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시멘트 바이패스 더스트에 존재하는 염화칼륨의 용해 및 수득 특성
윤영민,정재현,추용식,Yun, Youngmin,Jeong, Jaehyun,Chu, Yongsik 한국자원리싸이클링학회 2016 資源 리싸이클링 Vol.25 No.3
시멘트 공장에서는 폐기물 재활용 측면에서 다양한 산업부산물 및 생활폐기물을 사용한다. 이들 폐기물에는 다량의 칼륨과 염소 및 소량의 중금속 등도 함유되어 있으며, 이들 성분을 유가자원으로 활용하기 위한 다양한 시도가 이루어지고 있다. 본 연구에서는 칼륨과 염소를 용해 결정화하여 염화칼륨을 수득하기 위한 다양한 방안을 검토하였다. 특히 혼합수 함량, 슬러리 온도 및 교반시간 등을 제어하였다. 또한 수득 염화칼륨 중에 존재하는 중금속 종류 함량 등도 분석하였다. 염화칼륨 수득량은 혼합수 함량 증가에 따라 증가하였으나, 1 : 2 (더스트:혼합수) 이상에서는 소폭 증가하였다. 슬러리 온도에 따른 수득량은 일정온도 이상에서 증가하는 경향을 나타내었으며, 교반시간 10분 이상에서는 수득량 변화가 관찰되지 않았다. 교반시간 증가에 따라 수득된 염화칼륨의 중금속 종류 함량도 다양하였으며, 주요 중금속은 Pb, Cu 및 $Cr^{6+}$ 등으로 확인되었다. Cement manufacturing plant uses various kinds of industrial/municipal waste. The waste contains considerable amount of potassium, chlorine and small amount of heavy metal. Many researches were performed to fabricate valuable resources from the waste. In this study, various methods, which dissolves and crystallizes potassium/chlorine to extract potassium chloride, were experimented. Especially amount of water, slurry temperature, and stirring time were controlled. Then kind of heavy metal and content of potassium chloride were analyzed. The yield of potassium chloride increased, as the amount of water for slurry increased but it increased slightly, when the water content was over 200%. The yield tended to increase, when the temperature of slurry was over a certain point. The yield did not increase in case of over 10 minutes stirring time. The kind and content of heavy metal in potassium chloride were various according to stirring time. The main heavy metals were Pb, Cu, and $Cr^{6+}$.
항균제를 이용한 알루미늄 표면에 생물막 형성 억제효과 분석
박상준(SangJun Park),오영환(YoungHwan Oh),조보연(BoYeon Jo),최미연(MiYeon Choi),현민우(MinWoo Hyun),정재현(JaeHyun Jeong),김의용(EuiYong Kim) 한국생물공학회 2015 KSBB Journal Vol.30 No.2
The antibacterial activity of a antimicrobial (organic synthetic or organic natural material) on the bacteria (Bacillus megaterium, Arthrobacter oxydans, Micrococcus luteus, Methylobacterium aquaticum) detected in the automobiles showed 99.9% bacteria decrease rate within 30 min of being in contact with the tested bacteria culture. The MIC of the organic synthetic material based antimicrobials and the organic natural material based antimicrobial on the bacteria were 31~500 mg/mL and 8~250 mg/mL, respectively. The bacteria and biofilms were formed on the surface of aluminum after 5 ~8 days in the case of addition of the organic synthetic material based antimicrobial to the MIC values for the tested bacteria culture. On the other hand, there was no proliferation of bacteria and formation of biofilms on the surface of aluminum even after 30 days in the case of addition of the organic natural material based antimicrobial to the MIC values for the tested bacteria culture. As a result, the organic natural material based antimicrobial was confirmed to be more excellent effect of inhibition of bacterial proliferation and restraint of biofilms formation than the organic synthetic material based antimicrobial.