Autor: |
Grange SK; Wolfson Atmospheric Chemistry Laboratories , University of York , York , YO10 5DD , United Kingdom., Farren NJ; Wolfson Atmospheric Chemistry Laboratories , University of York , York , YO10 5DD , United Kingdom., Vaughan AR; Wolfson Atmospheric Chemistry Laboratories , University of York , York , YO10 5DD , United Kingdom., Rose RA; Ricardo Energy & Environment , Harwell , Oxfordshire OX11 0QR , United Kingdom., Carslaw DC; Wolfson Atmospheric Chemistry Laboratories , University of York , York , YO10 5DD , United Kingdom.; Ricardo Energy & Environment , Harwell , Oxfordshire OX11 0QR , United Kingdom. |
Abstrakt: |
Diesel-powered road vehicles are important sources for nitrogen oxide (NO x ) emissions, and the European passenger fleet is highly dieselised, which has resulted in many European roadside environments being noncompliant with legal air quality standards for nitrogen dioxide (NO 2 ). On the basis of vehicle emission remote sensing data for 300000 light-duty vehicles across the United Kingdom, light-duty diesel NO x emissions were found to be highly dependent on ambient temperature with low temperatures resulting in higher NO x emissions, i.e., a "low temperature NO x emission penalty" was identified. This feature was not observed for gasoline-powered vehicles. Older Euro 3 to 5 diesel vehicles emitted NO x similarly, but vehicles compliant with the latest Euro 6 emission standard emitted less NO x than older vehicles and demonstrated less of an ambient temperature dependence. This ambient temperature dependence is overlooked in current emission inventories but is of importance from an air quality perspective. Owing to Europe's climate, a predicted average of 38% more NO x emissions have burdened Europe when compared to temperatures encountered in laboratory test cycles. However, owing to the progressive elimination of vehicles demonstrating the most severe low temperature NO x penalty, light-duty diesel NO x emissions are likely to decrease more rapidly throughout Europe than currently thought. |