Browse > Article
http://dx.doi.org/10.14478/ace.2014.1035

Biosorption of Copper Ions by Recycling of Castanea crenata  

Choi, Suk Soon (Department of Biological and Environmental Engineering, Semyung University)
Publication Information
Applied Chemistry for Engineering / v.25, no.3, 2014 , pp. 307-311 More about this Journal
Abstract
In this present study, Castanea crenata was found as an excellent biosorbent for the removal capability of copper ions among four different wood wastes (Castanea crenata, Pinus densiflora, Larix kaemoferi and Robinia pseudoacaia). Also, the removal efficiencies of 5, 10, 20, 40 and 50 mg/L copper ions using Castanea crenata from aqueous solution were investigated. The most effective particle size of Castanea crenata for removing 5 mg/L copper ions was found to be $43{\sim}63{\mu}m$. When the concentration of Castanea crenata increased, the removal efficiencies of copper ions were enhanced. In addition, when the 0.8 g/100 mL of Castanea crenata was used for 30 min, the removal efficiencies of 20 and 40 mg/L copper ions were 99% and 85%, respectively. Moreover, the chemical treatment of Castanea crenata with 1 M sodium acetate was required to improve the removal ability for 50 mg/L copper ions. Meanwhile, 1 M hydrochloric acid was selected as the optimal desorption agent with 93% desorption efficiency of copper ions for recycling of modified Castanea crenata. Therefore, these experimental results could be employed as economical and practical engineering data for the development of copper removal processes.
Keywords
Castanea crenata; removal efficiencies of copper ions; recycling of modified Castanea crenata;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 S.-K. Park, H.-N. Kim, and Y.-K. Kim, Efficiency of Cu(II) adsorprion bychemical modification of pine bark, J. Kor. Soc. Environ. Eng., 29(8), 930-937 (2007).
2 M. Bilal, J. A. Shah, T. Ashfaq, S. M. H. Gardazi, A. A. Tahir, A. Pervez, H.Haroon, and Q. Mahmood, Waste biomass adsorbents for copper removalfrom industrial wastewater-A review, J. Hazard. Mater., 263, 322-333 (2013).   DOI   ScienceOn
3 K. K. Panday, G. Prasad, and V. N. Singh, Copper(II) removal from aqueoussolutions by fly ash, Water Res., 19(7), 869-873 (1985).   DOI   ScienceOn
4 K. K. Panday, G. Prasad, and V. N. Singh, Use of wollastonite for thetreatment of Copper(II) rich effluents, Water Air Soil Poll., 27(3-4), 287-296 (1986).   DOI
5 F. N. Acar and Z. Eren, Removal of Cu(II) ions by activated poplar sawdust(Samsun Clone) from aqueous solutions, J. Hazard. Mater., B137, 909-914 (2006).
6 Z. Aksu, F. Gonen, and Z. Demircan, Biosorption of chromium(VI) ions byMowital$^{(R)}$B30H resin immobilized activated sludge in a packed bed:comparison with granular activated carbon, Proc. Biochem. 38, 175-186 (2002).   DOI   ScienceOn
7 H. Lalhruaitluanga, K. Jayaram, M. N. V. Prasad, and K. K. Kumar, Lead(II) adsorption from aqueous solution by raw and activated charcoals of Melocanna baccifera Roxburgh (bamboo)-A comparative study, J. Hazard. Mater., 175, 311-318 (2010).   DOI   ScienceOn
8 L. Norton, K. Baskaran, and T. McKenzie, Biosorption of Zinc from aqueoussolutions using biosolids, Advances in Environ. Research, 8, 629-635 (2004).   DOI   ScienceOn
9 H-Y. Lee, C. Jeon, and S. S. Choi, Adsorption characteristics of heavy metal ions onto chemically modified rice husk and sawdust from Aqueous solutions, Kor. J. Environ. Agric., 28(2), 158-164 (2009).   과학기술학회마을   DOI
10 M. I. Martin, F. A. Lopez, C. Perez, A. Lopez-Delgado, and F. J. Alguacil,Adsorption of heavy metals from Aqueous solutions with by-products of thesteelmaking industry, J. Chem. Technol. Biotechnol., 80, 1223-1229 (2005).   DOI
11 Y. H. Kim, J. Y. Park, Y. J. Yoo, and J. W. Kwak, Removal of lead usingxanthated marine brown alga, Undaria pinnatifida, Proc. Biochem. 34, 647-652 (1999).   DOI
12 B. Yu., Y. Zhang, A. Shukla, S. S. Shukla, and K. L. Dorris, The removal ofheavy metal from aqueous solutions by sawdust adsorption-removal of copper, J. Hazard. Mater., B80, 33-42 (2000).
13 M. Iqbal and R.G.J. Edyvean, Biosorption of lead, copper and zinc ions onloofa sponge immobilized biomass of sponge immobilized biomass of Phanerochaete chrysosporium, Miner. Eng., 17, 217-223 (2004).   DOI   ScienceOn
14 A. Selatnia, A. Boukazoula, N. Kechid, M. Z. Bakhti, A. Chergui, and Y. Kerchich, Biosorption of lead(II) from aqueous solution by a bacterial deadStreptomyces rimosus biomass, Biochemical Eng. J., 19, 127-135 (2004).   DOI   ScienceOn
15 C. Jeon, Removal of copper using rice hulls, J. Industrial and Eng. Chem. 17(3), 517-520 (2007).
16 T.-S. Shin, B.-S. Lim, S.-W. Lee, K.-G. Rhu, S.-K. Jeong, and K.-Y. Kim, Effect of immobilization of method in the biosorption and desorption of leadby algae, Chlorella pyrenoidosa, J. Kor. Soi. Environ. Eng., 31(8), 663-672 (2009).