Home| Journals | Statistics Online Expert | About Us | Contact Us
    About this Journal  | Table of Contents
Untitled Document

[Abstract] [PDF] [HTML] [Linked References]

International Journal of Statistika and Mathematika, ISSN: 2277- 2790 E-ISSN: 2249-8605

Volume 5, Issue 1, Febraury 2013 pp 06-15

Research Article

Response Surface Methodology for Optimization of Zinc Biosorption By Grewia Orbiculata L.

 

Rakesh Namdeti, King Pulipati

Environmental Pollution Control Engineering Laboratory, Department of Chemical Engineering, Andhra University College of Engineering, Visakhapatnam - 530003, Andhrapradesh, INDIA.

 

Academic Editor: Dr. Dase R.K.

 

Linked References
    1. A. E MARTELL AND R. M. SMITH, 1977. Critical Stability Constants (Inorganic Chemistry), vol. IV, Plenum, New York, (1977).
    2. A. ESPOSITO, F. PAGNANELLI, F. VEGLIO, 2002. pH related equilibria models for biosorption in single metal systems, Chem. Eng. Sci. 57 (2002) 307–313.
    3. A. IYER, K. MODY, B. JHA, (2004), Accumulation of hexavalent chromium by an exopolysaccharide producing marine Enterobacter cloaceae, Mar. Pollut. Bull. 49, 974–977, 2004.
    4. BOX GEP, WILSON KB (1951) On the experimental attainment of optimum conditions, J R Stat Soc 13: 1-45, 1951.
    5. B. VOLESKY, IN: B. VOLESKY (Ed.), 1990. Biosorption of Heavy Metals, CRC Press, Boca Raton, 1990, p. 3.
    6. COCHRAN WG, COX GM (1957) Experimental Designs, second ed Wiley New York 346-354, 1957.
    7. C. AHARONI, M. UNGARISH, (1977), Kinetics of activated chemisorption Part 2. The oriental models, J. Chem. Soc. Faraday Trans. 73, 456-464, 1977.
    8. EPA, 1976. Application of Sewage Sludge to Cropland, Office of Water Prog Operations, US Environmental Agency, Washington, DC, USA, 1976.
    9. F.A. ABU AL-RUB, M.H. EL-NAAS, F. BENYAHIA, (2004), I. Ashour, Biosorption of nickel on blank alginate beads, free and immobilized algal cells, Process. Biochem. 39, 1767–1773, 2004.
    10. FARSHID G, HABIBOLLAH Y (2008) Application of response surface methodology for optimization of cadmium biosorption in an aqueous solution by Saccharomyces cerevisiae. Chem Eng J 145: 267-275, 2008.
    11. G. OZDEMIR, N. CEYHAN, T. OZTURK, F. AKIRMAK, T. COSAR, (2004),  Biosorption of chromium(VI), camium(II) and copper(II) by Pantoea sp. TEM 18, Chem. Eng. J. 102, 249–253, 2004.
    12. H. CRIST RAY, K. OBERHOLSER, N. SHANK, M. NGUYEN, 1981. Environ. Sci. Technol.15 (1981) 1212.
    13. H.M.F. FREUNDLICH, (1906), Over the adsorption in solution, J. Phys. Chem. 57, 385-470, 1906.
    14. I. LANGMUIR, (1916), The adsorption gasses on plane surface of glass, mica and platinum, J. Am. Chem. soc. 40, 1361-1368, 1916.
    15. J. M. MURRAY AND J. R. DILLARD, 1979. Geochim. Cosmochim. Acta 43 (1979) 781.
    16. JING HE, SONG HONG, LIANG ZHAN, FUXING GAN, AND YUH-SHAN HO, 2010. “Equilibrium and thermodynamic parameters of adsorption of methylene blue onto rectorite” vol 19, no.11A, Fresenius Environmental Bulletin, 2010.
    17. K.G. BHATTACHARYYA, A. SHARMA, (2004), Adsorption of Pb(II) from aqueous solution by Azadirachta indica (Neem) leaf powder, J. Hazard. Mater. B113, 97–109, 2004.
    18. KUMAR R, SINGH R (2009) Response surface methodology approach for optimization of biosorption process for removal of Cr (VI), Ni (II) and Zn (II) ions by immobilized bacterial biomass, sp.Bacillus Brevis. Chem Eng J 146: 401-407, 2009.
    19. L. NORTON, K. BASKARAN, S.T.MCKENZIE, 2004. “Biosorption of zinc from aqueous solutions using biosolids”, Adv. Environ. Res., 8, 2004, 629-635.
    20. 10. PREETHA B, VIRUTHAGIRI T (2007) Application of response surface methodology for the biosorption of copper using Rhizopus arrhizus. J Hazard Mater 143: 506-510, 2007.
    21. P.X. SHENG, Y.P. TING, J.P. CHEN, L. HONG, (2004), Sorption of lead, copper, cadmium, zinc, and nickel by marine algal biomass: characterization of biosorptive capacity and investigation of mechanisms, J. Colloid Interface Sci. 275, 131–141, 2004.
    22. R. GONG,Y.D. DING, H. LIU, Q. CHEN, Z. LIU, (2005), Lead biosorption by intact and pretreated Spirulina maxima biomass, Chemosphere 58, 125–130, 2005.
    23. S. LAGERGREN, S. KUNGLIGA SVENSKA VENTENSKAPSAKADEMIENS,1898. Handlingar, (1898),  Band 24 (4) 1.
    24. S.TUNALI, A. CABUK,T. AKAR, 2006. Removal of lead and copper ions from aqueous solutions by bacterial strain isolated from soil, Chem. Eng. J. 115 (2006) 203–211.
    25. T.SANTHI, S.MANONMANI, T.SMITHA, 2010. “Kinetics and isotherm studies on cationic dyes adsorption onto annona squmosa seed activated carbon” International journal of engineering science and technology, 2(3), 2010, 287-295.
    26. Y.S. HO, E. MCKAY, (1998), “The kinetics of sorption of basic dyes from aqueous solution by Sphagnum moss pea”t, Can. J. Chem. Eng. 76, 822–827, 1998.
    27. ZAWANI Z, LUQMAN CHUAH A, THOMAS S Y CHOONG, 2009. “Equilibrium, Kinetics, Thermodynamic Studies: Adsorption of ramazol black 5 on the palm kernel shell activated carbon”, European Journal of scientific research, 37, 1, (2009), pp.63-71.
 
 
 
 
 
  Copyrights statperson consultancy www

Copyrights statperson consultancy www.statperson.com  2013. All Rights Reserved.

Developer Details