就未来30年选矿工业如何发展提出了自己的观点。重申了在原料生产方面,选矿工业仍是一个有活力的行业。废物处理为选矿工业提供了广阔的发展空间。我们现在熟悉的冶金生产工序(采矿→选矿→提炼)将变得更加相互交叉。就地选矿(地下开采)将从理论变为现实。利用在化学处理(湿法和火法冶金)中变化了的物理特性进行矿物回收的可能将会出现。在一段磨矿方面,自磨和半自磨会有些小的改进,但不会有大的突破,但再磨作业改进的前景是广阔的。浮选方面,机械浮选槽供应商积极参与将加速气泡/矿粒反应器的设计进程。重选仍是潜心钻研的发明家需要攻克的堡垒,但作者预测,在废物处理方面,重选将有新的突破,文章最后阐述了“研究工作的循环过程”(researchcycle)以及小型高科技企业和大学研究中心的发展标志。 On the next 30 years how to develop the dressing industry made its own point of view. Reiterated that in the production of raw materials, the dressing industry is still a dynamic industry. Waste treatment provides a great room for growth in the mineral processing industry. We are now familiar with the metallurgical production processes (mining → beneficiation → refining) will become more interwoven. In-situ beneficiation (underground mining) will change from theory to reality. The possibility of mineral recovery using the changed physical properties in chemical treatment (wet and pyrometallurgical) may emerge. In a section of grinding, the self-polishing and semi-self-grinding will be slightly improved, but there will be no major breakthrough, but the prospect of resurfacing operations is vast. In the area of ​​flotation, the active participation of mechanical flotation tank suppliers will speed up the design of bubble / ore reactor processes. The re-election is still a stronghold for inventors who are devoted to research but the authors predict that there will be new breakthroughs in re-election in waste management. The article concludes with a discussion of the “research cycle” of research work and small high-tech enterprises And the development of university research center logo.