• 한국농공학회논문집
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• 제55권4호
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• pp.121-131
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• 2013

This study focused on the sediment reduction effects of VFS (vegetative filter strip) systems for the general characteristics of uplands in Korea. General conditions of upland fields were investigated through national scales of annual agricultural statistics. 7-15 % of slope with loam soil was the dominant types of uplands, and the hydrologic soil group feature usually belong to Type B. The common sizes of uplands were bigger than 0.1 ha and less than 0.2 ha, and 86.2 % of them account for less than 1.0 ha. With this information, 0.1 ha, 0.5 ha, and 1.0 ha of uplands with various shapes and 7-15 % of slopes were considered for the VFS system simulations. 20 mm, 40 mm, and 100 mm of daily precipitation were applied. As a result, the trapping efficiencies of VFS systems were obtained 37.4~100 % for 7 % slope and 18.1~98.0 % for 15 % slope of the less than 1.0ha of uplands. As rainfall increased, sediment loads also increased with slope and slope length increase. Also as size and slope of uplands and slope length increased with VFS length decrease, the trapping efficiency decreased for the same amount of rainfall. The optimum lengths of VFS systems for the givien upland conditions were suggested based on the modelling results with condition of VFS length less than 20 % of upland areas.

• 대한원격탐사학회지
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• 제24권1호
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• pp.35-43
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• 2008

The purpose of this study is to evaluate the hydrological impact due to temporal land cover change by gradual urbanization of upstream watershed of Pyeongtaek gauging station of Anseong-cheon. WMS HEC-1 was adopted, and OEM with 200 m resolution and hydrologic soil group from 1:50,000 scale soil map were prepared. Land covers of 1986, 1990, 1994 and 1999 Landsat TM images were classified by maximum likelihood method. The watershed showed a trend that forest & paddy areas decreased and urban/residential area gradually increased during the four selected years. The model was calibrated at 2 locations (Pyeonglaek and Gongdo) by comparing observed with simulated discharge results for 5 summer storm events from 1998 to 2001. The watershed average CN values varied from 61.7 to 62.3 for the 4 selected years. To identify the impact of streamflow by temporal area change of a target land use, a simple evaluation method that the CN values of areas except the target land use are unified as one representative CN value was suggested. By applying the method, watershed average CN value was affected in the order of paddy, forest and urban/residential, respectively.

• 한국농공학회논문집
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• 제52권1호
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• pp.1-11
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• 2010

Generation and transportation of runoff and pollutant loads within watershed generated eutrophication at Daecheong reservoir. To improve water quality at Daecheong reservoir, the best management practices should be developed and applied at upper watersheds for water quality improvement at downstream areas. In this study, two small watersheds of upper Daecheong reservoir were selected. The Long-Term Hydrologic Impact Assessment (L-THIA) model has been widely used for the estimation of the direct runoff worldwide. To apply the L-THIA ArcView GIS model was evaluated for direct runoff and water quality estimation at small watershed. And the Web-based Hydrograph Analysis Tool (WHAT) was used for direct runoff separating from total flow. As a result, the $R^2$ (Coefficient of determination) value and Nash-Sutcliffe coefficient value for direct runoff comparison at An-nae watershed were 0.81 and 0.71, respectively. And the $R^2$ value and Nash-Sutcliffe coefficient value at Wol-oe were 0.95 and 0.93. The $R^2$ value of BOD, TOC, T-N and T-P at An-nae watershed were BOD 0.94, TOC 0.81, T-N 0.94 and T-P 0.89. And the $R^2$ value of BOD, TOC, T-N and T-P at Wol-oe watershed were BOD 0.80, TOC 0.93, T-N 0.86 and T-P 0.65. The result that estimated pollutant loadings using the L-THIA ArcView GIS model reflected well the measured pollutant loadings except for T-P in Wol-oe watershed. With L-THIA ArcView GIS model, the direct runoff and non-point pollutant (NPS) loadings in the watershed could be analyzed through simple input data such as daily rainfall, land uses, and hydrologic soil group.

• 한국물환경학회지
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• 제34권4호
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• pp.382-390
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• 2018

In this study, the LIDMOD3 was developed to design and evaluate low impact development (LIDMOD). In the same fashion, the LIDMOD3 employs a curve number (NRCS-CN) method to estimate the surface runoff, infiltration and event mean concentration as applicable to pollutant loads which are based on a daily time step. In these terms, the LIDMOD3 can consider a hydrologic soil group for each land use type LID-BMP, and the applied removal efficiency of the surface runoff and pollutant loads by virtue of the stored capacity, which was calculated by analyzing the recorded water balance. As a result of Model development, the LIDMOD3 is based on an Excel spread sheet and consists of 8 sheets of information data, including: General information, Annual precipitation, Land use, Drainage area, LID-BMPs, Cals-cap, Parameters, and the Results. In addition, the LIDMOD3 can estimate the annual hydrology and annual pollutant loads including surface runoff and infiltration, the LID efficiency of the estimated surface runoff for a design rainfall event, and an analysis of the peak flow and time to peak using a unit hydrolograph for pre-development, post-development without LID, and as calculated with LID. As a result of the model application as applied to an apartment, the LIDMOD3 can estimate LID-BMPs considering a well spatical distributed hydroloic soil group as realized on land use and with the LID-BMPs. Essentially, the LIDMOD3 is a screen level and simple model which is easy to use because it is an Excel based model, as are most parameters in the database. This system can be expected to be widely used at the LID site to collect data within various programmable model parameters for the processing of a detail LID model simulation.

• 한국수자원학회논문집
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• 제36권6호
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• pp.999-1012
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• 2003

본 논문의 목적은 위성영상 피복분류항목에 대해 통계적 접근법으로부터 산정된 유출곡선지수(CN)를 이용하여 계산 유효우량과 관측 유효우량을 비교함으로써 그 적용성을 검토하는데 있다. 검정을 위한 적용대상지역은 경안천 수위지점 상류유역, 백옥포 수위지점 상류유역, 괴산댐 수위지점 상류유역으로 선정하였으며 각 지역별로 4개의 홍수사상을 선정하였다. CN 값 산정을 위해 2000년에 획득된 Landsat-7 ETM 영상을 이용하여 토지이용도를 구축하였으며 개략토양도로부터 수문학적 토양군을 구축하였다. 유역평균 CN 값은 대상지역별로 71, 63, 66으로 나타났으며 계산 유효우량과 관측 유효우량의 비교결과 약30% 이내의 일정수준의 오차를 가지는 것으로 나타났다. 따라서 위성영상을 이용하여 미계측 유역의 CN 값 산정시 본 논문 I에서 개발한 CN 값을 적용함으로서 기존의 방법에 비해 보다 객관적인 값을 제시해줄 것으로 판단된다.

• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2004년도 임시총회 및 추계학술발표회
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• pp.119-120
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• 2004

Urban groundwater has a unique hydrologic system because of the complex surface and subsurface infrastructures such as deep foundation of many high buildings, subway systems, and sewers and public water supply systems. It generally has been considered that increased surface impermeability reduces the amount of groundwater recharge. On the other hand, leaks from sewers and public water supply systems may generate the large amounts of recharges. All of these urban facilities also may change the groundwater quality by the recharge of a myriad of contaminants. This study was performed to determine the factors controlling the recharge of deep groundwater in an urban area, based on the hydrogeochemical characteristics. The term ‘contamination’ in this study means any kind of inflow of shallow groundwater regardless of clean or contaminated. For this study, urban groundwater samples were collected from a total of 310 preexisting wells with the depth over 100 m. Random sampling method was used to select the wells for this study. Major cations together with Si, Al, Fe, Pb, Hg and Mn were analyzed by ICP-AES, and Cl, N $O_3$, N $H_4$, F, Br, S $O_4$and P $O_4$ were analyzed by IC. There are two groups of groundwater, based on hydrochemical characteristics. The first group is distributed broadly from Ca-HC $O_3$ type to Ca-C1+N $O_3$ type; the other group is the Na+K-HC $O_3$ type. The latter group is considered to represent the baseline quality of deep groundwater in the study area. Using the major ions data for the Na+K-HC $O_3$ type water, we evaluated the extent of groundwater contamination, assuming that if subtract the baseline composition from acquired data for a specific water, the remaining concentrations may indicate the degree of contamination. The remainder of each solute for each sample was simply averaged. The results showed that both Ca and HC $O_3$ represent the typical solutes which are quite enriched in urban groundwater. In particular, the P$CO_2$ values calculated using PHREEQC (version 2.8) showed a correlation with the concentrations of maior inorganic components (Na, Mg, Ca, N $O_3$, S $O_4$, etc.). The p$CO_2$ values for the first group waters widely ranged between about 10$^{-3.0}$ atm to 10$^{-1.0}$ atm and differed from those of the background water samples belonging to the Na+K-HC $O_3$ type (<10$^{-3.5}$ atm). Considering that the p$CO_2$ of soil water (near 10$^{-1.5}$ atm), this indicates that inflow of shallow water is very significant in deep groundwaters in the study area. Furthermore, the P$CO_2$ values can be used as an effective parameter to estimate the relative recharge of shallow water and thus the contamination susceptibility. The results of our present study suggest that down to considerable depth, urban groundwater in crystalline aquifer may be considerably affected by the recharge of shallow water (and pollutants) from an adjacent area. We also suggest that for such evaluation, careful examination of systematically collected hydrochemical data is requisite as an effective tool, in addition to hydrologic and hydrogeologic interpretation.ion.ion.

• 한국물환경학회지
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• 제27권4호
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• pp.405-412
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• 2011

Increased Non-permeable areas which have resulted from civilization reduce the volume of groundwater infiltration that is one of the important factors causing water shortage during a dry season. Thus, seeking the efficient method to analyze the volume of groundwater in accurate should be needed to solve water shortage problems. In this study, two different watersheds were selected and precipitation, soil group, and land use were surveyed in a particular year in order to figure out the accuracy of estimated infiltration recharge ratio compared to Web-based Hydrograph Analysis Tool (WHAT). The volume of groundwater was estimated considering Antecedent soil Moisture Condition (AMC) and Curve Number (CN) using Long Term Hydrologic Impact Assessment (L-THIA) model. The results of this study showed that in the case of Kyoung-an watershed, the volume of both infiltration and baseflow seperated from WHAT was 46.99% in 2006 and 33.68% in 2007 each and in Do-am watershed the volume of both infiltration and baseflow was 33.48% in 2004 and 23.65% in 2005 respectively. L-THIA requires only simple data (i.e., land uses, soils, and precipitation) to simulate the accurate volume of groundwater. Therefore, with convenient way of L-THIA, researchers can manage watershed more effectively than doing it with other models. L-THIA has limitations that it neglects the contributions of snowfall to precipitation. So, to estimate more accurate assessment of the long term hydrological impacts including groundwater with L-THIA, further researches about snowfall data in winter should be considered.

• 한국수자원학회:학술대회논문집
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• 한국수자원학회 2008년도 학술발표회 논문집
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• pp.1909-1913
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• 2008

수자원의 공급적인 측면에서 내륙지역에 비하여 불리한 도서지역은 단기간의 가뭄에도 생활용수가 고갈되어 매년 상습적인 식수난을 겪고 있는 상태이다. 전국 3,170개 섬 중 491개 유인도에 831,295명(2003년)이 거주하고 있으나 상수도 보급률은 28.7%에 불과하다(환경부, 2005). 나머지 71.3%의 도서지역 주민들은 간이 급수시설, 우물, 지붕수 등을 생활용수로 이용하고 있다. 이와같이 도서지역은 상수도 보급율이 열악하여 지하수자원에 대한 의존도가 내륙지역에 비하여 높아 지하수자원을 통해 부족한 용수를 공급받아야 할 실정이다. 용수공급을 위한 지하수의 개발을 위해서 무엇보다 선행되어야 할 것은 도서지역의 지하수개발가능량 평가이며 이의 평가를 위해서는 지하수함양량의 파악이 이루어져야 한다. 지하수함양량 산정 기법 중 하나인 NRCS-CN방법은 선행강우조건, 토지피복상태, 수문학적 토양군 등의 인자들에 의해 산정되어진다. 수문학적 토양군의 경우 대부분의 연구에서 정정화 등 (1995)에 의해 분류된 자료가 이용되고 있었으나 최근 정광호 등(2007)에 의하여 수문학적 토양군이 재분류 되었다. 본 연구에서는 NRCS-CN방법을 이용하여 식수난에 어려움을 겪고 있는 우리나라 서남해안의 14개 도서지역에 대하여 수문학적 토양군의 1995년 분류와 2007년 분류를 적용하여 지하수함양량을 산정하고 비교하였다. 1995년 분류와 2007년 분류에서 지하수함양량과 함양률은 개도, 생일도, 보길도를 제외한 도서지역은 1%미만의 차이로 변화가 거의 없는 것으로 나타났다. 개도, 생일도, 보길도는 1995년 분류에 비하여 2007년 분류에서 $2.2%{\sim}2.8%$ 감소하였다. 따라서 대상지역의 수문학적토양군의 재분류에 의한 지하수함양량 및 함양률의 차이가 미미함을 알 수 있었다. 연평균 함양량은 1995년 분류와 2007년 분류에서 수도가 590.8mm, 583.5mm로 최대값을 가지며 가파도가 270.2mm, 270.5mm로 최소값을 가지는 것으로 나타났다. 함양률의 경우 1995년 분류에서는 개도가 29.8%의 최대값을 나타내었고 가파도가 23.3%의 최소값을 가지는 것으로 나타났으며 2007년 분류에서는 사량도 상도가 28.5%의 최대값을 나타내었고 가파도가 23.3%의 최소값으로나타났다.

• 한국수자원학회논문집
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• 제36권4호
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• pp.609-621
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• 2003

본 연구는 안성천의 평택수위관측소 상류유역을 대상으로 점진적인 도시화로 인한 토지피복변화가 수문변화에 미치는 영향을 분석하고자 하였다. 이를 위해 WMS HEC-1모형을 사용하였고, 격자크기 200$\times$200m DEM과 1:50,000토양도로부터의 수문학적 토양군을 이용하였다. 1986, 1990, 1994, 1999년 Landsat TM 영상을 최우도법에 의해 피복분류를 실시한 결과, 이 기간동안 유역내에 산림과 논은 지속적으로 감소하여 왔고, 도시/주거지 면적은 꾸준하게 증가한 것으로 분석되었다. 1998년에서 2001년까지 5개의 강우사상을 선정하여 평택과 공도 두 지점에 대하여 모형을 보정하였다. 4개년의 유역평균 CN값은 61.7-62.3의 범위를 보였다. 본 연구에서는 특정토지 이용의 면적변화가 하천유출에 미치는 영향을 파악하기 위하여 특정토지이용을 제외한 타 토지이용의 CN을 대표 CN으로 변환하는 간단한 방법을 제안하였다. 논, 산림, 도시/주거지의 동일면적변화에 대하여 논, 산림, 도시/주거지의 순으로 유역평균 CN값에 영향을 주었다.