带真空出口的球磨机液环真空泵的选型

Yu. Chumikov, Yu. Rodionov, A. Skomorohova, M. Sokolov, O. Glivenkova, A. Sukhova
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引用次数: 0

摘要

许多行业都对粉末的使用感兴趣。同时,材料的研磨程度取决于预期用途;特别是在涂料生产中,必须确保颜料的研磨达到一定的细度。颗粒越小,遮盖力越强。然而,过高的研磨细度可能会降低颜料的遮盖力。建议在两节圆柱锥形球磨机中研磨颜料,并通过真空去除一定研磨度的颗粒。文章介绍了研磨机的设计,并展示了真空输送粉碎颜料的生产线示意图。这项工作的目的是在使用带真空出口的球磨机研磨固体有机材料时,确定气力输送真空管路的主要参数。提出了一种计算所开发的研磨机和气力输送线的几何、运动和动态参数的方法。通过对粉碎颗粒进行及时的真空清除,可显著降低过量研磨的能源成本。系统中的真空由液环真空泵产生和维持。介绍了所开发设备的各种运行方案:直接研磨、额外研磨和液环真空泵运行期间产生的额外液体再循环,这进一步降低了研磨期间的能源成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SELECTION OF LIQUID RING VACUUM PUMP FOR BALL MILL WITH VACUUM OUTLET
The use of powders is of interest in many industries. At the same time, the degree of grinding of materials depends on the intended purpose; in particular, in the production of paints, it is necessary to ensure a certain fineness of grinding of the pigment. The smaller the particles, the higher its hiding power. However, excessively high grinding fineness may reduce the hiding power of the pigment. It is proposed to grind the pigment in a two-section cylindrical-conical ball mill with vacuum removal of particles of a given degree of grinding. The article describes the design of the mill and shows a diagram of the line for vacuum transportation of the crushed pigment. The purpose of the work is to determine the main parameters of the vacuum line of pneumatic transport when grinding solid organic materials using a ball mill with a vacuum outlet. A method for calculating the geometric, kinematic and dynamic parameters of the developed mill and pneumatic transport line is presented. A significant reduction in energy costs for excess grinding is achieved through timely vacuum removal of crushed particles. The vacuum in the system is created and maintained by a liquid ring vacuum pump. Various options for the operation of the developed installation are described: direct grinding; additional grinding and recirculation of additional liquid generated during the operation of the liquid ring vacuum pump, which further reduces energy costs during grinding
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