Structural safety guidelines for accidental hydrogen explosion hazards . This project aims to develop structural safety guidelines to mitigate hydrogen explosion hazards which can be identified as a major safety concern due to the higher demand worldwide for sustainable energy sources with no carbon emission. The world’s growing demand for hydrogen and Australia’s National Hydrogen Strategy to develop the industry will make Australia a core player in hydrogen production creating a massive econom ....Structural safety guidelines for accidental hydrogen explosion hazards . This project aims to develop structural safety guidelines to mitigate hydrogen explosion hazards which can be identified as a major safety concern due to the higher demand worldwide for sustainable energy sources with no carbon emission. The world’s growing demand for hydrogen and Australia’s National Hydrogen Strategy to develop the industry will make Australia a core player in hydrogen production creating a massive economic opportunity. However, the high flammability and low ignition energy of hydrogen makes it vulnerable to accidental explosions. Hence, this project will address the lack of safety protocols in Australian Standards related to the handling of hydrogen by producing essential design recommendations.Read moreRead less
Industry Laureate Fellowships - Grant ID: IL230100173
Funder
Australian Research Council
Funding Amount
$3,689,641.00
Summary
Accelerating Green Hydrogen Production with High Efficiency Electrolysers. This project aims to accelerate the decarbonisation of high-carbon industries (eg heavy transport, chemical production, and steel) by advancing the manufacture of high efficiency water electrolysers in Australia. Innovative electrochemical and other techniques that exploit all of the levers for high efficiency in electrolysers, will be applied to support the commercial development of this key component of green hydrogen p ....Accelerating Green Hydrogen Production with High Efficiency Electrolysers. This project aims to accelerate the decarbonisation of high-carbon industries (eg heavy transport, chemical production, and steel) by advancing the manufacture of high efficiency water electrolysers in Australia. Innovative electrochemical and other techniques that exploit all of the levers for high efficiency in electrolysers, will be applied to support the commercial development of this key component of green hydrogen production. Expected outcomes of this project, in collaboration with industry partner Hysata, include a low-cost, simplified design, and ultra-high energy efficiency. This should provide significant benefits to the green hydrogen sector, industry, and contribute to achieving net-zero emissions globally.Read moreRead less
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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