Transport Phenomena Fundamentals: Definitions and Concepts, Field Theory and Field Operations, Transport Processes and Transport Laws;Physical Laws and Governing Equations:Frame of Reference and Coordinate System, Kinematics of fluids and model philosophy, Differential and Integral Formulation and Procedures, Property Balance and Equation of Change, Equation of Continuity, Momentum Equations, Initial/Boundary Conditions, Application Examples, Convection-Diffusion Equation and Examples, Energy Equation and Examples;Transient Heat Transfer:Lumped Capacitance Method, Semi-infinite System, Example;Solidification of Metal Castings:Introduction, Analysis and Modeling of Metal Castings, Solidification in Sand Mold, Analysis and Modeling of Metal Melting, Melt Efficiency, Stefan-Neumann Problem, Drag Induced Melt Removal;Fluid Flow and Heat Transfer in a Porous Medium:Introduction, Macroscopic Model for a Porous Medium, Darcy’s Equation and Permeability, Fluid Flow and Heat Transport Governing Equations in a Porous Medium; Rheology of Non-Newtonian Fluids:Material Functions, Constitutive Equations, Linear Viscoelastic Fluids.
Recommended Books:
- Transport Phenomena by R. B. Bird, W. E. Stewart and E. N. Lightfoot, Wiley (2nd Edition).
- Transport Phenomena by W. J. Beek, K. M. K. Muttzall and J. W. Van Heuven, Wiley (2nd Edition).
- Fundamentals of Fluid Mechanics by Bruce R. Munson, Donald F. Young and Theodore H. Okiishi, Wiley (5th Edition)
- Heat Conduction by M. N. Ozisik, Academic Press.
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