References
- G.J. Qian, R.C. Schumann, J. Li, M.D. Short, R. Fan, Y.B. Li,
N. Kawashima, Y. Zhou, R. St.C. Smart, A.R. Gerson, Strategies
for reduced acid and metalliferous drainage by pyrite surface
passivation, Minerals, 7 (2017) 1–15, https://doi.org/10.3390/min7030042.
- B. Vital, J. Bartacek, J.C. Ortega-Bravo, D. Jeison, Treatment of
acid mine drainage by forward osmosis: heavy metal rejection
and reverse flux of draw solution constituents, Chem. Eng. J.,
332 (2018) 85–91.
- A. Esmaeili, M. Mobini, H. Eslami, Removal of heavy metals
from acid mine drainage by native natural clay minerals,
batch and continuous studies, Appl. Water Sci., 9 (2019) 1–6,
https://doi.org/10.1007/s13201-019-0977-x.
- A. Khan, S. Khan, M.A. Khan, Z. Qamar, M. Waqas, The uptake
and bioaccumulation of heavy metals by food plants, their
effects on plants nutrients, and associated health risk: a review,
Environ. Sci. Pollut. Res., 22 (2015) 13772–13799.
- H. Eslami, M.H. Ehrampoush, A. Esmaeili, A.A. Ebrahimi,
M.T. Ghaneian, H. Falahzadeh, M.H. Salmani, Synthesis of
mesoporous Fe-Mn bimetal oxide nanocomposite by aeration
co-precipitation method: physicochemical, structural, and
optical properties, Mater. Chem. Phys., 224 (2019) 65–72.
- B.S. Zohra, A. Habib, Assessment of heavy metal contamination
levels and toxicity in sediments and fishes from the
Mediterranean Sea (southern coast of Sfax, Tunisia), Environ.
Sci. Pollut. Res., 23 (2016) 13954–13963.
- A. Akcil, S. Koldas, Acid mine drainage (AMD): causes,
treatment and case studies, J. Cleaner Prod., 14 (2006) 1139–1145.
- H. Eslami, A. Shariatifar, E. Rafiee, M. Shiranian, F. Salehi,
S.S. Hosseini, G. Eslami, R. Ghanbari, A.A. Ebrahimi,
Decolorization and biodegradation of reactive Red 198 Azo
dye by a new Enterococcus faecalis–Klebsiella variicola bacterial
consortium isolated from textile wastewater sludge, World J.
Microbiol. Biotechnol., 35 (2019) 1–10, https://doi.org/10.1007/
s11274-019-2608-y.
- S.A. Ahmed, Batch and fixed-bed column techniques for
removal of Cu(II) and Fe(III) using carbohydrate natural
polymer modified complexing agents, Carbohydr. Polym.,
83 (2011) 1470–1478.
- L. Reis, P.E. Pardo, A.S. Camargos, E. Oba, Mineral element and
heavy metal poisoning in animals, J. Med. Med. Sci., 1 (2010)
560–579.
- I.A. Aguayo-Villarreal, A. Bonilla-Petriciolet, V. Hernández-Montoya, M.A. Montes-Morán, H.E. Reynel-Avila, Batch and
column studies of Zn2+ removal from aqueous solution using
chicken feathers as sorbents, Chem. Eng. J., 167 (2011) 67–76.
- F.L. Fu, Q. Wang, Removal of heavy metal ions from
wastewaters: a review, J. Environ. Manage., 92 (2011) 407–418.
- M.A. Renu, K. Singh, Heavy metal removal from wastewater
using various adsorbents: a review, J. Water Reuse Desal.,
7 (2017) 387–419.
- D.H. Shahi, H. Eslami, M.H. Ehrampoosh, A. Ebrahimi,
M.T. Ghaneian, S. Ayatollah, M.R. Mozayan, Comparing the
efficiency of Cyperus alternifolius and Phragmites australis in
municipal wastewater treatment by subsurface constructed
wetland, Pak. J. Biol. Sci., 16 (2013) 379–384.
- A.E. Burakov, E.V. Galunin, I.V. Burakova, A.E. Kucherova,
S. Agarwal, A.G. Tkachev, V.K. Gupta, Adsorption of heavy
metals on conventional and nanostructured materials for
wastewater treatment purposes: a review, Ecotoxicol. Environ.
Saf., 148 (2018) 702–712.
- M.K. Uddin, A review on the adsorption of heavy metals by
clay minerals, with special focus on the past decade, Chem.
Eng. J., 308 (2017) 438–462.
- A. Esmaeili, H. Eslami, Adsorption of Pb(II) and Zn(II) ions
from aqueous solutions by Red Earth, MethodsX, 7 (2020)
100804.
- W.-C. Tsai, S. Ibarra-Buscano, C.-C. Kan, C.M. Futalan,
M.L.P. Dalida, M.-W. Wan, Removal of copper, nickel, lead, and
zinc using chitosan-coated montmorillonite beads in single- and
multi-metal system, Desal. Water Treat., 57 (2016) 9799–9812.
- X.F. Wu, F. Zhao, M.L. Chen, Y.L. Zhang, C. Zhao, H.L. Zhou,
Factors affecting the adsorption of Zn2+ and Cd2+ ions from
aqueous solution onto vermiculite, Adsorpt. Sci. Technol.,
26 (2008) 145–155.
- M.A. Stylianou, V.J. Inglezakis, K.G. Moustakas, S.Ph. Malamis,
M.D. Loizidou, Removal of Cu(II) in fixed bed and batch
reactors using natural zeolite and exfoliated vermiculite as
adsorbents, Desalination, 215 (2007) 133–142.
- T. Lee, Removal of heavy metals in storm water runoff using
porous vermiculite expanded by microwave preparation, Water
Air Soil Pollut., 223 (2012) 3399–3408.
- B. Meroufel, O. Benali, M. Benyahia, M.A. Zenasni, A. Merlin,
B. George, Removal of Zn(II) from aqueous solution onto kaolin
by batch design, J. Water Resour. Prot., 5 (2013) 669–680.
- P. Najafi, K. Asgari, N. Samadi, Heavy metal elimination
from industrial wastewater using natural substrate on pitcher
irrigation, Int. J. Recyl. Org. Waste Agric., 5 (2016) 333–337.
- E.W. Rice, R.B. Baird, A.D. Eaton, L.S. Clesceri, Standard
Methods for the Examination of Water and Wastewater,
American Public Health Association/American Water Works
Association (APHA/AWWA/WPCR), Washington, 2012.
- S. Veli, B. Alyüz, Adsorption of copper and zinc from aqueous
solutions by using natural clay, J. Hazard. Mater., 149 (2007)
226–233.
- A. Esmaeili, H. Eslami, Efficient removal of Pb(II) and Zn(II)
ions from aqueous solutions by adsorption onto a native natural
bentonite, MethodsX, 6 (2019) 1979–1985.
- E. Tajari, N.S. Langeroodi, M. Khalafi, Statistical modeling,
optimization and kinetics of Mn2+ adsorption in aqueous
solution using a biosorbent, Appl. Res. Chem., 11 (2016) 49–57.
- J. Yin, C.B. Deng, Z. Yu, X.F. Wang, G.P. Xu, Effective removal of
lead ions from aqueous solution using nano illite/smectite clay:
Isotherm, kinetic, and thermodynamic modeling of adsorption,
Water, 10 (2018) 210.
- D. Mohan, K.P. Singh, V.K. Singh, Removal of hexavalent
chromium from aqueous solution using low-cost activated
carbons derived from agricultural waste materials and activated
carbon fabric cloth, Ind. Eng. Chem. Res., 44 (2005) 1027–1042.
- J. Cao, H. Cao, Y.J. Zhu, S.S. Wang, D.W. Qian, G.D. Chen,
M.B. Sun, W. Huang, Rapid and effective removal of Cu2+ from
aqueous solution using novel chitosan and laponite-based
nanocomposite as adsorbent, Polymers (Basel), 9 (2017) 5, doi:
10.3390/polym9010005.
- A.K. Meena, C. Rajagopal, Kiran, G.K. Mishra, Removal of
heavy metal ions from aqueous solutions using chemically
(Na2S) treated granular activated carbon as an adsorbent, J. Sci.
Ind. Res., 69 (2010) 449–453.
- M.R. Lasheen, I.Y. El-Sherif, S.T. El-Wakeel, D.Y. Sabry,
M.F. El-Shahat, Heavy metals removal from aqueous solution
using magnetite Dowex 50WX4 resin nanocomposite, J. Mater.
Environ. Sci., 8 (2017) 503–511.
- S. Golkhah, H. Zavvar Mousavi, H. Shirkhanloo, A. Khaligh,
Removal of Pb(II) and Cu(II) ions from aqueous solutions by
cadmium sulfide nanoparticles, Int. J. Nanosci. Nanotechnol.,
13 (2017) 105–117.
- S. Chen, M. Zhou, H.-F. Wang, T. Wang, X.-S. Wang, H.-B. Hou,
B.-Y. Song, Adsorption of reactive brilliant red X-3B in aqueous
solutions on clay–biochar composites from bagasse and natural
attapulgite, Water, 10 (2018) 703, https://doi.org/10.3390/
w10060703.
- Z. Mohamed, A. Abdelkarim, K. Ziat, S. Mohamed, Adsorption
of Cu(II) onto natural clay: equilibrium and thermodynamic
studies, Appl. Clay Sci., 7 (2016) 566–570.
- K.G. Bhattacharyya, S.S. Gupta, Influence of acid activation on
adsorption of Ni(II) and Cu(II) on kaolinite and montmorillonite:
kinetic and thermodynamic study, Chem. Eng. J., 136 (2008)
1–13.
- C.A. Ríos, C.D. Williams, C.L. Roberts, Removal of heavy
metals from acid mine drainage (AMD) using coal fly ash,
natural clinker and synthetic zeolites, J. Hazard. Mater.,
156 (2008) 23–35.
- F.A. Dawodu, K.G. Akpomie, Simultaneous adsorption of
Ni(II) and Mn(II) ions from aqueous solution unto a Nigerian
kaolinite clay, J. Mater. Res. Technol., 3 (2014) 129–141.
- A.A. Okoya, A.B. Akinyele, I.E. Ofoezie, O.S. Amuda,
O.S. Alayande, O.W. Makinde, Adsorption of heavy metal ions
onto chitosan grafted cocoa husk char, Afr. J. Pure Appl. Chem.,
8 (2014) 147–161.
- R. Mopoung, N. Kengkhetkit, Lead and cadmium removal
efficiency from aqueous solution by NaOH treated pineapple
waste, Int. J. Appl. Chem., 12 (2016) 23–35.
- N. Dizadji, M. Rashtchi, S. Dehpouri, N. Nouri, Experimental
investigation of adsorption of copper from aqueous solution
using vermiculite and clinoptilolite, Int. J. Environ. Res.,
7 (2013) 887–894.
- S.K. Yadav, D.K. Singh, S. Sinha, Chemical carbonization of
papaya seed originated charcoals for sorption of Pb(II) from
aqueous solution, J. Environ. Chem. Eng., 2 (2014) 9–19.
- G. Karthikeyan, K. Anbalagan, N.M. Andal, Adsorption
dynamics and equilibrium studies of Zn(II) onto chitosan,
J. Chem. Sci., 116 (2004) 119–127.
- N. Barka, M. Abdennouri, M. El Makhfouk, S. Qourzal,
Biosorption characteristics of cadmium and lead onto ecofriendly
dried cactus (Opuntia ficus indica) cladodes, J. Environ.
Chem. Eng., 1 (2013) 144–149.
- H.H. El-Maghrabi, S. Mikhail, Removal of heavy metals via
adsorption using natural clay material, J. Environ. Earth Sci.,
4 (2014) 38–46.
- M.R. Mahmoud, N.K. Lazaridis, K.A. Matis, Study of flotation
conditions for cadmium(II) removal from aqueous solutions,
Process Saf. Environ. Prot., 94 (2015) 203–211.
- M.B. Desta, Batch sorption experiments: Langmuir and
Freundlich isotherm studies for the adsorption of textile
metal ions onto teff straw (Eragrostis tef) agricultural waste,
J. Thermodyn., 1 (2013) 1–6.
- A.L. Iskander, E.M. Khald, A.S. Sheta, Zinc and manganese
sorption behavior by natural zeolite and bentonite, Ann. Agric.
Sci., 56 (2011) 43–48.
- W. Omar, H. Al-Itawi, Removal of Pb2+ ions from aqueous
solutions by adsorption on kaolinite clay, Am. J. Appl. Sci.,
4 (2007) 502–507.
- H. Xiyili, S. Çetintaş, D. Bingöl, Removal of some heavy metals
onto mechanically activated fly ash: modeling approach for
optimization, isotherms, kinetics and thermodynamics, Process
Saf. Environ. Prot., 109 (2017) 288–300.
- M.-Y. Chang, R.-S. Juang, Adsorption of tannic acid, humic
acid, and dyes from water using the composite of chitosan and
activated clay, J. Colloid Interface Sci., 278 (2004) 18–25.
- S.A.S. Mohammed, M. Naik, Utilization of red soils and
amended soils as a liner material for attenuation of copper from
aqueous solution: isotherm and kinetic studies, J. Environ. Sci.
Technol., 4 (2011) 504–519.
- Z. Chen, W. Ma, M. Han, Biosorption of nickel and copper onto
treated alga (Undaria pinnatifida): application of isotherm and
kinetic models, J. Hazard. Mater., 155 (2008) 327–333.
- L.O.E. Agwaramgbo, R.F. Cardoso, T.S. Matos, Copper and zinc
removal from contaminated water using coffee waste, J. Sci.
Res. Rep., 12 (2016) 1–9.
- S.B. Chen, Y.B. Ma, L. Chen, K. Xian, Adsorption of aqueous
Cd2+, Pb2+, Cu2+ ions by nano-hydroxyapatite: single- and multimetal
competitive adsorption study, Geochem. J., 44 (2010)
233–239.
- J. Perić, M. Trgo, N.V. Medvidović, Removal of zinc, copper and
lead by natural zeolite—a comparison of adsorption isotherms,
Water Res., 38 (2004) 1893–1899.