TY  - CONF
AU  - Ećim-Đurić, Olivera
AU  - Kreculj, Dragan
AU  - Živojinović, Danijela
AU  - Vorkapić, Miloš
PY  - 2020
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/3920
AB  - Biomasa predstavlja prema zvaničnim podacima najznačajniji potencijal obnovljivih izvora energije u Republici Srbiji. Ona čini oko 63% od ukupnog potencijala, ali za sada njena iskorišćenost nije na zadovoljavajućem nivou. Od ukupnih količina 14,2·104 TJ procenjuje se da je oko 9,6·104 TJ
neiskorišćeno. To je i dalje evidentno veliki raspoloživi potencijal, posebno u poljoprivrednoj biomasi, izuzimajući udeo biogoriva u sektoru saobraćaja, čiji potencijal na godišnjem nivou iznosi oko 7,1·104 TJ. Glavne prepreke za intenzivniju preradu biomase i dalje predstavljaju visoki troškovi manipulacije, dispergovanost zemljišnih poseda, a naročito vremenska neusklađenost u proizvodnji, preradi i korišćenju biomase, što svakako povećava troškove skladištenja. U dosadašnjim analizama, najširu upotrebu u domaćinstvima, biomasa ima u direktnom sagorevanju i proizvodnji toplotne energije, ili u proizvodnji peleta i briketa, gde je još uvek manje zastupljena u odnosu na šumsku biomasu. Iako u poslednjih nekoliko godina trend rasta energana na biogas raste, i ukupna instalisana snaga iznosi oko 20 MW, ovaj sektor u narednim godinama ima najveći potencijal za razvoj, posebno u lokalnim zajednicama koje su primarno okrenute poljoprivrednoj proizvodnji. Rad se bavi analizom stanja proizvodnje, prerade, transporta i mogućnosti primene biomase, u cilju kogenerativne proizvodnje električne i toplotne energije. Razmatra se i uticaj korišćenja biomase na zaštitu i održivost životne sredine, kroz analizu studije slučaja na primerima teritorijalnih jedinica u Vojvodini.
AB  - According to official data, biomass represents the most significant potential of renewable energy sources in the Republic of Serbia. It accounts for about 63% of the total potential, but for now its use is not at a satisfactory level. In total amounts of 14,2·104 TJ, it is estimated that about 9,6·104 TJ is unused. This is still evidently a large available potential, especially in agricultural biomass, with the exception of the binding share of biofuels in the transport sector, whose annual potential is around 7,1·104 TJ. The main obstacles for more intensive biomass processing continue to be the high costs of manipulation, the dispersion of land holdings and especially the time mismatch in the production, processing, and use of biomass, which certainly increases storage costs. In the former analyzes, the most widespread use in households, biomass has in direct combustion and production of thermal energy, or in the production of pellets and briquettes, where it is still less represented in relation to forest biomass. Although in the last few years the growth trend of biogas power plants is growing, and the total installed capacity is about 20 MW, this sector has the greatest potential for development in the coming years, especially in local communities, that are primarily focused on agricultural production. The paper deals with the condition analysis of the production, processing, transport, and the possibility of applying agricultural biomass, for the purpose of cogeneration electricity and heat production. The impact of the use of biomass on the protection and sustainability of the environment is also considered, through the analysis of a case study on the examples of territorial units in Vojvodina.
PB  - Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije - SMEITS, Beograd
C3  - 8th International Conference on Renewable Electrical Power Sources (8. Međunarodna konferencija o obnovljivim izvorima električne energije), ICREPS 2020, October 16, Belgrade, Serbia
T1  - Potencijal poljoprivredne biomase u sistemima proizvodnje biogasa u Republici Srbiji
T1  - Potential of agricultural biomass in biogas production systems in the Republic of Serbia
SP  - 63
EP  - 70
UR  - https://hdl.handle.net/21.15107/rcub_cer_3920
ER  - 

@conference{
author = "Ećim-Đurić, Olivera and Kreculj, Dragan and Živojinović, Danijela and Vorkapić, Miloš",
year = "2020",
abstract = "Biomasa predstavlja prema zvaničnim podacima najznačajniji potencijal obnovljivih izvora energije u Republici Srbiji. Ona čini oko 63% od ukupnog potencijala, ali za sada njena iskorišćenost nije na zadovoljavajućem nivou. Od ukupnih količina 14,2·104 TJ procenjuje se da je oko 9,6·104 TJ
neiskorišćeno. To je i dalje evidentno veliki raspoloživi potencijal, posebno u poljoprivrednoj biomasi, izuzimajući udeo biogoriva u sektoru saobraćaja, čiji potencijal na godišnjem nivou iznosi oko 7,1·104 TJ. Glavne prepreke za intenzivniju preradu biomase i dalje predstavljaju visoki troškovi manipulacije, dispergovanost zemljišnih poseda, a naročito vremenska neusklađenost u proizvodnji, preradi i korišćenju biomase, što svakako povećava troškove skladištenja. U dosadašnjim analizama, najširu upotrebu u domaćinstvima, biomasa ima u direktnom sagorevanju i proizvodnji toplotne energije, ili u proizvodnji peleta i briketa, gde je još uvek manje zastupljena u odnosu na šumsku biomasu. Iako u poslednjih nekoliko godina trend rasta energana na biogas raste, i ukupna instalisana snaga iznosi oko 20 MW, ovaj sektor u narednim godinama ima najveći potencijal za razvoj, posebno u lokalnim zajednicama koje su primarno okrenute poljoprivrednoj proizvodnji. Rad se bavi analizom stanja proizvodnje, prerade, transporta i mogućnosti primene biomase, u cilju kogenerativne proizvodnje električne i toplotne energije. Razmatra se i uticaj korišćenja biomase na zaštitu i održivost životne sredine, kroz analizu studije slučaja na primerima teritorijalnih jedinica u Vojvodini., According to official data, biomass represents the most significant potential of renewable energy sources in the Republic of Serbia. It accounts for about 63% of the total potential, but for now its use is not at a satisfactory level. In total amounts of 14,2·104 TJ, it is estimated that about 9,6·104 TJ is unused. This is still evidently a large available potential, especially in agricultural biomass, with the exception of the binding share of biofuels in the transport sector, whose annual potential is around 7,1·104 TJ. The main obstacles for more intensive biomass processing continue to be the high costs of manipulation, the dispersion of land holdings and especially the time mismatch in the production, processing, and use of biomass, which certainly increases storage costs. In the former analyzes, the most widespread use in households, biomass has in direct combustion and production of thermal energy, or in the production of pellets and briquettes, where it is still less represented in relation to forest biomass. Although in the last few years the growth trend of biogas power plants is growing, and the total installed capacity is about 20 MW, this sector has the greatest potential for development in the coming years, especially in local communities, that are primarily focused on agricultural production. The paper deals with the condition analysis of the production, processing, transport, and the possibility of applying agricultural biomass, for the purpose of cogeneration electricity and heat production. The impact of the use of biomass on the protection and sustainability of the environment is also considered, through the analysis of a case study on the examples of territorial units in Vojvodina.",
publisher = "Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije - SMEITS, Beograd",
journal = "8th International Conference on Renewable Electrical Power Sources (8. Međunarodna konferencija o obnovljivim izvorima električne energije), ICREPS 2020, October 16, Belgrade, Serbia",
title = "Potencijal poljoprivredne biomase u sistemima proizvodnje biogasa u Republici Srbiji, Potential of agricultural biomass in biogas production systems in the Republic of Serbia",
pages = "63-70",
url = "https://hdl.handle.net/21.15107/rcub_cer_3920"
}

Ećim-Đurić, O., Kreculj, D., Živojinović, D.,& Vorkapić, M.. (2020). Potencijal poljoprivredne biomase u sistemima proizvodnje biogasa u Republici Srbiji. in 8th International Conference on Renewable Electrical Power Sources (8. Međunarodna konferencija o obnovljivim izvorima električne energije), ICREPS 2020, October 16, Belgrade, Serbia
Savez mašinskih i elektrotehničkih inženjera i tehničara Srbije - SMEITS, Beograd., 63-70.
https://hdl.handle.net/21.15107/rcub_cer_3920

Ećim-Đurić O, Kreculj D, Živojinović D, Vorkapić M. Potencijal poljoprivredne biomase u sistemima proizvodnje biogasa u Republici Srbiji. in 8th International Conference on Renewable Electrical Power Sources (8. Međunarodna konferencija o obnovljivim izvorima električne energije), ICREPS 2020, October 16, Belgrade, Serbia. 2020;:63-70.
https://hdl.handle.net/21.15107/rcub_cer_3920 .

Ećim-Đurić, Olivera, Kreculj, Dragan, Živojinović, Danijela, Vorkapić, Miloš, "Potencijal poljoprivredne biomase u sistemima proizvodnje biogasa u Republici Srbiji" in 8th International Conference on Renewable Electrical Power Sources (8. Međunarodna konferencija o obnovljivim izvorima električne energije), ICREPS 2020, October 16, Belgrade, Serbia (2020):63-70,
https://hdl.handle.net/21.15107/rcub_cer_3920 .

TY  - JOUR
AU  - Todorović, Marija S.
AU  - Ećim-Đurić, Olivera
AU  - Nikolić, Stevan
AU  - Ristić, Slavica
AU  - Polić-Radovanović, Suzana R.
PY  - 2015
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/6045
AB  - This paper recognizes the synergetic relationship and inextricable linkage between conservation and sustainability. Heritage preservation maximizes the use of existing materials and infrastructure, reduces waste, and preserves the historic character of older towns and cities. This paper also presents technical advances in BPS/BES (Building Performance Simulation/Building Energy Simulation), and in co-simulation for energy efficiency optimization, RES integrated historic building's greening and historic neighborhoods, settlements, as well as whole cities urban re-planning. Further, the paper presents initial results of the Aviation Museum in Belgrade preliminary energy refurbishment study focusing results obtained via BPS and co-simulation. Foreseen is the deep energy refurbishment aimed to reach the “total building performance optimization” encompassing multifunctional optimization of building's skin – glazing replacement with the semi-transparent PV glazing and day-lighting control with reference to the artifact preservation, as well as the IEQ (Indoor Environment Quality) control analysis. This study shows that the RES integrated refurbishment can result in the Museum's Zero CO2 emission and even in the sustainable Energy + status (producing more than using electricity). Finally, needs for most current ICT knowledge use and refurbishment technologies development, as well as integrated design, including particularly relevant benchmarking and rating system development are outlined.
PB  - Elsevier
T2  - Energy and Buildings
T1  - Historic building's holistic and sustainable deep energy refurbishment via BPS, energy efficiency and renewable energy - A case study
VL  - 95
SP  - 130
EP  - 137
DO  - 10.1016/j.enbuild.2014.11.011
ER  - 

@article{
author = "Todorović, Marija S. and Ećim-Đurić, Olivera and Nikolić, Stevan and Ristić, Slavica and Polić-Radovanović, Suzana R.",
year = "2015",
abstract = "This paper recognizes the synergetic relationship and inextricable linkage between conservation and sustainability. Heritage preservation maximizes the use of existing materials and infrastructure, reduces waste, and preserves the historic character of older towns and cities. This paper also presents technical advances in BPS/BES (Building Performance Simulation/Building Energy Simulation), and in co-simulation for energy efficiency optimization, RES integrated historic building's greening and historic neighborhoods, settlements, as well as whole cities urban re-planning. Further, the paper presents initial results of the Aviation Museum in Belgrade preliminary energy refurbishment study focusing results obtained via BPS and co-simulation. Foreseen is the deep energy refurbishment aimed to reach the “total building performance optimization” encompassing multifunctional optimization of building's skin – glazing replacement with the semi-transparent PV glazing and day-lighting control with reference to the artifact preservation, as well as the IEQ (Indoor Environment Quality) control analysis. This study shows that the RES integrated refurbishment can result in the Museum's Zero CO2 emission and even in the sustainable Energy + status (producing more than using electricity). Finally, needs for most current ICT knowledge use and refurbishment technologies development, as well as integrated design, including particularly relevant benchmarking and rating system development are outlined.",
publisher = "Elsevier",
journal = "Energy and Buildings",
title = "Historic building's holistic and sustainable deep energy refurbishment via BPS, energy efficiency and renewable energy - A case study",
volume = "95",
pages = "130-137",
doi = "10.1016/j.enbuild.2014.11.011"
}

Todorović, M. S., Ećim-Đurić, O., Nikolić, S., Ristić, S.,& Polić-Radovanović, S. R.. (2015). Historic building's holistic and sustainable deep energy refurbishment via BPS, energy efficiency and renewable energy - A case study. in Energy and Buildings
Elsevier., 95, 130-137.
https://doi.org/10.1016/j.enbuild.2014.11.011

Todorović MS, Ećim-Đurić O, Nikolić S, Ristić S, Polić-Radovanović SR. Historic building's holistic and sustainable deep energy refurbishment via BPS, energy efficiency and renewable energy - A case study. in Energy and Buildings. 2015;95:130-137.
doi:10.1016/j.enbuild.2014.11.011 .

Todorović, Marija S., Ećim-Đurić, Olivera, Nikolić, Stevan, Ristić, Slavica, Polić-Radovanović, Suzana R., "Historic building's holistic and sustainable deep energy refurbishment via BPS, energy efficiency and renewable energy - A case study" in Energy and Buildings, 95 (2015):130-137,
https://doi.org/10.1016/j.enbuild.2014.11.011 . .