1 김상일, "변형봉 센서 검증실험에 관한 연구" 한국지반공학회 19 (19): 35-47, 2003
2 Preston, K., "Turbidity and chlorine demand reduction using slum and moringa flocculation before household chlorination in developing countries" 8 (8): 60-70, 2010
3 Lee, D.-H., "The removal of heavy metals by use of Moringa Oleifera" 175-177, 2010
4 Boni, M.R., "The potential of compostbased biobarriers for Cr(VI) removal from contaminated groundwater, Column test" 166 : 1087-1095, 2009
5 Joong-Hyeok Heo, "The effect of ionic strength and hardness of trichloroethylene-contaminated synthetic groundwater on remediation using granular activated carbon" 한국지질과학협의회 11 (11): 229-239, 2007
6 Roberts, A.L., "Reductive elimination of chlorinated ethylenes by zero-valent metals" 30 (30): 2654-2659, 1996
7 U.S. EPA, "Permeable reactive barrier technologies for contaminant remediation" USEPA 1998
8 Dal-Heui Lee, "Mixing effect of NaCl and surfactant on the remediation of TCB contaminated soil" 한국지질과학협의회 12 (12): 63-68, 2008
9 U.S. EPA, "In-situ remediation technology status report, treatment walls" USEPA 1995
10 Blowes, D.W., "In-Situ remediation of chromate contaminated groundwater using permeable reactive walls" 31 : 3348-3357, 1997
1 김상일, "변형봉 센서 검증실험에 관한 연구" 한국지반공학회 19 (19): 35-47, 2003
2 Preston, K., "Turbidity and chlorine demand reduction using slum and moringa flocculation before household chlorination in developing countries" 8 (8): 60-70, 2010
3 Lee, D.-H., "The removal of heavy metals by use of Moringa Oleifera" 175-177, 2010
4 Boni, M.R., "The potential of compostbased biobarriers for Cr(VI) removal from contaminated groundwater, Column test" 166 : 1087-1095, 2009
5 Joong-Hyeok Heo, "The effect of ionic strength and hardness of trichloroethylene-contaminated synthetic groundwater on remediation using granular activated carbon" 한국지질과학협의회 11 (11): 229-239, 2007
6 Roberts, A.L., "Reductive elimination of chlorinated ethylenes by zero-valent metals" 30 (30): 2654-2659, 1996
7 U.S. EPA, "Permeable reactive barrier technologies for contaminant remediation" USEPA 1998
8 Dal-Heui Lee, "Mixing effect of NaCl and surfactant on the remediation of TCB contaminated soil" 한국지질과학협의회 12 (12): 63-68, 2008
9 U.S. EPA, "In-situ remediation technology status report, treatment walls" USEPA 1995
10 Blowes, D.W., "In-Situ remediation of chromate contaminated groundwater using permeable reactive walls" 31 : 3348-3357, 1997
11 Hong, K.J., "Evaluation of remediation process with plant-derived biosurfactant for recovery of heavy metals from contaminated soils" 49 : 379-387, 2002
12 Lee, D.-H., "Effect of soil texture on surfactant-based remediation of hydrophobic organic-contaminated soil" 27 : 681-688, 2002
13 U.S. EPA, "Cost analyses for selected groundwater cleanup projects; pump and treat system and permeable reactive barriers, solid waste and emergency response(5102G)" USEPA 2001
14 Morrison, S.J., "Chemical barriers for controlling groundwater contamination" 12 (12): 175-181, 1993
15 Longmire, P.A., "Application of sphagnum peat, calcium carbonate, and hydrated lime for immobilizing uranium tailing leachate" 212 : 623-631, 1991
16 Paria, S., "A review on experimental studies of surfactant adsorption at the hydrophilic solid water interface" 110 : 75-95, 2004