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Removal of Heavy Metal Ions from Aqueous Solution by Leaves  

Kim, Jong-Geu (Department of Health Administration, Gachon University of Medicine and Science)
Lee, Jang-Hoon (Department of Environmental Engineering, Graduate School Hoseo University)
Lee, Su-Yong (Department of Environmental Engineering, Graduate School Hoseo University)
Na, Kyung-Won (Department of Environmental Engineering, Graduate School Hoseo University)
Ra, Kyu-Hwan (Department of Environmental Science, Yonsei University)
Choi, Han-Young (School of Human & Environmental Science, Eulji University)
Publication Information
Journal of environmental and Sanitary engineering / v.24, no.2, 2009 , pp. 31-39 More about this Journal
Abstract
In this research, I carried out the adsorption and removal test of Pb, Ni, Co and Cu ions using organic substances spread out any where in the nature which can be obtained easily from our neighbor-such as Paulownia coreana, Pinus densiflora, Juniperus chinesis, Quercus dentata, Magnolia kobus, Platanus occidentalis, Gingko biloba, Diospyros kaki leaves. As the result of the research to find the best optional condition for the adsorption and removal, shows that the adsorption and removal ratio of Pb ion by a Paulownia coreana raw leaves is 99% at $70^{\circ}C$, those of Ni ion and Co ion by Magnolia kobus formalin treatment leaves are 79% at $70^{\circ}C$, 97% at $40^{\circ}C$ respectively. And that of Cu ion by Platanus occidentalis treatment leaves is 97% at $50^{\circ}C$ in mixed solution. As the result of comparing the removal ratio by raw leaves and formalin treatment leaves, the removal ratio of treatment is 30~90% more effective than raw leaves in most cases. And I concluded Pb > Cu > Co > Ni ion in multiple solution and Co > Ni > Cu >Pb ion in single solution after testing adsorption and removal ratio of mixed solution separately as time goes by. In general, the reactions were completed within first 5 minutes. The test result of measuring the hydrolysable tannin content of each leaf shows that an overcup Quercus dentata is 11.36%, a Diospyros kaki is 10.81% and the rest of them are 2.49~4.12% in raw leaves cases. In treatment leaves cases, an overcup Quercus dentata is 3.23% and the others are less than 1%.
Keywords
Leaves; Adsorption and Removal; Heavy metal ion; Tannin;
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1 Radi Salin ; Removal of Lead from polluted water using Decaying Leaves, J. Environ. Sci. Health, A29(10), pp.2087-2114, 1994
2 Karuppanna Periasamy and Chinnaiya Namasivayam ; Process Development for Removal and Recovery of Cadium from Wastewater by a Low Cost Adsorbent ; Adsorption Rates and Equibrium studies, Ind. Eng. Chem. Res., Vol. 33, pp.317-320, 1984   DOI
3 Gang sun and Weixing Shi ; Sunflower stalks as Adsorbents for the Removal of Metal ions from Wastewater, Ind. Eng. Chem. Res., Vol. 37, pp.1324-1328, 1998   DOI   ScienceOn
4 Waiss A, C., Wiley M. E., Kuhle J. A., Potter A. L., McGready R, M., ; Adsorption of mercuric action by tannins In agricultural residues, J, Environ. Quality. Vol. 3, pp.369-371, 1973
5 Randall J. M. : Variation In diffectiveness of Bark as scavengers for heavy metal ions. For. Prod. J. Vol. 27, No.11, pp.51-56, 1977
6 V. J. Larsen and Hans-Henrik schierup ; The use of straw for removal of heavy metals from waste water, J. Environ. Qual. Vol. 10, pp.188-193, 1981   DOI   ScienceOn
7 Vinoid. K. Gupta ; Equilibrium uptake, Sorption Dynamics, Process Development and Column Operations for the Removal of Copper and Nickel from Aqueous Solution and Wastewater using Activated Slag, a Low-Cost Adsorbent, Ind. Eng. Chern. Res., Vol. 37, pp.192-202, 1998   DOI   ScienceOn
8 H. Y. Choi, J. S. Shin, K. H. Ra ; Studies on Adsorption of Organa-Mineral ions using Eucommia ulmoides Leaves. Kor. J. Env. Hlth. Soc., Vol. 24, No.4, pp.166-171, 1998
9 Sung Ho Lee, Chong Hun Jung, Hon Suk Chung, Moo Yeal Lee and Ji-won Yang ; Removal of Heavy Metals from Aqueous solution by Apple Residues, Process Biochemistry, Vol. 33, No. 2 pp.205-211, 1998   DOI   ScienceOn
10 Vincent Gloaguen and Henri Morvan ; Removal of Heavy metal ions from Aqueous Solution by Modified Barks, J, Environ. Sci. Health, A32(4), pp.901-912, 1997   DOI
11 William D. InsKeep ; Adsorption of Sulfate by Kaolite and Amorphous Ion Oxide In the Presence of Organic Ligands, J. Environ, Qual., Vol. 18, pp.379-385, 1989
12 Randall J. M., R. L. Bermann, V. Garrett and A. C. Waiss, Jr.,; Use of Bark to remove heavy metal ions from waste solution, For. Prod. J., Vol. 24, No.9, pp.80-84, 1974
13 Taeko Matsuzaki and Yukihiko Hara ; Nippon Nogeikagaku Kaishi, Vol. 59, 129, 1985   DOI
14 John M. Randall, F. William Reuter and Anthony C.Waiss : Removal of cupric ion from solution by contant with Peanut skins, Journal of Applied Polymer Science, vol. 19, pp.1563-1571, 1975   DOI
15 Radi Salin ; Removal of Nickel from water using Decaying Leaves, J. Environ. Sci. Health, A23(3), pp.183-197, 1988
16 K. K. Pandary, Gur Prasad and V. N. Singh ; Copper Removal Aqueous solutions by Fly Ash, Water Res., Vol. 13, No.7, pp.363-873, 1985   DOI   ScienceOn