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Comparison of Biosorption of N, P ions by Zygnema sterile and Lepocinclism textra Biomass under Irradiation Period in High Rate Algae Biomass Reactor  

Kong, Surk-Key (Department of Environmental Hygiene, Joongbu University)
Publication Information
Journal of environmental and Sanitary engineering / v.22, no.4, 2007 , pp. 11-21 More about this Journal
Abstract
The recent investigation indicates that the kinetic constants for anionic ions were merely the result of ion exchange between the algae cell wall surface and the anionic ion. In this study, Zygnema sterile and Lepocinclism textra, floating flagellate alga as the dominant algae strains, were cultivated using HRABR(High Rate Algae Biomass Reactor) and the cultivation conditions were 24 hrs. and 12 hrs. irradiation and it was studied how this algal biomass acts on the biosorption mechanism of anionic N and P. Results are as follows : 1. Calculating the specific chl.-a growth rate using Michaelis-Menten model, the one of 24hrs. irradiation was about 55 times higher than the one of 12 hrs. irradiation 2. Calculating the specific chl.-a growth rate using Kuo model, the one of 24 hrs. irradiation was about 2.26 times higher than the one of 12 hrs. irradiation 3. Langmuir model can apply to the biosorption mechanism of anionic N and P in HRABP. 4. Regarding the chlorophyll-a concentration as unit weight of sorbent, the ion selectivity coefficients for N and P are as follows : $(NH_3-N)+(NO_3-N)$ in 24 hrs. irradiation ; 44.984 $PO_4-P$ in 24 hrs. irradiation ; 24.237 $(NH_3-N)+(NO_3-N)$ in 12 hrs. irradiation ; 1432.851 $PO_4-P$ in 12 hrs. irradiation ; 599.076
Keywords
High Rate Algae Biomass Reactor; Zygnema sterile; Lepoccinclism textra; Michaelis-Menten Model; Kuo Model; Langmuir Model; Ion Selectivity Coefficients;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 Wong, Yuk-Shan and Tam, Nora F. Y. : Wastewater Treatment with Algae, Springer-Ver-lag Co., New York, p. 4, 1997
2 공 석 기, 도시유끼 나까지마, Activity of Chlorella vulgaris Associated by Escherichia coli W3110 on Removal of Total Organic Carbon in Continuous River Water Flow System, Algae, 2002 : 17(3) : 195-199   DOI
3 Bohumil Volesky : Sorption and Biosorption. BV Sorbex, Inc., Montreal, p, 5, 2004
4 Bolto, B. A and Pawlowski L. : Wastewater Treatment by Ion-Exchange, E. & F. N. SPON, New York, p. 22, 1985
5 공 석 기, 보후밀 블레스키, 캐나다 환경산업의 조류 바이오매스 이용 생흡착 기술, 한국도시환경학회지, 2005 : 5(1) : 68-79
6 Bold, H. C. 물 Wynne, M. J. : Introduction to the Algae, Prentice-Hall Co., Ottawa, 20-22, 70-75, 288-289. p. 301, 478-479, p, 516, 1985
7 Cheng, Kuo Feng : Species Control of Microalgae in an Aquaculture Pond, Wat. Res., 25(1), 1431-1437, 1991   DOI   ScienceOn
8 공 석 기, 보후밀 블레스키, Activities of Water Purification by Algae and Aquatic Plant in River Ecosystem, J. of KSUE., 1, 41-53, 2001
9 김 병 홍, 미생물 생리학, 아카데미사, 서울, p. 5, 61-72, 331-332, 1993
10 Reynolds, Tom D. : Unit Operations and Processes in Environmental Engineering : Brooks Cole Engineering Division, A Division of Wadworth Inc., New York, 273-276. 1995
11 Crist, R. H. and Martin, J. R. and Gaptil, P. W. and Eslinger, J. M. and Crist, J. M : Interaction of Metals and Protons with Algae. 2 Ion Exchange in adsorption and metal displacement by protons, Environ. Sci. Tech., 24, 337-342, 1990   DOI
12 Wong, Yuk-Shan and Tam, Nora F. Y. : Wastewater Treatment with Algae, Springer-Ve-rlag Co., New York, p. 7, 1997
13 Bailey, J. E. and Ollis, D. E. : Biochemical Engineering Fundamentals, 2nded, McGraw-Hill, New York, 58-59, 1986
14 Wong, Yuk-Shan and Tam, Nora F. Y. : Wastewater Treatment with Algae, Springer-Verlag Co., New York, 145-161, 1997
15 Atlas, R and Bartha, R : Microbial Ecology, Benzamin and Cummings Publishing Co., London, 49-52, 1995
16 Bohumil Volesky : Sorption and Biosorption, BV Sorbex, Inc., Montreal, 35-39, 2004
17 Bohumil, Vole sky and Holan, Z. R : Biosorption of heavy metals, Biotechnol. Frog. 1995 : 11(3) : 235-250