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Major element composition controls rare earth element solubility during leaching of coal fly ash and coal by-products

Publication ,  Journal Article
Middleton, A; Park, DM; Jiao, Y; Hsu-Kim, H
Published in: International Journal of Coal Geology
July 1, 2020

Coal combustion ash and pre-combustion coal refuse are currently under consideration as potential sources of rare earth elements. One of the early steps in recovering REEs from coal by-products is often acid leaching, which can result in low pH leachates with complex aqueous chemistry. The aim of this work was to understand the connection between REE solubility, pH, and major elemental components of leachates for coal by-products. To accomplish this, we investigated the effects of solids concentration (i.e., pulp density) and pH adjustment on REE solubility in acid leachates of coal fly ashes from the Powder River Basin (PRB) and Appalachian Basin in the United States, and a coal processing refuse from the Southwestern U.S. For PRB ashes, the concentrations of soluble REEs generally increased with increasing pulp density; however, at pulp density values above 80–100 g/L, the soluble REE concentrations in the leachates were markedly lower. Similarly, the soluble concentrations of other major solutes (Fe, Al, Si) that leached from PRB fly ashes were also non-linear with pulp density. These major elements tended to reach maximum concentration values at 60–70 g/L pulp density. In contrast, for the Appalachian fly ashes and the coal by-product, soluble concentrations of REE and major elements in leachates increased linearly with pulp density. Chemical equilibria calculations of mineral saturation indices indicated that trends in soluble REE concentrations could be explained by saturation conditions for Fe and Al-(hydr)oxides and possibly sulfate minerals, but not lanthanide hydroxides. Furthermore, pH adjustment of the acid leachates showed that REEs and many major solutes were removed from solution at pH values above 4.5, also consistent with Fe- and Al-(hydr)oxide precipitation. These results highlight the importance of understanding the chemical composition of leachates when designing REE recovery processes for low-grade geologic feedstocks and that precipitation of hydr(oxide) or sulfate minerals of major elements rather than discreet formation of REE mineral phases could be used for process optimization.

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Published In

International Journal of Coal Geology

DOI

ISSN

0166-5162

Publication Date

July 1, 2020

Volume

227

Related Subject Headings

  • Energy
  • 4019 Resources engineering and extractive metallurgy
  • 3709 Physical geography and environmental geoscience
  • 3705 Geology
  • 0914 Resources Engineering and Extractive Metallurgy
  • 0406 Physical Geography and Environmental Geoscience
  • 0403 Geology
 

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Middleton, A., Park, D. M., Jiao, Y., & Hsu-Kim, H. (2020). Major element composition controls rare earth element solubility during leaching of coal fly ash and coal by-products. International Journal of Coal Geology, 227. https://doi.org/10.1016/j.coal.2020.103532
Middleton, A., D. M. Park, Y. Jiao, and H. Hsu-Kim. “Major element composition controls rare earth element solubility during leaching of coal fly ash and coal by-products.” International Journal of Coal Geology 227 (July 1, 2020). https://doi.org/10.1016/j.coal.2020.103532.
Middleton A, Park DM, Jiao Y, Hsu-Kim H. Major element composition controls rare earth element solubility during leaching of coal fly ash and coal by-products. International Journal of Coal Geology. 2020 Jul 1;227.
Middleton, A., et al. “Major element composition controls rare earth element solubility during leaching of coal fly ash and coal by-products.” International Journal of Coal Geology, vol. 227, July 2020. Scopus, doi:10.1016/j.coal.2020.103532.
Middleton A, Park DM, Jiao Y, Hsu-Kim H. Major element composition controls rare earth element solubility during leaching of coal fly ash and coal by-products. International Journal of Coal Geology. 2020 Jul 1;227.
Journal cover image

Published In

International Journal of Coal Geology

DOI

ISSN

0166-5162

Publication Date

July 1, 2020

Volume

227

Related Subject Headings

  • Energy
  • 4019 Resources engineering and extractive metallurgy
  • 3709 Physical geography and environmental geoscience
  • 3705 Geology
  • 0914 Resources Engineering and Extractive Metallurgy
  • 0406 Physical Geography and Environmental Geoscience
  • 0403 Geology