Condition Monitoring of Misaligned Rotor System Using Acoustic Sensor by Response Surface Methodology

Patil, Shital; Jalan, A. K.; Marathe, Amol

doi:10.1115/1.4054975

Cited by 3 publications

(1 citation statement)

References 17 publications

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“…One alternative that is widely used by engineers and scientists is the monitoring of physical variables that, by using signal processing techniques, can indicate the presence of a fault. In this sense, vibration and noise monitoring [2,[6][7][8][9][10][11], acoustic emission [12][13][14][15], and stray flux [16][17][18], as well as electrical current [19][20][21][22][23][24][25], are the variables that are usually employed to perform either or both of the aforementioned fault detections. It is worth noticing that these sensors require installation in easy-access locations so they can be subjected to periodic inspections, especially if they operate under harsh conditions [26].…”

Section: Introductionmentioning

confidence: 99%

A CNN-Based Methodology for Identifying Mechanical Faults in Induction Motors Using Thermography

Trejo-Chavez,

Cruz-Albarran,

Resendiz-Ochoa

et al. 2023

Machines

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Infrared thermography (IRT) has become an interesting alternative for performing condition assessments of different types of induction motor (IM)-based equipment when it operates under harsh conditions. The reported results from state-of-the-art articles that have analyzed thermal images do not consider (1): the presence of more than one fault, and (2) the inevitable noise-corruption the images suffer. Bearing in mind these reasons, this paper presents a convolutional neural network (CNN)-based methodology that is specifically designed to deal with noise-corrupted images for detecting the failures that have the highest incidence rate: bearing and broken bar failures; moreover, rotor misalignment failure is also considered, as it can cause a further increase in electricity consumption. The presented results show that the proposal is effective in detecting healthy and failure states, as well as identifying the failure nature, as a 95% accuracy is achieved. These results allow considering the proposal as an interesting alternative for using IRT images obtained in hostile environments.

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Section: Introductionmentioning

confidence: 99%

A CNN-Based Methodology for Identifying Mechanical Faults in Induction Motors Using Thermography

Trejo-Chavez,

Cruz-Albarran,

Resendiz-Ochoa

et al. 2023

Machines

View full text Add to dashboard Cite

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Investigation of compound fault in the Rotor Bearing System with the integration of Central Composite Rotatable Design (CCRD)

Shinde

2024

Sādhanā

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Multiple Electromechanical-Failure Detection in Induction Motor Using Thermographic Intensity Profile and Artificial Neural Network

Resendiz-Ochoa,

Calderon-Uribe,

Morales-Hernandez

et al. 2024

Machines

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The use of artificial intelligence-based techniques to solve engineering problems is increasing. One of the most challenging tasks facing industry is the timely diagnosis of failures in electromechanical systems, as they are an essential part of production systems. In this sense, the earlier the detection, the higher the economic loss reduction. For this reason, this work proposes the development of a new methodology based on infrared thermography and an artificial intelligence-based classifier for the detection of multiple faults in an electromechanical system. The proposal combines the intensity profile of the grey-scale image, the use of Fast Fourier Transform and an artificial neural network to perform the detection of twelve states for the state of an electromechanical system: healthy, bearing defect, broken rotor bar, misalignment and gear wear on the gearbox. From the experimental setup, 50 thermographic images were obtained for each state. The method was implemented and tested under different conditions to verify its reliability. The results show that the precision, accuracy, recall and F1-score are higher than 99%. Thus, it can be concluded that it is possible to detect multiple conditions in an electromechanical system using the intensity profile and an artificial neural network, achieving good accuracy and reliability.

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Condition Monitoring of Misaligned Rotor System Using Acoustic Sensor by Response Surface Methodology

Cited by 3 publications

References 17 publications

A CNN-Based Methodology for Identifying Mechanical Faults in Induction Motors Using Thermography

A CNN-Based Methodology for Identifying Mechanical Faults in Induction Motors Using Thermography

Investigation of compound fault in the Rotor Bearing System with the integration of Central Composite Rotatable Design (CCRD)

Multiple Electromechanical-Failure Detection in Induction Motor Using Thermographic Intensity Profile and Artificial Neural Network

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