Principles of Mineral Processing destined to become an industry standard, this comprehensive reference examines all aspects of minerals processing, from the handling of raw materials to separation strategies to the remediation of waste products. The book incorporates state-of-the-art developments in the fields of engineering, chemistry, computer science, and environmental science and explains how these disciplines contribute to the ultimate goal of producing minerals and metals economically from ores. With contributions from more than 20 recognized authorities, this thorough reference presents the most current thinking on the science and technology of mineral processing.
The book is an indispensable textbook for students of mineral processing and hydrometallurgy, and a practical reference for seasoned industry professionals interested in improving operational efficiencies. It presents the principles that govern various unit operations in mineral processing along with examples that illustrate how these principles apply to real-world situations. Topics are arranged in the order of the typical processing sequence, including communition, separation, flotation, hydrometallurgy, and waste handling.
This comprehensive reference examines all aspects of mineral processing from the handling of raw materials, to separation strategies, to the remediation of waste products. The book incorporates state-of-the-art developments in the fields of engineering, chemistry, computer and environmental sciences, and explains how these disciplines contribute to the ultimate goal of economically producing minerals and metals from ores. This text is indispensable for students of mineral processing and hydrometallurgy, and is a practical reference for seasoned industry professionals interested in improving operational efficiencies.
Chapter topics include particle characterization; size reduction and liberation; size separation; movement of solids in liquids; gravity concentration; magnetic and electrostatic separation; flotation; liquid?solid separation; metallurgical balances and efficiency; bulk solids handling; hydrometallurgy and solution kinetics; mineral processing wastes and their remediation; and the economics of the minerals industry.
The book is an indispensable textbook for students of mineral processing and hydrometallurgy, and a practical reference for seasoned industry professionals interested in improving operational efficiencies. It presents the principles that govern various unit operations in mineral processing along with examples that illustrate how these principles apply to real-world situations. Topics are arranged in the order of the typical processing sequence, including communition, separation, flotation, hydrometallurgy, and waste handling.
This comprehensive reference examines all aspects of mineral processing from the handling of raw materials, to separation strategies, to the remediation of waste products. The book incorporates state-of-the-art developments in the fields of engineering, chemistry, computer and environmental sciences, and explains how these disciplines contribute to the ultimate goal of economically producing minerals and metals from ores. This text is indispensable for students of mineral processing and hydrometallurgy, and is a practical reference for seasoned industry professionals interested in improving operational efficiencies.
Chapter topics include particle characterization; size reduction and liberation; size separation; movement of solids in liquids; gravity concentration; magnetic and electrostatic separation; flotation; liquid?solid separation; metallurgical balances and efficiency; bulk solids handling; hydrometallurgy and solution kinetics; mineral processing wastes and their remediation; and the economics of the minerals industry.
This comprehensive reference examines all aspects of minerals processing, from the handling of raw materials to separation strategies to the remediation of waste products. The book incorporates state-of-the-art developments in the fields of engineering, chemistry, computer science, and environmental science and explains how these disciplines contribute to the ultimate goal of producing minerals and metals economically from ores.
With contributions from more than 20 recognized authorities, this thorough reference presents the most current thinking on the science and technology of mineral processing.
The book is an indispensable textbook for students of mineral processing and hydrometallurgy, and a practical reference for seasoned industry professionals interested in improving operational efficiencies. It presents the principles that govern various unit operations in mineral processing along with examples that illustrate how these principles apply to real-world situations. Topics are arranged in the order of the typical processing sequence, including comminution, separation, flotation, hydrometallurgy, and waste handling.
Chapters include:
Introduction
Particle Characterization
Size Reduction and Liberation
Size Separation
Movement of Solids in Liquids
Gravity Concentration
Magnetic and Electrostatic Separation
Flotation
Liquid-Solid Separation
Metallurgical Balances and Efficiency
Bulk Solids Handling
Hydrometallurgy and Solution Kinetics
Mineral Processing Wastes and Their Remediation
Economics of the Minerals Industry
With contributions from more than 20 recognized authorities, this thorough reference presents the most current thinking on the science and technology of mineral processing.
The book is an indispensable textbook for students of mineral processing and hydrometallurgy, and a practical reference for seasoned industry professionals interested in improving operational efficiencies. It presents the principles that govern various unit operations in mineral processing along with examples that illustrate how these principles apply to real-world situations. Topics are arranged in the order of the typical processing sequence, including comminution, separation, flotation, hydrometallurgy, and waste handling.
Chapters include:
Introduction
Particle Characterization
Size Reduction and Liberation
Size Separation
Movement of Solids in Liquids
Gravity Concentration
Magnetic and Electrostatic Separation
Flotation
Liquid-Solid Separation
Metallurgical Balances and Efficiency
Bulk Solids Handling
Hydrometallurgy and Solution Kinetics
Mineral Processing Wastes and Their Remediation
Economics of the Minerals Industry
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