ME 802-Computational Heat Transfer |
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Basic Concept: Governing differential equations, time-averaged equations for turbulent flow, nature of co-ordinates.
Discretization Methods : The discretization concept, methods of deriving discretization equations, discretization error.
Heat Conduction : One dimensional conduction, the basic equations of steady and unsteady conductions, grid spacing, source term
linearization, boundary conditions, solutions of linear algebraic equations, Crank - Nicolson and fully implicit schemes, explicit
schemes, solutions of algebraic equations, discussions on two and three dimensional heat conduction.
Convection and Diffusion: Derivation of basic equations, different schemes of discretization - upwind, exponential, hybrid and power
law schemes, discretized equations and their solutions, examples.
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Reference Books: |
1. Computational Fluid Mechanics and Heat Transfer by J.C.Tannehill, D.A.Anderson and R.H.Pletcher, 2nd ed., Taylor & Francis.
2. Computational Heat Transfer by Y.Jaluria and K.E.Torrance, Springer Verlag.
3. Computational Fluid Mechanics and Heat Transfer by S.V.Patankar, Hemisphere.
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