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高效节能型复式作业机械关键技术研究OA

Key technology research on high-efficiency energy-saving precision variable-rate fertilizer application rotary tillage and compaction combination machinery

中文摘要英文摘要

随着农业生产对高效节能要求的日益增长,本文提出精准变量施肥与旋耕镇压协同作业技术,对精准施肥控制技术、旋耕动力学优化、镇压保墒技术与多源土壤信息融合策略等进行优化设计.试验结果表明,优化后的机械在不同土壤条件下能有效实现精准施肥与高效旋耕,作业能效提升 15%以上,节能减排效果显著.研究结果为实现农业机械高效、节能和精准作业提供理论依据,为绿色农业发展和智能农业装备的应用奠定技术基础.

With the growing demand for high efficiency and energy conservation in agricultural production,this paper proposes a synergistic operation technology combining precision variable-rate fertilization with rotary tillage and packer compaction.It involves optimized designs for precision fertilization control technology,rotary tillage dynamics optimiza-tion,moisture-conserving compaction techniques,and multi-source soil information fusion strategies.Experimental results demonstrate that the optimized machinery effectively achieves precision fertilization and efficient rotary tillage un-der various soil conditions,with operational energy efficiency improved by over 15%and significant energy-saving and emission-reduction effects.This research provides a theoretical basis for achieving efficient,energy-saving,and pre-cision operations in agricultural machinery,laying a technological foundation for green agricultural development and the application of intelligent agricultural equipment.

王云德;刘孜文;张克盛;巨江澜

甘肃畜牧工程职业技术学院,甘肃 武威 733006甘肃畜牧工程职业技术学院,甘肃 武威 733006甘肃畜牧工程职业技术学院,甘肃 武威 733006甘肃畜牧工程职业技术学院,甘肃 武威 733006

农业科技

精准变量施肥旋耕动力学镇压保墒节能减排智能农业

precision variable-rate fertilizationrotary tillage dynamicssoil compaction for moisture retentionenergy conservation and emission reductionsmart agriculture

《农机使用与维修》 2026 (3)

37-40,4

甘肃省2026年教育厅高校教师创新基金项目(2026B-425)

10.14031/j.cnki.njwx.2026.03.007

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