Experimental Investigation and Numerical Modeling of Gravity Drainage in Multi-Block Fractured Porous Media, M.Sc. Thesis Sharif University of Technology ; Ghazanfari, Mohammad Hossein (Supervisor)
Abstract
Due to the fact that, over 60% of oil reserves are located in fractured reservoirs, this type of reservoirs requires a great deal of attention. The presence of the fractures in porous media results in many complexities in the liquid path and production, consequently, simulation and modeling of flow equations is highly important. In order to achieve a more profound understanding of liquid flow in gravity drainage mechanism, the concept of capillary tubes is initially used. By using the capillary tube concept, at first, the gravity drainage mechanism is investigated in the first block in a stack of blocks and an analytical solution is presented for this case. Then, the stack of blocks is...
Cataloging briefExperimental Investigation and Numerical Modeling of Gravity Drainage in Multi-Block Fractured Porous Media, M.Sc. Thesis Sharif University of Technology ; Ghazanfari, Mohammad Hossein (Supervisor)
Abstract
Due to the fact that, over 60% of oil reserves are located in fractured reservoirs, this type of reservoirs requires a great deal of attention. The presence of the fractures in porous media results in many complexities in the liquid path and production, consequently, simulation and modeling of flow equations is highly important. In order to achieve a more profound understanding of liquid flow in gravity drainage mechanism, the concept of capillary tubes is initially used. By using the capillary tube concept, at first, the gravity drainage mechanism is investigated in the first block in a stack of blocks and an analytical solution is presented for this case. Then, the stack of blocks is...
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