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 . .

TY  - CONF
AU  - Jaćimović, Nenad
AU  - Dašić, Tina
AU  - Stanić, Miloš
AU  - Sudar, Nedeljko
AU  - Milanović, Petar
AU  - Đorđević, Branislav
PY  - 2018
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2524
AB  - The paper presents results of the physically based, distributed hydrologic model for simulation of runoff in karst areas. The 3Dnet-HET model is developed for simulation of river Trebišnjica catchment, however, in this study it is applied for simulation of a long-term time series (50 years hydrological input) of the Dabarsko polje catchment, as well as the river Bregava catchment. 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 that water management of the whole Trebišnjica system will require an integrated real-time management.
PB  - Hydro-Energy Power Plant "Dabar", Trebinje
PB  - University of Belgrade, Faculty of Mining and Geology, Center for Karst Hydrogeology
C3  - Proceedings Karst 2018 - Expect the Unexpected, International Symposium
T1  - Water balance analysis of the karst polje by distributed hydrological modeling
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2524
ER  - 

@conference{
author = "Jaćimović, Nenad and Dašić, Tina and Stanić, Miloš and Sudar, Nedeljko and Milanović, Petar and Đorđević, Branislav",
year = "2018",
abstract = "The paper presents results of the physically based, distributed hydrologic model for simulation of runoff in karst areas. The 3Dnet-HET model is developed for simulation of river Trebišnjica catchment, however, in this study it is applied for simulation of a long-term time series (50 years hydrological input) of the Dabarsko polje catchment, as well as the river Bregava catchment. 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 that water management of the whole Trebišnjica system will require an integrated real-time management.",
publisher = "Hydro-Energy Power Plant "Dabar", Trebinje, University of Belgrade, Faculty of Mining and Geology, Center for Karst Hydrogeology",
journal = "Proceedings Karst 2018 - Expect the Unexpected, International Symposium",
title = "Water balance analysis of the karst polje by distributed hydrological modeling",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2524"
}

Jaćimović, N., Dašić, T., Stanić, M., Sudar, N., Milanović, P.,& Đorđević, B.. (2018). Water balance analysis of the karst polje by distributed hydrological modeling. in Proceedings Karst 2018 - Expect the Unexpected, International Symposium
Hydro-Energy Power Plant "Dabar", Trebinje..
https://hdl.handle.net/21.15107/rcub_grafar_2524

Jaćimović N, Dašić T, Stanić M, Sudar N, Milanović P, Đorđević B. Water balance analysis of the karst polje by distributed hydrological modeling. in Proceedings Karst 2018 - Expect the Unexpected, International Symposium. 2018;.
https://hdl.handle.net/21.15107/rcub_grafar_2524 .

Jaćimović, Nenad, Dašić, Tina, Stanić, Miloš, Sudar, Nedeljko, Milanović, Petar, Đorđević, Branislav, "Water balance analysis of the karst polje by distributed hydrological modeling" in Proceedings Karst 2018 - Expect the Unexpected, International Symposium (2018),
https://hdl.handle.net/21.15107/rcub_grafar_2524 .

TY  - JOUR
AU  - Dašić, Tina
AU  - Đorđević, Branislav
AU  - Milanović, Petar
AU  - Stanić, Miloš
AU  - Jaćimović, Nenad
AU  - Sudar, Nedeljko
PY  - 2016
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/750
AB  - Large systems as mines with open pits and thermal power plants are particularly sensitive to flooding. Outage of such systems (due to flooding of mines or threats to other vital elements of the system) cause serious consequences on the widest area, because the damage and interruptions of work impact on productive systems and settlements. It is therefore necessary to protect such systems against floods, including application of mathematical models, on two levels: (a) during the area management - to be able to sustain the extreme hydrological situation, (b) during the operational management of such systems in flood periods. Using methods of mathematical modeling both mentioned tasks are considered in the article, on the example of mines and termal power plant Gacko. Coupled mathematical model is developed and applied with two purposes: (a) to examine the hydrologichydraulic scenarios in the wider area of the system during the flood period, in order to arrange environment (embankments, retention basins) to protect the vital facilities, (b) to enable sugesting the best management decisions for the use of existing reservoirs and surface storage during the unfavorable hydrological situation by implementing software that uses information collected in real-time, in order to protect the most vital facilities of this important and very sensitive energy system.
AB  - Veliki sistemi kako što su rudnici sa otvorenim kopovima i termoelektrane posebno su osetljivi na plavljenje. Ispad iz pogona takvih sistema zbog plavljenja kopova i/ili ugrožavanja drugih vitalnih instalacija sistema - izaziva teške posledice na najširem prostoru, na nivou države, jer se štete i zastoji u radu lančano prenose na sve proizvodne sisteme i naselja. Zbog toga je neophodno da se zaštita takvih sistema od velikih voda veoma ozbiljno razmatra, primenom matematičkih modela, na dva nivoa: (a) tokom namenskog uređenja teritorije u okruženju sistema da mogu bez drastičnih posledica da izdrže ekstremne hidrološke situacije, (b) tokom operativnog upravljanja takvim sistemima u periodima velikih voda. U članku se na primeru rudnika i TE Gacko razmatraju mogućnosti realizacije oba zadatka primenom savremenih metoda matematičkog modeliranja. Razvijen je spregnuti matematički model koji, primenjen na RiTE Gacko, omogućava: (a) da se ispitaju hidrološko-hidraulički scenariji dešavanja u široj zoni tog sistema tokom pojave velikih voda, kako bi se sagledalo kako treba planski urediti šire okruženje (nasipi, retenzije) da ne bi došlo do ugrožavanja vitalnih objekata, (b) da se tokom odvijanja nepovoljne hidrološke situacije omogući da se upravljačkim softverom, uz korišćenje informacija koje se u realnom vremenu sakupljaju sa sliva, donose najpovoljnije upravljačke odluke za korišćenje postojećih akumulacija i retenzija, kako bi se zaštitili najvitalniji objekti tog važnog i vrlo osetljivog energetskog sistema.
PB  - Jugoslovensko društvo za odvodnjavanje i navodnjavanje, Beograd
T2  - Vodoprivreda
T1  - Methods for water management and area management in the zone of systems vulnerable to floods: The case study of mine and thermal power plant Gacko
T1  - Razvoj metoda za upravljanje vodama i uređenje teritorije u zoni sistema osetljivih na poplave - na primeru rudnika i termoelektrane Gacko
EP  - 146
IS  - 4-6
SP  - 137
VL  - 48
UR  - https://hdl.handle.net/21.15107/rcub_grafar_750
ER  - 

@article{
author = "Dašić, Tina and Đorđević, Branislav and Milanović, Petar and Stanić, Miloš and Jaćimović, Nenad and Sudar, Nedeljko",
year = "2016",
abstract = "Large systems as mines with open pits and thermal power plants are particularly sensitive to flooding. Outage of such systems (due to flooding of mines or threats to other vital elements of the system) cause serious consequences on the widest area, because the damage and interruptions of work impact on productive systems and settlements. It is therefore necessary to protect such systems against floods, including application of mathematical models, on two levels: (a) during the area management - to be able to sustain the extreme hydrological situation, (b) during the operational management of such systems in flood periods. Using methods of mathematical modeling both mentioned tasks are considered in the article, on the example of mines and termal power plant Gacko. Coupled mathematical model is developed and applied with two purposes: (a) to examine the hydrologichydraulic scenarios in the wider area of the system during the flood period, in order to arrange environment (embankments, retention basins) to protect the vital facilities, (b) to enable sugesting the best management decisions for the use of existing reservoirs and surface storage during the unfavorable hydrological situation by implementing software that uses information collected in real-time, in order to protect the most vital facilities of this important and very sensitive energy system., Veliki sistemi kako što su rudnici sa otvorenim kopovima i termoelektrane posebno su osetljivi na plavljenje. Ispad iz pogona takvih sistema zbog plavljenja kopova i/ili ugrožavanja drugih vitalnih instalacija sistema - izaziva teške posledice na najširem prostoru, na nivou države, jer se štete i zastoji u radu lančano prenose na sve proizvodne sisteme i naselja. Zbog toga je neophodno da se zaštita takvih sistema od velikih voda veoma ozbiljno razmatra, primenom matematičkih modela, na dva nivoa: (a) tokom namenskog uređenja teritorije u okruženju sistema da mogu bez drastičnih posledica da izdrže ekstremne hidrološke situacije, (b) tokom operativnog upravljanja takvim sistemima u periodima velikih voda. U članku se na primeru rudnika i TE Gacko razmatraju mogućnosti realizacije oba zadatka primenom savremenih metoda matematičkog modeliranja. Razvijen je spregnuti matematički model koji, primenjen na RiTE Gacko, omogućava: (a) da se ispitaju hidrološko-hidraulički scenariji dešavanja u široj zoni tog sistema tokom pojave velikih voda, kako bi se sagledalo kako treba planski urediti šire okruženje (nasipi, retenzije) da ne bi došlo do ugrožavanja vitalnih objekata, (b) da se tokom odvijanja nepovoljne hidrološke situacije omogući da se upravljačkim softverom, uz korišćenje informacija koje se u realnom vremenu sakupljaju sa sliva, donose najpovoljnije upravljačke odluke za korišćenje postojećih akumulacija i retenzija, kako bi se zaštitili najvitalniji objekti tog važnog i vrlo osetljivog energetskog sistema.",
publisher = "Jugoslovensko društvo za odvodnjavanje i navodnjavanje, Beograd",
journal = "Vodoprivreda",
title = "Methods for water management and area management in the zone of systems vulnerable to floods: The case study of mine and thermal power plant Gacko, Razvoj metoda za upravljanje vodama i uređenje teritorije u zoni sistema osetljivih na poplave - na primeru rudnika i termoelektrane Gacko",
pages = "146-137",
number = "4-6",
volume = "48",
url = "https://hdl.handle.net/21.15107/rcub_grafar_750"
}

Dašić, T., Đorđević, B., Milanović, P., Stanić, M., Jaćimović, N.,& Sudar, N.. (2016). Methods for water management and area management in the zone of systems vulnerable to floods: The case study of mine and thermal power plant Gacko. in Vodoprivreda
Jugoslovensko društvo za odvodnjavanje i navodnjavanje, Beograd., 48(4-6), 137-146.
https://hdl.handle.net/21.15107/rcub_grafar_750

Dašić T, Đorđević B, Milanović P, Stanić M, Jaćimović N, Sudar N. Methods for water management and area management in the zone of systems vulnerable to floods: The case study of mine and thermal power plant Gacko. in Vodoprivreda. 2016;48(4-6):137-146.
https://hdl.handle.net/21.15107/rcub_grafar_750 .

Dašić, Tina, Đorđević, Branislav, Milanović, Petar, Stanić, Miloš, Jaćimović, Nenad, Sudar, Nedeljko, "Methods for water management and area management in the zone of systems vulnerable to floods: The case study of mine and thermal power plant Gacko" in Vodoprivreda, 48, no. 4-6 (2016):137-146,
https://hdl.handle.net/21.15107/rcub_grafar_750 .

TY  - JOUR
AU  - Jaćimović, Nenad
AU  - Dašić, Tina
AU  - Stanić, Miloš
AU  - Đorđević, Branislav
AU  - Milanović, Petar
AU  - Sudar, Nedeljko
AU  - Savić, Slaviša
PY  - 2015
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/704
AB  - The hydrological mathematical models for modeling the genesis of runoff in the basin become considerably more complex in terms of the highly karstified basins, in which the dominant component of sinking and flow through underground karst hydrography. The paper presents application of physically based, distributed hydrologic model for simulation of runoff at karst terrains. The 3Dnet-HET model is developed for simulation of river Trebisnjica catchment, however, in this study it is applied for simulation of time series at the Dabarsko polje catchment, as well as river Bregava catchment. Developed model is completely based on physical relations, which describe transformation of rainfall into surface and groundwater runoff. Functionally, it is divided into two modules. The first one computes the vertical water balance with precipitation and meteorological parameters as the model input, while the second part simulates the 'horizontal' water balance as the water circulation through the karst environment. The model has proven very successful and applicable to the analysis of the genesis of the flow in terms of karst, because analyze with periods on the monitoring showed very good agreement recorded and modeled hydrological series. The model is suitable for solving the tasks of planning, and is particularly valuable in terms of the exploitation of the system, provided that they ensure good and very operational support measurement and information system (delivery of data on rainfall, etc.).
AB  - Hidrološki matematički modeli za modeliranje režima oticaja na slivovima postaju znatno složeniji u uslovima slivova u karstnim terenima, kod kojih je dominantna komponenta poniranja i tečenja kroz podzemnu karstnu hidrografsku mrežu. U članku se razmatra primena fizički zasnovanog, distribuiranog hidrološkog modela za simulaciju oticaja na slivovima u karstu. Model 3Dnet-HET je razvijen za simulaciju oticaja na slivu reke Trebišnjice, u uslovima veoma karstifikovanog terena, sa karstnim poljima, a proveravan je i tariran simulacijama na slivu Dabarskog polja i reke Bregave. Razvijeni model je u potpunosti zasnovan na fizičkim zakonitostima kojima se opisuje transformacija padavina u površinski i podzemni oticaj. Proračun transformacije padavina u oticaj je funkcionalno podeljen na dva osnovna dela, gde izlaz iz prvog dela predstavlja ulaz u drugi. U prvom delu simulira se vertikalno kretanje vode i formiranje podzemnog i površinskog oticaja, na osnovu padavina i meteoroloških uslova kao ulaznih parametara. Drugi deo razvijenog hidrološkog modela predstavlja (uslovno horizontalno) kretanje vode u karstnoj sredini. Model se pokazao vrlo uspešnim i primenljivim za analize geneze protoka u uslovima karsta, jer su analize tariranja sa periodima izvršenih osmatranja pokazali vrlo dobro slaganje zabeleženih i modeliranih hidroloških serija. Model je pogodan i za rešavanje zadataka planiranja, a posebno je dragocen u uslovima eksploatacije sistema, pod uslovom da se obezbedi dobra i operativna podrška mernim i informacionim sistemom (brza dostava podataka o padavinama, itd.).
PB  - Jugoslovensko društvo za odvodnjavanje i navodnjavanje, Beograd
T2  - Vodoprivreda
T1  - Distributed hydrologic model for runoff simulation in karst basin
T1  - Razvoj distribuiranog modela za hidrološke simulacije oticaja na slivovima u karstu
EP  - 40
IS  - 1-3
SP  - 29
VL  - 47
UR  - https://hdl.handle.net/21.15107/rcub_grafar_704
ER  - 

@article{
author = "Jaćimović, Nenad and Dašić, Tina and Stanić, Miloš and Đorđević, Branislav and Milanović, Petar and Sudar, Nedeljko and Savić, Slaviša",
year = "2015",
abstract = "The hydrological mathematical models for modeling the genesis of runoff in the basin become considerably more complex in terms of the highly karstified basins, in which the dominant component of sinking and flow through underground karst hydrography. The paper presents application of physically based, distributed hydrologic model for simulation of runoff at karst terrains. The 3Dnet-HET model is developed for simulation of river Trebisnjica catchment, however, in this study it is applied for simulation of time series at the Dabarsko polje catchment, as well as river Bregava catchment. Developed model is completely based on physical relations, which describe transformation of rainfall into surface and groundwater runoff. Functionally, it is divided into two modules. The first one computes the vertical water balance with precipitation and meteorological parameters as the model input, while the second part simulates the 'horizontal' water balance as the water circulation through the karst environment. The model has proven very successful and applicable to the analysis of the genesis of the flow in terms of karst, because analyze with periods on the monitoring showed very good agreement recorded and modeled hydrological series. The model is suitable for solving the tasks of planning, and is particularly valuable in terms of the exploitation of the system, provided that they ensure good and very operational support measurement and information system (delivery of data on rainfall, etc.)., Hidrološki matematički modeli za modeliranje režima oticaja na slivovima postaju znatno složeniji u uslovima slivova u karstnim terenima, kod kojih je dominantna komponenta poniranja i tečenja kroz podzemnu karstnu hidrografsku mrežu. U članku se razmatra primena fizički zasnovanog, distribuiranog hidrološkog modela za simulaciju oticaja na slivovima u karstu. Model 3Dnet-HET je razvijen za simulaciju oticaja na slivu reke Trebišnjice, u uslovima veoma karstifikovanog terena, sa karstnim poljima, a proveravan je i tariran simulacijama na slivu Dabarskog polja i reke Bregave. Razvijeni model je u potpunosti zasnovan na fizičkim zakonitostima kojima se opisuje transformacija padavina u površinski i podzemni oticaj. Proračun transformacije padavina u oticaj je funkcionalno podeljen na dva osnovna dela, gde izlaz iz prvog dela predstavlja ulaz u drugi. U prvom delu simulira se vertikalno kretanje vode i formiranje podzemnog i površinskog oticaja, na osnovu padavina i meteoroloških uslova kao ulaznih parametara. Drugi deo razvijenog hidrološkog modela predstavlja (uslovno horizontalno) kretanje vode u karstnoj sredini. Model se pokazao vrlo uspešnim i primenljivim za analize geneze protoka u uslovima karsta, jer su analize tariranja sa periodima izvršenih osmatranja pokazali vrlo dobro slaganje zabeleženih i modeliranih hidroloških serija. Model je pogodan i za rešavanje zadataka planiranja, a posebno je dragocen u uslovima eksploatacije sistema, pod uslovom da se obezbedi dobra i operativna podrška mernim i informacionim sistemom (brza dostava podataka o padavinama, itd.).",
publisher = "Jugoslovensko društvo za odvodnjavanje i navodnjavanje, Beograd",
journal = "Vodoprivreda",
title = "Distributed hydrologic model for runoff simulation in karst basin, Razvoj distribuiranog modela za hidrološke simulacije oticaja na slivovima u karstu",
pages = "40-29",
number = "1-3",
volume = "47",
url = "https://hdl.handle.net/21.15107/rcub_grafar_704"
}

Jaćimović, N., Dašić, T., Stanić, M., Đorđević, B., Milanović, P., Sudar, N.,& Savić, S.. (2015). Distributed hydrologic model for runoff simulation in karst basin. in Vodoprivreda
Jugoslovensko društvo za odvodnjavanje i navodnjavanje, Beograd., 47(1-3), 29-40.
https://hdl.handle.net/21.15107/rcub_grafar_704

Jaćimović N, Dašić T, Stanić M, Đorđević B, Milanović P, Sudar N, Savić S. Distributed hydrologic model for runoff simulation in karst basin. in Vodoprivreda. 2015;47(1-3):29-40.
https://hdl.handle.net/21.15107/rcub_grafar_704 .

Jaćimović, Nenad, Dašić, Tina, Stanić, Miloš, Đorđević, Branislav, Milanović, Petar, Sudar, Nedeljko, Savić, Slaviša, "Distributed hydrologic model for runoff simulation in karst basin" in Vodoprivreda, 47, no. 1-3 (2015):29-40,
https://hdl.handle.net/21.15107/rcub_grafar_704 .

TY  - JOUR
AU  - Milanović, Petar
AU  - Glišić, Radmilo
AU  - Đorđević, Branislav
AU  - Dašić, Tina
AU  - Sudar, Nedeljko
PY  - 2012
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/433
AB  - The Trebišnjica Hydrosystem is one of the most complex development projects in that part of Europe known as the Dinaric Karst area. In this area, water is the only important and valuable natural resource and base for regional economic development. However, the proper planning and construction of water resource systems in any karst region, including Eastern Herzegovina, contains an inherent risk component. Situated in the area of Eastern Herzegovina, the Trebišnjica Hydrosystem consists of seven dams, six artificial reservoirs, six tunnels, and four channels. The ultimate aim of the Hydrosystem is to provide multi-purpose use of water resources from an elevation of 900 m a.s.l. to the sea level. Upon full completion, the natural regime of surface and groundwater will be completely changed on both a local and regional scale. The important issue for the future is how to keep the balance between the necessity for regional development and the preservation of the unpredictable and complex ecological system of Eastern Herzegovina. Construction of the Trebišnjica Hydrosystem started in 1959. A large part of the Hydrosystem is already operational. After many years pending the construction of the final stage of the Trebišnjca Hydrosystem, the so called 'Upper Horizons' have just started. The key structures of the 'Upper Horizons' are: PP Dabar, PP Nevesinje and PP Bileća, including the reservoirs Zalomka and Nevesinje. The main purpose of this part of the Trebišnjica Hydrosystem is socio-economic development of this area of Eastern Herzegovina (Nevesinje, Dabar, Stolac and Dubrave areas). To achieve this goal, the optimal use of regional water resources is necessary i.e. the Hydrosystem requires the transfer of 30% of water from the catchments of the Buna, Bunica and Bregava springs (Neretva River) to the direction of the already operational part of the Hydrosystem (Trebišnjica River catchment). The main natural properties of these springs are: Buna: Qmi^SnrVs, Qmax=380 m3/s, Qav=24 m3/s; Bunica: Qmin=0.72 m3/s, Qmax=207 m3/s, Qav=21 m3/s; Bregava: Qmin=0.4 m3/s, Qmax=59 m3/s, Qav=17.5 m3/s. After the transferred waters are used at the power-plants Trebinje 1, Trebinje 2 and Čapljina, it then has to be returned to the Neretva River to a point upstream of Metković town. The quantity of transferred waters is ten time less than Neretva average annual flow upstream from the confluence Neretva / Buna River. From the very beginning appears the crucial question of the possible environmental impact as a consequence of these changes to the natural water regime in the area of the 'Upper Horizons' and the previously mentioned springs. Changes in the flow regime of springs as a consequence of water re-routing in other directions often creates conflicts between the owners of reservoirs and the users of springs, particularly if it is a transboundary problem. To avoid possible conflicts, and to provide the sustainable and peaceful management of transboundary waters the designers of the Hydrosystem undertook a series of long lasting and complex hydrogeological/hydrological investigation programmes with the close co-operation of a wide spectrum of scientists and engineers. As often as possible, analyses included the application of a few independent mathematical models adapted to the complicated nature of the karst area (1985, 2003/04 and 2009). All hydrogeological and hydrological analyses and applied mathematical models confirmed that the integrity of the Buna, Bunica and Bregava springs would not be endangered as a result of part of its water being re­routed in the direction of the Trebišnjica catchment. Results of all analyses confirmed that the consequences of water transfer would be negligible on the Buna Spring discharge and without any practical negative consequence. In the case of the Bunica Spring the maximal flow (high precipitation period of year) would be reduced to about 70%, however in the period of low flow (dry period of year) a negative influence of water transfer is not possible. A similar result is applicable in the case of the Bregava sinking river. During operation of PP Dabar, as part of the 'Upper Horizons', a considerable decrease of the Bregava flow is to be expected as a consequence during the high precipitation period. This means that extreme flows (floods) in the Stolac urban area would be eliminated. According to the design solutions, the geotechnical measures are foreseen to improve water-tightness of the Bregava river bed, with the consequence that the flow in the dry period in the area of Stolac town, would increase to 3 to 5 times of that in its natural condition. At the same time, this improvement of the minimal flow of the Bregava would have a positive influence on the critical minimal inflow into the Hutovo Blato Nature Park. In most instances, the impact of the 'Upper Horizons' is positive, offering irrigation, flood reduction, water supply improvement, power production, infrastructure improvement, increasing of minimal river flow, reduction of deforestation, recreation and many secondary benefits. As a consequence of any human activities and engineering construction in karst areas, some negative impacts are unavoidable. However, the major aim in the planning of the entire Trebišnjica Hydrosystem is to minimize the negative and to maximize the positive environmental impacts.
AB  - Vodoprivredni 'Hidrosistem Trebišnjica', planiran kao sistem u etapnom razvoju, ušao je u završnu etapu izgradnjom Gornjih horizonta. Na taj način sistem postaje jedan od najvećih integralnih razvojnih projekata u ovom delu Evrope, sa brojnim ekonomsko-razvojnim, socijalnim, vodoprivrednim, energetskim, ekološkim, urbanim i drugim ciljevima. Pošto se sistem realizuje u jednom od najizraženijih karstnih područja Dinarida, jedno od centralnih pitanja koja su postavljena u fazi njegovog planiranja je pitanje hidroloških i ekoloških uticaja tog sistema na reke Bunu, Bunicu i Bregavu, ekološki veoma značajne pritoke reke Neretve. To pitanje je odavno fokusirano i u javnosti, sa zahtevom da se detaljno ispita uticaj sistema na vodne režime pomenutih vodotoka, posebno u periodu malih voda. U članku su, pored rezultata višegodišnjih istraživanja i analiza, prikazani ključni rezultati sudije iz 2009. (Energoprojekt Beograd i Zavod za vodoprivredu, Bijeljina). Nakon analize padavina, hidrogeoloških fenomena pravaca kretanja podzemnih voda i analiza hidroloških serija dnevnih protoka, urađeni su matematički modeli (klasa ARMA modela, homomorfne simulacije), koji pokazuju da se mogu uspostaviti vrlo pouzdane matematičke zavisnosti između dnevnih protoka na kontrolnim profilima na pomenute tri reke (tražena veličina), dnevnih padavina u pojedinim hidrogeološkim zonama i protoka u više uzastopnih prethodnih dana na pojedinim hidrološkim profilima. Vrlo visoki koeficijenti korelacije (0,96÷0,99) modeliranjem dobijenih i izmerenih vrednosti dnevnih protoka na pomenute tri reke pokazuju da se vrlo pouzdano može apriorno predvideti kakvi se hidrološki uticaji mogu očekivati nakon realizacije Gornjih horizonata (akumulacije, kanalske i tunelske derivacije). Zaključuje se da se velike i srednje vode smanjuju, jer se deo protoka akumuliše i usmerava prema već izgrađenom delu Hidrosistema Trebišnjica. Projektom Gornjih horizonata planira se prevođenje oko 30% (20 m3/s) voda slivova Bune i Bregave u već izgrađeni deo Hidrosistema Trebišnjica. To je deset puta manje u odnosu na srednji godišnji prirodni proticaj Neretve u Mostara (197,4 m3/s). To je manje je i od najmanje izmerenih proticaja Neretve u Mostaru (32 m3/s) s tim što tada (sušni period) na Gornjim horizontima nema vode za prevođenje. U tom periodu dotok u Neretvu sa područja Gornjih horizonata je takođe deset puta manji od proticaja Neretve. Interesantan je i podatak da je srednji godišnji prirodni proticaj Neretve, neposredno nizvodno od ušća Bune, 250,7 m3/s (Pavlović M. & Pavlović M.) što je dvanaest puta više od količina planiranih za prevođenje. Prema 'Okvirnoj vodoprivrednoj osnovi BiH' (1994) Qsr kod Žitomislića je 233 m3/s što je takođe u granicama gore pomenutih odnosa. Nakon energetskog iskorišćenja prevedenih voda na postojećim elektranama (HE Trebinje 1, HE Trebinje 2 i PHE Čapljina) ove vode se vraćaju u Neretvu kroz ustavu Krupa, uzvodno od Metkovića. Akumulacije Gornjih horizonata (Zalomka i Nevesinje) omogućuju da se u slučajevima ekstremnih padavina ublaži poplavni talas na podračju Čapljine i Metkovića, a u sušnom periodu povećaju protoci Neretve u Metkoviću i nizvodno. Nakon izgradnje Gornjih horizonata oko 65% voda Bune, Bunice i Bregave ostaje u prirodnom režimu i na njih se ne može uticati bilo kakvim tehničkim merama. Najvažniji je zaključak da se ne menjaju režimi malih voda, koji su i najvažniji za procenu ekoloških uticaja. Takođe, zaključuje se da se male vode Bregave na potezu kroz Stolac mogu poboljšati odgovarajućim geotehničkim merama regulacije korita, sprečavanjem poniranja u karstifikovanom koritu upravo u toj zoni. Smanjenja velikih voda razmatranih pritoka Neretve se može tretirati kao pozitivan uticaj sistema Gornjih horizonata, jer se za toliko smanjuje povodanj u donjem toku Neretve.Opšti zaključak je da su hidrološki i ekološki uticaji planiranog sistem Gornji horizonti bitno i preovlađujuće pozitivni i da se sa određenim radovima režimi malih voda mogu i poboljšati na Bregavi u urbanom delu Stoca.
PB  - Jugoslovensko društvo za odvodnjavanje i navodnjavanje, Beograd
T2  - Vodoprivreda
T1  - Impacts of partial water re-routing from the Buna and Bregava catchments in the catchment of Trebišnjica river
T1  - Uticaj delimičnog prevođenja voda iz slivova Bune i Bregave u sliv Trebišnjice
EP  - 23
IS  - 1-3
SP  - 3
VL  - 44
UR  - https://hdl.handle.net/21.15107/rcub_grafar_433
ER  - 

@article{
author = "Milanović, Petar and Glišić, Radmilo and Đorđević, Branislav and Dašić, Tina and Sudar, Nedeljko",
year = "2012",
abstract = "The Trebišnjica Hydrosystem is one of the most complex development projects in that part of Europe known as the Dinaric Karst area. In this area, water is the only important and valuable natural resource and base for regional economic development. However, the proper planning and construction of water resource systems in any karst region, including Eastern Herzegovina, contains an inherent risk component. Situated in the area of Eastern Herzegovina, the Trebišnjica Hydrosystem consists of seven dams, six artificial reservoirs, six tunnels, and four channels. The ultimate aim of the Hydrosystem is to provide multi-purpose use of water resources from an elevation of 900 m a.s.l. to the sea level. Upon full completion, the natural regime of surface and groundwater will be completely changed on both a local and regional scale. The important issue for the future is how to keep the balance between the necessity for regional development and the preservation of the unpredictable and complex ecological system of Eastern Herzegovina. Construction of the Trebišnjica Hydrosystem started in 1959. A large part of the Hydrosystem is already operational. After many years pending the construction of the final stage of the Trebišnjca Hydrosystem, the so called 'Upper Horizons' have just started. The key structures of the 'Upper Horizons' are: PP Dabar, PP Nevesinje and PP Bileća, including the reservoirs Zalomka and Nevesinje. The main purpose of this part of the Trebišnjica Hydrosystem is socio-economic development of this area of Eastern Herzegovina (Nevesinje, Dabar, Stolac and Dubrave areas). To achieve this goal, the optimal use of regional water resources is necessary i.e. the Hydrosystem requires the transfer of 30% of water from the catchments of the Buna, Bunica and Bregava springs (Neretva River) to the direction of the already operational part of the Hydrosystem (Trebišnjica River catchment). The main natural properties of these springs are: Buna: Qmi^SnrVs, Qmax=380 m3/s, Qav=24 m3/s; Bunica: Qmin=0.72 m3/s, Qmax=207 m3/s, Qav=21 m3/s; Bregava: Qmin=0.4 m3/s, Qmax=59 m3/s, Qav=17.5 m3/s. After the transferred waters are used at the power-plants Trebinje 1, Trebinje 2 and Čapljina, it then has to be returned to the Neretva River to a point upstream of Metković town. The quantity of transferred waters is ten time less than Neretva average annual flow upstream from the confluence Neretva / Buna River. From the very beginning appears the crucial question of the possible environmental impact as a consequence of these changes to the natural water regime in the area of the 'Upper Horizons' and the previously mentioned springs. Changes in the flow regime of springs as a consequence of water re-routing in other directions often creates conflicts between the owners of reservoirs and the users of springs, particularly if it is a transboundary problem. To avoid possible conflicts, and to provide the sustainable and peaceful management of transboundary waters the designers of the Hydrosystem undertook a series of long lasting and complex hydrogeological/hydrological investigation programmes with the close co-operation of a wide spectrum of scientists and engineers. As often as possible, analyses included the application of a few independent mathematical models adapted to the complicated nature of the karst area (1985, 2003/04 and 2009). All hydrogeological and hydrological analyses and applied mathematical models confirmed that the integrity of the Buna, Bunica and Bregava springs would not be endangered as a result of part of its water being re­routed in the direction of the Trebišnjica catchment. Results of all analyses confirmed that the consequences of water transfer would be negligible on the Buna Spring discharge and without any practical negative consequence. In the case of the Bunica Spring the maximal flow (high precipitation period of year) would be reduced to about 70%, however in the period of low flow (dry period of year) a negative influence of water transfer is not possible. A similar result is applicable in the case of the Bregava sinking river. During operation of PP Dabar, as part of the 'Upper Horizons', a considerable decrease of the Bregava flow is to be expected as a consequence during the high precipitation period. This means that extreme flows (floods) in the Stolac urban area would be eliminated. According to the design solutions, the geotechnical measures are foreseen to improve water-tightness of the Bregava river bed, with the consequence that the flow in the dry period in the area of Stolac town, would increase to 3 to 5 times of that in its natural condition. At the same time, this improvement of the minimal flow of the Bregava would have a positive influence on the critical minimal inflow into the Hutovo Blato Nature Park. In most instances, the impact of the 'Upper Horizons' is positive, offering irrigation, flood reduction, water supply improvement, power production, infrastructure improvement, increasing of minimal river flow, reduction of deforestation, recreation and many secondary benefits. As a consequence of any human activities and engineering construction in karst areas, some negative impacts are unavoidable. However, the major aim in the planning of the entire Trebišnjica Hydrosystem is to minimize the negative and to maximize the positive environmental impacts., Vodoprivredni 'Hidrosistem Trebišnjica', planiran kao sistem u etapnom razvoju, ušao je u završnu etapu izgradnjom Gornjih horizonta. Na taj način sistem postaje jedan od najvećih integralnih razvojnih projekata u ovom delu Evrope, sa brojnim ekonomsko-razvojnim, socijalnim, vodoprivrednim, energetskim, ekološkim, urbanim i drugim ciljevima. Pošto se sistem realizuje u jednom od najizraženijih karstnih područja Dinarida, jedno od centralnih pitanja koja su postavljena u fazi njegovog planiranja je pitanje hidroloških i ekoloških uticaja tog sistema na reke Bunu, Bunicu i Bregavu, ekološki veoma značajne pritoke reke Neretve. To pitanje je odavno fokusirano i u javnosti, sa zahtevom da se detaljno ispita uticaj sistema na vodne režime pomenutih vodotoka, posebno u periodu malih voda. U članku su, pored rezultata višegodišnjih istraživanja i analiza, prikazani ključni rezultati sudije iz 2009. (Energoprojekt Beograd i Zavod za vodoprivredu, Bijeljina). Nakon analize padavina, hidrogeoloških fenomena pravaca kretanja podzemnih voda i analiza hidroloških serija dnevnih protoka, urađeni su matematički modeli (klasa ARMA modela, homomorfne simulacije), koji pokazuju da se mogu uspostaviti vrlo pouzdane matematičke zavisnosti između dnevnih protoka na kontrolnim profilima na pomenute tri reke (tražena veličina), dnevnih padavina u pojedinim hidrogeološkim zonama i protoka u više uzastopnih prethodnih dana na pojedinim hidrološkim profilima. Vrlo visoki koeficijenti korelacije (0,96÷0,99) modeliranjem dobijenih i izmerenih vrednosti dnevnih protoka na pomenute tri reke pokazuju da se vrlo pouzdano može apriorno predvideti kakvi se hidrološki uticaji mogu očekivati nakon realizacije Gornjih horizonata (akumulacije, kanalske i tunelske derivacije). Zaključuje se da se velike i srednje vode smanjuju, jer se deo protoka akumuliše i usmerava prema već izgrađenom delu Hidrosistema Trebišnjica. Projektom Gornjih horizonata planira se prevođenje oko 30% (20 m3/s) voda slivova Bune i Bregave u već izgrađeni deo Hidrosistema Trebišnjica. To je deset puta manje u odnosu na srednji godišnji prirodni proticaj Neretve u Mostara (197,4 m3/s). To je manje je i od najmanje izmerenih proticaja Neretve u Mostaru (32 m3/s) s tim što tada (sušni period) na Gornjim horizontima nema vode za prevođenje. U tom periodu dotok u Neretvu sa područja Gornjih horizonata je takođe deset puta manji od proticaja Neretve. Interesantan je i podatak da je srednji godišnji prirodni proticaj Neretve, neposredno nizvodno od ušća Bune, 250,7 m3/s (Pavlović M. & Pavlović M.) što je dvanaest puta više od količina planiranih za prevođenje. Prema 'Okvirnoj vodoprivrednoj osnovi BiH' (1994) Qsr kod Žitomislića je 233 m3/s što je takođe u granicama gore pomenutih odnosa. Nakon energetskog iskorišćenja prevedenih voda na postojećim elektranama (HE Trebinje 1, HE Trebinje 2 i PHE Čapljina) ove vode se vraćaju u Neretvu kroz ustavu Krupa, uzvodno od Metkovića. Akumulacije Gornjih horizonata (Zalomka i Nevesinje) omogućuju da se u slučajevima ekstremnih padavina ublaži poplavni talas na podračju Čapljine i Metkovića, a u sušnom periodu povećaju protoci Neretve u Metkoviću i nizvodno. Nakon izgradnje Gornjih horizonata oko 65% voda Bune, Bunice i Bregave ostaje u prirodnom režimu i na njih se ne može uticati bilo kakvim tehničkim merama. Najvažniji je zaključak da se ne menjaju režimi malih voda, koji su i najvažniji za procenu ekoloških uticaja. Takođe, zaključuje se da se male vode Bregave na potezu kroz Stolac mogu poboljšati odgovarajućim geotehničkim merama regulacije korita, sprečavanjem poniranja u karstifikovanom koritu upravo u toj zoni. Smanjenja velikih voda razmatranih pritoka Neretve se može tretirati kao pozitivan uticaj sistema Gornjih horizonata, jer se za toliko smanjuje povodanj u donjem toku Neretve.Opšti zaključak je da su hidrološki i ekološki uticaji planiranog sistem Gornji horizonti bitno i preovlađujuće pozitivni i da se sa određenim radovima režimi malih voda mogu i poboljšati na Bregavi u urbanom delu Stoca.",
publisher = "Jugoslovensko društvo za odvodnjavanje i navodnjavanje, Beograd",
journal = "Vodoprivreda",
title = "Impacts of partial water re-routing from the Buna and Bregava catchments in the catchment of Trebišnjica river, Uticaj delimičnog prevođenja voda iz slivova Bune i Bregave u sliv Trebišnjice",
pages = "23-3",
number = "1-3",
volume = "44",
url = "https://hdl.handle.net/21.15107/rcub_grafar_433"
}

Milanović, P., Glišić, R., Đorđević, B., Dašić, T.,& Sudar, N.. (2012). Impacts of partial water re-routing from the Buna and Bregava catchments in the catchment of Trebišnjica river. in Vodoprivreda
Jugoslovensko društvo za odvodnjavanje i navodnjavanje, Beograd., 44(1-3), 3-23.
https://hdl.handle.net/21.15107/rcub_grafar_433

Milanović P, Glišić R, Đorđević B, Dašić T, Sudar N. Impacts of partial water re-routing from the Buna and Bregava catchments in the catchment of Trebišnjica river. in Vodoprivreda. 2012;44(1-3):3-23.
https://hdl.handle.net/21.15107/rcub_grafar_433 .

Milanović, Petar, Glišić, Radmilo, Đorđević, Branislav, Dašić, Tina, Sudar, Nedeljko, "Impacts of partial water re-routing from the Buna and Bregava catchments in the catchment of Trebišnjica river" in Vodoprivreda, 44, no. 1-3 (2012):3-23,
https://hdl.handle.net/21.15107/rcub_grafar_433 .