Aims & Scope | Editorial Board| Review Policy | Ethical Policy | Open Access | Contact us
Archives | Search

A Study on Remediation of Chlorinated Hydrocarbons and Explosives using Pulsed-UV System
Lee, Han-Uk;Han, Jonghun;Yoon, Yeomin;Lee, Jongyeol;Her, Namguk;
Department of Chemistry and Environmental Sciences, Korea Army Academy;Department of Chemistry and Environmental Sciences, Korea Army Academy;Department of Civil and Environmental Engineering, University of South Carolina;Beautiful Environmental Construction Co.;Department of Chemistry and Environmental Sciences, Korea Army Academy;
Pulsed-UV 시스템을 이용한 염소계 유기화합물 및 화약류 제거에 관한 연구
이한욱;한종훈;윤여민;이종열;허남국;
육군3사관학교 건설환경학과;육군3사관학교 건설환경학과;사우스캐롤라이나대학교 건설환경공학과;아름다운환경건설;육군3사관학교 건설환경학과;

References

1. Ahn, Y.S., Yang, D.J., Chae, S.H., Lim, J.L., and Lee, K.H., 2009, Characteristics of Disinfection and Removal of 2-MIB Using Pulse UV Lamp, Korean society of water and wastewater, 23(1), 69-75.
2. Brill, T.B. and Kenneth, J.J., 1993, Kinetics and Mechanism of Thermal Decomposition of Nitroaromatic Explosives, Chem. Rev., 93, 2567-2592.
3. Choi, K.S., 2010, Assessment of natural organic matter (NOM), chlorine residual, and disinfection by-products formaion in pulsed UV treatment, Master's Thesis, Graduate School of Kookmin University, Seoul, Korea.
4. Drijvers, D., Langenhove, V.H., and Beckers M., 1999, Decomposition of phenol and trichloroethylene by the ultrasound/$H_{2}O_{2}$/ CuO process, Water Res., 33(5), 1187-1194.
5. Fang, M., Li, Z., and Fu, Y., 2008, Substituent Effect of the CNO2 and N-NO2 Bond Dissociation Energies of Nitroaromatic Molecules, Chinese Journal of Chemistry, 26, 1112-1128.
6. Jung, E.T., Sohn, J.S., Park, S.H., and Kyung, K.S., 2012, Removal of taste and odor causing compounds in drinking water using Pulse UV System, Proceedings of Korean Water Congress 2012, Korean Society on Water Environment, KINTEX, Korea, 741-742.
7. Kazama, M., Ohno, S., and Kenmoku, Y., 1987, Treatment technology of organic waste water using low-pressure ultraviolet method, PPM, 18(2), 1-15.
8. Michal, P. and Zden k, F., 2010, Characterization of C-$NO_{2}$ Bonds in Nitroaromatic Compounds: A Bond Disproportionation Approach, Central European Journal of Energetic Materials, 7(2), 131-144.
9. Movahedyan, H., Seid Mohammadi, A.M., and Assadi, A., 2009, Comparison of different advanced oxidation precesses degrading p-chlorophenol in aqueous solution, Iran. J. Environ. Health. Sci. Eng., 6(3), 153-160.
10. Mullen, K. and Carron, K., 1994, Adsorption of Chlorinated Ethylenes at 1-Octadecanethiol-Modified Silver Surfaces, Analytical chemistry, 66(4), 478-483.
11. Park, J.S., Sung, C.D., and Park, S.H., 2012, Removal Characteristics of Non-biogradable Organics in RO Brine by Pulse UV System, Proceedings of Korean Water Congress 2012, Korean Society on Water Environment, KINTEX, Korea, 840-841.
12. Pruden, L.A. and Ollis, F.D., 1983, Photoassisted heterogeneous catalysis: the degradation of trichloroethylene in water, J. Catal., 82, 404-417.
13. Shirayama, H., Tohezo, Y., and Taguchi, S., 2001, Phothdegradation of chlorinated hydrocarbons in the presence and absence of dissolved oxygen in water, Water Res., 35(8), 1941-1950.
14. Shao, J., Cheng, X., and Yang, X., 2006, The C-$NO_{2}$ bond dissociation energies of some nitroaromatic compounds: DFT study, Struct. Chem., 17(5), 547-550.
15. Stasinakis, A.S., 2008, Use of selected advanced oxidation processes (AOPs) for wastewater treatment - a mini review, Global NEST Journal, 10(3), 376-385.
16. Vogelpohl, A. and Kim, S.M., 2004, Advanced oxidation processes (AOPs) in wasterwater treatment, Ind. Eng. Chem., 10(1), 33-40.
17. Zhao, G.Z. and Lu, M., 2012, Theoretical Studies on Nitramine Explosives with -NH2 and -F Groups, Bull. Korean Chem. Soc., 33(6), 1913-198.

This Article

2013; 18(1): 78-84

Published on Feb 28, 2013
10.7857/JSGE.2013.18.1.078
Received on Nov 30, 2012
Revised on Jan 14, 2013
Accepted on Jan 14, 2013

This Article

Services

Shared

Correspondence to