CHILLER RENTAL 200 TON

Ohio CAT’s 200-ton chiller units work well for industrial and commercial operations like warehouses, event spaces, manufacturing facilities, and large buildings.

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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200-Ton Chiller w/ Two Variable-Drive Screw Compressors & 200-800 GPM Range

200-Ton Chiller Specs & Common Applications

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Specifications

  • Dimensions: L: 25'0" W: 8'3" H: 8'5"
  • Min / Max Flow GPM: 200 / 800 GPM
  • Shipping Weight:  18,720 lbs.
  • Chilled Water/Brine Temp. Range: 0°F-65°F
  • Electrical Data: 460 Volt / 3 Phase / 60 Hz / 373 FLA (Chiller)

Applications

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

How the 200-Ton Chiller Works

 

Air chillers are popular cooling options because they are self-contained systems. The primary function of these chillers is to absorb heat from the system’s process water and release it into the atmosphere. This process occurs when a refrigerant gathers heat in liquid and gaseous states throughout the system.

When the refrigerant enters the evaporator, it heats up and changes to a gas. From there, it travels to a compressor to increase the pressure. When the gas reaches the condenser, circulating fans push the warm air out of the system as the refrigerant turns back to liquid.

At that point, the cycle starts over.

Air-cooled and water-cooled chillers function similarly, although water-cooled chillers often have many more operating components.

How the 200-Ton Chiller Works

 

Air chillers are popular cooling options because they are self-contained systems. The primary function of these chillers is to absorb heat from the system’s process water and release it into the atmosphere. This process occurs when a refrigerant gathers heat in liquid and gaseous states throughout the system.

When the refrigerant enters the evaporator, it heats up and changes to a gas. From there, it travels to a compressor to increase the pressure. When the gas reaches the condenser, circulating fans push the warm air out of the system as the refrigerant turns back to liquid.

At that point, the cycle starts over.

Air-cooled and water-cooled chillers function similarly, although water-cooled chillers often have many more operating components.

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