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Environ Pollut


Title:"Chemistry, transport, emission, and shading effects on NO(2) and O(x) distributions within urban canyons"
Author(s):Dai Y; Cai X; Zhong J; Mazzeo A; MacKenzie AR;
Address:"School of Geography, Earth & Environmental Sciences, University of Birmingham, Edgbaston, Birmingham, B15 2TT, UK. Electronic address: yxd598@bham.ac.uk. School of Geography, Earth & Environmental Sciences, University of Birmingham, Edgbaston, Birmingham, B15 2TT, UK. Electronic address: x.cai@bham.ac.uk. School of Geography, Earth & Environmental Sciences, University of Birmingham, Edgbaston, Birmingham, B15 2TT, UK. Electronic address: j.zhong.1@bham.ac.uk. School of Geography, Earth & Environmental Sciences, University of Birmingham, Edgbaston, Birmingham, B15 2TT, UK. Electronic address: mazzeo@bham.ac.uk. School of Geography, Earth & Environmental Sciences, University of Birmingham, Edgbaston, Birmingham, B15 2TT, UK. Electronic address: a.r.mackenzie@bham.ac.uk"
Journal Title:Environ Pollut
Year:2022
Volume:20221003
Issue:
Page Number:120347 -
DOI: 10.1016/j.envpol.2022.120347
ISSN/ISBN:1873-6424 (Electronic) 0269-7491 (Linking)
Abstract:"The capacity to predict NO(2) and the total oxidant (O(x) = NO(2) + O(3)) within street canyons is critical for the assessment of air quality regulations aimed at enhancing human wellbeing in urban hotspots. However, such assessment requires the coupling of numerous processes at the street-scale, such as vehicular emissions and tightly coupled transport and photochemical processes. Photochemistry, in particular, is often ignored, heavily simplified, or parameterized. In this study, MBM-FleX - a process-based street canyon model that allows fast computation of various emission profiles and sun-lit conditions with tightly coupled physical (transport and mixing) and chemical processes and without loss of sufficient spatial resolution - was used to simulate shading effects on reactive species within urban canyons. Driven by pre-generated large-eddy simulation of flow, MBM-FleX results show that shading effects on volatile organic compound (VOC) free-radicals significantly affect the interconversion of odd-oxygen species that cannot be captured by the simple NO(x)-O(3) chemistry, for example, reducing NO(2) by limiting the formation of hydroperoxyl radicals. Consistent with previous results in simpler model systems, the inclusion of VOC free-radical chemistry did not appreciably alter the sensitivity of NO(2) to shading intensity in regular canyons, but a non-linear relationship between NO(2) and shading intensity is found in deep canyons when the air residence time grew. When solar incidence simultaneously passes through multiple vortices in street canyons, VOC chemistry and shade may considerably influence model results, which may therefore affect the development of urban planning strategies and personal exposure evaluation"
Keywords:"Humans *Air Pollutants/analysis Nitrogen Dioxide Models, Theoretical *Air Pollution/analysis Vehicle Emissions/analysis *Volatile Organic Compounds/analysis Cities Environmental Monitoring Air pollution MBM-FleX Photochemistry Shading effects VOCs;"
Notes:"MedlineDai, Yuqing Cai, Xiaoming Zhong, Jian Mazzeo, Andrea MacKenzie, A Rob eng England 2022/10/07 Environ Pollut. 2022 Dec 15; 315:120347. doi: 10.1016/j.envpol.2022.120347. Epub 2022 Oct 3"

 
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