On May 8, EVE Hydrogen Energy reached another major delivery milestone for large-scale hydrogen production equipment! The company's 100 Nm³/h centralized hydrogen production system successfully completed all factory acceptance tests and was officially shipped to Shandong Province. Once commissioned, the equipment will provide customers with a stable, efficient and safe green hydrogen source, serving as a benchmark demonstration application to support full-chain hydrogen technology verification and large-scale promotion, and offering a high-quality model for the industrialization of hydrogen energy.
EVE Hydrogen Energy's AEM water electrolysis technology is built on a solid theoretical foundation and talent pool. Its core R&D team originates from Professor Zhuang Lin's research group at Wuhan University, with deep expertise in cutting-edge theoretical research including core electrochemical mechanisms of water electrolysis and hydrogen production reaction kinetics. Leveraging mature advanced electrochemical theory and long-term engineering practice accumulation, the team has continuously carried out comprehensive technological refinement including electrolyzer structure optimization, system control logic iteration and process system upgrading. This has achieved deep integration of cutting-edge electrochemical theory and industrial hydrogen production equipment, resulting in a mature AEM hydrogen production technology system adaptable to multiple scenarios with high energy efficiency and safety, laying a solid technical foundation for the stable and reliable operation of equipment.
The delivered 100 Nm³/h hydrogen production system is a benchmark product optimized and iterated based on EVE Hydrogen Energy's MW-class electrolyzer and system platform. Empowered by the downward extension of high-power platform technology, it features high overall technological maturity, strong scalability and excellent operational stability. Adopting a single-tank integrated design, which differs from traditional multi-tank splicing solutions, the equipment has a more streamlined and compact structure, better system consistency and lower later maintenance costs. It is highly adaptable to the large-scale and continuous operation requirements of hydrogen energy park demonstration projects, and fully meets the high standards of national-level demonstration projects for equipment performance, stability and safety.
In terms of performance testing, this 100 Nm³/h centralized hydrogen production system has undergone strict factory tests with stable and reliable core parameters:
Ultra-low operating energy consumption: Initial rated DC power consumption ≤ 4.3 kWh/Nm³, effectively reducing industrial hydrogen production operating energy consumption and helping customers achieve dual benefits of cost reduction and carbon reduction;
Stable and efficient hydrogen production: Hydrogen production capacity reaches 105 Nm³/h under rated conditions, fully matching the hydrogen load for continuous industrial production;
High safety redundancy: Hydrogen content in oxygen is consistently below 1.5%, superior to the industry's conventional safety threshold, effectively adapting to the strict safety requirements of high-risk chemical working conditions.
Looking ahead, EVE Hydrogen Energy will continue to rely on its core industry-university-research technological advantages, continuously iterate MW-class high-power hydrogen production platform technology, and optimize equipment energy efficiency, safety performance and integration capabilities. The company will further promote the large-scale deployment of AEM hydrogen production technology in multiple scenarios including national-level demonstration projects, hydrogen energy park construction, industrial green hydrogen substitution and renewable energy-coupled hydrogen production. With reliable domestically produced green hydrogen equipment, EVE Hydrogen Energy will help drive energy conservation and carbon reduction in the industrial sector, empower the high-quality development of the hydrogen energy industry, and accelerate the achievement of the national "dual carbon" goals.
