The wind turbine rises: Is high-altitude the future of wind energy?

by Cassady Craighill

July 2, 2014

ByZachary Davies Boren ofEnergy Desk

Last month, we examined the nascent sector ofWave and Tidal Energy. In the second feature in an Energydesk series, we look at High-Altitude Wind Energy, a potential reserve second in size only to sun radiation.

Wind energy as it is today, both onshore and offshore, has a problem. It misses most of the wind.

Most of the energy which flows around the planet in the form of wind isnt near the ground, or even above the ocean, its in the sky. Where – some research suggests – constant winds could meet the worlds energy needs and cut the cost of power.

Its not surprising people are trying to use it.

According to theAirborne Wind Energy Group, there are over 100 high-altitude wind energy projects in development, chief among them Googles Makani Power from the same Google X labs which brought us Google glass.

A couple of months agoa video of an airborne wind turbine in Alaskacaught the internets imagination. All it took was a few hundred extra metres and some flashy video production to make wind energy sexy.

It the stuff of science fiction so how close are we to putting the ideas into practice?

An apparently much more straightforward technology, offshore wind, isrunning into well documentedproblems – with the logistics of operating in deep waters putting up costs.

But the reward could make the complexity worthwhile.

Not only would airborne technology do without the concrete foundations which drive up the cost of offshore wind but winds at high-altitude have, on average,twice the velocity of those near ground level, with up to eight times the power density.

There is enough energy in high altitude winds to power civilization 100 times over, wrote Professor Ken Caldeira of Stanford University inhis research paper.Other peer-reviewed papersestimate it could reduce the cost of wind energy ten-fold. So if this technology arrives in earnest, it will make a serious impact on the global energy market.

The runners

Many of worlds AWE projects started in the mid-2000s and are now entering the testing stages ahead. So does the future of wind energy look like Altaeros, the lovechild of a sports stadium blimp and a doughnut?

Perhaps not. Whilst the Altaeros BAT is arguably the best known (it shows up top on Google, ahead of even Googles own high-altitude wind project), it is only one of a several technologies in the sector.

All this innovation, will it fly?

Balloon Its under the banner of balloon technology that Altaeros falls. A turbine, designed to be much lighter than those on traditional towers, is lifted by a balloon or blimp to the higher reaches of the sky and kept in place by tethers on which the generated power travels.

Kite Lifted into the higher skies via a kite steering unit, the kite is moved to optimum wind conditions as it sends the acquired kinetic energy to a ground generation station.

Kytoon The fantastically named cross of a heavier-than-air kite and a lighter-than-air balloon. The key benefit of this hybrid is stability; it is lifted by its kite components and maintains its position due to balloon buoyancy.

Tethered Autogen Largely patented by Google, the Autogen is a contraption akin to a wind copter.

Firstly lets visit Fairbanks, Alaska, whereAltaeros Energiesis partnering with Golden Valley Electric Association to launch a 18-month product test in 2015.

“We’re really leaping beyond what you can get with the traditional tower based turbines, and because of that we’re able to produce energy at a much higher capacity factor, said Ben Glass, the MIT graduate who co-founded Altaeros.

Capacity factor, the bane of renewable energy, is a techy way of saying the wind only blows some of the time requiring investment in interconnected grids and backup power.A2009 reportput the average factor for renewables at 33 per cent.

We often compare the BAT against a 100 kilowatt wind tower turbine that’s fairly popular, and which has a capacity factor in the 20 to 25 per cent range. We’re producing energy at a capacity factor of 50 to 65 per cent, which is twice as much. Indeed, its almost as much as some fossil fuel plants.

How exactly does the Altaeros BAT work?

The balloon, filled with helium, lifts the turbine placed in its centre to about 600 metres. The structure is held in place by three tethers, one of which is electro-mechanical and used to transfer the power from the turbine to the ground station. The turbine itself is a lot like the big horizontal axis turbines were used seeing to on towers, with the key difference is that its much lighter.

Remote areas

Glass says Altaeros has a specific market in mind for the BAT: Were developing the product pretty focused on the remote power market, basically any place thats using diesel gen sets. This can be remote communities like you have in Alaska, it can be disaster relief where your main power infrastructure is knocked out, or it could be remote industrial areas.

In those areas high altitude wind will be competing with diesel and Glass says it could prove to be more than three times cheaper.

Whilst cost is always a key consideration, for these remote areas so is access. Part of the Altaeros balloon design is for portability.

For this system, because its a large inflatable structure, it actually packs down very small and were able to ship it in a couple of standard shipping containers basically to any site in the world and set up within a day or two.

Over in California, there isMakani Power, last year acquired by Google X, the tech giants top secret innovations division.

Image: Makani Power, Google

The Makani technology is essentially a tethered aircraft, a sophisticated kite-wing with built-in wind turbines. As is their MO, X wouldnt talk to me about their tech.

The Americans are more focused on airborne generation, said Marcello Corongiu, Programme Manager of ItalysKiteGen, whilst in Europe, we are mostly committed to on-ground generation.

He theorised that American companies tend towards air generation because of the abundance of patents already issued for on-ground generation technology.

‘Future of electricity’

Is high-altitude the future of wind energy? Corogniu asked, I would go one further and say it is the future of electrical production.

High-altitude wind is an enormous reservoir of energy, the second biggest energy flow after sun radiation. It also highly exploitable without causing environmental issues, asa recent studyfound 1800 terrawatts can be generated without impacting the climate.

Another study, however, claims that extracting any more than 7.5 terrawatts could cause a climate catastrophe.

The German researchers concluded that jet stream wind power does not have the potential to become a signicant source of renewable energy.

But lets get back to KiteGen. It is one of the worlds kite tech big-wigs, with more patents than any other company in the sector (37).

Image: KiteGen

A recent partnership with Saudi Arabia Basic Industries (SABIC) has seen the development of two industrial generators ready for testing this autumn.

Whether that will happen, however, hinges on KiteGens ability to navigate the countrys bureaucratic labyrinth.

The KiteGen technology was conceived as a clever (we hope) generator that controls kites extended on multi-function cables. The system uses climate sensors to inform its management of the kites optimising speed and torque, and also the flight path.

The last year has seen a major redesign – after the firm ran into some problems.

We asked a manufacturer to make a kit for us of about 50 square metres, but we broke it in 10 minutes. The material is not robust enough for bear the high-altitude forces. Our new wing, which has aeronautical and structural integrity, is about 100 square metres.

Mike Barnard of Cleantechnicaearlier this year poked holes in kite-tech, writing that the system is fraught with failure conditions.

And according to Barnard, the semi-flex wing to which KiteGen have moved increases complexity and weight in the air which then increases chances of failure and reduces efficiency.

Low cost

The kite model, says Corongiu, is designed work with the particular conditions of high-altitude where stationary turbines cannot – because it would be too expensive to build them that high.

The success of the sector will be measured in what it does to energy costs, and KiteGen, like its rivals is astoundingly optimistic: We expect a levelised energy cost of less than 20 per megawatt per hour, much less than all present energy technology except for some hydroelectric. Less, in fact, than coal.

And finally, over in Germany, theresSkySails, which is looking towards high-altitude offshore. Using the kite method, SkySails, which is in the design phase of its 1 MW unit, is building its stations to float.

Wind in higher altitudes is more stable and stronger, so theres more to harvest, explained Stephan Wrage, Managing Director of SkySails, And the floating AWE turbines are much easier and cheaper to produce and install than conventional wind turbines.

In his brutally comprehensive assessment of the sector, Barnard said it suffered for lack of harmonious design: As soon as you start engineering an airborne solution to harvest that energy, the compromises strip away the potential bit-by-bit until it just isnt viable in any incarnation so far attempted.

But the wind energy sector has grown more than any other renewable in recent years. These projects have yet to arrive, and they certainly wont be the finished article when they do. There is great potential for the sector in the years ahead; that vast expanse of energy gold above our heads is waiting to mined, and there is an ever-growing number of people and organisations committed to doing just that.

Cassady Craighill

By Cassady Craighill

Cassady is a media officer for Greenpeace USA based on the East Coast. She covers climate change and energy, particularly how both issues relate to the Trump administration.

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