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Lisa Stright and Anne Bernhardt Geological and Environmental Sciences STANFORD UNIVERSITY

Lisa Stright and Anne Bernhardt Geological and Environmental Sciences STANFORD UNIVERSITY. Sub-seismic scale lithology prediction for enhanced reservoir-quality interpretation from seismic attributes, Puchkirchen Field, Molasse Basin, Austria. Rohöl-Aufsuchungs Aktiengesellschaft.

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Lisa Stright and Anne Bernhardt Geological and Environmental Sciences STANFORD UNIVERSITY

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  1. Lisa Stright and Anne BernhardtGeological and Environmental SciencesSTANFORD UNIVERSITY Sub-seismic scale lithology prediction for enhanced reservoir-quality interpretation from seismic attributes, Puchkirchen Field, Molasse Basin, Austria Rohöl-Aufsuchungs Aktiengesellschaft

  2. MA-MS (multi-attribute, multi-scale) calibration Fact #1: Seismic data and well logs sample different volumes of the reservoir Fact #2: Combining these data generally compromises information from the finer scale (well logs) New methodology to obtain proportions from well to seismic calibration • MA-MS (multi-attribute, multi-scale) calibration • VFP calibrated to seismic attributes • Tie fine-scale facies in wells to coarse scale seismic attributes Proportion volumes used for interpreting sedimentology

  3. Options: Lump facies together to seismic facies Apply relationships observed at log scale to seismic scale Turn seismic attributes into probabilities A new approach…“What proportions of each facies creates that reflector?” Reconciling scale differences ~15cm ~10m ~12-25m

  4. Multi-attribute, Multi-scale (MA-MS) calibration

  5. Using the calibration ? ? ? ? ? ?

  6. Late Oligocene Puchkirchen Formation, Molasse Basin, Austria A’ A after Bernhardt et al., 2008; Hubbard and deRuig, 2008

  7. Seismic reflectivity profiles: where is the gas? 1000 m 1000 m 100 m A’ A A B’ B 100 m N A’ B B’

  8. Rock properties validated with core observations Bierbaum 1 17km 10km AI (g/cm3m/s) 5000 13000 • 2 issues: • biased sampling • poor resolution of seismic

  9. Rock type prediction from seismic attributes • What sub-seismic scale facies generate high/low amplitudes? • How can we combine these multiple scales to make accurate predictions?

  10. Calibrated proportions

  11. Depositional model for the Puchkirchen reservoir Bernhardt et al. (2008)

  12. Using proportion models to validate sedimentological hypothesis 60 m 40 m 20 m 0 m 5 km

  13. Modeling workflow RockProperties Fine scale facies patterns • Underlying “Model” of patterns • 1-D Patterns from • logs interpretations • synthetic patterns from Markov Chain • 2-D and 3-D patterns from • numerical models • outcrop sections • experimental results • conceptual model (training images) • interpretation from 3D proportion models Combine and filter to seismic scale Assign fine scale patterns to seismic volume Analyze and interpret results New Approach

  14. Conclusions • Important to understand volume support of the input data as it relates to the desired prediction volume support • Probabilities account for the approximate relationship between facies descriptions and seismic attributes • may camouflage issues between assumed calibrating well and seismic data • poor way of handling scale differences • are conceptual constructions and nonphysical measurements • proportions are more intuitive, scale-based and directly link rock properties • Multi-attribute, multi-scale calibration (MA-MS) for proportion prediction: • data-driven observations of subseismic-scale features • direct relate to seismic-scale attributes • consistency between geologic concept, rock properties and data • Understanding rock physics is critical in using seismic attributes as soft data in modeling. • how they will inform the geologic model, and • at what scale • Training image generation is interpretive and iterative • Facies Proportion Models help to validate sedimentological interpretations in the subsurface • Validated sedimentological interpretations form the basis for the development of training images • Accurate interpretations of the depositional history of the channel-fill are key to reduced exploration risk and efficient production

  15. Acknowledgements Industry Sponsor:Richard Derksen and Ralph Hinsch (RAG) SPODDS Students:Julie Fosdick, Anne Bernhardt,Zane Jobe, Katie Maier, Jon Rotzien, Larisa Masalimova, Glenn Sharman, Blair BurgreenLizzy Trower Advising Committee: Stephen Graham, Andre Journel, Gary Mavko, Don Lowe Other Advisors Tapan Mukerji Alexandre Boucher Steve Hubbard

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