Marta Wołosiewicz-Głąb scite author profile

Abstract:Comparison of dry and wet grinding process in an electromagnetic mill is presented in this paper. The research was conducted in a batch copper ore grinding. Batch mode allows for precise parametrization and constant repetitive conditions of the experiments. The following key aspects were tested: processing time, feed size, size of the grinding media, mass of the material and graining media, and density of the pulp. The particles size distribution of the product samples was analyzed in the laboratory after each experiment. The paper discusses the experimental results as well as the concept of dry and wet grinding and classification circuits for the electromagnetic mill. The main points of the discussion are the size reduction effectiveness and power consumption of the entire system.

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Design of the electromagnetic mill and the air stream ratio model.

Wołosiewicz-Głąb

Foszcz

Ogonowski

2017

IFAC-PapersOnLine

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Assessment of classification with variable air flow for inertial classifier in dry grinding circuit with electromagnetic mill using partition curves

Wołosiewicz-Głąb¹,

Ogonowski²,

Foszcz³

et al. 2018

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Grinding Kinetics Adjustment of Copper Ore Grinding in an Innovative Electromagnetic Mill

et al. 2018

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Abstract:The paper presents a study on the effectiveness of the grinding process in an electromagnetic mill devoted to ultrafine grinding, and the influence of processing parameters on the mill's performance. The research was focused on the optimization of the duration of the grinding process and selection of the grinding media type in order to obtain the highest relative increase of the selected particle size fraction. Copper ore with a particle size between 0-1 mm was used in the experiments. A model was created that determines the relationship between the processing time and efficiency of the grinding, and can be used for the optimization of the process. A comparison of the relative growth of particle size fractions in milling products was performed. The obtained milling efficiency results measured by the growth of the analyzed particle size fraction in the milling product confirmed that the best grinding media set includes a grinding medium with a diameter of 1 mm and a length of 10 mm.

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