A Vibration Analysis for the Evaluation of Fuel Rail Pressure and Mass Air Flow Sensors on a Diesel Engine: Strategies for Predictive Maintenance

Mafla-Yépez, Carlos; Castejon, Cristina; Rubio, Higinio; Morales, Cesar

doi:10.3390/s24051551

Sensors

2024

DOI: 10.3390/s24051551

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A Vibration Analysis for the Evaluation of Fuel Rail Pressure and Mass Air Flow Sensors on a Diesel Engine: Strategies for Predictive Maintenance

Carlos Mafla-Yépez,

Cristina Castejon,

Higinio Rubio

et al.

Abstract: This research focuses on the analysis of vibration of a compression ignition engine (CIE), specifically examining potential failures in the Fuel Rail Pressure (FRP) and Mass Air Flow (MAF) sensors, which are critical to combustion control. In line with current trends in mechanical system condition monitoring, we are incorporating information from these sensors to monitor engine health. This research proposes a method to validate the correct functioning of these sensors by analysing vibration signals from the e… Show more

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Cited by 2 publications

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Real-Time Predictive Condition Monitoring Using Multivariate Data

Menges,

Rasheed,

Martens

et al. 2024

IEEE Trans. on Image Process.

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Real-Time Predictive Condition Monitoring Using Multivariate Data

Menges,

Rasheed,

Martens

et al. 2024

IEEE Trans. on Image Process.

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A Comparative Study of Deep-Learning Autoencoders (DLAEs) for Vibration Anomaly Detection in Manufacturing Equipment

Lee,

Kareem,

Hur

2024

Electronics

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Speed reducers (SR) and electric motors are crucial in modern manufacturing, especially within adhesive coating equipment. The electric motor mainly transforms electrical power into mechanical force to propel most machinery. Conversely, speed reducers are vital elements that control the speed and torque of rotating machinery, ensuring optimal performance and efficiency. Interestingly, variations in chamber temperatures of adhesive coating machines and the use of specific adhesives can lead to defects in chains and jigs, causing possible breakdowns in the speed reducer and its surrounding components. This study introduces novel deep-learning autoencoder models to enhance production efficiency by presenting a comparative assessment for anomaly detection that would enable precise and predictive insights by modeling complex temporal relationships in the vibration data. The data acquisition framework facilitated adherence to data governance principles by maintaining data quality and consistency, data storage and processing operations, and aligning with data management standards. The study here would capture the attention of practitioners involved in data-centric processes, industrial engineering, and advanced manufacturing techniques.

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A Vibration Analysis for the Evaluation of Fuel Rail Pressure and Mass Air Flow Sensors on a Diesel Engine: Strategies for Predictive Maintenance

Cited by 2 publications

References 25 publications

Real-Time Predictive Condition Monitoring Using Multivariate Data

Real-Time Predictive Condition Monitoring Using Multivariate Data

A Comparative Study of Deep-Learning Autoencoders (DLAEs) for Vibration Anomaly Detection in Manufacturing Equipment

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