Limiting conversions of dehydrogenation in palladium membrane reactors

The dehydrogenation of isobutane to isobutene was conducted in a comparatively low-temperature range (from 623 to 723 K) using a hydrogen-permeable membrane reactor. An Al,O,-supported platinum catalyst exhibited high activity compared with a commercial Cr,Oa-Al,Oa catalyst in a conventional flow re

Accurate simulation of fixed-bed catalytic reactors requires the computation of the effectiveness factors at each point along the length of the reactor. This requires the formulation and solution of rigorous diffusion-reaction models for the porous pellets based on the more rigorous Stefan-Maxwell e

The oxidative dehydrogenation of propane (ODHP) has been studied in a catalytic membrane reactor using either an ODHP catalyst (V-Mg-0 or Ni based) supported on commercial porous alumina membranes, or a V-Mg-0 catalyst bed enclosed in a zeolite membrane. No significant membrane effects were found on

A catalytic membrane reactor containing a tubular palladium-silver (Pd-Ag) membrane sealed in the centre to separate in situ the hydrogen produced, was used to exceed equilibrium limitations in the dehydrogenation of methylcyclohexane. A sulphided, monometallic, noble metal catalyst produced higher