This paper presents a method for adjusting sectional loads to match target values for integrated force and moment coefficients. In a typical application, the sectional load profile for one flight condition is calculated from Computational Fluid Dynamics (CFD) while the integrated forces and moments are measured in a wind tunnel experiment. These two methods do not generally result in identical predictions, and this leads to an inherent inconsistency between different data products. This paper aims to provide a procedure to remove that inconsistency. A sectional load profile for a launch vehicle splits the rocket into slices along its length and calculates the aerodynamic loading on each slice, which leads to a one-dimensional aerodynamic lo...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90736/1/AIAA-2011-6525-438.pd
The objective of this paper is to document the reasoning and trade studies that supported the select...
This paper presents details of Computational Fluid Dynamic (CFD) simulations of the Space Launch Sys...
Recently a very large (739 runs) collection of high-fidelity RANS CFD solutions was obtained for Spa...
The Space Launch System Aerodynamics Task Team is responsible for delivering aerodynamic force and m...
Empirical method for determining static distributed aerodynamic loads on axisymmetric multistage lau...
The development of the aerodynamic database for the Space Launch System (SLS) booster separation env...
Up until now, loads analyses of the X-33 RLV have been done at Marshall Space Flight Center (MSFC) u...
Computational simulations for a Space Launch System configuration at liftoff conditions for incidenc...
This paper originates from the joint efforts of an aeroelastic study team in the Applied Vehicle Tec...
Aerodynamic analysis using computational fluid dynamics (CFD) is most fruitful when it is combined w...
This paper describes the techniques involved in determining the aerodynamic stability derivatives fo...
A launch vehicle can experience large unsteady aerodynamic forces in the transonic regime that, whil...
Spanwise aerodynamic loads for the low-Mach, high-attitude portion of ascent for the Space Shuttle O...
A description of and users manual are presented for a U.S.A. FORTRAN 4 computer program which evalua...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90736/1/AIAA-2011-6525-438.pd
The objective of this paper is to document the reasoning and trade studies that supported the select...
This paper presents details of Computational Fluid Dynamic (CFD) simulations of the Space Launch Sys...
Recently a very large (739 runs) collection of high-fidelity RANS CFD solutions was obtained for Spa...
The Space Launch System Aerodynamics Task Team is responsible for delivering aerodynamic force and m...
Empirical method for determining static distributed aerodynamic loads on axisymmetric multistage lau...
The development of the aerodynamic database for the Space Launch System (SLS) booster separation env...
Up until now, loads analyses of the X-33 RLV have been done at Marshall Space Flight Center (MSFC) u...
Computational simulations for a Space Launch System configuration at liftoff conditions for incidenc...
This paper originates from the joint efforts of an aeroelastic study team in the Applied Vehicle Tec...
Aerodynamic analysis using computational fluid dynamics (CFD) is most fruitful when it is combined w...
This paper describes the techniques involved in determining the aerodynamic stability derivatives fo...
A launch vehicle can experience large unsteady aerodynamic forces in the transonic regime that, whil...
Spanwise aerodynamic loads for the low-Mach, high-attitude portion of ascent for the Space Shuttle O...
A description of and users manual are presented for a U.S.A. FORTRAN 4 computer program which evalua...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90736/1/AIAA-2011-6525-438.pd
The objective of this paper is to document the reasoning and trade studies that supported the select...
This paper presents details of Computational Fluid Dynamic (CFD) simulations of the Space Launch Sys...