Mineral Processing Design and Operations: An Introduction, Second Edition, helps further understanding of the various methods commonly used in mineral beneficiation and concentration processes. Application of theory to practice is explained at each stage, helping operators understand associated implications in each unit process. Covers the theory and formulae for unit capacities and power requirements to help the designer develop the necessary equipment and flow-sheets to economically attain maximum yield and grade.
This second edition describes theories and practices of design and operation of apparatus and equipment, including an additional chapter on magnetic, electrostatic, and conductivity modes of mineral separation. Basics of process controls for efficient and economic modes of separation are introduced.
- Outlines the theory and practice in the design of flow sheets and operation of an integrated mineral processing plant
- Introduces the basic magnetism, electrostatic, conductivity, and dielectrophoresis properties of minerals and related separation techniques
- Describes automation in mineral processing plants allowing maximum yields and consistent high concentrate grades
- Outlines problems and offers solutions in the form of various examples
1. Mineral Sampling 2. Particle Size Estimation and Distributions 3. Size Reduction and Energy Requirement 4. Jaw Crusher 5. Gyratory and Cone Crusher 6. Roll Crushers 7. Tubular Ball Mills 8. Tubular Rod Mills 9. Autogenous and Semi-Autogenous Mills 10. Stirred Mills - Ultrafine Grinding 11. Mathematical Modelling of Comminution Processes 12. Screening 13. Classification 14. Solid - Liquid Separation - Thickening 15. Solid Liquid Separation - Filtration 16. Gravity Separation 17. Magnetic and Electrostatic Separation 18. Flotation 19. Metal“M
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