Adiabatic Cooling

Advancing Industry with Adiabatic Cooling: Water Conservation and Energy Efficiency

Harnessing Nature’s Power for Sustainable Cooling Solutions

Discover how innovative adiabatic cooling systems are transforming industrial practices, saving millions of litres of water and reducing electricity consumption by over 40% through leveraging natural phenomena to regulate temperature.


Explore the concept of evaporative cooling—a sophisticated process utilising a large fan to draw warm air through water-moistened pads. As water evaporates from the pads, enjoy the naturally chilled air, which can be precisely controlled by adjusting the airflow of the cooler.


The Science Behind Efficient Heat Reduction: Delve into the fascinating science of adiabatic cooling, where heat is effectively reduced through changes in air pressure caused by volume expansion, leading to optimised cooling performance and enhanced energy efficiency.

An adiabatic cooling unit by Industrial Frigo. BRW model.

The BRW Series cooling batteries is a closed circuit water chiller capable of dispatching heat generated during production processes without requiring water consumption and using only the lowest possible energy levels.

The adiabatic kit is activated once the required water temperature is not achievable with the traditional heat exchange system: using a plastic pack, water sprayed through specific nozzles, the air is humidified about to saturation value.  This lowers the air temperature a few degrees (up to 9°C), so that the unit can be efficiently used with a warmer ambient temperature, even higher than the outlet water temperature obtained.



90 – 1000kW

Composed by a heat exchange coil, a hydraulic circuit complete with pump, axial fans and control panel

Designed for refrigeration systems in pressurised closed circuit

Industrial Frigo Adiabatic Cooling system. Sire Model

A sophisticated, completely automatic water chiller.

SIRE is constructed in the condensed water version, with a Free Cooling system inside, permitting the production of cold water in medium/cold periods at decidedly low costs. In this way up to 80% energy saving is obtained, always guaranteeing a cooling yield with a very COP of 5.6. The application of this system in ideal conditions during free cooling operation in winter, can reach the attainment of a maximum COP value of 30.

This means that the system can generate up to 30 cooling KW for every electrical input KW. System conversion from the cooling to the free-cooling setting is completely automatic via microprocessor logic that controls the entire system.



Automatic built-in freecooling

Can work with ambient temperature from + 45°C to -25 °C

Axial fans provide considerable reduction in sound pressure

Double pump