Effects of Central Tube on Shape of Modal Duct of a Helicoid in a Simple Expansion Chamber

Q2 Physics and Astronomy Advances in Acoustics and Vibration Pub Date : 2018-12-11 DOI:10.1155/2018/3276548
D. Onyango, R. Kinyua, A. Mayaka
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Abstract

The shape of the modal duct of an acoustic wave propagating in a muffling system varies with the internal geometry. This shape can be either as a result of plane wave propagation or three-dimensional wave propagation. These shapes depict the distribution of acoustic pressure that may be used in the design or modification of mufflers to create resonance at cut-off frequencies and hence achieve noise attenuation or special effects on the output of the noise. This research compares the shapes of acoustic duct modes of two sets of four pitch configurations of a helicoid in a simple expansion chamber with and without a central tube. Models are generated using Autodesk Inventor modeling software and imported into ANSYS 18.2, where a fluid volume from the complex computer-aided-design (CAD) geometry is extracted for three-dimensional (3D) analysis. Mesh is generated to capture the details of the fluid cavity for frequency range between 0 and 2000Hz. After defining acoustic properties, acoustic boundary conditions and loads were defined at inlet and outlet ports before computation. Postprocessed acoustic results of the modal shapes and transmission loss (TL) characteristics of the two configurations were obtained and compared for geometries of the same helical pitch. It was established that whereas plane wave propagation in a simple expansion chamber (SEC) resulted in a clearly defined acoustic pressure pattern across the propagation path, the distribution in the configurations with and without the central tube depicted three-dimensional acoustic wave propagation characteristics, with patterns scattering or consolidating to regions of either very low or very high acoustic pressure differentials. A difference of about 80 decibels between the highest and lowest acoustic pressure levels was observed for the modal duct of the geometry with four turns and with a central tube. On the other hand, the shape of the TL curve shifts from a sinusoidal-shaped profile with well-defined peaks and valleys in definite multiples of π for the simple expansion chamber, while that of the other two configurations depended on the variation in wavelength that affects the location of occurrence of cut-on or cut-off frequency. The geometry with four turns and a central tube had a maximum value of TL of about 90 decibels at approximately 1900Hz.
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中心管对简单膨胀室内螺旋体模态导管形状的影响
在消声系统中传播的声波的模态导管的形状随着内部几何形状的变化而变化。这种形状可以是平面波传播或三维波传播的结果。这些形状描绘了声压的分布,声压的分布可用于消声器的设计或修改,以在截止频率下产生共振,从而实现噪声衰减或对噪声输出的特殊影响。本研究比较了在有和没有中心管的简单膨胀室内,螺旋面的两组四节距配置的声导管模式的形状。使用Autodesk Inventor建模软件生成模型,并将其导入到ANSYS 18.2中,在那里从复杂的计算机辅助设计(CAD)几何体中提取流体体积,用于三维(3D)分析。生成网格以捕捉频率范围在0和2000Hz之间的流体腔的细节。在定义声学特性之后,在计算之前,在入口和出口处定义声学边界条件和载荷。获得了两种配置的模态形状和传输损耗(TL)特性的后处理声学结果,并对相同螺距的几何形状进行了比较。已经确定,尽管在简单膨胀室(SEC)中的平面波传播导致传播路径上清晰定义的声压模式,但具有和不具有中心管的配置中的分布描绘了三维声波传播特性,其中图案散射或固结到具有非常低或非常高的声压差的区域。对于具有四个转弯和中心管的几何形状的模态导管,观察到最高和最低声压水平之间的差异约为80分贝。另一方面,对于简单膨胀室,TL曲线的形状从正弦形轮廓转变为具有π的确定倍数的明确峰和谷的正弦形轮廓,而其他两种配置的形状取决于影响接通或切断频率发生位置的波长变化。具有四匝和中心管的几何形状在大约1900Hz下具有大约90分贝的TL的最大值。
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期刊介绍: The aim of Advances in Acoustics and Vibration is to act as a platform for dissemination of innovative and original research and development work in the area of acoustics and vibration. The target audience of the journal comprises both researchers and practitioners. Articles with innovative works of theoretical and/or experimental nature with research and/or application focus can be considered for publication in the journal. Articles submitted for publication in Advances in Acoustics and Vibration must neither have been published previously nor be under consideration elsewhere. Subject areas include (but are not limited to): Active, semi-active, passive and combined active-passive noise and vibration control Acoustic signal processing Aero-acoustics and aviation noise Architectural acoustics Audio acoustics, mechanisms of human hearing, musical acoustics Community and environmental acoustics and vibration Computational acoustics, numerical techniques Condition monitoring, health diagnostics, vibration testing, non-destructive testing Human response to sound and vibration, Occupational noise exposure and control Industrial, machinery, transportation noise and vibration Low, mid, and high frequency noise and vibration Materials for noise and vibration control Measurement and actuation techniques, sensors, actuators Modal analysis, statistical energy analysis, wavelet analysis, inverse methods Non-linear acoustics and vibration Sound and vibration sources, source localisation, sound propagation Underwater and ship acoustics Vibro-acoustics and shock.
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