引用本文: | 周鹤峰,赵云,田章福,等.运动流体介质和剪切层共同作用下平面近场声全息技术改进.[J].国防科技大学学报,2020,42(5):52-59, 73.[点击复制] |
ZHOU Hefeng,ZHAO Yun,TIAN Zhangfu,et al.Improvement of planar nearfield acoustic holography under the combined action of moving fluid medium and shear layer[J].Journal of National University of Defense Technology,2020,42(5):52-59, 73[点击复制] |
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运动流体介质和剪切层共同作用下平面近场声全息技术改进 |
周鹤峰1,2,赵云1,田章福1,曾新吾1,蒋伟康2 |
(1. 国防科技大学 气象海洋学院, 湖南 长沙 410073;2. 上海交通大学 机械系统与振动国家重点实验室, 上海 200240)
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摘要: |
传统的平面近场声全息将全息面置于射流内部。为了降低窗效应和卷绕误差对重建精度的不利影响,一般要求全息面尺寸为声源的2倍以上,而较大尺寸的传声器阵列放在射流内部会干扰射流的稳定。针对这一问题,提出将整个全息面置于射流外部的方法。根据经典的剪切层修正理论,首先分析声波由声源传播至全息面过程中路径和幅值的改变,继而推导出修正后的声场传播公式,最终建立起马赫数小于0.3的运动流体介质和剪切层共同作用下的平面近场声全息理论模型。数值仿真表明,改进后的平面近场声全息技术能够得到高分辨率的重建声场,对气动噪声源的定位精度较高,并且具备一定的抗干扰能力。 |
关键词: 平面近场声全息 运动流体介质 剪切层 气动噪声源 |
DOI:10.11887/j.cn.202005008 |
投稿日期:2019-04-11 |
基金项目:气动噪声控制重点实验室开放基金资助项目(ANCL20180303);国防科技大学“双一流”建设引导专项基金资助项目(xslw10) |
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Improvement of planar nearfield acoustic holography under the combined action of moving fluid medium and shear layer |
ZHOU Hefeng1,2, ZHAO Yun1, TIAN Zhangfu1, ZENG Xinwu1, JIANG Weikang2 |
(1. College of Meteorology and Oceanography, National University of Defense Technology, Changsha 410073, China;2. State Key Laboratory of Mechanical System and Vibration, Shanghai Jiao Tong University, Shanghai 200240, China)
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Abstract: |
Traditional planar nearfield acoustic holography places the hologram inside the jet. In order to reduce the adverse effect of window effect and wraparound error on reconstruction accuracy, it is generally required that the hologram size is twice more than that of the sound source, while larger microphone array placed inside the jet will interfere with the stability of the jet. To solve this problem, it was proposed to place the entire hologram outside the jet. According to the classical shear layer correction theory, the changes of path and amplitude of sound wave propagating from sound source to hologram were analyzed. Then the modified sound field propagation formula was derived. Finally, the theoretical model of planar nearfield acoustic holography under the combined action of moving fluid medium with the Mach number below 0.3 and shear layer was established. Numerical simulations show that the improved planar nearfield acoustic holography leads to reconstructed acoustic fields of high resolution, with high localization accuracy of aerodynamic noise source and certain anti-interference ability. |
Keywords: planar nearfield acoustic holography moving fluid medium shear layer aerodynamic noise source |
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