Abstract
Parking in park-and-ride (P + R) facilities on the outskirts of a city reduces the traffic inside the cities and follows the principles of sustainable mobility. However, large paved (asphalt) surfaces create urban heat islands (UHI). This causes the temperature to rise in vehicles during full-day parking, which has a negative effect on comfort level and driving performance. This study was conceptualized as two-stage research. The first (preliminary) stage dealt with the measurement and analysis of temperature data at two nearby open parking lots in the city of Ljubljana, one of which was the main research spatial area, P + R Barje (L1), and Trnovo parking (L2), which was used for comparison in the first-stage research. In the preliminary research, we underlined the problem of long-term parking in parking areas exposed to heatwaves (HW). The second stage involved the studying of greening schemes in P + R facilities, which would allow for optimal shading during parking. Advanced 3D and 4D models using ENVI-met and LEONARDO software were developed, which assessed the parking surfaces and the areas of optimum outdoor comfort. Shading by greenery was adopted in this paper, as the strategy aimed at improving the conditions by modelling different variants of greening the parking lot L1.
Highlights
Urban areas are becoming the main target of climate change [1]
This study was conceptualized as two-stage research
The first stage dealt with the measurement and analysis of temperature data at two nearby open parking lots in the city of Ljubljana, one of which was the main research spatial area, P + R Barje (L1), and Trnovo parking (L2), which was used for comparison in the first-stage research
Summary
Urban areas are becoming the main target of climate change [1]. The effects of global warming and climate change are expected to be exaggerated in cities, with respect to extreme heatwave events [2,3,4,5]. The phenomenon of urban climate must be comprehended in the local and regional contexts, in which all dynamics and impacts are undertaken in relation with the expansion of urban sprawls. Both the diminishing of green urban areas and the increase of artificial surfaces are aggravating the impact of heatwaves (HW). Strategies aimed at increasing urban vegetation in urban areas are referred to as green infrastructure (GI) strategies [6,7,8,9,10]
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