稳定密度分层下非均匀湍流河道流的层叠化

IF 0.7 Q4 MECHANICS
O. Iida, Yoshito Nagase
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引用次数: 0

摘要

由于低雷诺数导致的黏度重新分层,上下壁面局部湍流区同时出现,壁面法向上的流动几乎是均匀的等,2014;摘要研究了由两个不同温度壁面围合的湍流通道中浮力对扰动的稳定作用。当施加一定的平均压力梯度时,通过增大垂直于重力方向的上下壁之间的温差,系统地增大与格拉什夫数(Gr)相关的浮力。结果表明,平均流速随着Gr的增大而增大,湍流结构变得间歇性和不均匀化;湍流区和准层流区同时出现在同一计算区域。对瞬时湍流结构的详细可视化表明,在通道的上下两侧,湍流区域交替出现,并观察到局部的单边湍流。最后,随着Gr的进一步增大,层状通道流动变成完全的单侧湍流,在通道的一侧变成湍流,而在另一侧变成层压化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Laminarization of inhomogeneous turbulent channel flow under stable density stratification
relaminarized by the viscosity due to the low-Reynolds number, the local turbulent regions in the upper and lower walls appear simultaneously, and a flow is almost homogeneous over the wall-normal direction et. al ., 2014; Abstract Effects of buoyancy force stabilizing the disturbances are investigated on a turbulent channel flow bounded by two walls of different temperatures. With a constant mean pressure gradient imposed, the buoyancy force related to the Grashof number (Gr) is systematically increased by increasing the temperature difference between upper and lower walls, which are perpendicular to the gravitational direction. As a result, the mean flow rate increases with an increase in the Gr, and turbulent structures become intermittent and inhomogeneous; turbulent and quasi-laminar regions simultaneously appear in the same computational region. Detailed visualization for instantaneous turbulent structure shows that in the upper and lower sides of a channel, the turbulent regions appear alternatively, and local one-sided turbulence is observed. Finally, with a further increase in the Gr, the stratified channel flow becomes complete one-sided turbulence where a flow becomes turbulent on one side of a channel, while it becomes laminarized on the other side.
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来源期刊
CiteScore
1.00
自引率
12.50%
发文量
2
期刊介绍: Journal of Fluid Science and Technology (JFST) is an international journal published by the Fluids Engineering Division in the Japan Society of Mechanical Engineers (JSME). JSME had been publishing Bulletin of the JSME (1958-1986) and JSME International Journal (1987-2006) by the continuous volume numbers. Considering the recent circumstances of the academic journals in the field of mechanical engineering, JSME reorganized the journal editorial system. Namely, JSME discontinued former International Journals and projected new publications from the divisions belonging to JSME. The Fluids Engineering Division acted quickly among all divisions and launched the premiere issue of JFST in January 2006. JFST aims at contributing to the development of fluid engineering by publishing superior papers of the scientific and technological studies in this field. The editorial committee will make all efforts for promoting strictly fair and speedy review for submitted articles. All JFST papers will be available for free at the website of J-STAGE (http://www.i-product.biz/jsme/eng/), which is hosted by Japan Science and Technology Agency (JST). Thus papers can be accessed worldwide by lead scientists and engineers. In addition, authors can express their results variedly by high-quality color drawings and pictures. JFST invites the submission of original papers on wide variety of fields related to fluid mechanics and fluid engineering. The topics to be treated should be corresponding to the following keywords of the Fluids Engineering Division of the JSME. Basic keywords include: turbulent flow; multiphase flow; non-Newtonian fluids; functional fluids; quantum and molecular dynamics; wave; acoustics; vibration; free surface flows; cavitation; fluid machinery; computational fluid dynamics (CFD); experimental fluid dynamics (EFD); Bio-fluid.
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