@article{SchneiderBartlmaeLeiboldetal., author = {Schneider, Simon and Bartlm{\"a}, Nadja and Leibold, Jens and Sch{\"o}fmann, Petra and Tabakovic, Momir and Zelger, Thomas}, title = {New Assessment Method for Buildings and Districts towards "Net Zero Energy Buildings" Compatible with the Energy Scenario 2050}, series = {REAL CORP 2019}, journal = {REAL CORP 2019}, number = {April 2019}, subject = {Renewable Energies}, language = {en} } @misc{TabakovicSchneiderLaurentetal., author = {Tabakovic, Momir and Schneider, Simon and Laurent, Pierre and Zelger, Thomas and Kerschbaum, Elisabeth and Figl, Hildegrund}, title = {Korneuburgs way2smart - mobility concept, energy platform and social interaction}, subject = {Energy Supply}, language = {en} } @misc{TabakovicSchneiderLaurentetal., author = {Tabakovic, Momir and Schneider, Simon and Laurent, Pierre and Zelger, Thomas and Kerschbaum, Elisabeth and Figl, Hildegund}, title = {Korneuburgs way2smart - mobility concept, energy platform and social interaction}, subject = {Energy Market}, language = {en} } @inproceedings{TabakovicFechnervanSarketal., author = {Tabakovic, Momir and Fechner, Hubert and van Sark, Wilfried and Louwen, Atse and Weiss, Ingrid and Aranc{\´o}n, Sofia and Geourghiou, George and Makrides, George and Hadjipanayi, Maria and Loucaidou, Eliza and Ioannidou, Monica}, title = {Development of BIPV courseware for students and professionals}, series = {Proceedings of the 34th European Photovoltaic Solar Energy Conference (EU PVSEC 2017)}, booktitle = {Proceedings of the 34th European Photovoltaic Solar Energy Conference (EU PVSEC 2017)}, pages = {2895 -- 2899}, subject = {Education}, language = {en} } @misc{TabakovicFechnervanSarketal., author = {Tabakovic, Momir and Fechner, Hubert and van Sark, Wilfried and Louwen, Atse and Weiss, Ingrid and Aranc{\´o}n, Sofia and Geourghiou, George and Makrides, George and Hadjipanayi, Maria and Loucaidou, Eliza and Ioannidou, Monica}, title = {Development of BIPV courseware for students and professionals}, subject = {Education}, language = {en} } @misc{SchneiderTabakovic, author = {Schneider, Simon and Tabakovic, Momir}, title = {Aktueller Stand und Zukunft von stadteigenen Geb{\"a}uden einer Kleinstadt mit energieautonomen Leitbild: Verbrauch, Berechnung und Potential im Rahmen von Smart City Demo Way2Smart}, subject = {Smart City}, language = {de} } @misc{Tabakovic, author = {Tabakovic, Momir}, title = {Status and outlook for building integrated photovoltaics(BIPV) in relation to educational needs in the BIPV sector}, subject = {Photovoltaics}, language = {en} } @misc{Tabakovic, author = {Tabakovic, Momir}, title = {Integrative Secondary Education Programmes and Research in Smart Cities Context}, subject = {Smart City}, language = {en} } @misc{Tabakovic, author = {Tabakovic, Momir}, title = {Welche Speicher und Netze braucht die Energiewende?}, subject = {Energy Storage}, language = {de} } @misc{Tabakovic, author = {Tabakovic, Momir}, title = {EU-ASCIN - Projektpr{\"a}sentation}, subject = {Smart City}, language = {en} } @misc{Tabakovic, author = {Tabakovic, Momir}, title = {EU-ASCIN - Projektpr{\"a}sentation}, subject = {Smart City}, language = {de} } @techreport{vanSarkLouwenGeourghiouetal., author = {van Sark, Wilfried and Louwen, Atse and Geourghiou, George and Makrides, George and Loucaidou, Eliza and Ioannidou, Monica and Fechner, Hubert and Tabakovic, Momir and Weiss, Ingrid and Aranc{\´o}n, Sofia}, title = {Review of the BIPV market and education needs in the field - Framework and Requirements' Analysis}, subject = {Photovoltaics}, language = {en} } @misc{Tabakovic, author = {Tabakovic, Momir}, title = {Smart Cities Education as Mobility, Energy \& ICT Hub}, subject = {Smart City}, language = {en} } @misc{Tabakovic, author = {Tabakovic, Momir}, title = {Smart Grids at the University AS Technikum Vienna}, subject = {Smart Grids}, language = {en} } @article{SchneiderBartlmaeLeiboldetal., author = {Schneider, Simon and Bartlm{\"a}, Nadja and Leibold, Jens and Sch{\"o}ffmann, Petra and Tabakovic, Momir and Zelger, Thomas}, title = {New assessment method for buildings and districts towards "Net Zero Energy Buildings" compatible with the energy scenario 2050}, series = {Corp}, journal = {Corp}, pages = {10}, subject = {Energy Technologies}, language = {en} } @inproceedings{TabakovicSchneiderLeiboldetal., author = {Tabakovic, Momir and Schneider, Simon and Leibold, Jens and Zelger, Thomas and Bartlm{\"a}, Nadja and Holzer, Peter and Sch{\"o}ffmann, Petra}, title = {Way to positive energy districts in Vienna}, series = {Mission Innovation Austria}, booktitle = {Mission Innovation Austria}, subject = {Energy Technologies}, language = {en} } @misc{Tabakovic, author = {Tabakovic, Momir}, title = {Analysis of Half-Heusler and Bi2Te3 thermoelectric generator for direct conversion of waste heat recovery from a solid-fueled stoves}, subject = {Generator}, language = {en} } @book{Tabakovic, author = {Tabakovic, Momir}, title = {Analyze and optimize the prototype of a thermoelectric generator: as an electrical renewable power source for biomass stoves}, publisher = {AV Akademikerverlag}, publisher = {Fachhochschule Technikum Wien}, subject = {Biomass}, language = {en} } @misc{Tabakovic, author = {Tabakovic, Momir}, title = {Way2Smart Korneuburg: Smart Cities Projekt}, subject = {Smart City}, language = {de} } @phdthesis{Tabakovic, author = {Tabakovic, Momir}, title = {Direct conversion of waste heat into electric energy by thermoelectric generators}, school = {Fachhochschule Technikum Wien}, abstract = {The energy crisis and environment deterioration are two major problems for the 21st century. Waste heat recovery offers many opportunities to make a global contribution to this challenge. Key concepts such as waste heat recovery are the basic ideas in thermoelectricity. A part of waste heat is produced by solid-fuel stoves. Nevertheless, the quantity of high-performance solid-fuel stoves is increasing very quickly for economic and environmental reasons. These sophisticated stoves need electricity for the pump for water circulation and the control system. Thermoelectric generators (TEG) could help with this issue. This work aims to present an experimental validation of integrating a thermoelectric generator into a solid-fuel stove. An economic comparison between the most common Bismuth Telluride (Bi2Te3) module and the newly developed half-Heusler modules is complete. An experimental set-up was built to optimize the common (Bi2Te3) modules and test the newly developed half-Heusler modules from an entire system point of view. An assessment of thermoelectric technology potential, module prices, further material developments and applications is completed. Based on the literature research and a Computational Fluid Dynamics (CFD) simulation software the first prototype was built. This set-up is composed of a thermal loop with a hot gas source, a cold fluid, a hot fin exchanger, and thermoelectric modules. The number and the place of these modules are changed to study different configurations. A specific maximum power point tracker DC/DC converter charging a battery is added in order to study the electrical power produced by the module. Different operating points of hot inlet gas airflow were tested for the Bismuth Telluride and half-Heusler modules. The Bismuth Telluride module was tested under real-life conditions using the exhaust of the solid-fuel stoves without influencing the combustion chamber.}, subject = {Energy Technologies}, language = {en} }