Trane Refrigerator CG PRC011 EN User Manual

Scroll Liquid Chillers  
20 to 60 Tons (60 Hz)  
17 to 50 Tons (50 Hz)  
Water-Cooled and Condenserless  
Built For the Industrial and Commercial Markets  
January 2002  
CG-PRC011-EN  
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Contents  
Features and Benefits  
Model Number Description  
General Data  
2
9
10  
11  
12  
13  
15  
24  
26  
28  
29  
34  
35  
36  
38  
39  
Application Considerations  
Selection Procedure  
Performance Adjustment Factors  
Performance Data  
Electrical Data  
Jobsite Connection  
Controls  
Dimensional Data  
Weights  
Options  
Typical Wiring Diagrams  
Features Summary  
Mechanical Specifications  
CG-PRC011-EN  
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Features and  
Benefits  
Compressor Protection  
Options  
Standard Features  
Microprocessor Control  
Microprocessor control means the scroll  
chiller maintains chilled water  
temperature more accurately, resulting in  
less temperature drift in the building. The  
microprocessor control also incorporates  
optimal chiller start-up logic (low and  
high ambient), load limiting, compressor  
anti-recycle timing, auto lead/lag  
function, compressor protection, and  
many other safety features. The smart”  
safety features provide complete fault  
protection without nuisance tripping.  
All compressors are individually  
protected against starting and running  
overload, under and over voltages,  
phase loss, phase reversal, high winding  
temperature and rapid recycling.  
Trane Integrated Comfortsystems  
communication  
Generic building automation systems  
(BAS) interface  
Chilled water reset (ambient, zone,  
return)  
Ice making  
Hot gas bypass  
Remote display/control panel  
Remote running indication and alarm  
contact  
Unit-mounted disconnect  
Gauges  
Sound Attenuation  
Neoprene Isolators  
Compressor cycle counter/hour meter  
Water regulating valves  
Condenser water temperature sensors  
BENEFIT: long unit life and added  
reliability.  
External Control  
Several external contacts are provided  
for custom control requirements  
including time of day scheduling and kW  
demand limiting.  
BENEFIT: more standard control and  
more flexible owner upgrades.  
BENEFIT: consistent, reliable operation,  
longer life.  
Other Standard Features  
Control power transformer  
Auto lead/lag (on or off)  
Solid-state motor protection  
Insulation (Armaflex II or equal)  
Evaporator and condenser water pump  
interlocks  
Filter-dryer  
Built-in loss of chilled water flow  
sensors  
Leaving Chilled Water  
Temperature Control  
The microprocessor actually monitors  
temperature and the rate of change over  
time, effectively controlling compressor  
loading for efficient chiller operation.  
BENEFIT: accurate and efficient building  
comfort, less energy wasted.  
Diagnostics and Display  
Chillers fit through standard single  
width door.  
The microprocessors operator interface  
is a menu-driven digital display. The  
display provides temperatures,  
pressures, setpoints and diagnostics  
readouts. Flashing display notifies  
operator of fault condition and  
diagnostics are saved until manually  
reset.  
BENEFIT: easy troubleshooting and  
control  
The standard ARI rating condition  
(54/44°F and 85°F/3.0 gpm per ton) and  
IPLV are ARI certified. All other ratings,  
including the following, are outside the  
scope of the certification program and  
are excluded:  
Glycol.  
50 Hz.  
Condenserless models CCAD.  
Water Chiller Systems Business Unit  
4
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Features and  
Benefits  
ASHRAE Standard 90.1 All Trane  
chillers meet and exceed the new  
efficiency levels mandated by ASHRAE  
Standard 90.1. This new standard  
requires higher efficiencies than past  
technologies can deliver. In fact, energy  
efficiency is so paramount the US  
Federal Government has adopted  
standard 90.1. Federal Executive Order  
mandates energy consuming devices  
procured must be in the top 25% of their  
class. In the case of chillers, ASHRAE  
90.1 is the product standard for  
Leading in Efficiency and Reliability with State-Of-The-Art  
Scroll Compressor Technology  
Efficiency  
Reliability  
The energy efficiency of the scroll chiller  
results in energy costs lower than any  
other comparable chiller. Full load  
efficiencies are improved beyond  
reciprocating chillers, but part load  
The Trane scroll chiller with many new  
improvements, now brings an exciting  
new compressor to the commercial  
market the Trane scroll compressor.  
Trane has designed the scroll  
efficiencies are simply unmatched by any compressor to be a leader in reliability.  
other manufacturer.  
HERES HOW:  
Superior efficiencies are obtained by  
combining many of the traditional scroll  
chiller energy efficient features with the  
Trane scroll compressor technology.  
HERES HOW:  
Simple design with 64 percent fewer  
parts than equal capacity reciprocating  
compressor.  
Scroll compliance allows liquid and dirt  
to pass through without damaging  
compressor (liquid slugging resistant).  
Advanced microelectronics protect both  
compressor and motor from typical  
electrical fault conditions.  
Scroll compressors have less than a  
third the torque variations of a  
reciprocating compressor.  
Years of laboratory testing have  
optimized compressor and chiller  
systems reliability.  
measurement.  
Risk. Not only has ASHRAE 90.1 been  
adopted by the US Federal Government,  
its expected to be adopted domestically,  
if not globally, in the future. Make sure  
that your chillers as well as your entire  
HVAC system complies, or you may be  
caught retrofitting your project with new  
equipment and paying extra design  
dollars if the code changes during  
construction.  
Scroll compressors positive  
displacement design  
Dual refrigerant circuits (40-60 ton units)  
Multiple compressors  
Optimum system design  
Reduced friction  
No valves  
Advanced heat transfer surfaces  
Tranes CGWE was designed with the  
end users requirements in mind.  
Efficiency and reliability were primary  
design concerns with this latest  
generation machine.  
Water-cooled scroll chillers are factory  
tested.  
Scroll Chiller Energy Usage Savings  
Operating Torque  
10-20% Annual Energy Savings  
Typical Reciprocating  
Chiller  
Scroll Chiller  
Chiller Load (%)  
Chart illustrates low torque variation of the  
Trane scroll compressor vs reciprocating  
compressor.  
Graph illustrates Trane scroll chillers superior annual energy costs vs typical reciprocating  
chillers.  
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Features and  
Benefits  
Trane Scroll Compressor  
Maximum Efficiency with Enhanced Reliability  
General  
The scroll compressor has two scrolls.  
The top scroll is fixed and the bottom  
scroll orbits. Each scroll has walls in a  
spiral shape that intermesh.  
Inlet-First Orbit  
As the bottom scroll orbits, two  
refrigerant gas pockets are formed and  
enclosed.  
Compression-Second Orbit  
The refrigerant gas is compressed as the  
volume is reduced closer to the center of  
the scroll.  
Discharge-Third Orbit  
The gas is compressed further and  
discharged through a small port in the  
center of the fixed scroll.  
Scroll Principal Components  
This is a cutaway view of a hermetic,  
scroll compressor, showing the relative  
positions of the principal components.  
Shown is a Trane 10-ton, 3600 rpm, 60 Hz  
[3000 rpm, 50 Hz] scroll compressor as  
an example.  
The principle of operation of this  
example compressor is as follows: The  
suction gas is drawn into the compressor  
at A. The gas then passes through the  
gap between the rotor and stator, B,  
cooling the motor, before it enters the  
compressor housing, C. Here, the  
velocity of the gas is reduced, causing a  
separation of the entrained oil from the  
gas stream. The gas then enters the  
intake chamber, D, that encircles the  
scrolls.  
Finally, the suction gas is drawn into the  
scroll assembly where it is compressed  
and discharged into the dome of the  
compressor. The dome of this example  
compressor acts as a hot gas muffler  
which dampens the pulsations before the  
gas enters the discharge line, E.  
6
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Features and  
Benefits  
Trane Value Means Fast Availability,  
Easy Installation and Quality Service  
Packed Stock For Fast Delivery  
When your project is a fast-track job,  
Trane can help. A wide range of chillers  
are stocked and can be shipped soon  
after receipt of your order.  
Single-Source Responsibility  
A wide range of products designed for  
complete compatibility are available with  
the scroll chillers. Your entire building  
comfort system can be completed using  
components from Trane.  
Build To Order  
Need a special chiller fast? Think Trane  
scroll chillers. New manufacturing  
technology and inventory control means  
the fastest delivery schedule in the  
industry. Wide array of standard options  
provides the right chiller for the job fast.  
The Added Value of Applications  
Expertise  
With the scroll chiller you get  
applications expertise and know-how  
from a Trane sales engineer. Trane has  
more than 1500 sales engineers across  
the country each one a degreed  
engineer. Trane sales engineers have  
creative ideas and solutions to difficult  
building comfort system design  
problems. You can take full advantage of  
their knowledge in designing a quality,  
dependable comfort system.  
Installation  
Only one power connection hook-up —  
for fast and inexpensive installation.  
Integrated Comfortsystem means  
only single pair connections are  
required for control interfaces and  
therefore, lower total installation costs.  
Factory refrigerant and oil charged  
units help speed installation.  
All units easily fit through a standard  
single width door.  
Theres more. Your Trane sales engineer  
is backed by the Trane world  
headquarters staff of applications  
experts, regarded as the best in the  
industry. The C.D.S. Network provides  
Trane sales engineers and many  
independent design and consulting firms  
direct access to many comfort system  
application, selection and design  
programs.  
Built-in chilled water flow sensors  
mean no field-installed flow switches  
are required.  
Microprocessor displays both entering  
and leaving chilled water temperatures.  
No chilled water thermometers are  
required.  
You get a quality chiller, properly  
selected and applied in a properly  
designed system. That means a comfort  
system that works, the first time!  
Easy Serviceability  
Trane 20 through 60 ton scroll chillers  
are designed with service personnel in  
mind. All major components are  
replaceable without complete unit  
disassembly. Plus, the microprocessor  
control panel provides diagnostic  
capability to aid service personnel in  
analyzing problems. Therefore, if a  
problem does occur, the chiller can be up  
and running in a shorter period of time.  
Quick and Complete Submittals  
The Trane commitment to value-added  
products doesnt stop at just the  
products, we are committed to total  
customer satisfaction. Part of this  
commitment is to provide quick,  
complete, readable and accurate  
drawings.  
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Features and  
Benefits  
The Trane Difference —  
The Integrated ComfortSystem  
No Other Microprocessor Does More So  
You Can Do Less  
Twisted Pair  
Communications  
The new microprocessor control system  
enhances the Trane scroll chiller by  
providing advanced technology to  
control chiller operation and associated  
sensors, actuators, relays and switches.  
Operator interface is improved and  
easy to use. Panel displays all operating  
and safety codes with complete  
diagnostic information. Over 40  
diagnostics are included.  
Connects To:  
Trane Integrated  
Comfort Systems  
(No System Control Panel  
(SCP) is necessary)  
Smart safety features shut down  
cooling only if absolutely necessary,  
preventing nuisance safety trip outs.  
Microprocessor easily interfaces with  
Trane Tracerbuilding management  
computer for Integrated Comfort  
system benefits; all with a single  
twisted pair wire!  
Trane Integrated Comfort  
System  
The Future Is Now!  
Simple  
Factory packaging for smooth start-up.  
Easy to install with only a single twisted  
wire pair to the central Tracer building  
management system.  
Constant, comprehensive monitoring  
tracks equipment operation and takes  
control to keep tenants comfortable.  
Optional override buttons on each floor  
allow tenants to have control after  
hours. After-hours use is automatically  
logged to allow tenant billing.  
Review building performance at a  
glance with automatically generated  
reports and logs.  
Enhanced service and building  
management capability through remote  
diagnostics and control.  
Trane Building Management Network  
allows control from across town or  
across the country.  
At A Lower Cost  
No Bad Jobs  
Factory packaged controls and sensors  
reduce jobsite labor costs while  
assuring proper installation.  
There is another benefit from single-  
source responsibility and the Trane  
Integrated Comfort systems. With Trane  
ICS, you get a single-source supplier of  
the system from the chillers to the air  
handlers to the controls. Trane is the  
only HVAC manufacturer which can  
provide the entire system.  
Single twisted pair wire  
communication technology  
dramatically simplifies installation and  
reduces jobsite installation costs.  
Because the unit has been factory  
tested, there are no system problems;  
allowing smoother start-up, reducing  
follow-up costs.  
Building block approach allows you to  
change your system without  
redundancy and wasted cost.  
For more information on how Trane  
scroll chillers and an Integrated Comfort  
system can benefit your next HVAC  
project, contact your nearest Trane sales  
office.  
A Dependable System From A Single,  
Reliable Source  
System design, equipment supply and  
service support all available from Trane.  
Factory testing of all Trane equipment  
ensures the system works.  
8
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Model Number  
Description  
Model Number Description  
CGW E 020 4 C XX  
H
A
T
1
0
0
0
0
0
L
A
1,2,3 4 5,6,7 8 10,11 12  
9
13 14 15 16 17 18  
19 20 21 22+  
Digits 01, 02, 03, Chiller Series  
CGW = Water-Cooled Scroll Chiller  
CCA = Scroll Compressor Chiller  
Digit 15 Evaporator Leaving  
Temperature  
1 = Standard 40-60 F  
2 = Low Temperature 25-39 F  
3 = Low Temperature 10-25 F  
4 = Icemaking 20-60 F  
Digits 04, Development Sequence  
Digits 05, 06, 07 Nominal Capacity  
020 = 20 Tons (Simplex Circuit,  
2 Compressors)  
025 = 25 Tons (Simplex Circuit,  
2 Compressors)  
030 = 30 Tons (Simplex Circuit,  
2 Compressors)  
040 = 40 Tons (Duplex Circuit,  
4 Compressors)  
S = Special Customer Option  
Digit 16 Remote Alarm Contacts  
0 = No Remote Alarm Contacts  
R = Remote Alarm Contacts  
Digit 17 Condenser Entering  
Temperature  
0 = Remote Condenser  
050 = 50 Tons (Duplex Circuit,  
4 Compressors)  
060 = 60 Tons (Duplex Circuit,  
4 Compressors)  
1 = Standard Temperature 60-90 F  
4 = High Temperature 90-130 F  
S = Special Customer Option  
Digit 18 Evap Tube Type  
F = Standard Finned Tubes  
S = Special Customer Option  
Digit 08 Unit Voltage  
D = 380/60/3  
G = 200-230/60/3  
N = 400/50/3  
S = Special Customer Option  
4 = 460/60/3  
5 = 575/60/3  
Digit 19 Cond Tube Type  
0 = Remote Cond  
F = Standard Finned Tubes  
S = Special Customer Option  
Digit 20 Hot Gas Bypass  
0 = Without Hot Gas Bypass  
B = With Hot Gas Bypass  
Digit 09 Cooling Type  
C = Standard Cooling  
S = Special Customer Option  
Digit 21 Water Box Orientation  
L = Left Hand  
R = Right Hand  
S = Special Customer Option  
Digit 10, 11 Design Sequence  
XX = Factory Assigned  
Digit 12 Condenser Configuration  
H = High Efficiency Condenser  
0 = No Unit Condenser  
Digit 22+ Add-on Options  
A = Unit Sound Attenuator  
C = CSA Listing  
(CCA, CUA Units)  
Digit 13 Control Interface  
A = Standard Microprocessor Interface  
B = Multi-Wire Interface (GBAS)  
C = Chilled Water Reset Return Water,  
No Comm.  
G = Unit Gauges  
H = Hour Meter and Cycle Counter  
L = Low Ambient Lock-Out Thermostat  
P = Phase Reversal Protection  
R = Remote Display  
D = Chilled Water Reset Zone Air,  
No Comm.  
T = Tracer Monitoring Package  
U = UL Listing  
E = Ice-Making Control  
F = Remote Display  
G = Chilled Water Reset Outside Air  
S = Special Customer Options  
T = Bi-Directional Interface (Tracer)  
Digit 14 Panel Connections  
D = Disconnect Switch  
S = Special Customer Option  
T = Terminal Block  
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General Data  
Table GD-1 General Data CGWE Water-Cooled Chiller  
Size  
20  
25  
30  
40  
50  
60  
Compressor  
Quantity (1)  
2
2
2
2/2  
2/2  
2/2  
Nominal Size (tons) (2)  
Steps of Unloading (%)  
Evaporator  
10/10  
100,50  
10/15  
100,60  
15/15 10-10/10-10  
100,50 100,75,50,25 100,80,60,30  
10-15/10-15  
15-15/15-15  
100,75,50,25  
Water Storage  
(Gallons)  
12  
45  
24  
1.5  
72  
4.5  
11  
42  
30  
1.9  
90  
5.7  
16  
61  
36  
2.3  
108  
6.8  
13  
49  
48  
3.0  
144  
9.1  
21  
80  
60  
3.8  
180  
11.4  
40  
151  
84  
4.7  
252  
(Liters)  
(GPM)  
(L/Sec)  
(GPM)  
(L/Sec)  
Min. Flow  
Max. Flow  
17.3  
Condenser  
Water Storage  
(Gallons)  
(Liters)  
(GPM)  
(L/Sec)  
(GPM)  
(L/Sec)  
8.9  
33.7  
30  
1.9  
90  
8.0  
30.3  
36  
2.3  
108  
11.7  
44.3  
50  
3.2  
146  
19.9  
75.3  
60  
3.8  
180  
18.2  
68.9  
72  
4.5  
216  
23.5  
88.9  
90  
5.7  
325  
Min. Flow  
Max. Flow  
5.7  
6.8  
9.2  
11.4  
13.6  
20.5  
General Unit  
Refrigerant  
R-22  
R-22  
R-22  
R-22  
R-22  
R-22  
No. of Independent  
Refrigerant Circuits  
1
50  
22.7  
16  
1
50  
22.7  
22  
1
90  
40.8  
28  
2
2
2
Refrigerant  
Charge  
(lb)  
(kg)  
50/50  
22.7/22.7  
16/16  
50/50  
22.7/22.7  
22/22  
75/75  
34/34  
28/28  
Oil Charge  
(Pints)  
(L)  
7.6  
10.4  
13.2  
7.6/7.6  
10.4/10.4  
13.3/13.3  
Notes  
1. Data containing information on two circuits shown as follows: CKT 1/CKT 2  
2. Nominal compressor sizes based on 69 Hz.  
Table GD-2 General Data CCAD Compressor-Chiller  
Size  
20  
25  
30  
40  
50  
60  
Compressor  
Quantity (1)  
2
2
2
2/2  
2/2  
2/2  
Nominal Size (tons) (2)  
Steps of Unloading (%)  
Evaporator  
10/10  
100,50  
10/15  
100,60  
15/15 10-10/10-10  
100,50 100,75,50,25 100,80,60,30  
10-15/10-15  
15-15/15-15  
100,75,50,25  
Water Storage  
(Gallons)  
12  
45  
24  
1.5  
72  
4.5  
11  
42  
30  
1.9  
90  
5.7  
16  
61  
36  
2.3  
108  
6.8  
13  
49  
48  
3.0  
144  
9.1  
21  
80  
60  
3.8  
180  
11.4  
19  
72  
84  
4.7  
252  
17.3  
(Liters)  
(GPM)  
(L/Sec)  
(GPM)  
(L/Sec)  
Min. Flow  
Max. Flow  
General Unit  
Refrigerant  
R-22  
R-22  
R-22  
R-22  
R-22  
R-22  
No. of Independent  
Refrigerant Circuits  
1
6
2.7  
16  
7.6  
1
8
3.6  
22  
1
12  
5.4  
28  
2
6/6  
2.7/2.7  
16/16  
7.6/7.6  
2
8/8  
3.6/3.6  
22/22  
10.4/10.4  
2
Refrigerant  
Charge  
(lb)  
(kg)  
12/12  
5.5/5.5  
28/28  
Oil Charge  
(Pints)  
(L)  
10.4  
13.2  
13.3/13.3  
Notes:  
1. Data containing information on two circuits shown as follows: CKT 1/CKT 2  
2. Nominal compressor sizes based on 69 Hz.  
10  
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Application  
Considerations  
Unit Location  
Water Treatment  
Units should be installed indoors where  
exposure to rain or water splash is  
minimal. A level foundation or flooring  
must be provided which will support at  
least 150 percent of the operating weight  
Use of untreated or improperly treated  
water in chillers may result in scaling,  
erosion, corrosion, algae or slime. It is  
recommended that the services of a  
qualified water treatment specialist be  
of the unit. The chiller foundation must be engaged to determine what treatment, if  
rigid to reduce vibration transmission to a any, is advisable. Trane assumes no  
minimum. Use of vibration isolators is  
recommended for applications with  
sensitive vibration and noise criteria.  
responsibility for the results of untreated,  
or improperly treated water.  
Water Pumps  
Allow service clearance for compressor  
removal as well as evaporator and  
condenser tube removal.  
Avoid specifying or using 3600 rpm, 60  
Hz [3000 rpm, 50 Hz] condenser water  
and chilled water pumps. Such pumps  
may operate with objectional noise and  
vibration. In addition, a low frequency  
beat may occur due to the slight  
difference in operating rpm between  
water pumps and scroll compressor  
motors. Where noise and vibration-free  
operation is important, Trane  
Condenser Water Limitations  
Water-cooled scroll chillers start and  
operate satisfactorily over a range of load  
conditions with uncontrolled entering  
water temperature.  
Reducing the condenser water  
temperature is an effective method of  
lowering the power input required.  
However, by reducing the condenser  
water temperature beyond certain limits,  
the effect causes a reduction in the  
pressure drop across the thermal  
expansion valve to a point when system  
instability may occur.  
encourages the use of 1750 rpm, 60 Hz  
[1450 rpm, 50 Hz] pumps.  
Remote Condenser  
Remote condensers should be located  
as close as possible to the chiller to  
ensure minimum pressure drops of  
discharge refrigerant. If non-Trane  
condensers are provided, a subcooling  
circuit must be provided in order to  
achieve cataloged performances  
(16°F [-8.9°C] subcooling).  
In general, continuous machine operation  
with entering condenser water  
temperature below 60°F [15.5°C] is not  
recommended. When the condenser  
water temperature is expected to drop  
below 60°F [15.5°C], it is recommended  
that some form of condenser water  
temperature control be used to ensure  
optimal machine performance.  
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Selection  
Procedures  
The chiller capacity tables on the  
following pages cover the most  
frequently encountered leaving water  
temperatures. For temperature drops  
other than 10°F [5.6°C], refer to Table  
SP-1, Performance Adjustment Factors,  
shown below.  
Scroll Liquid Chiller (CGWE) —  
Selection Example:  
Compressor Chiller (CCAD) Selection  
Example:  
Select the unit for the following  
conditions:  
Given:  
System Load = 40 tons  
Leaving Chilled Water Temperature  
(LCWT) = 44°F [6.7°C]  
Entering Condenser Water Temperature  
(EWT) = 85°F [29.4°C]  
Leaving Condenser Water Temperature  
(LWT) = 95°F [35°C]  
A compressor chiller is required to  
produce 45 tons when matched with an  
air-cooled condenser. The leaving chilled  
water temperature is 44°F [6.7°C]. The  
evaporator temperature differential is  
10°F [5.6°C]. The ambient temperature is  
95°F [35°C].  
Additional chiller selections and  
performance information can be  
obtained through your local Trane sales  
office.  
Chilled Water Temperature Drop  
= 10°F [5.6°C]  
To select a Trane water-cooled scroll  
chiller, the following information is  
required:  
1. Select the nominal unit size. The  
performance data is tabulated by  
leaving chilled water temperature. For  
example, the standard unit capacities  
at 44°F [6.7°C] leaving chilled water  
temperature are found on page 21.  
The system that best meets the  
tonnage requirement is a CCAD 50  
matched with a CAUC C50. The unit  
capacity is 47.1 tons with a kW input of  
56.3. The compressor chiller EER is  
10.0.  
1. From Table PD-2 (Performance Data), a  
CGWE 40 at the given conditions will  
produce 39.4 tons with a compressor  
power input of 30.3 kW and a unit EER  
of 15.6.  
1. Design load in tons of refrigeration  
2. Design chilled water temperature drop  
2. To determine the evaporator and  
condenser water pressure drops, the  
flow rates (gpm) must be determined.  
Using the formula above, this unit  
would require an evaporator flow rate  
of 95 gpm and a condenser flow rate  
of 115 gpm. (Compressor kW is found  
in the same table as the capacity.) The  
Evaporator Pressure Drop Curve,  
Figure PD-1, indicates that 95 gpm  
through a 40 ton evaporator results in  
a pressure drop of 13.8 feet of water.  
The Condenser Pressure Drop curve,  
Chart PD-2, indicates 115 gpm through  
a 40 ton condenser results in a  
3. Design leaving chilled water  
temperature  
4. Entering condenser water temperature  
Evaporator flow rate (gpm) can be  
determined by using the following  
formula:  
2. Calculate the required chilled water  
flow rate.  
gpm =  
Tons x 24  
Chilled Water T (°F)  
3. gpm =  
Tons x 24  
Chilled Water T (°F)  
Condenser flow rate (gpm) can be  
determined by using the following  
formula:  
From this example,  
gpm = 47.1 x 24 = 113  
10  
gpm =  
24 x (tons + (0.285 x compressor kW)  
pressure drop of 14 feet of water.  
4. Determine the evaporator water  
pressure drop. The evaporator water  
pressure drop is located on page 22.  
Entering the evaporator chart at 113  
gpm, the pressure drop for a CCAD 50  
evaporator is 7.9 feet.  
Condenser Water T (°F)  
3. The final unit selection is:  
Qty (1) CGWE 40  
Table SP-1 Performance Adjustment  
Factors  
Cooling Capacity = 39.4 tons  
Fouling Water  
Evap.  
Cond.  
GPM  
Entering/Leaving Chilled Water  
Factor Delta T Capacity GPM  
kW  
5. Unit Selection  
8
10  
12  
14  
16  
0.997  
1.000  
1.007  
1.012  
1.017  
1.231 1.000 0.997  
1.000 1.000 1.000  
0.829 1.001 1.006  
0.714 1.001 1.010  
0.628 1.002 1.014  
Temperatures = 54/44°F [12.2/6.7°C]  
0.00010  
The above procedure shows the  
proper selection for this example is a  
CCAD 50 with a CAUB C50 condenser  
operating as follows:  
Chilled water flow rate = 95 gpm  
Evaporator water pressure drop =  
13.8 feet  
Note:  
This selection procedure is for water only as the  
solution.  
Cooling water flow = 115 gpm  
Capacity = 47.1  
Condenser water pressure drop =  
Entering/leaving chilled water  
14 feet  
temperature = 54/44°F [12.2/6.7°C]  
Compressor power input = 30.3 kW  
Chilled water flow rate = 113 gpm  
Unit EER = 15.6  
Evaporator water pressure drop =  
7.9 feet  
Compressor power input = 56.3  
Unit EER = 10.0  
12  
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Performance  
Adjustment Factors  
Figure PAF-1 Ethylene Glycol Performance Adjustment Factors  
Figure PAF-2 Propylene Glycol Performance Adjustment Factors  
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Performance  
Adjustment Factors  
Figure PAF-3 Ethylene Glycol and Propylene Glycol Solution Freezing Points  
Table PAF-1 Pressure Drop Correction Factor  
Leaving  
Water  
Percent Of Ethylene Glycol  
Temperature  
0
10  
20  
30  
40  
50  
0
10  
20  
30  
40  
50  
60  
NA  
NA  
NA  
NA  
1.00  
1.00  
1.00  
NA  
NA  
NA  
1.15  
1.12  
1.09  
1.05  
NA  
NA  
1.26  
1.22  
1.19  
1.16  
1.09  
NA  
1.50  
1.46  
1.42  
1.38  
1.34  
1.31  
1.16  
1.60  
1.55  
1.51  
1.47  
1.42  
1.39  
1.21  
1.38  
1.34  
1.30  
1.26  
1.23  
1.12  
Table PAF-2 Pressure Drop Correction Factor  
Leaving  
Water  
Percent Of Propylene Glycol  
Temperature  
0
10  
20  
30  
40  
50  
0
10  
20  
30  
40  
50  
60  
NA  
NA  
NA  
NA  
1.00  
1.00  
1.00  
NA  
NA  
NA  
1.11  
1.07  
1.04  
1.00  
NA  
NA  
1.24  
1.19  
1.15  
1.11  
1.03  
NA  
1.63  
1.55  
1.46  
1.39  
1.33  
1.28  
1.13  
1.90  
1.74  
1.62  
1.53  
1.45  
1.39  
1.20  
1.42  
1.34  
1.28  
1.23  
1.19  
1.08  
14  
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Performance  
Data  
Full Load  
Performance  
Table PD-1 60 Hz CGWE Performance Data in English Units  
Evaporator  
Leaving Wate  
Temperature (F)  
Entering Condenser Water Temperature (F)  
Unit  
Size  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
75  
kW  
80  
kW  
85  
90  
95  
Tons  
19.2  
23.8  
28.3  
38.0  
47.0  
57.7  
20.0  
24.7  
29.4  
39.5  
48.9  
59.9  
20.8  
25.7  
30.6  
41.1  
50.8  
62.1  
21.5  
26.6  
31.7  
42.6  
52.8  
64.4  
22.4  
27.6  
32.9  
44.2  
54.7  
66.7  
23.2  
28.7  
34.1  
45.9  
56.8  
69.1  
EER  
16.7  
16.5  
16.4  
16.8  
16.6  
16.4  
17.3  
17.1  
17.0  
17.3  
17.2  
17.0  
17.3  
17.7  
17.6  
17.9  
17.7  
17.6  
18.5  
18.3  
18.2  
18.5  
18.4  
18.1  
19.1  
19.0  
18.8  
19.1  
19.0  
18.7  
19.7  
19.6  
19.5  
19.8  
19.6  
19.3  
Tons  
19.0  
23.2  
27.6  
37.2  
46.0  
56.4  
19.8  
24.2  
28.7  
38.7  
47.8  
58.5  
20.5  
25.1  
29.9  
40.2  
49.7  
60.7  
21.3  
26.1  
31.0  
41.7  
51.6  
63.0  
22.1  
27.0  
32.2  
43.3  
53.6  
65.2  
22.9  
28.0  
33.4  
44.9  
55.5  
67.6  
EER  
15.7  
15.4  
15.3  
15.6  
15.4  
15.3  
16.3  
15.9  
15.8  
16.1  
16.0  
15.8  
16.8  
16.5  
16.4  
16.7  
16.5  
16.3  
17.4  
17.1  
16.9  
17.3  
17.1  
16.9  
18.0  
17.6  
17.5  
17.8  
17.7  
17.4  
18.6  
18.2  
18.1  
18.4  
18.2  
18.0  
Tons  
18.6  
22.7  
27.0  
36.5  
44.9  
55.0  
19.3  
23.6  
28.0  
37.8  
46.7  
57.2  
19.9  
24.5  
29.2  
39.4  
48.6  
59.4  
20.9  
25.5  
30.3  
40.8  
50.4  
61.5  
21.6  
26.4  
31.4  
42.4  
52.3  
63.7  
22.4  
27.4  
32.6  
43.9  
54.3  
66.0  
kW  
EER  
14.6  
14.3  
14.1  
14.5  
14.3  
14.2  
15.1  
14.8  
14.7  
15.0  
14.8  
14.7  
15.5  
15.4  
15.3  
15.6  
15.4  
15.2  
16.2  
15.8  
15.7  
16.0  
15.9  
15.7  
16.7  
16.4  
16.2  
16.6  
16.4  
16.2  
17.2  
16.9  
16.8  
17.1  
16.9  
16.7  
Tons  
18.1  
22.1  
26.3  
35.5  
43.8  
53.7  
18.9  
23.0  
27.3  
36.9  
45.6  
55.7  
19.6  
23.9  
28.4  
38.4  
47.4  
57.9  
20.4  
24.9  
29.5  
39.9  
49.2  
60.0  
21.1  
25.8  
30.7  
41.4  
51.1  
62.2  
21.9  
26.8  
31.8  
42.9  
53.0  
64.5  
kW  
EER  
13.5  
13.2  
13.1  
13.4  
13.2  
13.1  
14.0  
13.7  
13.6  
13.9  
13.7  
13.6  
14.5  
14.2  
14.0  
14.4  
14.2  
14.1  
15.0  
14.7  
14.5  
14.8  
14.7  
14.5  
15.5  
15.2  
15.0  
15.3  
15.2  
15.0  
16.0  
15.7  
15.6  
15.8  
15.7  
15.5  
Tons  
17.7  
21.6  
25.6  
34.6  
42.7  
52.3  
18.4  
22.4  
26.6  
36.0  
44.4  
54.3  
19.1  
23.3  
27.7  
37.4  
46.2  
56.4  
19.9  
24.2  
28.7  
38.9  
48.0  
58.5  
20.6  
25.2  
29.9  
40.4  
49.8  
60.7  
21.4  
26.1  
31.0  
41.9  
51.7  
62.9  
kW  
EER  
12.4  
12.2  
12.1  
12.4  
12.2  
12.1  
12.9  
12.6  
12.5  
12.8  
12.7  
12.6  
12.9  
13.1  
13.0  
13.3  
13.1  
13.0  
13.8  
13.5  
13.4  
13.7  
13.6  
13.4  
14.3  
14.0  
13.9  
14.2  
14.0  
13.9  
14.8  
14.5  
14.4  
14.6  
14.5  
14.3  
13.8  
17.2  
20.7  
27.3  
34.1  
42.1  
13.9  
17.3  
20.8  
27.4  
34.2  
42.3  
13.9  
17.4  
20.8  
27.5  
34.4  
42.5  
14.0  
17.4  
20.9  
27.6  
34.5  
42.6  
14.0  
17.5  
21.0  
27.8  
34.6  
42.8  
14.1  
17.6  
21.1  
27.9  
34.8  
43.0  
14.5  
18.1  
21.7  
28.7  
35.8  
44.2  
14.6  
18.2  
21.8  
28.8  
36.0  
44.4  
14.7  
18.3  
21.9  
28.9  
35.1  
44.6  
14.7  
18.3  
22.0  
29.0  
36.3  
44.8  
14.8  
18.4  
22.1  
29.2  
35.4  
45.0  
14.8  
18.5  
22.1  
29.3  
36.5  
45.1  
15.4  
19.1  
22.9  
30.2  
37.7  
46.5  
15.4  
19.2  
23.0  
30.3  
37.9  
46.7  
15.4  
19.1  
22.9  
30.3  
37.8  
46.8  
15.5  
19.3  
23.1  
30.6  
38.2  
47.1  
15.6  
19.4  
23.2  
30.7  
38.3  
47.3  
15.6  
19.4  
23.3  
30.8  
38.5  
47.5  
16.1  
20.1  
24.1  
31.8  
39.7  
49.0  
16.2  
20.2  
24.2  
32.0  
39.9  
49.2  
16.3  
20.3  
24.3  
32.1  
40.1  
49.4  
16.3  
20.3  
24.4  
32.3  
40.2  
49.6  
16.4  
20.4  
24.5  
32.4  
40.4  
49.8  
16.5  
20.5  
24.6  
32.5  
40.5  
50.0  
17.1  
21.2  
25.4  
33.6  
41.0  
51.7  
17.1  
21.3  
25.5  
33.8  
42.1  
51.9  
17.2  
21.4  
25.6  
33.9  
42.3  
52.1  
17.3  
21.5  
25.7  
34.1  
42.4  
52.3  
17.3  
21.6  
25.8  
34.2  
42.6  
52.5  
17.4  
21.6  
25.0  
34.3  
42.8  
52.8  
40  
42  
44  
46  
48  
50  
Notes:  
1. Rated in accordance with ARI Standard 550/590-98 with fouling factors of 0.0001 in the evaporator and 0.00025 in the condenser.  
2. Consult Trane representative for performance at temperatures outside of the ranges shown.  
3. kW input is for compressors only.  
4. EER = Energy Efficiency Ratio (Btu/watt-hout). Power inputs include compressors and control power.  
5. Ratings are based on an evaporator temperature drop of 10°F.  
6. Interpolation between points is permissible. Extrapolation is not permitted.  
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Performance  
Data  
Full Load  
Performance  
Table PD-2 60 Hz CGWE Performance Data in Metric Units  
Evaporator  
Leaving Water  
Temperature (C)  
Entering Condenser Water Temperature (C)  
Unit  
Size  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
25  
30  
35  
kWo  
70.4  
87.1  
104.0  
139.5  
172.4  
211.0  
75.7  
kWi  
14.2  
17.7  
21.2  
28.0  
35.0  
43.2  
14.3  
17.8  
21.4  
28.2  
35.2  
43.5  
14.4  
17.9  
21.5  
28.4  
35.5  
43.8  
COP  
5.0  
4.9  
4.9  
5.0  
4.9  
4.9  
5.3  
5.3  
5.2  
5.3  
5.3  
5.2  
5.6  
5.6  
5.5  
5.6  
5.6  
5.5  
kWo  
67.7  
83.5  
kWi  
15.5  
19.4  
23.2  
30.7  
38.3  
47.3  
15.7  
19.5  
23.4  
30.9  
38.6  
47.6  
15.8  
19.6  
23.6  
31.2  
35.2  
48.0  
COP  
4.4  
4.3  
4.3  
4.4  
4.3  
4.3  
4.6  
4.6  
4.6  
4.7  
4.6  
4.6  
21.7  
21.5  
21.4  
21.8  
23.3  
21.2  
kWo  
64.7  
79.8  
kWi  
17.1  
21.8  
25.6  
33.8  
42.2  
52.0  
17.3  
21.5  
25.7  
34.1  
42.5  
52.4  
17.4  
21.6  
25.9  
34.3  
42.8  
52.8  
COP  
3.8  
3.7  
3.7  
3.8  
3.7  
3.7  
4.0  
4.0  
4.0  
4.1  
4.0  
4.0  
4.3  
4.8  
4.2  
4.3  
4.2  
4.2  
6
8
99.6  
95.1  
133.9  
165.3  
202.2  
72.7  
128.1  
157.9  
193.1  
69.6  
93.5  
89.8  
85.8  
111.4  
150.3  
185.3  
226.0  
80.8  
106.8  
144.5  
177.7  
216.8  
77.7  
102.0  
138.3  
169.9  
207.2  
74.4  
99.9  
95.9  
91.8  
10  
119.0  
159.9  
197.9  
240.7  
114.1  
153.8  
185.9  
231.0  
109.1  
147.3  
181.7  
221.0  
Notes:  
1. Rated in accordance with ARI Standard 550/590-98 with fouling factors of 0.0000176 in the evaporator and  
0.000044 in the condenser.  
2. Consult Trane representative for performance at temperatures outside of the ranges shown.  
3. kWi input is for compressors only.  
4. COP = Coefficient of Performance (kWo/total kW). Total kW include compressors and control power.  
5. Ratings are based on an evaporator temperature drop of 5.6 C.  
6. Interpolation between points is permissible. Extrapolation is not permitted.  
16  
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Performance  
Data  
Full Load  
Performance  
Table PD-350 Hz CGWE Performance Data in English Units  
Evaporator  
Leaving Wate  
Temperature (F)  
Entering Condenser Water Temperature (F)  
Unit  
Size  
20  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
75  
kW  
80  
kW  
85  
90  
95  
Tons  
19.2  
16.8  
20.7  
24.6  
33.2  
41.0  
50.4  
17.4  
21.5  
25.6  
34.5  
42.6  
52.3  
18.1  
22.4  
26.6  
35.8  
44.3  
54.2  
18.8  
23.2  
27.6  
37.2  
45.9  
56.1  
19.5  
24.1  
28.6  
38.6  
47.6  
58.1  
EER  
16.7  
18.1  
17.9  
17.7  
18.2  
17.9  
17.9  
18.8  
18.6  
18.4  
18.9  
18.6  
18.5  
19.5  
19.2  
19.1  
19.6  
19.3  
19.1  
20.2  
19.9  
19.7  
20.3  
20.0  
19.8  
20.9  
20.6  
20.4  
21.0  
20.7  
20.4  
Tons  
19.0  
16.4  
20.3  
24.1  
32.5  
40.1  
49.3  
17.1  
21.1  
25.1  
33.8  
41.7  
51.2  
17.7  
21.9  
26.0  
35.1  
43.3  
53.1  
18.4  
22.7  
27.0  
36.4  
45.0  
55.0  
19.1  
23.6  
28.0  
37.8  
46.7  
57.0  
EER  
15.7  
16.8  
16.6  
16.5  
16.9  
16.7  
16.7  
17.4  
17.3  
17.1  
17.5  
17.3  
17.2  
18.1  
17.9  
17.7  
18.2  
17.9  
17.8  
18.8  
18.5  
18.4  
18.8  
18.6  
18.4  
19.4  
19.2  
19.0  
19.5  
19.2  
19.0  
Tons  
18.6  
16.0  
19.8  
23.6  
31.8  
39.2  
48.2  
16.7  
20.6  
24.5  
33.0  
40.8  
50.1  
17.3  
21.4  
25.5  
34.3  
42.4  
51.9  
18.0  
22.2  
26.5  
35.6  
44.0  
53.9  
18.7  
23.1  
27.5  
37.0  
45.7  
55.8  
kW  
EER  
14.6  
15.5  
15.4  
15.3  
15.6  
15.5  
15.4  
16.1  
16.0  
15.9  
16.2  
16.0  
16.0  
16.7  
16.6  
16.5  
16.8  
16.6  
16.5  
17.3  
17.2  
17.0  
17.4  
17.2  
17.1  
18.0  
17.8  
17.6  
18.0  
17.8  
17.7  
Tons  
18.1  
15.6  
19.4  
23.0  
31.0  
38.3  
47.1  
16.3  
20.1  
24.0  
32.2  
39.9  
48.9  
16.9  
20.9  
24.9  
33.5  
41.4  
50.8  
17.6  
21.7  
25.9  
34.8  
43.0  
52.6  
18.3  
22.6  
26.8  
36.1  
44.6  
54.5  
kW  
EER  
13.5  
14.3  
14.2  
14.1  
14.4  
14.3  
14.3  
14.9  
14.8  
14.7  
14.9  
14.8  
14.8  
15.4  
15.3  
15.2  
15.5  
15.4  
15.3  
16.0  
15.9  
15.8  
16.1  
15.9  
15.8  
16.6  
16.4  
16.3  
16.6  
16.5  
16.3  
Tons  
17.7  
15.3  
18.9  
22.5  
30.2  
37.4  
46.0  
15.9  
19.6  
23.4  
31.4  
38.9  
47.7  
16.5  
20.4  
24.3  
32.7  
40.4  
49.5  
17.2  
21.2  
25.2  
34.0  
42.0  
51.4  
17.8  
22.0  
26.2  
35.3  
43.6  
53.3  
kW  
EER  
12.4  
13.1  
13.1  
13.0  
13.2  
13.1  
13.2  
13.7  
13.6  
13.5  
13.7  
13.6  
13.7  
14.2  
14.1  
14.0  
14.2  
14.2  
14.1  
14.7  
14.6  
14.5  
14.8  
14.7  
14.6  
15.3  
15.1  
15.1  
15.3  
15.2  
15.1  
13.8  
11.1  
13.9  
16.7  
21.9  
27.4  
33.8  
11.1  
13.9  
16.7  
22.0  
27.5  
33.9  
11.2  
13.9  
16.7  
22.0  
27.6  
34.0  
11.2  
14.0  
16.8  
22.0  
27.6  
34.1  
11.2  
14.0  
16.8  
22.1  
27.7  
34.2  
14.5  
11.7  
14.6  
17.5  
23.1  
28.9  
35.6  
11.7  
14.7  
17.6  
23.2  
29.0  
35.7  
11.8  
14.7  
17.6  
23.2  
29.0  
35.8  
11.8  
14.7  
17.7  
23.2  
29.1  
35.9  
11.8  
14.8  
17.7  
23.3  
29.1  
36.0  
15.4  
12.4  
15.5  
18.5  
24.4  
30.5  
37.5  
12.4  
15.5  
18.5  
24.5  
30.6  
37.6  
12.4  
15.5  
18.6  
24.5  
30.6  
37.7  
12.5  
15.5  
18.6  
24.6  
30.7  
37.8  
12.5  
15.6  
18.7  
24.6  
30.8  
37.9  
16.1  
13.1  
16.3  
19.5  
25.9  
32.2  
39.6  
13.2  
16.4  
19.6  
25.9  
32.3  
39.7  
13.2  
16.4  
19.6  
26.0  
32.4  
39.8  
13.2  
16.4  
19.7  
26.0  
32.4  
40.0  
13.2  
16.5  
19.7  
26.1  
32.5  
40.1  
17.1  
13.9  
17.3  
20.7  
27.4  
34.1  
41.9  
13.9  
17.3  
20.7  
27.5  
34.2  
42.0  
14.0  
17.4  
20.8  
27.5  
34.3  
42.1  
14.0  
17.4  
20.8  
27.6  
34.3  
42.2  
14.0  
17.4  
20.9  
27.6  
34.4  
42.3  
42  
44  
46  
48  
50  
Notes:  
1. Rated in accordance with ARI Standard 550/590-98 with fouling factors of 0.00010 in the evaporator and 0.00025 in the condenser.  
2. Consult Trane representative for performance at temperatures outside of the ranges shown.  
3. kW input is for compressors only.  
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors and control power.  
5. Ratings are based on an evaporator temperature drop of 10°F.  
6. Interpolation between points is permissible. Extrapolation is not permitted.  
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Performance  
Data  
Full Load  
Performance  
Table PD-4 50 Hz CGWE Performance Data in Metric Units  
Evaporator  
Leaving Water  
Temperature (C)  
Entering Condenser Water Temperature (C)  
Unit  
Size  
20  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
20  
25  
30  
40  
50  
60  
25  
30  
35  
kWo  
70.4  
59.4  
73.4  
87.3  
117.6  
145.3  
178.4  
63.7  
78.6  
93.5  
126.0  
155.6  
190.4  
68.1  
84.0  
99.9  
134.8  
166.4  
203.0  
kWi  
14.2  
11.4  
14.2  
17.0  
22.4  
28.0  
34.5  
11.4  
14.3  
17.1  
22.5  
28.2  
34.7  
11.4  
14.3  
17.2  
22.6  
28.3  
34.9  
COP  
5.0  
5.2  
5.2  
5.1  
5.2  
5.2  
5.2  
5.6  
5.5  
5.5  
5.6  
5.5  
5.5  
6.0  
5.9  
5.8  
6.0  
5.9  
5.8  
kWo  
67.7  
57.0  
70.5  
83.9  
112.9  
139.7  
171.7  
61.2  
75.6  
89.9  
121.0  
149.5  
183.3  
65.4  
80.8  
96.2  
129.5  
160.1  
195.3  
kWi  
15.5  
12.6  
15.7  
18.7  
24.8  
30.9  
38.0  
12.6  
15.7  
18.8  
24.8  
31.0  
38.2  
12.6  
15.8  
18.9  
24.9  
31.1  
38.4  
COP  
4.4  
4.5  
4.5  
4.5  
4.6  
4.5  
4.5  
4.9  
4.8  
4.8  
4.9  
4.8  
4.8  
5.2  
5.1  
5.1  
5.2  
5.1  
5.1  
kWo  
64.7  
54.5  
67.5  
80.3  
108.0  
133.7  
164.0  
58.5  
72.3  
86.1  
115.8  
143.2  
175.6  
62.7  
77.4  
92.2  
124.2  
153.4  
187.2  
kWi  
17.1  
14.0  
17.3  
20.7  
27.5  
34.2  
41.9  
14.0  
17.4  
20.8  
27.8  
34.3  
42.2  
14.0  
17.5  
20.9  
27.7  
34.5  
42.4  
COP  
3.8  
3.9  
3.9  
3.9  
3.9  
3.9  
3.9  
4.2  
4.2  
4.1  
4.2  
4.2  
4.2  
4.5  
4.4  
4.4  
4.5  
4.4  
4.4  
6
8
10  
Notes:  
1. Rated in accordance with ARI Standard 550/590-98 with fouling factors of 0.0000176 in the evaporator and  
0.000044 in the condenser.  
2. Consult Trane representative for performance at temperatures outside of the ranges shown.  
3. kWi input is for compressors only.  
4. COP = Coefficient of Performance (kWo/total kW). Total kW include compressors and control power.  
5. Ratings are based on an evaporator and condenser temperature drop of 5.6°C.  
6. Interpolation between points is permissible. Extrapolation is not permitted.  
18  
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Performance  
Data  
Part Load  
Performance  
Table PD-5 Part-Load Performance for CGWE 20-60 Ton 60 Hz in English Units  
Unit Size  
100%  
19.9  
15.2  
15.5  
24.5  
19.0  
15.4  
29.2  
22.8  
15.3  
39.4  
30.1  
15.6  
48.6  
37.6  
15.4  
59.4  
46.5  
15.2  
75%  
14.9  
9.4  
50%  
9.9  
25%  
5.0  
IPLV  
20.3  
Tons  
kW  
EER  
Tons  
kW  
EER  
Tons  
kW  
EER  
Tons  
kW  
EER  
Tons  
kW  
EER  
Tons  
kW  
20  
5.3  
2.7  
20.7  
6.1  
3.4  
20.9  
7.3  
4.0  
20.8  
9.8  
18.6  
18.4  
11.6  
18.8  
21.9  
14.1  
18.5  
29.5  
18.7  
18.7  
36.5  
23.6  
18.3  
44.5  
28.3  
18.7  
21.9  
12.3  
6.5  
22.1  
14.6  
7.8  
22.0  
19.7  
10.3  
22.4  
24.3  
14.4  
20.3  
29.7  
17.4  
20.2  
25  
30  
40  
50  
60  
20.5  
20.3  
20.7  
19.6  
19.8  
5.2  
21.6  
12.2  
6.7  
21.7  
14.8  
7.8  
EER  
22.3  
Notes:  
1. IPLV values are rated in accordance with ARI Standard 550/590-98.  
2. EER and IPLV values include compressor and control kW.  
3. kW input is for compressors only.  
Table PD-6 Part-Load Performance for CGWE 20-60 Ton 50 Hz in English Units  
Unit Size  
100%  
16.7  
12.4  
16.1  
20.6  
15.5  
16.0  
24.5  
18.5  
15.9  
33.0  
24.5  
16.2  
40.8  
30.6  
16.0  
50.1  
37.6  
16.0  
75%  
12.5  
7.8  
19.2  
15.5  
9.7  
19.2  
18.4  
11.7  
18.9  
24.8  
15.3  
19.5  
30.6  
19.0  
19.3  
37.6  
23.3  
19.4  
50%  
8.3  
25%  
4.2  
IPLV  
21.0  
Tons  
kW  
EER  
Tons  
kW  
EER  
Tons  
kW  
EER  
Tons  
kW  
EER  
Tons  
kW  
EER  
Tons  
kW  
20  
4.4  
2.3  
21.9  
5.2  
2.9  
21.5  
6.1  
3.5  
20.9  
8.3  
22.6  
10.3  
5.5  
22.5  
12.3  
6.6  
22.4  
16.5  
8.6  
23.0  
20.4  
11.7  
20.9  
25.1  
14.4  
20.9  
25  
30  
40  
50  
60  
20.9  
20.7  
21.3  
20.3  
20.4  
4.5  
22.1  
10.2  
5.6  
21.9  
12.5  
6.6  
EER  
22.7  
Notes:  
1. IPLV values are rated in accordance with ARI Standard 550/590-98.  
2. EER and IPLV values include compressor and control kW.  
3. kW input is for compressors only.  
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Performance  
Data  
Full Load  
Performance  
Table PD-7 60 Hz CCAD Performance Data in English Units  
Evaporator  
Entering Condenser Air Temperature  
Leaving Water  
Temperature (°F) Size  
Unit Condenser  
85  
kW  
95  
kW  
105  
kW  
115  
kW  
Size  
Tons  
19.4  
19.7  
24.1  
24.5  
28.8  
29.2  
38.7  
39.1  
47.6  
48.4  
56.9  
57.5  
20.0  
20.4  
24.9  
25.3  
29.7  
30.2  
39.9  
40.3  
49.1  
50.0  
58.7  
59.3  
20.7  
21.0  
25.7  
26.2  
30.7  
31.2  
41.1  
41.6  
50.6  
51.6  
60.5  
61.2  
EER  
11.8  
12.6  
11.5  
12.5  
11.8  
12.9  
11.9  
12.5  
11.3  
12.3  
11.6  
12.8  
12.1  
12.9  
11.8  
12.7  
12.1  
13.2  
12.1  
12.7  
11.6  
12.6  
12.0  
13.1  
12.4  
13.2  
12.1  
13.1  
12.3  
13.6  
12.7  
13.1  
11.8  
12.9  
12.2  
13.4  
Tons  
18.4  
18.7  
22.8  
23.3  
27.3  
27.8  
36.7  
37.1  
45.1  
46.0  
54.0  
54.7  
19.0  
19.3  
23.6  
24.1  
28.2  
28.8  
37.8  
38.3  
46.6  
47.5  
55.7  
56.5  
19.6  
20.0  
24.3  
24.9  
29.1  
29.7  
39.0  
39.5  
48.0  
49.1  
57.5  
58.3  
EER  
10.1  
10.8  
9.9  
10.7  
10.1  
11.1  
10.2  
10.6  
9.7  
Tons  
17.3  
17.6  
21.5  
22.0  
25.7  
26.3  
34.5  
35.0  
42.5  
43.5  
50.9  
51.8  
17.8  
18.2  
22.2  
22.7  
26.6  
27.2  
35.6  
36.1  
43.9  
44.9  
52.6  
53.5  
18.4  
18.8  
22.9  
23.5  
27.5  
28.2  
36.8  
37.3  
45.3  
46.4  
54.3  
55.2  
EER  
8.6  
9.1  
8.4  
9.1  
8.6  
9.5  
8.6  
9.0  
8.2  
8.9  
8.5  
9.3  
8.8  
9.3  
8.6  
9.3  
8.8  
9.7  
8.8  
9.2  
8.4  
9.2  
8.7  
9.6  
9.0  
9.6  
8.8  
9.5  
9.0  
10.0  
9.0  
9.5  
8.6  
9.4  
8.9  
9.8  
Tons  
16.1  
16.5  
20.0  
20.6  
24.1  
24.7  
32.2  
32.7  
39.7  
40.8  
47.6  
48.6  
16.6  
17.1  
20.7  
21.3  
24.9  
25.6  
33.3  
33.8  
41.0  
42.2  
49.2  
50.3  
17.2  
17.6  
21.4  
22.0  
25.7  
26.5  
34.4  
35.0  
42.3  
43.6  
50.9  
52.0  
EER  
7.2  
7.7  
7.0  
7.7  
7.3  
8.0  
7.2  
7.6  
6.9  
7.6  
7.1  
7.9  
7.4  
7.9  
7.2  
7.9  
7.4  
8.2  
7.4  
7.8  
7.1  
7.7  
7.3  
8.1  
7.6  
8.1  
7.4  
8.1  
7.6  
8.4  
7.6  
8.0  
7.2  
7.9  
7.5  
8.3  
20  
20  
25  
25  
CAUC-C20  
CAUC-C25  
CAUC-C25  
CAUC-C30  
CAUC-C30  
CAUC-C40  
CAUC-C40  
CAUC-C50  
CAUC-C50  
CAUC-C60  
CAUC-C60  
CAUC-C80  
CAUC-C20  
CAUC-C25  
CAUC-C25  
CAUC-C30  
CAUC-C30  
CAUC-C40  
CAUC-C40  
CAUC-C50  
CAUC-C50  
CAUC-C60  
CAUC-C60  
CAUC-C80  
CAUC-C20  
CAUC-C25  
CAUC-C25  
CAUC-C30  
CAUC-C30  
CAUC-C40  
CAUC-C40  
CAUC-C50  
CAUC-C50  
CAUC-C60  
CAUC-C60  
CAUC-C80  
19.5  
18.6  
24.9  
23.4  
29.1  
27.0  
38.8  
37.4  
50.2  
47.0  
58.4  
53.6  
19.7  
18.8  
25.1  
23.7  
29.4  
27.2  
39.2  
37.8  
50.6  
47.4  
58.5  
54.0  
19.9  
18.9  
25.4  
23.9  
29.7  
27.4  
38.6  
38.0  
51.2  
47.8  
59.4  
54.4  
21.6  
20.6  
27.6  
26.0  
32.2  
29.9  
43.0  
41.6  
55.6  
52.2  
64.8  
59.6  
21.8  
20.8  
27.9  
26.3  
32.6  
30.2  
43.4  
42.0  
56.2  
52.6  
65.4  
60.0  
22.0  
21.0  
28.2  
26.5  
32.9  
30.4  
43.8  
42.2  
56.6  
53.2  
66.0  
60.6  
23.9  
23.0  
30.6  
28.9  
35.7  
33.2  
47.8  
46.2  
61.8  
58.2  
71.8  
66.4  
24.2  
23.2  
30.9  
29.2  
36.1  
33.5  
48.2  
46.6  
62.2  
58.6  
72.6  
66.8  
24.4  
23.4  
31.2  
29.5  
36.4  
33.8  
48.8  
47.0  
62.8  
59.0  
73.2  
67.4  
26.6  
25.5  
34.0  
32.1  
39.6  
36.9  
53.2  
51.4  
68.4  
64.6  
79.8  
73.8  
26.8  
25.7  
34.3  
32.4  
40.0  
37.2  
53.6  
51.8  
69.0  
65.2  
80.6  
74.4  
27.1  
25.9  
34.6  
32.6  
40.4  
37.5  
54.0  
52.2  
69.8  
65.6  
81.2  
75.0  
42  
44  
46  
30  
30  
40  
40  
50  
50  
60  
60  
20  
20  
25  
25  
30  
30  
40  
40  
50  
50  
60  
60  
20  
20  
25  
25  
30  
30  
40  
40  
50  
50  
60  
60  
10.5  
10.0  
11.0  
10.4  
11.0  
10.1  
10.9  
10.3  
11.4  
10.4  
10.9  
9.9  
10.8  
10.2  
11.3  
10.6  
11.3  
10.3  
11.2  
10.6  
11.7  
10.6  
11.2  
10.1  
11.0  
10.4  
11.5  
Notes:  
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.  
2. Consult Trane representative for performance at temperatures outside of the ranges shown.  
3. kW input is for compressors only.  
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors and control power.  
5. Ratings are based on an evaporator temperature drop of 10°F.  
6. Interpolation between points is permissible. Extrapolation is not permitted.  
7. Rated in accordance with ARI Standard 550/590-98.  
20  
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Performance  
Data  
Full Load  
Performance  
Table PD-8 60 Hz CCAD Performance Data in English Units  
Evaporator  
Entering Condenser Air Temperature  
Leaving Water  
Temperature (°F) Size  
Unit Condenser  
85  
kW  
95  
kW  
105  
kW  
115  
kW  
Size  
Tons  
21.3  
21.7  
26.5  
27.0  
31.6  
32.2  
42.4  
42.8  
52.2  
53.2  
62.4  
63.1  
21.9  
22.3  
27.3  
27.9  
32.6  
33.2  
43.6  
44.1  
53.7  
54.8  
64.3  
65.1  
EER  
12.6  
13.5  
12.3  
13.4  
12.6  
13.9  
12.6  
13.3  
12.1  
13.2  
12.4  
13.8  
12.8  
13.8  
12.6  
13.7  
12.8  
14.2  
12.9  
13.6  
12.3  
13.5  
12.6  
14.0  
Tons  
20.2  
20.6  
25.1  
25.7  
30.1  
30.7  
40.2  
40.7  
49.5  
50.6  
59.3  
60.2  
20.8  
21.2  
25.9  
26.5  
31.0  
31.7  
41.4  
42.0  
51.0  
52.2  
61.1  
62.1  
EER  
10.8  
11.6  
10.5  
11.5  
10.8  
11.9  
10.8  
11.4  
10.3  
11.3  
10.6  
11.8  
11.0  
11.8  
10.8  
11.8  
11.0  
12.2  
11.0  
11.7  
10.5  
11.5  
10.8  
12.1  
Tons  
19.0  
19.4  
23.7  
24.3  
28.4  
29.1  
37.9  
38.5  
46.7  
47.9  
56.0  
57.0  
19.6  
20.1  
24.4  
25.1  
29.3  
30.0  
39.1  
39.7  
48.1  
49.4  
57.8  
58.8  
EER  
9.2  
9.8  
9.0  
9.8  
9.2  
10.2  
9.2  
9.7  
8.8  
9.6  
9.1  
10.1  
9.4  
10.1  
9.2  
10.0  
9.4  
10.4  
9.4  
9.9  
9.0  
Tons  
17.7  
18.2  
22.1  
22.8  
26.6  
27.4  
35.5  
36.1  
43.7  
45.0  
52.5  
53.7  
18.3  
18.8  
22.9  
23.5  
27.5  
28.3  
36.6  
37.2  
45.1  
46.4  
54.2  
55.4  
EER  
7.7  
8.3  
7.6  
8.3  
7.8  
8.7  
7.8  
8.2  
7.4  
8.1  
7.7  
8.5  
7.9  
8.5  
7.8  
8.5  
8.0  
8.9  
8.0  
8.4  
7.6  
8.3  
7.8  
8.7  
20  
20  
25  
25  
CAUC-C20  
CAUC-C25  
CAUC-C25  
CAUC-C30  
CAUC-C30  
CAUC-C40  
CAUC-C40  
CAUC-C50  
CAUC-C50  
CAUC-C60  
CAUC-C60  
CAUC-C80  
CAUC-C20  
CAUC-C25  
CAUC-C25  
CAUC-C30  
CAUC-C30  
CAUC-C40  
CAUC-C40  
CAUC-C50  
CAUC-C50  
CAUC-C60  
CAUC-C60  
CAUC-C80  
20.1  
19.1  
25.7  
24.1  
30.0  
27.7  
40.0  
38.4  
51.6  
48.2  
60.2  
54.8  
20.3  
19.3  
25.9  
24.3  
30.3  
27.9  
40.4  
38.8  
52.2  
48.6  
60.8  
55.4  
22.2  
21.2  
28.4  
26.7  
33.2  
30.7  
44.4  
42.6  
57.2  
53.6  
66.6  
61.8  
22.5  
21.4  
28.7  
26.9  
33.6  
30.9  
44.8  
43.0  
57.8  
54.0  
67.4  
61.4  
24.6  
23.6  
31.5  
29.6  
36.8  
34.1  
49.2  
47.4  
63.4  
59.6  
74.0  
67.8  
24.9  
23.8  
31.8  
29.9  
37.2  
34.3  
49.6  
47.8  
64.0  
60.0  
74.6  
68.4  
27.3  
26.2  
34.9  
32.9  
40.7  
37.8  
54.6  
52.6  
70.2  
66.2  
82.0  
75.4  
27.6  
26.4  
35.2  
33.1  
41.1  
38.1  
55.0  
53.0  
71.0  
66.6  
82.8  
76.0  
48  
30  
30  
40  
40  
50  
50  
60  
60  
20  
20  
25  
25  
30  
30  
40  
40  
50  
50  
60  
60  
50  
9.8  
9.3  
10.3  
Notes:  
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.  
2. Consult Trane representative for performance at temperatures outside of the ranges shown.  
3. kW input is for compressors only.  
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors and control power.  
5. Ratings are based on an evaporator temperature drop of 10°F.  
6. Interpolation between points is permissible. Extrapolation is not permitted.  
7. Rated in accordance with ARI Standard 550/590-98.  
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Performance  
Data  
Full Load  
Performance  
Table PD-9 60 Hz. CCAD Performance Data in Metric Units  
Evaporator  
Entering Condenser Air Temperature (°C)  
Leaving Water  
Unit Condenser  
30  
35  
40  
45  
Temperature (°F) Size  
Size  
kWo  
69.4  
70.7  
86.2  
87.8  
103.0  
104.7  
138.4  
140.0  
170.2  
173.5  
203.5  
206.0  
73.5  
kWi  
19.8  
18.9  
25.3  
23.8  
29.6  
27.4  
39.5  
38.1  
51.0  
47.8  
59.2  
54.5  
20.2  
19.2  
25.8  
24.3  
30.2  
27.8  
39.5  
38.6  
52.0  
48.5  
60.4  
55.3  
20.6  
19.6  
26.2  
24.6  
30.7  
28.3  
40.9  
39.3  
52.9  
49.3  
61.6  
56.1  
COP  
3.5  
3.7  
3.4  
3.7  
3.5  
3.8  
3.5  
3.7  
3.3  
3.6  
3.4  
3.8  
3.6  
3.9  
3.5  
3.8  
3.6  
4.0  
3.7  
3.8  
3.4  
3.8  
3.5  
3.9  
3.7  
4.0  
3.7  
4.0  
3.7  
4.1  
3.7  
3.9  
3.6  
3.9  
3.7  
4.1  
kWo  
66.2  
67.3  
82.1  
84.0  
kWi  
21.7  
20.7  
27.8  
26.2  
32.4  
30.1  
43.3  
41.9  
56.0  
52.5  
65.2  
59.9  
22.1  
21.1  
28.3  
26.6  
33.0  
30.5  
44.0  
42.4  
56.9  
53.4  
66.3  
61.0  
22.6  
21.5  
28.8  
27.0  
33.7  
31.0  
44.9  
43.1  
57.9  
54.1  
67.6  
61.6  
COP  
3.0  
3.2  
2.9  
3.2  
3.0  
3.3  
3.0  
3.2  
2.9  
3.1  
3.0  
3.3  
3.1  
3.4  
3.1  
3.3  
3.1  
3.5  
3.1  
3.3  
3.0  
3.3  
3.1  
3.4  
3.3  
3.5  
3.2  
3.5  
3.3  
3.6  
3.3  
3.4  
3.1  
3.4  
3.2  
3.6  
kWo  
62.5  
63.8  
77.8  
79.7  
kWi  
23.8  
22.9  
30.5  
28.8  
35.6  
33.1  
47.6  
46.0  
61.5  
57.9  
71.6  
66.1  
24.3  
23.3  
31.0  
29.3  
36.2  
33.6  
48.5  
46.7  
62.5  
58.7  
72.8  
67.0  
24.7  
23.6  
31.6  
29.7  
36.9  
34.0  
49.2  
47.4  
63.5  
59.6  
74.1  
67.9  
COP  
2.6  
2.8  
2.5  
2.8  
2.6  
2.9  
2.6  
2.7  
2.5  
2.7  
2.6  
2.8  
2.7  
2.9  
2.6  
2.9  
2.7  
3.0  
2.7  
2.9  
2.6  
2.8  
2.7  
3.0  
2.8  
3.0  
2.7  
3.0  
2.8  
3.1  
2.8  
3.0  
2.7  
3.0  
2.8  
3.1  
kWo  
58.7  
60.3  
73.1  
75.2  
kWi  
26.2  
25.1  
33.5  
31.7  
39.1  
36.4  
52.4  
50.7  
67.5  
63.7  
78.7  
72.7  
26.7  
25.5  
34.1  
32.1  
39.8  
36.9  
53.2  
51.4  
68.7  
64.6  
80.0  
73.8  
27.1  
25.9  
34.6  
32.5  
40.4  
37.4  
54.1  
52.1  
69.8  
65.4  
81.4  
74.7  
COP  
2.2  
2.4  
2.2  
2.4  
2.2  
2.5  
2.2  
2.3  
2.1  
2.3  
2.2  
2.4  
2.3  
2.5  
2.3  
2.5  
2.3  
2.6  
2.3  
2.5  
2.2  
2.4  
2.3  
2.5  
2.4  
2.6  
2.4  
2.6  
2.4  
2.7  
2.4  
2.6  
2.3  
2.5  
2.4  
2.7  
20  
20  
25  
25  
CAUC-C20  
CAUC-C25  
CAUC-C25  
CAUC-C30  
CAUC-C30  
CAUC-C40  
CAUC-C40  
CAUC-C50  
CAUC-C50  
CAUC-C60  
CAUC-C60  
CAUC-C80  
CAUC-C20  
CAUC-C25  
CAUC-C25  
CAUC-C30  
CAUC-C30  
CAUC-C40  
CAUC-C40  
CAUC-C50  
CAUC-C50  
CAUC-C60  
CAUC-C60  
CAUC-C80  
CAUC-C20  
CAUC-C25  
CAUC-C25  
CAUC-C30  
CAUC-C30  
CAUC-C40  
CAUC-C40  
CAUC-C50  
CAUC-C50  
CAUC-C60  
CAUC-C60  
CAUC-C80  
6
30  
30  
40  
40  
50  
50  
60  
60  
20  
20  
25  
25  
30  
30  
40  
40  
50  
50  
60  
60  
20  
20  
25  
25  
30  
30  
40  
40  
50  
50  
60  
60  
98.2  
93.1  
95.3  
87.9  
90.2  
100.3  
131.9  
133.6  
162.3  
165.7  
194.1  
197.0  
70.0  
124.8  
126.8  
153.8  
157.6  
184.2  
187.6  
66.2  
67.7  
82.4  
84.6  
98.9  
101.4  
132.2  
134.3  
162.8  
167.0  
195.1  
198.6  
70.0  
117.5  
119.5  
144.8  
149.0  
173.6  
177.5  
62.3  
63.9  
77.6  
79.9  
93.2  
74.8  
91.3  
93.3  
71.5  
86.8  
89.1  
8
109.1  
111.1  
146.1  
148.0  
179.9  
183.7  
215.1  
217.9  
77.4  
104.0  
106.3  
139.3  
141.3  
171.5  
175.6  
205.4  
208.6  
73.8  
96.1  
124.6  
126.9  
153.3  
158.0  
184.3  
188.4  
65.9  
67.8  
82.4  
84.7  
98.9  
101.8  
131.7  
134.0  
162.3  
167.1  
195.0  
199.4  
78.9  
96.4  
98.7  
75.4  
92.0  
94.2  
71.9  
87.2  
89.7  
10  
115.2  
117.5  
154.0  
156.0  
189.7  
193.9  
227.2  
230.4  
110.1  
112.7  
147.0  
149.3  
181.1  
185.6  
216.9  
220.8  
104.6  
107.3  
139.6  
142.0  
171.8  
176.6  
206.4  
210.2  
Notes:  
1. Ratings based on sea level altitude and evaporator fouling factor of 0.0000176.  
2. Consult Trane representative for performance at temperatures outside of the ranges shown.  
3. kWi input is for compressors only.  
4. COP = Coefficient of Performance (kWo/total kW). Total kW include compressors and control power.  
5. Ratings are based on an evaporator temperature drop of 5.6°C.  
6. Interpolation between points is permissible. Extrapolation is not permitted.  
7. Rated in accordance with ARI Standard 550/590-98.  
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Performance  
Data  
Pressure Drops  
Chart PD-1 CGWE Evaporator  
Chart PD-2 CGWE Condenser  
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Electrical Data  
Table E-1 - Electrical Data for CGWE Water-Cooled Chillers  
Unit Wiring Data  
Compressor  
RLA  
Each  
34  
Controls  
Unit  
Size  
Rated  
Voltage  
200-230/60  
380/60  
Minimum  
Circuit Ampacity  
Maximum  
Fuse Size  
110  
50  
Recommended  
Dual Element Fuse Size  
LRA  
Each  
251  
142  
117  
94  
110  
376/251  
215/142  
178/117  
143/94  
174/110  
376  
215  
178  
143  
174  
Quantity  
2-10  
kW  
77  
39  
90  
45  
35  
35  
45  
125  
60  
50  
40  
60  
150  
70  
60  
45  
70  
175  
80  
70  
60  
90  
200  
110  
90  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
17  
14  
13  
18  
52/34  
27/17  
23/14  
18/13  
27/18  
52  
27  
23  
18  
27  
34  
17  
14  
13  
20  
25  
30  
40  
50  
460/60  
575/60  
400/50  
200-230/60  
380/60  
460/60  
575/60  
400/50  
200-230/60  
380/60  
460/60  
575/60  
400/50  
200-230/60  
380/60  
460/60  
32  
29  
41  
99  
51  
43  
36  
52  
117  
61  
52  
41  
61  
145  
73  
60  
45  
40  
50  
150  
70  
60  
50  
70  
150  
80  
70  
50  
80  
175  
80  
70  
1-10  
1-15  
2-15  
4-10  
251  
142  
117  
94  
575/60  
400/50  
200-230/60  
380/60  
460/60  
575/60  
55  
77  
185  
95  
80  
67  
60  
90  
225  
125  
100  
80  
18  
110  
52/34  
27/17  
23/14  
18/13  
27/18  
52  
27  
23  
18  
27  
376/251  
215/142  
178/117  
143/94  
174/110  
376  
215  
178  
143  
174  
2-10  
2-15  
80  
400/50  
200-230/60  
380/60  
460/60  
97  
110  
250  
125  
110  
90  
110  
250  
125  
110  
90  
221  
115  
98  
4-15  
60  
575/60  
77  
400/50  
115  
125  
125  
Notes:  
1. Minimum circuit ampacityis 125% of the largest compressor RLA, plus 100% of the remaining compressor(s) RLA, per NEC 440-32 and NEC 440-33.  
2. Maximum fuse size is 225% of the largest compressor RLA, plus 100% of the remaining compressor(s) RLA, per NEC 440-33.  
3. Recommended dual element fuse size is 150% of the largest compressor RLA, plus 100% of remaining compressor(s) RLA, per NEC 440-33.  
4. Use copper conductors only.  
5. Voltage Utilization Range: Rated Voltage  
Utilization Range  
180-253  
200-230/60  
380/60  
460/60  
342-418  
414-506  
575/60  
400/50  
517-633  
360-440  
6. Local codes may take precedence.  
7. If unit is ordered with the High Condenser Entering Water Temperature Range (90-130), use CCAD electrical information.  
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Electrical Data  
Table E-2 - Electrical Data for High Temperature Condenser CGWE Chillers and CCAD Compressor-Chillers  
Unit Wiring Data  
Compressor  
RLA  
Each  
39  
Controls  
Unit  
Size  
Rated  
Voltage  
200-230/60  
380/60  
460/60  
575/60  
200-230/60  
380/60  
460/60  
575/60  
200-230/60  
380/60  
460/60  
575/60  
200-230/60  
380/60  
460/60  
575/60  
Minimum  
Circuit Ampacity  
Maximum  
Fuse Size  
125  
60  
Recommended  
Dual Element Fuse Size  
LRA  
Each  
251  
142  
117  
Quantity  
2-10  
kW  
88  
45  
39  
32  
112  
59  
50  
41  
131  
70  
59  
48  
166  
85  
73  
60  
100  
50  
45  
35  
150  
70  
60  
50  
150  
80  
70  
60  
200  
90  
80  
70  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.16  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
0.24  
20  
25  
30  
40  
50  
20  
17  
14  
58/39  
31/20  
26/17  
21/14  
58  
31  
26  
21  
39  
20  
17  
50  
45  
150  
80  
70  
60  
175  
100  
80  
94  
376/251  
215/142  
178/117  
143/94  
376  
215  
178  
143  
251  
142  
117  
1-10  
1-15  
2-15  
4-10  
60  
200  
100  
80  
70  
14  
94  
200-230/60  
380/60  
460/60  
575/60  
209  
110  
93  
250  
125  
110  
90  
225  
125  
100  
90  
58/39  
31/20  
26/17  
21/14  
58  
31  
26  
376/251  
215/142  
178/117  
143/94  
376  
215  
178  
2-10  
2-15  
76  
200-230/60  
380/60  
460/60  
575/60  
247  
132  
111  
90  
300  
150  
125  
110  
300  
140  
125  
100  
60  
4-15  
21  
143  
Notes:  
1. Minimum circuit ampacityis 125% of the largest compressor RLA, plus 100% of the remaining compressor(s) RLA, per NEC 440-32 and NEC 440-33.  
2. Maximum fuse size is 225% of the largest compressor RLA, plus 100% of the remaining compressor(s) RLA, per NEC 440-33.  
3. Recommended dual element fuse size is 150% of the largest compressor RLA, plus 100% of remaining compressor(s) RLA, per NEC 440-33.  
4. Use copper conductors only.  
5. Voltage Utilization Range: Rated Voltage  
Utilization Range  
180-253  
200-230/60  
380/60  
460/60  
342-418  
414-506  
575/60  
400/50  
517-633  
360-440  
6. Local codes may take precedence.  
7. If unit is ordered with the High Condenser Entering Water Temperature Range (90-130), use CCAD electrical information.  
CG-PRC011-EN  
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Jobsite  
Connections  
NOTES:  
5. NOT USED ON 20-30 TON UNITS.  
1. DASHED LINES INDICATE RECOMMENDED FIELD WIRING BY OTHERS. PHANTOM LINES INDICATE  
ALTERNATE CIRCUITRY OR AVAILABLE SALES OPTION. CHECK SALES ORDER TO DETERMINE IF  
WIRING IS REQUIRED FOR SPECIFIC OPTIONS.  
6. AUXILIARY CONTROLS FOR A CUSTOMER SPECIFIED OR INSTALLED LATCHING TRIPOUT. THE  
CHILLER WILL RUN NORMALLY WHEN THE CONTACT IS CLOSED AND TRIP THE CHILLER OFF ON  
MANUALLY RESETTABLE DIAGNOSTIC WHEN THE CONTACT OPENS. MANUAL RESET IS  
ACCOMPLISHED AT THE CHILLER SWITCH ON THE FRONT OF THE UNIT CONTROL MODULE  
(UCM).  
2. ALL THREE PHASE MOTORS SUPPLIED WITH THE UNIT ARE PROTECTED UNDER PRIMARY SINGLE  
PHASE FAILURE CONDITIONS.  
3. CAUTION - DO NOT ENERGIZE UNIT UNTIL CHECK OUT AND START-UP PROCEDURES HAVE BEEN  
COMPLETED.  
7. AUXILIARY CONTROLS FOR A CUSTOMER SPECIFIED OR INSTALLED REMOTE AUTO/STOP  
FUNCTION. THE CHILLER WILL RUN NORMALLY WHEN THE CONTACT IS CLOSED AND STOP THE  
CHILLER WHEN THE CONTACT IS OPEN. RE-CLOSURE OF THE CONTACT WILL PERMIT THE  
CHILLER TO AUTOMATICALLY RETURN TO NORMAL OPERATION.  
4. THE FOLLOWING CAPABILITIES ARE OPTIONAL - THEY ARE IMPLEMENTED AND WIRED AS  
REQUIRED FOR A SPECIFIC SYSTEM APPLICATION.  
A
B
G
H
J
ICE-MACHINE CONTROL  
8. AUXILIARY CONTROLS FOR A CUSTOMER SPECIFIED OR INSTALLED DEMAND LIMIT FUNCTION.  
THE CHILLER WILL RUN NORMALLY WHEN THE CONTACT IS CLOSED AND LIMIT CHILLER  
OPERATION TO ONE COMPRESSOR PER CIRCUIT WHEN THE CONTACT OPENS. . RE-CLOSURE OF  
THE CONTACT WILL PERMIT THE CHILLER TO AUTOMATICALLY RETURN TO NORMAL  
OPERATION.  
COMMUNICATIONS INTERFACE  
REMOTE RUNNING INDICATION AND ALARM CONTACTS  
UNIT DISCONNECT, NON-FUSED  
CHILLED WATER RESET - RETURN WATER  
K
CHILLED WATER RESET - OUTDOOR AIR TEMP. SENSOR OPTIONAL ON CGWE AND  
STANDARD ON CCAD.  
L
CHILLED WATER RESET - ZONE AIR  
LOW AMBIENT THERMOSTAT  
O
P
HIGH AMBIENT LOAD LIMIT THERMOSTAT  
Q
ENTERING AND LEAVING CONDENSER WATER TEMP. SENSOR. MATCHED PAIR OF  
THERMISTORS. SENSOR KIT SHIPPED WITH UNIT AND FACTORY INSTALLED.  
26  
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Jobsite  
Connections  
WIRING :  
OPTIONAL WIRING:  
10. ALL FIELD WIRING MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE (NEC),  
STATE, AND LOCAL REQUIREMENTS. OUTSIDE THE UNITED STATES, OTHER COUNTRIES  
APPLICABLE NATIONAL AND/OR LOCAL REQUIREMENTS SHALL APPLY.  
14 3 WIRES. 115 VAC CIRCUIT. SEPARATE 115 VAC POWER SUPPLY IS REQUIRED. LOAD NOT TO  
EXCEED 115 VA SEALED, 1150 VA INRUSH.  
16 2 WIRES. 115 VAC CIRCUIT. MINIMUM CONTACT RATING AT 115 VAC - 6.9 VA INRUSH, 1.3 VA  
SEALED.  
REQUIRED WIRING:  
11 COPPER WIRE ONLY - SIZED PER N.E.C. - BASED ON NAMEPLATE RLA. SEE CUSTOMER WIRE  
SELECTION TABLE.  
17 3 WIRES ON 20-30 TON UNITS. 6 WIRES ON 40-60 TON UNITS. 115 VAC CIRCUIT. SEPARATE 115  
VAC POWER SUPPLY REQUIRED. LOAD NOT TO EXCEED 115 VA SEALED, 1150 VA INRUSH.  
12 2 WIRES, 115 VAC CIRCUIT. MINIMUM CONTACT RATING AT 115 VAC - 6.9 VA INRUSH. 1.3 VA  
SEALED.  
18 2 WIRES. 115 VAC CIRCUIT. SEPARATE 115 VAC POWER SUPPLY IS REQUIRED. LOAD NOT TO  
EXCEED 1150 VA INRUSH, 115 VA SEALED.  
13 CCAD UNITS WITH AIR COOLED CONDENSER ONLY. 2 WIRES, 30 VOLT OR LESS CIRCUIT. DO NOT  
RUN IN CONDUIT WITH HIGHER VOLTAGE CIRCUITS. SEE CUSTOMER WIRE SELECTION TABLE.  
19 2 WIRES. 30 VOLT OR LESS CIRCUIT. DO NOT RUN IN CONDUIT WITH HIGHER VOLTAGE  
CIRCUITS. SEE CUSTOMER WIRE SELECTION TABLE.  
20 SHIELDED TWISTED PAIR, 30 V OR LESS CIRCUIT. MAXIMUM LENGTH 5000 FT. DO NOT RUN IN  
CONDUIT WITH HIGHER VOLTAGE WIRE. SEE CUSTOMER WIRE SELECTION TABLE.  
22 CUSTOMER SUPPLIED CONTACTS MUST BE COMPATIBLE WITH DRY CIRCUIT 12 VDC, 45 mA  
RESISTIVE LOAD. SILVER OR GOLD PLATED CONTACTS ARE RECOMMENDED.  
23 SENSOR LEADS TO REACH CONTROL PANEL. 30 VOLT OR LESS CIRCUIT. DO NOT RUN IN  
CONDUIT WITH HIGHER VOLTAGE CIRCUITS.  
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Controls  
A microcomputer-based controller  
controls the CGWE and CCAD scroll  
chiller. The microcomputer controller  
provides better control than past  
controls with several new, important  
benefits.  
Safety Controls  
A centralized microcomputer offers a  
higher level of machine protection. Since  
the safety controls are smarter,  
compressor operation can be limited to  
avoid compressor or evaporator failures,  
minimizing nuisance shutdown. For  
instance, if the head pressure on a unit is  
approaching the trip point, the controller  
will turn off a compressor and display an  
alarm to indicate a head pressure  
problem. This keeps cooling capacity  
available until the problem can be  
solved. Whenever possible, the chiller is  
allowed to perform its function: make  
chilled water. In addition, microcomputer  
controls allow for more types of  
Customized Control  
The microcomputer-based controller  
allows Trane to customize controls  
around the chiller application and the  
specific components used in the scroll  
chiller. For instance, the compressor  
protection system is specifically  
designed for the Trane scroll  
compressor. The leaving chilled water  
temperature control algorithm maintains  
accurate temperature control, minimizes  
the drift from set point and provides  
better building comfort. The  
microcomputer control incorporates  
improved chiller start-up, load limiting,  
compressor anti-recycle timing and lead/  
lag functions into standard chiller  
operation.  
protection as standard, such as over and  
under voltage! Overall, the safety  
controls help keep the building running  
and out of trouble.  
Monitoring and Diagnostics  
The microcomputer provides all control  
functions and can easily indicate such  
parameters as leaving chilled water  
temperature and capacity stage. If a  
failure does occur, one of over 40  
individual diagnostic codes will be used  
to indicate the problem, giving more  
specific information about the failure.  
The repair of the unit can occur in a  
shorter period of time. All of the  
monitoring and diagnostic information is  
displayed directly on a microcomputer  
display.  
Simple Interface with Other  
Control Systems  
Microcomputer controls afford simple  
interface with other control systems,  
such as time clocks, building automation  
systems and ice storage systems. Wiring  
to the unit can be as simple as two  
wires! You can have the flexibility to  
meet job requirements without learning  
a complicated control system.  
Interface with the Trane Integrated  
ComfortSystem (ICS)  
When the scroll chiller is used in  
conjunction with a Trane Tracersystem,  
the unit can be monitored and controlled  
from a remote location. The scroll chiller  
can be controlled to fit into the overall  
building control strategy by using auto/  
stop, compressor inhibit and chilled  
water reset functions.  
All of the monitoring information  
indicated on the microcomputer can be  
read off the Tracer system display. In  
addition, all the powerful diagnostic  
information can be read back at the  
Tracer system.  
Best of all, this powerful capability  
comes over a single twisted pair of  
wires!  
28  
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Dimensional  
Data  
CGWE 20-30 Ton  
Size  
20 Ton  
A
2"  
(51)  
2"  
(51)  
2 1/2"  
(64)  
B
C
4'-8"  
(1423)  
4'-8"  
(1423)  
4'-6 1/2"  
(1384)  
D
E
F
G
H
8 1/2"  
(216)  
8 1/2"  
(216)  
7 3/4"  
(197)  
1'-3 3/8"  
(391)  
1'-3 3/8"  
(391)  
1'-5 3/8"  
4 1/8"  
(105)  
4 1/8"  
(105)  
2 1/4"  
(57)  
8 5/8"  
(218)  
8 5/8"  
(218)  
12"  
5 5/8"  
(143)  
5 5/8"  
(143)  
8"  
2' 7 3/8"  
(797)  
2' 7 3/8"  
(797)  
2' 8 3/16"  
25 Ton  
30 Ton  
(441)  
(305)  
(203)  
(818)  
Notes:  
1. Dimensions in ( ) are in millimeters.  
2. Dimensional tolerance 1/4(3).  
CG-PRC011-EN  
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Dimensional  
Data  
CGWE 40-50 Ton  
Size  
40 Ton  
A
2 1/2"  
(64)  
3"  
B
C
D
E
1'-3 3/4"  
(400)  
1'-3 1/2"  
(394)  
6'-5 1/2"  
(1968)  
6'-5"  
1'-4 1/4"  
(413)  
1'-6 1/8"  
(480)  
4 3/8"  
(111)  
2 1/2"  
(64)  
50 Ton  
(76)  
(1956)  
Notes:  
1. Dimensions in ( ) are in millimeters.  
2. Dimensional tolerance 1/4(3).  
30  
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Dimensional  
Data  
CGWE 60 Ton  
CG-PRC011-EN  
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Dimensional  
Data  
CCAD 20-30 Ton  
English Dimensions  
Unit Size  
20 Ton  
25 Ton  
30 Ton  
A
B
C
2”  
2”  
D
2-0”  
1-11 3/4”  
2-1 7/8”  
E
F
8 1/2”  
8 1/2”  
7 3/4”  
3-11 1/2”  
3-11 1/2”  
3-10 3/4”  
1-3 1/2”  
1-3 1/2”  
1-5 3/8”  
3-3”  
3-10”  
3-10”  
2 1/2”  
Metric Dimensions (mm)  
Unit Size  
20 Ton  
25 Ton  
30 Ton  
A
B
C
D
E
F
216  
216  
197  
1207  
1207  
1187  
51  
51  
64  
610  
603  
657  
394  
394  
441  
1041  
1041  
1168  
Notes:  
1. Add 3/4(19 mm) for units with insulation.  
2. Dimensional tolerance 1/4(3 mm).  
3. Tube installation at either end of evaporator.  
32  
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Dimensional  
Data  
CCAD 40-60 Ton  
English Dimensions  
Unit Size  
40 Ton  
50 Ton  
60 Ton  
A
B
C
D
2 1/2”  
3”  
E
F
5-1 3/4”  
5-1 1/2”  
5-1 1/2”  
1-3 3/4”  
1-3 1/2”  
1-3 1/2”  
1-11 1/4”  
2-1 1/8”  
2-0 7/8”  
3-5”  
3-10”  
3-10”  
1-4 1/4”  
1-6 1/8”  
1-6 1/8”  
3”  
Metric Dimensions (mm)  
Unit Size  
40 Ton  
50 Ton  
60 Ton  
A
B
C
D
E
F
1568  
1562  
1562  
400  
394  
394  
591  
638  
632  
64  
76  
76  
1041  
1168  
1168  
413  
480  
460  
Notes:  
1. Add 3/4(19 mm) for units with insulation.  
2. Dimensional tolerance 1/4(3 mm).  
3. Tube installation at either end of evaporator.  
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Weights  
Table W-1 Weights, CGWE Chillers  
Unit  
20  
25  
1517  
689  
1360  
618  
30  
2009  
912  
1774  
806  
40  
2506  
1138  
2126  
965  
50  
60  
Operating Wt.  
(lb.)  
(kg)  
(lb.)  
(kg)  
1454  
660  
2727  
1238  
2376  
1079  
3753  
1704  
3224  
1464  
Shipping Wt.  
1282  
582  
Table W-2 Weights, CCAD Compressor-Chillers  
Unit  
20  
25  
30  
1274  
579  
1836  
834  
40  
1509  
685  
1792  
814  
50  
1808  
821  
2166  
984  
60  
1982  
900  
2494  
1133  
Operating Wt.  
(lb.)  
(kg)  
(lb.)  
(kg)  
1004  
456  
1079  
490  
Shipping Wt.  
1430  
649  
1605  
729  
34  
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Options  
Options  
Ice Making Controls: In ice-making  
mode, the unit will operate fully loaded  
in response to jobsite supplied contact  
closure. Ice making will terminate when  
the return fluid temperature falls below  
an adjustable setpoint (minimum 20°F  
[-6.7°C]). When not in ice making mode,  
unit will provide modulating capacity  
control based on leaving chilled fluid  
temperature (20-55°F) [-6.7°C to 12.8°C].  
Hot Gas Bypass: Hot gas bypass option  
allows unit operation below the  
minimum step of unit unloading. The  
regulator valve, along with all associated  
refrigerant piping and electrical wiring,  
are factory installed and tested on one  
refrigeration circuit. Unit does not start in  
hot gas bypass mode. If the unit operates  
in bypass mode for 30 minutes without a  
call for cooling, it will pump down and  
shut off. Unit starts immediately upon a  
further call for cooling.  
Cycle Counter and Hour Meter: One  
cycle counter and hour meter per  
compressor.  
Chilled Water Reset: Front panel settable  
control, microprocessor based control  
strategy, and field-installed sensor for  
temperature based (ambient or zone)  
reset are included in this option. Return  
water reset sensor is standard, but panel  
controller and control strategy must be  
ordered as an option.  
Unit Mounted Disconnect Switch: Non-  
fused molded case disconnect switch  
factory installed in control panel for  
disconnecting main three-phase power.  
Isolators: Neoprene-in-shear isolators for  
field installation under unit frame.  
Gauges: Factory-installed gauges  
monitor suction and discharge pressure.  
One set of gauges per refrigeration  
circuit.  
Communications Interface:  
Bi-directional (Trane ICS) and generic  
BAS (external chilled water setpoint)  
communication interfaces are available  
for external control applications.  
Sound Attenuation: Factory-installed  
acoustical attenuation for applications  
where extremely low sound level is  
required.  
Remote Display Panel: The remote panel  
has the same digital display that is on the  
unit control panel as well as an auto/stop  
switch. Another auto/stop switch can be  
wired from pump contactor or time clock  
(scheduling). Remote display is mutually  
exclusive with Trane ICS and generic  
BAS.  
Water Regulating Valves: Field-installed  
valves provide means for control of head  
pressure.  
Low Ambient Thermostat: Field-installed  
outdoor thermostat with an adjustable  
setpoint provides means for low ambient  
lockout.  
Remote Running Indication and Alarm  
Contacts: Two separate single pole/  
double throw contacts are provided to  
indicate when the compressors are  
running and if a unit failure has occurred.  
A failure will be indicated if the unit has a  
manual reset fault. A failure is not  
Condenser Water Temperature Sensor:  
Field-installed matched pair temperature  
sensors provide for microprocessor  
display.  
indicated on an automatic reset fault.  
CG-PRC011-EN  
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Typical Wiring  
Diagrams  
NOTES:  
1. DASHED LINES INDICATE RECOMMENDED FIELD WIRING BY OTHERS. PHANTOM LINES INDICATE  
ALTERNATE CIRCUITRY OR AVAILABLE SALES OPTION. CHECK SALES ORDER TO DETERMINE IF  
WIRING IS REQUIRED FOR SPECIFIC OPTIONS.  
2. ALL THREE PHASE MOTORS SUPPLIED WITH THE UNIT ARE PROTECTED UNDER PRIMARY SINGLE  
PHASE FAILURE CONDITIONS.  
4. CAUTION - DO NOT ENERGIZE UNIT UNTIL CHECK OUT AND START-UP PROCEDURES HAVE BEEN  
COMPLETED.  
5. USED ON 40, 50 AND 60 TON UNITS ONLY.  
6. SEE INSET AFOR PROGRAMMING RESISTOR CONNECTIONS . TO PROGRAM AN EXTERNAL  
CHILLED WATER SETPOINT WHEN A 4-20 mA/0-10 VDC SIGNAL IS NOT USED. SEE THE OPERATORS  
MANUAL FOR PROGRAMMING RESISTOR CONNECTIONS FOR USE ON NORMAL COOLING OR ICE  
MAKING APPLICATIONS.  
7. SEE INSET CFOR CONTACTS (IN PLACE OF ZONE TEMP. SENSOR) FOR OPTIONAL ICE MACHINE  
CONTROL.  
8. THE FOLLOWING CAPABILITIES ARE OPTIONAL - THEY ARE IMPLEMENTED AND WIRED AS  
REQUIRED FOR A SPECIFIC SYSTEM APPLICATION.  
A
B
G
H
J
ICE-MACHINE CONTROL (CANNOT BE USED WITH OPT. L)  
COMMUNICATIONS INTERFACE  
REMOTE RUNNING INDICATION AND ALARM CONTACTS  
UNIT DISCONNECT, NON-FUSED  
CHILLED WATER RESET - RETURN WATER  
K
CHILLED WATER RESET - OUTDOOR AIR TEMP. SENSOR OPTIONAL ON CGWE AND  
STANDARD ON CCAD.  
L
CHILLED WATER RESET - ZONE AIR (CANNOT BE USED WITH OPT. A)  
LOW AMBIENT THERMOSTAT  
O
P
HIGH AMBIENT LOAD LIMIT THERMOSTAT  
Q
ENTERING AND LEAVING CONDENSER WATER TEMP. SENSOR. MATCHED PAIR OF  
THERMISTOR FOR 4RT1 AND 4RT2.  
WIRING AND CONTACT REQUIREMENTS:  
21. ALL FIELD WIRING MUST BE IN ACCORDANCE WITH THE NATIONAL ELECTRICAL CODE (NEC),  
STATE, AND LOCAL REQUIREMENTS. OUTSIDE THE UNITED STATES, OTHER COUNTRIES  
APPLICABLE NATIONAL AND/OR LOCAL REQUIREMENTS SHALL APPLY.  
24. CUSTOMER SUPPLIED CONTACTS MUST BE COMPATIBLE WITH DRY CIRCUIT 12 VDC, 45 mA  
RESISTIVE LOAD. SILVER OR GOLD PLATED CONTACTS ARE RECOMMENDED.  
25. 30 VOLT OR LESS CIRCUIT. DO NOT RUN IN CONDUIT WITH HIGHER VOLTAGE CIRCUITS. USE #14-  
18 AWG. SEE SELECTION TABLE.  
26. MINIMUM CONTACT RATING AT 115 VAC: 6.9 VA INRUSH, 6.9 V A SEALED.  
28. WHEN CUSTOMER INPUT IS REQUIRED, REMOVE JUMPER AND INSTALL CUSTOMER WIRING.  
29. LOSS OF CHILLED WATER FLOW PROTECTION IS PROVIDED BY THE UNIT WITHOUT THE NEED  
FOR A CHILLED WATER FLOW SWITCH. THE USE OF A CHILLED WATER FLOW SWITCH IS AT THE  
CUSTOMERS DISCRETION.  
30. FAN STAGING IS CONTROLLED BY THE COMPRESSOR CHILLER. TO INSURE PROPER FAN  
OPERATION ADD JUMPER TERMINALS ON 1TB3 AS SHOWN. REMOVE JUMPER FROM 1TB2-4 TO  
1TB2-3 ON ALL CAUC UNITS. REMOVE JUMPER FROM 1TB2-9 TO 1TB2-8 ON ALL 40, 50 AND 60  
TON CAUC UNITS. IF LOW AMBIENT OPTION, ADD JUMPER FROM 1TB3-6 TO 1TB3-7 AND FROM  
1TB3-11 TO 1TB3-12.  
36  
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Typical Wiring  
Diagrams  
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Features  
Summary  
Advanced Design for Efficiency and  
Reliability  
Other standard features include:  
Control power transformer  
Auto lead-lag (on or off)  
Solid-state motor protection  
Insulation  
Condenser water pump interlock  
Filter-dryer  
Built-in loss of chilled water flow  
sensors  
Chillers fit through standard single-  
width door  
Trane scroll compressor has 64 percent  
fewer parts than equal capacity  
reciprocating compressors for greater  
reliability. Part load efficiency is  
unmatched by any reciprocating  
compressor.  
Factory installed microprocessor  
controls provides accurate chilled water  
temperature control. The  
microprocessor also incorporates  
optimal start-up logic, load limiting,  
compressor anti-recycle timing,  
automatic lead-lag function and  
compressor protection features.  
Options  
Trane Integrated Comfortsystems  
communication  
Generic building automation  
systems (BAS) interface  
Chilled water reset (ambient, zone,  
return)  
Unit mounted disconnect  
Ice making  
Hot gas bypass  
Easy operation provided by menu-  
driven digital display. Display provides  
temperatures, pressures, setpoints and  
over 40 diagnostic readouts.  
Remote display/control panel  
Remote running indication and  
alarm contact  
Compressor protection from start and  
run overloads, under and over voltage,  
phase loss and phase reversal, and  
rapid recycling.  
Gauges  
Sound attenuation  
Neoprene isolators  
Compressor cycle counter/hour  
meter  
Easy installation through small size,  
factory wiring, easy lifting provisions  
and start-up control logic.  
Availability. Trane has the industrys  
fastest ship cycles on both stock and  
built-to-order units.  
Water regulating valves  
Condenser water temperature  
sensors  
38  
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Mechanical  
Specifications  
Water-Cooled Liquid Chillers and  
Compressor Chillers CGWE and CCAD  
Models 20 to 60 Tons  
Evaporator  
Control Panel  
Shell and tube design with seamless  
copper tubes roller expanded into tube  
sheets. Designed, tested and stamped in  
accordance with ASME Code for  
refrigerant side working pressure of 300  
psig. Water side working pressure is 300  
psig for CGWE 20-50 and CCAD 20-60,  
215 psig for CGWE 60. One water pass  
with a series of internal baffles. Each  
shell includes drain connections,  
entering and leaving temperature  
sensors, and ¾ inch Armaflex II (or  
equal) insulation (K= 0.26).  
Factory-mounted microprocessor based  
control panel uses 120/60/1 power.  
Automatic shutdown protection with  
manual reset is provided for low  
evaporator outlet refrigerant  
General  
All scroll chillers are factory tested and  
monitored for power and control  
operation (CGWE only). CGWE units  
ship with a full operating charge of  
refrigerant and oil. Exposed surfaces are  
painted with an air-dry beige primer-  
finisher prior to shipment.  
temperature and pressure, high  
condenser refrigerant pressure, motor  
current overload, and phase reversal.  
Automatic shutdown protection with  
automatic reset after condition is  
corrected is provided for low line voltage  
and loss of chilled water flow.  
Compressor-Motor  
Direct-drive, hermetic, 3600 rpm, 60 Hz  
[300 rpm, 60 Hz] fixed compression,  
scroll compressors (20 to 30 tons - two  
compressors; 40 to 60 tons - four  
compressors). Each compressor has:  
centrifugal oil pump, oil level sightglass,  
oil charging valve, two point lubrication  
for each motor bearing, flooded  
lubrication for the journal and thrust  
bearings, and a check valve on the scroll  
discharge port.  
The unit control module (UCM)  
automatically takes action to prevent  
complete shutdown by shedding  
compressors one at a time. This occurs  
in the event of low evaporator refrigerant  
temperature, high condenser refrigerant  
pressure, motor current overload;  
preventing the motor current from  
exceeding setpoint.  
Condenser (CGWE only)  
Shell and tube design with seamless  
internally enhanced copper tubes.  
Designed and tested for refrigerant side  
working pressure of 450 psig. Water  
side working pressure is 300 psig for  
CGWE 20-50, 150 psig for CGWE 60.  
Two pass construction with six-inch  
diameter shell (20 to 30 tons). One pass  
construction with two separate  
Solid-state chilled water temperature  
sensors are included for precise and  
accurate control. A menu driven display  
indicates the operating code, the last  
diagnostic code, chilled water setpoint,  
current limit setpoint, condenser water  
and chilled water temperature sensors.  
Factory-installed entering and leaving  
condenser water temperature sensors  
(optional) are available for  
Motor is suction gas-cooled,  
hermetically sealed, two-pole, squirrel  
cage induction type.  
condensers connected in series (40 to 60  
tons). Each condenser includes a  
subcooler circuit. Tubes are cleanable  
and replaceable.  
Refrigerant Circuit  
Each refrigeration circuit shall be  
completely independent and shall  
include liquid line and discharge line  
service valves, filter dryer, combination  
moisture indicator-sightglass, charging  
port, insulated suction line, liquid line  
solenoid valve and thermal expansion  
valve.  
microprocessor display or Trane Tracer™  
monitoring. Over 40 diagnostic checks  
are made and will be displayed when a  
problem is detected.  
Starter  
Isolation valves provide means of  
isolating refrigerant charge in either the  
high or low pressure side while  
servicing. One refrigerant circuit on  
20 to 30 tons; two refrigerant circuits on  
40 to 60 tons.  
The unit control panel contains both a  
control section and a starter section. The  
panel is a painted, NEMA 1 enclosure.  
The starter section contains: top access  
for power wiring, single point power  
hook-up, three-phase solid-state  
overload protection, customer wired  
grounding lug, and control power  
transformer with fused protection.  
Condenserless units (CCAD) shall be  
equipped with discharge check valve  
and moisture indicator sightglass.  
CG-PRC011-EN  
39  
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Literature Order Number  
File Number  
CG-PRC011-EN  
CG-PRC011-EN-0102  
New  
Supersedes  
Trane  
An American Standard Company  
Stocking Location  
La Crosse  
For more information contact  
your local sales office or  
e-mail us at [email protected]  
Since Trane has a policy of continuous product and product data improvement, it reserves the right to  
change design and specifications without notice.  
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