Advanced Fluid Mechanics

Master Advanced Fluid Dynamics: In-Depth Concepts, Differential Equations, Dimensional Analysis & Practical Applications

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Description

Dive into our Advanced Fluid Mechanics course, designed as a continuation of our Fundamentals of Fluid Mechanics course. This comprehensive program covers essential topics and concepts, offering deeper insights and advanced applications in fluid dynamics.

In this course, you will explore:

  1. Differential Relations: Gain a deeper understanding of fluid particles, fluid acceleration, the Continuity equation, Potential flows, and the Navier-Stokes equation.

  2. Dimensional Analysis & Similarity: Learn about the principle of dimensional homogeneity, the Pi theorem, non-dimensionalization of basic equations, and the challenges of modeling.

  3. Flow in Ducts & Boundary Layer Flows: Examine pressure drop calculations, minor losses in fittings, and the energy equation applied to pumps and turbines.

  4. Flow Over Immersed Bodies: Delve into drag and lift calculations, essential for analyzing fluid motion and optimizing designs.

  5. MATLAB Codes for Potential Flows: Access MATLAB codes, enhancing your computational skills in fluid dynamics and facilitating potential flow analysis.

  6. Advanced Applications & Real-World Examples: Discover practical applications and real-world examples, enabling you to apply your knowledge to complex fluid dynamics problems.

  7. Hands-On Learning & Problem Solving: Engage in hands-on learning and problem-solving activities to reinforce your understanding and develop your skills.

  8. Expert Guidance & Support: Benefit from expert guidance and support throughout the course, ensuring a thorough understanding of the material and the ability to apply it effectively.

Enroll in our Advanced Fluid Mechanics course today to expand your knowledge and skills in fluid dynamics. Master the continuation of the Fundamentals of Fluid Mechanics and boost your expertise, opening up new opportunities in your academic and professional pursuits.

What You Will Learn!

  • Understand how the differential equation of conservation of mass and the differential linear momentum equation are derived and applied
  • Calculate the stream function and pressure field, and plot streamlines for a known velocity field
  • Obtain analytical solutions of the equations of motion for simple flow fields
  • Understand dimensional analysis and similarity, principle of dimensional homogeneity Pi theorem, non-dimensionalization of basic equations
  • Understand concepts of inviscid, low Reynolds number, high Reynolds number, laminar and turbulent flow.
  • Identify and discuss the features of external flow
  • Calculate boundary layer parameters for flow past a flat plate
  • Calculate the lift and drag forces for various objects

Who Should Attend!

  • Engineering Students