Fuel Cell Technologies: State And Perspectives

The book focuses on the issues related to fuel cells, particularly the state-of-the-art internationally, the issues that were of particular interest for getting fuel cells fully commercialized, and advances in fuel cell materials and technology. The focus was on all types of fuel cells, but the emphasis was particularly on solid oxide fuel cells (SOFC), due to their importance to the host country.

Fuel Cell Technologies: State And Perspectives

Nigel Sammes

Springer

2006

Abstract

The contents of the book include: Historic aspects of fuel cell development in ukraine; solid oxide fuel cells in russia; intermediate-temperature sofc electrolytes; scandia-zirconia electrolytes and electrodes for sofcs; exploration of combustion cvd method for ysz thin film electrolyte of solid oxiije fuel cells; development of dmfc for portable application; synthesis of porous and dense elements of sofc by electron beam physical vapor deposition; fullerene structures suitable for fuel cells electrodes; metallic materials in solid oxide fuel cells; sofc worldwide - technology development status and early applications; recent results of stack development at forschungszentrum julich; configuration of twin walls in lsgmo; structural stability and ion transport in lasr2fe1cro8+8; electric power generation based on coal slurry electrolysis with subsequent usage of produced hydrogen in fuel cells; results of organic fuel conversion at fuel cell test installation; cip-based fabrication of sofc ceramic components from oxide nanocrystalline powder materials; the state of fuel cells and its development in ukraine; synthesis of cermet sr(ti,fe) o38-ptru by combustion; hydrogen storage in metal hydride under action of sunlight; hydrides of transition metals as hydrogen accumulators for power engineering; mathematical modeling and experimental study of proton exchange membrane fuel cells; experimental and theoretical study of metal- hydride reactors; cellulose-precursorsynthesis of electrocatalytically active components of sofcs and mixed-conducting membrane reactors; glass-ceramic sealants for sofc-based systems; effect of 'uphill' diffusion in solid electrolytes zr02+8mol.%5c203 and zr02 +8mol.% y2o3; nanoparticle synthesis of lsm sofc cathode materials; perspective materials for application in fuel-cell technologies; electroconductivity of the oxde interlanthanoids with perovskite structure ; electroconductivity of the bulk and grain boundaries in the o.8ceo2-o.2gd2o3 electrolyte prepared from nanopowders; a two phase model for electrochemical systems; effect of iron oxide on structure of y-stabilized zirconia ceramic; structure, thermal expansion and phase transition in lao92sroo8gao92tioo8o3 single crystal; investigation of hydrogen influence on structure of amorphous alloys mg-cu-y and mg-ni-y by new method of difraction from atomic coordinate sphers; the ysz electrolyte surface layer: existence, properties, and effect on electrode characteristics; solid electrolytes from stabilized zirconium oxide that are developed in o.j.s.c. 'ukrainian research institute of refractories named after a.s.berezfinoy'; nanocristalline powders system zr02 - sc203 for solid-state combustion cells; structural peculiarities and properties of (la,sr)(mn,me)03 (me=cu,cr); simple method for the study of transition metal valence state in mixed-valence compounds; perovskite related materials for cathode applications; pure hydrogen for fuel cells: a novel design of compact endothermic catalytic steam reformer; microstructural