Study of the effect of forced precipitation of working fluid on a vineyard sprayer for weed control

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BACKGROUND: A distinctive feature of the sprayer presented is the possibility of more efficient penetration of the working solution into the middle and lower tiers of weeds, as well as on the lower (abaxial) side of the leaf. This is ensured by the use of an air-liquid jet, which significantly increases the effectiveness of the applied chemical method of weed control.

AIM: Analysis of the effect of air jets on the deposition of chemicals on the surface of leaves of weeds. The penetration of the drug into the middle and lower tiers of plants, as well as deposition on the adaxial and abaxial sides of the leaves, is taken into account.

METHODS: To combat unwanted vegetation, a special device was applied, which was used in field research both with and without air support. With the help of the developed method, spraying was carried out on indicator cards fixed on the upper, middle and lower tiers of the plant

RESULTS: For the first time, an innovative technology based on the use of a flexible air distribution sleeve as part of a herbicide sprayer was proposed to combat weeds in vineyards. This sleeve ensures the precise supply of airflow from the fan to the working fluid spraying area. The result of such an air-liquid flow is improved efficiency and monodispersity of herbicide droplets, which, in turn, ensures uniform coverage of the lower tiers and the abaxial surface of the leaves of weeds. This innovative solution opens up new prospects in the fight against unwanted vegetation in the vineyards.

CONCLUSION: The practical value of the proposed weed control technology lies is increasing the quality of the technological operation due to the forced precipitation of the working solution.

作者简介

Enver Osmanov

V. I. Vernadsky Crimean Federal University

编辑信件的主要联系方式.
Email: enver_hotboy@mail.ru
ORCID iD: 0000-0002-1757-6837
SPIN 代码: 2830-5671

Cand. Sci. (Engineering), Associate Professor of the Technical Systems in Agribusiness Department, «Agrotechnological Academy» Institute 

俄罗斯联邦, Simferopol

参考

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2. Fig. 1. The layout of the hydraulic and pneumatic system: а — bottom view; b — side view.

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3. Fig. 2. The air distribution system: a — general view; b — hydraulic sprayer and air nozzle (bottom view); c — hydraulic sprayer and air nozzle (side view); d — inner part of the air sleeve.

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4. Fig. 3. The ONGV-500 sprayer: 1 — section without air spraying; 2 — section with forced air spraying.

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5. Fig. 4. Changes in the flow rate (Vp) in the weed layer, m/s: 1 — initial velocity — 35 m/s; 2 — initial velocity 30 m/s; 3 — initial velocity 25 m/s; 4 — initial velocity 20 m/s; 5 — initial velocity 15 m/s.

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6. Fig. 5. Distribution of the number of drops of the working solution on the abaxial and adaxial surfaces of weeds.

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7. Fig. 6. Droplet distributions (microns) on the adaxial surface.

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8. Fig. 7. Droplet distribution (microns) on the abaxial surface.

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