• 한국농공학회지
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• 제32권E호
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• pp.33-46
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• 1990

Abstract Over 700/0 of the rural land area in Korea is mountainous and small watersheds provide most of the water resources for agricutural use. To provide an appropriate tool for the agricultural water resource development project, SNUA2, a mathematical model for simulating the physical processes governing the precipitation-runoff relationships and predicting the storm and long-term runoff quantities from the small mountainous watersheds was developed. The hydrological characteristics of small mountainous watersheds were reviewed to select appropriate theories for the simulation of the runoff processes, and a deterministic and distributed model was developed. In this, subsurface flows are routed by solving Richard's two dimensional equation, the dynamics of soil moisture contents are simulated by the consideration of phenological factors of canopy plants and surface flows are routed by solving the kinematic wave theory by numerical analysis. As a result of an application test of the model to the Sanglim watershed, peak flow rates of storm runoff were over-estimated by up to 184.2%. The occurence time of peak flow and total runoff volume of storm runoffs simulated were consistent with observed values and the annual runoff volumes were simulated in the error range of less than 5.8%.

• 한국물환경학회지
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• 제23권4호
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• pp.527-534
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• 2007

To operate scientifical and integrated management of water resources, it needs to identify clearly the quantitative variation and moving pathway of water resources in a basin. Moreover, it needs to also estimate more precisely the amount of runoff generating from the precipitation. Thus, in this study, to carry out more reliable hydrologic analyses, the runoff characteristics according to detailed runoff components and water balance in a basin are analyzed. As a result of yearly water balance analyses, during the period of drought year, the loss is bigger than that of 6-year mean loss and the return flow of groundwater is the most dominant component of runoff. During the period of flood year, the loss is smaller about 4% than that of 6-year mean loss and the subsurface water is the most dominant component of runoff. The loss due to the interception and evapotranspiration for 6-year mean loss is about 53% of the total rainfall, the mean runoff ratio is about 27% and the baseflow is about 22%.

• 한국농공학회:학술대회논문집
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• 한국농공학회 1998년도 학술발표회 발표논문집
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• pp.22-27
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• 1998

A grid-based soil moisture routing model(GRISMORM) was developed to assess the information of groundwater recharge using spatial data such as Landsat TM and digital elevation model etc.. The model predicts the hydrologic components, that is, surface runoff, subsurface runoff, baseflow and evapotranspiration at each grid elements by grid-based water balance computation.

• 한국농공학회:학술대회논문집
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• 한국농공학회 2005년도 학술발표논문집
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• pp.266-271
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• 2005

In this study, following works have been carried out : division of Nakdong River Basin into 25 sub basins, development of a technique to evaluate spatial distribution of rainfall and analysis of rainfall data of 169 stations, selection of control points, and selection of a hydrologic model(SSARR). The runoff analysis showed that the surface-subsurface separation and soil moisture index parameters are the most important two to the simulation result.

• 한국수자원학회논문집
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• 제45권1호
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• pp.39-52
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• 2012

유역내에서 발생하는 유출은 지표 유출과 지표하 유출이 있으며, 서로 상호작용 상태를 유지하게 된다. 일반적으로 지표와 지표하 둘 중 한 가지 알고리즘으로 해석이 힘든 유역에 대해 지표와 지표하 사이의 동적인 관계를 상세하게 모의해야 하는 경우 상호작용에 관한 요소를 고려하여야 한다. 동적인 상호작용 시스템의 구동에서는 시 공간적인 매개변수가 중요하며, 적절한 모의를 위해시 공간적인 매개변수는 시스템 상에서 지표와 지표하 항에 대한 복합적인 메카니즘으로 구성되어야 한다. 본 연구에서는 이러한 지표 및 지표하 유출의상호작용에 관한 알고리즘을 위해 2차원 확산파 방정식을 이용하여 지표 유출을 해석하고, Darcy의 법칙과 Dupuit-Forchheimer의 가정을 이용한 Boussinesq 방정식을 적용하여 포화상태의 지표하 유출의 알고리즘을 구성하였다. 커플링 방정식으로 공간에 대해서는 유한체적법을 사용하고, 시간에 대해서는 Crank-Nicolson 방법을 이용하였으며, 지표와 지표하 흐름의 상호작용에 대해서는 질량보존의 법칙에 기반하여 구성하였다. 이상의 과정을 통하여 지표 유출해석, 지표하 유출해석, 상호작용, 수치해석 부분의 4가지 주요 모듈을 만들었으며, 4가지 주요 모듈을 통합하여 복합유역의 지표 및 지표하 유출해석 모듈을 개발하였다.

• 한국농공학회지
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• 제42권
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• pp.38-49
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• 2000

Two application rates (9 and 18 t/ha) of poultry litter and a recommended rate of commercial fertilizer were studied to determine their effects on nutrient (N and P) losses in surface and subsurface runoff and loadings in soil layers from conventionally-tilled com by the treatments. The model predicted higher sediment losses than observed data from all treatments. The overpredicted sediment losses resulted in overprediction of organic-N and sediment-P losses in surface runoff. Simulated soluble-P losses in surface runoff were close to observed data, while NO3-N losses in surface runoff were underpredicted from all treatments. Observed NO3-N concentrations in leachate at 1.0-m depth from commercial fertilizer treatment were fairly well predicted. But the concentratins were overpredicted from poultry litter treatments due to high simulation of organic-N mineralization simulated by the model.

• 한국물환경학회지
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• 제23권1호
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• pp.155-160
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• 2007

Constructed wetland has been widely used for the treatment of sewage, stormwater runoff, industrial wastewater, agricultural runoff, acid mine drainage and landfill leachate. For the removal of nitrogen and phosphorus, uptake by plants and adsorption to media material are the major processes, and, therefore, the selection of media with specific adsorption capacity is the critical factor for the optimal design of wetland along with the selection of appropriate plant species. In this study, two media materials (loess bead and mixed media) possessing different adsorption characteristics for ammonium and phosphate were selected, and their adsorption characteristics were evaluated. In addition, the performance of subsurface-flow wetland systems employing these media was evaluated in both batch and continuous flow systems. With LB medium, beter phosphorus removal was observed, while better ammonia removal was obtained with MM medium. In addition, enhanced removal efficiencies were observed in the wetland systems employing both media and aquatic plants, mainly due to the better environment for microbial growth. As a result, appropriate selection or combination of media with respect to the inflow water quality maybe important factors for the successful design and operation of wetland systems.

• 한국수자원학회:학술대회논문집
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• 한국수자원학회 2012년도 학술발표회
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• pp.200-204
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• 2012

In engineering hydrology, an estimation of precipitation loss is one of the most important issues for successful modeling to forecast flooding or evaluate water resources for both surface and subsurface flows in a watershed. An accurate estimation of precipitation loss is required for successful implementation of rainfall-runoff models. Precipitation loss or hydrological abstraction may be defined as the portion of the precipitation that does not contribute to the direct runoff. It may consist of several loss elements or abstractions of precipitation such as infiltration, depression storage, evaporation or evapotranspiration, and interception. A composite loss rate model that combines four loss rates over time is derived as a lumped form of a continuous time function for a storm event. The composite loss rate model developed is an exponential model similar to Horton's infiltration model, but its parameters have different meanings. In this model, the initial loss rate is related to antecedent precipitation amounts prior to a storm event, and the decay factor of the loss rate is a composite decay of four losses.

• 한국수자원학회논문집
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• 제48권7호
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• pp.595-604
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• 2015

강우에 의한 세류간 토양침식은 운동에너지를 갖는 빗방울이 지표면을 타격하여 발생하는 빗물튀김의 박리현상과 지표유출수의 면상흐름에 의한 토사입자의 운반으로 구분할 수 있다. 강우운동에너지는 토양입자를 토양체로부터 분리시키기 위한 강우의 잠재적인 능력의 지표로 널리 사용되고 있다. 본 연구에서는 강우운동에너지가 세류간 토양침식에 미치는 영향을 파악하기 위해 강우의 충돌을 제어하는 스트립 커버를 이용한 토양침식 강우모의 실험을 수행하였다. 강우모의에 의한 강우운동에너지는 자연강우에 비해 0.58배 규모로 재현되었다. 강우강도가 증가함에 따라 지표유출량은 증가하고 지표하유출량은 상대적으로 감소하였다. 지표커버가 없는 사면으로부터 발생한 지표유출량이 지표커버가 있는 경우에 비해 평균 1.82배 증가하였다. 강우운동에너지는 지표유출 및 지표하유출 발생시간에도 영향을 끼쳤다. 빗물튀김과 면상흐름의 상호작용으로 토사유출량이 3.6~5.9배 증가하였으며 그 증가폭은 강우강도의 증가에 따라 감소하였다. 단위수류력과 토사유출량의 관계분석 결과 강우운동에너지는 빗물튀김에 의한 토양입자의 분리침식을 증가시킬 뿐만 아니라 지표유출수 증가에 따른 토사이송능력을 가중시켜 토사유출량을 크게 증가시키는 것으로 확인되었다.

• 한국농공학회지
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• 제38권3호
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• pp.92-100
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• 1996

In order to control the water quality in rivers or lakes, it is needed to evaluate accurate amount of pollutant loadings from watersheds. The daily pollutant loadings were simulated using the pollutant loading calculation model which was composed of mathematical equations superimposed on the TANK model. The calibration of runoff and pollutant loading parameters were carried out with observed data, using a trial-and-error method. In addition, the proposed model was applied to evaluate its applicability for the representative watershed, the Bokha river watershed, Icheon city, Korea. The parameters of SS and T-P showed large values in the first tank while T-N showed large in the second tank. As a result of simulating the daily pollutant loadings by the pollutant loading calculation model, all of SS, T-N and T-P loadings were increased or decreased according to the amount of runoff discharge. Especially, it was apparent that SS and T-P loadings were significantly influenced by the runoff variation when it was rain. These results could partly explain that SS and T-P would occur mainly from the surface runoff while T-N would occur from both surface and subsurface flow.