• Economic and Environmental Geology
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• v.52 no.1
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• pp.37-48
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• 2019

In geological $CO_2$ sequestration, the behavior of $CO_2$ within a reservoir can be characterized as two-phase flow in a porous media. For two phase flow, these processes include drainage, when a wetting fluid is displaced by a non-wetting fluid and imbibition, when a non-wetting fluid is displaced by a wetting fluid. In $CO_2$ sequestration, an understanding of drainage and imbibition processes and the resulting NW phase residual trapping are of critical importance to evaluate the impacts and efficiencies of these displacement process. This study aimed to observe migration and residual trapping of immiscible fluids in porous media via cyclic injection of drainage-imbibition. For this purpose, cyclic injection experiments by applying n-hexane and deionized water used as proxy fluid of $scCO_2$ and pore water were conducted in the two dimensional micromodel. The images from experiment were used to estimate the saturation and observed distribution of n-hexane and deionized water over the course drainage-imbibition cycles. Experimental results showed that n-hexane and deionized water are trapped by wettability, capillarity, dead end zone, entrapment and bypassing during $1^{st}$ drainage-imbibition cycle. Also, as cyclic injection proceeds, the flow path is simplified around the main flow path in the micromodel, and the saturation of injection fluid converges to remain constant. Experimental observation results can be used to predict the migration and distribution of $CO_2$ and pore water by reservoir environmental conditions and drainage-imbibition cycles.

• Journal of Korean Society of Environmental Engineers
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• v.28 no.3
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• pp.337-344
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• 2006

Characteristics of flocculent aggregates have great effects on membrane fouling. Floc from kaolin particles gave higher permeate throughputs than floc from natural particles at the same conditions. Therefore, the objectives of this study are to thoroughly analyze characteristics of flocculated aggregates and to investigate effects of flocculated aggregates on membrane fouling. Image analysis, specific rake resistance and cake compressibility were used for characterization of flocs. Different flocculent aggregates formed with natural and kaolin particles were employed in this study. The fractal dimensions from the image analysis were $D_2=1.79{\pm}0.07$ for floc from natural particles and $D_2=1.84{\pm}0.06$ for floc from kaolin particles. The lower fractal dimension($D_2$) of floc from natural particles indicated that the aggregates were more porous and less compact than floe from kaolin particles. In addition, both the specific cake resistances and compressible degrees of flocs from natural particles showed greater values than those of flocs from kaolin particles. The results implied that the porous and loose flocs from natural particles were more easily compressed on membrane surface than the dense and compact flocs from kaolin particles. The compressed flocs yielded the great hydraulic resistances by hindering the water flow through the cake layer.

• Economic and Environmental Geology
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• v.50 no.2
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• pp.159-170
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• 2017

The temporal and spatial temperature distribution of the heat storage mortar made of porous feldspar was measured and the thermal properties and electricity consumption were analyzed. For the experiment, two real size chambers (control model and test model) with hot water pipes were constructed. Two large scale models with hot water pipes were constructed. The surface temperature change of the heat storage layer was remotely monitored during the heating and cooling process using infrared thermal imaging camera and temperature sensor. The temperature increased from $20^{\circ}C$ to $30^{\circ}C$ under the heating condition. The temperature of the heat storage layer of the test model was $2.0-3.5^{\circ}C$ higher than the control model and the time to reach the target temperature was shortened. As the distance from the hot water pipe increased, the temperature gap increased from $4.0^{\circ}C$ to $4.8^{\circ}C$. The power consumed until the surface temperature of the heat storage layer reached $30^{\circ}C$ was 2.2 times that of the control model. From the heating experiment, the stepwise temperature and electricity consumption were calculated, and the electricity consumption of the heat storage layer of the test model was reduced by 66%. In the cooling experiment, the surface temperature of the heat storage layer of the test model was maintained $2^{\circ}C$ higher than that of the control model. The heat storage effect of the porous feldspar mortar was confirmed by the temperature experiment. With considering that the time to reheat the heat storage layer is extended, the energy efficiency will be increased.

• Proceedings of the Korean Vacuum Society Conference
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• 2016.02a
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• pp.305.1-305.1
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• 2016

페로브스카이트 태양전지는 차세대 태양전지로써 몇 년 사이에 매우 큰 폭으로 효율이 증가하고 있으며 활발한 연구가 진행되고 있다. 페로브스카이트의 태양전지의 구조는 전자전도체, 페로브스카이트 광흡수체, 정공전도체, 전극으로 구성된다. 전자전도체는 전자 포집성이 우수한 다공성 TiO2 층과 TiO2 박막 층으로 구성된다. 균일한 박막 TiO2를 형성하는 것은 페로브스카이트 태양전지의 개방전압 특성에 기여한다. TiO2 박막을 제조하는 방법으로써 용액을 사용한 스핀 코팅 법은 간편하게 제조가 가능하나, 일정한 두께의 박막을 형성하지 못하고 균일하지 못하는 단점을 가진다. 본 연구에서는 RF 마그네트론 스퍼터를 이용하여 보다 균일한 TiO2 박막을 제조하였다. X-Ray Diffraction (XRD), Scanning Electron Microscope (SEM), Light IV, Quantum Efficiency (QE)로 분석하였다. 이를 통하여 제조방법 차이에 따른 페로브스카이트 태양전지의 영향을 분석하였다.

• Journal of the Korean Geotechnical Society
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• v.31 no.7
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• pp.41-52
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• 2015

Volcanic rocks in Jeju Island have vesicular structure caused by various environmental factors, and indicate the differences in geological and mechanical characteristics from region to region. In addition, the bedrock of Jeju Island shows stratified structure, that is, soft layers composed of pyroclastic rocks or cavities are irregularly developed between the basalt layers by several times of volcanic activity. In this study, various physical tests and unconfined compressive strength test were conducted for intact rocks sampled in northwestern onshore and offshore of Jeju Island. The results obtained in the tests were compared with the physical and mechanical characteristics of intact rocks sampled in southeastern offshore of Jeju Island. As a results, it was confirmed that the physical and mechanical characteristics of basalts sampled in northwestern Jeju Island were similar to those of basalts sampled in southeastern offshore of Jeju Island. In addition, it was possible to estimate approximate design parameters from the correlation of mechanical properties with physical properties of basalts in Jeju Island.

• Proceedings of the Korean Society for Agricultural Machinery Conference
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• 2017.04a
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• pp.115-115
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• 2017

2013년 국내 시설(비닐, 유리 온실)에서 재배되는 토마토, 풋고추, 파프리카의 생산량은 총 632,315 톤으로 잎, 줄기 등 발생되는 부산물은 수확량의 약 30%에 해당되는 189,695 톤으로 추정되며 대부분 노지에 방치 유실되거나, 소각 처리된다. 본 연구에서는 이처럼 단순 폐기되는 농업폐기물을 재활용한 고형연료 제조에 필요한 건조장치를 개발하고 실험을 통해 그 성능을 확인하고자 하였다. 연구를 위해 건조용량 100 kg/hr인 실험실용 건조기를 제작하였다. 경상남도 진주시 농업기술원 온실에서 재배되는 파프리카, 토마토, 딸기, 가지, 고추 등의 부산물을 실험원료로 사용하였다. 원료성상, 원료이송방식, 송풍량, 건조온도, 건조시간에 따른 부산물 건조특성을 파악하였다. 원료를 비교적 짧게 절단하고 열풍이 배출되는 다공판위를 견인형 컨베어로 이송시키는 형태의 경우 건조실험 결과 세절된 원료에서 추출된 내부 수분이 외부로 유출되어 원료들 사이의 공극을 채워 건조공기가 원료층을 통과하지 못하게 하고, 특히 $100^{\circ}C$ 이상 고온에 노출되는 경우 원료표면에 잔류하는 유출 수분이 건조되면서 막을 형성하여 내부 원료들은 전혀 건조가 되지 못하는 현상이 관측되었다. 이러한 원료내부의 공극형성 불량으로 국부적으로 공기가 통과되는 부분만 집중적으로 급격한 건조가 진행되고 공급된 건조공기 대부분이 이 부분으로 유출되어 효과적인 건조가 전혀 진행되지 못하였다. 피건조물 사이의 공극형성을 위해 원료를 절단하지 않고 수행한 건조실험 결과 건조 풍량 및 온도에 따라 건조속도 및 처리용량이 다르게 나타나는 것을 알 수 있다. 특히 송풍량과 압력을 증가 시킨 건조 결과로 건조 상하층 간 불균일 건조 해소 및 건조속도, 건조능력에서 연구목표 치를 상회하는 결과를 보여준다. 특히 건조공기온도 $150^{\circ}C$ 이하에서 풍량을 증가시켜서 원하는 건조작업 수행이 가능함을 확인할 수 있었다.

• Transactions of the Korean Society of Mechanical Engineers B
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• v.36 no.11
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• pp.1055-1063
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• 2012

Fluctuating wall pressures were measured using an array of 16 piezoelectric transducers beneath a turbulent boundary layer. The coating used in this experiment was an open-cell, urethane-type foam with a porosity of approximately 50 ppi. The ultimate objective of the coating is to provide a mechanical filter to reduce the wall pressure fluctuations. The boundary layer on the flat plate was measured by using a hot wire probe, and the CPM method was used to determine the skin friction coefficient. The wall pressure autospectra and streamwise wavenumber-frequency spectra were compared to assess the attenuation of the wall pressure field by the coating. The coating is shown to attenuate the convective wall pressure energy. However, the relatively rough surface of the coating in this investigation resulted in a higher mean wall shear stress, thicker boundary layer, and higher low-frequency wall pressure spectral levels compared to a smooth wall.

• Korean Chemical Engineering Research
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• v.46 no.3
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• pp.639-645
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• 2008

The objectives of this research are to (1) observe changes in particle size distribution due to formation of microflocs during coagulation process (2) identify the membrane fouling potential on cross flow system (3) investigate the mechanism of membrane fouling. The rate of flux decline for the hydrophobic membrane was significantly greater than for the hydrophilic membrane, regardless of pretreatment conditions. The pretreatment of the raw water significantly reduced the fouling of the UF membrane. Also, the rate of flux decline for the hydrophobic membrane was considerably greater than for the hydrophilic membrane. Applying coagulation process before membrane filtration showed not only reducing membrane fouling, but also improving the removal of dissolved organic materials that might otherwise not be removed by the membrane. That is, during the mixing period, substantial changes in particle size distribution occurred under rapid and slow mixing condition due to the simultaneous formation of microflocs and NOM precipitates. Therefore, combined pretreatment using coagulation not only improved dissolved organics removal efficiency but also flux recovery efficiency.

• Applied Chemistry for Engineering
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• v.20 no.2
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• pp.191-194
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• 2009

Porous alumina prepared by anodization has been widely studied since it shows very regular nanostructures at inexpensive prices. In this article, porous alumina is obtained by anodization of aluminum in the oxalic acid. After the first formed oxide is selectively removed from the aluminum substrate, the hexagonal nanostructures on the fresh aluminum are converted to nanodots by the second anodization in boric acid. Nanodots are arrayed in the convex of the hexagonal nanostructures. The optimization condition for the fabrication of nanodots with a height of 20 nm is investigated in detail. Subsequently, a gold film is deposited on the nanodots, resulting in the formation of gold nanodots arrays which are probably interesting substrate for biosensor applications.

• Applied Chemistry for Engineering
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• v.17 no.3
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• pp.310-316
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• 2006

In this study, activated carbon in a powder form was used to remove dissolved ammonia which causes a fouling smell in water. Since the adsorption capacity of common powder activated carbon is not high enough, we prepared powder activated carbon deposited on an acid solution to enhance the adsorption capacity. The acid-impregnated activated carbon was applied on the surface of porous fibril support ($10{\sim}50{\mu}m$) by which adsorption and separation processes take place simultaneously by varying effective pressure. As the result, the ammonia removal efficiency is above 60% in the mixing process which is 10~15% higher than general powder activated carbon. From the result of an experiment on the pure permeable test of a dynamic membrane, its transmittance is 400~700 LMH (liter per hour), indicating that the prepared membrane works as a microfiltration membrane. Therefore, it is expected that the membrane prepared in this way would improve the efficiency of water treatment than conventional membranes.