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, NEDO-24579-1 , | |||
.g 82NED004 1 | |||
~~ | |||
CLASSI l JANUARY 1982 4 | |||
[.. REVISION 1 l I | |||
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i MARK I CONTAINMENT PROGRAM PLANT UNIQUE LOAD DEFINITION i HOPE CREEK GENERATING STATION: | |||
l UNIT 1 | |||
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[!A288FJ88sjjA GENER AL h ELECTRIC J | |||
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'P'.____:______._____________________.._ .. - | |||
f NEDO-24579-1 (I 82NED004 Class 1 January 1982 Revision 1 3 | |||
MARK I CONTAINMENT PROGRAM PLANT-UNIQUE LOAD DEFINITION BOPE CREEK GENERATING STATION: UNIT 1 l | |||
Approv'ed:'"5 /. '" Approved | |||
* f rf _ _ | |||
A.E. Rogers,Ma[ nager R 4. Brandon, Manager Reactor Performance Analysis Nucicar Services Engineering Nuclear Fuel and Services Engineering Department NUCLEAR FUEL & SERVICES DIVISION | |||
* GENERAL ELECTRIC COMPANY SAN JOSE. CALIFORNI A 95125 GENER AL $ ELECTRIC | |||
NEDO-24579-1 LEGAL NOTICE C | |||
s. | |||
The only undertakings of General Electric Company respecting information in this document are contained in the contract between Public Service Electric and Gas and General Electric Company for Mark 1 Containment Consulting Serv-ices, and nothing contained in this document shall be construed as changing the contract. The use of this information by anyone other than Public Serv- | |||
: p. ., , ice Electric and Gas Company, or for any purpose other than that for which it is intended, is not authorized; and with respect to any unauthorized use, f | |||
1 General Electric Company makes no representation or warranty, and assumes no j, liability as to the completeness, accuracy, or usefulness of the information contained in this document. | |||
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LL 7- .- .- | |||
NEDO-24579-1 CONTENTS P,,agg ABSTRACT iv | |||
: 1. INTRODUCTION 1-1 | |||
: 2. LOCA PRESSURE AND TEMPERATURE TRANSIENTS 2-1 | |||
: 3. DBA VENT SYSTEM THRUST LOADS, ZERO AP 3-1 | |||
: 4. POOL SWELL TORUS VERTICAL LOADS 4-1 | |||
: 5. POOL SWELL IMPACT AND DRAC LOADS 5-1 k | |||
P iii Revision 1 e | |||
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NEDO-24579-1 ABSTRACT This document provides unique definit .on of specific containment loading con-ditions that would result from a postulated loss-of-coolant accident in the Hope | |||
! Creek Generating Station: Unit 1. Transient information is provided for con-tainment pressures and temperatures, vent system thrust, torus vertical loads, vent system pool swell impact loads, and vent header deflector loads. The docu-I , | |||
ment has been prepared under the Mark I Containment Program to aid Public Service Electric and Gas in the performance of a containment structural evaluation. | |||
l I | |||
I 1 | |||
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NEDO-24579-1 | |||
: 1. INTRODUCTION This report provides specific transient loading information resulting from a postulated loss-of-coolant (LOCA) accident in the Hope Creek Cenerating Station Unit 1. This report, in conjunction with the Mark I Containment Load Defini-tion Report, was prepared for Public Service Electric and Gas to use in the structural evaluation of the Mark I Containment system. | |||
The f ollowing specific LOCA-related transient information is included o Pressure and temperature time histories for the drywell and wetwell e Vent system thrust loads e Net vertical pool swell loads and average submerged pressures on the wetwell e Pool swell impact and drag loads on the vent system I. | |||
e Vent header deflector loads Transient information is presented via a series of figures for each of the above areas. An alpha-numeric identification scheme was developed for the figures: the alpha designation denotes the plant of interest; the first three digits of the numeric designation denote the applicable discussion section in the Mark 1 Containment Program Lead Definition Report (NEDO-21888). | |||
Transient conditions presented in this report are results of plant unique test-ing and/or analysis for specific plant conditions that have been provided or requested by the aforementioned utility. Changes to those specific plant con-ditions could result in changes to the transient information reported herein. | |||
If, af ter further review of this document, the responsible utility considers | |||
! that such changes would be appropriate, the document can be modified accordingly. | |||
I 1 | |||
1 1-1 Revision 1 m | |||
r NE DO-24579-1 | |||
: 2. LOCA PRESSURE AND TEMPERATURE TRANSIENTS e | |||
This section provides the LOCA-induced pressure and temperature transients for the drywell and wetwell. The initial conditions for which the pressure and temperature responses were evaluated are also presented. Transient condi-tions are included for the design basis accident (DBA), intermediate break accident (IBA), and small break accident (SBA). The list of applicable figures and tables for this section is given on the following page. | |||
Peak drywell pressure and temperature and the wetwell pressure and temperature at 30 seconds are identified on the DBA containment pressure and tempe'rature plots (Figures 4.1.1-1 and 4.1.1-2). | |||
The peak containment pressures, the containment temperatures at the end of RPV blowdown, and the containment pressures and temperatures at the time of ADS initiation are identified on the IBA and SBA containment pressure and tem-perature plots (Figures 4.1.2-1, 4.1.2-2, 4.1.3-1, and 4.1.3-2). | |||
(. | |||
2-1 Revision 1 | |||
NEDO-24579-1 HOPE CREEK 1 PI. ANT-UNIQUE PRESSURE AND TEMPERATURE RESPONSE TABI.ES AND FICURES Applicable Figure or Table No. Title Revision No. | |||
Table HC 4.1.1-1 Plant iditions at Instant of DBA Revision 1 Pipe Break Figure HC 4.1.1-1 DBA Containment Pressure Response Revision 1 Figure HC 4.1.1-2 DBA Contairusent Temperature Response Revision 1 Table HC 4.1.2-1 Plant Conditions at Instant of IBA Revision 1 Pipe Break Figure HC 4.1.2-1 IBA Containment Pressure Response Revision 1 l | |||
( Figure HC 4.1.2-2 IBA Containment Temperature Response Revision 1 Tat 'e HC 4.1.3-1 Plant Conditions at Instant of SBA Revision 1 Pipe Break Figure HC 4.1.3-1 SBA Containment Pressure Response Revision 1 1 | |||
1 i | |||
Figure HC 4.1.3-2 SBA Containment Temperature Response Revision 1 2-2 Revision 1 n _. | |||
NEDO-24579-1 Table EC 4.1.1-1 U PLANT CONDITIONS AT INSTANT OF DBA PIPE BREAK 102% Licensed Power (MWt) 3359 Initial Suppression Pool Temperature (DF) 80.0 Downcomer Submergence (ft) 3.33 Airspace Volume (ft3) | |||
. Drywell 169,000 Wetvell 133,500 Airspace Pressure (psig) | |||
Dryvell 0.75 Wetwell 0.75 l | |||
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NEDO-24579-1 Table BC 4.1.2-1 (1 PLAltf CONDITIONS AT INSTANT OF IRA PIPE BREAK 3359 102% Licensed Power (MWt) | |||
Initial Suppression Pool Temperature (OF) 95 m | |||
Downconer Submergence (ft) 3 33 Airspace Volume (ft3) | |||
Drywell 169,000 Wetwell 133,500 | |||
. Airspace Pressure (psig) i i | |||
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NEDO-24579-1 Table EC 4.1.3-1 FLANT CONDITIONS AT INSTANT OF SBA FIPE BREAK 102% Licensed Power (MWt) 3359 Initial Suppression Pool Temperature (OF) 95 Downcomer Submergence (ft) 3.33 Airspace Volume (ft3) | |||
Drywell 169,000 Wetwell 133,500 - | |||
Airspace Pressure (psig) | |||
Drywell 0.75 Wetwell 0.75 | |||
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: 3. DBA VENT SYSTEM THRUST LOADS, ZERO AP | |||
,f-4- | |||
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i This section provides thrust loads for the main vents, vent header, and down-comers resulting from the postulated DBA for plant operation at' sero drywell-vetvell pressure differential. The list of applicable figures and tables for this section is given on the following page. | |||
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NEDO-24579-1 HOPE CREEK 1 | |||
. PLANT-UNIQUE DBA VENT SYSTEM TRRUST 14AD (ZgRO AP) | |||
TABLES AND FIGURES Applicable Fiaure or Table No. Title Revision No. | |||
Table HC 4.2-1 Nomenclature for DBA Vent System thrust Revision 1 Load Section Table HC 4.2-2 Plant Conditions at Instant of DBA FIPe Revision 1 Break for Thrust Load Calculations (Zero AP) l Figure HC 4.2-1 Definition of Positive Thrust Loads Revision 1 Figure HC 4.2-2 Single Main Vent Forces (0-5 see) Revision 1 (Zero AP) | |||
Figure HC 4.2-3 Vent Header Forces per Mitre Bend Revision 1 (0-5 see) (Zero AP) | |||
Figure HC 4.2-4 Single Downcaner Forces (0-5 see) Revision 1 (Zero AP) | |||
Figure HC 4.2-5 Total and Net vertical Forces (0-5 see) Revision 1 | |||
( (Zero AP) | |||
Figure HC 4.2-6 Fressure Time Histories (0-5 see) Revisfor. 1 | |||
: (Zero AP) | |||
Figure HC 4.2-7 Single Main Vent Forces (0-30 see) Revision 1 (Zero AP) | |||
Figure HC 4.2-8 Vent Header Forces per Mitre Bend Revision 1 (0-30 see) (Zero AP) | |||
Figure HC 4.2-9 Single Downcomer Forces (0-30 see) Revision 1 (Zero AP) | |||
Figure HC 4.2-10 Total and Net Vertical Forces (0-30 see) Revision 1 (Zero AP) | |||
Figure HC 4.2-11 Fressure Time Histories (0-30 see) Revision 1 (Zero AP) 3-2 Revision 1 | |||
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NE DO-24579-1 Table HC 4.2-1 h NOMENCLATURE FOR DBA VENT SYSTEM THRUST LOAD SECTION PDW Drywell pressure PWW Wetvell airspace pressure P1 Main vent pressure P2 Vent header pressure P3 Downcomer pressure F1V1 Vertical force on a single main vent end cap F1H1 Horizontal force on a single main vent end cap F1V2 Vertical force on a single main vent mitre bend | |||
, (applicable to Browns Ferry and Oyster Creek o.11y) | |||
, F1H2 Horizontal force on a single main vent mitre bend l (applicable to Browns Ferry and Oyster Creek only) | |||
F2V Vertical force on vent header (per mitre bend) | |||
I | |||
; F2H Horizontal force on vent header (per mitre bend) | |||
F3V Vertical force on a single downcomer mitre bend F3H Horizontal force on a single downcomer mitre bend F4V Vertical force on second mitre bend of a single downcomer i (if applicable) | |||
F4H Horizontal force on second mitre bend of a single downcomer (if applicable) | |||
F1V1T Total main vent end cap vertical force = F1V1 x number of main vents F1V2T Total main vent mitre bend vertical force = F1V2 x number of main vents F2VT Total vent header vertical force = F2V x number of vent header mitre bends F3VT Total vertical force (first downcomer mitre bend) = | |||
F3V x number of downcomers F4VT Total vertical force (second downcomer mitre bend) = | |||
L F4V x number of downcomers FNETV FNETV = F1VIT + FIV2T + F2VT + F3VT + F4VT | |||
( | |||
3-3 Revision 1 | |||
NEDO-24579-1 Table 4.2-1 (Continued) | |||
NOMENCLATURE FOR DBA VENT SYSTEM THRUST LOAD SECTION g Vent header flow area g Total main vent flow area A T tal downcomer flow area DC ny Number of main vents ny Number of downcomers n Number of vent header mitre bends 3 | |||
g Total mass flow rate Vy Fluid velocity in main vent V Fluid velocity in vent header 2 | |||
V Fluid velocity in downcomer 3 | |||
ey Angle of main vent with horizontal Oy Angle of first downcomer mitre bend with horizontal 6 Angle of second downcomer mitre bend with horizontal 3 | |||
a Angle of main vent mitre bend with horizontal 8 90' - (vent header mitre bend angle) i l | |||
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1 i 3-4 Revision 1 | |||
NEDO-24579-1 Table BC 4.2-2 PLANT CONDITIONS AT INSTANT OF DBA PIPE BREAK | |||
(._ | |||
POR THEUST IAAD CALCULATIONS (ZERO AP) | |||
Thermal Power (102% of licensed) (NWt) 3359 Initial Suppression Pool Temperature (OF) 80 Downconer Submergence (ft) 3.33 Airspace Volume (f t3) | |||
Drywell 169,000 Wetwell 133,500 j | |||
Airspace Pressure (psis) | |||
Dryvell 0.75 Wetvell 0.75 | |||
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1 1 F3v L F3H SECTION A A i | |||
F1V1 = VERTICAL FORCE ON MAIN VENT END CAP F1H1 = HOml20NTAL FORCE ON MAIN VENT END CAP | |||
; F2V = VERTICAL FORCE ON VENT HEADER IPER MITRE BENDI 6 F2H a HORIZONTAL FORCE ON VENT HEADER IPER MITRE SENDI F3V = VERTICAL FORCE ON DOWNCOMER MITRE SEND F3H = HORIZONTAL FORCE ON DOWNCOMER MITRE SEND FORCES AAE SHOWN IN THElm ASSUMED POSITIVE DIRECTION V | |||
Figure HC 4.2-1. Definition of Positive Thrust Loads 3-6 Revision 1 m | |||
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: 4. POOL SWELL TORUS VERTICAL LOADS 6.5 s. | |||
This section provides the net torus vertical load and shell pressure histories resulting from the drywell air purge to the wetwell during the postulated DBA. | |||
The list of applicable figures for this section is given on the following page. | |||
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NEDD-24579-1 HOPE CREEK 1 | |||
;;. POOL SWELL 70808 VERTICAL 14 ADS TABLES AND FIGURES AP plicable Flaure No. Title Revision No. | |||
Figure HC 4.3.1-1 Net Torus Vertical Load (Zero AP) Revision 1 Figure HC 4.3.2-1 Average Sabnerged Pressure (Zaro AP) Revision 1 Figure HC 4.3.2-2 Torus Air Pressure (Zero AP) Revision 1 | |||
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IEEDO-24579-1 | |||
: 5. POOL SWELL IMPACT AND DRAC LOADS This section provides the pool swell impact and drag pressures on the vent header as a function of position and time. Also included are the pool swell displacement and velocity distributions for evaluation of impact and drag loads on other structures located above the pool. The list of applicable figures and tables for this section is given on the following page. | |||
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NEDO-24579-1 HOPE CREEK 1 | |||
, FIJUIT-UNIQUE FOOL SWELL INFACT AND DRAC LOAD TABLIS AND FICURE?. | |||
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Applicable Flaure or Table No. Title Revision No. | |||
Figure HC 4.3.3-1 Location of Impset/ Drag Pressure Revision 1 Transients on Header Table HC 4.3.3-1 Vent Header Local Impact / Drag Revision 1 Fressure Transients (Zero AP) | |||
Figure HC 4.3.3-2 Longitudinal Vent Header Impact Revision 1 Velocity Distribution Based on EPRI Main Vent Orifice Test Figure HC 4.3.3-3 Longitudinal Time Delay Distribution Revision 1 Based on EPRI Main Vent Orifice Test | |||
( Figure HC 4.3.3-4 circumferential Time Delay Distribu- Revision 1 tion (Zero AF) | |||
Figure HC 4.3.4-1 Fool Swell Displacement Distribution Revision 1 (Zero AF) | |||
Figure HC 4.3.4-2 Foot Swell Velocity Distribution Revision 1 (Zero AF) k 5-2 Revision i 1 -- . | |||
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Figure HC 4.3.3-1. Location of impact / Drag Pressure Transients on Header I | |||
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(* Based en EPRI Main Vent Orifice feet 5-6 sevielen I s | |||
NEDO-24579-1 | |||
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!! ' DEFLECTOR: NONE I i - 1 I . . i t ' ! ' ' ' I i ' | |||
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$-7 Revision 1 | |||
NEDO-24579-1 SUeMERGENCE: 3.33 ft DEFLECTOR: NONE 7 | |||
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0 e eJ 0.4 9.e GA lA 12 M0ml20NTAL DitTANCE (R/MI Figure MC 4.3.4-1. Pool Swell Displacement Distribution (Zero AP) 5-8 Revision 1 A | |||
NEDO-24579-1 40 36 - | |||
SUOMERGENCE: 3.33tt DEF LE CTOR: NONE 30 Y | |||
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OA Os is 1.2 0 02 04 MORIZONT AL DitTANCE (Emi NCDO 8481H Pigure HC 4.3.4-2. Pool Swol Velocity Distribution (Zero AP) 5-9 Revision 1 | |||
NEDO-24579-1 INTERNAL DISTRIBUTION Name M/C C. W. Cullen (transmittal letter only) 602 F. P. Felini 680 C. S. Cupta (3) 126 . | |||
R. M. Hunt (transmittal letter only) 855 A. E. Rogers 145 F. F. Stancavage 879 | |||
: 3. Stevens (5 + microfiche) 879 M. E. Tanner 855 H. E. Townsend 584 F. Valandani 146 J. F. Zilinskas 843 Customer Service File 881 NEBC Library (5) 328 VNC Library (2) V01 TIE (5) SCH | |||
(- 742 TSS (2) | |||
EXTERNAL DISTRIBUTION Utillty CE AE Mr. H. Morris Mr. F. R. N. Landrieu, T 17A Mr. J. C. Larrow M/C 221-7-B-3 Public Service Electric & Cas M/C 391 Bechtel Power Corp. | |||
40 Park Plaza Project Manager F.O. Box 3965 Newark, NJ 07101 Hope Creek Project San Francisco, CA 94119 Mr. D. A. Cerber NUTECH 6835 Via Del oro San Jose, CA 95119 CC C. 'J. Churchman, T 21A M. Nash 1 Revisfon 1 | |||
.(. | |||
[J. . | |||
NUCLEAR ENERGY DIVISIONS e GENERAL ELECTRIC COMPANY SAN JOSE, CALIFORNIA 9615 GENER AL h ELECTRIC TECHNICAL INFORMATION EXCHANGE TITLE PACE AUTHOR Sus >ECT TIE NUMsER Nuclear Services Nuclear Science 82NED004 l Engineering and Technology Of,TEuary 1982 TITLE GE CLASS Mark 1 Containment Program I Plant-Unique Load Definition GovtRNMENT CLA&5 Hope Creek Generating Station: 1 REPRODUCIOLE COPY FILED AT TECHNICAL NUMsER OF PAGE3 surroRT SERVICES. Rauo, SAN JOSE, CALIFORNIA 961N(Mail Code 211) 48 | |||
==SUMMARY== | |||
This document provides unique definition of specific containment loading conditions that would result from a postulated loss-of-coolant accident in the Hope Creek Generating Station: Unit 1. Transient information is provided for containment pressures and temperatures. | |||
( | |||
f, vent system thrust, torus vertical loads, vent system pool swell impact loads, and vent header deflector loads. The doctc.ent has been prepared under the Mark 1 Containment Program to aid Public Service Elec-tric and Gas in the performance of a containment structural evaluation. | |||
i l | |||
Sy matting out mis rectangle and folding in half, the above information con be fited into a standard serd file. | |||
i i | |||
coCUMENT NUMGER NEDO-24579-1 mPoRMAT:0N PREPARE D FOR Nuclear Fuel & Services Division ECTioN Nuclear Services Engineering SUILDING ANO ROOM NUMSER 1887/1204 Malt Coot 889 Ne04:4 esme | |||
.--..--..----m- . --- . - - - .. - | |||
1 | |||
-[.- | |||
ATTACHMENT 2 MARK-I OWNERS' GROUP CMDOF VALIDATION PROGRAM s | |||
-REVIEW | |||
==SUMMARY== | |||
-LETTER (NUTECH LETTER RHB-85-002, FROM R. H. BUCHHOL2 TO D. B. VASSALLO (USNRC) | |||
DATED JANUARY 11, 1985) | |||
RSC db | |||
- MP85.27/07 1 | |||
,.}} |
Latest revision as of 18:06, 18 May 2020
ML20105A778 | |
Person / Time | |
---|---|
Site: | Hope Creek |
Issue date: | 01/31/1982 |
From: | Brandon R, Rogers A GENERAL ELECTRIC CO. |
To: | |
Shared Package | |
ML20105A766 | List: |
References | |
82NEDO04, 82NEDO4, NEDO-24579-1, NEDO-24579-1-R01, NEDO-24579-1-R1, NUDOCS 8502040507 | |
Download: ML20105A778 (51) | |
Text
_ -- _ . . _ _ - _ . . - . . . . __ . __ ..
, NEDO-24579-1 ,
.g 82NED004 1
~~
CLASSI l JANUARY 1982 4
[.. REVISION 1 l I
\
i
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i MARK I CONTAINMENT PROGRAM PLANT UNIQUE LOAD DEFINITION i HOPE CREEK GENERATING STATION:
l UNIT 1
(. !
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i i
[!A288FJ88sjjA GENER AL h ELECTRIC J
4 l
'P'.____:______._____________________.._ .. -
f NEDO-24579-1 (I 82NED004 Class 1 January 1982 Revision 1 3
MARK I CONTAINMENT PROGRAM PLANT-UNIQUE LOAD DEFINITION BOPE CREEK GENERATING STATION: UNIT 1 l
Approv'ed:'"5 /. '" Approved
- f rf _ _
A.E. Rogers,Ma[ nager R 4. Brandon, Manager Reactor Performance Analysis Nucicar Services Engineering Nuclear Fuel and Services Engineering Department NUCLEAR FUEL & SERVICES DIVISION
- GENERAL ELECTRIC COMPANY SAN JOSE. CALIFORNI A 95125 GENER AL $ ELECTRIC
NEDO-24579-1 LEGAL NOTICE C
s.
The only undertakings of General Electric Company respecting information in this document are contained in the contract between Public Service Electric and Gas and General Electric Company for Mark 1 Containment Consulting Serv-ices, and nothing contained in this document shall be construed as changing the contract. The use of this information by anyone other than Public Serv-
- p. ., , ice Electric and Gas Company, or for any purpose other than that for which it is intended, is not authorized; and with respect to any unauthorized use, f
1 General Electric Company makes no representation or warranty, and assumes no j, liability as to the completeness, accuracy, or usefulness of the information contained in this document.
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NEDO-24579-1 CONTENTS P,,agg ABSTRACT iv
- 1. INTRODUCTION 1-1
- 4. POOL SWELL TORUS VERTICAL LOADS 4-1
- 5. POOL SWELL IMPACT AND DRAC LOADS 5-1 k
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NEDO-24579-1 ABSTRACT This document provides unique definit .on of specific containment loading con-ditions that would result from a postulated loss-of-coolant accident in the Hope
! Creek Generating Station: Unit 1. Transient information is provided for con-tainment pressures and temperatures, vent system thrust, torus vertical loads, vent system pool swell impact loads, and vent header deflector loads. The docu-I ,
ment has been prepared under the Mark I Containment Program to aid Public Service Electric and Gas in the performance of a containment structural evaluation.
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- 1. INTRODUCTION This report provides specific transient loading information resulting from a postulated loss-of-coolant (LOCA) accident in the Hope Creek Cenerating Station Unit 1. This report, in conjunction with the Mark I Containment Load Defini-tion Report, was prepared for Public Service Electric and Gas to use in the structural evaluation of the Mark I Containment system.
The f ollowing specific LOCA-related transient information is included o Pressure and temperature time histories for the drywell and wetwell e Vent system thrust loads e Net vertical pool swell loads and average submerged pressures on the wetwell e Pool swell impact and drag loads on the vent system I.
e Vent header deflector loads Transient information is presented via a series of figures for each of the above areas. An alpha-numeric identification scheme was developed for the figures: the alpha designation denotes the plant of interest; the first three digits of the numeric designation denote the applicable discussion section in the Mark 1 Containment Program Lead Definition Report (NEDO-21888).
Transient conditions presented in this report are results of plant unique test-ing and/or analysis for specific plant conditions that have been provided or requested by the aforementioned utility. Changes to those specific plant con-ditions could result in changes to the transient information reported herein.
If, af ter further review of this document, the responsible utility considers
! that such changes would be appropriate, the document can be modified accordingly.
I 1
1 1-1 Revision 1 m
r NE DO-24579-1
This section provides the LOCA-induced pressure and temperature transients for the drywell and wetwell. The initial conditions for which the pressure and temperature responses were evaluated are also presented. Transient condi-tions are included for the design basis accident (DBA), intermediate break accident (IBA), and small break accident (SBA). The list of applicable figures and tables for this section is given on the following page.
Peak drywell pressure and temperature and the wetwell pressure and temperature at 30 seconds are identified on the DBA containment pressure and tempe'rature plots (Figures 4.1.1-1 and 4.1.1-2).
The peak containment pressures, the containment temperatures at the end of RPV blowdown, and the containment pressures and temperatures at the time of ADS initiation are identified on the IBA and SBA containment pressure and tem-perature plots (Figures 4.1.2-1, 4.1.2-2, 4.1.3-1, and 4.1.3-2).
(.
2-1 Revision 1
NEDO-24579-1 HOPE CREEK 1 PI. ANT-UNIQUE PRESSURE AND TEMPERATURE RESPONSE TABI.ES AND FICURES Applicable Figure or Table No. Title Revision No.
Table HC 4.1.1-1 Plant iditions at Instant of DBA Revision 1 Pipe Break Figure HC 4.1.1-1 DBA Containment Pressure Response Revision 1 Figure HC 4.1.1-2 DBA Contairusent Temperature Response Revision 1 Table HC 4.1.2-1 Plant Conditions at Instant of IBA Revision 1 Pipe Break Figure HC 4.1.2-1 IBA Containment Pressure Response Revision 1 l
( Figure HC 4.1.2-2 IBA Containment Temperature Response Revision 1 Tat 'e HC 4.1.3-1 Plant Conditions at Instant of SBA Revision 1 Pipe Break Figure HC 4.1.3-1 SBA Containment Pressure Response Revision 1 1
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Figure HC 4.1.3-2 SBA Containment Temperature Response Revision 1 2-2 Revision 1 n _.
NEDO-24579-1 Table EC 4.1.1-1 U PLANT CONDITIONS AT INSTANT OF DBA PIPE BREAK 102% Licensed Power (MWt) 3359 Initial Suppression Pool Temperature (DF) 80.0 Downcomer Submergence (ft) 3.33 Airspace Volume (ft3)
. Drywell 169,000 Wetvell 133,500 Airspace Pressure (psig)
Dryvell 0.75 Wetwell 0.75 l
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Initial Suppression Pool Temperature (OF) 95 m
Downconer Submergence (ft) 3 33 Airspace Volume (ft3)
Drywell 169,000 Wetwell 133,500
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NEDO-24579-1 Table EC 4.1.3-1 FLANT CONDITIONS AT INSTANT OF SBA FIPE BREAK 102% Licensed Power (MWt) 3359 Initial Suppression Pool Temperature (OF) 95 Downcomer Submergence (ft) 3.33 Airspace Volume (ft3)
Drywell 169,000 Wetwell 133,500 -
Airspace Pressure (psig)
Drywell 0.75 Wetwell 0.75
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i This section provides thrust loads for the main vents, vent header, and down-comers resulting from the postulated DBA for plant operation at' sero drywell-vetvell pressure differential. The list of applicable figures and tables for this section is given on the following page.
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NEDO-24579-1 HOPE CREEK 1
. PLANT-UNIQUE DBA VENT SYSTEM TRRUST 14AD (ZgRO AP)
TABLES AND FIGURES Applicable Fiaure or Table No. Title Revision No.
Table HC 4.2-1 Nomenclature for DBA Vent System thrust Revision 1 Load Section Table HC 4.2-2 Plant Conditions at Instant of DBA FIPe Revision 1 Break for Thrust Load Calculations (Zero AP) l Figure HC 4.2-1 Definition of Positive Thrust Loads Revision 1 Figure HC 4.2-2 Single Main Vent Forces (0-5 see) Revision 1 (Zero AP)
Figure HC 4.2-3 Vent Header Forces per Mitre Bend Revision 1 (0-5 see) (Zero AP)
Figure HC 4.2-4 Single Downcaner Forces (0-5 see) Revision 1 (Zero AP)
Figure HC 4.2-5 Total and Net vertical Forces (0-5 see) Revision 1
( (Zero AP)
Figure HC 4.2-6 Fressure Time Histories (0-5 see) Revisfor. 1
- (Zero AP)
Figure HC 4.2-7 Single Main Vent Forces (0-30 see) Revision 1 (Zero AP)
Figure HC 4.2-8 Vent Header Forces per Mitre Bend Revision 1 (0-30 see) (Zero AP)
Figure HC 4.2-9 Single Downcomer Forces (0-30 see) Revision 1 (Zero AP)
Figure HC 4.2-10 Total and Net Vertical Forces (0-30 see) Revision 1 (Zero AP)
Figure HC 4.2-11 Fressure Time Histories (0-30 see) Revision 1 (Zero AP) 3-2 Revision 1
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NE DO-24579-1 Table HC 4.2-1 h NOMENCLATURE FOR DBA VENT SYSTEM THRUST LOAD SECTION PDW Drywell pressure PWW Wetvell airspace pressure P1 Main vent pressure P2 Vent header pressure P3 Downcomer pressure F1V1 Vertical force on a single main vent end cap F1H1 Horizontal force on a single main vent end cap F1V2 Vertical force on a single main vent mitre bend
, (applicable to Browns Ferry and Oyster Creek o.11y)
, F1H2 Horizontal force on a single main vent mitre bend l (applicable to Browns Ferry and Oyster Creek only)
F2V Vertical force on vent header (per mitre bend)
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- F2H Horizontal force on vent header (per mitre bend)
F3V Vertical force on a single downcomer mitre bend F3H Horizontal force on a single downcomer mitre bend F4V Vertical force on second mitre bend of a single downcomer i (if applicable)
F4H Horizontal force on second mitre bend of a single downcomer (if applicable)
F1V1T Total main vent end cap vertical force = F1V1 x number of main vents F1V2T Total main vent mitre bend vertical force = F1V2 x number of main vents F2VT Total vent header vertical force = F2V x number of vent header mitre bends F3VT Total vertical force (first downcomer mitre bend) =
F3V x number of downcomers F4VT Total vertical force (second downcomer mitre bend) =
L F4V x number of downcomers FNETV FNETV = F1VIT + FIV2T + F2VT + F3VT + F4VT
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3-3 Revision 1
NEDO-24579-1 Table 4.2-1 (Continued)
NOMENCLATURE FOR DBA VENT SYSTEM THRUST LOAD SECTION g Vent header flow area g Total main vent flow area A T tal downcomer flow area DC ny Number of main vents ny Number of downcomers n Number of vent header mitre bends 3
g Total mass flow rate Vy Fluid velocity in main vent V Fluid velocity in vent header 2
V Fluid velocity in downcomer 3
ey Angle of main vent with horizontal Oy Angle of first downcomer mitre bend with horizontal 6 Angle of second downcomer mitre bend with horizontal 3
a Angle of main vent mitre bend with horizontal 8 90' - (vent header mitre bend angle) i l
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NEDO-24579-1 Table BC 4.2-2 PLANT CONDITIONS AT INSTANT OF DBA PIPE BREAK
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POR THEUST IAAD CALCULATIONS (ZERO AP)
Thermal Power (102% of licensed) (NWt) 3359 Initial Suppression Pool Temperature (OF) 80 Downconer Submergence (ft) 3.33 Airspace Volume (f t3)
Drywell 169,000 Wetwell 133,500 j
Airspace Pressure (psis)
Dryvell 0.75 Wetvell 0.75
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- F2V = VERTICAL FORCE ON VENT HEADER IPER MITRE BENDI 6 F2H a HORIZONTAL FORCE ON VENT HEADER IPER MITRE SENDI F3V = VERTICAL FORCE ON DOWNCOMER MITRE SEND F3H = HORIZONTAL FORCE ON DOWNCOMER MITRE SEND FORCES AAE SHOWN IN THElm ASSUMED POSITIVE DIRECTION V
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- 4. POOL SWELL TORUS VERTICAL LOADS 6.5 s.
This section provides the net torus vertical load and shell pressure histories resulting from the drywell air purge to the wetwell during the postulated DBA.
The list of applicable figures for this section is given on the following page.
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NEDD-24579-1 HOPE CREEK 1
Figure HC 4.3.1-1 Net Torus Vertical Load (Zero AP) Revision 1 Figure HC 4.3.2-1 Average Sabnerged Pressure (Zaro AP) Revision 1 Figure HC 4.3.2-2 Torus Air Pressure (Zero AP) Revision 1
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- 5. POOL SWELL IMPACT AND DRAC LOADS This section provides the pool swell impact and drag pressures on the vent header as a function of position and time. Also included are the pool swell displacement and velocity distributions for evaluation of impact and drag loads on other structures located above the pool. The list of applicable figures and tables for this section is given on the following page.
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NEDO-24579-1 HOPE CREEK 1
, FIJUIT-UNIQUE FOOL SWELL INFACT AND DRAC LOAD TABLIS AND FICURE?.
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Applicable Flaure or Table No. Title Revision No.
Figure HC 4.3.3-1 Location of Impset/ Drag Pressure Revision 1 Transients on Header Table HC 4.3.3-1 Vent Header Local Impact / Drag Revision 1 Fressure Transients (Zero AP)
Figure HC 4.3.3-2 Longitudinal Vent Header Impact Revision 1 Velocity Distribution Based on EPRI Main Vent Orifice Test Figure HC 4.3.3-3 Longitudinal Time Delay Distribution Revision 1 Based on EPRI Main Vent Orifice Test
( Figure HC 4.3.3-4 circumferential Time Delay Distribu- Revision 1 tion (Zero AF)
Figure HC 4.3.4-1 Fool Swell Displacement Distribution Revision 1 (Zero AF)
Figure HC 4.3.4-2 Foot Swell Velocity Distribution Revision 1 (Zero AF) k 5-2 Revision i 1 -- .
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IEEDO-24579-1 14 -
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NEDO-24579-1 SUeMERGENCE: 3.33 ft DEFLECTOR: NONE 7
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0 e eJ 0.4 9.e GA lA 12 M0ml20NTAL DitTANCE (R/MI Figure MC 4.3.4-1. Pool Swell Displacement Distribution (Zero AP) 5-8 Revision 1 A
NEDO-24579-1 40 36 -
SUOMERGENCE: 3.33tt DEF LE CTOR: NONE 30 Y
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NEDO-24579-1 INTERNAL DISTRIBUTION Name M/C C. W. Cullen (transmittal letter only) 602 F. P. Felini 680 C. S. Cupta (3) 126 .
R. M. Hunt (transmittal letter only) 855 A. E. Rogers 145 F. F. Stancavage 879
- 3. Stevens (5 + microfiche) 879 M. E. Tanner 855 H. E. Townsend 584 F. Valandani 146 J. F. Zilinskas 843 Customer Service File 881 NEBC Library (5) 328 VNC Library (2) V01 TIE (5) SCH
(- 742 TSS (2)
EXTERNAL DISTRIBUTION Utillty CE AE Mr. H. Morris Mr. F. R. N. Landrieu, T 17A Mr. J. C. Larrow M/C 221-7-B-3 Public Service Electric & Cas M/C 391 Bechtel Power Corp.
40 Park Plaza Project Manager F.O. Box 3965 Newark, NJ 07101 Hope Creek Project San Francisco, CA 94119 Mr. D. A. Cerber NUTECH 6835 Via Del oro San Jose, CA 95119 CC C. 'J. Churchman, T 21A M. Nash 1 Revisfon 1
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NUCLEAR ENERGY DIVISIONS e GENERAL ELECTRIC COMPANY SAN JOSE, CALIFORNIA 9615 GENER AL h ELECTRIC TECHNICAL INFORMATION EXCHANGE TITLE PACE AUTHOR Sus >ECT TIE NUMsER Nuclear Services Nuclear Science 82NED004 l Engineering and Technology Of,TEuary 1982 TITLE GE CLASS Mark 1 Containment Program I Plant-Unique Load Definition GovtRNMENT CLA&5 Hope Creek Generating Station: 1 REPRODUCIOLE COPY FILED AT TECHNICAL NUMsER OF PAGE3 surroRT SERVICES. Rauo, SAN JOSE, CALIFORNIA 961N(Mail Code 211) 48
SUMMARY
This document provides unique definition of specific containment loading conditions that would result from a postulated loss-of-coolant accident in the Hope Creek Generating Station: Unit 1. Transient information is provided for containment pressures and temperatures.
(
f, vent system thrust, torus vertical loads, vent system pool swell impact loads, and vent header deflector loads. The doctc.ent has been prepared under the Mark 1 Containment Program to aid Public Service Elec-tric and Gas in the performance of a containment structural evaluation.
i l
Sy matting out mis rectangle and folding in half, the above information con be fited into a standard serd file.
i i
coCUMENT NUMGER NEDO-24579-1 mPoRMAT:0N PREPARE D FOR Nuclear Fuel & Services Division ECTioN Nuclear Services Engineering SUILDING ANO ROOM NUMSER 1887/1204 Malt Coot 889 Ne04:4 esme
.--..--..----m- . --- . - - - .. -
1
-[.-
ATTACHMENT 2 MARK-I OWNERS' GROUP CMDOF VALIDATION PROGRAM s
-REVIEW
SUMMARY
-LETTER (NUTECH LETTER RHB-85-002, FROM R. H. BUCHHOL2 TO D. B. VASSALLO (USNRC)
DATED JANUARY 11, 1985)
RSC db
- MP85.27/07 1
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