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Information Journal Paper

Title

Statistical modeling and optimization of propane oxidative dehydrogenation process using gamma alumina based on molybdenum catalyst

Pages

  21-39

Abstract

 Due to increase in global demand ofoxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert, many extensive studies and research have been done to find alternative method for lower energy consumption and efficiency. In this research,oxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert is used foroxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert catalyst base in oxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert process ofoxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert, in order to produce theoxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert. The catalysts are prepared based on wet impregnation method. The analysis of FTIR, XRD, BET, SEM, and XRF are done to evaluate and determine the characteristics of prepared catalysts. Central composition method is employed to study the influence of reaction temperature,oxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert loading percentage, oxygen tooxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert ratio, and the effect of interactions between them inoxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert production. Theoxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert in the range of 4-16%,oxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert to oxygen ratio in the range of 1-3%, and temperature in the range of 380-540 º C are the input parameters of the central composite method. Finally, according to reactor test and analysis of the results of theoxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert software, it is shown that the predicted models foroxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert conversion,oxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert selectivity, and efficiency persentage of oxidation dehydrogenation are about 95%. Maximum of efficiency percentage with a value of 14. 02% is obtained at 487 º C, 11. 22%oxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert percentage, andoxidative dehydrogenation| propane| propylene| gamma alumina| molybdenum| design expert to oxygen ratio of 1. 5, which in experimental results, achieving an accuracy of 94% is possible as compared to the optimal design of the test design model.

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    APA: Copy

    ASADI, REZA, TOWFIGHI DARIAN, JAFAR, & MOUSAVI, SEYED MOHAMMAD. (2018). Statistical modeling and optimization of propane oxidative dehydrogenation process using gamma alumina based on molybdenum catalyst. APPLIED RESEARCH IN CHEMICAL POLYMER ENGINEERING, 2(3 ), 21-39. SID. https://sid.ir/paper/267813/en

    Vancouver: Copy

    ASADI REZA, TOWFIGHI DARIAN JAFAR, MOUSAVI SEYED MOHAMMAD. Statistical modeling and optimization of propane oxidative dehydrogenation process using gamma alumina based on molybdenum catalyst. APPLIED RESEARCH IN CHEMICAL POLYMER ENGINEERING[Internet]. 2018;2(3 ):21-39. Available from: https://sid.ir/paper/267813/en

    IEEE: Copy

    REZA ASADI, JAFAR TOWFIGHI DARIAN, and SEYED MOHAMMAD MOUSAVI, “Statistical modeling and optimization of propane oxidative dehydrogenation process using gamma alumina based on molybdenum catalyst,” APPLIED RESEARCH IN CHEMICAL POLYMER ENGINEERING, vol. 2, no. 3 , pp. 21–39, 2018, [Online]. Available: https://sid.ir/paper/267813/en

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