Thrust optimized parabola rocket nozzles can develop restricted shock separation with the associated reattachement. It becomes even more complicated when the nozzles are deformed. Detailed numerical and experimental studies were carried out to investigate the expected flow pattern. The good agreement between numerics and experiment enables reliable predictions
Detached Eddy Simulation of restricted shock separated (RSS) flow has been performed to...
The performances of first-stage liquid rocket engines are highly dependent on the fluid dynamic beha...
The current paper discusses the exhaust flow features and the various unsteady flow separation chara...
Flow separation in rocket nozzles is undesirable because of its unsteady and nonsymmetric nature, wh...
An experimental investigation has been conducted to identify a flow condition in free shock separati...
An experimental investigation has been carried out on a subscale thrust optimized parabolic nozzle (...
Numerical simulations of overexpanded rocket nozzle flows show three kinds of flow separation struct...
The use of a thrust-optimized contour (TOC) for the supersonic nozzle in a rocket engine will inher...
Flow separation in nozzles of rocket engines is undesired because it can lead to dangerous lateral f...
During the transient phases of start-up and shut-down, liquid engine nozzles operate under severe ov...
As a part of an aerodynamics Ecole Polytechnique project, separation modes which occur in supersonic...
AbstractA three-part numerical investigation has been conducted in order to identify the flow separa...
Convergent-Divergent (C-D) nozzles are used in rocket engines to produce thrust as a reaction to the...
During the unsteady start-up and shut-down process in supersonic rocket engine nozzles high sideload...
A three-part numerical investigation has been conducted in order to identify the flow separation beh...
Detached Eddy Simulation of restricted shock separated (RSS) flow has been performed to...
The performances of first-stage liquid rocket engines are highly dependent on the fluid dynamic beha...
The current paper discusses the exhaust flow features and the various unsteady flow separation chara...
Flow separation in rocket nozzles is undesirable because of its unsteady and nonsymmetric nature, wh...
An experimental investigation has been conducted to identify a flow condition in free shock separati...
An experimental investigation has been carried out on a subscale thrust optimized parabolic nozzle (...
Numerical simulations of overexpanded rocket nozzle flows show three kinds of flow separation struct...
The use of a thrust-optimized contour (TOC) for the supersonic nozzle in a rocket engine will inher...
Flow separation in nozzles of rocket engines is undesired because it can lead to dangerous lateral f...
During the transient phases of start-up and shut-down, liquid engine nozzles operate under severe ov...
As a part of an aerodynamics Ecole Polytechnique project, separation modes which occur in supersonic...
AbstractA three-part numerical investigation has been conducted in order to identify the flow separa...
Convergent-Divergent (C-D) nozzles are used in rocket engines to produce thrust as a reaction to the...
During the unsteady start-up and shut-down process in supersonic rocket engine nozzles high sideload...
A three-part numerical investigation has been conducted in order to identify the flow separation beh...
Detached Eddy Simulation of restricted shock separated (RSS) flow has been performed to...
The performances of first-stage liquid rocket engines are highly dependent on the fluid dynamic beha...
The current paper discusses the exhaust flow features and the various unsteady flow separation chara...