A numerical study of particle-particle interactions in a turbulent flow is performed using an Eulerian-Lagrangian particle tracking code with a hard-sphere collision model extended to take into account coalescence between the colliding particles and break-up of agglomerates. The effect of the agglomerate fractal dimension on the break-up events, and eventually on collision and agglomeration, is presented. The computational domain was seeded with primary particles (calcite, a nuclear waste simulant) of size 60 micron and allowed to run until steady state before the particle-particle interactions were activated. Break-up events reduce as the agglomerate fractal dimension (df = 2.0, 2.5, 2.8 and 3.0) increases, and with no break-up event as t...
Large-eddy simulations of a vertical turbulent channel flow with 420,000 solid particles are perform...
An efficient technique to simulate turbulent particle-laden flow at high mass loadings within the fo...
The present work uses a fully coupled direct numerical simulation-Lagrangian particle tracking solve...
A numerical study of particle-particle interactions in a turbulent flow is performed using an Euleri...
Large eddy simulation is employed to investigate the effect of particle size on particle collision a...
A systematic technique is developed for studying particle dynamics as induced by a turbulent liquid ...
A systematic approach to simulate particle-particle interactions considering agglomerate breakup is ...
A reliable and efficient approach to simulate turbulent particle-laden flow at high mass loadings ha...
The incentive for this research is to gain insight into fundamental aspects of turbulent fluid-parti...
The study described in this paper concerns the simulation of a particle-laden turbulent channel flow...
Large eddy simulation in a four-way coupled system is used to simulate particle collisions and agglo...
Results from large eddy simulations of relevance to the transport of nuclear waste flows are analyse...
A simulation methodology is presented that allows detailed studies of the breakup mechanism of fluid...
We have developed and applied an Eulerian-Lagrangian model for the transport, formation, break-up, d...
Large-eddy simulations of a vertical turbulent channel flow with 420,000 solid particles are perform...
An efficient technique to simulate turbulent particle-laden flow at high mass loadings within the fo...
The present work uses a fully coupled direct numerical simulation-Lagrangian particle tracking solve...
A numerical study of particle-particle interactions in a turbulent flow is performed using an Euleri...
Large eddy simulation is employed to investigate the effect of particle size on particle collision a...
A systematic technique is developed for studying particle dynamics as induced by a turbulent liquid ...
A systematic approach to simulate particle-particle interactions considering agglomerate breakup is ...
A reliable and efficient approach to simulate turbulent particle-laden flow at high mass loadings ha...
The incentive for this research is to gain insight into fundamental aspects of turbulent fluid-parti...
The study described in this paper concerns the simulation of a particle-laden turbulent channel flow...
Large eddy simulation in a four-way coupled system is used to simulate particle collisions and agglo...
Results from large eddy simulations of relevance to the transport of nuclear waste flows are analyse...
A simulation methodology is presented that allows detailed studies of the breakup mechanism of fluid...
We have developed and applied an Eulerian-Lagrangian model for the transport, formation, break-up, d...
Large-eddy simulations of a vertical turbulent channel flow with 420,000 solid particles are perform...
An efficient technique to simulate turbulent particle-laden flow at high mass loadings within the fo...
The present work uses a fully coupled direct numerical simulation-Lagrangian particle tracking solve...