“This is a key milestone for our company and for the floating wind sector in general being able to install a floating wind platform using a TLP mooring system and requiring only small vessels. X1 Wind CEO and Co-Founder Alex Raventos explains the importance of this milestone: Įnable the firm to provide platforms for the 15MW scale turbines and beyond and to deploy them at very deep sites.The new wind platform has been fitted with a Vestas V29 turbine and stationed at a 50 meter water depth in a downwind configuration. Ĭan manufacture and then tow them out into deeper waters.The benefit of offshore floating wind turbines is they can take advantage of the strong winds blowing in the deeper areas, which improves energy efficiency. Oceanic Platform of the Canary Islands (PLOCAN)Ĭonnected the fully-functional floating wind prototype to the mooring system and dynamic cable pre-installed last June. Ī floating wind platform has been successfully installed at the PLOCAN test site in the Canary Islands of Spain.Ī floating wind platform has been installed in Spain 50 meters into the water | Interesting Engineering (07:15).Sakuu is bullish on this technology, this past August they opened a state-of-the-art multi-faceted engineering hub for its battery platform printing initiatives in Silicon Valley. In theory, 3D printed batteries could take on more customized shapes, which could change how batteries are integrated into product design. “We've proven all of the steps in the lab, and now we're in the process of connecting them in an automated fashion,” Ĭlaims that 3D printing allows it to fit more battery layers in the same amount of space, boosting the capacity of its batteries compared to those made by traditional manufacturing.ĭave Pederson, vice president of marketing and business development at battery technology company Sakuu, explains that has validated its 3D printing processes and materials, and is currently formatting them for a production environment.Potential solutions for many problems of liquid Li-ion batteries, such as flammability, limited voltage, unstable solid-electrolyte interphase formation, poor cycling performance and strength.Īdditionally providing more power, faster charging, and a longer lifespan.Ĭalifornia-based startup Sakuú, and it’s taking on an even bigger task: 3D-printing these next-gen batteries. Solid-state batteries replace a flammable liquid electrolyte in lithium-ion batteries with a more stable solid one. Lithium-ion batteries have a tendency to catch fire, especially when damaged or at high temperatures. Lithium-ion batteries are everywhere: in your phone, car, camera, and more. The future of solid-state batteries could be 3D-printed | The Verge (01:11)
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