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NTIS 바로가기지하수토양환경 = Journal of soil and groundwater environment, v.16 no.4, 2011년, pp.10 - 22
박인선 (한양대학교 건설환경공학과) , 박재우 (한양대학교 건설환경공학과)
Human health risk assessment for petroleum, oil and lubricant (POL) contaminated sites is challenging as total petroleum hydrocarbon (TPH) is not a single compound but rather a mixture of numerous substances. To address this concern, several TPH fractionation approaches have been proposed and used a...
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핵심어 | 질문 | 논문에서 추출한 답변 |
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토양오염관리정책의 기본 전략은 어떻게 나눌수 있는가? | 토양오염관리정책의 기본 전략은 ‘농도 기반 관리방안 (concentration-based approach)’과 ‘위해성 기반 관리방안 (risk-based approach)’으로 나누어 볼 수 있다. ‘농도 기반 관리방안’은 현재 국내 토양오염관리정책의 근간을 이루고 있는 기본 전략으로서 토양환경보전법상 결정된 오염물질의 항목별 농도기준(우려기준)을 바탕으로 오염여부의 확인 및 복원수준의 결정 등을 수행하는 관리전략이다. | |
TPH는 어떤 혼합물인가? | TPH는 알칸(alkanes, paraffins), 알켄(alkenes, olefins), 사이클로알칸(cycloroalkanes, naphthenes) 및 방향족 (aromatics) 화합물 등 수많은 물질로 구성된 혼합물로서 (TPHCWG, 1998b; API, 2001) 단일 물질이 아니기 때문에 TPH로부터 발생되는 위해성을 직접적으로 평가하는 것은 매우 어렵다. 유류에 포함된 모든 화합물의 종류 및 물리·화학적 특성이 알려져 있지 않을 뿐 만 아니라 알려져 있다 하더라도 모든 화합물을 분석하고 평가하는 것은 기술적 및 경제적으로 불가능하다. | |
concentration-based approach은 어떤 전략인가? | 토양오염관리정책의 기본 전략은 ‘농도 기반 관리방안 (concentration-based approach)’과 ‘위해성 기반 관리방안 (risk-based approach)’으로 나누어 볼 수 있다. ‘농도 기반 관리방안’은 현재 국내 토양오염관리정책의 근간을 이루고 있는 기본 전략으로서 토양환경보전법상 결정된 오염물질의 항목별 농도기준(우려기준)을 바탕으로 오염여부의 확인 및 복원수준의 결정 등을 수행하는 관리전략이다. 그러나 이 방법은 오염의 결과에만 초점을 맞춘 방안으로서 행정적인 관점에서 볼 때 의사결정을 신속하게 진행할 수 있다는 장점을 가지고 있으나, 실제 수용체에 미칠 수 있는 건강적 또는 생태적 영향을 바탕으로 하지 않고 있다는 측면에서 실효성에 의문이 제기되어 왔다(박용하 외, 2005; 정승우·안윤주, 2007). |
환경부, 2009a, 토양오염 위해성평가지침, 환경부 예규 제383호.
환경부, 2009b, 토양보전 기본계획(2010-2019), 11-1480000-001048-01.
환경부, 2009c, 토양오염공정시험기준, 환경부 고시 제2009-255호.
환경부, 2010, '09 하반기 정유사별 자동차연료 환경품질등급.
AEHS, 1998, Characterization of C6-C35 petroleum hydrocarbons in environmental samples-The Direct Method, The Association for Environmental Health and Sciences. Available at http://www.weber.hu/PDFs/SPE/TPHCWG.pdf (accessed January 2011)
API, 1993, Method for the characterization of petroleum hydrocarbons in soil, Revision 2, American Petroleum Institute.
API, 2001, Risk-based methodologies for evaluating petroleum hydrocarbon impacts at oil and natural gas E&P sites, API Publication 4709, American Petroleum Institute Publishing Services.
Ascary, K. and Pollard, S., 2005, The UK approach for evaluating human health risks from petroleum hydrocarbons in soils, Science Report P5-080/TR3, UK Environment Agency.
ASTM, 1995, Guide for risk-based corrective action applied at petroleum release sites, Standard E1739-95e1, American Society for Testing Materials.
Badji, J.D. and Kostic, N.M., 2000, Unexpected interaction between Sol-Gel Silica glass and guest molecules extraction of aromatic hydrocarbons into polar silica from hydrophobic solvents, J. Phys. Chem., 104, 11081-11087.
Boehm, P.D., Page, D.S., Brown, J.S., Neff, J.M., Bragg, J.R. and Atlas, R.M., 2008, Distribution and weathering of crude oil residues on shorelines 18 years after the Exxon Valdez spill, Environ. Sci. Technol., 24, 9210-9216.
Brown, D.G., Knightes, C.D., and Peters, C.A., 1999, Risk assessment for polycyclic aromatic hydrocarbon NAPLs using component fractions, Environ. Sci. Technol., 33, 4357-4363.
CCME, 2001, Reference method for the Canada-wide standard for petroleum hydrocarbons in soil - Tier 1 method, Canadian Council of Ministers of the Environment.
CCME, 2008a, Canada-wide standard for petroleum hydrocarbons (PHC) in soil: User guidance PN-1398, Canadian Council of Ministers of the Environment.
CCME, 2008b, Canada-wide standard for petroleum hydrocarbons (PHC) in soil: Scientific rationale supporting technical document PN-1399, Canadian Council of Ministers of the Environment.
Environment Agency, 2005, The UK approach for evaluating human health risks from petroleum hydrocarbons in soils, Science Report P5-080/TR3, UK Environment Agency.
Harmsen, J., Hutter, J.W., Win, T., Barnabas, I., Whittle, P., Hansen, N., and Sakai, H., 2005, Risk assessment for mineral oil: Development of standardized analytical methods in soil and soil-like materials, Alterra-Report 1225, Wageningen, Alterra.
Jonker, M.T.O., Brils, J.M., Sinke, A.J.C., Murk, A.J. and Koelmans, A.A., 2006, Weathering and toxicity of marine sediments contaminated with oils and polycyclic aromatic hydrocarbons, Environ. Toxicol. Chem., 25, 1345-1353.
Lee, J.J. and Park, J.W., 2002, Human risk assessment of multiple contaminants in the subsurface, Geosci. J., 6, 27-33.
MaDEP, 1994, Interim Final Petroleum Report: Development of health based alternative to the total petroleum hydrocarbon (TPH) parameter, Massachusetts Department of Environmental Protection, USA Bureau of Waste Site Cleanup.
MaDEP, 2002a, Draft updated petroleum hydrocarbon fraction toxicity values for the VPH/EPH/APH methodology, Massachusetts Department of Environmental Protection, USA Bureau of Waste Site Cleanup.
MaDEP, 2002b, Characterizing risks posed by petroleum contaminated sites: Implementing the VPH/EPH/APH approach, Policy#WSC-02-411, Massachusetts Department of Environmental Protection, Executive Office of Environmental Affairs, Common Wealth of Massachusetts.
MaDEP, 2004a, Method for the determination of Volatile Petroleum Hydrocarbons (VPH), Massachusetts Department of Environmental Protection, Executive Office of Environmental Affairs, Common Wealth of Massachusetts.
MaDEP, 2004b, Method for the determination of Extractable Petroleum Hydrocarbons (EPH), Massachusetts Department of Environmental Protection, Executive Office of Environmental Affairs, Common Wealth of Massachusetts.
Ministry for the Environment, 1999, Guidelines for assessing and managing petroleum hydrocarbon contaminated sites in New Zealand, New Zealand Ministry for the Environment.
Park, I.S. and Park, J.W., 2010, A novel total petroleum hydrocarbon fractionation strategy for human health risk assessment for petroleum hydrocarbon-contaminated site management, J. Hazard. Mater., 179, 1128-1135.
Park, I.S. and Park, J.W., 2011, Determination of a risk management primer at petroleum-contaminated sites: Developing new human health risk assessment strategy, J. Hazard. Mater., 185, 1374-1380.
RIVM, 2001, Technical evaluation of the intervention values for soil/sediment and groundwater, RIVM Report 711701 023, Netherlands National Institute for Public Health and the Environment.
Rowland, S., Donkin, P., Smith, E., and Wraige, E., 2001, Aromatic hydrocarbon "humps" in the marine environment: Unrecognized toxins?,Environ. Sci. Technol., 35, 2640-2644.
TPHCWG, 1997a, Total Petroleum Hydrocarbon Criteria Working Group Series: Selection of representative TPH fractions based on fate and transport considerations, Total Petroleum Hydrocarbon Criteria Working Group.
TPHCWG, 1997b, Total Petroleum Hydrocarbon Criteria Working Group Series: Development of fraction specific reference doses (RfDs) and reference concentrations (RfCs) for total petroleum hydrocarbons, Total Petroleum Hydrocarbon Criteria Working Group.
TPHCWG, 1998a, Total Petroleum Hydrocarbon Criteria Working Group Series: Analysis of petroleum hydrocarbons in environmental media, Total Petroleum Hydrocarbon Criteria Working Group.
TPHCWG, 1998b, Total Petroleum Hydrocarbon Criteria Working Group Series: Composition of petroleum mixtures, Total Petroleum Hydrocarbon Criteria Working Group.
TPHCWG, 1999, Total Petroleum Hydrocarbon Criteria Working Group Series: Human health risk based evaluation of petroleum release sites: Implementing the working group approach, Total Petroleum Hydrocarbon Criteria Working Group.
US EPA, 1989, Risk assessment guidance for Superfund volume 1: Human health evaluation manual (Part A), EPA/540/1-89/002, Office of Emergency and Remedial Response, US Environmental Protection Agency.
US EPA, 1986, Guidelines for health risk assessment of chemical mixtures, EPA/630/R-98/002, Risk Assessment Forum, US Environmental Protection Agency.
Van Gestel, C.A.M., Van Der Waarde, J.J., Derksen, J.G.M., Van Der Hoek, E.E., Veul, M.F.X.W., Bouwens, S., Rusch, B., Kronenburg, R. and Stokman, G.N.M., 2001, The use of acute and chronic bioassays to determine the ecological risk and bioremediation efficiency of oil-polluted soils, Environ. Toxcol. Chem., 20, 1438-1449.
Wang, Z., Fingas, M. and Li, K., 1994, Fractionation of a light crude oil and identification and quantification of aliphatic, aromatic, and biomarker compounds by GC-FID and GC-MS, Part I, J. Chromatogr. Sci., 32, 361-366.
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