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青岛农业大学王方艳教授等:基于DEM-CFD的胡萝卜导种系统关键参数优化

2026-05-02 21:08:39

孙悦¹，张良龙^1,2，杨帆¹，王方艳^1*，江景涛²

(1. 青岛农业大学机电工程学院，青岛266109，山东，中国；

2. 山东省主要农作物机械化生产装备协同创新中心，青岛266109，山东，中国)

摘要：为提高胡萝卜播种过程中的导种稳定性和排种均匀性，探讨导种管结构对播种质量的影响，该研究设计了一种正压气流辅助的摆线导种系统。通过对种子在导种系统中的碰撞位置、导种过程任一位置以及投种位置建立运动学模型，得到了影响种子末速度的关键参数。结合DEM-CFD耦合仿真，分析导种管不同结构参数和工作参数对种子运动轨迹和气流场的影响。

借助三因素五水平正交试验，探究各因素对各指标的影响趋势，当进口气流速度为0.077 m/s、气流支管倾斜角度为45°、种子初速度为0.1 m/s时导种均匀性和稳定性最好且导种时间基本相同，实现了等时导种。此时，合格指数为94.1%，变异系数为3.2%。在相同条件下进行的台架试验结果标明实际试验合格率降低了0.07%，变异系数增加了1.875%，与仿真结果相比误差均在合理范围内。研究结果提高了胡萝卜播种作业时导种系统的稳定性和可靠性，满足精量化播种的要求。

关键词：胡萝卜；导种过程；种子运动分析；气流辅助；DEM-CFD

DOI: 10.25165/j.ijabe.20251806.9763

引用信息: Sun Y, Zhang L L, Yang F, Wang F Y, Jiang J T. Optimization of the key parameters in the carrot seed guiding system using DEM-CFD analysis. Int J Agric & Biol Eng, 2025; 18(6): 112–121.

Optimization of the key parameters in the carrot seed guiding system using DEM-CFD analysis

Yue Sun¹, Lianglong Zhang^1,2, Fan Yang¹, Fangyan Wang^1*, Jingtao Jiang²

(1. College of Mechanical and Electrical Engineering, Qingdao Agricultural University, Qingdao 266109, China;

2. Collaborative Innovation Center for Shandong Main Crop Production Equipment and Mechanization, Qingdao 266109, China)

Abstract: The objective of this research was to enhance the stability and consistency of seed distribution during carrot planting. The impact of the seed guide tube’s structure on seeding quality was examined, leading to the design of a cycloidal seed guide system augmented by positive pressure airflow. By conducting kinematic modeling of the collision position of the seeds within the seed guiding system, as well as considering the seed guiding process and the seed drop position, the significant parameters influencing the final velocity of the seeds were determined. Employing a coupled Discrete Element Method-Computational Fluid Dynamics (DEM-CFD) simulation, the effects of different structural and operating parameters of the seed guide tube on the seed trajectory and airflow field were analyzed. A three-factor five-level orthogonal test was then utilized to examine the influence of each factor on each index, with the optimal conditions identified as an inlet airflow velocity of 0.077 m/s, a 45° tilt angle for the airflow branch tube, and a seed initial velocity of 0.1 m/s. Under these parameters, the qualification index was recorded as 94.1%, with a coefficient of variation of 3.2%. Bench testing conducted under the same conditions showed a decrease of 0.07% in the qualification index, and an increase of 1.875% in the coefficient of variation, with errors relative to the simulation results within acceptable bounds. These findings enhance the stability and reliability of the seed guiding system during carrot sowing operations, aligning with the demands of precision sowing.

Keywords: carrot, seed guiding process, seed motion analysis, air assisted, DEM-CFD

DOI: 10.25165/j.ijabe.20251806.9763

Citation:Sun Y, Zhang L L, Yang F, Wang F Y, Jiang J T. Optimization of the key parameters in the carrot seed guiding system using DEM-CFD analysis. Int J Agric & Biol Eng, 2025; 18(6): 112–121.

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