Bellamy Field Tests: Oil From Tar by Counterflow Underground Burning

“…As the vapors approach cooler sections of the burned zone, some condensation occurs and liquid oil and water may exist near the outlet. Some successful field applications of reverse combustion have been reported in the literature [6][7][8] .…”

Section: Dry Forward Combustionmentioning

confidence: 99%

Feasibility Study of In-Situ Combustion in Naturally Fractured Heavy Oil Reservoirs

Tabasinejad

Kharrat

Vossoughi

2006

International Oil Conference and Exhibition in Mexico

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractIn-situ combustion is a thermal recovery method used for enhanced heavy oil recovery. In this process air is injected to the reservoir in order to achieve ignition and to maintain the combustion front while pushing the heated oil toward producing wells.This study deals with the feasibility of in-situ combustion process in fractured heavy oil reservoirs. A one dimensional, three-phase in-situ combustion simulator with six components, two cracking and three oxidation reactions is used in this study.Primarily, a conventional simulation model based on experimental data available in the literature was constructed and sensitivity study tests were performed. In the second part of this project, the conventional model was modified to a fractured model and various parameters and mechanisms such as oil recovery factor, average temperature of the system, cumulative oil and water production, diffusion, and wet combustion process were investigated.Results indicate the importance of grid block size, injection rates, kinetic models, and equilibrium ratios of heavy and light oil components on simulation process. Simulation results indicate that the optimum water/oil ratio leads to an increase in the amount of oil recovery and a reduction in the amount of air to be injected.

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“…(4,5) For various reasons, we judged the northwest part of the Wiggins test area to be the only part readily susceptible to reverse combustion using existing wells. In this process, air is injected through cold sand to reach the combustion front which moves countercurrent to air flow.…”

Section: Everse Combustionmentioning

confidence: 99%