Influence of the current front time representation on the assessment of backflashover occurrence of transmission lines by deterministic and probabilistic calculation approaches

•The effect of the current front time representation on backflashover is shown.•Deterministic and probabilistic calculation approaches are adopted.•Front time fixed as the median Td30 and correlated with peak current are considered.•Both representations lead to close critical currents and percentage...

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Bibliographic Details
Published in:Electric power systems research 2021-08, Vol.197, p.107299, Article 107299
Main Authors: Silveira, Fernando H., Almeida, Frederico S., Visacro, Silvério, Zago, Giovanna M.P.
Format: Article
Language:English
Subjects:
Backflashover
Circuits
Current front time
Deterministic and probabilistic approaches
Electric power lines
Electric utilities
Electricity distribution
Lightning performance of transmission lines
Mathematical analysis
Mathematical models
Monte Carlo method
Monte Carlo simulation
Parameters
Simulation
Transmission lines
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Summary:•The effect of the current front time representation on backflashover is shown.•Deterministic and probabilistic calculation approaches are adopted.•Front time fixed as the median Td30 and correlated with peak current are considered.•Both representations lead to close critical currents and percentage of backflashover.•Fixed current front time as the median Td30 leads to consistent results. This work addresses the impact on the backflashover occurrence in transmission lines of two different assumptions for representing the front time of return-stroke currents, namely a constant parameter, set as the median Td30 front time, and a varying parameter, determined from expressions correlating the front time and the peak current. To support the analysis, computational simulations assuming the HEM-DE deterministic approach and the ATP-DE-MC probabilistic approach based on the application of Monte Carlo method were developed, taking typical configurations of 138- and 230-kV single circuit transmission lines as case studies. The results show that the two methods of representing the current front time lead to similar critical currents and, therefore, percentages of backflashover. The observed difference in the results demonstrated to be larger only for those cases in which the percentage of backflashover is extremely low (of the order of 1% or lower), and, therefore, do not contribute to modify the calculated outage rate of the transmission line, in most cases.
ISSN:0378-7796
1873-2046
DOI:10.1016/j.epsr.2021.107299