Contents • • • • • • • Uses [ ] Reservoir simulation are used by oil and gas companies in the development of new. Also, models are used in developed fields where production forecasts are needed to help make investment decisions. As building and maintaining a robust, reliable model of a field is often time-consuming and expensive, models are typically only constructed where large investment decisions are at stake.
Jan 15, 2018 - 1 Tools; 2 Comparative solution project; 3 Generalized model; 4 Model formulations. The tools of reservoir simulation range from the intuition and. Sixth SPE Comparative Solution Project: Dual-Porosity Simulators.
Improvements in simulation software have lowered the time to develop a model. Also, models can be run on personal computers rather than more expensive workstations. For new fields, models may help development by identifying the number of wells required, the optimal completion of wells, the present and future needs for artificial lift, and the expected production of oil, water and gas. For ongoing reservoir management, models may help in improved oil recovery. Highly deviated or horizontal wells can also be represented. Specialized software may be used in the design of hydraulic fracturing, then the improvements in productivity can be included in the field model.
Also, future improvement in oil recovery with pressure maintenance by re-injection of produced gas or by water injection into an aquifer can be evaluated. Water flooding resulting in the improved displacement of oil is commonly evaluated using reservoir simulation. The application of (EOR) processes requires that the field possesses the necessary characteristics to make application successful. Model studies can assist in this evaluation. EOR processes include by, CO 2, or nitrogen and chemical flooding (polymer, alkaline, surfactant, or a combination of these). Special features in simulation software is needed to represent these processes. In some miscible applications, the 'smearing' of the flood front, also called numerical dispersion, may be a problem.
Reservoir simulation is used extensively to identify opportunities to increase oil production in heavy oil deposits. Oil recovery is improved by lowering the oil viscosity by injecting steam or hot water.
Typical processes are steam soaks (steam is injected, then oil produced from the same well) and steam flooding (separate steam injectors and oil producers). These processes require simulators with special features to account for heat transfer to the fluids present and the formation, the subsequent property changes and heat losses outside of the formation. A recent application of reservoir simulation is the modeling of (CBM) production.
This application requires a specialized CBM simulator. In addition to the normal fractured (fissured) formation data, CBM simulation requires gas content data values at initial pressure,,, and parameters to estimate the changes in as a function of pore-pressure depletion and gas desorption. Fundamentals [ ]. Representation of an underground fault by a structure map generated by Contour map software for an 8500ft deep gas & in the Erath field,,. The left-to-right gap, near the top of the indicates a. This fault line is between the blue/green contour lines and the purple/red/yellow contour lines.
The thin red circular contour line in the middle of the map indicates the top of the oil reservoir. Jaco pastorius bass method pdf to word. Because gas floats above oil, the thin red contour line marks the gas/oil contact zone. Traditional simulators dominate both theoretical and practical work in reservoir simulation. Conventional FD simulation is underpinned by three physical concepts:, fluid phase behavior, and the approximation of fluid flow through porous media. Thermal simulators (most commonly used for applications) add to this list, allowing temperatures to change within the reservoir.