Vorliegende Sprache |
eng |
Hinweise auf parallele Ausgaben |
350757852 Buchausg. u.d.T.: ‡Schobeiri, Meinhard T.: Turbomachinery flow physics and dynamic performance |
ISBN |
978-3-642-24674-6 |
Name |
Schobeiri, Meinhard T. |
T I T E L |
Turbomachinery Flow Physics and Dynamic Performance |
Auflage |
2nd ed. 2012 |
Verlagsort |
Berlin, Heidelberg |
Verlag |
Springer Berlin Heidelberg |
Erscheinungsjahr |
2012 |
2012 |
Umfang |
Online-Ressource (XXVI, 725p. 438 illus., 39 illus. in color, digital) |
Reihe |
SpringerLink. Bücher |
Notiz / Fußnoten |
Description based upon print version of record |
Weiterer Inhalt |
Title; Preface; Contents; Nomenclature; Part I: Turbomachinery Flow Physics; Introduction, Turbomachinery, Applications, Types; Turbine; Compressor; Application of Turbomachines; Power Generation, Steam Turbines; Power Generation, Gas Turbines; Aircraft Gas Turbines; Diesel Engine Application; Classification of Turbomachines; Compressor Types; Turbine Types; Working Principle of a Turbomachine; References; Kinematics of Turbomachinery Fluid Motion; Material and Spatial Description of the Flow Field; Material Description; Jacobian Transformation Function and Its Material Derivative. Spatial DescriptionTranslation, Deformation, Rotation; Reynolds Transport Theorem; References; Differential Balances in Turbomachinery; Mass Flow Balance in Stationary Frame of Reference; Incompressibility Condition; Differential Momentum Balance in Stationary Frame of Reference; Relationship between Stress Tensor and Deformation Tensor; Special Case: Euler Equation of Motion; Some Discussions on Navier-Stokes Equations; Energy Balance in Stationary Frame of Reference; Mechanical Energy; Thermal Energy Balance; Total Energy; Entropy Balance. Differential Balances in Rotating Frame of ReferenceVelocity and Acceleration in Rotating Frame; Continuity Equation in Rotating Frame of Reference; Equation of Motion in Rotating Frame of Reference; Energy Equation in Rotating Frame of Reference; References; Integral Balances in Turbomachinery; Mass Flow Balance; Balance of Linear Momentum; Balance of Moment of Momentum; Balance of Energy; Energy Balance Special Case 1: Steady Flow; Energy Balance Special Case 2: Steady Flow, Constant Mass Flow; Application of Energy Balance to Turbomachinery Components. Application: Accelerated, Decelerated FlowsApplication: Combustion Chamber; Application: Turbine, Compressor; Irreversibility and Total Pressure Losses; Application of Second Law to Turbomachinery Components; Flow at High Subsonic and Transonic Mach Numbers; Density Changes with Mach Number, Critical State; Effect of Cross-Section Change on Mach Number; Compressible Flow through Channels with Constant Cross Section; The Normal Shock Wave Relations; The Oblique Shock Wave Relations; Detached Shock Wave; Prandtl-Meyer Expansion; References; Theory of Turbomachinery Stages. Energy Transfer in Turbomachinery StagesEnergy Transfer in Relative Systems; General Treatment of Turbine and Compressor Stages; Dimensionless Stage Parameters; Relation between Degree of Reaction and Blade Height for a Normal Stage Using Simple Radial Equilibrium; Effect of Degree of Reaction on the Stage Configuration; Effect of Stage Load Coefficient on Stage Power; Unified Description of a Turbomachinery Stage; Unified Description of Stage with Constant Mean Diameter; Generalized Dimensionless Stage Parameters; Special Cases; Case 1, Constant Mean Diameter. Case 2, Constant Mean Diameter and Meridional Velocity Ratio |
Titelhinweis |
Buchausg. u.d.T.: ‡Schobeiri, Meinhard T.: Turbomachinery flow physics and dynamic performance |
ISBN |
ISBN 978-3-642-24675-3 |
Klassifikation |
TGMF |
TGMF1 |
TEC009070 |
SCI085000 |
620.1064 |
621.4 |
TA357-359 |
ZL 5400 |
Kurzbeschreibung |
Meinhard T. Schobeiri |
2. Kurzbeschreibung |
With this second revised and extended edition, the readers have a solid source of information for designing state-of-the art turbomachinery components and systems at hand. Based on fundamental principles of turbomachinery thermo-fluid mechanics, numerous CFD based calculation methods are being developed to simulate the complex 3-dimensional, highly unsteady turbulent flow within turbine or compressor stages. The objective of this book is to present the fundamental principles of turbomachinery fluid-thermodynamic design process of turbine and compressor components, power generation and aircraft gas turbines in a unified and compact manner. The book provides senior undergraduate students, graduate students and engineers in the turbomachinery industry with a solid background of turbomachinery flow physics and performance fundamentals that are essential for understanding turbomachinery performance and flow complexes. While maintaining the unifying character of the book structure in this second revised and extended edition all chapters have undergone a rigorous update and enhancement. Accounting for the need of the turbomachinery community, three chapters have been added, that deal with computationally relevant aspects of turbomachinery design such as boundary layer transition, turbulence and boundary layer. |
1. Schlagwortkette |
Strömungsmaschine |
Strömungsmechanik |
1. Schlagwortkette ANZEIGE DER KETTE |
Strömungsmaschine -- Strömungsmechanik |
2. Schlagwortkette |
Strömungsmaschine |
Strömungsmechanik |
ANZEIGE DER KETTE |
Strömungsmaschine -- Strömungsmechanik |
SWB-Titel-Idn |
365269425 |
Signatur |
Springer E-Book |
Bemerkungen |
Elektronischer Volltext - Campuslizenz |
Elektronische Adresse |
$uhttp://dx.doi.org/10.1007/978-3-642-24675-3 |
Internetseite / Link |
Volltext |
Siehe auch |
Volltext |
Siehe auch |
Cover |