Thermal Radiation Effect on Entropy in Hydromagnetic Peristaltic Flow of a Jeffrey Nanofluid Through an Unsymmetrical Channel

undefined; undefined; undefined; Raja Shekar P*; Prasad K. M Narla V. K.; Bhuvanavijaya R

Journal Article

Thermal Radiation Effect on Entropy in Hydromagnetic Peristaltic Flow of a Jeffrey Nanofluid Through an Unsymmetrical Channel

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International Journal of Innovative Technology and Exploring Engineering (2020) 9(6) 2015-2021

DOI: 10.35940/ijitee.d2046.049620

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Abstract

The present work focuses on the thermal radiation effect in Hydro Magnetic peristaltic pumping of Jeffrey nano fluid in an unsymmetrical channel. The present work looks at the radiation effect, magnetic field, Brownian motion, thermophoresis, and buoyancy forces. Well established high wavelength and tiny Reynolds number assumptions are invoked. The exact solution for the velocity, concentration, temperature has been evaluated. It has been observed that temperature is reducing with increasing of Radiation parameter.

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Shekar P*, R., Narla V. K., P. K. M., & R, B. (2020). Thermal Radiation Effect on Entropy in Hydromagnetic Peristaltic Flow of a Jeffrey Nanofluid Through an Unsymmetrical Channel. International Journal of Innovative Technology and Exploring Engineering, 9(6), 2015–2021. https://doi.org/10.35940/ijitee.d2046.049620

Thermal Radiation Effect on Entropy in Hydromagnetic Peristaltic Flow of a Jeffrey Nanofluid Through an Unsymmetrical Channel

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