A NETL-supported project by Physical Sciences, Inc. (PSI) has demonstrated its capabilities to produce rare earth element (REE) concentrates using available coal ash resources from Appalachia, providing a potential domestic source of these critical minerals and a means of local environmental remediation.
The U.S. Department of Energy (DOE) and NETL have prioritised the creation of a domestic supply chain for production of REEs because they are crucial for a variety of economic, energy and defence applications. However, the current supply chain is dominated by other countries. Therefore, a domestic source would insulate the US from any disruptions in global trade of REEs, and America’s coal ash based resources show promise to become that source.
With NETL support, PSI and the University of Kentucky’s Center for Applied Energy Research (UK CAER) undertook a comprehensive research effort to investigate the REE content including yttrium and scandium (REYSc) of coal-fired power plant ashes. PSI conducted feasibility and technoeconomic studies for recovery of REYSc from the coal ashes and developed the design of a pilot-scale facility to economically produce saleable REYSc-rich concentrates and commercially viable co-products from coal ash feedstock using environmentally safe and high-yield physical and chemical enrichment and recovery processes.
During Phase 2 of the project, PSI, Winner Water Services (WWS), and UK CAER constructed both a micro-pilot facility located at PSI (Andover, Massachusetts) and pilot facility located at WWS (Sharon, Pennsylvania) for chemical processing. An existing facility at UK CAER was used for physical processing of coal ash at approximately 0.4 tpd. The micro-pilot was used for initial testing as well as troubleshooting for process operation in the larger pilot-scale facility. The pilot located at WWS in Sharon, Pennsylvania, operated at approximately 0.5 tpd ash throughput for chemical processing. The project team successfully produced over 100 g of REYSc concentrate and delivered a final product with greater than 50% REYSc content on an elemental basis.
REEs, which represent the 15 elements of the lanthanide series plus scandium and yttrium, are essential for high-tech manufacturing and are used to produce high-performance optics and lasers, as well as powerful magnets, superconductors, solar panels and valuable consumers products such as smart phones and computer hard drives.
PSI and WWS are continuing to further optimise their liquid-liquid extraction operations. As new test data are generated, the team will update their techno-economic model, targeting a less than 10 to 12-year return on investment.
“The development and demonstration of a modular pilot-scale physical and chemical plant is a crucial steppingstone toward commercial-scale facilities that can produce tons of REYSc per day,” said Mark Render, Project Manager for NETL. “PSI-WWS’s technology to recover REYSc from coal ash will enable utilisation of a waste product in an environmentally benign way to produce REYSc while generating jobs and economic growth. This is a great example of what can happen when private industry, academia and DOE’s national labs work together.”
Read the article online at: https://www.worldcoal.com/coal/10032021/netl-collaboration-led-by-physical-sciences-extracts-rare-earth-element-concentrates-from-coal-ash/
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