Methanol synthesis in a novel axial-flow, spherical packed bed reactor in the presence of catalyst deactivation
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- 作者:M.R. ; Rahimpour ; ; ; rahimpor@shirazu.ac.ir ; E. ; Pourazadi ; D. ; Iranshahi ; A.M. ; Bahmanpour
- 关键词:Spherical-axial flow reactor ; Methanol synthesis ; Catalyst deactivation ; Dynamic simulation
- 刊名:Chemical Engineering Research and Design
- 出版年:2011
- 出版时间:November 2011
- 年:2011
- 卷:89
- 期:11
- 页码:2457-2469
- 全文大小:1296 K
文摘
Since in the foreseeable future liquid hydrocarbon fuels will play a significant role in the transportation sector, methanol might be used potentially as a cleaner and more reliable fuel than the petrochemical-based fuels in the future. Consequently, enhancement of methanol production technology attracts increasing attention and, therefore, several studies for developing new methanol synthesis reactors have been conducted worldwide. The purpose of this research is to reduce the pressure drop and recompression costs through the conventional single-stage methanol reactor. To reach this goal, a novel axial-flow spherical packed bed reactor (AF-SPBR) for methanol synthesis in the presence of catalyst deactivation is developed. In this configuration, the reactor is loaded with the same amount of catalyst in the conventional single-stage methanol reactor. The reactants are flowing axially through the reactor. The dynamic simulation of the spherical reactors has been studied in the presence of long-term catalyst deactivation for four reactor configurations and the results are compared with the achieved results of the conventional tubular packed bed reactor (CR). The results show that the three and four stages reactor setups can improve the methanol production rate by 4.4 % and 7.7 % for steady state condition. By utilizing the spherical reactors, some drawbacks of the conventional methanol synthesis reactors such as high pressure drop, would be solved. This research shows how this new configuration can be useful and beneficial in the methanol synthesis process.