基于EDEM的小型立式粉碎机粉碎刀具优化与研究
Optimization and Rse earch of Grindi ng Tool fo rS ma ll Vertical Mill Based on EDEM
邢志中 1张海东 1王孟 1陈腾 1郭小军 1翟超男1
作者信息
- 1. 云南农业大学机电工程学院,云南昆明650201
- 折叠
摘要
[目的]提高小型立式粉碎机的粉碎性能。[方法]对小型立式粉碎机、大豆进行实体测量,建立其EDEM模型,提出粉碎刀具的优化方案,以仿真时间1.01~1.10 s内颗粒的旋转动能均值、碰撞次数总和作为评价指标,对比优化前后的粉碎刀具性能,并重复3次仿真试验,验证优化的正确性。[结果]优化后粉碎机内颗粒的旋转动能均值、碰撞次数总和均大于原始粉碎机内颗粒,其颗粒旋转动能均值最大值为0.0077 J,碰撞次数总和最大值为738次。[结论]优化后粉碎刀具性能明显优于优化前粉碎刀具性能,该研究可为其他粉碎机粉碎刀具的改进提供理论参考。
Abstract
Objective] To improve the crushing performance of small vertical crusher .[ Method] Small vertical mill and soybean were physi-cally measured so as to establish EDEM model.The optimization scheme of tool grinding was proposed.With the mean of rotational kinetic en-ergy of 1.01-1.10 s particles and the collision number sum as the indexes, grinding tool performance was compared before and after optimiza-tion.Simulation experiment was carried out for three times;and the correctness of optimization was verified.[Result] After optimization, the mean of rotational kinetic energy of 1.01-1.10 s particles and the collision number sum were both greater than those of particles in the origi-nal mill.The mean maximum of particle rotational kinetic energy was 0.007 7 J; the maximum value of the sum of collision times reached 738.[Conclusion] After optimization, the performance of the grinding tool is obviously better than that of the former.This research provides theoretical references for the improvement of the grinding tool.
关键词
EDEM/粉碎机/刀具/优化Key words
EDEM/Pulverizer/Tool/Optimization引用本文复制引用
基金项目
云南农业大学博士科研启动基金()
云南农业大学学生科技创新创业行动(2016ZKX121)
出版年
2016
国家科技期刊平台
NSTL
维普
万方数据