Time Response of Natural Convection of Nanofluid CuO-H2O in Enclosure Submitted to a Sinusoidal Thermal Boundary Condition

Abstract: A two-dimensional steady laminar natural convection in rectangular enclosure filled with CuO-water nanofluid is numerically investigated. The horizontal walls are thermally insulated and the left vertical side one is heated by a temporal sinusoidal temperature variation, whereas the right wall is kept at cold temperature. Mass Conservation, momentum, and energy equations are numerically solved by the finite volume element method using the SIMPLER algorithm for pressure-velocity coupling. This study has been ca… Show more

“…It was noted that the maximum heat transfer rate occurred at the period between 25π and 30π. Bouhalleb and Abbassi [35] showed a numerical investigation of free convection within two-dimensional rectangular enclosure occupied by CuO water nanofluid. The two horizontal walls were perfectly insulated and the left vertical side was heated by a sinusoidal temperature distribution source.…”

Heat and Entropy Lines Visualization of Natural Convection Between Hot Inner Circular Cylinder and Cold Outer Sinusoidal Cylinder

“…It was noted that the maximum heat transfer rate occurred at the period between 25π and 30π. Bouhalleb and Abbassi [35] showed a numerical investigation of free convection within two-dimensional rectangular enclosure occupied by CuO water nanofluid. The two horizontal walls were perfectly insulated and the left vertical side was heated by a sinusoidal temperature distribution source.…”

Heat and Entropy Lines Visualization of Natural Convection Between Hot Inner Circular Cylinder and Cold Outer Sinusoidal Cylinder

Effects of fluctuating heat flux on natural convection of Al2O3 and Cu nanofluids in a square enclosure: a lattice Boltzmann study