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Electric Field and Temperature Simulations of High-Voltage Direct Current Cables Considering the Soil Environment

Author

Listed:
  • Christoph Jörgens

    (Chair of Electromagnetic Theory, School of Electrical, Information and Media Engineering, University of Wuppertal, 42119 Wuppertal, Germany)

  • Markus Clemens

    (Chair of Electromagnetic Theory, School of Electrical, Information and Media Engineering, University of Wuppertal, 42119 Wuppertal, Germany)

Abstract

For long distance electric power transport, high-voltage direct current (HVDC) cable systems are a commonly used solution. Space charges accumulate in the HVDC cable insulations due to the applied voltage and the nonlinear electric conductivity of the insulation material. The resulting electric field depends on the material parameters of the surrounding soil environment that may differ locally and have an influence on the temperature distribution in the cable and the environment. To use the radial symmetry of the cable geometry, typical electric field simulations neglect the influence of the surrounding soil, due to different dimensions of the cable and the environment and the resulting high computational effort. Here, the environment and its effect on the resulting electric field is considered and the assumption of a possible radial symmetric temperature within the insulation is analyzed. To reduce the computation time, weakly coupled simulations are performed to compute the temperature and the electric field inside the cable insulation, neglecting insulation losses. The results of a weakly coupled simulation are compared against those of a full transient simulation, considering the insulation losses for two common cable insulations with different maximum operation temperatures. Due to the buried depth of HV cables, an approximately radial symmetric temperature distribution within the insulation is obtained for a single cable and cable pairs when, considering a metallic sheath. Furthermore, the simulations show a temperature increase of the earth–air interface above the buried cable that needs to be considered when computing the cable conductor temperature, using the IEC standards.

Suggested Citation

  • Christoph Jörgens & Markus Clemens, 2021. "Electric Field and Temperature Simulations of High-Voltage Direct Current Cables Considering the Soil Environment," Energies, MDPI, vol. 14(16), pages 1-18, August.
  • Handle: RePEc:gam:jeners:v:14:y:2021:i:16:p:4910-:d:612457
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    Citations

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    Cited by:

    1. Qi Xiong & Xiangyi Liu & Yanxin Li & Lingran Xi & Shuang Qiu, 2024. "Analysis of the Influence of Complex Terrain around DC Transmission Grounding Electrodes on Step Voltage," Energies, MDPI, vol. 17(2), pages 1-19, January.
    2. Rodolfo Araneo & Salvatore Celozzi & Stefano Lauria & Erika Stracqualursi & Gianfranco Di Lorenzo & Marco Graziani, 2022. "Recent Trends in Power Systems Modeling and Analysis," Energies, MDPI, vol. 15(23), pages 1-7, December.
    3. Bogdan Perka & Karol Piwowarski, 2021. "A Method for Determining the Impact of Ambient Temperature on an Electrical Cable during a Fire," Energies, MDPI, vol. 14(21), pages 1-19, November.

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