화학공학소재연구정보센터
Chemical Engineering and Processing, Vol.47, No.12, 2121-2130, 2008
A comparison of auto-thermal and conventional methanol synthesis reactor in the presence of catalyst deactivation
This study proposed a one-dimensional dynamic plug now model to analyze and compare the performance of an auto-thermal and a conversional methanol synthesis reactor in the presence of catalyst deactivation. An auto-thermal two-stage industrial methanol reactor type is a system with two catalyst beds instead of one single catalyst bed. In the first catalyst bed, the synthesis gas is partly converted to methanol in a water-cooled reactor. In the second bed which is a gas-cooled reactor, the reaction heat is used to preheat the feed gas to the first bed. To analyze the effect of important control variables on the rector performance, steady state and dynamic simulations are utilized to investigate effect of operating parameters on the performance of reactors. The simulation results show that there is a favorable profile of temperature along the two-stage auto-thermal reactor type in comparison with conventional single stage reactor type. fit this way the catalysts are exposed to less extreme temperatures and, catalyst deactivation via sintering is reduced. Overall, this Study resulted in beneficial information about the performance of the reactor over catalyst life-time. (C) 2007 Elsevier B.V. All rights reserved.