Text

Transient Temp Study for Auxiliary Feedwater B Pump Room
	ML17304A769
Person / Time
Site:	Palo Verde
Issue date:	05/10/1988
From:	Riley H; BECHTEL GROUP, INC.
To:	;
Shared Package
ML17304A744	List: ML17304A743; ML17304A755; ML17304A760; ML17304A761; ML17304A762; ML17304A763; ML17304A769; ML17304A770; ML17304A771; ML17304A774;
References
	13-MC-HA-A03, 13-MC-HA-A03-R00, 13-MC-HA-A3, 13-MC-HA-A3-R, NUDOCS 8811230026
	Download: ML17304A769 (104)
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PROJECT INTERNALCONTROL NO.

(84,0] - laz -cALC -oa9.

CALCULATlONCOVER SHEET 18601-183 SHE=V

'I CALO. NO. 13-MC-HA-A03 TRANSIENT TEMPERATURE SUBJECT STUDY FOR AFW B PUMP ROOM PROJECT QUAUTY CLASS FILE NO.

MECH DISCIPLINE Q 0 0 0 0 O cll O a<

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Room, when the pump is in operation, uses an. Essential Air Cooling Unit (ACU) and the Essential Chilled Water System (ECWS) for cooling.

transient

24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months

AFW

hours, and then operates at 500 gpm for 22 hours2.546296e-4 days 0.00611 hours 3.637566e-5 weeks 8.371e-6 months .

HVAC

AFW

2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months

22 hours2.546296e-4 days 0.00611 hours 3.637566e-5 weeks 8.371e-6 months

24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months

HVAC

Secondly, the transient temperature for this room is studied for a time period of 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months , when normal HVAC is available.

TRANSIENT

AFW

probabilistic risk assessment

2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months

22 hours2.546296e-4 days 0.00611 hours 3.637566e-5 weeks 8.371e-6 months

24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months

AFW

TRANSIENT

AFW

r'ATE CALC. NO 3-MC-A-A03 SHEa NO.

OI

AFW

HVAC

approach, ACU fan will be assumed running, without chilled water through the essential coils.

AFW

handbook, reference 7.

14. This study is performed for a time period of 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

16. For'alculation of heat removed from the pump room for the case of normal HVAC, the supply air temperature is assumed to be 62 F.

17. For calculation of heat removed from the pump room for the case of normal HVAC, the room average ambient temperature is assumed to be 125 F.

18. Concrete has the following properties:

REFERENCES:

10 12 13 16 17 18 19 20 21 22 23 2.

3.

4 ~

5.

6.

7.

8.

9.

ASHRAE Handbook of Fundamentals, 1972.

Technical specification for thermal insulation materials and the application to piping and equipment, specification number 13-MM-301, Rev. 2.

Line designation list, 13-P-ZZG-014, Rev.

29.

Auxiliary building essential cooling system heat load calculation, calculation number 13-MC-HA-051, Rev.

1.

P 8 I diagram, Auxiliary Feedwater

system, drawing number 13-M-AFP-001, Rev.

26.

Principles of heat transfer, third edition, Frank Kreith, Intext Educational Publishers.

table A-2, Physical Properties of Some Nonmetals, page 635.

The National Electrical Code 1987

Handbook, fourth edition, General Lighting Loads by Occupancies, table 220-3 (b), page 100.

NAVCO Piping "Datalog", National Valve and Manufacturing

Company, Pittsburg, PA. Edition No. 10.

M.S.S.S.

Isometric Motor Driven Pump, Drawing Number 13-P-AFF-133, Sheet 1,

Rev.

18.

25 26 27 29 30 033 10.

M. S. S. S. Isometric Turbine Driven Pump, Drawing Number 13-P-AFF-132, Sheet 1,

Rev.

20.

11. Main Steam Support Structure, Floor Inserts and Penetrations, Drawing Number 13-C-ZCS-705, Rev.

19.

12. Main Steam Support Structure, Concrete Sections and

Details, Drawing Number 13-C-ZCS-703, Rev. 7.

13.

Equipment Location Containment Bldg. Drawing Number 13-P-ZCL-106, Rev.

4.

14. Auxiliary Feedwater Pump Outline, Log M021-3-10 35 36

\\ i

PROJECT REV TRANSIENT ORIGINATOR g

jets DATE CHECKER DATE 4'-f-8 REV ORIGINATOR CALCULATIONSHEET 18601-183 TEMPERATURE STUDY FOR AFW B PUMP ROOM DATE CALC. NO 13-MC-HA-A03 SHEET NO.

CHECKER DATE

. I

>o Wz 12 10 12 13 16 IB 19 20 21

15. Motor Outline, Auxiliary Feedwater Pump AFB-P01, Log M021-58-6.

16. Auxiliary Feedwater Pump data sheet, log M021-102-1

17. Reliance Electric Co. drawing, log M721A-112-2

18. User's and Theoretical Manuals Verification Report, program RMHTUP-Room Heat Up, program number ME 204, version A1, Bechtel Power Corporation, San Francisco Power Division.

19. Final Safety Analysis Report, Palo Verde Nuclear Generating Station, Amendment 17.

20. Q-Motor Test for Auxiliary Feedwater Pump AFB-P01, Log M021-128-1.

21."Q-Motor Pump Test 1M-AFB-P01, log M021-114-1.

22. Auxiliary Building Normal Cooling System Heat Load Calculation, Calculation Number 13-MC-HA-001, Rev. 3.

23. Basic Flow Diagram, HVAC Auxiliary Building, Drawing Number 13-M-HAF-002, Rev. 2.

24. Unit 1-Auxiliary Building Final Air Balance, log M634-150-1.

22 23 24 25 27 28 30

25. Detailed Design Criteria, Part III, System Auxiliary Building, Rev.

8.

26. Detailed Design Criteria, Part III, System Auxiliary Feedwater

System, Rev. 4.

27. Detailed Design Criteria, Part III, System Essential Chilled Water System, Rev.

3.

28. Transient Temperature Study for AFW A Pump Calculation Number 13-MC-HA-A04, Rev.

0.

HA, HVAC-AF, EC,

Room, 0;

36

(

(.

CALCULATIONSHEET PROJECT JOB NO.

18601-183 TRANSIENT TEMPERATURE STUDY FOR APW B PUMP ROOM LC NO 13-MC-HA-A03 SHEETNO.

l 3 REV ORIGINATOR DATE CHECKER DATE REV ORIGINATOR DATE CHECKER DATE

.J.O

>OI-ILIEC C

U V

SUMMARY

OF RESULTS:

The transient temperature summary for the AFW B pump room air is shown below.

For case A, the temperature values can be used directly.

IO

~

For cases B and C, having normal HVAC lowers the temperature profile for the room air. It is apparent that the maximum difference between corresponding temperatures in Cases B and C

is

< 1.5 F.

As explained in Section VII.D, the average of the results for cases B and C is felt to better estimate the transient temperature profile when normal HVAC is operating.

17 IB 19 Time Period No HVAC with only Normal HVAC CASE A CASE B

CASE C

AVG BEcc 0

0 0

0 20 21 25 27 2B 29 30 0 min 2 min 4 min 12 min 36 min 2 hr 4 hr 8 hr 12 hr 24 hr 75 88.92 96.91 106.83 111.85 114.67 119.70 126.72 132.08 136.60 144.16 161.25 85.98 92.35 75 85.74 91.99 100.52 100.01 104.58 103.99 106.82 106.18 110.80 110.08 116.35 115.51 120.58 119.65 124.14 123.14 130.11 128.97 143.58 142.15 85.86 92.17 100.27 104.29 106.50 110.44 115.93 120.12 123.64 129.54 142.87 36

~(

PROJECT SUBJECT TRANSIENT REV ORIGINATOR n

DATE V-s-gg CHECKER DATE REV OR IGINATO R CALCULATIONSHEET J

B NO 18601-183 TEMPERATURE STUDY FOR AFM B PUMP ROOM DATE CALC. NO 13-MC-M-A03 SHEET NO.

CHECKER DATE

.>(

o>>

4I+ c L

VI.

ROOM HEAT-UP COMPUTER MODEL A.

Model

Description:

(Ref 18)

The room heat-up computer program, RMHTUP, program number ME 204, version Al, can be used to study the room ambient air heat-up by the equipment heat or any other heat sources in the room.

10 12 13 The temperature of room ambient air increases with time, due to the heat released from the equipment and other sources.

The heat generated within the room is transferred.

to the ambient room air, stored in the room enclosure (walls, ceiling, and floor) and transferred to the air outside the room.

17 I8 19 20 21 22 23 25 26 27 28 30 0;

The room walls are divided into a number of layers with incremental thicknesses for numerical computation by the computer program.

In this study, the value of imaginary thickness of first layer of concrete wall is selected as 0.01 ft and the multiplication factor of imaginary thickness of other layers is taken as 1.41. In other words,

, the first concrete layer thickness is 0. 01 ft (approx.

1/8"), the second layer thickness is 0. 0141 ft (approx.

3/16"), third layer 0.01 X (1.41) ft, etc.

The transient room temperature is determined from the heat balance

equation, which balances the heat generated within the room and the heat transferred to the ambient room air, stored in the room enclosure and transferred to the outside

air, as shown below:

36

I PROJECT CALCULATIONSHEET 18601-183 gQ 13 C

1 A A03 SUBgcCT TRANSIENT TE."P RATURE STUDY FOR AFV B PPP ROOi>

SH"-I MQ I5 RCV ORIGINATOR DATE V-i-SI CHCCKCR DATE RCV ORIGINATOR DATE CHECKER DATC E@u(R 8 Ahu ourztoE AIg QAMS Atg 10 12 13 16 EQUIP

=

AMB AIR +

WALL +

OUTSIDE AIR 17 18 19 20 21 22 N 3 24 25 26 27 26 WHERE EQUIP ANB AIR QWALL =

QOUTSIDE AIR Heat generated from equipment or any other source in the room, BTU/HR Heat transferred to the ambient room

air, BTU/HR Heat stored in the room walls, ceiling and floor, BTU/HR Heat transferred to the outside air,

<BTU/HR 29 30 34 The room ambient temperature and the wall temperature distribution are calculated at fixed t'me intervals.

In addition, total heat stored in the ambient air and in the concrete walls and heat transferred to the outside air are provided for each time interval.

36

I Jt

CHECKER ORIGINATOR REV p./if' CALCULATIONSHEET PROJECT JOBgO18601183

(

SU 8JEC~

TRANSIENT TE't'tPERATURE STUDY FOR AFW B PUMP ROOM REV DATE DATE ORIGINATOR ggp'ATE CALC. NO. 13-MC-A-A03 SHEEV ~O.

CHECKER DATE

, I (

>oi blE c L

B.

Input Required for Computer Model:

The following information is required as input for transient temperature study in the AFW B pump room:

10 12 13 16 2.

3.

4 ~

5.

6.

7.

8.

Initial room ambient temperature, degrees F

Initial outside ambient temperature, degrees F

Equipment and other heat generated in the room, BTU/HR Net room surf ace area, ft,2 Net room volume, ft3 Thickness of room enclosure, ft Density of room enclosure material, lbs/ft3 Thermal conductivity of room enclosure material, BTU/HR-ft-F 17 18 19 20 21 22 23 9.

Specific heat of room enclosure material, BTU/lb-F 10.

One period of time increment for calculation, min

11. Imaginary thickness of first layer of room enclosure,

12. Multiplication factor of imaginary thickness of other layers 25 26 27 28 29 30 35 36

PROJECT

(

CALCULATIONSHEET B NO 18601-183 CALC. NO 13-MC-HA-A03 SUBJECT TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM SHEET NO.

REV ORIGINATOR DATE 1-i-II CHECKER DATE REV ORIGINATOR DATE CHECKER DATE C.

Assumptions for the Computer Model 10 12 2.

3 ~

4 ~

The room is simplified as an enclosed space bounded by the same thickness of walls, ceiling, and floors.

The gross room volume is corrected for the volume occupied by piping and equipment.

The gross room surface area of the room enclosure is corrected for the area occupied by equipment.

The enclosure walls, ceiling and floor are taken as a

heat sink.

!3 e'6 17 I8 I9 20 21 22 23 D.

Computer Model Limitations 1.. The room enclosure walls, ceiling and floor must be considered as having the same thickness and of the homogenous material.

2.

The air temperatures outside the room must be considered as being the same and remaining constant.

3.

The heat generated within the room must be considered as being constant.

'No heat generated outside the room can be considered.

4.

The program is limited to 720 time period calculations.

25 26 E.

Computer Model Output 27 28 The following information is provided in the computer model output:

30 31 TAF QAT QST QOT Final room air temperature at each period, F

Heat stored in the ambient air, BTU Total heat stored in the concrete, BTU Heat transferred to the outside air, BTU

I

(

(.

CALCULATIONSHEET PROJECT JOB NO.

18601-183 TRANSIENT TEMPERATURE STUDY FOR AFM B PUMP ROOM CALC. NO 13-MC-HA-A03 SHEET NO.

REV ORIGINATOR OATE CHECKER

@,k.Pl I3ATE

//-/-H REV ORIGINATOR DATE CHECKER OATE

-J,O

>OI-L4 E <

0:

II VII STUDY This s tudy 'is performed for the following two cases:

10 12 A.

AFW pump B operates at the design flow then operates at 500 gpm for 22 hours2.546296e-4 days 0.00611 hours 3.637566e-5 weeks 8.371e-6 months .

not available.

B.

AFW pump B operates at the design flow then operates at 500 gpm for 22 hours2.546296e-4 days 0.00611 hours 3.637566e-5 weeks 8.371e-6 months .

available.

for 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months , and Normal HVAC is for 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months ,. and Normal HVAC is 13 Essential HVAC is not available for either of the above cases.

16 17 VII.A CASE A 18 19 20 21 22 24 25 AFW PUMP B OPERATES AT THE DESIGN FLOW FOR 2

HOURS, AND THEN OPERATES AT 500 gpm FOR 22 HOURS.

NORMAL HVAC IS NOT AVAILABLE'.

Heat Loads:

a.

Electric Motors Heat Load:

This heat load consists of the heat generated by the AFW B pump motor and ACU fan motor.

27 28 29 30 31 1.

AFW B Pump Electrical Motor Heat Load:

AFW B Pump design flow = 1010 gpm (REF 16)

Pump design flow BHP

= 1066 hp (REF 16)

Motor efficiency at full load

=

95.0$

(REF 20)

BHP for flow of 500 gpm

= 750 hp (REF 21)

Motor efficiency at 3/4 load

= 95.1 (REF 20) 36

PROJECT CALCULATIONSHEET JOB NO 18601183 CALC. NO 13-Mc-HA-A03 SUBJECT TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM SHEET NO.

REV ORIGINATOR DATE'HECKER DATE REV ORIGINATOR DATE CHECKER

, DATE

)DI WEc AFW pump B operates at design flow for 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months and at 500 gpm for 22 hours2.546296e-4 days 0.00611 hours 3.637566e-5 weeks 8.371e-6 months .

(Refer Section I).

Therefore, average BHP

=

(2 x 1066)

+

(22 x 750) hp 24

= 776.33 hp IO Average motor efficiency,

=(2 x 95)

+

(22 x95.1)

95. 098 12 I3 The pump and the motor are inside the AFW B pump room.

The fluid is pumped to outside of the room.

l6 17 I8 l9 20 2I 22 23 24 25 26 27 28 Motor lleat load

=

BHB X 2545 X (1-71

)

yj (REF 1, note C, table 30, chap 22, page 417)

=776.33 X 2545 X

(1 0.9509)

BTU/HR 0.9509 102,019 BTU/HR ii. ACU Fan Motor Heat Load:

The essential ACU fan may be running without essential chilled water thru the essential cooling coils (See Assumption 12)

ACU nameplate fan h.p.

=

5 h.p.

(REF 17)

Motor efficiency

=

82%

(See Assumption 12) 30 35 36 The motor and the driver are both in the AFW B room and the air stays inside the room (i.e.

all the fan motor energy stays inside the room).

DATE REV REV

//-/-&

CALCULATlONSHEET PROJECT JOB NO.

18601-183

(

SUBJEC~

TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM ORIGINATOR CHECKER DATE ORIGINATOR

/~

DATE CHECKER DATE CALC. NO 13-MC-HA-A03 SHEET NO.

, I 6

)DI.

"z'L From ref 1, chap 22, table 30, page

417, Heat gain from fan motor 10 12

'I 6 17 18 19 20 21 22 23 25 26 27 28 29 30 31 5

X 2545 0.82 15,518 BTU/HR Total motor heat load

= 102,019

+ 15,518 117,537 BTU/HR b.

Lighting Heat Loads:

The heat load is due to the lighting in the AFW B pump room.

AFW B pump room area

= (35'-0")

X (18'-3")

(Ref 11) 35.0 X 18.25 FT 2

638.75 FT Typical lighting load for industrial buildings

=

2 watts/FT

[Refer Assumption 13]

2 Room lighting load

=

(Room area, ft

)

X (2 watts/ft

)

X 3.41 BTU/HR-watt 638.75 X 2 X 3.41 BTU/HR 4356 BTU/HR 35 36

CALCULATIONSHEET ANPP 8 NO 18601-183 PROJECT SU BJE~

TRANS IENT TEMPERATURE STUDY FOR AFW B PUMP ROOM CALC. NO 13-MC-HA-A03 HEETNO P l REV ORIGINATOR DATE CHECKER DATE REV ORIGINATOR DATE CHECKER DATE 0-s-g(

C7. Q g

//-/-8 c ~

Total Heat Loads:

No heat transfer is assumed to the room air from the AFW fluid piping or the AFW B pump casing (Refer Assumption. 9).

The following is the sum of the heat loads in the AFW B pump room:

IO I2 l3 AFW B pump and ACU fan electric motors heat load

= 117,537 BTU/HR [See Sec. VII.A.1.a]

Lighting heat load 4,356 BTU/HR [See Sec. VII.A.1.bl l6 Total AFW B pump room Heat Load 121,893 BTU/HR I8

'I 9 20 21 22 23 24 25 27 28 29 30 e

35

Ir

C'ALCULATION SHEET PROJECT JOB NO.

18601-183 SUBJEcy TRANSIENT TEHPERATURE STUDY FOR APW B PUMP ROOM LC NO 13-MC-HA-A03 SHEET NO.

REV ORICINATOR'ATE'2'HECKER DATE REV ORIGINATOR DATE CHECKER DATE J,O 0 Dl-4IZ<

C V

2 ~

AFW B Pump Room Surface Area

& Volume:

a.

AFW B Pump Room Surface Area:

10 12 AFW-B pump room dimensions

are, L X W X H

35'-Q" X 18'-3" X 15'-6" (REF 11

& 12)

AFW A pump room has a common wall with AFW B pump room (REF 13)

The surface area of the shared wall will be considered 50$ for AFW B pump room, resulting in half of the wall as a heat sink for this room (Refer to Assumption

10).

The dimension of the common wall are (35'-0") x (15'-6")

(REF 11 and 12) 16 17 IS 19 20 21 22 23 25 27 26 29 30

'Therefore, the surface area for heat transfer is as follows:

Wall surface area 2 X(18'-3" X 15'-6")

+ (35'-0" X 15'-6")

+

(35'-0" X 15'-6")

= 1379.5 ft2 Ceiling surface area

= 35 '-0" X 18 '-3"

= 638.75 ft Floor surface area

= 35 '0" X 18 '3"

= 638.75 ft Total surface area 1379.5

+ 638.75

= 2657 ft Floor area occupied by the AFW B pump and motor set 166 X 47 ft

= 54.18 ft 12 12

[For dimensions, see REF 14]

33 Net surface area for heat transmission 2657-54. 18

= 2602. 82 ft, say 26Q3 ft2

I

CALCULATIONSHEET PROJECT JOB NO 18601-183

$U8J EOT TRANSIENT TEMPERATURE STUDY FOR AFW B P UMP ROOM CALC. NO 13-MQ-HA-A03 SHEET NO.

RKV ORIGINATOR DATE 9-r-J-'P CHECKER DATE (y./-g REV ORIGINATOR DATE CHECKER DATE b.

AWF B Pump Room Volume:

(Ref 14 and 15)

Pump volume

=

~l X

28) 60

+

Wi X

10 X 10 4

12/

12 4

12 12 21.83 ft Coupling volume

=

'll X 10 X 25

= 1.14 ft 4

12 12 10 Base plate volume

= 166 X 6 X 47

= 27. 09 ft 12 12 12 12 13 16 17 I8

'I 9 20 21 22 25 27 Motor volume

=

1T X

36 X 60

+

2 X 34 X 60 4

12 12 12 12 12 37.70 ft Estimated pump and motor set volume

=

21.83

+ 1.14

+ 27.09

+ 37.70 ft

= 87.76 ft Piping Volume in the pump room

= 132.45 ft (From REF 28 per Assumption 20)

AFW B pump room volume

= (35'-0")

X (18'-3")

X (15 -6

)

9901 ft3 (Ref 11 s

12)

Volume for the HVAC equipment and the EBS piping is insignificant and is neglected.

[Assumption 19]

29 30 Net AFW B pump room volume

= 9901 87.76 132.45 3

9680.79 ft say 9681 ft 35 36

CHECKER ORIGINATOR

'II-i-SCr

(

CALCULATIONSHEET PROJECT JOB NO.

18601-183 TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM REV DATE DATE REV ORIGINATOR PSS DATE CALC. NO 13 C-M-AO SHEET NO.

CHECKER DATE

, II

>OI bl E

~

3.

Input Data:

CASE A 10 12 The following input data for the computer model is used:

1.

Initial room ambient temp.

= 75 F [Assumption 2]

2.

Initial outside ambient temp.

= 75 F [Assumption 3]

3.

Equipment and other heat generated in the room

= 121,893 BTU/HR [See Section VII.A.1.c]

4.

Net room surface area

= 2603 FT

[See Section VII.A.2]

2 5.

Net room volume

= 9681 FT

[See Section VII.A.2]

2 6.

Thickness of room enclosure

= 3.5 FT [Ref 11 and 12]

7.

Density of'room enclosure material

= 144 LBS/FT

[Ref 6]

16 8.

9.

Thermal conductivity of room enclosure material 0.54 BTU/HR-FT-F

[Ref 6]

Specific heat of room enclosure material

= 0.2 BTU/LB-F

[Ref 6]

18 19 20 21 22 23 24 25 10.

One period of increment for calculation

=

2 min

[Assumption 14]

11 Imaginary thickness of first layer of concrete enclosure 0.01 FT [Assumption 15]

12. Multiplication factor of imaginary thickness of other layers

= 1.41

[Assumption 15]

26 27 ze 29 30 33 35

i

C CALCULATlONSHEET ANPP JOB NQ 18601-183 PRO JEGT SUBJF~

Tf44VSIENT TEMPERATURE STUDY FOR APW B PUMP ROOM mLc.NQ 13 MC m-AO3 SHEa NO.

REV ORIGINATOR DATE CHECKER DATE P-i-zz REV ORIGINATOR DATE CHECKER DATE

4. Results:

CASE A The transient temperature for the AFW B pump room air obtained from the computer output, is shown in Figure 2.

The transient temperature

output, Appendix A, shows that without any HVAC, the calculated.temperature in the pump

. room will be as follows:

10 12 13 16 18 19 20 21 22 23 Time Period 0 min 2 min:

4 min 12 min 36 min 1 hr 2 hr 4 hr 6 hr 8 hr 12 hr 24 hr Tem erature F

75 88.92 96.91 106.83 111.85 114.67 119.70 126.72 132.08 136. 60 144.16 161.25 25 26 28 29 30 31 35 36

P kt i

PROJECT

(

CALCULATIONSHEET 18601-183 CALC. NO 13-MC-HA-A03 ORIGINATOR DATE ORIGINATOR REV c<.gg.ra g-/-&

e TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM REV DATE CHECKER o

P>~

DATE SHEET NO.

CHECKER DATE VII.B CASE B AFW PUMP B OPERATES AT DESIGN FLOW FOR 2

HOURS, AND THEN OPERATES AT 500 gpm FOR 22 HOURS.

NORMAL HVAC IS AVAILABLE.

10 12 13 16 17 l8 1.

Net Heat Load:

CASE B Normal HVAC design supply flow in AFW B pump room

= 400 cfm

[Ref 23 R 24].

Normal HVAC air balance supply flow in AFW B pump'room

=

396 cfm [Ref 24, Page 15]

Supply air temperature

= 62 F [Refer Assumption 16]

0 Assume average room ambient temperature

= 125 F

(See 0

assumption 17) 20 21 22 23 24 25 26 27 28 Using normal HVAC air balance supply flow, Heat removed, qs 1.08 X 396 X (125-62)BTU/HR 26,944 BTU/HR Total Heat Load in AFW B pump room

= 121,893 BTU [Refer Sec. VII.A.1.c]

Net heat load in AFW B pump room

= 121,893 26,944 94,949 BTU/HR 30 0

2.

Input Data:

CASE B

All input is the same as CASE A except item N3, Room heat load, which is 94,949 BTU/HR.

35 36

CALCULATIONSHEET PROJECT JOB NO 18601-183 TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM CALC NO 13'A A03 SHEET NO.

+ 7 REV ORIGINATOR DATE

'r-t-Q CHECKER DATE REV ORIGINATOR DATE CHECKER DATE 3.

RESULTS:

CASE B

The transient temperature for the AFW B room air, obtained from the computer output, is shown in Figure 3.

The transient temperature

output, Appendix B, shows that with only normal HVAC, the calculated temperatures in the pump room will be's follows:

lO 12 I3

'I 8 I9 20 2I 22 Time Period 0 min 2 min 4 min 12 min 36 min 1 hr 2 hr 4 hr 6 hr 8 hr 12 hr 24 hr

~Tem F

0 75 85.98 92.35 100.52 104.58 106.82 110.80 116.35 120.58 124.14 130.11 143.58 22 28 29 36

CHECKER ORIGINATOR REV 1-/-dY CALCULATIONSHEET PROJECT ANPP JOB NO 18601-183 TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM REV DATE DATE ORIGINATOR DATE CALC. NO.

SHEET NO.

CHECKER DATE VII.C CASE C: VERIFICATION OF THE AFW B PUMP ROOM TEMPERATURE:

AFW PUMP B OPERATES AT THE DESIGN FLOW FOR 2

HOURS, AND THEN OPERATES AT 500 gpm FOR 22 HOURS.

NORMAL HVAC IS AVAILABLE.

10 12 13 16 17 I8 19 20 21 22 23 24 25 26 27 29 30 Average room temperature was assumed.

to be 125 F for Case B.

The computer output for the CASE B (Appendix B) shows that the room temperature is 130 F after 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months .

It is apparent that 0

the average heat removed by the Normal HVAC is slightly under estimated and that the final temperature may be slightly over estimated.

To establish a lower limit, the Normal HVAC effect was recalculated for 130 F.

1.

Net Heat Load:

CASE C

Using the methodology used in Case B, the heat removed by Normal HVAC and the net heat load in the pump room are recalculated, due to the temperature difference, with room temperature 130 F and supply air temperature 62 F

(same as 0

~

0 before).

Using normal HVAC air balance supply flow, Heat removed, qs

= 1.08 X 396 X (130

62) BTU/HR = 29,082 BTU/HR Total Heat Load in AFW B pump room

= 121,893 BTU/HR [Refer Sec. VII.A.1.c]

e:

Net heat load in AFW B pump room

= 121,893 29,082 92, 811 BTU/HR 35 36

I f

I

CALCULATIONSHEET ANPP B

0 18601-183 PROJECT SUBJECT TRANSIENT TEMPERATURE STUDY FOR APW B PUMP ROOM CALC. NO 13-MC-HA-AO3 SHEET NO, REV ORICINATOR CHECKER DATE REV ORIC INATOR DATE CHECKER DATE

.J,C 0DI bl Z e L'.

Input Data:

CASE C

All input data for CASE C is the same as for CASE A except for item N3, Room heat load, which is 92, 811 BTU/HR.

10 3.

Results:

CASE C

Using this heat load, computer model is again run.

The result of this computer'un, Appendix C, is plotted on Figure 3. Xt indicates that the temperature after 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months is 129 F and the 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months temperature is 142 F

0 12 13 16

'I 7 18 The transient temperature for the AFW B pump room air, obtained from the computer output, is shown in Figure 3.

The transient temperature

output, Appendix C,

shows that, with Normal HVAC, the calculated temperature in the pump room will be as follows.

19 20 21 22 23 25 27 28 29 30 Time Period 0 min 2 min 4 min 12 min 36 min 1 hr 2 hr 4 hr 6 hr 8 hr 12 hr 24 hr

~Tem F

0 85.74 91.99 100.01 103.99 106.18 110.08 115.51 119.65 123.14 128.97 142.15 33 36

PROJECT SUBJECT

(

CALCULATIONSHEET 18 601-183 TRA'fSIENT T~ERATURE STUDY FOR AFW B PUMP ROOM CALC. NO 13-MC-HA-A03 SHEET NO.

REV ORIGINATOR OATE CHECKER DATE REV ORIGINATOR OATE CHECKER DATE

'r-I-P C< Q,A 9+@

VIIeD CONCLUSIONS:

Room cooling with only Normal HVAC:

IZ 13 16 Reviewing the results for CASE B, it is concluded that the temperature at each step beyond eight to twelve hours is slightly overestimated because the heat removed by the normal HVAC is slightly overestimated.

Similarly for CASE C, the temperature in this time interval is slightly underestimated due to the slight overestimation of the heat removed by the normal HVAC.

The effect is small as is apparent from the small differences between corresponding temperatures.

In evaluating these results, it is concluded that the average of the calculated transient room temperatures for CASES B and C

is a better approximation of the expected results.

The average of the results of CASES B and C follows:

18 19 20 With only Normal HVAC 21 22 23 CASE B

CASE C

Time Period

~Tem F

AVG B&C

~Tem F

26 26 27 28 29 30 3 1 35 36 0 min 2 min 4 min 12 min 36 min 1 hr 2 hr 4 hr 6 hr 8 hr 12 hr 24 hr 85.98 92.35 100.52 104.58 106.82 110.80 116.35 120.58 124.14 130.11 143.58 75 85.74

91. 99 100.01 103.99 106.18 110.08 115.51 119.65 123.14 128.97 142.15 75

85. 86

92. 17 100.27 104.29 106.50 110.44 115.93 120.12 123.64 129.54 142. 87

l'

CALCULATION S HEET iDD 18601<<183 PROJECT SUBJ CT TF~iS "T

"'~ "

D S "Di Or

~ "

B DU P Roo BJcCT CALC. NO 13-ifC-F~-A03 SH-=~T NO.

RCV i ORIGINATOR o

I ~~

C CHCCKCR DATC cj @ P 4-z-0'CV ORIGINATOR OATC hCHCCKCR OATC ss'i crf7to& OF HEA7 LoADs 10

~

11 12 AFkI B PUMP RM HEATUP 16 19 20 21 22 2) hg 25 26 27 26 29 SO 0:

h V h'

A g.

'OTAL HEAT LOAD BTUrHR 121. 9 THOUSAND Il /60'R E

~

96.43~

ELECTRIC MOTORS

~

3. 57'OOM LIGHTINB 36

PROJECT SUBJECT CALCULATIONSHEET

~P~

JOB NO.

~

CALC. NO.

7iPAJS)2-P7 7&/ &87UZE >TC'S OA'FK /3 Pc uA'O~/SHEET NO. ~>

REV ORIGINATOR DATE CHECKE R N

DATE REV ORIGINATOR

-/-8'ATE CHECKER DATE

.IO

) gl-14DZ L

C

"'pg6 Ftn/ 9 POMP ooA gtI7 H

/Vd H u'AC 10 11 I

12 13 16 17 18 19 20 21 22 23 24

--- ~-/$0

/go (70 Qo

/go

>so lao II0

/Oo 27 28 29 30 34 35 36 g

+

L/

5 g'g

/z

/9

~6

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2 f 7(n]e l~f /-/~<(.Cs j-/c, gP C

l

CALCULATIONSHEET PROJECT JOB NO.

SUBJECT 7+grtl<l&/7 7EPSPZAAT(JP

+7'>P'I-0C /FAI 8 PiW/ gd6IQ CALC NO SHEET NO.

REV ORIGINATOR DATE CHECKER DATE REV ORIGINATOR Py-5'ATE CHECKER DATE

~ >C

)I3-

lblz C

AFu 8 Pc/WP'odR mi78 A'oRAAI PlvllG

4

--0 /fo

/70

/t,'o qi ISO

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/go

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/Qo

//0 cps~ 8--

Cgsw c

/93$ g F

/Q2'/s 5

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I

PROJECT CALCULATIONSHEET 18601-183 CALC. NO 13-MC-HA-A03 SUBJECT TRA'OSTENT TEMPERATURE STUDY FOR AFW B PUMP ROOM SHEET NO. 8 REV ORIGINATOR DATE CHECKER DATE 4/-/-PP REV ORIGIN ATOR DATE CHECKER DATE

. I(

>DI wZ'

//J(l PEAID/X A 10 12 13 INITIAL INTERNAL RKH AHBIENT TBPERATURE, DEG. FN

>75 INITIALADJACENT ROC'(BIENT TEMPERATURE, DEG.

F=?

>75 EQJIPHENT HEAT GENERATED IH THE INTERNAL R(0(, BTU/HR=?

>121893 NET INTERNAL HOCH SURFACE AREA, Sa ~ FT.=?

>2603 NET IHTERNAL ROCH VOLLEY%, CU.FT.-?

>9681 THICKHESS OF ROCH ENCLOSURE, FT.-?

>3.5 DENSITY OF ROCH ENCL(I(E JIATERIAL, LBS/CU.FT.>?

>144 THERHAL COIDUCTIVITY OF ROCH ENCLOSURE HATERIAL( BTU/HR-FT-F=?

>.54 SPECIFIC HEAT OF R(CH ENCLOSURE NTERIAL, BTU/LB-F=?

>e2 OHE PERICO OF TINE INCREHEHT FCR CALCULATICH, HIH."-?

INGIHARY THICKNESS OF FIRST LAYER OF ROCN EHCLOQRE, FT.=?

>.01, WLTIPLICATICH FACTOR OF IHAGINARY THICKNESS OF OTHER LAYERS=?

19 20 21 22 23 25 II~BER OF IIV(GIHARY LAYER= 15 DXI,DX2,DX3,------------DX(H) 1.00000.02 1.41000.02 1.98810.02 2.80322.02 3 95254.02 5.57308.02 7.85805.02

.11080

.15623

.22028

.31059

.43794

.61749

.87066

.53017 26 27 26 29 2 gpl 75.152 75.000 75.000 1

PER IG)

OAT=

2405.

OST"-1658.

OOT=

TAF=

88.92 T1 T2 T3 ---------"--T(H+1) 75.779 75.530

?5.312 75.003 75.000

?5.000 75.000 75.000 75.000

0. HCI=1.4538 HCO=.0000 75.057 75.016 75.000 75.000 30 75,443 75. 192 75.061 2 PERICO aAT=

3749.

0SI=

4377.

001=

0. HCI=1.5511 HCO=.0000 TAF=

96. 91 11 T2 T3.---------"-T(II+I) 76.700 76.251 75.812 33 35

h

P ROJECT SUBJECT ANPP CALCULATIONSHEET 601-183 TRANSIENT T~ERATURE STUDY FOR AFW B PUMP ROON CALC gO

-8C-M-A03 SHEET NO.

REV 0 R I G INATO R DATE 4-i-s CHECKER DATE REV ORIGINATOR DATE CHECKER DATE

~ ~C

~OI-4l<<Z~

75.013 75.000 75.002 75.000 75.000 75.000 75.000 75.000

?5.000

?5.000 75.819 75.000 75.000 3 PER ICO OAT=

4502.

QST=

7687.

QOT=

TAF= 101.44 Tl T2 T3 ---"""""T(H+1) 77.565 76.987 76.379 75.034 75.N5 75.000 75.000 75.000 75.000

0. HCI=1.5974 HCO=.0000 75.392 75.140 75.000 75.000 10 77.071 75.000 75.000 6 PER ICO OAT=

5387.

QST=

18991.

QOT=

TAF-"106.83 Tl T2 T3 -.----------.T(H+1) 79.603 78.867 78.000 75.179 75.037 75.004

?5.000 75.000 75.000 76.206 75.000 75.551 75.000

0. HCI=1.6441 MCO=.0000 12 79.265 75.00C 75.000 12 PER ICO OAT=

5899.

QST-"42856.

QOT=

TAF= l¹9&

Tl T2 T3 -------------T(H+1) 82.265 81.471 80.465 75.768 75.237 75.044 75.000 75.000 75.000

0. HCI=1.6645 HCO=.0000 77.956 76.717 75.000 75.0N 16 18 19 20 21 22 18 PER ICO 'AT=

6201.

QST=

66931.

QOT=

TAF= 111.85 Tl T2 T3 ---"""""T(H+1) 84.197 83.387 82.335 76.5C7 75.597 75.148 75.000 75.000 75.000 81.030 75.020 75.000 82.53C 75.055 75.000 24 PER I CO QI T~

6C45.

QS'I=

91064.

QOT=

TAF= 113.36 Tl T2 T3 -------------T(H+1) 85.795 84.976 83.9N 77.382 76.059 75.318 75.000 75.000 75.000

?9.515 75.001 77.937 75.000

0. KCI-"1.6831 KCO=.0000 80.897 75.005 79.099 75.000

0. HCI=1.6748 HCO=.0000 2$

26

0. KCI=1.6903 HCO=.0000 83.867 82.146 80.191 75.114 75.012 75.001 75.000 30 PER ICO QAT=

6656.

QST=

115231.

QOT=

TAF= 114.67 Tl T2 T3 "--"-------T(H+1) 87.190 86.365 85.272 78.223 76.579 75.545 75.000 75.000 75.000 27 29 30

0. HCI=I.6968 HCO=.0000 81.220 75.002 85.077 83.293 75.197 75.025 75.000 36 PERICO QAT=

6845.

QST=

139419.

QOT=

TAF= 115.84 Tl T2 T3 -"----------T(H+1)

M.C44 87.615,86.510 79.051 77.132 75.816 75.000 75.000 75.000 0

86.191 75.303 75.000 42 PERICO CAT=

7016.

QST=

163625.

QOI=

TAF= 116.91 Tl T2 T3.-.----.-.-"T(H+1) 89.593

&&.761 87.6C7 79.859 77.702

76. 122 75.000 75.000 75.000 84.360 75.045 82.192 75.003

0. HC1=1.7027 HCO=.0000 35

C CALCULATIONSHEET AiIPP NO 18601 183 PROJECT

(

SUBJECT TRAilSIE iT T~ERATURE STUDY FOR AR B PUMP ROOM CALC. NO 13-ifC-HA-A03 SHEET NO. 8 REV ORIGINATOR DATE CHECKER DATE REV ORIGINATOR DATE CNECKER DATE I

FADE 3

85.360 75.073 48 PER ICO QAT=

7175.

QST=

1S7843.

COT=

0.

HCI=1.7081 HCO=.0000 TAF= 117.90 T1,T2 T3 "----------.T(H+1) 90.659 89.825 88.703 83.115 80.645 78.281 76.453 75.006 75.000 75.000 75.000 10 89.131 75.744 75.000 60 PER ICO QAT=

7464.

QST=

236309.

COT=

TAF= 119.70 T1 T2 T3 -------------T(H+1) 92.602 91.764 90.632 82.150 79.440 77.172 75.001 75.000 75.000 87.202 75.152 84.838

?5.016

0. HCI-"1.7182 KCO=.0000 12 0:

16 17 18

0. HCI=1.7272 HCO=.0000 72 PER ICO QAT-"

7722.

QST=

284804.

DOT=

TAF= 121.33 T1 T2 T3 -------------T(H+1) 94.354 93.514 92.373 83.572 80.584 77.936 75.002 75.000 75.000 90.853 88.880 76.119 75.266 75.000 86 426 75.033 92 '3S 76.542 75.000

0. HCI=1.7356 HCO=.0000 90.431 75.413 87.907 75.060 84 PER ICO OAT=

7959.

QST=

333321.

COT=

TAF= 122.82 T1 T2 T3 -.-.---------T(H+1) 95.963 95.120 93.974 84.919 81.703 78.726 75.004

?5.000 75.000 19 20 21 22

0. HC1=1.7434 KCO=.0000 93.914 91.880 89.299 77.002, 75.590 75.098 75.000 96 PER ICO QAT<<-

8179.

QST-"

381856.

COT=

TAF= 124.20 T1,T2,T3,-------------T(H+1) 97.458 96.614 95.462 86.201 82.?93

?9.527 75.008 75.000 75.000 23 26 95.301 77.490 75.000 108" PER ICO QAT=

8384.

QST~

430405.

COT=

TAF= 125.50 T1,T2,T3,-------------T(H+1) 98.861 98.016 96.860 87.426 83.854 80.333 75.013 75.000 75.000

0. HCI=1.7508 HCO=.0000 93.244 90.617

?5.795 75.147 27 28 29 30

0. HCI=1.7577 KCO=.9447 96.614 94.538 91.8?0 77.999 76.024 75.208 75.000 120 PER ICO OAT=

8577.

QST=

478965.

QOT=

TAF= 126.72 T1 T2 T3 --"---------T(H+1) 100.19 99.340 98.181 88.601 84.885 81.137 75.021 75.001 75.000 3 1 97.863 78.524 132 PER ICO QAT=

8761.

QST=

52?536.

QOI=

'IAF= 127.89

'I1 T2 T3 "----------.T(H+1) 101.45 100.60 99.437 89.730 S5.889 81.936 75.032 75.001

?5.000

0. HCI=1.7644 HCO=.9458 95.770 93.068 76.2?5 75.281

1

P ROJECT CALCULATIONSH EET JOB NO 18601-183 CALC. NO.

SUBJECT TRANSIEVZ T~ERATURE STUDY FOR AFW B PIMP ROOM-SHEET NO.

0 RE V ORIGINATOR CHECKER DATE REV ORIGINATOR DATE CHECKER DATE

. I (

>D)

"z' 99.057 79.062 75.000 144 PER ICO QAT=

8936.

QST=

576115.

QOT=

TAF= 129.00 Tl T2,T3, ------------T(H+1) 102.65 101.80 100.64 90.819 86.866 82.729 75.045 75.002 75.000

0. HCI=1.7708 HCO=.9C78 96.950 94.217 76.545 75.365

0. HCI=1.7769 HCO=.9495 100.20 98.082 95.322 79.608 76.832 75.462 75.000 156 PER ICO OAT=

9103.

QST=

624701.

QOT=

TAF= 130.07 Tl T2 T3 ----- - -.--.T(H+1) 103.81 102.96 101.79 91.871 87.818 83.514 75.062 75.004 75.000 10 12 101.30 80.161

75. Ma 168 PER ICO QAT=

9264.

QST=

673294.

CDT"-

TAF-" 131.10 Tl T2 T3 -------------T(H+1) 104.92 104.07 102.90 92.890 88.747 84.289 75.082 75.005 75.000 99.173 77.134 96.389 75.569

0. HCI-"1.7829 HCO=.9512 16 180 PER ICO QAT"-

9419.

QST=

72189C.

TAF= 132.08 Tl T2 T3 ----" "" -T(~1) 105.99 105.14 103.96 93.879 89.654 85.055 75.106 75.008 75.000 102.37 80.719 75.000

0. HCI=1.7886 HCO=.9529 100.23 97.421 77.449 75.687

'I 8 19 20 21 22 23 25 26 27 28 29 192 PER I(X)

OAT=

9568.

QST=

770498.

QOT=

TAF= 133.04 Tl T2 T3 -------------T(H+1) 107.02 106.17 105.00 94.839 90.540 85.811 75.134 75.010 75.000 103.40 81.279 75 ~ 000 104.39 81.841 75.000 216 PER ICO QAT=

9853.

QST=

867721.

GOT=

TAF= 134.87 Tl T2 T3 --.----- --- T(H+1) 1¹00 108.15 106.97 96.686 92.255 87.294 75.203 75.018 75.001 105.36 82.C04 75.001 204 PER ICO QAT"-9713.

QST=

819107.

QOT-"

TAF= 133.97 Tl,T2,T3,-----------"T(H+1) 108.02 107.17 106.00 95.775 91.407 86.557 75.166 75.014 75.001 101.25 98.422 77.775 75.816

1. HCI=1.7996 HCO=.9564 102.24 78.111 99.393 75.954

1. HCI=1.8049 HCO=.9582 103.20 100.34 78.455 76.101

0. HCI=1.7942 HCO=.9546 30

2. HCI"-1.8101 HCO=.9600 106.3l 104.13 101.26 82.966 78.808 76.257 75.001 228 PER I CO QAT=

9989.

QST=

916339.

QOI=

TAP= 135.74 Tl T2 T3 ------------AT(H+1) 1¹94 109.09 107.92 97.576 93.086 88.020 75.2C3 75.023 75.001 35 36 P E(g 240 PER ICO QAT=

10121, QST~

96C960.

QOI=

TAF= 136.60

3. HCI=1.8151 HCO=.9619

PROJECT CALCULATIONSHEET 601-183 TRANSIENT TE.IPERATURE STUDY FOR AFW B PEiP ROOM CALC. NO 13-MC-HA-A03 SHEET NO.

REV ORIGINATOR DATE CHECKER DATE REV ORIGINATOR DATE CHECKER DATE T1,T2, T3,---"".-----T(H+1) 110.87 110.01 10S.84 98.4CS 93.901 88.737 75.288 75.029 75.002 107.22 83.527 75.001 105.0C 102.15 79.166 76.421 108.99 84.646 75.002 264 PER ICO OAT=

10376.

QST= 1062211.

QOT=

TAF= 138.24 Tl T2 T3 ------.--"--T(H+1) 112.64 111.79 110.61 100.13 95.484 90.142 75.389 75.043 75.003

5. KCI"-1.8249 KCO=.9657 106.80 103.89 79.901 76.771 10 12 110.68 85.755 75.003 288 PER ICO QAT=

10618.

QST= 1159470.

QOT=

TAF= 139.81 Tl,T2,T3,------.---.--T(H+1) 114.34 113.49 112.31 101.74 97.012 91.511 75.508 75.061 75.005 108 48 80.652 105.55 77.149

9. HCI='1.8343 KCO=.9697 13 0

17 18 19 20 21 22 23

16. HCI=1.8433 HCO=.9738 112.30 110.09 107.1C 86.854 81.417 77.550 75.004

26. HCI=1.8521 HCO=.9779 336 PER ICO QAT=

11073.

QST= 1354012.

QOT-"

TAF= 142.76 Tl T2 T3 --------.----T(H+1) 117.54 116.68 115'0 104.80 99.920 94.150 75.793 75.112 75.0'I l 113.87 111.65 108.68 87.940 82.191 77.973 75.006

40. HC1=1.8606 HCO=.9822 360 PER ICO OAT=

11288, QST= 1C51290.

QOT=

TAF= 144.16 Tl T2 T3 --------"---T(H+1) 119.05 118.19 117.01 106.25 101.31 95.423 75.959 75.145 75.016 115.37 113.15 110.16 89.014 82.972 78.413 75.008 312 PER ICO QAT=

10850.

QST= 1256738.

QOT=

TAF= 141.31 Tl T2 T3 -------".---T(H+1) 115.97 115.12 113.93 103.30 98.489 92.847 75.6C3 75.084 75.008 25 26 27 ze 29 30 34 119.

HC1=1.8848 HCO=.9951 432 PER ICO QAT-"

11889.

QST= 1743131.

COT=

TAF= 148.10 Tl,T2,T3,-------------T(H+1) 123.30 122.44 121.25 110.35 105.26 99.076 76.540 75.276 75.036 119.61 117.37 114.34 92.155 85.334 79.824 75.018 285.

HCI=1.9073 HCO=1.0082 504 PER ICO OAT=

12C3S.

QST= 2034935.

QOT=

TAF= 151.72 Tl T2 T3 ---".-"----T(H+1) 127.21 126.35 125.16 114.15 108.93 102.51 77.231 75.C58 75.071 123.51 121.25 118.20 95.175 87.697 81.333 75.036 576 PER ICO OAT=

129C7.

QST= 2326636.

QOI=

590.

HCI =1.9286 HCO=1.0213 TAF= 155.(9 Tl,T2,T3 - - -" - ~ - T(H+1) 130.85 129.99 12S.79 127.14 12C.87 121.79 36

I

PROJECT CALCULATIONSH EET 18601 183 CaLC. NO SUBJECT TRANSIENT T~ERATURE STUDY FOR AFW B PUMP ROOM SHEET NO.

REV ORIGINATOR DATE CHECKER DATE P-r-8 REV ORIGINATOR DATE CHECKER DATE 117.69 78.013 112.37 75.692 105.77 75.123 98.081 75.061 90.039 82.908 1094.

KCI=1.9488 HC0=1.0342 130 ~ 55 128.27 125.17 100.88 92.349 84.526 75.096 64S PERICQ QAT=

13423.

QST= 2618169.

QOT"-

TAF= 158.25 T1 T2 T3 -------------T<II+1) 134.26 133 40 132.21 121.03 115.63 108.86 78.S70 75.978 75.194 10 13 133.78 103.58 75.141

+ I H'g 720 PER100 QAT=

13871.

QST= 2909462.

QOT=

TAF= 161.25 T1 T2 T3 -"---"----T(H+1) 137.49 136.63 135.44 124.20 118.73 111.82 79.789 76.312 75.287 1863.

KCI=1.9682 HC0=1.0468 131.49 128.37

94. &?1 86.170 16 18 I9 20 22 23 25 26 27 28 30 e31 35

s

PROJECT CALCULATIONSHEET JOB NO TRMS TENT T&tFERATURE STUDY FOR AFW B FPiiP ROON CALC, NO i3-NC-HA-A03 SHEET NO. 44 REV ORIGINATK3R DATE CHECKER DATE REV ORIGINATOR DATE CHECKER DATE

/L

/7/-//-8/

10 2

INITIAL INttaXAL ROOI ueltat TON>>KRATURE~ DEC, fil

>>75 INITIALJD/ACKNT ROOI NQIENT T~RAIURE~ DEC. S07

>>75 EtarltlCNT NEAT CENERATED IN TNE latERNAL tOCK, ~TU/Nail

>>94949 NET INIERNAL ROOI SINSACE AREA, $0, ft il

>>2605 Ntt INTERNAL ROOI VQLU%, Klr.fl.il

>>9bb1 TNICRNESS OS ROOI ENCLOSURE, Sf.il

~ 545 DENSIlt Of ROOI ENCLO5lat NAIKRIAL, LRS/CU.fT.il

>>'144 Tata>>ILL COOUCTIVITY Of ROCK ENCLOSURE IIATERIAL, RTU/Na St Sil

>>.54 SSECIS IC NKAt Of ROOI ENCLOSURE IlAIKRIAL~ ~IU/L~ ~Sit ONE SERICO Of TIIC INCkDCNT foa CALKLAATIOI,NIN.il INACINART TNICCNESS Of fla$ 1 LA'TER Or kCOI ENCLOSURE, St il

>>.01 IRATISLICATIOI SACTOR Of INACINART TNICKNESS Or DINER LATERSil

>>1.41 17 18 19

~ 0 ~ 0 ~ 0 ~ 0 ~ 0 ~ 0 ~ ~ 0 ~ 0 ~ 0 ~ 0 ~ 0 ~

0 ~ ~ 0 ~ 000000000000

~ 0 ~ 0 ~ 00 ~ 0 ~ 0 ~ ~ 0

~ 00 ~ 0 ~ 0 ~ 000000 ~ 0 ~

~ Ccr VRICNI 19lb, 1979 SECNIEL JOKER Cta>>ORAT IOI. ALL aICNIS RESERVED.

~

~ 0 ~ 00 ~ 0 ~ 0 ~ 0 ~ 0 ~ 0 ~ 0 ~ 0 ~ 0 ~ 0 ~

0 ~ 0 ~ 0000 ~ 0000 ~ 00 ~ 000000 ~ 0 ~ 0 ~ 0 ~ 0

~ 0 ~ 0 ~ ~ 0 ~ 0 ~ 0 ~ 0 ~ 0 ~ ~

20 21 22 23 N KJOER Of IIILCINART LATER~ 19 25 26 27 DXI DI2 DNS

~ ~ ~ ~ ~ ~ ~ ~ ~

~ DXINI

2. 1696 1.00000 02 1.41000 02 1.96610 02 2.60522 02 5.95254 ~ 02 5.S7306 02 7, 65605 '02

~11060,15625 220th

. 51059

. 4 5 794

.61749

.67066 1.2276 1.7510 2.4407 5.4415 28 29 30 a/ib/J

75. Ilb 7S.OOO I 7 Ka ICO DAT~

16960 011 ~

1769.

00th 0.

NCI ~ 1.4095 NCO

.0000 IAS ~

65 96 ll 12,15, ~ ~ ~ ~

~ ~ ~ ~ ~ ~ TIII01) 7S ~ 596 75.405 75.259

75. 044

75. 012 75.007 75.OOO h.OOO h.000 h.OOO h.ooo h.ooo h.ooo lS. OOO

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CALCULATIONSHEET 18601-183 DATE CHECKER DATE REV ORIGINATOR TEMPERATURE STUDY FOR AFW B PUMP ROOM DATE SHEET NO.

4/

CHECKER DATE CALC. NO 13-MC-HA-A03

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75.000 75.000 0.

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-.1C-HA-A03 CHECKER REV ORIGINATOR ORIGINATOR fss SUBJECT TRAhSIFYT TEMPERATURE STUDY FOR AH< B PE'P ROON REV DATE'ATE 44m DATE SHEET NO.

CHECKER DATE

, I (

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l Q

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REV DATE DATE n

44 rV DATE SHEET NO.

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SUBJECT TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM t

ORIGINATOR DATE CHECKER DATE pm C~ 6'e DATE CALC. NO 13-Mc-HA-A03 SHEET NO.

CHECKER DATE 0Ig

>oi bl + c 105.13 107.Cb 106.S4 10$.27 lbs.SC 101.23 95.20S 9C.Col 59.913 6$.077 60.S99 77.31$

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PROJECT CALCULATIONSHEET JOB NO 18601-183 TEMPERATURE STUDY FOR AFW B PUMP ROOM CALC. NO SHEET NO.

ORIGINATOR DATE P )II CHECKER DATE REV ORIGINATOR DATE CHECKER DATE

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0.

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M.393 67.75S 66.693 60.436 76.37$

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65. 7S I 7S.56S

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75. 000 64 PERICO OAI>>

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91.450 77.261 aol ~

92.401 77.661 n.ooo 67.645 7S.CC9 6$.661 7$. 074 0.

HCI ~ 1.6569 HCO

.0000

75. 112 0.

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69. 669 7$. 779

67. 636 7$.15d 0.

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75. 213 0.

HCI ~ 1.6534 HCO>>.0000

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CHECKER DATE

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96.279 9$.390 57.540 54.7$ $

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94.152 lb.50d 92.S65 rd.394 90.467 7S.351 0.

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79. 352 93.399 76.623

91. 250 7$.433 0.

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92. 066 7$.523 0.

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96. 61$

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97. 374

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95. 112 50.634 94.975 77.111

92. 527 7S. 621 1.

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95. 731

77. 367 93.567 75.726 I. NCI ~ 1.6992 NCO

.9566

96. 463 77.629 0.

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ORIGINATOR CHECKER REV

(-l-I'P CALCULATIONSHEET PROJECT JOB NO 18601-183 TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM e

REV DATE DATE ORIGINATOR 4~-IJ.4 e DATE CHECKER DATE CALC. NO 13-MC-M-A03 SHEET NO.

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HCI ~ 1.7560 HCO

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30. HCI~I.7402 HCO

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35 36 576 PER ICO QAI~

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HCI ~ 1.7699 HCO 1.01C4

ORIGINATOR CHECKER DATE CALCULATIONSHEET PROJECT JOB ~O 18601 183 t

TRANSIENT TEMPERATURE STUDY FOR AFW B PUMP ROOM REV ORIGINATOR DATE REV V~

DATE CHECKER DATE CALC. NO 13-MC-M-A

. IQ

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W IC 4) 107. $0 10'$

rs.s2r 90.421 7$.09C 92.$ 71 bd.C4b 01.020 rs.04r 64d PIRICO 0AI

10606, 017 1993099.

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I'17.29 94.70$

lb.0r4 026.

IICI~ '1.604d IICO 1.0262 11$.$6 11$.20 60.207 02.2S1

'I 0 11/ ~ 142.1$

11 12 ls

~-----~- ~ ~ ~ ~ -1(ll~I) 122.$ 0 121.92 121.01 112.4S Iob.29 lbs.03 lb.64S lb.99b 7S.210

'119.7$

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09.9$ 7 6$.$ 0$

12 13 16 17 18 19 20 21 22 23 25 26 27 26 29 30 33 35 36

ML17304A769

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