posted on 2021-10-14, 15:07authored byJoel McQuaid
The OpenFOAM CFD package was used to initially investigate the aerodynamic effects of
vortex-ring state of a quadrotor, then to study various quadrotor flight maneuvers to minimize the
thrust loses of vortex-ring state and followed by possible detection methods for a drone entering
vortex-ring state. Vortex-ring state is characteristic of a decrease in the effective angle of attack of
incoming airflow due to a rotor descending into its downwash. This causes significant loses in the
thrust of the rotor, which typically leads to severe flight upsets for rotorcraft. A quadrotor was
studied at varying descent velocities to investigate wake roll-up at the rotor tips and the subsequent
effects on rotor thrust and power. The quadrotor was then subjected to non-vertical descent angles
to investigate thrust loss mitigation approaches due to vortex-ring state. A method of detecting the
on-set of vortex-ring state is proposed using various differential pressure measurements on the
quadrotor. It has been shown that by monitoring the pressure difference between the top of the
quadrotor body and the bottom of one of the quadrotor legs, a pressure drop can be seen just prior
to the on-set of vortex-ring state. This pressure drop was shown to occur during descending flight
regimes and may prove to be an effective pre-vortex-ring state warning system.