An important aspect in numerical simulations of particle-laden turbulent flows is the interpolation of the flow field needed for the computation of the Lagrangian trajectories. The accuracy of the interpolation method has direct consequences for the acceleration spectrum of the fluid particles and is therefore also important for the correct evaluation of the hydrodynamic forces for almost neutrally buoyant particles, common in many environmental applications. In order to systematically choose the optimal tradeoff between interpolation accuracy and computational cost we focus on comparing errors: the interpolation error is compared with the discretization error of the flow field. In this way one can prevent unnecessary computations and still...
International audienceDuring the last decade, many approaches for resolved-particle simulation (RPS)...
Although it is common for automated image processing techniques to claim subpixel accuracy in the id...
Berlemont, a desjonqueres, p gouesbet, gA Lagrangian approach is used to describe particle dispersio...
An important aspect in numerical simulations of particle-laden turbulent flows is the interpolation ...
An important aspect in numerical simulations of particle-laden turbulent ¿ows is the interpolation o...
An important aspect in numerical simulations of particle laden turbulent flows is the interpolation ...
International audienceIn this work, we compare different interpolation operators in the ă context of...
International audienceIn this work, we compare different interpolation operators in the context of p...
A new approach for the interpolation of a filtered turbulence velocity field given random point samp...
In this paper we consider a variety of schemes for performing interpolation in space and time to all...
One issue associated with the use of Large-Eddy Simulation (LES) to investigate the dispersion of sm...
One issue associated with the use of Large-Eddy Simulation (LES) to investigate the dispersion of sm...
Direct evaluation of energy spectra in purely Lagrangian meshless methods is a challenging task. On ...
AbstractThis paper develops an efficient particle tracking algorithm to be used in fluid simulations...
International audienceDuring the last decade, many approaches for resolved-particle simulation (RPS)...
Although it is common for automated image processing techniques to claim subpixel accuracy in the id...
Berlemont, a desjonqueres, p gouesbet, gA Lagrangian approach is used to describe particle dispersio...
An important aspect in numerical simulations of particle-laden turbulent flows is the interpolation ...
An important aspect in numerical simulations of particle-laden turbulent ¿ows is the interpolation o...
An important aspect in numerical simulations of particle laden turbulent flows is the interpolation ...
International audienceIn this work, we compare different interpolation operators in the ă context of...
International audienceIn this work, we compare different interpolation operators in the context of p...
A new approach for the interpolation of a filtered turbulence velocity field given random point samp...
In this paper we consider a variety of schemes for performing interpolation in space and time to all...
One issue associated with the use of Large-Eddy Simulation (LES) to investigate the dispersion of sm...
One issue associated with the use of Large-Eddy Simulation (LES) to investigate the dispersion of sm...
Direct evaluation of energy spectra in purely Lagrangian meshless methods is a challenging task. On ...
AbstractThis paper develops an efficient particle tracking algorithm to be used in fluid simulations...
International audienceDuring the last decade, many approaches for resolved-particle simulation (RPS)...
Although it is common for automated image processing techniques to claim subpixel accuracy in the id...
Berlemont, a desjonqueres, p gouesbet, gA Lagrangian approach is used to describe particle dispersio...