Turbulence: Does Energy Cascade Exist?

Christophe Josserand; Martine Le Berre; Thierry Lehner; Yves Pomeau

doi:10.1007/s10955-016-1642-5

Turbulence: Does Energy Cascade Exist?

Christophe Josserand, Martine Le Berre, Thierry Lehner, Yves Pomeau

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

Abstract

To answer the question whether a cascade of energy exists or not in turbulence, we propose a set of correlation functions able to test if there is an irreversible transfert of energy, step by step, from large to small structures. These tests are applied to real Eulerian data of a turbulent velocity flow, taken in the wind grid tunnel of Modane, and also to a prototype model equation for wave turbulence. First we demonstrate the irreversible character of the flow by using multi-time correlation function at a given point of space. Moreover the unexpected behavior of the test function leads us to connect irreversibility and finite time singularities (intermittency). Secondly we show that turbulent cascade exists, and is a dynamical process, by using a test function depending on time and frequency. The cascade shows up only in the inertial domain where the kinetic energy is transferred more rapidly (on average) from the wavenumber k₁ to k₂ than from k₁ to k2′ larger than k₂.

Original language	English
Pages (from-to)	596-625
Number of pages	30
Journal	Journal of Statistical Physics
Volume	167
Issue number	3-4
DOIs	https://doi.org/10.1007/s10955-016-1642-5
Publication status	Published - 1 May 2017
Externally published	Yes

Keywords

Irreversibility
Out of equilibrium
Turbulence

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10.1007/s10955-016-1642-5

Cite this

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title = "Turbulence: Does Energy Cascade Exist?",

abstract = "To answer the question whether a cascade of energy exists or not in turbulence, we propose a set of correlation functions able to test if there is an irreversible transfert of energy, step by step, from large to small structures. These tests are applied to real Eulerian data of a turbulent velocity flow, taken in the wind grid tunnel of Modane, and also to a prototype model equation for wave turbulence. First we demonstrate the irreversible character of the flow by using multi-time correlation function at a given point of space. Moreover the unexpected behavior of the test function leads us to connect irreversibility and finite time singularities (intermittency). Secondly we show that turbulent cascade exists, and is a dynamical process, by using a test function depending on time and frequency. The cascade shows up only in the inertial domain where the kinetic energy is transferred more rapidly (on average) from the wavenumber k1 to k2 than from k1 to k2′ larger than k2.",

keywords = "Irreversibility, Out of equilibrium, Turbulence",

author = "Christophe Josserand and \{Le Berre\}, Martine and Thierry Lehner and Yves Pomeau",

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doi = "10.1007/s10955-016-1642-5",

language = "English",

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T2 - Does Energy Cascade Exist?

AU - Josserand, Christophe

AU - Le Berre, Martine

AU - Lehner, Thierry

AU - Pomeau, Yves

PY - 2017/5/1

Y1 - 2017/5/1

N2 - To answer the question whether a cascade of energy exists or not in turbulence, we propose a set of correlation functions able to test if there is an irreversible transfert of energy, step by step, from large to small structures. These tests are applied to real Eulerian data of a turbulent velocity flow, taken in the wind grid tunnel of Modane, and also to a prototype model equation for wave turbulence. First we demonstrate the irreversible character of the flow by using multi-time correlation function at a given point of space. Moreover the unexpected behavior of the test function leads us to connect irreversibility and finite time singularities (intermittency). Secondly we show that turbulent cascade exists, and is a dynamical process, by using a test function depending on time and frequency. The cascade shows up only in the inertial domain where the kinetic energy is transferred more rapidly (on average) from the wavenumber k1 to k2 than from k1 to k2′ larger than k2.

AB - To answer the question whether a cascade of energy exists or not in turbulence, we propose a set of correlation functions able to test if there is an irreversible transfert of energy, step by step, from large to small structures. These tests are applied to real Eulerian data of a turbulent velocity flow, taken in the wind grid tunnel of Modane, and also to a prototype model equation for wave turbulence. First we demonstrate the irreversible character of the flow by using multi-time correlation function at a given point of space. Moreover the unexpected behavior of the test function leads us to connect irreversibility and finite time singularities (intermittency). Secondly we show that turbulent cascade exists, and is a dynamical process, by using a test function depending on time and frequency. The cascade shows up only in the inertial domain where the kinetic energy is transferred more rapidly (on average) from the wavenumber k1 to k2 than from k1 to k2′ larger than k2.

KW - Irreversibility

KW - Out of equilibrium

KW - Turbulence

U2 - 10.1007/s10955-016-1642-5

DO - 10.1007/s10955-016-1642-5

M3 - Article

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SP - 596

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JO - Journal of Statistical Physics

JF - Journal of Statistical Physics

IS - 3-4

ER -

Turbulence: Does Energy Cascade Exist?

Abstract

Keywords

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