Silicon from sand is a promising technology for producing silicon of semiconductor quality
DOI:
https://doi.org/10.32347/tit.2022.51.0203Keywords:
quartz sand, polycrystalline silicon, semiconductor purity, mechanical activation, high-energy treatment, energy intensity, chlorination, low-temperature catalytic hydrogenationAbstract
An analysis of the methods for obtaining silicon of semiconductor quality determined the relevance of the issues of compliance of modern technologies with environmental requirements of today, as well as the possibilities of raw materials and energy supply for a potential increase in production volumes. The development of production requires a search for compromises between the needs of society and the consequences expressed in the environmental impact on nature, the growth in the consumption of raw materials and energy. The proposal to use quartz sand instead of quartzite is promising due to the solution of the problems of raw material supply for the production of silicon of semiconductor quality for many years to come. The technology of chlorination of quartz sands proposed for implementation has been tested in industrial conditions and, in addition to the problems of raw material supply, to a large extent solves the problems of environmental and energy supply.Within the framework of the set environmental task, the problems of decarbonization of production are first of all solved by eliminating the energy-consuming high-temperature process of carbothermal reduction of silicon. The proposed technological solution provides a compromise between environmental friendliness and energy efficiency by involving silicon-containing materials, technogenic wastes, as “energy donors” in physical and chemical processes. Chlorination of the prepared raw materials is carried out in the solid phase, which is an energy-efficient solution, as it eliminates the cost of energy to compensate for the latent energy of melting. The initial preparation of raw materials involves the procedure of mechanoactivation - energy-efficient activation of the raw material by destroying intercrystalline bonds. The use of “energy donors” in blending ensures that the chlorination process is carried out in the autothermal mode, reducing the specific consumption of chlorine for the process. The problems of high energy intensity in the production of silicon of semiconductor quality are also solved by adjusting the technological scheme with the exclusion of energy-consuming low-temperature processes.The implementation of the proposed technological solutions is focused on the maximum use of known technological equipment, which minimizes the costs of design and production development of the technology. Based on the practical data obtained, system solutions for integrating the new technology into the schemes of existing enterprises are proposed - providing variability of adaptation in terms of raw material supply and the range of produced polycrystalline silicon of both “electronic” and “solar” quality. Based on the practical data obtained, system solutions were proposed for integrating the new technology into the schemes of existing enterprises - providing variability of adaptation in terms of raw material supply and the range of produced polycrystalline silicon of both “electronic” and “solar” quality.
References
Kritskaya T.V., Sukach M.K., Bazhenov E.V. (2022). Quartz sand is an affordable inex-pensive raw material for electronics and photo-voltaics technologies. Underwater technologies: industrial and civil engineering, Iss.12, 15.
Shvartsman L.Ya., Prutskov D.V, Dodonov V.N., Merker R.K. (2015). The method of obtaining polycrystalline silicon. Patent of Ukraine UAU201407091. 2015.12.30. https://www.google.com/patents/WO2015199636A1?cl=ru.
Bogatyreva E.V. (2015). Development of the theory and practice of effective application of mechanical activation in the technology of hy-drometallurgical opening of oxygen-containing rare metal raw materials. Dissertation for the degree of Doctor of Technical Sciences, 05.16.02, Metallurgy of ferrous, non-ferrous and rare metals.
Borodulya V.A. (2015). Synthesis of silicon carbide in an electrothermal reactor with a flu-idized bed of carbon particles. Combustion, plasma chemistry, T.13, No.2, 92-102.
Prutskov D.V. Krivoruchko N.P. (2013). Ex-perience in the processing of silicon-containing effluents from the production of organo-chlorosilanes. Non-ferrous metals, Iss.3, 52-56.
Prutskov D.V., Krivoruchko N.P. (2013). New technical solutions in the production of silicon tetrachloride. Non-ferrous metals. Iss.11, 62-64.
Prutskov D.V., Lebedev V.N., Kryvoruchko N.P. (2008). Experience in using briquetted materials in silicon electrothermy. Non-ferrous metals, Iss.1, 63.
Prutskov D.V., Kryvoruchko N.P. (2010). Experience in the development of silicon smelting technology using SiC-containing materials. Non-ferrous metals, Iss.12, 53-55.
Kritskaya T.V. & Shvartsman L.Ya. (2014). Technologies and diagnostics of silicon, nano-meter structures and devices based on it. Abstracts of the X Conference on Actual Prob-lems of Physics, Materials Science. (Irkutsk, July 7-12, 2014). Excerpted from: http://conf.ict.nsc.ru/files/conferences/si2014/243821/Abstracts_of_the_Conference_Silicon 2014.pdf.
Prutskov D.V., Shvartsman L.Ya., Kryvo-ruchko N.P. (2015). Prospects for the intensi-fication of the quartz sand chlorination pro-cess. Non-ferrous metals, Iss.1, 57-60.
Drozhzhev, V.I., Ilyichev, V.A. (1968). Processing of titanium-silicon concentrates by chlorination. Metallurgy and chemistry of titanium, T.2, 105-110.
Drozhzhev V.I., Ilyichev, V.A. (1969). Chlo-rination of titanium-silicon concentrates. Abstracts II All-Union Conference on Chlorine Metallurgy of Rare Elements and Titanium.
Shvartsman L.Ya., Bazhenov E.V., Trotsen-ko E. A. (2016). The method of obtaining pol-ycrystalline silicon is inspired by tri-chlorosilane. Patent of Ukraine UA 107606. 10.06.2016. Authors: Base of patents. Excerpt-ed from: http://uapatents.com/11-107606-sposib-oderzhannya-polikristalichnogo-kremniyu vodnevim-vidnovlennyam-trikhlorsilanu.html.
Shvartsman L.Ya., Bazhenov E.V. Trotsenko E.A., Dodonov V.N. (2014). The process of hydrogen reduction of trichlorosilane in multi-rod reactors for the production of polycrystal-line silicon – new control possibilities for traditional technologies. Modern problems of metallurgy, Scientific Bulletin, Dept. Information technologies and systems, National Metallurgical Academy. Dnepropetrovsk, No.17, 84-92.
Shvartsman L.Ya., Trotsenko E.A., Bazhenov E.V., Bazhenov P.E. (2015). Evaluation of methods for measuring the rate of silicon deposition as a condition for ensuring the adequacy of the model for controlling the Siemens-Reactor System technologies. Regional interuniversity collection of scientific papers, National Metallurgical Academy, Dnepropetrovsk, No.4(99). 109-120.
Electrolysis of hydrochloric acid. Environmen-tally friendly production of chlorine. Brochure of ThyssenKrupp Uhde Chlorine Engineers, Germany http://www.tkisrus.com/assets/pdf/brochures/ru/TKIS-HCL-Electrolysis-ru.pdf.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2023 Тетяна Критская, Михайло Сукач, Євген Баженов
This work is licensed under a Creative Commons Attribution 4.0 International License.
Our journal abides by the CREATIVE COMMONS copyright rights and permissions for open access journals.
Authors, who are published in this journal, agree to the following conditions:
1. The authors reserve the right to authorship of the work and pass the first publication right of this work to the journal under the terms of a Creative Commons Attribution License, which allows others to freely distribute the published research with the obligatory reference to the authors of the original work and the first publication of the work in this journal.
2. The authors have the right to conclude separate supplement agreements that relate to non-exclusive work distribution in the form in which it has been published by the journal (for example, to upload the work to the online storage of the journal or publish it as part of a monograph), provided that the reference to the first publication of the work in this journal is included.
