Systematic roughness variation to model the influence of skewness on wall bounded flows

IF 1.1 Q4 ENGINEERING, MECHANICAL
Sebastian Kurth, Cengiz Kenan, Moeller Daniel, Wein Lars, J. Seume
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引用次数: 0

Abstract

In recent years, the research on roughness has focused on various roughness features, rather than the roughness height only, in order to improve the understanding of roughness effects on wall bounded flows. A special focus is placed on the skewness of the roughness height profile. The skewness measures whether the height profile is dominated by negative or positive roughness elements. Surfaces with both features can be found on worn blades: On the leading edge, roughness is caused by the impact of particles resulting in a negative skewness. Rough surfaces around the trailing edge, however, develop due to depositions leading to a positive skewness. In this paper, rough surfaces taken from a compressor blade of an aero engine are systematically varied to investigate the isolated effect of skewness on aerodynamic losses. By direct numerical simulations of a periodic flow channel. The results show that the skewness has a major influence on loss generation. Based on these results, an existing model which essentially uses the shape-and-density parameter, is extended by a skewness factor. The modified correlation predicts the influence of the rough surfaces investigated well.
系统的粗糙度变化来模拟偏度对壁面有界流动的影响
近年来,对粗糙度的研究集中在各种粗糙度特征上,而不仅仅是粗糙度高度,以提高对粗糙度对壁面有界流影响的理解。特别关注粗糙度高度轮廓的倾斜度。偏斜度测量高度轮廓是由负粗糙度元素还是正粗糙度元素主导。在磨损的叶片上可以找到具有这两种特征的表面:在前缘,粗糙度是由颗粒的影响引起的,从而导致负偏斜。然而,后缘周围的粗糙表面由于沉积物而形成,从而导致正偏斜度。本文系统地改变了航空发动机压气机叶片的粗糙表面,以研究偏斜度对气动损失的孤立影响。通过对周期性流道的直接数值模拟。结果表明,偏度对损失的产生有重要影响。基于这些结果,通过偏斜度因子对基本上使用形状和密度参数的现有模型进行了扩展。修正后的相关性很好地预测了所研究的粗糙表面的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of the Global Power and Propulsion Society
Journal of the Global Power and Propulsion Society Engineering-Industrial and Manufacturing Engineering
CiteScore
2.10
自引率
0.00%
发文量
21
审稿时长
8 weeks
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