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- Title
Magnetohydrodynamic conjugate heat transfer analysis on a viscous fluid past a vertical permeable plate.
- Authors
Bhargavi, N.; Poornima, T.; Souayeh, Basma
- Abstract
The influence of conjugate heat transfer based on radiation and magnetohydrodynamic utilization is an attractive research area, with progressive features; it has many applications in thermal engineering, heat exchangers, cooling phenomenon, magnetic cell separation, energy production, hyperthermia, etc. Following the motivating significances of the current research topic, this paper explores the influences of an electrically conducting and radiating fluid with internal friction, heat generation and thermal radiation embedded in a porous medium past a flat permeable plate. The boundary layer equations are dimensionally transformed and solved numerically using implicit finite difference technique called the Keller-box method. The effect of various fluid obeying parameters such as magnetic field, viscous dissipation and heat generation on the flow factors such as velocity and temperature are graphed and discussed in this paper. Growing heat source, energy inside the fluid boosts, thereby increasing the energy of the flow. Increase in generation of energy reduces the viscosity of the flow reduces thereby increasing the velocity of the flow particles.
- Subjects
FREE convection; HEAT transfer; FLUID friction; BOUNDARY layer equations; HEAT radiation &; absorption; FLOW velocity
- Publication
International Journal of Modern Physics B: Condensed Matter Physics; Statistical Physics; Applied Physics, 2024, Vol 38, Issue 16, p1
- ISSN
0217-9792
- Publication type
Article
- DOI
10.1142/S0217979224502114