portable chiller

Introduction to Portable Chillers

Portable chillers are versatile cooling systems that can be easily moved to different locations as needed, making them ideal for temporary or supplemental cooling needs. These units range from 2 to 50 nominal tons and can be used in a variety of applications, from industrial processes to athletic recovery.

Key Considerations When Choosing a Portable Chiller

When selecting a portable chiller, several key specifications should be considered to ensure the unit meets the specific cooling requirements of the application:

Coolant Temperature: This measures the coldest the chilling liquid reaches in the chiller, which determines how much heat it can absorb.

Heat Load: This refers to the amount of heat generated by the process, measured in British Thermal Units (BTUs) per hour. The higher the heat load, the more powerful the chiller needs to be to remove excess heat.

Coolant Flow and Pressure: The flow rate and pressure affect a liquid’s ability to remove heat. The size of the pipes the coolant flows through will determine the pressure, and a well-made chiller will maintain proper pressure to prevent long-term damage.

Condenser Heat Dissipation: The method by which the condenser removes heat is crucial. Portable chillers can be air-cooled or water-cooled, with air-cooled units venting excess heat into the atmosphere and water-cooled units using cooling towers to absorb excess heat.

Applications of Portable Chillers

Portable chillers are used in a variety of industries where precise temperature control is required. Applications include plastics extrusion, medical manufacturing, anodizing, and metal plating processes. They can also be used for athletic recovery, such as ice baths, providing ozone disinfection and adjustable water temperatures.

Features of High-Performance TCU with Chillers

High-performance temperature control units (TCU) with chillers are compact, machine-side units designed to serve each process independently. They guarantee precise and efficient cooling, providing greater stability during process phases. These units consist of a compact water-cooled chiller, one or more thermoregulation zones, a free-cooling valve for energy saving, and a microprocessor panel for automatic control.

How High-Performance TCU with Chillers Work?

These units can control the temperature of the process fluid from 0 to 90°C (190°F). They can work in heating mode through electric resistances, cooling mode by activating the built-in chiller, or free-cooling mode using the external cooling system when the water temperature is lower than required by the process.

Conclusion

Portable chillers offer a flexible and efficient cooling solution for a wide range of applications. By considering the coolant temperature, heat load, coolant flow, and condenser heat dissipation, users can select the most appropriate portable chiller for their needs. High-performance TCU with chillers provide precise temperature control, enhancing productivity and efficiency in industrial processes. Understanding these aspects helps in making informed decisions when choosing a portable chiller for specific applications.