This book states that current developments in air pollution modeling are explored as a series of contributions from researchers at the forefront of their field. This newest contribution on air pollution modeling and its application is focused on local, urban, regional and intercontinental modeling; long-term modeling and trend analysis; data assimilation and air quality forecasting; model assessment and evaluation; aerosol transformation. Additionally, this work also examines the relationship between air quality and human health and the effects of climate change on air quality.
This work is a collection of selected papers presented at the 38th International Technical Meeting on Air Pollution Modeling and its Application, held in Barcelona, Spain, Oct 18–22, 2021.
The book is intended as reference material for students and professors interested in air pollution modeling at the graduate level as well as researchers and professionals involved in developing and utilizing air pollution models.
Air Quality Forecast Systems from the Regional Scale to the Urban
Street.- Urban Vegetation Effects on Meteorology and Air Quality: A
Comparison of Three European Cities.- The Impact of Imperviousness on
Boundary Layer Mixing, Air Pollution and Cloud Formation Over Urban Areas.-
Comparison of Different Modeling Strategies for Estimating Long-term PM2.5
Exposure Using MAIAC (Multiangle Implementation of Atmospheric Correction)
AOD in China.- Developments of SPRAY Lagrangian Particle Dispersion Model for
Tracing the Origin of Odour Nuisance.- On the Utilization of Real-time
Activity and Air Quality Sensor Data in a Local-scale Operative Dispersion
Model in Helsinki.- 3D Multi-scale Weather and Dispersion Models Applied to
Assess the Impact of Industrial Plants on Human Health and the Environment.-
Calibration and Application of the Integrated Assessment Tool RIAT+ for Air
Quality Planning in the Po Valley.- Effect of Atmospheric Stability on
Modeling Air Quality In and Around a MajorAirport.- Modelling Street-scale
Resolution Air Quality for the West Midlands (UK) Using the ADMS-Urban RML
System.- Urban Air Pollution Reduction During the COVID Pandemia.- Predicting
Hourly Street-scale NO2 and PM2.5 Concentrations Using Machine Learning at
One of the Danish Traffic Hotspots.- Sources and Processes Affecting Air
Pollution in the Arctic and Northern High Latitudes A Modelling Study.-
Contributions of Source Regions to Changes in Long-Range Transported Ozone to
North America During 1990-2010: A Modeling Analysis.- Diagnostic Analysis of
CMAQ Dry Deposition Fields in the Context of AQMEII4.- Forecasting Birch
Pollen Levels in Belgium: First Analysis of the 2021 Season.- Air Quality
Improvements During the COVID-19 Lockdown in Central Europe: Separation of
Emission Reduction and Meteorological Impacts.- Analysis of Emission-driven
Changes in the Oxidation Capacity of the Atmosphere in Major European Urban
Cities.- Attribution of the Californian Fire Emissions to the Surface
Pollutant Levels in Sweden.- Wildfire Emissions and Atmospheric Dispersion.-
Ozone Episodes in Northern and Western Iberia: Understanding and Quantifying
the Sources and Transport Mechanisms by Integrated Process Analysis.-
Recommendations and Generic Data Assimilation Tools for the Improvement of
CAMS Regional Air Quality Service.- Status and Future Vision of the CALIOPE
Air Quality Forecasting System: Support for Air Quality Policies.- Data
Fusion for the Improvement of Low-Cost Air Quality Sensors.- An Evaluation of
Data-driven Models.- Assimilation of Surface Ozone Measurements to WRF-Chem
Impact on the Model Capability to Predict Peak Concentrations.- Forecasting
PM2.5 Concentrations with uEMEP and EMEP4PL for Poland.- Influence of
Meteorology on Fine Particles Concentration in an Urban Center in Southeast
of Brazil.- Climate Change Impact on Source Contributions to the Air Quality
in Aveiro Region.- Intercomparison and Sensitivity Analysis of Gas-phase Dry
Deposition Schemes.- The WMO Barcelona Dust Regional Center: Linking Research
with the Development of Dust User-oriented Services.- Performance of SILAM
Model in Respect to Peak Concentrations of Trace Gases Attributable to
Regional Point Sources.- MONARCH Regional Reanalysis of Desert Dust Aerosols:
An Initial Assessment.- How Does the Use of Different Soil Mineralogical
Atlases Impact Soluble Iron Deposition Estimates?.- Modelling the Absorption
of Organic Aerosols at Regional and Global Scales.- Comparative Study Between
the Effects of Autumn and Winter Rainfall on Aerobiological Variables in the
NE of the Iberian Peninsula.- Estimating Particulate Matter Using Remote
Sensing Data and Meteorological Variables Over Ahvaz, Iran.- Modelling of
Biogenic Volatile Organic Compounds Emissions Using a Detailed Vegetation
Inventory Over a Southern Italy Region.- Modelling Pollutant Concentrations
in Streets: a Sensitivity Analysis to Asphalt and Traffic Related Emissions.-
An Updated Agriculture EmissionsInventory and Contribution Estimation Using
WRF-CMAQ Model for Turkey.- Evaluation of Satellite Vegetation Indices for
BVOC Emission Modelling. Case Study: Basque Country.- Impact of
Facility-Specific Temporal Profiles for Public Power Sector on WRF-CMAQ
Simulations.- Urban Population Exposure to Air Pollution Under COVID-19
Lockdown Conditions - Combined Effects of Emissions & Population Activity.-
Towards a Comprehensive Evaluation of the Environmental and Health Impacts of
Shipping Emissions.- Modelling Short-term Health Effects in Milan Area Due to
Lockdown Reduced Emissions: Combined Uncertainty Analysis from Estimated NO2
Levels and Exposure-Response Functions.
Professor Clemens Mensink is head of the environmental modelling unit at VITO in Belgium. The unit employs over 100 researchers, ICT professionals and technicians. It develops, improves and implements methodologies and computer models to estimate the impact of human activities on air, climate, water and soil quality in a spatial context. Clemens received his PhD (1992) and a post graduate degree (1988) in fluid dynamics from the Von Karman Institute in Belgium. He studied chemical engineering, fluid mechanics and numerical mathematics, and received his MSc (1987) in mechanical engineering from University of Twente in the Netherlands. In 1998 he received the ENERO prize. Clemens is currently president of the International Technical Meeting on Air Pollution Modelling and its Applications. He is an expert in air pollution modelling and author of more than 80 peer-reviewed publications in international journals. He is professor atmospheric modelling at Ghent University in Belgium.
Dr. Oriol Jorba is Co-Group leader of the Atmospheric Composition group at the Barcelona Supercomputing Center in Spain. Oriol holds a PhD degree in Environmental Engineering (2005) from the Universitat Politècnica de Catalunya in Spain. His research expertise includes high resolution air pollution modeling, development of online meteorology-chemistry models, atmospheric chemistry studies and environmental impact assessment. He has lead the research project on the development of the multiscale chemical weather forecasting system MONARCH at BSC which provides operational forecasts for the Barcelona Dust Regional Center of the World Meteorological Organization and the Copernicus Atmosphere Monitoring Service. He is part of the International Technical Meeting on Air Pollution Modelling and its Application (ITM) scientific committee since 2012 and the steering committee of the international project Monitoring, Analysis and Prediction of Air Quality (MAP-AQ)sponsored by WMO and IGAC since 2020. He has contributed to multiple European and national research projects and is author of more than 80 peer-reviewed publications in international scientific journals.
