Groundbreaking Underwater Tidal Kite Begins Supplying Power to the Grid

New Approach to Ocean Energy Harnessing Successfully Deployed in Faroe Islands

In a remarkable development, a new approach to harnessing renewable energy from the oceans has been successfully deployed. The method employed is one that many people may be familiar with – it copies the movement of a kite to transfer energy from tidal and ocean currents efficiently. Currently, this innovative power generator is providing electricity to the grid in the Faroe Islands.

The power generator was designed by Minesto, a company from Sweden that specializes in marine energy technology. Their tidal energy kite has a wingspan of 12 meters (39 feet) and weighs 28 tons. Branded as the Dragon 12, it has been deployed in a narrow channel between the islands and tethered to the sea floor.

The unique shape of the tidal kite allows for repeated and consistent figure-of-eight movements that guarantee fast flow around the device. This flow spins a turbine, which generates electricity and transfers it through the tether and then to shore on cables across the sea floor. Dragon 12 is rated at 1.2 megawatts and could cover the needs of about 1,000 homes.

According to Dr. Martin Edlund, CEO of Minesto, this milestone marks a significant step forward in renewable energy build-out in many areas of the world. The competitiveness of Dragon 12 is due to its power, cost-effectiveness, and predictability at supplying electricity to the grid.

The cost of tidal power generation with this setup is significantly smaller than other tidal projects and just a bit higher than offshore wind turbines’ costs. This may change with scale and end up being a competitive alternative to offshore wind generation due to its ease of deployment and regularity of tidal currents. The next steps for this technology will certainly be interesting to follow as we continue our journey towards cleaner, more sustainable sources of energy for our planet.

Overall, this new approach offers an exciting prospect for harnessing renewable energy from our oceans while being cost-effective and predictable in terms of supply reliability. With further research and development, we can expect this technology to play an increasingly important role in our transition towards cleaner forms of energy production in coming years.

In conclusion, this novel method represents an exciting advancement in renewable energy technology that uses kite motion to extract energy from ocean currents efficiently. It’s currently generating electricity for homes in faraway islands but could have significant implications for global renewable energy production if scaled up properly. As we continue our efforts towards sustainable living practices, these innovations are crucial for ensuring that our planet remains habitable long into the future.

With its small size compared to other tidal projects but high competitiveness due to cost-effectiveness and predictability at meeting supply demands on grids worldwide, Dragon 12 sets new standards for marine renewable energy production that can be easily scaled up or down depending on demand.

As we look ahead towards more sustainable living practices globally, innovations like Dragon 12 offer hope for meeting our increasing demands for cleaner sources of renewable energy while keeping costs low enough to remain accessible even in remote locations like those on island grids such as those found on places like Faroe Islands.

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