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Theoretical evaluation of the innovative flotation technology was employed using specially designed apparatus to study the nanobubbles stability and the roles of nanobubbles on particle-bubble interactions, froth stability, and surface area flux. In addition, a detailed technical performance and economic evaluation was performed. Nanobubbles integrated into a specially designed column flotation expanded the particle size range for efficient froth flotation as a result of increased probabilities of particle-bubble collision and attachment and reduced probability of detachment. The major…mehr

Produktbeschreibung
Theoretical evaluation of the innovative flotation technology was employed using specially designed apparatus to study the nanobubbles stability and the roles of nanobubbles on particle-bubble interactions, froth stability, and surface area flux. In addition, a detailed technical performance and economic evaluation was performed. Nanobubbles integrated into a specially designed column flotation expanded the particle size range for efficient froth flotation as a result of increased probabilities of particle-bubble collision and attachment and reduced probability of detachment. The major advantages of nanobubble enhanced flotation include lower collector and frother dosages. Also, nanobubbles act as a secondary collector on particle surfaces, thereby resulting in considerably lower operating costs.
Autorenporträt
He is an assistant professor in Mining and Nuclear Engineering at Missouri University of Science and Technology. He graduated in 2013 with a PhD in Mining and Mineral Processing Engineering from University of Kentucky.