New Wind Turbine Produces Electricity and Water in the Desert
15 Apr, 2012
Tests on a ground-mounted prototype of its water maker system (WMS), which began in October in Mussafah, on the outskirts of Abu Dhabi, have shown it to be capable of flowing 500-800 litres daily. But Eole Water believes this volume can be tuned up to levels of well over 1,000 litres with a tower-top system, and the company has hopes of scaling up the technology for use by industry and off-grid communities.
“The process is based on the same experience you see after you have taken a shower and every surface is covered with condensation — we do the same with the WMS1000 but just on a much larger scale,” says Eole
Water marketing director Thibault Janin. “The prototype is not yet on a mast because we wanted to check that it could operate in difficult desert conditions first — and so far the results have been very good. And would be even better, of course, if it was placed in coastal or offshore areas where there is higher humidity and more wind.”
Eole chief executive Marc Parent dreamed up the concept in the 1990s while working as an engineer in the Caribbean, where he had been reducing his bottled water costs by siphoning the condensation from his air conditioner.
Janin says it was then a “short step” to refashion the technology as a wind-powered device by hooking it up to a turbine, creating a system that generated both power and potable water.
Along with the 1,000 litres of drinking water that will be produced per day, the turbine generates 30kW of electricity to flow the water to the storage tanks and power the purification system. Efficiency rates of 50% (of available water extracted from a given volume of air) have been reached with the prototype.
Under full-time development since May 2010, the technology has attracted huge interest among industrial players, and partnerships have been forged with about 40 companies, including Emerson, Siemens, Danfoss, Carel and Arcelor Mittal.
The water-generating turbine — which is the size of a standard 300-500kW model — features a 13-metre-diameter rotor set at a hub height of 24 metres. Its 12-tonne nacelle houses a direct-drive permanent-magnet generator protected by sand-shutters, cooling compressors, stainless-steel humidity condensers, an airflow regulator and a heat exchanger.
“This, we realise, is heavy and high for a system that produces one cubic metre [1,000 litres] of water a day. So you can imagine the size of the machine if it were producing 25 cubic metres — it would be the size of a large offshore wind turbine,” notes Janin.