Global Learning for Operational Leaders
Course OG-015
Renewable Energy Integration
The rapid growth of renewable energy is transforming power systems worldwide. Successfully integrating wind, solar, and other renewable sour... The outline covers Renewable Energy Generation - The Present, The Future and...
Classroom
16 sessions
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Online / Live
16 sessions
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Introduction
Course overview
Why Attend
The rapid growth of renewable energy is transforming power systems worldwide. Successfully integrating wind, solar, and other renewable sources requires advanced planning, grid flexibility, energy storage solutions, and smart network technologies. This course provides participants with practical knowledge on how to connect large-scale renewable generation to existing power systems while maintaining reliability, efficiency, and power quality.
Course Methodology
This course uses an interactive and practical approach through presentations, technical case studies, group discussions, system analysis exercises, operational examples, and real industry applications.
Course Objectives
- Understand current trends in renewable energy generation
- Identify key challenges in renewable energy integration
- Apply technical solutions for grid stability and flexibility
- Evaluate energy storage technologies and applications
- Assess impacts on transmission and distribution systems
- Improve forecasting and demand response practices
- Understand smart grids and microgrid operations
- Support sustainable energy transition strategies
Target Audience
- Electrical Engineers
- Power System Engineers
- Energy Managers
- Utility Professionals
- Renewable Energy Specialists
- Operations and Maintenance Engineers
- Anyone involved in power generation and grid integration
Target Competencies
- Renewable Energy Systems
- Grid Integration
- Power System Analysis
- Energy Storage Technologies
- Smart Grid Operations
- Technical Problem Solving
- Sustainable Energy Planning
- Risk Assessment
What you will achieve
Learning objectives
- Understand current trends in renewable energy generation
- Identify key challenges in renewable energy integration
- Apply technical solutions for grid stability and flexibility
- Evaluate energy storage technologies and applications
- Assess impacts on transmission and distribution systems
- Improve forecasting and demand response practices
- Understand smart grids and microgrid operations
- Support sustainable energy transition strategies
Who should attend
Target audience
- Electrical Engineers
- Power System Engineers
- Energy Managers
- Utility Professionals
- Renewable Energy Specialists
- Operations and Maintenance Engineers
- Anyone involved in power generation and grid integration
- Target Competencies
Methodology
Learning approach
- This course uses an interactive and practical approach through presentations, technical case studies, group discussions, system analysis exercises, operational examples, and real industry applications.
Course content
Five focused days of learning and application
Day 1
Renewable Energy Generation - The Present, The Future and The Integration Challenges
- Drivers of renewable energy development
- State of the art integrating large capacities renewable energy
- Transmission and operation technologies and practices
- Wind power generation
- Photo voltaic power generation
- Concentrated solar power generation
Day 2
Technical Solutions for Integrating Large Capacity Renewable Energy
- Wind turbines
- Grid friendly renewable energy generation
- Improved flexibility in conventional generation
- Transmission expansion developments
- Promising large capacity electrical energy storage technologies
- Roles of electrical energy storage in renewable energy integration
- Standards for large capacity electrical energy storage renewable energy integration
Day 3
Grid Flexibility - The Key to Renewable Energy Integration
- Effects of wind and solar power on energy demand
- Power plant flexibility
- Forecasting and demand response
- Wind and solar power variabilities
- Challenges variable renewable energy poses to the grid
- Impact of fossil fueled generators
Day 4
Integrating Renewable Energy into the Transmission and Distribution Systems
- Approach to analysis of integrating renewable energy
- Integration of distributed and renewable energy generation
- Power quality impacts
- Electrical transmission and distribution systems
- Photo voltaic optimization and sensitivity analysis
- Wind optimization and sensitivity analysis
Day 5
Renewable Energy Integration in Smart Grids and Micro Grids
- Smart grid attributes
- Merits of smart grids
- Operation of micro grids
- Merits of micro grids
- Future of smart micro grids
- Wrap up session and Q&A session
FAQ
Frequently asked questions
What does Renewable Energy Integration (OG-015) cover?
This course covers Oil and Gas through a structured five-day outline focused on practical application, discussion, and implementation planning.
When is the next available session?
The next scheduled session starts on 1 - 5 June 2026, with additional classroom dates and mirrored Online / Live options listed in the course schedules section.
Who should attend this course?
Electrical Engineers, Power System Engineers, Energy Managers
How can I register for a session?
Use any Register button next to the available course dates to open the participant registration page and submit your booking request for the selected session.
Is this course available online as well as classroom-based?
Yes. The course detail page includes both classroom sessions and Online / Live sessions, with online options aligned to the same course dates for easier planning.
Where are classroom sessions delivered?
Current classroom venues include Amsterdam, London, Barcelona, Istanbul, Paris, Munich, Kuala lumpur.
Still Have Questions?
Contact the academy team for course details, delivery options, and delegate guidance.
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