• 제목/요약/키워드: NON-POINT SOURCE

검색결과 721건 처리시간 0.022초

수질오염총량관리제의 합리적인 시행을 위한 비점오염원관리 개선방안 - 비점오염원 관리지역 선정 및 비점오염물질 관리를 중심으로 - (Improvement on Management of Non-point Source Pollution for Reasonable Implementation of TMDL - Focusing on Selection of Non-point Source Pollution Management Region and Management of Non-point Source Pollutant -)

  • 이상진;김영일
    • 대한환경공학회지
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    • 제36권10호
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    • pp.719-723
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    • 2014
  • 수질오염총량관리제의 효율적인 시행을 위해 본 연구에서는 비점오염원의 분류, 비점부하량(발생, 배출) 산정, 비점 오염원 관리지역의 선정, 비점오염물질 관리 등을 포함한 비점오염원 관리방안을 제시하고자 하였다. 무엇보다도 먼저 점오염원과 비점오염원의 정의는 학술적 법률적 관점에 기초하여 명확히 구분 관리하여야 한다. 특히, 사업활동과 사람의 활동에 의해서도 환경피해가 발생하지 않는 임야, 초지, 하천 등은 별도로 자연배경오염원으로 구분하여야 한다. 비점오염원 발생 및 배출부하량의 원단위는 유역의 실제여건에 맞도록 우선적으로 변경하여야 하며, 비점오염원 발생 및 배출부하량의 산정방법은 유역의 강수량 및 강수 지속시간을 고려하도록 수정하여야 한다. 한편, 수질오염총량관리제를 시행함에 있어 비점 오염원 관리지역은 강우시 하천의 오염물질 농도가 중권역 목표(관리목표)를 초과하거나 초과할 우려가 있는 유역을 대상으로 하며, 전체 유역 가운데 초지, 임야를 제외한 도시지역, 농경지, 그리고 대지 가운데 비점오염물질의 배출밀도가 높은 지역을 비점오염원 관리지역으로 최소화하여 선정하여야 한다. 비점오염물질저감시설은 단위면적당 비점오염물질 배출량, 오염물질 초과농도 지속시간, 처리의 실현가능성, 점오염원 대비 처리비용 효과 등을 고려하여 단위면적당 비점오염원 발생부 하량이 많은 지역과 강우시 수질농도가 중권역 목표를 초과하는 유역에 설치하여야 한다.

청양-홍성간 도로에서의 강우 시 비점오염 유출특성 및 오염부하량 분석 (Runoff Characteristics and Non-point Source Pollution Loads from Cheongyang-Hongseong Road)

  • 이춘원;강선홍;안태웅;양주경
    • 상하수도학회지
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    • 제25권2호
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    • pp.265-274
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    • 2011
  • Nowadays, the importance of non-point source pollution treatment is being emphasized. Especially, the easy runoff characteristic of highly concentrated pollutants in the roads makes the circumstance more complicated due to impermeability of roads. When the pollutants flow into steam it could make water quality in stream worse and it also causes a bad influence in the aquatic ecosystem because the effluents of rainfall-runoff may contain indecomposable materials like oil and heavy metals. Therefore, we tried to figure out the property of non-point source pollution when it is raining and carried out an assessment for the property of runoff for non-point source pollution and EMC (Event Mean Concentrations) of the essential pollutants during this study. As the result of the study, the EMC was BOD 5.2~21.7 mg/L, COD 7.5~35.4 mg/L, TSS 71.5~466.1 mg/L, T-N 0.682~1.789 mg/L and T-P 0.174~0.378 mg/L, respectively. The decreasing rate of non-point pollutant in Chungyang-Hongsung road indicates the maximum decrease of 80% until 5 mm of rainfall based on SS concentration; by the rainy time within 20~30 minutes, the decreasing rate of SS concentration was shown as 88.0~97.6%. Therefore it was concluded that it seems to be possibly control non-point pollutants if we install equipments to treat non-point pollutants with holding capacity of 30 min. It is supposed that the result of this study could be used for non-point pollutants treatment of roads in Chungyang-Hongsung area. We also want to systematically study and consistently prepare the efficient management of runoff from non-point source pollution and pollutant loading because the characteristics of non-point source pollution runoff changes depending on different characteristics and situations of roads and rainfall.

ASSESSMENT AND CONTROL OF TOTAL NUTRIENT LOADS IN WATERSHED AND STREAM NETWORK IN SOUTH-WEST TEXAS

  • Lee, Ju-Young;Choi, Jae-Young
    • Water Engineering Research
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    • 제7권1호
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    • pp.1-8
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    • 2006
  • Recently, the population growth and agricultural development are rapidly undergoing in the South-West Texas. The junction of three river basins such as Lavaca river basin, Colorado-Lavaca Coastal basin and Lavaca-Guadalupe Coastal basin, are interesting for non-point and point source pollutant modeling: Especially, the 2 basins are an intensively agricultural region (Colorado-Lavaca Coastal/Lavaca-Guadalupe Coastal basins) and several cities are rapidly extended. In case of the Lavaca river basin, there are many range land. Several habitat types wide-spread over three relatively larger basins and five wastewater discharge regions are located in there. There are different hazardous substances which have been released. Total nutrient loads are composed of land surface load and river load as Non-point source and discharge from wastewater facilities as point source. In 3 basins region, where point and non-point sources of poll Jtion may be a big concern, because increasing fertilizers and pesticides use and population cause. This project objective seeks to how to assess and control the accumulation of non-point and point source and discuss the main impacts of agriculture and environmental concern as non-point source with water quality related to pesticides, fertilizer, and nutrients and as point source with wasterwater discharge from cities. The GIS technique has been developed to aid in the point and non-point source analysis of impacts to natural resource within watershed. This project shows the losses in $kg/km^2/year$ of BOD (Biological Oxygen Demand), TN (Total Nitrogen) and TP (Total Phosphorus) in the runoff from the surface of 3 basins. In the next paper, sediment contamination will show how to evaluate in Estuarine habitats of these downstream.

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국내 비점오염 현황 및 제어방안: 총설 (Assessment and its control of non-point source pollution in Korea: Review)

  • 강민우;이상수
    • 상하수도학회지
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    • 제33권6호
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    • pp.457-467
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    • 2019
  • Because non-point source pollution is very closely related to hydrological characteristics, its importance is highly emphasized nowadays along with accelerating climate change. Especially for Korea, the non-point source pollution and its control are entirely depending on runoff, precipitation, drainage, land use or development, based on geographical and topographical reasons of Korea. Many studies reported the physical (e.g., apparatus- and natural-type facilities, etc.) and chemical methods (e.g., organic and inorganic coagulants, etc.) of controling non-point pollutant source pollution, however, those are needed to be reconsidered along with climate change causing the unexpected patterns and amounts of precipitation and strengthen complexity of social community. The objectives of this study are to assess recent situations of non-point source pollution in Korea and its control means and to introduce possible effective ways of non-point source pollution against climate change in near future.

논문 - HSPF를 이용한 새만금 유역의 오염부하 특성 (Characteristics of Pollutant Loads in Saemangeum Watershed Using HSPF)

  • 정지연;신유리;최정훈;최인규;윤춘경;손영권
    • 한국관개배수논문집
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    • 제18권2호
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    • pp.54-65
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    • 2011
  • This study was performed to analyze the influence of pollutant loads characteristics on the point and non-point sources in Saemangeum watershed area using Hydrological Simulation Program, Fortran (HSPF). The simulation items were flow, BOD, T-N, and T-P(2007~2010). The pollutant loads trend reflects the precipitation. Specifically, the point source loads were almost constant, but the non-point source loads were influenced in the precipitation. It was found that the effect of non-point source is larger than point source. The water quality had a clear trend by the season. However, pollutant loads did not show distinct seasonal changes. The reason is that the pollutant concentration is diluted by the increased flow at summer season. Therefore, it is important to control the non-point source in order to manage water quality in the region. For the management of Saemangeum lake, it is need to control of supplied pollutant loads from Saemangeum watershed.

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유역모형과 하천수질모형의 연계를 통한 비점오염원 영향분석 (Non-point Source Impact Analysis through Linkage of Watershed Model and River Water Quality Model)

  • 최현구;김동일;김지은;한건연
    • 환경영향평가
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    • 제20권1호
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    • pp.25-36
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    • 2011
  • In this study, the accurate water quality analysis in rivers, including the non-point source is performed. First of all, watershed model, SWAT(Soil and Water Assessment Tool) was applied to analyze the impact of the non-point source in study area. And then, water quality analysis integrating the point source and the non-point source is implemented using QUALKO model. For more exact simulation, it should be the calibration and verification of variables and parameters which are needed for simulation. In addition, the importance of considering the non-point source was confirmed in river water quality simulation. BOD, TN, TP were analysed, and the results shows that BOD, TN and TP concentration was increased to 16.8%, 8.2% and 25.8% respectively. The more accurate estimate will be carried if use of reliable measurements and watershed simulation be done in models linking process. The suggested technique will improve the accuracy of the water quality analysis. The methodologies presented in this study will contribute to basin-wide water quantity and quality management.

HSPF를 이용한 비점오염원 삭감에 따른 효과 분석 (Assessing Impact of Reduction of Non-Point Source Pollution by BASINS/HSPF)

  • 배다혜;하성룡
    • 환경영향평가
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    • 제20권1호
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    • pp.71-78
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    • 2011
  • This paper aims to assessing impact of reduction of non-point source pollution in the Bokha Stream watershed. The BASINS/HSPF model was calibrated and verified for water flow and water qualities using Total Maximum Daily Load 8days data from 2006 to 2007. Accuracy of the BASINS/HSPF models in simulating hydrology and water quality was compared and there were somewhat differences of statistical results, but water flow and water quality were simulated in good conditions over the study period. The applicability of models was tested to evaluate non-point source control scenarios to response hydrology and water quality in the Bokha stream using various measures which include BMPs approach and change of landuse. The evaluation of reduction of non-point source pollution was developed using load-duration curve. Despite strong reduction of non-point source, there are not satiated target quality at low flow season.

비점오염 취약지역을 고려한 관리우선순위 설정 (Prioritization of Control Areas using Vulnerable Areas by Non-point Source Pollution)

  • 김홍태;신동석;김용석
    • 한국농공학회논문집
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    • 제56권6호
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    • pp.11-18
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    • 2014
  • Vulnerable areas by non-point source pollution and prioritizing control areas were researched using hydrological and geomorphological data, non-point source loads, and water quality data. Using overlay analysis, vulnerable areas were graded with various scenarios. Vulnerable areas were selected near the metro city with impermeable landuse because non-point source loads and water quality data had influence on overlay analysis to rank vulnerable area. Analysis scenarios and weighted values can be changed under regional characteristics and given conditions.

비점오염원 관리지역의 선정 기법에 관한 연구 (A Study for the Selection Method of Control Area of Nonpoint Pollution Source)

  • 박상현;정우혁;이상진;임봉수
    • 한국물환경학회지
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    • 제26권5호
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    • pp.761-767
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    • 2010
  • This study introduces a model of territorial analysis on Chungcheongnam-do Nonsan-chun valley area, which gives an example of a method of selecting the management area for non-point pollution source from land use to help eliminate its source. High discharge load per unit area signify high level of land ratio with high level of basic unit of development load (including factory sites, school sites, roadways), which mean that there are a significant level of urbanization. It is these areas with the examination of the water quality of the nearby river that should be considered as the management area for non-point pollution source. Thus, the management area for non-point pollution source should be sought in areas with high discharge load per unit area and high density of water pollution area. When level of drainage is high the pollution density level is relatively lower, and when the level of drainage is low the density level is relatively higher. The level of pollution from non-point pollution source is much lower with more water flowing through. The possible non-point pollution source areas that were selected with these standards were then examined with the distance from the river, the slope angle, land usage, elevation, BOD discharge density load, T-N discharge density load, T-P discharge density load, and were given a level one through five. Out of the possible areas Nonsan-si Yeonmu-eup Anshim-li was the densest area, and it was given level one. The level one area should be examined further with the field analysis to be selected as the actual management area for non-point pollution source.

유역의 토지이용 특성을 고려한 비점오염원 관리방안 적용에 따른 저감 효율 분석 (Analysis of the Efficiency of Non-point Source Pollution Managements Considering the Land Use Characteristics of Watersheds)

  • 최유진;이서로;금동혁;한정호;박운지;김종건;임경재
    • 한국물환경학회지
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    • 제36권5호
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    • pp.405-422
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    • 2020
  • Land use change by urbanization has significantly affected the hydrological process including the runoff characteristics. Due to this situation, it has been becoming more complicated to manage non-point source pollutions caused by rainfall. In order to effectively control non-point sources, it is necessary to identify the reduction efficiency of the various management method based on land use characteristics. Thus, the purpose of this study is to analyze the reduction efficiency of non-point source pollution management practices targeting three different watersheds with the different land use characteristics using the Soil and Water Assessment Tool (SWAT). To do this, the vulnerable subwatersheds to non-point source pollution occurrence within each watershed were selected based on the streamflow and water quality simulation results. Then, considering the land use, low impact development (LID) or best management practices (BMPs) were applied to the selected subwatersheds and the efficiency of each management was analyzed. As a result of analysis of the non-point source pollution reduction efficiency, when LID was applied to urban areas, the average reduction efficiencies of SS, NO3-N, and TP were 5.92%, 4.62%, and 10.35%, respectively. When BMPs were applied to rural areas, the average reduction efficiencies of SS, TN and TP were 35.45%, 4.37%, and 10.16%, respectively. The results of this study can be used as a reference for determining appropriate management methods for non-point source pollution in urban, rural, and complex watersheds.