• Features

  • Working Principle

  • Structure & Components

  • Application

Features
  • Adiabatic air cooled heat exchanger significantly reduces water consumption.
  • Finned tubes serve as the heat exchanger and create a large heat dissipation area.
  • Integrated transportation, easy installation.
  • Reduced maintenance.
  • Low tower height, compact structure and small floor area.
How Does It Work?
V-shaped adiabatic type air cooler schematic diagram

Hot process fluid enters the inlet of the finned tubes. The heat of the process fluid dissipates through the surface of finned tubes and transfers to the fins. The adiabatic system contains a fully wetting fibrous pad located in front of the finned tubes. Ambient air is drawn into the unit through the adiabatic pad by the fan on top of the unit. The air is humidified as it passes through the adiabatic pad, decreasing the dry bulb temperature within a few degrees of the wet bulb temperature. This new air temperature is referred to as the depressed dry bulb. The pre-cooled air is then drawn through the tube and fin surface, offering a significantly increased heat rejection capacity. The heat of the process fluid transfers to the air and is dispatched to the atmosphere. The cooled process fluid flows out of the unit through the outlet of the finned tubes.

Structure & Components
V-shaped adiabatic type air cooler structure diagram
  • 1

    Stainless steel or hot dip galvanized tower body

    Cooling tower body plate
  • 2

    Forced-shaft or induced-shaft axial fan

    Cooling tower axial fan with a motor
  • 3

    Finned tubes, fins can be constructed of aluminum, stainless steel or copper; tubes can be made of copper, stainless steel or carbon steel.

    Plastic film packaged finned tubes for flat dry type air cooler
  • 4

    Easy-to-remove access door

  • 5

    Adiabatic humidification system

Application

V-shaped adiabatic type air coolers are widely used in the following industries:

  • Steel - electrical arc furnace/induction furnace cooling
  • Refinery & petrochemicals - reactor column cooling
  • Rubber - roller cooling
  • Polyfilm – chill roll cooling
  • Independent power stations – cooling of engine jacket water, lube oil & inter-stage cooler
  • Plastic – injection molding machine cooling
  • Textiles – process vapour condensation
  • Refrigeration / air conditioning – condensers for air cooled chillers
  • Power industry – turbine lube oil cooler / turbine intercooler
A screenshot of an cooling tower.

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