We propose an unstructured mesh adaptation approach for unsteady high speed compressible Navier–Stokes applications involving blasts and explosions with the presence of strong shock waves propagating in three dimensional complex domains. The idea is to identify the locations of critical physics locally and then re-mesh these regions based on solution derived metrics. The approach ensures both geometry fidelity and mesh validity, especially for areas near complex geometries, a task that is always a challenge in mesh adaptation. The proposed adaptivity is applied for simulations of blast wave propagations and compared with available data in literature. The results show that the proposed method is fully robust and efficient for computational f...
The numerical simulation of hypersonic flows past blunt bodies by means of shockcapturing (S-C) solv...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
Shock waves and contact discontinuities usually appear in compressible flows, requiring a fine mesh ...
International audienceWe present an algorithm to perform PDE-based r-adaptation in three-dimensional...
This is the final version. Available on open access from Wiley via the DOI in this recordWe present ...
Within a continuum framework, flows featuring shock waves can be modelled by means of either shock c...
Accurate capturing of discontinuities within compressible flow computations is achieved by coupling ...
In recent works we have formulated a new approach to compressible flow simulation, combining the adv...
An adaptive mesh strategy based on nodal re-allocation is presented in this work. This technique is ...
International audienceWe first describe the well established unstructured mesh generation methods as...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
In this paper, a hexahedral-mesh based solution adaptive algorithm for the simulation of compressibl...
A novel unstructured shock-fitting algorithm for three-dimensional flows is proposed in this paper. ...
Within a continuum framework, flows featuring shock waves can be modelled by means of either shock c...
The numerical simulation of hypersonic flows past blunt bodies by means of shockcapturing (S-C) solv...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
Shock waves and contact discontinuities usually appear in compressible flows, requiring a fine mesh ...
International audienceWe present an algorithm to perform PDE-based r-adaptation in three-dimensional...
This is the final version. Available on open access from Wiley via the DOI in this recordWe present ...
Within a continuum framework, flows featuring shock waves can be modelled by means of either shock c...
Accurate capturing of discontinuities within compressible flow computations is achieved by coupling ...
In recent works we have formulated a new approach to compressible flow simulation, combining the adv...
An adaptive mesh strategy based on nodal re-allocation is presented in this work. This technique is ...
International audienceWe first describe the well established unstructured mesh generation methods as...
A method for simulating two-dimensional, high-Reynolds-number, compressible flows about complex geom...
In this paper, a hexahedral-mesh based solution adaptive algorithm for the simulation of compressibl...
A novel unstructured shock-fitting algorithm for three-dimensional flows is proposed in this paper. ...
Within a continuum framework, flows featuring shock waves can be modelled by means of either shock c...
The numerical simulation of hypersonic flows past blunt bodies by means of shockcapturing (S-C) solv...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...
Owing to the maturity nowadays reached by computational geometry, shock-fitting, i.e. treating shock...