Xing Shi, Guang Lin, Jianfeng Zou and Dmitry A. Fedosov A lattice Boltzmann fictitious domain method for modeling red blood cell deformation and multiple-cell hydrodynamic interactions in flow International Journal for Numerical Methods in Fluids 72
The figure presents the snapshots of the shape of the two interactive red blood cells at T = 31. Numerical results illustrate that the leading cell always has the larger translation velocity and deformation; on the contrary, the following cells move slower and deform lesser. The motions of the cells tend to reduce the difference among the cells both on the shape and velocity.
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