06ME767- Computational Fluid Dynamics |
PART – A |
UNIT I: |
INTRODUCTION:Computational Fluid Dynamics, Advantages,
Applications, Future of CFD.
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UNIT II: |
CFD SOLUTION PROCEDURE: Problem set up-pre-process, Numerical
solution – CFD solver, Result report and visualization-post-process.
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UNIT III: |
GOVERNING EQUATIONS FOR CFD: Introduction, the continuity
equation, the momentum equation, the energy equation, the additional
equations for turbulent flows, generic form of the governing equations for
CFD, boundary conditions.
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UNIT IV: |
CFD TECHNIQUES: Introduction, Discretisation of governing equations,
Finite difference method, Finite volume method, converting governing
equations to algebraic equation system, Numerical solutions.
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PART – B |
UNIT V: |
CFD SOLUTION ANALYSIS: Introduction, consistency, stability,convergence, accuracy, efficiency, case studies.
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UNIT VI: |
PRACTICAL GUIDELINES FOR CFD: Introduction, grid generation,
boundary conditions, turbulent modeling.
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UNIT VII: |
APPLICATIONS OF CFD: Introduction, CFD as a design tool, indoor air
flow distribution, CFD as a research tool, CFD applied to heat transfer
coupled with fluid flow, buoyant free standing fire, flow over vehicle
platoon, air/particle flow in human nasal cavity, high speed flows.
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UNIT VIII: |
ADVANCED TOPICS IN CFD: Introduction, advances in numerical
methods and techniques – incompressible flows, compressible flows, moving
grids, multigrid methods, parallel computing, immersed boundary methods.
Advances in computational methods – DNS, LES, RANS-LES coupling for
turbulent flows, multiphase flows, combustion, fluid-structure interaction,physiological fluid dynamics and other numerical approaches
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REFERENCE |
TEXT BOOKS: |
1. Computational Fluid Dynamic – a practical approach, Jiyuan
Tu, Guan Heng Yeoh and Chaoqun Liu, Butterworth-Heinemann
(ELSEVIER), 2008.
2. Introduction to Computational Fluid Dynamics, Pradip Niyogi,
S.K. Chakrabarthy and M.K. Laha, Pearson Education, 2006.
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Reference Books |
1. An introduction to CFD, H. Versteeg and W. Malalasekra,
Pearson, Education, 2nd Edition, 2008.
2. Introduction to Computational Fluid Dynamics, Anil W. Date,
Cambridge University press, 2007.
3. Computational Fluid Dynamics – The basics and applications,
Anderson J.D. Jr, (1995), Mcgraw-Hill, New York.
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