On October 27, 2025, Fuda Zijin Hydrogen Energy Technology Co., Ltd. launched China's first 1-tonne commercial ammonia-to-hydrogen and hydrogen production-refueling integrated station project.

At the "2025 China Hydrogen Energy Industry Conference", Fuda Zijin Hydrogen Energy Technology Co., Ltd. (hereinafter referred to as "Fuda Zijin Hydrogen Energy") officially launched China's first 1,000kg-class commercial ammonia-to-hydrogen and hydrogen refueling integrated station project. Centered on the "renewable energy - hydrogen - ammonia - energy storage - application" zero-carbon circular route and relying on Fuda Zijin Hydrogen Energy's independent technologies, the project marks a major technological breakthrough in China's hydrogen energy storage, transportation and refueling sector, and a crucial step forward in its commercialization process.As a leading enterprise in ammonia-hydrogen integration technology, Fuda Zijin Hydrogen Energy was invited to make a high-profile appearance at the conference's opening ceremony and industrial achievements release session, attracting great attention from participating leaders, experts and industry partners.The core technology of the project is the low-temperature ammonia decomposition hydrogen production system independently developed by Fuda Zijin Hydrogen Energy, which can achieve an ammonia conversion rate of over 99.5% under 480℃ working conditions. Compared with traditional devices, it is smaller in size, lower in energy consumption, and boasts advantages such as on-site production for immediate use and flexible capacity adjustment.The project innovatively adopts the "liquid ammonia direct supply - on-site hydrogen production - instant hydrogen refueling" model, which completely solves the problem of high transportation costs in traditional high-pressure hydrogen storage. This reduces the terminal hydrogen price to approximately 30 yuan per kilogram, a 50% decrease compared with conventional methods. In terms of production capacity, the integrated station project can stably produce 1,000kg of high-purity hydrogen per day, capable of providing continuous refueling services for no less than 100 4.5-ton hydrogen fuel cell logistics vehicles, thus empowering the green logistics and transportation system.

It is reported that as a hydrogen carrier, liquid ammonia features low storage and transportation costs as well as high safety, making it an ideal solution to break through the bottlenecks in the large-scale application of hydrogen energy. The core technological breakthroughs in low-temperature and high-activity catalysts and small integrated modular reactors have enabled the ammonia-to-hydrogen technology to operate efficiently, stably and economically in commercial scenarios, providing a brand-new solution for the supply of "green hydrogen".

It is reported that this 1,000-kilogram-class commercial ammonia-to-hydrogen and hydrogen refueling integrated station project has been settled in Nanhai District, Foshan City, Guangdong Province, a national pioneer zone for the hydrogen energy industry. The launch of this project marks another milestone for Fuda Zijin Hydrogen Energy following the industrialization of its ammonia-hydrogen catalytic technology. Relying on this project, Fuda Zijin Hydrogen Energy will provide a replicable new model of zero-carbon hydrogen energy supply nationwide. In the future, it will further accelerate the pilot and demonstration application of ammonia-hydrogen integration technology, promote the implementation of more commercial projects, and contribute to the achievement of the "dual carbon" goals.

Disclaimer: Information reprinted on this website from cooperative media, institutions, or other websites is intended to convey more information. It does not imply endorsement of the views expressed or verification of the accuracy of the content. All information on this website is for reference only and shall not serve as the basis for transactions or services. If any content on this website infringes upon rights or raises other issues, please notify us promptly, and we will make corrections or remove the relevant content in a timely manner. Anyone who accesses this website in any way or directly/indirectly uses the materials on this website shall be deemed to have voluntarily accepted the constraints of this disclaimer.