Observability of Power-Distribution Systems
State-Estimation Techniques and Approaches
(Sprache: Englisch)
This book develops, implements and thoroughly evaluates a three-phase distribution system state estimation (DSSE) model. It gathers all relevant state-of-the-art knowledge and provides the missing pieces to offer readers a complete...
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Klappentext zu „Observability of Power-Distribution Systems “
This book develops, implements and thoroughly evaluates a three-phase distribution system state estimation (DSSE) model. It gathers all relevant state-of-the-art knowledge and provides the missing pieces to offer readers a complete picture of several essential design and implementation factors and ways to address them.
The book presents a three-phase branch model that allows of conductors, transformers, tap changers, and voltage regulators to be modelled. Its main features include:
-modelling of all major power distribution components;
-sensitivity analysis; and
-numerical solution to the estimation problem.
This book presents a focused account of three-phase DSSE, making it of interest to postgraduate students, researchers and engineers in the field of power systems and distribution systems.
Inhaltsverzeichnis zu „Observability of Power-Distribution Systems “
Introduction.- State Estimation.- Numerical Solution of the Estimation Problem.- Small Model and Measurement Error Sensitivities.- Final Remarks and Conclusions.Autoren-Porträt von Urban Kuhar, Gregor Kosec, Ales Svigelj
Urban Kuhar graduated at University of Ljubljana, Faculty of Electrical Engineering in 2012 and obtained Ph.D. in 2018 at Jozef Stefan International Postgraduate School, Ljubljana, Slovenia. He joined the Department of Communication Systems at the Jozef Stefan Institute in 2013. He worked in the field of high-frequency satellite communications, where he designed a Ka-band satellite beacon receiver within the ESA SatProSi project. He designed a synchrophasor measurement device suitable for distribution power networks, and designed and implemented a three-phase distribution state estimator software within the FP7 SUNSEED project. His research interests are related to digital signal processing, statistical signal processing techniques, and synchrophasor applications for power distribution systems. Gregor Kosec graduated at University of Ljubljana, Faculty of Mathematics and Physics in 2006 and obtained Ph.D. in 2011 at University of Nova Gorica. In 2011, he became a member of Parallel and Distributed Systems Laboratory at Jozef Stefan Institute. His main research interest covers physical modelling, computational physics, meshless methods, and generic programming. In cooperation with colleagues he published 25 peer reviewed original scientific papers, a scientific monograph in Springer, 4 book chapters, and presented his work at 25 international conferences. He was awarded with 4 international rewards and 2 domestic rewards, namely with reward for exceptional contribution to the sustainable development and with Puh Certificate of Recognition. He is an active reviewer for several international scientific journals and is also active in organization of international conferences. In 2015 he led applied project "Analysis of de-icing by operational countermeasures" for ELES, Ltd., Electricity Transmission System Operator, followed by project Dynamic Thermal Rating of overhead power lines in icing conditions (DTRi) funded by FP7 TETRACOM. In 2017 he led project
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"Cooling of overhead power lines in low wind regimes" again for ELES, Ltd. From 2016 he is involved in FWO funded project "Multi-analysis of fretting fatigue using physical and virtual experiments" and in a technology transfer "System for mobile monitoring of vital physiological parameters and environmental context".
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Bibliographische Angaben
- Autoren: Urban Kuhar , Gregor Kosec , Ales Svigelj
- 2020, 1st ed. 2020, XV, 108 Seiten, 36 farbige Abbildungen, Maße: 15,6 x 23,3 cm, Kartoniert (TB), Englisch
- Verlag: Springer, Berlin
- ISBN-10: 3030394751
- ISBN-13: 9783030394752
Sprache:
Englisch
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