Abstract
The production of ceramic products is one of the most material-intensive industries. The relevance of research is based on the need to develop new modern technologies and methods for the production of facing ceramic bricks, expanding the range of produced building ceramics, by introducing man-made waste into the composition of the ceramic charge. This is due to the annual increase in the volume of various non-recyclable industrial wastes, which can serve as cheap raw materials and modifiers that improve the properties of ceramics in some cases, and the depletion of natural clay raw materials used in the ceramics industry, which is an acute economic problem, as it affects the quality and cost. manufactured products. The study is aimed at the recycling and reuse of man-made waste, which will create a reserve of competitive raw materials for the production of facing bricks. The methods of utilization and processing of production wastes were studied, the advantages and disadvantages of each were identified, and the most optimal method was chosen, which was introduced into the technology of manufacturing ceramic facing bricks.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Kuvykin NA, Bubnov AG and Grinevich VI (2004) Hazardous industrial waste. Ivan. state chemical-technological un-t, Ivanovo, p 148
Pichugin EA (2013) Assessment of the impact of drilling waste on the environment. Young Scient 9:122–124
Tretyak AA, Yatsenko EA, Onofrienko SA, Karelskaya EV (2021) Identification of drilling wastes and their use. Bulletin of the Tomsk Polytechnic University, Georesource Engineering
Yatsenko EA, Tretyak AA, Chumakov AA, Golovko DA (2021) Prospects for the use of drilling fluids for the synthesis of aluminosilicate proppants. Mater Today Mater 38:1886–1888
Yatsenko EA, Goltsman BM, Chumakov AA, Vilbitskaya NA, Li W (2021) Research on the synthesis of proppants used for oil production by hydraulic lining. Mater Sci Forum 1037:181–188
Goltsman BM, Yatsenko EA, NYu, Komunzhieva, Yatsenko LA, Gerashchenko VS, Smoliy VA (2020) Influence of fluxes on the synthesis of porous materials based on native silicate raw materials. Glass Ceram (English translation of Glass and Ceramics) 77(5–6):240–244
Federal Agency for Technical Regulation and Metrology. Production of ceramic products (2015) BAT Bureau, Moscow, pp 66–78
Al'myashev VI and Gusarov VV (1999) Thermal methods of analysis: textbook. allowance, SPbGTU (LETI), St. Petersburg, p 40.
Wendlandt W (1978) Thermal methods of analysis. Per. from English. In: Stepanov VA, Bershtein VA (eds). Mir, Moscow, p 527
Ya S (1987) Theory of thermal analysis: physical and chemical properties of solid inorganic substances. Mir, Moscow, p 456
Savelyeva VN (ed) (1996) Landfill for the disposal and processing of drilling waste and oil production: Fundamental technological solutions. Book. 3. Development of fundamental solutions for the neutralization and disposal of drilling waste and oil-contaminated sands. NGDU, Surgut, p 101
Deneko Y (2014) About the problem of drilling waste processing. Oil Gas Siberia 1(14):29–30
Maksimovich VG and Bukov NN (2013) Neutralization of oil sludge and cleaning oil pipelines of oil deposits in the Krasnodar Territory. Materials of the XI International Seminar on Magnetic Resonance (spectroscopy, tomography and ecology). Rostov-on-Don, p 120
Aminova AS, Gaibullaev SA, Juraev KA (2015) Tech. The use of oil sludge is a rational way of their disposal. Young Scient 2:124–126
Pashchenko AA (1986) Physical chemistry of silicates: a textbook for universities. Higher school, Moscow, p 367
Budnikova PP, Poluboyarinova DN (eds) (1972) Chemical technology of ceramics and refractories: textbook. Stroyizdat, Moscow, p 552
Gorshkov BS, Saveliev VG, Fedorov NF (1988) Physical chemistry of silicates and other refractory compounds: textbook. Higher School, Moscow, p 400
Strelov KK (1985) Theoretical foundations of refractory technology: a tutorial. Metallurgy, Moscow, p 480
Acknowledgements
The work was performed in SRSPU (NPI) with the financial support of the Russian Science Foundation under agreement No. 20-79-10142 «Development of an effective technology for the synthesis of aluminosilicate proppants using oil and gas drilling waste from the Southern Federal District» (supervisor—A.A. Tretyak).
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2023 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this paper
Cite this paper
Romanyuk, V.S., Klimova, L.V., Kurdashov, V.M., Izvarin, A.I., Yatsenko, V.S. (2023). Prospects for the Use of Painted Ceramic Facing Materials Using Man-Made Waste. In: Radionov, A.A., Ulrikh, D.V., Timofeeva, S.S., Alekhin, V.N., Gasiyarov, V.R. (eds) Proceedings of the 6th International Conference on Construction, Architecture and Technosphere Safety. ICCATS 2022. Lecture Notes in Civil Engineering, vol 308. Springer, Cham. https://doi.org/10.1007/978-3-031-21120-1_4
Download citation
DOI: https://doi.org/10.1007/978-3-031-21120-1_4
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-21119-5
Online ISBN: 978-3-031-21120-1
eBook Packages: EngineeringEngineering (R0)