Influence of both Chemical Reaction and Electro-Osmosis on MHD Non-Newtonian Fluid Flow with Gold Nanoparticles
Hegazy, N., Eldabe, N., Abouzeid, M., Abousaleem, A., Alana, A. (2023). Influence of both Chemical Reaction and Electro-Osmosis on MHD Non-Newtonian Fluid Flow with Gold Nanoparticles. EKB Journal Management System, 66(10), 191-201. doi: 10.21608/ejchem.2023.190175.7526
Nada Hegazy; Nabil Tawfik Eldabe; Mohamed Abouzeid; Adel Abousaleem; Ahmed Alana. "Influence of both Chemical Reaction and Electro-Osmosis on MHD Non-Newtonian Fluid Flow with Gold Nanoparticles". EKB Journal Management System, 66, 10, 2023, 191-201. doi: 10.21608/ejchem.2023.190175.7526
Hegazy, N., Eldabe, N., Abouzeid, M., Abousaleem, A., Alana, A. (2023). 'Influence of both Chemical Reaction and Electro-Osmosis on MHD Non-Newtonian Fluid Flow with Gold Nanoparticles', EKB Journal Management System, 66(10), pp. 191-201. doi: 10.21608/ejchem.2023.190175.7526
Hegazy, N., Eldabe, N., Abouzeid, M., Abousaleem, A., Alana, A. Influence of both Chemical Reaction and Electro-Osmosis on MHD Non-Newtonian Fluid Flow with Gold Nanoparticles. EKB Journal Management System, 2023; 66(10): 191-201. doi: 10.21608/ejchem.2023.190175.7526

Influence of both Chemical Reaction and Electro-Osmosis on MHD Non-Newtonian Fluid Flow with Gold Nanoparticles

Egyptian Journal of Chemistry
Volume 66, Issue 10, October 2023, Page 191-201  XML PDF (1.39 MB)
Document Type: Original Article
DOI: 10.21608/ejchem.2023.190175.7526
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Authors
Nada Hegazy1; Nabil Tawfik Eldabe2; Mohamed Abouzeid email 3; Adel Abousaleem1; Ahmed Alana1
1Department of Mathematics, Faculty of Science, Kafrelsheikh University, Kafrelsheikh, Egypt
2Mathematics Department, Faculty of Education, Ain Shams University, Cairo, Egypt
3Ain Shams University
Abstract
In this paper, the problem of electro-osmotic peristaltic motion of nano-coupled stress fluid with heat transfer through a non-uniform inclined channel is studied. The fluid obeys the power-law model and flows through a non-Darcy porous medium. Moreover, the effects of external magnetic field, thermal radiation, heat generation, Ohmic dissipation and chemical reaction are taken into consideration. The governing equations that describe the velocity, temperature and nanoparticles concentration are simplified under the assumption of long wavelength and low-Reynolds number. The resulting system of partial variousial equations is solved numerically by using Rung-Kutta-Merson method. The solutions are obtained as functions of the physical problem parameters. The effects of these parameters on the obtained solutions are discussed and illustrated graphically through a set of figures. It is found that the axial velocity profiles decrease with the increase of electro-osmotic parameter.
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