A new inverse inviscid method suitable for the design of rotating blade sections lying on an arbitrary axisymmetric stream-surface with varying streamtube width is presented. The geometry of the axisymmetric stream-surface and the streamtube width variation with meridional distance, the number of blades, the inlet flow conditions, the rotational speed and the suction and pressure side velocity distributions as functions of the normalized arc-length are given. The flow is considered irrotational in the absolute frame of reference and compressible. The output of the computation is the blade section that satisfies the above data. The method solves the flow equations on a (phi 1, psi) potential function-streamfunction plane for the velocity mod...
Given the current level of jet engine performance, improvement of the various turbomachinery compone...
A through-flow (hub-to-shroud) truly inverse method is proposed and described. It uses an imposition...
A solution method was developed for calculating compressible inviscid flow through a linear cascade ...
In the two papers on the 'Theory of Blade Design for Large Deflections' published in 1984, a new inv...
This dissertation summarizes a procedure to design blades with finite thickness in three dimensions....
The fluid behavior in the profile cascade of turbomachinery is often studied using direct computatio...
The boundary conditions corresponding to the design problem when the blades being simulated by the b...
An Inverse Design Method suitable for radial and mixed flow turbomachinery is presented. The codes a...
The flow in turbomachine blade passages is three-dimensional (3D), viscous and unsteady. Each of the...
A cascade design-method is presented which complements the meridional through-flow design procedure ...
This thesis describes the development of two inverse design methods, suitable for designing two- and...
Compressor and turbine blade design involves thermodynamical, aerodynamical and mechanical aspects, ...
AbstractA two-dimensional inviscid inverse method is developed, verified and applied in this paper. ...
The development and application of a three-dimensional (3D) inverse methodology is presented for the...
An inviscid model for complete axial flow turbomachinery is adopted, which replaces the blades with ...
Given the current level of jet engine performance, improvement of the various turbomachinery compone...
A through-flow (hub-to-shroud) truly inverse method is proposed and described. It uses an imposition...
A solution method was developed for calculating compressible inviscid flow through a linear cascade ...
In the two papers on the 'Theory of Blade Design for Large Deflections' published in 1984, a new inv...
This dissertation summarizes a procedure to design blades with finite thickness in three dimensions....
The fluid behavior in the profile cascade of turbomachinery is often studied using direct computatio...
The boundary conditions corresponding to the design problem when the blades being simulated by the b...
An Inverse Design Method suitable for radial and mixed flow turbomachinery is presented. The codes a...
The flow in turbomachine blade passages is three-dimensional (3D), viscous and unsteady. Each of the...
A cascade design-method is presented which complements the meridional through-flow design procedure ...
This thesis describes the development of two inverse design methods, suitable for designing two- and...
Compressor and turbine blade design involves thermodynamical, aerodynamical and mechanical aspects, ...
AbstractA two-dimensional inviscid inverse method is developed, verified and applied in this paper. ...
The development and application of a three-dimensional (3D) inverse methodology is presented for the...
An inviscid model for complete axial flow turbomachinery is adopted, which replaces the blades with ...
Given the current level of jet engine performance, improvement of the various turbomachinery compone...
A through-flow (hub-to-shroud) truly inverse method is proposed and described. It uses an imposition...
A solution method was developed for calculating compressible inviscid flow through a linear cascade ...