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农用荷电喷雾雾滴粒径与速度分布的试验研究 被引量:36

Experimental investigation of droplet diameter and velocity distributions in agricultural electrostatic sprays
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摘要 为研究荷电喷雾场的空间运动结构及其对植株界面的影响,该文运用PDPA测试系统对不同条件下的农用静电喷雾场进行了测试,结合荷质比、喷雾宽度测量结果,对雾滴的粒径分布、主流平均速度分布及平均速度与粒径的关系进行了分析和讨论。结果表明:在机械力和电场力的前后作用下,喷嘴压力愈大,荷电雾滴的粒径愈小且分布愈均匀;雾滴的粒径值随充电电压的增加而下降且粒径均匀分散;在较高的充电电压下,单个雾滴动能损耗的降低和雾滴粒径分布的均匀性又促使其主流平均速度分布趋于均匀。在较大粒径时,随着平均速度的增加,非荷电雾滴不易粘附于植株标靶界面;与非荷电相比,小粒径荷电雾滴群又因具有较大动能而提高了抗漂移能力。 In order to study the spatial movement structure of electrostatic spray field and its effect on plants interface, the agricultural electrostatic spray field was tested and analyzed in various conditions using PDPA measurement system. According to the test results about the ratio of charge to mass and spray width, the droplet diameter distributions, main average velocity distributions and the relationship between average velocity and droplet diameter were analyzed systematically. The test results indicate that under the influences of mechanical force and electrostatic force, the higher the pressure of the nozzle is, the smaller the electrostatic droplet diameter is. And its distributions are more symmetrical. The droplet diameter reduces and disperses uniform along with the increase of charging voltage. At high voltage, the main average velocity of droplets tends to be uniform because the kinetic energy loss of single droplet decreases and the droplet diameter distribution is uniform. In larger droplet diameter, the uncharged droplets can hardly adhere to plants interface along with the average velocity increment. In comparison with uncharged droplets, the small charged droplets can increase ability against drift because of their larger kinetic energy.
作者 贾卫东 李萍萍 邱白晶 傅锡敏 薛新宇
机构地区 现代农业装备与技术省部共建教育部重点实验室/江苏省重点实验室 农业部南京农业机械化研究所
出处 《农业工程学报》 EI CAS CSCD 北大核心 2008年第2期17-21,共5页 Transactions of the Chinese Society of Agricultural Engineering
基金 中国博士后科学基金资助项目(20070411023) 江苏省博士后科研资助计划项目(0602011B) 国家科技支撑计划项目(2006BAD28B05)
关键词 静电喷雾 粒径 雾滴速度 PDPA electrostatic sprays droplet diameter droplet velocity PDPA
分类号 TQ511.1 [化学工程]
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参考文献13

  • 1刘秀娟,周宏平,郑加强.农药雾滴飘移控制技术研究进展[J].农业工程学报,2005,21(1):186-190. 被引量:70
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农业工程学报
2008年 第2期

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