Correlation for the variations with temperature of solute solubilities in high temperature water

Valle, José M. del; Fuente, Juan C. de la; Srinivas, Keerthi; King, Jerry W.

doi:10.1016/j.fluid.2010.12.004

Cited by 7 publications

(8 citation statements)

References 23 publications

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“…Predictive approaches to ascertain the solubility of solutes in sub‐ and supercritical fluids include application of group contribution methods (Klopman and others 1992; Pinho and others 1994), UNIFAC models (Fornari and others 2008), MOSCED models (Frank and others 2007), AQUAFAC models (Myrdal and others 1992), and a number of semi‐empirical equations (Miller and Hawthorne 2000; Clifford and Hawthorne 2002; del Valle and others 2006). Although experimental procedures have been established to measure the solubility of various low molecular weight solutes in subcritical water conditions (Mathis and others 2004), problems arise in using these methods for molecularly complex and very polar solutes in hot pressurized water; due to their high cost and low thermo‐stability at high temperatures and pressures.…”

Section: Introductionmentioning

confidence: 99%

Optimization of Subcritical Fluid Extraction of Bioactive Compounds Using Hansen Solubility Parameters

Srinivas¹,

King²,

Monrad³

et al. 2009

Journal of Food Science

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Process engineering operations in food and nutraceutical industries pertaining to the design of extraction of value-added products from biomass using pressurized liquids involve a careful selection of the solvent and optimal temperature conditions to achieve maximum yield. Complex molecular structure and limited physical property data in the literature of biological solutes extracted from biomass compounds have necessitated the process modeling of such operations. In this study, we have applied the Hansen 3-dimensional solubility parameter concept to optimize the extraction of molecularly complex solutes using subcritical fluid solvents. Hansen solubility spheres characterized by the relative energy differences (RED) have been used to characterize and quantify the solute-subcritical solvent interactions as a function of temperature. The solvent power of subcritical water and compressed hydroethanolic mixtures above their boiling points has been characterized using the above-mentioned method. The use of group contribution methods in collaboration with computerized algorithms to plot the Hansen spheres provides a quantitative prediction tool for optimizing the design of extraction conditions. The method can be used to estimate conditions for solute-solvent miscibility, an optimum temperature range for conducting extractions under pressurized conditions, and approximate extraction conditions of solutes from natural matrices.

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Section: Introductionmentioning

confidence: 99%

Optimization of Subcritical Fluid Extraction of Bioactive Compounds Using Hansen Solubility Parameters

Srinivas¹,

King²,

Monrad³

et al. 2009

Journal of Food Science

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“…The approaches taken ranged from the use of general models to specific correlations aimed at the description of the aqueous solubilities for a specific class of solutes. A portion of the general models have been based on various thermodynamic approaches used before to describe the composition dependence of the activity coefficients in the liquid mixtures such as cubic-plus-association equation of state (Oliveira et al 2009), UNIQUAC, NRTL, Wilson, van Laar and regular solution equations (Alvarez and Saldaña 2011), COSMO-SAC theory (Saldaña et al 2012), regular solution theory-based approach (Fornari et al 2011), corresponding-states theory-based treatment (del Valle et al 2011), Peng-Robinson (PR) equation of state (Teoh et al 2013) or NRTL-PR combination (Escandell et al 2014).…”

Section: Subcritical Water As An Extraction Agent: Pros and Consmentioning

confidence: 99%

Direct and Indirect Applications of Sub- and Supercritical Water in Food-Related Analysis

Roth

Karásek

Hohnová

et al. 2014

Food Engineering Series

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“…In recent years, many efforts have been made to develop semi-empirical approaches [10][11][12][13] to correlate the solubility *Address correspondence to this author at the Instituto de Investigación en Ciencias de la Alimentación CIAL (CSIC-UAM) C/Nicolás Cabrera 9, Universidad Autónoma de Madrid, 28049 Madrid, Spain; Tel: +34910017927; Fax: +34910017900; E-mail: tiziana.fornari@uam.es of solids in HPW, based on the use of solute and solvent (water) physical properties. For example, Miller et al [10] developed a simple equation to relate the effect of increasing temperature on the solubility of polycyclic aromatic hydrocarbons (PAHs) in liquid water at high temperatures.…”

Section: Introductionmentioning

confidence: 99%

“…the solubility of the solute at ambient temperature, to estimate its solubility at higher temperatures. Del Valle et al [12] demonstrated the strong effect of other factors, such as critical temperature and acentric factor of the pure solute, and developed a new semi-empirical relationship for the solute solubility in HPW as a function of temperature. The results obtained demonstrated an excellent correlation of the solubility of 34 different compounds including PAHs, pesticides, flavanoidtype compounds and some essential oil components in HPW.…”

Section: Introductionmentioning

confidence: 99%

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Analysis of Predictive Thermodynamic Models for Estimation of Polycyclic Aromatic Solid Solubility in Hot Pressurized Water

Fornari

Ibáñez²,

Reglero³

et al. 2011

TOTHERJ

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Abstract:The ability of two thermodynamic approaches to predict the solubility of solid compounds in hot pressurized water is studied and compared. The Regular Solution Theory, based on the solubility parameter concept, and UNIFACbased models were applied to calculate the solute activity coefficient and then, solubility predictions were compared with experimental data reported in the literature. The analysis was carried out considering polycyclic aromatic hydrocarbons as model substances, i.e. substances which contain only the aromatic AC and ACH groups, and for which reliable pure physical properties such as melting point, fusion enthalpy and molar volume are available in the literature. The solubility values predicted with the UNIFAC-based models were considerably better than those obtained with the solubility parameter approach. Particularly, the modified Dortmund UNIFAC model presented an appropriate functionality of solubility with temperature, and the extension of this model to other type of aromatic compounds also provided a satisfactory prediction of solubility data.

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Correlation for the variations with temperature of solute solubilities in high temperature water

Cited by 7 publications

References 23 publications

Optimization of Subcritical Fluid Extraction of Bioactive Compounds Using Hansen Solubility Parameters

Optimization of Subcritical Fluid Extraction of Bioactive Compounds Using Hansen Solubility Parameters

Direct and Indirect Applications of Sub- and Supercritical Water in Food-Related Analysis

Analysis of Predictive Thermodynamic Models for Estimation of Polycyclic Aromatic Solid Solubility in Hot Pressurized Water

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