Investigation of the gas-solid two-phase motion in the cleaning device with imitating the pigeon feather sieve based on the CFD-DEM method

IF 5.3 1区农林科学 Q1 AGRICULTURAL ENGINEERING

Biosystems Engineering Pub Date : 2025-07-21 DOI:10.1016/j.biosystemseng.2025.104233

Xin Feng , Yunpeng Gao , Lijun Wang , Chunzhe Jiang , Wenyao Huang , Shuheng Wang

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Abstract

Screening is crucial in combine harvesters. To clean maize mixture at a high feed rate, a bionic sieve inspired by pigeon feather microstructure was designed. Using computational fluid dynamics (CFD)-discrete element method (DEM), results revealed the airflow above the bionic sieve increased, then decreased, then increased from front to rear, and was enhanced by 0.07, 0.06, and 0.1 m s⁻¹ at the front, middle, and tail compared to the plane sieve. Single-factor tests evaluated the influence of height of sieve shaft, velocity of inlet airflow, and angle of inlet airflow on process indices of stratification degree and separation degree of maize grains and impurities, and final indices of cleaning percentage of maize grains (CPMG), loss percentage of maize grains (LPMG) and velocity ratio of grains penetrating sieve holes (VRGPSH). Results showed parameters of sieve structure and inlet airflow significantly affected final indices (P < 0.05), except angle of inlet airflow on VRGPSH (P = 0.06179). The separation degree of maize grains and impurities showed strong positive correlations with CPMG and LPMG, but only showed medium positive correlations with VRGPSH. The stratification degree of maize grains and impurities showed weak positive correlations with CPMG, weak negative correlations with LPMG, and medium positive correlations with VRGPSH. At a high maize mixture feed rate of 7 kg s⁻¹, the bionic sieve improved CPMG by 2.02 % and reduced LPMG by 0.53 % compared to the plane sieve. This study proved the feasibility of using the bionic structure to optimise the cleaning device of separating large-fed mixtures.

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基于CFD-DEM方法的仿鸽羽筛清洗装置气固两相运动研究

筛选对联合收割机至关重要。为了对玉米混合料进行高进料率的净化，设计了一种以鸽子羽毛结构为灵感的仿生筛网。采用计算流体力学(CFD)-离散元法（DEM）分析结果表明，与平面筛网相比，仿生筛网上方气流从前到后先增大后减小，在前、中、尾分别增大0.07、0.06和0.1 m s−1。单因素试验评价了筛轴高度、进口气流速度和进口气流角度对玉米籽粒与杂质的分层度、分离度等过程指标，以及玉米籽粒净除率（CPMG）、玉米籽粒损失率（LPMG）和籽粒穿透筛孔速度比（VRGPSH）等最终指标的影响。结果表明：除进口气流角度对VRGPSH影响显著（P = 0.06179）外，筛网结构参数和进口气流参数对最终指标影响显著（P <； 0.05）。玉米籽粒与杂质分离度与CPMG、LPMG呈较强正相关，与VRGPSH呈中等正相关。玉米籽粒分层程度和杂质与CPMG呈弱正相关，与LPMG呈弱负相关，与VRGPSH呈中等正相关。在7 kg s−1的玉米混合投料量下，仿生筛比平面筛提高了2.02 %的CPMG，降低了0.53 %的LPMG。本研究证明了利用仿生结构优化大进料混合物分离清洗装置的可行性。

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来源期刊

Biosystems Engineering 农林科学-农业工程

CiteScore

10.60

自引率

7.80%

发文量

239

审稿时长

53 days

期刊介绍： Biosystems Engineering publishes research in engineering and the physical sciences that represent advances in understanding or modelling of the performance of biological systems for sustainable developments in land use and the environment, agriculture and amenity, bioproduction processes and the food chain. The subject matter of the journal reflects the wide range and interdisciplinary nature of research in engineering for biological systems.