ISBN: 978-1-260-14789-2 MHD: 1-260-14789-5
Appendix B: Turbomachinery Design Software Guide Appendix C: Answers to Selected Problems Index Preface to the Fourth Edition The three previous editions of Turbines, Compressors, and Fans have been used worldwide by undergraduate and graduate students, practicing engineers, and researchers in aerospace, power generation, and industrial process industries. The continued evolution of turbomachinery — driven by net-zero carbon targets, additive manufacturing, and digital twins — necessitated a thorough update. Turbines Compressors And Fans Fourth Edition
Let subscripts 1, 2, 3 denote rotor inlet, rotor outlet, and stator outlet respectively. For axial velocity constant ( C_x ) (free-vortex design assumed), the specific work input per stage is: [ \Delta h_0 = U (C_\theta 2 - C_\theta 1) ] where ( C_\theta ) is the tangential component. Using the change in relative tangential velocity: [ \Delta h_0 = U (W_\theta 1 - W_\theta 2) ] For axial velocity constant ( C_x ) (free-vortex
6.1 Fan Types – Propeller, Tube-Axial, Vane-Axial 6.2 Fan Laws and System Curves 6.3 Noise Generation and Control Part 3: Turbines Chapter 7: Axial Flow Turbines 7.1 Impulse vs. Reaction Stages 7.2 Velocity Triangles for Power Extraction 7.3 Blade Cooling – Film, Transpiration, and Impingement 7.4 Loss Correlations – Soderberg, Ainley & Mathieson, Kacker-Okapuu Ainley & Mathieson
12.1 Additively Manufactured Blades 12.2 Supercritical CO₂ Turbomachinery 12.3 Hydrogen Fuel Effects
8.1 Geometry and Volute Design 8.2 Thermodynamic Cycle Analysis 8.3 Applications in Turbochargers and Microturbines Part 4: Matching, Dynamics, and Testing Chapter 9: Turbine-Compressor Matching 9.1 Gas Turbine Engine Matching 9.2 Variable Geometry Solutions 9.3 Transient Operation
Outlet temperature from polytropic relation: [ \fracT_02T_01 = \left(\fracp_02p_01\right)^\frac\gamma-1\gamma \eta_p = (15)^\frac0.41.4 \times 0.89 \approx 15^0.321 = 2.39 ] So ( T_02 = 288 \times 2.39 = 688\ \textK ).