"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.
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.
