到2060年，中国风能制氢潜力

IF 10.9 1区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

Resources Conservation and Recycling Pub Date : 2025-07-05 DOI:10.1016/j.resconrec.2025.108492

Jiaquan Li , Yi-Ming Wei , Lancui Liu

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引用次数: 0

摘要

绿色氢将在中国实现碳中和目标的过程中发挥重要作用。本研究系统地评估了中国到2060年利用风力发电制氢的潜力。结果表明，中国可用于风力发电的陆地和海域总面积约为540万平方公里，风力制氢总装机容量为14.68 TW，到2020年技术水平可生产71286万吨/年氢气。随着水电解转化效率的逐步提高，到2060年可增至90296万吨/年，相当于当年中国氢总需求量的6.94-10.04倍。从空间分布上看，中国风电潜力主要集中在新疆、内蒙古、青海、西藏、甘肃及近海五省，其制氢潜力占全国的86.82%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Hydrogen production potential from wind power in China by 2060

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Hydrogen production potential from wind power in China by 2060

Green hydrogen will play an important role in China's process of achieving carbon neutrality goals. This study systematically evaluated China's potential for hydrogen production from wind power until 2060. The results show that China has a combined land and sea area of approximately 5.40 million km² that is available for wind power generation, with a total installed capacity of 14.68 TW for wind-based hydrogen production, which can produce 712.86 million tons/year of hydrogen at the technological level of 2020. With the gradual improvement in the conversion efficiency of water electrolysis, it can increase to 902.96 million tons/year by 2060, which is equivalent to 6.94–10.04 times China's total hydrogen demand in that year. In terms of the spatial distribution, China's wind power potential is mainly concentrated in the five provinces of Xinjiang, Inner Mongolia, Qinghai, Tibet, Gansu and offshore, and their hydrogen production potential accounts for 86.82 % of China's total.

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来源期刊

Resources Conservation and Recycling 环境科学-工程：环境

CiteScore

22.90

自引率

6.10%

发文量

625

审稿时长

23 days

期刊介绍： The journal Resources, Conservation & Recycling welcomes contributions from research, which consider sustainable management and conservation of resources. The journal prioritizes understanding the transformation processes crucial for transitioning toward more sustainable production and consumption systems. It highlights technological, economic, institutional, and policy aspects related to specific resource management practices such as conservation, recycling, and resource substitution, as well as broader strategies like improving resource productivity and restructuring production and consumption patterns. Contributions may address regional, national, or international scales and can range from individual resources or technologies to entire sectors or systems. Authors are encouraged to explore scientific and methodological issues alongside practical, environmental, and economic implications. However, manuscripts focusing solely on laboratory experiments without discussing their broader implications will not be considered for publication in the journal.