Vacuum sublimators with rheological displacement of the dispersed medium

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING Kompleksnoe Ispolzovanie Mineralnogo Syra Pub Date : 2022-09-06 DOI:10.31643/2023/6445.08
S. Trebukhov, V. N. Volodin, A.V. Nitcenko, A. Trebukhov, E.O. Kilibayev
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引用次数: 2

Abstract

Based on the analysis of designs and technological processes carried out in vacuum electric furnaces developed to date for the processing of dispersed materials by sublimation of volatile components from them, and problems associated with technological processes, technical solutions are proposed in the present work in which the movement of concentrate is carried out due to rheological properties with direct heating by radiation from the heater to the surface of the transported and mixing raw materials. During the development of the equipment, a concept was adopted in which the movement of material in the sublimation zone of the furnace is ensured due to rheological properties, which opens up the possibility of using materials inert to the sulfide atmosphere and realizing heat transfer by radiation to open areas of dispersed material. Technological tests on sublimation of arsenic sulfide compounds from granulated concentrates of Nezhdaninsky and Bakyrchik deposits have confirmed the prospects of such a constructive design of sublimation processes. The application of the developed equipment in practice will ensure the technical and economic efficiency of production in compliance with all environmental requirements with minimal impact on the environment, which is currently a fundamental indicator when choosing a particular technology.
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具有分散介质流变位移的真空升华器
根据对迄今为止开发的真空电炉的设计和工艺流程的分析,通过升华挥发性成分来处理分散材料,以及与技术流程相关的问题,在目前的工作中,提出了技术解决方案,其中精矿的运动是由于流变性能而进行的,通过从加热器到运输和混合原料表面的辐射直接加热。在设备的开发过程中,采用了一种概念,即由于流变性能,确保材料在炉内升华区的运动,这就为使用对硫化物气氛惰性的材料和通过辐射到分散材料的开放区域实现传热提供了可能。从Nezhdaninsky和Bakyrchik矿床的粒状精矿中升华硫化砷化合物的技术试验证实了这种升华过程的建设性设计的前景。开发的设备在实践中的应用将确保生产的技术和经济效率符合所有环境要求,对环境的影响最小,这是目前选择特定技术时的基本指标。
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