Improved structural support for wind turbines could lead to 100% greater efficiency

Sep 17, 2012
Wind turbines in the Thames estuary with heavy supporting structures under water. Credit: Phault (Flickr)

(—A University of Cambridge's Department of Engineering study suggests that offshore wind farms could be 100 per cent more efficient in terms of energy payback if manufacturers embraced new methods for making the structures that support the turbines.

As wind farms are increasingly sited offshore rather than on land, and installed at water depths of up to 40 metres, a Cambridge University engineer is urging the wind power industry to look again at the design of the heavy supporting towers and foundations used out at sea in order to improve the energy payback achieved.

Jim Platts of the 's Institute for Manufacturing (IfM) believes that the wind power sector could achieve significantly higher payback ratios if turbine manufacturers used guyed towers (towers held in place by steel cables) made in rather than free-standing towers made in conventional steel materials.

A preliminary study undertaken at the IfM suggests that payback ratios for could be doubled if the industry embraced new .

Jim says: "The development of the wind turbine industry, and the way in which it works with the civil engineers who make the heavy supporting towers and foundations, which are not visible out at sea once the turbines are installed, mean that we have ignored something which is almost embarrassingly obvious in our race to meet the targets set for .

"We urgently need to reduce the high levels of energy embedded in which make them both ineffective in energy payback and costly in financial terms. We can do this fairly easily if we invest in more innovative methods for making and installing the towers and foundations that support them."

The effectiveness of is determined by a key figure: the harvesting ratio. This ratio is a measure of the energy it provides set against the energy embedded in it (energy used in manufacturing it). Wind turbines comprise four main elements: the blades that harness the wind energy; the gearbox and generator mechanisms that produce the electricity; the tower that supports these moving parts and the foundations that hold the tower in place. The tower is conventionally made of steel and the foundation in steel and concrete.

For a turbine designed for use on land, the energy embedded in the moving parts represents two-thirds of the total energy invested in the installation while the supporting structure (tower and foundation) represents the remaining third. Onshore turbines typically achieve a harvesting ratio of 40:1.

When wind turbines are sited offshore, the towers required are both taller and heavier and the foundations more massive, using up to four times the amount of steel and concrete. "When you look at offshore wind turbines you see a series of slim structures - what you don't see are the far heavier supporting structures below the surface that they slot into," explains Jim.

Both steel and concrete are highly energy intensive to produce so the harvesting ratio of offshore turbines reduces to typically 15:1 - far lower than for onshore turbines.

On top of this, offshore turbines are subject to corrosion, which reduces the lifespan of the steel used. "Steel is prone to corrosion and to fatigue," comments Jim. "This begs the question: could we do better with other materials. The answer is yes, we can use composites for towers just as we do for blades. They are lighter, stronger, corrosion free and more resilient than steel."

A preliminary study undertaken by the IfM suggests that guyed towers offer significant advantages over conventional towers. The use of steel cables, fixed to the sea bed by screw anchors, means that towers can be significantly slimmer as the tent-like guyed shape distributes the loads more efficiently to the seabed. Similarly, the foundations required are substantially less weighty.

The resulting reduction in the volume of steel and concrete needed means that a harvesting ratio of 25:1 can be achieved, the study concluded.

"The use of guyed towers is just the first step for the industry to take. The second step would be to make towers in composite materials which are less energy intensive to make than steel which relies on smelting and concrete that also depends on a chemical reduction process in manufacturing cement. Composites also have a longer life than steel as they stand up to fatigue much better. Using these new materials could increase the harvesting ratio still further to 32:1 and extend the lifetime of a turbine installation from the present 20 years to up to 60 years," says Jim.

"The Finnish wind turbine manufacturer Mervento has shown the way with a guyed turbine designed for use in the Baltic. Other producers - such as those making turbines for sites in the North Sea - need to take heed and invest in research into designs that take a similar approach to making the industry far more efficient and sustainable."

The wind turbine industry has experienced an average of 25 per cent per annum growth over the past 20 years. It has pioneered many composite materials developments that have benefited other sectors, such as aerospace. Wind turbine manufacturers use ten times more composite materials than the car and aerospace industries combined.

"It's often overlooked that manufacturers of turbines have driven advances in composites, producing materials with 95 per cent of the performance of the high-cost composites made for the aeronautical sector at 5 per cent of the cost. Much of this work has been led by UK companies. These companies now need to look at new ways of working," says Jim.

In the 1980s, Jim Platts developed the designs, the manufacturing processes, the team and the company that made all the large wind turbine blades in the UK. That team is now the Global Blade Technology division of Vestas, the world's largest wind turbine manufacturing company.

Explore further: US urged to drop India WTO case on solar

Related Stories

How offshore wind turbines could be more efficient

Aug 17, 2012

A Cambridge University study suggests that offshore wind farms could be 100 per cent more efficient in terms of energy payback if manufacturers embraced new methods for making the structures that support ...

Vestas Announces New 7 megawatt offshore wind turbine

Apr 01, 2011

( -- Vestas Chief Executive Officer Ditlev Engel announced in London their new V164 wind turbine, designed specifically for offshore wind power. Optimized for conditions in the North Sea, Vestas ...

MIT designs 'invisible,' floating wind turbines

Sep 18, 2006

An MIT researcher has a vision: Four hundred huge offshore wind turbines are providing onshore customers with enough electricity to power several hundred thousand homes, and nobody standing onshore can see them. The trick? ...

Smart wind turbines can predict the wind

Jan 05, 2010

Risø DTU researchers have recently completed the world’s first successful test on a wind turbine with a laser-based anemometer built into the spinner in order to increase electricity generation.

Recommended for you

Switch on sunlight for a brighter future

5 hours ago

Imagine sitting in a windowless room yet having the feeling of the sun shining on your face. This unique experience is now possible thanks to the COELUX EU-funded project which recreates the physical and ...

US urged to drop India WTO case on solar

21 hours ago

Environmentalists Wednesday urged the United States to drop plans to haul India to the WTO to open its solar market, saying the action would hurt the fight against climate change.

Is nuclear power the only way to avoid geoengineering?

Apr 23, 2014

"I think one can argue that if we were to follow a strong nuclear energy pathway—as well as doing everything else that we can—then we can solve the climate problem without doing geoengineering." So says Tom Wigley, one ...

Finalists named in Bloomberg European city contest

Apr 23, 2014

Amsterdam wants to create an online game to get unemployed young people engaged in finding jobs across Europe. Schaerbeek, Belgium, envisions using geothermal mapping to give households personalized rundowns of steps to save ...

User comments : 3

Adjust slider to filter visible comments by rank

Display comments: newest first

1 / 5 (8) Sep 17, 2012
Interesting article , but i've read this article already on the 17th of August via So it is old news .
1.4 / 5 (10) Sep 17, 2012
Improved structural support for wind turbines could lead to 100% greater efficiency

Soon to be so efficient, they'll generate electricity just by thinking about them.
2.1 / 5 (7) Sep 17, 2012
Improved structural support for wind turbines could lead to 100% greater efficiency

Soon to be so efficient, they'll generate electricity just by thinking about them.

They are talking about doubling the total payback, not the thermodynamic efficiency.

Read closer.

More news stories

Facebook buys fitness app Moves

Facebook has bought the fitness app Moves, which helps users monitor daily physical activity and their calorie counts on a smartphone.

Genetic code of the deadly tsetse fly unraveled

Mining the genome of the disease-transmitting tsetse fly, researchers have revealed the genetic adaptions that allow it to have such unique biology and transmit disease to both humans and animals.

Ocean microbes display remarkable genetic diversity

The smallest, most abundant marine microbe, Prochlorococcus, is a photosynthetic bacteria species essential to the marine ecosystem. An estimated billion billion billion of the single-cell creatures live i ...