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Volumn 1, Issue 1, 2009, Pages 3655-3662
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Carbon microbubbles sequestration: A novel technology for stable underground emplacement of greenhouse gases into wide variety of saline aquifers, fractured rocks and tight reservoirs
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Author keywords
Buoyancy; Carbon dioxide; CCS; earthquake; Fluid fracturing; Greenhouse gas; Microbubble; Mitigation
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Indexed keywords
ARCHAEAN;
BIOLOGICAL ENVIRONMENTS;
CARBON CAPTURE AND STORAGE;
CCS;
COAL-FIRED POWER PLANT;
COMBINED EFFECT;
DEEP GROUNDWATERS;
ENERGY SAVING;
FLUID FRACTURING;
FRACTURED ROCK;
GAS MICROBUBBLES;
GAS SHALES;
GREENHOUSE GAS REDUCTIONS;
INJECTION TECHNOLOGY;
LEAK-FREE;
MICROBUBBLE;
MICROBUBBLES;
MITIGATION;
OCEANIC CRUST;
ORGANICS;
SALINE AQUIFERS;
SEQUESTRATION OF GREENHOUSE GAS;
SMALL SCALE;
SOURCE-SINK;
TIGH TRESERVOIRS;
TRAPPING MECHANISMS;
AQUIFERS;
BUOYANCY;
CARBON DIOXIDE;
COAL;
COAL STORAGE;
EARTHQUAKES;
EFFLUENT TREATMENT;
ENERGY CONSERVATION;
FOSSIL FUEL POWER PLANTS;
FRACTURING FLUIDS;
GAS EMISSIONS;
GLOBAL WARMING;
GREENHOUSE GASES;
GREENHOUSES;
GROUNDWATER RESOURCES;
HYDROGEN;
HYDROGEOLOGY;
IGNEOUS ROCKS;
METHANE;
MINING;
OIL SHALE;
ROCKS;
SHALE;
SHALE OIL;
SITE SELECTION;
SUPERCRITICAL FLUIDS;
WATER INJECTION;
LEAKAGE (FLUID);
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EID: 67650158879
PISSN: None
EISSN: 18766102
Source Type: Conference Proceeding
DOI: 10.1016/j.egypro.2009.02.162 Document Type: Conference Paper |
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Times cited : (35)
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References (10)
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