Vibration Sensitivity Reduction of Photoacoustic Gas Analyzers
Sensors Journal, IEEE(2014)
摘要
Optical gas analyzers are devices for measuring gas concentrations with high precision in industrial environments. Nevertheless, mechanical shocks and vibrations can impact the measurement accuracy if the analyzer is installed in very noisy environments, e.g., near rotating machines. In this paper, we propose two methods wherein the influence of vibrations is removed with the aid of a signal measured via an accelerometer. In the first method, referred to as offline, the mechanoelectrical transfer function between the vibration and its effects on the microphone is estimated before installation of the sensor. In the second method, referred to as online, the mechanoelectrical transfer function is updated continuously under normal sensing operations. The two methods have been implemented and lab tests confirm the effectiveness of both methods.
更多查看译文
关键词
microphone effect,photo-acoustic detection,vibration measurement,abb uras gas correction,vibrating table testing,transfer functions,system identification,mechanoelectrical transfer function,optical gas analyzer,microphones,vibrations,accelerometer,vibration sensitivity reduction,industrial environment,microphone,gas concentration measurement,photoacoustic gas analyzers,mechanical shocks,adaptive filtering,photoacoustic gas analyzer,abb uras gas analyzer,optical gas analyzers,optical sensors,chemical variables measurement,acoustic measurement,accelerometers,Gas analyzers,vibration suppression,gas sensors,rotating machine,auxiliary signal measurement
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要