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- ...ncasing the ''Glob alt'' sandstones provide local top seal and [[lateral]] seal. ...From Armentrout;<ref name=Armentrout1993>Armentrout, J. M., 1993, Relative seal-level variations and fault-salt response: offshore Texas examples: Proceedi5 KB (662 words) - 14:48, 19 December 2023
- #REDIRECT [[Top and fault seal evaluation]]43 bytes (6 words) - 20:43, 19 December 2014
- | chapter = Evaluating top and fault seal The [[Seal ductility|ductility of a top seal]] can be estimated (1) by using laboratory data and log-derived density val7 KB (1,000 words) - 15:22, 30 March 2022
- | chapter = Evaluating top and fault seal ...es.datapages.com/data/bulletns/1997/06jun/0897/0897.htm Quantitative fault seal prediction]: AAPG Bulletin, vol. 81, no. 6, p. 897–917.</ref>9 KB (1,327 words) - 16:32, 29 March 2022
- | chapter = Evaluating top and fault seal ...re and composition of fault zones and the many factors that could affect a seal, it has been surprising to find such a simple relationship, basin after bas4 KB (509 words) - 16:52, 29 March 2022
- | chapter = Evaluating top and fault seal ...-seal_fig10-39.png|Figure 1]] is an example of evaluating, or risking, top seal integrity using two traps in the Central Graben, North Sea. One trap was [[6 KB (910 words) - 15:44, 30 March 2022
- | chapter = Evaluating top and fault seal ...sure of the seal, the seal leaks. For example, a shale top seal that could seal a 100-m column of oil might leak if the column increased to [[length::101 m2 KB (266 words) - 15:45, 31 March 2022
- | chapter = Evaluating top and fault seal ...field in the Gulf Coast and demonstrates the application of routine fault seal analysis.5 KB (769 words) - 18:12, 29 March 2022
- | chapter = Evaluating top and fault seal ...o a [[Trap systems: structural, stratigraphic, and fluidic|trap]]. [[Fault seal behavior|Fault seals]] control not only whether a trap retains hydrocarbons2 KB (261 words) - 18:12, 29 March 2022
- #REDIRECT [[Midale seal capacity and trap type]]48 bytes (7 words) - 21:28, 22 July 2014
- | chapter = Evaluating top and fault seal * [[Fault seal and migration pathways]]2 KB (316 words) - 18:20, 29 March 2022
- {{merge|Seal capacity}} | chapter = Evaluating top and fault seal5 KB (760 words) - 20:55, 31 March 2022
- | chapter = Evaluating top and fault seal ...commonly risked in an intuitive, qualitative manner. However, quantitative seal analysis, using those few techniques available, improves success ratios and4 KB (528 words) - 17:48, 24 March 2022
- #REDIRECT [[Top and fault seal evaluation]]43 bytes (6 words) - 19:53, 30 September 2014
- ==Significance of r<sub>bt</sub> for seal capacity== ...he same facies as the Midale vuggy beds, analyzed here as a possible updip seal. This study shows the updip change in pore throat sizes could account for 25 KB (723 words) - 17:02, 12 April 2022
- | chapter = Evaluating top and fault seal Quantitative fault seal analysis is a proven tool in numerous basins. There are, however, limitatio3 KB (398 words) - 17:35, 29 March 2022
- .../ref><ref name=Knipe_1992>Knipe, R. J., 1992, Faulting processes and fault seal, ''in'' R. M. Larsen, H. Brekke, B. T. Larsen, and E. Talleraas, eds., Stru ...es.datapages.com/data/bulletns/1997/06jun/0897/0897.htm Quantitative fault seal prediction]: AAPG Bulletin, v. 81, no. 6, p. 897-917.</ref>. One method of14 KB (2,146 words) - 19:35, 13 September 2022
- #REDIRECT [[Seal and hydrocarbon yield estimates]]50 bytes (6 words) - 20:18, 19 December 2014
- #REDIRECT [[Seal capacity: pitfalls and limitations of estimation]]67 bytes (8 words) - 21:45, 21 May 2014
- {{merge|Seal capacity}} | chapter = Evaluating top and fault seal5 KB (765 words) - 20:55, 31 March 2022
Page text matches
- #REDIRECT [[Seal capacity: pitfalls and limitations of estimation]]67 bytes (8 words) - 21:45, 21 May 2014
- | chapter = Evaluating top and fault seal ...ntrolled by [[fault]]-related [[spill point]]s that are independent of top seal thickness.3 KB (464 words) - 20:56, 31 March 2022
- | chapter = Evaluating top and fault seal ...commonly risked in an intuitive, qualitative manner. However, quantitative seal analysis, using those few techniques available, improves success ratios and4 KB (528 words) - 17:48, 24 March 2022
- | chapter = Evaluating top and fault seal Quantitative fault seal analysis is a proven tool in numerous basins. There are, however, limitatio3 KB (398 words) - 17:35, 29 March 2022
- | chapter = Evaluating top and fault seal ...s, interconnected pathway of hydrocarbon-filled pore space. Flow through a seal occurs with saturations of 4.5–17% of the rock pore volume, averaging 10%2 KB (313 words) - 13:57, 1 April 2022
- ...column) exceeds the seal capillary [[displacement pressure]]. This type of seal does not [[fracture]] during [[deformation]]. ...of the seal. Under these conditions, the relative [[permeability]] of the seal to petroleum is zero. The [[accumulation]] remains preserved until one of t3 KB (475 words) - 17:08, 1 February 2022
- | chapter = Evaluating top and fault seal ...l analysis]] are required for realistic reservoir simulations. Neither the seal behavior, [[transmissibility]], [[permeability]], nor areas of sand/sand ju3 KB (479 words) - 15:21, 30 March 2022
- ...[Diffusive seal leakage]]). The most likely mechanism is controlled by the seal lithology and the geological history. ==Seal failure timing==4 KB (571 words) - 18:06, 1 February 2022
- ...exceeds the [[displacement pressure]] of the fracture [[porosity]] in the seal. Many rock types with high capillary [[displacement pressure]]s rarely seal petroleum [[accumulation]]s. These rocks are often characterized by [[Britt3 KB (478 words) - 17:09, 1 February 2022
- | chapter = Evaluating top and fault seal ...that can be trapped can be calculated from the capillary properties of the seal pores system and the physical character of the hydrocarbons and pore fluids3 KB (357 words) - 15:08, 31 March 2022
- | chapter = Evaluating top and fault seal ...es.datapages.com/data/bulletns/1997/06jun/0897/0897.htm Quantitative fault seal prediction]: AAPG Bulletin, vol. 81, no. 6, p. 897–917.</ref>4 KB (598 words) - 19:47, 24 March 2022
- {{merge|Seal capacity}} | chapter = Evaluating top and fault seal5 KB (765 words) - 20:55, 31 March 2022
- | chapter = Evaluating top and fault seal ...''P''<sub>b</sub> is less than ''P''<sub>d</sub>, it would be possible to seal a greater column of hydrocarbons.3 KB (488 words) - 16:13, 31 March 2022
- | chapter = Evaluating top and fault seal * Top seal capacity/integrity3 KB (471 words) - 21:50, 28 March 2022
- ...water to a significant enough degree that diffusion through water in the [[seal]] rock can result in substantial loss of gas, given geological time. Becaus Only gas [[accumulation]]s can be destroyed by diffusive leakage. For most seal lithologies, loss by diffusion is very slow; so most gas accumulations are3 KB (410 words) - 18:03, 1 February 2022
- | chapter = Evaluating top and fault seal ...ain seals. In practice, however, hydrocarbons continue to flow through the seal until there is no longer a continuous hydrocarbon filament. Although the pr5 KB (693 words) - 14:23, 1 April 2022
- | title = Quantitative Fault Seal Prediction ...itical portion of the fault plane.<ref>Skerlec, G. M., 1996, Risking fault seal in the Gulf Coast (abs.): AAPG Annual Convention Program and Abstracts, v.911 bytes (124 words) - 13:49, 18 March 2019
- | chapter = Evaluating top and fault seal ...ny basins the major control on hydrocarbon column heights is not the [[top seal displacement pressure|displacement pressure of top seals]] but fault-depend4 KB (556 words) - 20:56, 31 March 2022
- | chapter = Evaluating top and fault seal ...kerlec, G., M., 1990, SEALS: A short course for risking top seal and fault seal: Franklin, Pennsylvania, SEALS International, 600 p.</ref> Although fractur3 KB (403 words) - 15:21, 30 March 2022
- #REDIRECT [[Fault seal quantitative prediction: shale smear factor, shale gouge ratio, and smear g110 bytes (15 words) - 21:32, 29 September 2014