Early Career Industry Fellowships - Grant ID: IE230100215
Funder
Australian Research Council
Funding Amount
$440,926.00
Summary
Design and optimisation of metal hydride hydrogen storage tanks. This project aims to tackle the bottlenecks of the current metal hydride hydrogen storage tank developed by the key industry partner LAVO, i.e., limited storage capacity and non-efficient structure design. Through advanced numerical modelling and machine learning methods, the metal hydride hydrogen storage tank will be optimised by redesigning advanced heat management systems and optimised hydride materials, enabling it to store an ....Design and optimisation of metal hydride hydrogen storage tanks. This project aims to tackle the bottlenecks of the current metal hydride hydrogen storage tank developed by the key industry partner LAVO, i.e., limited storage capacity and non-efficient structure design. Through advanced numerical modelling and machine learning methods, the metal hydride hydrogen storage tank will be optimised by redesigning advanced heat management systems and optimised hydride materials, enabling it to store and deliver hydrogen in a more controllable way with high performance. Expected outcomes of the project include the numerical platform to improve the material and design iteration and a prototype of the next-generation metal hydride hydrogen storage system. This opens a new market for Australian-H2 storage tanks.
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Early Career Industry Fellowships - Grant ID: IE230100160
Funder
Australian Research Council
Funding Amount
$477,237.00
Summary
Characterise high-performance, green steels for the hydrogen economy. This project aims to develop the knowledge around microstructures and hydrogen interactions of a range of advanced steels that can be produced with low carbon emissions by the industry partner. These steels can lead to solutions for the hydrogen pipes and vessels without concern of hydrogen embrittlement, which play a crucial role in enabling a safe hydrogen economy in Australia. This partnership will allow the industry partne ....Characterise high-performance, green steels for the hydrogen economy. This project aims to develop the knowledge around microstructures and hydrogen interactions of a range of advanced steels that can be produced with low carbon emissions by the industry partner. These steels can lead to solutions for the hydrogen pipes and vessels without concern of hydrogen embrittlement, which play a crucial role in enabling a safe hydrogen economy in Australia. This partnership will allow the industry partner to access the advanced characterisation tools and will also expose the Fellow with the opportunity to develop and manufacture new steels in industry. This will also de-risk the KIP’s investment in Australia for a new steel mill dedicating to the new green steels for supporting Australia’s hydrogen infrastructure.Read moreRead less