%0 Journal Article %1 Wieland2002 %A Wieland, Ing. Steffen %A Melin, Ing. Thomas %A Lamm, Ing. A. %D 2002 %J Chemical Engineering Science %K imported %N 9 %P 1571-1576 %T Membrane reactors for hydrogen production %U http://www.sciencedirect.com/science/article/B6TFK-458P2PN-4/1/7440eb9c944c9b5f6b08ae441774469f %V 57 %X Fuel cell powered vehicles with on board reforming need compact and lightweight components. A membrane reactor, that combines hydrogen permeable membranes with a methanol steam reformer promises considerable weight and space savings. Its dense metal membranes produce high purity hydrogen over a wide range of pressure and load. The selective removal of hydrogen yields methanol- and CO-conversions that are higher than the equilibrium conversion in a conventional reactor. Results with three different metal membranes in a membrane reactor for steam reforming of methanol are presented. A mathematical model accurately describes the measured performance of the membrane reactor and allows predictions for other values of the process parameters.

@article{Wieland2002, abstract = {Fuel cell powered vehicles with on board reforming need compact and lightweight components. A membrane reactor, that combines hydrogen permeable membranes with a methanol steam reformer promises considerable weight and space savings. Its dense metal membranes produce high purity hydrogen over a wide range of pressure and load. The selective removal of hydrogen yields methanol- and CO-conversions that are higher than the equilibrium conversion in a conventional reactor. Results with three different metal membranes in a membrane reactor for steam reforming of methanol are presented. A mathematical model accurately describes the measured performance of the membrane reactor and allows predictions for other values of the process parameters.}, added-at = {2007-11-22T09:11:49.000+0100}, author = {Wieland, Ing. Steffen and Melin, Ing. Thomas and Lamm, Ing. A.}, biburl = {https://www.bibsonomy.org/bibtex/26da9f811f157d13b2d0d539b95a5a5a9/tboehme}, endnotereftype = {Journal Article}, interhash = {6aa0ea45a25b6f53b5f097794e95c498}, intrahash = {6da9f811f157d13b2d0d539b95a5a5a9}, journal = {Chemical Engineering Science}, keywords = {imported}, month = {2002/5}, note = {TY - JOUR}, number = 9, pages = {1571-1576}, shorttitle = {Membrane reactors for hydrogen production}, timestamp = {2007-11-22T09:12:09.000+0100}, title = {Membrane reactors for hydrogen production}, url = {http://www.sciencedirect.com/science/article/B6TFK-458P2PN-4/1/7440eb9c944c9b5f6b08ae441774469f}, volume = 57, year = 2002 }