Renewables company Pacific Energy has deployed a first-of-a-kind containerised hydrogen electrolyser and fuel cell as part of a technology development project that is exploring the feasibility of using hydrogen as a clean energy source and storage solution for the Northern Territory’s grids.
Singapore-based Sun Cable, which is seeking to develop the giant Australia-Asia PowerLink (AAPowerLink) consisting of up to 20 GW of solar and 42 GWh of energy storage on a 12,000-hectare site in the Northern Territory, is forming a consortium to advance sustainable smart energy grids in Asia.
The Northern Territory is set to install its first hydrogen energy storage system as part of a pilot being operated by the Charles Darwin University in Darwin.
With the Northern Territory town of Alice Springs turning towards renewable energy to address the challenges associated with its isolated grid, researchers from Charles Darwin University have announced they will help investigate how the outback community can facilitate its transition towards a renewables-dominated future.
Integrating solar into Australia’s natural gas industry could reduce onshore gas facilities’ emissions by 19% in Western Australia, 18% in Queensland, and 21% in the Northern Territory, according to research conducted by National Energy Resources Australia (NERA).
Charles Darwin University’s Deepika Mathur, and Imran Muhammad of Massey University in New Zealand reveal surprising results from their study into why Australians are retiring solar panels before their time, and what it means for our material footprint and the environment.
Like a flight simulator for power system designers, the Hitachi ABB facility is now in the hands of the Northern Territory’s Charles Darwin University where it will help build knowledge and capability on the Territory’s road to 50% renewable electricity by 2030.
Researchers from Charles Darwin University have conducted a ‘cradle to grave’ life cycle assessment (LCA) of the four most widely used PV technologies. The academics say that cadmium telluride solar modules have the lowest life cycle impact, followed by amorphous, multi and monocrystalline silicon products.
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