| 基于驻波与ZigBee实时监测雾滴蒸发系统设计与试验 |
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| 引用本文: | 吴亚垒,祁力钧,张亚,Elizabeth Musiu,李帅,程浈浈,程一帆.基于驻波与ZigBee实时监测雾滴蒸发系统设计与试验[J].农业工程学报,2017,33(17):128-135. |
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| 作者姓名: | 吴亚垒 祁力钧 张亚 Elizabeth Musiu 李帅 程浈浈 程一帆 |
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| 作者单位: | 1. 中国农业大学工学院,北京,100083;2. 中国农业大学信息与电气工程学院,北京,100083;3. 华北电力大学能源动力与机械工程学院,保定,071051 |
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| 基金项目: | 科技部国家重点研发计划项目"地面与航空高工效施药技术及智能化装备"(2016YFD0200700);科技部国家重点研发计划项目"现代果园智能化精细生产管理技术装备研发"(2017YFD0701400) |
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| 摘 要: | 雾滴在叶面上蒸发时间长短,会改变叶面对农药的吸收效率.为了阐述药液在叶面的蒸发情况,该文设计了基于驻波与Zig Bee无线传输的雾滴蒸发实时监测装置.该装置以STM32为核心搭建Zig Bee网络,雾滴采集传感器信号由RS232串口传至基于Lab View2014设计的远程终端,并通过波形图实时在线监测雾滴蒸发状况.试验证明该装置能够准确测量药液在叶面的蒸发散失量并显示雾滴面积铺展的波动曲线,较图像处理方法误差小,易操作,更具实用性.试验还表明:1)蒸发时间与粒径大小呈正相关,随粒径增大而增长,但当粒径超过242.3μm时,蒸发时间随粒径增大而增长的趋势更为明显.2)蒸发时间与面积铺展率呈负相关,随面积铺展率的变大而减少.当有机硅体积分数由0.025%增到0.050%时,雾滴面积铺展率呈变大趋势,但当由0.050%增到0.100%时,雾滴铺展率增长幅度相对缩小.3)该装置不仅能够实现远程检测,避免接触药液,而且实时分析雾滴在叶面的蒸发时间与面积铺展率,合理选择有机硅体积分数与雾滴粒径,有助于改善叶面对药液的吸收效率.
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| 关 键 词: | 设计 计算机仿真 喷雾 ZigBee无线传输 驻波率原理 有机硅助剂 铺展与蒸发 |
| 收稿时间: | 2017/4/20 0:00:00 |
| 修稿时间: | 2017/8/28 0:00:00 |
Design and test of real-time monitoring of droplet evaporation system based on standing wave and ZigBee |
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| Wu Yalei,Qi Lijun,Zhang Y,Elizabeth Musiu,Li Shuai,Cheng Zhenzhen and Cheng Yifan.Design and test of real-time monitoring of droplet evaporation system based on standing wave and ZigBee[J].Transactions of the Chinese Society of Agricultural Engineering,2017,33(17):128-135. |
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| Authors: | Wu Yalei Qi Lijun Zhang Y Elizabeth Musiu Li Shuai Cheng Zhenzhen and Cheng Yifan |
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| Institution: | 1. College of Engineering, China Agricultural University, Beijing 100083, China;,1. College of Engineering, China Agricultural University, Beijing 100083, China;,2. College of Information and Electrical Engineering, China Agricultural University, Beijing 100083, China;,1. College of Engineering, China Agricultural University, Beijing 100083, China; North China Electric Power University Baoding 071051, China;,3. School of Energy Power and Mechanical Engineering;,1. College of Engineering, China Agricultural University, Beijing 100083, China; and 1. College of Engineering, China Agricultural University, Beijing 100083, China; |
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| Abstract: | The evaporation time of pesticide droplets on the leaf surface of plants is closely related to the absorption efficiency of pesticide droplets for plant leaves, which directly affects the efficiency of pesticide application. Pesticides can be divided into suction and touch type. For the suction of pesticides, after the droplets subsided to the foliage, as the extension of droplet evaporation time, the capillary pores of the leaves will absorb more pesticide particles, and pesticide pest control effect is better. For touch-type pesticide, the shorter the evaporation time of the droplets, the lower the probability of pesticide droplets falling from the blade surface by natural winds, and the effect of pesticides on pests and diseases is better. Therefore, the evaporation time of pesticide droplets on the surface of leaves, has a great impact on the pest control and pesticide utilization. In order to find out the influence factors of the evaporation of the droplet, the real-time monitoring system of the droplet evaporation based on the standing wave and Zig Bee wireless transmission was designed. The system uses STM32 as the core to build the Zig Bee network, and terminal nodes are connected with droplet collecting sensor. The data are transmitted to the network coordinator, then the coordinator transmits the data to the remote evaporation system designed by Lab View2014 through the RS232 serial port, and the system realizes the real-time monitoring of the droplet evaporation condition through the waveform. From the waveform, we know that from the droplet deposition to the completion of evaporation, the system can accurately receive the data of evaporation loss which are returned by the Zig Bee and show the fluctuation curve of the droplet area spread, and compared with the image processing method, its error is small, and it is easy to operate and more practical. The results show that: 1) The evaporation time of droplet is positively correlated with the particle size, which increases with the increase of droplet size. And when the particle size exceeds 242.3 μm, the trend is more obvious. 2) The droplet evaporation time is negatively correlated with the area spreading rate, and decreases with the increase of the droplet area spreading rate. When the volume fraction of organic silicon increases from 0.025% to 0.050%, the droplet area spread rate increases, but when it increases from 0.050% to 0.100%, the droplet area spread rate is relatively reduced. 3) The evaporation system can not only achieve remote detection, which avoids contact with liquid, but also perform real-time analysis of droplets evaporation time on the leaf surface and the area spread rate, and reasonably choose silicone volume fraction and droplet diameter, which helps to control the liquid absorption efficiency of leaf surface. The evaporation system can analyze the droplet evaporation in the blade surface evaporation time and the area spreading rate in real time. It provides a reference for the study of the evaporation time and spreading law of the droplets on the surface. |
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| Keywords: | design computer simulation spraying ZigBee wireless transmission standing wave principle active agent spreading and evaporation |
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