Making hydrogen storage work for the new hydrogen economy. This project aims to develop an innovative Liquid Organic Hydrogen Storage technology and prove its energy industry potential. This project expects to expand and validate the performance, safety and scale-up potential of this new technology in an industrial context to promote the development of the hydrogen economy. Expected outcomes include providing practical, efficient, large-scale storage technology for use in intermittent renewable ....Making hydrogen storage work for the new hydrogen economy. This project aims to develop an innovative Liquid Organic Hydrogen Storage technology and prove its energy industry potential. This project expects to expand and validate the performance, safety and scale-up potential of this new technology in an industrial context to promote the development of the hydrogen economy. Expected outcomes include providing practical, efficient, large-scale storage technology for use in intermittent renewable energy storage and hydrogen vehicle refuelling, and addressing legal/regulatory implementation issues. This should provide significant benefits in cultivating the emerging hydrogen energy industry, strengthening industrial competitiveness, enhancing Australia’s fuel security and protecting the environment.Read moreRead less
Scalable high-density hydrogen storage by nano-bubbles in layered materials. Stable and low-cost hydrogen storage and transportation are cornerstones of a global hydrogen economy. This project aims to advance a novel hydrogen storage technology based on highly pressurised nano-bubbles in layered materials. The project expects to expand our fundamental knowledge of the interactions between hydrogen and layered materials. Expected outcomes include a hydrogen storage technology that exhibits a rema ....Scalable high-density hydrogen storage by nano-bubbles in layered materials. Stable and low-cost hydrogen storage and transportation are cornerstones of a global hydrogen economy. This project aims to advance a novel hydrogen storage technology based on highly pressurised nano-bubbles in layered materials. The project expects to expand our fundamental knowledge of the interactions between hydrogen and layered materials. Expected outcomes include a hydrogen storage technology that exhibits a remarkable energy density, high stability and low cost. This should provide significant benefits, such as improving the capacity and robustness of low-cost hydrogen storage and transportation, reducing energy costs and making hydrogen energy a more accessible and sustainable clean energy source for Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100863
Funder
Australian Research Council
Funding Amount
$460,847.00
Summary
High-Efficiency, Modular and Low-Cost Hydrogen Liquefaction and Storage . Australia’s first modular hydrogen liquefaction and storage. This project aims to develop a novel multi-faceted cooling system and software to increase efficiency, lower cost, and improve the safety of hydrogen liquefaction and storage. The project will establish a new multi-disciplinary research capability in Australia and expand our fundamental knowledge to model, design, and build modular liquefaction and zero-boil-off ....High-Efficiency, Modular and Low-Cost Hydrogen Liquefaction and Storage . Australia’s first modular hydrogen liquefaction and storage. This project aims to develop a novel multi-faceted cooling system and software to increase efficiency, lower cost, and improve the safety of hydrogen liquefaction and storage. The project will establish a new multi-disciplinary research capability in Australia and expand our fundamental knowledge to model, design, and build modular liquefaction and zero-boil-off storage systems, allowing widespread distribution and usage of hydrogen. It will create a paradigm shift from traditional scale-up to modern number-up approaches. This level of innovation is crucial for Australia to lead the world in hydrogen and also enable accessible and sustainable clean energy sources for Australians.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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