Bifurcation and Stability Analysis of Stagnation Point for Fluid Flow in an Inclined Channel with Inclined Magnetic Field for Peristaltic Transport

Hatem Nahi  Mohaisen; Ahmad M.  Abedulhadi; Rasha M.  Yaseen

doi:10.24996/ijs.2024.65.5.29

Authors

Hatem Nahi Mohaisen Department of Mathematic, Minister’s office, Ministry of High Education and Scientific Research, Iraq https://orcid.org/0000-0001-9442-7184
Ahmad M. Abedulhadi Department of Mathematics, College of Science, University of Baghdad, Iraq
Rasha M. Yaseen Department of Biomedical Eng., Al-Khwarizmi College of Engineering, University of Baghdad, Iraq

DOI:

https://doi.org/10.24996/ijs.2024.65.5.29

Keywords:

Nonlinear Autonomous System, bifurcations, Streamline, Peristaltic Transport, Inclined Channel, Inclined Magnetic

Abstract

Streamlined peristaltic transport patterns, bifurcations of equilibrium points, and effects of an inclined magnetic field and channel are shown in this study. The incompressible fluid has been the subject of the model's investigation. The Reynolds values for evanescence and an infinite wavelength are used to constrain the flow while it is being studied in a slanted channel with a slanted magnetic field. The topologies over their domestic and cosmopolitan bifurcations are investigated for the outcomes, and notion of the dynamical system are employed. The Mathematica software is used to solve the nonlinear autonomous system. The flow is found to have three different flow distributions namely augmented, trapping and backward flow. Outcomes are graphically represented along with a number of parameters that have an impact on how the fluid behaves when flowing with bifurcations.