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산업 도시의 산업단지 부지와 주거 지역의 대기 중 호흡성 분진과 구성 미량 원소의 특성
김모근(Mo-Geun Kim),신승호(Seung-Ho Shin),조완근(Wan-Kuen Jo) 환경독성보건학회 2010 환경독성보건학회지 Vol.25 No.1
The current study was designed to scientifically evaluate the atmospheric particulate pollution in residences relative to their proximity to a Korean major iron/metal industrial complex (IMIC). This objective was achieved by measuring the concentrations and elemental composition of particulate matter with aerodynamic diameters equal to or less than 10 ㎛ (PM10) in industrial ambient air from IMIC and residential ambient air with relative proximities to IMIC, The trace metals were analyzed using an inductively coupled plasma-atomic emission spectroscopy (ICP-AES), The industrial mean values exceeded the Korean year/70-㎍/㎥ standard for PM10, whereas the residential mean values did not. However, the maximum residential values did exceed or were close to the Korean PM10 year standard. For individual elements, the ambient concentrations ranged widely from values in the order of a few ng/㎥ to thousands of ng/㎥. The residential mean mass concentrations in the PM10 measured in the present study were higher than or similar to those reported in earlier studies. This study suggests that residents in neighborhoods near the IMIC are exposedto elevated particulate levels compared to residents living further away from such a source.
안상영(Sang-Young An),김모근(Mo-Geun Kim),김옥순(Ouk-Soon Kim),이용직(Yong-Jig Lee),나채근(Chae-Geun Na),이춘우(Choon-Woo Lee),박재형(Jae-Hyung Park) 한국실내환경학회 2006 한국실내환경학회지 Vol.3 No.4
This study was performed to investigate the characteristics of indoor air quality (IAQ) in elementary and middle schools in Gyeongbuk area from July to November 2006 . The measurements of indoor air pollutants were made to cover such components as PM-10, CO₂, CO, NO₂, O₃, HCHO, TVOC, TBC, and Radon from school classrooms. The results of this study can be summarized as follows: all of them were less than IAQ standards of Korea. The mean concentration were measured by 43.0 ㎍/㎥ (PM-10), 745 ppm (CO₂), 56.1 ㎍/㎥ (HCHO), 350 CFU/㎥ (TBC), 0.026 ppm (O₃), 0.6 ppm (CO), and 59.2 ㎍/㎥ (TVOC). Radon was not detected in all surveyed classrooms. The I/O ratio of PM-10 was 0.8∼1.4, while that for HCHO was 5.7∼9.0. Therefore, it was concluded that the indoor pollution of formaldehyde was very serious in classroom.
낙동강과 소규모 호소에서 수질환경요인에 따른 조류발생 특성 및 상관성 연구
김숙찬 ( Sook Chan Kim ),김장현 ( Jang Hyun Kim ),전찬준 ( Chan Jun Jeon ),김효순 ( Hyo Soon Kim ),김모근 ( Mo Geun Kim ),박광섭 ( Kwang Seub Park ),김성환 ( Seong Hwan Kim ),김영훈 ( Yong Hun Kim ),김종식 ( Jong Sig Kim ),이건주 한국물환경학회(구 한국수질보전학회) 2014 한국물환경학회·대한상하수도학회 공동 춘계학술발표회 Vol.2014 No.-
염소계 탄화수소의 열촉매 분해와 황화합물에 의한 촉매독 영향 평가
조완근(Wan Kuen Jo),신승호(Seung Ho Shin),양창희(Chang Hee Yang),김모근(Mo Geun Kim) 大韓環境工學會 2007 대한환경공학회지 Vol.29 No.5
다양한 산업체에서 배출되는 독성오염물질들을 제어하는 기존의 기술이 안고 있는 일부 단점을 보완하기 위하여 전이금속 지지체로 구성된 스테인레스스틸-백금 촉매를 이용하는 열촉매 시스템을 구축하고 다섯 가지의 염소계 탄화수소[chlorobenzene(CHB), chloroform(CHF), perchloroethylene(PCE), 1,1,1-trichloroethane(TCEthane), trichloroethylene(TCE)]의 열촉매 분해효율을 평가하기 위해서 본 연구가 수행되었다. 또한, 본 연구는 촉매독이 열촉매 분해 효율에 미치는 영향을 평가하였다. 열촉매 시스템의 주요 세 가지 운전인자인 유입농도, 소각 온도 및 촉매시스템내 체류시간이 본 연구에서 고려되었다. 유입농도가 증가함에 따라 염소계탄화수소의 분해효율이 최대 100%에서 오염물질의 종류에 따라 최저 0%(CHB) 가까이로 감소하는 것으로 나타났다. TCEthane을 제외한 네 가지 염소계탄화수소의 분해효율은 온도 증가에 따라 100% 가까게 나타났으나, TCEthane의 분해효율은 온도가 증가해도 거의 변화가 없는 것으로 나타났다. TCEthane을 제외한 조사대상물질에 대하여 촉매시스템내의 체류시간이 10초에서 60초로 증가시 오염물질에 따라 30%에서 97%까지 점진적으로 증가하는 경향을 나타내었지만, TCEthane은 체류시간 30초에서 분해효율이 더 이상 증가하지 않았다. 이러한 결과는 체류시간 길이가 항상 분해효율과 비례하는 것이 아님을 제안한다. 결론적으로, 본 연구 결과는 염소계 탄화수소를 보다 고효율로 제어하기 위해서 전이금속 촉매시스템을 적용할 경우에 유입농도, 반응온도, 그리고 촉매시스템내 체류시간과 더불어 제어하고자하는 오염물질의 종류도 함께 고려되어야 할 것을 제안한다. 한편으로, 황화메틸 1.0 ppm을 첨가함으로서 조사대상오염물질의 분해효율이 0∼50%로 감소하는 결과가 나타났지만, 일반적으로 산업 배기가스에서 측정되는 황화합물의 오염도 수준보다 다소 낮은 농도에 해당하는 황화메틸 0.1 ppm을 오염물질에 첨가하였을 때는 오염물질의 분해효율에 영향이 나타나지 않았다. To overcome certain disadvantages of past typical control techniques for toxic contaminants emitted from various industrial processes, the current study was conducted to establish a thermal catalytic system using mesh-type transition-metal platinum(Pt)/stainless steel(SS) catalyst and to evaluate catalytic thermal destruction of five chlorinated hydrocarbons[chlorobenzene(CHB), chloroform(CHF), perchloroethylene(PCE), 1,1,1-trichloroethane(TCEthane), trichloroethylene(TCE)]. In addition, this study evaluated the catalyst poison effect on the catalytic thermal destruction. Three operating parameters tested for the thermal catalyst system included the inlet concentrations, the incineration temperature, and the residence time in the catalyst system. The thermal decomposition efficiency decreased from the highest value of 100% to the lowest value of almost 0%(CHB) as the input concentration increased, depending upon the type of chlorinated compounds. The destruction efficiencies of the four target compounds, except for TCEthane, increased upto almost 100% as the reaction temperature increased, whereas the destruction efficiency for TCEthane did not significantly vary. For the target compounds except for TCEthane, the catalytic destruction efficiencies increased up to 30% to 97% as the residence time increased from 10 sec to 60 sec, but the increase of destruction efficiency for TCEthane stopped at the residence time of 30 sec, suggesting that long residence times are not always proper for thermal destruction of VOCs, when considering the destruction efficiency and operation costs of thermal catalytic system together. Conclusively, the current findings suggest that when applying the transition-metal catalyst for the better destruction of chlorinated hydrocarbons, VOC type should be considered, along with their inlet concentrations, and reaction temperature and residence time in catalytic system. Meanwhile, the addition of high methyl sulfide(1.8 ppm) caused a drop of 0 to 50% in the removal efficiencies of the target compounds, whereas the addition of low methyl sulfide (0.1 ppm), which is lower than the concentrations of sulfur compounds measured in typical industrial emissions, did not cause.