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RESEARCH PRODUCT
Translational diffusion coefficients of volatile compounds in various aqueous solutions at low and subzero temperatures.
Marco Covarrubias-cervantesAndrée VoilleyFrédéric DebeaufortDominique Championsubject
Translational diffusionSucroseChemical PhenomenaDiffusionInteractionsAnalytical chemistry02 engineering and technologyThermal diffusivityDiffusionViscositychemistry.chemical_compound[SPI]Engineering Sciences [physics]0404 agricultural biotechnologyPolysaccharidesFreezingMoleculeNegative temperatureAqueous solutionIce crystalsChemistry PhysicalIcetemperatureWater04 agricultural and veterinary sciencesGeneral Chemistry021001 nanoscience & nanotechnologyMaltodextrin040401 food scienceCold TemperatureSolutionschemistry13. Climate actionOdorantsVolatile compoundsPhysical chemistryVolatilization0210 nano-technologyGeneral Agricultural and Biological Sciencesdescription
International audience; Translational diffusion coefficients (D(12)) of volatile compounds were measured in model media with the profile concentration method. The influence of sample temperature (from 25 to -10 degrees C) was studied on translational diffusion in sucrose or maltodextrin solutions at various concentrations. Results show that diffusivity of volatile compounds in sucrose solutions is controlled by temperature, molecule size, and the viscosity of the liquid phase as expected with the Stokes-Einstein equation; moreover, physicochemical interactions between volatile compounds and the medium are determinant for diffusion estimation. At negative temperature, the winding path induced by an ice crystal content of >70% lowered volatile compound diffusion. On the contrary, no influence on translational diffusion coefficients was observed for lower ice content.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2005-08-01 | Journal of agricultural and food chemistry |