TY  - JOUR
AU  - Vasić, Ljiljana
AU  - Milanović, Saša
AU  - Dašić, Tina
PY  - 2023
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3335
AB  - The complex Krupaja karst system, located in Serbia, which consists of a strong karst spring, a thermal karst spring, and a borehole that captures sub-thermal waters, has been studied. A phenomenon which gives rise to the occurrence of karst waters of three different temperatures within a relatively short distance (about 200 m) led us to assume that these karst waters are formed within the same karst aquifer and circulate through different levels of karst channels that are zonally distributed within a vertical profile; this was confirmed by assessing the groundwater ages. Based on the development of karstification, as presented in this paper, as well as on previous investigations, explanations of four types of circulation within same karst system are provided. The results of measurements of stable isotopes (H, 18O, and 13C) and radioactive isotopes of tritium and T+He and 14C, as well as hydrochemical water analyses, speleogenetic spatial modeling, speleodiving research, etc., confirmed the assumption that these groundwaters belong to the same karst system. However, these karst waters have different residence times, i.e., from only a few days to over several decades and even up to approximately 4000 years, circulating through channels with various distributions along the depth of the karst aquifer.
PB  - MDPI
T2  - Sustainability
T1  - Definition of Circulation Conditions and Groundwater Genesis of the Complex Krupaja Hydrogeological Karst System (Eastern Serbia)
VL  - 15
DO  - 10.3390/su151411146
ER  - 

@article{
author = "Vasić, Ljiljana and Milanović, Saša and Dašić, Tina",
year = "2023",
abstract = "The complex Krupaja karst system, located in Serbia, which consists of a strong karst spring, a thermal karst spring, and a borehole that captures sub-thermal waters, has been studied. A phenomenon which gives rise to the occurrence of karst waters of three different temperatures within a relatively short distance (about 200 m) led us to assume that these karst waters are formed within the same karst aquifer and circulate through different levels of karst channels that are zonally distributed within a vertical profile; this was confirmed by assessing the groundwater ages. Based on the development of karstification, as presented in this paper, as well as on previous investigations, explanations of four types of circulation within same karst system are provided. The results of measurements of stable isotopes (H, 18O, and 13C) and radioactive isotopes of tritium and T+He and 14C, as well as hydrochemical water analyses, speleogenetic spatial modeling, speleodiving research, etc., confirmed the assumption that these groundwaters belong to the same karst system. However, these karst waters have different residence times, i.e., from only a few days to over several decades and even up to approximately 4000 years, circulating through channels with various distributions along the depth of the karst aquifer.",
publisher = "MDPI",
journal = "Sustainability",
title = "Definition of Circulation Conditions and Groundwater Genesis of the Complex Krupaja Hydrogeological Karst System (Eastern Serbia)",
volume = "15",
doi = "10.3390/su151411146"
}

Vasić, L., Milanović, S.,& Dašić, T.. (2023). Definition of Circulation Conditions and Groundwater Genesis of the Complex Krupaja Hydrogeological Karst System (Eastern Serbia). in Sustainability
MDPI., 15.
https://doi.org/10.3390/su151411146

Vasić L, Milanović S, Dašić T. Definition of Circulation Conditions and Groundwater Genesis of the Complex Krupaja Hydrogeological Karst System (Eastern Serbia). in Sustainability. 2023;15.
doi:10.3390/su151411146 .

Vasić, Ljiljana, Milanović, Saša, Dašić, Tina, "Definition of Circulation Conditions and Groundwater Genesis of the Complex Krupaja Hydrogeological Karst System (Eastern Serbia)" in Sustainability, 15 (2023),
https://doi.org/10.3390/su151411146 . .

TY  - JOUR
AU  - Dašić, Tina
AU  - Đorđević, Branislav
PY  - 2023
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3309
AB  - Uvođenje u elektroenergetske sisteme (EES) velikih snaga intermitentnih, naglo promenljivih izvora energije, solarnih i vetroelektrana, bez odgovarajućih energetskih, ali i ekoloških analiza, stvara sve veće probleme u tim sistemima. Bez dubljih analiza se zatvaraju elektrane sa visokom pouzdanošću proizvodnje (velike TE i NE), da bi se zamenili sa navodno obnovljivim izvorima energije, koji su vrlo nepouzdani sa gledišta obezbeđivanja stabilnosti rada EES. U radu se kritički razmatraju posledice izgradnje solarnih elektrana i vetroelektrana. U nizu država to postaje ozbiljan problem, koji će se sve više zaoštravati. Mogućnosti da se problemi reše skladištenjem energije u baterijama su vrlo ograničenog dometa. Veoma često se pri planiranju solarnih i verto elektrana ne vodi računa o činjenici da se sa takvim uređajima, čija izrada zahteva potrošnju velikih količina primarne enerije, a koji se nakon nekog ograničenog vremena moraju potpuno zameniti, dovodi u pitanje atribut obnovljivosti tih intermitentnih izvora enerije. U takvim okolnostima naglo raste potreba za uvođenjem u sisteme reverzibilnih hidroelektrana (RHE) i pumpno akumulacionih postrojenja (PAP), koji su neophodni da prime na sebe zadatke bilansiranja energije u sistemu i obezbeđivanje njegove stabilnosti u novim uslovima.
AB  - Increasing power of intermittent power plants (solar and wind), which have sudden and variable changes in availability, are being introduced into electric power systems without appropriate necessary energy and environmental analyses. It creates more and more problems for these systems. Without in-depth analysis, power plants with high production reliability (large thermal power plants and nuclear power plants) are being closed, in order to replace them with supposedly renewable energy sources, which are very unreliable from the point of view of ensuring the stability of the operation of the EES. The article critically examines those processes of spontaneous construction of solar power plants and wind power plants. In a number of countries, this is becoming a serious problem, which will become more and more acute. Optimism that it will be solved by energy storage in batteries is very limited. Important facts are not taken into account: (a) the production of batteries for energy storage requires the consumption of large amounts of primary energy, (b) the batteries must be completely replaced after some limited time. This often calls into question the renewable attribute of these intermittent energy sources, and significantly increases the cost of the energy thus obtained. In such circumstances, the need for the introduction of reversible hydropower plants (RHPP) and pumped storage plants (PSP) into the systems is rapidly growing, which are necessary to take on the task of balancing energy in the system and ensuring its stability in new conditions.
PB  - Srpsko društvo za odvodnjavanje i navodnjavanje
PB  - Akademija inženjerskih nauka Srbije
PB  - Univerzitet u Beogradu - Građevinski fakultet
T2  - Časopis Vodoprivreda
T1  - Reverzibilne hidroelektrane u uslovima povećanja udela elektrana sa izrazitom promenljivošću raspoloživosti
T1  - Reversible hydro power plants under the conditions of increasing the share of power plants with high variability of availability
EP  - 134
IS  - 323-324
SP  - 123
VL  - 55
UR  - https://hdl.handle.net/21.15107/rcub_grafar_3309
ER  - 

@article{
author = "Dašić, Tina and Đorđević, Branislav",
year = "2023",
abstract = "Uvođenje u elektroenergetske sisteme (EES) velikih snaga intermitentnih, naglo promenljivih izvora energije, solarnih i vetroelektrana, bez odgovarajućih energetskih, ali i ekoloških analiza, stvara sve veće probleme u tim sistemima. Bez dubljih analiza se zatvaraju elektrane sa visokom pouzdanošću proizvodnje (velike TE i NE), da bi se zamenili sa navodno obnovljivim izvorima energije, koji su vrlo nepouzdani sa gledišta obezbeđivanja stabilnosti rada EES. U radu se kritički razmatraju posledice izgradnje solarnih elektrana i vetroelektrana. U nizu država to postaje ozbiljan problem, koji će se sve više zaoštravati. Mogućnosti da se problemi reše skladištenjem energije u baterijama su vrlo ograničenog dometa. Veoma često se pri planiranju solarnih i verto elektrana ne vodi računa o činjenici da se sa takvim uređajima, čija izrada zahteva potrošnju velikih količina primarne enerije, a koji se nakon nekog ograničenog vremena moraju potpuno zameniti, dovodi u pitanje atribut obnovljivosti tih intermitentnih izvora enerije. U takvim okolnostima naglo raste potreba za uvođenjem u sisteme reverzibilnih hidroelektrana (RHE) i pumpno akumulacionih postrojenja (PAP), koji su neophodni da prime na sebe zadatke bilansiranja energije u sistemu i obezbeđivanje njegove stabilnosti u novim uslovima., Increasing power of intermittent power plants (solar and wind), which have sudden and variable changes in availability, are being introduced into electric power systems without appropriate necessary energy and environmental analyses. It creates more and more problems for these systems. Without in-depth analysis, power plants with high production reliability (large thermal power plants and nuclear power plants) are being closed, in order to replace them with supposedly renewable energy sources, which are very unreliable from the point of view of ensuring the stability of the operation of the EES. The article critically examines those processes of spontaneous construction of solar power plants and wind power plants. In a number of countries, this is becoming a serious problem, which will become more and more acute. Optimism that it will be solved by energy storage in batteries is very limited. Important facts are not taken into account: (a) the production of batteries for energy storage requires the consumption of large amounts of primary energy, (b) the batteries must be completely replaced after some limited time. This often calls into question the renewable attribute of these intermittent energy sources, and significantly increases the cost of the energy thus obtained. In such circumstances, the need for the introduction of reversible hydropower plants (RHPP) and pumped storage plants (PSP) into the systems is rapidly growing, which are necessary to take on the task of balancing energy in the system and ensuring its stability in new conditions.",
publisher = "Srpsko društvo za odvodnjavanje i navodnjavanje, Akademija inženjerskih nauka Srbije, Univerzitet u Beogradu - Građevinski fakultet",
journal = "Časopis Vodoprivreda",
title = "Reverzibilne hidroelektrane u uslovima povećanja udela elektrana sa izrazitom promenljivošću raspoloživosti, Reversible hydro power plants under the conditions of increasing the share of power plants with high variability of availability",
pages = "134-123",
number = "323-324",
volume = "55",
url = "https://hdl.handle.net/21.15107/rcub_grafar_3309"
}

Dašić, T.,& Đorđević, B.. (2023). Reverzibilne hidroelektrane u uslovima povećanja udela elektrana sa izrazitom promenljivošću raspoloživosti. in Časopis Vodoprivreda
Srpsko društvo za odvodnjavanje i navodnjavanje., 55(323-324), 123-134.
https://hdl.handle.net/21.15107/rcub_grafar_3309

Dašić T, Đorđević B. Reverzibilne hidroelektrane u uslovima povećanja udela elektrana sa izrazitom promenljivošću raspoloživosti. in Časopis Vodoprivreda. 2023;55(323-324):123-134.
https://hdl.handle.net/21.15107/rcub_grafar_3309 .

Dašić, Tina, Đorđević, Branislav, "Reverzibilne hidroelektrane u uslovima povećanja udela elektrana sa izrazitom promenljivošću raspoloživosti" in Časopis Vodoprivreda, 55, no. 323-324 (2023):123-134,
https://hdl.handle.net/21.15107/rcub_grafar_3309 .

TY  - JOUR
AU  - Dašić, Tina
AU  - Milanović, Saša
AU  - Vasić, Ljiljana
AU  - Petrović, Branislav
AU  - Marinović, Veljko
AU  - Vojnović, Petar
PY  - 2023
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3272
AB  - The results of long-term groundwater monitoring in the Bileća reservoir adjacent (eastern Herzegovina, Bosnia and Herzegovina) indicate that there is a good hydraulic connection between the reservoir and the karst aquifer located in the right bank of the reservoir. In remote parts of the right-bank karst aquifer, due to complex lithostratigraphic characteristics and a tectonic structure, the influence of the reservoir is very variable and has been insufficiently studied up until now. This paper presents the analysis and synthesis of new, relevant hydrogeological data, as a basis for the creation of a 3D spatial model, i.e., the analysis of the karst system’s behaviour, both under regular and artificial hydrological conditions of surface reservoir construction and its continuous use (filling and emptying). The interactive connection of the model and complex surface and groundwater time series monitoring data of this system is presented through the analysis of its hydrodynamic characteristics, which completes the spatial model of the karst regime caused by low and high groundwater levels and low and high reservoir water levels. The integration of all the data into one model and further multiparametric analyses revealed the different types of hydrodynamic conditions prevailing in the karst aquifer with regard to the influence of the high or low waters of the reservoir.
PB  - MDPI
T2  - Časopis Sustainability
T1  - The Impact on Karst Aquifer Regimes Induced by a Surface Reservoir in Karst through Multiparametric Analyses (Reservoir Bileća—Herzegovina)
VL  - 15
DO  - 10.3390/su151511968
ER  - 

@article{
author = "Dašić, Tina and Milanović, Saša and Vasić, Ljiljana and Petrović, Branislav and Marinović, Veljko and Vojnović, Petar",
year = "2023",
abstract = "The results of long-term groundwater monitoring in the Bileća reservoir adjacent (eastern Herzegovina, Bosnia and Herzegovina) indicate that there is a good hydraulic connection between the reservoir and the karst aquifer located in the right bank of the reservoir. In remote parts of the right-bank karst aquifer, due to complex lithostratigraphic characteristics and a tectonic structure, the influence of the reservoir is very variable and has been insufficiently studied up until now. This paper presents the analysis and synthesis of new, relevant hydrogeological data, as a basis for the creation of a 3D spatial model, i.e., the analysis of the karst system’s behaviour, both under regular and artificial hydrological conditions of surface reservoir construction and its continuous use (filling and emptying). The interactive connection of the model and complex surface and groundwater time series monitoring data of this system is presented through the analysis of its hydrodynamic characteristics, which completes the spatial model of the karst regime caused by low and high groundwater levels and low and high reservoir water levels. The integration of all the data into one model and further multiparametric analyses revealed the different types of hydrodynamic conditions prevailing in the karst aquifer with regard to the influence of the high or low waters of the reservoir.",
publisher = "MDPI",
journal = "Časopis Sustainability",
title = "The Impact on Karst Aquifer Regimes Induced by a Surface Reservoir in Karst through Multiparametric Analyses (Reservoir Bileća—Herzegovina)",
volume = "15",
doi = "10.3390/su151511968"
}

Dašić, T., Milanović, S., Vasić, L., Petrović, B., Marinović, V.,& Vojnović, P.. (2023). The Impact on Karst Aquifer Regimes Induced by a Surface Reservoir in Karst through Multiparametric Analyses (Reservoir Bileća—Herzegovina). in Časopis Sustainability
MDPI., 15.
https://doi.org/10.3390/su151511968

Dašić T, Milanović S, Vasić L, Petrović B, Marinović V, Vojnović P. The Impact on Karst Aquifer Regimes Induced by a Surface Reservoir in Karst through Multiparametric Analyses (Reservoir Bileća—Herzegovina). in Časopis Sustainability. 2023;15.
doi:10.3390/su151511968 .

Dašić, Tina, Milanović, Saša, Vasić, Ljiljana, Petrović, Branislav, Marinović, Veljko, Vojnović, Petar, "The Impact on Karst Aquifer Regimes Induced by a Surface Reservoir in Karst through Multiparametric Analyses (Reservoir Bileća—Herzegovina)" in Časopis Sustainability, 15 (2023),
https://doi.org/10.3390/su151511968 . .

TY  - CONF
AU  - Dašić, Tina
AU  - Milić, Marija
PY  - 2023
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3313
AB  - Several unfavourable processes are occurring in the energy sector. Significant capacities of renewable energy sources such as wind and solar, which have variable and unpredictable availability, are being commissioned without detailed analyses of their impact on electric power systems. Meanwhile, large thermal and nuclear power plants, which have traditionally provided stability and reliability to the power system, are being decommissioned. These processes are significantly altering the role of hydropower plants. All types of hydropower plants are becoming increasingly important, particularly those with large water storage reservoirs and pumped-storage hydropower plants. In such cases, hydropower plants have the potential to balance a renewable energy system in the short term (seconds to minutes), while pumped-storage plants can provide medium to long-term balancing (months or even years).
The article discusses the trend of an increasing quantity of volatile and intermittent energy sources (wind and solar) on one side, and stagnation of predictable hydropower sources. It presents the available hydropower potential in Serbia and the real possibilities for its utilization. Additionally, it describes one of the most promising hydropower facilities, the Pumped-storage Hydropower Plant Bistrica, (which is currently in the conceptual design phase) as part of the Lim-Uvac hydropower system.
PB  - MACOLD (Macedonian Committee on Large Dams)
C3  - Proceedings of the 13th Conference on Water Economy and Hydrotechnics
T1  - The role of hydropower plants in the context of renewable energy transition - case study of pumped-storage hydropower plant Bistrica
UR  - https://hdl.handle.net/21.15107/rcub_grafar_3313
ER  - 

@conference{
author = "Dašić, Tina and Milić, Marija",
year = "2023",
abstract = "Several unfavourable processes are occurring in the energy sector. Significant capacities of renewable energy sources such as wind and solar, which have variable and unpredictable availability, are being commissioned without detailed analyses of their impact on electric power systems. Meanwhile, large thermal and nuclear power plants, which have traditionally provided stability and reliability to the power system, are being decommissioned. These processes are significantly altering the role of hydropower plants. All types of hydropower plants are becoming increasingly important, particularly those with large water storage reservoirs and pumped-storage hydropower plants. In such cases, hydropower plants have the potential to balance a renewable energy system in the short term (seconds to minutes), while pumped-storage plants can provide medium to long-term balancing (months or even years).
The article discusses the trend of an increasing quantity of volatile and intermittent energy sources (wind and solar) on one side, and stagnation of predictable hydropower sources. It presents the available hydropower potential in Serbia and the real possibilities for its utilization. Additionally, it describes one of the most promising hydropower facilities, the Pumped-storage Hydropower Plant Bistrica, (which is currently in the conceptual design phase) as part of the Lim-Uvac hydropower system.",
publisher = "MACOLD (Macedonian Committee on Large Dams)",
journal = "Proceedings of the 13th Conference on Water Economy and Hydrotechnics",
title = "The role of hydropower plants in the context of renewable energy transition - case study of pumped-storage hydropower plant Bistrica",
url = "https://hdl.handle.net/21.15107/rcub_grafar_3313"
}

Dašić, T.,& Milić, M.. (2023). The role of hydropower plants in the context of renewable energy transition - case study of pumped-storage hydropower plant Bistrica. in Proceedings of the 13th Conference on Water Economy and Hydrotechnics
MACOLD (Macedonian Committee on Large Dams)..
https://hdl.handle.net/21.15107/rcub_grafar_3313

Dašić T, Milić M. The role of hydropower plants in the context of renewable energy transition - case study of pumped-storage hydropower plant Bistrica. in Proceedings of the 13th Conference on Water Economy and Hydrotechnics. 2023;.
https://hdl.handle.net/21.15107/rcub_grafar_3313 .

Dašić, Tina, Milić, Marija, "The role of hydropower plants in the context of renewable energy transition - case study of pumped-storage hydropower plant Bistrica" in Proceedings of the 13th Conference on Water Economy and Hydrotechnics (2023),
https://hdl.handle.net/21.15107/rcub_grafar_3313 .

TY  - CONF
AU  - Dašić, Tina
PY  - 2023
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3308
AB  - У оквиру Просторног плана Србије, све планиране хидроелектране налазе
се у класи тзв. интегралних речних система, и као такве део су и мера за
еколошко уређење простора. Адекватним пројектовањем и управљањем
хидроенергетских система поред њиховог складног уклапања у окружење,
могуће је и побољшавати еколошке услове, посебно у кризним хидролошким
ситуацијама. То постаје посебно значајно у условима климатских
промена, чија је једна од неповољних последица погоршавање екстремних
хидролошких феномена – повећавање великих вода и продужавање
трајања малих вода. Акумулационе ХЕ се могу реализовати у оквиру
вишенаменских система, и њима се могу остваривати и мере активне
одбране од поплава (ублажавање врхова поплавних таласа). Адекватним
диспозицијама могуће је постићи и побољшавање режима малих вода
у кризним периодима, као и управљање температурним и кисеоничним
режимима, према потребама водених екосистема. Каскаде ХЕ на Дрини,
Великој Морави, Ибру – највећим делом су планиране у коритима за
велику воду, тако да се изградња тих ХЕ може синхронизовати са мерама
које се свакако морају реализовати (ојачање и надвишење насипа, ојачање
заптитних касета) за потребе достизања захтеваних степена заштите од
великих вода. Сви ти каскадни системи, са доста стабилизованим нивоима,
омогућавају да се на складан начин уклопе у урбане матрице градова у
приобаљу, како би се та насеља на најбољи начин заиста ,,спустила“ на
водотоке са стабилним акваторијама.
Може се закључити да ХЕ не само да нису ,,реметилачки“ фактор у
еколошком, социјалном и урбаном простору, већ ће, тратиране као део
интегралних речних система и мера уређања простора, бити све важнији
део мера уређења и унапређења животне средине.
PB  - SANU - Srpska akademija nauka i umetnosti
C3  - Научни скуп: Хидроенергетика региона Југоисточне Европe
T1  - Хидроелектране као део интегралних речних система складно уклопљених у еколошко, социјално и урбано окружење
UR  - https://hdl.handle.net/21.15107/rcub_grafar_3308
ER  - 

@conference{
author = "Dašić, Tina",
year = "2023",
abstract = "У оквиру Просторног плана Србије, све планиране хидроелектране налазе
се у класи тзв. интегралних речних система, и као такве део су и мера за
еколошко уређење простора. Адекватним пројектовањем и управљањем
хидроенергетских система поред њиховог складног уклапања у окружење,
могуће је и побољшавати еколошке услове, посебно у кризним хидролошким
ситуацијама. То постаје посебно значајно у условима климатских
промена, чија је једна од неповољних последица погоршавање екстремних
хидролошких феномена – повећавање великих вода и продужавање
трајања малих вода. Акумулационе ХЕ се могу реализовати у оквиру
вишенаменских система, и њима се могу остваривати и мере активне
одбране од поплава (ублажавање врхова поплавних таласа). Адекватним
диспозицијама могуће је постићи и побољшавање режима малих вода
у кризним периодима, као и управљање температурним и кисеоничним
режимима, према потребама водених екосистема. Каскаде ХЕ на Дрини,
Великој Морави, Ибру – највећим делом су планиране у коритима за
велику воду, тако да се изградња тих ХЕ може синхронизовати са мерама
које се свакако морају реализовати (ојачање и надвишење насипа, ојачање
заптитних касета) за потребе достизања захтеваних степена заштите од
великих вода. Сви ти каскадни системи, са доста стабилизованим нивоима,
омогућавају да се на складан начин уклопе у урбане матрице градова у
приобаљу, како би се та насеља на најбољи начин заиста ,,спустила“ на
водотоке са стабилним акваторијама.
Може се закључити да ХЕ не само да нису ,,реметилачки“ фактор у
еколошком, социјалном и урбаном простору, већ ће, тратиране као део
интегралних речних система и мера уређања простора, бити све важнији
део мера уређења и унапређења животне средине.",
publisher = "SANU - Srpska akademija nauka i umetnosti",
journal = "Научни скуп: Хидроенергетика региона Југоисточне Европe",
title = "Хидроелектране као део интегралних речних система складно уклопљених у еколошко, социјално и урбано окружење",
url = "https://hdl.handle.net/21.15107/rcub_grafar_3308"
}

Dašić, T.. (2023). Хидроелектране као део интегралних речних система складно уклопљених у еколошко, социјално и урбано окружење. in Научни скуп: Хидроенергетика региона Југоисточне Европe
SANU - Srpska akademija nauka i umetnosti..
https://hdl.handle.net/21.15107/rcub_grafar_3308

Dašić T. Хидроелектране као део интегралних речних система складно уклопљених у еколошко, социјално и урбано окружење. in Научни скуп: Хидроенергетика региона Југоисточне Европe. 2023;.
https://hdl.handle.net/21.15107/rcub_grafar_3308 .

Dašić, Tina, "Хидроелектране као део интегралних речних система складно уклопљених у еколошко, социјално и урбано окружење" in Научни скуп: Хидроенергетика региона Југоисточне Европe (2023),
https://hdl.handle.net/21.15107/rcub_grafar_3308 .

TY  - CONF
AU  - Dašić, Tina
PY  - 2023
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3310
AB  - The impacts of climate change are becoming increasingly pronounced in all aspects of human activity, but are especially evident in the field of water management. One of its most significant consequences is the increasingly pronounced temporal variability of river flows - frequent floods with increasing peak flows and long periods of low water flow. In such conditions, existing flood protection measures are often insufficient to secure the protected area. That is why flood protection systems must be constantly developed, considering their construction, as well as improvement of management measures. The paper presents the consequences of climate change on water resources on the territory of the Serbia. The main principles of water management in such conditions are defined, as well as the role of the estimation of flood hydrographs. The possibilities of applying mathematical models in order to improve the role of active flood protection measures of existing reservoirs are presented. The analyses are performed for water resources systems in the Trebišnjica and Vrbas river basins in the Republic of Srpska (Bosnia and Herzegovina). The main task was to analyse the reduction of peak flow in the urban areas downstream from the analysed reservoirs, taking into account the uncontrolled part of the watershed (between the urban area and the reservoir), from which the torrential tributaries originate. Performed analyses show that reservoirs (even of relatively small active storage) can significantly reduce the peak flow during flood events.
PB  - CRC Press
C3  - Proceedings of the 12th ICOLD European Club Symposium: Role of Dams and Reservoirs in a Successful Energy Transition
T1  - Role of water storage reservoirs management and flood mitigation in climate change conditions
EP  - 293
SP  - 286
DO  - 10.1201/9781003440420-32
ER  - 

@conference{
author = "Dašić, Tina",
year = "2023",
abstract = "The impacts of climate change are becoming increasingly pronounced in all aspects of human activity, but are especially evident in the field of water management. One of its most significant consequences is the increasingly pronounced temporal variability of river flows - frequent floods with increasing peak flows and long periods of low water flow. In such conditions, existing flood protection measures are often insufficient to secure the protected area. That is why flood protection systems must be constantly developed, considering their construction, as well as improvement of management measures. The paper presents the consequences of climate change on water resources on the territory of the Serbia. The main principles of water management in such conditions are defined, as well as the role of the estimation of flood hydrographs. The possibilities of applying mathematical models in order to improve the role of active flood protection measures of existing reservoirs are presented. The analyses are performed for water resources systems in the Trebišnjica and Vrbas river basins in the Republic of Srpska (Bosnia and Herzegovina). The main task was to analyse the reduction of peak flow in the urban areas downstream from the analysed reservoirs, taking into account the uncontrolled part of the watershed (between the urban area and the reservoir), from which the torrential tributaries originate. Performed analyses show that reservoirs (even of relatively small active storage) can significantly reduce the peak flow during flood events.",
publisher = "CRC Press",
journal = "Proceedings of the 12th ICOLD European Club Symposium: Role of Dams and Reservoirs in a Successful Energy Transition",
title = "Role of water storage reservoirs management and flood mitigation in climate change conditions",
pages = "293-286",
doi = "10.1201/9781003440420-32"
}

Dašić, T.. (2023). Role of water storage reservoirs management and flood mitigation in climate change conditions. in Proceedings of the 12th ICOLD European Club Symposium: Role of Dams and Reservoirs in a Successful Energy Transition
CRC Press., 286-293.
https://doi.org/10.1201/9781003440420-32

Dašić T. Role of water storage reservoirs management and flood mitigation in climate change conditions. in Proceedings of the 12th ICOLD European Club Symposium: Role of Dams and Reservoirs in a Successful Energy Transition. 2023;:286-293.
doi:10.1201/9781003440420-32 .

Dašić, Tina, "Role of water storage reservoirs management and flood mitigation in climate change conditions" in Proceedings of the 12th ICOLD European Club Symposium: Role of Dams and Reservoirs in a Successful Energy Transition (2023):286-293,
https://doi.org/10.1201/9781003440420-32 . .

TY  - GEN
AU  - Lucca, E.
AU  - Avellán, T.
AU  - Kofinas, D.
AU  - Baganz, G. F. M.
AU  - Baubekova, A.
AU  - Blicharska, M.
AU  - Calheiros, C.
AU  - Castelli, G.
AU  - Dašić, T.
AU  - Đorđević, D.
AU  - el Jeitany, J.
AU  - Fader, M.
AU  - Hassan, R.
AU  - Kleemann, J.
AU  - Liu, H.-Y.
AU  - Masia, S.
AU  - Merheb, M.
AU  - Milliken, S.
AU  - Mooren, C. E.
AU  - Oinonen, S.
AU  - Oral, H. V.
AU  - Pagano, A.
AU  - Pineda-Martos, R.
AU  - Psomas, A.
AU  - Rađenović, T.
AU  - Das, S. S.
AU  - Sambo, B.
AU  - Sperotto, A.
AU  - Spyropoulou, A.
AU  - Stefanakis, A.
AU  - Suškevičs, M.
AU  - Sušnik, J.
AU  - Taiwo Temitope, B.
AU  - Teutschbein, C.
AU  - Vasilić, V.
AU  - Munaretto, S.
AU  - Brouwer, F.
AU  - Laspidou, C.
PY  - 2023
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3179
AB  - Integrated approaches for managing natural resources are needed to meet the increasing demand for freshwater, energy and food, while, in parallel, mitigating and adapting to climate change, maintaining the integrity of ecosystems, and ensuring equitable access to resources. The Water-Energy-Food (WEF) Nexus has been proposed as a cross-sectoral approach to understand, analyse, and manage the complex trade-offs and exploit synergies that arise among these resource sectors. Although not initially included as a component of the Nexus, the importance of ecosystems in supporting water, energy and food security is increasingly recognised by the Nexus community of researchers and practitioners. However, attempts to conceptually integrate Ecosystems into the Nexus have yet to converge into a common framework. A group of natural resources management researchers, system thinkers and ecosystem services experts from the European network COST Action CA20138 NEXUSNET have compiled and investigated the various approaches for integrating ecosystems in the WEF Nexus. By combining literature analysis with interdisciplinary workshops – one of which was held in a hybrid format (in person and online) at the University of Oulu, Finland, in September 2022 – we reveal a multiplicity of concepts utilised to represent, partially or fully, ecosystems in the Nexus, namely “natural environment”, “ecosystem services” and “biodiversity”. Disparity was also found in the role attributed to ecosystems in the Nexus framework, being it an underlying layer from which resources for Nexus sectors are extracted or the pillar of an expanded Nexus system – i.e., the WEF-Ecosystems Nexus. Through this collaborative effort, we present possible advantages and disadvantages of adopting differential  WEF-Ecosystems Nexus approaches, highlighting their potential complementarity and integration to support future advancement of Nexus research. In the oral presentation, we will show our preliminary findings and encourage the exchange of ideas and feedback from the different scientific disciplines present at the CEMEPE Conference.
T1  - Incorporating Ecosystems in the Water-Energy-Food Nexus: Current Perspective and Future Directions
UR  - https://hdl.handle.net/21.15107/rcub_grafar_3179
ER  - 

@misc{
author = "Lucca, E. and Avellán, T. and Kofinas, D. and Baganz, G. F. M. and Baubekova, A. and Blicharska, M. and Calheiros, C. and Castelli, G. and Dašić, T. and Đorđević, D. and el Jeitany, J. and Fader, M. and Hassan, R. and Kleemann, J. and Liu, H.-Y. and Masia, S. and Merheb, M. and Milliken, S. and Mooren, C. E. and Oinonen, S. and Oral, H. V. and Pagano, A. and Pineda-Martos, R. and Psomas, A. and Rađenović, T. and Das, S. S. and Sambo, B. and Sperotto, A. and Spyropoulou, A. and Stefanakis, A. and Suškevičs, M. and Sušnik, J. and Taiwo Temitope, B. and Teutschbein, C. and Vasilić, V. and Munaretto, S. and Brouwer, F. and Laspidou, C.",
year = "2023",
abstract = "Integrated approaches for managing natural resources are needed to meet the increasing demand for freshwater, energy and food, while, in parallel, mitigating and adapting to climate change, maintaining the integrity of ecosystems, and ensuring equitable access to resources. The Water-Energy-Food (WEF) Nexus has been proposed as a cross-sectoral approach to understand, analyse, and manage the complex trade-offs and exploit synergies that arise among these resource sectors. Although not initially included as a component of the Nexus, the importance of ecosystems in supporting water, energy and food security is increasingly recognised by the Nexus community of researchers and practitioners. However, attempts to conceptually integrate Ecosystems into the Nexus have yet to converge into a common framework. A group of natural resources management researchers, system thinkers and ecosystem services experts from the European network COST Action CA20138 NEXUSNET have compiled and investigated the various approaches for integrating ecosystems in the WEF Nexus. By combining literature analysis with interdisciplinary workshops – one of which was held in a hybrid format (in person and online) at the University of Oulu, Finland, in September 2022 – we reveal a multiplicity of concepts utilised to represent, partially or fully, ecosystems in the Nexus, namely “natural environment”, “ecosystem services” and “biodiversity”. Disparity was also found in the role attributed to ecosystems in the Nexus framework, being it an underlying layer from which resources for Nexus sectors are extracted or the pillar of an expanded Nexus system – i.e., the WEF-Ecosystems Nexus. Through this collaborative effort, we present possible advantages and disadvantages of adopting differential  WEF-Ecosystems Nexus approaches, highlighting their potential complementarity and integration to support future advancement of Nexus research. In the oral presentation, we will show our preliminary findings and encourage the exchange of ideas and feedback from the different scientific disciplines present at the CEMEPE Conference.",
title = "Incorporating Ecosystems in the Water-Energy-Food Nexus: Current Perspective and Future Directions",
url = "https://hdl.handle.net/21.15107/rcub_grafar_3179"
}

Lucca, E., Avellán, T., Kofinas, D., Baganz, G. F. M., Baubekova, A., Blicharska, M., Calheiros, C., Castelli, G., Dašić, T., Đorđević, D., el Jeitany, J., Fader, M., Hassan, R., Kleemann, J., Liu, H.-Y., Masia, S., Merheb, M., Milliken, S., Mooren, C. E., Oinonen, S., Oral, H. V., Pagano, A., Pineda-Martos, R., Psomas, A., Rađenović, T., Das, S. S., Sambo, B., Sperotto, A., Spyropoulou, A., Stefanakis, A., Suškevičs, M., Sušnik, J., Taiwo Temitope, B., Teutschbein, C., Vasilić, V., Munaretto, S., Brouwer, F.,& Laspidou, C.. (2023). Incorporating Ecosystems in the Water-Energy-Food Nexus: Current Perspective and Future Directions. .
https://hdl.handle.net/21.15107/rcub_grafar_3179

Lucca E, Avellán T, Kofinas D, Baganz GFM, Baubekova A, Blicharska M, Calheiros C, Castelli G, Dašić T, Đorđević D, el Jeitany J, Fader M, Hassan R, Kleemann J, Liu H, Masia S, Merheb M, Milliken S, Mooren CE, Oinonen S, Oral HV, Pagano A, Pineda-Martos R, Psomas A, Rađenović T, Das SS, Sambo B, Sperotto A, Spyropoulou A, Stefanakis A, Suškevičs M, Sušnik J, Taiwo Temitope B, Teutschbein C, Vasilić V, Munaretto S, Brouwer F, Laspidou C. Incorporating Ecosystems in the Water-Energy-Food Nexus: Current Perspective and Future Directions. 2023;.
https://hdl.handle.net/21.15107/rcub_grafar_3179 .

Lucca, E., Avellán, T., Kofinas, D., Baganz, G. F. M., Baubekova, A., Blicharska, M., Calheiros, C., Castelli, G., Dašić, T., Đorđević, D., el Jeitany, J., Fader, M., Hassan, R., Kleemann, J., Liu, H.-Y., Masia, S., Merheb, M., Milliken, S., Mooren, C. E., Oinonen, S., Oral, H. V., Pagano, A., Pineda-Martos, R., Psomas, A., Rađenović, T., Das, S. S., Sambo, B., Sperotto, A., Spyropoulou, A., Stefanakis, A., Suškevičs, M., Sušnik, J., Taiwo Temitope, B., Teutschbein, C., Vasilić, V., Munaretto, S., Brouwer, F., Laspidou, C., "Incorporating Ecosystems in the Water-Energy-Food Nexus: Current Perspective and Future Directions" (2023),
https://hdl.handle.net/21.15107/rcub_grafar_3179 .

TY  - CONF
AU  - Dašić, Tina
PY  - 2022
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/3307
C3  - Naučno-stručni skup: "Energetika i uticaj na životnu sredinu", Rektorat Univerziteta u Beogradu
T1  - Hidropotencijal Srbije - trenutno stanje i strategija razvoja
UR  - https://hdl.handle.net/21.15107/rcub_grafar_3307
ER  - 

@conference{
author = "Dašić, Tina",
year = "2022",
journal = "Naučno-stručni skup: "Energetika i uticaj na životnu sredinu", Rektorat Univerziteta u Beogradu",
title = "Hidropotencijal Srbije - trenutno stanje i strategija razvoja",
url = "https://hdl.handle.net/21.15107/rcub_grafar_3307"
}

Dašić, T.. (2022). Hidropotencijal Srbije - trenutno stanje i strategija razvoja. in Naučno-stručni skup: "Energetika i uticaj na životnu sredinu", Rektorat Univerziteta u Beogradu.
https://hdl.handle.net/21.15107/rcub_grafar_3307

Dašić T. Hidropotencijal Srbije - trenutno stanje i strategija razvoja. in Naučno-stručni skup: "Energetika i uticaj na životnu sredinu", Rektorat Univerziteta u Beogradu. 2022;.
https://hdl.handle.net/21.15107/rcub_grafar_3307 .

Dašić, Tina, "Hidropotencijal Srbije - trenutno stanje i strategija razvoja" in Naučno-stručni skup: "Energetika i uticaj na životnu sredinu", Rektorat Univerziteta u Beogradu (2022),
https://hdl.handle.net/21.15107/rcub_grafar_3307 .

TY  - JOUR
AU  - Dašić, Tina
AU  - Đorđević, Branislav
AU  - Moskovljević, Jasmina
PY  - 2022
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2944
AB  - U svetu se odigravaju nepovoljni procesi u energetici: nedovoljno prostudirano se uvode u pogon velike snage obnovljivih izvora energije čija je raspoloživost vrlo promenljiva i nepredvidiva, zatvaraju se velike termoelektrane i nuklearne elektrane koje su obezbeđivale stabilnost i pouzdanost elektroenergetskih sistema, iz političkih razloga se prekidaju transferi energije i uvoz nekih ključnih energenata (prirodni gas, ugalj, nafta). Ti procesi radikalno menjaju ulogu hidroelektrana u elektroenergetskim sistemima. Sve vrste hidroelektana dobijaju na posebnom značaju, a posebno akumulacione hidroelektrane velikih instalisanih snaga. Značajno se povećava njihova uloga u regulaciji i obezbeđivanju pouzdanosti elektroenergetskih sistema. Zbog regulacije sistema u uslovima nagle promenljivosti snaga elektrana koje koriste vetar i Sunce, pored akumulacionih hidroelektrana velikih snaga, veliki značaj dobijaju i reverzibilne, pumpno akumulacione hidroelektrane. 

U članku se razmatraju procesi u svetu na planu hidroenergetike, raspoloživi hidroenergetski potencijali Srbije, kao i realne mogućnosti za njihovu realizaciju. Prikazuju se ključni hidroenergetski sistemi koji su preostali za izgradnju. Ukazuje se na neophodnost da se metodološki jasno razgraniči koji energetski izvori spadaju zaista u klasu obnovljivih izvora energije, i koji zaista doprinose smanjenju emisije gasova staklene bašte. Posebno se naglašava značaj da se prostornim planovina svih nivoa definišu i obezbede od devastacije i zauzeća prostori koji su neophodni za realizaciju hidroenergestkih sistema.
AB  - Several unfavorable processes are taking place in the field of energy: large capacities of renewable energy sources (with variable and unpredictable availability) are being put into operation without detailed analises of its influence on electric power systems (EPS), large thermal and nuclear power plants (those who ensured the stability and reliability of EPS) are being closed, energy transmission systems are being cut off for political reasons as well as the import of some most important energy sources (natural gas, coal, oil). Those processes significantly change the role of hydropower plants in the EPS. All types of hydropower plants are becoming specialy important, especially those with water storage reservoirs and large installed capacities. Their role in regulating and ensuring the reliability of EPSs is significantly increasing. Beside the storage hydropower plants, pumped-storage hydropower plants become more important due to their possibilities to regulate the system in conditions of sudden changes of the power of wind and solar power plants,.

The article discusses the processes in the world in terms of hydropower, the available hydropower potential in Serbia, as well as the real possibilities for its utilization. The most important hydropower systems remaining for construction are presented in the article. It is pointed out the necessity to clearly delineate which energy sources are really renewable and which contribute to the reduction of greenhouse gas. The importance of spatial planning which should protect the spaces necessary for the construction of hydropower systems is particularly emphasized.
PB  - Srpsko društvo za odvodnjavanje i navodnjavanje
PB  - Akademija inženjerskih nauka Srbije
T2  - Časopis Vodoprivreda
T1  - Hidroenergetski potencijal – najpouzdaniji i sve neophodniji obnovljivi izvor energije
T1  - Hydro energy potential - the most reliable and the increasingly necessary renewable source of energy
EP  - 238
IS  - 319-320
SP  - 225
VL  - 54
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2944
ER  - 

@article{
author = "Dašić, Tina and Đorđević, Branislav and Moskovljević, Jasmina",
year = "2022",
abstract = "U svetu se odigravaju nepovoljni procesi u energetici: nedovoljno prostudirano se uvode u pogon velike snage obnovljivih izvora energije čija je raspoloživost vrlo promenljiva i nepredvidiva, zatvaraju se velike termoelektrane i nuklearne elektrane koje su obezbeđivale stabilnost i pouzdanost elektroenergetskih sistema, iz političkih razloga se prekidaju transferi energije i uvoz nekih ključnih energenata (prirodni gas, ugalj, nafta). Ti procesi radikalno menjaju ulogu hidroelektrana u elektroenergetskim sistemima. Sve vrste hidroelektana dobijaju na posebnom značaju, a posebno akumulacione hidroelektrane velikih instalisanih snaga. Značajno se povećava njihova uloga u regulaciji i obezbeđivanju pouzdanosti elektroenergetskih sistema. Zbog regulacije sistema u uslovima nagle promenljivosti snaga elektrana koje koriste vetar i Sunce, pored akumulacionih hidroelektrana velikih snaga, veliki značaj dobijaju i reverzibilne, pumpno akumulacione hidroelektrane. 

U članku se razmatraju procesi u svetu na planu hidroenergetike, raspoloživi hidroenergetski potencijali Srbije, kao i realne mogućnosti za njihovu realizaciju. Prikazuju se ključni hidroenergetski sistemi koji su preostali za izgradnju. Ukazuje se na neophodnost da se metodološki jasno razgraniči koji energetski izvori spadaju zaista u klasu obnovljivih izvora energije, i koji zaista doprinose smanjenju emisije gasova staklene bašte. Posebno se naglašava značaj da se prostornim planovina svih nivoa definišu i obezbede od devastacije i zauzeća prostori koji su neophodni za realizaciju hidroenergestkih sistema., Several unfavorable processes are taking place in the field of energy: large capacities of renewable energy sources (with variable and unpredictable availability) are being put into operation without detailed analises of its influence on electric power systems (EPS), large thermal and nuclear power plants (those who ensured the stability and reliability of EPS) are being closed, energy transmission systems are being cut off for political reasons as well as the import of some most important energy sources (natural gas, coal, oil). Those processes significantly change the role of hydropower plants in the EPS. All types of hydropower plants are becoming specialy important, especially those with water storage reservoirs and large installed capacities. Their role in regulating and ensuring the reliability of EPSs is significantly increasing. Beside the storage hydropower plants, pumped-storage hydropower plants become more important due to their possibilities to regulate the system in conditions of sudden changes of the power of wind and solar power plants,.

The article discusses the processes in the world in terms of hydropower, the available hydropower potential in Serbia, as well as the real possibilities for its utilization. The most important hydropower systems remaining for construction are presented in the article. It is pointed out the necessity to clearly delineate which energy sources are really renewable and which contribute to the reduction of greenhouse gas. The importance of spatial planning which should protect the spaces necessary for the construction of hydropower systems is particularly emphasized.",
publisher = "Srpsko društvo za odvodnjavanje i navodnjavanje, Akademija inženjerskih nauka Srbije",
journal = "Časopis Vodoprivreda",
title = "Hidroenergetski potencijal – najpouzdaniji i sve neophodniji obnovljivi izvor energije, Hydro energy potential - the most reliable and the increasingly necessary renewable source of energy",
pages = "238-225",
number = "319-320",
volume = "54",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2944"
}

Dašić, T., Đorđević, B.,& Moskovljević, J.. (2022). Hidroenergetski potencijal – najpouzdaniji i sve neophodniji obnovljivi izvor energije. in Časopis Vodoprivreda
Srpsko društvo za odvodnjavanje i navodnjavanje., 54(319-320), 225-238.
https://hdl.handle.net/21.15107/rcub_grafar_2944

Dašić T, Đorđević B, Moskovljević J. Hidroenergetski potencijal – najpouzdaniji i sve neophodniji obnovljivi izvor energije. in Časopis Vodoprivreda. 2022;54(319-320):225-238.
https://hdl.handle.net/21.15107/rcub_grafar_2944 .

Dašić, Tina, Đorđević, Branislav, Moskovljević, Jasmina, "Hidroenergetski potencijal – najpouzdaniji i sve neophodniji obnovljivi izvor energije" in Časopis Vodoprivreda, 54, no. 319-320 (2022):225-238,
https://hdl.handle.net/21.15107/rcub_grafar_2944 .

TY  - CONF
AU  - Rajaković-Ognjanović, Vladana
AU  - Dašić, Tina
PY  - 2021
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2464
AB  - Pri planiranju akumulacionih hidroelektrana, važan segment je i adekvatan monitoring kvaliteta vode. Uz odgovarajući monitoring program omogućava se višenamensko korišćenje veštačkih jezera. Eutrofikacija vode u jezeru je fenomen koji je prisutan kod svih jezera. Posledica eutrofikacije jeste ugroženost akvatičnog ekosistema. Eutrofikacija je fenomen koji nastaje kao odgovor akvatičnog ekosistema na povećanu koncentraciju nutrijenata, fosfora (P) i azota (N), usled prirodnih i antropogenih aktivnosti.  Pored osnovnih, klasičnih pokazatelja kvaliteta vode koji su u korelaciji sa eutrofikacijom najnovija istraživanja pokazuju da su jezera sve više izložena eutrofikaciji usled klimatskih promena i opšte prisutnog zagađenja životne sredine. U ovom radu prikazani su rezultati analize kvaliteta vode reke Komarnice, u Crnoj Gori na kojoj se planira izgradnja akumulacione pribranske HE Komarnica. Ključni zaključci istraživanja su: uvesti monitoring (permanentnu kontrolu) kvaliteta vode u jezerima kako bi se što uspešnije kontrolisala i sprečila eutrofikacija. Izuzetno je važno razumeti da ne postoji jedinstvena jednačina ili formula koja bi mogla da važi za monitoring svih jezera. Svako jezero ima svoje jedinstvene karakteristike. Zavisnost hlorofila, koncentracije fosfora i zapremine jezera menja se u zavisnosti od meseca, sezone i godine. Predlog za monitoring kvaliteta vode na jezeru koje će biti izgrađeno na Komarnici, koje predstavlja deo sistema buduće hidroelektrane je mesečno praćenje koncentracije hlorofila, nutrijenata i zapremine jezera.  Sezonsko praćenje zavisi od padavina, hidroloških i limnoloških karakteristika i trendova sušnih i kišnih epizoda. Analize i dosadašnja istraživanja su pokazala da uvođenje obaveznih parametara za praćenje kvaliteta vode ne poskupljuje proizvodnju električne energije i očuvanje energije, a značajno poboljšava i unapređuje kvalitet životne sredine.
AB  - When planning the construction of a hydroelectric power plant, an important segment is adequate monitoring of water quality. With an appropriate monitoring program, the multifunctional use of artificial lakes is enabled. Eutrophication (nutrient over-enrichment) of water in a lake is a phenomenon that has been noticed in all lakes. The consequence of eutrophication is the endangerment of the aquatic ecosystem. Eutrophication is a phenomenon that occurs as a response of the aquatic ecosystem to the increased concentration of nutrients, phosphorus (P) and nitrogen (N), due to natural and anthropogenic activities. Recent research indicates a correlation between local climate change and water circulation and the impact of climate change on all phenomena in the hydrological cycle. Temperature fluctuations, huge amounts of rain when precipitation is analysed, constant heating and increase in humidity all affect more intense eutrophication. The key conclusions of the research dealing with the construction of the hydroelectric power plant in Komarnica are: to introduce monitoring (permanent control) of water quality in lakes in order to minimize or control, even prevent eutrophication. Each artificial lake has its own unique characteristics. The dependence of chlorophyll, phosphorus and lake volume varies depending on the month, season and year. The proposal for the lake that will be built on Komarnica, which is part of the future hydroelectric power plant, is a monthly monitoring of the concentration of chlorophyll, nutrients and the volume of the lake. Seasonal monitoring depends on precipitation, hydrological and limnological characteristics and trends of dry and rainy episodes. Analyzes and previous research have shown that the introduction of mandatory parameters for monitoring water quality does not increase the cost of electricity production and energy conservation, but significantly improves and enhances the quality of the environment.
PB  - Savez energetičara
C3  - Zbornik radova Energetika 2021 - U susret zelenom oporavku, Zlatibor
T1  - Značaj monitoringa kvaliteta vode u jezerima hidroelektrana
T1  - The Significance of Monitoring of Water Quality in Hydropower Lakes
EP  - 206
SP  - 203
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2464
ER  - 

@conference{
author = "Rajaković-Ognjanović, Vladana and Dašić, Tina",
year = "2021",
abstract = "Pri planiranju akumulacionih hidroelektrana, važan segment je i adekvatan monitoring kvaliteta vode. Uz odgovarajući monitoring program omogućava se višenamensko korišćenje veštačkih jezera. Eutrofikacija vode u jezeru je fenomen koji je prisutan kod svih jezera. Posledica eutrofikacije jeste ugroženost akvatičnog ekosistema. Eutrofikacija je fenomen koji nastaje kao odgovor akvatičnog ekosistema na povećanu koncentraciju nutrijenata, fosfora (P) i azota (N), usled prirodnih i antropogenih aktivnosti.  Pored osnovnih, klasičnih pokazatelja kvaliteta vode koji su u korelaciji sa eutrofikacijom najnovija istraživanja pokazuju da su jezera sve više izložena eutrofikaciji usled klimatskih promena i opšte prisutnog zagađenja životne sredine. U ovom radu prikazani su rezultati analize kvaliteta vode reke Komarnice, u Crnoj Gori na kojoj se planira izgradnja akumulacione pribranske HE Komarnica. Ključni zaključci istraživanja su: uvesti monitoring (permanentnu kontrolu) kvaliteta vode u jezerima kako bi se što uspešnije kontrolisala i sprečila eutrofikacija. Izuzetno je važno razumeti da ne postoji jedinstvena jednačina ili formula koja bi mogla da važi za monitoring svih jezera. Svako jezero ima svoje jedinstvene karakteristike. Zavisnost hlorofila, koncentracije fosfora i zapremine jezera menja se u zavisnosti od meseca, sezone i godine. Predlog za monitoring kvaliteta vode na jezeru koje će biti izgrađeno na Komarnici, koje predstavlja deo sistema buduće hidroelektrane je mesečno praćenje koncentracije hlorofila, nutrijenata i zapremine jezera.  Sezonsko praćenje zavisi od padavina, hidroloških i limnoloških karakteristika i trendova sušnih i kišnih epizoda. Analize i dosadašnja istraživanja su pokazala da uvođenje obaveznih parametara za praćenje kvaliteta vode ne poskupljuje proizvodnju električne energije i očuvanje energije, a značajno poboljšava i unapređuje kvalitet životne sredine., When planning the construction of a hydroelectric power plant, an important segment is adequate monitoring of water quality. With an appropriate monitoring program, the multifunctional use of artificial lakes is enabled. Eutrophication (nutrient over-enrichment) of water in a lake is a phenomenon that has been noticed in all lakes. The consequence of eutrophication is the endangerment of the aquatic ecosystem. Eutrophication is a phenomenon that occurs as a response of the aquatic ecosystem to the increased concentration of nutrients, phosphorus (P) and nitrogen (N), due to natural and anthropogenic activities. Recent research indicates a correlation between local climate change and water circulation and the impact of climate change on all phenomena in the hydrological cycle. Temperature fluctuations, huge amounts of rain when precipitation is analysed, constant heating and increase in humidity all affect more intense eutrophication. The key conclusions of the research dealing with the construction of the hydroelectric power plant in Komarnica are: to introduce monitoring (permanent control) of water quality in lakes in order to minimize or control, even prevent eutrophication. Each artificial lake has its own unique characteristics. The dependence of chlorophyll, phosphorus and lake volume varies depending on the month, season and year. The proposal for the lake that will be built on Komarnica, which is part of the future hydroelectric power plant, is a monthly monitoring of the concentration of chlorophyll, nutrients and the volume of the lake. Seasonal monitoring depends on precipitation, hydrological and limnological characteristics and trends of dry and rainy episodes. Analyzes and previous research have shown that the introduction of mandatory parameters for monitoring water quality does not increase the cost of electricity production and energy conservation, but significantly improves and enhances the quality of the environment.",
publisher = "Savez energetičara",
journal = "Zbornik radova Energetika 2021 - U susret zelenom oporavku, Zlatibor",
title = "Značaj monitoringa kvaliteta vode u jezerima hidroelektrana, The Significance of Monitoring of Water Quality in Hydropower Lakes",
pages = "206-203",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2464"
}

Rajaković-Ognjanović, V.,& Dašić, T.. (2021). Značaj monitoringa kvaliteta vode u jezerima hidroelektrana. in Zbornik radova Energetika 2021 - U susret zelenom oporavku, Zlatibor
Savez energetičara., 203-206.
https://hdl.handle.net/21.15107/rcub_grafar_2464

Rajaković-Ognjanović V, Dašić T. Značaj monitoringa kvaliteta vode u jezerima hidroelektrana. in Zbornik radova Energetika 2021 - U susret zelenom oporavku, Zlatibor. 2021;:203-206.
https://hdl.handle.net/21.15107/rcub_grafar_2464 .

Rajaković-Ognjanović, Vladana, Dašić, Tina, "Značaj monitoringa kvaliteta vode u jezerima hidroelektrana" in Zbornik radova Energetika 2021 - U susret zelenom oporavku, Zlatibor (2021):203-206,
https://hdl.handle.net/21.15107/rcub_grafar_2464 .

TY  - CONF
AU  - Trifković, Milica
AU  - Sudar, Tamara
AU  - Dašić, Tina
AU  - Stanić, Miloš
PY  - 2021
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2621
AB  - Modernising operation of the existing, and development of new, integrated water management systems should be one of the basic instruments of sustainable development in the Republika Srpska. The backbone of economic development is the water potentials of the Trebišnjica and Vrbas. Although these are different river basins where facilities with different characteristics are constructed, it is possible to define a common goal: increase the effectiveness of the systems operation and improve their active role in reducing flood risk during flood flows. Given that these are strategic hydropower facilities, it is necessary to reconcile the interests between two key users: hydropower on one side and active flood defence on the other. Recognising uncontrollable flow regimes on the tributaries downstream from the facilities on the Trebišnjica and Vrbas, active management of multipurpose reservoirs is becoming increasingly important. 
Using available maps and data on these systems, mathematical models optimized the active roles of multipurpose reservoirs, including a possible offset of the consequences of superposition of flood waves from the reservoirs and downstream tributaries to protect urban areas of Banja Luka and Trebinje. Optimization analyses used the multicriteria optimization method, i.e. the Pareto Front Method. In addition to the analyses carried out for each system separately, this paper also gives a review of similarities and differences, as well as common strategic factors and principles of operating these complex systems.
AB  - Osavremenjavanje upravljanja postojećih i razvoj novih integralnih vodoprivrednih sistema bi trebalo da bude jedan od osnovnih pokretača održivog razvoja Republike Srpske. Okosnicu privrednog razvoja čine vodni potencijali rijeka Trebišnjice i Vrbasa. Iako se radi o različitim slivovima, na kojima su realizovni objekti različitih karakteristika, moguće je definisanje zajedničkog cilja, a to je povećanje efektivnosti rada i poboljšanje aktivne uloge izgrađenih sistema na umanjenju rizika od poplava u periodima nailaska velikih voda. Kako se radi o strateškim hidroenergetskim objektima, potrebno je pomiriti interese između dva ključna korisnika - hidroenergetike sa jedne i aktivne odbrane od poplava sa druge strane. Uvažavajući neupravljivost vodnim režimima na pritokama nizvodno od izgrađenih objekata Trebišnjice i Vrbasa, aktivno upravljanje višenamjenskim akumulacijama sve više dobija na značaju. Koristeći raspoložive podloge i podatke o navedenim sistemima, matematičkim modelima su optimizovane aktivne uloge višenamjenskih akumulacija, uključujući moguće neutralisanje posljedica superpozicije poplavnih talasa iz akumulacija i nizvodnih pritoka u cilju zaštite urbanih područja – Grada Banja Luke i Grada Trebinja. Optimizacione analize sprovedene su metodom višekriterijumske optimizacije, odnosno metodom Pareto fronta. U okviru rada je, uz sprovedene analize svakog sistema posebno, dat osvrt na sličnosti i razlike, ali i na zajedničke strateške odrednice i principe upravljanja ovim složenim sistemima.
PB  - Srpskog društva za hidraulička istraživanja
PB  - Srpskog društva za hidrologiju
C3  - Zbornik radova 19. Savetovanje SDHI i SDH, Beograd
T1  - Optimalno upravljanje vodnim resursima u periodu nailaska poplavnih talasa - Primjer sistema na Trebišnjici i Vrbasu u Republici Srpskoj
T1  - optimal Operation of Water Management Systems During Flood Waves - Case Study: the Systems on the Trebišnjica and Vrbas in Republika Srpska
EP  - 138
SP  - 118
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2621
ER  - 

@conference{
author = "Trifković, Milica and Sudar, Tamara and Dašić, Tina and Stanić, Miloš",
year = "2021",
abstract = "Modernising operation of the existing, and development of new, integrated water management systems should be one of the basic instruments of sustainable development in the Republika Srpska. The backbone of economic development is the water potentials of the Trebišnjica and Vrbas. Although these are different river basins where facilities with different characteristics are constructed, it is possible to define a common goal: increase the effectiveness of the systems operation and improve their active role in reducing flood risk during flood flows. Given that these are strategic hydropower facilities, it is necessary to reconcile the interests between two key users: hydropower on one side and active flood defence on the other. Recognising uncontrollable flow regimes on the tributaries downstream from the facilities on the Trebišnjica and Vrbas, active management of multipurpose reservoirs is becoming increasingly important. 
Using available maps and data on these systems, mathematical models optimized the active roles of multipurpose reservoirs, including a possible offset of the consequences of superposition of flood waves from the reservoirs and downstream tributaries to protect urban areas of Banja Luka and Trebinje. Optimization analyses used the multicriteria optimization method, i.e. the Pareto Front Method. In addition to the analyses carried out for each system separately, this paper also gives a review of similarities and differences, as well as common strategic factors and principles of operating these complex systems., Osavremenjavanje upravljanja postojećih i razvoj novih integralnih vodoprivrednih sistema bi trebalo da bude jedan od osnovnih pokretača održivog razvoja Republike Srpske. Okosnicu privrednog razvoja čine vodni potencijali rijeka Trebišnjice i Vrbasa. Iako se radi o različitim slivovima, na kojima su realizovni objekti različitih karakteristika, moguće je definisanje zajedničkog cilja, a to je povećanje efektivnosti rada i poboljšanje aktivne uloge izgrađenih sistema na umanjenju rizika od poplava u periodima nailaska velikih voda. Kako se radi o strateškim hidroenergetskim objektima, potrebno je pomiriti interese između dva ključna korisnika - hidroenergetike sa jedne i aktivne odbrane od poplava sa druge strane. Uvažavajući neupravljivost vodnim režimima na pritokama nizvodno od izgrađenih objekata Trebišnjice i Vrbasa, aktivno upravljanje višenamjenskim akumulacijama sve više dobija na značaju. Koristeći raspoložive podloge i podatke o navedenim sistemima, matematičkim modelima su optimizovane aktivne uloge višenamjenskih akumulacija, uključujući moguće neutralisanje posljedica superpozicije poplavnih talasa iz akumulacija i nizvodnih pritoka u cilju zaštite urbanih područja – Grada Banja Luke i Grada Trebinja. Optimizacione analize sprovedene su metodom višekriterijumske optimizacije, odnosno metodom Pareto fronta. U okviru rada je, uz sprovedene analize svakog sistema posebno, dat osvrt na sličnosti i razlike, ali i na zajedničke strateške odrednice i principe upravljanja ovim složenim sistemima.",
publisher = "Srpskog društva za hidraulička istraživanja, Srpskog društva za hidrologiju",
journal = "Zbornik radova 19. Savetovanje SDHI i SDH, Beograd",
title = "Optimalno upravljanje vodnim resursima u periodu nailaska poplavnih talasa - Primjer sistema na Trebišnjici i Vrbasu u Republici Srpskoj, optimal Operation of Water Management Systems During Flood Waves - Case Study: the Systems on the Trebišnjica and Vrbas in Republika Srpska",
pages = "138-118",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2621"
}

Trifković, M., Sudar, T., Dašić, T.,& Stanić, M.. (2021). Optimalno upravljanje vodnim resursima u periodu nailaska poplavnih talasa - Primjer sistema na Trebišnjici i Vrbasu u Republici Srpskoj. in Zbornik radova 19. Savetovanje SDHI i SDH, Beograd
Srpskog društva za hidraulička istraživanja., 118-138.
https://hdl.handle.net/21.15107/rcub_grafar_2621

Trifković M, Sudar T, Dašić T, Stanić M. Optimalno upravljanje vodnim resursima u periodu nailaska poplavnih talasa - Primjer sistema na Trebišnjici i Vrbasu u Republici Srpskoj. in Zbornik radova 19. Savetovanje SDHI i SDH, Beograd. 2021;:118-138.
https://hdl.handle.net/21.15107/rcub_grafar_2621 .

Trifković, Milica, Sudar, Tamara, Dašić, Tina, Stanić, Miloš, "Optimalno upravljanje vodnim resursima u periodu nailaska poplavnih talasa - Primjer sistema na Trebišnjici i Vrbasu u Republici Srpskoj" in Zbornik radova 19. Savetovanje SDHI i SDH, Beograd (2021):118-138,
https://hdl.handle.net/21.15107/rcub_grafar_2621 .

TY  - JOUR
AU  - Dašić, Tina
AU  - Stanić, Miloš
AU  - Topalović, Žana
AU  - Sudar, Nedeljko
AU  - Đorđević, Branislav
PY  - 2021
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2523
AB  - Klimatske promene nisu stvar neke dalje budućnosti. To su procesi koji se već dešavaju i najnepovoljnije se odražavaju upravo na sektor voda u Srbiji, ali i u svim zemljama u regionu. Nepovoljne posledice su posebno izražene u Srbiji, jer je ona i ranije imala vodne režime među najnepovoljnijim u Evropi - sa gledišta vremenske neravnomernosti tokom godine, kao i sa gledišta prostorne raspodele vode po teritoriji. Kao posledica klimatskih promena već se uočavaju pogoršanja vodnih režima: sušni periodi postaju sve duži, male vode su sve manje i sa sve dužim trajanjem, velike vode postaju sve veće, bujičnije, sa sve razornijim posledicama, smanjuje se intenzitet obnavljanja podzemnih voda i postaju sve ranjivija izvorišta podzemnih voda. Posebno je loše to što su najveća pogoršanja vodnih režima upravo u delovima Srbije (istok, jugistok, jug), gde su i sada vodni režimi najnepovoljniji. 
Sadašnje planirane akcije u svetu svode se samo na napore da se uspore emisije gasova staklene bašte (GSB). Te akcije nisu dovoljno operativne za sektor voda. Ostvarivanje potrebne izdržljivosti (resiliency) vodoprivrednih sistema može se ostvariti samo novim akumulacijama i ojačanjem linijskih sistema zaštite od poplava. Akumulacije dobijaju sve veću ulogu i u aktivnoj zaštiti od poplava - ublažavanjem poplavnih talasa. U takvim uslovima apsolutni prioritet ima prostorno planiranje koje će zaštititi sve neophodne prostore za razvoj vodoprivredne infrastrukture u novim, pogoršanim uslovima. To podrazumeva plansku zaštitu prostora neophodnih za izgradnju novih akumulacija i retenzija, zaštitu svih izvorišta podzemnih i površinskih voda, i prostora za ojačavanje linijskih sistema zaštite od poplava. 
U članku se na bazi studija urađenih za Prostorni plan Republike Srbije, i Studije uticaja klimatskih promena na upravljanje vodama sliva Vrbasa, analizira neophodnost izgradnje novih akumulacija, kako bi se vodoprivredni sistemi učinili dovoljno pouzdanim i izdržljivim i u novim uslovima. Na primeru Vrbasa i njegove pritoke Vrbanje pokazuje se da se izgradnjom i manjih akumulacija, umesto velike, čija je realizacija onemogućena neplanskim zaposedanjem dolinskog prostora, može značajno povećati pouzdanost funkcionisanja sistema za navodnjavanje. Navode se i iskustva iz Srbije, koja mora novim akumulacijama obezbediti neophodnu pouzdanost vodoprivrednih sistema u uslovima izazvanim klimatskim promenama.
AB  - Climate change is not a matter of the future. These are processes that are already happening and have the most unfavorable impact on the water sector in Serbia, but also in all countries in the region. Unfavorable consequences are especially pronounced in Serbia, because it has previously had water regimes among the most unfavorable in Europe - from the point of view of time unevenness during the year, as well as from the point of view of spatial distribution of water on the territory. As a consequence of climate change, deterioration of water regimes is already being registered: dry periods are getting longer, small waters are getting smaller and with longer duration, big waters are getting bigger, more torrential, with more and more devastating consequences, groundwater renewal intensity is decreasing and becoming more more vulnerable groundwater sources. It is especially bad that the biggest deteriorations of water regimes are in parts of Serbia (east, southeast, south), where water regimes are still the most unfavorable.
The current planned actions in the world are limited to efforts to slow down greenhouse gas (GHG) emissions. These actions are not operational enough for the water sector. Achieving the necessary resilience of water management systems can only be achieved through new accumulation and strengthening of line flood protection systems. Reservoirs are gaining an increasing role in active flood protection - by mitigating flood waves. In such conditions, the absolute priority is spatial planning, which will protect all the necessary spaces for the development of water management infrastructure in the new, worsened conditions. This includes planned protection of the space necessary for the construction of new reservoirs and retentions, protection of all groundwater and surface water sources, and space for strengthening line flood protection systems.
Based on studies done for the Spatial Plan of the Republic of Serbia and the Study of the Impact of Climate Change on the Water Management of the Vrbas Basin, the article analyzes the need to build new reservoirs in order to make water management systems sufficiently reliable and resilient and in new conditions. The example of the Vrbas and its tributaries the Vrbanja shows that the construction of smaller reservoirs, instead of large ones, the realization of which is prevented by unplanned occupation of the valley area, can significantly increase the reliability of the irrigation system. Experiences from Serbia are also cited, which must provide the new reservoirs with the necessary reliability of water management systems in the new, worsened conditions caused by climate change.
PB  - Srpsko društvo za odvodnjavanje i navodnjavanje
PB  - Akademija inženjerskih nauka Srbije
T2  - Časopis Vodoprivreda
T1  - Nastupilo je vreme kada se bez akumulacija ne mogu obezbediti uslovi za opstanak i razvoj
T1  - The time has come when survival and development cannot be achieved without water storage reservoirs
EP  - 43
IS  - 309-310
SP  - 25
VL  - 53
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2523
ER  - 

@article{
author = "Dašić, Tina and Stanić, Miloš and Topalović, Žana and Sudar, Nedeljko and Đorđević, Branislav",
year = "2021",
abstract = "Klimatske promene nisu stvar neke dalje budućnosti. To su procesi koji se već dešavaju i najnepovoljnije se odražavaju upravo na sektor voda u Srbiji, ali i u svim zemljama u regionu. Nepovoljne posledice su posebno izražene u Srbiji, jer je ona i ranije imala vodne režime među najnepovoljnijim u Evropi - sa gledišta vremenske neravnomernosti tokom godine, kao i sa gledišta prostorne raspodele vode po teritoriji. Kao posledica klimatskih promena već se uočavaju pogoršanja vodnih režima: sušni periodi postaju sve duži, male vode su sve manje i sa sve dužim trajanjem, velike vode postaju sve veće, bujičnije, sa sve razornijim posledicama, smanjuje se intenzitet obnavljanja podzemnih voda i postaju sve ranjivija izvorišta podzemnih voda. Posebno je loše to što su najveća pogoršanja vodnih režima upravo u delovima Srbije (istok, jugistok, jug), gde su i sada vodni režimi najnepovoljniji. 
Sadašnje planirane akcije u svetu svode se samo na napore da se uspore emisije gasova staklene bašte (GSB). Te akcije nisu dovoljno operativne za sektor voda. Ostvarivanje potrebne izdržljivosti (resiliency) vodoprivrednih sistema može se ostvariti samo novim akumulacijama i ojačanjem linijskih sistema zaštite od poplava. Akumulacije dobijaju sve veću ulogu i u aktivnoj zaštiti od poplava - ublažavanjem poplavnih talasa. U takvim uslovima apsolutni prioritet ima prostorno planiranje koje će zaštititi sve neophodne prostore za razvoj vodoprivredne infrastrukture u novim, pogoršanim uslovima. To podrazumeva plansku zaštitu prostora neophodnih za izgradnju novih akumulacija i retenzija, zaštitu svih izvorišta podzemnih i površinskih voda, i prostora za ojačavanje linijskih sistema zaštite od poplava. 
U članku se na bazi studija urađenih za Prostorni plan Republike Srbije, i Studije uticaja klimatskih promena na upravljanje vodama sliva Vrbasa, analizira neophodnost izgradnje novih akumulacija, kako bi se vodoprivredni sistemi učinili dovoljno pouzdanim i izdržljivim i u novim uslovima. Na primeru Vrbasa i njegove pritoke Vrbanje pokazuje se da se izgradnjom i manjih akumulacija, umesto velike, čija je realizacija onemogućena neplanskim zaposedanjem dolinskog prostora, može značajno povećati pouzdanost funkcionisanja sistema za navodnjavanje. Navode se i iskustva iz Srbije, koja mora novim akumulacijama obezbediti neophodnu pouzdanost vodoprivrednih sistema u uslovima izazvanim klimatskim promenama., Climate change is not a matter of the future. These are processes that are already happening and have the most unfavorable impact on the water sector in Serbia, but also in all countries in the region. Unfavorable consequences are especially pronounced in Serbia, because it has previously had water regimes among the most unfavorable in Europe - from the point of view of time unevenness during the year, as well as from the point of view of spatial distribution of water on the territory. As a consequence of climate change, deterioration of water regimes is already being registered: dry periods are getting longer, small waters are getting smaller and with longer duration, big waters are getting bigger, more torrential, with more and more devastating consequences, groundwater renewal intensity is decreasing and becoming more more vulnerable groundwater sources. It is especially bad that the biggest deteriorations of water regimes are in parts of Serbia (east, southeast, south), where water regimes are still the most unfavorable.
The current planned actions in the world are limited to efforts to slow down greenhouse gas (GHG) emissions. These actions are not operational enough for the water sector. Achieving the necessary resilience of water management systems can only be achieved through new accumulation and strengthening of line flood protection systems. Reservoirs are gaining an increasing role in active flood protection - by mitigating flood waves. In such conditions, the absolute priority is spatial planning, which will protect all the necessary spaces for the development of water management infrastructure in the new, worsened conditions. This includes planned protection of the space necessary for the construction of new reservoirs and retentions, protection of all groundwater and surface water sources, and space for strengthening line flood protection systems.
Based on studies done for the Spatial Plan of the Republic of Serbia and the Study of the Impact of Climate Change on the Water Management of the Vrbas Basin, the article analyzes the need to build new reservoirs in order to make water management systems sufficiently reliable and resilient and in new conditions. The example of the Vrbas and its tributaries the Vrbanja shows that the construction of smaller reservoirs, instead of large ones, the realization of which is prevented by unplanned occupation of the valley area, can significantly increase the reliability of the irrigation system. Experiences from Serbia are also cited, which must provide the new reservoirs with the necessary reliability of water management systems in the new, worsened conditions caused by climate change.",
publisher = "Srpsko društvo za odvodnjavanje i navodnjavanje, Akademija inženjerskih nauka Srbije",
journal = "Časopis Vodoprivreda",
title = "Nastupilo je vreme kada se bez akumulacija ne mogu obezbediti uslovi za opstanak i razvoj, The time has come when survival and development cannot be achieved without water storage reservoirs",
pages = "43-25",
number = "309-310",
volume = "53",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2523"
}

Dašić, T., Stanić, M., Topalović, Ž., Sudar, N.,& Đorđević, B.. (2021). Nastupilo je vreme kada se bez akumulacija ne mogu obezbediti uslovi za opstanak i razvoj. in Časopis Vodoprivreda
Srpsko društvo za odvodnjavanje i navodnjavanje., 53(309-310), 25-43.
https://hdl.handle.net/21.15107/rcub_grafar_2523

Dašić T, Stanić M, Topalović Ž, Sudar N, Đorđević B. Nastupilo je vreme kada se bez akumulacija ne mogu obezbediti uslovi za opstanak i razvoj. in Časopis Vodoprivreda. 2021;53(309-310):25-43.
https://hdl.handle.net/21.15107/rcub_grafar_2523 .

Dašić, Tina, Stanić, Miloš, Topalović, Žana, Sudar, Nedeljko, Đorđević, Branislav, "Nastupilo je vreme kada se bez akumulacija ne mogu obezbediti uslovi za opstanak i razvoj" in Časopis Vodoprivreda, 53, no. 309-310 (2021):25-43,
https://hdl.handle.net/21.15107/rcub_grafar_2523 .

TY  - CONF
AU  - Dašić, Tina
AU  - Stanić, Miloš
AU  - Đorđević, Branislav
PY  - 2021
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2525
AB  - The paper analyses the consequences of climate change on the irrigation water demand and the impact of water storage reservoirs on increasing the reliability of irrigation water supply. Analyses were performed for the Vrbas River Basin in Bosnia and Herzegovina. In the conditions of climate change, annual irregularity of air temperature and precipitation, as well as river flows, are becoming more pronounced. It is expected for temperatures to be higher and the amount of precipitation lower, which will increase the water demand for irrigation. On the other hand, low-water periods will be longer with lower flows, so the available quantity of water will decrease in the period when water demands are the higher. The paper analyses the reliability of irrigation water supply in the existing conditions and the reduction of the reliability that would occur in the conditions of climate change. In order to ensure reliable irrigation, the impact of new reservoirs was analysed, and the performed analyses show that reservoirs (even of relatively small operational volume) have a significant impact on increasing the reliability of water supply.
PB  - Macedonian Committee on Large Dams
C3  - Proceedings 5th Congress on Dams
T1  - Influence of small water storage reservoirs on reliability of irrigation water supply
EP  - 144
SP  - 135
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2525
ER  - 

@conference{
author = "Dašić, Tina and Stanić, Miloš and Đorđević, Branislav",
year = "2021",
abstract = "The paper analyses the consequences of climate change on the irrigation water demand and the impact of water storage reservoirs on increasing the reliability of irrigation water supply. Analyses were performed for the Vrbas River Basin in Bosnia and Herzegovina. In the conditions of climate change, annual irregularity of air temperature and precipitation, as well as river flows, are becoming more pronounced. It is expected for temperatures to be higher and the amount of precipitation lower, which will increase the water demand for irrigation. On the other hand, low-water periods will be longer with lower flows, so the available quantity of water will decrease in the period when water demands are the higher. The paper analyses the reliability of irrigation water supply in the existing conditions and the reduction of the reliability that would occur in the conditions of climate change. In order to ensure reliable irrigation, the impact of new reservoirs was analysed, and the performed analyses show that reservoirs (even of relatively small operational volume) have a significant impact on increasing the reliability of water supply.",
publisher = "Macedonian Committee on Large Dams",
journal = "Proceedings 5th Congress on Dams",
title = "Influence of small water storage reservoirs on reliability of irrigation water supply",
pages = "144-135",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2525"
}

Dašić, T., Stanić, M.,& Đorđević, B.. (2021). Influence of small water storage reservoirs on reliability of irrigation water supply. in Proceedings 5th Congress on Dams
Macedonian Committee on Large Dams., 135-144.
https://hdl.handle.net/21.15107/rcub_grafar_2525

Dašić T, Stanić M, Đorđević B. Influence of small water storage reservoirs on reliability of irrigation water supply. in Proceedings 5th Congress on Dams. 2021;:135-144.
https://hdl.handle.net/21.15107/rcub_grafar_2525 .

Dašić, Tina, Stanić, Miloš, Đorđević, Branislav, "Influence of small water storage reservoirs on reliability of irrigation water supply" in Proceedings 5th Congress on Dams (2021):135-144,
https://hdl.handle.net/21.15107/rcub_grafar_2525 .

TY  - JOUR
AU  - Govedarica, Ognjen
AU  - Dašić, Tina
AU  - Stanić, Miloš
AU  - Rajaković-Ognjanović, Vladana
AU  - Đukić, Aleksandar
PY  - 2020
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2522
AB  - Prečišćavanje sirove vode do nivoa neophodnog da bi se ona koristila za vodosnabdevanje naselja predstavlja veliki izazov, naročito imajući u vidu da sirova voda nikada nije opterećena samo jednim parametrom zagađenja. Napretkom tehnologija za prečišćavanje vode, posebno membranskih tehnologija, efikasnost tretmana postala je daleko veća. Postavlja se pitanje koja tehnologija je optimalna, u pogledu odstranjivanja štetnih materija, ekonomskih, ekoloških dobiti, itd. U izboru optimalne tehnologije tretmana vode značajnu pomoć mogu da pruže metode višekriterijmske optimizacije. U slučaju koji je razmatran u okviru ovog rada primenjene su metode VIKOR i AHP na izbor optimalne konfiguracije postrojenja za omekšavanje vode bazirane na nanofiltraciji. Metoda VIKOR pokazala je bolji uvid u u fizičke karakteristike parametara i značajniju objektivnost donosioca odluke u odnosu na metodu AHP.
AB  - Treatment of raw water in order to achieve quality requred for drinking water can be a major challenge, especially considering that raw water usually contains more than one pollutiant. With the advancement of water treatment technologies, especially membrane technologies, the efficiency of water purification has been increasing. The question is which technology is optimal, in terms of removal of pollutants, economic, environmental benefits and other criteria. Methods of multi-criteria optimization can provide significant assistence in choosing the optimal water treatment technology. In this paper, the VIKOR and AHP methods were applied for selection of optimal drinking water treatment scheme of water softening plant based on nanofiltration. The VIKOR method showed a better insight into the physical characteristics of the  water quality parameters and a more significant objectivity of the decision maker in relation to the AHP method.
PB  - Srpsko društvo za odvodnjavanje i navodnjavanje
PB  - Akademija inženjerskih nauka Srbije
T2  - Časopis Vodoprivreda
T1  - Analiza i izbor optimalne metode omekšavanja vode primenom vikor i ahp metode – studija slučaja
T1  - Analysis and selection of the optimal method of water softening using vikor and ahp method – case study
EP  - 247
IS  - 306-308
SP  - 235
VL  - 52
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2522
ER  - 

@article{
author = "Govedarica, Ognjen and Dašić, Tina and Stanić, Miloš and Rajaković-Ognjanović, Vladana and Đukić, Aleksandar",
year = "2020",
abstract = "Prečišćavanje sirove vode do nivoa neophodnog da bi se ona koristila za vodosnabdevanje naselja predstavlja veliki izazov, naročito imajući u vidu da sirova voda nikada nije opterećena samo jednim parametrom zagađenja. Napretkom tehnologija za prečišćavanje vode, posebno membranskih tehnologija, efikasnost tretmana postala je daleko veća. Postavlja se pitanje koja tehnologija je optimalna, u pogledu odstranjivanja štetnih materija, ekonomskih, ekoloških dobiti, itd. U izboru optimalne tehnologije tretmana vode značajnu pomoć mogu da pruže metode višekriterijmske optimizacije. U slučaju koji je razmatran u okviru ovog rada primenjene su metode VIKOR i AHP na izbor optimalne konfiguracije postrojenja za omekšavanje vode bazirane na nanofiltraciji. Metoda VIKOR pokazala je bolji uvid u u fizičke karakteristike parametara i značajniju objektivnost donosioca odluke u odnosu na metodu AHP., Treatment of raw water in order to achieve quality requred for drinking water can be a major challenge, especially considering that raw water usually contains more than one pollutiant. With the advancement of water treatment technologies, especially membrane technologies, the efficiency of water purification has been increasing. The question is which technology is optimal, in terms of removal of pollutants, economic, environmental benefits and other criteria. Methods of multi-criteria optimization can provide significant assistence in choosing the optimal water treatment technology. In this paper, the VIKOR and AHP methods were applied for selection of optimal drinking water treatment scheme of water softening plant based on nanofiltration. The VIKOR method showed a better insight into the physical characteristics of the  water quality parameters and a more significant objectivity of the decision maker in relation to the AHP method.",
publisher = "Srpsko društvo za odvodnjavanje i navodnjavanje, Akademija inženjerskih nauka Srbije",
journal = "Časopis Vodoprivreda",
title = "Analiza i izbor optimalne metode omekšavanja vode primenom vikor i ahp metode – studija slučaja, Analysis and selection of the optimal method of water softening using vikor and ahp method – case study",
pages = "247-235",
number = "306-308",
volume = "52",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2522"
}

Govedarica, O., Dašić, T., Stanić, M., Rajaković-Ognjanović, V.,& Đukić, A.. (2020). Analiza i izbor optimalne metode omekšavanja vode primenom vikor i ahp metode – studija slučaja. in Časopis Vodoprivreda
Srpsko društvo za odvodnjavanje i navodnjavanje., 52(306-308), 235-247.
https://hdl.handle.net/21.15107/rcub_grafar_2522

Govedarica O, Dašić T, Stanić M, Rajaković-Ognjanović V, Đukić A. Analiza i izbor optimalne metode omekšavanja vode primenom vikor i ahp metode – studija slučaja. in Časopis Vodoprivreda. 2020;52(306-308):235-247.
https://hdl.handle.net/21.15107/rcub_grafar_2522 .

Govedarica, Ognjen, Dašić, Tina, Stanić, Miloš, Rajaković-Ognjanović, Vladana, Đukić, Aleksandar, "Analiza i izbor optimalne metode omekšavanja vode primenom vikor i ahp metode – studija slučaja" in Časopis Vodoprivreda, 52, no. 306-308 (2020):235-247,
https://hdl.handle.net/21.15107/rcub_grafar_2522 .

TY  - CONF
AU  - Rajaković-Ognjanović, Vladana
AU  - Dašić, Tina
AU  - Cvijetić, Nada
PY  - 2020
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2533
AB  - U ovom radu prikazana je analiza kvaliteta vode reke Komarnice pre izgradnje brane i hidroelektrane. Konkretne karakteristike okoline, dimenzije objekta definišu uticaje na životnu sredinu, kao i uticaje životne sredine na akumulacije. Pozitivni uticaji su: vodosnabdevanje, navodnjavanje, rekreativne i turističke ponude. Najvažniji negativni uticaji su: promena kvaliteta vode, uticaj na priobalje i zemljište. U radu je prikazan kvalitet vode pre izgradnje brane Komarnica, kao polazna osnova za poređenje i analizu promena koje  se očekuju nakon izgradnje te brane. Pravilnim izborom mera moguće je izbeći ili u velikoj meri ublažiti proces eutrofikacije.
AB  - This paper presents an analysis of the water quality of the Komarnica River before the construction of the dam and hydropower plant. Impacts that are positive, and due to which dams are built, refer to water supply, irrigation, recreational and tourist offers. The most important negative impacts are the changes in water quality, the impact on the coast and land. The paper presents the water quality before the construction of the Komarnica dam, and the changes expected after the construction of the dam. By choosing the right measures, it is possible to avoid or greatly mitigate the eutrophication process.
PB  - Srpsko društvo za zaštitu voda
C3  - Zbornik radova VODA 2020, Trebinje
T1  - Procena uticaja izgradnje brane i hidroelektrane na promenu kvaliteta vode
T1  - Assessment of the Influence of Dam and Hydropower Plant on the Change of Water Quality
EP  - 202
SP  - 195
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2533
ER  - 

@conference{
author = "Rajaković-Ognjanović, Vladana and Dašić, Tina and Cvijetić, Nada",
year = "2020",
abstract = "U ovom radu prikazana je analiza kvaliteta vode reke Komarnice pre izgradnje brane i hidroelektrane. Konkretne karakteristike okoline, dimenzije objekta definišu uticaje na životnu sredinu, kao i uticaje životne sredine na akumulacije. Pozitivni uticaji su: vodosnabdevanje, navodnjavanje, rekreativne i turističke ponude. Najvažniji negativni uticaji su: promena kvaliteta vode, uticaj na priobalje i zemljište. U radu je prikazan kvalitet vode pre izgradnje brane Komarnica, kao polazna osnova za poređenje i analizu promena koje  se očekuju nakon izgradnje te brane. Pravilnim izborom mera moguće je izbeći ili u velikoj meri ublažiti proces eutrofikacije., This paper presents an analysis of the water quality of the Komarnica River before the construction of the dam and hydropower plant. Impacts that are positive, and due to which dams are built, refer to water supply, irrigation, recreational and tourist offers. The most important negative impacts are the changes in water quality, the impact on the coast and land. The paper presents the water quality before the construction of the Komarnica dam, and the changes expected after the construction of the dam. By choosing the right measures, it is possible to avoid or greatly mitigate the eutrophication process.",
publisher = "Srpsko društvo za zaštitu voda",
journal = "Zbornik radova VODA 2020, Trebinje",
title = "Procena uticaja izgradnje brane i hidroelektrane na promenu kvaliteta vode, Assessment of the Influence of Dam and Hydropower Plant on the Change of Water Quality",
pages = "202-195",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2533"
}

Rajaković-Ognjanović, V., Dašić, T.,& Cvijetić, N.. (2020). Procena uticaja izgradnje brane i hidroelektrane na promenu kvaliteta vode. in Zbornik radova VODA 2020, Trebinje
Srpsko društvo za zaštitu voda., 195-202.
https://hdl.handle.net/21.15107/rcub_grafar_2533

Rajaković-Ognjanović V, Dašić T, Cvijetić N. Procena uticaja izgradnje brane i hidroelektrane na promenu kvaliteta vode. in Zbornik radova VODA 2020, Trebinje. 2020;:195-202.
https://hdl.handle.net/21.15107/rcub_grafar_2533 .

Rajaković-Ognjanović, Vladana, Dašić, Tina, Cvijetić, Nada, "Procena uticaja izgradnje brane i hidroelektrane na promenu kvaliteta vode" in Zbornik radova VODA 2020, Trebinje (2020):195-202,
https://hdl.handle.net/21.15107/rcub_grafar_2533 .

TY  - JOUR
AU  - Sudar, Tamara
AU  - Trifković, Milica
AU  - Stanić, Miloš
AU  - Dašić, Tina
AU  - Sudar, Nedeljko
AU  - Hrkalović, Uroš
AU  - Hrkalović, Dejan
AU  - Đorđević, Branislav
PY  - 2020
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2521
AB  - Proizvodnja hrane bi trebalo da bude osnova i pokretač razvoja privrede Republike Srpske, ali raspoloživi polјoprivredni i vodni resursi nisu dovolјno iskorišćeni. Na području ključnih makroparcela uz rijeku Savu evidentan je “resursni paradoks” - velike poljoprivredne površine visokih bonitetnih klasa nalaze se unutar područja branjenih od poplavnih voda, a godišnje padavine na tim područjima nisu dovoljne za razvoj intenzivne poljoprivredne proizvodnje. Razvoj navodnjavanja na ovim područjima, ali i na manjim površinama u ruralnim područjima na istoku i jugu prepoznat je kao okosnica privrednog razvoja Republike Srpske. Uvažavajući činjenicu da na uzvodnim potezima vodotokova u Federaciji BiH ne postoje izgrađeni integralni vodoprivredni sistemi u kojima je obezbijeđena voda za navodnjavanje, Vlada i resorno Ministartvo poljoprivrede, šumarstva i vodoprivrede Republike Srpske su u prethodnom periodu, uz velika ulaganja, značajno popravile veoma skromno stanje sistema za navodnjavanje, oslanjajući se na raspoložive vodne resurse u Republici Srpskoj.

U procesu razvoja polјoprivredne proizvodnje, uz primjenu navodnjavanja, prihvaćeni su i razvijani trendovi koji su zastuplјeni u razvijenim zemlјama EU, uvažavajući principe vodne produktivnosti, kroz unaprijeđenje i racionalizaciju. Razmatra se postepeno uvođenje savremenih naučnih pristupa i dostignuća tzv. „precizne polјoprivrede“, kao racionalnog pristupa u polјoprivrednoj proizvodnji i navodnjavanju.

U ovom radu prikazana su iskustva razvoja sistema navodnjavanja sa aspekta hidrotehnike u  
desetogodišnjem razvojnom periodu u Republici Srpskoj, odnosno primjeri: planiranja jednonamjenskih i višenemjenskih akumulacija, principi realizacije vodozahvata iz akumulacija, rječnih tokova i podzemlja, te načini distribucije vode do makro i mikroparcela u različitim uslovima i na specifičnim područjima. Data je projekcija nastavka održivog planskog razvoja sistema navodnjavanja uvažavajući strateške odrednice sektora vodoprivrede i poljoprivrede Republike Srpske, kao i sociološke elemente zadržavanja stanovništva u ruralnim područjima, gdje je značajan trend napuštanja tih područja.
AB  - Food production should be at the heart of the Republika Srpska's economic development but the available agricultural and water resources are underutilized. A ‘resource paradox’ is evident in the area of key macro-plots along the Sava River, where large high-grade agricultural plots are located in flood protected areas but annual rainfall is not sufficient for the development of intensive agricultural production. The development of irrigation in these areas, but also in smaller plots in rural areas in the east and south, has been recognized as central to the economic development of the Republika Srpska. The RS Government and the relevant Ministry of Agriculture, Forestry and Water Management have recognized that the upstream sections of the watercourses in the Federation of B&H do not have integrated water management systems providing irrigation water. They have invested significantly to improve the modest irrigation system, relying on available water resources in the Republika Srpska.

EU practices were used in the process of developing agricultural production by means of irrigation, respecting the principles of water productivity through improvement and rational use of water. Consideration has been given to the gradual introduction of modern scientific approaches and the benefits of precision  
agriculture with its streamlined approach in agricultural production and irrigation.

This paper presents the experience of applying hydraulic engineering to the development of irrigation systems during a ten-year period in the Republika Srpska. It presents examples of: planning of single-purpose and multi-purpose reservoirs; principles of water abstraction from reservoirs, rivers and underground, and methods of distributing water to macro and micro-plots in different conditions and specific areas. Consideration has been given to the reservoirs in the Jablanica River basin - sub-basin of the Lubina River (Potkozarje in the municipality of Gradiška), and a general analysis is given of the other necessary reservoirs in Republika Srpska, as well as planned and newly built irrigation systems in the Drina, Sava, Trebišnjica and Vrbas river basins. The paper provides a projection of the continuation of sustainable development of irrigation systems, taking into account the strategic determinants of the water and agricultural sectors in the Republika Srpska, as well as the sociological elements of retaining population in rural areas where there is significant depopulation.
PB  - Srpsko društvo za odvodnjavanje i navodnjavanje
PB  - Akademija inženjerskih nauka Srbije
T2  - Časopis Vodoprivreda
T1  - Hidrotehničke osnove održivog razvoja irigacionih sistema u Republici Srpskoj
T1  - Hydraulic engineering for sustainable development of irrigation systems in the Republika Srpska
EP  - 214
IS  - 306-308
SP  - 201
VL  - 52
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2521
ER  - 

@article{
author = "Sudar, Tamara and Trifković, Milica and Stanić, Miloš and Dašić, Tina and Sudar, Nedeljko and Hrkalović, Uroš and Hrkalović, Dejan and Đorđević, Branislav",
year = "2020",
abstract = "Proizvodnja hrane bi trebalo da bude osnova i pokretač razvoja privrede Republike Srpske, ali raspoloživi polјoprivredni i vodni resursi nisu dovolјno iskorišćeni. Na području ključnih makroparcela uz rijeku Savu evidentan je “resursni paradoks” - velike poljoprivredne površine visokih bonitetnih klasa nalaze se unutar područja branjenih od poplavnih voda, a godišnje padavine na tim područjima nisu dovoljne za razvoj intenzivne poljoprivredne proizvodnje. Razvoj navodnjavanja na ovim područjima, ali i na manjim površinama u ruralnim područjima na istoku i jugu prepoznat je kao okosnica privrednog razvoja Republike Srpske. Uvažavajući činjenicu da na uzvodnim potezima vodotokova u Federaciji BiH ne postoje izgrađeni integralni vodoprivredni sistemi u kojima je obezbijeđena voda za navodnjavanje, Vlada i resorno Ministartvo poljoprivrede, šumarstva i vodoprivrede Republike Srpske su u prethodnom periodu, uz velika ulaganja, značajno popravile veoma skromno stanje sistema za navodnjavanje, oslanjajući se na raspoložive vodne resurse u Republici Srpskoj.

U procesu razvoja polјoprivredne proizvodnje, uz primjenu navodnjavanja, prihvaćeni su i razvijani trendovi koji su zastuplјeni u razvijenim zemlјama EU, uvažavajući principe vodne produktivnosti, kroz unaprijeđenje i racionalizaciju. Razmatra se postepeno uvođenje savremenih naučnih pristupa i dostignuća tzv. „precizne polјoprivrede“, kao racionalnog pristupa u polјoprivrednoj proizvodnji i navodnjavanju.

U ovom radu prikazana su iskustva razvoja sistema navodnjavanja sa aspekta hidrotehnike u  
desetogodišnjem razvojnom periodu u Republici Srpskoj, odnosno primjeri: planiranja jednonamjenskih i višenemjenskih akumulacija, principi realizacije vodozahvata iz akumulacija, rječnih tokova i podzemlja, te načini distribucije vode do makro i mikroparcela u različitim uslovima i na specifičnim područjima. Data je projekcija nastavka održivog planskog razvoja sistema navodnjavanja uvažavajući strateške odrednice sektora vodoprivrede i poljoprivrede Republike Srpske, kao i sociološke elemente zadržavanja stanovništva u ruralnim područjima, gdje je značajan trend napuštanja tih područja., Food production should be at the heart of the Republika Srpska's economic development but the available agricultural and water resources are underutilized. A ‘resource paradox’ is evident in the area of key macro-plots along the Sava River, where large high-grade agricultural plots are located in flood protected areas but annual rainfall is not sufficient for the development of intensive agricultural production. The development of irrigation in these areas, but also in smaller plots in rural areas in the east and south, has been recognized as central to the economic development of the Republika Srpska. The RS Government and the relevant Ministry of Agriculture, Forestry and Water Management have recognized that the upstream sections of the watercourses in the Federation of B&H do not have integrated water management systems providing irrigation water. They have invested significantly to improve the modest irrigation system, relying on available water resources in the Republika Srpska.

EU practices were used in the process of developing agricultural production by means of irrigation, respecting the principles of water productivity through improvement and rational use of water. Consideration has been given to the gradual introduction of modern scientific approaches and the benefits of precision  
agriculture with its streamlined approach in agricultural production and irrigation.

This paper presents the experience of applying hydraulic engineering to the development of irrigation systems during a ten-year period in the Republika Srpska. It presents examples of: planning of single-purpose and multi-purpose reservoirs; principles of water abstraction from reservoirs, rivers and underground, and methods of distributing water to macro and micro-plots in different conditions and specific areas. Consideration has been given to the reservoirs in the Jablanica River basin - sub-basin of the Lubina River (Potkozarje in the municipality of Gradiška), and a general analysis is given of the other necessary reservoirs in Republika Srpska, as well as planned and newly built irrigation systems in the Drina, Sava, Trebišnjica and Vrbas river basins. The paper provides a projection of the continuation of sustainable development of irrigation systems, taking into account the strategic determinants of the water and agricultural sectors in the Republika Srpska, as well as the sociological elements of retaining population in rural areas where there is significant depopulation.",
publisher = "Srpsko društvo za odvodnjavanje i navodnjavanje, Akademija inženjerskih nauka Srbije",
journal = "Časopis Vodoprivreda",
title = "Hidrotehničke osnove održivog razvoja irigacionih sistema u Republici Srpskoj, Hydraulic engineering for sustainable development of irrigation systems in the Republika Srpska",
pages = "214-201",
number = "306-308",
volume = "52",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2521"
}

Sudar, T., Trifković, M., Stanić, M., Dašić, T., Sudar, N., Hrkalović, U., Hrkalović, D.,& Đorđević, B.. (2020). Hidrotehničke osnove održivog razvoja irigacionih sistema u Republici Srpskoj. in Časopis Vodoprivreda
Srpsko društvo za odvodnjavanje i navodnjavanje., 52(306-308), 201-214.
https://hdl.handle.net/21.15107/rcub_grafar_2521

Sudar T, Trifković M, Stanić M, Dašić T, Sudar N, Hrkalović U, Hrkalović D, Đorđević B. Hidrotehničke osnove održivog razvoja irigacionih sistema u Republici Srpskoj. in Časopis Vodoprivreda. 2020;52(306-308):201-214.
https://hdl.handle.net/21.15107/rcub_grafar_2521 .

Sudar, Tamara, Trifković, Milica, Stanić, Miloš, Dašić, Tina, Sudar, Nedeljko, Hrkalović, Uroš, Hrkalović, Dejan, Đorđević, Branislav, "Hidrotehničke osnove održivog razvoja irigacionih sistema u Republici Srpskoj" in Časopis Vodoprivreda, 52, no. 306-308 (2020):201-214,
https://hdl.handle.net/21.15107/rcub_grafar_2521 .

TY  - CONF
AU  - Dašić, Tina
AU  - Đorđević, Branislav
PY  - 2020
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2534
AB  - U radu je prikazano realno stanje u oblasti voda, posebno vode kao vodnog resursa. Sa prosečnim količinama domicilnih voda od oko 1700 m3 po stanovniku godišnje Srbija spada među vodom siromašnije zemalje Evrope. Situacija je još nepovoljnija ako se uzmu u obzir prostorna i vremenska neravnomernost. U uslovima klimatskih promena situacija u pogledu raspoloživih količina vode biće još nepovoljnija, uz smanjenje prosečnih protoka i izraženiju unutargodišnju neravnomernost. Zbog toga se sagledavaju opšti strateški pravci razvoja vodoprivredne infrastrukture, kao i neophodnost planiranja složenih integralnih sistema, sa akumulacjama kao okosnicama sitema, u cilju racionalnog korišćenja, uređenja i zaštite voda.
AB  - The paper presents the actual situation in the field of water, especially water as a resource. With an average amount of domestic water of about 1700 m3 per capita per year, Serbia is one of the poorest countries in Europe. The situation is even more unfavorable if space and time variability are taken into account. In the conditions of climate change, the situation regarding the available quantities of water will be even more unfavorable, with a decrease in average flows and more pronounced temporal variability. Therefore, the general strategic development of water resources management infrastructure is considered, as well as the necessity of planning complex integrated water resources systems, with reservoirs as the key elements of the systems, in order to rationally use, regulate and protect water.
PB  - Srpsko društvo za zaštitu voda
C3  - Zbornik radova VODA 2020, Trebinje
T1  - Upravljanje vodama u uslovima klimatskih promena
T1  - Water Management in Climate Change Conditions
EP  - 8
SP  - 1
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2534
ER  - 

@conference{
author = "Dašić, Tina and Đorđević, Branislav",
year = "2020",
abstract = "U radu je prikazano realno stanje u oblasti voda, posebno vode kao vodnog resursa. Sa prosečnim količinama domicilnih voda od oko 1700 m3 po stanovniku godišnje Srbija spada među vodom siromašnije zemalje Evrope. Situacija je još nepovoljnija ako se uzmu u obzir prostorna i vremenska neravnomernost. U uslovima klimatskih promena situacija u pogledu raspoloživih količina vode biće još nepovoljnija, uz smanjenje prosečnih protoka i izraženiju unutargodišnju neravnomernost. Zbog toga se sagledavaju opšti strateški pravci razvoja vodoprivredne infrastrukture, kao i neophodnost planiranja složenih integralnih sistema, sa akumulacjama kao okosnicama sitema, u cilju racionalnog korišćenja, uređenja i zaštite voda., The paper presents the actual situation in the field of water, especially water as a resource. With an average amount of domestic water of about 1700 m3 per capita per year, Serbia is one of the poorest countries in Europe. The situation is even more unfavorable if space and time variability are taken into account. In the conditions of climate change, the situation regarding the available quantities of water will be even more unfavorable, with a decrease in average flows and more pronounced temporal variability. Therefore, the general strategic development of water resources management infrastructure is considered, as well as the necessity of planning complex integrated water resources systems, with reservoirs as the key elements of the systems, in order to rationally use, regulate and protect water.",
publisher = "Srpsko društvo za zaštitu voda",
journal = "Zbornik radova VODA 2020, Trebinje",
title = "Upravljanje vodama u uslovima klimatskih promena, Water Management in Climate Change Conditions",
pages = "8-1",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2534"
}

Dašić, T.,& Đorđević, B.. (2020). Upravljanje vodama u uslovima klimatskih promena. in Zbornik radova VODA 2020, Trebinje
Srpsko društvo za zaštitu voda., 1-8.
https://hdl.handle.net/21.15107/rcub_grafar_2534

Dašić T, Đorđević B. Upravljanje vodama u uslovima klimatskih promena. in Zbornik radova VODA 2020, Trebinje. 2020;:1-8.
https://hdl.handle.net/21.15107/rcub_grafar_2534 .

Dašić, Tina, Đorđević, Branislav, "Upravljanje vodama u uslovima klimatskih promena" in Zbornik radova VODA 2020, Trebinje (2020):1-8,
https://hdl.handle.net/21.15107/rcub_grafar_2534 .

TY  - CONF
AU  - Dašić, Tina
AU  - Đorđević, Branislav
AU  - Plavšić, Jasna
PY  - 2020
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2531
AB  - The paper presents the actual situation in the field of water, especially water as a resource. With an average amount of domestic water of about 1700 m3 per capita per year, Serbia is one of the poorest countries in Europe. The situation is even more unfavorable if space and time variability are taken into account. In the conditions of climate change, the situation regarding the available quantities of water will be even more unfavorable, with a decrease in average flows and more pronounced temporal variability. Therefore, the general strategic development of water resources management infrastructure is considered, as well as the necessity of planning complex integrated water resources systems, with reservoirs as the key elements of the systems, in order to use it rationally, regulate and protect water.
PB  - Slovenian Committee on Large Dams
PB  - Macedonian Committee on Large Dams
C3  - Proceedings Second SLOCOLD-MACOLD Symposium on topic Water Reservoirs - an Active Measure in Adapting to Climate Change
T1  - Climate change in Serbia and adaptation measures in the field of water resources management
EP  - 39
SP  - 31
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2531
ER  - 

@conference{
author = "Dašić, Tina and Đorđević, Branislav and Plavšić, Jasna",
year = "2020",
abstract = "The paper presents the actual situation in the field of water, especially water as a resource. With an average amount of domestic water of about 1700 m3 per capita per year, Serbia is one of the poorest countries in Europe. The situation is even more unfavorable if space and time variability are taken into account. In the conditions of climate change, the situation regarding the available quantities of water will be even more unfavorable, with a decrease in average flows and more pronounced temporal variability. Therefore, the general strategic development of water resources management infrastructure is considered, as well as the necessity of planning complex integrated water resources systems, with reservoirs as the key elements of the systems, in order to use it rationally, regulate and protect water.",
publisher = "Slovenian Committee on Large Dams, Macedonian Committee on Large Dams",
journal = "Proceedings Second SLOCOLD-MACOLD Symposium on topic Water Reservoirs - an Active Measure in Adapting to Climate Change",
title = "Climate change in Serbia and adaptation measures in the field of water resources management",
pages = "39-31",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2531"
}

Dašić, T., Đorđević, B.,& Plavšić, J.. (2020). Climate change in Serbia and adaptation measures in the field of water resources management. in Proceedings Second SLOCOLD-MACOLD Symposium on topic Water Reservoirs - an Active Measure in Adapting to Climate Change
Slovenian Committee on Large Dams., 31-39.
https://hdl.handle.net/21.15107/rcub_grafar_2531

Dašić T, Đorđević B, Plavšić J. Climate change in Serbia and adaptation measures in the field of water resources management. in Proceedings Second SLOCOLD-MACOLD Symposium on topic Water Reservoirs - an Active Measure in Adapting to Climate Change. 2020;:31-39.
https://hdl.handle.net/21.15107/rcub_grafar_2531 .

Dašić, Tina, Đorđević, Branislav, Plavšić, Jasna, "Climate change in Serbia and adaptation measures in the field of water resources management" in Proceedings Second SLOCOLD-MACOLD Symposium on topic Water Reservoirs - an Active Measure in Adapting to Climate Change (2020):31-39,
https://hdl.handle.net/21.15107/rcub_grafar_2531 .

TY  - JOUR
AU  - Đorđević, Branislav
AU  - Dašić, Tina
AU  - Plavšić, Jasna
PY  - 2020
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2520
AB  - Emisija gasova staklene bašte (GSB) dovodi do klimatskih i hidroloških promena koje će sve nepovoljnije uticati na vodoprivredne i vodene ekosisteme. Da bi se sagledala opasnost od tih promena, u članku se najpre sistematizuju zaključci o realnom stanju vodnih resursa Srbije. To stanje se može sažeti u stav da je Srbija vodom siromašna zemlja, koja nije u stanju da čak i na nivou prosečnih protoka podmiri svoje potrebe samo iz domaćih voda. Stanje mnogo pogoršava velika prostorna i vremenska neravnomernost voda, tako da se u malovodnim periodima suma svih domaćih voda smanjuje na samo oko 50 m3/s, što je oko deset puta manje od prosečnih protoka voda koje se formiraju na prostoru Srbije. U posebnoj glavi se razmatra uticaj dva scenarija emisije GSB na promene klimatoloških i hidroloških parametara na području Srbije. Bitni klimatološki pokazatelji se pogoršavaju: po oba scenarija povećavaće se temparature u svim godišnjim dobima, što je vrlo nepovoljan proces i za vodoprivredne i za ekološke sisteme. Smanjuju se prosečne padavine, posebno u južnom i ističnim delovima zamlje. Međutim, mnogo nepovoljnija je činjenica da će smanjenje padavina biti posebno izraženo u letnjem, vegetacionom delu godine, i da će pogoršanje biti posebno veliko u južnom i istočnom delu zemlje, koji su i do sada bile oskudne. To u veoma nepovoljan položaj dovodi sve grane vodoprivrede, posebno navodnjavanje. Vrlo su nepovoljne posledice i na režime proticaja. Po oba scenarija smanjuju se prosečni godišnji protoci na rekama na slivovima sve tri Morave, Ibra, Timoka, Drine. Međutim, neuporedivo je nepovoljnija i više zabrinjava nepovoljna raspodela smanjivanja protoka tokom godine: u zimskim periodima dolazi čak i do izvesnog povećavanja u odnosu na sadašnje vrednosti, a najveće smanjenje se očekuje u vegetacinom delu godine, posebno u mesecima koji su se i do sada smatrali malovodnim – od jula do oktobra. Veoma je nepovoljno i znatno smanjenje intenziteta obnavljanja podzemnih voda (čak i preko 50%, zavisno od područja zemlje i perioda), i u tom slučaju najviše u južnom i istočnom delu zemlje. U skladu sa tim predviđanjima u centralnom delu članka se razmatraju posledice u svim vodoprivrednim granama, kao i mere koje se moraju preduzeti da bi se neutralisale ili umanjile posledice tih napovoljnih procesa. Važan je zaključak da će u novim okolnostima budućnost Srbije zavisiti od – akumulacija sa godišnjim regulisanjem protoka. Neohodne su brojne nove akumulacije i daje se okvirni pregled takvih objekata, onih koji su najneophodniji. Zahteva se da se za sve njih izradi projektna dokomentacija na nivou Generalnih projekata, kako bi se prostornim planovima prostora posebnih namena svi ti prostori sasvim konkretno zaštitili samo za te namene. To isto važi i za sva izvorišta, posebno ona velika, regionalnog značaja. Daje se zaključak o najvažnijim aktivnostima koje treba uraditi da bi se vodoprivredni sistemi pripremili za funkcionisanje u sve nepovoljnijim uslovima delovanja klimatskih promena.
AB  - Greenhouse gas (GHG) emissions are causing climate and hydrological changes that will increasingly affect water management systems and ecosystems. In order to see the danger of these changes, the article first systematizes the conclusions about the real state of Serbia's water resources. This situation can be summarized in the view that Serbia is a water-poor country, which is not able to meet its needs only at the level of average flows only from domestic waters. The situation is much more unfavorable due to the large spatial and temporal unevenness of the water. In low-water periods, the sum of all domestic waters decreases to only about 50 m3 / s, which is about ten times less than the average water flows that are formed in Serbia. The third chapter discusses the impact of two scenarios of GSB emissions on changes in climatological and hydrological parameters in Serbia. Important climatological indicators are deteriorating: in both scenarios, temperatures will increase in all seasons, which is a very unfavorable process for both water management and ecological systems. Average precipitation is decreasing, especially in the southern and eastern part of the country. However, much less unfavorable is the fact that the decrease in precipitation will be especially pronounced in the summer, vegetation part of the year, and that the deterioration will be especially large in the southern and eastern part of the country, which have been insufficient so far. This puts all branches of water management in a very unfavorable position, especially irrigation. The consequences on the flow regimes are also very unfavorable. According to both scenarios, the average annual flows on the rivers in the basins of all three Morava, Ibar, Timok, Drina are decreasing. However, the unfavorable distribution of flow reductions during the year is much more unfavorable and more worrying: in winter there is even a certain increase compared to the current values, and the largest reduction is expected in the vegetation part of the year, especially in the months considered so far. low-water - from July to October. It is very unfavorable that the intensity of groundwater renewal is significantly reduced (even over 50%, depending on the part of the country and the period), and in that case mostly in the southern and eastern part of the country. In accordance with these predictions, the fourth chapter discusses the consequences in all water management branches, as well as the measures that must be taken to neutralize or reduce the consequences of these favorable processes. An important conclusion is that in the new circumstances, the future of Serbia will depend on - accumulation with annual flow regulation. Numerous new accumulations are necessary and a table of such facilities is given, the ones that are most necessary. An important conclusion is that in the new circumstances, the future of Serbia will depend on - accumulation with annual flow regulation. Numerous new accumulations are necessary and a table of such facilities is given, the ones that are most necessary. It is required that project documentation be prepared for all of them at the level of General Projects, so that the spatial plans specifically protect all these areas only for those purposes. The same should be done for all sources, especially large ones of regional importance. A conclusion is given on the most important activities that need to be done in order to prepare water management systems in time for functioning in increasingly unfavorable conditions of climate change.
PB  - Srpsko društvo za odvodnjavanje i navodnjavanje
PB  - Akademija inženjerskih nauka Srbije
T2  - Časopis Vodoprivreda
T1  - Impact of climate change on Serbian water management and measures for protection against negative impacts
T1  - Uticaj klimatskih promena na vodoprivredu Srbije i mere koje treba preduzimati u cilju zaštite od negativnih uticaja
EP  - 68
IS  - 303-305
SP  - 39
VL  - 52
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2520
ER  - 

@article{
author = "Đorđević, Branislav and Dašić, Tina and Plavšić, Jasna",
year = "2020",
abstract = "Emisija gasova staklene bašte (GSB) dovodi do klimatskih i hidroloških promena koje će sve nepovoljnije uticati na vodoprivredne i vodene ekosisteme. Da bi se sagledala opasnost od tih promena, u članku se najpre sistematizuju zaključci o realnom stanju vodnih resursa Srbije. To stanje se može sažeti u stav da je Srbija vodom siromašna zemlja, koja nije u stanju da čak i na nivou prosečnih protoka podmiri svoje potrebe samo iz domaćih voda. Stanje mnogo pogoršava velika prostorna i vremenska neravnomernost voda, tako da se u malovodnim periodima suma svih domaćih voda smanjuje na samo oko 50 m3/s, što je oko deset puta manje od prosečnih protoka voda koje se formiraju na prostoru Srbije. U posebnoj glavi se razmatra uticaj dva scenarija emisije GSB na promene klimatoloških i hidroloških parametara na području Srbije. Bitni klimatološki pokazatelji se pogoršavaju: po oba scenarija povećavaće se temparature u svim godišnjim dobima, što je vrlo nepovoljan proces i za vodoprivredne i za ekološke sisteme. Smanjuju se prosečne padavine, posebno u južnom i ističnim delovima zamlje. Međutim, mnogo nepovoljnija je činjenica da će smanjenje padavina biti posebno izraženo u letnjem, vegetacionom delu godine, i da će pogoršanje biti posebno veliko u južnom i istočnom delu zemlje, koji su i do sada bile oskudne. To u veoma nepovoljan položaj dovodi sve grane vodoprivrede, posebno navodnjavanje. Vrlo su nepovoljne posledice i na režime proticaja. Po oba scenarija smanjuju se prosečni godišnji protoci na rekama na slivovima sve tri Morave, Ibra, Timoka, Drine. Međutim, neuporedivo je nepovoljnija i više zabrinjava nepovoljna raspodela smanjivanja protoka tokom godine: u zimskim periodima dolazi čak i do izvesnog povećavanja u odnosu na sadašnje vrednosti, a najveće smanjenje se očekuje u vegetacinom delu godine, posebno u mesecima koji su se i do sada smatrali malovodnim – od jula do oktobra. Veoma je nepovoljno i znatno smanjenje intenziteta obnavljanja podzemnih voda (čak i preko 50%, zavisno od područja zemlje i perioda), i u tom slučaju najviše u južnom i istočnom delu zemlje. U skladu sa tim predviđanjima u centralnom delu članka se razmatraju posledice u svim vodoprivrednim granama, kao i mere koje se moraju preduzeti da bi se neutralisale ili umanjile posledice tih napovoljnih procesa. Važan je zaključak da će u novim okolnostima budućnost Srbije zavisiti od – akumulacija sa godišnjim regulisanjem protoka. Neohodne su brojne nove akumulacije i daje se okvirni pregled takvih objekata, onih koji su najneophodniji. Zahteva se da se za sve njih izradi projektna dokomentacija na nivou Generalnih projekata, kako bi se prostornim planovima prostora posebnih namena svi ti prostori sasvim konkretno zaštitili samo za te namene. To isto važi i za sva izvorišta, posebno ona velika, regionalnog značaja. Daje se zaključak o najvažnijim aktivnostima koje treba uraditi da bi se vodoprivredni sistemi pripremili za funkcionisanje u sve nepovoljnijim uslovima delovanja klimatskih promena., Greenhouse gas (GHG) emissions are causing climate and hydrological changes that will increasingly affect water management systems and ecosystems. In order to see the danger of these changes, the article first systematizes the conclusions about the real state of Serbia's water resources. This situation can be summarized in the view that Serbia is a water-poor country, which is not able to meet its needs only at the level of average flows only from domestic waters. The situation is much more unfavorable due to the large spatial and temporal unevenness of the water. In low-water periods, the sum of all domestic waters decreases to only about 50 m3 / s, which is about ten times less than the average water flows that are formed in Serbia. The third chapter discusses the impact of two scenarios of GSB emissions on changes in climatological and hydrological parameters in Serbia. Important climatological indicators are deteriorating: in both scenarios, temperatures will increase in all seasons, which is a very unfavorable process for both water management and ecological systems. Average precipitation is decreasing, especially in the southern and eastern part of the country. However, much less unfavorable is the fact that the decrease in precipitation will be especially pronounced in the summer, vegetation part of the year, and that the deterioration will be especially large in the southern and eastern part of the country, which have been insufficient so far. This puts all branches of water management in a very unfavorable position, especially irrigation. The consequences on the flow regimes are also very unfavorable. According to both scenarios, the average annual flows on the rivers in the basins of all three Morava, Ibar, Timok, Drina are decreasing. However, the unfavorable distribution of flow reductions during the year is much more unfavorable and more worrying: in winter there is even a certain increase compared to the current values, and the largest reduction is expected in the vegetation part of the year, especially in the months considered so far. low-water - from July to October. It is very unfavorable that the intensity of groundwater renewal is significantly reduced (even over 50%, depending on the part of the country and the period), and in that case mostly in the southern and eastern part of the country. In accordance with these predictions, the fourth chapter discusses the consequences in all water management branches, as well as the measures that must be taken to neutralize or reduce the consequences of these favorable processes. An important conclusion is that in the new circumstances, the future of Serbia will depend on - accumulation with annual flow regulation. Numerous new accumulations are necessary and a table of such facilities is given, the ones that are most necessary. An important conclusion is that in the new circumstances, the future of Serbia will depend on - accumulation with annual flow regulation. Numerous new accumulations are necessary and a table of such facilities is given, the ones that are most necessary. It is required that project documentation be prepared for all of them at the level of General Projects, so that the spatial plans specifically protect all these areas only for those purposes. The same should be done for all sources, especially large ones of regional importance. A conclusion is given on the most important activities that need to be done in order to prepare water management systems in time for functioning in increasingly unfavorable conditions of climate change.",
publisher = "Srpsko društvo za odvodnjavanje i navodnjavanje, Akademija inženjerskih nauka Srbije",
journal = "Časopis Vodoprivreda",
title = "Impact of climate change on Serbian water management and measures for protection against negative impacts, Uticaj klimatskih promena na vodoprivredu Srbije i mere koje treba preduzimati u cilju zaštite od negativnih uticaja",
pages = "68-39",
number = "303-305",
volume = "52",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2520"
}

Đorđević, B., Dašić, T.,& Plavšić, J.. (2020). Impact of climate change on Serbian water management and measures for protection against negative impacts. in Časopis Vodoprivreda
Srpsko društvo za odvodnjavanje i navodnjavanje., 52(303-305), 39-68.
https://hdl.handle.net/21.15107/rcub_grafar_2520

Đorđević B, Dašić T, Plavšić J. Impact of climate change on Serbian water management and measures for protection against negative impacts. in Časopis Vodoprivreda. 2020;52(303-305):39-68.
https://hdl.handle.net/21.15107/rcub_grafar_2520 .

Đorđević, Branislav, Dašić, Tina, Plavšić, Jasna, "Impact of climate change on Serbian water management and measures for protection against negative impacts" in Časopis Vodoprivreda, 52, no. 303-305 (2020):39-68,
https://hdl.handle.net/21.15107/rcub_grafar_2520 .

TY  - JOUR
AU  - Dašić, Tina
AU  - Vasić, Ljiljana
PY  - 2020
UR  - http://link.springer.com/journal/12665
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2131
AB  - Eastern Herzegovina is highly karstified area, with porosity of karstified rock mass between 0.8 and 2%. It is an area with high precipitation (average annual values in wet year are around 2450 mm), but its distribution is uneven, with 70% of annual precipitation occurring during the wet season (late fall to early spring). The outflow coefficients are very high, between 0.7 and 0.8. The ratio between flow in the low water period (Q95%) and in the period of high water flow (Q1%) is 1:4000(5000). Due to such hydrological conditions, with limited dewatering capacity of karst channels and ponors, floods of karst poljes occur frequently. This article presents, in very general terms, the properties of the natural water regime of the Gatačko Polje, highest polje in Eastern Herzegovina, including some hydrological and hydrogeological specificity. Special attention is referred to floods and possible ways to mitigate such events, as there are coal mine and coal power plant “Gacko” situated in the polje. Several possible measures are presented in the paper, such as passive protection measures, active flood protection by proper reservoirs management, as well as spatial planning measures. Also, the possibility of transferring part of the water from the Gatačko Polje watershed to the multipurpose hydrosystem Trebišnjica for usage in hydropower production, irrigation, water supply and other secondary benefits is considered.
PB  - Springer
T2  - Environmental Earth Science
T1  - Flood protection and water utilization of karst poljes: example of Gatačko Polje, Eastern Herzegovina
SP  - 233
VL  - 79
DO  - 10.1007/s12665-020-08987-4
ER  - 

@article{
author = "Dašić, Tina and Vasić, Ljiljana",
year = "2020",
abstract = "Eastern Herzegovina is highly karstified area, with porosity of karstified rock mass between 0.8 and 2%. It is an area with high precipitation (average annual values in wet year are around 2450 mm), but its distribution is uneven, with 70% of annual precipitation occurring during the wet season (late fall to early spring). The outflow coefficients are very high, between 0.7 and 0.8. The ratio between flow in the low water period (Q95%) and in the period of high water flow (Q1%) is 1:4000(5000). Due to such hydrological conditions, with limited dewatering capacity of karst channels and ponors, floods of karst poljes occur frequently. This article presents, in very general terms, the properties of the natural water regime of the Gatačko Polje, highest polje in Eastern Herzegovina, including some hydrological and hydrogeological specificity. Special attention is referred to floods and possible ways to mitigate such events, as there are coal mine and coal power plant “Gacko” situated in the polje. Several possible measures are presented in the paper, such as passive protection measures, active flood protection by proper reservoirs management, as well as spatial planning measures. Also, the possibility of transferring part of the water from the Gatačko Polje watershed to the multipurpose hydrosystem Trebišnjica for usage in hydropower production, irrigation, water supply and other secondary benefits is considered.",
publisher = "Springer",
journal = "Environmental Earth Science",
title = "Flood protection and water utilization of karst poljes: example of Gatačko Polje, Eastern Herzegovina",
pages = "233",
volume = "79",
doi = "10.1007/s12665-020-08987-4"
}

Dašić, T.,& Vasić, L.. (2020). Flood protection and water utilization of karst poljes: example of Gatačko Polje, Eastern Herzegovina. in Environmental Earth Science
Springer., 79, 233.
https://doi.org/10.1007/s12665-020-08987-4

Dašić T, Vasić L. Flood protection and water utilization of karst poljes: example of Gatačko Polje, Eastern Herzegovina. in Environmental Earth Science. 2020;79:233.
doi:10.1007/s12665-020-08987-4 .

Dašić, Tina, Vasić, Ljiljana, "Flood protection and water utilization of karst poljes: example of Gatačko Polje, Eastern Herzegovina" in Environmental Earth Science, 79 (2020):233,
https://doi.org/10.1007/s12665-020-08987-4 . .

TY  - CONF
AU  - Dašić, Tina
PY  - 2020
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2605
AB  - Вода је најраспрострањенији биотоп и кључни елемент животне средине. Због тога се свака промена у окружењу, па и климатска, веома брзо и непосредно одражава на воду, водне ресурсе и читав сектор вода. Те промене се огледају у све већој неравномерности расположивих количина воде, све дужим маловодним периодима, када је тешко обезбедити захтеване количине воде за све кориснике (пре свега за пољопривреду, која захтева повећане количине воде за наводњавање) и све краћим али интензивнијим периодима великих вода, када је од разорног дејства воде неопходно бранити човека и његове системе. Због свега тога, притисак на воду је све већи, све су веће количине воде које су потребне човеку, па је све теже обезбедити захтеване количине квалитетне воде.

У раду се сагледава реално стање у области вода, посебно воде као водног ресурса. У том смислу јасно су разграничене две категорије воде: вода присутна на сливу и вода која има атрибуте водног ресурса, као и однос између њих. Са просечним количинама домицилних вода од око 1500 m3 по становнику годишње Србија спада међу водом сиромашније земаље Европе. Ситуација је још неповољнија ако се узму у обзир просторна и временска неравномерност. Ради се о ’ресурсном парадоксу’ да су домаће воде најоскудније управо тамо где су најпотребније: у зони великих градова и потрошачких центара и тамо где се налазе најповољнији земљишни ресурси које треба наводњавати. У условима климатских промена ситуација у погледу расположивих количина воде биће још неповољнија. 

Да би се вода могла користити у будућности, већ сада се морају предузети одговарајуће мере да се негативне последице климатских промена у највећој могућој мери ублаже или у потпуности отклоне. Неке од најзначајнијих мера су: изградња вишенаменских акумулација као дела интегралних водопривредних система, смањење губитака у водоводним системима, повећање капацитета и ефикасности система за одводњавање и наводњавање, повећање капацитета канализационих система, изградња постројења за пречишћавање отпадних вода и др. Значајне су и мере у домену управљања водним ресурсима, као што су израда и примена математичких модела за управљање акумулацијама, прогностичких хидролошких модела, система за рано упозоравање на могуће поплаве и сличних мера.
AB  - Water is a key element of the environment and the most widespread biotope. That is why any change in the environment, including the climate change, very quickly and directly affects water, water resources and the entire water sector. One consequence of those changes is increasing variability of available water resources, with longer periods of low water flow, when it is difficult to provide the required quantities of water for all users (especially agriculture, which requires increased amounts of water for irrigation) and shorter but more intense periods of large water flows, when it is necessary to protect man and his systems from the destructive effect of water. That is why the pressure on water increases, as well as the difficulties to provide required quantity and quality of that resource.

The paper deals with the actual situation in the field of water, especially water as a resource. Two categories of water are defined: water present in the basin and water with attributes of water resource, as well as the relationship between them. Average amount of domicile water in Serbia is about 1500 m3 per capita per year, which ranks it among the poorer countries in Europe. The situation is even more unfavorable considering the spatial and temporal variability. It is a 'resource paradox' that domestic water is most scarce in the areas where they are most needed - in the area of large cities and in the areas where favorable land resources need to be irrigated. As a consequence of climate changes, the situation regarding the available water resources will be even more unfavorable. 

In order to use water in the future, appropriate measures must be taken right now to mitigate or completely eliminate the negative effects of climate changes on water resources. Some of the most important measures are: construction of multi-purpose reservoirs as part of integrated water resources systems, reducing losses in water supply systems, increase the capacity and efficiency of the drainage and irrigation systems, increase the capacity of sewage systems, construction of wastewater treatment plants etc. Measures in the area of water resources management such as development and implementation of mathematical models for water storage reservoirs management, prognostic hydrological models, early warning system for possible floods and similar measures, are also very important.
PB  - Srpsko društvo za proučavanje zemljišta
C3  - Knjiga sažetaka - Navodnjavanje i odvodnjavanje u svetlu klimatskih promena, Vršac
T1  - Водни ресурси Србије – њихово рационално коришћење и заштита у условима климатских промена
T1  - Water Resources of Serbia - Rational Use and Protection in Climate Change Conditions
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2605
ER  - 

@conference{
author = "Dašić, Tina",
year = "2020",
abstract = "Вода је најраспрострањенији биотоп и кључни елемент животне средине. Због тога се свака промена у окружењу, па и климатска, веома брзо и непосредно одражава на воду, водне ресурсе и читав сектор вода. Те промене се огледају у све већој неравномерности расположивих количина воде, све дужим маловодним периодима, када је тешко обезбедити захтеване количине воде за све кориснике (пре свега за пољопривреду, која захтева повећане количине воде за наводњавање) и све краћим али интензивнијим периодима великих вода, када је од разорног дејства воде неопходно бранити човека и његове системе. Због свега тога, притисак на воду је све већи, све су веће количине воде које су потребне човеку, па је све теже обезбедити захтеване количине квалитетне воде.

У раду се сагледава реално стање у области вода, посебно воде као водног ресурса. У том смислу јасно су разграничене две категорије воде: вода присутна на сливу и вода која има атрибуте водног ресурса, као и однос између њих. Са просечним количинама домицилних вода од око 1500 m3 по становнику годишње Србија спада међу водом сиромашније земаље Европе. Ситуација је још неповољнија ако се узму у обзир просторна и временска неравномерност. Ради се о ’ресурсном парадоксу’ да су домаће воде најоскудније управо тамо где су најпотребније: у зони великих градова и потрошачких центара и тамо где се налазе најповољнији земљишни ресурси које треба наводњавати. У условима климатских промена ситуација у погледу расположивих количина воде биће још неповољнија. 

Да би се вода могла користити у будућности, већ сада се морају предузети одговарајуће мере да се негативне последице климатских промена у највећој могућој мери ублаже или у потпуности отклоне. Неке од најзначајнијих мера су: изградња вишенаменских акумулација као дела интегралних водопривредних система, смањење губитака у водоводним системима, повећање капацитета и ефикасности система за одводњавање и наводњавање, повећање капацитета канализационих система, изградња постројења за пречишћавање отпадних вода и др. Значајне су и мере у домену управљања водним ресурсима, као што су израда и примена математичких модела за управљање акумулацијама, прогностичких хидролошких модела, система за рано упозоравање на могуће поплаве и сличних мера., Water is a key element of the environment and the most widespread biotope. That is why any change in the environment, including the climate change, very quickly and directly affects water, water resources and the entire water sector. One consequence of those changes is increasing variability of available water resources, with longer periods of low water flow, when it is difficult to provide the required quantities of water for all users (especially agriculture, which requires increased amounts of water for irrigation) and shorter but more intense periods of large water flows, when it is necessary to protect man and his systems from the destructive effect of water. That is why the pressure on water increases, as well as the difficulties to provide required quantity and quality of that resource.

The paper deals with the actual situation in the field of water, especially water as a resource. Two categories of water are defined: water present in the basin and water with attributes of water resource, as well as the relationship between them. Average amount of domicile water in Serbia is about 1500 m3 per capita per year, which ranks it among the poorer countries in Europe. The situation is even more unfavorable considering the spatial and temporal variability. It is a 'resource paradox' that domestic water is most scarce in the areas where they are most needed - in the area of large cities and in the areas where favorable land resources need to be irrigated. As a consequence of climate changes, the situation regarding the available water resources will be even more unfavorable. 

In order to use water in the future, appropriate measures must be taken right now to mitigate or completely eliminate the negative effects of climate changes on water resources. Some of the most important measures are: construction of multi-purpose reservoirs as part of integrated water resources systems, reducing losses in water supply systems, increase the capacity and efficiency of the drainage and irrigation systems, increase the capacity of sewage systems, construction of wastewater treatment plants etc. Measures in the area of water resources management such as development and implementation of mathematical models for water storage reservoirs management, prognostic hydrological models, early warning system for possible floods and similar measures, are also very important.",
publisher = "Srpsko društvo za proučavanje zemljišta",
journal = "Knjiga sažetaka - Navodnjavanje i odvodnjavanje u svetlu klimatskih promena, Vršac",
title = "Водни ресурси Србије – њихово рационално коришћење и заштита у условима климатских промена, Water Resources of Serbia - Rational Use and Protection in Climate Change Conditions",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2605"
}

Dašić, T.. (2020). Водни ресурси Србије – њихово рационално коришћење и заштита у условима климатских промена. in Knjiga sažetaka - Navodnjavanje i odvodnjavanje u svetlu klimatskih promena, Vršac
Srpsko društvo za proučavanje zemljišta..
https://hdl.handle.net/21.15107/rcub_grafar_2605

Dašić T. Водни ресурси Србије – њихово рационално коришћење и заштита у условима климатских промена. in Knjiga sažetaka - Navodnjavanje i odvodnjavanje u svetlu klimatskih promena, Vršac. 2020;.
https://hdl.handle.net/21.15107/rcub_grafar_2605 .

Dašić, Tina, "Водни ресурси Србије – њихово рационално коришћење и заштита у условима климатских промена" in Knjiga sažetaka - Navodnjavanje i odvodnjavanje u svetlu klimatskih promena, Vršac (2020),
https://hdl.handle.net/21.15107/rcub_grafar_2605 .

TY  - JOUR
AU  - Sudar, Nedeljko
AU  - Blagojević, Vujadin
AU  - Dašić, Tina
AU  - Đorđević, Dejana
AU  - Stanić, Miloš
AU  - Jaćimović, Nenad
AU  - Đorđević, Branislav
AU  - Topalović, Žana
AU  - Marilović, Slobodan
AU  - Cupać, Raduška
AU  - Bosankić, Goran
PY  - 2019
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/1855
AB  - Na području Republike Srpske i Bosne i Hercegovine integralni vodoprivredni sistemi su djelimično ili veoma slabo razvijeni. Procenat realizovanih sistema je značajno manji od iskazanih vodoprivrednih potreba i očekivanih ciljeva. Uvažavajući obaveze ispunjavanja uslova iz Direktiva o vodama, bitno je uočiti značajnu činjenicu da je u većini razvijenih zemalja EU proces razvoja integralnih sistema uglavnom završen.

U BiH djelimično su realizovani sistemi na Drini, Neretvi, Trebišnjici i Vrbasu, a ostali slivovi nemaju
izgrađene ili dokumentacijom planirane ključne integralne vodoprivredne sisteme. Kao poseban primjer
nerazvijenosti i deficita iskazanih potreba za rezervama vode izdvaja se rijeka Bosna.

U polazištima za ispunjavanje zahtjeva Direktiva za BiH i Republiku Srpsku postoje suštinska tehnička
ograničenja koja treba uvažiti. Na slivu rijeke Vrbas koji je suočen sa nepotpuno razvijenim integralnim
vodoprivrednim sistemima, na bazi sprovedenih analiza iz ’pilot’ Plana upravljanja rizikom od poplava za sliv rijeke Vrbas Republike Srpske, daju se strateške preporuke koje su bitne za zaštitu od voda, uređenje prostora i razvoj društvene zajednice na tom slivnom području uvažavajući zatečeno stanje, višenamjenske potrebe korišćenja voda i preuzete zahtjeve ekološkog statusa voda iz Direktiva o vodama.

U strateškom opredjeljenju, sektor voda u Republici Srpskoj mora neodložno, planski i ozbiljno pristupiti planiranju i razvoju integralnih vodoprivrednih sistema. Ovaj proces je poželjno koordinisano i sinhronizovano započeti u saradnji sa sektorom voda u Federaciji BiH, imajući u vidu uticaje sa uzvodnih područja na vodne režime malih i velikih voda.

Period tranzicije, do pristupanja pregovorima i članstvu u EU mora se racionalno iskoristiti, na način da se u svim dokumentima sektora voda zahtjevi Direktiva prilagode razvojnim prioritetima. To znači da se u Planovima upravljanja rizicima od poplava potencira planiranje i izgradnja ključnih akumulacija i ostalih objekata integralnih vodoprivrednih sistema. Takav pristup će omogućiti da se obezbijedi dobar ekološki i hemijski status voda, odgovarajuće potrebe za vodom i preduslovi za efikasniju aktivnu zaštitu od poplava.

Zbog toga treba decidno iskazati potrebe i iste ostvariti razvojnim ciklusom uz pomoć EU. Po tom osnovu bi bilo korisno navesti primjere iz EU (Španija) i nastojati da se integralni vodoprivredni sistemi u Republici Srpskoj i BiH izgrade do potrebnog nivoa koji garantuje funkcionalnost, održivost i odgovarajuće upravljanje.

Zakon o vodama i strateški dokumenti Republike Srpske iz oblasti voda (’Strategija upravljanja vodama
Republike Srpske’), daju mogućnost da se integralni vodoprivredni sistemi razvijaju do potrebnog kapaciteta.
PB  - Srpsko društvo za odvodnjavanje i navodnjavanje
T2  - Vodoprivreda
T1  - Planiranje i razvoj integralnih vodoprivredenih sistema prema načelima ključnih direktiva o vodama EU - na primeru reke Vrbas u Republici Spskoj
EP  - 242
IS  - 300-302
SP  - 225
VL  - 51
UR  - https://hdl.handle.net/21.15107/rcub_grafar_1855
ER  - 

@article{
author = "Sudar, Nedeljko and Blagojević, Vujadin and Dašić, Tina and Đorđević, Dejana and Stanić, Miloš and Jaćimović, Nenad and Đorđević, Branislav and Topalović, Žana and Marilović, Slobodan and Cupać, Raduška and Bosankić, Goran",
year = "2019",
abstract = "Na području Republike Srpske i Bosne i Hercegovine integralni vodoprivredni sistemi su djelimično ili veoma slabo razvijeni. Procenat realizovanih sistema je značajno manji od iskazanih vodoprivrednih potreba i očekivanih ciljeva. Uvažavajući obaveze ispunjavanja uslova iz Direktiva o vodama, bitno je uočiti značajnu činjenicu da je u većini razvijenih zemalja EU proces razvoja integralnih sistema uglavnom završen.

U BiH djelimično su realizovani sistemi na Drini, Neretvi, Trebišnjici i Vrbasu, a ostali slivovi nemaju
izgrađene ili dokumentacijom planirane ključne integralne vodoprivredne sisteme. Kao poseban primjer
nerazvijenosti i deficita iskazanih potreba za rezervama vode izdvaja se rijeka Bosna.

U polazištima za ispunjavanje zahtjeva Direktiva za BiH i Republiku Srpsku postoje suštinska tehnička
ograničenja koja treba uvažiti. Na slivu rijeke Vrbas koji je suočen sa nepotpuno razvijenim integralnim
vodoprivrednim sistemima, na bazi sprovedenih analiza iz ’pilot’ Plana upravljanja rizikom od poplava za sliv rijeke Vrbas Republike Srpske, daju se strateške preporuke koje su bitne za zaštitu od voda, uređenje prostora i razvoj društvene zajednice na tom slivnom području uvažavajući zatečeno stanje, višenamjenske potrebe korišćenja voda i preuzete zahtjeve ekološkog statusa voda iz Direktiva o vodama.

U strateškom opredjeljenju, sektor voda u Republici Srpskoj mora neodložno, planski i ozbiljno pristupiti planiranju i razvoju integralnih vodoprivrednih sistema. Ovaj proces je poželjno koordinisano i sinhronizovano započeti u saradnji sa sektorom voda u Federaciji BiH, imajući u vidu uticaje sa uzvodnih područja na vodne režime malih i velikih voda.

Period tranzicije, do pristupanja pregovorima i članstvu u EU mora se racionalno iskoristiti, na način da se u svim dokumentima sektora voda zahtjevi Direktiva prilagode razvojnim prioritetima. To znači da se u Planovima upravljanja rizicima od poplava potencira planiranje i izgradnja ključnih akumulacija i ostalih objekata integralnih vodoprivrednih sistema. Takav pristup će omogućiti da se obezbijedi dobar ekološki i hemijski status voda, odgovarajuće potrebe za vodom i preduslovi za efikasniju aktivnu zaštitu od poplava.

Zbog toga treba decidno iskazati potrebe i iste ostvariti razvojnim ciklusom uz pomoć EU. Po tom osnovu bi bilo korisno navesti primjere iz EU (Španija) i nastojati da se integralni vodoprivredni sistemi u Republici Srpskoj i BiH izgrade do potrebnog nivoa koji garantuje funkcionalnost, održivost i odgovarajuće upravljanje.

Zakon o vodama i strateški dokumenti Republike Srpske iz oblasti voda (’Strategija upravljanja vodama
Republike Srpske’), daju mogućnost da se integralni vodoprivredni sistemi razvijaju do potrebnog kapaciteta.",
publisher = "Srpsko društvo za odvodnjavanje i navodnjavanje",
journal = "Vodoprivreda",
title = "Planiranje i razvoj integralnih vodoprivredenih sistema prema načelima ključnih direktiva o vodama EU - na primeru reke Vrbas u Republici Spskoj",
pages = "242-225",
number = "300-302",
volume = "51",
url = "https://hdl.handle.net/21.15107/rcub_grafar_1855"
}

Sudar, N., Blagojević, V., Dašić, T., Đorđević, D., Stanić, M., Jaćimović, N., Đorđević, B., Topalović, Ž., Marilović, S., Cupać, R.,& Bosankić, G.. (2019). Planiranje i razvoj integralnih vodoprivredenih sistema prema načelima ključnih direktiva o vodama EU - na primeru reke Vrbas u Republici Spskoj. in Vodoprivreda
Srpsko društvo za odvodnjavanje i navodnjavanje., 51(300-302), 225-242.
https://hdl.handle.net/21.15107/rcub_grafar_1855

Sudar N, Blagojević V, Dašić T, Đorđević D, Stanić M, Jaćimović N, Đorđević B, Topalović Ž, Marilović S, Cupać R, Bosankić G. Planiranje i razvoj integralnih vodoprivredenih sistema prema načelima ključnih direktiva o vodama EU - na primeru reke Vrbas u Republici Spskoj. in Vodoprivreda. 2019;51(300-302):225-242.
https://hdl.handle.net/21.15107/rcub_grafar_1855 .

Sudar, Nedeljko, Blagojević, Vujadin, Dašić, Tina, Đorđević, Dejana, Stanić, Miloš, Jaćimović, Nenad, Đorđević, Branislav, Topalović, Žana, Marilović, Slobodan, Cupać, Raduška, Bosankić, Goran, "Planiranje i razvoj integralnih vodoprivredenih sistema prema načelima ključnih direktiva o vodama EU - na primeru reke Vrbas u Republici Spskoj" in Vodoprivreda, 51, no. 300-302 (2019):225-242,
https://hdl.handle.net/21.15107/rcub_grafar_1855 .

TY  - BOOK
AU  - Đorđević, Branislav
AU  - Dašić, Tina
PY  - 2019
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2590
PB  - Univerzitet u Beogradu – Građevinski fakultet
PB  - Akademija inženjerskih nauka Srbije
T1  - Ekologija vodoprivrednih sistema
EP  - 448
SP  - 1
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2590
ER  - 

@book{
author = "Đorđević, Branislav and Dašić, Tina",
year = "2019",
publisher = "Univerzitet u Beogradu – Građevinski fakultet, Akademija inženjerskih nauka Srbije",
title = "Ekologija vodoprivrednih sistema",
pages = "448-1",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2590"
}

Đorđević, B.,& Dašić, T.. (2019). Ekologija vodoprivrednih sistema. 
Univerzitet u Beogradu – Građevinski fakultet., 1-448.
https://hdl.handle.net/21.15107/rcub_grafar_2590

Đorđević B, Dašić T. Ekologija vodoprivrednih sistema. 2019;:1-448.
https://hdl.handle.net/21.15107/rcub_grafar_2590 .

Đorđević, Branislav, Dašić, Tina, "Ekologija vodoprivrednih sistema" (2019):1-448,
https://hdl.handle.net/21.15107/rcub_grafar_2590 .

TY  - CONF
AU  - Dašić, Tina
AU  - Đorđević, Branislav
PY  - 2019
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2479
AB  - Floods are natural events that have occurred since the earliest times, endangering people, their settlements and property. As a consequence of climate changes and changes in the catchment area (changes in land use, reclamation, etc.) the frequency and intensity of floods increased in the recent years. Therefore, special attention should be paid to the facilities that are particularly vulnerable to floods (such as thermal power plants and open-pit mines) due to immense direct and indirect damage that can be caused by their flooding. These facilities should be protected by a combination of active and passive flood protection measures, and appropriate hydrological monitoring should be undertaken. Described task is discussed in the article. Possible mitigation of flood waves achieved by proper management of multipurpose water resources systems (consisting of two cascade reservoirs in the Eastern Herzegovina) situated upstream from the thermal power plant and the open-pit mine are analyzed in paper. It is concluded that significant mitigation of the flood waves can be achieved even with reservoirs of relatively small active volume if operated properly.
PB  - Macedonian Committee on Large Dams
C3  - Proceedings 12th Conference on Water Economy and Hydrotechnics, Skopje
T1  - Management of Multipurpose Resources Systems in Areas Vulnerable to Floods
EP  - 107
SP  - 99
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2479
ER  - 

@conference{
author = "Dašić, Tina and Đorđević, Branislav",
year = "2019",
abstract = "Floods are natural events that have occurred since the earliest times, endangering people, their settlements and property. As a consequence of climate changes and changes in the catchment area (changes in land use, reclamation, etc.) the frequency and intensity of floods increased in the recent years. Therefore, special attention should be paid to the facilities that are particularly vulnerable to floods (such as thermal power plants and open-pit mines) due to immense direct and indirect damage that can be caused by their flooding. These facilities should be protected by a combination of active and passive flood protection measures, and appropriate hydrological monitoring should be undertaken. Described task is discussed in the article. Possible mitigation of flood waves achieved by proper management of multipurpose water resources systems (consisting of two cascade reservoirs in the Eastern Herzegovina) situated upstream from the thermal power plant and the open-pit mine are analyzed in paper. It is concluded that significant mitigation of the flood waves can be achieved even with reservoirs of relatively small active volume if operated properly.",
publisher = "Macedonian Committee on Large Dams",
journal = "Proceedings 12th Conference on Water Economy and Hydrotechnics, Skopje",
title = "Management of Multipurpose Resources Systems in Areas Vulnerable to Floods",
pages = "107-99",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2479"
}

Dašić, T.,& Đorđević, B.. (2019). Management of Multipurpose Resources Systems in Areas Vulnerable to Floods. in Proceedings 12th Conference on Water Economy and Hydrotechnics, Skopje
Macedonian Committee on Large Dams., 99-107.
https://hdl.handle.net/21.15107/rcub_grafar_2479

Dašić T, Đorđević B. Management of Multipurpose Resources Systems in Areas Vulnerable to Floods. in Proceedings 12th Conference on Water Economy and Hydrotechnics, Skopje. 2019;:99-107.
https://hdl.handle.net/21.15107/rcub_grafar_2479 .

Dašić, Tina, Đorđević, Branislav, "Management of Multipurpose Resources Systems in Areas Vulnerable to Floods" in Proceedings 12th Conference on Water Economy and Hydrotechnics, Skopje (2019):99-107,
https://hdl.handle.net/21.15107/rcub_grafar_2479 .

TY  - JOUR
AU  - Jaćimović, Nenad
AU  - Dašić, Tina
AU  - Stanić, Miloš
AU  - Milanović, Petar
AU  - Đorđević, Branislav
PY  - 2019
UR  - http://link.springer.com/journal/12665
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2130
AB  - The paper presents developed 3Dnet-HET, a distributed hydrologic model coupled with the discrete channel network concept for groundwater circulation simulation in the karst environment. The hydrologic part is driven by the spatially distributed precipitation input and characteristic air temperatures to produce surface runoff and groundwater infiltration as a result. This represents input for the “horizontal water balance” module in which the groundwater flow is simulated by the system of discrete conduits representing known groundwater paths. In this study, the model is applied for simulation of the  Dabarsko polje water balance in Bosnia and Herzegovina, as well as the river Bregava catchment runoff. The model is firstly calibrated based on recorded water levels in the Dabarsko polje and flow discharges at the Bregava spring. Obtained model is utilized to analyze the Dabarsko polje water balance and possible effects of the planned hydropower plant “Dabar”. Results indicate a high flow variation and necessity of integrated real-time water management of the whole Trebišnjica system.
PB  - Springer
T2  - Environmental Earth Science
T1  - Distributed hydrological‑hydraulic modeling of the karst polje water balance
IS  - 15
SP  - 486
VL  - 78
DO  - 10.1007/s12665-019-8495-6
ER  - 

@article{
author = "Jaćimović, Nenad and Dašić, Tina and Stanić, Miloš and Milanović, Petar and Đorđević, Branislav",
year = "2019",
abstract = "The paper presents developed 3Dnet-HET, a distributed hydrologic model coupled with the discrete channel network concept for groundwater circulation simulation in the karst environment. The hydrologic part is driven by the spatially distributed precipitation input and characteristic air temperatures to produce surface runoff and groundwater infiltration as a result. This represents input for the “horizontal water balance” module in which the groundwater flow is simulated by the system of discrete conduits representing known groundwater paths. In this study, the model is applied for simulation of the  Dabarsko polje water balance in Bosnia and Herzegovina, as well as the river Bregava catchment runoff. The model is firstly calibrated based on recorded water levels in the Dabarsko polje and flow discharges at the Bregava spring. Obtained model is utilized to analyze the Dabarsko polje water balance and possible effects of the planned hydropower plant “Dabar”. Results indicate a high flow variation and necessity of integrated real-time water management of the whole Trebišnjica system.",
publisher = "Springer",
journal = "Environmental Earth Science",
title = "Distributed hydrological‑hydraulic modeling of the karst polje water balance",
number = "15",
pages = "486",
volume = "78",
doi = "10.1007/s12665-019-8495-6"
}

Jaćimović, N., Dašić, T., Stanić, M., Milanović, P.,& Đorđević, B.. (2019). Distributed hydrological‑hydraulic modeling of the karst polje water balance. in Environmental Earth Science
Springer., 78(15), 486.
https://doi.org/10.1007/s12665-019-8495-6

Jaćimović N, Dašić T, Stanić M, Milanović P, Đorđević B. Distributed hydrological‑hydraulic modeling of the karst polje water balance. in Environmental Earth Science. 2019;78(15):486.
doi:10.1007/s12665-019-8495-6 .

Jaćimović, Nenad, Dašić, Tina, Stanić, Miloš, Milanović, Petar, Đorđević, Branislav, "Distributed hydrological‑hydraulic modeling of the karst polje water balance" in Environmental Earth Science, 78, no. 15 (2019):486,
https://doi.org/10.1007/s12665-019-8495-6 . .