• Proceedings of the Korea Water Resources Association Conference
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• 2022.05a
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• pp.48-48
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• 2022

본 연구에서는 상수원 수질개선을 위한 물환경관리 종합대책의 일환으로 장치형과 자연형 물환경관리시설을 복합 구성하여 강우 및 비강우 시 비점오염물질을 집중 저감 할 수 있는 맞춤형 비점관리 모듈화 시설을 제안하고, 그 적용성을 평가하고자 하였다. 이는 습지, 생태수로, 저류지 등으로 정형화된 기존의 수질개선 대책에서 탈피하여 대규모 댐유역에서 구조적 대책의 실효성과 효과성을 도모하기 위한 목적성을 지니고 있다. 이를 위해, 영천댐 유역을 대상으로 수질모형(HSPF, AEM3D)을 구축하고 목표수질 설정에 따른 수질개선 대책을 마련하였다. 여기서 수질개선 대책은 호내와 유역으로 공간적 범위를 구분하여 효과분석을 위한 단일 및 복합 모의 시나리오를 작성했으며, 평년 강우량과 가장 유사한 최근(2017년)의 영천호 수질과 비교하여 개선 효과를 평가하였다. 맞춤형 비점관리 모듈화 시설은 영천호 유입부에 기 조성된 인공습지(평시)와 연계하여 강우 시에는 모듈형(다기능 저류조, 스크린, 고효율여과) 장치를 통해 침강지로 최종 방류하는 것으로 구성하였다. 모듈화 시설의 연중 삭감량 추정 결과는 T-P 유달부하량을 기준으로 평시 32%, 강우 시 11%로 분석되었다. 자세한 모듈화 시설의 구성과 저감효율, 수질개선 대책 시나리오 적용에 따른 영천호 수질변화 분석 결과 등은 발표를 통해 제시될 예정이다.

• Journal of Korean Society on Water Environment
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• v.33 no.5
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• pp.563-571
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• 2017

Because of the rapid progress of urbanization in recent decades, the proportion of impervious areas in cities has increased. As a result, hydrological properties of urban streams have changed and non-point pollution sources have increased, that have had considerable influence on human life and ecosystems. To manage these situations, application of non-point pollution reduction facilities and LID facilities are expanding recently. In this study, it is investigated if rainfall interception rate used in design of non-point pollution reduction facilities can be applied to design of LID facilities. For this purpose, EPA SWMM is constructed for part of Noksan National Industrial Complex area wherein long-term observed storm water data can be obtained and storm water interception rates for various design capacities of a bio-retention LID facility reservoirs are estimated. While sensitivity of storm water interception rate according to design specifications of bio-retention facility is not large, sensitivity of storm water interception rate according to regional rainfall characteristics is relatively large. As a result of comparing present rainfall interception rate estimation method with the one proposed in this study, the present method is highly likely to overestimate performance of the bio-retention facility. Finally, a new storm water interception rate formula for bio-retention LID facility is proposed.

• Proceedings of the Korea Water Resources Association Conference
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• 2011.05a
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• pp.457-457
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• 2011

저영향개발(LID, Low Impact Development)은 물순환체계 개선을 위해 녹색 공간의 확보, 자연형 공간 조성, 자연상태의 수문순환 기능의 유지 기법 등을 활용한 개발 대상지에서의 강우유출 및 비점오염원의 영향을 최소화할 수 있는 새로운 방법이다. LID는 강우 유출수의 지하침투, 강우 종료시 증발산량의 확보, 강우 유출수의 재이용 등을 통한 강우 유출량을 최소화하는 것에 그 목적이 있다. LID 방법은 우수저류 공원, 생태저류지, 지붕층 저류공원, 보도 저류공간, 인공습지, 완충녹지대, 수목 보존지대, 지붕층 배수관, 강우 저장조, 투수성 포장, 토양 개량, 불투수층 최소화, 비점오염원 저감 등으로 효율성, 경제성, 유연성, 합리성, 토지 가치증대 등의 장점이 있다. 영산강 수계의 BOD 배출부하량이 점오염원(21,019kg/일)과 비점오염원(50,047kg/일)의 비율이 3:7 로 비점오염원 배출부하량이 훨씬 큰 상태이다. 특히, 광주광역시, 농업용 토지, 축산계 등의 비점오염원이 영산강 수질에 크게 영향을 미치고 있다. 따라서 본 연구에서는 비점오염원의 영향이 큰 영산강 수계를 대상으로 앞으로 이루어지는 개발계획을 분석하여 LID 기법을 적용하였을 때 영산강 수질에 미치는 영향을 모델링을 통해 예측하고자 한다. 수질개선에 어느 정도의 효과가 있는지 검증하기 위해 국내 실정에 맞고 QUAL2E 모델을 근간으로 WASP5 모형의 장점들을 접목시켜 Bottle BOD의 반응기작 및 조류의 생산에 의한 유기물 증가, 탈질화 반응 등 정체수역에서 일어날 수 있는 반응기작을 모의할 수 있도록 보완한 QUALKO2 모형을 이용하여 그 효과를 모의하고자 한다. 본 연구를 통해 LID 기법이 도시화에 영향을 얼마나 덜 주는지, 수계의 비점오염원 효과를 통해 물순환 체계의 개선이 어느 정도로 어루어지는지에 대한 효과를 검증을 할 수 있는 계기가 될 수 있을 것으로 판단된다.

• Journal of Korean Society on Water Environment
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• v.34 no.6
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• pp.569-578
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• 2018

To minimize the negative alterations in hydrologic and water quality environment in urban areas due to urbanization, Low Impact Development (LID) techniques are actively applied. In Korea, LID facilities are classified as Non-point Pollution Reduction Facilities (NPRFs), and therefore they are evaluated using the performance evaluation method for NPRFs. However, while LID facilities are generally installed in small, distributed configuration and mainly work with the infiltration process, the existing NPRFs are installed on a large scale and mainly work with the reservoir process. Therefore, some limitations are expected in assessing both facilities using the same method as they differ in properties. To solve these problems, in this study, a new method for performance evaluation was proposed with focus on bio-retention LID facilities. EPA SWMM was used to reproduce the hydrologic and water quality phenomena in study area, and SWMM-LID module used to simulate TP interception performance by installing a bio-retention cell under various conditions through long-term simulations. Finally, an empirical formula for Load Capture Ratio (LCR) was derived based on storm water interception ratio in the same form as the existing method. Using the existing formula in estimating the LCR is likely to overestimate the performance of interception for non-point pollutants in the extremely low design capacity, and also underestimate it in the moderate and high design capacity.

• Ecology and Resilient Infrastructure
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• v.7 no.3
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• pp.181-188
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• 2020

In this study, a temperature distribution sensing method using optical fiber was applied to a large-scale levee experiment, and the applicability of wide-area levee or embankment monitoring technology to observe the changes inside the levee was reviewed. The optical fiber was buried in a large-scale levee, and the temporal and spatial temperature changes were measured according to the water level changes in the reservoir. As the water level of the reservoir increased, the temperature of the embankment slope decreased, and as the infiltration progressed, a change in the spatial location of the temperature change was detected. The temperature change due to embankment infiltration varied depending on the time of the infiltration progress, and the change assumed to be the seepage line could be observed. This study has demonstrated that information about temperature changes inside the levee can be interpreted as the information on the locations that are judged to be relatively vulnerable, investigating the changes in the condition inside the levee.

• Ecology and Resilient Infrastructure
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• v.10 no.2
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• pp.40-49
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• 2023

To reduce the damage of extreme flooding caused by climate change and to create flood mitigation sections in a nature-friendly riparian area, it is necessary to restore the floodplain area by referring to the past floodplain section of the current inland waterfront area before the levee was built. This study proposed a method of selecting a location for floodplain restoration using old maps of the Geum River study section and analyzed the effect of flood level reduction through unsteady flow numerical simulations using the floodplain as a flood mitigation space. As a result of analyzing changes in the river areas using old maps, the river section was estimated to gradually reduce by 27.8% (1,059,380 m²) in 2020 compared to 1919, and it was found to have an effective storage capacity of 2,200,868 m³ when restored to offline storage. The flood level and discharge control effects analyzed based on HEC-RAS unsteady flow simulation were 16 cm and 219.01 m³/s, respectively, in the downstream cross-section. In the numerical simulation in this paper, the flood mitigation space was applied as an offline reservoir. The effect of reducing the flood level may differ if levee retreat/relocation is applied.

• Journal of the Korean Society of Environmental Restoration Technology
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• v.18 no.2
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• pp.1-17
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• 2015

Ecological reservoir is a multifunctional space where provides the functions of retention, animal habitat and improvement of ecosystem health and landscape. The ecological reservoir of Anteo Eco Park located in Gwangmyeong-si has established to functions for water purification, maintenance of healthy aquatic ecosystem. Because the Anteo Eco Park is located in the site where nonpoint pollutant materials flow in, Anteo Eco Park has potential factors which aquatic ecosystem health deteriorates and damages the habitat of golden frog(Rana plancyi chosenica) which is restoration target species. Therefore, the purpose of this study is to suggest the plan to manage the variables which impede the right functions of aquatic ecosystem by understanding the causal loop diagram for the change of water quality environment and the interaction of predator-prey through system thinking. The results are as follows. First, the study showed that the individual number of golden frog which is an indicator species of Anteo Eco Park is threatened by snakeheaded fish, which is an upper predator. Therefore, balanced food chain should be hold to protect golden frog by capturing the snakeheaded fish which is individual number's density is high, and the monitoring management of the individual number for predator(snakeheaded fish)-prey(golden frog) should be performed. Second, the study represented that water pollution and carnification is caused by the sediment as the dead body of the large emergent vegetation in the winter cumulates as sediment. Ecological reservoir in Anteo Eco Park has been managed by eliminating the dead body of the large emergent vegetation, but the guideline for the proper density maintenance of vegetation community is additionally needed. Lastly, the study showed that aquatic ecosystem of Anteo Eco Park where is contaminated from the inflow of nonpoint pollutants affects the individual number's decline of golden frog and snakeheaded fish. Accordingly, the creation of a buffer area and a substitution wetland is needed in the periphery of the Anteo Eco Park to control the inflow of nonpoint pollutants including organic matters, nutrients and heavy metals. This study will be helpful that Anteo Eco Park improves the regional landscape and maintain healthy aquatic ecosystem space for the park visitors including local residents.

• Journal of Wetlands Research
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• v.22 no.4
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• pp.225-238
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• 2020

The agricultural landscape is considered an important space to provide service functions, but the reality is that environmental and ecological problems are being reported in the creation of a facility horticulture complex. Therefore, this study was conducted to contribute to sustainable agriculture by creating a more eco-friendly facility horticultural complex. The elements of planning for eco-friendly development of the facility horticultural complex were derived from literature and expert surveys. The master plan and the bird's-eye view were then applied to the Saemangeum area by applying the planning elements. After analyzing the method of selecting and deploying input elements for improving functions, it was suggested that low-flow areas, wetlands, artificial storage facilities, green spaces, and waterways should be placed in harmony with the landscape and that the building-to-land ratio should be applied at 55%. The final design was prepared by applying the ecological service function improvement plan proposed by experts. The final bird's-eye view also reflected water purification facilities, connection of wetlands to waterways, packing of pitchers, and connection of green areas. The results of the research are expected to be used as basic data for policy and budget allocation for the eco-friendly creation of horticulture facilities and contribute to sustainable agriculture by contributing to national biodiversity and environmental preservation.

• Proceedings of the Korea Water Resources Association Conference
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• 2008.05a
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• pp.405-409
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• 2008

우리나라의 도시는 리우선언이후 지속가능한 개발 원칙아래 친수와 생태를 모티브로 하여 급격히 변화되어 개발되어 가고 있다. 파주운정신도시는 국내최초 물순환시스템, 광교신도시는 2개의 기존 저류지를 활용한 물순환시스템, 인천청라지구는 녹지공간에 운하를 만드는 운하도시, 김포신도시는 대수로를 활용한 운하도시, 강서지구는 한강과 연결되는 친수도시로 진행중이다. 이러한 개발에는 지속가능한 수량확보와 수질보전이 선결되어야 하므로 다양한 방안들이 제시되고 있으며, 이에 따라 물을 다스릴 수 있는 도시로 변화함에 따라 치수적으로 안전할 뿐 만 아니라, 각종 재난으로 부터도 안전한 U-city로 진행되고 있다. 국외의 경우 미국의 샌안토니오 등이 도시내 운하를 건설하여 관광객을 유치하고 있고, 독일의 크론스베르크가 지구 전체에 우수저류 및 침투시설을 도입하였으며, 일본 동경이 새로운 운하프로젝트를 수행중이다. 또한 홍콩이 세계최대의 습지공원을 신도시와 병행하여 건설하였고, 싱가폴에서는 아시아 최대의 담수화 공장을 건설중이며, 뉴워터(Newater) 프로젝트로 물을 재사용하고 있다. 이러한 국내 외 사례가 물순환시스템을 체제를 구축하기 위한 기초자료를 제공할 수 있으리라 판단된다. 본 연구에서는 이러한 물순환시스템의 전체적인 개념을 다양한 선진사례 등을 토대로 검토하고, 현재 진행중인 국내 도시들을 토대로 정리하여, 물순환시스템의 체제를 구축하는 방안을 제시하고자 한다. 본연구를 통해 향후 국내 지자체들의 도시재개발과 신도시개발, 국외 도시개발시 물순환시스템을 구축하는 경우 물순환과 관련된 기초자료로 활용할 수 있으리라 판단된다.

• Journal of Wetlands Research
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• v.23 no.1
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• pp.74-84
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• 2021

Active stormwater management is essential to minimize the impact of urban development and improve the hydrological cycle system. In recent years, the Low Impact Development (LID) technique for urban stormwater management is attracting attention as a reasonable alternative. The Storm Water Management Model (SWMM) is actively used in urban hydrological cycle improvement projects as it provides simulation functions for various GI (Green Infra) facilities through its LID module. However, in order to simulate GI facilities using SWMM, there are many difficulties in setting up complex watersheds and deploying GI facilities. In this study, a model that can evaluate the performance of GI facilities is proposed while implementing the core hydrological process of GI facilities. Since the proposed model operates based on hydrological routing, it can not only reflect the infiltration, storage, and evapotranspiration of GI facilities, but also quantitatively evaluate the effect of improving urban hydrological cycle by GI facilities. The applicability of the proposed model was verified by comparing the results of the proposed model with the results of SWMM. In addition, a discussion of errors occurring in the SWMM's permeable pavement system simulation is included.