Over the past few decades, many areas have been urbanized due to population expansion, economic and infrastructure development, and urbanization will lead to large-scale land cover changes and anthropogenic heat release, there by regulating the urban environmental microclimate. This growth has negative effects on cities, such as the urban heat island effect (UHI): the temperature in the central part of a city is higher than in the surrounding suburbs. It will have a profound impact on urban energy consumption, environmental quality, and human health. Among them, road pavement is one of the main factors leading to the increase of urban heat island effect, and with the emergence of the concept of sponge city and green building, the application of permeable pavement and green facade has become a research hotspot. Current research shows that permeable pavement and green facade can effectively reduce the urban heat island effect, but the urban structure and climatic environment of each region are different, which makes the research results in different regions relatively limited. It is necessary to apply theoretical research to the actual regional environment in order to truly reflect its mitigation benefits. Therefore, the purpose of this study is to determine the appropriate pavement in the study area (parking area) to alleviate the urban heat island effect and improve the thermal comfort of pedestrians. At the same time, the cooling range of the horizontal space of the green facade is predicted and the cooling effect of the permeable pavement on the thermal environment is compared. In this study, the most severely affected area of urban heat island effect in Taiwan-Taipei area is selected as the research area, the research method is numerical simulation, CFD simulation software (ENVI-met) is used as the research tool, and field measurements are carried out to verify the model and analyze the current situation in the research area. Based on the thermal environment conditions, the numerical simulation results mainly discuss the improvement benefits of permeable asphalt pavement, grass-planted permeable pavement and green facade to the thermal environment. The research results show that the permeable pavement has a certain improvement effect on the climate environment. In terms of improving the heat island effect, in addition to reducing the average air temperature in the micro area, it can also reduce the local high temperature area. The best pavement is permeable asphalt pavement. In summer, the maximum reduction of permeable asphalt pavement is 2.24°C, the maximum reduction of grass-planted permeable pavement is 2.12°C, and the maximum reduction of green facade is 0.28°C. The main impact is concentrated in the parking lot area, and the overall impact is small. In terms of pedestrian thermal comfort, although the physiological equivalent temperature of permeable asphalt pavement is reduced to a maximum of 6°C at 14:00 in summer, it fails to change the comfort zone. At the same time, under the subtropical climate of Taiwan, the green facade has a cooling effect on the climatic environment. The maximum cooling range of the vertical space is about 36 meters, which is similar to the cooling range of the permeable pavement. It is significant within 3 meters of the body, and for this study case, the effect of the green facade will be inferior to that of the permeable pavement. In terms of urban renewal, this study suggests that the influence of wind direction and buildings should be considered when using permeable pavement, and adding automatic irrigation facilities will help to play a better role.