Open AccessThe roles of shear and cross-correlations on the fluctuation levels in simple stochastic models. Revision
Author(s) -
John A. Krommes
Publication year - 1999
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/751203
Subject(s) - microturbulence , turbulence , statistical physics , physics , scalar (mathematics) , stochastic modelling , stochastic process , limit (mathematics) , k epsilon turbulence model , simple (philosophy) , shear (geology) , mechanics , classical mechanics , mathematics , mathematical analysis , statistics , geology , philosophy , geometry , epistemology , petrology
Highly simplified models of random flows interacting with background microturbulence are analyzed. In the limit of very rapid velocity fluctuations, it is shown rigorously that the fluctuation level of a passively advected scalar is not controlled by the rms shear. In a model with random velocities dependent only on time, the level of cross-correlations between the flows and the background turbulence regulates the saturation level. This effect is illustrated by considering a simple stochastic-oscillator model, both exactly and with analysis and numerical solutions of the direct-interaction approximation. Implications for the understanding of self-consistent turbulence are discussed briefly
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