Texture change of ice on anomalously preserved methane clathrate hydrate

Wataru Shimada; Satoshi Takeya; Yasushi Kamata; Tsutomu Uchida; Jiro Nagao; Takao Ebinuma; Hideo Narita

doi:10.1021/jp044624t

Texture change of ice on anomalously preserved methane clathrate hydrate

Wataru Shimada, Satoshi Takeya^*, Yasushi Kamata, Tsutomu Uchida, Jiro Nagao, Takao Ebinuma, Hideo Narita

^*Corresponding author for this work

Program of Natural and Environmental Sciences

Research output: Contribution to journal › Article › peer-review

114 Scopus citations

Abstract

We used a confocal scanning microscope to observe growth and texture change of ice due to the dissociation of methane gas clathrate hydrate (CH ₄ hydrate). The experiments were done under CH₄ gas atmospheric pressure and isothermal conditions between 170 and 268 K. Above 193 K, the dissociation of CH₄ hydrate resulted in many small ice particles that covered the hydrate surface. These ice particles had roughly the same shape and density between 193 and 210 K. In contrast, above 230 K the ice particles developed into a sheet of ice that covered the hydrate surface. Moreover, the measured release of CH₄ gas decreased when the sheet of ice formed at the surface of the hydrate. These findings can explain the anomalous preservation behavior of CH₄ hydrate; that is, the known increase of storage stability of CH₄ hydrate above 240 K is likely related to the formation of the ice that we observed in the experiments.

Original language	English
Pages (from-to)	5802-5807
Number of pages	6
Journal	Journal of Physical Chemistry B
Volume	109
Issue number	12
DOIs	https://doi.org/10.1021/jp044624t
State	Published - 2005/03/31

ASJC Scopus subject areas

Physical and Theoretical Chemistry
Surfaces, Coatings and Films
Materials Chemistry

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title = "Texture change of ice on anomalously preserved methane clathrate hydrate",

abstract = "We used a confocal scanning microscope to observe growth and texture change of ice due to the dissociation of methane gas clathrate hydrate (CH 4 hydrate). The experiments were done under CH4 gas atmospheric pressure and isothermal conditions between 170 and 268 K. Above 193 K, the dissociation of CH4 hydrate resulted in many small ice particles that covered the hydrate surface. These ice particles had roughly the same shape and density between 193 and 210 K. In contrast, above 230 K the ice particles developed into a sheet of ice that covered the hydrate surface. Moreover, the measured release of CH4 gas decreased when the sheet of ice formed at the surface of the hydrate. These findings can explain the anomalous preservation behavior of CH4 hydrate; that is, the known increase of storage stability of CH4 hydrate above 240 K is likely related to the formation of the ice that we observed in the experiments.",

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T1 - Texture change of ice on anomalously preserved methane clathrate hydrate

AU - Shimada, Wataru

AU - Takeya, Satoshi

AU - Kamata, Yasushi

AU - Uchida, Tsutomu

AU - Nagao, Jiro

AU - Ebinuma, Takao

AU - Narita, Hideo

PY - 2005/3/31

Y1 - 2005/3/31

N2 - We used a confocal scanning microscope to observe growth and texture change of ice due to the dissociation of methane gas clathrate hydrate (CH 4 hydrate). The experiments were done under CH4 gas atmospheric pressure and isothermal conditions between 170 and 268 K. Above 193 K, the dissociation of CH4 hydrate resulted in many small ice particles that covered the hydrate surface. These ice particles had roughly the same shape and density between 193 and 210 K. In contrast, above 230 K the ice particles developed into a sheet of ice that covered the hydrate surface. Moreover, the measured release of CH4 gas decreased when the sheet of ice formed at the surface of the hydrate. These findings can explain the anomalous preservation behavior of CH4 hydrate; that is, the known increase of storage stability of CH4 hydrate above 240 K is likely related to the formation of the ice that we observed in the experiments.

AB - We used a confocal scanning microscope to observe growth and texture change of ice due to the dissociation of methane gas clathrate hydrate (CH 4 hydrate). The experiments were done under CH4 gas atmospheric pressure and isothermal conditions between 170 and 268 K. Above 193 K, the dissociation of CH4 hydrate resulted in many small ice particles that covered the hydrate surface. These ice particles had roughly the same shape and density between 193 and 210 K. In contrast, above 230 K the ice particles developed into a sheet of ice that covered the hydrate surface. Moreover, the measured release of CH4 gas decreased when the sheet of ice formed at the surface of the hydrate. These findings can explain the anomalous preservation behavior of CH4 hydrate; that is, the known increase of storage stability of CH4 hydrate above 240 K is likely related to the formation of the ice that we observed in the experiments.

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JF - Journal of Physical Chemistry B

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Texture change of ice on anomalously preserved methane clathrate hydrate

Abstract

ASJC Scopus subject areas

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