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Full Description
The Engineering Science of Mineral Processing: A Fundamental and Practical Approach emphasizes the fundamentals of mineral processing to provide readers with a deep understanding of the science and phenomena that occur during the processing of ores. It also offers guidance on contemporary process implementation through practical industry applications. It includes examples of dynamic simulations and practical execution of advanced software to guide operating plans to ensure optimal conditions that predict process constraints.
Focuses on the science of mineral processing, including particulate systems, hydrodynamics, and physical chemistry
Discusses modeling, rheology, comminution, classification, flotation, and solid-liquid separation
Includes practical examples from real-world industrial applications
Provides information on dynamic process simulations and the application of digital twins in mineral processing plants to improve management and efficiency
Details the future of mineral processing in the digital era.
Offering a balance between fundamentals and applications, this book will be of interest to researchers and industry professionals working to optimize mining, mineral and chemical processing plants. It will also be of value to advanced students taking mineral processing and chemical engineering courses.
Contents
1. Introduction to Mineral Processing. 2. Modeling of Mineral Processing. 3. Hydrodynamics. 4. Particulate Systems. 5. Physical Chemistry of Interfaces. 6. Suspension Rheology. 7. Particulate Comminution. 8. Particle Size Classification. 9. Particle Flotation. 10. Solid-Liquid Separation. 11. Water in the Mining Industry. 12. The Future of Mineral Processing: Digital Transformation in Mining Plant Operations.
