Gas turbine monitoring using neural network dynamic nonlinear autoregressive with external exogenous input modelling

The main purpose of the present work is to propose an effective tool which allows to ensure the protection and the safety measures against the instability phenomena in a gas turbine based on the modelling of its dynamic behaviour. In order to provide an efficient diagnostic strategy for this type of...

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Veröffentlicht in:	Mathematics and computers in simulation 2021-01, Vol.179, p.23-47
Hauptverfasser:	Rahmoune, Mohamed Ben, Hafaifa, Ahmed, Kouzou, Abdellah, Chen, XiaoQi, Chaibet, Ahmed
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Sprache:	eng
Schlagworte:	Artificial neural networks Dynamic nonlinear autoregressive with external exogenous input modelling Engineering Sciences Gas turbine Monitoring
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creator	Rahmoune, Mohamed Ben Hafaifa, Ahmed Kouzou, Abdellah Chen, XiaoQi Chaibet, Ahmed
description	The main purpose of the present work is to propose an effective tool which allows to ensure the protection and the safety measures against the instability phenomena in a gas turbine based on the modelling of its dynamic behaviour. In order to provide an efficient diagnostic strategy for this type of rotating machine, a supervision system based on the development of artificial neural network tools is proposed in this paper. Where, the dynamic nonlinear autoregressive approach with external exogenous input NARX is used for the identification of the studied system dynamics, to monitor the vibrational dynamics of the operating turbine. This leads to establishing a solution for the different ranges of rotational speed and ensuring dynamic stability through the vibration indicators, determined by the proposed neural network approach. Also, offer a normalized mean square error on the order of 3.8414e−3 for the high-pressure turbine, 1.29152e−1 for the gas control valve and 2.12090 e-4 for the air control valve. Furthermore, it permits the vibration monitoring and efficiently extracts the essentials of dynamic model behaviour, to effectively size the operating gas turbine system. The obtained results of the application of the proposed approach on the gas turbine system presented in this paper proves its ability for the detection and the management on real-time of the eventual failures caused mainly by intrinsic vibrations. On the other side, these results prove clearly the effectiveness of the use of the artificial neural networks as a very powerful calculation tools in the modelling of complex dynamic systems.
doi_str_mv	10.1016/j.matcom.2020.07.017
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The obtained results of the application of the proposed approach on the gas turbine system presented in this paper proves its ability for the detection and the management on real-time of the eventual failures caused mainly by intrinsic vibrations. 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subjects	Artificial neural networks Dynamic nonlinear autoregressive with external exogenous input modelling Engineering Sciences Gas turbine Monitoring
title	Gas turbine monitoring using neural network dynamic nonlinear autoregressive with external exogenous input modelling
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