Evaluation of the impact of different frequency dependent soil models on lightning overvoltages

Evaluation of the impact of different frequency dependent soil models on lightning overvoltages

•Wideband behaviour of grounding systems in EMT-type programs on evaluation of lightning transients.•Grounding frequency behaviour by electromagnetic model and included in ATP by means of an equivalent circuit from Vector Fitting.•Tower-footing grounding by a simple resistance can lead to significan...

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Bibliographic Details
Published in:Electric power systems research Vol. 159; pp. 40 - 49
Main Authors: Schroeder, Marco Aurélio O., de Barros, Maria Teresa Correia, Lima, Antonio C.S., Afonso, Márcio M., Moura, Rodolfo A.R.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-06-2018
Elsevier Science Ltd
Subjects:
Broadband
Dependence
Electric power lines
EMT-type programs
Equivalent circuits
Frequency dependence of soil parameters
Lightning
Lightning performance of transmission lines
Lightning strikes
Mathematical models
Parameters
Representations
Soils
Strings
Transmission lines
Wideband communications
Wideband modeling of grounding
EMT-type programs
Frequency dependence of soil parameters
Lightning performance of transmission lines
Wideband modeling of grounding
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Summary:•Wideband behaviour of grounding systems in EMT-type programs on evaluation of lightning transients.•Grounding frequency behaviour by electromagnetic model and included in ATP by means of an equivalent circuit from Vector Fitting.•Tower-footing grounding by a simple resistance can lead to significant errors in terms of grounding potential rise (GPR).•Overvoltages in insulator strings generated by the tower-footing grounding by a simple resistance are similar to those by wideband behaviour.•Considering frequency-dependent soil parameters is more intense in the GPR than in the overvoltages in insulator strings. This work assesses the influence of including the wideband behaviour of grounding systems in EMT-type programs on evaluation of transients resulting from direct lightning strikes to transmission lines. The grounding frequency behaviour is determined by using an accurate electromagnetic model and included in EMTP/ATP by means of an equivalent circuit derived from Vector Fitting technique. Furthermore, the impact of the frequency dependence of soil parameters on the lightning performance of transmission lines is addressed. It was found that representing the tower-footing grounding by a simple resistance can lead to significant errors in terms of grounding potential rise. However, for the overvoltages that appear across the insulator strings, the representation of the grounding system by a simple resistance leads to results whose accuracy is similar to those obtained using more complex representations which consider the wideband behaviour. Also, it was shown that the frequency dependence of soil parameters leads to a reduction of the grounding impulse impedance and causes a decrease of the backflashover rates, improving the lightning performance of transmission lines. In addition, the effect of considering the variation of soil parameters with frequency is more intense in the ground potential rise than in the overvoltages in the insulator strings.
ISSN:0378-7796
1873-2046
DOI:10.1016/j.epsr.2017.09.020