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최만수,김승은,윤인호,정종헌,최왕규,문제권,김선병,Choi, Mansoo,Kim, Seung-Eun,Yoon, In-Ho,Jung, Chong-Hun,Choi, Wang-Kyu,Moon, Jei-Kwon,Kim, Seon-Byeong Korean Radioactive Waste Society 2018 방사성폐기물학회지 Vol.16 No.2
As part of planning for waste minimization, decontamination foam has been considered as a potential application for the cleaning of radioactive contaminant. In this study, we synthesized silica particles to improve foam stability by varying synthesis parameters. Cetyltrimethylammonium bromide (CTAB) was found to influence the stability of the decontamination foam. The reason was that higher interaction between $SiO_2$ nanoparticles and surfactant at the air-water interface in aqueous solution is beneficial for foam stability. CTAB can also be used as an additive for the aggregation of silica nanoparticles. In the separation of $SiO_2$ nanoparticles, CTAB plays a critical role in the nanoparticles flocculation because of the charge neutralization and hydrophobic effects of its hydrocarbon tails.
레이저가 조사된 아세틸렌에서의 임계전이를 거쳐서 형성된 쉘 형상 카본 나노입자에 관한 연구
최만수(Mansoo Choi),Igor S.Altman(Igor S. Altman),김영정(Young-Jeong Kim),Peter V.Pikhitsa(Peter V. Pikhitsa),이상훈(Sanghoon Lee) 대한기계학회 2004 대한기계학회 춘추학술대회 Vol.2004 No.11
Shell shaped hollow carbon nanoparticles are synthesized in the oxygen-hydrogen diffusion flame with C₂H₂ as precursor when it is irradiated with CO₂ laser of certain power. Below this power of laser, we couldn’t get any other but amorphous soot. This shell shaped hollow carbon nanoparticles shows outer wall of high degree of crystallinity with void space inside of itself. And size distribution of these nanoparticles is measured with TEM image analysis. Also the structural comparison between this carbon nanoparticle and soot is done by Raman and XRD measurement. These results show this carbon nanoparticles are of grapheme structure, which means it has good crystallinity when compared with soot.
수직 증발관에서 CaSO<sub>4</sub> Scale 형성과 열전달에 관한 연구
홍춘근,최만수,Hong, Choonkeun,Choi, Mansoo 대한기계학회 1999 大韓機械學會論文集B Vol.23 No.11
A study of scaling and heat transfer has been carried out for a vertical tube evaporator in which $CaSO_4$ saturated water flows upward. Experimental apparatus including vacuum chambers and heaters has been designed and manufactured to study scaling phenomena for three different pressures(1atm, 0.27atm and 0.16atm). Overall heat transfer coefficients have been measured and shown to decrease with time as scaling proceeds. After the end of experiments, the vertical tube has been cut to measure the thickness of scale at different heights. Below the height where the bulk fluid temperature does not reach saturated temperature, the thickness of scale increases, however, beyond that height occurring saturated condition, the thickness does not vary much or even decreases a little. The measured fouling resistances also support these variations of scale thickness.
기계공학 관점에서 살펴본 나노소재 산업의 발전 및 비전
김대성,최만수,Kim, Dae Seong,Choi, Mansoo 대한기계학회 2017 대한기계학회 논문집. Transactions of the KSME. C, 산업기술과 혁신 Vol.5 No.1
나노기술은 IT, BT 기술과 함께 21세기에 기술혁명을 주도해 나갈 핵심 기술이기에 현재 우리나라를 비롯한 전 세계의 선진국들이 이 분야에 많은 연구 역량을 집중시키고 있고, 그 중에서도 나노소재 산업은 이 경쟁의 중심에 있다고 볼 수 있다. 본 연구에서는 기계공학 측면에서 나노소재 산업에 대하여 살펴보았다. 나노소재는 나노크기의 재료라는 점에서 기존의 마이크론 혹은 서브마이크론 재료에 서 발견할 수 없는 특별한 효과를 나타내거나 전혀 새로운 응용분야를 만들어낼 가능성이 크다. 특히 환경, 바이오, 에너지, 촉매 등 다양한 분야에서 그 응용이 기대된다. Nanotechnology, along with Information Technology (IT) and Bio-technology (BT), has been regarded as a core area that will drive technological revolution of $21^{st}$ century. South Korea and other countries with advanced scientific and technological research programs are investing heavily in the field, and among its various aspects, nanomaterial industry is considered to be at the heart of this global competition. In this review, we look at nanomaterials industry from the perspective of mechanical engineering. Nanomaterials exhibit unique characteristics differing from those of micron, or sub-micron sized materials, and hence are potentially able to open up new opportunities. Specifically, environmental and biological sciences, energy, and catalysis are areas that are expected to benefit from these developments.