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Topics in Computational Fluid Dynamics

Lecturer: 
Course Type: 
PhD Course
Academic Year: 
2016-2017
Period: 
April-June
Duration: 
20 h
Description: 
  • Introduction to CFD, examples.
  • Constitutive laws
  • Incompressible flows.
  • Numerical methods for potential and thermal flows
  • Boundary layer theory
  • Thermodynamics effects, energy equation, enthalpy and entropy
  • Vorticity equations
  • Numerical methods for viscous flows: steady Stokes equations
  • Stabilization and inf-sup condition
  • Numerical methods for nonlinear viscous flows: steady Navier-Stokes equations
  • Discretization techniques for steady and unsteady Navier-Stokes equations.
  • Advanced optional topic (1): compressible flows.
  • Advanced optional topic (2): fluid and structure interaction.
Location: 
A-136
Next Lectures: 

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