High Speed Aerodynamics and Jet Propulsion
MOORE, F. K.
High Speed Aerodynamics and Jet Propulsion [online] / F. K. Moore - New Jersey : Princeton University Press, 2016 - 1 resursă online (vol.) 646 p. (vol. 1) 892 p. (vol. 4) 582 p. - Princeton Legacy Library .
Vol. 1 : Aerodynamics of Turbines and Compressors. (HSA-1) Frontmatter Foreword
Preface
Contents Section A. Introduction Section B. Theory of Two-Dimensional Flow Through Cascades Section C. Three-Dimensional Flow in Turbomachines Section D. Experimental Techniques Section E. Flow in Cascades Section F. The Axial Compressor Stage Section G. The Supersonic Compressor Section H. Aerodynamic Design of Axial Flow Turbines Section I. The Radial Turbine Section J. The Centrifugal Compressor Section K. Blading Interaction Effects in Turbines Index
Vol. 4 : Theory of Laminar Flows. (HSA-4) Frontmatter Foreword Preface Contents A. Introduction B. Laminar flow theory Chapter 1. The Navier-Stokes Equations for a Viscous Heat-Conducting Compressible Fluid
Chapter 2. Review of Viscous Incompressible Fluids
Chapter 3. Introductory Discussion of the Navier-Stokes Equations for a Compressible Fluid
Chapter 4. Laminar Boundary Layers in Compressible Fluids
C. Three-Dimensional Laminar Boundary Layers Chapter 1. General Considerations
Chapter 2. Illustrative Solutions
Chapter 3. Special Problems
D. Theory of Time-Dependent Laminar Flows Chapter 1. Time-Dependent Solutions of the Navier-Stokes Equations
Chapter 2. The Time-Dependent Laminar Boundary Layer
E. Hypersonic Boundary Layer Theory
F. Laminar Flows with Body Forces Chapter 1. General Considerations
Chapter 2. Free Convection. The External Problem
Chapter 3. Thermal Instability
Chapter 4. Natural Convection. The Internal Problem
Chapter 5. Unsteady Flows with Body Forces
Chapter 6. Hydrodynamic Stability
Chapter 7. Magnetohydrodynamics
G. Stability of Laminar Flows Chapter 1. Introduction
Chapter 2. The Stability Theory Dealing with Transverse Wave Disturbances of Parallel Flows
Chapter 3. Extensions and Applications of the Stability Theory of Transverse Wave Disturbances
Chapter 4. Stability Theory Dealing with Longitudinal Vortex-Type Disturbances
Chapter 5. Behavior Subsequent to the Onset of Infinitesimal Disturbances
Index
Design and performance of gas turbine power plants Frontmatter Foreword
Preface
Preface to Volume XI
Contents Part One. Introduction Section A. General Considerations Part Two. Combustion Chamber Design
Section B. Requirements and Processes Section C. Experimental Techniques Section D. Fuel Injection Section E. Flame Stabilization Section F. Mixing Processes Section G. Fuels for Aircraft Gas Turbine Engines Section H. Combustion Chamber Development Part Three. Mechanical and Metallurgical Aspects Section I. Mechanics of Materials for Gas Turbine Applications Section J. Flutter Problems in Gas Turbines Part Four. Turbine Power Plants Section K. Performance Index
9781400885985 (vol. 1). 9781400875375 (vol. 4) 9781400875603
DE-Inginerie mecanică
resursă online
High Speed Aerodynamics and Jet Propulsion [online] / F. K. Moore - New Jersey : Princeton University Press, 2016 - 1 resursă online (vol.) 646 p. (vol. 1) 892 p. (vol. 4) 582 p. - Princeton Legacy Library .
Vol. 1 : Aerodynamics of Turbines and Compressors. (HSA-1) Frontmatter Foreword
Preface
Contents Section A. Introduction Section B. Theory of Two-Dimensional Flow Through Cascades Section C. Three-Dimensional Flow in Turbomachines Section D. Experimental Techniques Section E. Flow in Cascades Section F. The Axial Compressor Stage Section G. The Supersonic Compressor Section H. Aerodynamic Design of Axial Flow Turbines Section I. The Radial Turbine Section J. The Centrifugal Compressor Section K. Blading Interaction Effects in Turbines Index
Vol. 4 : Theory of Laminar Flows. (HSA-4) Frontmatter Foreword Preface Contents A. Introduction B. Laminar flow theory Chapter 1. The Navier-Stokes Equations for a Viscous Heat-Conducting Compressible Fluid
Chapter 2. Review of Viscous Incompressible Fluids
Chapter 3. Introductory Discussion of the Navier-Stokes Equations for a Compressible Fluid
Chapter 4. Laminar Boundary Layers in Compressible Fluids
C. Three-Dimensional Laminar Boundary Layers Chapter 1. General Considerations
Chapter 2. Illustrative Solutions
Chapter 3. Special Problems
D. Theory of Time-Dependent Laminar Flows Chapter 1. Time-Dependent Solutions of the Navier-Stokes Equations
Chapter 2. The Time-Dependent Laminar Boundary Layer
E. Hypersonic Boundary Layer Theory
F. Laminar Flows with Body Forces Chapter 1. General Considerations
Chapter 2. Free Convection. The External Problem
Chapter 3. Thermal Instability
Chapter 4. Natural Convection. The Internal Problem
Chapter 5. Unsteady Flows with Body Forces
Chapter 6. Hydrodynamic Stability
Chapter 7. Magnetohydrodynamics
G. Stability of Laminar Flows Chapter 1. Introduction
Chapter 2. The Stability Theory Dealing with Transverse Wave Disturbances of Parallel Flows
Chapter 3. Extensions and Applications of the Stability Theory of Transverse Wave Disturbances
Chapter 4. Stability Theory Dealing with Longitudinal Vortex-Type Disturbances
Chapter 5. Behavior Subsequent to the Onset of Infinitesimal Disturbances
Index
Design and performance of gas turbine power plants Frontmatter Foreword
Preface
Preface to Volume XI
Contents Part One. Introduction Section A. General Considerations Part Two. Combustion Chamber Design
Section B. Requirements and Processes Section C. Experimental Techniques Section D. Fuel Injection Section E. Flame Stabilization Section F. Mixing Processes Section G. Fuels for Aircraft Gas Turbine Engines Section H. Combustion Chamber Development Part Three. Mechanical and Metallurgical Aspects Section I. Mechanics of Materials for Gas Turbine Applications Section J. Flutter Problems in Gas Turbines Part Four. Turbine Power Plants Section K. Performance Index
9781400885985 (vol. 1). 9781400875375 (vol. 4) 9781400875603
DE-Inginerie mecanică
resursă online