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dc.contributor.authorBenavides, Jaime
dc.contributor.authorSnyder, Michelle
dc.contributor.authorGuevara, Marc
dc.contributor.authorSoret, Albert
dc.contributor.authorPérez García-Pando, Carlos
dc.contributor.authorAmato, Fulvio
dc.contributor.authorQuerol, Xavier
dc.contributor.authorJorba Casellas, Oriol
dc.contributor.otherBarcelona Supercomputing Center
dc.identifier.citationBenavides, J. [et al.]. CALIOPE-Urban v1.0: coupling R-LINE with a mesoscale air quality modelling system for urban air quality forecasts over Barcelona city (Spain). "Geoscientific Model Development (GMD)", 2019, vol. 12, núm. 7, p. 2811-2835.
dc.description.abstracthe NO2 annual air quality limit value is systematically exceeded in many European cities. In this context, understanding human exposure, improving policy and planning, and providing forecasts requires the development of accurate air quality models at the urban (street level) scale. We describe CALIOPE-Urban, a system coupling CALIOPE – an operational mesoscale air quality forecast system based on the HERMES (emissions), WRF (meteorology) and CMAQ (chemistry) models – with the urban roadway dispersion model R-LINE. Our developments have focused on Barcelona city (Spain), but the methodology may be replicated for other cities in the future. WRF drives pollutant dispersion and CMAQ provides background concentrations to R-LINE. Key features of our system include the adaptation of R-LINE to street canyons, the use of a new methodology that considers upwind grid cells in CMAQ to avoid double counting traffic emissions, a new method to estimate local surface roughness within street canyons, and a vertical mixing parameterisation that considers urban geometry and atmospheric stability to calculate surface level background concentrations. We show that the latter is critical to correct the night-time overestimations in our system. Both CALIOPE and CALIOPE-Urban are evaluated using two sets of observations. The temporal variability is evaluated against measurements from five traffic sites and one urban background site for April–May 2013. While both systems show a fairly good agreement at the urban background site, CALIOPE-Urban shows a better agreement at traffic sites. The spatial variability is evaluated using 182 passive dosimeters that were distributed across Barcelona during 2 weeks for February–March 2017. In this case, the coupled system also shows a more realistic distribution than the mesoscale system, which systematically underpredicts NO2 close to traffic emission sources. Overall CALIOPE-Urban improves mesoscale model results, demonstrating that the combination of both scales provides a more realistic representation of NO2 spatio-temporal variability in Barcelona.
dc.description.sponsorshipJaime Benavides' PhD work is funded by grant BES-2014-070637 from the FPI programme by the Spanish Ministry of the Economy and Competitiveness. Jaime Benavides developed part of this work as a research visitor at the Institute for the Environment at UNC funded by mobility grant EEBB-I-17-12296 from the same ministry. IDAEA-CSIC acknowledges the Barcelona City Council for their support to the experimental campaign. Carlos Pérez García-Pando acknowledges the long-term support from the AXA Chair in Sand and Dust Storms (AXA Research Fund), as well as the support received through the Ramón y Cajal programme (grant RYC-2015-18690) of the Spanish Ministry of Economy and Competitiveness. This research has been supported by the Spanish Ministry of the Economy and Competitiveness (grant nos. CGL2013-46736-R, CGL2016-75725-R and RTI2018-099894-BI00), as well as the Catalan Government (grant no. RIS3CAT-COM15-1-0011-04).
dc.format.extent25 p.
dc.publisherCopernicus Publications
dc.rightsAttribution 3.0 Spain
dc.rightsCreative Commons Attribution 4.0 License
dc.subjectÀrees temàtiques de la UPC::Desenvolupament humà i sostenible::Degradació ambiental::Contaminació atmosfèrica
dc.subject.lcshAir quality
dc.subject.lcshComputer simulation
dc.subject.otherAir quality forecast
dc.subject.otherAir quality modelling
dc.subject.otherCALIOPE-Urban v1.0
dc.subject.otherUrban air quality
dc.titleCALIOPE-Urban v1.0: coupling R-LINE with a mesoscale air quality modelling system for urban air quality forecasts over Barcelona city (Spain)
dc.subject.lemacAire -- Qualitat
dc.subject.lemacSimulació per ordinador
dc.description.peerreviewedPeer Reviewed
dc.rights.accessOpen Access
dc.description.versionPostprint (published version)
local.citation.publicationNameGeoscientific Model Development (GMD)

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Attribution 3.0 Spain
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