In recent years, serious environmental issues have resulted from the dispersal of pesticides during maize seeding, especially when performed with pneumatic drills. This phenomenon can be detrimental to insects because the products used to dress maize seeds contain pesticides. In this experiment, the conveying of exhaust air into the fertilizer hoses was tested as a potential solution to reduce the dispersion of seed dust. The use of exhaust air through the fertilizer system created a dust drift reduction of 68%, about 20% lower than dual pipe deflectors (specific devices developed to reduce dust drift). In addition, conveying the exhaust air into the fertilizer system reduced the pressure-level into the seeding element by 5 kPa, but this did not interfere with the seeding quality as the vacuum level (58 kPa) was greater than the minimum value required to perform a good quality maize seeding (40 kPa). The conveying of the exhaust air into the fertilizer system demonstrates how the drift of potentially harmful substances can be reduced during sowing of pesticide-dressed maize seeds using pneumatic drills. In fact, this system showed dust drift mitigation performance similar to devices set up especially for this purpose.

Reducing pollutant drift from a pneumatic maize seed drill using exhaust air into the fertilizer system

Marco Manzone
First
;
Mario Tamagnone
Last
2018-01-01

Abstract

In recent years, serious environmental issues have resulted from the dispersal of pesticides during maize seeding, especially when performed with pneumatic drills. This phenomenon can be detrimental to insects because the products used to dress maize seeds contain pesticides. In this experiment, the conveying of exhaust air into the fertilizer hoses was tested as a potential solution to reduce the dispersion of seed dust. The use of exhaust air through the fertilizer system created a dust drift reduction of 68%, about 20% lower than dual pipe deflectors (specific devices developed to reduce dust drift). In addition, conveying the exhaust air into the fertilizer system reduced the pressure-level into the seeding element by 5 kPa, but this did not interfere with the seeding quality as the vacuum level (58 kPa) was greater than the minimum value required to perform a good quality maize seeding (40 kPa). The conveying of the exhaust air into the fertilizer system demonstrates how the drift of potentially harmful substances can be reduced during sowing of pesticide-dressed maize seeds using pneumatic drills. In fact, this system showed dust drift mitigation performance similar to devices set up especially for this purpose.
2018
109
110
114
https://www.sciencedirect.com/science/article/pii/S0261219418300760?via=ihub
Pneumatic seeder; Maize seed; Drift; Dust; Fertilizer
Marco Manzone; Mario Tamagnone
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1894494
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