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Production of the Aluminosilicate Ceramic Materials Using Fly Ash from Thermal Power Plants (TPP)

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Refractories and Industrial Ceramics Aims and scope

Research has been conducted on the use of fly ash from TPP in masses based on a fireclay filler and a clay binder for the production of ceramic aluminosilicate materials for various purposes. It was found that the properties of ceramic materials depend on the clay binder:ash ratio. The regions with higher concentrations of ash in the charge and the firing temperature of samples that establish the properties of the final product are determined, which makes it possible to obtain materials with an apparent density of 1.06 – 1.47 g/cm3 and a compressive strength of 4 – 23 MPa.

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References

  1. Patent RU 2479518 S1, “Raw materials mixture for the production of lightweight concrete aggregate (foam ash)” [in Russian], V. A. Kutolin and V. A. Shirokikh; patent holder V. S. Sobolev Institute of Geology and Mineralogy of the Siberian Branch of the RAS (IGM SB RAS); application from 09.13.2011; published on 04.20.2013, bulletin No. 11. https://patents.google.com/patent/RU2479518C1/ru.

  2. L. A. Urkhanova and V. E. Rozina, “High-strength concrete using fly ash and silica fume” [in Russian], Vestnik Irkutskogo Gos. Tekhn. Univ., No. 10, 97 – 100 (2011). https://cyberleninka.ru/article/n/vysokoprochnyy-beton-s-ispolzovaniemzoly-unosa-i-mikrokremnezema.

  3. T. V. Vakalova, T. A. Khabas, I. B. Revva, and I. A. Pavlova, “Heat-insulating ceramic materials with a nanoporous structure made using gold-containing waste from thermal power plants” [in Russian], Novye Ogneupory, No. 12, 6 – 11 (2014).

  4. A. V. Kozlov, D. A. Zakharov, and O. I. Zhivotkov, “Study of the properties of fly ash of the Novocherkasskaya power plant and the search for areas of its application” [in Russian], Vestnik Belgorod. Gos. Tekhnol. Univ. im. V. G. Shukhova, No. 7, 12 – 17 (2018). https://cyberleninka.ru/article/n/izuchenie-svoystvzoly-unosa-novocherkasskoy-gres-i-poisk-oblasti-ee-primeneniya.

  5. V. Z. Abdrakhimov, D. Yu. Denisov, and A. V. Kolpakov, “Investigation of the thermal conductivity of heat-insulating materials from waste of the fuel and energy industry without the use of natural traditional materials” [in Russian], Naukhno-Metodicheskij |lektronnyj Zhurnal “Kontsept”, 3, 1051 – 1055 (2013). https://e-koncept.ru/2013/53213.htm.

  6. E. V. Fomenko, N. N. Anshits, N. G. Vasil’eva (et al.), “Composition and structure of the shell of aluminosilicate fly ash microspheres formed from the combustion of Ekibastuz coal” [in Russian], Khimiya Tverdogo Topliva, No. 4, 34 – 43 (2016). https://www.researchgate.net/publication/305785282_Sostav_i_stroenie_obolochki_alumosilikatnyh_mikrosfer_zoly-unosa_obrazuusihsa_ot_szigania_ekibastuzskogo_ugla.

  7. T. A. Vereshchagina, N. N. Anshits, I. D. Zykova, et al., “Obtaining cenospheres from energy ashes of stabilized composition and their properties” [in Russian], No. 9, 379 – 391 (2001). https://docplayer.ru/29174049-Poluchenie-cenosfer-iz-energetichskih-zol-stabilizirovannogo-sostava-i-ih-svoystva.html.

  8. B. Mason, Principles of Geochemistry [Russian translation], 3rd ed. (1966, USA), Nedra, Moscow (1971). 312 p. https://www.geikniga.org/books/10676.

    Google Scholar 

  9. I. A. Tagaev, S. K. Ochilova, M. Yu. Bojkhonova, et al., Molodoj Uchenyj, No. 23, 13 – 18 (2018).

  10. I. M. Levit, Ceramic Brick with Ash from Incineration of Sewage Sludge [in Russian], dissertation, Kraskovo (2003). https://tekhnosfera.com/keramicheskiy-kirpich-s-zoloy-ot-szhiganiya-osadkov-stochnyh-vod#ixzz6HmaXrUB5.

    Google Scholar 

  11. S. G. Vasil’kov, M. P. Elinzon, M. G. Lundina, Use of Power Plant Ash in the Production of Ceramic Wall Products and Porous Aggregates [in Russian], VNIIESM publ., Moscow (1972) 86 p.

    Google Scholar 

  12. V. A. Perepelitsin and M. N. Dunaeva, “Alkali resistance of refractory concretes”, abstracts of the Int. Conf. of Refractory and Metallurgical Workers (Moscow, April 19 – 20, 2018) [in Russian], Novye Ogneupory, No. 4, 48 – 49 (2018).

  13. I. D. Kascheev, K. G. Zemlyanoj, and I. A. Pavlova, “Ceramic materials based on bauxite clays of the Severo-Onega deposit” abstracts of the Int. Conf. of Refractory and Metallurgical Workers (Moscow, April 19 – 20, 2018) [in Russian], Novye Ogneupory, No. 4, 48 – 49 (2018).

  14. N. A. Topov, V. P. Barzakovskij, V. V. Lapin, N. N. Kurtseeva, and A. I. Bojkova, State Diagrams of Silicate Systems. A Reference. Issue 3. Ternary Silicate Systems [in Russian], Nauka, Leningrad (1972) 448 p.

    Google Scholar 

  15. Maung Soe Khin, Composite Ceramics Based on Silicon Carbide with Toxic Additives in the Systems Al2O3–TiO2–MnO, Al2O3–MnO–SiO2, MgO–SiO2, Al2O3(MgO)–MgO–SiO2 [in Russian], dissertation, Moscow (2019). https://diss.muctr.ru/media/autorefs/2019/06/2Αвтореферат K_M_C.pdf.

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Authors and Affiliations

  1. Institute of Material Sciences SPA “Physics – Sun”, Academy of Sciences of the Republic of Uzbekistan (Uzbekistan), Tashkent, Uzbekistan

    M. Kh. Rumi, Sh. K. Irmatova, Sh. A. Fayziev, E. M. Urazaeva, E. P. Mansurova & M. A. Zufarov

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  1. M. Kh. Rumi
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  2. Sh. K. Irmatova
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  3. Sh. A. Fayziev
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  4. E. M. Urazaeva
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  5. E. P. Mansurova
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  6. M. A. Zufarov
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Correspondence to M. Kh. Rumi.

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Translated from Novye Ogneupory, No. 5, pp. 37 – 40, May 2020.

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Rumi, M.K., Irmatova, S.K., Fayziev, S.A. et al. Production of the Aluminosilicate Ceramic Materials Using Fly Ash from Thermal Power Plants (TPP). Refract Ind Ceram 61, 281–284 (2020). https://doi.org/10.1007/s11148-020-00472-6

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  • DOI: https://doi.org/10.1007/s11148-020-00472-6

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