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Artificial heart valves are used to replace diseased heart valves [1]. Accurate performance of the valve includes a right opening and closing process of the valves during each heartbeat. Recent studies focus on 3D computational models for commercial valvular prosthesis in non-stationary conditions for non-Newtonian Fluids [2]. However, lifespan of mechanical valves needs to be improved. The main goal...
This research done introduces a parallel approach in visualising a three dimensional (3D) virtual heart model simulation dataset. The paper outlines briefly the immersed boundary method (IBM) and how they differ from regular CFD. The dissimilarities motivate the need to show graphical representation of the IBM. The Immersed Boundary Method was then used to compute the 3D heart model simulation. The...
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