TY  - PAT
AU  - Šoštarić, Tatjana
AU  - Lopičić, Zorica
AU  - Gorjanović, Stanislava
AU  - Zlatanović, Snežana
AU  - Pastor, Ferenc
PY  - 2023
UR  - https://ritnms.itnms.ac.rs/handle/123456789/1186
PB  - Beograd : Institut za tehnologiju nuklearnih i drugih mineralnih sirovina
T2  - Zavod za intelektualnu svojinu
T1  - Nutriceutik za nadoknadu mikroelemenata i prevenciju poremećaja metabolizma
ER  - 

@misc{
author = "Šoštarić, Tatjana and Lopičić, Zorica and Gorjanović, Stanislava and Zlatanović, Snežana and Pastor, Ferenc",
year = "2023",
publisher = "Beograd : Institut za tehnologiju nuklearnih i drugih mineralnih sirovina",
journal = "Zavod za intelektualnu svojinu",
title = "Nutriceutik za nadoknadu mikroelemenata i prevenciju poremećaja metabolizma"
}

Šoštarić, T., Lopičić, Z., Gorjanović, S., Zlatanović, S.,& Pastor, F.. (2023). Nutriceutik za nadoknadu mikroelemenata i prevenciju poremećaja metabolizma. in Zavod za intelektualnu svojinu
Beograd : Institut za tehnologiju nuklearnih i drugih mineralnih sirovina..

Šoštarić T, Lopičić Z, Gorjanović S, Zlatanović S, Pastor F. Nutriceutik za nadoknadu mikroelemenata i prevenciju poremećaja metabolizma. in Zavod za intelektualnu svojinu. 2023;..

Šoštarić, Tatjana, Lopičić, Zorica, Gorjanović, Stanislava, Zlatanović, Snežana, Pastor, Ferenc, "Nutriceutik za nadoknadu mikroelemenata i prevenciju poremećaja metabolizma" in Zavod za intelektualnu svojinu (2023).

TY  - JOUR
AU  - Šoštarić, Tatjana
AU  - Simić, Marija
AU  - Lopičić, Zorica
AU  - Zlatanović, Snežana
AU  - Pastor, Ferenc
AU  - Antanasković, Anja
AU  - Gorjanović, Stanislava
PY  - 2023
UR  - https://ritnms.itnms.ac.rs/handle/123456789/877
AB  - This article presents studies, whose main goal was to minimize food waste. To achieve this goal, it is necessary to expand the scope of their application, for example, for the purification of polluted water from heavy metals. Millions of tons of waste from the fruit and vegetable industry, including pomace of apples and beetroots, are thrown into landfills, posing a danger to the environment. In order to solve the problems with the disposal of these wastes, the authors investigated their sorption potential for the removal of lead from wastewater. The sorbents, dried apple (AP), and beetroots (BR) pomaces were characterized by various methods (study of composition, zeta potential, FTIR-ATR, and SEM-EDX). Various models of sorption kinetics and sorption isotherms were analyzed. Kinetical studies under optimal conditions showed that the sorption process occurs through complexation and ion exchange and the determining stage limiting the rate of sorption is the diffusion of lead ions in the sorbent. The maximum sorption capacity was 31.7 and 79.8 mg/g for AP and BR, respectively. The thermodynamic data revealed the spontaneous sorption of lead ions by sorbents. The temperature rise contributes to the sorption increase by the AP sorbent, while for the BR sorbent, the opposite effect is observed. The obtained results showed that apple and beetroots pomaces can serve as effective renewable materials for the preparation of sorbents, contributing to the solution of complex environmental problems.
PB  - MDPI
T2  - Processes
T1  - Food waste (beetroot and apple pomace) as sorbent for lead from aqueous solutions – alternative to landfill disposal
IS  - 5
VL  - 11
DO  - 10.3390/pr11051343
ER  - 

@article{
author = "Šoštarić, Tatjana and Simić, Marija and Lopičić, Zorica and Zlatanović, Snežana and Pastor, Ferenc and Antanasković, Anja and Gorjanović, Stanislava",
year = "2023",
abstract = "This article presents studies, whose main goal was to minimize food waste. To achieve this goal, it is necessary to expand the scope of their application, for example, for the purification of polluted water from heavy metals. Millions of tons of waste from the fruit and vegetable industry, including pomace of apples and beetroots, are thrown into landfills, posing a danger to the environment. In order to solve the problems with the disposal of these wastes, the authors investigated their sorption potential for the removal of lead from wastewater. The sorbents, dried apple (AP), and beetroots (BR) pomaces were characterized by various methods (study of composition, zeta potential, FTIR-ATR, and SEM-EDX). Various models of sorption kinetics and sorption isotherms were analyzed. Kinetical studies under optimal conditions showed that the sorption process occurs through complexation and ion exchange and the determining stage limiting the rate of sorption is the diffusion of lead ions in the sorbent. The maximum sorption capacity was 31.7 and 79.8 mg/g for AP and BR, respectively. The thermodynamic data revealed the spontaneous sorption of lead ions by sorbents. The temperature rise contributes to the sorption increase by the AP sorbent, while for the BR sorbent, the opposite effect is observed. The obtained results showed that apple and beetroots pomaces can serve as effective renewable materials for the preparation of sorbents, contributing to the solution of complex environmental problems.",
publisher = "MDPI",
journal = "Processes",
title = "Food waste (beetroot and apple pomace) as sorbent for lead from aqueous solutions – alternative to landfill disposal",
number = "5",
volume = "11",
doi = "10.3390/pr11051343"
}

Šoštarić, T., Simić, M., Lopičić, Z., Zlatanović, S., Pastor, F., Antanasković, A.,& Gorjanović, S.. (2023). Food waste (beetroot and apple pomace) as sorbent for lead from aqueous solutions – alternative to landfill disposal. in Processes
MDPI., 11(5).
https://doi.org/10.3390/pr11051343

Šoštarić T, Simić M, Lopičić Z, Zlatanović S, Pastor F, Antanasković A, Gorjanović S. Food waste (beetroot and apple pomace) as sorbent for lead from aqueous solutions – alternative to landfill disposal. in Processes. 2023;11(5).
doi:10.3390/pr11051343 .

Šoštarić, Tatjana, Simić, Marija, Lopičić, Zorica, Zlatanović, Snežana, Pastor, Ferenc, Antanasković, Anja, Gorjanović, Stanislava, "Food waste (beetroot and apple pomace) as sorbent for lead from aqueous solutions – alternative to landfill disposal" in Processes, 11, no. 5 (2023),
https://doi.org/10.3390/pr11051343 . .

TY  - JOUR
AU  - Šoštarić, Tatjana
AU  - Petrović, Marija
AU  - Pastor, Ferenc T.
AU  - Loncarević, Davor R.
AU  - Petrović, Jelena
AU  - Milojković, Jelena
AU  - Stojanović, Mirjana
PY  - 2018
UR  - https://ritnms.itnms.ac.rs/handle/123456789/485
AB  - Locally available apricot (Prunus armeniaca L.) shells classified as a waste product from fruit processing, were alkali activated in order to develop an efficient heavy metal ions sorbent for water purification. To examine the changes occurred after alkali treatment, raw (SH) and modified apricot shells (SHM) were thoroughly characterized in terms of their chemical composition and surface properties. Chemical analysis revealed that alkaline treatment causes the disintegration of hemicellulose (its content decreased from 19.2 to 3.5%), which was in accordance with FTIR results. SEM micrographs and the mercury intrusion porosimetry revealed a larger surface area and porosity of SHM. Bohem's acid-base titration method indicated that the most of the SHM surface carboxylic groups were in sodium salt form and together with the pH of points of zero charge showed increase of surface alkalinity after modification. Treatment with NaOH enhanced the adsorption capacity by 154, 61 and 90% for Cu2+, Zn2+ and Pb2+, respectively. The amount of cations released from SHM was almost equal to the amount of adsorbed metal ions, suggesting ion exchange mechanism. The pseudo-second order kinetic indicated that the heavy metals cations were bound predominantly by complexation. In order to establish the effectiveness of the biosorbent in real wastewater sample, SHM was employed for cleaning-up of drain water emanating from atomic adsorption spectrophotometer. The SHM showed high removal efficiency towards multiple metal ions. The amounts of Fe, Pb, Cu and Cr ions were reduced by 97, 87, 81 and 80%, respectively, while Ni and Zn amounts were reduced for 33 and 14%. Used biosorbent SHM can be successfully regenerated with HCl (desorption > 95%) and after regeneration biosorbent can be reused or it can be safely disposed.
PB  - Elsevier Science Bv, Amsterdam
T2  - Journal of Molecular Liquids
T1  - Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment
EP  - 349
SP  - 340
VL  - 259
DO  - 10.1016/j.molliq.2018.03.055
UR  - conv_824
ER  - 

@article{
author = "Šoštarić, Tatjana and Petrović, Marija and Pastor, Ferenc T. and Loncarević, Davor R. and Petrović, Jelena and Milojković, Jelena and Stojanović, Mirjana",
year = "2018",
abstract = "Locally available apricot (Prunus armeniaca L.) shells classified as a waste product from fruit processing, were alkali activated in order to develop an efficient heavy metal ions sorbent for water purification. To examine the changes occurred after alkali treatment, raw (SH) and modified apricot shells (SHM) were thoroughly characterized in terms of their chemical composition and surface properties. Chemical analysis revealed that alkaline treatment causes the disintegration of hemicellulose (its content decreased from 19.2 to 3.5%), which was in accordance with FTIR results. SEM micrographs and the mercury intrusion porosimetry revealed a larger surface area and porosity of SHM. Bohem's acid-base titration method indicated that the most of the SHM surface carboxylic groups were in sodium salt form and together with the pH of points of zero charge showed increase of surface alkalinity after modification. Treatment with NaOH enhanced the adsorption capacity by 154, 61 and 90% for Cu2+, Zn2+ and Pb2+, respectively. The amount of cations released from SHM was almost equal to the amount of adsorbed metal ions, suggesting ion exchange mechanism. The pseudo-second order kinetic indicated that the heavy metals cations were bound predominantly by complexation. In order to establish the effectiveness of the biosorbent in real wastewater sample, SHM was employed for cleaning-up of drain water emanating from atomic adsorption spectrophotometer. The SHM showed high removal efficiency towards multiple metal ions. The amounts of Fe, Pb, Cu and Cr ions were reduced by 97, 87, 81 and 80%, respectively, while Ni and Zn amounts were reduced for 33 and 14%. Used biosorbent SHM can be successfully regenerated with HCl (desorption > 95%) and after regeneration biosorbent can be reused or it can be safely disposed.",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Journal of Molecular Liquids",
title = "Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment",
pages = "349-340",
volume = "259",
doi = "10.1016/j.molliq.2018.03.055",
url = "conv_824"
}

Šoštarić, T., Petrović, M., Pastor, F. T., Loncarević, D. R., Petrović, J., Milojković, J.,& Stojanović, M.. (2018). Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment. in Journal of Molecular Liquids
Elsevier Science Bv, Amsterdam., 259, 340-349.
https://doi.org/10.1016/j.molliq.2018.03.055
conv_824

Šoštarić T, Petrović M, Pastor FT, Loncarević DR, Petrović J, Milojković J, Stojanović M. Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment. in Journal of Molecular Liquids. 2018;259:340-349.
doi:10.1016/j.molliq.2018.03.055
conv_824 .

Šoštarić, Tatjana, Petrović, Marija, Pastor, Ferenc T., Loncarević, Davor R., Petrović, Jelena, Milojković, Jelena, Stojanović, Mirjana, "Study of heavy metals biosorption on native and alkali-treated apricot shells and its application in wastewater treatment" in Journal of Molecular Liquids, 259 (2018):340-349,
https://doi.org/10.1016/j.molliq.2018.03.055 .,
conv_824 .