County of Riv Env Health Permit4,
V; If .i
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0
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7
I S-6
COUNTY OF RIVERSIDE, ENVIRONMENTAL HEALTH SERVICES DIVISION
PERMIT APPLICATION FOR A SUBSURFACE 7 7 Y 5.3
SEWAGE DISPOSAL SYSTEM
Applicant: Submit this form with four.copies of a scaled plot plan (1-20 scale) drawn to County specifications required on the attached check list.
A non-refundable filing fee of $37 is required when the application is submitted. Check must be made payable to the County of Riverside.
Building Department Application Log.#
Name (Owner, Agent, Contractor, Etc.)
6,
Mailing Address
City
State
ele
Zip Code
Telephone
Property Address
_'Cit y or — Community.
'Legal at Description of Property. (Lot, PM, TR)
*Assessor's Parcel No. waterAgency qr*Wqll,
• - - . 't
#I J"L6i'STzg
Use of Par panning Case #
Few
77��l
. ,.
4.v 1.
MH Site Preparation Etc.
Signature of Applicant t Date
*The above information must be verified from Building Application
STAFF US9'`'L DO NOT WRITE BELOW THIS LINE
Initial Date
Certification of Existing S.D. System required. ❑ Yes
WQCB Clearance required. --,E,Yes 0No,.-'
Soils feasibility report required. Yes
L N 0
Detailed boring report required. El Yes E2"
Detailed contour plot plans required: El Yes N6
Staff Specialist approval required. El Yes.t. Lot Inspection Date
Soils/boring report by Project # Date
SoilsMap Page_L/_�/ qSoil Type Approved by Date ---14- P
Type of System:
No. of Bedrooms
(1) Septic Tank
Soil Rate Required
0 Existing C91-N`ew El Additional 0 Replacement
�3 or0-;X--
.
Gals.
,I
411,oll
(2) Leach line sq. ft.
Sidewall allowance r -
-
Installs" _ Line(s)—Ft. Long,
Leac/hf bed 'Sq.
��bottom____
(Bottom—trench area)
-ft. rock/—. Sq. Ft .%.
—.Ft. wide_Qlh1min-�_1,.1 inches
Ft.
per running ft. * Ca
rock �elow drain lines
area
Leach lines/bed-special design for slope:
(3) Pit DiSmeter
No. Pits
Pit BI
Seepage Pit total depth
Applicable
N/A _-1,e.�_ Overburden facto
921CS,
Max. allowable depth
This apptipation is1dpproveq/Aenj ied4or the design of a subsurface disposal system as indicated on the accompanied plot plan using the requirements
set forth in Section * -B- above. A building permit is necessary for the installation of the above -designed system
Septic tank and sewer lines must b OVfrom any wells
61�
/area
(2) Leach lines must be 100' min. from any wells including expansion
(3) 'seepage pits must be 150' min. from any wells including expansion area-./ to
X
Signature of Health Official Date
7
I S-6
RECEIPT NO.
Issued by
Date
District: 0 Riverside r 941-ndio
El Hemet
0 Perris El Rancho Calif.
E] Blythe
Distribution: WHITE—Office file
YELLOW—Applicant PINK—Bldg. Dept",
GOLDENROD— Pending File
DOH -SAN -122 (Rev. 6/86)
Dear Developeyr/Landscaper
GfiICULTURlL_ Co:,i'•115SiQ �� (�
AOSO LE'•1G, STPEET. R00:•1 1� CCS 1ai;5ip;,,r.
IVERS117E. CALIFORNI;\ 9,p 1 1•+'-'.::S 0. 1v;1LLACE
(714) 702561 cov;H,ss;o.%c4
46-209 Oasis Street, F�.oom 14
Indio, CA .92201
(619) 342-8291
-9..
Thank you for. inquiring with the Agricultural Commissioner'
local quarantine laws, s Office regarding
Any diseases or insects associated with the plants/landscaping material presented
on your' landscaping plans do not pose a threat to the Coachella Valley Citrus, .
Date, Crape, Vegetable, or Field Crop industry, We therefore approve your
landscaping plans..
If however, any substitutions of plants/landscaping materials within your pi
occurs between now and the actual planting date, you must contact this office
uithin 48 hours before delivery into the Coachella Valley. Also, the substituted
plants/landscaping material' must be'held for inspection upon arrival. Any sub-
stituted landscaping raterial found-infected/infested with quarantine pests will
be immediately treated or shipped out of the Coachella Valley at the discretion
of the Agricultural Commissioner's Office-
Under
ffice_
U der penalty of,perjury, I.the undersigned will comply with the above,
Authorized !gent:
Date �r.— 7
Sigr.atur�C--
Fermit Number(s) g7A e7,
3 S' Y 3 a s
Dei eloper ress �/• 2
a, titi ��•
/:GRICULTURAL CO?":ISSIC1;=3,'' S AP? OVAL
Date q- 3 -Ft7
Authority cite : llgricultural Code; Sections 6301, 6461, 6462, 6464, 6501, 6521-
'6524
Cc: 2 Plan Check, Indio Office, Riverside Office
r DeSands Unified School District
7
' • CERTIFICATION OF PAYMENT
,OF
SCHOOL FACILITY:-FEES
City
Q DATE:
•; T0: Cit of La. Uinta ,.
Department of Community Development- '
-78-105 Calle Estado
La Quinta, CA 92253
This is to certify-that
developer of J which is '
located at — _ .Within
this District, has•paid school facillfty Yees impose pursuant to the
authori� generated by Governme t Cod Section 3 8 'ink a amount of
$ p ,e_-I�
co eying a total of f 2.2 Q square feA o (` residential or
( ) industrial/commercial development and that building permits for
.this footage in this development may now be' issued by your jurisdiction. I
for DESERT SA14DS•UNIFIED SCHOOL DISTRICT
White Building. Department • Yellow - Facilities Planning • Pink - Accounting • Gold - Developer
(10)-37 "
PROJECT DATA SUMMARY Form 1
owner
project checked by,
system type date
documentation author. date
SITE; INFORMATION
Btu/ (hr .ft2 •OF)
�� `\'�"' ��V tL
°F•day
Heating Degree Day (from Appendix C) ... .................... _.................................
HDD
11.
OF
Outside Design Temperature (from Appendix C or Appendix. G) ............. .........
Tow
2
,
Lim Uwl
PROPOSED BUILDING ENVELOPE INFORMATION
Uw2
15
2
ft.
Gross Floor Area if Low -Rise (from Calculations) ...........................................::
At
3
3 Ucl'
Gross Wall Area if.High-Rise (from Calculations) ............................................
Aw.
4
ft2
Designed Glazing Area (from Calculations) ....•
Ay
5
ft2
Basic Glazing Area (16%of Line 3 if low-rise or 40%of Line4 if high-risel........
Abg
6
ft2
• Description of Assembly
Btu/ (hr .ft2 •OF)
�� `\'�"' ��V tL
Ugl
Glazing:
Btu/ (hr•ft2•OF)
11.
Ug2
12
Btu/ (hr •ft2 •°F)
Wall SYJC \ \ t J 2 1
Lim Uwl
14 0 Z? )
Uw2
15
Uw3
16
Uw4.
Ceiling/Roof ��T v
3 Ucl'
Electric Resistance Life Cycle Cost (from Form 5) .....................................
sLCCe
Floor
Lill
Lowest Life Cycle Cost of the Other Systems (from Form 5) ...................
U12
PROPOSED SPACE HEATING SYSTEM (Chapter 7)
Gas Furnace
Building Design Hourly Heat Loss (from Form 2) ....•.•..•..........•............•••• Qh 18' Btu/hr
Maximum Allowed -Bonnet Capacity, 1.5 x Line 18 ............................................... 19 3, �Oyr Btu/hr
7 Btu/ *(hr • ft2 • °F
8
Btu/ (hr .ft2 •OF)
9
Btu/ (hr •ft2 •OF) .
10 •0
Btu/ (hr•ft2•OF)
11.
Btu/ (hr• ft2-. OF)
12
Btu/ (hr •ft2 •°F)
13
Btu/ (hr•ft2 •°F)
14 0 Z? )
Btu/(hr•ft2•°F)
15
Btu/ (hr•ft2•'F)
16
Btu/ (hr •ft2 •OF)
17
Btu/ (hr• ft2 •°F)
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) ...................
sLCClOm,21
$
Non•Oepletable Energy w/Electric Resistance Back -Up '
Percentage of Annual Hear Loss Met by Non-Depletable Energy
Source (from Calculations) ................................................ . .....................
..........
22
%
Heat Pump with Electric Resistance Supplementary Heat
Percentage of Annual Hear Loss Met by Electric Resistance
(from Calculations) .........................................................................:..................
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) ...................
wLCCIb,,et 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) ................ :......................... c... _.......
pLCCng
27
$
i
HOURLY AND ANNUAL Form 2 R
BUILDING HEAT LOSS RATE (ela!)
Chedc One: Proposed Design
Standard Design
1=nforcement Agency use Only
•��.MIL—Y
owner _ Project Miami Permit number .
Prate tion aye em type. Ufeckoo by
bocumentatlon author date - - date
j •:
SITE INFORMATION
0
Heating Degree Day (from Appendix) .... HOD Z F`day.
Outside Destign Temperature (from Appendix) ....... ....... . Taw.. 3 �F
o
Outside January Mean Temperature(from Appendix) .. .... .. ... T jan' F' '
PROPOSED BUILDING ENVELOPE INFORMATION,
Gross Floor Ares (from plans) ............................ Af.:
Gros Wad Area If►om plan:) ........... AW
'J
Designed Glazing Area (from plans) .............. Ag:
ft2
Basic Glazing Area (16% of A f if low rise or 40% of Aw if high-rise) .. .Abg
HOURLY HEAT LOSS
DESIGN TEMPERATURE DIFFERENCE'
OF ATh F.
For All Assemblies Other Than The Three Below ...70°F — • 1
Tow
Tow from above �ny--
°F
For Insulated Floor Over Vented Unheated Space .......... Line 1 =2 ATM 2
For Uninsulated Floor Over Vented. Unheated Space.... Lina 2'- eF' -&Thu 3 °F
For Slab an Ground. Floor- ... ... TO°F'—• °F' -&Tb 4-
Tian from above
CONDUCTIVE HEAT LOSSAverage U
- 2 of Anomaly. PIT
Area, It or or F2 from [r
hourly heat,
Oescriotlan.of Assembly Length. ft Graph 4-1 from above
�V �� �� �� 1 X X 2 a
l ►lost, Q.
') �Z- Btu/hr
Glazing . ,— _
X X
X _
ZO
wall
X X
--
Vii. X
Caiiing/Roof \ X
Q. WAL..\ X x
Floor. X X a
5to
Other MS 1 T�1 X
. volume Subtotal. S.
to/hr .
Min O t e aoow a
\� �Z Z •� \ 3 1 of x 6
INFILTRATION. .... ft2 x ft X X
' Al from aoow- weignteb from Th from
Average Table 3.7 une 1'
Calling-Heignt .
Subtotal 7'
In • une o to/hr
DUCT HEAT LOSS (Enter 0 if there are no ducts) ................. 0.15 x Line 7 8
Z
TOTAL HOURLY HEAT LOSS, qk 9
atulhr
she 7 line
ANNUAL HEAT LOSS, OL
?
Z1J, ?�
° Z6��2 \ J �` °F 10
F day/yr X Btu/hr X ' X 24 hr/day
Btu/yr
MOO Hourly Meat Loss C from, Tn from
from above from Line 9 Table 3-8 Line 1
17
HEAT TRANSFER COEFFICIENT
form 3
PROPOSED CONSTRUCTION ASSEMBLY
R
List of•Construction,Components
4.
5:.;
15
7.
,r
Inside Surface Air Film. • '
Z�
cooling
heating
' Sketch of Construction Assembly
Ib/ftZ
Outside Surface Air Film:
WEIGHT:
cooling
heating
Check one:
Total, Resistance Rt.
cooling
heating
Wall .
Roof —..
U Value (
cooling.
heating,
Floor '.
'
l
8.
Inside Surface Air'Film
cooling
heating
Sketch of Construction Assembly
Outside Surface Air Film
WEIGHT: Ib/ft2
cooling.
heating
-Check
one:
Total Resistance Rt..
cooling,
heating
Wall
U
Roof
U -Value l/Rtl
cooling
heating
Floor- .
Project title• • climate zone..
project address
Ot
prdt owner_
documentation autnor, date
rLa_�-CZ�N At3 (zL
Enforcement Agency Use Only
comollance metnod (prescrldtive or performance. dascrioe).
010011100
• BUILDING. ENYE QESI�i`c Description of' Item, Dimension
Points' ,
Total Floor Area. 1
ft,
A O b Sy 1--�� 0 �"�
F= 2 `
ft
—�
1:. Floor•. Slab. Perimeter, Type 1
Ty�e 2
Ralsdr-Type 1 Fee-< T �O F /1 TTS G ,D dL ft: 1 i S 2
ft.
' Type.2: CQV'� nN : \'Z, eta
,
fta
1 til S Q. L �T) O tJ
1 VA �ft
2:. Ceiling: Type 1
10
Type 2
I 1 ►.� s J /� O -,
��
ftZ
ft=
3: wait. Type 1
.
..
i
TYpe 1
ft='
'�..J'•
' 4:.. Glazing:. West;,Type:i �JA �-' PA��
S�Z'O1o.�
ft="
!
Type Z%
North; Type..1
Z, -e- B y,, y<
fe
ftz
Type, 2
' East, Type' 1 ' I)y A hJ
hs
Type 2
South, Type' 1 VO AL P ►J `
\�!o°/, i)
fta
ftz
Type -2.
';.
fta
Skylight,. Type 1 tJ L.
. _3C
fe,
TyPe.2'
_SC'
ft
S. Shading Coefficient. West C� i
�•��' •/1
SC:
— 3
G'
.,
Z Z. North
� .c -
_-Z
SC.
- East
' . South n r
I�lo y, Z.�
SC,
n
6. Horizontal South Overhang nJ5'
I �- 3
ft'
1
7. Movable Insulation
Ste'-
h::
N A
y
8:. infiltration Contro
Mass: Type 1 v 1►iq 1 \ll ��Q� - "?fes q � 1.3_K. ���, fta'• I
9 Thermal
Type 2" l��c 'A`
.z g''� rac 3ft
L� Type 3.
k1C i'1G
ft:.
Type 4' _R
_ }1G ____Pic
fta.
-}-
1
Q Tim 3 L Type -5 _;R.
_11L —J tC
fts..
`.
Point..Total This Page.
g
WA
i 1/83 — 42Q — CEC
..
284-66 (2/83)
SUMMARY
�FrM 2:
;K
page 2 of: 2:
' prdiect title, climate zone
• oroject address
HEATING, VENTILATING, AIR CONDITIONING SYSTEM
1.
Points
10: Heating (fill in information on proposed system)
., Central Gas Furnace ;
e5
brand and model number
SE
• i {
Btu/hr
neating capacity
�0.�=`�'�. (-A,C�.1-��'�.�
.
Heat Pump:
brand and model numoer iCCOA
/
Stu/hr
neat(nq capacity at 47 F
Active. Solar
.. - type (liquid or air) collector brand and model number solar fraction
-,
collector area collector orientation .Cotlector tilt. Y • Inttite0 rated slope
ereapt
Q
�JJ
Other.`
ossalbe.,
-
11.. Coo6g (fill in information on proposed system)
` Electric Air Conditioner
- { Draud and model.numoer
seasonal EER
Btu/hr.
k "
cooling aoacitY at 95 F
Electric Heat Pump ��s L . (,,3�'i'P 4(,PA. C.
Btu/hr
cooling rapacity at 939 F
Other
` dasvtbe,•
• 12 Mechanical Ventilation.
ACJ4
dasvlbe
DOMESTIC`WATER SYSTEM'
13. Heating (fill in information on proposed system)
- Gas Only
Gallons
brand and.mod.al numoer tank site-
IY 711Gu -4
• Heat Pump w/Electric Baclwp
Gallons
bnna_.ana model number
tank site
,
_
Active Solar
collector brand and.model numoerra ted
y . Intercept",
rated stooe solar fraction
i.
backup neater type: brand andmodelnumber collector
area collector
orientation,
° Other,
describe • .
Point Total from Page 1
.
Point Score
Total
JA3 - 420 • CEC
i
E ; i J/-0 /1
" AIA CONDITIONING
W r(zk U.
S i { k f T_ hr.7 { ✓{ f!"i�aR N Z(�,.�1S1r
P"_ -wy -t
4 aSN�' if'rP
ZZ
x0.0.{ .star r •t � � h � 1�-c�—rc'�,E�a2 � ��'r S,ir�„''�'�r �t��p`� sC��=�41. i s
44,C
e' � �. ry r rSl, ✓..�d Ywtq � 71 �
•.�C> r 7. .` � . - tX -TY6Y i L4. V
_ � i� a'�"aj A.._� .., �iFa��'✓•.�✓.... .. z-.: �.:, .? �'�� � S... f _: (. .. : fir rL..� �. .1n, l�
i
All dimensions in inches \ I f
GBHP 181C
43'/,.
28
:24-
20
141/2
6
1 -.
1''/2
GBHP 241 C
431/,
-32%
24
21
141/2
6
1.
1'/z
GBHP 301 C"
43'/,
32%
24
21'
141/2
6
1
11/2
GBHP 361C.
491/,
333/,:
30•
21
-201/2
6
1.171,7/2'/z
.
GBHP 421 C
49'/,
333/,
30
21
201/2
6'
1
1 •
63/a .
1'/2
21/2
GBHP481C.
573/,
44%
30'/a'
21
191/2
7J..
113/a
13/a-
2314
GBHP601C' ..
573/a'
44%
34'/a
34
23'/2
7
1
1
5�/is
13/a
23/a
M
N
V ;M -d I
, W420
r
,116
V. A 4^6
42; 4,
M,
L9?7 P-
Watts - P00,100 P; i5 880p
MECHANICAL"A
DATA
5
'ELECTRICAL DATA. AT 230V-
Gorc
w,,rTh
`93 ge', -a
M
gzm,
OHM-
�, 04—tv
My
+
W, n.450*0 ON k
FOU 1-� t
ggc xrrsIn
a
6taderDiart�OMNI Vt
I-'4ftF!,
Fult-Loa
"N
W6 4WIRMW
°t`
4,
y -p/
WIRM
y. ss�
,Ailotorhorsepower A-
yr
K1a 4j,
e Net face rep
)Y310- ZINt'i ORA
RIM i IR
urn MAW
. . . . . . . . .
mW.
M . f -
. . . . . . . . . . . .
t[yWON
diameter mr
W, {=-M5i'MM-KO2. rl,
..I . . . . . . . . -M
V,
or omp
5
'ELECTRICAL DATA. AT 230V-
Gorc
RIM _Q14
�vl;
w
44-d 0 9 . . . . . . . .
...
�`.�1.•�1'(5`vs Nl� WM?4 PIS
Fujilkya
90, T,
I-'4ftF!,
Fult-Loa
s P
levOO�AR
�Wll ISM
ArOWINM��---1111&-�-�'-
Lae
"N.
N
Mnr!-, Al
a
ZZ50
X
1 -1 -m -M 4-1ZO,
60rP
)Y310- ZINt'i ORA
G.
M
U
E�
M . f -
. . . . . . . . . . . .
t[yWON
Based on UL operating conditions.,.,
BLOWER :DATA: :-.
M.
R i5r,-
M
-- nlwD
M N.
waftlw NO AMN
;5, r W2U%9"
-en 0'
-k Ojdt
`1110W M w
r a
�speciticatlons subject to Change without notice.
Page 4'�
Outdoor Cooling Air
Capacity Flow-
Input • Discharge Suction
SHR Power Pressure
; il;��j Outdoor Heating .
ii' Air Capacity
Au
Flow
Input Discharge Suction
Power Current Pressure Pressure
y
y )•ZV,
Suctior.
Pressure
IPsigl
Aire
Current Pressure
1.270
89
3.350
142 277
78.5
(OF) (BTUH) (CFM)
(Watts) (Amps) (Psig►, (Psi9)
�- (OF) IBTUHI
ICFMI
IWattsl` IAmpsl IPsig) lPs191
840
115 27.000
95 25.000
As 2,600 112 278 80.7
yAr� 65 32.700 2.410 10.4 255 73.2 ra
1'
.90 2,850 12.3 312 83.6
105 71200
', f 60 31.400 2.320 10. t 244 68.6 ; x
.91 2.980 129 333 85-2
' 110 20.800 1,000
'` .. 55 30.000 2.240 9.81 235. 63.4
115 19,400
92 3,150 13.6 ' 354 68.0.'r
50 28.600 2.130 9.5 225 58.5*
45 .27.200 2.080 9.2 217 54,0
14.7 283
(Indoor air at 80 db/67 sub)
'Vii;35 24.4W ' o00 2;0 0 e6 "ao
.78 3.650 15.9 318
.000 2200
30 20.300. 1.960 8.3 190 38.8
.� o�r 25 18.600 - 1.920 8.1 18a 35.3 i„•;
95 27.800
3.800 -1 165 335
2.630 11.4 282
105 25400
86 3.930 1- 171 350
2.890 12.8 318 88.1
3.010 132 337 89 7
110 24200
1 000F".79
i 20 16900 1.870 7.9 177 295
q9
.'Iro73a- 17 15:600 1 1.840 78 173 290
^
♦' K '�}y}�
t may. SL'
:ti'°+1' 'v •. �.g'sty+ fr', �y,�.;4 •Is 7
115 23.000
3,170 13.8 357 915
N, h, �e� n
aAi� nir �f�'
IIl', Y Y,GI J (`y' '�:• v Ley{ .lJr lY
•j...+_ of • s i-. ... _. �iy�(µ
:i=5?R . t'Jj;.veTKi't�Z
�.?'2 Cr .- nt•••�•FMitt {{. " lY-
jy-Y 0,4"-"'irs`1'��.�".. is rrr�,�
d�.+�
,,1. 7'.•f"•cy�
��4(1
oFi F•Ir,' r:
� e,'%r ;-1'•11 � x Ci.., FY•- ` .'Q RS II $ .1y4!,J t4�t'i• E. .f�.p 11F }1„ yti • iJ 'stSY ..1
y
-
MODEL GBHP 3610
11,3 + A (Indoor air at 80 db764 sub)
v...
^. �y,r�-s ; Iridkoo ark at70D F--'�'Ta'i ,�,
z
4� ,.�Z r)
L
Outdoor
Air
(OF)
Cooling
Capacity
(BTUH)
Air
Flow
(CFMI
SHR
Input
Power
(Watts)
Compressor
Discharge
Current Pressure
IAntpsl (Psigl
Suctior.
Pressure
IPsigl
- 95
'33.300
1.270
89
3.350
142 277
78.5
105 30.000
.91 3.600 15.4. 312
820
110. 28.600
.92 3.750 16.1 330
840
115 27.000
.94 3.880 16.8 347
860
Pressure-ure'
Current Pressure
Pressure
52.5
(Indoor air at 80 db/67 wb)
95
34.60076.
1.270.79
(Amps(-
3.390
14.7 283
823
105 31.5 00
.78 3.650 15.9 318
1 870 -
110_ 30200.
3.800 -1 165 335
1 890
115 28.600.
86 3.930 1- 171 350
1 910
N: -t>Y _,4 �,�;;.. .� .5, 1'a., e Jai `•.', .s�`r'Sy. dJ-� i� i '`*-s �.J:: e 2 cs� ,r
'( ?. yKf^5, '!IN.y� �.: iAz
MODEL GBHP 4210 `,y " ;.(Indoor alr at 8o db/64wb)` �� ���" - � "(Indoor alr at 70D F)
eating
apacity
Air
Flow
(CFMI
' i(Indoor air at so db/6a sub) ,;
Compressor
Compressor
Input Discharge
'Power Current Pressure'
IWattsl (Amps) IPsigl
Suction
Pressure
IPsigl
65
Outdoor
Heating
Au
Input
226
DischargeT7Sut,onAir
Discharge
�v
'
-
Capacity
Flow.,
Power
Current
Pressure-ure'
Current Pressure
Pressure
52.5
_
IBTUH 1
(CFMI
IWattsl
(Amps(-
(Psig1g►
(Amps) IPsigl
1.
65
40.000
37.800
2.940
130
224
63.6
4�3,T _:
: ' �i tiff.
`.`ii•K;
60
-38500
35.700
2.830
125
216
600
815
•,,-1�i
55
36.800
34,600.
2.740
12.1
211
570
840
50
352002.640
1 33.600
1 -1
11 7
206
530
860
,,�,+•?�"�
45
33.500
2.550
113
199
500
Input Discharge Suction
Sm,
40
30.700
1.270
2.460
108
194
460
r
:•t�i'c
35
28.200
110 52.600
2.360
104
187.
427
.92 6106 ^ ' 265 330 1 91.0
N,2
3025.600
42500
76
2.260
100
18 1
39.0
,`.•i
4'
25
23.300
78
2.170
.96-
175
350
.: d
,`4
20
20.700
78
2.070'
9.1
168
320
_
17
18.500
80
2,020
8 7
1 162
29 4
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MODEL GBHP 4210 `,y " ;.(Indoor alr at 8o db/64wb)` �� ���" - � "(Indoor alr at 70D F)
Fff)(1,8TUH)
eating
apacity
Air
Flow
(CFMI
' i(Indoor air at so db/6a sub) ,;
Compressor
t;ompressor
Discharge suction
Pressure Pressure
IPsigl (Pstg)
Input Discharge
'Power Current Pressure'
IWattsl (Amps) IPsigl
Suction
Pressure
IPsigl
65
`.Compressor
Outdoor
Cooling
Pur
226
Input
Discharge
Suction
'
-
Air
Capacity
Flow
SHR,
r Power
Current Pressure
Pressure
52.5
_
(OF)
IBTUHI
ICFMI
2.630 lie 188
IWattsl
(Amps) IPsigl
IPsigl
-
•
95
37.800
20 23.000
89
3.540
152 260
770
28 0
60
105'
35.700
95 46.500
91
3.820
16.6 288
815
105 42.000
. ""j�`, ^?:•
110
34,600.
1 450.
91
4.010
17.3 302
840
,h M s�r'�� 't't�yy`iiSy �"' �7= ? } r -L r •� 6�.^,u�c"`Y• t;<7Y,;
O
115
1 33.600
1 -1
92
4.100
179 316
860
Compressor
a;
•Goofing
4000
175
'Dutdoor
Air.
Input Discharge Suction
Sm,
Air, Capacity
Flow..
SHR Power Current Pressure Pressure
I")
3850
(OF) (BTUH)
96. 59200
ICFM)
(Wads) (Amps) (Psig)
-87 5270. 23.0 262 82.3
r
105 54.880
.88 5.680 248 295 87.0
110 52.600
90 5.890 25.6 132 ' 88.7
t
(Indoor air at 80 db/67 sub)
115 50300
.92 6106 ^ ' 265 330 1 91.0
N,2
>D
42500
76
3.600
15.6 273
805
95 60.5W- .77 s310 232 260 8511
,`.•i
Wr39.000
6.500
110 54.IOD 2170 .80 59010 25.8 1 375 90.0
78
3.880
16.9 302
852
386
.: d
5.500
1450
78
4.050
17.6 315
875-
34S
•
4.200
32500
80
1.140
183 328'
898
�.
Fff)(1,8TUH)
eating
apacity
Air
Flow
(CFMI
' i(Indoor air at so db/6a sub) ,;
Compressor
t;ompressor
Discharge suction
Pressure Pressure
IPsigl (Pstg)
Input Discharge
'Power Current Pressure'
IWattsl (Amps) IPsigl
Suction
Pressure
IPsigl
65
43.700
1 450.
3.130
137
226
625
60 42200
3.070 13.3 221
600,
55 46.800
3.030 131 217
574
50' 39.100
2.970 12.7 212 -
550
45 37.700
2.900 124 206
52.5
40 34.400
2.750 12.1 196
473
35 31.500
2.630 lie 188
426
30 28.400
2.550 I 1 4 179
385
25 - 25.800
2.500 110 172
345
20 23.000
2.450 105 168
31 0 -
17 - 21.000
2.400 102 161
28 0
J ':1a.
�_i.. ky ,,� rcuh, tt:,l � �- ti�4 xti�. i, fas 1 �� 1rr=aS��l- ,;�!. ; Y! � �'�"' !. �;�' 3r'g Jd n;. 5„� � •t [�''i �-"� _ ;..f+ . t _ � _t�` !'!. � ; � � r. 2. ... '
rt
_ ...� ..,.. ... _.. Xwl ,u:.-s+ass^e. e- ..__. . r ._ ._ - -e .� ._. .,., . `•'YC 1�l.ii'._ o.o- - -- .� +'�.z..,, '
MODEL GBHP.481C*
Air
' Flow.
(CFMI
' i(Indoor air at so db/6a sub) ,;
Current
(Ampsl
t;ompressor
Discharge suction
Pressure Pressure
IPsigl (Pstg)
.
_
-
_
.' .t:' `•.;
'`I�j•-%:�::;
„�.; -
65 55.000
1540
4,040 18.7 237 65.0
60 52500
Coffivressor
55 49500 -
3.880 182 - - 223 594
50 47.000
Input Discharge suction
-:
Outdoor Cooping
Air
;�y+^
Air Capacity
Flow
SHR Power Current Pressure Pressure
3320 15.7 183 384
µ'F1 IBTUHI
(CFMI
(Watts) (Amps1 IPs491 IPsigl
].050 14.5 166 28.8
95 44.000
(CFMI
91 4.380 19A 267 790
105 39.000
93 4.760 20.9 297 ale
(Prig!
1 L,.
1.550
110. 36.800
94 - 4.900 21.6 - • 312 833
4.420
115 34•.500
1
.95 1 5.060 224. 327 $47
f
J
60
(Indoor air at 80 db/67 wb)
95 46.500
18.7
76 - 4,540 19.9 273 830
625
i
105 42.000
78 4.880 215 304 855
60.700
110 39.800
ISM[so
79 5.060 222 317 86 7
r `3
115 • - 37..5000
5220 - 230 333 878
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O
3MODEL
L' t �a`3 f i2i'"T" r 'f�.w .•P; �4e,gt 7,q w i•.r ?.. ' r ~Z ''�t sur' �
GBHP 6010 air at 80 db /64wb)
4.13D
. <} yf ;(Indoor _
:�.
575
Compressor
a;
•Goofing
4000
175
'Dutdoor
Air.
Input Discharge Suction
Sm,
Air, Capacity
Flow..
SHR Power Current Pressure Pressure
I")
3850
(OF) (BTUH)
96. 59200
ICFM)
(Wads) (Amps) (Psig)
-87 5270. 23.0 262 82.3
r
105 54.880
.88 5.680 248 295 87.0
110 52.600
90 5.890 25.6 132 ' 88.7
t
2170
115 50300
.92 6106 ^ ' 265 330 1 91.0
N,2
>D
42500
/
H.f
A
C,.
1
- -
(Indoor air at 80 db /67 sub)
173
95 60.5W- .77 s310 232 260 8511
,`.•i
105 56.400 .79 - 5.730 25-0 297 88.1
r!•:
'':•
110 54.IOD 2170 .80 59010 25.8 1 375 90.0
'�l`'"•
115 57500 .82 6-140 26.7 333 "91.7
•
itdoor
Air
IF"1
ligating
Capacity
(BTUH)
Air
' Flow.
(CFMI
Input
Power
(Watts)
Current
(Ampsl
t;ompressor
Discharge suction
Pressure Pressure
IPsigl (Pstg)
.
_
-
_
.' .t:' `•.;
'`I�j•-%:�::;
„�.; -
65 55.000
1540
4,040 18.7 237 65.0
60 52500
3.960' 185 230 62.0
55 49500 -
3.880 182 - - 223 594
50 47.000
3.800 17.8 217 56.5
45 44.000
3.7110 174 212 53.5
40 39506
3.440 167 203 482
35. 35508
3.450 16.3 193 43.5.
30 32.300
3320 15.7 183 384
25 29500
3200 150 175 33.7
20 26300
17 24.000
].050 14.5 166 28.8
2950 140 160 24.5
�°•i
Compressor
.
r
j+ L
Outdoor
Heating
Air
Input
Discharge
suction
-
:f
Air
Capaciti
Flow
Power
Current
'Pressure
Pressure
IFa►
(BTUH;
(CFMI
(Wat1s1
(Amps(
(Psi91
(Prig!
1 L,.
65
66200
4.420
19.2
210
650
f
J
60
63,900
4320
18.7
205
625
i
s
55
60.700
4 230
183
201
600
l(` f
50
57.800
4.13D
179
197'
575
?w
45
54.900
4000
175
192
54 5
40
50500
2.170
3850
171
186
504
a •{
46500
3.700'
16.7
180
466
a
>D
42500
3600
16.1
173
422
25
38 806
3520
156
168
386
.: d
20
35200
7.430
150
162
34S
•
17
32500
I
F 3.370 1
146
157
� t 5. �sSl zi ,y,,'"• 5 S f3,1 tf �",� i� >tyaJ#••� ^,sp..'r �• .v� .. 7
�n�i„�s
� S. ii.•%iS .i�'. i.;'�3�Se'131(S''M•.NEA. W-,: 1
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 uninis-designed for new'construction, replacement, or,
wherever a suitable electric or gas 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 sectioncontains 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 R102 Water Heater is designed to be installed as
easilv 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.
The heat pump must be protected against freezing and
temperatures greater than 95°-115° F.* This will normally
exclude attic installations. The WHHP may be installed in
unconditioned, .freeze -protected space or in conditioned
space. The space cooling effect of the W H H P may have some
impact on the heating and cooling requirements of the condi-
tioned space. The minimum sire closed space for installation is
750 cubic feet: less space is required if air flow is permitted:
such as with louvered doors. In. low 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 activated: In
addition, there is a three -position switch to select the normal
heat pump mode. resistance heating only mode, or system off.
The R102 Water Heater is designed such that if the heat
pump must be removed for service. the tank and household
plumbing may be left undisturbed. Placing the selector s\\ itch
on "resistance heating- insures eater heating during the ser-
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 water
lines.
RECOVERY: 18 gallons per hour at 135° F tank temperature**
25 gallons -per hour at 115* F tank temperature**
COOLING & DEHUMIDIFICATION:.
7900 BTU: hr and 1.6 pints'hr**
WEIGHT: 320 lbs.
TANK CAPACITY: 82'Gallons.
WATER TEMPERATURE: Maximum— 140°F(60°C)**.
ELECTRICAL SPECIFICATIONS:
230 VAC @ 60 H,
Maximum Amperage: 18 amps with resistance elements
@ 230 VAC 25 amp fuses or circuit breakers required.
OPERATING TEMPERATURES:
40°-50° F (7°-10°C Minimum air inlet depending on
relative humidity- and inlet eater temp.
*95°-115° F (35046°C) Maximum air inlet
depending on outlet eater thermostat setting.
**GAMA rating point 75° F- DB 63° F W13
Applied Research Laboratories ListedEl
`
&c 3570 American Drive. Atlanta. Georgia .',03-41 • (404) 4-58-6644