Highlights
- Chinese study reveals significant rare earth element concentrations in coal from Chongqing and Yunnan regions.
- Research suggests potential extraction of 600,000 tons of rare earth elements annually from coal waste.
- Technology could be 5-10 years from commercialization, with global implications for REE supply chains.
In a sweeping reassessment of China’s domestic rare earth element (REE) resources, a team led by Dr. Yunfei Li and Dr. Chuncai Zhou at Hefei University of Technology (opens in a new tab) has released a preprint study (SSRN: 5273376 (opens in a new tab)) revealing that Chinese coal—especially from closed mines in Chongqing and Yunnan—contains significant concentrations of critical rare earth elements (CREY), particularly praseodymium (Pr), neodymium (Nd), gadolinium (Gd), terbium (Tb), and dysprosium (Dy). Using a robust database of 1,988 coal samples across 116 datasets, the researchers estimate an average REE content of 127.8 ppm in Chinese coal, above global averages and potentially representing over 600,000 tons of extractable REE annually—nearly double current global output.
The study is one of the most comprehensive to date, factoring in recoverable reserves and geospatial variability to prioritize regions for potential recovery. Notably, coal from Chongqing and Yunnan—despite mine closures—is flagged as high-priority for REE extraction due to both content and economic recovery potential.
The researchers propose a novel assessment framework (combining the Pod index and CREY concentration) to evaluate feasibility, suggesting that these regions could be on par with conventional deposits, such as Mount Weld and even Bayan Obo, in specific metrics. However, actual commercialization of REE extraction from coal, especially via coal fly ash or in-situ leaching, remains 5–10 years off, pending environmental approvals, demonstration-scale processing, and capital investment.
For retail investors, this signals a potentially disruptive shift in global REE supply models that will persist well into the future. While China’s policy and environmental hurdles remain steep, repurposing coal waste and closed mines for rare earth element (REE) recovery offers a novel pathway to diversify supply, particularly for heavy and magnet-critical REEs.
The implications are global: if China leads on coal-based REE recovery, the U.S. and allies may be forced to accelerate similar unconventional strategies—or risk further technological dependence.
Rare Earth Exchanges will continue to track this development as it transitions from a resource model to real-world recovery.
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