10.1 Component Efficiencies
10.2 Simple Irreversible Cycle
10.3 Irreversible Cycle with Heat Exchange (Regenerative Irreversible Cycle)
10.4 Irreversible Cycle with Reheat
10.5 Irreversible Cycle with Intercooling
10.6 Irreversible Cycle with Heat Exchange and Reheat
10.7 Irreversible Cycle with Heat Exchange and Intercooling
10.8 Irreversible Cycle with Heat Exchange, Reheat, and Intercooling
10.9 Comparison of Irreversible Cycles
11 Practical Gas Turbine Cycles
11.1 Simple Single‐Shaft Gas Turbine
11.2 Thermodynamic Properties of Air
11.3 Compression Process in the Compressor
11.4 Combustion Process
11.5 Expansion Process in the Turbine
12 Design‐Point Calculations of Aviation Gas Turbines
12.1 Properties of Air
12.2 Simple Turbojet Engine
12.3 Performance of Turbojet Engine – Case Study
12.4 Two‐Spool Unmixed‐Flow Turbofan Engine
12.5 Performance of Two‐Spool Unmixed‐Flow Turbofan Engine – Case Study
12.6 Two‐Spool Mixed‐Flow Turbofan Engine
12.7 Performance of Two‐Spool Mixed‐Flow Turbofan Engine – Case Study
13 Design‐Point Calculations of Industrial Gas Turbines
13.1 Single‐Shaft Gas Turbine Engine
13.2 Performance of Single‐Shaft Gas Turbine Engine – Case Study
13.3 Two‐Shaft Gas Turbine Engine
13.4 Performance of Two‐Shaft Gas Turbine Engine – Case Study
14 Work‐Transfer System in Gas Turbines
14.1 Axial‐Flow Compressors
14.2 Radial‐Flow Compressors
14.3 Axial‐Flow Turbines
14.4 Radial‐Flow Turbines
15 Off‐Design Performance of Gas Turbines
15.1 Component‐Matching Method
15.2 Thermo‐Gas‐Dynamic Matching Method
9
Bibliography
10
Appendix A Thermodynamic Tables
11
Appendix B Dynamics of the Reciprocating Mechanism
12
Appendix C Design Point Calculations – Reciprocating Engines
C.1. Engine Processes
13
Appendix D Equations for the Thermal Efficiency and Specific Work of Theoretical Gas Turbine Cycles
Nomenclature
14
Index
15
End User License Agreement
List of Tables
1 Chapter 1Table 1.1 Equations of motion for linear and rotational motions.Table 1.2 Symbols, units, and dimensions of common physical quantities.Table 1.3 Coefficients of Eq. (1.99) for the calculation of of combustion produ...Table 1.4 Coefficients of Eq. (1.100) for the calculation of of air.
2 Chapter 2Table 2.1 Typical carbon, hydrogen, and sulfur mass contents of common fuels.Table 2.2 Composition of air.Table 2.3 Volume composition of some gaseous fuels.Table 2.4 Typical carbon, hydrogen, oxygen, and sulfur mass contents of common l...Table 2.5 Stoichiometric reactions of the elements of a liquid or solid fuel.Table 2.6 Coefficientsan in Eq. (2.38) for specific heats at constant pressure o...Table 2.7 Coefficientsan in Eq. (2.47) for internal energies of air and combusti...Table 2.8 Composition and heating values of some liquid, gaseous, and solid fuel...Table 2.9 Coefficientsan in Eq. (2.62) for air and combustion products (T = 300–...Table 2.10 Adiabatic flame temperature of octane (C8H18) vs. relative air‐fuel r...Table 2.11 Entropy change data for combustion of methane.Table 2.12 Equilibrium constant

for the reaction aA + bB ⇄ cC + dD...Table 2.13 Equilibrium constants for dissociation reactions in products with six...Table 2.14 Equilibrium constants for dissociation reactions in products with 11 ...Table 2.15 Equilibrium constants for dissociation reactions in products with 18 ...Table 2.16 Adiabatic flame temperature for frozen and equilibrium compositions o... 3 Chapter 5Table 5.1 Typical values of the parameters of the compression process in real en...Table 5.2 Typical values of the parameters of the expansion process in real engi...Table