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Transient Thermal Analysis of the Circuit Breaker Current Path with the Use of FEA Simulation

Author

Listed:
  • Michał Szulborski

    (Faculty of Electrical Engineering, Electrical Power Engineering Institute, Warsaw University of Technology, 00662 Warsaw, Poland)

  • Sebastian Łapczyński

    (Faculty of Electrical Engineering, Electrical Power Engineering Institute, Warsaw University of Technology, 00662 Warsaw, Poland)

  • Łukasz Kolimas

    (Faculty of Electrical Engineering, Electrical Power Engineering Institute, Warsaw University of Technology, 00662 Warsaw, Poland)

  • Daniel Zalewski

    (PGE Dystrybucja S.A. Division in Warsaw, 04470 Warsaw, Poland)

Abstract

The finite element analysis (FEA) is an essential and powerful numerical method that can explicitly optimize the design process of electrical devices. In this paper, the employment of the finite element method (FEM) as ANSYS is proposed in order to aid electrical apparatus engineering and modeling of low voltage modular circuit breakers. The procured detailed model of a miniature circuit breaker (MCB) was undergoing transient thermal simulations of the current path. Acquired data were juxtapositioned with experimental data procured in the laboratory. The reflection of the simulation approach was clearly noted in the experimental results. Mutual areas of the modeled element expressed similar physical properties and robustness errors while tested in the specific conditions—faithfully reflecting those that were experimented with. Moreover, the physical phenomena essential for electrical engineering could be determined on the model stage. These types of 3D models can be used to analyze the thermal behavior of the current path during the current flowing condition.

Suggested Citation

  • Michał Szulborski & Sebastian Łapczyński & Łukasz Kolimas & Daniel Zalewski, 2021. "Transient Thermal Analysis of the Circuit Breaker Current Path with the Use of FEA Simulation," Energies, MDPI, vol. 14(9), pages 1-24, April.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:9:p:2359-:d:540758
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    References listed on IDEAS

    as
    1. Sebastian Łapczyński & Michał Szulborski & Karol Gołota & Łukasz Kolimas & Łukasz Kozarek, 2020. "Mechanical and Electrical Simulations of the Tulip Contact System," Energies, MDPI, vol. 13(19), pages 1-28, September.
    2. Michał Szulborski & Sebastian Łapczyński & Łukasz Kolimas & Łukasz Kozarek & Desire Dauphin Rasolomampionona, 2020. "Calculations of Electrodynamic Forces in Three-Phase Asymmetric Busbar System with the Use of FEM," Energies, MDPI, vol. 13(20), pages 1-26, October.
    3. Fabio Di Napoli & Alessandro Magnani & Marino Coppola & Pierluigi Guerriero & Vincenzo D’Alessandro & Lorenzo Codecasa & Pietro Tricoli & Santolo Daliento, 2017. "On-Line Junction Temperature Monitoring of Switching Devices with Dynamic Compact Thermal Models Extracted with Model Order Reduction," Energies, MDPI, vol. 10(2), pages 1-14, February.
    4. Michał Szulborski & Sebastian Łapczyński & Łukasz Kolimas & Łukasz Kozarek & Desire Dauphin Rasolomampionona & Tomasz Żelaziński & Adam Smolarczyk, 2021. "Transient Thermal Analysis of NH000 gG 100A Fuse Link Employing Finite Element Method," Energies, MDPI, vol. 14(5), pages 1-18, March.
    5. Adrian Plesca & Lucian Mihet-Popa, 2020. "Thermal Analysis of Power Rectifiers in Steady-State Conditions," Energies, MDPI, vol. 13(8), pages 1-19, April.
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    Cited by:

    1. Alin Dragomir & Maricel Adam & Mihai Andrusca & Gheorghe Grigoras & Marian Dragomir & Seeram Ramakrishna, 2021. "Modeling, Simulation and Monitoring of Electrical Contacts Temperature in Railway Electric Traction," Mathematics, MDPI, vol. 9(24), pages 1-30, December.
    2. Dušan Medveď & Ľubomír Beňa & Michal Kolcun & Marek Pavlík, 2022. "Influence of Impurities in Electrical Contacts on Increasing the Efficiency of Energy Transmission," Energies, MDPI, vol. 15(7), pages 1-13, March.

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