Agriculture (May 2025)

Design and Experiment of Dual Flexible Air Duct Spraying Device for Orchards

  • Zhu Zhang,
  • Dongxuan Wang,
  • Jianping Li,
  • Peng Wang,
  • Yuankai Guo,
  • Sibo Tian

DOI
https://doi.org/10.3390/agriculture15101031
Journal volume & issue
Vol. 15, no. 10
p. 1031

Abstract

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To address uneven airflow distribution and pesticide deposition coverage in orchard pesticide application, we developed a double-flexible duct spraying device. Utilizing FLUENT 2022 software for airflow field simulation, we analyzed various structural parameters to identify optimal configurations for the air duct type, diameter, and nozzle outlet diameter. The results indicated that the nozzle outlet diameter most significantly influences wind field uniformity, followed by the air duct diameter and type. The optimal settings were identified as follows: C-Type air duct, 100 mm duct diameter, and 50 mm nozzle outlet diameter. Validation tests confirmed these settings, with simulated and actual wind speed measurements, showing no more than a 10% relative error, affirming the simulation’s accuracy. Field tests demonstrated an average droplet density of 35.38 droplets/cm2 within tree canopies, indicating strong penetration ability. Droplet distribution followed a lower > middle > upper pattern in the canopy’s vertical direction, fulfilling technical requirements for high spindle-shaped fruit trees and providing a foundation for achieving a uniform canopy coverage.

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