REFERENCES
- Liu, Y.; Wang, J.; Zheng, Y.; Wang, A. (2012) Adsorption of methylene blue by kapok fiber treated by sodium chlorite optimized with response surface methodology. Chem. Eng. J., 184: 248–255.
- Jain, A.K.; Gupta, V.K.; Bhatnagar, A.; Suhas (2003) A comparative study of adsorbents prepared from industrial wastes for removal of dyes. Sep. Sci. Technol., 38: 463–481.
- Low, L.W.; Teng, T.T.; Rafatullah, M.; Norhashimah, M.; Azahari, B. (2013) Adsorption studies of methylene blue and malachite green from aqueous solutions by pretreated lignocellulosic materials. Sep. Sci. Technol., 48: 1688–1698.
- Low, L.W.; Teng, T.T.; Ahmad, A.; Norhashimah, M.; Wong, Y.S. (2011) A novel pretreatment method of lignocellulosic material as adsorbent and kinetic study of dye waste adsorption. Water Air Soil Pollut., 218: 293–306.
- Caner, N.; Kiran, I.; Ilhan, S.; Pinarbasi, A.; Iscen, C.F. (2011) Biosorption of reactive yellow 145 dye by dried penicillum restrictum: Isotherm, kinetic, and thermodynamic studies. Sep. Sci. Technol., 46: 2283–2290.
- Gupta, V.K.; Sharma, S. (2003) Removal of zinc from aqueous solutions using bagasse fly ash-a low cost adsorbent. Ind. Eng. Chem. Res., 42: 6619–6624.
- Mittal, A.; Gupta, V.K.; Malviya, A.; Mittal, J. (2008) Process development for the batch and bulk removal and recovery of a hazardous, water-soluble azo dye (Metanil Yellow) by adsorption over waste materials (bottom ash and de-oiled soya). J. Hazard. Mater., 151: 821–832.
- Gupta, V.K.; Gupta, B.; Rastogi, A.; Agarwal, S.; Nayak, A. (2011) A comparative investigation on adsorption performances of mesoporous activated carbon prepared from waste rubber tire and activated carbon for a hazardous azo dye-acid blue 113. J. Hazard. Mater., 186: 891–901.
- Mittal, A.; Mittal, J.; Malviya, A.; Kaur, D.; Gupta, V.K. (2010) Adsoption of hazardous dye crystal violet from wastewater by waste materials. J. Colloid Interface Sci., 343: 463–473.
- Jain, A.K.; Gupta, V.K.; Jain, S.; Suhas (2004) Removal of chlorophenols using industrial wastes. Environ. Sci. Technol., 38: 1195–1200.
- Gupta, V.K.; Jain, R.; Varshney, S. (2007) Removal of Reactofix golden yellow 3 RFN from aqueous solution using wheat husk- an agricultural waste. J. Hazard. Mater., 142: 443–448.
- Sumathi, S.; Chai, S.P.; Mohamed, A.R. (2008) Utilization of oil palm as a source of renewable energy in Malaysia. Renew. Sust. Energ. Rev., 12: 2404–2421.
- Hameed, B.H.; El-Khaiary, M.I. Batch removal of malachite green from aqueous solutions by adsorption on oil palm trunk fibre: Equilibrium isotherms and kinetic studies. J. Hazard. Mater., 154: 237–244.
- Hussein, M.Z.B.; Abdul Rahman, M.B.B.; Yahaya, A.H.J.; Ahmad, T.Y.Y.H.N. (2001) Oil palm trunk as a raw material for activated carbon production. J. Porous. Mater., 8: 327–334.
- Robinson, T.; Mullan, G.M.; Marchant, R.; Nigam, P. (2001) Remediation of dyes in textile effluent: A critical review on current treatment technologies with a proposed alternative. Bioresour. Technol., 77: 247–255.
- Muthuraman, G.; Teng, T.T. (2009) Use of vegetable oil in supported liquid membrane for the transport of Rhodamine B. Desalination, 249: 1062–1066.
- Pang, Y.L.; Abdullah, A.Z.; Bhatia, S. (2011) Optimization of sonocatalytic degradation of Rhodamine B in aqueous solution in the presence of TiO2 nanotubes using response surface methodology. Chem. Eng. J., 166: 873–880.
- Montgomery, D.C. (2001) Design and Analysis of Experiments, 5th ed.; John Wiley & Sons: New York.
- Low, L.W.; Teng, T.T.; Alkarkhi, A.F.M.; Ahmad, A.; Norhashimah, M. (2011) Optimization of the adsorption conditions for the decolorization and COD reduction of methylene blue aqueous solution using low-cost adsorbent. Water Air Soil Pollut., 214: 185–195.
- APHA (2005) Standard methods for the examination of water and wastewater 21st ed., American Public Health Association (APHA), American Water Works Association (AWWA) and Water Environment Federation (WEF).
- Myers, R.H.; Montgomery, D.C. (2001) Response Surface Methodology: Process and Product Optimization Using Designed Experiments, 2nd ed.; John Wiley & Sons: New York, 2001.
- Karthikeyan, T.; Rajgopal, S.; Miranda, L.R. (2005) Chromium (VI) adsorption from aqueous solution by Hevea Brasilinesis sawdust activated carbon. J. Hazard. Mater., 124: 192–199.
- Lagergren, S. (1898) zur theorie der sogenannten adsorption geloster stoffe, Kungliga Svenska Vetenskapsakademiens. Handlingar, 24: 1–39.
- Ho, Y.S.; McKay, G. (1998) Sorption of dye from aqueous solution by peat. Chem. Eng. J., 70: 115–124.
- Weber, Jr. W.J.; Morris, J.C. (1963) Kinetics of adsorption on carbon from solution. Journal of the Sanitary Engineering Division. Proc. Am. Soc. Civil Eng., 89: 31–59.
- Wang, X.S.; Zhou, Y.; Jiang, Y.; Sun, C. (2008) The removal of basic dyes from aqueous solutions using agricultural by-products. J. Hazard. Mater., 157: 374–385.
- Zhang, Z.; Moghaddam, L.; Hara, I.M.O.; Doherty, W.O.S. (2011) Congo red adsorption by ball-milled sugarcane bagasse. Chem. Eng. J., 178: 122–128.
- Lata, H.; Garg, V.K.; Gupta, R.K. (2007) Removal of a basic dye from aqueous solution by adsorption using Parthenium hysterophorus: An agricultural waste. Dyes Pigments, 74: 653–658.
- Langmuir, I. (1918) The adsorption of gases on plane surfaces of glass, mica and platinum. J. Am. Chem. Soc., 57: 1361–1403.
- Freundlich, H. (1906) Über die adsorption in lösungen (adsorption in solution). Zeitschrift für Physikalische Chemie–Int. J. Res. Phy. Chem. Chem. Phy., 57: 384–470.
- Temkin, M.I.; Pyzhev, V. (1940) Kinetics of ammonia synthesis on promoted iron catalyst. Acta Phys. Chim. Sin. USSR, 12: 327–356.
- Dubinin, M.M.; Radushkevich, L.V. (1947) The equation of the characteristic curve of the activated charcoal. Dokl. Akad. Nauk. SSSR, 55: 327–329.
- Mohammed, A.; Akhtarm, H.K.; Shamin, A.; Ahmad, A. (1998) Role of sawdust in the removal of copper (II) from industrial waste. Water Res., 32: 3085–3091.
- Largura, M.C.T.; Debrassi, A.; Santos, H.H.D.; Marques, A.T.; Rodrigues, C.A. (2008) Adsorption of Rhodamine B onto O-carboxymethylchitosan-N-Lauryl. Sep. Sci. Technol., 45: 1490–1498.
- Al-Rashed, S.M.; Al-Gaid, A.A. (2012) Kinetic and thermodynamic studies on the adsorption behavior of Rhodamine B dye on Duolite C-20 resin. J. Saudi Chem. Soc., 16: 209–215.
- Kadirvelu, K.; Karthika, C.; Vennilamani, N.; Pattabhi, S. (2005) Activated carbon from industrial solid waste as an adsorbent for the removal of rhodamine B from aqueous solution: kinetic and equilibrium studies. Chemosphere, 60: 1009–1017.
- Sureshkumar, M.V.; Namasivayam, C. (2008) Adsorption behavior of direct red 12B and rhodamine B from water onto surfactant-modified coconut coir pith. Colloids Surf. A., 317: 277–283.
- Chang, S.H.; Wang, K.S.; Li, H.C.; Wey, M.Y.; Chou, J.D. (2009) Enhancement of rhodamine B removal by low cost fly ash sorption with Fenton pre-oxidation. J. Hazard. Mater., 172: 1131–1136.
- Khan, T.A.; Sharma, S.; Ali, I. (2011) Adsorption of rhodamine B dye from aqueous solution onto acid activated mango (Magnifera indica) leaf powder: equilibrium, kinetic and thermodynamic studies. J. Toxicol. Environ. Health Sci., 3: 286–297.
- Arivoli, S.; Thenkuzhali, M. (2008) Kinetic, mechanistic, thermodynamic and equilibrium studies on the adsorption of Rhodamine B by acid activated low cost carbon. E-J. Chem., 5: 187–200.