Marmara Üniversitesi
Marmara Üniversitesi Eğitim-Öğretim Bilgi Sistemi

This course is designed to give Graduate . Engineering students an understanding of fundamentals of Computational Fluid Dynamics. • To achieve this, a detail study of theory and its implementation with numerical methods will be performed. • The format of

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Heat and mass transfer equations, RANS equations, Discretization schemes, Convection-diffusion problem, SIMPLE and SIMPLER algorithm. Line solvers. Implementation of boundary conditions. Pre and post-processing in CFD.

• Quizzes: will be held during class session. Quizzes cannot be made up, if missed. • Attendance: Roll calls will be made in the class. • Assignments: Assignments will be given regularly. These problems are an integral part of the learning process as the

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İngilizce

1) An Introduction to computational fluid dynamics, The finite volume method. H.K. Versteeg and W. Malalasekera. 1995 Longman. 2) Numerical Methods for Fluid Flow and Heat Transfer. S. Patankar. 1980 Mc Graw Hill 3) Computational Methods for Fluid Dynamic

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• Make the student understand the role of Computation in Fluid Dynamics, its applicability, potential and limitations.
• Understand a basic foundation in numerical analysis, by teaching the relevance of accuracy and stability
• Understand a working idea of the various choices of numerical methods and discretization schemes by applying them to simple model equations. In doing this, always remind them of the connection with the big picture.
• Make the student knowledgeable about the various terminologies in practical CFD (Grids, Boundary Conditions, Approximations, Schemes etc)
• Ingrain the basics of good CFD practice (be aware of the applicability/feasibility of a particular model, its limitations, choose the right boundary conditions, ascertain grid/time independence, verification/validation)