These are the world’s first wind turbine blade bridges

Good News Notes:

On a former train track bed connecting the towns of Midleton and Youghal in County Cork, Ireland, workers recently excavated the rusted remains of an old railway bridge and installed a pedestrian one in its place. The bridge would have been an unremarkable milestone in the development of a new pedestrian greenway through the Irish countryside, if not for what it’s made of: recycled wind turbine blades.

That makes it just the second “blade bridge” in the world. The first, installed last October in a small town in western Poland, officially opened in early January. The engineers and entrepreneurs behind these bridges are hopeful they represent the beginning of a new trend: repurposing old wind turbine blades for infrastructure projects.

It keeps them out of landfills and saves energy required to make new construction materials. When civil engineer Kieran Ruane first saw concept designs for a bridge built with wind turbine blades, he said the idea was “immediately appealing.”

“It was a no-brainer that this needed to be investigated and trialed, at least,” Ruane, a lecturer at Ireland’s Munster Technological University and a member of Re-Wind, the research network behind Ireland’s new blade bridge, tells The Verge.

Creative solutions will be necessary to deal with the wind turbine blade waste that’s coming. Averaging over 150 feet in length and weighing upwards of a dozen tons each, wind turbine blades take up huge amounts of space in landfills. Once there, the ultra-sturdy, fiber-reinforced plastics they’re made of don’t break down easily. Decommissioned wind turbine blades, if they’re not just stockpiled, are often destined for landfills today. The main alternative, incinerating them for energy, creates additional pollution.

That could change if ideas like blade bridges take off. Marcin Sobczyk, a product developer at Anmet, the company behind Poland’s new blade bridge, tells The Verge that wind blades often have decades of life left in them after a turbine is decommissioned. And the same material properties that make blades good at harnessing wind power — strength, lightweightness, and all-weather durability — also make them attractive as engineering support structures.

“These constructions should be able to exist for at least a hundred years,” Sobczyk says of blade bridges, adding that most wind turbines are only designed to be in use for two to three decades. “So we really increase this period of use.” Ruane also told The Verge that blade bridges, like other types of bridges, can be designed to last for more than a century.

Originally a metals recycling company, Anmet started exploring ways to repurpose wind blades about seven years ago. Since then, it developed a small commercial business making outdoor furniture out of discarded wind turbine blades. Bridges, Sobczyk says, are the next area it would like to expand into commercially.

The company’s first blade bridge took about three years to test, permit, and build. After harvesting decommissioned blades from a wind farm in Germany, the blades were subjected to a battery of engineering tests in partnership with Poland’s Rzeszów University of Technology before being cut up to create the primary support structures for a pedestrian footbridge. In October, Amnet installed that bridge over a river in Szprotawa, the small town where the company is headquartered.

Because it was a first-of-its-kind demonstration, Anmet financed the bridge, along with a grant from the European Union to help cover the cost of the engineering tests. In the future, the company hopes to get paid by municipalities to build similar bridges across Poland, Germany, and beyond. Sobczyk believes Amnet will be able to offer a price that’s competitive with traditional steel and concrete bridges while also solving a waste problem by taking decommissioned blades off wind energy companies’ hands.

The team behind the new Irish blade bridge also believes they will be cost-competitive with more traditional bridges in addition to offering environmental advantages. Angela Nagle, a civil engineering Ph.D. candidate at the University College Cork and a member of the ReWind network, says that by using blades decommissioned from a wind farm in Belfast, the team avoided nearly 800 kilograms of CO2 emissions that would have occurred had they used steel girders. ReWind, she says, is exploring other ways to streamline production of future bridges, including through standardized design elements and by developing more efficient ways to evaluate the condition of used blades and “bucket them for various repurposing applications.”…..”

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