INTRODUCTION

The purpose of this course is to build strong technical competence in 3D static reservoir modelling for subsurface professionals. Static reservoir models are essential tools for understanding reservoir architecture and property distribution. This course explains how geological concepts are translated into three-dimensional representations. It covers the full modelling workflow from data preparation to final model validation. Participants learn how to manage uncertainty and variability within reservoir frameworks. The scope includes structural modelling, stratigraphic modelling, and property modelling. Emphasis is placed on integrating multidisciplinary data consistently. The course highlights the role of static models in development planning and reserves estimation. It prepares participants to apply modelling best practices in real-field scenarios.

COURSE OBJECTIVES

Participants will achieve the following objectives by the 3D Static Reservoir Modelling course:

• Understand the complete workflow of static reservoir modelling from data input to final model delivery.
• Analyze geological, petrophysical, and seismic data to build consistent reservoir frameworks.
• Construct three-dimensional structural models that honor faulting and stratigraphic relationships.
• Apply stratigraphic modelling techniques to represent depositional architecture accurately.
• Populate reservoir properties using appropriate geostatistical approaches.
• Evaluate uncertainty and variability within static models and assess their impact.
• Perform quality control checks to ensure geological realism and data consistency.
• Integrate static model results into volumetric and development studies.
• Communicate modelling assumptions and results clearly to support technical decisions.

TARGET AUDIENCE

This 3D Static Reservoir Modelling program targets a professional audience seeking to improve knowledge and skills:

• Reservoir engineers involved in field development and reserves estimation.
• Geologists working on subsurface interpretation and modelling.
• Petrophysicists responsible for rock and fluid property evaluation.
• Geoscientists supporting integrated subsurface studies.
• Simulation engineers requiring reliable static models.
• Technical team leaders managing reservoir studies.
• Professionals transitioning into reservoir modelling roles.

COURSE OUTLINE

Day 1: Fundamentals of Static Reservoir Modelling

• Role of static reservoir models in subsurface studies.
• Overview of reservoir modelling workflows.
• Types of data used in static modelling.
• Data quality assessment and preparation.
• Coordinate systems and model grids.
• Introduction to structural frameworks.
• Geological consistency and modelling assumptions.

Day 2: Structural and Stratigraphic Modelling

• Structural interpretation concepts for reservoir models.
• Fault modelling and framework construction.
• Horizon interpretation and layering strategies.
• Stratigraphic correlations and zonation.
• Handling complex structures and faulted reservoirs.
• Model resolution and scale considerations.
• Validation of structural and stratigraphic models.

Day 3: Property Modelling and Distribution

• Overview of reservoir properties and their significance.
• Data analysis for porosity, permeability, and saturation.
• Facies modelling concepts and workflows.
• Geostatistical methods for property population.
• Trend modelling and spatial continuity.
• Managing heterogeneity within the reservoir.
• Quality control of property models.

Day 4: Uncertainty and Model Evaluation

• Sources of uncertainty in static reservoir models.
• Scenario-based modelling approaches.
• Sensitivity analysis of key parameters.
• Volumetric calculations and uncertainty ranges.
• Model comparison and ranking.
• Integration with dynamic simulation requirements.
• Documentation of assumptions and limitations.

Day 5: Integrated Applications and Best Practices

• End-to-end static modelling workflow integration.
• Using static models for development planning.
• Supporting well placement and field optimization.
• Model updating and version management.
• Communication of modelling results to stakeholders.
• Best practices for model delivery.
• 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 advanced technical knowledge with extensive industry exposure. Their approach emphasizes structured learning and practical application. Participants benefit from clear guidance throughout the course.

FREQUENTLY ASKED QUESTIONS

1- Who should attend this course?

Professionals involved in reservoir characterization and subsurface modelling.

2- What are the key benefits of this training?

Improved ability to build reliable static reservoir models and support 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

This course provides a structured and practical understanding of 3D static reservoir modelling. It strengthens technical skills and geological insight. Participants gain confidence in building and evaluating reservoir models. The course supports accurate subsurface decision-making. It represents a valuable professional development opportunity.