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Batas-Bijelić, Ilija

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  • Batas-Bijelić, Ilija (6)
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Author's Bibliography

Flexibility options to tackle intermittency in the energy systems with high share of renewable energy

Pfeifer, A.; Herc, L.; Batas-Bijelić, Ilija

(Zagreb : Faculty of Mechanical Engineering and Naval Architecture, 2020)

TY  - CONF
AU  - Pfeifer, A.
AU  - Herc, L.
AU  - Batas-Bijelić, Ilija
PY  - 2020
UR  - https://dais.sanu.ac.rs/123456789/9983
AB  - Recent ”Green deal” of European union includes the decision to become carbon neutral and even carbon-negative region in order to tackle the climate crisis. Such decision includes energy transition from energy production based on fossil fuels to the system based on variable renewable energy sources. Main technical challenge and a key factor in the techno-economic analysis of the energy system of the future, based on variable renewable energy sources, is their variable production. In order to deal with this problem in long-term energy planning, different approaches have been tried, focusing on overcapacity, storage capacities and sectors coupling with heating and transport. In this research, different flexibility options, storage and demand response technologies are modelled on several levels of energy systems: national, regional and continental. With the case study area including all EU countries modelled in EnergyPLAN model, the goal of the research is to show how each flexibility option influences the production capacities of renewable energy source technologies, storage technologies and demand response in order to reach a certain share of renewable energy in final energy consumed. Climate differences were taken into account for modelling of the behaviour of flexibility options, which is shown to be relevant for the creation of their representative curves. Representative curves are created as functions of critical excess electricity produced and share of renewable energy integrated into the system. Results show representative curves of most relevant flexibility options for several regions of EU and for the whole EU as one region. These results are further discussed in terms of strategic decisions addressing the dynamics of integration of such technologies, i.e. deciding on the priority of their integration in the energy system of the region in consideration. Results of research can be applied for integrated assessment models, in long-term planning of energy transition towards carbon-negative energy systems.
PB  - Zagreb : Faculty of Mechanical Engineering and Naval Architecture
C3  - Book of abstracts / 15th conference on sustainable development of energy, water and environment systems, September 1-5, 2020, Cologne, Germany : 15th SDEWES Conference, Cologne 2020
T1  - Flexibility options to tackle intermittency in the energy systems with high share of renewable energy
SP  - 207
EP  - 207
ER  - 
@conference{
author = "Pfeifer, A. and Herc, L. and Batas-Bijelić, Ilija",
year = "2020",
url = "https://dais.sanu.ac.rs/123456789/9983",
abstract = "Recent ”Green deal” of European union includes the decision to become carbon neutral and even carbon-negative region in order to tackle the climate crisis. Such decision includes energy transition from energy production based on fossil fuels to the system based on variable renewable energy sources. Main technical challenge and a key factor in the techno-economic analysis of the energy system of the future, based on variable renewable energy sources, is their variable production. In order to deal with this problem in long-term energy planning, different approaches have been tried, focusing on overcapacity, storage capacities and sectors coupling with heating and transport. In this research, different flexibility options, storage and demand response technologies are modelled on several levels of energy systems: national, regional and continental. With the case study area including all EU countries modelled in EnergyPLAN model, the goal of the research is to show how each flexibility option influences the production capacities of renewable energy source technologies, storage technologies and demand response in order to reach a certain share of renewable energy in final energy consumed. Climate differences were taken into account for modelling of the behaviour of flexibility options, which is shown to be relevant for the creation of their representative curves. Representative curves are created as functions of critical excess electricity produced and share of renewable energy integrated into the system. Results show representative curves of most relevant flexibility options for several regions of EU and for the whole EU as one region. These results are further discussed in terms of strategic decisions addressing the dynamics of integration of such technologies, i.e. deciding on the priority of their integration in the energy system of the region in consideration. Results of research can be applied for integrated assessment models, in long-term planning of energy transition towards carbon-negative energy systems.",
publisher = "Zagreb : Faculty of Mechanical Engineering and Naval Architecture",
journal = "Book of abstracts / 15th conference on sustainable development of energy, water and environment systems, September 1-5, 2020, Cologne, Germany : 15th SDEWES Conference, Cologne 2020",
title = "Flexibility options to tackle intermittency in the energy systems with high share of renewable energy",
pages = "207-207"
}
Pfeifer, A., Herc, L.,& Batas-Bijelić, I. (2020). Flexibility options to tackle intermittency in the energy systems with high share of renewable energy.
Book of abstracts / 15th conference on sustainable development of energy, water and environment systems, September 1-5, 2020, Cologne, Germany : 15th SDEWES Conference, Cologne 2020Zagreb : Faculty of Mechanical Engineering and Naval Architecture., null, 207-207. 
Pfeifer A, Herc L, Batas-Bijelić I. Flexibility options to tackle intermittency in the energy systems with high share of renewable energy. Book of abstracts / 15th conference on sustainable development of energy, water and environment systems, September 1-5, 2020, Cologne, Germany : 15th SDEWES Conference, Cologne 2020. 2020;:207-207

National energy and climate planning approach for the Western Balkans: case study Republic of Serbia

Batas-Bijelić, Ilija; Rajaković, Nikola

(Zabreb : Faculty of Mechanical Engineering and Naval Architecture, 2020)

TY  - CONF
AU  - Batas-Bijelić, Ilija
AU  - Rajaković, Nikola
PY  - 2020
UR  - https://dais.sanu.ac.rs/123456789/9984
AB  - Just in the immediate neighborhood of European Union (EU), Western Balkan (WB) countries are lagging behind in the energy transition regardless technological advances and policy instruments available. EU recently created a momentum for the energy transition acceleration with the European Green Deal, which is forwarded to the WB through the Energy Community secretariat and in general, the response in the form of National Energy and Climate Plans (NECPs) is expected in the short to midterm. Recently presented the new Republic of Serbia’s Low Carbon Development Strategy with Action plan (LEDS) will be analyzed, commented and improvements suggested for the acceleration of the energy transition, based on the newest findings from the simulation-based optimization techniques using the sectors coupling approach. Furthermore, integrated assessment modeling (IAM) techniques, exploring the climate and energy cross impacts with the more details will be included. The purpose of the research is to provide the decision makers in the WB with the best available insights regarding sustainable energy systems, and citizens of the WB with better chance to benefit from adoption of these strategies in just transit ion.
PB  - Zabreb : Faculty of Mechanical Engineering and Naval Architecture
C3  - Book of abstracts / 4th South East conference on sustainable development of energy, water and environment systems, June 28 - July 2, 2020, Sarajevo, Bosnia and Herzegovina : 4th SEE SDEWES Conference, Sarajevo 2020
T1  - National energy and climate planning approach for the Western Balkans: case study Republic of Serbia
SP  - 52
EP  - 52
ER  - 
@conference{
author = "Batas-Bijelić, Ilija and Rajaković, Nikola",
year = "2020",
url = "https://dais.sanu.ac.rs/123456789/9984",
abstract = "Just in the immediate neighborhood of European Union (EU), Western Balkan (WB) countries are lagging behind in the energy transition regardless technological advances and policy instruments available. EU recently created a momentum for the energy transition acceleration with the European Green Deal, which is forwarded to the WB through the Energy Community secretariat and in general, the response in the form of National Energy and Climate Plans (NECPs) is expected in the short to midterm. Recently presented the new Republic of Serbia’s Low Carbon Development Strategy with Action plan (LEDS) will be analyzed, commented and improvements suggested for the acceleration of the energy transition, based on the newest findings from the simulation-based optimization techniques using the sectors coupling approach. Furthermore, integrated assessment modeling (IAM) techniques, exploring the climate and energy cross impacts with the more details will be included. The purpose of the research is to provide the decision makers in the WB with the best available insights regarding sustainable energy systems, and citizens of the WB with better chance to benefit from adoption of these strategies in just transit ion.",
publisher = "Zabreb : Faculty of Mechanical Engineering and Naval Architecture",
journal = "Book of abstracts / 4th South East conference on sustainable development of energy, water and environment systems, June 28 - July 2, 2020, Sarajevo, Bosnia and Herzegovina : 4th SEE SDEWES Conference, Sarajevo 2020",
title = "National energy and climate planning approach for the Western Balkans: case study Republic of Serbia",
pages = "52-52"
}
Batas-Bijelić, I.,& Rajaković, N. (2020). National energy and climate planning approach for the Western Balkans: case study Republic of Serbia.
Book of abstracts / 4th South East conference on sustainable development of energy, water and environment systems, June 28 - July 2, 2020, Sarajevo, Bosnia and Herzegovina : 4th SEE SDEWES Conference, Sarajevo 2020Zabreb : Faculty of Mechanical Engineering and Naval Architecture., null, 52-52. 
Batas-Bijelić I, Rajaković N. National energy and climate planning approach for the Western Balkans: case study Republic of Serbia. Book of abstracts / 4th South East conference on sustainable development of energy, water and environment systems, June 28 - July 2, 2020, Sarajevo, Bosnia and Herzegovina : 4th SEE SDEWES Conference, Sarajevo 2020. 2020;:52-52

Metodologije energetsko – klimatskog planiranja Zapadnog Balkana: najnovija dostignuća iz Republike Srbije i Bosne i Hercegovine

Batas-Bijelić, Ilija; Rajaković, Nikola

(Beograd : Savez energetičara, 2020)

TY  - CONF
AU  - Batas-Bijelić, Ilija
AU  - Rajaković, Nikola
PY  - 2020
UR  - http://www.savezenergeticara.org/images/pdf/ENERGETIKA_Zbornik_Radova_2020.pdf
UR  - https://dais.sanu.ac.rs/123456789/10000
AB  - Just in the immediate neighborhood of European Union (EU), Western Balkan (WB) countries are lagging behind in the energy transition regardless technological advances and policy instruments available. EU recently created a momentum for the energy transition acceleration with the European Green Deal, which is forwarded to the WB through the Energy Community secretariat and in general, the response in the form of National Energy and Climate Plans (NECPs) is expected in the short to midterm. Recently presented the new Republic of Serbia’s Low Carbon Development Strategy with Action plan (LCDSA) will be analyzed, commented and improvements suggested for the acceleration of the energy transition, based on the newest findings from the simulation-based optimization techniques using the sectors coupling approach. Furthermore, integrated assessment modeling techniques (IAM), exploring the climate and energy cross impacts with the more details will be included. The purpose of the research is to provide the decision makers in the WB with the best available insights regarding sustainable energy systems, and citizens of the WB with to benefit from adoption of these strategies.
PB  - Beograd : Savez energetičara
C3  - Zbornik radova = Conference proceedings : XXXV Međunarodno savetovanje u organizaciji Saveza energetičara Energetika 2020 : 24-27. jun 2020. godine, Zlatibor
T1  - Metodologije energetsko – klimatskog planiranja Zapadnog Balkana: najnovija dostignuća iz Republike Srbije i Bosne i Hercegovine
T1  - National energy and climate planning approach for the Western Balkans: newest achievements from Republic Of Serbia and Bosnia And Herzegovina
ER  - 
@conference{
author = "Batas-Bijelić, Ilija and Rajaković, Nikola",
year = "2020",
url = "http://www.savezenergeticara.org/images/pdf/ENERGETIKA_Zbornik_Radova_2020.pdf, https://dais.sanu.ac.rs/123456789/10000",
abstract = "Just in the immediate neighborhood of European Union (EU), Western Balkan (WB) countries are lagging behind in the energy transition regardless technological advances and policy instruments available. EU recently created a momentum for the energy transition acceleration with the European Green Deal, which is forwarded to the WB through the Energy Community secretariat and in general, the response in the form of National Energy and Climate Plans (NECPs) is expected in the short to midterm. Recently presented the new Republic of Serbia’s Low Carbon Development Strategy with Action plan (LCDSA) will be analyzed, commented and improvements suggested for the acceleration of the energy transition, based on the newest findings from the simulation-based optimization techniques using the sectors coupling approach. Furthermore, integrated assessment modeling techniques (IAM), exploring the climate and energy cross impacts with the more details will be included. The purpose of the research is to provide the decision makers in the WB with the best available insights regarding sustainable energy systems, and citizens of the WB with to benefit from adoption of these strategies.",
publisher = "Beograd : Savez energetičara",
journal = "Zbornik radova = Conference proceedings : XXXV Međunarodno savetovanje u organizaciji Saveza energetičara Energetika 2020 : 24-27. jun 2020. godine, Zlatibor",
title = "Metodologije energetsko – klimatskog planiranja Zapadnog Balkana: najnovija dostignuća iz Republike Srbije i Bosne i Hercegovine, National energy and climate planning approach for the Western Balkans: newest achievements from Republic Of Serbia and Bosnia And Herzegovina"
}
Batas-Bijelić, I.,& Rajaković, N. (2020). Metodologije energetsko – klimatskog planiranja Zapadnog Balkana: najnovija dostignuća iz Republike Srbije i Bosne i Hercegovine.
Zbornik radova = Conference proceedings : XXXV Međunarodno savetovanje u organizaciji Saveza energetičara Energetika 2020 : 24-27. jun 2020. godine, ZlatiborBeograd : Savez energetičara., null. 
Batas-Bijelić I, Rajaković N. Metodologije energetsko – klimatskog planiranja Zapadnog Balkana: najnovija dostignuća iz Republike Srbije i Bosne i Hercegovine. Zbornik radova = Conference proceedings : XXXV Međunarodno savetovanje u organizaciji Saveza energetičara Energetika 2020 : 24-27. jun 2020. godine, Zlatibor. 2020;

6 Decades Research on Photovoltaic Technologies and Characterization in Republic of Serbia

Batas-Bijelić, Ilija

(WIP GmbH & Co Planungs-KG, 2020)

TY  - CONF
AU  - Batas-Bijelić, Ilija
PY  - 2020
UR  - https://www.eupvsec-planner.com/presentations/c49326/6_decades_research_on_photovoltaic_technologies_and_characterization_in_republic_of_serbia.htm
UR  - https://dais.sanu.ac.rs/123456789/9999
AB  - It is known that solar photovoltaic devices age well, but the research in the durability and derating factor, important for their economy and energy rate of return, has not been done for the more than 35 year old devices. First silicon photovoltaic cells were produced in 1960’s in Republic of Serbia (former Socialist Federal Republic of Yugoslavia) with 8% efficiency is still functional. These results were comparable to the state of the art efficiencies of that time. With new laboratory equipment available from recent, these cells produced in Republic of Serbia will be therefore characterized again to test if they satisfy the expected performance threshold from the existing literature. The effects of degradation will be explored and presented. The results of modern characterization of elder photovoltaic cells will be of significance for the further research on this topic in future.
PB  - WIP GmbH & Co Planungs-KG
C3  - EU PVSEC 2020, 7 - 11 September 2020
T1  - 6 Decades Research on Photovoltaic Technologies and Characterization in Republic of Serbia
ER  - 
@conference{
author = "Batas-Bijelić, Ilija",
year = "2020",
url = "https://www.eupvsec-planner.com/presentations/c49326/6_decades_research_on_photovoltaic_technologies_and_characterization_in_republic_of_serbia.htm, https://dais.sanu.ac.rs/123456789/9999",
abstract = "It is known that solar photovoltaic devices age well, but the research in the durability and derating factor, important for their economy and energy rate of return, has not been done for the more than 35 year old devices. First silicon photovoltaic cells were produced in 1960’s in Republic of Serbia (former Socialist Federal Republic of Yugoslavia) with 8% efficiency is still functional. These results were comparable to the state of the art efficiencies of that time. With new laboratory equipment available from recent, these cells produced in Republic of Serbia will be therefore characterized again to test if they satisfy the expected performance threshold from the existing literature. The effects of degradation will be explored and presented. The results of modern characterization of elder photovoltaic cells will be of significance for the further research on this topic in future.",
publisher = "WIP GmbH & Co Planungs-KG",
journal = "EU PVSEC 2020, 7 - 11 September 2020",
title = "6 Decades Research on Photovoltaic Technologies and Characterization in Republic of Serbia"
}
,& Batas-Bijelić, I. (2020). 6 Decades Research on Photovoltaic Technologies and Characterization in Republic of Serbia.
EU PVSEC 2020, 7 - 11 September 2020WIP GmbH & Co Planungs-KG., null. 
Batas-Bijelić I. 6 Decades Research on Photovoltaic Technologies and Characterization in Republic of Serbia. EU PVSEC 2020, 7 - 11 September 2020. 2020;

Advantages of Sector Coupling to the Sustainable Energy Systems

Batas-Bijelić, Ilija; Rajaković, Nikola

(2019)

TY  - CONF
AU  - Batas-Bijelić, Ilija
AU  - Rajaković, Nikola
PY  - 2019
UR  - http://dais.sanu.ac.rs/123456789/7026
AB  - After the EnergyPLAN and GenOpt have coupled together for the first time, a simulation based optimization has gained popularity in energy planning articles. The advantage of the coupling method is a synergy effect and integration of three different sectors e.g. heat, electricity and transport in comparison to a typical separated method. As a result, different technical measures cannot be applied separately for each individual sector without having impact on other coupled sectors. This impact can be demonstrated as a positive and negative cumulative effect. The cumulative effect from various technical measures applied within national energy system model may be observed only with annual simulations. Therefore, in this work this synergy effect will be explained in greater details for the first time. In this paper a parallel between individual and joined contribution of different policy goals of various technical measures applied to the national energy system model has been drawn. The conclusion aims to show the significance of sector coupling for sustainable energy planning.
C3  - Conference on Sustainable Development of Energy and Environment Systems, Dubrovnik, 1-5. 10. 2019
T1  - Advantages of Sector Coupling to the Sustainable Energy Systems
SP  - 563
EP  - 563
ER  - 
@conference{
author = "Batas-Bijelić, Ilija and Rajaković, Nikola",
year = "2019",
url = "http://dais.sanu.ac.rs/123456789/7026",
abstract = "After the EnergyPLAN and GenOpt have coupled together for the first time, a simulation based optimization has gained popularity in energy planning articles. The advantage of the coupling method is a synergy effect and integration of three different sectors e.g. heat, electricity and transport in comparison to a typical separated method. As a result, different technical measures cannot be applied separately for each individual sector without having impact on other coupled sectors. This impact can be demonstrated as a positive and negative cumulative effect. The cumulative effect from various technical measures applied within national energy system model may be observed only with annual simulations. Therefore, in this work this synergy effect will be explained in greater details for the first time. In this paper a parallel between individual and joined contribution of different policy goals of various technical measures applied to the national energy system model has been drawn. The conclusion aims to show the significance of sector coupling for sustainable energy planning.",
journal = "Conference on Sustainable Development of Energy and Environment Systems, Dubrovnik, 1-5. 10. 2019",
title = "Advantages of Sector Coupling to the Sustainable Energy Systems",
pages = "563-563"
}
Batas-Bijelić, I.,& Rajaković, N. (2019). Advantages of Sector Coupling to the Sustainable Energy Systems.
Conference on Sustainable Development of Energy and Environment Systems, Dubrovnik, 1-5. 10. 2019, null, 563-563. 
Batas-Bijelić I, Rajaković N. Advantages of Sector Coupling to the Sustainable Energy Systems. Conference on Sustainable Development of Energy and Environment Systems, Dubrovnik, 1-5. 10. 2019. 2019;:563-563

Smart Municipal Energy Grid within Electricity Market

Batas-Bijelić, Ilija; Rajaković, Nikola; Duić, Neven

(Elsevier, 2017)

TY  - JOUR
AU  - Batas-Bijelić, Ilija
AU  - Rajaković, Nikola
AU  - Duić, Neven
PY  - 2017
UR  - http://dais.sanu.ac.rs/123456789/5058
AB  - A smart municipal energy grid including electricity and heat production infrastructure and electricity demand response has been modeled in HOMER case study with the aim of decreasing total yearly community energy costs. The optimal configurations of used technologies (photovoltaic plants, combined heat and power plants, wind power plants) and sizing, with minimal costs, are presented and compared using three scenarios of average electricity market price 3.5 c€/kWh, 5 c€/kWh and 10 c€/kWh. Smart municipal energy grids will have an important role in future electricity markets, due to their flexibility to utilize excess electricity production from CHP and variable renewable energy sources through heat storage. This flexibility enables the levelized costs of energy within smart municipal energy grids to decrease below electricity market prices even in case of fuel price disturbances.  With initial costs in the range 0- 3,931,882 €, it has been shown that economical and environmental benefits of smart municipal energy grids are: the internal rate of return in the range 6.87-15.3%, and CO2 emissions in the range from -4,885,203 to 5,165,780 kg/year.  The resulting realistic number of hours of operation of combined heat and power plants obtained by simulations is in the range 2,410- 7,849 hours/year.
PB  - Elsevier
T2  - Energy
T1  - Smart Municipal Energy Grid within Electricity Market
SP  - 1277
EP  - 1285
VL  - 137
DO  - 10.1016/j.energy.2017.06.177
ER  - 
@article{
author = "Batas-Bijelić, Ilija and Rajaković, Nikola and Duić, Neven",
year = "2017",
url = "http://dais.sanu.ac.rs/123456789/5058",
abstract = "A smart municipal energy grid including electricity and heat production infrastructure and electricity demand response has been modeled in HOMER case study with the aim of decreasing total yearly community energy costs. The optimal configurations of used technologies (photovoltaic plants, combined heat and power plants, wind power plants) and sizing, with minimal costs, are presented and compared using three scenarios of average electricity market price 3.5 c€/kWh, 5 c€/kWh and 10 c€/kWh. Smart municipal energy grids will have an important role in future electricity markets, due to their flexibility to utilize excess electricity production from CHP and variable renewable energy sources through heat storage. This flexibility enables the levelized costs of energy within smart municipal energy grids to decrease below electricity market prices even in case of fuel price disturbances.  With initial costs in the range 0- 3,931,882 €, it has been shown that economical and environmental benefits of smart municipal energy grids are: the internal rate of return in the range 6.87-15.3%, and CO2 emissions in the range from -4,885,203 to 5,165,780 kg/year.  The resulting realistic number of hours of operation of combined heat and power plants obtained by simulations is in the range 2,410- 7,849 hours/year.",
publisher = "Elsevier",
journal = "Energy",
title = "Smart Municipal Energy Grid within Electricity Market",
pages = "1277-1285",
volume = "137",
doi = "10.1016/j.energy.2017.06.177"
}
Batas-Bijelić, I., Rajaković, N.,& Duić, N. (2017). Smart Municipal Energy Grid within Electricity Market.
EnergyElsevier., 137, 1277-1285. 
https://doi.org/10.1016/j.energy.2017.06.177
Batas-Bijelić I, Rajaković N, Duić N. Smart Municipal Energy Grid within Electricity Market. Energy. 2017;137:1277-1285
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