The Journal of
the Korean Society on Water Environment

The Journal of
the Korean Society on Water Environment

Bimonthly
  • ISSN : 2289-0971 (Print)
  • ISSN : 2289-098X (Online)
  • KCI Accredited Journal

Editorial Office

  1. Home
  2. All Issues
  3. 2016-03 (Vol. 32, No. 2)
  4. 10.15681/KSWE.2016.32.2.216
XML PDF INFO REF
1 
(2011), Multivariate Statistical and GIS-based Approach to Evaluate Heavy Metals behavior in Mine Sites for Future Reclamation, Journal of Geochemical Exploration, Acosta, J. A., Faz, A., Martínez-Martínez, S., Zornoza, R., Carmona, D. M., and Kabas, S. (2011). Multivariate Statistical and GIS-based Approach to Evaluate Heavy Metals behavior in Mine Sites for Future Reclamation, Journal of Geochemical Exploration, 109, pp. 8-17., Vol. 109, pp. 8-17DOI
2 
(2009), Construction Wastes as Raw Materials for Geopolymer Binders, International Journal of Civil Engineering, Allahverdi, A. and Kain, E. N. (2009). Construction Wastes as Raw Materials for Geopolymer Binders, International Journal of Civil Engineering, 7, pp. 154-160., Vol. 7, pp. 154-160Google Search
3 
(2000), Arsenic Removal from Aqueous Solutions by Adsorption on Red Mud, Waste Management, Altundoğan, H. S., Altundoğan, S., Tumen, F., and Bildik, M. (2000). Arsenic Removal from Aqueous Solutions by Adsorption on Red Mud, Waste Management, 20, pp. 761-767., Vol. 20, pp. 761-767DOI
4 
(2006), Red Mud and Fly Ash for Remediation of Mine Sites Contaminated with As, Cd, Cu, Pb and Zn, Journal of Hazardous Materials, Bertocchi, A. F., Ghiani, M., Peretti, R. and Zucca, A. (2006). Red Mud and Fly Ash for Remediation of Mine Sites Contaminated with As, Cd, Cu, Pb and Zn, Journal of Hazardous Materials, B134, pp. 112-119., Vol. B134, pp. 112-119DOI
5 
(2007), Fate and Transport of Cr(VI) Contaminated Groundwater from the Industrial Area in Daejeon, Economic and Environmental Geology, Chon, C. M., Moon, S. H., Ahn, J. S., Kim, Y. S., and Won, J. H. (2007). Fate and Transport of Cr(VI) Contaminated Groundwater from the Industrial Area in Daejeon, Economic and Environmental Geology, 40, pp. 403-418., Vol. 40, pp. 403-418Google Search
6 
(1991), Solid state 27Al NMR and FTIR Study of Lanthanum Aluminosilicate Glasses, Journal of Non-Crystalline Solids, Clayden, N. J., Esposito, S., Aronne, A., and Pernice, P. (1991). Solid state 27Al NMR and FTIR Study of Lanthanum Aluminosilicate Glasses, Journal of Non-Crystalline Solids, 11, pp. 258-268., Vol. 11, pp. 258-268Google Search
7 
(1977), Toxicology of trace elements, Goyer, R. A. and Mehlman, M. A. (1977). Toxicology of trace elements, John Wiley and Sons Inc., New York.Google Search
8 
(2001), Process Development for the Removal of Lead and Chromium from Aqueous Solutions using Red Mud-an Aluminium Industry Waste, Water Research, Gupta, V. K., Gupta, M., and Sharma, S. (2001). Process Development for the Removal of Lead and Chromium from Aqueous Solutions using Red Mud-an Aluminium Industry Waste, Water Research, 35, pp. 1125-1134., Vol. 35, pp. 1125-1134DOI
9 
(1999a), Thesorption of Lead(II) Ions on Peat, Water Research, Ho, Y. S. and McKay, G. (1999a). Thesorption of Lead(II) Ions on Peat, Water Research, 33, pp. 578-584., Vol. 33, pp. 578-584DOI
10 
(1999b), Pseudo-second Order Model for Sorption Processes, Process Biochemistry, Ho, Y. S. and McKay, G. (1999b). Pseudo-second Order Model for Sorption Processes, Process Biochemistry, 34, pp. 451-465., Vol. 34, pp. 451-465DOI
11 
(2009), Experimental Assessment of Adsorption of Cu2+ and Ni2+ from Aqueous Solution by Oyster Shell Powder, Journal of Hazardous Materials, Hsu, T. C. (2009). Experimental Assessment of Adsorption of Cu2+ and Ni2+ from Aqueous Solution by Oyster Shell Powder, Journal of Hazardous Materials, 171, pp. 995-100., Vol. 171, pp. 995-100DOI
12 
(2007), Anthropogenic Contributions to Heavy Metal Distributions in the Surface Sediments of Masan Bay, Korea, Marine Pollution Bulletin, Hyun, S. M., Lee, C. H., Lee, T. H., and Choi, J. W. (2007). Anthropogenic Contributions to Heavy Metal Distributions in the Surface Sediments of Masan Bay, Korea, Marine Pollution Bulletin, 54, pp. 1031-1071., Vol. 54, pp. 1031-1071DOI
13 
(2012), Removal of Synthetic Heavy Metal (Cr6+, Cu2+, As3+, Pb2+) from Water using Red Mud and Lime Stone, Korean Society of Environmental Engineers, Kang, K., Park, S. J., Shin, W. S., Um, B. H., and Kim, Y. K. (2012). Removal of Synthetic Heavy Metal (Cr6+, Cu2+, As3+, Pb2+) from Water using Red Mud and Lime Stone, Korean Society of Environmental Engineers, 34(8), pp. 566-573., Vol. 34, No. 8, pp. 566-573DOI
14 
(2015), Adsorption Characteristics of Cr6+ and As3+ using Seaweed Biochar, Applied Chemistry for Engineering, Kim, B. R., Shin, W. S., and Kim, Y. G. (2015). Adsorption Characteristics of Cr6+ and As3+ using Seaweed Biochar, Applied Chemistry for Engineering, 26(4), pp. 483-488., Vol. 26, No. 4, pp. 483-488DOI
15 
(2007), Kinetics and Equilibrium Studies of Heavy Metal Ions Removal by Use of Natural Zeolite, Desalination, Kocaoba, S., Orhan, Y., and Akyuz, T. (2007). Kinetics and Equilibrium Studies of Heavy Metal Ions Removal by Use of Natural Zeolite, Desalination, 214, pp. 1-10., Vol. 214, pp. 1-10DOI
16 
(1992), Adsorption of Cd(II) and Pb(II) on Bentonite under Estuarine and Seawater Conditions, The Science of the Total Environment, Kozar, S., Bilinski, H., Branica, M., and Schwuger, M. J. (1992). Adsorption of Cd(II) and Pb(II) on Bentonite under Estuarine and Seawater Conditions, The Science of the Total Environment, 121, pp. 203-216., Vol. 121, pp. 203-216DOI
17 
(2010), Guidance for Remediation Restroration of Marine Contaminated Sediment., Ministry of Land, Transport and Maritime Affairs (MLTMA). (2010). Guidance for Remediation Restroration of Marine Contaminated Sediment.Google Search
18 
(2011), Applicability of Theoretical Adsorption Models for Studies on Adsorption Properties of Adsorbents(1), Korean Society of Environmental Engineers, Na, C. K., Han, M. Y., and Park, H. J. (2011). Applicability of Theoretical Adsorption Models for Studies on Adsorption Properties of Adsorbents(1), Korean Society of Environmental Engineers, 33(8), pp. 606-616., Vol. 33, No. 8, pp. 606-616DOI
19 
(2010), Sorption Characterisitics of Arsenic on Furnace Slag by Adsorption Isotherm and Kinetic Sorption Experiments, Korean Geotechincal Society, Oh, C. T., Rhee, S. S., Toshifumi, I., Kon, H. J., Lee, W. T., and Park, J. B. (2010). Sorption Characterisitics of Arsenic on Furnace Slag by Adsorption Isotherm and Kinetic Sorption Experiments, Korean Geotechincal Society, 26(9), pp. 37-45., Vol. 26, No. 9, pp. 37-45Google Search
20 
(2007), Heavy Metal Adsorption by a Formulated Zeolite-portland Cement Mixture, Journal of Hazardous Materials, Ok, Y. S., Yang, J. E., Zhang, Y. S., Kim, S. J., and Chung, D. Y. (2007). Heavy Metal Adsorption by a Formulated Zeolite-portland Cement Mixture, Journal of Hazardous Materials, 147, pp. 91-96., Vol. 147, pp. 91-96DOI
21 
(1991), Leaching Effects on Silicate Polymerization, A FTIR and 29Si NMR Study of Lead and Zinc in Portland Cement, Environmental Science and Technology, Ortego, J. D. and Barroeta, Y. (1991). Leaching Effects on Silicate Polymerization, A FTIR and 29Si NMR Study of Lead and Zinc in Portland Cement, Environmental Science and Technology, 25, pp. 1171-1174., Vol. 25, pp. 1171-1174DOI
22 
(2008), Chemical Forms and Release Potential of Heavy Metals from the Lime Treated Sediments, Korean Journal of Limnology, Park, G. O. and Jun, S. H. (2008). Chemical Forms and Release Potential of Heavy Metals from the Lime Treated Sediments, Korean Journal of Limnology, 41(2), pp. 166-173., Vol. 41, No. 2, pp. 166-173Google Search
23 
(2011), The Impact of Heavy Metal Pollution Gradients in Sediments on Benthic Macrofauna at Population and Community Levels, Environmental Pollution, Ryu, J. S., Khim J. S., Kang, S. G., Kang, D. S., Lee, C. H. and Koh, C. H. (2011). The Impact of Heavy Metal Pollution Gradients in Sediments on Benthic Macrofauna at Population and Community Levels, Environmental Pollution, 159, pp. 2622-2629., Vol. 159, pp. 2622-2629DOI
24 
(2013), Removal Characteristics of Mixed Heavy Metals from Aqueous Solution by Recycled Aggregate as Construction Waste, Journal of the Korean Society for Marine Environment and Energy, Shin, W. S. and Kim, Y. G. (2013). Removal Characteristics of Mixed Heavy Metals from Aqueous Solution by Recycled Aggregate as Construction Waste, Journal of the Korean Society for Marine Environment and Energy, 16(2), pp. 115-120., Vol. 16, No. 2, pp. 115-120DOI
25 
(2014), Adsorption Characteristics of Multi-metal Ions by Red Mud, Zeolite, Limestone and Oyster Shell, Enviornmental Engineering Research, Shin, W. S., Kang, K., and Kim, Y. G. (2014). Adsorption Characteristics of Multi-metal Ions by Red Mud, Zeolite, Limestone and Oyster Shell, Enviornmental Engineering Research, 19(1), pp. 15-22., Vol. 19, No. 1, pp. 15-22DOI
26 
(2014a), Adsorption Characteristics of Synthetic Heavy Metals (Zn2+, Ni2+, Cd2+, Cu2+, and Pb2+) by Benthonite, Journal of KORRA, Shin, W. S. and Kim, Y. G. (2014a). Adsorption Characteristics of Synthetic Heavy Metals (Zn2+, Ni2+, Cd2+, Cu2+, and Pb2+) by Benthonite, Journal of KORRA, 22(2), pp. 17-26., Vol. 22, No. 2, pp. 17-26Google Search
27 
(2014b), Stabilization of Mixed Heavy Metals in Contaminated Marine Sediment using Steel Slag, Journal of Navigation and Port Research, Shin, W. S. and Kim, Y. G. (2014b). Stabilization of Mixed Heavy Metals in Contaminated Marine Sediment using Steel Slag, Journal of Navigation and Port Research, 38(3), pp. 269- 275., Vol. 38, No. 3, pp. 269-275DOI
28 
(2015), Removal Characterisitcs of Heavy Metals from Aqueous Solution by Recycled Aggregate and Recycled Aggregate/steel Slag Composites as Industrial Byproducts, Applied Chemistry for Engineering, Shin, W. S. and Kim, Y. G. (2015). Removal Characterisitcs of Heavy Metals from Aqueous Solution by Recycled Aggregate and Recycled Aggregate/steel Slag Composites as Industrial Byproducts, Applied Chemistry for Engineering, 26(4), pp. 477-482., Vol. 26, No. 4, pp. 477-482DOI
29 
(2000), Vertical Distribution of Cd, Pb, and Zn in Soils Near Smelters in the North of France, Environmental Pollution, Sterckeman, T., Douay, F., Proix, N., and Fourrier, H. (2000). Vertical Distribution of Cd, Pb, and Zn in Soils Near Smelters in the North of France, Environmental Pollution, 107, pp. 377-389., Vol. 107, pp. 377-389DOI
30 
(2005), Contaminated Sediment Remediation Guidance for Hazardous Waste Sites., United States Environment Protection Agency (U. S. EPA). (2005). Contaminated Sediment Remediation Guidance for Hazardous Waste Sites.Google Search
31 
(1998), Immobilization Mechanism of Arsenic in Waste Solidified using Cement and Lime, Environmental Sciences and Technology, Verinika, D. and Carlo, V. (1998). Immobilization Mechanism of Arsenic in Waste Solidified using Cement and Lime, Environmental Sciences and Technology, 32, pp. 2782-2787., Vol. 32, pp. 2782-2787DOI
32 
(1989), Organic Chemical Movement over and through Soil. In: Sawhney, B. L. and Broen, K. (eds.). Reactions and Movement of Organic Chemicals in Soils, SSSA Special Publication 22, Weber, J. and Miller, C. T. (1989). Organic Chemical Movement over and through Soil. In: Sawhney, B. L. and Broen, K. (eds.). Reactions and Movement of Organic Chemicals in Soils, SSSA Special Publication 22, Soil Science Society of America, Madison, pp. 305-334., pp. 305-334Google Search
33 
(2000), Competitive Adorption of Molybdate, Chromate, Sulfate, Selenate, and Selenite on gAl2O3, Colloids and Surfaces A: Physicochemical and Engineering Aspects, Wu, C. H., Lo, S. L., and Lin, C. F. (2000). Competitive Adorption of Molybdate, Chromate, Sulfate, Selenate, and Selenite on gAl2O3, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 166, pp. 251-259., Vol. 166, pp. 251-259DOI
34 
(2014), Effect of CaO/SiO2 Ratio on the Preparation and Crystallization of Glass-ceramics from Copper Slag, Ceramics International, Yang, Z., Lin, Q., Lu, S., He, Y., Liao, G., and Ke, Y. (2014). Effect of CaO/SiO2 Ratio on the Preparation and Crystallization of Glass-ceramics from Copper Slag, Ceramics International, 40, pp. 7297-7305., Vol. 40, pp. 7297-7305DOI
35 
(2009), Removal of Toxic Ions (chromate, arsenate, and perchlorate) using reverse osmosis, nanofiltration, and ultrafiltration membranes, Chemosphere, Yoon, J. K., Amy, G., Chung, J. W., Sohn, J. S., and Yoon, Y. M. (2009). Removal of Toxic Ions (chromate, arsenate, and perchlorate) using reverse osmosis, nanofiltration, and ultrafiltration membranes, Chemosphere, 77, pp. 228-235., Vol. 77, pp. 228-235DOI
뒤로가기