Research Progress on Variable-Rate Spraying Technology in Orchards

天蓬 喷雾器 环境科学 体积热力学 激光雷达 体积流量 遥感 环境工程 工程类 地理 机械工程 量子力学 物理 考古
作者
Chenchen Gu,Xiu Wang,Xiaole Wang,Fuzeng Yang,Changyuan Zhai
出处
期刊:Applied Engineering in Agriculture [American Society of Agricultural and Biological Engineers]
卷期号:36 (6): 927-942 被引量:25
标识
DOI:10.13031/aea.14201
摘要

Highlights Review the research status of variable-rate spraying technology and point out the direction for the future research Discussed the advantages and disadvantages of different techniques to detect canopy volume and canopy biomass The air speed and volume adjustment need to be controlled based on the canopy detection system Abstract . Variable-rate pesticide application in orchards aims to solve the problems of low pesticide utilization rates and serious environmental pollution in traditional pesticide applications. In this article, we have reviewed the research status of the technology to point out the direction for future research. Orchard tree canopy volume detection, biomass detection, and variable-rate spraying control methods were systematically summarized and analyzed. The advantages and disadvantages of different sensing techniques for detecting canopy volume and canopy biomass have been discussed. Canopy volume is mainly detected by ultrasonic sensors and light detection and ranging (LiDAR) sensors. Canopy biomass detection can be realized by manual, ultrasonic sensors, LiDAR sensors, and other sensors. Variable-rate spraying control is in two parts: liquid flow rate regulation and air supply rate regulation. In order to determine the volume of the liquid variable-spray, the variable air supply of air-assisted sprayer has been proven to be important. Liquid flow regulation can be achieved by pipeline pressure control and nozzle flow rate control together with a series of algorithms. The direction of air supply is easy to determine, but the air speed and volume adjustment need to be controlled based on the canopy detection system. Finally, future research on variable-rate spraying technology should focus on: 1) the application of advanced sensing technology for accurate and real-time measurement of canopy volume and biomass, 2) accurate control algorithms for liquid flow rate regulation and methods for airflow regulation, and 3) design of variable-rate sprayers with both liquid and air regulations, and the establishment of different types of variable-rate models for different sprayer types. Keywords: Air supply rate regulation, Canopy biomass detection, Canopy volume detection, Liquid flow rate regulation, Orchard, Variable-rate spraying.

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