Comprehensive approach to national tire wear emissions: Challenges and implications
Journal article, 2024

The use of vehicle tires has been identified as a major source of microplastics in the environment and an increasing source of urban particulate air pollution. In light of increasing traffic volumes, increasingly heavier and more powerful vehicles due to trends and electrification, and the lack of tire wear regulation, methods to estimate and monitor changes in national emissions are needed as input for environmental impact assessments. Emission estimations of tire wear are made either based on the mileage approach or the sales approach. This study aims to investigate if and how the mileage approach can be improved by using emission factors for passenger cars and LDVs based on our own measurements and emission factors from the literature for HDVs and buses. An approach with emission factor adjustments based on weight and number of tires in combination with highly detailed mileage data has been evaluated. Sales approach calculations have been used to validate the method. A secondary aim was to use the new mileage approach framework to calculate the national tire wear emissions for Sweden. These calculations resulted in slightly lower total emissions than previous estimations provide, but with higher emissions for passenger cars and light-duty vehicles, and lower emissions for heavy-duty vehicles and motorcycles. Passenger cars constitute more than half of the total emissions. It is concluded that even though the framework offers greater detail, thus increasing the possibilities to adjust for changes in emission factors and mileages in specific vehicle categories, the challenges posed by such factors as the lack of measured emission factors for heavy-duty vehicles and uncertainties regarding the quality of mileage statistics makes the estimations uncertain. Important future suggestions for research include establishing reliable emission factors, especially for heavy-duty vehicles, and initiating research to better understand how climate, road networks, surface properties, and vehicle fleet characteristics affect emission factors.

Emission

Tire

Microplastics

Vehicle

Wear

Road

Author

Maria Polukarova

Chalmers, Architecture and Civil Engineering, Water Environment Technology

The Swedish National Road and Transport Research Institute (VTI)

Mattias Hjort

The Swedish National Road and Transport Research Institute (VTI)

Mats Gustafsson

The Swedish National Road and Transport Research Institute (VTI)

Science of the Total Environment

00489697 (ISSN) 18791026 (eISSN)

Vol. 924 171391

Subject Categories

Transport Systems and Logistics

Vehicle Engineering

Environmental Sciences

DOI

10.1016/j.scitotenv.2024.171391

PubMed

38431172

More information

Latest update

3/26/2024