Solid–fluid phase equilibria of compositionally complex mixtures: contrast of equilibrium and process treatments

The authors examine the solid–fluid equilibrium problem using two computational perspectives: (1) the thermodynamic equilibrium view, wherein the solid phase remains in the system in equilibrium with the fluid phase, and (2) the process sequential view, wherein the solid phase is removed from the eq...

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Veröffentlicht in:	Fluid phase equilibria 2003-04, Vol.205 (2), p.215-232
Hauptverfasser:	Labadie, Joseph A., Luks, Kraemer D.
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemistry Crystallization Exact sciences and technology General and physical chemistry Others (including liquid-liquid-vapor equilibria) Phase equilibria Pseudocomponents Solid–fluid equilibria
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container_title	Fluid phase equilibria
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creator	Labadie, Joseph A. Luks, Kraemer D.
description	The authors examine the solid–fluid equilibrium problem using two computational perspectives: (1) the thermodynamic equilibrium view, wherein the solid phase remains in the system in equilibrium with the fluid phase, and (2) the process sequential view, wherein the solid phase is removed from the equilibrium system as it is formed. The latter view represents the solid–fluid systems in which the solids forming incrementally at successively lower temperatures remain compositionally unchanged as temperature decreases further, i.e. metastable. It is demonstrated for a quadrature-characterized complex system that choice of perspective affects both the compositions and the phenomenological nature of the phase equilibria.
doi_str_mv	10.1016/S0378-3812(02)00279-0
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subjects	Chemistry Crystallization Exact sciences and technology General and physical chemistry Others (including liquid-liquid-vapor equilibria) Phase equilibria Pseudocomponents Solid–fluid equilibria
title	Solid–fluid phase equilibria of compositionally complex mixtures: contrast of equilibrium and process treatments
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