05216nam 22006254a 450 991087712390332120200520144314.00-470-03026-71-280-51895-297866105189511-60119-505-20-470-03025-9(CKB)1000000000357286(EBL)267160(OCoLC)85765476(SSID)ssj0000072017(PQKBManifestationID)11123283(PQKBTitleCode)TC0000072017(PQKBWorkID)10091194(PQKB)10259577(MiAaPQ)EBC267160(PPN)229057047(EXLCZ)99100000000035728620060110d2006 uy 0engur|n|---|||||txtccrFuel cells, engines, and hydrogen an exergy approach /Frederick J. BarclayChichester, England ;Hoboken, NJ John Wiley & Sonsc20061 online resource (202 p.)Description based upon print version of record.0-470-01904-2 Includes bibliographical references (p. [177]-184) and index.Fuel Cells, Engines and Hydrogen; Contents; Foreword; Introduction, and Commentary on Matters Affecting all Chapters; 1 Altered Perspectives; 1.1 Power Storage; 1.2 Circulators; 1.3 Incompleteness; 1.4 The Hydrogen Mine; 1.5 Coal Gasification; 1.6 SOFCs; 1.7 MCFCs; 1.8 The PEFC; 1.9 Engines; 2 Regenerative Fuel Cells or Redox Flow Batteries; 2.1 Introduction to the Regenesys System; 2.2 History and Patents; 2.3 Regenesys Technologies Ltd; Power Storage; 2.4 Elementary Chemistry; 2.5 Modus Operandi of Regenesys; 2.6 Some Construction Details; 2.7 Ion and Electron Transfer2.8 Power Storage Applications2.9 Initial Operating Experience; 2.10 Electrical Equipment; 2.11 Remarks; 2.12 Conclusions; 3 Irreversible Thermodynamics; 3.1 Cells and Electrolysers with and without Circulators; 3.2 Irreversibility - An Introduction via Joule's Experiment; 3.3 PEFC Irreversibility; 3.4 Bacon's Fuel Cell; Avoidance of Irreversibility; 3.5 Fuel Cell Engineering; 3.6 Irreversibility in Calculation Routes; 3.7 Juggling with Irreversibilities; 3.8 Air-Breathing Fuel Cells - Irreversibilities3.9 Liquid Electrolytes at the Electrode, 'Ice' Films, Marangoni Forces and Diffusion Irreversibilities3.10 Overvoltage - An Electrical Irreversibility; 3.11 Biconductor Layers at the Electrode/Electrolyte Interface; 3.12 IR Drop; 3.13 Remarks; 4 Solid Oxide Fuel Cells (SOFCs); 4.1 Introduction; 4.1.1 The SOFC; 4.1.2 Electrolytes; 4.1.3 Electrolyte Thickness; 4.1.4 Cell Performance; 4.1.5 Competitive Cells; 4.1.6 Oxygen Ion Concentration; 4.1.7 Unused Fuel; 4.1.8 SOFC Internal Process; 4.1.9 SOFC Preheating for Start-Up; 4.1.10 SOFC Manoeuvrability; 4.1.11 Direct Hydrocarbon Oxidation4.2 Siemens Westinghouse4.2.1 Siemens - SOFC Integration with Gas Turbines; 4.3 Rolls-Royce; 4.4 NGK Insulators; 4.5 Mitsubishi Materials Corporation (MMTL); 4.6 Imperial College London and Ceres Power Ltd; 4.7 Ceramic Fuel Cells Ltd, Australia; 4.8 Forschungs Zentrum Julich (FZJ); 4.9 Global Thermoelectric; 4.10 Allied Signal; 4.11 Acumentrics; 4.12 Adelan; 4.13 Sulzer Hexis; 4.14 ECN/INDEC Petten, the Netherlands; 4.15 Remarks; 5 Molten Carbonate Fuel Cells (MCFCs); 5.1 Introduction to the MCFC; 5.1.1 MCFCs of FCE and MTU; 5.1.2 Detailed Fuel Cell Description; 5.1.3 Matrix Initiation5.1.4 Matrix and Cathode Deterioration5.1.5 Performance of Complete Cells; 5.1.6 Bipolar Plates; 5.1.7 Stacks; 5.1.8 Gas Turbine Integration with an MCFC; 5.1.9 Nickel Oxide Deposition at the Cathode at High Pressure; 5.1.10 Nickel Behaviour, Short-Circuiting; 5.1.11 MCFC Integration with Coal Gasification; 5.2 MCFC Status; 5.3 Remarks; 6 Polymer Electrolyte and Direct Methanol Fuel Cells; 6.1 Introduction; 6.1.1 Ballard Power Systems; 6.1.2 Ballard History; 6.1.3 Ballard Status; 6.1.4 Ballard Stacks; 6.1.5 Flexible Graphite and Ballard; 6.1.6 Ballard MEAs; 6.1.7 Nafion and Alternatives6.1.8 Alternative Flow Plate Materials Used by CompetitorsFuel cell technology is the most exciting and legitimate alternative source of power currently available to us as world resources of non-renewable fuel continue to be depleted. No other power generating technology holds the same benefits that fuel cells offer, including high reliability and efficiency, negligible environmental impact, and security of supply. Fuel cells run on hydrogen - the simplest and most plentiful gas in the universe - although they can also run on carbon monoxide, methane, or even coal. Their applications are diverse, from powering automobiles, buildings and portable elecFuel cellsHydrogen as fuelFuel cells.Hydrogen as fuel.621.31/2429Barclay Frederick J622755MiAaPQMiAaPQMiAaPQBOOK9910877123903321Fuel cells, engines and hydrogen1425966UNINA