for 1AffBl1C11D-411 C&D Model LCU-27

    Reference:

    1014199 Telcon wiith Frank DelCampo For your fUture use, the following data is provided. J.CU..27 DIachaIve Rates to 1.ao Ave..... Volts Per Cell at 77'F Duration OischarR! Current B hours 226.00 amperes 4 hours 385.00 amperes 3 hours 488.00 amperes 2 hours 598.00 amperes 1 hOur 845.00 amperes 30 minutes 1,079.00 amperes 15 minutes 1,248.00 amperas 1 minute ,,410.50 amparas. LCu..27 SiZing... tes to 1..ao A".,.... VOlts Per Cell at TI'" DutY Cycle PeriOd 1 minute 2 minutes 58 minutes 59 minutes 60 minutes 179 minutes 180 minutes 238 minutes 239 minutes 240 minutes C/H. (!

    • Ampere!lf.ositiv! Plate 108.50 108.00 66.00 65.50 65.00 3S.2S 36.00 29.78 29.70 29.62 I..), I{G.) E/V(,L~SfAf'(1f E.

    51+T.. 5-", Or 7-Rev. 16 OCT 135 '99 10: 15 215 6J9 . ::"t}rE

    !1m Weight Matarial HNtina Vall!,O container 10 Ibs. PoiyeaI1)oItate 13.310 BtuIIb. cover 1 lb. Polyvinyl ChIaride 8.800 BtuIIb. Sincerely, Graham Walker Manager, Nuclear Applications CIJ L C-, f - 4 I I (. Q) - [' MCJ-o S ~.)'R.. r::: £. SfIT. b l).f 1 Rev, 16 OCT 05 '99 10:16 Bd PW va !1m Weight Matarial HNtina Vall!,O container 10 Ibs. PoiyeaI1)oItate 13.310 BtuIIb. cover 1 lb. Polyvinyl ChIaride 8.800 BtuIIb. Sincerely, Graham Walker Manager, Nuclear Applications CIJ L C-, f - 4 I I (. Q) - [' MCJ-o S ~.)'R.. r::: £. SfIT. b l).f 1 Rev, 16 OCT 05 '99 10:16 Bd PW va

    s:;e

    • d

    ~.LO.l It lHIIlC LII." !Ilo/IW ,mt C !lEi SitRTI.c St~. O~ ~.ACK S*PEelFICATI:ONS TWOTJER No. TYlI9 unit Ov-,p~~~ro"* ,~- DolMiltlc Ral:lf 01 o.leIu," AntI"'Dm L'::.~,,::'d. ~o~ Celli I. W ~' belt LEH;II: l.CU'if* Lctl.17. /jf*tJ: L!H~-* 1.11*17, ".po ZO' 43~* 2 102 1 1'10*270 L.C\\,J.1

    • I.OU*2

    .1 I.U.21 ~2 L.ClJ*28,CI. *25. 1.C\\I*:017 t.\\I*2:J. I.U.25. 1.\\1.21 6'.".. to"....,.,. 3

    a.

    1 RC I*273 LeI.I.29. LCU-.n. t.CIJ~3 t.u*p, I..2: IoU.33 7',a< 20" QlII.' II .11"1 1 RD*27. tg~:it I.CIJ.15. I.tlMT, l:tl:li' I.U*1$. LU*17. ".0" 20" 4!"o\\t" ~ 1111 1 R~B.l! 24 OL.2: lJ.:!1 10'.Q' 20' II3IM- !o: 1 I'ID.2. CCU.z;a LCI.I*25-. LCU*2T W;2.3. .25. LU*27 12'.0" 20" .s3l1l' 5 t<< 1 lII~l.II u:L.20 ** cUm.LeU.3S U.S LIJ031.I.U*U 14'"," 20" 434" !!8 1 I'ID"ll.7 tSfj;lj; t8tl:lB' 1..0*13. L~H.t. LU.17.LU.a 11'00' 20" AlI"-

    .14 Ro.PJ!o.

    60 LOU*2' 1.1.1-21 12'00" lO" "'*"'. r 246 2: fIID.40lS C~2a. ~2!i CU*27 Uo2.a. 1.11-25. I.U.27 14'.0' 20" 43~* Ii 2A 2 RO-4:7 LCU.~. LCLJ.I LC:U*33 UM!9 I.u *. n LU;,III 12'*0-20" ~M' "5 2016 'a-' ROo4ts TWOS'T'EP Nil. or Cell. 12 u 110 Tyo.. nit 0-.11 DII.ll',!¥"M F~ ~ !':alehl," I Antimony r::-;.;;:

    l.

    W ~M "-ex LCU'i ~'I:8H:i

    • I.CU.I.1, tH:li: tH:i~' !.U*n.

    5'-0' U' IIt~* 2-loa LeU*l Cu.aa.I.D&Mi!

    • I.CL.12' LU-;~. UJ.2!!. LU'27

    &'00" 31' II >,t, 3 T4 [Cu., ltlU4 ~eU-33 I.U4!S..n I.U03l 7'Q 31'

    U~*
    I 17f to u:~: t8ttIS' Ht13. LU*15. UJ*l1.

    9'.0-31' 1I1~' 4-In .19 I.

    • 1 LU02

    [(jT-O" al" III

    • 4-

    ~ti~

    • all, LCU'Z~, LOU*27 LU.:i13 I.U.2fj LU*27

    '12'00" ai' al

    • 5
    '47 L..tt.LCU*"

    1.0U0I3 I.U*29

    • 31 LU.33 l.voC' 31' III
    • B "Bl'

    '11' U:U*ll.I.CU*17. tit I' UJ..15. I.U.17. U'oO" al" l14j

    • ZU

    ~Il LU* 1 1¥.D" 1f' '3fllll' Ii 24? 1.21, LCLI.2!i.l:U.27 LU. Ul. 1.10211. J.Uo2* oIIf#.t' 31"'* II Il!M 1.2'. 1.~"'l..l:u.211 L

    • 9, f. *3 U3a 2'./1' 2
    • 3:~"

    -241 BA:I IIERIES OIVISION OF EiLTRA CCRPO~410N 3043 WALTON. RO. ~lVM'OUTI+ MeETING, P~. 1"9426 ".. ff'l Indusr~ric;il Batteries end Chargers Iteak It:';-d. !"art No *

    1.

    IUi*a ** 1 "P,2: 1 RD*2' I ROoffo 1t1Jo28,t t 1t!HQJ5 R00407 .iii Ito-tell i! ~Q.o4CIJ RD~ ItD040S /t -' /I /(iCl). r-r Rev 16 ___...........,'-- :I/11.Yj CjJt-Cr..JLlr!70fJ !:. "'-'1~. -U) - cit!cLb.5VtZ£ t= S0/S0'd £S8L. 619 S1:C 5f1r. 0 rL Mt!tw.lln,_~'9.A. ~N r V r Lo0, 61. C80c-5:' ' -()(1f,1 .----.. ----~-----.. ----.............. --~--------------------------.------------------ s:;e

    • d

    ~.LO.l It lHIIlC LII." !Ilo/IW ,mt C !lEi SitRTI.c St~. O~ ~.ACK S*PEelFICATI:ONS TWOTJER No. TYlI9 unit Ov-,p~~~ro"* ,~- DolMiltlc Ral:lf 01 o.leIu," AntI"'Dm L'::.~,,::'d. ~o~ Celli I. W ~' belt LEH;II: l.CU'if* Lctl.17. /jf*tJ: L!H~-* 1.11*17, ".po ZO' 43~* 2 102 1 1'10*270 L.C\\,J.1

    • I.OU*2

    .1 I.U.21 ~2 L.ClJ*28,CI. *25. 1.C\\I*:017 t.\\I*2:J. I.U.25. 1.\\1.21 6'.".. to"....,.,. 3

    a.

    1 RC I*273 LeI.I.29. LCU-.n. t.CIJ~3 t.u*p, I..2: IoU.33 7',a< 20" QlII.' II .11"1 1 RD*27. tg~:it I.CIJ.15. I.tlMT, l:tl:li' I.U*1$. LU*17. ".0" 20" 4!"o\\t" ~ 1111 1 R~B.l! 24 OL.2: lJ.:!1 10'.Q' 20' II3IM- !o: 1 I'ID.2. CCU.z;a LCI.I*25-. LCU*2T W;2.3. .25. LU*27 12'.0" 20" .s3l1l' 5 t<< 1 lII~l.II u:L.20 ** cUm.LeU.3S U.S LIJ031.I.U*U 14'"," 20" 434" !!8 1 I'ID"ll.7 tSfj;lj; t8tl:lB' 1..0*13. L~H.t. LU.17.LU.a 11'00' 20" AlI"-

    .14 Ro.PJ!o.

    60 LOU*2' 1.1.1-21 12'00" lO" "'*"'. r 246 2: fIID.40lS C~2a. ~2!i CU*27 Uo2.a. 1.11-25. I.U.27 14'.0' 20" 43~* Ii 2A 2 RO-4:7 LCU.~. LCLJ.I LC:U*33 UM!9 I.u *. n LU;,III 12'*0-20" ~M' "5 2016 'a-' ROo4ts TWOS'T'EP Nil. or Cell. 12 u 110 Tyo.. nit 0-.11 DII.ll',!¥"M F~ ~ !':alehl," I Antimony r::-;.;;:

    l.

    W ~M "-ex LCU'i ~'I:8H:i

    • I.CU.I.1, tH:li: tH:i~' !.U*n.

    5'-0' U' IIt~* 2-loa LeU*l Cu.aa.I.D&Mi!

    • I.CL.12' LU-;~. UJ.2!!. LU'27

    &'00" 31' II >,t, 3 T4 [Cu., ltlU4 ~eU-33 I.U4!S..n I.U03l 7'Q 31'

    U~*
    I 17f to u:~: t8ttIS' Ht13. LU*15. UJ*l1.

    9'.0-31' 1I1~' 4-In .19 I.

    • 1 LU02

    [(jT-O" al" III

    • 4-

    ~ti~

    • all, LCU'Z~, LOU*27 LU.:i13 I.U.2fj LU*27

    '12'00" ai' al

    • 5
    '47 L..tt.LCU*"

    1.0U0I3 I.U*29

    • 31 LU.33 l.voC' 31' III
    • B "Bl'

    '11' U:U*ll.I.CU*17. tit I' UJ..15. I.U.17. U'oO" al" l14j

    • ZU

    ~Il LU* 1 1¥.D" 1f' '3fllll' Ii 24? 1.21, LCLI.2!i.l:U.27 LU. Ul. 1.10211. J.Uo2* oIIf#.t' 31"'* II Il!M 1.2'. 1.~"'l..l:u.211 L

    • 9, f. *3 U3a 2'./1' 2
    • 3:~"

    -241 BA:I IIERIES OIVISION OF EiLTRA CCRPO~410N 3043 WALTON. RO. ~lVM'OUTI+ MeETING, P~. 1"9426 ".. ff'l Indusr~ric;il Batteries end Chargers Iteak It:';-d. !"art No *

    1.

    IUi*a ** 1 "P,2: 1 RD*2' I ROoffo 1t1Jo28,t t 1t!HQJ5 R00407 .iii Ito-tell i! ~Q.o4CIJ RD~ ItD040S /t -' /I /(iCl). r-r Rev 16 ___...........,'-- :I/11.Yj CjJt-Cr..JLlr!70fJ !:. "'-'1~. -U) - cit!cLb.5VtZ£ t= S0/S0'd £S8L. 619 S1:C 5f1r. 0 rL Mt!tw.lln,_~'9.A. ~N r V r Lo0, 61. C80c-5:' ' -()(1f,1 .----.. ----~-----.. ----.............. --~--------------------------.------------------

    KCR LEAD-CALCIUM KAR LEAD-ANTIMONY 05/20(99 11:17AM Job 5'/6 For switchgear and control applications Capacities from 180 to 825 Ampere-hours FEATURES AND BENEFITS 20-),8a-e"lviwnmsnta: <lnd :;eisrnic Qc,$lificatlOc, (GaI8Ium:,

    • :::Ieme*retardant COVG'rs enhance ball!;;,r>' planl 3ale:,'

    " S)I,posea terrr,'l1als allO'N rneasuremenr Of l'lciv,dual c.eJl 'oIolmg E:lS

    • Tran:;;pa'en: r;Oi!(,,<lf,e( allONS visual J~spE:c!i(;n oi plales
    • i.ow e'/ap:x8t'O:' 'lame a'resler vent
    • E'GClrical teshng to leo per:::er.: caoacity t'lGsvres petfO'rnance or ev'~r,. bartery
    • Two po:nl top sl.l5:J6noed posirive plates perrn: vee grow;r.

    without p'Elssure Oil raj and Covel!

    • iigt',nlegntv bottorr' pour poSl ve gno,:a~.',;ng lOf.sures
    W-~*e8.r I;'e SD"'
    rl,",II~ATlt~~J r....;:;..'-"'~'~~~~-----~-:----,---.. ----*---,---------**, -.---

    PlaIN Height Width Thl.. ~...... POliti"", 1138if'1i269m0'11 8,7?ln(Z221!'\\~1) 'J312,n '1.9mmy Neg.ltv. 1 ~,3S in [29£ nlrn) g,,,!, In (2Z;: IT'm) 0.2'10 "1 i5,3mml Outside nega!",e 11.3<\\;1\\ (289 II1r:1I 8,75 ir ;222 r.ml 0.1:30 ;" (3 :; m,,",) Page 1(2 KCR LEAD-CALCIUM KAR LEAD-ANTIMONY 05/20(99 11:17AM Job 5'/6 For switchgear and control applications Capacities from 180 to 825 Ampere-hours FEATURES AND BENEFITS 20-),8a-e"lviwnmsnta: <lnd :;eisrnic Qc,$lificatlOc, (GaI8Ium:,

    • :::Ieme*retardant COVG'rs enhance ball!;;,r>' planl 3ale:,'

    " S)I,posea terrr,'l1als allO'N rneasuremenr Of l'lciv,dual c.eJl 'oIolmg E:lS

    • Tran:;;pa'en: r;Oi!(,,<lf,e( allONS visual J~spE:c!i(;n oi plales
    • i.ow e'/ap:x8t'O:' 'lame a'resler vent
    • E'GClrical teshng to leo per:::er.: caoacity t'lGsvres petfO'rnance or ev'~r,. bartery
    • Two po:nl top sl.l5:J6noed posirive plates perrn: vee grow;r.

    without p'Elssure Oil raj and Covel!

    • iigt',nlegntv bottorr' pour poSl ve gno,:a~.',;ng lOf.sures
    W-~*e8.r I;'e SD"'
    rl,",II~ATlt~~J r....;:;..'-"'~'~~~~-----~-:----,---.. ----*---,---------**, -.---

    PlaIN Height Width Thl.. ~...... POliti"", 1138if'1i269m0'11 8,7?ln(Z221!'\\~1) 'J312,n '1.9mmy Neg.ltv. 1 ~,3S in [29£ nlrn) g,,,!, In (2Z;: IT'm) 0.2'10 "1 i5,3mml Outside nega!",e 11.3<\\;1\\ (289 II1r:1I 8,75 ir ;222 r.ml 0.1:30 ;" (3 :; m,,",) Page 1(2

    C&O TECHNOL OGrl: S 7324696530 05/20/9911:16AM c) ob 576 --'--1""-. "*-----~I-

    t.~ +

    MOd'" _ t----;H' Am,.::,;" Nominal latst; i:nF (25C)-J" (hlClvdos tm~ln<Wtor... ollllg~ droP_} ________ _ Ampores I 30Mb; 15MI" 1 M~ 3Ht 1.5Hr 1Hr --IT--- 1.61 ,JttCI1/:.mAR InB )3') '1e " r" 9G 109 127 KCA:';{AR 1 ~31 H}2 1'/4 00 10e 142 17{) 217 KCftIKAR,<; 308 256 232 n.a

    47 lO(,

    234 200 i KCRiKAR.', 395 3'Jll 200 '7) 240 290

    t?8

    ~,CRl';AR*l.3 4122 3$4 343

    71

    ~I~ 290 3$ 458 KCRi!\\AR*'~ S~D 446 oot. 2W 201 336 418 557 I 1 228 ~81 I KCfl'KAR* '7 011) SI~ 464 3U 478 Ill' ~ '~CR(~P.fi*'1' 693 G?6 !';22 757 J 319 427 5?7 00(. KCFVr(AA~, ' 770 540 580 j ,~S I.

    1~6 46~

    579 -{'24 .---......... -f-- .+-- 1.78 i 3KCRI3K"R 175 134 I 124 63 I 75 100 ';'>~ 152 KCFVKAR*l 240 19S ,~ GO ,17 1Se 197

    ,>80 I

    f KCRlKAI'l*g 32ft

    >64 2~

    'ze, ',6 211 ~2 3<17 i KCRiKAR " j 400 33')

    m 150

    '~1 261 325 oIn j KCR/KM1.13 4aO 39£. 3St 1M I 237 323

    roS 54~

    KCAi<'(AA* If. 5G?

    • .62 427 2r 2Ti a77 J68 667 I KCRI'AA*'.' I 640 I S21l 485 2 Z 316 43tJ S35 73'-

    I I i<,CR,AR.lg 72-;) "g.! s;;a 2e4 3S? 474 ~90 79S f...-. >teFlj" "-"*2, OM 000 "IC 315 Jal 621 6M! 007 I i 1.75 3~CR;3MR I 100 142 13;3 65 ~1 109 1:1-1 177 KCRlI<.M.7 r 25.' 210 1!Jf, !IB '26 17? 219 m I(CR""~A"l*9 330 280 2f::li 1$ 166 230 m .:04 i I(CRJK-l.'1*' 1 j ~10 35()

    • 26 163 204 265 3eZ 1iOO I(CR'KAP*1J 4Jb "2rl 390 IS!>

    25; 351 .<;44 Q3\\i i<.CfliKI\\R '5 577 490 "~e 22~ 298 .:110 I 6..-:2 771 KCPJK~.'1* ~ I 600 560 521

    JeD 340 I

    ~~B 698 Jl52 KCRlIV.. R.19 ! 742 S30 5IJa 293

    118

    ~:.r I 657 929 K,r,R/K,o.A*21 BZ5 700 650 325 .:I. h? I 5se I~<.l '010 TI-_-_-_-_O-'-_-,...-_-I_I-d~lm_-_IlI1_ *..,IO<I-.--_+-----A.;<I~~::" --*'1'I-------'j T'/I'o of ""II ~ Ete~al~ ~ j W I Ii Nil! I Dom I l:~:~) I l.~~_.. ~ "..,um"nt, j in t~ml II" 101m) in (mm) tilled

    ---.::::+

    I ~KCA __._:'~~'_'" _ ~,f3 (211) 122 :~:_;\\)_+ __ '3_B_{_61_,~_)_+-.+ '_3_1_5._9_' __ I I(CA*? ><A'I*1 r ~.63 \\92.<'

    S ;' ** 4) 61 l2i,7) j I

    KCA.; KA"'1 14~~;;;- i 13(~31) s;:a831 i 1"-KCf) 11 KAR'1' 14,(:13\\1181 l'O.4412tl51 la.2.'>l46l) 82(37,2); I HOP, 13 KAfH J i 5.5& :'14;Jl t---97-1*44-.-C)-";I!--1-a-5-14-7-~)--+--2-3-{-I~-.4-)-- r'"

    .:.::J t---,--~,t------If------,

    HeR IS KJ\\R'IS /e $9 ~111l) ! 1'I415L7) 1)!4(SS.2) 2S(127) I ~~ ~=:E~;?~ 104_100_* _'~_'I_... I_-_-l_q~5~1.-5_&-.-8)---+--3-g-(-17-.-11-' -"'"i "._-.. _------j, ><CR.'~ KAi',IS 6,5:\\ i217\\.. I* '431$4.91 155.(70.3i 3~1'7.;Z), r-------~---------+---,------~ L.. __ : CR.2 ' ~~. M~,:171 I 1S?168.G1 I _'.1Ill_1.T4._._81_...... _._:>!I_* (~ '""e: Eiew~.yte Wt)igt15 <Jpproxlmfl,sly 1 J *bs per IIJI!On 11 210 'gs per I,(S(). 8914041 IlIIB,S) 20(9,1) ror Informa11on on blltt&/)' lack *. plellse rererta t)rochure 12*500, POWERCOM DlVISION 1..I:J!J U:-';)ON MEETING.. CAe "," gil)'; '10"3 ~;"-Uf.' 6E:~:' 'PA 19422.08!18 1~'~5f GI9*2700. FAX (215) 6'9*7')91-' ttl~!OJ 54J*~630 SO~~ili:;dHonu..l'e Sl..::lJe..:' !c cr-a:'CE!.'..tOOl.t ""otICt) C~"";~5':~,,'f).~' 'i~:i!,t.lt;: CdaJ ';~:f1S.;..~~.; J * ~., "",:e atM.~ $ce!'::n("~tlcrIS All 1'ater-r.e",:'s '1!('>!'~'~:;o-r: and carll 'ij:VB" '":91"6_11 i.\\(U beIiH'.H! ~.,:J t:t:: d."C~.'S'p',1,--; '.. ~.a: ':; but ure-o~es.er!&.j Wlt,"Ql..:t :jiJ.a!!nty ',\\ c,.*"aot).', or r~SfJCn$lb,il['Y c' an)' klr [j e,\\or&15,J' =-re* t!:; ti~&llel"'f!f '!" s:;:.jg.ge$~I'.fiS CQru::IJ'l1mg :)C's,slc,e ~Ef ~l ;~w P'oOuc:S ttl(~ ~ucc 'fllrr.oulle;~~~.,ar.lalj(.:... : :..... ~I'.?:.'*I',. Wb!.::,". $ucn,Jse l~ Ires (:of tJlUt!R~1 :r:I~'ni(tm£t-"': \\:11"0 are nor "ecnmrretloatio"'s ~'" Irltr >'tU~ ~r'r ;l~*tI***..... c.;Sf.~* ~nl"l.lIl1 t"lor Ilssut"':e r"'a! ad Mtdwmeas",!'es 3nt IflOIr;ateo ~r !~a' Clht1: T.E.at.. t~,f; "'1:1U\\. :*c: ::~ '"iH..l'.*,r?1f LJmess n'laou e;wi)i:(:t'~'; r*.... nJ,n<:; :0 1~P. :::l'St*,lT'.!i' :::;1:: IT'a.... fts ~~{.: r*~~;HQ!se!'1~,'! OIlS :;., ""~v*.r:.M '.~G~'ltC, *...: .... It'Hl~(!f nlwpn:c..JC!,'u~;"'n~ 09v :,... (:!".a$&a ~nd;Qf sesc;: Coll!l}rleal~c:cr 111~11J!... Ui ~I!':,;,i:::: ~;:: ~.:.. I"'l,,1 J{~ ';.-: mo~t '::lJ1ru:'t! ~r at:...3""~eCl ""(;.*~Z:an *"c"cci. ana C!I,,:;,,"SSt.'Y)(tt:i ':0 ooril)a~lo'" ~,!". "':-' 0' "~'.: * * *.i:-:- ~l :';\\,;. flJ'o'lSlons ar'ld,'¢1 :~'I)!C',3rr4!~~S'e.Lc\\ c~::c:;cr. :rn:'~r'C';C:;N -&PtlcIU.. riD"s.,l"'C:)1' tIC*.":.'.'~ .. 'y't/W* cdo::";'wercon' corn

    oCVr,\\,'N * ~e c&;
    * 'lCn'iOL'
    :G E, 'NC

    ~('., :Ii If... if-/ (& f/5.ICt.() S (I/l.e Pag" 2,'2 C&O TECHNOL OGrl: S 7324696530 05/20/9911:16AM c) ob 576 --'--1""-. "*-----~I-

    t.~ +

    MOd'" _ t----;H' Am,.::,;" Nominal latst; i:nF (25C)-J" (hlClvdos tm~ln<Wtor... ollllg~ droP_} ________ _ Ampores I 30Mb; 15MI" 1 M~ 3Ht 1.5Hr 1Hr --IT--- 1.61 ,JttCI1/:.mAR InB )3') '1e " r" 9G 109 127 KCA:';{AR 1 ~31 H}2 1'/4 00 10e 142 17{) 217 KCftIKAR,<; 308 256 232 n.a

    47 lO(,

    234 200 i KCRiKAR.', 395 3'Jll 200 '7) 240 290

    t?8

    ~,CRl';AR*l.3 4122 3$4 343

    71

    ~I~ 290 3$ 458 KCRi!\\AR*'~ S~D 446 oot. 2W 201 336 418 557 I 1 228 ~81 I KCfl'KAR* '7 011) SI~ 464 3U 478 Ill' ~ '~CR(~P.fi*'1' 693 G?6 !';22 757 J 319 427 5?7 00(. KCFVr(AA~, ' 770 540 580 j ,~S I.

    1~6 46~

    579 -{'24 .---......... -f-- .+-- 1.78 i 3KCRI3K"R 175 134 I 124 63 I 75 100 ';'>~ 152 KCFVKAR*l 240 19S ,~ GO ,17 1Se 197

    ,>80 I

    f KCRlKAI'l*g 32ft

    >64 2~

    'ze, ',6 211 ~2 3<17 i KCRiKAR " j 400 33')

    m 150

    '~1 261 325 oIn j KCR/KM1.13 4aO 39£. 3St 1M I 237 323

    roS 54~

    KCAi<'(AA* If. 5G?

    • .62 427 2r 2Ti a77 J68 667 I KCRI'AA*'.' I 640 I S21l 485 2 Z 316 43tJ S35 73'-

    I I i<,CR,AR.lg 72-;) "g.! s;;a 2e4 3S? 474 ~90 79S f...-. >teFlj" "-"*2, OM 000 "IC 315 Jal 621 6M! 007 I i 1.75 3~CR;3MR I 100 142 13;3 65 ~1 109 1:1-1 177 KCRlI<.M.7 r 25.' 210 1!Jf, !IB '26 17? 219 m I(CR""~A"l*9 330 280 2f::li 1$ 166 230 m .:04 i I(CRJK-l.'1*' 1 j ~10 35()

    • 26 163 204 265 3eZ 1iOO I(CR'KAP*1J 4Jb "2rl 390 IS!>

    25; 351 .<;44 Q3\\i i<.CfliKI\\R '5 577 490 "~e 22~ 298 .:110 I 6..-:2 771 KCPJK~.'1* ~ I 600 560 521

    JeD 340 I

    ~~B 698 Jl52 KCRlIV.. R.19 ! 742 S30 5IJa 293

    118

    ~:.r I 657 929 K,r,R/K,o.A*21 BZ5 700 650 325 .:I. h? I 5se I~<.l '010 TI-_-_-_-_O-'-_-,...-_-I_I-d~lm_-_IlI1_ *..,IO<I-.--_+-----A.;<I~~::" --*'1'I-------'j T'/I'o of ""II ~ Ete~al~ ~ j W I Ii Nil! I Dom I l:~:~) I l.~~_.. ~ "..,um"nt, j in t~ml II" 101m) in (mm) tilled

    ---.::::+

    I ~KCA __._:'~~'_'" _ ~,f3 (211) 122 :~:_;\\)_+ __ '3_B_{_61_,~_)_+-.+ '_3_1_5._9_' __ I I(CA*? ><A'I*1 r ~.63 \\92.<'

    S ;' ** 4) 61 l2i,7) j I

    KCA.; KA"'1 14~~;;;- i 13(~31) s;:a831 i 1"-KCf) 11 KAR'1' 14,(:13\\1181 l'O.4412tl51 la.2.'>l46l) 82(37,2); I HOP, 13 KAfH J i 5.5& :'14;Jl t---97-1*44-.-C)-";I!--1-a-5-14-7-~)--+--2-3-{-I~-.4-)-- r'"

    .:.::J t---,--~,t------If------,

    HeR IS KJ\\R'IS /e $9 ~111l) ! 1'I415L7) 1)!4(SS.2) 2S(127) I ~~ ~=:E~;?~ 104_100_* _'~_'I_... I_-_-l_q~5~1.-5_&-.-8)---+--3-g-(-17-.-11-' -"'"i "._-.. _------j, ><CR.'~ KAi',IS 6,5:\\ i217\\.. I* '431$4.91 155.(70.3i 3~1'7.;Z), r-------~---------+---,------~ L.. __ : CR.2 ' ~~. M~,:171 I 1S?168.G1 I _'.1Ill_1.T4._._81_...... _._:>!I_* (~ '""e: Eiew~.yte Wt)igt15 <Jpproxlmfl,sly 1 J *bs per IIJI!On 11 210 'gs per I,(S(). 8914041 IlIIB,S) 20(9,1) ror Informa11on on blltt&/)' lack *. plellse rererta t)rochure 12*500, POWERCOM DlVISION 1..I:J!J U:-';)ON MEETING.. CAe "," gil)'; '10"3 ~;"-Uf.' 6E:~:' 'PA 19422.08!18 1~'~5f GI9*2700. FAX (215) 6'9*7')91-' ttl~!OJ 54J*~630 SO~~ili:;dHonu..l'e Sl..::lJe..:' !c cr-a:'CE!.'..tOOl.t ""otICt) C~"";~5':~,,'f).~' 'i~:i!,t.lt;: CdaJ ';~:f1S.;..~~.; J * ~., "",:e atM.~ $ce!'::n("~tlcrIS All 1'ater-r.e",:'s '1!('>!'~'~:;o-r: and carll 'ij:VB" '":91"6_11 i.\\(U beIiH'.H! ~.,:J t:t:: d."C~.'S'p',1,--; '.. ~.a: ':; but ure-o~es.er!&.j Wlt,"Ql..:t :jiJ.a!!nty ',\\ c,.*"aot).', or r~SfJCn$lb,il['Y c' an)' klr [j e,\\or&15,J' =-re* t!:; ti~&llel"'f!f '!" s:;:.jg.ge$~I'.fiS CQru::IJ'l1mg :)C's,slc,e ~Ef ~l ;~w P'oOuc:S ttl(~ ~ucc 'fllrr.oulle;~~~.,ar.lalj(.:... : :..... ~I'.?:.'*I',. Wb!.::,". $ucn,Jse l~ Ires (:of tJlUt!R~1 :r:I~'ni(tm£t-"': \\:11"0 are nor "ecnmrretloatio"'s ~'" Irltr >'tU~ ~r'r ;l~*tI***..... c.;Sf.~* ~nl"l.lIl1 t"lor Ilssut"':e r"'a! ad Mtdwmeas",!'es 3nt IflOIr;ateo ~r !~a' Clht1: T.E.at.. t~,f; "'1:1U\\. :*c: ::~ '"iH..l'.*,r?1f LJmess n'laou e;wi)i:(:t'~'; r*.... nJ,n<:; :0 1~P. :::l'St*,lT'.!i' :::;1:: IT'a.... fts ~~{.: r*~~;HQ!se!'1~,'! OIlS :;., ""~v*.r:.M '.~G~'ltC, *...: .... It'Hl~(!f nlwpn:c..JC!,'u~;"'n~ 09v :,... (:!".a$&a ~nd;Qf sesc;: Coll!l}rleal~c:cr 111~11J!... Ui ~I!':,;,i:::: ~;:: ~.:.. I"'l,,1 J{~ ';.-: mo~t '::lJ1ru:'t! ~r at:...3""~eCl ""(;.*~Z:an *"c"cci. ana C!I,,:;,,"SSt.'Y)(tt:i ':0 ooril)a~lo'" ~,!". "':-' 0' "~'.: * * *.i:-:- ~l :';\\,;. flJ'o'lSlons ar'ld,'¢1 :~'I)!C',3rr4!~~S'e.Lc\\ c~::c:;cr. :rn:'~r'C';C:;N -&PtlcIU.. riD"s.,l"'C:)1' tIC*.":.'.'~ .. 'y't/W* cdo::";'wercon' corn

    oCVr,\\,'N * ~e c&;
    * 'lCn'iOL'
    :G E, 'NC

    ~('., :Ii If... if-/ (& f/5.ICt.() S (I/l.e Pag" 2,'2

    (!~Cp £.- (;trl{e) BRifey Controls Company Rev. 'iG ~ S£>ptembe r 2e~19S4 ~Qt>~1 Euelid,~.. tnlJt Wickllfle, 01'110 4t092 TelephOl'le: (21e) ~e5*e&OO Telar.: $I 00621. Cable, Bail),mflt&r ~. ~ lA p ~ Corrcsponden~e NO.: fJ Ll,~r fl

    )

    ~ Sechtel Construction, Inc. P.O. Box 3965 q; t ~.. '\\J l 7') SAn Francisco, CA 94119 Att&nt1onz ~r. K. W. Burrowe. project Engineer ~ a 1'- Z ~ 0.. ~ ..: a: Ci ~ ci~ q ..; <.i. :< ~c[erence: 1. Public Servlce Electric' Gas Co.

    i.
    i Hope Creek* Generation Stet ion Unit 1 Bechtel ~ob No. l08SS-J-200(O)AC BCeo, Job No.

    50lSW

    2.

    BLB-S~-951, dated 9/5/84 ~ ----------~-- Subj~ct' Power Consumptions . Ge-n t 1 err.eru ill <.5 ....J -i u: Tn Rechtel's Septo~ber 5, 1994 letter (reference 2), Bailey is reguested to prov 5 de s.l's tem assel1'.bly -power: CO!'lSLlr.lpt ions that \\<t'l'i5 obt.a ined in Beiley's che~kout. Please recognize the following as' our response. For the checkout current consumption data, refer to Table 1 attached and for clarifjcatlons to th~t data, please consider the following: A. The !ol!owing information applies to the Digital System

    1.

    E~ulpmen~ u.e~ to measure curlent

    • Multlmeter a~probe model.1685
    • Keithley T~"S mOdel f179A
    2.

    "Low" Con~it.1on

    • All modules 1nsert.~
    • No circuit simulation hooked up

    , In this static state, some I/O LED's were lit, a few rperator interface lights (RZ) were lit, £ few -Aux A~ and output reJays energized

    • To ~5tabllsh a b~se for 24V indications, a lamp t~st section (not the lar~est) wa. energized to add additional current requirements
    3.

    <<Uigh" Condition

    • All re~uirements for "Low" apply
    • Memories were toSg:~d to the "setft condition.

    This action enefg5z:d a~ditio:'l~l i1IItDory an" 1./0 LED's, addit.ional of'crator interface in~icatjons i!lno ooc1,itionl'll "A:.;x A" and output relays, (!~Cp £.- (;trl{e) BRifey Controls Company Rev. 'iG ~ S£>ptembe r 2e~19S4 ~Qt>~1 Euelid,~.. tnlJt Wickllfle, 01'110 4t092 TelephOl'le: (21e) ~e5*e&OO Telar.: $I 00621. Cable, Bail),mflt&r ~. ~ lA p ~ Corrcsponden~e NO.: fJ Ll,~r fl

    )

    ~ Sechtel Construction, Inc. P.O. Box 3965 q; t ~.. '\\J l 7') SAn Francisco, CA 94119 Att&nt1onz ~r. K. W. Burrowe. project Engineer ~ a 1'- Z ~ 0.. ~ ..: a: Ci ~ ci~ q ..; <.i. :< ~c[erence: 1. Public Servlce Electric' Gas Co.

    i.
    i Hope Creek* Generation Stet ion Unit 1 Bechtel ~ob No. l08SS-J-200(O)AC BCeo, Job No.

    50lSW

    2.

    BLB-S~-951, dated 9/5/84 ~ ----------~-- Subj~ct' Power Consumptions . Ge-n t 1 err.eru ill <.5 ....J -i u: Tn Rechtel's Septo~ber 5, 1994 letter (reference 2), Bailey is reguested to prov 5 de s.l's tem assel1'.bly -power: CO!'lSLlr.lpt ions that \\<t'l'i5 obt.a ined in Beiley's che~kout. Please recognize the following as' our response. For the checkout current consumption data, refer to Table 1 attached and for clarifjcatlons to th~t data, please consider the following: A. The !ol!owing information applies to the Digital System

    1.

    E~ulpmen~ u.e~ to measure curlent

    • Multlmeter a~probe model.1685
    • Keithley T~"S mOdel f179A
    2.

    "Low" Con~it.1on

    • All modules 1nsert.~
    • No circuit simulation hooked up

    , In this static state, some I/O LED's were lit, a few rperator interface lights (RZ) were lit, £ few -Aux A~ and output reJays energized

    • To ~5tabllsh a b~se for 24V indications, a lamp t~st section (not the lar~est) wa. energized to add additional current requirements
    3.

    <<Uigh" Condition

    • All re~uirements for "Low" apply
    • Memories were toSg:~d to the "setft condition.

    This action enefg5z:d a~ditio:'l~l i1IItDory an" 1./0 LED's, addit.ional of'crator interface in~icatjons i!lno ooc1,itionl'll "A:.;x A" and output relays,

    I " ~j ~"..... ~ _.. tJ..........*.......... (~ Qualifications Due to the large nu~ber of I/O in any given cabinet, Bailey was not Able to hook up an entire cabinet all at one tlrr.e for the purpose of this test. ThG test was performed as ~escrjbed in 2 and 3 above.

    5.

    Additional Loads If ~JLl I&leys are ener212ed at the sa~e ti~e, add the values in Table 2 to Teble 1. This situ~tion is next to impos~lble to occur for the following reaSOnss

    1.

    ? *

    3.

    In most of HIe 1 E valve c i reu l ts, close com"",end overd Q U the open co:n.",&no. If close is comr.,anoed, open is disablec, thus pnly the close relay would be energized. The majorjty of circuits re~uire the operator to push a button. Unless the room is fille6 with eno~gh operators, it will not be possible to corr~end all the relays to ~energi~e. Some relays are eneroized as a result of the status of the fjnal actuators, rnot~r startQrs, and switchgear. These devices ~re eltber started or stopped, but not both.

    6.

    Additional Current The ~dditional current re~uired for the 125v suppl~ed is 1.5 amps at 120VAC for each assembly "'ith the fOllowing conditions:

    • Assume 50\\ loaded
    • Add to these cabinets only NItl Cabinets 5/6 and 7/8 1£ I Cabinets 9/10 and 11/12
    • Since one supply is active and the other is on standby, the kW i~..QR.d current re("1uirer:,ents for ~

    assembly is 1.5 amps. However, e!ch f~ed mentioned above ~u£t be capable of .the added 1.S a~pa since its 125 VDe power supply could become active. B. The fOllo\\ldn9 appl iee to the Analog S~stems

    1.

    t~uip~ent used to neasure current

    • ~ultimeter A~probe ~o6.1 #1685 t 1<eithley 1'Rr':S mooel ~179A
    2.

    Conditions established for readings

    • All modules in~erted and operational
    • Fans run~in9 ~t high speed
    • No peripheral equip~ent ~ir&d to the systems (775,772,RY,RZ, 7ransmjtters)

    I " ~j ~"..... ~ _.. tJ..........*.......... (~ Qualifications Due to the large nu~ber of I/O in any given cabinet, Bailey was not Able to hook up an entire cabinet all at one tlrr.e for the purpose of this test. ThG test was performed as ~escrjbed in 2 and 3 above.

    5.

    Additional Loads If ~JLl I&leys are ener212ed at the sa~e ti~e, add the values in Table 2 to Teble 1. This situ~tion is next to impos~lble to occur for the following reaSOnss

    1.

    ? *

    3.

    In most of HIe 1 E valve c i reu l ts, close com"",end overd Q U the open co:n.",&no. If close is comr.,anoed, open is disablec, thus pnly the close relay would be energized. The majorjty of circuits re~uire the operator to push a button. Unless the room is fille6 with eno~gh operators, it will not be possible to corr~end all the relays to ~energi~e. Some relays are eneroized as a result of the status of the fjnal actuators, rnot~r startQrs, and switchgear. These devices ~re eltber started or stopped, but not both.

    6.

    Additional Current The ~dditional current re~uired for the 125v suppl~ed is 1.5 amps at 120VAC for each assembly "'ith the fOllowing conditions:

    • Assume 50\\ loaded
    • Add to these cabinets only NItl Cabinets 5/6 and 7/8 1£ I Cabinets 9/10 and 11/12
    • Since one supply is active and the other is on standby, the kW i~..QR.d current re("1uirer:,ents for ~

    assembly is 1.5 amps. However, e!ch f~ed mentioned above ~u£t be capable of .the added 1.S a~pa since its 125 VDe power supply could become active. B. The fOllo\\ldn9 appl iee to the Analog S~stems

    1.

    t~uip~ent used to neasure current

    • ~ultimeter A~probe ~o6.1 #1685 t 1<eithley 1'Rr':S mooel ~179A
    2.

    Conditions established for readings

    • All modules in~erted and operational
    • Fans run~in9 ~t high speed
    • No peripheral equip~ent ~ir&d to the systems (775,772,RY,RZ, 7ransmjtters)

    ¥e Current for A~ditio~&l LOA~8 ~e equipment in ~abl. III WAS not available to checkout and

    therefore thase estimates ~re to be aod6d to the checkout reAaingl for total estimated load.

    Th1, co~pletcs a4iley t s response to the Bechtel request 1ssue~ in aLa-e4~9S1. We hope the data above, plul the attached Tables a10 Bechtel in the!c quest for response to the NRC. It there are questions, please aavi.e . DLP/jC mstt Sinoerely, BAIL£Y)~LS COHPANY D~i.1;~PI '11t;:ct lIanaget Preject Management ¥e Current for A~ditio~&l LOA~8 ~e equipment in ~abl. III WAS not available to checkout and

    therefore thase estimates ~re to be aod6d to the checkout reAaingl for total estimated load.

    Th1, co~pletcs a4iley t s response to the Bechtel request 1ssue~ in aLa-e4~9S1. We hope the data above, plul the attached Tables a10 Bechtel in the!c quest for response to the NRC. It there are questions, please aavi.e . DLP/jC mstt Sinoerely, BAIL£Y)~LS COHPANY D~i.1;~PI '11t;:ct lIanaget Preject Management

    REV. 16 it Oigitlli NH Digiti1 tlC65Z B C6 52 CC652 Des S2 "po. p P' 101 n Pl (' 53 _ C c 6J1._q~§.~_~ !!l:... W~-.~ \\.. D l/Z Hi~h 6.4A

    5. i A S. 1 A 5.7A

    ~A itA IJ.A i.SA Lc:>w 5.6A ~.SA 4.3A 4.* 9 A. 3A Jf\\ 5.2A ~ 3/4 High 5~3A S.iA 4.6A 5.2A lA <<ft, 3A 5.5A Low 4.6A 1I.6A 3.BA 4.4A 3A 3A ~.7A 3/6 High 6.0A 7

    • 1.5.
    5. 1 A C
    • 1 A SA SA
    7. SA 9.2A Low 5.4A S.4A

    ~,6A S. 1 A 3~

    7. fl.A

    '.SA 7/8 K~9h 5.SA

    5. aA 4.4A 5.1,6.

    SA -4A 9" 5.1A Low ~.SA ~.4A

    4. 1 A 4.3A 4/1..

    if.. 5.5A 9/1 C High 6, 1 A 6.6A CcA 5.8A 5A 3A 7A 5.511 lOw 5.0A 5.5A t,.4 A 5.0A 3A 5A 4.9A 11 /12 High S.3A 5.0A 5.1 A 5.2A 4A SA £A 5.4A Low S.OA

    t.
    • iA C7A CSA
    SA loA 3.6A
    ~~ rr~ l. (1.H£.1~)

    ~1'.(PA ~.~A £~.9A ~? ( A lE Anlllog NH Ana10g Optic Isoht1on AC655 BC6SS CCeSS DC655 10C661 10C663 6.318 6.306 S.3A 5.318 lJ.3A H.1A -- --r--'* -r---- ~f,1Dr~"', 4.447 3.793 \\.;2 l 1.688 10.099A 1 (;;.'11 A 'lA-'E:>t.:.G 10.765A 7.006A rorAl-D Note: The deletion of the KP System (Ref.: DCP 4EC-3513) removed a small number of loads in the form of relays and indicating lights. Values for these loads are based on the Bailey Controls Letter in this Enclosure. However. for conservaTism, the-Joad. as (I rc<:ult of the KP system deletion, was not reduced. REV. 16 it Oigitlli NH Digiti1 tlC65Z B C6 52 CC652 Des S2 "po. p P' 101 n Pl (' 53 _ C c 6J1._q~§.~_~ !!l:... W~-.~ \\.. D l/Z Hi~h 6.4A

    5. i A S. 1 A 5.7A

    ~A itA IJ.A i.SA Lc:>w 5.6A ~.SA 4.3A 4.* 9 A. 3A Jf\\ 5.2A ~ 3/4 High 5~3A S.iA 4.6A 5.2A lA <<ft, 3A 5.5A Low 4.6A 1I.6A 3.BA 4.4A 3A 3A ~.7A 3/6 High 6.0A 7

    • 1.5.
    5. 1 A C
    • 1 A SA SA
    7. SA 9.2A Low 5.4A S.4A

    ~,6A S. 1 A 3~

    7. fl.A

    '.SA 7/8 K~9h 5.SA

    5. aA 4.4A 5.1,6.

    SA -4A 9" 5.1A Low ~.SA ~.4A

    4. 1 A 4.3A 4/1..

    if.. 5.5A 9/1 C High 6, 1 A 6.6A CcA 5.8A 5A 3A 7A 5.511 lOw 5.0A 5.5A t,.4 A 5.0A 3A 5A 4.9A 11 /12 High S.3A 5.0A 5.1 A 5.2A 4A SA £A 5.4A Low S.OA

    t.
    • iA C7A CSA
    SA loA 3.6A
    ~~ rr~ l. (1.H£.1~)

    ~1'.(PA ~.~A £~.9A ~? ( A lE Anlllog NH Ana10g Optic Isoht1on AC655 BC6SS CCeSS DC655 10C661 10C663 6.318 6.306 S.3A 5.318 lJ.3A H.1A -- --r--'* -r---- ~f,1Dr~"', 4.447 3.793 \\.;2 l 1.688 10.099A 1 (;;.'11 A 'lA-'E:>t.:.G 10.765A 7.006A rorAl-D Note: The deletion of the KP System (Ref.: DCP 4EC-3513) removed a small number of loads in the form of relays and indicating lights. Values for these loads are based on the Bailey Controls Letter in this Enclosure. However. for conservaTism, the-Joad. as (I rc<:ult of the KP system deletion, was not reduced.

    'J.) I .:.....1 ' 1... '1 t...... "... ' V ~",~ P.D7 .,.-:- N."'-' I,..-.1'"_, 'V) f - \\. r.'1' II t::: ~ '--- L,LJ?~ t'~*".r;'~~ Cf TA&LE II ADDllIONAL CURRENT FOR ENERGIZING ALL RELAYS 1E Dfgital ~MC652 __ BC652 CC6S2 DC6S~ 1/2 1.2A 1.2A l.ZA

    1. lA 3 / 4 0. 5 A 0
    • 6 A 1
    • 1 A 1
    • OA 5/6 1.5A 1.4A 1.2A 1.SA 7/8 O.BA O.9A O.7A O.BA 9/10 O.SA O.7A O.~A O.9A 11/12 1.0A O.9A 1.2A 1.1A Su~it)fA.L ! Q.8A t;.1A
    :,---+t 1----.

    0.8A ~,4A A?1LJ~~N&t L+~A 1.4~.4

    1. ? "Il> LOA r>

    1.4?.4-

    t. ~A fRDM. lABU!... J:~'5*4.lP'" 3?*SJA 1}.'6,c,/t ;1 I) It

    ~,O~}f,'3&.9fA,30.3?A /.34.7 a let N1E Di91ta1 ~C653 eC653 CC6S3 OC653 1.9A 2.BA 2.5A 2.SA 2.8,6, 2.7A 2.BA 3.1A 2.4A Z.lA 2.0A 2.3A 2.0A 2.1A 2.9A l.7A 1.7,6, 1.4A 1.4A 1.4A 2.6A 2.5A 2.2A 2.9A II 'J.) I .:.....1 ' 1... '1 t...... "... ' V ~",~ P.D7 .,.-:- N."'-' I,..-.1'"_, 'V) f - \\. r.'1' II t::: ~ '--- L,LJ?~ t'~*".r;'~~ Cf TA&LE II ADDllIONAL CURRENT FOR ENERGIZING ALL RELAYS 1E Dfgital ~MC652 __ BC652 CC6S2 DC6S~ 1/2 1.2A 1.2A l.ZA

    1. lA 3 / 4 0. 5 A 0
    • 6 A 1
    • 1 A 1
    • OA 5/6 1.5A 1.4A 1.2A 1.SA 7/8 O.BA O.9A O.7A O.BA 9/10 O.SA O.7A O.~A O.9A 11/12 1.0A O.9A 1.2A 1.1A Su~it)fA.L ! Q.8A t;.1A
    :,---+t 1----.

    0.8A ~,4A A?1LJ~~N&t L+~A 1.4~.4

    1. ? "Il> LOA r>

    1.4?.4-

    t. ~A fRDM. lABU!... J:~'5*4.lP'" 3?*SJA 1}.'6,c,/t ;1 I) It

    ~,O~}f,'3&.9fA,30.3?A /.34.7 a let N1E Di91ta1 ~C653 eC653 CC6S3 OC653 1.9A 2.BA 2.5A 2.SA 2.8,6, 2.7A 2.BA 3.1A 2.4A Z.lA 2.0A 2.3A 2.0A 2.1A 2.9A l.7A 1.7,6, 1.4A 1.4A 1.4A 2.6A 2.5A 2.2A 2.9A II

    / Cblrrent: F'1 ow 775 on. 772 QTY. RY on. RZ QIY. x t~-.- R OTY. ME l)HA'Y ~~E u~ ':/ F: : J .OOl~~ 14LfY GASTAT A 7 000 OKOGAWA y D 7 X364 000 )6~ TO/AL-t f ~ ~J ~ G.~c~ f'- 4!(() REV, '16 iASLE In ADD!TI0~Al CURRENi FOR PERIPH£RAL ANALOG EQU1PMENT t.C655 aC655 CC655 DC(iS5 1 0 C6 6 1

    ,/!f7 o /1-}7 DY-i']

    0, \\ '1 (1 o.oa 11 / 1

    5 S

    28 1.617 \\.<17 0735 D. F'i?L 2.24 o.15J 0.151 0*l51 O. " 7 O. '4 i II.( , 1 2 11 / a,1!Lf '.061 0.302 0.59 2.5 0.013 0.013 0.013 0.013 0.013 5 4 1 28

    ).065 -.

    O.OS2 0,013 0.013 0.36 ~ ~,D4 3 U'j ~.C!j O.~/O 1),043 6 2 2 20 0.26 i--' 0.17 o.oes D.OB6 0.86 0.0053 p.OD53 0.0053 0.0053 o.oos~ 31 27 14 22 lUi 0.16 --- 0.14 o.074 P

    • 11 7 0.668
    o. ;0 I

    f---~--.* -.-- 1------ r------.--. 0.080 0.30 ,...... ---~--.-.--... 1 0.08 0.151 1 0.151 rt-* 1----- f----- I 4.447 3.793 L2l i."SS

    k. b~:s

    ~ / Cblrrent: F'1 ow 775 on. 772 QTY. RY on. RZ QIY. x t~-.- R OTY. ME l)HA'Y ~~E u~ ':/ F: : J .OOl~~ 14LfY GASTAT A 7 000 OKOGAWA y D 7 X364 000 )6~ TO/AL-t f ~ ~J ~ G.~c~ f'- 4!(() REV, '16 iASLE In ADD!TI0~Al CURRENi FOR PERIPH£RAL ANALOG EQU1PMENT t.C655 aC655 CC655 DC(iS5 1 0 C6 6 1

    ,/!f7 o /1-}7 DY-i']

    0, \\ '1 (1 o.oa 11 / 1

    5 S

    28 1.617 \\.<17 0735 D. F'i?L 2.24 o.15J 0.151 0*l51 O. " 7 O. '4 i II.( , 1 2 11 / a,1!Lf '.061 0.302 0.59 2.5 0.013 0.013 0.013 0.013 0.013 5 4 1 28

    ).065 -.

    O.OS2 0,013 0.013 0.36 ~ ~,D4 3 U'j ~.C!j O.~/O 1),043 6 2 2 20 0.26 i--' 0.17 o.oes D.OB6 0.86 0.0053 p.OD53 0.0053 0.0053 o.oos~ 31 27 14 22 lUi 0.16 --- 0.14 o.074 P

    • 11 7 0.668
    o. ;0 I

    f---~--.* -.-- 1------ r------.--. 0.080 0.30 ,...... ---~--.-.--... 1 0.08 0.151 1 0.151 rt-* 1----- f----- I 4.447 3.793 L2l i."SS

    k. b~:s

    ~

    DETERMINATION OF HPCI AND RCIC CONTROL POWER LOADS ON 125VDC BATTERIES Calculation E-4.1(Q) Enclosure H Sheet---£'of-_3. Rev. 16 DETERMINATION OF HPCI AND RCIC CONTROL POWER LOADS ON 125VDC BATTERIES Calculation E-4.1(Q) Enclosure H Sheet---£'of-_3. Rev. 16

    i P£CREE( GENERATING SlAlION. lCUlAT10N No. E*S.ttG) lEV. SH. Of IHGll/AlOR /DATEz ___ _ IPEEI REVIEIl I OAtE: _' ___ _ LOAD TABULArlON fOR HPCI SYSTEK BAllE., l00~21 Calculation B-4.1 (Q) Rev.i6 ECUIPMENT lAG IlUHDI:R stAltJlNG TIME AND DURAIIDII OF LOAD ~ ~~I~ I ~W!P.~ I 0 =G o OPERAl101l SEC H,l "III HIM "II ",Ii "\\M MIN lIP I R 112 50 58 100 108 150 ,Ii ~I 1@*54 It II It HUI Hili HUI MIM "\\M "\\M \\ .141 \\S,{'11.8,Q" 1 I \\-\\-----------\\--\\--\\-~'--'--'--l\\ i 101>216 lIP1:1 Gll1IO sw. toW VAC PMP 1.. 5 5.& n.6 Off us 'IE,' 1£S lES ,11.6* **r*T****j***T****i****j*.. ***i*s.ar***T***j*.... i... T.g"Ton '"11 O.B ~ ij l~ DESCRIPTION 11l1>211 HPCI lUll AlII OlL Pi4P 1.5 2$.1 97.0 OFf 'lEI YES YES 1£S .. 91.. **r*ui***.. *i****i****-r.. **j*****t'*'r***r***i****T***r*.'-j-"'Il 1.5 m lOP21S HPtl VACUUM tAME taND PKP 3 J1.0 22.0 OfF lES lEI YES lEI

      • 22** *****.. ******************************'1.0***.*.** ********************* _ **.. 5.E):; i

    , '. I I I I I o. 51 18JUy*tOoatHPct PMP TEII*LIME VALVE 5.716120.0 113t.0 INC I

    • INO lID I'ES 1APHV'fOltfHPCI CDND TANK SHUtOfF VALVE J"80S, '.0 I '2.0,IC I.

    ,NO,10 IllS tSJKV*f012 HPCI HIN flO IVPS to SUP, POOL I.ID5 7.50 '2.0 Nt TEl TES NO YES tBJHV-F059JHPCI BlaH CONO NTI 'NL' VAlVE 1.36' t.' 1 11.5 INC IYEIIMO INO 'YES HDHV*fOlt1IiPCI Tual EXNAtlSr '0 SUP POol. 11.80S 17.23 I 42.0 INa 1110 INO 1110 IRO

      • 42**
    • 11.3-nllllV*foot ""Cl SlM SUI' UIE to TUIIIN!

    4.380 16.0 105.0 lit Ttl 110 ItO YEll 1.'05 ** lBJIIV*fOO4 llPCl PHP SUCI 'M aJIID 1101 1ft.122 S.5 19.5 NO 110 YES 10 NO I IBJIIV-Fn42 HPCl PHP suer fM StIPP POOL .122 I.S 19.5 Nt NO YES NO 10 lBJllV*fCOl HPCI PHP OISCIlAlGE 10 IPV 10.U 39.0 225.0 NO NO 110 flO NO 1.. :225 *** lBJHV*fOO6 IIPCI PHP DIStllAlGE TO IPV 10.U 48.0 225.0 Ne YES YEI NO 1ES 1.225 ** '

      • 42*

    l-m*1 I-U5*1 1*225-1 O.? .. 41*1 J,... '2 **..., O.!:> I I.' 0.5 ~,.: l*m*1 1-225* ~ jjl I L~ D.!J ~'.:,', h I ~ 1'\\ t:.. ~ u.~ ~ l 'i"~lf'.!, O,?'; ~

    • 19.S"* ill D,ry I

    ~ .<0; j' \\,1.. i~

    • 225-1.£ 1BJHV*82l!11lPt1 PfIP D1SCltAltGE TO 'MllllI.80St 1.5 I 42.0 INC hEShESI. hEsl 1**4z**1 I 1--4z-1 1--42-1 1**42-'

    I-",z-I 1*'42*1 I--u* t o.J1 ~ ~ to~SIP~EO fOil. A ~ 00f'( ~'(CLE Of IIS~ 1SA1teF.'(.

      • -188.9'" 42.6309.642.6 351.6 4Z.6 309." 42.6 151.6 U.6 309.6 42.6 390.6 M.6 ~~. (\\.;<>1

    '. *rCR~~l(!tUnIiHVoJ(.tw.(9lJIJmeoDfrlbM I!JDfLUW.f'WI)."IIJ." - ------ Sr.'~*t.11 li-%l of~1i C~1S. WILL AFrec-r At.I.£nIIA~lE GOILllIDL c:r:r.~. ~~,o.S)1 ~~P.CALGIii. c ~ '-~~E 1 _ ************** ----- **** **---HODE z*.-.* _.. - -_... -_.. -........ ~ I MOOE t S'SIEH*ACtUlIIOH BY tOCA lI00E Z SyStEM CYCLING OIf.Uff-OII 1'fA\\.rDJ:r.ftl~~f"J.. ~1ldT1 _-1. S.,<0. -~.1 15.$0'3.1 4. '3.' .3(.,~. ID~. ,.~ ~.~ "~!l,.'1, HOOE 3 SIstEK OPERltlCIf fRtII REIIJIE 1M DOUI PAIIE Alit> 'Sf'tRI!. ~R fUlUVd. 4tb~ ~ ¢ ~ HOOf" SI$JEH UNDEI1EST D~tV.ll.lo\\pOllI'l5'J~tiIQ'a.i* 7Sb 3.1 b l1.gb 5./1:, S.3b 3.lb 4.gb 3.14:;. 5".'3&:. :5.1f, /.f.5Ib 30th b3b 3.('b 515fEH AtlUAtloN I' toeA PLUS LARGEST VALVE UNDER tEST IS IHE tRlttCAL LOAP CYClE au tHI BATIERI AND IS TABUlATED ABOVE FRDM O*HIN. CfetlNS HODE IS tHE ADOlrloNAl LOAD REQUIRED to Be SUPPLIED BY THE BAttERI TO DE*PRESSURIZE lHE REACtoa 10 fACILitATE IHutDOUN LATEI AND IS TABULAIED ABOVE fRCH 1 to lSI "1IUTES. IATIERY SIZINe IS BASED OR THE SUM OF ttiE LOAD REQUIREMENTS DUE TO MODES 1 ABO 2. SYSTEM OPERATION FROM REMOtE SHUTOOUH PANEL DR SYSfEM UNDER 'TEST RODE ARE NOT THE CRITICAL crClES ANO HENCE Nar conSIDEREO IN THE CAlCULAiIOM. ttiE VALVE STATUS fOR IHESE MODES IS SHDUI ON THE TABULAtiON FDR CDKPARATIVE STUOY ONLY. I

    • ASSUHED Al END Of Z 1/2 HRS CHANGE OVER fD~ rnun~u~I'c StDRAGE TANI 10 SUPPRESSION POOL tAkES Pl
    • VALVE UMbEl IESI.
        • MAY BE JOGGED AT AMY tiME.

    1 flOPECREE( GENERATING SlAllON ~lCUl~nDN 110_ E-5. HQ) IEV~_ SH. Of ~IUGIIIAIOR /DAtEz ___ LOAD TABULAIION fOR HPCI SYSTEK BAllE., l00~21 PEEl ReVIEIl I OAtE: _" __ _ ECUIPMENT lAG IlUHDI:R l~ DESCRIPTION 18Jay-toos HPct PMP lESt*LIME VALVE 5.716 20.0 13t.O It:

    • 110 flO 'ES 1APHV-fOl1 HPCI CDND TANK SHUla" VALVE

    '.805 1.0 '2.0 It: NO 10 YES tSJKV-f012 HPCI HIN flO IYPI to SUP, POOL I.ID5 7.50 '2.0 Nt: TEl TES 110 YES t.' 11.3 Ne YES MO NO YES HDHV-fOlt IIPCI Tual EXNAtlSr to SUP POol. 1.805 7.23 42.0 lid 110 NO 110 RO UIlMV-fOOt ""Cl I'M SUI' UIE to TUII ** '.sao 16.0 105.0 lie Ttl 110 ItO YES lBJIIV-fOO4 llPCl PHP SUel 'M aJIID 1101 1ft.122 S.5 19.5 110 NO YES 10 NO IBJIIV-Fn42 HPCI PHP suer 'M StIPP POOL .122 I.S 19.5 lie NO YES NO 110 lBJllV*fCOl HPCI PHP OISCIlAlGE 10 IPV 10.U 39.0 225.0 110 NO 110 flO NO lBJHV-,0O6 HPCI PMP DIStllAlGE TO IPV 10.U 48.0 225.0 Ne YES YES NO YES

    • 105-*
        • 225***

    '225.. SISlEN AtlUAllOII I' toeA PLUS LARGEST VALVE UNDER tEST 1$ THE tRlttCAL lOAP tTClE au tHI BATIERI AND IS TABUlATED ABOVE FRDM a-HIli. CYCliNG HODE IS tHE ADOIIIONAl LOAD REQUIRED to Be SUPPLIED BY THE BAttERI TO OE*PRESSURIZE lHE REACtoa 10 fACILitATE SHutDOUII LATEI AND IS TABULAtED ABOVE fROM 1 to lSI MIIUIES. IATIERY SIZlve IS BASED OR THE SUM OF ttiE LOAD REQUIREMENTS DUE TO MODES 1 AHO 2. SYSTEM OPERAtiON FROM REHOtE SHUTOOUH PANEL DR SYSfEM UNDER "TEST RODE ARE NOT tHE CRITICAL ereLES AND HENCE NOT CONSIDERED IN THE CAlCULAiIOM. ttiE VALVE STATUS fOR IHESE MODES IS SHCUI ON THE TABULAtiON FDR CDKPARATIVE $TOOl' Ol/l\\'. -,'2- -US- -225- -225- -225-i -225-Calculation B-4.1 (Q) Rev.i6

    • 225-I
    • ASSUHED Al EWD Of Z 1/2 HIS CHANGE OVER fD~ rnun~u~I'c StDRAGE TANI to SUPPRESSION POOl tAkES Pl
    • VALVE UMbEl TEST.
        • MAl BE JOGGED AT AMY tuft!.

    aOPECI!Ht: GEJlERATlNG ST~JlOl~ CAtctllAllOI/ No. e*5.1(Q) ~EV. sa. Of OIHGIII"lOR JDAlE: ___ ---:,- I>I:ER IIEVnQ I DAlE: ____ EllUIPMENT tAG NUMBER LOAD OESCRIPlI08 1fCIlV-f060 IRClt VAt PKP IUS to supp POOl. IO~'"1 0.1 1BOHV*f046 IRcie SARON CON tlG uti SUP VlvIO.3611 1.9 E:!iC.LO~KE - tl . LOAU tABUlAflON FOR AtlC S'SIE" IAllERY 100411 "OTr I 11.3 Me NO '2 NO IfO INO 11 I I I I -I I I I I.T RO NO NO YES NO '-.,.3-II.! Ne YES RO TES YES Sheet-.;Lof-3. "-42--, ,--4Z-. ....... 11?\\: Cf ~ c.tt.,.s. WILt.AFf1:Cr AliDy.lA LE~-rw... ~Er al-c., li*n t/ .. 1oI>. Calculation E-4.1 (Q) Rev. 16 I aOPECI!Ht: GEJlERATlNG ST~JlOl~ CAtctllAllOI/ No. e*5.1(Q) ~EV._ SH.Of OIHGIII"lOR JDAlE: ___ I>I:ER IIEVnQ I DAlE: ___ . LOAU tABUlAflOH FOR AtlC S'SlEM IAllERY 100411 E:!iC.LO~KE - tl 3 -3 Sheet---of--- Calculation E-4.1 (Q) RO,! 1~ v EllUIFMENT tAG NUMBER IIATlIfG VALVE SlAlUS SlIIRlINQ TIME & DURAtiON Of LOAD I~~l MPS ~

    Jt~~
    ,~

    "fiN /\\11. ~~N ~tl: ~i~D ~.it)'" LOAD OESCRIPlI08 HP ftltlRUsti R tt2

    6.

    24 I 150 211 1.'.l.~.4-. 1 ____ 1 _________ 1 ___ ~ ~ l 3 4 _ ~r- --"\\~ --"l~ ~\\~ --"r 8. loP2t? RClt GlAHD SEAl YAt PUMP 3 t4.! 2B.6 OFf YES YES 1E$ YES

          • 28.6***'************************14.3******************.*.. **.*******1 *Cl.!J~ ~

    \\ 1 \\ l ~l ~ 10P220 Rete VAt tANK teND PUMP 11.0 2Z.0 OfF lEI YES 1£S lES

          • 22*****1*.*.*****.*****..***.*.* 11.0 *******************************. ~\\ ().t>;)

    ~ 1ftIlV'f059 IIctt lUll. EXit to SUI'P POOL* 0.36; 2.0 11.1 NO NO NO YES NO to.?, ~ I' I 1BOH~*~022 Rttc tESl LINE to CORD Stl 11K 0.722 3.5 lfcnv-tD45 Rele SlE~ SUP TO TURIINE 1.083 4.5 1BDlIy-r010 RCII: PHP INLt tit tcIID STOll till: 0.361 to9 1BDHV-f03t ReSt PKP tNtl 'N SUPP POOl 0.361 t., 1BDHV-F012 RCIC PHP GUlLT tOIPY. 1.eo$ T.' 19.5 Ne NO NO YES TEl 30 He TES lES YES lES ft.! NO NO fES fES NO 11.3 He NO YES fE! NO '2 NO NO NO YEI NO

      • 30**
          • 42**..
    • h.}- A
    • fl.}* A IO'~ a 0.5>: II, 0

    4~ ! 0.5 o.t;) i o.? ~ I ~il o.~ ~ 42 He YES lES TES YES

    • '42-*
      • 4Z..

    tSDDV*FOi3 Rete PKP CUllT to IPV 1.805 T.'

    • -42**

    lfCKV-f06G RCle VAt PKP Dts to SUPP POOl o~' 0.1 I.T RO NO NO YES NO

    ~::,a: :::~ ;~::"T::: :l;~:T::' VLV:

    V

    ::; 1.4' NO NO YES lES NO
                              • 8.4 *. *.. ---1'---------11 ~:~ j

    '!~rf..E.C.~~ -'-----'- ------------I~~~~~~;

                • 175.9****** -!S.3* -61.3* -!S.3* -75.1- -35.7* -33.7',56.3, --33.1-*' !

    ?; ---l--------I------------l-~I~I-I----------------- t ~ NotESl

              • MODE, ****************** ***~***MODI 2 ****** ****** ****** *********

    1 I ~ PUll* II! lIOOE t SYIIE" ACTUAliOll" LOCA 1bP'L~""~'R~~Wl"(!1ClE - -o.Glfc 2.tfD \\,toto 2.~ Z.H.,

    • g.l~

    2.1G:7 ~'l~P~Jty~ I-\\OOE l SlSlEH. t'fClItlG tlII*on*OH lappSfr<<6fol\\~~ 1.'5 l.S 1.15 1.15 I.S LS !.s \\.S~AA - {) ~ >>00£ 1 SlSIEM OPEllAtlOil FRat IE..,'! SIIUf DGIIl fAME '!t!I'A I. ..... '.J_2 1,_ I,{,"- ... '-Go

    .11 ''(1.,. "'tto!'

    ~~ HooE 4 STStEM UllDER tEST ~,v,.. L wADeN 1'1.-,....... JSl(tIIR'( ~.l" ---.~ ... ~........ !..... \\Q

    .... _- i V"

    I.,....,. _ .",.,."J SYSTEM ACTUATto~ bt lOCA PLUS LARGEST VALV! UNDeR lEST IS THE CRitiCAL LOAO C1CLE ON tHE A

    • ASSUMEO AT EMD OF 3 1/2 URS CHANCE OVER fReK CONDENSkiE BAtlERJ AND IS TABULATED ABOVE FROM O*M'N. tTtllNG HOD! IS tHE ADDITIONAl LDAD REQUIRED stORAGE tANk 10 SUPPREssiON tool lAKES PLACE.

    10 SE SUPPlIEO BY tHE BAtlERl 10 DE'PlESSUIlZE tHE REACTOR 10 fACILITATE SRUTDOUM LATER U.! Ne 1£S NO TEl TES

    • 11.!-

    A\\lD IS TASUllTED ABOVE FRat 1 to 1St MlIlUTEI. IAtTERl SIIIIIG IS BASED OR tHE SUM

    (
    • VALVE UNDeR lEST.

    OF tHE lo~ REQUIREMENtS DUE to MODES I AN~ 2. SlSTEM OPERAtiON fROM REMOtE SHUtOOUH PANEL OR STSIEH UH~ER tEST HODE ARE lOt tHE CRITICAL CYCLES AND HENtE NOT CONstOEAED IN tHE

    • . MAJ.~ JOCG~b It IN' 'IM~

    CAlctJlf,lJOi4. THE VALVE STATUS FOI lHESE lUlU II IHM OIl THE fABUlAJlDII FOI al4PMATlV1! A.- ~ Wl$~'lAll~ O~I..'i "l1k: MA.~. ~D 5J001 OHLT. _----------...,~--...... (~I)/Iltf:)OF'F fO I~DE!.I~L ftAG,JNUL I S."'fOP-I4A1P1 f'1'c-it OEP £,'( I ~1~~tI~ f'PoR..TIC1JI..AP.1)Oi '( ( 11"'~ f:.~c.LD~ORe lH) I I

    DETERMINATION OF 125VDC LOADS ON VERTICAL BOARDS:

    lOCS17, lOC620,lOC6l8,lOC621, 10C641 AND lOC640 Calculation £*4. J (Q)

    Enclosure I Sheet--L.of ** ~l REV. 16 DETERMINATION OF 125VDC LOADS ON VERTICAL BOARDS:

    lOCS17, lOC620,lOC6l8,lOC621, 10C641 AND lOC640 Calculation £*4. J (Q)

    Enclosure I Sheet--L.of ** ~l REV. 16

    Calcuiation E-4.1(Q) Enclosure I sheet.JLof_.l. REV. 16 gOWER REQUIREMENT FOR INDIVIDUAL DEVICES (i) AGASTAT GP Relay = 7 watts/each (Ref: PN~-H21-S001-242 (1) ) (ii) AGASTAT Timer Relay = 6 watts/each (Ref: PSBP#309161-01) (iii) GE - RFA Relay = 8 watts/each (Ref: PNI-H21-S001-0228) (iv) GE HMA Relay = 3 watts/each (Ref: PE-117Q-0079) (v) ET-16 Lights"" 6 watts/each (Ref: PE-117Q-0079) (vi) Solenoid Valves = 30 watts/each, inrush is 4 times steady state value. (Ref: Notes - GE elementary dwg.) 125VDC LOADS ON DWG - Div.- I RHR & CS VERTICAL BOARD lOC617: Fed from dist. panel lAD417, breaker #9 (Refer: DWG #PNI-El1-1040-383, sht. - 7,9 & 10)

    1)

    Relay Logic A: 24 GP relay @ 7w

    168 3 timer relay @ 6w = 18 2 liMA relay @ 3w 6

    4 lights @ 6w 24 Total

    216 watts (Refer

    DWG #PN1-E21-1040-383, sht. - 5 & 7)

    1)

    Relay Logic: 16 GP relay @ 7w 2 tilner relay @

    1. HFA relay @ 8w 1 HMA relay @ 3w 12 lights Total loads on breaker #9

    @ 6\\.; Total of dist. panel lAD417: 112 6w

    == 12 8 3 72

    == 207 watts 216 -+- 207

    !; 423 watt.s or 3,,]8 Amps

    ~ m~f.... _rrmw.o~ __ r ____ _ Calcuiation E-4.1(Q) Enclosure I sheet.JLof_.l. REV. 16 gOWER REQUIREMENT FOR INDIVIDUAL DEVICES (i) AGASTAT GP Relay = 7 watts/each (Ref: PN~-H21-S001-242 (1) ) (ii) AGASTAT Timer Relay = 6 watts/each (Ref: PSBP#309161-01) (iii) GE - RFA Relay = 8 watts/each (Ref: PNI-H21-S001-0228) (iv) GE HMA Relay = 3 watts/each (Ref: PE-117Q-0079) (v) ET-16 Lights"" 6 watts/each (Ref: PE-117Q-0079) (vi) Solenoid Valves = 30 watts/each, inrush is 4 times steady state value. (Ref: Notes - GE elementary dwg.) 125VDC LOADS ON DWG - Div.- I RHR & CS VERTICAL BOARD lOC617: Fed from dist. panel lAD417, breaker #9 (Refer: DWG #PNI-El1-1040-383, sht. - 7,9 & 10)

    1)

    Relay Logic A: 24 GP relay @ 7w

    168 3 timer relay @ 6w = 18 2 liMA relay @ 3w 6

    4 lights @ 6w 24 Total

    216 watts (Refer

    DWG #PN1-E21-1040-383, sht. - 5 & 7)

    1)

    Relay Logic: 16 GP relay @ 7w 2 tilner relay @

    1. HFA relay @ 8w 1 HMA relay @ 3w 12 lights Total loads on breaker #9

    @ 6\\.; Total of dist. panel lAD417: 112 6w

    == 12 8 3 72

    == 207 watts 216 -+- 207

    !; 423 watt.s or 3,,]8 Amps

    ~ m~f.... _rrmw.o~ __ r ____ _

    Calculation E-1.] (Q) Enclosure I Sheet--?-of--t-. 125VDC LOAD ON HPCI RELAY VERTICAL BOARD 10£§ZQ Fed from dist. panel lAD417, breaker #10 (Refer: DWG #PNI-E41-1040-62, sht. - 4,5,6 & 12)

    1)

    Relay Logic:

    2)
    3)
    4) 42 GP relay @ 7w

    =294 3 Timer relay @ 6w "'" 18 Turbine Supervisory Lights: 4@6w SV'S; F025,F029: 3@30w and F045 Auto & remote turbine trip: 1 SV@30 w "'" 90 "'" 30

    5) steam supply isol. vivo Manual override:

    1GP relay @ 7w "'" 7

    6)

    Interface with steam leak detection system: (Ref. PNI-B21-1050-64, sht. 2) 2 GP relay @ 7w = 14 2 Timer relay @ 6w ... 12 = 90 REV. 16

    7)

    Lights: 15 @ 6w Total =579 watts Total loads on breaker #10 of dist. panel lAD417 = 579 watts or 4~63 Amps 125VDC LOADS ON DIV.~II RHR << CS V~RTICAL BOARD 10C618: Fed from dist. panel 1BD417, breaker #9 (Refer: DNG # PNI-EI1-1040-383, sht. - 7,12 & 13)

    1)

    Relay Logic: 25 GP relay @ 7.,./ "" 175 3 timer relay @ 6w 18 2 lIMA relay @ 3w 6 5 lights @ 6w 30 Total <'~ 229 watts Calculation E-1.] (Q) Enclosure I Sheet--?-of--t-. 125VDC LOAD ON HPCI RELAY VERTICAL BOARD 10£§ZQ Fed from dist. panel lAD417, breaker #10 (Refer: DWG #PNI-E41-1040-62, sht. - 4,5,6 & 12)

    1)

    Relay Logic:

    2)
    3)
    4) 42 GP relay @ 7w

    =294 3 Timer relay @ 6w "'" 18 Turbine Supervisory Lights: 4@6w SV'S; F025,F029: 3@30w and F045 Auto & remote turbine trip: 1 SV@30 w "'" 90 "'" 30

    5) steam supply isol. vivo Manual override:

    1GP relay @ 7w "'" 7

    6)

    Interface with steam leak detection system: (Ref. PNI-B21-1050-64, sht. 2) 2 GP relay @ 7w = 14 2 Timer relay @ 6w ... 12 = 90 REV. 16

    7)

    Lights: 15 @ 6w Total =579 watts Total loads on breaker #10 of dist. panel lAD417 = 579 watts or 4~63 Amps 125VDC LOADS ON DIV.~II RHR << CS V~RTICAL BOARD 10C618: Fed from dist. panel 1BD417, breaker #9 (Refer: DNG # PNI-EI1-1040-383, sht. - 7,12 & 13)

    1)

    Relay Logic: 25 GP relay @ 7.,./ "" 175 3 timer relay @ 6w 18 2 lIMA relay @ 3w 6 5 lights @ 6w 30 Total <'~ 229 watts

    I (Refer: DWG #PNI-E21-1040-383, sht. -5 & 9)

    1)

    Relay Logic: Same as lOC617 panel"'" 207 watts = 229 + 207 Calculation E4.1 (Q) Enclosure I I ; .£. Sheet-.':Lo f--7--- REV. 16 Total loads on breaker #9 of dist. panel lBD417 = 436 watts or 3.49 Amps 125VDC LOAD ON ReIe RELAY VERTICAL BOARD 10C621 Fed from dist. panel 1BD417, breaker #24 (Refer: DWG # PNI-E51-1040-59, Sht. - 4,6,7,13 & 14

    1)

    Relay Logic: 35 GP relay @ 7w =245 3 Timer relay @ 6w "'" 18

    2)

    Steam supply isol. viv. 1 GP relay @7w = 7 Manual override:

    3)
    4) 5}

    Remote turbine trip: 1 SV @ 30w Turbine supervisory lights: 4 @ 6w SV's: F026,F-005,F054 & FOl9: 4 @ 30w = 30

    = 24

    =120

    6)

    Interface with steam leak detection system (Ref: Pnl-BZ1-1050-64, sht. 2) 2 GP relay @ 7w = 14 2 Timer relay @ 6w = 12

    7)

    Lights: 13 @ 6w Total loads on breaker #24 of dist. panel IBD417 = 78 Total "'" 548 watts = 548 watts or 4.38 amps I (Refer: DWG #PNI-E21-1040-383, sht. -5 & 9)

    1)

    Relay Logic: Same as lOC617 panel"'" 207 watts = 229 + 207 Calculation E4.1 (Q) Enclosure I I ; .£. Sheet-.':Lo f--7--- REV. 16 Total loads on breaker #9 of dist. panel lBD417 = 436 watts or 3.49 Amps 125VDC LOAD ON ReIe RELAY VERTICAL BOARD 10C621 Fed from dist. panel 1BD417, breaker #24 (Refer: DWG # PNI-E51-1040-59, Sht. - 4,6,7,13 & 14

    1)

    Relay Logic: 35 GP relay @ 7w =245 3 Timer relay @ 6w "'" 18

    2)

    Steam supply isol. viv. 1 GP relay @7w = 7 Manual override:

    3)
    4) 5}

    Remote turbine trip: 1 SV @ 30w Turbine supervisory lights: 4 @ 6w SV's: F026,F-005,F054 & FOl9: 4 @ 30w = 30

    = 24

    =120

    6)

    Interface with steam leak detection system (Ref: Pnl-BZ1-1050-64, sht. 2) 2 GP relay @ 7w = 14 2 Timer relay @ 6w = 12

    7)

    Lights: 13 @ 6w Total loads on breaker #24 of dist. panel IBD417 = 78 Total "'" 548 watts = 548 watts or 4.38 amps

    I 125VDC LOADS ON DIV.-III RHR & Cs VERTICAL BOARD 10C641 Fed from dist. panel lCD417, breaker #9 (Refer: DWG # PN1-EI1-1040-3B3, sht. - 8 & 14) 1} Relay Logic: 15 GP relay @ 7w

    105 3 timer relay @ 6w

    18

    2 liMA relay @ 3w (5

    3 lights @ 6w = 18 Total = 147 watts (Refer: DWG # PN1-E21-1040-383, shto -5)

    1)

    Relay Logic: 7 GP relay @ 7w

    == 49

    2 timer ~elay @ 6w 12 1 HFA relay @ aw
    c:

    8 1 HMA relay @ 3w

    3

    .t 6 lights @ 6w

    == 36 Total

    == lOB watts (Refer: DWG # PN1-E41-1040-62, sht. - 4,6 & 12)

    1)

    SV'Si F-026 and F028: 2 @ 30w

    == 60

    2)

    Relay Logic: 7 GP relay @ 7w 7 lights @ 6w = 49

    = 42
    3) steam supply i901. vlv. 1 GP relay @ 1

    = 1 Manual override:

    4)

    Interface with steam leak detection system (Ref: PNI-B21-1050-64, sht.-:2):

    2 GP relays @ 7w

    = 14

    2 Timer relays @ 6W ~1l Caicuiation E-4. t(Q)

    Enclosure I 5 ..-I Sheet----:--of---L REV. 16 Total =184 watts Total loads on breaker #9 of dist. panel 1CD417 7 = 147 + 108 + 184

    = 439 watt!~ Ql.~ 3~51 amps rmr""M I

    125VDC LOADS ON DIV.-III RHR & Cs VERTICAL BOARD 10C641 Fed from dist. panel lCD417, breaker #9 (Refer: DWG # PN1-EI1-1040-3B3, sht. - 8 & 14) 1} Relay Logic: 15 GP relay @ 7w

    105 3 timer relay @ 6w

    18

    2 liMA relay @ 3w (5

    3 lights @ 6w = 18 Total = 147 watts (Refer: DWG # PN1-E21-1040-383, shto -5)

    1)

    Relay Logic: 7 GP relay @ 7w

    == 49

    2 timer ~elay @ 6w 12 1 HFA relay @ aw
    c:

    8 1 HMA relay @ 3w

    3

    .t 6 lights @ 6w

    == 36 Total

    == lOB watts (Refer: DWG # PN1-E41-1040-62, sht. - 4,6 & 12)

    1)

    SV'Si F-026 and F028: 2 @ 30w

    == 60

    2)

    Relay Logic: 7 GP relay @ 7w 7 lights @ 6w = 49

    = 42
    3) steam supply i901. vlv. 1 GP relay @ 1

    = 1 Manual override:

    4)

    Interface with steam leak detection system (Ref: PNI-B21-1050-64, sht.-:2):

    2 GP relays @ 7w

    = 14

    2 Timer relays @ 6W ~1l Caicuiation E-4. t(Q)

    Enclosure I 5 ..-I Sheet----:--of---L REV. 16 Total =184 watts Total loads on breaker #9 of dist. panel 1CD417 7 = 147 + 108 + 184

    = 439 watt!~ Ql.~ 3~51 amps rmr""M

    125VDC LOADS ON DIV.-IV RHR & CS VERTICAL BOARD lOC640 Fed from dist. panel IDD4~7. breaker #9 (Refer: DWG# PNI-El1-1040-383, sht. -8) Calculation E-/'*.l(Q) Enclosure I 6 ~t.'-: Sheet--.. -of--.** ~ REV. 16

    1)

    Relay Logic: Same as 10C641 Total = 147 watts (Refer: DWG# PNI-E21-1040-383, Sht. -5)

    1)

    Relay Logic: Same as lOC641 Total = 108 watts (Refer: DWG# PNI-E51-1040-59, sht. -4,8 & 14)

    1)

    SVls F025 and F004: 2 @ 30W

    2)

    Relay Logic:

    3 )

    8 GP relays @ 7w 1 ligth @ 6w steam supply 1501. vIv. Manual override: 1 GP relay @ 7w

    = 60
    = 56

    == 6

    == 7

    4)

    Interface with steam leak detection system (Ref: PNI-B21-1050-64, sht.-2): Total loads on breaker #9 of diet. panel 1DD417 2 GP relays @ 7 2 Timer relays @ 6 Total

    == 14

    = 12

    =155 watts

    = 147 + 108 + 155 410 watts or 3.28 amps 125VDC LOADS ON DIV.-IV RHR & CS VERTICAL BOARD lOC640 Fed from dist. panel IDD4~7. breaker #9 (Refer:

    DWG# PNI-El1-1040-383, sht. -8) Calculation E-/'*.l(Q) Enclosure I 6 ~t.'-: Sheet--.. -of--.** ~ REV. 16

    1)

    Relay Logic: Same as 10C641 Total = 147 watts (Refer: DWG# PNI-E21-1040-383, Sht. -5)

    1)

    Relay Logic: Same as lOC641 Total = 108 watts (Refer: DWG# PNI-E51-1040-59, sht. -4,8 & 14)

    1)

    SVls F025 and F004: 2 @ 30W

    2)

    Relay Logic:

    3 )

    8 GP relays @ 7w 1 ligth @ 6w steam supply 1501. vIv. Manual override: 1 GP relay @ 7w

    = 60
    = 56

    == 6

    == 7

    4)

    Interface with steam leak detection system (Ref: PNI-B21-1050-64, sht.-2): Total loads on breaker #9 of diet. panel 1DD417 2 GP relays @ 7 2 Timer relays @ 6 Total

    == 14

    = 12

    =155 watts

    = 147 + 108 + 155 410 watts or 3.28 amps

    Calculation E..4.1(Q) Enclosure I Z ~T Sheet....L....-ofJ -. REV. 16

    SUMMARY

    HOTES:

    1.

    vertical boards 10C620, lOC621, lOC641 and 10C640 supply power to several protective circuits having a solenoid valve. Since these SV's may be operated any time during the battery cycle, inrush current for all SV's are added in each panel for the entire battery load cycle for conservatism.

    2.

    For conservatism and future growth all current values are increased by 5% (approx.) and rounded off to 1st decimal place for battery sizing calculation. VERTICAL BOARD TAG. ACTUAL LOAD AMPS + BATTERY LOAD NO. INRUSH x # OF 5V'S (LOAD AMPS X LOS) lOC617 3.38 3.6 10C620 4.63 + 0.72 X 4 709 lOC618 3.49 3.7 lOC621 4.38 + 0.72 X 5 8.4 10C641 3.51 + 0.72 X 2 5.2 lOC640 3 *.2 8 + 0.72 X 2 5.0 Calculation E..4.1(Q) Enclosure I Z ~T Sheet....L....-ofJ -. REV. 16

    SUMMARY

    HOTES:

    1.

    vertical boards 10C620, lOC621, lOC641 and 10C640 supply power to several protective circuits having a solenoid valve. Since these SV's may be operated any time during the battery cycle, inrush current for all SV's are added in each panel for the entire battery load cycle for conservatism.

    2.

    For conservatism and future growth all current values are increased by 5% (approx.) and rounded off to 1st decimal place for battery sizing calculation. VERTICAL BOARD TAG. ACTUAL LOAD AMPS + BATTERY LOAD NO. INRUSH x # OF 5V'S (LOAD AMPS X LOS) lOC617 3.38 3.6 10C620 4.63 + 0.72 X 4 709 lOC618 3.49 3.7 lOC621 4.38 + 0.72 X 5 8.4 10C641 3.51 + 0.72 X 2 5.2 lOC640 3 *.2 8 + 0.72 X 2 5.0

    PSEG 1\\.:UCLEAR HOPE CREEK DESIGN ANALYSIS SHEET CALC. NO: ~-:.l (Q~J I"bY. 16 ENCLOSURE.: PAGE 1 OF 1 -1 __ MASTERP ACT DG BREAKER TYPE..LGSB5 UV TRI~COIL POWER CONSUMPTIO~ UV T11P Coil Constant Power Consumption: 4.SVA (Ref. 10, VTD: 430587) Power Supply: 125 VDC Battery Full Load Cunent (Individual Breaker) = 4.5V A 1125V = 0.036A The additional load ClUTent on each battery bank is detennined by multiplying by the number of breakers fed by each battery bank (Ref. 7, E-0009-1, Shts 1 & 2). CALCULATED LOAD

    SUMMARY

    Battery Bank Breaker Count Full Load Cunent (A) IAD411 6 0.22 IBD411 5 0.18 ICD411 5 0.18 IDD411 5 0.18 PSEG 1\\.:UCLEAR HOPE CREEK DESIGN ANALYSIS SHEET CALC. NO: ~-:.l (Q~J I"bY. 16 ENCLOSURE.: PAGE 1 OF 1 -1 __ MASTERP ACT DG BREAKER TYPE..LGSB5 UV TRI~COIL POWER CONSUMPTIO~ UV T11P Coil Constant Power Consumption: 4.SVA (Ref. 10, VTD: 430587) Power Supply: 125 VDC Battery Full Load Cunent (Individual Breaker) = 4.5V A 1125V = 0.036A The additional load ClUTent on each battery bank is detennined by multiplying by the number of breakers fed by each battery bank (Ref. 7, E-0009-1, Shts 1 & 2). CALCULATED LOAD

    SUMMARY

    Battery Bank Breaker Count Full Load Cunent (A) IAD411 6 0.22 IBD411 5 0.18 ICD411 5 0.18 IDD411 5 0.18

    PSEG NUC-LEA-R----,------ --I-------CALC. NO: E_4.t(Q)j HOPE CREEK DESIGN ANALYSIS I REV. 16 SHEET ~- ENCLOSURE K PAGE 1 OF 1

    ~--------.-------

    Revision 15 incorporates all Outstanding and Pending ADs that were posted against Calculation E-4.l(Q) as of 01/30/2007. After incorporating all ofthe ADs, it has been concluded that battery loading margin remains for all batteries covered by this calculation. Several Pending ADs give back (increase) margin, thereby making more margin available for station modifications to add load to the batteries. However, there is a possibility that Pending ADs that take margin are implemented before ADs that give back margin. The worst case condition is that all ADs that take margin are implemented before any ADs that give back margin are implemented and result in negative margin (battery overload). This analysis detelmines if the worst case condition can result in negative margin. The analysis starts by assuming all ADs are implemented (Rev 15 results). The analysis then backs out all of the ADs that give back margin. The table below summarizes the analysis. AD 80042273ROE36RO 80042273ROE36RO 80042273ROE36RO 80042273ROE36RO LIST 1 LIST 2 LIST 3 LIST 4 LIST 1 80078171ROE120RO 80085435ROE175RO 80085435ROE176RO 80085435ROElS4RO S0085456ROE60SRO IMPACT PANEL ADD (AMPS) lAJ481 58.8 DC lBJ481 58.8 DC lCJ481 19.6 DC 1DJ4S1 19.6 DC 1AD417 0.3 AC lBD417 0.4 AC lCD417 0.3 AC IDD417 0.3 AC LIST 2 S0085435ROEl77RO 80085435ROE178RO 80085435ROE179RO 80085435ROElS5RO SOOS5456ROE602RO 800S5456ROE611RO MARGIN MARGIN MARGIN REV1S AFTER AD REDUCTION (AMPS) BACKOUT (PERCENT) 207 DC 148 DC 1935 DC 1877 DC 1375 DC 1356 DC 526 DC 507 DC 2.0AC 1.7 AC 3.2AC 2.S AC 3.2 AC 2.9AC 3.2AC 2.9AC LIST 3 SOOS5435ROElS0RO 80085435ROE 181RO 80085435ROE187RO 80085435ROE188RO 29 3 1 4 15 13 9 9 LIST 4 S0078171ROE123RO 80085456ROE606RO 80085456ROE607RO 80085456ROE613RO 800S5456ROE615RO Analysis

    Conclusion:

    After all ADs that give back margin are backed out of revision 15, all margins remain positive. On a percentage basis, the maximum margin reduction in the worst case scenario is 29%. This analysis concludes that All Pending ADs as of 113012007 may be incorporated into revision 15 of the calculation without any risk of exceeding battery loading limits. PSEG NUC-LEA-R----,------ --I-------CALC. NO: E_4.t(Q)j HOPE CREEK DESIGN ANALYSIS I REV. 16 SHEET ~- ENCLOSURE K PAGE 1 OF 1

    ~--------.-------

    Revision 15 incorporates all Outstanding and Pending ADs that were posted against Calculation E-4.l(Q) as of 01/30/2007. After incorporating all ofthe ADs, it has been concluded that battery loading margin remains for all batteries covered by this calculation. Several Pending ADs give back (increase) margin, thereby making more margin available for station modifications to add load to the batteries. However, there is a possibility that Pending ADs that take margin are implemented before ADs that give back margin. The worst case condition is that all ADs that take margin are implemented before any ADs that give back margin are implemented and result in negative margin (battery overload). This analysis detelmines if the worst case condition can result in negative margin. The analysis starts by assuming all ADs are implemented (Rev 15 results). The analysis then backs out all of the ADs that give back margin. The table below summarizes the analysis. AD 80042273ROE36RO 80042273ROE36RO 80042273ROE36RO 80042273ROE36RO LIST 1 LIST 2 LIST 3 LIST 4 LIST 1 80078171ROE120RO 80085435ROE175RO 80085435ROE176RO 80085435ROElS4RO S0085456ROE60SRO IMPACT PANEL ADD (AMPS) lAJ481 58.8 DC lBJ481 58.8 DC lCJ481 19.6 DC 1DJ4S1 19.6 DC 1AD417 0.3 AC lBD417 0.4 AC lCD417 0.3 AC IDD417 0.3 AC LIST 2 S0085435ROEl77RO 80085435ROE178RO 80085435ROE179RO 80085435ROElS5RO SOOS5456ROE602RO 800S5456ROE611RO MARGIN MARGIN MARGIN REV1S AFTER AD REDUCTION (AMPS) BACKOUT (PERCENT) 207 DC 148 DC 1935 DC 1877 DC 1375 DC 1356 DC 526 DC 507 DC 2.0AC 1.7 AC 3.2AC 2.S AC 3.2 AC 2.9AC 3.2AC 2.9AC LIST 3 SOOS5435ROElS0RO 80085435ROE 181RO 80085435ROE187RO 80085435ROE188RO 29 3 1 4 15 13 9 9 LIST 4 S0078171ROE123RO 80085456ROE606RO 80085456ROE607RO 80085456ROE613RO 800S5456ROE615RO Analysis

    Conclusion:

    After all ADs that give back margin are backed out of revision 15, all margins remain positive. On a percentage basis, the maximum margin reduction in the worst case scenario is 29%. This analysis concludes that All Pending ADs as of 113012007 may be incorporated into revision 15 of the calculation without any risk of exceeding battery loading limits.

    PSEG NUCLEAR HOPE CREEK.. SHEET ENCLOSUR}~ L PAGE 1 OF 1 I DES-ION ANALYSIS l---CALc.NO;:~~~i~ L..... ___._____ A ttoc:hment 1 E)(plonotion of Enclosut"e A LOAD ON PANEl 10-J-485 1OJ485 Breaker 6 loading Discu5sion Breaker 5 hos 10Z701 & 10Z702 & the..Qrinter on it. The current loading is discussed in CP 4EC~3192.2. The loading for breaker 6 is current~ overly conservative in that it credits two printers being powered on breaker 6 and on~y one printer is installed. The existing wattage is shown below. 316 W monitors + 240 Watts computers +.380 Watts printers + 9 Watts CD-Rom. Total Existing Watts = 945 With a 0.8 PF, the current VA is 1181.25. This lood is on E -4.1 Enclosure A The existing PPC computers will remain. but the replacement printer has a rating of 26 Watts. New Wattage on 1OJ485 Breaker 6 ~ 316 monitors +240 computers + 26 printer + 9 CD-ROM "'" 591 W With a 0.8 PF, the future VA is (59101,0.8) = 738.75 10J485 Breaker 7 Discussion Breaker 7 hos the CMS computers, monitors and tape drive on it The current looding is discussed in CP 4E:C-3192 Attoohment ';,2 The existing wattage is shown below 11 W tape drive + 700 W eMS computers + 320 W monitors 1:;1 1031 Watts With a 0.8 PF. the existing VA is 1288.75 New wottaqe on 10J485 Breaker 7 = (630*2) + 135 = 1395 Watts With 0 0.8 PF, the future VA wHi be 1743.75 PSEG NUCLEAR HOPE CREEK.. SHEET ENCLOSUR}~ L PAGE 1 OF 1 I DES-ION ANALYSIS l---CALc.NO;:~~~i~ L..... ___._____ A ttoc:hment 1 E)(plonotion of Enclosut"e A LOAD ON PANEl 10-J-485 1OJ485 Breaker 6 loading Discu5sion Breaker 5 hos 10Z701 & 10Z702 & the..Qrinter on it. The current loading is discussed in CP 4EC~3192.2. The loading for breaker 6 is current~ overly conservative in that it credits two printers being powered on breaker 6 and on~y one printer is installed. The existing wattage is shown below. 316 W monitors + 240 Watts computers +.380 Watts printers + 9 Watts CD-Rom. Total Existing Watts = 945 With a 0.8 PF, the current VA is 1181.25. This lood is on E -4.1 Enclosure A The existing PPC computers will remain. but the replacement printer has a rating of 26 Watts. New Wattage on 1OJ485 Breaker 6 ~ 316 monitors +240 computers + 26 printer + 9 CD-ROM "'" 591 W With a 0.8 PF, the future VA is (59101,0.8) = 738.75 10J485 Breaker 7 Discussion Breaker 7 hos the CMS computers, monitors and tape drive on it The current looding is discussed in CP 4E:C-3192 Attoohment ';,2 The existing wattage is shown below 11 W tape drive + 700 W eMS computers + 320 W monitors 1:;1 1031 Watts With a 0.8 PF. the existing VA is 1288.75 New wottaqe on 10J485 Breaker 7 = (630*2) + 135 = 1395 Watts With 0 0.8 PF, the future VA wHi be 1743.75}}

    • Retrieved from "https://kanterella.com/w/index.php?title=ML110050414&oldid=5286345"