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Title: Rare earth elements recovery using staged precipitation from a leachate generated from coarse coal refuse

Journal Article · · International Journal of Coal Geology
 [1]; ORCiD logo [1]
  1. Univ. of Kentucky, Lexington, KY (United States)
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Recovery of rare earth elements (REEs), especially heavy and critical REEs, from alternative resources such as coal refuse has recently become increasingly important. A natural leachate containing 6.14 ppm of REEs with a pH value of 2.70 was collected from a coal coarse refuse pile and utilized as a feedstock for REE recovery tests. The pH value of the natural leachate was gradually increased in a step-wise manner using a sodium hydroxide solution which produced several precipitates. A precipitate containing about 1.1% total REEs was obtained in the pH range of 4.85 6.11 while recovering>80% of the REEs contained in the original leachate. The leaching and staged precipitation process enriched both the critical and heavy REE fractions. The ratios of heavy-to-light (H/L) and critical-to-uncritical (C/UC) REEs in the precipitate were much higher than the coarse refuse material (H/L: 1.54 vs 0.21, C/UC: 1.51 vs 0.34). Additionally, the precipitate contained 18.4% Al, 1.7% Zn, 1.4% Cu, 1.1% Mn, 0.5% Ni and 0.2% Co. A solution chemistry study indicated that the hydroxide and hydroxysulphate precipitates of Al, Si and Cu produced in the pH range of 4.85 6.11 contributed to the fractionation of the REEs and other metal ions such as Zn, Mn and Co to the precipitate. The iron hydroxide precipitates formed at lower pH values did not contain a signi cant amount of REEs. An fi explanation may be the competitive adsorption between Al, which was present at higher solution concentrations, and REEs on the iron hydroxide and/or hydroxysulphate precipitate surfaces as proven by results of precipitation tests conducted on model solutions. A product containing 94% of a rare earth oxide mix was obtained by re-dissolution of the REE enriched precipitates followed by selective precipitation using oxalic acid. Furthermore, the overall results including an economic assessment indicate that leachate solutions generated naturally from coarse coal refuse may be a valuable source of critical and heavy REEs that can be effectively recovered and concentrated using staged precipitation.

Research Organization:
Univ. of Kentucky, Lexington, KY (United States)
Sponsoring Organization:
USDOE Office of Fossil Energy (FE)
Grant/Contract Number:
FE0027035
OSTI ID:
1808738
Alternate ID(s):
OSTI ID: 1582943
Journal Information:
International Journal of Coal Geology, Vol. 195; ISSN 0166-5162
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 97 works
Citation information provided by
Web of Science

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Cited By (6)

Mine drainage: Treatment technologies and rare earth elements journal July 2019
Study on the feasibility of using a pilot plant Scheibel extraction column for the extraction and separation of lanthanum and cerium from aqueous solution journal January 2020
Enhancement of a Process Flowsheet for Recovering and Concentrating Critical Materials from Bituminous Coal Sources journal December 2019
On the characterization and leaching of rare earths from a coal fly ash of Indian origin journal January 2020
Nano-Scale Rare Earth Distribution in Fly Ash Derived from the Combustion of the Fire Clay Coal, Kentucky journal March 2019
Structural Characterizations of Aluminosilicates in Two Types of Fly Ash Samples from Shanxi Province, North China journal June 2019

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01 COAL, LIGNITE, AND PEAT
Rare earth elements (REEs)
Leachate
Coal refuse
Recovery
Staged precipitation