Discipline Production Engineering
LevelFoundation
Duration5 Days
Delivery Mechanism Classroom
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Introduction to Cased-Hole Evaluations

This is a detailed course on Cased Hole Evaluations specially formatted for well intervention supervisors; there is a practical approach. However, the same course can be delivered to engineers with a more academic approach.

The first part of the course will focus on reviewing reservoir properties, well integrity - as related to well corrosion and perforations. A short presentation on tool conveyance and well completions will also be included. The main body of the course will concentrate on production logging and reservoir monitoring.

Reservoir properties will include reservoir rock types and properties, reservoir drive mechanisms, skin effects and reservoir fluids and their properties. These are all important parameters that control the inflow and outflow performance of a well.

Well integrity includes corrosion and perforations. These are critical parameters that also control well performance. The various corrosion mechanisms will be reviewed and corrosion monitoring will also be presented in details. Perforations will also be presented in details with emphasis on safety and on new technology in perforation, such as the PURE.

Production Evaluation and Reservoir monitoring cover the main body of the course.

Production evaluation will review the wide range of production logging tools and their range of applications. The presentation will focus mainly on the modern suite of cased hole imaging tools; namely GHOST, FloView and FloScan. Multi-phase flow will be presented in details with emphasis on applications in horizontal wells.  Single-phase, two-phase and 3-phase flows will be presented and discussed in details- this will include a workshop at the end of this module.

Leak detection is often ignored in most cased-hole analysis but this is an important area in production evaluation. Various aspects of leak detection are presented with field examples. The applications of geothermal temperature data base will also be outlined. The various techniques used in detecting leaks such as noise logs, temperature logs, water-flow logs, phase-velocity log and tracer injectors will also be discussed and presented in details with field examples.

Reservoir Saturation monitoring will be presented in details reviewing the various tools and techniques, including inelastic interaction (Carbon/Oxygen Ratio), pulse neutron capture and cased hole formation resistivity techniques. The theory of nuclear physics as applied to pulsed neutron logging is also presented as a background knowledge to these measurements. Cased-hole formation resistivity will also be presented outlining the theory and showing some field examples. Finally, the Cased-Hole Dynamics Tester (CHDT), with its applications for testing and sampling fluids behind the casing, will be presented. 

  • Agenda
  • Audience
  • Prerequisites
  • Agenda

    Day 1

    1- General

     

    • Tool conveyance and depth control
    • Well completions

     

    2- Reservoir Engineering

     

    • Reservoir drive mechanism, skin effects, and inflow and outflow performance
    • Reservoir fluids
    • Nodal Analysis  

    Day 2

    3- Well Integrity: Casing and Tubing Corrosion

     

    • Corrosion Mechanisms
    • Corrosion Monitoring: Multi-finger, ultrasonic, electromagnetic, electrical
    • Interactive Corrosion Multi-media presentation

     

    4- Perforations

     

    • Perforation types,  
    • Perforation conveyance: casing guns, through tubing, tubing conveyed perforations.
    • Productivity Index- Perforation Efficiency
    • Perforation Safety

     

    5- Production Logging

     

    • Flow Regimes

    Tool Types:

    Basic Production Logging Tools: Temperature, Flow Spinner, Gradiomanometer, hold-up meter, densitometer, Quartz Pressure Gauges

    Day 3

     

    • Additional New Sensors: Gas Holdup Optical Sensor Tool (GHOST), Electric Sensor (water holdup Logging- FloView), Cross-sectional Coverage of the production string (FloScan Imager).
    • Special application tools: Phase Velocity Log, Water Flow Log, Noise Log, Tracer Ejector Log.
    • Interpretation Parameters and Tool Calibrations
    • Spinner calibrations, spinner reversal
    • Turbulent and laminar flow
    • Friction and viscosity effects
    • Fluid holdups
    • Slippage velocities for oil / gas / water

    Production Evaluation

     

    • Flow Regimes
    • Single-Double and three phase production evaluation
    • Production Logging in Horizontal Wells

    Day 4

    6- Leak  Detection

     

    • Applications of various techniques to detect flow behind casing and inside casing
    • Noise logging
    • Geothermal temperature profiles and temperature data base
    • Data Base applications and type-curves
    • Water Flow Log

     

    7- Reservoir Monitoring

     

    • Nuclear physics applications for behind-casing saturation monitoring

    Day 5

     

    • Pulse Neutron Logging: Traditional techniques of computing Sw where the formation water salinity is reasonably high.
    • Carbon Oxygen logging: Applications in fresh water environments
    • Cased-Hole Formation Resistivity (CHFR): Measurements of formation resistivity behind the casing.
    • Cased-Hole Dynamics Tester (CHDT): Testing and sampling fluids behind the casing.

     

    8- Basic Well Testing

    • Basics of Well Testing  
  • Audience

    Specially designed for well intervention supervisors, the course can be delivered, without changing any subject but only the approach to engineers. It is recommended to engineers and technicians that are starting activities in well intervention/workovers. 

  • Prerequisites

    A technical degree (secondary school) is required but preferentially an university degree on engineering or science is more adequate.  

  • Prerequisites

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