Averaging approaches

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(Volume Averaging)
(Area Averaging)
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''See Main Article'' [[Volume averaging|Volume Averaging]]
''See Main Article'' [[Volume averaging|Volume Averaging]]
==Area Averaging==
==Lagrangian Averaging==
''See Main Article'' [[Area averaging|Area Averaging]]
''See Main Article'' [[Lagrangian Averaging]]
==Boltzmann Statistical Averaging==
==Boltzmann Statistical Averaging==

Revision as of 14:39, 28 June 2010

The objectives of the various averaging methods are twofold: (1) to define the average properties for the multiphase system and correlate the experimental data, and (2) to obtain solvable governing equations that can be used to predict the macroscopic properties of the multiphase system. This chapter will address the application of averaging methods to the governing equations.

Based on the physical concepts used to formulate multiphase transport phenomena, the averaging methods can be classified into three major groups: (1) Eulerian averaging, (2) Lagrangian averaging, and (3) Molecular statistical averaging.


Volume Averaging

Eulerian averaging is the most important and widely-used method of averaging, because it is consistent with the control volume analysis that we used to develop the governing equations in the preceding section. It is also applicable to the most common techniques of experimental observations. Eulerian averaging is based on time-space description of physical phenomena. In the Eulerian description, changes in the various dependent variables, such as velocity, temperature, and pressure, are expressed as functions of time and space coordinates, which are considered to be independent variables. One can average these independent variables over both space and time. The integral operations associated with these averages smooth out the local spatial or instant variations of the properties within the domain of integration.

See Main Article Volume Averaging

Lagrangian Averaging

See Main Article Lagrangian Averaging

Boltzmann Statistical Averaging

See Main Article Boltzmann Statistical Averaging


Further Reading

External Links