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  • {{#category_index:G|geothermal reservoir}}
    395 bytes (59 words) - 08:35, 8 June 2018
  • {{#category_index:R|reservoir}}
    280 bytes (34 words) - 00:34, 11 June 2017
  • {{#category_index:R|reservoir characterization}} ..., fluid saturation, etc.) and changes in their distribution throughout the reservoir.
    295 bytes (33 words) - 00:34, 11 June 2017
  • {{#category_index:R|reservoir delineation}} Defining the geometry of a reservoir, including faults and facies changes that limit production.
    227 bytes (27 words) - 14:31, 17 July 2017
  • {{#category_index:R|reservoir depletion}} ...ve'']] (q.v.) or some condition that prevents economical production from a reservoir.
    285 bytes (34 words) - 14:31, 17 July 2017
  • {{#category_index:R|reservoir description}} [[Special:MyLanguage/Dictionary:reservoir_characterization|''Reservoir characterization'']] (q.v.).
    230 bytes (22 words) - 14:31, 17 July 2017
  • {{#category_index:R|reservoir drive}} ...ter drive is much more efficient at driving oil than is gas drive. Natural reservoir drives are supplemented by injecting gas, water, or other substances in ''[
    1 KB (162 words) - 14:32, 17 July 2017
  • {{#category_index:R|reservoir geophysics}} ...t in delineating or describing a reservoir, or monitoring the changes in a reservoir as it is produced. See Sheriff (1992).
    292 bytes (39 words) - 14:32, 17 July 2017
  • {{#category_index:R|reservoir simulation}} Use of a computer or physical model of a reservoir to test how the reservoir will perform as production or stimulation or other possible changes proceed
    283 bytes (39 words) - 14:32, 17 July 2017
  • {{#category_index:R|reservoir stimulation}} ...fracturing, acidizing, or other means. <b>2</b>. Enhancing flow through a reservoir by water or gas injection or by the use of [[Special:MyLanguage/Dictionary:
    404 bytes (57 words) - 14:32, 17 July 2017
  • {{#category_index:R|reservoir surveilance}} Keeping track of the flow of fluids in a reservoir as production proceeds.
    205 bytes (26 words) - 14:33, 17 July 2017
  • {{#category_index:Z|zonation of a reservoir}} ...t may produce somewhat independently. The subzones (and perhaps the entire reservoir) are often beyond seismic resolution.
    339 bytes (42 words) - 04:58, 22 October 2017
  • ...ata; isotropic and anisotropic converted-wave imaging; characterization of reservoir rock properties using seismic anisotropy; and anisotropic AVO analysis. The Curtin Reservoir Geophysics Consortium (CRGC) was initially funded in 1998 by forward lookin
    5 KB (755 words) - 17:57, 5 August 2016
  • ...presented. By [[structural inversion]], we define the ''geometry'' of the reservoir unit, and the overlying and underlying depositional units. Traveltimes, how ...riately referred to as ''stratigraphic inversion''. Our goal ultimately is reservoir characterization based on structural and stratigraphic inversion of seismic
    6 KB (828 words) - 09:31, 22 September 2014
  • ...flank]]. Such an amplitude difference may be attributed to changes in the reservoir conditions as a result of production <ref name=ch11r69>Rickett and Lumley, ...iguous, in that, they may be attributable to changes in one or more of the reservoir conditions, such as change in fluid saturation caused by water displacing o
    4 KB (634 words) - 08:39, 7 October 2014
  • * [[Introduction to reservoir geophysics]] [[Category: Reservoir geophysics]]
    3 KB (450 words) - 09:09, 7 October 2014
  • ...al reservoirs as well as for EOR projects. RCP has helped to solve complex reservoir challenges in several significant fields in North America. In addition, RCP ...rvoir Characterization Project (RCP) has pioneered substantial advances in reservoir characterization through application of multicomponent and time-lapse (4D)
    5 KB (687 words) - 09:43, 28 September 2015
  • {{#category_index:R|reservoir}}
    221 bytes (28 words) - 00:34, 11 June 2017
  • {{#category_index:R|reservoir characterization}} ..., fluid saturation, etc.) and changes in their distribution throughout the reservoir.
    236 bytes (27 words) - 00:34, 11 June 2017
  • ==Inverting the Reservoir== ...oral and poster presentations addressing the following and other topics in reservoir characterization and rock property and fluid content estimation:
    3 KB (432 words) - 12:47, 30 June 2017

Page text matches

  • ...endency of a substance to enter into a reaction. When shales adjacent to a reservoir act as perfect cationic membranes and the permeable bed is clean, the [[Spe
    498 bytes (71 words) - 10:22, 8 December 2017
  • ...during production. The aquifer often needs to be 100 times larger than the reservoir to provide adequate support.
    342 bytes (48 words) - 14:45, 8 January 2018
  • Oil/gas lying between the highest well in a reservoir and the updip reservoir seal. Attic oil/gas cannot be produced by existing wells.
    258 bytes (38 words) - 13:13, 6 February 2018
  • ...quency-based ones (while often not clearly understood) to stratigraphy and reservoir characterization. Attenuation measurements are usually very uncertain. Meas ...t1=Quincy|last2=Sidney|first2=Steve|title=Seismic attribute technology for reservoir forecasting and monitoring|journal=The Leading Edge|volume=16|issue=5|year=
    7 KB (961 words) - 14:01, 6 February 2018
  • ...on the crest of which some of the section (perhaps including an objective reservoir) is missing. May be caused by erosion or nondeposition.
    344 bytes (45 words) - 13:45, 9 February 2017
  • ...ushing fluids around hydrocarbon pockets because of the inhomogeneity of a reservoir.
    293 bytes (33 words) - 21:13, 14 May 2017
  • <b>1</b>. Impermeable sealing rock above a reservoir rock. <b>2</b>. The dense anhydrite and gypsum rock above a salt dome that
    310 bytes (46 words) - 20:14, 27 February 2017
  • ...ar to surfactant flooding except that the surfactants are generated in the reservoir by reacting with petroleum acids.
    895 bytes (129 words) - 09:36, 28 November 2017
  • A classification of reservoir sands according to their normal-incidence impedance contrasts with surround
    486 bytes (62 words) - 20:27, 25 January 2017
  • ...the absolute amplitude of reflections attributed to the top and base of a reservoir.
    222 bytes (30 words) - 16:18, 28 May 2017
  • (k&#x014D;n&#x2019; &#x2202;ng) The upward encroachment of reservoir water into the oil column at a well because of a high rate of production, o
    315 bytes (49 words) - 16:37, 23 July 2017
  • ...ic measurements between boreholes, used for fracture and cavity detection, reservoir studies, and orebody delineation.
    665 bytes (90 words) - 09:16, 12 February 2018
  • Production that relies on the natural fluid-pressure energy to move reservoir fluids to production wells.
    230 bytes (28 words) - 14:23, 21 November 2018
  • ...acoustic impedance contrast occurs in the absence of hydrocarbons (as in a reservoir with higher acoustic impedance than the surrounding rock), the presence of
    537 bytes (77 words) - 08:38, 3 August 2017
  • A procedure for determining the potential productivity of a reservoir while the drillstem and mud are in the uncased borehole. The tool includes
    610 bytes (91 words) - 11:23, 19 April 2017
  • Ultrasonic surveying of a cavity such as a storage reservoir in a salt dome.
    198 bytes (27 words) - 14:25, 14 February 2017
  • Fluid flow along higher permeability channels in a reservoir where the permeability is inhomogeneous.
    220 bytes (26 words) - 09:50, 10 January 2019
  • ...gh a reservoir by injecting water or another fluid under pressure into the reservoir formation. <b>2</b>. To drown out a well with water. <b>3</b>. To make the
    896 bytes (136 words) - 19:55, 17 January 2018
  • {{#category_index:G|geothermal reservoir}}
    395 bytes (59 words) - 08:35, 8 June 2018
  • ...e/Dictionary:geophysics|''geophysics'']]. <b>2</b>. Determining geothermal reservoir temperatures from the relative concentrations of Na, K, Ca, and Mg ions in
    370 bytes (48 words) - 09:19, 11 June 2018

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