On the drag reduction mechanism in a lubricated turbulent channel flow

Stian Solbakken; Helge I. Andersson

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On the drag reduction mechanism in a lubricated turbulent channel flow

机译：关于润滑湍流通道中的减阻机理

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Turbulent flow in a lubricated plane channel has been considered. Direct numerical simulations showed that a substantial drag reduction can be achieved when thin films are lubricating the channel walls. The wall-normal velocity is suppressed inside the lubricating film, whereas planar fluid motions prevail. The bulk fluid is no longer exposed to no-slip at the solid surfaces, but the turbulence statistics and the coherent near-wall structures nevertheless closely resemble those observed in a dry channel. It is concluded that the interface between the bulk-fluid and the more viscous lubricating layer acts as an insulator which hinders the intense downwash of high-speed fluid, caused by the coherent vortices, to hit the solid surface.

机译：已经考虑了在润滑平面通道中的湍流。直接数值模拟表明，当薄膜润滑通道壁时，可以实现明显的减阻。润滑膜内部的壁法向速度受到抑制，而平面流体运动占优势。散装流体不再在固体表面暴露于防滑，但是湍流统计数据和连贯的近壁结构仍然非常类似于在干燥通道中观察到的那些。结论是，大体积流体和较粘的润滑层之间的界面充当绝缘体，该绝缘体阻碍了由相干涡旋引起的高速流体强烈向下冲洗，从而撞击固体表面。

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来源
《International Journal of Heat and Fluid Flow》 |2004年第4期|p.618-624|共7页
作者
Stian Solbakken; Helge I. Andersson;
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作者单位

Department of Energy and Process Engineering, Norwegian University of Science and Technology, K. Hejes vei 2, N-7491 Trondheim, Norway;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类流体力学;
关键词
drag reduction; channel flow; turbulence; direct numerical simulation; lubrication;

机译：减阻;流道;湍流;直接数值模拟;润滑;
入库时间 2022-08-18 03:00:26

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On the drag reduction mechanism in a lubricated turbulent channel flow

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