Effect of Initial Pressure on the Formation of Carbon Dioxide Hydrate in Frozen Quartz Sand

Sequestration and storage of CO2 in naturally occurring gas hydrate reservoirs is considered an effective strategy against global warming. In order to study the formation process of CO2 hydrate simulating the permafrost environment, the experiment was carried out in high-pressure vessel frozen quart...

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Published in:Energy & Fuels
Main Authors: Zhang, Xuemin, Li, Jinping, Wu, Qingbai, Wang, Yingmei, Wang, Jiaxian, Li, Yang
Format: Report
Language:English
Published: AMER CHEMICAL SOC 2019
Subjects:
GAS HYDRATE
METHANE HYDRATE
POROUS-MEDIA
DISSOCIATION
EQUILIBRIUM
CO2
CRYSTALLIZATION
TEMPERATURES
PARTICLES
STABILITY
Energy & Fuels
Engineering
Chemical
Ice
Methane hydrate
permafrost
Online Access:http://ir.giec.ac.cn/handle/344007/25895
http://ir.giec.ac.cn/handle/344007/25896
https://doi.org/10.1021/acs.energyfuels.9b01693
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author Zhang, Xuemin
Li, Jinping
Wu, Qingbai
Wang, Yingmei
Wang, Jiaxian
Li, Yang
author_facet Zhang, Xuemin
Li, Jinping
Wu, Qingbai
Wang, Yingmei
Wang, Jiaxian
Li, Yang
author_sort Zhang, Xuemin
collection Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences: GIEC OpenIR
container_issue 11
container_start_page 11346
container_title Energy & Fuels
container_volume 33
description Sequestration and storage of CO2 in naturally occurring gas hydrate reservoirs is considered an effective strategy against global warming. In order to study the formation process of CO2 hydrate simulating the permafrost environment, the experiment was carried out in high-pressure vessel frozen quartz sand. The formation characteristics of CO2 hydrate were studied, and the influence of initial pressure on the hydrate formation process was discussed through experiments. The results showed that the formation rate of CO2 hydrate increased with the increase of the initial pressure of CO2 under the condition below the liquefied pressure. Furthermore, the formation rate of hydrate presented a similar change trend under the condition of the liquefied pressure. The results also indicated that the higher the initial pressure of CO2, the higher the final conversion rate of hydrate. Under the condition below the liquefied pressure, the highest conversion rate of ice was 66.3%. Furthermore, the highest conversion rate of ice attained 72.8% under the condition of the liquefied pressure. These results will provide a theoretical guidance for sequestration and storage of CO2 gas and exploitation of natural gas hydrate in permafrost regions.
format Report
genre Ice
Methane hydrate
permafrost
genre_facet Ice
Methane hydrate
permafrost
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language English
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op_container_end_page 11352
op_doi https://doi.org/10.1021/acs.energyfuels.9b01693
op_relation ENERGY & FUELS
http://ir.giec.ac.cn/handle/344007/25895
http://ir.giec.ac.cn/handle/344007/25896
doi:10.1021/acs.energyfuels.9b01693
publishDate 2019
publisher AMER CHEMICAL SOC
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spelling ftchacadsciegiec:oai:ir.giec.ac.cn:344007/25896 2025-04-06T14:54:53+00:00 Effect of Initial Pressure on the Formation of Carbon Dioxide Hydrate in Frozen Quartz Sand Zhang, Xuemin Li, Jinping Wu, Qingbai Wang, Yingmei Wang, Jiaxian Li, Yang 2019-11-01 http://ir.giec.ac.cn/handle/344007/25895 http://ir.giec.ac.cn/handle/344007/25896 https://doi.org/10.1021/acs.energyfuels.9b01693 英语 eng AMER CHEMICAL SOC ENERGY & FUELS http://ir.giec.ac.cn/handle/344007/25895 http://ir.giec.ac.cn/handle/344007/25896 doi:10.1021/acs.energyfuels.9b01693 GAS HYDRATE METHANE HYDRATE POROUS-MEDIA DISSOCIATION EQUILIBRIUM CO2 CRYSTALLIZATION TEMPERATURES PARTICLES STABILITY Energy & Fuels Engineering Chemical 期刊论文 2019 ftchacadsciegiec https://doi.org/10.1021/acs.energyfuels.9b01693 2025-03-10T11:27:31Z Sequestration and storage of CO2 in naturally occurring gas hydrate reservoirs is considered an effective strategy against global warming. In order to study the formation process of CO2 hydrate simulating the permafrost environment, the experiment was carried out in high-pressure vessel frozen quartz sand. The formation characteristics of CO2 hydrate were studied, and the influence of initial pressure on the hydrate formation process was discussed through experiments. The results showed that the formation rate of CO2 hydrate increased with the increase of the initial pressure of CO2 under the condition below the liquefied pressure. Furthermore, the formation rate of hydrate presented a similar change trend under the condition of the liquefied pressure. The results also indicated that the higher the initial pressure of CO2, the higher the final conversion rate of hydrate. Under the condition below the liquefied pressure, the highest conversion rate of ice was 66.3%. Furthermore, the highest conversion rate of ice attained 72.8% under the condition of the liquefied pressure. These results will provide a theoretical guidance for sequestration and storage of CO2 gas and exploitation of natural gas hydrate in permafrost regions. Report Ice Methane hydrate permafrost Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences: GIEC OpenIR Energy & Fuels 33 11 11346 11352
spellingShingle GAS HYDRATE
METHANE HYDRATE
POROUS-MEDIA
DISSOCIATION
EQUILIBRIUM
CO2
CRYSTALLIZATION
TEMPERATURES
PARTICLES
STABILITY
Energy & Fuels
Engineering
Chemical
Zhang, Xuemin
Li, Jinping
Wu, Qingbai
Wang, Yingmei
Wang, Jiaxian
Li, Yang
Effect of Initial Pressure on the Formation of Carbon Dioxide Hydrate in Frozen Quartz Sand
title Effect of Initial Pressure on the Formation of Carbon Dioxide Hydrate in Frozen Quartz Sand
title_full Effect of Initial Pressure on the Formation of Carbon Dioxide Hydrate in Frozen Quartz Sand
title_fullStr Effect of Initial Pressure on the Formation of Carbon Dioxide Hydrate in Frozen Quartz Sand
title_full_unstemmed Effect of Initial Pressure on the Formation of Carbon Dioxide Hydrate in Frozen Quartz Sand
title_short Effect of Initial Pressure on the Formation of Carbon Dioxide Hydrate in Frozen Quartz Sand
title_sort effect of initial pressure on the formation of carbon dioxide hydrate in frozen quartz sand
topic GAS HYDRATE
METHANE HYDRATE
POROUS-MEDIA
DISSOCIATION
EQUILIBRIUM
CO2
CRYSTALLIZATION
TEMPERATURES
PARTICLES
STABILITY
Energy & Fuels
Engineering
Chemical
topic_facet GAS HYDRATE
METHANE HYDRATE
POROUS-MEDIA
DISSOCIATION
EQUILIBRIUM
CO2
CRYSTALLIZATION
TEMPERATURES
PARTICLES
STABILITY
Energy & Fuels
Engineering
Chemical
url http://ir.giec.ac.cn/handle/344007/25895
http://ir.giec.ac.cn/handle/344007/25896
https://doi.org/10.1021/acs.energyfuels.9b01693

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