GIM is a new grid-independent method for void fraction calculation in CFD-DEM simulations, validated on fluidized bed experiments where unstructured grids performed better than structured ones.
Discrete particle simulation of two-dimensional fluidized bed,
2 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 2representative citing papers
Simulations show fluidized spherical particles in narrow pipes form stable hexagonal cylindrical shells along the wall, sustained mainly by particle-particle contact forces, with stability decreasing as polydispersity increases.
citing papers explorer
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Gaussian Integral Method for Void Fraction
GIM is a new grid-independent method for void fraction calculation in CFD-DEM simulations, validated on fluidized bed experiments where unstructured grids performed better than structured ones.
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Formation of cylindrical shells via sphere packing from fluidized beds
Simulations show fluidized spherical particles in narrow pipes form stable hexagonal cylindrical shells along the wall, sustained mainly by particle-particle contact forces, with stability decreasing as polydispersity increases.