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Carbon Dioxide. Dr. Reid B. Grigg New Mexico Petroleum Recovery Research Center New Mexico Institute of Mining and Technology Socorro, New Mexico. CO 2 has been receiving a lot of publicity as of late, mostly bad PR. Let’s get to know this compound better.
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Carbon Dioxide Dr. Reid B. Grigg New Mexico Petroleum Recovery Research Center New Mexico Institute of Mining and Technology Socorro, New Mexico
CO2 has been receiving a lot of publicity as of late, mostly bad PR. • Let’s get to know this compound • better. • CO2 is a vital compound for natural • processes, but can create havoc with • nature as well.
The following will be covered briefly: • Properties/Phase Behavior • Solubility/Extraction • Swelling • Density • Viscosity • CO2 Sequestration Volume • Estimates
Properties of Carbon Dioxide Molecular Weight = 44.01 g/mol Critical Pressure = 1071 psia (7.38 MPa) Critical Temperature = 87.9 F (31.1 C) Critical Density = 0.469 g/cc
Critical point P-T Phase Diagram for Carbon Dioxide (Wikipedia)
Critical point Where we live P-T Phase Diagram for Carbon Dioxide (Wikipedia)
World of geologic Sequestration Critical point Where we live P-T Phase Diagram for Carbon Dioxide (Wikipedia)
Critical point D-P Phase Diagram for Carbon Dioxide (Wikipedia)
Critical point P-T Phase Diagram for Carbon Dioxide (Wikipedia)
Supercritical Liquid Gas Critical point Constant density [g/cm3] indicated
Supercritical Liquid Gas Critical point
Supercritical Liquid Gas Critical point Constant density [g/cm3] indicated
Supercritical Liquid Gas Critical point Constant density [g/cm3] indicated
Supercritical Critical point Liquid Gas Constant density [g/cm3] indicated
Supercritical Critical point Liquid Gas Constant density [g/cm3] indicated
Effects of density/volume/phase changes • Injection • Production • Facilities • Pipelines • Compressors • Booster pumps • Etc
Three phases in CO2/oil micromodel tests.
Properties/Phase Behavior • Solubility/Extraction • Swelling • Density • Viscosity • CO2 Sequestration Volume • Estimates
Equilibrium Constant yi -------- xi Ki = For a two phase vapor/liquid system yi = mole fraction of component i in the vapor phase xi = mole fraction of component i in the liquid phase
Properties/Phase Behavior • Solubility/Extraction • Swelling • Density • Viscosity • CO2 Sequestration Volume • Estimates
Properties/Phase Behavior • Solubility/Extraction • Swelling • Density • Viscosity • CO2 Sequestration Volume • Estimates
Properties/Phase Behavior • Solubility/Extraction • Swelling • Density • Viscosity • CO2 Sequestration Volume • Estimates
Properties/Phase Behavior • Solubility/Extraction • Swelling • Density • Viscosity • CO2 Sequestration Volume • Estimates
Volume Estimates • 88 Permian Basin reservoirs have a total pore volume of about 10 x109 m3 (61 billion barrels). • Using a conservative displacement efficiency and CO2 retention, 12% of the pore volume (1.2 x 109 m3) estimated for potential CO2 storage or ~ 1 x 109 tonnes). • ~1 x 109 tonnes possible storage.
Production of CO2 from Hydrocarbons (Mole Wt. CO2/Mole Wt. Hydrocarbon) CH4 +(2)O2 = CO2 + (2)H2O Methane (44/16 = 2.75) CH2 +(1.5)O2 = CO2 + H2O Oil (~44/14 = 3.14) CH +(1.25)O2 = CO2 + (0.5)H2O Coal (~44/13 = 3.38)
