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Separation Science and Technology Volume 52, 2017 - Issue 6
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Adsorption

Nanoscale zerovalent iron-Sargassum swartzii biocomposites for the removal of malachite green from an aqueous solution

M. JeroldDepartment of Chemical Engineering, National Institute of Technology Calicut, Kozhikode, Kerala, India
,
E. V. VidyaDepartment of Chemical Engineering, National Institute of Technology Calicut, Kozhikode, Kerala, India
,
Ramya SankarDepartment of Chemical Engineering, National Institute of Technology Calicut, Kozhikode, Kerala, India
,
Naveenji ArunDepartment of Chemical Engineering, National Institute of Technology Calicut, Kozhikode, Kerala, India
&
V. SivasubramanianDepartment of Chemical Engineering, National Institute of Technology Calicut, Kozhikode, Kerala, IndiaCorrespondence[email protected]
Pages 965-974 | Received 23 Feb 2016, Accepted 20 Dec 2016, Published online: 17 Feb 2017

References

  • Malik, P.K.; Saha, S.K. (2003) Oxidation of direct dyes with hydrogen peroxide using ferrous ion as catalyst. Separation and Purification Technology, 31: 241–250.
  • Ciardelli, G.; Corsi, L.; Marcucci, M. (2000) Membrane separation for wastewater reuse in the textile industry. Resources, Conservation and Recycling, 31: 189–197.
  • Namasivayam, C.; Kavitha, D. (2002) Removal of Congo red from water by adsorption onto activated carbon prepared from coir pith, an agricultural solid waste. Dyes and Pigments, 54: 47–58.
  • Fatoki, O.S.; Ayanda, O.S.; Adekola, F.A.; Ximba, B.J. (2013) Sorption of triphenyltin chloride to nFe3O4, fly ash and nFe3O4/fly ash composite material in seawater. Clean- Soil Air Water, 42: 472–479.
  • Kumar, B.G.P.; Miranda, L.R.; Velan, M. (2005) Adsorption of Bismark Brown dye on activated carbon prepared from Rubberwood sawdust (Hevea brasiliensis) using different activation methods. Journal of Hazardous Materials, 126: 63–70.
  • Sohrabi, M.R.; Mansouriieh, N.; Khosravi, M.; Zolghadr, M. (2015) Removal of diazo dye Direct Red 23 from aqueous solution using zero-valent iron nanoparticles immobilized on multi-walled carbon nanotubes. Water Science & Technology, 71: 1367–1374.
  • Al-Ghouti, M.A.; Khraisheh, M.A.M.; Allen, S.J.; Ahmad, M.N. (2003) The removal of dyes from textile wastewater: A study of the physical characteristics and adsorption mechanisms of diatomaceous earth. Journal of Environmental Management, 69: 229–238.
  • Sekhar, C.P.; Kalidhasan, S.; Rajesh, V.; Rajesh, N. (2009) Biopolymer adsorbent for the removal of malachite green from aqueous solution. Chemosphere, 77: 842–847.
  • Julio, C.P.V.; Eder, C.L.; Betina, R; Jorge, L.B; Bruna, M. da C.; Nathalia, M.S.; Natali, F.C; Caciano, P.Z.N. (2008) Application of Brazilian-pine fruit coat as a biosorbent to removal of Cr(VI) from aqueous solution—Kinetics and equilibrium study. Biochemical Engineering Journal, 42: 67–76
  • Anbia, M.; Hariri, S.A. (2010) Removal of methylene blue from aqueous solution using nanoporous SBA-3. Desalination, 261: 61–66.
  • Yu, J.X.; Chi, R.A.; Su, X.Z.; He, Z.Y.; Qi, Y.F.; Zhang, Y.F. (2010) Desorption behavior of methylene blue on pyromellitic dianhydride modified biosorbent by a novel eluent: acid TiO2 hydrosol. Journal of Hazardous Materials, 177: 222–227.
  • Ertas, M.; Acemioglu, B.; Alma, M.H.; Usta, M. (2010) Removal of methylene blue from aqueous solution using cotton stalk, cotton waste and cotton dust. Journal of Hazardous Materials, 183: 421–427.
  • Hameed, B.H.; Mahmoud, D.K.; Ahmad, A.L. (2008) Sorption equilibrium and kinetics of basic dye from aqueous solution using banana stalk waste. Journal of Hazardous Materials, 158: 499–506.
  • Renmin, G.; Mei, L.; Chao, Y.; Yingzhi, S.; Jian, C. (2005) Removal of cationic dyes from aqueous solution by adsorption on peanut hull. Journal of Hazardous Materials, 121: 247–250.
  • Stephen, I.B.; Chiu, C.P.; Ho, G.H.; Yang, J.; Chen, B.H. (2006) Removal of cationic dyes from aqueous solution using an anionic polyglutamic acid-based adsorbent. Journal of Hazardous Materials, 137: 226–234
  • Kalpana, J.; Saravanan, P.; Gandhi, N.; Renganathan, S. (2011) Equilibrium modelling on biosorption of basic violet 1 dye using Calotropis gigantea biomass. Indian Journal of Environmental Protection, 31 825–832.
  • Mane, V.S.; Mall, I.D.; Srivastava, V.C. (2007) Kinetic and equilibrium isotherm studies for the adsorptive removal of Brilliant Green dye from aqueous solution by rice husk ash. Journal of Environmental Management, 84: 390–400.
  • Zhang, J.; Li, Y.; Zhang, C.; Jing, Y. (2008) Adsorption of malachite green from aqueous Solution onto carbon prepared from Arundo donax root. Journal of Hazardous Materials, 150: 774–782.
  • Kumar, K. V.; Ramamurthi, V.; Sivanesan, S. (2006) Biosorption of malachite green, a cationic dye onto Pithophora sp., a fresh water algae. Dyes and Pigments, 69: 102–107.
  • Santhi, M.; Kumarand, P.E.; Muralidharan, B. (2015) Removal of malachite green dyes by adsorption onto activated carbon – MnO2 – nanocomposite – kinetic study and equilibrium isotherm analyses. Journal of Applied Chemistry, 8: 33–41.
  • Venkateswarana, V.; Priyab, V.T.; Balasubramaniyam, P. (2013) Removal of malachite green by stishovite-TiO2 nanocomposite and stishovite Clay: A comparative study. Chemical Science Transactions, 2: 771–780.
  • Zeinab, M.; Abou, G.; Mohamed, A.A. (2015) Nanoparticles for removal of malachite green dye from wastewater. Advances in Chemical Engineering and Science, 5: 373–388
  • Neeraj, J.; Dwivedi, M.K.; Rashmi, A.; Pragati, S. (2015) Removal of malachite green from aqueous solution by zeolite/iron oxide magnetic nanocomposite. Journal of Environmental Science, Toxicology and Food Technology, 9: 42–50
  • Raveendraa, R.S.; Prashantha, P.A.; Hari Krishna, R.; Bhagyaa, N.P.; Nagabhushana, B.M.; Raja, H.; Naika, Lingarajud, K.; Nagabhushana, H.; Daruka Prasa, B. (2014) Synthesis, structural characterization of nano ZnTiO3 ceramic: An effective azo dye adsorbent and antibacterial agent Journal of Asian Ceramic Societies, 2: 357–365.
  • Farnaz, H.; Reza, N.; Farimah, S.; Hadi, S. (2016) Malachite green removal using modified sphagnum peat moss as a low-cost biosorbent: Kinetic, equilibrium and thermodynamic studies. Journal of the Taiwan Institute of Chemical Engineers, 58:482–489.
  • Yinghua, S.; Sheguang, D.; Shengming C.; Hui, X., Ye, M.; Jianmin, R. (2015) Removal of malachite green in aqueous solution by adsorption on sawdust. Korean Journal of Chemical Engineering, 32 (12): 2443–2448.
  • Shamik, C.; Papita, D.S. (2013) Citric acid modified wheat bran as a potential adsorbent for removal of Cu(II) and malachite green from aqueous solutions. Desalination and Water Treatment, 51: 6038–6048.
  • Shamik, C.; Papita, D. (2011) Utilization of a domestic waste: Eggshells for removal of hazardous malachite green from aqueous solutions. Environmental Progress & Sustainable Energy, 31: 415–425.
  • Mittal, A.; Krishnan, L.; Gupta, V.K. (2005) Removal and recovery of malachite green from wastewater using an agricultural waste material, de-oiled soya. Separation and Purification Technology, 43: 125–133.
  • Emrah, M.O.B.; Sengil, I.A. (2008) Adsorption of malachite green onto bentonite: Equilibrium and kinetic studies and process design. Microporous and Mesoporous Materials, 115: 234–246.
  • Mittal, A. (2006) Adsorption kinetics of removal of a toxic dye, malachite green, from wastewater by using hen feathers. Journal of Hazardous Materials, 133: 196–202.
  • Jerold, M.; Sivasubramanian, V. (2016) Biosorption of malachite green from aqueous solution using brown marine macro algae Sargassum swartzii. Desalination and Water Treatment, 57: 25288–25300.
  • Jerold, M.; Daisy, J.; Sivasubramanian, V. (2016) Fabrication of hybrid nanoscale zero-valent iron-Sargassum swartzii biocomposite for the removal of crystal violet from aqueous solution. International Journal of Phytoremediation, doi: 10.1080/15226514.2016.1207607.

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