Big Blow For Tidal Power

June 18, 2010

The prospect of nearly unlimited, renewable energy from the tides suffered a blow this month when OpenHydro announced it would pull its experimental underwater turbine from the Bay of Fundy.

The test in this most extreme tidal environment was seen as a critical opportunity for the industry to prove that harnessing the tides had finally become feasible.

OpenHydro says it will pull its experimental tidal turbine out of the Bay of Fundy this fall after two rotors broke.

OpenHydro lowered its 400-tonne, six-story turbine onto the seabed last November, choosing the swift flowing Minas Passage near Parrsboro, Nova Scotia.

Last week, the Irish company said it would yank the turbine out by October after an underwater video discovered two broken blades. The blades are made of a combination of plastic and glass.

The setback underscores how difficult it is to operate in the corrosive, storm-plagued marine environment. The $10 million, 1 MW project had hoped to show a first-of-its-kind tidal plant could be built to supply as much as 25 percent of Nova Scotia electricity.

The Bay of Fundy was selected because it arguably has the highest tides in the world, competing for the honor with the Ungava Bay in Quebec and the Severn estuary in the United Kingdom. Tides can rise 55 feet or more, generating a potential of 1,013 MW of power, 152 MW of which can be harnessed with little environmental impact.

The test was being closely watched and will be viewed by the industry as a big setback. The theory is that the predictability of the tides will ultimately make the energy they generate less expensive than solar and wind – though today it is roughly three times more costly. According to an Electric Power Research Institute study, that price in the Bay of Fundy could be as low as 5.5 cents a kWh, roughly comparable with the wholesale price of electricity.

According to a press release, OpenHydro, which has raised $74 million in funding since 2005, plans to repair the turbine and reinstall it next year. The difficulties “will further our understanding of how the turbine has operated in this unique and challenging environment, bringing us closer to commercially developed tidal arrays in the Bay of Fundy,” said CFO Peter Corcoran.

The company had lowered a video camera to view the turbine in May after an acoustic modem intended to monitor underwater motion malfunctioned.

The setback isn’t the first for tidal power. Verdant Power, for instance, struggled to keep its turbines running in the powerful currents of New York City’s East River, and was forced to pull prototypes only weeks after they were installed when blades broke.

The company is presently operating new smaller devices with fewer moving parts. The new design anchors three turbines on a triangular frame rather than place them directly on the riverbed.

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Posted by Mark Boslet

Earth Day Celebration: Energy Department Finds Another $200 Million For Solar And Ocean Energy Technologies

April 22, 2010

The Energy Department announced Thursday it will award another $200 million to accelerate the development of solar and water technologies.

The department said the money will support not just research but the commercialization of technologies. It will be spent over five years.

The largest slice of the money will go to support next generation solar research, both at universities and by industry. Another $40 million will be aimed companies and technologies that supply the solar industry, and which develop new materials, components or techniques for reducing waste.

An additional $39 million will target water-energy technologies that derive power from waves, tides, ocean temperatures or river currents.

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Posted by Mark Boslet

Scottish Company Hopes To Build Power Plants At Sea

February 23, 2010

With the early results of a wave energy trial off the Scottish coast a qualified success, the company behind the ambitious effort has its sights set on bigger fish: building the world’s first power plant at sea.

Aquamarine Power of Edinburgh says the Oyster wave power device it installed in November off the stormy Orkney coast is generating energy, though not quite the full 300 KW it is capable of. Troubleshooting continues on several underwater valves and on the hydroelectric turbine onshore that converts motion to electricity.

The first generation Oyster wave power machine getting ready for a swim.

The repairs should be complete within a couple months, says CEO Martin McAdam. Meanwhile, the company is thinking fathoms ahead. The second-generation Oyster is earmarked for installation next year with almost 10 times the generating capacity of its predecessor.

On the drawing board is a third-generation machine designed to cut costs by more than half – to less than $3 million a MW – by taking advantage of mass production. The target date is 2014.

McAdam says this device will enable the company to become a substantial generator of electricity and give it the capability of building power plants at sea.

“Our goal is power-plant sized projects and that means we need to do hundreds of megawatts,” he said in an interview this week. “We will get there.”

Aquamarine Power’s early effort along the Scottish coastline is one of several key ocean energy trials taking place around the world. Another even more ambitious project intends to mine energy from the tides in the Bay of Fundy. Both are critical to an industry hoping to prove it can compete with solar and wind and become a substantial contributor of green electricity.

The Oyster works with an above water flap that rocks back and forth with the passing surf. Each dip pushes a hydraulic piston, forcing water down a pipe to shore where it powers the turbine. McAdam argues it is a superior design to other wave power devices because it generates more energy per mass – four times, to be exact.

The Oyster’s second-generation rectangular flap will be far more productive than the first because of flanges on either end to catch more of the wave.  “Our version two is really a big breakthrough,” says McAdam.

With the next several years key ones for ocean energy, the performance of innovations like those at Aquamarine Power will be closely watched. They hold the success of the industry in their hands.

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Energy Department Signs Off On Tidal Turbines As Largest US Project Kicks Off In Maine

February 23, 2010

As Ocean Renewable Power gets ready to install the nation’s largest tidal turbine off the coast of Maine, the Energy Department Tuesday in effect gave the project a green light.

The department issued a report to Congress concluding that tidal and wave energy devices will have no significant impact on the marine environment.

Ocean Renewable Power will launch its tidal turbine next month.

The Eastport, Maine, project is one of a small handful of ocean-energy trials taking place in the U.S. More advanced trials have started outside the country, in the Bay of Fundy and off the coast of Scotland, for instance.

In Maine, Ocean Renewable Power hopes to install a 10,000-pound, 60 KW generator in the waters of Cobscook Bay next month. The turbine will follow. It is believed to be the largest tidal energy project planned for coastal U.S. waters.

The company anticipates a commercial scale unit with connections to the electrical grid by the end of the year and a farm with 200 MW of capacity by 2015. It has received $1.3 million of Department of Energy grants.

The Energy Department report to Congress points out that more than 100 devices have been developed or conceived for converting waves, tides and ocean temperatures into energy. So far, few have left the drawing board to become prototypes.

As a result, there is little hard data for understanding the impact on ocean and river life. Nonetheless, the 143-page study looks closely at the impact of underwater cables, offshore wind farms, hydropower stations and other marine construction to determine the environmental consequence will be minimal.

It warns, however, that more monitoring needs to take place as projects move forward.

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Critical Wave Energy Trial Begins In Scotland

November 23, 2009

On Friday, Scotland embarked on one of the wave-energy industry’s most important product trials.

Aquamarine Power's Oyster is billed as the world's largest hydroelectric wave energy device

The world’s largest hydroelectric wave energy device, called the Oyster, was switched on. Power jolted into the energy grid, and manufacturer Aquamarine Power took a sigh of relief.

It is estimated the waters around Scotland hold about 10 percent of Europe’s wave energy. So the location of the trial is a critical test of the nation’s ability to harness the power of its local waters.

But more broadly, the in-water operation of the device is a key step for an industry still trying to prove that mechanical equipment can survive the harsh, corrosive offshore environment.

In a ceremony near the ocean’s edge, Scotland’s First Minister Alex Salmond proclaimed the moment as a renewables milestone for Scotland, which also has been an active developer of wind power.

The device was put in place on the seabed near Stromness  this summer in 30 to 40 feet of water. It works when a cylindrical arm – referred to as a wave energy converter – rocks back and forth in the ocean’s waves and pumps high-pressure water to an onshore hydroelectric turbine. The turbine makes the electricity, feeding it into the electrical grid.

Because the wave converter has few moving parts, the company believes it will stand up well to storms and foul weather.

It is estimated that 20 Oysters in an offshore farm can supply enough energy to power 9,000 homes. But not until the first shows itself well in the rough waters of the Scottish coast.

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