Can wind towers take the heat off UAE's air-con addiction?

The wind tower at the Masdar Institute, based on a traditional Middle Eastern concept.

Story highlights

  • Per capita, Dubai is one of the world's largest consumers of energy, largely for air conditioning
  • Sustainable cooling could come from adaptation of traditional Arabian wind towers
  • Small lightweight design developed by engineers could be applied to new structures
With its vast shopping malls, indoor skiing centers and artificial indoor beaches Dubai can lay claim to the dubious distinction of being one of the most air-conditioned cities in the world.
According to the World Bank, the emirate is now one of the largest consumers of energy per capita in the world -- and an estimated two-thirds of that in the summer months is burned on driving air-conditioning.
Outside temperatures might reach a searing 50 degrees Celsius, (122 degrees Fahrenheit) but inside its public buildings the temperature can be so low that people wear jackets. At some cinemas customers can even rent blankets.
Energy consumption solely for air-conditioning is now one of the region's looming headaches. According to Chatham House, neighboring Saudi Arabia could actually be consuming more oil than it exports in 15 years due largely to air conditioning.
The answer to this problem, however, could be closer to home than many previously thought.
Engineers are now looking at traditional Arab architecture as a way of providing zero-energy cooling for contemporary buildings, not just in the Arab peninsula but around the world.
The wind tower has been a fixture of Middle Eastern architecture for almost 1,000 years, says Ben Hughes, associate professor of building physics at Leeds University, and its solutions are as simple as they are effective.
"The higher up you go, the faster the airspeed is," said Hughes.
"They used to build the towers as tall as possible, capture the air at high speed. As it hits the tower, there's a wall that runs down the center of it that forces the wind down into the building."
The build up of a positive pressure inside the building automatically creates a negative pressure on the outside, which means that stale and bad air inside the building is drawn away.
"It creates a siphon effect," Hughes explained. "It pushes air into the building and sucks stale and used air out the other side of the wind tower."
A traditional wind tower in Dubai's Al Bastakiya area.
The most elegant examples of the wind tower still stand in Dubai's historic quarter of Al Bastakiya -- known locally as The Creek -- where Persian traders created ornate structures built of stone or mud in the 1850s to cool and ventilate their urban mansions.
Often, the towers were wrapped in wet fabric to increase their cooling ability.
"They are absolutely fantastic," Hughes said. "Anyone who's been in one of these naturally ventilated space will tell you that it's a far healthier environment than an air-conditioned space."
Air-conditioning, he said, provides immediate thermal comfort whereas wind towers fulfill a different function, ridding buildings of the constant build up of CO2 and diminishing stuffiness.
Even so, his recently patented contemporary wind tower -- a meter-high box that channels air down into buildings and cools it using gravity to feed a refrigerant liquid through a loop in the box -- has achieved a temperature reduction of as much as 12 degrees in buildings.
The beauty of his smaller compact design, he says, is that it saves on the cost of building a heavy and tall wind tower that puts a large structural and expensive burden on the construction.
"The idea of the small, lightweight design is that if you have more of them, you'll get the same effect without having to pay the additional strengthening structural costs," he said.