AbstractAbout AuthorsReferences
The analysis of the compliance of the hood furnace with the requirements of the best available technologies of ceramic production from the point of view of energy and ecology is given. The high energy efficiency of the hood furnace as a firing unit of various types of ceramic products - full-bodied, face, porous and clinker bricks, as well as ceramic tiles, porcelain stoneware, tiles, foam glass and foam ceramics is shown. It is substantiated that the use of recuperative burners and a jet-flare afterburner makes it possible to reduce the level of emissions of harmful substances to the requirements for classical heating furnaces, completely eliminating emissions of volatile organic substances into the atmosphere.
V.V. KURNOSOV, Candidate of Sciences (Physics and Mathematics) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
V.R. TIHONOVA, Engineer
V.R. TIHONOVA, Engineer
OOO «KOMAS» (8A, Martovskaya Street, Aprelevka, 143362, Moscow Region, Russian Federation)
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2. Guseva T.V., Zakharov A.I., Molchanova Ya.P., Vartanyan M.A., Akberov A.A. Best available technologies for the production of ceramic building materials as a tool for environmental regulation of the industry. Stroitel’nye Materialy [Construction Materials]. 2016. No. 4, pp. 4–9. (In Russian).
3. Informatsionno-tekhnicheskiy spravochnik «Proiz-vodstvo keramicheskikh izdeliy» ITS 4 [Information and technical reference book “Production of ceramic products” ITR 4]. Moscow: Byuro NDT. 2015. 222 p.
4. Amr Osama, Fatheya Soliman. Industrial Energy Efficiency. Benchmarking-Report of the Ceramics Sector. 2016. https://ieeegypt.org/wp-content/uploads/2017/01/BM-Report-Ceramics.pdf
5. GOST R 55646–2013. Resource saving. Production of bricks and ceramic stone. Guidance on the application of the best available technologies for improving energy efficiency and environmental performance. Moscow: Standartinform. 2014. (In Russian).
6. Preobrazhensky N.I. Kontrol’ za ratsional’nym ispol’zovaniyem gaza [Control over the rational use of gas]. Leningrad: Nedra. 1983. p. 368.
7. Ravich M.B. Uproshchennaya metodika teplotekhnicheskikh raschetov [Simplified method of heat engineering calculations]. Moscow: Nauka. 1964.
8. OECD (2019), Best Available Techniques for Preventing and Controlling Industrial Pollution, Activity 3: Measuring the Effectiveness of BAT Policies, Environment, Health and Safety, Environment Directorate, OECD.
9. Lecomte T., Ferreria De La Fuente J., Neuwahl F., Canova M., Pinasseau A., Jankov I., Brinkmann T., Roudier S. and Delgado Sancho L., Best available techniques (BAT) reference document for large combustion plants. Industrial emissions directive 2010/75/EU (Integrated Pollution Prevention and Control), EUR 28836 EN, Publications Office of the European Union, Luxembourg, 2017, ISBN 978-92-79-74303-0, doi:10.2760/949, JRC107769.
10. Shakhov I.I., Kurnosov V.V. Four-chamber kiln for firing ceramic products. Stroitel’nye Materialy [Construc-tion Materials]. 2003. No. 2. p. 24. (In Russian).
11. Decree of the Government of the Russian Federation of September 28, 2015 No. 1029 “On approval of the criteria for classifying objects that have a negative impact on the environment as objects of categories I, II, III and IV.” (In Russian).
For citation: Kurnosov V.V., Tihonova V.R. Hood furnace – universal unit for burning ceramics. Stroitel’nye Materialy [Construction Materials]. 2023. No. 5, pp. 48–52. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2023-813-5-48-52