Convective instability in ammonium chloride solution directionally solidified from below
Resource
Journal of Fluid Mechanics 216: 163-187
Journal
Journal of Fluid Mechanics
Pages
163-187
Date Issued
1994
Date
1994
Author(s)
Abstract
The stabilities of salt-finger and plume convection, two major flows characterizing the fluid dynamics of NH4C1 solutions cooling from below, are investigated by theoretical and experimental approaches. A linear stability analysis is implemented to study theoretically the onset of salt-finger convection. Special emphasis is placed on the competition between different instability modes. It is found that in most of the cases considered, the neutral curve consists of two separated monotonic branches with a Hopf bifurcation branch in between; the right-hand monotonic branch corresponding to the boundary-layer-mode convection is more unstable than the left-hand monotonic branch corresponding to the mushy-layer mode. We also conducted a series of experiments covering wide ranges of bulk fluid concentration Crxjand bottom temperature TBto study the stability characteristics of plume convection. From the measurement of both temperature and concentration of the interstitial fluid in the mushy layer, we verify that during the progress of solidification the melt in the mush is in a thermodynamic equilibrium state except at the melt/mush interface where most of the solidification occurs. The critical Rayleigh number of the onset of plume convection is found to be Rccm = 1.1 x 107II* (see (22)), where H* is the permeability of the mush. This relation is believed to be valid up to supereutectic NH4C1 solutions. © 1994, Cambridge University Press. All rights reserved.
Other Subjects
Ammonium Chloride; Cooling; Experimental Methods; Fingers; Instability; Plumes; Salt; Ammonium compounds; Characterization; Cooling; Fluid dynamics; Heat convection; Interfaces (materials); Solidification; Temperature measurement; Thermodynamic stability; Ammonium chloride solution; Convective instability; Hopf bifurcation branch; Rayleigh number; Solutions
Type
journal article
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