Verfügbarkeit: Thermodynamics and energy conversion

Thermodynamics and energy conversion:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Struchtrup, Henning (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2014
Schlagworte:	Ingenieurwissenschaften Chemical engineering Thermodynamics Hydraulic engineering Electric engineering Engineering Thermodynamik Energieumwandlung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XVII, 597 S. Ill., graph. Darst.
ISBN:	3662437147 9783662437148 9783662518755

Internformat

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adam_text	1 INTRODUCTION: WHY THERMODYNAMICS? 1 1.1 ENERGY AND WORK IN OUR WORLD 1 1.2 MECHANICAL AND THERMODYNAMICAL FORCES 2 1.3 SYSTEMS, BALANCE LAWS, PROPERTY RELATIONS 4 1.4 THERMODYNAMICS AS ENGINEERING SCIENCE 6 1.5 THERMODYNAMIC ANALYSIS 7 1.6 APPLICATIONS 8 2 SYSTEMS, STATES, AND PROCESSES 11 2.1 THE CLOSED SYSTEM 11 2.2 MICRO AND MACRO 12 2.3 MECHANICAL STATE PROPERTIES 13 2.4 EXTENSIVE AND INTENSIVE PROPERTIES 14 2.5 SPECIFIC PROPERTIES 14 2.6 MOLAR PROPERTIES 15 2.7 INHOINOGENEOUS STATES 16 2.8 PROCESSES AND EQUILIBRIUM STATES 17 2.9 QUASI-STATIC AND FAST PROCESSES 17 2.10 REVERSIBLE AND IRREVERSIBLE PROCESSES 18 2.11 TEMPERATURE AND THE ZEROTH LAW 19 2.12 THERMOMETERS AND TEMPERATURE SCALE 20 2.13 GAS TEMPERATURE SCALE 21 2.14 THERMAL EQUATION OF STATE 22 2.15 IDEAL GAS LAW 23 2.16 A NOTE ON PROBLEM SOLVING 24 2.17 EXAMPLE: AIR IN A ROOM 25 2.18 EXAMPLE: AIR IN A REFRIGERATOR 26 2.19 MORE ON PRESSURE 27 PROBLEMS 30 HTTP://D-NB.INFO/1050898079 X CONTENTS 3 THE FIRST LAW OF THERMODYNAMICS 33 3.1 CONSERVATION OF ENERGY 33 3.2 TOTAL ENERGY 35 3.3 KINETIC ENERGY 35 3.4 POTENTIAL ENERGY 35 3.5 INTERNAL ENERGY AND THE CALORIC EQUATION OF STATE 36 3.0 WORK AND POWER 30 3.7 EXACT AND INEXACT DIFFERENTIALS 39 3.8 HEAT TRANSFER 39 3.9 THE FIRST LAW FOR REVERSIBLE PROCESSES 41 3.10 THE SPECIFIC HEAT AT CONSTANT VOLUME 41 3.11 ENTHALPY 43 3.12 EXAMPLE: EQUILIBRATION OF TEMPERATURE 44 3.13 EXAMPLE: UNCONTROLLED EXPANSION OF A GAS 40 3.14 EXAMPLE: FRICTION LOSS 47 3.15 EXAMPLE: HEATING PROBLEMS 47 PROBLEMS 50 4 THE SECOND LAW OF THERMODYNAMICS 55 4.1 THE SECOND LAW 55 4.2 ENTROPY AND THE TREND TO EQUILIBRIUM 55 4.3 ENTROPY FLUX 57 4.4 ENTROPY IN EQUILIBRIUM 57 4.5 ENTROPY AS PROPERTY: THE GIBBS EQUATION 59 4.6 T-S-DIAGRAM 60 4.7 THE ENTROPY BALANCE 61 4.8 THE DIRECTION OF HEAT TRANSFER 63 4.9 INTERNAL FRICTION 65 4.10 NEWTON'S LAW OF COOLING 67 4.11 ZEROTH LAW AND SECOND LAW 08 4.12 EXAMPLE: EQUILIBRATION OF TEMPERATURE 69 4.13 EXAMPLE: UNCONTROLLED EXPANSION OF A GAS 69 4.14 WHAT IS ENTROPY? 70 4.15 ENTROPY AND DISORDER 73 4.16 ENTROPY AND LIFE 74 4.17 THE ENTROPY FLUX REVISITED 75 PROBLEMS 78 5 ENERGY CONVERSION AND THE SECOND LAW 83 5.1 ENERGY CONVERSION 83 5.2 HEAT ENGINES 84 5.3 THE KELVIN-PLANCK STATEMENT 80 5.4 REFRIGERATORS AND HEAT PUMPS 87 5.5 KELVIN-PLANCK AND CLAUSIUS STATEMENTS 89 5.0 THERMODYNAMIC TEMPERATURE 90 CONTENTS X ' 5.7 PERPETUAL MOTION ENGINES 91 5.8 REVERSIBLE AND IRREVERSIBLE PROCESSES 91 5.9 INTERNALLY AND EXTERNALLY REVERSIBLE PROCESSES 93 5.10 IRREVERSIBILITY AND WORK LOSS 93 5.11 EXAMPLES 94 PROBLEMS 100 6 PROPERTIES AND PROPERTY RELATIONS 103 6.1 STATE PROPERTIES AND THEIR RELATIONS 103 6.2 PHASES 104 6.3 PHASE CHANGES 105 6.4 P-V- AND T-S-DIAGRAMS 110 6.5 SATURATED LIQUID-VAPOR MIXTURES ILL 6.6 IDENTIFYING STATES 113 6.7 EXAMPLE: CONDENSATION OF SATURATED STEAM 115 6.8 SUPERHEATED VAPOR 117 6.9 COMPRESSED LIQUID 120 6.10 THE IDEAL GAS 123 6.11 MONATOMIC GASES (NOBLE GASES) 125 6.12 SPECIFIC HEATS AND COLD GAS APPROXIMATION 126 6.13 REAL GASES 127 6.14 FULLY INCOMPRESSIBLE SOLIDS AND LIQUIDS 128 PROBLEMS 128 7 REVERSIBLE PROCESSES IN CLOSED SYSTEMS 131 7.1 STANDARD PROCESSES 131 7.2 BASIC EQUATIONS 131 7.3 ISOCHORIC PROCESS: V = CONST., DV = 0 133 7.4 ISOBARIC PROCESS: P = CONST., DP = 0 134 7.5 ISENTROPIC PROCESS: 712 = SQ = DS = 0 135 7.6 ISOTHERMAL PROCESS: T = CONST, DT = 0 137 7.7 POLYTROPIC PROCESS (IDEAL GAS): PV N * CONST 138 7.8 SUMMARY 139 7.9 EXAMPLES 139 PROBLEMS 147 8 CLOSED SYSTEM CYCLES 153 8.1 THERMODYNAMIC CYCLES 153 8.2 CARNOT CYCLE 155 8.3 CARNOT, REFRIGERATION CYCLE 158 8.4 INTERNAL COMBUSTION ENGINES 159 8.5 OTTO CYCLE 162 8.6 EXAMPLE: OTTO CYCLE 164 8.7 DIESEL CYCLE 165 8.8 EXAMPLE: DIESEL CYCLE 167 XIJ CONTENTS 8.9 DUAL CYCLE 168 8.10 ATKINSON CYCLE 169 PROBLEMS 172 9 OPEN SYSTEMS 177 9.1 FLOWS IN OPEN SYSTEMS 177 9.2 CONSERVATION OF MASS 178 9.3 FLOW WORK AND ENERGY TRANSFER 179 9.4 ENTROPY TRANSFER 181 9.5 OPEN SYSTEMS IN STEADY STATE PROCESSES 181 9.6 ONE INLET, ONE EXIT SYSTEMS 182 9.7 ENTROPY GENERATION IN MASS TRANSFER 184 9.8 ADIABATIC COMPRESSORS, TURBINES AND PUMPS 186 9.9 HEATING AND COOLING OF A PIPE FLOW 187 9.10 THROTTLING DEVICES 188 9.11 ADIABATIC NOZZLES AND DIFFUSERS 188 9.12 ISENTROPIC EFFICIENCIES 190 9.13 SUMMARY: OPEN SYSTEM DEVICES 192 9.14 EXAMPLES: OPEN SYSTEM DEVICES 192 9.15 CLOSED HEAT EXCHANGERS 200 9.16 OPEN HEAT EXCHANGERS: ADIABATIC MIXING 201 9.17 EXAMPLES: HEAT EXCHANGERS 202 PROBLEMS 203 10 BASIC OPEN SYSTEM CYCLES 209 10.1 STEAM TURBINE: RANKINE CYCLE 209 10.2 EXAMPLE: RANKINE CYCLE 212 10.3 VAPOR REFRIGERATION/HEAT PUMP CYCLE 216 10.4 EXAMPLE: VAPOR COMPRESSION REFRIGERATOR 218 10.5 GAS TURBINE: BRAYTON CYCLE 221 10.6 EXAMPLE: BRAYTON CYCLE 225 10.7 GAS REFRIGERATION SYSTEM: INVERSE BRAYTON CYCLE 226 PROBLEMS 228 11 EFFICIENCIES AND IRREVERSIBLE LOSSES 235 11.1 IRREVERSIBILITY AND WORK LOSS 235 11.2 REVERSIBLE WORK AND SECOND LAW EFFICIENCY 237 11.3 EXAMPLE: CARNOT ENGINE WITH EXTERNAL IRREVERSIBILITY . 239 11.4 EXAMPLE: SPACE HEATING 241 11.5 EXAMPLE: ENTROPY GENERATION IN HEAT TRANSFER 244 11.6 WORK POTENTIAL OF A FLOW (EXHAUST LOSSES) 245 11.7 HEAT ENGINE DRIVEN BY HOT COMBUSTION GAS 246 11.8 EXERGY 251 PROBLEMS 252 CONTENTS XIII 12 VAPOR ENGINES 257 12.1 BOILER EXHAUST REGENERATION 257 12.2 REGENERATIVE RANKINE CYCLE 259 12.3 EXAMPLE: STEAM CYCLES WITH FEEDWATER HEATERS 266 12.4 COGENERATION PLANTS 273 12.5 REFRIGERATION SYSTEMS 275 12.6 LINDE METHOD FOR GCIS LIQUEFACTION 278 PROBLEMS 279 13 GAS ENGINES 289 13.1 STIRLING CYCLE 289 13.2 ERICSSON CYCLE 296 13.3 COMPRESSION WITH INTERCOOLING 297 13.4 GAS TURBINE CYCLES WITH REGENERATION AND REHEAT 300 13.5 BRAYTON CYCLE WITH INTERCOOLING AND REHEAT 303 13.6 COMBINED CYCLE 305 13.7 THE SOLAR TOWER 306 13.8 SIMPLE CHIMNEY 309 13.9 AIRCRAFT ENGINES 310 PROBLEMS 322 14 COMPRESSIBLE FLOW: NOZZLES AND DIFFUSERS 327 14.1 SUB- AND SUPERSONIC FLOWS 327 14.2 SPEED OF SOUND 327 14.3 SPEED OF SOUND IN AN IDEAL GAS 329 14.4 AREA-VELOCITY RELATION 330 14.5 NOZZLE FLOWS 333 14.6 CONVERGING NOZZLE 334 14.7 EXAMPLE: SAFETY VALVE 336 14.8 LAVAL NOZZLE 337 14.9 ROCKETS, RAMJET AND SCRAMJET 338 14.10 EXAMPLE: RANI JET 340 PROBLEMS 342 15 TRANSIENT AND INHOMOGENEOUS PROCESSES IN OPEN SYSTEMS 345 15.1 INTRODUCTION 345 15.2 HEAT EXCHANGERS 345 15.3 HEATING OF A HOUSE 352 15.4 REVERSIBLE FILLING OF AN ADIABATIC CONTAINER 355 15.5 REVERSIBLE DISCHARGE FROM AN ADIABATIC CONTAINER 357 15.6 REVERSIBLE DISCHARGE AFTER COOLING 357 15.7 REVERSIBLE FILLING OF A GAS CONTAINER WITH HEAT EXCHANGE 360 15.8 CAES: COMPRESSED AIR ENERGY STORAGE 362 PROBLEMS 368 XIV CONTENTS 16 MORE ON PROPERTY RELATIONS 371 1G.1 MEASURABILITY OF PROPERTIES 371 16.2 THERMODYNAMIC POTENTIALS AND MAXWELL RELATIONS 371 16.3 TWO USEFUL RELATIONS 374 16.4 RELATION BETWEEN SPECIFIC HEATS 376 16.5 MEASUREMENT OF PROPERTIES 377 16.6 EXAMPLE: GIBBS FREE ENERGY AS POTENTIAL 380 16.7 COMPRESSIBILITY, THERMAL EXPANSION 381 16.8 EXAMPLE: VAN DER WAALS GAS 383 16.9 JOULE-THOMSON COEFFICIENT 387 16.10 EXAMPLE: INVERSION CURVE FOR THE VAN DER WAALS GAS . 388 PROBLEMS 389 17 THERMODYNAMIC EQUILIBRIUM 393 17.1 EQUILIBRIUM CONDITIONS 393 17.2 EQUILIBRIUM IN ISOLATED SYSTEMS 394 17.3 BAROMETRIC AND HYDROSTATIC FORMULAS 397 17.4 THERMODYNAMIC STABILITY 397 17.5 EQUILIBRIUM IN NON-ISOLATED SYSTEMS 398 17.6 INTERPRETATION OF THE BAROMETRIC FORMULA 401 17.7 EQUILIBRIUM IN HETEROGENEOUS SYSTEMS 402 17.8 PHASE EQUILIBRIUM 404 17.9 EXAMPLE: PHASE EQUILIBRIUM FOR THE VAN DER WAALS GAS 406 17.10 CLAPEYRON EQUATION 407 17.11 EXAMPLE: ESTIMATE OF HEAT OF EVAPORATION 408 17.12 EXAMPLE: ICE SKATING 409 PROBLEMS 410 18 MIXTURES 415 18.1 INTRODUCTION 415 18.2 MIXTURE COMPOSITION 415 18.3 EXAMPLE: COMPOSITION AND MOLAR MASS OF AIR 416 18.4 MIXTURE PROPERTIES 417 18.5 MIXING VOLUME, HEAT OF MIXING AND ENTROPY OF MIXING. 418 18.6 IDEAL GAS MIXTURES 420 18.7 ENERGY, ENTHALPY AND SPECIFIC HEATS FOR IDEAL GASES 421 18.8 ENTROPY OF MIXING FOR IDEAL GAS 421 18.9 GIBBS PARADOX 422 18.10 EXAMPLE: ISENTROPIC EXPANSION THROUGH A NOZZLE 423 18.11 EXAMPLE: ISOCLIORIC MIXING OF TWO GASES AT DIFFERENT P, T 424 18.12 IDEAL MIXTURES 425 18.13 ENTROPY OF MIXING AND SEPARATION WORK 428 18.14 NON-IDEAL MIXTURES 429 PROBLEMS 430 CONTENTS 19 PSYCHROMETRICS 433 19.1 CHARACTERIZATION OF MOIST, AIR 433 19.2 DEWPOINT 435 19.3 ADIABATIC SATURATION AND WET-BULB TEMPERATURE 436 19.4 PSYCHROMETRIC CHART 437 19.5 DEHUNIIDIFICATION 440 19.6 HUNIIDIFICATION WITH STEAM 442 19.7 EVAPORATIVE COOLING 443 19.8 ADIABATIC MIXING 445 19.9 COOLING TOWERS 446 19.10 EXAMPLE: COOLING TOWER 447 PROBLEMS 449 20 THE CHEMICAL POTENTIAL 455 20.1 DEFINITION AND INTERPRETATION 455 20.2 PROPERTIES OF THE CHEMICAL POTENTIAL 456 20.3 GIBBS AND GIBBS-DULICM EQUATIONS 458 20.4 MASS BASED CHEMICAL POTENTIAL 459 20.5 THE CHEMICAL POTENTIAL FOR AN IDEAL MIXTURE 460 20.6 THE CHEMICAL POTENTIAL FOR AN IDEAL GAS MIXTURE 460 20.7 THE CHEMICAL POTENTIAL AS DRIVING FORCE FOR MASS TRANSFER 461 PROBLEMS 463 21 MIXING AND SEPARATION 467 21.1 OSMOSIS AND OSMOTIC PRESSURE 467 21.2 OSMOTIC PRESSURE FOR DILUTE SOLUTIONS 468 21.3 EXAMPLE: PFEFFER TUBE 469 21.4 DESALINATION IN A CONTINUOUS PROCESS 471 21.5 REVERSIBLE MIXING: OSMOTIC POWER GENERATION 474 21.6 EXAMPLE: DESALINATION IN PISTON-CYLINDER DEVICE 477 21.7 EXAMPLE: REMOVAL OF CO2 479 PROBLEMS 484 22 PHASE EQUILIBRIUM IN MIXTURES 493 22.1 PHASE MIXTURES 493 22.2 GIBBS' PHASE R.ULE 493 22.3 LIQUID-VAPOR-MIXTURES: IDEALIZED RAOULT'S LAW 494 22.4 PHASE DIAGRAMS FOR BINARY MIXTURES 495 22.5 DISTILLATION 498 22.6 SATURATION PRESSURE AND TEMPERATURE OF A SOLVENT 498 22.7 FREEZING OF A LIQUID SOLUTION 501 22.8 NON-IDEAL MIXTURES: ACTIVITY AND FUGACITY 502 22.9 A SIMPLE MODEL FOR HEAT OF MIXING AND ACTIVITY 504 22.10 GAS SOLUBILITY: HENRY'S LAW 505 XVI CONTENTS 22.11 PHASE DIAGRAMS WITH AZEOTROPES 506 PROBLEMS 509 23 REACTING MIXTURES 517 23.1 STOICLIIOMETRIC COEFFICIENTS 517 23.2 MASS AND MOLE BALANCES 518 23.3 HEAT OF REACTION 519 23.4 HEATING VALUE 520 23.5 ENTHALPY OF FORMATION 520 23.6 THE THIRD LAW OF THERMODYNAMICS 522 23.7 THE THIRD LAW AND ABSOLUTE ZERO 523 23.8 LAW OF MASS ACTION 524 23.9 LAW OF MASS ACTION FOR IDEAL MIXTURES AND IDEAL GASES. 524 23.10 EXAMPLE: NH3 PRODUCTION (HABER-BOSCH PROCESS) 526 23.11 LE CLIATELIER PRINCIPLE 528 23.12 MULTIPLE REACTIONS 529 PROBLEMS 530 24 ACTIVATION OF REACTIONS 535 24.1 APPROACHING CHEMICAL EQUILIBRIUM 535 24.2 REACTION RATES AND THE CHEMICAL CONSTANT 536 24.3 GIBBS FREE ENERGY OF ACTIVATION 537 24.4 ENTROPY GENERATION 539 PROBLEMS 540 25 COMBUSTION 541 25.1 FUELS 541 25.2 COMBUSTION AIR 542 25.3 EXAMPLE: MOLE AND MASS FLOW BALANCES 542 25.4 EXAMPLE: EXHAUST WATER 544 25.5 FIRST AND SECOND LAW FOR COMBUSTION SYSTEMS 545 25.6 ADIABATIC FLAME TEMPERATURE 546 25.7 EXAMPLE: ADIABATIC FLAME TEMPERATURE 546 25.8 CLOSED SYSTEM COMBUSTION 547 25.9 EXAMPLE: CLOSED ^SYSTEM COMBUSTION 548 25.10 ENTROPY GENERATION IN CLOSED SYSTEM COMBUSTION 548 25.11 WORK POTENTIAL OF A FUEL 549 25.12 EXAMPLE: WORK LOSSES IN A CH4 FIRED STEAM POWER PLANT 552 PROBLEMS 558 26 THERMODYNAMICS OF FUEL CELLS 563 26.1 FUEL CELLS 563 26.2 FUEL CELL POTENTIAL 564 26.3 FUEL CELL EFFICIENCY 567 26.4 NERNST EQUATION 571 CONTENTS XVII 26.5 MASS TRANSFER LOSSES 572 26.6 RESISTANCE LOSSES 574 26.7 ACTIVATION OVERPOTENTIAL 575 26.8 VOLTAGE/CURRENT AND POWER/CURRENT, DIAGRAMS 580 26.9 CROSSOVER LOSSES 582 26.10 ELECTROLYZERS 584 26.11 HYDROGEN 585 PROBLEMS 586 INDEX 591
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publisher	Springer
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spelling	Struchtrup, Henning Verfasser aut Thermodynamics and energy conversion Henning Struchtrup Berlin [u.a.] Springer 2014 XVII, 597 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Ingenieurwissenschaften Chemical engineering Thermodynamics Hydraulic engineering Electric engineering Engineering Thermodynamik (DE-588)4059827-5 gnd rswk-swf Energieumwandlung (DE-588)4014730-7 gnd rswk-swf Energieumwandlung (DE-588)4014730-7 s Thermodynamik (DE-588)4059827-5 s DE-604 Erscheint auch als Online-Ausgabe 978-3-662-43715-5 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4663434&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027475799&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Struchtrup, Henning Thermodynamics and energy conversion Ingenieurwissenschaften Chemical engineering Thermodynamics Hydraulic engineering Electric engineering Engineering Thermodynamik (DE-588)4059827-5 gnd Energieumwandlung (DE-588)4014730-7 gnd
subject_GND	(DE-588)4059827-5 (DE-588)4014730-7
title	Thermodynamics and energy conversion
title_auth	Thermodynamics and energy conversion
title_exact_search	Thermodynamics and energy conversion
title_full	Thermodynamics and energy conversion Henning Struchtrup
title_fullStr	Thermodynamics and energy conversion Henning Struchtrup
title_full_unstemmed	Thermodynamics and energy conversion Henning Struchtrup
title_short	Thermodynamics and energy conversion
title_sort	thermodynamics and energy conversion
topic	Ingenieurwissenschaften Chemical engineering Thermodynamics Hydraulic engineering Electric engineering Engineering Thermodynamik (DE-588)4059827-5 gnd Energieumwandlung (DE-588)4014730-7 gnd
topic_facet	Ingenieurwissenschaften Chemical engineering Thermodynamics Hydraulic engineering Electric engineering Engineering Thermodynamik Energieumwandlung
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4663434&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=027475799&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT struchtruphenning thermodynamicsandenergyconversion

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