• Water Engineering Research
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• 제2권1호
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• pp.49-61
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• 2001

A grid-based KIneMatic wave soil-water EROsion and deposition Model(KIMEROM) that predicts temporal variation and spatial distribution of sediment transport in a watershed was developed. This model uses ASCII-formatted map data supported from the regular gridded map of GRASS (U.S. Army CERL, 1993)-GIS(Geographic Information Systems), and generates the distributed results by ASCII-formatted map data. For hydrologic process, the kinematic wave equation and Darcy equation were used to simulated surface and subsurface flow, respectively (Kim, 1998; Kim et al., 1998). For soil erosion process, the physically-based soil erosion concept by Rose and Hairsine (1988) was used to simulate soil-water erosion and deposition. The model adopts single overland flowpath algorithm and simulates surface and subsurface water depth, and sediment concentration at each grid element for a given time increment. The model was tested to a 162.3 $\textrm{km}^2$ watershed located in the tideland reclaimed ares of South Korea. After the hydrologic calibration for two storm events in 1999, the results of sediment transport were presented for the same storm events. The results of temporal variation and spatial distribution of overland flow and sediment areas are shown using GRASS.

• 한국지형학회지
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• 제23권1호
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• pp.47-60
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• 2016

In this study, datum points measurement have been collected and then weather data have been analyzed to figure out erosion and deposition environmental change around Halmi-island, Baramarae. First of all, it was difficult to analyze geomorphological change which is caused by climate change because of quite short term of collection period of data. However, differences in spatial distribution of erosion and deposition have locally been shown. In all season, the wind is blowing in north and north-west direction mostly except in summer which is shifted to south direction. However, since its ratio which are above 5m/s is much lower than the north and north-west wind, its effect on geomorphological process is very tiny. In order to look at a tendency of erosion and deposition environmental change around Baramarae Halmi-island, the periphery of Halmi-island was classified to east and west part, then accumulated erosion and deposition values have been calculated. As a result, generally, the datum points are located in the west part which are mostly depositional sites. On the other hand, the datum points are located in east part showed the dominant erosion patterns.

• 한국수자원학회:학술대회논문집
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• 한국수자원학회 2001년도 학술발표회 논문집(I)
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• pp.25-34
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• 2001

A grid-based KIneMatic wave soil-water EROsion and deposition Model (KIMEROM) that predicts temporal variation and spatial distribution of sediment transport in a watershed was developed. This model uses ASCII-formatted map data supported from the regular gridded map of GRASS (U.S. Army CERL, 1993)-GIS (Geographic Information Systems), and generates the distributed results by ASCIIl-formatted map data. For hydrologic process, the kinematic wave equation and Darcy equation were used to simulate surface and subsurface flow, respectively (Kim, 1798; Kim et al., 1993). For soil erosion process, the physically-based soil erosion concept by Rose and Hairsine (1988) was used to simulate soil-water erosion and deposition. The model adopts sing1e overland flowpath algorithm and simulates surface and subsurface water depth, and sediment concentration at each grid element (or a given time increment. The model was tested to a 162.3 km$^2$ watershed located in the tideland reclaimed area of South Korea. After the hydrologic calibration for two storm events in 1999, the results of sediment transport were presented for the same storm events. The results of temporal variation and spatial distribution of overland flow and sediment areas are shown using GRASS.

• 한국수자원학회:학술대회논문집
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• 한국수자원학회 2023년도 학술발표회
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• pp.447-447
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• 2023

Soil organic carbon (SOC) is a critical indicator of soil fertility. Its importance in maintaining ecological balance has received widespread attention. However, global temperatures have risen by 0.8℃ since the late 1800s due to human-induced greenhouse gas emissions, resulting in severe disruptions in SOC dynamics. To study the impacts of temperature variations on SOC and soil respiration, we used the Soil Carbon and Landscape co-Evolution (SCALE) model, which was capable of estimating the spatial distribution of soil carbon dynamics. The study site was located at Heshan Farm (125°20'10.5"E, 49°00'23.1"N), Nenjiang County in Heilongjiang Province, Northeast China. We validated the model using observed soil organic carbon and soil respiration in 2015 and achieved excellent agreement between observed and modeled variables. Our results showed considerable influences of temperature increases on SOC and soil respiration rates at both erosion and deposition areas. In particular, changes in SOC and soil respiration at the deposition area were greater than at the erosion area. Our study highlights that the impacts of temperature elevations are considerably dependent on soil erosion and deposition processes. Thus, it is important to implement effective soil conservation strategies to maintain soil fertility under global warming.

• 한국수자원학회:학술대회논문집
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• 한국수자원학회 2020년도 학술발표회
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• pp.172-172
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• 2020

In recent years, soil erosion has come to be regarded as an essential environmental problem in human life. Soil erosion causes various on- and off-site problems such as ecosystem destruction, decreased agricultural productivity, increased riverbed deposition, and deterioration of water quality in streams. To solve these problems caused by soil erosion, it is necessary to quantify where, when, how much soil erosion occurs. Empirical erosion models such as the Universal Soil Loss Equation (USLE) family models have been widely used to make spatially distributed soil erosion vulnerability maps. Even if the models detect vulnerable sites relatively well by utilizing big data related to climate, geography, geology, land use, etc. within study domains, they do not adequately describe the physical process of soil erosion on the ground surface caused by rainfall or overland flow. In other words, such models remain powerful tools to distinguish erosion-prone areas at the macro scale but physics-based models are necessary to better analyze soil erosion and deposition and eroded particle transport. In this study, the physics-based Surface Soil Erosion Model (SSEM) was upgraded based on field survey information to produce sediment yield at the watershed scale. The modified model (hereafter MoSE) adopted new algorithms on rainfall kinematic energy and surface flow transport capacity to simulate soil erosion more reliably. For model validation, we applied the model to the Doam dam watershed in Gangwon-do and compared the simulation results with the USLE outputs. The results showed that the revised physics-based soil erosion model provided more improved and reliable simulation results than the USLE in terms of the spatial distribution of soil erosion and deposition.

• 한국수자원학회논문집
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• 제43권11호
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• pp.995-1009
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• 2010

기후변화에 의해 집중호우의 빈도 및 강도가 증가하고 지속적인 유역개발에 따른 토지이용의 증가는 토양침식 및 토사유출로 인한 재해 및 환경문제를 야기한다. 현재 광범위하게 사용되고 있는 토양침식량 산정기법은 대부분 대상유역내의 평균 토양침식량을 산출하는 총량적 개념의 경험식이므로 호우기간동안의 침식 및 퇴적의 시 공간적 변화양상을 모의할 수 없다는 한계를 지니고 있다. 따라서 보다 합리적인 유역규모의 강우-유사-유출 메카니즘 해석을 위해서는 기존의 집중형 모의기법을 대체하고 다양한 기상학적/지형학적 정보를 활용할 수 있는 물리적 기반의 분포형 모형이 요구된다. 본 연구에서는 사면의 지표 및 지표하 흐름을 고려한 유출모의 모듈과 단위수류력 이론을 기반으로 하는 유사유출 모의모듈을 결합한 분포형 강우-유사-유출 모형을 확장개발하고, 용담댐 상류부의 천천유역에 적용하여 모형의 재현성 평가를 수행하였다. 수문곡선의 모의 결과 모형의 재현성은 우수하였으며, 유사량곡선의 경우 첨두부분에서 과소선정되는 경향이 나타났다. 또한, 지표면 유동거리 및 국부경사에 따른 침식 및 퇴적의 공간분포를 분석한 결과, 침식된 토사는 비교적 경사가 완만한 하천주변에 퇴적되었으며, 강우량과 침식 및 퇴적의 공간분포의 분석결과, 강우량의 증가에 따라 침식량이 증가하였으며, Thiessen망 유역별로 침식 및 퇴적 분포는 상이하게 나타났다.

• 소성∙가공
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• 제12권4호
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• pp.394-400
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• 2003

TiN coated films exhibit excellent mechanical properties such as high wear, erosion and corrosion resistances and a high thermal stability. Therefore, they are widely applied to a coating material in tools, ornaments, parts and semiconductors. However, the fracture of TiN coated films frequently occurs. The distribution of preferred orientations, i.e., texture, of TiN coated films strongly influences the fracture behavior of these films. In the present study. various TiN coating layers having different textures were prepared by the reactive ion physical vapor deposition and the texture dependence of friction coefficient, erosion and corrosion in these coating layers was investigated. The sample depicting the (115) texture parallel to the coating layer normal displayed a flatter surface than that observed from the sample having the (111) texture. The friction coefficient of TiN thin films was hardly dependent on the texture of coated samples. The samples having (115) texture displayed higher wear, erosion and corrosion resistances than the samples having (111) texture.

• 한국수자원학회논문집
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• 제38권3호
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• pp.223-233
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• 2005

본 연구에서는 분포형 모형과 셀의 유입, 유출 및 저류량에 대한 질량보존의 법칙을 이용하여 토사의 이송 및 퇴적분포예측기법을 개발하였다. 모형은 (a) 토사침식 예측 (b) 흐름방향 및 유출량 산정 그리고 (c) 토사에 대한 질량보존의 법칙에 따른 셀별 토사이동량 산정의 세 단계로 구성되었다. 토양침식은 범용토양손실공식(USLE)을 활용하였으며 분포형 모형에서의 경사장(L) 산정은 일방향(SF)과 다방향 흐름 알고리즘(MF)을 사용하였다. 경사(S) 산정을 위해서는 Maximum Downhill Slope Method (MDS) and the Neighborhood Method (NBH) 기법을 활용하였고 셀별 토양의 이동은 Ferro등(1998)과 Swift (2000)의 토사전달률(DR)개념을 적용하였다. 개발된 모형은 시험유역의 실측 토사량과의 비교검토를 통하여 검증하였다. 3개의 농업용 저수지 유역에 적용한 결과, Ferro의 토사전달률 산정공식과 MDS, MF 기법을 이용한 해석이 저수지의 운영기록과 가장 유사한 결과를 제시한다는 사실을 확인할 수 있었다.

• 한국수자원학회논문집
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• 제45권7호
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• pp.657-674
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• 2012

본 연구에서는 용담댐 상류, 천천 시험유역을 대상으로 분포형 수문모형을 이용하여 강우의 공간분포 특성에 의한 유역에서의 침식 및 퇴적양상을 분석하고, 유출 및 유사량 모의결과에 미치는 영향을 분석하였다. 일반적으로 강우의 공간적 분포를 묘사하기 위해 사용되는 지점 강우 내삽기법(Thiessen Polygon: TP, Inverse Distance Weighting: IDW, Kriging) 및 레이더 강우 합성기법(Gauge-Radar ratio: GR, Conditional Merging: CM)을 이용하여 태풍으로 인한 3개의 집중호우 사상기간동안의 강우장을 생성한 후 각 기법들에 의해 생성된 강우장의 양적, 공간적 특성을 평가하였다. 또한, 각 기법별로 생성된 공간분포형 강우를 분포형 수문모형에 적용하여 강우의 공간분포에 따른 유역에서의 강우-유사-유출분석 및 유역에서의 침식 및 퇴적양상을 비교 분석하였다. 그 결과, 지상 우량계를 이용한 내삽기법의 경우 유사한 우량주상도 및 수문응답을 나타내었으며, 원시 레이더 자료 및 GR기법에 의한 결과는 각각 과소, 과대산정된 반면 CM기법은 레이더 강우의 공간적 특성을 유지하면서 양적으로도 개선된 결과를 보여주었다. 또한 양적으로 유사한 강우장임에도 불구하고, 각 기법에 의한 강우장의 공간적 특성으로 인하여 대상유역내 침식 및 퇴적양상은 매우 상이하게 나타났다.

• 한국해양공학회지
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• 제28권3호
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• pp.236-244
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• 2014

This study considered a seagrass habitat in order to analyze the characteristics of a marine environment of seagrass located in the Seomjin river estuary, through an analysis of the distribution of the water depth, field observation, and three-dimensional numerical experiments using an EFDC model. The seagrass habitat was usually distributed at D.L(-) 0.5~0.0 m, and was hardly seen in the intertidal zone higher than that range. The distribution of the water temperature was within the range of $7.0{\sim}23.2^{\circ}C$, and the seagrass was demonstrated to have a strong tolerance to changes in the water temperature. In addition, the salinity distribution was found to be 27.2~31.0 psu, with suspended solids of 32.1 mg/L, which were higher than the previous research results (Huh et al., 1998), implying that there may be a reduction in the amount of deposits caused by the suspended solids. As for the sedimentary facies, they were comprised of 62.7% sand, 19.1% silt, and 18.2% clay, indicating that the arenaceous was superior and the sedimentary facies were similar to that of Dadae Bay. According to a numerical experiment, the maximum tidal current was 75 cm/s, while the tidal residual current was 10 cm/s, confirming that it sufficiently adapted to strong tidal currents. The erosion and deposition are predicted to be less than 1.0 cm/year. Thus, it is judged that the resuspension of sediments due to tidal currents and the changes in sedimentary facies are insignificant.