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The following paper presents results of studies on the atomization process of water in pressure-swirl atomizers with different shapes of orifice using a laser diffraction technique. The effect of the shape of the orifice and the injection pressure on the droplet size distributions and mean droplet diameters was analyzed. The results obtained showed that droplet size decreases with an increasing injection pressure and droplet size distributions are expanded. The smallest droplet diameters were obtained by atomization in profiled and conical shaped orifice atomizers, however the largest droplet diameters were achieved for plain orifice atomizers. The analysis of the interfacial surface produced by the atomizers has shown that the greater enhancement of the atomization process had occurred using profiled and conical shaped orifice atomizers compared with plain orifice atomizers. The correlation for the Sauter mean diameter as a function of the Reynolds number and the ratio of orifice length to diameter has been proposed. The paper is related to agricultural water management. The data obtained are important from the point of view of the design of atomizers, agricultural treatments and crop protection. 相似文献
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Consistent spray coverage that is evenly distributed throughout the canopy is necessary to control pest populations that can negatively affect yield. As applicators are switching to Coarser spray quality nozzles to reduce risk and liability of pesticide spray drift, concerns about efficacy loss are growing. Previous research has indicated that small droplets are the most effective at penetrating through crop canopies, but newer nozzle technologies have improved the effectiveness of larger droplet or Coarser sprays. Research was conducted to assess the canopy penetration of nozzles that produce Coarse, Very-Coarse and Extremely-Coarse spray qualities compared to nozzles that produce Fine and Medium spray qualities. Kromekote collectors were positioned in four configurations in an oat (Avena sativa L.) var. ‘Yarran’ (AusWest Seeds, Forbes, NSW, Australia) crop to quantify the coverage and droplet number densities (droplets cm−2) across three application carrier volume rates: 50, 75 and 100 L ha−1. Applications were made in the field in 30 cm tall, tillering oats, with collectors arranged in a randomised complete block design with three replications. The entire study was repeated on the following day. Results showed that droplet number densities were inversely related to the droplet size produced by the nozzles, yet coverage was increased more by application volume rate than droplet size. Thus, both spray drift reduction and improved canopy penetration can be achieved with proper nozzle selection and operation parameters for the control of agronomic pests. 相似文献
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温室轴流风送药雾靶标沉积试验 总被引:6,自引:4,他引:2
为研究药液雾滴在温室靶区内和植株靶标上的沉积量及分布情况,以炮塔式压力雾化轴流风送高压静电喷雾系统为试验平台,在相同风机频率、喷雾压力和喷雾流量条件下,通过改变喷头高度和静电电压对风送药雾进行靶标沉积试验和分析.结果表明:沿风送轴线上距喷头150~200cm靶区内的药雾沉积量都出现一个沉积高峰区;随着静电电压的增大,植株靶标上的药雾沉积量明显增加,荷电后的药液雾滴在风送射程和喷幅内的靶标沉积率显著提高.根据实际喷施作业目标,合理布置喷头高度和调节合适电压,是增加靶标沉积率的重要手段. 相似文献
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