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Published nearly a decade ago, Fluid Machinery: Performance, Analysis, and Design quickly became popular with students, professors, and professionals because of its comprehensive and comprehensible introduction to the fluid mechanics of turbomachinery. Renamed to reflect its wider scope and reorganized content, this second edition provides a more logical flow of information that will enhance understanding. In particular, it presents a consistent notation within and across chapters, updating material when appropriate. Although the authors do account for the astounding growth in the field of computational fluid dynamics that has occurred since publication of the first edition, this text emphasizes traditional "one-dimensional" layout and points the way toward using CFD for turbomachinery design and analysis.





Presents Extensive Examples and Design Exercises to Illustrate Performance Parameters and Machine Geometry





By focusing on the preliminary design and selection of equipment to meet performance specifications, the authors promote a basic yet thorough understanding of the subject. They cover topics including gas and hydraulic turbines and equipment that is widely used in the industry, such as compressors, blowers, fans, and pumps.
This book promotes a pragmatic approach to turbomachinery application and design, examining a realistic array of difficulties and conflicting requirements. The authors use examples from a broad range of industrial applications to illustrate the generality of the basic design approach and the common ground of seemingly diverse areas of application.
With a variety of illustrations, examples, and exercises that emphasize real-world industrial applications, this book not only prepares students to face industrial applications with confidence, but also supplies professionals with a compact and easy-to-use reference.

Fluid Machinery: Application, Selection, and Design, Second Edition

1 INTRODUCTION





1.1 Preliminary Remarks





1.2 Thermodynamics and Fluid Mechanics





1.3 Units and Nomenclature





1.4 Thermodynamic Variables and Properties





1.5 Reversible Processes, Irreversible Processes and Efficiency With Perfect Gases





1.6 Equations of Fluid Mechanics and Thermodynamics





1.7 Turbomachines





1.8 Classifications





1.9 Turbomachine Performance and Rating





1.10 Rating and Performance For Liquid Pumps





1.11 Compressible Flow Machines





1.12 Typical Performance Curves





1.13 Machine and System

















2 DIMENSIONAL ANALYSIS AND SIMILARITY FOR TURBOMACHINERY





2.1 Dimensionality





2.2 Similitude





2.3 Dimensionless Numbers and -Products





2.4 Dimensionless Performance Variables and Similarity for Turbomachinery





2.5 Compressible Flow Similarity





2.6 Specific Speed and Specific Diameter





2.7 Correlations of Machine Type and the Cordier Diagrams

















3 SCALING LAWS, LIMITATIONS, AND CAVITATION





3.1 Scaling of Performance





3.2 Limitations and Corrections for Reynolds Number and Surface Roughness





3.3 Compressibility (Mach Number) Limitations and Corrections





3.4 Cavitation Avoidance in Pumps (and Turbines)

















4 TURBOMACHINERY NOISE





4.1 Introductory Remarks





4.2 Sound And Noise





4.3 Fan Noise





4.4 Sound Power and Sound Pressure





4.5 Outdoor Propagation





4.6 Indoor Propagation





4.7 A Note on Pump Noise





4.8 Compressor and Turbine Noise

















5 PERFORMANCE ESTIMATION, MACHINE SELECTION AND PRELIMINARY DESIGN





5.1 Preliminary Remarks





5.1 Cordier Diagram and Machine Type





5.3 Estimating the Efficiency





5.4 Preliminary Machine Selection





5.5 Fan Selection From Vendor Data





5.6 Pump Selection From Vendor Data





5.7 Selection of Variable Pitch And Variable Inlet Vane Fans

















6 FUNDAMENTALS OF FLOW IN TURBOMACHINERY





6.1 Preliminary Remarks





6.2 Blade and Cascade Geometry





6.3 Velocity Diagrams





6.4 Energy (Work) Transfer In A Rotor





6.5 Work, Head, Pressure, and Efficiency





6.6 Preliminary Design of an Axial Fan





6.7 Diffusion Considerations





6.8 Diffusion Limits in Axial Flow Machines





6.9 Preliminary Design and Diffusion Limits in Radial Flow

















7 VELOCITY DIAGRAMS AND FLOWPATH LAYOUT





7.1 Preliminary Remarks





7.2 Velocity Diagram Parameters For Axial Flow Machines





7.3 Axial Flow Pumps, Fans, and Compressors





7.4 Axial Flow Turbines





7.5 Hub - Tip Variations For Axial Flow Machines





7.6 Radial And Mixed Flow





7.7 A Mixed Flow Example





7.8 Radial Flow Layout : Centrifugal Blowers





7.9 Radial Flow Layout : A Centrifugal Pump





7.10 Radial Flow Layout : Turbocharger Components





7.11 Diffusers And Volutes





7.12 Axial Flow Diffusers





7.13 Radial Flow : Volute Diffusers

















8 TWO-DIMENSIONAL CASCADES





8.1 One, Two, And Three Dimensional Flow Models





8.2 Axial Flow Cascades : Basic Geometry and Simple Flow Models





8.3 Systematic Investigation Axial Cascade Flow





8.4 Correlations for Cascade Performance





8.5 Blade Number and Low-Solidity Cascades





8.6 Diffusion Limitations and Selection of Solidity





8.7 Losses in Diffusing Cascades





8.8 Axial Flow Turbine Cascades





8.9 Radial Flow Cascades





8.10 Solidity Of Centrifugal Cascades

















9 QUASI-THREE-DIMENSIONAL FLOW





9.1 The Quasi-Three-Dimensional Flow Model





9.2 Simple Radial Equilibrium for Axial Flow Machines





9.3 Approximate Solutions for Simple Radial Equilibrium





9.4 Extension to Non-Uniform Inflow





9.5 Quasi-Three-Dimensional Model For Centrifugal Machines





9.6 Simpler Solutions

















10 ADVANCED TOPICS IN PERFORMANCE AND DESIGN





10.1 Introduction





10.2 Freestream Turbulence Intensity





10.3 Secondary And Three-Dimensional Flow Effect





10.4 Low Reynolds Number Effects In Axial Flow Cascades





10.5 Stall, Surge, And Loss Of Stability





10.6 Computational Fluid Dynamics In Turbomachinery

















Appendices