Two different singularity methods have been utilized to calculate the potential flow past a three dimensional non-lifting body. Two separate FORTRAN computer programs have been developed to implement these theoretical models, which will in the future allow inclusion of the fuselage effect in a pair of existing subcritical wing design computer programs. The first method uses higher order axial singularity distributions to model axisymmetric bodies of revolution in an either axial or inclined uniform potential flow. Use of inset of the singularity line away from the body for blunt noses, and cosine-type element distributions have been applied to obtain the optimal results. Excellent agreement to five significant figures with the exact solutio...
A numerical solution is presented for the incompressible flow over thin planar and axisymmetric prof...
A computer program has been developed to calculate laminar layers along inviscid surface streamlines...
The incompressible Navier-Stokes equations are numerically solved for steady flow around an ogive-cy...
Two methods are presented characteristics of bodies SUMMARY for predicting the aerodynamic in in...
Method permits analysis of noncircular bodies and calculation of wing-body interference effects in p...
Approximate solutions for potential flow past an axisymmetric slender body and past a thin airfoil a...
A computer program developed for determining the subsonic pressure, force, and moment coefficients f...
A new method has been developed for calculating the pressure distribution and aerodynamic characteri...
Direct calculation method for supersonic inviscid flow around axisymmetric blunt body with conically...
The objective of this paper is to describe theoretical procedures which can be utilized by the gener...
A theoretical method is presented for the computation of the flow field about an axisymmetric body o...
Linearized characteristics method, and equivalent body method for predicting flow field about axisym...
A numerical method is presented for the calculation of steady, three-dimensional, viscous, compressi...
A new method has been developed for calculating the pressure distribution and aerodynamic characteri...
A Mathematical theory is developed to perform the calculations necessary to determine the wave drag ...
A numerical solution is presented for the incompressible flow over thin planar and axisymmetric prof...
A computer program has been developed to calculate laminar layers along inviscid surface streamlines...
The incompressible Navier-Stokes equations are numerically solved for steady flow around an ogive-cy...
Two methods are presented characteristics of bodies SUMMARY for predicting the aerodynamic in in...
Method permits analysis of noncircular bodies and calculation of wing-body interference effects in p...
Approximate solutions for potential flow past an axisymmetric slender body and past a thin airfoil a...
A computer program developed for determining the subsonic pressure, force, and moment coefficients f...
A new method has been developed for calculating the pressure distribution and aerodynamic characteri...
Direct calculation method for supersonic inviscid flow around axisymmetric blunt body with conically...
The objective of this paper is to describe theoretical procedures which can be utilized by the gener...
A theoretical method is presented for the computation of the flow field about an axisymmetric body o...
Linearized characteristics method, and equivalent body method for predicting flow field about axisym...
A numerical method is presented for the calculation of steady, three-dimensional, viscous, compressi...
A new method has been developed for calculating the pressure distribution and aerodynamic characteri...
A Mathematical theory is developed to perform the calculations necessary to determine the wave drag ...
A numerical solution is presented for the incompressible flow over thin planar and axisymmetric prof...
A computer program has been developed to calculate laminar layers along inviscid surface streamlines...
The incompressible Navier-Stokes equations are numerically solved for steady flow around an ogive-cy...