South Australia has found itself at the heart of a 21st-century gold rush, though this time for naturally occurring hydrogen. Since February 2021, 18 exploration licenses have been granted or applied for in the state by six different companies searching for natural hydrogen.
Vistra plans a third expansion of the Moss Landing Energy Storage Facility in California.
Gelion’s Endure battery will undergo commercial tests at the 1.2 MW Montes del Cierzo testing field that the Spanish renewable energy company operates in Navarra.
Germany’s Schaeffler is developing a hydrogen fuel cell that runs on a liquid organic hydrogen carrier, and Australia’s H2X Global has formed a joint venture with Indian automotive components manufacturer Advik Hi-Tech to manufacture hydrogen fuel cells, generators and vehicles.
Extensive salt beds lie under the surface in Kansas and the state’s Geological Survey is planning to use them to help address the challenge of intermittent production from solar and other renewable sources.
U.S-based solid-state battery start-up Sparks has opened a pilot plant for its patented lithium battery technology based on zero cobalt cathodes. The company wants to challenge China’s dominance in next-gen battery development.
TransAlta has planned to start construction on the storage facility in March 2023 and to complete it within nine months. The 180 MW battery facility is designed to be charged by the existing Ghost Hydroelectric facility when demand is lower.
SDG&E and Sumitomo Electric complete a pilot microgrid project in California that successfully powered utility customers solely with energy stored in a flow battery.
The raised ambition of an already huge renewables-powered hydrogen project in the Southern African nations vividly demonstrates the hydrogen and clean energy potential of a continent which accounted for just 0.5% of the world’s new solar capacity last year, according to trade body AFSIA’s annual report.
Researchers in Portugal have tested how vanadium redox flow batteries can be integrated with rooftop PV to balance the system load to ensure firm power output. They proposed a 5 kW/60 kWh battery configuration for a 6.7 kW building-integrated PV microgrid. According to their findings, the battery can be used in different energy management strategy scenarios to better complement solar photovoltaic generation.
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