采用大涡模拟的长圆形和非圆形圆柱体气动噪声

IF 1.2 4区工程技术 Q3 ACOUSTICS

International Journal of Aeroacoustics Pub Date : 2022-06-01 DOI:10.1177/1475472X221093713

J. Jacob, Subrata Bhattacharya

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引用次数: 2

摘要

采用大涡模拟和声学类比的方法研究了低亚临界流型下四个无限长圆柱形的流致气动噪声。对短跨度(长径比为3)圆柱体进行了数值模拟，并应用基于等效/空间相干长度的声音校正方法估计了大跨度圆柱体的噪声。本文尝试比较相同雷诺数(Re)下四个截面的空间相干长度。对圆柱体建立的声音校正方法对非圆形截面也证明是有效的。由于计算能力的限制，如果不采用合理的校正方法，仍然无法获得高回流和大跨度圆柱体的高分辨率LES。仿真中采用了基于特征长度和速度尺度的网格分辨率，证明了网格分辨率对计算气动和气动声学特性是有效的。提出了声压水平-频率曲线的“有效频带”，该“有效频带”可预测总声压级的99.5%以上，并给出了该频带在4个截面上的特征。

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Aerodynamic noise from long circular and non-circular cylinders using large eddy simulations

Flow-induced aerodynamic noise from four cylindrical shapes of infinite length at a low subcritical flow regime is studied using Large Eddy Simulation (LES) and acoustic analogy. Numerical simulations are performed for short-span (length to diameter ratio of 3) cylinders, and a sound correction method based on equivalent/spatial coherence length has been applied to estimate noise from long-span cylinders. An attempt is made to compare spatial coherence lengths of four cross-sections at the same Reynolds number (Re). The sound correction method that is well established for circular cylinders proved effective for non-circular cross-sections also. Owing to the limitation in computational capacity, a well-resolved LES is still unachievable for higher Re flows and long-span cylinders without adopting a sound correction methodology. A grid resolution based on the characteristic length and velocity scale was adopted in simulation and proved effective for computing aerodynamic and aeroacoustic characteristics. An ‘effective frequency band’ of sound pressure level-frequency curve is proposed that predicts over 99.5% of the overall sound pressure level, and features of this band for four cross-sections are presented.

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来源期刊

International Journal of Aeroacoustics ACOUSTICS-ENGINEERING, AEROSPACE

CiteScore

2.10

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： International Journal of Aeroacoustics is a peer-reviewed journal publishing developments in all areas of fundamental and applied aeroacoustics. Fundamental topics include advances in understanding aeroacoustics phenomena; applied topics include all aspects of civil and military aircraft, automobile and high speed train aeroacoustics, and the impact of acoustics on structures. As well as original contributions, state of the art reviews and surveys will be published. Subtopics include, among others, jet mixing noise; screech tones; broadband shock associated noise and methods for suppression; the near-ground acoustic environment of Short Take-Off and Vertical Landing (STOVL) aircraft; weapons bay aeroacoustics, cavity acoustics, closed-loop feedback control of aeroacoustic phenomena; computational aeroacoustics including high fidelity numerical simulations, and analytical acoustics.