Spray Deposition on Maize Using an Electrostatic Sprayer

Assunção, Heli Heros Teodoro de; Cunha, João Paulo Arantes Rodrigues da; Silva, Sérgio M.; Alves, Guilherme Sousa; Lemes, Ernane Miranda

doi:10.1590/1809-4430-eng.agric.v40n4p503-510/2020

Cited by 5 publications

(3 citation statements)

References 17 publications

(26 reference statements)

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“…This result indicates that electrostatic spraying could achieve depositions similar to conventional spraying, but with 48% less volume, thus reducing the use of plant protection products and the risk of environmental contamination. These results are in line with studies carried out with electrostatic spraying in other crops, where deposition increases of the order of 0.5 to 2.5 times were quantified, compared to conventional spraying systems [23][24][25][26]33].…”

Section: Plant Canopy Depositionsupporting

confidence: 89%

Evaluation of Electrostatic Spraying Equipment in a Greenhouse Pepper Crop

et al. 2022

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Greenhouse vegetable production is of great importance in southern Europe. It is a cultivation system characterised by a high planting density and environmental conditions that favour the development of pests and diseases. Although alternatives to chemical pest and disease control have been used over recent years in greenhouse crops, it is still mostly plant protection products that are used to protect crops and prevent crop losses. Hand-held spraying equipment is mainly used to apply plant protection products to this type of crop. This equipment is technologically basic, offering low deposition efficiency in the plant canopy, high losses to the ground, and a high risk of worker exposure. In this context, it is important to utilise technologies that reduce the problems associated with using the conventional hand-held sprayers in greenhouses. This study evaluated the deposition and uniformity in the plant canopy and the losses to the ground when applying plant protection products with an electrostatic hand-held sprayer; the results were then compared with applications carried out using a conventional hand-held sprayer. For this purpose, a colorimetric method has been used based on the application of a tartrazine solution. The tests showed that the electrostatic spraying equipment increased the plant canopy deposition by 1.48 times that of the hand-held spray gun, resulting in a 48% reduction in the application rate. There was also a 1.78-times increase in deposition on the underside of the leaves and a 36.36% reduction in losses to the ground. In general, the electrostatic hand-held sprayer improves the effectiveness of the plant canopy deposition and reduces losses to the ground compared to the hand-held spray gun commonly used in pest and disease control.

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Section: Plant Canopy Depositionsupporting

confidence: 89%

Evaluation of Electrostatic Spraying Equipment in a Greenhouse Pepper Crop

et al. 2022

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“…We were unable to find any charge/mass data in the literature for ESS used for the application of disinfectants, and none of the devices evaluated in this study reported this information either. However, in one study evaluating parameters affecting ESS charge for agricultural pesticide applications, the authors reported an average charge/mass of 1.03 mC/kg [ 22 ], and in a similar study [ 3 ] evaluating spray deposition in an agricultural setting, charge/mass ranged from 4.8–8.5 mC/kg. Sasaki et al reported a charge/mass ratio of 1.38 mC/kg at a 1 meter spray distance, and that charge/mass decreased with increasing spray distance [ 17 ].…”

Section: Resultsmentioning

confidence: 99%

“…ESS have been used for many years in several other industries, e.g., for the efficient application of pesticides to crops (to reduce spray drift) [ 3 – 5 ] and vegetation [ 6 ]. Recently ESS have emerged as an application technique for disinfectants for surfaces potentially contaminated with the SARS-CoV-2 virus [ 7 ].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of electrostatic sprayers and foggers for the application of disinfectants in the era of SARS-CoV-2

et al. 2021

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Although research has shown that the COVID-19 disease is most likely caused by airborne transmission of the SARS-CoV-2 virus, disinfection of potentially contaminated surfaces is also recommended to limit the spread of the disease. Use of electrostatic sprayers (ESS) and foggers to rapidly apply disinfectants over large areas or to complex surfaces has emerged with the COVID-19 pandemic. ESSs are designed to impart an electrostatic charge to the spray droplets with the goal of increasing deposition of the droplets onto surfaces, thereby promoting more efficient use of the disinfectant. The purpose of this research was to evaluate several spray parameters for different types of sprayers and foggers, as they relate to the application of disinfectants. Some of the parameters evaluated included the spray droplet size distribution, the electrostatic charge, the ability of the spray to wrap around objects, and the loss of disinfectant chemical active ingredient due to the spray process. The results show that most of the devices evaluated for droplet size distribution had an average volume median diameter ≥ 40 microns, and that four out of the six ESS tested for charge/mass produced sprays of at least 0.1 mC/kg. A minimal wrap-around effect of the spray deposition onto a cylindrical object was observed. The loss of disinfectant active ingredient to the air due to spraying was minimal for the two disinfectants tested, and concurrently, the active ingredient concentrations of the liquid disinfectants sprayed and collected 3 feet (1 meter) away from the spray nozzle do not decrease.

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Applications of electrostatic spray technology in food preservation

Gui,

Shang,

2023

LWT

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Spray Deposition on Maize Using an Electrostatic Sprayer

Cited by 5 publications

References 17 publications

Evaluation of Electrostatic Spraying Equipment in a Greenhouse Pepper Crop

Evaluation of Electrostatic Spraying Equipment in a Greenhouse Pepper Crop

Evaluation of electrostatic sprayers and foggers for the application of disinfectants in the era of SARS-CoV-2

Applications of electrostatic spray technology in food preservation

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