Urban Rail Transit (Sep 2024)

Dynamic Harmonic Distortion Analysis and Mitigation Strategies for DC Third Rail Systems

  • Dick Sang Hoo,
  • Kein Huat Chua,
  • Yun Seng Lim,
  • Li Wang,
  • N. Rajasekar

DOI
https://doi.org/10.1007/s40864-024-00230-8
Journal volume & issue
Vol. 10, no. 3
pp. 200 – 212

Abstract

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Abstract Harmonic distortions in DC third rail systems can cause overheating of electric motors and transformers. Single-tuned filters and shunt active harmonic filters (SAHFs) are often used to mitigate the harmonic distortions. However, there is a lack of studies on the effects of train dynamics on harmonic distortions. This paper aims to investigate the influence of dynamic train behaviors for a DC third rail system and provide recommendations for the design of single-tuned filters and SAHFs to mitigate the harmonic distortions. The traction power supply system of a DC third rail system in Malaysia is modeled using ETAP-eTraX and MATLAB-Simulink software for the investigation. The ETAP-eTraX software is used to accurately compute the dynamic behavior of the train, while MATLAB-Simulink allows for the assessment of the impact of train behavior on the rail track, as well as the harmonic effect of the railway power network on the train. The findings showed that the SAHF exhibits strong adaptability and superior filtering performance compared to the single-tuned filter in addressing dynamic harmonic distortion in traction power supply systems. This study emphasizes the significance of incorporating harmonic mitigation devices, particularly for managing dynamic harmonic distortion based on actual train consumption patterns.

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