充满气泡和浮力粒子的湍流

IF 14.3 1区 物理与天体物理 Q1 PHYSICS, CONDENSED MATTER Annual Review of Condensed Matter Physics Pub Date : 2020-03-10 DOI:10.1146/annurev-conmatphys-031119-050637
V. Mathai, D. Lohse, Chao Sun
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引用次数: 92

摘要

与层流相比,流体湍流通常与更强的阻力、更大的传热和更有效的混合有关。在许多自然和工业环境中,湍流的液体流动包含分散的气泡和轻颗粒的悬浮液。近年来,通过实验和高分辨率直接数值模拟来理解这种流动的行为和潜在的物理特性得到了很多关注。这篇综述总结了我们目前对气泡和浮力粒子负载湍流的各种现象学方面的理解。我们首先讨论不同的动力学机制,包括交叉轨迹和尾迹诱导的上升粒子振荡,以及气泡和粒子优先积聚在壁面附近或垂直结构内的机制。然后,我们讨论了某些典型的湍流,如均匀各向同性湍流、通道流、泰勒-库埃特湍流和热驱动湍流,是如何被这些分散的气泡和浮力粒子的存在所改变的。最后,我们列出了总结要点和未来的研究问题。
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Bubbly and Buoyant Particle–Laden Turbulent Flows
Fluid turbulence is commonly associated with stronger drag, greater heat transfer, and more efficient mixing than in laminar flows. In many natural and industrial settings, turbulent liquid flows contain suspensions of dispersed bubbles and light particles. Recently, much attention has been devoted to understanding the behavior and underlying physics of such flows by use of both experiments and high-resolution direct numerical simulations. This review summarizes our present understanding of various phenomenological aspects of bubbly and buoyant particle–laden turbulent flows. We begin by discussing different dynamical regimes, including those of crossing trajectories and wake-induced oscillations of rising particles, and regimes in which bubbles and particles preferentially accumulate near walls or within vortical structures. We then address how certain paradigmatic turbulent flows, such as homogeneous isotropic turbulence, channel flow, Taylor–Couette turbulence, and thermally driven turbulence, are modified by the presence of these dispersed bubbles and buoyant particles. We end with a list of summary points and future research questions.
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来源期刊
Annual Review of Condensed Matter Physics
Annual Review of Condensed Matter Physics PHYSICS, CONDENSED MATTER-
CiteScore
47.40
自引率
0.90%
发文量
27
期刊介绍: Since its inception in 2010, the Annual Review of Condensed Matter Physics has been chronicling significant advancements in the field and its related subjects. By highlighting recent developments and offering critical evaluations, the journal actively contributes to the ongoing discourse in condensed matter physics. The latest volume of the journal has transitioned from gated access to open access, facilitated by Annual Reviews' Subscribe to Open initiative. Under this program, all articles are now published under a CC BY license, ensuring broader accessibility and dissemination of knowledge.
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