Date of Completion

12-10-2018

Embargo Period

5-29-2020

Keywords

chomite ore processing residue, leaching, infrastructure, calcium polysulfide, pyrolysis

Major Advisor

Maria Chrysochoou

Associate Advisor

Baikun Li

Associate Advisor

Timothy Vadas

Associate Advisor

Bagtzoglou Amvrossios

Associate Advisor

Liyuan Chai

Field of Study

Environmental Engineering

Degree

Doctor of Philosophy

Open Access

Campus Access

Abstract

Chromite Ore Processing Residue (COPR) contains high concentrations of hexavalent chromium (Cr(VI)), a human carcinogen, and is a hazardous waste that requires intensive treatment prior to disposal. China has banned the lime roasting process since 2013 and an alternative process using soda ash as roasting and complexing agent has replaced it in the larger factories. The process still produces COPR with residual Cr(VI), albeit in lower amounts. Although much is known about the properties and treatment of lime-based COPR, there are no studies in the literature on soda ash derived COPR. Accordingly, this research constitutes the first comprehensive assessment of soda ash COPR in terms of: a) chemistry, mineralogy and leaching characteristics; b) speciation of Cr(VI) in the solid; c) treatment of residual Cr(VI) using different reducing agents. The COPR sampled from a large factory in China contained 8,500 mg/kg of Cr(VI), 10% is more tightly held within the matrix and requires lowering the pH from 12.5 to 8 for release. The proposed research is divided into three parts: The first part is a leaching and modeling study of the two COPR types, studying the leaching of major and trace elements as a function of pH. The second part utilized microstructural spectroscopy techniques (micro-X-ray Fluorescence, Absorption and Diffraction) to study the mineral hosts of Cr(VI), information used to optimize treatment. Finally, the third part evaluated the reduction of residual Cr(VI) in COPR using calcium polysulfide, nano-scale zerovalent iron stabilized with gree tea extract (GT-nZVI), and pyrolysis remediation with miscanthus mixture.

Available for download on Friday, May 29, 2020

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