Grounding System Modeling and Evaluation Using Integrated Circuit Based Fast Relaxed Vector Fitting Approach, Considering Soil Ionization

Grounding System Modeling and Evaluation Using Integrated Circuit Based Fast Relaxed Vector Fitting Approach, Considering Soil Ionization

Since high voltage transmission line towers or wind turbines structures are installed in high-altitude areas, it is essential to achieve a high overvoltage protection system against direct and indirect lightning strikes collisions. The lightning current must be discharged quickly into the protective...

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Main Authors: Maziyar Fakhraei, Mehrdad Mahmoudian, Eduardo Manuel Godinho Rodrigues
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:Applied Sciences
Subjects:
grounding system
lightning stroke
soil ionization
vector fitting
Online Access:https://www.mdpi.com/2076-3417/10/16/5632
id doaj-542a08c88c3545bf9802fdc0d62688ae
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spelling doaj-542a08c88c3545bf9802fdc0d62688ae2020-11-25T03:56:12ZengMDPI AGApplied Sciences2076-34172020-08-01105632563210.3390/app10165632Grounding System Modeling and Evaluation Using Integrated Circuit Based Fast Relaxed Vector Fitting Approach, Considering Soil IonizationMaziyar Fakhraei0Mehrdad Mahmoudian1Eduardo Manuel Godinho Rodrigues2Department of Control, Fars Regional Electric Company, Shiraz 71346, IranElectrical Engineering Department, Firouzabad Institute of Higher Education, Firouzabad 74717, IranSchool of Design, University of Aveiro, Management and Production Technologies of Northern Aveiro (ESAN), 3720-509 Oliveira de Azeméis, PortugalSince high voltage transmission line towers or wind turbines structures are installed in high-altitude areas, it is essential to achieve a high overvoltage protection system against direct and indirect lightning strikes collisions. The lightning current must be discharged quickly into the protective earth, to prevent the dangerous over-voltages formation and define a reference voltage node. This paper presents a novel model to assess the behavior of the grounding system, based on Pocklington integral equations under lightning magnetic fields and variations in soil ionization, in which an explicit circuit-based vector fitting RLC admittance branches are proposed. The frequency-dependent behavior of grounding system frequency response and soil ionization effect is modeled in time domain, straightly to implement into the electro-magnetic transient program (EMTP). The model verification contains horizontal, vertical, and their combinations of grounding grids to represent the complete investigations under lightning strikes. The harmonic impedance mathematical formulations and principles are derived based on a rational function, that could be applicable on ground potential rise (GPR) investigation.https://www.mdpi.com/2076-3417/10/16/5632grounding systemlightning strokesoil ionizationvector fitting
collection DOAJ
language English
format Article
sources DOAJ
author Maziyar Fakhraei
Mehrdad Mahmoudian
Eduardo Manuel Godinho Rodrigues
spellingShingle Maziyar Fakhraei
Mehrdad Mahmoudian
Eduardo Manuel Godinho Rodrigues
Grounding System Modeling and Evaluation Using Integrated Circuit Based Fast Relaxed Vector Fitting Approach, Considering Soil Ionization
Applied Sciences
grounding system
lightning stroke
soil ionization
vector fitting
author_facet Maziyar Fakhraei
Mehrdad Mahmoudian
Eduardo Manuel Godinho Rodrigues
author_sort Maziyar Fakhraei
title Grounding System Modeling and Evaluation Using Integrated Circuit Based Fast Relaxed Vector Fitting Approach, Considering Soil Ionization
title_short Grounding System Modeling and Evaluation Using Integrated Circuit Based Fast Relaxed Vector Fitting Approach, Considering Soil Ionization
title_full Grounding System Modeling and Evaluation Using Integrated Circuit Based Fast Relaxed Vector Fitting Approach, Considering Soil Ionization
title_fullStr Grounding System Modeling and Evaluation Using Integrated Circuit Based Fast Relaxed Vector Fitting Approach, Considering Soil Ionization
title_full_unstemmed Grounding System Modeling and Evaluation Using Integrated Circuit Based Fast Relaxed Vector Fitting Approach, Considering Soil Ionization
title_sort grounding system modeling and evaluation using integrated circuit based fast relaxed vector fitting approach, considering soil ionization
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2020-08-01
description Since high voltage transmission line towers or wind turbines structures are installed in high-altitude areas, it is essential to achieve a high overvoltage protection system against direct and indirect lightning strikes collisions. The lightning current must be discharged quickly into the protective earth, to prevent the dangerous over-voltages formation and define a reference voltage node. This paper presents a novel model to assess the behavior of the grounding system, based on Pocklington integral equations under lightning magnetic fields and variations in soil ionization, in which an explicit circuit-based vector fitting RLC admittance branches are proposed. The frequency-dependent behavior of grounding system frequency response and soil ionization effect is modeled in time domain, straightly to implement into the electro-magnetic transient program (EMTP). The model verification contains horizontal, vertical, and their combinations of grounding grids to represent the complete investigations under lightning strikes. The harmonic impedance mathematical formulations and principles are derived based on a rational function, that could be applicable on ground potential rise (GPR) investigation.
topic grounding system
lightning stroke
soil ionization
vector fitting
url https://www.mdpi.com/2076-3417/10/16/5632
work_keys_str_mv AT maziyarfakhraei groundingsystemmodelingandevaluationusingintegratedcircuitbasedfastrelaxedvectorfittingapproachconsideringsoilionization
AT mehrdadmahmoudian groundingsystemmodelingandevaluationusingintegratedcircuitbasedfastrelaxedvectorfittingapproachconsideringsoilionization
AT eduardomanuelgodinhorodrigues groundingsystemmodelingandevaluationusingintegratedcircuitbasedfastrelaxedvectorfittingapproachconsideringsoilionization
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