Reprint
Modeling, Design and Optimization of Multiphase Systems in Minerals Processing
Edited by
March 2020
232 pages
- ISBN978-3-03928-400-9 (Paperback)
- ISBN978-3-03928-401-6 (PDF)
This is a Reprint of the Special Issue Modeling, Design and Optimization of Multiphase Systems in Minerals Processing that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Summary
Mineral processing deals with complex particle systems with two-, three- and more phases. The modeling and understanding of these systems are a challenge for research groups and a need for the industrial sector. This Special Issue aims to present new advances, methodologies, applications, and case studies of computer-aided analysis applied to multiphase systems in mineral processing. This includes aspects such as modeling, design, operation, optimization, uncertainty analysis, among other topics. The special issue contains a review article and eleven articles that cover different methodologies of modeling, design, optimization, and analysis in problems of adsorption, leaching, flotation, and magnetic separation, among others. Consequently, the topics covered are of interest to readers from academia and industry.
Format
- Paperback
License and Copyright
© 2020 by the authors; CC BY-NC-ND license
Keywords
silver leaching; thiosulfate; mining residues; kinetic analysis; Pb(II)–BHA; lead chemistry; metal–organic collectors; DFT calculation; surface activation; SEM-based image analysis; MLA (Mineral Liberation Analyzer); magnetic separation; cassiterite; partition curve; local regression; froth flotation; recovery arrangement; circuit configuration; process design; K-feldspar; tobermorite; hydrogarnet; hydrothermal reaction; phase analysis; design; flotation circuits; Tabu-search algorithm; multispecies; thickening; water recovery; Boycott effect; tailings; settling velocity; natural convection; fluorapatite; density functional theory; frontier molecular orbital; flotation mechanism; process optimization process; heap leaching; modes of operation; discrete event simulation; quartz; DFT calculation; hydroxylation; adsorption; flotation; CFD; cyclonic flow field; flotation column; endoscopic laser PIV; turbulence models; computational fluid dynamic; molecular dynamics; density functional theory; discrete element simulation; smoothed particle hydrodynamics; flotation; grinding; response surface methodology; machine learning; artificial neural networks; support vector machine; hydrocyclone; global sensitivity analysis; uncertainty analysis; n/a