The Experts below are selected from a list of 612 Experts worldwide ranked by ideXlab platform
Bruno Jurišić - One of the best experts on this subject based on the ideXlab platform.
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Evaluating the overvoltage performance of an Overhead Line taking into account the frequency-dependence of its Tower’s grounding electrodes with high soil resistivity
International Journal of Electrical Power & Energy Systems, 2020Co-Authors: Silvia Piliškić, Ivo Uglešić, Bruno JurišićAbstract:Abstract The paper demonstrates the importance of taking the frequency-dependence of the Tower grounding impedance into account when studying the lightning performance of an Overhead Line located in an area with high soil resistivity. Towers’ impulse grounding impedance measurements and their rational approximations are used to construct a wideband model of the Towers’ grounding electrodes in an EMTP-type software program. In order to examine the impact of Tower grounding impedances, simulations of lightning strokes to the Overhead Line Tower were performed using an EMTP-type tool in the following three different cases: constant grounding impedance of the Tower hit by a lightning stroke, frequency-dependent Tower grounding impedance and frequency-dependent Tower grounding impedance for the Tower equipped with a Line Surge Arrester (LSA) installed at the lowest phase. The simulations have shown the influence of the frequency-dependence of the Tower grounding impedance on the level of the build-up voltage across the Tower’s insulator string and consequently on the flashover occurrence in the observed configuration with a high soil resistivity.
Bruno Jurisic - One of the best experts on this subject based on the ideXlab platform.
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evaluating the overvoltage performance of an Overhead Line taking into account the frequency dependence of its Tower s grounding electrodes with high soil resistivity
International Journal of Electrical Power & Energy Systems, 2020Co-Authors: Silvia Piliskic, Ivo Uglesic, Bruno JurisicAbstract:Abstract The paper demonstrates the importance of taking the frequency-dependence of the Tower grounding impedance into account when studying the lightning performance of an Overhead Line located in an area with high soil resistivity. Towers’ impulse grounding impedance measurements and their rational approximations are used to construct a wideband model of the Towers’ grounding electrodes in an EMTP-type software program. In order to examine the impact of Tower grounding impedances, simulations of lightning strokes to the Overhead Line Tower were performed using an EMTP-type tool in the following three different cases: constant grounding impedance of the Tower hit by a lightning stroke, frequency-dependent Tower grounding impedance and frequency-dependent Tower grounding impedance for the Tower equipped with a Line Surge Arrester (LSA) installed at the lowest phase. The simulations have shown the influence of the frequency-dependence of the Tower grounding impedance on the level of the build-up voltage across the Tower’s insulator string and consequently on the flashover occurrence in the observed configuration with a high soil resistivity.
Silvia Piliškić - One of the best experts on this subject based on the ideXlab platform.
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Evaluating the overvoltage performance of an Overhead Line taking into account the frequency-dependence of its Tower’s grounding electrodes with high soil resistivity
International Journal of Electrical Power & Energy Systems, 2020Co-Authors: Silvia Piliškić, Ivo Uglešić, Bruno JurišićAbstract:Abstract The paper demonstrates the importance of taking the frequency-dependence of the Tower grounding impedance into account when studying the lightning performance of an Overhead Line located in an area with high soil resistivity. Towers’ impulse grounding impedance measurements and their rational approximations are used to construct a wideband model of the Towers’ grounding electrodes in an EMTP-type software program. In order to examine the impact of Tower grounding impedances, simulations of lightning strokes to the Overhead Line Tower were performed using an EMTP-type tool in the following three different cases: constant grounding impedance of the Tower hit by a lightning stroke, frequency-dependent Tower grounding impedance and frequency-dependent Tower grounding impedance for the Tower equipped with a Line Surge Arrester (LSA) installed at the lowest phase. The simulations have shown the influence of the frequency-dependence of the Tower grounding impedance on the level of the build-up voltage across the Tower’s insulator string and consequently on the flashover occurrence in the observed configuration with a high soil resistivity.
Silvia Piliskic - One of the best experts on this subject based on the ideXlab platform.
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evaluating the overvoltage performance of an Overhead Line taking into account the frequency dependence of its Tower s grounding electrodes with high soil resistivity
International Journal of Electrical Power & Energy Systems, 2020Co-Authors: Silvia Piliskic, Ivo Uglesic, Bruno JurisicAbstract:Abstract The paper demonstrates the importance of taking the frequency-dependence of the Tower grounding impedance into account when studying the lightning performance of an Overhead Line located in an area with high soil resistivity. Towers’ impulse grounding impedance measurements and their rational approximations are used to construct a wideband model of the Towers’ grounding electrodes in an EMTP-type software program. In order to examine the impact of Tower grounding impedances, simulations of lightning strokes to the Overhead Line Tower were performed using an EMTP-type tool in the following three different cases: constant grounding impedance of the Tower hit by a lightning stroke, frequency-dependent Tower grounding impedance and frequency-dependent Tower grounding impedance for the Tower equipped with a Line Surge Arrester (LSA) installed at the lowest phase. The simulations have shown the influence of the frequency-dependence of the Tower grounding impedance on the level of the build-up voltage across the Tower’s insulator string and consequently on the flashover occurrence in the observed configuration with a high soil resistivity.
Ivo Uglesic - One of the best experts on this subject based on the ideXlab platform.
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evaluating the overvoltage performance of an Overhead Line taking into account the frequency dependence of its Tower s grounding electrodes with high soil resistivity
International Journal of Electrical Power & Energy Systems, 2020Co-Authors: Silvia Piliskic, Ivo Uglesic, Bruno JurisicAbstract:Abstract The paper demonstrates the importance of taking the frequency-dependence of the Tower grounding impedance into account when studying the lightning performance of an Overhead Line located in an area with high soil resistivity. Towers’ impulse grounding impedance measurements and their rational approximations are used to construct a wideband model of the Towers’ grounding electrodes in an EMTP-type software program. In order to examine the impact of Tower grounding impedances, simulations of lightning strokes to the Overhead Line Tower were performed using an EMTP-type tool in the following three different cases: constant grounding impedance of the Tower hit by a lightning stroke, frequency-dependent Tower grounding impedance and frequency-dependent Tower grounding impedance for the Tower equipped with a Line Surge Arrester (LSA) installed at the lowest phase. The simulations have shown the influence of the frequency-dependence of the Tower grounding impedance on the level of the build-up voltage across the Tower’s insulator string and consequently on the flashover occurrence in the observed configuration with a high soil resistivity.
