Title of article
Optimization of process parameters and catalyst compositions in carbon dioxide oxidative coupling of methane over CaO–MnO/CeO2 catalyst using response surface methodology
Author/Authors
Istadi and Amin، نويسنده , , Nor Aishah Saidina، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
11
From page
449
To page
459
Abstract
The optimization of process parameters and catalyst compositions for the CO2 oxidative coupling of methane (CO2-OCM) reaction over CaO–MnO/CeO2 catalyst was developed using Response Surface Methodology (RSM). The relationship between the responses, i.e. CH4 conversion, C2 hydrocarbons selectivity or yield, with four independent variables, i.e. CO2/CH4 ratio, reactor temperature, wt.% CaO and wt.% MnO in the catalyst, were presented as empirical mathematical models. The maximum C2 hydrocarbons selectivity and yields of 82.62% and 3.93%, respectively, were achieved by the individual-response optimization at the corresponding optimal process parameters and catalyst compositions. However, the CH4 conversion was a saddle function and did not show a unique optimum as revealed by the canonical analysis. Moreover pertaining to simultaneous multi-responses optimization, the maximum C2 selectivity and yield of 76.56% and 3.74%, respectively, were obtained at a unique optimal process parameters and catalyst compositions. It may be deduced that both individual- and multi-responses optimizations are useful for the recommendation of optimal process parameters and catalyst compositions for the CO2-OCM process.
Keywords
CO2-OCM , Catalysts optimization , Process parameters optimization , Response surface methodology , Central composite design , CaO–MnO/CeO2 catalyst
Journal title
Fuel Processing Technology
Serial Year
2006
Journal title
Fuel Processing Technology
Record number
1507179
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