Computation of high-speed hydrodynamics requires high-fidelity simulation to resolve flow features involving transient flow, cavitation, tip vortex and multiple scales of unsteady fluctuations. One example of this type in aerospace is related to liquid-fueled rocket turbopump. Rocket turbopumps operate under severe conditions at very high rotational speeds typically at thousands of rpm. For example, the Shuttle orbiter low-pressure-fuel-turbopump creates transient flow features associated with reverse flows, tip clearance effects, secondary flows, vortex shedding, junction flows, and cavitation effects. Flow unsteadiness originating from the orbiter Low-Pressure-Fuel-Turbopump (LPFTP) inducer is one of the major contributors to the high fre...
Rapid acceleration of rocket engine turbopumps during start-up imparts significant transient effects...
The application is described of computational fluid dynamics (CFD) to a hypersonic propulsion system...
Knowledge of the dynamic performance of turbopumps is essential for the prediction of instabilities ...
Flow through pump components, such as an inducer and an impeller, is efficiently simulated by solvin...
The article reviews the main forms of flow-induced instabilities detected in the liquid propellant t...
Transient unbalance shifts were determined not to excite a rotor instability in the high pressure tu...
Current design of high performance turbopumps for rocket engines requires effective and robust analy...
The primary objective of this research is to support the design of liquid rocket systems for the Adv...
The lecture presents an overview of some recent results of the work carried out at Alta on the hydro...
Development of an incompressible Navier-Stokes solution procedure was performed for the analysis of ...
A modeling framework defined in the time-domain has been developed to characterize the steady state...
The objective of this viewgraph presentation is to enhance incompressible flow simulation capability...
An unsteady, multiblock, Reynolds Averaged Navier Stokes solver based on Runge-Kutta scheme and Pseu...
A numerical methodology for the simulation of cavitating flows in real complex geometries is present...
Turbomachinery is one of the most critical parts of pump-fed liquid rocket engines. For this reason,...
Rapid acceleration of rocket engine turbopumps during start-up imparts significant transient effects...
The application is described of computational fluid dynamics (CFD) to a hypersonic propulsion system...
Knowledge of the dynamic performance of turbopumps is essential for the prediction of instabilities ...
Flow through pump components, such as an inducer and an impeller, is efficiently simulated by solvin...
The article reviews the main forms of flow-induced instabilities detected in the liquid propellant t...
Transient unbalance shifts were determined not to excite a rotor instability in the high pressure tu...
Current design of high performance turbopumps for rocket engines requires effective and robust analy...
The primary objective of this research is to support the design of liquid rocket systems for the Adv...
The lecture presents an overview of some recent results of the work carried out at Alta on the hydro...
Development of an incompressible Navier-Stokes solution procedure was performed for the analysis of ...
A modeling framework defined in the time-domain has been developed to characterize the steady state...
The objective of this viewgraph presentation is to enhance incompressible flow simulation capability...
An unsteady, multiblock, Reynolds Averaged Navier Stokes solver based on Runge-Kutta scheme and Pseu...
A numerical methodology for the simulation of cavitating flows in real complex geometries is present...
Turbomachinery is one of the most critical parts of pump-fed liquid rocket engines. For this reason,...
Rapid acceleration of rocket engine turbopumps during start-up imparts significant transient effects...
The application is described of computational fluid dynamics (CFD) to a hypersonic propulsion system...
Knowledge of the dynamic performance of turbopumps is essential for the prediction of instabilities ...