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The Tools of Subsurface Analysis

The Tools of Subsurface Analysis. Well Logs. Delimit of surfaces & identify sediments penetrated. Resistivity Logs Spontaneous Potential (SP) Logs Gamma Ray Logs Neutron Logs Density Logs Sonic (acoustic) Logs. Well Logs. Delimit of surfaces & identify sediments penetrated.

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The Tools of Subsurface Analysis

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  1. The Tools of Subsurface Analysis

  2. Well Logs Delimit of surfaces & identify sediments penetrated • Resistivity Logs • Spontaneous Potential (SP) Logs • Gamma Ray Logs • Neutron Logs • Density Logs • Sonic (acoustic) Logs

  3. Well Logs Delimit of surfaces & identify sediments penetrated • Resistivity Logs • Spontaneous Potential (SP) Logs • Gamma Ray Logs • Neutron Logs • Density Logs • Sonic (acoustic) Logs

  4. Well Logs Delimit of surfaces & identify sediments penetrated • Resistivity Logs • Spontaneous Potential (SP) Logs • Gamma Ray Logs • Neutron Logs • Density Logs • Sonic (acoustic) Logs

  5. Well Logs Delimit of surfaces & identify sediments penetrated • Resistivity Logs • Spontaneous Potential (SP) Logs • Gamma Ray Logs • Neutron Logs • Density Logs • Sonic (acoustic) Logs

  6. Well Logs Delimit of surfaces & identify sediments penetrated • Resistivity Logs • Spontaneous Potential (SP) Logs • Gamma Ray Logs • Neutron Logs • Density Logs • Sonic (acoustic) Logs

  7. The Tools of Subsurface Analysis Facies analysis of subsurface data depends on tools which delimit of surfaces and provide clues as to the sediments they contain: • Well logs • Cores • Seismic • Gravity & magnetics GEOL 553 Lecture 3; Subsurface Analysis

  8. Well Logs Versus Seismic • Well logs • Great vertical resolution • Delimit bounding surfaces • Establish lithology of sediments penetrated • Seismic • Great lateral continuity and resolution • Define gross sediment geometry

  9. Tools are Keys to Allostratigraphy & Sequence Stratigraphy • Allostratigraphy: bounding discontinuities including erosion surfaces, marine flooding surfaces, tuffs, tempestite, and/or turbidite boundaries etc. as time markers • Sequence Stratigraphy: higher level allostratigraphic model which interprets depositional origin of sedimentary strata as products of "relative sea level change"

  10. The Tools of Subsurface Analysis Facies analysis of subsurface data depends on tools which delimit of surfaces and provide clues as to the sediments they contain: • Well logs • Seismic

  11. Well Logs Delimit of surfaces & identify sediments penetrated • Resistivity Logs • Spontaneous Potential (SP) Logs • Gamma Ray Logs • Neutron Logs • Density Logs • Sonic (acoustic) Logs

  12. Resistivity Logs The most commonly used logs: • Measures resistance of flow of electric current • Is function of porosity & pore fluid in rock • Frequently used to identify lithology

  13. Spontaneous Potential (SP) Logs Next most common log • Measures electrical current in well • Result of salinity differences between formation water and the borehole mud • Separates bed boundaries of permeable sands & impermeable shales.

  14. Gamma Ray Logs Another common log • Records radioactivity of a formation • Shales have high gamma radioactive response • Gamma ray logs infer grain size (and so subsequently inferred depositional energy) • Gamma ray logs are most commonly used logs for sequence stratigraphic analysis

  15. GEOL 553 Lecture 3; Subsurface Analysis

  16. GEOL 553 Lecture 3; Subsurface Analysis

  17. GEOL 553 Lecture 3; Subsurface Analysis After Harris & Saller 1999

  18. Neutron Logs Another common log • Measures porosity of formation • Uses quantity of hydrogen present • Measures lithology when used with Density Log

  19. Density Logs A common log • Measures formation’s bulk density • Used as a porosity measure • Differentiates lithologies with Neutron Log • Used with Sonic Logs to generate synthetic seismic traces to match to seismic lines

  20. Sonic (Acoustic) Logs Another common log • Measures of speed of sound in formation • Tied to porosity and lithology • Used with Density Logs to generate Synthetic Seismic traces to match to Seismic lines

  21. The Tools of Subsurface Analysis Facies analysis of subsurface data depends on tools which delimit of surfaces and provide clues as to the sediments they contain: • Well logs • Seismic

  22. Seismic Seismic stratigraphic interpretation used to: • Define geometries of genetic reflection packages that envelope seismic sequences and systems tracts • Identify bounding discontinuities on basis of reflection termination patterns and continuity

  23. Seismic Boundaries Termination below discontinuity, or upper sequence boundary: • Toplap termination • Truncation of sediment surface • Often channel bottom Above a discontinuity defining lower sequence boundary: • Onlap over surface • Downlap surface

  24. Seismic Boundaries Below Boundary - Toplap termination

  25. Seismic Boundaries Below Boundary -Truncation of surface

  26. Seismic Boundaries Channeled Surface – Below Boundary

  27. Seismic Boundaries Over Boundary - Onlap onto surface

  28. Seismic Boundaries Over Boundary- Downlap onto surface

  29. GEOL 553 Lecture 3; Subsurface Analysis

  30. GEOL 553 Lecture 3; Subsurface Analysis

  31. GEOL 553 Lecture 3; Subsurface Analysis

  32. Sequence Stratigraphy Subdivision & interpretation of sedimentary record using a framework surfaces seen in outcrops, well logs, & 2-D and 3-D seismic. Include: • Surfaces of erosion & non-deposition (sequence boundaries) • Flooding (trangressive surfaces [TS] &/or maximum flooding surfaces [mfs]) & high stand condensed surfaces This framework used to predict the extent of sedimentary facies geometry, lithologic character, grain size, sorting & reservoir quality

  33. Tools Define Bounding Surfaces These surfaces subdivide sedimentary rock & provide:- • Relative time framework for sedimentary succession • Better understanding of inter-relationship of depositional settings & their lateral correlation Conceptual models follow that link the processes that formed the sediments and enable the prediction of their gross geometries

  34. Hierarchy of Geometries • Sequence geometries are subdivided and defined by • Maximum Flooding Surfaces (mfs) • Transgressive Surfaces (TS) • Sequence Boundaries (SB) • Define how vertical succession or stacking patterns of unconfined sheets are arranged • Prograde (step seaward) • Retrograde (step landward) • Aggrade (build vertically) • Sheets and unconfined lobes may contain • Non-amalgamated bodies • Amalgamated, multi-storied bodies • Incised topographic fill of valleys • Unconfined but localized lobes from point & multiple up dip sources • Unconfined but localized build ups (carbonates)

  35. Delta Mouth Bar - Kentucky Note Incised Surface

  36. Channel – Gulf Coast Note Incised Surface GEOL 553 Lecture 3; Subsurface Analysis

  37. Flood Deltas & Channels - Kty GEOL 553 Lecture 3; Subsurface Analysis

  38. TidalChannelsKhor alBazam-UAE

  39. Tidal, Storm or Tsunami Channel Note Incised Surface GEOL 553 Lecture 3; Subsurface Analysis

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