Comparison of energy efficiency between ball mills and stirred mills in coarse grinding

Fengnian Shi; Rob Morrison; Andrew Cervellin

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Comparison of energy efficiency between ball mills and stirred mills in coarse grinding

机译：粗磨中球磨机和搅拌机的能效比较

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Stirred mills are primarily used for fine and ultra-fine grinding. They dominate these grinding applications because greater stress intensity can be delivered in stirred mills and they can achieve better energy efficiency than ball mills in fine and ultra-fine grinding. Investigations were conducted on whether the greater performance of stirred mills over ball mills in fine grinding can be extended to coarse grinding applications. Four different laboratory ball mills and stirred mills have been tested to grind seven ore samples with feed sizes ranging from 3.35 mm to 150 mu m. A case study on full scale operations of a 2.6 MW IsaMill replacing the existing 4 MW regrind ball mill at Kumtor Gold Mine in Kyrgyzstan is also included. This paper summarizes the major findings from these investigations.

机译：搅拌式研磨机主要用于精磨和超精磨。它们在这些磨削应用中占主导地位，因为在搅拌磨中可以提供更大的应力强度，并且在细磨和超细磨中比球磨机可以实现更高的能源效率。进行了有关在细磨中搅拌磨比球磨机性能更高的研究是否可以扩展到粗磨应用。已经测试了四个不同的实验室球磨机和搅拌磨机，以研磨七个矿石样品，进料尺寸为3.35毫米至150微米。还包括了一个有关2.6兆瓦IsaMill全面运行的案例研究，该设备将替代吉尔吉斯斯坦Kumtor金矿中现有的4 MW再生磨球机。本文总结了这些调查的主要发现。

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《Minerals Engineering》 |2009年第8期|共8页
作者
Fengnian Shi; Rob Morrison; Andrew Cervellin;
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正文语种 eng
中图分类矿业工程;
关键词
Comminution; Grinding;

机译：粉碎;研磨;

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1. Comparison of energy efficiency between ball mills and stirred mills in coarse grinding [J] . Fengnian Shi, Rob Morrison, Andrew Cervellin Minerals Engineering . 2009,第7a8期

机译：粗磨中球磨机和搅拌机的能效比较
2. Ultra-fine grinding of inorganic powders by stirred ball mill: Effect of process parameters on the particle size distribution of ground products and grinding energy efficiency [J] . Heekyu Choi, Woong Lee, JungEun Lee, Metals and Materials International . 2007,第4期

机译：搅拌球磨机对无机粉末的超细研磨：工艺参数对研磨产品的粒度分布和研磨能效的影响
3. Ultra-fine Grinding of Inorganic Powders by Stirred Ball Mill: Effect of Process Parameters on the Particle Size Distribution of Ground Products and Grinding Energy Efficiency [J] . Heekyu Choi, Woong Lee, JungEun Lee Metals and Materials International . 2007,第4期

机译：搅拌球磨机对无机粉末的超细研磨：工艺参数对研磨产物粒度分布和研磨能效的影响
4. MAXXMILL - A FIELD REPORT ABOUT THE APPLICATION OF A STIRRED BALL MILL WITH INCREASED ECONOMIC EFFICIENCY FOR GRINDING OF MINERALS [C] . J. Sachweh XXI International Mineral Processing Congress . 2000

机译：MAXXMILL-关于提高经济效益的搅拌球磨机在矿物质磨削中的应用的现场报告
5. Modeling and optimization of fine grinding of minerals in high-pressure roll mill - ball mill hybrid comminution circuits. [D] . De, Asoke Kumar. 1995

机译：高压辊磨机-球磨机混合粉碎回路中矿物精磨的建模和优化。
6. Combination of Dry Milling and Separation Processes with Anaerobic Digestion of Olive Mill Solid Waste: Methane Production and Energy Efficiency [O] . Doha Elalami, Hélène Carrère, Karima Abdelouahdi, 2018

机译：干磨和分离工艺与橄榄磨固体废物的厌氧消化相结合：甲烷生产和能源效率
7. A Quantitative Study of Grinding Characteristics on Particle Size and Grinding Consumption Energy by Stirred Ball Mill [O] . Hee-Kyu Choi, Lin Wang 2007

机译：搅拌球磨机研磨特性的定量研究
8. Cost optimization of stirred ball mill grinding [R] . 1991

机译：搅拌球磨机磨削成本优化

Comparison of energy efficiency between ball mills and stirred mills in coarse grinding

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