Conference proceedings

Displaying 1 - 3 of 3 in modelling (remove filter), air (remove filter), CEST2023 (remove filter)

CEST Proceedings are published under the ISSN 2944-9820.

Multi-scale high-resolution atmospheric emission inventory for the transport sector

(Corresponding) Lopes D., Augusto B., Rafael S., Graça D., Rosa M., Relvas H., Ferreira J., Reis J., Lopes M.
Topic: 
Air pollution
This study aims to develop a multi-scale atmospheric emission inventory for the transport sector with high spatial and temporal resolution using Portugal as a case study. For that, a combination of the traditional method of emissions calculation with an innovative way to gather and process data (...Read more
Keywords: 
Big data, critical air pollutants, road transport; railways; aviation; air quality modelling
DOI: 
https://doi.org/10.30955/gnc2023.00016
Paper ID: 
cest2023_00016
Read more

UrbEm: a method and tool to refine regional emission inventories for urban atmospheric studies

(Corresponding) Kakouri A., Ramacher M., Kuenen J., Speyer O., Gerasopoulos E., Athanasopoulou E.
Topic: 
Environmental data analysis and modelling
As cities are growing in size and complexity, the estimation of air pollution exposure requires detailed spatial representation of air pollution levels. Intra-urban atmospheric studies require up-to-date and credible emission inventories. The Copernicus Atmosphere Monitoring Service (CAMS) provides...Read more
Keywords: 
air pollution, emissions, urban air quality, Chemistry Transport Modelling
DOI: 
https://doi.org/10.30955/gnc2023.00219
Paper ID: 
cest2023_00219
Read more

Life Cycle Assessment and Cost Benefit Analysis for the integrated assessment of an innovative Mn-TiO2 nanoparticle photocatalytic paint

(Corresponding) Karagkounis A., Fragkou E., Barmpas F., Efthimiou G., Tsegas G., Moussiopoulos N.
Topic: 
Air pollution and health
Life Cycle Assessment (LCA) and Cost Benefit Analysis (CBA) are applied in combination in the frame of an integrated assessment of a new photocatalytic paint product developed within the LIFE VISIONS project. The Mn-TiO2 nanoparticle photocatalytic paint has been demonstrated to efficiently remove...Read more
Keywords: 
TiO2 photocatalytic paint, indoor air quality, computational fluid dynamics modelling, life cycle analysis, cost benefit analysis
DOI: 
https://doi.org/10.30955/gnc2023.00355
Paper ID: 
cest2023_00355
Read more