Abstract
Seasonal variation of air quality in a city with a large river was investigated by means of numerical simulations of air movement and pollutant dispersion over inversion-capped diurnal cycles using a Reynolds-averaged Navier–Stokes (RANS) approach with algebraic turbulent flux model. The study accounts for the effects of urban heat island (UHI), terrain orography and high thermal inertia of the river body. The case mimics the real environment of the Krasnoyarsk region with the river Yenisei (Russia). Two scenarios were considered typical of the winter and summer seasons. The study is focused on the dynamics of dispersion of CO emanating mainly from road traffic, which remains fairly uniform throughout the year. The simulation starts from a mild low-altitude inversion with penetrative convection gradually developing over the daytime and attenuating during the night. The main difference between the two cases is in the temperature of the river surface relative to the ambient air. In winter, the non-freezing river acts as a source of positive thermal buoyancy, while in summer the cool river at the daytime acts in the opposite way, as a heat sink. The effect of the river-induced air circulation appears significant enough to account for the observed winter accumulation of the pollutant in the city center.
Highlights
Seasonal variations of air quality in urban and other agglomerations with complex natural and human-made canopies have received considerable attention among the environmental community, e.g., References [1,2,3,4,5,6,7]
To seasonal variability of local weather conditions and variation of emission density in time and over the terrain, many other factors influence this dynamics: The heights, size and density of buildings, the extent, intensity and dynamics of traffic on urban roadways, and others, making it difficult to explain the observed peculiarities of local seasonal patterns of pollutant concentration and their correlation, with the dynamics of pollutant emission
The study examines significant differences in examines differences in seasonal air quality variations in various parts of the city aimed seasonal air quality variations in various parts of the city aimed at identifying the role of microclimatic at identifying the role of microclimatic heterogeneity and the effects of river breeze and heterogeneity and the effects on of river and orographic-type circulations on urban air pollution
Summary
Seasonal variations of air quality in urban and other agglomerations with complex natural and human-made canopies have received considerable attention among the environmental community, e.g., References [1,2,3,4,5,6,7]. Studies of time variability and seasonal variations—based in most cases on long-term collection of a large amount of measured airborne concentrations of representative, and/or specific pollutants in a variety of urban, industrial, and rural areas—have contributed to identifying, and better understanding, air quality seasonality features. They often lack in rational explanations that could lead to more general conclusions and correlations, and be used for predictive purposes. [9,10,11,12]
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