Water-from-air technology company Aqua Aerem’s Desert Bloom green hydrogen project received Major Project Status from the Northern Territory government last year. It has now announced a partnership with Japanese energy giant Osaka Gas that not only brings the 10 GW project closer to reality, but has also seen the company boost its ambitions to 20 GW in light of “quickly developing demand.”
From pv magazine Australia
Back in December 2021, the Northern Territory (NT) government granted Major Project Status to water-from-air technology company Aqua Aerem to develop its $15 billion 10 GW Desert Bloom green hydrogen project in Tennant Creek, NT, with ambitious plans for commercial production by 2023. Now Japanese energy giant Osaka Gas has entered into a joint development agreement that puts considerable heft behind the project.
Desert Bloom is also backed by Singapore-based Sanguine Impact Investment.
Aqua Aerem chairman and Sanguine managing director David Green has also revealed that the company is in discussions with other potential partners for the purchase of its green hydrogen, and is in the process of increasing the scale of the project to 20 GW “to meet the quickly developing demand for green hydrogen as companies position to deliver on their international commitments.”
According to Aqua Aerem (literally “water-air” in Latin), for every one kilogram of hydrogen produced, nine litres of water is required. The company’s patented proprietary technology captures water from the atmosphere in arid environments using off-grid solar energy, with no waste other than air. This commercial quantity of water can then be used in solar electrolysis whereby water is split into its constituent parts, namely hydrogen and oxygen.
Considering the scale of renewable energy required for green hydrogen production, regions necessarily require lots of sun and wind, usually hot and arid are best situated. Of course, such regions don’t tend to have much water. Technology that enable significant quantities of water to be obtained from the atmosphere provides a serious advantage, and are demonstrable of the fecund solar-water exus.
Desert Bloom aims to utilize that technology to produce green hydrogen for domestic and export markets using off-grid renewable energy generation and atmospheric water.
The joint agreement, which was ratified on Tuesday, will see the two companies develop the project, which Aqua Aerem said will produce approximately 410,000 metric tons of green hydrogen annually when it is completed.
Osaka Gas is no stranger to large quantities, as it is one of the world’s largest gas buyers and distributors, with a global portfolio of energy projects, pipelines and LNG terminals.
“We are pleased to be collaborating with Osaka Gas on the further development of Desert Bloom Hydrogen, which is the most advanced, shovel-ready green hydrogen project in Australia,” said Aqua Aerem CEO Gerard Reiter.
“This deal is a strong endorsement of the massive value of the project and Aqua Aerem’s innovative air-to-water technology, which is opening the door for green hydrogen projects to be located where the best renewable power sources are available, which is generally in the driest areas of the planet.”
NT Chief Minister Michael Gunner welcomed the announcement and noted that the green hydrogen sector was to play a key role in meeting the NT’s economic targets.
“Today’s announcement is great news for the Northern Territory, for Australia and for Japan, as we strive to reach our shared destination of net-zero emissions by 2050,” said Gunner.
“This major project is also providing a big boost to our economy, with around 1,000 jobs to be created during construction and a further 120 once it is operational, and we look forward to marking many more important milestones along the way.”
The atmospheric water extraction system and hydrogen generation units are contained in multiple modular and portable solar-powered Hydrogen Production Units (HPUs) capable of generating “water, heat, electricity, and hydrogen, meaning each is a set of containerized solutions that can operate independently .” This independence garners versatility as well, and outside of green hydrogen Aqua Aerem sees potential applicability in mining and agriculture, as well as the alleviation of water scarcity.
Unlike desalination, Reiter says the advantages of generating water from air means no grid connection is required, there’s no brine to dispose of, it has fewer inefficiencies and fewer ongoing costs. Considering the water challenge is one of the biggest barriers to green hydrogen production in water-stressed regions with the best renewable resources, this technology could prove a breakthrough.
“Desert Bloom Hydrogen will produce revenue from the installation of the first module and does not require large upfront expenditure, including investment in large infrastructure that may become stranded or suffer from technological obsolesce,” said Green. “As a result of these substantial savings, Desert Bloom will be on track to produce green hydrogen at an export price international customers want to pay – less than US$2/kg within five years.”
“An equitable global energy transition and water security are the key challenges of this generation and Aqua Aerem is well-placed to assist with the expected surging demand for reliable, affordable, green energy and provision of security water supplies.”
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