Asymptotic solution of thermocapillary convection in two immiscible liquid layers in a shallow annular cavity

Abstract: The steady laminar two-dimensional thermocapillary convection of two superposed horizontal liquid layers in a shallow annular cavity was investigated using asymptotical analysis. The liquids were supposed to be immiscible with a nondeformable interface. The cavity was heated from the outer cylindrical wall and cooled at the inner wall. Bottom and top surfaces were rigid and adiabatic. Asymptotic solutions were obtained in the core region in the limit as the aspect ratio, which was defined as the ratio of the l… Show more

“…The validation of the code for the thermal flow simulation has been performed in our previous works (Li et al 2008) and there is no need to repeat here. The physical properties of 5cSt silicone oil and HT-70 are identical to those in publication by Li et al (2010). The thickness ratio of liquid layers h * , the radius ratio and the aspect ratio ε of the system are 1, 0.2 and 0.05-0.1, respectively.…”

“…But there is a lack of the understanding on the fundamental characteristics of the thermal convection in the annular two-layer liquid system. Recently, we have reported an asymptotic solution of the thermocapillary convection in thin annular two superposed horizontal liquid layers subjected to a radial temperature gradient (Li et al 2009(Li et al , 2010. In this paper, we presented the simulation results on the thermocapillary-buoyancy convection for the annular two-layer system subjected to a radial temperature gradient.…”

Thermocapillary-Buoyancy Convection in Annular Two-layer System with a Radial Temperature Gradient

“…The validation of the code for the thermal flow simulation has been performed in our previous works (Li et al 2008) and there is no need to repeat here. The physical properties of 5cSt silicone oil and HT-70 are identical to those in publication by Li et al (2010). The thickness ratio of liquid layers h * , the radius ratio and the aspect ratio ε of the system are 1, 0.2 and 0.05-0.1, respectively.…”

“…But there is a lack of the understanding on the fundamental characteristics of the thermal convection in the annular two-layer liquid system. Recently, we have reported an asymptotic solution of the thermocapillary convection in thin annular two superposed horizontal liquid layers subjected to a radial temperature gradient (Li et al 2009(Li et al , 2010. In this paper, we presented the simulation results on the thermocapillary-buoyancy convection for the annular two-layer system subjected to a radial temperature gradient.…”

Thermocapillary-Buoyancy Convection in Annular Two-layer System with a Radial Temperature Gradient

“…In recent years, more and more scholars have studied the stability of the thermocapillary convective in two-layer fluid system. Li et al [4,5] carried out the two-dimensional numerical simulation on the annular two -layer system of B2O3 / GaAs and 5cst silicone oil / H2O with upper free surface, and they also solved the asymptotic solution for the annular two-layer system [6,7] . The results reflect the liquid seal can greatly enhance the stability of the system, and the critical Marangoni number of the two-layer fluid is about two orders of magnitude than that of the single liquid layer under the same conditions.…”

Stability Analysis of Thermocapillary Convection of B₂O₃/Sapphire Melt in an Annular Pool

Steady thermal-solutal capillary convection in a shallow annular pool with the radial temperature and concentration gradients