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Vagabond Ventures Oil Group Searches For Fossil Fuels Winter Session 2013

The Course Outline Oil & Gas Exploration The Basics: Week 1: Geology & History of Hydrocarbons Week 2: Oil & Gas Exploration Week 3: Petroleum Engineering $1,000,000 The Adventure: Week 4: ‘Vagabond Group’ proposes 2 prospects Week 5: ‘Vagabond Group’ plans production Week 6: the Payout?! A black-gold millionaire or dry hole hobo?

Oil & Gas Exploration Requirements for success - Requirements for success - Exploration processes 1) Source 2) Reservoir 3) Migration Path 4) Trap

Requirements for success where gas/oil are ‘stored’ reservoir rock (sandstone) - porous - permeable surface migration path Top of mature (generating) source rock source rock (shale) where the organic material is ‘cooked’ - organic rich - buried quickly - compressed/heated

Requirements for success where gas/oil are ‘stored’ reservoir rock (sandstone) - porous - permeable migration path source rock (shale) where the organic material is ‘cooked’ - organic rich - buried quickly - compressed/heated

Requirements for success reservoir rock (sandstone) migration path migration path source rock (shale) without a TRAP . . . the oil & gas escapes!

Requirements for success reservoir rock (sandstone) TRAP = barrier to migration - anticline - thrust fault - normal fault - salt dome - facies change migration path source rock (shale) without a TRAP . . . - TRAPS the oil & gas escapes!

Requirements for success -TRAPS Compressional forces can cause rock layers to BEND & FOLD . . . . Anticline possible oil/gas trap impermeable oil/gas sandstone shale

Requirements for success -TRAPS Compressional forces can cause rock layers to FRACTURE . . . . Thrust Fault possible oil/gas traps impermeable oil/gas sandstone oil/gas shale NOT impermeable fault plane

Requirements for success -TRAPS Extensional forces can cause rock layers to STRETCH & FRACTURE . . . . Normal Fault possible oil/gas trap impermeable oil/gas sandstone shale impermeable fault plane

Requirements for success -TRAPS Intrusions into layered rocks . . . Salt Dome Possible oil/gas traps oil/gas sandstone shale salt layer

Requirements for success -TRAPS Rock Properties within a rock layer can be different . . . . Facies Change possible oil/gas trap former river channel Imbedded in sedimentary rock layers

Exploration processes Oil Exploration - Requirements for success 1) Source 2) Reservoir 3) Migration Path 4) Trap - Exploration processes - Geology - Geophysics - ‘Land’ work Exploration processes

Exploration processes Geology Geophysics ? What’s the difference? Engineering Land Work

Exploration processes from last week . . . Geology Geophysics What’s the difference?

Exploration processes Geology ‘geo’ = earth ‘logy ’= study . . . uses field work and rock analysis to study the composition, processes, & history of the earth Brunton compass Geophysics ‘geo’ = earth ‘physics’ . . . uses physics and mathematics to evaluate the internal structure of earth hand lens Geoscience close

Exploration processes Scientific Tools THE SCIENTIFIC TOOLS - well logs - subsurface imaging - contour maps USE THE TOOLS TO FIND OIL & GAS - look for TRAPS - look for RESERVOIRS

Scientific Tools - well logs - subsurface imaging - contour maps next week . . . Seismic Data

Scientific Tools Subsurface Imaging This is a ‘Seismic Section’, similar to a X-section What is this wiggle trace?

Subsurface Imaging This is a ‘Seismic Section’, similar to a X-section Reflections from the top and bottom of rock layers How do we acquire these reflections? rock layers What is this wiggle trace?

The Seismic Method surface (land or water) energy sourcereceiver depth ? Travel Time velocity rock layer reflection point Travel time (sec)/2 X velocity (ft/sec) = DEPTH (ft)

The Seismic Trace source receiver Seismic Trace surface rock layers

the 2-D Seismic Line The Seismic Trace energy source receivers rocklayers Depth (ft)

the 2-D Seismic Line How do we aquire these data?

Acquisition – on Land listening devices . . . cable truck geophones cables on the ground jug hustlers

Acquisition – on Land What about an energy source?? listening devices . . . cable truck geophones cables on the ground jug hustlers

Acquisition – on Land energy source - Vibroseis truck What about an energy source?? cable truck geophones cables on the ground jug hustlers

Marine Acquisition Acquisition – on Land energy source - Vibroseis truck sea surface sea floor

Marine Acquisition Acquisition on Land listening devices . . . energy source . . . Boat cable with hydrophones airgun

Seismic Survey Layout – 2D Marine Acquisition Acquisition on Land listening devices . . . energy source . . . Boat Boat Boat Boat Boat Boat

Seismic Survey Layout – 2D line spacing is usually ¼ - ½ mile apart

Grid of 2-D Seismic Lines Seismic Survey Layout – 2D line spacing is usually ¼ - ½ mile apart

Grid of 2-D Seismic Lines each seismic line becomes part of the data grid using the grid we identify rock layers & make ‘contour’ plots of each layer

Grid of 2-D Seismic Lines Contour Plot from a 2-D Survey each seismic line becomes part of the data grid using the grid we identify rock layers & make ‘contour’ plots of each layer

Contour Plot from a 2-D Survey We use these plots to find possible oil traps BUT . . . . . With large spaces between the lines, the contours could be wrong! What to do??? The trap could be bigger . . . or smaller!!

3-D Seismic Surveys Contour Plot from a 2-D Survey We use these plots to find possible oil traps BUT . . . . . With large spaces between the lines, the contours could be wrong! What to do??? The trap could be bigger . . . or smaller!!

3-D Seismic Surveys 2-D Survey versus 3-D Survey

3-D Seismic Surveys listening devices . . . Steering devices

3-D Seismic Surveys listening devices . . . reels of hydrophone cables

3-D Seismic Surveys listening devices . . . energy source boat cable length =7 mile spread=1 mile

3-D Seismic Surveys energy source : airgun array boat cable length =7 mile spread=1 mile

3-D Seismic Surveys energy source : airgun array . . . deploying an airgun

3-D Seismic Surveys energy source : airgun array . . . deploying an airgun What do we get from a 3-D survey?

It’s Now a 3-D Seismic Cube Horizontal slices Vertical slices 3-D Seismic Surveys Remember the 2-D Seismic Grid? Empty spaces What do we get from a 3-D survey? How does this help?

It’s Now a 3-D Seismic Cube geoscience & engineering applications water layer salt layer reservoir layer possible oil/gas source rock layer

2-D vs 3-D seismic acquisition in the Gulf of Mexico No. traces 1983 1995

Exploration Processes THE SCIENTIFIC TOOLS - well logs (next week) - subsurface imaging - contour maps USE THE TOOLS TO FIND OIL & GAS - look for TRAPS - look for RESERVOIRS - look for TRAPS: - anticlines - fault traps – normal & thrust - salt domes - change in rock type (facies) - look for RESERVOIRS: - attribute analysis Finding Oil and Gas

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