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Hydrogeochemical Characteristics of Groundwater in the Small Waterworks at Ulju Region, Ulsan
Kim, Dongsoo;Kim, MoonSu;Jo, Sungjin;Kim, Ikhyun;Lee, Heonmin;Hwang, Jongyoen;Park, Sunhwa;Jo, Hunje;Kim, Taeseung;Kim, Hyunkoo;
Soil and Groundwater Division, National Institute of Environmental Research;Soil and Groundwater Division, National Institute of Environmental Research;Soil and Groundwater Division, National Institute of Environmental Research;Soil and Groundwater Division, National Institute of Environmental Research;Soil and Groundwater Division, National Institute of Environmental Research;Soil and Groundwater Division, National Institute of Environmental Research;Soil and Groundwater Division, National Institute of Environmental Research;Soil and Groundwater Division, National Institute of Environmental Research;Soil and Groundwater Division, National Institute of Environmental Research;Soil and Groundwater Division, National Institute of Environmental Research;
울산 울주지역 소규모 수도시설 지하수의 수리지화학적 특성 연구
김동수;김문수;조성진;김익현;이헌민;황종연;박선화;조훈제;김태승;김현구;
국립환경과학원 토양지하수연구과;국립환경과학원 토양지하수연구과;국립환경과학원 토양지하수연구과;국립환경과학원 토양지하수연구과;국립환경과학원 토양지하수연구과;국립환경과학원 토양지하수연구과;국립환경과학원 토양지하수연구과;국립환경과학원 토양지하수연구과;국립환경과학원 토양지하수연구과;국립환경과학원 토양지하수연구과;

References

1. Apambie, W.B., Boyle, D.R., and Michel, F.A., 1997, Geochemistry, genesis, and health implications of flouriferous groundwaters in the upper regions of Chana, Environ. Geology, 33(1), 13-24.
2. Appelo, C.A.J. and Postma, D., 1999, Geochemisty, Groundwater and Pollution, 4th edition, A.A, Belkema, Netherlands
3. Baas Becking, L.G.M., Kaplan, I.R., and Moore, D., 1960, Limits of the Natural Environment in Terms of pH and Oxidation-Reduction Potentials, J. of Geology, 68(3), 243-284.
4. Banks, D., Reimann, C., Royset, O., Skarphagen, H., and Saether, O.M., 1995, Natural concentrations of major and trace elements in some Norwegian bedrock groundwaters, Appl. Geochem., 10(1), 1-16.
5. Chebotarev, I.I., 1955, Metamorphism of natural waters in the crust of weathering, Geochim. Cosmochim. Acta., 8(3) 137-170.
6. Cho, B.W., Choo, C.O., Kim, M.S., Lee, Y.J., Yun, U., and Lee, B.D., 2011, Uranium and Radon Concentrations in Groundwater near the Icheon Granite, J. of KSEEG, 21(3), 259-269.
7. Cho, B.W., Yun, U., Im, H.C., Sung, I.H., and Jang, W.S., 2005, Characteristics of groundwater, Sewage Water and Stream Water Contamination Based on VOCs Concentration Around Ulsan, Korea, J. of KSEEG, 38(1), 57-65.
8. Correns, C.W., 1956, The geochemistry of the halogens, Phys. Chem. Earth, 1, 181-233.
9. Darrel, K.N., James, W.B., Rona, J.D., and Donald, W., 1989, Groundwater chemistry and water-rock interactions at Stripa, Geochim. Cosmochim. Acta., 53(8), 1727-1740.
10. Davis, S.N. and DeWiest, R.J.M., 1966, Hydrogeology, John Wiely and Sons, Inc., New York, NY, 463 p.
11. Jeong, C.H., Kim, C.S., Kim, T.K., and Kim, S.J., 1997, Reaction Path Modeling on Geochemical Evolution of Groundwater and Formation of Secondary Minerals in Water-Gneiss Reaction System, J. Miner. Soc. Korea, 10, 33-44.
12. Kigam, 1:50,000, 1:250,000 Geological maps.
13. Kim, G.H., Yun, S.T., Che, G.T., Kim, S.Y., Kwon, J.S., and Koh, Y.K., 2006, Hydrogeochemical evolution related to high fluoride concentrations in deep bedrock groundwaters, Korea, J. of KSEEG, 39(1), 27-38.
14. Kim, H.G., Kim, T.S., Kim, M.S., Kim, H.S., Park, S.H., Yun, J.K., Kim, J.I., Kim, R.Y., Yang, J.H., Lee, M.K., Kim, I.H., Shin, I.K., Kim, D.S., and Lee, K.M., 2015, Case study of groundwater management for drinking in highly contaminated area(II), NIER, NIER-RP-2015-388, 41.
15. Lee, B.D., Yun, U., and Sung, I.H., 2007, Groundwater Quality and Contamination Characteristics Associated with Land Use in Ulsan Area, J. of KSEEG, 12(6), 78-91.
16. Lee, I.H., Cho, B.W., and Lee, B.D., 2003, Environmental Characteristics of Groundwater for Sedimentary Rocks in Daegu City, Econ. Environ. Geol., 13(1), 1-16.
17. Lee, Y.J., Kim, H.J., Yoo, S.J., Jeong, H.S., Kim, D.H., Noh, H.J., Kim, M.S., Yoo, J.Y., Han, J.S., Jung, D.I., Jeon, S.H., Bang, S.R., and Kim, M.S., 2010, Inverstigation of Unregulated Contaminants in Groundwater based on the Priority List ('10), NIER, NO.2010-45-1220, 70.
18. Manahan S.E., 1994, Environmental Chemistry, 6th edtion, Lewis Publishers, Florida, USA.
19. Maxcy, K.F., 1950, Relation of nitrate nitrogen concentration in well water to the occurence of methemoglobinemia in Infants, US Armed Forces Med. J., 1(5), 1007-1015.
20. Ministry of Environment, 2014, Groundwater quality monitoring network installations and water contamination measurement plan.
21. Ministry of Environment, 2014, Regulations on water quality standards and inspection for drinking water.
22. Ministry of Environment, 2014, Statistics of waterworks, 2014.
23. Ministry of Environment, 2012, The official methods for the water qualities determination in drinking water.
24. Nordsotrm, D.K., Ball, J.W., Donahoe, R.J., and Whitemore, D., 1989, Groundwater chemistry and water-rock interactions at Stripa, Geochim. Cosmochim. Acta., 53(8), 1727-1740.
25. Pagacova, P., Blastakoca, A., Drtil, M., Jakubcova, Z., and Fiala, M., 2008, Dangerous Pollutants (Xenobiotics) in Urban Water Cycle, Springer Netherlands, 287-296.
26. American, P.H.A., American, W.W.A., and Water, P.C.F., 2005, Standard Method, 21st edition, American Public Health Association, Washington, D.C.
27. WHO, 2004, Sulfate in drinking water.
28. Yun, U. and Cho, B.W., 2005, Hydrogeochemical Characteristics of Groundwater on Well Depth Variation in the Heunghae Area, Korea, Econ. Environ. Geol., 15(4), 391-405.

This Article

2017; 22(5): 71-81

Published on Oct 31, 2017
10.7857/JSGE.2017.22.5.071
Received on Jul 7, 2017
Accepted on Sep 20, 2017

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