APA 6th Edition Đurđević*, D., Balić, D. i Jurić, Ž. (2019). Socio-Economic Aspects in Satisfying Energy Demands by Different Technologies of Heat and Electricity Generation. Tehnički vjesnik, 26 (6), 1803-1813. https://doi.org/10.17559/TV-20180525214147
MLA 8th Edition Đurđević*, Dinko, et al. "Socio-Economic Aspects in Satisfying Energy Demands by Different Technologies of Heat and Electricity Generation." Tehnički vjesnik, vol. 26, br. 6, 2019, str. 1803-1813. https://doi.org/10.17559/TV-20180525214147. Citirano 25.02.2021.
Chicago 17th Edition Đurđević*, Dinko, Dražen Balić i Željko Jurić. "Socio-Economic Aspects in Satisfying Energy Demands by Different Technologies of Heat and Electricity Generation." Tehnički vjesnik 26, br. 6 (2019): 1803-1813. https://doi.org/10.17559/TV-20180525214147
Harvard Đurđević*, D., Balić, D., i Jurić, Ž. (2019). 'Socio-Economic Aspects in Satisfying Energy Demands by Different Technologies of Heat and Electricity Generation', Tehnički vjesnik, 26(6), str. 1803-1813. https://doi.org/10.17559/TV-20180525214147
Vancouver Đurđević* D, Balić D, Jurić Ž. Socio-Economic Aspects in Satisfying Energy Demands by Different Technologies of Heat and Electricity Generation. Tehnički vjesnik [Internet]. 2019 [pristupljeno 25.02.2021.];26(6):1803-1813. https://doi.org/10.17559/TV-20180525214147
IEEE D. Đurđević*, D. Balić i Ž. Jurić, "Socio-Economic Aspects in Satisfying Energy Demands by Different Technologies of Heat and Electricity Generation", Tehnički vjesnik, vol.26, br. 6, str. 1803-1813, 2019. [Online]. https://doi.org/10.17559/TV-20180525214147
Sažetak Results of the research on how different generation plants can satisfy heat demands and at the same time minimise operation costs, carbon dioxide (CO2) emission and consumption of primary energy are presented in the paper. In that sense hierarchical optimization procedure was carried out which enables application of different criteria, i.e. it was possible to set different goal functions. Special attention was put on the CO2 emissions. In order to quantify the social impact of different generation plants, CO2 emission cost was analysed in different scenarios. Moreover, economic analysis was based not only on operation expenditures but also on the capital investments. Different technologies were analysed, biomass-based cogenerations (wastewater sludge), fossil fuel-based cogenerations (in combination with gas engine and gas turbine), heat pumps, electric boilers and fossil fuel boilers. In order to determine optimal generation set-up simulation was carried out for a case of the City of Zagreb, Croatia. The simulation period was one year. It is shown that it is yet possible to achieve significant benefits with appropriate selection of generation mix, particularly in the context of CO2 reduction. Heat pumps together with biomass-based cogeneration technologies have shown the best potential for their utilisation in future energy system.