CO2 hydrate formation and dissociation in cooled porous media: A potential technology for CO2 capture and storage

Environmental Science and Technology

Volumn 47, Issue 17, 2013, Pages 9739-9746

  Yang, Mingjun ^a   Song, Yongchen ^a   Jiang, Lanlan ^a   Zhu, Ningjun ^a   Liu, Yu ^a   Zhao, Yuechao ^a   Dou, Binlin ^a   Li, Qingping ^b  

^a DALIAN UNIVERSITY OF TECHNOLOGY   (China)

^b CNOOC RESEARCH INSTITUTE   (China)

Author keywords

[No Author keywords available]

Indexed keywords

DEPRESSURIZATIONS; FLOW DIRECTION; HYDRATE FORMATION; HYDRATE SATURATION; MEAN INTENSITY; MEMORY EFFECTS; OPERATING PRESSURE; POTENTIAL TECHNOLOGIES;

ATMOSPHERIC PRESSURE; DISSOCIATION; FLOW RATE; HYDRATES; HYDRATION; INDUSTRIAL APPLICATIONS; POROUS MATERIALS;

CARBON DIOXIDE;

CARBON DIOXIDE; WATER;

ATMOSPHERIC PRESSURE; CARBON DIOXIDE; COOLING; EXPERIMENTAL STUDY; POROUS MEDIUM; TEMPERATURE EFFECT;

ARTICLE; ATMOSPHERIC PRESSURE; DISSOCIATION; FLOW RATE; GRAVITY; HYDRATION; RAT; STORAGE; TEMPERATURE; AIR POLLUTION; CHEMISTRY; ECOSYSTEM RESTORATION; GREENHOUSE EFFECT; KINETICS; POROSITY; PRESSURE; PREVENTION AND CONTROL;

AIR POLLUTION; ATMOSPHERIC PRESSURE; CARBON DIOXIDE; ENVIRONMENTAL REMEDIATION; GREENHOUSE EFFECT; KINETICS; POROSITY; PRESSURE; TEMPERATURE; WATER; ENVIRONMENTAL RESTORATION AND REMEDIATION;

EID: 84883522674     PISSN: 0013936X     EISSN: 15205851     Source Type: Journal    
DOI: 10.1021/es401536w     Document Type: Article

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