An accessible and up-to-date discussion of foundational turbomachine technology In the newly revised second edition of Fundamentals of Turbomachinery: Theory and Applications, a team of distinguished researchers delivers an accessible introduction to turbomachinery, taking readers from a foundational understanding of the subject to application-ready knowledge. The book explores basic and advanced turbomachinery technologies, including fans, blowers, and compressors, as well as gas turbines, steam turbines, hydro turbines, wind turbines, and hybrid power generation, among others. The book also…mehr
An accessible and up-to-date discussion of foundational turbomachine technology In the newly revised second edition of Fundamentals of Turbomachinery: Theory and Applications, a team of distinguished researchers delivers an accessible introduction to turbomachinery, taking readers from a foundational understanding of the subject to application-ready knowledge. The book explores basic and advanced turbomachinery technologies, including fans, blowers, and compressors, as well as gas turbines, steam turbines, hydro turbines, wind turbines, and hybrid power generation, among others. The book also covers emerging technologies in the field, such as simulation technologies, computer-assisted design, security issues, and the impact of artificial intelligence (AI) technology. Readers will also find: * A straightforward introduction to turbomachinery that equips students to select turbomachines in practice confidently * Comprehensive explorations of hybrid power generation, including coverage of contemporary energy capture and storage technology * Practical discussions of hydroelectric turbines, including Pelton, Francis, and Kaplan turbines * Complete treatments of radial, mixed-flow, and axial flow pumps and compressors Perfect for undergraduate and graduate students with an interest in turbomachinery, Fundamentals of Turbomachinery: Theory and Applications will also benefit technical engineers, practicing researchers, and students at technical and junior colleges.
Ryoichi S. Amano, PhD, is an expert in turbomachinery and current energy technologies. He is the Director of the US Department of Energy funded Industrial Assessment Center for a leading institution covering the US Midwest Region. He is the Chief Editor for the International Journal of Rotating Machinery (Wiley). He also served as an associate editor for the ASME Trans-Journal of Energy Resources Technology and the Journal of Fluids Engineering. Dr. Amano's research achievements have been recognized through prestigious international awards, such as the AIAA Energy Systems Award, the ASME George Westinghouse Gold Medal, and the ASME Henry R. Worthington Medal. Dr. Amano is currently a Fellow of the Royal Aeronautical Society, a Fellow of ASME, a Fellow of ISEES, and a member of several other organizations. Dr. Amano has published four books and over 250 journal articles. William W. Peng was a professor emeritus of mechanical engineering at California State University, Fresno. He obtained a BSME degree from National Taiwan University in 1965, an MS and a PhD in Aeronautics & Astronautics from Stanford University in 1968, and a PhD in Aeronautics & Astronautics from Stanford University in 1973. After working for eight years in the private industry, both as a turbomachine manufacturer and user, he began his academic career at Texas A&M University in 1981. Then he moved to California State University in 1984, where he taught the senior turbomachinery and graduate gas turbine classes. He had extensive experience in the design and application of centrifugal pumps and fans/blowers, gained through his regular job and consulting work with various industries.
Inhaltsangabe
Preface xv Symbols xvii About the Companion Website xx 1 Introduction 1 1.1 Definition 1 1.2 Types of Turbomachines 1 1.3 Applications of Turbomachines 3 1.4 Performance Characteristics 5 1.5 Method of Analysis 7 1.6 Historical Evolution of Turbomachines 10 1.7 Organization of the Book 12 2 Basic Theories 15 2.1 Similitude 15 2.2 Energy Transfer in Turbomachines 27 3 Pumps 49 3.1 Centrifugal Pumps 49 3.2 Axial-Flow Pumps and Fans 88 4 Compressors 127 4.1 Centrifugal Fans, Blowers, and Compressors 127 4.2 Axial-Flow Compressors 173 5 Gas Turbines 195 5.1 Introduction 195 5.2 Radial-Inflow Gas Turbine 196 5.3 Thermodynamic Processes in Radial-Inflow Gas Turbine 199 5.4 Thermodynamics of Axial-Flow Turbine 202 5.5 Degree of Reaction 204 5.6 Preliminary Design Procedure for Turbine Stage 207 5.7 Determination of Turbine Stage Efficiency 209 5.8 Axial-Flow Turbine Performance 210 5.9 Compressor and Turbine Matching 214 5.10 Other Topics Related to Gas Turbine Engine 218 5.11 Applications of Gas Turbine Engines 221 5.12 Manufacturing Challenges on High-Temperature Gas Turbine Components 225 6 Steam Turbines 255 6.1 Introduction 255 6.2 Velocity-Compounded Stage 256 6.3 Classification of Steam Turbines 259 6.4 Steam Turbine Parameters and Performance 261 6.5 Cogeneration and Combined-Cycle Plants 266 7 Hydraulic Turbines 271 7.1 Introduction 271 7.2 Pelton Turbines 283 7.3 Francis Turbines 285 7.4 Kaplan Turbines 289 8 Wind Turbines 305 8.1 Introduction to Wind Power 305 8.2 Actuator Theory 307 8.3 Types of Wind Turbines 308 8.4 Wind Turbine Characteristics and Preliminary Design Analysis 310 8.5 Variable-Speed Performance of Wind Turbines 316 8.6 Wind Turbine Applications 318 8.7 Icing Problem 319 9 Artificial Intelligence as a New Frontier in Turbomachinery Design and Applications 329 9.1 Introduction 329 9.2 Machine Learning 330 9.3 Data Governance 334 9.4 Revolutionizing Turbomachinery with Machine Learning 338 9.5 Conclusions 340 10 Computational Fluid Dynamics in Turbomachinery 347 10.1 Introduction 347 10.2 CFD Application Advances in Turbomachinery 347 10.3 Fundamentals of CFD Methodologies in Turbomachinery 348 10.4 Applications of CFD in Turbomachinery Design and Analysis 352 A Review on Thermodynamics and Compressible Flow 365 A. 1 Thermodynamic Properties 365 A. 2 Thermodynamic Processes 365 A. 3 Other Thermoflow Properties 368 A. 4 Adiabatic Efficiencies of Flow Components 369 A. 5 Thermodynamic Cycles 372 A. 6 Thermodynamic Cycles of Gas Turbine Engines 372 A. 7 Rankine Cycles with Vapor 380 A. 8 Compressible Flow Through a Channel 381 A. 9 Normal Shock Waves 385 A. 10 Oblique Shock Waves 388 B Airfoil Characteristics 393 B. 1 Flow Over Objects 393 B. 2 Airfoil Geometry 394 B. 3 NACA Airfoil Specifications 394 C conversion Factors and Some constants 399 D Thermodynamic Properties of Air, Water, Superheated Steam, and CO 2 at STP (14.7 psia, 60 ¿ F) 401 E Internal Diameter of Standard Pipe of Schedule 40 403 Index 405
Preface xv Symbols xvii About the Companion Website xx 1 Introduction 1 1.1 Definition 1 1.2 Types of Turbomachines 1 1.3 Applications of Turbomachines 3 1.4 Performance Characteristics 5 1.5 Method of Analysis 7 1.6 Historical Evolution of Turbomachines 10 1.7 Organization of the Book 12 2 Basic Theories 15 2.1 Similitude 15 2.2 Energy Transfer in Turbomachines 27 3 Pumps 49 3.1 Centrifugal Pumps 49 3.2 Axial-Flow Pumps and Fans 88 4 Compressors 127 4.1 Centrifugal Fans, Blowers, and Compressors 127 4.2 Axial-Flow Compressors 173 5 Gas Turbines 195 5.1 Introduction 195 5.2 Radial-Inflow Gas Turbine 196 5.3 Thermodynamic Processes in Radial-Inflow Gas Turbine 199 5.4 Thermodynamics of Axial-Flow Turbine 202 5.5 Degree of Reaction 204 5.6 Preliminary Design Procedure for Turbine Stage 207 5.7 Determination of Turbine Stage Efficiency 209 5.8 Axial-Flow Turbine Performance 210 5.9 Compressor and Turbine Matching 214 5.10 Other Topics Related to Gas Turbine Engine 218 5.11 Applications of Gas Turbine Engines 221 5.12 Manufacturing Challenges on High-Temperature Gas Turbine Components 225 6 Steam Turbines 255 6.1 Introduction 255 6.2 Velocity-Compounded Stage 256 6.3 Classification of Steam Turbines 259 6.4 Steam Turbine Parameters and Performance 261 6.5 Cogeneration and Combined-Cycle Plants 266 7 Hydraulic Turbines 271 7.1 Introduction 271 7.2 Pelton Turbines 283 7.3 Francis Turbines 285 7.4 Kaplan Turbines 289 8 Wind Turbines 305 8.1 Introduction to Wind Power 305 8.2 Actuator Theory 307 8.3 Types of Wind Turbines 308 8.4 Wind Turbine Characteristics and Preliminary Design Analysis 310 8.5 Variable-Speed Performance of Wind Turbines 316 8.6 Wind Turbine Applications 318 8.7 Icing Problem 319 9 Artificial Intelligence as a New Frontier in Turbomachinery Design and Applications 329 9.1 Introduction 329 9.2 Machine Learning 330 9.3 Data Governance 334 9.4 Revolutionizing Turbomachinery with Machine Learning 338 9.5 Conclusions 340 10 Computational Fluid Dynamics in Turbomachinery 347 10.1 Introduction 347 10.2 CFD Application Advances in Turbomachinery 347 10.3 Fundamentals of CFD Methodologies in Turbomachinery 348 10.4 Applications of CFD in Turbomachinery Design and Analysis 352 A Review on Thermodynamics and Compressible Flow 365 A. 1 Thermodynamic Properties 365 A. 2 Thermodynamic Processes 365 A. 3 Other Thermoflow Properties 368 A. 4 Adiabatic Efficiencies of Flow Components 369 A. 5 Thermodynamic Cycles 372 A. 6 Thermodynamic Cycles of Gas Turbine Engines 372 A. 7 Rankine Cycles with Vapor 380 A. 8 Compressible Flow Through a Channel 381 A. 9 Normal Shock Waves 385 A. 10 Oblique Shock Waves 388 B Airfoil Characteristics 393 B. 1 Flow Over Objects 393 B. 2 Airfoil Geometry 394 B. 3 NACA Airfoil Specifications 394 C conversion Factors and Some constants 399 D Thermodynamic Properties of Air, Water, Superheated Steam, and CO 2 at STP (14.7 psia, 60 ¿ F) 401 E Internal Diameter of Standard Pipe of Schedule 40 403 Index 405
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