Natural supersaturation conditions needed for nucleation of air-clathrate hydrates in deep ice sheets

Tsutomu Uchida; Keita Yasuda; Yuya Oto; Renkai Shen; Ryo Ohmura

doi:10.3189/2014JoG13J232

Natural supersaturation conditions needed for nucleation of air-clathrate hydrates in deep ice sheets

Tsutomu Uchida, Keita Yasuda, Yuya Oto, Renkai Shen, Ryo Ohmura

Department of Mechanical Engineering

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

10 Citations (Scopus)

Abstract

We apply new phase-equilibrium data of air-clathrate hydrates to the distribution of air hydrates in deep ice sheets to better understand their nucleation conditions. By comparing the depths at which the hydrates first appear to the phase-equilibrium condition, we estimated the critical size of an air-hydrate nucleus in an ice sheet to be ∼50 nm. The estimated energy barrier for nucleation, based on the temperature dependence of supersaturation, is much smaller than that estimated previously for the pure ice system. Thus, the bubble surface may either act as a type of heterogeneous nucleus, or contain heterogeneous nuclei, for hydrate formation. Competition between nucleation-promotion and nucleation-inhibition factors may increase variation in nucleation rates, resulting in variation of the depth range of the bubble-hydrate transition zones.

Original language	English
Pages (from-to)	1135-1139
Number of pages	5
Journal	Journal of Glaciology
Volume	60
Issue number	224
DOIs	https://doi.org/10.3189/2014JoG13J232
Publication status	Published - 2014 Dec 1

Keywords

Clathrate hydrates
Crystal growth
Ice core

ASJC Scopus subject areas

Earth-Surface Processes

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10.3189/2014JoG13J232

Cite this

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abstract = "We apply new phase-equilibrium data of air-clathrate hydrates to the distribution of air hydrates in deep ice sheets to better understand their nucleation conditions. By comparing the depths at which the hydrates first appear to the phase-equilibrium condition, we estimated the critical size of an air-hydrate nucleus in an ice sheet to be ∼50 nm. The estimated energy barrier for nucleation, based on the temperature dependence of supersaturation, is much smaller than that estimated previously for the pure ice system. Thus, the bubble surface may either act as a type of heterogeneous nucleus, or contain heterogeneous nuclei, for hydrate formation. Competition between nucleation-promotion and nucleation-inhibition factors may increase variation in nucleation rates, resulting in variation of the depth range of the bubble-hydrate transition zones.",

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T1 - Natural supersaturation conditions needed for nucleation of air-clathrate hydrates in deep ice sheets

AU - Uchida, Tsutomu

AU - Yasuda, Keita

AU - Oto, Yuya

AU - Shen, Renkai

AU - Ohmura, Ryo

PY - 2014/12/1

Y1 - 2014/12/1

N2 - We apply new phase-equilibrium data of air-clathrate hydrates to the distribution of air hydrates in deep ice sheets to better understand their nucleation conditions. By comparing the depths at which the hydrates first appear to the phase-equilibrium condition, we estimated the critical size of an air-hydrate nucleus in an ice sheet to be ∼50 nm. The estimated energy barrier for nucleation, based on the temperature dependence of supersaturation, is much smaller than that estimated previously for the pure ice system. Thus, the bubble surface may either act as a type of heterogeneous nucleus, or contain heterogeneous nuclei, for hydrate formation. Competition between nucleation-promotion and nucleation-inhibition factors may increase variation in nucleation rates, resulting in variation of the depth range of the bubble-hydrate transition zones.

AB - We apply new phase-equilibrium data of air-clathrate hydrates to the distribution of air hydrates in deep ice sheets to better understand their nucleation conditions. By comparing the depths at which the hydrates first appear to the phase-equilibrium condition, we estimated the critical size of an air-hydrate nucleus in an ice sheet to be ∼50 nm. The estimated energy barrier for nucleation, based on the temperature dependence of supersaturation, is much smaller than that estimated previously for the pure ice system. Thus, the bubble surface may either act as a type of heterogeneous nucleus, or contain heterogeneous nuclei, for hydrate formation. Competition between nucleation-promotion and nucleation-inhibition factors may increase variation in nucleation rates, resulting in variation of the depth range of the bubble-hydrate transition zones.

KW - Clathrate hydrates

KW - Crystal growth

KW - Ice core

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Natural supersaturation conditions needed for nucleation of air-clathrate hydrates in deep ice sheets

Abstract

Keywords

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