Fundamentals of engineering thermodynamics:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
Wiley
2000
|
| Ausgabe: | 4. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 918 S. graph. Darst. |
| ISBN: | 0471317136 |
Internformat
MARC
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Datensatz im Suchindex
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| adam_text | FUNDAMENTALS OF ENGINEERING THERMODYNAMICS MICHAEL J. MORAN THE OHIO
STATE UNIVERSITY HOWARD N. SHAPIRO IOWA STATE UNIVERSITY OF SCIENCE AND
TECHNOLOGY COTJCPDI, GETTING STARTED: INTRODUCTORY CONCEPTS AND
DEFINITIONS 1 1.1 USING THERMODYNAMICS 1 1.2 DEFINING SYSTEMS 1 1.3
DESCRIBING SYSTEMS AND THEIR BEHAVIOR 5 1.4 MEASURING MASS, LENGTH,
TIME, AND FORCE 8 1.5 TWO MEASURABLE PROPERTIES: SPECIFIC VOLUME AND
PRESSURE 12 1.6 MEASURING TEMPERATURE 16 1.7 ENGINEERING DESIGN AND
ANALYSIS 22 1.8 HOW TO USE THIS BOOK EFFECTIVELY 26 1.9 CHAPTER SUMMARY
AND STUDY GUIDE 27 ENERGY AND THE FIRST LAW OF THERMODYNAMICS 35 2.1
REVIEWING MECHANICAL CONCEPTS OF ENERGY 35 2.2 EVALUATING ENERGY
TRANSFER BY WORK 39 2.3 ENERGY OF A SYSTEM 50 2.4 ENERGY TRANSFER BY
HEAT 53 2.5 ENERGY ACCOUNTING: ENERGY BALANCE FOR CLOSED SYSTEMS 57 2.6
ENERGY ANALYSIS OF CYCLES 69 2.7 CHAPTER SUMMARY AND STUDY GUIDE 72
EVALUATING PROPERTIES 83 3.1 FIXING THE STATE 83 EVALUATING PROPERTIES:
GENERAL CONSIDERATIONS 84 3.2 P-V-T RELATION 84 3.3 RETRIEVING
THERMODYNAMIC PROPERTIES 91 3.4 GENERALIZED COMPRESSIBILITY CHART 110
EVALUATING PROPERTIES USING THE IDEAL GAS MODEL 116 3.5 IDEAL GAS MODEL
117 3.6 INTERNAL ENERGY, ENTHALPY, AND SPECIFIC HEATS OF IDEAL GASES 119
3.7 EVALUATING AM AND AH OF IDEAL GASES 122 3.8 POLYTROPIC PROCESS OF AN
IDEAL GAS 130 3.9 CHAPTER SUMMARY AND STUDY GUIDE 132 XI 1 2 3 XII
CONTENTS 4 CONTROL VOLUME ENERGY ANALYSIS 142 4.1 CONSERVATION OF MASS
FOR A CONTROL VOLUME 142 4.2 CONSERVATION OF ENERGY FOR A CONTROL VOLUME
150 4.3 ANALYSIS OF CONTROL VOLUMES AT STEADY STATE 155 4.4 TRANSIENT
ANALYSIS 176 4.5 CHAPTER SUMMARY AND STUDY GUIDE 187 5 6 7 THE SECOND
LAW OF THERMODYNAMICS 203 5.1 USING THE SECOND LAW 203 5.2 STATEMENTS OF
THE SECOND LAW 206 5.3 IDENTIFYING IRREVERSIBILITIES 209 5.4 APPLYING
THE SECOND LAW TO THERMODYNAMIC CYCLES 213 5.5 DEFINING THE KELVIN
TEMPERATURE SCALE 219 5.6 MAXIMUM PERFORMANCE MEASURES FOR CYCLES
OPERATING BETWEEN TWO RESERVOIRS 221 5.7 CARNOT CYCLE 227 5.8 CHAPTER
SUMMARY AND STUDY GUIDE 230 USING ENTROPY 239 6.1 CLAUSIUS INEQUALITY
239 6.2 DEFINING ENTROPY CHANGE 241 6.3 RETRIEVING ENTROPY DATA 242 6.4
ENTROPY CHANGE IN INTERNALLY REVERSIBLE PROCESSES 250 6.5 ENTROPY
BALANCE FOR CLOSED SYSTEMS 253 6.6 ENTROPY RATE BALANCE FOR CONTROL
VOLUMES 265 6.7 ISENTROPIC PROCESSES 274 6.8 ISENTROPIC EFFICIENCIES OF
TURBINES, NOZZLES, COMPRESSORS, AND PUMPS 281 6.9 HEAT TRANSFER AND WORK
IN INTERNALLY REVERSIBLE, STEADY-STATE FLOW PROCESSES 289 6.10 CHAPTER
SUMMARY AND STUDY GUIDE 293 EXERGY (AVAILABIL1TY) ANALYSIS 313 7.1
INTRODUCING EXERGY 313 7.2 DEFINING EXERGY 314 7.3 CLOSED SYSTEM EXERGY
BALANCE 324 7.4 FLOW EXERGY 332 7.5 EXERGY RATE BALANCE FOR CONTROL
VOLUMES 335 7.6 EXERGETIC (SECOND LAW) EFFICIENCY 346 7.7
THERMOECONOMICS 351 7.8 CHAPTER SUMMARY AND STUDY GUIDE 358 CONTENTS
XIII VAPOR POWER SYSTEMS 372 8.1 MODELING VAPOR POWER SYSTEMS 372 8.2
ANALYZING VAPOR POWER SYSTEMS*RANKLINE CYCLE 374 8.3 IMPROVING
PERFORMANCE*SUPERHEAT AND REHEAT 387 8.4 IMPROVING
PERFORMANCE*REGENERATIVE VAPOR POWER CYCLE 393 8.5 OTHER VAPOR CYCLE
ASPECTS 404 8.6 CASE STUDY: EXERGY ACCOUNTING OF A VAPOR POWER PLANT 406
8.7 CHAPTER SUMMARY AND STUDY GUIDE 414 GAS POWER SYSTEMS 425 INTERNAL
COMBUSTION ENGINES 425 9.1 ENGINE TERMINOLOGY 425 9.2 AIR-STANDARD OTTO
CYCLE 428 9.3 AIR-STANDARD DIESEL CYCLE 433 9.4 AIR-STANDARD DUAL CYCLE
437 GAS TURBINE POWER PLANTS 440 9.5 MODELING GAS TURBINE POWER PLANTS
440 9.6 AIR-STANDARD BRAYTON CYCLE 441 9.7 REGENERATIVE GAS TURBINES 452
9.8 REGENERATIVE GAS TURBINES WITH REHEAT AND INTERCOOLING 457 9.9 GAS
TURBINES FOR AIRCRAFT PROPULSION 468 9.10 COMBINED GAS TURBINE*VAPOR
POWER CYCLE 473 9.11 ERICSSON AND STIRLING CYCLES 479 COMPRESSIBLE FLOW
THROUGH NOZZLES AND DIFFUSERS 480 9.12 COMPRESSIBLE FLOW PRELIMINARIES
480 9.13 ONE-DIMENSIONAL STEADY FLOW IN NOZZLES AND DIFFUSERS 485 9.14
FLOW IN NOZZLES AND DIFFUSERS OF IDEAL GASES WITH CONSTANT SPECIFIC
HEATS 491 9.15 CHAPTER SUMMARY AND STUDY GUIDE 499 REFRIGERATION AND
HEAT PUMP SYSTEMS 514 10.1 VAPOR REFRIGERATION SYSTEMS 514 10.2
ANALYZING VAPOR-COMPRESSION REFRIGERATION SYSTEMS 517 10.3 REFRIGERANT
PROPERTIES 526 10.4 CASCADE AND MULTISTAGE VAPOR-COMPRESSION SYSTEMS 527
10.5 ABSORPTION REFRIGERATION 529 10.6 HEAT PUMP SYSTEMS 531 10.7 GAS
REFRIGERATION SYSTEMS 534 10.8 CHAPTER SUMMARY AND STUDY GUIDE 541 8 9
IE XIV CONTENTS THERMODYNAMIC RELATIONS 551 11.1 USING EQUATIONS OF
STATE 551 11.2 IMPORTANT MATHEMATICAL RELATIONS 558 11.3 DEVELOPING
PROPERTY RELATIONS 562 11.4 EVALUATING CHANGES IN ENTROPY, INTERNAL
ENERGY, AND ENTHALPY 568 11.5 OTHER THERMODYNAMIC RELATIONS 578 11.6
CONSTRUCTING TABLES OF THERMODYNAMIC PROPERTIES 584 11.7 GENERALIZED
CHARTS FOR ENTHALPY AND ENTROPY 589 11.8 P-V-T RELATIONS FOR GAS
MIXTURES 595 11.9 ANALYZING MULTICOMPONENT SYSTEMS 600 11.10 CHAPTER
SUMMARY AND STUDY GUIDE 613 IDEAL GAS MIXTURES AND PSYCHROMETRICS 625
IDEAL GAS MIXTURES: GENERAL CONSIDERATIONS 625 12.1 DESCRIBING MIXTURE
COMPOSITION 625 12.2 RELATING P, V, AND T FOR IDEAL GAS MIXTURES 630
12.3 EVALUATING U, H, S AND SPECIFIC HEATS 632 12.4 ANALYZING SYSTEMS
INVOLVING MIXTURES 633 PSYCHROMETRIC APPLICATIONS 647 12.5 INTRODUCING
PSYCHROMETRIC PRINCIPLES 647 12.6 APPLYING MASS AND ENERGY BALANCES TO
AIR-CONDITIONING SYSTEMS 655 12.7 ADIABATIC-SATURATION AND WET-BULB
TEMPERATURES 660 12.8 PSYCHROMETRIC CHARTS 664 12.9 ANALYZING
AIR-CONDITIONING PROCESSES 667 12.10 CHAPTER SUMMARY AND STUDY GUIDE 683
REACT1NG MIXTURES AND COMBUSTION 696 COMBUSTION FUNDAMENTALS 696 13.1
INTRODUCING COMBUSTION 696 13.2 CONSERVATION OF ENERGY*REACTING SYSTEMS
705 13.3 DETERMINING THE ADIABATIC FLAME TEMPERATURE 718 13.4 ABSOLUTE
ENTROPY AND THE THIRD LAW OF THERMODYNAMICS 722 13.5 FUEL CELLS 731
CHEMICAL EXERGY 732 13.6 INTRODUCING CHEMICAL EXERGY 732 13.7 STANDARD
CHEMICAL EXERGY 736 13.8 EXERGY SUMMARY 741 13.9 EXERGETIC (SECOND LAW)
EFFICIENCIES OF REACTING SYSTEMS 744 13.10 CHAPTER SUMMARY AND STUDY
GUIDE 748 N B CONTENTS XV CHEMICAL AND PHASE EQUILIBRIUM 760 EQUILIBRIUM
FUNDAMENTALS 760 14.1 INTRODUCING EQUILIBRIUM CRITERIA 760 CHEMICAL
EQUILIBRIUM 765 14.2 EQUATION OF REACTION EQUILIBRIUM 765 14.3
CALCULATING EQUILIBRIUM COMPOSITIONS 767 14.4 FURTHER EXAMPLES OF THE
USE OF THE EQUILIBRIUM CONSTANT 776 PHASE EQUILIBRIUM 786 14.5
EQUILIBRIUM BETWEEN TWO PHASES OF A PURE SUBSTANCE 786 14.6 EQUILIBRIUM
OF MULTICOMPONENT, MULTIPHASE SYSTEMS 788 14.7 CHAPTER SUMMARY AND STUDY
GUIDE 793 APPENDIX TABLES, FIGURES, AND CHARTS 802 INDEX TO TABLES IN SI
UNITS 802 INDEX TO TABLES IN ENGLISH UNITS 850 INDEX TO FIGURES AND
CHARTS 898 ANSWERS TO SELECTED PROBLEMS 913 U A INDEX 918
|
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| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Energietechnik |
| edition | 4. ed. |
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| isbn | 0471317136 |
| language | English |
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| spelling | Moran, Michael J. Verfasser aut Fundamentals of engineering thermodynamics Michael J. Moran ; Howard N. Shapiro 4. ed. New York [u.a.] Wiley 2000 XV, 918 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Termodinamica larpcal Thermodynamics Thermodynamik (DE-588)4059827-5 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Thermodynamik (DE-588)4059827-5 s DE-604 Shapiro, Howard N. Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008887679&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Moran, Michael J. Shapiro, Howard N. Fundamentals of engineering thermodynamics Termodinamica larpcal Thermodynamics Thermodynamik (DE-588)4059827-5 gnd |
| subject_GND | (DE-588)4059827-5 (DE-588)4123623-3 |
| title | Fundamentals of engineering thermodynamics |
| title_auth | Fundamentals of engineering thermodynamics |
| title_exact_search | Fundamentals of engineering thermodynamics |
| title_full | Fundamentals of engineering thermodynamics Michael J. Moran ; Howard N. Shapiro |
| title_fullStr | Fundamentals of engineering thermodynamics Michael J. Moran ; Howard N. Shapiro |
| title_full_unstemmed | Fundamentals of engineering thermodynamics Michael J. Moran ; Howard N. Shapiro |
| title_short | Fundamentals of engineering thermodynamics |
| title_sort | fundamentals of engineering thermodynamics |
| topic | Termodinamica larpcal Thermodynamics Thermodynamik (DE-588)4059827-5 gnd |
| topic_facet | Termodinamica Thermodynamics Thermodynamik Lehrbuch |
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