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arxiv: 1304.3828 · v1 · pith:33Y3L5CTnew · submitted 2013-04-13 · ⚛️ physics.flu-dyn

Numerical simulation of red blood cell suspensions behind a moving interface in a capillary

classification ⚛️ physics.flu-dyn
keywords interfacebehindbloodmovingcapillarycellcellscomputational
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Computational modeling and simulation are presented on the motion of red blood cells behind a moving interface in a capillary. The methodology is based on an immersed boundary method and the skeleton structure of the red blood cell (RBC) membrane is modeled as a spring network. The computational domain is moving with either a designated RBC or an interface in an infinitely long two-dimensional channel with an undisturbed flow field in front of the domain. The tanking-treading and the inclination angle of a cell in a simple shear flow are briefly discussed for the validation purpose. We then present the results of the motion of red blood cells behind a moving interface in a capillary, which show that the RBCs with higher velocity than the interface speed form a concentrated slug behind the interface.

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