Add to ORKGA steady, three dimensional Navier-Stokes average passage computer code is used to analyze the flow through a compact radial turbine stage. The code is based upon the average passage set of equations for turbomachinery, whereby the flow fields for all passages in a given blade row are assumed to be identical while retaining their three-dimensionality. A stage solution is achieved by alternating between stator and rotor calculations, while coupling the two solutions by means of a set of axisymmetric body forces which model the absent blade row. Results from the stage calculation are compared with experimental data and with results from an isolated rotor solution having axisymmetric inlet flow quantities upstream of the vacated stator space. ...
A method for calculating turbine stage performance is described. The usefulness of the method is dem...
Off design aerodynamic performance of the solid version of a cooled radial inflow turbine is analyze...
The development of a design/analysis flow solver at NASA Lewis Research Center is discussed. The sol...
A steady, three-dimensional viscous average passage computer code is used to analyze the flow throug...
The three-dimensional inviscid DENTON code is used to analyze flow through a radial-inflow turbine r...
An experimental aerodynamic evaluation of three compact radial turbine builds was performed. Two rot...
An analysis of flow through a radial turbine rotor using the three-dimensional, thin-layer Navier-St...
A 3D Navier-Stokes investigation of a high pressure turbine rotor blade including tip clearance effe...
Results are shown for a three-dimensional Navier-Stokes analysis of both the flow and the surface he...
A brief description of the radial turbine and its analysis needs is followed by discussions of five ...
Application of a quasi-3D approach to the aerodynamic analysis of several radial turbine configurati...
A multiblock Navier-Stokes analysis code for turbomachinery has been modified to allow analysis of m...
The increased capability and accessibility of modern computers, coupled with increasingly sophistica...
Modeling enhancements made to a radial-inflow turbine conceptual design code are documented in this ...
Verification of proposed turbopump blading performance will involve evaluation of candidate blades i...
A method for calculating turbine stage performance is described. The usefulness of the method is dem...
Off design aerodynamic performance of the solid version of a cooled radial inflow turbine is analyze...
The development of a design/analysis flow solver at NASA Lewis Research Center is discussed. The sol...
A steady, three-dimensional viscous average passage computer code is used to analyze the flow throug...
The three-dimensional inviscid DENTON code is used to analyze flow through a radial-inflow turbine r...
An experimental aerodynamic evaluation of three compact radial turbine builds was performed. Two rot...
An analysis of flow through a radial turbine rotor using the three-dimensional, thin-layer Navier-St...
A 3D Navier-Stokes investigation of a high pressure turbine rotor blade including tip clearance effe...
Results are shown for a three-dimensional Navier-Stokes analysis of both the flow and the surface he...
A brief description of the radial turbine and its analysis needs is followed by discussions of five ...
Application of a quasi-3D approach to the aerodynamic analysis of several radial turbine configurati...
A multiblock Navier-Stokes analysis code for turbomachinery has been modified to allow analysis of m...
The increased capability and accessibility of modern computers, coupled with increasingly sophistica...
Modeling enhancements made to a radial-inflow turbine conceptual design code are documented in this ...
Verification of proposed turbopump blading performance will involve evaluation of candidate blades i...
A method for calculating turbine stage performance is described. The usefulness of the method is dem...
Off design aerodynamic performance of the solid version of a cooled radial inflow turbine is analyze...
The development of a design/analysis flow solver at NASA Lewis Research Center is discussed. The sol...