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Posts Tagged ‘offshore wind farms’

Infighting among U.S. federal agencies over regulation of wind and wave energy development on the outer continental shelf ended Tuesday with an accord that gives the Department of the Interior oversight of offshore wind farms while the Federal Energy Regulatory Commission gets jurisdiction over wave and tidal projects.

While the deal brokered by Interior Secretary Ken Salazar and acting FERC chairman Jon Wellinghoff will allow wind and wave projects to proceed, it’s still unclear what the impact will be on proposals to build combined offshore wind-and-wave farms.

As Green Wombat wrote earlier this month, a Seattle company called Grays Harbor Ocean Energy has filed applications with FERC to build such combo plants off several states. Among them, California, where the city of San Francisco is attempting to scuttle Grays’ proposed 100 megawatt project that would be located in a marine sanctuary in favor of its own 30 megawatt wave farm that would be built closer to shore.

Environmentalists, surfers and sailors also have objected to the Grays Harbor wave farm and the Department of the Interior’s Minerals Management Service had challenged FERC’s right to approve combined wind-wave projects.

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Illustration: Principle Power

A Seattle-based renewable energy startup, Principle Power, has signed an agreement to build a deep-sea, 150-megawatt wind farm to be constructed on floating platforms off the Oregon coast.

The deal with the Tillamook Intergovernmental Development Agency – which includes the local utility for a coastal county west of Portland – is very early stage but foreshadows two technological trends in the wind industry: massive megawatt turbines placed on deep-ocean platforms.

Principle Power co-founder Jon Bonanno tells Green Wombat that each floating platform – called a WindFloat – will feature a 5-megawatt turbine. By contrast, the biggest biggest land-based turbines are typically 2.5 megawatts, while General Electric (GE) makes a 3.6-megawatt turbine designed for offshore use.

Bigger turbines offer better economies of scale (important given the steep cost of developing offshore wind farms), and since a deep-ocean wind turbine is not visible from the coast, they avoid the not-in-my-backyard fights that dog near-shore projects. (Clipper Windpower of Carpinteria, Calif., is developing a ten-megawatt monster for England’s Crown Estate, while European wind companies like Enercon has been testing turbines in the six megawatt range.)

“It’s becoming an increasingly important component of the mix in Europe,” says Ethan Zindler, head of North American research for New Energy Finance, a London-based firm. “I think a lot of it is conceptual at this point. There’s still a lot of barriers in turbine design and transport.”

Beyond the technological challenges of supersizing a turbine, there’s the issue of how to get a 300-foot-tall windmill out to sea without breaking the bank. Various wind companies are tackling the problem but Principle Power’s solution is to license the WindFloat technology from a Berkeley, Calif.-based startup called Marine Innovation & Technology. The company’s founders, who previously worked on offshore platforms for the oil industry, designed the WindFloat to be semi-submersible. “The design and size of the WindFloat enables the overall structure to be assembled onshore and towed to its final location, significantly reducing construction costs,” according to Principle Power.

“The WindFloat has undergone concept development validation through numerical modeling, third party engineering verification and extensive wave tank testing,” Bonanno said in an e-mail, noting that he expects a full-scale prototype to be built within a year.

Depending on the permitting process and Principle’s ability to obtain project financing, Bonanno anticipates the wind farm to be up and operating between 2013 and 2015.  Early estimates peg the cost of the wind farm at about $375 million.

Pat Ashby, the general manager of the 19,000-customer Tillamook People’s Utility District, says his utility has a capacity of 50 megawatts so it would most likely serve as an interconnection point to transmit electricity from the wind farm to the regional power grid. “Our substations are all along the coast,” he says. “There’s only a dozen miles or less to get to a substation.”

According to Ashby, the cost of laying a transmission line is about $1 million a mile. On the other hand, if the wind farm is too close to shore, residents will likely get riled up about the impact on their views. “We’ve already had an organized group come forward to express their concerns,” he says.

Bonanno notes that if the wind farm was placed five miles off the coast, the turbines would appear to be the size of a thumb from the shore; at ten miles they would not be visible.

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Green Wombat’s story on the Royal Turbine is in the latest issue of Fortune and available online here and below.

Her majesty’s big, honkin’ windmill

The Queen of England is buying the world’s largest wind turbine, which towers over Big Ben and will light up thousands of British homes.

By Todd Woody, senior editor

(Fortune Magazine) — It’s been a century or so since Britain ruled the waves, but Queen Elizabeth II will soon reign over the wind. Earlier this year the Crown Estate, which manages royal property worth $14 billion and controls the seas up to 14 miles off the British coast, agreed to purchase – for an undisclosed sum – the world’s largest wind turbine.

It’s a 7.5-megawatt monster to be built by Clipper Windpower of Carpinteria, Calif. Now the Royal Turbine is getting even bigger: Clipper has revealed to Fortune that Her Majesty’s windmill has been supersized to ten megawatts, producing five times the power generated by typical big turbines currently in commercial operation. The giant’s wingspan stretches the length of two soccer fields. At 574 feet, the turbine soars over Big Ben and roughly equals 111 Queen Elizabeths (the actual queen) plus one corgi stacked on top of one another.

The Queen’s turbine will displace two million barrels of oil as well as 724,000 tons of CO2 over its lifetime. This prototype will be the flagship for Clipper’s Britannia Project, an effort to create a new generation of massive-megawatt turbines to be placed on deep-sea floating platforms. When the windmill goes online in 2012 somewhere off the British coast, it could power 3,700 average homes.

Rule, Britannia, indeed.

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