Identification of essential sensors for a PEMFC system in automotive applications

Hanqing Wang, S. Morando, A. Gaillard, D. Hissel
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Abstract

This paper is on the subject of identification of essential sensors for Proton Exchange Membrane Fuel Cell (PEMFC) system in Fuel Cell Electric Vehicle (FCEV) application. Sensors are classified as physical sensors and gas sensors. Physical sensors are used to detect pressure, temperature, mass flow rate and relative humidity of the fuel cell. Gas sensors consist of the hydrogen leakage detector and the environment sensor system. The environment sensor system detects gas contaminations, e.g., carbon dioxide in the air. Depending on the sensor development review and the sensor specifications comparisons, sensors owned low cost, small volume, fast response, high resolution, excellent stability and durability are suitable for FCEV application. Some future work on fuel cell sensor-set size optimization is also suggested to facilitate the move towards commercialization.
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汽车用PEMFC系统基本传感器的识别
本文研究了燃料电池电动汽车(FCEV)中质子交换膜燃料电池(PEMFC)系统所需传感器的识别问题。传感器分为物理传感器和气体传感器。物理传感器用于检测燃料电池的压力、温度、质量流量和相对湿度。气体传感器由氢气泄漏探测器和环境传感器系统组成。环境传感器系统检测气体污染,例如空气中的二氧化碳。根据传感器的发展回顾和传感器规格比较,传感器具有低成本,小体积,快速响应,高分辨率,优异的稳定性和耐用性,适合FCEV应用。还建议在燃料电池传感器集尺寸优化方面进行一些未来的工作,以促进其走向商业化。
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