Send this article to a friend: June |
China's Abundant Solar and Wind Resources Drive Green Hydrogen Projects Mainland China's national plan identifies hydrogen as a key element in its low-carbon energy transition strategy. The nation is committed to using hydrogen for decarbonization, with Rystad Energy projecting the installation of approximately 2.5 gigawatts (GW) of hydrogen electrolyzer capacity by the end of the year. This capacity is expected to produce 220,000 tonnes per annum (tpa) of green hydrogen, 6-kilotonnes-per-annum (ktpa) more than the rest of the world combined. Under its national plan, China is targeting green hydrogen production of 200,000 tpa by the end of 2025, but our analysis shows it will exceed that volume by the end of this year. Mainland China installed a cumulative 1 GW of electrolyzer capacity in 2023, cementing its position as a world leader in the technology’s adoption. However, a substantial portion of China's hydrogen supply is derived from grey hydrogen, produced through coal gasification or steam methane reforming (SMR). If China intends to achieve its dual carbon objectives of peaking emissions by 2030 and achieving carbon neutrality by 2060, switching to low-carbon hydrogen production methods will be crucial. In early 2022, China’s National Development and Reform Commission released its national hydrogen plan, known as the ‘Medium and Long-Term Strategy for the Development of the Hydrogen Energy Industry’. This plan acts as a comprehensive roadmap for the county’s hydrogen goals from 2021 to 2035, with its production targets currently being met with relative ease. While China's proposed standards and solutions represent progress, they currently fall short of the more stringent benchmarks set by European counterparts. The ambiguity surrounding the definitions of 'low carbon' and 'renewable' hydrogen within China's policies is a notable concern. To truly catalyze meaningful change, it is imperative for China to adopt clear and stringent definitions that align with global best practices, such as those seen in Europe. By establishing unequivocal standards, China can ensure that its hydrogen initiatives contribute significantly towards a sustainable future, not just domestically but also on a global scale Minh Khoi Le, Head of Hydrogen Research, Rystad Energy Learn more with Rystad Energy’s Hydrogen Solution. Despite progress, a geographical disparity exists between China's hydrogen demand centers in the east and its abundant solar and wind energy resources in the north, which are ripe for developing green hydrogen production. For example, Inner Mongolia and Gansu have set ambitious targets for renewable hydrogen production by 2025. Their efforts for hydrogen production, combined with other provinces, would collectively surpass 1 million tpa, a five-fold increase compared to China’s national target. However, this has resulted in a supply-demand mismatch, prompting China to explore the expansion of its network of hydrogen pipelines. One notable endeavor is the development of a 400-kilometer pipeline by Chinese state-owned oil and gas company Sinopec, connecting Ulanqab in Inner Mongolia to Yanshan in Beijing. With initial capacity of 100,000 tpa, and plans to scale up to 500,000 tpa, this pipeline marks China's first long-distance hydrogen conduit. Additionally, a 737-kilometer hydrogen pipeline from Zhangjiakou to the port of Caofeidian via Chengde and Tangshan is being developed by Tangshan Haitai New Energy Technology in Hebei, costing $845 million. If realized, it would be the world’s longest hydrogen pipeline. China Petroleum Pipeline Engineering Corporation, a Sinopec subsidiary, aims to expand this network to 6,000 kilometers (KM) by 2050. Provinces with strong solar and wind potential have also announced more ambitious hydrogen production targets. For instance, Inner Mongolia aims for 480,000 tpa of renewable hydrogen production by 2025, while Gansu has set a target of 200,000 tpa. These provinces are heavyweights for transformation in the region, significantly affecting the 1 million target mentioned earlier and contributing enormously to China’s hydrogen production in the region. Despite commissioning multiple projects recently, challenges remain in ensuring electrolyzer facilities can run at full capacity in China. A major bottleneck is the significant renewable energy capacity required to power the electrolyzers. For example, producing 1 million tpa of green hydrogen requires roughly 20 GW of onshore wind capacity. Consequently, hydrogen projects compete directly with other substantial electrification needs throughout China. Operating electrolyzers below nameplate capacity can, in turn, lead to safety risks. Most alkaline electrolyzers currently used in China have an operating range between 30% and 100% of their nameplate yield. As such, if the power available restricts the production of hydrogen to less than 30% of its maximum capacity, the electrolyzers will shut down for safety reasons. This prevents gas mixing and a potential explosion, which is more likely when electrolyzers operate below nameplate capacity. Despite these challenges, Rystad Energy expects the share of green hydrogen to continue to grow in China, especially since it is installing new electrolyzer capacity at a world-leading pace every year, a similar trajectory seen in the solar PV and wind industry, which China continues to lead. By 2030, China’s four largest projects will account for up to half of the country’s total green hydrogen production capacity.
|
Send this article to a friend: