Evaporative Coolers vs Air Conditioners

Air conditioners and evaporative coolers can both achieve whole-of-house cooling. But which is best for your home?

We take a look at how the different systems work, how much they cost to install and run, how much energy they each use, as well as the pros and cons of each type of cooling.

What is an evaporative cooler?

Evaporative coolers lower the air temperature by turning water into cool vapour. This simple method has been around for a very long time: bronze-age frescoes show slaves fanning jars of water to keep rooms cool. 

How an evaporative cooler works

In a ducted evaporative cooler, a fan draws warm, outside air through wet filter pads in a head unit that sits on the roof. The warm air evaporates the water, creating cooled and humidified air which is then circulated through the house through ducts and vents in the ceiling. Portable evaporative coolers are also available, but aren’t very effective.

Costs to install and run a ducted evaporative cooler

Installation may be included in the cost of a system or you might be able to negotiate it when you buy. Installers should be licensed through the Australian Refrigeration Council; you can do an online licence check.

The cost of installing evaporative coolers is high, because of the labour of installing ducting and vents to distribute cool air through the house. This can easily double the cost from the purchase price. So while a unit might cost $2500, you could end up paying $5000 including installation.

Actual running costs depend on the unit’s cooling capacity and the fan speed it’s set to operate on, but ultimately the cost is comparable to air conditioning.

How much energy does an evaporative cooler use? 

Power use is generally low (200 to 400 watts) because only the fan and water pump use energy. But this can vary widely depending on features and capacity, and there are domestic units that draw up to 2kW or more.

But because of their low power use, evaporative coolers’ ability to convert electrical energy into cool air is also limited. Air conditioners are much more powerful at converting energy into coolness however use far more energy.

What else do I need to know about evaporative coolers? 

• Evaporative coolers are most effective in hot, dry climates with low humidity, as the air has greater potential to absorb water vapour. They’re not recommended for humid or wet climates like the coast 
• They depend on a reliable water supply. If you’re thinking of buying one, ask about the water management system used and what the typical hourly water consumption is likely to be in your area. It’s not uncommon for a whole-house evaporative cooler system to use several hundred litres of water a day, with typical rates ranging from 41L to 70L per hour in Hobart, to 67L to116L per hour in Adelaide, according to a 2009 study. An evaporative cooler is only as effective as the amount of water it can evaporate, so they’re not suitable in areas of water scarcity.
• They need room ventilation. Condensation can form inside the house because of the higher indoor humidity, so always leave some windows open to let air escape.

What is an air conditioner?

Air conditioners take warm air from inside your house and transfer it to outside, cooling the air to a temperature set by a thermostat. Because this mechanism is similar to how fridges work, they’re also known as refrigerated coolers or heat pumps.

Different types of air conditioners

• Split-system air conditioners are the most popular type in Australia. They have a compressor unit installed outside, and one or more indoor air outlets. They’re usually used to cool one or more rooms, or an open-plan area, of up to 60m2
• Portable air conditioners are single units that plug into a power point, and can cool a room of up to about 20m2. They use a duct to vent the heat out a door or window. These are good for rooms when a built-in option isn’t feasible (such as if you’re renting), but aren’t as efficient as a split system.
• Wall/window air conditioners are usually installed in a window or external wall, and can cool rooms and open-plan areas of up to 50m2. Smaller units can plug into a normal power point but larger ones may need additional wiring. While not as efficient or effective as split-systems, they’re a reasonable budget option if a split-system isn’t an option.
• Reverse-cycle air conditioners can heat as well as cool your home throughout the year without the need for a separate heating system. Most air conditioners on the market are reverse cycle and it’s worth buying this type, as they’re efficient and typically don’t cost more than a unit that simply cools. Find out more in our guide to home heating. 
• Ducted air conditioning systems have a central unit, usually in the roof, connected by ducts to air outlets and sensors in each room, and the compressors located outside. They’re a good option for whole-home cooling, but can be expensive. As a general rule, ducts deteriorate over time. After 10–15 years you’ll end up losing cool air (and potentially warm air if the unit provides both heating and cooling) to the roof cavity before it can arrive in your home. We recommend servicing each year to avoid this situation and keep your ducted air con up to spec.