CHILLER RENTAL 300 TON

Our 300-ton chiller is a compact, cost-effective, and robustly efficient industrial cooling system for mid-to-large-sized buildings, warehouses, and heavy-duty applications.

Selecting the appropriate size chiller unit involves considering environmental factors, the target temperature, type of coolant, the heat load, and more.

Our expert team can provide 24/7 knowledge in getting you the proper service and solutions.

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300-Ton Chiller w/ Four Variable-Drive Screw Compressors & 300-1,200 GPM Range

300-Ton Chiller Specs & Common Applications

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Specifications

  • Dimensions: L: 33'8" W: 7'7" H: 8'6"
  • Min / Max Flow GPM: 300 / 1,200 GPM
  • Operating Weight:  29,920 lbs.
  • Chilled Water/Brine Temp. Range: 0°F-65°F
  • Electrical Data: 460 Volt / 3 Phase / 60 Hz / 540 FLA (Chiller)

Applications

  • Alkylation Cooling
  • Concrete Cooling
  • Wet Gas Compressor Cooling
  • Dense Air Injection
  • Plastic Production Processes
  • Environmental Control
  • Wastewater Treatment
  • Turbine Inlet Cooling

How the 300-Ton Chiller Works

 

An air-cooled chiller unit has four main components — a compressor, condenser, expansion valve and evaporator. First, the compressor pressurizes a refrigerant, increasing its temperature and propelling warm water through the cooling system. 

Then, the pressurized refrigerant moves to the condenser, where it expels excess heat captured from the building’s water and cools down with the help of fans. It then moves to the expansion valves to become depressurized. Once the expansion valves depressurize the refrigerant, its temperature drops even further. 

Finally, the cooled refrigerant runs through the evaporator tank. When it emerges, it is efficiently cooled and expelled from the unit. Once the cool water is used, it returns to the air-cooled chiller to begin the cooling process again. You can harness the system’s excess heat or release it into the atmosphere.

How the 300-Ton Chiller Works

 

An air-cooled chiller unit has four main components — a compressor, condenser, expansion valve and evaporator. First, the compressor pressurizes a refrigerant, increasing its temperature and propelling warm water through the cooling system. 

Then, the pressurized refrigerant moves to the condenser, where it expels excess heat captured from the building’s water and cools down with the help of fans. It then moves to the expansion valves to become depressurized. Once the expansion valves depressurize the refrigerant, its temperature drops even further. 

Finally, the cooled refrigerant runs through the evaporator tank. When it emerges, it is efficiently cooled and expelled from the unit. Once the cool water is used, it returns to the air-cooled chiller to begin the cooling process again. You can harness the system’s excess heat or release it into the atmosphere.

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