The correct representation of the probability density function of Eulerian turbulent velocity is a key problem in modelling pollutant dispersion using Lagrangian stochastic models. Analysis of measurements in various kinds of turbulent flows shows that the value of the fourth moment mu(4) of the distribution spans a wide range of values that are considerably larger than the Gaussian value even if the skewness is negligible. A review of different approaches used in building non-Gaussian pdfs clearly reveals that in most cases, the fourth moment is either not considered (i.e. a relationship between mu(3) and mu(4) is chosen in order to close the problem) or covers a small range of values. A new approach using a bi-Gaussian distribution is developed that is able to handle every value for mu(4) while satisfying the necessary continuity requirements in accord with Thomson's (1997) model, excluding the half line mu(3) = 0, mu(4) greater than or equal to 6 mu(2)(2). Results of a simulation for a test case in non-Gaussian inhomogeneous turbulence satisfactorily reproduces the well-mixed condition. (C) 1998 Elsevier Science Ltd. All rights reserved.

Velocity probability density functions in Lagrangian dispersion models for inhomogeneous turbulence

Maurizi A;Tampieri;
1999

Abstract

The correct representation of the probability density function of Eulerian turbulent velocity is a key problem in modelling pollutant dispersion using Lagrangian stochastic models. Analysis of measurements in various kinds of turbulent flows shows that the value of the fourth moment mu(4) of the distribution spans a wide range of values that are considerably larger than the Gaussian value even if the skewness is negligible. A review of different approaches used in building non-Gaussian pdfs clearly reveals that in most cases, the fourth moment is either not considered (i.e. a relationship between mu(3) and mu(4) is chosen in order to close the problem) or covers a small range of values. A new approach using a bi-Gaussian distribution is developed that is able to handle every value for mu(4) while satisfying the necessary continuity requirements in accord with Thomson's (1997) model, excluding the half line mu(3) = 0, mu(4) greater than or equal to 6 mu(2)(2). Results of a simulation for a test case in non-Gaussian inhomogeneous turbulence satisfactorily reproduces the well-mixed condition. (C) 1998 Elsevier Science Ltd. All rights reserved.
1999
air quality modelling
atmospheric dispersion
particle models
inhomogeneous turbulence
non-Gaussian distribution
CONVECTIVE BOUNDARY-LAYER
PLUME DISPERSION
SIMULATION
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/204651
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