Landing the Big One

Landing the Big One

Tuesday, June 13, 2017

Solar-Powered Long Endurance UAVs: Less Weight, More Hang Time

A problem with most UAVs is that they require some logistical support that adds to the burden of users in the field. The U.S. Naval Research Lab is looking at helping to solve some of that support problem with UAVs that are powered by solar as reported in NRL Tests Autonomous ‘Soaring with Solar’ Concept
The Solar Photovoltaic and Autonomous Soaring Base Program and the U.S. Marine
U.S. NRL photo
Corps' Expeditionary Energy Office (E2O) want to improve the ability of unmanned platforms to support a 24-7 information, surveillance, and reconnaissance (ISR) mission. By doing so, the warfighter will greatly benefit because it will reduce the amount of batteries or fuel they must carry into battle, and improve the availability of continuous coverage of ISR assets.

“NRL has twice flown our solar UAV [based on the SBXC sailplane] over 10 hours using a combination of solar photovoltaics and autonomous soaring as part of the ‘solar-soaring’ research program,” said Dr. Dan Edwards, aerospace engineer. “This research is investigating the value of combining autonomous soaring algorithms and solar photovoltaics for capturing energy from the environment to extend flight endurance and mission operations of an aircraft.”

A photovoltaic array, custom built in NRL's Vehicle Research Section and Photovoltaic Section, is integrated into the center wing panel of the PV-SBXC aircraft as a drop-in replacement to the original wing. A power management and distribution system converts the power from the solar arrays into direct current (DC) voltage, which the electric motor can use for propulsion, or recharge a ‘smart battery.’

Additionally, an autonomous soaring software algorithm — that would typically monitor the local vertical winds around the aircraft — commands the aircraft to orbit in any nearby updrafts, very similar to soaring birds. However, the algorithm was disabled for the two solar flights in order to assess the solar-only performance. Passive soaring — meaning no specific maneuvers are attempted to catch thermals — was still allowed, to let the aircraft turn the motor off if altitude increased because of an updraft along the aircraft’s pre-defined flight path. The autonomous soaring software was tested extensively in previous flight demonstrations in late October 2015.
Sounds like a great use of technology.

1 comment:

  1. Anonymous6:00 PM

    Does seem like getting a lot of inexpensive endurance UAVs to do a lot of the grunt work in sub hunting would allow really blanketing an area. Backed by P-8 when something interesting is found could be a a game changer.

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