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Catalytic partial oxidation oxygen diffusivity

Conversely, reaction conditions that maintained a rapid reoxidation and a small number of Mo5+ centers in the catalyst resulted in an increased selectivity. Hence, it may be concluded that in a process that involves diffusion of oxygen ions in the catalyst bulk and a prolonged lifetime of partially reduced V4+—Mo5+ metal sites, total oxidation of propene dominates. On the other hand, catalytic oxidation of propene proceeding on an oxidized V4+—Mo6+ active site at the surface of the catalyst yields an improved selectivity for partial oxidation products. [Pg.438]

The permeabilities of oxygen through the Vycor were constant with the pressure difference and decreased with the square root of the temperature (figure not included). So the main mechanism for gas permeation is Knudsen diffusion. However, the permeabilities of oxygen through the V20s-coated catalytic membrane were deviated from Knudsen diffusion. As the partial oxidation proceeded, the... [Pg.1237]

The consideration of thermal effects and non-isothermal conditions is particularly important for reactions for which mass transport through the membrane is activated and, therefore, depends strongly on temperature. This is, typically, the case for dense membranes like, for example, solid oxide membranes, where the molecular transport is due to ionic diffusion. A theoretical study of the partial oxidation of CH4 to synthesis gas in a membrane reactor utilizing a dense solid oxide membrane has been reported by Tsai et al. [5.22, 5.36]. These authors considered the catalytic membrane to consist of three layers a macroporous support layer and a dense perovskite film (Lai.xSrxCoi.yFeyOs.s) permeable only to oxygen on the top of which a porous catalytic layer is placed. To model such a reactor Tsai et al. [5.22, 5.36] developed a two-dimensional model considering the appropriate mass balance equations for the three membrane layers and the two reactor compartments. For the tubeside and shellside the equations were similar to equations (5.1) and... [Pg.185]

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See also in sourсe #XX -- [ Pg.203 ]



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Catalytic oxygenation

Catalytic partial oxidation

Oxidation diffusion

Oxidation partial

Partially oxidized

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