Abstract
Despite the wide range of applications for the polymer electrolyte membrane fuel cell (PEMFC), its reliability and durability are still major barriers for further commercialization. As a possible solution, PEMFC fault diagnosis has received much more attention in the last few decades. Due to the difficulty of developing an accurate PEMFC model incorporating various failure mode effects, data-driven approaches are widely used for diagnosis purposes. These methods depend largely on the quality of sensor measurements from the PEMFC. Therefore, it is necessary to investigate sensor reliability when performing PEMFC fault diagnosis.In this study, sensor reliability is investigated by proposing an identification technique to detect abnormal sensors during PEMFC operation. The identified abnormal sensors will be removed from the analysis in order to guarantee reliable diagnostic performance. Moreover, the effectiveness of the proposed technique is investigated using test data from a PEMFC system, where fuel cell flooding is observed. During the test, due to accumulation of liquid water inside the PEMFC, the humidity sensors will give misleading readings, and flooding cannot be identified correctly with inclusion of these humidity sensors in the analysis. With the proposed technique, the abnormal humidity measurements can be detected at an early stage. Results demonstrate that by removing the abnormal sensors, flooding can be identified with the remaining sensors, thus reliable health monitoring can be guaranteed during the PEMFC operation.
Highlights
As an environmentally friendly alternative for electrical power generation, polymer electrolyte membrane fuel cells (PEMFCs) have potential for widespread application, including stationary power station, automotive, and consumer devices
It can be seen that by monitoring the features extracted from each sensor, the abnormal sensor can be clearly observed, in this case, the features from the cathode humidifier shows a sudden change when reaching the 3rd phase, whilst the other sensors, especially the voltage sensors, do not show the indication of PEMFC performance variation
The sensor sensitivity is investigated in PEMFC fault diagnosis, using the test data from a PEMFC system
Summary
Article history: Received 5 July 2017 Received in revised form November 2017 Accepted November 2017 Available online 14 December 2017. Despite the wide range of applications for the polymer electrolyte membrane fuel cell (PEMFC), its reliability and durability are still major barriers for further commercialization. PEMFC fault diagnosis has received much more attention in the last few decades. Due to the difficulty of developing an accurate PEMFC model incorporating various failure mode effects, data-driven approaches are widely used for diagnosis purposes. These methods depend largely on the quality of sensor measurements from the PEMFC. It is necessary to investigate sensor reliability when performing PEMFC fault diagnosis
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