Kites Aim to Tap Unused High-Altitude Wind Power
Google Investment Generates Hype, Until Crash
Enter Google. In 2013, the tech giant bought the US airborne wind energy company Makani for an undisclosed amount, triggering euphoria in the niche sector. Their flying power plant, a device about the size of a small aircraft, climbed to an altitude of around 300 meters where it circled in a continuous and automated loop.
The high speeds propelled small wind wheels on the wings, which generated electricity. At the time, Moritz Diehl thought it sounded “crazy” — but it worked. A single flying power plant made enough energy for 300 households, according to Makani.
It seemed to be the breakthrough everyone had been waiting for, until a device crashed into the sea during a test mission. Google’s parent company Alphabet subsequently dropped the project, expressing doubts about the economic viability of the flying power-drone.
Not the End, But the Beginning
The end of Makani didn’t spell the end of airborne wind energy. A new wave of startups has kept working on increasingly small devices that use ever less material. Some have pursued Makani’s approach, while others have attached their drone to a rope which tugs at a generator. Still others took the same approach but replaced the drone with a kite.
Among them is SkySails-Power — successor to the bankrupt German company behind the towing kites. Now specializing in energy generation, it has come up with a device that uses a “pumping cycle” to generate power. The kite takes off automatically, directs itself against the wind and unwinds a rope from a generator. It flies in a figure eight, constantly tugging at the rope and creating energy.
The kite is designed to remain airborne for hours, days and weeks. In bad weather or in dangerous conditions, it triggers an alarm and can be recovered.
Not Designed to Replace Existing Wind Power
Though the sector still requires considerable investment and clarification of many regulatory questions around air traffic, Wrage said the technology could help the 1.4 billion people globally who live off-grid, and often use dirty diesel generators to power their homes.
According to a study by members of the wind industry itself, airborne wind energy could become significantly cheaper than diesel — and even cheaper than traditional wind energy.
SkySails-Power, currently leader in the sector, has sold a first unit to Mauritius. The company is looking to build a high-altitude wind hub in East Africa and operate offshore kite wind farms.
SkySails said a single one of its kites can create energy for up to 500 households, using 90% less material than traditional wind turbines. Other advantages include flexibility of location.
“You could also operate them above the forest. You could stop them operating and or even land if there’s a swarm of birds passing by,” said Diehl.
Rishikesh Joshi, an aerospace engineering researcher at the Delft University of Technology, said “it will still take a few years” before the technology makes a difference. “The wind industry also took around 40 years to develop to be this cheap,” he said.
In the meantime, traditional turbines continue to turn. And even when the airborne wind energy sector is more advanced, the idea is not to replace existing turbines but to make greater use of the winds that blow high above the ground.
Tim Schauenberg is multimedia reporter at DW. This article is published courtesy of Deutsche Welle (DW).
