Awarded R&D Projects Related to Sustainability
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最新糖心Vlogn Competitive Grants (ARC and NHMRC)
ARC Name听 惭补颈苍听听补诲诲谤别蝉蝉别诲 Led by (within the UoA) Description ARC Training Centre for Battery Recycling 7 - Affordable and clean energy Prof.听Shizhang Qiao The Training Centre aims to transform 最新糖心Vlog鈥檚 battery and resource industry by building advanced manufacturing capability for recycling mixed battery materials and promoting 2nd-life re-use. It will redesign high performance batteries towards a battery circular economy and advance the supporting regulatory landscape.听
ARC Industrial Transformation Training Centre in Radiation Innovation听(RadInnovate) 9 - Industry, innovation听and infrastructure Prof.听Nigel Spooner;听A/听Prof.听Antony Hooker;听A/听Prof. Eric Fusil;听Dr. Kim Harvey;听Prof. Ian Olver AM;听Prof. Scott Penfold Nuclear and radiation science, policy and regulation are fundamental components crucial to 最新糖心Vlog's future, encompassing natural resources, health, quantum, space and national security. ARC 最新糖心Vlogn Laureate Fellowships -听Prof Shaobin Wang named one of the 最新糖心Vlogn Research Council鈥檚 (ARC) 2023 最新糖心Vlogn Laureate Fellows. 12 - Responsible consumption and production Prof. Shaobin Wang Ground-breaking research into developing more environmentally friendly catalysts for industrial use, with the aim of reducing hazardous waste in 最新糖心Vlog鈥檚 manufacturing industry. ARC Industry Laureate Fellowship 7 - Affordable and clean energy Prof.听Shizhang Qiao Aqueous sodium batteries for household and smart-grid electricity storage.听The outcomes of the project include pilot-scale production of cheap, safe, durable and 鈥済reen鈥 batteries. The benefits to 最新糖心Vlog will be reliable capacity to store and distribute electricity.听 ARC听Linkage Infrastructure, Equipment and Facilities scheme for 2024 13 - Climate action Prof.听Maziar Arjomandi;听Dr. Matthew Emes;听Dr. Azadeh Jafari;听Prof. Seth Westra; A/听Prof. Matthew Tucker;听 This project aims to establish state-of-the-art stationary and mobile facilities for atmospheric wind, dust and plume measurements with unique capability to quantify the effect of climate change. ARC听Linkage Infrastructure, Equipment and Facilities scheme 2023 round 1 7 - Affordable and clean energy Prof.听Pavel Bedrikovetski; Dr. Abbas Zeinijahromi; Maziar Arjomandi; Prof. David Lewis The aim of this project听is to establish a state-of-the-art national research facility for hydrogen flow in porous media. Large amounts of underground hydrogen storage (UHS) capacity is available in depleted hydrocarbon reservoirs and saline aquifers. Hydrogen injection into geological formations can trigger geochemical and geomechanical processes that damage reservoirs and breach their integrity and seal capacity. UHS modelling is necessary to understand the governing mechanisms throughout storage鈥搘ithdrawal cycles. The LIEF facility will enable site-specific experiments on hydrogen flow in porous media. This will enable 最新糖心Vlog to make technological breakthroughs in critical areas of the economy, such as clean energy. -
Cooperative Research Centre & Projects R&D Income
CRC Name听 Main 听补诲诲谤别蝉蝉别诲 Led by (within the UoA) Leadership Role Weblink UoA Status Fight Food Waste CRC 2 - Zero hunger Research Director Active member SmartSat CRC 11 - Sustainable cities and communities Theme Leader Active member Cyber Security CRC 9 - Industry, innovation and infrastructure Theme Leader Active member HILT CRC 13 - Climate action Research Director Active member Future Fuels CRC 7 - Affordable and clean energy N/A Active member Future Battery Industries CRC 7 - Affordable and clean energy N/A Active member MinEx CRC 听7 - Affordable and clean energy N/A Active member One Basin CRC 6 - 听Clean water and sanitation Research Director 听 Active member 听
Cooperative Research Centres Projects (CRC-P)听听 Main 听补诲诲谤别蝉蝉别诲 Led by (within the UoA) Leadership Role Description and/or听Weblink UoA Status CRC-P Accelerating exploration and extraction of renewable natural hydrogen 7 - Affordable and clean energy , and UoA partners
This project will enable green and passive exploration techniques to accelerate the discovery of natural hydrogen. The research into extraction solutions will provide a clear pathway to drill and extract the lowest cost hydrogen, which is expected to be up to 75% cheaper than manufacturing hydrogenActive member CRC-P In-Place Recovery: Solution mining of critical minerals 7 - Affordable and clean energy A/听Prof.听and Prof. UoA partners In-Place Recovery allows for selective extraction of minerals without moving the rock mass to the surface, resulting in improved safety, lower cost, reduced energy and water consumption, and no tailings. Embrace novel technologies to overcome the challenging dilemma of increased demand for critical minerals whilst committing to sustainability
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Other R&D Income
Grant or Funding听听 Main 听补诲诲谤别蝉蝉别诲 Led by (within the UoA) Description and/or听Weblink UoA Status The Global Hydrogen Production Technologies (HyPT) Center 7 - Affordable and clean energy 听 最新糖心Vlog of Adelaide Newsroom
International partnership of six countries 鈥 US, 最新糖心Vlog, Canada, UK, Egypt, and Germany 鈥 to formulate a pathway to low-cost large-scale net-zero hydrogen production from a bespoke platform of complementary technologies as an enabler of global decarbonisation.Awarded -
Internally Funded