Global Renewable Energy Transition Toward Carbon Neutrality: Technological Advances, Policy Drivers, and Socioeconomic Implications
カーボンニュートラルに向けた世界の再生可能エネルギー移行:技術の進歩、政策要因、社会経済的影響 (AI 翻訳)
A.S.M Zulkarnayeen, S.M Akib
🤖 gxceed AI 要約
日本語
本論文は、再生可能エネルギーへの世界的な移行がカーボンニュートラル達成に果たす役割を概観する。太陽光、風力、地熱などの技術進歩、政策枠組み、社会経済的影響を分析し、2030年までに新規発電容量の70-80%が再生可能エネルギーになると予測する。AI管理システムや高度蓄電技術などの新興ソリューションも議論する。
English
This paper reviews the global renewable energy transition toward carbon neutrality, analyzing technological advances, policy drivers, and socioeconomic implications. It projects 70-80% of new electricity capacity will come from renewables by 2030. Emerging solutions like AI-driven energy management and advanced storage are discussed. Challenges include infrastructure and geographic variability.
Unofficial AI-generated summary based on the public title and abstract. Not an official translation.
📝 gxceed 編集解説 — Why this matters
日本のGX文脈において
日本においては、再生可能エネルギーの導入拡大はGX政策の柱であり、2030年度の電源構成目標達成に向けた重要課題。本論文は世界的動向を俯瞰しており、日本の政策立案者や事業者にとって国際比較の観点から参考となる。ただし、日本の具体的な制度(FIT/FIPなど)やSSBJには直接言及しない。
In the global GX context
This paper provides a broad global overview of renewable energy transition, relevant to international climate policy frameworks like the Paris Agreement. It offers context for corporate disclosure on energy transition under TCFD/ISSB. However, it lacks specific empirical evidence on financial implications or country-level case studies.
👥 読者別の含意
🔬研究者:Provides a comprehensive overview of the renewable energy transition landscape, useful for contextualizing more focused empirical studies.
🏛政策担当者:Highlights key drivers and challenges for renewable energy policy, useful for national energy strategy planning.
📄 Abstract(原文)
The global transition toward renewable energy plays a critical role in achieving carbon neutrality, mitigating climate change, and promoting sustainable economic development. As dependence on fossil fuels declines, renewable sources such as solar, wind, and geothermal energy are increasingly becoming dominant contributors to electricity generation worldwide. Due to falling technology costs, continuous innovation, and supportive policy frameworks, it is projected that 70–80% of new electricity capacity additions could come from renewable technologies by 2030. Emerging solutions including artificial intelligence–driven energy management systems, advanced energy storage technologies, smart grids, and Power-to-X applications are improving energy efficiency, reliability, and flexibility in addressing the intermittency of renewable resources. International policy frameworks, particularly the Paris Agreement, continue to guide national energy strategies toward alignment with global climate targets. Despite these promising developments, several challenges remain, including infrastructure limitations, stakeholder resistance, environmental concerns, and geographic variability in resource availability. Addressing these barriers requires strategic planning, inclusive stakeholder participation, and strengthened environmental governance. Furthermore, the adoption of renewable energy contributes significantly to public health improvements through reductions in air pollution. Overall, the transition to renewable energy represents a multidimensional process involving technological, economic, environmental, and social considerations. Effectively addressing these factors can accelerate progress toward a carbon-neutral energy system that supports environmental sustainability, human well-being, and long-term economic stability.
🔗 Provenance — このレコードを発見したソース
- crossref https://doi.org/10.70818/pjaei.v03i01.0206first seen 2026-05-14 23:31:19
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