Direct computation of fan noise is presently not possible. One of the major difficulties is the geometrical complexity of the problem. In the case of fan noise, the blade geometry is critical to the loading on the blade and hence the intensity of the radiated noise. The precise geometry must be incorporated into the computation. In computational fluid dynamics (CFD), there are two general ways to handle problems with complex geometry. One way is to use unstructured grids. The other is to use body fitted overset grids. In the overset grid method, accurate data transfer is of utmost importance. For acoustic computation, it is not clear that the currently used data transfer methods are sufficiently accurate as not to contaminate the very small...
Computational approaches are being developed to study a range of problems in aeroacoustics. These ae...
The present paper investigates the numerical methods used to predict aerodynamically generated noise...
To ensure health and hearing comfort, acoustics becomes more and more essential in the design of fan...
A two-dimensional computational aeroacoustic (CAA) code is developed based on solving the two-dimens...
Computing sound directly from unsteady flows featuring large-scale instabilities requires numerical ...
Advanced aerodynamic and aeroacoustic multiphysics modeling and simulation are becoming a major topi...
International audienceIn this paper, a numerical method for solving the linearized Navier-Stokes equ...
In axial flow fan installations gust noise can dominate the sound radiation. In order to predict and...
The direct simulation of sound sources and sound fields in flows is a rapidly growing area in resear...
In most industrial applications it is widely accepted that noise is a concern for fan manufacturers ...
The numerical simulation of an aeroacoustics problem using the full time-dependent Euler or Navier-S...
For low Mach number problems, hybrid computational aeroacoustics (CAA) methodologies are commonly co...
A three-dimensional computational aeroacoustics code has been developed for the simulation of tone n...
Abstract. A three-dimensional computational aeroacoustics code has been developed for the simulation...
Computational approaches are being developed to study a range of problems in aeroacoustics. These ae...
The present paper investigates the numerical methods used to predict aerodynamically generated noise...
To ensure health and hearing comfort, acoustics becomes more and more essential in the design of fan...
A two-dimensional computational aeroacoustic (CAA) code is developed based on solving the two-dimens...
Computing sound directly from unsteady flows featuring large-scale instabilities requires numerical ...
Advanced aerodynamic and aeroacoustic multiphysics modeling and simulation are becoming a major topi...
International audienceIn this paper, a numerical method for solving the linearized Navier-Stokes equ...
In axial flow fan installations gust noise can dominate the sound radiation. In order to predict and...
The direct simulation of sound sources and sound fields in flows is a rapidly growing area in resear...
In most industrial applications it is widely accepted that noise is a concern for fan manufacturers ...
The numerical simulation of an aeroacoustics problem using the full time-dependent Euler or Navier-S...
For low Mach number problems, hybrid computational aeroacoustics (CAA) methodologies are commonly co...
A three-dimensional computational aeroacoustics code has been developed for the simulation of tone n...
Abstract. A three-dimensional computational aeroacoustics code has been developed for the simulation...
Computational approaches are being developed to study a range of problems in aeroacoustics. These ae...
The present paper investigates the numerical methods used to predict aerodynamically generated noise...
To ensure health and hearing comfort, acoustics becomes more and more essential in the design of fan...