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All issues Volume 563 (2024) E3S Web Conf., 563 (2024) 01019 References
Open Access
Issue
E3S Web Conf.
Volume 563, 2024
International Conference on Environmental Science, Technology and Engineering (ICESTE 2024)
Article Number 01019
Number of page(s) 9
Section Energy Science
DOI https://doi.org/10.1051/e3sconf/202456301019
Published online 30 August 2024
  1. G.D Dzhabarov, S.D. Baltabaev, et al., Primary processing of cotton. Light industry, Moscow (1978) [Google Scholar]
  2. A.G. Laptev, M.I. Farakhov, R.F. Mindubaev, Purification of gases from aerosol particles by separators with nozzles. Printing yard, Kazan (2003) [Google Scholar]
  3. E.Z. Zikrieev, Primary processing of raw cotton. Mehnat, Tashkent (1999) [Google Scholar]
  4. V.I. Levitov, I.K. Reshidov, V.M. Tkachenko, Smoke electrofilters. Energia, Moscow (1980) [Google Scholar]
  5. N.F. Olofinsky, Electrical methods of enrichment. Nedra, Moscow (1977) [Google Scholar]
  6. G.M.A. Aliyev, Dust extraction technique and purification of industrial gases. Metallurgy, Moscow (1986) [Google Scholar]
  7. Characteristics of MP-VTI devices. [Google Scholar]
  8. G.M.A. Aliyev, Power supply units for electric filters. -2nd ed., reprint.and additional. Energoizdat, Moscow (1981) [Google Scholar]
  9. V.I. Levitov, I.K. Reshidov, V.M.Tkachenko et al., Smoke electrofilters. Energia, Moscow (1980) [Google Scholar]
  10. G.D. Dzhabarov, S.D. Baltabaev, et al., Primary processing of cotton. Light industry, Moscow (1978) [Google Scholar]
  11. V.G. Kalinin, V.I. Perevodchikov, V.N. Shapenko, A.V. Shcherbakov, Promising power supply systems for dust-collecting electric filters of thermal power plants. Electricity 8, 50–55 (2000) [Google Scholar]
  12. V.I. Perevodchikov, V.N. Shapenko, A.V. Shcherbakov, V.G. Kalinin, V.M. Stuchenkov, Sources of alternating, pulsed and pulse-alternating power supply of electric filters. Electric stations 1, 56–61 (2003) [Google Scholar]
  13. S.N. Popov, A.V. Shcherbakov, The power circuit of the pulsed power supply of the electrofilter. High-voltage and converter equipment (Moscow) 123–136 (2001) [Google Scholar]
  14. A.V. Shcherbakov, Promising sources of alternating and pulsed power supply of an electrofilter and a reactor chamber. ELECTRO 5, 16–20 (2006) [Google Scholar]
  15. A.V. Shcherbakov, Power supply units for electrofilters and reaction chambers based on electron beam valves. Collection of reports of the second international conference "DUST and gas cleaning-2009", Moscow 125–129 (2009) [Google Scholar]
  16. A.V. Shcherbakov, Scientific and technical bases for creating power systems for high-voltage dust-cleaning devicesand gas cleaning based on electron beam valves and gas discharge devices.: Author.ref.dis.doct. Technical sciences, Moscow (2010) [Google Scholar]
  17. Sh.M. Muzafarov, Analysis of transients in the technological discharge gap of electrofilters. Problems of energy and resource saving (Tashkent) 1-2, 33–35 (2010) [Google Scholar]
  18. Sh.M. Muzafarov, Electrophysical processes in technological discharge gaps when powered by pulsed voltage. Problems of Informatics and energy (Tashkent) 5, 1109–1114 (2013) [Google Scholar]
  19. O.G. Kilichov, Analysis of processes in the supply chain of an ozone generator with sinusoidal and pulsed voltage. Mashinasozlik ilmiy-tekhnika (Tashkent) 3-4, 34–37 (2022) [Google Scholar]

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