Stability analysis of mixed convection in a porous horizontal channel filled with a Newtonian \(Al_2O_3\)/\textit{Water} nanofluid in presence of magnetic field and thermal radiation
From MaRDI portal
Publication:6497410
DOI10.1016/J.CJPH.2022.08.024MaRDI QIDQ6497410
Pascalin Tiam Kapen, Ghislain Tchuen, Cedric Gervais Njingang Ketchate, Didier Fokwa
Publication date: 6 May 2024
Published in: Chinese Journal of Physics (Taipei) (Search for Journal in Brave)
stability analysisporous mediummixed convectionthermal radiationChebyshev collocation methodnanofluid
Basic methods in fluid mechanics (76Mxx) Numerical methods for ordinary differential equations (65Lxx) Hydrodynamic stability (76Exx)
Cites Work
- A multi-interval Chebyshev collocation approach for the stability of periodic delay systems with discontinuities
- Flow and heat transfer on a continuous flat surface moving in a parallel free stream of power-law fluid
- Local similarity solution for the flow of a ``second-grade viscoelastic fluid above a moving plate
- Casson fluid flow in a pipe filled with a homogeneous porous medium
- Instability of natural convection in a vertical fluid layer with net horizontal throughflow
- Entropy generation analysis of different nanofluid flows in the space between two concentric horizontal pipes in the presence of magnetic field: single-phase and two-phase approaches
- Magnetohydrodynamic stability of pressure-driven flow in an anisotropic porous channel: accurate solution
- MASS TRANSFER EFFECTS ON THE UNSTEADY FLOW OF UCM FLUID OVER A STRETCHING SHEET
- On the Chebyshev collocation spectral approach to stability of fluid flow in a porous medium
- Accurate solution of the Orr–Sommerfeld stability equation
This page was built for publication: Stability analysis of mixed convection in a porous horizontal channel filled with a Newtonian \(Al_2O_3\)/\textit{Water} nanofluid in presence of magnetic field and thermal radiation
