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  1. cambridge.org

    The objectives of the present study are two-fold: first, to uncover the influence of the initial interspacing between capsules in the feeding channel on the path selection phase diagram of capsules at the channel bifurcation region; second, to establish the threshold in initial interspacing above which hydrodynamic interactions become too weak ...
    Author:R.X. Lu, Z. Wang, Anne-Virginie Salsac, D. Barthès-Biesel, W. Wang, Y. SuiPublished:2021
  2. cambridge.org

    the capsule path selection (i.e. a capsule destination is identical to that of a single non-interacting capsule). The paper is organised as follows: the flow geometry of the branched channel, the governing equations and the main parameters are presented in §2; the numerical method and validations are presented in §3.
  3. researchgate.net

    path selection of capsules in a train reaches a steady regime, as shown in figure 8(a) for 348 capsules with d = 7 . 5 a at q = 0 . 55, and figure 9( a ) for d = 11 . 67 a at q = 0 . 45 (movie 5 ...
  4. semanticscholar.org

    Abstract Microfluidic systems consisting of a square microchannel with an orthogonal side branch are promising tools to enrich or sort suspensions of deformable capsules. To allow their operating control, we numerically consider a train of initially spherical identical capsules, equally spaced along the axis of the feeding channel. The capsules have a strain-hardening membrane, an internal ...
  5. researchgate.net

    This draft was prepared using the LaTeX style le belonging to the Journal of Fluid Mechanics 1 1 Path selection of a train of spherical capsules 2 in a branched microchannel R.X. Lu1, Z. Wang1, A ...
  6. cambridge.org

    1 Introduction. Path selection of a deformable capsule suspended in an external fluid flowing through a branched microchannel is an important problem that is relevant to understand blood-related flows in the microcirculation (Popel & Johnson Reference Popel and Johnson 2005; Secomb Reference Secomb 2017), aerosol particle deposition in respiratory airways (Kleinstreuer & Zhang Reference ...
  7. mendeley.com

    (2021) Lu et al. Journal of Fluid Mechanics. Microfluidic systems consisting of a square microchannel with an orthogonal side branch are promising tools to enrich or sort suspensions of deformable capsules. To allow their operating control, we numerically consider a train of initially spherical i...
  8. Université de technologie de Compiègne

    https://www.utc.fr › ~salsacan › ERC_Publis.html

    A microfluidic methodology to identify the mechanical properties of capsules: comparison with a microrheometric approach. Flow. 1, E8 (2021). Lu R.X., Wang Z., Salsac A.-V., Barthès-Biesel D., Wang W., Sui Y. Path selection of a train of spherical capsules in a branched microchannel. Journal of Fluid Mechanics. 923 (2021).
  9. cdn.techscience.cn

    13]. Our primary focus is to study the influence of the geometry of the side branch on the capsule path selection. The capsule is enclosed by a strain-hardening membrane and contains an internal fluid of the same viscosity as the fluid in which it is suspended. It is initially centered on the axis of the feed channel.
  10. sems.qmul.ac.uk

    QMUL School of Engineering and Materials Science

    https://www.sems.qmul.ac.uk › staff › y.sui › publications

    May 3, 2023Path selection of a train of spherical capsules in a branched microchannel. Cambridge University Press (Cup): Journal of Fluid Mechanics vol. 923 . ... Path selection of a train of spherical capsules in a branched microchannel. Journal of Fluid Mechanics, Cambridge University Press (CUP) vol. 923 . DOI 10.1017/jfm.2021.571. Abstract.

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