Modified Arrhenius and Thermal Radiation Effects on Three-Dimensional Magnetohydrodynamic Flow of Carbon Nanotubes Nanofluids Over Bi-Directional Stretchable Surface-Reference-Cited by-同舟云学术

Modified Arrhenius and Thermal Radiation Effects on Three-Dimensional Magnetohydrodynamic Flow of Carbon Nanotubes Nanofluids Over Bi-Directional Stretchable Surface

Published:2021-12-01 Issue:4 Volume:10 Page:538-551
ISSN:2169-432X
Container-title:Journal of Nanofluids
language:en
Short-container-title:j nanofluids

Author:

Upreti Himanshu¹,Pandey Alok Kumar²,Rawat Sawan Kumar³,Kumar Manoj⁴

Affiliation:

1. Department of Allied Sciences, Graphic Era Hill University, Haldwani 263139, Uttarakhand, India

2. Department of Mathematics, Graphic Era Deemed to be University, Dehradun 248002, Uttarakhand, India

3. Department of Mathematics, Central University of Rajasthan, Ajmer 305817, Rajasthan, India

4. Department of Mathematics, Statistics and Computer Science, G. B. Pant University of Agriculture and Technology, Pantnagar 263145, Uttarakhand, India

Abstract

In the current study, 3D hydro-magnetic flow of CNTs-EG/EO/H2O nanofluids over bi-directional stretchable surface along with linear thermal radiation, modified Arrhenius, thermophoresis and Brownian diffusion are studied. The three base fluids i.e., EG (Ethylene Glycol), EO (Engine Oil) and H2O are considered for the analysis. For computing the effective viscosity and thermal conductivity of nanofluid, Wang’s viscosity model and Hamilton-Crosser’s thermal conductivity model have been used. The system of transformed non-linear ODEs is solved by shooting scheme. The comparison of heat transfer rate in CNTs-EG, CNTs-EO and CNTs-H2O nanofluids is depicted by bar diagrams. The outcomes of the present work showed that MWCNTs based nanofluids have a higher temperature gradient compared to that of SWCNTs based nanofluids. Moreover, temperature distribution corresponding to the engine oil-based nanofluids declined at a very high rate followed by ethylene glycol and water-based nanofluids, respectively.

Publisher

American Scientific Publishers

Subject

Fluid Flow and Transfer Processes,Mechanical Engineering

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