摘要
为探究Teejet雾化喷头工作参数对单喷头及组合喷洒水力性能的影响,进而得到雾化喷头的较优配置工况,该研究通过试验分析、理论计算和综合评价相结合的方法,探究等效直径、安装高度、工作压力对雾化喷头水力性能的影响规律;定量分析得到安装高度、工作压力、等效直径、组合间距与组合均匀性系数之间的关系;构建综合评价指标体系,采用主成分分析法确定雾化喷头最优配置方案。结果表明:1)随着工作压力的升高,喷头喷灌强度峰值逐渐增长;随着安装高度的升高,喷头的喷洒范围增大,水量分布更加均匀;相同安装高度和工作压力条件下,喷嘴的喷灌强度峰值与等效直径呈正比。2)3种等效直径喷头组合均匀性系数随工作压力和组合间距的变化趋势基本一致,组合间距对组合均匀系数的影响最为明显,随着喷头组合间距的增加,喷头的组合均匀系数大多呈先减小后增加再减小趋势。3)雾化喷头最优配置工况为喷嘴等效直径1.81 mm、安装高度0.6 m、组合间距0.2 m、工作压力400 kPa。该研究可为适用于温室的移动式微喷灌机组的参数配置提供依据,并为该机组在全国范围内的推广应用提供理论支撑。
Teejet atomizing nozzle is one of the most important components in the mobile micro-sprinkler system for the greenhouse. Three kinds of fan-shaped nozzle structures with different diameters can fully meet the irrigation requirements to adjust the farmland microclimate for better crop growth stress in the various scenes. Therefore, this sprinkler can be expected for greenhouse irrigation, due to its wide application range, high safety, and long service life. However, there is no accurate reference to the parameters of sprinklers, such as hydraulic performance and operating conditions. The purpose of this study is to obtain a better configuration condition of atomizing nozzle. The hydraulic performances of the single and combined nozzle were optimized on the installation height, equivalent diameter, working pressure, and combined spacing of the Teejet atomizing nozzle. A water distribution test was carried out to verify the hydraulic performance parameters of atomizing nozzle under different working conditions. The experimental analysis, theoretical calculation, and comprehensive evaluation were then combined to clarify the influence of the equivalent diameter, installation height, and working pressure on the hydraulic performance of atomizing nozzle. The quantitative relationship was obtained between the installation height, working pressure,equivalent diameter, combination spacing and uniformity coefficient. A comprehensive evaluation index system was constructed using technical and economic indicators. Finally, the principal component analysis was implemented to determine the optimal configuration scheme for atomizing nozzles. The results show that: 1) The velocity of water flow increased significantly in the pipeline with the increase of working pressure, while the peak value of sprinkler irrigation intensity gradually increased to widen the spraying range. The slow water diffusion of a single nozzle was observed for the uniform water distribution, as the installation height increased. As such, the wider sprayi
作者
高飞
张锐
朱德兰
郑长娟
刘一川
张晓敏
赵航
Gao Fei;Zhang Rui;Zhu Delan;Zheng Changjuan;Liu Yichuan;Zhang Xiaomin;Zhao Hang(College of Water Resources and Architectural Engineering,Northwest A&F University,Yangling 712100,China;Institute of Water-saving Agriculture in Arid Areas of China,Northwest A&F University,Yangling 712100,China)
出处
《农业工程学报》
EI
CAS
CSCD
北大核心
2022年第22期280-286,共7页
Transactions of the Chinese Society of Agricultural Engineering
基金
国家重点研发计划项目(2021YFE0103000)
陕西省重点研发计划项目(2020ZDLNY01-01)
宁夏回族自治区重点研发计划项目(2022BBF02026)。
关键词
灌溉
温室
雾化喷头
水力性能
安装高度
工作压力
组合间距
组合均匀系数
irrigation
greenhouse
atomizing nozzle
hydraulic performance
installation height
working pressure
combination spacing
combination uniformity coefficient
