GENERALIZATION OF K THEORY FOR TURBULENT DIFFUSION - 1. SPECTRAL TURBULENT DIFFUSIVITY CONCEPT.

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Abstract

The gradient transfer theory for turbulent diffusion is reformulated in order to obtain an improved method for applied dispersion studies. The basic innovation is that diffusivity of single Fourier components of the concentration field is treated separately, i. e. , spectral turbulent diffusivity coefficients are introduced. The value of the diffusivity decreases with increasing wave vector k of the concentration spectrum. The rate of growth of an expanding cloud of material thus becomes dependent on the stage of growth. A new function, the turbulent diffusivity transfer function, is introduced. The turbulent diffusive flux depends on concentration gradients at all points in the space. The diffusion equation is written in terms of the turbulent diffusivity transfer function. The width of the turbulent diffusivity transfer function is shown to determine the validity of the traditional gradient transfer theory formulation. In general, it is shown that the shape of the cloud is non-Gaussian and the width, computed in terms of spectral turbulent diffusivity coefficients, is smaller than in a Gaussian distribution. This deviation decreases with increasing size of the cloud. The present theory reveals properties in agreement with experiments and Lagrangian statistical dispersion theory and has the advantage of being an Eulerian method which can be used for air pollution dispersion models treating multiple, interacting sources.

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Berkowicz, R., & Prahm, L. P. (1979). GENERALIZATION OF K THEORY FOR TURBULENT DIFFUSION - 1. SPECTRAL TURBULENT DIFFUSIVITY CONCEPT. J Appl Meteorol, 18(3), 266–272. https://doi.org/10.1175/1520-0450(1979)018<0266:GOTFTD>2.0.CO;2

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