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Desalination and Water Treatment Volume 51, 2013 - Issue 34-36
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Articles

Tea waste as adsorbent for ionic dyes

Ekta KhoslaDepartment of Chemistry, Hans Raj Mahila Maha Vidyalaya, Jalandhar, Punjab, India.
,
Satindar KaurDepartment of Applied Chemical Sciences and Technology, Guru Nanak Dev University, Amritsar, Punjab, India.
&
Pragnesh N. DaveDepartment of Chemistry, K.S.K.V. Kachchh University, Bhuj, Gujarat, India.Correspondence[email protected]
Pages 6552-6561 | Received 25 Nov 2011, Accepted 22 Jan 2013, Published online: 24 May 2013

References

  • S. Mondal, Methods of dye removal from dye house effluents – An overview. Environ. Eng. Sci. 25 (2008) 383–396.
  • J.G. Montano, F. Torrades, L.A. Perez Estrada, I. Oller, S. Malato, M.I. Maldonado, J. Peral, Degradation pathways of commercial reactive azo dye procoin red H-E7B under solar assisted photo Fenton reagent. Environ. Sci. Technol. 42 (2008) 6663–6670.
  • K.C. Chen, J.Y. Wu, W.B. Yang, S.C.J. Hwang, Evaluation of effective diffusion coefficient and intrinsic kinetic parameters on azo dye biodegradation using PVA-immobilized cell beads. Biotechnol. Bioeng. 83 (2003) 821–832.
  • V.K. Gupta, I. Ali, Adsorbents for water treatment: Low cost alternatives to carbon, in: P. Somasundaran (Ed.), Encyclopaedia of surface and colloid science, Marcel Dekker, New York, NY,2003, pp. 1–34.
  • C.H. Weng, Y.F. Pan, Adsorption characteristics of methylene blue from aqueous solution by sludge ash. Colloids Surf. A 274 (2006) 154–162.
  • G. Annadurai, R.S. Juang, D.J. Lee, Use of cellulose-based wastes for adsorption of dyes from aqueous solutions. J. Hazard. Mater. 92 (2002) 263–274.
  • F.D. Ardejani, Kh Badii, N.Y. Yousefi Limaee, S.Z. Shafaei, A.R. Mirhabibi, Adsorption of direct Red 80 dye from aqueous solution onto almond shells: Effect of pH, initial concentration and shell type. J. Hazard. Mater. 151 (2008) 730–737.
  • S. Preethi, A. Sivasamy, S. Sivanesan, V. Ramamurthi, G. Swaminathan, Removal of safranin basic dye from aqueous solutions by adsorption onto corncob activated carbon. Ind. Eng. Chem. Res. 45 (2006) 7627–7632.
  • A. Mittal, L. Krishnan, V.K. Gupta, Removal and recovery of malachite green from wastewater using an agricultural waste material, de-oiled soya. Sep. Purif. Technol. 43 (2005) 125–133.
  • ZAl Quodah, Adsorption of dyes using shale oil ash. Water Res. 34 (2000) 4295–4303.
  • A.G.L. Abdullah, M.A.M. Salleh, M.K.S. Mazlina, M.J.M.M. Noor, M.R. Osman, R. Wagiran, S. Sobri, Azo dye removal by adsorption using waste biomass, sugar cane bagasse. Int. J. Eng. Technol. 2 (2005) 8–13.
  • M.V. Namasivayam, Suresh Kumar, Anionic dye adsorption characteristics of surfactant-modified coir pith, a ‘waste’ lignocellulosic polymer. J. Appl. Polym. Sci. 100 (2006) 1538–1546.
  • M. Dogan, H. Abak, M. Alkan, Biosorption of methylene blue from aqueous solutions by Hazelnut shells: Equilibrium, parameters and isotherms. Water Air Soil Pollut. 192 (2008) 141–153.
  • G. Mckay, J.F. Porter, G.R. Prasad, The removal of dye colours from aqueous solutions by adsorption on low-cost materials. Water Air Soil Pollut. 114 (1999) 423–438.
  • V.K. Gupta, R. Jain, S. Varshney, Removal of reactofix golden yellow 3 RFN from aqueous solution using wheat husk – An agricultural waste. J. Hazard. Mater. 142 (2007) 443–448.
  • P.N. Dave, S. Kaur, E. Khosla, Removal of basic dye from aqueous solution by biosorption on to sewage sludge. Indian J. Chem. Technol. 18 (2011) 220–226.
  • L.C. Morais, O.M. Frietas, E.P. Goncalves, L.T. Vasconcelos, Reactive dyes removal from wastewaters by adsorption on eucalyptus bark: Variables that define the process. Water Res. 33 (1999) 979–988.
  • P.N. Dave, S. Kaur, E. Khosla, Removal of Eriochrome black-T by adsorption on to eucalyptus bark using green technology. Indian J. Chem. Technol. 18 (2011) 53–60.
  • M. TamezUddin, M.A. Islam, S. Mahmud, M. Rukanuzzaman, Adsorptive removal of methylene blue by tea waste. J. Hazard. Mater. 164 (2009) 53–60.
  • E. Khosla, S. Kaur, P.N. Dave, Surfactant modified tea waste as a novel adsorbent for the removal of Basic dye. Der Chem. Sinica 2 (2011) 87–102.
  • D.V. Lin, N.B. Coithup, W.G. Fateley, J.C. Grasselli, The Hand Book of Infra Red and Raman Characteristic Frequencies of Organic Molecules, Academic Press, San Diego, CA, 1991.
  • K. Kaneko, Determination of pore size and pore size distribution: Adsorbents and catalysts. J. Membr. sci. 96 (1994) 59–89.
  • D.M. Updegraff, Semimicro determination of cellulose in biological materials. Anal. Biochem. 32 (1969) 420–424.
  • D.L., Descatelets, Yu E.K.C, A simple pentose assay for biomass conversion studies. Appl. Microbiol. Biotechnol. 22 (1986) 379–385.
  • V. Ramamurthy, R.K. Sharma, R.M. Kopthari, Microbial conversion of lingo-cellulosic wastes into soil conditioners, in: A. Pandey (Ed.), Advances in Biotechnology, Educational Publication, New Delhi, 1998, pp. 433–438.
  • S. Lagergren, K. Sven, Zur Ttheorie der sogenannten Adsorption gel_ster Stoffe. Vetenskapsakad. Handl. 24 (1898) 1–39.
  • N.K. Lazaridis, D.D. Asouhidou, Kinetics of sorptive removal of chromium(VI) from aqueous solutions by calcined Mg -Al -CO3 hydrotalcite. Water Res. 37 (2003) 2875–2882.
  • G.E. Boyd, A.W. Adamson, L.S. Meywers, The exchange adsorption of ions from aqueous solutions by organic zeolite II kinetics. J. Am. Chem. Soc. 69 (1947) 2836–2848.
  • D. Reichenberg, Properties of ion exchange resins in relation to their structure, Part III. Kinetics of exchange. J. Am. Chem. Soc. 75 (1953) 589–598.
  • A.D. Buckingham, 1970. Available from: www.pac.iupac.org./publications
  • S. Ghorai, K.K. Pant, Equilibrium, kinetics and breakthrough studies for adsorption of fluoride on activated alumina. Sep. Purif. Technol. 42 (3) (2005) 265–271.
  • J.P. Silva, S. Sousa, J. Rodrigues, H. Antunes, J.J. Porter, I. Gonclaves, S.F. Dias, Adsorption of acid orange 7 dye in aqueous solutions by spent brewery grains. Sep. Purif. Technol. 40 (3) (2004) 309–315.
  • R. Sivaraj, C. Namasivayam, K. Kadirvelu, Orange peel as an adsorbent in the removal of Acid violet 17 (acid dye) from aqueous solutions. Waste Manage. 21 (2001) 105–110.
  • A.K. Jain, V.K. Gupta, A. Bhatnagar, Suhas, Utilization of industrial waste products as adsorbents for the removal of dyes. J. Hazard. Mater. 101 (2003) 31–42.
  • B.N. Chen, C.W. Hui, G. Mckay, Film-pore diffusion modeling and contact time optimization for the adsorption of dyestuffs on pith. J. Chem. Eng. 84 (2001) 77–94.
  • M.M. Nasar, Y.H. Magdy, Film-pore diffusion modeling and contact time optimization for the adsorption of dyestuffs on pith. J. Chem. Eng. 66 (1997) 223–226.
  • F.A. Batzias, D.K. Sidiras, Dye adsorption by calcium chloride treated beech sawdust in batch and fixed-bed systems. J. Hazard. Mater. 114 (2004) 167–174.
  • W.T. Tsai, H.C. Hsu, T.Y. Su, K.Y. Lin, C.M. Lin, Removal of basic dye (methylene blue) from wastewaters utilizing beer brewery waste. J. Hazard. Mater. 154 (2008) 73–78.

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