ML17250A669
| ML17250A669 | |
| Person / Time | |
|---|---|
| Site: | Ginna  |
| Issue date: | 09/25/1980 |
| From: | White L ROCHESTER GAS & ELECTRIC CORP. |
| To: | Crutchfield D Office of Nuclear Reactor Regulation |
| References | |
| NUDOCS 8010020376 | |
| Download: ML17250A669 (24) | |
Text
REGUL'Y INFORMATION DISTRIBUT
'YSTEM (RIDS)
V ACCESSION NBR:8010020376 DOC;DATE: 80/09/25 NOTARIZED:
NO DOCKET FACIL:50-244 Robert Emmet Ginna Nuclear Planti Unit 1i Rochester G
05000244 AUTH'AME AUTHOR AFFILIATION HHITKgL ~ D ~
Rochester Gas 5 Electric Corp.
REC IP ~ NAME REC IP IENJ AFFILIATION CRUTCHFIELDpD ~
Operating Reactors Branch 5
SUBJECT:
Forwards nonproprietary. version of input listing of RELAP4-FLOOD input 8 nodalization diagram for RELAP4-FLOOD input re environ qualification of electrical equipment.
DISTRIBUTION CODE:
A035S COPIES RECEIVED:I TR ENCL SIZE:
TITLE: SEP Topics NOTES:1 copy:SEP Sect.
Ldr.
05000244 RECIPIENT ID CODE/NAME ACTION:
CRUTCHF IELD 04 INTERNAL: A/D MATL8QUAL13 HYD/GEO BR 10 N
02 ILE 01 COPIES LlTTR ENCL 7
7 1
1 2
2 1
1 1
1 RECIPIENT'D CODE/NAME CONT SYS A
07 ILE 06 OR ASSESS BR 11 SEP BR 12 COPIES LTTR ENCL 1
1 2
2 1
1 3
3 EXTERNAL: ACRS NSIC 14 05 16 16 1
1 LPDR 03 OC7 3 ls80 TOTAL NUMBER OF COPIES REQUIRED:
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/ ////////
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'i~iyjg<<j iersz zluFE I,uziiut ROCHESTER GAS AND ELECTRIC CORPORATION o
S9 EAST AVENUE, ROCHESTER, N.Y. 14649 LEON D. WHITE, JR.
VICE PRESIDENT TELEPHONE ARCi COCE TIE 546.2700 September 25, 1980 Director of Nuclear Reactor Regulation ATTN:
Mr. Dennis M. Crutchfield, Chief Operating Reactors Branch 55 U.S. Nuclear Regulatory Commission Washington, D.C.
20555
Subject:
SEP Topic III-12, Environmental Qualification of Electrical Equipment R. E. Ginna Nuclear Power Plant Docket. No. 50-244
Dear Mr. Crutchfield:
As was requested in a recent telephone conversation, RG&E is providing a copy of the nonproprietary version of the input listing of the RELAP4-FIOOD input. for the Ginna'eactor to your consultant, Mr. David Veeland of Lawrence Livermore Laboratories.
Also, for clarity, a nodalization diagram for the RELAP4-FIOOD
- input, and a discussion of the data, xs provided.
Very truly yours, xc:
L. Tinkler - NRC D. Veeland - LLL PO~S 5
(li
0 "t
Attachment to SEJ:052:80 Sept.
16, 1980 Attachment RELAP4-FLOOD INFORMATION FOR'.E.
GINNA As requested, attached are a nodalization diagram and an input listing for the RELAP4-FLOOD calculation performed for R.E.
Ginna.
Input associated with proprietary Exxon Nuclear'o.
(ENC) options has been deleted.
Those using this information should be advised that this input is for a specialized version of RELAP4 developed for LOCA ECCS reflood analysis by the USNRC and documented in NUREG-75/056 as RELAP4-FLOOD.
BELAP4-FLOOD requires specialized input for both the system model and fluid conditions in order to perform the LOCA reflood calculation.
Input to and results from RELAP4-FLOOD are intended to yield a conservative analysis with respect to LOCA ECCS criteria and may not be suitable for other purposes.
Note also that the ENC WREM IIA PWR ECCS evaluation model.no longer uses RELAP4-FLOOD but instead uses an ENC developed reflood program
( REFLEX).
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AD UE PUMP STOP DATA NPTS TRP IX 20 2
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'IHE FLO'V TINE FLOW TIHE FLOW 130202 0 ~ 00 183 ~ 63 2e 00 183 ~ 99 4 ~ 00 184 ~ 29 1302D3 8 ~ 00 185 ~ 65 9 ~ 39 186 ~ 46 9 ~ 40 186 ~ 46 130204 66'3 193 F 01 95'4 196el6 123'5 199'1 130205 181 F 08 205 '1 209 '9 208 '6 238'1 211'1 130206 29S ~ 53 218'1 324 '4 221 '6 352e76 224'1 SIS FILL TABLE TO UPPER OOMNCOHER 130301 130302 130303 130304
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141001 141002 REFLOOO RENORHALIZEO POMER DECAY CURVE RP TIHE POMER TINE POMER 0 ~
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INITIAL HOT ASSEt".BLY HEAT SLAB TEHPERATU TINE POMER 10'6
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0 ~
27'23 27 '23 27 '23 27 '23 27 '23 27 '23 27 '23 27'23 27 923 27 '23 27'23 27'23 150011' 1
1 150021 0
1 1
0 ~
3161 '9 0 ~
3161 ~ 09 0 ~
3161 e09 0 ~
3161 '9 0 ~
3161 '9 0 ~
3161 '9 0 ~
3161 '9 0 ~
3161 '9 0 ~
3161 '9 0 ~
3161 F 09 0 ~
3161 '9 0 ~
3161 F 09 0
2 2
1 2
2 1
2 2
1 2
2 1
2 2
1 2
2 1
2 2
1 2
2 1
2 2
1 2
2 1
2 2
1 2
2
~
II 150031 150041 150051 150061 150071 0
1 1
0 1
1 0
1 1
0 1
1 0
1 1
0 1
1 150081
~
150091 150101 150111
~
150121 0
1 1
0 1
1 0
1 1
0 1
1 SG TUBES (I) 150131 4
23 2
0 2
2 17710 ~ 20073 ~
81 ~ 4 e166
~
150141 5 23 2
0 2
2 17710 ~ 20073 81 ~ 4
~ 166
~ 03933
~ 03933
~ 03933
~ 03933
~ 03933
~ 03933
~ 03933
~ 03933
~ 03933
~ 03933
~ 03933
~ 03933 0 ~
0 ~
0 ~
0 ~
0 ~
0 ~
0 ~
Oo 0 ~
0 ~
0 ~
0 ~
o0446
~ 0446
~ 0446
~ 0446
.044e F 0446
~ 0446 o0446
~ 0446 oG446
~ 0446
~ 0446
~9861
~ 9861 o9861 o9861
~ 9861
~ 9861
~ 9861
~ 9861
.9861
~ 9861
~ 9861
~ 9861
~9861
~9861
~ 9861
~9861
~ 9861
~ 9861
~9861
~ 9861
~ 9861
~ 9861 09861
~ 9861
~ 0646
~ 0646
~ 166
~ 166 e0646 29o8 29'
~ 06'I6 29o8 29' HDR HEDL HEDR CHL CHR SG TUBES IB) 150151 12 25 2
~
150161 13 25 2
0 2
2 17710 ~ 20073 ~
81 ~ 4
~ 166 0
2 2 17710 20073 ~
81 ~ 4
~ 166
~ 0646
~ 0646
~ 166
~ 166
~ 0646 29o8 29' F 0646 29' 29 '
CORE DATA
gP
, a$
=R E GINNA 0 ~ 4 DECLG REFLOOD
~ s PAGE 0008 1'i<
I' 0
8 160010 160020 160 030 t
16OO4O 160050 160060 160070 160080 160 090 160100 160110 160120 SLB NODE-TEHPS 1
7 9
17 2
7 9
17 7
9 17 7
9 17 5
7 9
17 6
7 9
17 7
7 9
17 8
7 9
17 9
7 9
17 10 7
9 17 11 7
9 12 7
9 17 CLAD TK
~ 0025 a0025
~ 0025
~ 0025
~ 0025
~ 0025
~ 0025
~ 0025
~ 0025
~ 0025
~ 0025
~ 0025 POMER
~ 03613
~06016 08108
- 09779 F 10943
~ 11541
~ 11541
~ 10943
~ 09779
~ 08108
~ 06016
~ 03613 I<
46j+4p
'~,
g
)r',"-'~'
'g HEAT SLAB GEOMETRY DATA GEO NR HAT SS XRAD 170101 2
3 1
6 0 ~
170102 1
5 2
170103 0
2 8
170201 2
2 3
5
~ 032 170202 0
6 5
U02 i
180100 20 180101 180102 800+0 2 '77 180103 1250 '
2'78 180104 1700 '
1 ~ 724 t
180105 2150 ~ 0 1 ~ 507
~
180106 26GO ~ 0 1 '82 180107 4100 '
1 F 406 Z IRC ALLOY
~
180200 18 180201
~ 32 '
7'12 180202 572 '
8'84 4
i~
180203 1112 '
11 '68 ii~180204 1652 '
13,968 180205 2192 '
17 '84
~
180206 2732 0
24 048 STNLESS STEEL 347 l
180300
-3
~
[
180301 0.0 9.000 STEEL 180400
-2 180401 0 ~ 0 25 F 000
- GAP 180500
-5
~
,']
180501 0 ~ 0 0 F 100 180502 1200 '
0 ~ 400 CONCRETE -
SG TUBE SCA
~
180600
-2 180601 90 '
0+9 1000
'IDTH PF
~ 01485 I ~
3 ~ 125E-4 0 ~
~ 0025 0 ~
29
~ 004167 0 ~
1 ~ 420-4 0 ~
- CORE-FUEL
- CORE-GAP CORE-CLADDING SG TUBES SG SEC TUBE SCALE THERHAL CONDUCTIVITY TABLES 20971 2+242 1 ~ 823 1 +568 1 ~ 415 1 ~ 333 1 ~ 730 200 ~ 0 950 ~ 0 1400 '
1850io 2300 '
3100 '
4600 '
650 ~ 0 1 100 ~ 0 1550 ~ 0 2000 ~ 0 2450 '
3600 '
5100 '
4 ~ 060 2 F 439 1 ~ 940 1 ~ 639 1 ~ 457 1 ~ 323 1 ~ 538 212 '
7 '92 752 '
9'40 1292 '
12a492 1832+0 14 '96 2372 '
19 '56 3092 '
28'08 392 ~ 0 932 ~ 0 1472 ~ 0 2012 ~ 0 2552 ~ 0 3360 '
8 ~ 208 10 +404 13 '76 16 '28 21 F 780 33 '20 200 '
F 000 1600 ~ 0 15 ~ 000 2000 '
15 F 000 900 ~ 0 0 ~ 275 0 ~ 118 0 ~ 400 330 '
2500 '
LES 0
0 ~ 9
~ t:
VOLUHETRIC HEAT CAPACITY TABLES
=R E GINNA 0 ~ 4 OECLG REFLOOO PAGE 0009 212 ~ 0 40 +950 2012~0 51o350 3452 0 63 F 050 4532a0 94 '50 5144 '01 '00 THERNAL EXPANSION TABLES
- U02 190100 16 190101 32a0 34 '50 122a0 38'50 190102 392 0
43 '50 752 '
46 800 190103 2732 '
52 '50 3092a0 56'50 190104 3812 '
72 F 800 4352 '
89 '00 190105 4532 '
98 '50 4892 '00 '00 190106 8000 ~
101 '00 ZIRCALLOY 190200 5
190201 0.0 28.392 1480.3 34.476 1675.0 85.176 190202 1787 ~ 5 34 ~ 476 3500 ~ 0 34 ~ 476
- STNLESS STEEL 347 190300
-2 190301 200 '
60 F 000 2200 '
80 ~ 000 STEEL 190400
-2 190401 0'
60 F 000 2000 '
80 F 000
- GAP 190500
-2 190501 0'
0 F 000 2000 '
0 F 000
- CONCRETE -
SG TUBE SCALES 190600 2
190601 90' 32 ~ 0 1000 '
32 '
U02 200100
-3 200101 0 ~ 0 3 ~ 79E-6 2400+0 5 ~ 93E-6 4800 ~ 0 8 ~ 08E-6 Z IRC ALLOY 200200
-4 200201 100 '
3 '0E-6 1550 '
3'0E-6 1800 '
2 '1E-6 200202 3000 '
3'3E-6
- STNLESS STEEL 347 200300
-3 200301 0'
9 ~ OOE-6 1600 '
10 '0E 6
2000 '
12 'OE-6 STEEL 200400 3
200401 0'
6'0E-6 1100 '
8'0E 6
2000 '
9 'OE-6
~
GAP 200500
-2 200501 0 '
0 '
2000 ~ 0 0 ~ 0 CONCRETE -
SG TUBE SCALES 200600
-2 200601 90' 1'E-5 1000 '
le2E-5 PRESSURE PENALTY OATA 260011 9
27 28 29 le 8
-0'
Q~ ~.
4>
~
~