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Chemical Engineering Computational Fluid Dynamics

List Lectures

First Page

[ 1 ] 2 3 4 5

Last Page

#	Lecture Name
1	Motivation for CFD and Introduction to the CFD approach
2	Illustration of the CFD approach through a worked out example
3	Eulerian approach, Conservation Equation, Derivation of Mass Conservation Equation and Statement of the momentum conservation equation
4	Forces acting on a control volume; Stress tensor; Derivation of the momentum conservation equation ; Closure problem; Deformation of a fluid element in fluid flow
5	Kinematics of deformation in fluid flow; Stress vs strain rate relation; Derivation of the Navier'Stokes equations
6	Equations governing flow of incompressible flow; Initial and boundary conditions; Wellposedness of a fluid flow problem
7	Equations for some simple cases; Generic scalar transport equation form of the governing equations; Outline of the approach to the solution of the N 'S equations.
8	cut out the first 30s; Spatial discretization of a simple flow domain; Taylor's series expansion and the basis of finite difference approximation of a derivative; Central and one'sided differe
9	Finite difference approximation of pth order of accuracy for qth order derivative; cross 'derivatives; Examples of high order accurate formulae for several derivatives
10	One 'sided high order accurate approximations; Explicit and implicit formulations for the time derivatives

Title:	Computational Fluid Dynamics
Department:	Chemical Engineering
Author:	Prof. Sreenivas Jayanti
University:	IIT Madras
Type:	WebLink
Abstract:	COURSE OUTLINE Illustration of the CFD approach; CFD as an engineering analysis tool. Derivation of flow governing equations; turbulence modeling; modeling approaches for multiphase flow; initial and boundary conditions; wellposedness. Discretization of the governing equations using finite difference/volume/element methods; concepts of consistency, stability and convergence; template for the discretization of a generic unsteady transport equation. Solution of discretized equations; direct methods; classical iterative methods; advanced methods for structured matrices; conjugate gradient techniques; multigrid methods. Solution of coupled equations: methods for compressible flows; evaluation of pressure in incompressible flows; pressure'velocity coupling algorithms. Structured and unstructured grids; structured grid generation; unstructured grid generation. Benchmarking; calibration.

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