• 제목/요약/키워드: Infiltration rate

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유도침투량의 정량화를 위한 해석모형과 수치모형의 분석 (Analysis of Analytical Models and Numerical Model for Evaluating Induced Infiltration Rate)

  • 이도훈;이은태
    • 한국수자원학회논문집
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    • 제32권3호
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    • pp.301-310
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    • 1999
  • 본 연구에서는 하천-대수층 계에서 수치모형과 두 종류의 해석모형을 적용하여 유도침투량 곡선을 유도하여 비교하였으며, 투수계수의 이방성비 및 지하수 유입 방향이 유도침투량 산정에 미치는 영향을 평가하였다. 유도침투량 곡선은 단순한 그래프 형태로 표시되며, 유도침투량, 양수량, 하천과 우물사이의 거리, 유동 지하수 유입량 등의 4가지 인자만을 포함하기 때문에 유도침투량의 결정에 유용하게 적용될 수 있다. 검토된 조건 아래에서 Wilson 해석모형과 FEWA 수치모형의 유도침투량 곡선은 근사적으로 일치하였으며, 투수게수의 이방성비는 유도침투량에 큰 영향을 미치는 인자로 평가되었다. 본 연구에서 적용된 방법과 도출된 결과들은 유도침투 현상을 이해하는데 도움이 되며, 양수우물의 계획 및 설계, 용수공급 우물의 수질관리에 필요한 유도침투량과 양수량의 최적 결정에 적용될 수 있다.

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Effect of soil physical properties on infiltration rate

  • Sajjadi, Sayed-Abdul-Hamid;Mirzaei, Maryam;Nasab, Afsaneh Fayyaz;Ghezelje, Amin;Tadayonfar, Gholamreza;Sarkardeh, Hamed
    • Geomechanics and Engineering
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    • 제10권6호
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    • pp.727-736
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    • 2016
  • Excessive rainfall can cause runoff flows over the soil surface and as a consequence some amount of water will infiltrate into the soil. From a hydrologic modeling perspective it is necessary to estimate infiltration rate in order to calculate the actual runoff discharge. There are many parameters that can affect the infiltration rate such as soil texture, moisture and compaction. However, the most common equations used in hydrological calculations for estimating the infiltration rate do not consider the soil properties directly and estimate infiltration rate without any soil properties expressions. The purpose of this research was to investigate the relations between infiltration rate and soil texture, moisture and compaction. To achieve this purpose an experimental study was performed to show the effect of soil properties and their relations on infiltration rate by using non-linear regression.

불포화 토양에서 공기의 배출/제한이 침투속도에 미치는 영향 (Effects of Air Drain and Confined Conditions to Infiltration Rate in Unsaturated Soils)

  • 김상래;기재홍;김영진;한무영
    • 상하수도학회지
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    • 제22권6호
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    • pp.681-687
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    • 2008
  • It is well known that the water infiltration rate depends on soil properties such as soil water content, water head, capillary suction, density, hydraulic conductivity, and porosity. However, most of proposed infiltration models assume that the air phase is continuous and in equilibrium with the atmosphere or air compression and air entrapment on infiltration was not considered. This study presents experimental results on unsaturated water infiltration to relate air entrapment and hydraulic conductivity function based on soil air properties. The objectives of this study were to measure change of soil air pressure ahead of wetting front under air drain and air confined condition to find the confined air effect on infiltration rate, to reduce the entrapped air volume related with soil air pressure to increase the soil permeability, and to make a basis of infiltration process model for the purpose of improvement of infiltration rate in the homogeneous soil column. The results of the work show that soil air pressure increases according to increasement of the saturated soil depth rather than the wetting front depth during infiltration process.

화단형 침투시설의 단위설계침투량 산정 및 효과분석 (Estimation of Appropriate Infiltration Rate and the Effects of the Flowerbed Type Infiltration System)

  • 한영해;이태구
    • 한국조경학회지
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    • 제40권5호
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    • pp.140-147
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    • 2012
  • 본 연구에서는 우수 유출량을 일정수준 이하로 제어할 수 있는 화단형 침투시설을 개발하여 이의 적정 설계침투량을 산정하고 적용효과를 분석하였다. 침투시설의 설계침투량을 산정하고 성능을 분석하는 것은 지구단위계획과 같은 공간계획에 구체적으로 빗물침투시설을 계획할 경우에 적용 후 효과를 예측하는데 있어 반드시 검토되어야 할 사항이다. 이에 본 연구에서는 한국건설기술연구원 실험동 옆 주차장을 대상으로 본 시설의 단위설계침투량에 변화를 주어 물수지 분석 프로그램을 이용, 유출량 감소효과를 분석하였다. 침투시설의 설계침투량을 $0.1{\sim}3m^3/m^2.day$로 각각 변화를 주어 유출율 변화를 분석한 결과, $1.0m^3/m^2.day$에서 유출량 80%를 침투시키는 것으로 분석되었으며, 이때의 단위설계침투량이 0.0416($m^3/m^2.hr$)이었다. 또한 개발한 시스템을 현장침투실험한 결과, 단위설계침투량이 약 $0.045m^3/m^2.hr$으로 나타났다. 이 값은 시뮬레이션한 단위설계침투량과 유사한 것으로 분석되었다. 본 연구결과를 토대로 경제적인 규모와 환경적 효과를 최대한 고려한 침투량 산정이 가능하였으며, 또한 도시에서의 녹색인프라로서 빗물침투시설을 공간계획에 적용할 때 고려할 수 있는 근거를 마련했다는 데 의의를 갖는다.

수초·골재 하수처리장의 투수속도 (The Infiltration Velocity of a Sewage Disposal System with Water Plant and Gravel Bed)

  • 정동양
    • 한국환경복원기술학회지
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    • 제6권3호
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    • pp.29-34
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    • 2003
  • This paper describes the effects of sewage amount, temperature, and years in operation on the infiltration rate of a sewage disposal system. The self-purifying sewage disposal system, which is typically used in rural areas, consists of reeds and fine gravel. Water plants are planted on the gravel bed which provides the habitat for microbes. The basic process is that the gravel bed filters incoming sewage. Thus this system requires the smooth flow of sewage through the gravel. However, the efficiency of the disposal system will be lowered if the gravel bed is clogged with sewage sludge. A three year study shows that infiltration rate slows down significantly until the 7th day, depending on the sewage amount and the temperature. After the 7th day, the infiltration rate remains almost constant. In addition, the infiltration rate decreases as the temperature falls. It also decreases as the number of years in operation increase. But there is no significant change in the infiltration rate after the 7th day, independent of the temperature, the sewage amount, and years in operation. In order to take advantage of high infiltration rate, which improves the efficiency of the disposal system in its early stages, having two gravel beds and using them alternatively will be efficient. This operation method is called intermittent load and makes the disposal system last longer. The water plant roots above the gravel bed make the effective filtration possible because they delay accumulation of the sewage sludge and stabilize the filtration ability.

침투도랑 시설의 유지관리 시점 산정방법에 관한 연구 (An estimation method for the maintenance timing of the infiltration trench)

  • 이승원;차성민
    • 한국물환경학회지
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    • 제36권1호
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    • pp.29-35
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    • 2020
  • To manage the non-point source pollution and restore the water circulation, many technologies including infiltration or reservoir systems were installed in the urban area. These facilities have many problems regarding maintenance as their operation period becomes lengthier. The purpose of this study was to estimate the optimal maintenance timing through a long-term load test on the infiltration trench as one of the low impact development techniques. An infiltration trench was installed in the demonstration test facility, and stormwater was manufactured by Manual on installation and operation of non-point pollution management facilities from the Ministry of Environment, Korea and entered into the infiltration trench. Particle size distribution (PSD), suspended solids (SS) removal efficiency, and infiltration rate change tests were performed on inflow and outflow water. In case of the PSD, the maximum particulate size in the outflow decreased from 64 ㎛ to 33 ㎛ as the operating duration elapsed. The SS removal efficiency improved from 97 % to 99 %. The infiltration rate changed from 0.113 L/sec to 0.015 L/sec during the operation duration. The maintenance timing was determined based on the stormwater runoff requirements with these changes in water quality and infiltration rate. The methodologies in this study could be used to estimate the timing of maintenance of other low impact development techniques.

식생체류지의 원지반 침투율이 유출량 저감효과에 미치는 영향모의 (The Effects of Infiltration Rate of Foundation Ground Under the Bioretention on the Runoff Reduction Efficiency)

  • 전지홍;정광욱
    • 한국물환경학회지
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    • 제35권1호
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    • pp.72-77
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    • 2019
  • Soil type in LID infiltration practices plays a major role in runoff reduction efficacy. In this study, the effects of infiltration rate of foundation ground under bioretention on annual runoff reduction rate was evaluated using LIDMOD3 which is a simple excel based model for evaluating LID practices. A bioretention area of about 3.2 % was required to capture surface runoff from an impervious area for a 25.4 mm rainfall event. The relative error of runoff from bioretention using LIDMOD3 is 10 % less than that of SWMM5.1 for a total rainfall event of 257.1 mm during the period of Aug. 1 ~ 18, 2017, hence, the applicability of LIDMOD3 was confirmed. Annual runoff reduction rates for the period 2008 ~ 2017 were evaluated for various infiltration rates of foundation ground under the bioretention which ranged from 0.001 to 0.600 m/day and were converted to annual runoff reduction for hydrologic soil group. The runoff reduction rates within hydrologic soil group C and D were steeply increased through increased infiltration rate but not steep within hydrologic A and B with reduction rates ranging from 53 ~ 68 %. The estimated time required to completely empty a bioretention which has a storage depth of 0.632 m is 3.5 ~ 6.9 days and we could assume that the annual average of antecedent rainfall is longer than 3.5 ~ 6.9 days. Therefore, we recommended B type as the minimum hydrologic soil group installed LID infiltration practices for high runoff reduction rate.

Fluid Infiltration Effect on Breakdown Pressure in Laboratory Hydraulic Fracturing Tests

  • Diaz, Melvin B.;Jung, Sung Gyu;Lee, Gyung Won;Kim, Kwang Yeom
    • 지질공학
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    • 제32권3호
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    • pp.389-399
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    • 2022
  • Observations on the influence of the fluid infiltration on the breakdown pressure during laboratory hydraulic fracturing tests, along with an analysis of the applicability of the breakdown pressure prediction for cylindrical samples using Quasi-static and Linear Elastic Fracture Mechanics approaches were carried out. These approaches consider fluid infiltration through the so-called radius of fluid infiltration or crack radius, a parameter that is not a material property. Two sets of tests under pressurization rate controlled and injection rate controlled tests were used to evaluate the applicability of these methods. The difficulty of the estimation of the radius of fluid infiltration was solved by back calculating this parameter from an initial set of tests, and later, the obtained relationships were used to predict breakdown pressures for a second set of tests. The results showed better predictions for the injection rate than for the pressurization rate tests, with average errors of 3.4% and 18.6%, respectively. The larger error was attributed to differences in the testing conditions for the pressurization rate tests, which had different applied vertical pressures. On the other hand, for the tests carried out under constant injection rate, the Linear Elastic Fracture Mechanics solution reported lower errors compared to the Quasi-static solution, with values of 3% and 3.8%, respectively. Moreover, a sensitivity analysis illustrated the influence of the radius of fluid penetration or crack radius and the tensile strength on the breakdown pressure, suggesting a need for a careful estimation of these values. Then, the calculation of breakdown pressure considering fluid infiltration in cylindrical samples under triaxial conditions is possible, although larger data sets are desirable to validate and derive better relations.

강우시 사면안전율 변화를 이용한 열차운전규제기준 개발 (The Development of Rail-Transport Operation Control using the Variation of Slope Stability under Rainfall)

  • 김현기;이진욱;신민호
    • 한국철도학회:학술대회논문집
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    • 한국철도학회 2003년도 추계학술대회 논문집(II)
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    • pp.397-402
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    • 2003
  • Infiltration of rainfall causes railway embankment to be unstable and may result in failure. Basic relationship between the rainfall and stability of railway embankment are defined to analyze the stability of embankment by rainfall. An experimental study for defining of infiltration rate of rainfall into slope is conducted in the lab. The results of Rainfall infiltration show that rainfall infiltration is not equal to infiltration as like reservoir because rate of rainfall infiltration is controlled by slope angle. Based on these results, boundary condition of rainfall is altered and various numerical analysis are performed. The variation of shear strength, the degree of saturation and pore-water pressure for railway slope during rainfall can be predicted and the safety factor of railway slope can be expressed as the function of rainfall amount, namely rainfall index. Therefore, it is judged that this rainfall index can be a good tool for the rail-transport operation control.

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비정상강우를 적용한 자연사면에서의 포화깊이 산정 및 사면안정성 평가 (Saturation Depth and Slope Stability considering Unsteady Rainfall in Natural Slope)

  • 김상훈;김성필;손영환;허준;장병욱
    • 한국농공학회논문집
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    • 제49권1호
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    • pp.57-65
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    • 2007
  • In Korea, most landslides occurr during the rainy season and have shallow failure planes parallel to the slope. For these types of rainfall-induced failures, the most important factor triggering slope unstability is decrease in the matric suction of unsaturated soils with increasing saturation depth by rainfall infiltration. For this reason, estimation of cumulative infiltration has a significance. In this study, infiltration rate and cumulative infiltration are estimated by using both Mein & Larson model based on Green-Ampt infiltration model and using modified Mein & Larson model to which unsteady rainfall is applied. According to the results, the modified model is more reasonable than Mein & Larson method itself in estimation of infiltration rate and saturation depth because of considering real pending condition.