生物涡发生器对NACA0015翼型气动性能影响的研究。

IF 3.1 3区计算机科学 Q1 ENGINEERING, MULTIDISCIPLINARY

Bioinspiration & Biomimetics Pub Date : 2024-12-19 DOI:10.1088/1748-3190/ada1bc

Fatih Kaya, Hürrem Akbıyık

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引用次数: 0

摘要

通过实验研究了仿生涡发生器（biomitics - vgs）对NACA0015型气动性能的影响。在Re=1.2×105对试验模型进行气动力测量和基于二氧化钛（TiO2）的流动显示技术实验。在风洞中进行了攻角为0°~ 18°、增量为1°的气动力测量实验。实验结果表明，采用海螺壳结构作为涡发生器后，机翼模型的升力系数（CL）增大，阻力系数（CD）减小。此外，它已经观察到，仿生模型被转移失速角的翼型1°。在表面油流可视化实验结果中，揭示并解释了仿生模型NACA0015翼型周围的流动结构。此外，它已经揭示了翼型的空气动力学性能的增加，因为使用弹道导弹的结果。同时也揭示了本研究课题中未被文献研究过的海螺壳结构可以作为一种有效的流量控制装置。

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Investigation of the effects of bioinspired vortex generators on aerodynamic performance of a NACA0015 airfoil.

An experimental study was carried out to investigate the effects of biomimetic vortex generators (biomimetic-VGs) on the aerodynamic performance of the NACA0015 airfoil. Aerodynamic force measurements and titanium dioxide (TiO₂) based flow visualization technique experiments were performed for test models at Re=1.2×10⁵. Aerodynamic force measurement experiments were carried out in the wind tunnel at angles of attack of 0°-18° with an increment of 1°. As a result of the experiments, it was revealed that the lift coefficient (C_L) increased and the drag coefficient (C_D) decreased by using the seaconchshell structure as a vortex generator for the wing model. In addition, it has been observed that biomimetic models were shifted stall angle of the airfoil by 1°. In the surface oil flow visualization experiment results, the flow structure around the NACA0015 airfoil of biomimetic models (BMs) was revealed and interpreted. Moreover, it has been revealed that the aerodynamic performance of the airfoil increases as a result of the use of BMs. It is also revealed that the seaconchshell structure, which has not been studied before in the literature and which is the subject of this study, can be used as an effective flow control device.

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来源期刊

Bioinspiration & Biomimetics 工程技术-材料科学：生物材料

CiteScore

5.90

自引率

14.70%

发文量

132

审稿时长

3 months

期刊介绍： Bioinspiration & Biomimetics publishes research involving the study and distillation of principles and functions found in biological systems that have been developed through evolution, and application of this knowledge to produce novel and exciting basic technologies and new approaches to solving scientific problems. It provides a forum for interdisciplinary research which acts as a pipeline, facilitating the two-way flow of ideas and understanding between the extensive bodies of knowledge of the different disciplines. It has two principal aims: to draw on biology to enrich engineering and to draw from engineering to enrich biology. The journal aims to include input from across all intersecting areas of both fields. In biology, this would include work in all fields from physiology to ecology, with either zoological or botanical focus. In engineering, this would include both design and practical application of biomimetic or bioinspired devices and systems. Typical areas of interest include: Systems, designs and structure Communication and navigation Cooperative behaviour Self-organizing biological systems Self-healing and self-assembly Aerial locomotion and aerospace applications of biomimetics Biomorphic surface and subsurface systems Marine dynamics: swimming and underwater dynamics Applications of novel materials Biomechanics; including movement, locomotion, fluidics Cellular behaviour Sensors and senses Biomimetic or bioinformed approaches to geological exploration.