FMECA and MFCC-Based Early Wear Detection in Gear Pumps in Cost-Aware Monitoring Systems

• Published in: Electronics (Basel) Vol. 10; no. 23; p. 2939
• Main Authors: Lee, Geon-Hui, Akpudo, Ugochukwu Ejike, Hur, Jang-Wook
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.12.2021
• Subjects: Algorithms; Artificial intelligence; Automation; Design; Efficiency; Failure; Failure analysis; Failure modes; Feature extraction; Gear pumps; Hydraulics; Iron oxides; Machine learning; Noise; Performance evaluation; R&D; Research & development; Signal processing; Wavelet transforms; Wear
• ISSN: 2079-9292; 2079-9292
• DOI: 10.3390/electronics10232939

Gear pump failures in industrial settings are common due to their exposure to uneven high-pressure outputs within short time periods of machine operation and uncertainty. Improving the field and line clam are considered as the solutions for these failures, yet they are quite insufficient for optimal reliability. This research, therefore, suggests a method for early wear detection in gear pumps following an extensive failure modes, effects, and criticality analysis (FMECA) of an AP3.5/100 external gear pump manufactured by BESCO. To replicate this condition, fine particles of iron oxide (Fe2O3) were mixed with the experimental fluid, and the resulting vibration data were collected, processed, and exploited for wear detection. The intelligent wear detection process was explored using various machine learning algorithms following a mel-frequency cepstral coefficient (MFCC)-based discriminative feature extraction process. Among these algorithms, extensive performance evaluation reveals that the random forest classifier returned the highest test accuracy of 95.17%, while the k-nearest neighbour was the most cost efficient following cross validations. This study is expected to contribute to improved evaluations of gear pump failure diagnosis and prognostics.