The new Stealth Edition has a very-under-the-radar look. Source link
Michael Moore’s explosive documentary, Planet of the Humans, full documentary can be seen below, shows how the renewable energy business can never be sustainable. Part of the reason is really about raw materials and where we source them from, like graphite. Lithium ion batteries in electric cars for instance are so energy intensive and have travelled thousands of miles before the owner drives it one, and the reason is because of where we source raw materials.
The production of rare earth metals is a global $4 billion annual market that continues to grow as renewables, solar panels, wind turbines, new electronics, computerized engines for aircraft, warships, electric automobiles, magnets and other critical products are developed that need rare earth metals to perform. The value of the products that require rare earth metals to function is valued at more than $4 trillion per year.
The current challenge is that just one country, China, owns the market on extracting and purifying this critical resource despite the fact that other global countries, including the US, are rich in such metals. The detrimental environmental impact of current acid based separation and purification of rare earth metals prohibits most companies across the globe from entering the market.
New environmentally friendly technologies promise to be “game changers” in this field and enable the US to create a more stable and reliable domestic source of these essential metals. Purdue University-patented extraction and purifying processes using ligand-assisted chromatography are shown to remove and purify such metals from coal ash, recycled magnets and raw ore safely, efficiently and with virtually no detrimental environmental impact.
“It’s a supply chain challenge with wide implications on the US economy and national security. We have a critically needed product and one dominant source for this product. This new patented process promises to enable US independence from the China near monopoly,” said Dan Hasler, founder of Hasler Ventures. “This technology has been researched and developed at Purdue University for more than a decade and has proven to be versatile and robust.”
Hasler Ventures has secured rights from the Purdue Research Foundation that grant the company first rights to commercialize the technology’s intellectual property.
The technology – developed and patented from the laboratory of Nien-Hwa Linda Wang, Purdue’s Maxine Spencer Nichols Professor of Chemical Engineering – has successfully shown to separate the rare earth metals without the devastating environmental effects of conventional acid based methods with high yield and purity.
“About 60% of rare earth metals are used in magnets that are needed in almost everyone’s daily lives. These metals are used in electronics, airplanes, hybrid cars and even windmills,” Wang said. “We currently have one dominant foreign source for these metals and if the supply were to be limited for any reason, it would be devastating to people’s lives. It’s not that the resource isn’t available in the US, but that we need a better, cleaner way to process these rare earth metals.”
According to Wang, after China reduced the export quotas for rare earth metals in 2010, the costs of rare earth magnets for one wind turbine increased from $80,000 to $500,000. After China relaxed the export restrictions 18 months later, the prices returned to lower levels than in 2010.
“Conventional methods for producing high-purity rare earth elements employ two-phase liquid–liquid extraction methods, which require thousands of mixer-settler units in series or in parallel and generate large amounts of toxic waste,” Wang said. “We use a two-zone ligand-assisted displacement chromatography system with a new zone-splitting method that is producing high-purity (>99%) metals with high yields (>99%).”
Wang’s ligand assisted method has the potential for efficient and environmentally friendly purification of the rare earth metals from all sources of recyclates, such as waste magnets and ore-based sources and helps transform rare earth processing to a circular, sustainable process.
“We continue to work diligently in the lab to learn how to adapt the ligand-assisted system to many variations we see in source material and are excited to collaborate with and assess the suitability of potential partners source material be it recycled magnets and batteries, coal ash or domestically mined ore.
Joe Pekny, a Purdue professor of chemical engineering said Wang’s innovation enables the U.S. to reenter the rare earth metals market in a significant way and sustainable way. “Linda’s method replaces a very inefficient process and replaces it with an earth-friendly, safe extraction process,” he says.
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