SFD (003038)P.O. BOX .1504 N O .
78-105 CALLE ESTADO
Address 53-05 A'Yealida Xidndozia LA QUINTA, CALIFORNIA 92253
Rick 3obumm Cmsteruction
Mailing
Address F. ,O`Box 329
City' ZipTel.
is ,0- tz...:. 92253 S!
Contractor
BUILDING: TYPE CONST: OCC: GRP:.
A.P. Number 774-132-016
228 Legal Description
Project Description Sinale FaM3iv lling..
Tel. -.
State Lic. City DWG �b50
& Classif: 357163 Lic. # , 202. _ Sq. Ft. No., No. DIN.
Arch' Erigr - , Size • 440 Stories `' Units'
Designer ;.
New Ek Add ❑ Alter ❑ Repair ❑
Address
Tel.
City
,. ..
Zip
State -
Lic. #
190 Liu. Ft. WaW Ponce,
„• ,,. LICENSED. CONTRACTOR'S DECLARATION
I hereby affirm that I am licensed under provisions of Chapter 9 (commencing with Section
MOO of Division 3 of the Business and Professions Code,•`and.my license Is in lull force and
effect. _r5e-„::".r
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,Buslness and Professions Code:. Any city. or •,county which,, requires 'a -
permit to.construct, alter,. Improve, demolish, or repair any structure, prior tolls Issuance also z.•
requires the applicant for such permit to filea signed statement. that he Is licensed pursuant to
G the provisions of the Contractor's License Law,. Chapter 9 (commencing with Section 7000) of
Division 30l the' Business and Professions Code, or thaF. 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):-
❑ I, as owner of the property, or my employees with wages as their sole I(compensation, will .•
' do the work, and the,structure is not intended or offered for sale: (Sec: 1.7044, Bulsness 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,amprovements 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.) - -
Estimated Valuation.
e
'
PERMIT
- �,.. �, s x.- ---.-
Plan Chk..Dep.
Plan_ Chk. Bal...
Const.
Mech.'
'
'-Electrical -
Plumbing
' ❑ 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 lore
• • such projects with.a contractor(s) licensed pursuant to the Contractor's License. Law.) • - .
❑ Lam exempt under Sec. B. & R.C..fbr this reason -Grading
. S.Md.;
Driveway Enc.
Date owner
Infrastructure
TOH.•�e.4 ars ,'�7 5a. °3 a £Hl
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, • - O Certified copy Is, hereby furnished. ...
CERTIFICATE OF EXEMPTION FROM
WORKERS' COMPENSATION INSURANCE
(This section need not be completed It 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:.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 - *" f•,. •'
Lender's Address
This is.a building permit when' properly fllled'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 thatthe 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 .red! rs+ �. , fi? 1�t`!1 f Date
Mailing Address
City, State, Zip
HARD COPY
:Demolition 0
AMOUNT
153.(
SSM. 403A
1142 33.(
. 0__ -0
.2/
20.00
20.00
1:125.5!
TOTAL • $2337.32' $2087.52
:•REMARKS `
,ZONE:- BY:
Minimum Setback Distances:
Front Setback from Center Line
Rear Setback from Rear Prop. Line
Side Street Setback fTom'Center Line
Side Setback from Property Line
FINAL DATE INSPECTOR t
:.:Issued by: Date 4/9187. Permit
Validated by:
Validation:
t
A778-8 4 21 2,,87,52 It
CONSTRUCTION ESTIMATE
NO. ELECTRICAL FEES
NO. PLUMBING FEES
IST FL. SQ. FT. ® $
2ND FL. SQ. FT. ®
POR. SO. FT. ®
GAR. SO. FT. ®
CARP. SQ. FT.
WALL SO. FT. ®
SO. FT. ®
ESTIMATED CONSTRUCTION VALUATION $
UNITS
MOBILEHOME SVC.
POWER OUTLET
YARD SPKLR SYSTEM
BAR SINK
ROOF DRAINS
DRAINAGE PIPING
DRINKING FOUNTAIN
URINAL
WATER PIPING
NOTE: Not to be used as property tax valuation
Y
FLOOR DRAIN
MECHANICAL FEES
HEATING (ROUGH)
WATER SOFTENER
VENT SYSTEM FAN EVAP.COOL HOOD
SIGN
WASH ER(AUTO)(DISH)
APPLIANCE DRYER
DUCT WORK
GARBAGE DISPOSAL
FURNACE UNIT WALL FLOOR SUSPENDED
LAUNDRY TRAY
AIR HANDLING UNIT CFM
HEATING (FINAL)
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
BOND BEAM
SQ. FT. ® c
WATER HEATER
MAX. HEATER OUTPUT, B.T.U.
SQ. FT. RESID ® 11/4 c
SEWAGE DISPOSAL
LUMBER GR.
SQ.FT.GAR ® 3/ac
HOUSE SEWER
FRAMINGG,/FINAL
INSP.
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 i
b
/GROUND PLUMBINGl/Wjy
UNDERGROUND
A.C. UNIT
COLL. AREA
y�LAB GRADE ��
Y
ROUGH PLUMB.
ONDING — �.
HEATING (ROUGH)
STORAGE TANK
ORMS
SE I A
ROUGH WIRING
DUCT WORK
ROCK STORAGE
FOUND. REINF.
GAS (RPU/GH)
METER LOOP
HEATING (FINAL)
OTHER APP./EQUIP.
REINF. STEEL
GAS (FINAL)
AeEMP. POLEy aL/—Y-
GROUT.
WATER HEATER
SERVICE
FINAL INSP.
BOND BEAM
WATER SYSTEM
Ad
GRADING
cU. yd.
$ plus x$
_$
LUMBER GR.
F 4AL INSP.�� �//
FRAMINGG,/FINAL
INSP.
`/ %� L
^�
�p S /
REMARKS:
VENTILATION
FIRE ZONE ROOFING
FIREPLACE
SPARK ARRESTOR
GAR. FIREWALL
THINGC,? _�'?
P'
MESH
INSULATION/SOUND
FINISH GRADING
FINAL INSPECTION
CERT. OCC.
FENCE FINAL
INSPECTOR'S SIGNATURESIINITIALS
GARDEN WALL FINAL
.PROJECT DATA SUMMARY For 1
-1\2, � (\' 2S i
owner
.r ` ISS 1 -z> Q:7_;:
project
system type .
P 4 J v'YE-) �
documentation author date
checked by
date
Proposed Furnace
Make
Model Description
Rated Bonnet Capacity
Electric Resistance Alone
Electric Resistance Life Cycle Cost (from Form 5) .................................... sLCCe 20 —
Lowest Life Cycle Cost of the Other Systems (from Form 5) ................... sLCClowest21 _
Non-Depletable Energy w/Electric Resistance Back -Up
Percentage of Annual Heat Loss Met by Non-Depletable Energy
Source (from Calculations).:......... ................... 22 _
.................................................
Heat Pump
Percentage of Annual Heat Loss Met by Electric Resistance
(from Calculations)............................................................................................ -23—
PROPOSED
23_PROPOSED WATER HEATING SYSTEM INFORMATION (Chapter 8)
Electric Resistance Alone
Electric Resistance Life Cycle Cost (from Form 6) ................................. wLCCe 24 _
Lowest Life Cycle Cost of the Other Systems (from Form 6) ................... WLCCb,,s,,, 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
$
S
SITE INFORMATION Z J
l
Heating Degree Day (from Appendix C) ..........................................................
HDD
1 Z, �Z.
oF•day
Outside Design Temperature (from Appendix C or Appendix G) ......................
Tow
2 3
OF
PROPOSED BUILDING ENVELOPE INFORMATION
p
I Lqy `ft2
Gross Floor Area if Low -Rise (from Calculations) .........................
f
Gross Wall Area if High -Rise (from Calculations) .......................................:....
Aw
4
ft2
Designod Glazing Area (from Calculations) ............. .......
)
2
Basic Glazing Area (16%of Line 3 if low-rise or 40%of Line 4 if high-rise)........
Abg
6 Z Q -q
ft2
Description of Assembly
_
Glazing
Ugl
7
Btu/ (hr •ft2 •OF)
Ug2
8
Btu/ (hr .ft2 •OF)
���r7 \ ( �Qy
Ug3
9
��
Btu/ (hr •ft2 •OF)
Wall _
Uwl
10• •
Btu/ (hr•ft2•°F)
Uw2
11
Btu/ (hr •ft2 •OF)
U,3
12'
Btu/ (hr. ft2 •
°F)
Ceiling/Roof �``. `� 2.
Uw4
13
s �z )
Btu/ (hr• ft2.OF)
Ucl
14
Btu/ (hr.ft2 •OF)
Uc2
15
Btu/ Ihr.ft2 -"F)
Floor
Ufl
16
Btu/ (hr .ft2 •OF)
Uf2
17
Btu/ (hr •ft2 •°F)
PROPOSED SPACE HEATING SYSTEM (Chapter 7)
Gas Furnace
Z�
BuildingDesign Hourly Heat Loss (from Form 2) .....................................
qh
18
Btu/hr
Maximum Allowed Bonnet Capacity, 1.5 x Line 18 ...............................................
19
Btu/hr
Proposed Furnace
Make
Model Description
Rated Bonnet Capacity
Electric Resistance Alone
Electric Resistance Life Cycle Cost (from Form 5) .................................... sLCCe 20 —
Lowest Life Cycle Cost of the Other Systems (from Form 5) ................... sLCClowest21 _
Non-Depletable Energy w/Electric Resistance Back -Up
Percentage of Annual Heat Loss Met by Non-Depletable Energy
Source (from Calculations).:......... ................... 22 _
.................................................
Heat Pump
Percentage of Annual Heat Loss Met by Electric Resistance
(from Calculations)............................................................................................ -23—
PROPOSED
23_PROPOSED WATER HEATING SYSTEM INFORMATION (Chapter 8)
Electric Resistance Alone
Electric Resistance Life Cycle Cost (from Form 6) ................................. wLCCe 24 _
Lowest Life Cycle Cost of the Other Systems (from Form 6) ................... WLCCb,,s,,, 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
$
S
HOURLY AND ANNUAL Form 2R
BUILDING HEAT LOSS RATE., (8/81)
Check One: Proposed Design
Stadard Design
i�C_Tn .70 C-)
Enforcement Agency Use Only
owner orolect out Oing permit numoer
HOURLY HEAT LOSS
DESIGN TEMPERATURE DIFFERENCE
For All Assemblies Other Than The Three Below. ..70oF — of 0Th 1 1 of
Tow from aoove
For Insulated Floor Over Vented Unheated Space .......... Line 1 =2 -AThi 2 c� of
For Uninsulated Floor Over Vented Unheated Space. . . . . .. . Line 2 — 5oF 'AThu 3 °F
ForSlabon Ground Floors ... . ..... .. 7eF—of -OTha 4 ) of
Tian from above
CONDUCTIVE HEAT LOSS
Oescriotfon Qf Assembly
Glazing 1�,�. L... I Nr✓ _
Coiling/ Roof TN L=- 7 Q
A4,_ .
Floor
�S
Other
Average U
of Assembly.
Area, lit2 or or F2 from AT hourly Most
Length. ft Graph 4-1 fromm 'aoove (loss, C
1 \ X 7 X �YZ t3tu/hr
1 Z 3'j X. X3 7i Z"1
x X =
X X
3
x,d2Qi x= Zz
X x =
X x =
IZo31
volume
Subtotal
5 to/hr
I_ �CQL-4
...... � h2
prOlect Zcati�rl ^� t �s sys am tYPe
4 _ � Su)
Al from above Weignted
Average
Calling Heiqnt
cnecxea oy
aocumentatlon autnor
Oate
Subtotal
7 ? to/hr
line S• aline o
date
SITE INFORMATION
DUCT HEAT LOSS (Enter 0 if there are no ducts) . . . .
.. .. . . . . . . 0.15 x Line 7
HeatingDegreeDay (from Appendix) . .. ..... . .. ....
.. .. . . HOD
Z�G
F- day `
Outside Design Temperature (from Appendix) .. . ..
.. .. .. . Tow
of
Outside January Mean Temperature (from Appendix) ... ..
.. . . .. ... TJan
of
MOO Hourly Heat LOSS C from
PROPOSED BUILDING ENVELOPE INFORMATION
Gros Floor Area (from
frOm aoove TJole 3.8
Line 1
plans) .............. ........
.. Af_
ft2
Greta Well Area (from plans) :.................
........ . Aw
1 \Ak l0
ft2
Designed Glazing Area (from plans) . . ........ .. ....
... ... . A9
I <? \
ft2
Buie Glazing Area (16% of Af if low-rise or 40% of Aw if high-rise)
. . .. .. .A,
Z y
h2
HOURLY HEAT LOSS
DESIGN TEMPERATURE DIFFERENCE
For All Assemblies Other Than The Three Below. ..70oF — of 0Th 1 1 of
Tow from aoove
For Insulated Floor Over Vented Unheated Space .......... Line 1 =2 -AThi 2 c� of
For Uninsulated Floor Over Vented Unheated Space. . . . . .. . Line 2 — 5oF 'AThu 3 °F
ForSlabon Ground Floors ... . ..... .. 7eF—of -OTha 4 ) of
Tian from above
CONDUCTIVE HEAT LOSS
Oescriotfon Qf Assembly
Glazing 1�,�. L... I Nr✓ _
Coiling/ Roof TN L=- 7 Q
A4,_ .
Floor
�S
Other
Average U
of Assembly.
Area, lit2 or or F2 from AT hourly Most
Length. ft Graph 4-1 fromm 'aoove (loss, C
1 \ X 7 X �YZ t3tu/hr
1 Z 3'j X. X3 7i Z"1
x X =
X X
3
x,d2Qi x= Zz
X x =
X x =
IZo31
volume
Subtotal
5 to/hr
I_ �CQL-4
...... � h2
ft x:x1 `1 a .6
um o t e above CINFILTRATION
i
Al from above Weignted
Average
Calling Heiqnt
from I -IT, from
Taote 3-7
line 1
, 7
Subtotal
7 ? to/hr
line S• aline o
DUCT HEAT LOSS (Enter 0 if there are no ducts) . . . .
.. .. . . . . . . 0.15 x Line 7
Z�1 Z'�\
TOTAL HOURLY HEAT LASS, q�
9 to/hr
the ina
ANNUAL HEAT LOSS, OL.
I c
' 7' of day/yr X �' ? Btu/hr X 11�
X 24 hr/day { -OF
.�
101 �y V`• Btu/yr
MOO Hourly Heat LOSS C from
.' Tn from
frOm aoove TJole 3.8
Line 1
4_
Ic
Z g
r
.
t HEAT TRANSFER COEFFICIENT
PROPOSED CONSTRUCTION ASSEMBLY Form 1 m 1
List of Construction Components R
,.,gi+� Si�CL� • Id
2.
3.1 tui
8.
Sketch of Construction Assembly
WEIGHT: Ib/ft2
Inside Surface Air Film
Outside Surface Air Film
Check one: Total Resistance Rt
Wall
Roof U -Value
Y
Floor
cooling
heating
cooling
heating
�
r
cooling
heating
cooling
heating
List of Construction Components R
LP
3.
4. i 17. L� All 16
5 i .
6,
8.
Inside Surface Air Film
�7�Q
•v(z
coolin 9
heating
Sketch of Construction Assembly
'
WEIGHT: Ib/ft2
Outside Surface Air Film
,. _
t _
cooling,
heating
Check one:
Total Resistance Rt'
Wall
_+
cooling
heating
L .
Roof v
U Valu (Ijz4
Floor . _
cooling
heating'
BUILDING
CA Ir
N 710
DESIGN.AND EQUIPMENT SUMMARY
\\-c ' CZEs. is
Project title climate sone
project address
<) S/o •J
project owner
documentation author date
Form Z
page 1 of 2
plan ClleCk/permit nurnoer
Enforcement Agency Use Only
Comouanae method (prescriative or oerformanCe, dascrioe)
ON
BUILDING EHVF_LDm CESiCtH
Description of Item Dimension Points
7. Movable Insulation _: fta
8. Infiltration Control STS jpn rLgn,
9. Thermal Mass:. Type 1 �I 1 IJ`� h' 1 '� �$ \—�-p tl 7- r1 `�� ft -
Type 2 'I NC la-rc fe
Type 3 __K x MG fie
Type 4 _R —HL MG rt- + ! n
Type 5 _}4C _PKC ft,
Point Total This Page �® .
1/93 — 420 — CEC
284-66. (2/83)
l VMI
Ttai Floor Area
fts
_
'�A,
Fz
1.
Floor-
Slab Perimeter, Type 1
' s'—
n
Xr'VC
RaWi 1, Type 1 TY 1' C�1T 43F kl iC
PZ 7 T5
ft
e
Type 2� 17 i T, nC h
.1
ftl
1 �' $ 1 ���1.•/�Y�OV
1 `"1
Z
Ceiling:
Type 1
hs
Type 2
ft,
\
2 1 ) �.1 �J �J
�.
3
wall:
Type 1
ft,
Type 2
fts
4.
Glazing:
West, Type 1 l�� _
Uc�/o.1_
ft.
Type 2
North, Type 1 Y2 J �`- �� �.
%
-- % _
fta
ft.,
Type
East. Type I* 2 71�J�� L�� C•
J =7
fts
fiat
Type 2
'�•
ft'
South, Type 1' ►J i:1C�
•/,
fts
Type 2
9:
fts
Skylight. Type 1
C
fts
Type 2
Sc__.
fts
5.
Shading
Coefficient: West 1�1 a'-�.a.J��s� S
%
Sc
Z 1 North
'
(�?'.
Sc
Sc
East
South
y
Sc
6.
Horizontal South Overhang
Z-�
ft
7. Movable Insulation _: fta
8. Infiltration Control STS jpn rLgn,
9. Thermal Mass:. Type 1 �I 1 IJ`� h' 1 '� �$ \—�-p tl 7- r1 `�� ft -
Type 2 'I NC la-rc fe
Type 3 __K x MG fie
Type 4 _R —HL MG rt- + ! n
Type 5 _}4C _PKC ft,
Point Total This Page �® .
1/93 — 420 — CEC
284-66. (2/83)
SUMMARY ,
project title climate zone
Form 2'
page 2 of 2
project address
HEATING, VENTILATING, AIR CONDITIONING,SYSTEM Points
10. Heating (fill in information on proposed system)
Centra_ 1 Gas Furnace %
brand and model number SE
Btu/hr
nesting capacity
Heat Pump k-LZ'4 i ox �A? � to I;)) -% Z'S'1 ';:�
brand and model numoer ACOP
5b d l�C� Btu/hr
neating capacity at 47-F
Active Solar
type (liquid or air) collector brand and model number Solar fraction.
fta o
collector area collector orientation . collector tilt rated rated slope
y • Intercept
Other
describe
11. Cooling (fill in information on proposed system)
Electric Air Conditioner
brand and model number seasonal EER
Btu/hr
cooling capacity at g5 ic
Electric Heat Pump
Btu/hr
cooling capacity at gsQ F
Other
describe
12. Mechanical Ventilation
describe
DOMESTIC WATER SYSTEM
13. Heating (fill in information on proposed system)
ti o
Gas Only Gallons
brand and model numoer tank size
Heat Pump w/Electric Backup 1= ' lE C-%4 L- Z I OZ,v Gallons
brand and model numoer tank size
Active Solar
collector brand and model numoer - ated rated slope solar fraction
y - (ntereept
fta
pickup neater type, brand and model number collector area collector
orientation
Other.
l - describe
Point Total from Page 1
Total Point Score
1/83 • 420 • CEC
ANk
ENGINEERING DATA
HEAT PUMPS
HP16 SERIES MATCHED REMOTE
HEAT PUMP OUTDOOR UNITS SYSTEMS
*18,700 to 56,000 Btuh Cooling Capacity Page 11
July 1, 1.983
t *19,900 to 61,000 Btuh Heating Capacity Supersedes 9-1-82
• 'ARI Standard 240 Cartifed Ratings
CE�TEICIETOM �AEIESOMI ;
EM USED WITS s".
COMEOMflE,S AS us". IIStFO
APo m
•04 I„na
- Typical Applications
Reliability; Economy and Outstanding .Efficiency for Year
Round Operation are Featured in Line Of HP16 Series Heat Pumps
The Lennox HP16 series heat pump outdoor units consist of seven models
ranging from 1-1 /2 thru 5 tons. This family of energy efficient outdoor units
have SEER's of up to 9.8 with a cooling capacity range of 18,700 to 56,000
Btuh and COP ratings of up to 3.1 with heating capacities of 19,900 to 61,000
Btuh. A variety of matching up-flo, down-flo and horizontal blower powered
indoor units, with optional supplemental electric heat, provide selective sizing
and installation versatility. For complete data on indoor units see individual
bulletins. Several refrigerant line sets are available in various lengths, see
line kit table for selection. Line sets are optional and must be ordered extra.
The HP16 cabinet is heavy gauge galvanized steel with a durable baked -on
'enamel paint finish. Special paint process protects cabinet against all kinds
of weather. Design of cabinet with louvered inlet air panels and horizontal
air discharge protects fan, fan motor, compressor and other internal com-
ponents from the weather. Heavy duty base support channels elevate unit
above mounting surface. Dual outdoor coils provide extra large surface area
for highest heat transfer. Coils are protected by rugged steel guards.
Automatic defrost control system operates only when required. Compressor -
crankcase heater and heating -cooling thermostat with emergency heat sub-
base and warning lights are furnished as standard.
Outdoor units are test operated at the factory to insure proper operation
and are shipped ready for installation. Installer has only to locate unit and
make refrigerant line and electrical connections to complete installation.
NOTE — Specifications, Ratings and Dimensions subject to change without notice
(I.
0
N'
M`�
0
SELECTOR
Lennox
tARI Standard 240 Ratings
c
Lennox Indoor Unit Used
Outdoor Unit
M
High
Low
Total Unit Watts
SEER
EER
High
Low
Model No.
Cool.
Temp.
Temp.
:2 m
*ARI Std.
Cap.
Htg.
Htg.
Cooling
Btuh/
Btu/
Temp.
"HSPF
C.O.P.
Temp.
C.O.P.
Z
Up -Flo
Down -Flo
Horizontal
270 SRN (bels)
Btuh
Cap.
Cap.
Watt
Watt
Htg.
Htg.
d V
Btuh
Btuh
1 Phase
3 Phase
p
CPR12-26V
18,700
20,600
11,000
2140
9.30
----
2030
7.20
2.95
1604
2.00
31%
�CP`12-26V
HP16-211V
/E12Q2
/ES12Q2
(7.6)
CPS12-26V
19;100
19,900
11,000
2140
9.40
----
1955
7.20
3.00
1585
2.00
26%
----
/ES12Q2
CP12-26V
CPR12-26V
22,600
25,000
14,000
2630
9.00
----
2525
7.40
2.90
2060
2.00
24%
---- �
/E12Q2
/ES12Q2
HP16-261V
CPS12726V
23,400
25,600
14,500
2650
9.30
----
2475
7.30
3.00
2095
2.05
25%
----
(7.8)
/ES12Q2
CP12-31V
CPR12-31V----
24,400
26,000
14,000
2723
9.60
----
2478
7.50
3.10 '
2004
2.05
18%
/E12Q3
/ES12Q3
i
i
CP12-31 V
28,800
32,000
18,100
3400
9.10
----
3139
7.40
3.00
2599
2.05
22%
----
----
/E12Q3
CPR12-31V
CPS12-31V i
29,000
31,800
17,800
3380
9.10
----
3119
7.40
3.00
2579
2.05
22%
----
HP16-311V
/ES12Q3
/ES12Q3
(8.0)CP12-41V
30,200
32,200
18,200
3410
9.25
----
3035
7.50
3.10
2650
2.10
22%
----
____
/E12Q3
•
30,200
32,200
18,100
3445
9.10
3070
7.50
3.05
2549
2.05
22%
CPR12-41V
,
----
/ES1204
CPR12-41V
35,200
35,800
19,600
4115
9.10
8.60
3636
7.55
2.90
2928
1.95
23%
/ES12Q4
CPS12-41/46V
HPe
CPR12-46V
/ES12Q4
(Use SEE
SEEVR)
H P 16-413V
/E12Q4
CP12-41V
(Use EER)
(8 21
35,200
35,800
19,600
4053
9.30
8.70
3584
7.55
2.95
2875
2.00
23%
/E12Q3
CP12-46V----
35,000
36,000
19,800
4140
9.00
8.50
3661
7.60
2.90
2953
1.95
23%
----
/E12Q4
42,000
38,000
21,000
4347'
1 9.00
8.85
4250
6.70
2.60
3180
1.95
21%
•CH16-51FF
H P16-461 V
41,500
42,500
26,000
5048
8.70
8.20
4488'
7.60
2.75
3696
2.05
24%.
----
CPR12-46V
CPS12-41/46V
(Use SEER)
HP16-413V
/E12Q4
/ES1204
(Use EER)
(8.2)
41,500
42,500
26,200
5093
8.70
8.10
4533
7.60
2.75
3741
2.05
24%
CP12-46V----
----
/E12Q4
HP16-511V
46,500
49,500'29,500
5570
9.00
8.35
4363
8.05
"3.00
3835
2.30
22%
----
----
•CH16-51FF
(Use SEER)
HP16-513
45,500
50,000
30,200
5614
8.80
8.10
4939
7.85
2.95
3988
2.20
20%
CP12-51V
CPR12-51V
(Use EER)
/E12Q4
/E12Q4
(8.2)
46,500
49,500
29,800
5570
9.00
8.30
4872
8.05
3.00
3844
2.30
20%
----
----
CH16-65V
Hse SE 1V
(Use SEER)
55,500
59,500
34,400
6789
8.15
8.20
7.40
2.90
4715
2.15
22%
----
----
CH16-65V
H P16 -653V
E
(Use EER)
55,500
62,500
37,600.
7177
8.05
7.75
7.50
2.90
5032
2.20
23%
CP12-65V
CPR12-65V
(8.2) -
/E12Q5
/E12Q5
*sound Rating Number in accordance with ARI Standard 270.
tRated in accordance with ARI Standard 240 and DOE; At 450 cfm (maximum) indoor air volume per ton of cooling. capacity.
Cooling Ratings - 95°F outdoor air temperature and 80-F db/67°F wb entering indoor coil air.
High Temperature Heating Ratings - 47°F db/43°F wb outdoor air temperature and 70°F db entering indoor coil air.
Low Temperature Heating Ratings - 17°F db/15°F wb outdoor air temperature and 70°F db entering indoor coil air.
*Heating Seasonal Performance Factor.
-Requires field installed check and Expansion Valve Kit (1-13-347928D). Must be ordered extra.
- 13 -
SPECIFICATIONS
Model No.
HP16-211V
HP16-261V
HP16-311V
HP16-411V
HP16-413V
HP16-461V
HP16-463V
HP16-511V
HP16-513V
HP16-651V
HP16-653V
Net face area (sq. ft.)
6.67
6.67
8.00
10.11
10.11
12.9
12.9
Outdoor Tube diam. (in.)
3/8
3/8
3/8
3/8
3/8
3/8
i Outdoor Coil
'
'
Coil No. of rows3
0.70 1.3
3
3
3
Fan Motor
Locked rotor amps
3/8
Fins per inch
15
15
15
15
3
15
3
4
Diameter (in.)
18
20
20
22
24
1 15
15
No. of blades
4
4
4
24
24
Outdoor Motor hp
1/10
1/5
1/5
4
1/4
4
1/3
4
1/3
4
Fan Cfm (factory setting)
1750
2400
2900
3100
3800
3600
1/3
Rpm (factory setting)
1085
1115
1040
830
830
840
3800
Watts (factory setting)
135
205
305
285
395
370
810
Refrigerant -22 (charge furnished)
7 lbs. 14 oz.
8 lbs. 7 oz.
9 lbs. 4 oz.
11 lbs. 0 oz.
12 lbs. 4 oz.
14 lbs. 4 oz.
425
19 lbs. 8 oz.
Liquid line connection (sweat)
3/8
3/8
3/8
3/8
3/8
Vapor line connection (sweat)
5/8
1 5/8
3/4
3/4
3/8
1/2
Shipping weight (lbs.)
245
250
275 i
7/8
7/8
1-1/8
Number of packages
1
322
333
403
411
1
1
1
1
1
1
ELECTRICAL
DATA
Model Number
HP16-211V HP16-261V
HP16-311V
HP16-411V
HP16-413V
Line voltage data
208/230V 208/230V
208/230V
208/230V
208/230V
Rated load amps
60hz/1ph. 60hz/1ph.
9.7 11.5
60hz/tph.
14.7
60hz/tph.
17.9
60hz/3ph
12.5
Compressor
Power factor
.95 .96
.95
.94
,89
Locked rotor amps 48.0 54.0 65.0 83.5
66.0
i Outdoor Coil
'
'
Full load amps
0.70 1.3
1.5
2.0
2.0
Fan Motor
Locked rotor amps
1.0 3.5
3.5
4.0
4.0
ec.maximum fuse or circuit breaker size (amps)
i*Minimum
20 25
30
40
30
circuit ampacity
'Refer
12.8 15.7
19.8
24.4
17.6
to National Electrical Code manual to determine wire, fuse and disconnect size requirements.
VOTE - Extremes of operating range are plus 10% and minus 5% of line voltage.
ELECTRICAL DATA
Model Number
HP16-461V HP16-463V HP16-511V HP16-513V
HP16-651V
HP16-6531
Line voltage data
208/230V 208/230V 208/230V 208/230V
208/230V
208/230V
60hz/lph. 60hz/3ph 60hz/1ph 60hz/3ph
60hz/1ph
60hz/3ph
Compressor
Outdoor Coil
Fan Motor
Rec.maximum fuse
Rated load amps
21.5 13.7 25.6
15.9
28.0
19.0
Power factor .96 .88 .96 .90 .97'
.90
Locked rotor amps 95.4 82.0 116.0 92.0 142.0
Full load amps 2.5 2.5 2.5 2.5 2.5
107.0
2.5
Locked rotor amps 5.5 5.5 5.5 5.5 5.5
or circuit breaker size (amps) 50 30 60 35 60
5.5
45
'Minimum circuit ampacity
29.4 19.6 34.5
22.4
37.5
26.3
Refer to National Electrical Code manual to determine wire, fuse and disconnect size requirements.
:3 -TE - Extreme's of operat;ng range are plus 10% and minus 5% of line voltage.
FIELD WIRING
LENNOX
i
r-------� B r------------
:DISCONNECT;
IDISCONNECTI i
LENNOX I
THERMOSTAT
I SWITCH ,
I SWITCH
OPTIONAL
(furnished)
:(BY OTHERS)
j (BY OTHERS)
AUXILIARY
`--
,
---�-------�
I i
ELECTRIC
HEATER UNIT i
A
I OPTIONALID
OUTDOOR
ITHERMOSTATL-----�F
r ---;N --1
OUTDOOR �DISCONNECTI C
SWITCH
UNIT (BY OTHERS),
------LENNOX
( INDOOR UNIT
- 14 -
A - Two or Three wire power (see Electrical Table)
B - Two or Three wire power (size to heater capacity)
C - Two wire power (size to indoor coil blower motor)
D - Two wire low voltage (18 ga. minimum)
E - Eight wire low voltage (18 ga. minimum) with Electric Heat
- Ten wire low voltage with Optional Outdoor Thermostat
F - Four wire low voltage (18 ga. minimum)
IS - Three Wire low voltage (18 ga. minimum)
- Field wiring not furnished -
NOTE - All wiring to conform to NEC and local electrical codes.
RATINGS
NOTE - To determine Sensible Capacity, Leaving Wet Bulb and Dry Bulb temperatures not shown
in the cooling table see Miscellaneous Engineering Data section, Page 9.
HP16-511V-513V COOLING CAPACITY WITH CP12-51V OR CPR12-51V INDOOR COIL UNIT
Enter.
Wet
Bulb
(OF)
Total85
Air
Vol.
(cfm)
Air Temperature Entering Outdoor Coil (°F)
Outdoor Air Temperature
Entering Outdoor Coil (°F)
-15
95
1 105
115
Total
Cool
Cap.
(Btuh)
Comp.
Motor
Watts
InputInput
Sensible
To Total
Ratio (S/T)
Total
Cool
Ca
(Btuh)
Comp.
Motor
Wet Was
In put
P
Sensible
To Total
Ratio (S/T)
Total
Cool
Ca p'
(Btuh)
Comp.
Motor
Watts
Input
Sensible
To Total
Ratio (S/T)
Total
Cool
Cap.
(Btuh)
Sensible
Comp.
To Total
Motor
Watts Ratio (S/T)
Dry Bulb (°F)
Input 76 80 1 84
D Bulb (°F)
D Bulb (°F)
76 g0 84
Dry Bulb (°F)
76 80
76 80 84
63,400
1600
46,900
4050
.80 .92 1.00
44,300
4380
.82 .95 1.00
41,700
4690
.84 .98 1.00
38,900
4960 .88 1.00 1.00
63
1800
47,900
1 4080
.83 .96 1.00
45,400
4420
.85 .99 1.00
42,600•
4740
.88 1.00 1.00
140,100
5030 .92 1.00 1.00
2.21100
2000
48,600-14110
19,500
.86 1.00 1.00
46,300
4460
.89 1.00 1.00
43,800
4800
.92 1.00 1.00
41,200
5090 .96 1.00 1.00
1600
50,000
4160
.62 .74 .85
47,200
4500
.63 .76 .88
44,200
4820
.65 .78 .91
41,200
5090 .67 .81 .95
67
1800
50,900
4180
.64 .77 .90
.66 .79 .93
44,900
4850
.68 .82 .96
41,800
5120 .70 .86 1.00
2000
51,500
4210
.66 .80 .94
.68 .83 .97
45,400
4880
.70 .86 1.00
42,300
5150 .73 .90 1.00
16000534042(70
.46 .57 .68
150,4F0O4630
.47 .59 .70
47,200
4960
.47 .60 .73
44,000
5240.48 .62 .76
71
1800
430
.47 .59 .72
.48 .61 .74
47,900
4990
.49 .63 .76
44,5005270
.50 .65 .80
NOTE- All
20004320
vah-
- --ra..ar,r,e�
.48 .61 .75
�..a ,i.. ..... .�-,..J�
.-�---
_-, �,_. _
.49 .63 .77
48,400
5010
.50 .65 .80
44,900
5300 .51 .67 .84
HP16-511V-513V HEAT PUMP OUTDOOR UNIT HEATING CAPACITY
Indoor
Urit
Model
No.
Indoor Coil
Air Volume
(cfm)
70F db
Air Temperature Entering Outdoor Coil (°F)
65 45 25
5
-15
Total
Heating-
Capacity
(Btuh)
Comp. Total Comp. Total
Motor Heating Motor Heating
Watts Capacity Watts Capacity
Input (Btuh) Input (Btuh)
Comp.
Motor
Watts
Input
Total
Heating
Capacity
(Btuh)
Comp.
Motor
Watts
Input
Total
Heating
Capacity
(Btuh)
Comp.
Motor
Watts
Input
CP12-51V
1600
62,400
4755 47,400 3860 33,300
3075
24,100
2605
13,500
1940
CPR12-51V
1800
63,400
14640 48,000 3790 33,700
3060
24,400
2590
13,700
1930
NOTE- Hpatinn
2000
.
64,300
ecr..... s as___.
4540 48,500 3735 34,200
-'.-,-- :- -`_ -___ -- -.
3050
24,800
2580
13,900
1920
J
- ---- -�---- ......_ ................... •...pyo ..,,�,� u,�r uwur.
HP16-511V-513V HEATING PERFORMANCE
at 1800 cfm Indoor Coil Air Volume
(CP12-51V & CPR12-51V)
'Outdoor
Temperature
(Degree F)
Compressor
Motor Watts
Input
Total
Output
(Btuh)
65
4640
63,400
60
4425
59,700
55
4218
56,000
50
4000
52,000
47.
3880
49,700
45
3790
48,000
40
3580
44,000
35
3380
39,900
30
3185
36,000
25
3060
33,700
20
2935
31,400
17
2860
30,000
15
2780
28,800
10
2720
26,800
5
2590
24,400
0
2460
2.21100
-5
2300
19,500
.10
2115
16,700
-15
1930
13,700
-20
1825
10,500
__....,... ....... � ,,, , ,.,, �.. ,�„�,.. ".„..... nnur icmperanve at /Ll-. -
%%%�%�%%�%� � E12 SERUSP F OLEC�TORIC WN FUO NACES-
L�L�L�L�/L�V 13,000 to 102,400 Btuh Electric Heating Capacity
Add -On Cooling —1-112 thru 5 Nominal Tons
• Several Sizes Available
• Attractive Cabinet
• Complete Service Access
• Baked -On Paint Finish r
s °9.
• Direct Drive Blower U . m L
• Large Air Filter
• Factory Installed Controls
• Durable Electric Heat Elements
• Circuit Breakers
• Optional Additive Coils For
Cooling & Heat Pump Applications
Versatile Electric Furnaces Feature Maximum Efficiency,
Application Flexibility and Operational Dependability.
The Lennox E12 model electric furnaces have been designed for up -
floor down-flo installation in a recreation or family room, basement,
utility room, alcove or closet. Versatile units are applicable to heat-
ing only, heating -cooling or heat pump applications. Several models
and sizes are available with a wide range of heating capacities.
The field additive optional "slide -in" coil, C12 up-flo and CR12
down-flo, installs internal to the cabinet (up stream from the electric
heat elements) and is specially matched to the unit for efficient air
delivery and maximum capacity. Up-flo or down-flo air pattern is
easily obtained by rotating the cabinet to the desired position and
inserting the corresponding coil. For up-flo applications return air
cabinets are available for installation on either side of the furnace.
The E12 and matching return air (up-flo) cabinets are trim and
attractive looking with a durable electro -bonded automobile like
paint finish. Complete front service access is provided in cabinet.
Quiet operating direct drive blowers have sufficient capacity to
handle cooling and heat pump air volume requirements. Motors are
variable speed and resiliently mounted. Efficient hammock style
fiberglass air filters do not have to be relocated to satisfy any of the
return air options. Nichrome heating elements give long service life
and efficient heating operation. Factory installed circuit breakers are
accessible external to the cabinet and eliminates the need for an
external disconnect in many areas. Thermostat is optional and must
be ordered extra.
Units have been rated and tested according to Department of
Energy (D.O.E.) test procedures and Federal Trade Commission
(F.T.C.) labeling regulations in the Lennox Research Laboratory.
Furnaces are U.L. Listed. In addition, units and components within
are bonded for grounding to meet safety standards for servicing
required by U.L. and N.E.C. Blower performance data is from unit
tests conducted in the Lennox Laboratory air test chamber.
Each unit is test operated at the factory and shipped assembled
(except for DX coil) with all controls mounted and prewired. Installer
has only to mount thermostat, make duct and electrical connections.
ENGINEERING DATA
HEATING UNITS
ELECTRIC
Page 1
April 1, 1980
Supersedes 10-15-79
h
<ai
:t
Up -Flo
anal
field installed up-flo coil)
Typical Applications
NOTE —Specifications, Ratings and Dimensions subject to change without nollice.
Up -110 Installation
!nstallation
rn air c
Down-flo Installation
SPECIFICATIONS
ELECTRIC HEAT RATINGS
Model Number
E12Q2-05
E12Q3-10
E12Q4-15
E121125-15
Model No.
E12Q2=10
E12Q3-15
E12Q4-20
E12Q5-20
45,000
E12Q2-15
E1203-20
E12Q4-25
E12Q5-25
El -2Q3-15
46,000
100%
E12Q3-20
E1205-30
Blower wheel nominal diam. x width (in.)
10 x 7
10 x 8
10 x 8
12 x 12
Blower motor hp
114
113
112
3/4
Net free filter area (sq. ft.)
5.3
6.3
7.8
8.7
Filter cut size (in.)
30 x 26 x 1
40 x 26 x 1
44 x 26 x 1'
50 x 26 x 1
Tons of cooling that can be added
1-1/2 or 2
2-1/2 or 3
3, 3-1/2 or 4
4 or 5
Shipping weight (lbs.)
121
131
158
199
Number of packages in shipment
1
1
1
1
Electrical characteristics
208-240v/60hz/1 phase
tOptional Return Air
Model No.
RA10-16-49
RA10-16-53
Cabinet (Up -Flo only)
Shipping weight (lbs.)
'54
56
tOptional Additive Coils Up -Flo,
C12-420
C12-525, CP12-630
C12-630
C12-840, C12-1120
Model No. Down -Flo
CR12-420
CR12-525, CR12-63ON
C812-630
CR12-840, CR12-1120
tDown-Flo Additive Base (Optional)
YMuet hn n.,4—A
LB-34695BA
I R-34695RB
LB-34695BC
LB-34695BD
ELECTRIC HEAT RATINGS
Model Number
tOut ut Btuh
tA.F.U.E.
E12Q2-05
16,000.
100%
E12Q2-10
30,000
100%
E12Q2-15
45,000
100%
E120-10
31,000
100%
El -2Q3-15
46,000
100%
E12Q3-20
61,000
100%
E12Q4-15
46,000
100%
E12Q4-20
61,000
100%
E12Q4-25
76,000
100%
E12Q5-15
47,000
100% _
E12105-20
61,000
100%
E12125-25
76,000
100%
E12Q5-30
91,000
100%
i mmiuei rues uuozatuon trrlclency oasea on U.U.E. test procedures and ac-
cording to F.T.C. labeling regulations.
DIMENSION (inches)
FIELD WIRING RETURN. AIR CABINET (For Up -Flo Models)
LENNOX
THERMOSTAT
(not furnished)
it Model No. 'RA10-16-49 I RA10-16-53
17•14 _ A 53
14 RETURN AIR
OPENING BH.19
4 16'
LENNOX A
zs•tra
ELECTRIC
FURNACE
B l]
OPTIONAL
OUTDOOR
THERMOSTAT
A
r-
A—Two wire power for each circuit required. (not furnished)
See Electrical Data table. 22-1/8
1 a RETURN AIR
B —Two wire low voltage (not furnished) — 18 ga. minimum. I KNOCKOUT
t–
(both sides)
NOTE —All wiring must conform to NEC and local electrical codes.
L— --- —J
NOTE — Return air cabinet shipped knocked
down and must he fiuhl assomhhtd.
F,
1-1/16
1-1116
17-718 ELECTRIC
INLET
C SUPPLY AIR
OPENING
♦1-1116
26-118
I ELECTRICAL
ELECTRIC
L1NLETS
—1 (Bth Sides)
DIMENSIONS (inches)
UP-FLO MODELS
B�
I �
I BLOWER BLOWER �
1 ( I I I
:SUCTION (Vap
` . A LIQUID LINE
'J
*Bottom Return Air Knockout
OPTIONAL �
C12 COIL
aid Installed)' H
FILTER ; /t
7-c J
CONDENSATE
DRAIN KNOCKOUT
U. L. INSTALLATION CLEARANCES
Cabinet
0 inch
Plenum and Outlet duct
on blower/coil units
0 inch
22 —d2
cap
Yd
j D RETURN AIR
I OPENING i
(Both Sides)
•Combustible
53
53
2.318
16-114
2 I
26-1/4
•22
C
F
*Bottom Return Air Knockout
OPTIONAL �
C12 COIL
aid Installed)' H
FILTER ; /t
7-c J
CONDENSATE
DRAIN KNOCKOUT
U. L. INSTALLATION CLEARANCES
Cabinet
0 inch
Plenum and Outlet duct
on blower/coil units
0 inch
Plenum and warm air
duct within 3 ft. of cabinet
1 inch
Floor
•Combustible
vvnen urns is mstauea in the Gown-tlo position with electric heat
on a combustible floor the optional down-flo base is required.
Model
E12Q2-05
E12Q2-10
E72422-15
E12123-10
E12Q3-15E72Q4-20
E12Q3-20
E12Q4-15
E1204-25
E12Q5-15
E112125-20No.
E72125-25
E12Q5-30
A
49
49
53
53
B
16-114
21-114
26-1/4
31-114
C
14-118
19-118
24-118.
29-118
D
14
14
18
18
E
11
14
21
26
F
2-518
3-5/8
2-518
2-5/8
G
5-112
7
10-1/2
13
H
21-118
21-118
24-11116
22
J
7-1/4
9-718
10-318
14
K
2
2-3116
4-314
4-314
DOWN-FLO MODELS
Model
No.
E12Q2-05
E12Q2-10
E12112-15
E12123-10
E12Q3-15
E12123-20
E12Q4-15
E12Q4-20
E72124-25
E12Q5-15
E12Q5-20
E12125-25
E12Q5-30
A
49
49
53
53
B
16-114
21-114
26-114
31-114
C
14-118
19-118
24-118
29-1/8
D
11
14
21
26
E
2-518
3-5/8
2-518
2-518
F
20
20
23-13116
18-118
G
.7
9-114
11-1/4
12-112
H
2
2-3/16
4-314
4-314
J
21-112
21-1/2
23-11/16
22-3/16
K
1 2-114
2-114
2-112
2 112
L
I 4-718
4-718
5-1/8
5 118
NOTE —When installing unit on a combustible floor an
additive base is required. Make opening in the floor
15-5/8 in. x 20-118 in. for LB-34695BA base (E12Q2
series) -21-3/8 in. x 20-118 in. for LB-34695BB base
(E12Q3 series) — 26-318 in. x 20-118 in. for LB -346956C
base (E1204 series) —.31.318 in. x 20-118 in. for LB-
34695BD base .(E1205 series).
E
i 2
22 —�
' D RETURN AIR
KNOCKOUT I
E
18
ice--- 26-118 � -0 g
• FILTER p T
OPTIONAL ` F
J CR12 COIL
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A i✓✓✓i i LIQUID tt t�
LINE4-9 �N
a
718
K - L H - IG
\� CONDENSATE :SUCTION (Vapor)
IE
DRAIN LINE
;BL0ELECTRICAL
INLETS I BLOWER I
(Both Sides)
7--E--- r___ --1------L-
IC
HEAT � ()
ELL
EMENTS
I�
17-718—►{ 1.111 II C 1.1118
.- 'Bottom Supply Air O_p{eFniing.g.—
TM
WATER HEATER
(INTEGRAL TANK MODEL)
General Description
The E -Tech Water Heater is a non -reversing (heating only)
air -to -water heat pump (WHHP). It is used instead of'a
regular water heater in order to save energy. It operates on the
heat pump principle; i.e., a compressor operating in a non-
reversing refrigeration circuit extracting heat from the air and
expelling it through the condenser to the water.
The unit is designed for new construction, replacement, or
wherever a suitable electric orgas water heater is not currently
in place. The heat pump is shipped attached, plumbed and
wired to an 82 -gallon electric water heater tank.
The heat pump section contains a compressor, air -to -
refrigerant evaporator coil, air fan, water circulating pump,
refrigerant -to -water condenser coil, expansion device, and
controls. Air is forced over the evaporator coil by the fan,
while water is circulated from the bottom of the hot water
storage tank through the condenser coil, and returned to the
tank by the circulating pump.
E -Tech Water Heaters have been thoroughly tested by utili-
ties, government agencies and independent laboratories. All
ratings and specifications are in accordance with standards
proposed by the Air Conditioning and Refrigeration Institute
or the Gas Appliance Manufacturers Association.
Installation and Operation
The Model R 102 Water Heater is designed to be installed as
easily as a standard electric water heater: hot and cold lines are
soldered to the stubs on the heat pump and a 25 amp, 230 volt
power supply is connected. The only additional steps required
are purging air from the heat pump water lines and running a
condensate line to a suitable drain.
"he heat hump must be protected against freezing and
temperatures greater than 95'-115"F.* This will normally
exclude attic installations. The WHHP ma_v be installed in
unconditioned, freeze -protected space' or in conditioned
space. The space cooling effect of the WHHP may have some
impact on the heating and cooling requirements of the condi-
tioned space. The minimum size closed space for installation is
750 cubic feet; less space is required if air now is permitted.
such as with louvered doors. In logy temperature situations
(from 45°-50° F depending on relative humidity and inlet
water temperature) the heat pump will automatically shut off
and the resistance element in the tank will be actiyatcd. In
addition, there is a three -position switch to select the normal
heat pump mode. resistance heating only mode. orsystcm off.
The R102 Water Heater is designed such that if the heat
pump must he removed for service. the tank and hou>chold
plumbing mai• be left undisturhed. Placing the scicctors\\ itch
on "resistance heating" insures watcr heating during the scr-
vice period.
MODEL R102
Specifications
OUTPUT: Rated 12,100 BTU/hr (3.5 kw)**
ENERGY FACTOR:
2.53 (COP) adjusted in accordance with the GAMA
standard when heat trap is used on connecting Ovate-
lines.
RECOVERY: IN gallons per hourat 135° F tank temperature**
25 -allons per hour at I I5° F" tank temperature**
COOLING & DEHUMIDIFICATION:
7900 BTU hr and 1.6 pints hr**
WEIGHT: 3201bs.
TANK CAPACITY: 82 Gallons.
WATER TEMPERATURE: Maximum - 140° F(60°C)**.
ELECTRICAL SPECIFICATIONS:
230 VAC @ 60 Hz
tilaxinl um Amperage: 18 amps with resistance elements
@ 230 VAC. 25 amp fuses or circuit breakers required.
OPERATING "rL:j-wFR., rtjRt-s:
400-500 1 (7°-10° C') Minimum air inlet depending on
rclatkc humidity and inlet water temp.
*95'-115° 1= (35°-d6°(") Maximum air inlet
depending on Outlet eater the setting.
rating point 75* F Dh 63*F Wli
. Applied Research Laboratories Listed
3570 American Drive. Allania. Georoio 10341 • I -IO -II 458-6644