Removal of diazo dye from the aqueous phase by biosorption onto ball-milled maize cob (BMMC) biomass of Zea mays

Zvezdelina Lyubenova Yaneva; Nedyalka Valkanova Georgieva

doi:10.20450/mjcce.2013.80

Authors

Zvezdelina Lyubenova Yaneva Trakia University, Faculty of Veterinary Medicine
Nedyalka Valkanova Georgieva Trakia University, Faculty of Veterinary Medicine

DOI:

https://doi.org/10.20450/mjcce.2013.80

Keywords:

Zea mays, Congo red, FTIR, biosorption, equilibrium, kinetics

Abstract

The mechanism of Congo red (CR) biosorption by the agricultural waste material ball-milled maize cob (BMMC) biomass of Zea mays was studied by analyzing the effect of pH and biosorbent surface chemistry; the equilibrium and kinetic behavior of the sorbate/sorbent system were also investigated. Surface chemistry and morphology were characterized by potentiometric titration, pH of zero charge, FTIR analyses and digital microscopy (DM). The acidic and basic sites for the biomass were quantified as 3.68 and 5.25 mmol g^–1, respectively; therefore, the surface of the biomass was basic. The analysis of dye equilibrium isotherm data was done using the Langmuir, Freundlich and Redlich–Peterson models. CR biosorption on the agricultural waste biomaterial was mainly limited by chemisorption and/or intraparticle diffusion. The studies revealed that CR removal involved electrostatic interactions between negatively charged dye SO₃⁻groups and positively charged adsorbent surfaces, H–bonding between the oxygen- and nitrogen-containing functional groups of CR and the BMMC surface and hydrophobic–hydrophobic interactions between the dye and sorbent hydrophobic parts. The maximum biosorption capacity of Zea mays biomass (q 4.83 mg g^–1) occurred at pH 7.

Author Biographies

Zvezdelina Lyubenova Yaneva, Trakia University, Faculty of Veterinary Medicine

Department of Pharmacology, Animal Physiology and Physiological Chemistry, Chemistry Unit

Assist. Prof. Dr.

Nedyalka Valkanova Georgieva, Trakia University, Faculty of Veterinary Medicine

Department of Pharmacology, Animal Physiology and Physiological Chemistry, Chemistry Unit

Assoc. Prof. Dr.

References

D.T. Sponza, M. Isik, Toxicity and intermediates of C.I. Direct Red 28 dye through sequential anaerobic/aerobic treatment, Process Biochem. 40, 2735–2744 (2005).

X. Han, W. Wang, X. Ma, Adsorption characteristics of methylene blue onto low cost biomass material lotus leaf, Chem. Eng. J. 171, 1–8 (2011).

A. Tor, Y. Cengeloglu, Removal of congo red from aqueous solution by adsorption onto acid activated red mud, J. Hazard. Mater. B138, 409–415 (2006).

Azo Dyestuffs and ECOTEX testing for Europe STR, www.erols.com/strlab/azodyes.htm.

L. Wang, A. Wang, Adsorption properties of congo red from aqueous solution onto N,O-carboxymethyl-chitosan, Bioresource Technology 99, 1403–1408 (2008).

R. Sabnis, Handbook of Biological Dyes and Stains. Synthesis and Industrial Applications, Springer, John Wiley & Sons, New Jersey, Canada, 106-107, 2010.

H.M. Pinheiro, E. Touraud, O. Thomas, Aromatic amines from azo dye reduction: status review with emphasis on direct UV spectrophotometric detection in textile industry wastewaters, Dyes Pigments 61, 121–139 (2004).

C. Smaranda, M. Gavrilescu, D. Bulgariu, Studies on sorption of Congo Red from aqueous solution onto soil, Int. J. Environ. Res. 5, 1, 177-188, (2011).

V. Vimonses, S. Lei, B. Jin, C.W.K. Chow, C. Saint, Kinetic study and equilibrium isotherm analysis of Congo Red adsorption by clay materials, Chem. Eng. J. 148, 354–364 (2009).

T. Sen, S. Afroze, H.M. Ang, Equilibrium, kinetics and mechanism of removal of methylene blue from aqueous solution by adsorption onto pine cone biomass of Pinus radiate, Water Air Soil Poll. 218, 499-515 (2011).

N. Rajamohan, Equilibrium studies on sorption of an anionic dye onto acid activated water hyacinth roots, African J. Environ. Sci. Technol. 3, 11, 399-404 (2009).

R. Han, L. Zhang, C. Song, M. Zhang, H. Zhu, L. Zhang, Characterization of modified wheat straw, kinetic and equilibrium study about copper ion and methylene blue adsorption in batch mode, Carbohydrate Polymers 79, 1140–1149 (2010).

U. Farooq, M.A. Khan, W. Athar, J.A. Kozinski, Effect of modification of environmentally friendly biosorbent wheat (Triticum aestivum) on the biosorptive removal of cadmium (II) ions from aqueous solution, Chem. Eng. J. 171, 400-410 (2011).

S. Vieira, Z.M. Magriotis, N.A.V. Santos, M.G. Cardoso, A.A. Saczk, Macauba palm (Acrocomia aculeata) cake from biodiesel processing: An efficient and low cost substrate for the adsorption of dyes, Chem. Eng. J. 183 (2012), 152–161.

Z. Zhang, L. Moghaddam, I.M. O’Hara, W.O.S. Doherty, Congo Red adsorption by ball-milled sugarcane bagasse, Chem. Eng. J., 178, 122– 128 (2011).

Z. Yaneva, N. Georgieva, Insights into Congo Red Adsorption on Agro-Industrial Materials - Spectral, Equilibrium, Kinetic, Thermodynamic, Dynamic and Desorption Studies. A Review, International Review of Chemical Engineering (Rapid Communications) 4, 2, 127-146 (2012).

M. Elizalde-Gonzalez, J. Mattusch, R. Wennrich, Chemically modified maize cobs waste with enhanced adsorption properties upon methyl orange and arsenic, Bioresource Technology 99, 5134–5139 (2008).

M.F. Elahmadia, N. Bensalahb, A. Gadria, Treatment of aqueous wastes contaminated with Congo Red dye by electrochemical oxidation and ozonation processes, J. Hazard. Mater. 168, 1163–1169 (2009).

H.P. Boehm, Some aspects of the surface chemistry of carbon blacks and other carbons, Carbon 32, 759–769 (1994).

G. Issabayeva, M. K. Aroua, N. Meriam, N. Sulaiman, Removal of lead from aqueous solutions on palm shell activated carbon, Bioresource Technology 97, 2350–2355 (2006).

B.H. Hameed, Evaluation of papaya seed as a novel non-conventional low-cost adsorbent for removal of methylene blue, J. Hazard. Mater. 162, 939–994 (2010).

B. Koumanova, P. Peeva-Antova, Adsorption of p-chlorophenol from aqueous solutions on bentonite and perlite, J. Hazard. Mater. 90, 3, 229-234 (2002).

I. Langmuir, The constitution and fundamental properties of solids and liquids, J. Am. Chem. Soc. 38, 2221 (1916).

H. Freundlich, Über die Adsorption in Lösungen, J. Phys. Chem. 57, 385–470 (1907).

O. Redlich, D. L. Peterson, A useful adsorption isotherm, J. Phys. Chem. 63, 1024–1026 (1959).

S. Lagergren, Zur theorie der sogenannten adsorption gelöster stoffe, Kungliga Svenska Vetenskapsakademiens. Handlingar 24, 1–39 (1898).

Y.S. Ho, G. McKay, Kinetic model for lead (II) sorption onto peat, Adsorption Science & Technology 16, 243–255 (1998).

S.Z. Roginsky, Y. Zeldovich, Acta Phys. Chem. USSR 1, 554 (1934).

S.H. Chien, W.R. Clayton, W.R. Application of Elovich equation to the kinetics of phosphate release and sorption on solids. Soil Science Society of America Journal 44, 265–268 (1980).

V. Vimonses, B Jin, C. W.K. Chow, Insight into removal kinetic and mechanisms of anionic dye by calcined clay materials and lime, J. Hazard. Mater. 177, 420–427 (2010).

Y. Yang, G. Wang, B. Wang, Z. Li, X. Jia, Q. Zhou, Y. Zhao, Biosorption of Acid Black 172 and Congo Red from aqueous solution by nonviable Penicillium YW 01: Kinetic study, equilibrium isotherm and artificial neural network modeling, Bioresource Technology 102, 828–834 (2011).

R. Ahmad, R. Kumar, Adsorptive removal of congo red dye from aqueous solution using bael shell carbon, Applied Surface Science 257, 1628–1633 (2010).

P. Kumar, S. Ramalingam, C. Senthamarai, M. Niranjanaa, P. Vijayalakshmi, S. Sivanesan, Adsorption of dye from aqueous solution by cashew nut shell: Studies on equilibrium, isotherm, kinetics and thermodynamics of interactions, Desalination 261, 52–60 (2010).

L. Nadjia, E. Abdelkader, B. Ahmed, Photodegradation study of Congo Red in aqueous solution using ZnO/UV-A: Effect of pH and band gap of other semiconductor groups, J. Chem. Eng. Process. Technol. 2, 2, 1-9 (2011).

M. Movahedi, A.R. Mahjoub, S. Janitabar-Darzi, Photodegradation of Congo Red in aqueous solution on ZnO as an alternative catalyst to TiO2, J. Iran. Chem. Soc. 6, 3, 570-577 (2009).

Z. Hu, H. Chen, F. Ji, S. Yuan, Removal of Congo Red from aqueous solution by cattail root, J. Hazard. Mater. 173, 292–297 (2010).

Removal of diazo dye from the aqueous phase by biosorption onto ball-milled maize cob (BMMC) biomass of Zea mays

Authors

DOI:

Keywords:

Abstract

Author Biographies

Zvezdelina Lyubenova Yaneva, Trakia University, Faculty of Veterinary Medicine

Nedyalka Valkanova Georgieva, Trakia University, Faculty of Veterinary Medicine

References

Downloads

Published

How to Cite

Issue

Section

License

Information

Make a Submission

Browse

Developed By