UFP, BC, and PM 2.5 measurements and the effect of dispersion conditions on concentration levels in a residential area affected by wood smoke pollution from domestic heating during the winter months

Unofficial AI-generated summary based on the public title and abstract. Not an official translation.

🔬研究者:Provides empirical data on UFP from wood heating and its relationship with meteorological conditions.

🏛政策担当者:Informs on the limitations of PM2.5 as a proxy for ultrafine particles in air quality regulation.

Abstract. The monitoring of ultrafine particle concentrations in ambient air is gaining relevance within the revision of the EU Ambient Air Quality Directive. A prominent source of ultrafine particles (UFPs) is combustion processes (e.g., within the scope of wood-fired domestic heating), where the particle emission is typically led unfiltered into the environment, contributing significantly to local air pollution. In this study, ultrafine particle concentrations were measured in a residential area affected by wood smoke pollution during the winter months (20 November 2024–30 March 2025) using a diffusion-charge-based UFP monitor (AQ Guard Smart 2000 from Palas®). The measurements show a diurnal trend, where concentrations are significantly increased (e.g., > 10 000 cm−3) above the background level (approx. 5000 cm−3) during the morning (approx. 08:00 CET) and evening hours (approx. 19:00–22:00 CET), whereby the source is wood smoke from the surrounding neighborhood. The dispersion conditions significantly affect the measured concentrations as, in the case of low (or zero) wind speeds only, increased UFP concentrations are obtained, demonstrating the relevance of local sources (wood stove operations) in relation to air quality. In the context of “good-practice statements” offered by the World Health Organization's Air Quality guidelines, the maximum daily 1 h mean concentration of 20 000 cm−3 is exceeded on approx. 33.6 % of days during the measurement period. This significant peak exposure on smaller timescales requires monitoring at a high temporal resolution as longer averaging periods (e.g., daily or annual mean concentrations) do not reflect temporal peak concentrations that can be especially dangerous for high-risk groups. There is no direct link between legally relevant particulate matter (e.g., PM2.5) and ultrafine particle concentrations as the size distribution of the wood smoke emission is in the nanometer region and does not contribute significantly to mass-based particulate matter concentrations.

• semanticscholar https://doi.org/10.5194/ar-4-63-2026first seen 2026-05-05 22:29:08