Transient behavior of Cu/ZnO-based methanol synthesis catalysts

Time-resolved measurements of the methanol synthesis reaction over a Cu/ZnO-based catalyst reveal a transient methanol production that depends on the pretreatment gas. Specifically, the methanol production initially peaks after a pretreatment with an intermediate mixture of H2 and CO (20–80% H2 in CO). The activity measurements are compared to Environmental Transmission Electron Microscopy (ETEM) observations of Cu nanoparticles supported on ZnO during exposure to comparable reaction conditions. The ETEM images reveal a gas-dependent morphology of the Cu nanoparticles with a marked flattening for a gas mixture of H2:CO = 1:1. The gas-dependent morphology of the Cu nanoparticles provides a consistent explanation of the observed coupling between the transient methanol production and pretreatment conditions within the framework of the dynamic microkinetic model by Ovesen et al. [J. Catal. 168 (1997) 133–142].

The transient production of methanol over a Cu/ZnO-based catalyst depends on the pretreatment gas conditions and is explained by observations of the gas-dependent shape of Cu nanocrystals supported on ZnO.Figure optionsDownload high-quality image (19 K)Download as PowerPoint slide