Analysis of the Screening Accuracy of a Linear Vibrating Screen with a Multi-layer Screen Mesh

Strojniški vestnik – Journal of Mechanical Engineering Pub Date : 2020-05-15 DOI:10.5545/sv-jme.2019.6523

Yan Hongwei, Lin Yajie, Y. Fei, Peng Fangxian, Yang Xiong, Hou Xiangrong

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引用次数: 5

Abstract

This paper investigates the screening characteristics of the multi-layer vibrating screens. A portable linear screen with a three-layer screen mesh and the vibrating screening experimental platform were designed and simulated. Based on the discrete element method (DEM), the influences of the motor excitation frequency, the pulverized coal mass flow rate, and the shape of the particles on the screening accuracy of each layer of the screen and the total energy contained in the particles were analysed. The simulation analysis found that, during the vibration screening process, with the increase of the frequency of motor excitation, the screening accuracy of each screen layers increased first and then decreased. The ratio of the sieving accuracy of the first screen and the third screen is reduced first and then increased. The energy contained in the particles gradually increases. With the increased pulverized coal mass flow rate, the screening accuracy of each layer gradually decreased, while the ratio of the screening accuracy of the first layer to that of the third layer gradually increased. The energy contained in the particles gradually decreases. Similarly, the increased percentage of non-spherical particles generated slightly decreased screening accuracy and an increased ratio of the screening accuracy of the first and third screens. The particles also contain much less energy than spherical particles do. A simulation was carried out on the vibrating screening experimental platform with screening materials such as soybeans and red beans. The experimental results matched the discrete element simulation. The screening accuracy was proved to be higher when the excitation frequency lay in 18 Hz to 20 Hz, and the particles mass flow rate stayed below 0.4 kg/s. This study demonstrated that changing the shape of particles is a practical way of managing real screening work. It also provided a theoretical basis and reference for the design and applications of multi-layer vibrating screens.

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多层筛网直线振动筛筛分精度分析

本文研究了多层振动筛的筛分特性。设计并仿真了一种三层筛网的便携式直线筛和振动筛实验平台。基于离散元法(DEM)，分析了电机激励频率、煤粉质量流量和颗粒形状对筛分各层筛分精度和颗粒总能量的影响。仿真分析发现，在振动筛分过程中，随着电机激励频率的增加，各筛层的筛分精度先增大后减小。第一筛与第三筛的筛分精度之比先减小后增大。粒子所含的能量逐渐增加。随着煤粉质量流量的增加，各层筛分精度逐渐降低，而第一层筛分精度与第三层筛分精度之比逐渐增大。粒子所含的能量逐渐减少。同样，非球形颗粒百分比的增加导致筛选精度略有下降，而第一和第三筛选的筛选精度比例有所增加。这种粒子所含的能量也比球形粒子少得多。以黄豆、红豆为筛分材料，在振动筛分实验台上进行了模拟试验。实验结果与离散元模拟结果吻合。结果表明，当激励频率为18 ~ 20 Hz，颗粒质量流率小于0.4 kg/s时，筛选精度较高。这项研究表明，改变颗粒的形状是一种管理实际筛选工作的实用方法。为多层振动筛的设计和应用提供了理论依据和参考。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Strojniški vestnik – Journal of Mechanical Engineering

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