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Viser: Advanced Engineering Thermodynamics

Advanced Engineering Thermodynamics, 4. udgave
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Advanced Engineering Thermodynamics Vital Source e-bog

Adrian Bejan
(2016)
John Wiley & Sons
1.613,00 kr.
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Advanced Engineering Thermodynamics, 4. udgave

Advanced Engineering Thermodynamics Vital Source e-bog

Adrian Bejan
(2016)
John Wiley & Sons
355,00 kr.
Leveres umiddelbart efter køb
Advanced Engineering Thermodynamics, 4. udgave

Advanced Engineering Thermodynamics Vital Source e-bog

Adrian Bejan
(2016)
John Wiley & Sons
259,00 kr.
Leveres umiddelbart efter køb
Advanced Engineering Thermodynamics, 4. udgave

Advanced Engineering Thermodynamics

Adrian Bejan
(2016)
Sprog: Engelsk
John Wiley & Sons, Limited
1.599,00 kr.
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Detaljer om varen

  • 4. Udgave
  • Vital Source searchable e-book (Reflowable pages)
  • Udgiver: John Wiley & Sons (September 2016)
  • ISBN: 9781119281047
An advanced, practical approach to the first and second laws of thermodynamics

Advanced Engineering Thermodynamics bridges the gap between engineering applications and the first and second laws of thermodynamics. Going beyond the basic coverage offered by most textbooks, this authoritative treatment delves into the advanced topics of energy and work as they relate to various engineering fields. This practical approach describes real-world applications of thermodynamics concepts, including solar energy, refrigeration, air conditioning, thermofluid design, chemical design, constructal design, and more. This new fourth edition has been updated and expanded to include current developments in energy storage, distributed energy systems, entropy minimization, and industrial applications, linking new technologies in sustainability to fundamental thermodynamics concepts. Worked problems have been added to help students follow the thought processes behind various applications, and additional homework problems give them the opportunity to gauge their knowledge.

The growing demand for sustainability and energy efficiency has shined a spotlight on the real-world applications of thermodynamics. This book helps future engineers make the fundamental connections, and develop a clear understanding of this complex subject.

  • Delve deeper into the engineering applications of thermodynamics
  • Work problems directly applicable to engineering fields
  • Integrate thermodynamics concepts into sustainability design and policy
  • Understand the thermodynamics of emerging energy technologies

Condensed introductory chapters allow students to quickly review the fundamentals before diving right into practical applications. Designed expressly for engineering students, this book offers a clear, targeted treatment of thermodynamics topics with detailed discussion and authoritative guidance toward even the most complex concepts. Advanced Engineering Thermodynamics is the definitive modern treatment of energy and work for today's newest engineers.

Licens varighed:
Bookshelf online: 5 år fra købsdato.
Bookshelf appen: ubegrænset dage fra købsdato.

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Detaljer om varen

  • 4. Udgave
  • Vital Source 365 day rentals (dynamic pages)
  • Udgiver: John Wiley & Sons (September 2016)
  • ISBN: 9781119281047R365
An advanced, practical approach to the first and second laws of thermodynamics

Advanced Engineering Thermodynamics bridges the gap between engineering applications and the first and second laws of thermodynamics. Going beyond the basic coverage offered by most textbooks, this authoritative treatment delves into the advanced topics of energy and work as they relate to various engineering fields. This practical approach describes real-world applications of thermodynamics concepts, including solar energy, refrigeration, air conditioning, thermofluid design, chemical design, constructal design, and more. This new fourth edition has been updated and expanded to include current developments in energy storage, distributed energy systems, entropy minimization, and industrial applications, linking new technologies in sustainability to fundamental thermodynamics concepts. Worked problems have been added to help students follow the thought processes behind various applications, and additional homework problems give them the opportunity to gauge their knowledge.

The growing demand for sustainability and energy efficiency has shined a spotlight on the real-world applications of thermodynamics. This book helps future engineers make the fundamental connections, and develop a clear understanding of this complex subject.

  • Delve deeper into the engineering applications of thermodynamics
  • Work problems directly applicable to engineering fields
  • Integrate thermodynamics concepts into sustainability design and policy
  • Understand the thermodynamics of emerging energy technologies

Condensed introductory chapters allow students to quickly review the fundamentals before diving right into practical applications. Designed expressly for engineering students, this book offers a clear, targeted treatment of thermodynamics topics with detailed discussion and authoritative guidance toward even the most complex concepts. Advanced Engineering Thermodynamics is the definitive modern treatment of energy and work for today's newest engineers.

Licens varighed:
Bookshelf online: 5 år fra købsdato.
Bookshelf appen: 5 år fra købsdato.

Udgiveren oplyser at følgende begrænsninger er gældende for dette produkt:
Print: 2 sider kan printes ad gangen
Copy: højest 10 sider i alt kan kopieres (copy/paste)

Detaljer om varen

  • 4. Udgave
  • Vital Source 120 day rentals (dynamic pages)
  • Udgiver: John Wiley & Sons (September 2016)
  • ISBN: 9781119281047R120
An advanced, practical approach to the first and second laws of thermodynamics

Advanced Engineering Thermodynamics bridges the gap between engineering applications and the first and second laws of thermodynamics. Going beyond the basic coverage offered by most textbooks, this authoritative treatment delves into the advanced topics of energy and work as they relate to various engineering fields. This practical approach describes real-world applications of thermodynamics concepts, including solar energy, refrigeration, air conditioning, thermofluid design, chemical design, constructal design, and more. This new fourth edition has been updated and expanded to include current developments in energy storage, distributed energy systems, entropy minimization, and industrial applications, linking new technologies in sustainability to fundamental thermodynamics concepts. Worked problems have been added to help students follow the thought processes behind various applications, and additional homework problems give them the opportunity to gauge their knowledge.

The growing demand for sustainability and energy efficiency has shined a spotlight on the real-world applications of thermodynamics. This book helps future engineers make the fundamental connections, and develop a clear understanding of this complex subject.

  • Delve deeper into the engineering applications of thermodynamics
  • Work problems directly applicable to engineering fields
  • Integrate thermodynamics concepts into sustainability design and policy
  • Understand the thermodynamics of emerging energy technologies

Condensed introductory chapters allow students to quickly review the fundamentals before diving right into practical applications. Designed expressly for engineering students, this book offers a clear, targeted treatment of thermodynamics topics with detailed discussion and authoritative guidance toward even the most complex concepts. Advanced Engineering Thermodynamics is the definitive modern treatment of energy and work for today's newest engineers.

Licens varighed:
Bookshelf online: 120 dage fra købsdato.
Bookshelf appen: 120 dage fra købsdato.

Udgiveren oplyser at følgende begrænsninger er gældende for dette produkt:
Print: 2 sider kan printes ad gangen
Copy: højest 10 sider i alt kan kopieres (copy/paste)

Detaljer om varen

  • 4. Udgave
  • Hardback: 800 sider
  • Udgiver: John Wiley & Sons, Limited (November 2016)
  • ISBN: 9781119052098
An advanced, practical approach to the first and second laws of thermodynamics

Advanced Engineering Thermodynamics bridges the gap between engineering applications and the first and second laws of thermodynamics. Going beyond the basic coverage offered by most textbooks, this authoritative treatment delves into the advanced topics of energy and work as they relate to various engineering fields. This practical approach describes real-world applications of thermodynamics concepts, including solar energy, refrigeration, air conditioning, thermofluid design, chemical design, constructal design, and more. This new fourth edition has been updated and expanded to include current developments in energy storage, distributed energy systems, entropy minimization, and industrial applications, linking new technologies in sustainability to fundamental thermodynamics concepts. Worked problems have been added to help students follow the thought processes behind various applications, and additional homework problems give them the opportunity to gauge their knowledge.

The growing demand for sustainability and energy efficiency has shined a spotlight on the real-world applications of thermodynamics. This book helps future engineers make the fundamental connections, and develop a clear understanding of this complex subject.

  • Delve deeper into the engineering applications of thermodynamics
  • Work problems directly applicable to engineering fields
  • Integrate thermodynamics concepts into sustainability design and policy
  • Understand the thermodynamics of emerging energy technologies

Condensed introductory chapters allow students to quickly review the fundamentals before diving right into practical applications. Designed expressly for engineering students, this book offers a clear, targeted treatment of thermodynamics topics with detailed discussion and authoritative guidance toward even the most complex concepts. Advanced Engineering Thermodynamics is the definitive modern treatment of energy and work for today's newest engineers.

Preface to the First Edition xvii Preface to the Second Edition xxi Preface to The Third Edition xxv Preface xxix Acknowledgments xxxvii 1 The First Law 1
1.1 Terminology 1
1.2 Closed Systems 4
1.3 Work Transfer 7
1.4 Heat Transfer 12
1.5 Energy Change 16
1.6 Open Systems 18
1.7 History 23 References 31 Problems 33 2 The Second Law 39
2.1 Closed Systems 39
2.1.1 Cycle in Contact with One Temperature Reservoir 39
2.1.2 Cycle in Contact with Two Temperature Reservoirs 41
2.1.3 Cycle in Contact with Any Number of Temperature Reservoirs 49
2.1.4 Process in Contact with Any Number of Temperature Reservoirs 51
2.2 Open Systems 54
2.3 Local Equilibrium 56
2.4 Entropy Maximum and Energy Minimum 57
2.5 Carathéodory''s Two Axioms 62
2.6 A Heat Transfer Man''s Two Axioms 71
2.7 History 77 References 78 Problems 80 3 Entropy Generation, Or Exergy Destruction 95
3.1 Lost Available Work 96
3.2 Cycles 102
3.2.1 Heat Engine Cycles 103
3.2.2 Refrigeration Cycles 104
3.2.3 Heat Pump Cycles 107
3.3 Nonflow Processes 109
3.4 Steady-Flow Processes 113
3.5 Mechanisms of Entropy Generation 119
3.5.1 Heat Transfer across a Temperature Difference 119
3.5.2 Flow with Friction 122
3.5.3 Mixing 124
3.6 Entropy Generation Minimization 126
3.6.1 The Method 126
3.6.2 Tree-Shaped Fluid Flow 127
3.6.3 Entropy Generation Number 130 References 132 Problems 133 4 Single-Phase Systems 140
4.1 Simple System 140
4.2 Equilibrium Conditions 141
4.3 The Fundamental Relation 146
4.3.1 Energy Representation 147
4.3.2 Entropy Representation 148
4.3.3 Extensive Properties versus Intensive Properties 149
4.3.4 The Euler Equation 150
4.3.5 The Gibbs-Duhem Relation 151
4.4 Legendre Transforms 154
4.5 Relations between Thermodynamic Properties 163
4.5.1 Maxwell''s Relations 163
4.5.2 Relations Measured during Special Processes 166
4.5.3 Bridgman''s Table 173
4.5.4 Jacobians in Thermodynamics 176
4.6 Partial Molal Properties 179
4.7 Ideal Gas Mixtures 183
4.8 Real Gas Mixtures 186 References 189 Problems 190 5 Exergy Analysis 195
5.1 Nonflow Systems 195
5.2 Flow Systems 198
5.3 Generalized Exergy Analysis 201
5.4 Air Conditioning 203
5.4.1 Mixtures of Air and Water Vapor 203
5.4.2 Total Flow Exergy of Humid Air 205
5.4.3 Total Flow Exergy of Liquid Water 207
5.4.4 Evaporative Cooling 208 References 210 Problems 210 6 Multiphase Systems 213
6.1 The Energy Minimum Principle 213
6.1.1 The Energy Minimum 214
6.1.2 The Enthalpy Minimum 215
6.1.3 The Helmholtz Free-Energy Minimum 216
6.1.4 The Gibbs Free-Energy Minimum 217
6.1.5 The Star Diagram 217
6.2 The Stability of a Simple System 219
6.2.1 Thermal Stability 219
6.2.2 Mechanical Stability 221
6.2.3 Chemical Stability 222
6.3 The Continuity of the Vapor and Liquid States 224
6.3.1 The Andrews Diagram and J. Thomson''s Theory 224
6.3.2 The van der Waals Equation of State 226
6.3.3 Maxwell''s Equal-Area Rule 233
6.3.4 The Clapeyron Relation 235
6.4 Phase Diagrams 236
6.4.1 The Gibbs Phase Rule 236
6.4.2 Single-Component Substances 237
6.4.3 Two-Component Mixtures 239
6.5 Corresponding States 247
6.5.1 Compressibility Factor 247
6.5.2 Analytical P ( v , T ) Equations of State 253
6.5.3 Calculation of Properties Based on P ( v , T ) and Specific Heat 257
6.5.4 Saturated Liquid and Saturated Vapor States 259
6.5.5 Metastable States 261 References 264 Problems 266 7 Chemically Reactive Systems 271
7.1 Equilibrium 271
7.1.1 Chemical Reactions 271
7.1.2 Affinity 274
7.1.3 Le Chatelier-Braun Principle 277
7.1.4 Ideal Gas Mixtures 280
7.2 Irreversible Reactions 287
7.3 Steady-Flow Combustion 295
7.3.1 Combustion Stoichiometry 295
7.3.2 The First Law 297
7.3.3 The Second Law 303
7.3.4 Maximum Power Output 306
7.4 The Chemical Exergy of Fuels 316
7.5 Combustion at Constant Volume 320
7.5.1 The First Law 320
7.5.2 The Second Law 322
7.5.3 Maximum Work Output 323 References 324 Problems 325 8 Power Generation 328
8.1 Maximum Power Subject to Size Constraint 328
8.2 Maximum Power from a Hot Stream 332
8.3 External Irreversibilities 338
8.4 Internal Irreversibilities 344
8.4.1 Heater 344
8.4.2 Expander 346
8.4.3 Cooler 346
8.4.4 Pump 348
8.4.5 Relative Importance of Internal Irreversibilities 348
8.5 Advanced Steam Turbine Power Plants 352
8.5.1 Superheater, Reheater, and Partial Condenser Vacuum 352
8.5.2 Regenerative Feed Heating 355
8.5.3 Combined Feed Heating and Reheating 362
8.6 Advanced Gas Turbine Power Plants 366
8.6.1 External and Internal Irreversibilities 366
8.6.2 Regenerative Heat Exchanger, Reheaters, and Intercoolers 371
8.6.3 Cooled Turbines 374
8.7 Combined Steam Turbine and Gas Turbine Power Plants 376 References 379 Problems 381 9 Solar Power 394
9.1 Thermodynamic Properties of Thermal Radiation 394
9.1.1 Photons 395
9.1.2 Temperature 396
9.1.3 Energy 397
9.1.4 Pressure 399
9.1.5 Entropy 400
9.2 Reversible Processes 403
9.2.1 Reversible and Adiabatic Expansion or Compression 403
9.2.2 Reversible and Isothermal Expansion or Compression 403
9.2.3 Carnot Cycle 404
9.3 Irreversible Processes 404
9.3.1 Adiabatic Free Expansion 404
9.3.2 Transformation of Monochromatic Radiation into Blackbody Radiation 405
9.3.3 Scattering 407
9.3.4 Net Radiative Heat Transfer 408
9.3.5 Kirchhoff''s Law 412
9.4 The Ideal Conversion of Enclosed Blackbody Radiation 413
9.4.1 Petela''s Theory 413
9.4.2 Unifying Theory 416
9.5 Maximization of Power Output Per Unit Collector Area 424
9.5.1 Ideal Concentrators 424
9.5.2 Omnicolor Series of Ideal Concentrators 427
9.5.3 Unconcentrated Solar Radiation 428
9.6 Convectively Cooled Collectors 431
9.6.1 Linear Convective Heat Loss Model 432
9.6.2 Effect of Collector-Engine Heat Exchanger Irreversibility 433
9.6.3 Combined Convective and Radiative Heat Loss 434
9.7 Extraterrestrial Solar Power Plant 436
9.8 Climate 438
9.9 Self-Pumping and Atmospheric Circulation 449 References 453 Problems 455 10 Refrigeration 461
10.1 Joule-Thomson Expansion 461
10.2 Work-Producing Expansion 468
10.3 Brayton Cycle 471
10.4 Intermediate Cooling 477
10.4.1 Counterflow Heat Exchanger 477
10.4.2 Bioheat Transfer 479
10.4.3 Distribution of Expanders 480
10.4.4 Insulation 484
10.5 Liquefaction 492
10.5.1 Liquefiers versus Refrigerators 492
10.5.2 Heylandt Nitrogen Liquefier 494
10.5.3 Efficiency of Liquefiers and Refrigerators 498
10.6 Refrigerator Models with Internal Heat Leak 502
10.6.1 Heat Leak in Parallel with Reversible Compartment 502
10.6.2 Time-Dependent Operation 505
10.7 Magnetic Refrigeration 509
10.7.1 Fundamental Relations 509
10.7.2 Adiabatic Demagnetization 513
10.7.3 Paramagnetic Thermometry 514
10.7.4 The Third Law of Thermodynamics 517 References 518 Problems 521 11 Entropy Generation Minimization 531
11.1 Competing Irreversibilities 531
11.1.1 Internal Flow and Heat Transfer 531
11.1.2 Heat Transfer Augmentation 536
11.1.3 External Flow and Heat Transfer 538
11.1.4 Convective Heat Transfer in General 541
11.2 Balanced Counterflow Heat Exchangers 543
11.2.1 The Ideal Limit 545
11.2.2 Area Constraint 548
11.2.3 Volume Constraint 550
11.2.4 Combined Area and Volume Constraint 551
11.2.5 Negligible Pressure Drop Irreversibility 551
11.2.6 The Structure of Heat Exchanger Irreversibility 553
11.3 Storage Systems 555
11.3.1 Sensible-Heat Storage 555
11.3.2 Storage Time Interval 556
11.3.3 Heat Exchanger Size 558
11.3.4 Storage Followed by Removal of Exergy 561
11.3.5 Heating and Cooling Subject to Time Constraint 564
11.3.6 Latent-Heat Storage 567
11.4 Power Maximization or Entropy Generation Minimization 570
11.4.1 Heat Transfer Irreversible Power Plant Models 571
11.4.2 Minimum Entropy Generation Rate 573
11.4.3 Fluid Flow Systems 577
11.4.4 Electrical Machines 581
11.5 From Entropy Generation Minimization to Constructal Law 583
11.5.1 The Generation-of-Configuration Phenomenon 583
11.5.2 Organ Size 586 References 592 Problems 595 12 Irreversible Thermodynamics 601
12.1 Conjugate Fluxes and Forces 602
12.2 Linearized Relations 606
12.3 Reciprocity Relations 607
12.4 Thermoelectric Phenomena 610
12.4.1 Formulations 610
12.4.2 The Peltier Effect 613
12.4.3 The Seebeck Effect 615
12.4.4 The Thomson Effect 616
12.4.5 Power Generation 618
12.4.6 Refrigeration 623
12.5 Heat Conduction in Anisotropic Media 625 <
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