Add to ORKGA method is presented for analysis of the compressible flow between the hub and the shroud of mixed-flow impellers of arbitrary design. Axial symmetry was assumed, but the forces in the meridional (hub to shroud) plane, which are derived from tangential pressure gradients, were taken into account. The method was applied to an experimental mixed-flow impeller. The analysis of the flow in the meridional plane of the impeller showed that the rotational forces, the blade curvature, and the hub-shroud profile can introduce severe velocity gradients along the hub and the shroud surfaces. Choked flow at the impeller inlet as determined by the analysis was verified by experimental results
Fluid-induced forces acting on a rotating impeller are known to cause rotor-dynamic problems in tur...
Fluid forces on a centrifugal impeller, whose rotating axis whirls with a constant speed, were calcu...
In this paper a three dimensional viscous flow field in a Centrifugal Impeller with backswept and le...
A method is presented for analysis of the compressible flow between the hub and the shroud of mixed-...
.-1 mtthod G presented for analgsis of the compres.vible jow Mceen the hub and the shroud of mixed-j...
Six numerical examples are presented for steady, two-dimensional, compressible, nonviscous flow in c...
The design of a centrifugal impeller with blades that are aerodynamically efficient, easy to manufac...
Two different types of analytic functions have been evolved to define the centrifugal impeller...
Detailed flow measurements made in a 1 metre diameter, shrouded, centrifugal (Ghost) impeller runnin...
Modifications A and B of impeller model MFI-1 and A, B, and C of impeller model MFI-2 were investiga...
High speed centrifugal rotating machinery with large vibrations caused by aerodynamic forces on impe...
An experimental investigation of flow between the shrouds of an impeller has shown that gross flow s...
Flow through mixed flow compressor stage was evaluated theoretically to understand internal flow beh...
Thesis (M.S.) Massachusetts Institute of Technology. Dept. of Mechanical Engineering, 1957.Bibliogra...
A three-dimensional method of stress analysis using finite element techniques is presented for dete...
Fluid-induced forces acting on a rotating impeller are known to cause rotor-dynamic problems in tur...
Fluid forces on a centrifugal impeller, whose rotating axis whirls with a constant speed, were calcu...
In this paper a three dimensional viscous flow field in a Centrifugal Impeller with backswept and le...
A method is presented for analysis of the compressible flow between the hub and the shroud of mixed-...
.-1 mtthod G presented for analgsis of the compres.vible jow Mceen the hub and the shroud of mixed-j...
Six numerical examples are presented for steady, two-dimensional, compressible, nonviscous flow in c...
The design of a centrifugal impeller with blades that are aerodynamically efficient, easy to manufac...
Two different types of analytic functions have been evolved to define the centrifugal impeller...
Detailed flow measurements made in a 1 metre diameter, shrouded, centrifugal (Ghost) impeller runnin...
Modifications A and B of impeller model MFI-1 and A, B, and C of impeller model MFI-2 were investiga...
High speed centrifugal rotating machinery with large vibrations caused by aerodynamic forces on impe...
An experimental investigation of flow between the shrouds of an impeller has shown that gross flow s...
Flow through mixed flow compressor stage was evaluated theoretically to understand internal flow beh...
Thesis (M.S.) Massachusetts Institute of Technology. Dept. of Mechanical Engineering, 1957.Bibliogra...
A three-dimensional method of stress analysis using finite element techniques is presented for dete...
Fluid-induced forces acting on a rotating impeller are known to cause rotor-dynamic problems in tur...
Fluid forces on a centrifugal impeller, whose rotating axis whirls with a constant speed, were calcu...
In this paper a three dimensional viscous flow field in a Centrifugal Impeller with backswept and le...