How evaporative cooling works

The principals of Evaporative cooling
As water is evaporated, energy is lost from the air, reducing the temperature. Two temperatures are important when dealing with evaporative cooling systems.

Dry Bulb Temperature
• This is the temperature that we usually think of as air temperature, measured by a regular thermometer exposed to the air stream.

Wet Bulb Temperature
• This is the lowest temperature that can be reached by the evaporation of water only.

When considering water evaporating into air, the wet-bulb temperature, as compared to the air's dry-bulb temperature, is a measure of the potential for evaporative cooling. The dry and wet bulb temperature can be used to calculate the relative humidity.

Evaporation will take place when the humidity is below 100% and the air begins to absorb water. Any given volume of air can hold a certain amount of water vapour and the degree of absorption will depend on the amount it is already holding.

The term humidity describes how much water is already in the air; relative to the amount it is capable of holding. Air is saturated when it cannot hold any more water. Imagine it as a sponge, if the sponge held half as much water as it was capable of holding, it would be 50% saturated. In the case of air, we would describe the Relative Humidity as being 50%.

Energy is required to change water from liquid to vapour. This energy is obtained in an adiabatic process from the air itself. Air entering an evaporative air cooler gives up heat energy to evaporate water. During this process, the dry bulb temperature of the air passing through the cooler is lowered.

Evaporative air conditioning uses evaporation to cool the air. In an evaporative cooler, such as Coolair, a pump circulates water from the reservoir on to a cooling pad, which in turn becomes very wet. A fan draws air from outside the unit through the moistened pad. As it passes through the pad the air is cooled by evaporation. The key to effective evaporative cooling is ensuring that each of the cooling pads are completely saturated at all times during operation and that the systems fan & motor are sized and designed to deliver the appropriate airflow for the home.

All Coolair units feature advanced technology and a range of clever design features that combine to achieve the highest cooling performance of any comparable air conditioner. Find out more about Why Coolair is Unique.

Coolair pumps 100% fresh cooled air

Based on the simple principles of evaporation, hot outside air is pumped through water-soaked pads called Chillcel® pads. As the air blows through the Chillcel pads, the water is evaporated and the heat in the air is absorbed, which lowers the air temperature. A fan then pushes the cool air through the building via a ducting system. Coolair cooling units feature a patented centrifugal fan, which can also be used in fan only mode (no water) to blow fresh air through the vents.

It is important to remember that cooled air inside the building is not recirculated, so doors or windows must be left open for this air to escape, or extraction fans need to be installed.

Click here to see the features and advanced technology developed by Coolair that combine to achieve the highest cooling performance of any evaporative cooler on the market.

Choosing Coolair as your solution
By choosing a Coolair evaporative cooler, you will get:

• Running costs up to 87% lower than conventional refrigerated air conditioning
• Only water used to cool (no harsh chemical refrigerants)
• Green Technology
• 100% fresh air, not recirculated
• Easy installation and maintainence
• Australian quality and International Support backed by local headquarters throughout Europe

CLICK HERE FOR MORE INFORMATION ABOUT DIRECT EVAPORATIVE COOLING