The Japanese manufacturer said the new solar panel features 144 half-cells based on M6 wafers and a nine-busbar design, with a positive power tolerance of up to 5%.
The electronics giant is building two PV plants with a combined generation capacity of 58 MW owned by U.S. module manufacturer First Solar. Toshiba is also extending its hydrogen research project in Fukushima for another two years.
Analysts at Bloomberg New Energy Finance have quantified the influence of markets around the world. The ranking supplies a snapshot of 25 countries and also offers a five-year outlook.
Plus, analyst WoodMac says a fall in the cost of power generation in Japan during the public health crisis will help drive renewables investment and the Indian government has relaxed borrowing rules for its financially crippled electric utilities.
International thinktank IEEFA says there are 50 viable green hydrogen projects under development with an estimated renewable energy capacity of 50 GW and the potential to produce 4 million tonnes of the fuel annually.
Scientists in Japan have developed a new process for the fabrication of crystalline tin monosulfide (SnS). By facilitating the growth of crystals measuring up to 24mm in diameter, the process could help overcome some of the challenges to squeezing higher efficiencies out of this cheap, abundant material.
Solar modules are getting more powerful. This much was clear walking the show floor at the SNEC show earlier this month in Shanghai, where leading manufacturers all exhibited products with power ratings in the 600 W+ range. In this pv magazine Webinar, hosted in partnership with Trina Solar, we’ll take a closer look at the technologies inside Trina’s Vertex module, and why its impressive performance is about much more than simply making the module larger.
A nation famous for high electricity prices has seen power costs fall 15% this year, according to analyst Wood Mackenzie, a figure which will help attract $100 billion of solar and wind investment to 2030. Renewables will have to work even harder, however, to displace fossil fuels in hydrogen production.
The Japanese electronics giant has deployed a 3.5 kW hydrogen fuel cell system for at its Michinoeki-Namie site in the Fukushima prefecture. The fuel will be provided by the company’s 10 MW Fukushima Hydrogen Energy Research Field nearby.
An international research team has tested change material heat sinks for heat management on a concentrator photovoltaic system. It found that increasing over height ratios lowers the formation of stratified liquid layers, which in turn reduces the potential hot spots in the upper part of the solar cell.
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