Journal of Engineering and Applied Sciences
Year:
2019
Volume:
14
Issue:
14
Page No.
4900 - 4904
References
Acemioglu, B., 2004. Adsorption of Congo red from aqueous solution onto calcium-rich fly ash. J. Colloid Interface Sci., 274: 371-379.
CrossRef | Babel, S. and T.A. Kurniawan, 2003. Low-cost adsorbents for heavy metals uptake from contaminated water: A review. J. Hazard. Mater., 97: 219-243.
CrossRef | PubMed | Direct Link | Celekli, A., B. Tanrıverdi and H. Bozkurt, 2011. Predictive modeling of removal of Lanaset Red G on
Chara contraria: kinetic, equilibrium and thermodynamic studies. Chem. Eng. J., 169: 166-172.
CrossRef | Direct Link | Chaari, I., E. Fakhfakh, S. Chakroun, J. Bouzid and N. Boujelben
et al., 2008. Lead removal from aqueous solutions by a Tunisian smectitic clay. J. Hazard. Mater., 156: 545-551.
CrossRef | PubMed | Direct Link | Chakraborty, S., S. Chowdhury and P.D. Saha, 2011. Adsorption of crystal violet from aqueous solution onto naoh-modified rice husk. Carbohydrate Polymers, 84: 1533-1541.
CrossRef | Chaudhary, A.J., B. Ganguli and S.M. Grimes, 2002. The use of chromium waste sludge for the adsorption of colour from dye effluent streams. J. Chem. Technol. Biotechnol. Intl. Res. Process Environ. Clean Technol., 77: 767-770.
CrossRef | Direct Link | Daneshvar, N., H.A. Sorkhabi and M.B. Kasiri, 2004. Decolorization of dye solution containing Acid Red 14 by electrocoagulation with a comparative investigation of different electrode connections. J. Hazard. Mater., 112: 55-62.
CrossRef | Direct Link | Etim, U.J., S.A. Umoren and U.M. Eduok, 2016. Coconut coir dust as a low cost adsorbent for the removal of cationic dye from aqueous solution. J. Saudi Chem. Soc., 20: 67-76.
CrossRef | Direct Link | Gupta, V.K., R. Jain, A. Mittal, T.A. Saleh and A. Nayak
et al., 2012. Photo-catalytic degradation of toxic dye amaranth on TiO
2/UV in aqueous suspensions. Mater. Sci. Eng. C., 32: 12-17.
CrossRef | PubMed | Direct Link | Haddadian, Z., M.A. Shavandi, Z.Z. Abidin, A.H.M.A.D.U.N. Fakhru’l-Razi and M.H.S. Ismail, 2013. Removal methyl orange from aqueous solutions using dragon fruit (Hylocereusundatus) foliage. Chem. Sci. Trans., 2: 900-910.
CrossRef | Direct Link | Hashemian, S., K. Salari and Z.A. Yazdi, 2014. Preparation of activated carbon from agricultural wastes (almond shell and orange peel) for adsorption of 2-pic from aqueous solution. J. Ind. Eng. Chem., 20: 1892-1900.
CrossRef | Direct Link | Hejazifar, M., S. Azizian, H. Sarikhani, Q. Li and D. Zhao, 2011. Microwave assisted preparation of efficient activated carbon from grapevine rhytidome for the removal of methyl violet from aqueous solution. J. Anal. Appl. Pyrolysis, 92: 258-266.
CrossRef | Direct Link | Jalandoni-Buan, A.C., A.L.A. Decena-Soliven, E.P. Cao, V.L. Barraquio and W.L. Barraquio, 2010. Characterization and identification of Congo red decolorizing bacteria from monocultures and consortia. Philippine J. Sci., 139: 71-78.
Direct Link | Kaur, H., Swati and K. Rajvir, 2014. Kinetic and Isotherm studies of Congo red adsorption from aqueous solution by biowaste material. Chem. Sci. Trans., 3: 1300-1309.
CrossRef | Direct Link | Khan, A.R., F. Uddin and S.Z. Ahmed, 2002. Adsorption behaviour of citric acid from aqueous solutions on activated charcoal. Pak. J. Sci. Ind. Res., 45: 82-85.
Lee, C.K., K.S. Low and L.C. Chung, 1997. Removal of some organic dyes by hexane‐extracted spent bleaching earth. J. Chem. Technol. Biotechnol. Intl. Res. Process Environ. Clean Technol., 69: 93-99.
CrossRef | Direct Link | Mabrouk, M.E.M. and H.H. Yusef, 2008. Decolorization of fast red by
Bacillus subtilis HM. J. Applied Sci. Res., 4: 262-269.
Direct Link | Martin, M.J., A. Artolo, M.D. Balayer and M. Rigola, 2003. Activated carbons developed from surplus sewage sludge for the removal of dyes from dilute aqueous solutions. Chem. Eng. J., 94: 231-239.
Direct Link | Mera, S.L. and J.D. Davies, 1984. Differential Congo red staining: The effects of pH, non-aqueous solvents and the substrate. Histochemical J., 16: 195-210.
PubMed | Direct Link | Mohan, S.V., S.V. Ramanaiah and P.N. Sarma, 2008. Biosorption of direct azo dye from aqueous phase onto
Spirogyra sp. I02: Evaluation of kinetics and mechanistic aspects. Biochem. Eng. J., 38: 61-69.
CrossRef | Direct Link | Nasuha, N., B.H. Hameed and A.T.M. Din, 2010. Rejected tea as a potential low-cost adsorbent for the removal of methylene blue. J. Hazard. Mater., 175: 126-132.
CrossRef | Direct Link | Olukanni, O., A. Osuntoki and G.O. Gbenle, 2009. Decolourization of AZO dyes by a strain of Micrococcus isolated from a refuse dump soil. Biotechnol., 8: 442-448.
CrossRef | Direct Link | Rattanawong, O., L. Kaewsichan, N. Grisdanurak and A. Yuasa, 2007. Sorption of oil emulsified in water on oil palm fibers. Korean J. Chem. Eng., 24: 67-71.
CrossRef | Direct Link | Soni, M., A.K. Sharma, J.K. Srivastava and J.S. Yadav, 2012. Adsorptive removal of methylene blue dye from an aqueous solution using water hyacinth root powder as a low cost adsorbent. Intl. J. Chem. Sci. Appl., 3: 338-345.
Direct Link | Toor, M. and B. Jin, 2012. Adsorption characteristics, isotherm, kinetics and diffusion of modified natural bentonite for removing diazo dye. Chem. Eng. J., 187: 79-88.
Direct Link | Van Der Zee, F.P., 2002. Anaerobic azo dye reduction. Ph.D. Thesis, University in Wageningen, Wageningen, Netherlands.
Vijayakumar, G., M. Dharmendirakumar, S. Renganathan, S. Sivanesan and G. Baskar
et al., 2009. Removal of Congo red from aqueous solutions by perlite. Clean Soil, Air, Water, 37: 355-364.
CrossRef | Direct Link | Vimonses, V., S. Lei, B. Jin, C.W. Chow and C. Saint, 2009. Adsorption of Congo red by three Australian kaolins. Appl. Clay Sci., 43: 465-472.
CrossRef | Direct Link | Vinoth, M., H.Y. Lim, R. Xavier, K. Marimuthu and S. Sreeramanan
et al., 2010. Removal of methyl orange from solutions using yam leaf fibers. Intl. J. Chem. Tech. Res., 2: 1892-1900.
Yagub, M.T., T.K. Sen, S. Afroze and H.M. Ang, 2014. Dye and its removal from aqueous solution by adsorption: A review. Adv. Colloid Interface Sci., 209: 172-184.
CrossRef | Direct Link |