Abstract
When a two-component melt is solidifying from a bottom boundary, convection may be induced in an unstable compositional boundary layer. In this study, the onset of compositional convection during time-dependent solidification is investigated by using similarly transformed disturbance equations. The critical Darcy–Rayleigh numbers based on the mushy-layer thickness are found numerically for various Lewis numbers, superheats, and Darcy numbers. In aqueous ammonium chloride solution, the critical conditions at the onset of mushy-layer-mode convection are consistent with existing theoretical and experimental results. For small superheats and Darcy numbers, the present predictions for boundary-layer-mode instabilities approach the results of convective instability during steady solidification.
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