A new transport model for the unsteady MHD forced convection of squeezing nanofluid flow with microorganisms between two parallel plates subject to Stefan blowing and multiple slips effects is investigated numerically. The microorganisms in the nanofluid is important to prevent nanoparticle agglomeration, improve stability of the nanofluids, enhance mixing and hence enhance mass transfer. Appropriate coordinate transformations are used to transform the governing transport equations into nonlinear ordinary differential equations. The differential equations are then solved numerically.
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