Sedimentology and Depositional Environments of Deep-water Deposits

Day 1

Course Intro & Refresher: Why soft rock geology matters to the Oil industry

• significance of stratigraphy & sedimentology to the E&P sector
• impact of reservoir heterogeneity on fluid flow; sedimentary characteristics as a control on poroperm
• fundamentals of reservoir modeling workflow; overview of sedimentary systems; correlation of well data and building the fluid flow model

Deepwater petroleum systems overview

• deep water discoveries
• fields in deep water vs fields in deep water deposits
• petroleum systems in deep-water settings; trap styles in deep water
• importance of mobile substrates [salt &/or shale]; exploration risk: importance of DHIs / AVO; offshore economics & need for high productivity
• deep water development options.

Deepwater petroleum systems & source rocks

• lacustrine source rocks in syn-rift settings
• marine source rocks & sea level change; Black Sea: present day source rock factory
• ‘Ice House’ vs ‘Green House’ oceanic circulation
• Jurassic Kimmeridge Clay: submarine fan sands interfingering with source rock

Day 2

Deepwater mass-flow depositional mechanisms

• introductory overview and review of gravity-flow / mass-flow sediment transport mechanisms [slumps / debris flows / grain flows / turbidites]
• three main settings: west coast California / sea level low-stands with deltas reaching shelf slope / seismically induced shelf slope collapse & Grand Banks case study
• tectono-sedimentary setting as a control on mass-flow sediment transportation; review of slumps / debris flows / grain flows / turbidites and likely reservoir characteristics; turbidites – vertical [Bouma sequence] and lateral depositional characteristics; dimensions of turbidite systems
• mud-rich / mixed sand-mud / sand-rich as a control of type of submarine fan; overview comparison clastic versus carbonate deepwater deposits

Deepwater contourite depositional systems

• oceanic circulation systems; Hjulström / Sundborg diagram; examples of contourite deposits

Deepwater mass-flow clastic sedimentary systems

• dimensions of clastic deepwater mass-flow systems; sediment supply to deepwater; linkage with sea level; glaciations & sea level
• sea level low-stand > key control on turbidite sedimentation; submarine fan models & terminology, comparison deepwater fans – subaerial fans – deltas; autoclycicity; vertical sequence in fan deposits; thin bed effects [shaley sands evaluation] in basin plain & levee deposits; shelf edge collapse & megaturbidites
• analogues from 3D seismic & from outcrops; proximal channel deposits > levee deposits > basin-plain deposits
• ‘milking’ 3-D seismic to characterise deep water deposits; describing geometry of deep water deposits [translating geological jargon into descriptive terms]

Day 3

Refresher on carbonates: reefal build-ups as sources of deep water carbonates

• comparison clastic & carbonate depositional systems
• Bahama platform; sea level as key control on carbonate sedimentation; main types of carbonate factory – Tropical factory / Cool water factory / Mud mound factory; T-factory & M-mound factory: common sources of deep water carbonates
• T & M factory during Phanerozoic; T-factory reefal systems – geometry & distribution

Slope & basin floor fan systems – Gulf of Mexico clastics case studies

• Gulf of Mexico depositional system; salt diapirism as a control on sea floor topography
• sea floor topography and turbidite sedimentation & distribution; turbidite classification & depositional architecture; value of inversion modeling for reservoir characterization

Slope systems Angola – clastics case study

• stratigraphic & sedimentological setting; seismic expression; reservoir heterogeneity; core / log characteristics; reservoir characteristics

Proximal slope & basin floor settings North Sea – clastics case studies

• Brae field – coarse grained proximal fan; reservoir heterogeneity & recovery; Schiehallion field – channelized turbidites
• reservoir connectivity; Nelson field – channelized basin floor fan
• delayed development of a 400+ million barrel UR field due to not understanding a ‘dry hole’
• impact of sea floor topography on sand distribution; crestal versus flank well control
• impact on volumetrics of T/Z variation between crest and flank; impact of shaley sands on volumetrics

Proximal slope & basin floor settings North Sea – clastics case studies

• Brae field – coarse grained proximal fan; reservoir heterogeneity & recovery; Schiehallion field – channelized turbidites
• reservoir connectivity; Nelson field – channelized basin floor fan
• delayed development of a 400+ million barrel UR field due to not understanding a ‘dry hole’
• impact of sea floor topography on sand distribution; crestal versus flank well control
• impact on volumetrics of T/Z variation between crest and flank; impact of shaley sands on volumetrics

Day 4

Slope & basin floor fan systems – Nigeria – clastics case studies

• Niger delta – depositional and structural characteristics
• growth faulting & shale diapirs; slope mini-basins versus outboard plays; the outboard play – Bonga; reservoir heterogeneity, 4D seismic & fluid displacement
• mini-basin play; depositional architecture & shale diapirism; stratigraphic reservoir compartmentalization
• 3D seismic & reservoir characterization – value of AVO & inversion; shaley sands evaluation and production performance; reservoir compartmentalization & drive mechanisms

Carbonate mass flow deposits – case studies

• Devonian reefs [Canning Basin – NW Australia]; fore reef setting – debris flows & olistostrome deposits
• mixed clastic & carbonate system; Jurassic carbonate platform – slope – basin [Marocco]
• proximal slope channel deposits versus distal basin plain deposits; Cretaceous fore reef deposits [Poza Rica / Golden Lane system – Mexico]
• seismic expression; reservoir characteristics; seismic facies & prediction of reservoir characteristics
• Cretaceous Chalks [North Sea]; pelagic deep water carbonates; Cretaceous 1st order high sea-level stand & carbonate sedimentation; allochthonous versus autochthonous chalks & reservoir quality; impact of Chixculub K/T event on reservoir quality; modern Bahama platform – distribution of deep water mass flow deposits; comparison clastic & carbonate deep water deposits; key characteristics & dimensions of carbonate slope deposits

Day 5

Optional modules upon request [depending on students’ general level of sedimentological / stratigraphic knowledge]

• Module: Sea level & Eustacy fundamentals
• Module: Sequence stratigraphy concepts

Overview and summary

Optional workshop module

• Presentation by students of own data sets with review & discussion in workshop format

Multiple choice course test (optional on client request)