OREANIS – Optimized regional energy balancing

OREANIS - Optimierter Regionaler Energieausgleich in elektrischen Netzen durch intlligente Speicherung

The increased demand for energy services requires both the expansion and the restructuring of current energy systems. In Austria, these services will be more and more distributed instead of centralized and increasingly more based on in renewable power sources.

The main unanswered question remains which rolle will the storage of electrical energy play in this context. The possibilities and the synergistic use of intelligent energy storage  are explored in the framework of the ORLEANIS project. All possibilities along the entire chain of energy conversion (from primary energy storage to secondary energy carriers and finally to intelligent service management on the consumer side) are taken into account.

The goal of OREANIS is to compensate for the regional fluctuations in the energy power supply from renewable sources by intelligently storing, controlling and optimizing energy demand and energy generation, therefore ensuring efficient regional balancing in electrical distribution networks. Within the context of the project, fundamental research questions and prerequisities for industrial research are evaluated. This creates a basis for solutions to the challenges of network operation.

OREANIS - Optimierter Regionaler Energieausgleich in elektrischen Netzen durch intlligente Speicherung

OREANIS – Optimized regional energy balancing

Publikationen
  • D. Burnier de Castro: “OREANIS – Koordinierter Einsatz von verteilten Speichern im Smart Grid: Fallstudie Oberösterreich”; Talk: ComForEn 2010 – Kommunikation für Energienetze der Zukunft, Wels; 2010-09-29; in: “ComForEn 2010 – Kommunikation für Energienetze der Zukunft”, Österreichischer Verband für Elektrotechnik, (2010), ISBN: 978-3-85133-061-8; 17 – 19.
  • Panholzer, H. et.al.: Optimierter Regionaler Energieausgleich in elektrischen Netzen durch intelligente Speicherung, Auftragnehmer: VA TECH HYDRO GmbH, Studie aus der 2. Ausschreibung der Programmlinie Neue Energien 2020, Projektnummer: 818880, 2011
  • Rezania, Rusbeh, Daniel Burnier De Castro,  Andreas Abart. “Energiespeicher zum regionalen Leistungsausgleich in Verteilernetzen–Netzgeführter versus marktgeführter Betrieb.”: IEWT 2011, 7. Internationale Energiewirtschaftstagung an der TU Wien, Wien, Österreich http://eeg.tuwien.ac.at/eeg.tuwien.ac.at_pages/events/iewt/iewt2011/uploads/fullpaper_iewt2011/P_238_Rezania_Rusbeh_8-Feb-2011,_16:28.pdf

 

About Lampros Fotiadis

Lampros Fotiadis MEng, MBA, was born in 1980 in Greece. His passion for engineering led him to receive his Engineer’s degree (MEng equivalent) from the Electrical and Computer Engineering school of the Aristotle University (Greece) in 2004. During his studies, he specialised in Electronics and Computer Engineering. In his diploma thesis, he simulated and implemented a multi-zone fuzzy-logic heating system using a real-time reconfigurable System-on-Chip. Pursuing a holistic approach to solving engineering problems, he successfully earned an MBA degree from the University of Macedonia (Greece) in 2006 and his master thesis examined the relation between European environmental policies and the European Energy market. He worked as an expert IT and Physical security consultant for more than 10 years and his expertise include system design and requirement analysis, system integration and product management. His recent areas of interests are Data Science, Machine Learning, Autonomous Driving and Smart Grids. Since February 2017 he is working as project member at the Institute of Computer Technology in the Energy&IT Group, where he is especially contributing know-how as IT and physical security consultant in the areas of smart grids and industry 4.0.
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