What is a chilled water constant temperature equipment?
The core working principle of a chilled water constant temperature equipment (Chiller) is based on the vapor compression refrigeration cycle. In simple terms, it is like a "heat transporter", through the coordinated operation of four core components - compressor, condenser, evaporator and expansion valve - it transfers the heat from the equipment or the environment to the outside air, thereby providing constant-temperature chilled .
Chiller working principle
The operation of the chiller mainly goes through four processes:
1. Compression process: The compressor sucks in the low-temperature and low-pressure gaseous refrigerant and compresses it, turning it into high-temperature and high-pressure gas.
2. Condensation process: The high-temperature and high-pressure refrigerant enters the condenser, where it releases heat to the external environment through air cooling (fan cooling) or water cooling (cooling tower cooling), condensing into high-pressure liquid.
3. Expansion process: The high-pressure liquid refrigerant passes through the expansion valve (throttle device), experiencing a sharp decrease in pressure and temperature, turning into low-temperature and low-pressure wet vapor.
4. Evaporation process: The low-temperature and low-pressure refrigerant flows into the evaporator, absorbing the heat from the chilled water and evaporating. At this point, the cooled water is transported by the circulating pump to the equipment that needs cooling, releases the heat, and then flows back to the chiller to form a closed loop.
Temperature Rang: 8-30°C;
Temperature Control Accuracy(°C):±0.3-±1;
| Model |
Cooling capacity
(KW)
|
Power Supply
(v)
|
Power
(Kw)
|
Outlet flowrate
(L/min)
|
Refrigerant |
Price:$ |
| ATL-LN3A |
0.3 |
220 |
0.24 |
3.85 |
134a |
3060 |
| ATL-LN5A |
0..5 |
220 |
0.34 |
3.85 |
134a |
|
| ATL-LN10A |
1 |
220 |
0.85 |
3.85 |
R22 |
|
| ATL-LN25A |
2.5 |
220 |
1.4 |
33.3 |
R22 |
|
| ATL-LN45A |
4.5 |
220 |
2.3 |
33.3 |
R22 |
|
| ATL-LN50A |
5 |
220 |
2.4 |
33.3 |
R22 |
|
| ATL-LN65A |
6.5 |
380 |
3.06 |
50 |
R22 |
|
| ATL-LN100A |
10 |
380 |
4.6 |
50 |
R22 |
|
| ATL-LN200A |
20 |
380 |
8.8 |
83.3 |
R22 |
|
| ATL-LN300A |
30 |
380 |
14.5 |
83.3 |
R22 |
|
| ATL-LN45B |
4.5 |
220 |
2.3 |
33.3 |
R22 |
|
| ATL-LN65B |
6.5 |
220 |
2.8 |
50 |
R22 |
|
| ATL-LN100B |
10 |
380 |
4.4 |
50 |
R22 |
|
| ATL-LN130B |
13 |
380 |
5.2 |
50 |
R22 |
|
| ATL-LN200B |
20 |
380 |
8.4 |
50 |
R22 |
|
| ATL-LN300B |
30 |
380 |
12.5 |
50 |
R22 |
|
| ATL-LN300C/450C/600C |
30-60 |
380 |
XXX |
XX |
XX |
|
|
ATL-LN900C/1200C/
1500C/1800C
|
90-180 |
380 |
xxx |
XX |
XX |
|
| |
|
|
|
|
|
|
|
Application industry
|
Typical application scenarios
|
Function and Value
|
|
Plastics and Molds
|
Cooling of injection molding machine molds
|
Shorten the molding cycle, improve the surface finish of the product, and reduce the defective rate
|
|
Electronics and Semiconductors
|
Laser cutting, photolithography machines, chip packaging
|
Precisely control the temperature of optical components and laser sources to ensure processing accuracy and yield.
|
|
Chemical Engineering and Pharmaceuticals
|
Temperature control of the reaction vessel and cooling of the fermentation tank
|
Maintain a constant-temperature environment for chemical reactions, prevent side reactions, and ensure the activity of the drugs.
|
|
Food and Beverages
|
Beer fermentation, dairy product cooling, seafood pool
|
Ensure the taste and safety of food, extend the shelf life, and maintain the survival rate of seafood.
|
|
Architecture and Air Conditioning
|
Large-scale central air conditioning systems, concrete cooling
|
Provide a comfortable ambient temperature to accelerate the setting of concrete and shorten the construction period.
|
This product was added to our catalog on Friday 26 December, 2025.
