Akademik Veri Yönetim Sistemi
Crop Protection, cilt.181, ss.106701-106711, 2024 (SCI-Expanded)
Orchard pesticide applications using electrostatic spraying technology enhance droplet deposition and reduce
environmental pollution. However, the incorporation of charging systems into conventional air-assisted sprayers
remains limited. This is primarily due to challenges such as the necessity for high air velocity to prevent droplet
adherence to electrodes, electrode-nozzle design flaws, and safety concerns related to the high voltage used for
charging. To address these issues, this study developed five charging units that employ insulated induction
electrodes, eliminating exposure to external elements. These units were incorporated into an air-assisted sprayer
to assess their effectiveness in charging spray droplets and improving deposition. The units successfully limited
electrical leakage, even under high-voltage conditions (up to 18 kV) and in the absence of airflow. At an electrode voltage of 14 kV, and an air velocity of 27 m s
− 1
, the electrostatic units achieved an average charge-to-mass
ratio of up to 0.67 mC kg− 1
. Activation of the charging units significantly enhanced droplet deposition with an
increase of 90% on the front and 3250% on the back surfaces of the artificial targets (aluminum plates). On real
plant leaves, the increase was 54% on the front and 112% on the back surfaces compared with uncharged
standard spraying.