均质和各向同性湍流中环流统计的轮廓形状依赖性

IF 4.1 2区 工程技术 Q1 MECHANICS Physics of Fluids Pub Date : 2024-08-09 DOI:10.1063/5.0220615
Kartik P. Iyer, L. Moriconi
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引用次数: 0

摘要

湍流环流的统计矩是封闭方向轮廓线的复杂几何依赖函数,对理论理解提出了严峻的挑战。然而,根据经验,方便定义的环流力矩比只有在力矩阶数较低和轮廓尺寸接近惯性范围底部的情况下才具有明显的几何依赖性,即它们跨越等效面积的最小表面。我们借鉴了环流统计涡旋气体模型框架中的观点(该模型综合了湍流速度场的结构和多分形方面),能够以合理的精度再现观察到的环流矩比轮廓形状依赖性,直至高阶统计量。我们讨论中的一个关键现象点是假设能量耗散场与薄涡管的局部密度密切相关,在有限雷诺数时,能量耗散场从上而下急剧受限。
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Contour shape dependency of circulation statistics in homogeneous and isotropic turbulence
Statistical moments of the turbulent circulation are complex geometry-dependent functionals of closed oriented contours and present a hard challenge for theoretical understanding. Conveniently defined circulation moment ratios, however, are empirically known to have appreciable geometric dependency only at lower moment orders and for contours that are sized near the bottom of the inertial range, in the situation where they span minimal surfaces of equivalent areas. Resorting to ideas addressed in the framework of the vortex gas model of circulation statistics, which integrates structural and multifractal aspects of the turbulent velocity field, we are able to reproduce, with reasonable accuracy, the observed contour shape dependency of circulation moment ratios, up to high order statistics. A key phenomenological point in our discussion is the assumption that the energy dissipation field, closely related to the local density of thin vortex tubes, is sharply bounded from above at finite Reynolds numbers.
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来源期刊
Physics of Fluids
Physics of Fluids 物理-力学
CiteScore
6.50
自引率
41.30%
发文量
2063
审稿时长
2.6 months
期刊介绍: Physics of Fluids (PoF) is a preeminent journal devoted to publishing original theoretical, computational, and experimental contributions to the understanding of the dynamics of gases, liquids, and complex or multiphase fluids. Topics published in PoF are diverse and reflect the most important subjects in fluid dynamics, including, but not limited to: -Acoustics -Aerospace and aeronautical flow -Astrophysical flow -Biofluid mechanics -Cavitation and cavitating flows -Combustion flows -Complex fluids -Compressible flow -Computational fluid dynamics -Contact lines -Continuum mechanics -Convection -Cryogenic flow -Droplets -Electrical and magnetic effects in fluid flow -Foam, bubble, and film mechanics -Flow control -Flow instability and transition -Flow orientation and anisotropy -Flows with other transport phenomena -Flows with complex boundary conditions -Flow visualization -Fluid mechanics -Fluid physical properties -Fluid–structure interactions -Free surface flows -Geophysical flow -Interfacial flow -Knudsen flow -Laminar flow -Liquid crystals -Mathematics of fluids -Micro- and nanofluid mechanics -Mixing -Molecular theory -Nanofluidics -Particulate, multiphase, and granular flow -Processing flows -Relativistic fluid mechanics -Rotating flows -Shock wave phenomena -Soft matter -Stratified flows -Supercritical fluids -Superfluidity -Thermodynamics of flow systems -Transonic flow -Turbulent flow -Viscous and non-Newtonian flow -Viscoelasticity -Vortex dynamics -Waves
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