The Soret coefficients of the ternary system water/ethanol/triethylene glycol and its corresponding binary mixtures
-
Published:2021-10
Issue:10
Volume:44
Page:
-
ISSN:1292-8941
-
Container-title:The European Physical Journal E
-
language:en
-
Short-container-title:Eur. Phys. J. E
Author:
Schraml M., Bataller H., Bauer C., Bou-Ali M. M., Croccolo F., Lapeira E., Mialdun A., Möckel P., Ndjaka A. T., Shevtsova V., Köhler W.ORCID
Abstract
Abstract
Thermodiffusion in ternary mixtures is considered prototypic for the Soret effect of truly multicomponent systems. We discuss ground-based measurements of the Soret coefficient along the binary borders of the Gibbs triangle of the highly polar and hydrogen bonding ternary DCMIX3-system water/ethanol/triethylene glycol. All three Soret coefficients decay with increasing concentration, irrespective of the choice of the independent component, and show a characteristic sign change as a function of temperature and/or composition. With the exception of triethylene glycol/ethanol at high temperatures, the minority component always migrates toward the cold side. All three binaries exhibit temperature-independent fixed points of the Soret coefficient. The decay of the Soret coefficient with concentration can be related to negative excess volumes of mixing. The sign changes of the Soret coefficients of the binaries allow to draw far-reaching conclusions about the signs of the Soret coefficients of the corresponding ternary mixtures. In particular, we show that at least one ternary composition must exist, where all three Soret coefficients vanish simultaneously and no steady-state separation is observable.
Graphic abstract
Funder
european space agency deutsches zentrum für luft- und raumfahrt belgian federal science policy office agence nationale de la recherche, anr the basque government ministerio de ciencia e innovación
Publisher
Springer Science and Business Media LLC
Subject
Surfaces and Interfaces,General Materials Science,General Chemistry,Biophysics,Biotechnology
Reference40 articles.
1. W. Köhler, K.I. Morozov, J. Non-Equilib, Thermodyn. 41, 151 (2016). https://doi.org/10.1515/jnet-2016-0024 2. M. Braibanti, P.A. Artola, P. Baaske, H. Bataller, J.P. Bazile, M. Bou-Ali, D. Cannell, M. Carpineti, R. Cerbino, F. Croccolo, J. Diaz, A. Donev, A. Errarte, J. Ezquerro, A. Frutos-Pastor, Q. Galand, G. Galliero, Y. Gaponenko, L. García Fernández, J. Gavaldà, F. Giavazzi, M. Giglio, C. Giraudet, H. Hoang, E. Kufner, W. Köhler, E. Lapeira, A. Laveron-Simavilla, J.C. Legros, I. Lizarraga, T. Lyubimova, S. Mazzoni, N. Melville, A. Mialdun, O. Minster, F. Montel, F. Molster, J. M. Ortiz de Zárate, J. Rodriguez, B. Rousseau, X. Ruiz, I. Ryzhkov, M. Schraml, V. Shevtsova, C. Takacs, T. Triller, S. VanVaerenbergh, A. Vailati, A. Verga, R. Vermorel, V. Vesovic, V. Yasnou, S. Xu, D. Zapf, K. Zhang, Eur. Phys. J. E 42, 86 (2019). https://doi.org/10.1140/epje/i2019-11849-0 3. J.K. Platten, M.M. Bou-Ali, P. Costesèque, J.F. Dutrieux, W. Köhler, C. Leppla, S. Wiegand, G. Wittko, Philos. Mag. 83, 1965 (2003). https://doi.org/10.1080/0141861031000108204 4. V. Shevtsova, C. Santos, V. Sechenyh, J.C. Legros, A. Mialdun, Microgravity Sci. Tec. 25, 275 (2014). https://doi.org/10.1007/s12217-013-9349-6 5. A. Mialdun, M.M. Bou-Ali, M. Braibanti, F. Croccolo, A. Errarte, J.M. Ezquerro, J.J. Fernandez, L. García Fernández, Q. Galand, Y. Gaponenko, J. Gavaldà, W. Köhler, T. Lyubimova, J.M. Ortiz de Zárate, J. Rodriguez, X. Ruiz, I.I. Ryzhkov, V. Shevtsova, S. van Vaerenbergh, V. Yasnou, H. Bataller, Acta Astronaut. 176, 204 (2020). https://doi.org/10.1016/j.actaastro.2020.06.020
Cited by
20 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献
|
|