Analysis of the influence of the size of particles on the choice of design and mode parameters of the vibro-impact screen during dehydration and separation of materials

Author:

Shevchenko Oleksandr,

Abstract

The article is aimed at the development of new methods of separation by size and dehydration of technogenic raw materials during vibro-impact screening. About 1 billion tons of coal enrichment waste with high coal content (25-70%) with up to 45% humidity have been accumulated in ash dumps and sludge settlers of Ukraine. A useful component can be removed from such waste. But traditional methods allow you to effectively separate only materials with particle sizes greater than 1 mm, and reduce the humidity of the finished product to 18-22% depending on the size The reasons for the decrease in the efficiency of these processes with a decrease in the particle size of the raw materials are analyzed. The conditions for increasing the intensification of these processes for raw materials of various sizes have been determined. The author analyzes the effect of particle size on the choice of mode and design parameters of a vibroimpact screen, which make it possible to intensify the loosening of raw materials and thereby increase the efficiency of separation by size and dehydration. Research data on dehydration and separation of materials with a size of + 0.4-1.0 mm are presented; + 0-0.4 mm and + 0-10.0 mm, where the average values of the results of five experiments in each mode are given. The proposed new method of vibroimpact screening is especially useful in the processing of technogenic raw materials of a wide range of sizes, when it is necessary to separate thin classes (as a rule, substandard product) and to dehydrate the finished (oversize) product as much as possible. The use of this method will increase the yield undersize product (-0.1 mm) to 75-80%, and reduce the humidity of the positive product to 4-7% As a result of the analysis for different classes of size the conditions provided are determined under which the maximum decrease in humidity and increase of minus product output is provided. The results obtained will be used to improve the process of separation by size and dehydration of technogenic raw materials, as well as to create a new vibro-impact screen.

Publisher

National Academy of Sciences of Ukraine (Co. LTD Ukrinformnauka) (Publications)

Reference16 articles.

1. 1. Bubnova, O. and Shevchenko, O. (2019), "Reduction of techno genic load from sludge collectors due to separation and dehydration of the stored material", Issue E3S Web Conf. Volume109, 2019 International Conference Essays of Mining Science and Practice. Article Number 00010. Number of page(s)10. DOI. https://doi.org/10.1051/e3sconf/201910900010. Published online 09 July 2019. E3S Web of Conferences 109, 00010 (2019).

2. 2. Lukasheva, T.T. (2009), "Technology and equipment for classification and enriching of building sands", Mining Journal, vol. 6, pp. 76-77.

3. 3. Shevchenko, A.I. (2017), "Improvement of technology and technological scheme for enrichment of wastes from mining and processing of building materials", Zbahachennya korysnykh kopalyn, no. 65(106), pp. 39-47.

4. 4. Shevchenko, A.I. (2017), "Substantiation of the choice of rational modes of the classification process with dewatering for highly efficient processing of sands", Geotechnical problems of field development: materials of the XV international scientific-practical conference (Dnipro, October 26, 2017), IGTM NAS of Ukraine.

5. 5. Shevchenko, A.I. (2017), "Justification of technology and equipment for the extraction of watered minerals", Modern technologies for the development of ore deposits. Ecological and economic consequences of the activity of the enterprises of the mining and metallurgical complex: materials of the IV international scientific-practical conference (Kryvyi Rih, November 24, 2017), pp. 59-60.

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