• Journal of The Korean Society of Agricultural Engineers
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• v.60 no.5
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• pp.29-40
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• 2018

Even if a small amount of arsenic (As) is entering to small agricultural reservoir from upper streams, small agricultural reservoir becomes sensitive to changes in arsenic concentration depending on the water level in case of accumulation continuously because of its scale. If we want to manage arsenic concentration in small agricultural reservoir, it is very important to understand arsenic changes in agricultural reservoir. In spite of the fact that modeling is the most accurate method for analyzing arsenic concentration changes in small agricultural reservoirs, but, it is difficult to monitor arsenic change everyday. So, if data is prepared for modeling arsenic changes, water quality modeling is more effective than monitoring. Therefore, in this study, arsenic concentration changes was simulated and arsenic concentration change mechanism in small reservoir was analyzed using hydrological and water quality monitoring data and by conducting EFDC (Environment Fluid Dynamics Code)-WASP (Water Quality Analysis Simulation Program) linkage. EFDC-WASP coupling technique was very useful for modeling arsenic changes because EFDC can consider hydrodynamic and WASP can perform arsenic concentration simulation, separately. As a results of this study, during dry season, As concentration was maintained relatively high arsenic concentrations. Therefore, water level control will be needed for managing As concentration of reservoir.

• Proceedings of the Korea Water Resources Association Conference
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• 2022.05a
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• pp.469-469
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• 2022

하구담수호는 하천의 종점에서 해양과 만나는 곳에 방조제를 건설해 담수를 유도하여 형성되는 인공호수이다. 유역 말단에 위치하기 때문에 유역에서 유출되는 모든 수자원을 확보할 수 있는 장점이 있지만, 유역에서 발생하는 오염물질이 모두 유입되고 인공적인 담수의 특성 때문에 수질이 악화되기 쉬운 조건을 지니고 있다. 담수호의 수질관리는 유입되는 오염물질의 양이 많고 담수된 수자원량도 많으므로 부분적인 방법으로는 개선이 어려우며, 유역과 호소를 포함한 종합적인 대책이 필요하다. 담수호의 수질관리대책 수립은 크게 상류 유역에 대한 대책과 호소에 대한 대책으로 구분된다. 대표적인 대책으로는 상류 유역의 하수처리장, 축사, 농경지 관리를 통한 배출부하량 감소와 호소 내 수질개선을 위한 습지, 저류지 건설 및 준설을 통한 내부부하 감소 등이 있다. 이처럼 담수호의 수질관리를 위해서는 상류 유역에서 호소까지 종합적으로 고려해야 한다. 본 연구에서는 유역모형과 호소모형의 연계를 통해 간월호 유역을 모의하였다. 유역모형은 HSPF(Hydrological Simulation Program-FORTRAN) 모형을 사용하였으며, 유역 내 3개의 하수처리장과 1개의 분뇨처리장을 고려하였으며, 4개 지점에 대하여 보정 및 검정을 시행하였다. 호소모형은 EFDC-WASP 연계모형을 이용하였으며, HSPF에서 모의 된 유입량과 호내 설치된 4개의 양수장, 배수갑문 운영일지를 고려하여 모의하였다. 호소 내 수질 측정지점에 대하여 T-N, T-P에 대하여 보정 및 검정을 수행하였다. 본 연구는 담수호 수질관리를 위한 분석시스템 구축으로 추후 대책에 따른 효과분석에 활용할 수 있을 것이다.

• Journal of The Korean Society of Agricultural Engineers
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• v.64 no.6
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• pp.1-12
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• 2022

Estuary reservoirs were artificial reservoir with seawalls built at the exit points of rivers. Although many water resources can be saved, it is difficult to manage due to the large influx of pollutants. To manage this, it is necessary to analyze watersheds and reservoirs through accurate modeling. Therefore, in this study, we linked the Hydrological Simulation Program-FORTRAN (HSPF), Environmental Fluid Dynamics Code (EFDC), and Water quality Analysis Simulation Program (WASP) models to simulate the hydrology and water quality of the watershed and the water level and quality of estuary lakes. As a result of applying the linked model in stream, R² 0.7 or more was satisfied for the watershed runoff except for one point. In addition, the water quality satisfies all within 15% of PBIAS. In reservoir, R² 0.72 was satisfied for water level and the water quality was within 15% of T-N and T-P. Through the modeling system, We applied upstream pollutant management scenarios to analyze changes in water quality in estuary reservoirs. Three pollution source management were applied as scenarios, the improvement of effluent water quality from the sewage treatment plant and the livestock waste treatment plant was effective in improving the quality of the reservoir water, while the artificial wetland had little effect. Water quality improvement was confirmed as a measure against upstream pollutants, but it was insufficient to achieve agricultural water quality, so additional reservoir management is required.