Modelling and simulation of a single slit micro packed bed reactor for methanol synthesis

Abstract: A mathematical model for a single slit packed microstructured reactor-heat exchanger in the synthesis of methanol from syngas was developed. The model constitutes a simplified 3D-pseudo homogeneous approach for a reaction slit with integrated pillar geometry. Literature kinetic rate expressions for methanol synthesis over commercial Cu/ZnO/support type catalysts were applied at 80 bar total pressure, temperature range of 473-558 K, and syngas composition of H 2 /CO/CO 2 /N 2 :65/25/ 5/5 mol%. The model is foun… Show more

“…While the quench reactor is simpler to operate, easier for changing the catalyst and less expensive, the isothermal reactor provides better temperature control, which increases catalyst activity, enables higher single-pass conversion, reduces catalyst deactivation and reduces by-product formation [12]. Novel reactor concepts such as microstructured [44,45] and membrane reactors [46][47][48] have been also proposed to optimize the process efficiency and product purity.…”

CO_x Fixation to Elementary Building Blocks: Anaerobic Syngas Fermentation vs. Chemical Catalysis

“…While the quench reactor is simpler to operate, easier for changing the catalyst and less expensive, the isothermal reactor provides better temperature control, which increases catalyst activity, enables higher single-pass conversion, reduces catalyst deactivation and reduces by-product formation [12]. Novel reactor concepts such as microstructured [44,45] and membrane reactors [46][47][48] have been also proposed to optimize the process efficiency and product purity.…”

CO_x Fixation to Elementary Building Blocks: Anaerobic Syngas Fermentation vs. Chemical Catalysis

CO ₂ Utilization Enabled by Microchannel Reactors

Methanol Production From Biogas: Current Status and Future Prospects