05332nam 2200649 450 991081255360332120220616011014.00-08-099983-2(CKB)2670000000594027(EBL)1948966(SSID)ssj0001466833(PQKBManifestationID)11967702(PQKBTitleCode)TC0001466833(PQKBWorkID)11504398(PQKB)11313031(Au-PeEL)EBL1948966(CaPaEBR)ebr11019351(CaONFJC)MIL726252(OCoLC)903118328(CaSebORM)9780444633736(MiAaPQ)EBC1948966(PPN)198668767(EXLCZ)99267000000059402720150218h20152015 uy 0engur|n|---|||||txtccrAdvanced thermodynamics for engineers[e-book] /Desmond E. Winterbone, Ali TuranSecond edition.Oxford, [England] ;Waltham, Massachusetts :Butterworth-Heinemann,2015.©20151 online resource (579 p.)Description based upon print version of record.0-444-63373-1 1-322-94970-0 Includes bibliographical references and index.Front Cover; Advanced Thermodynamics for Engineers; Copyright; Contents; Preface - First Edition; Preface - Second Edition; Structure of the Book; Notation; CHAPTER 1 - INTRODUCTION AND REVISION; 1.1 THERMODYNAMICS; 1.2 DEFINITIONS; 1.3 THERMAL EQUILIBRIUM AND THE ZEROTH LAW; 1.4 TEMPERATURE SCALES; 1.5 INTERACTIONS BETWEEN SYSTEMS AND SURROUNDINGS; 1.6 CONCLUDING REMARKS; 1.7 PROBLEMS; CHAPTER 2 - THE SECOND LAW AND EQUILIBRIUM; 2.1 THERMAL EFFICIENCY; 2.2 HEAT ENGINE; 2.3 SECOND LAW OF THERMODYNAMICS; 2.4 THE CONCEPT OF THE HEAT ENGINE: DERIVED BY ANALOGY WITH A HYDRAULIC DEVICE (TABLE 2.1)2.5 THE ABSOLUTE TEMPERATURE SCALE2.6 ENTROPY; 2.7 REPRESENTATION OF HEAT ENGINES; 2.8 REVERSIBILITY AND IRREVERSIBILITY (FIRST COROLLARY OF SECOND LAW); 2.9 EQUILIBRIUM; 2.10 HELMHOLTZ ENERGY (HELMHOLTZ FUNCTION); 2.11 GIBBS ENERGY; 2.12 GIBBS ENERGY AND PHASES; 2.13 EXAMPLES OF DIFFERENT FORMS OF EQUILIBRIUM MET IN THERMODYNAMICS; 2.14 CONCLUDING REMARKS; 2.15 PROBLEMS; CHAPTER 3 - ENGINE CYCLES AND THEIR EFFICIENCIES; 3.1 HEAT ENGINES; 3.2 AIR-STANDARD CYCLES; 3.3 GENERAL COMMENTS ON EFFICIENCIES; 3.4 REVERSED HEAT ENGINES; 3.5 CONCLUDING REMARKS; 3.6 PROBLEMSCHAPTER 4 - AVAILABILITY AND EXERGY4.1 DISPLACEMENT WORK; 4.2 AVAILABILITY; 4.3 EXAMPLES; 4.4 AVAILABLE AND NON-AVAILABLE ENERGY; 4.5 IRREVERSIBILITY; 4.6 GRAPHICAL REPRESENTATION OF AVAILABLE ENERGY AND IRREVERSIBILITY; 4.7 AVAILABILITY BALANCE FOR A CLOSED SYSTEM; 4.8 AVAILABILITY BALANCE FOR AN OPEN SYSTEM; 4.9 EXERGY; 4.10 THE VARIATION OF FLOW EXERGY FOR A PERFECT GAS; 4.11 CONCLUDING REMARKS; 4.12 PROBLEMS; CHAPTER 5 - RATIONAL EFFICIENCY OF POWER PLANT; 5.1 THE INFLUENCE OF FUEL PROPERTIES ON THERMAL EFFICIENCY; 5.2 RATIONAL EFFICIENCY; 5.3 RANKINE CYCLE; 5.4 EXAMPLES5.5 CONCLUDING REMARKS5.6 PROBLEMS; CHAPTER 6 - FINITE TIME (OR ENDOREVERSIBLE) THERMODYNAMICS; 6.1 GENERAL CONSIDERATIONS; 6.2 EFFICIENCY AT MAXIMUM POWER; 6.3 EFFICIENCY OF COMBINED CYCLE INTERNALLY REVERSIBLE HEAT ENGINES WHEN PRODUCING MAXIMUM POWER OUTPUT; 6.4 PRACTICAL SITUATIONS; 6.5 MORE COMPLEX EXAMPLE OF THE USE OF FTT; 6.6 CONCLUDING REMARKS; 6.7 PROBLEMS; CHAPTER 7 - GENERAL THERMODYNAMIC RELATIONSHIPS: FOR SINGLE COMPONENT SYSTEMS OR SYSTEMS OF CONSTANT COMPOSITION; 7.1 THE MAXWELL RELATIONSHIPS; 7.2 USES OF THE THERMODYNAMIC RELATIONSHIPS; 7.3 TDS RELATIONSHIPS7.4 RELATIONSHIPS BETWEEN SPECIFIC HEAT CAPACITIES7.5 THE CLAUSIUS-CLAPEYRON EQUATION; 7.6 CONCLUDING REMARKS; 7.7 PROBLEMS; CHAPTER 8 - EQUATIONS OF STATE; 8.1 IDEAL GAS LAW; 8.2 VAN DER WAALS EQUATION OF STATE; PROBLEM; 8.3 LAW OF CORRESPONDING STATES; 8.4 ISOTHERMS OR ISOBARS IN THE TWO-PHASE REGION; 8.5 CONCLUDING REMARKS; 8.6 PROBLEMS; CHAPTER 9 - THERMODYNAMIC PROPERTIES OF IDEAL GASES AND IDEAL GAS MIXTURES OF CONSTANT COMPOSITION; 9.1 MOLECULAR WEIGHTS; 9.2 STATE EQUATION FOR IDEAL GASES; 9.3 TABLES OF U(T) AND H(T) AGAINST T; 9.4 MIXTURES OF IDEAL GASES; 9.5 ENTROPY OF MIXTURES9.6 CONCLUDING REMARKSAdvanced Thermodynamics for Engineers, Second Edition introduces the basic concepts of thermodynamics and applies them to a wide range of technologies. Authors Desmond Winterbone and Ali Turan also include a detailed study of combustion to show how the chemical energy in a fuel is converted into thermal energy and emissions; analyze fuel cells to give an understanding of the direct conversion of chemical energy to electrical power; and provide a study of property relationships to enable more sophisticated analyses to be made of irreversible thermodynamics, allowing for new ways of efficientlyThermodynamicsThermodynamics.621.4021Winterbone D. E.16672Turan AliMiAaPQMiAaPQMiAaPQBOOK9910812553603321Advanced thermodynamics for engineers1423339UNINA