Jan – Dec, 2006 University of Alaska – Fairbanks Pacific Northwest National Laboratory British Petroleum Exploration Alaska Injection of CO 2 for Recovery of Methane from Gas Hydrate Reservoirs
Objectives A better understanding of formation kinetics and thermodynamics of CH 4, CO 2, and CH 4 -CO 2 mixed gas hydrates in porous media To study CO 2 injection dynamics in gas hydrate bearing sediments Build an analytical model in order to calculate hydrate equilibrium in porous medium
Tasks Conduct the proof-of-principle experiments Injection Dynamics of CO 2 in Gas Hydrate Bearing Sediments Reservoir Modeling
Tasks Completed Development of Pore Freezing Model to predict hydrate saturation in porous medium Extension of Pore Freezing Model to predict mixed hydrate saturation in porous medium Extension of UAF-HYD module to predict hydrate equilibrium in the porous medium Simulation study to determine the role of capillary pressure in producing methane from hydrates Simulation study to determine the optimum CO 2 concentration in CO 2 -H 2 O micro- emulsion
Tasks Completed 5 conference papers presented 1 Poster presented at 2006 AADE conference, Houston, Texas (April’06) 1 journal paper submitted 5 MS thesis defended
Reservoir Modeling Pore freezing model Predicts Hydrate Saturation Main feature- Consideration of salting out phenomenon Involves calculation of equilibrium conditions for hydrates
Hydrate Saturation Prediction Results Prediction of CH 4 hydrate saturation
Hydrate Equilibrium Prediction Hydrate Equilibrium in porous medium Far different from that in bulk hydrate equilibrium Changes due to interaction of chemical components with pore walls and due to energy required to maintain capillary equilibrium Important to predict for any study involving hydrates in natural sediments
Results for CH 4 hydrate equilibrium in pore of radius 300 A o
Effect of Capillary Pressure on Hydrate Recovery Contradictory opinions on its role in hydrate recovery Function of wetting phase saturation Calculated by van Genuchten principle STOMP simulator used for studying the effect for various reservoirs with different soil characteristics sandstone, sand, loam, silt loam and clay reservoirs considered
Results Capillary pressure profile in reservoir
Results CH 4 recovery after thermal stimulation
Reservoir Simulation Objective To study injection dynamics of CO 2 in hydrate bearing sediments To study effect of concentration of CO 2- microemulsion on hydrate recovery at various injection temperatures To study the feasibility of injection of CO 2 -microemulsion for CH 4 recovery from hydrate reservoir on Alaska North Slope (Mt. Elbert site located within Milne Point Unit )
Numerical Simulations: Numerical Simulations: 2-D Horizontal System: 10 x 10 x 1 Grid Schematic representation of 2-D Reservoir Model System Parameters: Effective Porosity = 36% Permeability: x-direction = 400 md y-direction = 200 md Initial Conditions: Hydrate Saturation (variable) System Temperature = 4 0 C Pressure in the System = 6 MPa
Methane recovery as a function of Micro-emulsion temperature at different concentrations
Effect of injection temperature and CO 2 slurry concentration on CH 4 recovery: Surface Plot
Energy Efficiency Calculations Analyze the effectiveness of CO 2 - microemulsion injection technique vs. Thermal Stimulation method. Calculate the total energy requirement Calculate the energy efficiency
Heat added to reservoir for producing 1 kg of CH 4 under different production schemes
Energy efficiency ratios for different production scenarios
Conclusions The hydrates are formed at higher pressure in porous medium for a given temperature and at lower temperature for a given pressure than those in bulk medium Capillary pressure has significant effect on methane recovery for different soils and it should be considered in hydrate recovery The simulation study showed that a micro- emulsion with 30% CO 2 concentration will be a good choice for reservoirs with hydrate saturation < 50%
Conclusions If the initial hydrate saturation is in the range of 55% to 75%, a 50% CO 2 micro-emulsion injection may be a good choice. CO 2 -microemulsion injection for methane recovery from a reservoir with high hydrate saturation may not be a good choice due to the low effective permeability. It is found that the energy requirement for a gas hydrate reservoir by CO 2 microemulsion injection is about 1/10 th of that required by thermal stimulation method.
We gratefully acknowledge the financial support from AEDTL/NETL/DOE Acknowledgement
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