Construction emerges as major source of black carbon in central London
New research has revealed that construction activity is now a dominant source of black carbon emissions in central London.
While pollution levels from road traffic have fallen significantly thanks to policies like the Ultra Low Emission Zone (ULEZ), new air pollution data from scientists at The University of Manchester, in collaboration with the UK Centre for Ecology & Hydrology (UKCEH), University of York, Zhejiang University and National Centre for Atmospheric Science, reveal emissions from non-road mobile machinery, such as generators and heavy-duty construction equipment, can exceed those from vehicles, particularly in areas where there is a lot of building activity.
Black carbon is soot from combustion and is a component of particulate matter (PM2.5). These are very fine particles that can enter the lungs and bloodstream and are known to damage human health.
The team collected the pollution measurements from the top of the BT Tower in central London over summer and winter, using a technique called eddy covariance to track how much black carbon is released into the air and where it comes from.
The findings revealed that while pollution levels were significantly lower than cities like Beijing and Delhi, who have monitored pollution using the same method, they are not low enough to meet the . They suggest similar regulatory attention to road traffic is now needed for the construction sector.
The study, published in the journal is the first of its kind in Europe.
鈥淲e found only minimal emissions from traffic, which is consistent with emissions reductions associated with Euro 6, the standard for diesel engines specified by ULEZ. This is in contrast to previous measurements in London, collected in 2012, which showed a strong association between traffic and black carbon.
鈥淎t the time, diesel particle filters had only been introduced relatively recently. And while domestic wood burning is also known to be a source of black carbon in the UK, this was predictably not found to be the case in central London, which is mainly commercial rather than residential.鈥
At 190 metres tall, the BT Tower observatory has a specialised gas inlet system installed on the tower鈥檚 roof, which draws air into a laboratory on the 35th floor, allowing researchers to analyse pollution as it rises from streets, buildings, construction sites and nearby parks below.
The 鈥榚ddy covariance鈥 method works by measuring the turbulent motion of air, also known as eddies, and the concentration of airborne substances like black carbon within those eddies.
The scientists also conducted a detailed spatial footprint analysis to pinpoint emission hotspots that were directly linked to active construction sites near the BT Tower.
The new findings suggest that further progress in improving London鈥檚 air quality will require stricter regulation of construction machinery, especially in rapidly developing areas.
added: 鈥淲e compared observed emissions with emission standards for construction equipment and found that even with compliance, black carbon output from generators, machinery and construction vehicles remains significant. Our work highlights how measurement techniques like eddy covariance can fill critical gaps in our understanding of urban pollution and support evidence-based strategies to protect public health and the environment.鈥
This research was published in the journal Environmental Sciences: Atmospheres
Full title: Quantifying black carbon emissions from traffic and construction in central London using eddy covariance
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