A working portfolio of research, design, and applied engineering on liquid hydrogen storage, propulsion, and clean-energy infrastructure — built to make energy independence achievable everywhere, not just where it's cheap to build.
Hydrogen is the most abundant element in the universe, and liquefying it turns a diffuse gas into a dense, transportable fuel — one that can power aircraft, heavy vehicles, and remote grids without the supply chains that lock energy access behind geography or wealth. The documents in this portfolio trace that work end to end: from storage and tank design, through propulsion integration, to the systems-level thinking required to deploy it at scale.
Six documents from this body of work, prepared for employer review. Each card will link directly to the file once it's uploaded — replace the placeholders below with the actual document paths and titles when ready.
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Open to roles and collaborations in hydrogen energy systems, aerospace propulsion, and clean infrastructure deployment.
Liam.turner@curtin.edu.au →