降噪阵列参数对次声降噪系统性能的影响分析
The analysis of the effect of array parameter on infrasound noise reduction system performance
-
摘要: 次声降噪系统对提高次声监测能力具有重要作用,为分析次声降噪系统阵列结构参数变化对其降噪性能的影响规律,构建玫瑰型(rosette)管道滤波器降噪系统声电等效模型,进而利用风噪声模型和仿真数据对该模型的单进气口传递函数和系统降噪性能进行了定量分析,总结了不同阵列结构参数对该系统降噪性能的影响规律,最后对国际监测系统(International Monitoring System,IMS)玫瑰型管道滤波器的降噪性能进行了评估。仿真实验及分析结果表明:(1)进气口数量约取96,阵列尺寸约18 m,一、二级管内径取10~20 mm,一、二级合成腔体积不得超过1 L,系统能获得较好的降噪性能;(2)IMS玫瑰型管道滤波器符合最佳阵列参数设置要求;(3)满足最佳阵列参数设置的玫瑰型管道滤波器可大幅度地提高信噪比。该分析结果可为已有次声降噪系统提供性能评估,可对新的次声降噪系统设计提供参考。Abstract: Infrasound noise reduction system is important in the measurement of infrasound.The electroacoustic model of the rosette pipe filter has been constructed in order to analyze the rule of the influence of different structure parameter of infrasound noise reduction system on its performance.Further,the single air inlet transfer function and noise reduction performance of the system have been quantitatively studied based on the wind model and simulation data.The effect of the parameters on the system performance has been summarized.Finally,the noise reduction performance of rosette pipe filter in International Monitoring System (IMS) has been assessed.The results and simulations show:(1) the number of air inlets approximately take 96,the array diameter is about 18 m,the first and second pipe internal diameter take 10~20 mm,the first and second volume of the summation cavities take less than 1L,the system can get better noise reduction performance;(2) IMS rosette pipe filters noise reduction system with best parameter setting requirements;(3)the rosette pipe filters with best array parameters can greatly improve the SNR.The results can provide a performance evaluation for the existing infrasound noise reduction system.It can offer an effective reference for the design of a new infrasound noise reduction system.