Computational Fluid Dynamics Mech & Auto 7th Sem Syllabus for BE 2017 Regulation Anna Univ (Professional Elective III) detail syllabus for Mech & Auto (Mech & Auto), 2017 regulation is collected from the Anna Univ official website and presented for students of Anna University. The details of the course are: course code (ME8093), Category (PE), Contact Periods/week (3), Teaching hours/week (3), Practical Hours/week (0). The total course credits are given in combined syllabus.
For all other mech & auto 7th sem syllabus for be 2017 regulation anna univ you can visit Mech & Auto 7th Sem syllabus for BE 2017 regulation Anna Univ Subjects. For all other Professional Elective III subjects do refer to Professional Elective III. The detail syllabus for computational fluid dynamics is as follows.
Course Objective:
- To introduce Governing Equations of viscous fluid flows
- To introduce numerical modeling and its role in the field of fluid flow and heat transfer
- To enable the students to understand the various discretization methods, solution procedures and turbulence modeling.
- To create confidence to solve complex problems in the field of fluid flow and heat transfer by using high speed computers.
Unit I
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Unit II
Finite Difference and Finite Volume Methods for Diffusion
Derivation of finite difference equations – Simple Methods – General Methods for first and second order accuracy – Finite volume formulation for steady state One, Two and Three -dimensional diffusion problems -Parabolic equations – Explicit and Implicit schemes -Example problems on elliptic and parabolic equations – Use of Finite Difference and Finite Volume methods.
Unit III
Finite Volume Method for Convection Diffusion
Steady one-dimensional convection and diffusion – Central, upwind differencing schemes properties of discretization schemes – Conservativeness, Boundedness, Transportiveness, Hybrid, Power-law, QUICK Schemes.
Unit IV
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Unit V
Turbulence Models and Mesh Generation
Turbulence models, mixing length model, Two equation (k-C) models – High and low Reynolds number models – Structured Grid generation – Unstructured Grid generation – Mesh refinement – Adaptive mesh – Software tools.
Course Outcome:
Upon the completion of this course the students will be able to
- CO1 Derive the governing equations and boundary conditions for Fluid dynamics
- CO2 Analyze Finite difference and Finite volume method for Diffusion
- CO3 Analyze Finite volume method for Convective diffusion
- CO4 Analyze Flow field problems
- CO5 Explain the Turbulence models and Mesh generation techniques
Text Books:
- Ghoshdastidar, P.S., “Computer Simulation of flow and heat transfer”, Tata McGraw Hill Publishing Company Ltd., 2017.
- Versteeg, H.K., and Malalasekera, W., “An Introduction to Computational Fluid Dynamics: The finite volume Method”, Pearson Education Ltd, Second Edition, 2007.
References:
- Anil W. Date “Introduction to Computational Fluid Dynamics” Cambridge University Press, 2005.
- Chung, T.J. “Computational Fluid Dynamics”, Cambridge University, Press, 2002.
- Ghoshdastidar P.S., “Heat Transfer”, Oxford University Press, 2005
- Muralidhar, K., and Sundararajan, T., “Computational Fluid Flow and Heat Transfer”, Narosa Publishing House, New Delhi, 2014.
- Patankar, S.V. “Numerical Heat Transfer and Fluid Flow”, Hemisphere Publishing Corporation, 2004
For detail syllabus of all other subjects of BE Mech & Auto, 2017 regulation do visit Mech & Auto 7th Sem syllabus for 2017 Regulation.
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