On the analysis of fine wet grinding in a batch ball mill

The Chemical Engineering Journal and the Biochemical Engineering Journal Pub Date : 1996-09-01 DOI:10.1016/S0923-0467(96)03081-3

C. Frances , C. Laguérie , B. Mazzarotta , T. Veccia

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引用次数: 15

Abstract

The influence of the slurry density on the fine wet grinding performances of a batch ball mill was examined for an alumina hydrate feed. Irrespective of the operating conditions, the size reduction process proceeds fast in the first period of grinding (20 min); then its rate progressively reduces and after 1–2 h the size of the product approches a final asymptotic value. The initial grinding rate is higher and the final mean diameter smaller using quite diluted feeds (water content 50%–80%), which represent the optimal operating conditions. When the slurries are dense (20% water), the rate of the grinding process can be enhanced by adding a small amount (2–10 kg m⁻³) of a grinding aid (sodium metaphosphate), which improves the flowability of the suspension. The product size distributions can be adequately described using the Rosin—Rammler expression: an attempt was made to relate the characteristic size of the distribution to the time and to the water content.

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间歇式球磨机湿法细磨分析

以水合氧化铝为原料，研究了料浆密度对间歇式球磨机湿法细磨性能的影响。无论操作条件如何，在第一个磨矿阶段(20分钟)，尺寸减小过程进行得很快;然后其速率逐渐减小，1-2小时后，乘积的大小接近最终的渐近值。在相当稀释的进给量(含水量50% ~ 80%)下，初始磨矿率较高，最终平均直径较小，为最佳操作条件。当浆料较密(水含量为20%)时，加入少量(2-10 kg m−3)助磨剂(偏磷酸钠)可提高悬浮体的流动性，从而提高研磨过程的速率。产品尺寸分布可以用松香-拉姆勒表达式充分描述:试图将分布的特征尺寸与时间和含水量联系起来。

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The Chemical Engineering Journal and the Biochemical Engineering Journal

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