低レイノルズ数におけるd形粗面乱流境界層の組織構造 : 4象限分割法による解析

元データ 1987-01-25

概要

Quadrant analysis has been used to investigate the events contributing to Reynolds shear stress in the turbulent boundary layer over a d-type rough surface at a low-Reynolds number. By partitioning the stress into ejections, sweeps, and inwards and outward interactions, it was shown that the second quadrant, namely the ejection phase was the dominant event contributing to the stress through most of the boundary layer. Compared with the turbulent boundary layer over both a k-type rough surface and a smooth wall, the ratio of the fractional contributions of the second quadrant phase to the stress to that of the fourth quadrant one, and the ratio of the mean periods of those occurrences evaluated for a present wall flow were found to differ significantly. There existed a little correspondence between VITA events and the second and fourth quadrant type of events detected with the uv quadrant method.

著者

大坂 英雄 山口大学工学部
望月 信介 山口大学工学部
西 茂夫 広島工大 工
西 茂夫 広島工業大学 工学部

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