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Zusammenfassung:
Massive roll-out of renewable energy production units (wind turbines and solar panels) leads to date to excess
energy which cannot be consumed at the time of production. So far, long-term storage is proposed via the so called
“power-to-gas” technology. Energy is transferred to methane gas and subsequently combusted for power production – “power-to-gas-to-power” (PGP) - when needed. PGP profits from the existing infrastructure of the gas market and could be deployed immediately. However, major shortcoming is the production of carbon dioxide (CO2) from
renewables and its emission into the atmosphere. We present an innovative idea which is a decarbonised extension of the PGP technology.
The concept is based on a closed carbon cycle: (1) Hydrogen (H2) is generated from renewable energy by electrolysis and (2) transformed into methane (CH4) with CO2 taken from an underground geological storage. (3) CH4
produced is stored in a second storage underground until needed and (4) combusted in a combined-cycled power
plant on site. (5) CO2 is separated during energy production and re-injected into the storage formation.
We studied a show case for the cities Potsdam and Brandenburg/Havel in the Federal State of Brandenburg in
Germany to determine the energy demand of the entire process chain and the costs of electricity (COE) using an
integrated techno-economic modelling approach (Nakaten et al. 2014). Taking all of the individual process steps
into account, the calculation shows an overall efficiency of 27.7 % (Streibel et al. 2013) with total COE of 20.43
euro-cents/kWh (Kühn et al. 2013). Although the level of efficiency is lower than for pump and compressed air
storage, the resulting costs are similar in magnitude, and thus competitive on the energy storage market.
The great advantage of the concept proposed here is that, in contrast to previous PGP approaches, this process
is climate-neutral due to CO2 utilisation. For that purpose, process CO2 is temporally stored in an underground
reservoir. If existing locations in Europe, where natural gas storage in porous formations is performed, were to
be extended by CO2 storage sites, a significant quantity of wind and solar energy produced could be stored as
methane. The overall process chain is in this case carbon neutral.