Ⅰ．Introduction of Mass Transfer in Metallurgical Process
1.Examples of metallurgical process
2.Basic equations to describe the metallurgical mass transfer
Ⅱ．Steady State Diffusion(Fick’s 1st law) and Relating Mass Transfer
1.Molecular diffusion and Fick’s 1st law including the effect of convection
2.Steady state diffusion problems
Ⅲ．Unsteady State Diffusion(Fick’ s 2nd law) and Relating Mass Transfer
1.Fick’ s 2nd law
2.Mass transfer coefficient and diffusion coefficient
Ⅳ．General Formulation of Mass Transfer in Batch Process
1.Basic equation for batch process
2.Linear thermodynamics
3.Nonlinear thermodynamics
4.The chemical reaction which has an infinity large equilibrium constant
Ⅴ．Application of Mass Transfer Analysis for Continuous Processing
1.Differences in general formulation for batch and continuous process
2.Case study(1); Deoxidation of molten blister copper using a submerged CO jet
3.Case study(2); Kinetics of vacuum dezincing of lead
Ⅵ．Problems and Solutions
Problem 1 The diffusion coefficient of zinc vapor in nitrogen
―Solution
Problem 2 The roasting of zinc sulfide with oxygen
―Solution
Problem 3 Fume formation in basic oxygen furnace
―Solution
Problem 4 The electrowinning of zinc
―Solution
Problem 5 The dissolution rate of tungsten pellets falling through the liquid pool of a continuously cast steel billet
―Solution
Problem 6 The prediction of decarburization rates in the molten steel experiment
―Solution
Problem 7 Oxygen absorption in an open-pour stream of continuous casting
―Solution
Problem 8 Manganese loss during steelmaking
―Solution
Additional Short Discussions in Metallurgical Mass Transfer
A-1.Decarburization in Q-BOP
A-2.Evolution of CO in the refining of low carbon ferro-chrome alloy
References
Index