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Page title matches

  • {{#category_index:D|debris flow}}
    293 bytes (43 words) - 06:26, 14 February 2017
  • {{#category_index:F|flow test}} A measure of the pressure drop associated with a fluid-flow rate.
    184 bytes (24 words) - 19:57, 17 January 2018
  • {{#category_index:G|geothermal heat flow}} The heat flow from the Earth’s interior per unit area per unit time. The product o
    314 bytes (43 words) - 10:30, 7 June 2018
  • {{#category_index:H|heat flow unit (HFU)}} ...m<sup>2</sup>. The mean heat flow of the earth is 1.2&#x2013;1.5 HFU. Heat flow ranges from about 0.9 in shield areas to over 2 HFU in Cenozoic volcanic ar
    389 bytes (59 words) - 16:02, 9 July 2017
  • {{#category_index:S|shallow water flow}} ...ow of overpressured water or sediments not far below the sea floor. Such a flow constitutes a drilling hazard and is especially a problem when drilling in
    298 bytes (44 words) - 13:12, 25 January 2018
  • {{#category_index:S|single phase flow}}
    176 bytes (25 words) - 11:11, 1 June 2017
  • {{#category_index:S|slug flow}}
    364 bytes (51 words) - 20:06, 19 June 2017
  • {{#category_index:T|two-phase flow}}
    197 bytes (23 words) - 19:48, 21 April 2019
  • 200 bytes (38 words) - 08:34, 23 March 2017
  • {{#category_index:S|single phase flow}}
    117 bytes (19 words) - 11:11, 1 June 2017
  • 74 bytes (12 words) - 11:55, 1 June 2017
  • {{#category_index:S|slug flow}}
    305 bytes (45 words) - 20:06, 19 June 2017
  • 312 bytes (48 words) - 06:05, 6 May 2020
  • {{#category_index:H|heat flow unit (HFU)}} ...m<sup>2</sup>. The mean heat flow of the earth is 1.2&#x2013;1.5 HFU. Heat flow ranges from about 0.9 in shield areas to over 2 HFU in Cenozoic volcanic ar
    330 bytes (53 words) - 16:02, 9 July 2017
  • 368 bytes (61 words) - 14:38, 23 July 2017
  • {{#category_index:D|debris flow}}
    234 bytes (37 words) - 06:41, 14 February 2017
  • 110 bytes (19 words) - 21:40, 17 January 2018
  • 223 bytes (35 words) - 08:07, 10 February 2018
  • {{#category_index:F|flow test}} A measure of the pressure drop associated with a fluid-flow rate.
    125 bytes (18 words) - 07:44, 26 March 2018
  • {{#category_index:S|shallow water flow}} ...ow of overpressured water or sediments not far below the sea floor. Such a flow constitutes a drilling hazard and is especially a problem when drilling in
    239 bytes (38 words) - 09:17, 28 March 2018

Page text matches

  • ...tions with hydrochloric or other acids to enlarge passages and improve oil flow.
    242 bytes (30 words) - 10:18, 8 December 2017
  • ...Dictionary:compensation_test|''compensation test'']]), and (11) processing flow. See also Figure [[Special:MyLanguage/Dictionary:Fig_M-3|M-3]].
    672 bytes (72 words) - 14:04, 23 January 2018
  • ...shuttle to move upward, opening the lower chamber and allowing its air to flow out through ports to form a bubble of high-pressure air in the water. The s
    2 KB (283 words) - 19:57, 6 June 2020
  • A <b>processing flow chart</b> for seismic data. (After Sheriff, 1980, 405.)
    4 KB (586 words) - 17:58, 14 December 2017
  • ...b> is perpendicular to this plane. (<b>b</b>) <b>Folding</b>, cleavage, or flow may result from stresses. The stress duration often is involved as well as
    1 KB (227 words) - 19:55, 3 January 2018
  • Something that limits the flow of fluids such as a fault or facies change.
    260 bytes (33 words) - 13:47, 3 February 2017
  • ...t influx and compaction, erosion and deformation, heat transfer, and water flow, to work out the history of hydrocarbon generation, expulsion, and migratio
    637 bytes (81 words) - 21:27, 9 November 2017
  • ...l&#x0113;) An equation describing the conservation of energy in the steady flow of an ideal frictionless, incompressible fluid:
    663 bytes (88 words) - 19:40, 14 December 2017
  • ...3C;2000&#x0020;ft<sup>3</sup>/barrel), which is easy to deal with in fluid-flow simulation because of its simple thermodynamic properties. Other categories
    456 bytes (63 words) - 22:09, 24 March 2017
  • An uncontrolled flow of gas, oil, and other fluids from a borehole resulting from excessive form
    297 bytes (36 words) - 13:11, 23 April 2017
  • ...combined with, shales, gypsum, or other material and which is not free to flow under natural conditions.
    327 bytes (42 words) - 10:44, 3 August 2017
  • Flow of reservoir-flushing fluids around hydrocarbon pockets because of the inho
    293 bytes (33 words) - 21:13, 14 May 2017
  • ...e_effect|''bubble effect'']] (q.v.) by dissipating energy in the turbulent flow of water in and out of the cage. See ''Flexotir'' and Figure [[Special:MyLa
    438 bytes (61 words) - 14:38, 29 January 2017
  • Uneven movement of a cement slurry behind casing that then allows free fluid flow through the channels.
    230 bytes (30 words) - 09:26, 11 July 2017
  • <b>1</b>. A single series of interconnected devices through which data can flow from source to recorder. Seismic systems may have thousands of channels all
    2 KB (252 words) - 09:31, 11 July 2017
  • A valve that allows flow in only one direction.
    168 bytes (22 words) - 09:36, 28 November 2017
  • ...matches that of the reservoir oil as close as possible, thus making fluid flow more uniform. Surfactants break down the surface tension of oil that has co
    895 bytes (129 words) - 09:36, 28 November 2017
  • An orifice that restricts the flow of fluids.
    160 bytes (20 words) - 11:06, 28 November 2017
  • The casing-head assembly of pipes, valves, etc. that controls the flow of fluids from a producing well.
    214 bytes (29 words) - 11:26, 28 November 2017
  • ...clay will be smeared out sufficiently along a fault surface to prevent the flow of fluids across the fault.
    271 bytes (39 words) - 20:47, 25 January 2017

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