ML20052H001
| ML20052H001 | |
| Person / Time | |
|---|---|
| Site: | Fermi  |
| Issue date: | 06/30/1981 |
| From: | GENERAL ELECTRIC CO. |
| To: | |
| Shared Package | |
| ML20052G999 | List: |
| References | |
| 81NED049, 81NED49, NEDO-24568, NEDO-24568-R01, NEDO-24568-R1, NUDOCS 8205190230 | |
| Download: ML20052H001 (78) | |
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i WARK 1 CONTAINMENT PROGRAM PLANT s UNIQUE LOAD <
l' DEFINITION l
ENRICO FERMI ATOMIC POWER l PLANT: UNIT 2 l l
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l, Class 1 June 1981
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f- MARK 1 CONTAINMENT PROGRAM l
FLANT UNIQUE LOAD DEFINITION O
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ENRICO FERMI ATOMIC F0WER FIANT: UNIT 2 f.
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This document prepared by personnel of 7 Nuclear Services Engineering 3
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Approved:kW b Approved: Sc=
A . E'.1 Rogers,I Manager _
Reactor Performance Analysis k[J.Brandon, Manager l (Foclear Services Engineering s
m IsuCLEAR PUEL ANO SERVICES DIVISION
- OENEM AL ELECTMIC COMPANY SAN JOGE, CALIPORNIA 96126 SENERAL $ ELECTRIC
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. BEDo-24568 .
k LEIAI. EDTICE The only undertakings of General Electric Company respecting information in this document are contained in the contract between Detroit Edison Company and General Electric Company for Mark I containment Consulting Services, and nothing i contained in this document shall be construed as changing the contract. The use of this information by anyone other than !
Detroit Edison Company, or for any purpose other than that -
I for which it is intended, is not authorized; and with respect to any unauthorized use, General Electric Company makes no representation or warranty, and assumes no liability as to the completeness, accuracy, or usefulness of the information contained in this document.
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COMENTS Zut AssTnACT INTRODUCTION 1
LOCA PRESSQRE AND TEMPERATURE TRAltSIElfrS 3 DBA VENT SYSTEM TatOST LOADS, EERO AP AND OPERATINC AP 15 POOL SWELL TORUS VERTICAL IAADS 44 l
POOL SWELL IMPACT AND DRAC I4 ADS 53 VENT HEADER DEFLECTOR LOADS 62 DISTRIBUTION 70 i
I lii tevision 1
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. TAB W
( Table ' Title Page EF 4.1.1-1 Plant Conditions at Imatant of DBA Fipe Break 6 EF 4.1.2-1 Plant Conditions at Instant of IRA Fipe Break 9 EF 4.1.3-1 Plant conditions at Instant of SEA Fipe Break 12 EF 4.2-1 Bonenclature for DBA Vent System Thrust Load Section 18 l EF h.2-2 Flant Conditions at Instant of DBA Fipe Break for 20 Thrust Load Calculations (Eero AF)
EF 4.2-3 Plant Conditions at Instant of DBA Pipe Break for 33 Thrust Load Calculations (Operating 6P) j EF 4.3.9-1 Vent Header Deflector Load 66 i
4 iv
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ILLDSTRATIONS Figure fitle Zage ;
EF 4.1.1-1 DBA Contalumnent Pressure Response 7 i
EF 4.1.1-2 DBA Containment. Temperature Response 8 EF 4.1.2-1 IBA Containment Pressure Response 10 EF 4.1.2-2 IBA Containment Temperature Response 11 EF 4.1.3-1 SBA Containment Pressure Response 13 EF 4.1.3-2 SBA Containment Temperature Response 14 EF 4.2-1 Definition of Positive Thrust Loads 21 EF 4.2-2 Single hin Vent Forces (Zero AP) 23 EF 4.2-3 Vent Header Forces per Mitre Bend (Zero AP) 24 EF 4.2-4 Single Downconer Forces (Zero AP) 25 EF 4.2-5 Total and Net Vertical Forces (Zero AP) 26 EF 4.2-6 Single h in Vent Forces (Zero AP) t 27
'- EF 4.2-7 Vent Header Forces per Mitre Bend (Zero AP) 28 EF 4.2-8 Single Downcomer Forces (Zero AP) 29 EF 4.2-9 Total and Met Vertical Forces (Zero AP) 30 IF 4.2-10 Pressure Time H? stories (Zero AP) 31 EF 4.2-11 Pressure Time Histories (Zero AP) 32 EF 4.2-12 Single h in Vent Forces (Operating AP) 34 EF 4.2-13 Vent Baader Forces per Mitre Bend (Operating AP) 35 EF 4.2-14 Single Downconer Forces (Operating AP) 36 EF 4.2-15 Total and Net vertical Forces (Operating AP) 37 EF 4.2-16 Single h in Vent Forces (Operating AP) 38 EF 4.2-17 Vent Reader Forces per Mitre Bend (Operating AP) 39 EF 4.2-18 ginale Downcomer Forces (Operating AP) 40 EF 4.2-19 Total and Det Vertical Forces (Operating AP) 41
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ILLUSTRATIONS (Continued)
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l EF 4.2-20 Pressure Time Histories (Operating AP) 42 EF 4.2-21 Pressure Time Histories (Operating AP) 43 !
ET 4. 3.1-1 Net Torus Vertical Load (Operating AP) 47 EF 4.3.1-2 Net Torua Vertical Load (Zero AP) 48 l l
EF 4.3.2-1 Average Submerged Pressure (Operating AP) 49 EF 4.3.2-2 Average Submerged Pressure (Zero AP) 50 ,
i EF 4.3.2-3 Torus Air Pressure (Operating AP) 51 l EF 4.3.2-4 Torus Air Pressure (Zero AP) 52 1
EF 4. 3. 3-) Fool Swell Displacement Distributir,n (Zero AP) 56 l i
EF 4.3.3-2 Pool Svell Displacement Distribution (Operating AP) 57
, EF 4.3.3-3 Pool Swell Velocity Distribution (Zero AP) 58 EF 4.3.3-4 Pool Swell Velocity Distribution (Operating AP) 59 EF 4.3.4-1 Longitudinal Vent Header Impact Velocity 60 Distribution Based on EPRI Main Vent Orifice Test EF 4.3.4-2 Longitudinal Time Delay Distribution Based on EPRI 61 Main Vent Orifice Test ,
EF 4.3.9-1 Vent Header Load (Zero AP) 65 l
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EEDo-24568 MSTRAcT
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This dooweent pwviden antique definition of specifio containment ;
loading conditions that uould result from a postulated loss-of- l coolant accident in the Enrico Fami Atomic P6ver Plant: thtit \
Aosher 2 Transient information is provided for contaimment l l
pressures and torpentures, vent syste thrust, torus vertical loads, vent synte pool suelt impact loads and vent header deflector loads. The doesnent has been prepared under the )
Mark I Contaiment Program to aid Detroit Edison Company in the perfomance of a contaiment structural evaluation.
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'.INTF.3 DUCTION This report provides specific transient loading inforsetion resulting from a postulatsd loss-of-coolant accident (LOCA) in the Enrico Fermi Atomic Power Finnt: Unit Number 2. This report, in conjunction with the Mark I Containment Load Definition Report, was prepared for the Detroit Edison Company to use in the structural evaluation of tha Mark I Containment system. -
The fo11ovir4 specific LOCA-related transient information is included:
o Pressure and temperature time histories for the dryvell and wetwell e Vent system thrust loads e Net vertical pool swell loads sad average subserged pressures on the votutil
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- Pool twell impact and drag loads on the vent system o Vent header deflector loads.
Transient information is presented via a series of figures for each of the above areas. An alpha-numeric identification sche.me was developed for the figures such that thn alpha designation denotes the plant of interest, while the first three digits of the numeric designation denote the appli-cable discussion section in the Mark I Containment Program Load Definition Report (NEDO-21888).
Transient conditions presented in this report are results of plant unique testing and/or analysis for specific plant conditions that have been pro-vided or requested by the aforementicned utility. Changes to those specific I i
Revision 2
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EEDo-24568 I
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plant canditions could result in changes to the transient information reported herein.
If, af ter further review of this doctament, the responsible utility considers that such changes would be appropriate, the doctament can be modified accordingly.
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LOCA Pressure and Temperature Transients t
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IDCA Fressure and Temperature Transients This section provides the LOCA-induced pressure and temperature transients 1 for the drywell and wetwell. The initial conditions for which the l pressure and temperature responses were evaluated are also presented.
Transient conditions are included for the design basia accident (DRA),
intermediate break accident (IRA), and esall break accident (SBA). Tne list ,
of applicable figures and tables for this section is given on the following page.
The peak dryvell pressure and temperature and the wetvoll pressure and temperature at 30 seconds are identified on the DEA containment pressure and temperature plots (Figure 4.1.1-1 and 4.1.1-2).
The peak containment pressures, the containment temperatures at the cnd of RPV f blevdown, and the containment pressures and temperatures at the time of ADS initiation are identified on the 1BA and SBA containment pressurs and temperature plots (Figures 4.1.2-1, 4.1.2-2, 4.1.3-1 and 4.1.3-2).
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PLANT UNIOCE PRESSURE / TEMPERATURE RESPONSE FICURES AND TABLE Applicable Timure/ Table Number Ji,tJ1e it Revision No.
Table IT 4.1.1-1 Plant Conditions at Instant of DBA Revision 2 Pipe Break Tigure IT 4.1.1-1 DBA Contairunent Pressure Response Tigure ET 4.1.1-2 DBA Containment Temperature Response Table ET 4.1.2-1 Plant Conditions at Instant of IBA Pipe Break Tigure ET 4.1.2-1 IBA Containment Pressure Response Tigure ET 4.1.2-2 IRA Containment Temperature Response Table ET 4.1.3-1
- Plant Conditions at Instant of SBA Pipe Break Tigure ET 4.1.3-1 SBA Containment Pressure Response Figure ET 4.1.3-2 SBA Containment Temperature Response f
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( PLANT CONDITIONS.AT INSTANT OF DBA PIPE BREAK 102% Licensed Power (W t) 3358 Initial Suppression Pool Temperature fF) 70.0
- Downcomer submergence (ft) 3.33 Airspace Volume (ft )
Dryvell 163,730 verwell 130,900 Airspace Pressure (psig) )
Drywell 0.75 l Wetwell 0.575 l l
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( Table'EF 4.1.2-1 PLANT CONDITIONS AT IIISTANT OF IRA PIPE BREAK 102% Licensed Power (MWt) 3358 Initial Suppression Pool Temperature ( F) 95 Downconer Submergence (ft) 3.33 Airsnace Volume (ft )
Drywell 163,730 vetwell 130,900 Airspace Pressure (psig)
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EIDO-24568 Table IF 4.1.3-1
( FLANTCONDITIONSATkitSTANTOFSBAFIPEBREAK 102% 1.icensed Power OfWt) 3358 Initial Suppression Pool Temperature ( F) 95 Downconer Submergence (f t) 3.33 Airspace Voltme (f t )
Dryvell 163,730 Wetvell 130,900 Airspace Pressure (psig)
Drywell 0.75 Wetvell 0.575
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M DO-24568 DBA vent Svstem Thrust Loads - Operating and Zero AP This section provides thrust loads for the main vents, vent header, and downconers resulting from the postulated DBA for plant operation at a sositive and zero dryvell-wetvell pressure differential. The list of spolicable figures and tables for this section is given on the following page.
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( ENTICQ FERMI 2 p*, AC L31QUE DBA VD*T SYSTEM THRUST LOAD FIGURES AND TABLES - OPERATING AP Applicable f: rare' Table Number Title Revision No.
st;e IT 4.2-1 Nomenclature for DBA Vent System Revision 2 Thrust Load Section
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- :e IT 4.2-2 Plant Conditions at Instant of DBA Pipe Break'for Thrust Load Calculations f:gare IF 4.2-1 Definition of Positive Thrust Loads f:g.re IF 4.2-2 Single Main Vent Forces (0-5 secs)
I f ag.re ET 4.2-3 Vent Header Forces per Mitre Bend (0-5 secs)
Its. e IT 4.2-4 Single Downcomer Forces (0-5 secs) f es.re ET 4.2-5 Total Vertical Forces, Net Vertical Force (0-5 secs)
';t.re ET 4.2-6 Single Main Vent Forces (0-30 secs)
I;t.re IT 4.2-7 Vent Header Forces per Mitre Bend (0-30 secs) fas.re IT 4.2-8 Single Downcomer Forces (0-30 secs)
F.g.te IT 4.2-9 Total Vertical Forces, Net Vertical Force (0-30 secs) i4.re II 4.2-10 Pressure Time Histories (0-5 secs)
I 4 ' ET 4.2-11 Pressure Time Histories (0-30 secs) P l
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IFED0-24568
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Table EF 4.2-1 NOMENC1.ATURE FOR DBA VENT SYSTEM TRRUST I,OAD SECTION ry: Drywell pressure pw Wetwell airspace pressure !
F1 Main vent pressure F2 Vent header pressure r3 Downconer pressure I TIV1 Vertical force on a single main vent and cap T1H1 Horizontal force on a single uin vent end cap TIV2 Vertical force on a single main vent mitre bend (applicable to Browns Ferry and Oyster Creek only)
T1H2 Horizontal force on a single main vent mitre bend (applicable j to Browns Ferry and Oyster Creek only)
T2V Vertical force on vent header (per nitre bend)
F2H Horizontal force on vent header (per nitre bend)
T3V Vertical force on a single downconer mitre bend I
T3H Horizontal force on a single downconer nitre bend T4V Vertical force on second nitre bend of a single downconer (if applicable) :
T4H Horizontal force on second nitre bend of a single downconer (if applicable)
FlvlT Total main vent end cap vertical force - FlV1 x number of main vents T1V2T Total main vent mitre bend vertical force = FlV2 x number of main vents l F2VT Total vent header vertical force = F2V x number of vent header mitre bends T3VI Total vertical force (first downconer nitre bend) = F3V x number of downcomers T4VI Total vertical force (second downcomer nitre band) = F4V x number of downconers TNETV FNETV = FlV1T + FlV2T + F2VT + F3VT + F4VT A
VE Vent header flow area A
pp Total main vent flow area i
18 Revision 2 l
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MDo-24568 g
Table ET 4.h1 (Continued)
WOMDiCLATURI FOR DEA VENT SYSTEM TBtDST LOAD SECTION g Total dnwneoser flow area a
3 Number of main vents my Number of downconers a) Number of vent header nitra bends g Total mass flow rate v
3 Fluid velocity in mair. vent i Fluid velocity in vent header t) Fluid velocity in downconer
- - Angle of main vent with horisontal e, Angle of first downconer nitre bend with horizontal
!) Angle of second downconer nitre bend with horizontal e
Angle of main vent mitre bend with horizontal
! 90' - (vent header nitre bend angle) 1 a
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EEDO-24568
( Table ET 4.2-2 FLANT CONDITIONS AT INSTANT OF DBA PIPE BREAK POR THRUST LOAD CALCU1ATIONS - ZERO AP Thermal Power (102% of licensed) (NWt) 3358 Initial Suppression Pool Temperature ('T) 70
- Downconer Submergence (ft) 3.33 Airspace Volume (ft )
Dryvell 163,730 Wetvell 130,900 '
Airspace Pressure (psig)
Operaeing (AP) DW-Uw Dryvell 0.78 Wetvell 0.78 t
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F1H1 = MOMlZONT AL FORCE ON MAIN VENT END CAP F2V = VERTICAL PORCE ON VENT HEADER (PER MITRE SEND)
F2H = HOMl2ONTAL PORCE ON VENT HEADER LPER MITRE SENDI F3V = VERTICAL PORCE ON DOWNCOMER MITRE SEND F3M = MORIZONTAL PORCE ON DOWNCOMER MfTRE SEND FORCES ARE SHOWN IN THEIR ASSUMED POSITIVE DIRECTION Figure EF 4.2-1. Definition of Positive Thrust Loads
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, EEDO-24568 YENT SYSTEM TERUST IDADS 'FJCURES AND TABLES - ZERO AP i.
Applicable Tigure/ Table Number Title Revision No.
Table EF 4.2-2 Flant Conditions at Instant of DBA Revision 2 Fipe Break for Thrust Load Calculations Tigure EF 4.2- 2 Single Main vent Forces (0-5 see)
Tigure EF 4.2- 3 Vent Reader Forces per Mitre Bend (0-5 see)
Tigure EF 4.2- 4 Single Downconer Forces (0-5 see)
Tigure EF 4.2- 5 Total Vertical Forces, Net Vertical Force (0-5 see)
Tigure EF 4.2- 6 Single Main Vent Forces (0-30 see)
Tigure EF 4.2- 7 Vent Header Forces per Mitre Bend (0-30 see)
Tigure EF 4.2- 8 Single Downconer Forces (0-30 see)
( Tigure EF 4.2- 9 Total. Vertical Forces, Net Vertical Force (0-30 see)
Tigure EF 4.2- 10 Pressure Time Histories (0-5 see)
Tigure IF 4.2-11 Fressure Time Histories (0-30 see)
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Initial Suppression Fool Temperature (*F) 70 Downconer Submergence (ft) 3.33 3
Airspace Volume (f c )
l f Dryvell 163,730 Wetvell 130,900
- Airspace Pressure (psig)
Dryvell 0.75 I t Wetvell 0.575
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- This section provides the pool swell displacement and velocity distri-butions for evaluation of impact and drag loads on structures located above the pool. For the conditions specified and noted herein, the pool swell event does not produce impact or drag loading on the vent header. The list of applicable figures for this section is given on
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Tigure No. Title Revision No.
I Figure 4.3.3-1 Pool Swell Displacement Distribution Revision 2 I (Zero AP)
! Figure 4.3.3-2 Fool Swell Displacement Distribution
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Figure 4.3.3-4 Pool Swell Velocity Distribution (Operating AP) l
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Distribution Based on EPRI Main Vwnt Orifice Test -
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This section provides the vent header deflector loads from the pool swell resulting from the drywell air purge to the wetvell during the postulated DBA.
i The loads presented are full scale running load as a function of time from LOCA break, for three values of Z/L (distance along the deflector). 2/L = 0 corresponds to the middle of the vent bay and Z/L = 1.0 corresponds to the middle of the non-vent bay. ,
i These loads were derived from the method discussed in the Mark I Containment Frogram Vent Header Deflector Load Definition (NEDO-24612). j l
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Revision 2
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MDO-24568 EERICO FE M I PLAlff UNIQUE POOL WELL M MADER DEPLECTGi LOADS Figun / Table Applicable E88'r Title Revision No.
Figure EF 4.3 9-1 Vent Bender Derlector Load movision 1 T4ble EF 4.3.9-1 Vent Esader Deflector Load Revision 1 1
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64 Revision 2
l I-a 2 00-24568 i
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DEFLECTOR FULL SCALI LDADS FERset2, TYPE 3 DEFLACTOR an00 -
egoo -
A z/L - o 2.ma omsETER MPE w TH Te CLEARANCE TO WATER SURF ACE 7A3 in.
O u - oA DOWNCOWER SUeWERGENCE 3R H AP: O psi
$ Z/L - 1.0 4000 -
g 3300 -
8 f
a 3eco -
seco -
v e9
- A. I 1 l l A .
300 430 eso 800 S40 880 S20 TMs(busec) i
, i Figure IF 4.3.9-1. Vent Reader Load (Zero AP) l I
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_._m-,,_ ,, . . _ _ _ _ --,--,------r-----w-
%#r i
, Table EF 4.3.9-1
( TENT EEADER RFLECTOR LOAD
- DEF12CTot FULL SCALE IAADS****
Fermi 2, Type 3 Deflector Z/L=1.0 Z/L=0.5 E/L=0.0 l
Time Load Time Load Time Load j (seec) (Ib/ft) (usec) (1b/ft) (seee) (Ib/ft) j 380.89 .00 380.89 .00 380.89 .00 ,
382.87 .00 382.87 .00 382.87 .00 '
384.86 .00 364.86 .00 384.86 .00 386.84 .00 386.84 .00 386.84 .00 388.83 .00 388.83 .00 388.83 .00 390.81 .00 390.81 .00 390.81 .00 392.79 .00 392.79 .00 392.79 .00 394.78 .00 394.78 .00 394.78 .00 396.76 .00 396.76 .00 396.76 .00 398.74 .00 398.74 .00 398.74 .00 400.73 .00 400.73 .00 400.73 .00 402.71 .00 402.71 .00 402.71 .00 404.70 .00 404.70 .00 404.70 .00 I 406.68 .00 406.68 .00 406.68 .00 f 408.66 -
1261.05 408.66 .00 408.66 .00 410.65 1122.33 410.65 .00 410.65 .00 412.63 951.00 412.63 .00 412.63 .00 ;
414.62 751.16 414.62 1172.77 414.62 .00 l 416.60 615.05 416.60 1053.58 416.60 .00 ;
418.58 674.44 418.58 909.58 418.58 .00 l 420.57 739.39 420.57 735.07 420.57 .00 422.55 811.22 422.55 571.19 422.55 .00 424.53 888.91 424.53 620.62 424.53 .00 426.52 896.69 426.52 671.97 426.52 .00 428.50 1012.00 428.50 728.09 428.50 1006.34 ,
430.49 1135.91 430.49 789.77 430.49 905.65 432.47 1279.00 432.47 865.07 432.47 790.21 434.45 1436.56 434.45 894.76 434.45 654.78 436.44 1600.71 436.44 1008.12 436.44 495.53 i
438.42 1775.79 438.42 1129.52 438.42 509.99 440.40 1960.38 440.40 1262.11 440.40 550.98 i 442.35 2044.28 442.39 1398.44 442.39 592.20 !
444.37 2232.57 444.37 1537.72 444.37 636.98 L 446.36 1425.61 446.36 1681.50 446.36 683.98 448.34 2625.95 448.34 1831.57 448.34 678.66 l 450.32 2840.45 450.32 1956.66 450.32 753.68 i 452.31 3069.76 452.31 2127.55 452.31 835.17 :
454.29 3169.51 454.29 2172.83 454.29 922.05 t 456.28 3394.30 456.28 2338.04 456.28 1012.93 e 456.26 3619.44 458.26 2505.21 458.26 1108.01
( 460.24 3641.13 460.24 2672.29 460.24 1200.38 462.23 3487.18 462.23 2839.12 462.23 1294.70 66 Revision 2 i
_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ __1_____ _ _ _ _ _
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6f l . REDO-24568 l
l Table EF 4.3.9-1 VEFf EADER DEF1ICTOR LOAD (Continued)
( **** DEFLECTOR FULL SCALE LO4DS****
Fermi 2, Type 3 Deflector Z/L=1.0 Z/L=0.5 Z/L=0.0 Time Load Time Load Time Load (usec) (Ib/ft) (meec) (1b/ft) (usec) (Ib/ft) 464.21 3300.61 464.21 3005.27 464.21 1389.82 466.19 3082.68 466.19 3169.55 466.19 1395.04 468.18 2840.85 468.18 3186.34 468.18 1483.21 470.16 2593.34 470.16 3047.60 470,16 1576.73 -
472.15 2340.02 472.15 2900.13 472.15 1675.66 ,
474.13 2062.27 474.13 2732.86 474.13 1775.82 476.11 1757.78 476.11 2542.31 476.11 1875.02 :
478.10 1610.17 478.10 2331.82 478.10 1973.97 480.08 1611.02 480.08 2103.82 480.08 2071.83 482.06 1594.48 482.06 1850.44 482.06 2166.30 484.05 1585.19 484.05 1589.74 484.05 2261.39 !
486.03 1595.18 486.03 1333.23 486.03 2361.26 i 488.02 1603.78 488.02 1312.74 488.02 2307.45 490.00 1598.48 490.00 1309.72 490.00 2196.56 491.98 1589.90 491.98 1304.87 491.98 2076.73 I
, 493.97 1608.40 493.97 1319.34 493.97 1956.17 .
495.95 1611.56 495.95 1322.76 495.95 1824.83 '
497.94 1589.45 497.94 1306.43 497.94 1676.43 499.92 1561.66 499.92 1284.88 499.92 1517.49 501.90 1568.21 501.90 1256.03 501.90 1347.85 503.89 1563.17 503.89 1226.45 503.89 1166.11 505.87 1573.16 505.87 1239.41 505.87 985.94 507.85 1574.07 507.85 1245.76 507.85 798.88 509.84 1553.93 509.64 1237.02 509.84 706.30 511.82 1558.21 511.82 1244.75 511.82 717.56 513.81 1563.74 513.81 1253.09 513.81 728.59 515.79 1557.60 515.79 1252.90 515.79 '735.84 517.77 1559.13 517.77 1257.86 517.77 744.63 519.76 1571.85 519.76 1270.63 519.76 756.31 521.74 1557.17 521.74 1263.55 521.74 759.41 523.72 1544.74 523.72 1257.77 523.72 762.52 525.71 1565.56 525.71 1275.88 525.71 775.69 i 527.69 1555.20 527.69 1271.24 527.69 778.71 529.68 1530.46 529.68 1255.81 529.68 776.45 531.66 1531.12 531.66 1258.76 531.66 782.13 533.64 1515.38 533.64 1249.47 533.64 781.93 ;
535.63 1478.51 535.63 1224.31 535.63 773.89 537.61 1462.81 537.61 1214.54 537.61 772.65 539.60 1456.84 539.60 1211.83 539.60 774.50 541.58 1401.21 541.58 1171.89 541.58 758.08 1
( 543.56 1361.85 543.56 1143.75 543.56 746.83 545.55 1352.35 545.55 1137.76 545.55 746.10
, 67 Revision 2
3
Table IF 4.3.9-1
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TENT BEADER DEFLECTOR LOAD (Continued)
- DEFLECTOS PULL SCAIJE 1A3 ADS ****
1 Fermi 2, Type 3 Deflector 1/L=1.0 1/L=0.5 Z/L=0.0 Time Load Time Load Time (usec) ilb/ft) Load (usee) (1b/ft) (esee) (1b/ft) 547.53 1330.35 547.53 1122.25 547.53 549.51 1296.07 740.47 549.51 1097.32 549.51 551.50 1257.44 729.84 551 50 1068.86 551.50 553.48 1238.75 717.10 553.48 1055.31 553.48 555.47 1218.75 711.62 555.47 1040.65 555.47 557.45 1168.52 557.45 705.38 559.43 1002.84 557.45 687.00 1114.44 559.43 961.86 561.42 1066.82 559.43 666.61 561.42 925.57 561.42 563.40 1014.04 648.29 563.40 885.13 563.40 565.38 983.77 565.38 627.49 567.37 861.75 565.38 615.36 968.78 567.37 853.51 569 35 942.15 567.37 611.08 569.35 838.16 569.35 571.34 910.01 602.05 571.34 818.05 571.34 573.32 878.83 592.14 573.32 798.19 575.30 838.40 573.32 581.33 t
575.30 770.23 575.30 577.29 773.32 566.00 577.29 721.04 579.27 696.09 579.27 577.29 538.98 581.26 662.54 660.33 579.27 505.38 581.26 635.50 583.24 609.21 581.26 491.08 583.24 593.04 583.24 585.22 552.84 466.99 585.22 547.01 587.21 498.77 585.22 440.77 587.21 502.06 589.19 450.56 587.21 414.96 589.19 460.41 589.19 591.17 398.71 591.17 391.40 593.16 414.19 591 17 365.43 347.22 593.16 368.24 595.14 296.97 593.16 339.04 595.14 323.33 595.14 597.13 247.66 312.70 597.13 279.22 597.13 599.11 198.09 286.30 599.11 234.82 601.05 149.09 599.11 259.21 601.09 190.89 601.09 603.08 100.70 231.89 603.08 147.46 603.08 605.06 52.78 204.40 605.06 104.41 607.04 5.20 605.06 176.67 607.04 61.62 607.04 609.03 .00 148.66 609.03 19.24 611.01 .00 609.03 120.46 613.00 611.01 .00 611.01
.00 613.00 92.09 614.98 .00 .00 613.00 63.55 614.98 .00 614.98 616.96 .00 34 .84 616.96 .00 616.96 618.95 .00 6.00 620.93 618.95 .00 618.95
.00 620.93 .00 622.92 .00 620.93 .00
.00 622.92 .00 624.90 .00 622.92 .00 1 626.88 624.90 .00 624.90
( .00 626.88 .00 628.87 .00 626.88 .00
.00 628.87 .00 628.87 .00 68 I
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Revision 2
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M 00-24568
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TENT READER DEF12CTOR LOAD (Continued) !
( ****DEF12CTOR FULL SCA12 IAADS**** '
Fermi 2, Ty, 3 Deflector I/L=1.0 Z/L=0.5 Z/L=0.0 Time Load Time Load Time Load (esec) (1b/ft) (asec) (1b/ft) (usec) (1b/ft) 630.85 .00 630.85 .00 630.85 .00 632.83 .00 632.83 .00 632.83 .00 63'*.82 .00 634.82 .00 634.82 .00 636.80 .00 636.80 .00 636.80 .00 638.75 .00 638.79 .00 638.79 .00 640.77 .00 640.77 .00 640.77 .00 642.75 .00 642.75 .00 642.75 .00 644.74 .00 644.74 .00 644.74 .00 646.72 .00 646.72 .00 646.72 .00 648.70 .00 648.70 .00 648.70 .00 650.69 .00 650.69 .00 650.69 .00 652.67 .00 652.67 .00 652.67 .00 654.66 .00 654.66 .00 654.66 .00 656.64 .00 656.64 .00 656.64 .00 658.62 .00 658.62 .00 658.62 .00 l
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,' 69 Revision 2
EID0-24568 L-g DISTRAmu11pm
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nTImmt Name M/C C.W. Cullen (transmittal letter onlyl 602 F.P. Felini 880 '
D.M. Clunts 584 7.S. Cupta (3) 126 S.A. Bucik 194 R.M. Hunt (transmittal letter only) 855 A.E. Rogers 879 P.P. Stancavage 879 B. Stevens (5 + microfiche) 126 M.E. Tanner 855 H.E. Townsend 564 P. Valandani 146 J.P. Zilinskas 843 Customer Service Pile 881 NEBG Library (5) 328 VNC Library (2)
VOI TIE (5)
FCH TSS (2) 742 s
EXTERNAL DISTRIBUTION Utility
_I&SE CC Mr. D.F. Lehnert Mr. C.M. Johnson M/C 391 Mr. A. Higgenbotham Detroit Edison Co. 318 ECT. Project Manager )
(NUIECH) I 3331 West Big Beaver Road Fermi 2 Project Troy, MI 48084 .
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p y' NUCLEAR ENERGY DIVIB40NE o SENERAL ELECTRIC COedPANY
. .ANi,OEE.C ,0. A .Et.
GENER AL $ ELECTRIC ,
TECHNICAL INFORMATION EXCHANGE TITLE PAGE AurMOR sWSJECT TIE NUaASER Personnel of Nuclear Services carg ;
Enoinmerino '
.fiin . 1GR1 '
TITLE ~ GE CLAs3 i Marst 1 Containment Program Plant I l
Unique Load Definition Enrico ooygnnus,4T class l FerM Atomic Pwr Plant: Unit 2 REPRODUCIBLE COPY FILED AT TECHNICAL NUMSER OF PAGES SUPPORT SERVICES. R4UO. SAN JOSE, CALIFORNIA 9513 (Mail Code 211) l 78
SUMMARY
r This document provides unique definition of specific containment loading conditions that would result from a postuisted loss-of-coolant accident in the Enrico Termi Atomic Power Plant: Unit 2. Transient infor-(
mation is provided for containment pressures and temperatures, vent system thrust, torus vertical loads, vent system pool swell impact loads and vent '
header deflector loads. The document has been prepared under the Mark I containment Program to '
aid Detroit Edison Company in the performance of a '
, containment structural evaluation.
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Sy cutting out this rectangle and folding in half, the sbove information can be fired l Into a standard card file.
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OOCuutNT NuesSER NEDO-24568 !
. 1 sNPORuAT10N PREPARED FOR Muclear Fuel & Sarvices Division
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. SCTION Nuclear Services Engineering 4
auiLOmG ANO ROOu NuusER - ,anTfs,nz ua:L CODE BB9 autoeta e n n -