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Removal of Rhodamine B in Water by Ultraviolet Radiation Combined with Electrolysis(I)
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 Title & Authors
Removal of Rhodamine B in Water by Ultraviolet Radiation Combined with Electrolysis(I)
Park, Young-Seek;
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 Abstract
The feasibility study for the application of the removal and mineralization of Rhodamine B (RhB) was performed in a batch electrochemical reactor. The electro/UV process was consisted of DSA (dimensionally stable anode) electrode and UV-C or ozone lamp. The experimental results showed that RhB removal by the ozone lamp was higher than that of the UV-C lamp. Optimum current of the electro/UV process was 1 A. The electrochemical, UV and electro/UV process could completely degrade RhB, while a prolonged treatment was necessary to reach a high level RhB mineralization. It was observed that RhB removal in electro/UV process is similar to the sum of the UV and electrolytic decolorization. However, it was found that the COD of RhB could be degraded more efficiently by the electro/UV process (90.2 %) than the sum of the two individual oxidation processes [UV (19.7%) and electrolytic process (50.8%)]. A synergetic effect was demonstrated between the UV and electrolysis.
 Keywords
electrolysis;electro/UV process;dye;COD;color;synergetic effect;
 Language
Korean
 Cited by
1.
3차원 전극을 사용한 Rhodamine B의 전기분해에 미치는 운전인자의 영향,김동석;박영식;

한국환경보건학회지, 2009. vol.35. 4, pp.295-303 crossref(new window)
2.
전기+UV 공정에 의한 E. coli 불활성화,김동석;박영식;

한국물환경학회지, 2009. vol.25. 5, pp.667-673
3.
전기분해와 UV 조사에 의한 수중 Rhodamine B의 제거(II),김동석;박영식;

Journal of Environmental Science International, 2009. vol.18. 6, pp.667-674 crossref(new window)
4.
Boron-doped Diamond 전극을 이용한 Rhodamine B와 N, N-Dimethyl-4-nitrosoanilin의 전기화학적 분해에 반응표면분석법의 적용과 공정 최적화,김동석;박영식;

한국환경보건학회지, 2010. vol.36. 4, pp.313-322 crossref(new window)
5.
BDD 전극을 이용한 OH 라디칼 생성과 염료 분해에 미치는 운전인자의 영향,박영식;김동석;

Journal of Environmental Science International, 2010. vol.19. 9, pp.1143-1152 crossref(new window)
6.
직접 산화와 간접 산화용 전극의 Dye 제거 성능 비교,김동석;박영식;

한국물환경학회지, 2010. vol.26. 6, pp.963-968
7.
수중 플라즈마 공정을 이용한 Rhodamine B 염료의 제거,김동석;박영식;

한국환경보건학회지, 2011. vol.37. 3, pp.218-225 crossref(new window)
8.
E. coli 불활성화와 산화제 생성에 미치는 소독 공정 결합의 영향,김동석;박영식;

Journal of Environmental Science International, 2011. vol.20. 7, pp.891-898 crossref(new window)
1.
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2.
Removal of Rhodamine B Dye Using a Water Plasma Process, Korean Journal of Environmental Health Sciences, 2011, 37, 3, 218  crossref(new windwow)
3.
Application of the Response Surface Methodology and Process Optimization to the Electrochemical Degradation of Rhodamine B and N, N-Dimethyl-4-nitrosoanilin Using a Boron-doped Diamond Electrode, Korean Journal of Environmental Health Sciences, 2010, 36, 4, 313  crossref(new windwow)
 References
1.
Booth, G., Zollinger, H., McLaren, K., Sharples, W. G. and Westwall, A. : 1985 Ullmann's encyclopedia of industrial chemistry, 5nd ed., VCH, Weiheim, A9, 70-75, 1985

2.
Yoo, Y. E. : A study on the textile wastewater treatment by sonochemical process. Korean Journal of Environmental Health, 29(5), 10-16, 2003

3.
Robinson, T., McMullan, G., Marchant, P. and Nigam, P. : Remediation of dyes in textile effluent: A critical review on current treatment technologies with a proposed alternative. Bioresource Technology, 77, 247-255, 2001 crossref(new window)

4.
Cho, I. H., Kho, Y. L., Lee, S. J., Lee, H. K. and Zoh, K. D. A. : Study on the dye-wastewater treatment by fenton and photo-fenton oxidation process. Korean Journal of Environmental Health, 26(4), 29-37, 2000

5.
Kunz, A., Peralta-Zamora, P., Gomes de Moraes, S. and Duran, N. : New tendencies on textile effluent treatment. Quiica Nova, 25, 78-82, 2002 crossref(new window)

6.
Daneshvar, N., Aber, S., Vatanpour, V. and Rsoulifard, H. : Electro-fenton treatment of dye solution containing orange II: Influence of operational parameters. Journal of Electroanalytical Chemistry, 615, 165-174, 2008 crossref(new window)

7.
Kim, D. S. and Park, Y. S. : Decolorization of Rhodamine B by fenton, fenton-like, and photo-fenton-like oxidation. Korean Journal of Environmental Health, 33(2), 150-157, 2007 crossref(new window)

8.
Rosenfeldat, E., Linden, K. G., Canonica, S. and Gunten, U. V. : Comparison of the efficiency of .OH radical formation during ozonation and the advanced oxidation processes $O_{3}/H_{2}O_{2}$ and $UV/H_{2}O_{2}$. Water Research, 40, 3695-3704, 2006 crossref(new window)

9.
Panizza, M. and Cerisola, G. : Electrocatalytic materials for the electrochemical oxidation of synthetic dyes, Applied Catalysis B: Environmental, 75, 95-101, 2007 crossref(new window)

10.
Simond, O., Schaller, V. and Comnillis, C. : Theoretical model for the anodic oxidation of organics on metal oxide electrodes. Electrochemica Acta, 42(13/14), 2009-2012, 1997 crossref(new window)

11.
Jutner, K., Galla, U. and Schmieder, H. : Electrochemical approaches to environmental problems in the process industry. Electrocmica Acta, 45, 2575-2594, 2000 crossref(new window)

12.
Chen, G., Chen, X. and Yue, P. L. : Electrochemical behavior of novel $Ti/IrO_{2}-Sb_{2}O_{5}-SnO_{2}$ anodes. Journal Physical Chemistry B., 106, 4364-4369, 2002 crossref(new window)

13.
Li, X. Y., Cui, Y. H., Feng, Y. J., Xie, Z. M. and Gu, J. D. : Reaction pathways and mechanisms of the electrochemical degradation of phenol on different electrodes. Water Research, 39, 1972-1981, 2005 crossref(new window)

14.
UV shop homepage, http:/www.uvshop.co.kr

15.
APH-AWWA-WPCE : Standard methods for the examination of water and wastewater. 18th Ed., APHA, Washington D.C., 1992

16.
Park, Y. S. and Ahn, K. H. : Effect of coagulation, ozone, and UV post-process on COD and color removal of textile wastewater. Korean Journal of Environmental Health, 27(4), 93-98, 2001

17.
Ahn, K. H., Kwon, S. K. and Park, Y. S. : Ozone lamp/photocatalytic decolorization of Rhodamine B. Journal of Korean Society of Environmental Engineers, 26(10), 1063-1069, 2004

18.
Kim, D. S. and Park, Y. S. : Electrochemical decolorization of a Rhodamine B using dimensionally stable anode. Journal of Korean Socciety on Water Quality, 3(3), 377-384, 2007

19.
Matos, J., Laine, J. and Herrmann, J. M. : Association of activated carbons of different origins with titania in the photocatalytic purification of water. Carbon, 37, 1870-1872, 1999 crossref(new window)

20.
Kim, D. S. and Park, Y. S. : Comparison study of dyestuff wastewater treatment by the coupled photocatalytic oxidation and biofilm process. Chemical Engineering Journal, 139, 256-263, 2008 crossref(new window)

21.
Park, Y. S., Na, Y. S. and Ahn, K. H. : Decolorization of Rhodamine B using $UV/TiO_{2} $ system. Korean Journal of Environmental Health, 28(5), 59-64, 2002

22.
Wang, Y. : Solar photocatalytic degradation of eight commercial dyes in $TiO_{2}$ suspension. Water Research, 34(3), 990-994, 2000 crossref(new window)

23.
Park, Y. S. : Indirect oxidation of dye using quaternary dimensionally stable anode (DSA) with High generation rate of oxidants. Korea Research Foundation, 2007 Regional University Researchers Program, Final Report(E00115), 8-22, 2008

24.
Grimau, V. L. and Gutierrez, M. C. : Decolorization of simulated reactive dyebath effluents by electrochemical oxidation assisted by UV light. Chemosphere, 62, 106-112, 2006 crossref(new window)

25.
Wu, J. J., Yang, J. S., Muruganandham, M. and Wu, C. C. : The oxidation study of 2-propanol using ozone-based advanced oxidation processes. Separation and Purification Technology, 62, 39-46, 2008 crossref(new window)

26.
Muguganandham, M. and Swaminathan, M. : Solar photocatalytic degradation of a reactive azo dye in $TiO_{2}$-suspension. Solar Energy Materials & Solar Cells, 81, 439-457, 2004 crossref(new window)

27.
Park, Y. S. and Kim, D. S. : Inactivation of Legionella pneumophila by electrochemical disinfection. Journal of Korean Society on Water Quality, 23(5), 613-619, 2007