Log Quality Control Typical Course Contents

  • Introduction
    • Basic Concepts.
    • Depth Control.
    • Anatomy of an Electric Log.
    • Tool Combinations.
    • Auxiliary Measurements.
    • Caliper.
    • Cable Tension.
    • Logging Speed.
  • Metrology
    • Metrology Elements.
    • Error Types.
    • Error Minimization.
    • Resolution and Accuracy.
    • Depth of Investigation.
    • Vertical Resolution.
    • Logging Tools Calibration Theory.
  • Gamma Ray and SP
    • Gamma Ray.
    • Applications.
    • Shaliness.
    • Spectral Gamma Ray.
    • Environmental Corrections.
    • Calibration.
    • Quality Control.
    • SP.
    • Applications.
    • Rw Determination.
    • Commonly Found Issues.
    • Quality Control.
  • Resistivity Tools
    • Resistivity Theory.
    • Invasion Profile.
    • Laterolog.
    • Environmental Effects.
    • Calibrations.
    • Log Quality Control.
    • Microlog.
    •  Microlaterolog.
    • Focused Spherical Log.
    • Calibrations.
    • Quality Control.
  • Conductivity Tools
    • Induction.
    • Physical Principles.
    • Geometrical Factor.
    • Array Induction.
    • Environmental Corrections.
    • Calibrations.
    • Log Quality Control.
    • Induction vs. Laterolog.
  • Nuclear Logging Tools
    • Nuclear Interaction Principles.
    • Density Tool.
    • Photoelectric Factor.
    • Environmental Effects.
    • Calibrations.
    • Log Quality Control.
    • Compensated Neutron Tool.
    • Environmental Effects.
    • Calibrations.
    • Log Quality Control.
    • Lithology Identification.
  • Sonic Tools
    • Compensated Sonic.
    • Long Spacing Sonic.
    • Sonic Porosity.
    • Wave Propagation.
    • Dipole Sonic.
    • Mechanical Properties.
    • Borehole Effects.
    • Quality Control.
  • Cement Evaluation Tools
    • Cementation.
    • Factors Affecting the Cement Quality.
    • CBL Principle.
    • Waveform Analysis.
    • VDL.
    • CBL-VDL Interpretation.
    • Eccentralization.
    • Bond Index.
    •  Ultrasonic Tools.
  • Image Logs
    • Dip Interpretation Theory.
    • Wellbore Images.
    • Image Processing and Interpretation.
    • Static and Dynamic Images.
    • Open, Closed and Induced Fractures.
    • Wellbore Stresses.
    • Ultrasonic Images.
  • Petrophysical Interpretation
    • Qualitative Interpretation.
    • Archie Equation.
    • Hingle & Pickett Plots.
    • Dual Water Model.
    • Other Saturation Equations.
    • Graphical Log Interpretation (Crossplots).
    • Thin Bed Interpretation Methodologies
    • Thomas Steiber.
    • Juhasz Equation.

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