Modelling Black Carbon concentrations in two busy street canyons in Brussels using CANSBC

This paper focused on modelling Black Carbon (BC) concentrations in two busy street canyons, the Crown and Belliard Street in Brussels. The used original Operational Street Pollution Model was adapted to BC by eliminating the chemical module and is noted here as CANSBC. Model validations were perfor...

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Published in:Atmospheric environment (1994) 2015-01, Vol.101, p.72-81
Main Authors: Brasseur, O., Declerck, P., Heene, B., Vanderstraeten, P.
Format: Article
Language:English
Subjects:
Black Carbon
Carbon
Computer simulation
Dispersions
Estimates
Modelling
Street canyon
Street canyons
Streets
Traffic
Traffic flow
Vehicles
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creator Brasseur, O.
Declerck, P.
Heene, B.
Vanderstraeten, P.
description This paper focused on modelling Black Carbon (BC) concentrations in two busy street canyons, the Crown and Belliard Street in Brussels. The used original Operational Street Pollution Model was adapted to BC by eliminating the chemical module and is noted here as CANSBC. Model validations were performed using temporal BC data from the fixed measurement network in Brussels. Subsequently, BC emissions were adjusted so that simulated BC concentrations equalled the observed ones, averaged over the whole period of simulation. Direct validations were performed for the Crown Street, while BC model calculations for the Belliard Street were validated indirectly using the linear relationship between BC and NOx. Concerning the Crown Street, simulated and observed half-hourly BC concentrations correlated well (r = 0.74) for the period from July 1st, 2011 till June 30th, 2013. In particular, CANSBC performed very well to simulate the monthly and diurnal evolutions of averaged BC concentrations, as well as the difference between weekdays and weekends. This means that the model correctly handled the meteorological conditions as well as the variation in traffic emissions. Considering dispersion, it should however be noted that BC concentrations are better simulated under stable than under unstable conditions. Even if the correlation on half-hourly NOx concentrations was slightly lower (r = 0.60) than the one of BC, indirect validations of CANSBC for the Belliard Street yielded comparable results and conclusions as described above for the Crown Street. Based on our results, it can be stated that CANSBC is suitable to accurately simulate BC concentrations in the street canyons of Brussels, under the following conditions: (i) accurate vehicle counting data is available to correctly estimate traffic emissions, and (ii) vehicle speeds are measured in order to improve emission estimates and to take into account the impact of the turbulence generated by moving vehicles on the local dispersion of BC. •BC concentrations were modelled for two busy canyon streets in Brussels.•Direct and indirect model validations were performed.•Average monthly and diurnal Black Carbon evolutions were excellently simulated.•Meteorological conditions and traffic emissions were handled very well.•Accurate vehicle counting and vehicle speed measurements are required.
doi_str_mv 10.1016/j.atmosenv.2014.10.049
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The used original Operational Street Pollution Model was adapted to BC by eliminating the chemical module and is noted here as CANSBC. Model validations were performed using temporal BC data from the fixed measurement network in Brussels. Subsequently, BC emissions were adjusted so that simulated BC concentrations equalled the observed ones, averaged over the whole period of simulation. Direct validations were performed for the Crown Street, while BC model calculations for the Belliard Street were validated indirectly using the linear relationship between BC and NOx. Concerning the Crown Street, simulated and observed half-hourly BC concentrations correlated well (r = 0.74) for the period from July 1st, 2011 till June 30th, 2013. In particular, CANSBC performed very well to simulate the monthly and diurnal evolutions of averaged BC concentrations, as well as the difference between weekdays and weekends. This means that the model correctly handled the meteorological conditions as well as the variation in traffic emissions. Considering dispersion, it should however be noted that BC concentrations are better simulated under stable than under unstable conditions. Even if the correlation on half-hourly NOx concentrations was slightly lower (r = 0.60) than the one of BC, indirect validations of CANSBC for the Belliard Street yielded comparable results and conclusions as described above for the Crown Street. 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This means that the model correctly handled the meteorological conditions as well as the variation in traffic emissions. Considering dispersion, it should however be noted that BC concentrations are better simulated under stable than under unstable conditions. Even if the correlation on half-hourly NOx concentrations was slightly lower (r = 0.60) than the one of BC, indirect validations of CANSBC for the Belliard Street yielded comparable results and conclusions as described above for the Crown Street. Based on our results, it can be stated that CANSBC is suitable to accurately simulate BC concentrations in the street canyons of Brussels, under the following conditions: (i) accurate vehicle counting data is available to correctly estimate traffic emissions, and (ii) vehicle speeds are measured in order to improve emission estimates and to take into account the impact of the turbulence generated by moving vehicles on the local dispersion of BC. •BC concentrations were modelled for two busy canyon streets in Brussels.•Direct and indirect model validations were performed.•Average monthly and diurnal Black Carbon evolutions were excellently simulated.•Meteorological conditions and traffic emissions were handled very well.•Accurate vehicle counting and vehicle speed measurements are required.</description><subject>Black Carbon</subject><subject>Carbon</subject><subject>Computer simulation</subject><subject>Dispersions</subject><subject>Estimates</subject><subject>Modelling</subject><subject>Street canyon</subject><subject>Street canyons</subject><subject>Streets</subject><subject>Traffic</subject><subject>Traffic flow</subject><subject>Vehicles</subject><issn>1352-2310</issn><issn>1873-2844</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><recordid>eNqNkUtPwzAQhC0EEqXwF5CPXBL8ip3caCNeEo8DcOBk2Y6DXFIbYqeo_55ELXdOu5odjTT7AXCOUY4R5perXKV1iNZvcoIwG8UcseoAzHApaEZKxg7HnRYkIxSjY3AS4wohREUlZuD9MTS265z_gMtOmU9Yq14HD03wxvrUq-SCj9B5mH4C1EPcwph6axM0ym_3p2U_xGi7CIc4BdWLp5dlfQqOWtVFe7afc_B2c_1a32UPz7f39eIhs7iiKdO44Uy3RaMFp9TQgisrBFGFUpwT2laltoJoqikSbVWVpWJM0ZIURGOBSkLn4GKX-9WH78HGJNcumrGT8jYMUWLOERKEI_oPKxMIcVZMqVc761jLbpztZTTOjj9pXG9Nkk1wEiM5AZAr-QdATgAmfQRAfwGjn3w0</recordid><startdate>201501</startdate><enddate>201501</enddate><creator>Brasseur, O.</creator><creator>Declerck, P.</creator><creator>Heene, B.</creator><creator>Vanderstraeten, P.</creator><general>Elsevier Ltd</general><scope>7ST</scope><scope>7TG</scope><scope>7TV</scope><scope>7UA</scope><scope>C1K</scope><scope>F1W</scope><scope>H96</scope><scope>KL.</scope><scope>L.G</scope><scope>SOI</scope><scope>7SU</scope><scope>8FD</scope><scope>FR3</scope><scope>H8D</scope><scope>KR7</scope><scope>L7M</scope></search><sort><creationdate>201501</creationdate><title>Modelling Black Carbon concentrations in two busy street canyons in Brussels using CANSBC</title><author>Brasseur, O. ; 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The used original Operational Street Pollution Model was adapted to BC by eliminating the chemical module and is noted here as CANSBC. Model validations were performed using temporal BC data from the fixed measurement network in Brussels. Subsequently, BC emissions were adjusted so that simulated BC concentrations equalled the observed ones, averaged over the whole period of simulation. Direct validations were performed for the Crown Street, while BC model calculations for the Belliard Street were validated indirectly using the linear relationship between BC and NOx. Concerning the Crown Street, simulated and observed half-hourly BC concentrations correlated well (r = 0.74) for the period from July 1st, 2011 till June 30th, 2013. In particular, CANSBC performed very well to simulate the monthly and diurnal evolutions of averaged BC concentrations, as well as the difference between weekdays and weekends. This means that the model correctly handled the meteorological conditions as well as the variation in traffic emissions. Considering dispersion, it should however be noted that BC concentrations are better simulated under stable than under unstable conditions. Even if the correlation on half-hourly NOx concentrations was slightly lower (r = 0.60) than the one of BC, indirect validations of CANSBC for the Belliard Street yielded comparable results and conclusions as described above for the Crown Street. Based on our results, it can be stated that CANSBC is suitable to accurately simulate BC concentrations in the street canyons of Brussels, under the following conditions: (i) accurate vehicle counting data is available to correctly estimate traffic emissions, and (ii) vehicle speeds are measured in order to improve emission estimates and to take into account the impact of the turbulence generated by moving vehicles on the local dispersion of BC. •BC concentrations were modelled for two busy canyon streets in Brussels.•Direct and indirect model validations were performed.•Average monthly and diurnal Black Carbon evolutions were excellently simulated.•Meteorological conditions and traffic emissions were handled very well.•Accurate vehicle counting and vehicle speed measurements are required.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.atmosenv.2014.10.049</doi><tpages>10</tpages></addata></record>
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source ScienceDirect Freedom Collection
subjects Black Carbon
Carbon
Computer simulation
Dispersions
Estimates
Modelling
Street canyon
Street canyons
Streets
Traffic
Traffic flow
Vehicles
title Modelling Black Carbon concentrations in two busy street canyons in Brussels using CANSBC
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