Add to ORKGA gasdynamical analysis is presented for a three-dimensional, supersonic, inviscid, steady, shockless flow past an arbitrary airframe, using computational grids. The analysis, which includes special treatments for body points and bow-shock points, relies on the equations of motion written in terms of logarithm of pressure entropy and two angles reprising the velocity vector. A FORTRAN code was employed (sample geometry is shown). The flow analysis is considered reliable for aircraft cross-sections that are elliptical in shape
A general orthogonal coordinate system is used to describe various axisymmetric and two-dimensional ...
Computer program for determining inviscid flow around blunt bodies at supersonic and hypersonic spee...
A shock estimation approach is proposed in the context of the generation of shock-conforming meshes ...
A numerical technique is described for the calculation of three dimensional, inviscid, supersonic, s...
A detailed description of a computational program for the evaluation of three dimensional supersonic...
A detailed description of the procedure used to compute three dimensional, supersonic, inviscid, ste...
A numerical procedure was developed to compute the inviscid super/hypersonic flow fields about compl...
A numerical procedure has been developed to compute the inviscid super/hypersonic flow field about c...
A numerical procedure was developed to compute the inviscid super/hypersonic flow field about comple...
Research in aerodynamics is discussed. The development of equilibrium air curve fits; computation of...
Algebraic procedures are described for the automatic generation of structured, single-block flow com...
Conformal mapping is a classical technique which has been utilized for solving problems in aerodynam...
A supersonic potential flow solver was developed to analyze the flow over complex realistic aircraft...
A computational fluid dynamics tool has been developed capable of analyzing the viscous supersonic/h...
Numerical methods and computer programs for two-dimensional and axisymmetric supersonic flow over bl...
A general orthogonal coordinate system is used to describe various axisymmetric and two-dimensional ...
Computer program for determining inviscid flow around blunt bodies at supersonic and hypersonic spee...
A shock estimation approach is proposed in the context of the generation of shock-conforming meshes ...
A numerical technique is described for the calculation of three dimensional, inviscid, supersonic, s...
A detailed description of a computational program for the evaluation of three dimensional supersonic...
A detailed description of the procedure used to compute three dimensional, supersonic, inviscid, ste...
A numerical procedure was developed to compute the inviscid super/hypersonic flow fields about compl...
A numerical procedure has been developed to compute the inviscid super/hypersonic flow field about c...
A numerical procedure was developed to compute the inviscid super/hypersonic flow field about comple...
Research in aerodynamics is discussed. The development of equilibrium air curve fits; computation of...
Algebraic procedures are described for the automatic generation of structured, single-block flow com...
Conformal mapping is a classical technique which has been utilized for solving problems in aerodynam...
A supersonic potential flow solver was developed to analyze the flow over complex realistic aircraft...
A computational fluid dynamics tool has been developed capable of analyzing the viscous supersonic/h...
Numerical methods and computer programs for two-dimensional and axisymmetric supersonic flow over bl...
A general orthogonal coordinate system is used to describe various axisymmetric and two-dimensional ...
Computer program for determining inviscid flow around blunt bodies at supersonic and hypersonic spee...
A shock estimation approach is proposed in the context of the generation of shock-conforming meshes ...