002379 (3&4)Building
Address
■4
P.O. BOX 1504
51 16%. �' Drive LA QUINTACCAL FORNIA 92253
a
No.
002379
Mailing BUILDING: TYPE CONST. OCC: GRP.
Address P.M FM 704
City Zip 92253
Tel.
_ S
Contractor
_Address .^.. Bdk 2288
City' IZIP Tela
State Lic.
& Classif.
City
Lic. #
Arcn., tngr.,
Designer
Address Tel.
City Zip State
Lic: #
LICENSED, CONTRACTOWS.DECLARATION
1 hereby affirm that I am licensed under provisions of Chapter 9,(commencing with Section
7000) of Divlsion 3 of the Business and Profesatons.Code and my_Ilcense is in full force.�id
effect., - r . �' l_!
SIGNATURE A
DATE
OWNER -BUILDER DECLARATION
I herey affirm that I am exempt from the Contractor's License Law for the following
reason: (Sec. 7031,5,Busihess and Professions Code: Any cay 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, Chaptec. 9 ,(commencing with Section 7000) of.
Division 3 of the Business and -Professions -Code, or Mat. he Is exempt therefrom, and the basis
for the alleged • exemption• Any . violation of Section 7031.5 by 'any appikant. for • a permit
subjects the app/tcarit to, a civilpenalty of not more than five hundred dollars (5500). `
❑ I, as owner of the property, or my,employees with wages as their compensation; will
do the work, and the structure '13 not Intended or offered for sale. (Sec. 7044, Bulaness and
Professions Code: The Contractor's- License Law does: not appy to an ;owner of property who
builds or improves thereon end who does such work himself or through his own employees,
provided that such improvements. are not Intended or offered ,for sale.. fl; however, the building
or improvement Is sold within one year of completion, the owner -bulkier will have the burden
of proving tharhe.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, Buslnsss:and Professions Code: The Contractor's,Ucense. Law
does not apply to an owner of property who. builds or Improves thereon, and who contracts for
such projects, with a contractor($) licensed pursuant tothe Contractor's License Law.) .
0 1 a exempt under Sec. - B. 8 P.C. for this.reason
Date 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 ($100) 'valuation
or less.) _ _ ._
I certify that in the performance of the 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: N, aper making this Certificate of Exemption you should become
subject- to the Workers' Con oansadon provisions 'of the labor Code, you must forthwith
comply with such provisions or this permit "shall bedeemed revoked. - - -
CONSTRUCTION LENDING AGENCY
1 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 issubject to
expiration if work thereunder is suspended for 180 days:
I certify that I have read this application and state that'th_e above Information Is correct.
I agree to comply with all city and county ordinances and state' laws rotating to building.
construction, and hereby authorize representatives of. this *rcity' to, enter the
mentioned property for Inspectionpurposes.
Signature of al •= ;! r- _ - t Date's
Mailing Address
City, State, Zip
HARD COPY
A.P. Number 773-065-016o 017
Legal Descriptions
Project Description TICi"'f lex FP .85-241
�k.1 irC- ■rs ='w y. ate'._ �i:ea- '� s d'""
-ZONE:
BY'
Minimum Setback., Distances:
25
Sq. Ft. '�
Size 945 x 3
No. No. Ow.
Stories 1- Units
New EIX Add ❑
Alter ❑ Repair ❑ Demolition ❑
Side.Street Setback from Center Line
Side Setback from Property Line
FINAL DATE
INSPECTOR
i 5 Permit
Issued by:
Date
Estimated Valuation
i331986s30
PERMIT
AMOUNT
Plan Chk. Dep.
7
Plan Chk. Bal.
4
Const.
Meoh.
93.00
Electrical
153043
Plumbing
183■
S.M:1. -
0a3
Grading
Driveway Enc.
n
Infrastructure�ia
50,3230.05
TOTAL
�k.1 irC- ■rs ='w y. ate'._ �i:ea- '� s d'""
-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
i 5 Permit
Issued by:
Date
Validated by:
Validation:
A 5 6 5 2
5 21. 51&05 ft
CONSTRUCTION ESTIMATE
NO. ELECTRICAL FEES
NO. PLUMBING FEES
1ST FL. SO. FT. @ $
UNITS
COLL. AREA
2ND FL. SO. FT.
PLUMB.BONDING
YARD SPKLR SYSTEM
POR. SO. FT. ®
MOBILEHOME SVC.
BAR SINK
GAR. SO. FT. ®
POWER OUTLET
ROOF DRAINS
CAR P. SO. FT. ®
DUCT WORK
DRAINAGE PIPING
WALL SO: FT.
GAS (ROUGH)
DRINKING FOUNTAIN
SO. FT. @
HEATING (FINAL)
URINAL
ESTIMATED CONSTRUCTION VALUATION $
l�GGAS (FINAL)
[
WATER PIPING
NOTE: Not to be used as property tax valuation
FLOOR DRAIN
MECHANICAL FEES
WATER HEATER
WATER SOFTENER
VENT SYSTEM FAN EVAP.COOL HOOD
SIGN
WASHER(AUTO)(DISH)
APPLIANCE DRYER
WATER SYSTEM
GARBAGE DISPOSAL
FURNACE UNIT WALL FLOOR SUSPENDED
GRADING
cu. yd.
$ plus x$
LAUNDRY TRAY
AIR.HANDLING UNIT CFM
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.
SO. FT. ® c
BATH TUB
SO. FT. ® c
WATER HEATER
MAX. HEATER OUTPUT, B.T.U.
SO. FT.. RESID ® 1 Vi c
SEWAGE DISPOSAL
SO.FT.GAR ® -4c
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
k/JROUND PLUMBING
UNDERGROUND
A.C: UNIT
COLL. AREA
SLAB GRADEa4/—BOUGH
PLUMB.BONDING
HEATING (ROUGH)
STORAGE TANK
FORMS 6
Q SEWER OR SEPTIC TA
I— UGH WIRING 7/aa�
—METER
DUCT WORK
ROCK STORAGE
FOUND. REINF..
GAS (ROUGH)
LOOP
HEATING (FINAL)
OTHER APP.IEOUIP.
REINF. STEEL
l�GGAS (FINAL)
[
EMP. POLE Z
GROUT
WATER HEATER
SERVICE
FINAL INSP./(�) 7
BOND BEAM
WATER SYSTEM
GRADING
cu. yd.
$ plus x$
_$
LUMBER GR.
FINAL INSP.
WGFRAMING
e, f
////FINAL INSP. i1V_
f/O �/�
ROOFING f�� � Zy
`»'
) �., w „<< a A,�
G IL �� �d t� i/
REMARKS:
VENTILATION
FIRE ZONE ROOFING
FIREPLACE
SPARK ARRESTOR,.-
RRESTOR:GAR.
GAR.FIREWALL
�L THING
MESH
J
INSULATIONISOUNDfJ
FINISH GRADING
FINAL INSPECTION
CERT. OCC.
FENCE FINAL
INSPECTOR'S SIGNATURESIINITIALS,
GARDEN WALL FINAL
/s/�6
'0'%f1E1)
_ `O
W BERMUDA. DUNES r
RANCHO MIRAGE
►' INDIAN WELLS rr►
PALM DESERT a
,P LA OUINTA
',p INDIO y�
Desert Sande Unified. School District
82-879 HIGHWAY 111 • INDIO, CALIFORNIA 92201-6878 • (819) 347-8831
May 21, 1986
City of La Quinta
Department of Community Development
78-1.05 Calle Estado
La Quinta, CA 92253
Re: 51-165 Eisenhower, 3 units
Gentlemen•
The developer of the above referenced units
has mitigated i:ts impacts on our overcrowded schools by payment
of the amount of $628 per unit to be applied to the cost of
district educational faclli.ties made necessary by such new
development.
Sincerely,
John D. Brooks
Assistant Superintendent
Business Services
JDB/crm
78-105 CALLE ESTADO - LA QUINTA, CALIFORNIA 92253 - (619) 564-2246
May 6, 1991
Susan Holland
51-165 Eisenhower
La Quinta, CA 922.53
Dear Ms. Holland:
The structure located at -51-165 Eisenhower Drive is located
in a "B" flood zone per the revised F.I.R.M. (panels 060709
005 A and 0010 A) for La Quinta. However, this change will
not be effective until August 19, 1991. The property was'
previously designated as zone AO (.depth two (2) feet)..
If you have any questions, feel free,to contact me.
Sincerely,
BUILDING AND $AFETY
w.
Tom Hartung el -
Director of Building and Safety
TH/lc
MAILING ADDRESS - P.O. BOX 1504 - LA QUINTA, CALIFORNIA 92253
S C Izz.WAC''s
QR�FE
058:10 42 7/26/84 VH/dr
Attachment 0
Fa wo 2
(Revised 9/84)
Climate Zones 2, 4, 6, and 8-15
COMPLIANCE CHECKLIST
F
For low -Rise RoslAential Buildings y
(except hotels and metals)
Step 1: Enter on the fors the values. for each measure from your building p
and specifications sheet.
Step 2: Enter points on this page while working through the point system
Buildino Shell Measure Por lets
*Total Floor Area.•. Z e ;S ft2
1. Slab-o"round; Perisota;!U ,�Dapth 2� ln. . . . . .
2. Raised Floor R -Value. . . . . . . . . . . . .
9. Ceiling Insulatioa or Construction Assembly . R- 2
Attic. Percent of Roof Over Conditfoned Span l� . ft
4.. Wil Insulation or Construction Assembly... ....... .. AM
Glazing; Total S Floor Area51�1� Double Triple
S. North -Facing. . . f ft2 ft2 ft2
6. fast -Facing .... —ft2 ��t2 � ftZ
9. Skylighta. �g... }ng t2 '�'a�f ftZ
—rm
10. Shading Coefficient ? Z Y ju 4
(excluding overhang)
a. East. ........... .... SC ...... .. ... 4
b. South. . .. . . . . . . . . . . . . C . . . . . . V . b . . a •.
c. Vest . .............. C .. • .. .. ..... .
..
d. North. . . . . . . . . .. . C . . ... .. . .
e. Skylight . ... ... ......... ...
11. Horizontal South Overhang Length. . . . tt . . . . . . . . .
12. Movable Insulation, f Floor Ares. ... .. .
43. Infiltration (indicate Standard. Medium or 1T9Tit)
Thermal .Mass
Exterior Wall Thermal Mass
Area, Neat Capacity. R•Value . . . . —ft2. NC. R•
Interior Thermal Mass 2 fM�%
Area. Neat Capacity, R«Value . . . ft . NC.
VAC System"'
NO. $9� S.
Gas Furnace without Refelloration•Caoling
16.
(Seasonal Efficiency) .. ... .. .. ,
Neat Pump (Energy Efficiency Ratio) ......
SE
`'SER
7.
Gas Furnace with, Refrigeration Cooling
FGNAN ys3ea�1
�Ena
Effficiency R and Seaaonat.'�.35E
Efficiency Ratio . . . .. .
�
SEEROf
Active Solar olled Not Solar Fraction, ><) . . ....... ....
>silSF
19.
tonally Contr18.
CAI�f
Resistance Space Heating . .. . . . .... . . . (Yes/No)
Domestic Water Heatfna**
r
20.
Solar With Gas Backup (Net Solar Fraction. 1) . . . . . .... .%
SF
21.
Other hater Heating (Describe type) -'
Point System Compliance Total. . . . . . .. . .
`'!' Z
arbeck]st-
ttem:; not a point system measure.
**Attach documentation for efficiencies and hSF.
-A SvMMARY
LST= J Sv"
owner
TTZ, LX
project
TZ. 1' 1 A0sy�m type `
l 6 1 S Vim V#
documentation author date
date
a
ofo'fi
checKed by -,
date
SITE INFORMATION l % �Z.�
Heating Degree Day (from Appendix C) .......................................................... HDD 1 1 Z _1 Z OF. day
Outside Design Temperature (from Appendix Cor Appendix G) ...................... Tow 2 31 of
PROPOSED: BUILGI'NG'ENVELOPE INFORMATION.
Gross Floor Area if Low -Rise ifrom Calculations) ............................................ Af
Gross Wall Area if High -Rise. (from Calculations) ............................................ A,
Designed Glazing Area (from Calculations)....................................................... Ag
Basic Glazing Area 06%of Line 3 if low-rise or 40% of Line4 if high-rise)........ Abg
De'C",tIt10 of Assembly
Glazing -.S p,>Ugl .
U92
Wall �.�. \UAW— Uwl
Uw2
Uw3
T' I Ceding%Roof L.,r\R_ W O� Q �3� Uw4
Ucl
Uc2
Floor Ufl
Uf2
PROPOSED SPACE HEATING SYSTEM (Chapter 7)
. Gas Furnace
Building Design Hourly Heat Loss (from Form 2) ...................................... yh
Maximum Allowed Bonnet Capacity,'f-SSx Line 18 ...............................................
Proposed Furnace 1.3
Make c.3. k
Model Description 1`% Q 3�rJ
Rated Bonnet'Capacity L1 i 4(._J�03 S_ _T\j
Electric Assistance Alone
3 Z�b3 S" tt2
4 ft 2
5 O ft2
6 ft2
Btu; (hr•ft2•OF)
i3 Btu/ (hr•ft2•cF)
9 Btu/ (hra ft2. "=
10 ` P 5 Blu/(hr•ft2•oF)
11
Btu/(hr-0-'• FI
12_
Btu/ (hr. ft2 • °F)
13.
Btui (hr•tt2.
Btu/ (hr• ft= • 'p)
15.
B'al (hr •ft2•"F-)
16
Btui(hr•ft2•=r;
17
B.u! (hr .ft2•''F)
18 —
1y
E!.:/hr
Etulhr
�
�"`"`
Electric Resistance Life Cycle Cost (from Form .5) ............... ....................; sLCC, 20 _ $
Lowest Life Cycle Cost of the Other Systems (from Form: 5) ................... SLCCIo„,w21 - $
Non-Depletable Energy w/Electric Resistance Back -Up
Percentage of Annual Heat Loss Met by Non-Depletable Energy
Source (from Calculations)............................................................................... 22 q
Heat Pump with Electric Resistance Supplementary Heat
Percentage of Annual Heat Loss Met by Electric Resistance
(from Calculations)
PROPOSED WATER HEATING SYSTEM INFORMATION (Chapter 8)
Elottric Resistance Alone
Electric Resistance Life Cycle Cost (from Form 6) ................................. wLCCe 24 $
Lowest Life Cycle, .Cost of the Other Systems (from Form 6) ................... wl_CC 25 _- $
PROPOSED SWIMMING POOL HEATING SYSTEM INFORMATION (Chapter 9)
Solar Life Cycle Cost (from Form 7) ... PLCCs 26
Natural Gas Life Cycle Cost !from Form 7) ..................................................... PLCCng 27 $
BUILDING DESIGN AND EQUIPMENT SUMMARY form. 2
page I of 2
I TZA
Peciect title _711 -mate zone
project addreu plan cneck/Pumit numaer
Praim owner CM*CkOd DY
Fm 15 ftE% 9
documentation aLitnar date date
comallanCe rnathan (prescriative or performance, describe)Enforcement Agency Use Only
BUILDING
El4YELDF=_ DESIGN Description of Item Dimension
77 Sc
_,e North
00 10 111
.'0
SC
East
Total Floor
Sc
ft"
South
SC
Zit
Horizontal -South Overhang
1. Floor-
Slab Perimeter, Ty
12
7.
ft
C-
T
Raiaed.,Type 1
Ur IQ ov
i C3 0.
ft
W
]>A gj2-,0
Type 2 C-1441
dermal Ma. Type I Y'T L I LE \- Qi
w
Z6'iSft',
9,q W, -2-.In 2--,C:l ftZ
�2. Ceiling:
Type I
-T
IJ4 __144C ftZ
ft2
Type 3
Type 2
ftZ
ftZ
3. Wall:
Type I _YZ—
I 14 SO LhbT 10
l Type 5
fta
___Jb1C ftZ
Type 2
fts
4. Glazing:
West, Type I
%
*fe
Type 2
ftZ
North,,Type 1
ft -
Type 2
East, Type 1
ye
144
ftZ
ft.
Type 2
W
South, Type 1
ftZ
Type 2
fts
Skylight, Type I
Otte
C_
ftZ
Type 2
C —ft&
O _, vrvi- -
.Points
0
S.
Shading Coefficient: West
77 Sc
_,e North
00 10 111
.'0
SC
East
Sc
South
SC
6.
Horizontal -South Overhang
Z'Sft
7.
Movable Insulation
ftZ
8.
Infiltration Control
]>A gj2-,0
5 %.9
dermal Ma. Type I Y'T L I LE \- Qi
w
x
9,q W, -2-.In 2--,C:l ftZ
Type 2
IJ4 __144C ftZ
t ISIMA
Type 3
ftZ
4
—rec ft -
A . 114 I.
l Type 5
___Jb1C ftZ
ter TIP Z' Z. 3
Point Total This Page
0)41'
-1j83-42*-CEC
284-66 (2/83)
LA�
SUMMARY
Form 2
page 1 of 2
-71c- \ V 15
�A proT tit"'climate :one
b � t
orciect address
HEATING, VENTILATING, AIR CONDITIONING SYSTEM Points
10. Heating (fill in information on proposed system)
Central Gas Furnace 1--i- t`1a Ox 6A 1 t1 0` -x -L33 -m.3.%
grand and model number $E
y, 0�Stu/hr
. ReatingCapaGtY
Heat Pump
brand and model number ACOA
Btu/hr
heating Capacity at 47-F
o
Active Solar
type (liquid or air) collector brand and model numoar "t fraction
fta o
COt1aC :' _
1k;1.3r orient • nn =:4C'. t • tilt 14ted rated$too*
yn ._...
11. Cooling (fill in information on proposed system)
1
�= �9 Electric.Air Conditioner-�'`�'J�x
brand and model number seasonal E=R.
POQA%Qqr_ �o Z,a9
_ Btu/hr
a \ 1 fa ; j cooling capacity at 95 IF
Electric Heat Pump
=ef�
Btu/hr
coating Capacity at 9 SO F
Other
OesCrlbe
12. Mechanic.- Ventilation AC.4
dewilae
DOMESTIC WATER SYSTEM
13. Heating (fill in information on proposed system)
Gas Only P • • Sn � \ N V(C — 90 `—N Gallons
brand and modal number tank size
Heat Pump w/Electric Backup Gallons
bravo and moaet number tank size
Active Solar
collector brand and model Plumper step rated Made solar fraction
Y • lntercepc
fta
backup. neater type, brand and mooN number collector area collector
orientation
Other
desCrlbe
1/33 •420 • CEC
Point Total from Page 1
Total Point Score
t
HC i t.LY AND ANNUAL
SUILOING HEAT LOSS RATEv
Check One: Proposed Design
Standard- Design
owner project
LA Qy 1 is T -ti, i:-0 Vc,Ep Al Tz—
project location .. system type
ocsumentatiion author "date
Form.
Enforcement Agency Use Only
building permit number
oneckea by
ate
SITE INFORMATION
Heating'Oegreo Day (from Appendix) ..... .... .. .. .. . HOO 1 Z �2 °F• day
Outside Design Temperature (from Appendix) .... ...... .. .. Tow °F
Outside January Mean Temperature (from Appendix) .._ .. .. .... ... TJan°F
PROPOSED BUILDING ENVELOPE INFORMATION
Z$35
Groan Floor Ares (from plana) ..............................
Af
ft2
Gross Well Area (front.plans) . : ... ......................
Aw
Z Dt C>
ft2
Designed Glazing Arun (from plans) ..........::....... ....
All
h2
Basic Glazing Area 06% of Af if low-rise or 40%'of Aw if high-rise) . . . ...Abe
' K/ 3
ft2
HOURLY HEAT LOSS
D':S1GN TEMPERATURE DIFFERENCE
For All Assemblies Other Than The Three Below .7600— 1 OF -0Th 1 _°F
Tow from abovo
For Insulated Floor Over Vented Unheated Space .......... Lino 1 —2 -mOT 2- °F
• hi
0
For Uninsulated Floor Over Vented Unheated Space........ Lino 2 =-5°F '&Thu $ F
-For Slab -on Ground Floats ........... 70°F — °'F 'OThs 4 %(A °F
T,jan from above
CONDUCTIVE HEAT LOSS Average U
of Assembly.
Area, tt2 Of. or F2 from T h„urly neat
Description of Assembly Length, ft Gra-,% 4-1 frcm�ec
acov
Gls�ting x �' X , 7 a . 1 `fI gtu/Ma
Wall S�t'V C.CO .. Z ���`{� lapLt_. �To� X . O'Sbio x � F&
X X =
T• w X x 8
Coiling/Roof � o X;•� x
I� % IPC —
3
K 313-N72fYLJA%J-- x X-=
--
Floor XX a
00 X
- X= 1 1 4l
Other C1L�T®Z• LAR 1 X I l9 a7t� 44 Lr �. _ 1. U
f
volume Q ' Subtotal 5 Tym `�_e q tush*
20
INFILTRATION ... Z� 5 tt2x `.�� ft.:x•xF
Al from above Weighted from. Tn from
Average Table 3-7 Line 1
Calling Height j�
Subtotal 7 Rtu/hr
i.ne I/ne J
DUCT HEAT LOSS IEntar 0 if'there are no:ducts) ....... .
..... -.....0.15 x Line 7 8
TOTAL. HOURLY HEAT LOSS,q� 5 5Z3�� twnr
me 7 line
ANNUAL HEAT LOSS,•CL
F day/yr x 31 4 Btu/hr x z 24 hr/day ♦ F 6,11,HOD• Hourly Heat Loss C from Th from
from above from Lina 9 Tabla 3.8 Line 1
T21\�1SM�SSI C�� 1-�E�T G.o►�l
.-fir--► �
.r4 IF) -L-T Yz ,n.'i ) 0
Pow (� (� bio
S a L � '� ►� ti �� D.Q x, Ls ore",)
LA
IL
62
v
OZ
3
1� Z
.-fir--► �
.r4 IF) -L-T Yz ,n.'i ) 0
Pow (� (� bio
S a L � '� ►� ti �� D.Q x, Ls ore",)
LA
IL
62
v
P 3UPOZED i-*,ONSTRUCTION ASSEMBLY
99
List:of Construction Compohents R
A
2. 1 N S 0 U—\—r 10 ►J
3..'5 I> 'D Ry Lj
4..
5.
6.
7.
8.,
Inside Surface Air Film
cooling heating
Sketch of Construction Assembly
Outside Surface Air Film 417
WEIGHT: 1b/ft2 cooling heating
Check one: Tot'al Resistance Rt Z0,5 Z0.14
cooling heating
Wall
Roof U-Valuetiatl'�'Z �Q.T\`) J�7� ��Sp
Floor cooling 1!eaiing
. .... jy"
F'
717T I.T7, w
la
V-(UPOSED CONSTRUCTION ASSEMBLY
List of Construction Components R
1.1Z ED 5 T" % LIZ—C
2. C> t>
T
3. I N Sly L,6) vo a e 3;s)
4.. 5 0I> U-) 4
5.
j y 6.
7.
8.
Sketch of Construction Assembly
WEIGHT: Ib/,ft2
Check one:
Wall
Roof
Floor
0
Inside Surface Air Film.
-v
74
(
,a -4L
cooling
heating
Outside Surface Air Film
T -
cooling
heating
Total Resistance Rt
y0.1 Is
3 R A I
cooling
heating
U -Value
0 Z.
O Z 4 I
cooling
heating
NSERVATO
III
MY
OZ G16(X)
GASSERIES — OFURNACES R°
OLL
50,000 to 100,000 Btuh Input
Add -On Cooling — 1 thru 5 Nominal Tons
Typical Applications
0 1 o-001 '` W
0
Closet Installation
with coding coil and
electronic air cleaner..
4
II` I I l l a
C3
Basement Installation
with"cooiing coil, return air
cabinet and power humidifier.
Aluminized Steel' Burners
Lennox DURACURVEe
Aluminized Steel
Heat Exchanger
ENGINEERING DATA
HEATING UNITS
GAS
Page 8
May 1884
Supersedes
October 1983
u
Lennox G16 Series Up -Flo Gas Furnaces Feature High Efficiency Operation and Installation Versatility
The G16 series line of gas fired furnaces include six models (natural draft blower mounted on the flue collector box on the outlet of
gas or LPG) with Btuh input capacities of 50,000, 75,000, 100,000 the heat exchanger. The furnaces can be vented vertically as a
and energy efficiencies (AFUE) of 801% or above. Compact, stand- common vent with another appliance.
ani size cabinet size, with side or bottom return air entry, will allow G16 series furnaces are design certified by A.G.A. Laboratories
installation in a basement, closet, recreation or utility room. Op- and ratings, are certified by GAMA. Units have been rated and
tional return air cabinets are available to simplify return air duct tested according to Department of Energy (DOE) test procedures
connection to the furnace. The matching return air cabinet; may and Federal Trade Commission (FTC) labeling regulations in the
be installed on either side of the furnace. Lennox add-on evaporator Lennox ResearcK Laboratory. G16X (natural gas) models meet the
coils, electronic air cleaners and power humidifiers can easily be California Nitrogen Oxides INOx) Standards and California
added to the furnace for a complete all season installation. Seasonal EfficientY re uirements Blower data is from unit tests
Units are equipped with the gas saving automatic
POWERLITET.M_ pilot ignition system. Pilot flame is on only,dur-
ing main burners operating cycles: No need to shut off pilot dur-
ing air conditioning season. Flue draft will be created by a induced
NOTE — Specifications, Ratings and Dimensions subject to change without notice.
q
conducted in the Lennox Laboratory air test chamber.
Units are shipped factory assembled with all controls installed. Each
unit is factory test operated insuring proper operation. Installer has
only to make flue vent, gas supply and electrical connections.
v
Model No.
ttG16Ck2X40
G1602-60
ttG1603X-60
G1603-50
ttG1603X-75
G1603-75
ttG16Q4X-75
G16Q4-75
ttG1604X-100
G1604.100
ttG16tJ6J(-100
G160.5-100
Input Btuh
50,000
50,000
75,000
75,000
100,000
100,000
Output Stuh
41,000
41,000
61,000
61,000
81,000
81,000
tA.F.U.E.
81.0%
81.0%
80.0%
80.0%
80.1%
80.1%
California Seasonal Efficiency
76.0%
78.3%
77.0%
78.4%
76.4%
77.5%
Temperature rise range (OF)
1 35-65
20 — 50
35-65
26-55
35-65
25-55
High static certified by AGA lin. wgl
.50
.75
.50
.75
.50
.75
Flue size connection (in. diameter)
3
3
3
3
3
3
Gas piping,size I.P.S. (in.) natural or LPG
1/2
1/2
1/2
1/2
1/2
1/2
Blower motor horsepower
1/4
1/3
1/3
1/2
1/2
3/4
Blower wheel nominal die. x width (in.)
.9 x 7
10 x7
10 x 7
10 z 8
1 10 x.8
1 12 x 12
Net filter area lag. ft.) & cut size (in.)
15.8) 36 x 28 x 1 (5.8136 x 28 x 11(6.8136 x 28 x 11(6.6) 40x 28 x 1 (8.9) 52 x 28 x 1 (8.9) 52 x 28 x 1
Tons of cooling that can be added
1 1 1-1/2 or 2
2-1/2 or`3
2-1/2 or 3
1 3-1/2 or 4
12-1/2,3,3-1/2br4i
4 or 5
Shipping weight Obs.) — 1 Pedcage
160
165 -
170
1 195
1 240
1 260
Electrical characteristics
120 volts — 60 hertz — 1 phase (less than 12 amps)
— All Models
Return Air
Cabinet (Optional)
I Model No.
RA10-1649
I RA10-16-48
I RA101649 I
I RA10-16-49
RA10-16-53
RA10-18.63
FS—hipping Wt. (lbs.) 54 1 64 1 54 1 54 58
56
*LPG Kit — Optional
LBM151CAD (All Models)
tAnnual Fuel Utilization Efficiency bsasd on DOE test procedures and according to FTC labeling regulations.
*LPG Kit must be ordered extra for field changeover.
Mot avabW with LPG. HIGH All DERATE
A.G.A. INSTALLATION CLEARANCES
Sides
1 inch
Rear
1 inch
Top
1 inch
Front
6 inches
Floor
Combustible
*Flue
•4 inches
'This is clearance to all flue pipes except -type "B" TWO "13" vent clearance is as
listed by U.L.
NOTE — Flue sizing and. air for combustion and ventilation must conform to the
methods outlined; in, American National Standard (ANSI -Z223.1) National
Fuel Gas Code.
t -ins G16 SERIES FURNACES
swP►r 111711111110
OPaNINO �
sFva—�
O
If the heating Value of the gas does not exceed values fisted in the table,
derating of the unit is not required. Should the heating value of the gas
exceed the table values, or if the elevation is greeter than 6,000 feet above
sea level it will be necessary to derate the unit. Lennox requires that derate
conditions be 4% per thousand feet above sea level. Thus at an altitude
of 4000 feet, if the heating value of the gas exceeds 1000 Btu/fte, unitwill
require a 16% derate.
Elevation Above
Sea Level (feet)
Maximum Heating
Value (Btu/fte)
5001 — 6000
aslte
tout
4001 — 5000
Il
3001 — 4000
L.nl
2001 — 3000
I
Sea Level — 2000
1100
l l'
a" RANO INate
Ito W_ Mewl
-14 noc""CAI INIM
(both olaed
0
0
ra--1
1
1 O XMRN AM �
1 OP[NINa 1
1 1
L _J
O
If the heating Value of the gas does not exceed values fisted in the table,
derating of the unit is not required. Should the heating value of the gas
exceed the table values, or if the elevation is greeter than 6,000 feet above
sea level it will be necessary to derate the unit. Lennox requires that derate
conditions be 4% per thousand feet above sea level. Thus at an altitude
of 4000 feet, if the heating value of the gas exceeds 1000 Btu/fte, unitwill
require a 16% derate.
Elevation Above
Sea Level (feet)
Maximum Heating
Value (Btu/fte)
5001 — 6000
900
4001 — 5000
950
3001 — 4000
1000 .
2001 — 3000
1050
Sea Level — 2000
1100
DIMENSIONS (Inches)
Model No.
AlB C 0 El F
G
G1602(X)-50, G1603(X)-50
G1603(X)-75
49 161/4 14.1/8 14 11 '2 5/8'
5
G1604(X)-75
4921-1/4 19-1/8 14 14 3 5/8
7-1/2
G16QCX)-100, G1605(X)-100
53 26-1/4 24-1/8 18 21 2-5/8
10
—10a—
RETURN AIR CABINET
NOTE — Retum Air cabinet
17- shipped knocked
M RE1t1RN AIR down and must be
OPOYrp. fbld'esssrtlbMd.
L
� z
zt•tie�
B x1 PIETU01�lT I
1 (both SWWW 1
L— ------J
t-te
Model No. 11 RA10-1648 I R 104
A 49 53
B 14 18
HS16 SERIES CONDENSING UNITS
EXPANSION VALVE SYSTEMS
(1-1/2 Thru 5 Nominal Tons)
*18,400 to 61,000 Btuh Cooling Capacity
*DOE and ARI Standard 210, Ratings
OOI�OIM01 Yt� •. •. _.- 000P0.04Y u{=
SAA• - - SIM r..
Typical Applications
Unit on on slab at ground level.
Mutiple units on rooftop.
In
ENGINEERING DATA
COOLING UNITS
CONDENSING UNITS
Page 19
February 1984
Supersedes 12-15V
Dependable HS16 Condensing Unit Line Offers
High, SEER And EER Ratings With Low Operating Costs
HS16 Series condensing unit design features high efficiency, quality
construction, sound engineering and dependable operation. The
combination of coil circuiting, wrap-around "U" shaped coil and
uniform condenser air distribution result in high seasonal energy
efficiency ratios. Units, are applicable to expansion valve systems
and may be installed in multiples or singly in residential or com-
mercial applications. Upward discharge of condenser air and low
silhouette makes it easy to conceal the unit on a slab at grade level
or behind a parapet on a roof. A large selection of matching blower
powered. and furnace add-on evaporator units are available to pro-
vide a variety of cooling capacities for selective sizing and installa-
tion versatility. See Selector.
The rugged galvanized steel cabinet has a durable baked -on out-
door enamel finish for long lasting protection from varying climatic
conditions. "U" configuration designed condenser coil provides
extra large surface area and low air resistance for maximum cool-
ing capacity. Dependable long life seamless copper tubing is used
in coil construction. Powerful direct drive fan draws air through
the condensercoil and discharges it vertically protecting lawn and
shrubs from hot air. Rugged non -corrosive steel wire fan guard
and coil guard are furnished. Additionally, a deluxe wall mounted
heating -cooling thermostat is furnished with the unit.
Condensing units are shipped completely,factory assembled, piped
and wired. In addition, each unit is test operated at the factory
insuring proper start-up and operation. The installer has only
to set the condensing unit in desired location, connect refrig-
erant lines, make electrical connections and charge the system.
_b
NOTE — Spec'dirations, Ratings and Dimensions subject to change without notice.
_ a -
.,
k.
SELECTOR
Condensing Unit
Model.No.
*ARI Standard
270 SRN (bels)
•ARI Standard 210 Ratings
Lennox Evaporator Unit
0Expansion
Valve
Kit
SEER Cooling Total Dehumid-
(Btuh) Capacity Unit ifying Up -Flo Down -Flo Horizontal
Watts) (Btuh) Watts Capacity
HS16-211V_ -
'(7.8)
8.70
18,400
2252
31%
----
CR2-26FF
CH2-26FF
LB-25778CA
9.00 19,200 2257 24% C16-21FF - ---
LB-25778CG
9.20 19,800 2232 26% C818-21 ---- CBS18-21
9.50 20,600, 2298 28% C16-31FF -" --
9.55 20,800 2250 26% C818-26 CBS18-26
9.60 21,000 2317 24% -- CH3-41-2FF
9.50 21,000 2290 29% t--CP12-26V t--CPR12-26V t•-CPS12-26V
/E1202 /ES1202 /ES1202
z}Factory
Installed
9.85 21,400 2321 28% C14-26FF -- -"'
LB-25778CG
10.70 22,000 2245 25% --- -- "CB15-900141
HS16-261V
(7.8)
8.55
20,400
2653
35%
----
CR2726FF
CH2-26FF
LB-2577SCA
8.50 21,200 2650 31% C16-21FF ---- -
LB=25778CG
8.65 22,600 2744 30% --- CR4-41FF ----
LB-25778CA
9.05 22,600 2655 24% CB18-21 ---- CBS18-21
LB-25778CG
9.10 23,800 2753 23% C1631FF -- -
9.30 .23,800 2722 23% C818-26 - CBS18-26
9.10 24,000 2754 29% 1-- -- CH3-41-2FF
9.35 24,600 .2795 21% C818-31 ---- CBS18-31
9.00 24,200 2779 25% t--CP12-28V t--CPR12-26V t--CPS12-26V
/E1202 /ES1202 /ES1202
trFactory
Installed
9.50' 24,800 2796 23% C14-25FF -
LB-25778CG
10.0 25,200 2683 26% ---- ---•CB16-900/41
HS16-311V
(8:0) >
8.75
27,600
.3455
33%
---
CR4-41FF
--
LB-25778CA
9.00 28,800 3464 29% C16-31FF ---- ---
LB-25MCE
9.10 29,200 3381 40% -- -- CH3-41-2FF
9.00 .29,800 3548 21% C818-26 ---- CBS18-26
9.05 29,800 3509 29% C16 41 FF - ^-
C16.41 WFF
t--CP12-31V t"CPR12-31V t••CPS12-31V
9.05 �'� 3554 % /E1203 /ES1203 /ES1203
irFactory
Installed
30,200 3512 21% C918-31 ---- CBS18-31
LB-25778Cf5
30,200 3529 29% C14-26FF
30,400 3576 20.% C918-41 ---- CBS18 41
30,400 3535 29% ---- CR4-51FF ----
E1010
30,600 3579 30% t•'CP12-41V t•`CPR12-41V 1•`CPS12-41/46V
/E1203 /ES1204 /ES1204
irFactory
Installed
30;800 3532 35% - --- CH3-51-2FF
LB-25778CE
31,600 3428 28% - "C815-900/41
HS16-411V
17.81
8.80
31,600
3795
33%
----
---
CH3-41-2FF
LB -2 -MCF
8.60 32,200 3961 29% ---- CR4.411FF --
LB-25MCB
8.80 33,200 4009 26% C16-31 FF ---- ----
LB-25MCF
9.10 34,200 3928 32% ---- CH3-51-2FF
9.15 35,200 4128 24% C16-41FF
C16-41WFF " "
9.30 35,600 4092 22% C818-31 ---- CBS18-31
9.15 36,000 4211 2296, FF -
C16-46Cr46WFF
9.10 36;000 4235 21% C818-41 ---- CBS18-41
9.20 36,200 4229 23% ---- CR4-51 FF ----
9.0 36,600 4227 24% t-•CP12.41V t--CPR12-41V t••CPS12-41/46V
/E1203 /ES1204 /ES1204
Factory
Installed
9.35 36,800 4239 23%--CB10-51 •'CB10-51 •`CB10.51
LB-25778CF
9.30 37,000, 4258 22% - -- CH16-51FF
9.55 37,800 4252 23% C14-41FF ---- ---
10.15 37,800 4053. 22% ------CB15-900/41
*Sound Rating Number in accordance -with ARI Standard 270.
-Rated.in accordance with ARI Standard 210 and,DOE; 450 cfm (maximum) evaporator air volume per ton of cooling, 95OF outdoor air temperature, WOF db/67°F wb entering
evaporator air with 25 ft. of connecting refrigerant tinea.
"Denotes blower powered evaporator.
*Kit is optional and must be ordered extra for field installation.
*Fumished as.standard with coil.
1Hard Start Kit is required for field installation and must be ordered extra. See Repair Parts Master Price Ust.Card PL1 for requirement.
-19b-
i
�SPECIFIGA.TIONS
Model. No.
HS16-211V
'HS16-261V
HS16-311V
HSIB-411V
HS16-461V
HS16.611V
HS16-651V
Condenser
Coil
Net face area (sq. ft.)
Outer coil
11.8
11.8
11.8
15.66
15.66
15.66
18.51
Inner coil ---- 2.23 7.80 4.07 8.14 14.94
17.65
Tube diameter (in.) & No. of tows 3/8- 1 318- 1.19 3!8 - 1.66 318 - 1.26 318- 1.52 318-2
318-2
Fins per inch-- 20 20 20 20 20 20'
1 20
Condenser
Fan
Diameter (in-) & No. of blades
20-4
20 - 4
20-4
24-3
24-3
24-3
24-4
Motor hp 1/4 1/4 1/4 1/6 1/6 - 1/6
1/4
Cfm i (factory setting)' 3100 3000 3000 3400 1200 2940
4300
Rpm (factory setting) 1060 1060 1060 820 820 820
820
Watts (factory setting) 260 270 290 215 200 205
440
"Refrigerant - 22 charge furnished
4 lbs: -8 oz.
6 lbs. -3 oz:
7 lbs. -0 oz.
6 lbs. -9 oz.
7 lbs. -0 oz:
9 lbs. -10 oz. 10 lbs. -0 oz.
Liquid line (o.d: in.) connection.(compression)
3/8
3/8
3/8
3/8
3/8
3/8
3/8
Suction line (o.d. in.) connection,(compression)
5/8
1 5/8
3/.4
3/4
1 7/8
7/8
-1/8 (sweat
Shipping weight (lbs.) - 1 Package
190
198
214
250
285
275
330
-Refrigerant charge is sufficient for 25. h. length line set.
ELECTRICAL DATA
Model No.
HS16-211V
HS16-261V
HS16-311V
NS16.411V
HS16.461V
HS16-511V
HS16-661V
Line voltage data - 60 hz/1 phase
268/230v
208/230v
208/230v
208/230v
208/230v
208/230v
208/230v
Compressor
'Rated load amps
9.6
11.5
15.3
17.6
20.0
23.7
28:8
Powerfactor .98 .98 .98 .98 .97 .98
.98
Locked rotor amps 1 48.0 1 54.0 81.0 88.0 110.0 116.0
142.0
Condenser Coil.
Fan Motor
Full load amps
1.4
1.4
1.4
1,2
1.2
1.2
2.2
Locked rotor amps. 3.25 3.25 3.25 2.24 2:24 2.24
4.5
tMax'rmum fuse or circuit breaker size (amps)
20
25
35
40
45
50
60
.Minimum circuit ampacity
13.7
16.0
20.8
1 23.6
26.3
30.9
1 38.3
*Refer.to National Electrical Code manual to determine wire; fuse: and disconnect, size requirements.
?Recommended +
NOTE - Extremes of operating range areplus and minus 10% of line voltage.
FIELD WIRING
DISCONNECT I LENNOX
THERMOSTAT
DISCONNECT
SWITCH
. I.Imt f•r."I
,I SWITCH
l (Mt.fiWnWed
.m
... __.. ` by LW J p-
1 by Lennox J
B
_ C
A
LENNOX
'CONDENSING LENNOX
UNIT HEATING UNIT
OR
-•Oa E~DRATOR
*CB blower -coil evaporator unit applications require
a separate 20 VA (minimum rating) transformer.
A - Two wire power (not furnished)
B Two wire power (not furnished) - See electrical data
C - Two wire low voltage (not furnished) - 18 ga. minimum
D - Four wire low voltage (not furnished) - 18 ga. minimum
Allwiring'must conform to NEC and local electrical codes.
- 19d --
HA HN:GS .
NOTE - To determine Sensible Capacity, Leaving Wet'Bulb and Dry Bulb temperatures
`-" not shown in the tables see Miscellaneous Engineering Data section, Rage'9.
HS16-311V WITH C16-41FF OR C16-41WFF EVAPORATOR UNIT
HS16-311V WITH CP12-31V/E1203, CPR12-31V/ES1203 OR CPS12-31V/ES1203 EVAPORATOR UNIT
Outdoor Air Temperature Enterina
Condenser Coil °F
Condenser Coil °F
Total
Total
86
85
as
95
95
106
05
115
Enter.
Wet
Air
Air
Comp.
Sensible11
Total
Comp.
Sensible
Total
Comp.
Sensible
Total
Comp.
Sensible
Bulb
Vol.
Vol.
Motor
To
Total
Cool
Motor
To Total
Cool
Motor
To Total
Cool
Motor
To Total
1°F)
(cfm)
Cap.
Watfs
-Ratio
(SIT)
°F
p'
Watts
Ratio (S/TI
Cap.
p
Watts
Ratio WTI
Cap.
Watts
Ratio
Watts
Cap.
(
Input
D
Bulb
(Btuh I
Input
D Bulb °F
(Stuh)
Input
D Bulb qp
(Btuh)
Input
b (O
D Bulb °F
Ratio
ISM
Input
D Bulb °F
76
80 84 .
D
Bulb
76 80 84
(Btuh)
Input
76 80 84
Bulb °F
(gtuhl
76 80 84
D Bulb
900
30,700.77
2610
.77
.89 1
7
2770
.91 .00 27 100
2920
.81 .94 1.00
600
125.8W
.97 1 Ac'
83
1050
3
2640
jp,
.81
.94 1.00 29 500
2800
.83 .97 1.00
800
2950
.86 1.00 1.00 28 400
3100
1.00
.89 11.00 1.00
1200
3
2660
.85
.99 1.00
200
2830
1.00 1.00 28 700
2990
.91 1.00 1.00
300
3140
.94 1.00 1.0(900
.83
900
3
2680
.60
.71 .82
30 600
2840
73 .85
28
2990
.63 .75
27
3130
.64 .78 .91
67
1050
3
2700
.63
.75 .88
31 200
2880
.78 .90
29 400
3020
.66 .80 .94
27 700
3180
.83 .97
.87
1200
3
2720 -.66
.79 .93
.79 .93
31 700
.67 .82
.67 .96
29 900
3030
.69 .85 .99
28 100
3170
.71 .88 1.0('
.71
900
3'
2750 --
-.46
.56 .86
32 600
2910
.48 .57 .68
30 800
3070
47 .58 .70
29
10
.47 .60 7271
1050
1050
3
2770.47
.58 .70
.58 .70
33 200
2930
.47 .60 .72
31 300
3090
.48 .61 .74
29 500
.49 77
.63 .77
1200
1200
3
2790
48
.61 .74
33 600
2950
.49 .63 .76
31
31
.64 .79
29 900
40
86 .82
NOTE - All values aro -roes eaoacidea and
do not include evaporator coil blower motor hoot deduction.
28 000
3200
.71
.87 1.0(
.49
HS16-311V WITH CP12-31V/E1203, CPR12-31V/ES1203 OR CPS12-31V/ES1203 EVAPORATOR UNIT
NOTE - Ali values are gross capacities and do not indude evaporator coil blower motor heat- deduction.
HS16-311V WITH CBIS -31 OR CBS18-31 EVAPORATOR UNIT
Outdoor Air Temperature Enterino
Condenser Coil °F
Condenser Coil °F
Total
Total
86
85
as
95
05
11
115
Enter.
Wet
Air
Total
.
ensible
Total
Comp.
Sensible
Total
Comp.
Sensible
Total
Comp.
Sensible
Bulb
Vol.
Cool
r
To Total
Cool
Motor
To Total
Cool
Motor
To Total
Cool
Motor
To Total
1°FI
Icfml
Cap.
_
Ratio
S T
Cap.
Watts
Ratio S
Cap.
Watts
Ratio (S/TI
Cap.
Watts
do S T
Watts
Cap.
IBtuh)
.-D
S/°
Bulb •p
(Stuh)'
Input
D Bulb •p
(Stuh)
Input
D Bulb °F
IBtuh)
Input
D Bulb °F
Ratio
ISM
Input
D Bulb °F
76
80 84
D
Bulb
76 80 84
(Btuh)
Input
84
Bulb °F
(gtuhl
76 80 84
D Bulb
900
30,700.77
D
Bulb F.
.88 .99
29 000
2780
.79 .91 .00
300
2930
.81 .94 1.
125.8W
3070
.83 97 1.00
63
1050
31 500--
J27-10L-.63
.81
.94 .1.00 29 800
.21
.83 .97 '1 00
900
2960
86 .00 1.00 26 600
3110
.89 11.00 1.00
.76
1200
132.2001
28800
.85
99 1.00 30 400
2830
.88 1.001 1.00
28.900
.3000
.9 00 1.00 27
3160
94 1.00 1.0c
.83
900
32.7001
11200
.60
.71 .82
1130.8001
2850
.61
29.100
28M
.63 75 87
27
40
90
67
1
33.400
..
.75
1
2670
.77
700
3020
.66 .80
27 900
170
.971200
2820
.87
33 900
28 600
.66
.79 .93
32 000
2890
.67 .82
30100
3040
.69 .85 :99
28 400
380
.71 .87 10/•900
.60
.71
34 800
30 600
.45
.56 .66
32 900
2920
.46 .57 .68
31 100
3080
.47 .58.70
29 200
3720
.4771
3050
1050
35500.
.63
..47
.58 .70
33 500
2940
.47 .60. .72
31 600
3100
.48 .61 74
29,700
3240
.49 77
190
1200
000
2800
.48
.81 .74
134,0001
2960
.49 .62 .76
32 000
3110
.50 .64 .79
30 100
50
50 .66 82
NOTE - Ali values are gross capacities and do not indude evaporator coil blower motor heat- deduction.
HS16-311V WITH CBIS -31 OR CBS18-31 EVAPORATOR UNIT
NU t - All V81Yea are groes CapaCdl66 ane po not Include evaporator coil blower motor heat deduction.,
HS16-311V WITH C14-26FF EVAPORATOR UNIT
Outdoor Air Temperature Enterina
Outdoor Air. Tem erature Enterina
Condenser Coil °F
Total
85
as
95
1
11
106
Enter.
Wet.
115
Total
Comp.
Enter.
Wet
Comp.
Total
Comp.
Sensible
Sensible
Total
Total
Comp.
Sensible
Vol.
Total
Comp.
Sensible
Total
Total
Comp.
Sensible
Total
Bulb
Motor
Cool
Motor
To
Total
Cool
Motor
To Total
Cool
Motor
To Total
Cool
Motor
To
Total
(°F)
Watts
Cap.
Watts
Ratio
S/°
(SIT)
Cap.
Watts
Ratio S/
Cap
Watts
Ratio
S o
Cap.
Watts
Ratio
ISM
Input
D Bulb °F
IBtuhl
Input
D
Bulb
F
(Btuh)
Input
D
Bulb °F
(gtuhl
Input
D Bulb
(Btuh)
Input
D
Bulb F.
76
80 84
76
80
84
2630
.77
76
80 84
.79
.92 1.00 27 600
76
80 84
3080
84
78
W 84
1050
131.7001
30,500
2600
.76
.88
.99
28800
2770
.78
..90 1.00
27 100
2940
.81
.93 1.00
25,600
3100
.83
.96 1.0(
63
11200
31.300
2630
.80
.93
1.00
29 500
28M
.83
.96 1.00
28 000
2970
.85
.00
26.300
3130
.72 .83
.0(
1.00 1.0(-
2860
1200
.74 .85
2650
.85
.98
1.00
30 100
2820
.87
1.00 1.00
28 600
3000
.90
1.00 1.00
27 100
3170
.93
1.00 1.0(
.78 .91
29,900
3030
2670
.60
.71
.82
30 600
2840
B1
.73 .84
28800
10-
63.
.75 .87
27 100 3160
.68
.82 .97
67
3050
.70 .85 100 28 600
2890
.63
.75
.87
31 200
2860
.64
77 .90
400
3030
.66
.80 .93
27
190
67
82 .96
29 500
3230
P34500
2700
.65
.99231
35 800
700
47
.67
.81
29 800
3040
.69
.84 .99
28 000
3200
.71
.87 1.0(
.49
.63 .7
2730
.45
.56
.66`
32500
10
.48
.57 .68
30 700
3080'
46
.58 .70
28900
3240
.47
J2
71
2750
.47
.58
.70
33 100
2930
.47
:W .72
31 200
3100
.48
.61 74
29400
3260
.49
.63 .7,
2770
.48
.61
.74
33'600
2940
.49
.62 .76
1 600
3110
.49
.64 .78
29
.66 .81
NU t - All V81Yea are groes CapaCdl66 ane po not Include evaporator coil blower motor heat deduction.,
HS16-311V WITH C14-26FF EVAPORATOR UNIT
NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction.
-191-
Outdoor Air Temperature Enterina
Condenser Coil °F
Total
85
95
1
106
116
Enter.
Wet.
Air
Total
Comp.
Sensible
Total
Comp.
Sensible
Total
Comp.
Sensible
Total
Comp.
Sensible
Bulb
Vol.
Coot
Motor
To
Total
Cool
Motor
To
Total
Cool
Motor
To Total
Cool
Motor
To
Total
(°F)
Icfm)
Cap.
Watts
Ratio
(S/T)
Cap
Watts
Ratio IS/T)Cap,
Watts
Ratio (S/T)
Ca
Watts
Ratio
(SIT)
18tuh)
Input
D
Bulb F
(Btuh)
Input
D
Bulb °F
MUM
Input
D Bulb °F
(Bt h)
Input
D Bulb °F
76
80 84
78
80 84
76 80 84
76
80 84
900
.31.000.
2630
.77
.89 1.00 29 200
2790
.79
.92 1.00 27 600
2940
.81 1.00 26 000
3080
84
1.01
63
1050
131.7001
2660
81
.94 1.00
30.000,
2820
.84
.97 1.00 128.3001
2970
.86 1.00 1.00
26 900
120
1.00 1.0:
1200
132.1001
2680
.86
1.00 1.00
30 700
.88
1.00 1.00
129.2001
3010
.91 1.00 1.00 27 700
3160
.95
1.00 1.0
900
33 000
2700
.61
.72 .83
31 100
2860
.62
.74 .85
29 300
10
.63 .76 .88
27 600
3150
.64
.78 .9
67
1050
33,600
2720
.63
.76 .88
31 700
2880
.65
.78 .91
29,900
3030
.66 .80 .94
28200
3170
.68
.83 .9?
1200
34,100
2740
.66
.80 .93
32 200
2900
.68
.82 .97
20,300
3050
.70 .85 100 28 600
3190
.72
.88 1.0
900
35,100
2770
.46
.56 .67
33.2111-
.46
.57 .68
31,300,
3090
.47' 0
29 500
3230
.47
.60 .7:
71
1050
35 800
2790
47
.59 .71
33 800
2950
.47
.60 .73
31 800
3110
.48 .62 .75
30 000
3250
.49
.63 .7
1200
36 200
2800
.48
.61 .74
34 200
2970
.49
.i n .77
32 200
3120
.65 .79
30 300
3260
.51
.67 .811",:
NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction.
-191-
PERFORMANCE C4ARACTERISTiC�S
■71 tests condu
f� cted in accord ance:.wiE}i"'`''''^I
ASHRAE Stalid'ard1. 744-73 . ' hh 'd�of meas
-,:'wring soler r_ptical properties oTmafenafs,; `" .,.'`.
or other generally accepted methods.::_,;;?: r '-
SolarTransrittance..(Ts)'
solar Reflectance (Rs)...... -
Sclar Absorpiar ce Asl
' Shading Ccefficienf.(Sc) 0 32
Using orocadures: o0tlined iin 'th`e' §fan= - -
dard. thef-sb ar..transmn"ttta[ied`„(.Ts7 solar:
"reflectace ,(Rs) and solar-'absSFptance
(As)irect” measure
.er51 'at.: a' pi 07i1 -6. angre of zero degrees`
Th, e values along witr the it 6i vial trans ,,"
r _ mittance valises determin'edz in previous
;gists werelhen`used to calculaEe.tfie shad-
ing Coefficient.
Par'; ma- �+.;;,alu ttlons :conducted by tatrix Inc
;1.ri_', ^:� wlrpleta iesi-dati aJaifatle upon wnt
SPECIFICATIONS
r,Scla Screening mafezial shall be Phifer
I Y
glass._;.SunScreen-_vinyl.ccafed-fiberglass
produced to a ribbed 53 x 16 rYi s arranged,
so. s to provide adequate. outward':vision
LIS .; .; ..
. W
V,jtn - fnesh:.size- to.: afford-. the: required:'.F`.,-
strehgth and.insect prote'ctibn Using yarns'
F --•s directed in ASTM D-337- specifications;
cr vinyl coated glass yarns::
Ma enat must meet Screen Manufac )
t_-��';firers„AssociatiorrstiindaYds X001 or;;5001;•�.; :.,..
or vinylcoated fib'erglass'solar screening `
INSTALLATION
�- Phlrfergias's Sunscreen is. 3d3ptea,
1. tq most standard window and framing sys
t_ms.:F''r best results Sunscreen should
be.mounteda minimum of 1. 2 from the
3xtPripr glass -surface
_. Suggested minIMUMS for aluminum Pram
�� ing co,rrtPorentsaComrriercial-afuminum�_;.�,.;':
.Troll fbrni seciions .032 minimiini: thick
ess-extruded alumInum.sPctions 0�0 +
nimum thickness. itm
Residential Alinumi1:.'
"rcll form 3'ections 025'.'rnlniniuni thickness: ,
or equivalent in extruded aluminum0.M..
T-
�L
PHIFER,WIRE PRODUCTS INC'
P O., Sox 1700' Tuscaloosa, Alalb ama 35-103.:'..:
Call Toll Free -l-866.15
(I6'Alahama-345 X120 collcCt)
TwX 810'7'9-5836.' TEL
Pt.gFFR.WESTERN
43 g
E. Nels on.Ave City of liidLis try CA-tJtr14
Phone 213/968-053
LOS .ANGELES: NEW YORK DALLXNS1, iCAGO.>'
TASv1PA—ST. PETE!SALT.LAKE.CITY/HONOLULU;
rrF•11_
—aI A'ii—a■i—a-0i-5—a—a■-0
I;1- ,1 ;M
■■■■■■■■■■■■
■MEM■,,'■■■■
■■■■r s■■■
' ■�■■, j■■M■
off �.
Mina
1■■■
;7■�E ■■■'fir ■■■
■■Ir 1■■
EMEar am
soon ■s/,(1 ■■■ �.■■
MINES ■■',' HOMES 1■
Mass
■I man
s■
■■n■ r ■■■■■M■ `
■■■■ r ■■M■M■■■■
El
CEILING
Using the R -value of the ceiling
insulation from line 3 of the
Compliance. Checklist, find the
corresponding point value from
Table 3-3a and enter 'it in the
"Points" column on line 3 of the
checklist.
or
Using the R -value of the ceiling
construction assembly from line 3
of the Compliance Checklist, find
the corresponding point value from
Table 3-3b and. enter it in the
"Points" column on line 3 of the
checklist.
If you have different levels of
R -values, you may calculate the
average: of the R -values weighted
by their respective areas or use
the, the lowest of the R -values to
determine the- points. If the
calculation is done, attach the
documentation to the checklist and
indicate the level of insulation
and location of each on the
building plans. Be sure that this
average R -value equates to having
a minimum of R-19 insulation
uniformly distributed over the
ceiling.
C-49 ECM 15
78-
Table-3-3a.
8
Table3-3a. Ceiling Insulation Pts.
I R -Value of Insulation I Points J
i ( I
I 19 - 21 { -10 1
{ 22-6i 1 -8 I
9 0'�,�
I I 0
Table 3-3b. Ceiling Assembly Points
I R -Value of
Assembly I
I
I (excluding
air films))
Points 1'
I 19--
20 I
-12 {
21 -
22 I
-10 I
I 23 -
27 J
-8 J
I 28 -
31 I
-6 I
i 32 -
36 {
-4 I
1 37 -
38 1
-2 i
1 3.9 -
51 {
0
I 52-75
1
1-2 {
l 76 ,up
• 1'
I
4. WALL
Using the R -value of the insula-
tion from line 4 of the Compliance
Checklist, find the corresponding
point value from Table 3-4a and
enter it in the "Points" column on
line 4 of the checklist.
or
Using the R -value of the wall
construction assembly from line 4
of the Compliance Checklist, find
the corresponding point value from
Table 3-4b and enter it in the
"Points" column on line 4 of the
checklist.
If you have different levels of
insulation, follow the third para-
graph of the ceiling instructions,
except that the average R -value
must be equivalent to having a
minimum of R-11 insulatiGu uni-
formly distributed over the wall
if the wall has wood framing.
79
Table 3-4a, Wall Insulation Points
R -Value of Insulation I Points I
I J J
I
I I -6 I
I 24 I f2 I`
I 30 I 1.3 J
I I
Table 3-4b. Wall Assembly
Points
I R -Value of Assembly I
I
I (excluding air films) I
I I
Points I.
I
I 499 up I
1.10 J
I 70.0 -498.0 I
1.8 I
I 37.0 - 69.0 I
1-6
I 26.7 - 36.9 I
1.4 I
I 20.2 - 26.6 I
1.2 J
I 15.7 - 20.1 I
0 J
I 11.4 - 15.6 f
-2 I
I 11.3 - 13.3 I
-4
I 9.8 - 11.2 I
-6. J
I 8.8 - 9.7 I
-8 1
I 7.7'- 8.7 I
-10 I
I 7.0 - 7.6 I
-12 I
I 6.4 - 6.9 I
-14 I
I 5.8 - 6.3 I
-16 I
I 5.3 - 5.7 I
-18 I
I 4.9 - .5.2 I
-20 I
I 4.5 - 4.8 I
-22 I
I 4.2 - 4.4 i
-24 J
X3.,9 - 4.1 I
-26 I
I 3.6 - -3.8 I
-28 I
I 3.4 - 3.5 I
-30 J
I 3.2 - 3.3 I
-32 I
I 3:0 - 3.1 I
-34 J
I 2;.8' - 2.9 I
-36
12.7 I
-38 I
I 2.5 - 2.6 J
-40 J
I' 2.4 I
-42 I
I 2.3 J
-44 I
I 2.2 I
-46 I
I 2.1 J
-48 I
I 2.0 i
-50 I
1.9 i
-52
:A
5. GLAZING, NORTH -FACING
Using the total north -facing
glazing percentage from line 5 of
the Compliance Checklist, find the
corresponding point- values for
each glazing type to be used
(single, double, and/or triple) in
Table 3-5. Enter these values on
the appropriate lines below. On
the adjacent lines, enter the
square footage of each glazing
type indicated on the checklist.
Next, enter the total square foot-
age of all north -facing glazing.
Perform the required calculation
and enter the results on their
respective lines a and b. Total
lines a.and b, and enter the sum
on line c below and in the
"Points" column on line 5 of the
checklist.
Be sure to use the total north -
facing percentage instead of the
individual percentages for .each
type of glazing in a given
orientation.
Table 3-5. North -Facing Glazing Pts
I Total
I Glazing Type
I
% of
I
I
I Floor
Sngl,
Dbl,
Trp1_,T
I Area
IU-
IU- IU-
I
I
1 0.66
1 0.42- 10.41
1
I
11.10
i 0.65 (
down 1
x b
I up to 1.1
I K4
I 1.4 I
1.4
1 1.2- 2.2
{ t2
I 1.2 I
1.3 I
2.3- 3.4
1 0
I 0 I
1.1
1 3.5- 4.8
i -3
1 -2 I
-1
I 4.9- 6.0
1 -6
1 -4 i
-3 1
1 6.1- 7.4
( -8
I -6 I
-5 I
I 7.5=- 8.7
I -10
I -8 I
-7 I
1 -8.8- 9.9
I -12
I 710 I
-8 I
110..0-11.3
1 -15
( -12 I
-10 I
1 .11.4-12.5
1 -17
I -14 i
-12 1
1'12.6-13.4
1 -20
1 . -16 1
-14 1
1 13.5-15;.0 1
I
-22
{
I. -18 1
{ I
-11 1
{
First Type (indicate
Sngl, Dbl, or Trpl)
C-49 ECM 15
A��
x - -a
points area total
first area
0
V A-
Second Type (indicate
1
Sugl, Dbl, or Trpl)
x b
points area total
second area
Zs. x
•
a 1•bc
1Q
o nor th-facing glazing,
x %q
_ Z
=enterf-2ine c and line 5.
1 ZM4
C-49 ECM 15
6. GLAZING, EAST -FACING
Using the total east -facing
glazing percentage from line 6 of
the Compliance Checklist, find the
corresponding- point values for
each glazing type to be used
(single, double, and/or triple) in
Table 3-6. Enter these values on
the appropriate lines below. On
the, adjacent lines, enter the
square footage of each glazing
type indicated on the checklist.
Next, enter the total square foot-
age of all east -facing glazing..
Perform the required calculation
and enter the results on their
respective lines a and b. Total
lines a and b, and enter the sumi
on line c below and in the
"Points" column on line 6 of the
checklist.
Be sure to use the total east -
facing percentage instead of the
individual 'percentages for each
type of glazing in a given
orientation.
C-49 ECM 15
Table 3-6. East-Facina Glazing Pts.
1 Total I Glazing Type I
I % of I I
I Floor Sngl, I Dbl, Trp -17,
I Area I U= I U- I U- I
I 10.66- 10.42- 10.41 I
I 11.10 10.65 I down I
I up to 1.5 1 1-3 1' 1.4 I t-4 I.
I 1.6- 2.3 I 1-1 I' i�2 ( +-3 I
I
.-2,.4- 3.4 I -1 I •0 1 �-1 I
-3 I - I 0 I
1 • 4.4- 5.4 1 . -6 -2 I
I s.- .3 I -8 I I -4 I
I 6.4- 7.3 I -11 I -8 I -6 I
I 7.4- 8.4 I -12 1 -10 i -8 I
1 8.5- 9.4 I -16 I -12 I -10 1
I 9.5-10.4 I' -18 1 -14 1 -12* I
110.5-11.8 I -22 I -17 1 -15 I
111.9-13.5 I -25 I -20 I -18 I
113.6-15.0 I -29 1 -23 I' -20 i
I I I I I
First Type (indicate
Sngl, Dbl, or Trpl.)
x=- a
points area total
first area
Second Type (indicate
Sngl, Dbl, or Trpl)
x+b
points area . total
second area
a t b - c
If there is no east -facing glazing,
enter 1.7 on line c and line 6.
81
Ll
•Ly�
7. GLAZING, SOUTH -FACING
Using the total south -facing
glazing.percentage from line 7 of
the Compliance Checklist, find the
corresponding point values for
each glazing type to be used
(single, double, -and/or triple) in
Table 3-7. Enter these values on
the appropriate lines below. On
the adjacent lines, enter the
square footage of each glazing
type indicated on the checklist.
Next, enter the total square foot-
age of all south -facing glazing.
Perform the required calculation.
and enter the results on their
respective lines a and b. Total
lines a and b, and enter the sum
on . line c below and in the
"Points" column on line 7 of the
checklist.
Be sure to use the total south -
facing percentage instead of the
individual percentages for each
type of glazing in a given
orientation.
C-49 EC.K 15
Table 3-7.. South -Facing Glazing Pts
I Total
I Glazing Type
I
I Z of
I
I
I Floor
Sagl,
I Dbl, I
Trpl,
Area
I U=
I U= I
U= I
I
) 0.66-
) 0.42- )
0.42 )
1.10
) 0.65 )
down )
I 1.3 down
) 1.2
) 1-2 )
+-2 I
1.4- 3.4
) -1
) 0 I
• 0 I
I 3.5- 5.4
) -4
) -2 {
-2 )
I 5..5- 7.3
I -6 .
I 74 I
-3 I
I 7.4- 9.1
) -9
) -6 )
-5 )
I 9.2-10.8
) -12
I -8 i
-7 )
{ 10.9-13.3
) -16
{ -1.1 {
-10 {
13.4-15.7
I
) -20
I
) -14 )
I! I
-12 )
)
First Type (indicate
Sngl,,Dbl, or Trpl)
x = a
poi—at sarea total
first area
Second Type (indicate
Sagl, Dbl, or Trpl)
x — = b
points area total
second area
a F b = c
If there is no south -facing glazing,
enter �3 on line c and line 7.
82
8.
GLAZING, WEST -FACING
Using the total west -facing
glazing percentage from line 8 of
the Compliance Checklist, find the
corresponding point values for
each glazing type to be used
(single, double, and/or triple) in
Table 3-8. Enter these values on
the appropriate lines below. On
the adjacent lines, enter the
square footage of each glazing
type indicated on the checklist.
Next, enter the total square foot-
age of all west -facing glazing.
Perform the required calculation
and enter the results on their
respective lines a and b. Total
lines a and b, and enter the sum
on line c below and in the
"Points" column on line 8 of the
checklist.
Be sure to use the total west -
facing percentage instead of the
individual percentages for each
type of glazing in a given
orientation.
VV_
First Type (indicate.
Sngl, Dbl, or Trpl)
x - a a
points area. total
first area
Second Type (indicate
Sngl, Dbl, or Trpl)
x b
points area total
second area
a +- b - c
If there is no west -facing glazing,
enter +-10 on line c and line 8.
1
83
C-49 ECa�15 .
Table 3-8.
West -Facing Glazing Pts.
I Total
I Glazing Type
I
{ % of
I Floor
Sngl,
Dbl,
Trpl,
{ Area
{ U-
{ U- {
U- {
I
10.66- 1
0.42- {
0.41 I
I
11.10 1
0.65 {
down 1
1 up to 1.0
( 1-8 I
f-8 i'
+-8 I
l 1.1- 1.6
1 1-6
I +-6 1
t 6 1
1.7- 2.:3
l *3
I 1-4 I
+-5 I
I 2.4- 2.9
( +-1
( +-2 I
1-3 I
{ 3.0- 3.4
1 -1 ,I
0 1
i-1 I
I 3.5- 4.2
I -4
j' -2 I
-1 I
I 4.3- 4.8
I •-7
( -4 1
-3 1
{ 4.9- 5.4
1 -9
I -6 {
-5 {
5.5- 6.1
I -12
I -8 I
-7 I
'l
-14.
-9
7.3
1i
-
-10 {
.
-19
- I
-12 I
8.0- 8.5
1 -21
I '-16 {
-14 1
8.6- 9.1
{ -24
I -18 1
-16 I
1 9.2- 9.7
1 -26
{ -20 1
-18 I
I 9.8-10.3
1 -29 I
-22 1
-20 {
{ 10.4-1i.3
{ -32
{ -25 I
-22 I
111.4-12.0
'{ -35
I
1 -28 1
I I
-25 1
I
First Type (indicate.
Sngl, Dbl, or Trpl)
x - a a
points area. total
first area
Second Type (indicate
Sngl, Dbl, or Trpl)
x b
points area total
second area
a +- b - c
If there is no west -facing glazing,
enter +-10 on line c and line 8.
1
83
C-49 ECa�15 .
SHADING COEFFICIENT
Locate the percent of total
glazing to floor areas on lines 5,
6, 7, and 8 of the Compliance
Checklist and the Shading Coeffi-
cient (SC) for the shading device,
for each orientation shown below.
Select Shading Coefficients that
are for devices used with single
glass only from Table 1 in Part 2;
ASHRAE HANDBOOK OF FUNDAMENTALS;
or manufacturers' data. Find the
corresponding point values from
Table 3-10 and enter it in the
"Points" column on the corres-
ponding lines 10a, 10b, 10c, and
10d of the checklist.
Please note this applies to all
glazing orientations except north.
If there is no glazing, in an
orientation, enter zero (0) in the
"Points" column on. the corres-
ponding lines of the checklist.
East:
n
Jq
10.8-11.6-13.2-14.8-16.4-18.0-1 West
1 0-
10.8-11.6-13.2-14.,8-16.4-18.0-1
I
.10.7
X X n
SC of SC of SC of Net SC
glazing device 1 device 2
South:
X x a
SC of SC of SC of Net. SC
glazing device 1 device 2
West:
x x
SC of SC of SC of Net SC
glazing device 1 device 2
Skylight:
x x
SC of SC of SC of Net SC
glazing device 1 device 2
"!'able -10. Shading Coefficient Points
I SC :oY 1 1 SC b 1
y
Orien- 1 % Floor Area 1 Orden- I % Floor Area 1
I tat.. _'n i i tation i h
I Eaet
1 0-
10.8-11.6-13.2-14.8-16.4-18.0-1 West
1 0-
10.8-11.6-13.2-14.,8-16.4-18.0-1
I
.10.7
1.1.5
13.1
14.7
1.6.3
17.9
19.6
1
10.7
11.5
13.1
14.7
16.3
17.9
19.6 1
V 0 -
.15
1 0
1 0
1 0
1 0
1 0
1 0
1 0
0-
.15
0
'1 0!
0
0 1
1.16 -
.32
1 0
1 -1
1 -1.
1 -2
1 -3
1 74
.I -5_
1.16 -
.30
( 0
1 0
1 -1
"11-
-5 I
33 ;-
.49
1 0
1 -1
1 -2.
1 -4
1 -6
1 -8
1-10
1.31 -
.46
1 0
1 -1
1 -2
-10 1
1.50-
.68
1 0
1.-1
1 -3
{ -6
1 -9
1-12
1-15
1.47 -
.62
1 0
1 -1
1 -3
1 -6
1 -9
1-12
1-15 1
1.6.9 -
.86
1 0
1 -2
1 -4
1 -8
1-12
I-16
1-20
1.63 -
..79
1 0
1 -2
1 -4
1 -8
1-12
1-16
1-20 1
1 .87
up
1 0
1 -2
1 -5
1 -9
I-13
1-18
1-23
1 .80
up
1 0
1 -2
1 -5
1-10
1-17
1-22
1-27'1
I South (0'.1-( 1.6-1 3.2-1 4.8-1 6.4-1 8.0-1 Skylight 1 0- 10..4-10.<8-11.6-12.4-13.2-14.0-1
i 11.5 3.1 1 4.7 1 6.3 1 7.9 1 9.6 1 10..3 10...7 11.5 12.3 13.1 13.9 14.8 1
I I
-.1 01 01 0'l 01 01 010 -.151 01 01 01 01 01 01 01
1.16 - .30 1 0 1 • 0 I -1 ( - ( -2 1 -3 1.16 - .30 ( 0 1 0 1 -1 1 -2 ( -3 1 -4 1 -5
-_.[.31= .46 1 0 I -1 I -2 I -3 1 -4 .1 -5 1.31 - ..46 1 0 1 -1 I -2 1 -4 ! -6 1 -8 1-10 1
T_.47- 62 1 0 ! -1 1 -3 1 -4 1 -6 1 -7 1.47 - .62 1 0 1 -1 1 -3 1 -6 1 -9 1-12 1-15 1
1..63.. .79 1 0 1 -2 1 -4 1 -6 1 -8 1 -10'1.63 - .19 1, 0 11 -2 1 -4 1 -8 1-'12 1-16.1-20
I .ao. up i 0 1 -3 1 =5 I -8 1 -11 1 -14 1 .80 up I o 1 -2 ►. -s .I-10 1-17 1-22 1-27
85
C-49 EC:! 15
0111�,
�.• �u5b:04 R3 3/13/84 VH/d.r
CLIMATE ZONE 15
Attic
When using Table 3-3a to rate ceiling
Table 3-3c.
Attic Points
insulation, add points from this
table to the ceiling insulation
Attic Equal
to Following
points. This table is not to be used
Percentage. of
Roof Over Points
' i.n conjunction with Table 3-3b. An
Conditioned
Space
attic is defined as the space
between the roof and ceiling with
no common framing members (truss
0% to 12%
0
chords excluded) having an average
13% to 37%
+1
ventilation height of at least 6
38% to 62%
+2
inches and meeting the ventilation
63% to 87%
+3
requirements of the 1982 Uniform
88% to 1.00%
+4
Building Code, Section 3205(c),
_
North Shading Coefficient
Determine the percent of north facing
Table 3-10b.
North Shading
glazing to the total floor area as
Coefficient Points
.-� shown on line 5 of the Compliance
Checklist. Determine the Shading
_
SC by
Coefficient (SC) for the shading
Orientation
% Floor Area
device for the north facing glazing
as done for the other orientations and
North
0 to 3.1
proceed as before. If there i -s no
3.0 up
north glazing, enter zero (0) in
_
--
"Points" column of the checklist.
0.40 down
0 +3'
- 0.41 up
0 0
35.
0 1.1. HORIZONTAL SOUTH OVERHANG
Using the percent of south glazing
area to floor area from line 7
of the Compliance Checklist, find
the corresponding point value in
Table 3-11. Enter it in the
"Points" column on line 11 of the
checklist.'
12. MOVABLE INSULATION
Using the percent of floor area
from line 12 of .the Compliance
Checklist, find the corres-
ponding point value from Table
3-12. Enter this value in the
"Points" column on line 12. of the
checklist.
C-4 5 ECM 15
Table 3-11. 'Horizontal South
Overhang Points
South Glazing
Length Out Area, % of Floor j
I from Wall
ft
0-6.3 i 6.4 up I
�3.
-22. 0 0 F2
Table.3-12. Movable 'Insulation
Points
Moveable Insulation
Area, % of Floor' Points
All 0
M
4.
W
13. INFILTRATION CONTROL
Identify the proposed infiltration
control features and find the
corresponding point value in -Table
3-13. .Enter the point value in
the "Points" column on line 13 of
the checklist.
Standard means caulking weather-
stripping, sealing, etc. as
described in Part 1, Mandatory
Features and Devices.
Tight means all the features in
the standardcontrol plus gaskets
on electric outlet and switch
boxes in all exterior walls, poly-
ethelene sheets over the inside
face of all exterior walls, and a
mechanical ventilation system
capable of ventilating at the rate
of 0.7 air changes per hour for
the whole building with an air-
to-air heat exchanger. Other
measures may be used for- the 0.:6
infiltration rate if justified
with documentation and attached to
the checklist. However, the
mechanical ventilation with a heat
exchanger must still be used.
C-49 ECM 15
- ... ';"c; � "ate.`*.'� .. _ ....... ....,_ ....... ..
Table 3-13. Infiltration Control
Features Points
I Control Features I Points I
I I
Standard
I I I
10.9 air changes per hr I I
I I I
I Tight I fO I
I I I
10.6 air changes per hr I I
I I I
87
El
Determine the exposed surface area
of the mass and enter it on line a
and on line 14 of the checklist
adjacent to its corresponding HC
and R values.
Multiply the factor times the area
and enter the result on line a.
Do the same for other mass types
on lines b through d.
Add lines a through d together and
enter the sum in the appropriate
place on line e.
Enter the floor area from "total
floor area" 1 of the Compliance
Checklist in the appropriate place
on line e. Perform the required
calculation and enter the result
as "Total Thermal'Mass Capacity."
Using this total, find the corres-
ponding point value in Table
3-14e and enter it in the
"Points" column .on line 14 of the
checklist.
Section 4 WALL must also be.used
in conjunction with exterior mass
walls., There is no minimum R -
value requirement for mass walls.
Table 3-14e. Thermal Mass Points
I Total. Mass
Capacity I
I
I in Btu/°F
per sq ft I
Points I
( of floor area
I I
I
I
I 0 -
0.1 )
0
( 0..2 -
0.4 (
1-21.2
0.5
0.7
v1-6
_
8
_ITI I
I
(, 1,.2 -
1.4 (
F8
I 1.5 -
1.7 (
1-10
( 1..8 -
2.1 (
1-12 I
I 2.2 -
2.5 I
1-14
I > 2.6 -
2.8 I
1.16
I ✓ 2.9 -
3.1 !
1-18 I
I 3.2 -
3.5 I
1-20 {
( 3.6 -
4.0 (
1-22 I
4.1 -
4.4 `
1-24
C-4 9 ECM 15
x I= a
Exposed Mass Factor 1
Area of Type 1
x = b
Exposed Mass Factor 2
Area of Type 2
X = C
Exposed Mass Factor 3
Area of Type 3
x d
Exposed Mass Factor 4
Area of Type 4
= e
(a 1-b 1-c 1-d) Floor Total
Area Mass
Capacity
Table 3-14e. (Continued)
i Total Mass
Capacity I
( in Btu/°F
per sq ft (
Points
I of floor area I
I I
I
I
4.5 -
4.8 {
1-26 I
( 4.9 -
5.2 I
1-28 i
I 5.3 -
5.7 (
1-30
I 5.8 -
6.2 {
-32
I 6.3 -
6.7 (
1-34 I
I 6.8 -
7.2 (
1-36 I
'i .7.3 -
7.8 (
1.38
I 7.9 -
8.4 (
N40 {
I 8.5 -
9.2 (
N+2
I 9.3 -
9.9 {
144
I 10.0 -
10.8 I
N46
i 10.9 -
11.8 (
+48 I.
11.9 -
12.8 (
1-50
I 12.9 -
14.0 (
1-52 I
( 14.1 -
15.2 (
1-54 {
I 15.3 -
16.6 I
1-56 I
I 16.7 -
18.1 I
1-58 I
! -18.2 -
19.7 (
4.60
19.8 -
21..2 I
1-62
( 21.3 -
22.7 (
1-64
I 22.8
I
up (
I
1-66
l
91
L J
y :t
LEr 014 N So
owner
TTZ � �1.. 1. ?�
project Checked by
ysteype date
T . � , �ikysyLstem t1p'c- 15 vim, $ �p
documentation author date
SITE INFORMATION i R4Z ! )Z -S Z o
Heating Degree Day (from Appendix C) ...» .:.............. »«.............. .............. _... HOD) 1 3 F.cay
Outside Design Temperature (from.Appendix C or Appendix G) ..................... Tow 1, 2 1 of
PROPOSED BUILDING ENVELOPE INFORMATION /' 1
Gross Floor Area if Low -Rise (from Calculations) ............................................ Af 1 7-rb3 S ft2
Gross Wall Area if High -Rise (from Calculations) ............ :............................... Aw 4 h2
Designed Glaz,ng Area (from Calculations).......... _ ...... .........................4....... Ag 5 fa ft2
Basic Glazing rArea 116%of Line 3 if low-rise or 40% of Line4 if high-rise)........ Abg 6 ft2
Description of Assembly I ��
Glazing Q& Ugl 7 Btu/ (hr •ft2 •OF)
Ug2 8 Btu/ (hr.ft2•°Fi
Ug3 9 Btu/ (hr.ft2•
wan ST CC•0 awl 10 •O 5 et.d (nr•ft2.11F)
Uw2 11 Btw (hr •ft2-"FI
Uw3 12 Btu/' (hr. ft2 •'F)
Uw4 13 Btui (hr. 112 • �'F)
Ceiling/Roof I L_1E \ 'n-- 61 .T 2 3 UC, 14 +0Z Blid (heft-- F)
T> WA%__1_ Uc2 15 B:ui lhr•ft2•0i;)
Floor Ufl 16 Btui(hr.ft=.'
Uf2 17 Stu; (hr•ft2i' F)
PROPOSED SPACE HEATING SYSTEM (Chapter 7)
Gas Furnace
Building Design Hourly Heat Loss (from, Form 2) ..................................... y 18 Btu/hr /Z�,pp
Maximum Allowed Bonnet Capacity, I-& x Line 18 .......................................h...... 19 Btuihr Uw
Proposed Furnace 1.3
Make
Model Description
Rated Bonnet Capacity
Electric Resistance, Alone
Eiectric Resistance Life Cycle Cost (from Form 5) .................................... sLCCe. 20 S
Lowest Life Cycle Cost of the Other Systems Ifrom Form 5) ................... ,LCCb,11i a 21 $
Non•Depletable Energy w/Electric Resistance Back -Up
Percentage of Annual Heat Lou Met by Non-Depletable Energy
Source (from,Calculations)......................................................................... . 22 %
Heat.Pump with Electric Resistance Supplementary Heat
Percentage of Annual Heat Loss Met by Electric Resistance
(from Calculations)............................................................................................ 23-
PROPOSED
3_
PROPOSED WATER HEATING SYSTEM INFORMATION (Chapter 8)
Eleetrie Resistance. Alone
Electric Resistance Life Cycle Cost (from Form 6) ................................. wLCCe 24 $
Lowest Life Cycle Cost of the Other Systems (from Form 6) ................... wLCCW,,d 25 $
PROPOSED SWIMMING POOL HEATING SYSTEM INFORMATION (Chapter 9)
Solar ,Life Cycle Cost (from Form 7) ................................ ......................... pLCC, 26
Natural Gas Life Cycle Cost (from Form 7). ...................................................... pLCCng 27 $
BUILDING DESIGN AND EQUIPMENT SUMMARY
I ►Z 1 1?LGk 15
oiKt title climate zone
LA V
I N Ti
2
70
)e1
t taas,
au
t.
Project owner
documentation autnor ante
Form 2
page 1 of 2
'plan Cnecktaermit numner
Cnetked by
date
1 �'��` �"t "" Enforcement Agency Use Only
wmonance metnoa (araeriotive.oraerformance, daseribe)
BUILDING ENvELDF= OESIGI`I Description of Item Dimension Points
Total Floor Area fta
1. Floor- Slab Perimeter, Type 1 2 — Z 11.J�� 1 d I.I F= Z,Ct i ft ! Q
Tyq� ft
A rrI C Raised, Type 1 YE CL►JT O TT I C Ov Mir_ F i O 4 „V
Type 2 C404 tAT I o 0 Tia VIA CI` ZB'SS ft- +
Z Ceiling: Type 1 31S 1 "Sy t -AT 1 0 La 1 1 ft, O
Type 2 ft=
3 Walk TYpe i i2 Q 1 NISI LN—rl O A 1 �a 11� O ft= �
TYpel fta
4. Glazing: West. Type 1 % fta
Type 2 °/. fta .
North, Type 1 iii #,l 15 fta i 4 Z
Type2 �� S � 7.. fta
East. Type 1 Pr V tis. S.O'f .e_ fta _ (o
Type 2 •f.. fta
South, Type 1 WO ►.! E % n= ♦ 3
Type 2 7: fe
Skylight.. Type 1 qC fta NA5. Shading Coefficient: Wes ��F'C.'e<.trl►5.1 SCtt s`i` 'D^PJ� S ( 9 -/.i4 Q
North u t ., SC ��O
�^ East y_o3 y Sc 12
2P South y SC
6. Horizontal South Overhang 7— ft i7
7. Movable Insulation Y. fta N
& infiltration Contra TA 0 DA
9ermal Mass: Types V NYL Y I LX C -,O 0 2 - : L$ q 8_ '1.3 -1
T1C)S �' Type 2
L: 1.1 MA.II� TYpe 3 �e iaC W, ft=
V-vro4mll �`t Type 4 _R _.HG tK fta
�A 114 1 1 l Type 5 ftj
br �U L Z 3
Point Total This Page
q�x3s ZZo
1/83 — a20 — CLEC
284-66 (2/83)
NGii.!LY AND ANNUAL
BUILDING HEAT LOSS RATE
Check, One:. Proposed Design V
Standard Design
owner oro'e.'
LA Q -J I IA T2h' 1;-0't:.GWP A.I rL.
pr9leGt location Ys am Was
aocumentation autnor Gate
Enforcement Agency
ouw aing ownilt number
mocked by
SITE INFORMATION
Heetieg Degrao Day ;from Appendix) .... , ..... .... HDD , Z �2 °F• day
Outside Design Temperature (from'Appendix) .. ........ ....... Tow) °F
Outside January Mean Temperature (from Appendix) ...... .... ... T jan : °F
PROPOSED BUILDING ENVELOPE INFORMATION
Gross Floor Area (from piano) ........................... AY Z. S35 ft2
Gros Wall Area (from plans) Aw Z 0f3C> ft2
Deigned GWing Arra (from plans) _ .............. .... A9 ; ft2
Baia Glazing Area (16%. of Af if low-rise or 40% of Aw'if high-risa) .. ..Abe Li 4 3 ft2
HOURLY HEAT LOSS
0:,SIGN TEMPERATURE DIFFERENCE
For All Assemblies Other Than The Three Below ...7o°F — 31 or -ATh 1 °F
Tow from above
For Inwla;ed Floor Over Vented Unheated Space .......... Line 1 :62 "QThi 2 F
For Uninsulated Floor Over Vented Unheated Space........ Line 2 — 5°F mAThb.3 -ell, °F
to
(8/81)
For Slab -on Ground Floors ........... 70°F — 4 1 °
� of - OTM F
Tian rrom ao
CONDUCTIVE, H FAT LOSS Average
of Assamtlly,
Area, ft2 or or F2 from A_T
Oeserlotlon of All"moly Leengtn, tt Graon 41 trzm &cava
39L
hourly neat
IIGIS. 4
Q f�.
Glazing lri J�O x 'S� x ar
- � � ' atwl
-'
�o sTU
Wall x73 x
X X a
Coiling/Roof TIS PLYWOoJ�o 10 7T X- X
x X_ -
Floor X�x
-CS X •'� x
—Po
Other tSQ111'11tTOV� X t Eo 13�+ v >< Lr
1 V,
volume Subtotal 5
um O t +a abow:q
tt.!h r
D ��Q9
INFILTRATION Z ��`� ft2 x` �� ft x •0 x F g
Af from Vveignteo from from
1 R l%
above Th
verage Table 3-7 Lins.l
Avir Maight
Cailing
�r-y
`O O
T,_
c��y 3
Subtotal 7tuihr
Me.,n. a
513
b
DUCT HEAT LOSS (Enter 0 If there are no ducts) ..... ........... 0.15 x Line 7 g
Cl
5
LA 3 %%
r
TOTAL HOURLY HEAT LOSS, pk 9
tui
una • I,ne 8
ANNUAL HEAT LOSS, GL
p
1 Z'> °F-day,yr`x 3°1..`' Btu/hr x "0 X'24hrlday + � 10
�}3 � � Btu/yr
x100 Hourly Meat Lou C from ' "n from
T ram
fro --I toove from, Line 9 Tame 3-a une 1
�DC>
A►►J
9-3
L�� as 7
S p L ,CL.. 1 ►J i K �s C 2 A P 0 P`rJ
LA
w
To�n
17v u' C4J► �1(.��� 5 , q g5 o i
1
0
h o
Z,11�
9-3
L�� as 7
S p L ,CL.. 1 ►J i K �s C 2 A P 0 P`rJ
LA
w
To�n
17v u' C4J► �1(.��� 5 , q g5 o i
P W'OSEU CONSTRUCTION ASSEMBLY
I` .
List of Construction Components R
1,15-113 Fe -1 s 5-rQ c e.40
2. It,4 0 iJ t ► �� �.J
3..'5 0 D 7.Y (41Z
4.
5.
6.
7.
8.
Inside Surface Air Film
y
��
cooling
heating
Sketch of Construction Assembly
Outside Surface Air Film
•Z,5
.`7
WEIGHT: Ib/ft2
cooling
treating
Check one:
Total Resistance Rt
ZQ�rj Z
z L4
Wall
cooling
-Seating
Roof
I
U-Value%%t) Itv
p�
Floor _ _
/
cooling
L'a,[ing
P ,OPOSED CONSTRUCTION ASSEMBLY
Sketch of Construction Assembly
WEIGHT: Ib/ft2
Check one:
Wall
Roof ":!t—
Floor
Floor
477
List of Construction Components R
1.V.(]dF T %(- .c .Cs
2..'5C> PUY W 00 t> CQz.
s.1 N Sv t,l� i t �..1 r 3 cd)
4. Lis
5.
6.
7.
8.
Inside Surface Air Film
Outside Surface Air Film
Total Resistance Rt
U•Value (#R,t ( i 141 Acr)
.74P
cooling
cooling
L10.13
cooling
,oZ$q
cooling
Z.
heating
. I -r
heating
SRA i
heating
heating
SUMMARY
Form
page 2 of 2.
Project title' climate zone -
oroject address
HEATING, VENTILATING, AIR CONDITIONING SYSTEM
10. Heating (fill in informationon_ proposed. system)
Central Gas Fumace s V'= -I iia OX 6 1 k3 (1, _ � , g'� %
brand and model numoer SE
y, tD40'0 Btu/hr
Heating capacity
Heat Pump
brand and model number ACOP
heating capacity at 470F Btu/hr
Active Solar
type (liquid or air) Goliector'brand and model number solar traction
fta o
colleCJr .:=a ..-„4ctor oriant,llo❑ ::00ac f tilt rated rated slope
11, Cooling (fill in, information on proposed system) (�
Electric.Air Conditioner
brand and.modei number seasonal EER
l.V/S'PO CAl7 -Z-o9 Btu/hr
v C $ ; coating capacity at 950'F
Electric Heat Pump
• cEfZ
Points
Btu/hr I
cooling capacity at 9 So F
Other ;
describe
12. Mechanical Ventilation ACH
describe
DOMESTIC WATER SYSTEM
13. Heating (fill in information on proposed system)
P
Gas Only. 'a
Gallons
brand and model number
tank size
Heat Pump w/Electric Backup
Gallons
brand and model numbar
tank size
Active Solar
- collector brand and model number
y - interatedcept
rated slopesolar fraction
fta
backup neater type, brand.and"model number
collector area collector
orientation
Other.
descrlba
I
Point Total from Page 1
1A
Total Point Score
I/83 •420•- CEC
'nom,
LENA IVAAIW Z 7) 'A'
Typical Applications
Closet Installation
with coding coil and
electronic air cleaner.
Basement Installation
with cooling coil, return air
cabinet and power humidifier.
ENGINEERING DATA
G16(X) SERIES — CONSERVATOR® III HEATING UNITS
U P-FLO GAS FURNACES GAS
Page. B
50,000 to 100,000 Btuh Input May 1%4
Add -On Cooling — 1 thru 5 Nominal Tons Supersedes
October 1983 '
8 CAS � cearii in
s sr r i 8I1'la
CU
�+fTlntO'
. Aluminized Steei Burners.
Lennox DURACURVE®
Aluminized Steel
Heat'Exchanger
Lennox G16 Series Up -Flo Gas Furnaces- Feature High Efficiency Operation and Installation Versatility
The G16 series line of gas fired furnaces include six models Inatural
gas or LPG.) with Stuh input capacities of 50,000, 75,000, 100,000
and energy efficiencies (AFUE) of 60% or above. Compact, stand-
ard size cabinet size, with side or bottom return airentry, will allow
installation in a basement, closet, recreation or utility room. Op-
tional return air cabinets are available to simplify return air duct
connection to the furnace. The matching return air cabinet may
be installed -on either side of the furnace. Lennox add-on evaporator
coils, electronic air cleaners and power humidifiers can easily be
added to the furnace for a complete all season installation.
Units ' are equipped with the gas saving automatic
POWERLITETA-pilot ignition system. Pilot'flame.is on only dur-
ing main burners operating cycles. No need to shut off pilot dur-
ing air conditioning season. Flue draft will be created by a induced
NOTE — Specifications, Ratings and Dimensions subject to change without notice.
draft blower mounted on the flue collector box on the outlet of
the heat exchanger. The furnaces can be vented vertically as a
common vent with another appliance.
G16 series furnaces are design certified by A.G.A. Laboratories
and ratings are certified by GAMA. Units have been rated and
tested according to Department of Energy (DOE) test procedures
and Federal Trade Commission -(FTC) labeling regulations in the
Lennox Research Laboratory. G16X (natural gas) models meet the
California Nitrogen Oxides (NOx) Standards and California
Seasonal Efficiency requirements. Blower data is from unit tests
conducted in the Lennox Laboratory air test chamber.
Units are shipped factory assembled with all controls installed. Each
unit is factory test operated insuring proper operation. Installer has
only to make flue vent, gas supply and electrical connections.
Model No.
ttG16Q2X-50
G16Q2-50
t1G16Q3X-50
G1603-50
ttG16Q3X-75
G116113-75
ttG16Q4X-75
G76Q4.75
ttG16Q4X-100
G1604-100
ttG16Q5X-100
G1605-100
Input Btuh
50,000
50,000
75,000
75,000
100,000
100,000
Output Btuh
41,000
41,000
61,000
61,000
81,000
81,000
tA.F.U.E..
81.0%
81.0%
80.0%
80.0%
80.1%
80.1%
California Seasonal Efficiency
76.0%
78.3%
77.0%
78.4%
76.4%
77.5%
Temperature rise. ran a (OF)
35-65
20-50
35-65
.25-55-
35-65
25-55
High static certified by AGA lin. w)
.50
.75
.50
.75
.50
.75
Flue size connection (in. diameter)
3
3
3
'3
3
3
Gas piping size I.P.S. (in.) natural or LPG
1/2
1/2
1/2
1/2
1/2
1/2
Blower motor horsepower
1/4
1/3
1/3
1/2
1/2
3/4
Blower wheel nominal dia. x width (in.)
9 x 7
10 x7
10 x 7
10 x 8
10 x 8
12 x 12
Net filter area (. ft.) & cut size (in.)
(5.8) 35 x 28 x 1 (5.8) 36 x 28 x 1 (5.8) 36 x 28 x 1 (6.6) 40 x 28 x 1 (8.9) 52 x 28 x 1 (8.9) 52 x 28 x 1
Tons of cooling that, can be added
1, 1-1/2 or 2
271/2 or 3
2-1/2 or 3
3-1/2 or 4
2-1/2 3 3-1 /2or4
4 or 5
Shipping weight (lbs.) — 1 Package
160
165
170
195
240
260
Electrical characteristics
120 volts — 60 hertz — 1 phase (less than 12 amps)
— All Models
Return Air
Cabinet (0 tional)
Model No.
RA10-16419
RA10-16-49
RA10-16-49
I RA11316-49
I RA10-16-53 I
RA10-16-53
I Shipping Wt. (lbs.) 54 54 54 1 54 1 56 1
56
*LPG Kit — Optional
I
LB-33151CAD (All Models)
tAnnual Fuel Udization Efficiency based on DOE test procedures and according to FTC labeling regulations.
*LPG Kit must be ordered extra for field changeover.
ttNot avalleble with LPG. HIGH ALTITUDE DEBATE
If the heating value of the gas does not exceed values listed in the table,
A.G.A. INSTALLATION CLEARANCES derating of the unit is not required. Should the heating value of the gas
Sides
1 inch
Rear
1 inch
Top
1 inch
Front
6 inches
Floor
Combustible
"Flue
•4 inches
'This is clearance to all flue pipes except type "El". Type "B" vent clearance is as
listed by I.I.L.
NOTE — Flue sizing and air for combustion and ventilation must confoml to the
methods outlined in American National' Standard (ANSI -2723.1) National
Fuel Gas Code.
t.1ne G16 SERIES FURNACES
u+ -
a" PIPING INI.
IdoM, 4�1
r
I n
I D RETURN AIR'
I OPENING 1
1 lorlbottom)
L--------J
exceed the table values, or if the elevation is:greater than 6,000 feet above
sea level it will be necessary to derate the unit. Lennox requires that derate
conditions.be 4% per thousand feet above sea level. Thus at an altitude
of 4000 feet, if the heating value of the gas exceeds 1000 Btu/fta, unit will
require a 16% derate.
Elevation Above
Sea Level (feet)
...,
I�IIIIIIIII�III
5001 — 6000
C suvPLr
4001 — 5000
AIR
3001 — 4000
OPENING �.
2001 — 3000
t:1na
Sea Level — 2000
stet
mane
lave—�I
u+ -
a" PIPING INI.
IdoM, 4�1
r
I n
I D RETURN AIR'
I OPENING 1
1 lorlbottom)
L--------J
exceed the table values, or if the elevation is:greater than 6,000 feet above
sea level it will be necessary to derate the unit. Lennox requires that derate
conditions.be 4% per thousand feet above sea level. Thus at an altitude
of 4000 feet, if the heating value of the gas exceeds 1000 Btu/fta, unit will
require a 16% derate.
Elevation Above
Sea Level (feet)
Maximum Heating
Value (Btu/ffl
5001 — 6000
900
4001 — 5000
950
3001 — 4000
1000
2001 — 3000
1050
Sea Level — 2000
1100
DIMENSIONS (inches)
RETURN AIR CABINET
it
t NOTE — Return Air Cabinet
OUTLET 1TaM shipped knocked
14 'RETURN AIR down and must be
OPEMNO - field assembled.
AIR FLOW I
C=
Model No.
A, B C D E F
G
G16Q2(X)-50, G1603(X)-50
G1603(X)-75
49 16-1/4' 14-1/8' 14 11 2-5/8
5
G16Q4(X)-75
49 21-1/4 19-1/8 14 14 3-5/8
7-1/2
G16Q4(X)-100, G16Q5(X)-100
53 26-1/4 24-1/8 18 21 2-5/8
10
—108—
r— ---1
2
z2•lro—!i
1 B RETURN AIR I -
KNOCKOUT
(both hts) 1
L— -----J
1.12
Model No. RA10-16-49 RAIO-16-53
A 49 53
B 14 18
m
A
W
-----
- - - - - -
V
I "D
Date 0 0 ,u M
I I.-
< 0
Sample M Z C-
r MM
No. OMO M
M
Lot ET
No.
CD
lA
4
0
M
M
M
IZOM
>
>
-4
0—
Z
c
0
z
z
>
M
>
0
0
0
Z5
z
Wet
'DensIty
(n
Z
W.
>
C--
0;
N Uw
m
mm
I
Tell tis
i
f
V
i �a7o
�xPA�slo�
A t�� .:'j .►�a.1 HC2W F� �
.7X
Itlytactiut WUNIT utNAKIMlNr V� runup +►
M L -i Z:;= DIVISION OF ENVIRONMENTAL HEALTH
-�-;j*''-Z 7,----
24 X 36 pRIMM ON NO: 1000N CLEARPMW 0
Food Establishment ^ Sewage Disposal
Trailer . Gal. Septic Tank
TZ/A4y aSLeach Line
MotelAp , Hotel XSeepage Pits J I �d .
Dwelling
Commercial Building E' '0-14+sl Connection to Sewer
S imming Pool 01
20)on- si r ge era i g wat r sof ning evices ma e i charged into to ivi ua .sewage di6pM1
system herewith approved without clearance from Water Quality Cont ol. Board.
Water supply se t s stallation must be fro an approved source. �(' iJ NJD%
��
All sewage disp$'sa ms a a on must conform with requirements of current Uniform Plumbing Come.
Any cutting, gradiria, or filling in excess of four (4) feet gill nullify sewage disposal approval.
Approval has been obtained from the Regional Water Quality Control Board for installation of the;,@i-
age disposal system,
This is to certify that the Riverside County Department Public Health approves f orw+P�e1', constrr+
or installation the Item(s) checked above.Ntfh— ca -
- a 0 - BV_
T� -,e-e /
THIS AP A;0'JALrGcjt'Nftl) BY THE
DEPART";ENT OF PUBLIC HEALTH
IS VALID FOR ONE (1) YEAR
FROM DATE OF APPROVAL.-
"Apurovai of mese pians by the Lepartment at euous
Ralph of Riverside Connty does not relieve the Engin.
set or Architect of the r%,.:iponaihility for the ZnenM,.
log or Architectural desizu."
{-C-,Tf - -T //
.�.t''1,.y • T 7�
tS.P K& - -r 73
L-A QJ 1 I..t►T2 ,
..� V►11.1 .
X
i
x
A t�� .:'j .►�a.1 HC2W F� �
.7X
Itlytactiut WUNIT utNAKIMlNr V� runup +►
M L -i Z:;= DIVISION OF ENVIRONMENTAL HEALTH
-�-;j*''-Z 7,----
24 X 36 pRIMM ON NO: 1000N CLEARPMW 0
Food Establishment ^ Sewage Disposal
Trailer . Gal. Septic Tank
TZ/A4y aSLeach Line
MotelAp , Hotel XSeepage Pits J I �d .
Dwelling
Commercial Building E' '0-14+sl Connection to Sewer
S imming Pool 01
20)on- si r ge era i g wat r sof ning evices ma e i charged into to ivi ua .sewage di6pM1
system herewith approved without clearance from Water Quality Cont ol. Board.
Water supply se t s stallation must be fro an approved source. �(' iJ NJD%
��
All sewage disp$'sa ms a a on must conform with requirements of current Uniform Plumbing Come.
Any cutting, gradiria, or filling in excess of four (4) feet gill nullify sewage disposal approval.
Approval has been obtained from the Regional Water Quality Control Board for installation of the;,@i-
age disposal system,
This is to certify that the Riverside County Department Public Health approves f orw+P�e1', constrr+
or installation the Item(s) checked above.Ntfh— ca -
- a 0 - BV_
T� -,e-e /
THIS AP A;0'JALrGcjt'Nftl) BY THE
DEPART";ENT OF PUBLIC HEALTH
IS VALID FOR ONE (1) YEAR
FROM DATE OF APPROVAL.-
"Apurovai of mese pians by the Lepartment at euous
Ralph of Riverside Connty does not relieve the Engin.
set or Architect of the r%,.:iponaihility for the ZnenM,.
log or Architectural desizu."
{-C-,Tf - -T //
.�.t''1,.y • T 7�
tS.P K& - -r 73
L-A QJ 1 I..t►T2 ,
r
"E- PIT3
al go visraiag rfoz hox
I ox J;J. (T
v
Of
10)70
sUPAWS i va.,
LEA
L
A -
f4 41
af� ( Al
UT
VFEJ4 v
.,j
... ... ..........
7.
r
4-0 04
loll c::Pl I
j.;Uur4j'T LJOAKIMMf UT rVA51.1%. nLNro,�". -;,How rzriz!
f1-7AL_t'j e-2 -r4-(-1 DIVISION of IENVIRoNMINTAL HEALTH
Food Establishmentosal 1 BY )HE
-7 k
TrailerDr-FARTUjT OF PUBLIC HUAIL111
(1) Y
teo Leach Line
Motel Hotel S
Mot , Seepage Pits
DwellingVALI D FOR O)�NE (1) YEAR
(6,OPIL^)
Commercial Building.Connection to Sewer A
r-immino Pool
�
JOHN H. HACKER., CIVIL ENGINEER, PALM SPRINGS
LATITUDE 33.8 WINTER TEMP. 31 DEG.., SUMMER TEMP. 110 DEG
JOB SITE LOCATION_ 51 /!o 1— 6F/5 uwo� L,rA
-----------------------------
MANUAL J FOR'COOLING LOSSES
PERIMETER 125 SQ.. FT.
INSULATION R VALUES ...SLAB 0 ...CEILING 38 ...WALL 19 ...
AREA NORTH WINDOWS 0 SQ.FT. PERCENT OF AREA 0
AREA EAST WINDOWS 48 SQ.FT. PERCENT OF AREA 5.16129
ARWWEST WINDOWS 49 SQ.FT. PERCENT OF AREA 5.26882
AREA SKYLIGHTS 0 SQ.FT. PERCENT OF AREA 0
THE U VALUE OF THE WINDOWS IS 1.1 (.65= DUAL PANE, 1.1= SINGLE PANE')
-rU T Q 101 T\f= 11M= TOA OCC 2_ CI' AT QlJ AT T hll= T%Ct l T f`CQs AAI LIT AIllA1.1C C r - A4
(* mind -blinds, rollar shades, venetian blinds or vertical blinds)
THE TOTAL S.C. OF THE WINDOWS IS 0.30
SOUTH OVERHANG LENGTH 2
INTERIOR THERMAL MASS AREA
INFILTRATION (STD 0.01.8, MED 0.014, TIGHT 0.012) - .014
FOOTING LOSSES... 5460 BTU
CEILING LOSSES... 918.228 BTU
WALL LOSSES.... 1717.9 BTU
INFILTRATION LOSSES... 4062.24 BTU
GAS FURNANCE SIZE 25621 BTU OR 45,000 BTU
OF 3.31-0 /*
FOOTING LOSSES ... 5600
CEILING S
LOSSE... 941.77BTU
2BTU ,qlf
WALL LOSSES.... 1761:95 BTU
INFILTRATION LOSSES..-,-.- 4166.E BTU
KITCHEN... 1500 BTU
DUCT LOSSES INCLUDED IN TOTAL
eitAo-C &A 1( A.4c�t1r
r"sici..0 y tq6, j �✓u �O
►'''�c� bc'' C .� 5 L�(l CJ Jv 3 d
COMPLIANCE CHECKLIST PER DESIGN DATA
SLAB ON GROUND, -4 POINTS
WALL INSULATION, 0 POINTS
CF r i INC,- I NSUI AT I O.N - 0 -POINTS
ATTIC, 4 POINTS
NORTWINDOWS GiAZTNG 0 POINTS
EAST WINDOWS GLAZING -6 POINTS
SOUTH WINDOWS GLAZING 3 POINTS
SKYLIGHT GLAZING
0 'POINTS
SOUTH SHADING COEFFICIENT 0 POINTS
WEST SHADING COEFFICIENT -3 POINTS
NORTH SHADING COEFFICIENT 0 POINTS
SKYLIGHT SHADING COEFFICIENT 0 POINTS
THERMAL MASS 165 SQ.FT.
GAS FURNANCE 71 SE AND REFRIGERATION COOLING
6 POINTS
THE EER OF THE COOLING SYSTEM
COOLING 9 POINTS
THE ALLOWABLE POINTS PER AB 163 IS -4 FOR THIS AREA 15
THE TOTAL POINTS ARE -4
INSULATION AS SPECIF"IED, PER MANUFACTURES LABLE
OPENINGS CAULKED AND SEALED AROUND JOINTS IN WINDOW AND WALL SOLE PLATES AND
ELECTRIC OUTLET GASKETS ON ALL EXTERIOR WALLS
BACK DRAFT DAMPERS ON EXHAUST FAN
FIREPLACES MUST HAVE TIGHT FITTING, CLOSEABLE DOORS COVERING FIREBOX
DUCTS; BUILT PER CHAPTER 10 U.M.C.
GAS FURNANCE SIZED TO 1.3 DESIGN LOGS + 10 BTUH PER SO. FT. OR 45,000 BTU
WATER HEATER TO HAVE R-12 INSULATION WRAPPING, AND R-3 ON FIRST 5' OF PIPE
NAT. GAS STOVES SHALLL NOT HAVE CONT. BURNING PILOTS
CERTIFIED�-%--=------------------- �Gr -- 2 �-----------
----- "