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고수분 환경에서 미세먼지 실시간 측정을 위한 다공 튜브형 희석장치의 개발 및 성능 평가
우창규,홍기정,김학준,김용진,한방우,안정언,강수지,천성남,Woo, Chang Gyu,Hong, Ki-Jung,Kim, Hak-Joon,Kim, Yong-Jin,Han, Bangwoo,An, Jeongeun,Kang, Su Ji,Chun, Sung-Nam 한국입자에어로졸학회 2017 Particle and Aerosol Research Vol.13 No.3
본 연구에서는 고온희석-상온희석 2단 희석의 다공 튜브형 희석장치를 제작하여 실제 배기가스와 시험챔버의 다양한 고수분 환경에서의 희석 조건에 따른 응축성 물질의 생성 억제와 생성된 응축 입자의 제거 특성에 관하여 살펴보았다. 디젤 엔진의 배출 입자는 응축 성분의 핵화 모드와 고체상의 응축성장 모드의 이중모드 분포를 나타내었고, 다공 튜브형 희석장치의 1차 고온희석 유량을 증가시킴으로써 핵화 모드 입자의 생성을 억제시키고 응축성장 모드의 입자만을 측정할 수 있었다. 석탄보일러에서 배출되는 미세먼지에 대해서도 다공 튜브형 희석장치를 적용하여 응축성 성분의 입자 생성 없이 응축성장 모드의 입자만을 측정할 수 있었고, $3{\mu}m$ 크기 이상의 입자에 대해서 기존 이젝터 방식에 비해 상대적으로 입자 손실이 적음을 확인할 수 있었다. 또한 $30m^3$ 시험챔버에서 가습기로 인위적으로 발생시킨 물입자가 측정하고자 하는 고체 입자와 공존할 때 다공 튜브형 희석장치를 사용하여 물입자를 증발시켜 제거함으로써 고체 입자만을 정확하게 분리하여 측정할 수 있음을 확인할 수 있었다. Real-time measurements of fine particles from stack emission gases are necessary due to the needs of continuous environmental monitoring of PM10 and PM2.5. The porous tube dilutor using hot and cold dilutions was developed to measure fine particles without condensable particles from highly humid emission gases and compared to the commercialized ejector-type dilutor. Particle size distributions were measured at the emission gases from a diesel engine and a coal-fired boiler. The porous tube dilutor could successfully measure the accumulation mode particles including relatively large particles more than $3{\mu}m$ without nuclei particles, while the ejector dilutor detected some condensable particles and could not detect large particles. The porous tube dilutor could successfully remove the already condensed water droplet particles generated by a humidifier in a $30m^3$ chamber.
와이어-실린더형 습식 전기집진기의 수막 유무에 따른 집진 특성 비교
우창규,조원기,김학준,김용진,한방우,Woo, Chang Gyu,Cho, Won Ki,Kim, Hak-Joon,Kim, Yong-Jin,Han, Bangwoo 한국입자에어로졸학회 2018 Particle and Aerosol Research Vol.14 No.4
People's environmental concerns for fine particles in Korea lead to the strong necessity of improving the performance of environmental control systems. Wet electrostatic precipitators (ESPs) are considered as one of the alternatives to overcome the limit of previous dry ESPs, the re-entrainment of collected particles during rapping and back corona problem for high electrical resistivity dusts etc. In this study, a wire-cylindrical ESP with a thin water film has been developed. Particle collection characteristics were compared in the ESP with operations of water film on and off. Particle collection efficiencies at various applied voltages as well as voltage-current curves were almost the same in the ESP with and without a water film. Particle collection performance for PM1.0, PM2.5 and PM10 in the wet ESP with a water film was constantly maintained with operation time even in the high dust loading environment. This results indicate that a uniform water film in our wet ESP was successfully formed with a very thin layer without any dry spot and therefore could continuously clean the collected particles on the inner wall of the ESP without any performance degradation.
고정 오염원의 연소과정에서 발생하는 먼지를 측정하기 위한 희석방법 연구동향
우창규,김학준,김용진,한방우,강수지,천성남,Woo, Chang Gyu,Kim, Hak-Joon,Kim, Yong-Jin,Han, Bangwoo,Kang, Su Ji,Chun, Sung-Nam 한국입자에어로졸학회 2017 Particle and Aerosol Research Vol.13 No.4
For precise particle measurements in combustion environments, various dilution sampling methods were compared. Dilution equipments using dilution tunnels and hot/cold dilution with porous tube dilutors were most frequently used so far. The combination of porous tube dilutor and ejector diluter has relatively small footprint, and it results in lower particle losses compared to other methods. To determine the portion of condensable particulate matter, proper temperature control and flow control is required.
Air sterilization using filter and air ions: A review
우창규,김학준,김용진,한방우,Woo, Chang Gyu,Kim, Hak-Joon,Kim, Yong-Jin,Han, Bangwoo Korean Association for Particle and Aerosol Resear 2016 Particle and Aerosol Research Vol.12 No.3
Bioaerosol inactivation becomes important as people recognize the significance on the health effects of bioaerosols. There are several ways to inactivate such bioaerosols such as antimicrobial filters, UV, etc. For the on-filter-inactivation, proper antimicrobial materials coating should be applied. Recently, air ions are adopted to effectively reduce germ and virus activity. Limitations arise when each method is applied separately. Coating materials can experience chemical instability over time and temperature. Ionizers can generate ozone to prepare high ion concentrations. Combinations of developed techniques to enhance the inactivation efficiency were suggested. Researches on the air sterilization are reviewed and outlook is highlighted. Proper techniques such as combinations of filter material coating and air ion generation can be used to make air quality better for human living.