Activation energy and chemical reaction effects on MHD Bingham nanofluid flow through a non-Darcy porous media
Ibrahim, M., Abdallah, N., Abouzeid, M. (2022). Activation energy and chemical reaction effects on MHD Bingham nanofluid flow through a non-Darcy porous media. EKB Journal Management System, 65(132), 137-144. doi: 10.21608/ejchem.2022.117814.5310
Mohamed Ibrahim; Naglaa Abdallah; Mohamed Abouzeid. "Activation energy and chemical reaction effects on MHD Bingham nanofluid flow through a non-Darcy porous media". EKB Journal Management System, 65, 132, 2022, 137-144. doi: 10.21608/ejchem.2022.117814.5310
Ibrahim, M., Abdallah, N., Abouzeid, M. (2022). 'Activation energy and chemical reaction effects on MHD Bingham nanofluid flow through a non-Darcy porous media', EKB Journal Management System, 65(132), pp. 137-144. doi: 10.21608/ejchem.2022.117814.5310
Ibrahim, M., Abdallah, N., Abouzeid, M. Activation energy and chemical reaction effects on MHD Bingham nanofluid flow through a non-Darcy porous media. EKB Journal Management System, 2022; 65(132): 137-144. doi: 10.21608/ejchem.2022.117814.5310

Activation energy and chemical reaction effects on MHD Bingham nanofluid flow through a non-Darcy porous media

Egyptian Journal of Chemistry
Volume 65, Issue 132, December 2022, Page 137-144  XML PDF (1.01 MB)
Document Type: Original Article
DOI: 10.21608/ejchem.2022.117814.5310
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Authors
Mohamed Ibrahim1; Naglaa Abdallah email orcid 2; Mohamed Abouzeidorcid 2
1Department of Basic and Applied Science, Faculty of Engineering, International academy for engineering and media science, 11311, Cairo, Egypt.
2Mathematics Department, Faculty of Education, Ain Shams University, Cairo, Egypt
Abstract
This study is carried out to analyze the problem of MHD mixed convection flow of Bingham nanofluid through a non-Darcy porous medium in a tube with peristalsis. Activation energy and viscous dissipation effects are taken into consideration. The governing partial differential equations are transformed into a set of nonlinear ordinary differential equations under the assumptions of long wavelength and low-Reynolds number approximations. MS-DTM technique is performed to obtain series solutions for that system of equations. The behavior of the axial velocity, temperature and nanoparticles concentration distributions under the effect of different problem parameters to these distributions is discussed analytically and graphically. Mechanics of some sophisticated physiological transports may be explained with the help of this study.
Keywords
Blood flow; Bingham nanofluid; Non-Darcian effects; Activation energy; Ms-DTM
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