Abstract
Pavements occupy about 40% of urban land cover, with 75–80% black top roads, playing a critical role in urban connectivity and mobility. Solar energy is absorbed and stored in pavements leading to an increase in surface temperatures. Decreasing green cover is further contributing to rise in regional temperatures. Due to this activity, the city experiences urban heat island (UHI). This study presents a critical review of the literature on mitigation measures to combat UHI using reflective pavements with an emphasis on durability properties and impacts of tree canopy. The strategies with a focus on application of chip seals, white toppings, and coatings were discussed. Role of surface reflectance, including those from asphalt and concrete pavements, albedo improvements, and technological trends, application of waste materials, and industrial by-products are presented. Also, urban tree shading systems’ contribution to pavement temperature and microclimate systems is presented. The review shows that the development of mitigation measures using tree shading systems can reduce the pavement temperature during daytime and increase human thermal comfort. The outcomes of this review provide a scope for future studies to develop sustainable and state-of-the-art engineering solutions in the field of reflective coatings and urban forest systems.
Highlights
Infrastructure development activities are designed to cater to the growing population needs
Temperatures in urban areas increase due to this process
Reflective pavements are a mitigation strategy gaining in interest to combat urban heat island (UHI) effects
Summary
Infrastructure development activities are designed to cater to the growing population needs. Pavements are an integral part of infrastructure development in urban areas to provide interconnectivity and transportation. Bike lane, and pedestrian paths are developed to facilitate the amenity requirements for a growing city. Vegetation is being replaced with heat-absorbing, thermally conductive, and high heat storage materials like bitumen and concrete. Pavements absorb and store solar radiation, leading to a further increase in the surface temperatures [2]. This phenomenon is known as the urban heat island (UHI) effect. Large quantities of solar radiation are absorbed by these materials during the day and released during the night time
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