微元轨迹法振动分选废塑料薄膜的研究

Zongsu Zhang, Qishuo Zhang, Wenjie Mao, Xianlong Chu, Yixing Meng, Qun He, Neng Wang, Xianhai Yang
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引用次数: 0

摘要

对废塑料薄膜进行分类,可以有效地保护环境,提高能源效率,有效地提高其回收利用价值。本文提出了一种求解废塑料薄膜振动分选轨迹的新方法——微元轨迹法。建立了薄膜振动的数学模型,分析了薄膜的受力,得到了薄膜的运动轨迹。搭建实验平台,获得不同薄膜振动分选的位移差值。采用ADAMS软件进行仿真实验。通过实验结果和仿真结果的对比,验证了算法的正确性。对比结果表明:与实验结果相比,不同薄膜的分选位移差的平均错误率为3.17%;与仿真实验相比,利用单膜计算运动轨迹的平均错误率为5%,误差较小。该算法计算量小,计算速度快。为废塑料薄膜振动分选技术的后续研究提供了一种高效可靠的计算方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study on vibration sorting of waste plastic film by micro-element trajectory method
The sorting of waste plastic film can effectively protect the environment, improve energy efficiency, and effectively improve its recycling value. In this paper, a new method for solving the vibration sorting trajectory of waste plastic film, micro-element trajectory method, was proposed. The mathematical model of the thin film vibration was established, the force of the thin film was analyzed, and the motion trajectory of the thin film was obtained. The experimental platform was built to obtain the displacement difference of different thin film vibration sorting. The simulation experiment was carried out by ADAMS. Compared with the experimental results and simulation results, the correctness of the algorithm was verified. The comparison results show that compared with the experimental results, the average error rate of the sorting displacement difference of different thin films is 3.17%; and compared with the simulation experiment, the average error rate of the motion trajectory calculated by using the single film is 5%, the error is small. The algorithm has small amount of calculation and fast calculation speed. It provides an efficient and reliable calculation method for the follow-up research of waste plastic film vibration sorting technology.
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