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W4378807738 abstract "The bioconvective flows are truly connected to real-life and engineering development. So, the models of biomicrosystems and biocells are considered for the technical analysis in this paper. Our intention for the current analysis was to theoretically examine electrical conduction flow into mass and heat transfer by an extensive gyrotactic microorganism into an inclined magnetic field toward a vertical stretching sheet with nonlinear solar radiation with different solar thermal appliances. The effect on velocity slip and Joule heating was again studied in detail. This classical problem on Navier Stokes equations to the current imitation was decreased to ordinary differential equations by applying the comparison method. The numerical solutions were changed by boundary value problem (BVP) to clarify the subject into finite difference numerical scheme by applying MATLAB. The important results show that the density of motile microorganisms reduces to the bioconvection Lewis number and Peclet number, although reverse performance was noticed for the bioconvection Rayleigh number. Further, solar radiation fosters heat transport. In this paper, complete analysis is provided for potential functions of solar thermoelectric cells, solar ponds, solar thermal power fabrication, etc." @default.
W4378807738 created "2023-06-01" @default.
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W4378807738 date "2023-05-31" @default.
W4378807738 modified "2023-09-28" @default.
W4378807738 title "Solar thermal energy of Oldroyd-B nanofluidic flow containing gyrotactic microorganisms through interaction of magnetic field" @default.
W4378807738 doi "https://doi.org/10.1142/s0217979224501893" @default.
W4378807738 hasPublicationYear "2023" @default.
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