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Specifications continuous catalyst regeneration

Of the various mechanical properties of a formed catalyst containing zeolite, attrition resistance is probably the most critical. This is particularly the case for FCC catalysts because of the impact on the addihon rate of fresh catalyst, particulate emissions of fines and overall catalyst flow in the reactor and regenerator. Most attrition methods are a relative determination by means of air jet attrition with samples in the 10 to 180 xm size range. For example the ASTM D5757 method attrites a humidified sample of powder with three high velocity jets of humidified air. The fines are continuously removed from the attrition zone by elucidation into a fines collection assembly. The relative attrition index is calculated from the elutriated fines removed at a specific time interval. [Pg.156]

Solid acid catalysts such as mixed oxides (chalcides) have been used extensively for many years in the petroleum industry and organic synthesis. Their main advantage compared with liquid acid catalysts is the ease of separation from the reaction mixture, which allows continuous operation, as well as regeneration and reutilization of the catalyst. Furthermore, the heterogeneous solid catalysts can lead to high selectivity or specific activity. Due to the heterogeneity of solid superacids, accurate acidity measurements are difficult to carry out and to interpret. Up until now, the most useful way to estimate the acidity of a solid catalyst is to test its catalytic activity in well-known acid-catalyzed reactions. [Pg.63]

A new generation of so-called regenerative processes emerged with the development of multimetallic catalyst systems. They operate by continuous withdrawal and regeneration of the catalyst, which is then recycled to the reactors. This technology applies to the manufacture of gasoline and specifically to that of aromatics. This is because it can withstand more severe treatment conditions, which allow intensive cyclization of the paraffins, the removal of those that subsist by hydrocracking, and the hydrodealkylation of the heavier compounds,... [Pg.170]

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Catalyst [continued)

Catalyst [continued) regeneration

Catalyst regeneration

Catalysts regenerators

Catalysts, specific

Regenerated catalyst

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