Corpus ID: 119667913

Parallel contact-aware simulations of deformable particles in 3D Stokes flow

@article{Lu2018ParallelCS,
  title={Parallel contact-aware simulations of deformable particles in 3D Stokes flow},
  author={Libin Lu and A. Rahimian and D. Zorin},
  journal={arXiv: Numerical Analysis},
  year={2018}
}
  • Libin Lu, A. Rahimian, D. Zorin
  • Published 2018
  • Mathematics
  • arXiv: Numerical Analysis
  • We present a parallel-scalable method for simulating non-dilute suspensions of deformable particles immersed in Stokesian fluid in three dimensions. A critical component in these simulations is robust and accurate collision handling. This work complements our previous work [L. Lu, A. Rahimian, and D. Zorin. Contact-aware simulations of particulate Stokesian suspensions. Journal of Computational Physics 347C: 160-182] by extending it to 3D and by introducing new parallel algorithms for collision… CONTINUE READING
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    References

    Publications referenced by this paper.
    SHOWING 1-10 OF 71 REFERENCES
    Contact-aware simulations of particulate Stokesian suspensions
    8
    High-volume fraction simulations of two-dimensional vesicle suspensions
    31
    A boundary integral method for simulating the dynamics of inextensible vesicles suspended in a viscous fluid in 2D
    145
    A boundary-integral study of a drop squeezing through interparticle constrictions
    42
    Dynamic simulation of the flow of suspensions of two-dimensional particles with arbitrary shapes
    13
    A novel boundary-integral algorithm for viscous interaction of deformable drops
    174
    A fast algorithm for simulating vesicle flows in three dimensions
    108
    Implicit Contact Handling for Deformable Objects
    116