Kubo combinatorics for turbulence scaling laws

J. Petrillo; J. Glimm

doi:10.1016/j.physd.2022.133495

Kubo combinatorics for turbulence scaling laws

J. Petrillo
, J. Glimm

Applied Mathematics and Statistics

Goldman Sachs Group

Research output: Contribution to journal › Article › peer-review

Abstract

We present an extension to Kolmogorov–Obukhov refined similarity hypotheses for universal fully-developed turbulence. The extension is applied within Z. She and E. Leveque's multifractal model of inertial range scaling and its generalizations. Our development has relevance to universal fully developed turbulence, a state we describe explicitly under the additional assumptions of the Kolmogorov–Obukhov similarity hypotheses in terms of the coupling between velocity fluctuations and averaged energy dissipation at all orders. This description is unique and leads to a reparametrization of the She–Leveque model that preserves its original forecasts and is infinitely divisible.

Original language	English
Article number	133495
Journal	Physica D: Nonlinear Phenomena
Volume	441
DOIs	https://doi.org/10.1016/j.physd.2022.133495
State	Published - Dec 2022

Keywords

Fluid dynamics
Scaling laws
Turbulence

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10.1016/j.physd.2022.133495

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abstract = "We present an extension to Kolmogorov–Obukhov refined similarity hypotheses for universal fully-developed turbulence. The extension is applied within Z. She and E. Leveque's multifractal model of inertial range scaling and its generalizations. Our development has relevance to universal fully developed turbulence, a state we describe explicitly under the additional assumptions of the Kolmogorov–Obukhov similarity hypotheses in terms of the coupling between velocity fluctuations and averaged energy dissipation at all orders. This description is unique and leads to a reparametrization of the She–Leveque model that preserves its original forecasts and is infinitely divisible.",

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AU - Glimm, J.

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N2 - We present an extension to Kolmogorov–Obukhov refined similarity hypotheses for universal fully-developed turbulence. The extension is applied within Z. She and E. Leveque's multifractal model of inertial range scaling and its generalizations. Our development has relevance to universal fully developed turbulence, a state we describe explicitly under the additional assumptions of the Kolmogorov–Obukhov similarity hypotheses in terms of the coupling between velocity fluctuations and averaged energy dissipation at all orders. This description is unique and leads to a reparametrization of the She–Leveque model that preserves its original forecasts and is infinitely divisible.

AB - We present an extension to Kolmogorov–Obukhov refined similarity hypotheses for universal fully-developed turbulence. The extension is applied within Z. She and E. Leveque's multifractal model of inertial range scaling and its generalizations. Our development has relevance to universal fully developed turbulence, a state we describe explicitly under the additional assumptions of the Kolmogorov–Obukhov similarity hypotheses in terms of the coupling between velocity fluctuations and averaged energy dissipation at all orders. This description is unique and leads to a reparametrization of the She–Leveque model that preserves its original forecasts and is infinitely divisible.

KW - Fluid dynamics

KW - Scaling laws

KW - Turbulence

UR - https://www.scopus.com/pages/publications/85138787388

U2 - 10.1016/j.physd.2022.133495

DO - 10.1016/j.physd.2022.133495

M3 - Article

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SN - 0167-2789

VL - 441

JO - Physica D: Nonlinear Phenomena

JF - Physica D: Nonlinear Phenomena

M1 - 133495

ER -

Kubo combinatorics for turbulence scaling laws

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Keywords

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