Milunović, Igor


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Link to this page

http://fiver.ifvcns.rs/APP/faces/author.xhtml?author_id=50fd28f7-c194-442a-a46b-0d92fbd7c4ba&item_offset=0&project_offset=0&sort_by=dc.date.issued

Authority Key	Name Variants
50fd28f7-c194-442a-a46b-0d92fbd7c4ba	Milunović, Igor (2)

Projects

Alternative cereals and oil flax as functional foods, Provincial Secretariat for higher education and scientific research, 2021–2024	Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200032 (Institute of Field and Vegetable Crops, Novi Sad)
Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200116 (University of Belgrade, Faculty of Agriculture)

Author's Bibliography

Korišćenje biomase za proizvodnju biogasa

Rakašćan, Nikola; Ikanović, Jela; Živanović, Ljubiša; Milunović, Igor; Popović, Vera

(Banja Luka : Akademija nauka i umjetnosti Republike Srpske, 2023)

TY - CHAP
AU - Rakašćan, Nikola
AU - Ikanović, Jela
AU - Živanović, Ljubiša
AU - Milunović, Igor
AU - Popović, Vera
PY - 2023
UR - http://fiver.ifvcns.rs/handle/123456789/4211
AB - Biomasa biljaka je najveći obnovljivi izvor energije. Republika Srpska i Republika Srbija spadaju u vrh evropskih zemalja po količini raspoložive a neiskorišćene biomase. Biogas je proizvod koji se dobija anaerobnom razgradnjom organske supstance uz pomoć kompleksa mikroorganizama u biogasnim elektranama. Za dobijanje biogasa mogu poslužiti svi tipovi biomase, koja sadrži ugljene hidrate, proteine, masti, celulozu i hemicelulozu. U teoretskom smislu, biogas se može proizvesti iz bilo kog supstrata organskog porijekla. Takođe, postoje mogućnosti da se razne vrste supstrata kombinuju u jednom biogas postrojenju.
AB - Plant biomass is the largest renewable energy source. Republic of Srpska and the Republic of Serbia are among the top European countries in terms of the amount of available and unused biomass. Biogas is a product obtained by anaerobic decomposition of organic matter with the help of a complex of microorganisms in biogas power plants. All types of biomass which contains carbohydrates, proteins, fats, cellulose and hemicellulose can be used to obtain biogas. In theoretical terms, biogas can be produced from any substrate of organic origin. Also, there are possibilities to combine different types of substrates in one biogas plant.
PB - Banja Luka : Akademija nauka i umjetnosti Republike Srpske
T2 - Upravljanje resursima u proizvodnji i preradi biomase
T1 - Korišćenje biomase za proizvodnju biogasa
T1 - Use of biomass for biofuel production
EP - 391
SP - 368
VL - 52
DO - 10.7251/EORU2306367R
ER -

@inbook{
author = "Rakašćan, Nikola and Ikanović, Jela and Živanović, Ljubiša and Milunović, Igor and Popović, Vera",
year = "2023",
abstract = "Biomasa biljaka je najveći obnovljivi izvor energije. Republika Srpska i Republika Srbija spadaju u vrh evropskih zemalja po količini raspoložive a neiskorišćene biomase. Biogas je proizvod koji se dobija anaerobnom razgradnjom organske supstance uz pomoć kompleksa mikroorganizama u biogasnim elektranama. Za dobijanje biogasa mogu poslužiti svi tipovi biomase, koja sadrži ugljene hidrate, proteine, masti, celulozu i hemicelulozu. U teoretskom smislu, biogas se može proizvesti iz bilo kog supstrata organskog porijekla. Takođe, postoje mogućnosti da se razne vrste supstrata kombinuju u jednom biogas postrojenju., Plant biomass is the largest renewable energy source. Republic of Srpska and the Republic of Serbia are among the top European countries in terms of the amount of available and unused biomass. Biogas is a product obtained by anaerobic decomposition of organic matter with the help of a complex of microorganisms in biogas power plants. All types of biomass which contains carbohydrates, proteins, fats, cellulose and hemicellulose can be used to obtain biogas. In theoretical terms, biogas can be produced from any substrate of organic origin. Also, there are possibilities to combine different types of substrates in one biogas plant.",
publisher = "Banja Luka : Akademija nauka i umjetnosti Republike Srpske",
journal = "Upravljanje resursima u proizvodnji i preradi biomase",
booktitle = "Korišćenje biomase za proizvodnju biogasa, Use of biomass for biofuel production",
pages = "391-368",
volume = "52",
doi = "10.7251/EORU2306367R"
}

Rakašćan, N., Ikanović, J., Živanović, L., Milunović, I.,& Popović, V.. (2023). Korišćenje biomase za proizvodnju biogasa. in Upravljanje resursima u proizvodnji i preradi biomase
Banja Luka : Akademija nauka i umjetnosti Republike Srpske., 52, 368-391.
https://doi.org/10.7251/EORU2306367R

Rakašćan N, Ikanović J, Živanović L, Milunović I, Popović V. Korišćenje biomase za proizvodnju biogasa. in Upravljanje resursima u proizvodnji i preradi biomase. 2023;52:368-391.
doi:10.7251/EORU2306367R .

Rakašćan, Nikola, Ikanović, Jela, Živanović, Ljubiša, Milunović, Igor, Popović, Vera, "Korišćenje biomase za proizvodnju biogasa" in Upravljanje resursima u proizvodnji i preradi biomase, 52 (2023):368-391,
https://doi.org/10.7251/EORU2306367R . .

Genotype × year interaction on rye productivity parameters cultivated on sandy chernozem soil

Milunović, Igor; Popović, Vera; Rakaščan, Nikola; Ikanović, Jela; Trkulja, Vojislav; Radojević, Vuk; Dražić, Gordana

(Beograd : Društvo genetičara Srbije, 2022)

TY - JOUR
AU - Milunović, Igor
AU - Popović, Vera
AU - Rakaščan, Nikola
AU - Ikanović, Jela
AU - Trkulja, Vojislav
AU - Radojević, Vuk
AU - Dražić, Gordana
PY - 2022
UR - http://fiver.ifvcns.rs/handle/123456789/3111
AB - Rye is a dual-purpose crop, for nutrition but also for bioenergy. The selection of rye is aimed at its improvement as a plant for human and animal consumption, but also it is interesting for bioenergy production as it combines high biomass production with low environmental impact. There is a growing demand for sustainable sources of biomass worldwide. Directions for achieving rye selection for energy purposes include selection to increase biomass yield and corresponding physiological properties. During three years (2019-2021), four rye genotypes were examined. The aim of this study was to examine the influence of genotype (G), year (Y) and their interaction (G×Y) on rye productivity parameters: plant height (PH), spike length (SL), 1000-grain weight (TGW), hectoliter mass (HM), green biomass yield (GBY), biogas yield (BGY) as well as the possibility of using rye as an alternative fuel. Rye is an excellent raw material for the production of healthy food, but also for the production of biofuels. The study discussed the potential use of four high yielding genotypes for biofuel production. Genotype G1 (25.29 t ha-1) had a statistically significantly higher average green biomass yield compared to genotypes G2, G3 and G4 (22.98 t ha-1, 23.56 t ha-1 and 23.76 t ha-1). Significant G×Y interactions demonstrate differences between rye genotypes in response to environmental conditions. Plant height was directly proportional to biomass yield. As one of the targets in breeding programs, to develop taller cultivars as biofuel feedstock. Screening and selection of appropriate rye varieties for each region is critical for optimum results.
AB - Raž je usev dvostruke namene, za ishranu i za bioenergiju. Selekcija raži ima za cilj, unapređenje biljke za ishranu ljudi i životinja, ali je interesantna i za proizvodnju bioenergije, jer kombinuje veliku proizvodnju biomase sa malim uticajem na životnu sredinu. Širom sveta postoji rastuća potražnja za održivim izvorima biomase. Pravci kojima se postiže selekcija raži u energetske svrhe obuhvata selekciju na povećanje prinosa biomase i odgovarajućih fizioloških svojstava. U trogodišnjim mikroogledima (2019-2021.) ispitivana su četiri genotipa raži. Cilj ove studije bio je da se ispita uticaj genotipa (G), godine (Y) i njihove interakcije (G×Y) na parametre produktivnosti raži: visinu biljaka (PH), dužinu klasa (SL), masu 1000 semena (TGW), hektolitarsku masu (HM), prinos zelene biomase (GBY), i prinos biogasa (BGY). Raž je odlična sirovina za proizvodnju zdravstveno bezbedne hrane ali i za proizvodnju biogoriva. Studija razmatra potencijalnu upotrebu visokoprinosnih genotipova za proizvodnju biogoriva. Genotip G1 (25.29 t ha-1) imao je statistički značajno veći prosečni prinos zelene biomase u odnosu na genotipove G2, G3 i G4 (22.98 t ha-1, 23.56 t ha-1 i 23.76 t ha-1). Interakcija G × Y pokazuje razliku između genotipova raži, kao odgovor na uslove životne sredine. Korelacija između testiranih parametara bila je značajna, ali ne posebno visoka. Visina biljaka bila je direktno proporcionalna prinosu biomase. Kao jedan od ciljeva u programima oplemenjivanja je da se kao sirovina za biogorivo stvaraju više sorte. Selekcija i odabir odgovarajućih sorti raži za svaki region je od ključnog značaja za postizanje optimalnih rezultata.
PB - Beograd : Društvo genetičara Srbije
T2 - Genetika-Belgrade
T1 - Genotype × year interaction on rye productivity parameters cultivated on sandy chernozem soil
T1 - Interakcija genotip × godina na parametre produktivnosti raži gajene na peskovitom černozemu
EP - 905
IS - 2
SP - 887
VL - 54
DO - 10.2298/GENSR2202887M
ER -

@article{
author = "Milunović, Igor and Popović, Vera and Rakaščan, Nikola and Ikanović, Jela and Trkulja, Vojislav and Radojević, Vuk and Dražić, Gordana",
year = "2022",
abstract = "Rye is a dual-purpose crop, for nutrition but also for bioenergy. The selection of rye is aimed at its improvement as a plant for human and animal consumption, but also it is interesting for bioenergy production as it combines high biomass production with low environmental impact. There is a growing demand for sustainable sources of biomass worldwide. Directions for achieving rye selection for energy purposes include selection to increase biomass yield and corresponding physiological properties. During three years (2019-2021), four rye genotypes were examined. The aim of this study was to examine the influence of genotype (G), year (Y) and their interaction (G×Y) on rye productivity parameters: plant height (PH), spike length (SL), 1000-grain weight (TGW), hectoliter mass (HM), green biomass yield (GBY), biogas yield (BGY) as well as the possibility of using rye as an alternative fuel. Rye is an excellent raw material for the production of healthy food, but also for the production of biofuels. The study discussed the potential use of four high yielding genotypes for biofuel production. Genotype G1 (25.29 t ha-1) had a statistically significantly higher average green biomass yield compared to genotypes G2, G3 and G4 (22.98 t ha-1, 23.56 t ha-1 and 23.76 t ha-1). Significant G×Y interactions demonstrate differences between rye genotypes in response to environmental conditions. Plant height was directly proportional to biomass yield. As one of the targets in breeding programs, to develop taller cultivars as biofuel feedstock. Screening and selection of appropriate rye varieties for each region is critical for optimum results., Raž je usev dvostruke namene, za ishranu i za bioenergiju. Selekcija raži ima za cilj, unapređenje biljke za ishranu ljudi i životinja, ali je interesantna i za proizvodnju bioenergije, jer kombinuje veliku proizvodnju biomase sa malim uticajem na životnu sredinu. Širom sveta postoji rastuća potražnja za održivim izvorima biomase. Pravci kojima se postiže selekcija raži u energetske svrhe obuhvata selekciju na povećanje prinosa biomase i odgovarajućih fizioloških svojstava. U trogodišnjim mikroogledima (2019-2021.) ispitivana su četiri genotipa raži. Cilj ove studije bio je da se ispita uticaj genotipa (G), godine (Y) i njihove interakcije (G×Y) na parametre produktivnosti raži: visinu biljaka (PH), dužinu klasa (SL), masu 1000 semena (TGW), hektolitarsku masu (HM), prinos zelene biomase (GBY), i prinos biogasa (BGY). Raž je odlična sirovina za proizvodnju zdravstveno bezbedne hrane ali i za proizvodnju biogoriva. Studija razmatra potencijalnu upotrebu visokoprinosnih genotipova za proizvodnju biogoriva. Genotip G1 (25.29 t ha-1) imao je statistički značajno veći prosečni prinos zelene biomase u odnosu na genotipove G2, G3 i G4 (22.98 t ha-1, 23.56 t ha-1 i 23.76 t ha-1). Interakcija G × Y pokazuje razliku između genotipova raži, kao odgovor na uslove životne sredine. Korelacija između testiranih parametara bila je značajna, ali ne posebno visoka. Visina biljaka bila je direktno proporcionalna prinosu biomase. Kao jedan od ciljeva u programima oplemenjivanja je da se kao sirovina za biogorivo stvaraju više sorte. Selekcija i odabir odgovarajućih sorti raži za svaki region je od ključnog značaja za postizanje optimalnih rezultata.",
publisher = "Beograd : Društvo genetičara Srbije",
journal = "Genetika-Belgrade",
title = "Genotype × year interaction on rye productivity parameters cultivated on sandy chernozem soil, Interakcija genotip × godina na parametre produktivnosti raži gajene na peskovitom černozemu",
pages = "905-887",
number = "2",
volume = "54",
doi = "10.2298/GENSR2202887M"
}

Milunović, I., Popović, V., Rakaščan, N., Ikanović, J., Trkulja, V., Radojević, V.,& Dražić, G.. (2022). Genotype × year interaction on rye productivity parameters cultivated on sandy chernozem soil. in Genetika-Belgrade
Beograd : Društvo genetičara Srbije., 54(2), 887-905.
https://doi.org/10.2298/GENSR2202887M

Milunović I, Popović V, Rakaščan N, Ikanović J, Trkulja V, Radojević V, Dražić G. Genotype × year interaction on rye productivity parameters cultivated on sandy chernozem soil. in Genetika-Belgrade. 2022;54(2):887-905.
doi:10.2298/GENSR2202887M .

Milunović, Igor, Popović, Vera, Rakaščan, Nikola, Ikanović, Jela, Trkulja, Vojislav, Radojević, Vuk, Dražić, Gordana, "Genotype × year interaction on rye productivity parameters cultivated on sandy chernozem soil" in Genetika-Belgrade, 54, no. 2 (2022):887-905,
https://doi.org/10.2298/GENSR2202887M . .

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