Five recommendations to accelerate sustainable solutions in cement and concrete through partnership

Q2 Engineering RILEM Technical Letters Pub Date : 2023-07-04 DOI:10.21809/rilemtechlett.2023.173
Joseph Mwiti Marangu, A. Marsh, D. Panesar, N. Radebe, Alicia Regodon Puyalto, W. Schmidt, L. Valentini
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Abstract

Though the technical knowledge to make cement and concrete more sustainable already exists, implementation of solutions lags behind the rate needed to mitigate climate change and meet the targets set by the Sustainable Development Goals. Whilst most of the focus around the built environment is on embodied carbon, we stress an important but neglected dimension: partnership (SDG17). Effective partnerships can be powerful enablers to accelerate sustainable solutions in cement and concrete, and let such solutions transfer from academia to the market. This can be achieved through knowledge generation, solution implementation, and policy development, among other routes. In this article, we share five recommendations for how partnerships can address neglected research questions and practical needs: 1) reform Science, Technology, Engineering and Mathematics (STEM) education to train “circular citizens”; 2) map out routes by which cementitious materials can contribute to a “localization” agenda; 3) generate open-access maps for the geographical distribution of primary and secondary raw materials; 4) predict the long-term environmental performance of different solutions for low-CO2 cements in different geographical areas; 5) overhaul standards to be technically and regionally fit for purpose. These approaches have the potential to make a unique and substantial contribution towards achieving collective sustainability goals.
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通过伙伴关系加快水泥和混凝土可持续解决方案的五项建议
虽然提高水泥和混凝土可持续性的技术知识已经存在,但解决方案的实施速度落后于减缓气候变化和实现可持续发展目标设定的目标所需的速度。虽然围绕建筑环境的大部分焦点都集中在隐含碳上,但我们强调一个重要但被忽视的方面:伙伴关系(可持续发展目标17)。有效的伙伴关系可以有力地推动水泥和混凝土领域的可持续解决方案,并使这些解决方案从学术界转移到市场。这可以通过知识生成、解决方案实施和政策制定等途径来实现。在本文中,我们分享了关于伙伴关系如何解决被忽视的研究问题和实际需求的五点建议:1)改革科学、技术、工程和数学(STEM)教育,培养“循环公民”;2)绘制出胶凝材料有助于“本地化”议程的路线;3)生成一次和二次原材料地理分布的开放获取地图;4)预测不同地理区域低二氧化碳水泥不同解决方案的长期环境绩效;5)大修标准在技术上和地区上符合目的。这些办法有可能对实现集体可持续性目标作出独特和重大的贡献。
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来源期刊
RILEM Technical Letters
RILEM Technical Letters Materials Science-Materials Science (all)
CiteScore
5.00
自引率
0.00%
发文量
13
审稿时长
10 weeks
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