* A single swimmer (puller) [#ad1858a7]
#youtube(XpHOqzQtfDc)
#youtube(Y0WDhvTi-Gg)
- Simulation parameters (&ref(squirm_single_a+2.udf);)
-- CFD Lattice: 64 x 64 x 64 mesh
-- Number of Particles: N = 1
-- Diameter of Particles: D = 10 mesh
-- Volume Fraction: Φ = 0.002
-- Swimming Speed: V = 2/3 B1 = 0.01
-- Squirming Mode: B2 = +2
-- Particles Reynolds No.: Re ~ 0.01
-- Number of Iteration Steps: 500,000
-- Computation Time: 0.6 Days on single core
----

* A suspension of swimmers (puller) [#d9ed11c5]
#youtube(Mnk3kWLNZi8)
#youtube(9B7mMeGsQcY)
- Simulation parameters (&ref(squirm_phi0.1_a+2.udf);)
-- CFD Lattice: 64 x 64 x 64 mesh
-- Number of Particles: N=50
-- Diameter of Particles: D = 10 mesh
-- Volume Fraction: Φ = 0.1
-- Swimming Speed: V = 2/3 B1 = 0.01
-- Squirming Mode: B2 = +2
-- Particles Reynolds No.: Re~0.01
-- Number of Iteration Steps: 1,000,000
-- Computation Time: 2 days on single core
----

- Files needed for reproducing this simulation
-- Input UDF file: &ref(squirm_single_a+2.udf); &ref(squirm_phi0.1_a+2.udf); 
-- Define UDF file: &ref(History/define.udf);
-- Define UDF file: &ref(define.udf); [v3.02]
-- GOURMET: &ref(particleshow.py);
-- AVS/Express: &ref(janus.v);
-- Mathematica: &ref(swimmer_trj_example.nb);
----

- Related Papers
-- J.J Molina, Y. Nakayama, R. Yamamoto, ''Hydrodynamic Interactions of Self-Propelled Swimmers''&br;
[[Soft Matter Vol.9(19), 4923-4936 (2013):http://xlink.rsc.org/?DOI=c3sm00140g]].