A length scale for non-local multi-scale gradient interactions in isotropic turbulence

Three-dimensional turbulent flows enhance velocity gradients via strong nonlinear interactions of the rate-of-strain tensor with the vorticity vector, and with itself. For statistically homogeneous flows, their total contributions to gradient production are related to each other by conservation of m...

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Published in	Journal of fluid mechanics Vol. 971
Main Author	Encinar, Miguel P.
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 22.09.2023
Subjects	Conservation of mass Decomposition Dissipation Enstrophy Extreme values Isotropic turbulence JFM Papers Kinematics Lagrange multiplier Reynolds number Simulation Tensors Three dimensional flow Turbulence Velocity Velocity gradient Velocity gradients Vorticity turbulence modelling turbulence theory isotropic turbulence
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ISSN	0022-1120 1469-7645
DOI	10.1017/jfm.2023.706

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Abstract	Three-dimensional turbulent flows enhance velocity gradients via strong nonlinear interactions of the rate-of-strain tensor with the vorticity vector, and with itself. For statistically homogeneous flows, their total contributions to gradient production are related to each other by conservation of mass, and so are the total enstrophy and total dissipation. However, locally, they do not obey this relation and have different (often extreme) values, and for this reason both production mechanisms have been subject to numerous studies, often decomposed into multi-scale interactions. In general lines, their dynamics and contributions to the cascade processes and turbulent kinetic dissipation are different, which poses a difficulty for turbulence modelling. In this paper, we explore the consequence of the ‘Betchov’ relations locally, and show that they implicitly define a length scale. This length scale is found to be approximately three times the size of the turbulent structures and their interactions. It is also found that, while the non-locality of the dissipation and enstrophy at a given scale comes mostly from larger scales that do not cancel, the non-local production of strain and vorticity comes from multi-scale interactions. An important consequence of this work is that isotropic cascade models need not distinguish between vortex stretching and strain self-amplification, but can instead consider both entities as part of a more complex transfer mechanism, provided that their detailed point value is not required and a local average of reasonable size is sufficient.
AbstractList	Three-dimensional turbulent flows enhance velocity gradients via strong nonlinear interactions of the rate-of-strain tensor with the vorticity vector, and with itself. For statistically homogeneous flows, their total contributions to gradient production are related to each other by conservation of mass, and so are the total enstrophy and total dissipation. However, locally, they do not obey this relation and have different (often extreme) values, and for this reason both production mechanisms have been subject to numerous studies, often decomposed into multi-scale interactions. In general lines, their dynamics and contributions to the cascade processes and turbulent kinetic dissipation are different, which poses a difficulty for turbulence modelling. In this paper, we explore the consequence of the ‘Betchov’ relations locally, and show that they implicitly define a length scale. This length scale is found to be approximately three times the size of the turbulent structures and their interactions. It is also found that, while the non-locality of the dissipation and enstrophy at a given scale comes mostly from larger scales that do not cancel, the non-local production of strain and vorticity comes from multi-scale interactions. An important consequence of this work is that isotropic cascade models need not distinguish between vortex stretching and strain self-amplification, but can instead consider both entities as part of a more complex transfer mechanism, provided that their detailed point value is not required and a local average of reasonable size is sufficient.
ArticleNumber	A40
Author	Encinar, Miguel P.
Author_xml	– sequence: 1 givenname: Miguel P. orcidid: 0000-0002-3007-5981 surname: Encinar fullname: Encinar, Miguel P. email: miguel.pencinar@jhu.edu organization: Department of Mechanical Engineering, Johns Hopkins University, Baltimore, MD 21218, USA
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Cites_doi	10.1017/jfm.2022.1072 10.1016/j.physd.2005.05.018 10.1017/S0022112056000317 10.1103/PhysRevE.68.026309 10.1146/annurev-fluid-122109-160708 10.1103/PhysRevResearch.3.L042020 10.1080/14685240500256099 10.1017/jfm.2012.373 10.1016/S0065-2156(08)70100-5 10.1017/jfm.2014.367 10.1017/jfm.2022.680 10.1103/PhysRevFluids.3.044604 10.1063/1.3291070 10.1103/PhysRevLett.128.094501 10.1017/jfm.2016.504 10.1103/PhysRevE.50.5107 10.1017/S0022112093002393 10.1126/science.aan7933 10.1017/jfm.2019.923 10.1063/1.868638 10.1103/PhysRevLett.124.104501 10.1017/jfm.2018.857 10.1007/0-306-48384-X 10.1103/PhysRevE.77.026303 10.1063/1.868213 10.1063/1.857730 10.1017/jfm.2017.538
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Copyright	The Author(s), 2023. Published by Cambridge University Press. The Author(s), 2023. Published by Cambridge University Press. This work is licensed under the Creative Commons Attribution License This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited. (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
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SubjectTerms	Conservation of mass Decomposition Dissipation Enstrophy Extreme values Isotropic turbulence JFM Papers Kinematics Lagrange multiplier Reynolds number Simulation Tensors Three dimensional flow Turbulence Velocity Velocity gradient Velocity gradients Vorticity
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Title	A length scale for non-local multi-scale gradient interactions in isotropic turbulence
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