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Top 10 | Wind Turbines

Top 10 Wind Turbines

The American Wind Energy Association (AWEA) released their 20% Wind Report Card on July 8, following up on a study in which the Department of Energy proposed a goal where 20 percent of U.S. electricity comes from wind energy by 2030. The AWEA gave the overall U.S. push for wind power a “solid B”—high marks from an advocacy group that grades U.S. infrastructure.

The highest letter in the report was an A- awarded for “Technology Development.” This is no big surprise—for years now, the government, alternative-energy researchers and entrepreneurs have been putting time and money into making better tech for cleaner, more efficient energy production. Here are 10 wind turbine designs that push the limits of the current design and may help the U.S. get back to being an A student by 2030.

1. Whale Power | Top 10 Wind Turbines

01-whale-power-Top-10-wind-turbines

What It Is

The company, Whale Power, has redesigned the typically smooth blades on a turbine, adding a series of ridges, based on tubercles, the bumps on humpback whale fins. The company says this new blade design could increase annual electrical production for existing wind farms by 20 percent.

How It Works:

Humpback whales tilt their fins at steep angles to achieve better lift in the water. Too much tilt, however, has the opposite effect–a loss of lift, called stalling. Tubercles prevent stalling, allowing for more aggressive fin tilts. Whale Power’s tubercle-like structures on the turbine blades allow the blades to have steeper angles–without causing stalling or creating too much drag. During low wind, blades with steeper angles can theoretically generate significantly more power. Wind tunnel tests published by Frank Fish, president and founder of Whale Power, and by Duke University fluid dynamics expert Laurens Howle in 2004 showed that, in some cases, adding tubercle-like bumps to model fins pushed back the stall angle by as much as 40 percent.

Where To Find It

Testing on the tubercle-enhanced blades began in 2007 at The Wind Energy Institute of Canada in Prince Edward Island. A Canadian ventilation company, Envira-North Systems, will be the first to use tubercle technology in industrial fans.

2. Quiet Revolution qr5 | Top 10 Wind Turbines

02-Quiet Revolution qr5-wind turbine

What It Is

The qr5 wind turbine is designed for an urban environment with low wind speeds and changing wind directions.

How It Works

Traditional wind turbines capture horizontal winds and must rotate to follow changes in wind direction. The qr5’s helical design allows the turbine to collect wind from all directions equally.

Where To Find It

The first qr5 turbine was installed in Dagenham, a suburb of London, in March 2007. At the end of 2008, over 70 turbines had been installed throughout the United Kingdom, where each unit generates between 4000 and 10000 kilowatt-hours per year, according to the company.

Quiet Revolution-wind turbine

3. Windspire | Top 10 Wind Turbines

03-Windspire-wind turbine

What It Is

Wind spire is a vertical wind turbine, similar to the Quiet Revolution. This 30-foot tall, 4-foot wide turbine generates 2000 kilowatts per hour given 12-mph winds, and it can survive winds up to 105 mph.

How It Works

Wind spire has a tall, thin propeller less rotor. It generates power when wind spins its vertical airfoils.

Where To Find It

These wind turbines have been installed across the county in homes, museums, businesses and schools. For example, the Michigan governor’s residence has a wind turbine, and Quinnipiac College in Connecticut is planning to use the turbines on campus to help power its buildings.

Windspire wind turbine

4. Mageen Air Rotor System (MARS) | Top 10 Wind Turbines

04-Mageen Air Rotor System (MARS)-wind turbine

What It Is

MARS is a high-altitude wind turbine that stays afloat with a helium-filled, airship-like body. It can be tethered up to 1000 feet in the air.

How It Works

MARS rotates around a horizontal axis as the wind hits fins along the side. The rotation generates electricity, which is transferred down the power line, which doubles as its tether, to the ground.

Where To Find It

MARS is still being tested, but it is scheduled to be released for commercial use in 2009 or 2010. Suggested locations for the turbine include off-shore drilling stations, islands, and mining sites.

MARS wind turbine

5. Windbelt | Top 10 Wind Turbines

05-Windbelt-wind turbine

What It Is

The Windbelt, created by PM Breakthrough Award Winner, Shawn Frayne, is a small-scale wind turbine that can generate 40 milliwatts in 10-mph winds and only costs a couple of dollars. The goal is to help the poor power their lights cheaply and safely.

How It Works

A pair of magnets fitted on a membrane oscillate between two wire coils to generate electricity.

Where To Find It

This wind turbine is aimed at Third World countries, with installations in Haiti and Guatemala.

6. Honeywell Wind Turbine | Top 10 Wind Turbines

06-Honneywell wind Turbine_on_Sky-47

What It Is

Honeywell is a rooftop wind turbine that works in wind speeds as low as 2 miles per hour.

How It Works

The Honeywell turbine does not have gears like traditional wind turbines. Instead, it creates power from magnets in its blade tips and in the enclosure for the blades. This, claims Honeywell, results in lower resistance, which can mean higher energy output.

Where To Find It

The Honeywell is designed for homes and businesses. It will be available at ACE Hardware this fall.

Honeywell wind turbine

7. WePOWER | Top 10 Wind Turbines

What It Is

WePOWER is a vertical-axis wind turbine that operates quietly and performs well in low-speed winds.

How It Works

Unlike many turbines, which either rely solely on lift (in the case of traditional three-blade turbines) or drag (used in wind-speed gauge anemometers), WePOWER uses a combination of both. Its unique airfoil lets it produce power at low wind speeds.

Where To Find It

At Jay Leno’s garage, of course. WePOWER turbines are also used in wind farms, homes, cell towers and buildings.

8. Spiral Drag Wind Turbine | Top 10 Wind Turbines

08-Spiral Drag Wind Turbine

What It Is

This vertical axis turbine uses drag propulsion to push the blade that is designed as an involute spiral.

How It Works

The turbine uses aluminum vanes formed into an involute spiral–giving the blade extremely high surface area–to capture wind and rotate.

Where To Find It

The design is still in developmental stages.

9. Architectural Wind | Top 10 Wind Turbines

09-Architectural-Wind-Boston-Logan-Airport

What It Is

Architectural Wind is a small wind turbine that can be mounted on the top edge of a building.

How It Works

When wind hits a building, the resistance creates an area of accelerated air flow–straight up the side of the building. This wind turbine catches the faster winds as they travel up the wall.

Where To Find It

A variety of buildings have installed rows of these turbines, including the Maui Ocean Center in Hawaii and Logan International Airport in Boston.

10. Sky Serpent | Top 10 Wind Turbines

10-sky serpent-superturbine-wind turbine

What It Is

The Sky Serpent makes use of multiple rotors attached to a single generator.

How It Works

Past multi-rotor turbines have run into trouble because their rotors just catch the wind generated by the spin of neighboring rotors. The Sky Serpent’s rotors are spaced and angled to ensure that each one is catching fresh wind.

Where To Find It

These turbines are being built and tested in California, in part funded the California Energy Commission.

Sky serpent wind turbine

2 thoughts on “Top 10 | Wind Turbines”

  1. The recognition and development of the whale ridges is super exciting. Moderate wind resources are where people use the most power, so no massive multi-billion dollar investments are needed for transmission lines to bring it to market. With 20% increases in efficiency and associated reductions in cost in these regimes, the DOE goal of 20% wind power by 2030 can literally happen here and now (or at least much sooner)!

    Director, Wind Energy Assessment and Visualization (WEAV Lab), Ohio University, Athens, OH

  2. Pingback: THAWT Most Efficient Underwater Ocean Turbines - 2021

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