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- Dolostones
- Douglas K. Strickland
- Drill stem testing
- Drilling a well
- Drilling fluid
- Drilling problems
- Drive mechanisms and recovery
- Dry
- Dry hole
- Ductility
- EMD Bitumen/Heavy Oil Committee
- EMD Coal Committee
- EMD Coalbed Methane Committee
- EMD Tight Oil & Gas Committee
- EMD Tight Oil & Gas Committee 2018-19 Annual Report
- EMD Tight Oil & Gas Committee 2019-20 Annual Report
- EMD Tight Oil & Gas Committee 2020-21 Annual Report
- EMD Tight Oil & Gas Committee Annual Reports
- Eagle Ford Group, southwest Texas
- Eagle Ford Group in southwest Texas (USGS)
- Early carbonate diagenesis
- East Breaks critical moment
- East Breaks deep-water exploration strategy
- East Breaks deepwater exploration strategy
- East Breaks depositional sequence
- East Breaks geochemistry
- East Breaks hydrocarbon accumulation model
- East Breaks hydrocarbon generation model
- East Breaks hydrocarbon migration model
- East Breaks overburden rock
- East Breaks petroleum geology
- East Breaks petroleum system
- East Breaks reservoir rock
- East Breaks seal rock
- East Breaks source rock
- East Breaks trap formation
- East breaks petroleum system elements
- Economic geology
- Economics
- Economics: fundamental equations for oil and gas property evaluation
- Economics: global supply and demand
- Economics: key parameters
- Economics: time value of money
- Economics of property acquisitions
- Effect of composition and texture on sandstone diagenesis
- Effect of pore geometry on Sw in Midale rocks
- Effect of pore geometry on Sw in midale rocks
- Effect of pore geometry on water saturation in Midale rocks
- Effect of seal on hydrocarbon yield estimates
- Effective pay determination
- Electrical methods
- Elemental parameter data
- Elemental parameter data for oil–oil and oil–source rock correlations
- Ellesmerian(!) petroleum system
- Energy: historical sources
- Energy Minerals Division
- Enhanced oil recovery
- Environments indicated by specific compounds
- Eolian reservoir
- Eolian reservoirs
- Era
- Erosional trap regime
- Estimating Pd from pore size
- Estimating Pd from sedimentary facies and well logs
- Estimating displacement pressure
- Estimating displacement pressure from pore size
- Estimating displacement pressure from sedimentary facies and well logs
- Estimating ductility of top seals
- Estimating expulsion efficiency
- Estimating formation water density
- Estimating sandstone permeability from cuttings
- Estimating static gas pressure gradients
- Estimating static oil pressure gradients
- Estimating strain in top seals
- Evaluating diagenetically complex reservoirs
- Evaluating fractured reservoirs
- Evaluating intact top seal
- Evaluating quality using rock-eval HI/OI
- Evaluating source rock richness
- Evaluating stratigraphically complex fields
- Evaluating structurally complex reservoirs
- Evaluating tight gas reservoirs
- Evaluating top and fault seal
- Evaluating top seal integrity
- Evaporite
- Evaporites
- Example: defining a basin outline
- Example: evaluating top seal integrity
- Example: mapping depocenters through time
- Example: mapping fluvial input
- Example: mapping hydrocarbon types
- Example: mapping sediment thickness and field location
- Example of routine fault seal analysis: gulf coast
- Examples of applying the concept
- Examples of applying the petroleum system concept
- Examples of borehole gravity applications
- Examples of correlations using GC/MS
- Examples of correlations using gas chromatography/mass spectrometry (GC/MS)
- Examples of gravity applications
- Exchange rate/AUD
- Exchange rate/CAD
- Exchange rate/Currencies
- Exchange rate/EUR
- Exchange rate/GBP
- Exchange rate/USD
- Expected value and chance of success
- Exploration strategy for Deepwater sands
- Exploration strategy for deepwater sands
- Expulsion efficiency estimation
- Extended-reach wells
- FWhitehurst sandbox
- Facies analysis
- Facies map
- Factors that cause migration
- Factors that oppose hydrocarbon migration
- Fault-dependent leak points, continuity, and charge
- Fault control on hydrocarbon distribution
- Fault plane profile
- Fault plane profile analysis
- Fault plane profile construction
- Fault seal-conduit studies
- Fault seal analysis example: Gulf Coast
- Fault seal analysis for reservoir development
- Fault seal and migration pathways
- Fault seal behavior
- Fault seal behaviour
- Fault seal breakdown during production
- Fault seal quantitative prediction: shale smear factor, , shale gouge ratio, and smear gouge ratio
- Fault seal quantitative prediction: shale smear factor, shale gouge ratio, and smear gouge ratio
- Fault seal–conduit studies
- Fault trap regime
- Faults: structural geology
- Faunal assemblage
- Fayetteville Shale Gas Play, Arkansas
- Fieldwork
- Fieldwork risk assessment
- Finding free-water level using pressure
- Fishing
- Flow units and containers
- Flow units for reservoir characterization
- Fluid-composition trap regime
- Fluid contacts
- Fluid flow fundamentals
- Fluid inclusions: analysis and applications
- Fluidic trap system
- Fluvial input through time: Gulf of Mexico example
- Flysch
- Fold
- Fold trap regime
- Foreland basin
- Forensic geology
- Formation-scale migration pathways
- Formation evaluation of naturally fractured reservoirs
- Formation fluid pressure from drill stem tests
- Formation fluid pressure from repeat formation testers
- Formation water density
- Forward modeling of seismic data
- Fossil assemblage
- Fourth- and fifth-order sequences (Parasequences)
- Fracking
- Fracture
- Fracture analysis
- Fracture threshold in the real world
- Fracture trap regime
- Fracture traps
- Fractured membrane seal leakage
- Fractured reservoir evaluation
- Free water level
- Free water level determination using pressure
- Frontier reconnaissance techniques and tools
- Full waveform acoustic logging
- Functions of a petroleum landman
- Fundamental economic equations for oil and gas property evaluation
- Fundamentals of fluid flow
- GC-MS
- GC/MS
- GCMS
- GC–MS
- Gas chromatogram
- Gas chromatography
- Gas chromatography-mass spectrometry
- Gas chromatography/mass spectrometry (GC/MS): examples of correlations
- Gas chromatography/mass spectrometry (GC/MS): limitations
- Gas chromatography/mass spectrometry (GC/MS): procedures
- Gas chromatography: data obtained
- Gas chromatography–mass spectrometry
- Gas hydrates
- Geochemical case histories
- Geochemical case history 1: structural traps
- Geochemical case history 2: stratigraphic trap
- Geochemical case history 3: Predrill-postdrill comparison
- Geochemical case history 3: Predrill–postdrill comparison
- Geochemical interpretation guidelines
- Geochemical surface expression
- Geochemical survey objectives
- Geochemistry
- Geochemistry of two oils from east breaks
- Geodynamics of terrestrial exoplanets
- Geographic, stratigraphic, and temporal extent
- Geologic Mapping
- Geologic mapping
- Geologic mapping (UB)
- Geologic mapping (UGM)
- Geological cross sections
- Geological fieldwork benefits
- Geological heterogeneities
- Geological methods
- Geology
- Geology workstation
- Geometrical analysis
- Geomorphology
- Geophysical methods
- Geostatic and lithostatic pressure
- Geosteering
- Geothermal energy
- Geothermal gradient
- Getting rid of page
- Glossary
- Governance
- Grain size
- Gravity
- Gravity anomaly models
- Gravity applications: examples
- Gravity basics
- Gravity data processing
- Gravity in petroleum exploration
- Great American carbonate bank
- Great American carbonate bank, biostratigraphy
- Ground Water and Water Flow Estimation
- Growth fault
- Growth strata
- Guara Formation
- Guará Formation
- Gulf of Mexico
- Gypsum
- HYDROCARBON RESERVOIRS ASSOCIATED TO LAYERED INTRUSIVE BODIES
- Halite
- Hammerfest basin
- Haynesville and Bossier Shales (Upper Jurassic), East Texas and Northwest Louisiana
- Heavy oil
- Heel
- Hiatus
- Hierarchy of sequences
- High-performance liquid chromatography
- Historical sources of energy
- History of oil
- Holocene
- Horizontal well
- How are MT data acquired?
- How capillary properties control seal
- How different structural philosophies govern techniques
- How fault zones affect seal
- How faults control trap fill and migration pathways
- How is GC/MS done?
- How is gas chromatography/mass spectrometry (GC/MS) done?
- How to Plot The Strike Data to the Rosette Diagram
- How to construct migration pathway maps
- How to define the framework of a basin
- How to make and read a geological map correctly
- How to plot the strike data to the Rosette diagram
- How to use the classification scheme
- How to use the trap classification scheme
- Hydraulic fracturing: Division of Professional Affairs
- Hydrocarbon
- Hydrocarbon accumulation: the seven critical elements
- Hydrocarbon accumulation model
- Hydrocarbon column
- Hydrocarbon column: calculation of maximum height
- Hydrocarbon detection methods
- Hydrocarbon distribution
- Hydrocarbon expulsion, migration, and accumulation
- Hydrocarbon generation
- Hydrocarbon generation model
- Hydrocarbon migration
- Hydrocarbon migration model
- Hydrocarbon pressure gradient: plotting
- Hydrocarbon reservoir
- Hydrocarbon reservoirs associated to layered intrusive bodies
- Hydrodynamic flow and pressure transients
- Hydrodynamic influence on trapping
- Hydrodynamic traps: mapping
- Hydrodynamics
- Hydrodynamics: change in configuration
- Hydroelectric power
- Hydrofractured seal leakage
- Hydrogen Index (HI)
- Hydrogen index
- Hydrology and sandstone diagenesis
- Hydrostatic pressure-depth plot construction
- Hydrostatic pressure gradient
- IBA
- Identifying a petroleum system
- Identifying depositional sequences
- Identifying depositional sequences from biostratigraphic data
- Identifying depositional sequences in seismic sections
- Identifying reflectors
- Identifying sea level cycle phase with biostratigraphy
- Identifying systems tracts
- Igneous
- Igneous rock
- Immersive visualization
- Impact of diagenesis
- Impact of diagenesis on traps
- Imperial Barrel Award
- Importance of scale
- Importance of stratigraphic trap seals
- In-situ stress characterization and applications
- Inertinite
- Influence of depositional environment on sandstone diagenesis
- Influence of mechanical stratigraphy on deformation styles
- Intact membrane seal leakage
- Intact top seal
- Interpretation guidelines
- Interpreting Sw distribution in a reservoir
- Interpreting gravity measurements
- Interpreting hydrocarbon shows
- Interpreting residual maps
- Interval transit time
- Introduction to biosteering operation
- Introduction to contouring geological data with a computer
- Introduction to geological methods
- Introduction to geophysical methods
- Introduction to production engineering methods
- Introduction to reservoir engineering methods
- Introduction to wellsite methods
- Iran petroleum systems
- Iraq petroleum geology
- Irati Formation
- Irati formation
- Isochron
- Isotopic parameter data
- Isotopic parameter data for oil–oil and oil–source rock correlations
- Israel petroleum systems
- JMathewson/Sandbox
- Jordan petroleum geology
- Karst topography
- Kerogen
- Kerogen type and hydrocarbon generation
- Kerogen type and maturity
- Kerogen type and quality: visual assessment
- Kerogen types
- Kerogen types: comparison of maturity measures
- Key economic parameters
- Kickoff point
- Kickoff point (KOP)