Fundamentals of heat engines /

"Fundamentals of Heat Engines comprehensively covers heat engine cycles with gradual increase in degree of complexity from ideal (theoretical) cycles followed by practical cycles then real cycles. To facilitate the transition from one type of cycle to another, additional material is introduced...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Ghojel, J. I. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken, NJ : Wiley-ASME, 2020.
Edición:First edition.
Colección:Wiley-ASME series in mechanical engineering
Temas:
Heat-engines.
Moteurs thermiques.
TECHNOLOGY & ENGINEERING / Mechanical.
Heat-engines
Acceso en línea:Texto completo
Tabla de Contenidos:
  • And Intercooling 294 10.9 Comparison of Irreversible Cycles 295 Problems 297 11 Practical Gas Turbine Cycles 299 11.1 Simple Single-Shaft Gas Turbine 299 11.2 Thermodynamic Properties of Air 300 11.3 Compression Process in the Compressor 301 11.4 Combustion Process 302 11.5 Expansion Process in the Turbine 314 Problems 316 12 Design-Point Calculations of Aviation Gas Turbines 317 12.1 Properties of Air 317 12.2 Simple Turbojet Engine 322 12.3 Performance of Turbojet Engine
  • Case Study 328 12.4 Two-Spool Unmixed-Flow Turbofan Engine 337 12.5 Performance of Two-Spool Unmixed-Flow Turbofan Engine
  • Case Study 350 12.6 Two-Spool Mixed-Flow Turbofan Engine 357 12.7 Performance of Two-Spool Mixed-Flow Turbofan Engine
  • Case Study 369 Problems 373 13 Design-Point Calculations of Industrial Gas Turbines 376 13.1 Single-Shaft
  • Gas Turbine Engine 376 13.2 Performance of Single-Shaft Gas Turbine Engine
  • Case Study 379 13.3 Two-Shaft Gas Turbine Engine 387 13.4 Performance of Two-Shaft Gas Turbine Engine
  • Case Study 390 Problems 394 14 Work-Transfer System in Gas Turbines 398 14.1 Axial-Flow Compressors 398 14.2 Radial-Flow Compressors 404 14.3 Axial-Flow Turbines 407 14.4 Radial-Flow Turbines 422 Problems 427 15 Off-Design Performance of Gas Turbines 429 15.1 Component-Matching Method 429 15.2 Thermo-Gas-Dynamic Matching Method 446 Problems 464 Bibliography 466 Appendix A Thermodynamic Tables 469 Appendix B Dynamics of the Reciprocating Mechanism 485 Appendix C Design Point Calculations
  • Reciprocating Engines 492 C.1 Engine Processes 492 Appendix D Equations for the Thermal Efficiency and Specific Work of Theoretical Gas

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