DEVELOPMENT OF THE OPTIMAL DESIGN OF A CYCLONE APPARATUS WITH A FLUIDIZED BED FOR THE PROCESS OF METALS PNEUMATIC SEPARATION IN THE COMPOSITION OF INDUSTRIAL WASTE

Technical science and innovation Pub Date : 2020-09-30 DOI:10.51346/TSTU-01.20.3-77-0077

N. Yusupbekov, B. Yunusov, S. Gulyamov, I. Yunusov, F. Kasimov

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Abstract

Recycling of techno genic waste accumulated in recent years in Uzbekistan is currently a pressing problem. In this regard, this paper examines the issue of studying the process of enrichment of man-made waste in a cyclone with a fluidized bed. To conduct the experiment on experimental advanced devices with extended zones five types of samples of techno genic waste with the limits of 0.072÷0.078mm, 0.064÷0.070mm, 0.057÷0.063mm, 0.046÷0.055mm and 0.041÷0.044mm have been prepared. Nomograms have been obtained using mathematical models to determine particle size limits, which ensure good separation. Experiments have been carried out on the separation of techno genic waste in three structures of a cyclone with a fluidized bed: cylindrical, cylindrical with one extended zone and cylindrical with two extended zones. The best results are obtained in a fluidized bed machine with one extended zone. The following results were obtained for a sample with a 0.041÷0.044 mm limit size: the number of Mo increased 40 times, Ag increased 20 times, Mn increased 2.5 times, Cu increased 1 time, Ti increased 6.6 times, Ni decreased 125 times and the number of Si in the selected sample decreased from 20% to 12%.

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工业废料中金属成分气动分离过程中带流化床旋风装置的优化设计

乌兹别克斯坦近年来积累的技术废物的回收利用目前是一个紧迫的问题。在这方面，本文探讨了在旋风流化床中研究人工废物富集过程的问题。为了在扩展区实验先进装置上进行实验，制备了5种技术废物样品，其限为0.072÷0.078mm、0.064÷0.070mm、0.057÷0.063mm、0.046÷0.055mm和0.041÷0.044mm。利用数学模型得到了诺图图，以确定粒度极限，保证了良好的分离。对三种结构的流化床旋流器进行了工业垃圾的分离实验:圆柱形、圆柱形带一个扩展区和圆柱形带两个扩展区。在具有一个扩展区的流化床机上得到了最好的结果。在极限尺寸为0.041÷0.044 mm的样品中，Mo的数量增加了40倍，Ag增加了20倍，Mn增加了2.5倍，Cu增加了1倍，Ti增加了6.6倍，Ni减少了125倍，Si的数量从20%下降到12%。

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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Technical science and innovation

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