Materials Processing Strategies for High-Purity Manganese Concentrates via Froth Flotation: Optimization, Control, and Industrial Relevance – A ReviewPages 142-154
Yemisi Elizabeth Gbadamosi Abstract:
Froth flotation is a key technique in mineral processing used to separate valuable minerals from gangue. Manganese ore poses specific challenges due to its complex mineralogy, which significantly affects its flotation behavior. The type of manganese minerals present influences how effectively they can be separated. A critical factor is the interaction between minerals and reagents, which determines recovery efficiency. Gangue minerals like iron and silica negatively impact flotation, requiring varied reagent strategies for effective separation. Particle size distribution and liberation influence flotation kinetics and recovery rates, making them essential to flotation performance. Additionally, pH levels play a vital role in modifying surface chemistry, thus affecting collector adsorption on manganese surfaces. Water chemistry, including dissolved ions such as calcium and magnesium, alters pulp conditions, necessitating water quality control. Pulp density also affects flotation by modifying hydrodynamic conditions, which influence bubble-particle interactions and froth stability. Parameters like agitation intensity and air dispersion further shape flotation outcomes. Mineralogical characteristics, reagent chemistry, particle features, pH levels, pulp density, and hydrodynamics can significantly enhance the beneficiation efficiency and economic value of manganese ore flotation processes.
Keywords: Froth flotation, Flotation properties, Manganese ore, Flotation optimization, Flotation efficiency
|
PDF 