Investigation of Unswept Normal Shock Wave/ Turbulent-Boundary-Layer Interaction Control

Jonathan S. Couldrick; Sudhir L. Gai; John F. Milthorpe; Krishna Shankar

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Investigation of Unswept Normal Shock Wave/ Turbulent-Boundary-Layer Interaction Control

机译：未冲刷法向冲击波/湍流边界层相互作用控制的研究

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An analytical model for the unswept normal shock wave/turbulent-boundary-layer interaction control using an upstream and downstream unimorph piezoelectric flap actuator has been proposed. The amount of flap deflection controls the bleed/suction rate through a plenum chamber. The cavity allows rapid thickening of the boundary layer approaching a normal shock wave, which splits into a series of weaker shocks forming a lambda shock foot, leading to a reduction in the wave drag. The analysis provides an understanding of the control influences produced in an experimental investigation of an unswept normal shock wave/turbulent-boundary-layer interaction at a Mach number of 1.5. It has also been validated by application to the normal shock wave/boundary-layer interaction control system using raesoflaps for aeroelastic transpiration described in previous transonic/supersonic shock wave/ boundary layer interaction studies.

机译：提出了使用上游和下游单压电晶片压电执行器的未扫动法向冲击波/湍流边界层相互作用控制的解析模型。襟翼的偏转量控制通过充气室的排气/吸气速率。空腔使接近正常冲击波的边界层迅速增厚，从而分裂成一系列较弱的冲击，从而形成了λ冲击脚，从而减小了波阻力。该分析提供了对未扫描法向冲击波/湍流边界层相互作用（马赫数为1.5）的实验研究中产生的控制影响的理解。通过在常规跨音速/超音速冲击波/边界层相互作用研究中所述的使用raesoflaps进行气动弹性蒸腾的正常冲击波/边界层相互作用控制系统的应用，也已对其进行了验证。

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《Journal of Aircraft》 |2009年第5期|1634-1641|共8页
作者
Jonathan S. Couldrick; Sudhir L. Gai; John F. Milthorpe; Krishna Shankar;
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作者单位

University of New South Wales, Australian Defence Force Academy, Canberra, Australian Capital Territory 2600, Australia;

University of New South Wales, Australian Defence Force Academy, Canberra, Australian Capital Territory 2600, Australia;

University of New South Wales, Australian Defence Force Academy, Canberra, Australian Capital Territory 2600, Australia;

University of New South Wales, Australian Defence Force Academy, Canberra, Australian Capital Territory 2600, Australia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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专利

1. Interaction of Swept and Unswept Normal Shock Waves with Boundary Layers [J] . L. C. Squire AIAA Journal . 1996,第10期

机译：扫掠和未扫掠法向激波与边界层的相互作用
2. Investigation of Three-Dimensional Shock Wave/Turbulent-Boundary-Layer Interaction Initiated by a Single Fin [J] . Fang Jian, Yao Yufeng, Zheltovodov Alexandr A., AIAA Journal . 2017,第2期

机译：单鳍片引发的三维激波/湍流边界层相互作用研究
3. Near-wall behaviors of oblique-shock-wave/turbulent-boundary-layer interactions [J] . Mingsheng YE, Ming DONG 应用数学和力学（英文版） . 2017,第010期

机译：斜激波/湍流边界层相互作用的近壁行为
4. Theoretical Analysis of Unswept Normal Shock Wave/Boundary Layer Interaction Control Using Streamwise Flaps [C] . J. Couldrick, S. Gai, J. Milthorpe, AIAA Fluid Dynamics Conference . 2006

机译：基于流向襟翼的未扫动法向冲击波/边界层相互作用控制的理论分析
5. On the Advancement of Phenomenological and Mechanistic Descriptions of Unsteadiness in Shock-Wave/Turbulent-Boundary-Layer Interactions [D] . Adler, Michael C. 2019

机译：关于冲击/湍流边界层相互作用不稳定性的现象学和机械描述的推进
6. Extracorporeal shock waves enhance normal fibroblast proliferation in vitro and activate mRNA expression for TGF-β1 and for collagen types I and III [O] . Laura Berta, Annamaria Fazzari, Anna Maria Ficco, 2009

机译：体外冲击波可增强体外正常成纤维细胞的增殖并激活TGF-β1以及I型和III型胶原的mRNA表达
7. A study of swept and unswept normal shock wave/turbulent boundary layer interaction and control by piezoelectric flap actuation [O] . Couldrick Jonathan Stuart Aerospace Civil Mechanical Engineering Australian Defence Force Academy UNSW 2006

机译：扫掠和未扫掠法向冲击波/湍流边界层相互作用及压电襟翼驱动控制的研究
8. Structure of Normal-Shock/Turbulent-Boundary-Layer Interactions Modified by Mass Removal [R] . Sajben, M., Morris, M. J., Kroutil, J. C., 1989

机译：通过质量去除修正的正常冲击/湍流 - 边界层相互作用的结构

Investigation of Unswept Normal Shock Wave/ Turbulent-Boundary-Layer Interaction Control

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