Effect of bogie fairing on aerodynamic and aeroacoustic behaviour of a high-speed train nose car

IF 3.4 2区工程技术 Q2 TRANSPORTATION SCIENCE & TECHNOLOGY International Journal of Rail Transportation Pub Date : 2023-09-12 DOI:10.1080/23248378.2023.2250784

Jianyue Zhu, Guanda Cheng, Qiliang Li, Yu Chen, Qing Jia

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Abstract

The influence of bogie fairing on the flow feature and aerodynamic noise performance of a high-speed train nose car model is studied based on large-eddy simulation combined with acoustic analogy approach. For the case having no fairing, the strong flow interactions and impingements occur around the bogie cavity region due to the mass addition and expulsion induced from the cavity leading edges. When a streamlined fairing is mounted outside the bogie cavity, the fluid entrainment and vortices evolvement within the bogie cavity are weakened and the shear layer impingement and flow separation outside the fairing are mitigated greatly. Thus the wall pressure fluctuations on the solid surfaces of geometries located within bogie cavity are decreased and the flow-induced noise is reduced noticeably. Based on the semi-anechoic wind tunnel measurements on a high-speed train nose car model without and with bogie fairing, it is found that the dominant sound source around bogie cavity moves from its central area to rear wall region and the aerodynamic noise is reduced effectively with a streamlined fairing mounted around the bogie cavity. The numerical predictions of aerodynamic noise are verified by the experimental measurements. The investigation would be beneficial for guiding the low-noise design and configuration optimization of a high-speed train bogie fairing.

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转向架整流罩对高速列车车头气动与气动声学性能的影响

采用大涡模拟与声学类比相结合的方法，研究了转向架整流罩对高速列车车头模型流动特性和气动噪声性能的影响。在没有整流罩的情况下，由于空腔前缘的质量增加和驱逐，在转向架空腔周围发生了强烈的流动相互作用和碰撞。在转向架空腔外安装流线型整流罩，可以减弱转向架空腔内的流体夹带和涡流演化，极大地减轻了整流罩外的剪切层撞击和流动分离。从而减小了转向架空腔内几何体固体表面的壁面压力波动，显著降低了流致噪声。通过对无转向架整流罩和有转向架整流罩的高速列车机头车厢模型进行半消声风洞测量，发现转向架空腔周围的优势声源由中心区域向后壁区域移动，在转向架空腔周围安装流线型整流罩能有效降低气动噪声。实验结果验证了气动噪声的数值预测。研究结果对指导高速列车转向架整流罩的低噪声设计和结构优化具有一定的指导意义。

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来源期刊

International Journal of Rail Transportation TRANSPORTATION SCIENCE & TECHNOLOGY-

CiteScore

6.90

自引率

15.00%

发文量

期刊介绍： The unprecedented modernization and expansion of rail transportation system will require substantial new efforts in scientific research for field-deployable technologies. The International Journal of Rail Transportation (IJRT) aims to provide an open forum for scientists, researchers, and engineers in the world to promote the exchange of the latest scientific and technological innovations in rail transportation; and to advance the state-of-the-art engineering and practices for various types of rail based transportation systems. IJRT covers all main areas of rail vehicle, infrastructure, traction power, operation, communication, and environment. The journal publishes original, significant articles on topics in dynamics and mechanics of rail vehicle, track, and bridge system; planning and design, construction, operation, inspection, and maintenance of rail infrastructure; train operation, control, scheduling and management; rail electrification; signalling and communication; and environmental impacts such as vibration and noise. The editorial policy of the new journal will abide by the highest level of standards in research rigor, ethics, and academic freedom. All published articles in IJRT have undergone rigorous peer review, based on initial editor screening and anonymous refereeing by independent experts. There are no page charges and colour figures are included in the online edition free of charge.