Add to ORKGThe objectives of this study are to conduct a unified computational analysis for computing the design parameters such as axial thrust, convective and radiative wall heat fluxes for liquid rocket engine nozzles, so as to develop a computational strategy for computing those design parameters through parametric investigations. The computational methodology is based on a multidimensional, finite-volume, turbulent, chemically reacting, radiating, unstructured-grid, and pressure-based formulation, with grid refinement capabilities. Systematic parametric studies on effects of wail boundary conditions, combustion chemistry, radiation coupling, computational cell shape, and grid refinement were performed and assessed. Comparisons of the computed axi...
The prediction of wall heat flux at the nozzle throat is of paramount importance in liquid rocket e...
A numerical model for the three dimensional thermal analysis of rocket thrust chambers and nozzles h...
The relative weight of convective and radiative wall heat transfer in liquid rocket engine thrust ch...
The objective of this study is to conduct a unified computational analysis for computing design para...
Reacting flow and thermal fields around the injector critically affect the performance and life of l...
The prediction of wall heat flux at the nozzle throat is of paramount importance in liquid rocket en...
Reacting flow and thermal fields around the injector critically affect the performance and life of l...
In liquid rocket engines, wall heat transfer analyses are of primary importance for the thrust chamb...
In an effort to improve the current solutions in the design and analysis of liquid propulsive engine...
A three-dimensional computational model of an experimental rectangular combustion chamber was develo...
An advanced engineering model has been developed to aid in the analysis and design of hydrogen/oxyge...
A parametric study of the heat transfer rate along the wall of a rocket nozzle is presented. The inf...
Three-dimensional numerical investigations on the nozzle start-up side load physics were performed. ...
A series of Reynolds-averaged Navier-Stokes calculations were employed to study the performance of r...
Rocket engines eject their gases through propulsion nozzles which are sub-jected to considerable the...
The prediction of wall heat flux at the nozzle throat is of paramount importance in liquid rocket e...
A numerical model for the three dimensional thermal analysis of rocket thrust chambers and nozzles h...
The relative weight of convective and radiative wall heat transfer in liquid rocket engine thrust ch...
The objective of this study is to conduct a unified computational analysis for computing design para...
Reacting flow and thermal fields around the injector critically affect the performance and life of l...
The prediction of wall heat flux at the nozzle throat is of paramount importance in liquid rocket en...
Reacting flow and thermal fields around the injector critically affect the performance and life of l...
In liquid rocket engines, wall heat transfer analyses are of primary importance for the thrust chamb...
In an effort to improve the current solutions in the design and analysis of liquid propulsive engine...
A three-dimensional computational model of an experimental rectangular combustion chamber was develo...
An advanced engineering model has been developed to aid in the analysis and design of hydrogen/oxyge...
A parametric study of the heat transfer rate along the wall of a rocket nozzle is presented. The inf...
Three-dimensional numerical investigations on the nozzle start-up side load physics were performed. ...
A series of Reynolds-averaged Navier-Stokes calculations were employed to study the performance of r...
Rocket engines eject their gases through propulsion nozzles which are sub-jected to considerable the...
The prediction of wall heat flux at the nozzle throat is of paramount importance in liquid rocket e...
A numerical model for the three dimensional thermal analysis of rocket thrust chambers and nozzles h...
The relative weight of convective and radiative wall heat transfer in liquid rocket engine thrust ch...