* Coagulation/Flocculation of colloidal particles [#a904aada]
** Brownian coagulation with an attractive interaction [#u4c6fd52]
#youtube(BBUK3oWgrCQ)
#youtube(WYvPMUBqNjE)
- Simulation parameters
-- Input UDF file: &ref(aggregate.udf);
-- CFD Lattice: 128 x 128 x 128 mesh
-- Number of Particles: N = 500
-- Diameter of Particles: D = 8 mesh
-- Volume Fraction: Φ = 0.064
-- Temperature: kBT = 5
-- Pair potential: LJ like 24:12 power with\epsilon=25k_BT and \sigma=D
-- Number of Iteration Steps: 100,000
** Flocks under weak shear flow [#k2760a80]
#youtube(hDPPXUIAHlU)
#youtube(R_82K0wbDDY)
- Simulation parameters
-- Input UDF file: &ref(aggregate_LE.zip);
-- CFD Lattice: 128 x 128 x 128 mesh
-- Number of Particles: N = 500
-- Diameter of Particles: D = 8 mesh
-- Volume Fraction: Φ = 0.064
-- Temperature: kBT = 5
-- Pair potential: LJ like 24:12 power with\epsilon=25k_BT and \sigma=D
-- Number of Iteration Steps: 100,000
-- Shear rate: 0.005
** Flocks under strong shear flow [#k2760a80]
#youtube(qVvg9NGcwC4)
#youtube(MKMNCdNsaio)
- Simulation parameters
-- Input UDF file: &ref(aggregate_LE_2.zip);
-- CFD Lattice: 128 x 128 x 128 mesh
-- Number of Particles: N = 500
-- Diameter of Particles: D = 8 mesh
-- Volume Fraction: Φ = 0.064
-- Temperature: kBT = 5
-- Pair potential: LJ like 24:12 power with\epsilon=25k_BT and \sigma=D
-- Number of Iteration Steps: 100,000
-- Shear rate: 0.05
** Files needed for reproducing this simulation [#a976a989]
-- Define UDF file: &ref(define.udf); [v3.02]
-- GOURMET: &ref(particleshow.py);
----
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