For sustainable large-scale production of hydrogen, it is essential for electrolysis equipment to be compatible with fluctuating electrical power input generated from renewable energy sources. To address this issue, Asahi Kasei will introduce a pilot plant comprising several Aqualizer™ electrolyzer modules to perform various trial operations regarding responsiveness to power fluctuation and long-term durability.
The system features a changeable configuration with 1–4 water electrolysis modules of 0.8 MW. Utilizing multiple modules, the behavior of equipment under various conditions can be replicated, such as the case where one module malfunctions during operation, or the case of low output operation at night. This facilitates verification and improvement of apparatus design, operation methods and control technology.
Furthermore, the Aqualizer™ electrolyzer is designed to replicate fluctuating output of renewable energy. Since renewable sources provide unstable power output, water electrolysis equipment needs to be highly responsive to fluctuations. As the equipment is designed to simulate such fluctuations, it enables verification of compatibility with renewable energy and coordination with the power system.
Construction and operation of the plant is supported by the ‘Green Innovation Fund’ of Japan’s New Energy and Industrial Technology Development Organization (NEDO).
Asahi Kasei is currently advancing its hydrogen-related business centered on the alkaline water electrolysis system for hydrogen production developed utilizing its experience and expertise gained with the membrane process for chlor-alkali electrolysis.
The company installed a 10 MW alkaline water electrolysis system at the Fukushima Hydrogen Energy Research Field (FH2R) as part of a project led by Japan’s NEDO and performed several trial operations since 2020. Based on the technological achievements obtained at FH2R, Asahi Kasei plans to commercialize a larger-scale alkaline water electrolysis system comprising multiple 10 MW modules by 2025.