A Novel Energy Saving Operation Strategy of Multiparameter Coupling Coordinated Speed Regulation for Crushing

IF 0.6 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
Enhua Luo, Wei Zhang, Rui-xin Zhang, Yu Liu, Xiaomin Liu, Changlong Wang
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引用次数: 0

Abstract

Received: 18 March 2020 Accepted: 3 June 2020 Energy saving is an important measure for the sustainable of opencast mining industry. However, the energy saving operation of crushing station is affected by vibration and collision in the process of open pit mining. This research aims to explore a novel strategy to reduce the high energy consumption of crushing station. Discrete element method (DEM), particle contact model and multiscale viscous particle model were used to analyse the operation process of crushing station. A multiparameter coupling coordinated speed regulation crushing strategy was proposed combined with the crusher model and simulation parameters. The practical application of this strategy in the crushing station of Shenbao energy open pit mine has been verified. The application results showed that compared with the manual operation control, the crushing efficiency of the crushing station is increased by 21.80%, the powder passing rate is reduced by 53.35%, and the operation energy saving of the crushing station is about 41.00%. The energy saving effect of multiparameter optimization is better than that of single parameter. This research provides a new theoretical basis for energy saving operation of crushing station in open pit mine.
破碎多参数耦合协调调速节能运行新策略
节能减排是实现露天采矿业可持续发展的重要举措。然而,露天开采过程中破碎站的节能运行受到振动和碰撞的影响。本研究旨在探索降低破碎站高能耗的新策略。采用离散元法、颗粒接触模型和多尺度粘性颗粒模型对破碎站的运行过程进行了分析。结合破碎机模型和仿真参数,提出了一种多参数耦合协调调速破碎策略。该策略在神宝能源露天矿破碎站的实际应用得到了验证。应用结果表明,与人工操作控制相比,破碎站的破碎效率提高了21.80%,粉料合格率降低了53.35%,破碎站运行节能约41.00%。多参数优化的节能效果优于单参数优化。该研究为露天矿破碎站节能运行提供了新的理论依据。
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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来源期刊
Annales De Chimie-science Des Materiaux
Annales De Chimie-science Des Materiaux 工程技术-材料科学:综合
CiteScore
1.70
自引率
25.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: The ACSM is concerning the cutting-edge innovations in solid material science. The journal covers a broad spectrum of scientific fields, ranging all the way from metallurgy, semiconductors, solid mineral compounds, organic macromolecular compounds to composite materials. The editorial board encourages the submission of original papers that deal with all aspects of material science, including but not limited to synthesis and processing, property characterization, reactivity and reaction kinetics, evolution in service, and recycling. The papers should provide new insights into solid materials and make a significant original contribution to knowledge.
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