Role of Comminution as a Pretreatment of Physical Concentration in Resources Recycling

S. Owada
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引用次数: 1

Abstract

This paper demonstrates the importance of comminution for achieving compositional liberation in order to establish an effective solid-solid separation process, in especial, in the field of mineral processing and resources recycling. We have developed a unique liberation model in comminution process by introducing an index of “preferential breakage probability”, e 1 , at phase boundary to the Wiegel model, which is well known in the field of mineral processing. From the results, we easily understood that the degree of liberation gradually increased with increasing the e 1 and it could be demonstrated that the energy required for obtaining a certain degree of liberation dramatically decreased with increasing the e 1 . This calculation indicated the importance of preferential breakage at phase boundary in comminution with lower energy consumption, which could contribute better separation efficiency in the following solid-solid separation. In other words, the e 1 must become a good index for the DfR (Design for Recycling) as an “EcoDesign” from the viewpoint of compositional separation. The paper also describes several recent approaches to obtain a good liberation of structural components in comminution, such as (semi)-autogenous grinding, surface grinding, blasting in water, microwave pretreatment, and electrical disintegration.
粉碎作为物理富集预处理在资源回收中的作用
本文论证了粉碎对实现组分解放的重要性,以便建立有效的固-固分离工艺,特别是在矿物加工和资源回收领域。我们在选矿领域著名的Wiegel模型的相边界处引入了“优先破碎概率”指标e1,建立了一种独特的粉碎过程的解离模型。从结果不难看出,随着e1的增大,解离度逐渐增大,而达到一定解离度所需的能量随着e1的增大而急剧减小。计算结果表明,在较低能耗的粉碎过程中,相界优先破碎的重要性,有助于提高后续固-固分离的分离效率。换句话说,从成分分离的角度来看,e 1必须成为DfR(回收设计)作为“生态设计”的良好指标。本文还介绍了近年来在粉碎过程中获得结构部件良好解放的几种方法,如(半)自磨、表面磨、水中爆破、微波预处理和电崩解。
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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