清洁能源转型期间的材料稀缺问题:神话、挑战和机遇

IF 3.3 Q3 ENERGY & FUELS
Anthony Y. Ku, Elizabeth A. Kocs, Yoshiko Fujita, Andrew Z. Haddad, Robert W. IV Gray
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引用次数: 0

摘要

摘要 到本世纪下半叶实现净零排放目标的努力将对材料供应产生深远影响。运输和能源储存领域能源转型的预期规模和速度引发了这样一个问题:我们是否有可能面临转型所需的基本关键材料枯竭的风险。早期预测表明,某些关键材料可能会在短期内出现供应中断,但与此同时,这些短缺也为市场提供了强大的动力,促使其在供应压力变得严峻之前采取各种应对措施。2023 年 4 月,MRS "关注可持续发展 "分委会主办了一次小组讨论,探讨材料科学与工程创新在支持清洁能源技术供应链方面的作用。本视角借鉴小组讨论中的实例,探讨了材料稀缺的神话,解释了材料创新在帮助供应链随着时间的推移而动态调整方面的迫切需求,并说明了材料研究学会如何促进与行业的合作,以支持现在和未来的材料创新。图表式摘要 摘要 在这篇评论中,我们探讨了材料稀缺的神话,解释了材料创新在帮助供应链随着时间的推移而动态调整方面的迫切需求,并说明了材料研究界如何才能有效地与行业、政策制定者和资助机构合作,推动关键领域所需的创新。讨论 预计在未来几十年中,清洁能源技术中使用的某些材料的需求量将以目前产量的数倍增长。这引起了人们对供应链风险的关注,并制造了一个神话,即在能源转型期间,我们将 "耗尽 "某些材料。现实情况是,市场有多种机制进行长期适应,而近期短缺或预期短缺则为采取行动提供了强大动力。在这篇评论中,我们将重点介绍材料创新在近期和长期帮助解决这些问题的不同方式,以及材料研究界如何有效地与行业和政策制定者合作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Materials scarcity during the clean energy transition: Myths, challenges, and opportunities
Abstract Efforts to reach net zero targets by the second half of the century will have profound materials supply implications. The anticipated scale and speed of the energy transition in both transportation and energy storage raises the question of whether we risk running out of the essential critical materials needed to enable this transition. Early projections suggest that disruptions are likely to occur in the short term for select critical materials, but at the same time these shortages provide a powerful incentive for the market to respond in a variety of ways before supply-level stress becomes dire. In April 2023, the MRS Focus on Sustainability subcommittee sponsored a panel discussion on the role of innovation in materials science and engineering in supporting supply chains for clean energy technologies. Drawing on examples from the panel discussion, this perspective examines the myth of materials scarcity, explains the compelling need for innovation in materials in helping supply chains dynamically adapt over time, and illustrates how the Materials Research Society is facilitating engagement with industry to support materials innovation, now and in the future. Graphical Abstract Highlights In this commentary, we examine the myth of materials scarcity, explain the compelling need for innovation in materials in helping supply chains dynamically adapt over time, and show how the materials research community can effectively engage with industry, policymakers, and funding agencies to drive the needed innovation in critical areas. Discussion Demand for certain materials used in clean energy technologies is forecasted to increase by multiples of current production over the next decades. This has drawn attention to supply chain risks and has created a myth that we will “run out” out of certain materials during the energy transition. The reality is that markets have multiple mechanisms to adapt over the long-term, and near-term shortages or expectations of shortages provide a powerful incentive for action. In this commentary, we highlight different ways materials innovation can help solve these issues in the near term and long term, and how the materials research community can effectively engage with industry and policymakers.
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来源期刊
MRS Energy & Sustainability
MRS Energy & Sustainability ENERGY & FUELS-
CiteScore
6.40
自引率
2.30%
发文量
36
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