The University of Technology Sydney (UTS) unveils a supply chain model, spotlighting methanol as a pivotal carrier in the future of hydrogen transport.

Hydrogen’s ascent as a renewable energy contender hinges on efficient supply chain mechanisms. Here, we delve into UTS’s exploration of eight supply chain options, dissecting the nuances of electrolysis methods and carrier fuels for long-distance export.

UTS’s research underscores methanol’s prowess as a cost-effective hydrogen carrier, boasting superior energy density and affordability in transportation. This segment examines the economic advantages of methanol conversion and its implications for renewable energy export.

While methanol emerges as a frontrunner, UTS’s study sheds light on the delicate balance between energy density and transport logistics. We explore how factors like storage capacity and compression influence the overall viability of hydrogen supply chains.

Associate Professor Khalilpour’s insights underscore the economic imperatives driving hydrogen export strategies. This section evaluates the commercial viability of green hydrogen, methanol, and ammonia exportation, emphasizing the role of efficient supply chain design.

UTS’s research resonates with ongoing industry collaborations aimed at propelling the hydrogen economy forward. We analyze partnerships like Emerson and Cavendish Renewable Technology, highlighting their shared commitment to scalable, green hydrogen production.