Effect of wall-slip on natural convection in a square cavity

Abstract: Numerical simulations are performed to investigate the effect of wall-slip on natural convection inside a square cavity for Rayleigh number (Ra) = 105. The bottom wall is heated and top wall is maintained at a cold temperature keeping the other two vertical walls adiabatic. The analysis is conducted by varying the Slip factor (SF) from 0 (no-slip) to 1 (full-slip) in steps of 0.2. For each value of SF, the flow patterns are visualised using streamlines and heat transfer behaviour is examined using isotherms. R… Show more

“…They stated that although increasing the rate of solid particles and Richardson number contributed to improving Nusselt number, incrementing slip factor declined it. Also, Suresh et al [30] modeled the impacts of slip boundary conditions on natural convection in an enclosure just in Ra = 10 5 . Their results depicted that incrementing slip factor contributed to rising Nusselt number.…”

Investigation of adding metal foams and slip velocity on natural convection in a square mini-cavity

“…They stated that although increasing the rate of solid particles and Richardson number contributed to improving Nusselt number, incrementing slip factor declined it. Also, Suresh et al [30] modeled the impacts of slip boundary conditions on natural convection in an enclosure just in Ra = 10 5 . Their results depicted that incrementing slip factor contributed to rising Nusselt number.…”

Investigation of adding metal foams and slip velocity on natural convection in a square mini-cavity

Free convection in a 2D partially opened cavity (AR = 1) with an internal heated square object