Fluid Dynamics and Heat Transfer of Turbomachinery

Over the past three decades, information in the aerospace and mechanical engineering fields in general and turbomachinery in particular has grown at an exponential rate. Fluid Dynamics and Heat Transfer of Turbomachinery is the first book, in one complete volume, to bring together the modern approaches and advances in the field, providing the most up–to–date, unified treatment available on basic principles, physical aspects of the aerothermal field, analysis, performance, theory, and computation of turbomachinery flow and heat transfer.
Presenting a unified approach to turbomachinery fluid dynamics and aerothermodynamics, the book concentrates on the fluid dynamic aspects of flows and thermodynamic considerations rather than on those related to materials, structure, or mechanical aspects. It covers the latest material and all types of turbomachinery used in modern–day aircraft, automotive, marine, spacecraft, power, and industrial applications; and there is an entire chapter devoted to modern approaches on computation of turbomachinery flow. An additional chapter on turbine cooling and heat transfer is unique for a turbomachinery book.
The author has undertaken a systematic approach, through more than three hundred illustrations, in developing the knowledge base. He uses analysis and data correlation in his discussion of most recent developments in this area, drawn from over nine hundred references and from research projects carried out by various organizations in the United States and abroad.
This book is extremely useful for anyone involved in the analysis, design, and testing of turbomachinery. For students, it can be used as a two–semester course of senior undergraduate or graduate study: the first semester dealing with the basic principles and analysis of turbomachinery, the second exploring three–dimensional viscid flows, computation, and heat transfer. Many sections are quite general and applicable to other areas in flu id dynamics and heat transfer. The book can also be used as a self–study guide to those who want to acquire this knowledge.
The ordered, meticulous, and unified approach of Fluid Dynamics and Heat Transfer of Turbomachinery should make the specialization of turbomachinery in aerospace and mechanical engineering much more accessible to students and professionals alike, in universities, industry, and government.
Turbomachinery theory, performance, and analysis made accessible with a new, unified approach
For the first time in nearly three decades, here is a completely up–to–date and unified approach to turbomachinery fluid dynamics and aerothermodynamics. Combining the latest advances, methods, and approaches in the field, Fluid Dynamics and Heat Transfer of Turbomachinery features: The most comprehensive and complete coverage of the fluid dynamics and aerothermodynamics of turbomachinery to date A spotlight on the fluid dynamic aspects of flows and the thermodynamic considerations for turbomachinery (rather than the structural or material aspects) A detailed, step–by–step presentation of the analytical and computational models involved, which allows the reader to easily construct a flowchart from which to operate Critical reviews of all the existing analytical and numerical models, highlighting the advantages and drawbacks of each Comprehensive coverage of turbine cooling and heat transfer, a unique feature for a book on turbomachinery An appendix of basic computation techniques, numerous tables, and listings of common terminology, abbreviations, and nomenclature
Broad in scope, yet concise, and drawing on the author′s teaching experience and research projects for government and industry, Fluid Dynamics and Heat Transfer of Turbomachinery explains and simplifies an increasingly complex field. It is an invaluable resource for undergraduate and graduate students in aerospace and mechanica l engineering specializing in turbomachinery, for research and design engineers, and for all professionals who are—or wish to be—at the cutting edge of this technology.

Spis treści:
Classification and Basic Concepts of Fluid Mechanics.
Fundamental Principles, Analysis, and Performance of Turbomachinery.
Cascade Inviscid Flows.
Three–Dimensional Inviscid and Quasi–Viscous Flow Field.
Computation of Turbomachinery Flows.
Two– and Three–Dimensional Viscous Effects and Losses.
Turbine Cooling and Heat Transfer.
Appendices.
Books of Turbomachinery.
References.
Index.

Nota biograficzna:
BUDUGUR LAKSHMINARAYANA is an Evan Pugh Professor of Aerospace Engineering, the highest honor bestowed on a faculty member at Pennsylvania State University. He is also the Director of the Center for Gas Turbines and Power. Dr. Lakshminarayana has more than thirty years of teaching, research, and consulting experience in turbomachinery aerodynamics, acoustics, and heat transfer; analytical, computational, and experimental fluid dynamics; aerospace propulsion; gas turbines; and turbulence modeling. He was instrumental in developing the Computational Fluid Dynamics Program at Penn State and directed this program from 1981 to 1987.
A Fellow of the American Institute of Aeronautics and Astronautics and the American Society of Mechanical Engineers, Dr. Lakshminarayana has received many awards and honors, including the 1994 AIAA Air Breathing Propulsion Award, 1989 AIAA Pendray Aerospace Literature Award, 1990 ASME Freeman Scholar Award, and Advisory Professorships from the Shanghai Jaio Tong University and the Chinese Academy of Sciences, Institute of Engineering Thermophysics. He was visiting faculty member at MIT, University of Cambridge, University of Aachen, Ecole Centrale de Lyon, Indian Institute of Science, and NASA Ames Research Center. He has been a consultant to the Prat t & Whitney Aircraft Division of United Technologies, Teledyne CAE Turbine Engine Division, the U.S. Navy, Allied Signal (Garrett) Company, Rolls Royce, General Motors Corporation, and Societe Europeene de Propulsion.

Okładka tylna:
Over the past three decades, information in the aerospace and mechanical engineering fields in general and turbomachinery in particular has grown at an exponential rate. Fluid Dynamics and Heat Transfer of Turbomachinery is the first book, in one complete volume, to bring together the modern approaches and advances in the field, providing the most up–to–date, unified treatment available on basic principles, physical aspects of the aerothermal field, analysis, performance, theory, and computation of turbomachinery flow and heat transfer.
Presenting a unified approach to turbomachinery fluid dynamics and aerothermodynamics, the book concentrates on the fluid dynamic aspects of flows and thermodynamic considerations rather than on those related to materials, structure, or mechanical aspects. It covers the latest material and all types of turbomachinery used in modern–day aircraft, automotive, marine, spacecraft, power, and industrial applications; and there is an entire chapter devoted to modern approaches on computation of turbomachinery flow. An additional chapter on turbine cooling and heat transfer is unique for a turbomachinery book.
The author has undertaken a systematic approach, through more than three hundred illustrations, in developing the knowledge base. He uses analysis and data correlation in his discussion of most recent developments in this area, drawn from over nine hundred references and from research projects carried out by various organizations in the United States and abroad.
This book is extremely useful for anyone involved in the analysis, design, and testing of turbomachinery. For students, it can be used as a two–semester course of senior undergraduate or g raduate study: the first semester dealing with the basic principles and analysis of turbomachinery, the second exploring three–dimensional viscid flows, computation, and heat transfer. Many sections are quite general and applicable to other areas in fluid dynamics and heat transfer. The book can also be used as a self–study guide to those who want to acquire this knowledge.
The ordered, meticulous, and unified approach of Fluid Dynamics and Heat Transfer of Turbomachinery should make the specialization of turbomachinery in aerospace and mechanical engineering much more accessible to students and professionals alike, in universities, industry, and government.
Turbomachinery theory, performance, and analysis made accessible with a new, unified approach
For the first time in nearly three decades, here is a completely up–to–date and unified approach to turbomachinery fluid dynamics and aerothermodynamics. Combining the latest advances, methods, and approaches in the field, Fluid Dynamics and Heat Transfer of Turbomachinery features: The most comprehensive and complete coverage of the fluid dynamics and aerothermodynamics of turbomachinery to date A spotlight on the fluid dynamic aspects of flows and the thermodynamic considerations for turbomachinery (rather than the structural or material aspects) A detailed, step–by–step presentation of the analytical and computational models involved, which allows the reader to easily construct a flowchart from which to operate Critical reviews of all the existing analytical and numerical models, highlighting the advantages and drawbacks of each Comprehensive coverage of turbine cooling and heat transfer, a unique feature for a book on turbomachinery An appendix of basic computation techniques, numerous tables, and listings of common terminology, abbreviations, and nomenclature
Broad in scope, yet concise, and drawing on the author′s teaching expe rience and research projects for government and industry, Fluid Dynamics and Heat Transfer of Turbomachinery explains and simplifies an increasingly complex field. It is an invaluable resource for undergraduate and graduate students in aerospace and mechanical engineering specializing in turbomachinery, for research and design engineers, and for all professionals who are—or wish to be—at the cutting edge of this technology.