The relevance of cut-stone to strategies for low-carbon buildings

Q1 Engineering

Buildings & cities Pub Date : 2023-01-01 DOI:10.5334/bc.278

Timothée de Toldi, Tristan Pestre

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Abstract

A systemic and configurable model for evaluating the global warming potential (GWP) of cut-stone building materials on the French market is developed and then used to benchmark performances against available low-carbon alternatives (cross-laminated timber (CLT) and slag concrete), for which ranges of GWP allocation models (regulatory and research-driven methods) are used to evaluate underlying uncertainties. Cut-stones stand out for their compliance to three key emission profile criteria in which industrial ecology roadmaps should anchor incentives for material selection: (1) a low margin of uncertainty on GWP values, (2) invariability of GWP magnitudes through time and (3) a high comparative performance with available alternatives. Assuming typically implemented load-bearing wall thicknesses (industry averages of 13, 20 and 24 cm for CLT, concretes and cut-stone, respectively) and high-probability scenarios for all materials, cut-stone assemblies are shown to be 1.43 and 2.73 times less impactful (GWP 100 ) than CLT and slag concrete, respectively. Potential impacts of industrial applications at the parc scale are studied, showing that implementing cut-stone instead of concrete walls on 30% of new French collective housing projects over the 2025–50 period would result

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切割石材与低碳建筑策略的相关性

开发了一个系统的、可配置的模型，用于评估法国市场上切割石材建筑材料的全球变暖潜能值(GWP)，然后用于对比现有低碳替代品(交叉层压木材(CLT)和矿渣混凝土)的基准性能，其中GWP分配模型的范围(监管和研究驱动的方法)用于评估潜在的不确定性。切割石的突出之处在于它们符合三个关键的排放剖面标准，在这些标准中，工业生态路线图应该锚定材料选择的激励:(1)GWP值的低不确定性;(2)GWP值随时间的不变性;(3)与可用替代品的高比较性能。假设典型的承重墙厚度(CLT、混凝土和切割石的行业平均厚度分别为13、20和24厘米)和所有材料的高概率情景，切割石组件的影响(GWP 100)分别比CLT和矿渣混凝土小1.43和2.73倍。研究表明，在2025 - 2050年期间，30%的法国新集体住房项目将采用切割石而不是混凝土墙，从而对公园规模的工业应用产生潜在影响

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