Abstract
We present a comprehensive study on the impacts and associated changes in costs resulting from the implementation of Environmental Speed Limits (ESLs), as a measure to reduce PM10 and associated health effects. We present detailed modelled emissions (i.e., CO2, NOx, PM2.5 and PM10), concentration levels (i.e., PM2.5 and PM10) and population exposure to PM2.5 and PM10 under three scenarios of ESL implementation for the Metropolitan Area of Oslo. We find that whilst emissions of NOx and CO2 do not seem to show significant changes with ESL implementation, PM10 emissions are reduced by 6–12% and annual concentration levels are reduced up to 8%, with a subsequent reduction in population exposure. The modelled data is used to carry out a detailed analysis to quantify the changes in private and social costs for the roads in Oslo where ESL are implemented today. This involves assessments related to human health, climate, fuel consumption, time losses and the incidence of traffic accidents. For a scenario using actual speed data from ESL implementation, our study shows a net benefit associated with the implementation of ESLs, whilst for a theoretical scenario with strict speed limit compliance we find a net increase in costs. This is largely due to variation in costs due to time losses between the scenarios, although uncertainties are high.
Highlights
We present a comprehensive study on the impacts and associated changes in costs resulting from the implementation of Environmental Speed Limits (ESLs), as a measure to reduce PM10 and associated health effects
This study comprises an assessment of the impacts and associated changes in costs related to the implementation of Environmental Speed Limits (ESLs) in the Metropolitan Area of Oslo
Atmospheric concentrations were modelled with dispersion modelling and combined with population exposure at building points, and noise was evaluated based on acoustics modelling
Summary
New ESLs were introduced in 2006 (Ring 3; Fig. 1) and in 2007 (E18; Fig. 1) These roads are considered main arterial roads that experience high traffic volume due to people commuting from residences in the city outskirts to work in the city centre. For these roads, maximum speed limits were originally reduced from 80 to 60 km h−1 during the winter season (i.e., November 1st to April), when studded tyres are allowed due to winter meteorological conditions and slippery road surfaces.
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