Formation kinetics, mechanism of CO2 hydrate and its applications

Carbon dioxide (CO2) hydrate technology has the potential applications to the fields of CO2 capture and storage, gas replacement in the exploitation of natural gas hydrates, seawater desalination and refrigeration. These applications can provide the alternative solutions to the problems presented in...

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Published in:Renewable & sustainable energy reviews 2022-05, Vol.159, p.112221, Article 112221
Main Authors: Liu, Fa-Ping, Li, Ai-Rong, Qing, Sheng-Lan, Luo, Ze-Dong, Ma, Yu-Ling
Format: Article
Language:English
Subjects:
CO2 hydrate
Formation kinetics
Growth mechanism
Nucleation mechanism
Potential applications
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Summary:Carbon dioxide (CO2) hydrate technology has the potential applications to the fields of CO2 capture and storage, gas replacement in the exploitation of natural gas hydrates, seawater desalination and refrigeration. These applications can provide the alternative solutions to the problems presented in the fields of climate and energy. Therefore, this review detailly discusses the basic researches of CO2 hydrate nucleation and growth as well as the potential applications of CO2 hydrate technology. Firstly, CO2 hydrate nucleation and growth were analyzed in the absence of additives. The kinetics of CO2 hydrate formation is mainly affected by pressure, temperature and stirring speed, etc. Then, the effects of different additives on kinetics of CO2 hydrate formation are discussed due to the structural groups of additives, concentrations of additives and driving force. In addition, CO2 hydrate nucleation can be promoted or inhibited by the enhancement or disruption of local hydrogen-bonding network between water molecules. CO2 hydrate growth can be promoted or inhibited by accelerating or limiting CO2 molecules and water molecules to reach the growth site. Moreover, some kinetic models are constructed based on the basic theory and mechanism to describe the process of CO2 hydrate formation. Experimental studies and large-scale field tests illustrate that the industrial applications of CO2 hydrate technology are promising. More comprehensive and systematic studies including the further environmental impact and economic benefits still need to be done in the future. CO2 hydrate nucleation and growth can be improved by the enhancement of the local hydrogen-bonding network among water molecules or the construction of mass transfer channels to accelerate water molecules and CO2 molecules to reach the growth site with the help of additives. Meanwhile, CO2 hydrate nucleation and growth also can be inhibited by the disruption of the local hydrogen-bonding network among water molecules or the destruction of the hydrate cage frameworks to prevent water molecules and CO2 molecules from reaching the growth site. These studies are very important for the industrial applications of CO2 hydrate technology such as CO2 capture, CO2 ocean sequestration through gas replacement in natural gas hydrates, mixed gases separation, solid carbonated food and refrigeration. [Display omitted] •Kinetics of CO2 hydrate formation in the absence/presence of additives.•Kinetic models to quantify the
ISSN:1364-0321
1879-0690
DOI:10.1016/j.rser.2022.112221