Abstract
When the unmanned aerial vehicle (UAV) is used for aerial spraying, the downwash airflow generated by the UAV rotor will interact with the crop canopy and form a conical vortex shape in the crop plant. The size of the vortex will directly affect the outcome of the spraying operation. Six one-way spraying were performed by the UAV in a rice field with different but random flying altitude and velocities within the optimal operational range to form different vortex patterns. The spraying reagent was clear water, which was collected by water sensitive paper (WSP), and then the WSP was analyzed to study the droplets deposition effects in different vortex states. The results showed that the formation of the vortex significantly influenced the droplet deposition. To be specific, the droplet deposition amount in the obvious-vortex (OV) state was about 1.5 times of that in the small-scale (SV) vortex state, and 7 times of that in the non-vortex (NV) state. In the OV state, the droplets mainly deposited directly below and on both sides of the route. The deposition amount, coverage rate and droplet size increased from top to bottom of the crops with the deposition amount, coverage rate, and volume median diameter (VMD) ranging 0.204–0.470 μL/cm2, 3.31%-7.41%, and 306–367μm, respectively. In the SV state, droplets mainly deposited in the vortex area directly below the route. The deposition amount in the downwind direction was bigger than that in the upwind direction. The maximum of deposition amount, coverage rate and droplet size were found in the middle layer of the crops, the range are 0.177–0.334μL/cm2, 2.71%-5.30%, 295–370μm, respectively. In the NV state, the droplet mainly performed drifting motion, and the average droplet deposition amount in the downwind non-effective region was 29.4 times of that in the upwind non-effective region and 8.7 times of the effective vortex region directly below the route. The maximum of deposition amount, coverage rate and droplet size appeared in the upper layer of the crop, the range are 0.006–0.132μL/cm2, 0.17%-1.82%, 120–309μm, respectively, and almost no droplet deposited in the middle and lower part of the crop. The coefficient of variation (CV) of the droplet deposition amount was less than 40% in the state of obvious-vortex and small-scale vortex, and the worst penetration appeared in the non-vortex amounting to 65.97%. This work offers a basis for improving the spraying performance of UAV.
Highlights
Pests are prominent issues in crop production [1,2]
The results showed that X and Y-direction wind field hardly influenced the droplet deposition while Z-direction wind field significantly did
This work is aimed to study the effect of vortex state on droplet deposition and different vortex state were formed by setting different flight height and velocities
Summary
Pests are prominent issues in crop production [1,2]. Chemical spraying remains the most effective method for pest control [3]. Aerial applicators are widely used in conjunction with the groundbased sprayers in North America, Europe and some other areas for farms very large acreage; they are not feasible for small farms or orchards with complex terrain and field conditions. Unmanned aerial vehicle (UAV) based agricultural aviation technology finds its unique applications in those area [7,8,9]. Requiring no specific take-off and landing sites, rotary-wing UAVs, especially, can operate flexibly and effectively in complex terrains such as paddy fields, hills and mountains, and quickly respond to the outbreak of pests [10,11]
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