Artificial neural network approach for locomotive maintenance by monitoring dielectric properties of engine lubricant

•Spectral analysis results in ppm for metallic elements mixed to the engine lubricant.•Determining maintenance time and/or engine failure of the diesel locomotives.•Measurement of the electrical properties of the engine lubricant samples.•Artificial neural network study as a different approach for l...

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Bibliographic Details
Published in:Measurement : journal of the International Measurement Confederation 2019-10, Vol.145, p.678-686
Main Authors: Altıntaş, Olcay, Aksoy, Murat, Ünal, Emin, Akgöl, Oğuzhan, Karaaslan, Muharrem
Format: Article
Language:English
Subjects:
Artificial neural network
Artificial neural networks
Dielectric loss
Dielectric measurement
Dielectric properties
Dielectrics
Diesel engines
Engine lubricant
Errors
Failure analysis
Lubricants
Maintenance
Mechanical properties
Neural networks
Permittivity
Real time
Regression analysis
Spectral analysis
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Summary:•Spectral analysis results in ppm for metallic elements mixed to the engine lubricant.•Determining maintenance time and/or engine failure of the diesel locomotives.•Measurement of the electrical properties of the engine lubricant samples.•Artificial neural network study as a different approach for locomotive maintenance. In this paper, we proposed an approach for locomotive maintenance systems by observing engine lube oil. The mechanical particles in lube oil give information about locomotive engine system condition. The engine lubricant is monthly monitored by a spectral analyzer (SA) to detect engine system failure and routine maintenance time. However, this old fashioned technique has many disadvantages such as non-real time measuring, high cost and time consumption. A novel approach is proposed to eliminate these disadvantages. The new method determines the lubricant sample conditions with respect to electrical characteristics by using artificial neural network (ANN). The study focuses on a relationship between mechanical particles (in ppm) and dielectric characteristics of the lube oil samples. Therefore, ANN method is applied to observe linear relation between observed and predicted dielectric constant and loss factor values of the engine oil samples. The electrical characteristics of the samples are observed at four frequency points (2.40 GHz, 5.80 GHz, 7.40 GHz and 9.60 GHz). ANN studies are realized by using data at these frequency points. The regression (R) coefficients are obtained as 0.7239, 0.7951, 0.8513 and 0.7463 for dielectric constant and 0.7627, 0.7196, 0.8015 and 0.7334 for dielectric loss, respectively. Moreover, the mean square error (MSE), mean absolute error (MAE) and mean absolute percentage error (MAPE) are calculated and examined. The obtained results are very sufficient and this approach can be applied to a sensor device having low cost and real time working mechanism in the future.
ISSN:0263-2241
1873-412X
DOI:10.1016/j.measurement.2019.05.087