Fundamental Course On Computational Fluid Dynamics

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Fundamental Course On Computational Fluid Dynamics
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 222.84 MB | Duration: 0h 45m
Learn CFD governing equations, vectors, continuity, Navier-Stokes, and energy equation with visual derivations


What you'll learn
Understand the mathematical foundations of CFD including vectors, gradient, divergence, curl, and total derivative.
Understand and derive the Continuity equation, momentum equation or Navier-Stokes Equation and Energy Equation with detailed significance of each term.
Build physical intuition behind governing equations through visual animations and engineering examples.
Develop a strong foundation required for learning numerical methods and commercial CFD software in future courses.
Requirements
Basic high school mathematics and comfort with algebra are helpful.
Interest in fluid mechanics, heat transfer, or engineering analysis.
No prior CFD knowledge is required. Concepts are explained from fundamentals.
A notebook and willingness to think conceptually will help maximize learning.
Description
Computational Fluid Dynamics (CFD) is one of the most powerful tools used in engineering to simulate fluid flow, heat transfer, mixing, aerodynamics, combustion, and many real-world processes. However, many students and professionals try to learn CFD directly through software without first understanding the governing equations behind it.This course is designed to solve that problem by teaching CFD from first principles in a clear, visual, and intuitive way.Instead of memorizing formulas, you will understand where the equations come from, what each term physically means, and why they are important before moving to numerical methods or commercial software.In this beginner-friendly course, we start with the mathematical foundations required for CFD, including vectors, gradient, divergence, curl, and total derivative.Then we move into control mass, control volume, and Reynolds Transport Theorem, which form the bridge between physical systems and engineering analysis.After that, we derive the three most important governing equations used in CFD:• Conservation of Mass (Continuity Equation)• Conservation of Momentum (Navier-Stokes Foundation)• Conservation of EnergyEach derivation is explained step by step using clear animations so difficult concepts become easier to understand and remember.You will also build intuition for pressure forces, viscous forces, body forces, heat conduction, pressure work, viscous work, and source terms.By the end of this course, you will have a strong conceptual foundation for advanced CFD topics such as discretization, finite volume methods, turbulence models, and commercial CFD software like ANSYS Fluent, OpenFOAM, STAR-CCM+, and others.This course is ideal for engineering students, beginners, researchers, and professionals who want to truly understand CFD rather than only use software tools.If you have ever felt CFD is confusing or too mathematical, this course will make it structured, logical, and approachable.Join now and build the right foundation in Computational Fluid Dynamics.
Mechanical, chemical, aerospace, civil, and energy engineering students.,Beginners who want to learn CFD from first principles instead of only software clicking.,Professionals who use CFD tools and want to understand the physics behind the equations.,Anyone interested in fluid flow, heat transfer, and engineering simulations.

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