A perfectly matched layer for the absorption of electromagnetic waves
Journal of Computational Physics
On absorbing boundary conditions for linearized Euler equations by a perfectly matched layer
Journal of Computational Physics
Lattice Boltzmann outflow treatments: Convective conditions and others
Computers & Mathematics with Applications
Characteristic boundary conditions in the lattice Boltzmann method for fluid and gas dynamics
Journal of Computational and Applied Mathematics
| Hi-index | 0.09 |
Following the efficient technique of Berenger in classical computational fluid dynamics methods to avoid reflection of sound waves on the boundaries of the computational domain, we propose a new LBE scheme that behaves like a Berenger medium for absorbing waves without reflection. This model is presented and its' properties are discussed using the method of ''equivalent equations''. We also proposed a general method to introduce zero-order damping terms in Boltzmann schemes that are used to absorb the waves propagating in the Berenger medium. Results of the simulation are discussed with theoretical interpretation in the case of waves incoming normal to the interface. We shall also show that the reflection of sound waves can be reduced simply by changing the ''advection step'' of the lattice Boltzmann algorithm on the nodes close to the interface.