Analysis of Pitot tube Airflow Velocity Sensor Behavior in Blockage Situations

2020 IEEE Sensors Pub Date : 2020-10-25 DOI:10.1109/SENSORS47125.2020.9278790
A. Golparvar, M. Yapici
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引用次数: 2

Abstract

Several airplanes crashes throughout the past decades are linked to the failure of the airplane flow velocity sensor known as pitot device or pitot tube. The study of its behavior in blockage, either due to human errors or due to environmental factors, could be valuable in the development of safer, more sustainable, and robust velocity sensors with improved performance. This work aims to look into this widely used but not very widely studied sensor and presents a three-dimensional model of a pitot device along with its analysis when either one of its ports is blocked. Results show that in blockage condition pitot tubes can overestimate the velocity up to ~ %5.6.
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皮托管气流速度传感器在堵塞情况下的性能分析
在过去的几十年里,几架飞机的坠毁都与飞机流速传感器(称为皮托管装置或皮托管管)的故障有关。无论是人为错误还是环境因素,对其在堵塞中的行为进行研究,对于开发更安全、更可持续、性能更强的速度传感器都是有价值的。这项工作旨在研究这种广泛使用但不是很广泛研究的传感器,并提出了一个皮托管装置的三维模型,以及当它的任何一个端口被阻塞时的分析。结果表明,在堵塞条件下,皮托管对速度的高估可达~ %5.6。
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2020 IEEE Sensors
2020 IEEE Sensors
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