Executive Summary

This course provides a comprehensive and structured approach to integrated reservoir and production analysis across the full field life cycle. It focuses on understanding the dynamic interaction between reservoir behavior and production system performance. The program emphasizes data-driven integration between subsurface and surface disciplines. Participants gain the ability to diagnose production problems using combined reservoir and production perspectives. The course explains how integrated analysis improves forecasting accuracy and decision quality. It highlights the role of system thinking in maximizing recovery and production efficiency. Practical workflows are used to connect theory with operational realities. Economic implications are considered alongside technical evaluations. The course supports sustainable asset optimization through integrated engineering practices.

Introduction

The purpose of this course is to develop advanced competency in integrated reservoir and production analysis. It covers the principles required to align reservoir performance with production system capabilities. The scope includes reservoir inflow behavior, well performance, and surface constraints. Participants learn how integration improves field development and production planning. The course explains how mismatches between reservoir potential and production systems are identified. Emphasis is placed on multidisciplinary collaboration and data consistency. The program addresses uncertainty management in reservoir and production evaluations. Analytical methods are linked to operational decision-making. By the end, participants can apply integrated analysis to optimize field performance.

Course Objectives

Participants will achieve the following objectives by the Integrated Reservoir and Production Analysis course:

• Explain the principles of integrated reservoir and production analysis clearly.
• Analyze reservoir drive mechanisms and production response.
• Interpret reservoir pressure and fluid property data accurately.
• Evaluate well inflow performance and productivity behavior.
• Assess tubing, completion, and surface system constraints.
• Apply nodal analysis concepts to integrated workflows.
• Diagnose production shortfalls using combined datasets.
• Compare forecast scenarios under different operating conditions.
• Integrate reservoir models with production system analysis.
• Evaluate uncertainty impacts on production forecasts.
• Support optimization decisions using integrated performance indicators.
• Assess intervention and optimization opportunities systematically.
• Improve collaboration between reservoir and production teams.
• Measure economic outcomes of integrated decisions.
• Develop structured plans for sustainable field optimization.

Target Audience

This Integrated Reservoir and Production Analysis program targets a professional audience seeking to improve knowledge and skills:

• Reservoir engineers involved in field evaluation.
• Production engineers managing well performance.
• Petroleum engineers supporting integrated studies.
• Asset team members responsible for optimization.
• Field engineers supervising production operations.
• Engineers involved in forecasting and planning.
• Technical staff analyzing production data.
• Professionals transitioning into integrated engineering roles.

Course Outline

Day 1: Fundamentals of Integrated Reservoir and Production Analysis

• Overview of integrated analysis concepts and objectives.
• Reservoir life cycle and production system interaction.
• Importance of integration in modern field development.
• Reservoir drive mechanisms and production behavior.
• Pressure depletion and its impact on production.
• Data requirements for reservoir and production analysis.
• Quality control and consistency of engineering data.

Day 2: Reservoir Performance and Inflow Analysis

• Reservoir characterization for production analysis.
• Fluid properties and phase behavior impacts.
• Inflow performance relationships and assumptions.
• Productivity index interpretation and limitations.
• Effect of skin and damage on inflow.
• Reservoir pressure monitoring techniques.
• Decline behavior and reservoir diagnostics.
• Integration of material balance concepts.

Day 3: Well and Production System Analysis

• Wellbore flow behavior fundamentals.
• Tubing performance and pressure losses.
• Completion design impact on production.
• Artificial lift influence on integrated analysis.
• Surface facility constraints and bottlenecks.
• Matching inflow and outflow performance.
• Diagnosing well performance limitations.
• Optimization opportunities at well level.

Day 4: Integrated Modelling and Forecasting

• Building integrated reservoir and production models.
• Coupling reservoir simulation with production systems.
• Scenario analysis for operating conditions.
• Forecasting production under system constraints.
• Sensitivity analysis for key parameters.
• Managing uncertainty in integrated forecasts.
• Evaluating development and optimization options.
• Economic comparison of forecast scenarios.

Day 5: Field Applications and Optimization Strategy

• Integrated analysis workflows for mature fields.
• Case-based evaluation of production issues.
• Identifying high-impact optimization actions.
• Short-term versus long-term optimization strategies.
• Monitoring performance after implementation.
• Updating models with new field data.
• Decision-making using integrated indicators.
• Best practices for sustainable field performance.

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.

Frequently Asked Questions

1- Who should attend this course?

2- What are the key benefits of this training?

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 a comprehensive framework for integrated reservoir and production analysis. It strengthens technical integration and decision-making quality. Participants gain practical skills for diagnosing and optimizing field performance. The structured approach supports sustainable production and recovery. The training enhances long-term asset value through integrated engineering.