"the bus removed approximately 65g of pollutants from the air and cleaned 3.2 million cubic metres of the city’s air."<p>This sounded surprisingly low to me, at 20µg/m³ removed, so I went looking for more info. It seems correct:<p>"Typical urban atmospheric loadings of PM range from tens to hundreds of µg m⁻³
for PM10. For a city such as London, a mean mass concentration for PM10 of the order of 30 µg m⁻³ might be observed; considering the area of Greater London (ca. 400 km²
) and assuming a 1 km boundary layer height, this equates to around 12 tonnes of
material suspended above the city." -- <a href="https://www.rsc.org/images/environmental-brief-no-4-2014_tcm18-237725.pdf" rel="nofollow">https://www.rsc.org/images/environmental-brief-no-4-2014_tcm...</a><p>Comparison of PM10 for highly polluted European cities here: <a href="https://www.london.gov.uk/sites/default/files/comparison_of_air_quality_in_world_cities_study_final.pdf" rel="nofollow">https://www.london.gov.uk/sites/default/files/comparison_of_...</a><p>"Go-Ahead’s estimates show that the expanded fleet could remove as much as 1.25kg of PM10 from the air every year. If the air-filter was deployed on 2,500 buses across the UK, it could remove as much as 588kg of PM10 particles every year. In parallel, Bluestar has been fitting solar panels to buses, with a total of 19 vehicles to have them in place by the end of July. When five further buses are fitted with air filters, one of them will have a solar panel as well. This will enable a trial later this year to see whether solar energy can be used to make the air filter completely self-sufficient." -- <a href="https://www.bluestarbus.co.uk/air-filtering-bus-trial-success" rel="nofollow">https://www.bluestarbus.co.uk/air-filtering-bus-trial-succes...</a>.