• Proceedings of the Materials Research Society of Korea Conference
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• 2009.11a
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• pp.49.1-49.1
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• 2009

산업화 이후, 석탄 석유를 중심으로 한 화석연료가 이산화탄소를대량으로 배출하며 지구 온난화를 야기함에 따라, 석유를 대체할 새로운 에너지원에 대한 관심이 높아지고 있다. 많은 대체에너지 가운데, 청정하고 무한 재생 가능한대체에너지를 이야기할 때, 가장 큰 기대를 받고 있는 것은 태양에너지이며, 이에 보조를 맞춰 태양광 발전에 대한 연구개발이 국내외적으로 활발히 진행되고 있는 실정이다. 태양 전지는 빛 에너지를 직접 전기 에너지로 바꿔주는 소자로, 셀의효율을 높이기 위해서는 최대한 많은 빛을 흡수시킬 수 있는 것이 중요하다. 빛의 반사를 줄이는 방법에는 Texturing 과 Antireflecting coating 이있다. Antireflecting coating은 반도체와 공기의 중간 굴절율을 갖는 박막을 증착하여 측면 반사를 감소시킴으로서 빛의 손실을 감소시키는 역활을 한다. 반사 방지막으로 쓰이는 SiNx는 SiOx의 대체 물질로 굴절률이 약 1.5로서 Si에 쉽게 형성시킬 수 있고, texturing된 Si 표면에 적합하며 반사율을 10 %에서 2 %로 줄일 수 있다. 나아가 고성능의 반사방지막은 박막의 균일도확보 및 passivation 공정이 필수적이라 판단된다. 따라서 본 연구에서는 PECVD 방법으로 SiH4와 NH3 gas 의 비율을 변화시켜 증착한 SiNx 박막의 결정학적 특성을 X-ray Diffraction 분석과 TEM (TransmissionElectron Microsopy) 을 통해 관찰하였으며, XPS (X-rayphotoelectron spectroscopy) 를 통해 화학적결합을 확인하였고, 이를 FT-IR (Fourier Transform-Infrared spectroscopy)를 통해 관찰한 결과와 연관시켜분석하였다. 굴절율의 경우 Ellipsometry를 이용하여측정하였으며 위의 측정을 통하여 SiNx박막의 반사 방지막으로써의 가능성을 확인하였다.

• Clean Technology
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• v.28 no.1
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• pp.24-31
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• 2022

Petroleum-based plastics are used for various purposes and pose a significant threat to the earth's environment and ecosystem. Many efforts have been taken globally in different areas to find alternatives. As part of these efforts, this study manufactured alginate-based polyvinyl alcohol (PVA) blended films by casting from an aqueous solution prepared by mixing 10 wt% petroleum-based PVA with biodegradable, marine biomass-derived alginate. Glutaraldehyde was used as a cross-linking agent, and cardanol, an alkyl phenol-based bio-oil extracted from cashew nut shell, was added in the range of 0.1 to 2.0 wt% to grant antibacterial activity to the films. FTIR and TGA were performed to characterize the manufactured blended films, and the tensile strength, degree of swelling, and antibacterial activity were measured. Results obtained from the FTIR, TGA, and tensile strength test showed that alginate, the main component, was well distributed in the PVA by forming a matrix phase. The brittleness of alginate, a known weakness as a single component, and the low thermal durability of PVA were improved by cross-linking and hydrogen bonding of the functional groups between alginate and PVA. Addition of cardanol to the alginate-based PVA blend significantly improved the antibacterial activity against S. aureus and E. coli. The antibacterial performance was excellent with a death rate of 98% or higher for S. aureus and about 70% for E. coli at a contact time of 60 minutes. The optimal antibacterial activity of the alginate-PVA blended films was found with a cardanol content range between 0.1 to 0.5 wt%. These results show that cardanol-containing alginate-PVA blended films are suitable for use as various antibacterial materials, including as food packaging.

• 한국신재생에너지학회:학술대회논문집
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• 2010.11a
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• pp.114.2-114.2
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• 2010

마이크로 반응기술은 작은 반응기 부피, 높은 열전달, 넓은 반응 면적/부피 및 정확한 반응시간 조절이 가능하기 때문에 화학공정의 고집적화, 반응 선택도의 향상 및 안전도 향상을 꾀할 수 있는 장점이 있다. 이러한 마이크로 반응 기술을 중소형 천연가스 및 국내에서 소규모로 국지적으로 발생하는 메탄의 활용 방안으로서 개발함은 청정 합성유를 제조함으로서 석유 자원의 고갈과 고유가에 대비하여 에너지 자원의 다변화 및 자립을 확보 할 수 있다. 본 연구에서는 마이크로 반응기술을 적용한 미세 유로 반응기(Micro Channel Reactor)를 사용하여 메탄 스팀 개질 반응 특성을 연구하였다. 미세유로 반응기는 내부 홀이 존재하는 plate를 적층함으로 반응기내에 반응가스가 이동할 수 있는 미세유로가 존재하게 하였다. 이러한 미세유로는 반응기의 크기가 작음에도 반응기내에서 반응가스가 충분히 반응할 수 있는 시간과 높은 열전달 효율을 가질 수 있게 한다. 메탄 스팀 개질 반응에 사용된 촉매는 Ni 촉매를 사용하였고, 반응에 필요한 열원으로는 수소 연소에서 발생한 열을 사용하여 반응을 유도하였다. 본 반응기는 외부의 열원을 사용하지 않고, 반응기 내부의 수소 연소에서 발생한 열을 사용함으로 적은 발생 열만으로 메탄 스팀 개질 반응에 필요한 에너지를 얻을 수 있고, 열의 손실이 적다. 또한 메탄 스팀 개질 반응으로 발생한 일부의 수소를 열원으로 이용하여 에너지 사용면에서도 효율적인 반응 공정이다.

• Clean Technology
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• v.26 no.3
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• pp.204-210
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• 2020

In this study, the ignition characteristics of bio jet fuel (Bio-7629, Bio-5172) produced by F-T process and petroleum-based jet fuel (Jet A-1) were compared and analyzed. The ignition delay time of each fuel was measured by means of a combustion research unit (CRU) and the results were explained through an analysis of the properties and composition of the fuel. The ignition delay time of Bio-5172 was the shortest while that of Jet A-1 was the longest because Jet A-1 had the highest surface tension and Bio-5172 had the lowest viscosity in terms of fuel properties that could affect the physical ignition delay time. As a result of the analysis of the constituents' type and ratio, 22.8% aromatic compounds in Jet A-1 could generate benzyl radical, which had low reactivity during the oxidation reaction, affecting the increase of ignition delay time. Both Bio-7629 and Bio-5172 were composed of paraffin only, with the ratio of n-/iso- being 0.06 and 0.80, respectively. The lower the degree of branching is in paraffin, the faster the isomerization of peroxy radical is produced during oxidation, which could determine the propagation rate of the ignition. Therefore, Bio-5172, composed of more n-paraffin, possesses shorter ignition delay time compared with Bio-7629.

• Proceedings of the Materials Research Society of Korea Conference
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• 2011.05a
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• pp.62.2-62.2
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• 2011

산업화 이후, 석탄 석유를 중심으로 한 화석연료가 이산화탄소를 대량으로 배출하며 지구 온난화를 야기함에 따라, 기존의 화석연료를 대체할 청정하고 무한 재생 가능한 대체에너지로 가장 큰 기대를 받고 있는 것은 태양에너지이며, 이에 보조를 맞춰 태양광발전에 대한 연구개발이 국내외적으로 활발히 진행되고 있는 실정이다. 태양 전지는 빛 에너지를 직접 전기 에너지로 바꿔주는 소자로, 셀의 효율을 높이기 위해서는 최대한 많은 빛을 흡수시킬 수 있는 것이 중요하다. 빛의 반사를 줄이는 방법에는 texturing과 antireflecting coating이 있다. Antireflecting coating은 반도체와 공기의 중간 굴절율을 갖는 박막을 증착하여 측면 반사를 감소시킴으로서 빛의 손실을 감소시키는 역할을 한다. 과거에 반사방지막으로 가장 많이 사용되었던 물질은 SiO로써 굴절률은 1.8~1.9로서 최소의 반사율은 1% 미만이지만, 가시광선영역에서의 흡수에 의한 손실이 생기므로, SiNx가 대체 물질로 제안되었다. SiNx의 경우 굴절률이 약 1.5로서 Si에 쉽게 형성시킬 수 있고, texturing된 Si 표면에 적합하며 반사율을 10%에서 2%로 줄일 수 있는 장점을 가지고 있다. 따라서 본 연구에서는 high power, high frequency PECVD 방법으로 $SiH_4$와 $NH_3$ gas의 비율, $N_2$ carrier gas 등 공정 변수를 변화시켜 증착한 SiNx 박막의 결정학적 특성을 X-ray diffraction 분석과 XPS (X-ray photoelectron spectroscopy)를 통해 화학적 결합을 확인하였고, 이를 FT-IR (Fourier Transform-Infrared spectroscopy)를 통해 관찰한 결과와 연관시켜 분석하였다. 굴절율의 경우 ellipsometer를 이용하여 측정하였으며 위의 측정을 통하여 SiNx박막의 반사 방지막으로써의 가능성을 확인 하였다.

• Korean Chemical Engineering Research
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• v.46 no.3
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• pp.443-450
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• 2008

Efficient use of low rank coals (LRC) have been investigated as a method to cope with recent high oil price. Among the coals used in industry, lignite and sub-bituminous coals are belong to the LRC, and have abundant deposit and are distributed worldwide, but high moisture contents and self ignition properties inhibits their utilization. In this paper, chemical coal cleaning to produce ash-free coal from LRC has been investigated. Two technologies, that is, UCC(Ultra Clean Coal) process removing ash from coal and Hyper Coal process extracting combustibles from coal were compared with. UCC process has merits of simple and reliable when it compared with Hyper Coal process, but the remaining ash contents werehigher than Hyper Coal. Hyper Coal has ash contents under the 200ppm when raw coal is treated with appropriate solvent and ion exchange materials to remove alkali materials in extracted solution. The ash-free coal which is similar grade with oil can be used as alternate oil in the industry, and also used as a high grade fuel for IGCC, IGFC and other advanced combustion technology.

• Korean Chemical Engineering Research
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• v.56 no.3
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• pp.421-429
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• 2018

We performed process and CFD simulations of a 100 kW fuel cell system. By process simulation, we derived the input flow rate of each unit process and the recycle diesel flow rate. Through CFD simulation considering the recycle diesel flow, more efficient operational condition was found. Using 6 desulfurize reactors, a TSA process for a 100 kW fuel cell system was successfully constructed. Heat interference between reactors was found to be negligible. These results will contribute to increasing the efficiency of fuel cell system and the developed desulfurizing module design will contribute to the clean petrochemical technology as well as fuel cell systems.

• Membrane Journal
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• v.32 no.4
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• pp.218-226
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• 2022

Hydrogen, a carrier of large-capacity chemical and clean energy, is an important industrial gas widely used in the petrochemical industry and fuel cells. In particular, hydrogen is mainly produced from fossil fuels through steam reforming and gasification, and carbon dioxide is generated as a by-product. Therefore, in order to obtain high-purity hydrogen, carbon dioxide should be removed. This review focused on free-standing polymeric membranes and mixed-matrix membranes (MMMs) that separate hydrogen from carbon dioxide reported in units of Barrer [1 Barrer = 10^-10 cm³ (STP) × cm / (cm² × s × cmHg)]. By analyzing various recently reported papers, the structure, morphology, interaction, and preparation method of the membranes are discussed, and the structure-property relationship is understood to help find better membrane materials in the future. Robeson's upper bound limits for hydrogen/carbon dioxide separation were presented through reviewing the performance and characteristics of various separation membranes, and various MMMs that improve separation properties using technologies such as crosslinking, blending and heat treatment were discussed.

• Applied Chemistry for Engineering
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• v.27 no.2
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• pp.171-178
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• 2016

Extensive efforts from all over the world have been made to solve energy problems, such as high oil prices, global warning due to the depletion of oil. Among them, biofuel has been drawing attention as a clean energy, which can replace fossil fuels. However, conventional biofuels were often converted from eatable biomass such as sugar cane, corn and soy which should be replaced with uneatable biomass. In this study, a techno-economical evaluation of the gasification of biomass waste with mixed alcohol synthesis process was performed. Considering available domestic biomass wastes, a 2000 ton/day conversion plant were assumed to produce 533000 L/day ethanol. Also, financial data from previous studies were evaluated and used and economical sensitivities with various operation conditions were established. Economic analysis were conducted by the payback period and internal rate of return (IRR) and net present value (NPV). Sensitivity analyses of raw material costs, initial investment, the major process cost, ethanol price changes and operating costs were all performed.

• Clean Technology
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• v.8 no.2
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• pp.85-92
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• 2002

Red mud is generated as a by-product during the production of aluminum hydroxide from bauxite ore. In this study the red mud coagulants were prepared by reacting 100 ml of 5 M $H_2SO_4$ solution with 10g of red mud at $85^{\circ}C$ or by reacting 100ml of 9M HCl solution with 10g of red mud at $25^{\circ}C$. The prepared red mud coagulants were tested for their coagulation performance of pollutants in the municipal and industrial wastewater. In addition, the coagulation performance was compared with that of a commercially available coagulant ($FeCl_3$). As a result, the red mud coagulants were found to have a good removal efficiency of pollutants in the municipal wastewater (turbidity, phosphate phosphorus) and in the plating wastewater (turbidity, $Pb^{2+}$, $Cd^{2+}$, $Cu^{2+}$, $Zn^{2+}$, $Cr^{3+}$). In the experiment to remove COD in the petrochemical wastewater, the COD removal efficiency by the red mud coagulants was a little poor, but it was better than that by $FeCl_3$.