Integrated model of transmission tower surge impedance and multilayer grounding system based on full-wave approach

•A full-wave model based on MoM has been presented for calculating the input impedance of integrated model consisting of a tower and grounding system.•Complex HVDC detailed tower and the grounding system’s real geometry in the frequency domain has been modeled.•The effects of ground structure and ge...

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Bibliographic Details
Published in:Electric power systems research 2021-09, Vol.198, p.107355, Article 107355
Main Authors: Ghomi, M., Zhang, H., Leth Bak, C., Faria da Silva, F., Yin, K.
Format: Article
Language:English
Subjects:
Electrodes
Evaluation
Frequencies
Frequency domain analysis
Harmonic analysis
Harmonic impedance
High frequencies
Impedance
Method of moment
Multilayer grounding system
Multilayers
Numerical methods
Propagation
Resonant frequencies
Studies
Tower surge impedance
Transmission electron microscopy
Transmission lines
Transmission towers
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Summary:•A full-wave model based on MoM has been presented for calculating the input impedance of integrated model consisting of a tower and grounding system.•Complex HVDC detailed tower and the grounding system’s real geometry in the frequency domain has been modeled.•The effects of ground structure and geometry on the hormonic impedance have considered.•Multilayer modeling of grounding system using thin wire approximation has been performed. In this paper, a full-wave approach based on the method of moment (MoM) is proposed to investigate the harmonic impedance of a tower and its connected ground electrode in the frequency domain. The accuracy of the results is validated in comparison with NEC-4. The proposed numerical method is also employed for the evaluation of a full-sized HVDC tower harmonic impedance. The main contribution is the assessment of the harmonic impedance of a real tower with detailed geometrical information connected to the multi-layer grounding system. The validity of the transmission line method is evaluated through comparison with the results computed using the developed full-wave approach at the high frequency. In addition, the simulation results assure that a real tower’s harmonic impedance could be smaller than the value estimated for very simplified models at the high frequencies. When the full-wave method is applied and the precise model of the ground electrode is considered, the harmonic impedance of the tower in the frequency domain and consequently, the transient impedance in the time domain are different, while the grounding system is assumed to be a perfectly conducting plane. These differences can become very significant, especially close to the resonant frequencies. The harmonic impedance of power transmission towers is strongly influenced by the connected grounding system.
ISSN:0378-7796
1873-2046
DOI:10.1016/j.epsr.2021.107355