Swiss 3S, the Switzerland-based manufacturer, is offering the new half-cell BIPV module in four sizes, ranging from 24 half-cells to 48 half-cells. The rated output is up to 225 W.
Scientists have developed a machine-learning model – utilizing K-Means and long short-term memory techniques – that aims to overcome ‘fault detection and classification’ in the operation and maintenance of large-scale solar PV farms.
Daiwa, Japan’s largest homebuilder, has developed a new solar carport that can accommodate solar modules from any manufacturer in various colors and shapes, allowing developers to consider the aesthetic requirements of the surrounding areas and buildings.
Fraunhofer ISE researchers claim the new silicon carbide inverter is technically able to handle voltage levels of up to 1,500 V at 250 kVA in utility scale solar power plants.
On the journey from Darwin to Adelaide, the Innoptus Solar Team, a non-profit project of students from the University of Leuven, is in a leading position amongst dozens of competitors from around the world in the Bridgestone World Solar Challenge. It tapped European research labs for PV equipment and know-how.
Japan’s Panasonic has developed a new central heat pump system for residential space heating and cooling.
Enphase and SolarEdge dominate US sales of rooftop solar inverters, but Tesla could be set to change that.
Reliance Industries recently showcased its swappable lithium iron phosphate (LFP) batteries for electric two-wheelers. The batteries can be charged through the grid or with solar to run home appliances.
The solar-powered Stella Terra test car from Eindhoven University in the Netherlands has just completed a 1,000-kilometer test drive from northern Morocco to the Sahara. In Australia, the solar car racing team from the University of New South Wales says the real challenge is to find new ways to push the boundaries of solar car races.
Sodium-ion energy storage system manufacturer, Peak Energy, is working to streamline what it believes is the biggest bottleneck to scaling enough battery energy storage systems to accommodate 80% renewable energy generation and 100% carbon-free electricity in the United States by 2035.
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