1. D 5 Numerical Example of the Approach to the Equilibrium Distribution 1D-6 1. D 6 Summary and Conclusions lD-11 PART 2- POWER AND PROPULSION CYCLES 2. A Gas Power and Propulsion Cycles 2. A.1 The Internal Combustion Engine(Otto Cycle) 2A-1 2. A 2 Diesel Cycle 2A-4 2. A3 Brayton Cycle 2. A4 Brayton Cycle for Jet Propulsion: the Ideal ramjet 2A-6 2. A.5 The Breguet Range Equation 2. A6 Performance of the Ideal ramjet 2A-11 2. A 7 Effect of departures from Ideal Behavior 2A-14 2.B Power Cycles with two-Phase media 2. B. 1 Behavior of Two-Phase Systems 2B-1 2. B2 Work and heat transfer with two-Phase media 2B-5 2. B. 3 The Carnot Cycle as a Two-Phase Power Cycle 2B-8 2. B 4 Rankine Power Cycles 2. B 5 Enhancements of, and Effect of Design Parameters on Rankine Cycles 2B-15 2. B 6 Combined Cycles in Stationary Gas Turbine for Power Production 2B-19 2. B. 7 Some Overall Comments on Thermodynamic Cycles 2B-21 2.C Introduction to Thermochemistry 2. C.1 Fuels 2C-1 2. C 2 Fuel-Air Ratio 2C-2 2.C. 3 Enthalpy of Formation 2C-2 2. C 4 First Law analysis of Reacting systems 2.C. 5 Adiabatic Flame Temperature 2C-7 PaRT 3-INTRODUCTION TO ENGINEERING HEAT TRANSFER 1.0 Heat Transfer modes HT-5 2.0 Conduction Heat Transfer HT-5 2. 1 Steady-State One-Dimensional Conduction HT-8 2.2 Thermal Resistance Circuits HT-10 2.3 Steady quasi-One- Dimensional heat flow in non- Planar geometry……………HT-14 3.0 Convective Heat transfer 3.1 The Reynolds analogy.…… HT-19 3.2 Combined Conduction and convection HT-24 3.3 Dimensionless Numbers and Analysis of results HT-29 4.0 Temperature Distributions in the Presence of Heat Sources 5.0 Heat Transfer From a Fin HT-35 6.0 Transient Heat Transfer( Convective Cooling or Heating IT-40 7.0 Some Considerations in Modeling Complex Physical Processes HT-42 8.0 Heat Exchangers HT-431.D.5 Numerical Example of the Approach to the Equilibrium Distribution 1D-6 1.D.6 Summary and Conclusions 1D-11 PART 2 - POWER AND PROPULSION CYCLES 2.A Gas Power and Propulsion Cycles 2.A.1 The Internal Combustion Engine (Otto Cycle) 2A-1 2.A.2 Diesel Cycle 2A-4 2.A.3 Brayton Cycle 2A-5 2.A.4 Brayton Cycle for Jet Propulsion: the Ideal Ramjet 2A-6 2.A.5 The Breguet Range Equation 2A-8 2.A.6 Performance of the Ideal Ramjet 2A-11 2.A.7 Effect of departures from Ideal Behavior 2A-14 2.B Power Cycles with two-Phase media 2.B.1Behavior of Two-Phase Systems 2B-1 2.B.2 Work and Heat Transfer with Two-Phase Media 2B-5 2.B.3 The Carnot Cycle as a Two-Phase Power Cycle 2B-8 2.B.4 Rankine Power Cycles 2B-13 2.B.5 Enhancements of, and Effect of Design Parameters on Rankine Cycles 2B-15 2.B.6 Combined Cycles in Stationary Gas Turbine for Power Production 2B-19 2.B.7 Some Overall Comments on Thermodynamic Cycles 2B-21 2.C Introduction to Thermochemistry 2.C.1 Fuels 2C-1 2.C.2 Fuel-Air Ratio 2C-2 2.C.3 Enthalpy of Formation 2C-2 2.C.4 First Law analysis of Reacting systems 2C-4 2.C.5 Adiabatic Flame Temperature 2C-7 PART 3 - INTRODUCTION TO ENGINEERING HEAT TRANSFER 1.0 Heat Transfer Modes.......................................................................................................... HT-5 2.0 Conduction Heat Transfer .................................................................................................. HT-5 2.1 Steady-State One-Dimensional Conduction.................................................................... HT-8 2.2 Thermal Resistance Circuits..........................................................................................HT-10 2.3 Steady Quasi-One-Dimensional Heat Flow in Non-Planar Geometry ........................... HT-14 3.0 Convective Heat Transfer..................................................................................................HT-18 3.1 The Reynolds Analogy..................................................................................................HT-19 3.2 Combined Conduction and Convection .........................................................................HT-24 3.3 Dimensionless Numbers and Analysis of Results ..........................................................HT-29 4.0 Temperature Distributions in the Presence of Heat Sources...............................................HT-32 5.0 Heat Transfer From a Fin ..................................................................................................HT-35 6.0 Transient Heat Transfer (Convective Cooling or Heating).................................................HT-40 7.0 Some Considerations in Modeling Complex Physical Processes........................................HT-42 8.0 Heat Exchangers ...............................................................................................................HT-43