Solar reflective cool roofs and walls can be used to mitigate the urban heat island effect. While many past studies have investigated the climate impacts of adopting cool surfaces, few studies have investigated their effects on air pollution, especially on particulate matter (PM). This research for the first time investigates the influence of widespread deployment of cool walls on urban air pollutant concentrations, and systematically compares cool wall to cool roof effects. Simulations using a coupled meteorology-chemistry model (WRF-Chem) for a representative summertime period show that cool walls and roofs can reduce urban air temperatures, wind speeds, and planetary boundary heights in the Los Angeles Basin. Consequently, increasing wal...
The Urban Heat Island (UHI) is a well-known phenomenon concerning an increasing percentage of the wo...
Modification of urban albedos reduces summertime urban temperatures, resulting in a better urban air...
Modern urban areas usually have darker surfaces than their surroundings. Use of dark roofs and pavem...
Solar reflective cool roofs and walls can be used to mitigate the urban heat island effect. While ma...
The installation of roofing materials with increased solar reflectance (i.e., "cool roofs") can miti...
This study for the first time assesses the influence of employing solar reflective "cool" walls on t...
This study for the first time assesses the influence of employing solar reflective “cool” walls on t...
Increasing surface reflectivity in urban areas can decrease ambient temperature, resulting in reduci...
The climate warming effects of accelerated urbanization along with projected global climate change r...
Urban areas tend to have higher air temperatures than their rural surroundings as a result of gradua...
Raising the albedo (solar reflectance) of a building’s walls reduces unwanted solar heat gain in the...
Solar reflective “cool pavements” have been proposed as a potential heat mitigation strategy for cit...
Summer urban heat island (UHI) refers to the phenomenon of having higher urban temperatures compared...
Solar reflective 'cool roofs' absorb less sunlight than traditional dark roofs, reducing s...
Urban areas tend to have higher air temperatures than their rural surroundings as a result of gradua...
The Urban Heat Island (UHI) is a well-known phenomenon concerning an increasing percentage of the wo...
Modification of urban albedos reduces summertime urban temperatures, resulting in a better urban air...
Modern urban areas usually have darker surfaces than their surroundings. Use of dark roofs and pavem...
Solar reflective cool roofs and walls can be used to mitigate the urban heat island effect. While ma...
The installation of roofing materials with increased solar reflectance (i.e., "cool roofs") can miti...
This study for the first time assesses the influence of employing solar reflective "cool" walls on t...
This study for the first time assesses the influence of employing solar reflective “cool” walls on t...
Increasing surface reflectivity in urban areas can decrease ambient temperature, resulting in reduci...
The climate warming effects of accelerated urbanization along with projected global climate change r...
Urban areas tend to have higher air temperatures than their rural surroundings as a result of gradua...
Raising the albedo (solar reflectance) of a building’s walls reduces unwanted solar heat gain in the...
Solar reflective “cool pavements” have been proposed as a potential heat mitigation strategy for cit...
Summer urban heat island (UHI) refers to the phenomenon of having higher urban temperatures compared...
Solar reflective 'cool roofs' absorb less sunlight than traditional dark roofs, reducing s...
Urban areas tend to have higher air temperatures than their rural surroundings as a result of gradua...
The Urban Heat Island (UHI) is a well-known phenomenon concerning an increasing percentage of the wo...
Modification of urban albedos reduces summertime urban temperatures, resulting in a better urban air...
Modern urban areas usually have darker surfaces than their surroundings. Use of dark roofs and pavem...