Technology - An Eco-friendly Propulsion System for Long-flying, Stealthier Drones

An Eco-friendly Propulsion System for Long-flying, Stealthier Drones

Ion wind propellers powerful enough to enable an aircraft to lift off under its own power, allowing for lighter, cheaper drones.

Background:

In 2018 researchers at SUNY Oswego achieved a first-of-its-kind flight driven by ionic wind, which could open a new field of development. The team achieved further unique developments working in collaboration with Romania's National Institute for Research and Development in Electrochemistry and Condensed Matter.

Technology Overview:

Inventors at SUNY Oswego developed a technology that resulted in a first-of-its-kind rotational flight using ionic wind technology. The innovation effectively allows a rotor to function as an engine. High-voltage components charge electrodes integrated onto the blades of a propeller. Air molecules around the propeller become charged and are either attracted or repelled by the electrode. The resulting air flow creates an "ionic wind," which turns the propeller and launches the drone. 
Further Details: 

Advantages:

•    Powerful enough to enable an aircraft to lift off under its own power, allowing for lighter, cheaper drones.
•    Longer flights with a reduced drain on batteries means that drone operators can conveniently and economically complete missions on single flyovers.
•    Less noise and reduced heat signature allow drone operators to monitor areas with decreased risk of detection.

Applications:

•    Military
•    Agriculture
•    Filming, Arial Photography
•    Mapping/Surveying
•    Infrastructure Inspection

Intellectual Property Summary:

Patent pending, PCT/US2019/033413

Stage of Development:

Stage of Development Technology Readiness Level (TRL): 2-3.

Licensing Status:

This technology is available for licensing.

Licensing Potential:

Licensing, Commercial partner, Development partner


Patent Information: