2013-08-012024-05-17https://scholars.lib.ntu.edu.tw/handle/123456789/683099摘要:立面綠化具有許多環境效益,因而日漸受到重視,其中微氣候調節效益更受到國際的重視,而臺灣立面綠化是到近年節能減碳議題的發燒、臺北申辦國際花卉博覽會才開始活躍發展,現階段進行立面綠化不僅是為了美觀,更為了它所能提供的環境效益。本研究研提二年期研究計畫,進行立面綠化關鍵決策因素與微氣候調節效益之研究,第一 年將透過立面綠化技術開發者與使用者的深度訪談,探討影響立面綠化技術之關鍵決策因素,並以此為商品屬性,進行立面綠化系統之歸類,進一步針對每一立面綠化系統,將選擇應用在不同空間的案例,進行季節性的微氣候調節效益觀測,並將在第一年期結束前,建置不同立面綠化系統對建築空間微氣候調節效益研究之實驗場地,進行為期一年的微氣候調節效益監測,第二年期將案例的季節觀測結果、建築空間監測結果進行微氣候調節效益解析,以進一步研究導入微氣候效益對立面綠化推廣與發展之影響。<br> Abstract: Vertical greening is becoming more and more popular as they provide several environmental benefits. Microclimate modification is one of the most concern benefits worldwide. In Taiwan, vertical greening was under consideration until the concern of carbon reduction issue and the hold of Taipei International Flora Exposition. Nowadays, vertical greening is not only built for beauty but also for its environmental benefits. In this study, we are going to investigate the key decision factors and microclimate modification benefit of vertical greening system. Two-year study is proposed. In the first year, key decision factors will be derived from in-depth interview of vertical greening technology developer and users. The key decision factors will be the attributes to distinguish the main vertical greening systems. For each vertical greening system, cases placed in different spaces will be investigated. This study will observe the microclimate modification benefits of the cases seasonally. In the late of the first year, an experiment site will be built to investigate the microclimate modification benefit of building with different vertical greening system. The microclimate modification benefit of the experiments will be monitored for one year. In the second year, the microclimate modification benefits of the cases and the experiments will be analyzed. The results will be used to investigate the contribution to vertical greening promotion and development which induced the microclimate modification benefit.立面綠化技術降溫效益微氣候測量Vertical greening technologyCooling effectMicroclimate measurement立面綠化系統關鍵決策因素與微氣候調節效益