Maritime Fuel Nexus: Green Ammonia, Bio-Methanol, and Liquid Hydrogen
Powering the Future of Sustainable Shipping
About This Course
The Maritime Fuel Nexus: Green Ammonia, Bio-Methanol, and Liquid Hydrogen is an international workshop designed to explore the next generation of sustainable marine fuels driving the global energy transition. As the maritime sector moves toward net-zero emissions under IMO decarbonization targets, innovative fuel alternatives are becoming critical to the future of shipping.
Aim
To provide a comprehensive understanding of next-generation maritime fuels—Green Ammonia, Bio-Methanol, and Liquid Hydrogen.
Workshop Objectives
- Understand the fundamentals of Green Ammonia, Bio-Methanol, and Liquid Hydrogen.
- Analyze emissions, lifecycle impact, and sustainability metrics.
- Apply fuel simulation and combustion modeling tools.
- Evaluate techno-economic feasibility and infrastructure requirements.
- Interpret IMO regulations, safety standards, and policy frameworks.
- Identify research, industry, and innovation opportunities in green maritime fuels.
Workshop Structure
Day 1: Introduction to Sustainable Maritime Fuels
- Overview of maritime energy transition and decarbonization goals.
- Green Ammonia fundamentals: production, storage, and properties.
- Lifecycle and emission comparison with conventional fuels.
- Policy, environmental, and safety considerations.
- Hands-on: Model ammonia combustion, emissions, and energy efficiency.
Day 2: Bio-Methanol & Liquid Hydrogen
- Bio-Methanol as marine fuel: synthesis, engine compatibility, performance.
- Liquid Hydrogen: storage, cryogenics, and fuel cell integration.
- Comparative emission reduction analysis across fuels.
- Real-world adoption case studies in shipping.
- Hands-on: Blend fuels, calculate emissions, and optimize efficiency.
Day 3: Integration, Sustainability & Future Roadmap
- Comparative analysis of fuels: cost, lifecycle, and feasibility.
- Regulatory frameworks, IMO policies, and carbon credit mechanisms.
- Industry adoption challenges and investment strategies.
- Career pathways, research prospects, and startup opportunities.
- Hands-on: Model fuel transition scenarios, emissions, and ROI.
Who Should Enrol?
- Doctoral Scholars & Researchers: PhD candidates seeking to integrate computational workflows into their molecular research.
- Postdoctoral Fellows: Early-career scientists aiming to enhance their data-driven publication profile.
- University Faculty: Professors and HODs interested in modern bioinformatics pedagogy and tool mastery.
- Industry Scientists: R&D professionals from the Biotechnology and Pharmaceutical sectors transitioning to genomic-driven discovery.
- Postgraduate Students: Final-year PG students looking for specialized research-grade exposure beyond standard curricula.
Important Dates
Registration Ends
02/18/2026
IST 4 PM
Workshop Dates
02/18/2026 – 02/20/2026
IST 5: 30PM
Workshop Outcomes
- Gain a clear understanding of next-generation maritime fuels and their applications.
- Perform basic emission modeling and fuel performance analysis.
- Compare lifecycle sustainability and cost-effectiveness of alternative fuels.
- Understand regulatory, safety, and policy requirements for adoption.
- Develop strategic insight for research, industry implementation, and innovation.
Fee Structure
Student
₹1999 | $60
Ph.D. Scholar / Researcher
₹2999 | $70
Academician / Faculty
₹3999 | $80
Industry Professional
₹5999 | $100
What You’ll Gain
- Live & recorded sessions
- e-Certificate upon completion
- Post-workshop query support
- Hands-on learning experience
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