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101 0 $aeng
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181   $ctxt
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200 10$aFuel processing $efor fuel cells /$fGunther Kolb
210  1$aWeinheim, [Germany] :$cWiley-VCH Verlag GmbH & Co. KGaA,$d2008.
210  4$dİ2008
215   $a1 online resource (436 p.)
300   $aDescription based upon print version of record.
311   $a3-527-31581-0 
320   $aIncludes bibliographical references and index.
327   $aFuel Processing; Contents; Acknowledgement; 1 Introduction and Outline; 2 Fundamentals; 2.1 Common Fossil Fuels; 2.2 Basic Definitions, Calculations and Legislation; 2.3 The Various Types of Fuel Cells and the Requirements of the Fuel Processor; 2.3.1 PEM Fuel Cells; 2.3.2 High Temperature Fuel Cells; 3 The Chemistry of Fuel Processing; 3.1 Steam Reforming; 3.2 Partial Oxidation; 3.3 Oxidative Steam Reforming or Autothermal Reforming; 3.4 Catalytic Cracking of Hydrocarbons; 3.5 Pre-Reforming of Higher Hydrocarbons; 3.6 Homogeneous Plasma Reforming of Higher Hydrocarbons
327   $a3.7 Aqueous Reforming of Bio-Fuels3.8 Processing of Alternative Fuels; 3.8.1 Dimethyl Ether; 3.8.2 Methylcyclohexane; 3.8.3 Sodium Borohydride; 3.8.4 Ammonia; 3.9 Desulfurisation; 3.10 Carbon Monoxide Clean-Up; 3.10.1 Water-Gas Shift; 3.10.2 Preferential Oxidation of Carbon Monoxide; 3.10.3 Methanation; 3.11 Catalytic Combustion; 3.12 Coke Formation on Metal Surfaces; 4 Catalyst Technology for Distributed Fuel Processing Applications; 4.1 A Brief Introduction to Catalyst Technology and Evaluation; 4.1.1 Catalyst Activity; 4.1.2 Catalyst Stability; 4.1.3 Catalyst Coating Techniques
327   $a4.1.4 Specific Features Required for Fuel Processing Catalysts in Smaller Scale Applications4.2 Reforming Catalysts; 4.2.1 Catalysts for Methanol Reforming; 4.2.2 Catalysts for Ethanol Reforming; 4.2.3 Overview of Catalysts for Hydrocarbon Reforming; 4.2.4 Catalysts for Natural Gas/Methane Reforming; 4.2.5 Catalysts for Reforming of LPG; 4.2.6 Catalysts for Pre-Reforming of Hydrocarbons; 4.2.7 Catalysts for Gasoline Reforming; 4.2.8 Catalysts for Diesel and Kerosene Reforming; 4.2.9 Cracking Catalysts; 4.2.10 Deactivation of Reforming Catalysts by Sintering
327   $a4.2.11 Deactivation of Reforming Catalysts by Coke Formation4.2.12 Deactivation of Reforming Catalysts by Sulfur Poisoning; 4.3 Catalysts for Hydrogen Generation from Alternative Fuels; 4.3.1 Dimethyl Ether; 4.3.2 Methylcyclohexane; 4.3.3 Sodium Borohydride; 4.3.4 Ammonia; 4.4 Desulfurisation Catalysts/Adsorbents; 4.5 Carbon Monoxide Clean-Up Catalysts; 4.5.1 Catalysts for Water-Gas Shift; 4.5.2 Catalysts for the Preferential Oxidation of Carbon Monoxide; 4.5.3 Methanation Catalysts; 4.6 Combustion Catalysts; 5 Fuel Processor Design Concepts; 5.1 Design of the Reforming Process
327   $a5.1.1 Steam Reforming5.1.2 Partial Oxidation; 5.1.3 Autothermal Reforming; 5.1.4 Catalytic Cracking; 5.1.5 Pre-Reforming; 5.2 Design of the Carbon Monoxide Clean-Up Devices; 5.2.1 Water-Gas Shift; 5.2.2 Preferential Oxidation of Carbon Monoxide; 5.2.3 Selective Methanation of Carbon Monoxide; 5.2.4 Membrane Separation; 5.2.5 Pressure Swing Adsorption; 5.3 Aspects of Catalytic Combustion; 5.4 Design of the Overall Fuel Processor; 5.4.1 Overall Heat Balance of the Fuel Processor; 5.4.2 Interplay of the Different Fuel Processor or Components; 5.4.3 Overall Water Balance of the Fuel Processor
327   $a5.4.4 Overall Basic Engineering of the Fuel Processor
330   $aAdopting a unique integrated engineering approach, this text covers all aspects of fuel processing: catalysts, reactors, chemical plant components and integrated system design. While providing an introduction to the subject, it also contains recent research developments, making this an invaluable handbook for chemical, power and process engineers, electrochemists, catalytic chemists, materials scientists and engineers in power technology.
606   $aFuel cells
608   $aElectronic books.
615  0$aFuel cells.
676   $a621.31/2429
676   $a621.312429
700   $aKolb$b Gunther$0505560
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910144379703321
996   $aFuel Processing$9804567
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