• Proceedings of the Korea Water Resources Association Conference
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• 2021.06a
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• pp.271-271
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• 2021

샌드댐은 하천 또는 계곡에 보를 설치하여 저류공간을 확보하고 여기에 공극이 큰 모래를 인위적으로 채우거나 상류에서 공급된 토사로 자연적으로 채워지게 한 취수구조물로서 아프리카 등 건조지역에서 물공급 시설로 활용되고 있다. 국내에서는 아직까지 이와 같은 샌드댐 축조 사례는 없지만, 토사유출저감을 위해 설치한 사방댐을 개조하여 취수원으로도 활용하거나 산간 계곡 인근 지중에 차수벽을 설치하여 모래저류조 형태의 물공급 시설을 운영하고 있는 곳이 일부 존재한다. 본 연구에서는 춘천시 북산면 물로리에 실제로 위치한 지중저류조를 대상으로 물수요량을 만족시키는 지를 지하수 유동모델링을 통해 평가하였고, 증가하는 물수요와 가뭄시 물공급 능력 증대를 위한 저류조의 규모 확대 등 구조적 개선 방안을 제시하였다.

• Journal of the Korea Concrete Institute
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• v.18 no.2 s.92
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• pp.189-198
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• 2006

The composition of most engineering materials is heterogeneous at some degree. It is simply a question of scale at which the level of heterogeneity becomes apparent. In the case of cementitious granular materials such as concrete the heterogeneity appears at the mesoscale where it is comprised of aggregate particles, a hardened cement paste and voids. Since it is difficult to consider each separate particle in the topological description explicitly, numerical models of the meso-structure are normally confined to two-phase matrix particle composites in which only the larger inclusions are accounted for. 2-D and 3-D concrete blocks(Representative Volume Element, RVE) are used to simulating heterogeneous concrete meso-structures in the form of aggregates in the hardened mortar with nearly zero-thickness linear or planar interfaces. The numerical sensitivity of these meso-structures are Investigated with respect to the different morphologies of heterogeneity and the different level of coupling constant among fracture mode I, II and III. In addition, a numerically homogenized concrete block in 3-D using Hashin-Shtrikman variational bounds provides an evidence of the effective cracking paths which are quite different with those of heterogenous concrete block. However, their average force-displacement relationship show a pretty close match each other.

• The Journal of Engineering Geology
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• v.28 no.1
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• pp.35-45
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• 2018

Imaging technologies are applied at various geological scales including pore scale, core scale and intermediate scale in order to characterize pore space of rocks as well as to map the fluid distribution in porous media. This technical report presents experimental results using core-flooding apparatus suited with imaging technology. Three different core samples, that are homogeneous, fractured and heterogeneous cores, were used to assess the two-phase fluid migration behavior as $CO_2$ displaces resident brine. We show that imaging technology can be effective in characterizing salt-precipitation, capillary pressure and spatio-temporal variation of trapping mechanisms.

• Journal of the Korea Organic Resources Recycling Association
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• v.2 no.1
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• pp.19-29
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• 1994

The purpose of this study was to investigate the feasibility of composting of vegetable wastes containing high moisture. The parameters investigated were the effect of energy source addition, difference in bulking agent and recirculation of leachate produced during composting. Laboratory scale composting reactors were used in this study. Chinese cabbages were used as a vegetable waste. Dog food was added to the vegetable waste as a energy source. Wood chips and leaves of platan were used as bulking agents. There may be an appropriate amount of energy source to be added for composting high moisture content vegetable waste. In this study, the appropriate amount of energy source was 20% of the vegetable waste by weight basis. Recirculation of total amount of leachate produced each day on the same day may not be an appropriate approach due to the significant heat-quenching effect. When the total amount of leachate produced was equally devided and recirculated everyday through the whole composting period, the heat-quenching effect was comparatively less significant. There were no notable differences in the temperature profile and the $CO_2$ evoluation rate when leaves were used instead of wood chips as bulking agents. Considering waste recycling, it is desirable to use leaf waste as bulking agents if available, because the leaves are also wastes to be disposed of.

• Water for future
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• v.14 no.4
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• pp.73-81
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• 1981

More than 650 numbers of water well ranging in depth from 100M to 200M were installed in South Korean Penninsula during the last decade for the purpose of industrial use and municipal water supply. Those data were compiled and synthesized by writer to determine their hydrogeologic occurences in accordance with their geologic and areal characteristics. Rocks yielding the deep seated ground water beared in the geologic primary and secondary porosities are classified into 6 groups according to their geologic, hydrogeologic, and topographic characteristics, that are: volcanic, sedimentary, meta-sediment and/or schist, andesitic, gneissic, and granitic rocks. The order of ground water productivity of the groups is as written above. Even granitic rocks including porphyries, granite, and intermediate and basic plutonic rocks is considered to be the most poorest ground water yielding group among 6, it's average yield form a single well with average drilling depth of 116M is about 225 cubic meters per day if it's drilling site is properly located. Generally speaking, seizable geologic structures such as fractured, sheared, and faulted zone at the flat surface and valley center yield almost 310% more of deep seated bet rock ground water in comparision with minor structures of joints, bedding planes, and so on that are occured at high land. 50 numbers of water well drilled at crystalline rocks were specially checked and measured it's ground water yie 1ds at each drilled depth to determine each interval's productivity while hammer drilling was going on. The results indicate that the specific capacity and yield of each water well at a depth below 70M to 80M was almost neglegible. It means that optimum well depth of crystalline rocks, except the area having seizable geologic structures, shall be not deeper than 80M.

• Journal of the Korea institute for structural maintenance and inspection
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• v.20 no.2
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• pp.122-130
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• 2016

The past few decades of industrialization enabled human-centered stream developments, which in turn resulted in constructing straight or covered streams, which are used only for sewage disposal purpose. However, these types of streams have become the cause of flood damages such as localized heavy rain. In response, various construction methods have been implemented to prevent stream and embankment damages. However, regulations regarding these measures only lay out minimum standards such as the height of slopes and the minimum angle of inclination. Moreover, examination of tractive force, the most crucial factor in preventing flood damage, is nonexistent. Therefore, this study evaluates various tractive forces by implementing a porous concrete tetrapod at a full scale artificial stream for experiment, controlling the rate of inflow, and measuring the velocity and depth of the stream under different experiment conditions. The test results of the compressive strength, and porosity and density of rock of the porous concrete tetrapod was between 16.6 and 23.2 MPa, and the actual measurement of air void was 10.1%, thus satisfying domestic standard. The result of tractive force experiment showed a limiting tractive force of $47.202N/m^2$, not satisfying the tractive force scope of $67N/m^2$ the stream design working expertise proposes. However, there was neither damage nor loss of blocks and hardpan. Based on previous researches, it can be expected that there will be resistance against a stronger tractive force. Therefore, it is necessary to conduct another experiment on practical limiting tractive force by adjusting some experimental conditions.

• The Journal of Engineering Geology
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• v.23 no.4
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• pp.447-455
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• 2013

A micro-mechanical pipe network model with the shape of a cube was developed to simulate the behavior of fluid flow through a porous medium. The fluid-flow mechanism through the cubic pipe network channels was defined mainly by introducing a well-known percolation theory (Stauffer and Aharony, 1994). A non-uniform flow generally appeared because all of the pipe diameters were allocated individually in a stochastic manner based on a given pore-size distribution curve and porosity. Fluid was supplied to one surface of the pipe network under a certain driving pressure head and allowed to percolate through the pipe networks. A percolation condition defined by capillary pressure with respect to each pipe diameter was applied first to all of the network pipes. That is, depending on pipe diameter, the fluid may or may not penetrate a specific pipe. Once pore pressures had reached equilibrium and steady-state flow had been attained throughout the network system, Darcy's law was used to compute the resultant permeability. This study investigated the sensitivity of network size to permeability calculations in order to find out the optimum network size which would be used for all the network modelling in this study. Mean pore size and pore size distribution curve obtained from field are used to define each of pipe sizes as being representative of actual oil sites. The calculated and measured permeabilities are in good agreement.

• Proceedings of the KIEE Conference
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• 2011.07a
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• pp.1260-1261
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• 2011

LSM기반의 초고속자기부상열차는 고전압, 대전류의 추진 전력을 공급할 수 있도록 설계되어진 특수한 형태의 추진 인버터와 주행시 부상공극변동에 대해서도 강인한 부상특성을 제공할 수 있도록 개발된 부상제어시스템이 필요하다. 본 논문은 550km/h급 초고속자기부상 시스템에 대한 설계기술의 확보를 위한 것으로, 실 규모시스템 구현에 앞서 축소모형으로 각각의 시스템 구성품을 개발하되 실규도 시스템에 적용하는 방식의 2스텝의 추진용 인버터시스템과 전류원 초퍼기반의 부상시스템 토플로지를 구성하고 그 제어특성의 시험 및 평가를 위해 시뮬레이션을 수행하여 그 가용성을 확인하였다.

• Proceedings of the Korea Water Resources Association Conference
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• 2019.05a
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• pp.219-219
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• 2019

모래저장형댐(sand dam)은 계곡이나 하천을 가로질러 보를 설치하고 확보된 공간을 모래와 같은 공극이 큰 투수성 재료로 채운 후 그 채움재 안에 물을 저장하는 구조물로서 증발량이 큰 건조지역에서 수자원 확보 수단으로 널리 이용되고 있다(Hanson and Nilsson, 1986). 국내에서는 차수 및 저류를 위한 제체를 지하 땅속에 설치한 지하수댐을 운영하거나 사방댐을 소규모 수자원공급시설로 개조하여 활용한 일부 사례가 있으나, 전형적인 모래저장형댐의 설계, 시공, 운영 사례가 전무하다. 본 연구에서는 A지역을 대상으로 모래저장형댐의 저류용량을 설계하고 수자원 확보효과를 분석하기 위해서 유역수문모형 SWAT으로 모의한 장기유출량과 방류구, 위어 등을 고려한 저수지 유출추적을 수행하였다. 모래저장형댐의 형태, 규모, 취수량, 지형조건, 수문학적 조건 등에 따른 댐내 수위, 저류량, 방류량 등의 변화를 분석하여 설치 부지에 대한 적정 설계 인자를 도출하였다. 또한 평시 및 가뭄시 물공급 효과와 유황개선 효과를 정량적으로 분석, 제시하였다.

• The Journal of Engineering Geology
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• v.28 no.2
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• pp.247-258
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• 2018

In the demonstration-scale offshore $CO_2$ storage project, the monitoring team studies geophysical and geochemical monitoring of $CO_2$ injections in the Yeongil Bay, in which a $CO_2$ test injection (about 100t) was performed in January, 2017 and further injections in larger scales are planned for 2018 and 2019. In this study, the development status of the Korea-type Hydro-Geophone OBS (Ocean Bottom Sensor) and the geochemical baseline survey (focused on some anions of sediment pore water) are suggested as the preliminary results of the pre-injection test.