• KSCE Journal of Civil and Environmental Engineering Research
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• v.39 no.2
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• pp.307-316
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• 2019

Development of vegetation in stream channel increases resistance to flow, resulting in increase in river stage upon flood and affecting change in stage-discharge relationship. Vegetation revealed in stream by water level reaching a peak and then declined upon flood is mostly found as prone. Taking an account of flow distribution with the number of vegetation, prone vegetation layer might be at height where discharge rate is zero (0) (Stephan and Guthnecht, 2002). However, there is a tendency that flow rate is overestimated when applying the height of river bed to flow area with no consideration of the height of vegetation layer in flow rate by float measurement. In this study, reliable flow measurement in stream with vegetation was calculated by measuring the height of vegetation layer after flood and excluding the vegetation layer-projected area from the flow area. The result showed the minimum 4.34 % to maximum 10.82 % of flow deviation depending on the scale of discharge. Accordingly, reliable velocity-area methods would be determined if vegetation layer-projected area in stream is considered in flow rate estimation using the flow area during the flood.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.29 no.5B
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• pp.453-461
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• 2009

In this study, a dynamic numerical model, FLDWAV, is used for analyzing the backwater effect of flood stage in YeongWeol station, which is located on the confluence upstream where Pyeongchang river joins Han river. Given various inflow discharges of both main stream and tributary, the feasible stage-discharge relationships at the YeongWeol station and the upstream range of the backwater effect were computed. The results show that the relationships are completely different according to each of the inflow discharges from tributary and the maximum difference of stage is about 4.0 m. Therefore, the development of a single relationship of stage and discharge is very difficult problem in the zone of backwater effect. The increase of stage in the junction due to the lateral inflow has an effect on upstream stage up to about 8.0 km. The well-calibrated and verified dynamic wave routing model will be a useful tool for the flood forecast in the zone of backwater effect rather than conventional hydrological routing model.

• Journal of Environmental Science International
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• v.26 no.10
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• pp.1135-1146
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• 2017

At riverbank filtration sites, groundwater levels of alluvial aquifers near rivers are sensitive to variation in river discharge and pumping quantities. In this study, the groundwater level fluctuation, pumping quantity, and streamflow rate at the site of a riverbank filtration plant, which produces drinking water, in the lower Nakdong River basin, South Korea were interrelated. The relationship between drawdown ratio and river discharge was very strong with a correlation coefficient of 0.96, showing a greater drawdown ratio in the wet season than in the dry season. Autocorrelation and cross-correlation were carried out to characterize groundwater level fluctuation. Autoregressive model analysis of groundwater water level fluctuation led to efficient estimation and prediction of pumping for riverbank filtration in relation to river discharge rates, using simple inputs of river discharge and pumping data, without the need for numerical models that require data regarding several aquifer properties and hydrologic parameters.

• Water for future
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• v.22 no.1
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• pp.91-98
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• 1989

This study was aimed to determine a discharge coefficient of flow through gate piers. The coefficient was Calbrated with water stage data observed during 1984 to 1987 at the Young San Estuary Dam. The coefficient is the function of the dimensionless parameters combined with the difference between up and down stream water level to down stream water depth ratio and water surface draw down ratio. From the verification with existing methods and actual drainages, drainages predicted by the relationship have the most consistency with the actual drainages, also Matthai's method can be used within the proposed condition originally.

• Journal of Environmental Science International
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• v.26 no.3
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• pp.325-334
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• 2017

To understand the changes in physical parameters and phytoplankton size structure caused by tides, a fixed station in the Youngsan River estuary was monitored at 2-h intervals, on April 28, 2012 and August 12, 2012. No clear relationship was observed between the temperature and salinity changes and tidal levels in April. However, in August, temperature decreased during the ebb tide and increased during the flood tide, while salinity showed the opposite trend. In addition, there was no specific change in the phytoplankton biomass corresponding to tidal levels in April. In August, the total chlorophyll a and the biomass of net phytoplankton (>$20{\mu}m$) increased almost 20 times during the ebb tide and decreased during the flood tide. The biomass of nanophytoplankton (<$20{\mu}m$) showed a similar variation in response to tidal level changes. In April, the relationship between percent contributions of phytoplankton size structure and tidal levels was not clear. In August, the net phytoplankton was dominant in the early stage and nanophytoplankton was dominant in the later stage, while contribution of nanophytoplankton and net phytoplankton increased at high tide and low tide, respectively. Therefore, in April, other factors such as freshwater discharge were more important than the tide, whereas in August, when no freshwater discharge was recorded, the changes in semidiurnal tides influenced the physical parameters and phytoplankton dynamics. These results could contribute to the understanding of phytoplankton dynamics in the Youngsan River estuary.

• Magazine of the Korean Society of Agricultural Engineers
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• v.30 no.3
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• pp.114-120
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• 1988

A water surface profile computation model using a standard step procedure was developed for gradually varied flow at an irrigation channel network. Flow characteristics ab Banweol district near Suweon were field monitored during irrigation periol of 1987. The model was applied to the main system at the district and the simulation results were compared to the field data. The results are sumrnarized as follows ; 1. The simulated water surface profiles from the model were in good agreement with the measured water surface profiles at different flow rates. 2. The model applicability for defining a stage-discharge relationship at a channel reach was demonstrated with reasonable accuracy when water stage and friction factor were given. 3. The roughness coefficient was found to be a major factor sigrificantly affecting computed water surface profile among a few physical input parameters for the model.

• Journal of Korea Water Resources Association
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• v.43 no.8
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• pp.721-731
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• 2010

The rainfall-runoff relationship is very difficult to predict because it is complicate factor affected by many temporal and spatial parameters of the basin. In recent, models which is based on artificial intelligent such as neural network, genetic algorithm fuzzy etc., are frequently used to predict discharge while stochastic or deterministic or empirical models are used in the past. However, the discharge data which are generally used for prediction as training and validation set are often estimated from rating curve which has potential error in its estimation that makes a problem in reliability. Therefore, in this study, water stage is predicted from antecedent rainfall and water stage data for short term using three models of neural network which trained by error back propagation algorithm and optimized by genetic algorithm and training error back propagation after it is optimized by genetic algorithm respectively. As the result, the model optimized by Genetic Algorithm gives the best forecasting ability which is not much decreased as the forecasting time increase. Moreover, the models using stage data only as the input data give better results than the models using precipitation data with stage data.

• Proceedings of the Korea Water Resources Association Conference
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• 2005.05b
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• pp.319-323
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• 2005

연속적인 유량자료의 생산을 위해 일반적으로 단일 곡선 형태의 수위-유량관계가 사용되고 있다. 그러나 홍수수문곡선 상승부와 하강부의 기울기, 조도계수, 하상경사 등 흐름에 영향을 미치는 여러 인자에 의해 수위-유량곡선은 단일 형태가 아니라 복잡한 루프형태로 나타나게 된다. 지금까지 이론적으로는 이와 같은 수위-유량관계의 특성이 알려져 있긴 하였지만 복잡한 특성을 규명하는 것이 곤란하여 구체적으로 분석되지 못한 것이 현실이다. 이와 같은 특성의 분석을 위해서는 하천형상과 더불어 하천 흐름의 동역학적인 분석이 필요하다. 본 연구에서는 댐 직하류 지점의 수위와 유량의 분석을 통하여 실제 발생하고 있는 수위-유량관계의 복잡성을 확인하였고, 수치모형에 의해 복잡한 수위-유량관계를 재현하였다. 분석 결과 모든 지점에서 수위-유량관계가 매우 복잡한 형태로 나타나 일반적으로 사용되는 단일곡선과는 많은 차이가 있는 것으로 나타났다. 또한 수치모형에 의해 이와 같은 복잡한 수위-유량관계가 잘 재현될 수 있음을 증명하였다. 이와 같은 결과는 기존에 사용되고 있는 단일 곡선형 수위 -유량관계가 많은 오차를 포함하고 있음을 나타내며, 적절한 수치모형에 의해 이와 같은 한계를 극복할 수 있는 것을 나타낸다고 할 수 있다.

• Proceedings of the KIEE Conference
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• 2006.07c
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• pp.1476-1477
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• 2006

Solid insulation exposed to voltage is degraded and by electrical tree process. And the degradation of the insulation is accelerated by voltage application. For this experimental, specimen of electrical tree model is made by XLPE(cross-linked polyethylene). And the size of the specimen is 7*5*7 $mm^3$. Distance of needle and plane is 2mm. Voltage applied for acceleration test are 12kV. And distribution characteristic of degraded stage is studied too. As a PD detecting and data process, discharge data acquire from PD detecting system(Biddle instrument). Their results of PD distribution show good present and are good discriminating skill.

• Proceedings of the Korea Water Resources Association Conference
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• 2012.05a
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• pp.516-520
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• 2012

홍수시 유속 및 유량을 직접 측정하기 어려우므로 수위-유량 관계식을 이용하면 편리하다. 그러나 수위-유량 관계는 유량 및 하도조건에 따라 변화하므로 매년 갱신하여 사용하는 것을 권장하고 있다. 본 연구에서는 초음파유속계 (Ultrasonic Velocity Meter: UVM)에 의한 연속적인 수위 및 유량 측정자료를 이용하여 수위-유량 관계를 구축하고 제시된 수위-유량 관계식을 적용하여 정확도를 분석하였다. 측정자료는 임진강 적성지점으로 2008년부터 2010년까지 7월 및 8월 자료를 대상으로 하였다. 초음파유속계는 홍수기 연속적인 수위와 유량의 측정이 가능하므로 측정자료에 의한 수위-유량 관계는 일반적으로 단일 홍수사상에 대해 고리 (loop) 모양을 보였다. 또한, 초음파유속계에 의한 수위 및 유량 측정이 안정된 경우 수위-유량 관계식은 고리 형태의 수위-유량 관계의 중앙을 관통하는 것으로 나타났다. 수위유량 관계식의 정확도는 당해 연도 측정자료에 대한 오차가 가장 작았으며, 오차의 크기가 차년도 자료 그리고 전년도 자료 순으로 나타났다. 이는 하천에 홍수 유과 이후 수위-유량 관계식을 개선해 주어야 하는 필요성을 제시한다.