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Advances on Fine Particles and Bubbles Flotation
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This is a reprint of articles from the Special Issue published online in the open access journal Minerals (ISSN 2075-163X). We hope that “Advances on Fine Particles and Bubbles Flotation” will not only serve as a valuable resource for academia, but will also inspire curiosity and spark further inquiry into fine resource recovery theory and application. As we embark on this intellectual journey, may the pages that follow serve as a beacon, guiding readers through information on fine paticle flotation progress.
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Keywords
- acid leaching
- adsorption
- arsenopyrite
- bastnaesite
- beneficiation–metallurgy combination process
- bubble diameter
- CNN
- collector selectivity
- Collectors
- crystal plane
- dynamic froth stability
- entrainment
- fine particle
- flocculant
- flocculation
- flotation
- fluorite
- frothers
- hierarchical intelligent control
- LSTM
- Machine learning
- mineral particle size
- Mineralogy
- Muscovite
- n/a
- nanobubbles
- octadecylamine
- particle size
- polyvinylpyrrolidone
- Quartz
- Recovery
- rutile
- salicylhydroxamic acid
- Separation
- separation efficiency
- serpentine
- simulation
- sodium silicate
- stone coal
- thickening
- ultrafine coal
- vanadium-nickel-molybdenum recovering
Links
DOI: 10.3390/books978-3-7258-1135-9Editions