• Proceedings of the Korea Water Resources Association Conference
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• 2007.05a
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• pp.1747-1751
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• 2007

통상적인 용수량 산정방법은 원단위법과 같은 간접적인 추정방법이 이용되고 있으나 이러한 산정방법은 유역의 용수수요량 측면만을 고려하여 산정된 것이기 때문에 사실적으로 유역내에서 이용되는 용수량과는 많은 차이를 발생한다. 특히 농업용수 이용량은 증발산량과 같은 기상상황과 침투량과 같은 유역상황을 비롯하여 농업수리시설물의 공급현황 등과 같은 다양한 요인들에 의해 영향을 받기 때문에 기존 산정결과와는 큰 차이를 보인다. 따라서 본 연구에서는 효율적인 물관리를 위해서 반드시 필요한 유역의 실사용량을 추정하기 위해 기존의 산정방법을 보다 사실적인 결과가 도출될 수 있도록 개선하고자 한다.

• Proceedings of the Korean Society of Agricultural Engineers Conference
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• 2005.10a
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• pp.278-283
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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). Analysis results were found that total volume of discharges at every control points have errors in a reasonable range, and the correlations between observed and calculated daily runoff discharges at every control points were well coincided.

• Magazine of the Korean Society of Agricultural Engineers
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• v.37 no.3_4
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• pp.48-60
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• 1995

A flood - flow forecasting system model of river basins has been developed in this study. The system model consists of the data management system(the observation and telemetering system, the rainfall forecasting and data-bank system), the flood runoff simulation system, the reservoir operation simulation system, the flood forecasting simulation system, the flood warning system and the user's menu system. The Multivariate Rainfall Forecasting model, Meteorological factor regression model and Zone expected rainfall model for rainfall forecasting and the Streamflow synthesis and reservoir regulation(SSARR) model for flood runoff simulation have been adopted for the development of a new system model for flood - flow forecasting. These models are calibrated to determine the optimal parameters on the basis of observed rainfall, 7 streamfiow and other hydrological data during the past flood periods.

• Korean Journal of Ecology and Environment
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• v.43 no.2
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• pp.183-189
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• 2010

In this study long term rainfall-runoff model, developed based on SSARR, was applied to Geum river basin and its simulation results of major control points were compared with the corresponding observed channel discharges. The validities of the simulation results were examined with re-measured discharges of those control points. From the above procedure the points showing the unreliable results were found out and its principal causes are analyzed through hydrological inspection of runoff characteristics of their circumstances. Finally the simulation results were modified by the consideration of the effects by small-scale hydraulic structures which could directly affect the channel discharges. As a result the annual runoff simulations of two major points in Geum river basin, Yongdam and Daecheong dam sites, work well. However the low flow simulation of the point located between them, Sutong station, showed more or less the unreliable result. Its causes are considered by means of the hydraulic/hydrological inspection of the corresponding point.

• The Journal of the Korea Contents Association
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• v.7 no.3
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• pp.140-151
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• 2007

In this study, we attempted to develop a watershed runoff index subject to main control points by dividing the Geum River basin into 14 sub-basins. The Yongdam multipurpose dam Daecheong multipurpose dam and Gongju gage station were selected to serve as the main control points of the Geum River basin, and the observed flow of each control point was calculated by the discharge rating curve, whereas the simulated flow was estimated using the Rainfall Runoff Forecasting System (RRFS), user-interfaced software developed by the Korea Water Corporation, based on the Streamflow Synthesis and Reservoir Regulation (SSARR) model developed by the US Army Corps of Engineers. This study consisted of the daily unit observed flow and the simulated flow of the accumulated moving average flow by daily, 5-days, 10-days, monthly, quarterly and annually, and normal monthly/annually flow. We also performed flow duration analysis for each of the accumulated moving average and the normal monthly/annually flows by unit period, and abundant flow, ordinary flow, low flow and drought flow estimated by each flow duration analysis were utilized as watershed runoff index by main control points. Further, as we determined the current flow by unit period and the normal monthly/annually flow through the drought and flood flow analysis subject to each flow we were able to develop the watershed runoff index in a system that can be used to determine the abundance and scarcity of the flow at the corresponding point.

• Journal of Korea Water Resources Association
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• v.40 no.2 s.175
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• pp.147-158
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• 2007

This study attempted to determine a suitable hydrologic model for assessing the impact of climate change on water resources, and to assess the accuracy of streamflow scenarios simulated by the selected hydrologic model using the meteorological scenarios of the Seoul National University Regional Climate Model(SNURCM). Comparison of four water balance models and two daily conceptual rainfall-runoff models for the simulation capability of the Daecheong Dam inflow indicated that the abcd model performs the best among the tested water balance models and performs as well as SSARR that is popular as a daily rainfall-runoff model in Korea. Parameters of the abcd model were then estimated for 12 ungauged subbasins of the Geum River by the regionalization method. The model parameters were first calibrated at nine multi-purpose dams and were then regionalized using catchment characteristics for another four multi-purpose dams, which were assumed to be ungauged sites. The model efficiency(ME) coefficients of the simulated inflows for these four dams were at least 87%. The MEs of the hindcasted meteorological rainfall scenarios of the 12 subbasins of the Geum River were more than 60%. Moreover, the ME of the Daecheong Dam inflow simulated by the abcd model using the SNURCM rainfall scenarios was more than 80%. Therefore, this research concluded that the abcd model coupled with the SNU-RCM meteorological scenarios can be used for impact assessment studies of climate change on water resources.

• Proceedings of the Korea Water Resources Association Conference
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• 2011.05a
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• pp.389-389
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• 2011

과거의 무분별한 수자원 개발에 따른 자연환경파괴로 인해 점차 대규모 다목적댐의 건설과 같은 신규 수자원 개발이 쉽지 않은 상황이지만, 여전히 댐은 유한의 수자원을 적극적으로 확보하기 위한 가장 대표적인 방법으로서, 안정적인 용수 확보를 통한 물부족의 해소와 효율적인 운영을 통한 홍수와 가뭄 피해 예방을 위해 중요한 역할을 해오고 있다. 댐의 건설로 인해 하류측 본류에서는 과거와 같은 유량의 극심한 계절적인 편차는 감소되었으며, 가뭄이나 홍수에 대한 피해 규모도 저감되었다고 볼 수 있다. 댐 건설에 따른 수문학적 변화에 대한 분석은 실제 댐 건설 전후의 장기적인 관측자료를 비교하는 것이 가장 정확한 방법이나, 대부분 관측자료가 전무하거나 충분하지 못하기 때문에 일반적으로 모델링을 통해 장기간의 유출자료를 추정한 후 이를 기반으로 그 영향을 평가하고 있다. 모델링 방법으로는 과거부터 오랫동안 국내 수자원 해석 및 계획에 폭넓게 활용되고 있는 TANK 모형을 비롯하여, SSARR, NWS-PC, TOPMODEL, HSPF, PRMS, SLURP, SWAT, MIKE-SHE 등 다양한 모형들이 적용되고 있다. 이 중에서 SWAT은 유역의 수문 수질의 시공간적인 해석 및 관리, 그리고 미래 유역환경변화에 따른 영향 평가 등을 위해 국내는 물론 국제적으로도 많이 적용되고 있는 모형이다. 본 연구에서는 SWAT 모형을 국내 유역 특성에 적합하도록 개선한 SWAT-K 모형을 이용하여, 금강유역에서의 대청댐 및 용담댐의 운영과 인위적인 용수 이용에 따른 유출량, 증발산량 및 지하수 함양량 등의 수문성분의 변화를 분석하였다. 대청댐의 건설과 유역내 용수 이용으로 인해 하류측 공주지점에서의 유출량은 자연상태에 비해 증가하는 것으로 나타났으며, 지하수 함양량과 증발산량은 감소하는 것으로 분석되었다.

• Journal of Korean Society on Water Environment
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• v.28 no.3
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• pp.359-366
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• 2012

Accurate predictions about the water quality of a river have great importance in identifying in-stream flow and water supply requirements and solving relevant environmental problems. In this study, the effect of water release from upstream dam on the downstream water quality has been investigated by applying a hydological model combined with QUAL2E to Geum River basin. The ESP (Ensemble Stream Prediction) method, which has been validated and verified by lots of researchers, was used to predict reservoir and tributary inflow. The input parameters for a combined model to predict both hydrological characteristics and water quality were identified and optimized. In order to verify the model performance, the simulated result at Gongju station, located at the downstream from Daecheong Dam, has been compared with measured data in 2008. As a result, it was found that the proposed model simulates well the values of BOD, T-N, and T-P with an acceptable reliability.

• Proceedings of the Korea Water Resources Association Conference
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• 2007.05a
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• pp.1742-1746
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• 2007

현재 우리나라는 건설교통부, 한국수자원공사 등에서 많은 수위 관측소를 설치 운영하고 있지만 대부분의 수위 관측지점은 유량환산시에 이용되는 수위-유량관계곡선이 지속적으로 개발되지 못하고 있기 때문에 신뢰성 높은 유출량 자료를 제공하지 못하고 있을 뿐만아니라 유출에 기여하고 있는 유출성분에 따른 유출비율 등을 파악하지 못함으로서 유동적인 유역 수자원관리가 어려운 실정이다. 따라서 과학적이고 통합적인 수자원 관리를 위해서는 유역내 수자원의 이동경로를 비롯해서 수자원의 정량적 변화를 명확하게 파악할 수 있어야 하며 또한 강수로 인해 발생될 수 있는 유출량을 보다 정확하고 상세하게 파악할 수 있어야만 하기 때문에 본 연구에서는 다년간 유역정밀조사와 현장조사를 실시한 바 있는 금강유역을 대상으로 유출성분별 유출량을 상세히 분석하고자 인위적요소인 용수이용량 및 회귀율 등을 반영한 사실적인 유출을 모의하는 유역관리모형을 통해 유출량을 검증하고 이를 유출성분별로 분리한 후 유역내 물수지분석을 실시하였다.

• Journal of Korean Society on Water Environment
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• v.23 no.4
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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%.