Enhanced flotation separation of fluorite and calcite using novel collector: Experimental and theoretical Insights

[Display omitted] •Decyl-bishydroxamic acid (DCBHA) was synthesized and innovatively used as a collector for fluorite-calcite flotation separation.•DCBHA exhibited superior selectivity compared to BHA and OHA, yielded a concentrate grade of up to 70.99% with a recovery of 76.24%. at optimal conditio...

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Bibliographic Details
Published in:Journal of molecular liquids 2024-08, Vol.408, p.125304, Article 125304
Main Authors: Liu, Chang, Xu, Longhua, Deng, Jiushuai, Han, Zhiguo, Tian, Jia, Xue, Kai, Wang, Donghui
Format: Article
Language:English
Subjects:
Adsorption mechanism
Calcite
DFT calculation
Flotation separation
Fluorite
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Summary:[Display omitted] •Decyl-bishydroxamic acid (DCBHA) was synthesized and innovatively used as a collector for fluorite-calcite flotation separation.•DCBHA exhibited superior selectivity compared to BHA and OHA, yielded a concentrate grade of up to 70.99% with a recovery of 76.24%. at optimal conditions.•EDDA chemisorbed on bastnaesite surface by forming a five-element ring.•Revealed the disparities in adsorption mechanisms of DCBHA across various morphologies on mineral surfaces. The surface characteristics of fluorite and calcite exhibit a close analogy, posing a formidable challenge to flotation separation. Hence, the development of a highly efficient reagent for fluorite holds paramount significance and value in addressing the challenging separation of fluorite and calcium-bearing minerals. In this study, a novel collector, decyl-bishydroxamic acid (DCBHA), has been ingeniously designed and synthesized to effectively separate fluorite and calcite. Conducting micro-flotation experiments encompassing single minerals and artificially mixed minerals, we systematically investigate the flotation performance of DCBHA in fluorite flotation systems. It was observed that DCBHA exhibited commendable collective and selective ability compared to BHA and OHA, yielded a concentrate grade of up to 70.99% with a recovery of 76.24%. at optimal conditions. The zeta potential, AFM, FTIR and XPS examinations indicated the selective chemical adsorption of DCBHA on the metallic sites of the fluorite surface. The incorporation of a second hydroxamic acid group concurrently enhanced the collecting capacity and selectivity of the reagent. The mechanism of interaction between the novel collector DCBHA and mineral surfaces was investigated through Density Functional Theory (DFT), revealing that DCBHA exhibited a “bidentate” adsorption pattern upon losing a proton H, forming bonds with the mineral surface. Furthermore, the adsorption affinity of DCBHA to fluorite surpassed that to calcite, providing advantageous support for experimental findings.
ISSN:0167-7322
1873-3166
DOI:10.1016/j.molliq.2024.125304