Affiliation:
1. Department of Mathematics School of Advanced Sciences Kalasalingam Academy of Research and Education (Deemed to be University) Krishnankoil, Virudhunagar (Dt.) Tamil Nadu 626126 India
2. Department of Mathematics NBKR Institute of Science and Technology (Autonomous) Vidyanagar Tirupati (Dt) Andhra Pradesh 524413 India
3. Department of Mathematics School of Advanced Sciences Vellore Institute of Technology Vellore 632014 India
Abstract
AbstractThe present work examines the computational analysis and mathematical modeling of peristaltic blood flow in a tapered channel, taking into account slip boundary conditions, Hall current, and Soret–Dufour forces. By neglecting the wave number and employing a long‐wavelength approximation to analyze the fluid model, the investigation was conducted within the framework of a low Reynolds number regime. The study reveals that the values of the Soret number, Dufour number, Prandtl number, and Schmidt number exhibit an upward trend as the fluid temperature rises. In contrast, a rise in the thermal slip parameter causes the fluid temperature to fall. It has been shown that when the mass slip parameter increases, the fluid's concentration rises. The skin friction coefficient rises within the range of x = 0.55 to x = 1 as the velocity, concentration slip parameter, Soret number, and Dufour number increase. Conversely, the skin friction coefficient decreases as the thermal slip parameter increases. The selected characteristics exhibit realism since they find use in many fields such as medical biology, biomechanics, heat exchangers, gas turbines, and several other domains.