需要建立全球公平贸易伙伴关系,以解决清洁能源技术材料供应链中的不公正问题。

IF 4.3
Chinedu C Nsude, Joshua J Wimhurst, Ramit Debnath
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引用次数: 0

摘要

摘要:到 2023 年,可再生能源将生产全球近三分之一的电力。然而,越来越多的有限研究表明,可再生能源的快速发展正在导致能源转型社区的冲突和资源开采。这种不公正现象可归因于可再生能源开发的采掘性质,即原材料(也称为清洁能源技术材料(CETM))数量有限,且往往集中在全球南部资源有限的地区。从这个角度来看,我们呼吁在 CETM 供应链中亟需考虑能源公正问题。我们利用 2020 年至 2040 年的需求预测数据,研究了镍、钴和锂等重要的 CETM 对分配正义的影响。我们还研究了这些影响在解决冲突、劳动剥削和交易殖民主义等系统性不公正方面的潜力。接下来,我们使用 CETM 生命周期视角分析了美国地质调查局提供的全球采矿生产数据,发现对这些材料日益增长的需求正在加剧恢复性不公正,尤其是在全球南部。最后,在上述证据的基础上,我们呼吁建立多方利益相关者伙伴关系,并在关键的 CETM 供应链中建立公平贸易标准:在此,我们利用国际能源机构的数据分析了到 2040 年部分清洁能源技术材料的预计需求增长(与 2020 年的水平相比),利用美国地质调查局的数据直观展示了这些材料的全球开采生产情况,解释了对这些材料的需求如何加剧了某些不公正现象,并建议在这些材料的供应链中建立多方利益相关者伙伴关系:可再生能源技术的快速发展正在清洁能源技术材料(CETM)的整个供应链中造成不公正现象。在清洁能源技术材料的开采、加工、退役和回收利用过程中,由于缺乏任何能源公正框架,正在加剧恢复性不公正现象,尤其是在全球南部地区。通过研究清洁能源技术发展所必需的矿物、金属和其他材料的开采需求预测和地理空间模式,贫困、边缘化和土著社区所面临的不公平现象变得显而易见。我们认为,如果咖啡可以在其供应链中实行公平贸易标准,为什么我们不能对 CETMs 进行类似的考虑?
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A global fairtrade partnership needed to address injustices in the supply chains of clean energy technology materials.

Abstract: Renewable sources produced close to one-third of the world's electricity in 2023. However, a limited but growing body of research suggests rapid renewable energy development is leading to conflict and resource exploitation in energy-transitioning communities. Such injustices are attributable to the extractivist nature of renewable energy development, where raw materials, also known as Clean Energy Technology Materials (CETMs), are in limited quantities and often concentrated in resource-constrained zones in the Global South. In this perspective, we call for an urgent need for energy justice considerations in CETM's supply chain. We used demand projection data from 2020 to 2040 to look into the effects of important CETMs like nickel, cobalt, and lithium on distributive justice. We also examined the potential of these effects to tackle systemic injustices such as conflict, labor exploitation, and transactional colonialism. Next, we analyzed global mining production data from the United States Geological Survey using a CETM life cycle lens and found that increasing demand for these materials is exacerbating restorative injustices, particularly in the Global South. Finally, building on the above evidence, we called for the creation of multi-stakeholder partnerships and the establishment of fair trade standards across the critical CETM supply chain.

Graphical abstract:

Highlights: Here, we analyzed the projected demand growth for selected clean energy technology materials by 2040 relative to 2020 levels using data from the International Energy Agency, visualized their global mining production using data from the United States Geological Survey, explained how the demand for these materials is exacerbating certain injustices, and recommended multi-stakeholder partnerships across the supply chain of these materials.

Discussion: The rapid growth of renewable energy technologies is creating injustices throughout the supply chain of clean energy technology materials (CETM).A lack of any energy justice framework across CETMs' extraction, processing, decommissioning, and recycling is exacerbating restorative injustices, especially in the Global South.By examining the projected demands and geospatial patterns for the extraction of minerals, metals, and other materials essential for clean energy technology development, the inequities faced by impoverished, marginalized, and Indigenous communities become apparent.We argue that if coffee can have fair trade standards across its supply chain, why can't we have similar considerations for the CETMs?There is a need to include transparency in the sustainability, ethics, and energy efficiency of CETM extraction and processing through global partnerships across its supply chain.

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