Integrated Petrophysical Evaluation For Reservoir Characterization
The Integrated Petrophysical Evaluation for Reservoir Characterization course is designed to provide a comprehensive overview of the principles and techniques used in petrophysical evaluation for characterizing oil and gas reservoirs. The course covers the integration of well-log data, core data, and other relevant data sources to evaluate reservoir properties, fluid content, and rock types. It also focuses on interpreting and analyzing petrophysical data to estimate reservoir parameters such as porosity, permeability, water saturation, and hydrocarbon volume.
Description
The Integrated Petrophysical Evaluation for Reservoir Characterization course is designed to provide a comprehensive overview of the principles and techniques used in petrophysical evaluation for characterizing oil and gas reservoirs. The course covers the integration of well-log data, core data, and other relevant data sources to evaluate reservoir properties, fluid content, and rock types. It also focuses on the interpretation and analysis of petrophysical data to estimate reservoir parameters such as porosity, permeability, water saturation, and hydrocarbon volume.
The course includes lectures, practical exercises, and case studies that allow participants to gain hands-on experience in petrophysical evaluation. Topics covered in the course may include the fundamentals of petrophysics, rock and fluid properties, petrophysical data acquisition and quality control, log interpretation techniques, petrophysical modeling, and integration of petrophysical data with other reservoir data. Advanced topics such as advanced log analysis techniques, reservoir geophysics, and uncertainty analysis may also be covered.
The course is suitable for geoscientists, reservoir engineers, petrophysicists, and other professionals involved in reservoir characterization and management. It provides participants with a solid understanding of petrophysical concepts and tools for evaluating reservoir properties, which are crucial for making informed decisions in reservoir development and production optimization.
Why Choose This Training Course?
Participants In This Course Should Be Petrophysicists, Geologists, Or Engineers Who Use Well Log Data, Core Analysis Data For Rock And Fluids Characterization Of The Hydrocarbon Reservoir. Understanding And Developing A Workflow Between These Three Disciplines Is Essential To Improve Workflow Efficiency And Reduce Field Development Risks.
By Choosing This Course, The Participants Will Be Able To Understand Petrophysical Logs Visual Language, Petrophysical Parameters, And Concepts As Well As Basic Formation Evaluation Using Logs And Core Data Regarding Probabilistic Methodology; Also, The Workflow Of Log Data Preparation To Building The Petrophysical Models In The Standard Scale Will Be Learned.
This Training Course Will Highlight:
- Understanding Well-Log Measurements,
- Looking At The Necessary Parameters
To Build Petrophysical Models,
- Understanding Petrophysical
Evaluation Procedure,
- Learn Formation Evaluation Using Conventional Log Data On The Industry Scale.
What Are The Goals?
The Main Goal Of This Course Is To Enable The Participants To Generate Petrophysical Evaluations Using User-Friendly Software.
Who Is This Training Course For ?
This Training Course Is Useful For Those Who Want To Perform Petrophysical Evaluation Of Oil And Gas (Clastic And Carbonate) Reservoirs By Integration Of Conventional And Advanced Log Data And Core Analysis Results.
How Will This Training Course Be Presented?
Training Course Methodology Includes Online Training, Group Projects And Interactive Discussion.
Organizational Impact:
The Goals Of This Training Course Are To Enable The Participant To Understand The Petrophysical Evaluation Workflow From All Available Data. The Organizational Impact:
- Improve Proficiency In The Work With Industry-Scale Software.
- Re-Design The Process Of Log Data
Preparation And Interpretation According To Industry-Scale Projects.
- Added Value For Petrophysical Log
Data Management, Smart Collection Of Log Data For The Future.
- Reduce The Uncertainty Of Petrophysical Results Regarding To Use In Static And Dynamic Models.
Personal Impact:
Participants Will Understand The Petrophysical Logs Basic And Evaluation Workflow And Be Able To Integrate Their Work Into A More Accurate Geological Model:
- Gain Knowledge About Reservoir
Engineering And Geology Discipline Regarding To Petrophysical Evaluation
Steps.
- Learn To Smarter Workflows
Increasing Work Efficiency.
- Learn To Apply Better Petrophysical
Logs Evaluation.
- Improve Career Growth By Industry-Scale Workplace Understanding.
Daily Agenda
Day One: Basic Concepts
- Petrophysical Concepts And Classification
- Introduction To Well Logging
- Log Classification According To The Measured
Properties
- Core Analysis Principles
- Integration Of Core Analysis With Well Logs
Day Two: Logging Tools Story
- Resistivity And Porosity Tools Principles,
Applications, And Limitations
- Calibrations And Log Quality Control Parameters
Day Three: Introduction To The Software
- Introduce The Features Of Petrophysical Professional
Software,
- Familiarity With A Workspace Of Software,
- Principal Of Probabilistic Method Of Petrophysical
Evaluation
Day Four: Acoustic Logging Tools And Introduction To Formation Evaluation
- Qualitative Log Interpretation Techniques
- Archie Parameters Determination
- Rw Determination
- Working With Cross-Plots
- Graphical Interpretation Techniques For Porosity And Lithology
- Data Loading And Classification
- Log Data Preparation Steps
Day Five: Complete Formation Evaluation For Simple Lithology
- Building A Standard Petrophysical Model
- Run Analysis Of Petrophysical Models
- Enhancement Procedures Of Petrophysical Evaluation
- Cut Off Determination
- Net Pay Summary Calculation
- Workshop