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• Reservoir system
  * [[Defining flow units and containers]]
  4 KB (579 words) - 14:34, 1 April 2022
• Llanos basin
  | chapter = Fluid Flow Modeling in the Llanos Basin, Colombia ...uctio]]n for both deep and shallow reservoirs. Uncertainties on this water flow impact the economy of the [[field]]s whatever the high success rate of expl
  23 KB (3,247 words) - 22:50, 8 January 2019
• Fractured reservoir evaluation
  ...have a significant effect on reservoir [[Fundamentals of fluid flow|fluid flow]] in the form of (1) increased reservoir [[permeability]], (2) increased [[ | Flow predictions from standard [[Core description|core]] or [[Basic open hole to
  26 KB (3,674 words) - 21:21, 19 January 2022
• Influence of depositional environment on sandstone diagenesis
  ...ional environment influences many aspects of sandstone [[diagenesis]]. The flow chart in [[:file:predicting-reservoir-system-quality-and-performance_fig9-5 ...-system-quality-and-performance_fig9-51.png|400px|thumb|{{figure number|1}}Flow chart showing the interrelationship of depositional environment with the ma
  8 KB (1,129 words) - 14:11, 6 April 2022
• Weyburn seal capacity
  ...mmunicated oil column.<ref name=ch09r24>Hannon, N., 1987, Subsurface water flow patterns in the Canadian sector of the Williston Basin: RMAG 1987 Symposium ...ative permeability analysis of core plugs shows the first nonwetting phase flow occurs at approximately the same saturations for most rocks.
  10 KB (1,484 words) - 20:55, 4 December 2023
• Structural lead and prospect delineation
  * [http://wiki.seg.org/wiki/Dictionary:Anisotropy Anisotropy] (flow anisotropy due to faults, folds, or [[fracture]] facies variability)
  4 KB (511 words) - 18:50, 3 February 2022
• Depositional environments
  ...are formed by activities of river, stream, and associated with [[gravity]] flow process. There are 2 kinds of environmental settings from fluvial deposits, ...to a lower area, they are free to spread out with help of gravity. Debris-flow deposits are poorly sorted with the lack of sediment structure, except the
  26 KB (3,851 words) - 20:38, 28 February 2019
• Hydrodynamic influence on trapping
  Fluid flow is perpendicular to equipotential surfaces.
  4 KB (582 words) - 22:08, 17 February 2022
• Waterflooding
  ...[[:file:waterflooding_fig6.png|Figure 6]], infill drilling can rotate the flow pattern and in some cases it can reduce the areal sweep efficiency, as exem * [[Fluid flow fundamentals]]
  10 KB (1,468 words) - 18:23, 21 January 2022
• Continental drift
  ...[[plate tectonics]], which proposed that the plates move by the convective flow of [[mantle]] material. Some related mechanism are the ridge push and slab
  4 KB (552 words) - 20:31, 11 March 2016
• Mudlogging: gas extraction and monitoring
  ...ange in resistance unbalances the bridge, causing an electrical current to flow in proportion to the resistance change and a resulting concentration of gas ...fected by drilling practices. Pump rate, mud level, and rheology influence flow rates through the trap and are factors in the efficiency of the trap (see [
  9 KB (1,327 words) - 15:28, 24 January 2022
• Pore system shapes
  ...on, E. B., S. M. Goolsby, and M. H. Franklin, 1994, Subtle seals and fluid-flow barriers in carbonate rocks, in J. C. Dolson, M. L. Hendricks, and W. A. We
  4 KB (528 words) - 13:53, 4 April 2022
• Reflection configuration patterns
  ...[turbidite]] channel fills. Contorted features may be shale-prone [[debris flow]]s. Precise identification of depositional environments requires integratio
  5 KB (592 words) - 17:46, 4 February 2022
• Midale water saturation and pore geometry
  ...on, E. B., S. M. Goolsby, and M. H. Franklin, 1994, Subtle seals and fluid-flow barriers in carbonate rocks, in J. C. Dolson, M. L. Hendricks, and W. A. We
  4 KB (588 words) - 17:01, 12 April 2022
• Deep-water marine reservoirs
  | part = Depositional Environments and their Flow Characteristics ...al context to deep-water systems that have been transported by [[gravity]] flow processes in a marine setting.<ref name=WeimerandSlatt>Weimer, P., and R. M
  20 KB (2,850 words) - 15:33, 15 January 2024
• East Breaks reservoir rock
  ...d sections. All four reservoir intervals are interpreted to be [[gravity]]-flow sand deposits.<ref name=ch04r7>Armentrout, J. M., 1991, Paleontological con ...ast Breaks 160-161 minibasin. This model incorporates far-traveled gravity-flow sands that accumulated in a depositional thick, filling an upper-slope salt
  13 KB (1,771 words) - 17:24, 5 December 2023
• Drilling a well
  ...he liner is then selectively perforated with holes so as to allow fluid to flow into the wellbore from the specific zones required for production.]] ...p to the surface. The diameter of the tubing can be matched to the optimal flow rate for the producing fluids.
  15 KB (2,385 words) - 15:05, 1 August 2016
• Statistics overview
  | Average of uniform, horizontal, parallel layers in linear flow. ''k''_''j'' and ''h''_''j'' are the permeability and t | Average of uniform, horizontal, serial layers in linear flow. Used for vertical permeability estimates in shale-free sands.
  16 KB (2,483 words) - 19:28, 19 January 2022
• Israel petroleum systems
  | || 8* || Yam Yafo* || Yam || 1994 || || Carbonate gravity-flow || Oil || Structural || Unknown || Gevaram shale || || | Middle Jurassic || 7* || Yam || Yam || 1989 || || Carbonate gravity-flow || Oil || Structural || Unknown || Gevaram shale || ||
  10 KB (1,276 words) - 21:00, 19 July 2016
• Diagenetic traps: criteria for recognition
  ...haracterized by high initial potential followed by rapid, sharp decline in flow rates; water cut typically low
  5 KB (611 words) - 21:06, 4 February 2022

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