EXECUTIVE SUMMARY

This course delivers a comprehensive understanding of reservoir geomechanics and its critical role in oil exploration and field development. It explains how in-situ stresses, rock mechanical properties, and pore pressure influence reservoir behavior. Participants gain structured workflows to evaluate geomechanical risks across the asset lifecycle. The course emphasizes integrating geomechanics with geology, drilling, and reservoir engineering. Strong attention is given to wellbore stability, sand production, fault reactivation, and compaction. Learners develop the ability to anticipate and mitigate operational challenges through predictive analysis. The program connects theoretical foundations with field-proven applications. Learning progresses from fundamentals to integrated decision-making. By the end, participants can confidently apply geomechanics to improve safety, performance, and value.

INTRODUCTION

The purpose of this course is to build strong technical competence in reservoir geomechanics for exploration and development. Geomechanics provides essential insight into subsurface stress and deformation. This course explains the scope of geomechanical analysis from basin appraisal to production optimization. Participants learn how mechanical rock behavior affects drilling and completion outcomes. The course covers stress regimes, pore pressure prediction, and mechanical stratigraphy. Emphasis is placed on coupling geomechanics with reservoir depletion and injection. The scope includes well design, stimulation, and field integrity. Integration across disciplines is reinforced throughout. This course prepares participants to manage geomechanical uncertainty in complex reservoirs.

COURSE OBJECTIVES

Participants will achieve the following objectives by the Reservoir Geomechanics in Oil Exploration and Development course:

• Understand the principles of stress, strain, and rock mechanics in subsurface environments.
• Analyze in-situ stress orientation and magnitude for operational decision-making.
• Evaluate pore pressure and fracture pressure with disciplined workflows.
• Assess wellbore stability risks and define safe operating windows.
• Interpret rock mechanical properties and mechanical stratigraphy.
• Anticipate compaction, subsidence, and sand production risks.
• Evaluate fault stability and induced seismicity potential responsibly.
• Integrate geomechanics with drilling, completion, and reservoir management.
• Communicate geomechanical findings clearly to support safe and efficient development.

TARGET AUDIENCE

This Reservoir Geomechanics in Oil Exploration and Development program targets a professional audience seeking to improve knowledge and skills:

• Drilling engineers managing well design and stability.
• Reservoir engineers involved in depletion and injection planning.
• Geologists contributing to subsurface characterization.
• Geophysicists supporting stress and pressure interpretation.
• Completion engineers optimizing stimulation and sand control.
• Asset team members managing field integrity.
• Professionals transitioning into geomechanics-focused roles.

COURSE OUTLINE

Day 1: Fundamentals of Reservoir Geomechanics

• Overview of geomechanics in exploration and development.
• Stress, strain, and elastic behavior of rocks.
• In-situ stress regimes and tectonic setting.
• Pore pressure concepts and controls.
• Mechanical properties of reservoir and seal rocks.
• Mechanical stratigraphy and heterogeneity.
• Data sources and quality control for geomechanics.

Day 2: Pore Pressure and Fracture Gradient Analysis

• Mechanisms of abnormal pore pressure.
• Pore pressure prediction methods.
• Calibration with well data and indicators.
• Fracture pressure and minimum stress concepts.
• Defining mud weight and operating windows.
• Uncertainty management in pressure prediction.
• Implications for drilling safety.

Day 3: Wellbore Stability and Drilling Design

• Wellbore failure mechanisms.
• Stress concentration around the wellbore.
• Trajectory optimization for stability.
• Mud weight selection and sensitivity.
• Time-dependent deformation and creep.
• Mitigation strategies for instability.
• Integration with drilling practices.

Day 4: Reservoir Depletion and Production Effects

• Stress path during production and injection.
• Compaction and subsidence mechanisms.
• Impact on permeability and well performance.
• Sand production prediction and control.
• Casing deformation and integrity risks.
• Coupling geomechanics with reservoir simulation.
• Managing long-term field behavior.

Day 5: Fault Stability and Integrated Applications

• Fault mechanics and reactivation criteria.
• Pressure changes and fault slip potential.
• Induced seismicity considerations.
• Geomechanics in stimulation and injection design.
• Integrated workflows for field development.
• Risk assessment and decision support.
• Review and consolidation of key learning outcomes.

COURSE DURATION

This 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 course is delivered by expert trainers worldwide, bringing global experience and best practices. Trainers combine deep geomechanical expertise with extensive field experience. Their approach emphasizes structured analysis and practical integration. Participants benefit from continuous professional guidance throughout the course.

FREQUENTLY ASKED QUESTIONS

1- Who should attend this course?

Professionals involved in drilling, reservoir management, and subsurface integrity.

2- What are the key benefits of this training?

Improved ability to predict geomechanical risks and optimize safe 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 provides a structured and integrated understanding of reservoir geomechanics. It strengthens predictive capability across exploration and development phases. Participants gain confidence in managing stress-related risks. The course supports safer and more efficient operations. It represents a valuable professional advancement for subsurface specialists.