Thermochemical energy storage properties of a barium based reactive carbonate composite†
Abstract
This study introduces a new concept of reactive carbonate composites (RCCs) for thermochemical energy storage, where a BaCO3–BaSiO3 mixture offers a successful thermodynamic destabilisation of BaCO3 with moderate cyclic stability ∼60%, close to the theoretical maximum when considering unreactive impurities. This research presents an alternative to molten salt based energy storage technology that operates at higher temperature (850 °C) and hence maintains a higher Carnot efficiency at a competitive price level, enabling the development of a thermal energy storage system more favourable than state-of-the-art technology. Finally, the addition of catalytic quantities of CaCO3 to the RCC significantly improves the reaction kinetics (one order of magnitude) through the formation of intermediate Ba2−xCaxSiO4 compounds, which are hypothesised to facilitate Ba2+ and O2− mobility through induced crystal defects.