Verfügbarkeit: Fundamentals of renewable energy processes

Fundamentals of renewable energy processes:

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Bibliographische Detailangaben
1. Verfasser:	Da Rosa, Aldo Vieira (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Amsterdam [u.a.] Elsevier 2009
Ausgabe:	2. ed.
Schlagworte:	Énergies renouvelables Renewable energy sources Power (Mechanics) Environmental engineering Erneuerbare Energien Umwelttechnik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIX, 844 S. Ill., graph. Darst.
ISBN:	9780123746399

Internformat

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Datensatz im Suchindex

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adam_text	CONTENTS FOREWORD TO THE SECOND EDITION . FOREWORD TO THE FIRST EDITION . ACKNOWLEDGEMENTS ..... CHAPTER 1 GENERALITIES 1.1 UNITS AND CONSTANTS 1.2 ENERGY AND UTILITY . 1.3 CONSERVATION OF ENERGY . 1.4 PLANETARY ENERGY BALANCE 1.5 THE ENERGY UTILIZATION RATE. 1.6 THE POPULATION EXPLOSION .. 1.7 THE MARKET PENETRATION FUNCTION . 1.8 PLANETARY ENERGY RESOURCES 1.9 ENERGY UTILIZATION .. 1.10 THE ECOLOGY QUESTION 1.10.1 BIOLOGICAL . 1.10.2 MINERAL . 1.10.3 SUBTERRANEAN. 1.10.4 UNDERSEA 1.11 NUCLEAR ENERGY 1.11.1 FISSION . 1.11.2 FUSION . 1.11.3 COLD FUSION 1.12 FINANCING. REFERENCES . PROBLEMS . PART I HEAT ENGINES XV XVII XIX 1 1 2 4 5 5 9 10 16 20 24 26 26 26 27 27 29 34 37 44 46 48 59 CHAPTER 2 A MINIMUM OF THERMODYNAMICS AND OF THE KINETIC THEORY OF GASES 61 2.1 THE MOTION OF MOLEEULES . 61 2.2 TEMPERATURE.... 61 2.3 THE PERFECT-GAS LAW . . . 62 V VI CONTENTS 2.4 INTERNAL ENERGY . . . . . . . . . . . 2.5 SPECIFIC HEAT AT CONSTANT VOLUME . 2.6 THE FIRST LAW OF THERMODYNAMICS 2.7 THE PRESSURE-VOLUME WORK . . . . 2.8 SPECIFIC HEAT AT CONSTANT PRESSURE 2.9 ADIABATIC PROCESSES . 2.9.1 ABRUPT COMPRESSION 2.9.2 GRADUAL COMPRESSION 2.9.3 P-V DIAGRAMS . 2.9.4 POLYTROPIC LAW . 2.9.5 WORK DONE UNDER ADIABATIC EXPANSION 2.10 ISOTHERMAL PROCESSES 2.11 FUNCTIONS OF STATE . 2.12 ENTHALPY....... 2.13 DEGREES OF F REEDOM . 2.14 ENTROPY . 2.14.1 CHANGES IN ENTROPY 2.15 REVERSIBILITY . 2.15.1 CAUSES OF IRREVERSIBILITY . 2.16 NEGENTROPY . 2.17 HOW TO PLOT STATISTICS .. 2.18 MAXWELLIAN DISTRIBUTION . 2.19 FERMI-DIRAC DISTRIBUTION 2.20 BOLTZMANN S LAW . . . APPENDIX: SYMBOLOGY REFERENCE PROBLEMS . CHAPTER 3 MECHANICAL HEAT ENGINES 3.1 HEATS OF COMBUSTION 3.2 CARNOT EFFICIENCY . 3.3 ENGINE TYPES . . . . . . . . . 3.4 EFFICIENCY OF AN OTTO ENGINE . 3.5 GASOLINE............ 3.5.1 HEAT OF COMBUSTION . 3.5.2 ANTIKNOCK CHARACTERISTICS 3.6 KNOCKING . 3.7 HYBRID ENGINES FOR AUTOMOBILES .. 3.8 THE STIRLING ENGINE . 3.8.1 THE KINEMATIC STIRLING ENGINE . 3.8.2 THE F REE-PISTON STIRLING ENGINE 3.9 CRYOGENIC ENGINES . 3.9.1 CONCLUSIONS REFERENCES PROBLEMS . 63 63 64 65 65 66 67 70 71 72 73 74 76 76 78 79 80 82 84 84 86 87 90 92 93 93 94 99 99 102 103 106 111 111 111 111 115 116 117 123 125 128 128 130 CONTENTS VII CHAPTER 4 OCEAN THERMAL ENERGY CONVERTERS 139 4.1 INTRODUCTION . . . . . . 139 4.2 OTEC CONFIGURATIONS 139 4.3 TURBINES........ 142 4.4 OTEC EFFICIENCY . . . 145 4.5 EXAMPLE OF OTEC DESIGN 146 4.6 HEAT EXCHANGERS 148 4.7 SITING... 148 REFERENCES . 149 PROBLEMS . 150 CHAPTER 5 THERMOELECTRICITY 153 5.1 EXPERIMENTAL OBSERVATIONS 153 5.2 THERMOELECTRIC THERMOMETERS. 158 5.3 THE THERMOELECTRIC GENERATOR. 160 5.4 FIGURE OF MERIT OF A MATERIAL . 164 5.5 THE WIEDEMANN-FRANZ-LORENZ LAW 166 5.6 THERMAL CONDUCTIVITY IN SOLIDS . . . 169 5.7 SEEBECK COEFFICIENT OF SEMICONDUCTORS 171 5.8 PERFORMANCE OF THERMOELECTRIC MATERIALS. 171 5.9 SOME APPLICATIONS OF THERMOELECTRIC GENERATORS 175 5.10 DESIGN OF A THERMOELECTRIC GENERATOR 177 5.11 THERMOELECTRIC REFRIGERATORS AND HEAT PUMPS. . 180 5.11.1 DESIGN USING AN EXISTING THERMOCOUPLE 181 5.11.2 DESIGN BASED ON GIVEN SEMICONDUCTORS . 184 5.12 TEMPERATURE DEPENDENCE . . . . 188 5.13 BATTERY ARCHITECTURE . . . . . . . 188 5.14 THE PHYSICS OF THERMOELECTRICITY 190 5.14.1 THE SEEBECK EFFECT . 190 5.14.2 THE PELTIER EFFECT . . 193 5.14.3 THE THOMSON EFFECT . 194 5.14.4 KELVIN S RELATIONS 195 5.15 DIRECTIONS AND SIGNS 199 APPENDIX 201 REFERENCES 202 PROBLEMS 203 CHAPTER 6 THERMIONICS 219 6.1 INTRODUCTION . . . 219 6.2 THERMIONIC EMISSION 222 6.3 ELECTRON TRANSPORT . 224 6.3.1 THE CHILD-LANGMUIR LAW . 227 6.4 LOSSLESS DIODES WITH SPACE CHARGE NEUTRALIZATION . 231 6.4.1 INTERELECTRODE POTENTIALS 231 6.4.2 V -J CHARACTERISTICS . . . . . . . . . . . . . 233 VIII CONTENTS 6.4.3 THE OPEN-CIRCUIT VOLTAGE . 6.4.4 MAXIMUM POWER OUTPUT . . . . . . . . . 6.5 LOSSES IN VACUUM DIODES WITH NO SPACE CHARGE 6.5.1 EFFICIENCY . 6.5.2 RADIATION LOSSES . 6.5.3 EXCESS ELECTRON ENERGY . 6.5.4 HEAT CONDUCTION 6.5.5 LEAD RESISTANCE 6.6 REAL VACUUM-DIODES . 6.7 VAPOR DIODES . 6.7.1 CESIUM ADSORPTION 6.7.2 CONTACT IONIZATION . 6.7.3 THERMIONIC ION EMISSION 6.7.4 SPACE CHARGE NEUTRALIZATION CONDITIONS 6.7.5 MORE V-J CHARACTERISTICS . 6.8 HIGH-PRESSURE DIODES . REFERENCES . PROBLEMS . CHAPTER 7 AMTEC 7.1 OPERATING PRINCIPLE . 7.2 VAPOUR PRESSURE . 7.3 PRESSURE DROP IN THE SODIUM VAPOR COLUMN . 7.4 MEAN FREE PATH OF SODIUM IONS . . 7.5 V-I CHARACTERISTICS OF AN AMTEC 7.6 EFFICIENCY............. 7.7 THERMODYNAMICS OF AN AMTEC REFERENCES . . . . . . . . . . . . . CHAPTER 8 RADIO-NOISE GENERATORS REFERENCES . . . . . . . . . . . . PART 11 THE WORLD OF HYDROGEN CHAPTER 9 FUEL CELLS 9.1 INTRODUCTION . 9.2 VOLTAIC CELLS . 9.3 FUEL CELL CLASSIFICATION . 9.3.1 TEMPERATURE OF OPERATION 9.3.2 STATE OF THE ELECTROLYTE .. 9.3.3 TYPE OF FUEL . 9.3.4 CHEMICAL NATURE OF THE ELECTROLYTE 233 234 235 235 236 239 241 241 241 242 243 246 247 248 249 255 257 258 263 263 265 267 269 269 272 274 277 279 283 285 287 287 288 293 294 295 295 296 CONTENTS IX 9.4 FUEL CELL REACTIONS . . . . . . 297 9.4.1 ALKALINE ELECTROLYTES 297 9.4.2 ACID ELECTROLYTES .. 297 9.4.3 MOLTEN CARBONATE ELECTROLYTES . 298 9.4.4 CERAMIC ELECTROLYTES . 298 9.4.5 METHANOL FUEL CELLS . . . 298 9.4.6 FORMIC ACID FUEL CELLS . 300 9.5 TYPICAL FUEL CELL CONFIGURATIONS 300 9.5.1 DEMONSTRATION FUEL CELL (KOH) 300 9.5.2 PHOSPHORIC ACID FUEL CELLS (PAFCS) 301 9.5.3 MOLTEN CARBONATE FUEL CELLS (MCFCS) 303 9.5.4 CERAMIC FUEL CELLS (SOFCS) . . . . . 305 9.5.5 SOLID-POLYMER ELECTROLYTE FUEL CELLS . . 314 9.5.6 DIRECT METHANOL FUEL CELLS (DMFCS) . 322 9.5.7 DIRECT FORMIC ACID FUEL CELLS (DFAFCS) 323 9.5.8 SOLID ACID FUEL CELLS (SAFCS) . . . . . . 324 9.5.9 METALLIC FUEL CELLS-ZINC-AIR FUEL CELLS 325 9.6 FUEL CELL APPLICATIONS . . . . . . . 326 9.6.1 STATIONARY POWER PLANTS . 326 9.6.2 AUTOMOTIVE POWER PLANTS . 327 9.6.3 OTHER APPLICATIONS . . . . 328 9.7 THE THERMODYNAMICS OF FUEL CELLS 329 9.7.1 HEAT OF COMBUSTION . . . . 330 9.7.2 FREE ENERGY . . . . . . . . 331 9.7.3 EFFICIENCY OF REVERSIBLE FUEL GELLS 335 9.7.4 EFFECTS OF PRESSURE AND TEMPERATURE ON THE ENTHALPY AND FREE ENERGY CHANGES OF AREACTION 336 9.8 PERFORMANCE OF REAL FUEL CELLS ., . . . . 347 9.8.1 CURRENT DELIVERED BY A FUEL GELL. 347 9.8.2 EFFICIENCY OF PRACTICAL FUEL CELLS . 347 9.8.3 V-I CHARACTERISTICS OF FUEL CELLS 349 9.8.4 OPEN-CIRCUIT VOLTAGE ..... 358 9.8.5 REACTION KINETICS . . . . . . . 358 9.8.6 THE BUTLER-VOLMER EQUATION . 363 9.8.7 TRANSPORT LOSSES . . . . . . . . 368 9.8.8 HEAT DISSIPATION BY FUEL CELLS 370 APPENDIX: BATTERIES 373 REFERENCES . . . . 393 FURTHER READING 395 PROBLEMS .... 396 X CONTENTS CHAPTER 10 HYDROGEN PRODUCTION 417 10.1 GENERALITIES.......... 417 10.2 CHEMICAL PRODUCTION OF HYDROGEN 419 10.2.1 HISTORICAL.......... 419 10.2.2 METAL-WATER HYDROGEN PRODUCTION 420 10.2.3 LARGE-SCALE HYDROGEN PRODUCTION 422 10.2.4 HYDROGEN PURIFICATION. . 426 10.2.5 COMPACT FUEL PROCESSORS 429 10.3 ELECTROLYTIC HYDROGEN 434 10.3.1 INTRODUCTION....... 434 10.3.2 ELECTROLYZER CONFIGURATIONS . 435 10.3.3 EFFICIENCY OF ELECTROLYZERS. . 437 10.3.4 CONCENTRATION-DIFFERENTIAL ELECTROLYZERS . 440 10.3.5 ELECTROLYTIE HYDROGEN COMPRESSION 442 10.4 THERMOLYTIC HYDROGEN . . . . . . . . . . 443 10.4.1 DIRECT DISSOCIATION OF WATER . . 443 10.4.2 CHEMICAL DISSOCIATION OF WATER 449 10.5 PHOTOLYTIC HYDROGEN . . 451 10.5.1 GENERALITIES 451 10.5.2 SOLAR PHOTOLYSIS . . . . . . . 453 10.6 PHOTOBIOLOGIE HYDROGEN PRODUCTION 456 REFERENCES . 457 PROBLEMS 458 CHAPTER 11 HYDROGEN STORAGE 467 11.1 COMPRESSED GAS 469 11.2 CRYOGENIC HYDROGEN . . . . . . . . . 471 11.3 STORAGE OF HYDROGEN BY ADSORPTION . 473 11.4 STORAGE OF HYDROGEN IN CHEMICAL COMPOUNDS 474 11.4.1 GENERALITIES 474 11.4.2 HYDROGEN CARRIERS. . . . . . . . . 475 11.4.3 WATER PLUS A REDUCING SUBSTANCE 476 11.4.4 FORMIC ACID . . . . . . . 477 11.4.5 METAL HYDRIDES ..... 477 11.5 HYDRIDE HYDROGEN COMPRESSORS 492 11.6 HYDRIDE HEAT PUMPS 497 REFERENCES 499 PROBLEMS 501 PART 111 ENERGY FROM THE SUN CHAPTER 12 SOLAR RADIATION 12.1 THE NATURE OF THE SOLAR RADIATION 12.2 INSOLATION . 12.2.1 GENERALITIES . 519 521 521 524 524 12.2.2 INSOLATION ON A SUN-TRAEKING SURFAEE 12.2.3 INSOLATION ON A STATIONARY SURFAEE . 12.2.4 HORIZONTAL SURFAEES 12.3 SOLAR COLLEETORS . . . . . . . 12.3.1 SOLAR AREHITEETURE . 12.3.2 FLAT COLLEETORS . . 12.3.3 EVAEUATED TUBES . 12.3.4 CONEENTRATORS ... 12.4 SOME SOLAR PLANT CONFIGURATIONS 12.4.1 HIGH-TEMPERATURE SOLAR HEAT ENGINE 12.4.2 SOLAR TOWER . 12.4.3 SOLAR PONDS . APPENDIX A: THE MEASUREMENT OF TIME APPENDIX B: ORBITAL MEEHANIES 12.4.4 ORBITAL OBLIQUITY REFERENEES . . . . FURTHER READING PROBLEMS .. CHAPTER 13 BIOMASS 13.1 INTRODUETION . 13.2 THE COMPOSITION OF BIOMASS . 13.2.1 A LITTLE BIT OF ORGANIE CHEMISTRY . 13.3 BIOMASS AS FUEL . . . . . 13.3.1 WOOD GASIFIERS .... 13.3.2 ETHANOL........ 13.3.3 DISSOCIATED ALEOHOLS . 13.3.4 ANAEROBIC DIGESTION . 13.4 PHOTOSYNTHESIS REFERENEES PROBLEMS ... CHAPTER 14 PHOTOVOLTAIC CONVERTERS 14.1 INTRODUETION . 14.2 THEORETICAL EFFICIENEY . 14.3 CARRIER MULTIPLIEATION . 14.4 SPEETRALLY SELEETIVE BEAM SPLITTING 14.4.1 CASEADED CELLS . 14.4.2 FILTERED CELLS . 14.4.3 HOLOGRAPHIE CONEENTRATORS 14.5 THERMOPHOTOVOLTAIE CELLS . 14.6 THE IDEAL AND THE PRAETIEAL . 14.7 SOLID-STATE JUNETION PHOTODIODE . 14.7.1 THE REVERSE SATURATION CURRENT 14.7.2 PRAETICAL EFFICIENEY . CONTENTS XI 527 527 530 531 531 534 535 535 538 538 540 541 542 546 558 559 559 560 569 569 569 570 592 594 594 600 601 608 616 618 625 625 631 639 640 640 644 644 645 650 651 671 674 XII CONTENTS CHAPTER 15 WIND ENERGY 723 15.1 HISTORY . . . . . . . . . . . . . . . . 723 15.2 WIND MACHINE CONFIGURATIONS . . . 727 15.2.1 DRAG-TYPE WIND TURBINES 727 15.2.2 LIFT-TYPE WIND TURBINES . 729 15.2.3 MAGNUS EFFECT WIND MACHINES 730 15.2.4 VORTEX WIND MACHINES 731 15.3 MEASURING THE WIND . . . . . 731 15.4 AVAILABILITY OF WIND ENERGY . 735 15.5 WIND TURBINE CHARACTERISTICS 736 15.6 PRINCIPLES OF AERODYNAMICS 738 15.6.1 FLUX 738 15.6.2 POWER IN THE WIND 739 15.6.3 DYNAMIC PRESSURE . 739 15.6.4 WIND PRESSURE . . . 740 15.6.5 AVAILABLE POWER (BETZ LIMIT) . 741 15.6.6 EFFICIENCY OF A WIND TURBINE. 745 15.7 AIRFOILS....... 748 15.8 REYNOLDS NUMBER . . . . 751 15.9 ASPECT RATIO . . . . . . 754 15.10 WIND TURBINE ANALYSIS. 756 15.10.1 HORIZONTAL AXIS TURBINES (PROPELLER TYPE) . 756 15.10.2 VERTICAL AXIS TURBINES 762 15.11 MAGNUS EFFECT . 776 REFERENCES 777 PROBLEMS ... 778 PART IV WIND AND WATER 14.8 14.9 14.10 DYE-SENSITIZED SOLAR CELLS (DSSCS) ORGANIC PHOTOVOLTAIC CELLS (OPC) SOLAR-POWER SATELLITE . . . . . . . . 14.10.1 BEAM FROM SPACE ..... 14.10.2 SOLAR ENERGY TO DC CONVERSION 14.10.3 MICROWAVE GENERATION 14.10.4 RADIATION SYSTEM . 14.10.5 RECEIVING ARRAY . 14.10.6 ATTITUDE AND ORBITAL CONTROL . 14.10.7 SPACE TRANSPORTATION AND SPACE CONSTRUCTION 14.10.8 FUTURE OF SPACE SOLAR POWER PROJECTS ... APPENDIX A: VALUES OFTWO DEFINITE INTEGRALS USED IN THE CALCULATION OF PHOTODIODE PERFORMANCE. APPENDIX B: A SEMICONDUCTOR PRIMER REFERENCES . PROBLEMS . 675 681 690 692 693 694 695 696 696 697 697 698 699 705 708 721 CONTENTS XIII CHAPTER 16 OCEAN ENGINES 799 16.1 INTRODUCTION.......... 799 16.2 WAVE ENERGY . . . . . . . . . 799 16.2.1 ABOUT OCEAN WAVES . 799 16.2.2 WAVE ENERGY CONVERTERS 802 16.3 TIDAL ENERGY . . . . . . . . . . . 808 16.4 ENERGY FROM CURRENTS ... . . . 810 16.4.1 MARINE CURRENT TURBINE SYSTEM 811 16.5 SALINATION ENERGY . 816 16.6 OSMOSIS..... 820 REFERENCES . . . . 823 FURTHER READING 823 PROBLEMS 825 INDEX. 829
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owner_facet	DE-83 DE-91S DE-BY-TUM DE-634 DE-573 DE-384 DE-91G DE-BY-TUM
physical	XIX, 844 S. Ill., graph. Darst.
publishDate	2009
publishDateSearch	2009
publishDateSort	2009
publisher	Elsevier
record_format	marc
spelling	Da Rosa, Aldo Vieira Verfasser (DE-588)130522635 aut Fundamentals of renewable energy processes Aldo Vieira da Rosa 2. ed. Amsterdam [u.a.] Elsevier 2009 XIX, 844 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Énergies renouvelables ram Renewable energy sources Power (Mechanics) Environmental engineering Erneuerbare Energien (DE-588)4068598-6 gnd rswk-swf Umwelttechnik (DE-588)4061650-2 gnd rswk-swf Erneuerbare Energien (DE-588)4068598-6 s Umwelttechnik (DE-588)4061650-2 s DE-604 OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018013910&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Da Rosa, Aldo Vieira Fundamentals of renewable energy processes Énergies renouvelables ram Renewable energy sources Power (Mechanics) Environmental engineering Erneuerbare Energien (DE-588)4068598-6 gnd Umwelttechnik (DE-588)4061650-2 gnd
subject_GND	(DE-588)4068598-6 (DE-588)4061650-2
title	Fundamentals of renewable energy processes
title_auth	Fundamentals of renewable energy processes
title_exact_search	Fundamentals of renewable energy processes
title_full	Fundamentals of renewable energy processes Aldo Vieira da Rosa
title_fullStr	Fundamentals of renewable energy processes Aldo Vieira da Rosa
title_full_unstemmed	Fundamentals of renewable energy processes Aldo Vieira da Rosa
title_short	Fundamentals of renewable energy processes
title_sort	fundamentals of renewable energy processes
topic	Énergies renouvelables ram Renewable energy sources Power (Mechanics) Environmental engineering Erneuerbare Energien (DE-588)4068598-6 gnd Umwelttechnik (DE-588)4061650-2 gnd
topic_facet	Énergies renouvelables Renewable energy sources Power (Mechanics) Environmental engineering Erneuerbare Energien Umwelttechnik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018013910&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT darosaaldovieira fundamentalsofrenewableenergyprocesses

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