TY  - JOUR
AU  - Lopičić, Zorica
AU  - Antanasković, Anja
AU  - Šoštarić, Tatjana
AU  - Adamović, Vladimir
AU  - Orlić, Marina
AU  - Milojković, Jelena
AU  - Milivojević, Milan
PY  - 2023
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/6606
AB  - Peach stones, a valuable agro-industrial by-product available in many countries worldwide, comprise a renewable resource, which can be widely applied for multifunctional purposes. Its important advantages such as high-energy value, low ash content, low price and wide abundance, make peach stones an ideal fuel for energy production, but also for new materials synthesis. Although peach stones exhibit adequate combustion properties, allowing their direct use with minimal physical/chemical treatment, they often need further modification in order to improve their thermal properties, where slow pyrolysis is frequently used. This study aims to provide a practical and effective solution to the revalorization of waste biomass originating from the fruit processing industry, through slow pyrolysis in order to convert this waste into carbonaceous material - biochar. The thermo-chemical conversion of raw biomass resulted in a stable material with excellent fuel properties, with higher mass energy density and grinding ability, providing biochar with properties, in energy sense, similar or even better than a coal. Biochar has a higher fixed carbon content and a higher energy potential than biomass itself, and its application as a biofuel might reduce emissions of greenhouse gases, as it reduces the amount of waste landed and increases the share of energy generated from renewable sources.
AB  - Koštice breskve, otpadna biomasa poreklom iz industrije prerade voća, dostupna u mnogim zemljama širom sveta, predstavlja obnovljivi resurs koji može imati različitu primenu. Prednosti koje se ogledaju u velikom energetskom potencijalu, malom sadržaju pepela, niskoj ceni i širokoj rasprostranjenosti, čine koštice breskve idealnim resursom za proizvodnju energije, ali i za sintezu novih materijala. Iako koštice breskve imaju svojstva koja im omogućavaju da se koriste uz minimalni fizičkio-hemijski tretman, često im je potrebna dodatna modifikacija kako bi se poboljšala njihova svojstva. Jedan on načina poboljšanja energetskih karakteristika otpadne biomase predstavlja termohemijska konverzija materijala u vidu spore pirolize. Ispitivanja prikazana u ovom radu obavljena su sa ciljem obezbeđivanja praktičnog i efikasnog rešenje za revalorizaciju otpadne biomase koja potiče iz industrije prerade voća, putem spore pirolize kojom se vrši konverzija ovog otpada u ugljenični materijal – biočađ. Prikazani rezultati ukazuju na glavna svojstva dobijene biočađi u funkciji njene primene kao čvrstog goriva, istovremeno ih upoređujući sa svojstvima sirove biomase. Termohemijska konverzija polazne lignocelulozne biomase daje stabilni ugljenični material odličnih gorivih karakteristika, veće energetske gustine i boljih mehaničkih svojstava, što rezultuje energetskim svojstvima koja su bolja od uglja. Biočađ poseduje znatno veći energetski potencijal od same biomase, i njegova primena kao biogoriva može redukovati emisiju gasova sa efektom staklene baste, pri čemu se istovremeno smanjuje količina deponovanog otpada ali i povećava udeo energije generisane iz obnovljivih izvora.
PB  - Association of the Chemical Engineers of Serbia
T2  - Hemijska industrija
T1  - Improvement of energy properties of lignocellulosic waste by thermochemical conversion into biochar
T1  - Poboljšanje energetskih svojstava lignoceluloznog otpada termohemijskom konverzijom u biočađ
EP  - 153
IS  - 2
SP  - 147
VL  - 77
DO  - 10.2298/HEMIND221222013L
ER  - 

@article{
author = "Lopičić, Zorica and Antanasković, Anja and Šoštarić, Tatjana and Adamović, Vladimir and Orlić, Marina and Milojković, Jelena and Milivojević, Milan",
year = "2023",
abstract = "Peach stones, a valuable agro-industrial by-product available in many countries worldwide, comprise a renewable resource, which can be widely applied for multifunctional purposes. Its important advantages such as high-energy value, low ash content, low price and wide abundance, make peach stones an ideal fuel for energy production, but also for new materials synthesis. Although peach stones exhibit adequate combustion properties, allowing their direct use with minimal physical/chemical treatment, they often need further modification in order to improve their thermal properties, where slow pyrolysis is frequently used. This study aims to provide a practical and effective solution to the revalorization of waste biomass originating from the fruit processing industry, through slow pyrolysis in order to convert this waste into carbonaceous material - biochar. The thermo-chemical conversion of raw biomass resulted in a stable material with excellent fuel properties, with higher mass energy density and grinding ability, providing biochar with properties, in energy sense, similar or even better than a coal. Biochar has a higher fixed carbon content and a higher energy potential than biomass itself, and its application as a biofuel might reduce emissions of greenhouse gases, as it reduces the amount of waste landed and increases the share of energy generated from renewable sources., Koštice breskve, otpadna biomasa poreklom iz industrije prerade voća, dostupna u mnogim zemljama širom sveta, predstavlja obnovljivi resurs koji može imati različitu primenu. Prednosti koje se ogledaju u velikom energetskom potencijalu, malom sadržaju pepela, niskoj ceni i širokoj rasprostranjenosti, čine koštice breskve idealnim resursom za proizvodnju energije, ali i za sintezu novih materijala. Iako koštice breskve imaju svojstva koja im omogućavaju da se koriste uz minimalni fizičkio-hemijski tretman, često im je potrebna dodatna modifikacija kako bi se poboljšala njihova svojstva. Jedan on načina poboljšanja energetskih karakteristika otpadne biomase predstavlja termohemijska konverzija materijala u vidu spore pirolize. Ispitivanja prikazana u ovom radu obavljena su sa ciljem obezbeđivanja praktičnog i efikasnog rešenje za revalorizaciju otpadne biomase koja potiče iz industrije prerade voća, putem spore pirolize kojom se vrši konverzija ovog otpada u ugljenični materijal – biočađ. Prikazani rezultati ukazuju na glavna svojstva dobijene biočađi u funkciji njene primene kao čvrstog goriva, istovremeno ih upoređujući sa svojstvima sirove biomase. Termohemijska konverzija polazne lignocelulozne biomase daje stabilni ugljenični material odličnih gorivih karakteristika, veće energetske gustine i boljih mehaničkih svojstava, što rezultuje energetskim svojstvima koja su bolja od uglja. Biočađ poseduje znatno veći energetski potencijal od same biomase, i njegova primena kao biogoriva može redukovati emisiju gasova sa efektom staklene baste, pri čemu se istovremeno smanjuje količina deponovanog otpada ali i povećava udeo energije generisane iz obnovljivih izvora.",
publisher = "Association of the Chemical Engineers of Serbia",
journal = "Hemijska industrija",
title = "Improvement of energy properties of lignocellulosic waste by thermochemical conversion into biochar, Poboljšanje energetskih svojstava lignoceluloznog otpada termohemijskom konverzijom u biočađ",
pages = "153-147",
number = "2",
volume = "77",
doi = "10.2298/HEMIND221222013L"
}

Lopičić, Z., Antanasković, A., Šoštarić, T., Adamović, V., Orlić, M., Milojković, J.,& Milivojević, M.. (2023). Improvement of energy properties of lignocellulosic waste by thermochemical conversion into biochar. in Hemijska industrija
Association of the Chemical Engineers of Serbia., 77(2), 147-153.
https://doi.org/10.2298/HEMIND221222013L

Lopičić Z, Antanasković A, Šoštarić T, Adamović V, Orlić M, Milojković J, Milivojević M. Improvement of energy properties of lignocellulosic waste by thermochemical conversion into biochar. in Hemijska industrija. 2023;77(2):147-153.
doi:10.2298/HEMIND221222013L .

Lopičić, Zorica, Antanasković, Anja, Šoštarić, Tatjana, Adamović, Vladimir, Orlić, Marina, Milojković, Jelena, Milivojević, Milan, "Improvement of energy properties of lignocellulosic waste by thermochemical conversion into biochar" in Hemijska industrija, 77, no. 2 (2023):147-153,
https://doi.org/10.2298/HEMIND221222013L . .

TY  - JOUR
AU  - Antanasković, Anja
AU  - Lopičić, Zorica
AU  - Pehlivan, Erol
AU  - Adamović, Vladimir
AU  - Šoštarić, Tatjana
AU  - Milojković, Jelena
AU  - Milivojević, Milan
PY  - 2023
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/6333
AB  - In this study, slow pyrolysis was employed for the thermochemical conversion of peach stones (PS), lignocellulosic waste (LCW) from food industry, to prepare biochar (PS-B), a new and efficient sorbent for the removal of toxic dye, brilliant green (BG), from aqueous solution. Detailed characteristics of PS and PS-B were analysed using pH suspension, pHPZC, zeta potential, particle size distribution, thermogravimetric method (TG-DTG), scanning electron microscopy with energy-dispersive X-ray spectroscopy (SEM–EDX), X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FTIR). The results revealed that material loss during slow pyrolysis not only altered the chemical structure of the samples, but also induced the volume shrinking phenomenon, resulting in production of a rougher, porous structure with decreased crystallinity. Also, five times less total organic carbon (TOC) release was demonstrated by biochar compared to native material. Comparison of experimental results for BG sorption by PS and PS-B showed that sorption capacity increased after pyrolysis and that sorption kinetic was significantly improved. The BG sorption by both sorbents followed the pseudo-second-order reaction kinetic model, with the intraparticle diffusion model within pores controlling the adsorption rate in PS-B. Isotherm equilibrium modelling revealed that the Sips isotherm provided the best model fit with maximum sorption capacity of 82.53 and 101.11 mg/g for PS and PS-B, respectively. A possible sorption mechanism of BG was achieved through pore filling (porous diffusion), hydrogen bonding, electrostatic attraction and π-π interactions. The results demonstrated that biochar derived from peach stones can be used as a promising green material for removing BG from contaminated waters.
PB  - Springer Science and Business Media Deutschland GmbH
T2  - Biomass Conversion and Biorefinery
T1  - Thermochemical conversion of non-edible fruit waste for dye removal from wastewater
DO  - 10.1007/s13399-023-04083-2
ER  - 

@article{
author = "Antanasković, Anja and Lopičić, Zorica and Pehlivan, Erol and Adamović, Vladimir and Šoštarić, Tatjana and Milojković, Jelena and Milivojević, Milan",
year = "2023",
abstract = "In this study, slow pyrolysis was employed for the thermochemical conversion of peach stones (PS), lignocellulosic waste (LCW) from food industry, to prepare biochar (PS-B), a new and efficient sorbent for the removal of toxic dye, brilliant green (BG), from aqueous solution. Detailed characteristics of PS and PS-B were analysed using pH suspension, pHPZC, zeta potential, particle size distribution, thermogravimetric method (TG-DTG), scanning electron microscopy with energy-dispersive X-ray spectroscopy (SEM–EDX), X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FTIR). The results revealed that material loss during slow pyrolysis not only altered the chemical structure of the samples, but also induced the volume shrinking phenomenon, resulting in production of a rougher, porous structure with decreased crystallinity. Also, five times less total organic carbon (TOC) release was demonstrated by biochar compared to native material. Comparison of experimental results for BG sorption by PS and PS-B showed that sorption capacity increased after pyrolysis and that sorption kinetic was significantly improved. The BG sorption by both sorbents followed the pseudo-second-order reaction kinetic model, with the intraparticle diffusion model within pores controlling the adsorption rate in PS-B. Isotherm equilibrium modelling revealed that the Sips isotherm provided the best model fit with maximum sorption capacity of 82.53 and 101.11 mg/g for PS and PS-B, respectively. A possible sorption mechanism of BG was achieved through pore filling (porous diffusion), hydrogen bonding, electrostatic attraction and π-π interactions. The results demonstrated that biochar derived from peach stones can be used as a promising green material for removing BG from contaminated waters.",
publisher = "Springer Science and Business Media Deutschland GmbH",
journal = "Biomass Conversion and Biorefinery",
title = "Thermochemical conversion of non-edible fruit waste for dye removal from wastewater",
doi = "10.1007/s13399-023-04083-2"
}

Antanasković, A., Lopičić, Z., Pehlivan, E., Adamović, V., Šoštarić, T., Milojković, J.,& Milivojević, M.. (2023). Thermochemical conversion of non-edible fruit waste for dye removal from wastewater. in Biomass Conversion and Biorefinery
Springer Science and Business Media Deutschland GmbH..
https://doi.org/10.1007/s13399-023-04083-2

Antanasković A, Lopičić Z, Pehlivan E, Adamović V, Šoštarić T, Milojković J, Milivojević M. Thermochemical conversion of non-edible fruit waste for dye removal from wastewater. in Biomass Conversion and Biorefinery. 2023;.
doi:10.1007/s13399-023-04083-2 .

Antanasković, Anja, Lopičić, Zorica, Pehlivan, Erol, Adamović, Vladimir, Šoštarić, Tatjana, Milojković, Jelena, Milivojević, Milan, "Thermochemical conversion of non-edible fruit waste for dye removal from wastewater" in Biomass Conversion and Biorefinery (2023),
https://doi.org/10.1007/s13399-023-04083-2 . .

TY  - JOUR
AU  - Antanasković, Anja
AU  - Bulatović, Maja
AU  - Rakin, Marica
AU  - Lopičić, Zorica
AU  - Šoštarić, Tatjana
AU  - Rakin, Marko
PY  - 2020
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/4546
AB  - Anaerobic digestion is a natural process of organic material degradation by different kinds of microorganisms in the absence of oxygen. This process is used for industrial purpose to manage waste streams or to produce biogas. It gives a major contribution in reduction of harmful effects of organic waste disposal to the environment. The aim of agricultural waste pretreatment in biogas production is to decrease the retention time, improve utilization of raw material and improve the overall productivity and energy efficiency of the production process. In this paper the effects of combined chemical and mechanical pretreatment of corn straw biomass on biogas yield during anaerobic digestion of the feedstock were analyzed. The impact of pretreatment and process parameters in biogas production was analyzed by process simulation using the software SuperPro Designer. Using this tool, it was shown that alkaline pretreatment leads to an decrease of degradation time along with an increase in biogas yield.
PB  - Institut za istrazivanja i projektovanja u privredi
T2  - Journal of Applied Engineering Science
T1  - Effect of corn straw pretreatment on efficiency of biogas production process: Computer simulation
EP  - 564
EP  - 
IS  - 4
SP  - 561
VL  - 18
DO  - 10.5937/jaes0-26966
ER  - 

@article{
author = "Antanasković, Anja and Bulatović, Maja and Rakin, Marica and Lopičić, Zorica and Šoštarić, Tatjana and Rakin, Marko",
year = "2020",
abstract = "Anaerobic digestion is a natural process of organic material degradation by different kinds of microorganisms in the absence of oxygen. This process is used for industrial purpose to manage waste streams or to produce biogas. It gives a major contribution in reduction of harmful effects of organic waste disposal to the environment. The aim of agricultural waste pretreatment in biogas production is to decrease the retention time, improve utilization of raw material and improve the overall productivity and energy efficiency of the production process. In this paper the effects of combined chemical and mechanical pretreatment of corn straw biomass on biogas yield during anaerobic digestion of the feedstock were analyzed. The impact of pretreatment and process parameters in biogas production was analyzed by process simulation using the software SuperPro Designer. Using this tool, it was shown that alkaline pretreatment leads to an decrease of degradation time along with an increase in biogas yield.",
publisher = "Institut za istrazivanja i projektovanja u privredi",
journal = "Journal of Applied Engineering Science",
title = "Effect of corn straw pretreatment on efficiency of biogas production process: Computer simulation",
pages = "564--561",
number = "4",
volume = "18",
doi = "10.5937/jaes0-26966"
}

Antanasković, A., Bulatović, M., Rakin, M., Lopičić, Z., Šoštarić, T.,& Rakin, M.. (2020). Effect of corn straw pretreatment on efficiency of biogas production process: Computer simulation. in Journal of Applied Engineering Science
Institut za istrazivanja i projektovanja u privredi., 18(4), 561-564.
https://doi.org/10.5937/jaes0-26966

Antanasković A, Bulatović M, Rakin M, Lopičić Z, Šoštarić T, Rakin M. Effect of corn straw pretreatment on efficiency of biogas production process: Computer simulation. in Journal of Applied Engineering Science. 2020;18(4):561-564.
doi:10.5937/jaes0-26966 .

Antanasković, Anja, Bulatović, Maja, Rakin, Marica, Lopičić, Zorica, Šoštarić, Tatjana, Rakin, Marko, "Effect of corn straw pretreatment on efficiency of biogas production process: Computer simulation" in Journal of Applied Engineering Science, 18, no. 4 (2020):561-564,
https://doi.org/10.5937/jaes0-26966 . .