• Transactions of the Korean Society of Automotive Engineers
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• v.10 no.3
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• pp.201-208
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• 2002

In this paper, the control strategy of ratio changing system for a metal belt CVT adopting primary pressure regulation is developed, and the shirting performance of pressure regulating type CVT with the suggested control strategy is investigated. The control strategy suggested in this study is composed of 2 feedback loop, one is speed ratio feedback and the other is primary pressure feedback. The pressure feedback is adopted to ensure prohibiting a belt slip during transient period in a fast downshift mode. Simulation results show that the system with suggested control strategy gives appropriate response time and tracking Performance for upshift and also gives a proper primary pressure which can prohibit the belt slip. In addition, it is fecund that the given system has an acceptable servo property in tracking the target speed ratio and robustness for the disturbance of line pressure.

• Journal of Powder Materials
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• v.16 no.3
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• pp.161-166
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• 2009

• 해운
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• s.94
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• pp.19-27
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• 2012

물류 서비스는 경제 주체간의 원활한 상품 수송을 도모하여 구매 소비를 뒷받침하는 효율적 경제 및 시장의 필수조건이다. 한국의 물류산업의 경쟁력은 선진국에 비해 낮아 국내 물류활동 현황을 살펴보고 선진국의 물류 효율화 전략을 점검하여 물류 효율화 방안을 모색하여야 한다. 한국의 국가물류비와 기업물류비는 선진국에 비해 높은 수준이나, 비금속 등 일부 제조업의 기업물류비가 과도하게 높은 것으로 분석된다. 국내 물류산업의 문제점을 살펴보면 수요 측면에서는 2PL 의존도가 높은 것이 문제가 된다. 그룹 소속의 2PL 업체로 인해 물류 비효율이 발생하고 물류업계의 대형화, 전문화 실현에 어려움을 야기하고 있다. 공급측면에서는 물류전문기업이 부족하다. 영세기업 저부가가치 사업 위주의 산업구조로 인해 물류전문기업이 부족하여 물류 효율화 효과가 미미하다. 또한, 인프라 측면에서도 국내 물류 인프라가 미비한 현실이다. 높은 도로의존도로 과중한 수송비 부담 및 낮은 물류분야 표준화 수준으로 물류 효율저하가 우려된다. 한편 법제도 측면에서도 물류산업 관련 제도 개선이 미흡하다. 물류산업 관련 제도가 현장을 반영하지 못하고 있으며, 정부기업의 민간 참여 등의 불공정 물류 정책으로 국내 물류산업의 발전이 제한적이다. 다음은 현대경제연구원 이장균 수석연구위원이 발표한 "국내 물류산업의 문제점과 물류효율화 방안"의 주요 내용을 요약 정리한 것이다.

• Proceedings of the Korean Powder Metallurgy Institute Conference
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• 2002.04b
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• pp.8-8
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• 2002

서멧이란(Cermet) '세라믹 경질상과 금속 결합상의 복합체"를 의미하나 절삭 골구계에서는 좁은 의미의 "TiC 혹은 Ti(CN)을 바탕을 Ni,Co를 결합상으로 하는 초경재료"를 의미한다. 이런한 서멧은 전략 물질적 성격이 강한 Co,W로 구성된 WC-Co 초경 합금을 대체하기 위해 고안되었는ㄴ데 ㄴ놓은 경도와 고온에서의 화학적 안정성, 낮은 비중과 저렴한 원료 가격등이 장점이나 WC-Co에 비해 상대적으로 낮은 인성이 문제점으로 지적 되어왔다.TiC-Ni 서멧의 낮은 인성을 향상시키기 위해 Ti(CN) 고용체를 바탕으로 하고 제2ㅇ, 제3의 탄화물이나 질화물을 첨가하는 개발 연구가 과거 30여 년간 진행되어왔다. 그러나 많은 연구결과가 조성 개발 위주로 진행되어 왔고, 또 실험간의 불일치와 재현성 결여로 인해 보여진 여러 현상에 대한 보편적인 결론을 내리기 힘든 점이 있었다. 특히, 미세구조와 기ㅔ적 특성에 관한 통합적이고 조직적인 연구가 진행되지 못하였다. 이번 발표에서는 발표자 실험실에서 지난 8 년 간 행하여 온 실험 결과를 바탕으로 탄화물서멧에 나타나는 독특한 현상, 고용체 탄질화물의 열역학적 안정성, 서멧 재료의 유심구조, 표면 에너지 및 strain, 에너지가 미세 구조 형성에 미치는 영향, 그리고 표면층 형성 등 서멧 개발에 관한 중요 관심사에 대해 간단히 살펴보려고 한다.해 간단히 살펴보려고 한다.

• Proceedings of the Korean Nuclear Society Conference
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• 1996.11b
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• pp.737-742
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• 1996

우리나라는 미래의 노형전략 차원에서 한국형액체금속로인 KALIMER의 개발을 추진 중에 있어 이에 대한 자본비를 추정하였다. 자본비의 비용구성 항목은 EEDB 분류기준을 참고하였으며, 특히 원자로 및 핵증기 공급계통, T/G 건물, 원자로 설비, 열수송장치 둥과 같은 주요 비용에 대해서는 KALIMER의 설계치를 반영하여 평가하였다. KALIMER는 Block 당 333MWe로 구성되며, 3개의 Blocks으로 구성되는 1000MWe를 전용량 규모로 고려하고 있다. 그리하여 여기에서는 FC1B(First Commercial Plant with 1 Block), FC3B(First Commercial Plant with 3 Blocks), NOAK1B(Nth-Of-A-Kind Plant with 1 Block), NOAK3B (Nth-Of-A-Kind Plant with 3 Blocks) 등과 같은 4개의 대안을 설정하였다. 분석결과에 의하면 NOAK3B 대안의 평준화자본비는 30.46 mills/kWh로 학습효과와 규모의 경제효과 등에 의해 FC1B, FC3B, NOAK1B 대안에 비해 각각 42%, 11%, 23% 정도 더 경제적인 것으로 분석되었다. 또한 이들 대안의 평준화자본비는 기존의 1144MWe, 587MWe급의 PWR에 비해서 11%, 39% 정도 저렴하여 경쟁력을 가지고 있는 것으로 평가되었다.

• Economic and Environmental Geology
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• v.55 no.4
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• pp.399-406
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• 2022

In line with the megatrend of 2050 carbon neutrality, the amount of critical minerals used in clean-energy technology is expected to increase fourfold and sixfold, respectively, according to the Paris Agreement-based scenario as well as the 2050 carbon-neutrality scenario. And, in the case of Korea, in terms of the battery supply chain used for secondary batteries, the midstream that manufactures battery materials and battery cell packs shows strength, but the upstream that provides and processes raw materials is experiencing difficulties. The Korea Institute of Geoscience and Mineral Resources has established a strategy to secure lithium, nickel, and cobalt and is conducting surveys to respond to the upstream risk of these types of battery raw materials. In the case of lithium, exploration has been carried out in Uljin, Gyeongsangbuk-do since 2020, and by the end of 2021, the survey area was selected for precision exploration by synthesizing all exploration data and building a 3D model. Potential resources will be assessed in 2022. In the case of nickel, the prospective site will be selected by the end of 2022 through a preliminary survey targeting 10 nickel sulfide deposits that have been prospected in the past. In the case of cobalt, Boguk cobalt is known only in South Korea, but there is only a record that cobalt was produced as a minor constituent of hydrothermal deposit. According to the literature, a cobalt ore body was found in the contact area between serpentinite and granite, and a protocol for cobalt exploration in Korea will be established.

• Applied Chemistry for Engineering
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• v.25 no.6
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• pp.553-558
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• 2014

Microalgae are a promising alternative feedstock for biodiesel production because their growth rates and oil contents are higher than those of conventional energy crops. Microalgal lipid is mainly triacylglyceride that can be converted to biodiesel as fatty acid methyl esters through trans-esterification. In this paper, the influence of several important lipid inducing factors such as nutrient limitation and changes in salinity and metallic components in microalgae and their potential strategies to be used for biodiesel production are reviewed. Depending upon strains/species that we use, microalgae react to stresses by producing different amount of triacylglyceride and/or by altering their fatty acids composition. Although the most widely applied method is the nitrogen starvation, other potential factors, including nutrient surplus conditions and changes in salinity, pH, temperature and metal concentrations, should be considered to increase biodiesel productivity.

• Applied Chemistry for Engineering
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• v.27 no.6
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• pp.555-564
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• 2016

In recent years, methanol has attracted much attention since it can be cleanly manufactured by the combined use of atmospheric $CO_2$ recycling and water splitting via renewable energy. For the concept of "methanol economy", an active methanol synthesis catalyst should be prepared in a sophisticated manner rather than by empirical optimization approach. Even though Cu/ZnO-based catalysts prepared by coprecipitation are well known and have been extensively investigated even for a century, fundamental understanding on the precipitation chemistry and catalyst nanostructure has recently been achieved due to complexity of the necessary preparation steps such as precipitation, ageing, filtering, washing, drying, calcination and reduction. Herein we review the recent reports regarding the effects of various synthesis variables in each step on the physicochemical properties of materials in precursor, calcined and reduced states. The relationship between these characteristics and the catalytic performance will also be discussed because many variables in each step strongly influence the final catalytic activity, called "chemical memory". All discussion focuses on how to prepare a highly active Cu/ZnO-based catalyst for methanol synthesis. Furthermore, the preparation strategy we deliver here would be utilized for designing other coprecipitation-derived supported metal or metal oxide catalysts.

• Journal of the Microelectronics and Packaging Society
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• v.29 no.2
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• pp.33-41
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• 2022

Recent necessities of research have emerged about soft interconnection technologies for stable electric connections in flexible electronics. Mechanical failure in conventional metal solder interconnection can be solved as soft interconnections based on a small elastic modulus and a thin thickness. To enable stable electric connection while improving mechanical properties, highly conductive materials be thinned or mixed with a material that has a small elastic modulus. Representative soft interconnection technologies such as thin-film metallization, flexible conductive adhesives, and liquid metal interconnections are presented in this paper, and be focused on mechanical/electric properties improving strategies and their applications.

• Membrane Journal
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• v.30 no.3
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• pp.158-172
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• 2020

In the aspect of saving energy and water, facilitating the separation membrane for the water treatment has been rising recently as one of the possible solutions. However, microbial biofouling effect is the biggest obstacle that hinders reaching higher permeability over a prolonged period of nanofiltration operation. To solve this problem and fully utilize the filtration membranes with enhanced performance, largely two kinds of solutions are studied and the first and the most commonly mentioned type is the one using the silver nanoparticles. Since silver nanoparticles are important to be well tailored on membrane surface, various methods have been applied and suggested. Using silver nanoparticles however also has the drawbacks or possible toxicity risks, raising the need for other types of utilizing non silver particles to functionalize the membrane, such as copper, graphene or zinc oxides, and amine moieties. Each attempt included in either kind has produced some notable results in killing, preventing, or repelling the bacteria while at the same time, left some unsolved points to be evaluated. In this review, the effects of metal nanoparticles and other materials on the antifouling properties of water treatment membranes are summarized.