EXECUTIVE SUMMARY

This advanced well test analysis course provides a comprehensive framework for interpreting pressure transient data and optimizing reservoir performance. It focuses on practical applications of well testing techniques used in oil and gas field development. Participants will gain the ability to diagnose reservoir behavior and identify flow regimes accurately. The program integrates theoretical foundations with real-world case studies to enhance decision-making capabilities. Emphasis is placed on interpreting pressure data for reservoir characterization and performance forecasting. Attendees will learn to apply advanced analytical methods to complex well conditions. The course also covers modern techniques for fractured and horizontal wells. Practical exercises and software demonstrations ensure hands-on experience. This training supports engineers in maximizing production efficiency and reservoir recovery.

INTRODUCTION

Well test analysis is a critical tool for understanding reservoir behavior and optimizing hydrocarbon production. This course introduces advanced techniques used in pressure transient analysis and reservoir diagnostics. Participants will explore the fundamental equations governing fluid flow in porous media. The program explains how to interpret well test data for identifying reservoir boundaries and heterogeneities. It highlights the importance of integrating well testing results into reservoir management strategies. The course also examines different testing methods including buildup and drawdown tests. Special focus is given to gas well testing and water injectivity analysis. Real field examples are used to bridge theory with operational challenges. By the end of the course, participants will be equipped to design, analyze, and interpret well tests effectively.

COURSE OBJECTIVES

Participants will achieve the following objectives by the Advanced Well Test Analysis, Pressure Transient Interpretation, and Reservoir Diagnostics for Field Development Optimization course:

Understand fluid flow equations in porous media systems.

Interpret pressure transient data for reservoir characterization.

Apply dimensionless analysis and type curve matching techniques.

Evaluate wellbore storage and skin effects accurately.

Analyze buildup and drawdown test data using industry methods.

Identify reservoir boundaries and flow regimes using derivatives.

Assess fractured and horizontal well performance effectively.

Perform gas well deliverability and pseudo-pressure analysis.

Design well testing programs for field development optimization.

Integrate well test results into reservoir management decisions.

Use modern software tools for pressure data interpretation.

Diagnose operational issues affecting data quality.

Apply advanced interpretation methods for complex reservoirs.

Improve forecasting of reservoir performance and productivity.

TARGET AUDIENCE

This Advanced Well Test Analysis, Pressure Transient Interpretation, and Reservoir Diagnostics for Field Development Optimization program targets a professional audience seeking to improve knowledge and skills:

• Reservoir engineers working in field development and management.
• Petroleum engineers involved in well performance analysis.
• Production engineers responsible for optimization strategies.
• Geologists supporting reservoir characterization and modeling.
• Technical specialists analyzing pressure and production data.
• Engineers involved in well testing operations and planning.
• Professionals seeking advanced skills in reservoir diagnostics.

COURSE OUTLINE

Day 1: Fundamentals of Flow and Reservoir Behavior

• Review of fluid flow equations in porous media systems
• Understanding Darcy law and continuity equations in reservoirs
• Introduction to equation of state and fluid properties
• Common flow geometries and reservoir configurations
• Dimensionless parameters and their applications in analysis
• Boundary conditions including infinite and steady state systems
• Introduction to diffusivity equation and analytical solutions
• Practical exercises on basic flow modeling concepts

Day 2: Pressure Transient Analysis Techniques

• Principles of superposition in well test analysis
• Buildup test interpretation and Horner plot applications
• Determination of average reservoir pressure using MBH method
• Identification of reservoir boundaries and channel effects
• Evaluation of wellbore skin and formation damage
• Analysis of partial penetration and its impact on results
• Wellbore storage effects and type curve matching techniques
• Case studies on pressure transient interpretation

Day 3: Advanced Testing and Reservoir Diagnostics

• Drawdown test analysis and equivalent time concepts
• Flow regime identification using pressure derivatives
• Reservoir limit testing and boundary detection methods
• Analysis of hydraulically fractured wells performance
• Estimation of fracture properties including conductivity
• Application of type curves in fractured reservoirs
• Practical interpretation using field case examples
• Introduction to history matching techniques

Day 4: Specialized Well Testing Applications

• Gas well testing methods using pressure squared approaches
• Pseudo-pressure and deliverability testing techniques
• Single point and multipoint gas testing analysis
• Water injectivity testing including step rate tests
• Fall-off testing and interpretation methods
• Hall plot analysis for injection well performance
• Naturally fractured reservoir characterization methods
• Comparative analysis of different diagnostic techniques

Day 5: Well Test Design and Field Applications

• Planning and design of well testing programs
• Selection of appropriate test types and objectives
• Monitoring and optimization during testing operations
• Post-test data quality control and validation
• Identification and troubleshooting of operational issues
• Analysis of horizontal well test data
• Integration of well testing results into reservoir models
• Software-based interpretation and real case analysis

COURSE DURATION

Thiscourse is available in different durations: 1 week (intensive training), 2 weeks (moderate pace with additional practice sessions), or 3 weeks (a comprehensive learning experience). The course can be attended in person or online, depending on the trainee's preference.

INSTRUCTOR INFORMATION

This course is delivered by expert trainers worldwide, bringing global experience and best practices.

FREQUENTLY ASKED QUESTIONS

1- Who should attend this course?

This course is designed for engineers and professionals involved in reservoir analysis, well testing, and production optimization.

2- What are the key benefits of this training?

Participants gain advanced skills in pressure transient analysis, reservoir diagnostics, and decision-making for field development.

3-Do participants receive a certificate? Yes, upon successful completion, all participants will receive a professional certification.

4- What language is the course delivered in? English and Arabic.

5- Can I attend online? Yes, you can attend in person, online, or in-house at your company.

CONCLUSION

This course delivers advanced expertise in well test analysis and reservoir diagnostics. It enhances the ability to interpret complex pressure data accurately. Participants gain practical skills applicable to real field conditions. The training supports better decision-making in reservoir management. It ultimately contributes to improved production performance and resource recovery.