Abstract
The synthesis of methanol from biomass-derived syngas can be challenging because of the high CO2 content in the bio-syngas, resulting in lower kinetics and higher catalyst deactivation. This work explores the in situ pre-treatment of a CO2-rich syngas with a CO2/CO ratio equal to 1.9 through the reverse-water gas shift reaction with the aim of adjusting this ratio to a more favorable one for the synthesis of methanol with Cu-based catalysts. Both reactions take place in two catalytic beds placed in the same reactor, thus intensifying the methanol process. The water produced during syngas conditioning is removed by means of a sorbent zeolite to prevent the methanol catalyst deactivation and to shift the equilibrium towards the methanol formation. The combination of the CO2 shifting and the water sorption strategies lead to higher productivities of the catalytic bed and, under certain reaction conditions, to higher methanol productions.
Highlights
Methanol production from natural gas or or coal-derived syngas is ais well-establishedMethanol production from natural gas coal-derived syngas a well-established
The central step of this process is the catalytic conversion of syngas technology
The central step of this process is the catalytic conversion of syngas into into methmethanol, which is carried out over
Summary
Methanol production from natural gas or or coal-derived syngas is ais well-establishedMethanol production from natural gas coal-derived syngas a well-established. The central step of this process is the catalytic conversion of syngas into into methmethanol, which is carried out over Cu/ZnO/Al O (CZA) [1,2,3]. Methanol production from natural gas or coal-derived syngas is a well-established anol, which is carried out over. 2O3been [1,2,3].regarding These kinds of cataReceived: 21 April 2021 the decades, no substantial changes have produced regarding catalyst formula◦ catalytic ◦
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