Format: HTML | BibTeX | DC | EndNote | NLM | MARC | MARCXML
000000453 001__ 453
000000453 037__ $$aENY-ARTICLE-2014-362
000000453 041__ $$aeng
000000453 100__ $$aBernadić, A$$uFaculty of Electrical Engineering, Mechanical Engineering and Naval Architecture in Split Split, Croatia
000000453 245__ $$aDetermining of Fault Locations with Hilbert – Huang Transformation on XLPE Cables between Land and Offshore Substations
000000453 260__ $$c2014-05-10
000000453 300__ $$a4p
000000453 500__ $$a2014 14th International Conference on Environment and Electrical Engineering (EEEIC), May 10-12, 2014, Krakow, Poland
000000453 520__ $$aUsing of mathematical transformations and digital signal processing (DSP) methods of recorded voltage and currents in power systems in order to extract important informations about physical processes is already known. Higher resolution of measurements and massive introduction of PMU devices in the power systems allows appliance of DSP - based fault location methods in complex power networks. High availability of power systems is required in the modern societies. Fast fault location algorithms and consequent fast repairing of faults is necessary condition for high availability of power networks. Here is represented a numerical procedure for fault location and testing of method already introduced in scientific literature on complex configuration of power network consisting of XLPE underground submarine and land cables between land and offshore substation connecting large wind park with main power system.
000000453 6531_ $$aFault location
000000453 6531_ $$aDSP
000000453 6531_ $$aHHT
000000453 6531_ $$aXLPE cable
000000453 6531_ $$aWind park
000000453 6531_ $$aOffshore substation
000000453 700__ $$aLeonowicz, Z$$uFaculty of Electrical Engineering Wroclaw University of Technology, Wroclaw, Poland
000000453 8560_ $$fzbigniew.leonowicz@pwr.wroc.pl
000000453 8564_ $$uhttp://zet10.ipee.pwr.wroc.pl/record/453/files/$$zAccess to Fulltext
000000453 909CO $$ooai:zet10.pwr.wroc.pl:453$$pglobal
000000453 980__ $$aARTICLE