期刊
FUEL PROCESSING TECHNOLOGY
卷 206, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.fuproc.2020.106434
关键词
Model; Deactivation; Core-shell; CO2; Valorization; Dimethyl ether
资金
- Ministry of Economy and Competitiveness of the Spanish Government [CTQ2016-77812-R]
- Basque Government [IT1218-19]
- ERDF funds
- European Commission (HORIZON H2020-MSCA RISE-2018) [823745]
A kinetic model for the CO2 + CO hydrogenation to dimethyl ether (DME) in a single step over an original coreshell structured CuO-ZnO-ZrO2@SAPO-11 bifunctional catalyst (metallic in the core and acid in shell) has been established. The catalytic runs have been carried out in an isothermal fixed bed reactor under the following conditions: 250-325 degrees C; 10-50 bar; space time, 1.25-15 gcat.h.mol(C)(-1); H-2/COx molar fraction in the feed, 2.5-4, and CO2/COx, 0-1. The catalyst has a high activity and stability as a result of the separation of the reactions in the two functions. The model describes the effect of the operating conditions (temperature, pressure and feed composition) over the evolution of product distribution with time on stream. For this, the individual reactions (CO2 and CO hydrogenation to methanol, its dehydration to DME, the WGS reaction and the side reaction of hydrocarbons formation) are considered together with catalyst deactivation. Using the model, simulation studies allow for establishing suitable operating conditions (305 degrees C, 70 bar, CO2/COx of 0.75 and H-2/COx of 3) to attain a good compromise between DME yield and CO2 conversion, reaching a value of 23% for both objectives.
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