Integration of Novel Sensors and Machine Learning for Predictive Maintenance in Medium Voltage Switchgear to Enable the Energy and Mobility Revolutions

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Martin W Hoffmann
  • Stephan Wildermuth
  • Ralf Gitzel
  • Aydin Boyaci
  • Joerg Gebhardt
  • Holger Kaul
  • Ido Amihai
  • Bodo Forg
  • Michael Suriyah
  • Thomas Leibfried
  • Volker Stich
  • Jan Hicking
  • Martin Bremer
  • Lars Kaminski
  • Daniel Beverungen
  • Philipp zur Heiden
  • Tanja Tornede

Externe Organisationen

  • Universität Paderborn
  • ABB AG
  • Heimann Sensor GmbH
  • Karlsruher Institut für Technologie (KIT)
  • Rheinisch-Westfälische Technische Hochschule Aachen (RWTH)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer2099
FachzeitschriftSensors
Jahrgang20
Ausgabenummer7
PublikationsstatusVeröffentlicht - 8 Apr. 2020
Extern publiziertJa

Abstract

The development of renewable energies and smart mobility has profoundly impacted the future of the distribution grid. An increasing bidirectional energy flow stresses the assets of the distribution grid, especially medium voltage switchgear. This calls for improved maintenance strategies to prevent critical failures. Predictive maintenance, a maintenance strategy relying on current condition data of assets, serves as a guideline. Novel sensors covering thermal, mechanical, and partial discharge aspects of switchgear, enable continuous condition monitoring of some of the most critical assets of the distribution grid. Combined with machine learning algorithms, the demands put on the distribution grid by the energy and mobility revolutions can be handled. In this paper, we review the current state-of-the-art of all aspects of condition monitoring for medium voltage switchgear. Furthermore, we present an approach to develop a predictive maintenance system based on novel sensors and machine learning. We show how the existing medium voltage grid infrastructure can adapt these new needs on an economic scale.

ASJC Scopus Sachgebiete

Ziele für nachhaltige Entwicklung

Zitieren

Integration of Novel Sensors and Machine Learning for Predictive Maintenance in Medium Voltage Switchgear to Enable the Energy and Mobility Revolutions. / Hoffmann, Martin W; Wildermuth, Stephan; Gitzel, Ralf et al.
in: Sensors, Jahrgang 20, Nr. 7, 2099, 08.04.2020.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Hoffmann, MW, Wildermuth, S, Gitzel, R, Boyaci, A, Gebhardt, J, Kaul, H, Amihai, I, Forg, B, Suriyah, M, Leibfried, T, Stich, V, Hicking, J, Bremer, M, Kaminski, L, Beverungen, D, Heiden, PZ & Tornede, T 2020, 'Integration of Novel Sensors and Machine Learning for Predictive Maintenance in Medium Voltage Switchgear to Enable the Energy and Mobility Revolutions', Sensors, Jg. 20, Nr. 7, 2099. https://doi.org/10.3390/s20072099
Hoffmann, M. W., Wildermuth, S., Gitzel, R., Boyaci, A., Gebhardt, J., Kaul, H., Amihai, I., Forg, B., Suriyah, M., Leibfried, T., Stich, V., Hicking, J., Bremer, M., Kaminski, L., Beverungen, D., Heiden, P. Z., & Tornede, T. (2020). Integration of Novel Sensors and Machine Learning for Predictive Maintenance in Medium Voltage Switchgear to Enable the Energy and Mobility Revolutions. Sensors, 20(7), Artikel 2099. https://doi.org/10.3390/s20072099
Hoffmann MW, Wildermuth S, Gitzel R, Boyaci A, Gebhardt J, Kaul H et al. Integration of Novel Sensors and Machine Learning for Predictive Maintenance in Medium Voltage Switchgear to Enable the Energy and Mobility Revolutions. Sensors. 2020 Apr 8;20(7):2099. doi: 10.3390/s20072099
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abstract = "The development of renewable energies and smart mobility has profoundly impacted the future of the distribution grid. An increasing bidirectional energy flow stresses the assets of the distribution grid, especially medium voltage switchgear. This calls for improved maintenance strategies to prevent critical failures. Predictive maintenance, a maintenance strategy relying on current condition data of assets, serves as a guideline. Novel sensors covering thermal, mechanical, and partial discharge aspects of switchgear, enable continuous condition monitoring of some of the most critical assets of the distribution grid. Combined with machine learning algorithms, the demands put on the distribution grid by the energy and mobility revolutions can be handled. In this paper, we review the current state-of-the-art of all aspects of condition monitoring for medium voltage switchgear. Furthermore, we present an approach to develop a predictive maintenance system based on novel sensors and machine learning. We show how the existing medium voltage grid infrastructure can adapt these new needs on an economic scale.",
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AU - Hoffmann, Martin W

AU - Wildermuth, Stephan

AU - Gitzel, Ralf

AU - Boyaci, Aydin

AU - Gebhardt, Joerg

AU - Kaul, Holger

AU - Amihai, Ido

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AU - Suriyah, Michael

AU - Leibfried, Thomas

AU - Stich, Volker

AU - Hicking, Jan

AU - Bremer, Martin

AU - Kaminski, Lars

AU - Beverungen, Daniel

AU - Heiden, Philipp zur

AU - Tornede, Tanja

N1 - Publisher Copyright: © 2020 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2020/4/8

Y1 - 2020/4/8

N2 - The development of renewable energies and smart mobility has profoundly impacted the future of the distribution grid. An increasing bidirectional energy flow stresses the assets of the distribution grid, especially medium voltage switchgear. This calls for improved maintenance strategies to prevent critical failures. Predictive maintenance, a maintenance strategy relying on current condition data of assets, serves as a guideline. Novel sensors covering thermal, mechanical, and partial discharge aspects of switchgear, enable continuous condition monitoring of some of the most critical assets of the distribution grid. Combined with machine learning algorithms, the demands put on the distribution grid by the energy and mobility revolutions can be handled. In this paper, we review the current state-of-the-art of all aspects of condition monitoring for medium voltage switchgear. Furthermore, we present an approach to develop a predictive maintenance system based on novel sensors and machine learning. We show how the existing medium voltage grid infrastructure can adapt these new needs on an economic scale.

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KW - Thermal monitoring

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