FILTERS MAY NOT BE THE EMISSION SAFETY NET WE THINK THEY ARE

Sao Paulo, Brazil, May 07, 2013 Traffic Jam in 23 de Maio Avenue, downtown Sao Paulo

New research has shown that filters fitted to vehicle exhaust systems to remove particulate matter pollution have limited impact on ultrafine particles.

Lead author on the study, Professor Roy Harrison, said the research shows that current, widely-used filters are not effective against these smaller particles and that the study welcomed recommendations from the World Health Organisation that surveillance of these measurements increase and noted with concern that current concentrations measured in London are classified as ‘high’.

“High concentrations of ultrafine particles are likely to be a widespread and persistent phenomenon, and in order to meet WHO guidelines we are likely to need a much higher uptake of electric vehicles, as well as additional measures to reduce emissions from diesel vehicles,” Professor Harrison added.

The study showed that airborne particles from vehicle emissions are a major contributor to air pollution levels with exhaust filters designed to mitigate this pollution have been a legal requirement in new cars since 2011, and in heavy duty vehicles since 2013.

The filters are able to remove the majority of larger, solid particles, but the new study, published in Environment International, shows they are less effective at removing smaller liquid particles.

While the World Health Organisation has not yet set a guideline for safe levels of ultrafine particles, it recognises that particulate pollution overall is associated with negative impacts on cardiovascular and respiratory health. Air quality guidelines published by WHO in 2021 also outline concerns over ultrafine particles and their ability to be transported around the body.

The team used data collected in from a monitoring station in Marylebone Road, in London. Air quality sampling at this site has produced the most comprehensive, long-term dataset in the world, containing data for particle mass and number dating back to 2010.

The data showed a steep decline in larger particles. Black carbon, for example, declined by 81 per cent  between 2014 and 2021. The study showed that this is a clear indication that there has been a positive impact from the introduction of exhaust filters.

In contrast, however, the number of particles described as ‘ultrafine’ – smaller than 100 nanometres – reduced by only 26 per cent. The smallest group of particles, measuring less than 30 nanometres, did not reduce at all, giving a clear indication that filters are not effective against these types of particle.

The WHO guidelines define concentrations of ultrafine particles above 10,000 per cubic cm as “high”and concentrations measured at the Marylebone Road site were around twice this level.