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Chromatographic determination of solubilities in superheated water

✍ Scribed by Neil Jones; Anthony A. Clifford; Keith D. Bartle; Peter Myers

Publisher
John Wiley and Sons
Year
2010
Tongue
English
Weight
91 KB
Volume
33
Category
Article
ISSN
1615-9306

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✦ Synopsis

Abstract

Superheated water (SHW) is an effective solvent for the extraction of a variety of environmental pollutants, but knowledge of the solubilities in water at elevated temperatures necessary to maximise the efficiency of the process is often lacking. Ambient temperature aqueous solubilities have been measured by reverse‐phase HPLC from correlations with retention factors, k, but for poorly soluble organics the eluent must contain a proportion of organic modifier followed by extrapolation to pure water. The use of SHW as mobile phase allows direct determination of aqueous solubility from measurement of k on a modified HPLC system in which the eluent is cooled before detection to improve baseline stability. Alumina‐bonded octadecylsilane columns were found to be more stable in SHW chromatography than their silica‐bonded counterparts. To validate the procedure, measurements of k were made between 100 and 200°C for toluene and correlated with literature solubilities; the solubilities at 170°C of a number of related aromatics were then determined from their k‐values.

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