Book contents
- Frontmatter
- Contents
- Preface
- 1 Introduction to Gas-Turbine Engines
- 2 Overview of Turbomachinery Nomenclature
- 3 Aerothermodynamics of Turbomachines and Design-Related Topics
- 4 Energy Transfer between a Fluid and a Rotor
- 5 Dimensional Analysis, Maps, and Specific Speed
- 6 Radial-Equilibrium Theory
- 7 Polytropic (Small-Stage) Efficiency
- 8 Axial-Flow Turbines
- 9 Axial-Flow Compressors
- 10 Radial-Inflow Turbines
- 11 Centrifugal Compressors
- 12 Turbine-Compressor Matching
- References
- Index
8 - Axial-Flow Turbines
Published online by Cambridge University Press: 05 September 2012
- Frontmatter
- Contents
- Preface
- 1 Introduction to Gas-Turbine Engines
- 2 Overview of Turbomachinery Nomenclature
- 3 Aerothermodynamics of Turbomachines and Design-Related Topics
- 4 Energy Transfer between a Fluid and a Rotor
- 5 Dimensional Analysis, Maps, and Specific Speed
- 6 Radial-Equilibrium Theory
- 7 Polytropic (Small-Stage) Efficiency
- 8 Axial-Flow Turbines
- 9 Axial-Flow Compressors
- 10 Radial-Inflow Turbines
- 11 Centrifugal Compressors
- 12 Turbine-Compressor Matching
- References
- Index
Summary
Historically, the first axial turbine utilizing a compressible fluid was a steam turbine. Gas turbines were later developed for engineering applications where compactness is as important as performance. However, the successful use of this turbine type had to wait for advances in the area of compressor performance. The viability of gas turbines was demonstrated upon developing special alloys that possess high strength capabilities at exceedingly high turbine-inlet temperatures.
In the history of axial turbines, most of the experience relating to the behavior of steam-turbine blading was put to use in gas-turbine blading and vice versa. This holds true as long as the steam remains in the superheated phase and not in the wet-mixture zone, for the latter constitutes a two-phase flow with its own problems (e.g., liquid impingement forces and corrosion).
Stage Definition
Figure 8.1 shows an axial-flow turbine stage consisting of a stator that is followed by a rotor. Figure 8.2 shows a hypothetical cylinder that cuts through the rotor blades at a radius that is midway between the hub and tip radii. The unwrapped version of the cylindrical surface in this figure is that where the stage inlet and exit velocity triangles will be required. As has been the terminology in preceding chapters, a stator airfoil will be termed a vane, and the rotor cascade consists of blades. An axial-flow turbine operating under a high (inlet-over-exit) pressure ratio would normally consist of several stages, each of the type shown in Figure 8.1, in an arrangement where the annulus height is rising in the through-flow direction (Fig. 8.3).
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- Principles of Turbomachinery in Air-Breathing Engines , pp. 250 - 346Publisher: Cambridge University PressPrint publication year: 2006