Heat transfer and fluid flow analysis using nanofluids in diamond-shaped cavities with novel obstacles

Abstract: This work computationally explores the two-phase flow of nanofluids and their thermal energy transport coefficients in 3D diamond-shaped cavities with square-shaped barriers having reducing dimensions. Materials with two emissivity values, ε = 0.3 and 0.9, have been considered to investigate the effect of the radiation thermal energy transport coefficient while the hot side is maintained at 400 or 500 K. Two values of the Rayleigh number, Ra = 10 6 and 10 8 , are used for the study. Cu nanoparticles (NPs) with… Show more

“…Aghaei et al 10 examined the two‐phase flow and heat energy transmission coefficients of nanofluids in diamond‐shaped cavities with square‐shaped barriers in three dimensions. They examined the influence of the radiation thermal energy transit coefficient using two values of Ra = 10 6 and 10 8 .…”

“…ave L 0 1 (10) 49 to our numerical results for the isothermal in the cavity with central obstruction placement for Ra = 10 6 .…”

Obstacle's effects and their location inside the square cavity on the thermal performance of Cu–Al₂O₃/H₂O hybrid nanofluid

“…Aghaei et al 10 examined the two‐phase flow and heat energy transmission coefficients of nanofluids in diamond‐shaped cavities with square‐shaped barriers in three dimensions. They examined the influence of the radiation thermal energy transit coefficient using two values of Ra = 10 6 and 10 8 .…”

“…ave L 0 1 (10) 49 to our numerical results for the isothermal in the cavity with central obstruction placement for Ra = 10 6 .…”

Obstacle's effects and their location inside the square cavity on the thermal performance of Cu–Al₂O₃/H₂O hybrid nanofluid

Numerical analysis of heating aerosol carbon nanofluid flow in a power plant recupesrator with considering ash fouling: a deep learning approach

Numerical simulation for energy and exergy analysis of a novel turbulator in a heat recovery system filled with hybrid nanofluid