Methanol Synthesis from CO/CO2/H2over Cu/ZnO/Al2O3at Differential and Finite Conversions
1998; Elsevier BV; Volume: 174; Issue: 2 Linguagem: Inglês
10.1006/jcat.1998.1964
ISSN1090-2694
AutoresM. Sahibzada, Ian S. Metcalfe, David Chadwick,
Tópico(s)Carbon Dioxide Capture Technologies
ResumoMethanol production from CO/CO2/H2over a Cu/ZnO/Al2O3catalyst has been compared in an internal recycle reactor (finite conversion) and a differentially operated tubular reactor. From experiments at differential conversion it was found that the intrinsic rate of CO2hydrogenation was approximately 20 times faster than the intrinsic rate of CO hydrogenation. The rate of methanol production at differential conversion increased almost linearly with respect to the CO2concentration, indicating that there is negligible inhibition by CO2in the absence of products. With 1–4% CO2in the synthesis gas, the methanol production rate was found to be substantially greater at finite conversion than at differential conversion, which is evidence for a promoting influence by the product water. With >4% CO2in the synthesis gas there was increasing loss of methanol production at finite conversion, and under CO2/H2in particular there was an order of magnitude difference between methanol production at finite and differential conversions. This effect was due to inhibition of CO2hydrogenation associated with the presence of product water.
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