Run Fang, Xian-Su Cheng, Jian Fu, Zuan-Bin Zheng
1College of Material Science and Engineering, Fuzhou University, Fuzhou 350002, China; 2Department of Chemistry and Chemical Engineering, Minjiang University, Fuzhou 350011, China..
College of Material Science and Engineering, Fuzhou University, Fuzhou 350002, China.
DOI: 10.4236/ns.2009.11004   PDF    HTML     7,149 Downloads   12,648 Views   Citations

Abstract

Lignin isolated from enzymatic hydrolyzed corn-stalks (EH-lignin) is a renewable natural polymer noted for its versatility and applicability in a vari-ety of uses. Graft copolymerization of EH-lignin with acrylamide (AM) and the application of this copolymer as a flocculant in dye wastewater treatment were studied in this article. The influ-ences of some factors on yield of copolymer and the grafting ratio were investigated and the structure of EH-lignin/AM graft copolymer was characterized by FT-IR. According to the yield and the grafting ratio, the optimum conditions for graft copolymerization were as follows: initiator K2S2O8-Na2S2O3 with a quantity 3 wt% of EH-lignin, mass ratio of AM to EH-lignin was 2~3, reaction time 4h and temperature at 50℃. It was found that the absorption capacity of graft copolymer to two azo-dyes was enhanced with the increase of grafting ratio. Furthermore, the residue concen-tration of EH-lignin/AM graft copolymer remained in the supernatant after flocculation was much lower than that of pure EH-lignin.

Keywords

Lignin; Acrylamide; Graft Copolymerization; Dye Wastewater; Decoloration

Share and Cite:

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1]	Rafael, L., Lorenzo, H. D. and Juan, M. (2008) Biofuels: A technological perspective. Energy Environ. Sci., 1, 542-564.
[2]	Roussy, J., Van, V. M. and Dempsey, B. A. (2005) Influ-ence of chitosan characteristics on the coagulation and the flocculation of bentonite suspensions. Water Research, 39(14), 3247-3258.
[3]	Sarasa, J., Roche, M. P. and Ormad, M. P. (1998) Treat-ment of a wastewater resulting from dyes manufacturing with ozone and chemical coagulation. Water Research, 32(9), 2721-2727.
[4]	Bousher, A., Shen, X. and Edyvean, R. G. (1997) Removal of coloured organic matter by adsorption onto low-cost waste materials. Water Research, 31(8), 2084-2092.
[5]	Wu, Y., Zhang, S. and Guo, X. (2008) Adsorption of chromium (III) on lignin. Bioresource Technology, 99(16), 7709-7715.
[6]	Dizhbite, T., Zakis, G. and Kizima, A. (1999) Lignin-a useful bioresource for the production of sorption-active materials. Bioresource Technology, 67(3), 221-228.
[7]	Cheng, X. S. and Liu X. L. (2006) Separation of lignin from cornstalks residue by enzymatic hydrolysis and its properties. Modern Chemical Industry, 26, Supplement, 99-102.
[8]	Fang, R., Chen, Y. P. and Cheng X. S. (2007) Application of organosolv lignin on polymer synthesis and modifica-tion. Journal of Cellulose Science and Technology, 15(3), 56-60.
[9]	Zhang, X. H., Cheng, X. S. and Tang, J. (2006) Adsorp-tion of bromelain with HBS lignin and its derivatives. Chinese Journal of Process Engineering, 6, 87-90.
[10]	Chen, Y. P., Zhang, T. T. and Cheng X. S. (2005) The ad-sorption of phenol by high boiling solvent lignin. Journal of Cellulose Science and Technology, 13(2), 20-25.
[11]	Zhao, B. Y., Hu, K. A., Fan, Y. Z., Zhu, P. F. and Wu, R. J. (2000) Infrared spectroscopic study on lignosulfonic acid and its derivatives. Chinese Journal of Analytical Chem-istry, 28, 716-719.
[12]	Chen, Y. P. and Cheng X. S. (2008) Preparation and char-acteristic analysis of rice husk high boiling solvent lignin. Journal of Forestry Research, 19, 159-163.
[13]	Roussy, J., Van, V. M. and Dempsey, B. A. (2005) Influ-ence of chitosan characteristics on the coagulation and the flocculation of bentonite suspensions. Water Research, 39(14), 3247-3258.