جزییات کتاب
Computational Fluid Dynamics (CFD) is now an essential and effective tool used in the design of all types of turbomachine, and this topic constitutes the main theme of this book. With over 50 years of experience in the field of aerodynamics, Professor Naixing Chen has developed a wide range of numerical methods covering almost the entire spectrum of turbomachinery applications. Moreover, he has also made significant contributions to practical experiments and real-life designs. The book focuses on rigorous mathematical derivation of the equations governing flow and detailed descriptions of the numerical methods used to solve the equations. Numerous applications of the methods to different types of turbomachine are given and, in many cases, the numerical results are compared to experimental measurements. These comparisons illustrate the strengths and weaknesses of the methods – a useful guide for readers. Lessons for the design of improved blading are also indicated after many applications. Presents real-world perspective to the past, present and future concern in turbomachinery Covers direct and inverse solutions with theoretical and practical aspects Demonstrates huge application background in China Supplementary instructional materials are available on the companion website Aerothermodynamics of Turbomachinery: Analysis and Design is ideal for senior undergraduates and graduates studying in the fields of mechanics, energy and power, and aerospace engineering; design engineers in the business of manufacturing compressors, steam and gas turbines; and research engineers and scientists working in the areas of fluid mechanics, aerodynamics, and heat transfer. Supplementary lecture materials for instructors are available at www.wiley.com/go/chenturboContent: Chapter 1 Introduction (pages 1–8): Chapter 2 Governing Equations Expressed in Non?Orthogonal Curvilinear Coordinates to Calculate 3D Viscous Fluid Flow in Turbomachinery (pages 9–24): Chapter 3 Introduction to Boundary Layer Theory (pages 25–35): Chapter 4 Numerical Solutions of Boundary Layer Differential Equations (pages 37–57): Chapter 5 Approximate Calculations Using Integral Boundary Layer Equations (pages 59–85): Chapter 6 Application of Boundary Layer Techniques to Turbomachinery (pages 87–101): Chapter 7 Stream Function Methods for Two? and Three?Dimensional Flow Computations in Turbomachinery (pages 103–143): Chapter 8 Pressure Correction Method for Two?Dimensional and Three?Dimensional Flow Computations in Turbomachinery (pages 145–198): Chapter 9 Time?Marching Method for Two?Dimensional and Three?Dimensional Flow Computations in Turbomachinery (pages 199–250): Chapter 10 Numerical Study on the Aerodynamic Design of Circumferential? and Axial?Leaned and Bowed Turbine Blades (pages 251–286): Chapter 11 Numerical Study on Three?Dimensional Flow Aerodynamics and Secondary Vortex Motions in Turbomachinery (pages 287–328): Chapter 12 Two?Dimensional Aerodynamic Inverse Problem Solution Study in Turbomachinery (pages 329–359): Chapter 13 Three?Dimensional Aerodynamic Inverse Problem Solution Study in Turbomachinery (pages 361–373): Chapter 14 Aerodynamic Design Optimization of Compressor and Turbine Blades (pages 375–427):