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Analiza zaščite stikališča pred direktnim udarom strele
ID KRIŠTOF, PETRA (Author), ID Blažič, Boštjan (Mentor) More about this mentor... This link opens in a new window, ID PODKORITNIK, SIMON (Comentor)

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Abstract
Magistrsko delo obsega analizo uporabe zaščite pred direktnimi atmosferskimi razelektritvami v stikališčih. V prvem delu je predstavljen teoretični pristop k obravnavi atmosferskih razelektritev in od česa je odvisna verjetnost udarov strel v objekt. V nadaljevanju so predstavljene metode za analizo zaščite pred atmosferskimi razelektritvami. Podrobneje je opisana metoda kotaleče krogle, ki je bila uporabljena tudi v simulacijskih izračunih. Namen magistrskega dela je bil ugotoviti najprimernejšo metodo za izračun radija navidezne krogle pri analizah strelovodne zaščite v stikališčih z metodo kotaleče krogle v slovenskem prostoru. Radij kotaleče krogle je odvisen od toka, pred katerim želimo zaščititi naprave v stikališču, in dveh konstant, ki sta bili skozi leta empirično določeni na podlagi elektrogeometrijskih modelov s strani različnih raziskovalcev. Na podlagi analiz na modelu stikališča v računalniškem programu, sem primerjala izračune radijev po petih izbranih različnih metodah (različnih uporabljenih konstantah) in ugotovila, da je za toke, ki jih v Sloveniji uporabljamo za koordinacijo strelovodne zaščite, najbolj konservativen pristop izračuna po ugotovitvah Inštituta inženirjev elektrotehnike in elektronike (IEEE), najmanj pa po določitvah radijev po standardu IEC 62305-1 (oziroma povzeto po standardu - Tehnična smernica TSG-N-003:2021: Zaščita pred delovanjem strele). Slednji je z ekonomskega vidika sicer najbolj ugoden, z vidika stopnje zanesljivosti zaščite pred udari strel pa najmanj. Ob upoštevanju obeh zahtev se je kot najprimernejša metoda za izračun radija kotaleče krogle izkazal izračun s konstantami, ki jih je empirično določil Brown.

Language:Slovenian
Keywords:atmosferska razelektritev, stikališče, metoda kotaleče krogle, zaščitna vrv, strelovodna konica, radij
Work type:Master's thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2022
PID:20.500.12556/RUL-140230 This link opens in a new window
COBISS.SI-ID:121250563 This link opens in a new window
Publication date in RUL:13.09.2022
Views:865
Downloads:132
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Secondary language

Language:English
Title:Analysis of switchyard protection against direct lightning strike
Abstract:
The master’s thesis covers analysing of the use of lightning protection in substations. The first part presents the theoretical approach of the formation of lightning discharges and reasons for probability of direct lightning strikes to object. Then are presented methods for the analysis of protection against direct lightning discharges. The rolling sphere method which is also used in simulation calculations is described more in detail. The purpose of the master’s thesis was to determine the most optimal method for calculating the radius of a virtual sphere in the analysis of lightning protection in substations with the rolling sphere method in our country. The radius of the rolling sphere depends on the current against which we want to protect the devices in the substation and two constants that have been empirically determined over the years, based on electrogeometric models, by various researchers. Based on the analyzes of the model of the substation, I compared the calculations of radii according to five selected different methods (different constants used) and found that for the currents used for the coordination of lightning protection in Slovenia, the most conservative method for calculating radius is according to the findings of the Institute of Electrical and Electronics Engineers (IEEE), and the least according to the determination of radii by the standard IEC 62305-1. The latter is the most adequate from an economic point of view but the least from the point of view of the degree of reliability of protection against lightning strikes. Taking into account both requirements, the calculation using the constants determined by Brown proved to be the most suitable method for calculating the radius of a rolling sphere.

Keywords:lightning discharge, substation, Rolling sphere method, ground wire, lightning rod, radius

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