Blockchain, sustainability and clean energy transition

Q1 Social Sciences Global Transitions Pub Date : 2023-01-01 DOI:10.1016/j.glt.2023.04.002
Elena G. Popkova , Aleksei V. Bogoviz , Svetlana V. Lobova , Natalia G. Vovchenko , Bruno S. Sergi
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引用次数: 4

Abstract

The digital economy's neo-industrialization self-accelerates resource consumption and wide automatization inevitably envisage a technological leap. The article contributes conceptually and empirically to a systemic vision of blockchain to sort out climate change challenges and clean energy transition and simultaneously increase the productivity and efficiency of good practices. This vision covers the popularization of ecological initiatives, waste reduction, organization of sustainable investments, control over responsibilities on both fighting and forecasting climate change and clean energy transition. By embracing the notion of blockchain as a problem-solving tool for climate change and clean energy transition, the paper draws and investigates the experiences of the 36 digitally developed and 25 digitally developing economies. It also examines the effectiveness of alternative practices in Industry 4.0. The paper's findings represent a systematic vision of implementing blockchain initiatives to solve climate change and clean energy transition. An energy-efficient model with a blockchain opens up massive opportunities for ecological monitoring, supports energy transition and ameliorates economic sustainability. Since the blockchain potential is not fully unlocked, a model expanding the use of blockchain in education to train green personnel and in science to support climate innovations is proposed.

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区块链、可持续发展和清洁能源转型
数字经济的新型工业化本身加速了资源消耗,广泛的自动化不可避免地预示着技术的飞跃。这篇文章从概念和经验上为区块链的系统愿景做出了贡献,以解决气候变化挑战和清洁能源转型,同时提高良好实践的生产力和效率。这一愿景涵盖了推广生态倡议、减少废物、组织可持续投资、控制应对和预测气候变化的责任以及清洁能源转型。通过接受区块链作为气候变化和清洁能源转型解决问题工具的概念,本文借鉴并调查了36个数字发达经济体和25个数字发展中经济体的经验。它还考察了工业4.0中替代实践的有效性。该论文的发现代表了实施区块链举措以解决气候变化和清洁能源转型的系统愿景。具有区块链的节能模式为生态监测、支持能源转型和改善经济可持续性开辟了巨大机会。由于区块链的潜力尚未完全释放,因此提出了一种模式,即扩大区块链在教育中的使用,以培训绿色人才,并在科学中支持气候创新。
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来源期刊
Global Transitions
Global Transitions Social Sciences-Development
CiteScore
18.90
自引率
0.00%
发文量
1
审稿时长
20 weeks
期刊最新文献
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