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Nuclear Maritime: SMR Technology for Zero-Emission Shipping
New
82 students
Nuclear Maritime: SMR Technology for Zero-Emission Shipping
Small Modular Reactors, floating nuclear, and zero-emission shipping pathways to 2050
Created byGopalakrishnan Veilumuthusamy
Last updated 4/2026
English
What you'll learn
- Understand key lessons from nuclear power history and what must change for safe maritime SMR deployment.
- Explain how SMRs work and how they compare with LNG, hydrogen, and ammonia for zero-emission shipping.
- Evaluate nuclear-powered ships, floating nuclear bunkering, and real-world regulatory frameworks.
- Assess risks, equity issues, and design pathways for green maritime corridors toward 2050.
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Course content
5 sections • 6 lectures • 49m total length
Requirements
- No prior knowledge of nuclear energy or maritime shipping is required—this course is designed to be beginner-friendly.
- A basic understanding of climate change and energy systems will be helpful but not essential.
- Interest in sustainability, shipping, or emerging clean technologies will help you get the most out of the course.
- Learners should be comfortable engaging with policy, technical concepts, and real-world case discussions.
Description
Shipping must decarbonize—fast. But can nuclear power, specifically Small Modular Reactors (SMRs), offer a credible, safe, and equitable path to zero-emission maritime transport?
This course explores that question in depth, combining technical insight with critical perspectives often overlooked in industry discussions. You will begin by examining the historical lessons of nuclear power—covering safety, cost overruns, waste management, worker and community health, and the lasting impacts on Indigenous lands. These insights set the foundation for understanding what must change as nuclear re-enters the conversation.
You will then learn how SMRs differ from traditional reactors, including their modular construction, passive safety systems, and emerging marine-grade designs. From there, the course moves into real-world maritime applications: nuclear-powered ships, regulatory frameworks, and how SMRs compare with alternative fuels like hydrogen, ammonia, and LNG.
Beyond the vessel itself, you will explore the concept of floating nuclear power units and island-based energy hubs, enabling offshore bunkering and clean fuel production. The course also examines governance challenges, workforce implications, community consent, and long-term responsibilities such as waste and decommissioning.
Finally, you will connect these ideas into scalable green maritime corridors and a practical roadmap toward 2035–2050.
Designed for sustainability professionals, maritime experts, and policy thinkers, this course equips you to critically evaluate whether—and how—nuclear can play a responsible role in the future of shipping.
Who this course is for:
- Sustainability professionals and climate practitioners exploring deep decarbonization pathways for shipping
- Maritime industry professionals (shipping, ports, logistics) interested in future fuels and propulsion technologies
- Policy makers, regulators, and think-tank researchers working on energy transition and maritime governance
- Engineers, analysts, and students curious about Small Modular Reactors (SMRs) and nuclear applications in shipping
- Professionals in energy, infrastructure, and ESG roles evaluating emerging technologies and investment risks
- Anyone interested in understanding whether nuclear power can play a safe, equitable role in zero-emission shipping