References
- H.Y. Jing, T. Wen, C.M. Fan, G.Q. Gao, S.L. Zhong, A.W. Xu,
Efficient adsorption/photodegradation of organic pollutants
from aqueous systems using Cu2O nanocrystals as a novel
integrated photocatalytic adsorbent, J. Mater. Chem. A, 2 (2014)
14563–14570.
- L. Semerjian, A. Damaj, D. Salam, Comparative study of humic
acid removal and floc characteristics by electrocoagulation and
chemical coagulation, Environ. Monit. Assess., 187 (2015) 670.
- W.D. Wang, W. Wang, Q.H. Fan, Y.B. Wang, Z.X. Qiao,
X.C. Wang, Effects of UV radiation on humic acid coagulation
characteristics in drinking water treatment processes, Chem.
Eng. J., 256 (2014) 137–143.
- Z.Y. Ren, N. Graham, Treatment of humic acid in drinking
water by combining potassium manganate (Mn(VI)), ferrous
sulfate, and magnetic ion exchange, Environ. Eng. Sci., 32 (2015)
175–178.
- Z.P. Zhu, K.L. Huang, Y. Zhou, Study on removal of humic acid
by polyurethane foam/activated carbon composites in boiler
feedwater, Appl. Mech. Mater., 26–28 (2010) 452–456.
- K.H. Schmit, M.J.M. Wells, Preferential adsorption of fluorescing
fulvic and humic acid components on activated carbon using
flow field-flow fractionation analysis, J. Environ. Monitor.,
4 (2002) 75–84.
- J.T. Ma, W.J. Shi, Study on the humic acid from water by
means of coagulation-ultrafiltration, Abstr. Pap. Am. Chem. S,
248 (2014).
- L.L. Song, B. Zhu, S. Gray, M. Duke, S. Muthukumaran, Hybrid
processes combining photocatalysis and ceramic membrane
filtration for degradation of humic acids in saline water, Membranes,
6 (2016), doi: 10.3390/membranes6010018.
- Y.H. Zhan, Z.L. Zhu, J.W. Lin, Y.L. Qiu, J.F. Zhao, Removal of
humic acid from aqueous solution by cetylpyridinium bromide
modified zeolite, J. Environ. Sci.-China, 22 (2010) 1327–1334.
- Y.L. Nie, C. Hu, L. Zhou, J.H. Qu, Q.S. Wei, D.S. Wang,
Degradation characteristics of humic acid over iron oxides/Fe-0 core-shell nanoparticles with UVA/H2O2, J. Hazard. Mater.,
173 (2010) 474–479.
- G.Y. Rao, Q.Y. Zhang, H.L. Zhao, J.T. Chen, Y. Li, Novel
titanium dioxide/iron (III) oxide/graphene oxide photocatalytic
membrane for enhanced humic acid removal from water,
Chem. Eng. J., 302 (2016) 633–640.
- K. Ulucan-Altuntas, E. Debik, Borohydride method modification
in synthesizing nanozero valent iron and its application in
DDT removal, Environ. Sci. Pollut. Res., 25 (2018) 30110–30121.
- K. Ulucan-Altuntas, E. Debik, I.I. Yoruk, D. Kozal, Single and
binary adsorption of copper and nickel metal ions on nano
zero valent iron (nZVI): a kinetic approach, Desal. Wat. Treat.,
93 (2017) 274–279.
- L.S. Krishna, K. Soontarapa, A. Yuzir, V.A. Kumar, W.Y.W.
Zuhairi, Kaolin-nano scale zero-valent iron composite(K-nZVI):
synthesis, characterization and application for heavy metal
removal, Desal. Wat. Treat., 100 (2017) 168–177.
- X.C. Yang, X.Q. Shen, M.X. Jing, R.J. Liu, Y. Lu, J. Xiang, Removal
of heavy metals and dyes by supported nano zero-valent iron
on barium ferrite microfibers, J. Nanosci. Nanotechnol., 14 (2014)
5251–5257.
- L. Li, M.H. Fan, R.C. Brown, J.H. Van Leeuwen, J.J. Wang,
W.H. Wang, Y.H. Song, P.Y. Zhang, Synthesis, properties, and
environmental applications of nanoscale iron-based materials:
a review, Crit. Rev. Environ. Sci. Technol., 36 (2006) 405–431.
- C.H. Xu, L.J. Zhu, X.H. Wang, S. Lin, Y.M. Chen, Fast and highly
efficient removal of chromate from aqueous solution using
nanoscale zero-valent iron/activated carbon (NZVI/AC), Water
Air Soil Pollut., 225 (2014) 1842.
- H.J. Zhu, Y.F. Jia, X. Wu, H. Wang, Removal of arsenic from
water by supported nano zero-valent iron on activated carbon,
J. Hazard. Mater., 172 (2009) 1591–1596.
- X.Q. Li, D.W. Elliott, W.X. Zhang, Zero-valent iron nanoparticles
for abatement of environmental pollutants: materials and engineering
aspects, Crit. Rev. Solid State, 31 (2006) 111–122.
- K. Ulucan-Altuntas, E. Debik, S. Gungor, Nano zero-valent
iron supported on activated carbon: effect of AC/nZVI ratio on
removal of nickel ion from water, Global Nest J., 20 (2018) 424–431.
- J.L. Weishaar, G.R. Aiken, B.A. Bergamaschi, M.S. Fram, R. Fujii,
K. Mopper, Evaluation of specific ultraviolet absorbance as
an indicator of the chemical composition and reactivity of dissolved
organic carbon, Environ. Sci. Technol., 37 (2003) 4702–4708.
- Y.-S. Ho, Citation review of Lagergren kinetic rate equation on
adsorption reactions, Scientometrics, 59 (2004) 171–177.
- H. Qiu, L. Lv, B.-c. Pan, Q.-j. Zhang, W.-m. Zhang, Q.-x. Zhang,
Critical review in adsorption kinetic models, J. Zhejiang Univ.-Sci. A, 10 (2009) 716–724.
- Y.S. Ho, Review of second-order models for adsorption
systems, J. Hazard. Mater., 136 (2006) 681–689.
- J.K. Kim, J. Alajmy, A.C. Borges, J.C. Joo, H. Ahn, L.C. Campos,
Degradation of humic acid by photocatalytic reaction using
nano-sized ZnO/laponite composite (NZLC), Water Air Soil
Pollut., 224 (2013).
- V. Alipor, S. Nasseri, R.N. Nodehi, A.H. Mahvi, A. Rashidi,
Preparation and application of oyster shell supported zero
valent nano scale iron for removal of natural organic matter
from aqueous solutions, J. Environ. Health Sci. Eng., 12 (2014),
doi: 10.1186/s40201-014-0146-y.
- M. Ajmal, A.H. Khan, S. Ahmad, A. Ahmad, Role of sawdust
in the removal of copper(II) from industrial wastes, Water Res.,
32 (1998) 3085–3091.
- Y.S. Ho, G. McKay(Fellow), A comparison of chemisorption
kinetic models applied to pollutant removal on various
sorbents, Process Saf. Environ., 76 (1998) 332–340.
- P.S. Kumar, C. Vincent, K. Kirthika, K.S. Kumar, Kinetics and
equilibrium studies of Pb2+ ion removal from aqueous solutions
by use of nano-silversol-coated activated carbon, Braz. J. Chem.
Eng., 27 (2010) 339–346.
- M. Khodadabi, F. Akbarii, N. Nasseh, Investigation the
efficiency of Mch/Fe-Zr nano-composite for adsorption of
humic acid, Desal. Wat. Treat., 148 (2019) 170–177.