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Mechanical Engineering
Introduction to Turbulence (Web)
Syllabus
Co-ordinated by :
IIT Kanpur
Available from :
2009-12-31
Lec :
1
Modules / Lectures
Introduction and Origin of Turbulence
Introduction
Boundary Layer
Characteristics of Turbulent Flow
Correlation Functions, Kolmogorov Hypothesis and Probability Density Function
Correlation Functions and Intensity
Kolmogorov Hypothesis and Energy Cascade
Probability Density Functions and Averaging
Reynolds Averaged Navier-Stokes Equations and Classical Idealization of Turbulent Flows
Reynolds' Averaged Navier-Stokes Equations
Measurements on Fluctuating Components
Turbulent Boundary Layer Equations
Classical Idealisation of Turbulent Stresses
Vorticity Dynamics
Vorticity Dynamics
Vortex Stretching
Further on Vortex Stretching
Dynamics of Turbulent Kinetic Energy and Important Scaling Relations
Dynamics of Turbulence : Kinetic Energy
Kinetic Energy of Fluctuations
Some Scaling Relations
More on Scaling Relations
Wall Bounded Flows and Free Shear Flows
The Law of the Wall for Wall Bounded Flows
Turbulent Jet
Turbulent Jet (Continued)
Turbulent Jet (Continued)
Spectral Dynamics
Spectral Dynamics
The Energy Cascade
The Energy Cascade (Continued)
The Energy Cascade (Continued)
Mathematical Modeling of Turbulent Flows
RANS Equations and Eddy Viscosity
One-Equation Model
Two Equation Models
Two Equation Models (Continued)
Low Reynolds number k - e model
RNG k - e Model and Kato-Launder Model
Mathematical Modeling of Turbulent Flows
Mathematical Modeling of Turbulent Flows
Dynamic Model of LES
Other Developments in SGS Closure
Direct Numerical Simulation
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