Experiments on the Use of Signal Visualization Technique for In-Service Stall Detection in Industrial Fans

Q2 Physics and Astronomy

Advances in Acoustics and Vibration Pub Date : 2013-05-07 DOI:10.1155/2013/610407

S. Bianchi, A. Corsini, A. G. Sheard

引用次数: 6

Abstract

The paper describes a stalldetection criterion based on the use of symmetrised dot pattern (SDP) visual waveform analysis and the stallwarning methodology based on a recently developed analysis. The experimental study explores the capability of the SDP technique to detect the stall incipience and evolution in the presence of low signal-to-noise ratios, that is, a noisy working environment. Moreover, the investigation presents a systematic analysis on the probe position’s influence with respect to the fan section. As such, the SDP technique in combination with an acoustic measurement is able to create a visual pattern that one can use to detect stall from potentially any location around the fan/duct system.

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信号可视化技术在工业风机失速检测中的应用实验

本文介绍了一种基于对称点图(SDP)可视化波形分析的失速检测准则和基于最新发展的失速预警方法。实验研究探讨了SDP技术在低信噪比(即噪声工作环境)下检测失速发生和演变的能力。此外，调查还系统地分析了探头位置对风扇截面的影响。因此，SDP技术与声学测量相结合，能够创建一个视觉模式，可以用于从风扇/管道系统周围的任何位置检测失速。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Acoustics and Vibration ACOUSTICS-

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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.