Dynamic environmental payback of concrete due to carbonation over centuries

IF 10.9 1区 环境科学与生态学 Q1 ENVIRONMENTAL STUDIES Sustainable Production and Consumption Pub Date : 2024-09-22 DOI:10.1016/j.spc.2024.09.009
Thomas Elliot , Hamed Kouchaki-Penchah , Victor Brial , Annie Levasseur , Sarah J. McLaren
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Abstract

This research introduces a dynamic life cycle assessment (LCA) based carbonation impact calculator designed to enhance the environmental evaluation of cement-based construction products. The research emphasizes the limitations of static LCAs which fail to capture the time-dependent nature of carbon sequestration by carbonation.
We provide an easy-to-use spreadsheet-based LCA carbonation model. The model is available in the supplementary information, and includes a suite of changeable parameters for exploring the effect of alternative environmental conditions and concrete block composition on carbonation. The tool enables use of both a static and dynamic LCA method to calculate the production emissions and carbonation sequestration of a concrete block over a 1000-year time horizon.
Carbonation can partially mitigate initial production emissions and adjust radiative forcing over long periods. Using a static attributional LCA approach, carbonation sequesters 6 % of the CO2 generated from its production emissions. We describe the ratio of carbonation to production emissions as the partial “carbonation payback”, and with dynamic LCA show the variation of this ratio over time. Considering time by applying the dynamic LCA approach, we find this partial “carbonation payback” is split between uptake during the 60-year service life (0.13 kg CO2) and the 940-year end of life period (0.12 kg CO2) in our baseline case. Further scenario analyses illustrate the significant variability in carbonation payback, driven by environmental factors, cement composition, and the use of supplementary cementitious materials.
The results highlight the critical role of modelling choices in estimating the carbonation payback. The carbonation calculator developed in this study offers a sophisticated yet user-friendly tool, providing both researchers and practitioners with the ability to dynamically model the sequestration potential of concrete, thereby promoting more sustainable construction practices.
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混凝土因碳化而产生的数百年动态环境回报率
本研究介绍了一种基于生命周期评估(LCA)的动态碳化影响计算器,旨在加强对水泥基建筑产品的环境评估。该研究强调了静态生命周期评估的局限性,因为静态生命周期评估无法捕捉碳化固碳随时间变化的特性。我们提供了一个易于使用的基于电子表格的生命周期评估碳化模型。该模型可在补充信息中找到,其中包括一套可改变的参数,用于探索其他环境条件和混凝土砌块成分对碳化的影响。该工具可使用静态和动态生命周期评估方法,计算混凝土砌块在 1000 年时间跨度内的生产排放和碳化螯合作用。采用静态归因的生命周期评估方法,碳化可封存其生产排放所产生的 6% 的二氧化碳。我们将碳化与生产排放的比率描述为部分 "碳化投资回报",并通过动态生命周期评估显示该比率随时间的变化。通过采用动态生命周期分析方法对时间进行考虑,我们发现在基线情况下,部分 "碳化回收 "分为 60 年使用寿命期间的吸收(0.13 千克二氧化碳)和 940 年使用寿命结束期间的吸收(0.12 千克二氧化碳)。进一步的情景分析表明,在环境因素、水泥成分和使用辅助胶凝材料的驱动下,碳化投资回报率存在很大的差异。本研究中开发的碳化计算器提供了一个复杂但用户友好的工具,为研究人员和从业人员提供了动态模拟混凝土固碳潜力的能力,从而促进了更可持续的建筑实践。
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来源期刊
Sustainable Production and Consumption
Sustainable Production and Consumption Environmental Science-Environmental Engineering
CiteScore
17.40
自引率
7.40%
发文量
389
审稿时长
13 days
期刊介绍: Sustainable production and consumption refers to the production and utilization of goods and services in a way that benefits society, is economically viable, and has minimal environmental impact throughout its entire lifespan. Our journal is dedicated to publishing top-notch interdisciplinary research and practical studies in this emerging field. We take a distinctive approach by examining the interplay between technology, consumption patterns, and policy to identify sustainable solutions for both production and consumption systems.
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