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- Title
Numerical study of MHD radiative Williamson fluid over an inclined moving plate covering of water-based hybrid nanomaterial.
- Authors
Jangid, Sanju; Mehta, Ruchika; Singh, Jagdev; Kumar, Devendra
- Abstract
Modern developments in nanotechnology have provided a fantastic foundation for creating a better ultra-high-performing coolant known as nanofluids for many applications in manufacturing and engineering. Numerous scholars have been drawn in by the hybrid nanomaterials' capacity to improve heat transmission more to examine the working fluid. This study uses the mathematical solution to explore the effect of viscous dissipative on the radiative-convective Williamson hybrid nanofluid flow through an angled moving plate with a magnetic impression. Focusing on certain reasonable assumptions, a nonlinear partial differential equation system is developed and then numerically solved using the bvp4c method. It is thoroughly explained how a particular collection of distinctive factors affects the motion features, shear stress, temperature field profiles and heat transfer. The motion declined with increasing Williamson fluid for both stretching and shrinking surfaces. An upsurge profile for energy is showing for radiation impression. The shear rate falls with the inclined plate and increases with the buoyancy impression.
- Subjects
NANOSTRUCTURED materials; HEAT transfer; PARTIAL differential equations; NONLINEAR differential equations; WORKING fluids; NANOFLUIDS
- Publication
International Journal of Modern Physics B: Condensed Matter Physics; Statistical Physics; Applied Physics, 2024, Vol 38, Issue 19, p1
- ISSN
0217-9792
- Publication type
Article
- DOI
10.1142/S0217979224502485