Technology and R&D

Australian battery casing company, Vaulta, has signed a memorandum of understanding with Quickstep, an Australian aerospace composites manufacturer, to develop smarter technology for renewables. The partnership will likely explore integrating battery casing technology that reduces the number of parts needed to house the batteries in electric vehicles.

Chinese big-gun Trina Solar has announced that its Vertex S will hit the Australian market in April. Trina hopes the installer-friendly smaller, lighter, and denser Vertex S for residential and SME consumers will capture a significant potion of the booming Australian solar market.

The Japanese brand will continue to sell third-party-made modules under its brand in its home market, as it already does overseas, but in-house PV wafer, cell and module production will halt by the end of fiscal year 2022.

National Energy Resources Australia has actioned its instructions from the 2019 National Hydrogen Strategy by investing an initial $1.75 million in 13 regional clusters across all states and territories designed to establish Australia’s global identity in hydrogen technology and expertise.

Sector coupling may be somewhat of a buzzword, but it also points to opportunities for PV beyond the power markets, which may quickly reach limitations during peak hours of irradiation. Combined energy, food and clean water production presents one such opportunity, with benefits for developers, utilities and communities.

Australian technology company Star Scientific has signed a Memorandum of Understanding with the Philippines’ Department of Energy in order to trace out the use of its game-changing HERO technology. The partnership could see Star Scientific transform every coal-fired power plant in the nation to green hydrogen while also utilising the technology to, among other things, provide clean, quick, desalinated water.

Six new arrays with a combined capacity of 120 kW will be installed on the International Space Station starting from this year. The panels will be brought to the station with the SpaceX Dragon cargo spacecraft during three resupply missions. The installation of each solar array will require two spacewalks.

Two French companies have collaborated on the development of the Osmo-Watt system, which is powered by solar panels. They claim that the technology can produce up to 100 cubic meters of drinking water per day.

Australian researchers have analysed different ways to improve the efficiency of PV-powered water electrolysis for hydrogen generation. They include the use of magnetic fields, light energy, ultrasonic fields, and pulsating electric fields. Energy costs remain prohibitive, but molecular movement and the redistribution of molecules in water during electrolysis could open a path to viability.

Chemical engineers at the University of New South Wales and the University of Sydney have made a significant technological breakthrough in the development of green ammonia. The breakthrough could not only alter the global ammonia industry, but more easily use solar to produce green ammonia for export to countries like Japan and Germany instead of straight hydrogen.