Numerical investigation of wall cooling and suction effects on supersonic flat-plate boundary layer transition using large eddy simulation

Suozhu Wang*, Juanmian Lei, Huaping Zhen, Chunhian Lee

*此作品的通讯作者

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9 引用 (Scopus)

摘要

Reducing friction resistance and aerodynamic heating has important engineering significance to improve the performances of super/hypersonic aircraft, so the purpose of transition control and turbulent drag reduction becomes one of the cutting edges in turbulence research. In order to investigate the influences of wall cooling and suction on the transition process and fully developed turbulence, the large eddy simulation of spatially evolving supersonic boundary layer transition over a flat-plate with freestream Mach number 4.5 at different wall temperature and suction intensity is performed in the present work. It is found that the wall cooling and suction are capable of changing the mean velocity profile within the boundary layer and improving the stability of the flow field, thus delaying the onset of the spatial transition process. The transition control will become more effective as the wall temperature decreases, while there is an optimal wall suction intensity under the given conditions. Moreover, the development of large-scale coherent structures can be suppressed effectively via wall cooling, but wall suction has no influence.

源语言英语
文章编号493194
期刊Advances in Mechanical Engineering
7
2
DOI
出版状态已出版 - 2015

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