Publications

A multi-criteria approach to evaluate impacts of particulate matter on children's health in urban areas.

Dunea, D.; Iordache, S.; Liu, H.-Y.; Bøhler, T.; Ianache, C.; Savu, T.

A modelling study of an extraordinary night time episode over Madrid domain.

San José, R.; Stohl, A.; Karatzas, Bøhler, T.; James, P.; Pérez, J.L.

A model sensitivity study of the impact of clouds on satellite detection and retrieval of volcanic ash.

Kylling, A.; Kristiansen, N.; Stohl, A.; Buras-Schnell, R.; Emde, C.; Gasteiger, J.

A method for sampling and measuring RGM (reactive gaseous mercury) in ambient air.

Valdal, A.; Berg, T.; Wibetoe, G.

A Machine Learning Approach to Retrieving Aerosol Optical Depth Using Solar Radiation Measurements

Logothetis, Stavros-Andreas; Salamalikis, Vasileios; Kazantzidis, Andreas

Aerosol optical depth (AOD) constitutes a key parameter of aerosols, providing vital information for quantifying the aerosol burden and air quality at global and regional levels. This study demonstrates a machine learning strategy for retrieving AOD under cloud-free conditions based on the synergy of machine learning algorithms (MLAs) and ground-based solar irradiance data. The performance of the proposed methodology was investigated by applying different components of solar irradiance. In particular, the use of direct instead of global irradiance as a model feature led to better performance. The MLA-based AODs were compared to reference AERONET retrievals, which encompassed RMSE values between 0.01 and 0.15, regardless of the underlying climate and aerosol environments. Among the MLAs, artificial neural networks outperformed the other algorithms in terms of RMSE at 54% of the measurement sites. The overall performance of MLA-based AODs against AERONET revealed a high coefficient of determination (R2 = 0.97), MAE of 0.01, and RMSE of 0.02. Compared to satellite (MODIS) and reanalysis (MERRA-2 and CAMSRA) data, the MLA-AOD retrievals revealed the highest accuracy at all stations. The ML-AOD retrievals have the potential to expand and complement the AOD information in non-existing timeframes when solar irradiances are available.

MDPI

A literature survey on selected chemical compounds. Literature survey of polyfluorinated organic compounds, phosphor containing flame retardants, 3-nitrobenzanthrone, organic tin compounds, platinum and silver. TA-2238/2007

Herzke, D.; Schlabach, M.; Mariussen, E.; Uggerud, H.; Heimstad, E.

A life cycle perspective on the benefits of renewable electricity generation – Methodology and assumptions

Bouman, Evert

ETC/CME

A large eddy simulation study of mean dispersion and concentration fluctuations from a point source.

Cassiani, M.; Ardeshiri, H.; Park, S.-Y.; Stohl, A.; Marro, M.; Salizzoni, P.; Pisso, I.; Stebel, K.; Dinger, A. S.; Kylling, A.

A Lagrangian analysis of the atmospheric branch of the global water cycle. Part II: Moisture transports between earth's ocean basins and river catchments.

Stohl, A.; James, P.

A hypothesis on the initial film formation by deposition from the indoor air on clean filter samples and its relevance for unvarnished oil paintings on canvas

Grøntoft, Terje; Cutajar, Jan Dariusz

A history about Lagrangian modelling - transport of hazardous substances through the atmosphere

Eckhardt, Sabine; Sigl, Michael; Pisso, Ignacio; Evangeliou, Nikolaos; Stebel, Kerstin

A high-resolution dynamic probabilistic material flow analysis of seven plastic polymers; A case study of Norway

Abbasi, Golnoush; Hauser, Marina Jennifer; Baldé, Cornelis Peter; Bouman, Evert Alwin

Plastic pollution has long been identified as one of the biggest challenges of the 21st century. To tackle this problem, governments are setting stringent recycling targets to keep plastics in a closed loop. Yet, knowledge of the stocks and flows of plastic has not been well integrated into policies. This study presents a dynamic probabilistic economy-wide material flow analysis (MFA) of seven plastic polymers (HDPE, LDPE, PP, PS, PVC, EPS, and PET) in Norway from 2000 to 2050. A total of 40 individual product categories aggregated into nine industrial sectors were examined. An estimated 620 ± 23 kt or 114 kg/capita of these seven plastic polymers was put on the Norwegian market in 2020. Packaging products contributed to the largest share of plastic put on the market (∼40%). The accumulated in-use stock in 2020 was about 3400 ± 56 kt with ∼60% remaining in buildings and construction sector. In 2020, about 460 ± 22 kt of plastic waste was generated in Norway, with half originating from packaging. Although ∼50% of all plastic waste is collected separately from the waste stream, only around 25% is sorted for recycling. Overall, ∼50% of plastic waste is incinerated, ∼15% exported, and ∼10% landfilled. Under a business-as-usual scenario, the plastic put on the market, in-use stock, and waste generation will increase by 65%, 140%, and 90%, respectively by 2050. The outcomes of this work can be used as a guideline for other countries to establish the stocks and flows of plastic polymers from various industrial sectors which is needed for the implementation of necessary regulatory actions and circular strategies. The systematic classification of products suitable for recycling or be made of recyclate will facilitate the safe and sustainable recycling of plastic waste into new products, cap production, lower consumption, and prevent waste generation.

Elsevier