TY  - CONF
AU  - Ugrina, Marin
AU  - Vukojević Medvidović, Nediljka
AU  - Daković, Aleksandra
AU  - Marković, Marija
AU  - Trgo, Marina
AU  - Nuić, Ivona
AU  - Mihajlović, Marija
PY  - 2018
UR  - https://ritnms.itnms.ac.rs/handle/123456789/705
AB  - Introduction
A permeable reactive barrier (PRB) is considered as an innovative, green engineering approach for
remediation of contaminated groundwater, using a passive, in situ technology with high potential of treatment
of contaminant plume at in a cost-effective manner. Recently, scientific investigations are focused on
discovering of materials for PRB which are abundant in nature or are waste material from another process. In
this study, distribution and retardation coefficient were used as a tool to select various natural materials such
as natural zeolites, clays and apatite as a material for PRB for removal of heavy metals lead, cadmium, zinc
and cooper from contaminated groundwater. In addition, scanning electron microscopy (SEM) analysis and
semi-quantitative energy dispersive spectrometry (EDS) of selected sorbent were analysed before and after
saturation with the best removing metals.
Experimental Methods
The following sorbents were investigated: natural zeolite, NZ (Zlatokop deposit,Vranjska Banja, Serbia),
IMZ (prepared by modification of natural zeolite), bentonite (Šipovo deposit, Bosnia), apatite (ore deposit
Lisina, Bosilegrad, Serbia), concentrate apatite (prepared from apatite), kaolin (plant for production of quartz
sand, Rgotina Serbia) (Ugrina et al., 2017). All samples were analysed on sorbent density and sorbent
porosity (results not given here). Batch sorption experiments are performed by mixing metal ion (Pb, Cu, Zn
or Cd) solutions with each sorbent, at solid/liquid ratio of 10 g/l, during 48 hours at room temperature. The
leaching experiment included evaluation of metal released from saturated sorbents in ultrapure water with
adjusted pH values in range 6.07-6.47. SEM-EDS of selected sorbent were analysed on a JEOL JSM-6610
instrument.
Results and Discussion Distribution coefficient Kd (l/g) and the retardation
coefficient Rd (-), are calculated using the following
equations:

where co and ce are the initial and equilibrium metal
concentrations (mmol/l), V is the metal solution
volume (l), m is the sorbent mass (g),  is the sorbent
density (g/cm3),  is the sorbent porosity (-). Figure 1
represents the results of retardation coefficient.
Based on calculated distribution and retardation coefficients using equation (1) and (2), raw bentonite and
IMZ showed the highest removal potential for zinc, cadmium and lead, while raw bentonite was the best
option for cooper removal, as in system of Cu-IMZ, adjustment of pH was necessary in order to avoid
precipitation. Beside the distribution and retardation coefficients, the leaching test in ultrapure water solution at pH=6.07-6.46 was performed and leaching of lead and cadmium from raw bentonite was noticed. This indicates that distribution and retardation coefficients are not sufficient for selection of material for PRB, as secondary pollution as a consequence of leaching cannot be predicted. Thus, based on retardation coefficients and performing leaching test, selected low-cost sorbents with the best removal properties for investigated heavy metals are: raw bentonite and IMZ for zinc ions, raw bentonite for cooper, and IMZ for lead and cadmium.
SEM-EDS analysis is giving insight into surface characterization of selected sorbents before and after saturation with certain heavy metals (Figure 2.).
PB  - Lublin : Lublin University of Technology
C3  - ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites
T1  - The distribution and retardation coefficients as a tool in selection of low-cost sorbent as a material for permeable reactive barrier – SEM-EDS analysis
EP  - 72
SP  - 71
ER  - 

@conference{
author = "Ugrina, Marin and Vukojević Medvidović, Nediljka and Daković, Aleksandra and Marković, Marija and Trgo, Marina and Nuić, Ivona and Mihajlović, Marija",
year = "2018",
abstract = "Introduction
A permeable reactive barrier (PRB) is considered as an innovative, green engineering approach for
remediation of contaminated groundwater, using a passive, in situ technology with high potential of treatment
of contaminant plume at in a cost-effective manner. Recently, scientific investigations are focused on
discovering of materials for PRB which are abundant in nature or are waste material from another process. In
this study, distribution and retardation coefficient were used as a tool to select various natural materials such
as natural zeolites, clays and apatite as a material for PRB for removal of heavy metals lead, cadmium, zinc
and cooper from contaminated groundwater. In addition, scanning electron microscopy (SEM) analysis and
semi-quantitative energy dispersive spectrometry (EDS) of selected sorbent were analysed before and after
saturation with the best removing metals.
Experimental Methods
The following sorbents were investigated: natural zeolite, NZ (Zlatokop deposit,Vranjska Banja, Serbia),
IMZ (prepared by modification of natural zeolite), bentonite (Šipovo deposit, Bosnia), apatite (ore deposit
Lisina, Bosilegrad, Serbia), concentrate apatite (prepared from apatite), kaolin (plant for production of quartz
sand, Rgotina Serbia) (Ugrina et al., 2017). All samples were analysed on sorbent density and sorbent
porosity (results not given here). Batch sorption experiments are performed by mixing metal ion (Pb, Cu, Zn
or Cd) solutions with each sorbent, at solid/liquid ratio of 10 g/l, during 48 hours at room temperature. The
leaching experiment included evaluation of metal released from saturated sorbents in ultrapure water with
adjusted pH values in range 6.07-6.47. SEM-EDS of selected sorbent were analysed on a JEOL JSM-6610
instrument.
Results and Discussion Distribution coefficient Kd (l/g) and the retardation
coefficient Rd (-), are calculated using the following
equations:

where co and ce are the initial and equilibrium metal
concentrations (mmol/l), V is the metal solution
volume (l), m is the sorbent mass (g),  is the sorbent
density (g/cm3),  is the sorbent porosity (-). Figure 1
represents the results of retardation coefficient.
Based on calculated distribution and retardation coefficients using equation (1) and (2), raw bentonite and
IMZ showed the highest removal potential for zinc, cadmium and lead, while raw bentonite was the best
option for cooper removal, as in system of Cu-IMZ, adjustment of pH was necessary in order to avoid
precipitation. Beside the distribution and retardation coefficients, the leaching test in ultrapure water solution at pH=6.07-6.46 was performed and leaching of lead and cadmium from raw bentonite was noticed. This indicates that distribution and retardation coefficients are not sufficient for selection of material for PRB, as secondary pollution as a consequence of leaching cannot be predicted. Thus, based on retardation coefficients and performing leaching test, selected low-cost sorbents with the best removal properties for investigated heavy metals are: raw bentonite and IMZ for zinc ions, raw bentonite for cooper, and IMZ for lead and cadmium.
SEM-EDS analysis is giving insight into surface characterization of selected sorbents before and after saturation with certain heavy metals (Figure 2.).",
publisher = "Lublin : Lublin University of Technology",
journal = "ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites",
title = "The distribution and retardation coefficients as a tool in selection of low-cost sorbent as a material for permeable reactive barrier – SEM-EDS analysis",
pages = "72-71"
}

Ugrina, M., Vukojević Medvidović, N., Daković, A., Marković, M., Trgo, M., Nuić, I.,& Mihajlović, M.. (2018). The distribution and retardation coefficients as a tool in selection of low-cost sorbent as a material for permeable reactive barrier – SEM-EDS analysis. in ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites
Lublin : Lublin University of Technology., 71-72.

Ugrina M, Vukojević Medvidović N, Daković A, Marković M, Trgo M, Nuić I, Mihajlović M. The distribution and retardation coefficients as a tool in selection of low-cost sorbent as a material for permeable reactive barrier – SEM-EDS analysis. in ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites. 2018;:71-72..

Ugrina, Marin, Vukojević Medvidović, Nediljka, Daković, Aleksandra, Marković, Marija, Trgo, Marina, Nuić, Ivona, Mihajlović, Marija, "The distribution and retardation coefficients as a tool in selection of low-cost sorbent as a material for permeable reactive barrier – SEM-EDS analysis" in ZEOLITE 2018 - 10th International Conference on the Occurrence, Properties and Utilization of Natural Zeolites (2018):71-72.

TY  - JOUR
AU  - Vukojević-Medvidović, Nediljka
AU  - Daković, Aleksandra
AU  - Ugrina, Marin
AU  - Trgo, Marina
AU  - Nuić, Ivona
AU  - Marković, Marija
PY  - 2017
UR  - https://ritnms.itnms.ac.rs/handle/123456789/695
AB  - "The aim of this paper was to examine the possibilities of using various low-cost sorbents as material
for permeable reactive barrier for efficient removing of lead, cadmium, copper and zinc from contaminated
water. Natural zeolite (NZ), iron-modified zeolite (IMZ), apatite, concentrated apatite, kaolin and raw bentonite
were examined. The batch test evaluation was used to investigate capturing of heavy metals from contaminated
water onto sorbents, as well as retention strength of saturated sorbent. The change of pH values during satura-
tion and leaching of heavy metals was performed in a slightly acidic to neutral area, confirming buffering abilities
and environmental acceptability of all investigated sorbents as a material in PRB for protection of groundwater
as the most valuable natural resources. The highest saturation ability towards all examined heavy metals was de-
tested with raw bentonite and IMZ. Leaching of heavy metals at pH=2.94-2.98 was confirmed in all saturated
sorbents, while at pH=6.07-6.46 it was not detected, except of Pb and Cd in raw bentonite. From the obtained
results, the recommendation for selection of sorbent for treatment of water contaminated with lead, cadmium,
cooper and zinc is given.
PB  - Tuzla : Faculty of Technology University in Tuzla
T2  - Technologica Acta
T1  - Evaluation of low-cost sorbents as potential materials for in situ remediation of water contaminated with heavy metals
EP  - 13
IS  - 2
SP  - 9
VL  - 10
ER  - 

@article{
author = "Vukojević-Medvidović, Nediljka and Daković, Aleksandra and Ugrina, Marin and Trgo, Marina and Nuić, Ivona and Marković, Marija",
year = "2017",
abstract = ""The aim of this paper was to examine the possibilities of using various low-cost sorbents as material
for permeable reactive barrier for efficient removing of lead, cadmium, copper and zinc from contaminated
water. Natural zeolite (NZ), iron-modified zeolite (IMZ), apatite, concentrated apatite, kaolin and raw bentonite
were examined. The batch test evaluation was used to investigate capturing of heavy metals from contaminated
water onto sorbents, as well as retention strength of saturated sorbent. The change of pH values during satura-
tion and leaching of heavy metals was performed in a slightly acidic to neutral area, confirming buffering abilities
and environmental acceptability of all investigated sorbents as a material in PRB for protection of groundwater
as the most valuable natural resources. The highest saturation ability towards all examined heavy metals was de-
tested with raw bentonite and IMZ. Leaching of heavy metals at pH=2.94-2.98 was confirmed in all saturated
sorbents, while at pH=6.07-6.46 it was not detected, except of Pb and Cd in raw bentonite. From the obtained
results, the recommendation for selection of sorbent for treatment of water contaminated with lead, cadmium,
cooper and zinc is given.",
publisher = "Tuzla : Faculty of Technology University in Tuzla",
journal = "Technologica Acta",
title = "Evaluation of low-cost sorbents as potential materials for in situ remediation of water contaminated with heavy metals",
pages = "13-9",
number = "2",
volume = "10"
}

Vukojević-Medvidović, N., Daković, A., Ugrina, M., Trgo, M., Nuić, I.,& Marković, M.. (2017). Evaluation of low-cost sorbents as potential materials for in situ remediation of water contaminated with heavy metals. in Technologica Acta
Tuzla : Faculty of Technology University in Tuzla., 10(2), 9-13.

Vukojević-Medvidović N, Daković A, Ugrina M, Trgo M, Nuić I, Marković M. Evaluation of low-cost sorbents as potential materials for in situ remediation of water contaminated with heavy metals. in Technologica Acta. 2017;10(2):9-13..

Vukojević-Medvidović, Nediljka, Daković, Aleksandra, Ugrina, Marin, Trgo, Marina, Nuić, Ivona, Marković, Marija, "Evaluation of low-cost sorbents as potential materials for in situ remediation of water contaminated with heavy metals" in Technologica Acta, 10, no. 2 (2017):9-13.

TY  - CONF
AU  - Ugrina, Marin
AU  - petrić, Melita
AU  - Marković, Marija
AU  - Daković, Aleksandra
AU  - Vukojević Medvidović, Nediljka
AU  - Trgo, Marina
AU  - Nuić, Ivona
AU  - Mihajlović, Marija
PY  - 2017
UR  - https://ritnms.itnms.ac.rs/handle/123456789/693
AB  - The leachability of zinc and copper from natural low-cost sorbents through saturation and
leaching study was examined in order to investigate their possible application as materials for
permeable reactive barrier (PRB). Examined low cost sorbents were natural and iron-modified
zeolite (IMZ), apatite, concentrated apatite, kaolin and raw bentonite. The highest saturation
ability towards zinc and copper was detected with raw bentonite and IMZ. Leaching of zinc and
copper has been confirmed from all saturated sorbents at pH=2.94, while at pH=6.46 was not
detected. This indicates that among investigated sorbents, raw bentonite and IMZ are the most
promising materials for removal of zinc and copper in PRB.
PB  - Croatian Zeolite Association
C3  - 7th Slovenian-Serbian-Croatian Symposium on Zeolites
T1  - Leaching behaviour of natural “low cost” sorbents saturated with zinc and copper
EP  - 62
SP  - 59
ER  - 

@conference{
author = "Ugrina, Marin and petrić, Melita and Marković, Marija and Daković, Aleksandra and Vukojević Medvidović, Nediljka and Trgo, Marina and Nuić, Ivona and Mihajlović, Marija",
year = "2017",
abstract = "The leachability of zinc and copper from natural low-cost sorbents through saturation and
leaching study was examined in order to investigate their possible application as materials for
permeable reactive barrier (PRB). Examined low cost sorbents were natural and iron-modified
zeolite (IMZ), apatite, concentrated apatite, kaolin and raw bentonite. The highest saturation
ability towards zinc and copper was detected with raw bentonite and IMZ. Leaching of zinc and
copper has been confirmed from all saturated sorbents at pH=2.94, while at pH=6.46 was not
detected. This indicates that among investigated sorbents, raw bentonite and IMZ are the most
promising materials for removal of zinc and copper in PRB.",
publisher = "Croatian Zeolite Association",
journal = "7th Slovenian-Serbian-Croatian Symposium on Zeolites",
title = "Leaching behaviour of natural “low cost” sorbents saturated with zinc and copper",
pages = "62-59"
}

Ugrina, M., petrić, M., Marković, M., Daković, A., Vukojević Medvidović, N., Trgo, M., Nuić, I.,& Mihajlović, M.. (2017). Leaching behaviour of natural “low cost” sorbents saturated with zinc and copper. in 7th Slovenian-Serbian-Croatian Symposium on Zeolites
Croatian Zeolite Association., 59-62.

Ugrina M, petrić M, Marković M, Daković A, Vukojević Medvidović N, Trgo M, Nuić I, Mihajlović M. Leaching behaviour of natural “low cost” sorbents saturated with zinc and copper. in 7th Slovenian-Serbian-Croatian Symposium on Zeolites. 2017;:59-62..

Ugrina, Marin, petrić, Melita, Marković, Marija, Daković, Aleksandra, Vukojević Medvidović, Nediljka, Trgo, Marina, Nuić, Ivona, Mihajlović, Marija, "Leaching behaviour of natural “low cost” sorbents saturated with zinc and copper" in 7th Slovenian-Serbian-Croatian Symposium on Zeolites (2017):59-62.