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The role of neural networks in predicting the thermal life of electrical machines

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posted on 2020-02-28, 11:15 authored by Gulrukh Turabee, Muhammad Raza Khowja, Paolo Giangrande, Vincenzo Madonna, Georgina CosmaGeorgina Cosma, Gaurang Vaki, Chris Gerada, Michael Galea
For a continuous mode of operation, insulating material in an electrical machine is subject to constant thermal, electrical, mechanical and environmental stresses where thermal stress is a major cause of gradual insulation deterioration, which leads to ultimate winding failure. To guarantee a satisfactory lifetime, electrical machines are designed to operate winding temperatures well below their thermal class, which results in an oversized design. Standard methods for thermal lifetime evaluation of electrical machines are based on accelerated aging tests that require several months of testing. This paper proposes an alternative approach relying on a supervised neural network that significantly shortens the time demanded by accelerated aging tests for thermal lifetime evaluation of electrical machines. The supervised neural network is based on a feedforward neural network trained with Bayesian Regularisation Backpropagation (BRP) algorithm. The network predicts the wire insulation resistance with respect to its aging time at aging temperatures of 250ºC, 270ºC and 290ºC, which reveals a good match of prediction outcomes against the experimental findings. The mean time-to-failure at each aging temperature is extracted using the Weibull probability plot in order to compare the Arrhenius curves for both conventional and proposed method and a relative error of 0.125% is achieved in terms of their temperature indexes. In addition, the analysis shows a time saving of 1680 hours (57% time saved of experimental test procedure) when the thermal life of the insulating material is predicted using BRP neural network.

History

School

  • Science

Department

  • Computer Science

Published in

IEEE Access

Volume

8

Pages

40283 - 40297

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Version

  • VoR (Version of Record)

Rights holder

© The Authors

Publisher statement

This work is licensed under a Creative Commons Attribution 4.0 License. For more information, see https://creativecommons.org/licenses/by/4.0/

Acceptance date

2020-02-07

Publication date

2020-02-24

Copyright date

2020

eISSN

2169-3536

Language

  • en

Depositor

Dr Georgina Cosma. Deposit date: 27 February 2020

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