During over-expanded operation of rocket nozzles, which is defined to be when the exit pressure is greater than internal pressure over some part of the nozzle, the nozzle will experience a transverse forcing function due to the pressure differential across the nozzle wall. Overexpansion occurs during the nozzle start-up and shutdown transient, even in high-altitude engines, because most test facilities cannot completely reproduce the near-vacuum pressures at those altitudes. During this transient, the pressure differential moves axially down the nozzle as it becomes pressurized, but this differential is never perfectly symmetric circumferentially. The character of the forcing function is highly complex and defined by a series of restricted ...
The side loads that typically occur during the start-up and shut-down transients of rocket nozzles a...
The flow in all rocket engines operated on sea level under ambient conditions will separate inside ...
The flow separation within convergent–divergent rocket engine nozzles induces undesired side loads. ...
Separated flows in rocket nozzles due to overexpansion are known to lead to side loads on the nozzle...
Rocket booster engines generally must operate at a large variety of atmospheric conditions. To achie...
The current paper discusses the exhaust flow features and the various unsteady flow separation chara...
During the transient start-up of a rocket engine operating against an ambient pressure, the exhaust ...
Surveys of the fluctuating wall pressure were conducted on a sub-scale parabolic-contour rocket nozz...
The flow during transient start-up and shut down in all rocket engines operated on sea level under a...
Three-dimensional numerical investigations on the nozzle start-up side load physics were performed. ...
During the transient phases of start-up and shut-down, liquid engine nozzles operate under severe ov...
Two cold flow subscale nozzles were tested for side load characteristics during simulated nozzle sta...
TOP contoured nozzles, with large area-ratios, are commonly employed in rocket propulsion systems as...
An experimental study has been carried out to investigate the exhaust flow patterns from two types o...
The increasing demand for higher performance in rocketlaunchers promotes the development of nozzles ...
The side loads that typically occur during the start-up and shut-down transients of rocket nozzles a...
The flow in all rocket engines operated on sea level under ambient conditions will separate inside ...
The flow separation within convergent–divergent rocket engine nozzles induces undesired side loads. ...
Separated flows in rocket nozzles due to overexpansion are known to lead to side loads on the nozzle...
Rocket booster engines generally must operate at a large variety of atmospheric conditions. To achie...
The current paper discusses the exhaust flow features and the various unsteady flow separation chara...
During the transient start-up of a rocket engine operating against an ambient pressure, the exhaust ...
Surveys of the fluctuating wall pressure were conducted on a sub-scale parabolic-contour rocket nozz...
The flow during transient start-up and shut down in all rocket engines operated on sea level under a...
Three-dimensional numerical investigations on the nozzle start-up side load physics were performed. ...
During the transient phases of start-up and shut-down, liquid engine nozzles operate under severe ov...
Two cold flow subscale nozzles were tested for side load characteristics during simulated nozzle sta...
TOP contoured nozzles, with large area-ratios, are commonly employed in rocket propulsion systems as...
An experimental study has been carried out to investigate the exhaust flow patterns from two types o...
The increasing demand for higher performance in rocketlaunchers promotes the development of nozzles ...
The side loads that typically occur during the start-up and shut-down transients of rocket nozzles a...
The flow in all rocket engines operated on sea level under ambient conditions will separate inside ...
The flow separation within convergent–divergent rocket engine nozzles induces undesired side loads. ...