Add to ORKGThe analytical derivations of the non-axial thrust divergence losses for convergent-divergent nozzles are described as well as how these calculations are embodied in the Navy/NASA engine computer program. The convergent-divergent geometries considered are simple classic axisymmetric nozzles, two dimensional rectangular nozzles, and axisymmetric and two dimensional plug nozzles. A simple, traditional, inviscid mathematical approach is used to deduce the influence of the ineffectual non-axial thrust as a function of the nozzle exit divergence angle
An experiment was conducted at static conditions to determine the internal performance effects of no...
The classical one-dimensional inviscid theory does not reveal the complex flow features in a choked ...
An investigation was conducted of isolated convergent-divergent nozzles to determine the effect of s...
An analytical/numerical method has been developed to predict the static thrust performance of non-ax...
The nozzle is a critical component of any rocket engine because it transforms high pressure and high...
The nozzle is a critical component of any rocket engine because it transforms high pressure and high...
An experimental investigation of a series of four convergent-divergent exhaust nozzles was conducted...
An investigation was conducted in the static test facility of the Langley 16-foot transonic tunnel t...
The effects of geometric design parameters on two dimensional convergent-divergent nozzles were inve...
A three-dimensional subsonic aerodynamic panel code (VSAERO) was used to predict the effects of uppe...
The main goal of this work is to investigate how the angles of a convergent-divergent rocket nozzle ...
A study of a flow through a straight converging-diverging nozzle of simple design has been made prel...
<p>The need for low-thrust propulsion systems for small scale spacecraft is growing. Low thrust char...
An investigation has been conducted in the Langley 16-Foot Transonic Tunnel to determine the effects...
A variable geometry, low aspect ratio, nonaxisymmetric, two dimensional, convergent-divergent exhaus...
An experiment was conducted at static conditions to determine the internal performance effects of no...
The classical one-dimensional inviscid theory does not reveal the complex flow features in a choked ...
An investigation was conducted of isolated convergent-divergent nozzles to determine the effect of s...
An analytical/numerical method has been developed to predict the static thrust performance of non-ax...
The nozzle is a critical component of any rocket engine because it transforms high pressure and high...
The nozzle is a critical component of any rocket engine because it transforms high pressure and high...
An experimental investigation of a series of four convergent-divergent exhaust nozzles was conducted...
An investigation was conducted in the static test facility of the Langley 16-foot transonic tunnel t...
The effects of geometric design parameters on two dimensional convergent-divergent nozzles were inve...
A three-dimensional subsonic aerodynamic panel code (VSAERO) was used to predict the effects of uppe...
The main goal of this work is to investigate how the angles of a convergent-divergent rocket nozzle ...
A study of a flow through a straight converging-diverging nozzle of simple design has been made prel...
<p>The need for low-thrust propulsion systems for small scale spacecraft is growing. Low thrust char...
An investigation has been conducted in the Langley 16-Foot Transonic Tunnel to determine the effects...
A variable geometry, low aspect ratio, nonaxisymmetric, two dimensional, convergent-divergent exhaus...
An experiment was conducted at static conditions to determine the internal performance effects of no...
The classical one-dimensional inviscid theory does not reveal the complex flow features in a choked ...
An investigation was conducted of isolated convergent-divergent nozzles to determine the effect of s...