A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
In-vehicle nitrogen dioxide concentrations in road tunnels
https://orcid.org/0000-0002-0268-0471
AbstractThere is a lack of knowledge regarding in-vehicle concentrations of nitrogen dioxide (NO2) during transit through road tunnels in urban environments. Furthermore, previous studies have tended to involve a single vehicle and the range of in-vehicle NO2 concentrations that vehicle occupants may be exposed to is not well defined. This study describes simultaneous measurements of in-vehicle and outside-vehicle NO2 concentrations on a route through Sydney, Australia that included several major tunnels, minor tunnels and busy surface roads. Tests were conducted on nine passenger vehicles to assess how vehicle characteristics and ventilation settings affected in-vehicle NO2 concentrations and the in-vehicle-to-outside vehicle (I/O) concentration ratio. NO2 was measured directly using a cavity attenuated phase shift (CAPS) technique that gave a high temporal and spatial resolution. In the major tunnels, transit-average in-vehicle NO2 concentrations were lower than outside-vehicle concentrations for all vehicles with cabin air recirculation either on or off. However, markedly lower I/O ratios were obtained with recirculation on (0.08–0.36), suggesting that vehicle occupants can significantly lower their exposure to NO2 in tunnels by switching recirculation on. The highest mean I/O ratios for NO2 were measured in older vehicles (0.35–0.36), which is attributed to older vehicles having higher air exchange rates. The results from this study can be used to inform the design and operation of future road tunnels and modelling of personal exposure to NO2.
HighlightsHigh-resolution measurements of nitrogen dioxide concentrations in urban road tunnels.Quantified in-vehicle nitrogen dioxide concentrations for typical passenger vehicles.Compared vehicles in terms of the inside-to-outside-vehicle nitrogen dioxide ratios.
In-vehicle nitrogen dioxide concentrations in road tunnels
https://orcid.org/0000-0002-0268-0471
AbstractThere is a lack of knowledge regarding in-vehicle concentrations of nitrogen dioxide (NO2) during transit through road tunnels in urban environments. Furthermore, previous studies have tended to involve a single vehicle and the range of in-vehicle NO2 concentrations that vehicle occupants may be exposed to is not well defined. This study describes simultaneous measurements of in-vehicle and outside-vehicle NO2 concentrations on a route through Sydney, Australia that included several major tunnels, minor tunnels and busy surface roads. Tests were conducted on nine passenger vehicles to assess how vehicle characteristics and ventilation settings affected in-vehicle NO2 concentrations and the in-vehicle-to-outside vehicle (I/O) concentration ratio. NO2 was measured directly using a cavity attenuated phase shift (CAPS) technique that gave a high temporal and spatial resolution. In the major tunnels, transit-average in-vehicle NO2 concentrations were lower than outside-vehicle concentrations for all vehicles with cabin air recirculation either on or off. However, markedly lower I/O ratios were obtained with recirculation on (0.08–0.36), suggesting that vehicle occupants can significantly lower their exposure to NO2 in tunnels by switching recirculation on. The highest mean I/O ratios for NO2 were measured in older vehicles (0.35–0.36), which is attributed to older vehicles having higher air exchange rates. The results from this study can be used to inform the design and operation of future road tunnels and modelling of personal exposure to NO2.
HighlightsHigh-resolution measurements of nitrogen dioxide concentrations in urban road tunnels.Quantified in-vehicle nitrogen dioxide concentrations for typical passenger vehicles.Compared vehicles in terms of the inside-to-outside-vehicle nitrogen dioxide ratios.
In-vehicle nitrogen dioxide concentrations in road tunnels
https://orcid.org/0000-0002-0268-0471
AbstractThere is a lack of knowledge regarding in-vehicle concentrations of nitrogen dioxide (NO2) during transit through road tunnels in urban environments. Furthermore, previous studies have tended to involve a single vehicle and the range of in-vehicle NO2 concentrations that vehicle occupants may be exposed to is not well defined. This study describes simultaneous measurements of in-vehicle and outside-vehicle NO2 concentrations on a route through Sydney, Australia that included several major tunnels, minor tunnels and busy surface roads. Tests were conducted on nine passenger vehicles to assess how vehicle characteristics and ventilation settings affected in-vehicle NO2 concentrations and the in-vehicle-to-outside vehicle (I/O) concentration ratio. NO2 was measured directly using a cavity attenuated phase shift (CAPS) technique that gave a high temporal and spatial resolution. In the major tunnels, transit-average in-vehicle NO2 concentrations were lower than outside-vehicle concentrations for all vehicles with cabin air recirculation either on or off. However, markedly lower I/O ratios were obtained with recirculation on (0.08–0.36), suggesting that vehicle occupants can significantly lower their exposure to NO2 in tunnels by switching recirculation on. The highest mean I/O ratios for NO2 were measured in older vehicles (0.35–0.36), which is attributed to older vehicles having higher air exchange rates. The results from this study can be used to inform the design and operation of future road tunnels and modelling of personal exposure to NO2.
HighlightsHigh-resolution measurements of nitrogen dioxide concentrations in urban road tunnels.Quantified in-vehicle nitrogen dioxide concentrations for typical passenger vehicles.Compared vehicles in terms of the inside-to-outside-vehicle nitrogen dioxide ratios.
In-vehicle nitrogen dioxide concentrations in road tunnels
Martin, Ashley N. (author) / Boulter, Paul G. (author) / Roddis, Damon (author) / McDonough, Liza (author) / Patterson, Michael (author) / Rodriguez del Barco, Marina (author) / Mattes, Andrew (author) / Knibbs, Luke D. (author)
Atmospheric Environment ; 144 ; 234-248
2016-08-30
15 pages
Article (Journal)
Electronic Resource
English
Results and Experiences with Nitrogen Dioxide (NO~2) Measurement in Road Tunnels
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