BE Automobile Engineering Semester 7 (BE Fourth Year)University of Mumbai
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Computational Fluid Dynamics Semester 7 (BE Fourth Year) BE Automobile Engineering University of Mumbai Topics and Syllabus

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CBCGS [2019 - current]
CBGS [2015 - 2018]
Old [2000 - 2014]

Topics with syllabus and resources

100.00 Module 1
101.00 Introduction
  • What is CFD, Scope and Application of CFD,
  • Methods of Predictions like Experimental and theoretical,
  • Working of Commercial CFD Softwares,
  • Solution methodology-Preprocessing,
  • Solver, Post processing
200.00 Module 2
201.00 Mathematical Description of Physical Phenomenon
  • Differential Equations, Meaning of Differential equation,
  • The Continuity Equation,
  • A Momentum equation,
  • The Energy Equation,
  • The General Differential Equation,
  • Boundary Conditions,
  • Initial and Boundary Conditions,
  • Initial and Boundary Value problems
300.00 Module 3
301.00 Grid Generation and Discretization Methods
  • Structured and unstructured Grids: O-type, H-type, C-type of Structured Grid Generation, Mesh Adaptation.
  • The Nature of Numerical Methods: The Discritization Concept, The Structure of the Discritization Equation.
  • Methods of Deriving the Discretization Equations,
  • Taylor-Series Formulation,
  • Variational Formulation,
  • Method of Weighted Residuals,
  • Control Volume Formulation
400.00 Module 4
401.00 Heat Conduction, Convection and Diffusion
  • Steady One-dimensional Conduction,
  • Unsteady One-dimensional Conduction,
  • Two and Threedimensional Situations,
  • Over relaxation and Under relaxation,
  • Steady Onedimensional and Two Dimensional Convection-Diffusion,
  • Unsteady Onedimensional Convection
500.00 Module 5
501.00 Incompressible Fluid Flow
  • Governing Equations, Stream FunctionVorticity Method,
  • Determination of Pressure for Viscous Flow,
  • The SIMPLE, SIMPLER Algorithm,
  • Introduction to Turbulence Modeling,
  • Basic Theories of Turbulence,
  • The Time-Averaged Equations for Turbulent Flow
600.00 Module 6
601.00 Finite Volume Methods
  • FVM solutions to steady one,
  • two and three dimensional diffusion problems and unsteady one and two dimensional diffusionproblems,
  • FVM solutions to convection-diffusion problems - one and twodimensional,
  • steady and unsteady;
  • Advection schemes;
  • Pressure velocity coupling

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