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- Kinetics
- Kingfisher field
- Klippe
- LECO method in estimating richness
- Land: owners of oil and gas interests
- Land description and maps
- Land rig
- Land rigs
- Lateral
- Laurentia
- Lead/Prospect delineation
- Lead and prospect delineation
- Leakage
- Leakage mechanisms
- Libya hydrocarbon provinces
- Limestone
- Limitations and uncertainties
- Limitations and uncertainties of surficial gechemistry
- Limitations of GC/MS
- Limitations of correlations
- Limitations of gas chromatography/mass spectrometry (GC/MS)
- Limitations of oil correlations
- Limitations of quantitative fault seal analysis
- Liptinite
- Lithofacies
- Lithofacies analysis
- Lithofacies and environmental analysis of clastic depositional systems
- Lithofacies map
- Lithofacies maps
- Llanos basin
- Local magnetic field variations
- Location selection
- Log analysis: lithology
- Log analysis applications
- Log interpretation
- Log interpretation: initial quick scan
- Logging while drilling
- Logging while drilling (LWD)
- Lwandle plate
- Maceral
- Macroseepage vs. Microseepage
- Macroseepage vs. Microseepage in surficial geochemistry
- Macroseepage vs. microseepage in surficial geochemistry
- Magnetic field: local variations
- Magnetics
- Magnetics: interpreting residual maps
- Magnetics: petroleum exploration applications
- Magnetics: total intensity and residual magnetic maps
- Magnetotelluric
- Magnetotelluric data acquisition
- Magnetotelluric survey case history: volcanic terrain (Columbia River Plateau)
- Magnetotellurics
- Magnetotellurics case history: Precambrian overthrust (Northwestern Colorado)
- Magnetotellurics case history: frontier basin analysis (Amazon Basin, Colombia)
- Magnetotellurics case history: rugged carbonate terrain (Highlands of Papua New Guinea)
- Magnetotellurics case history: volcanic terrain (Columbia River Plateau)
- Magnetotellurics survey measurements
- Main Central Thrust
- Main Page
- Main Page/News
- Main Page/Project
- Making regional structural cross sections
- Making regional tectonic maps
- Mancos Shale Play in New Mexico
- Mandal-Ekofisk(!) petroleum system
- Mantle
- Map
- Mapping hydrodynamic traps
- Mapping paleogeography
- Mapping structure with seismic data
- Mapping unconformities
- Mapping with two-dimensional seismic data
- Maps of hydrocarbon types: Gulf of Mexico example
- Marcellus Shale (Devonian) -- Appalachian Basin
- Marine seismic data acquisition
- Matching synthetics to data
- Maturation
- Meandering fluvial reservoirs
- Measurement while drilling
- Measuring Pd using mercury injection
- Measuring displacement pressure using mercury injection
- Medical geology
- Metagenesis
- Meteoric diagenesis
- Methods for obtaining formation fluid pressures
- Microbial gas
- Microfossils in exploration
- Micropermeable seal leakage
- Microseismic monitoring
- Midale lithofacies and distribution
- Midale porosity, pore geometries, and petrophysics
- Midale seal capacity and trap type
- Midale water saturation and pore geometry
- Migration
- Migration by separate phase
- Migration by solution in water
- Migration distance: vertical and lateral
- Migration pathway
- Migration pathway map construction
- Migration pathways
- Migration rate
- Migration rate calculation
- Mineralogy
- Minibasin
- Minibasins
- Minibasins and petroleum systems
- Modeling
- Models of gravity anomalies
- Mohorovicic discontinuity
- Molecular fossils
- Molecular parameter data
- Molecular parameter data for oil–oil and oil–source rock correlations
- Molyneux:sandbox
- Monte Carlo and stochastic simulation methods
- Morphometric and particle analysis
- Morrow lithofacies and pore types
- Morrow lithofacies and pore types: Sorrento field
- Mowry Shale, Powder River Basin, Wyoming
- Mudlogging: drill cuttings analysis
- Mudlogging: equipment, services, and personnel
- Mudlogging: gas extraction and monitoring
- Mudlogging: the mudlog
- Mudstone
- Mudstone nomenclature
- Mudstones
- Multilateral well
- Multilevel well
- Multivariate data analysis
- Naming a petroleum system
- Nappe
- Natural-gas liquids
- Natural analogs
- Natural gas: history and forecast
- Natural gas occurrence
- Natural hydraulic fracturing example, North Sea
- Natural hydraulic fracturing example, north sea
- Natural hydraulic fracturing of top seals
- Nature of the oil and gas lease
- Near-surface destruction
- New Albany Shale, Illinois Basin, southwestern Indiana
- Niobrara & Codell of the Denver-Julesburg Basin
- Normal hydrostatic pressure
- Normal hydrostatic pressure gradients
- North American craton
- North Sea
- Nuclear power
- Oceanic crust
- Offset
- Offshore exploration and exploitation
- Offshore rig
- Offshore rigs
- Oil-oil and oil-source rock correlation
- Oil-oil and oil-source rock correlations
- Oil and condensate analysis
- Oil and gas contracts
- Oil as an energy source
- Oil correlation
- Oil correlation case histories
- Oil correlation case history: Brazilian offshore basins
- Oil correlation case history: Norwegian sector, North Sea
- Oil correlation case history: West Siberian basin
- Oil correlation case history: Zala basin, Hungary
- Oil shale
- Oil shales
- Oilfield water analysis
- Oil–oil and oil–source rock correlation
- Oklahoma Shale Gas/Tight Oil Plays
- Open- vs closed-system generation modeling
- Open-vs. Closed-system generation modeling
- Open hole tools
- Organic-walled microfossils
- Organic compounds: environmental indicators
- Organic facies
- Orogeny
- Other correlation features
- Overburden rock
- Overpressure and hydrocarbon distribution, Gulf Coast
- Overpressure and hydrocarbon distribution, gulf coast
- Overpressure causes
- Overthrust
- Overview of routine core analysis
- Owners of oil and gas interests
- Oxygen index
- Palaeoclimatology
- Palaeontology
- Paleobathymetry
- Paleoclimatology
- Paleocurrent
- Paleoenvironmental analysis
- Paleogeography
- Paleogeography and prospect identification
- Paleontologic data
- Paleontology
- Palynofacies and kerogen analysis
- Palynomorphs (organic-walled microfossils)
- Parana-Etendeka CBP
- Parana Basin
- Paraná Basin
- Parasequences (fourth- and fifth-order sequences)
- Pay determination
- Pc curves and saturation profiles
- Percent fill: controlling factors
- Perforation design
- Permeability
- Permian
- Permian Basin
- Permian basin
- Petrofabrics
- Petroleum
- Petroleum basins of Turkey
- Petroleum destruction
- Petroleum exploration
- Petroleum generation
- Petroleum reservoir fluid properties
- Petroleum source rock formation
- Petroleum source rocks
- Petroleum system
- Petroleum system: geographic, stratigraphic, and temporal extent
- Petroleum system concept: examples of application
- Petroleum system identification
- Petroleum system naming
- Petroleum system size
- Petroleum systems
- Petrological information about diagenesis
- Petrology
- Petrophysical analysis of Sorrento field wells
- Petrophysical analysis of lithofacies
- Phanerozoic Tethys region
- Phases of a seismic project
- Phi scale
- Phosphatic microfossils
- Pickett plot construction
- Picking horizons in 3-D data
- Pinch out
- Pinedale field
- Pitfalls and limitations of estimating seal capacity
- Plate Tectonics and Basin Formation
- Plate tectonic studies
- Plate tectonics
- Plate tectonics: setting and history maps
- Plate tectonics and basin formation
- Plates
- Plotting the hydrocarbon pressure gradient
- Pore-fluid interaction
- Pore and pore throat sizes
- Pore system classification
- Pore system fundamentals
- Pore system shapes
- Pore systems
- Pore throat size and connectivity
- Porosity
- Porphyrins and high-performance liquid chromatography (HPLC)
- Postaccumulation cementation
- Postprimary migration and compositional changes
- Potential fields
- Practical suggestions
- Practical suggestions for oil correlation
- Precambrian
- Predicting carbonate porosity and permeability
- Predicting carbonate reservoir location and quality
- Predicting hydrocarbon recovery
- Predicting overall seal failure
- Predicting preservation and destruction of accumulations
- Predicting reservoir drive mechanism
- Predicting reservoir system quality
- Predicting sandstone permeability from texture
- Predicting sandstone porosity and permeability
- Predicting sandstone reservoir porosity
- Preparing seismic data for mapping
- Preparing to go to the field
- Preprocessing of logging data
- Pressure compartment seals
- Pressure compartments
- Pressure detection
- Pressure prediction: analysis of cuttings
- Pressure prediction: analysis of mud weights
- Pressure prediction: analysis of well-log and seismic data
- Pressure prediction: reconstructing burial history
- Pressure transient testing
- Pressure trap regime
- Primary migration and compositional changes
- Principles of surface geochemical exploration
- Pristane-phytane ratio
- Procedure for basin-fill analysis
- Procedure for geometrical analysis
- Processing gravity data
- Production Index (PI)
- Production histories
- Production logging
- Production problems
- Production testing
- Proportional slices and 3-D volume visualization
- Prospective structural fairways
- Province, basin, system, play, and prospect
- Prudhoe Bay field
- Pyrolysis gas chromatography
- Quantitative biostratigraphy
- Quantitative fault seal analysis
- Quantitative paleoenvironmental analysis
- Quartz
- Quick-look lithology from logs
- Rate of penetration
- Recognizing stacked depositional sequences from well data
- Recognizing stacked depositional sequences in seismic profiles
- Reconstructing burial history
- Recurring themes
- Red link
- Reducing exploration risk
- Reef
- Reflection configuration patterns
- Regional pressure compartments
- Regression
- Relating traps to paleogeography
- Relationship between porosity and permeability on fractured basement reservoir
- Relationships between maturity and hydrocarbon generation
- Relative permeability
- Relative permeability and pore type
- Remote sensing
- Reserves estimation
- Reservoir
- Reservoir drive mechanisms
- Reservoir engineering
- Reservoir fluids
- Reservoir modeling for simulation purposes
- Reservoir quality
- Reservoir rock
- Reservoir simulation study
- Reservoir simulations and field unitization
- Reservoir system
- Reservoir system analysis
- Reservoir system quality prediction
- Reverse fault
- Rift
- Rig personnel
- Risk: dealing with risk aversion
- Risk: expected value and chance of success
- Rock-Eval
- Rock-Eval analysis
- Rock-Eval pyrolysis
- Rock-water reaction
- Rock-water reaction: formation damage
- Rock Eval
- Rock Eval analysis
- Rock Eval analysis using hydrogen index (HI) and oxygen index (OI)
- Rock physics analysis for reservoir identification