Abstract
In this paper, a blood microfluidic transport system without solid pipe wall is introduced, and the transport process of the microfluidic transport system is simulated by using the transient simulation of unidirectional flow of blood non-Newtonian fluid, two-phase flow of blood-magneto-fluid. The microfluidic transport system is verified to reach a flow rate of 40 ml/min by comparing the parameter flow rate, drag reduction factor (DR), velocity, and drop pressure with those of a conventional microfluidic system, and it also proves that the magneto-fluidic liquid pipe wall not only improves the transport efficiency of the blood, but also can better control the speed and flow rate size. At the same time, it reduces the loss of the blood in the process of delivery and guarantees the quality of the transported blood.
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