Battery Energy Storage Systems
Live Online Course
15 Hours
The target audience for the Battery Energy Storage Systems course includes:
Engineers: Professionals in electrical, mechanical, and renewable energy engineering seeking to understand the fundamentals of BESS.
Project Managers: Individuals managing energy projects who need a broad understanding of BESS technologies and applications.
Energy Sector Professionals: Employees in utilities, energy companies, and grid operators interested in the integration of BESS.
Renewable Energy Developers: Professionals developing solar, wind, or other renewable energy projects that may benefit from BESS.
Technical Consultants: Advisors providing guidance on the deployment and optimization of BESS solutions.
Regulatory and Policy Makers: Individuals involved in shaping energy policy or regulations related to energy storage and grid management.
Investors and Financial Analysts: Stakeholders interested in understanding the market potential and financial aspects of BESS projects.
Academic and Research Professionals: Scholars and researchers studying energy storage technologies and their impact on the energy sector.
This course is ideal for those looking to gain a comprehensive understanding of BESS, its role in modern energy systems, and its application across various sectors.
This course offers a comprehensive introduction to Battery Energy Storage Systems (BESS), covering the fundamental principles, technologies, and applications in various energy markets. Participants will explore the components of BESS, their role in enhancing grid stability, and their integration with renewable energy sources. The course is designed for professionals seeking to understand the technical, economic, and regulatory aspects of BESS, providing the knowledge needed to engage in BESS projects or incorporate them into broader energy strategies. Ideal for engineers, project managers, and energy sector professionals, this course delivers essential insights into the future of energy storage.
Fundamentals, applications and topologies
• Why energy storage is not about
energy storage“
• Applications: Categories and examples
• Topology and terminology
Performance criteria
• Power capacity and energy capacity
• Degradation
• Efficiency
• Availability
Value chain, cost and feasibility
• Value chain and stakeholders
• Contracts and warranties
between stakeholders
• CapEx and OpEx
• Feasibility based on normalized
cost indicators
Equipment basics
• Battery system
• Power conversion system
• Control system
• Auxiliaries / balance of plant
System design and system integration
• System design for power capacity and energy capacity
• Electrical layout
• Civil layout