Insights into the Kinetics of Methane Hydrate Formation in a Stirred Tank Reactor by InSitu Raman Spectroscopy

We present a new method to observe the kinetics of methane hydrate formation by the simultaneous application of macroscopic and microscopic measurements. In a stirred tank stabilized under two different subcooling conditions, both the consumption rate of methane by water and insitu Raman spectra wer...

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Veröffentlicht in:	Energy technology (Weinheim, Germany) Germany), 2015-09, Vol.3 (9), p.925-934
Hauptverfasser:	Lee, Jong Min, Cho, Seong Jun, Lee, Ju Dong, Linga, Praveen, Kang, Kyung Chan, Lee, Jaeyong
Format:	Artikel
Sprache:	eng
Schlagworte:	Cages Consumption Formations Hydrates Kinetics Methane Methane hydrates Nucleation Raman spectra Raman spectroscopy Spectrum analysis Tanks Water tanks
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container_title	Energy technology (Weinheim, Germany)
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creator	Lee, Jong Min Cho, Seong Jun Lee, Ju Dong Linga, Praveen Kang, Kyung Chan Lee, Jaeyong
description	We present a new method to observe the kinetics of methane hydrate formation by the simultaneous application of macroscopic and microscopic measurements. In a stirred tank stabilized under two different subcooling conditions, both the consumption rate of methane by water and insitu Raman spectra were measured with time. According to our observations, an abrupt decline in the intensity of the Raman peak of dissolved methane coincided with an increase in the intensity of the Raman peak of methane that occupies the large cages of the hydrate at the beginning of hydrate formation. The occupancy of the small cages only occurred after a considerable delay from the nucleation point, whereas the occupancy of the large cages occurred throughout the growth period. Thus, the early stage of hydrate growth shows a strong preference of the dissolved methane to occupy the large cages.
doi_str_mv	10.1002/ente.201500066
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In a stirred tank stabilized under two different subcooling conditions, both the consumption rate of methane by water and insitu Raman spectra were measured with time. According to our observations, an abrupt decline in the intensity of the Raman peak of dissolved methane coincided with an increase in the intensity of the Raman peak of methane that occupies the large cages of the hydrate at the beginning of hydrate formation. The occupancy of the small cages only occurred after a considerable delay from the nucleation point, whereas the occupancy of the large cages occurred throughout the growth period. 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In a stirred tank stabilized under two different subcooling conditions, both the consumption rate of methane by water and insitu Raman spectra were measured with time. According to our observations, an abrupt decline in the intensity of the Raman peak of dissolved methane coincided with an increase in the intensity of the Raman peak of methane that occupies the large cages of the hydrate at the beginning of hydrate formation. The occupancy of the small cages only occurred after a considerable delay from the nucleation point, whereas the occupancy of the large cages occurred throughout the growth period. 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subjects	Cages Consumption Formations Hydrates Kinetics Methane Methane hydrates Nucleation Raman spectra Raman spectroscopy Spectrum analysis Tanks Water tanks
title	Insights into the Kinetics of Methane Hydrate Formation in a Stirred Tank Reactor by InSitu Raman Spectroscopy
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