МАТЕМАТИЧНА МОДЕЛЬ ДЛЯ ВИЗНАЧЕННЯ ЗОНИ ЗАХИСТУ У РАЗІ ДОВІЛЬНОЇ КОНФІГУРАЦІЇ РОЗТАШУВАННЯ СТРИЖНЬОВИХ БЛИСКАВКОВІДВОДІВ

МАТЕМАТИЧНА МОДЕЛЬ ДЛЯ ВИЗНАЧЕННЯ ЗОНИ ЗАХИСТУ У РАЗІ ДОВІЛЬНОЇ КОНФІГУРАЦІЇ РОЗТАШУВАННЯ СТРИЖНЬОВИХ БЛИСКАВКОВІДВОДІВ

The aim of the paper is to analyze the basic principles of design the protection zone of a complex system of airtermination rods according to the rolling sphere method, which, at the moment, is the main in the field of lightning protection and meets the requirements of modern European standards. The...

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Bibliographic Details
Date:2020
Main Authors: Коліушко, Д.Г., Істомін, О.Є., Руденко, С.С., Кіприч , С.В.
Format: Article
Language:Ukrainian
Published: Інститут електродинаміки НАН України, Київ 2020
Subjects:
метод сфери
що котиться
стрижньовий блискавковідвід
зона захисту
енергооб’єкт
підстанція
математична модель
Online Access:https://techned.org.ua/index.php/techned/article/view/233
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Journal Title:Technical Electrodynamics

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Technical Electrodynamics
Description
Summary:The aim of the paper is to analyze the basic principles of design the protection zone of a complex system of airtermination rods according to the rolling sphere method, which, at the moment, is the main in the field of lightning protection and meets the requirements of modern European standards. The problem of determining the minimum number of air-termination rods required to calculate the surface of the protection zone of any complexity, with their arbitrary height and location, is solved. Through the use of the stereometry laws of, for the first time in Ukraine, a mathematical model was developed to build such a protection zone. The operation of this model was tested on the example of an electrical substation with a voltage of 110 kV using a test computer program with a real arrangement of air-termination rods with different heights. The result of this program is a three-dimensional display of the protection zone with the possibility of visual analysis of the protection of objects from direct lightning strike with a given probability. The value of the work lies in the possibility of practical implementation of the rolling sphere method to protect power facilities of Ukraine from direct lightning strikes in accordance with the modern standard EN 62305. References 12, figures 5.

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