Part 1 Engineering Thermodynamics Chapter 1 Introduction 1.1 Energy 1.1.1 Definition of energy 1.1.2 Main forms of energy 1.1.3 Properties of energy 1.2 Energy source 1.2.1 Definition of energy sources 1.2.2 Classification of energy sources 1.2.3 Hydrogen energy and fuel cell technology 1.2.4 Advanced coal to chemicals industry (ACCI) 1.2.5 Solar photovoltaic technology 1.2.6 Distributed energy supply technology 1.3 Conversion and utilization of energy 1.4 Research contents of fundamentals of thermal engineering 1.4.1 Engineering thermodynamics 1.4.2 Heat transfer Exercises Answers Chapter 2 Basic concepts 2.1 Review: introduction 2.2 Introduction to the basic concept 2.3 Thermodynamic system 2.3.1 Important concepts and definitions 2.3.2 Classification of thermodynamic systems 2.4 Equilibrium state and state parameters 2.4.1 Basic quantities of state 2.4.2 Basic state parameters for description 2.5 Equation of state and state parameter coordinate diagram 2.6 Quasi-static process and reversible process 2.6.1 Quasi-equilibrium process (quasi-static process) 2.6.2 Engineering application of quasi-static process 2.6.3 Reversible process 2.7 Work and heat 2.7.1 Work and indicator diagram 2.7.2 Heat, entropy, and thermogram 2.7.3 Thermodynamic cycle 2.8 Summary Exercises Answers Chapter 3 First law of thermodynamics 3.1 Review: basic concepts 3.2 Introduction to the first law of thermodynamics 3.3 Storage energy of thermal system 3.4 The essence of the first law of thermodynamics 3.5 The expression of the first law of thermodynamics for closed system 3.5.1 Fundamental thermodynamic relation 3.5.2 Two expressions of the first law of thermodynamics for closed system 3.6 Stable flow energy equation of open system 3.6.1 Definition of stable flow
3.6.2 Push work and flow work 3.6.3 Energy equation 3.6.4 Technical work 3.6.5 Unsteady flow process 3.7 The application of stable flow energy equation 3.7.1 Simplification of stable flow energy equation 3.7.2 Power machine and compressor 3.7.3 Heat exchanger (heat exchange equipment) 3.7.4 Adiabatic throttling 3.8 Summary 3.8.1 Essence 3.8.2 Energy equation 3.8.3 Process quantity and state quantity Exercises Answers Chapter 4 Property and process of the ideal gas 4.1 Review: first law of thermodynamics 4.2 Introduction to property and process of the ideal gas 4.3 Ideal gas state equation 4.3.1 Ideal gas 4.3.2 Ideal gas state equation 4.4 Thermal capacity, thermodynamic energy, entropy, and enthalpy of ideal gases 4.4.1 Definition of thermal capacity 4.4.2 Specific heat capacity at constant pressure and specific heat capacity at constant volume of ideal gas 4.4.3 Calculation of the heat capacity of the ideal gas 4.4.4 Linear relationship of average heat capacity 4.5 Thermodynamics, entropy, and enthalpy of ideal gases 4.6 Ideal gas mixture 4.6.1 Partial pressure and Dalton』s law 4.6.2 Partial volume and partial volume law 4.6.3 Ingredients of mixed gases 4.6.4 Specific heat capacity of mixed gas 4.7 Purpose of thermal process of ideal gas 4.7.1 The basis for studying the thermal process 4.7.2 The process of constant volume 4.7.3 The process of constant pressure 4.7.4 The process of constant temperature 4.7.5 Adiabatic process 4.7.6 Polytropic process 4.8 Summary Exercises Answers Chapter 5 Second law of thermodynamics Chapter 6 Water vapor and wet air Chapter 7 Steam and gas power cycles Chapter 8 Refrigeration equipment and cycle Part 2 Heat Transfer Chapter 9 Basic ways of heat transfer Chapter 10 Thermalconduction Chapter 11 Convection heat transfer
Chapter 12 Radiative heat transfer Chapter 13 Heat transfer process and heat exchanger Appendix References
[