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Numerical Fluid Mechanics is a technology based on a fast and reliable computational methodology for solving complex fluid flow and heat transfer problems.
This course enables the product design team to reduce their risks of potential design failures, optimize their engineering design. Some important topics covered are such as Fourier decomposition, error analysis and stability; high-order and compact finite-differences; finite volume methods and many more.
This course does not involve any written exams. Students need to answer 5 assignment questions to complete the course, the answers will be in the form of written work in pdf or word. Students can write the answers in their own time. Each answer needs to be 200 words (1 Page). Once the answers are submitted, the tutor will check and assess the work.
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Course Credit: MIT
|Lecture1 Introduction to Numerical Fluid Mechanics||01:30:00|
|Lecture2 Recursion. Truncation Errors, Taylor Series and Error Analysis.||00:40:00|
|Lecture3 Roots of Non-linear Equations, Bracketing Methods||00:40:00|
|Lecture4 Systems of Linear Equations||00:50:00|
|Lecture5 Systems of Linear Equations. Gaussian Elimination||01:00:00|
|Lecture6 Systems of Linear Equations. Special Matrices||00:40:00|
|Lecture7 Systems of Linear Equations. Iterative Methods||00:40:00|
|Lecture8 End of Systems of Linear Equations||00:50:00|
|Lecture9 FD Schemes||00:50:00|
|Lecture10 FD Schemes||00:50:00|
|Lecture12 Stability, Hyperbolic Eqns. Revisited||00:40:00|
|Lecture13 End of Elliptic Hyperbolic Equations, Special Advection Schemes||01:00:00|
|Lecture14 Finite Volume Methods||01:00:00|
|Lecture15 Methods for Unsteady Problems. Time Marching Methods.||00:40:00|
|Lecture16 Time Marching (cont.)||00:40:00|
|Lecture17 Solutions of the Navier Stokes Equation||00:40:00|
|Lecture18 Solutions of the Navier Stokes Equation||00:40:00|
|Lecture19 Grid Generation and complex Geometries||00:40:00|
|Lecture20 Finite Volume on Complex Geometries||00:50:00|
|Lecture21 Finite Element Methods (cont.)||01:00:00|
|Lecture22 Lecture Recitation. Inviscid Flow Equations||00:40:00|
|Lecture23 Turbulent Flows||01:00:00|
|Lecture24 Finite Volume on Complex Geometries||00:50:00|
|Submit Your Assignment||00:00:00|
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