DESIGN AND TEST OF QUANTITATIVE FERTILIZER FEEDING DEVICE FOR POINT-APPLIED FERTILIZATION DEVICE

IF 0.6 Q4 AGRICULTURAL ENGINEERING
Xin Du, Changqing Liu, Xuhui Li, Wei Zhu, Qixin Sun, Shufa Chen
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引用次数: 0

Abstract

To ensure accurate and consistent fertilizer application, the key component of the fertilizer feeding device, the grooved wheel, was designed and theoretically analyzed, and the number of grooves of the fertilizer wheel was determined to be 9. The effects of grooves inclination angle, grooves length and operating speed on the fertilizer feeding performance were analyzed by single-factor tests, and the appropriate range of factors was determined. The effect of the interaction between groove length and operating speed on the amount of fertilizer discharged from the groove was investigated by a full factorial test, and a quadratic regression was fitted to the test results to establish the regression equations of groove length and operating speed on the average fertilizer application per groove and the coefficient of variation of the average fertilizer application per groove, which can be used to predict the average fertilizer application per groove and the coefficient of variation of the average fertilizer application per groove to solve for groove length and operating speed.
点施式施肥装置定量施肥装置的设计与试验
为保证施肥准确一致,对施肥装置的关键部件槽轮进行了设计和理论分析,确定了施肥轮槽数为9。通过单因素试验,分析了槽倾角、槽长和转速对施肥性能的影响,确定了各因素的适宜范围。采用全析因试验研究了槽长和运转速度交互作用对槽内肥料排泄量的影响,并对试验结果进行二次回归拟合,建立了槽长和运转速度对槽内平均施肥量和槽内平均施肥量变异系数的回归方程。可用于预测每沟平均施肥量和每沟平均施肥量的变异系数,从而求解槽长和运行速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
INMATEH-Agricultural Engineering
INMATEH-Agricultural Engineering AGRICULTURAL ENGINEERING-
CiteScore
1.30
自引率
57.10%
发文量
98
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