均质铁流体湍流中的静态和非静态能量级联

IF 2.5 3区 物理与天体物理 Q2 PHYSICS, FLUIDS & PLASMAS
Sukhdev Mouraya, Nandita Pan, Supratik Banerjee
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引用次数: 0

摘要

在统计均匀性假设下,研究了不可压缩湍流铁流体系统的非线性总能量传递率(动能传递率+磁化做功导致的传递率)。利用两点相关器的形式主义,得出了总能量尺度间转移的二阶统计矩与平均能量注入率之间的精确关系。我们通过对静态和非静态级联状态的直接数值模拟,验证了精确关系的普遍性。对于弱外部磁场,动能和总能以几乎相同的级联速率级联。由于实现了静态级联机制,精确的能量传输速率与平均能量注入之间达成了良好的一致。由于铁流体粒子在强外场作用下快速排列,湍流动力学变得非稳态。有趣的是,在这种情况下,动能和总能也表现出惯性范围级联,但级联速率不同,这可以用我们推导出的精确关系的非稳态形式来解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Stationary and nonstationary energy cascades in homogeneous ferrofluid turbulence

Stationary and nonstationary energy cascades in homogeneous ferrofluid turbulence
The nonlinear transfer rate of the total energy (transfer rate of kinetic energy + transfer rate due to the work done by the magnetization) for an incompressible turbulent ferrofluid system is studied under the assumption of statistical homogeneity. Using the formalism of the two-point correlators, an exact relation connecting the second-order statistical moments to the average energy injection rate is derived for the scale-to-scale transfer of the total energy. We validate the universality of the exact relation through direct numerical simulations for stationary and nonstationary cascade regimes. For a weak external magnetic field, both kinetic and the total energy cascade with nearly the same cascade rate. A stationary cascade regime is achieved, and hence a good agreement between the exact energy transfer rate and the average energy injection is found. Due to the rapid alignment of the ferrofluid particles in the presence of strong external fields, the turbulence dynamics becomes nonstationary. Interestingly, there too, both kinetic and the total energy exhibit inertial range cascades but with different cascade rates which can be explained using the nonstationary form of our derived exact relation.
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来源期刊
Physical Review Fluids
Physical Review Fluids Chemical Engineering-Fluid Flow and Transfer Processes
CiteScore
5.10
自引率
11.10%
发文量
488
期刊介绍: Physical Review Fluids is APS’s newest online-only journal dedicated to publishing innovative research that will significantly advance the fundamental understanding of fluid dynamics. Physical Review Fluids expands the scope of the APS journals to include additional areas of fluid dynamics research, complements the existing Physical Review collection, and maintains the same quality and reputation that authors and subscribers expect from APS. The journal is published with the endorsement of the APS Division of Fluid Dynamics.
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