Ni-Fe layered double hydroxide derived catalysts for non-plasma and DBD plasma-assisted CO2 methanation

A series of bi-metallic layered double hydroxide derived materials, containing a fixed amount of Ni promoted with various amounts of Fe were obtained by co-precipitation. The synthesized materials were characterized by X-ray diffraction (XRD), temperature-programmed reduction (H₂-TPR), temperature-programmed desorption of CO₂ (CO₂-TPD), elemental analysis and low temperature N₂ sorption and tested as catalysts in CO₂ methanation at atmospheric pressure. The obtained results confirmed the formation of mixed nano-oxides after thermal decomposition of the precursor and suggest successful introduction of both nickel and iron into the layers of Layered Double Hydroxides (LDHs). The introduction of Fe into the layered double hydroxides changed the interaction between Ni and supports matrix as proven by temperature programmed reduction (H₂-TPR). The introduction of low amount of iron influenced positively the catalytic activity in CO₂ methanation at 250 °C, with CO₂ conversion increasing from 21% to 72% with CH₄ selectivity ranging from 97 to 99% at 250 °C. No other products, except CH₄ and CO were registered during the experiments. In order to enhance the catalytic activity a non-thermal plasma created by dielectric barrier discharge was applied. The obtained results prove that plasma could replace the need of heating the reactor in a dynamic system working temporarily when excess energy is available.