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H2 Powered Drone: 3.5 Hour Flight Time
H2 Powered Drone: 3.5 Hour Flight Time
VIDEO: https://youtu.be/lzvsctwbL2c https://www.tudelft.nl/en/2020/tu-de...r-and-greener/ TU Delft maritime hydrogen drone flies longer and greener NEWS - 10 NOVEMBER 2020 - COMMUNICATION A drone that can fly sustainably for long distances over land and water, and can land almost anywhere, will be able to serve a wide range of applications. There are already drones that fly using 'green' hydrogen, but they either fly very slowly or cannot land vertically. That’s why researchers at TU Delft together with the Royal Netherlands Navy and the Dutch Coastguard service developed a hydrogen-powered drone that is capable of vertical take-off and landing whilst also being able to fly horizontally efficiently for several hours, much like regular aircraft. The drone uses a combination of hydrogen and batteries as its power source. The first successful tests were held in one of the most challenging scenarios: from a ship sailing on the open seas. This also brings maritime applications within reach and represents a new step in making aviation more sustainable. A drone that flies over densely populated areas or the open sea has to be able to take off and land vertically, for example on an apartment complex or the afterdeck of a ship. This drains a lot of power from the battery and is detrimental to the flight duration. Fossil fuels are often used to increase aircraft range and endurance, though this is not a particularly sustainable solution. Moreover, to fly efficiently over long distances, a drone needs wings, however, fixed wing drones require additional facilities to land them, such as a runway or a net . So all in all up to now no drones have been developed that can sustainably fly long distances and still take off and land almost anywhere. Bart Remes, Project Manager of the Micro Aerial Vehicle Lab (MAVLab) at TU Delft: “That is why we developed a drone that can take off and land vertically using hydrogen plus a battery set, and that during the horizontal hydrogen-powered flight can recharge the battery via a fuel cell, ready for the vertical landing. The fixed-wing design and the use of hydrogen means the drone can fly horizontally for hours at a time.” The fully electric drone weighs 13kg and has a wingspan of three metres. It is also very safe: it is powered by 12 motors so even if several motors fail, it can still land safely on the afterdeck of a ship, for example. Sustainable The drone is equipped with a 300 bar, 6.8 litre carbon composite hydrogen cylinder. The cylinder feeds hydrogen at low pressure to the 800w fuel cell that converts it to electricity. The only emissions are oxygen and water vapour. In addition to the fuel cell that supplies electricity to the motors, there is also a set of batteries that together with the fuel cell provide extra power to the motors during the vertical take-off and landing. The knowledge acquired while designing the drone can be used to make aviation greener. Henri Werij, Dean of the Faculty of Aerospace Engineering at TU Delft: “One of the most important aspects of this research project is the hydrogen-powered flight. Worldwide, hydrogen is seen as one of the most important contenders for achieving a green and sustainable aviation fuel.” Maritime Drones are already regularly used for flying over land, but flying over the sea brings many extra challenges. Wind, salt water, a moving ship with limited take-off and landing facilities, these are all dynamic conditions that put high demands on the drone. This is why the TU Delft hydrogen drone was not only tested in a wind tunnel, but also on Royal Netherlands Navy and Dutch Coastguard service vessels, sailing on the open sea off the Dutch coast. Thanks to the combination of the wings and the hydrogen cylinder and battery, the TU Delft drone was able to stay airborne in stable flight for over 3.5 hours. These properties make the drone suitable for providing support in reconnaissance and inspection tasks. Commander Pieter Blank: “Introducing new technologies demands a more exploratory approach than we are used to. The current generation of young people grow up in this way of learning and experimenting, and for us they are our personnel of the future. This is why we are making every effort to work together with others to create operational applications for these technologies. As an innovator in the Royal Netherlands Navy and Dutch Coastguard service, I am proud of this cooperation with TU Delft. The development of the maritime, hydrogen-powered drone is a true technical breakthrough which has huge future potential.” More information Please check the following website for more information and photo/video: http://www.nederdrone.nl/ Bart Remes, project manager Micro Air Vehicle Lab (MAVLab) TU Delft: , +31 15 27 83707 Ilona van den Brink (TU Delft press office): , +31 15 27 84259 Fanneke Eelman-Frinks (Royal Netherlands Navy press office), , +31 6 124 18 436 Edwin Granneman (Dutch Coast Guard Service press office), , +31 223 – 658319 --------------------------------------------------------------------------- https://newatlas.com/drones/hydrogen...ed-vtol-drone/ Hydrogen-powered VTOL drone flies for 3.5 hours By Ben Coxworth November 12, 2020 A composite photo of the drone taking off from a coastguard ship A composite photo of the drone taking off from a coastguard shipTU Delft VIEW 3 IMAGES VTOL (vertical take-off and landing) drones are quite versatile, as they combine the vertical flight of a helicopter with the fast and efficient forward flight of a fixed-wing airplane. This one features an extended range, thanks to a fuel cell power system. The experimental aircraft was developed by a team at the Netherlands' Delft University of Technology (TU Delft), working with colleagues from the Royal Netherlands Navy and the Netherlands Coastguard. It has a 3-meter (9.8 ft) wingspan, weighs 13 kg (29 lb), and features 12 motor/propeller units distributed on its two wings. Even if several of the motors fail, it can reportedly still fly and land successfully. The drone is also a "tail-sitter"-type VTOL. This means that when taking off and landing, its body is angled upwards, allowing the propellers to work more like a helicopter's rotor blades. For going into forward flight, the thrust is electronically redistributed between the 12 motors, causing the aircraft to level out into a horizontal orientation. Another multi-exposure take-off shot Another multi-exposure take-off shot TU Delft It additionally incorporates an 800-watt fuel cell, which is fed by an onboard 300-bar (4,351-psi), 6.8-liter carbon composite hydrogen cylinder. In forward flight, the motors are powered solely by that fuel cell, which also charges an onboard battery pack. For take-offs and landings – which require considerably more power than cruising – both the fuel cell and the battery power the motors. In a recent trial conducted off the Dutch coast, the drone took off from the deck of a coastguard ship, then proceeded to fly over the open ocean for 3.5 hours before landing back on the vessel. It is hoped that the aircraft could ultimately find use in applications such as reconnaissance and inspection. You can see it in action, in the video below. Source: DU Delft Novel versatile hydrogen drone developed by TUDelft - MAVLab [EN] |
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