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Cella Energy and Arcola Energy in the south of England have received funding from the Innovation UK to collaborate on the development of a drone prototype
powered by solid hydrogen.
The Scottish Marine Science Society conducted the first flight test of a drone using a solid-state hydrogen power system and found that this type of power system has the potential
to outperform lithium batteries.
Small drones with hydrogen-powered systems have successfully passed flight tests, but Cella plans another flight test when it has already begun designing a larger version of the new hydrogen-powered system, this time weighing as much as a lithium battery but providing three times more energy
than a lithium battery.
Cella's generator uses a proprietary solid substance that, when heated above 100°C, releases a large number of hydrogen atoms that can form a range of shapes for specific uses, suitable for mobile devices
like drones.
The increasingly hot UAV market is bound to drive the continuous improvement of UAV kinetic energy systems, and more and more powerful energy storage systems will be sought after by UAV service companies and inspection fields
.
In addition to the drone market, Cella also plans to expand this hydrogen-powered system to the broader aviation sector
.
Because the material developed by the company is stable in air at temperatures below 500 °C, it solves the problem
of compressing hydrogen during transportation in the past.
Cella Energy and Arcola Energy in the south of England have received funding from the Innovation UK to collaborate on the development of a drone prototype
powered by solid hydrogen.
The Scottish Marine Science Society conducted the first flight test of a drone using a solid-state hydrogen power system and found that this type of power system has the potential
to outperform lithium batteries.
Small drones with hydrogen-powered systems have successfully passed flight tests, but Cella plans another flight test when it has already begun designing a larger version of the new hydrogen-powered system, this time weighing as much as a lithium battery but providing three times more energy
than a lithium battery.
Cella's generator uses a proprietary solid substance that, when heated above 100°C, releases a large number of hydrogen atoms that can form a range of shapes for specific uses, suitable for mobile devices
like drones.
The increasingly hot UAV market is bound to drive the continuous improvement of UAV kinetic energy systems, and more and more powerful energy storage systems will be sought after by UAV service companies and inspection fields
.
In addition to the drone market, Cella also plans to expand this hydrogen-powered system to the broader aviation sector
.
Because the material developed by the company is stable in air at temperatures below 500 °C, it solves the problem
of compressing hydrogen during transportation in the past.
