Introduction to turbulence
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== [[The elements of statistical analysis]] == | == [[The elements of statistical analysis]] == | ||
== [[Reynoldas averaged equations]] == | == [[Reynoldas averaged equations]] == | ||
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+ | * [[Reynoldas averaged equations #The Equations Governing the Instantaneous Fluid Motions | The Equations Governing the Instantaneous Fluid Motions ]] | ||
+ | * [[Reynoldas averaged equations #Equations for the Average Velocity | Equations for the Average Velocity ]] | ||
+ | * [[Reynoldas averaged equations #The Turbulence Problem | The Turbulence Problem ]] | ||
+ | * [[Reynoldas averaged equations #The Origins of Turbulence | The Origins of Turbulence ]] | ||
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== [[The Turbulence Kinetic Energy]] == | == [[The Turbulence Kinetic Energy]] == | ||
== [[Stationarity and Homogeneity]] == | == [[Stationarity and Homogeneity]] == |
Revision as of 13:22, 14 May 2006
Contents |
What is Turbulence?
The elements of statistical analysis
Reynoldas averaged equations
- The Equations Governing the Instantaneous Fluid Motions
- Equations for the Average Velocity
- The Turbulence Problem
- The Origins of Turbulence
The Turbulence Kinetic Energy
Stationarity and Homogeneity
Homogeneous Turbulence
Free turbulent shear flows
Wall Bounded Turbulent flows
Credits
This text was based on "Introduction to Turbulence" by Professor William K.George, Chalmers University of Technology, Sweden.
Return to Turbulence modeling