Category:Predicting the occurrence of oil and gas traps
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Articles about the methods we use to explore for traps.
Pages in category "Predicting the occurrence of oil and gas traps"
The following 200 pages are in this category, out of 259 total.
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B
- Balanced cross sections
- Basement fault blocks and fault block patterns
- Basin-fill and trap analysis
- Biogeography
- Biostratigraphic applications
- Biostratigraphic correlation and age determination
- Biostratigraphy in sequence stratigraphy
- Borehole gravity applications: examples
- Borehole gravity tool
- Borehole gravity: uses, advantages, and disadvantages
- Burial destruction
C
- Calcareous microfossils
- Capillary pressure (Pc) curves: pore throat size determination
- Capillary pressure (Pc): buoyancy, height, and pore throat radius
- Carbonate diagenetic stages
- Carbonate facies
- Carbonate porosity formation and preservation
- Combining well log with seismic sequence analysis
- Cross-leaking fault
- Cross-sealing fault
D
- Density-neutron log porosity
- Depositional sequence analysis of plays
- Designing a surficial geochemical survey
- Determining water saturation
- Diagenesis: information from petrology
- Diagenetic impact on traps
- Diagenetic traps: criteria for recognition
- Diffusive seal leakage
- Dip-leaking fault
- Dip-sealing fault
- Displacement pressure estimation
- Displacement pressure estimation from pore size
- Displacement pressure estimation from sedimentary facies and well logs
- Displacement pressure: theory vs. reality
F
- Fault control on hydrocarbon distribution
- Fault plane profile
- Fault plane profile construction
- Fault seal analysis example: Gulf Coast
- Fault seal and migration pathways
- Fault seal behavior
- Fault seal breakdown during production
- Fault seal-conduit studies
- Fault-dependent leak points, continuity, and charge
- Fieldwork risk assessment
- Flow units and containers
- Fracture analysis
- Fracture threshold in the real world
- Fractured membrane seal leakage
- Frontier reconnaissance techniques and tools
G
H
- How capillary properties control seal
- How different structural philosophies govern techniques
- How fault zones affect seal
- How faults control trap fill and migration pathways
- Hydrocarbon accumulation: the seven critical elements
- Hydrocarbon column: calculation of maximum height
- Hydrocarbon expulsion, migration, and accumulation
- Hydrodynamic flow and pressure transients
- Hydrodynamics: change in configuration
- Hydrofractured seal leakage
- Hydrology and sandstone diagenesis
I
M
- Macroseepage vs. microseepage in surficial geochemistry
- Magnetic field: local variations
- Magnetics: interpreting residual maps
- Magnetics: petroleum exploration applications
- Magnetics: total intensity and residual magnetic maps
- Magnetotelluric data acquisition
- Magnetotelluric survey case history: volcanic terrain (Columbia River Plateau)
- Magnetotellurics
- Magnetotellurics case history: frontier basin analysis (Amazon Basin, Colombia)
- Magnetotellurics case history: Precambrian overthrust (Northwestern Colorado)
- Magnetotellurics case history: rugged carbonate terrain (Highlands of Papua New Guinea)
- Magnetotellurics survey measurements
- Mapping paleogeography
- Mapping unconformities
- Measuring displacement pressure using mercury injection
- Microfossils in exploration
- Micropermeable seal leakage
- Midale lithofacies and distribution
- Midale porosity, pore geometries, and petrophysics
- Midale seal capacity and trap type
- Midale water saturation and pore geometry
- Migration pathway map construction
- Molecular fossils
- Morphometric and particle analysis
- Morrow lithofacies and pore types: Sorrento field
N
P
- Paleobathymetry
- Paleoclimatology
- Paleoenvironmental analysis
- Paleontologic data
- Palynofacies and kerogen analysis
- Palynomorphs (organic-walled microfossils)
- Parasequences (fourth- and fifth-order sequences)
- Pc curves and saturation profiles
- Percent fill: controlling factors
- Petrofabrics
- Petrophysical analysis of lithofacies
- Petrophysical analysis of Sorrento field wells
- Phases of a seismic project
- Phosphatic microfossils
- Pickett plot construction
- Picking horizons in 3-D data
- Plate tectonic studies
- Pore and pore throat sizes
- Pore system fundamentals
- Pore system shapes
- Pore systems
- Pore throat size and connectivity
- Pore-fluid interaction
- Postaccumulation cementation
- Potential fields
- Predicting carbonate porosity and permeability
- Predicting carbonate reservoir location and quality
- Predicting hydrocarbon recovery
- Predicting preservation and destruction of accumulations
- Predicting reservoir drive mechanism
- Predicting sandstone reservoir porosity
- Preparing to go to the field
- Procedure for basin-fill analysis
- Procedure for geometrical analysis
Q
R
S
- Sampling for paleontology
- Sandstone diagenesis: composition and texture
- Sandstone diagenetic processes
- Sandstone permeability estimation from cuttings
- Sandstone permeability prediction from texture
- Sandstone porosity and permeability prediction
- Saturations required for hydrocarbon flow
- Sea level cycles and carbonate diagenesis
- Sea level cycles and carbonate sequences
- Sea level cycles and climate
- Seal and hydrocarbon yield estimates
- Seal capacity
- Seal capacity and two-phase hydrocarbon columns
- Seal capacity of breached and hydrocarbon-wet seals
- Seal capacity of different rock types
- Seal capacity variation with depth and hydrocarbon phase
- Seal capacity: pitfalls and limitations of estimation
- Seal ductility
- Seal failure prediction
- Seal thickness
- Seepage activity and surficial geochemistry
- Seismic attributes
- Seismic attributes in geological interpretation
- Seismic data
- Seismic data - creating an integrated structure map
- Seismic data and mapping structure
- Seismic data interpretation - recurring themes
- Seismic data preparation for mapping
- Seismic data: analyzing individual reflectors
- Seismic data: building a stratigraphic model
- Seismic data: identifying reflectors
- Seismic data: two- or three-dimensional interpretation
- Seismic facies analysis
- Seismic facies mapping
- Seismic interpretation: surface slicing
- Seismic scale importance
- Seismic sequence analysis
- Selecting a surficial geochemistry survey method
- Selling a structural play
- Sequence stratigraphy
- Sequence stratigraphy: hierarchy of sequences
- Sequences during high-amplitude, high-frequency cycles
- Sequences during low-amplitude, high-frequency cycles
Media in category "Predicting the occurrence of oil and gas traps"
The following 200 files are in this category, out of 321 total.
(previous page) (next page)- Applied-paleontology fig17-1.png 1,612 × 341; 56 KB
- Applied-paleontology fig17-10.png 1,636 × 319; 76 KB
- Applied-paleontology fig17-11.png 1,528 × 352; 49 KB
- Applied-paleontology fig17-12.png 1,580 × 348; 64 KB
- Applied-paleontology fig17-13.png 1,665 × 1,093; 164 KB
- Applied-paleontology fig17-14.png 1,077 × 478; 20 KB
- Applied-paleontology fig17-15.png 589 × 535; 25 KB
- Applied-paleontology fig17-16.png 550 × 423; 16 KB
- Applied-paleontology fig17-17.png 1,054 × 1,439; 140 KB
- Applied-paleontology fig17-18.png 1,428 × 1,138; 91 KB
- Applied-paleontology fig17-19.png 1,054 × 1,727; 356 KB
- Applied-paleontology fig17-2.png 1,626 × 344; 60 KB
- Applied-paleontology fig17-20.png 1,656 × 1,639; 374 KB
- Applied-paleontology fig17-21.png 1,361 × 803; 108 KB
- Applied-paleontology fig17-22.png 1,090 × 718; 47 KB
- Applied-paleontology fig17-23.png 1,637 × 1,069; 648 KB
- Applied-paleontology fig17-24.png 1,636 × 848; 655 KB
- Applied-paleontology fig17-25.png 1,660 × 1,207; 897 KB
- Applied-paleontology fig17-26.png 1,627 × 865; 687 KB
- Applied-paleontology fig17-27.png 1,055 × 752; 50 KB
- Applied-paleontology fig17-28.png 912 × 783; 206 KB
- Applied-paleontology fig17-29.png 773 × 1,259; 209 KB
- Applied-paleontology fig17-3.png 1,604 × 325; 61 KB
- Applied-paleontology fig17-30.png 1,566 × 864; 407 KB
- Applied-paleontology fig17-31.png 1,655 × 921; 274 KB
- Applied-paleontology fig17-32.png 1,343 × 1,127; 254 KB
- Applied-paleontology fig17-33.png 769 × 1,312; 208 KB
- Applied-paleontology fig17-34.png 1,025 × 833; 127 KB
- Applied-paleontology fig17-4.png 1,551 × 355; 86 KB
- Applied-paleontology fig17-5.png 1,589 × 359; 80 KB
- Applied-paleontology fig17-6.png 1,558 × 358; 115 KB
- Applied-paleontology fig17-7.png 1,643 × 345; 53 KB
- Applied-paleontology fig17-8.png 1,592 × 349; 46 KB
- Applied-paleontology fig17-9.png 1,493 × 360; 47 KB
- Applying-gravity-in-petroleum-exploration fig15-1.png 1,525 × 394; 30 KB
- Applying-gravity-in-petroleum-exploration fig15-10.png 1,637 × 1,005; 370 KB
- Applying-gravity-in-petroleum-exploration fig15-11.png 1,380 × 572; 239 KB
- Applying-gravity-in-petroleum-exploration fig15-12.png 1,198 × 1,621; 92 KB
- Applying-gravity-in-petroleum-exploration fig15-13.png 1,483 × 1,758; 345 KB
- Applying-gravity-in-petroleum-exploration fig15-14.png 1,978 × 1,174; 239 KB
- Applying-gravity-in-petroleum-exploration fig15-15.png 2,042 × 1,421; 507 KB
- Applying-gravity-in-petroleum-exploration fig15-17.png 1,181 × 1,780; 134 KB
- Applying-gravity-in-petroleum-exploration fig15-2.png 969 × 588; 32 KB
- Applying-gravity-in-petroleum-exploration fig15-3.png 2,047 × 704; 935 KB
- Applying-gravity-in-petroleum-exploration fig15-4.png 1,412 × 1,194; 70 KB
- Applying-gravity-in-petroleum-exploration fig15-5.png 1,153 × 820; 143 KB
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- Applying-gravity-in-petroleum-exploration fig15-7.png 1,463 × 1,952; 1.37 MB
- Applying-gravity-in-petroleum-exploration fig15-8.png 1,616 × 1,772; 292 KB
- Applying-gravity-in-petroleum-exploration fig15-9.png 1,650 × 1,572; 339 KB
- Applying-magnetotellurics fig16-1.png 1,429 × 671; 637 KB
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- Applying-magnetotellurics fig16-5.png 1,686 × 492; 623 KB
- Applying-magnetotellurics fig16-6.png 1,429 × 826; 525 KB
- Applying-magnetotellurics fig16-7.png 1,679 × 913; 1.21 MB
- Applying-magnetotellurics fig16-8.png 1,665 × 903; 825 KB
- Evaluating-top-and-fault-seal fig10-1.png 861 × 543; 28 KB
- Evaluating-top-and-fault-seal fig10-10.png 1,297 × 609; 40 KB
- Evaluating-top-and-fault-seal fig10-11.png 1,128 × 792; 60 KB
- Evaluating-top-and-fault-seal fig10-12.png 704 × 679; 48 KB
- Evaluating-top-and-fault-seal fig10-13.png 733 × 706; 57 KB
- Evaluating-top-and-fault-seal fig10-14.png 977 × 878; 53 KB
- Evaluating-top-and-fault-seal fig10-15.png 1,141 × 853; 78 KB
- Evaluating-top-and-fault-seal fig10-16.png 1,108 × 828; 76 KB
- Evaluating-top-and-fault-seal fig10-17.png 804 × 1,015; 25 KB
- Evaluating-top-and-fault-seal fig10-18.png 593 × 844; 16 KB
- Evaluating-top-and-fault-seal fig10-19.png 1,675 × 1,173; 1.5 MB
- Evaluating-top-and-fault-seal fig10-2.png 843 × 511; 31 KB
- Evaluating-top-and-fault-seal fig10-21.png 2,011 × 940; 1.72 MB
- Evaluating-top-and-fault-seal fig10-22.png 1,334 × 972; 343 KB
- Evaluating-top-and-fault-seal fig10-23.png 1,137 × 574; 27 KB
- Evaluating-top-and-fault-seal fig10-25.png 1,204 × 675; 28 KB
- Evaluating-top-and-fault-seal fig10-26.png 1,236 × 1,382; 1.17 MB
- Evaluating-top-and-fault-seal fig10-27.png 1,285 × 625; 294 KB
- Evaluating-top-and-fault-seal fig10-29.png 1,681 × 720; 1.43 MB
- Evaluating-top-and-fault-seal fig10-3.png 1,107 × 633; 21 KB
- Evaluating-top-and-fault-seal fig10-30.png 1,983 × 864; 154 KB
- Evaluating-top-and-fault-seal fig10-31.png 1,648 × 1,173; 184 KB
- Evaluating-top-and-fault-seal fig10-32.png 1,106 × 1,267; 1.9 MB
- Evaluating-top-and-fault-seal fig10-33.png 1,685 × 789; 578 KB
- Evaluating-top-and-fault-seal fig10-34.png 878 × 736; 33 KB
- Evaluating-top-and-fault-seal fig10-35.png 1,350 × 728; 384 KB
- Evaluating-top-and-fault-seal fig10-36.png 1,249 × 873; 410 KB
- Evaluating-top-and-fault-seal fig10-37.png 1,399 × 839; 557 KB
- Evaluating-top-and-fault-seal fig10-38.png 1,103 × 969; 18 KB
- Evaluating-top-and-fault-seal fig10-4.png 1,053 × 638; 37 KB
- Evaluating-top-and-fault-seal fig10-40.png 1,248 × 1,505; 747 KB
- Evaluating-top-and-fault-seal fig10-41.png 1,191 × 750; 353 KB
- Evaluating-top-and-fault-seal fig10-42.png 1,514 × 730; 546 KB
- Evaluating-top-and-fault-seal fig10-43.png 874 × 1,568; 700 KB
- Evaluating-top-and-fault-seal fig10-44.png 829 × 1,439; 638 KB
- Evaluating-top-and-fault-seal fig10-45.png 1,270 × 1,454; 95 KB
- Evaluating-top-and-fault-seal fig10-46.png 1,653 × 837; 495 KB
- Evaluating-top-and-fault-seal fig10-47.png 841 × 654; 35 KB
- Evaluating-top-and-fault-seal fig10-48.png 992 × 1,429; 61 KB
- Evaluating-top-and-fault-seal fig10-49.png 1,491 × 861; 61 KB
- Evaluating-top-and-fault-seal fig10-5.png 838 × 497; 16 KB
- Evaluating-top-and-fault-seal fig10-50.png 970 × 1,004; 320 KB
- Evaluating-top-and-fault-seal fig10-51.png 783 × 1,361; 611 KB
- Evaluating-top-and-fault-seal fig10-52.png 1,662 × 680; 344 KB
- Evaluating-top-and-fault-seal fig10-53.png 1,128 × 706; 94 KB
- Evaluating-top-and-fault-seal fig10-54.png 1,524 × 892; 39 KB
- Evaluating-top-and-fault-seal fig10-6.png 1,053 × 639; 39 KB
- Evaluating-top-and-fault-seal fig10-7.png 1,054 × 638; 41 KB
- Evaluating-top-and-fault-seal fig10-8.png 823 × 487; 21 KB
- Evaluating-top-and-fault-seal fig10-9.png 1,298 × 608; 38 KB
- Exploring-for-stratigraphic-traps fig21-1.png 1,502 × 824; 120 KB
- Exploring-for-stratigraphic-traps fig21-10.png 1,356 × 809; 109 KB
- Exploring-for-stratigraphic-traps fig21-11.png 486 × 1,997; 154 KB
- Exploring-for-stratigraphic-traps fig21-12.png 1,636 × 1,045; 478 KB
- Exploring-for-stratigraphic-traps fig21-13.png 1,629 × 1,071; 455 KB
- Exploring-for-stratigraphic-traps fig21-14.png 1,617 × 1,817; 219 KB
- Exploring-for-stratigraphic-traps fig21-15.png 1,635 × 2,017; 1.99 MB
- Exploring-for-stratigraphic-traps fig21-16.png 1,584 × 1,147; 602 KB
- Exploring-for-stratigraphic-traps fig21-17.png 1,421 × 1,570; 476 KB
- Exploring-for-stratigraphic-traps fig21-18.png 1,643 × 602; 95 KB
- Exploring-for-stratigraphic-traps fig21-19.png 1,532 × 1,149; 773 KB
- Exploring-for-stratigraphic-traps fig21-2.png 1,421 × 790; 99 KB
- Exploring-for-stratigraphic-traps fig21-20.png 1,671 × 795; 76 KB
- Exploring-for-stratigraphic-traps fig21-21.png 1,537 × 829; 114 KB
- Exploring-for-stratigraphic-traps fig21-22.png 1,091 × 1,213; 126 KB
- Exploring-for-stratigraphic-traps fig21-23.png 465 × 504; 117 KB
- Exploring-for-stratigraphic-traps fig21-24.png 767 × 488; 34 KB
- Exploring-for-stratigraphic-traps fig21-25.png 1,208 × 529; 44 KB
- Exploring-for-stratigraphic-traps fig21-26.png 1,570 × 1,412; 140 KB
- Exploring-for-stratigraphic-traps fig21-27.png 1,407 × 635; 146 KB
- Exploring-for-stratigraphic-traps fig21-28.png 1,554 × 1,253; 1.16 MB
- Exploring-for-stratigraphic-traps fig21-29.png 476 × 754; 240 KB
- Exploring-for-stratigraphic-traps fig21-3.png 1,184 × 1,741; 635 KB
- Exploring-for-stratigraphic-traps fig21-30.png 1,651 × 1,650; 1.92 MB
- Exploring-for-stratigraphic-traps fig21-31.png 1,633 × 1,509; 483 KB
- Exploring-for-stratigraphic-traps fig21-32.png 996 × 1,937; 402 KB
- Exploring-for-stratigraphic-traps fig21-33.png 1,923 × 1,131; 241 KB
- Exploring-for-stratigraphic-traps fig21-34.png 1,660 × 1,036; 169 KB
- Exploring-for-stratigraphic-traps fig21-35.png 1,658 × 586; 61 KB
- Exploring-for-stratigraphic-traps fig21-36.png 1,635 × 1,586; 662 KB
- Exploring-for-stratigraphic-traps fig21-37.png 1,607 × 434; 73 KB
- Exploring-for-stratigraphic-traps fig21-39.png 1,089 × 1,889; 630 KB
- Exploring-for-stratigraphic-traps fig21-4.png 1,514 × 1,669; 1.26 MB
- Exploring-for-stratigraphic-traps fig21-40.png 1,568 × 1,329; 408 KB
- Exploring-for-stratigraphic-traps fig21-41.png 1,241 × 1,877; 555 KB
- Exploring-for-stratigraphic-traps fig21-42.png 1,089 × 632; 84 KB
- Exploring-for-stratigraphic-traps fig21-5.png 1,157 × 792; 274 KB
- Exploring-for-stratigraphic-traps fig21-6.png 1,518 × 1,585; 193 KB
- Exploring-for-stratigraphic-traps fig21-7.png 1,510 × 1,029; 326 KB
- Exploring-for-stratigraphic-traps fig21-8.png 1,497 × 522; 179 KB
- Exploring-for-stratigraphic-traps fig21-9.png 1,638 × 713; 625 KB
- Exploring-for-structural-traps fig20-1.png 1,595 × 2,035; 656 KB
- Exploring-for-structural-traps fig20-10.png 1,584 × 903; 256 KB
- Exploring-for-structural-traps fig20-11.png 2,012 × 1,163; 894 KB
- Exploring-for-structural-traps fig20-12.png 1,291 × 898; 986 KB
- Exploring-for-structural-traps fig20-13.png 1,573 × 875; 361 KB
- Exploring-for-structural-traps fig20-14.png 1,685 × 1,159; 1.43 MB
- Exploring-for-structural-traps fig20-15.png 1,478 × 1,995; 263 KB
- Exploring-for-structural-traps fig20-17.png 1,685 × 1,069; 1.47 MB
- Exploring-for-structural-traps fig20-18.png 1,551 × 895; 112 KB
- Exploring-for-structural-traps fig20-2.png 1,690 × 1,706; 434 KB
- Exploring-for-structural-traps fig20-3.png 1,592 × 2,066; 287 KB
- Exploring-for-structural-traps fig20-4.png 1,671 × 1,286; 141 KB
- Exploring-for-structural-traps fig20-5.png 1,062 × 1,519; 396 KB
- Exploring-for-structural-traps fig20-7.png 1,130 × 2,057; 215 KB
- Exploring-for-structural-traps fig20-8.png 1,536 × 2,154; 601 KB
- Exploring-for-structural-traps fig20-9.png 1,275 × 694; 519 KB
- Interpreting-3-d-seismic-data fig13-1.png 1,276 × 2,005; 1.5 MB
- Interpreting-3-d-seismic-data fig13-10.png 1,213 × 1,057; 870 KB
- Interpreting-3-d-seismic-data fig13-11.png 1,203 × 1,016; 739 KB
- Interpreting-3-d-seismic-data fig13-12.png 1,200 × 949; 1.12 MB
- Interpreting-3-d-seismic-data fig13-2.png 1,682 × 1,119; 1.48 MB
- Interpreting-3-d-seismic-data fig13-3.png 1,495 × 932; 1.88 MB
- Interpreting-3-d-seismic-data fig13-4.png 1,672 × 809; 1.04 MB
- Interpreting-3-d-seismic-data fig13-5.png 1,124 × 743; 177 KB
- Interpreting-3-d-seismic-data fig13-6.png 1,601 × 869; 400 KB
- Interpreting-3-d-seismic-data fig13-7.png 1,687 × 542; 499 KB
- Interpreting-3-d-seismic-data fig13-8.png 1,669 × 977; 1,006 KB
- Interpreting-3-d-seismic-data fig13-9.png 1,652 × 876; 1.37 MB
- Interpreting-seismic-data fig12-1.png 1,558 × 642; 56 KB
- Interpreting-seismic-data fig12-10.png 1,677 × 858; 1.12 MB
- Interpreting-seismic-data fig12-11.png 1,438 × 1,761; 883 KB
- Interpreting-seismic-data fig12-12.png 1,651 × 1,287; 383 KB
- Interpreting-seismic-data fig12-13.png 1,547 × 657; 229 KB
- Interpreting-seismic-data fig12-14.png 1,982 × 514; 559 KB
- Interpreting-seismic-data fig12-15.png 1,556 × 705; 68 KB
- Interpreting-seismic-data fig12-16.png 1,640 × 695; 576 KB
- Interpreting-seismic-data fig12-2.png 1,676 × 671; 109 KB
- Interpreting-seismic-data fig12-3.png 1,664 × 852; 483 KB
- Interpreting-seismic-data fig12-4.png 1,628 × 546; 73 KB
- Interpreting-seismic-data fig12-5.png 1,651 × 788; 503 KB
- Interpreting-seismic-data fig12-6.png 1,262 × 920; 641 KB
- Interpreting-seismic-data fig12-7.png 1,430 × 1,789; 478 KB
- Interpreting-seismic-data fig12-8.png 1,601 × 1,294; 566 KB
- Interpreting-seismic-data fig12-9.png 1,614 × 786; 50 KB
- Predicting-preservation-and-destruction-of-accumulations fig11-1.png 1,618 × 388; 247 KB
- Predicting-preservation-and-destruction-of-accumulations fig11-2.png 1,663 × 429; 74 KB
- Predicting-preservation-and-destruction-of-accumulations fig11-3.png 1,071 × 1,213; 130 KB
- Predicting-preservation-and-destruction-of-accumulations fig11-4.png 1,666 × 570; 80 KB
- Predicting-reservoir-system-quality-and-performance fig9-1.png 1,684 × 602; 55 KB
- Predicting-reservoir-system-quality-and-performance fig9-10.png 847 × 761; 203 KB
- Predicting-reservoir-system-quality-and-performance fig9-100.png 1,622 × 1,148; 174 KB