Measurements on the effect of steps on the transition of laminar boundary layers

IF 2.3 3区工程技术 Q2 ENGINEERING, MECHANICAL

Experiments in Fluids Pub Date : 2023-03-27 DOI:10.1007/s00348-023-03614-x

Alexander Heintz, Peter Scholz

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引用次数: 1

Abstract

The effects of steps on the transition of laminar boundary layers were measured on a flat plate for low Reynolds numbers with critical and subcritical step heights. The transition position was measured by determining the intermittency distribution in streamwise direction, including the characteristic length of the transitional region. The results are compared with formulations of a critical step Reynolds number \({\textrm{Re}_\textrm{h}}\), i.e., the step height that will instantly trigger transition at the step position, and—for subcritical step heights—with \({{\Delta N}}\)-formulations from the literature. For backward-facing steps, the concept of a step Reynolds number can be used to distinguish between subcritical and critical step heights, whereas for forward-facing steps there seems not to be one unique \({\textrm{Re}_\textrm{h}}\). Furthermore, for subcritical backward-facing steps the concept of a \({{\Delta N}}\)-approximation gives a reasonable description of the experimental observations. Again in contrast, for forward-facing steps a \({{\Delta N}}\)-approach scattered a lot and no clear dependency was found between the reduction in the critical N-factor of transition and the relative step height.

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台阶对层流边界层过渡影响的测量

在低雷诺数、临界和亚临界台阶高度的平板上，测量了台阶对层流边界层过渡的影响。通过确定沿流方向的间歇分布，包括过渡区域的特征长度，来测量过渡位置。将结果与临界阶跃雷诺数\({\textrm{Re}_\textrm{h}}\)的公式进行比较，即在阶跃位置立即触发过渡的阶跃高度，并与文献中的\({{\Delta N}}\)公式进行比较。对于向后的台阶，台阶雷诺数的概念可以用来区分亚临界和临界台阶高度，而对于向前的台阶，似乎没有一个独特的\({\textrm{Re}_\textrm{h}}\)。此外，对于亚临界后向步骤，\({{\Delta N}}\) -近似的概念给出了实验观测的合理描述。相比之下，对于面向前方的步骤，\({{\Delta N}}\) -方法分散了很多，并且在过渡的关键n因子的减少与相对步骤高度之间没有发现明确的依赖关系。

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来源期刊

Experiments in Fluids 工程技术-工程：机械

CiteScore

5.10

自引率

12.50%

发文量

157

审稿时长

3.8 months

期刊介绍： Experiments in Fluids examines the advancement, extension, and improvement of new techniques of flow measurement. The journal also publishes contributions that employ existing experimental techniques to gain an understanding of the underlying flow physics in the areas of turbulence, aerodynamics, hydrodynamics, convective heat transfer, combustion, turbomachinery, multi-phase flows, and chemical, biological and geological flows. In addition, readers will find papers that report on investigations combining experimental and analytical/numerical approaches.