New research into Airborne Wind Energy Systems, funded by a substantial EPSRC grant, seeks to harness high-altitude wind energy using drones, aiming to overcome challenges in system stability and enhance commercial viability, supporting the UK’s net-zero goals. Image of a prototype Kitemill drone in action. Credit: Kitemill
By tethering a drone to a ground station, AWES harvests wind power at higher altitudes than conventional wind turbines. The high wind pulls the drone away from the ground station, driving the generator, and producing electricity. This is the challenge that Dr Nguyen and his collaborators hope to solve during this project. By improving AWES safety and efficiency, he hopes the project will pave the way for AWES commercialization.Dr Nguyen, from the School of Civil, Aerospace and Design Engineering, explained: “Airborne wind energy has enormous potential and is anticipated to generate €70 billion per year worth of electricity by 2050. However, it is still an emerging technology.
Dr. Nguyen concluded: “By replacing existing techniques with bifurcation methods, AWES can achieve significant cost savings and improved performance that will ultimately bring this technology closer to commercialization.”
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