A novel mesoscopic simulation technique —multi-particle collision dynamics— which has been suggested very recently, is used to study the two-dimensional flow around a square and a circular cylinder. The method is described and new proper boundary conditions are proposed to deal with wall collisions. The flow is analyzed in a wide range of Reynolds numbers in order to cover both the steady and unsteady regimes, resulting in symmetric steady vortices and periodic vortex shedding, respectively. The numerical results for integral flow parameters, such as the recirculation length, the drag and lift coefficients, the Strouhal number, as well as the spatial dependence of the velocity field, are compared with previous numerical and experimen...
Abstract—A code has been developed in Mathematica using Direct Simulation Monte Carlo (DSMC) techniq...
Numerical values are provided which enable the drag force on the reference spherical fluid or solid ...
In this paper, the flow field of fluid and trajectory of particle are modeled using FLUENT 12.0. In ...
A novel mesoscopic simulation technique —multi-particle collision dynamics— which has been suggeste...
A novel mesoscopic simulation technique--multi-particle collision dynamics--which has been suggested...
A particle-based model for mesoscopic fluid dynamics is used to simulate steady and unsteady flows a...
PACS. 02.70.Ns – Molecular dynamics and particle methods. PACS. 47.11.+j – Computational methods in ...
Multi-particle collision dynamics (MPCD) is a particle based Navier-Stokes solver and in the last te...
This paper presents a new approach to the direct numerical simulation of particle flows. The basic i...
This work comprises the development of a re-circulation boundary condition to simulate the flow arou...
International audienceThe problem of a particle impacting on a wall, a common phenomenon in particle...
Inertial and interceptive .impaction of spherical particles on circular cylinders was investigated t...
Direct numerical simulations were performed to study the effects of free-stream turbulence on differ...
The present work investigates the flow around a two-dimensional square section object at varying ang...
AbstractThe problem of a particle impacting on a wall, a common phenomenon in particle-laden flows i...
Abstract—A code has been developed in Mathematica using Direct Simulation Monte Carlo (DSMC) techniq...
Numerical values are provided which enable the drag force on the reference spherical fluid or solid ...
In this paper, the flow field of fluid and trajectory of particle are modeled using FLUENT 12.0. In ...
A novel mesoscopic simulation technique —multi-particle collision dynamics— which has been suggeste...
A novel mesoscopic simulation technique--multi-particle collision dynamics--which has been suggested...
A particle-based model for mesoscopic fluid dynamics is used to simulate steady and unsteady flows a...
PACS. 02.70.Ns – Molecular dynamics and particle methods. PACS. 47.11.+j – Computational methods in ...
Multi-particle collision dynamics (MPCD) is a particle based Navier-Stokes solver and in the last te...
This paper presents a new approach to the direct numerical simulation of particle flows. The basic i...
This work comprises the development of a re-circulation boundary condition to simulate the flow arou...
International audienceThe problem of a particle impacting on a wall, a common phenomenon in particle...
Inertial and interceptive .impaction of spherical particles on circular cylinders was investigated t...
Direct numerical simulations were performed to study the effects of free-stream turbulence on differ...
The present work investigates the flow around a two-dimensional square section object at varying ang...
AbstractThe problem of a particle impacting on a wall, a common phenomenon in particle-laden flows i...
Abstract—A code has been developed in Mathematica using Direct Simulation Monte Carlo (DSMC) techniq...
Numerical values are provided which enable the drag force on the reference spherical fluid or solid ...
In this paper, the flow field of fluid and trajectory of particle are modeled using FLUENT 12.0. In ...