The core principle of the HyESS-R HS-UNIT lies in utilizing advanced physical compression and high-pressure sequestration to transform hydrogen into a high-density, long-duration energy reserve. The unit integrates a compressor, a buffering system, and 30MPa high-pressure cylinders into a single, cohesive energy capture module.
During the storage phase, the system accepts low-pressure hydrogen, compresses it internally, and secures it within a standardized cylinder array. A single module boasts a latent capacity of 320 kWh of electricity and 270 kWh of thermal energy. Its primary technical advantage is its rapid scalability: by paralleling additional cylinder groups, the system can expand from 16 to 80 cylinders, reaching a total capacity of 1600 kWh of electrical energy and 1350 kWh of thermal energy. This operational framework allows the HS-UNIT to serve as an efficient interface for distributed hydrogen production or as a robust, large-scale backup power foundation with reliable energy storage.

