In the future, different forms of energy storage will be needed to optimize the use of renewable energy sources. For example, there will be long-term storage, such as gas and hydrogen, short-term storage in batteries, and medium-term storage such as compressed air (energy storage by compressing and decompressing air). Hydrogen storage will also be increasingly important to maximize the efficiency of, for example, wind farms, or as a feedstock for industrial processes. 

Salt caverns offer an effective underground storage solution, both technically and economically, with proven feasibility to enable security of supply and balancing of volatility. In addition, the storage of (green and low-carbon) energy sources in onshore salt caverns will play an important strategic role in reducing our dependence on foreign countries for our energy supplies, strengthening our strategic autonomy and making industry more sustainable.

Nobian is involved in a number of innovative projects to develop large-scale storage for renewable energy as part of tailor-made agreements with the Dutch government. In Zuidwending, the Netherlands, we have already developed several caverns for natural gas storage for storage operator EnergyStock (Gasunie). We are currently working together with Hystock (Gasunie) to develop similar caverns suitable for hydrogen storage.  We are also working with Corre Energy to develop caverns for CAES. Once completed,  Corre Energy will operate the caverns and supply renewable electricity to the market together with Eneco.

In Denmark, Nobian and Gas Storage Denmark have signed a Memorandum of Understanding (MoU) to explore potential cooperation in the development of energy storage caverns in Denmark.