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이트륨 혼입량 변화에 따른 $(Ba,Sr)_{1-x}Y_xTiO_3$의 전기적 특성
노태용,성현제,김승원,이철,Noh, Taeyong,Sung, Hyun Je,Kim, Seungwon,Lee, Chul 대한화학회 1995 대한화학회지 Vol.39 No.10
정온도저항계수(PTCR) 특성을 지닌 $(Ba,Sr)_{1-x}Y_xTiO_3$(x = 0.001-0.009, BSYT)를 옥살산공침범으로 합성하여 이트륨 혼입량 변화에 따른 전기적 특성을 관찰하였다. 온도변화에 따른 저항을 측정한 결과 이트륨의 농도가 0.3mol%로 증가할때까지는 큰 PTCR 효과를 나타낸 반면 농도가 0.5mol% 이상에서는 적은 PTCR 효과를 나타내었다. 상전이 온도($T_c$) 이상에서 온도와 $1{\varepsilon}$m(T)의 관계를 나타낸 도시에 의하면 유전상수의 변화가 Curie-Wiess 법칙에 잘 따름을 알 수 있었다. 측정한 비저항과 유전상수로부터 계산한 전위장벽위 높이를 온도에 따라 도시한 결과 PTCR 효과와 마찬가지로 이트륨의 혼입량이 0.3mol%로 증가할때까지는 높은 전위장벽이 유지되나 0.5mol% 이상에서는 비교적 낮은 전위장벽을 나타내었다. The electrical properties for $(Ba,Sr)_{1-x}Y_xTiO_3$(x=0.001∼0.009, BSYT) with a positive temperature coefficient of resistivity(PTCR) effect were investigated. The BSYT powder was prepared by oxalate coprecipitation method. It was found that the large PTCR effect was appeared up to 0.3 mol% and decreased above 0.5 mol% of the yttrium concentration. The plot of temperature vs. $1{\varepsilon}$m(T) above Curie temperature($T_c$) was agreed with Curie-Weiss law. The potential barrier calculated from measured resistivity and dielectric constant of specimens was high up to 0.3 mol% and reduced above 0.5 mol% of yttrium concentration as the curve of PTCR effect.
과열(過熱) 증기(蒸氣)를 이용한 국내 폐기물(廢棄物) 유기성(有機性) 성분의 분해(分解) 특성 연구
김우현,노선아,민태진,성현제,박성범,장하나,Kim, Woo-Hyun,Roh, Seon-Ah,Min, Tai-Jin,Sung, Hyun-Je,Park, Seong-Bum,Jang, Ha-Na 한국자원리싸이클링학회 2009 資源 리싸이클링 Vol.18 No.6
과열 증기를 이용하여 생활 폐기물내 유기성 성분의 분해를 수행하고 폐기물의 특성 및 반응 시간이 폐기물의 분해율에 미치는 영향을 살펴보았다. 과열 증기를 이용한 분해 후 음식 및 폐지와 같은 생분해성 유기 성분은 쉽게 분해되었고 생분해성 유기 성분중 나무와 석유계 유기성 성분인 플라스틱, 금속과 같은 무기성 성분이 분해되지 않은 상태로 남아 쉽게 분리가 가능한 상태를 형성하였다. 입자의 크기 변화를 살펴본 결과 폐기물 내 생분해성 유기 성분이 적을수록 짧은 반응 시간에도 높은 입자 크기 감소를 보였으며 반응 시간이 60분 이상에서 최대 90% 이상의 입도 감소를 나타내었다. Degradation of the organic component in the waste were carried out by superheated steam in a pressurized vessel. The effects of waste characteristics, reaction temperature and residence time on the degradation rate have been determined. The biodegradable organic components such as food and paper waste have been degraded, and plastics, wood and metal were remained without degradation. The degradation efficiency is decided by the desizing rate of the waste, and the waste mixture with 23% biodegradable organic component shows higher desizing rate than that of the 43% of the biodegradable organic component in a short residence time and the desizing rate is found to be 90% in the maximum condition.
최경영 ( Choi Kyoung-young ),성현제 ( Sung Hyun-je ),은재기 ( Eun Jae-ki ),양영철 ( Yang Young-chul ),김채수 ( Kim Chae-soo ),엄대호 ( Um Dae-ho ),김선주 ( Kim Sun-joo ) 한국농공학회 2003 한국농공학회 학술대회초록집 Vol.2003 No.-
According to development and urbanization of country, environment and ecosystem were ignored during the past thirty years. Therefore canal, which had been developed by concrete, is remained as the space where life can not alive any longer. In this study, Environmental friendly canal construction method using porous loess block are investigated. Porous loess blocks are which is developing focused on both scenery and hydraulic safty. Canal using Porous loess blocks can take a vegetation's distribution and improvement of soil properties and hydraulic safty of bank. In this study, The examination of applied canal construction method using porous loess block that is considering vegetation's distribution and properties of material is done to present development of environmental friendly canal construction method.
김채수,엄대호,한경수,전택기,최경영,성현제,은재기,양영철,김선주,Kim Chae-Soo,Um Dae-Ho,Han Kyung Soo,Jun teak ki,Choi Kyoung-Young,Sung Hyun-Je,Eun Jae-Ki,Yang Young-Chul,Kim Sun-Joo 한국관개배수위원회 2003 한국관개배수논문집 Vol.10 No.2
According to development and urbanization of country, environment and ecosystem were ignored during the past thirty years. So that, canal which had been developed by concrete, is remained as the space where life can not alive any longer. Therefore, in thi