Advanced Fluid Mechanics 2: The Navier-Stokes Equations for Viscous Flows


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Advanced Fluid Mechanics 2: The Navier-Stokes Equations for Viscous Flows – Learn to apply the Navier-Stokes equations to viscous-dominated flows; including pipe flows, channel flows and free surface flows, use dynamical similarity and dimensional analysis, Stokes flows, similarity solutions and transient responses, lubrication analysis and surface tension.

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About the course Advanced Fluid Mechanics 2: The Navier-Stokes Equations for Viscous Flows

This course covers the Navier-Stokes equations for viscous flows: including pipe flows, channel flows and free surface flows, dynamical similarity and dimensional analysis, Stokes flows, similarity solutions and transient responses, lubrication analysis and surface tension. This course features lecture and demo videos, lecture concept checks, practice problems, and extensive problem sets.

This course is the second of a three-course sequence in incompressible fluid mechanics consisting of Advanced Fluid Mechanics 1: Fundamentals; Advanced Fluid Mechanics 2: The Navier-Stokes Equations for Viscous Flows, and Advanced Fluid Mechanics 3: Potential Flows, Lift, Circulation & Boundary Layers. The series is based on material in MIT’s class 2.25 Advanced Fluid Mechanics, one of the most popular first-year graduate classes in MIT’s Mechanical Engineering Department. This series is designed to help people gain the ability to apply the governing equations, the principles of dimensional analysis and scaling theory to develop physically-based, approximate models of complex fluid physics phenomena. People who complete these three consecutive courses will be able to apply their knowledge to analyze and break down complex problems they may encounter in industrial and academic research settings.

The material is of relevance to engineers and scientists across a wide range of mechanical chemical and process industries who must understand, analyze and optimize flow processes and fluids handling problems. Applications are drawn from hydraulics, aero & hydrodynamics as well as the chemical process industries.

  • The Navier-Stokes equation and appropriate boundary conditions
  • The concept of Dynamical similarity
  • Application of Dimensional analysis to complex problems
  • Analysis of complex viscous flows such as Stokes flows or transient responses
  • Lubrication Analysis for thin films and free surfaces
  1. The Navier-Stokes equation and viscous flow
  2. Pipe flows, channel flows and free-surface flows
  3. Dynamical Similarity and dimensional analysis
  4. More Complex Viscous Flows; Stokes Flows, Similarity Solutions, and Transient Responses
  5. Lubrication Analysis for Thin fluid films and slender geometries
Advanced Fluid Mechanics 2: The Navier-Stokes Equations for Viscous Flows


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