Add to ORKGThe Direct Simulation Monte Carlo method is currently being applied to study flowfields of small thrusters, including both the internal nozzle and the external plume flow. The DSMC method is employed because of its inherent ability to capture nonequilibrium effects and proper boundary physics in low-density flow that are not readily obtained by continuum methods. Accurate prediction of both the internal and external nozzle flow is important in determining plume expansion which, in turn, bears directly on impingement and contamination effects
As the capability of the space transportation vehicles (STV's) expand to meet the requirements for f...
During orbital maneuvers and proximity operations, a spacecraft fires its thrusters inducing plume i...
A new satellite philosophy, developed during the last two decades, suggests to make satellites small...
The direct simulation Monte-Carlo (DSMC) method was applied to the analysis of low-density nitrogen ...
Two different approaches, the direct simulation Monte Carlo (DSMC) method based on molecular gasdyna...
Measurements of Pitot pressure were made in the exit plane and plume of a low-density, nitrogen nozz...
Deleterious effects such as surface heating and turning moments can arise as a consequence of the im...
This study involves the modeling of small cold-gas (N2) thrusters nozzle and plume flows, their inte...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76044/1/AIAA-2006-989-393.pd
Simulations of plume impingement on a flat plate using molecular nitrogen were performed by employin...
Viewgraphs on nuclear thermal propulsion are presented. Topics covered include computational fluid d...
The following will outline the methodology and results of validating a coupled Method of Characteris...
Several important engineering gas flow problems fall within the transition Knudsen number regime, e...
Pitot pressures and flow angles are measured in the plume of a nozzle flowing nitrogen and exhaustin...
A space propulsion system is important for the normal mission operations of a spacecraft by adjustin...
As the capability of the space transportation vehicles (STV's) expand to meet the requirements for f...
During orbital maneuvers and proximity operations, a spacecraft fires its thrusters inducing plume i...
A new satellite philosophy, developed during the last two decades, suggests to make satellites small...
The direct simulation Monte-Carlo (DSMC) method was applied to the analysis of low-density nitrogen ...
Two different approaches, the direct simulation Monte Carlo (DSMC) method based on molecular gasdyna...
Measurements of Pitot pressure were made in the exit plane and plume of a low-density, nitrogen nozz...
Deleterious effects such as surface heating and turning moments can arise as a consequence of the im...
This study involves the modeling of small cold-gas (N2) thrusters nozzle and plume flows, their inte...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76044/1/AIAA-2006-989-393.pd
Simulations of plume impingement on a flat plate using molecular nitrogen were performed by employin...
Viewgraphs on nuclear thermal propulsion are presented. Topics covered include computational fluid d...
The following will outline the methodology and results of validating a coupled Method of Characteris...
Several important engineering gas flow problems fall within the transition Knudsen number regime, e...
Pitot pressures and flow angles are measured in the plume of a nozzle flowing nitrogen and exhaustin...
A space propulsion system is important for the normal mission operations of a spacecraft by adjustin...
As the capability of the space transportation vehicles (STV's) expand to meet the requirements for f...
During orbital maneuvers and proximity operations, a spacecraft fires its thrusters inducing plume i...
A new satellite philosophy, developed during the last two decades, suggests to make satellites small...