• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 2005.04a
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• pp.76-79
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• 2005

대수층 폭기법(aquifer air sparging)은 대수층에 가압공기를 주입하여 휘발성 유기오염물질을 제거하는 지반환경복원 기술의 하나이다. 본 연구는 전통적인 지하 대수층 폭기기술 시행에 있어서 특정층에 미리 수용액상 계면활성제를 수평방향으로 도입함으로써 오염물질이 실제로 존재하는 층에 선택적으로 폭기 되도록 하여 최소한의 공기량으로 제거 효율을 극대화 하는 기술을 개발하는 것을 목적으로 한다. 본 연구에서는 균일질 모래로 충진된 2차원 상자 모델을 사용하였으며, 표면장력 조절을 위하여 저농도(100mg/L) 음이온계 계면활성제(sodium dodecyl benzene sulfonate) 수용액이 사용되었다. 실험은 계면활성제가 처방되지 않은 경우, 공기도입부 근처에 계면활성제 용액이 도입된 경우, 공기도입부와 토양표면의 중간부분에 계면활성제 용액이 도입된 경우의 세 가지 방법으로 실시되었다. 실험 결과, 계면활성제가 도입된 경우는 투입되지 않은 경우에 비하여 최고 5배에 해당하는 폭기영향권의 확대가 관찰되었으며 폭기영향권이 계면활성제가 도입된 수평층을 중심으로 형성되어 이 부분에 집중되어 존재하는 오염물질의 제거에 매우 유리할 수 있다는 점이다. 대수층 도입공기의 수평확산을 유도하는 기술로 본 연구는 기존의 대수층 폭기 복원기술의 효율을 획기적으로 개선할 수 있을 것으로 기대된다.

• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 2003.02a
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• pp.97-107
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• 2003

• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 2003.02a
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• pp.29-38
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• 2003

• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 2004.02a
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• pp.73-85
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• 2004

• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 1996.05a
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• pp.37-49
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• 1996

• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 2002.11a
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• pp.117-141
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• 2002

• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 2001.02a
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• pp.5-13
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• 2001

• Journal of Nuclear Fuel Cycle and Waste Technology(JNFCWT)
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• v.17 no.2
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• pp.213-226
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• 2019

Regulatory agency and licensee are preparing for the site restoration of Kori unit 1, the first commercial NPP in Korea, scheduled for 2031. Developing regulatory guidelines and strategies is essential for effective restoration work. Unfortunately, Korea does not have experience of site restoration of commercial NPPs. Therefore, it is important to review cases from experienced countries to establish a strategy and regulatory standards. The U.S. has had numerous soil remediation experiences using RESRAD and MARSSIM. However, formalized evaluation methodologies for subsurface soil have not yet been established in MARSSIM. This survey focused on subsurface soil remediation by reviewing the five decommissioned NPPs under regulation of the US NRC. Overall process of remediating a contaminated subsurface soil and groundwater was reviewed to identify considerations and lessons that could be applicable in Korea. In addition, an applied methodology for evaluation of contaminated subsurface soil and related major issues between regulatory agency and licensees were reviewed in detail to support establishment of remediation strategy for Kori unit 1.

• Proceedings of the Korean Society of Soil and Groundwater Environment Conference
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• 2004.04a
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• pp.248-251
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• 2004

유류로 오염된 토양에 과산화수소를 주입 후 펜톤유사반응을 유도하여 유류오염토양의 복원 가능성을 조사해 보았다. 과산화수소의 분할 주입 후 TPH와 BTEX 제거율은 최고 99.04 %와 99.25%로 각각 나타났으며, BTEX와 TPH가 혼합 오염된 토양에서 펜톤유사반응을 적용하였을 때 BTEX의 분해보다 TPH의 분해가 빠르게 진행되는 것을 알 수 있었다.

• Economic and Environmental Geology
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• v.35 no.2
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• pp.149-154
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• 2002

Column tests were carried out to examine the effect of surfactant solution conditions on surfactant-enhanced remediation of contaminated soil. The selected conditions of the surfactant solution were concentration and pH. 1,2,4-trichlo-robenzene (TCB) was chosen as the model hydrophobic organic substances. Sodium diphenyl oxide disulfonate (DOSL) and octylphenoxypoly ethoxyethanol (OPEE) surfactants were selected for this study. Two Iowa soils, Fruitfield sand and Webster clay loam, were leached with surfactant solution. The test results revealed that an optimum condition was achieved for 4 %(v/v) of concentration and 10 of pH, respectively. The maximum recoveries of added TCB (93-98%) were obtained when optimal conditions of each surfactant solution parameter were simultaneously met. The optimum conditions of these parameters may be useful for surfactant-assisted remediation in soil contaminated by TCB.