Title :
Multilayer technology as an integration system for ceramic micro fuel cells
Author :
Goldberg, Adrian ; Partsch, Uwe ; Ziesche, Steffen ; Fallant, Lars ; Schöne, Jakob ; Neubert, Holger ; Ziske, Johannes
Author_Institution :
Fraunhofer Inst. for Ceramic Technol. & Syst. IKTS, Dresden, Germany
Abstract :
Fuel cells are considered to be a possible alternative to battery technology for many years. But because of the too high production costs and the lack of long-term experience as well as the missing miniaturization of such systems there is no commercialisation. The aim of the Fraunhofer IKTS is the development of planar self-breathing μPEMFC system based on LTCC technology. By using this mass production technology together with multiple printed panels you can build highly compact and integrated micro fuel cell systems. The work presented here gives an insight into the development of μPEMFC system in various levels of integration and performance classes. They show the feasibility of miniaturization and cost reduction through integration of Balance of Plant (BoP) components and electronics in the bipolar plate of the fuel cell. Different sample systems give an outlook on possible approaches for further miniaturization.
Keywords :
ceramic packaging; multilayers; proton exchange membrane fuel cells; μPEMFC system; Fraunhofer IKTS; LTCC technology; battery technology; bipolar plate; ceramic microfuel cells; integrated micro fuel cell systems; integration system; mass production technology; multilayer technology; multiple printed panels; planar self-breathing; production costs; Ceramics; Industries; Nonhomogeneous media; Universal Serial Bus; Valves; LTCC; PEFC; USB charger; fuel cell; fuel cell charger;
Conference_Titel :
Microelectronics and Packaging Conference (EMPC), 2011 18th European
Conference_Location :
Brighton
Print_ISBN :
978-1-4673-0694-2
