平直旋转刀条耕阻力及能耗研究

IF 0.9 4区农林科学 Q3 AGRICULTURAL ENGINEERING

Engenharia Agricola Pub Date : 2023-06-26 DOI:10.1590/1809-4430-eng.agric.v43n2e20220127/2023

Yi-mei Yuan, Jiayi Wang, Xin Zhang, Shu-kai Zhao

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引用次数: 0

摘要

减少耕作阻力和降低能耗的问题已变得越来越重要。条带耕作对土壤保护和降低能耗具有积极的影响。分析了旋转叶片的耕作阻力成分及其与工作参数的关系，建立了耕作阻力与能量消耗(功率和燃料消耗)的数学关系。我们将耕作阻力归纳为三个部分:空气阻力、横向旋转摩擦阻力(分为水平和垂直阻力)和剪切力。通过理论分析和耦合模拟试验11 (DEM-CFD)，得到空气阻力、侧向旋转摩擦力和剪切力分别为0.0883 N、97.21 N和893.496 N，分别占耕作阻力的0.01%、9.81%和90.18%。同时，我们发现水平阻力随角速度的增加而线性减小，而垂直阻力则相反。水平和垂直阻力随接触面积的增加而线性增加。剪切力随角速度的增加而显著增大。将田间试验中的油耗与耦合模拟中的耕作阻力和功耗形成对应点，建立耕作阻力、扭矩、功率和油耗之间的数学关系。

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STUDY ON TILLAGE RESISTANCE AND ENERGY CONSUMPTION OF A PLAIN STRAIGHT ROTARY BLADE FOR STRIP TILLAGE

The issue of reducing tillage resistance and lowering energy consumption has become increasingly relevant. Strip tillage has a positive impact on soil protection and energy consumption reduction. This study analysed the tillage resistance components of rotary blades and their relationship with operating parameters and developed a mathematical relationship between tillage resistance and energy consumption (power and fuel consumption). We summarised tillage resistance into three parts: air resistance, lateral rotational friction resistance (divided into horizontal and vertical resistance), and shear force. By theoretical analysis and coupled simulation tests 11 (DEM-CFD), we obtained an air resistance, lateral rotational friction, and shear force of 0.0883 N, 97.21 N, and 893.496 N, respectively, accounting for 0.01%, 9.81%, and 90.18% of tillage resistance. Meanwhile, we found that horizontal resistance decreased linearly with the increase of angular speed, which was the opposite of vertical resistance. Horizontal and vertical resistance increased linearly with the increase in contact area. Shear force increased significantly with angular speed. Fuel consumption in the field test and tillage resistance and power consumption in coupled simulation was formed to build a correspondence point, and a mathematical relationship between tillage resistance, torque, and power and fuel consumption was established.

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来源期刊

Engenharia Agricola AGRICULTURAL ENGINEERING-

CiteScore

1.90

自引率

20.00%

发文量

审稿时长

4-8 weeks

期刊介绍： A revista Engenharia Agrícola existe desde 1972 como o principal veículo editorial de caráter técnico-científico da SBEA - Associação Brasileira de Engenharia Agrícola. Publicar artigos científicos, artigos técnicos e revisões bibliográficas inéditos, fomentando a divulgação do conhecimento prático e científico na área de Engenharia Agrícola.