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Several announcements were made this week regarding hydrogen research and development in Australia, including the development of an Australian hydrogen battery.

Andrew Forrest of Fortescue Metals has said 鈥済reen鈥� hydrogen will give Australia an opportunity to slash its CO2 emissions.

However, experts say hydrogen energy remains a difficult technology to master and there are several challenges that must be met in order for a wide-scale uptake and national rollout to happen.听

University of Sydney experts from the Faculty of Engineering discuss what needs to happen for Australia to transition to a true hydrogen economy.

Understanding hydrogen and its opportunities

笔谤辞蹿别蝉蝉辞谤听Jun Huang聽from the聽School of Chemical and Biomolecular Engineering聽believes hydrogen has the potential to power the future green economy.听

鈥淗ydrogen is a clean fuel and burning it only generates water and, unlike the burning of coal, there are no CO2 emissions," said Professor Jun Huang, who is a expert in hydrogen engineering and CO2 conversion.

鈥淗ydrogen is the most naturally abundant element on earth, but hydrogen fuel doesn鈥檛 occur in nature. Instead, it requires a chemical or electrochemical process to produce on an industrial scale.

鈥淎ustralia has an outstanding opportunity when it comes to hydrogen, being plentiful in natural gas and coal. However, the prize of renewable hydrogen lies in harnessing solar energy on a large enough scale to use renewable electricity in the conversion of water to hydrogen.鈥�

Challenges that must be addressed

鈥淭he announcements reported this week refer to measures for converting hydrogen from water using electricity, which is a clean process," said Professor Huang.

鈥淗owever the global challenge 鈥� and one that is particularly acute in Australia 鈥� is that this process is costly and requires large amounts of electricity. Currently most of this energy is generated from non-renewable sources 鈥� which currently means it is not yet truly 鈥渃lean鈥� energy."

鈥淭he price of industrial electricity in Australia is also several times higher than in Europe, the United States and Asia, which will result in the higher cost of Australian hydrogen production and lower competitiveness of Australian hydrogen in the global market.

鈥淎ustralia must work out how to reduce the running cost for power generation and upgrade the power grid to make way for hydrogen.

鈥淎ccess to fresh water is a global challenge in the production of hydrogen energy. Although Australia is surrounded by ocean, we lack fresh water and frequently experience drought.

鈥淏ecause of these challenges, hydrogen production using electricity is only in its infancy. We will only be able to progress to large-scale commercialisation once these issues have been successfully addressed.鈥�

A solution to hydrogen embrittlement must be found in order to transition to a decarbonised energy portfolio

顿谤听聽is an expert in hydrogen energy from the聽聽and the聽.听

He says that Australia's聽ability to use hydrogen as an effective energy carrier will critically underpin whether or not we will achieve a decarbonised energy portfolio.

鈥淭he transport and transmission of hydrogen is an essential part of this, however, there are significant challenges which must be addressed. Our current national plan is to use the existing infrastructure from the natural gas sector 鈥� high-pressure pipelines and storage containers made of metals, predominantly steels," said Dr Chen.

鈥淗owever, hydrogen is detrimental to metals 鈥� a physical phenomenon we call 'hydrogen embrittlement'. What this means in simple terms is it can destroy metal and make it brittle, destroying pipelines and vessels intended to transport and contain it.听 So far there's no evidence to show that our existing infrastructure is compatible for carrying hydrogen effectively."

"My research aims to address issues surrounding hydrogen embrittlement and find a solution for its transport. At the University of Sydney, we use a state-of-the-art microscope, known as cryogenic atom probe tomography (CryoAPT) that can unambiguously map how hydrogen聽.

鈥淐ryoAPT can be used to study the behaviour of hydrogen, allowing us to understand how hydrogen leads to the embrittlement and how we can prevent it, which is an essential component to enabling a hydrogen future."