Investigation of Impulse Discharges in Two-Layer Wet and Dry Soil Sample

Published in 2015

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Summary

Soil ionization phenomena in dry soils are considered the main cause of the observed nonlinear behavior under impulse voltages, the very high resistivity of the dry soil falling dramatically at the instant of breakdown. In this study, a two-layer columnar test sample composed of a glass bubble material was used to investigate the associated ionization and breakdown processes. Three voltage dividers were utilized to measure the applied lightning voltage and intermediate voltages at two probes located at fixed heights in the sample. A current transformer was used to measure the current flowing through the sample. When the voltage is high enough and after a certain delay time, current flow from the active electrode was detected by the current transformer, but the measured applied voltage did not show any indication of breakdown. The current stream in the dry material could be due to the ionization of the air voids among the dry grains, which could support the ionization phenomenon in dry soil, and the wet part voltage rose at the instant of current rise, while the voltage across the dry section shows occurrence of a breakdown. An equivalent circuit model of the sample with EMTP software was also proposed to simulate the behavior of the discharge.