The major thrust of the computational analysis of turbomachinery to date has been the steady-state solution of isolated blades using mass-averaged inlet and exit conditions. Unsteady flows differ from the steady solution due to interaction of pressure waves and wakes between blade rows. To predict the actual complex flow conditions one must look at the time accurate solution of the entire turbomachine. Three quasi-three-dimensional Euler and thin layer Navier-Stokes equations are solved for unsteady turbomachinery flows
A linearized unsteady aerodynamic analysis for axial-flow turbomachinery blading is described in thi...
This report describes the development of an implicit, viscous method for the solution of the quasi-t...
A method for calculating unsteady flows in cascades is presented. The model, which is based on the l...
A quasi-three-dimensional rotor/stator analysis has been developed for blade-to-blade flows in turbo...
The Rai method of single-stage rotor/stator flow interaction is extended to handle multistage config...
Fluid dynamics of turbomachines are complicated due to aerodynamic interactions between rotors and s...
A quasi-three dimensional analysis was developed for unsteady rotor-stator interaction in turbomachi...
The application of the nonsteady Lax-Wendroff technique to problems with asymptotically periodic sol...
The numerical scheme presented belongs to a family of codes known as UNCLE (UNsteady Computation of ...
An unsteady, multiblock, Reynolds Averaged Navier Stokes solver based on Runge-Kutta scheme and Pseu...
Three-dimensional unsteady transonic flow through an axial turbomachine stage is described in terms ...
A numerical method of solution of the inviscid, compressible, two-dimensional unsteady flow on a bla...
A linearized Euler solver for calculating unsteady flows in turbomachinery blade rows due to both in...
Analytical and experimental research in the area of unsteady aerodynamics of turbomachinery has conv...
A quasi-three-dimensional analysis has been developed for unsteady rotor-stator interaction in turbo...
A linearized unsteady aerodynamic analysis for axial-flow turbomachinery blading is described in thi...
This report describes the development of an implicit, viscous method for the solution of the quasi-t...
A method for calculating unsteady flows in cascades is presented. The model, which is based on the l...
A quasi-three-dimensional rotor/stator analysis has been developed for blade-to-blade flows in turbo...
The Rai method of single-stage rotor/stator flow interaction is extended to handle multistage config...
Fluid dynamics of turbomachines are complicated due to aerodynamic interactions between rotors and s...
A quasi-three dimensional analysis was developed for unsteady rotor-stator interaction in turbomachi...
The application of the nonsteady Lax-Wendroff technique to problems with asymptotically periodic sol...
The numerical scheme presented belongs to a family of codes known as UNCLE (UNsteady Computation of ...
An unsteady, multiblock, Reynolds Averaged Navier Stokes solver based on Runge-Kutta scheme and Pseu...
Three-dimensional unsteady transonic flow through an axial turbomachine stage is described in terms ...
A numerical method of solution of the inviscid, compressible, two-dimensional unsteady flow on a bla...
A linearized Euler solver for calculating unsteady flows in turbomachinery blade rows due to both in...
Analytical and experimental research in the area of unsteady aerodynamics of turbomachinery has conv...
A quasi-three-dimensional analysis has been developed for unsteady rotor-stator interaction in turbo...
A linearized unsteady aerodynamic analysis for axial-flow turbomachinery blading is described in thi...
This report describes the development of an implicit, viscous method for the solution of the quasi-t...
A method for calculating unsteady flows in cascades is presented. The model, which is based on the l...