Abstract
Abstract. The CALIOPE Air Quality Forecast System (CALIOPE-AQFS) represents the current state of the art in air quality forecasting systems of high-resolution running on high-performance computing platforms. It provides a 48 h forecast of NO2, O3, SO2, PM10, PM2.5, CO, and C6H6 at a 4 km horizontal resolution over all of Spain, and at a 1 km horizontal resolution over the most populated areas in Spain with complex terrains (the Barcelona (BCN), Madrid (MAD) and Andalusia (AND) domains). Increased horizontal resolution from 4 to 1 km over the aforementioned domains leads to finer textures and more realistic concentration maps, which is justified by the increase in NO2/O3 spatial correlation coefficients from 0.79/0.69 (4 km) to 0.81/0.73 (1 km). High-resolution emissions using the bottom-up HERMESv2.0 model are essential for improving model performance when increasing resolution on an urban scale, but it is still insufficient. Decreasing grid spacing does not reveal the expected improvement in hourly statistics, i.e., decreasing NO2 bias by only ~ 2 μg m−3 and increasing O3 bias by ~ 1 μg m−3. The grid effect is less pronounced for PM10, because part of its mass consists of secondary aerosols, which are less affected than the locally emitted primary components by a decreasing grid size. The resolution increase has the highest impact over Barcelona, where air flow is controlled mainly by mesoscale phenomena and a lower planetary boundary layer (PBL). Despite the merits and potential uses of the 1-km simulation, the limitations of current model formulations do not allow confirmation of their expected superiority close to highly urbanized areas and large emissions sources. Future work should combine high grid resolutions with techniques that decrease subgrid variability (e.g., stochastic field methods), and also include models that consider urban morphology and thermal parameters.
Highlights
The World Health Organization (WHO) has recently shown that there is sufficient evidence that particulate matter (PM), ozone (O3) and nitrogen dioxide (NO2) affect human health (WHO, 2013)
The present work shows the effects of increasing the horizontal resolution from 4 km to 1 km using the CALIOPE-AQFS on pollutant concentrations (NO2, O3, and PM10) over three Spanish domains (AND, BCN and MAD) in April 2013
Further comparisons demonstrate that increasing the resolution provides better-defined and more realistic concentration structures over large emission sources and complex terrains
Summary
The World Health Organization (WHO) has recently shown that there is sufficient evidence that particulate matter (PM), ozone (O3) and nitrogen dioxide (NO2) affect human health (WHO, 2013). Jiménez et al (2006) used the MM5-CMAQ model along with a bottom-up emissions model EMICAT2000, Air Pollutants Emission from Catalonia during the year 2000 to assess the influence of grid resolution on O3 (at 8, 4, and 2 km) over the complex terrain of the northeastern Iberian Peninsula (Catalonia) during a summer pollution episode They found that both an improved performance of the mesoscale phenomena and a better allocation of emissions for the 2-km resolution improve the capability of the model to simulate exceedances of European limit values. Colette et al (2014) evaluated the impact of increasing resolution up to 2 km over the European continent by using the CHIMERE model for an episode of air pollution in 2009 They simulated 2 million grid cells using over 2000 CPUs of a high-performance computing system, which was hosted by the French Computing Centre for Research and Technology (CCRT/CEA).
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