Loading…

Evaluation of emissions in traffic reduction and pedestrianization scenarios in Madrid

•We evaluate reduction in CO, NOx and PM emissions in the ‘Madrid Central’•VISUM, COPERT Street level and R-Line models have been applied.•We consider exploratory traffic reduction and pedestrianization measures.•The decrease in pedestrian exposure to pollutants is assessed.•Combination of pedestria...

Full description

Saved in:
Bibliographic Details
Published in:Transportation research. Part D, Transport and environment Transport and environment, 2021-11, Vol.100, p.103064, Article 103064
Main Authors: Sánchez, José Manuel, Ortega, Emilio, López-Lambas, María Eugenia, Martín, Belén
Format: Article
Language:English
Subjects:
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•We evaluate reduction in CO, NOx and PM emissions in the ‘Madrid Central’•VISUM, COPERT Street level and R-Line models have been applied.•We consider exploratory traffic reduction and pedestrianization measures.•The decrease in pedestrian exposure to pollutants is assessed.•Combination of pedestrianizations and traffic reductions lead to good results. Cities have implemented a range of strategies to reduce traffic volumes and hence pollution; including low emission zones (LEZ) and pedestrianization. This paper aims to evaluate the degree of reduction in CO, NO × and PM emissions in Madrid’s ‘Centro’ LEZ after the adoption of traffic reduction and pedestrianization actions. We propose a current scenario of traffic volume and pedestrianized streets, and another set of exploratory scenarios. The methodology uses a traffic simulation model, followed by the estimation of the emissions at street level and their dispersion. These results are crossed with pedestrian routes to estimate the reduction in pedestrian exposure to these pollutants. The results show that improvements are generalized in scenarios where traffic is reduced. The results serve to analyse the rate of the decrease in pedestrian exposure to these pollutants and can provide evidence-based geographically-dimensioned information to identify priority actions.
ISSN:1361-9209
1879-2340
DOI:10.1016/j.trd.2021.103064