Analysis of ferrite nanoparticles in the flow of ferromagnetic nanofluid.
作者: Noor Muhammad , Sohail Nadeem , M. T. Mustafa
DOI: 10.1371/JOURNAL.PONE.0188460
关键词:
摘要: Theoretical analysis has been carried out to establish the heat transport phenomenon of six different ferromagnetic MnZnFe2O4—C2H6O2 (manganese zinc ferrite-ethylene glycol), NiZnFe2O4—C2H6O2 (Nickel Fe2O4—C2H6O2 (magnetite NiZnFe2O4—H2O ferrite-water), MnZnFe2O4—H2O and Fe2O4—H2O ferrite-water) nanofluids containing manganese ferrite, Nickel magnetite ferrite nanoparticles dispersed in a base fluid ethylene glycol water mixture. The performance convective transfer is elevated boundary layer flow region via nanoparticles. Magnetic dipole presence ferrites plays vital role controlling thermal momentum layers. In perspective this, impacts magnetic on nano layer, steady, laminar incompressible are analyzed present study. Flow caused by linear stretching surface. Fourier’s law conduction used evaluation flux. Impacts emerging parameters magneto—thermomechanical coupling numerically. Further, it evident that Newtonian heating increasing behavior rate layer. Comparison with available results for specific cases show an excellent agreement.
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