Browse > Article
http://dx.doi.org/10.14478/ace.2016.1045

Removal of Cadmium Ions Using Robina pseudoacacie Bark  

Choi, Suk Soon (Department of Biological and Environmental Engineering, Semyung University)
Kim, Min-Ji (Department of Biological and Environmental Engineering, Semyung University)
Cha, Hyung Joon (School of Interdisciplinary of Bioscience and Biotechnology, Pohang University of Science and Technology)
Publication Information
Applied Chemistry for Engineering / v.27, no.3, 2016 , pp. 330-334 More about this Journal
Abstract
Because several wood barks are massively produced in the forest area of Chungbuk province, it is required to develop technologies for their effective utilization. In this study, three kinds of barks from Robina pseudoacacie, Pinus densiflora, and Castanea crenata were used to remove water-soluble cadmium ions having 10, 20, 50, and 100 mg/L concentrations in each batch experiments, and R. pseudoacacie bark was selected as the most excellent biosorbent. Also, treatments with various acids and bases were performed to increase the removal efficiency of 100 mg/L cadmium ions using R. pseudoacacie bark as a biosorbent. When R. pseudoacacie bark was modified with 0.5 M KOH, the relatively high removal efficiency and adsorption amount of cadmium ions were obtained. In addition, when 9 M KOH-treated R. pseudoacacie bark was used for 30 min, the highest removal efficiency of 100 mg/L cadmium ions was 84.3%. Therefore, this experimental result can be effectively used as an environmental-friendly bioremediation technology to remove cadmium ions existed with various concentrations in water bodies and soils.
Keywords
Robina pseudoacacie bark; removal of cadmium ions; bioremediation;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 M.-H. Baek and D.-S. Kim, Adsorption treatment characteristics of cadmium ion containing wastewater using waste tire as an adsorbent, J. Kor. Soc. Water Qual., 22(3), 498-503 (2006).
2 H.-S. Shin, C.-H. Lee, Y.-S. Lee, and K.-H. Kang, Removal of Heavy Metal from aqueous solution by a column packed with peat-humin, J. Kor. Soc. Environ. Eng., 27(5), 535-541 (2005).
3 Y.-H. Li, S. Wang, Z. Luan, J. Ding, C. Xu, and D. Wu, Adsorption of cadmium(II) from aqueous solution, Carbon, 41, 1057-1062 (2003).   DOI
4 F. Fu and Q. Wang, Removal of heavy metal ions from wastewater: A review, J. Environ. Manage., 92, 407-418 (2011).   DOI
5 J. Fu, Q. Zhou, J. Liu, W. Liu, T. Wang, Q. Zhang, and G. Jiang, High levels of heavy metals in rice (Oryza sativa L.) from a typical E-waste recycling area in southest China and its potential risk to human health, Chemosphere, 71, 1269-1275 (2008).   DOI
6 A. Rathinam, B. Maharshi, S. K. Janardhanan, R. R. Jonnalagadda, and B. U. Nair, Biosorption of cadmium metal ion from simulated wastewaters using Hypnea valentiae biomass: A kinetic and theromodynamic study, Bioresour. Technol., 101, 1466-1470 (2010).   DOI
7 X. Xiao, S. Luo, G. Zeng, W. Wei, Y. Wan, L. Chen, H. Guo, Z. Cao, L. Yang, J. Chen, and Q. Xi, Biosorption of cadmium by endophytic fungus (EF) Microsphaeropsis sp. LSE10 isolated from cadmium hyperaccumulator Solanum nigrum L., Bioresour. Technol., 101, 1668-1674 (2010).   DOI
8 M. F. Ahmad, S. Haydar, A. A. Bhatti, and A. J. Bari, Application of artificial neural network for the prediction of biosorption capacity of immobilized Bacillus subtilis for the removal of cadmium ions from aqueous solution, Biochem. Eng. J., 84, 83-90 (2014).   DOI
9 P. Arivalagan, D. Singaraj, V. Haridass, and T. Kaliannan, Removal of cadmium from aqueous solution by batch studies using Bacillus cereus, Ecol. Eng., 71, 728-735 (2014).   DOI
10 W.-B. Lu, J.-J. Shi, C.-H. Wang, and J.-S. Chang, Biosorption of lead, copper and cadmium by an indigenous isolate Enterobacter sp. J1 possessing high heavy-metal resistance, J. Hazard. Mater. B, 134, 80-86 (2006).   DOI
11 K. Tsekova, D. Todorova, V. Dencheva, and S. Ganeva, Biosorption of copper(II) and cadmium(II) from aqueous solutions by free and immobilized biomass of Aspergillus niger, Bioresour. Thechnol., 101, 1727-1731 (2010).   DOI
12 R. Vimala, and N. Das, Biosorption of Cadmium (II), and lead (II) from aqueous solutions using mushrooms: A comparative study, J. Hazard. Mater., 168, 376-382 (2009).   DOI
13 P. Vasudevan, V. Padmavathy, and S. C. Dhingra, Kinetics of biosorption of cadmium on baker's yeast, Bioresour. Thechnol., 89, 281-287 (2003).   DOI
14 Y. Goksungur, S. Uren, and U. Guvenc, Biosorption of cadmium and lead ions by ethanol treated waste baker's yeast biomass, Bioresour. Thechnol., 96, 103-109 (2005).   DOI
15 L. S. Ferreira, M. S. Rodrigues, J. C. M. D. Carvalho, A. Lodi, E. Finocchio, P. Perego, and A. Converti, Adsorption of $Ni^{2+}$, $Zn^{2+}$, and $Pb^{2+}$ onto dry biomass of Arthrospira (Spirulina) platensis and Chlorella vulgaris. I. single metal systems, Chem. Eng. J., 173, 326-333 (2011).   DOI
16 C. Jeon, Removal of copper ion using rice hulls, J. Ind. Eng. Chem., 17, 517-520 (2011).   DOI
17 D. Bulgariu and L. Bulgariu, Equilibrium and kinetics studies of heavy metal ions biosorption on green algae waste biomass, Bioresour. Technol., 103, 489-493 (2012).   DOI
18 P. Lodeiro, B. Cordero, J. L. Barriada, R. Herrero, and M. E. S. D. Vicente, Biosorption of cadmium by biomass of brown marine macroalgae, Bioresour. Technol., 96, 1796-1803 (2005).   DOI
19 U. Kumar and M. Bandyopadhay, Sorption of cadmium from aqueous solution using pretreated rice husk, Bioresour. Technol., 97, 104-109 (2006).   DOI
20 S.-K. Park, H.-N. Kim, and Y.-K. Kim, Efficacy of Cu(II) adsorption by chemical modification of pine bark, J. Kor. Soc. Environ. Eng., 29(8), 930-937 (2007).
21 I. Gaballah, D. Goy, E. Allain, G. Kilbertus, and J. Thauront, Recovery of copper through decontamination of synthetic solutions using modified barks, Metall. Mater. Trans. B, 28, 13-23 (1997).   DOI
22 I. Gaballah and G. Kilbertus, Recovery of heavy metal ions through decontamination of synthetic solutions and industrial effluents using modified barks, J. Geochem. Explor., 62, 241-286 (1998).   DOI
23 T. G. Ammari, Utilization of a natural ecosystem bio-waste; leves of Arundo donax reed, as a raw material of low-cost eco-biosorbent for cadmium removal from aqueous phase, Ecol. Eng., 71, 466-473 (2014).   DOI
24 Y. H. Kim, J. Y. Park, Y. J. Yoo, and J. W. Kwak, Removal of lesd using xanthated marine brown alga, Undaria pinnatifida, Process Biochem., 34, 647-652 (1999).   DOI
25 S. H. Min, J. S. Han, E. W. Shin, and J. K. Park, Improvement of cadmium ion removal by base treatment of juniper fiber, Water Res., 38, 1289-1295 (2004).   DOI