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Steam Leak Detection Calculation - RWCU Penetration Room (I-501),Pump Rooms (I-502/503) & Heat Exchanger Rooms (I-504/505),Unit 1 Only.
	ML17157A808
Person / Time
Site:	Susquehanna
Issue date:	04/30/1990
From:	; PENNSYLVANIA POWER & LIGHT CO.
To:	;
Shared Package
ML17157A805	List: ML17157A804; ML17157A806; ML17157A807; ML17157A808; ML17157A809; ML17157A810; ML18026A410;
References
	M-SLD-005, M-SLD-5, NUDOCS 9108260192
	Download: ML17157A808 (138)
	v • d • e

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Calc 4 M-SLD-005 Page 2 of 63 TABLE OF CONTENTS 1.0 PURPOSE

2.0 REFERENCES

3.0 ASSUMPTIONS 4.0 METHODOLOGY ~ \~~~~~~~~~~~~~~~~~~~~~~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 6 5.0 RESULTS/CONCLUSIONS ................................... 13 The following attachments represent the COTTAP Output from the various runs made for the RWCU Rooms.

1A & 4A RWCU Penetration Room (I-501) 5 GPM Leak (Summer) 1B & 4B RWCU Penetration Room (I-501) 5 GPM Leak (Winter) 1C & 4C RWCU Penetration Room (I-501) 25 GPM Leak (Summer) 1D & 4D RWCU Penetration Room (I-501) 25 GPM Leak (Winter) 2A & 5A RWCU Pump Room (I-502/503) 5 GPM Leak (Summer) 2B & 5B RWCU Pump Room (I-502/503) 5 GPM Leak (Winter) 2C & 5C RWCU Pump Room (I-502/503) 25 GPM Leak (Summer) 2D & 5D RWCU Pump Room (I-502/503) 25 GPM Leak (Winter) 3A & 6A RWCU Heat Exchanger Room (I-504/505) 5 GPM Leak (Summer) 3B & 6B RWCU Heat Exchanger Room (I-504/505) 5 GPM Leak (Winter) 3C & 6C RWCU Heat Exchanger Room (I-504/505) 25 GPM Leak (Summer) 3D & 6D RWCU Heat Exchanger Room (I-504/505) 25 GPM Leak (Winter)

Note: Attachments 5A-5D are provided for information only. The RWCU Pump rooms contain no lines with conditions of 440 F/

1190 psig.

t APPENDIX A APPENDIX B Data Input Section I-504 & I-505)

RWCU Rooms Addendum- to Calc 5 M-SLD-005, Rev. 0 (I-501,I-502,I-503, (All of the above except 5A to 5D rerun for separate ventilation exhaust

AgA Calc 5 M-SLD-005 Page 3 of 63 The purpose of this calculation is to predict the room temperature profile expected when a small steam leak is introduced in any one of the Unit 1 RWCU Rooms (Room g I-501, I-502,I-503,I-504 & I-505). The results of this calculation will be used as a basis for development of Steam Leak Detection System setpoints.

Revision 1 of this calculation models the affects of a steam leak in the same Unit 1 RWCU rooms with individual exhaust registers.

The original analysis utilized a common exhaust register located within the Penetration room.

2.0 REFERENCES

2.1 Calc g M-RAF-024, Rev. 0 "RB Post DBA Transient Temperature Analysis" 2.2 Bechtel Calc g 176-18, Rev. 5 "RB Cooling Loads" 2.3 SEA-EE-129, Rev. 0 "SSES Unit 1 and Unit 2 Reactor Building Heat Loads" 2.4 Drawings P&ID M-176, Rev. 20 P&ID M-144 Sht 1, Rev 27 P&ID M-144 Sht 2, Rev ~ 1 V-25-4, Rev. 8 V-25-5, Rev. 13 V-25-6, Rev. 14 V-28-4, Rev. 15 V-28-5, Rev. 21 V-28-6, Rev. 18 M-25-5, Rev. 26 M-28-5, Rev. 20 C-188, Rev. 14 C-199, Rev. 16 C-201, Rev. 15 C-207, Rev. 9 C-209, Rev. 12 C-210, Rev. 17 DBB-122-1, Rev. 5 DBC-101-1, Rev. 13 DBC-102-1, Rev. 12 DBC-103-1, Rev. 6 DBC-104-1, Rev. 7

j1 Calc g M-SLD-005 Page 4 of 63 EBC-101-1, Rev. 6 EBC-101-2,. Rev. 5 EBC-102-3, Rev. 4 EBC-103-1, Rev. 5 2.5 M-199 Piping Class Sheets 2.6 SEIS Pipeline General Index 2.7 Crane Technical Paper No. 410, 23rd Printing, 1981 2.8 ASHRAE 1985 Fundamentals Handbook 2.9 FSAR Table 3.11-6 2.10 Calc 5 M-PAF-001, Rev. 1 "HVAC Environmental Analysis Reactor Buildings 6 Control Structure" 2.11 COTTAP-2 Theory and Input Description Manual (User's Manual),

Rev. 1, dated 1/27/89.

2.12 FSAR Figures 5.4-17 a 6 b

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Calc 5 M-SLD-005 Page 5 of 63 Plant is operating under normal conditions prior to introducing a steam leak.

All adjacent rooms will be maintained at their design maximum temperature for summer conditions and at the average temperature for the month of January (if blue-box data is available) for winter conditions. Where winter temperature data is not available, the design minimum temperature of 60 F will be used.

The rooms under consideration will not be allowed to pressurize, as the blowout panel will relieve at approximately 0.5 psid. Therefore, a leakage path out of the rooms will be used to maintain pressure as close to 14.7 psia as possible. The temperature effects due to slight room pressurization are assumed to be negligeble.

The effects of adjacent room heatup are not considered in this analysis (i.e. adjacent room temperatures are held constant). This results in a conservative temperature profile for the room under consideration. The actual adjacent room heatup due to the steam leak is expected to be minimal (when considering conductive heat losses).

The COTTAP model assumes perfect mixing of the air and steam in the room under consideration. Refer to APPENDIX B.for a special consideration related to the perfect mixing assumption. Qi l

This calculation considers the following lines as high energy piping RWCU Pump Suction from Vessel DBC-101 1025 psig/535 F Disch to Regen

" /535 RWCU Pump HX DBC-102 1190 II F Regen HX to Non-Regen HX

" /235 DBC-103 1190 F Non-Regen HX to Regen HX EBC-101 1190 /120 F II II II EBC-102 1190 " /120 F II II It "

" /120 EBC-103 1190 F Regen HX to Feedwater Inlet DBC-104 1190

" /440 F

Feedwater inlet to RX Vessel DBB-122 1190 /440OF For the purpose of this calculation, leaks of subcooled liquid at 235 F and 1204F are neglected. The energy content of such leaks is considered negligable and probably cannot be detected by the current GE temperature-based leak detection system.

Subcooled liquid at 120 F will not even flash to steam within the RWCU Rooms (at 14.7 psia). Subcooled liquid at 235 F only-flashes 34 to steam when allowed to expand adiabatically to 14.7 psia.

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Calc I M-SLD-005 Page 6 of 63 The only break conditions analyzed by this calculation are:

a) subcooled liquid at 1025 psig/535 F, and b) subcooled liquid at 1190 psig/440 F Section 4.7 discusses the pipe break data used in the COTTAP model. For breaks of saturated or subcooled liquid (initially), a percentage of the break mass flow flashes to steam at 14.7 psia. The remaining break mass flow enters the room as saturated liquid at 2124F. For conservatism, this calculation neglects any heat load associated with the saturated liquid entering the room. This is considered reasonable, since open floor drains exist in each of the rooms under consideration. This temperature profile, although conservative, only underpredicts actual expected temperature response by 3 to 5 F (engineering judgement).

Section 4.7 calculates the break mass flow based upon actual conditions in the pipe. Then, the amount of flashing is determined by allowing these conditions to expand adiabatically to the room pressure of 14.7 psia. This percentage is applied to the break mass flow to determine the amount of pure steam which enters the room for the conditions being analyzed.

4.0 METHODOLOGY The Compartment Transient Temperature Analysis Program (COTTAP) was used to analyze the affects of a steam leak in various rooms within the plant. Since the RWCU rooms contain process lines of varying energy conditions, the was performed for two different sets of break conditions.analysis The first case analyzed a break for normal conditions experienced at the inlet to the RWCU system (1025 psig/535 F). The second case considered the lowest possible energy condition which was believed to be detectable by the existing GE temperature-based steam leak detection system (1190 psig/440 F). All other process lines are of lower energy conditions and were assumed not to be detectable. The program predicted temperature profiles for the room under consideration with the following set of conditions

1) 5 gpm subcooled water leak (Summer)

2) 5 gpm subcooled water leak (Winter)

3) 25 gpm subcooled water leak (Summer)

4) 25 gpm subcooled water leak (Winter)

The individual room models were developed from various sources of information, as identified in Section 2.0 References. The RWCU rooms have been modeled as three inter-connected volumes which communicate with each other. The effects of each leak are considered on all three rooms. Therefore, the results will consist of 24 separate COTTAP outputs and the associated temperature profiles for the cond'.tions stated above. The following discussion is provided to outline the steps used in developing the individual room models.

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Calc N M-SLD-005 Page 7 of 63 Rooms Room Volumes The room volume was taken from Reference 2.1 for the room under consideration. Adjacent room volumes were set to a large value (i.e.

1.0 EE15 cu. ft.) to maintain constant properties such as temperature, pressure and relative humidity.

Initial Pressure All rooms were assumed pressure of 14.7 psia.

to be at an initial Initial Temperature All rooms were assumed to be at their maximum normal design temperature initially for summer conditions. Actual winter data was used, where available, as a starting point for the winter runs. The winter data was taken as the "blue-box" average temperature for January 1988.

The January data was considered to be more conservative than February data. Where actual winter data was not available, the design minimum room temperature of 60 F was used.

Where winter data was not available for the room in question, the room was started at a temperature which allows state with its adjacent rooms.

it to reach a steady-The outside ambient temperature was taken as 79 F (summer) and 26 F (winter). The summer ambient was taken from Reference 2.8 as the 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months daily average temperature, based upon the 14 ASHRAE design value for the Wilkes-Barre/

Scranton area. The winter value was taken as the actual monthly average for January over the years 1986 thru 1989. This average was based upon SSES Meteorological Data taken from the plant computer. A comparison of February data over this same time period indicated that the January data was more conservative.

Relative Humidity The relative humidity for all rooms connected by ventilation or leakage paths is based upon outside air temperatures of 92 F DB / 78 F WB (summer) and -5 F DB / -5 F WB (winter). Air at these conditions was then allowed to heat up or cool down (sensible heating/cooling only) to the initial room temperature, and the corresponding RH value calculated or read from the psychrometric chart.

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Calc g M-SLD-005 Page 8 of 63 Room Height This value is no longer used by COTTAP. It' original purpose was associated with the wall condensation calculation used within COTTAP.

COTTAP has been revised and no longer uses this information. Therefore, a value of 10.0 inputted for each room. This value has no ft was significance to the calculation. Note that the actual room height was used in the calculation of room volume.

4.2 Airflow and Leakage Path Data Airflow Data The design airflow is provided for the room under consideration. All flow paths are identified (i.e. supply, exhaust and transfer air). The source of the airflow data is the PAID associated with the particular ventilation system for that room. The data identifies the room from which the air comes, and the room to which the air goes.

A conservative value of 110< design airflow is inputted to the model, since airflows are balanced to + 10%. Refer to the data input section for the actual values used in this model.

The supply, exhaust and transfer air lines to the RWCU Rooms are equipped with back draft isolation dampers to prevent the spread of steam to adjacent rooms in the event of a high energy line break outside containment. These dampers isolate at a differential pressure of 5 " WG. The BDID's are not expected to close due to a steam leak of this magnitude. Therefore, the model assumes the air flow path remains open throughout this event.

Revision 1 of this calculation models separate exhaust registers for each of the rooms under consideration. The original analysis utilized a common exhaust register located within the RWCU Penetration room. The exhaust from each room was modeled as transfer air supplied to the Penetration room, where it mixed perfectly prior to exiting the area. Refer to Appendix A for the specific airflow data changes.

Leakage Path Data As with the airflow data, all rooms connected to the leakage path are identified. The leakage path area is only used to scale the leakage flowrates for the entire compartment under consideration. The intent of the leakage

t f Calc 4 M-SLD-005 Page 9 of 63 path is to prevent compartment pressurization.

The open doorways between the RWCU rooms are modelled as leakage paths, since these are large areas.

4.3 Heat Load Data Heat Load Type The type of heat load was identified using the following nomenclature Type Description Lighting Electrical Panels Motors Unit Coolers Piping Misc. Mechanical Equipment Heat Input Rate The heat rate input in Btu/hr for the associated heat load.

The values for heat load types 1 thru 3 were obtained from References 2.2 & 2.3. The heat rate inputs for type 4 heat loads are inputted as negative values since the unit coolers remove heat from the room. The heat input rate for type 5 heat loads were input as -1. This value directs COTTAP to obtain piping information necessary to calculate the piping heat loads.

The heat input rate for type 8 heat loads was obtained from References 2.2 & 2.3, as necessary for the appropriate room.

To achieve an initial steady-state condition, a miscellaneous heat load (positive or negative) was added to the main room to balance all other time zero heat loads. This heat load was inputted as type 8.

Note that COTTAP neglects cold pipe and equipment as heat sinks. This represents non-conservatism in this calculation. A sample run made to determine the effects of these heat sinks indicated that resultant temperatures were only slightly lower than the values predicted when neglecting these heat sinks.

Therefore, this calculation assumes the effects of these heat sinks are negligable.

a Calc N M-SLD-005 Page 10 of 63 4.4 Piping Input Data Only piping with a design temperature greater than that of the normal room design temperature was included, since COTTAP ignores cold pipe as a heat sink. This generally meant that piping at or close to Reactor conditions was included. Also note that this calculation neglects heat loss from small pipe (i.e. less than 2" OD).

Pipe OD The outside diameter of the pipe was obtained from Reference 2.4 Pipe ID The pipe schedule was obtained from Reference 2.5 . Knowing the schedule, the inside diameter was obtained from Reference 2.7 Insulation OD The insulation OD was obtained from Reference 2.11 Pipe Length The pipe length was obtained from Reference 2.4 Emmisivity The emmisivity was obtained from Reference 2.11 Insulation k Value The insulation thermal conductivity (k) was obtained from Reference 2.11 Pipe Fluid Temperature The design fluid temperature was obtained from Reference 2.6 Fluid Phase The state of the fluid was determined by reviewing the system P&ID's and design temperatures/pressures. For this model, the fluid carried within the piping is subcooled water.

4.5 General Data For Thick Slabs Room ID N on Side 1 : The room number on one side of the slab.

Room ID N on Side 2 The room number on the other side of the slab.

When slab is adjacent to ground, a room 4 of "0" is used.

Thickness The thickness of the slab was obtained from

'Reference 2.4

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Calc N M-SLD-005 Page 11 of 63 Heat Transfer Area The area of the slab was obtained from Reference 2.4 . The dimensions were scaled from plant ventilation drawings. The slab areas are calculated in the Data Input Section (Refer to Appendix A).

Thermal Conductivity The thermal conductivity of the concrete slabs were obtained from Reference 2.8 , Chapter 23 Table 3A. A value of 1.0 Btu/hr sq-ftF was used for all concrete slabs.

Density The density of all concrete slabs is assumed to be 140 ibm/cu Reference 2.8 ft. This value was obtained from

, Chapter 23 Table 3A.

Specific Heat The specific heat for-all concrete slabs was assumed to be 0.22 Btu/ibm F as obtained from Reference 2.8 , Chapter 23 Table 3A.

t 4.6 Film Coefficient Data For Thick Slabs Type w/r to Room on /

Side 1 The type of slab with respect to the room on Side 1 was defined using the following codes Type 1 Vertical Wall Type 2 Floor Type 3 Ceiling hl 6 h2 All film coefficients (h) for inside walls were calculated by COTTAP. The film coefficient for walls in contact with outside air were inputted as Summer 4.0 Btu/hr-sq ft-oF Winter 6.0 Btu/hr-sq ft- F (Per Reference 2.8 , Chapter 23, Table 1) 4.7 Pipe Break Data Fluid Pressure The fluid pressure within the pipe (psia).

~ h Calc N M-SLD-005 Page 12 of 63 Mass Flow : The total mass flow exiting the pipe break (ibm/hr) was inputted as follows o 5 gpm subcooled water leak 1040 psia/535 F 5 gal/min x 1 cu t/7.48 gal x 60 min/hr

/ .02130 cu ft/ibm = 1883.0 ibm/hr From ASME Steam Tables 9 1040 psia/535 F.:

vf = 0.02130 cu ft/ibm hf = 530.47 Btu/ibm Percentage of flashing 9 1040 psia/535 F:

530.47 = 180.17 (1 x) + 1150.5 (x) x = 0.3610 1883.0 x 0.361 = 680.0 ibm/hr pure steam o 25 gpm subcooled water leak 1040 psia/535 F:

5 I

x 680.0 = 3400.0 ibm/hr pure steam o 5 gpm subcooled water leak 1205 psia/440 F:

5 gal/min x 1 cu ft/7.48 gal x 60 min/hr

/ .01914 cu ft/ibm = 2100.0 ibm/hr From ASME Steam Tables 9 1205 psia/440 F:

vf = 0.01914 cu ft/ibm 9 1205 psia hf = 419.60 Btu/hr Percentage of flashing 9 1205 psia/440 F:

419.60 = 180.17 (1 x) + 1150.5 (x) x = 0.2468 2100.0 x 0.2468 = 517.0 ibm/hr pure steam o 25 gpm subcooled water leak 1205 psia/440 F:

5 x 517.0 ibm/hr = 2585.0 ibm/hr pure steam The break occurs at t=0.5 hrs. This allows the room to reach equilibrium conditions prior to initiation of the break. In all room models, the break mass flow is allowed to increase linearly (ramp) from 0 ibm/hr to its maximum value over 0.1 hrs.

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Calc I M-SLD-005 Page 13 of 63 RESULTS/CONCLUS IONS The following pages provide the temperature profiles resulting from the RWCU Room models for the conditions stated below

1) 5 gpm subcooled water leak (Summer)

2) 5 gpm subcooled water leak (Winter)

3) 25 gpm subcooled water leak (Summer)

4) 25 gpm subcooled water leak (Winter)

The COTTAP output for each case above can be found as Attachments 1A thru 6D, respectively. Each output provides a summary of the data input, and the results of each time step within the 24 hour2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months run time. At the end of each COTTAP output, a summary table of Temp vs Time information is also provided.

APPENDIX B provides an Addendum to Calc g M-SLD-005, Rev. 0 The addendum reanalyzes a steam leak in each room utilizing separate ventilation exhausts. The original analysis modelled the ventilation system with a common exhaust register in the RWCU Penetration room. Although the actual installed system utilizes a common exhaust, the model assumes all the transfer air from the Pump/Heat Exchamger rooms mixes perfectly with the Penetration room air. The location of the exhaust register suggests that this mixing would only occur in a very localized part of the room. The previous results tended to dilute the affects of a steam leak within the Penetration room. The Penetration room was also very sensitive to steam leaks in the Pump/Heat Exchanger rooms.

The results of Revision 1 indicate that the temperature profile is significantly higher than the original analysis for the RWCU Penetration room. The RWCU Pump/Heat Exchanger rooms did not experience any significant changes as a result of modelling individual exhaust registers. These results were expected, since the Penetration room response was diluted by the transfer air from the Pump/Heat Exchanger rooms.

Refer to APPENDIX B for the results of the new analysis. The output is provided in a similar manner to that of the original analysis, as stated above.

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RWcU ROOMS $ 501 5 GPk'i STEAM LEAK SUMMER 120 115 (3

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RWCU ROOMS ¹50 I ( 5 GPM STEAM LEAK/SUMMER)

TEMPERATURE (OEG F)

TIME ROOMz ROOMS ROOMP ROOM¹ ROOMP ROOMt ROOM>> ROOM>> ROOMAr ROOMS ROOM>> ROOM¹ ROOMN ROOM>> ROOM4 (HR) I 2 3 0.000 115.00 104.00 110.00

0. 100 115.76 106.84 111.05 0.200 0.300 I 15.87 106.86 I I I. 12 115.84 106.73 111. 18 0.400 II5.90 106.89 111. 15 0.500 115.93 106.83 II I. 17 0.550 117.44 107.02 111. 28 0.600 117.32 106.99 111.24 0.700 117.55 107.04 'I 11. 20 0.800 I17.50 107.03 111. 24 0.900 117.55 107.03 111.20 1.000 117.54 107. 12 111. 19 1.500 117.57 107.02 111. 18 2.000 117.87 107. 17 111.29 2.500 117.81 107.20 111.34 3.000 117.98 107.25 111.36 3.500 117.48 107.30 111.38 4.000 118.06 107.32 111.44 4.500 118.25 107.69 I I I.60 5.000 118.04 107. 21* 111.32 5.500 I IB. 15 107.37 111.57 6.000 118.24 107.40 111.49 6.500 118.28 107.55 111.61 7.000 118.39 107.62 111.64 7.500 I18.33 107.40 111.53 8.000 118.39 107.50 111.58 9.000 118.42 107.49 111.60 10.000 118.52 107. 51 111.62 11.000 118.59 107. 61 111.73 12.000 118. 61 107.63 111.69 13.000 118.66 107.53 111.69 14.000 118.60 107.68 111.45 I5.000 118.74 I07.67 111.75 I6.000 118. 13 I07.59 111.87 17.000 118.88 108.02 111.91 IB. 000 119. 12 'I07 82 111.79

19. 000 118.88

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107.77 III.73 20.000 118.98 107.78 111.85

21. 000 118.88 107.79 111.83 22.000 118.88 107.78 111.83 23.000 118.84 107.75 111.80 24.000 118.75 107 '6 111.87 X

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5 GPM STEAM LEAK WINTER 88 86 84 (3

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RWCU ROOMS >>501 ( 5 GPM STEAM LEAK/WINTER)

TEMPERATURE (DEG F)

TIME ROOM>> ROOMS ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM¹ ROOM>> ROOM>>

(HR) 1 2 3 0.000 80.00 76.00 75.00

0. 100 79. 98 76.04 74.81

0. 200 79.91 75.95 74.77 0.300 79.95 76.05 74.75 0.400 79.95 76.05 74.75 0.500 79.95 76.05 74.74 0.550 82.83 76. 17 74.96 0.600 83.47 76. 16 74.89 0.700 84.44 76. 15 74.85 0.800 84.55 76. 17 74.87 0.900 84.68 76. 11 74.84 1.000 84.80 76.22 74.87 1.500 84.79 76.12 74.85 2.000 85. 11 76. 19 74.90 2.500 85. 19 76. 16 74.88 3.000 85.33 76. 17 74.90 3.500 85.42 76. 17 74.89 4.000 85.39 76. 16 74.87 4.500 85.46 76.09 74.85 5.000 85.56 76.20 74.90 5.500 85.59 76. 18 74.88 6.000 85.63 76. 17 74.87 6.500 85.66 76. 19 74.86 7.000 85.71 76. 19 74.90 7.500 85.72 76. 17 74.89 8.000 85.76 76.20 74.88 9.000 85.88 76. 19 74.90 10.000 85.81 76. 17 74.87 11.000 85. 89 76. 19 74.89 12.000 85.89 76. 19 74.89 13.000 85.92 76. 19 74.89 14.000 85.99 76. 17 74.87 15.000 85.96 76. 19 74.89 16.000 85.98 76. 13 74.86 17.000 85.99 76. 11 74.83 18.000 86.00 76. 14 74.87 19.000 86.03 76. 13 74.84 20.000 86.06 76. 15 74.86

21. 000 86.97 76. 24 74.95 22.000 86.08 76. 15 74.85 23.000 86. 16 76. 15 74.85 24.000 86. 12 76. 17 74.86

t t RWCU ROOMS $ 501 25 GPM STEAM LEAK SUMMER 150 140 0

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nnfCU ROOMS ¹501 (25 GPM STEAM LEAK/SUMMER)

TEMPERATURE (OEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ (HR) I 2 3 0.000 I I5.00 104.00 110.00

0. 100 115.76 106.84 111.05 0.200 115.87 106.86 111. 12 0.300 I 'I5.84 106.73 111. 18 0.400 115.90 106.89 111.15 0.500 115.93 106.83 111. 17 0.550 128.72 107.65 111.78 0.600 132.93 107.76 111.57 0.700 135.05 107.88 111.64 0.800 136. 15 108.07 111.77 0.900 136.64 108.03 111.74 1.000 137. 15 108. 16 '111.80 1.500 138.32 108. 19 111.80 2.000 139.05 108.43 112.00 2.500 139.43 108.50 '112.06 3.000 139 .69 108.60 112. 11 3.500 139.95 108. 71 112. 11 4.000 140.02 108.73 I 12. 20 4.500 140. 18 108.76 112.29 5.000 140. 27 109.63 112.36 5.500 140. 38 108.92 112.35 6.000 140. 50 108. 91 112.48 6.500 140.72 109. 00 112.42 7.000 140. 61 109. 01 112.51 7.500 140.64 109.01 112.50 8.000 140. 71 109.05 112.55 9.000 140.84 109. 16 112.68 10.000 140.87 109. 18 112.64 11.000 140.90 109.33 112.87 12.000 140.98 109.23 112.71 13.000 141. 04 109.38 112.87

14. 000 141. 12 109.36 112.83

15. 000 141. 13 109.38 112.89 16.000 17.000 141. 16 141. 19 109 '6 109. 49

'112.95 112.96 18.000 141. 0'I 109.46 112.94

19. 000 141. 32 109.58 113.03 20.000 141. 19 109.62 113.05

21. 000 141. 31 109.67 113. 10 22.000 141.36 109.69 113. 11 23.000 141. 34 109.75 113. 18 24.000 141.38 109.80 113.24 Q

C' I

o 6

Q o

0

RWCU ROOMS $ 501 25 GPM STEAM LEAK WINTER 140 130 120 (3

1'l0 100 CL 90 Legend 80 a ROOM 0 ROOM 2 70

~ ROOM 3 10 15 20 25 TIME (HRS)

RWCU ROOMS >>501 (25 GPM STEAM LEAK/WINTER)

TEMPERATURE (OEG F)

TIME ROOM¹ ROOMS ROOM¹ ROOM¹ ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM¹ ROOM>> ROOM>> ROOM¹ ROOM>> ROOM>>

(HR) 1 2 3 0.000 80.00 76.00 75.00

0. 100 79.98 76.05 74. 81 0.200 79.96 76.05 74. 77 0.300 79.96 76.05 74.75 0.400 79.95 76.05 74.75 0.500 79.95 76.06 74.75 0.550 114. 10 77.45 75.98 0.600 118.98 77.60 75.99 0.700 121.63 77.78 76.28 0.800 123.08 77. 91 76.38 0.900 124.08 77.99 76.47

1. 000 124.94 78.06 76.52

1. 500 127.59 78.26 76.74 2.000 128.98 78.52 76.93 2.500 129. 91 78.61 77.02 3.000 130.54 78.72 77.10 3.500 131. 03 78.74 77.16 4.000 131. 41 78.81 77.22 4.500 131.71 78.88 77.28 5.000 131.97 78.92 77.33 5.500 132. 18 78.97 77.37 6.000 132.36 79.00 77.39 6.500 132.57 78.99 77.45 7.000 132.72 79.09 77.52 7.500 132.74 79. 10 77.46 8.000 132.93 79. 13 77.57 9.000 133. 13 79. 21 77.60 10.000 133. 31 79. 16 77.66 11.000 133.44 79.25 77.71 12.000 133.58 79.29 77.75

13. 000 133.70 79.35 77.83 14.000 133.79 79.37 77.83

15. 000 133.89 79.42 77.90 16.000 133.95 79.45 77.93 17.000 134.02 79.56 77.96

18. 000

19. 000 134.08 134. 16 79.52 79.55 7'8 78.02 20.000 134. 21 79.58 78.04 21 . 000 134. 27 79.62 78. 10 22.000 134.34 79.68 78. 13 23.000 134.38 79.72 78. 13 24.000 134.40 79.68 78.22 Q

P p, P

~~ Pot LA

~ ~

RIA'CE l ROOMS $ 502/503 (5 GPM STEAM LEAK/SUMMER 120 115 C3 110 CL CL LIJ I

105 Legend J

a ROOM Cl ROOM 2 ~y 0 ROOM 100 10 15 20 TlME (HRS)

\D f

I

RINCU ROOMS ¹502/503 ( 5 GPM STEAM LEAK/SUMMER)

TEMPERATURE (OEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOMs ROOM¹ ROOM¹ ROOM¹ ROOM>> ROOM¹ (HR) I 2 ROOM¹ ROOM¹ ROOM¹ 3

0.000 115.00 104. 00 I 10. 00

0. 100 115.78 106. 81 111.03

0. 200 115.85 106. 85 111.11 0.300 115.88 106.87 111. 15 0.400 115.89 106.90 111. 16 0.500 I '15.91 106.93 111. 17 0.550 116.91 112. 11 111.64 0.600 116.76 112. 94 111.08 0.700 117. 14 113.84 111.18 0.800 117. 19 114.23 111. 18 0.900 117.33 I 14. 49 111.23 1.000 117.41 114. 69 111.21 1.500 I 17. 66 115.41 111.27 2.000 I 17.83 115.97 111.29 2.500 . 117.94 116.27 111.35 3.000 118.08 116. 61 111.33 3.500 118.17 116.57 111.39 4.000 118.26 116. 61 111.42 4.500 118.28 116.78 111.40 5.000 118.35 116.82 111.42 5.500 118.43 116.99 111.43 6.000 118.62 118.76 111.49 6.500 118.56 117.06 111.48 7.000 118. 61 117. 18 111.54 7.500 I 18. 62 117.32 '111.50 8.000 118. 70 117.25 111.54 9.000 118.75 I '17.53 I '11.57 10.000 118. 83 117.47 111.58 11.000 118.88 'I 17. 69 111.60 12.000 118. 98 117.50 111.65 13.000 119. 00 I 17. 78 111.64 14.000 119.03 117.43 111.66 15.000 'I 19. 14 118.01 111.75 16.000 119. 19 118.50 111.78 17.000 119.47 117. 93 111.70 18.000 119. 18 117. 77 111.76 19.000 119.26 117. 50 111.72 20.000 I 19. 31 117.81 111.77

21. 000 119.42 117.78 111.77 22.000 I 19. 34 117.97 111.76 23.000 119.50 117.92 111.90 24.000 119.46 118.33 111.82 pO P p

I c

pI 0

0

t RWCU ROOMS $ 502 505 i

5 GPM STEAM LEAK WINTER t

110 105 100 (3

C) 95 90 I

LLI 80 Legend g I' ROOM 1 Q+

75 P Q ROOM 2~<)

~ ROOM 70 10 15 20 TIME (HRS)

RWCU ROOMS ¹502/503 ( 5 GPM STEAM LEAK/WINTER)

TEMPERATURE (OEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ (HR) I 2 3 0.000 80.00 76.00 75.00

0. 100 79.97 76.05 74.81 0.200 79.96 76.05 74.77 0.300 79.95 76.05 74.76 0.400 79.95 76.05 74.75 0.500 79.95 76.05 74.75 0.550 82.90 92.59 75.00 0.600 84.66 94.80 74."'88 0.700 85. 18 96.02 74.92 0.800 85.34 96.65 74.93 0.900 85.56 97. 12 74.97 1.000 85.67 97.60 74.96 1.500 86.25 99.29 75.01 2.000 86.52 100.02 75.00 2.500 86.74 100.69 74.99 3.000 87.00 101. 18 75.06 3.500 87. 15 101. 56 75.02 4.000 87.27 101.91 75.01 4.500 87.44 102.24 75.05 5.000 87.52 102.44 75.01 5.500 87.66 102.68 75.05 6.000 87.78 102.85 75.06 6.500 87.85 103.03 75.07 7.000 87.80 103.26 74.93 7.500 88.01 103. 31 75.07 8.000 88.07 103.44 75.06 9.000 88'. 20 103.72 75.06 10.000 88.34 103.84 75.08 11.000 88.45 104.04 75.11 12.000 88.56 104. 'I 5 75.09 13.000 88.65 104.32 75. 10 14.000 88.62 104.40 75.02 15.000 88.82 104.56 75.08 16.000 88. 91 104.62 75.09 17.000 88.98 104. 72 75. 10 18.000 89.05 104 ..81 75.11

19. 000 89. 12 104.87 75.11 20.000 89.20 104.93 75.13 2 I .000 89.29 105.02 75. 15 22.000 89.32 105.06 75. 12 23.000 89.37 105. 13 75. 12 24.000 89.45 105. 17 75. 15

'WCU ROOMS $ 502/505 (25 CPM STEAM LEAK/SUMMER) 170 160 150 140 D p p Ct n I I 130 O

C CL O Vi 120 Legend a ROOM 110 Cl ROOM 2

~ ROOM 3 100 10 15 20 25 TIME (HRS)

p1$

RWCU ROOMS >>502/503 (25 GPM STEAM LEAK/SUMMER)

TEMPERATURE (OEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM>> ROOM¹ ROOM¹ ROOM>> ROOM¹ ROOM>> ROOM¹ (HR I 1 2 3 0.000 115.00 104.00 110.00

0. 100 115.78 106. 81 111.03 0.200 115.85 106.85 111. 1'I 0.300 115.88 106.87 111. 15 0.400 115.89 106.90 111. 16 0.500 115.91 106.93 111. 17 0.550 122. 17 144.67 112.02 0.600 124.57 149.72 111.77 0.700 128. 12 152.64 111.83 0.800 130.09 156.20 111.90 0.900 130.74 154.85 111.92 1.000 131 . 60 155.48 112.00 1.500 134.26 157.31 112.26 2.000 135.74 158.04 112. 21 2.500 136.77 158.53 I '12.59 3.000 137. 21 158.93 112.55 3.500 137.70 159.28 '112.69 4.000 138. 01 159.38 112.74 4.500 138. 21 159.64 112.82 5.000 138.46 159.88 112.98 5.500 138.55 159.75 '113.00 6.000 138.93 159.96 113. 10 6.500 138.70 160.09 113.04 7.000 138.83 160.01 113. 14 7.500 138.86 159.78 113. 21 8.000 139. 12 160.30 113.26 9.000 139.20 160. 15 113.35 10.000 139. 18 160. 15 113.38 11.000 139. 31 160.34 113.48 12.000 139.48 160.50 113.54 13.000 139. 43 160.61 113.67

14. 000 139. 64 160.46 113.74 15.000 139.63 160.58 113.79 16.000 139.87 160.59 113.82 17.000 139. 85 160. 61 113.88 18.000 139.87 160.79 113.95

19. 000 140.08 160.93 114.09 20.000 140.08 160.90 114.07

21. 000 140.03 160.73 114.01 22.000 140.08 160.78 114. 10 23.000 140. 14 160.92 114. 16 24.000 140. 14 160.89 114.23 0 P g

X, r

I O

'WCU ROOMS $ 502 503 25 GPM STEAM LEAK WINTER 160 140 (3

1ZO p P 0

6 U

100 0 EL f 0'egend 80 S ROOM 1 0 ROOM 2 0 ROOM 3 60 10 15 20 TIME (HRS)

p'

>e

<iA+

~ IPl p, I~

RWCU ROOMS ¹502/503 (25 GPM STEAM LEAK/WINTER)

TEMPERATURE (DEG F)

TIME ROOM>> ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM>> ROOM¹ ROOM¹ ROOM¹ (HR) I 2 3 0.000 80.00 76.00 75.00

0. 100 79.98 76.04 74. 81 0.200 79.95 76.07 74.77 0.300 79.97 75.99 74.77 0.400 79.95 76.05 74.74 0.500 79.95 76.05 74.74 0.550 91.45 134.05 76.33 0.600 99.79 '140. 16 76.34 0.700 105.69 144. 10 76.49 0.800 108.56 146. 24 76.54 0.900 110.42 147. 65 76.64 1.000 112. 17 'I 48. 75 76.75 1.500 117. 28 151. 74 77.06 2.000 119. 93 153. 09 77.28 2.500 '121 . 40 153.83 77.46 3.000 122.72 154. 47 77.62 3.500 123.67 154. 86 77.84 4.000 124.44 155. 28 78.07 4.500 124.93 155.45 78. 14 5.000 125.37 155. 69 78.29 5.500 125.93 155.78 78.45 6.000 126.27 156.00 78.62 6.500 126.45 156. 13 78.65 7.000 126.84 156. 29 78.85 7.500 '127.07 156. 31 78.90 8.000 127. 21 156.42 79.03 9.000 127. 61 156.69 79.37 10.000 127.90 156.56 79.54 11.000 128. 18 156.86 79. 81 12.000 128.39 156.89 80.02 13.000 128.68 157. 01 80. 14 14.000 128.89 157.07 80. 19 15.000 129.08 157.29 80.57 16.000 129.30 157.40 80.57 17.000 129.27 157.22 80.76 18.000 129.47 157. 41 80.99

19. 000 129. 61 157. 46 80.96 20.000 129.75 157.58 81. 17 21.000 129.72 157.45 81. 18 22.000 129.94 157.50 81.35 23.000 129.96 157.49 81. 44 24.000 130. 12 157.62 81.56

t t RWCU ROOMS $ 504/505 ( 5 GPM STEAM LEAK/SUMMER) 130 125 u 120 g! p o C 115 p

6 I

CL 110 I

Legend 105 r ROOM 1 Cl ROOM 2

~ ROOM 100 10 15 20 25 TIME (HRS)

0 t,

I 4k~

4

RWCU ROOMS >>504/505 ( 5 GPM STEAM LEAK/SUMMER)

TEMPERATURE (OEG F)

TIME ROOM>> ROOM¹ ROOM>> ROOM>> ROOM>> ROOM>> ROOMS ROOMP ROOM>> ROOM>>

(HR) I '2 3 ROOM>> ROOM>> ROOM>> ROOM>> ROOM>>

0.000 115.00 104.00 110.00

0. 100 I 'I5.79 106.78 111.05 0.200 115.97 106. 92 I10.95 0.300 I15.88 106.88 I 'I.15 1

0.400 115.89 106.88 'I

11. 19 0.500 115.92 106.91 'I 11. 17 0.550 116.23 107.03 1 13. 49 0.600 I16.05 106.94 113.35 0.700 116.54 106.99 'I 17. 21 0.800 116.73 107. 01 118.33 0.900 116.88 107.04 118.94

1. 000 ll6.94 107. 10 119 40 ~

1. 500 117.28 107. 14 120.97 2.000 117.50 107.20 121.97 2.500 I 17.96 107.39 122.99 3.000 117.77 107.23 123.26 4.500 117.92 107. 31 123.64 4.000 118. 00 107.33 123.95 4.500 118. 14 107.36 124.27 5.000 118. 19 107.39 I24.52 5.500 I'18. 26 107.42 124.70 6.000 118.33 107.44 124.96 6.500 I18.35 107.43 125.03 7.000 118.42 107.45 125.24 7.500 118.48 107.46 125.35 8.000 118.59 107.55 125.54 9.000 118.66 107.57 125. 81 10.000 118.80 107.63 126.01

11. 000 118.83 I07.63 126. 12 12.000 118.92 107.69 126.34 13.000 119. 02 107.74 126.47 14.000 119.03 107.73 126.61 15.000 119. 10 107.77 126.79

'I6.000 119. 15 107.78 126.86 17.000 119.23 107.82 126.98

18. 000 119.33 108.07 127. 01 19.000 119.33 107.88 127. 13 20.000 119. 37 107.94 127.09

21. 000 119. 39 107.86 127. 15 22.000 119.47 107. 96 127.31 23.000 119.50 107.98 127.31 24.000 119. 55 107.99 127.42

RWCU ROOMS $ 504 505 5 GPM STEAM LEAK WINTER 120 110 D

100 w 90 CL LIJ I

Legend 80 8 ROOM 1 a ROOM 2

~ ROOM 70 10 15 20 TIME (HRS)

gd 4,

U

RWCU ROOMS ¹504/505 5 GPM STEAM LEAK/WINTER)

TEMPERATURE (OEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ "ROOM¹ ROOM>> ROOM¹ ROOM>> ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM>> ROOM¹ (HR) I 2 3 0.000 80.00 76.00 75.00

0. '100 79.92 76.05 74.81 0.200 79.95 76.05 74.77 0.300 79.95 76.05 74.75 0.400 79.95 76.02 74.74 0.500 79.96 76.08 74.72 0.550 80.93 76.30 83.51 0.600 82.31 76.12 91.01 0.700 83.36 76. 16 94. 17 0.800 83.64 76. 11 95.35 0.900 83.80 76. I 'I 96.24

'I

. 000 83.95 76. 12 96.96 1.500 84.47 76. 18 99.62 2.000 84.83 76. 16 101.31 2.500 85. 10 76. 12 102.72 3.000 85.30 76.08 103.70 3.500 85.55 76. 17 '104.65 4.000 85.73 76. 19 105.38 4.500 85.83 = 76. 13 106.03 5.000 86.02 76. 18 106. 61 5.500 86. 13 76. 20 107.20 6.000 86.24 76.20 107.58 6.500 86.35 76.20 108.00 7.000 86.46 76.20 108.38 7.500 86.58 76.24 108.82 8.000 86.64 76.22 109. 14 9.000 86.82 76.22 109.77 10.000 86.95 76.25 110.29 11.000 87.11 76.26 110.76 12.000 87.23 76.28 111.08 13.000 87.37 76.27 111.60 14.000 87.46 76.28 111.87 15.000 87.54 76.29 112. 15

'16.000 87.67 76.31 112.49 17.000 87.79 76.32 112.75 18.000 87.83 76.30 113.00 19.000 87.93 76.34 113.27 20.000 88. 01 76.32 113.46

21. 000 88.07 76.32 113.65 22.000 88. 15 76.34 113.85 23.000 88. 21 76.34 113.97 24.000 88.28 76.37 114. 18 P

o I Q

0 I

180 160 (3

C)

LLI 140 I

CL LLI CL LLJ I g P 120 Legend ROOM OROOM 2 '~ o

~ ROOM 3 100 10 15 20 25 TIME (HRS)

~4 R INC U ROOMS ¹504/505 (25 GPM STEAM LEAK/SUMMER)

TEMPERATURE (DEG F)

TIME ROOMZ ROOMS ROOMS ROOMS ROOM¹ ROOMS ROOM>K ROOMA'OOM>> ROOMA'OOM¹ ROOMP ROOMS ROOMAF (HR) I 2 3 0.000 115.00 104.00 110.00

0. 100 115.80 106. 81 'I11.04

0. 200 115.88 106.87 111. 12 0.300 115.89 106.88 111. 14 0.400 115.90 106.90 111. 16 0.500 115.91 106. 91 111. 18 0.550 118. 16 107.72 135.29 0.600 120.09 107. 91 144.98 0.700 121. 88 108. 01 152.27 0.800 123.49 108. 12 155.60 0.900 124.70 108. 22 157.72 1.000 125. 71 108.33 159.32 1.500 128.92 'I08.74 163.85 2.000 130.76 109.03 165.79 2.500 'I31.87 109.23 166.93 3.000 132.70 109.42 167.69 3.500 I33.32 109.56 168.26 4.000 133.80 109.69 168.70 4.500 134. 19 109.80 169.02 5.000 134.50 109.90 169.29 5.500 134.79 109.99 169.55 6.000 135.04 110.09 169.76 6.500 135.25 110. 15 169.90 7.000 135.41 110.22 170.03 7.500 135.58 110.30 170. 17 8.000 l35.73 110.37 170.29 9.000 135.92 110.47 170.48 10.000 136. 12 110.59 'I70.64 11.000 136.31 110.67 170.79 12.000 I36.45 110.77 170.90 13.000 136. 60 110.84 171. 03 14.000 136. 69 110.93 171. 12 15.000 136.83 111.02 171. 23 16.000 136. 88 III.07 171. 28 17.000 137.00 111. 12 171.37 18.000 137.07 111.24 171.42 19.000 137. 19 111.30 171. 56 20.000 137.20 111.35 171.54

21. 000 137.27 111.43 171. 58 22.000 137.31 111.50 17 I . 63 23.000 137. 40 111.56 171. 68 24.000 137.46 111.62 171. 73 F

o

~

~ oo

'WCU ROOMS $ 504 505 25 GPM STEAM LEAK WINTER 180 160 4

uLJ 140 C)

LJ 120 I td 5I r

U CL 100 o

0 I

Legend 80 a ROOM 1 CI ROOM 2

~ ROOM 60

'IO 15 20 =-

25 TIME (HRS)

RWCU ROOMS ¹504/505 (25 GPM STEAM LEAK/WINTER)

I TEMPERATURE (DEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ (HR) I 2 3 0.000 80.00 76.00 75.00

0. 100 79.96 76.05 74.81 0.200 79.95 76.05 74.77 0.300 79.95 76.05 74.76 0.400 79.96 76.06 74.75 0.500 79.95 76.05 74.74 0.550 85.91 77.75 121. 13 0.600 88. 71 77.56 129.90 0.700 91.80 77.54 137.98 0.800 94. 73 77.58 142.03 0.900 96.99 77.69 144.99

'I

. 000 98.98 77.83 147. 40

1. 500 106.07 78.25 154.63 2.000 110.22 78.60 158. 16 2.500 113. 14 78.89 160.25 3.000 115. 21 79. 10 161.68 3.500 116.79 79.34 162.67 4.000 117.96 79.44 163.44 4.500 118.93 79.60 164.07 5.000 119. 77 79.69 164.56 5.500 120.45 79.82 164.97 6.000 121. 05 79. 91 165.31 6.500 121.61 79. 98 165.60 7.000 122.04 80. 10 165.87 7.500 122.48 80. 21 166. 10 8.000 122.88 80.26 166.34 9.000 123.47 80.35 166.66 10.000 124.00 80.47 166.96 11.000 124.44 80.58 167.21 12.000 124.83 80.66 167.42 13.000 125. 15 80.77 167.58 14.000 125.52 80.86 167.82

15. 000 125.76 80.94 167.93 16.000 126.00 81.04 168.06 17.000 126.22 81. 16 168. 19

18. 000 126.45 81.27 168.32 19.000 126.60 81.35 168.40 20.000 126.79 81.44 168.49 2 'I . 000 126.95 81. 57 168.60 22.000 127. 12 81.71 168.67 23.000 127.23 81. 75 168.74 24.000 127.37 81. 86 168.81

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RWCU ROOMS f501 5 GPM STEAM LEAK SUMMER 120 115 (3

LLI Cl 110 LLJ 0

l 105 Legend 0 ROOM 1 0 ROOM 2

~ ROOM 3 100 10 15 20 25 TIME (HRS)

RINCU ROOMS 501 ( 5 GPM STEAM LEAK/SUMMER)

TEMPERATURE (DEG F)

TIME ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>>

(nR) I 2 3 0.000 115.00 104.00 110.00

0. 100 115.76 106.84 111.05 0.200 115.87 106.86 111.12 0.300 115.84 106.73 111. 18 0.400 115.90 106.89 111. 15 0.500 115.93 106.83 111. 17 0.550 117. 15 107.01 111.29 0.600 117. 16 107. 01 111.23 0.700 I 17. 12 106.92 111.27 0.800 117. 15 106.98 111.20 0.900 117. 107. 01 111.21 1.000 17'17.29 107. 12 111.31 1.500 117.25 107. 04 111. 18 2.000 117.36 107. 07 111.27 2.500 117.46 107. 19 111.37 3.000 117.50 107.26 111.42 3.500 117.56 107. 24 111.39 4.000 I 17.61 107. 27 111.46 4.500 117.57 107. 29 111.53 5.000 117.75 I 07.42 111.49 5.500 117.74 I 07. 38 111.49 6.000 117.75 107. 38 111.46 6.500 117.82 107. 38 111.49 7.000 117.81 107.40 111.51 7.500 I 17. 83 107. 39 111.50 8.000 I 17. 87 107.43 111.52 9.000 117.89 107.49 111.57 10.000 117.99 107.52 111.62 11.000 118.03 107.55 111.66 12.000 118.04 107. 51 111.70 13.000 118.07 107.57 111.66 14.000 118.07 107.52 111.52 15.000 118.08 107.55 111.70 16.000 118. 18 107. 65 111.68 17.000 118. 17 107. 67 111.59 18.000 118.24 107. 60 111.74 19.000 118.24 107.66 III.75 20.000 118. 31 ,107. 71 111.76

21. 000 118.30 107.72 111.77 22.000 118. 21 107.77 111.81 23.000 118.34 107. 81 111.88 24.000 118.40 107.78 111.91

RV/CU ROOMS $ 501 5 GPlvl STEAM LEAK WINTER 84 82 0

C3 p P

~

X 80 l LLI CY I

w 78 CL I

Legend 76 8 ROOM 1 Q ROOM 2

~ ROOM 10 20 25 TIME (HRS)

8" RWCU ROOMS >>501 ( 5 GPM STEAM LEAK/WINTER)

TEMPERATURE (OEG F)

TIME ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>>

(HR) I 2 3 0.000 80.00 76.00 75.00

0. 100 79.98 76.04 74.81 0.200 79. 91 75.95 74.77 0.300 79. 95 76.05 74.75 0.400 79.95 76.05 74.75 0.500 79.96 76.05 74.74 0.550 82.21 76. 15 74.95 0.600 82.37 76. 16 74.85 0.700 82.42 76. 13 74.80 0.800 82.46 76. 13 74.81 0.900 82.52 76. 11 74.84 1.000 82.54 76. 12 74.83 1.500 82.55 76. 12 74.67 2.000 82.49 75.87 74.78 2.500 82.63 76. 12 74.83 3.000 82.65 76.09 74.85 3.500 82.69 76. 13 74.82 4.000 82.68 76. 13 74.83 4.500 82.69 76. 16 74.83 5.000 82.66 76. 13 74.82 5.500 82.72 76. 13 74.84 6.000 82.74 76. 13 74.83 6.500 82.76 76. 13 74.84 7.000 82.77 76. 15 74.83 7.500 82.77 76. 16 74.84 8.000 82.79 76. 14 74.82 9.000 82.79 76. 11 74.82 10.000 82.72 75.97 74.78 11.000 82.84 76. 14 74.82 12.000 82.87 76. 15 74.81 13.000 82.88 76.07 74.77 14.000 82.90 76. 15 74.80 15.000 82.91 76. 13 74.81 16.000 82.90 76. 15 74.83 17.000 82.91 76. 10 74.79 18.000 82.94 76. 12 74.80 19.000 82.89 76. 12 74.81 20.000 82.96 76. 13 74.88

21. 000 82.99 76. 15 74.82 22.000 82.99 76. 15 74.81 23.000 82.99 76.11 74.82 24.000 83.01 76. 15 74.83

RWCU ROOMS $ 501 25 GPM STEAM LEAK SUMMER 130 125 C3 LLI C) 120 LLI CL I

115 Q

110 Legend 0 ROOM 1 105 0 ROOM 2

~ ROOM 3 100 10 15 20 25 TIME (HRS)

RWCU ROOMS $ 501 25 GPM STEAM LEAK WINTER 130 120 O

u 110 P' W

QJ 100 D I

CL 90 I

Legend 80 a ROOM 0 ROOM 2 0 ROOM 3 70 10 15 20 25 TIME (HRS)

\

RWCU ROOMS 4501 (25 GPM STEAM LEAK/WINTER)

TEMPERATURE (DEG F)

TIME ROOMP ROOM¹ ROOMa' ROOMS ROOMP ROOMS ROOMS ROOM4'OOM¹ ROOM>> ROOMS ROOM>> ROOM4'OOMN ROOM¹ (HR) I 2 0.000 80.00 76.00 75.00

0. 100 79.98 76.05 74.81 0.200 79.96 76.05 74.77 0.300 79.96 76.05 74.75 0.400 79.95 76.05 74.75 0.500 79.95 76.06 74.75 0.550 107. 01 76.93 75.61 0.600 111. '10 77.07 75.57 0.700 113 .58 77. 19 75.79 0.800 114.79 77.25 75.87 0.900 115.65 77.32 75.93 1.000 116.31 77.36 75.97 1.500 118.27 77.50 76.09 2.000 119.53 77.68 76.20 2.500 '120.37 77.62 76.23 3.000 120.90 77.70 76.28 3.500 121.37 77.81 76.36 4.000 121. 75 77.87 76.43 4.500 122.06 77.88 76.48 5.000 122.30 77.95 76.51 5.500 122.51 77.89 76.49 6.000 122.69 77.96 76.51 6.500 122.91 77.98 76.55 7.000 123. 01 77.95 76.57 7.500 123. 18 78.05 76.61 8.000 123. 78.00 76.57 9.000 25'23.46 78.04 76.63 10.000 123.63 78. 10 76.67

'11.000 123.80 78. 12 76.70 12.000 123.93 78. 14 76.75 13.000 124.05 78. 17 76.77 14.000 124.16 78. 19 76.79 15.000 124.23 78. 19 76.81 16.000 124. 31 78.20 76.80 17.000 124. 41 78.25 76.85 18.000 124.45 78.27 76.87 19.000 124.54 78.28 76.87 20.000 124.62 78.29 76.91 21.000 124.65 78.36 76.92 22.000 23.000 124 .74 124. 75 7'5 78.42 76.96 76.98 24.000 124.80 78.43 76.99 p

oI Q

0 l

RWCU ROOMS $ 502 505 5 GPM STEAM LEAK/SUMMER t

120 115 C3 p

+K bJ OO 110 r

O o

CL EL I

105 Legend 8 ROOM t 0 ROOM 2

~ ROOM 3 100 10 20 25 TIME (HRS)

RWCU ROOMS >>502/503 ( 5 GPM STEAM LEAK/SUMMER)

TEMPERATURE (DEG F)

TIME ROOM>> ROOMP ROOM>> ROOM>> ROOM¹ ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>>

(HR) I 2 3 0.000 115.00 104.00 110.00

0. 100 115.78 106.8'I 111.03 0.200 115.85 106.85 111. 11 0.300 115.88 106.87 111. 15 0.400 115.89 106.90 111. 16 0.500 115.91 106.93 111. 17 0.550 I 16. 29 109.60 111.20 0.600 116.44 110.05 111.09 0.700 I 16. 61 110.92 111.29 0.800 116.67 110.80 111. 10 0.900 I 16.90 111.41 111.32

1. 000 116. 72 111.47 111.21 1.500 I '16.91 112.01 111.24 2.000 117.07 112.46 111.31 2.500 I '17. 21 112.60 111.28 3.000 117. 18 112.68 111.31 3.500 117.56 111.32 111.62 4.000 117.32 112.87 111.41 4.500 117.27 112.53 111.43 5.000 117.42 112.80 111.42 5.500 117.40 112.96 11'1.43 6.000 117.47 113.02 111.45 6.500 117.48 112.98 111.46 7.000 117.38 113.23 '111.50 7.500 I '17.58 113. 12 111.57 8.000 117.55 113.07 111.49 9.000 117.60 113. 17 111.53 10.000 117.69 113.23 111.56 11.000 117.70 113.27 111.50 12.000 117.69 113. 16 111.58 13.000 117.79 113. 13 11 1. 60

14. 000 117.78 113.20 111. 63

15. 000 117.83 113.26 111.65 16.000 117.79 113.27 111. 65 17.000 117.83 113.28 111.70 18.000 117.92 1 '13.30 111.69

19. 000 117.92 113.38 111.73 20.000 117.99 113.36 111.78 21 . 000 118. 12 113.46 111.74 22.000 118.01 113.75 111.82 23.000 118.05 113.43 111.77 24.000 118.03 113.33 111.77

RWCU ROOMS $ 502 503 5 GPM STEAM LEAK WINTER 100 95 2 p n

90 Xt bJ 0 C3 O

~ o Cq 85 I

CL 80 Legend 75 8 ROOM 1 0 ROOM 2 0 ROOM 3 70 10 20 25 TIME (HRS)

RWCU ROOMS ¹502/503 5 GPM STEAM LEAK/WINTER)

TEMPERATURE (OEG F)

TIME ROOM>> ROOM/ ROOM¹ ROOM¹ ROOM¹ ROOM>> ROOM¹ ROOM¹ ROOM4 ROOM¹ ROOM¹ ROOM¹ ROOM>> ROOM¹ ROOM¹ (VR) 1 2 3 0.000 80.00 76.00 75.00

0. 100 79.97 76.05 74. 81 0.200 79.96 76.05 74.77 0.300 79.95 76.05 74.76 0.400 79.95 76.05 74.75 0.500 79.95 76.05 74.75 0.550 81.87 87.74 74.94 0.600 83.36 89.64 74.83 0.700 83.84 90.47 74.85 0.800 83.97 90.94 74.85 0.900 84. 12 91. 24 74.90 1.000 84. 18 91. 54 74.88 1.500 2.000 84.53 84.76 92.54 93.26 74 '9 74.87 2.500 84.98 93.76 74. 91 F 000 85. 10 94.06 74. 91 F 500 85.22 94.36 74. 91 4.000 85.29 94.62 74.92 4.500 85. 41 94.85 74.90 5.000 85.60 95.06 74.98 5.500 85.58 95.19 74.91 6.000 85.56 95.39 74.90 6.500 85.80 95.48 74.97 7.000 85.80 95.59 74.93 7.500 85.85 95.70 74. 91 8.000 85.87 95.80 74.92 9.000 85.98 95.99 74. 91 10.000 86.09 96. 14 74.92 11.000 86. 17 96.28 74.93

'12.000 86. 25 96.41 74.93

'13.000 86.33 96.52 74.94 14 . 000 86.39 96.63 74.93 15.000 86.44 96.71 74.93 16.000 86.52 96.91 74.93 17.000 86.61 96.88 74.98 18.000 86.61 96.95 74.94 19.000 86.67 97.00 74.95 20.000 86.60 97.10 74.88

21. 000 86.74 97. 14 74.93 22.000 86.81 97. 19 74.95 23.000 86.84 97. 24 74.95 24.000 86.91 97.30 74.95 p

o

RWCU ROOMS $ 502/503 (25 GPM STEAM EEAK/SUMMER) 160 150 gP M

u 140 0

Pq 130 I

120 Legend S ROOM 1 110 0 ROOM 2

~ ROOM 100 25 10 15 20 TIME (HRS)

RWCU ROOMS ¹502/503 (25 GPM STEAM LEAK/SUMMER)

TEMPERATURE (OEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ -

ROOM¹ ROOM¹ ROOM¹ ROOM¹ (HR) I 2 3 0.000 115.00 104.00 110.00

0. 100 115.78 106. 81 111. 03 0.200 115.85 106.85 111. 11 0.300 115.88 106.87 111. 15 0.400 115.89 106.90 111. 16 0.500 115.91 106.93 111. 17 0.550 120.88 137.55 111.61 0.600 122. 41 141. 74 111.47 0.700 124.82 144.29 111.56 0.800 126. 17 145. 86 111.77 0.900 126.85 146. 47 111.67 1.000 127.37 147.20 111.74 1.500 129.35 149. 10 111.79 2.000 130.25 150. 11 111.99 2.500 13 I . 07 150.64 112.01 3.000 131. 39 150. 96 112.00 3.500 131.71 151. 25 112.20 4.000 131.91 151. 40 112. 18 4.500 132. 16 151. 82 112.30 5.000 132. 43 151.76 112.38 5.500 132. 51 151.85 112.44 6.000 132.62 152.00 I '12.50 6.500 132.69 152. 11 112.55 7.000 132.72 151.95 112.55 7.500 132.93 152. 16 112.58 8.000 132.91 152.26 112.60 9.000 133.04 152.39 112.71 10.000 133.28 152.58 112.74 11.000 133. 31 152.49 112.80 12.000 133.45 152. 70 112.84 13.000 133.46 152. 68 112.92 14.000 133.62 152. 80 112.97 15.000 133.47 152.75 112.99 16.000 133.59 152.73 113.02 17.000 133.65 152.78 113.11 18.000 133.80 153.00 113. 12 19.000 133.80 152.89 112.99 20.000 133. 91 153. 17 113. 17 21.000 133. 94 153.05 113.22 22.000 134. 04 153. 16 113.25 23.000 134. 00 153. 31 113.31 24.000 134. 00 153.08 113.37

RWCU ROOMS $ 502 503 25 UPM STEAM LEAK WINTER

'160 140 C3 Ld 120 Ld Cl f

100 CL I

80 Legend a ROOM 1 C3 ROOM 2 4 ROOM 3 60 10 15 20 25 TIME (HRS)

RWCU ROOMS ¹502/503 (25 GPM STEAM LEAK/WINTER)

TEMPERATURE (DEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ (HR) 1 2 3 0.000 80.00 76.00 75.00

0. 100 79.98 76.04 74.81 0.200 79.95 76.07 74.77 0.300 79.97 75.99 74.77 0.400 79.95 76.05 74.74 0.500 79.95 76.05 74.74 0.550 89.62 124.97 75.86 0.600 93.82 130.29 75.85 0.700 98.73 134.26 75.96 0.800 100.98 136.43 76.08 0.900 102.52 137. 65 76. 12 1.000 103.96 138.81 76.20 1.500 108.07 141. 98 76.42 2.000 110.50 143. 53 76.57 2.500 112.20 144. 42 76.67 3.000 113.39 145. 18 76.77 3.500 114.33 145.57 76.87 4.000 114.94 145.86 76.89 4.500 115.62 146.37 76.91 5.000 116. 12 146.46 77.03 5.500 116.56 146.79 77.07 6.000 116.90 146. 95 77. 14 6.500 117.23 147.08 77. 17 7.000 117.75 147. 41 77.40 7.500 117.78 147.44 77.22 8.000 117.93 147.46 77.28 9.000 118.40 147.63 77.34 10.000 118. 51 147.57 77.38 11.000 119.07 148.00 77.43 12.000 119. 19 148. 01 77.49 I'3. 000 119.48 148. 14 77.53 14.000 I 19. 71 148.26 77.57 15.000 I 19. 90 148.32 77.58

'16.000 120. 11 148.70 77.68

'17.000 120.28 148.72 77.81 18.000 120. 51 148.52 77.79

19. 000 120.41 148.69 77.81 20.000 120.56 148.56 77.84

21. 000 120.63 148.68 77.84 22.000 120.74 148. 73 77.99 23.000 120.95 148. 83 77.98 24.000 120.94 148.93 78.01 g P C'

0 Q4 0

RWCU ROOMS $ 504 505 5 GPM STEAM LEAK/SUMMER) 125 120 p

p C3 o 6 0 0'

Ld CL I

M 110 CL Legend 105

~ ROOM 1 o ROOM 2

~ ROOM 3 100 10 15 20 25 TIME (HRS)

I<<

~ I,

~v

RINCU ROOMS ¹504/505 ( 5 GPM STEAM LEAK/SUMMER)

TEMPERATURE (DEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM>

(HR) I 2 3 0.000 115.00 104.00 110.00

0. 100 115.79 106.78 111.05

0. 200 115.97 106. 92 110.95 0.300 115.88 106. 88 111. 15 0.400 115.89 106.88 111. 19 0.500 115.92 106. 91 111. 17 0.550 116. 14 106.97 112.86 0.600 116.04 106.96 112.77 0.700 116.05 106.96 113.78 0.800 116.25 107.04 114.84 0.900 116.35 107.01 115.33 1.000 116.41 107. 01 115.68 1.500 116.64 107. 08 116.72 2.000 116.80 107. 15 117.38 2.500 '116.93 107. 22 117.90 3.000 117.02 107. 22 118. 10 3.500 117.07 107. 24 118.45 4.000 117.18 107.24 118.65 4.500 117. 22 107.32 118.99 5.000 117.25 107. 31 119. 12 5.500 117. 24 107. 32 119.27 6.000 117.40 107.45 119.54 6.500 117.50 107.40 119.78 7.000 117.55 107.38 119.91 7.500 117.57 107.40 119.99 8.000 117.59 107.45 120. 12 9.000 I 17. 73 107.54 120.32 10.000 117. 77 107.57 120.55 11.000 I 17. 83 107. 56 120.68 12.000 117.92 107.64 120.85 13.000 117.94 107.62 120. 86

14. 000 117.99 107. 61 121.01 15.000 118.03 107. 64 121. 14

16. 000, 118.03 107. 62 121. 12 17.000 118. I'I 107. 70 121. 28 18.000 118. 15 107. 70 121. 36 19.000 118. 17 107.72 121. 35 20.000 118.28 107.79 121. 47

21. 000 118.28 107.79 121. 55 22.000 118.28 107. 76 121. 61 23.000 118.30 107.78 121. 58 24.000 '118.36 107.82 121. 69

RWP ROOMS $ 504 505 5 4P'M STEAM LEAK/WINTER 110 105 100 Q

0 P n

Cl 95 V) r 90 0

CL 8S LJ I

Legend r ROOM 0 ROOM 70 10 15 20 TtvE: (H~s)

RWCU ROOMS >>504/505 5 GPM STEAM LEAK/WINTER)

TEMPERATURE (DEG F)

TIME ROOM¹ ROOM>> ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM>> ROOM¹ ROOM¹ ROOM¹ (HR) 1 2 3 0.000 80.00 76.00 75.00

0. 100 79.96 76.05 74.81 0.200 79.95 76.05 74.77 0.300 79.95 76.05 74.76 0.400 79.96 76.06 74.75 0.500 79.95 76.05 74.74 0.550 80.44 76.12 77.86 0.600 81. 58 76.06 86.95 0.700 82.76 76.11 89.77 0.800 82.85 76.13 90.67 0.900 82.95 76.11 91.26

1. 000 83.09 76. 14 91. 78

1. 500 83.46 76. 17 93.63 2.000 83.74 76. 16 94.93 2.500 83.96 76. 20 95.93 3.000 84. 13 76. 18 96.73 3.500 84.29 76. 18 97.45 4.000 84. 41 76. 19 98.05 4.500 84.54 76. 19 98.58 5.000 84.66 76.20 99.05 5.500 84.75 76.20 99.48 6.000 84.85 76.21 99.85 6.500 84.91 76. 19 100. 21 7.000 85. 01 76.21 100.53 7.500 85.09 76.22 100.83 8.000 85. 16 76.22 101. 10 9.000 85.30 76.23 101. 63 10.000 85.40 76.22 102.06 11.000 85.52 76.24 102.46 12.000 85.63 76.24 102.83 13.000 85.75 76.28 103. 14 14.000 85.81 76.27 103.43 15.000 85.90 76.27 103.70 16.000 85.98 '6.27 103.97 17.000 86.05 76.29 104. 17 18.000 86. 13 76.30 104. 44

19. 000 86.20 76.29 104.62 20.000 86.25 76.29 104.82 21 . 000 86.30 76.34 104.98 22.000 86.37 76.31 105. 18 23.000 86.43 76.30 105.37 24.000 86.48 76.32 105.48 1

O 5 I D

0

RWCU ROOMS f504 505 25 GPM STEAM LEAK SUMMER) 170 160 150 (3

140 1SO CL

'120 Legend 110 A ROOM 1 ~>

C3 ROOM 2 t

C ROOM B o 100 10 15 20 25 TIME (HRS)

,I j,

ql

RWCU ROOMS ¹504/505 (25 GPM STEAM LEAK/SUMMER)

TEMPERATURE (DEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM>> ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM>>

(HR) I 2 3 0.000 115. 00 104. 00 110.00

0. 100 115.80 106. 8 'I 111.04 0.200 115. 88 106.87 111.12 0.300 I 15. 89 106. 88 111.14 0.400 0.500 115 115.91

'0 'I 06. 90 106.91 111. 16 111. 18 0.550 117.35 107. 34 129. 13 0.600 119.08 I 07. 53 137.83 0.700 120. 23 107. 63 144.26 0.800 120.77 107. 74 147.23 0.900 121.31 107.80 149. 20 1.000 121.92 107.86 150.69 1.500 124. 12 108. 15 155. 11 2.000 125.56 108.34 157. 26 2.500 126.54 108.45 158.60 3.000 127. 21 108.59 159.42 3.500 127.78 108.72 160. 11 4.000 128.20 108.83 160. 61 4.500 128.54 108.91 161 . 04 5.000 128.76 108.93 16 I .34 5.500 129. 14 109. 14 161. 64 6.000 129. 29 109. 10 161.88 6.500 129.48 109. 18 162.07 7.000 129.67 109. 23 162.25 7.500 129.8'I 109. 27 162. 41 8.000 129.90 109.32 162.52 9.000 130. 16 109.38 162.77 10.000 130.35 109.50 163.00 11.000 130. 51 109.57 163. 17 12.000 130.66 109.65 163.33 13.000 130.80 109. 71 163.42

14. 000 130.90 109.78 163.58 15.000 131. 00 109.84 163.66 16.000 131. 12 109.89 163.79 17.000 131. 22 109. 96 163.88 18.000 131.32 110.02 163.95 19.000 131 . 34 110.07 164.03 20.000 131.42 110. 11 164. 10

21. 000 131 . 49 110. 16 164. 16 22.000 131 . 54 I 10. 22 I64.20 23.000 131. 63 110. 27 164.28 24.000 131. 65 110.34 164. 31

RWCU ROOMS $ 504/505 25 GPM STEAM LEAK WINTER 180 160 u

W 140 PP O

120 Q I 0 I

0 100 I

Legend 80 a ROOM 1 CI ROOM 2

~ ROOM 60 0 10 15 20 25 TIME (HRS)

b 1

RWCU ROOMS ¹504/505 (25 GPM STEAM LEAK/WINTER)

TEMPERATURE (DEG F)

TIME ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ (HR) 1 2 3 0.000 80.00 76.00 75. 00

0. 100 79.92 76.05 74. 81 0.200 79.95 76.05 74. 77 0.300 79.95 76.05 74.75 0.400 79.95 76.02 74.74 0.500 79.96 76.08 74.72 0.550 84.75 77.22 'I 13. 15 0.600 87.38 77.03 121. 77 0.700 89. 16 76.97 127.90 0.800 90.34 77.04 131.48 0.900 91. 19 77. 10 134. 15 1.000 91. 94 77. I9 136.36 1.500 97. 17 77.52 143.27 2.000 100.67 77.72 147. 14 2.500 103. 19 77.91 149. 55 3.000 105.09 78.05 151.21 3.500 106.58 78.18 152.47 4.000 107. 71 78.25 153.38 4.500 108.67 78.36 154.11 5.000 109.65 78.57 155. 16 5.500 110.38 78.51 155. 15 6.000 I10.99 78. 62 I55.83 6.500 111.59 78. 68 156. 18 7.000 I12.00 78.72 156.53 7.500 112.55 78.79 156.73 8.000 1I2.85 78.82 157. 07 9.000 113.67 78.96 157.52 10.000 114.08 79.00 157.73 11.000 114.65 79.03 158.24 12.000 115. 13 79. II 158.52 13.000 115.48 79.22 158.78 14.000 115.83 79.22 159 01~

15.000 116. 11 79. 33 159.22 16.000 116.49 79.30 159.40 17.000 116.60 79. 46 159.53 18.000 116.81 79. 49 159. 57 I9.000 117.08 79.59 159.79 20.000 117.35 79.61 159.98 21.000 117.43 79.65 160 00F 22.000 117.56 79.69 160. 13 23.000 117.83 79.74 160.27 24.000 I 17.97 79.82 160.38

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SUSQ SES AREA SURVEY MAP Rx PWR REACTOR BUILDING-UNIT 1 4 I- I REACTOR WATER CLEAN-UP PUMPS I-501 RWP iF DATE: TIME: SURVEY BY:

RAD INST HP g AIR SAMPLER HP P ACT. pCI/cc CONTAMINATION INST HP 4 EFF. BKG.

RESULTS (OPM/100cm ) 9. 14.

5. 10. 15.

2. 6. 11. 16.

3 ~ 7 12. 17.

4. 8. 13. 18.

SH 2 REVIEWED Health Ph sics Date 4-. I 6 6 27-I I S'IEAP, LOCATIONS CIRCLED. RAD READINGS IN mR/hr. UNDERLINE = CONTACT RAD READINGS

--- = RAD TAPE -X-X- = RAD TAPE 6 ROPE XXXX = RAD ROPE 6 = A/S LOCATION

~ = S.o.p. Z -5Oc)

= 2S.d

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SUSQ SES - AREA SURVEY MAP Rx PWR REACTOR BUILDING-UNIT I EL. 4 '"1 HEAT EXCHANGER ROOM I-5O4 RWP 4 DATE: TIME: SURVEY BY:

RAD INST HP g AIR SAMPLER HP g ACT. pCI/cc CONTAMINATION INST HP g EFF. BKG.

RESULTS (DPM/100cm ) 9. 14.

5. 10. 15.

2. 6. 11. 16.

3 ~ 7 ~ 12. 17.

4. 8. 13 ' 18.

SH 3 REVIEWED:

Health Ph sics Date 4-(8IC Z7 i SMEAR LOCATIONS CIRCLED. RAD READINGS IN mR/hr. UNDERLINE = CONTACT RAD READINGS RAD TAPE -X-X" = RAD TAPE F ROPE XXXX = RAD ROPE 9 ~ A/S LOCATION

~ = S.O.P.

Z'-5oi /9-So3 2

(5'cc. ofhce~ ghee.+)

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Lg~ f(.5'-5 00 APPBJD l x. 4 Dg~ Z~PuT Sermon P~oc. 2. opal

D' PPEL Form 2454 (10l83)

Cot. lr973401 Depb 4PE SCCA PENNSYLVANIAPOWER 8 LIGHT COMPANY ER No.

Date ~+19~ CALCULATION SHEET Designed by M~ PROJECT Sht. No. ~ of Approved by Cocle. H-SLD-OOS AbJAG~~ IZOOIN 54 A& DATA hieeuoic ~,

RoOrl RCDOWL +CS I4AJ 5LP g +LA~ SLAB AREh Qo ED T&hp THK TVPF Ga.LCuLATt OAJ Z-5'oo IOo/bo F 36" ('2 > I <S.O-I3 ~ S') (gS.>Z) + (>>.to )(IS.0 j A = so4 t,t+

Z-soO Ioo/I 0 0 = 7/ 5 -8'l~ '

7so '-8/i" = I s.o L= ll.o'=

169@

th t'-etta/5o9 t oo/eo i)=)s.o'

l&.S'+2,o.D = 3/o,g '

548 ga

~ 4 Ya Z-Soz/So3 io4- P,o I S.o L= I'5, s 2o3+

r-soo Ioo// o 777-Sl~" 76('-8'/2." = II.j r3 L=

A =

5OO/z zoS -llo/l,-o 0= IS.O L = (27. 0 -I 3. 5') -" I 3. 5I A= zoag~

I/O I<5/9o 777-5'I/2. 75 o 8/2 41 Qg 7 5 I = 7T(3esz)(~i~i> j = t32.S A= tt4tZ g" I/( I-40t/4ot. looieo 2 At'= 544 g (999 AttaottaDS~a)

Il/~ i-Soo IOO 6o IE IO I/7 T;/49O8 I o4/6 o 2.l

$ c' PPI55. form 2454 (50I83)

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Cat. a973403 Dept. <~ MM PENNSYLVANIAPOWER 8c LIGHT COMPANY ER No.
Date ~at 19 rtrt CALCULATION SHEET E Designed by R~~ PROJECT Sht. No.
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Cat. 497340(
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APPENDIX B ADDENDUM TO CALC 5 M-SLD-005, REV. 0
p E
ice hf \
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ADDENDUM TO CALC 5 M-SLD-005, REV. 0 The addendum to the original analysis utilizes the same data inputs with the following exception. The airflow data input has been changed to provide separate room exhausts in each of the three rooms under consideration. For the original analysis, the rooms under consideration utilize a common exhaust duct located within the Penetration room. Since the model assumes perfect mixing occurs within each room, the transfer air from the Pump/
Heat Exchanger rooms dilutes the temperature response for a leak in the Penetration room. Additionally, the Penetration room is especially sensitive to a leak in any other room under consideration. For this purpose, an additional set of runs are provided which models separate exhausts from each room. This is intended to prevent any diluting affects from transfer air between the Pump/Heat Exchanger rooms and the Penetration room.
The exhaust register is located in the southeast corner of the Penetration room (a relatively common area between all three rooms). The location suggests that the transfer air from the Pump/Heat Exchanger rooms would not mix appreciably with the air flow from the Penetration room. Some mixing can be expected near the exhaust register, but it is not reasonable to assume this transfer air could significantly dilute the Penetration room temperature response during a steam leak. This dilution affect caused by the transfer air helps to explain the need for such a. low Steam Leak Detection setpoint in the Penetration room.
The following pages provide the results for the new analysis.
Temperature vs. Time curves are provided along with the tabular results for each set of conditions analyzed originally. The computer output supporting these results follow the curves.
Refer to the Results/Conclusions Section for a discussion of the affects of the ventilation system changes.
popes: Due<'ar ~
vn<sc.e,llo~eous Re~<simn l w~
vevicA Cycle i4 u)o.S d<4rmi~~ ~op+~
hen+ loads regild cM~c. SKndq -st, room ~~+em Aa~ no% atlniee.d pyioe fo <npodvcing +he. w~4.
Since o~lg ~ p~e.+re+on Woo~ uJas eig~ific.ant~a agQc~Qp
~l( Ln.sos lmvolvivtg a. leak- >e Mis roow vJere rerun. (des<(f-5 imi~u.lcd In Appendix p ). ~e w.wainr<g cams Weve, ~of mru~ +o So~e, *~4. a<nc~ 44asA'co~5 uJam no<- sig~igicanflq 0
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ts ~oat'pwp<Hed by <)io<L~WZ 5 F'.
g F govz RWCU ROOMS S501 ( 5 GPM STEAM LEAK/SUMMER)
TEMPERATURE (OEG F)
TIME ROOMS ROOMS ROOMs ROOMS ROOMS ROOMS ROOMS ROOMs ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS (HR) I 2 3 0.000 115.00 104.00 IIG.OO
0. 100 115.00 105.83 110.00 0.200 I 14. 99 105. 88 110.01 0.300 I 15. 01 105.81 110.00 0.400 114.99 105.91 110.00 0.500 '115.00 105.88 109.97 0.550 115.95 106.01 I 10.07 0.600 116.63 106.04 110.06 0.700 117.07 106.02 110.01 0.800 118.09 106.02 109.94 0.900 I 18. 54 106.05 I 10. 03 1.000 118.90 106.04 I 10. 01
1. 500 119.78 106.55 110. IO 2.000 120.52 106. 14 110.03 2.500 120.98 106. 15 110. 01 3.000 121. 28 106. 19 110.01 3.500 121.50 106. 23 110.06 4.000 121. 75 106. 19 110.05 4.500 122. 13 106. 20 110.02 5.000 122. 16 106. 23 110.04 5.500 122.37 106.32 110. 11 6.000 122.49 106. I/ 109.95 6.500 122.69 106.23 I 10. 01 7.000 122.70 106.22 110.02 7.500 122.79 106.23 110.02 8.000 122. 91 106.24 109.99 9.000 123. 19 106.23 109.96 10.000 123.22 106. 32 110.03 11.000 123.34 106.32 110. 06 12.000 123. 42 106.30 110. 0'I 13.000 123.58 106.35 110.03 14.000 123.62 106.33 109.98 15.000 123.76 106.38 109.98 16.000 123. 71 106.34 109.99 17.000 123.78 106.38 109.99
18. 000 123.85 106.38 109.98 19.000 123.77 106.33 109.92 20.000 124.00 106.40 110.00 21 . 000 124.03 106.43 109.99 22.000 124 02 106.43 109.98 23.000 124.09 106.47 110.00 24.000 124. 18 106.46 109.98
t RWCU ROOMS 501 5 GPM t
STEAM LEAK/SUMMER 440 F)
$ (
125 120 (3
115 Q
110 CL I
'f05 Legend
~ ROOM CI ROOM 2
~ ROOM 100 10 15 20 TIME (HRS)
RWCU ROOMS /501 ( GPM STEAM LEAK/WINTER)
TEMPERATURE (PEG F)
TIME ROOM$ R OOMPH' ROOMJY ROOMS ROOM>> ROOMS ROOMS ROOMS ROOMS ROOMS ROOM>> ROOMS ROOMS ROOM/ ROOMk' (VR) I 3 0.000 80.00 76. 00 75.00
0. 100 80.00 79.66 76.46 0.200 80.00 79.63 76.74 0.300 79.99 79.76 76.82 0.400 79.98 79.76 76.85 0.500 79.98 79.78 76.87 0.550 82.95 79.84 77.09 0.600 90.08 79.76 76.91 0.700 93.47 79.82 76.89 0.800 94.58 79.81 76.88 0.900 95. 19 79.85 76.93 1.000 95. 76 79.86 76.95 1.500 97.79 80.24 77.03 2.000 99.06 79.93 77.01 2.500 100.09 79.96 77. 06 3.000 100.94 79.98 77.07 3.500 101.63 80.00 77.11 4.000 102.24 80.01 77.09 4.500 102. 76 80.03 77. 12 5.000 103.23 80.05 77. 15 5.500 103.50 80.06 77.15 6.000 104.04 80.06 77. 16 6.500 104.37 80.09 77. 19 7.000 104.69 80.09 77. 19 7.500 104. 96 80.11 77.20 8.000 105.38 80. 12 77.21 9.000 105. 71 80. 14 77.23
'10.000 106. 12 80. 16 77.25 11.000 106.49 80.20 77.28 12.000 106. 81 80.20 77.28 13.000 107. 11 80.22 77.30 14.000 107.34 80.21 77.31 15.000 107.62 80.26 77.33 16.000 'I
07. 82 80.29 77.34 17.000 '108. 06 80.28 77.35 18.000 108. 27 80.30 77.36 19.000 108. 46 80.26 77.35 20.000 108.60 80.29 77.37 21.000 108. 51 80.31 77.39 22.000 108.93 80.31 77.38 23.000 109.08 80.33 77.40 24.000 109.22 80.35 77.42
RWCU ROOMS $ 501 ( 5 GPM STEAM LEAK/WINTER 440 F) 110 IOO (3
LLJ O
LLI 90 I
I LLI CL I
80 Legend X ROOM 1 0 ROOM 2
~ ROOM 3 70 10 15 20 TIME (HRS)
A t 1 q4 J rt
RWCU ROOMS S501 (25 GPM STEAM LEAK/SUMMER)
TEMPERATURE (OEG F)
TIME ROOMS ROOMs ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS ROOMS (HR) I 2 3 0.000 I 15. 00 104. 00 110.00
0. 100 I 14. 87 105.75 110.00 0.200 115.00 105.88 110. 01 0.300 115.02 105.90 110.01 0.400 115.01 105.91 110.01 0.500 115.01 105.92 110.00 0.550 130. 48 106.56 110.51 0.600 140.45 106.64 110.28 0.700 147.25 106. 71 110.39 0.800 150.52 106. 93 110. 61 0.900 152.39 106. 99 110.62 1.000 153.80 107.06 110.72
1. 500 158.22 107.35 I 10.81 2.000 160.32 107.58 110.93 2.500 161.58 107.70 111.03 3.000 162.43 107.94 111.22 3.500 163. 10 107.67 111.07 4.000 163. 71 108.07 111.30 4.500 163.88 108.09 111. 29 5.000 164. 12 108.28 111.47 5.500 164.38 108.25 111.42 6.000 164.67 108.30 111.48 6.500 164.89 108. 4 I 111.51 7.000 165.06 108. 38 111.54 7.500 165.30 108.46 111.59 8.000 165. 19 108.45 111.58 9.000 165.68 108.57 111.67 10.000 165.72 108.04 111.60 11.000 165.86 108. 7 I 111.79 12.000 166.02 108. 76 111.80 13.000 166.23 108.83 111.84 14.000 166.40 108.87 111.85 15.000 166.31 108.99 111.96 16.000 !66.50 109.02 111.98 17.000 166. 51 109.00 111.94 18.000 166.67 109. 10 112.04
~~19. 000 166. 61 109. 18 112.09 20.000 166.87 109.34 112. 17~~
~~21. 000 166. 71 109. 17 1 12 . 18 22.000 166.84 '109. 32 112. 17 23.000 166.92 109.45 112.26 24.000 166.95 109.44 112.27~~
II t
501 t
STEAM LEAK/SUMMER 440 F) t RWCU ROOMS $ (25 GPM 170 160 150 LLI C5 140 I
130 LLI 120 Legend 110
~ ROOM 0 ROOM 2
~ ROOM 3 100 10 15 20 25 TIME (HRS)
RWCU ROOMS >F501 (25 GPM STEAM LEAK/WINTER)
TEMPERATURE (OEG F)
TIME ROOMS ROOMS ROOMP ROOM>> ROOMS ROOMS ROOMS ROOM>> ROOMA'OOMk'OOMS ROOMs ROOMS ROOMt ROOMN (HR) 2 3 0.000 80.00 76.00 75.00
0. 100 79.99 79.67 76.46 0.200 79.99 79.76 76.75 0.300 79.99 79.75 76.82 0.400 79.99 79.77 76.85 0.500 79.99 79.78 76.87 0.550 116.09 80.50 77.73 0.600 124.68 80.37 77.37 0.700 131. 50 80.48 77. 51 0.800 135.20 80.56 77.58 0.900 138.00 80.65 77.65 1.000 140. 18 80.73 77.71 I . 500 147. 11 81. 07 77.96 2.000 150.89 81. 33 78.21 2.500 153.22 81. 55 78.37 3.000 154.85 81.72 78.51 3.500 '156.04 81. 79 78.66 4.000 156.93 81.96 78.75 4.500 157.68 82.07 78.87 5.000 158.26 82. 19 78.95 5.500 158.77 82.28 79.03 6.000 159. 18 82.35 79.11 6.500 159.54 82.47 79. 18 7.000 159.86 82.49 79.24 7.500 160. 15 82.55 79.32 8.000 160.40 82.62 79.41 9.000 160.82 82.71 79.64 10.000 161. 18 82.82 79.81 I I . 000 161. 48 82.90 79.99 12.000 161. 74 83.00 80. 18 13.000 161.95 83.09 80.34 14.000 162. 15 83. 17 80.49 15.000 162.32 '3.24 80.64 16.000 162.48 83.32 80.78 17.000 162.62 83. 41 80.94 18.000 162.73 83.47 81.01 19.000 162.85 83.54 81. 16 20.000 162.97 83.65 81.31
~~21. 000 163.08 83.72 81.43 22.000 163. 16 83.82 81. 54 23.000 163.25 83.89 81. 66 24.000 163.33 83.96 81. 73~~
t t RWCU ROOMS $ 501 (25 GPM STEAM LEAK/WINTER t
440 F) 180 160 u 140 f20 100 Legend 80 E ROOM t 0 ROOM 2 60 ~ ROOM 3 IO 20 TIME (HRS)
RWCU ROOMS >>504/505 ( 5 GPM STEAM LEAK/SUMMER)
TEMPERATURE (OEG F)
TIME ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> ROOM>> R()OM>> ROOM>> ROOM¹ ROOM>> ROOM (HR) I 2 3 0.000 115. 00 104.00 110.00
0. 100 120. 12 106.76 111.05 0.200 120. 52 106.86 111. 13 0.300 120.64 106.88 111. 16 0.400 120.74 106.90 111.17 0.500 120. 81 106.90 111. 17 0.550 120.84 107.00 112.77 0.600 120.83 107.08 112.75 0.700 120.88 106.97 'I
13. 71 0.800 120.92 107.02 114.93 0.900 120.98 107.04 115.30 1.000 121. 00 107.03 I '15. 63 1.500 12'I . 10 106.99 116 66 2.000 121. 40 107. 15 117.30 2.500 121.56 107. 21 117.77 3.000 121. 63 107. 18 118.05 3.500 121.81 107.24 118.45 4.000 121.93 107.28 118.66 4.500 122.01 107.32 118.92 5.000 122. 10 107.33 119. 10 5.500 122. 19 107.35 119.33 6.000 122.34 107.38 119.56 6.500 122.36 107.39 119.72 7.000 122.42 107.37 119.89 7.500 122.47 107.42 119.99 8.000 122.54 107.36 119.87 9.000 122.73 107.48 120.36 10.000 122.85 107.52 120. 51 11.000 122.95 107.53 120.72 12.000 123. 10 107.62 120.87 13.000 123. 18 107.59 121.04 14.000 123.11 107.44 121.61 15.000 123.40 107.64 121. 13 16.000 123.44 107.64 121. 19 17.000 123.56 107.68 121. 21 18.000 123.62 107.64 121. 35
'19.000 123.72 107.73 121.31 20.000 123.83 107.76 121.47 21.000 123.89 107 .77 121.45 22.000 124.08 107.82 121.56 23.000 124. 17 107.84 121. 64 24.000 124.06 107.80 121. 66
ia RWCU ROOMS $ 504/505 5 GPM STEAM LEAK SUMMER) 125 120 C3 LLJ CL 110-CL l
Legend 105
~ ROOM 1 0 ROOM 2
~ ROOM 3 100 10 15 20 25 TIME (HRS)
0 4l 0
RWCU ROOMS /504/505 5 GPM STEAM LEAK/WINTER)
TEMPERATURE (OEG F)
T I ME ROOMC ROOMS ROOMS ROOMJF ROOM>> ROOM/ ROOM>> ROOMN ROOM/ ROOMu ROOMs ROOMAF ROOMs ROOM4'OOMS (HR) 1 2 3 0.000 80.00 76. 00 75.00
0. 100 83.77 76. 01 74. 81 0.200 84.40 76.05 74. 77 0.300 84.55 76.06 74.76 0.400 84.60 76.05 74.75 0.500 84.63 76.04 74.74 0.550 84.72 76.11 77.92 0.600 84.48 76.04 87. 12 0.700 84.58 76. 12 89.80 0.800 84.62 76. 12 90.68 0.900 84.66 76. 13 91. 28 1.000 84.68 76. 14 91. 75
1. 500 84.75 76. 15 93.65 2.000 84.84 76. 19 94.94 2.500 84.85 76. 17 95.93 3.000 84.89 76. 18 96.76 3.500 84.93 76. 18 97.45 4.000 84.97 76.20 98.05 4.500 84.99 76. 19 98.58 5.000 85.03 76.21 99.05 5.500 85.05 76. 21 99.49 6.000 85.09 76.22 99.86 6.500 85. 12 76.22 100.22 7.000 85. 14 76.22 100.54 7.500 85. 16 76.23 100.83 8.000 85. 18 76.23 101. 11 9.000 85.23 76.23 101. 61 10.000 85.27 76.24 102.07 11.000 85.31 *76.25 102.47 12.000 85.35 76.24 102.82 13.000 85.38 76.27 103. 14 14.000 85.41 76.28 103.45 15.000 85.45 76.27 103.70 16.000 85.48 76.28 103. 96 17.000 85.51 76.28 104.20 18.000 85.54 76.29 104.44
~~19. 000 85.57 76.31 104.63 20.000 85.60 76.30 104.83~~
~~21. 000 85.62 76.29 105. 01 22.000 85.65 76.30 105. 16 23.000 85.68 76.32 105. 32 24.000 85.69 76.30 105.47~~
RWCU ROOMS $ 504 505 5 GPM STEAM LEAK WINTER 110 105 100 C3 C3 95 LLI 90 CL 85 80 Legend
~ ROOM 1 75 CI ROOM 2
~ ROOM 3 70 10 15 20 TIME (HRS)
RINCU ROOMS JF504/505 (25 GPM STEAM LEAK/SUMMER)
TEMPERATURE (DEG F)
TIME ROOMA( ROOMS ROOM/ ROOMJY ROOMS ROOMS ROOMS ROOMe ROOMS ROOMg ROOM>> ROOMP ROOMS ROOMS ROOMS (HR) I 2 3 0.000 I 15. 00 104.00 110.00
0. 100 120. 12 106.80 111.05 0.200 120.52 106.84 111. 13 0.300 120. 65 106.88 111.15 0.400 120.74 106.90 111. 17 0.500 120.8'I 106. 91 111. 18 0.550 120.76 107.28 129.04 0.600 120.68 107.53 137.86 0.700 120.84 107.62 144.27 0.800 120.89 107.73 147.25 0.900 120. 91 107.79 149. 23 1.000 120. 97 107.90 '150. 72 I . 500 121. 24 108. 00 155. 19 2.000 121. 39 108.40 '157. 29 2.500 121.59 108.60 158.58 3.000 121. 78 108.73 159. 51 3.500 121.92 108.77 160. 13 4.000 122.07 108.89 160. 61 4.500 122.22 108.97 161. 06 5.000 122.35 109.06 161. 36 5.500 122.44 109.09 161. 64 6.000 122.57 109. 17 161.87 6.500 122.69 109.20 162.09 7.000 122.94 109.03 162.22 7.500 122.89 109.30 162.42 8.000 123.01 109. 40 162.59 9.000 123. 19 109.57 162.86 10.000 123.38 109.60 163. 01 11.000 123.51 109.68 163. 18 12.000 123. 67 109.76 163.34 13.000 123. 83 109.78 163.50 14.000 123.95 109.84 163.55 15.000 124. 14 109.80 163.70 16.000 124.23 I 10.01 163.79 17.000 124.35 109. 95 163.88 18.000 124.47 110.05 163.95 19.000 124.58 110.08 164. 05 20.000 124. 71 'I 10. 14 164. 10 21.000 124.81 110. 21 164. 16 22.000 124. 90 I IO. 26 164. 17 23.000 125.00 110.24 164.26 24.000 125. 10 110.30 164.32
t RWCU ROOMS f504 505 25 GPM STEAM LEAK SUMMER) 170-160 150 (3
140 LLI 130 120 Legend 0 ROOM I 1IO Cl ROOM 2
~ ROOM 100 10 15 20 25 TIME (HRS)
f laf W~P 4
RWCU ROOMS ¹504/505 (25 GPM STEAM LEAK/WINTER)
TEMPERATURE (DEG F)
TIME ROOMP- ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ ROOM¹ (HR) I 2 3 0.000 80.00 76.00 75.00
0. 100 83.76 76. 10 74.79 0.200 84.40 76. 14 74.73 0.300 84.55 76. 18 74.44 0.400 84.60 76.05 74.71 0.500 84.67 76. 10 74.57 0.550 84.91 77.00 113.40 0.600 84.67 76.96 121. 81 0.700 84.79 77.03 127.92 0.800 84.81 77.09 131. 55 0.900 84.87 77.22 134. 12 1.000 84.89 77.39 136. 31 I . 500 85.05 77.74 143. 31 2.000 85.24 78.00 147. 18 2.500 85.37 78.22 149.55 3.000 85.48 78.36 151. 23 3.500 85.63 78.54 152.48 4.000 85.73 78.65 153. 46 4.500 85.88 78.76 154. 21 5.000 85.93 78.83 154.90 5.500 86.06 79.00 155.39 6.000 86. 12 78.99 155.86 6.500 86. 19 79.03 156.23 7.000 86.29 79.11 156.53 7.500 86.36 79. 13 156.88 8.000 86.41 79. 19 157. 13 9.000 86.57 79.26 157. 54 10.000 86.34 79.37 158.07 11.000 86.75 79.38 158. 19 12.000 86.86 79.49 158.56 13.000 86.98 79.59 158.82 14.000 87.08 79.62 159.07 15.000 87.08 79.55 159.23 16.000 87.26 79.70 159.40 17.000 87.32 79.73 159. 61 18.000 87.37 79.74 159. 71
19. 000 87.55 79.84 159.80 20.000 87.53 79.90 160.00 2'I . 000 87.64 79.94 160.04 22.000 87.70 79.97 160. 18 23.000 87.80 80.00 160.28 24.000 87.86 80.08 160.37
pl '8 e I t
t t RWCU ROOMS $ 504 505 25 GPM STEAM LEAK WINTER 180 160 L
u 140 CL 120 I
100 I
Legend 80 ~ ROOM 1 0 ROOM 2
~ ROOM 3 60 0 10 15 20 25 TIME (HRS)
t ATTACHMENT C P'I
~l

ML17157A808: Difference between revisions

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ML17157A808: Difference between revisions

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