Abstract:
The chemical method for the application of phytosanitary treatments in the vineyards is most effective for the control of
diseases and pests, but also presents some disadvantages, because the pesticides end up in the water, air and soil,
polluting them. Pesticides are transferred to plants, fruit, animals and people, with undesirable repercussions on health.
The spraying devices are equipped with nozzles, which disperses plant substance in fine droplets on the plant. Their
orifice can be decalibra due to hydroabrasive wear, favoring conducting to an uneven treatment, with untreated or
overtreated areas, which also determines an excessive pollution. To determine the nozzles dispersion uniformity it was
designed and built a laboratory stand, which allows quantification of the machine dispersion uniformity. In the
experimental research conducted in laboratory conditions it was used a vineyards pest and disease control machine
TARAL 200 PITON TURBO type, which there were mounted flat-jet air absorption-type nozzles IDK 120-02 from
LECHLER and ALBUZ AMT 1.2 full cone spray nozzles. The tests were performed for different working pressures
(0.2; 0.4; 0.6; 0.8; 1.0; 1.2 and 1.4 MPa) and mounting distances from stand to the spraying machine axis (1500, 1700,
1900 and 2100 mm). In these circumstances, it is reproduced in laboratory the spraying machine working process and it
is determined the solution dispersion uniformity. The analysis results show that the air absorption nozzles have a much
better uniformity than those without air absorption for all pressures and working distances. The best results, i.e. the
dispersion uniformity of 90.93% were obtained by the stand arrangement at a distance of 1900 mm from the machine’s
axis and at a pressure of 1.0 MPa, for air absorption nozzles.
