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File: Computational Fluid Dynamics Anderson Pdf 158446 | Ma608 Item Download 2023-01-20 01-03-12
nd approval 2 senate meeting ma608 computational fluid dynamics credit 3 0 0 3 prerequisites basic knowledge in fluid mechanics students intended for ms ph d and ug elective or ...

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                                                                                                                                                           nd
                                                                                                                                 Approval: 2  Senate Meeting 
                          MA608  Computational Fluid Dynamics 
                          Credit: 3-0-0-3                                                                                        
                          Prerequisites: Basic knowledge in Fluid Mechanics 
                          Students intended for: MS/ Ph.D. and UG 
                          Elective or Core: Elective                                                                            Semester: Even 
                          Course Objective:  
                          This course will emphasize on the development of basic as well as advance Finite Difference approaches 
                          to provide numerical solutions of Partial Differential Equations, frequently arise in the field of Fluid 
                          Mechanics. This course is a theoretical course along with two small projects. First project will be done 
                          before Quiz 2 and second project will be completed before End-semester examination. Both of the 
                          projects will be related to the application of finite difference method to solve fluid flow problems. 
                          Finally, the main objective of this course is to provide basic concepts of Computational Fluid Dynamics, 
                          in terms of comprehensive theoretical study and some of its computational aspects. 
                          Course Outline: 
                          UNIT-I: Introduction: Historical Perspective, Comparisons of experimental, Theoretical and Numerical 
                          approaches. Different numerical Approaches.                                                                                                 [4 lectures] 
                          UNIT-II:  Governing  Equations:  Classification  of  Partial  Differential  Equations,  Physical  Classification, 
                          Mathematical Classification, Well-posed problems, Navier-Stokes System of equations.    [6 lectures] 
                          UNIT-III : Finite Difference Methods: Derivation of Finite Difference Equations, Simple Methods, General 
                          Methods, Multidimensional Formulas, Accuracy of Finite Difference solutions.                                                                [6 lectures] 
                          UNIT-IV :  Solution  Methods  of  Finite  Difference  Equations:  Elliptic  Equations,  Parabolic  Equations, 
                          Hyperbolic  Equation,  Example  Problems,  Stability,  Convergence  and  Consistency  of  the  Solution 
                          methods.                                                                                                                                    [14 lectures]  
                          UNIT-V:  Application  of  Finite  Difference  Methods  to  the  Equations  of  Fluid  Mechanics:  Numerical 
                          Methods for Inviscid Flow Equations, Numerical Methods for Boundary-Layer Type Equations. 
                                                                                                                                                                       [9 lectures] 
                          UNIT-VI : Introduction to Finite Volume Methods: Basic Formulations, SIMPLE algorithm.  
                                                                                                                                                                      [4 lectures] 
                          Text & Reference Books: 
                                1.  D. A. Anderson, J. C. Tannehill, and R. H. Pletcher,  Computational Fluid Mechanics and Heat 
                                       Transfer,   2nd  ed, Taylor & Francis, 1997.  
                                2.  J. D. Anderson Jr, Computational Fluid Dynamics, McGraw-Hill International Edition,  1995. 
             3.  S. V. Patankar, Numerical Heat Transfer and Fluid Flow, Hemisphere, 2000. 
                                             nd
             4.  T. J. Chung, Computational Fluid Dynamics, 2  ed. Cambridge University Press, 2010. 
             5.   P. Niyogi, S. K. Chakrabartty, M. K. Laha, Introduction to Computational Fluid Dynamics, Pearson 
                Publications, 2011. 
            
            
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...Nd approval senate meeting ma computational fluid dynamics credit prerequisites basic knowledge in mechanics students intended for ms ph d and ug elective or core semester even course objective this will emphasize on the development of as well advance finite difference approaches to provide numerical solutions partial differential equations frequently arise field is a theoretical along with two small projects first project be done before quiz second completed end examination both related application method solve flow problems finally main concepts terms comprehensive study some its aspects outline unit i introduction historical perspective comparisons experimental different ii governing classification physical mathematical posed navier stokes system iii methods derivation simple general multidimensional formulas accuracy iv solution elliptic parabolic hyperbolic equation example stability convergence consistency v inviscid boundary layer type vi volume formulations algorithm text refer...

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