Computational Fluid Dynamics Fundamentals Course

Computational Fluid Dynamics Fundamentals Course. An introduction to the fundamentals of Computational Fluid Dynamics (CFD) that are used to solve complex fluid dynamics problems (weather prediction, aircraft flight, turbomachinery) by researchers, scientists, and engineers around the world. 

  • The fundamentals of Computational Fluid Dynamics (CFD) that are used by engineers, scientists and researchers
  • How to set up and solve your first CFD solution from first principles (using Excel, Python or MATLAB)
  • The importance of central differencing, upwind differencing and Peclet number
  • A common framework to solve any scalar transport equation in CFD

Computational Fluid Dynamics Fundamentals Course Requirements

  • Basic vector calculus (dot product, gradient, cross product)
  • Basic differential equations
  • Basic linear algebra (matrices)
  • Microsoft Excel, Python or MATLAB

Computational Fluid Dynamics Fundamentals Course Description


An introduction to the fundamentals of computational fluid dynamics (CFD) used to solve complex fluid dynamics problems (weather forecasting, aircraft flight, turbomachines) by researchers, scientists, and engineers around the world. The course starts with the first principles and you will quickly develop your first CFD solution using the Excel sheets and Python source code provided. By the end of the course, you will understand the importance of upwind differentiation, Peclet’s number, and mesh resolution. No prior experience is required and no specific coding / CFD coding experience is required! You do not need ANSYS Fluent, OpenFOAM, Star CCM, or any other CFD to use this course.

Who is this course for:
High School Physics Students
Undergraduate engineers, physicists, and scientists
Masters and Ph.D. students

Joining Link: https://www.udemy.com/course/computational-fluid-dynamics-fundamentals-course/

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