Ion transport membrane technology for oxygen separation and syngas production

Ion transport membranes (ITMs) are made from ceramic materials that conduct oxygen ions at elevated temperatures. Successful application of ITM techno logy will allow significant improvement in the performance of several large -scale industrial processes. The ITM Oxygen process, in which ITMs are used to separate high-purity oxygen from air, has the potential for significant advantages when integrated with power generation cycles. The ITM Syngas pr ocess, by combining air separation and high-temperature syngas generation p rocesses into a single compact ceramic membrane reactor, has the potential for substantially reducing the capital investment for gas-to-liquid (GTL) p lants and for distributed hydrogen. The development efforts are major, long -term and high risk, and place severe demands on the performance and proper ty requirements of the ITM materials. Air Products and Chemicals has joined with the U.S. Department of Energy, Ceramatec and other partners to develo p, scale-up and commercialize these technologies. In addition, Air Products and Ceramatec are developing the SEOS(TM) Oxygen Generator, an electricall y-driven, small scale, oxygen generation and removal technology using ITMs, which could have a significant impact in the global market for distributed oxygen and inert gases. This paper describes the stages of development of these three related technologies, their industrial applications, and the te chnical hurdles that must be overcome before successful commercialization. (C) 2000 Elsevier Science B.V. All rights reserved.