Hydrogen technologies are essential for clean mobility, especially in heavy-duty transport. However, refuelling infrastructure is developing slowly, and hydrogen compression remains a major challenge, as compressors are the most complex and costly element of an HRS, both in investment and reliability.
To address this, the COSMHYC consortium developed an innovative hybrid compression system combining metal hydride and mechanical compressors. Designed for hydrogen mobility and suitable for applications like filling centres, the solution had reached TRL 5 in previous projects. COSMHYC DEMO aimed to advance it to TRL 7 by validating real-life operation. The partners not only improved, built, and tested the system, but also constructed and commissioned a full HRS that served as the demonstration site. This process provided valuable experience in infrastructure construction and authorisation procedures. The compression solution and all HRS equipment are now CE-certified and compliant with the latest refuelling and hydrogen purity standards.
The new HRS, within the HYSOPARC project near Tours, France, is central for local hydrogen mobility. Operating since 2024, the dual-pressure station serves multiple 700-bar or 350-bar vehicle types, incl. a 700-bar garbage truck from the HECTOR project.
The demonstration ran for over a year using trailer-supplied green hydrogen. A dedicated monitoring system on both compressors confirmed the technical feasibility of integrating and operating the hybrid solution and enabled data collection for a techno-economic assessment. The analysis showed strong performance, flexibility, and significant reductions in maintenance and operating costs versus current technologies.
COSMHYC DEMO has therefore strengthened the basis for hydrogen mobility in the CCTVI region and demonstrated compression technology with high potential to enhance the economic, environmental, and societal benefits of hydrogen deployment.