6533b7d6fe1ef96bd12670b1

RESEARCH PRODUCT

Proposed alternative phase ratio variation method for the calculation of liquid–vapour partition coefficients of volatiles

Samuel LubbersElisabeth GuichardElisabeth GuichardElisabeth GuichardAnne TromelinSandy Pagès-hélarySandy Pagès-hélarySandy Pagès-hélaryCharfedinne AyedCharfedinne AyedCharfedinne AyedIsabelle AndriotIsabelle AndriotIsabelle Andriot

subject

PolynomialChromatographyChemistry010401 analytical chemistryOrganic ChemistryWaterThermodynamicsPhase ratio variationGeneral MedicineModels Theoretical010501 environmental sciencesPartition coefficient01 natural sciencesBiochemistry0104 chemical sciencesAnalytical ChemistryPartition coefficientSimple (abstract algebra)Phase ratioVapour–liquid equilibriumGasesVolatilization[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition0105 earth and related environmental sciences

description

International audience; The phase ratio variation PRV method is a classical way to determine the partition coefficients of volatile compounds between their solution and vapour phases in a variety of circumstances. However, some results obtained by this method can be disappointing. A new PRV equation in which the initial liquid-phase solute concentration is replaced by the liquid-phase solute concentration at equilibrium is proposed. This proposed PRV equation is a second-order polynomial equation. To thoroughly examine the possible modes of calculation, noisy dummy data were generated using both the classical, first-order PRV model (PRV1) and the proposed, second-order model (PRV2). Thus, pseudo-data obtained from simulations were compared to published experimental data. We observed that the second-order model, PRV2, produces a lower variability, allowing improved K precision. Moreover, the obtained K(PRV2) values are very close to those obtained by classical equilibrium headspace analysis (EHSA). The PRV2 model we propose responds to the demand for a simple, reliable method and is a useful alternative for the calculation of liquid–vapour partition coefficients.

yearjournalcountryeditionlanguage
2012-01-01Journal of Chromatography A
https://doi.org/10.1016/j.chroma.2012.09.039