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- | chapter = Evaluating top and fault seal The most important mechanical property for evaluating seal integrity is [[ductility]]. Ductile rocks make good top seals; [[Brittlenes4 KB (510 words) - 15:22, 30 March 2022
- | 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 ...ck types. In addition, a number of other factors—depth, hydrocarbon phase, seal thickness, fault-dependent leak points—affect the height of trapped [[hyd1 KB (179 words) - 20:54, 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
- ...his retain, especially since superficially the seal doesn't appear to be a seal at all. Instead, it consists of rocks with appreciable [[porosity]], local ...600 ft (180 m). Could rocks of the porous mudstone facies act as a lateral seal for this much oil column? To calculate oil column height, we use the follow10 KB (1,484 words) - 20:55, 4 December 2023
- #REDIRECT [[Fault seal behavior]]33 bytes (4 words) - 13:57, 31 January 2014
- | 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
- ...to [[fracture]] the rock. The result is natural hydraulic fracturing: the seal becomes hydrofractured and the petroleum leaks. Unlike other [[Fractured membrane seal leakage|fractured seals]], hydrofractures remain open only as long as [http5 KB (679 words) - 17:11, 1 February 2022
- Micropermeable leakage is caused by a variety of seal failure mechanisms, as discussed in the following sections. ...t for a geologically significant amount of time if the permeability of the seal to petroleum is low enough. These seals most likely occur in young basins w5 KB (742 words) - 17:11, 1 February 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
- ...[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
- #REDIRECT [[Seal failure prediction]]37 bytes (4 words) - 18:21, 21 August 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 ...kerlec, G., M., 1990, SEALS: A short course for risking top seal and fault seal: Franklin, Pennsylvania, SEALS International, 600 p.</ref> Koch et al., 1995 KB (757 words) - 15:43, 30 March 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
- ...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
- #REDIRECT [[Intact top seal]]29 bytes (4 words) - 20:33, 19 December 2014
- #REDIRECT [[Top seal integrity: Central Graben example]]56 bytes (7 words) - 20:50, 19 December 2014
- | chapter = Evaluating top and fault seal ...placement pressure of a seal depends on both the physical character of the seal (pore throat radius and pore throat size distribution) and the physical cha4 KB (530 words) - 15:56, 31 March 2022
Page text matches
- ...atapages.com/data/specpubs/beaumont/ch10/ch10.htm Evaluating top and fault seal], in E. A. Beaumont and N. H. Foster, Exploring for Oil and Gas Traps: [htt * [[Seal ductility]]990 bytes (151 words) - 14:30, 27 January 2016
- | chapter = Evaluating top and fault seal ...ck types. In addition, a number of other factors—depth, hydrocarbon phase, seal thickness, fault-dependent leak points—affect the height of trapped [[hyd1 KB (179 words) - 20:54, 31 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
- {{merge|Seal capacity}} | chapter = Evaluating top and fault seal2 KB (325 words) - 20:57, 31 March 2022
- #REDIRECT [[Fault seal behavior]]33 bytes (4 words) - 13:57, 31 January 2014
- #REDIRECT [[Seal failure prediction]]37 bytes (4 words) - 18:21, 21 August 2014
- #REDIRECT [[Intact top seal]]29 bytes (4 words) - 20:33, 19 December 2014
- #REDIRECT [[Top seal ductility estimation]]43 bytes (5 words) - 20:26, 19 December 2014
- #REDIRECT [[Top seal strain estimation]]40 bytes (5 words) - 20:29, 19 December 2014
- #REDIRECT [[Fault seal-conduit studies]]40 bytes (4 words) - 16:48, 22 January 2014
- | 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
- {{merge|Seal capacity}} | chapter = Evaluating top and fault seal3 KB (445 words) - 20:56, 31 March 2022
- ...or seal failure mechanisms form the basis for this section's discussion on seal leakage. ==Seal failure mechanisms==3 KB (445 words) - 16:58, 1 February 2022
- #REDIRECT [[Fault seal analysis example: Gulf Coast]]53 bytes (7 words) - 20:37, 22 August 2014
- #REDIRECT [[Top and fault seal evaluation]]43 bytes (6 words) - 19:53, 30 September 2014
- #REDIRECT [[Seal and hydrocarbon yield estimates]]50 bytes (6 words) - 20:18, 19 December 2014
- #REDIRECT [[Top and fault seal evaluation]]43 bytes (6 words) - 20:43, 19 December 2014
- #REDIRECT [[Top seal integrity: Central Graben example]]56 bytes (7 words) - 20:50, 19 December 2014
- #REDIRECT [[Midale seal capacity and trap type]]48 bytes (7 words) - 21:28, 22 July 2014
- #REDIRECT [[Seal capacity: pitfalls and limitations of estimation]]67 bytes (8 words) - 21:45, 21 May 2014