Diffusion-controlled dissolution of a binary solid into a ternary liquid with partially molten zone formation by D.C Hatton, and A.W Woods Proceedings.

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Presentation transcript:

Diffusion-controlled dissolution of a binary solid into a ternary liquid with partially molten zone formation by D.C Hatton, and A.W Woods Proceedings A Volume 464(2094): June 8, 2008 ©2008 by The Royal Society

Constant temperature contours and cotectic lines, in (KCl concentration, NaCl concentration) space, in our multilinear phase equilibrium model. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

(a) Schematic of path in (salt A concentration, salt B concentration) space traced out, on moving from far-field fluid (point A), past trailing front (point B), to leading front (point C). D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

Schematic of path in (salt A concentration, salt B concentration) space traced out, on moving from far-field fluid (point A), past trailing front (point B), to leading front (point C), with effect of temperature on phase equilibrium concentration neglected. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

Predicted locus, in (far-field fluid KCl concentration, far-field fluid NaCl concentration, far-field solid composition) space, of conditions where the two fronts travel together, λ=μ, and there is no partially molten zone. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

Predicted dimensionless rate constants λ and μ, for movement of trailing and leading interfaces, respectively, as functions of NaCl concentration CNa0 in far-field fluid. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

Predicted dimensionless rate constants λ and μ, for movement of trailing and leading interfaces, respectively, as functions of NaCl concentration CNa0 in far-field fluid. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

Predicted dimensionless rate constants λ and μ, for movement of trailing and leading interfaces, respectively, as functions of NaCl concentration CNa0 in far-field fluid. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

Predicted dimensionless rate constants λ and μ, for movement of trailing and leading interfaces, respectively, as functions of NaCl concentration CNa0 in far-field fluid. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

Predicted expansion parameter value, as function of NaCl concentration in the far-field fluid. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

(a) Schematic of path in (salt A concentration, salt B concentration) space traced out, on moving from far-field fluid (point A) to single front (point B) or from far-field fluid (point C) past trailing front (point D) to leading front (point E), for pure K... D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

Predicted locus, in (far-field fluid KCl concentration, far-field fluid NaCl concentration) space, of conditions where the two fronts travel together, λ=μ, and there is no partially molten zone. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society

Predicted dimensionless rate constants λ and μ, for movement of trailing and leading interfaces, respectively, as functions of NaCl concentration CNa0 in far-field fluid. D.C Hatton, and A.W Woods Proc. R. Soc. A 2008;464: ©2008 by The Royal Society