Performance of alumina, zeolite, palladium, Pd–Ag alloy membranes for hydrogen separation from Towngas mixture

Abstract The hydrogen permeation and separation properties of alumina, zeolite (ZSM-5), palladium and Pd–Ag alloy membranes were measured and compared. Hydrogen separation from a commercial Towngas mixture (49% H 2 , 28.5% CH 4 , 19.5% CO 2 and 3% CO) was conducted. The commercial alumina membrane displayed excellent hydrogen permeation rate but was unable to separate hydrogen from the Towngas. Supported ZSM-5 membrane prepared by ex situ method was able to produce a product stream containing 60% H 2 from Towngas, whereas, high purity hydrogen was generated using thin palladium and Pd–Ag alloy membranes prepared by electroless plating technique. Some of the constituent gases in Towngas mixture inhibit hydrogen flux through the palladium membrane, but the addition of silver serves to ameliorate the situation.

[1]  T. Kojima,et al.  Hydrogen permeation properties through composite membranes of platinum supported on porous alumina , 2000 .

[2]  Hongbin Zhao,et al.  Preparation and characterization of palladium-based composite membranes by electroless plating and magnetron sputtering , 2000 .

[3]  Bernard P. A. Grandjean,et al.  Simultaneous deposition of Pd and Ag on porous stainless steel by electroless plating , 1993 .

[4]  J. Armor,et al.  Catalysis with permselective inorganic membranes , 1989 .

[5]  Marc A. Rosen,et al.  Comparative efficiency assessments for a range of hydrogen production processes , 1998 .

[6]  James Wei,et al.  Diffusion mechanism of hydrocarbons in zeolites—I. Theory , 1992 .

[7]  A. Varma,et al.  Palladium composite membranes by electroless plating technique: Relationships between plating kinetics, film microstructure and membrane performance , 1999 .

[8]  R. Bhave,et al.  Inorganic membranes : synthesis, characteristics, and applications , 1991 .

[9]  N. Sato,et al.  A Palladium/Porous-Glass Composite Membrane for Hydrogen Separation , 1988 .

[10]  Shigeyuki Uemiya,et al.  Separation of hydrogen through palladium thin film supported on a porous glass tube , 1991 .

[11]  Eiichi Kikuchi,et al.  Membrane reactor application to hydrogen production , 2000 .

[12]  Amit Chakma,et al.  Inorganic membrane reactors , 1994 .

[13]  R. Dittmeyer,et al.  Catalytic dehydrogenation of hydrocarbons in palladium composite membrane reactors , 2000 .

[14]  Veziroglu Т.Nejat,et al.  HYDROGEN ENERGY SYSTEM AS A PERMANENT SOLUTION TO GLOBAL ENERGY - ENVIRONMENTAL PROBLEMS , 2002 .

[15]  R. Hughes,et al.  Fabrication of dense palladium composite membranes for hydrogen separation , 2000 .

[16]  R. Ramachandran,et al.  An overview of industrial uses of hydrogen , 1998 .

[17]  K. Yeung,et al.  An investigation of the relationship between microstructure and permeation properties of ZSM-5 membranes , 2001 .

[18]  King Lun Yeung,et al.  Palladium-silver composite membranes by electroless plating technique , 1999 .

[19]  E. Bilgen,et al.  Large-scale hydrogen production from biogas , 1998 .

[20]  Arvind Varma,et al.  Novel preparation techniques for thin metal-ceramic composite membranes , 1995 .

[21]  Yu-Ming Lin,et al.  Process development for generating high purity hydrogen by using supported palladium membrane reactor as steam reformer , 2000 .

[22]  Shigeyuki Uemiya,et al.  Rhodium- and iridium-dispersed porous alumina membranes and their hydrogen permeation properties , 2000 .

[23]  R. Govind,et al.  Development of a composite palladium membrane for selective hydrogen separation at high temperature , 1991 .

[24]  K. Y. Foo,et al.  A New Preparation Technique for Pd/Alumina Membranes with Enhanced High-Temperature Stability , 1999 .

[25]  J. Dalmon,et al.  Gas permeation and isobutane dehydrogenation over very thin Pd/ceramic membranes , 1997 .

[26]  A. G. Knapton Palladium Alloys for Hydrogen Diffusion Membranes , 1977, Platinum Metals Review.

[27]  James Wei,et al.  Diffusion mechanism of hydrocarbons in zeolites—II. Analysis of experimental observations , 1992 .

[28]  J. Way,et al.  Preparation and characterization of a composite palladium-ceramic membrane , 1993 .

[29]  R. Hughes,et al.  Ethane dehydrogenation using a high-temperature catalytic membrane reactor , 1994 .

[30]  Muthupandian Ashokkumar,et al.  An overview on semiconductor particulate systems for photoproduction of hydrogen , 1998 .

[31]  Bernard P. A. Grandjean,et al.  Catalytic palladium‐based membrane reactors: A review , 1991 .

[32]  Lars-Gunnar Ekedahl,et al.  The effect of CO and O2 on hydrogen permeation through a palladium membrane , 2000 .

[33]  T. Matsuda,et al.  Hydrogen permeable palladium-silver alloy membrane supported on porous ceramics , 1991 .

[34]  Y. Ma Dense Palladium and Perovskite Membranes and Membrane Reactors , 1999 .

[35]  R. M. Barrer Diffusion in and through solids , 1941 .

[36]  G. Holleck Diffusion and solubility of hydrogen in palladium and palladium--silver alloys , 1970 .

[37]  M. Boudart Structure of metallic catalysts , 1978 .