A time domain boundary integral equation with Burton-Miller reformulation is presented for acoustic scattering by surfaces with liners in a uniform mean flow. The Ingard-Myers impedance boundary condition is implemented using a broadband multipole impedance model and converted into time domain differential equations to augment the boundary integral equation. The coupled integral-differential equations are solved numerically by a March-On-in-Time (MOT) scheme. While the Ingard-Myers condition is known to support Kelvin-Helmholtz instability due to its use of a vortex sheet interface between the flow and the liner surface, it is found that by neglecting a second derivative term in the current time domain impedance boundary condition formulati...
This paper presents an algorithm which couples the time domain Boundary Element Method (BEM) with a ...
The acoustics of a mean flow boundary layer over an impedance surface or acoustic lining is consider...
This work develops the so-called compensated impedance boundary conditions that enable stable time d...
A time domain boundary integral equation with Burton-Miller reformulation is presented for acoustic ...
Reducing aircraft noise is a major objective in the field of computational aeroacoustics. When desig...
Reducing aircraft noise is a major objective in the field of computational aeroacoustics. When desig...
A methodology to design broadband time-domain impedance boundary conditions (TDIBCs) from the analys...
In this study, a broadband impedance eduction method is developed to identify the surface impedance ...
The effect of flow over an acoustic liner is generally described by the Myers impedance condition. T...
Reducing aircraft noise is a major objective in the field of computational aeroacoustics. When desig...
A new method, which can be effectively and efficiently applied in the simulations of broadband noise...
A new and efficient time-domain implementation is proposed for the impedance model originally introd...
The accuracy of the Ingard-Myers boundary condition and a recently proposed modified Ingard-Myers bo...
The time-domain nodal discontinuous Galerkin (TD-DG) method is emerging as a potential wave-based me...
A time-domain boundary condition is derived that accounts for the acoustic impedance of a thin bound...
This paper presents an algorithm which couples the time domain Boundary Element Method (BEM) with a ...
The acoustics of a mean flow boundary layer over an impedance surface or acoustic lining is consider...
This work develops the so-called compensated impedance boundary conditions that enable stable time d...
A time domain boundary integral equation with Burton-Miller reformulation is presented for acoustic ...
Reducing aircraft noise is a major objective in the field of computational aeroacoustics. When desig...
Reducing aircraft noise is a major objective in the field of computational aeroacoustics. When desig...
A methodology to design broadband time-domain impedance boundary conditions (TDIBCs) from the analys...
In this study, a broadband impedance eduction method is developed to identify the surface impedance ...
The effect of flow over an acoustic liner is generally described by the Myers impedance condition. T...
Reducing aircraft noise is a major objective in the field of computational aeroacoustics. When desig...
A new method, which can be effectively and efficiently applied in the simulations of broadband noise...
A new and efficient time-domain implementation is proposed for the impedance model originally introd...
The accuracy of the Ingard-Myers boundary condition and a recently proposed modified Ingard-Myers bo...
The time-domain nodal discontinuous Galerkin (TD-DG) method is emerging as a potential wave-based me...
A time-domain boundary condition is derived that accounts for the acoustic impedance of a thin bound...
This paper presents an algorithm which couples the time domain Boundary Element Method (BEM) with a ...
The acoustics of a mean flow boundary layer over an impedance surface or acoustic lining is consider...
This work develops the so-called compensated impedance boundary conditions that enable stable time d...