Journal ArticleDOI
Steam reforming of methane in a hydrogen-permeable membrane reactor
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In this paper, a steam reforming of methane was carried out in a reactor incorporating a hydrogen-permeable membrane, which consisted of a thin palladium film supported on a porous glass cylinder.About:
This article is published in Applied Catalysis.The article was published on 1990-01-01. It has received 251 citations till now. The article focuses on the topics: Membrane reactor & Methane reformer.read more
Citations
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Journal ArticleDOI
Membranes for gas separation
Pratibha Pandey,R.S. Chauhan +1 more
TL;DR: In this paper, the authors give a brief outline of the field that has emerged on the basis of theoretical models on porous as well as non-porous membranes, and discuss mainly the solution cast polymeric membranes.
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Catalytic palladium‐based membrane reactors: A review
TL;DR: In this paper, an extensive review of the literature dealing with the class of catalytic membrane reactors which involves hydrogen permeable membranes made of palladium and palladium alloys is presented.
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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.
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Application of membrane separation processes in petrochemical industry: a review
TL;DR: In this paper, a general review on different membrane processes and membrane reactors was done and the main aim of this paper is to review the application of membrane processes in petrochemical industry, processes such as olefin/paraffin separation, light solvent separation, solvent dewaxing, phenol and aromatic recovery, dehydrogenation, oxidative coupling of methane and steam reforming of methane were discussed in detail.
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Inorganic membranes for hydrogen production and purification: A critical review and perspective
Gao Qing Lu,J. C. Diniz da Costa,Mikel Duke,S. Giessler,Robert H. Socolow,Ruth F. G Williams,Thomas G. Kreutz +6 more
TL;DR: This article reviews the recent advances in both dense phase metal and porous ceramic membranes, and compares their separation properties and performance in membrane reactor systems, and examines the critical issues in these membranes with respect to the technical and economical advantages and disadvantages.
References
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Journal ArticleDOI
A membrane reactor using palladium
TL;DR: In this paper, the cyclohexane deshydrogenation in benzene and hydrogene is reversible, and a membrane de palladium is used to separer l'hydrogene au fur and a mesure de sa formation.
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Steam reforming of natural gas with intergrated hydrogen separation for hydrogen production
TL;DR: In this article, the authors proposed a simplified process design for the production of hydrogen at high temperatures in a steam reforming of natural gas, where the hydrogen discharge is directly in the reformer tube, resulting in more favorable process conditions and, consequently, in improved by 36% utilization of the feed hydrocarbons.
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A Palladium/Porous-Glass Composite Membrane for Hydrogen Separation
TL;DR: Palladium was deposited on a porous glass tube using a technique of electroless-plating as discussed by the authors, which exhibited a remarkable permeability to hydrogen and selectively separated hydrogen from H2-N2 and H2−CO gas mixtures through the composite membrane.
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Membrane Reactor Using Microporous Glass-supported Thin Film of Palladium. Application to the Water Gas Shift Reaction
TL;DR: In this article, a composite membrane consisting of palladium thin film and a microporous-glass tube was applied to a membrane reactor for the water gas shift reaction, and the membrane reactor gave the conversion level exceeding the equilibrium one for the closed system as a result of the separation of hydrogen produced.
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The Dehydrogenation of Cyclohexane by the Use of a Porous-glass Reactor
TL;DR: In this article, a double tubular reactor was used for cyclohexane de-hydrogenation, where the inner tube was made of porous glass and the outer tube, of non-porous glass.