A Swiss research team published a review of the technologies used to manufacture of colored building integrated PV, discussing competitive characteristics of more than a dozen products, as well as success factors to drive market development.
Market analytics provider Aurora Energy Research has examined the potential for colocation of renewables with battery energy storage systems (BESS) across 12 European countries. It found that Germany, Great Britain, the Ireland I-SEM, and Poland are leading the pack.
The new module has a power output of up to 650 W and weighs 29.6 kg. It uses JA Solar’s patented anti-dust frame technology, which reportedly enhances drainage and decontamination performance, thus reducing dust accumulation and avoiding hotspot issues.
The European Investment Bank (EIB) will conduct economic and technological feasibility studies on two Bulgarian pumped storage hydropower plants due to be operational by 2032. The projects will each add generation capacity of around 800 MW and will both come with a price tag of around €900 ($964) million.
The 60 MW Kūihelani solar-plus-storage facility will generate enough electricity for 27,000 homes, with a 240 MWh battery energy storage system.
The European Union has drawn up new regulations to boost the domestic mining of raw materials and support production of renewable energy products and materials at home. Will it be enough to incentivize investment, or will Europe trail other major economies, such as the United States and China?
The two companies have partnered on a new venture that will bring 5 GW of solar cells and 5 GW of solar modules to U.S. and EU markets.
The Netherlands Organisation for Applied Scientific Research has provided figures for the levelized cost of hydrogen (LCoH) for major projects in the Netherlands, while Meld Energy says it is moving forward with its hydrogen plans in England.
The city of Valencia, Spain, has installed solar trees to recharge small electric vehicles and mobile devices, with a total investment of about €370,000 ($395,600). Each solar tree can generate up to 5,600 kWh per year.
US scientists have analyzed the impact of “seasoning” a formamidinium lead iodide solution with two-dimensional (2D) perovskites. They have found that the template improved the efficiency and durability of their solar cells.
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