• Proceedings of the Korea Water Resources Association Conference
• /
• 2018.05a
• /
• pp.382-382
• /
• 2018

최근 기후변화 및 도시화로 인해 집중호우와 도시 내의 불투수층이 증가하고 있으며, 현재 도심의 강우관리시스템이 한계에 달하여 수재해 피해가 급증하고 있다. 이와 같은 문제를 해결하기 위한 방안으로 저영향개발 기법이 대두되고 있으며, 본 기법은 해당 지역의 강우를 분산식 빗물처리 하여 도시 내의 수문학적 특성을 개발이전 상태로 회복 및 유지하는 기술이다. 저영향개발 기법의 종류는 투수성 포장, 옥상녹화, 빗물정원, 식생저류지, 식생화분 등이 있다. 본 연구에서는 저영향개발 기법 중 하나인 투수성 아스팔트에 대한 우수저감 효과를 분석하기 위해 경상남도 양산시 부산대학교 양산캠퍼스 그린인프라 저영향개발 센터에서 주차장형 LID 시설의 투수성 아스팔트 포장과 대조군인 불투수 콘크리트 포장을 실험대상으로 선정하였다. 포장체는 $10.85m(L){\times}2.3m(B){\times}0.9 m(H)$의 크기로 원지반 침투가 없는 박스형 실험시설로써 이동형 강우모의장치를 이용하여 인공강우실험을 실시하였다. 강우모의 시에 발생하는 지표유출 및 침투유출은 각 유공관을 통해 모니터링 박스에 차집되어 실시간으로 웹사이트 상에 저장된다. 저장된 자료를 이용하여 투수성아스팔트의 첨두유출량 저감, 지체시간지연효과를 분석하였다. 분석된 결과를 통해 첨두유출량은 11%저감되었고 투수성 아스팔트와 불투수 콘크리트는 각각 3시간, 1시간 동안 유출되어 2시간의 차이를 보여준다.

• Geotechnical Engineering
• /
• v.7 no.1
• /
• pp.53-68
• /
• 1991

This paper aims at the investigation of various seepage behavior when rainfall infiltarates into unsaturated ground and understanding of the mechanism for slope instability due to rainfall. For this purpose an experimental study is carried out for model slopes using the test equipment which can simulate various rainfall intensity. In addition, a numerical study is performed for the same dimension and boundary condition as the experimental model. From both the experimental test and numerical analysis the progress of wetting front with time, critical amounts of rainfall, and pore-water pressure development with time are know in detail and their effects on slope stability are described.

• The Journal of Engineering Geology
• /
• v.27 no.4
• /
• pp.475-487
• /
• 2017

We performed landslide flume tests to analyze characteristics of landslide occurrence and change in the ground materials due to rainfall infiltration. The test apparatus is composed of flume, rainfall simulator, and measurement sensors and landslides were triggered by heavy rainfall (Intensity=200 mm/hr) sprinkled at the above of an artificial slope. The measurement sensors for matric suction and volumetric water content were installed with 3 sets at shallow (GL-0.2 m), middle (GL-0.4 m), and deep depth (GL-0.6 m) in the slope and the tests were performed with in-situ, loose, and dense condition of each weathered soils of granite, gneiss, and mudstone. The analyses show that surface erosion was dominant in initial time of the test due to heavy rainfall and then landslides occur following locally happened transverse tension cracks. The characteristics of landslide were both shallow failure because of a spread of wetting front induced by the rainfall infiltration and retrogressive failure. While the matric suction was decreased rapidly without any precursor in the soil saturation, the volumetric water content was increased gradually, reached its maximum value, and then decreased rapidly with landslide.

• Journal of the Korean GEO-environmental Society
• /
• v.9 no.1
• /
• pp.33-40
• /
• 2008

In this research, model tests have been performed for researching the seepage characteristics in the finite soil slope during the rainfall using a manufactured rainfall simulator. On the basis of the results, it has been analyzed how to change the seepage characteristics due to the duration time of rainfall. We are found that the pore-water pressure was gradually increased as increasing the duration time of rainfall. Specially, at the beginning of rainfall, the pore-water pressure in the middle surface of slope was measured larger than any point. As increasing the duration time of rainfall, the pore-water pressure at the inner part of slope was increased greatly at the collapse due to infiltrating the pore-water within the slope. In the research, it was not easy to get various test results because measuring instruments are high sensitivity and difficult to handle. For the future, the model test results are needed for the various slope angle.

• Journal of the Korean Institute of Landscape Architecture
• /
• v.48 no.3
• /
• pp.34-44
• /
• 2020

In order to suggest performance analysis directions of ecological components based on a vegetation-based LID system model, this study seeks to analyze the statistical significance between monitoring results by using SWMM computer simulation and rainfall and run-off simulation devices and provide basic data required for a preliminary system design. Also, the study aims to comprehensively review a vegetation-based LID system's soil, a vegetation model, and analysis plans, which were less addressed in previous studies, and suggest a performance quantification direction that could act as a substitute device-type LID system. After monitoring artificial rainfall for 40 minutes, the test group zone and the control group zone recorded maximum rainfall intensity of 142.91mm/hr. (n=3, sd=0.34) and 142.24mm/hr. (n=3, sd=0.90), respectively. Compared to a hyetograph, low rainfall intensity was re-produced in 10-minute and 50-minute sections, and high rainfall intensity was confirmed in 20-minute, 30-minute, and 40-minute sections. As for rainwater run-off delay effects, run-off intensity in the test group zone was reduced by 79.8% as it recorded 0.46mm/min at the 50-minute point when the run-off intensity was highest in the control group zone. In the case of computer simulation, run-off intensity in the test group zone was reduced by 99.1% as it recorded 0.05mm/min at the 50-minute point when the run-off intensity was highest. The maximum rainfall run-off intensity in the test group zone (Dv=30.35, NSE=0.36) recorded 0.77mm/min and 1.06mm/min in artificial rainfall monitoring and SWMM computer simulation, respectively, at the 70-minute point in both cases. Likewise, the control group zone (Dv=17.27, NSE=0.78) recorded 2.26mm/min and 2.38mm/min, respectively, at the 50-minutes point. Through statistical assessing the significance between the rainfall & run-off simulating systems and the SWMM computer simulations, this study was able to suggest a preliminary design direction for the rainwater run-off reduction performance of the LID system applied with single vegetation. Also, by comprehensively examining the LID system's soil and vegetation models, and analysis methods, this study was able to compile parameter quantification plans for vegetation and soil sectors that can be aligned with a preliminary design. However, physical variables were caused by the use of a single vegetation-based LID system, and follow-up studies are required on algorithms for calibrating the statistical significance between monitoring and computer simulation results.

• Journal of the Korean Geotechnical Society
• /
• v.27 no.2
• /
• pp.27-34
• /
• 2011

This study analyzes the determination of slope failure model due to changes in ground condition followed by heavy rainfall. With a simulated rainfall system, the movement of a slope from the rainfall penetrating the unsaturated soil is investigated with respect to various conditions of pore-water pressure, earth pressure, and moisture content, considering rainfall duration and permeability. As a result of the experiment, under the persistent precipitation of 50mm/h, pore-water pressure of weathered granite soil started increasing from the upper position of the slope, and then the pressure increased in middle and bottom portion of it in timely manner. In case of the pore-water pressure of the standard soil, the pressure increased from the middle and bottom portion, and the cause of the different order is suspected to be the difference in permeability between the standard soil and the weathered granite soil. As an outcome, though the result may vary by each foundation, there exists a danger of slope failure not only when the cumulative rainfall is more than 120 mm but also when the saturation level amounts to 60~75%.

• Proceedings of the Korea Water Resources Association Conference
• /
• 2022.05a
• /
• pp.287-287
• /
• 2022

홍수빈도분석의 실용적 측면의 목적은 특정 재현기간에 대하여 발생 가능한 홍수량을 설계홍수량(design flood)으로 설정함으로써 댐, 제방, 배수시설, 하수관거 등의 치수기능을 가진 치수시설물이 설계홍수량 내에서 홍수로 인한 피해를 발생시키지 않도록 그 규모와 기능을 설계함에 있다. 특히 우리나라의 경우 유량자료의 부족으로 강우빈도분석을 수행하여 재현기간별 확률강우량을 먼저 산정하고 이를 강우-유출모형을 통해 확률홍수량으로 전환한 뒤 하천등급에 따른 재현기간 기준에 따라 설계홍수량을 산정하고 있다. 그러나 이와 같이 결정된 설계홍수량이 특정유역에서 발생될 수 있는 피해규모에 대해 얼마나 적정한 지의 여부를 과학적으로 판단하기 위한 연구는 국내·외에서 찾아보기 어려우며, 이러한 문제를 개선하기 위한 기초 이론을 제공하는 것이 본 연구의 가장 중요한 목표이다. 홍수빈도분석을 통해 산정된 설계홍수량의 적정성 여부를 과학적으로 판단하기 위해 최근에 진행된 해외의 몇몇 연구에서는 총 기대비용함수(total expected cost function)의 개발에 근거한 최적설계홍수량을 활용할 수 있음을 제안한 바 있다. 이 개념은 계획된 설계홍수량 이상에서 발생될 수 있는 피해함수(damage function) 및 기대피해함수(expected damage function)와 비용함수(cost function)가 결정되면, 이로부터 총 비용을 나타내는 총 기대비용함수(total expected cost function)을 도출하고 총 기대비용함수가 최소가 되는 최적설계홍수량(optimal design flood)을 산정하여 이를 계획된 설계홍수량(tentative design flood) 비교함으로써 계획된 설계홍수량의 적정성을 판단하는 과정을 기초이론으로 활용한다. 본 연구에서는 불확실성으로 발생되는 범위를 고려한 최적설계홍수량을 산정하기 위하여 Metropolis-Hastings 알고리즘을 사용하였으며, 자료의 종류에 따른 홍수량의 변화를 분석하기 위하여 년최대계열 및 부분시계열 자료를 각각 적용하였다. 한강유역에서 가평대성, 여주 및 한강대교 수위표 지점에서 측정된 자동관측유량장치에 의한 홍수량 자료를 활용하였으며, 최적설계홍수량이 기존 설계홍수량에 비해 크게 산정됨을 알 수 있었다.

• Proceedings of the Korea Water Resources Association Conference
• /
• 2012.05a
• /
• pp.173-173
• /
• 2012

중력류는 두 유체 사이에서 물질의 종류 또는 온도차로 인한 밀도 차이에 의해 발생되는 유체의 흐름을 말하며, 자연환경에서는 저수지에서의 중층탁류, 사막에서의 모래 폭풍, 하구에서의 염수쐐기 등이 그 예이다. 여름철에 강우가 집중되는 우리나라는 홍수에 의한 범람, 침수 등이 발생할 뿐만 아니라 댐이나 하천, 호수 등에 흙탕물이 유입되어 중간층에 정체하는 중층탁류에 의한 피해가 자주 발생하고 있다. 과거에 중층탁류는 일시적인 현상에 불과하였으나 오늘날에는 인공적으로 형성된 정체성 호수나 하천에서 장기간 체류하여 생태계의 교란과 수질 악화를 초래하고 있다. 중층탁류에 의한 피해를 저감시키기 위해서는 본래 자연 상태의 하천이나 호수와 같이 온도분포가 비선형적으로 성층화 된 상태에서 탁수가 유입되어 중층탁류가 형성되는 과정과 흐름 특성을 이해하는 것이 선행되어야 한다. 본 연구에서는 중력류 흐름 해석을 위한 실험 장치를 개발하였다. 실험 장치 중 수조의 제원은 1200 $700{\times}300mm$이며, 수조 상부에는 가열장치를 설치하였고, 수조 하부에는 냉각장치를 설치하였다. 이들 장치들을 가동하여 깊이에 따른 자연현상에서의 비선형적인 온도 단면을 재현한다. 수리 실험방법은 깊이 방향으로 온도에 따라 비선형적으로 성층화 된 유체 내로 경사가 있는 판을 따라 수조내의 성층화된 유체의 중간 온도 혹은 밀도를 가진 유체를 침입시킨다. 침입유체는 성층화된 유체 내에서 초기에는 중력에 의해 운동량을 갖고 경사면을 따라 일정한 속도로 흘러내려 간다. 이후 바닥으로 하강 한 후 부력에 의해 상승하여 동일한 밀도층의 위치에서 횡방향으로 전파하게 된다. 이 연구에서는 이와 같이 비선형적으로 성층화된 유체 내에서의 침입 중력류의 흐름 특성을 실험적으로 관측하고 분석한다.

• Journal of Korean Society of Environmental Engineers
• /
• v.34 no.10
• /
• pp.694-701
• /
• 2012

The main purpose of this study is to evaluate of backwash system of hydrodynamic separator filter (HSF) with solar powered submerged pumps. It consists of a photovoltaic solar array, control electronics, battery, and two submersible pump powered by a 12 voltage DC motor. The laboratory scale study on treatable potential of micro particles using backwash HSF that was a combined with perlite filter cartridge and backwash nozzles. Since it was not easy to use actual storm water in the scaled-down hydraulic model investigations, it was necessary to reproduce ranges of particle sizes with synthetic materials. The synthesized storm runoff was made with water and addition of particles; ion exchange resin partices, silica gel particles, and commercial area manhole sediment particles. HSF was made of acryl resin with 250 mm of diameter filter chamber and overall height of 800 mm. Four case test were performed with different backwashing conditions and determined the SS removal efficiency with various surface loading rates. The operated range of surface loading rate was about 308~$1,250m^3/m^2/day$. It was found that SS removal efficiency of HSF using two submersible pumps improved by about 18% compared with HSF without backwash. Nonpoint control devices with solar water pumping systems would be useful for backwashing the filter in areas with not suppling electricity and reduce filter media exchange cost.

• Journal of the Korean Geotechnical Society
• /
• v.29 no.1
• /
• pp.49-59
• /
• 2013

Heavy rainfall intensity may cause shallow slope failures and debris flow by rill erosion and scour on land surface. The paper represents the difference between native soil (weathered soil) and reinforced soil, which is mixed by hardening agent with flyash as main material, for investigating experimental findings of rill erosion and erosion. Results obtained from artificial rainfall simulator show that erosion rate of reinforced soil mixed with hardening agent is reduced by 20% because an amount of eroded soil on slope surface is inversely proportional to the increase of soil strength. For example, rainfall of 45mm (at the elapsed time of 25mins in rainfall intensity of 110mm/hr) triggers rill erosion on native soil surface, but the rill erosion on reinforced soil surface does not even occur at 330mm rainfall (at the elapsed time of 3hrs in rainfall intensity of 110mm/hr). As a result of slope stability analysis, it was found that the construction method for reinforced soil surface would be more economical, easy and fast construction technology than conventional reinforcement method.