ML20202D894
| ML20202D894 | |
| Person / Time | |
|---|---|
| Site: | Brunswick  |
| Issue date: | 09/12/1996 |
| From: | Cai Y, Devore T CAROLINA POWER & LIGHT CO. |
| To: | |
| Shared Package | |
| ML20202D867 | List:
|
| References | |
| 0VA-0104, 0VA-0104-R00, VA-104, VA-104-R, NUDOCS 9802180026 | |
| Download: ML20202D894 (462) | |
Text
{{#Wiki_filter:ENCLOSURE 2 BRUNSWICK STEAM ELECTRIC PLANT, UNIT NOS.1 AND 2 DOCKET NOS. 50-325 AND 50-324/ LICENSE NOS. DPR-71 AND DPR-62
' K3SPONSE TO REQUEST FOR ADDITIONAL INFORM.ATION REQUEST FOR LICENSE AMENDMENTS -
CONTROL BUILDING EMERGENCY VENTILATION SYSTEM
' (NRC TAC NOS. MA0112 AND MAO)13)
CALCULATION NUMBER OVA-0104,
" CONTROL BUILDING TRANSIENT TEMPERATURE ANALYSIS" 00 4 fE!DO 1
]
CALCULATION TITLE AND APPROVAL COVER SHEET FORM OENP 303-7 (12/94) SYSTEM # M1 CALC. TYPE SNMd'v// CAROLINA POWER & LIGHT COMPANY
&A-#/dy (CALCULATION #)
00N7kDL.butLDJAld 54WS/fMT $Af/*BAMffhA/A4V5/S (TITLE INCLUDING STRUCTURE / SYSTEM / COMPONENT) DNPUmrs /6L . ,- (PROJECT AND/OR PLANT NAME & APPLICABLE UNIT) YES NO SAFETY RELATED : jisT Q SEISMIC : O p APPROVAL Rev. Prepared By Date Verified By Date Resp Manager Date No. 16g Deyppg 9-/2-% sA.4e9GP.M. MM g MI /MW h kd/I Nd I T O ' Q Method of Verification: $ Design raw T g3 l O Alternate Calculation i ( 0 Qualificauen Testing Method of Verification: O Dengn Renew O Attemate calculaton O Qualification Testing
,) Method of Verification: O Design Review O Alternate Calculation O Qualification Testmg
/) C A IT) 7Il 7 0 .. # /
Computed by: Date: CAROLINA POWER & LIGilf COMPANY Calculation ID: Yaruan Cai 8/24/96
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Checked by: Date: CALCULATION SIIEET Pg.1 of130 Rev.0 Tom Devore 9/12/96 File: 6220 Project No.: N/A ProjectTitle N/A Calculation
Title:
Control Building Transient Temperature Analysis List of Effective Paces Pages Rev 1 through 130 0 Attachment n ~ ' 40 pages 0 Attachment B 19 pages 0 Attachment C 13 pages 0 Attachment D 67 pages 0 Attachment E 40 pages - 0 Attachment F 40 pages 0 Attachment G 39 pages 0 Attachment 11 40 pages Attachment I O 16 pages
}
I l i Computed by: Date: CAROLINA POWER & LIGliT COMPANY Calculation ID:
. OVA - 0104 Yaruan Cat 8/24/96 Checked by: Date: CALCULATION SHEET Pg.2 of130 Rev.0 Tom Devore 9/12s96 file: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis TABLE OF CONTENTS TITLE PAGE No. 1.0 PURPOSE 3 2,0 REFERENCES 5 3.0 ASSUMPTIONS 6 4.0 BODY OF CALCULATION 10 5.0 RESULTS AND CONCLUSIONS 43 Attachments Attachment A Lists of Calculation Area & Boundary Areas Att=hment B Summary of Wall & Room / Area Physical Characterics Attachment C HVAC Flow Determination Attachment D Summary of Heat Loads Determination Attachment E Computer Printout ofInput Data and Simtdation Parameters for Project CBCASE1 Attachment F Computer Printout ofInput Data and Simulation Paramaers for Project CBCASE2 Attachment G Computer Printout ofInput Data and Simuldon Parameters for Project CBCASE3 Attachment H Computer Printout ofInput Data and Simulation Parameters for Project CBCASE4 Attachment I Selected Pages of Additional References
~ Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID:
. OVA - 0104 Yaruan Cai 8/24/96 Checked by: Date: CALCULATION SHEET Pg.3 of130 lRev.0 fom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Bailding Transient Temperature Analysis 1.0 PURPOSE This calculation determines the air temperature profiler,in selected areas of the Brunswick Nuclear Plant Unit 1 & 2 Control Building during tir.: 720 hour period following the postulated Loss of Coolant Accident (LOCA) without a concurrent Loss of Offsite Power (LOOP) event and following a postulated Main Steam Line Break (MSLB) event without concurrent LOOP as described in Section 4.1 using Version 1.50 of RT2' . This calculation also determines the average relative humidity of Main Control Room, UI & 2 Electrical Equipment Rooms, Auxiliary Operator Room, and Security Room during the 720 hour period following the postulated Loss of Coolant Accident (LOCA) without a concurrent Loss of Offsite Power (LOOP) event and following a postulated Main Steam Line Break (MSLB) event without concurrent LOOP as described in Section 4.1 1.1 This calculation verifies that for the LOCA event: 1.1.1 with two of the three existing A/C units along with two of the three recirculation fans in operation (CBCASEI), air temperatures in the Control Building rooms / areas located on the 49' elevation are maintained at or near the design temperatt're of 75 'F and the relative humidity in the Control Building rooms / areas located on the 49' elevation are within human confortability and equipment operability limits; and for the Unit experiencing the LOCA (Unit 1 in this case), with a loss of ventilation to its associated cable spreading room, the air temperature in the cable spreading room will be maintained less than 123 'F since the limiting cable spreading room componer.t operability temperature is 122 'F; and 1.1.2 with one of the three existing A/C units and one of the three recirculation fans operating (CBCASE2), the temperatures for the Control Building rooms / areas
- located on the 49' elevation will be maintained below 120 'F and the relative humidity in the Control Building rooms / areas located on the 49' elevation are within human confortability and equipment operability limits; and for the Unit experiencing the LOCA (Unit 1 in this case), with a loss of ventilation to its
l i I l
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Computed by: Date: CAROLINA POWER & LIGilT COMPANY bl ?ulation ID: Yaruan Cai 8/24/96 Checked by: Date: CALCULATION SiiEET Pg.4 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
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Control Building Transient Temperature Analysis associated cable spreading room, the air temperature in the cable spreading room will be maintained less than 123 'F since the limiting cable spreading room component operability temperature is 122 'F; and 1.1.3 with one of the three existing A/C units and two of the three recire.dation fans operating (CBCASE3), the temperatures for the Control Building rocms/ areas located on the 49' elevation will be maintained below 120 'F and the relative humidity in the Control Building rooms / areas located on the 49' elevation are within human confortability and equipment operability limits; and for the Unit experiencing the LOCA (Unit 1 in this case), with a loss of ventilation to its associated cable spreading room, the air temperature in the cable spreading room will be maintained less than 123 'F since the limiting cable spreading room component operability temperature is 122 'F. 1.2 This calculation verifies that for the MSLB event: 1.2.1 operation with one of the three existing A/C units and two of three existing recirculation fans (CBCASE4) will maintain the temperatures in the Control Building rooms / areas located on the 49' elevation below 120 'F and the relative humidity in the Control Building rooms /arcas located on the 49' elevation are within human confortability and equipment operability limits; and foz the Unit experiencing the MSLB (Unit 1 in this case), with a loss of ventilation to its associated cable spreading room, the air temperature in the cable spreading room will be maintained less than 123 *F since the limiting cable spreading room component operability temperature is 122 *F. 1.3 This calculation summarizes the assumptions, methodology and establishment of a design basis outdoor ambient air temperature profile for the Brunswick Nuclear Plant Control Building rooms / areas. 1.4 This calculation summarizes the assumptions, methodology and development of conservative heat loads for the Brunswick Nuclear Plant Control Building rooms / areas. RT) is a transient heat tmnsfer calculation program developed by llGP, Inc and licensed to CP&L's Brunswick Nuclear Plant.
Computed by: Date: CAROLINA POWER & l.lGilT COMPANY Calculation ID:
~
Yaruan Cai S/24/96 Checked by: Date: CALCULATION SHEET Pg.5 of130 Rev.O Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Coatrol Building Transient Temperature Analysis
2.0 REFERENCES
l R1 1993 ASHRAE llandbook, Fundamentals, I-P Edition R2 National Bureau of Standard Report, Febrary 1,1971, NBS Reput No.10373 R3 Plant Modification No. 87-125 " Control Raom HVAC Upgrade" R4 Fax Transmittal from Tom Devore to NL Haskell Dated 7/18/96 R5 CP&L Brunswick Nuclear Station Design Basis Document, DBD-37, Rev. 2, "CBHVAC" R6 BNP DCBF # PID S0033D-010001 R7 Notes of Telecon Dated 7/31/96 R8 Fax Transmittal from Mr. Victor Weber of Tamms Industries; dated 8/22/96. R9 Comnutational Fluid and Mechanies Heat Transfer, Anderson, Tannehill and Pletcher, McGraw Hill R10 Flow of Fluids through Valves. Fittings. and Pine, CRANE Technical Pape No. 410, 1991. RI1 Heat Transmission, William H. McAdams, Third Edition, McGraw - Hill Book Company, Inc.1954. R12 OVA-0084, Rev. O, Control Building Mechanical Engineering Room Temperature on Loss of Ventilation. Note: The relevant pages for References 2,4,7,8,9, and 11 are included in Attachment 1.
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: OVA - 0104 Yaruan Ca.t 8/24/96 Checked by: Date: CALCULATION SilEET Pg.6 of130 Rev.0 Tom Devore 9/12/96 File: 82'O Project No.: N/A Project
Title:
N/A Calcitlation
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Control Building Transient Temperature Analysis 3.0 ASSUMPTIONS 3.1 The thermal conductivity of concrete is assumed to be 12 Btu-in/hr-ft2 'F; its density.140 2 lbm/ft ; and its specific heat : 0.2 Btu /lbm 'F. (R1 Pg 26.19) 3.2 The ovecall heat transfer coefficient (U) for below-grade concrete walls and floor slabs is 2 assumed to be 0.1 Btu /hr-ft ,.F. (R1 Pg 22.13) This is conservative since the U through vetical wall below grade is greater that 0.1 Btu /hr-fl2 'F. (R1 Pg 22.13) 3.3 Closed internal doors are assumed to be always closed unless specifically designated otherwise (no infiltration between adjacent areas is assumed through these doors). Open internal doors are assumed to be always open and subject to convective heat transfer between adjacent areas. 3.4 One dimensional conduction heat transfer is assumed to be the dominant heat transfer mechanism through the walls among the calculated areas. Within the areas, natural convection and radiation are considered by using published values for air film l coefficients from R1, Page 22.1, Table 1 for walls with emmisivity of 0.9 (non-reflective). Wall Type Air Film Coefficient, Resistant - R 2 2 h(Btu /hr-ft *F) (hr-ft ..F/ Btu) Vertical wall 1.46 0.68 Horizontal wall (ceiling or 1.63 0.61 floor)(upward heat flow) Horizontal wall (ceiling or 1.08 0.92 floor)(downward heat flow) External (adjacent to 4.00 0.25 atmosphere) wall (7.5 mph wind for summer)
Computed by: Date: CAROLINA POWER & LIG!lT COMPANY Calculation ID: Yaruan Cal 8/24/96
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Checked by: Date: CALCULATION SilEET Pg.7 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 3.5 Only concrete walls, ceiling and floor slabs bounding each area are considered to have thermal storage capability (i.e., capability to release heat or absorb heat). This is a conservative assumption since walls, ceilings and floor slabs made of materiais other than concrete actually have thermal storage ::apability, however, the total impact is small compared to that for a concrete wall / ceiling / floor and is ignored. 3.6 No heat is assumed to be generated internally within walls / floors / ceilings. 3.7 No cooling is assumed to occur intemally within walls / floors / ceilings. 3.8 Air is assumed to be an ideal gas (R1 Pg 6.12), i.e., the density of the air is as follows p = p/((R/M)f)
= 2 (14.7 lbf/in )/((1545.32 -
ft.lbf/lbmole.' R)/(28.971bm/lbmole)((460+T)*R))
=
(14.7)(i-s)/53.3 (460+T) lbm/fP. 3.9 All the walls are assumed to be non-reflective, diffusive surfaces with an emissivity of
- j. 0.9. (R1 Pg 22.1) 3.10 The velocity of moving air outside the Control Building is assumed to be 7.5 mph for selection of air film coefficients. (R1 Pg 22.1) 3.11- No mergy storage is assumed for all doors. This is conservative.
3.12 Thermal resistances for steel, aluminum, and glass material are small and can be neglected in the total resistance calculations for walls / floors / ceilings. 3.13 Thermal resistances associated with room decorating materials are igaored. 3.14 The thermal properties of Rodofoam type 300 are asumed to be as follows: density = 4.5 lb/ft' (R8), Conductivity = 0.22 Btu-in/hr-fF *F (R1 Pg 22.6), and specific heat = 0.4 Btu /lb *F. (R1 Pg 22.6)
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 Checked by: Date: CALCULATION 5HEET Pg.8 of130 Rev.0 3 Tom Devore 9/12/96 FiL: 8220 Project No.: N/A Project
Title:
N/A Calculation
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Control Building Transient Temperature Analysis 3.15 TI e summer ground temperature is taken as 70 'F. (R2) This value is derived from Ref. 2. Ref. 2 reports experimental data taken at National Bureau of Standard grounds in Washington DC. Figure 12 on page 41 of Ref. 2 shows that the earth temperature is nearly constant at a depth of 10' below the surface for a given day in summer. Figure 10 on page 39 of Ref. 2 also shov that the carth temperatures for ciff: rent months a depth below 10' converge to approximately 60 'F +/- 10 'F from February to September.
- Grade level at Brunswick is at 20'0". The floor slab of the Control Building is at elevation 19'0",just l'0" below the surface. However, the Control Building is directly adjacent to the Radwaste Building, Reactor Building, and Turbine Building whose lowest floor elevations are at elevation -3'0" which corresponds to a 23'0" depth below grade. if an average depth of 11.5' below grade is chosen to represent '.be reference level for the Control Building, the earth temperature below the Control Building iloor slab is chosen to be 70 'F since at 10' below the surface is taken as a reference level, the temperature for carth is approximately 70 'F from Figure 10 on page 39 of Ref. 2.
3.16 Analyzed events are selected for Unit I because the Unit 1 Cable Spreading Room has a higher temperature and a higher heat load than the Unit 2 Cable Spreading Room dur:: , normal plant operation. This is conservative and bounds the analysis for Unit 2. 3.17 The temperatures in the pipe tunnel and electric wire way area are assumed to be the same as ground temperature since they are adjacent to the ground. ) 3.18 The initial temperature in the dead air space between contcol building and reactor building is assumed to be the average temperature of control building and reactor building at the 49' elevation based on walkdown temperatures taken in adjacent areas. 3.19 The initial temperature in the pipe chase areas and elevator shaft are assumed to be 90 *i' based on walkdown temperatures taken in adjacent areas. 3.20 The average temperature in the turbine building during the Main Steam Line Break i design basis event is assumed to be 123 'F based on other BWR MSLB event temperature profiles.
i Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96
^~
Checked by: Date: CALCULATION SliEET Pg.9 of130 Rev.0
-Tom Devore 9/12/96 File: 0220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 3.21 The doors located in the kitchen and auxiliary operator room are assumed to be open based on the walkdown. 3.22 licat transfer from and to the condensate piping running through the Cable Spreading Room is assumed to be negligible. 3.23 The sracific heat of air is assumed to be 0.24 Btu /lb *F. (RIO Pg A-8) 3.24 Room space taken by equipment, column, steel, and etc. are conservatively assumed and given in Attachment B. 3.25 Other specific assumptions are as identified within the body of the calculation. m .+
Computed by: Date: CAROLINA POWen & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 Checked by: Date: CALCULATION SHEET Pg.10 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A I l Calculation
Title:
Control Building Transient Temperature Analysis 4.0 BODY OF CALCULATION 4.1 Aaalysis Events The purpose of the Control Buildir.s Heating, Ventilation, and Air Conditioning (CBHVAC) System is to maintain areas of the Control Building at the temperature conditions which provide optimum operation of equipment, comfort and safety of personnel, and to limit the spread of contamination during normal operations and postulated design basis events. The system was designed as described in Reference 5. Specific transient response functions are also identified in Reference 5. This calculation examines the transient heat up associated with several scenarios for two postulated events which assume concurrent failures of various portions of the CBHVAC system. All of the normally operating equipment remain energized because there is no assumed concurrent loss of offsite power. This is conservative in that their is no reduction in equipment heat loads in each of the rooms / areas of the Control Building. 4.1,1 Loss of Coolant Accident (LOCA) without concurrent Loss Of Offsite Power (LOOP) Three separate scenarios are modeled for this postulated event. A. The first scenario (CBCASEI) assumes the LOf - securs with two of the three existing A/C units along with two of the three recirculation fans in operation md for the Unit experiencing the LOCA (Unit 1 in this case), a loss of supply and exhaust ventilation to its associated cable spreading room is assumed. All supply and exhaust ventilation in the MER is also assumed to be lost. The emergency fan for the 49' elevation is started and runs to provide nominal outside air makeup and emergency flow recirculation to the Unit 1 & 2. B. The second scenario (CBCASE2) assumes the LOCA (Unit 1) occurs with concurrent failure of one Control Building Air Conditioning Unit supplying the 49' elevation (two of three control room recirculation fans are running) and all ventilation supply and exhaust fans to 6e Unit I r _ 9
_. _ _ . . - . _- . . _ . . . - _ . _~ - . _ - . __ Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: [ Yaruan Cat 8/24/96 OVA - 0104 Checked by: Date: CALCULATION SHEET Pg.1I of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A - Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 4 Cable Spreading Rooms on elevation 23', Both supply and exhaust fans in the Mechanical Equipment Room (MER) also fail. The emergency fan for the 49' elevation is started and runs to provide nominal outside air makeup and emergency flow recirculation to Unit 1. C. The third scenario (CBCASE3) assumes the LOCA (Unit 1) occurs with concurrent failure of one Control Building Air Conditioning Unit and its recirculation fan supplying the 49' elevation and concurrent failure of all ventilation supply and exhaust fans to the Unit 1 Cable Spreading Rooms on elevation 23'. The supply and exhaust fans in the MER fail also. The emergency fan for the 49' elevation is started and runs to provide nominal outside air trakeup and emergency flow recirculation to Unit 1. 4.1.2 Main Steam Line Break (MSLB) without LOOP Event The scenario (CBCASE4) modeled for this postulated event assumes a MSLB Accident (Unit 1) occurs outside of containment with concurrent failure of one Control Building Air Conditioning Unit supplying cooling to the 49' elevation (two of three recirculation fans operating) and all ventilation supply and exhaust fans to the Unit 1 Cable Spreading Rooms on elevation 13'. Both supply and exhaust fans in the Mechanical Equipment Room (MER) also fail. The emergency fan for the 49' elevation is started and runs to provide nominal outside air makeup and emergency flow recirculation to the Unit 1. All of the normally operating equipment remain energized because there is no assumed concurrent LOOP. This is conservative in that there i: no reduction in equipment heat loads in each of the rooms / areas of the Control Building. The emergency fan for the 49' elevation is started and runs to provide nominal outside air makeup and emergency flow recirculation to Unit 1 This scenario bounds all other postulated MSLB without LOOP events with other CBHVAC System equipment failures described in the Section 4.1.1 for the LOCA without LOOP events. }
a Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cal 8/24/96 ^~ Checked by: Date: CALCULATION SilEET Pg.12 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 4.2 Outdoor Ambient Conditions 4.2.1 Outdoor Ambient Temperature Profile for Summer The Brunswick Nuclear Plant is located in Southport, North Carolina approximately 30 miles due South of Wilmington, North Carolina. For Wilmington, North Carolina, the ASIIRAE 1% Summer Design Dry Bulb Temperature is 93 'F and the mean daily temperature range is 18 'F (Table 1 on page 24.11 of Ref.1). The summer maximum daily temperatures usually occur around mid-to late afternoon while minimum da'.ly summer temperature usually , occursjust before sunrise.[R1 Pg 24.2 and Section 3.6.10 of R5] I From the above, a summer daily temperature profile can be approximated as a sinusoid with a maximum during the afternoon and a minimum during the morningjust before sunrise. The form of the sinusoid is expressed as follows: {T,o-[(T -T,i,)/2]} + (((T,o-T,4,)/2] sin [(n/12)(t in hour-11)]} In this case T =93 'F, and (T,o-T,4 )=18 'F. Therefore, Toi,= 93-18 = 75 'F and {T,o-[(T,,o-T )/2]} = 93-I 8/2=84 'F (average daily P:mperature). Hence, the resulting expression for the summer daily temperature profile for the Brunswick Nuclear Plant is: T, 3 = 84 + 9 sin [(t-11)*360/24] where, t is time of day from 0 to 24 hours using a 24-hour clock. The calculated hourly ambient temperature profile using the above expression is shown in Table 4.1 below.
Computed by: Date: CAROLINA POWER & LIGIIT COMPANY Calculation ID:
~
Yaruan Cal 8/24/96 Checked by: Date: CALCULATION SilEET Pg.13 of 130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 4.2.2 Outdoor Ambient Wet-Bulb Temperature The Design wet-bulb temperature is 82 F per R5 Section 3.6.10. Table 4.1 Time Tamb ('F) Time Tamb ('F) Time l Tamb ('F) l 0000 81.67 0800 77.64 1600 92.69 0100 79.50 0900 79.50 1700 93.00 0200 77.64 1000 81.67 1800 92.69 0300 76.21 1100 34.00 1900 91.79 0400 75.31 1200 86.33 2000 90.36 0500 75.00 1300 88.50 2l00 88.50 0600 75.31 1400 90.36 2200 86.33 0700 76.21 1500 91.79 2300 84.00 4.3 Methodology This section provides the technical basis for the methodology used to determine the transient temperature profiles for selected areas in the Unit 1 & 2 Control Building. This calculation employs a lumped parameter model to determine the average air temperature as function of time. The rate of change of the air temperature has been calculated by simultaneously solving a series of energy balance equations for each selected area assuming the appropriate heat source and sinks have been described.
]
Computed by: Date: CAROLINA POWER & LIGIIT COMPANY Calculation ID: 0VA - 0104 Yaruan Cai 8/24/96 Checked by: Date: CALCULATION SIIEET Pg.14 of130 Rev.O Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 4.3.1 General Equations 4.3.1.1 Energy Balance The energy balance equation for determining the air temperature in a given area is given by: q noor + 9..n + q c.ain, + 9 mraniio. + 4imern,i = C P , VAT /At (1) Where:q ,,n, - is the heat transferred to/from walls from/to the air within the area; Btu /hr q n, - is the heat transferred to/from the floor from/to the air within the area; Btu /hr q ,,a,,, - is the heat transferred to/from the ceiling from/to the air within the area; Btu /itr qi,nn,,,,,,- is the 1. cat transferred through openings, such as door, stainvays, and hatches in the area; Btu /hr q,,,w - is the rum of the internal heat sources / sinks within the area; Btu /hr p - density of air at room temperature (T); lbm/ft3
=14.7x144/(53.3(460+T))
C, - specific heat of air
=0.24 Btu /lbm *F V -
volume of the air in the Room; fP AT - change in the Room air ter.,perature for each increment of l time; *F
=T '-T" At time increment, hrs 4.3.2 Ileat Transfer Through Reinforced Concrete Building Elements For building elements (walls / ceiling / floors) made of concrete, an explicit Forward Time Central Space (FTCS) model of one-dimensional transient heat conduction in a plane element has been used to describe the temperature piofile since the temperature inside the concrete also varies as function of time due to the thermal storage capability of the concrete.
1 1-1 ,_. Computed by: Date: CAROLINA POWER & LIGliT COMPANY Calculation ID: OVA - 0104 ~
.Yaruan Cal 8/24/96 .
Checked by: Date: - CALCULATION SHEET Pg,15 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis For a plane (vertical or horizontal) element with thickness of d without an internal heat source / sink, we have: d2T/ d2X = dT/(a dt) (R9) (2) Where: a - thermal diffusivity = K/(pCp) !
+-+ . . . .
^
h, '
- K T,: T: 2 N Tgl, _
Tg; .o.. , .o . ..b,,
&s 6,_ . .o . ..c_. Tg_
. s . .
- l _ _ :- :
d OX Figure 4.1 . Sketch of Numerical Wall By dividing a wall of thickness d into K slices with ax=d/K (see Figure 4.1) and applying the FTCS method, equation 2 can be rewritten as: (Ts.i - 2T i" + P .i) i / (Ax)2 = (T "+'i - T ")i / (a At) ~ (3) Rearranging the above equation, we have: , Ti"=[T i.i +(M-2)T i"+Ti.i ]/M (4) _ k=1,2....K-1(grid point), n=0,1,2.......(time step) M=(Ax)2/(aAt) .
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 ^~ j Checked by: Date: CALCULATION SHEET Pg.16 of 130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A ! Project
Title:
N/A Calculation Tiue: Control Building Transient Temperature Analysis The Equation (4) is applicable to intemal nodes only. For t' e surface node, the temperature is given by (a) and (b) below: I (a) If the wall surface temperature is given, we have: T,"=T4 ,T "=Ta i (b) If the heat transfer coeiricients on both sides of the walls are given, .we { have at k=0: h,(Ti"-T,")+K,(T i"-T,"yax=pC,(6x)/2(T "'-T ")/at Solving for T " we have T "'=1/M(2N, Tx"+(M-2N o-2)T "+2 T i ") (5) when K,,= conductivity of the wull M=(Ax)2/(aat) N,=(ho ax)/K, T4= Room A air temp 'rature,"F Ta= Room B air temperature, *F a=K,/(pC,) . Similarly, at k=K, we have: Tg"=l/M(2Ng Ta"+(M-2Ng-2)Tg42 Tg.i" ) (6) where, Ng=(hgax)/K, Equations (5) and (6) are applicable to the surface half slices.
Computed by: Date: CAROLINA POWER & LIGitT COMPANY Calculation ID: Yaruan Cai 8/24/96 ^' Checked by: Date: CALCULATION SHEET Pg.17 of130 Rev.0 Tom Devore 9/12/96 File: 3220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient [emperature Analysis (c) For the explicit method, the analytical stability criterion is given as (R11): M>2N+2 (7)
' Where, N=No or Ng In the case where N is large, this requires that M be large; and in view of the definition of M, the term (At)/(Ax)2 may become incoveniently small.
In such case (large N) RT3 automatically selectes an alternate equation to calcuahe the termperatures on the wall surfaces. This equation is given by (Rll): To"=No/(No+1)T4 "+T "+'/(No+1) i (7a) and Tg"=Ng/(Ng+1)Tn*+ Tg.id/@g+1) (7b) (d) For a steady state condition, heat flow is the same at any cross section. Hence, we have (T 3-Ts)A= (T -TwA o)/Rnim,4= (Tw,,-Tw,,,i)/(AX/K )= (Tw,g-Tn)/Roi,3 From this, 'h: following relations can be derived. T., = T3-[(T 3-To)% ] Rnim,4 (8) T g = Ta+[(T3 -To)%] Rom.a (9) T. ., = Tw -[(T 3-Ta)/Roi) (AX/K ) (10) n=0,1,2,... K where, AX = slice thickness K, = conductivity of concrete Roi = Raim,4 + Ram 3 + R.,n
Computed by: Date: CARLLINA POWER & ',1GiiT COMPANY Calculati_ n ID: Yaruan Cai 8/24/96 ^~ Checked by: Date: CALCULATION SHEET Pg.18 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 4.3.2 Heat Transfer Through Non-Concrete Building Elements For all building elemer.ts (walls / ceiling / floor, etc.) not made of concrete (i.e., composite walls / roof of metal / insulation / block wall, etc.), no energy storage is assumed, so the heat transk.c rate is: g n-wnwa, = UAAT (11) Where, U - overall U factor, Btu /hr-R2- "F (1/R) A - Surface area of wall /cciling/ floor, R2 AT - Temperatu e difference across the wal!/ ceiling / floor,*F 4.3.4 Heat Transfer Through Vertical and Horizontal Openings The method used to calculate heat transfer rate caused by the temperature difference between two adjacent areas through openings, Q ,, is given by: Q,,,,=60qpC,(T 4 -T )+h,A,, (T4 -T ) (12) The first term in equation (12) [R1, Pg 23.8] is the convection heat transfer rate through the opening anc. the second term is the conduction heat transfer rate across a thin air film. Where, Q,,,, = Heat transfer rate through air exchange by free convection and conduction, Btu /hr 60 = conversion facter from CFM to CFH q = air exchange flow rate through openings between calculation room and its boundary room, CFM C, = Specific heat of air, Btu /lbm *F T4 = Air temperature in the room one side of the opening, "F
=
To Air temperature in the room on the other side of the opening, 'F h, = Free con"ection coefficient for a thin air film, Btu /hr-R2 p A ,,= Area ofopening, A2 i i
~ 1 Computed by: Date: CAROLINA POWER & LIGHT COMPANY Calculation ID: Yaruan Ca.i OVA - 0104 8/24/96 Checked by: Date: CALCULATION SHEET Pg.19 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis The physical mechanism of heat transfer by free convection is essentially caused by the thermal force induced by temperature differences between the adjacent rooms. Therefore, the heat transfer mechanism is different for vertical openings and horizontal openings. (1) Vertical Openings For a vertical opening, a free convection heat transfer mechanism-is always established if the temperature difference between the two areas adjacent to the opening exists. Hence, the '.ieat transfer rate through the opening is govemed by equation (12) above and air exchange flow rate is given by (R1 Pg 23.9) q = C3 KA,g ,{2gAhm(p gol)/[((Tx+T )/2+460]}" (13) Where: C 5
=
unit conversion factor from cfs to cfm
= 60 K =
discharge coefficient for opening
=
0.4+0.0025lT3-Tal
=
Ahm one half of the opening, ft g = gravity acceleration =32.2 ft/s2 (2) Horizontal Openings For a horizontal opening, the strength of natural convection can be significantly different depending on the heat flow direction. Two conditions are considered, upward heat flow and downward heat flow. For an upward heat flow, in which natural convection is dominant, the heat transfer rate through the opening is determined by equations (12) and (13) above. It is physically reasonable to point out that the value for Ahm in equation (13) is taken as 1/2 of the average of the provided width and length of the opening (area),
4 Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Varuan Cal 8/24/96 OVA - 0104 Checked by: Date: CALCULATION SilEET Pg.20 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis since both width and length are important dimensions to determine the strength of free convection for horizontal openings. For a dowmvard heat flow, hot and cold air are typically stably
' stratified and conduction is the main mechanism of heat transfer.
Consequently, air exchange flow rate through the opening (q) is zero and the heat transfer through the opening is approximated by pure conduction through a thin air film. That is, Gn ,=h, Ayn;y(T-Tn)3 (14) 4.3.5 Simulation of Heat Transfer Through 2" Poly Vynl Chloride (Rattle Space) A 2" space exists between the control building and turbine building, between the reactor building and control building, and between the control building and radwaste building. The 2" space is filled with a PVC (Rodo Foam; type 300) joint filler as shown in Fig. 4.2. I 2" joint filler 2' concrete A 2' concreto wall 1. wall 2 { ( / T room 1
, T room 2 T1/ Tw naconn
- T2 Q
Figure 4.2 Sketch of Composite Wall o
Computed by: Date: CAICLINA POWER & LIG!!T COMPANY Calculation ID: Yaruan Cal 8/24/96 ^* Chmked by: Date: CALCULATION SilEET Pg.21 of130 Rev.0 Tom Devore 9/12/96 1ile: 8220 Project No.: N/A Project
Title:
N/A Calcu!ation
Title:
Control Building Transient Temperature Analysis In the Figure above, the composite wall is treated as three independent walls, i.e., len concrete wall, centerjoint filler wall, and right concrete wall. By applying numerical nethods described in Section 4.3.2 on the 2" joint filler wall, we have; bn-,J=lT "+<ht i , 2)T,.ay,J+T i "]/hi (15) Where, hi = (Ax)'/(aat) Ax = dx/2 a - Kj/(p,Cg3) l T iand T 3can be determined by applying the numerical method on the Icn concrete and the right concrete wall, respectively. I Transient temperature To.g,,,,, i at any time must satisfy equation (15). To accomplish this, the 2"/2 joint filler is treated as a special calculation room called Interface Room with a film coeflicient of K/Ax as shown in Figure 4.2. The energy balance in this room is: P.Cg3 3 i,,,,,r , J - T .,,,ry, V (T i ")/At
= Ann iK,(T i"-Ti ,,,ry, d)/Ax + A nn 2 K,(T2 "-T.
i g.,d)/Ax (16) Where, V3 =An n iAx=Anu2 A). and Amn i=Ao n: Equation (16) can be rewrine" p,C g ,Ax(Tm,,f ,,,,r,, n, ")/At
= K,(Ti "-by,, ,,/ ' & K,(T "-T i a ,n,")/Ax (I7)
Solving for i T,;gJ" , e ave T a .,,*={T ia4(ht-2)bn., n,"+T ")/hi (18)
. _ ~ _ _ _ _ _ . _ . _ _ - . _ _ _ _ _ _ _ _ _ _ _ . . _ _ _ _ _ _ _ _ _ _ _ _ _ . _ . _ _ __._
A Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cal 8/24/96 A*
~
Checked by: Date: CALCULATION silEET Pg.22 of'30 Rev,0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analyris Where, M = (Ax)2/(aat) Ax = dx/2 (see Figure 4.2) a = K/(p,C,,,j) Equation (18) is the same as the equation (15). Therefore, the uansient temperature predicted in the assumed interface room filled with PVCJoint filler of volume of V jsatisfies the equation (15). Consequently, from above analysis, we can simulate this composite wall as two independent walls (lefl 2' concrete and right 2' concrete wall) separated by a assumed interface room filled with the PVC joint filler . The initial temperature of the assumed room is given by steady state equation: Ui (T.,,, i-Ti <,, , )=U2(Ti ..,t . ..T 2) or, Ti r ,n,=(U iTai + U T., 2)/(U i+ U ) 2 (19) where, Ui = 1/(R,a nim.4+R: .,+R i.> r.is) Btu /hr.ft' 'F U2 = 1/(R,i, ni +R 7 .,+R .uo.nn,,) i Btu /hr-ft2 p By using the method discussed above, heat transfer through the 2" joint filler can be approximately simulated as a room with two associated walls. The volume of the room is equal to the wall area times the Ax (i.e., I" thickness). The initial temperature in the room is equal to average temperature of the adjacent areas. 4.3.6 Simulation of the CBilVAC System Air Temperatce in the Mixing Plenum I l This section provides the basic methodology used to determine the mixed temperature in the mixing plenum for modeling within RT). The BNP CBIIVAC _ ~_ _ - . . . . ._ ,_ _ _ ___.
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96
^~ '
Checked by: Date: CALCULATION SilEET Pg.23 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis System can be modeled as shown in Figure 4.3 with only one cooling coil used to cool air supplied to room 1 only. CFM1 air is taken from outside as makeup air and CFM2 and CFM3 air are recirculated from room I and 2, respectively. The outside makeup and recirculated air are mixed in *:.c mixing plenum. r4N A coonsocon x\ -> ROOMi Tl CFMI MitlNG Pi tNUM
-1 OUT5tDE Att T'4 0~ ~~
v rtMi T2 CPM 3 T3 Figure 4.3 Flow Diagram Model of CBliVAC System (A) Basic theory: From mass balance (assuming AP is small), we have: CFM4 = CFMI +CFM2 +CFM3 (20) From energy balance, we have: pCpT'4CFM4 = pCpT1CFMi + pCpT2CFM2 +pCpT3CFM3 (21)
Computed by: Date: CAROLINA POWER & LIGitT COMPANY Calculation ID: Yaruan Cal 8/24/96 ^' Checked by: Date: CALCULATION SilEET Pg.24 or130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Or, t T'4 = (pCpT1CFM1 + pCpT2CFM2 +pCpT3CFM3)/(pCpCFM4) (22) Where, T'4 = mixed temperature @ t=t0 + dt T1, T2, and T3 = temeprature @ t = t0 (D) Basic methodology for modeling in RT) RT3 applies the energy balance equation in any room to determine the transient room air temperature as follows: q % + q wa + q m.,+ q i rar.iw + q rn. = pC, VAT /At (23) By specifying q % , q wa , q a.,,, , and q,w =0, the only heat transfer mechanism that occurs in the Mixing Plenum in Figure 4.3 is due to mass transfer by forced convection (i.e, q w,n,.. ). Therefore, equation (23) become 60 pC, CFM1(T4 - Tl) + 60 pC, CFM2(T4 - T2) +60 pC, CFM3(T4 - T3) = pC, VAT /At (24) Let V/At in equation (24) = 60CFM4. Equation (24) becomes 60 pC, CFM 1(T4 - TI) + 60 pC, CFM2(T4 - T2) +60 pC, CFM3(T4 - T3)
= 60pC, CFM4(T4-T'4) (25)
By appl)ing CFM4 = CFMI + CFM2 + CFM3
- Equatic n (25) becomes T'4 = sTICFMI + T2CFM2 +T3CFM3)/CFM4 (26)
L Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai OVA - 0104 8/24/96 Checked by: Date: CALCULATION SilEET Pg.25 of130 Rev.O Tom Devore 9/12/96 File: 6220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis From above we can see equation (26) is exactly the same as equation (22). Therefore, by creating a room with volume of V=60(CFM4)At the temperature calculated in the room at t=t0+At represents the mixing temperature based on the temperatures at t=to before mixing. 4.3.7 Methodology used to Detennine Relative 11umidity on the 49' elevation of the controlIluilding During the postulated design basis events in which one A/C unit for the 49' elevation is assumed to be lost, an elevated room temperature is expected and it is necessary to demonstrate that the maximum temperature will not exceed 120 'F. It is also necessary to show that the relative humidity limits for the 49' elevation 4 will not be exceeded due to addition of water vapor through make-up air and Contml Room personnel latent heat. To do this, a separate model is developed to simulate the CBilVAC System process and obtain the ultimate room relative humidity. The psychometric process for determining relative humidity for the 49' elevation air conditioned space is shown schematically in Figure 4.4 below. In order to simplify the calculation, uniform relative humidity is assumed for the 49' elevation which includes the Auxiliary Operator room, Security Room, Central Control Room, Ul Electrical Equipment Room, and U2 Electrical Equipment Room. The Dry bulb temperature is taken as the volume weighted average temperatum of these areas as determined by RT3. It is also assumed that the air leaving the cooling coil is at saturated conditions, i.e.,100% relative humidity. 4
, r y , _ ,,-,--,---~,,,-.y- - - - , , ~ - - - _
,y m---.-,-, ,-- - - - . . - - - , _ , -
h k K T. Computed by: Date: CAROLINA POWiiR & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 Checked by: Date: CALCULATION SilEET Pg.26 of130 Rev.O Tom Devore 9/12/96 File: 8220 i l'roject No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis
/![ ./ ';/ * %/ /j j'
/ k.. ]l l 'l j / /
) j >
.. , _.i
./ ,l /.., 7, -~/., / ,/
/
g'., . f /, '
<,'/{QlA) 1 J l s>. ,' N ~'
Dh y . a ,, _q_ _y_,-,.,
, ;4 - . , ....-.y g
+' /,l~ 'l
~
' f fi
'l l.
/ )
,/
'b m;/'
/
f
/
y
\e E
.A-
, j / j, i i
%,j-w,e,d, 2qnoog e t f p'< dix 5D)! N.
sf j xj g
~
. a
's,sf -,}- ge ~ q^'ff f@af d' /$ g/ ujxwnoau> t o). [) wJf -
-m :
j{
/% /,, X f /;>-l , r* - '
- g/ -~ # -- p, gg; c:.
___~ g [ 7~'f - MNi
,-f
' f.
n
.. ~'""3d.._; - r - 1 [%,-
.W / g"y N / y 4
./
t-
->q- ~~
d 15l_.. - # '. y ' s l
.j$../
q ti". ._~ .
-icy '
-~ ~ ~sg ar$'~ 4)
~QQ~ ._ _
- - - N T . DRY SULS TEMP F)
Figure 4.4 Schematic illustration of CBilVAC System Air Conditioning Process The initial conditions of moist air for outdoor ambient, the room, mixed, and cooling coil are shown at states 1,2,3, and 4, respectively in Figure 4.4 above if the dry bulb air temperature in any room increases, the resulting mixed air temperature will increase too. Depending on the mixed air temperature and humidity ratio, the condition of air leaving cooling coil can be determined by comparing Dh (i.e., the enthalpy difTerence between point 3' and 4) with total cooling capacity of the cooling coils assumed to be operating. The calculation process employed is described as follows. Step 1 Initial Calculation (1) Given dry and wet- bulb temperatures for outdoor ambient air, the rest of properties of moist air can be easily determined by using ASHRAE equations (Rl;Pg 6.14).
- - - - - .- I
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yarunn Cai 8/24/96 Checked by: Date: CALCULATION SilEET Pg.27 of130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis (2) Olven initial temperature (volume weighted average of all rooms) and relative humidity on the 49' elevation, the initial humidity ratio and enthalpy can be determined by using ASilRAE equations (Rl:Pg 6.14). (3) The dry bulb and humidity ratio of the retum air mixture can be determined by applying energy and mass balance, i.e., T3 = (TICl M1 + T2CFM2)/(CFMl+CFM2) And W3 = (W1CFMI + W2CFM2)/(CFM1+CFM2) Therefore, the enthalpy of mixed air can be determined by using ASilRAE'(Equation 30 on Pg 6.13 of RI). (4) By assuming saturated air leaves the cooling coil with dry-bulb temperature of 59.5 'F (R6), the enthalpy and humidity ratio can be calculated by using ASIIRAE equations (R1;Pg 6.14). Step 2 Iteration 1 (1) Given a new dry bulb temperature in the room with initir.1 humidity ratio plus humidity ratio added by people (i.e., water mass - lb/hr added by people divided by total room air mass flow - lb ory air /hr) , the relative humidity of the air in the room can be determined by using the same ASHRAE equations (Rl;Pg 6.14). (2) Repeat Step 1; Item (1) for new conditions. (3) Repeat Step 1; Item (3) for new conditions. (4) Repeat Step 1; Item (4) for new conditions. If enthalpy difference between 3 and 4 is less than or equal to cooling capacity of cooling coil, the condition of air leaving cooling coil remains unchanged. Otherwise, the entha'py is given by:
h Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cal 8/24/96
^~
Checked by: Date: CALCULATION SilEET Pg.28 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis
- 114 = 113 - Q ,,,no,oy,,, / total air mass flow Dy assuming the air leaving the cooling coil is in a saturated condition, the dry bulb temperature and humidity n.tio can be determined by using an iterative process.
Step 3 Iteration 2 and beyond (1) Olven a new dry bulb temperature in the room with initial humidity ratio plus humidity ratio added by people (i.e., water mass - lb/hr added by people divided by total room air mass flow - Ib dry air /hr) and increment of humidity after cooling coil, the relative humidity of the air in the room can be determined by using the ASlHlAE equations (Rl;Pg 6.14).
- (2) Repeat Step 1; Item (1).
(3) Repeat Step 1; Item (3). (4) Repeat Step 1; Item (4). If the enthalpy difference between state 3 and state 4 is less than or equal to the cooling capacity of the cooling coil, the condition of the air leaving cooling coil remains unchanged. Othenvise, the enthalpy is given by: 114 = 113 - Q ,,,no,og,y / total air flow mass flow ~ By assuming air is in a saturated condition when leaving the cooling coil, the dry bulb temperature and humidity ratio can be determined by using iteration. The iteration process was accomplished using a Lotus 123 Spreadsheet Macro. This information is provided in Section 5. For CASEl, the moisture content added by the people is determined by assuming
Seated, very light work" at 80 'F, i.e., Latent heat of 186 Btu /hr (155 increased
_- . - - _ _ _ - _ --_ ~ --
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cal 8/24/96 Checked by: Date: CALCULATION SilEET Pg.29 of130 Rev 0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project 'litle: N/A Calculation
Title:
ControlIluilding Transient Temperature Analysis by 20% per Pg 26.8 of RI) and evaporation enthalpy of 1048.03 Iltu/lb (Pg 6.8 of RI). For CASE 2, the moisture content added by the people is determined by assuming
" Seated, very light work" at 110 *F, i.e., Latent heat of 372 Btu /hr (155 increased by 140%, based on a linear relationship of 20% for each 5 degree increase, see Pg 26.8 of R1) and evaporation enthalpy of 1030.95 Blu/lb (Pg 6.8 of RI).
For CASE 3, the moisture content added by the people is determined by assuming
" Seated, very light work" at 105 'F, i.e., Latent heat of 341 litu/hr (155 increased by 120%, based on a linear relationship of 20% fcer each 5 degree increase, see Pg 26.8 of RI) and evaporation enthalpy of 1033.81 Btu /lb (Pg 6.8 of RI).
For CASE 4, the moisture content added by the people is determined by assuming
" Seated, very light work" at 110 'F, i.e., Latent heat of 372 Btu /hr (155 increased by 140%, based on a linear relationship of 20% for each 5 degree increase, see Pg 26.8 ef RI) and evaporation enthalpy of 1030.95 Btu /lb (Pg 6.8 of RI).
The formula used in the Spreadsheet to determine the relative humidity are summarized in the Table 4.2.
t - C8 CASE 1 Pru 4 ~ . FORMULA IJSED IN SHEE7
- CALCULATION" & NOTES 1 Column 'A e sme estzemone h g -
o h. 4 Oo. F y $o 3 g *5 g gy 2 Column v is emedwe compereewe promes. See Mein Case Secean 4.0 for deceas 3 Casumn C isisosion ws 4ue ten,wsewe per tes3 ASHRAE pg 24.11. E o
~
ty x- s 4 Column "D"le to soeursson preeewe doestmined try ASHRAE Egusson (4) M pg 6.11 using tonverseure in Column B- E q Q K, E g state 1 5 Column T is me seaweson prenewe desenwned by ASHRAE EW (4)in pg 611 using temperature in Coeumn *C- o
" =- o d c- g, c.
6 Column "F* is Sie humisty reso et sehessen detenwned by ASoftAE Egumeon (21) using value in Column *E" E ;- 3 5 cr 7 Coeumn G le the humisty reso of ernedent airdueermmed by ASHRAE Equenon(33) '"! ** Z 'M s Column"H"is the humidey reso et selwesen estamined by ASHRAE Egusson (21) usw?2 vesue h Column"D-C o E y 9 Column"ris persal prenewe of amtdent air desemdned by ASHRAE at=8-i(20)
>' ~$ O 00 0 10 Column "J*is releeve hwnesty of oneient air dessemmed by ASHRAE Equeson (22) 11 Column T is enmaler of onelore air _' by ASt#tAE Eausson f301 @
O hE os 3 hE g
- sense 2 12 Coeumn 1~ m everage soom sempereewe _ _ _ J by RT3. See Mown Case h. 5 0 lbr desess. q cs 13 Coeumn"M"is everage seem seleeve humidly tietsmened by ASHRAE F9-stan (22). Row 15 is inslal voeue. O.
14 Coeumn Y le to seawagon preeswo decomdned by ASletAE Equemon (4)in pg 6.11 using terryeresure h Co eumn *t." . c; g 15 Column *0"is portal presswo of room air decomdnad by ASHRAE ate (20) or (22) E, y 16 Column "P"is humisty reso of room determined by ASP #tAE equesori (20) or veing odeson of personnet tesent beet. E ;e 17 Column"Q*le soeursson humidly reso ASHRAE ogusson (21) F O 18 Column T is spodec welume of room air doeurmined by ASHRAE E,.aslan (26) om O C 19 Column"S"to L_ of seem air :_ _ _.2 ter ASpetAE Esseson f3c1 H Z etate 3 20 Coeumn "T' es mese air temperature i _ .2 try useng energy talents. See MoriCasc S 4.0 fordetess B h > 21 Column "tJ"is mined air hundely seso tissemdned by using mese belance. See Mein Cole Secean 4 0 for desses. E n ] 22 Column 'v"is enehelor of ndeed air sleesmened by ASHRAE Eausson f301 F C 23 Coeumn "Vr a desegn en tornperoiwe isoveng the cocena ces ?. r* etese 4 24 Coeumn T is releeve huredtely of seawesen air laeving me czoeng cos --I > ;c 25 Column "Y"is the soeurocon presswo t$stormined by AStetAE Equeson (4) in pg 6.11 using tongeroture in Column "W- y ~~$ pp 26 Column "Z"is porget presswo of air debemined by ASHRAE equeolon (22) 7, Q 4 p. 27 Column AA is humisty reso of ek deton-oned by ASHRAE equemon (20). E $ 3 2s Column As is adholpy of airdetermined by ASHRAE Egusson(30) *** 29 Column *AC* is actual dry-but tempereewe of airleeving coceng coe. See main calc sodion 4.0 for dete#s 5 **-
)
30 Column *AD* is eduel enehulpy of air leeving coceng coe. See ensin calc secean 4.0 for dessies. O
> h n
O 31 Cosumn At swoughCoswnn AG is en seremonomosos usedtodecemdne sw eauer enmespy of airtoeving em cooung in 3C coe. To do this 9 e Metro descreed kt Coeumn *AS" kom rour 8 to 10 is used. See Main Calc Secelon 5 0 for detoes "
*U 32 Column "AH* is me escureson pressure t$seemened by ASHRAE Equemon (4) in pg 6.11 using esmperature in Column"AE*
- E"
" y 33 Column Ar is persal presswo of air and to aquel so seaweson pressure in Coeumn *AH* -
g 34 Column *A.r 10 edust humider reso of eer toevino cocena cas determined by ASHRAE eausson 00) .-< R,-- carates w - 4 . e e S E op
- tm o <w y* n % >E
% C o
E
.! g 2 :=
,,, .v
.E o
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yarunn Cal 8/24/96
^~
Checked by: Date: CALCULATION SilEET Pg.31 of130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A ' Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 4.4 Calculation Rooms / Areas and Boundary Rooms / Areas 4.4.1 Calculation Rooms / Areas The calculation rooms / areas are determined based on elevation, physical barriers and components / systems ofinterest. A total of 31 rooms / areas in the Unit 1&2 > Control Building were selected and a total of 4 rooms / areas where the rattle space is located were also selected for modeling. A list of these rooms / areas and their a.5sociated locations and elevations is provided in Attachment A. 4.4.2 Boundary Rooms / Areas Boundary rooms / areas are those rooms / areas which are adjacent to calculation rooms / areas defined in Section 4,4.1. The boundary rooms / areas include the atmosphere (outdoor ambient air) and earth (ground), and any rooms / areas assumed to be at a cougant temperature over the du:ation of the analyzed events. Constant temperatures assumed for the boundary rooms /arcas were consen atively assigned by adjusting field measured temperatures obtained while the Plant was operating at or near 100% power to the design basis maximum summer temperature of 93 'F (i.e., when outdoor temperature is 84 'F and room temperature is 90 'F, the room temperature which is cooled by outdoor air is adjusted up 9 'F (= 93 'F-84 'F to 99 'F). A list of boundary rooms / areas is provided in Attachment B. 4.5 Room / Area and Wall Physical Characteristics 4.5.1 Room / Area Characteristics From the energy balance equation, it is clear that Room / Area Characteristics include the thermal properties (i.e., density of fluid (p) and specific heat of fluid (Cp)) and volume (V) of the fluid (i.e., air, water, etc) filling the area. The physical characteristics are required for calculation rooms / areas only. The room / area characteristics and other input data information for both calculation and boundary rooms /arcas are provided in Attachment B.
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 A' Checked by: Date: CAI.CULATION SilEET Pg.32 or130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project Ctle: N/A Calculation
Title:
ControlIlullding Transient Temperature Analysis 4.5.2 Wall / Floor / Ceiling Characteristics From discussion in Section 4.3, it is clear that the wall physical characteris,ics are those basic elements necessary to calculate the heat transfer rate through the walls, including doors and op.nings, by conduction, natural cony-etion, forced convection (llVAC and infiltration) and radiation. Wall characteristics include wall dimensions, orientation, materials, thermal resistance, air film coemcients on both side of wall, number of wall slices. In this section, physical characteristics including wall dimensions, resistance, air film coefficient, and area volume pertaining to each calculatiori room / area and its walls are detennined. The detailed calculation is presented for selected walls in selected rooms / areas only for demonstration purposes. A similar process is followed for all walls for all calculation rooms / areas. A summary of wall and room / area physical characteristics is provided in Attachment 13. AREA cal is u2CSA g
..).
U2 AIR U2CA1 UICSA R ATL3 R ATL2 This area is the U2 cable access area from elevation 23'0" to elevation 49'0". North wall is bounded by U2 cable spreading area. South wall is bounded by rattle space 3 and dead air space. East wall is bounded by 2" joint filler (Room "RATL2") and west wall is bounded by U2 Cable Spreading Area.
I t i Computed b'y: Date: CAROLINA POWER A LIGilT COMPANY Calculation ID: l Yaruan Cai 8/24/96 OVA 0104 l Ch*ked by: Date: CALCULATION SilEET Pg.33 of130- Rev.0 Tom Devore 9/12/96 File: 3220 i Project No.: N/A i i Project
Title:
N/A - t Calculation
Title:
Contro! Building Transient Temperature Analysis l Ceiling HM U2cA2 , O i h1\%T O O
+
RM U2cA1
..s For upward heat flow:
- 1. Air film =
0.61 hr A2 *F/Iltu (RI)
- 2. 8" concrete =
0.67 hr f12 'F/ Btu (R1)
- 3. Air film = 2 0.61 hr.ft 'F/ Btu (RI)
Total wall resistance = 1.89 hr fl2.'F/ Btu , For downward heat flow: B 1 Air film = 0.92 hr ft2 'F/ Btu (RI)_ 2 8" concrete = 0.67 hr ft2 'F/ Btu (RI) 3 Air film- = 0,92 hr ft2 'F/ Btu (R1) Total wall resistancs = 2.51 hr-f12 'F/ Btu The dimensions of ceiling are 10'0" x 47'9" per Reference Drawing F-01579 (See Attachment B For All Reference Drawings). The ceiling area is calculated as: A,,nq = 10 x 47.75 = 477.5 ft2 . (see wall ID cal CL01 in Attachment B) 4 ) % #-
.,w-e--.-.-,-,,m,i-- %.pm,, . . ... , y-+.yw_,, ,,,..,y...-. ,,,-r, ,,,.--~.,og y.,, ,n,,-,.-yy,yy--m,-v, --,+,,.-.,,-%- +p---,,,,.,-me,.m---,-. ., ---vw-.,
_ _ - . . ~ . -_. - _ - . _ - . - - Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cal 8/24/96 A - 104 Checked by: Date: CALCULATION SilEET Pg.34 of130 Rev.O Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A l Calculation
Title:
Control 13ullding Transient Temperature Analysis AREA CTLRM teC 11C' CitMM Uitt N
\
, .I RATL7 The central control room is located @ el 49' and goes up to el 70'. The control room area is bounded by Ul electrical equipment room, U2 electrical equipment room, and 2" rattle space, llalf open door:
There is a half on n door located in the north wall of central control room. The dimensions che opening is 2.83' x 3.08' per R7., The area of the opening is A=2 - x 3.08 = 8.74 ft2 (R7)
@@ l Air film = 0.34 hr ft2 'F/ Btu g 2 3
Imaginary wall = 0.0 hr-ft2 *F/Blu Air film = 0.34 hr ft2 'F/ Btu Total wall resistance = 0.68 hr ft2 'F/ Btu (RI) ennu uinn The heat transfer rate by conduction and natural convection is given by equation 12 and 13 with A,m, = 8.74 and ahm = 3.08/2 ft. (R7) (see wallID EE2 N4A in Attachment B)
i Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 A 0104 Checked by: Date: CALCUl.ATION SilEET Pg.35 or130 nev. O Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis AREA U20RB 14C
, RATL1 J ..J U2CSA U2BRD U1DRD
...Mc
. U20RA The Unit 2 battery room B is located @ el 23' and goes up to el 38'. 'lhe north wall is bounded by Ul battery room 0, south wall is bounded by U2 cable spreading room, east wall is bounded by U2 battery room A, and west wall is bounded by 2" rattle space /rutbine Building.
East wall: O O U28MB 1 Air film = 0.68 hr-ft2 'F/ Btu (RI) 2 12" Concrete block wall = 1.23 hr ft 2,.F/ Btu (RI) 3 Air film 2
= 0.68 hr ft 'F/Blu (RI) 2 Total wall resistants =_2.59 hr-ft 'F/ Btu.
Computed by: Date: CAROLINA POWER & LIGitT COMPANY Calculation ID: Yaman C., .at 8/24/96 OVA 0104 Checked by: Date: CALCUI.ATION SilEET Pg.36 of130 Rev 0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control 13ullding Transient Temperature Analysis The area of wall is calculated as: A = (32'-6"-6") x (38' - 23' - 8")
= 444.33 R3 per reference drawing F-01579 F-04081, &,
F-01584) Door 115 is located in this wall. The dimensions of door 115 are 5.63' x 7'. (see reference drawing F-01579 & F 01304) The actual area of the wall is A = 444.33 -(5.63 x 7)
= 404.92 R2 (See WallID BR2 E01 and IIR2 E02 in Attachment B) 4.6 Initial & 130undary Conditions i
4.6.1 Initial Temperatures for Calculation Rooms / Areas The initial temperatures are defined as the temperature values in the calculation rooms / areas at the time when analyzed events begin and is typically the temperature in the room or area during normal plant operation. These temperature data were taken during a field walkdown when the Plant was at or near 100% power. He initial temperatures for each calculation area were adjusted (increased by 9 'F (=93 'F-84 'F)] from the outdoor ambient temperature of 84 *F measured at the s:une time when the room / area temperature data was taken to the 11NP - design basis outdoor ambient air temperature of 93 'F. This is conservative. The initial temperatures for each calculation room / area are provided in the Table 4.3.
1 Computed by: Date: CAROLINA POWER & LIGitT COMPANY Calculation ID: ' Yaruan Cal 8/24/96 A' Checked by: Date: CALCULATION SilEET Pg.37 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Controllluilding Transient Temperature Analysis 4.6.2 initial Temperatures for Boundary Reams / Areas The temperature values for boundary roorns/ areas at the time when analyzed events occur are conservatively selected and assumed to be constant for constant temperature boundary rooms / areas for the entire duration of the event. The initial temperature for boundary rooms / areas are taken from field walkdown and adjusted to the maximum errnmer design basis outdoor ambient temperature. The Unit 1 Reactor Building Temperature is conservatively assumed to be 123 *F for each scenario analyzed for the LOCA event. The Unit I turbine building temperatures are adjusted to be 87 'F ,104 'F ,104 'F for elevation 23',38' and 55' respectively. This is conservative since the unit is in a shutdown condition and all thermal energy is decaying during the shutdown for the LOCA without LOOP event. For the MSLB cvent, the Turbine Building initial temperature is conservatively set to 123 'F for the duration of the assumed 30-day event. The initial temperatures for each boundary room / area are provided in the Table 4.3.
~ !
I, t i i i
- Table 4.3 inittel Room Temperatures I
' n
=
y y g o g
=r g
o j = sw--. smw..t- - - . nye (Tany, F)
- . - team mm oe2m -. r a" a' 3 o g r
3 E 2 2- O o Q. .o c l 1 EARTH G.v -4 70 mee enoune 3 15 75 70 70 g C. 2 ELECW Em vure wer 70 see soeune 17 70 70 . o
.g O,.
g pf 70 70 70 3 o ci c- g c. i 3 wa 'ee Tunne 7D see enoune 17 70 70 70 70 E :- 8 M c- t 4 M1 L __ . Bido ei from 23 to 44' 96 104 104 104 it4 .d ~~ Z M
> p $
- 5 RW2 6 U1RX E .__ _ Bido o fryn 44 to 64T Uw 1 s Budikan 94 91 104 123 104 104 1{4 q
~
k . y j 123 123 61 -- ~ Q oo Q ; 3 7 U1TB1 8 U1TB2 Una 1 TB el from 2' o 36' 87 87 87 12'i g M E D E { J 9 U1TB3 Une 1 TB el from 3 24o 55' Und 1 TB el Rom 5J 4o 7(7 L 0 0 W. 88 use u2 use el 4F 104 104 104 104 104 104 123 123 o U $o t a
'G i
10 U2R.X 11 Uzr5n Jnit 2 Ph BuBIire Jnd 2 TB el Rom 2' ' to 35' H 91 91 91 91 8 1;' U2 its TB 78 75 75 - i
.r# 2 TB et from 3 : to 55' L 9 >
95 9', 95 95- C O { 1; U2TBD 1 i Und 2 TB e6 from 5J to 70' ,
- 9. .
use 49' es 9' , 9', 95 95 E. > t j i 1d WGG 15 ATM01 M su conter on.Mvv. 0 4 B 6 9:i 93 9:' , 93 E M r 93 9: , 9'a 93 5- O , , 16 AIRLK .* Loch 3 e6 4FU- C 7B 70 71 7e , 75 93 [ l j 17 AG- : Ut & 2 - ' ready em C 74 74 74 74 74 .-} O *Z [ , 18 GTLRM 19 ELVT5 IJ1&2 contos room E. C G 7 75 75 75 71 , B > I l :, shaft 8S see ensum 319 80 50 80 50 D T 20 MTGH Gid-. C 7 ' 7', 7f , 75 7', E O U 21 _DYRM .sihr 3 room C 7 22 meM wew5 Room G- r 70 70 7 7 75 71 . S m
)
3 i 23 WERM1 E e room f G < u 9P 92 7s 92 7 4 e q W t [ 20 WERM2 25 utHM3 We@ernce room 2 M--w; room 3 C - O 92 es; 9P 92 , g PP l
- G 90 ti6 iIL
- 26 "LEMN HVAG MIX 4f6 P')(NT C 75 mee Secton 4 3 6 NrA 75 75 ?, ]
., Z r- I I
27 RAT 1 Retlespace wwears GB anc'TGB C 8>5 see sechen 4 35 96 5 96 5 96 5 9i E Ch .$ l 25 RATR Rettospece wweenO anc Redwet G i 5 mee se@on 4 D 5 14 he 94 9s C U Q l } 29 RATLD Rsitsspooo Mwn @ & .9 ' C . 3 see se@on 4 ' 5 ' 2 ' 2 92 90 5 o } l DO RAT.o Rsile epoce Mwn ctr 51RX G 3 see todon 4 : 5 2 2 92 9': *> Q q 4 1 j : 1 Suini Securdy room G <3 JB J5 75 7L = ip" i
- ;2 J1 air Jegd or scow B ci 8 G '
11 see assum 318 tit {it as g
- E .$ {
J1 3eenry Rm - 1 A > ! 3 J1 5RA G 6 1 25 125 05 105 l 4 >1 1M5 U1. .'.,; 1Rm-1B G f7 1 36 1 35 506 135 D~ Z se l 35 USGA3 U1 Gable eccess wow 1 C ' 4 e 94 % 94 ' 4 4 L l 09 U1GA4 U1 CatWe access wer 2 C ' 4 84 , 4 S4 ; 4 i
- D7. U1GPU U1 coneuter em G d I 68 4 5 68 4 5 g g l
'61U1C5A U1 Cette erveedum eres G i U 104 104 104 1M :: 03
- D9FMER U1 elecincel eguement rm G -L 75 75 7' ,
75 f8 l 401U1PG U1 goe @ese G 0 ese eseusn 319 Of) 40 9'i iO W I L 411U15TW U1sterwe# G q. 8 j < 8i , 6 L d 4 w g f
- 4' U2AsR nDood er spece B d.15 C see sesen 315 9 .
ii 9 i it N o ~p O { 03MBRA IU2 Bettery Rm - 2A G ' O 104 104 104 1 34 <n 6
- 40 02BRB IU2 Batm Rm-2B C '
T 106 106 106 106 k '> b [ j 451U2GA1 IU2 cetWe e eems wer 1 G 4 ' 4 l 4 . 4 < 4 - a E i ! 461U20A2 IU2 cetdo eccess mer 2 G < 4 < 4 4 4 , 4 4 4 $ C 6' f , amerU m corre ior- . s < . 4. <. < . ;;; = ; A6 481U2GSA IU2 cetdo screedwe eres G ' 1 1 30 130 1'30 1 30 - L . 491UzttM 'U2 eendocai n _ ,,4 rm G <3 75 75 75 75 y -- f ( 501U2Plc IU2 ces chose C 90 ese assum 319 90 90 90 90 ! 511U25TW IU2 .6.. ., we# C 88 88 88 86 3' 85 - 1 52 PG01 IAG Suppir B 59 5 desen. R6 59 5 eve two eve O l t
Computed $)y: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID:
~
Yarunn Cal 8/24/96 Checked by: Date: CALCULATION SilEET Pg.39 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A l Calculation
Title:
Control Building Transient Temperature Analysis 4.6..' Room Types Defined in RT) Program The room types involve in this calculation are defmed in the RT) Program as follows. Room Type Descriptions B Boundary room C Calculation room ( F Function Room L Limited Calculation room 4.7 IIcat Loads 4.7.1 Ileat Load Generated by Motor For motors of which horsepower and efliciency are known and both motors and driven equipment are inside the the conditioned space, the following equation can be used to determine equivalent heat (RI) q=2545 (llP/Eg)Fou Fuu (27) where, llP - motor horsepower rating Eu - motor efficiency Ft.u - motor load factor = 1.0 Fuu - motor use factor = 1.0 for conventional application 4.7.2 Summary ofIleat Loads for each Area of Concern The summary of heat loads for each calculation area / room for the different scenarios is provided in the Table 4.4 below. The detailed analysis of heat loads is presented in Anachment D.
Cortputed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: ! Yaruan Cal 8/24/96 OVA 0104 l Cbecked by: . Date: CALCULATION SilEET Pg.40 of130 Rev.O i Tom Devore 9/12/96 4 File: 8220 Project Nc.: N/A Project
Title:
N/A > Calculation Tide: Contml Buildir2 Transient Temperature Analysis l Table 4.4 Heat Loads summary - AII Units are in Blu(Hr :
. t
- lev T68m I CBCASE1 CBCAGE2 CBCASE3 CBCASE4 -
HEAT LOADS HEAT LOADS HEAT LOADS HEAT LOADS EL23A ELVTS 490.00 490.00 490.00 430.00 EL23A U1CA3 7,42M.90 7,422.90 7,422.90 7,4,?2.90 j EL23A U1CSA 243,830.61 243,830.01 243,830.61 243,833.61 EL23A U1STW 95ll.91 939.91 959.91 95 ).91
'E L23A U2CA1 7,4lt2.91 7,4l?2.91 7,4 ?2.91 7,4:Y.91 E .23A UXSA 204,7ll0.61 204,7l t0.61 204,7l>0. 61 204,7l D.61 EL23A U25'fW 9,F9.91 9;59.91 9;i9.91 9 59.91 ,
sub total el 23A 465,8'16.85 465,846.85 465,8o6.85 465,8'16 85 EL238 U1 BRA 45,62;5.84 45,625.d4 45,625.84 45,625.44 . EL23B U1BRB 50,20 1.50 50, .Pel.30 50,206.50 50,206.30 E.23B U2 BRA 45,73H.50 45,73d. 50 45,733.50 45,732. 50 EL23B U2DRB 54,80 l.50 54,800.30 54,80 1.50 54,806.50 ; sub total el 23B 196,37'.34 196.371.34 196,37'.34 196,371.34
- EL49 AORRM 3,462.7a 3,462.7& 1,280.60 3,462.79 EL49 CTLRM 67,316.3,1 67,31R.33 56,016.19 67,316.33
1EL49 KlTCH 2,240.0) 2146.00 2,246.00 2,j?46.00 i IEL49 LDYRM Jt90.11 290.11 290.11 it90.11 lEL49 MENRM H90.11 290.11 290.11 l?90.11 1EL49 SCTRM 10,i l56.70 10,656.70 11,016.31 10,t >56.70 ? 1EL49 U1CA4 JI9.97 319.97 319.97 319.\07 EL49 U1 CPU 36,117.N 36,117.34 36,117.34 .36,117.; 14_ EL49 U1EER 206,il22.: 17 206,622.97 137,783.31 206,622.:67 i EL49 U?CA2 J19.37 319.97 319.97 319.37 EL49 U2 CPU 36,917.,14 36,117.34 36,117.34 36,117.J4 4 EL49 U2EER 224,145.00 224,145.00 233,807.50 224,145.00 i sub tow el 49 587,904.62 587,904.62 515,604.74 587.904.62 i EL70 MERM1 213.00 213.00 213.00 213.00 EL70 MERM2 16,985.72 16,985.72 16,985.72 16,985.72 sub total el 70 17,198.72 17,198.72 17,198.72 17,198.72 i
^
1 j l Grand Toal l 1,267,291.5311.267,291.531 1,194,991.65 1,267,291.53 l
,,..,- , _. - ,, - -.. - , ,..._..-,m.m., _ ~ - _ _,,...--___--.,..~..._-,____,,.---.-m.- , , _ _ . , - . _ - - . , . . - .,m..-
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cal 8/24/96
^'
Checked by: Date: CALCULATION SilEET Pg.41 of130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 4.8 IIVAC Flow & Cooling Loads Determination 4.8.1 IIVAC Flow ne total normal supply ofIIVAC flows to control building 49' elevation are taken from the acceptance test results (R3), which are 15233 CFM and 16671 CFM for Unit I and 2, respectively. A smaller flow of 15233 CFM is used for both Units for conservatism. The nonnat supply ofilVAC flow for Unit 1 & 2 cable spreading rooms, Battery rooms and ilVAC flow during emergency condition are taken from Ref. 4. The flows to each area are recalculated based on new reduced flows and the locations of supply registers. The summary of flow for analyzed events are tabulated 8n Attachment C, 4.8.2 Cooling Loads The design cooling capacity is 254,293 Btu /hr with 10,000 CFM air flow per cooling coil per Ref. Drawing 0 FP-04253, sheet 1, which includes 202,352 Btu /hr sensible heat. The total sensible cooling capacity for each unit (2 coils per unit)is 404,704 Btu /hr (=2 coil X 202,352 btu /ht coil). The cooling capacity for each areas @ el 49' under design basis scenario is distributed based on the flow calculated in Section 4.8.1 and are summarized in Attachment C. 4.9 Summary of Scenarios Analyzed In this calculation, a total of 4 scenarios were analyzed: three (3) for LOCA without LOOP and one (1) for Main Steam Line Break without LOOP design basis events. A summary of these events and their specific assumptions are given in the Table 4.5 below. For other assumptions, see Section 3.0 and the event descriptions in Section 4.1. y m- ,v---y
- y- .-w ww w , + - - - - - - - ----
y-w-,c -- --
,y w w r--
y-
Computed by: Date: CAROLINA POWER & l.lGilT COMPANY Calculation ID: Yanlan Cal 8/24/96
^
Checked by: Date: CALCULATION SilEET Pg.42 of130 Rev.O Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Table 4,5 No. EVENT PROJECT NO ASSUMPTIONS I lA)C V W O CllCSAti A. Two control complex fans and swo NC units LOOP nmning;
- 11. Only U2 cable spreading room fans running; C. I oss of mechanical equipment room fans; D. Only U2 computer room NC running; E Total number of people in central control room, UI I:E toom and U2 E0 room are 20,5, and 5;
- f. I:sent duration . 720 hrs 00 days);
G. Emergency fan unning; arid ll. All battery room sentilation fans running. 2 ll)CNWO CDCASE2 A. Two control compicx fans and only U2 NC unit LOOP running;
- 11. Only U2 cable r;. reading room fan r.mning; C. Loss of mechanical equipment room fans; D. Only U2 comnuter room A/C ruaning; E Total number of people in central control room, UI EE toom and U2 EE toom are 20,5, and 5; F. Es ent duration . 720 hrs (30 days);
G. Emergency fan running; and
- 11. All battery room ventilation fans nmning.
3 LOCNWO CilCASE3 A. Only U2 fan and its A/C ur,it in control complex L(X)P running;
- 11. Only U2 cable spreading room fans running; C. Loss of mechanical equipment room fans; D. Only U2 computer room NC running; E Total number of people in central control room, Ul EE room and U2 EE toom are 20,5, and 5; F. Esent duration 720 hrs (30 days),
G. Emergency fan running; and
- 11. All battery room ventilation fans running.
4 htSt 11 CDCASE4 A. Two control complex fans and only U2 NC unit
'N/O running; LOOP 11. Only U2 cable spreading room fans running; C. 1 oss of mechanical equipment room fans; D. Only U2 computer room NC running; E Total number of people in central control room, Ut EE room and U2 EE toom are 20,5, and 5; F. Es ent duration 720 hrs (30 days);
G. Emergency ran running; and
- 11. All battery room ventilation fans running.
i
Computed by: Date: CAllOLINA POWElt & LIGilT COMPANY Calculation ID: l Yaruan Cai 8/24/96 Checked by: Date: cal.CULATION SilEET- Pg.43 of130 itev. 0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A l Calculation
Title:
Control Building Transient Temperature Analysis 5.0 RESULTS AND CONCLUSIONS 5.1 Results for Project CBCASE1 5.1.1 Transient Temperature Profiles The data developed in Section 4 was entered into RT3 computer program and run for the 720 hour (30 day) assumed event duration. A time increment of 0.005 hour was selected to obtain stable and convergent results. Simulation parameters and other input data are provided in the Attachment E. A set of graphical plots of the resulting transient temperature profiles in each of calculation room / area in the Control Building are provioed in this section along with a tabulation of the resulting temperature at each 4 h: ar increment over the 720 hour (30 day) LOCA without LOOP event duration. The maximum temperature for each calculation room / area in the Control Bulding are summarized in the Table 5.1 below at a time increment of 4 hours. The maximum temperature @ 23' elevation occurs @ about hr 704 in Ul Cable Spreading Room in which fan is lost and is 122.14 'F. The Unit 2 Cable Spreading Room maximum temperature is 97.85 'F. The maximum temperature @ 49' elevation occurs @ about hr 712 in U1 Computer Room in which A/C is lost and is 137.03 'F. The maximum temperatures in the Central Control Complex Room, U1 Electrical Equipment Room, and U2 Electrical Equipment Room are 82.33
'F,83.77 'F. and 79.61 'F and occur @ hr 708,708, and 704, respectively. These temperatures are below the respective acceptable limits, therefore two Control Room air conditioning subsystems is suflicient to maintain appropriate temperatures in the Control Building for 30 continuous days.
5.1.2 Transient Relative ilumidity An average relative humidity is selected to represent unifonn relative humidity in Auxiliary Operator Room, Security Room, Central Control Room, Ul Electrical Equipment Room, and U1 Electrical Equipment Room. The relative humidity profile is provided in the chart along with a printout of the data. The average relative humidity in the control room (state 2) increases from 50% @ time = 0 to 50.2% @ hour 4 and then decreases to 46.5% at hour 708 of the event. The
l l l Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cal
^'
8/24/96 Checked by: Date: CALCULATION SilEET Pg.44 of130 Rev.O Tom Devote 9/12/96 - File: 8220 Project No.: N/A Project
Title:
N/A ! Calculation
Title:
Control Building Transiont Temperature Analysis , relative humidity of the air mixture entering the charcoal train (state 3) arr all in the range of 49% +/. 3%, which is well below the 70% limit. Therefore, the two air conditioning subsystems can maintain the control room humidity at acceptable levels throughout a 30 day DBA. Table 5.1 NO. ROOM ID ROOM DESCRIPTION MAX MAX TEMP TEMP OCCUR @ ( 'F ) IIR I U2CA1 U2 sable acccu wmy a el zy 94 05 4 2 U2CA2 U? cable access way @ el 49' 57.55 96 3 U2CSA U2 cable spreading area 97.55 4 4 U2STW South stairway well 59.66 4 3 U2PIC U2 pipe case 90 61 4 6 U1Pic U1 pipe case 90 64 700 7 U2BRB U2 Battery Rm 2B 103 63 4 5 U1BRB U186ttery Rm ib - 105.25 720 9 U2 BRA U2 Battery Rm 2A lol22 4 10 U1 BRA Ut Battery Rm 1A los 67 720 11 U1CSA U1 Catdo spreading area 122.14 704 12 UICA3 U1 Catdo access way @ el 23' 109.39 720 13 UICA4 U1 Catde access way @ el 49' 100.75 720 14 = U1STW North stairwell 112.62 705 15 U2EER U2 eieancel equipment rm 79.61 704 16 U2 CPU U2 computer rm 65 720 17 MENRM MENS ROOM 37.52 700 15 SCTRM Secunty room 54 45 704 19 LDYRM Lady's room 90.74 704 20 KITCH Kitcrien 59.49 70t 21 ClLRM Ut&2 control room 82.33 705 22 U1EER U1 electrical equ6pment rm 53.77 705 23 AORRM U1 & 2 aux tiary operater ready rm 56 34 705 24 UICPU U1 computer rm 137.03 712
- 2) ELVTS- Elevator Shah 91.26 720 26 MERM1 Mechanical room 1 92 07 24 27 MERM2 Mcchanical room 2 94.06 4 25 MERM3 Memarwat room 3 - 93.54 4 29 AIRLK At Lock @ (*l 49'0* 53.75 712 JZ U2 AIR Dead av space @ d.16 90.13 4 33 UI AIR Dead air space @ d. 8 105.12 720 t
l
, i Computed by: Date: CAltOLINA POWEl(& LIGIL COMPANY Calculation ID:
Yaruan Cal
^'
8/24/96 Checked by: Date: CALCULATION SilEET Pg.45 of130 itev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A , Project
Title:
N/A Calculation
Title:
Control 13uildinr, Transient Temperature Analysis 11NP CONTROL llUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITilOUT LOOP Ct1 Bldg Aivas Temp - LOCA w/o LOOP-CBCASE1 p':::: ::h;=,% B3-82 - pWWAVWWWWWANk Cl- - -
- k. ,
a w; - 79<
%ww%%W/WW/WMAMAW4 7e _ __
77-l 76-75 " , , , 0 100 200 300 400 500 600 700 000 lime
+ C1LRM V U1EER o U2EER t
( i
Computed by: Date: CAROLINA l'OWER & LIGitT COMI'ANY Calculation ID: Yaman Cal 8/24/96 ^' ' Checked by: Date: CALCULATION Sill!!!T l'g. 46 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control fluilding Transient Temperature Analysis liNP CONTirL llUILDING TRANSIENT TEMPERATURE PROFILES FOlt LOCA WITilOUT LOOP Ctl Bldg Areas Temp - LOCA w/o LOOP-CBCASE1 125- ; I
- y rfgmeyt;: . : :?et ;'; J : .: . ,.
120- F -< ~ g35 ._ . _ . . A 110-.-- - 1 105- - - - - - - - - - - - - - ' + - - - - - - - - - - -- 1004 95- i
, ', 2
,',<'f,',f',k'h'b,' r, ,r , i , ,
', hb
_v , ,[
<r , , ,
i i 1 1 1 1 903 . 0 100 200 300 400 500 600 700 000 Time
+ UICEA V U?CSA
Computed by: Date: CAROLINA POWER & LIGIIT COMPANY Calculation ID: Yaruan Cal 8/24/96 OVA 0104 Checked by: Date: CALCULATION SilEET Pg.47 of130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Contrel Hullding Transient Temperature Analysis 4 . IINP CONTROL HUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITIIOUT LOOP ] Ctl Bldg Areas Tenip - LOCA w/o LOOP-CBCASE1 110 ----~u
, i
, , ', ', i g100- E '
I i l . 8 l i < hl < i l il li l i l i l ld l il l 'l h l l h li h il l i l I
< h i '< ih j '< i ll'1 l b L l4 hl'< l '< ll 3 l ' < ll 3 l < lh l '<lh l h '< l l, lhlhl ' "
3 W XS!!!!N !12 % A' t S t s t!, ett t
~
00 -~ 70s . . 0 100 200 300 400 500 600 700 800
'nme
+ UlBRA Y UlBRB o U2 BRA O 'J2BRB
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculatiot. ID: Yaman Cal 8/24/96
^~
Checked by: Date: CALCULATION SilEET Pg.48 of130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control lluilding Transient Temperature Analysis < llNP CONTROL llUILDING TRANSIENT TEMPERATURE PROFILES FGR LOCA WITIIOUT LOOP Ctl Bldg Aivas Temp - LOCA w/o LOOP-CBCASE1 92 v. N Ytb - ' - k
- 1hhh{kkhhhhhhhhhfhhih
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. OVA - 0104 Yaruan Cal 8/24/96 Checked by: Date: CALCULATION SHEET Pg.49 .
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Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis BNP CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITIIOUT LOOP Ctl Bldg Areas Temp - LOCA w/o LOOP-CBCASE1 l@ ; ; , , ; ; i 9 130- - 120-~ 110- +-
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Title:
N/A Calculation
Title:
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Title:
N/A Calculation
Title:
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Title:
N/A Calculation
Title:
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Computed by: Date: CAROLINA POWER & LIGHT COMPANY CCicubion ID: Yaruan Cai 8/24/96 Checked by: - Date: CALCULAT10N SIEET Pg.53 of 130 Rev.O Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
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Computed by: Date: CAROLINA POWT.R & LIGHT COMPANY Calculation ID; g gg OVA . 0104 Checked by: . Date: CALCULAT10N SHEET Pg.57f of 130 Rew 0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
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$3 80579 103 0144 97 90006 97 e5752 tesesse 9874F38 13 Sanes 120f704 43 80834 90.325e7 123 404 8390e0s 1013030 102 533e 102 3192 107 0025 95 GETF 1Re42 120 eB37 43 4e0e8 to 4es29 123 240 101J21s 90 8M42 10Eles3 104 104 54 08M4 101 6208 105 4854 104 101 t2F 1350 9t MF33 135 e734 121 0745 53 44054 90 90sF1 123 244 103J40 ' 90 88824 108 SF9 404 tot M 279e8 teleus 1017541 1015177 10F 1915 94 99798 135 Stes 121 1863 63 4SF56 90 01129 123 244 101287 90 8H83 108 F986 tot 104 94.38176 1032E3S 95 17303 98 14983 107 1790 98 9797 1RtF43 121 2351 83 50519 90 40863 123 252 10330L M86068 108 8519 104 104 04JS GS 101 1429 96 40006 91 4408 107 1791 9E 90128 134.03F9 1212146 E3 50000 M32904 123 254 1013354 90 Seest 108 Eles 104 104 M 91 1MJ73 96 02%91 9F m242 107 2304 to 04714 1X0s4 121 teF4 E3 Sa437 9042503 123 390 1013stl 90 M201 10F 999 104 tot 83 92J00 101SM3 102 este 102J453 1071ess 9819823 tas 1053 1211F18 43 50Mt 90 40E0F 123 284 101 3736 80 63718 107 0583 los 104 H OF212 101Ft38 10$ $1H 104 1265 10F 4329 es.2400F 1X125 121J578 83 44434 0) $3576 123 3e4 1013878 90 43235 1971F9 104 104 MJ5321 101F29P 191FesF 103 54M 107.8308 902F11 138 1571 121 383 43 49E82 90 81141 123 272 103 4050 90 82R2 10FJ567 104 104 64 374F4 1013231 98 20438 99 17373 10F 8142 99 24544 1382041 121 4096 43 5465e 90 44871 123 279 103 4399 MtM56 107 3324 104 104 M JFet t 103 3M4 98 43108 SS 4438 107 4952 99 23854 135 25F6 121 3791 43 50961 90 32E25 123 2e0 103 4086 905200Q 107 40FF 104 104 M 02241 103 40se 94 06507 97 94He 107 8623 99 29792 tW2M 121 3261 615t3st 90.3254 123 284 103 4877 toStesF 107 esce tot 104 83 8342 903 FM8 102 5979 102 38F2 107 $Ftt 99 4013F t13082 121 3269 13 S4277 to 47000 123 289 103 4979 90 81244 987 5622 104 104 M an3e7 103 0ase 10454e9 105 148 107 F914 Se es442 13s.3171 121 4056 53 51M1 90 S9793 123 292 10150s to 40812 107 822 104 104 64 30479 103 8287 101 8132 101843 107 E297 99 90022 135 3406 121 S054 8183386 MatJet 123 298 103 1294 to 80418 107 sett 904 104 S4Jes1 103 F144 90 22982 99 19374 107 7962 99 44431 138 3F99 til MFl $1679 to teet2 123 300 103 8628 90 00164 107.7543 104 104 Me MJEdes 1018F3F 94 45542 96 4$321 907 Ft76 90 4543 138 4254 121 8114 83 430s 94 32741 123 103 SF79 30 F9FM 197 42&3 104 104 M 033t2 1918725 90 079F9 0F 9M47 197 310e 9e SOM4 138 4649 121 4S43 E3 8J421 90 327 123 2 38 103 8832 90 F9431 10F es15 104 104 43 Mee5 103 9423 102.7301 102 30S$ 107 8344 95 00544 136 4e02 121 4108 138719e 90 47tF9 123 312 tale SG F903 107 M44 904 tot te sedit 104 1400 105 5693 105 1458 108 9473 90 04313 13e 4644 121 5249 E3 84F9 90 6e9F2 123 214 1019057 e3 79838 SOE 0189 104 tot D4 3147 104 00e5 101tMe 1015e32 toe ST21 99 eE29s t3a 4821 121620e 41560e4 to e144 123 320 103 4219 e3 78306 108 0713 tot 404 324 64 3ns3 tutF97 99 25354 95 21042 10s tst2 St aaeet 638 316 121 mM 43 405 t9 90 47151 123 103 MS 90 F9023 4011182 104 104 M 294t f 191 7326 98 4F541 96 49037 107 9985 te &JeeS 138 8652 121 4193 43 45594 90 3291 123 3J9 103 9471 to FF742 tot stet 104 104 M 04214 103 827 90 00008 97 Set 11 108 4305 99 84544 138 $734 121 SSe 43 4444S 90 32884 123 332 103 0F97 90.FF419 108 2549 104 104 83 e53s 104 0829 30t T3ss 102 400F 104 1513 te FFF95 138 8F9 121 5600 43 50556 73 4F384 123
$35 103 0437 En F7057 tut 3133 104 104 64 10299 104 2tF1 105 5875 1051a07 108 2533 99 8504e 13s SF54 121821F 83 6703F 90 40143 123 340 101asF7 to Pt?94 tem 3ses 104 tot H.32322 104 23ee 103 4521 101 5845 108 2771 "9 85$16 138 9911 121 F143 43 S4294 90 $164 F 123 De4 103 7U03 90 Ft40F 108 4234 104 104 94 40422 104 0ta2 99 JEF42 99 2F427 108 23 90 01441 135 9995 121 7442 EltJ624 90 47144 123 344 103 F20e 90 79142 10% 4FF9 104 104 64 3021 103 SeF4 96 49189 94 912F9 tot 1998 90 F9319 138 6553 121 70s5 43 07528 to 13104 123 352 1017404 SE F591e tot 8312 104 104 64 09003 103 e542 98 913B1 97 99400 108 22F3 99 43599 13E SF48 121 6423 83 esa19 to 310e9 121 3h4 101 7907 91L F9431 105 543 104 104 e196123 104 220J 102 F54 t02 4113 tJs3M2 99 921e 138 471 121 4322 43 8 t464 90 4 F902 123 300 1017523 SE Filoe 908 4333 104 los se 11033 104 4 t 14 106 4023 105 193 10e 4314 99 99223 t 3s s6as 121 7003 83 54a43 to 40403 123
Computed by: Date: CAROLINA POWER a LIGHT COMPANY Calcul tion ID; Yaruan Cal 8/24/96 Checked by: Date: CALCULATION SHEET Pg. 6 of130 Rev.0 Tom Devore 9/12/96 File: 8220
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Project No.: N/A Projec*
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis v e.s um um um 3M 103 7541 00 74985 108 042F wi 104
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F914 102 4453 106 tM 100.3214 638 3FFF 121 8334 83 08181 90 48385 123 458 181 9210 00 F0034 10B e tti tot 104 M 13032 100 F138 106 &351 105 2241 108 0129 100 2752 138 8883 121 805 43 &344S 90 0119 123 440 1G3 919e 90 89et? 100 MP2 104 104 64 349ee 194 0ue 163 90f 4 103 EM4 10s tles 100 2738 130 0eee 121 9707 83 k489 90 42820 123 444 101R240 93 se663 105 SFS2 104 104 M 43044 .304 4819 90 31M4 to 284u3 108 4535 100 314e 138 4s30 122 8343 83 M543 90 4a2ee 123 448 131tM1 30 Se53F 100 F153 904 104 44 32704 104 3 Sa 63a20 es SSaa 30E 7957 1002831 135 90e3 121 9537 41F1376 to 34018 123 4F2 103 9606 90 89419 900 743 tot 104 N 07434 104 38 ta tssa3 98 03226 108 8176 900 3132 138 9147 121 8814 43 F2382 90 34014 123 4FG 103 SMi 905sM5 10e FF35 104 104 83 94507 104 6315 102 7974 102 4502 108 91 100.3es3 13a 9064 12184J5 63Seese to44552 in 480 103 D*99 00 4805 100 803 104 904 M t3M2 104 4123 194 6444 106 229 10t te29 100 4444 1M ah2 121 5241 E184128 90 01345 123 ese 103 944$ 00 tes5 100 $32 104 104 M 3531 104 790s 603 gost 103 M1 108 9009 100 434S 138 8824 122 0089 H 66tSt 90 42779 123 ese 103 9444 90 esF03 908 est 104 104 H 4135 104 5176 99 32ul? Se Jaco 10s 8295 000 379 1M 80A7 122 6314 43 95219 to 4M3 123 482 903 98f 3 to desO4 900 9001 104 1H $4 22996 104.3545 96 54325 98 56650 105 Seer 100 3430 13E $332 121 9001 43 F3992 30 34157 123 498 183 0F3 94 04503 100 9184 104 104 M OF716 104 4332 98 14344 98 0M45 105 8ee8 900 3F26 1M H t F 121 907 81F2979 90.34 t 52 123 800 talf754 to es366 108 M45 104 104 83 98F34 104 SEM 102 8021 102 4643 108 9808 100 4et2 138 B276 121 tea 3 83 07449 to 4e891 123 504 103 9701 90 Ae165 108 0'32 104 104 M 1382 104 8631 105 6491 105 233 108 08t4 100 9000 130 9133 121 9442 83 M894 90 81482 ta 908 601 9849 90 67981 100 0004 500 104 64 355F1 104 8005 1839113 103 M4e 195 0M 100 408F 138 0129 122 R102 81 65701 90 52912 123 812 103 9845 90 eFM9 110 025F 104 See M 43E23 tes test 963 Net teJF32 108 905 100 433 13E S29e 122 0M2 S3 88Ft5 90 44S57 123 Sto 103 ee03 90 8F785 110 0521 104 004 64 33237 104 4019 9t M F3B 98 400t9 tot S3JS 90E3eR7 138 0523 122 002 83 74503 90 34JS 123
$20 101 9818 90 876YS 110 0F82 104 tM M 0F951 104 4796 90 teF41 886383 100 9621 900 4242 138 9002 121 9283 51734F5 90 34275 123 SM 103 093F 90 5F544 1M1034 904 104 83 90015 104.F208 102 334 102 4577 108 9414 100 0006 13B M54 121 0000 D 67964 90 48014 123
$20 163 0eF4 90 4F3ae 116 1279 104 100 84 t3844 104 0074 105 6629 106J383 100 1213 100 5601 1MSES 121 9801 81 85185 90 814G2 123 632 101 3814 00 $F197 114 1513 104 104 84 3579 104 M3B 103 9149 M S4F9 105 1221 100.53F7 138 9295 122 0495 83 40150 90 43029 123 E30 103 8847 9&SFtFFF 114 1712 904 104 44 43538 194 8088 9012E33 08 27629 100 0514 1004F90 116 9445 122 873 81 70204 90 4 east 123 640 103 9081 to ff00s t to 19M 104 104 84.33441 tes 4435 94450F7 98 86317 108 9087 000 4426 138 G6F7 422.0202 01 74929 90 34388 123 M4 100 00e7 90488J2 1M2231 904 tot M CAMS 104 8202 98 97071 M0m2 108 808 100 4081 1M9FS 121 k5e 81F3ese 90.34381 123 See 10400M 90 ea49 198 344 104 See 4198200 904 F006 102 8082 102 4005 100 0042 100.5404 135 6.+ 121 828 81 05358 90 4882 123 362 100 0017 90 08844 1903e8 104 104 04 64032 104 9443 106 854 10L235 let 1F29 1015829 130 9444 121 9847 $3 e6460 90 61797 123 See 103 9066 00 0Me? 19420e5 904 104 44 35973 tot telt 103 9179 1010008 100.1F25 100.8796 13R M29 122 0a$4 E3 8413e 90 6313 123 000 101980t 30 88379 114 3113 104 tot 34 44014 104 Maa Os D127 DeJFees 10s 4007 100 521 13E 96J4 122 0806 41 70571 to 44F98 123 Gee tot auS 90 88319 110 3333 104 104 M 1Mt 104 4790 96 0535 98 Seese SOS SJet 100 4428 1J8 SAOS 122 8354 81FS208 90 34443 123 See 104 0143 00 08256 110.3561 tot 104 M 0s312 104 3564 981F344 98 00SH 100 0E29 100 5084 13E SSF 121 9038 81 74234 90 M474 123 SF2 194 8205 9006t46 1M3750 104 104 83 963e8 904 8034 4G2 4110 102 4e28 908 1401 900 5F98 138 9794 121 0403 83 84000 90 49013 123 IFG 104 0135 90 esamt tMJMe tot 104 H 14140 toe test 10E4548 1062413 100 2179 100 6305 1M9664 121 See6 83 GaasF 90 $1F98 1H S00 904 00e8 90 MG42 190 4155 104 104 M 35tN 904 9154 103 9304 103 8528 108 2143 100 4164 135 9L3F 122 0F91 83 08458 90 43210 123 BM 104 0082 90 65744 110 43H $04 104 M 44143 104 5706 90 3337 98 20000 SOS 1435 100 557 1M 98F9 122 1014 83 70878 to 44851 123 See 104 Ofte 90 eteM t to 4584 104 104 84 33752 See 512 98 95447 98 58774 100 0 FOS $00 $181 lA 9e03 122 048 43 F5S45 90 MSM 123 962 104 G29F 90 85s4 110 4F54 104 104 84 094$ 104 94F4 to 1F5FG 90 04F34 100 08 3 100 5429 138 9064 12t 9729 43 74524 90 3455$ 123 958 104 8307 to 06630 110 4945 104 tot 81 90804 404 D43 102 044 1024MF 100 1801 100 4:25 13s SeDe 121 9122 43 88983 90 49091 123 000 104 4233 90 8S394 110 8127 104 104 M t432 90L6407 106 0E00 10L2432 900 25F 100 8E35 t M 9844 122 0 01 83 041M 30 0 tS FF IM 004 104 0144 90 652M 1M5306 %4 104 M 35254 104 MS 903 3225 903 M46 1052547 900 64e7 tJE SCG 122 0003 83 6F129 00 63294 123 908 104 01M 90 96148 110 9447 104 104 M 44294 104 70F0 99 33575 99 2E A 109 141 100 5a07 1M 9Ft6 122 9126 83 FliM 90 44923 123 612 104.03S7 90 eSt24 110 SOFs led 104 M 33071 104 S405 M 45795 98 9th 4 100 115 900 6491 134 9ene 122 9547 81FS837 90 344M 123 Sto 194 83&3 90 45079 190 5864 104 104 64 08586 104 4152 De tFFla 38 04882 100 1298 100 8733 13F 0044 121 0 32 E3 74F99 90 34624 123 820 104 Elet 93 M986 110 0028 104 104 43 908tF 104 at14 102 a159 102 4444 100 2152 100 6423 138 9886 129 9622 03 69223 90 49142 123 624 104 SM4 90 4485 110 8194 104 104 54 14429 105 21F4 105 4424 105.2444 105 2913 900 0926 138 0F23 122 0199 43 4534e 90 81944 123
$JS 104 8242 90 MF14 110 06F 104 104 64 3830 004 9812 103 9242 103 6489 100 2943 900 4FF3 IM S$99 122 0ste $3 87354 90 63359 123 612 104 678 90 54437 110 4523 104 104 M 44301 104 F3M 90 3374F 98 25428 100 213e 900 0147 138 9835 122 1218 43 793SF 90 44944 123 SM 104 G3Bt 80 M803 4 60 esS3 104 104 M 3NFt 104 SASF 98 Snes2 th $F054 90014F2 900 8794 137 0064 922 0676 83 Ps0S to 34695 123 640 104 046S 90 845e8 110 048 104 104 84.90A41 104 M SR 1F93 98 Ge034 tot 1611 $00 8002 137 0114 121 9519 43 74977 to 344a3 623 See 104 046 00 M48 1M702 104 104 83 90711 104 0859 102 8179 102 46FF 108 244 000 8487 13E 995 121 9707 43 69427 90 49229 123 M8 104 8M2 90 M351 110 71F1 104 104 84 t452 105 0813 105 6641 105 2461 109 3214 100 71M 138 9Fs4 172 0291 83 Ma96 90 tJ002 123 452 104 8300 90 H227 110.732 104 104 44 3M49 194 9944 163 92SF 193 4874 195 3179 100 7U26 138 9754 12210F9 43 4FM9 90 $M tS 123 e54 sed 8323 to 64153 114 F4F3 104 104 44 44478 104 F353 90 33001 99 295 % tot 3428 100 4415 13s 9093 122 1295 83 79543 to 494039 123 Geo 104 0422 90 44125 t t& F620 104 104 M 34054 194 5483 96 58102 94 SF214 199 1755 500 001 13F 09 9 122 0FS2 43 Ftnt 90 34744 123 ese 104 06tS 90 640es 190 FF83 404 tot 64 0aF42 104 6821 Sa tacee 90 05153 tot tene 900 8241 937 0140 121 9993 83 F5tSJ 90 34 P34 123 See 104 0614 90 64017 910 F229 tod 104 83 99Fe9 504 9074 102 81s6 102 4409 109 2F33 100 4921 137 en02 12197F8 836 4 90 492F t 121 Of2 104 0438 90 0 894 110 8088 104 104 M t4596 10$ 0E24 106 e454 105 24F2 109 3443 100 7414 138 9e15 122 0351 83 86F95 4. E205i IM GPS 104 G383 90 E3FF9 190 8204 104 104 M 3s123 106 0tSS 103 927 103 He5 108 3441 100 F151 IM 9808 1# 114e 33 SFF14 90 s1443 121 esO 904 82F9 to 63F00 t10 044 804 104 M MS5 104 FF54 94 34014 95 2 Gee t 109 26M 100 9438 13a 9941 122135 t 8I F t F02 to 490as 111 GM 104 04F4 OO 63ese 1to 6407 104 104 94 34123 104 80s4 95 58221 96 S?I2 905 2W6 100 422F 137 9iS4 122 Os14 83 POsa 90 M P9 12i Get 104 0585 90 Ele 84 110 0E29 104 104 64 08408 104 5019 98 941E2 98 05253 tot 2tM t00 MS4 137 02:4 tn 005S 83 75304 90 MFF5 'D 962 904 0547 90 63581 110 8794 104 104 E3 90SSS 904 827 102 4199 102 4699 109 2974 100 713 13F 0046 121 9039 53 5974A 90 49394 1/
- 4e8 104 0445 90 &MFS 110 809 104 104 M 1468 106 1017 105 8845 105 2482 109 372 100 Ft19 138 9870 14044 03 satt i 171 104 6400 90 83352 110 9015 104 104 SaS 106 SM3 903 928 103 6504 tot 3573 100 F453 13e 9M9 1 83 GFeSS ORE m 4+F00 F04 304 0s21 90 sn0s s te ttri 104 iM 344D t04 F953 WO MitF 9: 2eFSi m atti ico san iM 9esi 2 a1 F11Je 90 m24 1D 9 F0s 904 Osif 90 a32ee t to 92Fe 104 104 isi 304 a2e te Ss322 Sa SF40r 10e 2229 100 M29 i s w Qi W 90 Ma2m in
) F12 104 Ge0F 90 432s? 1to stoF tot 304 s4 DaeM 104 s997 ts tais Se 0531e los 2353 100 es45 in Osca aDSan 30 Mai4 in Fta 104 0s07 90 e3we 1 0953 104 104 sa tset t i ame 7 1 +09 i i 19ett u sters 30 49Mt in =iP F20 104 0524 90 &Eles 190 984 F 104 104 M 14Ft3 G WD 2C) 109 F 13s tet s 122 044 83 sF0M 90 42121 in F20 00s SM 0524 00 axes S to 9n4F iM 104 e414Fn M i0s ha3 h3 i Et bu i3a 9et3 inO4e eJ eFan 90 ssin in
I Computed by: Date: CAROLINA POWER & LIGirr COMPANY Calculation ID: OVA - 0104 Yaruan Cal 8/24/96 Checked .Jy: Date: CALCULATION SHEET Pg56 of130 Ret 0 Torn Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Contml Building Transient Temperature Analysis w.t m ui Fw uim viF92 997 3 uMa un 4 untFe ufcai u2c42 u2cru uses4 uma u2nc um u2 m umi
$7 m % M M n . n T*
1 ti 44 M .M ee02 7 m .= M F.m M n urM w.en0MO ti n 9F Mn .7 iH = 1N. (4hwar SMn n7 M m33 M M. n mi Mw ti NF S n u Mom 0F = = Mem niMer M8uM n ee 08 SF MMS M n M m F9sMFe MitM.e ei SF Mois n 18 100 4077 SF 104 104 M 983B0 94 22575 tR FUFO 93 87U5 87 95449 Se $2 0FF05 Fl e t F74 0S &3343 91 87 34909 78 30 1013E23 SF 104 tes ea rt354 9e kses 100 6'91 83 9076 8FJ5F58 et 9& F9741 79 30F02 44 07089 91 M 115e6 F4 34 142 0323 SF 104 104 As 90087 101 1914 103 414F 93 80742 SF Soter es 97 44879 79 34294 08 50204 91 80 OE2 78 28 102 7946 SF 104 104 80 805F9 M 44344 191 8082 93 43e63 0FJF3M M 96 826 F9 44F9 eg 39621 St M 19045 F4 32 103 3842 SF 104 604 90 63708 M 83191 97.52E2 03 Fooet 87 34922 te 93 77841 nSopi 87.23380 $1 M 20!tt F8 38 103 8779 87 104 904 80 33He $2 0547F M 4t370 $38A064 $FJ3es3 ee 9t 00283 F9 82548 86 16101 D1 87 J2264 70 40 104 3L164 SF SO4 104 90 3est0 53 33942 M FF%2 93 88035 SF 3Fle2 Se 82 32902 79 MF46 M 92991 91 e6 82F04 F9 44 104 SFS5 SF 104 104 80 SF441 9F es484 90 91263 93 874 F1 87 44197 08 $$ M234 79 24909 M 00000 91 87 83A01 79 de 106 0336 SF tot 104 to M220 100 4047 tot F314 93 SF123 87 41037 e4 SFJ8200 79.2ueeS te SJ53 91 M Feeld F3 62 105 3943 8F 104 104 99 0 08G2 90 02494 101 2487 93 3145 87 A1232 Se 38 41104 F9 40102 98 91F75 90 $4 90486 70 M 105 F473 8F 104 104 85 35403 M cDeS2 078114F 9 34072 87443-4 es 53 383e8 79 45sa2 88 0es24 91 N 06F03 F4 80 108 0844 87 104 tot De to157 91 te023 M 19463 93Je611 SF 42730 to 91.23979 79 4F122 44 00439 91 et 90364 70 64 108 3283 87 104 104 M 202FS $301479 96 3FFt2 OJ 25e96 $F a%329 Sa 82 00813 79 298F9 65 41351 91 te FtM3 70 et SOE test SF 104 104 M 41981 97 44147 90 SE3e8 93 2nM3 SF EMt4 GA M 99719 79 22521 SF M3FS 91 GP 64376 F4 F2 108 F92e GF 104 104 Se 84014 000 3F30 102 429e B130Ftf SF.Sa479 - 60 SF 10002 79 2FF89 es M829 91 88 0010 FG M 10F 048 87 104 tos St 473M to SM18 tot 4100 53 2000J 87 84032 M- Os 2046s 79 30644 84 44107 91 ** F4134 78 to 10F J082 87 404 104 M 21714 M 4 Jess 98 F5549 83 64890 67 4F917 68 S31F504 79 44122 es 34263 91 87 899W6 FS M 107 U01 87 104 104 30 Greet 918 tese 33 03239 S3 OSMF SF 4$F20 M 91 0491 79 45eM e4 303es 91 M sesoe 78 et IOF F2ee 87 104 104 80 SFSS 92 87831 96 142 83 040s9 SF 4FMe 58 91 83018 79 294 F9 65 13489 91 84 87908 F4 82 197 8876 87 fee 104 89 29014 97 11014 90 42984 63 0e79 7 64 M t5315 F9 22607 8F34810 91 47 84808 78 M to 108 0003 SF 104 104 89 43471 100.2 met 102 2762 93 11099 1 48 M 97596 F9 29t02 88 04123 91 68 4a5FS 78 500 tot 2 hee SF 104 404 86 383e9 96 FF350 400 8814 S3 0F250 8798 88 48 M ONES F9 29274 04 21FM 91 04 83543 78 104 100 4401 SF 104 104 99 11208 94 34G22 98 6 F27 92 97141 4F 4F986 S8 93 05419 79 41314 M 15232 91 87 80023 FB 108 10S &407 GF 104 104 et t2 sal 91 44117 91315e6 52 8s?F3 SF 45a92 Ga 909408 79 48575 84 u279 91 86 F5178 78 912 108 F901 87 the 104 M 98007 92 01291 M OFSJS S2 MISS 87 47304 64 91 F4641 F9 30FFS $4 93526 91 M 49015 FG 116 108 8054 SF 104 104 MJoe09 9727F4F 08 34142 92 91541 SP MFM M N FF432 79 23902 67 04132 91 SF 438$3 78 120 108 02S4 87 104 104 09 1385 M2218 102 98 4 32 95412 tr aae01 as es 9056 79296M 87 85027 91 88 41224 F8 1N 100 181 87 104 104 50 2t224 98 F3477 100 8106 92 SMOF 87 5S458 64 98 02992 79 40F05 Se 0McF 91 88 54902 F8 120 109 3453 $7 104 104 80 0Mes M 300st 96 85777 92 84J5 87 4e522 04 93 0052S 79 44FFS N 04an) 91 SF F3eF4 78 132 10e 44ee SF 144 104 44 05471 91 40661 93 FS29 52 F0684 OF 442F4 48 90 00600 79 4F971 to MSSF 96 M 99474 PS 138 tot $831 SF 104 104 M 9108 32 78259 96 02205 $2.FG673 87 4SF96 68 91 70019 F912533 64 90615 91 M 4379F F8 140 900 6757 SF 104 104 09 tM22 9FJS351 98 29237 92 tJEM 87 &3031 68 M P3BFF F9 25dO3 88 99423 91 87 39001 F8 944 10e FFN 87 104 104 08 2745 10E198F 102 1480 82 88132 87 8S121 44 98 88978 79 3 tit 3 SF F3325 91 84 30412 ft let 105 8e04 0F 104 104 89 2218F SE F1733 100.7712 $2 838F4 87.8J527 Se 95 99622 79 42300 87 98239 91 M S2901 78 112 194 8332 OF 104 104 849F726 M Jt257 98 &2895 92 Fee 54 67 444e4 SS 42 9FF49 79 48257 85 98304 91 87 70244 F4 194 1to 1486 87 104 104 et F98s3 91 38041 83 7187 32 87963 SF 423F to 90 SF038 F9 49493 M 0133 91 M M tea 78 140 1942M3 97 104 104 6a 88833 62 70066 M 90tS4 92 M138 87 43024 48 91 67798 79 34501 M es244 91 88 40s03 78 964 t t4JEM 97 104 904 Se esef 97 34337 94JS54 S2 74617 87 89028 68 M Ft3 79 27164 M 6431 91 EF 3a35 78 tot 1laMae SF 104 104 88 2271 500 191 432 1244 92 79492 SF 13009 40 98 65331 79 32730 SF G426 ti as 343N FB 1F2 193 4686 0F toa 104 86 17949 98 710M 100 7499 92 FM29 47 8t483 88 M 9ti37 79 4383 87 93199 49 84 6068 FR 9 Fe 116 8707 0F 104 104 as $14a2 M 2762 98 SOSFS 92 48 8F 42714 es 92 9648F F9 49E39 85 98334 99 9 F M2 76 *$ 180 196 0848 97 904 los SS F9823 913s4F 93 F0064 92 6t t F 87 4043F M 90 81F2 F9 9082 63 9eekt 95 36 M JFw F# 1M 194 F21F SF 104 904 08 91974 32 F6503 94 SFS48 92 81972 8F 4t911 68 Di sasM F9 36325 54 840 4 91 e4 392 6 Fs 148 196 F9M 87 104 104 00 05308 97 24022 96 25181 $2 007S2 Gr ott M 94 F10e F9 20407 08 91486 99 8F 34963 74 192 190 8t38 87 104 804 00 t9202 100 1888 102 1914 $2 72903 0F S1943 84 98 447*4 79 34124 07 52101 91 84 33 21 FW 198 SF 904 904 05 M38% M 70004 100 F359 92 F1125 0F 49599 64 96 98054 F9 451FF GF 90324 9i sa 494tm Fa 300 9to9$.$F3 190 21 SF 104 104 04 90307 94 27475 90 49064 92 629FF GF 400 48 92 98116 F9 61144 GS 94819 9' 47 8FMA FG 304 194 0836 47 tot 104 84 F2921 91 38086 93 06FF3 82 96411 GF 30881 64 90 8199S F912374 64 911M 90 M &het 85 300 1111tes 87 104 104 04 F9122 82 F944 M 9875 32 SP4S OF 40195 48 91 MF32 F9 3FMG H 82753 99 96 3tMS Fe 212 191 1331 - SF 104 904 GeS2ses 9FJ4023 98 24443 92 M444 47 47300 48 N F0091 79 298J M GMSG 91 GP 34442 78 214 111 1727 SF 104 104 OG temos 100 test 102 1896 62 04F97 SF 494 F Ge 96 64F14 F9 363 SF $9000 9% G4 32721 FR 220 t ttJ423 SF 104 104 85119D7 SE F0esF SCE F338 92 SF22F $7 4F172 68 96 M134 79 44J18 SP MF21 91 M 49345 ft 274 911 3233 0F 904 104 M 8F9FF M 27987 98 49443 92 $0265 8F 38341 68 92 98201 F9 S2954 45 94035 9t 0F 4FtaF Ps 220 191 3882 SF 104 104 08 70F04 9130e48 63 0eFF4 12 12930 87 3F1F9 84 90 06S 791J657 M 01124 91 M 4M48 Fe 232 194 4146 87 104 104 01F7014 92 F9600 M 94413 92 64121 87 38F37 ft 9t Me3 79 38317 S4 E2196 91 84 30621 Fe 21e 199 4'JF2 SF 104 104 08 00003 9FJ4te5 9B N202 92 81273 87 459as es M Ft228 79 3055 es s9104 91 87 3450F 76 340 ttt 4Mt GF 104 104 08 1400 100 l8e8 103 1922 SJ MFee SF 44078 es M M92 F9 35262 SP 54St 91 SS 3282 18 M4 111 814 SF 104 104 95 10083 91F1188 100 7317 92 64M9 07 48621 64 9S 9M46 F9 47208 87 8798S 91 88 49122 78 348 1913e45 SF 104 104 00 94254 M 2FFF8 M et342 02 S8554 87 30049 48 92 98541 F9 64Stf 8S 83774 91 SF 67417 F9 152 111 4353 SF 104 104 84 00006 913esco 93 49e94 82 9032 07 35035 68 90 0E097 F9 MSF1 44 (C9F 91 M 43987 F8 2SG 11195F5 87 104 led et 75457 92.78e14 94 96348 92 4145F SF 37S37 M 91 SF322 F9 4062 54 0204 96 86 389$9 F9 te0 111 8604 87 104 100 08 90114 9F 2441F 90 N tSS 92 68024 87 44F94 64 M F1633 79 31Ftf 88 8s850 91 07 348a8 ft 364 114 8F94 97 104 104 tt 93274 100 1971 102 1921 82 &3625 57 48534 64 96 SS34 F F9 3F122 8F to132 95 45 33242 F# 3e6 til F2sf SF 104 104 80 007S4 M F1432 100 Fite 92 4221$ 87 4SS2$ 84 95 9884 F9 44000 SF 8FFS1 99 8A 49978 F# fr2 111.F908 SF 104 104 AS M984 M 20032 98 49381 92 54S32 87 3F003 60 82 9899 F9 6S299 45 93774 9e RF SFnF F9 279 191 8379 0F t04 604 M 87859 91400FS S3 69F98 92 44398 87 34932 64 908FM8 F1 SS329 44 01023 91 Sm M4s in 280 111 8489 SF 104 104 84 7431 42 FF074 M 96425 92 49427 87 3 ESP 48 91 SFF14 F9 41831 8482006 94 94 29s0J F4 264 Ill M32 SF 104 104 88 900N 9/ 24E65 99 2424S 92 SFIFF 07 43556 48 94 F2102 79 3244: 84 88e94 te GF 3sess to let ttt 86SJ SF 104 104 SS 4223 100 1946 102 1032 92 81854 SF 4e026 64 M SSa26 F9 37823 8F Se106 91 48 333J3 Fe 292 1910E00 SF 104 104 00 07F44 98 F04F9 100 F329 92 00627 87 444S3 64 9S 9tM6 79 44FF9 SF 8FS34 91 64 S0$44 FS 390 111 8S46 SF 104 104 M 84049 M as2sf M 4Mie 92 &3025 47 38172 Sa $2 97474 F9 58498 85 939t1 91 8F 545 52 78 300 1119eS4 87 104 104 M eseFt 914013e $3 geste 92 449ee 87 34134 68 90 87554 79 tS954 M 9t tti 91 86 4512t *R 3 34 112 0005 SF 104 104 44 F3444 32 FF325 94 98SF5 $2 44463 SF 15403 68 91 64279 F9 429 F6 M 42249 91 86 40144 FS
$30 11t fe9 SF 104 104 48 97222 9724908 99 24334 92 SS574 8F 4J112 Ga 94 F2S70 79 33043 86 89004 91 07 36t14 F4 $12 191 9847 SF 104 104 Se 11463 10019F1 102 1048 92 8086 GF 4S31 44 98 463b4 F9 3s405 SF $4327 91 ta 34499 79 314 142 834 87 104 104 08 0F043 98 F1912 100 F34S 92 5444 SF 43947 54 95 99825 79 491M 07 8e078 91 84 91253 F8 XJO 113 0544 SF 104 104 08 83383 94 28520 96 4950s 92 81990 SF 35518 64 92 97944 79 8757 46 94121 99 0F 09179 F8 124 112 1208 87 104 104 M e&32 91406F9 S170104 92 45e98 47 33507 44 90 0833 F9 804 FF 64 0139 91 06 85791 F8 320 112 121 SF 104 904 08 F2MF 91FF5So 94 98757 82 47442 SF JS201 E4 91 MP42 F9 43446 84 42455 9i et 40612 FG 3F2 192 1059 GF 104 SM 88 90435 97 25127 99 24540 92 544ee 8F 42532 Sa 94 F303 F9 33S44 46 89356 91 SF J F94 78 338 112.1975 SF 104 104 89 109 100 1993 102 toes 92 59876 SF 44FS2 60 98 85754 F9 3eee9 97 58581 91 88 351F9 79 340 112 941F SF 104 104 Se 905t2 98 F2122 100 F3E3 32 54561 0F 43432 es 98 002L3 79 49eos 87 as407 91 es S19J1 18 $44 11214a3 07 104 104 SE E2est 94 28745 98 49077 31 58053 GP 200m ea 92 W3e4 79 5F989 eS 943St 91 87 89442 PS Sea 912 2206 ef tes 404 Sa ene43 91 40797 91 70294 92 45052 07 33019 64 90 08765 79 56311 94 01496 91 84 98453 F4 352 112J1F2 87 104 104 M F23e6 21 FFF94 94 989+4 22 448F9 4F 34F13 M 910910e 79 44107 De 42643 91 et 41472 F9 M6 fli t9FG $7 104 104 88 98206 SFJS323 98 24740 92 5416S 97 42001 SG 94 F3443 F9 3395e as etaS3 99 07 37457 70 3e9 112 9948 SF 104 104 80 1049 100 2012 102 9084 92 349F3 07 4432 M 98 87142 F9 32291 SF t90M St 90 3s4JE F4
Computed by: Date: CAROLINA POVER & LIGHT COMPANY Calcul: tion ID. Yaruan Cai 8/24/96 #^ # Checked by: Date: CALCULATION SHEET Pg.$7 N RmO Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis U151W UtfR2 U1T93 U29AA U29ms US U U2 CPU U2STW fans.PM U17,91 M t imF. 104 104 .U3 9 MAfttM M F2MF - FM M .CA1 FMt 8,2CA2 4Mt M M SA U2.f 90Mt,R .U,2PtC MFM U2ft,X 9 M uSu U2,Y,t t 300 t12 2F12 87 104 104 M SN96 64 3e837 M 80001 82 40417 SF 34414 68 S2 90781 F9 84M2 SS M4 91 SF FMF4 PS 2F2 1la 2003 SF 104 104 Se eself 9140ees 83 7048 92 4440s 87 2M41 sa 90 89158 F9 ST271 to 91830 91 to 47081 70 374 112.2941 8F 904 t04 es F20se 92 FF949 94 97124 92 44007 87 343F1 58 91 65647 79 44M8 64 829'm 91 04 42001 Fe 340 112 272 SF 104 104 M 96093 9F JS4M 95 24914 62 5JSit 87 41734 44 N F381 79 34303 85 8g952 91 07 30079 73 384 112 JeE3 SF 904 104 DS 10191 100 3G29 102 1101 92 3S442 SF 43957 M 98 8F1N F9 39625 SF $8618 91 as 1s45 F4 3e6 112 2087 0F 904 104 30 05444 M F244F 100 F397 92 SF3'74 SF 427 84 M Otops 79 S0tte SF 89124 91 84 83it 70 M2 112 3376 0F 104 104 M 8223 94 29103 98 50232 91499M 87 34311 64 92 M132 F9 500F4 05 94829 91 SF Ft004 70 3M i12 3644 SF 104 104 M 55244 91 41194 93 70852 92 44F9 SF 2215 48 to SM97 79 SFlat M 02047 91 86 476S9 FB 400 112 M60 0F 104 104 80 F1820 92 79108 to 9F299 92 45b.30 SF M051 SA 91 4988 79 4918 84 Ut19 91 86 42959 78 404 112 Mte SF 104 104 08 95447 97 2SM2 99 250F4 92 6316 414l44F 68 94 74131 79 3459 M 90233 91 4F 1es44 is 408 112 I2SF OF 104 104 M 09079 100 J044 102 1117 92 8a034 87 43F32 Sa M SFt39 79 39901 SF 59926 91 as 37000 Fe 412 itJ 3521 SF 104 904 89 05442 98 P2004 100 7412 52 M949 07 42457 64 95 01314 79 50F94 0F 89491 91 44 63733 70 414 192 3914 87 104 tot 48 0J039 M 29246 98 60M8 92 49658 47 340F9 64 92 99434 F9 50339 85 9504 to GF Finst 74 4JO t t2 41FS OF 104 104 64 85084 914 t298 93 70NG S2 43878 67 32129 94 90 09FM F9 8Ft17 64 02238 424 91 M es179 78 112 4054 47 104 104 84 F15&G 92 F8241 94 97436 92 41324 l ' 33841 64 917016F F9 45302 64 83304 91 e6 43169 78 420 112 3F90 87 104 104 M 95506 97 2SF0 F 90 25214 92 12889 bf 41283 88 M P440F 79 34827 M 90491 91 87 39165 70 4 32 112 3F2 87 104 104 89 09422 100 20S4 102 9131 S2 SFF3 0743137 60 94 88111 79 40131 07 00106 91 84 hPSOP 78 4M 912340 SF 104 tot 49 0M9F 98 F2F21 100 7475 82 84894 87 42271 64 96 01SFS FS S1005 87 09F89 91 48 64224 FS 440 112 4341 SF 104 tee et 81903 94 2t364 96 50622 92 49287 er 31002 48 S2 99993 79 69644 05 95229 91 0F F20tl FS 444 112 4578 SF 104 104 es 64337 914t413 33 70e41 92 4341 SF 31954 sa 90 Woes FS 68023 04 02404 91 84 Sa64 t F8 448 112 4457 87 104 104 44 F15M $2 F8J64 M DFSAS 52 450M $133710 68 91 70414 79 442M 94 834 F3 91 04 43822 78 452 112 4183 0F 104 104 e6 9630 9F 28474 99 25335 02 SJG22 SF 4l100 la 64 F444S F9 3SOM OS 90F22 91 SF 3e603 F4 4SG 192 40D4 87 104 104 89 00Ft2 100 2087 102 1143 92 47483 07 433a9 60 M at343 79 40322 SF 00MF $1 64 37944 73 400 112 4329 SF 104 604 88 05304 9e F2019 100 7438 92 84447 87 42129 44 94 01 F99 79 6ttl 87 93044 91 04 64439 79 464 112 469 87 104 804 M Staus M 294e9 96 50641 92 49071 SF 33797 44 32 98914 79 99F21 ES M395 91 SF F2eFF Fe 448 112 4919 SF 104 104 88 44444 914t5t7 S3 F1054 92 4TJ03 87 31828 88 90 90264 F9 541M 84 02SSt 91 M 49044 78 4F2 112 4782 0F 104 104 84 F14S 92 78451 M 97970 52 44ans gF 33h04 44 91 70823 F9 46432 44 83a2 91 46 4401 F F4 474 112 4497 87 104 104 84 OM09 SF 25984 90 25441 DJ M431 SF 40949 68 94 F4446 79 331se sa 90928 91 07 39ets PG 480 f t2 4Jeg 0F 104 104 49 0e436 100 2074 102 6153 92 8730s 87 43276 Ga 96 84SJ9 F9 4048 87 0096 91 M 34329 Fe 484 112 4422 SF 104 104 89 06322 91 F2903 100 7444 52 5429 SF 43021 68 M Ottaa F9 61344 SF 90286 91 88 16024 70 488 1'.2 49F3 0F 104 104 84 81730 M 29555 95 50743 92 4e902 SF.Sisse se 93 00101 ft $9e68 SS 9%54 9t 87 FTM FS 492 192 8t85 SF 104 404 M 64FE2 91 41402 93 F1154 S2 43342 87 31F29 44 90 90447 79 58337 44 02679 91 ea st19S Fe 498 112 8044 SF 904 104 44 7139 9" F4533 M 9FFF4 92 44794 47 335 68 99 F00 79 46579 94 83749 91 e6 44 be 'e NO til 4712 47 104 104 M 9952 97 2004 M 23531 92 42281 87 40895 44 94 FSO14 79 3532% N 91103 Si 47 40314 Fe 804 112 4M4 SF 104 104 09 09549 100 20H 102 1142 92 S7143 8F 431st to M eeFQt F9 40613 47 6121% 91 88 3M$ti la toe et2 4se SF 104 104 8e 052F1 ts F29F2 100 745S 9J lat$1 87 4 t939 48 98 02148 F9 5te F2 47 90495 95 88 6u44 84 512 112 4203 OF 904 104 88 8 t692 H 29a27 98 0083 92 48Fer 87 3354e 68 93 00263 79 00152 85 9%441 95 #F ritet 84 914 112 540F OF 104 104 es MF3s 91 41674 $3 F1244 92 42915 07 31453 48 90 90801 79 5a4S5 04 02 Fat 95 ea sts% ss
$20 t12 $261 GF 104 104 80 F1348 92 78601 94 9Fais 92 44501 87 33427 68 91 F0049 F9 4M47 64 634$9 to en 44ast 19 524 112 498 87 104 104 M 95213 97 25103 99 25400 92 52142 8740829 48 N FStS9 F9 35439 44 912S% 95 87 40625 in US 112 4M5 SF tot 104 Se OeM4 100 2009 1021let 42 SF048 47 43123 48 98 88444 F9 40F23 8701444 99 M 3 sed 3 ft E32 192 606$ SF 104 104 49 012JF 9a 73031 100 F442 92 M04 87 4t476 48 98 Q2282 F9 5t579 87 00075 91 84 h3419 70 L38 112 1301 87 104 104 08 8405 M 29048 96 00503 62 44e6J 07 335JS 44 S3 0E396 79 804M S$ 96FF2 91 5F F34tt is M0 tit lese SF 104 104 es S4 F00 914t FM 93 F1314 92 43813 SF 31108 48 90 00F31 F9 4e554 D4 02882 91 48 89e44 Fe M4 112 M37 SF 104 104 08 F132 92 79854 94 87929 92 444&3 OF 35371 68 917 tore F9 44F83 S4 Sk&3 9t M 44903 76 See 112 813 SF W 104 M S5te? 0FJetSe 96 25473 921208F 0F 40776 68 M 7UF9 79 3SS34 BS 913a5 91 SF 408F3 78 062 t t2 801 SF 104 tod 85 005 t9 100 1004 102117e 9250014 8F 43073 68 96 eets2 79 40s15 SF ated 91 88 3si45 Ps 566 112 8214 0F 104 104 40 05214 9& F30s 100 7444 R2 55859 S' 45827 68 98 02395 F9 8 t488 SF 90$J9 99 44 85853 78 000 912 8445 SF tot 104 M 51638 HJs73e ess0ees RT4 ears 3733479 es $30050s F9 e066 86 96M2 91 47 73641 F4 984 112 5F30 87 104 104 te 64eet 91 41794 93 F13n 92 42F31 07 3156 84 90 00830 F9 tet37 44 02982 91 0E 70174 Ft Set 112.8881 SF 104 104 GE F1302 02 79708 94 0F90 81 44414 8733328 88 91 71679 F9 4GSM M M033 91 48 4St14 F4 672 192 527 SF 004 104 08 95t80 9FJE201 60 25728 92 $190 87 40F35 to M F$379 79 35454 06 91498 91 47 410e5 FS 8FS 111 5146 $F 104 104 80 08502 40E2050 102 1101 Glatest SF 4J033 to 98 88069 79 40882 87 61404 91 M 35391 78 900 112.6346 87 104 104 M 08199 9t F3121 100 74F3 32.55875 87 41799 58 98 824s9 F9 8t F42 87 90059 91 08 54052 ?S M4 112 SSF2 87 104 104 08 8t&24 94JSFt1 98 09018 92 44500 67 33442 44 S3 00509 79 80622 05 06018 91 87 F3432 FS Get 112 58ns 87 104 104 ta sasFe 9141a26 91 71429 32 42064 0FJ1518 es 90 9003 79 5sF0m M 33029 91 84 7035 F0 982 112 $7 0F 104 104 08 F120 32 79F45 M 90032 92 44349 E7 33294 to 91 F1266 F9 46832 04 Mi 91 86 45297 F9 988 112 6305 87 104 104 M 96154 97JG238 90 25M4 92 5t927 47 40702 98 M P5443 F9 3Rea 84 91589 91 8F 412t3 F9 000 112 8257 SF 104 104 38 06442 M 2102 102 tlM 92 6e819 87 43002 44 e6 Ml41 F9 4005F SF 01948 91 84 395M 78 004 912 5453 SF 104 104 39 06180 ts F31$5 100 F4F7 92 554la a'41F50 88 98 02500 F9 $1005 87 010e9 91 88 56219 F4 Eos 1128Mt 87 tes
- 104 e4 01815 M 29017 96 81082 924MS 87 33413 se 93 00e'7 79 80en2 OS90004 91 87 F3H3 79 612 112 8eE2 SF 904 104 08 64064 91 41081 93 714F2 92 42008 SF 31486 54 90 910C4 79 54795 04 E1085 91 08 F0617 79
$14 it2 879a GF 104 104 88 71282 92.79nt M 9e073 92 44294 0FJ3267 68 99 7134 F9 44e09 44 MtSF 91 06 4545 79 E93 192 548 SF 104 104 84 95tSt 97 26209 90 25512 32 81473 87 40sFt 88 M FS$33 F3 35F37 08 91847 91 0F 41414 7e
$24 112 &lde SF 104 104 te OMe5 100 2106 162 1100 $2 M76F SF 429F7 6e 98 8821 79 41012 SF 42087 91 08 3ert1 F4 620 112 8642 SF 104 104 08 05183 M F3143 101 7441 92 457ss 47 41735 as 96 02133 79 5t850 SF 9t t42 et 88 56386 75 632 112 5863 SF 104 104 84 8161 M 29847 98 51099 32 4M01 57 3339 48 83 00742 79 80733 Sit 0059 91 47 74129 79 638 112 0044 SF 104 104 M 64es3 91 41891 $3 71500 82 42561 87 31483 48 90 91089 F9 5ee14 M 83133 91 88 70ES F4 640 112 888 47 104 104 SEFlin $179007 M 98107 92 44248 47 33245 Se 91 71401 79 47037 M 64204 91 44 455F9 79
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Checked by: Date: CALCULAT10N SHEET Pg 5% of D0 Rev.O Tom Devote 9/12/96 File: 8220-Project No.: N/A 1 Project
Title:
N/A Calculation
Title:
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- . Date: CALCULATION SHEET Pg. % ofI30 Rev.O Tom Devore 9/12/96 File: 8220 t g Project No.:N/A Project
Title:
N/A , Calculation
Title:
Control Building Transient Temperature Analysis
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Title:
N/A , Calculation
Title:
Control Building Transient Temperature Analysis
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Title:
N/A Calculation
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Title:
N/A Calculation
Title:
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Computed by: Date: CAROLD4A POWER & LICMT COMPANY Calcul3ionID: OVA e 0104 Yaruan Cai 8/24/96 Checked by: Date: CALCULAT10N SHEET Pg.63 or no m, o Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
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Computed by: Date: CAROLINA POWER & LIGitT COMPANY Calculation ID: OVA 0104 Yaruan Can. 8/24/96 Checked by: Date: CALCULATION SiiEET Pg.65 of130 Rev.0 Tom Devore 9/11'96 File: 8220 , Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 5.2 Resuhs for Project CBCASE2 5.2.1 Transient Temperature Profiles The data developed in Secti:a 4 was entered into RT) computer program and run for the 720 hour (30 day) design event duration. A time inewment of 0.005 hour was selected to obtain stable and convergent results. Simulation parameters and other input data are provided in the Attaclunent F. A set of graphic plots of the resulting transient temperature profiles in each of s calculation room / area in the Control Building are provided in this section along with a tabulation of the resulting temperatures at each 4 hour increment for the 720 hour (30 day) LOCA vithout LOOP event duration. The maximum temperature for each calculation room / area in the Control Building is summarized in the Table 5.2 below. The maximum temperature @ 23' elevation occurs @ about hr 704 in U1 Cable Spreading Room in which fan is lost and is 142.82 'F. The Unit 2 Cable Spreading Room maximum temperature is 102.21 *F. The maximum temperature
@ 49' elevation occurs @ about hr 700 in Ul Computer Room in which A/C is lost and is 165.64 'F. The maximum temperatures in Main Control Room, Ul Electrical Equipment Room, and U2 Electrical Equipment Room are 109.72 'F, 118.73 'F, and 101.35 'F and occur @ hr 700,720, and 700, respectively.
The U1 Cable Spreading Room temperature exceeds 123 'F at hour 40 of the event. The plant mitigation including restoring CSR HVAC or altemative ventilation measures such as opening doors must be taken within this time frame. (Please note: this calculation is conservative. Therefore, if the action is taken to restore the CSR HVAC prior to this time frame, it is not expected that CSR temperature will exceed 123 *F) 5.2.2 Transient Relative Humidity An average relative humidity is selected to represent uniform relative humidity in Auxiliary Operator Room, Security Room, Central Control Room, Ul Electrical
1 Computed by: Date: CAROLINA POWER & LIG11T COMPANY Calculation ID: Yaruan Cai 8/24/96
^
Checked by: Date: CALCULATION SilEET Pg.66 of130 Rev.0 , 4 Tom Devore 9/12/96 File: 8220 Project No.: N/A i Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Equipment Room, and Ul Electrical Equipment Room. The relative humidity profile is provided in the chart along with printout data. The average relative humidity decreases from 50% @ time = 0 to 37.3% @ hour 8 and 38.7% at the
- end of the event.
Table 5.2 F NO. ROOM ID ROOM DESCRIPTION MAX TEMP MAX TEMP ( *F ) OCCUR @ HR
- j. I U2CA1 U2 cable access wmy @ el 23' 95.58 720
- 2 U2CA2 U2 cable access way @ el 49' 92.98 720 3 U2CSA U2 cable spreadtng area 102.21 12 0 4 U2STW South stairway well 95.53 700 3 U2PIC U2 pipe chase 93.01 720 6 U1PIC U1 pipe chase 94.30 720 7 U2BRB U2 Battery Rm 2B 103 92 720
< 8 U1BRB U1 Battery Rm its 108.73 720 9 U2 BRA U2 Battery Rm 2A 102.30 720 l lu U1 BRA U1 Battery Rm 1A 109.89 720
- it UICSA U1 Cable spreading area 142.82 704 12 UICA3 U1 Cab 6e access way @ e4 23' 115.25 720 13 U1CA4 U1 Cab 6e access way @ et 49- 408J6 712 14 U1STW North steerweil 135.23 704 a 15 U2EER U2 electrical e autpment rm 10135 700 16 U2 CPU U2 computer rm 68.87 708 17 MENRM MENS ROOM . 100.51 .700 18 SCTRM Secunty room 99.75 676 l .. 19 LoYRM Lady's room 109.72 704 20 KITCH Katchen 116.41 700 21 CTLRM Ut&2 control roorn 109. 2 700 22 U1EER U1 electncal equipment rm Ii5.73 720 23 AORRM Ut & 2 auxiliary operator ready rm 118.78 700 24 UICPU U1 computer rm
) 165.64 700
- - 25 ELVTS Elevator shaft 100 04 720 20 MERM1 Mechanical room 1 92J7 720 4
27 MERM2 Mechanical room 2 92.86 720 28 MERM3 Mechanical room 3 93.54 4 29 A!RLK Asr Lock @ el 49'0* 90.23 712 32 U2 AIR Dead air space @ ca.18 91.48 720 J3 U1 AIR Dead air space @ cl. 8 108.58 770 34 PLEMN llVAC Mixing Ponti 108.70 720
Computed by: Date: CAROLINA POWER & LIGHT COMPANY Calculation ID: Yaruan Cal 8/24/96
^
Checked by: Date: CALCULATION SiiEET Pg.67 of130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITIIOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE2 sn 4 ;; ff, SECh??% $$ ~ i 115- + '
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Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation iD: j Yaruan Cai 8/24/95 OVA 0104 Checked by: Date: CALCULATION SliEET Pg.68 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A i Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis CONTROL HUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITIIOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE2 1- 150-i l l l l l i I i ;
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+ UICSA v U20::A
Computed by: Date: CAROLINA POWER & LIGilT COMi5ANY Calculation ID: Yaruan Cal 8/24/96 ^~ Checked by: Date: CALCULATION SilEET Pg.69 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITIIOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE2 120- .
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Computed by: Date: CAROLINA POWER & L1 Gilt COMPANY Calculation ID:
~
Yaruan Cai 8/24/96 Checked by: Date: CALCULATION SilEET Pg.70 of130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project Title : N/A Calculation
Title:
Control Building Transient Temperature Analysis CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITIIOUT LOOP Ct1 Bldg Areas Temp - LOCA W/O LOOP - CBCASE2 120-i .. .. . V tis- -- - -
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Computed by: Date: CAROLINA POWER & LIGIIT COMPANY Calculation ID: Yaruan Cai 8/24/96 A Checked by: Date: CALCULATION SHEET Pg.71 of130 Rev.0 Tom Devore 9/12/96. File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITilOUT LOOP Ctl Bldg Aivas Temp - LOCA W/O LOOP - CBCASE2 170 :
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Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITIIOUT LOOP Ctl Bldg Alvas Temp - LOCA W/O LOOP - CBCASE2 IO , i i i , i i ! !
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Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 ^~ Checked by: Date: CALCULATION SiiEET Pg.73 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITIIOUT LOOP
- 1. Ctl Bldg Ains Temp - LOCA W/O LOOP - CBCASE2 110-l r
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Computed by: Date: CAROLINA POWER & LIGHT COMPANY Calculation ID: Yaruan Cal 8/24/96 Checked by: Date: CALCULATION SHEET Pg.74 of IM Rm0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis temposews Acehte Women 150 se Otr10me se to 1203 es Cee Fm LOCA WdoLOOP LOSS W U1 AC COCAstl
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70 tot 4195 101 0534 300 75 00n01 TO M F2eet 114 Geet 107 9838 70 3D4 F9 edes 70 98 42227 114 6 te6 tot 2611 98 79557 ft 95259 54 99$F9 08 te138 70 108 1204 101 1004 M 3008S 1to 70e6 107 973 70 98 98654 114 SJ83 m 1M3 94 FZ101 817982e Os 47931 95 9e03S 70 tes 4042 101 1822 300 M 48979 70 94 83!at 194 9117 M 1357 70 312 901M44 114 8F19 108 179 99 049F3 e6 471M 90J3534 S$ 48779 70 107 1871 101 3067 32 98989 70 M Ft364 tif I108 100 494 FO 99 36521 114 9114 10E 3889 De 44001 02 31555 92 00481 35 3a962 70 10F elle 101 2392 Sie 05 5102 78 M cMit
- t 72154 104 6719 70 3J0 9e 19M4 115000 toe Sit t 90 40C00 80 053TF 914J543 eG OO253 F0 107 1323 1012714 F9 5102) 70 M taes itF t23 108 493 FO 97 F9412 116 04 F9 108 6476 99 33E26 E2 48114 87 47133 $7 48375 70 108 eJ94 101.312 3M F5 0D001 70 M 9e60s 114 Se64 104 1497 FO 325 ft 4894 70 98 M142 114 8774 tes 4943 96 as19 79 encos e5 82941 37 03804 70 tot 3304 101359e M 05437 117 0089 108 GF73 FO 96 Ftllt 114 F9e5 10E M07 98 90231 91 41034 84 51271 96 00143 F0 tot 5907 tot 4085 337 to 449'S 70 95 06444 117 2002 tot 22es 70
~ 338 92 tent 9a 24TPS 114 9154 tot 3779 9e 21335 Se 44352 to 27935 GS 50504 70 107 3764 tot 4433 FO 95 02433 117 40e4 108 840S 70 se 4649 til 14F7 tot 47$ St SeeiS S2 3242 92 MS4F B5 82973 70 107 8796 1014F02 340 Se 5102 70 to 53710 117 4E34 tot 8624 70 344 79 81021 99 30t 74 9is 212S tos F9e to 78248 09 DeeQB P14a252 GR H14F 70 10F F095 101 4963 70 95 413ef 117 3eF4 10S eeM 70 97 88974 114.2M 105 &10e 99 490F0 82 4M1e $7 70174 SF SOGIS 70 107.00$4 101 5303 344 F590001 70 9521287 817 257 108 3407 70 3S2 79 4088 70 86 64874 tit ee4 10s 8719 99 10924 7s soc 67 45 05F41 87 0'144 TO 104 4982 101 SF2 SSJeeme 41F 2500 108 2379 70 98 etiM 114 9979 108 512e De 04414 81 82205 se 44061 SB $3552 F3 105 7418 101 e128 354 se 40979 Fe 95 2642 117 43e8 108 See FO 340 92 99999 9e M2TF 119 1179 10s Sees to 34964 es esas to 29R21 35 E3e62 70 10F EM2 tot 6414 F0 41J21Js 117 1351 105 E364 F0 se S6F91 115.3438 108.F44 99 F3F19 92 3315F 92 esesi M 9024 70 105 $263 101 te5J
l l Computed by: Date: CAROUNA POWER & LIGifT COMPANY Calculation ID: I Yaruan Cal W24 8; OVA 0104 i Cheeked by: Date: CALCULATION SHEET Pg. W of 00 Rev.O Tom Devote 9/12/96 File: 8220 Project No.: N/A
)
Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 19mperous Anahese Versson t 50 M OIF10nle se 1412 03 se Cetc Na LOCA woLOOP Lost OF U1 AC.CalCASC2 flame temperedwee $Mgree F) 1sne pt$ AFhdot LARFH AsuK eDtRa4 CTLRA4 (LECW ELV7$ Ef7CH LIFFtt34 IWE NRM 64ERMt MEnht2 WE8N3 PIPT4 RIMN flATL t 364 08 5102 70 96 27783 11F 708 tot 0026 70 M 39317 t18 5027 10s $5s4 M 95043 M 10535 91 49250 es 97402 70 107 SSee ici 8464 3a8 F9 8t021 70 95 29M9 t tF 00e4 108 8160 70 97 91354 ttS4M2 104eH3 M 6t F16 42 40603 8F F2F09 SF &3132 70 90F 1452 101 7148 872 FS 00001 F0 DS 39141 117 4F27 tot 4428 F4 94 F33ee 116 274 100 RJ01 99 23214 78 se1ft SS 0e074 SF 1016F 70 tot 63FF 101 Flt 2F4 79 otte 70 M M173 117 4712 108 3751 70 Se eas3s t161F23 toe Gees 99 18774 et 83944 48 54373 M 0a56 70 108 8954 tot 7968 300 08 489F9 70 96 42518 117 63e8 tot 4223 70 te 42118 11s Jeet 10s es39 M da333 to 4MF9 to 3237 F SS 58413 79 107 e6S2 tot sta Pe4 92 Seest 70 M 383to 117 4278 108 0644 70 90 SMF til 8050 los 3rtt Se M036 92 33FS4 92 7 t454 06 99125 70 1081M4 191 8298 390 Ge tt02 70 M 36443 117 9857 108 t2F0 70 98 470e4 118 0513 100 087 96 98754 89 99491 91 41795 47 0012 70 107 9FM 10164Se M2 F9 61021 70 96 44013 117 F9 3 10$ $379 70 98 084S4 115 0108 100111e 9e F2296 42 8t40F 87 74425 $F SSF01 70 10F 2661 101 9890 3WS 75 00001 FO e5 53422 117 # 11 108 8012 70 M e0784 itS4M 104 9442 98 33804 Fl amet 01 10028 87 12941 70 10E FMI 101 902 400 79 4494 F0 M ta3ae 117 Met tot 49 70 9F 03eN 115 StFF tos F7e9 De Ja2e9 31 se as 543t2 04 08971 70 107 0000 101 9336 404 08 4a0F9 FO 96 MJ97 197 80T7 104 F33e F0 9e 49279 195 4273 108 800F 90 56947 Se S03T3 90 34912 M S4241 70 10F FFSt 101 95S8 408 92 9eeve 70 95 41439 197 9893 100 0F23 79 99 70425 118 M31 108 9023 99 93315 92 34314 92 74119 N 01445 70 104 2eos =4019eet 412 84 8107 70 M S1348 118 0631 109 2324 70 99 63845 118 FSM 100 1989 100 087F 00 12200 91 E3e63 87 02394 70 10B 0021 101 9033 414 F9 81021 FO 95 &FS t$ 197 3611 108 04 FO 98 11093 118 74 109 2142 90 01178 42 52tM SF F6 Set 87 8Fl$1 70 907 35M 102 0000 4JC FS Onnot F0 96 65032 11F 7993 10s 7003 70 96 87087 1Il Se&1 103 D443 SS 42181 FG 90F31 si ties GF 14748 70 106 45t4 102 0292 4N F9 eaes F0 M F0917 117 F91 10e M42 70 97 09720 til 4302 tot 8 FF9 90 34488 9184e84 36 Set 36 SG 109e6 70 107104 F 102 06Ft 4 24 M 4e979 70 96 67942 11F We# 104 8273 70 98 &S226 Ill MS2 108 See7 99 64044 88 60064 to 3s3 SS 41256 70 107 0874 102 0757 432 SJ 9eese F0 M 82648 114 1247 tut tsJG FO 98 F518.3 118 F5FS 108 0874 600 0113 92 34F63 92 FS266 M 03425 F0 108 3497 102 0e46 4 18 e4 8102 70 96 42014
- ta tam 10e 3201 70 95 98317 116 904F 109 2003 100 1&15 89 12811 et ta421 87 0429e 70 100 1642 102 0538 440 ft St021 70 D6 67854 018 Orts 91 8 1256 70 to 1F3e9 11s Seei 10e 30a1 et seau 32 $2799 sf 790s4 SF 596S2 70 10F 4498 102 1109 444 75 00001 70 M FSM8 11F $229 108 FE33 70 96 92406 118 e642 tot 1357 99 4M26 FB 91344 GS 13L1 87 14490 70 108 S333 102 1384 444 F94He 70 96 F9st 117 9115 tOS een 70 ef teras stS Wt 10s ta2e 9e 41F19 8t M2SF 48 61797 08 12898 70 1071M2 102 tet3 452 M 4e979 70 95 FF074 114 0671 100 905F F0 M 00274 115 M3D 108 9811 90 FORM M 41442 to 3F79e es 47s44 70 107 9444 102 iFF 4%E 92 99999 70 M FIFF1 114 2J84 109 23M 70 9e 310a0 t t6 4532 tot le73 100 STP S2 36141 92 F9084 86 05089 F0 108 4243 102 1833 400 M S 602 70 SE F0061 114 2988 100 3E18 70 99 44063 116 geFF 100 3569 100 22T3 et 13318 91 87004 87 06896 70 100 2406 102 1894 ese 79 81021 70 M 78434 1le 1871 tot 1973 70 M 22012 1IS 93e7 tot 3839 De 94948 82 $3331 SF 73311 SF 61143 70 107 SJ03 102 2439 488 F5 00001 70 96 84272 118 020 10s SS3 70 M 90032 118 F421 tot 2u02 De 88H7 79 4 tsas as tels SF SF9es F0 107 0019 102 226F 4F2 F9 este 70 95 ersM t14 0121 tot 7345 70 97 18997 9I4 6243 tot 6342 to 4FSS7 et 85738 as 4244 48 14124 70 107 2508 102 Nt2 4 FS Ge SeeF9 70 95 84894 eit 1864 tot 9744 70 98 54t&3 111 T2ea 100 OSOS te FSSF9 M 5tDSt to 3e067 M MMS F0 108 0094 102 2a23 480 92 90000 F0 91 F9391 118 lie toe 302 F0 99 8521 118 $336 tot 2344 100 1323 92 36449 92FMF 86 064% F0 108 447 102 Jes3 ese to St02 FO 96 71212 fis 39ns 10e 4113 70 Se Geld t14 0FSF tot 4323 100 Jet te 1374 91 5&135 0 F 0F23e 70 tot 3012 102 JP 48a F9 51021 70 95 E3SSF 118 2F99 100 2578 70 98 25948 194 0t4F 109 4475 100 0025 82 63779 87 8034 0F 82433 70 107 s79F 102 2822 492 75 00001 FO 95 91109 110 1123 108 9114 70 97 00Fe4 196 814 108 2F11 90 807 78 52299 S$ tS14F 4F 192 70 10F 0HG 102 3029 4M 79 eats FO 96 94406 118 0862 tos F914 70 SF 22601 tis 898 100 0043 95 E2eet et est43 as 53402 M 16323 70 107 3071 102 3231 800 84 est 79 *O 99 01407 118 2500 100 020F FO 98 es1at tt& F984 toe 1009 99 01402 DS 521M to 40115 SS 55654 F0 100 0644 101 3342 904 92 98998 70 95 5Se89 110 4144 10e 4SS5 70 9e MF10 tis 001 tos H13 100 1799 92 36731 92 00835 N 0749 70 108 E3e7 102 3382 000 86 SIO2 70 95 MM3 114 449F 100 0071 70 pe FtMS 116 t414 100 4873 100 3262 0e 14006 91 58374 87 08184 70 108 3S23 102 33F9 412 FS St021 70 96 t9514 198 352 105 3042 FO 94 29270 116 0787 10$ W13 100 04 F1 42 64tS$ 47 81291 87 535 70 10F S297 102 34A2 516 F5 00001 70 95 98901 194 1846 108 0808 F0 97 04094 111 0791 109 3233 99 65044 78 92ees 311598 SFJ0237 F0 107 1081 102 38F SJO F9 4eet 70 98 00234 114 1887 totSM2 70 97 25M3 118 F542 100 644 99 88085 818Ma3 Os M21 88 14331 70 107 3544 102 3855 SN M 4ASF9 70 96 Set 1S tit 3206 10e 0732 70 98 712S8 116 486 tot tSG1 90 85442 00 624e5 to 41004 45 84M2 70 los t104 102 3e44 E2e 92 988e0 70 Mir1038 1t4 4421 108 4005 70 99 91e0 194 05F9 108 3301 100 2tE1 92.38854 82 81408 88 00547 70 10$ $M 182 3e5 632 as $t02 PO 95 80660 t181359 100 5a0s 70 9e 744F1 11419es 10e 5318 10a3M4 es M307 91 60252 SF 0631S 70 tes 3eS3 102 3e61 6 38 F9 81021 70 06 MSF6 114 41S 100 380s FO 96 321 114 1325 100 6448 900 0547 42 54472 SF 82003 87 643e8 70 197 4F18 102 4034 440 79 40001 70 95 0107 114 24S3 100 0022 70 $7 06F56 115 6104 tot 3eF3 90 Se70F FS 629F2 GE19644 SF 2119 70 107 4491 102 421 544 F9 este 70 94 0912 118 2256 108 8796 70 SFJOS22 111 000 109 1878 teGMS $1 atFee SS MeS1 SR 1F179 70 107 3942 102 438 54a Os 48079 70 to 91SAF 1113F9 100 ttJ4 FO 98 F3tf 911 9043 tot 1MF to 80004 es $2F29 to 41753 SS 67408 70 tot 1492 102 4458 482 82 98800 70 96 96806 114 S303 tot 4354 70 90 94207 t161057 100 3F94 100 2513 92 38181 92 82733 em 00408 70 tot 8214 102 4446 988 88 8102 70 95 81SFF 114 9014 10e 8076 70 90 F0039 114 3432 100 673 100 3006 0e t4448 91 eoene 87 10113 70 108 4316 102 4433 900 79 51021 70 95 90063 118 448 10e 3eH 70 95 344e1 fit 1F7S 908SMS 1031146 e2 64F39 SP 82528 0F SSIS4 70 107 7073 102 4507 ted FS 80001 70 94 0s954 11429E3 10e 03F2 70 97 0 eon 11S SP44 108 404S 99 71799 78 93231 55 t7221 87 21445 70 10* 1&Is 102 4088 See F9 esse 70 94 08054 118 2750 tot 9135 70 87 36792 11$ 8514 105 3230 to 63400 et 8701 M 864M OS 17853 70 107 4279 102 4822 SF2 SS den F9 FO 98 05521 114 4251 100 1456 70 9a 790sS ist test toe 2344 9e et FGt at 52936 to 423s4 as ed1to FO tot 142 102 sees 576 82 98500 70 to See13 114 MFS 905 4704 70 98 98319 9le 1461 900 4135 10127R1 92 35313 E EH47 at101 FC 108 G53 102 44M 500 es 5102 70 M 976ae 114 638 900 8108 FO to F901&
- 1824 10B 0061 100 4230 00 14983 91 01612 SF 10785 70 tos 4822 102 484 SM F9 SW21 70 94 02461 tit $125 tot 4t72 70 te 3est? 110 /161 100 81F2 10014M $2 M964 SF E1156 47 85791 70 107 73F3 102 4e02 See F5 00001 70 9s 08251 1tt 3383 toe ges? 70 WP .#082 114 2114 108 4359 99 7441 FSSMS BS t F700 07 23444 70 107212F 102 8049 982 79 48us 70 98 12449 918 31F5 405 M22 70 97 3271S t tS MF9 10e f345 98 00011 418F214 06 66948 08 18495 70 107 4S42 102 5195 let M 400F9 70 et 0e821 114 este NS 1734 70 to F7980 til toI tota 4 9994225 es$110s to42918 GS teF16 F0 108 2007 102 1251 000 92 Seest 70 te 62521 114 8284 000 4974 70 98 to145 116 1802 10e 4424 500 3029 82 38451 82 M182 as 108M 70 108 SFSF 102 8216 804 86 B Ht2 70 940na01 tit STF1 100 8449 FO 9e 0079 914 3194 100 $142 100 4484 89 19042 91 62134 SF $1354 70 108 4482 102 St42 008 79 51021 FO 98 0M51 114 85 108 4429 70 98 3a233 it4J444 %1 n444 400 1861 42 86153 87 436 07 98325 70 147 752F 102 S234 612 75 00001 70 96 08332 9143F54 908 Seit 70 9712F14 ite 043 10b M2s P F9618 78 tis 34 M te114 0F 22988 70 107 2374 102 5373 8te 79 este 70 to 13298 114 3527 tot 9086 PO 97 34344 ,tS 91f44 toe kt03 % en144 418F306 88 01357 08 19003 70 107 4802 102 851
$20 4B 40979 70 98 11583 194 5042 108 197 .0 DE F96FS 118 0107 105239, L etM1 SS E3256 90 43386 &$ 88221 70 108 2331 102 8684 SM 92 99009 70 94 0531S 1le G827 toe $203 70 95 94e77 114 MP 10e east 100 323 92 38585 92 MF16 85 11176 70 los F023 102 5613 428 98 6102 70 M 0Mte 414 F101 108 0471 70 90 822TF Ite 34L 105 5579 900 4042 8e 14194 9i 8254 87 11432 F0 108 5101 102 M71 432 79 81021 70 96 0R019 418 SA1F 908 4644 70 es 3 esse 1to 275F 908 8879 td61853 82 55313 BF S39te 0F SSF81 F0 107.7941 102 5515 EM F5 00001 70 M 10486 114 408 100 t12e F0 SF te132 ite 0698 108 44S1 Se 78484 FS 6379 t&16485 SF73427 70 10FJSE3 132SMS 540 F9 4898 FO 96 17849 118 JS25 108 teF 70 97 36F27 til 9442 108 3023 99 89984 $t EF53 GS 44702 08 19432 M 107 8006 102 STFS 444 8e deert 70 98 t*B22 918 8338 900 217 70 98 80813 116 8358 10e 311 to te04F 8e 13379 30 43745 85 49648 70 tot 253 102 $a14 M4 92 9 ewe 9 70 OG 07579 118 0017 100 SJet 70 t00 0098 1e4 2334 109 44FS 100 1309 92 30eG5 $21%1F2 es 1tSe2 70 106 7214 101 8794 852 84 4102 F0 98 05416 171 7379 108 8418 70 99 8J644 116 3873 10e GF91 900 4E27 09 15324 91 82958 8F 17237 70 toe S2EF 902 8714 ess 79 81021 70 98 10153 118 8084 108 483 70 94 40823 114J989 109 4074 100 3014 82.55449 SF 842M SF 4F164 70 107 a023 102 8712 000 FS 00001 70 94 121s 114 4314 109 1306 70 9F 1$334 114 0821 105 5042 98 000F1 F5 $3822 85 18759 8723799 70 107 276 102 58F6 084 F9 48 8 70 98 19704 119 4079 100 0044 70 97 3689e its 9081 t0O 3209 99 F152 Of 87553 et GC994 08 19794 70 107 S174 102 5409 554 GS 4A979 70 98 ne64 110 SSA4 10e 234 70 98 $2101 1to 0679 108 3291 96 90164 88 534M 90 44087 91 70000 70 10e 2eNG 102 8032 GF2 92 99999 70 94 08480 t to 7to 100 dos 70 100 0208 114 2541 100 Sc61 100 3543 92 38F49 92 06566 88 91943 70 100 '376 102 59F5 476 8e $t02 TO 98 07457 118 Fe14 tot 7014 FO 95 54424 114 NF4 tos 4952 100 4967 39 15432 91 &IFF2 0F 12579 70 108 SM4 102 592 880 F5 01021 70 9s 11961 114 E39 100 4908 70 98 41971 198 3185 109 7049 100.2154 E2 56844 SF M5s3 87 4F488 70 107 8t F4 102 5952 SH 75 erm 9 70 to 14009 til 4536 100 1454 70 97 14155 1141t12 10e 5206 99 81414 78 94034 tS 19007 07 34114 70 107J91 102 807 684 79 4461 F0 96 21401 9la 42e9 10e 9192 FO 97 3F804 11a 9447 tot 3387 99 F284 918FF17 86 47241 SS 20101 70 107 8325 102 Stee 942 Se 486 / 4 F9 DE tF53F 1 et $793 tot 2464 70 9e SJoe2 1to 0751 100 344S 100 000 44 $35F2 90 443'9 81 70314 70 105 2041 102 4215 694 92 95929 FO 95110e4 1 1 70 100 E102 414 100 &201 JHo9 82 18819 32 464st e412M t 70 t'te F514 102 154 4 F00 SS SH32 70 96 08229 1 t[9tJ4t*09 Ftd)
FO 99 45&46 JQ9 5det 91 5364 87 12088 70 108 559 102 00E3 4 704 79 st02 FO 94 t344s a Mot 1055T1s F0 Ss 42ee 0 03 d6 the) s2 S955eet 965?4 eF s4791 87 srfs2 70 t07 s30s 102 e12 Foo F100001 70 t t4 4 F21 10 158 F 70 9F 1F222 1t41274 168334 es s2se Fl eetM aS t9218 87 241st 70 107 3nas 102 s234 up Ft2 79 4P90 70 i t4 447 109 0 wi u, tiaMF1 m 2.317 70 97 3sF4 114 00D4 108 3502 99 F3852 410F844 98 47451 88 2318 F0 107 S449 102 434F Fie Oe Mert r0 0. 70 sea 42 iss osos m 35re 100 ese Msma E e5 70sF3 70 iO2:27 -3 F20 92 9asse 70 9e Msi 11a Ts4t too seis 70 %godd ito2sas 10e s329 100 g a (Ubitiga' 94s7eTP_) es 124s2 F0 102 430s
' F20 00s 93 70 Se 12444 Sta rs43 30e ss21 FO tc0 43es tie asst 109 5319 4 3773 ITM9111 82 44749 06.12s 70 tas SM 102 sios
Computed by: Date: CAROUNA POWER A UGilT COMPANY Calculation ID: Yaruan Cal 8/34/96 Checked by: Date: CALCULATION SHEET Pg.76 of130 Rev.0 TomDewre 9/12/96 File: 8220 Project No.: N/A ' Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis e TWns pe) StATL2 RATL3 M7t4 RW1 RW2 8Citthe U1 AIR U1 BRA bilMB USCA3 UICA4 USCPU U1C&A UttE R 9 M 92 $2 104 104 U1PtC U1RX FS 91 10P 106 94 94 to 104 4 94 sette 90 Dela2 SF #5247 104 19 90 123 104 6 9e FFE32 90 sheet 97 8F459 104 104 84 36786 94 83072 103 1779 103 esSS 96 F9432 88 e0R34 tot 6444 9 to 4719 93 04271 9 42952 123 12 Se 94023 to 9MS Os 05es2 104 led 95 41444 9612M4 98 F4J63 to 81471 98 30300 95 42M9 917 eSt$ 113 095 95 43832 to des 3s 123 14 99 605F to 92801 M 240't 104 104 M 05244 9540t44 96 06907 98 F7627 M 4EieF te 927 122 St33 114 9837 97 17713 to 49743 123 20 95 27450 to 6/964 to 42386 tot 104 et SFM2 96 850F7 27 78207 9e 23919 M 94519 to 45217 128 9149 tit 5043 98 79487 to 83778 123 M 90 44937 90SD49 9e 4u047 104 104 e7 301M 98 deits 102 3228 102 4900 97 3F985 9100stS 128 92ee 114 OEM 100 3F44 to 90E38 123 29 96 83e00 90 9401 90 79a32 104 104 e4 JusFF 98 se004 106 3820 106 4003 SF stM7 91 90044 131434a 119 444 tot 7642 91 19643 123 32 De 9aug 97220e 141 7953 103 8794 M 22044 9 46016 133 5647 120 F14 M2 89JO 9t JnM4 123 90 44783 to 90012 98 Se034 104 104 3e 400 0F98 90 9et F4 M tMtS 1C
- 104 49 30630 97 26183 99 90043 98 F78e3 98 SF956 $J 33814 1M 31M 121 7948 103 2982 91271F1 123
" 9 40 100 3104 to 9F3M - 90 3e191 104 ee S3199 97 40668 M D4422 97 t008 85 83F82 82.F254 138 6374 103 5212 9122H1 123 104 Se 84228 97 Flatt to GFF94 98 70357 SG 38043 931F994 1M 234$
44 23 40 104 M07 91 31021 123 900 541F 90 90s14 90 5799F 104 104 de 100 7975 90 9ee0F M FF92 104 104 9012a28 94 29608 103 2492 143 0t12 se ct31 93 4F301 1J0 5aF3 179 4 106 4012 91533F4 123 82 100 9us) 91 9102 99 97996 104 90 94479 M 74308 106 3124 105 9484 100 2002 94 13300 140 89s 1N 9903 108 3779 91 73069 123 104 913P123 M 91eF3 toe gst! 104 3912 100 0606 94 61007 142 048 12S Fee 108 6554 9t ett99 M 191.3M f 91 02302 100 1825 tot 104 123 to tot 4417 91 asset 900 3eF1 904 104 91 0174 98 M199 100 3M9 100JS14 100 test M 43213 143 0354 128 eMt 10F 1108 91 FMat 123 to 101 F274 91 0601 100 8028 104 104 91 se101 90 OMSO 9F FMSS 97 GJ6F2 101 3242 95 tenet 143 90s 128 9793 taf 3MF 91 64945 123 48 *01 9624 910043 100 F945 tri 104 91 80629 M Mess 90 43244 De 19038 101.7079 96 SSMS 144 7524 127 4427 10F 8062 91 F0764 123 72 .02 te64 91 Ofth8 10t 0044 104 104 9t SM26 90 8'soe6 103 9FM 103 4442 102 1404 M SF917 145 sah 127 9647 105 4943 919t149 123 F6 102 400 91 Ostte 101 2191 104 104 92 83r 2 100 2357 107 0001 106 4t1 102 8503 ta 38914 144 6449 128 5487 10e 143 92 ton 31 123 90 102 6354 91 10425 101 4142 104 104 93 00a2s 100 3e0F 106 3102 104 4344 102 9049 96 e4392 14F 3542 129 1458 tos 512 9218P92 123 94 102 esef 91 11926 101 8259 104 104 93 FF34 100 3843 101 017 100 F204 10317e9 9e D4a03 144 OMF 129 642 100 80e2 92 06e03 123 SG 103 0eP9 91 13453 101 6313 104 104 93 0F24 t 100 4031 9e33M2 98 07943 103 4472 97 225F2 tot 6333 130 010s 10e 6*19 91 MM2 123 92 183 3143 91 14961 102 8398 104 104 93 04414 100 4412 100 0073 e6 581$1 103 F796 07 85322 149 23F9 130 3321 110 0318 9212602 123 l ts 103 Stat 91 SM69 102 2412 104 104 93 2F944 101 1278 104 5294 103 8787 104 1619 97 90ese 149 9017 130 7143 190 604S 92 20369 123 100 E3 80304 101 4971 107 $396 tot 7979 tot 8319 M 2 mig 150 6844 131 1887 111 1446 52 3ma91 123 1037141 91 17993 102 449s 404 104 104 ft) 9233 91 19611 102 GS35 104 904 94 24555 101 0957 106 E209 105 2004 104 E222 98 492e9 181 201 131 8712 111 4145 92 43622 123 tes 104 1331 91 21304 102 6587 104 104 94 38544 tot S&$ 101600F 101 SF79 108 03F1 Se F0742 ISt F041 132 0844 1114tF3 92 324 F4 123 112 904 3354 91 23016 103 05A8 104 104 M itaat 101 54 Se ensa5 98 42534 10E.2491 98 HSS4 152 1265 132 3392 111 3907 31 21125 123 116 104 E303 9124 F15 103 254$ 104 104 M 106Ft 101 4084 100 4434 90 97EM 10$ 1206 90 21121 152 5F93 132 56a9 tit teet 922Sens 123
"~ C 104 F083 912HOS 103 4M2 104 104 94 3374 102 2201 104 987 104 2018 108 369 90 $1036 153 0985 132 ades 112 179 92 45F3 '23 134 104 8MS 912e12e 103 4422 904 104 94 82347 102 2a8 107 teos 107 toit tot tMt 98 FUS 153 6444 133 2614 112 M93 92 63792 123 128 106 0648 91 2983 103 4484 104 104 98 23095 902 84FF 10lL2311 105 5M3 108 4357 99 99422 164 1307 133 8722 112 8508 92 84204 123 l
132 105 249F 9131F96 los E198 104 104 M atS45 102 66F8 10190F9 101 3812 lab S999 100 184S 154 8083 133 9632 112 Fe9 82 54164 123 1M 1064332 913MFS 104 2304 104 104 96 0FDE9 102 $345 90 1907 98 T200F 106 7630 10& 3548 154 SIS 134 1944 112 F082 92 44704 123 140 906 88F9 913504 604 4194 104 104 to 00F89 102 7524 100 8341 100 2145 107 OUDs 100 Mu2 1to 155F 1M 3543 112 $338 92 40006 123 144 105 FS3 91 373s2 104 8061 101 104 M ?O272 193 1408 108 3231 104 4FF4 107.3025 100 M31 196.8719 1MSH4 193 3874 02 4829s 123 144 106 3029 91 39258 104 Fles tos 404 M eM t1 103 454 tot 301$ 10F 3s41 107 5463 101 0713 158 0174 134 9292 113 807S 32 escoe in 152 104 0501 9141201 104 9703 104 104 96 03355 103 Ste 108 Seet 10S F7t? 107 79t2 108.2453 154 404 %35 2823 t e3 9615 92 9004 123 194 1982J04 91 43201 196 1501 104 104 M 0eutS 103 4038 102 2338 101 6389 107 9122 10138FS tkt 9834 131MF9 1134F9 92 Fuse 173 140 1083H4 9141J01 105 32F5 104 104 96 82919 103 3564 99 50511 98 91134 108 0381 101 5447 154 9144 138 e97 113 F381 92 8418F 123 M4 106 $214 91 47142 105 502 104 104 tS F3FFS 103 5817 101.1381 100 4675 108 2374 191 7435 15F 1F3s 1318111 113 0224 92 70149 123 188 105 8633 91 490s 106 SP3s 104 104 96 9044 103 9183 106 0149 104 7111 10E 507 101 9643 w7 8 t00 135 9077 114 3349 32 89221 1 23 172 108 741F 915t025 106 at FF 104 104 30 3295 tot 2103 tot SF98 107 that tot F917 102 1904 157 8a03 138 2855 144 Fto1 930sF4 123 176 105 9196 91 13015 10E 0004 104 104 95 40 F44 104JSM 108 M11 SOS 904 108 8200 1022537 1$41984 135 8834 194 87F1 93 10254 123 190 107 9546 91 65044 tot 1749 104 toe 9t F1138 104 1180 102.9017 101 8572 100 0141 102 4104 158 4143 1M 592 194 #t4 92 tF752 123 1M te 449tt 404 0614 89 794 et 14325 tot 1989 102 MS 154 8708 1M 3229 144 8603 92 assee 123 107 t913 91570hi 10E3379 104 104 See 10F at44 91 58032 *08 49F3 104 104 98 308M 104 22M 901Jed idD e&3 1002F95 102.F134 13S FS71 135 9972 194 7074 92 9a545 123 192 907 4257 91 80049 108 064 904 104 98 4Fa?4 104 8F64 106 866 10t hJ 108 6212 102 8e87 15s 0442 1JF t442 1t&000 930a328 123 194 167 $342 91 &Jett 106 enR2 104 104 se at30s 104 45d0 108 e044 107.TF3B 108 7404 103 05ee 150 3562 137.3864 114 4441 $1256F5 123 200 teF Her 91 04817 tes ten 104 104 97 22M9 104 876e 107 OSFS 108 1817 10s 8883 1031772 15e GI79 137 86F2 114 5352 012eest 123 304 107 F90 91 asene 107 1908 104 104 97 232M 104 F25 102 F224 102.0414 108 9407 103.2734 15e F903 137 8642 115 2 78 93 15847 123 tot 197 MS 9t esF77 10F2608 104 104 94 95&3 104 Mit 90 9H00 9e 351M t100901 103 3083 150 See6 137 8205 118 3027 93 BIse2 1 23 212 M7 9ecs 9170083 M7 4038 904 404 M 80198 104 8013 101.584 100 8361 110 157% 10313JS SM034s 137 9707 41533F3 430Fest 123 214 108 0&10 91 F1532 10F MSF 104 104 M 86001 105 1340 10&OS25 90&cF44 1103M4 103 8006 180 2464 iM oeF7 11S ee64 9325490 123 320 106 1747 91743et 107 8064 104 104 97 33841 10E3047 10s tes4 107 92U 190 5833 103 0 75 SMS30s 138 3079 194 02e4 93424N 123 2M 10E2F2 91.Ft244 197 8.33 tot 104 97 8MFS 105 4081 10FJ641 106 330F 1988e89 103 87$1 140 7490 138 9603 114 0007 93 4Sth 123 2Je 1983F56 91 F8144 107 98e3 104 104 97 82818 10523e0 102 9043 102 1953 11&T334 104 8D49 140 5713 1M F091 115 9029 93 3J014 123 232 10E4FG 91 80026 908 083 104 104 97 2rrt3 106 1414 100 1629 90 $1219 1to FF3D 104 1047 140 83M 138 F565 9 tiF2ee S7 19556 123 234 10E 3441 91 31837 108 2230 104 104 87 20008 19525e7 10176J0 1001317 190 9003 - 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Computed by: Date: CAROUNA POWER 6 LIGHT COMPANY Ccicul:tmn ID:
), Cal MW OVA . 0104 Checked by: Date: CALCULATION SIEI' Pg77 of130 Ret 0 Tom Devore 9/12/96 File: 8220 Project No.: N/A '
Project
Title:
N/A Calculation
Title:
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1 i j Computed by: Date: CAROUNA l'OWER & LIGIIT COMPANY Calculation ID; i OVA 4 0104 j Yuuan Cai M4/96 l Checked by: = Date: CALCULAT10N SHEET Pg. 78 oW Ret 0 Tom Devort 9/12/96 File A220 Project No.: N/A Project
Title:
N/A l Calculation
Title:
Control Building Transient Temperature Analysis ; Tens Pet UtSFw Ut F01 Ut ttJ Ut Ft3 UFAM UpW4A LFJtific U7 Cat UFCAti up0PV UFCLA urttet UFrec U38tt UFSFw UFt9s 9 es GF 104 the to tee one M M to 500 r0 00 to et F0 4 98 0139 97 104 (M 00ttMP 99t 3448 103 81F M ot0M es F9tet et 90 91470 82 '11 90 $l3M 91 00 Ms03 78 9 99t t0M OF SM 904 M et res es tota 3 te 0 Wet 919FF99 M grtir to 9e tteel 64 pec83 08 63130 91 06 F19ee 70 ft 193 Flee SP 104 th M MF97 93 57F3 M MPS3 93 9 an 87 9F930 M tJ 9sM4 De M P36 M 47eet 99 33 33219 F0 te t#E SSF3 SP 904 SM M g2 Fee M endes te s7tPS 93 0e3M OF 2 tope te 93 FMet 6:0724 47 )4793 99 se t6492 78 30 10F Jtt 0F 90s the te 4270 99 6AMG 900SMS D3 SM43 47 3esF3 H 98 F9110 DF 3M f$ 06 40744 99 M tenet 70 M 90B MP3 47 10e tM M enul 1916tet tol ere 93MNF Sp esF79 M se 0Mit M 3'tes 90 0770s et 90 0 tree FS M tus Dore Of tot 9M es emur to titos 902 pe6F $3 RetM 0F teset te et 30e&3 M DFM4 to 4 tuF 91 to P90et F6
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104 112 FMP SF 100 104 05 Muf t M SE344 97 41927 93 FF9ee te deces M es 63M St 49917 et 64263 91 91 Sete 78 tOS 1.7 4493 SF 104 tes et es30s M e t$tt 96 Ds438 91 FaaJe pe Desis te M as223 96 pene es toste et 90 Matt 70 tif til 8087 SF 904 9M te FFM3 $4 M4M 96 Mist 93 FF23 Se F1639 W M 32832 M $4374 0F 46789 99 to Blott 74 1tt 123 082 67 900 104 to DEPS 90 each2 10D 3D19 %3 870s as ke? na to Mpe M Dhe<4 te ben 99 91 479* 70 , 130 IN BDie SF 404 104 80 3110 tot POM 163 3364 W3 94443 M 97064 ee 900 6984 M eteit 91 0730 94 9A F8edt 70 174 4M 9947 SF 104 104 to teGe1 too 1 Fee tot DMS 93 thees et pense to 80 F3025 90 07490 91 306 2 91 62 NF91 79 til 175 Stat 87 the los De MF91 M M3:4 97 88618 93 D3026 000 ease 68 96 82147 98 643FF es $ttu $t 32 10144 F5 137 1M 3234 $7 104 les 80 00183 93 SMee M 17114 93 88049 to tete 6 68 M Mlle 98 37973 M F1376 91 910h3ee Fe tle til 0053 Si toe tes et a 46 to 43464 M 3eesF 93 30153 90 #E749 GS M 5e97 9e 618J4 47 0it 91 90 etM 70 940 t M 9tCS Of tes 100 90 14444 98 79F10 100 4H3 M en223 00 MtS3 to 94 4 tet 98 9104 00 44037 91 91 7975 76 444 13e 768 0F 104 SM to 32216 400 80e5 103 93e6 M 08138 90 etest Se 100 M02 97 asete 9111ee9 91 93 03379 78 tot tN uts SF toe toe 90 79063 900 7e03 102 0003 M OBJef 90 4SM9 M 99 9F791 07 46800 940eet 91 63 3Mus 70 tu IN Met 57 104 9M to DFt&3 96 M3F) 97 DF132 $4 6309 90 $1799 M 0F $1313 07 3e467 et trtM 91 82 4423 70 its 177 De48 OF IM 100 to $1090 $3 $2FG4 M 1939 M 00274 90 MFee M M 87494 9F 70M 98 DEJet 91 9139F42 78 100 tJF 307 0F 804 104 90 003ee M Wess 98 448F3 94 644tf 90 0eJet 64 98 01329 47 8131 5F F9Pte 91 $t JJet3 70 SM 177 Gene SF ties 1M to 3090s 38 06744 9004the M S4006 90 FSFt2 M 98 SMt3 97 6F084 to 31002 91 92 tirse 75
,48 177 6443 0F 904 tM 00 4M22 19t 4006 1034M8 M 22946 00 0'0FF 98 9000MG M ort 3 9t SMne $1 03 27900 F0 173 tM itM OF 904 toe 90 40630 10n 37tp 102 9F t0 M T3tM 90 9ek32 to 900 1960 98 3e089 91 49111 91 53 640e4 FG t70 129 MIF 0F *4 104 to itsM 96 08798 98 04F14 M t8632 90 00M9 to 97 21163 98 DAMS 99 13446 91 92 F4674 F0 100 1M 6130 0F 904 104 to 03F94 93 94496 96 FF s' . 44e44 to MM4 De M onset WF 00006 M teMF $1 81 teF31 70 tM *es teet OF 104 000 to titFt M 8 hee 95 61439 M tten 91 03994 to 98 00138 97 94444 67 0011t 91 91 &J073 70 tot M 9029 GF 004 904 00 37744 90 61514 ter teeJ M 280FS 9t t00rn to 96 D06t.8 Of 7052 00 4 F07 91 82 41418 79 132 129 9414 SF 904 104 91. a&SF tot 9 et 103 6238 M 3FWF 91 Mess M tot 3440 ta tenir 9100es $1 93 eMoa Ps SOS 125 *F33 SF 104 100 90 82teF 100 44G 902 4372 De le te 91 99113 te 900 3eep M eneet 91 79014 91 93 0238 F 78 300 170 0842 OF 10e los 90 30374 90 0083 98 t 9401 M 32F9F 917t FF4 08 97 34Ms 90 eesti 98 291F9 91 63 913pt 78 304 1M 0e41 87 900 100 N t9tr$ 93 teest M 1372S M 3e028 91 35129 08 DEIMS2 96 3eM4 0F t1123 91 91 08782 79 3(e tM ette 87 404 10e 90 23453 N F9 pes 98 8F971 M &sOta $13 41s et M ieJ44 ts da tM 30 91712 91 9t FF4 F4 70 ft3 1to 0013 0F 104 400 004AM2 90 tesse 100 9648 M 43000 91 Jesse to 98 31126 94 76318 to 00e03 91 93 0e805 70 P14 190 3049 0F 104 tot 90 0ataa 102 9196 103 6741 M eneet 9t une es tot asF 9e 13449 62 00140 91 63 Fsett 79 $30 tJ0 4013 0F 908 tes 90 &asF9 900 6tts 102tM6 M StsJe et esFee es teo uCF 9e 7Mos 9t tesse 91 M OB tM F9 FM 130 9814 0F 904 104 90 49999 9813t08 98 tF306 M 46327 914FfM to 97 82383 90 944M M ac0FT 91 93 24337 70 22e 130 MFS OF 904 904 80 2542 93 7t031 95 38606 94 43413 91 49704 08 LS 3F43F 98 00e53 SF Jose 3 91 9216Me FS 332 130 F453 87 104 GM 9013H4 M F9869 986240 M 46230 $18064 04 98 fee 84 98 88237 tt 11820 91 91 De5J6 70 3 38 430 BM2 0F 104 1M 90 69153 90 22261 100 Fit 3 M tecae 91 ut19 to to MFee se teses to F1F42 91 02 Mrr$ F9 340 131 977 47 See 104 90 7tFt1 102 0BJ1 1918 ts0 64 83FTP 91 FSF41 98 4015M1 98 00177 92 47t03 $t M aeste Ft M4 1It 3441 87 10e
- 104 D0 F2644 900 9025 102 NF3 M M569 91 SFSSF 68 900 A642 98 8192 92 00184 91 De 3s79 76 He 43136M $7 SM 104 90 00eF4 96 94M 98 23447 M Se8F7 Ot t&BB2 to SF HMF 98 4012 90 41303 94 93 44282 79 3M 131449F SF 104 500 90 3& bha DJ 79k30 M 2t38 M MFS2 01 70041 te M eerte 90 tM00 GP M3h3 91 92 3/147 78 314 131 4333 87 104 104 to 43U9 M RJ0tt 98 F3DSF to 84431 91 74005 44 M 42029 90 tent? 8819sFF Dt 92 teem 70 300 131 M4J 97 100 104 to Ge%ue 90 3F297 000 FH4 M teOS $1814F1 DS 98 4 JUS 90 521F $0 01229 91 63 08879 ft 2e4 131 79 % 67 404 104 90 0003 103 1430 1934FM M PREN 9t MF6 68 tot SEE3 M auest $2 31414 91 M 18F33 75 3aa 131 M to $7 tot 104 90 Sitet 10D 6455 tot 3000 M FStM 91 01326 M $3717 100 F473 DG titet $10ent9 94 M 44FF3 F$
3F3 132 0434 SF 1M 104 90 $eset 94 22740 98 27478 M F0327 0' 98136 04 91474 9' F49F 90 00MS 86 &3use 01 93 01706 70 778 132 40M SF 104 108 90 44Mt $3 des 95 M414 M 08044 9t SF1M G4 M beS39 90 43FF t G P J5404 $9 92 8402S 78 ftp t N 14M OF 104 104 to LFt47 N an22 M FF433 M eM05 91 91990 to to S1973 99 asses atF7066 91 92 M083 78 2ee t U 2ec) 4F 104 100 90 7663F 98 3083F 100 BM2 M FMFS $19FF37 44 98 St402 et Fteet to 89t13 91 93 3445 F9 2nt t32 3e8 SF tee 404 to M 3&1 19213FF 103 Ft6S M SE369 92 90761 90 101 F299 100 DE2 92 44004 91 94 34209 F6 782 132 8156 SF 104 104 90 00997 10D estt 102 3eit M 0 rte 92 919ee Ot tuts th ee 900 9423 921F99 91 M 60bte 79 338 132 9997 SF 10e 104 90 47071 ts 7tjes te 3147 De taaet $2 01087 De IMPS 97 43F37 90 91522 Os 604M 91 91 FF4N F9 300 132 M t3 SF 106 104 90 67185 $3 3F458 96 38444 94 Ft1 829924 64 M 66519 96 9 F0F $7 4213 91 92 98797 FS 30s t u te47 SF 104 104 90 6etM N 0ette MetF40 M FM41 32 0Ss3 68 ta st*342 9e tes3 M 13000 91 92 45399 70 Joe 132 Fee $P 1M toe to 64449 to 13ela 400 Os23 M teFFt $21tese to 99 te21 100 sos 4 to MF9 91 93 3 eses 70 312 til 4FFF $F 104 104 9191FG 102 1656 101 Fat M 95094 92 24M3 04 99410 101 0084 100 IF01 92 M4s0 91 M 4FFM 70 Sie 132 9e99 SF 104 104 80 9F207 100 Flat 102 3799 M 90tS4 82 19022 te 282F1 100 638 900 3e5 32 74F9s 94 M P43n6 76 310 133 068e 97 108 1M 90 '4eH 98 79417 98 34818 M 6LtF3 9213F79 54 FF730 97 31171 900 tM9 09 05119 91 $191021 Ft 1F4 133 0es 37 90s 404 90 tete $3 40444 M 4 test M etJFS 9213e03 68 02713 M F7?t6 99 813el SP4FMS 91 82 0179 ?$ 3Je 133 9199 8F 104 104 90 teH2 M tM18 M MMA 94 08384 821FM! se 98 67423 99 80170 38 3e014 91 92 St F17 78
&U t 331844 SF toe 104 to $105F 99 30004 400 0914 M 9F90F 92 P3tt 68 08 Fle43 100 test 91993M 91 93 90608 F0 13s t13 243 0F tus 100 91 OsWO 902 test 103 FFF3 90 $eSS3 02 36F53 90 08F05 tot 8726 100 443 t2 63329 91 M beest F0 Me 133 3827 $7 104 904 9103sre sto F354 902 4051 M M5&3 82 Je ett te 383Ft tot epis 100 8331 973pt 91 M esil 4 FO ke 133 H00 0F 90s 108 90 813De $$ 31938 te FPtet M 9stt2 91.H584 05 38792 9F 9F384 900 3006 89 00'22 91 M 927te 70 Me 183 45F9 67 10e 904 30 M77 63 42944 e6 44 FSF M 31337 92 342N eg net 00 95 798s4 tectNF &< Steel 91 92 03314 78 M2 113 e F13 $F 904 604 90 F3&38 De 90079 98 80JF M 98264 32 7 " 36 M ta F33ss 400 ties te 42215 94 92 72401 FG Mt 133 $354 SF 108 tee to 90049 90 SerM4 900 tite M DEM4 92 33 Des to N 81444 109 Stat 91 08121 91 93 0008F F0 300 133 8983 SF 1488 408 - 91 9407 402 Jus 103 8012 M 12191 92 4 tes et SF00F 191 8291 000 6804 32 704M 99 De F0014 PS
Comhuted by:Date: CAROUNA PO%TRO L10HT COMPANY Calculation ID: Yuuan Cai t/24/96 # Cheded by: Date: CALCULAT10N SilEET Pg- 77 DIM Rm0 Torn Devote 9/R/96 File: 8220 i Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis te m uisF. unti vive 3 utfes um um wMM u2ut vlua uno
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Title:
N/A j j Calculation
Title:
Control Building Transient Temperature Analysis ; } 1 O Waksae #88 ef
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Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Wahs e egg et bene af #ms 4 mima 4 Cftfue bCtetad
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Checked by: Date: CALCULAT10N SitEET Ps82 of D0 Ret 0 Tom Devore 9/12/96 File: 8:?0 l'roject No.: N/A ' Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Relativo Humidity and Average Temperature of Rooms including AOR. SCT, CTL & EERs 0.55 ,120 l 0.5 -M 3 - 100 g ! I a Relative Humidity 8 i j 0.45 - o Average Temp
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Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis
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Title:
N/A Calculation Tide: Control Building Traralent Temperature Analysis
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Computed by: Date: CAROUNA PO%T.R O UOllT COMPANY Cdeulation ID; Ywuan Cal t/24/96 Checked by: Ste: CALCULA110N SHEET Pg. 86 of D0 Rev.0 Tom Devore 9/12/96 File: 8220
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Project No.: N/A Project
Title:
N/A Calculation
Title:
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Computed by: Date: CAROLINA l'O%TP4 LIGifT COMPANY Calculation ID: Yaruan Cai 8/2 W 6
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Checked by: Date: CALCULAT10N SIIEET Ps16 of130 Ret 0 Tom Devore 9/12/96 File: 8220 Project No.: N/A e. Project
Title:
N/A t Calculation
Title:
Control fluilding Tramient Temperature Analysis ; 8e 5 ese
.tet e 9 to M t.u.w.mni,es t t .3 *4 3i e es.scit e.
9e to -..M.nM*-+.em
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Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cal 8/24/96
^'
Checked by: Date: CALCULATION SilEET pg. 87 of130 Rev.O Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
ControlIlullding Transient Temperature Analysis 5.3 Results for Project CBCASE3 5.3.1 Transient Temperature Profiles The data developed in Section 4 was entered into RT8 computer program and run for 720 hours (30 days) design event duration. A time increment of 0.005 hour was selected to obtain stable and convergent results. Simulation parameters and other input data are provided in the Attachment G. A set of graphical plots of the resulting transient temperature profiles in each of calculation room / area in the Control 11uilding are provided in this section along ; with a tabulation of the resulting temperature at each 4 hour increment for the 720 hour (30 day) LOCA without LOOP event duration. The maximum temperature for each calculation room / area in the Control Building is summarized in the Table 5.3 below. The maximum temperature @ 23' elevation occurs @ hr 704 in Ul Cable Spreading Room in which fan is lost and is 141.09 'F, The Unit 2 Cable Spreading Room maximum temperature is 100.59 'F @ hr 720. The maximum temperature @ 49' elevation occurs @ hr 704 in Ul Computer Room in which A/C is lost and is 163.81 'F. The maximum temperatures in Main Control Room, Ul Electrical Equipment Room, and U2 Electrical Equipment Room are 102.91
'F,116.56 'F, and 93.74 'F and occur @ hr 700,720, and 720, reapectively.
The U1 Cable Spreading Room temperature exceeds 123 'F at hour 44 of the event. The plant mitigation including restoring CSR llVAC or alternative ventilation measures such as opening doors must be taken within this time frame. (Please note: this calculation is conservative. Therefore, if the action is taken to restore the CSR l{VAC prior to this time frame, it is not expected that CSR temperature will exceed 123 'F) 5.3.2 Transient Relatisc 11umidity An average relative humidity is selected to represent uniform relative humidity in Auxiliary Operator Room, Security Room, Central Control Room, U1 Electrical
1 Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cal 8/24/96 , 0% M Checked by: Date: cal.CUI.ATION S!!EET Pg.88 or130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A -, Calculation
Title:
Control lluilding Transient Temperature Analysis Equipment Room, and Ul Electrical Equipment Room. The relative humidity profile is provided in the chart along with printout data. The average relative humidity decreases fro.n 50% @ time = 0 to 39.3% at the end of the ever t. Table 5.3 NO. ROOMID ROOM DESCRil' TION MAX hl AX TEMI' TEMI' OCCUR @ ( 'F ) . IIR I U2CA1 U2 catile nuess way e el 23 94 77 720 2 U2CA2 U2 cable access way @ el 49' 91.25 720 3 U2CSA U2 cable spreading ares 100 59 720 4 U2SIW South stastwey wen 93 09 700 5 U2PIC U2 pipe chase 91.33 720 6 UIP6C U1 pipe chase 93 50 720 7 U2bkB U2 Dattery Rm 2B 103 63 4 5 U1DRB Ut Battery Rm to 105.30 720 9 U2 BRA U2 Dettery Rm 2A 101.50 720 30 U1DRA U1 Dattery Rm 1A 109 41 720 II UICSA U1 Cable spreading area 141N9 704 12 UICA3 U1 Catdo access way @ el 23' 114.85 720 13 UICA4 U1 Cable access way @ el 49- 107.74 720 14 U1STW North stairwell 133.77 704 15 U2EER U2 electrical equipment rm 93.74 720 16 U2 CPU U2 computer rm 68 720 17 MENRM MENS ROOM 94 15 700 18 SCTRM Secunty room 92 94 700 19 LDYRM Lady's room 106 62 704 20 NICH Kitchen 114 42 704 21 UTLRM U1&2 control room 102.91 700 22 U1LER U1 electncal equipment rm 116.56 720 23 AORRM Ut & 2 auxiliary operator ready rm 117.99 700 24 UICPU U1 computer rm 16381 704 25 ELVIS Elevator shaft 96.75 720 26 MERM1 Mecharucal room i 92 17 720 27 MERM2 Mechannal room 2. 9367 720 28 MLRM3 Mechanical room 3 93.54 4 29 AIRLK Air Lock @ el 49'0" 91.65 712 32 U2 AIR Dead att space @ d.18 90 58 720 33 U1 AIR Dead air space @ d. 6 10835 720 34 PLEMN 1(VAC Mixing Punit 94 68 720
l Computed by: Date: CAROL,INA POWER & LlGilT COMPANY Calculation ID: Yaruan Cal 8/24/96
^~ '
Checked by: Date: CA1,CULATION Si1EET Pg.89 of130 Rev.O Tom Devote 9/12/96 File: 8220 Project No.; N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis llNP CONTROL llUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITilOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE3 120 115- ---+- - --
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+ Cn.RM V UIEER c U2EER
Computed by: Date: CAROLINA POWER & LlGilTCOMPANY Calculation ID: Yaruan Cal 8/24/96 OVA 0104 Checked by: Date: CALCULATION SilEET Pg.90 of D0 Rev.0
~
Tom Devote 9/12/96 File: 8220' Project No.: N/A Project
Title:
N/A
~
Calculation
Title:
Control Building Transient Temperature Analysis HNP CONTROL HUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITilOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE3 150 i
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Title:
N/A Calculation
Title:
Control Building Transient Ternperature Analysis llNP CONTROL llUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITilOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE3 120-i i i s 110 - - --- - - - - - - - - - -- -- n . .
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Title:
N/A Calculation
Title:
Control Ilullding Transient Temperature Analysis llNP CONTROL IlUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITilOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE3 120 , l -
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Title:
N/A Calculation
Title:
Control Iluilding Transient Temperature Analysis llNP CONTROL llUILDING TRANSIENT TEMPEllATUllE PROFILES FOR LOCA WITIIOUT LOOP ^ Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE3 170-160- -t we -- Y
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Cornputed by: Date: CAROLINA POWER & LIGilT COMI'ANY Calculation ID: Yaruan Cal 8/24/96 A OW Checked by: Date: CALCULATION SilEET Pg.94 of130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A l Calculation
Title:
Control Duilding Transient Temperature Analysis , j llNP CONTROL IlUILDING TRANSIENT TEMPEltATURE PROFILES FOR LOCA WITilOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CDCASE3 835-
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Computed by: Date: CAROLINA POWER A LIOllT COMi'ANY Calculation ID: Yaruim Cal 8/24/96
^'#
Checked by: Date: CALCULATION SilEET Pg.95 of130 Rev.0 i Tom Depte 9/12/96 File: 8220 , Project No.: N/A l I Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis f IINP CONTROL llUILDING TRANSIENT TEMPERATURE PROFILES FOR LOCA WITIIOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CDCASE3 0- ~
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Title:
N/A Calculation
Title:
ControlIluilding Transient Temperature Aralysis is,e .,.,se v e i 80 M ewivM M t.1917 M c.= es. m weim$s of vi amase coum thson leaveresses gsegree f) Tene tt) Athept S Afttle Mfti k Asevthl eftftf itf CW ttVtB stricot strFFed u seief u ltnet W FlatF u senes PIPFL ogthes piaft e
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' See 79 81071 79 90 0Fe6 194FM3 1019FM F0 M 6eges t13 430F tot kW $3 30717 N 04MS 38 91JF5 N 6es52 70 92 3es7 400 $F13 MS 74emot 79 91 RMit ttt 7674 191 8337 79 9340819 113 3995 106 MF1 92 P1871 F4 65727 M 3t797 B4 3004 70 91 64773 too casF SU Fl eese 79 99 97831 S te F791 191 46 4 70 93 SFees 918 9794 tot ees 92 0147 Ot tos22 N FF9tt M t FOM 70 92 00364 100 M F4 See 80 eesF9 70 9t ts teF 914 F779 191 Fose 70 te 91MF tillion 10t eone 93 9t F19 $$ 34003 Se 41917 M 6492 70 93 )eems 100 6787 380 ti teest 79 914F351 114 8F$3 103 0015 79 te 3sset 113 M13 106 F000 93 6eese 92 1317 9t &2976 M SF064 70 M t&3M 1000H6
i 1 l Computed by: Date: CAROLINA POWER & L10HT COMPANY Colculation ID: Yaruen Cal 8/24/96 Checked by: Date: CALCULNn0N SLEET Ps Fl of 130 Rev.0 Tom Devore 9/12/96 File: 8220, Project No.: N/A Project
Title:
N/A I Calculation
Title:
Control Duildin , Trarnient Temperature Aralysis tensiesswe AmeFeis Deceam 160 M 9t's est 41919 ff M Cais em (OCA WF4iLP4 Otr$ tlF i'1 AC&P AN.($0AbtI hwa iempemwee Raegree $)
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Computed by: Date: CAROLINA PWER & LIGiriCOMPANY Calcul: tion ID; Yaraan Cal 8/24 % Checked by: Date: CALCULATION 5f FEET Pg. 9 8 of D0 Rev.0 Tom Devore 9/12/96 File: 8220
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Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Duilding Transient Temperature Analysis Tese pt) ItAtti 8tAFil AAt's IFW1 few! 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$a0 100 949 99 36F94 108 SM4 tM 900 90 7906F 104 SFF 102PM4 191 Stet 100 M14 102 91M 184 SF33 1$$ MM 113 4eWW 92 $F742 123 20e 00F 9e01 94 asSJS tw 0049 SN ene to 43tM tot 4914 90 474e4 te Diets 10e F123 103 9108 SW $3D6 138 4200 t13 64M 92 64608 123 tot 107 9682 94 3eMP 907 teor 1M 1M 90 2a443 000 MM 491 OM 100 See toe 4664 103 to let eaM 138 4F27 113 8037 92 6Pt47 423 til 16F 3D47 9t tet26 10F.3447 SW SM 90 00614 104 0m03 106 6444 104 65e6 910 071 103 3tet 164000 tM 8798 113 0e23 93 76ae4 123 214 10F Msg 91 40100 tot 42F9 104 908 91 12044 108 F3F4 900 MM 107 6454 110 7777 103 4&27 Ile 881 138 7902 113 9 AG $2 32104 173 R20 1074U8 914 t 214 10P M47 104 tot 91 24499 104 2474 tot FF0F 106 9tM 910 3s13 103 6444 680 0F42 437 006F 1940M3 92 94448 123 RJ4 107 6221 91423t f 197 8857 Me 104 99 91421 106 0F96 102 3898 191 7418 110 4t 76 403 0 eN 189 7297 137 1402 194 013F 92 00e4s 123 220 10F 0t81 914Mt3 90F 4326 tM 904 90 F4 ens tos se03 to tis +4 0e 0E232 ft04M4 164 7006 194 Me5 13F)197 l'8 9834 02 6FMS 123 2M 107 Ft12 9144tFS 107 e63F SM 904 to MmJP 906 1713 tot ISd3 100 62Pt 1to SF09 103 0 03 158eMe 137 73be t 64 00t4 62 teMS 123 238 107 793 91464E2 tot Oste 104 1M to Psee 106 44le 106FMS 404 FSFS 114 F762 103 96&2 1M tor t 137 319 114 t&30 $2 SFU4 123 240 ISF 464 914 esse tot 2173 104 toe 91 SM16 106 seu tas toss 10F Gert t et thet 100 0014 13e Ft1 13F 49Ft t14 ete 93 M889 123 244 1979U9 914FF4 108 3408 104 10e 99 94WJ 906 05F 108 9142 1040Mt 111 0634 104 460F tM 8L12 13F M18 114 4701 93 08013 423 244 108 00h8 914M31 108 4422 184 tM 91383be 106 00P$ 102 SM 191 M13 lit 0RS2 194 21F2 180 8F81 137 8328 994 449 92 91464 173
[ 2h2 100 0914 94 49sS6 tus 6422 SM 10e 94 9t&M 106 3985 98 FF427 90 SteSt fit 0868 104 Jett 900 44F5 137 D8F6 114 3B45 $2 FF9eI til 2S4 1081F 99 91 6108 108 70D1 904 See 90 8 tS to 106 6ks 10138F5 100 6401 tit te21 19e 4007 160 2644 13F eets tie does 82 80864 123 MO 108 240s 91 82149 tul ette Ice 4 04 9t Ma02 106 6900 tot este 104 9953 tit 3742 108 5179 180 3F94 187 8312 144 15&3 92 9&MF 123 , 264 tes 2904 91 6314 108 0203 iM 10e 91 tems 1M 9744 108 8tte 107 FF21 lti MM 100 $1P 900 12?? 138 0802 114 79F2 83 444 173 i paa 108 3h64 91 64142 100 $10J $04 900 91 FFees t's 082t 167 433 10813h4 ttt 4202 404 tapt too 082 ISS 7741 1le Het la 14198 123 l 2F2 int 4JUF 91 M2JP 900 test 404 10e 91 82171 10$GPM 902 MO3 101 tele 1114t47 1M F274 900 F63 138 30tS 144 DM3 93 91507 1 23 2 76 108 4918 91 $$321 108 2hN 90s 104 91 23641 108 Fit $ 90 98873 96 20000 191 $20F 1M FMP 180 9309 tM 40F2 114 7302 92 4F094 423 290 tot 900s 91 SF3BS 10b 3EM 104 104 91010F 106 4767 101 east 100 FM4 911 F13 toe GeF4 1e0 8933 tM 3019 114 F437 82 89930 123 l 264 5a8 5193 91644 e8 109 4800 104 tM 913640F 108 1764 106 0sSt SM 98%9 111 0422 104 9E92 1M 0e87 1M 438S 1944D8 $3 9Ft22 123 ( 200 tM 4874 910e402 105 BSFS IM 904 91 F9825 1064M5 108 6206 197 4595 112 83F9 906 074 189 1212 1M 5419 198 1906 93 2352 123 292 10B F141 91 80364 605 MF 1M SOG 91 DP105 106 3827 107 1316 t0a7224 112 9072 104 42M 14123 1M FSO2 116 1427 63 Pat 12 123 Pet 100 PtM 91 014 8 100 7913 toe 104 91994N 908 tMF 102 Fee 8 192 0443 192 0e5 1081H0 1st 3tti 138 95t2 1t$ 1006 93 40193 121 300 114 4298 tt 4 MSG 105 0873 10e 90s 91 41443 108 0167 90 90011 99 M801 112 0F90 106 22M t$13BS6 130 994 115 9112 92 M2M 123 We ifm este 916 Met 100 0$P6 104 108 d120096 10s tF28 101 0467 19h 014 112 t583 td6 3MS I41 4116 118 8261 196 8198 02 08311 1F3 32 108 Blas 91 $4408 119 9h06 tM 704 91 emet tot 44h3 105 OEJS 10511899 112 3647 tot M2P tet ette 1M B*aBF 119 1903 911SFFF 123 212 tes 9FFF 91 464 199 9417 104 104 99 91901 908 6413 100 0W 1M 9129 192 4597 105 4412 ttt 00H 138 9496 119 3503 93 31482 123 314 100 9157 91 0113 910 7319 600 GM 92 9332F 108 6SF9 19721M tM 2945 112 9127 1065(27 101.F919 139 148 tit MM 93 32944 123 E70 105 0819 9t eF3D1 190 3181 SM 104 919F215 ttE 4523 102 0361 102 1171 112 464 105 6274 196 7496 139 2342 196 3433 93 tFOLO 123 pt 900 9948 9t M101 190 4085 100 10e 915F739 908 2142 100 0877 M etest it2 4EM 105 6a92 191 0029 1M 2MF 11$ 2506 93 93F14 123 SJG 100 1481 91982FF 194 4921 tM 900 9135FM 198 4Jte 101 0814 900 8a08 112&M2 196 0817 tettM2 t M 1968 til Net 93 06418 til 132 100 3DFS 9179t99 tit lFSa toe led $167123 tot Filt 108 1249 906121F tit u te 108 F384 tet tem 136.20er 115 3714 93 22919 123 31s tus 230 99 71078 S te M P6 104 10e 92 02295 10s tJF2 10e 9733 1979W2 192 8198 1J5 0000 181 9021 tM 3270 til 429F 33 38444 123 Me 900 2598 91 79944 110 F379 104 104 92 29%F2 10A MM 10F M9 7 904 3h6 112 0431 106 6138 142 0t29 1394737 194 0ss 03 3We%4 tF3 M4 900381 91 72958 f t9 01F2 fM tM 92 946M 906 042 102 9910 102 1768 192 8246 105 8 % 4 142 938% 135 th12 til M48 9324472 123 He 1083MS 9t F37sf 414 99%4 904 904 91 70944 108 1790 900 1273 99 474M 112 F95 105 9042 142 9943 130 6343 196 4490 93 102%6 123 3%* 105 3ee 91 74714 110 9FM 904 tes 99 45279 100 Mt 10t F243 106 8164 192 857 tel weg 182 1790 130 44F3 118 43P% 93 12036 123 3As 900 4HF $1796F4 19104 F9 104 000 91 0827 106tA2 905 1646 806 1793 192 9uGF 108 93Bt 182 7320 1M t019 tillMe 03 294SF 923 300 109 4444 917630F 111 1713 iM 10e 92 19102 10F t3&J 109 131 10$ MSF 193 1271 195 080F 182 2950 139 0108 118 FOst 93 4457 1F3
Computed by: Date: CAROUNA POWER & LIGHT COMPANY Calculation ID: Yaruan Cal 8/24/96 OVA.0104 Checked by: Date: CALCULATION SLEET Ps.M of130 key. O Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis tene p91 siafti natta sand mwt aw3 scises utAm viou utens vicA3 uicas ulcru utesa uts t a uime viu 3M 908 4031 91 FF1H 199 9919 9M 964 92 3HM 10F eest 907 83ee 906 4064 913 ttM 908 9147 142 3est $3e 74a3 til n37 334us tys Set tie $tM 9t F0Mt $t 3M9 000 10e $2 7tF78 100 $F9e 102 MM 902 f2e6 193 t984 1981M3 182 4410 130 0t90 f tB FIM 93 30782 173 3F3 000BMG 91 F991F ti1 anu IM 104 99 $1007 tot FIPS 900 t763 90 M779 913 9F83 105 tFM 962 4120 138 Ft6 9 el Diel 93 steh4 tF3 370 tot teet 91 79790 411 4040 SM 104 91 te F9e 90s tus 191 Fre$ 100 MM tla 1833 108 F3M 143 etM 138 F383 194 Sep 93 9F613 til 300 199 42M 919MGS 419 4F24 900 10e 91 F9486 10F lceG 908 tM F 906 2H3 tilleet 108 7tM 982 00F9 130 F449 19$ F03F 93 )4&ol 123
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Computed by: Date: CAROUNA POWTR o UGliT COMPANY Calculation ID. Yaruan Cal F24/96 Checked by: . Date: CALCULATION SilEET Pg.100 of00 Ret 0 i Tom Devote 9/12/96 l'ile: 8220 i l Project No.: N/A Project
Title:
N/A Calculation
Title:
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300 H0 4688 SF 904 104 90 M373 M 3een M)4437 M etes 90 3tlM M M 974 M ama26 8F 20007 91 Og letM 79 2M 130 9794 0F 104 tes 90 79443 ts 92 Pet too >te M tJG23 to 1M42 H 97 Mme 92Jeeds te F2HF 91 91 07131 78 380 191 8258 97 104 904 to 4Me8 191 $250 103 FFFF to 19832 to 4J000 to 4a0 tM 92 SP4F8 90 FMet 91 92 314 70 982 191 4411 97 SM 104 904tM4 180 9F99 191 0677 M J0D1 90 32712 et 90 2F989 92 Fl279 90 $M 91 92 30442 78 Ps6 tit 744F SF 900 194 to 19133 96 tasae 97 at100 M 1DF9 to 30033 68 96 M1M 92 SFM to seuM 91 91 tem 9 F3 300 tal 31FS 97 **4 904 to 02564 92 004s4 98 03 De Oute 90 3e874 68 De 7200 910FMS OS 424 91 to 4M3e 79 300 t al Met GF tot 404 to tem 3 M $ttes 98 2?t04 M tt298 90 4381 et M Det3F 9t teeSt $P 3329e 91 90 26M6 79 20 SH eaM SF 9M 104 90 34446 96 0SP38 100 3TJ H 203M 90 46406 80 0s 01527 02 ustr 99 798 3 91 9ttM3 Fe 34 13t een SF 9M 104 90 9t M9 199 8&M 903 3048 M 27173 90 65059 48 100 1498 92 94M4 to terFS 91 92 41992 79
$18 131 8072 SF 104 tes 80 4F941 100 1088 1H 9tM M FFUe4 90 41222 48 99M3Je 92920el 90 9004P 91 92 907 4 79 170 tSt tenF 47 104 104 to M288 M F1374 97 SBche 94 30M7 to 4'977 ts M 40e02 92 64007 es Oned et 91 s FMa Fe
$M 431 7442 SF 104 104 90 07790 92 83Ftl 96 06F29 M t&20s 90 9M97 84 M.Jett 92 tB42 4R 90Dl? 91 90 Het3 79 RM 131 FF41 0F 104 104 90 tegen 94 34617 98 3Dt32 M 90047 DD MF91 te 9510F54 92 06334 SF SFFil 91 to 3th37 ft 332 131 O tot 87 104 104 90 MFM 90 08232 100 394F M 29957 90 SF300 GS M OF421 92 8e006 39 hett $1 91 23165 78 838 43180 t t 97 104 104 90 sett 1916e00 90J 3279 M Smet to 48042 44 10D 304 91 6339 90 theN 91 52 anam FS t M0 131974F 0F 904 104 90 52975 100 in tot tuas M 3ME2 90 MtM es toMM3 93 0 Fee 99 Met 4 91 62 teste FS l M4 132 Onet SF GM 104 to JeeM M F3't 9F 4E141 94 2es47 to 8e049 M M 4e0F 92 eF90s et ases3 91 91 FS40t 79 l MG 122 teum $F 104 1M to 122se $2 es&M 95 sease M tiene to enses te - M Mtt 92 Frene es 63r33 91 to setog F9 i Sh2 932 118 SF 108 1M 90 Steet M 3euf 96 RFM2 M M121 to 44071 Se M 19856 M 381a2 SF 4 94H 91 90 et131 F9 l 944 192 M42 47 tot 404 90 44194 98 F9338 180 4 t67 94 3291 00 8080% es 3s tM21 92 F9F33 OleMt $1 M 3tt3J Pe ano 132 J0o e7 tM ice . to easFt Mt Funs 103 MFF M 3es 90 rus se tc0Mn nstees MeMM 91 snesF9 re 1
1
1 Computed by: Date: CAROLINA PO%TR & LIGHT COMPANY Cakulation ID: g g OVA.0IN Cheded by: Date: CALCULAT10N Si!ET Ps. /0/ of 00 Ret 0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Traraient Temperature Analysis teno ptj 47187* t/tF91 Vt F93 01794 Lf2Mt U20tetA U798L3 LOCAt UKAJ LFJCfN LOCSA Unt F ft IJJptc uzrut ups tw uy19t 9t4 433 ist GF tu toe to tales 100 thal 191 SM M M2tl 30 M3tt te 90 Mh87 93 tette $t sets 3 91 97 0 F914 FO tes 132 Bans 97 tM the 90 3 War M F6743 DF 08Ist M 37JSP 90 teeF 6t DS 6074F 92 7983 et Getto 91 91 Se 996 78 973 132 sett GF 994 GM 9014W1 02 074M M toned M 2080 90 N F04 04 94 38791 92 atISO M Meel $1 to Paint F0 3 F0 t t2 80M 97 tM tes 90 31806 M 30F99 OG Mans $4 7eMP 90 F7uce M M 303F4 M W71 0F M644 91 90 &tene F4 See 192 4205 0F 19e 904 00 4e016 98 F7911 100 4300 D4 3a238 00 74Mt te te tteM 92 422M M H30J $1 91 30796 79 984 132 4FM 87 104 10e GO M POS 160 79f9 194 3044 M MP33 9063M te t00 3931 St #54M 91097t f $1 92 00n07 Fe see 132 Het GF 00s 1M 90 0*s t 90016 F$ tet teet M 44 net 90 73196 De 99 4eene 33 79e03 9t tenes 01 32 Fe373 74 Bor 4H $IM $7 tM tM 90 taFe9 M FF401 97 totte M 3F314 to Fen 33 M 98 N Fue 92 ass 93 es Ptent $1 91 gres2 79 See tM 6ter GF 104 100 00 7u077 93 99987 M e t F6 M S192 90 7tFM te M 4M49 92 4Feb4 M 69tF3 99 00 $Mrs F4 eae 137 M06 SF 19e 900 00 tF0 Fun M en7se ts anesF te MM4 90 7tMt te Mietoe 92 44ns GF 4FM3 96 90 teett 70 Gh4 132 Mt8 $F GM VM trt $lef t te F3efs 190 4440 M 47tet 80 913M M 90 70Mt 92 McF9 90 Me07 91 9144aN Fe ere 132 49 % SF 1M 10e 96 60101 10t F3tf 903 379 94 49tal en 9244 44 400 43F7 93 84306 9194t9 91 $2 F2rtet FS 4tt 13JFM4 0F 104 SW 906334 000 titt 9919MW M 4eet 90 F9F3E et 90 $19e8 91370M 941MF1 91 S MP41 70 416 132483 0F tM tw 90 40003 M Fle#9 SF 9tett M etFF3 90633M te 95 64046 02 989FS 98 74M3 91 tt tuu Fe em 432 H31 0F toe 104 90 237M $2 tuur M tIJ04 M 38700 90 01742 te M etFM 9J TWOS M 6 ttil 91 to teost FS 4 74 132 6377 0F tee 90s 90 30994 M att3 96 3733F M 3ees2 00 04 pes es MPFMy 93 MP44 $F etEM $$ 90 MISS 70 4M 9 32 H17 $P 9M the 9p be62 M FeeM ta0 est9 M 4F10 00 07132 et M t3JF9 $2 9R709 Se te171 91 9t totesF F4 4 37 937 pt3 0F tM SM 9014 199 743 803 3e13 M bM9F 00 9e471 40 sen ates el e t te 9t t4M3 99 62 FFM3 74 43B 152 kel 0F 904 tM bs M7tt 100 9910 199 9FM 94 D9t t 90 Miss M M Meu $3 43e01 91 90723 $1 92 86238 76 440 132 9ust Of tee 104 90 4 Fear M Dtumi 97 310e6 pa etFtt 30 0stee 60 ta tissae 93 0that MPsMF 91 92 0t ser F6 ese 183 9tM 87 tM tes 90 2aes3 $2 9 t99F M t4477 94 40644 00 6es04 M $4 48442 $3 6 tem 9s 61F44 91 90 07F9s FS 444 133 00Jt GF tt e fee 90 $ Met M 4f P64 te lette M cM37 90 0979 Se 06 7eBM $2 67010 SF $the St toteFM F8 au t33 9016 SF 108 10e to tFtte te F60M 190 4FFt M 9 ABS 6 90 82007 50 90 Fh838 93 M30 90 000de 91 99 64406 70 4a0 133 916 SF 108 604 90F8FM 991790 103 4040 98 57423 $10DFt4 M 900 4814 93 4F3tt $131936 St $7 41097 70 440 133 0e47 9F 'N 90s 80 teste 100 3039 101943e De tMM 90 93,19 et te tF7td 93 eena 9t staa3 91 $2 0se91 70 464 t H leM af IM 908 30 463F6 M 0tt03 9F D307F M 49tF4 00 903DF te es t3M 93 05230 04 7906 91 62 %$le 70 ese 133163F SF 904 SO4 90 2est $2 9Jes2 96 96442 $4 43&M 90 9 tat t M De tuebt 92 4Ft t# M SL3h4 91 90 98F99 78 4 73 133 t per 9F 10e tus 90 3L3SF M e ttet M 3;bne M e&FM 30 940uS te M 32173 92 0F31 0F $3tt2 91 00 F2416 ft e tt 133tMF SF 100 104 00 6eM2 98 76614 10D 4412 94 H103 60 94MF GS $$ JF994 $3 0061 90 076 a8 91 91 64263 74 eso tu tut GF SM 104 90 Fe0M tet rell 103 8102 64 003u0 9t teset es t00 6079 ta unt 9t p49 pt W ebeef 79 eM 93373 $7 los 404 to tteet 900 f tM 90t tem Mleut 90 kM2 M 96 6632F 93 keel 9133SFt 91 S2 93106 F4 ote 113 3042 er 904 tM 90 4F978 M 019M 9F D4U3 M &2722 90 D8MF 40 986US 93 tMU 807943 $1 92 0e0t4 FS et2 333 7F1F 0F tM 104 90 3Lett 92 8Mt MetH6 M 4H13 90 98det 68 M utts $2
- MS 46 06718 94 9190t82 74 est tIl 7%3F OF 404 tDe to 3Fes3 De 44449 M 4088 64 44ees en press se es M(ut 92 F.F33 SF 64651 91 90 FlirM 70 tuO S H ite SF GM tM 90 4 ttee te Freet 100 es0t M Seelt po sseet to # f4866 9413000 90 0s 44 91 91 06489 F8 000 133 3F31 $P 900 10e 90 FOGM tet FMt 193 41FS M 93602 St a9WG te IN 6tts $3 4640 % 91 37441 91 92 8887F F4 tot 1333MF SF 10e toe 30 Freet 600 7tes 102 0003 D* 6EJ93 90 0rer3 Os ge Siest ta lesM 9: 3u44 91 N 9st F3 F9 913 133 3 ant tf 904 19e to eMee M SJE F 97 Meet M Metf th 9FUP W 96 teeBP G3 9 F664 M Meal tPt 92 0190 F0 Stt 133 3F0s SF 104 1M 00 3M44 92 M30F 98 47074 De atttr 90 DSMt 68 De 644a2 97 F6et es 4Fenf 91 $10*ms 79 RJO 133 Ms6 SF IM iM Su MMS De 46the 98 4108 M S1314 $t OnM3 es 96 3seF 83FM4 97 M706 91 90 70F19 F0 SH 133 3389 SF 104 804 90 433F3 98 F9tte 100 4987 M GM44 9t f*ts4 M 9e 31344 D1174 59 50 0bF 3e 91 ti te tte Fe
&M gn ban SF 104 10e to F9F9 tot FF4 103 423F M DMel 91 19482 S4 900 LM4 43 60 set 99 FW592 99 92 912M 78 6 32 133 e tM OF 104 10e to 74e00 000 !?he 103 einsF M He'F 9100ese te te art 0s 93 StM 91 Jee6F 91 92 serf 3 79 64 933 469 SF 100 900 90 $t186 96 43278 DF 9E/2 M SFitt $100516 84 94 083e $3 #t tet 94 9tte t 91 9J 14463 FG 646 433 4< l' to. 104 to 341ft $3 NFM M 1 Fat 7 De ' 1M D191171 M D4 eneie 92 'SF97 9e ses22 91 94 OH91 70 644 1334MF 0F 104 104 90 4e863 M etF71 964 3 me H438 $t B3be 44 96 370 8 92 F38FF M 9etF9 94 90 99082 FG 640 133 41M OF 000 104 00 6eeM 98 FSFM 100 0073 De tttil 9t MFS1 M $$ 32eH H jeen$ 90 000e9 91 $t $M4$ F3 $&f 1834391 0F 104 904 90 01312 194 779 te14M D4 87tF$ 9114MF M 100 6400 434M2 91 3141 99 $2 9 thie 70 De8 133GM4 0F 104 tot 90 79109 100 73DF 102 013 M 0eFS 910M4F G8 90 63FM 43 64ett 91 77944 91 93110eF9 F8 900 13a 52M 0F tee SM to We03 M E3742 979eFee MBent 910705F M 96 See 93 23886 M pett 91 42 te027 79 See 133 82M $7 toe 100 to Meet 92 tuas es 18222 M SHSt 91 tie 0F 96 M $7n32 32 ptstf ga peBle 91 910F661 F4 984 139 4084 47 104 tes 90 42279 D4 48197 08 42100 M 8Het 9t teer$ M 96 30tM N 01718 0F 8Fest 91 00 HLS1 70 SFS 1 8 4827 SF 904 900 90 08771 N F9tF6 900 00F1 M Mh3 919e0F9 M 98 33Fet $3 73019 90 0Feu 91 St estas Fe SFS 183 80M GF 10e tot 90 &M34 9917H1 193 43M De ceHO Di teem 95 900 HFS $3 M400 $4 )Jg4$ $1 $2 9%4 70 480 13t HF4 SF 104 104 90 FF442 400 315 902 9 tat $4 006FS 91 05700 $4 9t M FF6 93 8Fi35 99 2eMe $1 93 07eed 76 See 433 0473 SF 1M 104 00 &aes N Hit t 97 9 Fit 6 SqmM 9108 tM M M F0H3 93 M306 M eiste $1 92 tM23 75 tet 133 pet $ $F 904 1M 98 3883 92 MFOS DS Steet M Mit$ $4 9MM M M 88077 92 43F03 M F6323 91 919efoe 78 te2 133 MIS SF 10e 104 00 4He t M eent 96 42es) M SF974 919 Feet e4 to astFD 92 8MM SF &D192 91 00 M FFJ FS tot 133 63Ft GF 900 904 M S F430 SE F9 hee t00 6tti 94 681Fl 01 60044 64 Os M4F9 H 26te 90 0Ma$ $1 91 70020 PS 600 133 tM OF SM 104 90 &lFG 90t Febe 193 43F1 $4 Ftt01 91 18178 M 100 tem $$ $7908 9134N t 91 $2 0FtFS 70 000 133 6006 87 104 604 90 Ft&12 900 33a5 902 0204 H P9tM 919F994 M te Mes3 H eeJee 91 70004 91 $3 k4JS 70 tut 133 6377 $7 400 ' 164 to Meet M HSF4 97 9 Flat M S257 91 08064 M M Ft4M 93 MJet 98 MM6 91 8219eef 79 497 133 0 96 SF tes toe 90 $F9eF 93 Sergt 96 19049 $4 M&F9 919F31$ $$ 94 SeesF 92 teg11 M 70003 91 9110F99 FO 4 to 133 tott $7 004 10e 90 44123 M eself M 4Jes3 M SM48 910e641 M MSeM4 32 M31 SF MFFF 91 90 DAJ02 70 EM 1336433 SF 904 tes 90 0 Hat 90 Ft874 100 6144 94 08816 919 tFM M 98 3MS3 63 2F006 90 09178 91 91 Ft414 P8 SM 683 8000 0F 104 900 90 MFF4 101 7904 163 4403 M 72SF3 91 20266 M 10b lF30 9160Mt 9t M336 91 92 9854 79  133 6431 4F 104 toe 90 Ft614 100 M1f 102 0234 M Fit 36 91 007&2 la 90 81788 D3 F009 913MOF $1 9306FM F$
4 32 t M SFD, SF 100 40s 90 Sees) M HaF4 97 9FSM M &391% 910806 64 M F27tt $3 79468 BG M012 94 42 71137 70 4 18 133 4 F97 $F 100 104 00 38423 02963M MitMS M 5t eM 910eaJ6 # M DMF9 828FM2 $6 71M2 91 91 12014 70 640 133 6418 0F tot 1M 90 4M2$ M 4F222 M 43J54 M bee 3 91 t1064 M 96 40538 92 94997 8F 60274 91 90 87411 F4 644 133 6722 SF 104 104 90 90320 98 00144 900 $1F3 M SF97 et t319 M M 30127 9528%44 00 0DFM 91 9t F7&OF F4 648 133 &3BF 0F 404 104 90 M&34 101 7921 903 64M ba F3002 $121067 04 100 6e03 93 70F91 9t M2hD 91 92 99F3 F$ SE2 133 6799 0F 104 604 90 0M4F 105 3443 402tM3 N Fff 34 9910He is 96 6 FSM 93 FM49 91 31009 91 83 085 78 Me 133 F108 SF 10e 100 90 MF00 M M13F 97 tothe M 430ES $100sF4 et 98 F2838 93 It 3M M OS2F4 91 92223M Ft 900 183 70M SF 1M 104 90 38822 02 9001 Mitan M M076 $$ t9tM 90 94 00181 t2 0e643 96 F1006 91 91130F1 79 GM 113 8749 SF 904 10e 90 4&206 $4 4Fes4 96 e3516 M MD44 91 1232 60 96 41271 92 0eMt GF Meet 91 90 0MM F9 See iSS9%I 8F tN 904 90 70088 90 403Ft 100 6197 94 sam 2 pt 144to te es 3e449 93 294%4 to 102$$ 91 91736F9 FS SF2 133 6F06 $F the 10e 00 8E17$ 101FM2 16) 4412 94 748F1 91 22918 M 100 gem g} F)($1 $137344 $$ 92 3g700 pg j 6 74 118 F900 SF 10e 100 90 01084 406 3489 102 tut 7 M F3FFF 91918e8 60 99 6FS$4 03 F3se$ 91 31614 91 . 53 0F98 79 000 133 741 97 900 tot 90 $74tt M tk346 9F 98439 M 00102 99 918M 68 M F3m3 83 17%88 M 89eu 99 02 *3252 79 See tu F340 SF 104 104 90 40313 92 36423 M 19869 M 8007 91 91244 M M 00099 92 0e014 M F2tM 91 91 13913 70 tee t H FU36 0F tM tot 90 4ees M a rtet 98 UFM De 81917 911b809 56 36 41P17 92 0eM 97 00041 91 90 99750 79 te2 183 0a20 SF 10s 100 90 F0742 Da tun 44 Sf0 LPtf M eestt 9t tMid M te 37tes 93 3ntet 90108F7 91 917441F 70 tot 113 00 P$ gP 90g Igg gg $7ggg 091 F98 103 4471 De FS801 99 24002 M 900 6801 93 F3125 913FFoe 99 ist 79 F00 13 OF 904 904 90 81091 100 M43 totairs M Fenes 9t tFute se 90 0eare 33 74F3e 913tM9 91 y F4 700 U)1 . $F 404 los to 90077 98 5 % 42 9F tesyF to 80 set 9112W Ge te FMcF 93 33e05 N 04996 9t J J40M 78 798 1327998 SF 100 904 90 40e12 32 9F004 M 20043 be 900M 9t %2Le SS M $t tM 92 ptukit ps F2412 91 91 14718 Pg 712 133 7779 SF 00s les 90 4F404 64 87943 es 43eit M E2F91 9114 MF SG M 4F137 62 90M4 SF 0034 94 90 90&11 70 F14 133 70E3 0F 10e 104 te enF?e t00 6718 98 3717 1 91 9t Flt2P PG F2e 133 77M tr 104 104 @f 103 4447 F40 3m >e 91 92 90417 70
#0 eos 133 720s e7 104 10e . 90 s ten 193 44 0 98 Yea 4999 1 mei nisu 91 92 9eett Fe
. - _ . _ - . - - _ - .. . . - _ _ . - . . . - . ~ - _ _ - _ . _ . . - - - _ = _ . - - - - - -
Computed by: Date: CAROLINA PO%IR & LIGl(T COMPA7W Calculation ID. OVA . 0104 Yaruan Cal 8/24 S 6 Checked by: DN3: CALCULAT10N SilEET Ps/03 of130 Rev.O Tom Devore 9/l2/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Contre.1 Dullding Transient Temperature Analysis Watume og af emmF al me *
#pte Cfte $Cfhad fome $31 (fff93 UF193 WC4 UttLfL 4 V36 LR wahsM of me Ism 41 9 06 M 93 79 M MaeseM FM3 M 4 M M M MM C fiflM 9eest 63 $ H M 93 97 49 $C '8ed teor M 13 M M 98 MM U18 6 R tenaa m 94 M M 93 De to UJE i R # 437 79 30 M M 93 to F3 teal 1Mt44 $
pe M M 93 91 93 3e M M 95 ta tt R3 M M 95 93 M 36 M M 93 9139 40 M M 91 95M 44 M M 95 M 43 48 H M 91 M le 93 M M 95 M S3 to M M 91 M F3 40 M M 93 M F9 M M M 93 M Of to M M 95 en M F3 # M 91 97 M 79 M M 93 97 41 to M M 93 Of M M M M 93 Of M ta M M 43 97 F4 97 M D. 93 94 34 M M M 91 M F9 tuo M M 91 MM IN M M 98 M 97 10s M M 01 MM 913 M M tl M 99 114 M M 93 M 48 130 M M D3 MM 434 M M 93 000 10 tM M M 91 900 04 1 33 H M 91 M 00 13B M M 83 te st 140 M M 95 ten 38 144 M M 93 tou ve let M M 93 900 M 163 M M M 900 M 166 M M 93 100 71 140 M M 93 900 TF 964 M M 93 tot 94 tM M M 93 191 M 1F3 M M 93 199 M G PS M M M 991 H 100 M 93 191 as ted M M 93 191 30 tes M M 93 109 F3 193 96 M 01 903 19 tet 98 M 93 WM Sio M ta 93 903 te has M M M 101 M Sue M M 93 991 to
$13 M M 91 1G3 31 pio N M 93 163 M $3D M M $3 103 70 pe et M $1 103 to 3M M M 93 tot 39 3 33 M M 93 103 33 3 18 M M 93 103 St 940 M M $3 103 M Me M M 93 - 103 97 Me M M $3 103 to MS M M 93 193 97 3M M M 95 W to See M M 93 163 M M4 M M 93 103 SF 3ee to 96 91 103 as 3F3 98 M 93 103 M # F9 M M 93 103 M 300 M M 93 102 94 364 96 M $3 103.31 pet M M 9.5 10383 #st M M M 103 M ste M M 93 103 46 50 M M M 103 19 24 M M 91 903 17 300 M 96 93 103 43 313 M M M 103 81 $19 M st 63 103 04 330 M M $1 103 SS 134 M to 93 193 M 3M M M 93 403 38 232 M M 93 103 43 1 38 M M $3 403 31 M0 M M $3 tes 03 M4 M M 91 903 43 *-
See M M 43 103 M 383 M M 93 903 63 384 M M SI 901 FF 300 M M DJ 104 00
Computed by: Date: CAROUNA POWER 6 UGliT COMPANY Cticulnion lD. OVA . 0104 Checked by: Date: CALCULATION Si!ECT Ps.103 of 00 Rev.O Tom Devote 9/12/96 File: 8220 Ivoject No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Ternperature Analysis vt M.e 9 e i tome et ame i MNt8the CfkfW ECitW #
- tese Pe) UrTS) UTT33 WCC t/ttift & U26ER Wehme of swa $w 9) sad M M 93 SM tF an$ M M 93 903 M Sf3 M M $3 103 M S4 M M 93 tes M 300 M M 93 tOS 90 See M M 93 tM yt Das M M 93 tM M 3s2 M M 93 SM 08 Sue M M 93 103 91 4a0 M M 93 gg *;
and 36 m 93 SM D1 400 M M 93 tm 31 elf M M 93 tM 3e ett M M $3 10e 10 4M M M H 103 to 4M M M 93 193 66 439 M M 93 SM 10 4 33 M M 95 tes #9 4A M M 91 104 47 440 M M 93 fee M 444 M M 93 903 98 ese M M 93 ISS 83 M3 M M $3 9M 97 the W M $3 SM 47 MG M M 93 9M M eM M M 93 It t 33 484 96 M OS SM M eff M M 93 tts te 4 96 M M 93 tM 53 480 98 M 93 104 63 ese M M 93 tM 30 400 M M 95 tM M 402 M M 93 tM to del M M B3 tot M 800 M M 93 tDe M toe to M 93 tM M 900 M M 91 104 W Sit M M 93 SM M 949 M M 93 104 it
$30 M M 93 9M Os SM M M 93 SM 33 SJG M M 93 9M $1 633 M M $3 104 F0
$2 M M 43 104 44 MS M M $3 104 19 M4 M 95 93 SM ti M4 et M N los 3r M8 M M M 1M M 988 m M f3 104 F3 See M M
- 43 1M St 900 M M 93 9M If tot 96 86 83 9M to SFf M M 93 1M 46 EFG M M $3 SM M See M M 91 SM PS 804 M M 43 104 M GAL fn M N SM 36 M2 M M 93 SM 19 tee M M $3 104 43 tu0 M M 93 904 F3 004 95 M $3 SW F9 tus M M 93* 9M M til M M 93 let ti 910 M M M 9M 21 EM M M $3 904 46 SM M M tl 104 14 SJS 9 96 93 tM tt til es M 43 tes M te M M 93 104 39 Ho M M S3 SM 73 944 M N 93 104 47 Set M M 93 104 P4 963 M 95 93 tM GP Sie M M 93 10e 80 900 96 M 91 les 31 See M M 93 104 M 984 M M 93 tes 48 Off M M 93 104 FF 94 M M M 904 M 900 96 M tl 104 62 See M M 93 404 32 tot M M 93 10e M M7 M 96 H SM to De8 M M M 9M F9
_ 700 M M _ $3 908 M P94 96 M 93 See H FM Sa M 61 404 M
- ftf M M N 104 M Pte M 94 93 tee lt FM 96 96 93 10e to FM 006 M M 93 tes 80
Computed by: Date: CAROLINA POWER & LIGilT COMPANY Cdeulation ID: OVA . 0 W Yaruan Cal 87496 Checked by: Date: CALCULAT10N SIIEET Pg (Oh of130 Res . O Tom D.'vore 9/12/96 File: g220 Project No.: N/A Project
Title:
N/A Calculat'on
Title:
Control!!uilding Transient Temperature Analysis Relative Humidity and ' Average Temp ~erature of Rooms irtuding AOR, SCT, CTL, & EERs 0.52 - - --- - - - -- -
--- -- q 1 10 0.5 p a gpNtfdifdb%f4f' g% S i
3R 0.48 " 7 I0.40hj i m Relative Humidit) h
- o Average Temp ""
( e <t i e : 0.38 ' ' ' * * ' ' ' ' 70 0 48 90 144 107 740 288 336 384 432 480 528 570 624 672 720 l l PROJECT: CDCASE3l Time (HouO j i i
Computed by: Date: CAROUNA POWD UGHT COMPANY Calculation ID. y g gg OVA e 0104 Checked by: Date: CALCULAllON SHEET Pg.05' ofno Rev. 0 Tom Devore 9/12/96 File: 8220 t 4- Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transiem Temperature Analysis esse te ses pee sesst er itet C8ef ewe 96St4 P Mg she *6Mes 4 emes esp $dMee thAr o e es= 912eeF gep eupply teJ33 Cf tf pee GM44 4 etGe 482m3 187007 et to 6 sposta ACTuk 1074 Str*L T 15233 Cres 7014 ems 4 teMe 8 Lt464 eth -2 he se ACTunt Coote03 CAPA.1ff teMes else t eettet Ce ete GF p to R T014 PEstDPt4 edCrisdF3tCL cot #LII BS
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Title:
N/A Calculation
Title:
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Project No.: N/A Project
Title:
N/A CalculatWn
Title:
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- Checked ty: . Date: CALCULATION SHEET Pg.Io 3 of 40 Rev. O Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control fluilding Transient Temperature Analysis c. m. u w. m.c.m ..- au-c..i
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Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 Checked by: Date: CALCULATION SHEET Pg.109 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A-Calculation
Title:
Control Building Transient Temperature Analysis 5.4 Results for Project CBCASE4 5.4.1 Transient Temperature Profiles The data developed in Section 4 was entered into RT' computer program and run for the 720 hour (30 day) design event duration. A time increment of 0.005 hour was selected to obtain stable and convergent results. Simulation parameters and l other input data are provided in the Attachment H.
~
A set of graphical plots of the resulting transient temperature profiles in each of calculation room / area in the Control Building are provided in this section along with a tabulation of the resulting temperature at each 4 hour increment for the 720 hour (30 day) Main Steam Line Break without LOOP event duration. The maximum temperature for each calculation room / area in the Control Building is summarized in the Table 5.4 below. The maximum temperature @ 23' elevation occurs @ hr 704 in U1 Cable Spreading Room in which fan is lost and is 142.95 'F. The Unit 2 Cable Spreading Room maximum temperature is 102.36 'F @720 hr. The maximum temperature @ 49' elevation occurs @ hr 700 in U1 Computer Room in which A/C is lost and is 166.22 *F. The maximum temperatures in Main Control Room, Ul Electrical Equipment Room, and U2 Electrical Equipment Room are 109.86
'F,118.85 'F, and 101.53 'F and occur @ hr 700,720, and 700, respectively.
The U1 Cable Spreading Room temperature exceeds 123 'F at hour 40 of the event. The plant mitigation including restoring CSR HVAC or alternative ventilation measures such as opening doors must be taken within this time frame. (Please note: this calculation is conservative. Therefore, if the action is taken to restore the CSR HVAC prior to this time frame, it is nit expected that CSR temperature will exceed 123 'F) 5.4.2 Transient Relative Humidity An average relative humidity is selected to represent uniform relative humidity in Auxiliary Operator Room, Security Room, Central Control Room, Ul Electrical
Computed by: Date: CAROLINA POWER & LIGHT COMPANY Calculation ID: Yaruan Cai 8/24/96
^
Checked by: Date: CALCULATION SHEET Pg.110 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Equipment Room, and Ul Electrical Equipment Room. The relative humidity profile is provided in the chart along with printout data. The average relative humidity decreases from 50% @ time = 0 to 37.3% at hour 8 and is 38.7% at the end of the event. Table 5.4 l NO. ROOMID ROOM DESCRIPTION MAX TEMP MAX TEMP ( 'F ) OCCUR @ llR 1 U2CA1 U2 cable acces.t way g cl 25 95.71 720 2 U2CA2 U2 cable access way @ el 49' 93.01 720 3 U2CSA U2 cable spreading ,irea 10236 720 4 U2STW South stairway well 95.90 720 5 U2PIC U2 pipe chase 93.28 720 6 U1PIC U1 pipe chase 94,79 720 7 U2BRB U2 Battery Rm 20 104.04 720 8 U10 fib UI Battery Rm 1B 108.85 720 9 U2 BRA U2 Battery Rm 2A 102.36 720 10 U1 BRA U1 Battery Rm 1A 109.93 720 11 U1CSA U1 Cable spreading area 142.95 704 12 U1CA3 U1 Cable access way @ si 23' .111.13 720 13 U1CA4 U1 Cable access way @ el 49' 404.87 720 14 U1STW North stairwell 135.83 704 15 U2EER U2 electncal equipment rm 101.53 700 16 U2 CPU U2 computer rm 69.77 704 17 MENRM MENS ROOM 100.70 700 38 SClRM Securtty room 100.25 700 19 LDYRM Lady's room 109.95 704 20 KITCH Kitchen 116.70 700 21 CTLHM Ut&2 controi room 109.86 700 22 U1EER U1 electrical equipment rm 118 85 720 23 AORRM U1 & 2 auxihary operator ready rm 119.18 700 24 UICPU U1 computer rm 166.22 700 25 ELVTS Elevator shaft 10035 720 20 MERM1 Mechanical room 1 92.38 720 27 MERM2 Mechanical room 2 92.94 720 28 MERM3 Mechanical room 3 93.54 4 29 AlHLK 96J4 Air Lock @ el 49'0" 712 32 U2 AIR Dead air space @ cl.18 91.60 720 33 U1 AIR Dead air space @ cl. 8 103.81 720 34 PLEMN llVAC Maxing Ponit 108.91 720
._ _ _ - _ _ _ _ _ _ _ ~ . . _
l Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai
^'
8/24/96 Checked by: Date: CALCULATION SHEET Pg.I11 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis UNP CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR MSLB WITIIOUT LOOP Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE4 J - -. ;-j ;,; x : : f : :Me"
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Computed by: Date: CAROLINA POWER & LIGHT COMPANY Calculation ID: OVA - 0104 Yaruan Cai 8/24/96 Checked by: Date: CALCULATION SHEET Pg.I12. of130 Rev,0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis HNP CONTROL HUILDING TRANSIENT TEMPERATURE PROFILES FOR , MSLB WITilOUT LOOP pr; T Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE4 1s0 3 , W"'W" 7 I 'Y ' " JB "" 34 ,. ] 14 k n 120- - c r e
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Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 ^~ Checked by: Date: CALCULATION SIIEET Pg.I13 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis BNP CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR MSLB WITIIOUT LOOP y :t F Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE4 1 120-110- L -1 - - - - - m _
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Computed by: Date: CAROLINA POWER & LIGHT COMPANY Calculation ID: OVA - 0104 Yaruan Ca.i 8/24/96 Checked by: Date: CALCULATION SiiEET Pg.I14 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis HNP CONTROL HUILDING TRANSIENT TEMPERATURE PROFILES FOR MSLB WITIIOUT LOOP
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Computed by: Date: CAROLINA POWER & LIGHT COMPANY Calculation ID: OVA - 0104 Yaruan Can. 8/24/96 Checked by: Date: CALCULATION SHEET Pg.I15 of 130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A 4 Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis BNP CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR MSLB WITIIOUT LOOP
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Computed by: Date: CAROLINA POWER & LIGitT COMPANY Calculation ID: Yaruan Cal 8/24/96 ^ Checked by: Date: CALCULATION SliEET Pg.I16 of130 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis BNP CONTROL BUILDING TRANSIENT TEMPERATURE PROFILES FOR MSLB WITIIOUT LOOP l jn e f Ctl Bldg Areas Temp - LOCA W/O LOOP - CBCASE4 140- . l f k f 130- -- 120-n. 5 Ji 110- - - - - O t , 100- ,,
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Computed by: Date: CAROL'NA POWER & LIGilT COMPANY Calculation ID: OVA - 0104 Yaruan Ca.. 8/24/96 Checked by: Date: CALCULATION SIIEET Pg 117 of130 Rev, 0 Tom Devore 9/12/96 File: 8220 Project No.: N/A , Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis DNP CONTROL HUILDING TRANSIENT TEMPERATURE PROFILES FOR MSLB WITIIOUT LOOP owb Ct1 Bldg Areas Temp - LOCA W/O LOOP - CBCASE4 105- , _..;__. - (([ lO?S$$$E 7 _, .
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Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis tempererwe Anaerses verson 150 se Olv11/96 es 109110 M Cais een MSLB WC LDOP .CBCME 4 Rnem temperehses lDegene F)
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Computed by: Date: CAROLINA POWER & LIGi!T COMPANY Calculation ID; Yaruan Cal 8/24/96 Checked by: Date: CALCULATION SHEET Pg //7 of 00 Rev.0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis 1emperehmt AnstF ee vereen 1 to es(Etime se to49 to se cak:Nu edSLB WCLOOP.CBCASE4 Room Temperawee Osip'ee F) Tene M AFlat EARFM AsFILK AGERad CTtftid ELECW tilfr$ IUTCH (OYttad SEWthe bEfthAt 4Klud2 LE FIM3 ffft Plined RAftt 3M ee B102 F0 95 32s4 118 1284 108 t30 70 90 44549 115 F94 108 142 900 1198 80 12568 9t Stat 87 00s ta 70 108 0029 107 9 Fee 3M 79 8W1 70 M 3eF72 198 0243 108 9523 70 M 27329 t tS F12e 109 2911 M64M4 82 12707 SF FM47 SF 662F3 70 107 2025 10B 0u0 3F2 FS 00001 70 M 49128 t SF SFS 108 Site 70 97 02e65 915 5712 tas Adae to 44586 FS 9134F SS 13562 SF 133M F0 los Fs34 tos 64F3 379 79 4een 70 M 64222 197 8F97 108 8tM 70 0FJe tse 116 4e82 108 45$ De 3eeM 4t e52e5 M91M9 00 00727 70 197 0452 100 0e47 300 M 48079 70 M62M1 118 0918 108 Fnes 70 9e F1984 9illaut 108 9119 De 60623 08 81416 90 38687 85 40111 70 107 8137 900 t135 3M 92 eseep 79 M es444 114 2600 toe 1019 70 M 9322e 9 f B 801l 100 1972 100 0F20 92 36006 82 FSF49 M 02425 FO tot anM 100 1308 att 88 8102 70 M 44872 1143.33 tos JeH 70 M Fes48 tts MPs 10e 31st 100 2ine et 13 43 91 naMF 0F 034M 70 10e 12a2 toe 144 392 F9 8102t 70 96 S&3 tillose 100 9797 70 98 aust tIl ei 10e 3414 De 98911 $2 S343F 0F 80s2s GP Ses3e F0 107 4149 tot 1F3s Sea 75 00001 FO 96 64ist 114 OU3 105 F404 70 9F 10012 til F238 108 1790 90 Brite FS 92249 en1tese 8719914 70 105 9043 108 3072 400 79 4498 70 M 64FS2 110 062 108 M94 F0 9F 338F4 tilSie 100 0079 to 49ese 61 ast28 M 43s38 M 1224 79 107 vens los 24 404 as eseF9 70 M e6746 1f t 2302 100 SF12 70 M F9M3 ilS F24 108 01ne De F9 des es $2132 30 40Fn8 45 8261 70 107 t?Se toe 2633 40s 92 9ee99 F0 95 52137 11e 4112 108 2114 70 tc0 0039 115 930e 10e 2225 100 fees 92 3557 92 313e6 es 04453 PO tog etis tos 2FF1 4I2 88 5102 FO 95 61097 114 4F99 100 3718 70 SO S3Mt 195 0921 109 4278 100 3237 99 94t61 91904 t4 87 05F9F 70 tus 2327 10s 2004 4 18 79 81021 F0 M ast ed 114 3808 109 1903 70 95 4214 118 041 109 4503 100 060F 82 64414 8F &2438 87 81149 F0 107 8149 108 3119 420 Flet001 70 e6 F9679 194 1982 108 M00 70 9F t F4M 116 0500 toe 2eus 9see0ee 7391002 $$ 1F22F SF tOOF9 70 107 0033 100 34tl 424 F9 esse 70 M eGene tla1M4 TOS F2me 70 97.1ee02 118 F301 108 8102 to Seat at est25 as 955e9 M 44341 FO 10F 2587 108 3706 429 M estPS 70 m Ft194 118 SF 108 98F9 70 98 Met 2 til4434 tot 1303 et GFFF GR UF3 90 42583 85 64 fat 70 100 OtM 10e 39 432 92 See99 70 M FN2 118 M13 100 303 70 , t00 Osa 3 114OM4 10s StM 900 24e4 92 3em4 92 E369e M 05484 70 tot 5015 10e 4002 4M e4 8902 70 96 72829 116 4t02 100 4403 F0 M 99F3e 114 2045 100 4212 100 4018 8014 F9s 91 s221 87 0FFat 70 tes 3199 tos 40e9 440 N 81021 4 M F9711 814 48F3 toe 2eE9 F0 Os 4790s t to 1503 100 M18 too 1773 42 Mot 3 SF tie 52 47 41033 70 107 0021 138 42F9 444 F100001 F0 M essee 114 3212 000SMA FO 97 23006 118 987 100 3e03 SO F3MI F9 9M31 46 14424 87 19889 70 107 08Se 108 4S42 444 79 40se 70 96 90754 198 3134 10s 00a3 FO 9F 48176 116 8419 108 1981 M 65437 01 8741 es tesef 86 10009 F0 107 3371 100 48 412 et esere 70 06 te038 114 488 10e 647 70 M 00est 9il M30 108 2137 M MF2 M $32M 90 44100 GS 44444 70 tot ceFS 10s eene 454 SJ M986 70 96 82Fe t its 8641 tus 3796 70 10011la 1181&22 100 30e7 100 Sist 92 36443 92 eM32 M 05583 70 tog SF9F 108 5034 4d0 ed $102 70 DS 01884 118 F1M 900 $344 70 De M70s its 2eal 100 5907 too 4ee8 49 tute 91 4371 SF 0e419 70 tes 3sa 10s 8102 444 79 StS21 70 M 8F49 118 8U4 108 1302 70 SS S2732 tilMiG 100 Sta 100 1918 82 56406 ST M22 8F 64983 70 107 8733 tot 5253 444 FS 00001 70 Me5MS 114 4227 108 996 FO 97JFF06 116 0455 10e 4415 M F9FF9 Ft M157 SS 19F53 STJ1404 70 107 115 108 64as 472 F9 48M 70 M 99004 118 4121 108 4F64 70 97 49744 196 9278 109 2501 99 71000 49 879 M Mtee M tFS89 70 107 4042 108 8F19 478 M 40sF9 FO 95 te03 114$US toe 1SJ1 70 M M251 t to 034 tot 2438 100 h1h4 M EM47 to 45388 85 SF90F F0 tot 1829 toe less 440 92 30099 F0 96 Sp?tt tit F383 606 4414 F0 10015a1 114 2329 10e 4475 900 3F21 92 3eFFF 92 tests M 10t104 FO loe time 100 teot 404 et 8102 70 95 etWF 114 8102 100 test 70 M Steet 116 3 Fee SOS e655 100 5212 et 15F47 916deas er 10F9e 70 10s 453s 10s 9e43 483 79 81021 M 96 MFFF 11e et SUB 3ett 70 98 $4F97 1 ft 31't 100 SU1 100J453 82 Mose 87 86282 07 45828 F0 107 F329 tot 4071 GN 15 00001 70 M 02421 14 80F1 1080HF 70 9F 31M3 116 tige 109 8054 M 35004 Ft MSee M 20FF2 0F 2J671 F0 107 21M 108 4252 des F9 asse 70 95 054%4 9IG 4964 toe 3334 FO OF S3e01 tiltres 100 3298 et Fles 81 0831 se 99121 es 180 F0 107 4eO4 tot Seat 800 M 48879 70 te GMF2 1to SE3 900 1885 70 de 99139 1to Oest Ice 3423 100 0642 to 63997 to 46464 GG 8013 70 tot 2t rF ton na04 e04 92 90009 70 M taget i14 088 100 4989 F0 100 1943 114 3J06 100 EM4 tuo 4193 32 37059 92 *424e as tt183 F0 los 0423 los e428 GOS 8s 8102 70 95 05041 148 8459 100 44a5 70 100 0242 194 4422 10e F20F 100 54F W 1611 910A019 87 11964 70 108 8049 100 0649
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~$ F00 et 5132 F0 96 20432 9 8474 70 10014F5 UTI 100 94to AUG 991FS4 S1 F01F2 SF Meed 70 tos F149 tot 9429 a FM 79 stori r0 M 24873 P0 Se rie0s ng Goopsco'brieu :Sma of 90ses eF Fires 70 107 M06 m sene
/m Ps oma0s 70 Mycei itaas4F m 29rs 70 97 4a102 1i4 4272 10e F9s7 1000sFs es 24sM 97 2n03 70 10F 4s32 10s MFi p Fi2 Fl eans 70 C w u2 b tie &3x 10e lmi FO eF eessa 114:esi tos s42 to gs te re,ts425 0 90014 Os r35st 70 iOFOM4 10s tne4 FM se 4Mn 70 men iistuF 10e Me9 70 tuna ti4 MM m sesF iOD 2sas te es 74 e5 21s,s3 0F 70 3 m 9707 o F20 92 Seees 70 esJ31u 1191ses m Fttu F0 its Se17 too rau 100 etes na n e at es M112 70 too eD 10s 9a4 F20.005 93 70 98 23827 119 95e4 100 F2 F0 10G J50s t14 8819 108 7637 100 4199 92.Js219 Ml]4.17 06 1422 70 10S im 108 9641
Computed by: Date: CAROUNA POWT.R & LIGHT COMPANY Calculnion ID: Yaruan Cal 8/24/96 Checked by: Date: CALCULAllON SHEET Ps./20 of130 Rev. O Tom Devore 9/12/96 File: 8220 Project No.: N/A Froject
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis fewe Pe) 9tATL2 ftAIL2 fLAtle RW1 MW2 SC75the U1A34 V194A UICA3 UICA4 U1 CPU USC$A U1f tit U1PIC UtRX 9 94 M . 104 F9 91 Ut.BHB M M M 104 PS 90 91 4 90 58064 90 9sM2 90 09s43 104 10s M ase01 9129MF 103 tF9s 103 ae59 96 3837 44 934F5 108 8447 199 7072 S3 M149 90 4M51 99 3 Et FFt32 SO Meat 90 0U79 104 104 M e tS94 93 4062 te F4see 99 81829 M G5978 M 680BS 117 85F2 193 1312 95 4306 90 4F059 91 12 98 N023 to BMA 90 GMF4 104 104 08 OEnt 93 81286 M 08314 M F797t 96 MF29 88 98191 122 D43 114 OJue SF 1010e to Based 9t it to tuite 90 9Me t M 6434 104 104 es tess 93 E13s4 9F F6FN 08 2453 98 19129 M 3FM2 1M 038 196 6449 98 F7442 90 45437 91 20 99 374C4 90 $2015 90 seet) tot 404 SF 40sTF M 3133 102 3292 102 Boet OS 64817 99 42045 124 fees tit 1087 100 atM 90 94278 91 34 99 449M 90 93249 90 F1022 104 104 08 33sN M Fthe 106 4003 tot 4221 98 900 to 200F3 131 erFt t19 30M tot FF43 95 21444 91 28 99 43FM 90 M012 90 F817 104 M4 89 0M23 M 88298 403 F937 103 8870 9721211 90 $Fest 133 4197 110 FF99 102 ?O49 9t M42S 91 32 99 84741 02 95017 90 82262 tot 104 88 44M9 94 8D44 90 87062 9t F9eet 97 45843 90 9F97 136 2903 121 ass 103 3142 9134M 91 35 100 0FS2 90 94183 90 D9144 104 104 99 991M M 8F133 98 MFSF Si l9132 97 75400 9119H3 1M 9233 122f]49 163 64%8 9130eFS 91 4 40 10u st 90 974te 90 9esa3 104 104 te Funt M 19002 M 40028 98 73221 M 03044 918Ft3S IM 3381 Q495 10s 5712 91 40493 91 44 100 5412 90Dec' 91 04443 104 104 90 2108 M 898%4 103 2624 103 De34 M 42089 91 9883 139 7032 1N 2S21 105 4444 9163M3 91 48 100 7673 OO Deed 1 91131SF 104 104 91 M127 M 980F9 los 3Je 106 9837 M St29 92 4eeS2 141 077 12S 0F44 tes 4043 91 Meat 94 42 100 9057 91 Dice F 91 22004 104 104 914F064 M 00F98 tot Sees 104 430F De 12062 92 M258 142 1939 12S 0722 105 8847 91 M315 91 to 1012Mt 91021ea 9131u3 104 tot 91 F1001 98 04431 100 40a4 900 3356 95 3Mt 92 M282 143 1981 tM $459 ter 643 91 ese01 91 60 101 4811 91 83731 9t el4JG 104 100 91 72390 95 0640t 97 78343 9F F1312 M 6e644 $3 33756 144 0831 127 0F46 197 3F3B 9178F5F 91 to 101FMF 91 06114 91813e 104 104 91 F4F32 M 313e6 90 45213 99 24IOS 99 9021F 93 87034 144 M14 12F M13 107 M34 91 &S398 91 Ge 90198 tf 9t M4F1 91 82303 104 104 82 0eOS 98 F3827 103 9est 103 8416 100 2714 93 92904 945 6565 124 064S 1085us 920tM2 91
- F2 102 1857 910F911 91 F2ett 104 104 92 49386 97 OsFF3 SF0"4 wa ena2 en0 37sf 94 25eit 14e Fall 128 8534 tot le Ft 92 26139 91 1 79 102 40F3 91091M 91 Ma2e 404 104 M 18073 97 10000 105 3319 104 SeM 100 8996 94 52437 14F 5438 129 2133 ..eSM9 92 32419 91 00 102 838 9t t0M1 919ME2 104 104 63 3en48 97 11022 101 M1 100 FE37 1010M9 M FltF2 148 2787 129 7122 100 0$47 92 21645 91 M 1812 8881 91 92179 92 C0941 t& 904 93 JG44 SF OsteA SE M478 M 14561 101.2988 94 90443 148 98P9 130 1235 105 7481 92 93038 91 ta 103 00F3 9913F42 92 t8P14 10s 104 43 21613 97 32903 100 H31 90 08025 10185F9 95 27799 149 504 130 44 F2 190 0e4F 92 94564 91 92 103 313F Si t&M 9J 3nSS3 104 104 93 4Gaa4 0F F29F4 104SMt 103 MF1 101 9918 M 50029 IS01FM 130 8317 it0001 92 3e0M 91 M 10381F5 01 1613 92 4M61 104 104 M 02108 90 08656 10F M3s 10s tse 102 20e8 9s Maa5 150f ?32 13131a2 191205F 92 8788 91 100 103 FtFF 91 16407 92 Met) 104 104 M 47322 90 13212 106 84F9 106 2754 102 4408 es crFoe 161 4006 131 F9me tit 4FF 92 4Jt M 94 tot 103 6228 91 20071 82 08804 104 104 94 40238 98 03018 101 M91 101 SteF 102 6994 98 26785 M2 9t3D 132 1914 111 442 92 4225 91 108 104132F 94 21813 82 F910s 404 104 94 44119 SF 905 98 83T22 M 40733 902763 98 4FS33 M2 4464 132 4642 11148FF 92 41404 91 112 404 DB $123576 92 D145 104 104 M 35819 90 20234 100 4M1 100 0112 102 SF32 98 7. ate 112 9069 132 8954 111 FM3 92 446 96 til 104 63 91 25324 SJ 03F48 tot 104 M ae811 Se tetM 104 9964 104 2856 1012723 M 9ee44 ti3 43FS 132 9649 112 2506 52 45F9 91 1JO 104 F001 91270S$ 93 10043 104 tot 95 0479 M 9eB25 10F 9ess 10F leSt 103 M64 97 19642 153 9e25 133 3911 112 F227 92 95172 91 SM 904 8443 91 28843 93 25105 24 104 95 90427 M 941&J 105 2623 106 &e69 191 7491 9F 3flM 164 4879 133 8031 112 0262 92 0st76 99 129 105 0848 9130eu 93 4uhe? 104 104 M SMs1 98 81791 101 M14 101 4719 103 0e04 97 54MF 164 8F11 1M 1J54 112 8462 92 FF971 91 132 106J494 913J42 01 52879 104 104 95 38198 90 76139 98 22515 M etM M3 9F48 9F F2M3 15S 1883 134 32E2 912 7978 92 84644 91 136 106 4Al2 91345M 93 66117 104 104 96 30243 M D40F9 100 9ste 100 3083 104 1795 97 9J99F 156 &354 1344110 193 9149 92 F1989 91 140 108 herl 913NF4 93 FF248 See 104 95 50tt 90 30562 104 3653 104 9714 104 4408 M 14tte 1M tens 1M F1 113 4F04 E2 90 eat et 144 10S F521 9134 Jet 93 99267 104 104 M MFIF 98 84813 105 1314 107 454S 104 0342 90 33122 194 4133 136 Ae67 113 0921 83 05089 91 144 406 933 914031F M 011M 104 104 M 34402 99 43293 108 4006 106 game 104 esse M 4640s 156 8(US 136 4197 114 04FF 93 f 3214 91 1 12 108 0503 91 42323 M llm64 104 104 98 JDF 44 00 49031 102 2707 tot F3as 104 9337 M U408 157 1031 135 8&SS tt3 tFSS 93 91011 91 SM 105 2208 9144M7 94J4491 104 104 44 16804 tsG 414M 94 642e4 90 07253 105 01H 9e FMF9 1SF 3M 135 3Me 113 3J31 92 935t4 91 100 108 3777 91 4848 M 30812 the 104 SS 83E32 M 19814 1011FM 100 Emet 105 145 98 9631$ 1Siles 13m Sect t14 913 82 $3FM 91 164 t(4 5219 91444FF 94 48170 104 1Cl 98 23454 90 63330 105 950s W at3 106 42tt 98 13485 197 9353 136 6304 194 4271 9111148 91 164 108 tilt 91500F1 94 84644 104 104 98 063M 108 2016 10e StGB 107 48F2 10E 86F4 to 294$F 154 3t45 tM 42e4 114 8118 $130Me 91 1F2 10E FS21 91 82474 M F0est 104 104 97 02670 it0 222F 108 8791 106 0eM 10& F92 99 42254 195 U43 13s F344 1t4 9314 E134SFS 91 179 106 0t43 91.54S32 M tJ071 104 104 97 05649 9030u4 102 541 101 9841 106 8%2 98 8 4F41 1ss e&M '38 9671 114 FFF4 E3220ee 91 180 107 0656 91 ute M 95tes 104 104 98 30202 te CF123 $9 8u187 90 29112 105 0GF9 90 0e87 154 021 937 0653 194 5471 93 10297 91 144 107 1917 918A733 96 04tGF 104 104 9e 88502 100 1261 tel 42FF 100 F714 905 043 90 8834 15e 2223 137 5409 114 0066 93 14206 91 tee 197 3tB 91 00758 eS 149F3 104 104 96 83M2 100 4683 106 8029 106 91M 106 20s po teus 154 4043 13s Jee6 114 1083 41 3324 et 192 10142a2 91 82746 96 28803 104 104 97 24043 10E F16 10S S2FS 107 4F79 108 4F38 100 1219 159 4184 137 &3st 11S SMF S3 50F29 91 tot 907 0 44 04 64F29 96 30008 104 104 97 88556 100 ? 258 107 1063 105 2316 108 8466 10& 220s 100 0887 137 411 196 83FG $3118A4 91 3M 10F 8499 91 etFSF 95 40408 104 900 97 Seese 100 4612 902 7tM 102163B totlitt 100 30M Me 25J6 137 99s3 115 49e3 83 41954 91 3D4 107 70e4 $9 83018 M eeFF9 M4 104 97 33227 100442F 100 0187 90 4Fece 198 6446 900 496 140383e 1M OF29 t tL3086 332003D 91 200 tof teu 91 70350 M ass 24 104 104 97 9F902 100 GM2 101 6352 179 9494 408FM7 100 43e6 HD 41S7 138 1954 til4412 SihJS17 91 212 197 0012 91 F2E95 M.F9992 104 104 97 32370 100 9 tee 108 0915 106 test 106 9759 100 74F1 180 7504 1M 2326 116 4004 S1511M 91 214 108 0543 91 74754 96 esest tot 104 9F F14N 101 1579 106 0219 108054 107 1481 100 441 M101M 138 4S28 114 1346 93 083e6 St 220 1e4175 9170eM 96 9E344 104 104 95 044SS 101 1533 107 2944 108 48M 197J591 1009M2 149 242 134 9953 194 20s4 91711 91 224 108 2F23 91 7941 96 06095 tot 104 98 0sL24 900 964F t02 He7 102 3t25 10FJs49 101 0539 Mt 3OSF 138 0642 014 0101 93 97922 91 22e 108 3FS4 918D605 98 9S137 104 104 97 Fes22 400 MF4 100195F 98 8200 10F.2'98 191 1014 961 43s0 138 0017 115 83F3 93 45474 91 232 908 4F83 91 82533 9824&t5 104 104 97 58489 100 5 % 101 e082 1010e44 107 3086 101.3046 1815F92 138 9179 11S M52 93 48733 91 238 108 848 91 34414 ta 33FSF 104 104 OF720n3 101 2906 108200 106 3284 197 8784 101 4075 M17464 13e 0009 114 2974 93 47074 91 240 tot 4423 91 SE232 ts 4270s 104 904 95 10434 tot E311 106 iFSS 108 1904 107 7542 1014 FPS tot MOF 13e 2084 114 4127 93 83een 91 244 tos 7tF4 91 08033 98 81926 104 104 98 42306 101 Sted l0F 4495 10s 5897 10F 431 101 8605 162 1987 138 4230 t pitses 93 8839 91 348 10s an02 91 48009 94 00M2 104 604 ts 3aF9s tot 3202 103 OsFW 102 4494 10F 8212 101 8563 M2 2e09 13e SS itt 458 33 F2781 91 252 908 estt 9191F31 M tee 64 104 104 OS 12e1 101 Met 100 3419 M F5 ret 107 A217 tot 7544 142 2M6 139 5454 116.2706 93 80022 91 2M tot 9753 91 SM63 96 FF326 104 104 97 MF95 191 32 101 M FS 101.2231 107 9164 101 at 152 3a24 1Jo an34 ' 1143F41 93 529&1 91 ano 100 0802 919ETJS 98 Su23 104 tot to 077e9 101 821 108 3453 106 4444 108 OtJa 101 M4 162 Sus t3e en22 114 F214 93 0101F 91 254 100 tt4t 91 97024 Sa $1744 104 104 98 4J094 tot 851 tot 3034 108 2523 100J54 F 102 02S1 142 PS$3 139 8271 11F 004 93 074F2 91 fee tos 9784 91 98703 97 01738 104 104 toFMI1 tot 829 90F 57'F 106 '035 100 3185 102 0e92 142 ele 140 8262 11F Met 91 99006 91 2F2 100 2469 92 00414 97 0884 104 104 96GMS 101 U76 103 223 102 557 108 1962 102 Mee 182 9825 140 t430 114 ust 93 35792 91 274 100 3223 82 021S 971F448 tot 104 98 42668 tot 49FS 100 4428 95 04563 tot 2543 102 735 142 9964 1401St t 114 8257 93 F2749 91 300 105 3065 92 03e54 97 254 t4 104 104 98 23844 101 6141 102 0s43 10132FS 108 387 254 102.326 10 006 140 1285 114 F171 93 75437 91 100 4506 92 06492 9F 226t F 104 104 94 M947 101 9089 108 4912 905 E3si 108 5314 102 41M 1432031 140104 117.0541 93 93194 91 258 10e S114 $2 0F052 97 38946 104 104 to 40467 102 1797 toset 108 3F72 100 M25 102 4783 143 3823 14& 342 117 3243 M 99816 91 292 los SE29 92 See12 9F 4F149 104 104 94 98671 102 1003 107 M4 tot FESF tos F352 102 52e4 143 6214 140 $251 117 3574 M 1122 91 298 100 821S 9210tM 9F M2e4 104 104 98 05cM 101 8618 101 3268 102 4502 108 7U2 102 5FFS 143 6SFS 140 57F2 11F 1277 $3 9Ft34 91 300 105 0474 92 118 97 41304 tot 104 38 07417 101 FSF9 t00 5029 M 95691 10s 0795 102 5375 163 5814 140 Mee 1)4 9183 83 E1R15 91 304 104 7511 92 433F7 97 84216 104 104 964109 101 8642 102 1612 101 4149 108 7521 102 Ft47 163 5012 140 5531 117 0006 93 88277 91 308 tot 8041 9214eH $F F4969 104 104 98 SF988 102 1541 108 6808 105 4192 10s 90F2 102 7987 143 F109 140 $242 117.3296 94 03F97 91 312 108 Sees 82 94325 9F 41M 104 104 98 91738 102 3932 100 4913 108 4564 SOS 0444 102 8529 143 8923 140 Fe93 117 Sete 94 20004 91 314 10e set 2 921F74F 9F au004 104 104 M 21tFF 102 3352 10F TP22 10s sF14 109 0514 102 4324 144 014 140 01e3 117 8t M M 21314 91 3JO 108 9176 62 192 97 943e6 104 104 M 14287 1021T35 103(*M 102 7291 100 we9t 102 9289 144 SeM 141 0288 917 3FF3 M 06987 95 374 10B 9844 92 20sFO de 00715 104 104 98 9e020 tot 983 100 6442 100 0314 tot 0175 102 9?91 4 4 0222 tot 00ss 117 1606 93 43418 91 329 %10 0494 32 22128 M 042 104 104 9e SF4J9 102 0879 102 2417 111 das 100 08le 103 04$7 964 0444 fee teot 117 2353 93 95444 91 3 12 110 0e3e 82 2390s Se t29se tot 10e 98 F7194 102 3879 10s 4547 w& es F9 109 2255 1011191 tM te15 140 9906 117 5654 M 1297S 91 SM 916 1291 92 24428 3814est 104 104 M t4309 102 3TF3 109 4F14 10B S2M 10e 3s14 103 1693 144 30e8 141124F 117 4087 9429000 91 340 tie tett 92.26123 98 24MF 104 104 98 39144 102 5384 107 446S 108 M61 109 3904 103 1999 144 4164 1412939 ttF SM 94 30063 91 344 110 2032 92 2F432 98 30373 906 104 He-M 33987 102 322e 103 4442 102 Ft33 100 3463 103J251 M4 433t 14130 11F SM4 M 19623 91 110 2524 92 2se0F es 3e04 900 toe to 05200 1021TFS 900 7154 100 0344 10e 307 103262 144 3904 441J338 117 3e14 to 01F95 91 352 1 4 3001 92 3013e 44 49003 104 104 35e 98 MJD4 9023779 902 3087 101 6491 105308 103 3237 164 490s 141 7753 117 4301 M GM27 91 9 te 3371 92 31307 90 47014 904 904 98 $3219 102 5629 10s F211 10E F448 500 9038 101 3514 144 $141 M12955 19 F444 M 20025 91 300 tle 3544 92 32594 98 82290 104. 104 M 25F95 102 7574 105 8331 tot SFS3 ice 4301 103 4374 4 4 8496 1414J06 117 900F 94 38F94 91 1
__.]
Computed by: Date: CAROUNA POWER & UGHT COMPANY Cciculation iD: OVA . Olm Yaruan Cal 8/24/96 Checked by: Date: CALCULATION SHEET Pg. / 2. I ori30 nrv. 0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Tune P9) RAFi2 RAFL3 ftA FL4 Rwt Rw2 SCTRM USAM U1 BRA uttes UtcA3 USCM U1 CPU U1C&A Utgift U1PIC U1Rx 344 110 3913 92 33FF3 Se 37483 104 104 to 642 102 7143 10F Boes 107 0u09 10e 6544 103 este 1H Fee tot SFoe tie 0024 94 3F429 91 See it0 42E3 92 MMS 98 42S89 104 104 M 48F4 F 1024MF 103 H M 102 64 P9 100 0011 103 4 F18 1H FS23 14t H14 117 F9#4 94 22902 91 3F2 016 esti 92 3E224 98 SF9a6 104 10e 99 19630 102 144 900 FF3 100 94PS 900 $$62 103 8044 tM 70FF tot 003F t171263 94 00999 99 376 110 5108 92 37438 94 F2661 104 104 98 98133 102 6421 102 3s49 101 0003 100 0064 103 5596 144 7080 141 5373 117 682 94 toest 91 3eo 1to Mt F 92 3mes M FF4M 104 104 M 06574 102 F13 108 M44 106 F98 10e 7309 103 5223 1H 8036 141 Sees 117 0018 M 27F91 91 3a4 110 Mit 912nd F t 94 42212 1M 104 90 35F19 102 99M 100 6441 106 UE2 105 De03 103 6629 tM 9298 141 MP2 118 1422 94 43522 91 See t10 9641 92 e074 M ea43s 104 104 99 esF33 102 OnM 107 MF9 107 0470 109 &a29 903 SP99 166 eise 1418 tot 118 1492 94 44159 91 3e2 110 61M 92 41M3 98 91420 104 104 99 91087 102 6430 103 8934 102 09M 100 8197 103 6488 166 0147 141 0738 197 8996 94 292F 91 3es 110 589 92 EMF 3 9e 95977 104 104 99 31498 102 4918 100 8211 too stia 108 Ft42 103 7104 1M M18 141 L29 117 teF1 M 11213 91 400 110 eaF2 92 440s1 De 0044e 104 104 9e 08F95 102 8448 102 411 101 M32 los 813s 103 Fe01 1H 9%59 141 FSS 11F F164 M 18929 91 40s 110 7132 92 4t124 99 0470F 104 104 901FF31 102 4817 105 4195 106 43F2 100 MJG 103 810e 986 041F 141 7999 118 0325 94 337t t 91 408 110 F297 92 48106 M 09001 104 104 90 eMil 103 0445 10e F264 108 tem 110 Osat 903 8563 185 1801 141 0731 118 2eH H 49314 91 e12 190 7459 92 4 P072 99 13136 10e 904 99 FF2 102 99ns 108 10F osse it0 0FSF 103 8874 1ES 2401 142 0009 118 2714 M 49797 91 416 910 7707 92 440F3 M tF24a 104 104 99 71367 102 FF29 103 4349 102 9319 110 0076 103891 teS 2308 142 0075 198 018e 94 MFlf 9% 4 20 tie s036 92 49103 99 21331 tot 104 9e 41489 102 0181 100 3613 100 22a9 100 9513 103 asst tat tFt2 142 0172 117 783 D4 20047 91 424 110 1364 92 0011$ M 25341 104 104 9e 19487 102 7076 102 4499 tot SF3 100 9021 103 6112 165 1684 tot $3s4 117 4301 M 221M 91 413 190 06F2 92 50069 99 29221 104 104 M 27068 102 9719 108 457 106 8Ft4 190 1149 103 9883 14523e2 14t S39J 1981494 M 3e409 91 eU t to MM 92 S1MS 99 33003 104 104 to 4a534 103 1868 109 ft24 108 0983 110 2282 104 Otte 166 3507 142 0452 118 3F37 to H307 91 436 910 sats 92 Smit M MFM 104 104 M asse 103 1131 tot 0365 10F t196 110 2419 104 02F3 tes 4244 H21F68 114 3FM 94 6443 91 440 110 Sun 92 53FM M 403eJ 104 104 99 F9969 102 MS t e196 tot 9639 110 1891 104 0251 ISS 4000 142 2296 tit t14~ to 3944 91 end t to 8314 92 546s4 M 44069 104 104 90 egne1 102 F2FF 't i a 44 100 2590 110 1984 104 0383 145 3443 1421F45 tiF 0796 94 25174 91 4* 0 % to 9597 92 58582 99 4F962 104 104 M 2FS$1 102 4149
- t #4 101 F09 110 1464 104 0FF5 145 3285 142 0913 117 9329 94 2ess 91 44 110 9FF9 02the M Sit 12 104 104 M 34451 103 0794 +'A *06 9007 1t0 2069 104 1297 166 4006 142 De75 9'4 2327 94 431M 95 4 14 110 9487 92 6F235 M 64133 104 104 99 M079 103 26 F6 kJ > . M9 110 3743 104 1001 180 508J 142 1092 lit ecte 94 58598 91 440 110 9e65 92 5a026 99 87852 toe 404 99 932e8 103 21M 90s t . 5 .47 410 3M2 104 tM2 te& arst 142 3146 196 45a9 M aaF96 91 444 111 0131 92 ses4e M e1141 toe 404 to 87165 102 9a24 103 09Ju let 4908 110 3043 104 ISF9 145 MP5 142 3653 118 2015 M 43Se 91 468 111 038 92 85P02 99 44459 104 104 M 64429 102 823 100 9229 100 2ea 190 2445 104 146 te6 4aFF 142 3062 197 9603 M 29134 91 4 rt 191 064 92 40EM M 4FF01 104 104 99 343FS 102 0079 102 5006 1Jt F343 110.2Fa2 104 203 165 4a35 142 2192 114 0113 M 30314 91 4 F4 1%i nF92 92 01313 M 70837 104 104 99 41270 103 1671 108 9144 106 SM i10 3062 tot 2526 teS 1356 142 211F 114 3048 M 449E2 91 440 111 Cast 92 SJ0M seFMF 104 104 99 F2395 603 3682 100 0172 los 7491 110 5007 104 2805 145 8308 142 3098 114 5312 94 62299 91 484 111 Ost 92 42743 99 76449 104 104 99 M193 103 2952 106 De 107 1701 1to 80F3 tot 201F toS 703S 142 433F 114 M02 M 42373 91 444 191 1069 92 43488 99 79R25 104 1M M 93179 103 uert 103 F2?9 103 0133 110 4263 104 2717 th ea03 642 4709 110 2Fil 94 47027 91 e32 1111J91 92 MJa$ M EJFSF 104 104 99 8J6FS 102 9059 100 M44 100 30F9 190 3615 104 2754 165 600F 142 4144 113 0279 H 32iw 91 495 111 1915 N 850Je 99 85714 104 104 09 400M 102 test 102 6123 101 FSS4 110 3924 104 3139 165 5809 142 3264 1f t OFF 94 33832 91 GCO tit led? 92 65F29 M 84541 104 104 M ess44 103 2442 108 9M3 106 H54 190 53rF 104 3643 945 6474 642 3155 198 3F25 94 80197 9*
504 91118 F4 92 H2FS W 9126F 104 104 96 TF883 103 4333 100 $381 108 FSSS Ito 0097 104 3641 165 F4F3 142 4109 tit 5984 to 66443 91 400 1911F12 S2 6 F013 99 81944 104 tot 100 6452 103.3744 108110e 10F 1894 190 6138 104.3827 165 8nes 142 5318 tit le 94 eM44 91 512 111443F 92 sFeae 99 9ea24 104 104 99 94224 103 t400 103 7432 103 0322 110 532 104 3897 185 7523 142 SF43 114 3294 M 90021 91 Sie 911 2047 92 843e6 99 9e307 104 104 90 8F579 102 9FSt 10f. 9e=1 100 3Mt 110 4E28 104 370s taS FOSS 142 5082 itSOMS M M4Se 91
$20 f t12299 92 secas 100 0995 104 104 90 44812 103 0646 102 1514 tot FF32 110 4911 104 4038 186 4F64 142 4*34 198 132 94 Mes 91 EN 191 23S5 9J S9'N 1000H9 104 104 99 89438 103 31$1 90s 954F 10S pa25 190 4042 104 4463 185 F405 H2 4Q31 194 4201 94 82574 91 528 911$NS 82 70305 900 Obte 104 104 98 4211F 103 Sout 100 85S7 108 F948 110 F039 104 4734 145 83F9 64J 4957 918 548S M tot 54 91 M3 199 2184 $2 FORT 9 900 0835 tot 104 100 0043 103 4404 108 12s4 10F 206F 190 7048 104 4884 146 0e81 142 0143 198 6401 94 MOF8 91 SM 111 249 92 71489 10011FF 104 104 100 0248 103 20M 103 F603 103 0481 110 s214 104 4M3 teS esr2 142 8844 tt4 3?t3 94 &2 Sat 91 MO ttt 2641 92 F2134 100 H2 104 104 M Fleet 103 04t2 100 MJ6 100 MtS 110 SS0t tot 413 145 Fee 142 58F 118 132 94 3790t 91 544 t112966 92 4F65 100 Itse 104 104 M 44a02 1011212 102 84F4 tot its1 110 Stee 104 dad tu me H24W 114175t M 3eI24 9i Set 191 2363 32 F3M eno sses 104 104 M S5308 103 3F53 108 9701 10E 9750 tie seFF 104 S279 145 8181 142 4748 116 4F1 94 85JS4 91 5A2 111 293 92 F3053 100 2108 104 104 M 86&J6 103 $6eS 10e 8704 105 7985 110 7054 104 6508 145 9129 142 5871 118 0918 M 704FF 91 See til 2949 92 F43F9 100 2327 104 904 100 1243 103 49F9 108 6431 107 2193 110 F552 104 685 145 9891 142 GHS 918 3a22 M FG137 91 te0 lit 3MB 92 74831 100 2MS tot 104 100 08 1033617 103 F747 1010615 110 0004 104 5274 145 0301 142 F217 114 41H M S4791 91 Se4 111 3214 92 PS519 100 2795 104 104 M FS134 103 SeM 100 9988 10E 3S46 110 825 104 5242 1SS 4548 142 8525 114 1719 M 40100 91 tes 111 3383 92 70003 100 2981 104 tot te 121S 1031FS2 102 sent 101 son 8 110 4607 104 M35 teS 8235 142 5656 114 2Ist 94 41219 91 572 111 3458 92 F9e14 100 3109 104 104 M sam 2 103 42B1 105 883t 105 9889 190 F001 104 See 196 M29 142 6343 118 5000 94 57390 Df SFS tt13438 92 FF081 100 33e9 104 104 9e SeesF 103 e11 10e as20 105 4t 110 9842 104 91F2 946 9754 142 SN1 9 I8.F243 M F2408 91 Sao 911 3423 92 F7546 t00 36a5 tot 104 100 tMF 103 6444 10e 1554 10F2E4 tt00M3 104 8102 908 03 542 74tt 114 717s M F*FF2 91 See 111 35 92 F9044 100 3FEJ 104 104 100 0894 103 3191 103 7967 1040F27 110 Fess 104 Sect 145 MF3 142 F744 11e 4530 94 58879 91 Osa 9tt 3e62 92 75581 100 3382 104 104 90 F9031 103 1440 101 0082 100 J664 160 0819 104 98SS 166 9142 142 7075 110 20SS M 4198 91 692 191 A14 92 F9105 100 4t F9 tot 104 M &4962 1032215 102 Se22 101 8112 190 715 104 6137 14S 8F93 H2 009 196 2495 94 43014 91 tes 1113e #9 92 F9577 100 4387 104 104 M 41312 103 4F43 108 994 10$ M01 190 823 104 0551 1ES t37 H2 5901 118 5406 M 50149 91 500 119 3549 92 FS94e 100 4S47 104 104 99 915s 103 6542 109 8932 10ESI97 110 9177 104 8F52 146 0283 142 6FFS tit FS9 94 /40M 91 904 til 3E22 92 Me13 toc 4725 104 104 100 1801 103 SSJe 90s 1654 1672406 110 9144 104 esse les OSI 142 F91 114 7473 94 F3531 91 ens t113987 92 Gusta 100 4904 104 104 100 1149 103 354S 103 7909 103 0822 110 82S$ 104 0450 tes 0448 142 4261 114 443 M 84298 91 612 it14014 92 311$5 900 S006 104 104 M 00444 103 1873 tot 9141 100 3F45 116 F492 104 M95 14S 9823 142 7539 11e 23N 94 43526 91 0 to 111 4143 92 81834 100 S;;e4 104 104 90 SF125 103 JM1 102 8017 101 SJ01 110 FFt1 104 ese t 945 326 142 4541 194 2FF 94 44564 91
$20 t t142M 92 8IJ81 100 54B 104 104 99 835 103 815 10F 0032 108.0076 110 4F"9 104 FOBS 195 98J4 H2 6342 194 56F2 M 00849 91 424 111 4194 92 BJE30 100 55e9 104 104 99 9URS 103 098 109 9021 tot 82F9 1to 9F13 104 F254 186 0FF1 I42 F203 114 F648 M F5489 91 62e 1114tSF $2 83012 100 5759 104 104 100 2015 103 6316 tot 1F44 107 2444 119 9444 104 FIS 106 1237 142 $324 11e M24 M FS364 91 832 911 4213 92 U423 100 5922 104 104 100 1350 101 3827 103 8056 101 0801 110 #FG7 104 GSla 146 0883 142 SSM 114 $0FS M 5ste4 91 SM 111 4354 92 63886 100 east 104 104 9e 42511 103 224F 101 0264 100 3823 110 7992 104 8842 148 0026 142 7931 118 2SFS M 4 dest 91 440 t114431 924000 100 6251 104 104 99 $9313 103 3008 102 0000 101 8275 110 8J 104 71to 1AS 96St 142 0922 114 3002 94 4SaF4 91 544 1114$33 92 a4aes ic0 840s 104 104 98 5$615 103 S508 107 0T1 908 0149 110 8257 104 FS13 168 0204 142 8712 114 9ats M S1638 91 648 11144M 92 81034 100 45S4 104 104 98 95641 103 F311 108 9095 108 U48 1110t81 104 F945 Ne t00 H2 FS63 114 8084 94 7e874 91 632 111443e 92 0SM9 100 eF 1M 104 100 2198 103 0e4 108 182 107 2555 111012$ 104 FS9 19615.3 5 141 0674 tit F94 94 7e675 91 054 191 4447 92 8S742 100 8848 104 104 100 1537 103 4264 103 8127 103 0944 190 9214 104 F31F 188 1231 142 9004 198 S232 54 eOSF4 91 See t t14A21 92 98159 000 E999 104 104 M 94235 103 2SFS 101 0334 10E 3484 110 M29 104 F2F 188 0184 142 4262 118 2FFF 94 4e042
- 91 ese 19 9 4FS 92 86553 100 Flee 104 104 M 80088 103 3331 102 6146 101 8339 110 862F 104 FStr 14$ 995 143 F244 118 3197 94 4F006 91 SAs 111 4754 32 ea90S 10L F299 104 104 99 6712F 103 5426 10F 0175 10B R209 110 96F5 104 F904 198 0523 142 7025 118 0088 D4 63039 91 972 ill 4F29 92 8 F208 1917424 tot 104 M 97203 103 F821 100 9167 108 840s 199 0 Set 104 004 Set H03 142 FasF 110 825 94 FMf t 91 6 76 11144FF 92 87508 100 FS54 104 104 100 235S 103 0eH 108 1882 10FJs13 191 0S26 104 F954 146 tg9F N2 89F 114 e129 94 FF622 91 000 11147to 92 4F94F 900 F991 104 104 100 tese 103 4142 103 8184 103 1025 110 9405 104 7724 tes 1524 142 3292 1to 5457 M 01895 91 ead I11 4444 $2 08223 100 7129 104 104 99 B5487 103 297 101 0353 100 3943 110 0812 108 7629 tee 0849 H2 8542 118 2947 M 47014 91 e&G t t14984 92 84S92 100 7965 104 tot 90 52399 103 3816 102 4223 101 0 92 1to 9c42 104 7957 tes 0254 142 FS16 118 1963 to 479FF 91 992 til 4996 92 80912 100 00p4 104 104 99 4448e 103 5105 107 023 108 0261 111 0042 104 4248 tes 0791 142 F289 til4249 61Utes 91 996 191 4935 92 89104 100 8214 104 104 Jt jeR 103FM6 109 921 105 e455 111 095 104 8417 196J)S4 N18124 114 8404 94 Feete 91 p,f F00 11144FF S2 864S3 100 4337 104 104 ( 100 244 ]9103 F233 10s 1935 10* 2842 11' 0s 77 104 8298 Qg4 21D 142,9 110 829 94 FeS2 91 704 tis 4912 92 stret 100 see 104 104 'T0ptu 103es2F 103 a24 tus 10r3 t10 9949 104 804e ses tM F4Tes .. tia Sc04 94 s2rf t 91 708 111 4035 92 90107 400 85e8 104 104 90 8891 103.3129 101 0443 100.3ees 110 914e 104 F942 tes Ossa 942177% 11e 30st M 47953 91 F12 til 5112 92 90448 100 0711 104 104 99 43540 103 3eF2 102 4271 tot MN 110 9331 104 4174 106 0444 142 TF48 114 3503 94 San 11 9t F14 11181F5 92 9073F 100 st29 104 104 M AWE 32 '01 6356 10F gZZF 108 1910D4 1 188101 F H2 FS14 913 4195 to 91 F20 f t1510s 92 909s 900 894 104 104 99 99631 @MI M .
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c - - .. Computed by: Date: CAROLINA POWP & LIGHT COMPANY Calculation ID: Yaruan Cal 8/2496 #^ # 4t Checked by: . Date: CALCULATION SHEET Pg i22 or130 an.o Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Trn pt) U1STW U1F91 U1782 ult 83 U2HFtB U2 cat U2 CPU h&A U2Efit U28'tC U251w 3 M IM IM fM LG.M, t U2,n4A M - M U2.CA2 4 M - U2R,K U2,7,31
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.40 127 7582 in 123 123 90 06283 94 50033 96 63948 M tGBtt 90.73644 GO 96 91522 9F 41987 07 99717 91 91 M&35 79 164 tJ6 91F8 123 123 123 90 34t37 M Mess 100 tJ07 94 2uB45 90 82001 84 98 9440 9F FFOSF 90 48766 91 92 5e4N FS tse 12E 307 123 123 129 901214F 10191M 103 5M2 94.29064 90 974M M 10194e9 04 19191 915MS2 91 93 F174 78 1F2 128 8472 123 123 123 to ese83 100 done 102 test M 3047 90 9214e ed 100.2923 08 3C26 91754E3 91 93 99803 75 170 12E 8147 123 123 123 90 71375 98 53031 98 9447 94 25327 00 9sF15 es 97 3212F M 17594 00 26758 91 $320031 70 100 128 kel3 1 23 123 123 to 1221 93 t$327 95 3F2 94 21789 9101M1 ta 96 18048 tr 97517 87.12581 91 92 15625 78 184 129 t753 123 123 123 90 20a23 94 87734 96 61708 - 94 20029 99 ce182 to 98111F2 'A DEC79 M 03864 91 91 SM22 F9 tee 129 3014 123 123 123 90 4e603 De t.1ees 100 7061 94 36267 91 9731 Se 96 181 M 3SF90 90 45074 91 92 84742 FS 192 129 EMS 123 123 123 to 644F3 101 9406 103 Sits 94 44383 91J20&2 00 tot 3644 92 7 813 92 19433 91 94 02707 F0 19e 129 8F1 123 123 123 to etort 100 4ee2 102 Not M 45818 91.23F06 88 100 4803 pt B2e65 91 9500s 91 M 30129 79 200 130 05ee 123 123 123 90 30447 96 10794 98 21911 94 43301 91295e8 la 9F 49M 9t F7FD1 99 4014 91 93 494e4 79 304 1J0201 123 123 123 00J4379 9122914 96 44292 94.38 FS 91 32300 48 9& 25275 98 5079 SFJ4F39 91 92 44433 70 30e 130 M17 113 123 123 so 32FS M F90ST 98 Ge$as 94 40e51 913SF44 M 95 27994 98 57544 SE 14187 91 922857F F9 212 130 8168 123 123 123 90 58217 08 30nea 100 7983 94 40648 91 4414S 48 90 32H4 98 87759 9& T9ue9 91 91142e 79 21e 130 F217 123 in 123 to Felos 102 MFF 103 4747 to Sea 2S 91 90379 48 101 Stet M 25007 92 392 91 94J9337 79 220 13n 9234 123 123 123 90 F1=F1 100 See5 102 3037 H 59e99 91 53163 M 03011 100 6442 99 30t74 92 esses 9t M 865 F8 224 131 9794 123 123 123 90 E0796 96 tF216 98 23242 94 Mete 916ea03 08 01804 SF M471 M tF254 99 814F3 91 $3 74908 F9 228 131 1864 123 123 123 90 35670 $329254 95 50442 94 80e13 91 5744 G8 95 49831 98 93t16 97 3504 91 32 89279 79 tu 1312952 623 923 123 90 43F94 M 8t23e la Fes42 94 54F3e 91 53108 44 98 4Mt 94 00181 84 29667 91 92 50FF9 FS tis 131 434% 123 123 123 to te0N 95 2t204 100 HBS 94 44452 91 F003 48 SS 47112 99 27449 10 90654 91 $3 40291 FB 240 131 0130 123 123 123 90 8A814 102 0973 103 r34 M FNF3 91 kJ951 en 101 64s4 M E3278 92 M7s2 91 94 B22s Fe 244 131 7968 123 123' 121 90 82534 100 H13 102 384 N F1331 01750s$ 44 20684 100 7915 98 75223 92 20597 91 M F9M9 79 248 131 9125 123 123 123 90 6111F ta 22ett 9s 340es 94 sFF61 9179&M 68 223e6 97.FF229 98 5380s 09 00e81 91 93 9822e F8 25J 131 9888 173 123 123 00 45Ft4 $313918 96 40e86 M &3 Fen 91 FS417 40 e6 5e6 8 98 29045 SF 4JF02 91 92 90431 78 255 132 9793 121 123 123 90 $3313 94 86412 SS P3779 94 67499 91 83447 Se 98 64799 99 33145 88 36195 91 92 F1936 F8 200 13219e8 1 23 123 123 to Fles2 to 31202 100 3063 M TF223 91 Dsted 88 to 64506 99 85744 91 00312 91 93 4221F F9 264 132.34F9 123 123 til 90 98521 102 139 903 785 M 648F $2 63474 48 0BFF3 10175ef psf 4649 92 87445 91 M F2562 FG Jus 132 4965 123 123 123 90.92397 100 8852 102 4154 94 0S505 91 e6025 as 37465 900 8964 100 05F9 92 30337 91 95 0n183 79 2F2 132 0017 123 123 123 90.70443 98 2700F 94 30009 N F9735 91 MH9 &$ 49129 9F 80013 99 83169 59 6a9F3 91 M IS4t3 F8 275 132 4841 173 123 123 90 54984 93 3E139 95 44100 94 F5139 91 96053 64 17157 95 70f04 99 58108 47.9006F 91 93 10294 F9 200 132 F250 123 123 123 to 42819 94 90F2 ts es2M M 79079 92 Out*33 GB 9e 06137 99 41076 es 424M 91 92 90342 79 234 132 8243 123 123 123 64 87658 99 34594 10ntMG 94 40806 $2.08F58 88 99 F4172 M 92FS 91043B 91 $179941 75 2es 132 9532 123 123 123 91 05213 102.lF37 103 8272 94 98081 92 19998 54 24337 101 856 100 205t 92 TF9FF 91 94 90413 78 292 131082e 123 123 123 91 00082 100 ??tG 102 aio1 to 96495 92 9108 48 E394S 900 9919 tW 3000 92 J6478 91 95 1819 79 296 133 1793 123 123 123 90 F0799 96 30716 98 432$ M 90526 92 10404 es t&115 97 97112 1000M4 M FSH6 St M 35624 FS 300 133 214 F 123 123 123 90 8314e 93 42014 96 503S4 94 48133 92 10981 68 35468 95 79029 99 820F2 07 57052 99 $3 2752 79 M4 1332593 123 123 123 90 FUE36 M M109 98 93FnB 94 SedFF 92 151 4411F2 96 T307 90 M298 88 48015 91 H 07033 79 3 34 131 3411 123 123 123 94 96492 99 3762S 100 5754 M 9st21 92 20e95 64 1.1647 99 8M12 100 1525 91 15433 91 $3 9s t4 F 79 312 133 4535 123 123 121 9912H5 132 2026 103 8829 95 05129 92 33901 to 40FH 101 8375 100 4J01 92 36503 91 96 06444 F9 314 133 8679 123 12.1 123 91 01374 10C FStB 902 4H1 95 04332 92346F5 88 70522 101 0736 100 S171 92 45293 91 95 33910 78 320 133 M 123 123 123 90 98164 96 3'est to 45791 95 001F2 92.2369 es F4944 98 04824 100 2992 et 81254 et 94 81297 78 324 133 86M 123 123 123 to FS982 63 45079 M L3B2 M 95A81 92 2182 44 819R9 95 88580 t00 0195 OF 82152 9I El 42944 79 320 133 0999 123 123 123 Sa F7926 M 9F309 08 874e4 M eer%4 92 274 t F G4 29066 98 8125e 100 0360 04 53147 91 93 21745 79 332 133 F655 123 123 123 91 02416 99 4030s 101 0075 95 07923 92 33084 48 29979 Seam 9 100 3138 91 20049 et 94 10623 79 1 38 133 8879 12) 123 123 91 19753 102 2206 103 0926 91 15074 92 45454 44 565e6 1G2 00F2 190 590F 92 SM59 91 95 20608 FS 340 1339sst 121 123 123 91 ;$003 100 F798 n32 SMS 95 150s 92 3a236 es 390F 101 1425 100 6901 92 50979 91 95 4F535 ft 344 9M $284 123 123 123 90 02673 Ga 3s441 Os 1976F 95 08742 92.34eet es #3244 98 11347 100 4504 09 85949 91 M S4454 78 544 134 DeSS 123 1 23 123 to F6FF $14FE11 96 ast324 96 930e8 92 3440s Se Gegee 95 92974 100 1644 47 88428 91 93 56403 FS 352 134 0044 123 121 123 to 84165 94 99812 97 00839 to cesst R2 3'996 Gs 42764 98 8F498 900 1954 84 88061 91 93 34413 78 364 the 1221 123 123 123 91 09503 99 42944 tot 0354 96 1595 92 43353 to 44384 M 96423 100 4954 912543B 91 94 2293J 79 360 134 2105 123 923 123 , 91 25745 102J464 163 914 95 Z2966 92 86094 44 70697 IGI OS67 100 F4F1 92 99605 91 95.32506 78
Computed by: Date: CAROUNA POWER & LIGl(T COMPANY CrJcul: tion ID: Yaruan Cai 8/24/96 OVA.OlN Checked by: Date: CALCULATION SHEET Pg. lM of 00 Rev. O Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Isne pt) U197W U1Y91 Uttt2 U1783 U2 AIR U29RA U29R$ U2 cat U2CA2 U2 CPU U2CSA ttJtitt U2ptC U28u U2$1W U2T91 3M IM 30t 123 123 123 9120eJS 100 F9'4 102 6802 M DB2 82 400M se 94838 101.2004 100 $341 92 56745 91 95 6t442 F9 ase IM 3501 123 123 123 90 94381 M 3M57 98 622e8 9414310 92 44184 09 83744 MitMF 100 4011 89 99401 91 H Feter 70 372 1M 35F2 123 123 123 to 823s3 33 49Fte 96 6e448 M 19402 92 4J91a se soies 95 94158 100 3224 0F 70012 91 83 ese06 78 3F4 1M 3eeS 123 123 123 to 89432 98 01892 97 63319 M 14J43 82 44es3 es E58F1 M 32F42 100 33 et Stue St $3 48333 78 3e0 134 4tSt 123 123 123 91 tM37 99 44e48 1010ses g623107 82 82138 55 8F00F 100 0089 100 62M 91 29886 91 M 15e 79 3a4 134 EMF 123 123 123 91 300s 102 2829 103 93s3 95J99F9 92 $4644 ga UQ31 102 114 100 8711 93 0458 91 M 4296 79 305 1M 4FE3 123 123 123 9125e2 100 8143 102 SFie 96 29539 92 5451F et fits 100 2494 100 9Mt 92 SeF33 91 96 ens $8 Fa 382 1 M etta 123 123 123 91 B13F2 08 40308 94 H412 M 22n58 92 82321 99 15517 94 214F9 100 F191 99 93t FS 91 84 85948 FS 3a8 1M 6tSF 123 123 123 90 8F251 63 51591 M418Fe 96 tF927 92 91491 e4 91079 M O2003 100 437 SP F3018 01 9376393 78 400 1M 6171 123 123 123 90 M400 M OM99 97 06545 to 20E3 82 84S62 44 east M 9 FOS 4 100 4413 M M642 91 62 MS96 70 404 1M 8483 123 123 til 91154M 99 4&D4 tot OFM 96 25382 92 See61 44 SF97 100 0489 100 F33S 91 333 91 e4 4 Jets 78 408 134 F3D4 123 123 123 91358e7 102 2F&3 103 9674 M 30113 92 F2043 44 63F34 102 1585 100 9744 930M9 91 96 61819 F0 412 tM en44 1 23 423 123 9130M4 100 8291 102 59 96 35425 92 41F23 69 222E3 101 290s 8010M2 02 410F3 91 M 70198 79 die (M S383 123 123 123 910FF24 M e t F44 98 64202 M Jted t 92 S92t$ 09 2SF t1 98 25376 100I178 M 95815 91 94 Mus 76 4JO tie 83 '3 123 123 123 to 91511 93 629ea e6 433s 96 2n49 92 64233 esDieis MonPCs 100 532s 87 76632 91 93 343Fs Ps 4M 1M 4253 123 123 123 90 90588 M 04939 97 08701 M 26229 92 01118 es F9644 97 00e00 100 &M2 84 eF217 91 93 62444 Fe 42e 1M 8803 123 121 123 91 22549 98 4TF06 101 DOE 3 95 34444 92 esas2 es F74M 100 085 900 4238 913e181 91 M 504M 70 4 32 SM SM4 123 123 123 913u651 102 2sF3 103 9F26 96 41487 92 76379 99 82968 102 1913 1010e06 9312t 36 91 M s9JF2 79 4 38 1M 9MF 123 123 123 91 34231 100 t e4 102 8n53 M 40e66 92 efste et 31269 10132M tot 1379 92 6547 91 ts 65563 79 440 tM 0226 123 1M 93 91 11505 98 42937 N SFFUF M 33983 92 45249 Se 34491 M 29854 100 8097 69 98249 91 96 01443 Fe 444 135 0089 123 til 123 90 96214 53 64tFF 95 64a54 96 2es55 02 64000 99101F3 M DH21 100 0125 $F FF942 91 93 91S44 79 444 1M 9985 123 123 123 91 02104 96 0808 9F 82Ft3 96 31124 92 88F43 et 64024 9F OJEM 100 4119 M GSMJ 91 93 $9203 79 4h2 1B 0Jt3 in 1H 123 912e0F3 ge ssaSF 101 1903 M 30&1b 92 71691 80 8554e 10011M 100 0953 91 38559 91 M 570F 70 414 12 0eM 123 1H 123 91 4301 102 2963 103 MS2 96 4e143 82 83797 es tosM 102 2207 101 tsm 93150te 91 M s5a 79 eso 135 1520 123 in 123 91375ae too sees 102 8t42 M 45442 92 F3143 GS 3eet? 101 3546 10120Fs 92 e4213 91 ts 91s24 FS sa4 13S IFM 123 123 123 $114FM 98 4M13 M 689F3 96 3843S 92 70359 88 42022 M 31494 100 98e8 90 00tte 91 M 0FE28 FS 440 135 1579 123 123 123 30 9e420 83 MtFS M e8117 96 3M24 92 8a950 00 17506 M 12822 100 67t3 SF FM11 91 93 9F449 F5 4F2 1M 1427 123 123 123 91 06321 M cF00s 97 03e64 96 353M 92 F1544 e4 920e9 97 06464 100 erst ea F1124 91 93 F497 79 474 135 1483 123 123 123 91 2913 99 49e17 tot 1221 95 43e17 92 F5311 es 32E32 100 tot 100 9E25 91406a0 $1 94 62694 79 ea0 135 2252 1J3 123 123 91 44000 102 3n3s 1M 9% 95 50279 92 88442 881F88 102 2454 101 1929 $31742= 91 95 71254 70 4M 1M JS4S 123 123 123 91 40499 100 854 102 8291 96 49411 92 TFF14 89 45579 101 379 101 2443 82 F0177 91 96 9F144 F8 448 135 3a36 123 123 IM 911Fe41 M 44714 M oonie 96 42332 92 74742 89 46441 9e 33732 101 0261 90 01819 91 M t2794 rs 492 1 5 2815 in 123 123 91 01212 63 &e004 es tFt rl M 38431 92 F3203 te 237F e614495 10a F362 SF 80e98 91 M Q2496 FS 496 1M 263 123 123 123 910eaM 95 0FE32 SF 04964 96 3stle 92 75848 Se tet? 97 0F876 100 F312 e4 F2619 91 93 F9ese 7e 500 11S 285 123 123 123 9131FFF 99 $0819 tot 132 OS 4F459 92 80M8 Ga EMF 9 100 tot 101 9156 99 42256 91 M sie F 7e 904 1M 3385 123 123 121 914e803 102 3096 104 OM 9613M3 92 62422 Se 23449 102 2041 tot 24M S3 1944 91 95 F5891 78 608 1M 3M4 123 123 123 91 43010 100 es21 102 83a2 se 12904 92 e teot 69 St208 101.3e98 101.3153 92 F1825 91 90 01654 78 812 136 4102 123 123 123 91J0106 96 45373 M e00M M 4SF24 92 F3501 69 5395 98 33883 10t 0743 90 0314 91 M t7tF3 P4 Gl4 136 M49 123 123 123 91 0352 $3 50437 96 0e083 M 40144 92 76044 te 2911 9614e06 100 Ft21 47 82142 91 M 06F58 FG 620 m RM 123 123 123 9110Ma M onSte 97 05e07 95 42354 92 F9244 09 0336F 97 0963a 100 F799 N F3eF4 91 93 04012 79 E24 1M 382$ 123 123 123 9134n87 96 51296 101 1403 96 Sos 24 92 E3829 090308 100 teos 101 0509 $14 MF2 91 M F152 F9 S28 m SU2 123 123 123 91Ik3044 102 3142 104 012s MSSM3 92 Ma32 99 2ates 102 2eu 1012eSe SS 21128 91 95 79518 79 S$2 m eas2 123 123 123 91 44196 100 867 102 6458 95 55422 32 M649 90 See97 tot 4 tee tot Ms5 82 F3207 91 96 06474 ft
$38 136 4es1 123 123 123 91r235 95 45e11 98 8148e 95 488F1 82 81727 05 5e821 M 3F322 101 9148 900432F 91 95 30es2 75 540 mette 123 123 1M 91wF02 93 SF251 M M011 95 43022 92 F9eet 404M51 M 14414 100 821S 97 831as 91 94103sr 7e 544 135 44 F1 123 123 123 9t tM19 95 0ccet 97 05614 96 461F 92 82207 99 07798 97 11107 100 8154 9' '49M 91 93 87124 79 544 tM eM 123 .23 121 913e046 M 81443 tot 94F3 98 EM'S 92 e8407 et Ofte 100 1982 tot OsF2 91 esas tt 94 F495t Fe SS2 1 5 4123 123 123 123 9182F77 102 31F7 104 0189 95 59544 92 90752 68 32588 102 2902 191 3214 93 22543 91 05 83t43 N 064 135 053 123 423 123 91 4/078 10a 8700 SC2 0623 95 55541 92 8FS21 89 90067 101 4318 tot 3s11 92.74Me 91 98 08797 78 980 M 8730 123 123 til 91 24073 M ea343 M s23te M S123 92 M490 88 825e6 98 35701 10114ae 90 052s 91 95 24021 70 864 1M5437 123 123 123 91 97499 335FF11 M e8427 06 49621 92 82053 Se 3F500 9119747 100 8M5 87 64087 91 M 1342 Fe 900 1M 8tFS 123 123 123 91 14172 95 e86&F 97 07111 e6 4F912 92 049 99.11637 971242F 10aMF3 86 75094 91 83 00496 79 S72 135 8323 123 123 123 91 17752 90 52304 101 1532 M 55704 82 88J64 95 914E2 900 3002 101.129$ 9145MG 91 M FF8S fe SF6 1M8F95 123 123 123 91 5436 102.3204 104 0242 95 6tM3 92 9M00 80 38141 102.3108 101 3513 93 23739 91 95 850s3 't 940 136 42T3 123 123 123 91 esses 100 873s 102 4577 96 anst $2 9029s SS 6221 101 4437 tot 4201 92 76344 91 M t1441 F3 See 1M 83E3 123 1M 123 9129ees 98 4e688 98 6265 95 53440 92 asesS 80 65066 M 30002 101.1FF4 9a00099 91 36 30075 79 See 135 C043 123 123 123 M 0en44 93 3400 96 80963 M 47900 92 849E2 99 40FF9 M 20008 100 8023 SF 84aus 91 M tec02 79 902 136 SFS4 123 523 123 9115es3 96 0se47 97 07011 95 4WF3 92 87144 0814F19 97135Je 100 8743 98 F9669 91 93 9300F 79 See m see4 12.3 123 123 91 38224 90 52006 101 1581 96 S7M 92 01582 te 145a7 100 2202 101.1549 914A490 9t M 803 FS 800 1M 434 123 123 123 91 56719 102 3267 10442 95 6M46 32 98231 08 3R154 102 3222 101 3755 93 24728 91 95 8aJG 79 God i2 ast1 123 423 123 91 S0004 100 8791 102 4a22 M E2741 92 92423 40 8845 tot 4A4 101 4446 92 73164 91 96 13762 78 eat 196 8888 123 123 123 91 2702S 98 400F2 45 83290 M 86373 32 8e913 Se tem 3s 90 40837 101 2014 90 0879 91 M 2es17 79 612 m 0561 123 123 121 91 16384 S3 $4393 95 70405 e5 49540 92 34e44 et 4J551 98 21421 100 M57 07 85429 91 M 1814 79 Sto 136 6257 123 123 123 9t tee 87 95 102s5 97 00032 M $ t544 92 910FF e5174t4 97 14473 100 8971 e4 F714e 91 93 96129 79 420 136 4374 123 123 123 91 40494 99 S3004 101 1823 M 98534 92 934S 69 17204 100 2295 101 1771 91 47404 91 94 82M5 Fe 624 M 6805 123 123 123 91348e7 102 33e9 101 033 95 M485 92 99e71 00 41711 102.3329 1013eF7 9325567 91 M 90437 75 S28 135 F364 1 23 123 123 91 S13 100 SFF7 102 test 96 44491 92 94242 et 88932 tot 4626 tot 4652 92 7' '56 91 981$706 78 E32 1M7325 12? 123 123 91 28204 98 4F179 98 83874 M 57044 92 90688 06 71225 M 4 tG56 1012217 900724 91 96 30012 79 SJ6 136 et78 123 123 123 911 ISM 93 58829 55 70F77 M SI2 92 ese44 to 45e98 96 22e06 100 9258 SF 85052 91 M 20018 78 640 t M 98F2 123 123 123 91.1411 M 10619 97 08Je$ 95 S3143 92 9t'22 et 1969F tr 182e 100 9143 M 77713 91 93 9E922 FO See 1J6 4775 123 123 123 91415M 90 8320 101.1GL4 95 8119e 92 96089 991M3 100 2372 1011M4 91 47999 91 M Se t09 76 Set 135 7198 123 123 123 91 47945 102 34H 104 *t363 M 47191 93 00129 69 430'4 902 3412 101 4156 93.26275 91 96 0216 FS M2 136 7644 123 123 123 91 4234 100 8F91 102 4063 M 65979 92 958DJ 49 7106 101 4744 101 4222 92.F7434 91 95 17387 FS 656 1M 7995 123 til 123 91JPa22 98 4FM4 to 163901 95 564T3 92 9219e et F12F2 95 42346 101 2388 90 07438 91 M 324 t3 79 000 IM F337 123 123 123 91 12529 93 Sea 3 95 71082 M S2618 92 90103 69 47906 9& 23270 100 M21 87 88392 91 M 21$72 79 964 1M 702 123 123 123 91190F9 9110FM 97 Caese tiMSee 92 92153 et 2163 9715e25 100 9125 88 F8158 91 93 ts437 73 See 1M 7115 123 123 123 91 42532 99 834F0 101 1647 95 42561 32 96454 89 21300 100 243F 101 2115 91 48S 91 94 85683 F8 $F2 13S 7527 123 123 123 915eF39 .102 34F3 104 0391 95 M501 83 01493 09 457D4 102 3477 101 4306 S3 26864 91 95 93e14 78 479 m F964 121 123 121 91 11217 100 8806 102 972 M sF266 92.9713B 99 F2954 tot 4E15 tot St19 82 77925 91 96 18787 FS 640 135 0005 in 123 123 91 30007 96 4F50F M 6425e M MF5t 92 934A5 09 F5005 98 4293 101J533 90 0s243 91 M 337tS 79 684 135 F438 123 123 123 91533es 93 00004 95 F1350 M E3843 92 91M4 49 49688 96 23851 100 M82 SF 48754 91 M 22885 FS 648 1M F3td 123 123 123 911904 96 10919 9F 00m M 56745 92 93372 59 23245 97 94487 100 9442 Se F9532 91 93 99F17 F9 692 135 F4 123 123 123 91 4334S 90 $JG43 tot 9712 96 83F24 92 97061 69 220 100 2492 101 2249 91 48977 Ot 94 86429 78 948 m.FM4 123 123 123 91 39496 102 38FF 104 0415 M t9635 M 90 4F254 102 3563 93 2F364 91 95 9444$ F8 M 700 1 23 123 123 91 8401 100 8814 102 6F43 35 88313 92 N - e to' eius of 5 92 78338 91 ts 2 79 704 EM in 123 123 913E551 M 4 FS3B 95 80643 92 945e= 98 43423 1 to ostes 91 M 3490s 73 m in in m in Si Min _ M15 98 MFm 44443, M M900 92 9Ma Mum M Me .F mn 9 M2MM n F12 135 F561 123 123 123 91J0834 95110FS 9F 08149 96 5470 F 92 94419 60 2465 SF 100t2 100 MF0 08 F9844 91 M 00F99 F9 714 1M FMI 123 123 123 9 101 1713 9 09 2424F ffyEJe 1012JS1 79 91 ERL 75 mDF10 135 0034 123 123 123 %g93@ 3DM6 49 4456$ 4h3 1014Se t 271 99 Mes) 73 F20005 135 8036 123 123 123 . TW15 1 104 0446 49 4a604 10J 101 4544 93' 99 9TM46J 70
Computed by: - Date: CAROUNA POWER & LIGHT COMPANY Calculation ID: Yaman Cal' - 8/24/96
. WA 0W Checked by: Date:- CALCULATION SHEET Pg.) 2y of130 Rev, O Tom Devote 9/12/96 File: 8220 Project Noa N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis $ e a ? Vaksma eve si tems of sms AORRM. CTLRed.9CTRad 3= j . Tsue Pe)'.UlFF92 UF193 WCC U1EER. & UIEE R Vehens tf sme hm 4) d 9 96 M- 93 PS M AORRed F962 M l 4 M 96 - 93 . OF 00 CTUud assee 93 8 96 M 93 at 81 SCTRae 900F M 12 96 96 - M 91 19 U1EER - geste as 19 96 M 93 92 42 U3EER 96437 F9 30 M 96 93 93 82 test 1MreeJ M M M 93 95 00 30 M M 91 M 01 - 32 - M N 93 96 43 38 M M 93 98 90 V 40 96 M - S3 OF 38 44 M 96 93 98 IS 48 M M M 90 07 i 62 M M 93 98 81
- to De M 93 Se 73 to 96 96 93 Se te 4 94 - M- M 93 100 19 GG 96 96 93 100 0t
- F2 98 -M 93 tot 45 j F9 M 98 M tot 84
- to 96 M M 101 M i M 98 M' S1 191 M -
as SE 96 S3 102 17 S1 98 96 93 102 M 98 96 M 93 101M .; 100 m. M 93 10386 i 104 M 96 93 ' 103 M - d ' 100 96 95 93 103 44 112 M 96 - 93 103 M t te - 96 B6 S3 104 10 $ sw , 120 M. M 93 104 M 9
. tM - 96 M 93 - nee M 120 M 96 93 104 F9 132 - .M M 93 - 104 H -
1M 96 96 53 1H 79
- 140 95 ' 95 93 106 19
. 144 96 M S3 106 M 149 M M S3 108 86 162 96 M 93 106 73 -
1M 96 96 93 108 SF 100 ' 96 SG 93 196 48 9M 95 M M 108 86 tee M. M 93 195 47 1F2 - 96 98 93 - 188 94 . 1FG - M 96 - 93 198 00
.18) . 15 96 93 tot 32
-104 96 96 93 108 40 !
108 - 98 96 93 108.74
- 199 96'- M 93 19F 13
- 19e ' 95 98 M - 107.3B '
3B0 96 96 _ 83 107 12 .
- Ett 95 98 33 IM SI l 159 OS OS 93 : 10B 90 212 - - 95 96 - 93 10FJS -
214 96 - 95 S3 ~ 107 es 330 98 95 . 93 107 F9 ' 2M 96 96 93 197 92 238 95 - 96 93 107 40 232 90 96 93 10F 46 238 M. 96 93 IGF F4 340 96 96 El tot M 344 OS 95 '- 83
- 100 21 See 96 . 98 93 188 02 .
3E2 OS - 96 S3 10F F9 aos 96 96 93 107 93 300 98 - M 93 tat 14 384 - 95 96 - El 108 45 3e8 96 96 93 105 M 2F2 - M' . 96 33 105 38
! FFS OS 95 93 108 63 330 96 95 91 teS14
' 334 98 96 93 108 44 3RR 96 - 96 33 tes 74 202 95 - 96 93 105 M 2e8 96 95 93 _ 100 M 300 96 95 93 10B 38 304 - M 96 - 93 108 40 308 98 M S3 tot 70 312 : 95 - 96 S3 10s to 396 M M S1 195 07 320 M M 93 10s 86 3M M: 96 93 105 91 338 96 M 91 tet 42 332 96 96 93 108 50
'w 338 96 95 M 900 14 340 96 M S3 - tot 27 364 96 95 S3 100 98 348 96 95 S3 105 79 3E2 - 96 95 - - 93 tot 79 -
3a5 - 95 96 $3 100 90 380 96 96 93 '.108 35
Computed by: Date: CAROLINA POWER & L10HT COMPANY Calculation ID: Yaruan Cat 8/24/96
#^ *
- Checked by: - Date: CALCULATION SHEET Pg./2f of130 Rev, O Tom Devore 9/12/96 hile: 8220 IWject No.: N/A Project
Title:
N/A Calculatiou
Title:
Control Building Transient Temperature Analysis
==mM temp of as AOHFus. CTLRM SCTRM Tone qHr) U2193 UPTS3 WCC U1EttL 4 U2EER Wuume of me tas t) 3s4 M M 93 tot 43 3a8 M M N 10e 21 3F2 M M S3 10B M 3F6 M M 93 tos M 300 M M 93 tot 22 384 H M 93 108 49 3s9 95 DS 93 t'e M 382 M M 93 405 M Sue M 96 H 109 07 400 M M 93 tot 0F 404 M M N tot M 400 M M 93 tot 40 412 M 95 93 109 H 414 95 96 93 100 4S 4JO M M 93 tot 14 4 24 M M S3 108 17 4M 96 M 93 108 44 4 32 M OS 93 100 70 41s 96 96 33 tot FF 440 96 M $3 100 M 444 M 96 93 100 27 444 M M S3 100 25 452 H M 93 toe 63 4M 99 M 93 100 Pt 440 M M 93 109 43 4M 95 M 43 tot 62 488 95 M 93 106 34 4F2 M M 9J 100 33 4 F9 M M S3 106 40 480 M M 93 000 SS 484 95 M 93 10e 91 est M M 93 tot SS 492 96 M 93 tot 40 498 M M 93 100 30 Goo 96 M 93 tos M 904 H M 93 000 90 See H M SJ 199 97 812 H M 93 10s 74 StG 96 M $3 109 45 L30 M M 93 tot 44 624 M M 93 100 70 128 95 M N 100 M E32 M 95 61 6 to 01 DB M M 93 106 78 HG M M 93 100 to 544 M M 93 100 48 M8 M M 93 100 74 SS2 96 M $3 100 08 968 SS M N t t0 06 540 M M 93 104 82 See M 95 53 100 S2 See 95 M S3 tot 5i SF2 95 96 83 He 78 SFS 95 M S3 n0 02 Sa0 M gps 93 110 08 Bad M 95 91 10D SS 488 M 96 93 108 57 602 95 95 83 108 H See M M 93 100 81 000 06 M 93 110 05 GM to M 93 110 f t 900 M M 93
- 100 GB G12 95 96 $3 109 59 ett M 95 $3 100 57 4M M M 93 tot 33 824 M 95 93 190 07 SM to M 93 110 13 632 95 95 53 10D to 538 96 95 63 100 61 640 95 95 S3 100 SS M4 SS 95 93 108 65 640 M M 43 110 00 652 95 95 93 1to 14 654 M M 93 tot f2 000 M M 93 10e $3 084 to 95 93 tot St 858 96 M 93 100 $7 972 M M $3 190 f t 64 95 96 El 110 18 Geo M M 93 109 M M4 M M 93 tOS GS See M M $3 tot 62 892 M M 93 10s 88 896 96 M 93 110 12
~
700 M M 93 110 19 l 704 95 96 41 100 M 700 M M S3 100 08 * ( F12 95 M $3 105 64 FM M M u .0 90 720 M M S3 tie ne 720 006 95 SS 93 110 14 I
l l Computed by: Date: CAROUNA POWER & UGHT COMPANY Cdeulation ID: ) OVA OlN Yaruan Cal 8/24/96 Checked by: Date: CALCULATION SIIEET Pg. (26 of DO Rev. O Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis Relative Humidity and Average Temperature of Rooms including AOR, SCT, CTL, & EERs j 0.55 ,120 l ,
; I ! $ 0.5 m 5 l $ !
a Relative Humidity j100 ;
,T 0.45 -
9 Average Temp l $O ! to f ! E 6 - 90 p g o < e e 8 80 s D 0.35 " " ' ' " ' ' ' ' ' ' I 70 0 48 96 144 192 240 288 336 384 432 480 528 576 624 672 720 PROJECT: CBCASE4l Time (Hour) l . l I
Computed by: Date: CAROUNA POWER & UGHT COMPANY CcJculation ID: Yaruan Cai 8/24'96 Checked by: Date: CALCULATION SHEET Pg. /27 d 00 Rev.O Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis
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Computed by: Date: CAROUNA POWT.R & LIGHT COMPANY Calcul:tionID: OVA e 0104 Yaruan Can. 8/24/96 Checked by: - Date: CALCULATION SHEET Pg12$ of130 Rev.0 Tom Devote 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
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Title:
N/A Calculation
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^
Checked by: Date: CALCULAT10N SHEET Pg. /30 of D0 Ren 0 Tom Devore 9/12/96 File: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis
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- O 35 tom G 3U464 8 stosas M 071M FB S 43 08 =S 43 et 1 9 esetif 4 des if G 02Ne F Ft2 tes I13 6 4230F OD 423R3 40 6 e e state 9 at1894 4 010443 at GF1N 79 49 43 90 = 49 43 . t 9 4e7547 9 40PHP 9 Die
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Computed by: Date: CAROLINA POWER & LIGilT COMPANY Calculation ID: Yaruan Cai 8/24/96 ^~ ' Checked by: Date: CALCUld. TION SIIEET Pg.A-1 of40 Rev.O Tom Devore 9/12/96 File: 8220 Project No.: 'N/A Project
Title:
N/A Calculation
Title:
Control Building Traisient Temperature Analysis J Attachment A Lists of Calculation Area & Boundary Areas
ATTACHMENT A Page A-2 Brownsw!ck Nuclear Station Control Bu!! ding Calculation Area Defin!tions 1
~~
Grea F"' Wall j R'm ) No. l Dsgntr i Designator Description Directions [1 Elevation f TReferences notes ; & ~] ' i l E_E J W ~~ t K~~ n S I [ e ~~TCA1 102CA1 iUH bTe a access way @ eT23' lMT:sfME& File iM Bf 16En 1BliB- 123'-0" ~- ~ Fig.' A 4 ~ ~ 2[ 2 {U2CA2 lU2 cable access way @ el 49' iM of Ne & P lLc !M of 16c & 18}18 !49"-0* Yig. A-17 3;CS2 ju2CSA iU2 cable spreading area !M ct Ne & P !J j 13j_ 18 j231-0"_ Fig. A-5 _ 4 ;ST2 !U2STW South stairway well L ic J :M of 14c & 15;M of 15c & 16e :23'-0* Fig. A-6.A20 5!PC2 TlT2i)lC U2 pte chase ;M of J & Lc J l13 _uM of 13 & 14c 1381-0" Figl24 6iPC2 U1PIC iU1 pipe chase M of J & Lc J iM of 11c & 13i13 !38'-0" iFig. A-25 7 BR1 U2BRB_ ;U2 Battery Rm - 28 Mc J l13 114c 1231-0* l Fig A-8 8 BR4 U1BRB !U1 Battery Rm- 1B lMc J (13 !23'-0" Fig. A-9 9]BR1 U2 BRA !U2 Battery Rm - 2A jui Battery Rm- 1 A M of Ne & PiMc ]111c 13 114c $3'-0" ; Fig._4-11 10 iBR3 U1 BRA M of Ne & P Mc 111c ;13 :23'-0" Fig A-10 ._ 11 lCS1 iU1CSA 'U1 Cab!e spreading area .M of Nc & P J 8 , 13'23t0" Fig A-12 12 lCA3 "01CA3 U1 Cable access way @ el 23' M of Ne & P iLc 18 TM of 8 & 9c i2550" M fig X 14 ~ ~ ~ 13 lCA4 U1CA4 U1 Cable access way @ el 49' M of Nc & P Lc 8 lM of 8 & 9c 14 7 , Fig. A-34
~
tiIST1 U1STW North stairwell Lc J 'M of 9c & 10ciM of 10c & 11c 23C' O 2 15 !EE2 U2EER U2 electrical equipment rm jM of Nc & P J 13 18 47-0" [ Fig. A-18ig XT37AT 9-U2 CPU U2 computer rm Lc J 15c 16c 49t0" fFig. A-19 16J P2 ., 17 ! MEN MENRM MENS ROOM Lc iM of J & Le 14c :M of 14c & 15c .49' iFig. A-22 18I5dT lSCTRM Security room Lc lJ jM of 13 & 14clM of 14c & 15cl49 CU" " fig. A-23 19 lLDY 'LOYRM Lady's room tLe 'M of Lc & J:M of 13 & 11c;13 ' 47-0" Fig. A-26 20 eft- KITCH Kitchen iLc J ;M af 13 & 11ciM of 13 & 11c 49i0" Fig. A-27 21 lCTL CTLRM U1&2 control room iM of Ne & P M of Lc&M l11c 14c 17-0" Jig. A-31.A-32 22 iEE1 U1EER U1 efectrical minment rm iM of Ne & P J B 13 49i0" Fig. A-33 237^~6~ R AOliRM lU1 & 2 auxiliO/ merator readyrm!Lc J iM of 10c & 11;M of 11c & 13 47 7 Fig. A-28 24ICP1 ~U1 CPU ju1 computer rm lLc J :9c {10c 49'-0* :FigT4~30 25isLV ELVTS iElevator shaft lLc M of J & Lc,M of 14c & 15jM of 14c & 15c!23'-0* & 49' " jig. A-7, A-21 MERM1 jMechanical room 1 'M of Nc & P 'No 111c 14c 17 0'-0* : Fig. A-36 261ME1 ~ --27iME2 MERM2 jMechanical room 2 lNe J 11c 14c 170'-0" ~ 5F~ ~- 28iME3 MERM3 iMechanical room 3 JM of Lc & M M of J & Lc 14c iM of 14c & 15c l70'-0" fig fig 'A-38
~
29 !DA1 U2 AIR l Dead air space @ a.18 !Ne J ;18 ;U2 Rx btdg wall ground : Fig. -15 ~ ~ ~ 30 [DA2 U1 AIR ! Dead air space @ cl 8 Nc J B 'U1 Rx bldg wait ground fig'A-16 31lRT1 RATL1 jRattle space between control b!dg { ta TB bido (Seismic Finer) -- 32"R'T2 RATL2 iRattle space between control b!dg
& Rad bida (Seismic Fiffer]
33 ALK_ AIRLK Air Lock @ el 490" M of Nc & P M of Nc & M of 140 & 13 M of 14c & 15c 47-0" 3 Fig. A-35 34'5T3 ,RATL3 Rattle space btwn cb & 2RX bida l Rattle space btwn cb & 1RX bido
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35 RT4 IRATL4 I f i
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Figure A - 37 q i J
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Figure A-38
Computed by: Date: CAROLINA POWER & LIGitT COMPANY Calculation ID: . Yaruan Cai 8/24/96 OVA - OlN Checked by: Date: CALCULATION SilEET Pg.B-1 of19 Rev,0 Tom Devore 9/12/96 1:ile: 8220 Project No.: N/A Project
Title:
N/A Calculation
Title:
Control Building Transient Temperature Analysis %Y Attachment B Summary of Wall & Room / Area Physical Characteristics
- _ ,_ . _ _m _ _ . ._ . - . _ _ _ - _ _ . _ _ _ _ . _ . . ._ _ _ __ _ .... _ _ . . . . _ _ t
> i 1
f i ATTACHMENT B Page B-2 ! t t BNP CONTROL BUILDING ROOM PHYSICAL CHARACTERISTICS AND INPUT DATA l
!dT ~~~Dsscripil6n T9iss}Rnifilfinti l' E j_(0!!y thingpugel Mc0 %Voq~(ppc Ft)#(CtqFt)QDegree F)flowgigVVoludisyKdj Vlmls Initiil l
_i 100 , 12096 67 1 U2CA1 U2 cable access way @ el 23' c air 0 94.00 2 U2CA2 U2 cable access way @ el 49' c ar 100 X)72.5 3 94.00 '5 3 U2CSA U2 cable spreading area c air 100 128346.9 25669.38 91.00 The space taken by equipment is I assumed to be 20% of totalarea soace '- 4 U2SIW South starway well c atr 100 11682.08- 2336.416 88.00 Ihe space taken by starwayis r assumed to be 20% of total area ! soace t 5 U2PIC U2 ppe chase c ar 100 3528 1058.4 90.00 Ihe space taken by ppnas and their support is assumed to be i, 30% of total area snace 6 U1PIC U1 ppe chase c ar 100 2576 772.8 90.00 The space taken by ppngs and theirsupport is aufmed to be 30% of total area soace ! 7 U2BRB U2 Battery Rm - 2B c air 100 13330 2666 97.00 The space taken by battery is ' assumed to be 20% of totalarea eve ; 8 U1BRB U1 Battery Rm - 1B c ar 100 13330 2666 97.00 Ihe space 'aken by batteryis ! assumed to be 20% of totalarea
. soace !
9 U2 BRA U2 Battery Rm - 2A air 100 13181.89 2636.378 95.00 The space taken by ba2ery es assumed to be 20% of total area soace .i 10 U1 BRA U1 Battery Rm - 1A c ar 100 13181.89 2636.?78 96.00 The space taken by batteryis j assumed to be 20% of totd area ewa : 11 U1CSA U1 Cable spreading area c ar 100 136794 27358.8 95.00 The space taken by equipment is j ar,sumed to be 20% of totalarea i scace 'l 12 UICA3 U1 Cable access way @ el 23' c ar 100 12096.67 0 94.00 . 13 U1CA4 U1 Cable access way @ el 49' c air 100 9072.5 0 84.00 l 14 U181W North starwell c air 100 8439.008 0 88.00 'l 15 U2EER U2 electncal equipment rm c ar 100 83034.72 16606.94 75.00 The space taken by eqtepmentis assumed to be 20% of totalarea i soace i 16 U2 CPU U2 computer rm c air 100 5599.234 279.9617 68.00 The space taken by equipment is assumed to be 5% of total area j _ eve ! i
_ _ _ _ _ _ . . _ . . _ . _ _ _ - _ . . -~ _ . _ . . _ _. . _ . _ . ~ _ . _ _ . _ r t i ATTACHMENT B Page B-3 .
' BNP CONTROL BUILDING ROOM PHYSICAL CHARACTERISTICS AND INPUT DATA [
..__. .~DU .iption
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~iType TAdj Wh~~J BitFat TeindiTif6p Umit] RefeIdhTsWsN6fe2 h F II (Any thing you like) Ib/c/f l' Rid fill rhtlT l WVol lFVoliirse
'il(Cubic Ft) (Cubic Ft) b (Degree F) li Low ii High li h j 17 MENRM MENS ROOM c air 100 1574.72 0 78 00 :
- 18 SC1RM Secunty room c air 100 5270.569 263.5285 78.00 T he space taken by equrpment as}}