TY  - JOUR
AU  - Bajkin, Andjelko
AU  - Ponjičan, Ondrej
AU  - Dimitrijević, Aleksandra
AU  - Zoranović, Miodrag
AU  - Radojčin, Milivoj
PY  - 2013
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/3360
AB  - Influence the direction rotor rotary tiller on the ecological aspects of soil tillage was investigated under field conditions. Quality of soil tillage was determined by measuring the bulk density and the structure coefficient. Bulk density the tilled soil ranged from 1.015 to 1.186 g/cm3 at stubble field, 0.990 to 1.151 g/cm3 at soybean field and 0.995 to 1.066 g/cm3 at ploughed field. For conventional rotor rotation direction measured significantly lower values of bulk density at 5-10 cm depth testing done on soybean field. The lower value of bulk density in conventional rotor rotation direction result of excessive fragmentation of soil in greater depth. Soil tillage was a statistically significant increase in the value of the structure coefficient. After soil tillage, the structure coefficient values ranged from 0.68 to 2.22 at stubble field, 0.78 to 1.84 at soybean field and 1.16 to 2.64 at ploughed field. The higher the value of the structure coefficient represents higher quality of soil cultivation. In the case of reverse rotor rotation direction, measured significantly higher structure coefficient values compared to conventional rotor rotation direction.
AB  - Uticaj smera obrtanja rotora rotacione sitnilice na ekološke aspekte obrade zemljišta ispitivan je u poljskim uslovima. Kvalitet obrade zemljišta određen je merenjem zapreminske mase i koeficijenta strukturnosti zemljišta. Zapreminska masa na obrađenom zemljištu kretala se u granicama 1,015-1,186 g/cm3 na strništu, 0,990-1,151 g/cm3 na sojištu i 0,995-1,066 g/cm3 na oranom zemljištu. Za istosmerno obrtanje rotora izmerene su statistički značajno niže vrednosti zapreminske mase na dubini 5-10 cm za ispitivanje izvedeno na sojištu. Niža vrednost zapreminske mase zemljišta pri istosmernom obrtanju posledica je prekomernog usitnjavanja zemljišta na većoj dubini. Obradom zemljišta došlo je do statistički značajnog povećanja vrednosti koeficijenta strukturnosti zemljišta. Nakon obrade zemljišta vrednosti koeficijenta strukturnosti kretale su se u granicama 0,68-2,22 na strništu, 0,78-1,84 na sojištu i 1,16-2,64 na oranom zemljištu. Viša vrednost koeficijenta strukturnosti predstavlja viši kvalitet obrade zemljišta. Pri suprotnosmernom obrtanju rotora, izmerene su statistički značajno više vrednosti koeficijenta strukturnosti u odnosu na istosmerno obrtanje rotora.
PB  - Naučno društvo za pogonske mašine, traktore i održavanje, Novi Sad i Univerzitet u Novom Sadu - Poljoprivredni fakultet - Institut za poljoprivrednu tehniku, Novi Sad
T2  - Traktori i pogonske mašine
T1  - Influence the rotary tiller rotor rotation direction on soil tillage ecological aspects
T1  - Uticaja smera obrtanja rotora rotacione sitnilice na ekološke aspekte obrade zemljišta
EP  - 15
IS  - 4
SP  - 7
VL  - 18
UR  - https://hdl.handle.net/21.15107/rcub_agrospace_3360
ER  - 

@article{
author = "Bajkin, Andjelko and Ponjičan, Ondrej and Dimitrijević, Aleksandra and Zoranović, Miodrag and Radojčin, Milivoj",
year = "2013",
abstract = "Influence the direction rotor rotary tiller on the ecological aspects of soil tillage was investigated under field conditions. Quality of soil tillage was determined by measuring the bulk density and the structure coefficient. Bulk density the tilled soil ranged from 1.015 to 1.186 g/cm3 at stubble field, 0.990 to 1.151 g/cm3 at soybean field and 0.995 to 1.066 g/cm3 at ploughed field. For conventional rotor rotation direction measured significantly lower values of bulk density at 5-10 cm depth testing done on soybean field. The lower value of bulk density in conventional rotor rotation direction result of excessive fragmentation of soil in greater depth. Soil tillage was a statistically significant increase in the value of the structure coefficient. After soil tillage, the structure coefficient values ranged from 0.68 to 2.22 at stubble field, 0.78 to 1.84 at soybean field and 1.16 to 2.64 at ploughed field. The higher the value of the structure coefficient represents higher quality of soil cultivation. In the case of reverse rotor rotation direction, measured significantly higher structure coefficient values compared to conventional rotor rotation direction., Uticaj smera obrtanja rotora rotacione sitnilice na ekološke aspekte obrade zemljišta ispitivan je u poljskim uslovima. Kvalitet obrade zemljišta određen je merenjem zapreminske mase i koeficijenta strukturnosti zemljišta. Zapreminska masa na obrađenom zemljištu kretala se u granicama 1,015-1,186 g/cm3 na strništu, 0,990-1,151 g/cm3 na sojištu i 0,995-1,066 g/cm3 na oranom zemljištu. Za istosmerno obrtanje rotora izmerene su statistički značajno niže vrednosti zapreminske mase na dubini 5-10 cm za ispitivanje izvedeno na sojištu. Niža vrednost zapreminske mase zemljišta pri istosmernom obrtanju posledica je prekomernog usitnjavanja zemljišta na većoj dubini. Obradom zemljišta došlo je do statistički značajnog povećanja vrednosti koeficijenta strukturnosti zemljišta. Nakon obrade zemljišta vrednosti koeficijenta strukturnosti kretale su se u granicama 0,68-2,22 na strništu, 0,78-1,84 na sojištu i 1,16-2,64 na oranom zemljištu. Viša vrednost koeficijenta strukturnosti predstavlja viši kvalitet obrade zemljišta. Pri suprotnosmernom obrtanju rotora, izmerene su statistički značajno više vrednosti koeficijenta strukturnosti u odnosu na istosmerno obrtanje rotora.",
publisher = "Naučno društvo za pogonske mašine, traktore i održavanje, Novi Sad i Univerzitet u Novom Sadu - Poljoprivredni fakultet - Institut za poljoprivrednu tehniku, Novi Sad",
journal = "Traktori i pogonske mašine",
title = "Influence the rotary tiller rotor rotation direction on soil tillage ecological aspects, Uticaja smera obrtanja rotora rotacione sitnilice na ekološke aspekte obrade zemljišta",
pages = "15-7",
number = "4",
volume = "18",
url = "https://hdl.handle.net/21.15107/rcub_agrospace_3360"
}

Bajkin, A., Ponjičan, O., Dimitrijević, A., Zoranović, M.,& Radojčin, M.. (2013). Influence the rotary tiller rotor rotation direction on soil tillage ecological aspects. in Traktori i pogonske mašine
Naučno društvo za pogonske mašine, traktore i održavanje, Novi Sad i Univerzitet u Novom Sadu - Poljoprivredni fakultet - Institut za poljoprivrednu tehniku, Novi Sad., 18(4), 7-15.
https://hdl.handle.net/21.15107/rcub_agrospace_3360

Bajkin A, Ponjičan O, Dimitrijević A, Zoranović M, Radojčin M. Influence the rotary tiller rotor rotation direction on soil tillage ecological aspects. in Traktori i pogonske mašine. 2013;18(4):7-15.
https://hdl.handle.net/21.15107/rcub_agrospace_3360 .

Bajkin, Andjelko, Ponjičan, Ondrej, Dimitrijević, Aleksandra, Zoranović, Miodrag, Radojčin, Milivoj, "Influence the rotary tiller rotor rotation direction on soil tillage ecological aspects" in Traktori i pogonske mašine, 18, no. 4 (2013):7-15,
https://hdl.handle.net/21.15107/rcub_agrospace_3360 .

TY  - JOUR
AU  - Dimitrijević, Aleksandra
AU  - Bajkin, Andjelko
AU  - Zoranović, Miodrag
AU  - Ralević, Ivana
PY  - 2012
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/2928
AB  - The aim of the research was to make a simple model which can help producers when starting the greenhouse production system. Based on the chosen plant production and available production area, the model suggests which type of greenhouse farmers should, as well as the optimal technical systems and area for further expansion. The control of the model flow was carried out in the MS Excel program. During the testing phase, it was concluded that the MS Excel is not so good in programming so Quick Basic version 4.5 was used and it appeared simpler and easier for programming. The results show that the model is very suitable for producers, to whom adequate solutions of the greenhouse production systems can be suggested, based on its elementary idea in terms of the greenhouse construction type and technical systems with their capacities. .
AB  - U radu je prikazan model izbora optimalnog tehnološko-tehničkog sistema gajenja u kontrolisanim uslovima. Cilj je bio napraviti model, kao pomoć proizvođačima, kojim bi se, na osnovu njihove početne ideje, sugerisali objekti, tehnički sistemi i prateća infrastruktura sa potrebnim parametrima vezanim za kapacitivnost. Na osnovu izabrane gajene kulture i raspoložive površine model, kao izlazne parametre, daje tip konstrukcije i orijentaciju objekta, tehnološki sistem gajenja, tehnološko-tehničke sisteme ventilacije, grejanja, navodnjavanja i njihove potrebne kapacitete, zatim površinu neophodnu za prateće objekte kao površinu predviđenu za buduće proširenje. Provera algoritma modela je, obzirom na široku primenu MS Office Programa, izvedena u MS Excelu. Tokom provere modela, ustanovljeno je da MS Excel nije jednostavan za programiranje određenih koraka i kontinualno vođenje modela. Jedan deo provere rada modela je izveden u Quick Basic programu, verzija 4.5. koji se pokazao kao puno jednostavniji za programiranje i vođenje algoritma. Utvrđeno je da je predloženi model funkcionalan ali su potrebna dalja poboljšanja u smislu uvođenja većeg broja gajenih kultura i stalnog dopunjavanja baze podataka o tipovima i oblicima konstrukcija objekata zaštićenog prostora i pokrivnih materijala. .
PB  - Nacionalno društvo za procesnu tehniku i energetiku u poljoprivredi, Novi Sad
T2  - Journal on Processing and Energy in Agriculture
T1  - Decision support model for energy efficient greenhouse production system
T1  - Model izbora energetski efikasnog tehnološko-tehničkog sistema gajenja biljaka u kontrolisanim uslovima
EP  - 60
IS  - 2
SP  - 57
VL  - 16
UR  - https://hdl.handle.net/21.15107/rcub_agrospace_2928
ER  - 

@article{
author = "Dimitrijević, Aleksandra and Bajkin, Andjelko and Zoranović, Miodrag and Ralević, Ivana",
year = "2012",
abstract = "The aim of the research was to make a simple model which can help producers when starting the greenhouse production system. Based on the chosen plant production and available production area, the model suggests which type of greenhouse farmers should, as well as the optimal technical systems and area for further expansion. The control of the model flow was carried out in the MS Excel program. During the testing phase, it was concluded that the MS Excel is not so good in programming so Quick Basic version 4.5 was used and it appeared simpler and easier for programming. The results show that the model is very suitable for producers, to whom adequate solutions of the greenhouse production systems can be suggested, based on its elementary idea in terms of the greenhouse construction type and technical systems with their capacities. ., U radu je prikazan model izbora optimalnog tehnološko-tehničkog sistema gajenja u kontrolisanim uslovima. Cilj je bio napraviti model, kao pomoć proizvođačima, kojim bi se, na osnovu njihove početne ideje, sugerisali objekti, tehnički sistemi i prateća infrastruktura sa potrebnim parametrima vezanim za kapacitivnost. Na osnovu izabrane gajene kulture i raspoložive površine model, kao izlazne parametre, daje tip konstrukcije i orijentaciju objekta, tehnološki sistem gajenja, tehnološko-tehničke sisteme ventilacije, grejanja, navodnjavanja i njihove potrebne kapacitete, zatim površinu neophodnu za prateće objekte kao površinu predviđenu za buduće proširenje. Provera algoritma modela je, obzirom na široku primenu MS Office Programa, izvedena u MS Excelu. Tokom provere modela, ustanovljeno je da MS Excel nije jednostavan za programiranje određenih koraka i kontinualno vođenje modela. Jedan deo provere rada modela je izveden u Quick Basic programu, verzija 4.5. koji se pokazao kao puno jednostavniji za programiranje i vođenje algoritma. Utvrđeno je da je predloženi model funkcionalan ali su potrebna dalja poboljšanja u smislu uvođenja većeg broja gajenih kultura i stalnog dopunjavanja baze podataka o tipovima i oblicima konstrukcija objekata zaštićenog prostora i pokrivnih materijala. .",
publisher = "Nacionalno društvo za procesnu tehniku i energetiku u poljoprivredi, Novi Sad",
journal = "Journal on Processing and Energy in Agriculture",
title = "Decision support model for energy efficient greenhouse production system, Model izbora energetski efikasnog tehnološko-tehničkog sistema gajenja biljaka u kontrolisanim uslovima",
pages = "60-57",
number = "2",
volume = "16",
url = "https://hdl.handle.net/21.15107/rcub_agrospace_2928"
}

Dimitrijević, A., Bajkin, A., Zoranović, M.,& Ralević, I.. (2012). Decision support model for energy efficient greenhouse production system. in Journal on Processing and Energy in Agriculture
Nacionalno društvo za procesnu tehniku i energetiku u poljoprivredi, Novi Sad., 16(2), 57-60.
https://hdl.handle.net/21.15107/rcub_agrospace_2928

Dimitrijević A, Bajkin A, Zoranović M, Ralević I. Decision support model for energy efficient greenhouse production system. in Journal on Processing and Energy in Agriculture. 2012;16(2):57-60.
https://hdl.handle.net/21.15107/rcub_agrospace_2928 .

Dimitrijević, Aleksandra, Bajkin, Andjelko, Zoranović, Miodrag, Ralević, Ivana, "Decision support model for energy efficient greenhouse production system" in Journal on Processing and Energy in Agriculture, 16, no. 2 (2012):57-60,
https://hdl.handle.net/21.15107/rcub_agrospace_2928 .

TY  - JOUR
AU  - Ponjičan, Ondrej
AU  - Bajkin, Andjelko
AU  - Dimitrijević, Aleksandra
AU  - Savin, Lazar
AU  - Tomić, Milan
AU  - Simikić, Mirko
AU  - Dedović, Nebojša
AU  - Zoranović, Miodrag
PY  - 2011
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/2596
AB  - The aim of this paper was to analyze the influence of rotary tiller rotor rotation direction on specific work requirement (SWPTO). The SWPTO was calculated by measuring the power take-off (PTO) torque, PTO speed, working speed and depth, as well as the working width. The tillage quality was determined by the bulk density and soil structure. Reverse rotor rotation direction concept is characterized by more efficient tillage which provides significantly higher amount of macro-structure aggregates (0.25 to 10 mm) and their better distribution in the soil. Significantly lower SWPTO was observed with the reverse rotor rotation direction. It was within the range of -2.15-27.74% (14.35% on average) depending on the work speed which was 0.29 to 1.08 m s(-1). Multiple linear regression provided new equations for the calculation of SWPTO depending not only on the working parameters, but on the intensity of soil breaking and soil conditions as well. The obtained equations had high values of Coefficients of determination R-2 (0.92 to 0.99 for conventional and 0.84 to 0.93 for reverse rotor rotation direction). Reverse rotor rotation direction had lower SWPTO values which were 20.3 and 15.5% for the working speeds of 0.5 and 1.0 m s(-1), respectively, and were obtained for equal values of tillage intensity parameters.
PB  - Academic Journals, Victoria Island
T2  - African Journal of Agricultural Research
T1  - The effects of working parameters and tillage quality on rotary tiller specific work requirement
EP  - 6524
IS  - 31
SP  - 6513
VL  - 6
DO  - 10.5897/AJAR11.991
ER  - 

@article{
author = "Ponjičan, Ondrej and Bajkin, Andjelko and Dimitrijević, Aleksandra and Savin, Lazar and Tomić, Milan and Simikić, Mirko and Dedović, Nebojša and Zoranović, Miodrag",
year = "2011",
abstract = "The aim of this paper was to analyze the influence of rotary tiller rotor rotation direction on specific work requirement (SWPTO). The SWPTO was calculated by measuring the power take-off (PTO) torque, PTO speed, working speed and depth, as well as the working width. The tillage quality was determined by the bulk density and soil structure. Reverse rotor rotation direction concept is characterized by more efficient tillage which provides significantly higher amount of macro-structure aggregates (0.25 to 10 mm) and their better distribution in the soil. Significantly lower SWPTO was observed with the reverse rotor rotation direction. It was within the range of -2.15-27.74% (14.35% on average) depending on the work speed which was 0.29 to 1.08 m s(-1). Multiple linear regression provided new equations for the calculation of SWPTO depending not only on the working parameters, but on the intensity of soil breaking and soil conditions as well. The obtained equations had high values of Coefficients of determination R-2 (0.92 to 0.99 for conventional and 0.84 to 0.93 for reverse rotor rotation direction). Reverse rotor rotation direction had lower SWPTO values which were 20.3 and 15.5% for the working speeds of 0.5 and 1.0 m s(-1), respectively, and were obtained for equal values of tillage intensity parameters.",
publisher = "Academic Journals, Victoria Island",
journal = "African Journal of Agricultural Research",
title = "The effects of working parameters and tillage quality on rotary tiller specific work requirement",
pages = "6524-6513",
number = "31",
volume = "6",
doi = "10.5897/AJAR11.991"
}

Ponjičan, O., Bajkin, A., Dimitrijević, A., Savin, L., Tomić, M., Simikić, M., Dedović, N.,& Zoranović, M.. (2011). The effects of working parameters and tillage quality on rotary tiller specific work requirement. in African Journal of Agricultural Research
Academic Journals, Victoria Island., 6(31), 6513-6524.
https://doi.org/10.5897/AJAR11.991

Ponjičan O, Bajkin A, Dimitrijević A, Savin L, Tomić M, Simikić M, Dedović N, Zoranović M. The effects of working parameters and tillage quality on rotary tiller specific work requirement. in African Journal of Agricultural Research. 2011;6(31):6513-6524.
doi:10.5897/AJAR11.991 .

Ponjičan, Ondrej, Bajkin, Andjelko, Dimitrijević, Aleksandra, Savin, Lazar, Tomić, Milan, Simikić, Mirko, Dedović, Nebojša, Zoranović, Miodrag, "The effects of working parameters and tillage quality on rotary tiller specific work requirement" in African Journal of Agricultural Research, 6, no. 31 (2011):6513-6524,
https://doi.org/10.5897/AJAR11.991 . .

TY  - JOUR
AU  - Zoranović, Miodrag
AU  - Dimitrijević, Aleksandra
AU  - Bajkin, Andjelko
AU  - Ponjičan, Ondrej
AU  - Ivanišević, Mladen
AU  - Potkonjak, Vlado
PY  - 2010
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/2200
AB  - In order to save and rationally use energy, the usage of heat pumps is getting ever more attention. Producers and distributors of heat pump systems have accumulated certain experience when it comes to using them for individual house heat supply, mainly in the form of floor heating. However, it is possible to use the heat energy obtained by a heat pump for different processes within agricultural production, including the heating of protected spaces for piglets (sucklings and weaned). Research results have established that different exploitation conditions in dwelling houses and live-stock premises demand careful estimation of heat pump type to be used in the pigsty. The more essential factor effecting the heat pump operation is the temperature of the heating surface, which for the floor heating in general, ranges between 25-30°C, but in the case of piglets and concrete floor panels, this temperature should range between 35-40°C. To increase the efficiency rate of heat pump, of particular interest is the microclimate control in livestock husbandry buildings. For that purpose, specially important is the usage of wet scrubber systems for air purification with low pressure drop. Besides the possibility of reducing the risk of microorganisms, organic and mineral dust, in interaction with heat pump, it is also possible to significantly increase energy saving, and improve the technological process output by increasing the quality of basic product and environment protection.
AB  - Radi uštede i racionalnog koršćenja energije, sve veća pažnja posvećuje se upotrebi toplotnih pumpi. Proizvođači i propagatori sistema toplotne pumpe akumulirali su pouzdana iskustva njihovog korišćenja u formi snabdevača toplote za domaćinstva, uglavnom putem sistema toplog poda. Moguća je upotreba toplotne energije dobijene toplotnom pumpom za različite procese u poljoprivredi, uključujući prasad, kako u prasilištima, tako i odgajivalištima, radi zagrevanja njihovih odmarališta. Na osnovu različitih eksploatacionih uslova u stanarskim i objektima za krupnu stoku, rezultati istraživanja ukazuju na značaj pažljive procene tipa toplotne pumpe za upotrebu, posebno u oborima za uzgoj svinja. Najesencijalniji faktor, koji deluje na efektivnost operativnosti toplotne pumpe, jeste temperatura zagrevne površine stambenih prostora zagrevanih sistemom toplog poda 25-30°C, dok je za odmarališna mesta prasadi zagrevana betonskim podnim panelom u okviru limita 35-40°C. Za povećanje koeficijenta efikasnosti vazdušne toplotne pumpe, od posebnog interesa je regulacija mikroklimata u stočarskim objektima. U tu svrhu, od posebnog interesa je upotreba vlažnih filtera za vazduh sa niskim padom pritiska. Pored mogućnosti redukcije opasnosti od mikroorganizama, organske i mineralne prašine, u interakciji sa toplotnom pumpom, moguće su značajne uštede toplotne energije, poboljšanja outputa tehnološkog procesa sa povišenjem kvaliteta baznog proizvoda i zaštite životne sredine.
PB  - Nacionalno naučno društvo za poljoprivrednu tehniku, Novi Sad
T2  - Savremena poljoprivredna tehnika
T1  - Usage of heat pump in livestock husbandry
T1  - Primena toplotne pumpe u stočarstvu
EP  - 446
IS  - 4
SP  - 438
VL  - 36
UR  - https://hdl.handle.net/21.15107/rcub_agrospace_2200
ER  - 

@article{
author = "Zoranović, Miodrag and Dimitrijević, Aleksandra and Bajkin, Andjelko and Ponjičan, Ondrej and Ivanišević, Mladen and Potkonjak, Vlado",
year = "2010",
abstract = "In order to save and rationally use energy, the usage of heat pumps is getting ever more attention. Producers and distributors of heat pump systems have accumulated certain experience when it comes to using them for individual house heat supply, mainly in the form of floor heating. However, it is possible to use the heat energy obtained by a heat pump for different processes within agricultural production, including the heating of protected spaces for piglets (sucklings and weaned). Research results have established that different exploitation conditions in dwelling houses and live-stock premises demand careful estimation of heat pump type to be used in the pigsty. The more essential factor effecting the heat pump operation is the temperature of the heating surface, which for the floor heating in general, ranges between 25-30°C, but in the case of piglets and concrete floor panels, this temperature should range between 35-40°C. To increase the efficiency rate of heat pump, of particular interest is the microclimate control in livestock husbandry buildings. For that purpose, specially important is the usage of wet scrubber systems for air purification with low pressure drop. Besides the possibility of reducing the risk of microorganisms, organic and mineral dust, in interaction with heat pump, it is also possible to significantly increase energy saving, and improve the technological process output by increasing the quality of basic product and environment protection., Radi uštede i racionalnog koršćenja energije, sve veća pažnja posvećuje se upotrebi toplotnih pumpi. Proizvođači i propagatori sistema toplotne pumpe akumulirali su pouzdana iskustva njihovog korišćenja u formi snabdevača toplote za domaćinstva, uglavnom putem sistema toplog poda. Moguća je upotreba toplotne energije dobijene toplotnom pumpom za različite procese u poljoprivredi, uključujući prasad, kako u prasilištima, tako i odgajivalištima, radi zagrevanja njihovih odmarališta. Na osnovu različitih eksploatacionih uslova u stanarskim i objektima za krupnu stoku, rezultati istraživanja ukazuju na značaj pažljive procene tipa toplotne pumpe za upotrebu, posebno u oborima za uzgoj svinja. Najesencijalniji faktor, koji deluje na efektivnost operativnosti toplotne pumpe, jeste temperatura zagrevne površine stambenih prostora zagrevanih sistemom toplog poda 25-30°C, dok je za odmarališna mesta prasadi zagrevana betonskim podnim panelom u okviru limita 35-40°C. Za povećanje koeficijenta efikasnosti vazdušne toplotne pumpe, od posebnog interesa je regulacija mikroklimata u stočarskim objektima. U tu svrhu, od posebnog interesa je upotreba vlažnih filtera za vazduh sa niskim padom pritiska. Pored mogućnosti redukcije opasnosti od mikroorganizama, organske i mineralne prašine, u interakciji sa toplotnom pumpom, moguće su značajne uštede toplotne energije, poboljšanja outputa tehnološkog procesa sa povišenjem kvaliteta baznog proizvoda i zaštite životne sredine.",
publisher = "Nacionalno naučno društvo za poljoprivrednu tehniku, Novi Sad",
journal = "Savremena poljoprivredna tehnika",
title = "Usage of heat pump in livestock husbandry, Primena toplotne pumpe u stočarstvu",
pages = "446-438",
number = "4",
volume = "36",
url = "https://hdl.handle.net/21.15107/rcub_agrospace_2200"
}

Zoranović, M., Dimitrijević, A., Bajkin, A., Ponjičan, O., Ivanišević, M.,& Potkonjak, V.. (2010). Usage of heat pump in livestock husbandry. in Savremena poljoprivredna tehnika
Nacionalno naučno društvo za poljoprivrednu tehniku, Novi Sad., 36(4), 438-446.
https://hdl.handle.net/21.15107/rcub_agrospace_2200

Zoranović M, Dimitrijević A, Bajkin A, Ponjičan O, Ivanišević M, Potkonjak V. Usage of heat pump in livestock husbandry. in Savremena poljoprivredna tehnika. 2010;36(4):438-446.
https://hdl.handle.net/21.15107/rcub_agrospace_2200 .

Zoranović, Miodrag, Dimitrijević, Aleksandra, Bajkin, Andjelko, Ponjičan, Ondrej, Ivanišević, Mladen, Potkonjak, Vlado, "Usage of heat pump in livestock husbandry" in Savremena poljoprivredna tehnika, 36, no. 4 (2010):438-446,
https://hdl.handle.net/21.15107/rcub_agrospace_2200 .