The Elements of Innovation Discovered
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U.S. lithium production is ready to tap a massive aquifer that crosses six southern state lines. Global lithium consumption reached 180,000 metric tons in 2023, according to the United States Geological Survey, but the U.S. produces less than 1% of the world's supply. While most of the world's lithium still comes from countries like Australia, Chile, and China, the future of lithium production in the U.S. is ramping up in California, Nevada, and now Arkansas as companies like...
The USGS has developed tools to help companies and researchers find them all. United States Global Survey (USGS) reports have long demonstrated that while there is technically plenty of lithium found in the Earth's crust to meet demand, extracting this battery metal in the usual fashion (hard rock mining and brine evaporation) hasn't been very sustainable or cost-effective, requiring large amounts of energy, water, or infrastructure. The highest concentrations of lithium are...
DOE funds R&D for recovering critical metals while creating clean water from fossil fuel waste. The Department of Energy's Office of Fossil Energy and Carbon Management is providing $17.5 million in funding for research and development projects focused on producing clean water and critical minerals from oil, gas, and coal production wastewater. Fossil fuel production and use produces wastewater, either pumped up with oil and gas or from the waste streams of production or...
Findings reveal high concentrations of lithium in pyrite. The golden glitter of a faceted nugget of pyrite has earned it the moniker "fool's gold" for its abundance, showy false promise and low value as a common sulfide – until recently. Lithium, on the other hand, has been the modern day's elusive "white gold" prize in many searches, from hard rock mines to brines and more experimental sources such as mine tailings and drill cuttings. Recent research led by a team from W...
Hydrogen discovered in Albanian mine provides clues on where to find massive hydrogen flows. The world's largest natural flow of highly pure hydrogen gas has been quietly seeping through a nondescript pool deep within an Albanian chromium mine. Researchers reported the study in a paper published in the journal Science, noting that the investigation of similar deposits may reveal more major findings of this clean-burning resource across the globe. Naturally occurring hydrogen a...
DOE is awarding $32M to support projects that will recover domestic critical minerals from coal waste. Seeking to leverage the ash and other byproducts from a fuel that powered America through the 20th century, the U.S. Department of Energy is awarding $32 million to help launch projects that will recover rare earth elements and other critical minerals from coal ash and waste. Coal deposits often have trace amounts of gallium, germanium, rare earths, and other minerals...
Researchers from the Pacific Northwest National Laboratory and University of Washington have dicovered a simple way to extract what could be considered one of the most critical minerals to the United States and European Union, magnesium. Since ancient times, Mankind has extracted salts from the ocean. While table salt is the easiest to obtain, seawater is a rich source of different minerals, and scientists have long been exploring the possibility of isolating specific...
The U.S. Department of Energy announced $156 million in funding for a first-of-a-kind facility to extract and separate rare earth elements and critical minerals from unconventional sources like mining waste. As rare earths and other critical minerals are key to manufacturing clean energy technologies here in America – such as solar panels, wind turbines, electric vehicles, and hydrogen fuel cells – industries from all ends of the supply chain have been seeking to fulfill the...