EXECUTIVE SUMMARY

The Reservoir Engineering and Enhanced Oil Recovery (EOR) course offers professionals advanced knowledge and practical skills in optimizing reservoir performance and mastering EOR techniques. It is for those in the oil and gas industry, and addresses essential aspects of reservoir management. It provides hands-on experience with EOR strategies such as thermal, chemical, and gas injection methods.

By blending theoretical principles with real-world applications, participants will comprehensively understand key EOR techniques. The Reservoir Engineering and Enhanced Oil Recovery (EOR) training highlights various methods, including polymer flooding and CO2 injection, enabling professionals to tackle challenges in oil recovery effectively. It covers reservoir simulation, providing participants with the tools to simulate real-world scenarios and make informed decisions.

This Reservoir Engineering and Enhanced Oil Recovery (EOR) course is accessible to professionals worldwide with flexible learning options, including both online and in-person formats. Upon completion, participants will receive a globally recognized certification, boosting career prospects and demonstrating expertise in petroleum reservoir engineering.

This Reservoir Engineering and Enhanced Oil Recovery (EOR) program is for engineers, geoscientists, and other professionals seeking advanced training in reservoir engineering and EOR methods. Whether you choose the intensive 1-week or comprehensive 3-week course, the training ensures a well-rounded understanding of the latest industry practices.

INTRODUCTION

Reservoir engineering and Enhanced Oil Recovery (EOR) are essential to modern oil and gas operations. This course equips professionals with a deep understanding of reservoir behavior and the latest EOR methods. Participants gain valuable hands-on experience optimizing reservoir performance by incorporating practical exercises alongside theoretical learning.

The Reservoir Engineering and Enhanced Oil Recovery (EOR) training delves into the different EOR techniques, such as thermal, chemical, and gas injection, giving professionals the tools to assess reservoir potential and make informed decisions. In addition to fundamental concepts, the course explores complex strategies like polymer flooding, surfactant-polymer flooding, and CO2 EOR. Each method is detailed, along with challenges and practical solutions to common EOR implementation issues.

As a learning experience, the Reservoir Engineering and Enhanced Oil Recovery (EOR) program enhances participants' decision-making abilities and prepares them to address real-world challenges. It highlights the significance of reservoir simulation, providing participants with the knowledge to model reservoir performance and evaluate recovery strategies. It aims to empower professionals to make impactful contributions to the success of oil and gas operations.

COURSE OBJECTIVES

Participants will achieve the following objectives by the Reservoir Engineering and Enhanced Oil Recovery (EOR) course:

• Understand the fundamentals of reservoir engineering, including fluid behavior and reservoir properties.
• Learn to evaluate reservoir performance, identify challenges, and determine recovery factors.
• Gain expertise in implementing thermal EOR techniques like steam injection and in-situ combustion.
• Explore chemical EOR methods and their applications, including polymer flooding and surfactant-polymer flooding.
• Understand gas injection methods for EOR, including CO2 injection, and how to assess their suitability for specific reservoirs.
• Develop the ability to select the most appropriate EOR techniques based on reservoir characteristics and production goals.
• Improve skills in using reservoir simulation tools for modeling reservoir performance and optimizing recovery strategies.
• Enhance decision-making capabilities by analyzing case studies and applying EOR techniques to real-world situations.
• Understand the challenges involved in EOR implementation and gain insights into how to overcome them effectively.

TARGET AUDIENCE

This Reservoir Engineering and Enhanced Oil Recovery (EOR) program targets a professional audience seeking to improve knowledge and skills:

• Reservoir engineers look to enhance their expertise in optimizing oil recovery through advanced EOR techniques.
• Petroleum engineers want to deepen their understanding of reservoir behavior and the methods used to improve production.
• Geoscientists focused on evaluating subsurface conditions and contributing to EOR projects.
• Production engineers seek advanced methods to optimize field production and improve recovery rates.
• Oil and gas professionals who wish to stay at the forefront of the latest EOR methods and industry trends.

COURSE OUTLINE

Day 1: Fundamentals of Reservoir Engineering

• Introduction to reservoir properties and fluid behavior.
• Understanding reservoir drive mechanisms and their impact on recovery factors.
• Explore rock and fluid properties in reservoir management.
• Know the basics of reservoir pressure and temperature control.
• Introduction to reservoir modeling techniques.
• Understand key terms and definitions in reservoir engineering.
• Explore the role of reservoir engineers in oil and gas production.
• Overview of recovery techniques and their applications.

Day 2: Reservoir Simulation and Modeling

• Introduction to reservoir simulation techniques.
• Learn about data collection methods and their role in simulation.
• Overview of reservoir simulation software and its applications.
• How to calibrate models using real-world data?
• Analyzing reservoir performance through simulation.
• Intro to reservoir history matching and uncertainty analysis.
• Understand techniques for improving model accuracy and reliability.
• Explore real-life examples of successful reservoir simulation projects.
• Hands-on practice with reservoir simulation exercises.

Day 3: Enhanced Oil Recovery (EOR) Overview

• Introduction to Enhanced Oil Recovery (EOR) methods.
• Overview of thermal EOR techniques: steam injection and in-situ combustion.
• Understanding the chemical EOR process, including polymer flooding.
• Learn about Gas injection EOR methods and their application.
• Screen criteria for selecting appropriate EOR methods.
• Understand the detailed analysis of EOR screening techniques.
• Explore the role of EOR in maximizing recovery and extending field life.
• Explore challenges and opportunities in implementing EOR methods.
• Case studies illustrating the success of various EOR techniques.

Day 4: Advanced EOR Techniques

• Introduction to advanced EOR methods, including CO2 injection.
• Explain polymer flooding: principles, benefits, and implementation.
• Surfactant-polymer flooding: challenges and solutions.
• CO2 EOR: assessing its potential and challenges.
• Designing and implementing a polymer flooding project.
• Know the challenges in scaling up advanced EOR methods.
• Field examples of polymer flooding and CO2 injection.
• Assessing reservoir suitability for advanced EOR methods.
• Case studies highlighting the effectiveness of advanced EOR techniques.

Day 5: Case Studies and Practical Applications

• Real-world examples of successful EOR projects.
• Learn how to analyze challenges encountered in EOR implementations.
• Group discussion on EOR project management strategies.
• Hands-on exercises simulating EOR applications.
• Understand key takeaways from global EOR case studies.
• Collaborative problem-solving in reservoir engineering.
• Reviewing EOR project success factors.
• Developing action plans for implementing EOR methods in real-world scenarios.
• Wrap-up discussion and course conclusion.

COURSE DURATION

This Reservoir Engineering and Enhanced Oil Recovery (EOR) course is available in different durations:

• 1 week (intensive training).
• 2 weeks (moderate pace with additional practice sessions).
• 3 weeks (comprehensive learning experience).

The course can be attended in person or online, depending on the trainee's preference.

INSTRUCTOR INFORMATION

This Reservoir Engineering and Enhanced Oil Recovery (EOR) course is delivered by expert trainers worldwide, bringing global experience and best practices. The instructors have extensive knowledge of reservoir engineering and EOR techniques and a proven track record in teaching professionals across various industries. They provide a rich learning experience by combining theory with practical application, ensuring participants are well-equipped to tackle real-world challenges.

F&Q

1. Who should attend this Reservoir Engineering & Enhanced Oil Recovery (EOR) course? Reservoir engineers, petroleum engineers, and oil and gas professionals.
2. What are the key benefits of this Reservoir Engineering & Enhanced Oil Recovery (EOR) training? Gain advanced EOR knowledge, practical skills, and a professional certification.
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? The course is available in English and Arabic.
5. Can I attend online? Yes, you can attend your company in person, online, or in-house.

CONCLUSION

The Reservoir Engineering and Enhanced Oil Recovery (EOR) course offers professionals valuable skills and knowledge in optimizing oil recovery. Mastering advanced EOR techniques will prepare participants to tackle real-world challenges. The course comprehensively explains key methods, including thermal, chemical, and gas injection EOR.

• With expert-led instruction, case studies, and hands-on exercises, this Reservoir Engineering and Enhanced Oil Recovery (EOR) training ensures practical, actionable learning. Upon completion, participants will enhance reservoir performance and maximize recovery rates, advancing their careers in the oil and gas industry.