Coventry University Group and Velour Institute of Technology (VIT) in India have launched a pioneering collaboration that can reconstruct the future of hydrogen transport.
By playing a key role in the global shift towards clean energy, the joint venture focuses on overcoming one of the most pressing challenges: one of the safe and efficient movements of hydrogen, through the power of artificial intelligence (AI).
Issues in Hydrogen Transport
Hydrogen has emerged as a clean energy range as countries accelerate their efforts to reach net-zero emissions.
However, despite that promise, hydrogen transport remains full of technical difficulties. The main one is hydrogen emissions (H₂E). This is a phenomenon in which hydrogen atoms infiltrate metals such as steel, iron, and nickel, impairing structural integrity.
This can lead to pipeline or container fragility, cracking, and potentially catastrophic failures.
AI-equipped solutions for safer hydrogen movement
To address these issues, researchers from the Institute of Advanced Manufacturing Engineering (AME) and the Center for Advanced Low Carbon Propulsion Systems (CALPS) at Coventry University are working with VIT experts in engineering and digital manufacturing.
Their goal is to develop innovative, AI-driven methods for safe and cost-effective storage and hydrogen transport.
Using the generation AI, teams aim to model and predict material behavior under hydrogen exposure, enabling the design of more resilient transport systems.
Strategic Global Partnerships
Funded through the two-year initiative (UK and India Educational Research Initiative) running until 2026, through the renowned UK Council Ukieri (UK and India Educational Research Initiative) not only strengthens international academic ties, but also focuses on real-world applications of hydrogen in future transportation and energy systems.
The project will be led by Dr. Aribazagan Anbaraghan, assistant professor of digital manufacturing at Coventry University, and Dr. Margret Anoncia S, professor of software systems at VIT. Together, they aim to create transformational solutions that support the adoption of hydrogen worldwide.
Dr. Ambaragan commented: “As hydrogen becomes a critical clean energy focus, development of safe and cost-effective storage and transportation is extremely important.
“Using AI to predict and prevent hydrogen siege aims to increase the safety and reliability of storage and transportation systems.
“The Coventry University team is excited to work with their colleagues at VIT. The project will greatly support both countries’ Net Zero Carbon efforts.
“We are preparing for this two-year journey to promote research collaboration and innovation and strengthen educational relationships with VIT through PhD students and joint BSC/MSC courses.”
Why hydrogen transport is important
Success in hydrogen transport is essential to expanding green energy solutions across sectors such as aviation, shipping, automobiles and heavy industry.
Safer hydrogen logistics accelerate the deployment of fuel cell technology, hydrogen-powered vehicles, and industrial decarbonization.
This partnership represents more than a research milestone. This is an important step towards a sustainable future with hydrogen.
The innovations that come from this project will help set new global standards for how hydrogen is stored and transported, helping to reach its full potential in a green energy environment.
For countries striving for net-zero, hydrogen transport breakthroughs could be a game-changer.
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