Environmental Science: Water Science and Technology
; Earth and Planetary Sciences: Earth-Surface Processes
; Environmental Science: Environmental Chemistry
英文摘要:
We present high-resolution model results of air pollution and deposition over the Netherlands with three models, the Eulerian grid model LOTOS-EUROS, the Gaussian plume model OPS and the hybrid model LEO. The latter combines results from LOTOS-EUROS and OPS using source apportionment techniques. The hybrid modelling combines the efficiency of calculating at high-resolution around sources with the plume model, and the accuracy of taking into account long-range transport and chemistry with a Eulerian grid model. We compare calculations from all three models with measurements for the period 2009–2011 for ammonia, NOx, secondary inorganic aerosols, particulate matter (PM10) and wet deposition of acidifying and eutrophying components (ammonium, nitrate and sulfate). It is found that concentrations of ammonia, NOxand the wet deposition components are best represented by the Gaussian plume model OPS. Secondary inorganic aerosols are best modelled with the LOTOS-EUROS model, and PM10is best described with the LEO model. Subsequently for the year 2011, PM10concentration and reduced nitrogen dry deposition maps are presented with respectively the OPS and LEO model. Using the LEO calculations for the production of the PM10map, yields an overall better result than using the OPS calculations for this application. This is mainly due to the fact that the spatial distribution of the secondary inorganic aerosols is better described in the LEO model than in OPS, and because more (natural induced) PM10sources are included in LEO, i.e. the contribution to PM10of sea-salt and wind-blown dust as calculated by the LOTOS-EUROS model. Finally, dry deposition maps of reduced nitrogen over the Netherlands are compared as calculated by respectively the OPS and LEO model. The differences between both models are overall small (�100�mol/ha) with respect to the peak values observed in the maps (>2000�mol/ha). This is due to the fact that the contribution of dry deposition of reduced nitrogen caused by emissions outside of the Netherlands is small, so effectively most of the calculated deposition in the LEO model comes from the model results from OPS. � 2017 Elsevier Ltd
National Institute for Public Health and the Environment (RIVM), Centre for Environmental Quality, P. O. Box 1, Bilthoven, BA, Netherlands
Recommended Citation:
van der Swaluw E,, de Vries W,, Sauter F,et al. High-resolution modelling of air pollution and deposition over the Netherlands with plume, grid and hybrid modelling[J]. Atmospheric Environment,2017-01-01,155