Add to ORKGA transient finite difference wave envelope formulation is presented for sound propagation, without steady flow. Before the finite difference equations are formulated, the governing wave equation is first transformed to a form whose solution tends not to oscillate along the propagation direction. This transformation reduces the required number of grid points by an order of magnitude. Physically, the transformed pressure represents the amplitude of the conventional sound wave. The derivation for the wave envelope transient wave equation and appropriate boundary conditions are presented as well as the difference equations and stability requirements. To illustrate the method, example solutions are presented for sound propagation in a straight ...
A finite difference formulation is presented for wave propagation in a rectangular two-dimensional d...
A finite difference formulation is presented for sound propagation in a two-dimensional straight sof...
A finite difference formulation is presented which is useful in the study of acoustically treated in...
A finite difference formulation is presented for sound propagation in a rectangular two-dimensional ...
A finite difference formulation is presented for sound propagation in a rectangular two-dimensional ...
Finite difference equations are derived for sound propagation in a two dimensional, straight, soft w...
An explicit finite difference iteration scheme is developed to study harmonic sound propagation in d...
A time dependent numerical solution of the linearized continuity and momentum equation was developed...
An explicit time/space finite difference procedure is used to model the propagation of sound in a qu...
A time dependent numerical formulation was derived for sound propagation in a two dimensional straig...
An explicit finite difference iteration scheme is developed to study harmonic sound propagation in a...
An explicit finite difference real time iteration scheme is developed to study harmonic sound propag...
The time-dependent governing acoustic-difference equations and boundary conditions are developed and...
A time-dependent finite difference formulation to the inhomogeneous wave equation is derived for pla...
Sound propagation without flow in a rectangular duct with a converging-diverging area variation was ...
A finite difference formulation is presented for wave propagation in a rectangular two-dimensional d...
A finite difference formulation is presented for sound propagation in a two-dimensional straight sof...
A finite difference formulation is presented which is useful in the study of acoustically treated in...
A finite difference formulation is presented for sound propagation in a rectangular two-dimensional ...
A finite difference formulation is presented for sound propagation in a rectangular two-dimensional ...
Finite difference equations are derived for sound propagation in a two dimensional, straight, soft w...
An explicit finite difference iteration scheme is developed to study harmonic sound propagation in d...
A time dependent numerical solution of the linearized continuity and momentum equation was developed...
An explicit time/space finite difference procedure is used to model the propagation of sound in a qu...
A time dependent numerical formulation was derived for sound propagation in a two dimensional straig...
An explicit finite difference iteration scheme is developed to study harmonic sound propagation in a...
An explicit finite difference real time iteration scheme is developed to study harmonic sound propag...
The time-dependent governing acoustic-difference equations and boundary conditions are developed and...
A time-dependent finite difference formulation to the inhomogeneous wave equation is derived for pla...
Sound propagation without flow in a rectangular duct with a converging-diverging area variation was ...
A finite difference formulation is presented for wave propagation in a rectangular two-dimensional d...
A finite difference formulation is presented for sound propagation in a two-dimensional straight sof...
A finite difference formulation is presented which is useful in the study of acoustically treated in...