Your search keyword '"Karttunen, Sasu"' showing total 3 results

1. Large-eddy simulation of aerosol concentrations in a realistic urban environment: Model validation and transport mechanism.

Author

Du, Yaxing, Isaxon, Christina, Roldin, Pontus, Mattisson, Kristoffer, Karttunen, Sasu, Li, Xiaoyu, Malmqvist, Ebba, and Järvi, Leena

Subjects

LARGE eddy simulation models, AIR pollutants, URBAN pollution, AIR pollution, AIR quality

Abstract

Air pollution in urban environments exhibits large spatial and temporal variations due to high heterogeneous air flow and emissions. To address the complexity of local air pollutant dynamics, a comprehensive large-eddy simulation using the PALM model system v6.0 was conducted. The distribution of flow and vehicle emitted aerosol particles in a realistic urban environment in Malmö, Sweden, was studied and evaluated against on-site measurements made using portable instrumentation on a spring morning in 2021. The canyon transport mechanisms were investigated, and the convective and turbulent mass-transport rates compared to clarify their role in aerosol transport. The horizontal distribution of aerosols showed acceptable evaluation metrics for both mass and number. Flow and pollutant concentrations were more complex than those in idealized street canyon networks. Vertical turbulent mass-transport rate was found to dominate the mass transport process compared with the convective transport rate, contributing more than 70% of the pollutant transport process. Our findings highlight the necessity of examining various aerosol metric due their distinct dispersion behaviour. This study introduces a comprehensive high-resolution modelling framework that accounts for dynamic meteorological and aerosol background boundary conditions, real-time traffic emission, and detailed building features, offering a robust toll for local urban air quality assessment. Building polygons © Lantmäteriet. [Display omitted] • PALM model system demonstrates good performance compared to portable instruments. • Pollutant distributions have greater complexity than seen in idealized domains. • Different aerosol metrics vary in their dispersion behaviour. • Vertical turbulent transport contributes to 70% of the pollutant transport process. [ABSTRACT FROM AUTHOR]

Published

2024

2. Sensitivity of spatial aerosol particle distributions to the boundary conditions in the PALM model system 6.0.

Author

Kurppa, Mona, Roldin, Pontus, Strömberg, Jani, Balling, Anna, Karttunen, Sasu, Kuuluvainen, Heino, Niemi, Jarkko V., Pirjola, Liisa, Rönkkö, Topi, Timonen, Hilkka, Hellsten, Antti, and Järvi, Leena

Subjects

AEROSOLS, NUMERICAL weather forecasting, AIR pollutants, CITY traffic, AIR quality, AIR pollution

Abstract

High-resolution modelling is needed to understand urban air quality and pollutant dispersion in detail. Recently, the PALM model system 6.0, which is based on large-eddy simulation (LES), was extended with the detailed Sectional Aerosol module for Large Scale Applications (SALSA) v2.0 to enable studying the complex interactions between the turbulent flow field and aerosol dynamic processes. This study represents an extensive evaluation of the modelling system against the horizontal and vertical distributions of aerosol particles measured using a mobile laboratory and a drone in an urban neighbourhood in Helsinki, Finland. Specific emphasis is on the model sensitivity of aerosol particle concentrations, size distributions and chemical compositions to boundary conditions of meteorological variables and aerosol background concentrations. The meteorological boundary conditions are taken from both a numerical weather prediction model and observations, which occasionally differ strongly. Yet, the model shows good agreement with measurements (fractional bias <0.67 , normalised mean squared error <6 , fraction of the data within a factor of 2 >0.3 , normalised mean bias factor <0.25 and normalised mean absolute error factor <0.35) with respect to both horizontal and vertical distribution of aerosol particles, their size distribution and chemical composition. The horizontal distribution is most sensitive to the wind speed and atmospheric stratification, and vertical distribution to the wind direction. The aerosol number size distribution is mainly governed by the flow field along the main street with high traffic rates and in its surroundings by the background concentrations. The results emphasise the importance of correct meteorological and aerosol background boundary conditions, in addition to accurate emission estimates and detailed model physics, in quantitative high-resolution air pollution modelling and future urban LES studies. [ABSTRACT FROM AUTHOR]

Published

2020

3. Determinants of spatial variability of air pollutant concentrations in a street canyon network measured using a mobile laboratory and a drone.

Author

Järvi, Leena, Kurppa, Mona, Kuuluvainen, Heino, Rönkkö, Topi, Karttunen, Sasu, Balling, Anna, Timonen, Hilkka, Niemi, Jarkko V., and Pirjola, Liisa

Published

2023