002631 (RER)Budding 77-600 Aven: ��
x
rs
Owner
Mailing
Address
City Zip
' �(
P.O. BOX 1504
78-105 CALLE ESTADO
LA QUINTA, CALIFORNIA 92253
Contractor
77-350 A4i°. ift Arm
City Zip " Tel.'
la Qty 32253 564.4660
State Lic. City
& Classif. dd 11A Lic. # 469
Arch., Engr.,... .
Designer
Address Tel.
City Zip State
Lic. #
_ LICENSED CONTRACTOR'S DECLARATION
I hereby affirm that I am licensed under provisions of Chapter 9 (commencing with Section
7000) of Division 3 of the Business and Professions Code, and my license'is in full force and "
effect.
SIGNATURE - DATE
OWNER -BUILDER DECLARATION
I hereby affirm that I am exempt from the Contractor's License Law for the following
-
reason:(Sec. 7031.5,Business and Professions Code: Any city or county which requires a
permit to construct, alter,, improve, demolish, or repair any structure, prior to its issuance also
requires the applicant for such permit to file a signed statement that he is licensed pursuant to
the provisions of the Contractor's License Law, Chapter 9 (commencing with Section 7000) of
'.Division 3 of the Business and Professions Code, or that. he is"'exempt therefrom, and the basis
for the alleged exemption. Any violation of Section 7031.5 .by 'any applicant for a permit
subjects the applicant to a civil penalty of not more than five hundred dollars ($500). — h
_ O I, as owner of the property, or my employees with wages as their sole compensation, will _-
do the work, and the structure is not intended or offered for sale. (Sec. 7044, Buisness and
Professions Code: The Contractor's License Law does not apply to an owner of property .who
builds or improves thereon and who does such work himself or through his own employees,
provided that such improvements are not intended or offered for sale. If, however, the building . .
or improvement is sold within one year of completion, the owner -builder will have the burden
of proving that he did not build or improve for the purpose of sale.),
❑ I, as owner of the property, am exclusively contracting with licensed contractors to con-
struct the project: (Sec. 7044, Business and Professions Code: The Contractor's License Law
does not apply to an owner of property who builds or improves thereon, and who contracts for
such projects with a contractor(s) licensed pursuant to the Contractor's License Law.)
❑ 1 am exempt under Sec. B. & P.C.-for this reason
I Pate—owner
WORKERS' COMPENSATION DECLARATION
I hereby affirm that I have a certificate of consent to self -insure, or a certificate of.
Worker's Compensation Insurance, or a certified copy thereof. (Sec: 3800, Labor Code.)
Policy No. ' Company
❑ Copy is filed with the city. ❑ Certified copy is hereby furnished.
CERTIFICATE OF EXEMPTION FROM
WORKERS' COMPENSATION INSURANCE
(This section need not be completed if the permit is for one hundred dollars (5100) valuation
or less.) - -
I certify that in the performance of thg work for which this permit is issued, I shall not
employ any person -in any manner so as to become subject to -the Workers' Compensation'
Laws of California.
Date Owner
NOTICE TO APPLICANT., If, after making this Certificate of Exemption you should become
subject to the Workers' Compensation provisions of the Labor Code, you must forthwith
comply with such provisions or this permit shall -be deemed revoked. '
CONSTRUCTION LENDING AGENCY
I hereby affirm that there is a construction lending agency for the performance of the
work for which this permit is issued..(Sec. 3097, Civil Code.) -
Lender's Name
Lender's Address
This is a building permit when properly filled out, signed and -validated, and is subject to
expiration if work thereunder is suspended for 180 days.
I certify that I have read this application and state that the above information is correct. .
I agree to comply with all 'city and county ordinances and state laws relating to building
construction, and hereby authorize representatives -of this city to enter the above-.
mentioned property for inspection purposes.
Signature of applicant Date
Mailing Address
City, State, Zip
No. 0026221
BUILDING: TYPE CONST. OCC: GRP.
A.P. Number
Legal Description
Project Description
Sq. Ft. ' No. No. Dw.
Size _ -Stories Units
New ❑X Add ❑ Alter ❑ Repair ❑ Demolition ❑
Estimated Valuation
. .'
i ��//��
1747..000.00
Minimum Setback Distances:
PERMIT
Front Setback from.Center Line
AMOUNT
Plan Chk. Dep..
250.00 1
Side Street Setback from Center Line
Plan Chk. Bal.
Side Setback from Property Line
202.65
Const.
INSPECTOR
560.50
Mech.
Validated by:
54.50
Electrical
Validation:
86.00
Plumbing
67.00
S.M.I..
ZR' C;A
Grading
Driveway Enc.
Infrastructure
TOTAL
1.25l_19
oil ;n
.'REMARKS
ZONE:
BY:
Minimum Setback Distances:
Front Setback from.Center Line
Rear Setback from Rear Prop. Line
Side Street Setback from Center Line
Side Setback from Property Line
FINAL DATE
INSPECTOR
Issued by:
Date.lhRermit
Validated by:
Validation:
CONSTRUCTION ESTIMATE
NO. ELECTRICAL FEES
NO. PLUMBING FEES
1ST FL. SQ. FT. ® $
UNITS
SLAB GRAD� "S
•
y�tOUGH PLUMB. /��
BONDING
YARD SPKLR SYSTEM
2ND FL. SQ. FT.
FORMS
WER OR SEPTIC TANK O#BOUGH WIRING!/ ff-f
I`
DUCT WORK
MOBILEHOME SVC.
BAR SINK
POR. SQ. FT. ®
METER LOOP
HEATING (FINAL)
GAR. SQ. FT. ®_
POWER OUTLET
ROOF DRAINS
TEMP. POLE
DRAINAGE PIPING
CAR P. I SO. FT. ®
WATER HEATER
SERVICE
WALL SQ. FT.
DRINKING FOUNTAIN
SQ. FT. ®
URINAL
ESTIMATED CONSTRUCTION VALUATION $
LUMBER GR.
WATER PIPING
NOTE: Not to be used as property tax valuation
FINAL INSP.
FLOOR DRAIN
MECHANICAL FEES
WATER SOFTENER
VENT SYSTEM FAN EVAP.COOL HOOD
SIGN
WASHER(AUTO)(DISH)
APPLIANCE DRYER
GARBAGE DISPOSAL
FURNACE UNIT WALL FLOOR SUSPENDED
FIRE ZONE ROOFING
LAUNDRY TRAY
AIR HANDLING UNIT CFM
FIREPLACE
KITCHEN SINK
ABSORPTION SYSTEM. B.T.U.
TEMP USE PERMIT SVC
WATER CLOSET
COMPRESSOR HP
POLE, TEMIPERM
LAVATORY
HEATING SYSTEM FORCED GRAVITY
AMPERES SERV ENT
SHOWER
BOILER B.T.U.
SQ. FT. ® c
BATH TUB
MESH
SQ. FT. ®c
WATER HEATER
MAX. HEATER OUTPUT, B.T.U.
SQ. FT. RESID ® 1% c
SEWAGE DISPOSAL
SO.FT.GAR @ 3l4c
HOUSE SEWER
GAS PIPING
PERMIT FEE
PERMIT FEE
PERMIT FEE
DBL
TOTAL FEES
MICRO FEE
MECH.FEE PL.CK.FEE
CONST. FEE ELECT. FEE
SMI FEE PLUMB. FEE
STRUCTURE _ PLUMBING ELECTRICAL HEATING & AIR COND. SOLAR
SETBACK
PLUMBING
UNDERGROUND
A.C. UNIT
COLL. AREA
SLAB GRAD� "S
•
y�tOUGH PLUMB. /��
BONDING
HEATING (ROUGH)
STORAGE TANK
FORMS
WER OR SEPTIC TANK O#BOUGH WIRING!/ ff-f
I`
DUCT WORK
ROCK STORAGE
FOUND. REINF.
G H (ROUGnom'� . �
C
METER LOOP
HEATING (FINAL)
OTHER APP./EQUIP.
REINF. STEEL
GAS (FINAL)
TEMP. POLE
GROUT
WATER HEATER
SERVICE
FINAL INSP.
BOND BEAM
WATER SYSTEM
GRADING
cu. yd.
$ plus x$
=$
LUMBER GR.
FINAL INSP.
RAMING ��� 9
FINAL INSP.
ROOFING
y
12- S 7
REMARKS:
VENTILATION
FIRE ZONE ROOFING
FIREPLACE
SPARK ARRESTOR
GAR. FIREWALL
LATHING
MESH
INSULATION/SOUND S
FINISH GRADING
�n
/
/�61NAL INSPECTION��-����
CERT. OCC.
FENCE FINAL
INSPECTOR'S SIGNATURES/INITIALS.
GARDEN WALL FINAL
T4t�t 4 4a "
78-105 CALLE ESTADO - LA QUINTA, CALIFORNIA 92253 - (619) 564-2246
September 24, 1986
Richard S. Dodson, AIA
Dodson/Magnuson Architects
201 Entrada Drive
Santa Monica, CA 90402
SUBJECT: Renovation and Enlargement of Existing Structure at
77-600 Avenida Fernando, La Quinta, CA
Dear Mr. Dodson:
Pursuant to our telephone conversation, I have enclosed a Building
Permit Application form. Please mail the completed form along with
your plans and a check for $250.00 payable to the City of La Quinta.
You may send this to the attention of:
Pamela Nieto
City of La Quinta
P. O. Box 1504
La Quinta, CA 9225.3
Should you have any questions regarding your application, please feel
free to contact this office.
Very truly yours,
PLANNING DEPARTMENT
Wallace H. Nesbit
Planning Assistant
WHN:dmv
Atch: Building Permit Application
cc: V/Pamela Nieto, Building & Safety Division
.z
MAILING ADDRESS - P.O. BOX 1504 - LA QUINTA, CALIFORNIA 92253•
T44t 4 4(4Q"
78-105 CALLE ESTADO - LA QUINTA, CALIFORNIA 92253 - (619) 564-2246
June 11, 1986
Richard S. Dodson, AIA
Dodson/Magnuson Architects
201 Entrada Drive
Santa Monica, CA 90402
SUBJECT: Renovation and Enlargement of Existing Structure at
77-600 Avenida Fernando, La Quinta, CA
Dear Mr. Dodson:
The La Quinta Community Development Department has reviewed plans for
the above request and has no immediate concerns relative to design or
zoning requirements. The zoning on the site is R-1 with a minimum
1200 -square -foot dwelling size. The site plan meets the required
setback provisions and height limits. No further review by the
Planning.Division will be necessary. You will, however, need to
submit plans to the Community Development Department, Building
Division, for plan checking and permit issuance. I have enclosed the
requirements for preparation of construction plans for processing
through the Building Division.
Should you have any questions regarding your proposal, please feel
free to contact this office.
Very truly yours,
COMMUNITY DEVELOPMENT DEPARTMENT
PLANNING DIVISION
A D •: .G�
Wallace Nesbit
Planning Assistant
WHN:dmv
Atch::Construction Plan Requirements
cc:,✓ CDD, Building Division
MAILING ADDRESS - P.O. BOX 1504 - LA QUINTA, CALIFORNIA 92253
CALIFORNIA RESIDENTIAL ENERGY STANDARDS
COMPLIANCE CALCULATIONS:
PUGET RESIDENCE ADDITION
LA QUINTA, CALIFORNIA
JULY 2, 1986
PREPARED FOR:
DODSON/MAGNUSON ARCHITE
201 ENTRADA DR.
SANTA MONICA, CA 90402
(213) 459-0021
BY:
GROUP DEVILLE
921—C 16TH STREET
SANTA MONICA, CA 90403
( 213 ) 82.9-2738
JOB # 86-96
deVille
h O Lei' ��°�. I NT10A
C® mup ty. Devemupmer, �9dg. ge'pt.
CO[4 DiTc"O SALLY
,,@.;t-ql.E TO, 9Nv5A��I� N AS �E�
`a g
IT IS HEREBY CERTIFIED THAT THE DESIGN FOR THIS PROJECT HAS
BEEN REVIEWED IN LIGHT OF, AND SUBSTANTIALLY COMPLIES WITH,
THE ENERGY CONSERVATION REQUIREMENTS OF TITLE 24, PART 2,
CHAPTER 2-53 OF THE CALIFORNIA ADMINISTRATIVE CODE.
T*n�4------- ------------------G�2 9'�/--- ---
D000L S C. TABER, PRINCIPAL DATE
CLIMATE ZONE: 15
COMPLIANCE METHOD: COMPUTER PERFORMANCE METHOD
CONTENTS: SEE FIRST PAGE
NOTE: SIGNATURE OF LICENSED PERSON ABOVE PERTAINS TO THESE .
---- ENERGY CALCULATIONS ONLY, AND DOES NOT IN ANY WAY IMPLY
DESIGN OF, NOR ANY APPROVAL OF, ANY OTHER ASPECTS OF
THE DESIGN OF THIS PROJECT.
anta Monica /Seattl
M1
Grou
CONTENTS:
deV1 I le
Page
Energy -Related building Construction Requirements .......... 2
Mandatory Features and Devices 4
Computer Run Summary & Input Data: Existing House .......... 6
Computer Run Summary & Input Data: House with Addition 15
Computer Program Certification Data ....................... 24
U -Value Calculations (Forms 3R) ............................ 25
Maximum Added Furnace Output Capacity Calculations ......... JD
Cooling Load Calculations ..................................• 31
COMPLIANCE PROCEDURE:
The residence addition was modeled using the "Micropas"
Computer Program, as certified by the California Energy
Commission for compliance with the new "Title 24" Residential
Energy Standards. U -Value calculations, computer program input
and summary output data, together with copies of the Micropas
Program Certification letter and energy budgets are included as
a part of this package.
The basic approach for Title 24 compliance was to model the
energy use of the house both before and after the proposed
addition. As noted in the calculations below, the energy use of
the proposed design for the house plus the addition, with energy
conservation measures as specified elsewhere in this report, is
less than the allowable energy use, and the proposed design thus
complies with Title 24 Residential Energy Standards for the
Climate Zone*in which it has been evaluated.
Energy Use of Existing House
(From Computer Run, Page 7) ................. 388,499 Kbtu/Yr
Plus Allowed Energy Use of New
Addition in Climate Zone: 15
1159.0 S.F. Addition x 36.9 KBtu/S.F./Yr ... 42,767 KBtu/Yr
Total Allowed Energy Use .................... 431,266 Kbtu/Yr
Proposed Energy Use of House
Plus New Addition
(From Computer Run, Page 16) ................ 362,827 KBtu/Yr
anta Monica/Seatt
n
roup deVille
ENERGY-RELATED BUILDING CONSTRUCTION REQUIREMENTSe
Following are listed the insulation, glass, HVAC, and mass
requirements which are necessary for Title 24 compliance for
this project, as determined from the computer runs located
elsewhere in this report. These requirements are in addition to
the "Mandatory Features and Devices", Section 2-5352, of the
new Title 24 Standards, and the Appliance Efficiency Standards
listed in Sections 2-5306 and 2-5307 of the same text.
Sections 2-5303, 2-5304, and 2-5305 on the certification
and installation of insulating materials also apply to this
project, as do the administrative and other requirements of
Section 2-5301, 2-5302 and sections 1401 through 1410 of the
Standards tett.
Insulation: R-11 Insulation in all exterior walls and walls
to garage spaces of new construction only.
R-11 Insulation in all walls to attic or truss
spaces of new construction only.
R-19 Insulation in all roofs and ceilings of new,
construction, and as a retrofit to all ceiling
areas of existing house.
No floor slab perimeter insulation.
Glazing: All single glazing, except for glass block
windows in'Kitchen, which are double.
HVAC 1
Efficiencies: Gas Furnaces 0.71 (Min.) Seasonal Efficiency
(SE) Rating.
Air Conditioners 8.0 (Min.) Seasonal Energy
Efficiency Ratio (SEER).
Maximum Furnace Output Capacities (Btu/Hr.):
Entire House: 215,200
Bedroom 1 & 2 wing only: 70,285
House Except Bedrm. 1/2 Wing: 144,915
Approximate Total Cooling Loads (Btu/Hr.):
Entire House: 170,424
Bedroom 1 & 2 wing only: 45,283
House Except Bedrm. 1/2 Wing: 125,141
Santa Monica /Seatt
Santa Monica /Seattle
3,
Group deV! Ile
Exposed Thermal Floor
Mass Areas Used
for Computer Input:
Kitchen ................
302.8
Sq. Ft.
Hearths .................
21..8
"
Guest Path
............
26.8
"
Bathroom #2
...........
34.5
"
Master Bath
WC & Shower
42.4
"
Total
428.8
"
Santa Monica /Seattle
3,
MANDATORY FEATURES AND•DEVICES
roup deVi l le
(FROM CALIFORNIA RESIDENTIAL ENERGY CONSERVATION STANDARDS,
SECTION 2-51352.)
1. Insulation installer shall post in a conspicuous location in
the building a certificate signed by the installer and
builder stating that the installation conforms with the
requirements of Title 24, Chapter 2-53 and that the
materials installed conform with the requirements of Title
20, Chapter 2, Subchapter 4, Article 3.
2. All insulation materials shall be certified by the
manufacturer as complying with the California Quality
Standards for Insulating Materials.
3. Doors and windows between conditioned and outside or
unconditioned spaces such as garages and compartments for
furnaces shall• be fully weatherstripped.
4. Manufactured doors and windows shall be certified and
labelled in compliance with the appropriate infiltration
standards listed in Table 2-53V of the energy regulations.
5. All fan systems exhausting air from the building shall be
provided with back draft dampers.
b. Caulk around all`plumbing, electrical and gas line
penetrations into the building envelope. •
7. Caulk and seal around all window and door frames and between
wall sole plates and floors, between exterior wall panels
and around all openings in the attic floor.
B. Masonry and.factory-built fireplaces shall have the
following:
A) Tight -fitting closeable metal or glass doors covering the
entire opening of the firebox.
B) A combustion.air intake to draw air from the outside of
the building directly into the firebox, which is at least
six square inches in area and is equipped with a readily
accessible, operable, and tight -fitting damper.
EXCEPTION 1: An outside combustion air intake is not
required if the fireplace will be installed over concrete
slab flooring and the fireplace will trot be located on an
exterior wall.
(Continued on following page)
anta Monica /Seattl
y,
I
rouQ deVi Ile
EXCEPTION 2: An outside combustion air intake is not
required in climate zones 5, 6, 7, S, 9, 10, 14, or 15
if the fireplace will not be located near an exterior
wall.
C) Tight fitting flue damper with readily accessible
control.
D) Continuously burning pilot lights are prohibited.
9. Ducts shall be constructed, installed and insulated
according to Chapter 10 of the State Mechanical Code
(Title 24, part 4). All parts of the duct system shall be
tightly sealed with mastic or tape.
10. Storage type water heaters and storage tanks for solar hot
water heating systems shall be externally wrapped with insu-
lation of R-12 or greater unless so internally insulated.
11. Provide minimum R-3 insulation on water heater inlet and
outlet pipes for first five feet in unconditioned space.
12. Insulate recirculating hot water piping in unheated spaces.
13. Gas-fired household heating and cooling appliances, shower
heads and faucets shall comply with the appliance efficiency
standards.
14. General lighting in kitchen and bathrooms shall have an
efficiency of not less than 25 lumens per watt.
EXCEPTION: Luminaires which are the only lighting in a
bathroom and lighting to be used only for specific visual
tasks or decorative effect are exempt from this -require-
ment. Such exempt lighting includes luminaires that are
meant to.light only a specific task area such as a
kitchen counter or sink, a dining table, or a bathroom
mirror.
15. Thermostatically controlled heating or cooling systems shall
have an automatic thermostat with a clock mechanism that can
be manually programmed to automatically set back the thermo-
stat set points for at least two periods within 24 hours.
EXCEPTION: Gravity wall heaters, floor heaters, and room
heaters that are installed in additions need not comply
with this requirement.
16. For Climate Zones 14 and 16, an air infiltration barrier
shall be installed on the conditioned space side of all in-
sulation in all exterior walls, unvented attics, and un -
vented crawl spaces to protect insulation from condensation.
Monica /Seattle
f-.
Page 1
MICROPAS 1.2 File --96R Weather---CZ1 5 Program -SUMMARY > .
Run -EXISTING HOUSE Project -RESIDENCE ADDITION Date -07/02/86
M I C R O P A S Version 1.2 - 04/24/83
Calculations By:
GROUP DEVILLE
921--C SIXTEENTH ST.
SANTA MONICA CALIFORNIA 9040:3
( 213) 829-2738
PROJECT DATA
Run Title ............................... EXISTING HOUSE
Project Title RESIDENCE ADDITION
Owners Name ............................ PUGET RESIDENCE
Site Location ........................... LA GIUINTA CALIFORNIA
Run Type ................................ COMPLIANCE_
Building Type ........................... SINGLE
DESIGN DATA
Floor area (sf) 352.9
Glazing area (sf) 558.2
Glazing percentage K) .................. 24%
Glazing UA (Btu/hr-F) .................... 614 (22%)
Opaque UA (Btu/hr--F) .................... 1992 169/)
Infiltration UA (Btu/hr-F) .............. 254 (9%)
Total UA (Btu/ hr -F) ..................... 2760 ( 100%)
MECHANICAL SYSTEMS
Heating System ......... ............... FURNACE
Cooling System .......................... AC
Ventilation System ...................... NATURAL
CLIMATE DATA
Weather Data Location ................... EL CENTRO CA MKW/RED
Average Temperature (F) ................. 73.
Minimum Temperature (F) ................. 34
Maximum Temperature (F) Ito
G.
Page 2
< < 1 MICROPAS 1.2 File -96R Weather-CZ15 Program -SUMMARY > > >
Run -EXISTING HOUSE Project -RESIDENCE ADDITION Date -07/02/86
===============================================================================
-------------------
PERFORMANCE SUMMARY
----- LOADS ----- ------ CONSUMPTION -------
ANNUAL PEAK FUEL ELECTRIC COST
(kBtu) (kBtu/hr) (kBtu) (kWh) ($)
________ ________ ________ ________ ---------
BUILDING
_______BUILDING Heating 52989 79.5 74632 0 $321
Cooling -245448 -147.7 30681 $2117
Ventinq 0 $0
Totals 74632- 30681 $2438
.
-----------------------------------------------------------
________________________
ENERGY BUDGET COMPARISON
Fuel Cost = $0.430 per Therm (1 Therm = 100 kBtu)
Electricity Cost = $0.069 per kWh
1 kWh.x 3 x 3.41 = 1 source kBtu
*** Peak season(s) not simulated - Check peak loads
---- BUDGETS ----
------ CONSUMPTION
-------
SOURCE
SOURCE
FUEL
ELECTRIC
TOTAL
(kBtu)
(kBtu/sf)
($)
($)
($)
________ ________
BUILDING: 2352.9 sf of Conditioned Floor
________
Area
________
________
Heating
74632
31.7
$321
$0
$321
Cooling
313867
133.4
$2117
$2117
Venting
0
0.0
$0
$0
Totals
________
388499
________
165.1
________
$321
________
$2117
--------
$2438
($1.04/sf>
CALIF. STANDARDS
BUDGET: Single Family Home
in Climate Zone
15
Heating
1647
0.7
$7
$0
$7
Cooling
85175
36-2
$574
$574
Totals
86822
36.9
$7
$574
$582
($0.25/sf)
Fuel Cost = $0.430 per Therm (1 Therm = 100 kBtu)
Electricity Cost = $0.069 per kWh
1 kWh.x 3 x 3.41 = 1 source kBtu
*** Peak season(s) not simulated - Check peak loads
Page 1
< < � MICROPAS 1.2 File -96R Weather-CZ15 Program -FORMAT > > >
Run -EXISTING HOUSE Project -RESIDENCE ADDITION Date -07/02/86
===============================================================================
Input file 96R last edited on 07/02/86
CONTROL DATA
============
RUN DATA
1> RUN TITLE (25 characters maximum) : .................
..... EXISTING HOUSE
2> PROJECT TITLE (25 characters maximum) : .............
..... RESIDENCE ADDITION
3> OWNER'S NAME (25 characters maximum) : ..........'...
..... PUGET RESIDENCE .
4> SITE LOCATION (25 characters maximum> : .............
..... LA QUINTA CALIFORNIA
5> RUN TYPE (COMPLIANCE, DESIGN) : .....................
6> BUILDING TYPE (SINGLE, CLUSTER, APARTMENT) : ........
� SITE AND WEATHER DATA
COMPLIANCE
SINGLE
1> BUILDING LATITUDE (decimal deg.) : .................. 33.7
2> BUILDING ROTATION (deg., 0=S, 90=W, -90=E', 180=N) : . 0
3> NUMBER OF WARMUP DAYS (10 maximum) : ................ 3
4> CLIMATE ZONE (compliance runs) : .................... 15
5> WEATHER DATA FILE NAME (CZ12, etc.) : .......'....... CZ15
6> WIND CORRECTION FACTOR (fraction) : ................. 0.25
7> GROUND REFLECTIVITY (fraction) : .................... 0.2
8> GROUND TEMP. DAILY FACTOR (fraction) : .............. 0
9> GROUND TEMP. MONTHLY FACTOR (fraction) : ............ 1
10> GROUND TEMP. ANNUAL FACTOR (fraction) : ............ 0
| SIMULATION CONTROL DATA
1> NUMBER OF SIMULATION SEASONS
2> ROW
SEASON
SIMU-
NAME
LATE
SEASON
---
-----1------
---2----
1
WINTER
Y
2
WINTER/SPRNG
Y
3
SPRNG/SUMMER
Y
4
SUMMER
Y
5
SUMMER/FALL
Y
6
FALL/WINTER
Y
7
PEAK HEATING
N
8
PEAK COOLING
N
(8 only) : ............. 8
�
Page 2
MICROPAS 1.2 File"96R Weather-CZ15 Program -FORMAT > .
Run -EXISTING HOUSE Project --RESIDENCE ADDITION Date -07/02/86
SEASON OUTPUT SPECIFICATIONS
1> COPY OF INPUT DATA (Y,N or F for formatted data) . .. F
2> AMBIENT SUMMARY (Y/N) . .............. .............. N
3> ZONE LOADS (Y/N) . . ............................... N
4> ZONE HEAT FLOWS (Y/N) . ............................. N
5> MASS SUMMARY (Y / tea) . .. N
6> TEMPERATURE SUMMARY (Y/N) . ......................... N
7> PEAK CONDITIONS (Y/N) . ............. :............... N
DAILY OUTPUT SPECIFICATIONS
1> ROW
SEASON
AMB-
ZONE
ZONE
MASS
TEMP.
TEMP.
NAME
I ENT
LOADS
HEAT
SUM--
SUM -
SlJlv1--
GRAPH
SUM.
FLOWS
MARY
MART'
MARY
MARY
_..
------------1-----------
----2-.-
_ _ - -
1
WINTER
N
N
N
N
N
2
WINTER/SPRNG
N
N
N
N
N
=
SPRNG/SUMMER
N
N
N
N
N
4
SUMMER
N
N
N
N
N
5
SUMMER/FALL
N
N
N
N
N
6
FALL/WINTER
N
N
N
N
N
7
PEAK HEATING
N
N
N
N
N
6
PEAK COOLING
N
N
N
N
N
HOURLY OUTPUT SPECIFICATIONS
1> ROW
SEASON
AMB-
ZONE:
ZONE
MASS
TEMP.
TEMP.
NAME
I ENT
LOADS
!-TEAT
SUM-
SlJlv1--
GRAPH
SUM.
FLOWS
MARY
MARY
_..
------------1-----------
----2-.-
_ _ - -
---4--
--•-5•--
---6---
--7--
1
WINTER
N
N
N
N
N
N
2
WINTER/SPRNG
N
N
N
N
N
N
_.
SPRNG/SUMMER
N
N
N
N
N
N
4
SUMMER
hl
N
N
N
N
N
5
SUMMER/FALL
N.
N
N
N
N
N
6
FALL/WINTER
N
N
N
N
N
N
7
PEAK HEATING
t,,l
N
N
N
N
N
e
PEAK COOLING
N
N
N
N
N
N
Page -
. < < MICROPAS 1.2 FiIe-96R Weather --CZ 15 Program -FORMAT > .
Run --EXISTING HOUSE Project -RESIDENCE ADDITION Date -07/02/86
ZONE DATA
ZONE: DATA
1> NUMBER OF ZONES (3 maximum) ....................... I
ZONE #1
1> ZONE NAME (HOUSE, SUNSPACE, etc.) : .................
2> FLOOR AREA (sf) ....................................
3> VOLUME (cf) ........................................
4.::[ ZONE HEAL" CAPACITY (Btu/F) . ..........................
5> INTERNAL GAIN (Btu/day) . ...........................
6> INTERNAL GAIN SCHEDULE (INTERNAL, NONE, etc.) . .....
7> INFILTRATION BASE ACH lac /hr) . .....................
8> INFILTRATION TEMPERATURE ACH (ac/hr-F) : ........
9> INFILTRATION WIND ACH (ac/hr-mph) : .................
10> HEAT EXCHANGER SYSTEM NAME (HEATEX, NONE, etc.) . ..
It> HEATING SYSTEM NAME (FURNACE, NONE, etc.) : ........
12> COOLING SYSTEM NAME (HEATPUMP, NONE, etc-) : . .
13> VENTILATION SYSTEM NAME (NATURAL, NONE) : ..........
14> HEATING THERMOSTAT NAME (HEATCNST , HEATSE'TB , etc .) :
15:x. COOLING THERMOSTAT NAME (COOLC:NST, COOLSETB, etc . )
OPAQUE SURFACE DATA
OPAQUE SURFACES BETWEEN ZONE AND AMBIENT
HOUSE
2352.9
21764
4'529
86991
INTERNAL_
.6J
ii
Q
NOME
FURNACE
AC
NATURAL
HEATCNST
COOLCNS-1
I> NUMBER OF SURFACES
(20 maximum)
. ................... 11
2:::. ROW
OPAQUE
AREA
U -•-VALUE
AZIMUTH
TILT"
ABSORP-
ZONE
SURFACE
(sfh
(Btu/sf
(deg.)
(deg.)
TIVITY
NAME
NAME
-F)
(FRAC.)
---
---
^-----
5----
-'----7------
1
SWALL
648.1
.389
0
90
0.5
HOUSE
C
WWALL
571.4
.388
90
90
0.5
HOUSE
-
NWALL-
581.4
.388
180
90
0.5
HOUSE
4
EWALL
580.3
.388
-90
90
0.5
HOUSE:
5
WDOOR
17.8
. ':Ti i
9i)
9i;
0.5
HOUSE
6
GARDOOR
17.8
.130
0
90
0
HOUSE
7
GARWALL
571.4
.=4=
0
90
0
HOUSE
8
SLABEDGE
29.5
.900
0
0
0
HOUSE
9
RUGEDGE
232.1
.7 '0
0
0
i s
HOUSE
10
GAREDGE
63.7
. 550
i s
0
0
HOUSE
11
ATTCEIL
?x.;5^.9
.225
0
0
0.5
HOUSE
Page 4
< < MICROPAS 1.2 File -96R Weather-CZ15 Program -FORMAT > > >
Run -EXISTING HOUSE Project -RESIDENCE ADDITION Date -07/02/86
GLAZING SURFACE DATA
====================
GLAZED SURFACES BETWEEN ZONE AND AMBIENT
1> NUMBER OF SURFACES
(20 maximum) :
................... 13
2> ROW
GLAZING
AREA
U-VAL.
AZIMU.
TILT
GLAZ-
ZONE
SHADING
SURFACE
(sf)
(Btu/
(deg.)
(deg.)
INGS
NAME
SHAD.
NAME
SCHED.
s+ -F)
TRAN.
NAME
GHT
---
---1----
--2---
--3---
--4---
--5---
--6---
---7----
1
SGLASSA
17.5
1.10
0
90
1
HOUSE
2
SGLASSB
115.6
1.10
0
90
1
HOUSE
3
SGLASSC
18.0
1.10
0
90
1
HOUSE
4
SSLDOORA
33.3
1.10
0
90
1
HOUSE
5
WGLASSA
14.3
1.10
90
90
1
HOUSE
6
WGLASSB
12.3
1.10
90
90
1
HOUSE
7
WSLDOORA
33.3
1.10
90
90
1
HOUSE
8
NGLASSA
96.2
1.10
180
90
1
HOUSE
9
NGLASSB
115.6
1.10
180
90
1
HOUSE
10
NSLDOORA
33.3
1.10
180
90
1
HOUSE
11
EGLASSA
28.1
1.10
-90
90
1
'HOUSE
12
EGLASSB
4.0
1.10
-90
90
1
HOUSE
13
EGLASSC
36.7
1.10
-90
90
1
HOUSE
� GLAZING TREATMENTS
TREAT-
MENT
NAME
---u----
OVRHANG1
OVRHANG2
OVRHANG3
OVRHANG4
OVRHANG5
OVRHANG6
OVRHANG7
CURTAIN
CURTAIN
CURTAIN
OVRHANb6
OVRHANG6
OVRHANG5
1> NUMBER OF TREATMENTS (10
maximum) :
... ;............. 8
2> ROW
TREAT-
GLAZ.
OVER-
OVER --HEAT.
COOL.
SHADING
SHUT.
SHUT.
MENT
HEI-
HANG
HANG
SHAD.
SHAD.
SCHED.
U-VAL
TRAN.
NAME
GHT
LENG.
HIGH.
FACT.
FACT.
NAME
-UE
FACT.
---
---1----
--2--
--3--
--4--
--5--
--6--
---7----
--8--
--9--
1
CURTAIN
0
0
0
1
.8
NONE
0
0
2
OVRHANG1
3.08
11.0
0.5
1
.8
NONE
0
0
3
OVRHANG2
7.0
9.5
0.5
1
^8
NONE
0
0
4
OVRHANG3
2.08
9.5
0.5
1
.8
NONE
0
0
5
OVRHANG4
6.67
9.5
0.83
1
.8
NONE
0
0
6
OVRHANG5
4.08
1.5
2.3
1
.8
NONE
0
0
7
OVRHANG6
2.08
1.5
2.3
1
.8
NONE
0
0
8
OVRHANG7
6.67
1.5
2.3
1
.8
NONE
0
0
! ABSORBED INSOLATION FRACTIONS
1> NUMBER OF FRACTIONS (20 maximum) : .................. 0
SHUTTER
SCHED.
NAME
---10---
NONE
NONE
NONE
NONE
NONE
NONE
NONE
NONE `
Page 5
. < MICROPAS 1.2 File -96R We =them-CZ15 Program -FORMAI- > .
Run --EXISTING HOUSE Project -RESIDENCE ADDITION Date --07/02/86
INTER --ZONE DATA
VENTILATION BETWEEN "ZONES
1> NUMBER OF INTER -ZONE VENT SYSTEMS Q maximum) . ..... 0
INTERIOR SURFACES BETWEEN ZONES
1> NUMBER OF SURFACES (20 maximum) . ................... ii
MASS- DATA
MASS DATA
1> NUMBER OF MASSES (5 maximum) . :..................... 2
I MASS #1
1> MASS NAME (SLAB, MASSWALL, WATER, etc.) : .......... SLAB
2> TYPE (NODAL, ISOTHERM) . ............................ NODAL
3> SURFACE AREA (sf) .................................. 352.
4::> THICKNESS (inches) ................................. 4.0
5:- VOLUMETRIC HEAT CAPACITY (Btu/cf-F)
6> CONDUCTIVITY (Btu --ft /hr--sf-F) . ................ ... 1
7> SIDE #1 MASS SURFACE NAME (SLABTOP,etc.) . .......... SL.AB'T'OP
8> SIDE #1 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : ........ 1.3
9? SIDE #1 ZONE NAME (HOUSE, AMBIENT, etc.) : .......... HOUSE
10> SIDE #2 MASS SURFACE NAME (SLABBOT,etc.) : SLABBOT
11> SII:)E #2 AIF; FILM CONDUCTANCE (Btu/hr-s?--F) : ....... 0
12> SIDE #2 ZONE NAME (HOUSE, AMBIENT, etc.) : ......... NONE
I MASS *2
1> MASS NAME (SLAB, MASSWALL, WATER, etc.) : ..........
2> TYPE (NODAL, ISOTHERM) . ............................
3> SURFACE AREA (sf) ..................................
4> THICKNESS (inches) .................................
5> VOLUMF-TRIC HEAT CAPACITY (Btu/cf-F)
. ...............
6> CONDUCTIVITY (Btu--ft/hr-sf-F) . .....................
7> SIDE #1 MASS SURFACE NAME (SLABTOP,etc.) : ..........
e> SIDE #1 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : .....
9::> SIDE #1 ZONE NAME (HOUSE, AMBIENT, etc.) : ..........
10> SIDE #2 MASS- SURFACE NAME (SLABBOT,etc.) : .........
11::• SIDE #2 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : .......
12> SIDE #2 ZONE NAME (HOUSE, AMBIENT, etc.) : .........
RUGSLAB
NODAL
16`17.7
4.0
28
1
RUGTOP
.36
HOUSE
RUGBOT
NONE
^� ' ' . Page 6
< </( MICROPAS 1.2 File -96R Weather-CZ15 Program -FORMAT > > >
Run -EXISTING HOUSE Project -RESIDENCE ADDITION Date -07/02/86
SYSTEMS DATA
============
ENERGY COSTS
1> FUEL COST (dollars/therm) : ......................... .430
2> ELECTRICITY COST (dollprs/kWh) : .................... .069
AIR-TO-AIR HEAT EXCHANGER SYSTEMS
1> NUMBER OF HEAT EXCHANGER SYSTEMS (3 maximum) : ...... 0
HEATING SYSTEMS
1> NUMBER OF HEATING SYSTEMS (3 maximum) : .......,..... 1
2> ROW HEATING HEATING SEASONAL RATED DUCT
SYSTEM FUEL EFF. OR CAPACITY LOSS ^
NAME NAME COP (Btu/hr) FRACTION
--- ---1---- ---2---- ---3---- ---4---- ---5----
1 FURNACE FUEL .71 200000 0
COOLING SYSTEMS
1> NUMBER OF COOLING SYSTEMS (3 maximum) : ............. 1
2> ROW COOLING SEASONAL COOLING -LATENT DUCT
SYSTEM EER CAPACITY LOAD GAIN
NAME (Btu/Wh) (Btu/hr) FRACTION FRACTION
--- ---1---- ---2---- ---3---- ---4---- ---5----
1 AC 8.0 200000 0 0
VENTILATION SYSTEMS
1> NUMBER OF VENTILATION SYSTEMS
(6 maximum) :
......... 1
..........
2
2> ROW VENT.
FAN
FAN
TEMP.
INLET
OUTLET
HIGH.
INLET
STACK
WIND
SYSTEM
FLOW
POWER
DIFF.,
AREA
AREA
DIFF.
AZIMUTH
EFFIC-
EFFIC-
NAME
(cfm)
W/cfm
(F)
(sf)
(sf)
(ft)
(deg.)
IENCY
IENCY
--- ---1----
--2--
--3--
--4--
--5--
--6--�
--7--
---8---
--9---
--10--
1 NATURAL
0
0
0
55.82
55.82
2.0
0
1
1
THERMOSTAT SYSTEMS
1> NUMBER OF THERMOSTAT
SYSTEMS
(6 maximum) :
..........
2
2> ROW THERMO-
MINIMUM
MAXIMUM
DESIRED
MIN.
MAX.
DESIRED
HOURLY
STAT
TEMP.
TEMP.
TEMP.
SET-
SET-
SET-
SCHEDULE
NAME
(F)
(F)
(F)
BACK
BACK
BACK(F)
NAME
--- ---1----
---2---
---3---
---4---
--5--
--6--
---7---
---8----
1 HEATCNST
65
80
80
0
0
0
NONE
2 COOLCNST
65
80
65
0
0
0
NONE
Page 7
MICROPAS 1.2 File -96R. Weather-CZ15 Program -FORMAT > > >
Run -EXISTING HOOSE Project -RESIDENCE ADDITION Date -07/02x86
SCHEDULE DATA
HOURLY SCHEDULES
1> NUMBER OF HOURLY SCHEDULES (5 maximum) : 1
HOURLY SCHEDULE #1
1> HOURLY SCHEDULE NAME (INTERNAL, SETBACK : ........... INTERNAL
2> HEATING HOURLY SCHEDULE DATA (fraction) .
1.
0.024
2,
0.022
. 3.
0.021
5.
0.021
6.
0.026
7.
0.038
9.
0.056
10.
0.060
. 11.
0.059
13.
0.045
14..0.030
15.
0.028
17.
0.057
18.
0.064
19.
0.064
21.
0.050
22.
0.015
23.
0.044
3> COOLING HOURLY
SCHEDULE
DATA
(fraction)
1. .0.024
2.
0:022
3.
0.021
5.
0.021
6.
0.026
7.
0.058
9.
0.056
10.
0.060
11.
0.059
12.
0.045
14.
0.030
15.
0.028
17.
0.057
18.
0.064
19.
0.064
21.
0.050
22.
0.055
23.
0.044
/�
4. 0.021
8. 0.059
12. 0.046
16. 0.031
20. 0.052
24. 0.027
4. 0.021
S. 0.059
12. 0.046
16. 0.031
20. 0.052
24. 0.027
Page 1
t~IICROPAS• 1 . 2 File -96 Weather-CZ15 Program -SUMMARY ARY . .
RUn-HOUSE WITH NEW ADDITION Project -RESIDENCE ADDITION Date -07/02/86
M I C: R O P A S Version 1.2 04/24/8:3
Calculations By:
GROUT- DEVILLE
921-C SIXTEENTH ST.
SANTA MONICA CALIFORNIA 9040_';
( 1.T) 829-2738
PROJECT DATA
Run Title ............................... HOUSE lelITH NEW ADDITION
Project Title ........................... RESIDENCE ADDITION
Owner's Name ........... 7— ............
PUGET RESIDENCE
Site Location LA QUINTA CALIFORNIA
Run ..I..ype................................ COMPLIANCE
Building Type ........................... SINGLE
DESIGN DATA
Floor area (sf) ................e........ 3511.9
Glazing area (sf) ....................... 1041.
Glazing percentage K) .................. 30
Glazing UA (.Btu/hr--F) ..... 4 ............. 1085 (38%)
Opaque UA (Btu/hr--F) ... ......... . .. . . . 1376 (48%)
Infiltration UA (Btu/hr-F)............... 406 (14%)
Total. UA (Btu/hr-F) ..................>.. 2867 (100%)
MECHANICAL SYSTEMS
Heating System ........................... FURNACE
Cooling System ....... AC
Ventilation System ...................... NATURAL
CLIMATE DATA
Weather Data Location ................. — EL CENTRO CA MKW/RED
Average Temperature (F) ................. 73
Minimum 'Temperature (F) ................. 34
Maximum 'Temperature (F) ...... „ ......... , I I(:)
�s-
Page 2
. < t MICROPAS 1.2 File -96 Weather---CZ15 Program -SUMMARY > .
Faun -HOUSE WITH NEW ADDITION Project -RESIDENCE ADDITION Date -07/02/86
-------------------
PERFORMANCE SUMMARY
Fuel Cost = $0.430 0 per Therm (1 Therm = 100 kBtu)
Electricity Cost = $0.069 per kWh
1 kWh x _ .. 3.41 = 1 source kBtu
*** Peak: season(s) not simulated -- Check: peak: loads
if.
------- LOADS -------•
------•- CONSUMPTION
----------
ANNUAL
PEA[-.*.'
FUEL
ELECTRIC COST
(k:Btu)
(kBtu/hr)
(k:Btu)
(kWh)
($)
BUILDING Heating
44836
80.9
63150
0
$272
Cooling
-234352
-10.4
29294
$2021
Venting
IFO
Totals
--------------------------------------------------------------------
63150
29294
$2293
---------------------------------------------------------------------
ENERGY BUDGET COMPARISON
.------- BUDGETS ----
------- CONSUMPTION
----.__...--.--
SOURCE
SOURCE
FUEL
ELECTRIC 'T'OTAL
Ak:Btu)
(k:Btu/sf)
($)
($)
($)
BUILDING: 3511.9
sf of Conditioned Floor Area
Heat i rig
63150
18. 0
$2'72
$('*)
$272
Cooling
299678
85.::,
$2021 21
$2021
Venting
0
0. 0
$0
$0
Totals
362827
103.3
$272
$2021
$229:?;
^--- !%
($0.65 / s f )
CALIF. STANDARDS
BUDGET: Single Family
Home in Climate Zone
15
Heating
2458
0.7
$11
$0
$11
Cooling
127131
36.2
$857
$857
Totals
129589
36.9
-v.11
$857
$868
($U. '5/sf )
Fuel Cost = $0.430 0 per Therm (1 Therm = 100 kBtu)
Electricity Cost = $0.069 per kWh
1 kWh x _ .. 3.41 = 1 source kBtu
*** Peak: season(s) not simulated -- Check: peak: loads
if.
Page 1
< < � MICROPAS 1.2 File -96 Weather-CZ15 Program -FORMAT > > >
Run -HOUSE WITH NEW ADDITION Project -RESIDENCE ADDITION Date -07/02/86
Input file 96 last edited on 07/02/86
CONTROL DATA
============
RUN DATA
1> RUN TITLE (25 characters maximum) : .................
..... HOUSE WITH NEW ADDITION
�
2> PROJECT TITLE (25 characters maximum) : .............
..... RESIDENCE ADDITION
3> OWNER'S NAME (25 characters maximum) : .'............
..... PUGET RESIDENCE
4> SITE LOCATION (25 characters maximum) : .............
..... LA QUINTA CALIFORNIA
5> RUN TYPE (COMPLIANCE, DESIGN) : ..................... COMPLIANCE
6> BUILDING TYPE (SINGLE, CLUSTER, APARTMENT) : ........ SINGLE
� SITE AND WEATHER DATA
1> BUILDING LATITUDE (decimal deg.) : ........'.....'...
2> BUILDING ROTATION (deg., 0=S, 90=W, -90=E, 180=N) : .
3> NUMBER OF WARMUP DAYS (10 maximum) : ................
4> CLIMATE ZONE (compliance runs) : ....................
5> WEATHER DATA FILE NAME (CZ12, etc.) : .'.............
6> WIND CORRECTION FACTOR (fraction) : ........... ,.....
7> GROUND REFLECTIVITY (fraction) : ....................
8> GROUND TEMP. DAILY FACTOR (fraction) : ..............
9> GROUND TEMP, MONTHLY FACTOR (fraction) : ............
10> GROUND TEMP. ANNUAL FACTOR (fraction) : ............
| SIMULATION CONTROL DATA
1> NUMBER OF SIMULATION SEASONS
2> ROW SEASON SIMU-
NAME LATE
SEASON
--- -----1------ ---2----
1 WINTER Y
2 WINTER/SPRNG Y
3 SPRNG/SUMMER Y
4 SUMMER Y
5 SUMMER/FALL Y
6 FALL/WINTER Y
7 PEAK HEATING N
8 PEAK COOLING N
33.7
0
15
CZ 15
0.25
0.2
0
1
0
(8 only) : .........''.. 8
Page 2
'
< < < MICROPAS 1.2 File -96 Weather-CZ15- Program -FORMAT > > >
Run -HOUSE WITH NEW ADDITION Project -RESIDENCE ADDITION -Date-07/02/86
SEASON OUTPUT SPECIFICATIONS
1> COPY OF INPUT DATA (Y,N or F for formatted data) : ..
2> AMBIENT SUMMARY (Y/N) : ..................... v.......
3> ZONE LOADS (Y/N) : ..................................
4> ZONE HEAT FLOWS (Y/N) : .............................
5> MASS SUMMARY (Y/N) : ................................
6> TEMPERATURE SUMMARY (Y/N) : .........................
7> PEAK CONDITIONS (Y/N) : .............................
DAILY OUTPUT SPECIFICATIONS
1> ROW
SEASON
AMB_
TEMP.
NAME
IENT
SUM-
SUM -
SUM.
---
----_1------
--2--
1
WINTER
N
2
WINTER/SPRNG
N
3
SPRNG/SUMMER
N
4
SUMMER .
N
5
SUMMER/FALL
N
6
FALL/WINTER
N
7
PEAK HEATING
N
8
PEAK COOLING -N
N
ZONE
ZONE
MASS
TEMP.
LOADS
HEAT
SUM-
SUM -
IENT
FLOWS
MARY
MARY
--3--
--4--
--5--
--6--
�
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
� HOURLY OUTPUT SPECIFICATIONS
1> ROW
SEASON
AMB-
ZONE
ZONE
MASS
--6--
NAME
IENT
LOADS
HEAT
SUM -
N
N
SUM.
N
FLOWS
MARY
---
-----1------
--2--
--3--
--4--
--5--
1
WINTER
N
N
N
N
2
WINTER/SPRNG
N
N
N
N
3
SPRNG/SUMMER
N
N
N
N
4
SUMMER
N
N
N
N
5
SUMMER/FALL
N
N
N
N
6
FALL/WINTER
N
N
N
N
7
PEAK HEATING
N
N
N
N
8
PEAK COOLING
N
N
N
N
"~~
TEMP.
TEMP.
SUM-
GRAPH
MARY
--6--
--7---
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
F
N
N
N
N
N
N
Paye =.
MICROPAS 1.2 Fi1e-96 Weather --CZ 15 Program -FORMAT > .
Purr -HOUSE WITH NEW ADDITION Project -RESIDENCE ADDI'T'ION Date -07/02/86
ONE DATA
ZONE DATA
1> NUMBER OF ZONES (-_ maximum) . ....................... 1
ZONE 41
ZONE NAME (HOUSE, SUNSET �C:E , etc.) e ............. .
FLOOR AREA (<f) ....................................
VOLUME (cf) ........................................
ZONE HEAL- CAPACITY (Btu/F•) . ........................
INTERNAL GAIN (Btu/day) . ...........................
INTERNAL GAIN SCHEDULE (INTERNAL, NONE, etc.) . .....
INFILTRATION BASE ACH (ac /hr) e .................. .
INFILTRATION TEMPERATURE ACH (ac / hr -F) e ............
INFILTRATION WIND ACH (ac/hr-mph) „ ..........
HEAT EXCHANGER SYSTEM NAME (HEATEX, NONE:, etc.) . ..
HEATING SYSTEM NAME ( FURNACE, NONE, etc.) e ........
COOLING SYSTEM NAME (HEATPUMP, NONE, etc.) . .......
VENTILATION SYSTEM NAME (NATURAL, NONE) :..........
HEATING THERMOSTAT NAME (HEATCNST, HEATSETB,etc.)e .
COOLING THERMOSTAT NAME (COOL-CNST , COOLSETB ,etc .) a
OPAQUE SURFACE DATA
OPAQUE SURFACES BETWEEN ZONE AND AMBIENT
1> NUMBER OF SURFACES (20
2> POW
OPAQUE
AREA
SURFACE
(sf )
TILT
NAME
ZONE
(Btu/sf
(deg.)
(deg.)
1
SWAL_L
6=8.9
'
WW6•,LL
475.6
_
NWALL
286.5
4
EWAL.L
374.1
5
SDOOR
26.7
6
GARDOOR
17.8
7
GARWALL
104.:
8
SLABEDGE
46.5
9
RUGEDGE
312.7
10
GAREDGE
66.8
11
SWALLB
136.0
12
WWALLB
362.
13
NWAL-L B
307. 3
14
EWALLB
673.2
15
GARWALLB
448.6
16
ATTWALL-
110.7
17
ATTCE I L
3123.3
18
WSLOPERF
202.4
19
`ESLOPERF
202.4
HOUSE
3511.9
54767!;
6268
86991
INTERNAL
.65
0
0
NONE
FURNACE
AC
NATURAL
HEATCNST
COOLCNS'T'
maximum)
. ...................
19
U -VALUE
AZIMUTH
TILT
ABSORP-
ZONE
(Btu/sf
(deg.)
(deg.)
'TIVITY
NAME
-F)
(FRAC.)
.:388
s?
9(:)
C).5
HOUSE
.388
90
90
0.5
HOUSE
.:?88
ISO
Sri
0.5
HOUSE
.3%
-90
90
0.5
HOUSE
.330
0
90
0.5
HOUSE
.330
0
90
0
HOUSE
.-743
0
90
t=;
HOUSE
1900 )0
i_)
0
r i
HOUSE
.720
0
0
{ )
HOUSE
.550
t_)
i )
i)
HOUSE:.
.092 )92
0
90
0.5
HOUSE
092
90
90
0.5
HOUSE
.092 X92
180
90
0.5
HOUSE
.092
-90
90
0.5
HOUSE
.086 )86
i_)
90
t )
HOUSE
..065
0
90
f.)
HOUSE
.042
0
0
0.5
HOUSE
.050
90
16
0.5
HOUSE
.050
-90
16
0.5
HOUSE
if
Page 4
. < MICROF=AS 1.2 File -96 Weather--CZ15 PrograRi--FORMAT > .
Run -HOUSE WITK NEW ADDITION Project -RESIDENCE ADDITION Date -07/02/86
GLAZING SURFACE DATA
GLAZED SURFACES BETWEEN ZONE AND AMBIENT
1> NUMBER OF SURFACES ACES (20 maximum) . ... . ............... 17
''> ROW
GLAZING
AREA
U-VAL.
AZIMU.
TILT
GLAZ-
ZONE
TREAT --
EAT• --SURFACE
--UE
SURFACE
(sf)
(Btu/
(deg.)
(deg.)
INGS
NAME
MENT
0
NAME
NONE
s+ -F)
.68
NONE
0
.69
NAME
-----
---•-1-------
- -2-----
-- _ -- -
---4--•-
--5---
-6 ---
---- 7-----
--- 8----
1
SGLASSA
115.6
1.10
i?
90
1
HOUSE
OVRHANG 1
2
SGLASSB
18n
1.10
i s
90
1
HOUSE
OVRHANG2
_
SGLASSC
2.0
.52
0
90
2
HOUSE
GLASSBL-F:::
4
SGLASSD
16.0
1.05
i y
90
1
HOUSE
CURTA I N2
5
SFRDRA
=_._
.92
0
90
1
HOUSE
OVRHANGT
6
WGLASSA
20.0
1.05
90
90
1
HOUSE
OVRHANG4
7
WGLASSB
36.0
1.05
90
90. .
1
HOUSE
OVRHANG5
8
WGL-ASSC
3.0
.52
90
9� �
2
HOUSE
GLASSBLF:*.
9
NGLASSA
115.6
1.10
180
90
1
HOUSE
CURTAIN
10
NGLASSB
358.0 �
1.i5
i eo
9� �
1
HOUSE
CURTA I N2
11
NGLASSC
2.0
.52
190
90
2
HOUSE
GLASSBLk::
12
NFRDRA
__._
.92
leo
90
1
HOUSE
CURTAIN2
13
EGLASSA
40.7
1.10
-90
90
1
HOUSE
OVRHANG6
14
EGLASSB
81.0
1.05
-90
90
1
HOUSE
OVRHANG7
1.5
EGLASSC
97.0
1.05
-90
90
1
HOUSE
CURTA I N2
16
SGLASSD
3.0
. 52
-90
90
2
HOUSE
GLASSDLF::
17
EFRDRA
66.7
.92
-90
90
1
HOUSE
CURTA I N2
GLAZING TREATMENTS
1> NUMBER OF TREATMENTS (1 0 maximum) .
2> ROW TREAT- GLAZ. OVER- OVER- HEAT.
MENT- HEI-- HANG HANG SHAD.
NAME GHT LEND. HIGH. FACT.
-- - ----1---- - 2- --3-- --4-- --5---
1 CURTAIN 0 0 O 1
OVRHANG I 7.0 9.5 0.5 1
OVRHANG2 2.08 9.5 0.5 1
4 OVRHANG_, 6.67 9.5 0.5 .85
5 OVRHANG4 4.0 1.5 2.3 .86
6 OVRHANG5 6.0 6.0 2.3 . 86
7 OVRHANG6 4.09 1.5 2.3 1
8 OVRHANG7 7.0 1.5 2.3 .86
9 CURTA I N'2 0 0 0 . 86
10 GLASSBLK 0 0 0 .65
................. 10
COOL.
SHADING
SHUT.
SHAD..
SCHED.
U--VAL
FACT.
NAME
--UE
--•6---
-7 ----
___8--..-
.8
NONE
0
.8
NONE
0
.8
NONE
0
.68
NONE
0
.69
NONE
i i
.69
NONE
0
.e
NONE
0
.69
NONE
0
169
NONE
i
.52
NONE
0
zo,
SHUT.
SHUTTER
TRAN.
SCHED.
FACT.
NAME
---9--i---
0
NONE
0
NONE
0
NONE
0
NONE
0
NONE
0
NONE
0
NONE
0
NONE
0
NONE
0
NONE
Page 5
. MICROPAS 1.2 File --96 Weather-CZ15 Program -FORMAT > .
RUn--HOUSE WITH NEW ADDITION Project -RESIDENCE ADDITION Date -07/02/86
ABSORBED INSOLATION FRACTIONS
1> NUMBER OF FRACTIONS (20 maximum) . .................. 0
INTER --ZONE DATA
VENTILATION BETWEEN -ZONES
1;:- NUMBER OF INTER -ZONE VENT SYSTEMS (3 maximum) . ..... � )
INTERIOR SURFACES BETWEEN ZONES
1> NUMBER OF SURFACES ( 0 maximum) . ................... 0
MASS DATA
MASS DATA
1> NUMBER OF MASSES (5 maximum) . ...................... 2
MASS #1
1> MASS NAME (SLAB, MASSWALL, WATER, etc.) . ..........
2> TYPE (NODAL, ISOTHERM) . .............................
3> SURFACE AREA (sf) ..................................
,I.;:. THICk:NESS (inches) .................................
5:> VOLUMETRIC HEAT CAPACITY CBtu/cf-F)
. ...............
6> CONDUCTIVITY (Btu-ft/hr-sf-F) . ...................
7> SIDE ## 1 MASS SURFACE NAME (SLABTOP ,etc .) : ..........
8;> SIDE #1 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : .....
9> SIDE #1 ZONE NAME (HOUSE, AMBIENT, etc.) .........
10> SIDE #2 MASS SURFACE NAME (SLABBOT,etc.) : .........
11> SIDE #2 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : .......
12> SIDE #2 ZONE NAME (HOUSE, AMBIENT, etc.) : .........
I MASS #2
SLAB
NODAL
428.8
4. �y
28
1
SLABTOP
1.3
HOUSE
SLABBOT
NONE
1>
MASS NAME (SLAB, MASSWALL, WATER, etc.) : ..........
RUGSLAB
2>
TYPE (NODAL, ISOTHERM) . ............................
NODAL
3>
SURFACE. AREA (sf) ..................................
2556.3
4>
THICKNESS (inches) .................................
4.�;
5;:-
VOLUMETRIC HEAT CAPACITY (Btu/cf-F)
28
6>
CONDUCTIVITY (Btu-ft/hr--sf-F) : .....
7;
SIDE #1 MASS SURFACE NAME (SLASTOP,etc.) : ..........
RUGTOP
8::>
SIDE #1 AIF; FILM CONDUCTANCE (Btu/hr-sf-F) . .......
.Y6
9>
SIDE #1 ZONE NAME (HOUSE, AMBIENT, etc.) ..........
HOUSE
10>
SIDE #2 MASS SURFACE NAME (SLABBOT ,etc .) : .........
RUGBOT
11>
SIDE #2 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : ........
0
12>
SIDE #2 ZONE NAME (HOUSE, AMBIENT, etc.) : ..........NONE
z/.
Page 6
< < MICROPAS 1.2 File -96 Weather-CZ15 Program -FORMAT > > >
Run -HOUSE WITH NEW ADDITION Project -RESIDENCE ADDITION Date -07/02/86
SYSTEMS DATA
============
ENERGY COSTS
1> FUEL COST (dollars/therm) : ...........4............. .430
2> ELECTRICITY COST (dollars/kWh) : .................... .069
-
AIR-TO-AIR HEAT EXCHANGER SYSTEMS
1> NUMBER OF HEAT EXCHANGER SYSTEMS (3 maximum) : ...... 0
HEATING SYSTEMS
1> NUMBER OF HEATING SYSTEMS (3 maximum)
:
............. 1
2> ROW HEATING
HEATING
SEASONAL
RATED
DUCT
SYSTEM
FUEL
EFF' OR
CAPACITY
LOSS
NAME
NAME
COP
(Btu/hr)
FRACTION
--- ---1----
---2----
---3----
---4----
---5----
1 FURNACE
FUEL
.71
200000
0
| COOLING SYSTEMS
10 NUMBER OF COOLING SYSTEMS (3 maximum) : ............. 1
2> ROW COOLING SEASONAL COOLING LATENT DUCT
SYSTEM EER CAPACITY LOAD GAIN
NAME (Btu/Wh) (Btu/hr) FRACTION FRACTION
--- ---1---- ---2---- ---3---- ---4---- ---5----
1 AC 8.0 200000 0 0
I VENTILATION SYSTEMS
1> NUMBER OF VENTILATION SYSTEMS (6 maximum) : ......... 1
2> ROW VENT. FAN FAN TEMP. INLET OUTLET HIGH. INLET STACK WIND
SYSTEM FLOW POWER DIFF. AREA AREA DIFF. AZIMUTH EFFIC- EFFIC_
NAME (cfm) W/cfm (F) (sf) (sf) (ft) (deg.) IENCY IENCY
--- ---1---- --2-- --3-- --4-- -_5-- --6--- --7-- ---8--- --9--- --10--
1 NATURAL 0 0 0 104.1 104.12 2.0 0 1 1
| THERMOSTAT SYSTEMS
1> NUMBER OF THERMOSTAT SYSTEMS (6 maximum) : .'........ 2
2> ROW THERMO- MINIMUM MAXIMUM DESIRED MIN. MAX. DESIRED HOURLY
STAT TEMP. TEMP. TEMP. SET- SET- SET- SCHEDULE
NAME (F) (F) (F) BACK. BACK BACK(F) NAME
--- ---1---- ---2--- ---3--- ---4--- --5-- --6-- ---7�-- ---8----
1 HEATCNST 65 80 80 0 0 0 NONE
2 COOLCNST 65 80 65 0 0 0 NONE
22.
Page 7
MICROPAS 1.2 File -96 Weather-CZ15 Program -FORMAT
Faun -HOUSE. WITH NEW ADD'I'TION Project -RESIDENCE ADDITION Date -07/02/86
SCHEDULE DATA
HOURLY SCHEDULES
1> NUMBER OF HOURLY SCHEDULES (5 maximum) o I
HOURLY SCHEDULE #1
1 HOURLY SCHEDULE NAME (INTERNAL, SETBACK o ........... INTERNAL
2> HEATING HOURLY SCHEDULE DATA (fraction)
1.
O O24
2.
0.022
3.
0.021
4.
0.021
5.
0.021
6.
0.026
7.
o . 438
G.
0.059
9.
0.056
10.
0.060
11.
0.059
12.
0.046
13.
0.045
14.
0.030 30
15.
0.028
16.
0.031
17.
0.057
18.
0.064
19.
0.064
20.
0.052
21.
0.050
22.
0.055
23.
0. 044.
24..
0.027
> COOLING HOURLY
SCHEDULE
DATA
( f r action )
1.
0.024
2.
0.022
3.
0.021 f'21
4 .
0.021
5.
0.021
6 .
0.026
7.
0.038
8 .
0.059
9.
0.056
10.
0.060
1 1 .
0.059
12.
0.046
13.
U.045
14.
0.030
15.
0.028
4.
0.031
17.
0.057
18.
0.064
19.
0.064
20.
0. 052
21.
0.050
22.
0.0Q5
23..0.044
24.
0.027
23,
Table 5. Energy Budgets for MICROPAS 1.2
I I
I I
Annual
Space
Conditioning Budgets (kBtu/sq.ft/yr)1
1
I
I I
I
Multi -Family
Buildings
I
I I
Single Family2
1 With
Common Walls
I
I I
Dwellings and
I But
No Common I
I I
Lodging Houses
1 Floors/Ceilings
I
All
Others4
1
IClimatel
I
I Zone I
Heating
Cooling
Total
IHeating
Cooling
Total I
Heating
Cooling
Totall
I I
1 1 1
10.4
0.0
10.4
I
111.1
0.0
I
11.1 1
11.1
0.0
11.11
I 2 1
10.3
9.5
19.7
1 11.4
5.3
16.8 1
11.4
5.3
16.81
I 3 I
9.0
1.7
10.7
1 11.4
1..0
12.4 1
11.4
1.0
12.41
I 4 I
6.5
6.6
13.2
I 8.3
4.8
13.1 1
8.3
4.8
13.11
I 5 I
6.9
3.6
10.4
l 8.7
1.9
10.6 1
I
8.7
1.9
10.61
I
I I
1 -6 1
5.3
13.7
19.1
I
1 5.8
8.9
14.6 I
5.8
8.9
14.61
1 7 1
1.1
4.9
6.0
1 1.9
2.4
4.3 1
1.9
2.4
4.31
1 8 1
2.5
14.3
16.8
I 3.1
9.8
12.9 1
3.1
9.8
12.91
1 9 1
3.8
18.2
22.0
I 5.6
13.4
19.0 1
` 5.6
13.4
19.01
1 10 1
3.8
19.6
23.4
1 5.1
13.8
19.0 1
5.1
13.8
19.01
I
1 11 I
17.4
24.8
42.3
I
117.0
18.5
I
35.5 1
17.0
18.3
I
13.31
1 '12 I
14.2
14.4
28.6
113.1
10.8
23.9 1
'13.1
10.8
23.91
1 13 I
10.1
23.0
33.1
1 9.0
16.6
25.6 1
9.0
16.6
25.61
1 14 1
7.5
25.5
33.0
I 8.3
20.4
28.8 1
8.3
20.4
28.81
1 15 I
0.7
36.2
36.9
1 1.3
28.1
29.4 1
1.3
28.1
29.41
1 '16 1
18.4
8.1
26.4
117.5
5.0
22.5 1
17.5
5.0
22.51
i
1. Thousands of Btu per square foot of conditioned floor space per year.
2. The heating (cooling) budgets may be increased by 15 percent if the
installed heating (installed cooling) system has all its distribution
ducts and plenums in conditioned space. The heating (cooling) budgets may
be increased by multiplying the budget values by [1 + (0.15) (Rd - 2.1)/
(Rd + 1.3)] when the installed heating (installed cooling) system has
ducts in unconditioned space and duct insulation R -value (Rd) is greater
than 2.1.
3. The heating (cooling) budgets may be increased by 10 percent if the
installed heating (installed cooling) system has all its distribution
ducts and plenums in conditioned space. The heating (cooling) budgets may
be increased by multiplying the budget. values by [1 + (0.10) (Rd - 2.1)/
(Rd + 1.3)] when the installed heating (installed cooling) system has
ducts in unconditioned space and duct insulation R -value (Rd) is greater
than 2.1.
4. The heating (cooling) budgets may be increased by 5 percent if the in-
stalled heating (installed cooling) system has all its distribution ducts
and plenums in conditioned space. The heating (cooling) budgets may be
increased by multiplying the budget values by [1 + (0.05) (Rd - 2.1)/.
(Rd + 1.3)] when the installed heating (installed cooling) system has
ducts in unconditioned space and duct insulation R -value (Rd) is greater
than 2.1.
C-86 RECM-C 2 Y.
' s
4
HEAT TRANSFER COEFFICIENT
PROPOSED CONSTRUCTION ASSEMBLY
ower project title
project location
cocunentation author - Gate
Sketch of Construction
Framing Size 2 ' : 4
- -- e --- . 16 • - -
Form 3R
(8/81)
Enforcement AgenCY Use OmY
building permit number
Chetk** by
List of Conametion Component= R
(for section between framing fnemlbersI (from Table 3-11
1.112" Gypsum Board 0.45
z,3-1/2" Insulation 11.00
3. Building Paper 0.06
4.Wire-Reinforced Stucco
0,18
5.
6.
7.
Check one:
S. Inside Surface Air Film (from Table 3.16) ............. 0.68
CeilingYRoof
Floor. 9. Outside Surface Air Film Ifrom Table 3-1B) ............. 0-17
XX Wall - To .exterior (Typical) 12.54
Total Thermal Resistance (RT)
If Wall, check the
SUM of the above
appropriate weight:
XX less than 2S Ib/
ft2
25 to 40 lb/ft2 AVERAGE U VALUE OF ASSEMBLY
greater than 40 Ib/ft2
1.15 _ 12.54 = 11.092
Stu/(hr . ft2 • °FI
Framing AT from &bow
Factor from
Table 3.6
Use this U value for heat load
calculation or Code comparison
HEAT TRANSFER COEFFICIENT
PROPOSED CONSTRUCTION ASSEMBLY
oven/ project title
project location
documentation author date
Sketch of Construction Assembly
rA
Framing Size 2 ' x 4
Form 3R
(8/81)
Enforcement Agency Use only
building permit number
cnecked by
List of Construction Component:
(for section between framing inem n I
1,1/.2" Gypsum Board
2.3-1/2" Insulation
1 5/8" Gypsum Board
4.
S.
6.
R
(from Table 11)
0.4
11.00
0.56
7.
Check one: Q o8
8. Inside Surface Air Film (from Table 3-181 .............
Ceiiing/Roof
� r
FloorO .o$
9. Outside Surface Air Film (from Table 1tB).............
XX Wall- To Garage (Typical)
Total Thermal Resistance (RT) 1-3-37
If Wail, check the sum of the above
aoprooriate weight:
XX ion than 251b/ft2
25 to 40 Ib/ft2 AVERAGE U VALUE OF ASSEMBLY
greater than 40 Ib/ft2
L-15 13.37 0.066
Stu/(hr .ft2 -OF)
Framing RT from above
tractor from
Table 3.6
Ute this U value for her load
calculation or Code comoerison
24.
G —
rA
Framing Size 2 ' x 4
Form 3R
(8/81)
Enforcement Agency Use only
building permit number
cnecked by
List of Construction Component:
(for section between framing inem n I
1,1/.2" Gypsum Board
2.3-1/2" Insulation
1 5/8" Gypsum Board
4.
S.
6.
R
(from Table 11)
0.4
11.00
0.56
7.
Check one: Q o8
8. Inside Surface Air Film (from Table 3-181 .............
Ceiiing/Roof
� r
FloorO .o$
9. Outside Surface Air Film (from Table 1tB).............
XX Wall- To Garage (Typical)
Total Thermal Resistance (RT) 1-3-37
If Wail, check the sum of the above
aoprooriate weight:
XX ion than 251b/ft2
25 to 40 Ib/ft2 AVERAGE U VALUE OF ASSEMBLY
greater than 40 Ib/ft2
L-15 13.37 0.066
Stu/(hr .ft2 -OF)
Framing RT from above
tractor from
Table 3.6
Ute this U value for her load
calculation or Code comoerison
24.
MEAT TRANSFER COEFFICIENT
PROPOSED CONSTRUCTION ASSEMBLY
Own�t prolect title
oroact location
accumienutlon autnar "to
Form 3R
(8/81)
Entorcarrnnt Agency Use only
oulloing Permit numoe/
cnecltett oy
Sketch of Construction Ass mbiy List of Construction Components R
(for $action bets wn framing members) (tram TWO 3-1)
G�
/ a 1: If z� GYPs�M T3o�aD 0.4�
7-
2. 31J1 �1Z'tl� INS U.)-T10N 4, 111
7 6 S 3 1 (CoRI'Ll%�FD FOR FpAM1NG�
0. L41
N,
a. p1T-f 1 C. >Q I R SPAGf 1-00
5. �J1u Pv`t WOOD D.62
FrarningSin -2--i y 6. SUIL-D)N4 , PAPER G.O6
Framingr-faming Sosa n
7. Poor-
Chetx otn:
S. Inside Surface Air Film (from Two 3.18) ............. 0. 6�
Caiiing/Roof
Floor 9. Outside Surface Air Film (hem Tabs 3-181............ 0.
Wall TD A-rrK. O R
-rR USS SPAM Total Thermal Resistance (RT) 1313; z
sum of tn• 4100"
AVERAGE U VALUE OF ASSEMBLY
(PER CALlf. ENERGY COMMISSION METHOD)
C1.tMATI; R -r A't'fK- R -VA uF- = ovE0.Al.rr f
�v►aE
0"M ASOVE) X FNcTOR R-VALtrE u OVERALL 9-%4^Lulc
6 1 3.4 2 X I. Z3 = 16.51 . o6 l
14.31 .061
1 16I 14 " Y IS, Flif .06
Lo Ir
17,
MEAT TRANSFER COEFFICIENT
PROPOSED CONSTRUCTION ASSEMBLY
owner OrOle= tltl*
• orolect location
cocumentaticrl Ammar gate
Sketch of Construction Assembly
1 5' 6 i
Framing Sin
I
G
N
Vwck one:
Coiling/Roof -f0 A"IC,
Floor
Wall
61.1 P'1 A,M
7_0,•1 I-
6
S
1110,14
avlj p,
Form 3R
(8/81)
Enforcement Agency use Only
ouiloinq oermit numtxtr
cnecxaa or
List of Construction Components R
Ifor suction batwwn framing melmoers) (front Table 3.1)
,. 1�:* GYPS�r1 6oAQp 0.45
2 C�IIlI C�'If1% ZMSt+1�AT101`I I r. �Z
CCORRSOF-C FOP, �RAtMJNG�
�- J'KAM►)044 of Cf_I1.INe,%
a. A-r-rIc. AIR SPAcC 1 •ov
5. V22 9vllwooD 62
6. 6v1v.0It`le PAPZR O.0
7. Co m mk F -TE Roo t= Tmf-S 0.06
8. Inside Surface Air Film (front Table 3.181 .............
9. Outside Surface Air Film (from Table 3.18)............
Total Thermal Resistance (RT)
sum of the aoow
AVERAGE U VALUE OF ASSEMBLY
M CAL -le. l=NE1t4.( COMMrss)oN METHOD
R T ATTIC-. R-YAwF— OV E RAL. _
(FRom Acme) X FACToR - R -YAW E. U cysul,t R-YAbuE
20.60. x 1.23 = 25.3 .039
x 1.22 _ 2 5. 13 .040
x I.IS� _ 2031 .o�tl
x / 23-61,.oyz
2-k.
HEAT TRANSFER COEFFICIENT
PROPOSED CONSTRUCTION ASSEMBLY
owner project title
project location
documentation author date
Sketch of Construction Assembly
G•
Framing Size 2 x 8
Frarnino Saacino 16 O.C.
Form'3R
• (8/81)
Enforcement Agency Use Only
building permit number
checked by
List of Construction Components
R
(for section between framing members)
(from Table 3-1)
1/2" Gypsum Board
0.45
z- 5-1/2" Insulation
19.00
3. Air Space
0.84
1/211 Plywood
0.62
a
5- Building Paper
0.06
Concrete Roof Tiles
6.
0.06
7.
Check one:
8. Inside Surface Air Film (from Table 3.18) ............. 0.62.
XX Ceiling/Roof To Exterior
(w/0 Attic) Oe17
Floor 9. Outside Surface Air Film (from+ Table 3-18)........... .
Wall
Total Thermal Resistance (RT) 21.82
If Wall, cheek the sum of the above
appropriate weight:
less than 25 lb/ft2
25 to 40 lb/ft2
greater than 40 Ib/ft2
AVERAGE U VALUE OF ASSEMBLY
1.10 :.21.82- = 0.050 etu/lhr 412 ,OF)
Framing RT from above
Factor from
Table 3-6
Use this U value for heat load
calculation or Code comparison
2 of
HEAT LOSS
----------------------------------------------------------
PROJECT: PUGET RESIDENCE
UNIT: HOUSE WITH ADDITION
DESCRIPTION OF
AREA (SF) OR
U-
TEMP. HEAT
LOSS
ASSEMBLY:
LENGTH (LF):
VALUE
DIFF. BTU/HR:
GLAZING 1
289.9
1.1
39=
12436.7
GLAZING 2
608
1.05
39=
24897.6
GLAZING 3
133.3
. 92
39=
4782.8
GLAZING 4
10
.52
39=
202.8
8
GLAZING 5
0
0
C)=
0
WALL 1
1478.8
.092
39=
5305.9
WALO 2
1775.1
.388
39=
26860.8
WALL 3
104.3 >4.:3
. 343
39=
1395.2
WALL 4
448.6
.086
39=
1504.6
WALL 5
110.7
.065
39=
280.6
DOORS
44.5
.33
39=
572.7
ROOF 1
3123.3
.042 )42
39=
5116
ROOF 2
0
.034
39=
0
ROOF 3
404;8 8
. 05
39=
789.4
ROOF 4
0
.048
39=
C)
ROOF 5
0
.054 i54
39=
0
FLOOR 1
C )
. 043
._,9=
0
FLOOR 2
C)
.041
39=
4
FLOOR 3
0
0
0=
C)
SLABEDGE 1
46.5
.9
16=
669.6
SLABEDGE.2
.31.2.7
.72
16=
=602.3
SLABEDGE :=
66.8
.55
16=
587.8
SUBTOTAL:
=
)4. 8
89004.0
INFILTRATION:
VOLUME:
BTU/CF
TEMP.
DEG. F DIFF.
34763 .018 )18 39=
SUBTOTAL:
DUCT HEAT LOSS: 1 0.15
AREA ALLOWANCE: FLOOR S.F.:
TOTAL HEAT LOSS:
MAXIMUM FURNACE
X ABOVE =
3511.9 X 10=
24403.6
113408.4
17011.3
35119
165538.7
OUTPUT CAPACITY: 1.3 X ABOVE = 215200.
IF MAXIMUM OUTPUT CAPACITY IS LESS THAN 45,000 BTU/HR,
TITLE 24 STANDARDS PERMIT USE OF A FURNACE OF 45,000
BTU/HR OUTPUT CAPACITY.
310.
COUNTY OF LOS ANGELES
DEPARTMENT OF COUNTY ENGINEER -FACILITIES
BUILDING & SAFETY DIVISION
HOURLY BUILDING
HEAT GAIN RATE
D
FORM 4C
Froject Location
--
Documentation Author a e
Line
No.
Item
Area or
Q=tity
ue
or Factor
BTU or of
BTU/FR
1.
N. glazing# 3
Z,b sf
.6� S.C. (1)
30 BTU/sf(2)
,0
2.
N.E.
of
S.C. (1)
BTU/.Sf(2)
3.
E. gla,74n
3,0 of
, L i S. C. (1)
71 BTU/sf (2)
/SN
4.
S.E. glazing
sf
S.C.(1)
BTU/sf(2)
5.
S. gl=#g
12•o sf
. b5� S.C.(1)
ly BTU/sf(2)
7.2 .
6.
S.W. alazing
sf
S.C.(1)
BTU/sf(2)
7.
W. glazing
sf
S.C.(1)
BTU/sf(2)
8.
N.W. glazing
sf
S.C.(1)
BTU/sf(2)
9.
Horiz. Skylite
sf
S.C.(1)
BTU/sf(2)
10.
Wall Type 1
I'MYsf
OIL- (3)
33.6 °F(4)
il5-71
11.
Wall Type 2
177)•1 sf
(3)
33.6 oF(4)
�$
12.
Ceilinx Type 1
3113. sf
(3)
5y-0 0F(4)
'7 03.6
13.
-Ceiling Type 2
fD'/.1(sf
. DS'D (3)
5 q ,p °F(4)
14.
Infiltration
sf(5)
BTU/sf (6 )
LawrINvED
15.
# of Occupants
(7)
225 BTU/occ
16.
Appliances
1200
17.
Sub Total
18.
Latent heat
(8)
0.3
-
19.
Sub total
3/
9
COUNTY OF LOS ANGELES
DEPARTMENT OF COUNTY ENGINEER -FACILITIES
BUILDING & SAFETY DIVISION
HOURLY BUILDING
HEAT GAIN RATE
Mer
FORM 4C
rojec
Froject Cocation
ocumenta tion Author Date
1.1ne
No.
Item
Area or
Quantity
I U value
or Factor
BTU or of
Bm/sR
1.
N. gl=#g
115,1, sf
S.C.(1)
qq BTU/sf(2)
4577.S"
2.
N.I-. glayrIng 'ltl-
1.3 sf
S.C. (1)
yq BTU/sf(2)
I y 63w, 6
3.
E. gla,74m
Ho• sf
.9 S.C.(1)
Ivy.- BTU/sf(2)
3736 .3
4.
E. glazinges
y ,7 sf
'fs S.C.0)
IOZ BTU/sf(2)
1� Z►S.
5.
S. glaz#g
13$.& sf
.q S.C.(1)
61 BTU/sf(2)
733y•6
6.
S.*-. laz *Z
Ltq,3 If
. �� S . C . 1)
41 BTU/sf(2)
2-5546.2-
T.
W. glazing
51,O sf
•065� sx.(1)
102- BTU/sf(2)
8.
_*.W. glazing#L
3.o sf
.45' S.C. 0)
.11 BTU/sf(2)
/ 5,q
9.
Horiz. Slcylite
sf
S.C.(1)
BTU/sf(2)
10.
Wall Type A- I
10 .3 sf
.3 3 (3)
33.6 oF(4)
11.
Wall Type e-4
44ir-6 sf
.06 (3)
33.6 OF (4)
%2-.96.3
12.
wAu.
ilo,7 sf
.06� (3)
�3'L °F(4)
Zyl•�
13.
Dvs r
y'+,� sf
.330 (3)
33. 6 °F(4)
14.
Infiltration
5001.1-sf(5)
2•4 BTU/sf(6)
/.3 00�,
15.
# of Occupants
b (7)
225 BTU/occ
/3 !'o
16.
Ap fiances
1200
17.
Sub Total
//3 y4r.
18.
Latent heat
(8)
0.3
19.
Sub total
.3Z_
v
COUNTY OF LOS ANGELES
DEPARTMENT OF COUNTY ENGINEER -FACILITIES
BUILDING & SAFETY DIVISION
FORM 4C - Continued
ne
No.
Item
Area orValue
Quantity
or Factor
BTU or of
BTU/HR
20.
Duct galn
0.15
22 zZq, L
21.
1 Grand total
170j yi (10 )
Notes: _ / y, l O %`Kj
(1) Shading coefficient of glazing per mfg., equal one for clear glass.
(2) From Table A
(3) U -value from Form 3C
(4) From Table B
(5) Gross wall area
(6) Form Table C
(7) Two per bedroom
(8) From line 17,BTU/HR
(9) From line 199BTU/HR
(10) Value to be used in sizing A/C unit(s)
33,