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Preizkušanje metod za lokalizacijo motenj v velikih elektroenergetskih sistemih
ID ŠPAN, JAN (Author), ID Rudež, Urban (Mentor) More about this mentor... This link opens in a new window

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Abstract
Tehnologija merjenja kazalcev (fazorjev) sinusnih električnih veličin v EES je že nekaj časa znana. Znižanje nabavne cene opreme je vodilo v vedno več nameščenih naprav. Velik potencial uporabe podatkov za vzpostavljanje in vodenje pametnih omrežij pa še ni dovolj izkoriščen. Slabost za uporabo v te namene predstavlja odvisnost od GPS omrežja satelitov, stremi se k vzpostavitvi časovne sinhronizacije s pomočjo centrov atomskih ur na Zemlji. Težava nastopi tudi pri kibernetskem varovanju telekomunikacijskih linij po katerih se podatki stekajo v centre vodenja. Trenutne rešitve so prirejene za SCADA sisteme in so prepočasne. Za kibernetsko varnost prenosnih linij se razvijajo strojno osnovani načini varovanja in vzpostavljajo novi standardi za njihovo regulacijo. Namen naloge je sestava prototipa programa za opazovanje velikega EES, s sposobnostjo zaznave in lokalizacije dogodkov v njem na podlagi merljivega elektro-mehanskega odziva sistema samega.

Language:Slovenian
Keywords:PMU, WAMS, WAMPAC, Pametna omrežja, Lokalizacija dogodka
Work type:Master's thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2018
PID:20.500.12556/RUL-103069 This link opens in a new window
Publication date in RUL:13.09.2018
Views:1403
Downloads:361
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Secondary language

Language:English
Title:Verification of existing disturbance-localization techniques in large electric-power systems
Abstract:
The technology for phasor measurement of sinusoidal electrical parameters within large electrical grids has existed for some time now. The lowering of equipment costs has led to a large number of devices being installed. A lot of the potential applications of phasor data measurement for smart grid control have not yet been exploited. A big weakness for the potential real-time applications is the reliance on the GPS satellite system, the current aim is, to establish a time synchronization system using atomic clock centers on Earth. Another concern is the cybernetic security of the currently used telecommunication lines through which the data is transferred to operator centers. Currently available solutions were developed for SCADA systems and are too slow for real-time data transfers. For the purpose of cybernetic security new hardware-based options, as well as regulating Standards are being developed. The purpose of this paper is to construct a prototype monitoring program with the ability to detect and localize trip events in a large electrical interconnection based in the measurable electro-mechanical response of the grid itself.

Keywords:PMU, WAMS, WAMPAC, Smart grid, Event localization

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