Forwards Responses to Questions Re Panthers/Pcc Data

ML20092B510
Person / Time
Site:	05200004
Issue date:	08/30/1995
From:	Quinn J GENERAL ELECTRIC CO.
To:	Quay T NRC (Affiliation Not Assigned), NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
MFN-171-95, NUDOCS 9509120052
Download: ML20092B510 (10)
v • d • e

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GENuclearEnergy J. E. Quinn. Projects Manager General Electnc Company LMR and SBWR Programs 175 Curtner Avenue, wC 16S San Jose. CA 95125-1014 408 925-1005 (phone) 408 925-3991 (facsimile)

August 30,1995 M FN 171-95 Docket STN 52-004 Document Control Desk U. S. Nuclear Regulatory Commission Washington DC 20555 l

Attention: Theodore E. Quay, Director Standardization Project Directorate i

Subject:

SBWR - Information on PANTHERS /PCC Data Needed from General Electric

Reference:

Letter from J. Wilson (NRC) to P. F. Billig (GE), Information on PANTHERS /PCC Data Neededfrom General Electric, August 16,1995.

Attached are responses to questions received by GE on August 16,1995 (Reference) regarding the PANTHERS /PCC data. These questions and responses were discussed during the August

{

21 and 22,1995 NRC-ACRS-GE Meeting in San Jose, CA.

Sincerely,

/'

ames E. Quinn, Projects Manager l

Attachment:

Responses to information requested by the NRC on PANTHERS /PCC test I

data.

cc:

P. A. Boehnert (NRC/ACRS) (2 paper copies w/att. plus E-Mail w/o att.)

)

I. Catton (ACRS)

(1 paper copy w/att. plus E-Mail w/o att.)

S. Q. Ninh (NRC)

(2 paper copies w/att. plus E-Mail w/o att.)

J. H. Wilson (NRC)

(1 paper copy w/att. plus E-Mail w/o att.)

OkO onav*

ifI 9509120o52 950sso PDR ADOCK 05200004 PDR

i.

Attachment To MFN 171-95 RESPONSES TO NRC QUESTIONS ON PANTHERS /PCC DATA I.

For derived quantities:

1 1.

The ".DTA" files give the directly measured parameters from the tests. The second line gives the plant code for the instrument that is recorded. The fourth line gives the units. The data follows on the remaining lines.

The ".CFG" file describes the configuration employed for each test.

The file is read by the " personal computer for derived quantities calculation" and tells it which formula and what input values to use.

l The first character in each line is a flag (flag) indicating whether i

that line is used (1) or not used (0). Next is the derived quantity name (NOME), units (UNITA), and subroutine name (OPERAZIONE) that is used to calculate the quantity. The next ten numbers (PAR 1 to PAR 10) are input channels. When the input channel is less than 100, the value comes from the directly measured l

instruments. The attached table, PCCELI.XLS, gives the plant code for these channels. Not all measured instruments are sent to the derived quantities computer. When the input channel is between 100 and 200, the value is a constant which comes from the ". CST" file. The first line in the ". CST" file is channel 101, the next 102, and so on. The attached table, PCCEL2.XLS, gives a sample listing for these channels. If the input channelis greater than 200,it corresponds to the output channel of an earlier derived quantity.

The next number (PARll) gives the output channel for the derived quantity. The attached table, PCCELS.XLS, also gives the output channels. After PARll, are a comment and three flags directing the output to the screen (video), the historical data file (storico), and j

the steady-state check (stabilit).

The formulas used for the major derived quantities (flow rate, thennal power, and water level) are given in Section 5.2.2 of the Thennal-Hydraulic Data Report (SIET document 00393RP95).

The derived quantities are documented in the ".DAT" files.

d 4

pec-resp 1-

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Attachment To MFN 171-95 RESPONSES TO NRC QUESTIONS ON PANTHERS /PCC DATA I

l 2.

The following documents and drawings have been prosided to the l

NRC describing all instrument locations:

{

00095RS91 PANTHERS-PCC DAS SPECIFICATION 00157ST92 TECHNICAL SPECIFICATION FOR INSTRUMENT 1

INSTALLATION l

00393RP95 THERMAL HYDRAULIC DATA REPORT OF PANTHERS-PCC TESTS 00209DD93 PANTHERS-PCC: P&ID

]

j As-built drawings:

l 24.02.21 STEAM SUPPLY LINE UP TO MIXING POINT 24.02.22 AIR SUPPLY LINE UP TO MIXING POINT l

24.02.23 AIR-STEAM MIXTURE SUPPLY LINE FROM MIXING l

POINT TO PCC INLET SECTION i

24.02.24 PCC/CT PRESSURE EQUALIZING LINE i

{

24.02.27 Cr WATER DISCHARGING LINE i

24.02.13 DRAIN LINE 24.02.28 VENT LINE i

24.02.29 VT AIR-STEAM DISCHARGING LINE i

l 24.00.33 IC & PCC POOLS MAKE UP LINE i

24.00.34 IC & PCC POOLS DRAIN LINE 24.02.31 VT AIR-STEAM 8" DISCHARGING LINE I

II.

Other questions 1.

There were no temperature probes inside the heat exchanger tubes.

i 2.

For the ditTerential pressures (DP###, F####, and L####) the j

" Pressure Tap Elevation" refers to the measured difference in j

clevation between the upper and lower tap. For the absolute pressure measurements (P####), it refers to the elevation difference between the tap and the transducer. The drawings listed in response i

to I.2 give the instrument locations.

3.

In Table A2, the " penetration depth"is the measured distance from J

the inner wall into the fluid stream that the probe is located. The I

drawings listed in response to I.2 give the instrument locations. In i

i Table A3, the " cavity depth"is the design depth from the tube outer i

wall of the groove where the instrument is located. This is shown in

]

Figure A2.1 of the TECHNICAL SPECIFICATION FOR q

INSTRUMENT INSTALLATION (00157ST92).

V pcc-resp 2-v

5 Attachment To MFN 171-95 l

RESPONSES TO NRC QUESTIONS ON PANTHERS /PCC DATA l

4.

The measurement locations are given in the third column. Figure 3.5 describes the orientation in the pool. The instruments measure i

temperature of the water in the pool at that location.

i 5.

The drawings listed in response to I.2 give the instrument locations.

6.

"DTW ####" gives the delta-T across the tubes at the location given by "####". The inner wall temperatures are not directly recorded.

The data files contain the outer wall measurements (TW ####E) and the delta-T (DTW ####).

7.

All failed instnaments, which give non-numerical entries, are given in the Apparent Test Results (ATR) Reports for each test.

pcc-resp.

3-

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4 l

Nformation on PANTHERS /PCC test data needed from General Electric

(

I.

For derived quantities:

i I.

Given a. CST,.CFG, and.DTA file, please provide a formula for tying the parameter measured from a certain channel number to its physical location on the facility.

2.

With respect to question I, please provide a facility diagram clearly indicating the location of the measurements and the plant code / instrument ID associated with each measurement.

l II.

Other questions:

I.

Were any measurements taken of the fluid temperature inside the PCC HX tubes? If so, where are the sensors for these measurements described (Plant code, physical location, and diagram)?

2.

Referring to Table Al of the T-H Test Report:

Some of the elevations (mm) given for the pressure instruments did not appear to be in the range of elevations listed in Figure 3.1 of the T-H test report.

Is there a reference soint for these measurements?

Or, is there another diagram stowing where the measurements in the j

table are located on the test facility?

3.

Referring to Table A2 of the T-H Test Report: What is the meaning of the " penetration depth" of the fluid TCs, as given in the last column of the table? Is there a diagram showing where these measurements are located on the test facility? Also, referring to Table A3, what is the meaning of the ' cavity depth" given in the last column?

4.

Referring to Table A4 of the T-H Test Report: No verbal description is given regarding the location of these instruments.

Are they measuring anything besides temperature at certain locations within the PCC pool?

5.

Referring to Table 3.3 of the T-H Test Report:

What is the location on the test facility of the flow instruments listed in the table?

This question may have already been answered in the response to question I.3.

6.

Some Siles contain apparently undefined Plant Codes.

For example, in f sh SLPTH161.DTA, what measurement is "DTW B014" ? Can't find in an/ list.

Is this the delta-T across the tube wall? Also, cannot find TW-XXXX"1" measurements; that is, the measurements of the internal tube wall temperature.

7.

Do the data files contain any other non-numerical entries in the data columns besides "0VER RNG" and "0VERVOLT" (for example, see file t01th01.dtb)? Considering all the data files, how prevalent are the non-numerical entries?

..*END***

PCCEL1,XLS INPUT CHANNELS

/ '

1. Plant code PODS Ch #

Description 1

P-1001 18 2

P 7001 19 3

P 2001 20 4

P-4001 21 5

P-4002 22 6

P-A001 23 7

P 5001 24 8

P-LOO 1 25 9

PlOO1 26 10 P T001 27 11 P-T002 28 12 L-LOO 2 29 13 L-LOO 3 30 14 L-1001 31 15 L-LOO 2 32 16 L OOO1 33 17 L-OOO2 34 18 L 0001 35 19 L-QOO2 36 20 L.P001 37 21 F 1001 38 22 F-1002 39 1

23 F-1003 40 24 F-3001 41 25 F 2001 42 26 F 2002 43 27 F LOO 1 44 28 F T001 45 29 F T002 46 30 F-M001 47

/

J1 F-R001 48 32 T-1001 74 33 T 7001 75 34 T 3001 76 35 T 2001 77 36 T 9001 78 37 T 4001 79 38 T-4002 80 39 T-4003 81 40 T A001 82 41 T A002 83 42 T-C001 84 43 T-C002 85 44 T D001 86 45 T-F001 87 46 T 5001 88 47 T 5002 89 48 T LOO 1 90 j

49 T-LOO 2 91 50 T-LOO 3 92 i

PAGINA1 j

e PCCEL1.MLS INPUT CHANNELS

1. Plant code PODS Ch #

Description 51 T-LOO 4 93 52 T-LOO 5 94 53 T-6001 95 54 T-6002 96 55 T-LOO 1 97 56 TlOO2 98 57 T-LOO 3 99 58 T TOO1 100 59 T-OOO1 101 60 T-MOO 1 102 61 T-ROO1 103 62 T-NOO1 104 63 P-6001 177 64 T-pol 6 202 65 T-PO19 205 66 T-PO27 223 67 T-PO35 230 68 T-PO39 231 dupplicazione del 242 69 T-ELIO 232 t orifizioelio duppl slot-+6e l't,y 70 P ELIO 233 o orifizio elio duppi slot 17 '

71 DP ELIO 234 do orifizio elio duppt slot 16 72 T TOO2 251 duppi slot 179 73 F TOO3H 252 duppi slot 45 74 F TOO3L 253 duppl slot 46 75 76 77 78 79 EO 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 PAGINA2

l PCCEL2 XLS l

i 2

CONSTANT CHANNELS Name Value Units Note 101 tipofluido 1

102 D1 x F-steam 0.06665 m

103 d2 x F-steam 0.04185 m

j 104 D1 x F air orif. piccolo 0.02664 m

105 d2 x F-air orif. piccolo 0.00698 m

106 D1 x F-air. orif. grande 0.10226 m

f 107 d2 x F air. orif. grande 0.0242 m

i 108 D1 x F-lia. (F-3OO1) 0.0243 m

f 109 d2 x F-lig. (F-3OO1) 0.0078 m

{

110 m x F-cond (F-LOO 1) 4.5348E-07 m*3/Pa

• s

{

111 k x F-cond (F-LOO 1)

O

]

112 m x F-m 4.91667E-07 m*3/Pa

• s y

j 113 k x F-m O

)

114 m x F-r 4.92606 E-07 m'3/Pa

• s l

115 k x F-r O

]

116 p x F-m 1200 kPa 117 p x F-r 200 kPa 118 D1 x F out orif. grande 0.1282 m

j 119 d2 x F out orif. grande 0.09463 m

j 120 D1 x F-out orif. piccolo 0.0525 m

i 121 d2 x F-out orif, piccolo 0.01315 m

i 122 h x L-LOO 1 9.091 m

123 h x L LOO 2 2.247 m

i l

124 h x L-LOO 3 4.595 m

l 125 h x L-LOO 1 2.657 m

126 h x L-LOO 2 0

m l

127 h x L-O OO1 5.015 m

128 h x L-0002 1.1 m

1 129 h x L 0001 4.34 m

130 h x L COO 2 1.715 m

131 h x L POO1 4.205 m

)

132 P x L 0, L-0. L P 160 kPa 133 Intervallo di scansione 5

s 134 Superficie sezione VT 2.2112 m'

135 additivo L 01/P1 0.8 m

i

,1 136 D1 x orif. 8" O.20271 m

3 137 d2 x orif 8" 0.12392 m

138 D1 x orif. elio 0.0243 m

139

- d2 x orif. elio 0.0032 m

i 140

]

141 j

142

]_

143 j

144 145 146 4

147 148 j

149 4

150 Zero di appoggio O

per elaborazione l

PAGINA1

. -~

m

E i

PCCEL3.XLS OUTPUT CHANNELS Name Units Note Function 201 F steam kg/s portata ingresso vapore surriscaldato

.1,2,3 202 F-air kg/s portata ingresso aria

.4.5.6,7 203 F-lig kg/s portata acqua di desurruscaldamento 8

204 F-cond kg/s portata scarico CT 9

205 F-m kg/s portata alimneto piscina 10 206 F-r kg/s portata scarico piscina 11 207 F-out kg/s portata scarico VT

.13,14,15,16 208 Xt.:r-out titolo aria mix. scarico VT 12 209 Tavg-pool

'C temp. media piscina PCC 17 210 LCT-L1 m

livello CT totale 19 211 LCT-L2 m

livello CT parziale 20 212 213 Lvent11 m

livello VT alto 21 214 Lvent12 m

livello VT basso 22 215 Leatch-01 m

livello cacth tank 23 216 Lcatch-02 m

livello sifone cacth tank 24 217 Lpool-01 livello piscina IC parziale 26 livello piscina IC totale 25 a

218 Loool-Q2 m

219 Loool-P1 m

livello piscina PCC 27 220 Tavg LCT

• C temp. media CT 18 221 Fair-out kg/s portata aria uscita VT 47 222 Fsteam-out kg/s portata vap. uscita VT 48 223 l

224 Lvent old m

livello scansione precedente 28 225 226 227 H-steam kJ/kg entalpia vapore ingresso 29 228 H air kJ/kg entalpia aria ingresso 30 229 H-lig kJ/kg entalpia acqua desurriscaldamento 31 2J0 H cond kJ/kg entalpia acqua scarico CT 32 231 H-m kJ/kg entalpia acqua make up line 33 232 Hr kJ/kg entalpia scarico piscina 34 233 Hair out kJ/kg entalpia aria scarico VT 37 234 Hsteam out kJ/kg entalpia vapore scarico VT 36 235 236 H5 kJ/kg entalpia liq. in drain line 38 237 Ppvap-out kPa press. parziale vapore scarico VT 35 238

(

239 W steam kW potenza vapore ingresso 39 240 W air kW potenza aira ingresso 40 241 W-lig kW potenza liquido desurr. ingresso 41 242 W cond kW potenza uscente CT 42 243 244 245 W-out kW potenza uscente miscela VT 43 246 247 I

248 W exc kW potenza scambiata dal primario 44 249 250 Fin-tot kg/s portata totale entrante 45 i

PAGINA1

PCCEL3.XLS OUTPUT CHANNELS

/

Name Units Note Function 251 Fout-tot kg/s portata totale uscente 46 252 Xair-in titolo di aria in ingresso 49 253 Diff-Ftot diff. percentuale tra Fin-tot e Fout-tot 50 254 Diff-Fair diff. percentuale tra F-air e Fair-out 51 255 P-4002 KPa 52 256 T-4002

'C 53 257 Fsteam-true kg/s portata tot. Fsteam + F-lia 54 258 T surr

• C temp. surr. in PCC 55 259 F-Hel kg/s portata elio 56 260 F-Totgas kg/s portata aria + elio in PCC 57 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 PAGINA2

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