Study on separation of the tuber-soil binary mixture based on vibration and airflow coupling

• Published in: Biosystems engineering Vol. 239; pp. 13 - 24
• Main Authors: Long, Sifang, Wei, Wenbo, Li, Dongfang, Kang, Shuo, Wang, Jun
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.03.2024
• Subjects: air flow; CFD-DEM; Corydalis yanhusuo; data visualization; domain; industry; mathematical models; porosity; root crops; Screening; Separation; soil; Tuber-soil binary mixture; vibration; CFD-DEM; Screening; Separation; Tuber-soil binary mixture
• ISSN: 1537-5110; 1537-5129
• DOI: 10.1016/j.biosystemseng.2024.02.001

One of the critical steps in the root crop harvesting process is screening tubers from soil. However, low screening efficiency seriously hinders the rapid development of the root crop industry. Clarifying the tuber-soil mixture separation behaviour and establishing the connection between vibration, airflow parameters, and separation index (SI) is critical to increasing screening efficiency. Corydalis Yanhusuo is employed as the research object, and the three-dimensional scale distribution and mechanical properties of tubers and soil particles are first counted. Then, a vibration and airflow coupling separation model of the tuber-soil mixture was constructed using the computational fluid dynamics and discrete element method (CFD-DEM) coupling method, and the physical parameters in the model were calibrated. A new method for calculating the SI is proposed. The relationship between vibration amplitude, frequency, airflow velocity, SI, and separation velocity was analysed. Simultaneously, the porosity change in the particle group during the separation process was investigated, and the relationship between vibration, frequency, and airflow velocity on the separation dynamics of binary mixtures was revealed by utilising data visualisation and frequency domain analysis. The platform for the vibration and airflow separation physical test was built. The separation behaviour of mixed particles in various parameters was discussed, as was the feasibility and accuracy of the numerical simulation results. The results of this study can provide theoretical support for the efficient screening of tuber-soil mixtures and further promote the rapid development of the root industry. [Display omitted] •The separation mechanism of binary mixtures with similar size distribution.•A new calculation method for the separation index.•Analysis of frequency domain of porosity change of particle group.•The quadratic interactive model of separation velocity.