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Turning Coal Waste Into Rare Earth Metals For Renewable Energy

The date of: 2021-06-01
viewed: 11

source:CleanTechnica

At an abandoned coal mine just outside the city of Gillette, Wyoming, construction crews are getting ready to break ground on a 10,000-square-foot building that will house state-of-the-art laboratories and manufacturing plants. Among the projects at the facility, known as the Wyoming Innovation Center, will be a pilot plant that aims to takes coal ash — the sooty, toxic waste left behind after coal is burned for energy — and use it to extract rare earths, elements that play an essential role in everything from cell phones and LED screens to wind turbines and electric cars. 

The pilot plant in Wyoming is a critical pillar of an emerging effort led by the Department of Energy, or DOE, to convert the toxic legacy of coal mining in the United States into something of value. Similar pilot plants and research projects are also underway in states including West Virginia, North Dakota, Utah, and Kentucky. If these projects are successful, the Biden administration hopes that places like Gillette will go from being the powerhouses of the fossil fuel era to the foundation of a new domestic supply chain that will build tomorrow’s energy systems.

In an April report on revitalizing fossil fuel communities, administration officials wrote that coal country is “well-positioned” to become a leader in harvesting critical materials from the waste left behind by coal mining and coal power generation. Several days later, the DOE awarded a total of $19 million to 13 different research groups that plan to assess exactly how much rare earth material is contained in coal and coal waste, as well as explore ways to extract it. 

“We have these resources that are otherwise a problem,” said Sarma Pisupati, the director of the Center for Critical Minerals at Penn State University and one of the grant recipients. “We can use those resources to extract valuable minerals for our independence.”

Those minerals would come at a critical moment. The rare earth elements neodymium and dysprosium, in particular, are essential to the powerful magnets used in offshore wind turbines and electric vehicle motors. A recent report by the International Energy Agency projected that by 2040, the clean energy sector’s demand for these minerals could be three to seven times greater than it is today. 



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