• Korean Journal of Environment and Ecology
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• v.20 no.2
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• pp.235-258
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• 2006

The monitoring of vegetation and water quality before(2003), during(2004) and after(2005) the restoration work of Cheonggye Stream indicated that $BOD_5$ concentration before the project averaged 51.1mg/L and that both the inflow of water from Hang River and the funnel of subway station water into the stream lowered the $BOD_5$ to 3.3mg/L, improving its water quality to the third grade. Species of plants slightly increased from 121 to 132 after the restoration. Specifically, perennial plant comprised 35.6%, an increase from 24.8% recorded before the restoration. Phragmites communis and Zoysia japonica communities were observed as the introduction vegetation. However, Humulus japonicus and Erigeron canadensis communities, which were classified into the first grade according to the vegetation conservation classification, were found to be still prevailing though they were dominant community before the restoration, meaning that the ecological condition of plants had not changed very significantly. An the other hand the water quality of the reference reach was classified into the first grade based on $BOD_5$, which implies the water quality of the section was better than the project reaches. Besides the section had more diverse plant species which numbered 154, and furthermore, the rate of immigrated plants comprised 13% which was lower than 28.8% recorded by the project sections. The project reaches are considered to be inferior to the reference section in terms of ecological condition. The effectiveness of the stream restoration cannot be determined only by such short-term investigation as was conducted in this study, and it is considered that the effectiveness of the restoration of Cheonggye Stream can be determined only if investigations in other major factors are conducted over the long-term period.

• Journal of Korean Society of Coastal and Ocean Engineers
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• v.14 no.2
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• pp.136-150
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• 2002

To improve the water quality of the recently constructed Siwhaho, sluice gates were operated to allow free exchange of water with the sea. This estuarine lake connected to the outer sea through narrow gates is affected mainly by flushing by gate operation and river flows and wind forcing sometimes. As a predicting tool far the water qualities, a three-dimensional finite volume model CE-QUAL-ICM is incorporated into a finite element hydrodynamic model, TIDE3D. In coupling these two different modules, a new error minimization technique is applied by considering conservation of mass. Model tests for one year after calibration and validation using field observation show that eutrophication and other biological changes reach quasi-steady state after initial 60 days of simulation, thus it would be necessary to consider moderate ramp up option to remove initial uncertainties due to cold start option. Sediment-water interaction might not be a concern in the long-term simulation, since its effect is negligible. Simulated results show the newly applied scheme can be applied with satisfaction not only fur lessening of eutrophic processes in an estuarine lake but also looking for some active circulation to improve water quality.

• Journal of Korea Water Resources Association
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• v.48 no.9
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• pp.769-779
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• 2015

The streamflow depletion due to groundwater pumping from deep aquifer near the Juksan stream has been simulated, in this study, by using the surface water and groundwater integrated model, SWAT-ODFLOW in order to analyze the relationship between the stream depletion and hydraulic properties of aquifer and streambed, and to spatially assess the streamflow depletion. The simulated results showed that the streamflow depletion rate divided by the pumping rate for each well location ranges from 10% to 90% with reflecting the various well-stream distance, transmissivity, storativity, and streambed hydraulic conductance. In particular, the streamflow depletion exceeds about 50% of pumping rate for conditions with transmissivity higher than $10m^2/day$ or storage coefficient lower than 0.1. The simulated results in the form of spatial maps indicated that the spatially averaged percent depletion of streamflow is about 53.6% for five years of pumping which is lower than that for shallow aquifer pumping by 12.9%. From the spatially distributed stream depletion, it was found that higher and more rapid stream depletion to pumping occurs near middle-downstream reach.

• Journal of the Korean association of regional geographers
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• v.3 no.1
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• pp.51-62
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• 1997

In various places of drainage basins of major rivers in South Korea are distributed intermontane basins. Basin floor covered with fluvial deposits carried from the surrounding mountane area becomes alluvial plain. Its productivity is comparatively higher than anywhere else. Thus basin is a local administrative, economic, and cultural core area. Intermontane basin consists of backward mountane area, gentle hills, and alluvial lowland. The purpose of this paper is to elucidate the morpogenetic processes and development age of Angae Basin located in the sedimentary rock region. Hills with the height of a.s.l. $80{\sim}100m$ distributed in Angae Basin are residual landforms, which are the remnants of dissection of the etchplain that results from the denudation of bedrock deeply weathered along tectolineaments under the warm and moist climate, and reflect lithological differentiation of bedrock. Those hills have been comparatively higher ridges since the initial stage of the original etchplain, and they have been immune from fluvial processes. The etchplain appeared as $80{\sim}100m$ hills. the high terrace distributed in upstream reach of Nakdong River drainage basin and the old meander-cut at Seoburi in Wicheon drainage basin, are formed at the same stage when riverbed of Wicheon Stream functioned as a local base level according as the fluvial system of Wichoen arrived at dynamic equilibrium.

• Korean Journal of Ecology and Environment
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• v.35 no.4 s.100
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• pp.295-305
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• 2002

Benthic macro- invertebrates were collected in a 200 m reach located in the $3^{rd}$ order Yangjae Stream, a tributary of the Han River, Seoul, from April 1996 to March 1998. Although species richness was relatively low due to organic pollution, community abundance patterns appeared to be different depending upon location of the sampling sites. At the sample sites in the straight zone with high water velocity and large substrates, species richness was high and species relatively less-tolerant to organic pollution was additionally present. At the sample sites in the pool zone with lower velocity and high sedimentation, species richness was low and a few tolerant species to organic pollution were abundantly collected. The principle component analysis indicated that some sample sites in the straight zone appeared to be related to water velocity and shear velocity, and associated with diverse taxa less tolerant to organic pollution. Additionally the sample site transplanted with large substrates was associated wit]h hydraulic characters such as substrate diversity and roughness, and was related to species indicating partial recovery of water. The sample sites located at the pool zone tended to be associated with organic matter that had sedimented on to the substrates and the taxa tolerant to organic pollution, including Oligochaeta and Chironomus.

• Proceedings of the Korea Water Resources Association Conference
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• 2015.05a
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• pp.545-545
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• 2015

금호강은 포항시 북구 죽장면에서 발원하여 낙동강으로 합류하는 낙동강 제1지류로 유로연장은 114.6km이며, 영천과 경산지역의 생활 및 공업용수, 대구지역의 공업용수로 사용된다. 금호강의 평균 BOD는 1983년 191.2mg/L로 하수도나 산업폐수 처리 전 원수 정도의 수준이었으나, 2014년에는 3.6mg/L로 낮아져 수질개선율이 98.1%를 나타냈다. 이를 위해서 하 폐수 처리장 건설과 아울러 포항철강산업단지의 공업용수 공급을 위한 영천댐에 임하댐과 도수터널 52km를 연결하여 2001년부터 금호강에 하천유지용수로 $3.463m^3/s$를 공급하였다. 금호강 유역에서 오염총량제 목표수질은 금호B 지점이 BOD 3.8mg/L, TP 0.236mg/L이며, 금호C 지점은 BOD 4.0mg/L, TP 0.254mg/L이다. 분석기간인 2013년에서 2014년의 평균 수질은 모두 기준을 만족하고 있으나, 수질악화시에 금호B 지점에서 최대 BOD 8.6mg/L, TP 0.511mg/L, 금호C 지점에서 최대 BOD 8.5mg/L, TP 0.449mg/L을 나타내었다. 이에 영천댐의 탄력적인 유량방류로 수질악화시에 추가 방류를 수행하여 수질을 안정화시키고, 물공급의 안정화가 필요한 상황이다. 본 연구에서는 갈수기 및 이수기에 영천댐에서 하천유지용수보다 많은 유량을 탄력적으로 방류하는 가상조건을 설정하여, 하천유지유량과 목표수질을 만족하는 유량분석을 수행하였다. 이를 위해 QUALKO2 모형을 적용하였으며, 상류단 경계조건을 영천댐으로 설정하고 낙동강에 합류하기까지 약 86km 구간에 대해서 유량과 수질모의를 수행하였다. 모형적용을 위해서는 23개의 reach와 86개 element를 사용하였으며, 주요지류로는 신령천, 청통천, 부기천, 오목천, 남천, 동화천, 신천, 팔거천, 달서천, 이언천를 적용하고, 주요 하 폐수 처리시설을 점오염원으로 입력하였다. 실측자료는 2013년과 2014년의 월자료를 사용하였으며, 유량시나리오는 상류단 영천댐 방류량 조건을 반영하여, 실방류량 조건과 하천유지용수 방류조건, 유지용수 외 추가 25%, 50% 방류조건, 목표수질을 달성하는 방류조건으로 총 5가지의 시나리오를 수행하였다. 상류단 유량이 증가하면 금호강 전반적으로 수질이 개선되나 수질 악화시에는 과도한 방류량을 요구하게 되어, 수질 악화시를 위한 구조적 비구조적 대책도 필요한 상황으로 분석된다.

• Proceedings of the Korea Water Resources Association Conference
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• 2016.05a
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• pp.497-497
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• 2016

페루의 Rimac강은 수도인 Rima시를 관통하는 강으로 각종 용수공급 등의 기능을 담당하는 중요한 강이지만 광산, 공장 및 도시 등 점?비점오염원으로 인해 오염이 심각해지고 있는 실정이다. 본 연구에서는 Rimac강의 하천복원을 위하여 3단계 수질개선 목표를 설정하고 각 단계별 BOD, TP 및 중금속(Al, As, Cd, Fe) 예측을 수행함으로써 목표달성 가능 평가를 수행하였다. Rimac강 지류인 Rio Santa Eulalia 하천 유입후부터 하구까지 총 57 km를 대상으로 4개의 대구간(Reach), 57개의 소구간(Element)으로 구분하여 QUAL2E 모델을 구축하였다. 2013년을 대상으로 저유량시기(건기)인 12월과 고유량시기(우기)인 1월을 대상으로 BOD, TP, Al, As, Cd, Fe의 모델 재현성을 검토한 결과, Rimac강 하류의 Huaycoloro강 유입이후 BOD, TP가 증가하는 현상을 적절히 재현하는 것으로 나타났다. 중금속은 Romac강 상류와 하류 Huaycoloro강 유입 수질 농도차이가 크지 않아 거리별로 일정한 농도를 나타내는 것으로 모의되었으나 실측정값은 하구로 갈수록 낮아지는 경향이 다소 나타났지만 대체적으로 실측값의 경향을 따르는 것으로 모의되었다. 수질개선 시나리오는 1단계(2016-2018년), 2단계(2019-2021년) 및 최종 3단계(2022-2024년)로 구분하여 저유량시기와 고유량시기의 수질개선 대책에 따른 수질변화를 예측하여 Rimac강 하류의 대표 지점인 La Atargea 취수장 지점에서 목표수질 달성여부를 평가하였다. 저유량시기의 경우, BOD는 1단계 이후 5.9 mg/L에서 목표수질 5.0 mg/L 이하로 농도가 감소되었으며 최종 3단계에 2.2 mg/L로 63.3% 개선하는 것으로 예측되었다. TP는 1단계 25.8% 개선, 3단계는 51.6% 개선되어 목표수질인 0.15 mg/L를 만족하는 것으로 예측되었다. 중금속의 경우 Cd는 당초 수질목표를 만족시키는 상황이었으며 그 외 항목은 Al>As>Fe 순으로 개선효과가 나타났고, 3단계 이후 모두 목표수질을 달성할 것으로 예측되었다. 고유량시기 수질예측 결과, 1단계 BOD, TP는 약 49, 19% 저감효과가 나타났으며 3단계 이후 57, 25%까지 개선되는 것으로 예측되어 목표수질을 만족시키는 것으로 분석되었다. 중금속은 Al이 가장 큰 개선 효과가 나타났으며 3단계에서 77.5%의 개선 효과가 분석되었다. 페루 리막강 유역 수질개선 대책 수립에 따른 수질개선효과 분석 결과, 3단계까지 모든 수질항목의 목표수질 달성이 가능한 것으로 분석되었으나 TP, Al 및 As의 경우에 2단계까지 목표수질 달성이 어려워 더욱 체계적인 관리가 필요할 것으로 판단되었다.

• Journal of Korea Water Resources Association
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• v.55 no.11
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• pp.955-967
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• 2022

Existing particle tracking models predict vertical displacement of particles based on the terminal settling velocity in the stagnant water. However, experimental results of the present study confirmed that the settling velocity of particles is influenced by the turbulence effects in turbulent flow, consistent with the previous studies. The settling velocity of particles and turbulent characteristics were measured by using PTV and PIV methods, respectively, in order to establish relationship between the particle settling velocity and the ambient turbulence. It was observed that the settling velocity increase rate starts to grow when the particle diameter is of the same order as Kolmogorov length scale. Compared with the previous studies, the present study shows that the graphs of the settling velocity increase rate according to the Stokes number have concave shapes for each particle density. In conclusion, since the settling velocity in the natural flow is faster than in the stagnant water, the existing particle tracking model may estimate a relatively long time for particles to reach the river bed. Therefore, the results of the present study can help improve the performance of particle tracking models.

• Ecology and Resilient Infrastructure
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• v.10 no.4
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• pp.217-225
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• 2023

This study analyzed the effect of flood level reduction in the case of creating and operating offline storage for the Jangdong district, which can be used as a flood buffer space for the Geumgang River, through one-dimensional unsteady flow numerical simulation. In particular, the sensitivity analysis of changes in the height and width (length) of transverse weirs on flood level changes was performed to provide quantitative information necessary for flood control facility (embankment) design. As a result of analyzing the flood control effect of the offline storage based on the peak flood discharge and level, spatially, the flood control effect at the planned flood buffer space site and the downstream end was confirmed, and it was confirmed that the flood reduction effect at the downstream occurred the most. By design conditions of the transverse overflow weir, the greatest flood reduction effect was found under the condition that the overflow weir height based on the 50-year frequency flood level and the transverse overflow weir width (length) of 125 m were considered. The effect of delaying the time to reach the maximum flood due to the operation of the offline storage site was also presented based on unsteady flow modeling.

• Ecology and Resilient Infrastructure
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• v.6 no.1
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• pp.34-48
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• 2019

Naeseong Stream is a natural sand-bed river that flows through mountainous and cultivated area in northern part of Gyeongbuk province. It had maintained its inherent landscape characterized by white sandbars before 2010s. However, since then changes occurred, which include construction of Yeongju Dam and the extensive vegetation development around 2015. In this study, long-term monitoring was carried out on Naeseong Stream to analyze these changes objectively. This paper aims to provide a dataset of the investigation on channel morphology and vegetation for the period 2012-2018. Methods of investigation include drone/terrestrial photography, LiDAR aerial survey and on-site fieldwork. The main findings are as follows. Vegetation development in the channel of Naeseong Stream began around 1987. Before 2013 it occurred along the downstream reach and since then in the entire reach. Some of the sites where riverbed is covered with vegetation during 2014~2015 were rejuvenated to bare bars due to the floods afterwards, but woody vegetation was established in many sites. Bed changes occurred due to deposition of sediment on the vegetated surfaces. Though Naeseong Stream has maintained its substantial sand-bed characteristics, there has been a slight tendency in bed material coarsening. Riverbed degradation at the thalweg was observed in the surveyed cross sections. Considering all the results together with the hydrological characteristics mentioned in the precedent paper (I), it is thought that the change in vegetation and landscape along Naeseong Stream was mainly due to decrease of flow. The effect of Yeongju Dam on the change of the riverbed degradation was briefly discussed as well.