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机动车大气污染物排放清单构建的研究 总被引:2,自引:0,他引:2
随着机动车保有量的增加,大气污染物排放已经成为空气污染的一个重要来源,总结出一套完整的机动车大气污染物排放清单建立方法,即从机动车车况调查着手,掌握研究区域机动车基本情况,然后通过实洲或排放模型方法确定机动车排放因子,配合道路状况的调查,建立宏观、中观或微观等不同尺度的机动车大气污染物排放清单.另外,在整个排放清单建立过程中设置数据来源质量保证,选择合适的不确定性定量分析方法.通过探讨每个步骤中目前所采用的方法和存在的问题,以拓宽刚涉足机动车大气污染物排放清单方面研究者的思路. 相似文献
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机动车尾气污染物已成为影响城市大气环境质量的主要因素之一,预测未来机动车尾气污染物排放状况可以为城市机动车尾气污染防治提供有力的依据.依据成都市的经济发展趋势,设定了不同阶段的轻型车尾气污染物排放标准,并利用建立的尾气污染物排放趋势预测模型分析了该市轻型车尾气中颗粒物、NOx、总碳氢化合物、CO的排放量和变化趋势,并提出了相应的尾气污染物减排对策. 相似文献
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综述了国内外几种常用的机动车颗粒污染物排放因子的确定方法,介绍了各模型的使用概况及其优缺点,最后提出对机动车颗粒污染物排放因子应深入开展有关研究。 相似文献
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厦门市空气污染的空间分布及其与影响因素空间相关性分析 总被引:1,自引:0,他引:1
基于空间信息技术、克里格插值与空间相关矩阵,研究厦门市SO2、NO2、PM10和PM2.5污染浓度空间分布特征。通过提取人口密度、道路面积比重、建设用地比重、地表温度及植被指数等空气污染影响因素的空间分布数据,划分研究区为生态区、居住区与工业区,定量评价了污染物浓度与影响因素的空间相关性,并识别出各污染物的主要影响因素。结果表明:污染浓度分布总体上呈现出工业区-居住区-生态区递减的空间特征,其主要受工业排放和机动车排放的影响;SO2与除地表温度外的其他影响因数均有较强空间相关性,PM10和PM2.主要与道路面积比重、建设用地比重具有较强相关性,NO2则与道路面积比重的相关性最强,污染浓度与影响因数空间相关性呈现出工业区-居住区-生态区递增趋势;与按照行政区的划分相比,工业区、居住区、生态区的划分显得更为合理。 相似文献
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随着高速公路的快速发展,路面降雨径流污染引起了越来越多的关注.从高速公路路面雨水径流中污染物成分及其影响因素、径流污染迁移模型和径流污染物对受纳水体水质的影响等方面,对路面降雨径流污染特征进行了综述,并从工程和非工程措施两方面比较了目前高速公路路面降雨径流污染治理措施的特点和适用条件,最后提出了进一步研究的建议,希望为有关方面的研究提供借鉴. 相似文献
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分析了机动车尾气挥发性有机物(VOCs)的排放特征,发现尾气VOCs排放具有明显的日变化和季节变化特征。不同区域不同车型机动车尾气VOCs成分谱略有差异,轻型汽油车尾气VOCs中芳香烃和烷烃含量较高,柴油车烷烃含量较高。尾气排放受机动车保有量、行驶里程、维护保养水平、行驶速度和燃油标准、排放标准等因素影响。从优先控制汽油车、加快机动车更新、采取本地化减排措施、加强多元管理措施、提高科研水平等方面提出了针对性的减排措施。 相似文献
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Lindhjem CE Pollack AK DenBleyker A Shaw SL 《Journal of the Air & Waste Management Association (1995)》2012,62(4):471-484
Numerous emission and air quality modeling studies have suggested the need to accurately characterize the spatial and temporal variations in on-road vehicle emissions. The purpose of this study was to quantify the impact that using detailed traffic activity data has on emission estimates used to model air quality impacts. The on-road vehicle emissions are estimated by multiplying the vehicle miles traveled (VMT) by the fleet-average emission factors determined by road link and hour of day. Changes in the fraction of VMT from heavy-duty diesel vehicles (HDDVs) can have a significant impact on estimated fleet-average emissions because the emission factors for HDDV nitrogen oxides (NOx) and particulate matter (PM) are much higher than those for light-duty gas vehicles (LDGVs). Through detailed road link-level on-road vehicle emission modeling, this work investigated two scenarios for better characterizing mobile source emissions: (1) improved spatial and temporal variation of vehicle type fractions, and (2) use of Motor Vehicle Emission Simulator (MOVES2010) instead of MOBILE6 exhaust emission factors. Emissions were estimated for the Detroit and Atlanta metropolitan areas for summer and winter episodes. The VMT mix scenario demonstrated the importance of better characterizing HDDV activity by time of day, day of week, and road type. More HDDV activity occurs on restricted access road types on weekdays and at nonpeak times, compared to light-duty vehicles, resulting in 5-15% higher NOx and PM emission rates during the weekdays and 15-40% lower rates on weekend days. Use of MOVES2010 exhaust emission factors resulted in increases of more than 50% in NOx and PM for both HDDVs and LDGVs, relative to MOBILE6. Because LDGV PM emissions have been shown to increase with lower temperatures, the most dramatic increase from MOBILE6 to MOVES2010 emission rates occurred for PM2.5 from LDGVs that increased 500% during colder wintertime conditions found in Detroit, the northernmost city modeled. 相似文献
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Steven H. Cadle Robert A. Gorse Jr. Brent K. Bailey 《Journal of the Air & Waste Management Association (1995)》2013,63(2):278-291
ABSTRACT In April 1999, the Coordinating Research Council sponsored a workshop focusing on our understanding of real-world emissions from motor vehicles. This summary presents the latest information on in-use light- and heavy-duty vehicle tailpipe and evaporative emissions, the effects of fuels on emissions, field programs designed to understand the contribution of mobile sources to emission inventories, efforts to evaluate and improve mobile source emission models, progress of vehicle inspection/ maintenance programs, and topics for future research. While significant progress has been made in understanding in-use vehicle emissions, further improvements are necessary. Moreover, the impact of current and future changes in emission control technologies and control programs will have to be monitored for effectiveness and incorporated into the emission factor models. 相似文献
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Theodoras Zachariadis 《Journal of the Air & Waste Management Association (1995)》2013,63(9):1010-1026
ABSTRACT The paper provides a summary of accomplished and ongoing activities in the field of motor vehicle emission modeling in Europe. These activities have led to the development of a system of methods and conesponding computer models that address all the issues related to motor vehicle emissions that are of interest to policy-makers, institutions, and the automotive and oil industries. The Coordination of Information on Air Emissions/Computer Program to Calculate Emissions from Road Traffic (CORLNAIR/COPERT) methodology for the estimation of emissions from road vehicles is presented and compared with other models. A COPERT-based approach for microscale traffic emission estimation, with direct application in regional and urban emission inventories, is outlined, and relevant case studies are briefly discussed. The FOREMOVE model, developed for forecasts of motor vehicle emissions, is presented, together with some results from its application in the European Auto/Oil program. Particular attention is given to modeling the deterioration of in-use vehicles. Finally, the major areas of further research in the field of vehicle emissions in Europe are indicated. 相似文献
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《Journal of the Air & Waste Management Association (1995)》2013,63(9):1071-1077
Abstract China’s national government and Beijing city authorities have adopted additional control measures to reduce the negative impact of vehicle emissions on Beijing’s air quality. An evaluation of the effectiveness of these measures may provide guidance for future vehicle emission control strategy development. In-use emissions from light-duty gasoline vehicles (LDGVs) were investigated at five sites in Beijing with remote sensing instrumentation. Distance-based mass emission factors were derived with fuel consumption modeled on real world data. The results show that the recently implemented aggressive control strategies are significantly reducing the emissions of on-road vehicles. Older vehicles are contributing substantially to the total fleet emissions. An earlier program to retrofit pre-Euro cars with three-way catalysts produced little emission reduction. The impact of model year and driving conditions on the average mass emission factors indicates that the durability of vehicles emission controls may be inadequate in Beijing. 相似文献
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James J. Winebrake Michael L. Deaton 《Journal of the Air & Waste Management Association (1995)》2013,63(12):1291-1296
Abstract Although there have been several studies examining emissions from in–use alternative fuel vehicles (AFVs), little is known about the deterioration of these emissions over vehicle lifetimes and how this deterioration compares with deterioration from conventional vehicles (CVs). This paper analyzes emissions data from 70 AFVs and 70 CVs operating in the federal government fleet to determine whether AFV emissions deterioration differs significantly from CV emissions deterioration. An analysis is conducted on three alternative fuel types (natural gas, methanol, and ethanol) and on four pollutants (carbon monoxide, total hydrocarbons, non-methane hydrocarbons, and nitrogen oxides). The results indicate that for most cases studied, deterioration differences are not statistically significant; however, several exceptions (most notably with natural gas vehicles) suggest that air quality planners and regulators must further analyze AFV emissions deterioration to properly include these technologies in broader air quality management schemes. 相似文献
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Assessment of vehicular pollution in China 总被引:11,自引:0,他引:11
Fu L Hao J He D He K Li P 《Journal of the Air & Waste Management Association (1995)》2001,51(5):658-668
As the motor vehicle population in China continues to increase at an annual rate of approximately 15%, air pollution related to vehicular emissions has become the focus of attention, especially in large cities. There is an urgent need to identify the severity of this pollution in China. Based on an investigation into vehicle service characteristics, this study used a series of driving cycle tests of in-use Chinese motor vehicles for their emission factors in laboratories, which indicated that CO and HC emission factors are 5-10 times higher, and NOx 2-5 times higher, than levels in developed countries. The MOBILE5 model was adapted to the Chinese situation and used to calculate the emission of pollutants from motor vehicles. Results show that vehicle emission is concentrated in major cities, such as Beijing, Guangzhou, Shanghai, and Tianjin. Motor vehicle emissions contribute a significant proportion of pollutants in those cities, with contribution rates of CO and NOx greater than 80% and 40%, respectively, in Beijing and Guangzhou. Urban air quality is far worse than the national ambient air quality standard. In conclusion, although China has a relatively small number of motor vehicles, most of them are concentrated within metropolitan areas, and their emissions are closely related to urban air pollution problems in large cities. 相似文献
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Cadle SH Gorse RA Bailey BK Lawson DR 《Journal of the Air & Waste Management Association (1995)》2000,50(2):278-291
In April 1999, the Coordinating Research Council sponsored a workshop focusing on our understanding of real-world emissions from motor vehicles. This summary presents the latest information on in-use light- and heavy-duty vehicle tailpipe and evaporative emissions, the effects of fuels on emissions, field programs designed to understand the contribution of mobile sources to emission inventories, efforts to evaluate and improve mobile source emission models, progress of vehicle inspection/maintenance programs, and topics for future research. While significant progress has been made in understanding in-use vehicle emissions, further improvements are necessary. Moreover, the impact of current and future changes in emission control technologies and control programs will have to be monitored for effectiveness and incorporated into the emission factor models. 相似文献
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China's national government and Beijing city authorities have adopted additional control measures to reduce the negative impact of vehicle emissions on Beijing's air quality. An evaluation of the effectiveness of these measures may provide guidance for future vehicle emission control strategy development. In-use emissions from light-duty gasoline vehicles (LDGVs) were investigated at five sites in Beijing with remote sensing instrumentation. Distance-based mass emission factors were derived with fuel consumption modeled on real world data. The results show that the recently implemented aggressive control strategies are significantly reducing the emissions of on-road vehicles. Older vehicles are contributing substantially to the total fleet emissions. An earlier program to retrofit pre-Euro cars with three-way catalysts produced little emission reduction. The impact of model year and driving conditions on the average mass emission factors indicates that the durability of vehicles emission controls may be inadequate in Beijing. 相似文献
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Steven H. Cadle Robert A. Gorse Jr Brent K. Bailey Douglas R. Lawson 《Journal of the Air & Waste Management Association (1995)》2013,63(2):236-249
ABSTRACT The Coordinating Research Council (CRC) held its tenth workshop in March 2000, focusing on results from the most recent real-world vehicle emissions research. In this paper, we summarize the presentations from researchers who are engaged in improving our understanding of the contribution of mobile sources to emission inventories. Participants in the workshop discussed efforts to improve mobile source emission models and emission inventories, results from gas- and particle-phase emissions studies from spark-ignition and diesel-powered vehicles, new methods for measuring mobile source emissions, improvements in vehicle emission control systems (ECSs), and evaluation of motor vehicle inspection/maintenance (I/M) programs, as well as topics for future research. 相似文献