On July 8, 2026, Haozhen Hydrogen Energy's 200 Nm³/h alkaline water electrolysis hydrogen production system was recently shipped from its manufacturing base and will be delivered to the project site of a well-known non-ferrous metal enterprise in China. This equipment represents the delivery of Haozhen Hydrogen Energy's first signed order of 2026 and also marks the transition of its industrial green microgrid solution from design to on-site implementation.
It is learned that the project was officially launched after the Chinese New Year. Haozhen Hydrogen Energy's project team advanced in coordination across design, procurement, production, quality inspection, and other stages, completing equipment manufacturing and delivery preparation in just over a hundred days, ensuring the project was shipped as planned.
The delivered equipment is from Haozhen Hydrogen Energy's 'Zhuxing' series of alkaline electrolysis hydrogen production products. During manufacturing, the enterprise conducted full-process assembly, commissioning, and detection of the electrolyzer, gas-liquid separation system, purification system, and electrical control system, and carried out quality verifications such as flaw detection and air tightness testing to ensure the equipment has a solid foundation for stable operation in subsequent industrial scenarios.
In terms of technical performance, the delivered product incorporates multiple optimizations. The electrolyzer features a high current density design, with weight reduced to within 10 mt and length compressed to under 2.5 meters, lowering transportation and installation difficulty. The BOS system has been intensively reconfigured, reducing its footprint by over 10% compared to previous versions. Additionally, the equipment's welds achieved 100% flaw detection and passed on the first attempt, and the verticality and twist accuracy of the electrolyzer assembly were controlled within 1 mm.
In the non-ferrous metal industry, hydrogen is often used as a reducing medium and protective gas during production. However, externally purchased hydrogen typically faces issues such as high cost and insufficient supply stability. After the project is put into operation, the client will achieve self-production and self-use of hydrogen, enhancing the security of hydrogen supply and reducing hydrogen cost.
According to the project plan, the intelligent control system independently developed by Haozhen Hydrogen Energy will handle energy scheduling. During the day, the system can prioritize the consumption of surplus electricity from MW-level rooftop PV, enabling green electricity to produce hydrogen on-site; at night, it can utilize off-peak grid electricity to produce hydrogen during valley hours, further reducing overall energy costs.
This operating model of 'PV priority + valley electricity supplement' helps alleviate the contradiction between the fluctuations of renewable energy and continuous industrial production. While meeting the demand for stable hydrogen supply, it also promotes the reduction of carbon emission intensity for enterprises.
In terms of application value, the project will establish an industrial green energy closed loop of 'PV green electricity, green hydrogen production, and metal smelting,' representing a practical exploration of the Guidelines for the Construction and Application of Industrial Green Microgrids. After completion and operation, the project is expected to become a replicable and scalable industrial green microgrid demonstration case for the non-ferrous metal industry.
As the equipment is shipped, Haozhen Hydrogen Energy's technical service team will also head to the project site to provide installation guidance and commissioning services, promoting the project's rapid commissioning and efficiency. In the future, Haozhen Hydrogen Energy will continue to advance the application of green hydrogen equipment in high-energy-consuming industrial scenarios, supporting industrial energy saving, carbon reduction, and the construction of zero-carbon energy systems.



