Chemical energy carriers produced according to power-to-X concepts will play a crucial role in the future energy system. Here, CO2 methanation is described as one promising route. However, transient operating conditions and the resulting effects on catalyst stability are to be considered. In this contribution, a tap reactor for spatially and temporally resolved analysis of the methanation reaction is presented. The Ni catalyst investigated was implemented as coating. Reaction data as a function of time and reactor coordinate under various operating conditions are presented and discussed. A comparison with simulation data validates the presented tap reactor concept.
CITATION STYLE
Engl, T., Langer, M., Freund, H., Rubin, M., & Dittmeyer, R. (2023). Tap Reactor for Temporally and Spatially Resolved Analysis of the CO2 Methanation Reaction. Chemie-Ingenieur-Technik, 95(5), 658–667. https://doi.org/10.1002/cite.202200204
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