Numerical simulation and prediction of aerodynamic noise of high-speed trains

Q3 Physics and Astronomy

Noise and Vibration Worldwide Pub Date : 2023-11-06 DOI:10.1177/09574565231212687

Yanong Liu, Jun Zhang, Sitong Yi

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引用次数: 0

Abstract

In order to improve the efficiency of high-speed train aerodynamic noise analysis and provide a feasible method for aerodynamic noise prediction, the aerodynamic noise and its influencing factors are analyzed from the perspective of the total energy (sound power) radiated to the far field per unit time by the aerodynamic fundamental noise sources (monopole, dipole and quadrupole sources). A full-scale and a 1:8 scale-down computational fluid dynamics model of a high-speed train are established. The far-field sound pressure level at several receivers and velocities is calculated by using the transient large eddy simulation and the FW-H equation. The numerical simulation results are used to predict the aerodynamic noise under specified working conditions. The research work can achieve the prediction of aerodynamic noise at other velocities using noise data at known velocities on the same noise source case, as well as the prediction of aerodynamic noise of full-scale model using data of scale-down model, and is applicable to either bogies as local noise sources or the complete vehicle as a noise source. The maximum error between the prediction and simulation result is 0.33 dBA under various working conditions, which meets the engineering calculation requirements.

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高速列车气动噪声的数值模拟与预测

为了提高高速列车气动噪声分析的效率，为气动噪声预测提供一种可行的方法，从气动基本噪声源(单极、偶极和四极噪声源)单位时间向远场辐射的总能量(声功率)角度分析了高速列车气动噪声及其影响因素。建立了高速列车全尺寸和1:8比例的计算流体动力学模型。利用瞬态大涡模拟和FW-H方程计算了不同接收速度下的远场声压级。利用数值模拟结果预测了指定工况下的气动噪声。本研究工作可以实现在同一噪声源情况下，利用已知速度下的噪声数据预测其他速度下的气动噪声，也可以利用缩小模型的数据预测全尺寸模型的气动噪声，既适用于作为局部噪声源的转向架，也适用于作为噪声源的整车。在各种工况下，预测结果与仿真结果的最大误差为0.33 dBA，满足工程计算要求。

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

Noise and Vibration Worldwide Physics and Astronomy-Acoustics and Ultrasonics

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： Noise & Vibration Worldwide (NVWW) is the WORLD"S LEADING MAGAZINE on all aspects of the cause, effect, measurement, acceptable levels and methods of control of noise and vibration, keeping you up-to-date on all the latest developments and applications in noise and vibration control.