Steep Cliffs and Saturated Exponents in Three-Dimensional Scalar Turbulence

The intermittency of a passive scalar advected by three-dimensional Navier-Stokes turbulence at a Taylor-scale Reynolds number of 650 is studied using direct numerical simulations on a 4096^{3} grid; the Schmidt number is unity. By measuring scalar increment moments of high orders, while ensuring st...

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Veröffentlicht in:	Physical review letters 2018-12, Vol.121 (26), p.264501-264501, Article 264501
Hauptverfasser:	Iyer, Kartik P, Schumacher, Jörg, Sreenivasan, Katepalli R, Yeung, P K
Format:	Artikel
Sprache:	eng
Schlagworte:	Cliffs Computational fluid dynamics Computer simulation Exponents Fluid flow Fractals Intermittency Mathematical models Reynolds number Schmidt number Turbulence
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creator	Iyer, Kartik P Schumacher, Jörg Sreenivasan, Katepalli R Yeung, P K
description	The intermittency of a passive scalar advected by three-dimensional Navier-Stokes turbulence at a Taylor-scale Reynolds number of 650 is studied using direct numerical simulations on a 4096^{3} grid; the Schmidt number is unity. By measuring scalar increment moments of high orders, while ensuring statistical convergence, we provide unambiguous evidence that the scaling exponents saturate to 1.2 for moment orders beyond about 12, indicating that scalar intermittency is dominated by the most singular shocklike cliffs in the scalar field. We show that the fractal dimension of the spatial support of steep cliffs is about 1.8, whose sum with the saturation exponent value of 1.2 adds up to the space dimension of 3, thus demonstrating a deep connection between the geometry and statistics in turbulent scalar mixing. The anomaly for the fourth and sixth order moments is comparable to that in the Kraichnan model for the roughness exponent of 4/3.
doi_str_mv	10.1103/PhysRevLett.121.264501
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subjects	Cliffs Computational fluid dynamics Computer simulation Exponents Fluid flow Fractals Intermittency Mathematical models Reynolds number Schmidt number Turbulence
title	Steep Cliffs and Saturated Exponents in Three-Dimensional Scalar Turbulence
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