Underground Storage of Green Hydrogen-Boundary Conditions for Compressor Systems

The large-scale storage of hydrogen in salt caverns, modelled on today's natural gas storage, is a promising approach to storing renewable energy over a large power range and for the required time period. An essential subsystem of the overall gas storage is the surface facility and, in particular, the compressor system. The future design of compressor systems for hydrogen storage strongly depends on the respective boundary conditions. Therefore, this work analyses the requirements of compressor systems for cavern storage facilities for the storage of green hydrogen, i.e., hydrogen produced from renewable energy sources, using the example of Lower Saxony in Germany. In this course, a hydrogen storage demand profile of one year is developed in hourly resolution from feed-in time series of renewable energy sources. The injection profile relevant for compressor operation is compared with current natural gas injection operation modes.

Automated summary

This study analyzes the requirements of compressor systems for cavern storage facilities for storing green hydrogen, using Lower Saxony in Germany as an example. A one-year hydrogen storage demand profile is developed in hourly resolution from feed-in time series of renewable energy sources, and the injection profile relevant for compressor operation is compared with current natural gas injection operation modes.