Journal ArticleDOI
Radial mixing diffusion of hydrogen in a packed-bed type of palladium membrane reactor
TLDR
In this article, the axial profiles of hydrogen concentration (partial pressure) in the packed bed were experimentally measured and mathematically analyzed using two flow models, ideal and radial diffusion models.Abstract:
A previous study has shown that a tubular packed-bed type of palladium membrane reactor can considerably promote the catalytic dehydrogenation reaction of cyclohexane by selectively separating hydrogen produced in the course of reaction through palladium membrane. Effects of radial diffusion on the hydrogen separation from a low-flow-rate gas mixture containing hydrogen was examined under atmospheric pressure at 473 K using an annular packed-bed type of palladium membrane reactor. The axial profiles of hydrogen concentration (partial pressure) in the packed bed were experimentally measured and mathematically analyzed using two flow models, ideal and radial diffusion models. The ideal flow model could not explain the experimental results very well. On the other hand, the radial diffusion model could successfully simulate the profiles of hydrogen partial pressure formed along the packed bed of palladium membrane reactor. It became clear that there exists a gradient of hydrogen partial pressure in the radial direction of the packed bed due to its permeation through palladium membrane. In addition, Peclet numbers at low Reynolds numbers were determined and were explainable by the extended Wen and Fan equation.read more
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Journal ArticleDOI
Innovations in palladium membrane research
S. N. Paglieri,J. D. Way +1 more
TL;DR: A review of palladium membrane research can be found in this article, where the authors highlight various aspects of current palladium-based membrane research and serve as a comprehensive bibliography covering palladium preparation methods and applications.
Journal ArticleDOI
Modelling of packed bed membrane reactors for autothermal production of ultrapure hydrogen
TL;DR: In this paper, the conceptual feasibility of a packed bed membrane reactor for the autothermal reforming (ATR) of methane for the production of ultrapure hydrogen was investigated, and it was concluded that autothermal production of H2 in a PBMR is feasible, provided that the membranes are positioned outside the inlet region with large temperature gradients.
Journal ArticleDOI
Efficient production of hydrogen from natural gas steam reforming in palladium membrane reactor
TL;DR: In this article, an ultra-thin, high performance composite palladium membrane, developed via a novel electroless plating method, was applied to construct a membrane reactor for methane steam reforming reaction, which was investigated under the following working conditions: temperature 723-823 K, pressure 300-900kPa, gas hourly space velocity (GHSV) 4000-8000 mL g cat − 1 h − 1, steam-to-carbon feed ratio (S/C, mol/mol) 2.5-3.5 and sweep ratio (defined as the ratio
Journal ArticleDOI
Decline in Hydrogen Permeation Due to Concentration Polarization and CO Hindrance in a Palladium Membrane Reactor
Shigeki Hara,K. Sakaki,N. Itoh +2 more
TL;DR: In this paper, a double-tube type of palladium membrane reactor (PMR) was analyzed by solving mathematical models taking into account mixing diffusion of hydrogen in the radial direction of the catalyst-packed bed.
Journal ArticleDOI
A carbon membrane reactor
Naotsugu Itoh,K. Haraya +1 more
TL;DR: In this article, a carbon membrane reactor for cyclohexane de-hydrogenation was developed and examined using carbon membranes as a test reaction, and it was shown that the performance of the membrane for the dehydrogenation exceeded that of a normal reactor, i.e., equilibrium conversion.