基于CFD/CAA耦合边界法的机翼后缘噪声预测

Q3 Engineering
Rui Lu, Yongle Ding, Peixun Yu, Kun Tan, G. Pan
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引用次数: 0

摘要

基于声波边界条件的流致噪声混合预测方法是处理复杂构型流致噪声问题的有效数值方法。该方法不仅可以很好地模拟声源,而且可以分析噪声的传播特性。本文发展了声扰动方程(APE)离散解所涉及的时空离散格式和边界条件等数值方法,并提出了增加缓冲层等策略来改善声源区和传播区交界处数值不连续引起的发散,从而建立了高精度的流致噪声混合方法。为了研究流致噪声混合方法的合理性,对NACA0012翼型尾缘的声辐射进行了BANC实验的数值模拟。通过与大涡模拟方法求解声场结果的比较,分析表明基于声波边界条件的高精度流致噪声混合方法能够高精度地预测空间声场分布,并能直接反映声波之间的相互作用。与大涡模拟结果相比,声压级误差小于2 dB,噪声方向分布趋势一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Airfoil trailing-edge noise prediction based on CFD/CAA coupled boundary method
Flow-induced noise hybrid prediction method based on sound wave boundary condition is an effective numerical method to deal with a flow-induced noise problems of complex configuration. This method can not only finely simulate the sound source, but also analyze the noise propagation characteristics. In this paper, numerical methods such as space-time discrete scheme and boundary conditions involved in discrete solution of acoustic perturbation equations(APE) are developed, and strategies such as adding buffer layer are proposed to improve divergence caused by numerical discontinuity at the junction of sound source region and propagation region, so as to establish a high-precision flow-induced noise hybrid method. In order to study the rationality of flow-induced noise hybrid method, the numerical simulation of acoustic radiation at the trailing edge of NACA0012 airfoil in BANC experiment was carried out. Compared with the results of sound field solved by large eddy simulation method, the analysis shows that the high-precision flow-induced noise hybrid method based on sound wave boundary conditions can predict the spatial sound field distribution with high precision and directly reflect the interaction between sound waves. Compared with the results of large eddy simulation, the error of sound pressure level is less than 2 dB, and the noise directional distribution trend is consistent.
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来源期刊
西北工业大学学报
西北工业大学学报 Engineering-Engineering (all)
CiteScore
1.30
自引率
0.00%
发文量
6201
审稿时长
12 weeks
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