EXECUTIVE SUMMARY

The Advanced Core Analysis and Evaluation course provides an in-depth understanding of advanced laboratory techniques used to characterize reservoir rocks. It focuses on analyzing complex rock–fluid interactions under representative reservoir conditions. The course explains how advanced core data improves reservoir description, modeling accuracy, and development decisions. Participants gain detailed knowledge of multiphase flow behavior and advanced rock properties. Emphasis is placed on interpreting relative permeability, capillary pressure, wettability, and stress-dependent properties. The course integrates advanced core measurements with geological and petrophysical models. Data quality, uncertainty management, and scale-up challenges are addressed throughout the program. Learners develop the ability to design and select appropriate advanced core tests. This course supports high-level technical decision-making in reservoir development and optimization.

INTRODUCTION

The Advanced Core Analysis and Evaluation course is designed to extend professional expertise beyond routine core measurements. It introduces advanced experimental methods used to evaluate reservoir performance under realistic conditions. The course explains the physical principles governing multiphase flow and rock deformation. Participants learn how advanced core data supports reservoir simulation and field development planning. The program highlights the role of wettability, capillary forces, and stress sensitivity. It emphasizes proper experimental design and interpretation logic. The course demonstrates how laboratory results are linked to field-scale behavior. Concepts are delivered in a structured and progressive manner. The scope supports advanced technical roles in reservoir characterization and development studies.

COURSE OBJECTIVES

Participants will achieve the following objectives by the Advanced Core Analysis and Evaluation course:

• Understand the purpose and scope of advanced core analysis methods.
• Explain multiphase flow mechanisms in reservoir rocks.
• Interpret relative permeability curves and end-point behavior.
• Analyze capillary pressure data and pore size distribution.
• Evaluate wettability and its influence on fluid movement.
• Assess electrical properties for saturation and resistivity modeling.
• Analyze stress sensitivity and compaction effects on rock properties.
• Select suitable advanced tests for specific reservoir objectives.
• Integrate advanced core data with geological and petrophysical models.
• Apply scale-up concepts for reservoir simulation input.
• These objectives are clearly defined, measurable, achievable, and aligned with advanced reservoir evaluation workflows, ensuring participants gain high-level competencies applicable to complex reservoir characterization and development projects.

TARGET AUDIENCE

This Advanced Core Analysis and Evaluation program targets a professional audience seeking to improve knowledge and skills:

• Experienced reservoir engineers.
• Senior petrophysicists.
• Geologists specializing in reservoir characterization.
• Core analysis specialists and laboratory experts.
• Subsurface technical team leaders.
• Field development and planning engineers.
• Energy sector technical professionals.
• Academic researchers in reservoir engineering and geoscience.

COURSE OUTLINE

Day 1: Advanced Core Analysis Fundamentals

• Role of advanced core analysis in reservoir development.
• Differences between routine and advanced core measurements.
• Objectives of advanced laboratory testing.
• Selection of representative core samples.
• Reservoir stress and temperature considerations.
• Data quality control and validation procedures.
• Sources of uncertainty in advanced measurements.

Day 2: Capillary Pressure and Wettability Analysis

• Fundamentals of capillary pressure in porous media.
• Laboratory techniques for capillary pressure measurement.
• Interpretation of drainage and imbibition curves.
• Pore throat size distribution analysis.
• Concepts of wettability and surface interactions.
• Methods for wettability determination.
• Impact of wettability on recovery mechanisms.
• Integration of capillary pressure data into reservoir models.

Day 3: Relative Permeability and Multiphase Flow

• Principles of multiphase flow in reservoir rocks.
• Relative permeability concepts and significance.
• Steady-state and unsteady-state measurement methods.
• End-point saturation and hysteresis effects.
• Influence of rock type and wettability on flow behavior.
• Scaling laboratory results to reservoir conditions.
• Quality assessment of relative permeability data.
• Application in dynamic reservoir simulation models.

Day 4: Electrical Properties and Stress Sensitivity

• Electrical behavior of reservoir rocks.
• Formation factor and saturation exponent analysis.
• Laboratory determination of electrical parameters.
• Effects of clay and conductive minerals.
• Stress sensitivity of porosity and permeability.
• Compaction and deformation under reservoir stress.
• Integration of stress data into reservoir models.
• Implications for production forecasting and reserves estimation.

Day 5: Integration and Advanced Reservoir Evaluation

• Integration of advanced core datasets.
• Linking advanced core data with logs and static models.
• Scale-up strategies for simulation input.
• Managing uncertainty in advanced core interpretation.
• Integrated workflows for field development planning.
• Impact of advanced data on recovery strategy selection.
• Communication of advanced core analysis results.
• Review and consolidation of key course concepts.

COURSE DURATION

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

FREQUENTLY ASKED QUESTIONS

1- Who should attend this Advanced Core Analysis and Evaluation course?

This course is intended for experienced professionals involved in advanced reservoir characterization and evaluation.

2- What are the key benefits of this Advanced Core Analysis and Evaluation training?

It enhances the ability to interpret advanced core data and apply it to reservoir development decisions.

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

The Advanced Core Analysis and Evaluation course delivers advanced expertise in reservoir characterization. It strengthens the interpretation of complex rock and fluid behavior. Participants gain practical skills for integrating advanced laboratory data into reservoir models. The course supports informed and confident field development decisions. It provides long-term professional value for advanced subsurface specialists.