ML19329B174
| ML19329B174 | |
| Person / Time | |
|---|---|
| Site: | Davis Besse  |
| Issue date: | 11/15/1976 |
| From: | Roe L TOLEDO EDISON CO. |
| To: | Stolz J Office of Nuclear Reactor Regulation |
| References | |
| 151, NUDOCS 8001300769 | |
| Download: ML19329B174 (40) | |
Text
NHC u.s. NUCLE AA M EGULAT32%
VMICSION ooCKET NUM;E R p 7s'f Ceu ?95 50-346
',hRC DISTRIBUTION ron PART 50 DCCKET MATERIAL TO: J.S. STOLZ FROM: TOLEDO ED3 SON oATE op ooCUMENT TOLEDO, OHIO 11-15-76 L.E. ROE c47s nECEivEo 11-22-76 C'LE Tt t a ONoronizEo enCP INPUT FORM NUM8ER oF COPtES MECERVEo ConlGIN AL OUNCLASS!PIEo CCoP v 1
oEScalPYicN ENCLOSU RE LTR. RE. OUR 10-21-76 LTR.....
TRANS THE FOLL-ENCLOSURE I-REVISED SUBCOMPARTMENT AEAI3 SIS OWING........
ENCLOSURE II & III-INERTIA TERM DATA FOR THE REACTOR CAVITY AND STEAM GENERATOR COMPARTMEN-TS......
( 1 SIGNED CYa. RECEIVED)
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- s TOLEDO EDISON LOWELL E. ROE Docket No. 50-346 v ca 'r** ***
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...a-.n f 4191 259-5242 November 15, 1976
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m Y-Serial No. 151
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f Director of Nuclear Regulation N //
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E' Attn:
Mr. John F. Stolz, Chief Light Water Reactors Branch No. 1
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Division of Project Management C
United States Nuclear Regulatory Commission
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Washington, D. C.
20555
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Dear Mr. Stolz:
In accordance with that portien of your letter of October 21, 1976, relating to Davis-Besse Nuclear Power Station Unit I subcompartment pressure analyses, we are providing, as Enclosure 1 to this letter, the revised subcompartment analyses which will also be included in Revision 23 to the Davis-Besse Unit i FSAR, presently scheduled for submittal to the NRC on November 23, 1976. and Enclosure 3 provide inertia term data (L/A) for the reactor cavity and steam generator compartments, respectively. These submittals are consistent with our Mr. E. Novak's telecon of September 14, 1976, with your staff, including Mr. L. Engle, Licensing Project Manager, whereby Toledo Edison agreed to calculate and submit the subject inertia terms in order to expedite resolution of the compartment pressure issue.
The content of Enclosure 3 was telecopied informally to Mr. L. Engle on November 5, 1976. The submittal of Enclosures 2 and 3 also provides the information requested in your Mr. A. Schwencer's letter of December 3, 1975, on the subject of inertia terms. Calculation and submittal of this information does not alter our opinion of this practice as we identified in our letter January 20, 1976, in response to Mr. Schwencer's letter.
IJ.hfa.1 THE TCLECO EDISCN COMPANY EC! SON PLAZA 300 MACISCN AVENUE TOLEDO. CHIO 43652
This completes Toledo Edison's response to your October 21, 1976, Request for Additional Information (Davis-Besse Unit 1). Our responses of November 3,1976, and November 9,1976, addressed the remainder of your letter.
Yours very truly,
/
/ - Subcompartment Analyces - Davis-Besse Unit 1 Reactor Cavity Inertia Terms - Davis-Besse Unit 1 Steam Generator Compartment Inertia Terms pc 29/43-47 l
1 l
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upy ENCLOSURE 1 Subcoecartment Analvscs a.
Introductien The contain=ent subco=part=ents in which a =ajor loss-of-coolant accident could occur are the reactor cavity and the steam generator coepartments.
The walls of these chanbars are designcd to bear the combined loads of differential pressure and jet impinge =ent.
The differential pressure analyses were perfor ed with the Dechtel developed code COPDA to verify the adequacy of the venting and the design of the structures. The COPDA code is described in subsection 3.6.2.7.1.1.
Vents between control vole =es are taken at =ini=u= flow area sections.
If there are significant constrictions within a co=part-ment, then that co:part= ant is divided into two or more control volumes at these ccnstrictions.
Initial conditions for both analyses are:
Pressure 14.4 psia Te=perature 120 F Relative Humidity 70%
b.
Reactor Cavity The cavity was nodalized for the worst cace (double-ended cold leg breah) as shown in figures 1. 2, and 3.
The corresponding flow diagrs= is shcun in figure 4 and is s'-- ri:cd in table 1.
Vents between control vole =as were taken at the mini =us flow area cross sections.
The principal obstrucciens within the cavity ara the nozzles and the vessel supports.
In addition, the ca~ ole supports in the incere instru=entation tunnel and the crisediu= phosphate be.skets in the access tunnel were also included as obstructions.
The insulation in the reactor cavity is the =etallic reflective type.
For the analyses, the insulation is ccusarvatively assu=ed to re=ain intact and uncrushed.
The width of the cavity annulus Precludes ja==ing of the insulatien.
Sand plugs or other re=ovable obstructions are not included in the design.
Restraint rings around the hot and cold leg pipas of the reactor coolant syste=,within the pri=ary shield pipe penetra:1:ns, were also censidered as obstruc-tions in evalua-ing the vent ficw path areas.
Flow coefficients were calculated using scc.tdard head loss factors such as outlined in Crane Technical Paper No. 410, "Flcw of Fluids Through Valves, Fittings, and Pipe."
The hdividusi factors due to contractions, expansions, bends, and fr. lion were su==ed and the flow coefficients calculated by I
C=
}3K 1
D-B
< _s In most casts, frictica van negligible.
Tablo 3 shews tha calcula-tion of each coefficient. The orifice flow coefficient is calcula-tad by the COPDA program as described in st5section 3.6.2.7.1.1.
The miscellaneous flow equation is the sa=a as the no::le equation but the flow coefficient is calculated by the user, using the methods described above.
The = ass flux is deter =ined frc= the isentropic not:1e equation and then multiplied by the product of the area and the ficw coefficient.
Nbtion of the hot les pipe fo11cwing a break is li=1ted by restraint rings in the pri=ary shield penetratien (see. figures 10,11, and 12).
In addition..the pipe is prevented from backing out by restraiats in the steam generator co=partment (see figure 9). Therefore, the maxi =us hoc Icg break analyzed was a single-ended (1A) break. Ihss and energy releasa rates _ for this case are shown in table 4.
The resulting max 1=u= pressure in the reactor cavity is 111 ps?d at 0.158 seconds after the break.
2 For the cold leg, a double-ended break (8.55 f t ) was assu=ed.
Cold leg break data are listed in table 5.
The peak differential pres-sure for the reactor cavity is 190 psid at 0.141 seconds following
. the break.
The-design pressure for the reactor cavity is 225 psi.
The penetrations are designed to accoc=odate a break within the penetration at full syste= pressure.
c.
Stean Generator Cernarerent only the ec= pert =ent containing the pressurizer was analy:ed as this one has the s=allest vent areas. The nedalization is shown in figures 5, 6, and 7.
The flow diagram is in figure 8 and is.
su=marized in table 2.
The steam generator, pressuri:er and quench tank, and the =ain coolant punps were accocnted for in the ficw area calculations.
In additien, the resulting areas were reduced by 10 percent to allow for =inor obstructicus such as cable trays, small pipes, and insulation.
Flow coefficients were calculated as for the reactor cavity.
Tha ec=pressible flev equation for no::les was used with these~ ficw coefficients.
The maxi =u= break analy:cd in the stea= generator ce=part=ent was the double-ended (14.14 ft2) hot leg break. The correspending = ass and energy release rates are listed in table 6.
Table 7 lists the calculated and design pressures for the stea= generator co=part=ents.
9 2
D-3 Table 1 (Sheet 1)
Rer.eter Ca.-ity *rcesurfentien Vent A*ets.
Flev Coefficic--s, ar.d Cc-cart ent Volt-ss Vent Arnae. ard Flev Coeffiefwnts_
Path F1cv
'Frem To Vent Area (ft )
Coefficient Orifice (ft2) 1 2
18.0
.78 1
3 28.7
.92
.1 5
41.7
.99 1
9 20.9
.94 1
10 21.3
.94 1
18 0.7
.78 1
27 22.7.
.87 2
24 1002.6
.94 2
26 175.8
.91 2
27 85.0
.86 3
2 10.8
.78 3
4 21.9
.88 3
9 21.3
.94 3
27 11.2
.87 4
2 7.3
.79 4
6 41.7
.99 4
11 20.1
.94 4
27 9.9
.87 5
7 21.9
.88 5
10 20.1
.94 5
18 0.7
.78 5
27 17.2
.84 6
8 21.9
.88 6
11 21.3
.94 6
27 18.9
.84 7
8 28.7
.92 7
12 21.3
.94
.83 7
27 22.0 8
12 20.9
.94 8
27 22.0
.83 9
10 31.6
.97 9
11 31.6
.97 9
13 53.6
.98 3
~T
-s y.
p.B
~
Table 1 (Shoot 2)
Path Flow From To Vent A'cca (ft )
Coefficient Orifice (ft )
10 12 31.6
.97
.98 10 13 53.6 11 12 31.6
.97 11 13 53.6
.98 12 13 53.6
.98 13 14 21.0
.62 13 19 85.5
.83 14 15 60.0
.86 15 16 60.0
.86 16 17 60.0
.86 17 18 29.2
.88 18 27 24.5
.25 19 20 24.0
.86 27.5 20 21 29.3
.88 27.5 21 22 27.0
. E8 27.5 22 23 41.0
.89 34.0 23 27 60.0
.73 34.0 24 25 385.0
.90 24 26 92.5
.85 24 27 8.0
.83 25 27 690.0
.89 26 27 277.0
.97 i
l G
4
-. 1
I
'N D-B
^
Table 1 (Sheet 3)
Comeartrent volu es comoarerent Volume (ft )
l 1
Upper Cavity 590 2
Steam Generator 12069 3
Upper Cavity 284 4
Upper Cavity 306 5
Upper Cavity 306 6
Upper Cavity 299 7
Upper Cavity 284 8
Upper Cavity 267 9
Middle Cavity 562 10 Middle cavity 556 11 Middle Cavity 556 12 Middle Cavity 528 13 Botton of R. Cavity 5688 14 Access Tunnel 1091 15 Access Tunnel 300 322.
16 Access Tunnel 17 Access Ttanel 646 18 Access Tunnel 1138 19 Instru=entatica Tunnel 1747 20 Instru=entatica Tunnel 820 21 Instrumentation Tunnel 404 22 Instrumentation Tunnel 1618 23 Instru=entatico Tunnel 651 24 Steam Generator 9765 25 Steam Generator 66970 26 Steam Generator 5338 27 Containment Free Volume 2-7E6 5
3 D-B Table 2 (Sheet 1)
~
Steam Generator Ca *ity Pressarier.tf en Vent Areen end Tlev Cecffic!.cnts_
Flow Path Area (fe )
Flow Coefficient 1-2 50 0.97 1-3 107 0.93 1-4 143.6 0.95 1-8 19.59 0.76 2-3 90 0.86 2-5 414 0.97 2-8 19.59 0.76 2-11 85 0.86 3-5 445 0.90 3-7 175.75 0.91 4-5 185 0.88 4-6 99 0.90 5-6 286 0.90 5-7 92.5
. 0.85 5-11 8
0.83 6-11 690 0.89 7-11 277 0.97 8-9 21 0.62 8-10 55 0.776 8-11 72.9 0.86 9-11 29 0.87 10-11 57.5 0.767 6
~
D-B Table 2 (Sticae 21 Sters Cenerator Cqvity Presserft:tien Ve=t Avecs c.no Flee Ccefficieres Corosetnent voleres 3
Compartment Volu=a (ft )
1 2145 2
5319 3
4502 4
2276 7489 5
6 66970 7
5338 8
10946
'9 1573 10 6053 11 2,740,000 7
m.
p.3 Table 3 (Sheet 1)
Concenents of Flet.' Coefficients A.
Reacter Cavitv Vent F1/D Contraction Bend Exonnaion IK C
.50 1.10 1.60 1-2
.72 1.00 1.72
.78*
1-3
.18 1.00 1.18
.92 1-5
.02 1.00 1.02
.99 1-9
.04
.08 1.00 1.11
.94 1-10
.04
.08 1.00 1.12
.94 1-18
.20
.43 1.00 1.63
.78 1-27
.02
.30 1.00 1.32
.87 2-24 0
.13 1.00 1.13
.94 2-26 0
.21 1.00 1.21
.91 2-27 O
.25 1.00 1.35
.86
.2 1.00.
1.72 3-2
.50 1.10 1.6
.78*
3-4
.28 1.00 1.28
.88 2-9
.04
.08 1.00 1.12
.94 3-27
.02
.30 1.00 1.32
.87 4-2
.5 1.1 1.6
.79 4-6
.02 1.0 1.02
.99 4-11
.04
.08 1.00 1.12
.94 4-27
.02
.30 1.00 1.32
.87 5-7
.28 1.00 1.28
.88 5-10
.04
.08 1.00 1.12
.94 5-18
.20
.43 1.00 1.63
.78 5-27
.02
.30 1.00 1.32
.87 6-8
.28 1.00 1.28
.88 6-11
.04
.08 1.00 1.12
.94 6.02
.30 1.00 1.32
.87 7-8
.18 1.00 1.18
.92 7-12
.04
.08 1.00 1.12
.94 7-27
.02
.30 1.00 1.32
.87 8-12
.04
.08 1.00 1.12
.94
' 8-27
.02
.30 1.00 1.32
.87 9-10
.07 1.00 1.07
.97 9-11
.07 1.00 1.07
.97 9-13
.04 1.00 1.04
.98 10-12
.07 1.00 1.07
.97 10-13
.04 1.00 1.04
.93 11-12
.07 1.00 1.07
.97 11-13
.04 1.00 1.04
.98
- Area weighted flow coefficients 8
D-B Table 3 (Sheet 2) vent 71/D Contract!cn P end JIpnnt. inn ZK C
12-13
.04 1.00 1.04
.98 13-14
.08
.44 1.4 0.655 2.555
.62 13-19 0
.44 1.00 1,44
.83 14-15 0
.33 1.00 1.33
.86
~
15-16 0
.33 1.00 1.33
.86 16-17 0
.33 1.00 1.33
.86 17-18 0
.29 1.00 1.29
.88 18-27 0
.40 1.00 1.40
.85 19 *z0 0
.31
.052 1.00 1.36
.86 20-21 0
.29 1.00 1.29
.88 21-22 0
.29 1.00 1.29
.88 22-23 0
.26 1.00 1.26
.89 23-27 0
.88 1.00 1.88
.73 24-25 0
.23
- 1.00 1.23
.94 24-26 0
.40 1.00 1.40
.85 24-27 0
.44 1.00 1.44
.83 25-27 0
.26 1.00 1.26
.89 26-27 0
.07 1.00 1.07
.97 B.
Stes: Generator 1-2 0
0,24
'O 0.82 1.06 0.97 1-3 0
0.35 0
1.0 1.15 0.93 1-4 0
0.11 0
1.0 1.11 0.95 1-8 0
0.55 0
1.18 1.73 0.76 2-3 0
0.35 0
1.0 1.35 0.86 2-5 0
0.06 0
1.0 1.06 0.97 2-8 0
0.55 0
1.18 1.73 0.76 2-11 0
0.35 0
1.0 1.35 0.86 3-5 0
0.23 0
1.0 1.23 0.90 3-7 0
0.21 0
1.0 1.21 0.91 4-5 0
0.30 0
1.0 1.30 0.88 4-6 0
0.23 0
1.0 1.23 0.90 5-6 0
0.23 0
1.0 1.23 0.90 5-7 0
0.40 0
1.0 1.40 0.85 5-11 0
0.44 0
1.0 1.44 0.83 6-11 0
0.26 0
1.0 1.26 0.89 7-11 0
0.07 0
1.0 1.0; 0.97 8-9 0.08 0.44 1.4 0.67 2.59 0.62 8-10 0
0.55 0
1.11 1.66 0.776 8-11 0.19 0.55 0
0.61 1.35 0.86 9-11
,0 0.31 0
1.0 1.31 0.87 10-11 0
0.06 0.58 1.06 1.70 0.767 9
l
D-B Table 4 (Sheet 1) 7.07 ft2 (lA) Ect Lee Bresh Data for Reactor Ccvi:r Pr:.srurinatica Mass Energy Total Total Time.
Flow Flow Mass Ene w (sec)
(1b/sec)
(Beu/sec)
(1b)
(Ecu)
.0000 8.0240+04 5.0110+07
.0000
.0000
.0000 8.0240+04 5.0110+07 8.4252+02 5.2615+05 1.0500 02 8.0240+04 5.0110+07 8.4252+02 5.26t5+05 1.0500 02 9.3100+04 5.8120+07 1.7549+03 1.0957+06 2.0300 02 9.3100+04 5.8120+07 1.7549+03 1.0957+06 2.0300 02 8.0800+04 5.0430+07 2.5467+03 1.5099+06 3.0100 02 8.0800+04 5.0430+07 -
2.5457+03 1.5899+06 3.0100 02 6.7060+04 4.1050+07 3.2375+03 2.0210+0G 4.0400 02 G.7000+04 4.1050+07 3.2375403 2.02:0+0G 4.0400 02 6.4G70+04 4.0350+07 3.6G42+03 2.4245+06 5.0400 02 6.4G70+04 4.0350+07 3.8G42+03 2.4245+06 5.0400 02 G.4450+04 4.0230+07 4.5161+03 2.8100+C6 6.0200 02 6.4400+04 4.0230+07 4.5161+03 2.8188+06 6.0200 02 6.4510+04 4.0240+07 5.1934+03 3.2413+06 7.0700 02 6.4510+04 4.0240+07 5.1934+03 3.2413+C6 7.0700 02 6.4670+04 4.0340+07 5.8272+03 3.6356+06 8.0500-02 6.4670+04 4.0340+07 5.3272+03 3.6366+06 8.0500 02 6.4920+04 4.0490+07 6.4634+03 4.0334+06 9.0300 02 6.4920+04 4.0490+07 6.4634+03 4.0334+06 9.0300 02 6.5220+04 4.0660+07 7.1026+03 4.4319+06
- 1.0010 01 6.5220+04 4.0660+07 7.1026+03 4.43t9+06 1.0010 01 6.5470+04 4.0810+07 7.7900+03 4.8604+06 1.1060 01 6.5470+04 4.0810+07 7.7900+03 4.8604+06 1.1060 01 6.56E0+04 4.0920+07 8.4335+03 5.2Gt4+06 1.2040 01 6.5G60+04 4.0920+07
-t.CO35+03 5.2614+06 1.2040 01 6.5770+04 4.0950+07 9.0760+03 5.6630+06 1.3020 01 6.5770+04
- 4. 0 E30+ 0 7.
9,078G+03 5.6630+06 1.3020 01 6.5810+04 4.0990+07 9.7690+03 6.0934+06 1.4070 01 6.5310+04 4.0990+07 9.7690+03 6.0934+06 1.4070-01 6.5790+04 4.0970+07 1.0414+04 6.4949+06 1.5050-01 6.5790+04 4.0970+07
- 1. 041.t +04 6.4949+06 1.5050 01 6.5720+04 4.0950+07 1.1058+04 6.8962+06 1.6030 01 6.5720+04 4.0950+07 1.105S+04 6.8962+06 1.6030-01 6.5690+04 4.0650+07 1.1702+04 7.2966+06 1.7010 01 6.5GS0+04
-4.0860+07 1.1702+04 7.2968+06' 1.7010 01 6.5540+04 4.0780+07 1.2390*04 7.7250+06 1.6060 01 6.5540+04 4.0780+07 1.2390+04 7.7250+06 1.8060 01 6.5410+04 4.0690+07 1.3031+04 8.1238+06 1.9040 01 6.5410+04 4.0590+07 1.3031+04 8.1238+06 1.9040 01 6.5240+04 4.0580+07 1.3671+04 8.5215+06 2.0020 01 6.5240+04 4.05E0+07 1.3671+04 8.5215+06 2.0020-01 6.5040+04 4.0460+07 1.4354+04 8.9463+06 2.1070 01 6.5040-04 4.0460+07 1.4354+04 8.9463+06 2.1070 01 6.4990+04 4.0390+07 1.4950+04 9.3421+06 2.2050-01 6.4980+04 4.0390+07 1.4990+04 9.3421406 2.2050 01 6.4910+04 4.0330+07 1.5627+04 9.7374+06 2.3030-01 6.4910+04 4.0330+07 1.5627+04 9.7374+06 2.3030 01 C.4830+04 4.0270+07 1.6262+04 1.0132+07 2.4010 01 6.4330+04 4.0270+07 1.6262+04 1.0132+07 2.4010 01 6.4800,04 4.0240+07 1.6942+04 1.0555+07 2.5060 01 6.4800+04 4.0240+07 1.6942+04 1.0555+07 2.5060 01 6.4810+04 4.0230+07 1.7577+04 1.0949+07 2.6040 01 6.4810+04 4.0230+07 1.,7 577+04 1.0949+'7 2.6040-01 6.4810+04 4.0210+07 1.8213+04 1.1343+07 2.7020 01 6.4810+04 4.0210+07 1'.8213+04 1.1343+07 2.7020 01 6.4760+04 4.0170+07 1.8393+04 1.1765+07 2.8070 01 6.4760+04 4.0170+07 1.8093+04 1.17G5+07 2.8070 01 6.4740+04 4.0150+07 1.9527+04 1.2150+07 2.0050-01 6.4740+04 4.0150+07 1.9527+04 1.2158+07
,2.9050 01 6.4780+04 4.0160+07 2.01G2+04 1.2552+07, 10
a y-s Table 4 (Sheet 2)
Mass Energy Total Total Tima now now Mass Energy (see)
(1b/see)
(3tu/see)
(1b)
(Beu)
- 3.0030-01 6.4700+04 4.0160+07 2.01G2+04 1.2552+07 3.0030-01 6.4790+04 4.0160+07 2.0797+04 1.2945+07 3.1010-01 6.4790+04 4.01Gu+07 2.0797+04 1.2945+07 3.1010-01 6.4800+04 4.0150+07 2.1477+04 1.3367+07 3.20GO-01 6.4800+04 4.0150+07 2.1477+04 1.3367+07 3.2060-01 6.4890+04 4.0190+07 2.2113+04 1.3761+07 3.30#.0-01 6.4890+04 4.0190+07 2.2113'+04 1.3761+07 3.3040 01 6.4990+04 4.0250+07 2.2750+04 1.4155+07, 3.4020-01 6.4990+04 4.0250+07 2.2750+04 1.4155+07 3.4020-01 6.5050+04 4.0270+07 2.3433+04 1.4578+07 3.5070-01 6.5050+04 4.0270+07 2.3433+04 1 4578+07 3.5070-01 6.5090+04 4.0290+07
- 2. 4 071 +04 1.4973+07 3.6050 01 6.5090+04 4.0290+07
- 2. 4071 +04 1.4973+07 3.6050-01 6.5160+04 4.0320+07 2.4709+04 1.5368+07 3.7030 01 6.51G0+04 4.0320+07 2.4709+04 1.53G8+07 3.7030 01 6.5180+04 4.0320+07 2.5348+04 1.5763+07 3.8010-01 6.5100+04 4.0320+07 2.5348+04 1.5763+07 3.8010 01 6.5090+04 4.0260+07 2.6032+04 1.618G+07 3.9060-01 6.5090+04 4.0260*07 2.6032+04 1.61s6+07 3.9060 01 6.4970+04 4.0180+07 2.6668+04 1.6560+07
4.0040-01 6.4970+04 4.0160+07 2.6668+04 1.6500+07 4.0040-01 6.4870+04 4.0110+07 2.7304+04 1.6973+07 4.1020-01 6.4870+04 4.0110+07 2.7304+04 1.6973+07 4.1020-01 6.4690+04 3.9980+07' 2.7983+04 1.7392+07 4.2070-01 6.4G90+04 3.9960+07 2.7983+04 1.7392+07 4.20'.'0 01 C.4440+04 3.98:0+07 2.8615+04 1.7783+07 4.3050-01 6.4440+04 3.9510+07 2.6615+04 1.7783+07 4.3050-01 6.4220+04 3.9G70+07 2.9244+04 1.8171+07 4.4030-01 6.4220+04 3.9G70+07 2.9244+04 1.8171+07 4.4030-01 6.4050+04 3.9550+07 2.9872+04 1.8559+07 4.5010-01 6.4050+04 3.9550+07 2.9872+04 1.8559+07 4.5010-01 6.3040+04 3.9410+07 3.0542+04 1.8973+07 4.60G0-01 6.3040+04 3.9410+07 3.0542+04 1.8973+07 4.6060-01 6.3620+04 3.9270+07 3.1166+04 1.9358+07 4.7040-01 6.3G20+04 3.9270+07 3.11GG+04 1.9350+07 4.7040-01 6.3520+04 3.9200+07 3.1708+04 1.9742+07 4.0020-01 G.3520+04 3.9200+07 3.t788+04 1.9742+07 4.0020-01 6.3480+04 3.9170+07 3.2455+04 2.0153+07 4.9070-01 6.3480+04 3.9170+07 3.2455+04 2.0153+07 4.0070-01 6.3440+04 3.9130+07 3.3076+04 2 0536+07
-5.0050-01 6.3440+04 3.9130+07 3.307G+04 2.053G+07 5.0050 01 6.3410+04 3.9110+07 3.3693+04 2.09:0+07 5.1030-01 6.3410+04 3.9110+07 3.3693+04 2.0920+07 5.1030-01 6.3460+04 3.9130+07 3.4320+04 2.1303+07 5.2010-01 6.3460+04 3.9130+07 3.4320+04 2.1303+07 5.2010-01 6.3510+04 3.9160+07 3.4987-04 2.1714+07 5.3060-01 6.3510+04 3.9160+07 3.4937+04 2.1714+07 5.3060 04 6.3490+04 3.9140+07 3.5609+04 2.2098+07 5.4040 01 6.3490+04 3.9140+07 3.5609+04 2.2098+07 5.4040-01 6.3440+04 3.9t00+07 3.623t+04 2.248t+07 5.5020 01 6.3440+04 3.9100+07 3.6231+0,*
2.2481+07 5.5020-01
'6.3400+04 3.9070+07 3.6896+04 2.2991+07
, 5.6070-01 6.3400+04 3.9070+07 3.6896+04 2.289t+07 5.6070 01 6.3310+04 3.9010+07 3.7517+04 2.3274+07 5.7050-01 6.3310+04 3.9010+07 3.7517+04 2.3274+07 5.7050-01 6.3150+04 3.8900+07 3.8136+04 2.3655+0?
5.8030-01 6.3150+04 3.S900+07 3.8136+04 2.3655+07 5.8030 01 6.2950+04 3.8790+07 3.8753+04 2.4035+07 5.9010-01 6.2980+04 3.6799+07 3.s753+04 2.4035+07 5.9010-01 6.2820+04 3.8680+07 3.9412+04 2.4441+07
33 Table 4 (Shee: 3)
Mass Energy Total
. Total Ti=a Flow Flow P. ass Energy (sec)
(1b/sec)
(Etu/sec)
(1b)
(3:u)'
6.0060-01 6.2320+04 3.85E0+07 3.9412+04 2'.1541 +07 "
~
6.0060-01 6.2640+04 3.8550+07 4.002S+04 2.4819+07 6.1040-01 6.2540+04 3.8560+07 4.0026+04 2.4819+07 6.1040 01 S.2450+04 3.8440+07 4.0538+04 2.5196+07 6.2020-01 6.2450+04 3.S440+07 4.0638+04 2.5196+07 6.2020-01 6.22S0+04 3.8330+07 4.1292+04 2.5599+07 6.3070-01 6.2220+04 3.8330+07 4.1292+04 2.5598+07
- dir.3070-01 6.2130+04 3.8230+07 4.1901+04 2.5973+07 6.4050-01 6.2130+04 3.8:30+07 4.1901+04 2.5973+07 6.4050-01 6.2000+04 3.8140+07 4.250S+04 2.6347,07 6.5030-01
-6.2000+04 3.8140+07 4.2500+04 2.6347+07 6.5030-01 6,1830+04 3.S060+07 4.3115+04 2.6720+07 6.6010-01 6.1820+04 3.8060+07 4.3115+04 2.6720+07 6.6010-01 6.1770+04 3.7990+07 4.3754+04 2.7119+07 6.7060-01 6.1770+04 3.7990+07 4.3764+04 2.7119+07 6.7060-01 6.1690+04 3.7930+07 4.4363+04 2.7490+07 6.8040 01 6.1690+04 3.7930+07 4.4368+04 2.7490+07 6.8040 01 6.16:0+04 3.7360+07 4.4972+04 2.7RG +07 6.9020 01 6.1620+04 3.7250+07 4.4972+C4 2.7062+G7 6.9020 01 6.1570+04 3.7340+07 4.5519+04 '
2.8259+07 7.0070-01 6.1570+04 3.7840+07 4.5619+04 2.8259+07 7.0070-01 6.1520+04 3.7810+07 4.622t+04 2.SG29+07 7.1050 01 6.1520+04 3.7810+07 4.6221+04 2.E629+07 7.1050-01 6.1480+04 3.7780+07 4.68 4+04 2.9000+07 7.2030-01 6.1460+04 3.7750+07 4.6824+04 2.9000+07 7.2030 01 6.1440+34 3,7750+07 4.74:6+04 2.9370+07 7.3010-01 6.1440+04 3.7750+07 4.7406+04 2.9370+07 7.3010-01 6.1400+04 3.7710+07 4.8071+04 2.9766+07 7.4060 01 6.1400+04 3.7710+07 4.8071+04 2.9766+07 7.4060-01 6.1350+04 3.7670+07
,4.oG72+04 3.0135+07 7.5040-01 6.1350+04 3.7G70+07 4.867:+04 3.0135+07 7.5040 01 6.1290+04 3.7640+07 4.9273+04 3.0504+07 7.6020-01 6.1290+04 3.7540+07 4.9273+04 3.0504+07 7.6020-01 6.1240+04 3.7590+07 4.9916+04 3.0090+07 7.7070 01 6.1240+04 3.7500+07 4.991G:04 3.0090+07 t
7.7070 01 6.1170+04 3.7550+07 5.0515+04 3.12GG+07 7.0050-01 6.1170+04 3.7550+07 5.0515+04 3.12GG+07
- 7. P.050- 01 6.1110+04 3.7500+07 5.1114+04 3.1G34+07 7.9030 01 6.1110+04 3.7500+07 5.1114+04 3.1G34+07 7.0030-01 6.1050+04 3.74G0+07 5.17t2+04 3.0001 07 S.0010 01.
6.1050+04 3.7*Eu+07 5.1712+04 3.0001+07 S.0010-01 6.0990+04 3.7420+07 5.2053+04 3.2394+07 S.1060-01 6.0990+04
- 3. 7120+07 5.2353+04 3.2394+07 1
S.1050-01 6.0940+04 3.7370+07 5.2950+04 3.2760+07 8.204n-01 6.0940+04 3.7370+07 5.2950+04 3.2760+07 S.2040-01 6.0890+04 3.7340+07 5.3547+04 3.312S+07 l
S.3020 01 G.0390+04 3.7340+07 5.3547+04 3.3126+07 1
~
S.3020-01 6.0350+04
- 7310+07 5.4tE6+04 3.3519+07 1
S.4070-01 6.0050+04 3.7310+07 5.4&ES+04 3.351 s+07 8.4070 01 6.08:0+04 3.7250+07 5.4782+04 3.3583+07 S.5050-01 6.0520+04 3.7280+07 5.4782+04 3.3883+07 S.5050-01 6.0800+04 3.7260+07 5.5377+04 3.4243+07 3.6030-01 6.0800+04 3.7260+07 5.5377+04 3.4248+07 B.6030-01 6.0780+04 3.7250-07 5.5973+04 3.4Gi3+07 S.7010 01 6.0750+04 3.7250+07 5.5973+04 O, 3.e613+07 S.7010-01 6.0770+04 3.7230+07 5.5611+04 3.5004+07 8.8060-01 6.0770+04 3.7230+07 5.6611+04 3.5004+07 S.8060-01 6.0760+04 3.7220+07 5.7007+04 3.53G9+07 8.9040-01 6.0780+04 3.7:20+07 5.7207+04 3.5369+07 S.9040-01 6.0740+04 3.7210+07 5.7802+04 3.5734+07 12
^
D -B Table 4 (Sheet 4)
Mass Energy Total Total Time Flow Flow Mars Encrgy (sec)
(1b/ccc)
(3tu/sec)
(lb)
(Etu) 9.0020 01 6.0740+04 3.7210+07 5.7802+04 3.5734+07 9.0020-01 6.0730+04 3.7190+07 5.8440+04 3.G124+07 9.1070-01 6.0730+04 3.7190+07 5.8440+04 3.6124+07 s
9.1070-01 6.0710+04 3.7160+07 5.9035+04 3.6488+07 9.2050 01 6.0710+04 3.7150+07 5.9035+04 3.6488+07 9.2050 01 6.0690+04 3.7160+07 5.96:3+04 3.6553+07 9.3030 01 6.0690+04 3.7160+07 5.96:9+04 3.6353+07 9.3030 01 6.0650+04 3.7140+07 6.0224+04 3.7217+07 9.4010 01 6.0660+04 3.7140+07 6.02:4+04 3.7217+07 9.4010-01 6.05:0+04 3.71:0+07 6.0660+04 3.7005-07 9.5060 01 6.06:0+04 3.7120+07 6.0650+04 3.760fs+07 9.5060 01 6.0500+04 3.7010+07 6.1453+04 3.7969+07 9.6040-01 6.0500+04 3.7010+07 6.1453+04 3.79c9,07 9.6040 01 6.0540+04 3.7050+07 6.2046+04 3.8332+07 9.7020-01 6.0540+04 3.7060+07 6.2046+04 3.8332+07 9.7020 01 6.0490+04 3.7000+07 6.2622-04 3.8721+07 9.8070 01 6.0490+04 3.7020+07 6.055:+04 3.8721+07 9.8070-01 6.0430+04
- 3. 69 90+07 6.3293+04 3.9098+07 9.9090-01 6.0430+04 3.6990+07 6.3298+04 3.909E+07' 9.9090 01 6.0370+04 3.6950+07 6.3547+04 3.9434+07 1.0000+00 6.0370+04 3.6950+07 6.3847+04 3.9434+07 1.0000+00 6.0300+04 3.6900+07 6.4450+04 3.9803+07 1.0100+00 6.0300+04 3.6900+07 6.4450+04 3.9G03+07 1.0100+00 6.0220+04 3.6540+07 6.5113+04 4.0209+07 1.0210+00 6.0230+04 3.6840+07 6.5113+04.
4.0209+07
,1.0210+00 6.01G0+04 3.G820+07 6.5054+04 4.0340+07 1.0300+00 6.01G0+04 3.00:0+07 6.SG54+04 4.0540+07 1.0300+00 G.0000+04 3.G770607 6.G:55 04 4.0900+07 1.0400*00 6.0000+04 3.G770+07 6.G255+04 4.0900+07 1.0400+00 6.0010+04 3.G7:0+07 G.G915+04 4.1312+07 1.0510+00 G.0010+04 3.G720+07 6.6915+04 4.1312+07 1.0510+0c 5.9940+04 3.6000+07 6.7455+04 4.1G42+07 1.0G00 00 5.9940+04 3.00u0+07 6.7455+04 4.1G42+07 1.0G00+00 5.9070+04 3.GG40+07 6.8053+04 4.2000+07 1.0700+00 5.9070+04 3.GGdue07 6.uub3*04 4.200u407 1.0700+00 5.0010+04 3.0G00+07 6.UG51+04 4.2374+07 1.0000+00 5.9810+04 3.G600+07 6.0651+04 4.2374+07 1.0000+00 5.9750+04 3.6570+07 6.9309+04 4.277G+07 1.0910+00 5.9750+04 3.G570+07 6.9309+04 4.277G+07 1.0910+00 5.9700+04 3.6540+07 6.9646+04 4.3105+07 1.10*10+00 5.9700+04 3*.6540+07 6.984G+04 4.3105+07 1.10(10+00 5.9660+04 3.65:0+07 7.0443+04 4.347t+07 1.1100+00 5.9G60+04 3.65 0+07 7.0443+04 4.3471+07 1.1100+00 5.9G30+04 3.6510+07 7.1099+04 4.3872+07 1.1210+00 5.9G30+04 3.6510+07 7.1099+04 4.3872+07 1.1210+00 5.9G10+04 3.6500+07 7.1635+04 4.4201+07 1.1300+00 5.9610+04
'3.6500+07 7.1635+04 4.4201+07 1.1300+00 5.9600+04 3.6490+07 7.:23t+04 4.4566+07 1.1400+00
- 5. 9 0 0(. +04 3.6490+07 7.2 31+C4 4.4565+07 1.1400+00 5.9560+04 3.6490+07 7.2S27+04 4.4930+07 1.1500+00 5.9550+04 3.6490+07 7.2S27+04 4.4930+07 1.1500+00 5.9570+04 3.G490+07 7.348:+04 4.5332+07 1.1610+00-5.9570+04 3.5490+07 7.3422+04 4.5332+07 1.1610+00 5.95E0+04 3.6490+07 7.401a+04 4.56so+07 1.1700+00 5.9560+04 3.6490+07 7.4018+04 4.5660+07 1.1700+00 5.9550+04 3.6480+07 7.4614+04 4.6025+07 1.1800+00 5.9550+04 3.6450+07 7.4514+04 4.60:5+07 1.1800+00 5.9530+04 3.6480+07
'7.5253+04 4.64:6-07 1.1910+00 5.9530+04 3.6460+07 7.5 63+04 4.6426+07 l
1.1910+00 5.9500+04 3.6460+07 7.5804+04 4.6754+07
~
13
+
,e
D-B
'Tch]c 4 - (Sheet 5)
Mara' Ene.rgy Total Total Time Flow Flow Mass Energy (sec)
(1b/sec)
(3:u/sec)
(1b)
(B tu) 1.2000+00 5,9500*u4 3.G450+07 7.5504+04 4.6754+07 1.2000+00 5.9460424 3.6450+07 7.6399+04 4.7119+07 1.2100+00
- 5. 9 460+0.>
3.6450+07 7.6399+04 4.7119+07 1.2100+00 5.9420+04 3.6420+07 7.6993+04 4.7483+07 1.2200+00 5.9420+04 3.6420+07 7.6993+04 4.7483+07 1.2200+00 5.9360+04 3.6390+07 7.7646+04 4.7883+07 1.2310+00 5.9360+04 3.6390+07 7.7646+04 4.78e3+07 1.2310+00 5.9310+04 3.6370+07 7.'8180+04 4.82:1+07 1.2400+00 5.9310+04 3.6370+07 7.6130*04 4.8211+07.
1.2400+00 5.9250+04 3.6340+07 7.8772+04 4.8574+07 1.2500+00 5.9250+04 3.6340+07 7.8772+04 4.8574+07 1.2500+00 5.91S0+04 3.6310+07 7.9423+04 4.8974+07 1.2610+00 5.9190+04 3.6310+07 7.9423+04 4.8974+07 1.2610+00 5.9140+04 3.6280+07 7.9955+04 4.9300+07 1.2700+00 5.9140+04 3.62E0+07 7.9955+04 4.9300+07 1.2700+00 5.9090+04 3.6260+07 8.0546+04 4.9663+07 1.2800+00 5.9090+04 3.6260+07 8.0546+04 4.S663+07 1.2800+00 5.9050+04 3.6240+07 8.1137+04 5.0025+07
- 1. 29t:0+00 5.9050+04 3.6240+07 8.1137+04 5.0025+07
. 1.2900+20 5.9010+04 3.6220+07 a.1786+04 5.0424+07 m
4 h
i J
14
IF B W
Table 5 (Sheet 1) 8.55 ft2 (2A) cold Lee Breck Data for Ecceter Ccvitr Pressurie ion.
Mass Energy Total Total Time Flav Flow Mass Energy (sec)
(1b/sec)
(Etu/sec)
(1b)
(Etu)
.0000
.00cc 0000
.0000
.0000
.0000
.0000 0000 5.278G+02 2.9050+05 1.0500-02 1.0054+05 5.5334407 1.St32+03 0.3270+05 2.0300 02 1.0054+05 5.5334+07 1.5132+03 8.3270+05 2.0300 02 1.0007+05 5.5534+07 2.5017+03 1.3770+0G 3.0100-02 f.0007+05 5.5534+07 2.5017+03 1.3770+06
-3.0100-02 9.G934+04 5.3352+07 3.5195+03 1.9373+06 4.0600-02 9.6934+04 5.3362+0?
3.5195+03 f.9373+06 4.0600 02 9.0696+04 4.9910+07 4.40G4+03 2.42G4+0G 5.0400-02 9.0696+04 4.9910+07 4.4034+03 2.42G4+06 5.0400-02 9.1334+04 5.0281+07 5.3034+03 2.9192+06 6.0200-02 9.1;334 +04 5.0281+07 5.3034+03 2.9192+06 6.0200 02 9.4487+04 5.2050+07 6.2956+03 3.4G57+06 7.0700-02 9.4437+04' 5.2050+07 6.295G+03 3.4657+06 7.0700 02 9.1260+04 5.0273+07 7.1900+03 3.95G*+06 8.0500 02 9.1268+04 5.0273+07 7.1900+03 3.9504+06 8.0500-02 9.9590+04 5.4388+07 8.1660+03 4.4963+06 9.0300-02 S.9590+04 5.4285+07 8.1660+03 4.4963+06 9.0300-02 1.0552+05 5.8240+07 9.20tt+03 5.0670+06 1.0010 01 1.0562+05 5.0240+07 9.2011+03 5.0G70+05 1.0010 01 1.0741+05 5.9247+07 1.0329+04 5.689t+0G 1'.1060 01 1.0741*05 5.9247*07 1.0329+04 5.6091+06 1.1060 Of
- 1. 04 80+ 05 5.7807+07 1.1356+04 6.2556+06 1.2040 01 1.0480+05 5.7807+07 1.1356+04
_ 6.255ho.6 1.2040 01 1.07t2+05 5.9109+07 1.2406+04 6.8349+06 1.3020 01 1.0712+05 5.9109+07 1.2406+04 6.8349,06.
1.3020-01 1.0943+05 6.0406,07 1.3555,04 7.4692+06 1.4070 01 1.0943+05 6.0405+07 1.3555+04 7.4692+06 1.4070 01 1.0796+05 5.9601+07 1.4613+04 8.0533+06 1.5050-01 1.0795+05 5.9 Gut +07 1.4G13+04 8.0533+06 1.5050 01
- 1. 063 t +05 5.8093+07
'.5655+04 8.6234+06 1.6030 01 1.0631+05 5.8693+0" 1.5G55+04 8.6204+0G 1.6030 01 1.0340+05 5.7077+07 1.GGGS+04 9.1378+0G 1.7010-01 1.0340+05 5.7077+07 1.6668+04 9.1870+0G 1.7010 01 1.0326+05 5.7003+07 1.7752+04 9.70G3+06 1.00GO 01 1.0326+05 5.7003+07 1.7752+04 9.70G3+0G 1.00G0 01 1.0349+05 5.7145+07 t.37GG,04 1.034G,07 1.9040-01 1.0349+05 5.7145+07 1.0766-04 1.03.G+07 1.9040 01 1.0347+05 5.714t+07 1.D700+04 1.000G+07 2.0020*01 1.0347+05 5.714 +07 1.97G0+04 1.000G+07 2.0020 01 1.0375+05 5.730G+07 2.0870+04 1.1500+07 2.t070 01 1.0375+05 5.7306+07 2.0070+04
.1500+07 2.1070-01 1.04G3+05 5.7805+07 2.ta95+04 1.2075+07 2.2050 01 1.0463+05 5.7G05+07 2.trm +04 1.2075+07 2.2050.Ct 1.0579+05 5.0453+07
- 2. 2132 + 04 1.2G47+07 2.3030 01 1.0579+05 5.G450+07 2.2 W2+04 1.2647+0?
2.3030 01 1.0403+05 5.7487+07 2.395t+04 1.3211+07 2.4010 01 1.0403+05 5.7487+07 2.3951+04 1.32tt+07 2.4010-01 1.0149+05 5.6073+07 2.5017+04 1.3800+07 2.5060-01 1.0149+05 5.6073+07 2.5017+04 1.3800+07 2.5060-01 1.0287+05 5.6850+07 2.6025+04 1.4357+07 2.6040 01 1.0227+05 5.6850+07 2.6025+04 1.4357+07 2.6040 01 1.0416+05 5.7573+07 2.7046+04 1.492t+07 2.7020-01 1.0416+05 5.7578*07 2.7046+04 1.492t+07 2.7020 01 1.0182+05 5.6283+07 2.8115+04 1.55t2+07 2.6070-01 1.0152+05 5.62S3+07 2.8115+04 1.5512+07 2.8070 01 1'.0157+05 5.6149+07 2.9110+04 1.6062+07 2.9050 01 1.0157+05 5.6149+07 2.9110+04 1.6062+07 2.9050-01 1.0526+05 5.8215+07 3.0142+04 1.6633+07 i
l 15
D-B 4
tam c 5 (sheet Q Mus Energy Total Total Tine Flotr Flow hss Energy
'(ccc)
(1b/sec)
(E tu/sec)
(lb)
(Btu)
- 3.c03 0-01 1.05:5+C5 5.02:5+0' 3.0:42+C4 1.6533+07
- 3.0030 01 1.0C00+05 5.6635+07 3.110t+04 1.7207+07 3.1010-01 1.0000+C5 5.8G35+07 3.1IGt+04 1.7207+07 3.1010 01 1.0357+C5 5.7253+07 3.2263+04 1.7809+07 3.2060 01 1.0357+C5
- 5.72S3*07 3.22ES+04 1.7309407 3.2000 01 1.0254+05 5.G715+07 3.3273+04 1.S3GS+07 3.3040 01
- 1. 0 : L ".+05 5. 6715,+ 07 3.3273+04 1.8305+07 3.3040 01 1.0350+C5 5.7259+07 3.4286+04 1.8926+07 3.4020-01 1.0350+C5 5.7259+07 3.42SS+04 1.892507 3.4020 01 1.03:5+C5 5.7123+07 3.5372+04 1.952e+07 3.5070 01 1.03:5+C5 5.7123+0?
3.5372+04 1.9526+07 3.5070-01 1.0243+05 5.6670+07 3.6375+04 2.0031+07 3.6050 01 1.0243+05 5.6570+07 3.6375+04 2.008t+07 3.6050-01 1.0216+C5 5.6523+07 3.7377+04 2.UG35+07 3.7030-01 1.0216+05 5.652S+07 3.7377+04 2.0635+07 3.7030 01 1.0263+C5 5.6797+07 3.8382+c4 2.1191+07 3.8010 01 1.0:53+05 5.6797+07 3.03S2+04 2.1191+07 3.3010 01-1.0:C0+C5
- 5. 090 t +07 3.94G2C)4 2.1789+07 3.50GO 01 1.02CU+05
- 5. G 001 +07 3.94G2+04 2.1789+07 3.3050 01 1.0304+C5 5.7047407 4.0472+04 2.2340+07 4.0040 01 1.0301+05 5.7047+07
- 4. 0 472 +':.
2.234S+07 4.00*" 31 1.0 50-c5
- 5. G D9+07 4.14%+04 2.200G+07 4.1000 t. :
1.0290+C5 5.6979+07
- e. 450+04 2'.2906+07 4.1020 01
- 1. 012::+C5 5.6079+07 4.2543+04 2.3495+07 4.207G-01 1.0172+05 5.6079+07
'4.2543+04 2.3495+07 4.2070 t:1 1.0050+C5 5.5G:;9+07 4.35:9+04 2.4041+07 4.3050 01 1.0050-C5 5.5GB9+07 4.3529+04 2.404t+07 4.3050-01 1.013t+C5 5.G1 0,07 4.4502+04 2.4591+07 4.4030 01 1.0131+C5 5.G120+u7 4.45:2+04 2.4591+C7 4.4030 01 1.0164+C5 5.G316+07 4.5510+04 2.5143+07 4.5010 01 1.0tG4+05 5.631G+07 4.5518+04 2.5143+07 4.5010 01
- 1. Co fi2 + 05
- 5. 50 G 9+ 07 4.057G+04 2.57:U407 4.6000 01 1.00E2+05 5.50G9407 4.G57G+04 2.57 0+07
- 4. 'GO G O. 01 1.0073+05 5.53::0+07 4.75G4+04 2.G277407 4.7040 01 1.0073+C5 5.5U00+07 4.7504+04 2.0277+07 4.7040 01 1.0171+C5 5.G397+07 4.D500+04 2.60 9+07 4.LO20 01
- 1. 017 t +C5 5.G397+07 4.05G0+04 2.CU29+07 4.S'120-01 1.0114+C5 5.00GG+07 4.9622+04 2.7430+07
- 4. 38;70-D 1 1.0114+C5 5.60GG+07 4.9G:2+04 2.74 U+07
- 4. 'ya 70 O f 1.001t+C5 5.55:'*3107 5.0003*04 2.700;+07 5.0050 01 1.001t+C5 5.55 3+07 5.0G03+04 2.79G2+07 5.0050 01 1.0045+C5 5.57 7+07 5.1523+04 2.050H+07 5.1030 01 1.0045+C5 5.5707+07 5.Ib63+04 2.05ca.07 5.3030 01 1.00:0+C5 5.5599*07 5.2b70+04 2.9053407 5.2010 01 1.0000+05 5.5509+07 5.2570+04 2.5053+07
$.2010 01 9.G435+C4 5.4G24+07 5.3CO3+04 2.9G27+07 5.3060 01 9.8435+C4
'5.4G24+07 5.3G03+04 2.9G27+07 s N.
5.3000-01 9.73:5+C4 5.409G+07 5.4562+04 3.0159+07 5.4040 01 9.7825+C4 5.429G+07 5.4562,04 3.0159+07 5.4040 01 9.95tt+C4 5.54:G+07 5.5540+04 3.0702+07 5.5020 01 9.9511+04 5.54:S+07 5.5540+04 3.0700+07 5.3020 01 1.0 tot +C5 5.5tt1+07 5.060t+04 3.1291+07 5.6070-01 1.ut01+C5 5.6111+07 5.660t+04 3.1291,07 5.6070 01 9.G734+C4 5.4849+c7 5.7568+04 3.to:3+07 5.7C50 01 9.8734+C4 5.484S+07 5.75G5+04 3.1829+07 5.7050 01 9.6657+C4 5.369e07 5.55tG+04 3.2355+07 5.8030 G 9.6G57+C4 5.3639+07 5.6516+04 3.2355+07 5.8030-01 9.7U21+C4 5.4359-07 5.9474 04 3.2G68+07 5.0010 01 9.732t+C4 5.4369+07 5.9474+0.<
3.2338,07
,5.9010 01 9.9112+C4 5.5t11+07 6.0515+04 3.3467+07 16
D-B (Table 5 (Sheet 3)
Masa Energy Total Total Time Flow Flev P. ass Energy (see)
(1b /sec)
(Bru/sec)
(1b)
(Btu)
- 6.0060 01 9 5112+C4 5.511t+07 6.0515+04 3.3467+07*
6.0050 01 9.7707+c4 5.4335+07 6.1472+04 3.3999+07 6.1040 01 9.7707+04 5.4335+07 6.1472+04 3.3999+07 6.1040 01 9.6:20+04 5.351G+07 6.2415+04 3.4524+07 6.2020 01 9.6220+04 5.3516+07 6.2415+04 3.4524+07 6.2020 01 9.7550+u4 5.4256+07 6.3440+04 3.5094+07 6.3070 01 9.755a+04 5.4286+07 6.3440,04 3.5094+07 6.3070 01 9.8996+C4 5.5114+07 6.4410+04 3.5634+07 6.4050 01 9.8996+04 5.5114+07 6.4410+04 3.5534+07 6.4050 01 9.7449+C4 5.4:St+07 6.5355+04 3.6165+07 6.5030 01 9.7449+c4 5.4:St+07 6.5355+04 3.6165+07 6.5030 01 9.6412+C4 5.3693+07 6.6310+04 3.6592+07 6.6010-01 9.6412+C4 5.3593+07.
6.6310+04 3.6G92,07 6.6010 01 9.763S+04 5.4513+07 6.7337+04 3.7264+07 6.7060 01 9.7332+04 5.4513+07 6.7337+04 3.7264+07 6.7060 01 9.9t9F W 5 5296+07 6.C309+04 3.7806+07 6.8040 01 9.9196+04 5.5296+07 6.S309+04 3.7805+07 6.8040-01' 9.8034+04 5.4691+07 6.9270+04 3.8342+07 6.9020 01 9.8094+04 5.4691+07 6.9270+04 3.834 +07 6.9020 01 9.6419+04 5.3766+07 7.0253+04 3.8905+07 7.0070 01 L.6419+C4 5.3766+07 7.0293+04 3.6906+07 7.0070 01 9.6440+04 5.3800+07 2 4423+04 3.9434+07 7.1050 01 9.6440+C4 5.3a00+07 7.12 2.04 3.9434+07 7.1050 01 9.7197+04 5.4245+07 7.2130+ 14 3.9955+07 7.2030-01 9.7197+04-5.424a+07 7.2180+04 3.9935+07
' ' 7.2030 01 9.7075+04 5.4195+07 7.3132+04 4.0496+07 7.3010 01 9.7075+C4 5.4195+07 7.313 +04 4.040G+07 7.3010-01 9.6553+C4 5.3915+07 7.4146+04 4.1063+07 7.4000 01 9.6553+C4 5.3915+07 7.4146+04 4.10c3+07-7.4060 01 9.6893+C4 5.4126+07 7.5055+04 4.1593,07 7.5040 01 9.6393+04 5.412G+07 7.5095+04 4.1593+07 7.5040 01 9.7018+04 5.4218-07 7.604G+04 4.2124+07 7.G020 01 0.7018+C4 5.4218+07 7.G04G+04 4.21:4+07 7.G030 01 9.5340+04 5.3295+07 7.7047+04 4.2004+07 7.7070 01 9.534E+C4 5.3295+07 7.7047+04 4.2GC4 07 7.7070 01 9.3270+04 5.2147+07 7.79Gl+04 4.3tss+07 7.8050-01 9.3276+04 5.2t47+07 7.79Gl+04 4.3195,07 7.8050 01 9.336G+C4 5.2217+07 7.8376+04 4.3707+07 7.9030 01 0.33G6+04 5.2217+07 7.s876+04 4.3707+07 7.0030 01 9.5005,04 5.3195+07 7.9u00+04 4.42:U+07 U.0010 01 9.5065+04 5.3195+07 7.900G+04 4.400E+07 B.0010 01 9.G096+04 5.4250+07 8.0025+04 4.479u407 8.1060 01 9.GB96+04 5.4250+07 0.0025+04 4.4793+07 8.1000 01 9.623S+04 5.3898+07 8.17CS+04 4.532G+07 8.2040 01 9.G238+04-5.3898+07 6.t75S+04 4.532G+07 8.2040 01 9.2210+04 5.'tS4t+07 8.2572+04 4.5832+07 8.3020 01 9.2210+C4
. 1G4t+07 8.2672+04 4.5832+07 8.3020 01 9.2347+C4 5.2027+07 8.3647+04 4.6378+07 I
6.4070 01 9.2847+C4 5.2027+07 8.3647+04 4.6376 07 8.4070 01 9.3246+C4 5.2273+07 8.456t+04 4.6890+.7 l
8.5050 01 9.3246+04 5.2278+07 S.455t+04 4.6890,07 8.50'50 01 9.0797+04 5.0902+07 8.545t+04 4.7359+07 1
8.6030 01 9.0797+C4 5.0902+07 8.545t+04-4.73a9+07 8.6030 01 9.53E9+04 5.35:S+07 S.63S5+04 4.7914+07 i
a.
8.7010 01 9.5229+C4 5.3523+07 S.6385+04 4.79:4,07
- 8.7010 01 9.1:50+C4 5.I155+07 8.7344+04 4.845t+07 8.8060 01 9.1:50+C4 5.1195+07 8.7344+04 4.6451+07 8.8060 01 9.4081+C4 5.2833+07 8.8:55+04 4.8969+07
- 8.9040 01 9.4 cst +C4 5.2233+07 a.0265+04 4.8969+07 8.9040 01 8.7810+04 4.9293+07 8.91:5+04 4.9452+07
~
17 c
D-B
^
Table 5 (Sheet 4)
Mass Energy Total Total Ti::2e F3ow Flo7 Mass Enargy (sec)
(lh/sec)
(Btu /sec)
(lb)
(Etu)
'9.0020-01
- 8. 7810+i:4 4.9293+07 8.9126+04 4.9452+07 9.0020-01 8.9903+04 5.0509+07 9.0070+04 4.9983+07 9.1070-01 8.9503+04 5.0509+07 9.0070+04 4.9933+07 9.1070 01 S.0527+04 4.9969+07 9.0942+04 5.0472+07 9.2050-01 8.8927+C4 4.9969+07 9.0942+04 5.0472+07 9.2050 01 9.0773+C4 5.1034+07 9.1831+04 5.0972+07 9.3030 01 9.0773+04 5.1034+07 9.1831+04 5.0972+07 9.3030 01 9.2147+C4 5.1834+07 9.2734+04 5.1480+07 9.4010-01 9.2147+04 5.1834+07 9.2734+04 5.1480+07 9.4010 01 8.9C06+04 5.05St+07 9.3578+04 5.20t2+07 9.5060 01 8.9906+04 5.05S1+07 9.3673+04 5.2012+07 9.5060-01 8.9012+C4 5.010t+07 9.4550+04 5.2503+07 9.6040-01 8.9012+C4
'5.0101+07 9.4550,04 5.2503+07 9.o040-01 8.8085+c4 4.9599+07 9.5414+04 5.2959+07 9.7020-01 8.EUSS+C4 4.9559+07 9.5414+04 5.2339+07 9.7020 01 S.8492+C4 4.9848+07 9.6343+04 5.3512+07 9.8070-01 8.8492+C4 4.9348+07 9.6343+04 5.3512+07 9.8070 01 9.0192,04 5.0028+07 9.7227+04 5.4010+07 9.9050 01 9.0192+04 5.0323+07 9.7227+04 5.4010+07 9.9050 01 9.1244+04 5.1442+07 9.2004+04 5.4499+07 1.0000+00 9.1244+C4 5.1442+07 9.6094+04 5.4499+07 1.0000+00 3.05S4+04 5.1094+07 9.6999+04 5.5010+07 J
I I
l 18
D-B Table 6 (Sheet 1) 14.14 Ft2 (2A) F.ot Leg Break Data for Stccc2 Ccncretor Cc::artr nr Fressuriintion Mass Release Energy Relecce Time Interval Rate Rate Enthalpy (sec)
(1b=/sec)
(Btu /sec)
(Stu/lbm) 0.00 -
.01 131598.40
.8216284E+08 624.35 0.01 -
.02 117632.37
.7334166E+08 623.48 0.02 -
.03 103616.38
.6449550E+08 622.45 0.03 -
.04 90563.38
.5628773E+08 621.53 0.04 -
.05 8140S.59
.5057942E+08 621.30 0.05 -
.06 77832.17
.4844156E+08 622.38 0.06 -
.07 79030.97
.4928072E+0S 623.56 0.07 -
.08 82497.50
.5151848E+08 624.49 0.08 -
.09 86373.63
.5397602E+08 624.91 0.09 -
.10 89660.34
.5603397E+0S 624.96 u.10 -
.11 92434.61
.5776660E+08 624.95 0.11 -.
.12 94605.39
.5910090E+08 62's.71 0.12 -
.13 96203.80
.6004995E+08 624.20 0.13 -
.14 97102.90
.6060939E+08 624.18 0.14 -
. 15 97502.50
.6079920E+08 623.57 0.15 -
.16 97302.70
.6064935E408 623.31 0.16 -
- .17 96703.30
.6019930E+0S 622'.52 0.17 -
.18 95774.65
.5955734E+08 621.85 0.18 -
.19 94605.39
.5874126E+08 620.91 0.19 -
.20 93506.49
.5804196E+08 620.73 0.20 -
.21 92307.69
.5724276E+0S 620.13 0.21 -
.22 91508.49
.5664336E+08 619.00 0.22 -
.23 90809.19
.5624376E+0S 619.36 0.23 -
.24 90409.59
.5584416E+08 617.68 0.24 -
.25 90442.66
.5583501E+08 617.35 0.25 -
.26 90509.49
.5584416E+08 617.00 0.26 -
.27 90809.19
.5594406E+08 616.06 0.27 -
.28 91308.69
.5624376E+08 615.97 0.28 -
.29 91808.19
.5644356E+08 614.80 0.29 -
.30 92207.79
.5664336E+08 614.30 0.30 -
.31 92707.29
.5694306E+0S 614.22 0.31 -
.32 92957.75
.5704225E+08 613.64 0.32 -
.33 93206.79
.57142S6E+08 613.08 0.33 -
.34 93306.69
.5714286E+08 612.42 0.34 -
.35 93106.89
.57142S6E+08 613.73 0.35 -
.36 92907.09
.5684316E+08 611.83 0.36 -
.37 92507.49
.5664336E+08 612.31 0.37 -
.38 92007.99
.5634366E+0S 512.38 0.38 -
.39 91448.69
.5593561E+08 611.66 O.39 -
.40 90709.29
.5544456E+08 611.23 0.40 -
.41 89910.09
.5504496E+08 612.22 0.41 -
.42 89010.99
.5444555E+08 611.67 0.42 -
.43 88111.89
.5384615E+08 611.11 0.43 -
44 87212.79
.5334665E'08 611.68 0.44 -
.45 86413.59
.5274725E+08 610.40 19
D-B Tabic 6 (Sheat 2)
Macs Releasa Energy Releac1 Tice Intarval Rate Rate Enthalpy (sec)
(1by./sec)
(Btu /sec)
(Btu /lbc) 0.45 -
.46 85613.68
.523138SEM 8 611.15
- 0. :6.-
.47 8491c.08
.5184815E+08 610.59 0.47 -
.48 84215.78
.5144855E+08 610.91 0.48 -
.49 83616.38
.5104895 EMS 610.51
- 0.49 -
.50 83216.78
.5084915Ew 8 611.04 0.50 -
.51 82817.18
.5044955E+08 609.17 0.51 -
.52 823J7.68
.5024575E+08 E10.44-0.52 --
.52 82092.56
.5000000EM 8 609.07 0.53 -
.54 81718.28
.4975025E+08 608.80 0.54 -
.55 81418.56
.4965035EM 8' 609.82 0.55 -
.56 81218.78
.4945055EM 8 608.86 0.56 -
.57 80919.08
.4915085608 607.'.1 0.57 -
.58 80619.38
.4915085E+08-609.67 0.58 -
.59 803.".68
.4885115EM8 608.21 0.59 -
.60 800t.,. 48
.4869215E+08 608.04 0.60 -
.61 79820.18
.4845153E+08 607.01 0.61 -
.62 79420.58
.4825175E+08 607.55 0.62 -
.63 79220.78
.4815185EM 8 607.82 0.63 -
.64 78621.18
.4785215E+08 607.10 0.64 -
.65 78521.48
.4765235 EMS 606.87 0.65 -
.66 78121.88
.4745255Ea38 607.42 0.66 -
.67 77766.60
.4718310EM 8 606.73 0.67 -
.68 77522.48
.4695305 EMS 605.67 0.68 -
.69 77122.88
.4685315E+08 607.51 0.69 -
.70 76823.18
.4655345EM8 605.9B 0.70 -
.71 76523.48
.4635365EM8 605.74 0.71 -
.72 76223.78
.4615385EM 8 605.58 0.72 -
.73 75924.08
.4605395EM 8 606.58 0.73 -
.74 75653.92
.4577465E+08 605.05 0.74
-.75 75324.88
.4565435EM8 606.10 0.75 -
.76 75124.88
.4545455E+38 605.05 0.76 -
.77 74825.17
.4525475E+08 604.81 0.77 -
.78 74525.47 4505495 EMS 604.56 0.78 -
.79 74325.67
.4495504E+08 604.84 0.79 -
.80 74025.97
.4475524EM 8 604.59 0.80 -
.81 73843.06
.4466801EM S 604.90 0.81 -
.82 73526.47
.4445554EM 8 604.62 0.82 -
.83 73326.67
.4435564E+08 604.90 0.83 -
.84 73226.77
.441':S4E+08 603.00 0.84 -
.85 72927.07
.4405594E+08 604.11 0.85 -
.86 72727.27
.4385614EM 8 603.02 0.86 -
. 8, 72527.47
.4385614E+08 604.68 0.87 -
.88 72334.00
.4366197E+08 603.62 0.88 -
.89 72227.77
.4355644E+C8 603.04 20
D-3
~
Table 6 (Sheet 3)
' Mess Release Energy Releasa Time Interval Rate Rate Enthalpy (sec)
(1bm/sec)
(Etu/see)
(Etu/sec)
' O.89 -
.90 71928.07
.4335664E+08 602.78 0.90 -
.91 71928.07
.4335664E+08 602.78 0.91 -
.92 71628.37
.4325674E+04 603.91 0.92 -
. 93 71628.37
.4305694E+0S 601.12 0.93 -
.94 71328.67
.4305694E+08 603.64 0.94 -
.95 71327.97
.4295775E+08 602.26 0.95 -
.96 71128.87 4285714E+0S 602.53 O.96 -
.97 71028.97
.4275724E+08 601.97 0.97 -
.98 70929.07
.4265734E+0S 601.41 0.98 -
.99 70829.17
.4265734E+0S 602.26 0.99 - 1.00 70870.87
.4264264E+08 601.69 1.00 - 1.01 70700.00
.4250000E+08 601.13 1.01 - 1.02 70100.00
.4220000E+08 602.00 1.02 - 1.03 70500.00
.4240000E+0S 601.42 1.03 - 1.04 70500.00
.4230000E+08 600.00 1.04 - 1.05 70400.00
.4230000E+08 600.85 1.05
.1.06 70300.00
.4220000E+08 600.28 1.06 - 1.07 70200.00
.4220000E+0S 601.14 1.07 - 1.08 70100.00
.4210000E+0S 600.57 1.08 - 1.09 69600.00
.4180000E+08 600.57 1.09 - 1.10 70100.00
.4210000E+08 600.57 1.10 - 1.11 70000.00
.4200000E+0S 600.00 1.11 - 1.12 69900.00
.4190000E+03 599.43 1.12 - 1.13 69900.00
.4190000E+08 599.43 1.13 - 1.14 69800.00
.4190000E+08 600.29 1.14 - 1.15 69800.00
.4180000E+08 598.85 1.15 - 1.16 69200.00
.4150000E+08 599.71 1.16 - 1.17 69800.00
.4180000E+08 598.85 1.17 - 1.18 69600.00
.4170000E+0S 599.14 1.18 - 1.19 69700.00
.4180000E+0S 599.71 1.19 - 1.20 69600.00
.4170000E+08 599.14 1.20 - 1.21 69600.00
.4160000E+03 597.70 1.21 - 1.22 69600.00
.4170000E+08 599.14 1.22 - 1.23 69100.00'
.4130000E+0S 597.68 1.23 - 1.24 69300.00
.4160000E+0S 600.29 1.24 - 1.25 70000.00
.4160000E+0S 594.29 1.25 - 1.26 69000.00
.4160000E+08 602.90 1.26 - 1.27 70000.00
.4160000E+08 594.29 1.27 - 1.28 69000.00
.4150000E+08 601.45 1.28 - 1.29 70000.00
.4160000E+08 594.29 1.29 - 1.30 69000.00
.4120000E+08 597.10 1.30 - 1.31 69000.00
.4150000E+03 601.45 1.31 -- 1.32 70000.00
.4150000E+08 592.86 1.32 - 1.33 69000.00
.4150000E+0S 601.45 1.33 - 1.34 70000.00
.4150000E+0S 592.86 1.34 - 1.35 69000.00
.4140000E+03 600.00 21
^
~'
FB-
~
Table 6 (Sheet 4)
Mass Release Encrgy Relcase Time Interval Race Race Enthalpy (sec)
(ib=/sec)
(Btu /sec)
(Btu /sec) 1.35 - 1.36 69000.00
.4150000E+08 601.45 1.36 - 1.37 69000.00
.4110000E+08 595.65 1.37 - 1.38 70000.00
.4140000E+08 591.43 1.38 - 1.39 69000.00
.4140000E+08 600.00 1.39 - 1.40 69000 00
.4130000E+08 598.55 1.40 - 1.41 69000.0(
.4140000E+08 600.00 1.41 - 1.42 70000.Cf
.4130000E+08 590.00 1.42 - 1.43 69000.
.4130000E+08 598.55 1.43 - 1.44 69000.0.
4100000E+08 594.20 1.44 - 1.45 69000.00
.4130000E+08 598.55 1.45 - 1.46 69000.00
.4130000E,08 598.55 1.46 - 1.47 69000.00
.4120000E+)8 597.10 1.47 - 1.48 69000.00
.4120000E+i18 597.10 1.48 - 1.49 69000.00
.4120000E+08 597.10 1.49 - 1.50 69000.00
.4120000E+08 597.10 1.50 - 1.51 69000.00
.4080000E+08 591.30 1.51 - 1.52 69000.00
.4120000E+08 597.10 1.52 - 1.53 69000.00
. 41-le000E+33 595.65 1.53 - 1.54 68000.00
.4100000E+08 602.94 1.54 1.55 69000.00
.4110000E+08 595.65 1.25 - 1.56 69000.00
.4100000E+08 594.20 1.56 - 1.57 69000.00
.4100000E+08 594.20 1.57 - 1.58 68000.00
.4070000E+08 598.53 1.58 - 1.59 69000.00
.4100000E+08 594.20 1.59 - 1.60 69000.00
.4090000E+08
'592.75
'1.60 - 1.61 68000.00
.4090000E+08 601.47 1.61 - 1.62 69000.00
.4090000E+08 592.75 1.62 - 1.63 68000.00
.4080000E+08 600.00 1.63 - 1.64 69000.00
.4080000E+08 591.30 1.64 - 1.65 68000.00 4060000E+08 597.06 1.65 - 1.66 68000.00
.4080000E+08 600.00 1.66 - 1.67 69000.00
.4070000E+08 589.86 1.67 - 1.68 68000.00
.4080000E+09 600.00 1.68 - 1.69 69000.00
.4080000E+08 591.30 1.69 - 1.70 68000.00
.4070000Ea08 598.53 1.70 - 1.71 68000.00 4070000E+08 598.53 1.71 - 1.72 68000.00 4050000E+08 595.59 1.72 - 1.73 68000.00
.4060000E+08 597.06 1.73 - 1.74 68000.00 4070000E+08 598.53 1.74 - 1.75 68000.00 4060000E+08 597.06 1.75 - 1.76 68000.00 4060000E+08 597.06 1.76 - 1.77 67000.00
.4060000E+08 605.97 1.77 - 1.78 68000.00
.4050000E+08 595.59 1.78 - 1.79 67000.00
.4020000E'08 600.00 22
D-B
.-s Tr.bic_6 ' (Fheet 5)
Mass Release Energy Release Tinn Interval Rate Rate Enthalpy (sec)
(1bm/sec)
(Etu/sec)
(Etu/sec) 1.79 --1.80 67000.00 4040000E+08 602.99 1.80 - 1.81 68000.00 4050000E+0S 595.59 1.81 - 1.82 67000.00 4030.000E+00 601.49 1.82 - 1.83 67000.00 4030000E+0S 601.49 1.83 - 1.84 67000.00
- 4030000E+0S 601.49 1.84 - 1.85 67000.00 4030000E+08 601.49 1.85 - 1.86 67000.00 3990000E+0S 595.52 1.86 - 1.87 66000.00 4020000E+0S 609.09 1.87 - 1.88 67000.00 4010000E+0S' 598.51 1.o8 - 1.89 67000.00 4000000E+0S 597.01 607.58 1.89 - 1.90 66000.00 4010000E+0S 1.90 - 1.91 66000.00 3990000E+08 604.55 1.91 - 1.92 67000.00 4000000E+0S 597.01 1.92 - 1.93 65000.00 3960000E+0S 609.23 1.93 - 1.94 66000.00 3980000E+03 603.03 1.94 - 1.95 66000.00
.T9G0000E+03 603.03 1.95 - 1.96 66000.00 3970000E+08 601.52 1.96 - 1.97 65000.00 3970000E+0S 610.77 1.97 - 1.98 66000.00 3960000E:03 600.00 1.98 - 1.99 65000.00 3960000E+08 609.23 6
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- D-B Table 7_
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(psi) 1 - 11 86 5h 11h.06
- 11 23.hh 127 5 3 - 11 23.6h 51.0 k - 11 38.8h 12h.1
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ENCLOSURE 2 ag.
DAVIS-BESSE UNIT 1 REACTOR CAVITY INERTIA TERMS Vent Flow Path.
L/A (Ft." )
1-2 0.8249 1-3 0.3770 1-5 0.3330 1-9 0.6246 1 - 10 0.5714 1 - 18 4.74292 1 - 27 0.4018 2 - 24 0.0091 2 - 26 0.0501 2 - 27 0.0549 3-2 0.8471 3-4 0.27046 3-9 0.6246 3 - 27 0.5093 4-2 0.78033 4-6 0.19785 4 - 11 0.5714 4 - 27 1.8650 5-7 0.27046 5 - 10 0.5714 5 - 18 4.74292 5 - 27 0.5934 6-8 0.27046 6 - 11 0.5714 6 - 27 1.5368 7-8 0.24178 7 - 12 0.6246 7 - 27 0.7228 8 - 12 0.6246 8 - 27 0.7228 9 - 10 0.4124 9 - 11 0.4124 9 - 13 0.21052 10 - 12 0.4124 10 - 13 0.21052 11 - 12 0.4124 11 - 13 0.21052 12 - 13 0.21052 13 - 14 0.7091 13 - 19 0.10683 14 - 15 0.1105 15 - 16 0.0494 16 - 17 0.0869 17 - 18 0.1094 18 - 27 0.2031 19 - 20 0.09688 20 - 21 0.05417 21 - 22 0.07917 22 - 23 0.06841 23 0.02339 F
24 0.0276 24 - 26 0.0659 24 - 27 0.5110 25 - 27 0.0265 26 - 27 0.1159
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ENCLOSURE 3 DAVIS-BESSE UNIT 1 STEAM GENERATOR' COMPARTMENT INERTIA TERMS Vent Flow Path L/A (Ft.-l) 1-2 0.1949 1-3 0.0590 1-4 0.0480 1-8 0.7500 2-3 0.0859 2-5 0.0199 2-8 0.7317 2 - 11 0.0549 3-5 0.0256 3 0.0501 4-5 0.0741 4-6 0.1485 5-6 0.0341 5-7 0.0659 5 - 11 0.5110 6 - 11 0.0265 7 - 11 0.1118 8-9 1.1639 8 - 10 0.2482 8 - 11 0.0706 9 - 11 10 - 11 0.2384 0.2070 i
I:
II
--