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Numerical heat and solutal transfer simulation of fluid flowing <i>via</i> absorptive shrinkable sheet with Ohmic heat resistance

Wasim Jamshed, Mohamed R. Eid, Sadique Rehman, Siti Suzilliana Putri Mohamed Isa, Assmaa Abd‐Elmonem, Agaeb Mahal Alanzi, Sohail Farooq

2023Numerical Heat Transfer Part A Applications15 citationsDOI

Abstract

This work mainly deals with the effect of heat, mass transmission, and heat generating (sinking) on the time-independent two-dimensional boundary-layer flowing of radiative MHD over a sheet, which is dwindling including Joule heating. The governing formulas have been converted into nonlinear ordinary differential equations (NLODE). The final step aims to obtain the graphical numerical illustrations from the set of NLODE; this method is namely as shooting using MATLAB. The accuracy of the outcomes from this study are examines and the comparison have been made by using bvp4c routine of MATLAB. The effect of different material factors on the flow speed, energy, and concentricity have been depicted in diagrams and tables and also discussed in detail. It is found that velocity is enhanced by increasing suction, whereas temperature is increased due to radiation, heat source/sink, and Eckert number. Meanwhile, concentration profile is always being suppressed by magnetic fields, suction, Schmidt number, and chemical reaction parameter. The streamline of the velocity is intensified at the region close to the dwindling surface, whereas the density is the highest for the thicker boundary layer thickness for the temperature and concentration streamlines.

Topics & Concepts

Eckert numberMechanicsHeat transferBoundary layerJoule heatingSuctionMaterials scienceThermodynamicsHeat generationWork (physics)Thermal radiationStreamlines, streaklines, and pathlinesHeat sinkPhysicsNusselt numberComposite materialReynolds numberTurbulenceNanofluid Flow and Heat TransferHeat Transfer MechanismsHeat Transfer and Optimization
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