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• 3-D seismic data views
  As it arrives on tape from the [[Basic seismic processing|processor]], 3-D [[seismic data]] are organized into lines composed of [[trace]]s. In the co ...tal slices. From Liner.<ref name=Liner_1999>Liner, C., 1999. Elements of 3-D Seismology: Tulsa, PennWell.</ref> Courtesy PennWell.]]
  3 KB (373 words) - 19:06, 27 January 2022
• Picking horizons in 3-D data
  | chapter = Interpreting 3-D seismic data ...opicker works. &copy; Dorn.<ref name=Dorn_1998>Dorn, G. A., 1998, Modern 3-D seismic interpretation: The Leading Edge, v. 17, no. 9, p. 1262-1272.</ref>
  8 KB (1,155 words) - 19:12, 27 January 2022
• 3-D seismic data: immersive visualization
  | chapter = Interpreting 3-D seismic data ...displays. With each additional visual cue used in presenting the data in 3-D, there have been improvements in efficiency. New insights have been gained
  4 KB (601 words) - 19:49, 27 January 2022
• 3-D seismic: the data cube
  #REDIRECT [[3-D seismic data: the data cube]]
  45 bytes (7 words) - 14:11, 28 May 2014
• 3-D seismic: time and horizon slices
  #REDIRECT [[3-D seismic data: time and horizon slices]]
  55 bytes (8 words) - 14:29, 19 December 2014
• Components of a 3-D seismic survey
  39 bytes (4 words) - 15:21, 19 December 2014
• Proportional slices and 3-D volume visualization
  #REDIRECT [[3-D seismic data: proportional slices and volume visualization]]
  76 bytes (9 words) - 21:31, 22 January 2015
• 3-D seismic: proportional slices and volume visualization
  #REDIRECT [[3-D seismic data: proportional slices and volume visualization]]
  76 bytes (9 words) - 14:29, 19 December 2014
• 3-D seismic data: time and horizon slices
  | chapter = Interpreting 3-D seismic data The time slice is the first step toward 3-D interpretation of a 3-D seismic volume. A time-slice view of the data is an improvement over vertic
  4 KB (617 words) - 19:30, 27 January 2022
• 3-D seismic data: proportional slices and volume visualization
  | chapter = Interpreting 3-D seismic data Additional refinement to the [[3-D seismic: time and horizon slices|horizon-slice]] approach can be made to ac
  3 KB (457 words) - 19:32, 27 January 2022
• 3-D seismic data: the data cube
  ...mic technique yields much more information than an equivalent amount of 2-D seismic and can reduce [[Reducing exploration risk|risk]]. ==3-D advantages==
  5 KB (813 words) - 19:05, 27 January 2022

Page text matches

• Displacement pressure
  ...specpubs/methodo1/data/a095/a095/0001/0200/0221.htm Capillary pressure] in D. Morton-Thompson and A. M. Woods, eds., Development Geology Reference Manua
  557 bytes (82 words) - 14:13, 24 July 2014
• Immersive visualization
  #REDIRECT [[3-D seismic data: immersive visualization]]
  55 bytes (6 words) - 15:56, 22 October 2014
• Time and horizon slices
  #REDIRECT [[3-D seismic data: time and horizon slices]]
  55 bytes (8 words) - 16:25, 26 January 2015
• 3-D seismic: time and horizon slices
  #REDIRECT [[3-D seismic data: time and horizon slices]]
  55 bytes (8 words) - 14:29, 19 December 2014
• Proportional slices and 3-D volume visualization
  #REDIRECT [[3-D seismic data: proportional slices and volume visualization]]
  76 bytes (9 words) - 21:31, 22 January 2015
• 3-D seismic: proportional slices and volume visualization
  #REDIRECT [[3-D seismic data: proportional slices and volume visualization]]
  76 bytes (9 words) - 14:29, 19 December 2014
• 3-D seismic: the data cube
  #REDIRECT [[3-D seismic data: the data cube]]
  45 bytes (7 words) - 14:11, 28 May 2014
• Meteoric diagenesis
  ...77/m77ch24/m77ch24.htm Eogenetic meteoric diagenesis] in P. A. Scholle and D. Ulmer-Scholle, A color guide to the petrography of carbonate rocks: Grains
  648 bytes (87 words) - 15:34, 10 December 2015
• 3-D seismic data: time and horizon slices
  | chapter = Interpreting 3-D seismic data The time slice is the first step toward 3-D interpretation of a 3-D seismic volume. A time-slice view of the data is an improvement over vertic
  4 KB (617 words) - 19:30, 27 January 2022
• 3-D seismic data: proportional slices and volume visualization
  | chapter = Interpreting 3-D seismic data Additional refinement to the [[3-D seismic: time and horizon slices|horizon-slice]] approach can be made to ac
  3 KB (457 words) - 19:32, 27 January 2022
• Fracture
  ...ture is small compared with fracture length.<ref name=ch02r10>Pollard, D., D., Segall, P., 1987, Theoretical displacements add stresses near fractures w
  951 bytes (136 words) - 20:39, 10 February 2015
• 3-D seismic data: the data cube
  ...mic technique yields much more information than an equivalent amount of 2-D seismic and can reduce [[Reducing exploration risk|risk]]. ==3-D advantages==
  5 KB (813 words) - 19:05, 27 January 2022
• Seismic data and mapping structure
  ...ally requires computer assistance for [[Three-dimensional seismic method|3-D data]]. The recipes described on the pages that follow apply to hand or com | Migrated Depth || Mapping an area using a 3-D seismic data cube with the vertical axis converted to depth (commonly used
  2 KB (320 words) - 19:10, 27 January 2022
• Seismic interpretation: surface slicing
  | chapter = Interpreting 3-D seismic data ...in each slab only the peaks are displayed. The dissected portions of the 3-D structure appear as annuli that fit perfectly within each other. Interpreti
  4 KB (553 words) - 19:30, 27 January 2022
• Three-dimensional seismic method
  ...uate imaging of the subsurface resulting from the use of 2-D rather than 3-D migration<ref name=pt07r13>French, W. S., 1974, Two-dimensional and three-d ==Performing 3-D surveys==
  8 KB (1,201 words) - 20:24, 21 January 2022
• Offset
  [[Category:Interpreting 3-D seismic data]]
  192 bytes (25 words) - 19:55, 14 April 2014
• Douglas K. Strickland
  * Schelling, D. D., D. K. Strickland, K. R. Johnson, & J. P. Vrona, 2007, [http://archives.datapa ...Johnson, D. D. Schelling, D. A. Sprinkel, D. K. Strickland, J. P. Vrona, & D. A. Wavrek, 2007, [http://archives.datapages.com/data/uga/data/079/079001/2
  4 KB (525 words) - 19:41, 14 February 2017
• Offshore exploration and exploitation
  ...c models: one more complete and detail than the other one: 2-D, 3-D, and 4-D seismic. ====2-D Seismic====
  5 KB (708 words) - 22:00, 10 April 2019
• Seismic data: analyzing individual reflectors
  | 3-D coherence ...ng-for-stratigraphic-traps_fig21-29.png|300px|thumb|{{figure number|1}}A 3-D coherency slice of a Miocene channel complex in the Nile Delta, Egypt. From
  4 KB (481 words) - 18:20, 4 February 2022
• Seismic data interpretation - recurring themes
  ...ere. Keep them in mind when working with [[seismic data]]—in particular, 3-D seismic data. ...an onion. Copyright: Liner;<ref name=Liner>Liner, C., 1999, Elements of 3-D Seismology: Tulsa, PennWell.</ref> courtesy PennWell.]]
  5 KB (739 words) - 18:51, 27 January 2022
• Seismic data: two- or three-dimensional interpretation
  | chapter = Interpreting 3-D seismic data ...ty and require significantly more effort than interpreting the data in a 3-D fashion.
  8 KB (1,280 words) - 17:33, 25 January 2022
• 3-D seismic data: immersive visualization
  | chapter = Interpreting 3-D seismic data ...displays. With each additional visual cue used in presenting the data in 3-D, there have been improvements in efficiency. New insights have been gained
  4 KB (601 words) - 19:49, 27 January 2022
• Hydrocarbon column: calculation of maximum height
  ...ns will leak through the seal. If ''P''_b is less than ''P''_d, it would be possible to seal a greater column of hydrocarbons. :<math>P_{\rm b} = P_{\rm d}</math>
  3 KB (488 words) - 16:13, 31 March 2022
• Seismic survey components
  ...n concept. Copyright: Liner,<ref name=Liner>Liner, C., 1999, Elements of 3-D Seimology: Tulsa, PennWell</ref> courtesy PennWell.]] ...ted into groups associated with one midpoint on the earth's surface. The 3-D seismic data are sorted into discrete areas called bins. All actual midpoin
  3 KB (426 words) - 19:05, 27 January 2022
• 3-D seismic data views
  As it arrives on tape from the [[Basic seismic processing|processor]], 3-D [[seismic data]] are organized into lines composed of [[trace]]s. In the co ...tal slices. From Liner.<ref name=Liner_1999>Liner, C., 1999. Elements of 3-D Seismology: Tulsa, PennWell.</ref> Courtesy PennWell.]]
  3 KB (373 words) - 19:06, 27 January 2022
• Seismic attributes in geological interpretation
  | chapter = Interpreting 3-D seismic data ...f seismic attributes|attributes]] in a [[3-D seismic data: the data cube|3-D seismic]] survey:
  4 KB (562 words) - 19:42, 27 January 2022
• Anthropocene
  * Brown, D., 2011, [Anthropocene: An Epoch Debate https://archives.aapg.org/explorer/2
  583 bytes (70 words) - 19:14, 14 March 2019
• Fault control on hydrocarbon distribution
  ...only contain hydrocarbons. In only 5 of the 33 reservoirs does Compartment D contain hydrocarbons. ...ly when Fault A is [[Cross-sealing faults|cross sealing]] does Compartment D contain hydrocarbons. Cross seal is created by shale-prone gouge with low s
  4 KB (515 words) - 21:31, 29 March 2022
• Phases of a seismic project
  A3-D seismic survey is designed to give optimum results for a particular depth i * [[3-D seismic: the data cube]]
  3 KB (455 words) - 22:00, 25 January 2022
• Seismic data
  * Reflection (including 2-D and 3-D) ...on the lines are a mixture of both in-plane and out-of-plane reflectors. 2-D reflection seismic data are most important in the earlier stages of an expl
  5 KB (712 words) - 21:27, 2 February 2022
• Techniques for enhancing seismic facies analysis
  * Using 3-D seismic displays ...and coverts it to time. Put another way, forward modeling takes a 2-D or 3-D geological model and converts it to a simulated seismic section. The simula
  5 KB (720 words) - 18:51, 4 February 2022
• Shale smear factor
  | author = G. Yielding, B. Freeman, and D. T. Needham ...mes, J. R., L. J. J. Zijerveld, R. C. M. W. Franssen, G. M. Ingram, and P. D. Richard, 1996, Fault seal processes, in Norwegian Petroleum Society, eds.,
  3 KB (437 words) - 20:02, 13 December 2016
• Seismic attributes
  | chapter = Interpreting 3-D seismic data ...osion in the number of attributes that can be generated and displayed in 3-D interpretation systems. New attributes are added to the list regularly. Bec
  6 KB (859 words) - 19:42, 27 January 2022
• Black Warrior basin
  ...n]] in the Black Warrior basin.<ref name=Bolandetal_1971>Boland, L. F., E. D. Minihan, and W. A. Thomas, 1971, [http://archives.datapages.com/data/bulle ...Basin. 20 mi (32 km). From Fritz et al.<ref name=Fritzetal_2012>Fritz, R. D., P. Medlock, M. Kuykendal, and J. L. Wilson, 2012, [http://archives.datapa
  2 KB (308 words) - 16:53, 26 March 2015
• Open- vs closed-system generation modeling
  ...sported away, and are no longer subject to the thermal conditions of the 1-D model. '''Closed-system''' models assume the hydrocarbons have not been exp ...open- and closed-system modeling conditions. Copyright: results of Genex 1-D basin modeling software, courtesy Institute Français du Petrole.]]
  3 KB (398 words) - 15:15, 14 February 2022
• Structural geology fieldwork
  ...e, A., A., Guliyev, I., S., Suleymanova, S., F., Ateava, E., Z., Mamedova, D., N., Koshkarly, R., O., 1998, [http://archives.datapages.com/data/bulletns * Stockmal, G., S., MacKay, P., A., Lawton, D., C., Spratt, D., A., 1996, The Oldman River triangle zone: a complicated tectonic wedge de
  4 KB (557 words) - 20:06, 2 February 2022
• Strain analysis of top seals
  ...re permeability can be as high as tens of darcys<ref name=ch10r80>Stearns, D., W., Friedman, M., 1972, Reservoirs in fractured rock: AAPG Memoir 16, p. ...oint seep]] in the Santa Barbara Channel, California, is leaking 50–70 bbl/d or more than 25 billion bbl/m.y.<ref name=ch10r95>Wilkinson, E., R., 1971,
  3 KB (403 words) - 15:21, 30 March 2022
• Covenant field
  ...Utah]: AAPG Search and Discovery Article No. 110014</ref><ref>Strickland, D., 2009, [http://player.piksel.com/player.php?v=bl432u69 Conventional Wisdom ...Johnson, D. D. Schelling, D. A. Sprinkel, D. K. Strickland, J. P. Vrona, & D. A. Wavrek, 2007, Central Utah: Diverse Geology of a Dynamic Landscape, Pet
  6 KB (897 words) - 19:39, 14 February 2017
• Geostatic and lithostatic pressure
  ...times (1 - \phi) \times \mbox{d}] + [\rho_{\rm w} \times \phi \times \mbox{d}]</math> * d = depth (ft)
  3 KB (402 words) - 14:47, 16 February 2022
• Reef
  ..., R. S., 2000, Approaches to defining reservoir physical properties from 3-D seismic attributes with limited well control: an example from the Jurassic
  2 KB (298 words) - 21:30, 21 November 2014
• Fluvial input through time: Gulf of Mexico example
  ...ssissippi River depositional system: model for the Gulf Coast Tertiary, in D. Goldthwaite, ed., An Introduction to Central Gulf Coast Geology: New Orlea ...Late Cretaceous to Holocene. After Winker;<ref name=Winker1982>Winker, C. D., 1982, Cenozoic shelf margins, northwestern Gulf of Mexico: Gulf Coast Ass
  3 KB (406 words) - 17:03, 22 February 2022
• Surficial geochemical survey objectives
  ...eochemistry as an exploration tool in the South Caribbean], in Schumacher, D., Abrams, M., A., eds., Hydrocarbon Migration and Its Near-Surface Expressi ...(April 3), p. 66–71.</ref> and Saunders et al.<ref name=ch18r36>Saunders, D., F., Burson, K., R., Brown, J., J., Thompson, C., K., 1993, [http://archiv
  8 KB (1,055 words) - 16:29, 25 January 2022
• Geochemical surface expression
  ...ail.aspx?id=75 AAPG Memoir 66], p. 71–89.</ref><ref name=ch18r37>Saunders, D. F., K. R. Burson, J. J. Brown, and C. K. Thompson, 1999, [http://archives.
  4 KB (493 words) - 22:00, 31 January 2022
• Picking horizons in 3-D data
  | chapter = Interpreting 3-D seismic data ...opicker works. &copy; Dorn.<ref name=Dorn_1998>Dorn, G. A., 1998, Modern 3-D seismic interpretation: The Leading Edge, v. 17, no. 9, p. 1262-1272.</ref>
  8 KB (1,155 words) - 19:12, 27 January 2022
• Surficial geochemical interpretation guidelines
  ...e key to using seepage in exploration: the spectrum of seepage styles], in D. Schumacher, and M. A. Abrams, eds., Hydrocarbon Migration and Its Near-Sur ...m Surface geochemistry as an exploration tool in the South Caribbean], in D. Schumacher, and M. A. Abrams, eds., Hydrocarbon Migration and Its Near-Sur
  8 KB (1,128 words) - 22:24, 31 January 2022
• Measuring displacement pressure using mercury injection
  The [[displacement pressure]] (P_d) is routinely inferred by forcing mercury into the pore space of a sa Displacement pressure (P_d) is defined as the pressure necessary to form a continuous hydrocarbo
  5 KB (749 words) - 19:46, 31 March 2022
• Taphonomy and provenance
  ...h17r55>Lawrence, D. R., 1979, Taphonomy, in Fairbridge, R., W., Jablonski, D., eds., The Encyclopedia of [[Paleontology]]: Stroudsburg, Pennsylvania, Do ...1990, Destructive taphonomic processes and skeletal durability, in Briggs, D., E., G., Crowther, P., R., eds., Palaeobiology: A Synthesis: Oxford, Black
  3 KB (449 words) - 18:12, 31 January 2022
• Smear-gouge ratio
  | author = G. Yielding, B. Freeman, and D. T. Needham
  911 bytes (124 words) - 13:49, 18 March 2019
• Gas hydrates
  ...lett, T. S., 1993, Natural gas production from arctic gas hydrates, ''in'' D. G. Howell, ed., [http://pubs.er.usgs.gov/publication/pp1570 The future of
  7 KB (1,050 words) - 20:53, 6 January 2015
• Petrophysical analysis of Sorrento field wells
  ...r|1}}From Hartmann and Coalson.<ref name=Hartmannandcoalson_1990>Hartmann, D. J., and E. B. Coalson, 1990, Evaluation of the Morrow sandstone in Sorrent ...> = 45%). This is verified by the well testing about 100 bo/d and 300 Mcfg/d (16 m³ oil and 8,500 m³gas per day) with no water fro
  7 KB (956 words) - 17:24, 11 April 2022

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