Simulation of deterministic energy-balance particle agglomeration in turbulent liquid-solid flows
Derrick O. Njobuenwu, Michael Fairweather

TL;DR
This paper presents an efficient simulation method for turbulent liquid-solid flows with high particle loadings, incorporating energy-balanced agglomeration and collision detection, validated through parametric studies on various flow parameters.
Contribution
The study introduces a scalable collision detection algorithm and an energy-balanced agglomeration model for high-fidelity particle-laden flow simulations.
Findings
Collision frequency depends linearly on restitution coefficient.
Agglomeration rate inversely depends on restitution coefficient.
Smaller particles collide and form agglomerates more efficiently.
Abstract
An efficient technique to simulate turbulent particle-laden flow at high mass loadings within the four-way coupled simulation regime is presented. The technique implements large eddy simulation, discrete phase simulation, a deterministic treatment of inter-particle collisions and an energy-balanced particle agglomeration model. The algorithm to detect inter-particle collisions is such that the computational costs scale linearly with the number of particles present in the computational domain. On detection of a collision, particle agglomeration is tested based on the pre-collision kinetic energy, restitution coefficient and the van der Waals' interactions. The performance of the technique developed is tested by performing parametric studies of the influence the restitution coefficient and , particle size ( and ), fluid…
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