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消声器中频声学性能的计算测量方法 被引量:2

Computational and Measurement Methods of Middle-frequency Acoustic Performance of Mufflers
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摘要 传统的消声器声学性能计算和实验测量都是在消声器进出口管道作为平面波声场的条件下进行,当进出口管道内出现有高阶模态激发的三维声场时,这些计算方法和实验测量方法就不再适用。由此,采用消声器进出口管道内加径向隔板的方法来计算消声器的声学性能,当原来管道声场中出现高阶模态时,仍然可以用平面波方法计算消声器的传递损失。应用该方法对进气滤清消声器进行传递损失数值计算,在原来进出口管道的平面波声场范围内,计算结果与传统方法计算结果均接近实验的测量结果,验证了该方法预测消声器声学性能的可行性。进而在所设计的消声器中频声学性能实验测试台架上,用声波分解法对阻性消声器进行传递损失测试,实验测量结果和有限元仿真结果也吻合良好。 The traditional calculation and measurement methods of the transmission loss of mufflers are based on theassumption of plane wave propagation in the inlet and outlet ducts. These methods are not valid any more to predict the acousticalperformance of mufflers when the three-dimensional sound field excited by the higher-order modes occurs in inlet and outlet ducts.In this paper, a method was proposed to calculate the acoustic performance of mufflers by adding radial panels in the inlet andoutlet ducts. Therefore the plane wave decomposition method could still be used to predict the transmission loss of the mufflersuntil the second higher order modal frequency occurred. This method was then applied to calculate the transmission loss of anintake filter muffler, and the computation results agreed well with the experimental results and conventional finite elementprediction, which confirmed the applicability of the method. A test-bench for middle frequency acoustic performance of mufflerswas designed, and the plane wave decomposition method was employed to measure the transmission loss of a dissipative muffler.The measurement result and finite element numerical result are in good agreement generally.
作者 李海龙 季振林 闫欣
机构地区 哈尔滨工程大学动力与能源工程学院
出处 《噪声与振动控制》 CSCD 2015年第1期156-159,175,共5页 Noise and Vibration Control
基金 国家自然科学基金资助项目(11174065)
关键词 声学 消声器 中频声学特性 传递损失 acoustics muffler middle-frequency acoustical performance transmission loss
分类号 TB132 [理学—应用物理] TB535 [理学—声学]
  • 相关文献

参考文献9

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二级参考文献18

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共引文献45

同被引文献21

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  • 10徐航手,康钟绪,季振林.排气消声器传递损失的实验测量与分析[J].噪声与振动控制,2009,29(4):128-131. 被引量:20

引证文献2

二级引证文献3

噪声与振动控制
2015年 第1期

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