Verfügbarkeit: Thermodynamics and energy systems analysis

Thermodynamics and energy systems analysis:

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Bibliographische Detailangaben
Hauptverfasser:	Borel, Lucien (VerfasserIn), Favrat, Daniel (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, Fl Taylor & Francis 2010
Schlagworte:	Thermodynamik Energietechnik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Aus dem Franz. übers.
Beschreibung:	XII, 795 S. Ill., graph. Darst.
ISBN:	9781439835166 9782940222452

Internformat

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Datensatz im Suchindex

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adam_text	Titel: Thermodynamics and energy systems analysis Autor: Borel, Lucien Jahr: 2010 Contents Preface...................................................................................... V CHAPTER 1 GENERALITIES AND FUNDAMENTAL LAWS 1.1 Definitions....................................................................... 1 1.2 Zeroth law of thermodynamics........................................ 8 1.3 First law of thermodynamics........................................... 11 1.4 State functions and process-dependent entities............... 25 1.5 Second law of thermodynamics....................................... 28 1.6 Third law of thermodynamics.......................................... 55 1.7 Extension to other forms of energy transfer.................... 57 1.8 Equations derived from the Gibbs equation.................... 64 1.9 Partial State functions....................................................... 67 1.10 The Gibbs-Duhem relation.............................................. 70 1.11 Thermodynamic (or absolute) temperature and empirical temperature...................................................................... 71 CHAPTER 2 CLOSED SYSTEMS AND GENERAL THERMODYNAMIC RELATIONS 2.1 Fundamental equations for a closed and homogeneous system.............................................................................. 79 2.2 Equation of State.............................................................. 80 2.3 Thermodynamic processes and diagrams........................ 81 2.4 Thermal and calorific factors........................................... 83 2.5 Specific heats................................................................... 85 2.6 Mathematical Relations between the State functions, the different factors and the specific heats....................... 87 2.7 Extension to the evolution of heterogeneous closed Systems and the notion of thermodynamic equilibrium... 95 CHAPTER 3 BALANCE OF EXTENSIVE PROPERTIES 3.1 Spatial and substancial balance of a scalar extensive property............................................................................ 103 3.2 Spatial and substantial balance of an extensive vector entity................................................................................ 109 3.3 Mass balance.................................................................... 111 3.4 Energy balance................................................................. 113 X Thermodynamics and Energy Systems Analysis: from Energy to Exergy 3.5 Entropy balance............................................................... 121 3.6 Momentum balance......................................................... 125 3.7 Balance ofthe moment of Momentum............................ 126 CHAPTER 4 OPEN SYSTEMS, IN STEADY STATE OPERATION 4.1 Fundamental equations of an open system, in steady State Operation.................................................................. 129 4.2 Static and dynamic State properties (functions)............... 145 4.3 Plane propagation of perturbations of small amplitude... 151 4.4 Flow in a Channel of constant cross section..................... 157 4.5 Adiabatic flow in a nozzle............................................... 170 4.6 Flow in a throttled Channel.............................................. 183 4.7 Non-adiabatic flow in a fixed Channel............................. 188 4.8 Turbine and compressor................................................... 196 CHAPTER 5 THERMODYNAMIC PROPERTIES OF MATTER 5.1 Description ofthe various states of matter...................... 217 5.2 Perfect gases. Kinetic gas theory..................................... 226 5.3 Ideal gases........................................................................ 234 5.4 General properties of perfect and ideal gases.................. 236 5.5 VanderWaalsfluids........................................................ 244 5.6 Virial fluids...................................................................... 259 5.7 Synthesis of cubic equations of State............................... 260 5.8 Equation of Lee Kesler modified from the equation of Benedict-Webb-Rubin (BWR)................ 262 5.9 Fluids of Lan-Borel......................................................... 263 5.10 Realbodies of matter....................................................... 264 5.11 Clausius-Clapeyron equation........................................... 272 5.12 Specific heats of solids.................................................... 276 5.13 Approximate relations for solids and liquids................... 279 5.14 Appendix: example of water as areal fluid..................... 280 CHAPTER 6 MIXTURE OF PERFECT OR IDEAL GASES 6.1 Generalities...................................................................... 289 6.2 Pressures, volumes and entropies of mixture: Dalton s and Amagat s laws............................................. 290 6.3 Internal energies, enthalpies, temperatures, gas constants and specific heats of mixture..................... 298 6.4 Mixtures with differing initial conditions........................ 301 6.5 Steady State mixing.......................................................... 305 CHAPTER 7 MIXTURES OF A GAS AND A CONDENSABLE SUBSTANCE 7.1 General properties............................................................ 309 7.2 h-w Mollier diagram........................................................ 317 Contents XI 7.3 Mixture of two mixtures, at steady-state Operation......... 324 7.4 Heating or cooling of any arbitrary mixture.................... 327 7.5 Introduction of a liquid in a dry mixture......................... 327 7.6 Application of the notion of 1 imit temperature................ 333 7.7 Synthesis.......................................................................... 335 7.8 Solids and dry mixtures................................................... 336 7.9 Example of application.................................................... 337 CHAPTER 8 THERMODYNAMIC PROCESSES AND DIAGRAMS 8.1 Typical thermodynamic processes................................... 341 8.2 Adiabatic process............................................................. 350 8.3 Thermodynamic diagrams............................................... 351 8.4 Paraisothermal process.................................................... 374 CHAPTER 9 SIMPLE EXAMPLES OF APPLICATION OF THE FIRST AND SECOND LAWS 9.1 Transformation of mechanical energy into internal energy (loule s experiment)............................................. 381 9.2 Expansion without work (Gay-Lussac-Ioule experiment) 383 9.3 Expansion with work....................................................... 385 9.4 Energy Processes............................................................. 387 9.5 Evolution of a heterogeneous system.............................. 391 9.6 Heat transfer between two bodies.................................... 392 9.7 Heat transmitter (heat exchanger).................................... 394 9.8 Compression of a perfect gas mixture............................. 397 CHAPTER 10 ENERGY AND EXERGY ANALYSES (THERMOMECHANICAL PROCESSES) 10.1 Energy approach.............................................................. 399 10.2 Exergy approach.............................................................. 406 10.3 Heating by mechanical or electrical energy..................... 449 10.4 Heating and cooling by heat transfer............................... 456 10.5 Heating or cooling by transformation energy.................. 461 10.6 Turbomachines................................................................. 474 10.7 Energy economy.............................................................. 479 10.8 Comments........................................................................ 485 10.9 Synthesis ofthe energy and exergy approaches.............. 490 CHAPTER 11 ENERGY AND EXERGY ANALYSES (WITH REACTIVE PROCESSES) 11.1 Generalities...................................................................... 491 11.2 Basic chemical equations................................................. 492 11.3 Complete combustion...................................................... 495 11.4 Energy (heating) values of a fuel..................................... 502 11.5 Energy balances and combustion temperature................. 518 XII Thermodynamics and Energy Systems Analysis: from Energy to Exergy 11.6 Exergy values of a fuel.................................................. 533 11.7 Incomplete combustion................................................. 550 11.8 Thermodynamic properties of combustion gases.......... 561 11.9 Evolution of a combustion process................................ 566 11.10 Fuel cells........................................................................ 570 11.11 Synthesis of the energy and exergy approaches with reactive processes.................................................. 577 CHAPTER 12 APPLICATION EXAMPLES OF CHAPTERS 10 AND 11 12.1 Combustion Chamber..................................................... 579 12.2 Steam boiler................................................................... 585 12.3 Internal combustion engine........................................... 598 CHAPTER 13 THERMODYNAMIC CYCLES 13.1 Generalities.................................................................... 607 13.2 General features of cycles............................................. 608 13.3 Single thermal source cycles......................................... 611 13.4 Bithermal cycles............................................................ 617 13.5 Bithermal power cycles................................................. 620 13.6 Bithermal heat pump cycles.......................................... 639 13.7 Synthesis of bithermal cycles........................................ 656 CHAPTER 14 APPLICATION EXAMPLES OF CHAPTERS 10 THROUGH 13 14.1 Steam power plants........................................................ 667 14.2 Gas cycles power plants................................................ 696 14.3 Advanced power plants................................................. 713 14.4 Heat pump plants........................................................... 719 CHAPTER 15 LINEAR THERMODYNAMICS OF IRREVERSIBLE PHENOMENA 15.1 Phenomenological approach.......................................... 743 15.2 Reciprocal Onsager and Casimir relation...................... 745 15.3 Prigogine s principle...................................................... 748 15.4 Thermoelectrical effects................................................ 750 15.5 Particular thermoelectrical effects................................. 758 15.6 Applications of thermoelectric effects........................... 765 BIBLIOGRAPHY.................................................................... 773 NOMENCLATURE................................................................. 779 INDEX...................................................................................... 787
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author	Borel, Lucien Favrat, Daniel
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dewey-tens	530 - Physics
discipline	Physik Energietechnik
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spelling	Borel, Lucien Verfasser aut Thermodynamics and energy systems analysis Boca Raton, Fl Taylor & Francis 2010 XII, 795 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Aus dem Franz. übers. Thermodynamik (DE-588)4059827-5 gnd rswk-swf Energietechnik (DE-588)4014725-3 gnd rswk-swf Thermodynamik (DE-588)4059827-5 s Energietechnik (DE-588)4014725-3 s DE-604 Favrat, Daniel Verfasser aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019008293&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis from energy to energy
spellingShingle	Borel, Lucien Favrat, Daniel Thermodynamics and energy systems analysis Thermodynamik (DE-588)4059827-5 gnd Energietechnik (DE-588)4014725-3 gnd
subject_GND	(DE-588)4059827-5 (DE-588)4014725-3
title	Thermodynamics and energy systems analysis
title_auth	Thermodynamics and energy systems analysis
title_exact_search	Thermodynamics and energy systems analysis
title_full	Thermodynamics and energy systems analysis
title_fullStr	Thermodynamics and energy systems analysis
title_full_unstemmed	Thermodynamics and energy systems analysis
title_short	Thermodynamics and energy systems analysis
title_sort	thermodynamics and energy systems analysis
topic	Thermodynamik (DE-588)4059827-5 gnd Energietechnik (DE-588)4014725-3 gnd
topic_facet	Thermodynamik Energietechnik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=019008293&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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