Computational aeroacoustics often use finite difference schemes optimized to require relatively few points per wavelength; such optimized schemes are often called Dispersion Relation Preserving (DRP). Similar techniques are also used outside aeroacoustics. Here the question is posed: what is the equivalent of points per wavelength for growing or decaying waves, and how well are such waves resolved numerically? Such non-constant-amplitude waves are common in aeroacoustics, such as the exponential decay caused by acoustic linings, the O(1/r) decay of an expanding spherical wave, and the decay of high-azimuthal-order modes in the radial direction towards the centre of a cylindrical duct. It is shown that optimized spatial derivatives perform p...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
Two families of finite difference algorithms for computational aeroacoustics are presented and compa...
aeroacoustics Abstract. This paper presents a short overview of recent developments of low-dispersiv...
Computational aeroacoustics often use finite difference schemes optimized to require relatively few ...
In developing suitable numerical techniques for computational aero-acoustics, the dispersion-relatio...
Abstract: The main purpose of this work is the evaluation of spatial schemes used on CAA (Computatio...
A variety of aeroacoustic problems involve small-amplitude linear wave propagation. Highorder scheme...
Important characteristics of the aeroacoustic wave propagation are mostly encoded in their dispersio...
Most computational fluid dynamics (CFD) schemes are not adequately accurate for solving aeroacoustic...
The main purpose of this work is the evaluation of the interaction of the spatial schemes (Tradition...
In this paper, we have combined some spatial derivatives with the optimised time derivative proposed...
Direct numerical simulations and computational aeroacoustics require an accurate finite difference s...
Higher order compact algorithms are developed for the numerical simulation of wave propagation by us...
Since the earliest stages in computational aeroacoustics (CAA), the need for highly accurate schemes...
Wave propagation models are essential in many fields of physics, such as acoustics, electromagnetics...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
Two families of finite difference algorithms for computational aeroacoustics are presented and compa...
aeroacoustics Abstract. This paper presents a short overview of recent developments of low-dispersiv...
Computational aeroacoustics often use finite difference schemes optimized to require relatively few ...
In developing suitable numerical techniques for computational aero-acoustics, the dispersion-relatio...
Abstract: The main purpose of this work is the evaluation of spatial schemes used on CAA (Computatio...
A variety of aeroacoustic problems involve small-amplitude linear wave propagation. Highorder scheme...
Important characteristics of the aeroacoustic wave propagation are mostly encoded in their dispersio...
Most computational fluid dynamics (CFD) schemes are not adequately accurate for solving aeroacoustic...
The main purpose of this work is the evaluation of the interaction of the spatial schemes (Tradition...
In this paper, we have combined some spatial derivatives with the optimised time derivative proposed...
Direct numerical simulations and computational aeroacoustics require an accurate finite difference s...
Higher order compact algorithms are developed for the numerical simulation of wave propagation by us...
Since the earliest stages in computational aeroacoustics (CAA), the need for highly accurate schemes...
Wave propagation models are essential in many fields of physics, such as acoustics, electromagnetics...
Computational aeroacoustics requires numerical techniques capable of yielding low artificial dispers...
Two families of finite difference algorithms for computational aeroacoustics are presented and compa...
aeroacoustics Abstract. This paper presents a short overview of recent developments of low-dispersiv...