原文传递 Traffic Data for Integrated Project-Level PM(2.5) Conformity Analysis.
题名: Traffic Data for Integrated Project-Level PM(2.5) Conformity Analysis.
作者: Coifman, B. A.; Liu, H.; Lu, M.; Wei, H.
关键词: Air Pollution Control; Air Quality Standards; Computerized Simulation; Conformity Analysis; Data Collection; Emissions; Environmental Protection; Motor Vehicles; Ohio; Particulates; Projects; State Tr
摘要: As required by the U.S. Environmental Protection Agency (EPA), the MOVES model is the mandatory emission tool for new PM hot-spot analyses for project-level conformity determinations that began after December 20, 2012. Localized traffic data inputs to the model are crucial in maximizing its capability to accurately reflect the PM2.5 emissions associated with transportation programs and projects. However, accurately acquiring local traffic operating related data for project-level MOVES analysis is always a challenge to realistic practices. To address the issue, the three existing traffic data sources in Ohio that can be used as inputs for the MOVES model have been identified and analyzed through the project. The first one is referred to as the ATR data source, which contains hourly or 15-minute traffic volume and vehicle composition. The second one, PVR data source, provides individual vehicles timestamp, class and speed information. The third one is the micro-simulation data source, which includes individual vehicles class, speed profile and acceleration profile. The applicability of the available data sources has been evaluated by using the sample data collected on the I-275 freeway in Cincinnati, Ohio. Specifically, the roadside PM2.5 concentration is estimated based on the sample traffic data and the modeled concentration is compared to the observed data. The compared results indicate that the PVR data source is preferred for the project-level PM2.5 analysis. It requires less effort to collect and provides the most accurate results when compared to other data sources. The normalized mean-square-error of the modeled concentration can be reduced by 30.5% if the PVR data are used with the operating mode distribution data prepared based on the simulation data source. Finally, an easy-to-use computer tool in the ArcGIS environment, termed as Traffic Air Environmental Health Impact Analysis (TAEHIA) supporting system, has been developed to facilitate the application of
报告类型: 科技报告
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