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  <title><![CDATA[PhD Defense by Laura M. Stoy]]></title>
  <body><![CDATA[<p><br />
RECOVERY OF RARE EARTH ELEMENTS FROM COAL FLY ASH USING IONIC LIQUIDS<br />
Laura M. Stoy<br />
Dr. Ching-Hua Huang<br />
Dr. Susan Burns, Dr. Sotira Yiacoumi, Dr. Yuanzhi Tang, Dr. Arthur Ragauskas<br />
August 19, 2021, 1:00 pm - 4:00 pm Eastern<br />
Virtual- Blue Jeans link to be provided<br />
Rare earth elements (REEs), the 15 lanthanides and Sc and Y, have played an invaluable role in the progress of clean energy technology<br />
and high-tech manufacturing in past decades. Their high demand and global scarcity have led to disruptions in supply, exacerbated by the<br />
fact that there are no adequate replacements. Thus, it is crucial to develop alternative sources to secure a steady supply of REEs. Coal fly ash<br />
(CFA), a byproduct of burning coal for electricity, may be one such source. Conventional REE-CFA recovery methods are energy and<br />
material intensive and leach elements indiscriminately, generating impure mixtures of REEs. Ionic liquids (ILs) may be one solution, but to<br />
date, they have not been applied to CFA.<br />
This dissertation focuses on the IL betainium bis(trifluoromethylsulfonyl)imide ([Hbet][Tf2N]) for preferential extraction of REEs from<br />
different CFAs. Efficient extraction relies on [Hbet][Tf2N]&#39;s thermomorphic behavior with water: upon heating, water and the IL form a<br />
single liquid phase, and REEs are leached from CFA via a proton-exchange mechanism. Upon cooling, the water and IL separate, and<br />
leached elements partition between the IL and aqueous (AQ) phases. REEs were preferentially extracted over bulk elements from CFAs into<br />
the IL phase then recovered in a subsequent mild acid stripping step, regenerating the IL. Two optimizations, alkaline pretreatment and<br />
adding supplement betaine, significantly improved REE leaching efficiency and separation between REEs and bulk elements. Significantly,<br />
this method consistently exhibits a particularly high extraction efficiency for scandium.<br />
The IL extraction process yields a mildly acidic REE-rich solution contaminated with Fe. To address this, three strategies for limiting Fe<br />
coextraction into the IL phase were investigated: magnetic separation, alternative salts, and ascorbic acid reduction. The latter two methods<br />
proved successful and should be used to generate an REE-rich acidic solution with very low concentrations of Fe.<br />
To gain a better understanding of CFA leaching behavior with [Hbet][Tf2N], eighteen additional elements were studied (29 total). It was<br />
found that in the IL phase, bulk elements were found in low concentrations, trace elements were not found, and of the actinides, Th was<br />
extracted into the IL phase and U was not leached at all. Other important optimizations were also studied, including pH, temperature, and<br />
duration of leaching. The process is also compared to several published CFA solid extraction methods and CFA leacheate separation methods<br />
to place this dissertation in context with existing literature. Finally, a number of process sustainability improvements are recommended,<br />
including the use of microwave heating, water and IL recovery strategies, and beneficial uses of residual solids.<br />
Finally, two other ILs were studied along with [Hbet][Tf2N] to investigate the effect of IL&#39;s cation functional group modifications. The two<br />
ILs possess the same anion [Tf2N], but one with a less acidic cation having an alcohol group, choline [Chol], and one with a more acidic<br />
cation having an alkyl sulfonic acid group, trimethylammoniumethane hydrogen sulfate ([N111C2OSO3H]), in comparison with [Hbet], which<br />
has a carboxyl group. [Chol][Tf2N] was broadly unsuccessful at leaching almost all elements from all CFA samples tested. [N111C2OSO3H]<br />
[Tf2N] was more successful, achieving greater or comparable leaching efficiencies but was not able to separate REEs from bulk and trace<br />
constituents.<br />
Overall, the research outcome of this dissertation filled several knowledge gaps in REE recovery. The method presented is novel and is<br />
among the first to demonstrate direct application of an IL to solid CFA for efficient recovery of REEs. The recyclability of IL and mild<br />
extraction conditions offer significant advantages for environmental sustainability. Altogether, this thesis builds a foundation for new<br />
IL-based strategies for future extractions from CFA and other REE-rich wastes.</p>
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