0005-132 (CSST) Title 244 . .•
ERFORMANCE CERTIFICATE OF COMPLIANCE Part 1 of 3 PERF
IPF C �"JE(.7 NAMC vA 1 C Mini -Mart
PROJECT ADDRESS
79490 Hwy 11 Corner Dunes P Ims roadLa Quinta
PRINCIPAL fGNER-ENpECOPE ].'-j`Z7 ! j TELEPHONE Building Permit #
U-0—CUMENTATION TUTHOR p TELETELEPHONE.:Checked, by/Date
62'<0 `�Z—' Enforcement Agency Use
STATEMENT OF COMPLIAN CE
This Certificate of Compliance lists the building features and performance specifications needed to comply with it a 24, Parts 1
and 6, of the State Building Code. This certificate applies only to a Building using the performance compliance approach.
DOCUMENTATION -A IGNA I U
The Principal Designers hereby certify that the proposed building design represented in the con struuc on—docunhe' is and)
modelled for this permit application are consistent with all other forms and worksheets, spec�ifi ,t eia and othercalQations
submitted with this permit application. The proposed building as designed meets the a gF �elficie�ncygquirements'o the
State Building Code, Title 24, Part 6.
ENV. LTG. MECH. , x \oN
❑ ❑ ❑ �r,es� GZ
1. I hereby affirm that I am eligible under the provisions of Division of the Business and�f�rofessio
Code to sign this document as the person responsible for its prepar tion; and that Irar�licensed as
engineer, mechanical engineer, electrical engineer or architect. \A
���
❑ ❑ ❑ 2. 1 affirm that I am eligible under the exemption to Division 3 of the Bu iness and Prof ode by
Section 5537.2 of the Business and Professions Code to sign this docu ent as #e responsible for
its preparation; and that I am a licensed contractor preparing documents orCyv, r at I have contracted to
perform.
❑ ❑ 3. 1 affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code by
Section of the Code to sign this document as the person
responsible for its preparation; and for the following reason:
Indicate location on plans of Note Block for Mandatory Measures
2,357 sq.Ft.
'7vp!D
r NG Lp Q
OME ...
15
BUILDING TYPE u NONRESIDENTIAL
HIGH RISE RESIDENTIAL
HOTEUMOTEL. GUEST ROOM
PHASE OF CONSTRUCTION U NEW CONSTRUCTION
❑
ADDITION ALTERATION
EXISTING + ADDITION
STATEMENT OF COMPLIAN CE
This Certificate of Compliance lists the building features and performance specifications needed to comply with it a 24, Parts 1
and 6, of the State Building Code. This certificate applies only to a Building using the performance compliance approach.
DOCUMENTATION -A IGNA I U
The Principal Designers hereby certify that the proposed building design represented in the con struuc on—docunhe' is and)
modelled for this permit application are consistent with all other forms and worksheets, spec�ifi ,t eia and othercalQations
submitted with this permit application. The proposed building as designed meets the a gF �elficie�ncygquirements'o the
State Building Code, Title 24, Part 6.
ENV. LTG. MECH. , x \oN
❑ ❑ ❑ �r,es� GZ
1. I hereby affirm that I am eligible under the provisions of Division of the Business and�f�rofessio
Code to sign this document as the person responsible for its prepar tion; and that Irar�licensed as
engineer, mechanical engineer, electrical engineer or architect. \A
���
❑ ❑ ❑ 2. 1 affirm that I am eligible under the exemption to Division 3 of the Bu iness and Prof ode by
Section 5537.2 of the Business and Professions Code to sign this docu ent as #e responsible for
its preparation; and that I am a licensed contractor preparing documents orCyv, r at I have contracted to
perform.
❑ ❑ 3. 1 affirm that I am eligible under the exemption to Division 3 of the Business and Professions Code by
Section of the Code to sign this document as the person
responsible for its preparation; and for the following reason:
Indicate location on plans of Note Block for Mandatory Measures
Required For V-1
'7vp!D
r NG Lp Q
OME ...
Indicate location on plans of Note Block for Mandatory geasures
Required Forms
LTG -1
PRINCIPAL� LIGHTING DESIGNER - NAME
SIGNATURE--
LIC. NO.
DATE
Indicate location on plans of Note Block for Mandatory Measures,,
Required Forms CH -1, MFCH-2, MECH-3
PRINCIPAL MECHANICAL DESIGNER - IC. NO. DATE
0 /'-9 ;;;�� N'4 I I
Ix
JPF,RFORMANCE CERTIFICATE OF COMPLIANCE Part2 of 3 PERF -'p
r
Mini -Mart 2/12/01
ENERGY COMPONENT
Space Heating
Space Cooling
Indoor Fans
Heat Rejection
Pumps
Domestic Hot Water.
Lighting
9 9
Receptacle
Process
TOTALS:
Standard
Design
Proposed
Design
Compliance
Margin
_%?(
2.29
3.69
-1.40
1'-""' 'r
98.90
66.57
32.33
- ,=
FIRM .,
fP
fir+, �a • y �� .,
l�4s
L : qfi Yr.
45.31
38.44
6.87
0.00
0.00
0.00•'
0.00
0.00
0.00
14.09
13.96
0.13
54.60
0.00
54.60
16.42
16.42
43.28
43.28
0.00
274.88
182.35
92.53
I GENERAL INFORMATION
i
Building Orientation
Number of Stories
Number of Systems
Number of Zones
(North) o deg
Conditioned Floor Area 2,357 sqft.
1 Unconditioned Floor Area o sgft.
2 Conditioned Footprint Area o sgft.
2
Orientation
Front Elevation (North)
Left Elevation (East)
Rear Elevation (South)
Right Elevation (West)
Total
Roof
Gross Area
sgft.
sgft.
sgft.
0 sgft.
sgft.
sgft.sgft.
Glazing Area
Glazing
sgft.
sgft.
sgft.
sgft.
sgft.
Ratio
i
s
1,035
420
40.6%
253
0
0.0%
195
0
0.00/0
0
0.0%
1,483
420
28.3%
2,213
Standard Proposed
Lighting Power Density 1.855 W/sgft. 0.000 W/sgft.
Prescriptive Env. Heat Loss 846 906
Prescriptive Env. Heat Gain 68,161 74,267
j
emar s:
Run InitiationTime:
un Code: 981964618
EnergyPro 2.1 By EnergySoft User Number: 3296
Job Number: Page:4 of 40
PERFORMANCE CERTIFICATE OF COMPLIANCE Part 3 of 3 PERF
- -- - - - - s
the adequacy of the justification, and may reject a building or design that otherwise complies based on the adequacy of the special justification
uw aoaurnentauvn suUmiaea.
The exceptional features listed In this performance approach application have specifically been reviewed. Adequate written justification and
documentation for their use have been provided by the applicant.
Authorized Signature or Stamp
Run nitiatlon ime: un ode: 981964618
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number: Page:5 of 40
NVELOPE COMPLIANCE SUMMARY Performan&& ENV-,
Mini -Mart
F_
UAIE
2/12/01
4
Surface Framing Act.
' Type Type Area U -Val. Azm.
Solar
Gains
Tilt YIN
Form 3 Reference
Location/ Comments
7-
Roof
Wood 262
0.029 0 -
0 X I
I
R-30 Roof (R.30.2x12.16)
Preparation area
7 t
Wa-F—
None 175
0.322 180
90 X
-18"
Solid CMU Wall
Preparation area
3
Door
one 20
0.581 180
90 X
Hollow Metal Door
Preparation area
Roof—
VTO-0-d— M6
-T-02-9- _U_
-4 a--
X
R-30 Root (R. 30.2xl 2.16)
Preparation area
V951T —
735—
N—oneX
_TnZ_
oi MU -M-11
P-re-pa-raf-ion area
�r
R-007—
W0 -0-d— -ZgF-
-0=.
X
R-30 Roof (R.30.2x12.16T_Freparation
area
-7-
1
R—one
0
go X8-so-HaTMU
W 11
Preparation area
8
Wall
None -23T-
-99-
--gT- XI
-8-S-5
Fid -MU -Mall
Preparation area
Roof
Wood 110
0. 02T_ 0_
0 X
R-30 Roof (R.30._2x_fTT6T_P_re_paraion
area
M-
Waifl—
one -Tl-
-D7322- —(F-
-SU- x
8" Solid (;MU -VV -all
Preparation area
7T
VVa-F—
lq—one _4T_
--O= 0_
_9V 7
T-S-RU-CMUTV511
Sales area
-ITR-0-0f—VV0-0-T—T�G3�-"29---07---G-7
R-30_R0of_(R`.M3_xMBT
S`5es es
-TTR-00-f—VV0-0T--iZO--D.-GTJ---T---(T-7
-
R-30 Root (R.30.2xl2.16)
Sales area
14
Wall
None 7U4-7UM2--G----9U-7
-_8-S_oriTGMU
Wall
sales area
_W
Wall
None 264
0.327- 0
__9V X
oMITWaI
ales area
I-tNtb
I KA
I 1UN 5U6RKM_1-AL;hb
#
Type
Area U -Val.
Act.
Azm. SHGC Glazing Type
Location Comments
Window
80 1.190
0
0.83 Single Mtl Uncoated Default
Preparation area
Window
5 6- -TJ -gT-
oT8_3_9-ingle
Mtl Uncoated Default
7r-e-pa-ralion area
Window
192- 771,90-
0
0.83 Single Mtl Uncoated Default
Sales area
4
Window
112 1.250
0
0.80 Single Mtl Uncoated Default
Sales area
EATE
qu
Exterior Shade Type
Window
SHGC Hgt. Wd.
Overhang Left Fin Right Fin
Len. Hgt. I-ExUREW DlsFT_en. TFgT. Dist., Len.
one
0.76
_T3Rone
one
0.76
0.76
one
0.76
Run Initiation Time: 02/12101 07:56:58 Run Code:
981964618
�_E_nergyP,o
2.1 By EnergySoft User Number: 3296
Job Number:
Page:6 of 40 j
ERTIFICATE OF COMPLIANCE
Mini -Mart
SYSTEM NAME
TIME CONTROL
SETBACK CONTROL
ISOLATION ZONES
HEAT PUMP THERMOSTAT?
ELECTRIC HEAT?
FAN CONTROL
VAV MINIMUM POSITION CONTROL?
SIMULTANEOUS HEAT/COOL?
HEATING SUPPLY RESET
COOLING SUPPLY RESET
VENTILATION
OUTDOOR DAMPER CONTROL
ECONOMIZER TYPE
DESIGN AIR CFM (MECH-3, COLUMN H
HEATING EQUIPMENT TYPE
HEATING EQUIPMENT EFFICIENCY
COOLING EQUIPMENT TYPE
COOLING EQUIPMENT EFFICIENCY
MAKE AND MODEL NUMBER
HEATING DUCT LOCATION R -VALUE
COOLING DUCT LOCATION R -VALUE
DUCT TAPE ALLOWED?
PIPE TYPE (SUPPLY, RETURN, ETC.)
PIPE INSULATION REQUIRED?
ECRANICWE-SMEMS
DH W Heater A/C -1. , _. , A/C -2
Performance MECH-1
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
Gas Fired
78%
n/a
n/a
Siann aid-Ga'aSO�aI�FI s
n/a
C: Cooling
n/a
JHW
n/a
Supply & Retur
Yes
Programmable Switch
Heating & Cooling Requirec
n/a
Yes
0.0 kW
Constant Volume
No
No
Constant Temp
Constant Temp
Air Balance
Auto
No Economizer
145 cfm
Heat Pump
7.2 HSPF
Split DX
10.0 SEER / 10.0 EER
Ducts in Attic
Ducts in Attic
Yes
Yes
2/12/01
Programmable Switch
eating & Cooling Requi
n/a
Yes
0.0 kW
Constant Volume
No
No
Constant Temp
Constant Temp
Air Balance
Auto
No Economizer
459 cfm
Heat Pump
7.2 HSPF
Split DX
10.0 SEER / 10.0 EER
Yes
4.
4..
nter co a rom to
e e ow Tnto co umns a b ove.
HEAT PUMP THERMOSTAT?
TIME CONTROL
SETBACK CTRL.
ISOLATION ZONES
FAN CONTROL
ELECTRIC HEAT?
S: Prog. Switch
H: Heating
Enter Number of
I: Inlet Vanes
O: Occupancy
C: Cooling
Isolation Zones.
P: Varlatile Pitch
VAV MINIMUM POSITION CONTROL?
Sensor
B: Both
V: VFD
SIMULTANEOUS HEAT / COOL?
Y: Yes
M: Manual Timer
O: Other C: Curve
VENTILATION OUTDOOR DAMPER ECONOMIZER O.A. CFM
B: Air Balance A: Auto A: Air Enter Outdoor Air
C: Outside Air Cert, G: Gravity W: Water CFM.
M: Out. Air Measure N: Not Required Note: This shall be
D: Demand Control less than Col. H on
N: Natural MECH-3.
row r co i V rICLU - ror t3uming uepartmenf se unly
nun Initiation lime: u2/12/01 07:56:58 Run Code: 981964618
EnergyPro 2.1 By EnergySoft User Number. 3296 Job Number: Paae:e of 40
MECHANICAL EQUIPMENT SUMMARY Part 1 of 2 MECH-2
Mini -Mart DATE 2/12/01
--1
System Name
System Type
Distribution Type
Efflclency
Tons
PUMPS
Equipment Name
Equipment Type
Qty.
Tot.
Qty
GPM
BHP
Motor
Eff.
Drive
Eff.
Pump
Control
n/a
System Name
System Type
Distribution Type
Qty
Rated
Input
Vol.
(Gals.)
Energy Factor
or Recovery
Efficiency
Standby
Loss or
Pilot
Standard Gas 50 gal or
Less
Small Gas
Standard
1
40,000
50
0.53
n/a
Ext.
R -Val.
12
L::�
EATIRINU
Aux
System Name System Type Qty. Output kW . Eff. Output Sensible Efficiency Economizer Type
Carr er
38QRCO60FB4AN060 Split DX 2 58,000 0.0 7.2 HSPF 47,500 38,700 10.0 SEER / 10.0 EEP No Economizer
Kun Initiation Time: 02/12/01 07:56:58 Run Code: J$1964618 1
7-7
I EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number: Page:9 of 40
MECHANICAL EQUIPMENT SUMMARY -.. paft 2 ofr-
WWI -
PROJECT
Mini -Mat DATE A
I
APTERMINALBO RWBURR
Min. CFM Reheat Coil Flow Moto r ve
Zone Name System Type Qty. , Ratio I ype ea Ratio CFM BHP Eff. Eff. Type Output
i
pAUST-FPf
Room Name
Qty,
CFM
BHP
Motor
Eff.
Drive
Eff.
L
Room Name
PMSTTAN
city,
CFM
BHP
Moto
Eff.
Drive
Eff.
I
Run Initiation Time:02/12/01.07:56:58un Code: 981964618
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number: Page:10 of 40
MECHANICAL VENTILATION ME` ;
A�ROJECT
E Mini -Mart
0
} ; ❑
ZONE/SYSTEM
t, r
P e aration area
A/C -1
Sales area
A/C -2
AREA'BASIS
�t3N .
AREA
(SF)
CFM
PER SF
MIN-
CFM
(B x C)
1,142
0.23
263
1,215
0.25
304.
I
OCCUPANCY BASIS
—NOT. FM MIN—
OF PER CFM
PEOPLE PERSON (ExF)
Total
Total
0
REQ'D
O.A.
(MAX OF
D OR G)
263
263
304
304
2/12/01
C
C Minimum Ventilation Rate per Section 121, Table 1-F.
E Based on Expected Number of Occupants or at least 50% of Chapter 10 1997 UBC Occupant Density.
Must be greater than or equal to H, or use Transfer Air. Design Outdoor Air includes ventilation from Supply Air System & Room Exhaust Fans.
K Must be greater than or equal to (H minus 1), and, for VAV, greater than or equal to (H -J).
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number: Page: 11 of 40
OPOSED CONSTRUCTION ASSEMBLY
Mini-Mart
ENV-�-
'bATff_?.. _.,.�.—r�-z-,,,u -
2./12/01
1GON5TRILICTIUN COMPONENTS
R -VALUE
*HEAT CAPACITY (Optional)
THICK-
NESS
(in.)
CAVITY
R -VALUE
(Rc)
WOOD
FRAME
R -VALUE
WALL
WEIGHT
(lbs/sf)
SPECIFIC
HEAT
(Btu/F-Ib)
HC
(A X B)
(Btu/F-sf)
ASSEMBLY NAME
g" Solid CMU Wall
OUTSIDE SURFACE AIR FILM
d �kr
—
ASSEMBLY
Floor
—
—
r
TYPE
(check one)
Wall
0.875
0.1751
0
W
Ceiling / Roof
1.69
2
Conc Block, Medium Weight, Conc Filled
FRAMING MATERIAL
None
l '
76.67
0
Z FRAMING %
�%
°
Framing /°
0.750
0.840
-
15% (16" o.c. Wall)
0.00
4
Gypsum or Plaster Board
0.625
12% (24" o.c. Wall)
2.60
0.26
0.68
10% (16" o.c. Floor/Cell.)
SKETCH OF ASSEMBLY
7% (24" o.c. Floor/Cell.)
1GON5TRILICTIUN COMPONENTS
R -VALUE
*HEAT CAPACITY (Optional)
THICK-
NESS
(in.)
CAVITY
R -VALUE
(Rc)
WOOD
FRAME
R -VALUE
WALL
WEIGHT
(lbs/sf)
SPECIFIC
HEAT
(Btu/F-Ib)
HC
(A X B)
(Btu/F-sf)
DESCRIPTION
FRAMING
OUTSIDE SURFACE AIR FILM
E]
❑
❑
❑
a
❑
—
0,170
—
—
—
1
Plaster, Cement w/Sand Aggregate
0.875
0.1751
8.46
0.20
1.69
2
Conc Block, Medium Weight, Conc Filled
8.000
0.680
76.67
0.20
15.33
3
Air Space
0.750
0.840
0.01
0.20
0.00
4
Gypsum or Plaster Board
0.625
0.562
2.60
0.26
0.68
5
6
7
'
qj
9
'NOTE:
INSIDE SURFACE AIR FILM
—
0,680
—
—
—
t,•.
Weight and Specific Heat values for
materials penetrated
SUBTOTAL
by
3.11
87,7 TOTAL HCS 17 7
of the framing members. '
—R
wood framing include
Rf
the effects
X L + k X
1 - (Fr% / 100) 1 I Rf Fr% / 100 ASSEMBLY U -VALUE
COMMENTS
Ener yPro 2.1 B Enre Soft User Number: 9 Y 9Y u ber: 3296 Job Number: Page: 12 of 40
ENVELOPE MANDATORY MEASURES ENV -MM
'ROJECT NAME -- rF --
Mini-Mart
DESCRIPTION
Installed Insulating Material shall have been certified by the manufacturer to comply
y with the California Quality Standards for insulating material, Title 20, Chapter 4, Article
3.
118(c) All Insulating Materials shall be installed in compliance with the flame spread rating
`? and smoke density requirements of Sections 2602 and 707 of Title 24, Part 2.
F] § 117(a) All Exterior Joints and openings in the building that are observable sources of air
leakage shall be caulked, gasketed, weatherstripped or otherwise sealed.
i
§ 116(b) Site Constructed Doors, Windows and Skylights shall be caulked between the unit
and the building, and shall be weatherstripped (except for unframed glass doors and
fire doors).
§ 116(a)1 Manufactured Doors and Windows installed shall have air Infiltration rates not
exceeding those shown in Table Number 1-E. of the Standards. Manufactured
fenestration products must be labeled for U -value according to NFRC procedures.
❑ §118(s) Demising Walls in Nonresidential Buildings:
The opaque portions of framed demising walls in nonresidential buildings shall have
Insulation with an installed R -value of no less than R-11 between framing members.
n
DATE
2/12/01
igner Enforcement
9
I Ii
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number: Page: 13 of 40
r
: FOkqHANICAL MANDATORY MEASURES Part 1 of 2 MECH-MM
..___...�.;�Mini-Mart
:'DESCRIPTION
Equipment and Systems Efficiencies
- ' x
§11j ` Any appliance for which there is a California standard established in the Appliance
Efficiency Regulations will comply with the applicable standard.
a§ 115(a) Fan type central furnaces shall not have a pilot light
§ 123 Piping, except that conveying fluids at temperatures between 60 and 105 degrees
Fahrenheit, or within HVAC equipment, shall be insulated in accordance with
Standards Section 123.
§ 124 Air handling duct systems shall be installed and insulated in compliance with
Sections 601, 603 and 604 of the Uniform Mechanical Code.
Controls
§ 122(e) Each space conditioning system shall be installed with one of the following:
§ 122(e)1A Each space conditioning system serving building types such as offices and
manufacturing facilities (and all others not explicitly exempt from the requirements
of Section 112 (d)) shall be installed with an automatic time switch with an
accessible manual override that allows operation of the system during off -hours for
up to 4 hours. The time switch shall be capable of programming different
schedules for weekdays and weekends; Incorporate an automatic holiday "shut-
off' feature that turns off all loads for at least 24 hours, then resumes the normally
scheduled operation; and has program backup capabilities that prevent the loss of
the device's program and time setting for at least 10 hours if power is interrupted;
or
F§ 122(e)1 B An occupancy sensor to control the operating period of the system; or
§ 122(e)1C A 4 -hour timer that can be manually operated to control the operating period of the
system.
F§ 122(9)2 Each space conditioning system shall be installed with controls that temporarily
restart and temporarily operate the system as required to maintain a setback
heating and/or a setup cooling thermostat setpoint.
,.4-I -
F] § 122(g) Each space conditioning system serving multiple zones with a combined
conditioned floor area more than 25,000 square feet shall be provided with isolation
zones. Each zone: shall not exceed 25,000 square feet; shall be provided with
Isolation devices, such as valves or dampers, that allow the supply of heating or
cooling to be setback or shut off Independently of other Isolation areas; and shall
be controlled by a time control device as described above.
F§ 122(a&b) Each space conditioning system shall be controlled by an individual thermostat
that responds to temperature within the zone. Where used to control heating, the
control shall be adjustable down to 55 degrees F or lower. For cooling, the control
shall be adjustable up to 85 degrees F or higher. Where used for both heating and
cooling, the control shall be capable of providing a deadband of at least 5 degrees
F within which the supply of heating and cooling Is shut off or reduced to a
minimum.
§ 122(c) Thermostats shall have numeric s6tpoints in degrees Fahrenheit (F) and adjustable
setpoint stops accessible only to authorized personnel.
§ 112(b) Heat pumps shall be installed with controls to prevent electric resistance
supplementary heater operation when the heating load can be met by the heat
pump alone.
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number:
r
2/12/01
Designer Enforcement
1
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Page: 14 of 40
ECHANICAL MANDATORY MEASURES Part 2 of 2 MECH-MM
Mini -Mart
Description
Ventilation
j§ 121(e) Controls shall be provided to allow outside air dampers or devices to be operated at
x: , the ventilation rates as specified on these plans.
' § 122(f) Gravity or automatic dampers interlocked and closed on fan shutdown shall be
provided on the outside air intakes and discharges of all space conditioning and
exhaust systems.
§ 122(f) All gravity ventilating systems shall be provided with automatic or readily accessible
i manually operated dampers in all openings to the outside, except for combustion air
openings.
-- DATE 2/12/01
§ 121(f)1
Air Balancing: The system shall be balanced in accordance with the National
Environmental Balancing Bureau (NEBB) Procedural Standards (1983), or.
Associated Air Balance Council (AABC) National Standards (1989); or
§ 121(f)2
Outside Air Certification: The system shall provide the minimum outside air as
shown on the mechanical drawings, and shall be measured and certified by the
installing licensed C-20 mechanical contraLctor and certified by (1) the design
mechanical engineer, (2) the installing licenced C-20 mechanical contractor, or (3) the
person with overall responsibility for the design of the ventilation system; or
§ 121(f)3
Outside Air Measurement: The system shall be equipped with a calibrated local or
remote device capable of measuring the quantity of outside air on a continuous
basis and displaying that
quantity on a readily accessible display divice; or
§ 121(f)4 Another method approved by the Commission.
Service Water. Heating Systems -
§ 113(b)2 if a circulating hot water system Is Installed, It shall have a control capable of
automatically turning off the circulating Pump(s) when hot water is not required.
§ 113(b)3B Lavatories in restrooms of public facilities shall be equipped with controls to limit the
outlet temperature to 110 degrees F.
§ 113(b)3C Lavatories in restrooms of public facilities shall be equipped with one of the
following:
Outlet devices that limit the flow of hot water to a maximum of 0.5 gallons per
minute.
Foot actuated control valves, and outlet devices that limit the flow of hot water to a
maximum of 0.75 gallons per minute.
Proximity sensor actuated control valves, and outlet devices that limit the flow of hot
water to a maximum of 0.75 gallons per minute.
Self-closing valves, and outlet devices that limit the flow of hot water to a maximum
of 2.5 gallons per minute, and 0.25 gallons/cycle (circulating system).
Self-closing valves, and outlet devices that limit the flow of hot water to a maximum
of 2.5 gallons per minute, and 0.50 gallons/cycle (non -circulating system).
Self-closing valves, and outlet devices that limit the flow of hot water to a maximum
" of 2.5 gallons per minute, and 0.75 gallons/cycle (foot switches and proximity sensor
controls).
tnergyvro [.1 By Energy5oft User Number: 3296 Job Number:
Designer lEnforcement
Pana, 15 of do
(HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY
PROJECT NAME DATE
Mini -Mart 2/12/01
_ SYSTEM NAME FLOOR AREA
QC_ 1 4.46S2
Number of Systems
Heating System
Output per System 58,000
Total Output (Btuh) 58,000
Output (Btuh/sgft) 50.8
Cooling System
Output per System
47,500
Total Output (Btuh)
47,500
Total Output (Tons)
4.0
Total Output (Btuh/sgft)
41.6
Total Output (sgftfTon)
288,5
Air System
CFM per System
2,000
Airflow (cfm)
2,000
Airflow (cfm/sgft)
1.75
Airflow (cfm/Ton)
505.3
Outside Air (%) -- _-� --
Outside Air (cfm/sgft)
�- 7.2
_-0.13
Note: values above given at ARI conditions
24.0 of 66.2 of 66.2 of
Outside Air ^,Q;
145 cfm
Supply Fan
2000 cfm
69.5 of
112.0 / 78.5 of
Outside Air
145 "cfm
75.8/66.8 °F
Total Room Loads
Return Vented Lighting
Return Air Ducts
Return Fan
Ventilation
Supply Fan
Supply Air Ducts
COOLING PEAK
COIL HTG. PEAK
ICOIL
..CFM
Sensible
Latent
ICFM
I Sensible
3,090
36,571
3,682
1,557
21,264
0
1,829
1,063
0
0
145
5,654
957
145
7,117
0
0
1,829
1,063
TOTAL SYSTEM LOAD _.. 45,866 ' 4,639 i 30,507
Carrier 38QRC060FB4AN060 32,989 11,110 36,560
Total Adjusted System Output 32,989 11,110 i 36,560
(Adjusted for Peak Design Conditions) ___
TIME OF SYSTEM PEAK I Jul 3 pm Jan 12 ami
Heating Coil
78.5 / 67.7 of 78.5 / 67.7 of
Supply Air Ducts
82.7 of
ROOMS_,
70.0 of
Return Air Ducts
63.2 / 62.1 of
Supply Fan Cooling Coil
2000 cfm
EnergyPro 2.1 By EnergySoft User Number: 3296
Return Air Ducts
Job Number:.. _..
Supply Air Ducts
64.0 / 62.4 °F '
64.4% R.H. ROOMS
75.0 / 66.5 of
Page: 16 of 40
(HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY
PROJECT NAME — DA
" ►.: Mini -Mart
SYSTEM NAME FL
A/C -2
r
ENGINEERING CHECKS SYSTEM LOAD
Number of Systems
1
Heating System
Output per System
58,000
Total Output (Btuh)
58,000
Output (Btuh/sgft)
47.7
Cooling System
Output per System
47,500
Total Output (Btuh)
47,500
Total Output (Tons)
4.0
Total Output (Btuh/sgft)
39.1
Total Output (sgft/Ton)
306.9
Air System
CFM per System
2,000
Airflow (cfm)
2,000
..___1.65
Airflow (cfm/sgft)
Airflow (cfm/Ton)
505.3
Outside Air (%)
22.9
-
Outside Air (cfm/sgft)
_
0.38
Note: values above given at ARI conditions
24.0 OF 58.9 OF
utside Air ..
459 cfm '
Supply Fan
2000 cfm
69.3 OF
112.0 / 78.5 OF
Outside Air
459 cfm
76.0/70.0 OF
Total Room Loads
Return Vented Lighting
Return Air Ducts
Return Fan
Ventilation
Supply Fan
Supply Air Ducts
TOTAL SYSTEM LOAD
2/12/01
AREA
1,215
_ COIL COOLING PEAK
COIL HTG. PEAK
CFM
ISensiblel
Latent
CFM
I Sensible
6,154
44,477
9,948
5,919
32,333
0
2,224
1,617
0
0
459
17,807
-2,359
459
22,402
0
0
2,224
1,617
___66,73 _ 7,589 57,968
HVAC EQUIPMENT SELECTION
Carrier 38QRC060FB4AN060 36,710 10,708 36,559
i Total Adjusted System Out ut
y I 36,710 10,708
36,559
(Adjusted for Peak Design Conditions) I
TIME OF SYSTEM PEAK Jul 3 pm Jan 12 am
eam Terriveratures at Time of Heatina ea
58.9 OF m 75.8°F
Heating Coil
Return Air Ducts
84.3/72.0 OF 84.3/72.0 OF 67.3/66.0 OF
Supply Fan Cooling Coil
2000 cfm
Supply Air Ducts
75.1 OF
ROOMS
70.0 OF
Supply Air Ducts
68.3//66.3 OF
77.2% R.H. ROOMS
75.0 / 69.7 OF
r ' Return Air Ducts E
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number: Page: 17 of 40
I
ROOM LOAD SUMMARY
PROJECT NAME DATE
Mini -Mart 2/12/01
FLOOR AREA
I EnergyPro 2.1 By Energysoft User Number: 3296 Job Number: Page:18 of 40 -1
•
V
,4 A/C -1
1,142
IROOM LOAD SUMMARY
ROOM
COOLING PEAK
COIL COOLING
PEAK
COIL HTG. PEAK
ZONE NAME
ROOM NAME
Mult.
CFM
SENSIBLE
LATENT
CFM
SENSIBLE
LATENT
CFM
SENSIBLE
Preparation area
K
worroom
-5
1
664
7,865
548
611
7,232
1,027
397
5,426
S 15S Area
1
826
9,776
1,273
826
9,776
1,273
397
5,425
as h ieFFa r
1
1,1131
13,169
1,132
1,113
13,169
1,132,
378,
5,160
Office
----St
1
481
5,698
0
480
5,681
0
385
5,254
orage room
1
60
712
250
60
712
250
0
0
PAGE TOTAL
TOTAL
1 3,0901
36,5711
3,68211 1,5571 21,2641
1 3,0901
36,5711
3,68211
1,5571
21,2674
I EnergyPro 2.1 By Energysoft User Number: 3296 Job Number: Page:18 of 40 -1
ROOM LOAD SUMMARY
PROJEGT NAME__—
'T" Mini -Mart
2/12/01
A/C -2
-FLOOR A EV --,..,_.. -
1,215
MARY
ROOM COOLING PEAK
COIL COOLING PEAK
COIL HTG. PEAK
> ZONE NAME
ROOM NAME
Mult.
CFM
SENSIBLE
LATENT
CFM
SENSIBLE
LATENT
CFM
SENSIBLE
Sales area
a es area
Restrooms
1
1
5,482
672
39,623
4,857
9,723
225
5,482
672
39,623
4,853
9,723
225
4,878
1,041
26,645
5,687
n '
. r
PAGE TOTAL 1 6,1541 44,477 9,948 5,919 32,333
TOTAL 61154 44,477 9,948 5,919 32,333
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number Page•19 of 40 1
1,ROOM HEATING PEAK LOADS
Voject Title
Mini -Mart
Room Information
Room Name
a
Floor Area
Indoor Dry Bulb Temperature
Design Conditions
workroom Time of Peak
262 Outdoor Dry Bulb Temperature
70 OF
A
12/01
Jan 12 am
240F
Conduction Area U-Value0
AT F Btu/hr
R-30 Roof (11.30.2x12.16) 262.0 ,x 0.0290 x 46.0
. ,.= 349
175.0
X
0.3218
X
46.0
=
2,591
Hollow Metal Door
20.0
x
0.5811
X
46.0
=
535
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
xx
x
x
x
X
x
x
x
x
X
x
x
x
x
x
X
x
x
x
x
x
X
x
x
x
x
x
X
x
x
x
x
x
x
x
X
Items shown with an asterisk denote conduction through an interior surface to another room.
Page Total:E:L�3,�474
Infiltration: -1 0861 x I —Ax 1 9.00 x /66
1.001 x lws-e-fiiiiilq -rea '—ACH— J
x
1,952
. C-0111-iig-Riig t
&T
Fraction -
TOTAL HOURLY HEAT LOSS FOR ROOM
5,426
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number:
Page: 20 of 40
-- q
tOOM HEATING PEAK LOADS
FP'►-O—ject Title
IMini-Mart
Room Information
Room Name
Floor Area
Ir door Dry Bulb Temperature
'Conduction
Items shown with an asterisk (*) denote conduction through an interior
Infiltration: [-1 0 X 1—T9–R x
.00
c I Iii § AIFSensible
-
u a
Fraction
TOTAL HOURLY HEAT LOSS FOR ROOM
EnergyPro 2.1 By EnergySoft User Number: 3
Design Conditions
Sales Area Time of Peak
396 Outdoor Dry Bulb Temperature
70 OF
Area
396.0
35.0
80.0
surface to another roorr
—:K9:6] X 1'--!
kFeia— CillliTg-14
296
U -Value
x 0.0290
x 0.3218
1.1900
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
A-0 x F o.00 16
ilifit
Job Number:
to
12/01
n'T 0 F
Jan 12 am
24 OF
Btu/hr
X
46.0
=
528
X
46.0
=
518
X
46.0
=
4.379
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
Page Total:
X46
AT
5,425
Page:21 of 40 1
s I ROOM HEATING PEAK LOADS
�roject,Title---_---_--
Mir i -Mart
` Room Information
Room Name Ce
Floor Area
'k' Indooi Dry Bulb Temperature
2301 Outdoor Dry Bulb Temperature
70 OF
2/12/01
' ,Conduction
t.
Area
X
X
x
X
x
x
x
X
x
x
x
x
xx
x
x
x
x
x
x
x
x
x
x
x
9.001 X
Helgfit
U -Value
X
X
x
X
x
x
X
X
x
x
x
x
x
x
x
x
x
x
x
x
x
x
X
X
pT °F
=
=
=
=
=
=
=
=
=
=
_
=
.a
-1.10
-I
---I
— —
R-30 Roof (R.30.202.16)
230.0
0.0290
46.0
8" Solid CMU Wall
79.0
—
0.32]8
46.0
Single Mtl Uncoated Default
36.0
46.0
_
_ ---_1.1900
..—_---...------
-.. _._------
-------------
—
__
--- - - - -
- - -- - - —
---
-- -
-
- ----
- - -- -
-- --
--
-- -_-
__ - --- _
- -- --
- --- --
---
---
------
-
_
_...__...
--
_.
-
-----
-
_..
--
-
--
-
----
Items shown with an asterisk (') denote conduction through an interior
Infiltration: Lc1.00 X 1_08 X I
he—ir ule Ai► Senel6le
Fraction
surface to another room.
_ —
L - 1.001 / 60�
- ACII
Page Total:
46
F-3,446
—
230 X I -
Area Celling
AT
TOTAL HOURLY HEAT LOSS FOR ROOM 5,160
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number: Page: 22 of 40 —
ROOM HEATING PEAK LOADS
Project Title
Mini -Mart
Robm Information
Room Name
Room
Floor Area
0
Indoor Dr
Indoor y Bulb Temperature
OfficTime Of Peak
110 -------
Outdoor Dry Bulb Temperature
e
70 OF
Area U -Value
i - . -IR-30 Roof (R_.30.2x12.1f3) -- — ----------- 3_Ibo X
110.0 x
x
x
X
X
x
X
X
X
x
X
X
X
x
x
x
x
X
X
x
X
x
X
X
X
X
X
X
X
X
X
x
X
X
x
x
X
X
1-11 win an asienSK (-) denote conduction through an interior surface to another room.
Infiltration: 1.00 X I.. O�80] X
110, x 9--001 x TOO
F. 5. Arr-S-e-n-sib-le A—re-a--j
Fraction G111F9 e1§5t --- ACH
TOTAL HOURLY HEAT LOSS FOR ROOM
EnergyPro 2.1 By EnergySoft User N _um -be _,3296
Job Number:
Jan 12 am
24 OF
Btu/hr
Page Total: 5,25
60] x 46
_j AT
I 'A M An
5,254
4t5.0
x
46.0
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
x
X
x
X
X
Jan 12 am
24 OF
Btu/hr
Page Total: 5,25
60] x 46
_j AT
I 'A M An
5,254
ROOM HEATING PEAK LOADS
x Project Tftle --
kgmini-Mart
i Room Information Design Conditions
,± Room Name Storage rooml Time of Peak
iFloor Area 144 Outdoor Dry Bulb Temperature,
Indoor Dry Bulb Temperature 70oF
4
Conduction
- - •-------- wnuuciwn tinuugn an interior surtace to another room.
Infiltration: Lc 1.00 x I 1.08 x 144 X 900] x o.00 e ule Ai�ensible —area ICelling Helgfit I—ARCH_j
Fraction
-''TOTAL HOURLY HEAT LOSS FOR ROOM
2/12/01
AT OF
Jan 12 am
24 of
Btu/hr
Page Total:
/ 60_j x 46 = ��
AT
0
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number:
Page: 24 of 40
x
x
x
_
x
--
x
x
—
x
x
x
x
x
x
x
x
x
x
x
x
_
x
x
x
x
_
x
_
x
=
x
_
x
_
x
=
X
=
x
=
x
=
x
=
x
_
x
x
a
x
=
x
=
x
=
X
Jan 12 am
24 of
Btu/hr
Page Total:
/ 60_j x 46 = ��
AT
0
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number:
Page: 24 of 40
RAOM HEATING PEAK LOADS
rojectTitle
Mini -Mart
Room Information Design Conditions
Room Name Sales area Time of Peak
..
}� Floor Area . 1,035 Outdoor Dry Bulb Temperature
Indoor Dry Bulb Temperature
70 OF
' ';4 Conduction Area U -Value
Date
2/12/01
Jan 12 am
24 of
0111m.r_
3 •
` 4hu
8" Solid CMU Wall
surface
41.0
X
x
x
x
X-
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
xx
x
x
x
x
x
x
x
9.00 X
g t
0.3218
X
X
X
X
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
X
46.0
=
=
=
=
=
=
-
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
_
=
=
=
607
Single Mtl Uncoated Default _
192.0
1.1900
46.0
10,510
Sin le Mtl Uncoated Default _ _ _
112.0
_ _ 1.2500
— 0.0290
46.0
6,440
R-30 Roof (R.30.2x12.16) ----
_ _ _
— 1,035.0
46.0
1,379
—
— ----
------- —
_— —
—
-_ _
—
—
.
---
--
_
—
—
_
---
--
_
_
_
--------
----
------
------ --
—
--- ---
-
—
to another room.
1,035 X _
rea Ceiling He
-------
— —
F 1.00 / 60]
Items shown with an asterisk (') denote conduction through an interior
Infiltration: 1.00 x 1.080 X
cFie�u e r anal a
Fraction
Page Total:
46
AT
18,936
7,710
TOTAL HOURLY HEAT LOSS FOR ROOM 26,645
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number:— — Page: 25 of 40
R,QOM,,HEATING PEAK LOADS
jFVr!Dject TitleDate
Mini -Mart /01
Room Information Design Conditions
Room Name Restrooms Time of Peak
Jan 12 am
Floor` e Area 180 Outdoor Dry Bulb Temperature
24 OF
or Dry Bulb Temperature 70°F
ddictlon Area U-ValueZSIT °F Btu/hr
qty
R-30Roof (R.30.2xl 2.16)
surface
180.0
X
x
x
X
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
;" x
x
x
x
x
x
x
0.0290
x
j(
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
46.0
240
FSolld CMU Wall
368.0
0.3218
46.0
5,447
ry
to another room.
Items shown with an asterisk denote conduction through an interior
Infiltration: 1.92] x I —8x
iisiiWdiile AIFSensible
Fraction
/66
ACH
Page Total:
46
&T
5,687
Area
-180jXj-8.00jxj--(�q0
Cilllaj[Hilght
TOTAL HOURLY HEAT LOSS FOR ROOM 5,687
EnergyPro 2.1 By EnergySoft User Number: 3296 Job Number: Page: 26 of 40
,r
ROOM COOLING PEAK LOADS
Mini -Mart
KUUl 1 tnrUKIVIA I JUN
Room Name
3 Floor Areae
Indoor, Dry Bulb Temperature
IN,
'Wk'`Conduction"
-30 Roof (R.30.2x12.16)
i-1 " Solid CMU Wall
ollow Metal Door
workroom Time of Peak
262 Outdoor Dry Bulb Temperature
75c ' Outdoor Wet Bulb Temperature
Area
262.0
175.0
20.0
1. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
LI -Value
0.0290
_ 0.3218
0.5811
2/12/01
DETD 1
Orientation Area SGF Sc
Page Total
Sep 1 pm
104 9F
74
Btu/hr
413
2,777
620
3,810
Weighting
Factor Btu/hr
x =
x =
x = _
x =
x = _
x =
x =
x =
x =
x =
Page Total l
Sched. Weighting Btu/hr
Internal Gain Frac. Area Heat Gain Factor
fights 11.0c x 262 X o.000 Watts/sqft x 3.41 Btuh[Watt x 0.000 = 0
ccupants 1.0c x 262 X 250 'Btuh/occ. / 26 sqft/occ. x 1.00 = 250
eceptacle 1.0 X 262 X 0.500 Watts/sqft x 3.41 Btuh/Watt X 1.00 = 447
rocess 1.0 x 262 x -- 2.000 Watts/sqft X 3.41 BtuhlWatt x 1.00 = 1,788
Infiltration:L - 1.001 x f 1.080 x I— 2s2 x 9800 x (_ 1.0o / 60 x Q 37 =.r 1,570
Schedule Alr Sensible Area elhng F1eih xc
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 7,865
Sched. Btu/hr
.Latent Gain Frac. Area Heat Gain
ccupants 1.00 X 262 X 250 Btuh/occ. / 262 sgft/occ. = 2501
eceptacle 1.00 x 262 x 0.000 Wafts/sgft x 3.413 BtuhfWatt = o
rocess 1.00 x -- 2s2 x _ o.000 Watts/sgft x 3.413 Btuh/Watt = o
Infiltration: [[�,ri j x Lair t.a!$nt� x rea262 x Lling fiefg o x � c ln.00 / 60� x OQ00157 = , 298
1.
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 548
EnergyPro 21 By EnergySoft User Number: 3296 Page: 27 of 40 I
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
- ---
- —
- --
-- -
-
- -
-
- ---- -----
---- -- ---
--
-- .
- —--
--
—
Page Total
Sep 1 pm
104 9F
74
Btu/hr
413
2,777
620
3,810
Weighting
Factor Btu/hr
x =
x =
x = _
x =
x = _
x =
x =
x =
x =
x =
Page Total l
Sched. Weighting Btu/hr
Internal Gain Frac. Area Heat Gain Factor
fights 11.0c x 262 X o.000 Watts/sqft x 3.41 Btuh[Watt x 0.000 = 0
ccupants 1.0c x 262 X 250 'Btuh/occ. / 26 sqft/occ. x 1.00 = 250
eceptacle 1.0 X 262 X 0.500 Watts/sqft x 3.41 Btuh/Watt X 1.00 = 447
rocess 1.0 x 262 x -- 2.000 Watts/sqft X 3.41 BtuhlWatt x 1.00 = 1,788
Infiltration:L - 1.001 x f 1.080 x I— 2s2 x 9800 x (_ 1.0o / 60 x Q 37 =.r 1,570
Schedule Alr Sensible Area elhng F1eih xc
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 7,865
Sched. Btu/hr
.Latent Gain Frac. Area Heat Gain
ccupants 1.00 X 262 X 250 Btuh/occ. / 262 sgft/occ. = 2501
eceptacle 1.00 x 262 x 0.000 Wafts/sgft x 3.413 BtuhfWatt = o
rocess 1.00 x -- 2s2 x _ o.000 Watts/sgft x 3.413 Btuh/Watt = o
Infiltration: [[�,ri j x Lair t.a!$nt� x rea262 x Lling fiefg o x � c ln.00 / 60� x OQ00157 = , 298
1.
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 548
EnergyPro 21 By EnergySoft User Number: 3296 Page: 27 of 40 I
ROOM COOLING PEAK LOADS
r roj�
Mini -Mart
ROOM Name
Floor Area
y ' Indoor Dry Bulb Temperature
.Conduction'
Sales Area Time of Peak
396 Outdoor Dry Bulb Temperature
75`k Outdoor Wet Bulb Temperature
Area
1. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
Window
2/12/01
Jul 3 pm
112 OF
79 9 i
x
X
x
X
X
X
X
X
U: -Value
X
X
X
X
X
X
X
X
DETD 1
=
=
=
=
=
=
Btu/hr
0.0290
---
65.1
746
0.3218
- ----
37.1
418
1.1900
24.3
2,312
----
-----
-- --
f
Page Total F 3,a77�
Weighting
Orientation Area SGF Sc Factor Btu/hr
(North)_--- _ 80.0 X —41 X — 0.517 X 0.871 = 1,478
-- i---- -- -- x X X =
x x -_.— x -
x xx --- _ --- -- -
__- - - x -- x _._ x
X x X
-- -- — -- x - -- x x _ —
r_ — x --- x x _
X _ X x =
x x X
Page Total 1,a7i3
Sched. Weighting
Internal Gain Frac. Area Heat Gain_ Factor Btu/hr
fights 1.0 x 396 x 0.000 Watts/sgft x 3.41 BtuhtWatt x 0.000 = 0
ccupants 1.0c x 396 x 255 Btuh/occ. / 7 sgft/occ. X 1.00 = 1,443
Receptacle 1.0 x — 396 x 0.500 Watts/sqft x 1-z BtuhfWatt x 1.00 = 676
rocess 11.0 X -- 396 X 2.000 Wattslsgft X 3.41 BtuhMatt X 1.00 = 2,703
Infiltration: L _ 1.001 x I 1.080 x I — 396 x 9.00 x I - 0.00 / 60� x
Schedule AIS Sensifile Area ailing Helgfit ACH
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM g 776
Sched.
Latent Gain Frac. Area Heat Gain Btu/hr
' ccupants _-1.00 x - 396 X —' 225 Btuh/OCC. / 701 sgft/occ. =ffl,273eceptacle 1.00 X 396 x 0.000 Watts/sgft X 3.413 BtuhfWatt =rocess 1.00 X 396 X 0.000 Watts/sgft x 3.413 Btuh/Watt
Infiltration:L 1.00 X1 484 0' X E 396 x 9.00 x I 0.00 /6 x
Sche—ic 0.00000 = , �I
ule Air Laien Area eifipg A
Hei§lit — CH
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,273
EnergyPro 2.1 By EnergySoft . User Number: 3296 Page: 28 of 40 j
ROOM
4.. , r
141 ` Eel 2wx'"' ej111so
Mini -Mart
rRo
m Name
r Area
j daorebr`y' B1i'I$' '� ,g5d�ttire
^f'' COrldUction
-30 Roof (R.30.2xl2.16)
"Solid CMU Walt
Ingle Mtl Uncoated Default
..t.
2/12/01
DESIGN CONDITIONS
230 Outdoor Dry Bulb Temper hf rr•
fist IUutdwr it NO T6iiiP@r0tllr6 79 OF
Area
1. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
X
X
X
X
X
X
X
X
X
U -Value
—
X
X
X
X
X
X
X
X
X
DETD i
=
=
=
=
=
=
=
=
_
Btu/hr
4261,
0.0290
- --
64.2
0.3218
----
36.8
936
1.1900
24.1
4,034
_
Page Total 2,398
Weighting
Orientation Area SGF Sc Factor Btu/hr
(North) 36.0 X 41 X 0.517 X 0.839 = 641
X x x =
..._.-- — x - --- x x _
X X X =
x X X =
x X x =
y --- _ X -- x -- — x =
X X _ X _
_ X X X =
Page Total 641
Sched. Weighting
Internal Gain Frac. Area _ Heat Gain _ Factor Btu/hr
fights 1.0 x 230 X o.000 Watts/sgft x 3.41 Btuh/Watt x 0.000 = 0
ccupants 1.01 X _ 230 X 255 Btuh/OCC. / 11 sgftlocc. X 1.00 = 510
Receptacle 1.0 x 230 X 0.500 Watts/sgft x —3.4-r Btuh/Watt x 1.00 = 392
rocess r1.0 X 230 X 10.000 Watts/sgft x 3.41 BtuhtWatt X 1.00 = 7,850
Infiltration: L 1.00 x 1.080 x 230 x _ 9.00 'x I_ 1.00 l6� x 37 =.r 1,378
—S—.S—.du a Air Sensible . rea elling Reigbt ACH 4
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 13,169
Sched. .
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants 1.00 x __230 X 225 Btuh/OCc. / 115 sgft/occ. 45_0
eceptacle 1.00 X 2301 x0.000 Watts/sgft x 3.413 Btuh/Watt = 0
rocess,, 1.00 x 230 X ^ 0.000 Watts/sgft X 3.413 Btuh/Watt = o
Infiltration: [ 1.00 X I— 4 840 X I _ 230 x I 9.00 x 1-. 1.00 / 60� X 0.00408 = . 682
Schedule AI► Laient Area elling Relghf ACR n1W
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,132
EnergyPro 2.1 By EnergySoft User Number: 3296 Page:29 of 40 ,
LING PEAK LOADS
Mini -Mart
- Room Name
Floor Area
Indoor Dry Bulb Temperature
Conduction
Solid CMU Wall
30 Roof(R.30.2xl2.1
Solid CMU Wall
Date
2/12/01
." –,, . .,ui :, am
110 Outdoor Dry Bulb Temperature
75C� Outdoor Wet Bulb Temperature
Area
253.0 X
110.0 X
---–,------- 92.0 X
-_- _ X
1. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solas Gain
X
X
X
U -Value
-T_ 0.3218
0.0290-
0.3218
Orientation Area SGF SC
DETD 1
44.3 =
45.4 =
21.4 =
Page Total
Weighting
Factor
x =
x _
x =
x =
x =
x
x =
x =
x =
x =
Page Total
F`
Btu/hr
Sched. Weighting Btu/hr
Internal Gain Frac. Area Heat Gain Factor
Ights 1.0C x 110 x o.000 Wafts/sgft x _ 3.41 Btuh/Watt x 0.000 = - _ r'
ccupants 1.00 x 110 x 255 Btuh/occ. / sgftlocc. x 1.00 =
Receptacle 1.0 x 110 x 0.500 Wafts/sgft x 3.41 Btuh/Waft x 1.00 =
rocess I11.0x 110 x 3.000 Watts/sgft x – 3.41 Btuh/Watt�I x 1.00 = 1,t2i
Infiltration: L 1.001 x F 1.080 x 110 x — 9.Ool x I— 0.00 / 6C I x
Sc�dule AiFSensl6le Area , elling Height _.. Ac J p
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM
Sched. Btu/hr
Latent Gain Frac. Area Heat Gain
ccupants 1.00 X _ 110 x 225 Btuh/OCC. /f3.413
0 sgft/occ. = OI
Receptacle 1.00 x 110 X 0.000 Watts/sgft x Btuh/Watt0rocess 1.00 x — 110 X 0.000 Watts/sqft x413 Btuh/Watt = 1 0
Infiltration: Ls a0e XI AiF 4 84 X rea110 x 111ng Heig O x -Aco-oil / 6] x oQ00000 = , �o 1
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM o
iI EnergyPro 2.1 By EnergySoft User Number: 3296 Page:30 of 40 I
x
x
x
x
x
x—
x
x.----.
--
x
x
x
x
x
x
x
x
---
--
_
- --
-- —
---- — -
- - -
-
DETD 1
44.3 =
45.4 =
21.4 =
Page Total
Weighting
Factor
x =
x _
x =
x =
x =
x
x =
x =
x =
x =
Page Total
F`
Btu/hr
Sched. Weighting Btu/hr
Internal Gain Frac. Area Heat Gain Factor
Ights 1.0C x 110 x o.000 Wafts/sgft x _ 3.41 Btuh/Watt x 0.000 = - _ r'
ccupants 1.00 x 110 x 255 Btuh/occ. / sgftlocc. x 1.00 =
Receptacle 1.0 x 110 x 0.500 Wafts/sgft x 3.41 Btuh/Waft x 1.00 =
rocess I11.0x 110 x 3.000 Watts/sgft x – 3.41 Btuh/Watt�I x 1.00 = 1,t2i
Infiltration: L 1.001 x F 1.080 x 110 x — 9.Ool x I— 0.00 / 6C I x
Sc�dule AiFSensl6le Area , elling Height _.. Ac J p
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM
Sched. Btu/hr
Latent Gain Frac. Area Heat Gain
ccupants 1.00 X _ 110 x 225 Btuh/OCC. /f3.413
0 sgft/occ. = OI
Receptacle 1.00 x 110 X 0.000 Watts/sgft x Btuh/Watt0rocess 1.00 x — 110 X 0.000 Watts/sqft x413 Btuh/Watt = 1 0
Infiltration: Ls a0e XI AiF 4 84 X rea110 x 111ng Heig O x -Aco-oil / 6] x oQ00000 = , �o 1
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM o
iI EnergyPro 2.1 By EnergySoft User Number: 3296 Page:30 of 40 I
Li`l, ROOM COOLING PEAK LOADS
loci I life
' Mini -Mart
4 INFORMATION———-_ _ - •--
i Name Storage room Time of Peak
Area 144 Outdoor Dry Bulb Temper@ urq
r Dry Bulb Temperature 75* Outdoor Wet Bulb Temperature
n
Area
t. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (•) denote conduction through an interior surface to another room.
Solar Gain
U -Value
Orientation - Area SGF -
x
--- x
x
x
x
x ---
x
-------- — - ---- x -
Sc
2/ T& 1 �. I
DETD
Page Total
Weighting
Factor
x =
x =
x =
x =
x =
x =
x =
X =
x =
x =
Page Total
Sched. Weighting
Internal Gain Frac. Area Heat Gain Factor Btu/hr
fights 1.01 X 144 X 0.000 Wattslsgft X 3.41 Btuh[Watt x 0.000 = 0
ccupants 1.0c x 144 x 250 Btuh/occ. / 14 sgft/OCc. x 1.00 = 250
Receptacle 1.0 X 144 X 0.940 Watts/sgft x 3.41 Btuh/Waft x 1.00 = 462
rocess r1.0x 144 x 0.000 Watts/sgft x 3.41 Btuh/Watt 'x 1.00 = 0
Infiltration: L 1.001 x 1.080 x 144 x 9.00 x I_ 0.00 / 60� x Q 37 = a of
Schur ii Air Sensl6le Area eil of g Helglit Ac
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 712
�\I
Jan 12 am
4A `
31 OF
Btu/hr
Dl
�.had1
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants _1.00 x _144 x 250 Btuh/ocC. /ff
44 Sgft/OCC. = 250I
eceptacle - 1.00 X ^ - _ 144 x 0.000 Watts/sqft x13 Btuh/Watt = 0
rocess 1.00 X - 144 x — 0.000 Watts/sgft X13 Btuh/Waft = 0-I
Infiltration: 1.DoI x 4 840 x 144 x 9.00 x 0.000.00 /60
X 0.00000 0
LScFie�lr ule I—AG 105-& I �Are� Ceiling HeigRt� I --A
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 250
EnergyPro 2.1 By EnergySoft User Number: 3296 Page: 31 of 40
ROOWCOOLING PEAK LOADS
' -'�� F�1uJect Title •
Mini -Mart
M
om Name
or Area '
oof Dry Bulb Temperature
duction
r
CMU Wall
Mtl Uncoated Default
Mtl Uncoated Default
oof(R.30.2xl2.16)
2/12/01
Sales area . Time of Peak . , . Jul 3 prn
1,035 Outdoor Dry Bulb Temperature 112
75* Outdoor Wet Bulb Temperature 79 9F
Area
41.0
192.0
112.0
1,035.0
1. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
X
X
X
X
X
X
X
U -Value
X
X
X
X
X
X
X
DETD 1
=
=
=
=
=
=
Btu/hr
0.3218
37.2
491
-- 1.1900-
24.3
5,558
1.2500
24.3
3,401
_ 0.0290
65.3
1,956
--
--
-- ---
Page Total 11,405
Solar Gain Orientation Area SGF SIC Weighting
Factor Btu/hr
Window — (North) 192.0 X — 41 X 0.517 X 0.878 = 3,5771
Window (North) 112.0 x _ 41 X 0.513 X 0.878 = 2,068
x x x =
-- -- - _ — -- X - X -- x = -
- - --- x -- x x =
x__ x x = i
x x x =
x x x =
x x x =
--- ---- - X -- x x =
Page Total 5,645
Sched. Weighting
Internal Gain Frac. Area Heat Gain Factor Btu/hr
fights 1.0 X 1,035 X 0.000 Watts/sgft x 3.41 BtuhlWatt x 0.000 = 0
ccupants 1.0C X 1,035 x 255 Btuh/OCC. / 31 sgftlocc. x 1.00 = 7,541
:Receptacle 1.0C x 1,035 x 0.500 Watts/sgft x —3.4v Btuh/Watt x 1.00 = 1,766
rocess 11.0C X 1,035 X 2.000 Watts/sqft x 3.41: Btuh/Watt�I X 1.00 = 7,065
Infiltration: L 1.00J x ( 1_080 x 1,035 ,x 9.001 x. [ 1.00 / 60 •X 37 =t 6,201
SC It—edUle Ai► Sensible Area elling rieignt Ac '
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 39,623
Sched.
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants — 1.00 x 1,035 X 225 Btuh/OCC. / 35 sgft/occ. = 6,654
eceptacle 1.00 x _ 1,03_5 X — O.ObO Watts/Sgft X 3.413 Btuh/Vllatt``" = 01
rocess 1.00 X 1,035 X — 0.000 Watts/sqft x 3.413 BtuhfWatt = 01
Infiltration: Sena .Ool x `Air Laiefi X Area
X Ceiling Neighf X I ADH'00 /6 0� x OQ00408 = , =3o6191
Fraction
r j TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 9,723
EnergyPro 2.1 By EnergySoft User Number: 3296 Page: 32 of 40 1
M .COOLING PEAK LOADS
protect Title - Date
Mini -Mart 2/12/01
ROOM INFORMATION DESIGN CONDITIONS
Room Name Restrooms
Time of Peak Jul am
p
Floor Area 180
Outdoor Dry Bulb Temperature 111 9F
Indoor Dry Bulb Temperature 7591�
Outdoor Wet Bulb Temperature 78 C�
_
Area
r'. -30 Roof (R.30.2xl2.16)
Solid CMU Wall
K•.
7
180.0
368.0
1. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
U -Value
0.0290
0.3218
Orientation Area SGF SC
_
x
x
x
x
x
x
x
x
x
X
_
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
_
_
...---
.
DETD 1
54.9 =
36.4 =
_
Page Total
Weighting
Factor
Page Total
Btu/hr
286
4,316
r
4,602
Btu/hr
Sched. Weighting
Internal Gain Frac. Area Heat Gain Factor Btu/hr
fights 1.0 x 186 x o.000 Watts/sgft x 3.41 Btuh/Watt x 0.000 = 0
ccupants 1.0c x 180 X 255 Btuh/occ. / 18 sqft/occ. x 1.00 = 255
Receptacle 1.00 x 180 X 0.000 Watts/sqft X 3.41 Btuh/Watt X 1.00 = 6
- rocess 1.0 x 180 x 0.000 Wafts/sqft x 3.41 Btuh/Watt X 1.00 = 0
Infiltration: 1.0 x – 1.080 x 180 x _ 8.00 x 0.00 / 60] x
cheaule Air Sensible Area elling Heigh ACC 4
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 4,857
Sched. Btu/hr
Latent Gain Frac. Area Heat Gain
dbpants 1.00 x 180 x 225 Btuhlocc. / 180 sgft/occ. = 225 j
eceptacle 1.00 X — — 180 x 0.000 Watts/sqft X 3.413 Btuh[Watt = 0
rocess 1.00 X 180 x 0.000 Watts/sgft x 3.413 Btuh/Watt = 0
Infiltration: 1.00 x I — 4 840 X I 180 X _ 8.00 X I _ 0.00 / 60� X 0.00000 =
sC�dUle Alr Latent- Area ening Height ACH �yy
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 7 225
EnergyPro 2.1 By Energysoft User Number: 3296 Page: 33 of 40
LING COIL LOA
Mini -Mart
_
_YJ: Room Name
wapi' Floor Area
...
"`� Indoor Dry Bulb Temperature
r 4. , ..
=;Goriduction
-30 Roof (R.30.2xl2.16)
`i
"..Solid CMU Wall
ollow Metal Door —
----- Date
2/12/01
work room Time of Peak,
262 Outdoor Dry Bulb Temperature
75'F Outdoor Wet Bulb Temperature
Area
175.01
11: Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
X
X
X
X
X
X
X
X
X
LI -Value
X
X
X
X
X
X
X
X
X
DETD 1
=
=
=
=
=
=
_
=
=
0.0290
-- -- —
63.4
0.3218
39.8
0.5811
--
39.2
_ -^`
_
.—
Page Total
Orientation Area SGF Sc
- -
---------
x
x
x
x
x
x
x
x
---
---
x
x
x
x
x
x
x
x
-
---
—
_
.—
Weighting.
Factor
x =
x =
x =
x =
x =
x =
x =
x =
x =
x =
Page Total
Jul 3 pm
112 OF
79 9F
Btu/hr
4811
2,2401
45611
3,177)
Btu/hr
Sched. Weighting
Internal Gain Frac. Area Heat Gain Factor Btu/hr
fights 1.0 x 262 X o.000 Watts/sgft x 3.41 Btuh/Watt x 0.000 = 0
ccupants 1.0 x 262 X 250 Btuh/OCc. 126 sgft/occ. X 1.00 = 250
Receptacle 1.0 _ X 262 x 0.500 Wafts/sqft x 3.41 Btuh/Waft X 1.00 = 447
rocess 1.0 X — 262 X 2.000 Watts/sqft X 3.41 Btuh/Waft . X 1.00 = 1,788
Infiltration: [ 1.00 X I 1.080 X 262 X I 9.00 X I-_ 1.00 / 60 X 37 = ? 1,570
Schen—ule Sensible Area Ceiling Helgfit ACH p
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 7,232
Sched.
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants 1.00 X - - 262_ X _ 250 Btuh/OCc./ 262 sgft/OCc. _ff�oeceptacle 1.00 x 262 X 0.000 Watts/sgft x 3.413 BtuhfWatt =rocess1.00 X 262 X 0.000 Watts/sgft X 3.413 Btuh/Watt
Infiltration: �o� X L 4 840p X �— 262 X 9.00 X I— 1 00 / 60 X I 0.00408 7771
�hedule Air Laient Area Cefling'Heigfit - ACF �yy
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,027
EnergyPro 2.1 By EnergySoft User Number: 3296 Page: 34 of 40
ROOM.000LING COIL LOADS .
Project Title
°1. Mini -Mart
DETD 1
Date
2/12/01
ROOM INFORMATION
DESIGN CONDITIONS
Room Name
Sales Area
Time of Peak Jul 3 pm
Floor Area
396
Outdoor Dry Bulb Temperature 112.9F
Indoor Dry Bulb Temperature
75`k
Outdoor Wet Bulb Temperature
79
it �.
-
xr :Conduction
-30 Roof (R.30.2x12.16)
"Solid CMU Wall
Ingle Mtl Uncoated Default
Area
1
1. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
U -Value
0.0290
-------- 0.3218
— - -- 1.1900
X
X
x
X.
X
X
X�
X
X
DETD 1
=
=
=
_
=
_
=
65.1
37.1
24.3
Orientation Area SGF SC
(North) 80.0 X — 41 X _ 0.517
X X
X X
X X
-- — x --- x
x-.-- x ---
X _ X
X X
-- x — — X
Page Total
Weighting
Factor
x 0.871 =
X
X =
X =
X =
X =
X =
X =
X =
X =
Page Total
Btu/hr
746
418
2,312
3,477
Btu/hr
1,478
1,4781
Sched'Weighting
internal Gain Frac. Area Heat Gain Factor Btu/hr
fights 1.0 x 396 x 0.000 Watts/sgft x 3.41 Btuh/Watt I x 0.000 = 01
ccupants 1.0c X 396 x 255 Btuhlocc. / 7 sgft/OCc. X 1.00 = 1,443
eceptacle 1.0 X 396 x 0.500 Wafts/sqft x —3. j_1 Btuhl.Watt X 1.00 = 676
t rocess 1.0 x 396 x 2.000 Watts/sgft x 3.41 Btuh[Watt x 1.00 = 2,7031
Infiltration: L 1.o0J x I - 1.080 x —396 x 9.00 x I - 0.00 / 60] x 37 = a F�
Schedule Air Sensible Area eiling Nei§ --fit
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 9,776
Sched.
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants _ 1.00 X — _ 396 X 225 Btuh/OCC. / 70 sgftlocc.
eceptacle 1.00 x _ 396 X 0.000 Watts/sgft x 3.413 Btuh/Watt = o
iocess ttt 1.00 x 396 x 0.000 Watts/sqft x _ 3.413 Btuh/Watt = 0
Infiltration: I 1.001 xL a Sao x 1-- 3s6 x s.00� x 1 0.00 / 60� x
Sc r�edule Air talent Area ailing Fl --eight XCH Dyy
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,273
EnergyPro 2.1 By EnergySoft User Number: 3296 Page: 35 of 40 1
nn
ROOM COOLING
Rw
Rroject Title
•>; Mini -Mart
ROOM INFORMATION
Room Name
Fioor Area'
Ihdoor Dry Bulb Temperature
COIL LOA
-30 Roof (R.30.2x12.16)
"Solid CMU Wall
Ingle Mtl Uncoated Default - —
Cashier/bar Time of Peak
230 Outdoor Dry Bulb Temperature
75`k Outdoor Wet Bulb Temperature
Area
230.0
--- 79.0
1. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
Orientation Area
to
2/12/01
Jul 3 pm
112 `k
79 `k
x
X
x
X
X
X
X
X
X
LI -Value
X
X
X
X
X
X
X
X
X
DETD 1
=
=
=
=
=
=
=
Btu/hr
0.0290
- --_— -
64.2
428
9361
0.3218
_ 1.1900
36.8
24.1
1,034
—
-
i
SGF Sc
— 41
X
X
X
X
X
X
X
X
X
0.517
X
X
X
X
x
X
X
X
X
—._
.—
_
Page Total 2,398
Weighting
Factor Btu/hr
0.839 = 6411
= i
= I
Page Total 6411
Sched.
Weighting
Internal Gain Frac. Area Heat Gain Factor Btu/hr
Ights 1.0c x 230 x 0.000 Watts/sqft x 3.41 Btuh/Watt X 0.000 = 0
ccupants 1.0c X-- 230 X 255 Btuh/OCc. / 11 sqft/occ. X 1.00 = 510
Receptacle 1.0 X 230 X 0.500 Watts/sgft X 3 41 Btuh/Watt x 1.00 = 392
rocess 1.0 X.- — 230 X 10.000 Watts/sgft x 3.41 Btuh[Watt X 1.00 = 7,850
Infiltration: L 1.001 X 1 1.080 X I 230 X 9.00] X 1 1.00 / 60] X 37 = t 1,378
Schedule Air Sensible Area eiling`HeigFit - RCN p
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 13,169
Sched.
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants 1.00 X — 230_ x 225 Btuh/OCC. / 115 sgft/occ. =450
Receptacle 1.00 X _ —_ 2_30 x 0.000 Watts/sgft x 3.413 BtuhfWatt = Ii
rocess I� 1.00 x 230 X 0.000 Watts/sgft x 3.413 BtuhfWatt = 0
Infiltration: 1.00 x L 4 840 x I_ 230 x I 9.001 x I 1.001/ 60� x 1 0.00408 = 6821
Schedule AIFLaisnt Area ellin—g Flelgfit ACH �yy
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 1,132
�+ EnergyPro 2.1 By EnergySoft User Number: 3296 Page: 36 of 40
jR.9,9M,COOLING COIL LOADS
tect Title711 Mini -Mart Date -i
F
J
2/12/01ROOM INFORMATION DESIGN CONDITIONS
Room Name Office
Time of Peak Jul 3 pm
Floor Area' 110
Outdoor Dry Bulb Temperature 112'k
indoor Dry Bulb Temperature 75`F
Outdoor Wet Bulb Temperature 79
x
_ 0.3218
onductiori.
Solid CMU Wall
•30 Roof (R.30.2xl2.16)
Solid CMU Wall
i�
Area
253.0
110.0
92.0
U -Value
X
0.3218
X
x
_ 0.0290
X
x
_ 0.3218
X
X
X
X
X
X
X
X
—
X
X
X
X
X
1: Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain Orientation Area
_ x
_ x
x
_ x
x
---. x
x
x
x
x
SGF
Sc
DETD 1
38.2 =
61.0 =
35.9 =
Page Total
Weighting
Factor
Page Total
Btu/hr
3,110
194
1,062
4,367
Btu/hr
X01
Sched. Weighting
Internal Gain Frac. Area Heat Gain Factor Btu/hr
fights 1.0 x 110 x 0.000 Wattslsgft x 3.41z Btuh[ Watt x 0.000 = 0
ccupants 1.0c X 110 X 255 Btuh/occ. I sgft/occ. x 1.00 = 0
Receptacle 1.0c x 110 x 0.500 Watts/sgft X 3.41 Btuh/WI/att X 1.00 = 188
rocess r1.0 x 110 x 3.006 Watts/sgft x 3.41 Btuh/Watt x 1.00 = 1,126
! i Infiltration: L 1.00 x 1.080 x 110 x 9.00 x � o.00 / 60 x
Sc rl a We Air Sensl6le Area siting Heigfit AC J p
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 5,681
Sched.
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants 1.00 x 110 x 225 Btuh/OCC. I 0 sgft/occ. = 0
Receptacle 1.00 x 110 x 0.000 Watts/sgft X 3.413 Btuh/WWatt = 0
rocess 1.00 X 110 x 0.000 Watts/sgft x 3.413 BtuhfWatt = 0
Infiltration: r_ 1.0o XI 4840 X 110 X _ _ 9.00 ,,X l 0.00 /60� X 0.00000 = �I
Ls' hedule Air Latent area ening Neigh ACR �yy
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 0
�tcnergyPro 2.1 By EnergySoft User Number: 3296 Page: 37 of 40
ROOM COOLING COIL LOADS
Mini -Mart
Room Name
Floor Area
Indoor Dry Bulb Temperature
Conduction
2/12/01
Storage room Time of Peak Jul 3 pm ,
144 Outdoor Dry Bulb Temperature 112 OF
75c� Outdoor Wet Bulb Temperature 79 O
Area
1. Design Equivalent Temperature Difference (DETD)
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
U -Value
Orientation Area SGF SC 3
DETD
Page Total
Weighting
Factor
x =
x =
x =
x =
x =
x =
X
x =
x =
Page Total
Btu/hr
I
—I
I
Sched. Weighting
• , Internal Gain Frac. Area Heat Gain Factor Btu/hr
Ights 1.0 x 144 X o.000 Watts/sgft x 3.41 Btuh[Watt x 0.000 = _o
ccupants 1.0c X 144 x 250 Btuh/occ. / 14 sgft/occ. X 1.00 = 250
Receptacle 1.0 x 144 x 0.940 Watts/sqft x _ 3.41 Btuh/Watt x 1.00 = 462
rocess 1.0 x 144 X - o.000 Watts/sgft x 3.41 'Btuh/Watt x 1.00 = o
Infiltration:Lff-ee—dLL1601 x 1- 1.0801 X I 144 x _ 9.00j x I — 0.00 / 60J x ��37 = , --0�
Air Sensible Area eiling Height Ac
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 712
Ai
Sched.
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants 1.00 x_ 144 X _ 250 Btuh/OCC. I _ 144 sgft/OCc. = 250!
eceptacle 1.00 x __ 144 x 0.000 Watts/sgft X 3.413 Btuh/Watt = p
rocess 1.00 x — _ 144 x 0.000 Watts/sgft x 3.413 BtuhfWatt = o
Infiltration: �[i.o-1 xC 4 840 X I_ 144 x 9.00 x I _ 0.00 / 60� X 0.00000 = • �0
Sc�dule Alf Laienf Area ailing Helght ACH �yy
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 2501
EnergyPro 21 By EnergySoft User Number: 3296 Page:38 of 40
x
x
x
x
X
X_—
X
x
x
x
x
x
x
x
x
x
---- --
---
•
—_
-
_
_
-- — --
_
DETD
Page Total
Weighting
Factor
x =
x =
x =
x =
x =
x =
X
x =
x =
Page Total
Btu/hr
I
—I
I
Sched. Weighting
• , Internal Gain Frac. Area Heat Gain Factor Btu/hr
Ights 1.0 x 144 X o.000 Watts/sgft x 3.41 Btuh[Watt x 0.000 = _o
ccupants 1.0c X 144 x 250 Btuh/occ. / 14 sgft/occ. X 1.00 = 250
Receptacle 1.0 x 144 x 0.940 Watts/sqft x _ 3.41 Btuh/Watt x 1.00 = 462
rocess 1.0 x 144 X - o.000 Watts/sgft x 3.41 'Btuh/Watt x 1.00 = o
Infiltration:Lff-ee—dLL1601 x 1- 1.0801 X I 144 x _ 9.00j x I — 0.00 / 60J x ��37 = , --0�
Air Sensible Area eiling Height Ac
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 712
Ai
Sched.
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants 1.00 x_ 144 X _ 250 Btuh/OCC. I _ 144 sgft/OCc. = 250!
eceptacle 1.00 x __ 144 x 0.000 Watts/sgft X 3.413 Btuh/Watt = p
rocess 1.00 x — _ 144 x 0.000 Watts/sgft x 3.413 BtuhfWatt = o
Infiltration: �[i.o-1 xC 4 840 X I_ 144 x 9.00 x I _ 0.00 / 60� X 0.00000 = • �0
Sc�dule Alf Laienf Area ailing Helght ACH �yy
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 2501
EnergyPro 21 By EnergySoft User Number: 3296 Page:38 of 40
ROOM COOLING COIL LOADS
1 f5ect Title
sty=' Mini -Mart
ROOM INFOF
Date
�- 2/12/01
Room Name
Sales area
Time of Peak Jul 3 pm
Floor Area.,'
1,035
Outdoor Dry Bulb Temperature 112 `k
Indoor Dry Bulb Temperature
759=
Outdoor Wet Bulb Temperature 79 9:
1.M '
65.3
-----
Conduction
" Solid CMU Wall
Ingle Mtl Uncoated Default
Ingle Mtl Uncoated Default
-30 Roof (11.30.2x12.16)
Area
41.01
192.0
112.0
1,035.0
1. Design Equivalent Temperature Difference (DETD)
items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
X
X
X
X
X
X-
X
U -Value
- --
X
X
X
X
X
X
X
DETD I
=
=
=
=
=
=
=
0.3218
----
37.2
_ 1.1900
24.3
_ 1.2500
24.3
0.0290
65.3
-----
----
Orientation Area SGF Sc
(North)---'
(North)
- 192.0
112.0
X
X
X
x
x
X
x
X
x
X
..41.
41
X
x
X
X
X
X
X
X
X
X
0.517
X
x
X
X
X
X
x
x
x
X
_ 0.513
- •----- --
-
----
_
----
-
_
--
Page Total
Weighting
Factor
0.878 =
0.878 =
Page Total
Btu/hr
4911
5,558
3,401
1,956
11,405
Btu/hr
3,57_7
2,068
.i
5,6451
Sched. Weighting
Internal Gain Frac. Area Heat Gain Factor Btu/hr
lghts 1.0 x 1,035 X o.000 Wafts/sqft x 3.41 Btuh[Watt X 0.000 = 0
ccupants 1.0 x 1,035 X 255 Btuh/OCC. / 31 sgft/occ. x 1.00 = 7,541
Receptacle 1.0c x 1,035 x 0.500 Wafts/sqft x 3.41 Btuh/Waft x 1.00 = 1,766
rocess f11.0c x 1,035 X 2.000 Watts/sqft x 3.41 Btuh/Watt x 1.00 = 7,065
Infiltration: L 1.001 x 1.08J x I 1,035 x I 9.00 x I _ 1.00 / 60] x 37 = t 6,201
Safi -Ir iiia Alf Sensi6te Area Ceiling Neigfit ACR p
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 39,623
Sched.
Latent Gain Frac. Area Heat Gain Btu/hr
ccupants 1.00 x 1,035 X 225 Btuh/oCC. / 35 sgft/occ.
eceptacle 1.00 x 1,035 X 0.000 Wafts/sqft X 3.413 Btuh/Watt = 0
rocess 1.00 x 1,035 x 0.000 WatOts/sgft x 3.413 BtuhfWatt = 0
Infiltration: LiEli._iduj,6� x1. AI►Lai84�1 x 1-q x035 x CeIIIrig R-elelg't x 1- ACH 1.00] / 6] x o.t7�o�408 = 0691
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 9,723
EnergyPro 2.1 By EnergySoft User Number: 3296 Page: 39 of 40 1
ROOM COOLING COIL LOADS
1
rrujact i ilia Date l
Mini -Mart 2/12/01
ROOM INFORMATION DESIGN CONDITIONS
�+
Room Name Restrooms Time of Peak Jul 3 pm
Flooe Area 180 Outdoor Dry Bulb Temperature 112 Ck
Indoor Dry Bulb Temperature 75c� Outdoor Wet Bulb Temperature 79 O
Conduction
30 Roof(R.30.2xl2.16)
Solid CMU Wall
Solid CMU Wall
Area
180.0
------ --- 264.0
1. Design Equivalent Temperature Difference (DETD) %
Items shown with an asterisk (') denote conduction through an interior surface to another room.
Solar Gain
U -Value
----_-- 0.0290
0.3218
_... ---- ---0.3218
Orientation Area SGF Sc
DETD 1
61.7 =
36.1 =
36.1 =
Page Total
Btu/hr
322
--- 1,209
3,068
i
I
4,598
Weighting
Factor Btu/hr'
x =
x =
x
x = �_
x =
x
x'
x = I
Page Total o�
Sched. Weighting
Internal Gain Frac. Area _ Heat Gain _ Factor Btu/hr
fights 1.0c x 180 x 0.000 Watts/sqft x 3.41 BtuhlWatt x 0.000 = 0
ccupants 1.0c X 180 X 255 Btuh/occ. / 18c sgft/occ. X 1.00 = 255
Receptacle 1.0c X 180 x 0.000 Watts/sgft x 3.41 BtuhfWatt x 1.00 0
rocess 1.0c x 180 x 0.000 Wafts/sqft x 3.41 Btuh/Watt X 1.00 = 0
Infiltration:1.00 x l 1.080 x I 180 x _ 8.00 x I-- 0.00 / 60 x 37 = 0
KSch�ule AIF Sensitile —area ailing Height ICC
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 4,853
Sched. Btu/hr
Latent Gain Frac. Area Heat Gain
ccupants 1.00 x 180 x 225 Btuh/occ. / 180 sgft/occ. = 225I
eceptacle 1.00 x _ 180 x 0.000 Watts/sqft x 3.413 Btuh[Wal
rocess 1.00 x — 180 x ol.000 Watts/sgft x 3.a13 Btuh/Wal = o
Infiltration: 1.00 xL 48401 x 180 x 1 _ 8.00 x o.00 /60� x o.00000 = 0!
• tom' C J
;'� • r, ,n cheau a AGLA� nn Area ailing Helgfi �yy
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 225
EnergyPro 2.1 By EnergySoft User Number: 3296 Page: 40 of 40
x
x
X------
x
X
x
x
x
x
X
x
x
x
x
x
x
X
X
x
'x
----- —
- —. ---
- -
— --
- _-
--
—
---
--
_
-- -
-
— --
DETD 1
61.7 =
36.1 =
36.1 =
Page Total
Btu/hr
322
--- 1,209
3,068
i
I
4,598
Weighting
Factor Btu/hr'
x =
x =
x
x = �_
x =
x
x'
x = I
Page Total o�
Sched. Weighting
Internal Gain Frac. Area _ Heat Gain _ Factor Btu/hr
fights 1.0c x 180 x 0.000 Watts/sqft x 3.41 BtuhlWatt x 0.000 = 0
ccupants 1.0c X 180 X 255 Btuh/occ. / 18c sgft/occ. X 1.00 = 255
Receptacle 1.0c X 180 x 0.000 Watts/sgft x 3.41 BtuhfWatt x 1.00 0
rocess 1.0c x 180 x 0.000 Wafts/sqft x 3.41 Btuh/Watt X 1.00 = 0
Infiltration:1.00 x l 1.080 x I 180 x _ 8.00 x I-- 0.00 / 60 x 37 = 0
KSch�ule AIF Sensitile —area ailing Height ICC
Fraction
TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 4,853
Sched. Btu/hr
Latent Gain Frac. Area Heat Gain
ccupants 1.00 x 180 x 225 Btuh/occ. / 180 sgft/occ. = 225I
eceptacle 1.00 x _ 180 x 0.000 Watts/sqft x 3.413 Btuh[Wal
rocess 1.00 x — 180 x ol.000 Watts/sgft x 3.a13 Btuh/Wal = o
Infiltration: 1.00 xL 48401 x 180 x 1 _ 8.00 x o.00 /60� x o.00000 = 0!
• tom' C J
;'� • r, ,n cheau a AGLA� nn Area ailing Helgfi �yy
Fraction
TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 225
EnergyPro 2.1 By EnergySoft User Number: 3296 Page: 40 of 40