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Distribution of Uranium in the Han River and Behavior through the Water Treatment Process  

Jeong, Gwan-Jo (Waterworks Research Institute, Seoul Metropolitan Government)
Kim, Dok-Chan (Department of Chemical Engineering, The University of Seoul)
Park, Hyeon (Waterworks Research Institute, Seoul Metropolitan Government)
Oh, Sea-Jong (Waterworks Research Institute, Seoul Metropolitan Government)
Publication Information
Journal of Korean Society of Environmental Engineers / v.27, no.4, 2005 , pp. 347-352 More about this Journal
Abstract
This research was focused on the distribution of Uranium-238 concentration in the Han River. Also, six water treatment plants in Seoul have been investigated to find out the behaviour and the removal capability of uranium. The uranium concentrations were ranged $0.02{\sim}0.54{\mu}g/L$ in the Han River. The relationship between conductivity and total dissolved solids shows that uranium concentration is positively related with conductivity and total dissolved solids. In addition, it has been founded that there was no relevance between uranium concentration and geological structure, because most of the sampling area are Banded Gneiss. The average uranium concentration in six water treatment plants was determined to $0.134\;{\mu}g/L$ in raw water, $0.050\;{\mu}g/L$ in coagulated water, $0.029\;{\mu}g/L$ in settled water, $0.020\;{\mu}g/L$ in filtered water, $0.019\;{\mu}g/L$ in finished water. After filtration in the treatment process, uranium concentration level was maintained lower than $0.029\;{\mu}g/L$. The average uranium removal efficiency compared to the raw water was 63% after coagulation, 15% after sedimentation, 8% after filtration and disinfection. The analysis shows that 78% of uranium in the raw water was removed during coagulation and sedimentation processes. However, 8% of that was removed through filtration and chlorination processes.
Keywords
Uranium-238; Total Dissolved Solids(TDS); Conductivity; Water Treatment Process;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 Al-Shawi, A. W., Dahl, R., 'Determination of thorium and uranium in nitrophosphate fertilizer solution by ion chromatography,' J. Chromatogr., A706, 175-181(1995)
2 Othman, I., Yassine, T., 'Natural radioactivity of drinking water in the southern and middle parts of syria,' Environ. int., 22(1), S355-359(1996)   DOI   ScienceOn
3 Kim, S. M., Jang, A., Lee, J. U., Choi, H. C., Kim, K. W., and Kim, I. S., 'Uranium removal from uranium-bearing black shale by bioleaching using an iron-oxidizing bacterium,' J. of KSEE., 24(12), 2129-2138 (2002)
4 Singh, S., Rani, A., Mahajan, R. K., and Walia, T. P., 'Analysis of uranium and its correlation with some physico-chemical properties of drinking water samples from amritsar, punjab,' J. Environ. Monit., 5, 917-921(2003)   DOI   ScienceOn
5 Bakac, M., Kumru, M. N., 'Uranium, radium and field measurements in the water of Gediz River,' Turk J. Engin. Environ. Sci., 24, 229-236(2000)
6 Duenas, C., Fernandez, M. C., Liger, E., and Carretero, J., 'Natural radioactivity levels in bottled water in spain,' Water Res., 31(8), 1919-1924(1997)   DOI   ScienceOn
7 U, Z. K., Song, K. J., and Kim, T. S., 'Uranium levels in soil and plant, and estimation of its intake by the residents at the uranium deposited area,' Agric. Chem., Biotechnol., 22(4), 221-225(1979)
8 Ortega, X., Valles, I., and Serrano, I., 'Natural radioactivity in drinking water in catalonia(spain),' Environ. int., 22(1), S347-S354(1996)   DOI   ScienceOn
9 이병주, 김유봉, 이승렬, Explanatory note of the Seoul-Namchonjeom sheet, 과학기술부, pp. 10-34(1999)
10 Yamazaki, I. M., Geraldo, L. P., 'Uranium content in phosphate fertilizers commercially produced in Brazil,' Appl. Radiat. Isot., 59, 133-1361(1995)
11 Uyanik, A., Tinkilic, N., Odabasoglu, M., Karaca, H., 'Spectrophotometric determination of uranium in water of phosphoric acid and fertilizer manufacturing process,' Turk J. Chem., 23, 275-284(1999)