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Samantha Dunn

UNSW receives $6.3m for renewable energy and decarbonisation research

Updated: 4 days ago

Ammonia has sustained humanity since the early 20th century, but its production leaves a huge carbon footprint. Now researchers have found a way to make it 100 percent renewable.


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Traditional ammonia production consumes 2 percent of the world's energy and accounts for 1 per cent of the industrial world's carbon dioxide emissions. Photo: Shutterstock

ARENA funds projects under the Transformative Research Accelerating Commercialisation (TRAC) Program to support the global transition to net zero emissions.


ARENA distributed $59.1 million to 21 research projects supporting research and development and commercialisation activities covering its strategic Renewable Hydrogen and low-emission Iron & Steel rounds.


“We’re backing Australian technological innovation that helps build our clean industries and underpins our ambitions of becoming a renewable energy superpower,” said ARENA CEO Darren Miller.


Supporting the development of clean hydrogen

UNSW project, ‘Production, Multiphase Electrolysers for Renewable Ammonia Production’, led by Prof. Amal, alongside UNSW Engineering colleagues Dr Rahman Daiyan, Dr Zhi Peng Ma, and Dr Emma Lovell, received $1.9 million as part of ARENA’s Hydrogen energy research and development funding round. The team will partner with engineering and investment companies to accelerate the scaling-up and commercialisation of the technology.


“Renewable ammonia is an energy carrier in the emerging hydrogen economy,” said Prof. Amal.


UNSW has developed a patented technology known as OzAmmonia, which facilitates the direct conversion of air (and water) into ammonia and has the capability to transform nitrogen oxide gases found in waste flue gas, and nitrate and nitrite in wastewater, into ammonia, so closing the nitrogen oxide loop and unlocking a zero-emissions future for fertilisers, fuels and beyond.


“The ability to safely produce renewable ammonia through our hybrid advanced oxidation and electrolyser process has great potential to support the development of low cost, clean ammonia in Australia,” said Prof. Amal.




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