• Proceedings of the Korea Water Resources Association Conference
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• 2017.05a
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• pp.539-543
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• 2017

본 연구에서는 2차원 수치모형을 이용하여 하도식생의 성장과 소멸 고려한 교호사주의 거동을 분석하였다. 식생의 성장과 소멸은 식생의 밀도에 영향을 준다. 식생이 성장하면 식생밀도가 증가하고 식생이 소멸하면 식생의 밀도 감소한다. 식생이 성장하면서, 교호사주의 이동은 정지되고, 식생대에서 퇴적이 발생하며, 사주의 파고가 증가하였다. 식생의 성장률이 증가하면서 식생대에서 유사는 퇴적되어 사주의 면적은 증가하였으며, 식생이 성장과 사주의 변화과정은 일치하였다. 첨두유출시간의 변화에 따른 사주의 변화와 식생성장률의 변화를 분석하였다. 첨두유출 시간이 짧아서 첨두홍수가 일찍 도달하는 조건에서 사주의 파장은 상대적으로 작고, 하상고의 변화가 작은 특성을 보여주었다. 첨두유출 시간이 길어서 첨두홍수가 늦게 도달하는 조건에서 사주의 파장은 길고, 유사의 퇴적 면적이 증가하였다.

• Proceedings of the Korea Water Resources Association Conference
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• 2022.05a
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• pp.19-19
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• 2022

하천에 발생하는 홍수를 예측하는 과정은 실무에서 많이 사용하는 HEC-HMS 와 같은 강우-유출 모형을 사용하여 산정한 하천의 강우빈도별 설계홍수량으로부터 HEC-RAS와 같은 수리학적 모형을 이용하여 홍수위를 산정하는 방법을 주로 의존하고 있다. 하지만 이러한 방법은 강우 강도를 통하여 하천에 발생하는 빈도별 유량으로 간접적으로 홍수위를 산정하기 때문에 실시간으로 발생하는 홍수위 또는 홍수 발생시간을 정확하게 알기 힘들다. 하지만, 최근 하천의 홍수파 또는 배수영향으로 인한 이력현상으로 하천의 수위-유량관계의 이력현상으로 인해 발생하는 유량자료의 오차를 줄이기 위해 수위관측소에 H-ADCP 초음파 센서를 활용한 자동유량측정장치를 설치, 운영하여 실시간으로 유량자료를 관측하고 있다. 이러한 자동유량측정장치에서 측정하는 유량자료는 H-ADCP에서 지표유속으로부터 유량자료를 산정하는데, 홍수파 또는 배수영향으로 지표유속, 유량, 수위의 수문곡선에 발생하는 이력현상을 관측 가능하다. 관측된 수문곡선의 이력현상은 유속, 유량, 수위 순으로 첨두의 발생시간이 나타나는데, 유속의 첨두 발생시간과 수위의 첨두 발생시간은 수문곡선의 형태 또는 규모에 따라 달라진다. 따라서 본 연구에서는 기존의 강우-유출 모의에 의존한 홍수예보기법을 보완하여 더 정확한 홍수위, 홍수 발생시간을 예측하고, 홍수예경보 시스템에 정량적인 기준을 제시할 수 있도록, 하천에 발생하는 수문곡선의 첨두유속과, 첨두수위의 발생시간, 규모를 분석하여 둘의 관계를 제시하고자 한다. 분석방법으로는 대상유역으로 이력현상이 발생하는 영산강유역에 위치한 남평교, 나주대교 두 지점을 선정하고 자동유량관측소 관측자료인 지표유속, 수위자료를 취득한다. 취득한 자료로부터 지표유속의 첨두 값과, 수위의 첨두 값, 지표유속의 첨두지점으로부터 수위의첨두지점 까지 발생하는 시간을 홍수 사상별로 정리하여 첨두유속-첨두수위, 첨두유속-첨두수위발생시간의 관계그래프를 산정하였다. 남평교의 경우 유속-수위의 이력범위는 거의 없었다. 나주대교의 경우 유속-수위 이력범위가 현저히 나타나 관계를 분석하기 용이 하였다. 하천에 이력현상이 현저히 나타나는 경우 첨두유속-첨두수위, 첨두유속-첨두수위발생시간의 관계가 뚜렷하게 나타나고 이러한 결과를 바탕으로 하천의 홍수예경보 판단의 정량적 기준을 제안하였다.

• Journal of Korea Water Resources Association
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• v.45 no.1
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• pp.65-73
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• 2012

Recently climate change and increase of surface runoff caused the urban flooding. Traditional way of dealing with urban flooding has been to increase the sewer capacity or construction of pumping stations, however, it is practically almost impossible because of time, money and traffic problems. Multipurpose DRMS (Decentralized Rainwater Management System) is a new paradigm proposed and recommended by NEMA (National Emergency Management Agency) for both flood control and water conservation. Suwon City has already enacted the ordinance on sound water cycle management by DRMS. In this study, a flood prone area in Suwon is selected and analysis of DRMS has been made using XP-SWMM for different scenarios of RT installation with same total rainwater tank volume and location. Installing one rainwater tank of 3,000$m^3$ can reduce the peak flow rate by 15.5%. Installing six rainwater tanks of 500$m^3$ volume in the area can reduce the peak flow rate by 28%. Three tanks which is concentrated in the middle region can reduce peak rate more than evenly distributed tanks. The method and results found from this study can be used for the design and performance prediction of DRMS at a flood prone area by supplementing the existing sewer system without increase of the sewer capacity.

• Journal of the Korean Association of Geographic Information Studies
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• v.14 no.2
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• pp.28-39
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• 2011

This study estimates the characteristics of flow loads by classification items of the Ministry of Environment and by land cover change using HyGIS-SWAT. The result of analyzing the land cover change using the classification items shows that the urban area and the farmland area in Mishim-cheon and Gap-cheon are expanding while the forest area is decreasing. The result of analyzing the characteristics of classification items shows that peak discharge increases and total yearly discharge decreases in Mushim-cheon. The result of analyzing the characteristics by data-construction period shows that peak discharge decreases but total discharge increases in Gap-cheon. Three land cover change scenarios are applicable to the expansion of urban area and farmland area. According to the result of application, urbanization influences and Farmland area expansion influences increase peak discharge, total yearly discharge and sediment concentration.

• Korean Journal of Agricultural and Forest Meteorology
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• v.8 no.3
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• pp.174-182
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• 2006

This study was to clarify the effects of forest stand changes on hydrological components of evapotranspiration and discharge. The forest-hydrological experimental stations in Gwangneung and Yangju, Gyeonggido near metropolitan Seoul have been operated by the Korea Forest Research Institute since 1979 to clarify the effects of forest types and practices on the water resources and nutrient cycling and soil loss. The hydrological regime of the forested catchments may change as forests develop. The ranges of change may be different depending on forest types. Evapotranspiration can be estimated to 679mm, 580mm and 368mm in planted young coniferous (PYC), natural old-growth deciduous (NOD) and rehabilitated young mixed (RYM), respectively. The slope of the discharge-duration curve shows the capacity of discharge control in a specific catchment. The slope tended to be steeper in RYM than NOD, the better forest condition. The slope in RYM became more gentle as the forest stand developed. Forests can modulate peak flows through interception, evapotranspiration and soil storage opportunity. PYC and RYM showed 100 and 50mm of threshold rainfall for modulating peak flows, respectively. The deciduous forest did not represent sudden changes of peak flow rates to rainfall, even 200 mm rainfall Forest development in PYC may play an important role in modulation of peak flows because peak flow rates reduced after 10 years.

• Water for future
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• v.29 no.3
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• pp.153-161
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• 1996

This study is runoff analysis of the recently urbanized San Bon basin. The relationships between peak discharge and total discharge were examined by applying the ILLUDAS runoff analysis model to the measured data. In urbanized streams, it is found that channel adjustment had the most significant effect on the increase of peak discharge. Significant increases in the peak discharge occurred as rainfall duration or return period increases 10% and 7~16% increases in peak discharge were observed when the roughness coefficient were 0.04 and 0.015, respectively. When the natural river channel with n=0.04 was converted into a sewerage system of n=0.015 the peak discharge was greatly increased by 51~158%, Generally, flood peak discharge was increased during heavy rain, but in the case of urbanized basin, river stage was reduced owing to an increase of flow velocity by the adjustment of drainage system.

• Proceedings of the Korea Water Resources Association Conference
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• 2015.05a
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• pp.428-428
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• 2015

최근 제주도는 극한사상의 기상발생빈도가 점차 증가하여 집중호우, 태풍 등에 의한 홍수피해가 점자 증가하고 있는 실정이다. 따라서 지역특성에 적합한 단위유랴도 산정은 실제 하천설계 및 치수방재를 위해 필수적이다. 따라서 본 연구에서는 외도천유역의 유역특성을 반영한 최적 단위유량도를 산정하기 위해 강우-유출모형은 HEC-HMS모형을 이용하였으며 적용한 단위도는 Clark, Sndyer, SCS 합성단위유량도법으로 각 사상마다 실측 유량자료와 비교 분석하였다. 일원분산분석 결과는 각 단위도의 첨두유량과 첨두시간에 대한 p-value가 유의수준 0.05보다 크기 때문에 귀무가설이 성립이 되며 각 단위유량도의 방법별 첨두유량 및 첨두 시간의 유의적 차이는 없다고 분석되었다. 오차율로 비교하면 Clark 합성단위도가 대상유역인 외도천의 유역특성을 가장 잘 반영하는 것으로 판단되며 Clark 단위유량도의 오차율은 0.02 ~ 1.93%로 타나났으며 첨두시간에 대한 오차율은 0 ~ 2.74%으로 나타났다. 향후 홍수유출량 산정하기 위해 장기간 지속적으로 유량관측자료 확보 및 구축이 필요하며, 이러한 제주형 유도식 개발 및 최적의 매개변수와 단위도를 적용한다면 신뢰도 높은 유출 특성 결과를 도출 할 수 있을 것으로 판단된다.

• Journal of Wetlands Research
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• v.19 no.3
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• pp.287-295
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• 2017

In this study, rainfall runoff characteristics according to peak concentration were analyzed using the water quality and flow data in the Geumho river, and the direction of nonpoint source management such as monitoring and management period by pollution source was derived. Peak Water Quality Concentration is the concept that utilizes the extreme value as the concentration of non-point pollution control standard with the highest water quality in the rainwater runoff. Using this method, the evaluation factors such as cumulative precipitation(total precipitation), peak water quality concentration, cumulative precipitation up to peak water quality concentration, time to peak water quality concentration, and EMC to peak water quality concentration were examined and long- Rainfall runoff characteristics of nonpoint sources were analyzed. The results of the analysis suggested proper monitoring and management method to manage nonpoint source.

• Journal of Korea Water Resources Association
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• v.41 no.7
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• pp.693-700
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• 2008

Detention pond has an important role in peak flow reduction to mitigate flood damage. Design of detention pond is accomplished through the preliminary stage, and design stage in general. New development projects produce increased peak flow and flow amounts. In this case it is necessary to design the detention pond easily and simply. A simplified design method of the detention pond is suggested in this study. Used design variables are peak flow ratio(${\alpha}$) and storage ratio($S_r$). ${\alpha}$ is the peak flow ratio of before and after development of the basin. $S_r$ is a ratio of storage volume to total runoff volume. Applicability of the proposed method was also proved. The simple procedure of detention pond design is proposed in this study.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.26 no.1B
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• pp.15-25
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• 2006

Using kinematic wave equation, the influence of moving storms to runoff was analysised with a focus on watersheds. Watershed shapes used are the oblong, square and elongated shape, and the distribution types of moving storms used are uniform, advanced and intermediate type. The runoff hydrographs according to the rainfall distribution types were simulated and the characteristics were explored for the storms moving down, up and cross the watershed with various velocity. The shape, peak time and peak runoff of a runoff hydrograph are significantly influenced by spatial and temporal variability in rainfall and watershed shapes. A rain storm moving in the cross direction of channel flow produces a higher peak runoff than in the downstream direction and upstream direction. A peak runoff from a storm moving downstream exceeds that from a storm moving upstream. For storms moving downstream peak time was more delayed than for other storm direction in the case of elongated watershed. The runoff volume and time base of the hydrograph decreased with the increasing storm speed.