A comparison of initial spray characteristics produced by agricultural nozzles

A comparison of initial spray characteristics produced by agricultural nozzles

Pesticides are commonly applied by using hydraulic nozzles to generate droplets. The properties of these spray droplets can influence the effectiveness and risks associated with the use of pesticides. Initial spray characteristics (initial droplet size and velocity, fan angle and spray liquid densit...

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Bibliographic Details
Published in:Crop protection Vol. 53; pp. 109 - 117
Main Authors: Dorr, Gary J., Hewitt, Andrew J., Adkins, Steve W., Hanan, Jim, Zhang, Huichun, Noller, Barry
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2013
Subjects:
air
droplet size
droplets
Nozzle
nozzles
Pesticide
pesticides
risk
Spray
Spray application
Spray characteristics
Sprayer
spraying
Sprayer
Spray
Spray application
Pesticide
Nozzle
Spray characteristics
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Summary:Pesticides are commonly applied by using hydraulic nozzles to generate droplets. The properties of these spray droplets can influence the effectiveness and risks associated with the use of pesticides. Initial spray characteristics (initial droplet size and velocity, fan angle and spray liquid density) were therefore measured for a range of hydraulic nozzles and spray mixtures. Particle Image Velocimetry (PIV) was used to measure the spray sheet velocity. There was a significant difference between a standard hydraulic nozzle, Turbo TeeJet® and air induction nozzle for all measured spray characteristics. The standard hydraulic nozzle generated the smallest droplet sizes, the highest velocity and the highest spray liquid density. The air induction nozzle generated the largest droplet size, the slowest velocity and the lowest spray liquid density. The type of air induction nozzle and spray formulation was also found to influence spray characteristics. This work has demonstrated that initial spray characteristics such as droplet size and velocity, liquid density, fan angle and included air can vary depending on nozzle design, operating parameters and spray formulations. Initial droplet velocity was found to be significantly correlated to droplet size (Dv0.5) and spray pressure. •Droplet size, spray sheet velocity, fan angle and spray liquid density was measured.•Nozzle design, operating parameters and spray mixtures influence spray characteristics.•All droplets are initially moving at a similar velocity, irrespective of droplet size.•Sheet velocity was significantly correlated to droplet size and spray pressure.
Bibliography:http://dx.doi.org/10.1016/j.cropro.2013.06.017
ISSN:0261-2194
1873-6904
DOI:10.1016/j.cropro.2013.06.017