Green roof cooling and carbon mitigation benefits in a subtropical city

Green roofs are promoted as an effective nature-based urban heat island mitigation strategy. Green roof cooling and energy-saving benefits have been simulated for various climatic zones, but mainly at the building scale. Due to a lack of fact-based information on neighborhood cooling benefits, green roof construction lags and has rarely been incorporated into urban planning actions. This study investigated the thermal benefits and energy savings of green roofs for the central area of the Xianlin Campus of Nanjing University at the neighborhood scale. Three scenarios were simulated for a hot summer day using a validated ENVI-met model: a base case (S0), extensive green roofs (EGRs) (S1), and intensive green roofs (IGRs) (S2). The air temperature cooling benefit from green roofs extended downwards to the pedestrian level. The EGR scenario achieved a maximum 0.29 degrees C air temperature reduction at the pedestrian level and 0.37. C at the rooftop level. The IGR scenario achieved a maximum 0.35 degrees C air temperature reduction at the pedestrian level and 0.45 degrees C at the rooftop level. EGRs and IGRs reduced energy demands for air-conditioning by 0.39 kWh center dot m(-2)center dot d(-1) and 0.56 kWh center dot m(-2)center dot d(-1) and CO2 emissions by 31,997 kg center dot d(-1) and 45,967 kg center dot d(-1), respectively. These results confirm that green roofs yield substantial cooling and carbon mitigation benefits. Our study provides essential data to establish green roofs as mainstream cooling technology in subtropical cities. The results also imply that urban planners and policymakers may need to embrace the implementation of green roofs in long-term planning and building design practices to improve urban thermal environments, reduce building energy demand, and curb carbon emissions.