Alkali Effects on Molybdenum Oxide Catalysts for the OxidativeDehydrogenation of Propane
نویسندگان
چکیده
The effects of alkali oxides on the structure and on the catalytic behavior of MoOx/ZrO2 were examined for the oxidative dehydrogenation (ODH) of propane. X-ray diffraction, Raman and X-ray absorption spectroscopy, and estimates of the MoOx surface density are consistent with the predominant presence of two-dimensional polymolybdate domains in samples with ∼4 Mo/nm2 surface density and (alkali/Mo)at. ratios of 0–0.2 treated in air at 773 K. The presence of alkali (Cs, K, Li) did not affect the structure of MoOx domains, but influenced their electronic and catalytic properties. Propane ODH turnover rates decreased monotonically with increasing A : Mo atomic ratio and with increasing basicity of the alkali oxide (Cs>K>Li). These basic oxides inhibit the initial reduction of MoOx in H2 by strengthening Mo–O bonds and increasing reduction activation energies. As a result, rate-determining C–H bond activation steps, which involve the local reduction of Mo6+ centers, and the overall ODH catalytic sequence proceed more slowly when alkali oxides modify the MoOx domains. The ratio of the rate constant for primary propane combustion (k2) to that for propane ODH (k1) is small (∼0.1) and it increased slightly with increased alkali content. The ratio of the propene combustion rate constant (k3) to the propane ODH rate constant (k1) is large (15–25); it decreased with the addition of small amounts of alkali (alkali/Mo ∼ 0.05) and then remained constant at higher alkali contents. The stronger inhibition of secondary propene combustion reactions relative to that of primary ODH steps reflects the weaker Lewis acidity of Mo6+ cations modified by the strongly basic alkali oxide species. These effects decrease the binding energy of propene on the sites required for C–H bond activation of both propene and propane. They also account for the lower reaction rates and for the higher selectivity observed at a given propane conversion on alkali-modified MoOx ODH catalysts. c © 2000 Academic Press
منابع مشابه
The Effect of Alkali Metal Promoters on the Stability and Coke Formation of Platinum-Based Propane Dehydrogenation Catalysts: A Kinetic Study
The kinetics of catalyst deactivation and coke formation during dehydrogenation of propane over supported Pt–based catalysts and, in particular, the effect of alkali metal promoters on catalyst activity and stability were studied. The analysis of propane conversion data showed that there is an optimum level of alkali metal promoter loading for both catalyst activity and stability.A model ba...
متن کاملPropane oxidative dehydrogenation over vanadium oxide nanostructures supported on porous graphene prepared by hydrothermal method
In this study at first, in laboratory, three types of vanadium oxide were produced by using porous graphene and amine framework in hydrothermal method nanostructures such as: vanadium oxide - octadecyl amine - graphene, vanadium oxide - dodecyl amine - graphene and vanadium oxide – aniline - graphene (V-ODA-G، V-DDA-G، V-A-G). Then their structures and functions in propane dehydrogenation react...
متن کاملVanadium Oxide Supported on Al-modified Titania Nanotubes for Oxidative Dehydrogenation of Propane
In this study, characterization of vanadia supported on Al-modified titania nanotubes (TiNTs) synthesized by the alkaline hydrothermal treatment of TiO2 powders has been reported. A promising catalyst for oxidative dehydrogenation (ODH) of propane was prepared via the incipient wetness impregnation method. The morphology and crystalline structure of TiNTs were characterized by transmission elec...
متن کاملProtonation of Propene on Silica-Grafted Hydroxylated Molybdenum and Tungsten Oxide Metathesis Catalysts: A DFT Study
Theoretical assessment of the protonation reaction in the activation of propene on hydroxylated Mo(VI) and W(VI) metathesis catalysts is presented in this paper using the density functional theory calculations and five support clusters varying from simple SiO4H3 clusters to a large Si4O13H9 cluster. The bond distances and thermochemical...
متن کاملCatalytic Properties of Supported MoO3 Catalysts for Oxidative Dehydrogenation of Propane
The effects of MoOx structure on propane oxidative dehydrogenation (ODH) rates and selectivity were examined on Al2O3-supported MoOx catalysts with a wide range of surface density (0.4-12 Mo/nm), and compared with those obtained on MoOx/ZrO2. On MoOx/Al2O3 catalysts, propane turnover rate increased with increasing Mo surface density and reached a maximum value for samples with ~ 4.5 Mo/nm. All ...
متن کامل