具身认知
标杆管理
温室气体
包含能量
碳纤维
计算机科学
环境科学
建筑工程
订单(交换)
工程类
业务
人工智能
生态学
复合数
营销
财务
生物
算法
作者
Kathrina Simonen,Bárbara X. Rodríguez,Catherine De Wolf
标识
DOI:10.1080/24751448.2017.1354623
摘要
Greenhouse gas emissions from extracting and manufacturing building materials, often termed "embodied carbon," are produced before buildings are occupied and are more critical to meeting global climate targets than commonly assumed. In order to motivate reductions in embodied carbon, we need better data and established benchmarks. Although Life Cycle Assessment (LCA) methods have been used to analyze individual buildings, there has not been an agreed-upon understanding of the order magnitude and range of variation of the embodied carbon of buildings. In order to address this knowledge gap, the largest known database of building embodied carbon was compiled, normalized, and analyzed. In addition to establishing the range of embodied carbon values, this research identified sources of uncertainty and proposed strategies to advance embodied carbon benchmarking practice.
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