A New Capacitive MEMS Flow Sensor for Industrial Gas Transport Monitoring Applications

Abbas Panahi, P. Ghasemi, S. Magierowski, E. Ghafar-Zadeh
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Abstract

This paper introduces a new MEMS micro cantilever chip for mass flow rate and flow velocity measurement in a harsh environment where combustible gas flows are the working fluid. In such a condition, using thermal flow sensors is hazardous and may threaten a staggering amount of investment and human lives by igniting the gas flow which might lead to an explosion. To overcome these drawback mechanical sensors are more desirables for such environments. Here we have designed a MEMS chip consist of 74 polysilicon micro cantilevers that are operating based on a capacitive detection mode. There are micro cantilevers with 50, 100, 250 and 400 µm in length and same thickness and wideness, 2µm and 50µm, respectively. This sensor is capable of measuring moderate flows up to 200 m/s in a 10 cm diameter pipes based on the current design for bypass. According to experimental results, the sensor output capacitance varied from 3.3445 pF to 3.350 pF for a range of flow between 0 to 30 m/s. We have shown that MEMS flow sensor can meet large size flow measurements in the industry.
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一种用于工业气体输送监测的新型电容式MEMS流量传感器
本文介绍了一种新型MEMS微悬臂芯片,用于可燃气体流为工作流体的恶劣环境下的质量流量和流速测量。在这种情况下,使用热流传感器是危险的,可能会因点燃可能导致爆炸的气体流而威胁到惊人的投资和人类生命。为了克服这些缺点,机械传感器更适合这种环境。在这里,我们设计了一个由74个多晶硅微悬臂组成的MEMS芯片,这些微悬臂基于电容检测模式工作。微悬臂的长度分别为50、100、250和400µm,厚度和宽度相同,分别为2µm和50µm。基于当前旁路设计,该传感器能够在直径为10厘米的管道中测量高达200米/秒的中等流量。实验结果表明,当流量为0 ~ 30 m/s时,传感器的输出电容范围为3.3445 pF ~ 3.350 pF。我们已经证明MEMS流量传感器可以满足工业上大尺寸的流量测量。
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