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Airborne wind turbine : ウィキペディア英語版
Airborne wind turbine

An airborne wind turbine is a design concept for a wind turbine with a rotor supported in the air without a tower, thus benefiting from more mechanical and aerodynamic options, the higher velocity and persistence of wind at high altitudes, while avoiding the expense of tower construction,〔Michael Specter, "Wind Power Takes Flight", ''The New Yorker''
May 20, 2013 (behind paywall )〕 or the need for slip rings or yaw mechanism. An electrical generator may be on the ground or airborne. Challenges include safely suspending and maintaining turbines hundreds of meters off the ground in high winds and storms, transferring the harvested and/or generated power back to earth, and interference with aviation
Airborne wind turbines may operate in low or high altitudes; they are part of a wider class of airborne wind energy systems (AWES) addressed by high-altitude wind power and crosswind kite power. When the generator is on the ground,〔(Airborne Wind Energy Generation Systems )〕 then the tethered aircraft need not carry the generator mass or have a conductive tether. When the generator is aloft, then a conductive tether would be used to transmit energy to the ground or used aloft or beamed to receivers using microwave or laser. Kites and 'helicopters' come down when there is insufficient wind; kytoons and blimps resolve the matter. Also, bad weather such as lightning or thunderstorms, could temporarily suspend use of the machines, probably requiring them to be brought back down to the ground and covered. Some schemes require a long power cable and, if the turbine is high enough, a prohibited airspace zone. As of April 2014, no commercial airborne wind turbines are in regular operation.〔(What are some known kite electricity methods? )〕
==Aerodynamic variety==
An aerodynamic airborne wind power system relies on the wind for support.
Miles L. Loyd proposed and analyzed an efficient AWES in his work "Crosswind Kite Power"〔M. Loyd, ("Crosswind Kite Power" ), J. Energy, vol. 4, no. 3, pp. 106-111, 1980〕 in 1980. Power output of AWES with crosswind wing motion is proportional to a square of a lift/drag ratio of the wing. Such AWES is based on the same aerodynamic principles as a conventional wind turbine (AWES), but it is more efficient because the air speed is constant along the wing span and the aerodynamic forces are resisted by tension of a tether, rather than by bending of a tower.
Bryan Roberts, a professor of engineering at the University of Technology, in Sydney, Australia, has proposed a helicopter-like craft which flies to altitude and stays there, held aloft by wings that generate lift from the wind, and held in place by a cable to a ground anchor. According to its designers, while some of the energy in the wind would be 'lost' on lift, the constant and potent winds would allow it to generate constant electricity. Since the winds usually blow horizontally, the turbines would be at an angle from the horizontal, catching winds while still generating lift. Deployment could be done by feeding electricity to the turbines, which would turn them into electric motors, lifting the structure into the sky.
The Dutch ex-astronaut and physicist Wubbo Ockels, working with the Delft University of Technology in the Netherlands, has designed and demonstrated an airborne wind turbine he called a "Laddermill". It consists of an endless loop of kites. The kites lift up one end of the endless loop (the "ladder"), and the released energy is used to drive an electric generator.
A Sept'09 paper from Carbon Tracking Ltd., Ireland has shown the capacity factor of a kite using ground-based generation to be 52.2%, which compares favorably with terrestrial wind-farm capacity factors of 30%.
A team from Worcester Polytechnic Institute in the United States has developed a smaller-scale with an estimated output of about 1 kW. It uses a kiteboarding kite to induce a rocking motion in a pivoting beam.
The Kitegen uses a prototype vertical-axis wind turbine. It is an innovative plan (still in the construction phase) that consists of one wind farm with a vertical spin axis, and employs kites to exploit high-altitude winds. The Kite Wind Generator (KWG) or Kitegen is claimed to eliminate all the static and dynamic problems that prevent the increase of the power (in terms of dimensions) obtainable from the traditional horizontal-axis wind turbine generators. Generating equipment would remain on the ground, and only the airfoils are supported by the wind. Such a wind power plant would be capable of producing the energy equivalent to a nuclear plant, while using an area of few square kilometres, without occupying it exclusively. (The majority of this area can still be used for agriculture, or navigation in the case of an offshore installation.)
The Rotokite〔(Rotokite )〕 is developed from Gianni Vergnano's idea. It uses aerodynamic profiles similar to kites that have been rotated on their own axis, emulating the performance of a propeller. The use of the rotation principle simplifies the problem of checking the flight of the kites and eliminates the difficulties due to the lengths of cables, enabling the production of wind energy at low cost. The Heli Wind Power is a project of Gianni Vergnano that uses a tethered kite.
The HAWE System 〔(HAWE system Omnidea )〕 is developed from Tiago Pardal's idea. The System that consists in a Pumping Cycle similar to kite systems. In Generation Phase the pulling force increase 5-10 times due to Magnus Effect of a spinning cylinder(aerial platform), like a kite the pulling force produced by the aerial plaform will unwind the cable and generate electricity in the ground.In the Recovery Phase it rewinds the cable with no Magnus Effect in the aerial platform.
In August 2011 the German company SkySails, producer of kites for ship propulsion, announced a kite-based wind power system for on- and offshore applications that is supposed to be "30% cheaper than current offshore solutions".〔http://www.skysails.info/english/power/power-system/〕
In June 2012, the German company NTS GmbH had successfully tested X-Wind technology (spoken: Cross-Wind) on linear rail system in Freidland, Germany. "NTS Energie- und Transportsysteme GmbH" was found in 2006 by Uwe Ahrens.〔http://www.x-wind.de/index.php/en/〕 X-Wind technology combines two well-known technologies - automatically steered kites and generators on a closed loop rail system. Closed loop prototype is under construction at Mecklenburg-Vorpommern, Germany.〔http://www.cleantech.com/wp-content/uploads/2013/05/Uwe_Ahrens_NTS.pdf〕 This technology allows to harness increasingly stable and constant wind currents at altitudes between 200 to 500m. Technical report readings and measurements show that NTS X-Wind Systems double to triple the efficiency of conventional wind energy systems according to energy production.〔http://www.cleantech.com/wp-content/uploads/2013/04/NTS-Airborne-Executive-Summary.pdf〕
In May 2013, the Californian company Makani Power, developer of some crosswind hybrid kite systems with onboard generator doubling as motor, has been acquired by Google.〔http://www.businessweek.com/articles/2013-05-22/inside-googles-secret-lab〕
In May 2013, an airborne wind energy system with a ground-based generator using fast motion transfer was suggested by L. Goldstein.〔L. Goldstein, ("Theoretical analysis of an airborne wind energy conversion system with a ground generator and fast motion transfer" ), Energy, Int. J, 2013.〕
In 2015, a sails on rope wind and ocean current energy system was invented by a Taiwanese Johnson Hsu.()

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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