IC 9262 COMPUTATIONAL FLUID DYNAMICS SYLLABUS | ANNA UNIVERSITY ME INTERNAL COMBUSTION ENGINEERING ELECTIVES SYLLABUS REGULATION 2009 2011 2012-2013 BELOW IS THE ANNA UNIVERSITY M.E INTERNAL COMBUSTION ENGINEERING DEPARTMENT ELECTIVES SYLLABUS, TEXTBOOKS, REFERENCE BOOKS,EXAM PORTIONS,QUESTION BANK,PREVIOUS YEAR QUESTION PAPERS,MODEL QUESTION PAPERS, CLASS NOTES, IMPORTANT 2 MARKS, 8 MARKS, 16 MARKS TOPICS. IT IS APPLICABLE FOR ALL STUDENTS ADMITTED IN THE YEAR 2011 2012-2013 (ANNA UNIVERSITY CHENNAI, TRICHY, MADURAI, TIRUNELVELI, COIMBATORE), 2009 REGULATION OF ANNA UNIVERSITY CHENNAI AND STUDENTS ADMITTED IN ANNA UNIVERSITY CHENNAI DURING 2010
IC 9262 COMPUTATIONAL FLUID DYNAMICS L T P C
3 0 0 3
AIM:
This course aims to introduce numerical modeling and its role in the field of heat and
fluid flow, it will enable the students to understand the various discretisation methods
and solving methodologies and to create confidence to solve complex problems in
the field of heat transfer and fluid dynamics.
18
OBJECTIVES :
(i) To develop finite difference and finite volume discretized forms of the CFD
equations.
(ii) To formulate explicit & implicit algorithms for solving the Euler Eqns & Navier
Stokes Eqns.
UNIT I GOVERNING DIFFERENTIAL EQUATION AND FINITE
DIFFERENCE METHOD 10 Classification, Initial and Boundary conditions – Initial and Boundary Value problems
– Finite difference method, Central, Forward, Backward difference, Uniform and nonuniform
Grids, Numerical Errors, Grid Independence Test.
UNIT II CONDUCTION HEAT TRANSFER 10
Steady one-dimensional conduction, two and three dimensional steady state
problems, Transient one-dimensional problem, Two-dimensional Transient Problems.
UNIT III INCOMPRESSIBLE FLUID FLOW 10
Governing Equations, Stream Function – Verticity method, Determination of pressure
for viscous flow, SIMPLE Procedure of Patankar and Spalding, Computation of
Boundary layer flow, finite difference approach.
UNIT IV CONVECTION HEAT TRANSFER AND FEM 10
Steady One-Dimensional and Two-Dimensional Convection – diffusion, Unsteady
one-dimensional convection – diffusion, Unsteady two-dimensional convection –
Diffusion – Introduction to finite element method – solution of steady heat conduction
by FEM – Incompressible flow – simulation by FEM.
UNIT V TURBULENCE MODELS 5
Algebraic Models – One equation model, K – є Models, Standard and High and Low
Reynolds number models, Prediction of fluid flow and heat transfer using standard
codes. TOTAL : 45 PERIODS
TEXT BOOKS :
1. Muralidhar, K., and Sundararajan, T., “Computational Fluid Flow and Heat
Transfer”, Narosa Publishing House, New Delhi, 1995.
2. Ghoshdasdidar, P.S., “Computer Simulation of flow and heat transfer” Tata
McGraw-Hill Publishing Company Ltd., 1998.
3. Subas, V.Patankar “Numerical heat transfer fluid flow”, Hemisphere Publishing
Corporation, 1980.
4. Taylor, C and Hughes, J.B. “Finite Element Programming of the Navier-Stokes
Equation”, Pineridge Press Limited, U.K., 1981.
5. Anderson, D.A., Tannehill, J.I., and Pletcher, R.H., “Computational fluid
Mechanics and Heat Transfer “ Hemisphere Publishing Corporation, New York,
USA,1984.
6. Fletcher, C.A.J. “Computational Techniques for Fluid Dynamics 1” Fundamental
and General Techniques, Springer – Verlag, 1987.
7. Fletcher, C.A.J. “Computational Techniques for fluid Dynamics 2” Specific
Techniques for Different Flow Categories, Springer – Verlag, 1987.
8. Bose, T.X., “Numerical Fluid Dynamics” Narosa Publishing House, 1997.
IC 9262 COMPUTATIONAL FLUID DYNAMICS L T P C
3 0 0 3
AIM:
This course aims to introduce numerical modeling and its role in the field of heat and
fluid flow, it will enable the students to understand the various discretisation methods
and solving methodologies and to create confidence to solve complex problems in
the field of heat transfer and fluid dynamics.
18
OBJECTIVES :
(i) To develop finite difference and finite volume discretized forms of the CFD
equations.
(ii) To formulate explicit & implicit algorithms for solving the Euler Eqns & Navier
Stokes Eqns.
UNIT I GOVERNING DIFFERENTIAL EQUATION AND FINITE
DIFFERENCE METHOD 10 Classification, Initial and Boundary conditions – Initial and Boundary Value problems
– Finite difference method, Central, Forward, Backward difference, Uniform and nonuniform
Grids, Numerical Errors, Grid Independence Test.
UNIT II CONDUCTION HEAT TRANSFER 10
Steady one-dimensional conduction, two and three dimensional steady state
problems, Transient one-dimensional problem, Two-dimensional Transient Problems.
UNIT III INCOMPRESSIBLE FLUID FLOW 10
Governing Equations, Stream Function – Verticity method, Determination of pressure
for viscous flow, SIMPLE Procedure of Patankar and Spalding, Computation of
Boundary layer flow, finite difference approach.
UNIT IV CONVECTION HEAT TRANSFER AND FEM 10
Steady One-Dimensional and Two-Dimensional Convection – diffusion, Unsteady
one-dimensional convection – diffusion, Unsteady two-dimensional convection –
Diffusion – Introduction to finite element method – solution of steady heat conduction
by FEM – Incompressible flow – simulation by FEM.
UNIT V TURBULENCE MODELS 5
Algebraic Models – One equation model, K – є Models, Standard and High and Low
Reynolds number models, Prediction of fluid flow and heat transfer using standard
codes. TOTAL : 45 PERIODS
TEXT BOOKS :
1. Muralidhar, K., and Sundararajan, T., “Computational Fluid Flow and Heat
Transfer”, Narosa Publishing House, New Delhi, 1995.
2. Ghoshdasdidar, P.S., “Computer Simulation of flow and heat transfer” Tata
McGraw-Hill Publishing Company Ltd., 1998.
3. Subas, V.Patankar “Numerical heat transfer fluid flow”, Hemisphere Publishing
Corporation, 1980.
4. Taylor, C and Hughes, J.B. “Finite Element Programming of the Navier-Stokes
Equation”, Pineridge Press Limited, U.K., 1981.
5. Anderson, D.A., Tannehill, J.I., and Pletcher, R.H., “Computational fluid
Mechanics and Heat Transfer “ Hemisphere Publishing Corporation, New York,
USA,1984.
6. Fletcher, C.A.J. “Computational Techniques for Fluid Dynamics 1” Fundamental
and General Techniques, Springer – Verlag, 1987.
7. Fletcher, C.A.J. “Computational Techniques for fluid Dynamics 2” Specific
Techniques for Different Flow Categories, Springer – Verlag, 1987.
8. Bose, T.X., “Numerical Fluid Dynamics” Narosa Publishing House, 1997.
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