Recently a very large (739 runs) collection of high-fidelity RANS CFD solutions was obtained for Space Launch System ascent aerodynamics for the vehicle to be used for the first exploratory (unmanned) mission (EM-1). The extensive computations, at full-scale conditions, were originally developed to obtain detailed line and protuberance loads and surface pressures for venting analyses. The line loads were eventually integrated for comparison of the resulting forces and moments to the database that was derived from wind tunnel tests conducted at sub-scale conditions. The comparisons presented herein cover the ranges 0.5 < or = M(infinity) < or = 5, 6deg < or = alpha < or = 6deg, and 6deg < or = beta < or = 6deg. For detailed comparisons, slen...
This paper presents a method for adjusting sectional loads to match target values for integrated for...
During the launching vehicles design and their optimization process, the implementing of aerodynamic...
Wind tunnel study of aerodynamic characteristics of three scale model multistage launch vehicles at ...
The Space Launch System Aerodynamics Task Team is responsible for delivering aerodynamic force and m...
A 1.75% scale force and moment model of the Space Launch System was tested in the NASA Langley Resea...
Computational simulations for a Space Launch System configuration at liftoff conditions for incidenc...
This paper describes the wind tunnel testing work and data analysis required to characterize the sta...
This paper presents details of Computational Fluid Dynamic modeling of the Space Launch System durin...
A detailed description of the uncertainty quantification process for the Space Launch System Block 1...
The objective of this paper is to document the reasoning and trade studies that supported the select...
A transonic flow field about a Space Launch System (SLS) configuration was simulated with the Fully ...
Modern Computational Fluid Dynamics (CFD) techniques were used to compute aerodynamic forces and mom...
The development of the aerodynamic database for the Space Launch System (SLS) booster separation env...
Using the Fully Unstructured Three-Dimensional (FUN3D) computational fluid dynamics code, an unstead...
The Aerosciences Branch (EV33) at the George C. Marshall Space Flight Center (MSFC) has been respons...
This paper presents a method for adjusting sectional loads to match target values for integrated for...
During the launching vehicles design and their optimization process, the implementing of aerodynamic...
Wind tunnel study of aerodynamic characteristics of three scale model multistage launch vehicles at ...
The Space Launch System Aerodynamics Task Team is responsible for delivering aerodynamic force and m...
A 1.75% scale force and moment model of the Space Launch System was tested in the NASA Langley Resea...
Computational simulations for a Space Launch System configuration at liftoff conditions for incidenc...
This paper describes the wind tunnel testing work and data analysis required to characterize the sta...
This paper presents details of Computational Fluid Dynamic modeling of the Space Launch System durin...
A detailed description of the uncertainty quantification process for the Space Launch System Block 1...
The objective of this paper is to document the reasoning and trade studies that supported the select...
A transonic flow field about a Space Launch System (SLS) configuration was simulated with the Fully ...
Modern Computational Fluid Dynamics (CFD) techniques were used to compute aerodynamic forces and mom...
The development of the aerodynamic database for the Space Launch System (SLS) booster separation env...
Using the Fully Unstructured Three-Dimensional (FUN3D) computational fluid dynamics code, an unstead...
The Aerosciences Branch (EV33) at the George C. Marshall Space Flight Center (MSFC) has been respons...
This paper presents a method for adjusting sectional loads to match target values for integrated for...
During the launching vehicles design and their optimization process, the implementing of aerodynamic...
Wind tunnel study of aerodynamic characteristics of three scale model multistage launch vehicles at ...