Introduction to turbulence
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== [[Homogeneous turbulence]] == | == [[Homogeneous turbulence]] == | ||
== [[Free turbulent shear flows]] == | == [[Free turbulent shear flows]] == | ||
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+ | == Headline text == | ||
+ | [[Image:Example.jpg]][[Media:Example.ogg]]<nowiki>Insert non-formatted text here</nowiki>--[[User:Zemmour,zs|Zemmour,zs]] 08:41, 4 February 2007 (MST)''Italic text'''''Bold text''''''Bold text'''<nowiki>Insert non-formatted text here</nowiki>== [[Wall bounded turbulent flows]] == | ||
==Credits== | ==Credits== |
Revision as of 15:41, 4 February 2007
Contents |
What is turbulence?
The elements of statistical analysis
- The ensemble and Ensemble Average
- Probability
- Multivariate random vaiables
- Estimation from a Finite Number of Realizations
- Generalization to the estimator of any quantity
Reynolds averaged equations and the Turbulence Closure Problem
- The equations governing the instantaneous fluid motions
- Equations for the average velocity
- The turbulence problem
- The origins of turbulence
- The importance of non-linearity
- The Turbulence Closure problem and the Eddy Viscosity
- The Reynolds Stress Equations
Turbulence kinetic energy
Stationarity and homogeneity
Homogeneous turbulence
Free turbulent shear flows
Headline text
Media:Example.oggInsert non-formatted text here--Zemmour,zs 08:41, 4 February 2007 (MST)Italic textBold text'Bold text'Insert non-formatted text here== 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