Kompetisi Adsorpsi Logam Berat Kadmium (Cd2+) dan Tembaga (Cu2+) dalam Larutan Biner Menggunakan Adsorben Batang Jagung (Zea mays)
DAFTAR PUSTAKA
1
Asghari, Alireza., Mohammadi, Bahram. (2013). Nano-alumina coated with
sodium dodecyl sulfate and modified with 4-(2-Pyridylazo) resorcinol for
extraction of heavy metals in different matrixes. Journal of Industrial and
Engineering Chemistry.
2
Sangiumsak, Noppadol., Punrattanasin, Pongsakorn. (2014). Adsorption
behavior of heavy metal on varios soil. Pol. J. Environ. Stud. 23(3), 853-865.
3
Kampalanonwat, Pimolpun., Supaphol, Pitt. (2014). The study of competitive
adsorption of heavy metal ions from aqueous solution by aminated polyacry
ionitrile nanofiber mats. 11th Eco-Energy and Materials Science and
Engineering (11th EMSES). 56, 142-151.
4
Izabel, O.M., et al. (2014). Study of electroflotation method for threatment of
wastewater from washing soil contaminated by heavy metals. Journal of
Materials Reserch and Technology.
5
Liu, Wen., et al. (2013). Adsorption of Pb2+, Cd2+, Cu2+ and Cr2+ onto titanate
nanotubes: Competition and effect of inorganic ions. Science of the Total
Environment. 456-457, 171-180.
6
Naushad, M. (2014). Surfactant assisted nano-composite cation exchanger:
Development,characterization and applications for the removal of toxic Pb2+
from aqueous medium. Chemical Engineering Journal. 235, 100-108.
7
Singhal, Shailey., et al. (2014). Bio-adsorbent: a cost-effective method for
effluent treatment. International Journal of Environmental Science and
Research. 3 (1), 151-156.
8
Akpomie, K.G., Dawodu, F.A. (2015). Treatment of an automobile effluent
from heavy metals contamination by an eco-friendly montmorillonite.
Journal of Advanced Research.
9
Darmayanti, Rahman, Nurdin., Supriadi. (2012). Adsorption of Plumbum
(Pb) and Zinc (Zn) From Its The Solution by Using Biological Charcoal
(Biocharcoal) of Kepok Banana Peel by pH and Contact Time Variation.
Journal Akademi Kimia . 4, ISSN: 2302-6030: 159-165.
Universitas Sumatera Utara
10 Liu, Haibin., et al. (2013). Competitive adsorption of Cd(II), Zn(II), and
Ni(II) from their binari and ternary acidic systems using tourmaline. Journal
of Environmental Management. 128, 727-734.
11 Mahmoudkhani, R., et al. (2014). Copper, cadmium and ferrous removal by
membrane bioreactor. Procedia APCBEE. 10, 79-83.
12 Fonseca, B., et al. (2011). Mobility of Cr, Pb, Cd, Cu, Zn in a loamy sand
soil: a comparative study. Geoderma . 164, 232-237.
13 Hossain, M.A., et al. (2014). Competitive adsorption of metals on cabbage
waste from multi-metal solutions. Bioresource Technology. 160, 79-88.
14 Karnib, Mona., et al. (2014). Heavy metals removal using activated carbon,
silica and silica activated carbon composite. Energy Procedia . 50,113-120.
15 Vafakhah, S., Bahrololoom, M.E., Bazarganlari, R., Saeedikhani, M. (2014).
Removal of copper ions from electroplating effluent solutions with native
corn cob and corn stalk and chemically modified corn stalk. Journal of
Environmental Chemical Engineering. 2, 356-361.
16 Abid, I.G., Ayadi, M.T. (2011). Competitive adsorption of heavy metals on
local landfill clay. Arabian Journal of Chemical.
17 Arshadi, M., Amiri, M.J., Mousavi. (2014). Kinetic, equilibrium and
thermodinamic investigations of Ni(II), Cd(II), Cu(II) and Co(II) adsorption
on barley straw ash. Water Resources and Industry. 6, 1-17.
18 Mori, Masanobu., et al. (2013). Adsorptivity of heavy metals CuII, CdII, and
PbII on woodchip-mixed porous mortar. Chemical Engineering Journal. 215216, 202-208..
19 Montoya, V.H., et al. (2013). Competitive adsoption of dyes and heavy
metals on zeolitic structures. Journal of Environmental Management. 116,
213-221.
20 Miao, Yawen., Zhang, G. (2012). Study about characteristics of FTIR for
corn stalk surface with KH-560 treatment. Energy Procedia . 16, 1135-1140.
21 Song, Wen., dkk. (2015). High-capacity adsorption of dissolved hexavalent
chromium using amine functionalized magnetic corn stalk composites.
Bioresource Technology.
Universitas Sumatera Utara
22 Qinghai, H., et al. (2014). Predicting heavy metals adsorption edges and
adsorption isoterms on MnO2 with the parameters determined from langmuir
kinetics. Journal of Environmental Sciences.
23 Liuchun, Z., et al. (2010). Removal of cadmium(II) from aqueous solution by
corn stalk graft copolymers. Bioresource Technology. 101, 5820-5826.
24 Liuchun, Z., Zhi, D., Xiaoyun, Y., Hui, Z. (2010). Equilibrium and kinetic
studies of adsorption of Cd (II) from aqueous solution using modified corn
stalk. Journal of Hazardous Material. 176, 650-656.
25 Chen, Suhong., et al. (2011). Removal of Cr(VI) from aqueous solution using
modified corn stalks: Characteristic, equilibrium, kinetic and thermodinamic
study. Chemical Engineering Journal. 168, 909-917.
26 Cheng, W., et al. (2008). Removal of malachite green (MG) from aqueous
solutions by native and heat-treatedanaerobic granular sludge. Biochemical
Engineering Journal. 39, 538-546.
27 Al-Degs, Y.S., et al. (2006). Sorption of Zn(II), Pb(II), and Co(II) using
natural sorbents: equilibrium and kinetic studies. Water Research. 40, 26452658.
28 Sen, T.K., Gomez, D. (2011). Adsorption of zinc (Zn2+) from aqueous
solution on natural bentonite. Desalination. 267, 286-294.
29 Igwe, J.C., Ogunewe, D.N., Abia, A.A. (2005). Competitive adsorption of
Zn(II), Cd(II), and Pb(II) ions from aqueous and non-aqueous solution by
maize cob and husk. Afrika Journal Biotechnology. 4, 1113-1116.
30 Zheng, L.Z., Dang, X. Yi, Zhang, H. (2010). Equilibrium and kinetic studies
of adsorption of Cd(II) from aqueous solution using modified corn stalk.
Journal Hazard. 176: 650–656.
31 Zhang, Y.A.E., Ghaly, B.Li. (2012). Physical properties of corn residues. Am.
J. Biochem. Biotechnol. 8: 44–53.
32 Kent, S.K. (2002). Adsorbent Selection. Adsorbent Research, Inc. Dublin,
Ohio 43016.
33 Perry, R.H., Green, D.W., James, O.M. (1999). Perry’s Chemical Engineers’
Handbook. Seventh Edition. Universit of Kansas. McGraw-Hill: New York.
Universitas Sumatera Utara
1
Asghari, Alireza., Mohammadi, Bahram. (2013). Nano-alumina coated with
sodium dodecyl sulfate and modified with 4-(2-Pyridylazo) resorcinol for
extraction of heavy metals in different matrixes. Journal of Industrial and
Engineering Chemistry.
2
Sangiumsak, Noppadol., Punrattanasin, Pongsakorn. (2014). Adsorption
behavior of heavy metal on varios soil. Pol. J. Environ. Stud. 23(3), 853-865.
3
Kampalanonwat, Pimolpun., Supaphol, Pitt. (2014). The study of competitive
adsorption of heavy metal ions from aqueous solution by aminated polyacry
ionitrile nanofiber mats. 11th Eco-Energy and Materials Science and
Engineering (11th EMSES). 56, 142-151.
4
Izabel, O.M., et al. (2014). Study of electroflotation method for threatment of
wastewater from washing soil contaminated by heavy metals. Journal of
Materials Reserch and Technology.
5
Liu, Wen., et al. (2013). Adsorption of Pb2+, Cd2+, Cu2+ and Cr2+ onto titanate
nanotubes: Competition and effect of inorganic ions. Science of the Total
Environment. 456-457, 171-180.
6
Naushad, M. (2014). Surfactant assisted nano-composite cation exchanger:
Development,characterization and applications for the removal of toxic Pb2+
from aqueous medium. Chemical Engineering Journal. 235, 100-108.
7
Singhal, Shailey., et al. (2014). Bio-adsorbent: a cost-effective method for
effluent treatment. International Journal of Environmental Science and
Research. 3 (1), 151-156.
8
Akpomie, K.G., Dawodu, F.A. (2015). Treatment of an automobile effluent
from heavy metals contamination by an eco-friendly montmorillonite.
Journal of Advanced Research.
9
Darmayanti, Rahman, Nurdin., Supriadi. (2012). Adsorption of Plumbum
(Pb) and Zinc (Zn) From Its The Solution by Using Biological Charcoal
(Biocharcoal) of Kepok Banana Peel by pH and Contact Time Variation.
Journal Akademi Kimia . 4, ISSN: 2302-6030: 159-165.
Universitas Sumatera Utara
10 Liu, Haibin., et al. (2013). Competitive adsorption of Cd(II), Zn(II), and
Ni(II) from their binari and ternary acidic systems using tourmaline. Journal
of Environmental Management. 128, 727-734.
11 Mahmoudkhani, R., et al. (2014). Copper, cadmium and ferrous removal by
membrane bioreactor. Procedia APCBEE. 10, 79-83.
12 Fonseca, B., et al. (2011). Mobility of Cr, Pb, Cd, Cu, Zn in a loamy sand
soil: a comparative study. Geoderma . 164, 232-237.
13 Hossain, M.A., et al. (2014). Competitive adsorption of metals on cabbage
waste from multi-metal solutions. Bioresource Technology. 160, 79-88.
14 Karnib, Mona., et al. (2014). Heavy metals removal using activated carbon,
silica and silica activated carbon composite. Energy Procedia . 50,113-120.
15 Vafakhah, S., Bahrololoom, M.E., Bazarganlari, R., Saeedikhani, M. (2014).
Removal of copper ions from electroplating effluent solutions with native
corn cob and corn stalk and chemically modified corn stalk. Journal of
Environmental Chemical Engineering. 2, 356-361.
16 Abid, I.G., Ayadi, M.T. (2011). Competitive adsorption of heavy metals on
local landfill clay. Arabian Journal of Chemical.
17 Arshadi, M., Amiri, M.J., Mousavi. (2014). Kinetic, equilibrium and
thermodinamic investigations of Ni(II), Cd(II), Cu(II) and Co(II) adsorption
on barley straw ash. Water Resources and Industry. 6, 1-17.
18 Mori, Masanobu., et al. (2013). Adsorptivity of heavy metals CuII, CdII, and
PbII on woodchip-mixed porous mortar. Chemical Engineering Journal. 215216, 202-208..
19 Montoya, V.H., et al. (2013). Competitive adsoption of dyes and heavy
metals on zeolitic structures. Journal of Environmental Management. 116,
213-221.
20 Miao, Yawen., Zhang, G. (2012). Study about characteristics of FTIR for
corn stalk surface with KH-560 treatment. Energy Procedia . 16, 1135-1140.
21 Song, Wen., dkk. (2015). High-capacity adsorption of dissolved hexavalent
chromium using amine functionalized magnetic corn stalk composites.
Bioresource Technology.
Universitas Sumatera Utara
22 Qinghai, H., et al. (2014). Predicting heavy metals adsorption edges and
adsorption isoterms on MnO2 with the parameters determined from langmuir
kinetics. Journal of Environmental Sciences.
23 Liuchun, Z., et al. (2010). Removal of cadmium(II) from aqueous solution by
corn stalk graft copolymers. Bioresource Technology. 101, 5820-5826.
24 Liuchun, Z., Zhi, D., Xiaoyun, Y., Hui, Z. (2010). Equilibrium and kinetic
studies of adsorption of Cd (II) from aqueous solution using modified corn
stalk. Journal of Hazardous Material. 176, 650-656.
25 Chen, Suhong., et al. (2011). Removal of Cr(VI) from aqueous solution using
modified corn stalks: Characteristic, equilibrium, kinetic and thermodinamic
study. Chemical Engineering Journal. 168, 909-917.
26 Cheng, W., et al. (2008). Removal of malachite green (MG) from aqueous
solutions by native and heat-treatedanaerobic granular sludge. Biochemical
Engineering Journal. 39, 538-546.
27 Al-Degs, Y.S., et al. (2006). Sorption of Zn(II), Pb(II), and Co(II) using
natural sorbents: equilibrium and kinetic studies. Water Research. 40, 26452658.
28 Sen, T.K., Gomez, D. (2011). Adsorption of zinc (Zn2+) from aqueous
solution on natural bentonite. Desalination. 267, 286-294.
29 Igwe, J.C., Ogunewe, D.N., Abia, A.A. (2005). Competitive adsorption of
Zn(II), Cd(II), and Pb(II) ions from aqueous and non-aqueous solution by
maize cob and husk. Afrika Journal Biotechnology. 4, 1113-1116.
30 Zheng, L.Z., Dang, X. Yi, Zhang, H. (2010). Equilibrium and kinetic studies
of adsorption of Cd(II) from aqueous solution using modified corn stalk.
Journal Hazard. 176: 650–656.
31 Zhang, Y.A.E., Ghaly, B.Li. (2012). Physical properties of corn residues. Am.
J. Biochem. Biotechnol. 8: 44–53.
32 Kent, S.K. (2002). Adsorbent Selection. Adsorbent Research, Inc. Dublin,
Ohio 43016.
33 Perry, R.H., Green, D.W., James, O.M. (1999). Perry’s Chemical Engineers’
Handbook. Seventh Edition. Universit of Kansas. McGraw-Hill: New York.
Universitas Sumatera Utara