i |
Title of the course |
MM 320?:? Process Metallurgy Principles?? ? |
ii |
Credit structure |
L????????? T????????? P????????? C 2?????????? 1????????? 0?????????? 6 ? |
iii |
Pre-requisite, if any |
None ? |
iv |
Course content |
Particle size: definitions, determination, size reduction methods. Example: grinding. Separation methods, thickeners, cyclones, filters, froth flotation. Thermodynamic stability diagrams: Roasting. Structure and properties of slags. Liquid metallic solutions: change of standard states, activity interaction parameters. Extraction of copper and aluminium. Leaching, solvent extraction, ion exchange, precipitation. Electrowinning. Material and Heat Balance. Refractories. ? |
v |
Texts/References |
E.G. Kelly and D.J. Spottiswood, Introduction to Mineral Processing, John Wiley, New York, 1982. ? T. Rosenquist, Principles of Extractive Metallurgy, McGraw-Hill, New York, 1974. ? H.S. Ray, R. Sridhar and K.P. Abraham, Extraction of Nonferrous Metals, Affiliated East-West Press, New Delhi, 1985.? ? M.C. Fuerstenau and K.N. Han, Principles of Mineral Processing, Society for Mining, Metallurgy and Exploration (SME), Colorado, 2003. ? |
vi |
Instructor(s) name |
N.K.Khosla ? |