Scientific Reports (Sep 2023)

Thermodynamic flow of radiative induced magneto modified Maxwell Sutterby fluid model at stretching sheet/cylinder

  • Nadeem Abbas,
  • Wasfi Shatanawi,
  • Fady Hasan,
  • Zead Mustafa

DOI
https://doi.org/10.1038/s41598-023-40843-w
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 15

Abstract

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Abstract A steady flow of Maxwell Sutterby fluid is considered over a stretchable cylinder. The magnetic Reynolds number is considered very high and induced magnetic and electric fields are applied on the fluid flow. Joule heating and radiation impacts are studied under the temperature-dependent properties of the liquid. Having the above assumptions, the mathematical model has been evolving via differential equations. The differential equations are renovated in the dimensionless form of ordinary differential equations using the appropriate transformations. The numerical results have been developed employing numerical techniques on the ordinary differential equations. The impact of involving physical factors on velocity, induced magneto hydrodynamic, and temperature function is debated in graphical and tabular form. The velocity profile is boosted by thicker momentum boundary layers, which are caused by higher values of the magnetic field factor. So, the fluid flow becomes higher velocity due to enlarging values of the magnetic field factor. Heat transfer factor and friction at surface factor boosted up for increment of $${\gamma }_{0}$$ γ 0 (Magnetic field factor). The $${\gamma }_{0}$$ γ 0 (Magnetic field factor) is larger which better-quality of heat transfer at surface and also offered the results of friction factor boosting up in both cases of stretching sheet/cylinder. The $${\lambda }_{0}$$ λ 0 (Magnetic Prandtl number) increased which provided better-quality of heat transfer at surface.