Physical insight into the accuracy of finely-resolved iLES in turbulent boundary layers

Ritos Konstantinos; Kokkinakis Ioannis W.; Drikakis Dimitris

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Physical insight into the accuracy of finely-resolved iLES in turbulent boundary layers

机译：对湍流边界层精细分辨的ILE的精度的身体洞察

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This paper investigates the numerical accuracy of implicit Large Eddy Simulations (iLES) in relation to compressible turbulent boundary layers (TBL). iLES are conducted in conjunction with Monotonic Upstream-Centred Scheme for Conservation Laws (MUSCL) and Weighted Essentially Non-Oscillatory (WENO), ranging from 2nd to 9th-order. The accuracy effects are presented from a physical perspective showing skewness, flatness and anisotropy calculations, among others. The order of the scheme directly affects the physical representation of the TBL, especially the degree of asymmetry and anisotropy in the sub-layers of the TBL. The study concludes that high-order iLES can provide an accurate and detailed description of TBL directly comparable to available DNS and experimental results. (C) 2017 Elsevier Ltd. All rights reserved.

机译：本文研究了与可压缩湍流边界层相关的隐式大涡模拟（ILE）的数值准确性（TBL）。与单调上行上游居中方案一起进行，用于保护法律（Muscl）和基本上非振荡（Weno）的加权，从2nd到第9阶范围内。从物理角度出现了精度效应，显示出偏斜，平坦度和各向异性计算等。该方案的顺序直接影响TBL的物理表示，特别是TBL子层中的不对称性和各向异性的程度。该研究的结论是，高阶ILE可以提供直接可与可用DNS和实验结果相当的TBL的准确和详细描述。（c）2017 Elsevier Ltd.保留所有权利。

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来源
《Computers & Fluids》 |2018年第2018期|共8页
作者
Ritos Konstantinos; Kokkinakis Ioannis W.; Drikakis Dimitris;
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作者单位

Univ Strathclyde Glasgow G1 1XJ Lanark Scotland;

Univ Strathclyde Glasgow G1 1XJ Lanark Scotland;

Univ Strathclyde Glasgow G1 1XJ Lanark Scotland;

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原文格式 PDF
正文语种 eng
中图分类计算机的应用;
关键词
iLES; High-order; TBL; Supersonic;

机译：iles;高阶;tbl;超音速;

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专利

1. Physical insight into the accuracy of finely-resolved iLES in turbulent boundary layers [J] . Ritos Konstantinos, Kokkinakis Ioannis W., Drikakis Dimitris Computers & Fluids . 2018,第期

机译：对湍流边界层精细分辨的ILE的精度的身体洞察
2. Enhancing the accuracy of measurement techniques in high Reynolds number turbulent boundary layers for more representative comparison to their canonical representations [J] . Vinuesa Ricardo, Nagib Hassan M. European Journal of Mechanics, B. Fluids . 2016,第Pta2期

机译：提高高雷诺数湍流边界层中测量技术的准确性，以便与标准表示法进行更具代表性的比较
3. On the accuracy of the two-fluid formulation in direct numerical simulation of bubble-laden turbulent boundary layers [J] . Ferrante A, Elghobashi S Physics of fluids . 2007,第4期

机译：含气泡湍流边界层直接数值模拟中双流体公式的精度
4. An ILES Analysis of Transverse Jet Injection in to Supersonic Cross-flow with Synthetic Turbulent Boundary Layer [C] . Z.A. Rana, B. Thornber, D. Drikakis AIAA aerospace sciences meeting including the new horizons forum and aerospace exposition . 2011

机译：合成湍流边界层向超音速横流横向喷射注入的ILES分析
5. An extension of a turbulent incompressible boundary layer theory to compressible boundary layers. [D] . So, Ronald M. C. 1965

机译：湍流不可压缩边界层理论的扩展到可压缩边界层。
6. PNAS Plus: Transitional–turbulent spots and turbulent–turbulent spots in boundary layers [O] . Xiaohua Wu, Parviz Moin, James M. Wallace, 2017

机译：PNAS Plus：边界层中的过渡湍流点和湍流湍流点
7. Physical insight into the accuracy of finely-resolved iLES in turbulent boundary layers [O] . Ritos, Konstantinos, Kokkinakis, Ioannis W., Drikakis, Dimitris 2017

机译：深入了解湍流边界层中精细解析的iLES的准确性
8. ACCURACY OF PITOT-PRESSURE RAKES FOR TURBULENT BOUNDARY-LAYER MEASUREMENTS IN SUPERSONIC FLOW [R] . Earl R. Keener, Edward J. Hopkins 1971

机译：用于超音速流动中湍流边界层测量的pITOT压力准则的准确性

Physical insight into the accuracy of finely-resolved iLES in turbulent boundary layers

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