Add to ORKGExhaust plume shape simulation is studied, with the major effort directed toward computer program development and analytical support of various plume related problems associated with the space shuttle. Program development centered on (1) two-phase nozzle-exhaust plume flows, (2) plume impingement, and (3) support of exhaust plume simulation studies. Several studies were also conducted to provide full-scale data for defining exhaust plume simulation criteria. Model nozzles used in launch vehicle test were analyzed and compared to experimental calibration data
The radiation intensities are determined in the base region of the space shuttle due to solid partic...
An engineering model (EM) is under development that describes the propagation of a rocket exhaust pl...
Computer programs and engineering methods for calculating heating rates and forces in jet plume impi...
Results are summarized of various analyses of the exhaust plumes of the space shuttle. Specific topi...
Since exhaust plumes affect vehicle base environment (pressure and heat loads) and the orbiter vehic...
An analysis of experimental nozzle, exhaust plume, and exhaust plume impingement data is presented. ...
Variations of nozzle performance characteristics of the model nozzles used in the Space Shuttle IA12...
A summary is presented of the various documents that discuss and describe the computer programs and ...
An experimental program to determine the power-on aerodynamic flight characteristics of the booster ...
The inclusion of solid propellant plume flow field effects in analyses and design of the space vehic...
Results are presented for an experimental space shuttle stage separation plume impingement program c...
This paper details advances being made in the development of Reynolds-Averaged Navier-Stokes numeric...
Exhaust plume characteristics for rocket engines in conjunction with orbital workshop system
The initial research effort was an in-depth analysis of the shuttle main engine plumes in an effort ...
The effect of plume-induced flow separation and aspiration effects due to operation of both orbiter ...
The radiation intensities are determined in the base region of the space shuttle due to solid partic...
An engineering model (EM) is under development that describes the propagation of a rocket exhaust pl...
Computer programs and engineering methods for calculating heating rates and forces in jet plume impi...
Results are summarized of various analyses of the exhaust plumes of the space shuttle. Specific topi...
Since exhaust plumes affect vehicle base environment (pressure and heat loads) and the orbiter vehic...
An analysis of experimental nozzle, exhaust plume, and exhaust plume impingement data is presented. ...
Variations of nozzle performance characteristics of the model nozzles used in the Space Shuttle IA12...
A summary is presented of the various documents that discuss and describe the computer programs and ...
An experimental program to determine the power-on aerodynamic flight characteristics of the booster ...
The inclusion of solid propellant plume flow field effects in analyses and design of the space vehic...
Results are presented for an experimental space shuttle stage separation plume impingement program c...
This paper details advances being made in the development of Reynolds-Averaged Navier-Stokes numeric...
Exhaust plume characteristics for rocket engines in conjunction with orbital workshop system
The initial research effort was an in-depth analysis of the shuttle main engine plumes in an effort ...
The effect of plume-induced flow separation and aspiration effects due to operation of both orbiter ...
The radiation intensities are determined in the base region of the space shuttle due to solid partic...
An engineering model (EM) is under development that describes the propagation of a rocket exhaust pl...
Computer programs and engineering methods for calculating heating rates and forces in jet plume impi...