• 대한기계학회논문집B
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• 제33권10호
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• pp.748-756
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• 2009

The effect of idling stop on $CO_2$ reduction was estimated, especially in the area of in-use vehicles. In order to know the fuel saving for each class of vehicles, a methodology to calculate the fuel saving was used along with a standard test using NIER-07 mode. Idling stop execution rate was estimated by analyzing the driving pattern of the in-use city buses, which shows about 75% at maximum. And this corresponds to about 5.4% reduction of the daily total fuel consumption. Finally, $CO_2$ reduction in the automotive sector was estimated, which concludes that, when idling stop device is used, about 480 thousand and 450 thousand tons of $CO_2$ could be reduced with in-use city buses and taxis, respectively. This amount corresponds to about 1.2% of $CO_2$ reduction in the automotive sector.

• 대한교통학회지
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• 제34권2호
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• pp.180-190
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• 2016

차량의 배기가스에는 질소산화물(NOx), 일산화탄소(CO), 이산화탄소($CO_2$), 입자상 물질(PM), 탄화수소(HC)와 같은 대기 오염물질이 포함되어 있다. 이러한 도로이동오염원의 배출량을 산정하기 위하여 한국에서는 평균속도 기반의 배출계수 곡선식을 사용하고 있으며 교통 계획과 교통 정책의 대안 평가에서 환경적 영향을 분석할 때 활용하고 있다. 그러나 최근에는 차량의 동적 운행 특성과 배출량의 관계를 보다 정확하게 반영하여 배출량을 산정할 수 있는 방법론과 이 방법론을 교통 시뮬레이션 모형에 통합하는 것에 대한 관심이 증가하고 있다. MOVES Lite는 MOVES의 간략 버전으로서 교통 시뮬레이션 모형에 통합될 수 있도록 개발된 운행모드 기반 배출량 산정모형이다. 본 연구에서는 한국의 차종, 주행특성, 배출계수, 배출규제등을 반영하여 MOVES Lite를 개량한 MOVES Lite-K를 개발하기 위한 연구를 수행하였고, 국내의 대표적 배출량 산정 방법인 평균속도 기반의 배출계수 곡선식과 MOVES Lite-K의 배출량 산정 특성을 비교하여 두 방법론의 차이와 국내 적용성을 살펴보았다.

• 한국대기환경학회지
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• 제32권6호
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• pp.593-602
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• 2016

The physicochemical characteristics of particulate matter emissions from various vehicle's fuel types were studied at the facility of Transport Pollution Research Center(TPRC), National Institute of Environmental Research (NIER), Korea. Three different types of fuels such as gasoline, liquefied petroleum gas (LPG) and diesel were tested on the NIER driving mode and the constant speed modes(30, 70, and 110 km/h). Chemical composition of submicron particles from vehicle emissions was measured by the High Resolution Time of Flight Aerosol Mass Spectrometer (HR-ToF-AMS) during running cycles. Organics were dominant chemical species of particulate matter emissions for all three different vehicles' fuel types. Moreover, regardless of fuel types, emission rate of organics and inorganics decreased as the average speed of vehicle increased. The portion of fully oxidized fragment families of $C_xH_yO_z$ accounted for over 98% of organic aerosol(OA) in LPG and diesel vehicles, while the relatively high fraction of $C_xH_y$ in OA was observed in gasoline vehicle.