ContentChap.8Chap.1Introductionandbasic conceptGaspowercyclesChap.2Chap.9Energy,E-transfer,E-analysisVaporpowercyclesChap.3Chap.10PropertiesofpuresubstancesRefrigeration cyclesChap.4Chap.11Eanalysis ofclosedsystemsThermodynamic property relationsChap.5Chap.12Gas mixturesM,Eanalysis ofcontrol systemChap.6Chap.132nd law of thermodynamicsGas-vapormixtureandair conditioningChap.7Chap.14EntropyCompressibleflow1
Content 11 Chap.1 Introduction and basic concept Chap.2 Energy, E-transfer, E-analysis Chap.3 Properties of pure substances Chap.4 E analysis of closed systems Chap.5 M,E analysis of control system Chap.6 2nd law of thermodynamics Chap.7 Entropy Chap.8 Gas power cycles Chap.9 Vapor power cycles Chap.10 Refrigeration cycles Chap.11 Thermodynamic property relations Chap.12 Gas mixtures Chap.13 Gas-vapor mixture and air conditioning Chap.14 Compressible flow
ContentChap.8Chap.1Introductionandbasic conceptGas power cyclesChap.2Chap.9Energy,E-transfer,E-analysisVaporpowercyclesChap.3Chap.10Propertiesof puresubstancesRefrigeration cyclesChap.4Chap.11E analysis ofclosed systemsThermodynamicpropertyrelationsChap.5Chap.12Gas mixturesM,Eanalysis ofcontrol systemChap.6Chap.132nd law of thermodynamicsGas-vapormixtureandairconditioningChap.7Chap.14EntropyCompressible flowNozzlesServicepacksFundamental ThermodynamicProcesses12
Content 12 Chap.1 Introduction and basic concept Chap.2 Energy, E-transfer, E-analysis Chap.3 Properties of pure substances Chap.4 E analysis of closed systems Chap.5 M,E analysis of control system Chap.6 2nd law of thermodynamics Chap.7 Entropy Chap.8 Gas power cycles Chap.9 Vapor power cycles Chap.10 Refrigeration cycles Chap.11 Thermodynamic property relations Chap.12 Gas mixtures Chap.13 Gas-vapor mixture and air conditioning Chap.14 Compressible flow Service packs Nozzles Fundamental Thermodynamic Processes
Chap. 1 SummaryEnergyTransferEnergyRelationshipstoTransformationsmatterpropertiesThermodynamicsApplicationareasZerothLawThe FirstLawCarnot PrinciplesThe Second LawAScienceof EnergyTheIncreaseofetcEntropyPrincipleSystemClosed systemOpensystemThermodynamic SystemBoundary/SurroundingAdiabaticsystemIsolatedsystemAsetofpropertiesthatcompletelydescribestheconditionofthesystemStateEquilibrium:: Temperature(T), mechanical (P),phase, chemical State postulate: The state of a simple compressible system is completelyspecified bytwoindependentintensiveproperties.E.g.T(temperature)&v(specificvolume).orP&T (onephase)Isothermal,Isobaric,Path, CycleState 1 to State 2Isometric.lsoentropicQuasi-equilibrium:aprocessinwhichsystemremainsinfinitesimallyclosetoan equilibriumProcessstateafalltimecReversible processSteadyflowprocessIreversibleprocessExtensivepropertiesV,E,H,SIntensive properties T. P,pPropertiesK273.15Triplepoint=0.01C=273.16K1Pascal=1N/m^2Pgage=Pabs-PatmPvac=Patm - Pabs13
Chap. 1 Summary 13 Thermodynamics Energy Application areas A Science of Energy Thermodynamic System Zeroth Law The First Law The Second Law The Increase of Entropy Principle Carnot Principles etc Energy Transformations Relationships to matter properties Closed system Open system Isolated system Adiabatic system Intensive properties T, P, ρ Extensive properties V, E, H,S State State postulate: The state of a simple compressible system is completely specified by two independent, intensive properties. E.g. T(temperature)& ν (specific volume), or P&T (one phase) Equilibrium:: Temperature(T), mechanical (P), phase, chemical Path, Cycle Process State 1 to State 2 Steady flow process T K ℃ 273.15 Triple point=0.01℃=273.16K 1Pascal=1N/m^2 Pgage=Pabs - Patm Pvac=Patm - Pabs Transfer A set of properties that completely describes the condition of the system Properties Quasi-equilibrium: a process in which system remains infinitesimally close to an equilibrium state at all times. Isothermal, Isobaric, Isometric, Isoentropic Reversible process Irreversible process P System Boundary/Surrounding
Chapter1 Introduction and Basic ConceptsOverview of thermodynamics (1-1) Basic/important concepts: system, surroundings,boundary,closedsystem,opensystem,properties,states,equilibrium, process, cycle. etc.(1-2,1-3,1-4,1-5,1-6)Temperature and pressure (1-7.1-8.1-9)Problem-solving technique (1-10)
Chapter1 Introduction and Basic Concepts • Overview of thermodynamics (1-1) • Basic/important concepts: system, surroundings, boundary, closed system, open system, properties, states, equilibrium, process, cycle. etc.(1-2,1-3,1-4,1-5,1-6) • Temperature and pressure (1-7.1-8.1-9) • Problem-solving technique (1-10) 14
Chapter1 Introduction and Basic ConceptsOverview of thermodynamics (1-1)Basic/important concepts: system, surroundings,boundary,closedsystem,opensystem,properties,states,equilibrium, process, cycle. etc.(1-2,1-3,1-4,1-5,1-6)Temperature and pressure (1-7.1-8.1-9)Problem-solving technique (1-10)15
Chapter1 Introduction and Basic Concepts • Overview of thermodynamics (1-1) • Basic/important concepts: system, surroundings, boundary, closed system, open system, properties, states, equilibrium, process, cycle. etc.(1-2,1-3,1-4,1-5,1-6) • Temperature and pressure (1-7.1-8.1-9) • Problem-solving technique (1-10) 15