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Course Information

Course Name
Turkish Ileri Hesaplamalı Akışkanlar Mekaniği 2017
English Advanced Comp.Fluid Dynamics 2017
Course Code
UUM 601E Credit Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester 1
3 3 - -
Course Language English
Course Coordinator Mehmet Şahin
Course Objectives To introduce a range of more advanced topics and recent advances in computational fluid dynamics.
Course Description Mesh generation algorithms; Governing equation of fluid flow on moving meshes; Basic discretization methods for incompressible flows; Iterative methods; Free surface flows; Spectal methods; Basic discretization methods for compressible flows; High order ENO and WENO methods; RANS models; Reynolds Stress models; Large Eddy Simulation of turbulence; Parallel computing in CFD.
Course Outcomes M.Sc./Ph.D. students who successfully pass this course gain knowledge, skill and competency in the following subjects;
1. Learn mesh generation algorithms and understand their limitations
2. Able to apply basic discretization methods to the incompressible Navier-Stokes equations
3. Able to use iterative methods for larger problems
4. Able to use numerical algorithms for multi-phase flows
5. Able to apply spectral methods to the incompressible Navier-Stokes equations
6. Able to apply basic discretization methods to the compressible Navier-Stokes equations
7. Learn ENO and WENO methods
8. Learn basic RANS and LES models
9. Learn domain decomposition methods for parallel computing
Pre-requisite(s)
Required Facilities
Other
Textbook • Ferziger J.H., Peric, M., Computational Methods for Fluid Dynamics, Springer, 1999.
• P. M. Gresho, et al Incompressible Flow and the Finite Element Method Volume 1: Advection-Diffusion, Volume 2: Isothermal Laminar Flow, John Wiley & Sons, 2000.
• George Em Karniadakis and Spencer J. Sherwin, Spectral/HP Element Methods for CFD, Oxford University Press, 1999.
• P. Sagaut, Large Eddy. Simulation for Incompressible Flows: An Introduction, Springer, 2001.
• Anderson, J.D., Computational Fluid Dynamics The Basics with Applications, McGraw-Hill, 1995.
Other References
 
 
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