Add to ORKGAn experimental study has been carried out to investigate the exhaust flow patterns from two types of rocket nozzles, each with a different expansion angle downstream of the last point of arc forming the throat. It is observed that this higher expansion angle results in the formation of an internal shock that influences the shock structure development considerably and also influences the side-load behavior in these nozzles significantly
Numerical simulations of overexpanded rocket nozzle flows show three kinds of flow separation struct...
During the unsteady start-up and shut-down process in supersonic rocket engine nozzles high sideload...
TOP contoured nozzles, with large area-ratios, are commonly employed in rocket propulsion systems as...
The plumes of ideal plane and axisymmetric nozzles as well as the plumes of existing rocket engines ...
The performance of liquid rocket engines is presently limited by the side loads that take place duri...
Separated flows in rocket nozzles due to overexpansion are known to lead to side loads on the nozzle...
The current paper discusses the exhaust flow features and the various unsteady flow separation chara...
Flow separation in nozzles of rocket engines is undesired because it can lead to dangerous lateral f...
The integration of the propulsion component plays a key role in the design process of future launche...
As a part of an aerodynamics Ecole Polytechnique project, separation modes which occur in supersonic...
In the case of high overexpansion, the exhaust jet of the supersonic nozzle of rocket engines separa...
During the transient phases of start-up and shut-down, liquid engine nozzles operate under severe ov...
Rocket booster engines generally must operate at a large variety of atmospheric conditions. To achie...
During over-expanded operation of rocket nozzles, which is defined to be when the exit pressure is g...
International audienceTruncated Ideal Contour nozzles operating at off-design conditions encounter o...
Numerical simulations of overexpanded rocket nozzle flows show three kinds of flow separation struct...
During the unsteady start-up and shut-down process in supersonic rocket engine nozzles high sideload...
TOP contoured nozzles, with large area-ratios, are commonly employed in rocket propulsion systems as...
The plumes of ideal plane and axisymmetric nozzles as well as the plumes of existing rocket engines ...
The performance of liquid rocket engines is presently limited by the side loads that take place duri...
Separated flows in rocket nozzles due to overexpansion are known to lead to side loads on the nozzle...
The current paper discusses the exhaust flow features and the various unsteady flow separation chara...
Flow separation in nozzles of rocket engines is undesired because it can lead to dangerous lateral f...
The integration of the propulsion component plays a key role in the design process of future launche...
As a part of an aerodynamics Ecole Polytechnique project, separation modes which occur in supersonic...
In the case of high overexpansion, the exhaust jet of the supersonic nozzle of rocket engines separa...
During the transient phases of start-up and shut-down, liquid engine nozzles operate under severe ov...
Rocket booster engines generally must operate at a large variety of atmospheric conditions. To achie...
During over-expanded operation of rocket nozzles, which is defined to be when the exit pressure is g...
International audienceTruncated Ideal Contour nozzles operating at off-design conditions encounter o...
Numerical simulations of overexpanded rocket nozzle flows show three kinds of flow separation struct...
During the unsteady start-up and shut-down process in supersonic rocket engine nozzles high sideload...
TOP contoured nozzles, with large area-ratios, are commonly employed in rocket propulsion systems as...