Standard

Nonequilibrium thermodynamics of interfaces and kinetics of phase transitions. / Rusanov, A. I.; Kochurova, N. N.

Progress in Colloid & Polymer Science. ред. / P. Laggner; O. Glatter. Том 93 Springer Nature, 1993. стр. 278-279.

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийглава/разделнаучнаяРецензирование

Harvard

Rusanov, AI & Kochurova, NN 1993, Nonequilibrium thermodynamics of interfaces and kinetics of phase transitions. в P Laggner & O Glatter (ред.), Progress in Colloid & Polymer Science. Том. 93, Springer Nature, стр. 278-279, Proceedings of the 6th European Colloid and Interface Society (ECIS) Conference, Graz, Austria, 21/09/92.

APA

Rusanov, A. I., & Kochurova, N. N. (1993). Nonequilibrium thermodynamics of interfaces and kinetics of phase transitions. в P. Laggner, & O. Glatter (Ред.), Progress in Colloid & Polymer Science (Том 93, стр. 278-279). Springer Nature.

Vancouver

Rusanov AI, Kochurova NN. Nonequilibrium thermodynamics of interfaces and kinetics of phase transitions. в Laggner P, Glatter O, Редакторы, Progress in Colloid & Polymer Science. Том 93. Springer Nature. 1993. стр. 278-279

Author

Rusanov, A. I. ; Kochurova, N. N. / Nonequilibrium thermodynamics of interfaces and kinetics of phase transitions. Progress in Colloid & Polymer Science. Редактор / P. Laggner ; O. Glatter. Том 93 Springer Nature, 1993. стр. 278-279

BibTeX

@inbook{99ee379d0a9c44b9833834c38ce9732c,
title = "Nonequilibrium thermodynamics of interfaces and kinetics of phase transitions",
abstract = "Nonequilibrium surface phenomena are very important in biological membrane diffusion in charge transition etc. The results of an experimental and theoretical investigation of nonequilibrium processes on fresh surface are presented. We investigated the most general and the practically important case of the adsorption, the chemical reactions, and the polarization of the liquid surface (as result of the polar molecules orientation and the formation of the ionic double layer). The surface tension as the main property of the surface and its structure determines the rate of phase transition. Our equation shows that the evaporation (condensation) rate of fresh non-equilibrium surface of water (γ∞ is replaced by γt≈100 dyn/cm) is 10 times higher than the rate in the case of the equilibrium static surface of water. This result conforms with the experiments.",
author = "Rusanov, {A. I.} and Kochurova, {N. N.}",
year = "1993",
language = "English",
isbn = "0387914544",
volume = "93",
pages = "278--279",
editor = "P. Laggner and O. Glatter",
booktitle = "Progress in Colloid & Polymer Science",
publisher = "Springer Nature",
address = "Germany",
note = "Proceedings of the 6th European Colloid and Interface Society (ECIS) Conference ; Conference date: 21-09-1992 Through 25-09-1992",

}

RIS

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T1 - Nonequilibrium thermodynamics of interfaces and kinetics of phase transitions

AU - Rusanov, A. I.

AU - Kochurova, N. N.

PY - 1993

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N2 - Nonequilibrium surface phenomena are very important in biological membrane diffusion in charge transition etc. The results of an experimental and theoretical investigation of nonequilibrium processes on fresh surface are presented. We investigated the most general and the practically important case of the adsorption, the chemical reactions, and the polarization of the liquid surface (as result of the polar molecules orientation and the formation of the ionic double layer). The surface tension as the main property of the surface and its structure determines the rate of phase transition. Our equation shows that the evaporation (condensation) rate of fresh non-equilibrium surface of water (γ∞ is replaced by γt≈100 dyn/cm) is 10 times higher than the rate in the case of the equilibrium static surface of water. This result conforms with the experiments.

AB - Nonequilibrium surface phenomena are very important in biological membrane diffusion in charge transition etc. The results of an experimental and theoretical investigation of nonequilibrium processes on fresh surface are presented. We investigated the most general and the practically important case of the adsorption, the chemical reactions, and the polarization of the liquid surface (as result of the polar molecules orientation and the formation of the ionic double layer). The surface tension as the main property of the surface and its structure determines the rate of phase transition. Our equation shows that the evaporation (condensation) rate of fresh non-equilibrium surface of water (γ∞ is replaced by γt≈100 dyn/cm) is 10 times higher than the rate in the case of the equilibrium static surface of water. This result conforms with the experiments.

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BT - Progress in Colloid & Polymer Science

A2 - Laggner, P.

A2 - Glatter, O.

PB - Springer Nature

T2 - Proceedings of the 6th European Colloid and Interface Society (ECIS) Conference

Y2 - 21 September 1992 through 25 September 1992

ER -

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