AI Article Synopsis
- The study investigates how urban development (grey infrastructure) and mature parks (green infrastructure) affect air pollution levels, specifically particulate matter (PM), in Dublin.
- The research utilizes air quality monitoring and modeling to analyze current and future pollution scenarios, revealing different vegetation heights can significantly impact PM reduction based on wind direction.
- Findings highlight the need for careful urban planning that considers the interplay between green and grey infrastructures to mitigate air quality issues near city parks.
Article Abstract
The relationship between green and grey urban infrastructure, local meteorological conditions, and traffic-related air pollution is complex and dynamic. This case study examined the effect of evolving morphologies around a city square park in Dublin and explores the twin impacts of local urban development (grey) and maturing parks (green) on particulate matter (PM) pollution. A fixed air quality monitoring campaign and computational fluid dynamic modelling (ENVI-met) were used to assess current (baseline) and future scenarios. The baseline results presented the distribution of PM in the study area, with bimodal (PM) and unimodal (PM) diurnal profiles. The optimal vegetation height for air quality within the park also differed by wind direction with 21 m vegetation optimal for parallel winds (10.45% reduction) and 7 m vegetation optimal for perpendicular winds (30.36% reduction). Increased building heights led to higher PM concentrations on both footpaths ranging from 25.3 to 37.0% under perpendicular winds, whilst increasing the height of leeward buildings increased PM concentrations by up to 30.9% under parallel winds. The findings from this study provide evidence of the importance of more in-depth analysis of green and grey urban infrastructure in the urban planning decision-making process to avoid deteriorating air quality conditions around city square parks.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11316050 | PMC |
| http://dx.doi.org/10.1038/s41598-024-68252-7 | DOI Listing |
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