Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Improved Spatial Allocation Methodology for On-Road Mobile Emissions
Emissions from automobiles and trucks operating on public roads represent a major portion of the air pollutants included in emission inventories. When emission data are prepared for air quality modeling studies, such as those supporting development of a State Implementation Plan, an emission processor matches the spatial and temporal resolution of the emissions to the requirements of the modeling study. However, the spatial location of vehicular emissions is not known and must be estimated. This paper presents a methodology for determining the spatial distribution of the roads belonging to a road class using geospatial data functions, such as those commonly provided by a geographic information system. Vehicle-miles traveled (VMT) are then allocated to medium-resolution (12 x 12-km) and fine-resolution (4 x 4-km) modeling grids using both this methodology and the existing top-down methodology, which uses population density. The results show a significant difference in the spatial distribution of VMT between these two methodologies. Based upon these results, we recommend using the road class-specific methodology in lieu of the population methodology for spatially allocating vehicular emissions for medium- and finer-resolution modeling grids.
Improved Spatial Allocation Methodology for On-Road Mobile Emissions
Emissions from automobiles and trucks operating on public roads represent a major portion of the air pollutants included in emission inventories. When emission data are prepared for air quality modeling studies, such as those supporting development of a State Implementation Plan, an emission processor matches the spatial and temporal resolution of the emissions to the requirements of the modeling study. However, the spatial location of vehicular emissions is not known and must be estimated. This paper presents a methodology for determining the spatial distribution of the roads belonging to a road class using geospatial data functions, such as those commonly provided by a geographic information system. Vehicle-miles traveled (VMT) are then allocated to medium-resolution (12 x 12-km) and fine-resolution (4 x 4-km) modeling grids using both this methodology and the existing top-down methodology, which uses population density. The results show a significant difference in the spatial distribution of VMT between these two methodologies. Based upon these results, we recommend using the road class-specific methodology in lieu of the population methodology for spatially allocating vehicular emissions for medium- and finer-resolution modeling grids.
Improved Spatial Allocation Methodology for On-Road Mobile Emissions
Brandmeyer, Jo Ellen (Autor:in) / Karimi, Hassan A. (Autor:in)
Journal of the Air & Waste Management Association ; 50 ; 972-980
01.06.2000
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
Effects of improved spatial and temporal modeling of on-road vehicle emissions
| Taylor & Francis Verlag | 2012
Hot Soak Emissions: Temporal and Spatial Allocation
| British Library Conference Proceedings | 1998
Evaluation of road capacity and its spatial allocation
| Online Contents | 1995
Spatial Allocation of Transportation Greenhouse Gas Emissions at the City Scale
| Online Contents | 2011