Evaluating the Cooling Effects and Building Energy-Saving Potential of Vegetation and Albedo: A Case Study of Gyeonggi-Do, South Korea

Numerous studies have explored the cooling and energy-saving effects of vegetation and reflective materials under extreme heat conditions in urban residential areas. However, few have explored the synergistic effects of vegetation and albedo, particularly in low-rise, high-density residential areas. Therefore, this study selected six typical low-rise, high-density residential areas in Gyeonggi-do, South Korea, based on the neighborhood characteristics. This study investigated the cooling effects and energy-saving potential of vegetation and cooling materials through the development of five simulation scenarios. These included original conditions, the application of highly reflective cooling materials, increased vegetation cover, the removal of vegetation cover, and a comprehensive strategy combining cooling materials with enhanced vegetation. These scenarios were analyzed using ENVI-met and DesignBuilder to evaluate their impact on the microclimate and building energy consumption. The results reveal the following: (1) Cooling materials can lower air temperatures by 1.9 °C, saving 10.37% in energy consumption during the summer, demonstrating a greater efficiency in reducing air temperature and energy use. (2) Vegetation slightly reduces daytime air temperatures but hampers nighttime cooling in dense low-rise areas, increasing energy demand. Shrubs or grass are preferable to tall trees. (3) Cooling materials had a stronger correlation with energy consumption reduction compared to vegetation. Hence, combining cooling materials with strategically placed vegetation and controlling vegetation size maximized cooling and energy-saving benefits. This study provides valuable insights for urban planners and designers, offering guidance for improving urban microclimates, reducing building energy use, and achieving carbon neutrality goals.

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