Collective Effect of Transformation of a Hydrogen Bond Network at the Initial State of Growth of Methane Hydrate

The molecular dynamics study of the rearrangement of the dynamic hydrogen bond network of liquid water to the crystal hydrogen bond network of methane hydrate in the process of their formation and growth is conducted. To reveal the nature of nucleation, the time dependences of the degree of “crystal...

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Published inJETP letters Vol. 115; no. 3; pp. 124 - 129
Main Authors Belosludov, V. R., Gets, K. V., Zhdanov, R. K., Bozhko, Yu. Yu, Belosludov, R. V., Chen, L.-J.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.02.2022
Springer Nature B.V
Subjects
Atomic
Biological and Medical Physics
Biophysics
Condensed Matter
Gas hydrates
Hydrogen bonds
Methane hydrates
Molecular
Molecular dynamics
Nucleation
Optical and Plasma Physics
Parameters
Particle and Nuclear Physics
Physics
Physics and Astronomy
Quantum Information Technology
Solid State Physics
Spintronics
Water
Water chemistry
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Abstract The molecular dynamics study of the rearrangement of the dynamic hydrogen bond network of liquid water to the crystal hydrogen bond network of methane hydrate in the process of their formation and growth is conducted. To reveal the nature of nucleation, the time dependences of the degree of “crystallinity” of the nearest environment of all water molecules, the rate of ordering of the hydrogen bond network, and the relation of these parameters to the rate of growth of methane hydrate are studied. The effect of the presence of sea salt ions and hydrate seed on these parameters is analyzed. Systems with a completely mixed gas, i.e., with the minimum induction time, are fabricated, and it is shown that gas hydrates can be nucleated simultaneously in the entire volume of the solution, which in turn indicates the collective formation of hydrates from liquid solution.
AbstractList The molecular dynamics study of the rearrangement of the dynamic hydrogen bond network of liquid water to the crystal hydrogen bond network of methane hydrate in the process of their formation and growth is conducted. To reveal the nature of nucleation, the time dependences of the degree of “crystallinity” of the nearest environment of all water molecules, the rate of ordering of the hydrogen bond network, and the relation of these parameters to the rate of growth of methane hydrate are studied. The effect of the presence of sea salt ions and hydrate seed on these parameters is analyzed. Systems with a completely mixed gas, i.e., with the minimum induction time, are fabricated, and it is shown that gas hydrates can be nucleated simultaneously in the entire volume of the solution, which in turn indicates the collective formation of hydrates from liquid solution.
Author Belosludov, V. R.
Gets, K. V.
Belosludov, R. V.
Zhdanov, R. K.
Bozhko, Yu. Yu
Chen, L.-J.
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  organization: Department of Chemical Engineering, National Taiwan University
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The Author(s) 2022. ISSN 0021-3640, JETP Letters, 2022, Vol. 115, No. 3, pp. 124–129. © The Author(s), 2022. This article is an open access publication, corrected publication 2022. Russian Text © The Author(s), 2022, published in Pis’ma v Zhurnal Eksperimental’noi i Teoreticheskoi Fiziki, 2022, Vol. 115, No. 3, pp. 144–149. This work is published under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
Copyright_xml – notice: The Author(s) 2022. ISSN 0021-3640, JETP Letters, 2022, Vol. 115, No. 3, pp. 124–129. © The Author(s), 2022. This article is an open access publication, corrected publication 2022. Russian Text © The Author(s), 2022, published in Pis’ma v Zhurnal Eksperimental’noi i Teoreticheskoi Fiziki, 2022, Vol. 115, No. 3, pp. 144–149.
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Snippet The molecular dynamics study of the rearrangement of the dynamic hydrogen bond network of liquid water to the crystal hydrogen bond network of methane hydrate...
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SubjectTerms Atomic
Biological and Medical Physics
Biophysics
Condensed Matter
Gas hydrates
Hydrogen bonds
Methane hydrates
Molecular
Molecular dynamics
Nucleation
Optical and Plasma Physics
Parameters
Particle and Nuclear Physics
Physics
Physics and Astronomy
Quantum Information Technology
Solid State Physics
Spintronics
Water
Water chemistry
Title Collective Effect of Transformation of a Hydrogen Bond Network at the Initial State of Growth of Methane Hydrate
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