Stiff equation: Difference between revisions

Revision as of 18:02, 8 November 2013

Kolmogorov microscales are the smallest scales in turbulent flow. At the Kolmogorov scale, viscosity dominates and the turbulent kinetic energy is dissipated into heat. They are defined^[1] by

Kolmogorov length scale	$\eta =\left({\frac {\nu ^{3}}{\epsilon }}\right)^{1/4}$
Kolmogorov time scale	$\tau _{\eta }=\left({\frac {\nu }{\epsilon }}\right)^{1/2}$
Kolmogorov velocity scale	$u_{\eta }=\left(\nu \epsilon \right)^{1/4}$

where $\epsilon$ is the average rate of dissipation of turbulence kinetic energy per unit mass, and $\nu$ is the kinematic viscosity of the fluid.

In his 1941 theory, Andrey Kolmogorov introduced the idea that the smallest scales of turbulence are universal (similar for every turbulent flow) and that they depend only on $\epsilon$ and $\nu$ . The definitions of the Kolmogorov microscales can be obtained using this idea and dimensional analysis. It therefore is not a theory derived from first principles. Since the dimension of kinematic viscosity is length²/time, and the dimension of the energy dissipation rate per unit mass is length²/time³, the only combination that has the dimension of time is $\tau _{\eta }=(\nu /\epsilon )^{1/2}$ which is the Kolmorogov time scale. Similarly, the Kolmogorov length scale is the only combination of $\epsilon$ and $\nu$ that has dimension of length.

The Kolmogorov 1941 theory is a mean field theory since it assumes that the relevant dynamical parameter is the mean energy dissipation rate. In fluid turbulence, the energy dissipation rate fluctuates in space and time, so it is possible to think of the microscales as quantities that also vary in space and time. However, standard practice is to use mean field values since they represent the typical values of the smallest scales in a given flow.

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+'''Kolmogorov microscales''' are the smallest [[scale (ratio)|scale]]s in [[Turbulence|turbulent flow]]. At the Kolmogorov scale, viscosity dominates and the turbulent kinetic energy is dissipated into heat. They are defined<ref>{{cite book|title=Turbulence and Random Processes in Fluid Mechanics|year=1992|publisher=Cambridge University Press|isbn=978-0521422130|author=M. T. Landahl|edition=2nd|coauthors=E. Mollo-Christensen|page=10}}</ref> by
+{| class="wikitable"
+| Kolmogorov length scale
+| <math>\eta = \left( \frac{\nu^3}{\epsilon} \right)^{1/4}</math>
+|-
+| Kolmogorov time scale
+| <math>\tau_\eta = \left( \frac{\nu}{\epsilon} \right)^{1/2}</math>
+|-
+| Kolmogorov velocity scale
+| <math>u_\eta = \left( \nu \epsilon \right)^{1/4}</math>
+|}
+where <math>\epsilon</math> is the average rate of dissipation of [[turbulence kinetic energy]] per unit mass, and <math>\nu</math> is the [[kinematic viscosity]] of the fluid.
+In his 1941 theory, [[Andrey Kolmogorov]] introduced the idea that the smallest scales of [[turbulence]] are universal (similar for every [[turbulent flow]]) and that they depend only on <math>\epsilon</math> and <math>\nu</math>. The definitions of the Kolmogorov microscales can be obtained using this idea and [[dimensional analysis]]. It therefore  is not a theory derived from first principles. Since the dimension of kinematic viscosity is length<sup>2</sup>/time, and the dimension of the [[energy dissipation]] rate per unit mass is length<sup>2</sup>/time<sup>3</sup>, the only combination that has the dimension of time is <math> \tau_\eta=(\nu / \epsilon)^{1/2}</math> which is the Kolmorogov time scale.  Similarly, the Kolmogorov length scale is the only combination of <math>\epsilon</math> and <math>\nu</math> that has dimension of length.
+The Kolmogorov 1941 theory is a [[mean field theory]] since it assumes that the relevant dynamical parameter is the mean energy dissipation rate.  In [[fluid turbulence]], the energy dissipation rate fluctuates in space and time, so it is possible to think of the microscales as quantities that also vary in space and time.  However, standard practice is to use mean field values since they represent the typical values of the smallest scales in a given flow.
+==See also==
+*[[Taylor microscale]]
+*[[Integral length scale]]
+*[[Batchelor scale]]
+== References ==
+{{reflist}}
+{{DEFAULTSORT:Kolmogorov Microscales}}
+[[Category:Turbulence]]

Stiff equation: Difference between revisions

Revision as of 18:02, 8 November 2013

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