Verfügbarkeit: Catalysis for sustainable energy production

Catalysis for sustainable energy production:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH-Verl. 2009
Schlagworte:	Biomass chemicals > Congresses Catalysis > Congresses Energy development > Congresses Renewable energy sources > Congresses Katalyse Brennstoffzelle Elektrochemische Energietechnik Wasserstoffenergietechnik Konferenzschrift
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XXII, 452 S. Ill., graph. Darst. 25 cm
ISBN:	9783527320950

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS FOREWORD XII I EPILOGUE XVII LIST OF CONTRIBUTORS XIX PART ONE FUEL CELLS THE DIRECT ETHANOL FUEL CELL: ACHALLENGE TO CONVERT BIOETHANOL CLEANLY INTO ELECTRIC ENERGY 3 C1AUDE LAMY, CHRISTOPHE COUTANCEAU, AND JEAN-MICHEL LEGER 1.1 INTRODUCTION 3 1.2 PRINCIPLES AND DIFFERENT KINDS OF FUEL CELLS 4 1.2.1 WORKING PRINCIPLES OF A FUEL CELL 4 1.2.1.1 THE THERMODYNAMICS OF FUEL CELLS 5 1.2.1.2 THE KINETICS OF FUEL CELLS 6 1.2.1.3 CATALYSIS OF FUEL CELL REACTIONS 9 1.2.2 DIFFERENT TYPES OF FUEL CELLS 14 1.2.2.1 FUELS FAR FUEL CELLS 14 1.2.2.2 HYDROGEN-FED FUEL CELLS 16 1.2.2.3 METHANOL- AND ETHANOL-FED FUEL CELLS 16 1.3 LOW-TEMPERATURE FUEL CELLS (PEMFCS AND DAFCS) 17 1.3.1 PROTON EXCHANGE MEMBRANE FUEL CELL (PEMFC) 17 1.3.1.1 PRINCIPLE OF A PEMFC 17 1.3.1.2 THE PROTON EXCHANGE MEMBRANE 18 1.3.1.3 THE ELECTRODE CATALYSTS 19 1.3.1.4 THE MEMBRANE-ELECTRODE ASSEMBLY 19 1.3.1.5 THE BIPOLAR PLATES 19 1.3.1.6 AUXILIARY AND CONTRAL EQUIPMENT 19 1.3.2 DIRECT ETHANOL FUEL CELL (DEFC) 21 1.3.2.1 PRINCIPLE OF THE DIRECT ETHANOL FUEL CELL 21 1.3.2.2 REACTION MECHANISMS AF ETHANOLOXIDATION 22 1.3.2.3 DEFC TESTS 26 1.4 SOLID ALKALINE MEMBRANE FUEL CELL (SAMFC) 29 CO.TALYSIS FOR SUSTAINABLE ENERGY PRODUCTION. EDITED BY P. BARBARO AND C. BIANCHINI COPYRIGHT 2009 WILEYVCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 978352732095-0 IMAGE 2 VI I CONTENTS 1.4.1 1.4.2 1.4.3 1.5 2 2.1 2.2 2.3 2.3.1 2.3.2 2.3.3 2.3.4 2.4 3 3.1 3.2 3.2.1 3.2.2 3.2.3 3.2.4 3.3 3.3.1 3.3.2 3.3.3 3.3.4 3.3.5 3.4 4 4.1 DEVELOPMENT OF ASOLID ALKALINE MEMBRANE FOR FUEL CELL APPLICATION 29 ANODIC CATALYSTS IN ALKALINE MEDIUM 32 CATHODIC CATALYSTS IN ALKALINE MEDIUM 38 CONCLUSION 42 REFERENCES 42 PERFORMANCE OF DIRECT METHANOL FUEL CELLS FOR PORTABLE POWER APPLICATIONS 47 XIAOMING REN INTRODUCTION 47 EXPERIMENTAL 49 RESULTS AND DISCUSSION 51 WATER BALANCE, MAXIMUM AIR FEED RATE AND IMPLICATIONS FOR CATHODE PERFORMANCE 51 STACK PERFORMANCE 57 THERMAL BALANCE AND WASTE HEAT REJECTION 64 STACK LIFE TEST RESULTS 65 CONCLUSIONS 67 REFERENCES 68 SELECTIVE SYNTHESIS OFCARBON NANOFIBERS AS BETTER CATALYST SUPPORTS FOR LOW-TEMPERATURE FUEL CELLS 71 SEONG-HWA HONG, MUN-SUKJUN, FSAO MOCHIDA, AND SEONG-HO YOON INTRODUCTION 71 PREPARATION AND CHARACTERIZATION OF CNFS AND FUEL CELL CATALYSTS 73 PREPARATION OFTYPICAL CNFS 73 PREPARATION OF NANOTUNNELED MESOPOROUS H -CNF 73 PREPARATION OF FUEL CELL CATALYSTS 74 PERFORMANCE CHARACTERIZATION OF FUEL CELL CATALYSTS 74 RESULTS 74 STRUCTURAL EFFECTS OF CNFS 74 CATALYTIC PERFORMANCE OF CNFS IN HALF AND SINGLE CELLS 76 STRUCTURE OF NANOTUNNELED MESOPOROUS THICK H-CNF 78 CATALYTIC PERFORMANCE OFNANOTUNNELED MESOPOROUS THICK H-CNF 78 EFFECT OF THE DISPERSION OF THIN AND VERY THIN H-CNFS ON THE CATALYST ACTIVITY 81 DISCUSSION 84 REFERENCES 86 TOWARDS FULL ELECTRIC MOBILITY: ENERGY AND POWER SYSTEMS 89 PIETRO PERFO, MARCO OTTELLA, NICOFA CORINO, FRANCESCO PITZALIS, MAURO BRIGNONE, DANIELE ZANELLO, GIANFRANCO INNOCENTI, LUCA BELFORTE, AND ALESSANDRO ZIGGIOTTI INTRODUCTION 89 IMAGE 3 CONTENTS\ VII 4.2 THE CURRENT GRAND CHAILENGES 89 4.3 POWER-ENERGY NEEDED IN VEHIDES 90 4.3.1 BASIE FORMULATION 90 4.3.2 WEIL TO WHEEL EVALUATIONS 92 4.3.3 SPECIFIE CALCULATIONS FOR IDEAL ELEETRIE POWERTRAINS 92 4.3.4 A ROADMAP OF FEASIBILITY WITH BATTERIES AND SUPEREAPAEITORS 95 4.3.5 THE NEED FOR RANGE EXTENDERS 96 4.3.5.1 DIREET THERMOELEETRIE GENERATORS 98 4.4 A GREAT NEW OPPORTUNITY FOR TRUE ZERO EMISSIONS 101 4.5 ADVANEED SYSTEMS INTEGRATION 102 4.6 CONDUSION AND PERSPEETIVES 103 REFERENEES 104 PART TWO HYDROGEN STORAGE 107 5 MATERIALS FOR HYDROGEN STORAGE 109 ANDREAS ZUETTEL 5.1 TBE PRIMITIVE PHASE DIAGRAM OFHYDROGEN 109 5.2 HYDROGEN STORAGE METHODS 109 5.3 PRESSURIZED HYDROGEN 111 5.3.1 PROPERTIES OF COMPRESSED HYDROGEN 112 5.3.2 PRESSURE VESSEL 113 5.3.3 VOLUMETRIE AND GRAVIMETRIE HYDROGEN DENSITY 114 5.3.4 MIEROSPHERES 115 5.4 LIQUID HYDROGEN 117 5.4.1 LIQUEFAETION PROEESS 118 5.4.2 STORAGEVESSEL 119 5.4.3 GRAVIMETRIE AND VOLUMETRIE HYDROGEN DENSITY 120 5.5 PHYSISORPTION 121 5.5.1 VAN DER WAALS INTERAETION 121 5.5.2 ADSORPTION ISOTHERM 122 5.5.3 HYDROGEN AND CARBON NANOTUBES 123 5.6 METAL HYDRIDES 128 5.6.1 INTERSTITIAL HYDRIDES 128 5.6.2 HYDROGEN ABSORPTION 130 5.6.3 EMPIRIEAL MODELS 133 5.6.4 LATTIEE GAS MODEL 137 5.7 COMPLEX HYDRIDES 141 5.7.1 TETRAHYDROALANATES 143 5.7.2 TETRAHYDROBORATES 148 5.8 CHEMIEAL HYDRIDES (HYDROLYSIS) 154 5.8.1 ZINE CYDE 154 5.8.2 BOROHYDRIDE 156 5.9 NEW HYDROGEN STORAGE MATERIALS 157 5.9.1 AMIDES AND IMIDES (-NH B =NH) 158 IMAGE 4 VIII I CONTENTS 5.9.2 BCC ALLOYS 160 5.9.3 ALH 3 160 5.9.4 META! HYDRIDES WITH SHORT H-H-DISTANCE 161 5.9.5 MGH 2 WITH A NEW STRUCTURE 162 5.9.6 DESTABILIZATION OF MGH 2 BY ALLOY FORMATION 162 5.9.7 AMMONIA STORAGE 163 5.9.8 BORAZANE 163 REFERENCES 165 PART THREE H 2 AND HYDROGEN VECTORS PRODUCTION 171 6 CATALYST DESIGN FOR REFORMING OFOXYGENATES 173 LOREDANA OE ROGATIS AND PAOLO FORNASIERO 6.1 INTRODUCTION 173 6.2 CATALYST DESIGN 179 6.2.1 IMPREGNATED CATALYSTS: THE ROLE OFMETAL, SUPPORT AND PROMOTERS 181 6.2.2 EMERGING STRATEGIES: EMBEDDED CATALYSTS 183 6.3 REFORMING REACTIONS: PROCESS PRINCIPLES 185 6.3.1 CATALYTIC STEAM REFORMING 185 6.3.2 CATALYTIC PARTIAL OXIDATION 188 6.3.3 AUTOTHERMAL REFORMING 189 6.3.4 AQUEOUS PHASE REFORMING 190 6.4 KEY EXAMPLES OF OXYGENATE REFORMING REACTIONS 193 6.4.1 METHANOL 193 6.4.2 ETHANOL 197 6.4.3 DIMETHYL ETHER 203 6.4.4 ACETIC ACID 207 6.4.5 SUGARS 210 6.4.6 ETHYLENE GLYCOL 214 6.4.7 GLYCEROL 219 6.5 CONC1USIONS 222 6.6 LIST OF ABBREVIATIONS 223 REFERENCES 224 7 ELECTROCATALYSIS IN WATER ELECTROLYSIS 235 EDOARDO GUERRINI AND SERGIO TRASATTI 7.1 INTRODUCTION 235 7.2 THERMODYNAMIC CONSIDERATIONS 237 7.3 KINETIC CONSIDERATIONS 239 7.3.1 EQUILIBRIUM TERM (L1E) 240 7.3.2 OHMIC DISSIPATION TERM (IR) 240 7.3.2.1 CELL DESIGN 241 7.3.3 STABILITY TERM (L1 V T ) 242 7.3.4 OVERPOTENTIAL DISSIPATION TERM (LLL) 243 7.3.5 ELECTROCATALYSIS 244 . IMAGE 5 7.3.5.1 7.4 7.4.1 7.4.2 7.4.3 7.4.4 7.5 7.5.1 7.5.2 7.5.3 7.5.4 7.5.5 7.5.6 7.6 7.7 7.8 8 8.1 8.2 8.2.1 8.2.2 8.2.2.1 8.2.2.2 8.2.2.3 8.2.2.4 8.2.2.5 8.3 8.3.1 8.3.2 9 9.1 9.2 9.2.1 9.2.2 9.3 9.3.1 CONTENTS IIX THEORY OF ELECTROCATALYSIS 245 THE HYDROGEN EVOLUTION REACTION 248 REACTION MECHANISMS 248 THE OXYGEN EVOLUTION REACTION ELECTROCATALYSTS: STATE-OF-THEART ELECTROCATALYSIS 249 MATERIALS FOR CATHODES 251 FACTORS OF ELECTROCATALYSIS 252 REACTION MECHANISMS 255 ANODIC OXIDES 256 THERMAL OXIDES (DSA) 257 ELECTROCATALYSIS 259 FACTORS OF ELECTROCATALYSIS 260 INTERMITTENT ELECTROLYSIS 263 255 264 WATER ELECTROLYSIS: STATE-OF-THE-ART 265 BEYOND OXYGEN EVOLUTION 265 REFERENCES 267 ENERGY FROM ORGANIC WASTE: INFLUENCE OFTHE PROCESS PARAMETERS ON THE PRODUCTION OF METHANE AND HYDROGEN 271 MICHE/E ARESTA AND ANGE/A DIBENEDETTO INTRODUCTION 271 EXPERIMENTAL 273 METHANATION OF RESIDUAL BIOMASS 273 BIOCONVERSION OF GLYCEROL 274 CHARACTERIZATION OF STRAINS KI-K4 274 USE OF STRAINS KL, K2 AND K3 274 USE OF STRAIN K4 274 TESTS UNDER AEROBIC CONDITIONS 275 TESTS UNDER MICROAEROBIC OR ANAEROBIC CONDITIONS 275 RESULTS AND DISCUSSION 275 BIOGAS FROM WASTE 275 DIHYDROGEN FROM BIOGLYCEROL 279 REFERENCES 284 NATURAL GAS AUTOTHERMAL REFORMING: AN EFFECTIVE OPTION FOR A SUSTAINABLE DISTRIBUTED PRODUCTION OF HYDROGEN 287 PAOLO GAMBEL/I, VINCENZO PA/MA, EMMA PA/O, AND GAETANO LAQUANIEL/O INTRODUCTION 287 AUTOTHERMAL REFORMING: FROM CHEMISTRY TO ENGINEERING 294 THE CATALYST 294 KILOWATT-SCALE ATR FUEL PROCESSORS 298 THERMODYNAMIC ANALYSIS 299 EFFECT OF PREHEATING THE REACTANTS 300 IMAGE 6 X I CONTENTS 9.3.2 9.4 9.4.1 9.4.2 9.4.3 9.4.4 9.4.5 9.5 9.6 PART FOUR 10 10.1 10.2 10.2.1 10.2.2 10.3 10.4 11 11.1 11.2 11.3 11.3.1 11.3.2 11.3.3 11.4 11.4.1 11.5 11.6 11.7 11.8 12 12.1 12.2 12.2.1 12.2.2 EFFECT OF 02:CH4 AND H 2 0:CH 4 MOLAR FEED RATIOS 300 A CASE STUDY 303 LABORATORY APPARATUS AND ATR REACTOR 303 ATR REACTOR SETUP: OPERATING CONDITIONS 306 ATR REACTOR SETUP: START-UP PHASE 306 ATR REACTOR SETUP: LNFLUENCE OF PREHEATING THE REACTANTS 307 CATALYTIC ACTIVITY TEST RESULTS 309 ECONOMIC ASPECTS 313 CONCLUSIONS AND PERSPECTIVES 316 REFERENCES 317 INDUSTRIAL CATALYSIS FOR SUSTAINABLE ENERGY 321 THE USE OF CATALYSIS IN THE PRODUCTION OF HIGH-QUALITY BIODIESEL 323 NICO/ETTA RAVASIO, FEDERICA ZACCHERIA, AND RINA/DO PSARO INTRODUCTION 323 HETEROGENEOUS TRANSESTERIFICATION AND ESTERIFICATION CATALYSTS 328 HETEROGENEOUS BASIC CATALYSTS 328 HETEROGENEOUS ACID CATALYSTS 330 SELECTIVE HYDROGENATION IN BIODIESEL PRODUCTION 336 CONCLUSIONS AND PERSPECTIVES 341 REFERENCES 342 PHOTOVOLTAICS - CURRENT TRENDS AND VISION FOR THE FUTURE 345 FRANCESCA FERRAZZA INTRODUCTION 345 MARKET: PRESENT SITUATION AND CHALLENGES AHEAD 346 CRYSTALLINE SILICON TECHNOLOGY 348 FROM FEEDSTOCK TO WAFERS 348 FROM WAFERS TO CELLS AND MODULES 349 WHERE TO CUT COSTS 351 THIN FILMS 353 TECHNOLOGY AND IMPROVEMENT REQUIREMENTS 354 OTHER TECHNOLOGY-RELATED ASPECTS 355 ADVANCED AND EMERGING TECHNOLOGIES 357 SYSTEM ASPECTS 359 CONCLUSIONS 361 REFERENCES 362 CATALYTIC COMBUSTION FOR THE PRODUCTION OF ENERGY 363 GIANPIERO GROPPI, CINZIA CRISTIANI, A/ESSANDRA BERETTA, AND PIO FORZATTI INTRODUCTION 363 LEAN CATALYTIC COMBUSTION FOR GAS TURBINES 364 PRINCIPLES AND SYSTEM REQUIREMENTS 364 DESIGN CONCEPTS AND PERFORMANCE 366 IMAGE 7 12.2.2.1 12.2.2.2 12.2.2.3 12.3 12.4 12.5 12.6 12.6.1 12.6.2 12.6.2.1 12.6.2.2 12.6.2.3 12.7 13 13.1 13.2 13.2.1 13.2.2 13.2.3 13.2.3.1 13.2.3.2 13.2.3.3 13.2.4 13.2.4.1 13.2.4.2 13.3 13.3.1 13.3.2 13.3.2.1 13.3.2.2 13.3.2.3 13.3.3 13.3.3.1 13.3.3.2 13.4 CONTENTS I XI FUHY CATALYTIC COMBUSTOR 366 FUEL STAGING 367 PARTIAL CATALYTIC HYBRID COMBUSTOR 367 FUEL-RICH CATALYTIC COMBUSTION 370 OXY-FUEL COMBUSTION 372 MICROCOMBUSTORS 373 CATALYTIC MATERIALS 375 STRUCTURED SUBSTRATE 376 ACTIVE CATALYST LAYER 376 PDO-BASED CATALYSTS 377 METALSUBSTITUTED HEXAALUMINATE CATALYSTS 381 RICH COMBUSTION CATALYSTS 382 CONCLUSIONS 387 REFERENCES 388 CATALYTIC REMOVAL OF NO X UNDER LEAN CONDITIONS FROM STATIONARY AND MOBILE SOURCES 393 PIO FORZATTI, LUCA LIETTI, AND ENRICO TRONCONI INTRODUCTION 393 UNSTEADY-STATE MODELS OFTHE MONOLITH NO/NOZ/NH 3 SCR IDENTIFICATION OF THE REACTION NETWORK DURING REDUCTION SELECTIVE CATALYTIC REDUCTION 395 STANDARD SCR PROCESS 395 SCR APPLICATIONS: PAST AND FUTURE 399 MODELING OF THE SCR REACTOR 400 STEADY-STATE MODELING OF THE SCR REACTOR 400 UNSTEADY-STATE KINETICS OF THE STANDARD SCR REACTION 401 UNSTEADY-STATE MODELS OF THE MONOLITH SCR REACTOR 406 FAST SCR 409 MECHANISM OF FAST SCR 409 REACTOR 412 NO" STORAGE REDUCTION 414 NSR TECHNOLOGY 414 STORAGE OFNO" 415 MECHANISTIC FEATURES 415 KINETICS 421 EFFECT OF CO Z 422 REDUCTION OF STORED NO" 424 MECHANISM OF THE REDUCTION BY HZ OF STORED NO" 425 OF STORED NO" BY HZ 428 OPEN ISSUES AND FUTURE OPPORTUNITIES 432 REFERENCES 433 INDEX 439
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genre_facet	Konferenzschrift
id	DE-604.BV035430052
illustrated	Illustrated
indexdate	2024-07-20T10:07:37Z
institution	BVB
isbn	9783527320950
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-017350458
oclc_num	234432082
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owner_facet	DE-91G DE-BY-TUM DE-634 DE-1102 DE-29T DE-703 DE-83 DE-M347
physical	XXII, 452 S. Ill., graph. Darst. 25 cm
publishDate	2009
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publisher	Wiley-VCH-Verl.
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spelling	Catalysis for sustainable energy production ed. by Pierluigi Barbaro ... Weinheim Wiley-VCH-Verl. 2009 XXII, 452 S. Ill., graph. Darst. 25 cm txt rdacontent n rdamedia nc rdacarrier Literaturangaben Biomass chemicals Congresses Catalysis Congresses Energy development Congresses Renewable energy sources Congresses Katalyse (DE-588)4029921-1 gnd rswk-swf Brennstoffzelle (DE-588)4008195-3 gnd rswk-swf Elektrochemische Energietechnik (DE-588)4151756-8 gnd rswk-swf Wasserstoffenergietechnik (DE-588)4121905-3 gnd rswk-swf (DE-588)1071861417 Konferenzschrift gnd-content Elektrochemische Energietechnik (DE-588)4151756-8 s Katalyse (DE-588)4029921-1 s DE-604 Brennstoffzelle (DE-588)4008195-3 s Wasserstoffenergietechnik (DE-588)4121905-3 s Barbaro, Pierluigi Sonstige oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3112784&prov=M&dok_var=1&dok_ext=htm Inhaltstext OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017350458&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Catalysis for sustainable energy production Biomass chemicals Congresses Catalysis Congresses Energy development Congresses Renewable energy sources Congresses Katalyse (DE-588)4029921-1 gnd Brennstoffzelle (DE-588)4008195-3 gnd Elektrochemische Energietechnik (DE-588)4151756-8 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd
subject_GND	(DE-588)4029921-1 (DE-588)4008195-3 (DE-588)4151756-8 (DE-588)4121905-3 (DE-588)1071861417
title	Catalysis for sustainable energy production
title_auth	Catalysis for sustainable energy production
title_exact_search	Catalysis for sustainable energy production
title_full	Catalysis for sustainable energy production ed. by Pierluigi Barbaro ...
title_fullStr	Catalysis for sustainable energy production ed. by Pierluigi Barbaro ...
title_full_unstemmed	Catalysis for sustainable energy production ed. by Pierluigi Barbaro ...
title_short	Catalysis for sustainable energy production
title_sort	catalysis for sustainable energy production
topic	Biomass chemicals Congresses Catalysis Congresses Energy development Congresses Renewable energy sources Congresses Katalyse (DE-588)4029921-1 gnd Brennstoffzelle (DE-588)4008195-3 gnd Elektrochemische Energietechnik (DE-588)4151756-8 gnd Wasserstoffenergietechnik (DE-588)4121905-3 gnd
topic_facet	Biomass chemicals Congresses Catalysis Congresses Energy development Congresses Renewable energy sources Congresses Katalyse Brennstoffzelle Elektrochemische Energietechnik Wasserstoffenergietechnik Konferenzschrift
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3112784&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017350458&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT barbaropierluigi catalysisforsustainableenergyproduction

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