地中海气候下绿色屋顶的生命周期分析

Mohammad Raoof Rashedi, Rojina Ehsani, Sara Kalantari, Fariborz M. Tehrani
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摘要

在世界范围内,建筑占能源消耗和温室气体排放的很大一部分。电力和化石燃料是目前用于建筑物制冷和供暖的主要能源来源,这取决于气候和地点。这两种能源都造成了大量的温室气体排放。相反,植物和植被吸收二氧化碳,从而改善空气质量。这种效应间接影响气候变化,以降低能源需求,并由于能源消费趋势上升而产生额外的排放。植物还通过在屋顶表面提供遮阳来降低环境温度。因此,绿色屋顶的大规模部署减少了能源消耗、排放和成本。然而,绿色屋顶也会影响建筑物的整体重量,并需要额外的建造成本。因此,绿色屋顶对建筑的各种结构和热性能的贡献因广泛集约或半集约系统而异。这些相互作用需要进行生命周期分析,以优化绿色屋顶应用的范围。这种方法强调了可持续发展绩效指标,包括能源、排放、水和废物。本研究对地中海气候区炎热夏季绿色屋顶的部署进行了生命周期分析。这种气候适用于许多受益于变暖的地区,而不需要极端的制冷或供暖。强调比较同一气候带内的两个城镇有助于更注重细节的生命周期分析方法。结果表明,在建筑的整个使用寿命期间,与结构和屋顶材料以及热操作相关的能源消耗和温室气体排放的相关释放。结论评估了在新建和现有建筑上应用绿色屋顶的挑战和机遇。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Lifecycle Analysis of Green Roofs in the Mediterranean Climate
Buildings account for a significant amount of energy consumption and greenhouse gas emissions worldwide. Electricity and fossil fuels are currently the primary sources of energy used for cooling and heating buildings, depending on the climate and location. Both energy sources are responsible for significant greenhouse gas emissions. In contrast, plants and vegetation absorb carbon dioxide and, thus, improve the quality of air. This effect indirectly influences climate change to lower energy demands and produce additional emissions due to rising energy consumption trends. Plants also reduce the ambient temperature by providing shade on roof surfaces. Hence, the large-scale deployment of green roofs reduces energy consumption, emissions, and costs. However, green roofs also impact the overall weight of a building and require additional construction costs. Therefore, the contribution of green roofs to the various structural and thermal performances of buildings varies for extensive intensive or semi-intensive systems. These interactions warranted a lifecycle analysis to optimize the extent of green roof applications. This approach highlighted sustainability performance measures, including energy, emissions, water, and waste. The presented study addressed a lifecycle analysis of green roof deployment during a hot summer in a Mediterranean climate zone. This climate applies to many areas that benefit from warming temperatures without extreme needs for cooling or heating. The emphasis on comparing two towns within the same climate zone facilitated a more detail-oriented approach to the lifecycle analysis. The results illustrated the energy consumption and associated release of greenhouse gas emissions related to structural and roofing materials and thermal operations throughout the service life of a building. The conclusions assessed the challenges and opportunities of green roof applications on new and existing buildings.
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