Reducing number of high voltage overhead line outages caused by lightning applying line surge arresters

Autor: Piliškić, Silvia
Přispěvatelé: Uglešić, Ivo
Jazyk: chorvatština
Rok vydání: 2020
Předmět:
Popis: Atmosferska pražnjenja jedan su od najčešćih uzroka ispada nadzemnih visokonaponskih vodova iz pogona. Metoda za smanjenje broja ispada nadzemnih visokonaponskih vodova uzrokovanih atmosferskim prenaponima primjenom odvodnika prenapona na nadzemnom vodu, predložena u ovom radu, koristi podatke sustava za lociranje atmosferskih pražnjenja. Metoda obuhvaća određivanje rasporeda odvodnika prenapona na stupovima prema relativnoj ugroženosti stupova nadzemnog voda te broja odvodnika na pojedinom stupu prema vjerojatnosti pojave povratnog preskoka ovisno o kombinaciji vrijednosti impedancije uzemljenja stupa i amplitude struje atmosferskog pražnjenja. Razvijen je frekvencijski ovisni model uzemljivača stupa modeliran kao RLC strujni krug uz poznate izraze za parametre R, L i C za zadanu geometriju uzemljivača stupa i za frekvencijski ovisne parametre specifičnog otpora i permitivnosti zemlje. Vrijednosti amplitude i kuta impulsne impedancije uzemljivača izmjerene impulsnim strujama odgovaraju vrijednostima izračunatim korištenjem frekvencijski ovisnog modela impedancije uzemljivača. Na primjeru 110 kV stupa dalekovoda pokazano je da se za tla s visokim specifičnim otporom tla impedancija stupa smanjuje s porastom frekvencije što utječe na smanjenje vjerojatnosti pojave povratnog preskoka kod atmosferskih pražnjenja. U radu je ostvaren znanstveni doprinos: predložena je metoda za odabir i određivanje razmještaja odvodnika prenapona na visokonaponskim nadzemnim vodovima te je razvijen frekvencijski ovisni model impedancije uzemljivača stupova. Lightning is one of the most common cause of the overhead lines’ outages. A method for reducing the number of high voltage overhead line outages caused by lightning applying line surge arresters, which is proposed in this PhD thesis, uses the lightning location system data. The method encompasses the determination of the line surge arresters distribution on the towers along the overhead line according to the relative severity condition of the lightning performance of each tower in relation to the others. The probability of the backflashover occurrence depending on the tower grounding impedance and lightning current amplitude is taken into account. The frequency-dependent model of the tower grounding is developed and modelled as the RLC electrical circuit with the given expressions for RLC for the particular tower grounding geometry and frequency-dependent soil resistivity and permittivity. The frequency-dependent grounding impedance behaviour calculated using the RLC electrical circuit corresponds well with the experimental measurements, in terms of amplitude and phase angle. The simulations of the 110 kV overhead line tower stroke by the lightning have shown that the tower grounding impedance decreases with high frequencies and that the probability of the backflashover on the insulator string is lower when taking into account the frequency dependence of the tower grounding impedance for configurations with high soil resistivity. The scientific contribution in PhD thesis is as follows: the method for selection and distribution of the line surge arresters has been proposed and the model of the frequency-dependent model of the tower grounding impedance has been developed.
Databáze: OpenAIRE
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