Analysis of magneto-natural convection and second law of thermodynamics of Cu-Al2O3-hybrid nanofluid in a vertical wavy cabinet having a localized non-uniform …
Improvements in thermal transference rate and minimization of entropy generation are
critical issues in many industrial and engineering applications where heat transfer coefficient …
critical issues in many industrial and engineering applications where heat transfer coefficient …
[HTML][HTML] Unlocking heat transfer potential in multi-sided porous geometries: A study on magnetothermal effects and entropy generation
This study investigates heat transfer efficiency and irreversibility generation in multi-sided
porous thermal systems filled with a Cu-Al 2 O 3-water hybrid nanofluid. The research …
porous thermal systems filled with a Cu-Al 2 O 3-water hybrid nanofluid. The research …
Analysis of Nanofluid Flow Over a Heated Circular Cylinder using the Volume of Fluid (VOF) Approach
This study employs a two‐phase Volume of Fluid (VOF) model to investigate the flow and
heat transfer characteristics of Al₂O₃-water nanofluid over a heated circular cylinder at a …
heat transfer characteristics of Al₂O₃-water nanofluid over a heated circular cylinder at a …
Implicit numerical approach for biological Schnakenberg model employing finite element method (FEM)
NM Katbar, KB Amur, I Ahmed, IA Khoso, D Mal… - Commun. Math. Biol …, 2025 - scik.org
Abstract Finite Element Method (FEM) based numerical techniques for two-dimensional and
two-directional problems are challenging for numerical analysis practitioners. In this study …
two-directional problems are challenging for numerical analysis practitioners. In this study …
Nanofluid Heat Transfer in Irregular 3D Surfaces under Magnetohydrodynamics and Multi-Slip Effects
This study employs the Buongiorno model to explore nanoparticle migration in a mixed
convection second-grade fluid over a slendering (variable thickness) stretching sheet. The …
convection second-grade fluid over a slendering (variable thickness) stretching sheet. The …