Nuclear-Renewable Hybrid Energy Systems
Overview
The energy markets in Canada and internationally are moving towards hybrid systems that maximize the benefits of nuclear power and increase the deployment of renewable energy systems. This specialized two-day (2) course focuses on Nuclear-Renewable Hybrid Energy Systems (N-R HES) and the knowledge gained will enable attendees to be ready for a wide range of infrastructure projects that include a variety of energy sources.
You will receive an Â鶹´«Ã½ University certificate upon successful completion of this course.
Who should attend?
- Graduate students, alumni and researchers studying or working in energy, energy systems and nuclear science fields;
- Energy and transportation electrification planners;
- Energy, utility and small modular reactor (SMR) provider employees;
- Policy makers and government officials who support the energy industry;
- Energy end users.
What you'll learn
- The needs, requirements, design, and operational aspects of integrated Nuclear-Renewable Hybrid Energy Systems (N-R HES);
- The foundations to analyze, design and evaluate integrated N-R HES with various implementation strategies that are optimized based on energy demand and user requirements;
- Challenges and approaches to achieve practical and profitable N-R HES deployments, using key parameters such as design, control, and operational factors, including scalability, capital cost, project lifetime, construction period, land acquisition, ecological safety, and technological aspects;
- Business activity modeling with IDEF0 to reflect practical implementation steps with unified activities and practices;
- Techno-economic analysis methods will be explained and used to evaluate operational scenarios and strategies.
Admissions requirements
Participants who have post-secondary education or industry experience will benefit most from this course. However, there are no formal additional requirements.Required elements
Complete both days of the Nuclear-Renewable Hybrid Energy Systems course to receive a technical certificate of completion.The completion of this two-day course will enable attendees to acquire essential knowledge and gain experience related to the design and implementation of Nuclear-Renewable Hybrid Energy Systems (N-R HES), including:
- Understand different nuclear-renewable design strategies;
- Understand design considerations and requirements, and performance measures of N-R HES;
- Understand implementation challenges, gaps, and planning strategies;
- Practice techno-economic analysis and its applications on different integration and implementation strategies.
- Lecture 1: Course introduction
- Lecture 2: Renewable Energy and Energy Storage Systems
- Lecture 3: Nuclear Power Technologies
- Lecture 4: Nuclear-Renewable Hybrid Energy Systems
- Lecture 5: Demand Side Management
- Lecture 6: Case Studies
- Lecture 7: Micro Hybrid Energy Systems
- Lecture 8: Techno-Economic Analysis
| Nuclear-Renewable Hybrid Energy Systems | In class: August 15 to 16, 2023 | 9 a.m. to 5 p.m. |
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The course will be delivered at Â鶹´«Ã½ University's North campus location.
This course includes:- Lectures
- Group discussions
- Individual work
- Case studies
- Hard copy of presentation material
- IAEA technical documents on Nuclear–Renewable Energy Systems (software copies only)
- Relevant Journal papers
No additional materials are required.
Course materials will be made available for access approximately three (3) days prior to the course start date. Select course materials will remain available to participants through February 15, 2024.
