Conventional simulations of dense particle flows in complex geometries usually involve the use of glued particles to approximate geometric surface. This study is concerned with the development of a robust and accurate algorithm for detecting the interaction between a spherical particle and an arbitrarily complex geometric surface in the framework of soft-sphere discrete element model (DEM) without introducing any assumptions. Numerical experiments specially designed to validate the algorithm shows that the new algorithm can accurately predict the contact state of a particle with a complex geometric surface. Based on the proposed algorithm, a new solver for simulation of dense particle flows is developed and implemented into an open source c...
Dense gas-particle flows are encountered in a variety of industrially important processes for large ...
A numerical method based on two-dimensional (2D) unstructured meshes is developed to solve the discr...
In many dry granular and suspension flow configurations, particles can be highly non-spherical. It i...
A discrete particle model of a gas-fluidised bed has been developed and in this the two-dimensional ...
A discrete particle model of a gas-fluidised bed has been developed and in this the two-dimensional ...
While new methods combining the computational fluid dynamics (CFD) and the discrete element method (...
Abstract A discrete particle model of a gas-fluidised bed has been developed and in this the two-dim...
A substantial number of algorithms exists for the simulation of moving particles suspended in fluids...
Discrete Element Method computer simulations have been carried out to analyse the kinetics of collis...
DoctorAccurate and efficient numerical methods have been developed to simulate flow including bubble...
A modified discrete element method (DEM) was constructed by compositing an additional liquid-bridge ...
International audienceWe suggest a novel variant of Discrete Element Method (DEM) to simulate the fl...
We present in this paper a framework for Direct Numerical Simulation (DNS) of flows involving non-de...
Packing, fluidization and heat transfer of particles are involved in many industry processes. Many v...
Dense gas-particle flows are encountered in a variety of industrially important processes for large ...
A numerical method based on two-dimensional (2D) unstructured meshes is developed to solve the discr...
In many dry granular and suspension flow configurations, particles can be highly non-spherical. It i...
A discrete particle model of a gas-fluidised bed has been developed and in this the two-dimensional ...
A discrete particle model of a gas-fluidised bed has been developed and in this the two-dimensional ...
While new methods combining the computational fluid dynamics (CFD) and the discrete element method (...
Abstract A discrete particle model of a gas-fluidised bed has been developed and in this the two-dim...
A substantial number of algorithms exists for the simulation of moving particles suspended in fluids...
Discrete Element Method computer simulations have been carried out to analyse the kinetics of collis...
DoctorAccurate and efficient numerical methods have been developed to simulate flow including bubble...
A modified discrete element method (DEM) was constructed by compositing an additional liquid-bridge ...
International audienceWe suggest a novel variant of Discrete Element Method (DEM) to simulate the fl...
We present in this paper a framework for Direct Numerical Simulation (DNS) of flows involving non-de...
Packing, fluidization and heat transfer of particles are involved in many industry processes. Many v...
Dense gas-particle flows are encountered in a variety of industrially important processes for large ...
A numerical method based on two-dimensional (2D) unstructured meshes is developed to solve the discr...
In many dry granular and suspension flow configurations, particles can be highly non-spherical. It i...