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  • Class and Course

    Petrel Quantitative Interpretation - RILS (Remote Instructor Led Series)

    This is a Remote Instructor Led Series (RILS) training. The remote classroom delivery is a modality that takes advantage of the instructor led training content, while allowing the same content to be delivered remotely. All training sessions will be delivered online with no face-to-face classroom attendance.

    The Petrel Quantitative Interpretation - RILS course is designed for experienced geoscientists who want to perform seismic quantitative interpretation using Petrel. This offers the participants the opportunity to get familiar with the integrated Quantitative Interpretation (QI) modules and functionalities available in the Advanced Geophysics perspective.

    The course will cover the workflows, the theory and the procedures on how to conduct rock physics and fluid substitution studies, AVO studies, AVO seismic attribute generation and how to perform simultaneous and stochastic inversions.


    The Petrel Quantitative Interpretation - RILS course will be delivered over a total of twenty (20) Hours; i.e. in five (5) sessions lasting 4.25 Hours each, except the last session which will last 3 Hours.

    Each participant will need the following for an optimal experience of the course:

    • Windows-based PC
    • USB headset
    • Internet access
    • Second monitor or tablet for the course manual(s)
    • Webcam

    Day 1

    Session 1 : Module 1

    (4 Hours 15 minutes)

    • Rock physics


    Despite good seismic quality and well control, the correct interpretation requires quantifying the connection between geology and seismic data. The Rock Physics module establishes this link by computing elastic parameters. In this session, the participants will be introduced to the global QI workflow, the basic rock physics concept, the methodologies for setting up and running rock physics studies and the results crossplots for analysis.

    Day 2

    Session 2 : Modules 2 & 3

    (4 Hours 15 minutes)

    • AVO modeling
    • AVO reconnaissance


    AVO modeling applies a variety of convolutional algorithms to compute AVA responses. AVO reconnaissance identifies and classifies AVO anomalies in an exploration context. In this session, the participants will learn about the functionalities and procedures related to AVO modeling workflow, studies and reconnaissance tool.

    Day 3

    Session 3 : Module 4

    (4 Hours 15 minutes)

    • Simultaneous seismic inversion and the Inversion property builder


    During this session, the participants will learn the basic theory regarding Simultaneous inversion and apply the key workflows required to invert the seismic data to acoustic and elastic properties.

    Day 4

    Session 4 : Module 5

    (4 Hours 15 minutes)

    • Stochastic seismic inversion


    The Stochastic seismic inversion brings a solution to the resolution issue in reservoir modeling due to the seismic resolution. In this session, the participants will learn the differences between simultaneous and stochastic inversions. They will also set up and run a stochastic inversion, quality check the output, calculate properties and create a reservoir AVO model from stochastic inversion output.

    Day 5

    Session 5 : Module 6

    (3 Hours)

    • Lithology classification


    Lithology Analysis and prediction is a rock physics based lithology prediction workflow that integrates well logs, seismic inversion and geological modeling and interpretation. It provides an estimate of the most probable lithology and the uncertainty associated with the prediction. In this final session, the participants will learn how to run the set of processes performing lithology classification including:

          • creating classification log;
          • lithology analysis;
          • lithology prediction.

    Geophysicists and geologists experienced with Petrel and with good knowledge in :

    • the Reservoir characterization workflow
    • Geostatistics
    • Seismic interpretation and seismic well tie
    • Rock physics
      • Rock physics review
      • Rock physics workflow
      • Rock physics studies
      • Fluid substitution in rock physics
      • Shear velocity estimation from empirical relationships
      • Log blocking Backus workflow
    • AVO Modeling
      • AVO modeling workflow
      • AVO approximations
      • AVO classes
      • Fitting of AVO approximations to seismic data
      • AVO Modeling study
      • Wedge modeling
    • AVO reconnaissance
      • AVO reconnaissance tool
    • Simultaneous seismic inversion and the Inversion property builder
      • What is seismic inversion?
      • Inversion preparation: Well tie and wavelet extraction
      • Low frequency model building and QC with the Inversion property builder
      • Simultaneous inversion and results
      • Inversion for 2D Lines
      • Data input for AVOZ inversions
    • Stochastic seismic inversion
      • What is Stochastic inversion?
      • Stochastic inversion preparation
      • Set up and run a stochastic inversion
      • Stochastic inversion run evaluation
      • Applications Stochastic inversion results
      • Volume attribute modeling

    Petrel Geophysics Foundation and Skill level courses

       

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