拆毁
包含能量
二氧化碳
生命周期评估
认证
具身认知
环境科学
温室气体
持续性
工作(物理)
建筑工程
工程类
计算机科学
土木工程
机械工程
生产(经济)
化学
生态学
政治学
生物
宏观经济学
人工智能
经济
有机化学
法学
作者
Catherine De Wolf,Frances M. Yang,Duncan Cox,Andrea Charlson,Amy Seif Hattan,John Ochsendorf
标识
DOI:10.1680/ensu.15.00033
摘要
This paper analyses data from 200 buildings to identify the embodied environmental impact of building structures. In recent years, the percentage of embodied carbon dioxide in the whole life cycle impact of buildings has been increasing while innovations have lowered operational carbon dioxide. Operational carbon dioxide emissions are due to heating, cooling, ventilation and lighting, whereas embodied carbon dioxide is associated with materials extraction, manufacturing, transportation, construction, maintenance and demolition. Limited research on the latter prevents an accurate evaluation of the whole life cycle impact of buildings. Therefore, leading engineers have emphasised the urgent need for a global, standard assessment method for embodied carbon dioxide. To this end, this paper offers a uniform method by describing current work, quantifying material weights and finally calculating embodied carbon dioxide ranges. The approach is cradle-to-gate but can be expanded to cradle-to-grave. The survey contains data on 200 recently completed buildings obtained from industry. The results show that structural material quantities vary between 200 kg/m 2 and 1800 kg/m 2 and embodied carbon dioxide caries on the range 150–600 kg CO2e /m 2 . These numbers are analysed by programme type, structural system, size, number of floors and Leadership in Energy and Environmental Design (Leed) certification. In doing so, the paper emphasises the important role that structural engineers play in sustainability.
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