基于人工果园试验台的无人机喷雾器药剂喷雾漂移测量方法与实验

Q2 Agricultural and Biological Sciences 农业工程学报 Pub Date : 2020-01-01 DOI:10.11975/J.ISSN.1002-6819.2020.13.007
Wang Changling, He Xiongkui, Zeng Aijun, A. Herbst, Supakorn Wongsuk, Qiao Baiyu, Zhao Cheng, Yuan Shankui, Zhong Ling, V. Overbeck, J. Bonds, Yang Yi, Zhou Guoqiang, Wang Xuan, G. Wanlin
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引用次数: 9

摘要

近年来,利用无人机(UAV)喷雾器进行低空小批量植保作业,具有高效、省力、高安全性、高地形适应性、高灵活性、节水、省药、高智能化等优点,在国内发展迅速。随着无人机在大田作物上的应用技术日益成熟,果园空中喷洒作业前景广阔,方有升势,但由于无人机在坡地果园作业高度高、喷雾液滴细,出现了无人机喷雾漂移的高风险,凸显了研究无人机果树化学品施用喷雾漂移特性的必要性。因此,本研究在前人研究的基础上,提出了一种新型的用于无人机在果园化学品应用的喷雾漂移测量方法,设计并搭建了一个果园人工试验台(葡萄园)和3个机载漂移架收集器,并首次使用一套现场漂移试验台,与地面漂移收集器和冠层沉积收集器一起收集不同顺风距离的空中喷雾漂移液滴。初步采用无人机喷雾的机载漂移指数(ADX)进行定量分析,比较不同型号无人机和不同运行参数下的喷雾漂移特性。制备浓度为0.1%的荧光示踪剂吡嗪水溶液作为喷雾液。采用常规空心锥喷嘴“TR 80-0067”和空气诱导防漂移喷嘴“IDK 120-015”,对4种典型植保无人机(1架单旋翼油动力直升机、1架6旋翼电机无人机和2种8旋翼电机无人机)在人工葡萄园进行了试验,获得并分析了冠层沉积分布、地面沉积物漂移、近地漂移和空中漂移的结果。并对不同的喷雾漂移采样器进行了评价和比较。结果表明:在名义侧风速为2.4 ~ 3.6 m/s、温度为29.8 ~ 34.3℃、相对湿度为10.7% ~ 30.6%的环境条件下,在飞行高度为1.5 m(距地面3.5 m)、飞行速度为2.0 m/s的条件下,空气诱导喷管IDK可显著降低无人机顺风喷雾漂移水平,优化沉降分布均匀性,提高化学品有效利用率;4种无人机的漂移特性无显著差异,旋翼下洗气流与外部风共同作用产生的涡是影响喷雾漂移的重要因素;葡萄园内无人机空中喷洒作业缓冲区应设置至少15米;冠层沉降率(p0)越低,平均平均漂移率(AADR)和90%累积漂移距离(p0)越大,ADX值(p0)越大,喷淋漂移风险越高;采样器及其评价指标均能有效评价顺风漂移特征;无人机喷雾漂移率β深度%与顺风距离x的关系用指数函数描述。研究结果有望为果园专用无人机喷洒技术的研发、无人机果园作业喷雾漂移现场测量方法标准的制定、果园空中应用工作参数的选择提供参考和数据支持。
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Measuring method and experiment on spray drift of chemicals applied by UAV sprayer based on an artificial orchard test bench
In recent years, low-altitude and low-volume plant protection operations using unmanned aerial vehicle (UAV) sprayer developed rapidly in China with the advantages of high efficiency, labour saving, high safety, high terrain adaptability, high flexibility, water and chemicals saving, and high intelligence. With the UAV application technology in field crops is becoming more and more mature, aerial spraying operations in orchards are promising and in the ascendant, but a high risk of UAV spray drift is appearing due to high working height and fine droplets sprayed in slope orchards, highlighting the necessity of the study on the spray drift characteristics of UAV chemicals application for fruit trees. Therefore, based on previous research, a novel type of measuring method of spray drift for UAV chemicals application in orchard was proposed in this study and an artificial orchard test stand (vineyard) and 3 airborne drift frame collectors were designed and built, and a set of field drift test bench was firstly used to collect aerial spray drift droplets at different downwind distances, together with ground drift collectors and canopy deposition collectors. An airborne drift index (ADX) of UAV’s spray was initially applied for quantitative analysis to compare spray drift characteristics of different models of unmanned aircrafts and variable operation parameters. Fluorescence tracer Pyranine water solution was prepared at the concentration of 0.1% as the spray liquid. Four typical types of plant protection UAV (a single-rotor oil-powered helicopter, a 6-rotor motor drone and two models of 8-rotor motor drones) equipped with conventional hollow cone nozzle ‘TR 80-0067’ and air-induction anti-drift nozzle ‘IDK 120-015’were tested in the artificial vineyard, and results of canopy deposition distribution, ground sediment drift, near-ground drift, and airborne drift were obtained and analysed, and different sampling collectors for spray drift were evaluated and compared. The results showed that: Under the environmental conditions that the nominal crosswind speed was 2.4-3.6 m/s, the temperature was 29.8-34.3 ℃ and relative humidity was 10.7%-30.6%, at the flight height of 1.5 m (3.5 m from the ground) and the speed of 2.0 m/s the air-induction nozzle IDK can significantly reduce the level of downwind spray drift of UAV, optimize the uniformity of deposition distribution and increase the effective utilization rate of chemicals; There was no significant difference in the drift characteristics of the 4 types of unmanned aircraft, and the vortex generated by the combination of the rotor’s downwash airflow and the external wind was an important factor on spray drift; Buffer zone of UAV aerial spraying operation in vineyards should be set at at least 15 m; The lower the canopy deposition rate (P 0), the larger the average average drift rate (AADR) and 90% cumulative drift distancex90% of the field drift test bench (P 0), the greater the ADX value (P 0) all indicated the higher spray drift risk, respectively; Both these sampling collectors and their evaluation index could assess the downwind drift characteristics effectively; the relationship between the UAV spray drift rate βdep% and the downwind distance x was described by the exponential function. The results of this study are expected to provide references and data supports for the R&D of UAV dedicated for orchard spraying, the formulation of standards on spray drift field measuring method for UAV orchard operations and the selection of aerial application working parameters in orchards.
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来源期刊
农业工程学报
农业工程学报 Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
4.10
自引率
0.00%
发文量
19555
期刊介绍: TCSAE, the "Transactions of the Chinese Society of Agricultural Engineering," serves as a platform to introduce the latest scientific achievements and developing trends primarily in the field of Agricultural Engineering (AE) in China and, to some extent, from abroad. It encompasses eight disciplines, including Comprehensive Research, Key Technology, Soil and Water Engineering, Agricultural Equipment Engineering and Mechanization, Agricultural Aviation Engineering, Agricultural Information and Electrical Technologies, Agricultural Bioenvironmental and Energy Engineering, Land Consolidation and Rehabilitation Engineering, and Agricultural Produce Processing Engineering.
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