Continuous Coprecipitation of Catalysts in a Micromixer: Nanostructured Cu/ZnO Composite for the Synthesis of Methanol

Bochum (Germany) [\*\*] The authors gratefully acknowledge the German science foundation (DFG) for their generous support within the framework of the collaborative research centre (SFB) 558 "metal -support interactions in heterogeneous catalysis", and Prof. H. Gies for providing high-quality MCM-48.

tillation. Using this phase transfer technique Al 2 O 3 powder A phase transfer technique was employed to prepare nanosize with 10-nm particles was prepared (7). By the same method, Cu-ZnO/Al 2 O 3 catalyst particles. Due to adsorption of metal sur-nanosize Co 2 O 3 was prepared by Shi et al. (8). H

## Abstract Highly loaded copper catalysts supported on alumina are synthesized applying the cyclic two‐step CVD of the precursor copper(II)diethylamino‐2‐propoxide in a fluidized‐bed reactor. Copper/zinc oxide/alumina composites are synthesized by either the CVD of the precursor bis[bis(trimethyls

In this study, a dynamic model for a novel cascade membrane methanol reactor (CMMR) in the presence of long term catalyst deactivation was developed. In the first catalyst bed the synthesis gas partially convert to methanol. In the second reactor the reaction heat is used to preheat the feed gas to