A system to evaluate the performance of hydraulic nozzles used in stored grain preotection trials

A tecnologia de aplicação na proteção de grãos armazenados é de fundamental importância para melhorar a uniformidade de distribuição dos agrotóxicos na massa de grãos. Foi desenvolvido um sistema para avaliar o desempenho de bico hidráulico utilizado em experimentos de proteção de grãos de milho e trigo armazenados. Para determinar a distribuição volumétrica transversal e o espectro de gotas do bico hidráulico modelo TJ-60 8002EVS, utilizou-se calda inseticida como líquido teste. Um sistema móvel de aplicação foi construído para aplicar uma taxa equivalente a 5 L t-1 e obter uma concentração teórica de 10 e 0,5 mg kg-1 de fenitrotion e esfenvalerato, respectivamente. Os grãos foram espalhados em fina camada para o tratamento. Lâminas de vidro foram colocadas sobre a massa de grãos para certificar a aplicação da dose pretendida. Os depósitos em ambas matrizes foram analisados por técnica de cromatografia gasosa. O depósito de fenitrotion foi superior ao do esfenvalerato e o depósito nos grãos de trigo foi superior a do milho. Nas lâminas de vidro os depósitos atingiram valores de 100 e 93% da concentração teórica pretendida de fenitrotion e esfenvalerato, respectivamente. Nos grãos os depósitos foram inferiores aos das lâminas de vidro, com valores de 64 e 52% da concentração teórica pretendida de fenitrotion e esfenvalerato, respectivamente. Foi comprovada a eficiência do método de avaliação no desempenho de bicos quando utilizada a calda inseticida como líquido teste. Os fatores que influenciaram o depósito dos inseticidas nas lâminas de vidro e nos grãos são discutidos no trabalho.We developed a system to evaluate the performance of hydraulic nozzles used in stored corn and wheat grain protection experiments. An insecticidal mix was used as test fluid to determine the transversal volumetric distribution and droplets spectrum of a model TJ-60 8002EVS hydraulic nozzle. A mobile application system was built to apply a rate equivalent to 5 L t-1 and obtain theoretical concentrations of 10 and 0.5 mg kg-1 of fenitrothion and esfenvalerate, respectively. The corn and wheat grains were spread out as a fine layer. Three glass slides (0.1 &times; 0.05 m) were placed on the top surface of the grains to ensure that the intended application rate was achieved. After treatment, the deposits on both matrices were analyzed by gas chromatography. The fenitrothion deposit was higher than esfenvalerate, and the deposit on wheat was higher than on corn grains (P < 0.05). The deposits on the glass slides reached values of 100 and 93% of the intended theoretical fenitrothion and esfenvalerate concentrations, respectively. Deposits on the grains were lower than on the glass slides, with values of 64 and 52% of the intended theoretical fenitrothion and esfenvalerate concentrations, respectively. The results obtained demonstrate a high effectiveness of the method for evaluation of the performance of hydraulic nozzles when an insecticidal mix is used as test fluid. The factors that influenced insecticide deposition on glass slides and on grains are discussed in the present work

Effectiveness of two systems for the spraying of pesticides in citrus trees

Citriculture normally uses high application volumes in pesticide solutions (of 2.000 to 5.000 L ha(-1)) to control pests and diseases that affect the crop, which generates an increase in operational costs. For this reason, diverse systems of application are being developed to reduce application volumes and improve the uniformity of pesticide deposition. The goal of this work was to evaluate the efficiency of two application systems of pesticides in citrus trees. One system used a prototype for terrestrial application with rotary disc atomizers that are widely used in agricultural aviation, and the other system used hollow cone tip hydraulics. For the treatment of the trees the insecticide Metidation was used at the dose of 180 gr per hectare. To study the droplet spectrum, water-sensitive papers were installed at different positions in the trees canopy, and for the study of insecticide deposition leaves of the treated plants were collected. The water-sensitive papers were collected and analyzed using a computerized image analysis system (e-Sprinkle, EMBRAPA, Sao Paulo, Brazil), and the leaves analyzed by the technique of gas chromatography. Pesticide deposition was similar in both application system, although the solution volume used by the application system equipped with rotary disc atomizers was one quarter of the volume used by the application system equipped with hydraulic tips, reducing considerably the cost of the phytosanitary treatments

Performance of spray nozzles in land applications with high speed Desempenho de pontas de pulverização em aplicações terrestres com alta velocidade

The aim of this study was to evaluate different spray nozzles for land applications in high speed on the coverage and deposit in soybean plants pulverization. It was evaluated the AXI 110 04 plane jet nozzles operated at speed of 4.17m.s-1 (control), the grey APE and the AXI 110 08 plane jets, and the TD HiSpeed 110 06 and AXI TWIN 120 06 twin jets, at speed of 9.72m.s-1. The application volume was fixed in 120L ha-1. The application efficiency was evaluated by two different methods: analysis of the coverage area using fluorescent pigment and UV light and analysis of deposits through the recovery and quantification of FD&C N°1 brilliant blue marker by spectrophotometry. Both analyses were done in samples collected from top, middle and bottom parts of the plants. The spray nozzles showed differences in coverage and deposit pattern, so in the top part, the coverage was increased with smaller drops and the deposits were increased with medium drops. In the other parts of the plants, there were no statistical differences between the treatments for both coverage and deposits. The displacement speed did not influence the application efficiency for nozzles with the same drop pattern, and the obtained spray coverage and deposits at the medium and bottom parts of the plants were less than 50% of that found at the top of the soybean plants.<br>O objetivo do trabalho foi avaliar o efeito de diferentes pontas de pulverização para aplicações terrestres em alta velocidade sobre a cobertura e depósito da pulverização em plantas de soja. Foram avaliadas as pontas de jatos planos AXI 110 04 à velocidade de 4,17 m.s-1 (testemunha), de jatos planos APE cinza e AXI 110 08, e de jatos planos duplos TD HiSpeed 110 06 e AXI TWIN 120 06, à velocidade de deslocamento de 9,72 m.s-1. O volume de aplicação foi fixado em 120 L.ha-1. A eficiência de aplicação foi avaliada por dois métodos: análise visual do percentual de cobertura, utilizando marcador fluorescente e com luz ultravioleta, e análise de depósito através da recuperação e da quantificação do marcador Azul Brilhante FD&C N°1 por espectrofotometria. Ambas as análises foram realizadas em amostras retiradas das partes superior, média e inferior das plantas. As pontas de pulverização mostraram padrões de cobertura e depósito diferenciados, de modo que, na parte superior, a cobertura foi favorecida por gotas mais finas e o depósito melhorado pelo uso de gotas médias. Nas demais partes da planta, não houve diferença estatística entre os tratamentos para cobertura e depósito. A velocidade de deslocamento não interferiu na eficiência da aplicação para pontas com o mesmo padrão de gota, sendo os níveis dos depósitos e da cobertura nos terços inferior e médio inferiores a 50% dos obtidos na parte superior das plantas

Effectiveness of the standard evaluation method for hydraulic nozzles employed in stored grain protection trials

In stored grains, smaller depositions and great variation with respect to theoretical insecticide doses are frequently found. The objective of this work was to study the effectiveness of the standard method (ISO 5682/1-1996) employed to evaluate hydraulic nozzles used in stored corn and wheat grain protection experiments. The transversal volumetric distribution and droplet spectrum of a model TJ-60 8002EVS nozzle were determined in order to calibrate a spraying system for an application rate of 5 L/t and to obtain theoretical concentrations of 10 and 0.5 mg/kg of fenitrothion and esfenvalerate, respectively. After treatment, the corn and wheat grains were processed and deposition was analyzed by gas chromatography. The type of grain did not have any influence on insecticide deposition and was dependent upon insecticide only. The insecticide deposits on the grains only reached 42.1 and 38.2% of the intended theoretical values for fenitrothion and esfenvalerate concentrations, respectively. These results demonstrate the ineffectiveness of the standard evaluation method for hydraulic nozzles employed in stored grain protection experiments