Trane Fan CAUC C20 User Manual

Air-Cooled  
Condensers  
20 to 120Tons  
April 2001  
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Contents  
Introduction  
2
4
5
6
Features and Benefits  
Application Considerations  
Selection Procedure  
Model Number Description  
General Data  
8
9
Performance Data  
Performance Adjustment Factors  
Electric Power  
11  
10  
12  
Dimension and Weights  
Mechanical Specifications  
13  
23  
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Features and  
Benefits  
20 to 120Ton Units  
AllTrane air-cooled condenser coils are  
tube-in-sheet construction with copper  
tubing mechanically bonded to  
configurated aluminum fins. 20 to 30  
ton condensers are single circuit; 40 to  
120 ton units are dual circuited; all  
feature integral subcooling.  
Trane 20 to 120 ton air-cooled  
condensers have an operating range of  
40 F to 115 F, with a low ambient option  
down to 0 F.  
The control panel is factory-installed  
and wired to prevent potential damage  
and to provide weathertight protection.  
Copper coils are optional.  
Durable Construction  
The control panel contains:  
fan motor contactors.  
Trane 20 to 120 ton condensers are  
built for long life. The unit frame is  
constructed of 14 gauge galvanized  
steel. Louvered panels provide  
excellent coil protection while  
enhancing unit appearance and  
strength. The unit surface is  
phosphatized and finished withTrane  
Slate Grey air-dry paint. This air dry-  
paint finish exceeds 500 consecutive  
hour salt spray resistance in  
fan cycling controls.  
terminal point connection for  
c11o5m-vporletscsoonrtrinotleprolowcke.r transformer.  
These standard features reduce  
installation costs and provide easy  
interface with control logic.  
accordance with ASTM B117.  
Application  
Considerations  
Certain application constraints should be  
considered when sizing, selecting, and  
installing air-cooled condensers. Unit  
and system reliability depends on  
properly and completely acknowledging  
these considerations. Consult your local  
Trane sales engineer if your application  
varies from these guidelines.  
reduce sound transmitted through  
electrical conduit.  
State and local codes on sound  
emissions should always be  
considered. Since the environment in  
which a sound source is located affects  
sound pressure, unit placement must  
be carefully evaluated.  
Setting the Unit  
Servicing  
A base or foundation is not required if  
the selected unit location is level and  
strong enough to support the operating  
weight. Refer to the Weights section for  
the weight of individual units.  
Recommended minimum space  
envelopes for servicing are located in  
the Dimensional Data section and  
serve as guidelines for providing  
adequate clearance. The minimum  
space envelopes also allow for control  
panel door swing and routine  
Isolation and Sound Emission  
The most effective method of noise  
isolation is proper unit location. Units  
should be placed away from noise  
sensitive areas. Structurally transmitted  
noise can be reduced with the use of  
spring isolators and they are  
maintenance requirements.  
recommended for acoustically sensitive  
applications. Flexible electrical conduit,  
for maximum isolation effectiveness, will  
4
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Application  
Considerations  
Unit Location  
Clearance  
Ambient Limitations  
Unobstructed flow of condenser air is  
essential to maintaining capacity and  
operating efficiency. When determining  
unit placement, careful consideration  
must be given to assure a sufficient flow  
of air across the condenser heat transfer  
surface. Two detrimental conditions are  
possible and must be avoided: Warm air  
recirculation and coil starvation.  
Vertical condenser air discharge must be  
unobstructed. While it is difficult to  
predict the degree of warm air  
recirculation, a unit installed with a  
ceiling or other obstruction above it will  
lose capacity and the maximum ambient  
operation will be reduced. Nuisance  
high head pressure tripouts may also  
occur.  
Trane condensers are designed for year-  
around applications in ambients from 0 F  
through 115 F. For operation below 0 F or  
above 115 F, contact the localTrane sales  
office.  
Start-up and operation ofTrane  
condensers at lower ambient  
temperatures require that sufficient head  
pressure be maintained for proper  
operation. Minimum operating ambient  
temperatures for standard unit  
selections and units with hot gas bypass  
are shown in the General Data section.  
These temperatures are based on still  
conditions (winds not exceeding five  
mph.) Greater wind velocities will result  
in a drop in head pressure, therefore,  
increasing the minimum starting and  
operating ambient temperatures.  
Warm air recirculation occurs when  
discharge air from the condenser fans is  
recycled back at the condenser coil inlet.  
Coil starvation occurs when free airflow  
to the condenser is restricted.  
The inlet to the coil must also be  
unobstructed. A unit installed closer  
than the minimum recommended  
distance to a wall or other vertical riser  
may experience a combination of coil  
starvation and warm air recirculation,  
resulting in unit capacity and efficiency  
reductions, as well as possible excessive  
head pressures. The recommended  
lateral distances are listed in the  
Both warm air recirculation and coil  
starvation cause reductions in unit  
efficiency and capacity because of the  
higher head pressures associated with  
them. In more severe cases, nuisance  
unit shutdowns will result from  
Dimensional Data section.  
Units with the low ambient option are  
capable of starting and operating in  
ambients down to 0 F, 10 F with hot gas  
bypass. Optional low ambient units use  
a condenser fan damper arrangement  
that controls condenser capacity by  
modulating in response to head  
pressure.  
excessive head pressures.  
Voltage  
Cross winds, those perpendicular to the  
condenser, tend to aid efficient operation  
in warmer ambient conditions.  
However, they tend to be detrimental to  
operation in lower ambients or when hot  
gas bypass is used due to the  
Nominal voltage is the nameplate rating  
voltage. The actual range of line voltages  
at which the equipment can  
satisfactorily operate is given below:  
Nominal  
Voltage  
Voltage  
Utilization Range  
accompanying loss of adequate head  
pressure. As a result, it is advisable to  
protect air-cooled condensers from  
continuous direct winds exceeding 10  
miles per hour.  
Maximum cataloged ambient  
temperature operation of a standard  
condenser is 115 F. Operation at design  
ambients above 115 F can result in  
excessive head pressures. For operation  
above 115 F, contact the localTrane sales  
office.  
200/220  
460  
575  
180-220 or 208-254  
416-508  
520-635  
200/230-volt units ship from the factory  
set for operation in the 180 through 220-  
volt range. By changing leads on unit  
transformers, the unit will operate in the  
208 through 254-volt range.  
Debris, trash, supplies, etc., should not  
be allowed to accumulate in the vicinity  
of the air-cooled condenser. Supply air  
movement may draw debris into the  
condenser coil, blocking spaces between  
coil fins and causing coil starvation.  
Special consideration should be given to  
low ambient units. Condenser coils and  
fan discharge must be kept free of snow  
or other obstructions to permit  
Effects of Altitude  
The tables in the Performance Data  
section are for use at sea level. At  
elevations substantially above sea level,  
the decreased air density will decrease  
condenser capacity. Refer to the  
adequate airflow for satisfactory unit  
operation.  
Performance Adjustment Factors section  
to correct performance at other altitudes.  
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Selection  
Procedures  
When selecting a combination of  
equipment, it becomes necessary to  
match the compressor and condenser  
performance. The following procedure  
should be used in determining the  
correct condenser.  
c
Example:  
Transfer the results from the compressor  
and condenser plots to Chart SP-1 and do  
the following. Draw a line through the  
two points representing gross heat  
compressor capacities less subcooling  
(105.6 and 82.3). Draw a line through the  
two points representing condenser gross  
heat of rejection (55.4 and 82.3).  
At 95 F ambient and 129.4 F condensing  
temperature there is a 10.1% increase in  
capacity due to subcooling. This yields a  
system net capacity of 93.8 tons x 110%  
= 103.2 tons.  
First:  
f
Determine the total cooling load and the  
evaporator sst and compressor required.  
If necessary use the values inTable PD-4  
to adjust the system capacity for altitude.  
d
Example:  
g
At the point of intersection of the  
compressor and condenser lines draw  
dashed lines to the left and bottom  
margins of Chart SP-1. The end points of  
these lines will show a resultant gross  
condenser capacity of 93.8 tons at 129.4 F  
condensing temperature.  
Given Total cooling load = 96 tons  
– Ambient temp = 95 F  
Compare this result with the design  
capacity and condensing temperature.  
– Evaporator sst = 45 F  
– Compressor – CUAB-D10E  
The required cooling load is 96 tons,  
therefore, the CAUC-D10 is the proper  
selection.  
The compressor was selected from  
COM-DS-1 catalog according to the sst  
and maximum acceptable condensing  
temperature for adequate compressor  
capacity.  
Repeat the process steps B through G as  
necessary to achieve the most economic  
condenser selection.  
e
From chart PD-2 calculate the percent  
increase in capacity due to subcooling.  
a
Plot at least two gross compressor  
capacities (less subcooling) at the design  
suction temperature and different  
condensing temperatures. (subcooling  
factor is .047% per deg. F subcooling, 16  
F for CUAB-D10E)  
Example:  
(From COM-DS-1)  
CUAB-D10E Compressor at 45 F sst.  
With:  
115 F condensing temperature = 113.5  
tons divided by 1.075 subcooling factor =  
105.6 tons.  
With:  
125 F condensing temperature = 105.1  
tons divided by 1.075 subcooling factor =  
97.8 tons  
b
Plot two gross condenser heat rejection  
points on chart PD-1 divided by the  
compressor N factor (Table PD-1 to PD-3)  
at different condensing temperatures.  
Example: Anticipating 100 ton  
condenser to meet design load of 96  
tons.  
Gross Heat  
of Rejection  
Cond.  
Temp  
ITD  
20  
(MBh)  
=
Tons  
69.2  
÷
N Factor  
1.25*  
=
Tons  
55.4  
82.3  
*N factor corrected from Table PD-2  
sst – saturated suction tem perature  
F – degree Fahrenheit  
N – com pressor factor  
ITD – initial tem perature difference  
115  
at  
=
=
830  
=
÷
=
125 at  
30  
1285  
=
107.1  
÷
1.30*  
=
6
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Selection  
Exam ple  
Chart SP-1 — Selection Example  
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Model  
Num ber  
Description  
20To 60Ton Model Nomenclature  
C
1
A
2
U
3
C
4
C20  
5,6,7  
4
8
1
*
0
3
H
01  
9 10 11 12 13 14  
Digit 4 — Development Sequence  
Digit 11 — Ambient Control  
Digit 1 — Unit Type  
0 = Standard  
1 = 0 F  
C = Third  
C = Condenser  
Digit s 5,6,7 — Nominal Capacity  
Digit 2 — Condenser  
Digit 12 — Agency Approval  
C20 = 20Tons  
C25 = 25Tons  
C30 = 30Tons  
C40 = 40Tons  
C50 = 50Tons  
C60 = 60Tons  
A = Air-Cooled  
0 = None  
3 = UL/CSA  
Digit 3 — Airflow  
U = Upflow  
Digits 13, 14 — Miscellaneous  
Digit 8 — Power Supply  
H = Copper Fins  
1 = Spring Isolators  
2 = Rubber Isolators  
G = 200/230/60/3 XL  
4 = 460/60/3 XL  
5 = 575/60/3 XL  
Digit 9 — Condenser Circuit  
1 = Single (20-30 Ton)  
2 = Dual (40-60 Ton)  
Digit 10 — Design Sequence  
* = Factory Assigned  
80To 120Ton Model Nomenclature  
C
1
A
2
U
3
C
4
C80  
5,6,7  
4
8
2
A
0
3
H
01  
9 10 11 12 13 14  
Digit 4 — Development Sequence  
Digit 1 — Unit Type  
Digit 11 — Ambient Control  
C = Third  
C = Condenser  
0 = Standard  
1 = 0 F  
Digits 5,6,7 — Nominal Capacity  
C80 = 80 Tons  
D10 = 100 Tons  
Digit 2 — Condenser  
Digit 12 — Agency Approval  
A = Air-Cooled  
D12 = 120 Tons  
0 = None  
2 = CSA  
3 = UL/CSA  
Digit 3 — Airflow  
Digit 8 — Power Supply  
F = 230/60/3  
U = Upflow  
4 = 460/60/3  
5 = 575/60/3  
Digits 13, 14 — Miscellaneous  
E = 200/60/3  
H = Copper Fins  
1 = Spring Isolators  
Digit 9 — Condenser Circuit  
2 = Dual Circuit  
Digit 10 — Design Sequence  
A = First  
1. The service digit for each m odel num ber contains 14 digits; all 14 digits m ust be referenced.  
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General Data  
Table GD-1 — General Data  
20Ton  
25Ton  
30Ton  
40Ton  
50Ton  
60Ton  
80Ton  
CAUC-C80 CAUC-D10 CAUC-D12  
1244 1425 1819  
100Ton  
120Ton  
Model Number  
CAUC-C20  
Gross Heat Rejection (MBh)1 301  
CAUC-C25 CAUC-C30 CAUC-C40 CAUC-C50 CAUC-C60  
373  
455  
614  
712  
888  
Condenser Fan Data  
Number/Size/Type  
Fan Drive  
No. of Motors/Hp (Each)  
Nominal Cfm  
2/26/Prop  
Direct  
2/1.0  
3/26/Prop 3/26/Prop  
4/26/Prop  
Direct  
6/26/Prop  
Direct  
6/26/Prop  
Direct  
8/26/Prop  
12/26/Prop 12/26/Prop  
Direct  
3/1.0  
Direct  
3/1.0  
Direct  
8/1.0  
49,600  
Direct  
12/1.0  
66,800  
Direct  
12/1.0  
76,000  
4/1.0  
24,800  
6/1.0  
33,400  
6/1.0  
38,000  
12,400  
16,700  
19,000  
Condenser Coil Data  
No./Size (In.)  
1/63x71  
1/71x71  
1/45x71  
1/49x71  
46.1  
2/65x70  
2/51x96  
2/66x90  
4/65x70  
4/51x96  
4/66x90  
Face Area (Sq. Ft.)  
Rows/Fins Per Ft.  
31.0  
3/168  
35.0  
3/156  
63.2  
3/168  
67.1  
3/156  
88.0  
3/168  
126.4  
3/168  
136.0  
3/156  
165.0  
3/168  
3/168  
General Data  
No. Refrigerant Circuits  
1
1
28  
76  
1
37  
96  
2
52  
136  
2
56  
142  
2
74  
184  
2
104  
272  
2
112  
284  
2
148  
368  
Operating Charge2 (Lbs of R-22) 25  
Condenser Storage Capacity3 67  
Am bient Tem perature Operating Range  
Standard Ambient (F)  
Low Ambient Option (F)  
Notes:  
40-115  
0-115  
40-115  
0-115  
40-115  
0-115  
40-115  
0-115  
40-115  
0-115  
40-115  
0-115  
40-115  
0-115  
40-115  
0-115  
40-115  
0-115  
1. Gross Heat Rejection is at a 30 F ITD (Intial Tem perature Difference) between condensing tem perature and am bient air entering condenser (includes the effect of  
subcooling).  
2. Operating charge is for entire unit.  
3. At conditions of 95 F am bient, condenser is 95 percent full.  
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Perform ance  
Adjustm ent  
Factors  
Chart PD-2— Compressor-Condenser Capacity Increase Due To Subcooling (R-22)  
Table PD-1 – - N Factor – - Semihermetic Compressors  
Saturated Suction Tem perature (F)  
Cond.  
Tem p.  
30  
35  
40  
45  
50  
110  
115  
120  
125  
130  
135  
140  
145  
1.34  
1.36  
1.40  
1.43  
1.48  
1.52  
1.58  
1.65  
1.32  
1.34  
1.37  
1.40  
1.44  
1.48  
1.54  
1.59  
1.29  
1.31  
1.34  
1.37  
1.40  
1.44  
1.49  
1.54  
1.27  
1.29  
1.32  
1.34  
1.38  
1.41  
1.45  
1.49  
1.25  
1.27  
1.30  
1.32  
1.35  
1.38  
1.42  
1.46  
Note:  
1. In order to determ ine N factor for CUAB units, find proper factor corresponding with the proper  
suction and condensing tem perature from Table 9-1. This factor should be adjusted by adding or  
subtracting the correction value from Table 9-2.  
Table PD-4 – - N Factor Correction – - Compressor  
Com pressor  
Correction Factor  
CUAB-015M  
020M  
+ 0.02  
–––  
Table PD-2– - N Factor – - Open Compressors  
Saturated Suction Tem perature (F)  
Cond.  
025M  
030M  
040R  
050R  
060R  
075E  
100E  
– 0.01  
+ 0.01  
– 0.02  
– 0.04  
– 0.04  
– 0.02  
Tem p.  
30  
35  
40  
45  
50  
110  
115  
120  
125  
130  
135  
140  
1.245  
1.260  
1.275  
1.290  
1.305  
1.320  
1.335  
1.225  
1.240  
1.255  
1.270  
1.285  
1.300  
1.315  
1.215  
1.230  
1.245  
1.260  
1.275  
1.290  
1.305  
1.195  
1.210  
1.225  
1.240  
1.255  
1.270  
1.285  
1.175  
1.190  
1.205  
1.220  
1.235  
1.250  
1.265  
– 0.04  
Table PD-3 – -Altitude Correction Multiplier For Cooling Capacity – - Air-Cooled Condenser  
Altitude (Ft)  
2,000  
0.977  
4,000  
0.949  
6,000  
0.917  
8,000  
0.881  
10,000  
0.843  
Correction Multiplier  
10  
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Perform ance  
Data  
Chart PD-1 — Condenser Heat Rejection (R-22), 20-120Ton  
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Electrical  
Data  
Table ED-1 — Electrical Data  
Unit Characteristics  
Condenser Fan Motor  
Minimum  
Maximum  
Allowable  
Circuit  
Fuse  
FLA  
(Ea.)  
(1)  
LRA  
(Ea.)  
(1)  
KW  
Nominal  
Tons  
Electrical  
Characteristics  
200-230/60/3  
460/60/3  
Voltage  
Ampacity  
Size  
No./HP  
(1)  
2/1.0  
2/1.0  
(Ea.)  
Model No.  
CAUC-C20G  
CAUC-C204  
Range  
180-220/208-254  
416-508  
(3),(5)  
9.2  
(2),(5)  
15  
(1),(4)  
0.9  
4.1  
20.7  
20  
4.1  
15  
1.8  
9.0  
0.9  
CAUC-C205  
CAUC-C25G  
CAUC-C254  
575/60/3  
200-230/60/3  
460/60/3  
520-635  
180-220/208-254  
416-508  
3.2  
13.3  
5.9  
15  
20  
15  
2/1.0  
3/1.0  
3/1.0  
1.4  
4.1  
1.8  
7.2  
20.7  
9.0  
0.9  
0.9  
0.9  
25  
30  
CAUC-C255  
CAUC-C30G  
CAUC-C304  
CAUC-C305  
575/60/3  
200-230/60/3  
460/60/3  
520-635  
180-220/208-254  
416-508  
4.6  
13.3  
5.9  
15  
20  
15  
15  
3/1.0  
3/1.0  
3/1.0  
3/1.0  
1.4  
4.1  
1.8  
1.4  
7.2  
20.7  
9.0  
7.2  
0.9  
0.9  
0.9  
0.9  
575/60/3  
520-635  
4.6  
CAUC-C40G  
200-230/60/3  
180-220/208-254  
17.4  
20  
4/1.0  
4.1  
20.7  
0.9  
40  
50  
CAUC-C404  
CAUC-C405  
CAUC-C50G  
CAUC-C504  
460/60/3  
575/60/3  
200-230/60/3  
460/60/3  
416-508  
520-635  
180-220/208-254  
416-508  
7.7  
6.0  
25.6  
11.3  
15  
15  
30  
15  
4/1.0  
4/1.0  
6/1.0  
6/1.0  
1.8  
1.4  
4.1  
1.8  
9.0  
7.2  
20.7  
9.0  
0.9  
0.9  
0.9  
0.9  
CAUC-C505  
575/60/3  
520-635  
8.8  
15  
6/1.0  
1.4  
7.2  
0.9  
CAUC-C60G  
CAUC-C604  
CAUC-C605  
200-230/60/3  
460/60/3  
575/60/3  
180-220/208-254  
416-508  
25.6  
11.3  
8.8  
30  
15  
15  
6/1.0  
6/1.0  
6/1.0  
4.1  
1.8  
1.4  
20.7  
9.0  
7.2  
0.9  
0.9  
0.9  
60  
520-635  
CAUC-C80E  
CAUC-C80F  
CAUC-C804  
CAUC-C805  
200/60/3  
230/60/3  
460/60/3  
575/60/3  
180-220  
208-254  
416-508  
520-635  
34  
34  
15  
12  
40  
40  
20  
15  
8/1.0  
8/1.0  
8/1.0  
8/1.0  
4.1  
4.1  
1.8  
1.4  
20.7  
20.7  
9.0  
0.9  
0.9  
0.9  
0.9  
80  
7.2  
CAUC-D10E  
CAUC-D10F  
CAUC-D104  
CAUC-D105  
200/60/3  
230/60/3  
460/60/3  
575/60/3  
180-220  
208-254  
416-508  
520-635  
50  
50  
22  
17  
60  
60  
25  
20  
12/1.0  
12/1.0  
12/1.0  
12/1.0  
4.1  
4.1  
1.8  
1.4  
20.7  
20.7  
9.0  
0.9  
0.9  
0.9  
0.9  
100  
120  
7.2  
CAUC-D12E  
CAUC-D12F  
CAUC-D124  
CAUC-D125  
200/60/3  
230/60/3  
460/60/3  
575/60/3  
180-220  
208-254  
416-508  
520-635  
50  
50  
22  
17  
60  
60  
25  
20  
12/1.0  
12/1.01  
12/1.0  
12/1.0  
4.1  
4.1  
1.8  
1.4  
20.7  
20.7  
9.0  
0.9  
0.9  
0.9  
0.9  
7.2  
Notes:  
1. Electric inform ation is for each individual m otor.  
2. Maxim um fuse size is perm itted by NEC 440-22 is 300 percent of one m otor RLA plus the RLA of the rem aining m otors.  
3. Minim um circuit am pacity equals 125 percent of the RLA of one m otor plus the RLA of the rem aining m otors.  
4. All Kw values taken at conditions of 45 F saturated suction tem perature at the com pressor and 95 F am bient.  
5. Local codes m ay take precedence.  
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Dim ensional  
Data  
(20 Ton)  
Figure DD-1 — CAUC-C20 Unit Dimensions, Recommended Clearances, Mounting Locations, Electric and Refrigerant Connection Sizes and Locations  
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Dim ensional  
Data  
(25 Ton)  
Figure DD-2 — CAUC-C25 Unit Dimensions, Recommended Clearances, Mounting Locations, Electric and Refrigerant Connection Sizes and Locations  
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Dim ensional  
Data  
(30 Ton)  
Figure DD-3 — CAUC-C30 Unit Dimensions, Recommended Clearances, Mounting Locations, Electric and Refrigerant Connection Sizes and Locations  
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Dim ensional  
Data  
(40 Ton)  
Figure DD-4 — CAUC-C40 Unit Dimensions, Recommended Clearances, Mounting Locations, Electric and Refrigerant Connection Sizes and Locations  
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Dim ensional  
Data  
(50 Ton)  
Figure DD-5 — CAUC-C50 Unit Dimensions, Recommended Clearances, Mounting Locations, Electric and Refrigerant Connection Sizes and Locations  
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Dim ensional  
Data  
(60 Ton)  
Figure DD-6 — CAUC-C60 Unit Dimensions, Recommended Clearances, Mounting Locations, Electric and Refrigerant Connection Sizes and Locations  
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Dim ensional  
Data  
(80 Ton)  
Figure DD-7 — CAUC-C80 Unit Dimensions, Recommended Clearances, Mounting Locations, Electric and Refrigerant Connection Sizes and Locations  
NOTES:  
1. HOT GAS DISCHARGE AND LIQUID LINE CONNECTION LOCATIONS  
SHOWN IN THE FRONT VIEW DO NOT REPRESENT HOLES IN THE UNIT PANEL.  
ACCESS TO THESE CONNECTIONS ARE PROVIDED BY THE CUSTOMERS.  
2. DIMENSIONAL TOLERANCE +/- 1/8”.  
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Dim ensional  
Data  
(100 Ton)  
Figure DD-9 — CAUC-C100 Unit Dimensions, Recommended Clearances, Mounting Locations, Electric and Refrigerant Connection Sizes and Locations  
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Dim ensional  
Data  
(120 Ton)  
Figure DD-10 — CAUC-C120 Unit Dimensions, Recommended Clearances, Mounting Locations, Electric and Refrigerant Connection Sizes and Locations  
NOTES:  
1. HOT GAS DISCHARGE AND LIQUID LINE CONNECTION LOCATIONS  
SHOWN IN THE FRONT VIEW DO NOT REPRESENT HOLES IN THE UNIT PANEL.  
ACCESS TO THESE CONNECTIONS ARE PROVIDED BY THE CUSTOMERS.  
2. DIMENSIONAL TOLERANCE +/- 1/8”.  
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Weights  
Figure W-1 — 20-30Tons  
Figure W-2 — 40-60Tons  
Top View (Mounting Locations)  
Table W-1 — 20 to 60Ton Weights (Lbs./Kg.)  
Operating  
Weight  
Weight On Isolator At Mounting Locations  
Loc. 3 Loc. 4  
AL AL  
248 252  
Nominal  
Tons  
Model  
Number  
Loc. 1  
Loc. 2  
AL  
326  
Loc. 5  
Loc. 6  
AL  
CU  
AL  
CU  
CU  
CU  
CU  
AL  
––  
CU  
––  
AL  
––  
CU  
––  
20  
25  
30  
40  
50  
60  
CAUC-C20 Lb. 1146  
1348  
320  
371  
365  
306  
301  
Kg. 519.8 611.5  
145.2 168.3  
329 378  
149.2 171.5  
353 414  
160.1 187.8  
363 406  
164.7 184.2  
407 464  
184.6 210.5  
433 515  
196.4 233.6  
147.9 165.6  
337 381  
152.9 172.8  
371 444  
168.3 201.4  
347 392  
157.4 177.8  
392 449  
177.8 203.7  
420 505  
190.5 229.1  
112.5 138.8  
259 315  
117.5 142.9  
282 355  
127.9 161.0  
349 404  
158.3 183.3  
387 453  
175.5 205.5  
417 511  
189.2 231.8  
114.3 136.5  
265 319  
120.2 144.7  
296 381  
134.3 172.8  
334 389  
151.5 176.5  
373 438  
169.2 198.7  
405 501  
183.7 227.3  
CAUC-C25 Lb. 1190  
1394  
––  
––  
––  
––  
––  
––  
––  
––  
Kg. 539.8 632.3  
CAUC-C30 Lb. 1302  
1585  
Kg. 590.6 719.0  
CAUC-C40 Lb. 2048  
2366  
335  
401  
320  
387  
Kg. 929.0 1073.2  
152.0  
181.9  
145.2  
175.5  
CAUC-C50 Lb. 2280  
2664  
367  
441  
354  
427  
Kg. 1034.2 1208.4  
166.5  
200.0  
160.6  
193.7  
CAUC-C60 Lb. 2465  
3010  
401  
507  
389  
497  
Kg. 1118.1 1365.3  
181.9  
230.0  
176.5  
225.4  
Figure W-3 — 80-120Tons  
Top View (Mounting Locations)  
Table W-2 — 80 to 120Ton Weights (Lbs./Kg.)  
Nominal  
Tons  
Model  
Number  
Coil  
Fin  
Operating  
Weight  
Weight On Isolator At Mounting Points  
Loc. 1  
Loc. 2  
Loc. 3  
Loc. 4  
Loc. 5  
Loc. 6  
Loc.7  
Loc.8  
AL  
Lb.  
4036  
514  
233.2  
603  
478  
216.8  
571  
522  
236.8  
600  
485  
220.0  
569  
524  
237.7  
600  
487  
220.9  
568  
532  
241.3  
597  
494  
224.1  
566  
256.7  
80  
CAUC-C80  
CAUC-D10  
CAUC-D12  
Kg. 1830.7  
Lb. 4542  
Kg. 2060.3  
Lb. 4911  
Kg. 2227.6  
Lb. 5371  
Kg. 2436.3  
Lb. 5472  
Kg. 2482.1  
Lb. 5971  
Kg. 2708.4  
CU  
273.5  
259.0  
272.2  
258.1  
272.2  
257.6  
270.8  
AL  
631  
286.2  
586  
600  
272.2  
549  
630  
285.8  
597  
598  
271.3  
560  
629  
285.3  
600  
598  
271.3  
562  
628  
284.9  
611  
597  
270.8  
572  
100  
120  
CU  
265.8  
249.0  
270.8  
254.0  
272.2  
254.9  
277.1  
259.5  
AL  
698  
316.6  
774  
666  
302.1  
742  
700  
317.5  
779  
668  
303.0  
747  
700  
317.5  
780  
668  
303.0  
748  
702  
318.4  
786  
670  
303.9  
753  
CU  
351.1  
336.6  
353.4  
338.8  
353.8  
339.3  
356.5  
341.6  
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Mechanical  
Specifications  
General  
Options  
Factory-assembled and wired air cooled  
condensing unit. The unit frame is  
constructed of 14 gauge welded  
galvanized steel. Panels and access  
doors are 14 or 16 gauge galvanized  
steel. Unit surface is phosphatized and  
finished withTrane Slate Gray air-dry  
paint. This paint finish exceeds ASTM-  
B117 500 hour continuous salt spray test.  
The unit coils are protected with steel  
louvered panels. These panels add  
strength to the cabinet and an  
Low Ambient Control  
Low ambient allows operation down to  
0 F through the use of fan cycling and  
head pressure control dampers. The  
control consists of a heavy gauge  
damper assembly, R-22 operator, tubing  
and grommet. All components are  
factory-mounted for both production  
and Packed Stock Plus units. Low  
ambient control must be ordered when  
the air-cooled condenser is matched  
with a CCKC heat recovery chiller.  
aesthetically pleasing appearance to the  
unit.  
Copper Finned Condenser Coil  
Refrigeration Circuits and Control  
Copper fins are mechanically bonded to  
copper tubes for use in corrosive  
atmospheres. Nominal unit capacity  
remains the same.  
The 20 to 30 ton units are single circuit.  
The 40 to 120 ton units are dual circuited.  
All the necessary controls to run the unit  
fans are provided. The control panel  
contains fan motor contactors, terminal  
point connection for compressor  
interlock and 115 volt control power  
transformer. Standard units will operate  
from 40 to 115 F. All units shipped with  
factory installed liquid line service  
valves.  
Spring Isolation Package  
Spring isolators reduce transmission of  
noise and vibration to building structure,  
equipment, and adjacent spaces.  
Isolators consist of a cast, spring loaded,  
telescoping housing as the isolation  
medium. Mountings include built-in  
leveling bolts, resilient inserts that act as  
centering guides, and ribbed neoprene  
acoustical pads bonded to the bottom of  
the isolator. The kit includes instructions  
for field installation.  
Condenser Coils and Fans  
Condenser coils have configurated  
aluminum fins mechanically bonded to  
copper tubing with integral subcooler.  
The coils are underwater burst/leak  
tested at 450 psi. Direct  
drive condenser fan motors have  
permanently lubricated ball bearings  
and thermal overload protection.  
Neoprene-in-shear Isolation Package  
Neoprene isolators reduce transmission  
of noise and vibration to building  
structure, equipment, and adjacent  
spaces. Isolators have a steel plate and  
base completely imbedded in neoprene.  
Mountings have a 1/4-inch deflection.  
The kit includes instructions for field  
installation. Available on 20 to 60-ton  
units only.  
Low Ambient Operation  
Standard ambient control allows  
operation down to 40 F with cycling of  
condenser fans. Optional low ambient  
allows operation down to 0 F with  
external damper assembly for head  
pressure control. Refer to Options  
section for details.  
ACDS-PRC001-EN  
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Literature Order Number  
File Number  
ACDS-PRC001-EN  
PL-RF-ACDS-PRC0001-EN-04-2001  
ACDS-DS-1 07/00  
Supersedes  
The Trane Com pany  
Unitary Products Group  
2701 Wilma Rudolph Blvd.  
Clarksville,TN 37040  
Stocking Location  
Inland-LaCrosse  
Since The Trane Company has a policy of continuous product and product data improvement, it reserves the  
right to change design and specifications without notice.  
An American Standard Company  
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