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- 23:39, 19 January 2021 diff hist +2,129 N Energy Minerals Division Created page with "The Energy Minerals Division (EMD) is one of three divisions of the American Association of Petroleum Geologists (AAPG), the largest professional association of geoscientists ..." current
- 04:04, 31 July 2020 diff hist +2 Seal capacity →See also
- 04:03, 31 July 2020 diff hist -2 Seal capacity →See also
- 22:14, 23 January 2019 diff hist +4 Faults: structural geology
- 22:04, 23 January 2019 diff hist +8 Depositional environments
- 22:03, 23 January 2019 diff hist +40 Sandstone sedimentology and stratigraphy
- 22:02, 23 January 2019 diff hist +4 Subduction zone
- 22:01, 23 January 2019 diff hist +4 Strain partitioning current
- 22:01, 23 January 2019 diff hist +20 Sandstone
- 22:00, 23 January 2019 diff hist +4 Reservoir
- 22:00, 23 January 2019 diff hist +4 Cuba: Geologic history current
- 21:59, 23 January 2019 diff hist +8 Sandstone permeability prediction from texture
- 21:48, 23 January 2019 diff hist +20 Predicting sandstone reservoir porosity
- 21:42, 23 January 2019 diff hist +12 Influence of depositional environment on sandstone diagenesis
- 21:40, 23 January 2019 diff hist +8 Hydrology and sandstone diagenesis
- 21:40, 23 January 2019 diff hist +8 Sandstone diagenesis: composition and texture
- 21:39, 23 January 2019 diff hist +8 Sandstone diagenetic processes
- 20:47, 23 January 2019 diff hist +4 Displacement pressure estimation from sedimentary facies and well logs
- 20:46, 23 January 2019 diff hist +8 Diagenesis: information from petrology
- 20:45, 23 January 2019 diff hist +8 SEM, XRD, CL, and XF methods
- 20:45, 23 January 2019 diff hist +4 Wettability
- 20:40, 23 January 2019 diff hist +8 Thin section analysis
- 20:28, 23 January 2019 diff hist +16 Rock-water reaction: formation damage
- 20:28, 23 January 2019 diff hist +4 Diagenetically complex reservoir evaluation
- 20:26, 23 January 2019 diff hist +8 Reservoir quality
- 20:26, 23 January 2019 diff hist +12 Quick-look lithology from logs
- 20:25, 23 January 2019 diff hist +12 Log analysis: lithology
- 20:24, 23 January 2019 diff hist +12 Scanning electron microscopy (SEM) current
- 20:23, 23 January 2019 diff hist +16 Rock-water reaction
- 20:22, 23 January 2019 diff hist +4 Capillary pressure
- 20:21, 23 January 2019 diff hist +515 Quartz current
- 20:20, 23 January 2019 diff hist +616 N File:M109CH01Monocrystalline.jpg Lower Cretaceous Travis Peak Formation, Eastland County, Texas, Monocrystalline quartz grain with exceptionally abundant vacuoles (probably liquid-filled inclusions) and semicomposite extinction (Krynine’s “hydrothermal” quartz). Such vacuole-ric... current
- 20:07, 23 January 2019 diff hist +7,892 N Quartz Created page with "{{publication | image = M109pc1250.jpg | width = 120px | series = Memoir | title = A Color Guide to the Petrography of Sandstones, Siltstones, Shales, and Associat..."
- 20:07, 23 January 2019 diff hist +514 N File:M109CH01Polychristalline.jpg Triassic Sherwood Sandstone Group, County Antrim, Northern Ireland, U.K., a polycrystalline quartz grain of metamorphic origin. The grain has sutured internal boundaries between composite crystals and a preferential alignment of the constituent crystal... current
- 19:24, 23 January 2019 diff hist +437 N File:M109CH01FG01.jpg Plot of modern beach sands and their source terranes shows how the amount of nonundulatory, undulatory, and polycrystalline quartz grains and the number of crystals in polycrystalline grains can help determine quartz provenance (from [[Quartz|Basu et a... current
- 18:14, 23 January 2019 diff hist +321 N File:M109Quartz300dpi.jpg Quartz crystals with adularia (orthoclase) from Dona Anna Co., New Mexico. Photograph courtesy of the New Mexico Bureau of Geology and Mineral Resources. From AAPG Memoir 109—A Color Guide to the Petrography of Sandstones, Siltstones, Shales, and Ass... current
- 21:06, 22 January 2019 diff hist +1 Petroleum system naming
- 21:01, 22 January 2019 diff hist +4,181 Thelma field
- 15:28, 22 January 2019 diff hist +369 N File:M115CH11FG10.jpg Thelma area preproduction formation pressure distribution illustrating different free water levels on a common aquifer pressure gradient that is overpressured by 1272 psi above hydrostatic. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine F... current
- 15:27, 22 January 2019 diff hist +366 N File:M115CH11FG09.jpg Thelma area well correlation illustrating the distribution of free water levels (horizontal dashed blue lines), intraformational seals, and the resultant compartmentalization of regions. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan ... current
- 15:27, 22 January 2019 diff hist +339 N File:M115CH11FG08.jpg Thelma area regions (Top Brae member depth structure map). Blue lines represent some of the various free water levels illustrated in Figure 9. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, ... current
- 15:26, 22 January 2019 diff hist +315 N File:M115CH11FG07.jpg Upper Jurassic isochron map of the Thelma area illustrating the presence of a Middle Jurassic structural high under the Central region. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, Nor... current
- 15:25, 22 January 2019 diff hist +304 N File:M115CH11FG06.jpg T-Block Upper Jurassic isochron map illustrating graben complexity and distribution of depocenters (development wells only). From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [ht... current
- 15:22, 22 January 2019 diff hist +250 N File:M115CH11FG05.jpg Simplified T-Block stratigraphy. Long. Sh. = Longicornis shale member. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [http://store.aapg.org/detail.aspx?id=1301 Chapter 11]. current
- 15:21, 22 January 2019 diff hist +426 N File:M115CH11FG04.jpg Geoseismic cross section through Thelma illustrating the Thelma free water level relative to the independent four-way dip closure and the requirement for an additional trapping mechanism (line of section illustrated on Figure 2). From ... current
- 15:13, 22 January 2019 diff hist +250 N File:M115CH11FG03.jpg Summary of the “Brae Play” (Fraser et al., 2003). From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [http://store.aapg.org/detail.aspx?id=1301 Chapter 11]. current
- 15:12, 22 January 2019 diff hist +229 N File:M115CH11FG02.jpg Thelma area: Base Cretaceous depth structure map. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [http://store.aapg.org/detail.aspx?id=1301 Chapter 11]. current
- 15:10, 22 January 2019 diff hist +2,207 Thelma field
- 15:10, 22 January 2019 diff hist +249 N File:M115CH11FG01.jpg T-Block location map (only development wells are shown on Figure 1B). From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [http://store.aapg.org/detail.aspx?id=1301 Chapter 11]. current
- 23:54, 17 January 2019 diff hist +23 South Viking Graben