High Altitude Wind Power Possibilities Explored

OROVILLE, Calif., Nov. 9 (UPI) — If the plans of innovators in the emerging high-altitude wind power sector come to fruition, huge floating helium devices and whirlybirds could be part of the aerial landscape.

For the first conference Nov. 5 on the subject at Oroville, Calif., inventors, engineers, researchers, entrepreneurs and university representatives came together from the United States, Japan, Germany, Italy, Canada and Ireland.

High-altitude wind power, they say, is worth pursuing because winds aloft tend to be more powerful and consistent than winds close to the ground.

“It’s a somewhat early technology — it still sounds like science fiction to most people,” said conference Chairwoman Cristina Archer, an assistant professor of energy, meteorology and environmental science at California State University, Chico, the San Francisco Chronicle reports. The school was one of the conference’s sponsors.

Some of the models previewed during the conference:

Ottawa-based Magenn Power sees possibilities for its Magenn Air Rotor System to power remote communities, such as villages in rural India or for mining operations in locations in which it is difficult to connect to an electrical grid.

Filled with helium and tethered to the ground, the huge, lightweight MARS rotates about a horizontal axis in response to wind, generating electrical energy, which is transferred down the tether for consumption, or to a set of batteries or power grid. It is designed to float 1,000 feet in the air.

Made of the same flexible material as airships, MARS would be easier to ship than conventional wind turbines, said Tony Asterita, one of the company’s founders. MARS could be produced in a range of sizes, with larger versions able to generate 1 megawatt in steady wind, enough to provide electricity to about 750 homes.

Unlike the sharp edges of wind turbines, the company says the soft surface of MARS is bird and bat friendly. “If a bird for some reason does fly into us, he would just bounce off,” said Asterita.

Another example of high-altitude power is Oroville-based Sky WindPower’s Flying Electric Generator, which resembles a tethered elementary helicopter with no cabin. Four rotors lift the device into the air and rotate in the wind when the generator has reached the appropriate height, anywhere from 6,000 to 24,000 feet in the sky. The tether carries power to the ground and also keeps the “helicopter” in place.

Larger versions of the device, said Len Shepard, Sky WindPower’s chief executive, could generate up to 20 megawatts of electricity.

The generator, like many high-altitude wind-powered devices, would likely require restricted airspace.

Copyright 2009 by United Press International

One Response to “High Altitude Wind Power Possibilities Explored”
  1. Joe Faust says:

    There are now over 30 companies highly focused on commercial and utility scale energy systems using upper winds via tethered means.
    A careful watch is being constructed at EnergyKiteSystems dot NET and in their open-to-public forum AirborneWindEnergy

    A large branching regards position of generators: either aloft or on the ground
    And a full brother is the now very successful tug-cargo-ship industry where the mined energy from the upper winds are saving big time on oil bills for the shipping companies. SkySails is the leader in that HAWP sector. Consider so tugging a barge that has water turbines generating electricity even while getting from point A to B. And consider while at sea making from such … split water to hydrogen and compressing the hydrogen for delivery at ports around the world.


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