A substantial number of algorithms exists for the simulation of moving particles suspended in fluids. However, finding the best method to address a particular physical problem is often highly non-trivial and depends on the properties of the particles and the involved fluid(s) together. In this report, we provide a short overview on a number of existing simulation methods and provide two state of the art examples in more detail. In both cases, the particles are described using a Discrete Element Method (DEM). The DEM solver is usually coupled to a fluid-solver, which can be classified as grid-based or mesh-free (one example for each is given). Fluid solvers feature different resolutions relative to the particle size and separation. First, a ...
In this study, an efficient Discrete Element Lattice Boltzmann Model (DE-LBM) is introduced to simul...
In the present paper a coupling law between the Lattice Boltzmann Method (LBM) for fluids and the Di...
Particle–fluid flows are ubiquitous in nature and industry. Understanding the dynamic behaviour of t...
A substantial number of algorithms exists for the simulation of moving particles suspended in fluids...
This paper details the development of a computational model which is capable of direct numerical sim...
This paper details the development of a computational model which is capable of direct numerical sim...
This paper details the development of a computational model which is capable of direct numerical sim...
Processes that involve particle-laden fluids are common in geomechanics and especially in the petrol...
This paper introduces improvements to the simulation of particle suspensions using the lattice Boltz...
This paper presents a serial computational framework that hydrodynamically couples the lattice Boltz...
Fluid flow is conventionally modeled by finite difference or finite element approximations to the Na...
Discrete modeling of particle-fluid interaction was of great importance for its wide applications in...
Discrete particle simulation, a combined approach of computational fluid dynamics and discrete metho...
While new methods combining the computational fluid dynamics (CFD) and the discrete element method (...
Conventional simulations of dense particle flows in complex geometries usually involve the use of gl...
In this study, an efficient Discrete Element Lattice Boltzmann Model (DE-LBM) is introduced to simul...
In the present paper a coupling law between the Lattice Boltzmann Method (LBM) for fluids and the Di...
Particle–fluid flows are ubiquitous in nature and industry. Understanding the dynamic behaviour of t...
A substantial number of algorithms exists for the simulation of moving particles suspended in fluids...
This paper details the development of a computational model which is capable of direct numerical sim...
This paper details the development of a computational model which is capable of direct numerical sim...
This paper details the development of a computational model which is capable of direct numerical sim...
Processes that involve particle-laden fluids are common in geomechanics and especially in the petrol...
This paper introduces improvements to the simulation of particle suspensions using the lattice Boltz...
This paper presents a serial computational framework that hydrodynamically couples the lattice Boltz...
Fluid flow is conventionally modeled by finite difference or finite element approximations to the Na...
Discrete modeling of particle-fluid interaction was of great importance for its wide applications in...
Discrete particle simulation, a combined approach of computational fluid dynamics and discrete metho...
While new methods combining the computational fluid dynamics (CFD) and the discrete element method (...
Conventional simulations of dense particle flows in complex geometries usually involve the use of gl...
In this study, an efficient Discrete Element Lattice Boltzmann Model (DE-LBM) is introduced to simul...
In the present paper a coupling law between the Lattice Boltzmann Method (LBM) for fluids and the Di...
Particle–fluid flows are ubiquitous in nature and industry. Understanding the dynamic behaviour of t...