Executive Summary

This course provides a structured and applied approach to production optimization with a focused emphasis on artificial lift systems. It addresses the operational, technical, and economic factors that influence well performance across the asset life cycle. Participants gain a clear understanding of how production data, reservoir behavior, and surface constraints interact. The course emphasizes practical decision-making to improve production efficiency and reduce downtime. Core artificial lift methods are examined in relation to well conditions and production objectives. Realistic field-based scenarios are used to strengthen applied learning. Optimization strategies are linked to cost control and sustainable production targets. The program supports consistent improvement in field operations and asset value. It delivers a balanced combination of theory, analysis, and practical application.

Introduction

The purpose of this course is to develop advanced competence in production optimization with a strong emphasis on artificial lift applications. It focuses on maximizing hydrocarbon recovery while maintaining operational reliability and cost efficiency. The course scope covers the full production system, from reservoir inflow to surface facilities. Participants explore how artificial lift selection and optimization impact overall field performance. Emphasis is placed on diagnosing production problems using data-driven approaches. The program explains how to align artificial lift strategies with reservoir characteristics and production goals. It also addresses common operational challenges that limit well productivity. The course bridges engineering theory with real operational practices. By the end, participants are equipped to implement optimization solutions in diverse production environments.

Course Objectives

Participants will achieve the following objectives by the Production Optimization with Emphasis on Artificial Lift course:

• Analyze production systems to identify constraints affecting well and field performance.
• Evaluate reservoir inflow behavior and its impact on production optimization decisions.
• Apply systematic methods to diagnose production losses and inefficiencies.
• Compare artificial lift techniques and determine suitability based on well conditions.
• Select appropriate artificial lift systems to enhance oil and gas production rates.
• Interpret production data to monitor artificial lift performance effectively.
• Optimize artificial lift parameters to improve efficiency and extend equipment life.
• Assess surface facility limitations and their influence on production optimization.
• Integrate nodal analysis concepts into practical optimization workflows.
• Implement corrective actions to reduce downtime and operating costs.
• Measure the economic impact of optimization strategies on asset performance.
• Apply risk-aware decision-making to production enhancement initiatives.
• Improve collaboration between subsurface and surface disciplines.
• Establish performance indicators to track optimization results.
• Develop structured optimization plans aligned with field development objectives.

Target Audience

This Production Optimization with Emphasis on Artificial Lift program targets a professional audience seeking to improve knowledge and skills:

• Production engineers responsible for well and field performance.
• Petroleum engineers involved in production system analysis.
• Artificial lift engineers managing lift design and optimization.
• Field engineers supervising daily production operations.
• Operations supervisors overseeing production facilities.
• Asset team members supporting production optimization initiatives.
• Technical staff involved in well surveillance and diagnostics.
• Engineers transitioning into production or artificial lift roles.

Course Outline

Day 1: Fundamentals of Production Optimization

• Overview of production optimization concepts and objectives.
• Understanding the production system from reservoir to surface.
• Key drivers affecting oil and gas production performance.
• Production losses and common bottlenecks in mature fields.
• Introduction to production data types and quality considerations.
• Basic principles of inflow performance relationships.
• Interaction between reservoir pressure and production rates.

Day 2: Artificial Lift Systems Overview

• Role of artificial lift in production optimization strategies.
• Classification of artificial lift methods and applications.
• Comparison of natural flow versus artificial lift production.
• Criteria for artificial lift selection based on well conditions.
• Overview of rod pump systems and operational limits.
• Overview of electric submersible pump applications.
• Overview of gas lift principles and operating modes.
• Common artificial lift challenges and failure mechanisms.

Day 3: Artificial Lift Performance Analysis

• Monitoring artificial lift system performance using data.
• Identifying inefficiencies in artificial lift operations.
• Diagnosing production decline related to lift performance.
• Optimization of pumping parameters for improved efficiency.
• Gas lift optimization using injection rate analysis.
• Matching artificial lift capacity with reservoir inflow.
• Managing sand, gas, and water effects on lift systems.
• Reducing downtime through proactive performance monitoring.

Day 4: Integrated Production System Optimization

• Integrating reservoir, wellbore, and surface analysis.
• Application of nodal analysis for production optimization.
• Identifying system constraints limiting production rates.
• Optimization of choke settings and surface equipment.
• Managing flow assurance issues affecting production.
• Coordination between artificial lift and surface facilities.
• Economic evaluation of optimization opportunities.
• Risk assessment in production enhancement projects.

Day 5: Field Application and Optimization Strategy

• Developing structured production optimization workflows.
• Case-based evaluation of artificial lift optimization scenarios.
• Decision-making under operational and economic constraints.
• Implementing optimization plans in active fields.
• Tracking key performance indicators for production improvement.
• Continuous improvement strategies for artificial lift systems.
• Best practices for sustainable production optimization.

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 understanding of production optimization with a focused emphasis on artificial lift. It combines technical depth with practical field relevance. Participants leave with improved analytical and decision-making capabilities. The structured approach supports sustainable production enhancement. The training contributes directly to improved operational and economic outcomes.