I.A. Stathopulos scite author profile

In this paper, a methodology has been proposed according to which, after carrying out a set of soil's resistivity measurements, one can compute the parameters of the multilayer earth structure using a genetic algorithm (GA). The results provided by the GA constitute the indispensable data that can be used in circuital or field simulations of grounding systems. The methodology, developed on the base of the PC Opera software package, allows to proceed toward a very efficient simulation of the grounding system and an accurate calculation of potential on the ground's surface.

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Dielectric behaviour of polluted porcelain insulators

Topalis

Gonos

Stathopulos

2001

IEE Proc., Gener. Transm. Distrib.

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The dielectric behaviour of polluted porcelain insulators is investigated by means of experimental tests and simulation methods. The elaboration of the experimental results, using well known mathematical models of polluted insulators, leads to the identification of the arc constants. It was found out that the arc constants are independent of the insulator type and of the experimental pollution procedure (salt fog or solid layer cool fog method). This allows the formulation of a generalised simulation model of polluted insulators. The critical parameters for the flashover (voltage, current and gradient) are computed by means of the developed model, using only the geometric dimensions of the insulator, the pollution severity and the arc constants. Different types of porcelain insulators are investigated and the variation of the critical parameters upon the density of the pollution layer is determined. The influence of the geometrical dimensions and of the shape of the insulator to the critical parameters is also investigated. Furthermore, analytical relations are defined, between the computed critical parameters and the salt deposit density as well as the dimensions, the shape and the type of the insulator.

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Design of an artificial neural network for the estimation of the flashover voltage on insulators

Kontargyri

Gialketsi

Tsekouras

et al. 2007

Electric Power Systems Research

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Artificial neural network optimisation methodology for the estimation of the critical flashover voltage on insulators

Asimakopoulou

Kontargyri

Tsekouras

et al. 2009

IET Sci. Meas. Technol.

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Measurement of the resistive leakage current in surge arresters under artificial rain test and impulse voltage subjection

Christodoulou

Avgerinos

Ekonomou

et al. 2009

IET Sci. Meas. Technol.

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Surge arresters are installed on transmission and distribution lines and in substations between phase and earth in order to improve the lightning performance and reduce the failure rates. High-energy stresses and housing deterioration are the main factors of degradation and damage of surge arresters. Thus, there is need for testing and monitoring the electrical network's arresters, in order to verify their good condition and their ability to effectively protect the lines. The most common method used, is the measurement of the arresters' total leakage current (with the isolation of the resistive part), which is an indicator of the arrester's condition, since every change, deterioration or damage leads to an increase of the resistive leakage current. In the current work, the total leakage current of two 20 kV ZnO surge arresters without gaps is measured and the resistive component for three different cases (brand new arresters, measurements under artificial rain and measurements after impulse voltage subjection) is computed. The analysis of the produced results can be useful in correct diagnosis of arresters' condition and in more effective schedule maintenance, since any recorded high-resistive currents do not necessarily result arrester's repair or replacement.

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I.A. Stathopulos

Estimation of Multilayer Soil Parameters Using Genetic Algorithms

Dielectric behaviour of polluted porcelain insulators

Design of an artificial neural network for the estimation of the flashover voltage on insulators

Artificial neural network optimisation methodology for the estimation of the critical flashover voltage on insulators

Measurement of the resistive leakage current in surge arresters under artificial rain test and impulse voltage subjection

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